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c906108c | 1 | \input texinfo @c -*-texinfo-*- |
c02a867d | 2 | @c Copyright (C) 1988, 1989, 1990, 1991, 1992, 1993, 1994, 1995, 1996, 1998, |
65d12d83 | 3 | @c 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2008 |
c906108c SS |
4 | @c Free Software Foundation, Inc. |
5 | @c | |
5d161b24 | 6 | @c %**start of header |
c906108c SS |
7 | @c makeinfo ignores cmds prev to setfilename, so its arg cannot make use |
8 | @c of @set vars. However, you can override filename with makeinfo -o. | |
9 | @setfilename gdb.info | |
10 | @c | |
11 | @include gdb-cfg.texi | |
12 | @c | |
c906108c | 13 | @settitle Debugging with @value{GDBN} |
c906108c SS |
14 | @setchapternewpage odd |
15 | @c %**end of header | |
16 | ||
17 | @iftex | |
18 | @c @smallbook | |
19 | @c @cropmarks | |
20 | @end iftex | |
21 | ||
22 | @finalout | |
23 | @syncodeindex ky cp | |
24 | ||
41afff9a | 25 | @c readline appendices use @vindex, @findex and @ftable, |
48e934c6 | 26 | @c annotate.texi and gdbmi use @findex. |
c906108c | 27 | @syncodeindex vr cp |
41afff9a | 28 | @syncodeindex fn cp |
c906108c SS |
29 | |
30 | @c !!set GDB manual's edition---not the same as GDB version! | |
9fe8321b | 31 | @c This is updated by GNU Press. |
e9c75b65 | 32 | @set EDITION Ninth |
c906108c | 33 | |
87885426 FN |
34 | @c !!set GDB edit command default editor |
35 | @set EDITOR /bin/ex | |
c906108c | 36 | |
6c0e9fb3 | 37 | @c THIS MANUAL REQUIRES TEXINFO 4.0 OR LATER. |
c906108c | 38 | |
c906108c | 39 | @c This is a dir.info fragment to support semi-automated addition of |
6d2ebf8b | 40 | @c manuals to an info tree. |
03727ca6 | 41 | @dircategory Software development |
96a2c332 | 42 | @direntry |
03727ca6 | 43 | * Gdb: (gdb). The GNU debugger. |
96a2c332 SS |
44 | @end direntry |
45 | ||
c906108c SS |
46 | @ifinfo |
47 | This file documents the @sc{gnu} debugger @value{GDBN}. | |
48 | ||
49 | ||
9fe8321b AC |
50 | This is the @value{EDITION} Edition, of @cite{Debugging with |
51 | @value{GDBN}: the @sc{gnu} Source-Level Debugger} for @value{GDBN} | |
c16158bc JM |
52 | @ifset VERSION_PACKAGE |
53 | @value{VERSION_PACKAGE} | |
54 | @end ifset | |
9fe8321b | 55 | Version @value{GDBVN}. |
c906108c | 56 | |
8a037dd7 | 57 | Copyright (C) 1988, 1989, 1990, 1991, 1992, 1993, 1994, 1995, 1996, 1998,@* |
b620eb07 | 58 | 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006@* |
7d51c7de | 59 | Free Software Foundation, Inc. |
c906108c | 60 | |
e9c75b65 EZ |
61 | Permission is granted to copy, distribute and/or modify this document |
62 | under the terms of the GNU Free Documentation License, Version 1.1 or | |
63 | any later version published by the Free Software Foundation; with the | |
959acfd1 EZ |
64 | Invariant Sections being ``Free Software'' and ``Free Software Needs |
65 | Free Documentation'', with the Front-Cover Texts being ``A GNU Manual,'' | |
66 | and with the Back-Cover Texts as in (a) below. | |
c906108c | 67 | |
b8533aec DJ |
68 | (a) The FSF's Back-Cover Text is: ``You are free to copy and modify |
69 | this GNU Manual. Buying copies from GNU Press supports the FSF in | |
70 | developing GNU and promoting software freedom.'' | |
c906108c SS |
71 | @end ifinfo |
72 | ||
73 | @titlepage | |
74 | @title Debugging with @value{GDBN} | |
75 | @subtitle The @sc{gnu} Source-Level Debugger | |
c906108c | 76 | @sp 1 |
c906108c | 77 | @subtitle @value{EDITION} Edition, for @value{GDBN} version @value{GDBVN} |
c16158bc JM |
78 | @ifset VERSION_PACKAGE |
79 | @sp 1 | |
80 | @subtitle @value{VERSION_PACKAGE} | |
81 | @end ifset | |
9e9c5ae7 | 82 | @author Richard Stallman, Roland Pesch, Stan Shebs, et al. |
c906108c | 83 | @page |
c906108c SS |
84 | @tex |
85 | {\parskip=0pt | |
c16158bc | 86 | \hfill (Send bugs and comments on @value{GDBN} to @value{BUGURL}.)\par |
c906108c SS |
87 | \hfill {\it Debugging with @value{GDBN}}\par |
88 | \hfill \TeX{}info \texinfoversion\par | |
89 | } | |
90 | @end tex | |
53a5351d | 91 | |
c906108c | 92 | @vskip 0pt plus 1filll |
8a037dd7 | 93 | Copyright @copyright{} 1988, 1989, 1990, 1991, 1992, 1993, 1994, 1995, |
b620eb07 | 94 | 1996, 1998, 1999, 2000, 2001, 2002, 2003, 2004, 2006 |
7d51c7de | 95 | Free Software Foundation, Inc. |
c906108c | 96 | @sp 2 |
c906108c | 97 | Published by the Free Software Foundation @* |
c02a867d EZ |
98 | 51 Franklin Street, Fifth Floor, |
99 | Boston, MA 02110-1301, USA@* | |
6d2ebf8b | 100 | ISBN 1-882114-77-9 @* |
e9c75b65 EZ |
101 | |
102 | Permission is granted to copy, distribute and/or modify this document | |
103 | under the terms of the GNU Free Documentation License, Version 1.1 or | |
104 | any later version published by the Free Software Foundation; with the | |
959acfd1 EZ |
105 | Invariant Sections being ``Free Software'' and ``Free Software Needs |
106 | Free Documentation'', with the Front-Cover Texts being ``A GNU Manual,'' | |
107 | and with the Back-Cover Texts as in (a) below. | |
e9c75b65 | 108 | |
b8533aec DJ |
109 | (a) The FSF's Back-Cover Text is: ``You are free to copy and modify |
110 | this GNU Manual. Buying copies from GNU Press supports the FSF in | |
111 | developing GNU and promoting software freedom.'' | |
3fb6a982 JB |
112 | @page |
113 | This edition of the GDB manual is dedicated to the memory of Fred | |
114 | Fish. Fred was a long-standing contributor to GDB and to Free | |
115 | software in general. We will miss him. | |
c906108c SS |
116 | @end titlepage |
117 | @page | |
118 | ||
6c0e9fb3 | 119 | @ifnottex |
6d2ebf8b SS |
120 | @node Top, Summary, (dir), (dir) |
121 | ||
c906108c SS |
122 | @top Debugging with @value{GDBN} |
123 | ||
124 | This file describes @value{GDBN}, the @sc{gnu} symbolic debugger. | |
125 | ||
c16158bc JM |
126 | This is the @value{EDITION} Edition, for @value{GDBN} |
127 | @ifset VERSION_PACKAGE | |
128 | @value{VERSION_PACKAGE} | |
129 | @end ifset | |
130 | Version @value{GDBVN}. | |
c906108c | 131 | |
b620eb07 | 132 | Copyright (C) 1988-2006 Free Software Foundation, Inc. |
6d2ebf8b | 133 | |
3fb6a982 JB |
134 | This edition of the GDB manual is dedicated to the memory of Fred |
135 | Fish. Fred was a long-standing contributor to GDB and to Free | |
136 | software in general. We will miss him. | |
137 | ||
6d2ebf8b SS |
138 | @menu |
139 | * Summary:: Summary of @value{GDBN} | |
140 | * Sample Session:: A sample @value{GDBN} session | |
141 | ||
142 | * Invocation:: Getting in and out of @value{GDBN} | |
143 | * Commands:: @value{GDBN} commands | |
144 | * Running:: Running programs under @value{GDBN} | |
145 | * Stopping:: Stopping and continuing | |
146 | * Stack:: Examining the stack | |
147 | * Source:: Examining source files | |
148 | * Data:: Examining data | |
e2e0bcd1 | 149 | * Macros:: Preprocessor Macros |
b37052ae | 150 | * Tracepoints:: Debugging remote targets non-intrusively |
df0cd8c5 | 151 | * Overlays:: Debugging programs that use overlays |
6d2ebf8b SS |
152 | |
153 | * Languages:: Using @value{GDBN} with different languages | |
154 | ||
155 | * Symbols:: Examining the symbol table | |
156 | * Altering:: Altering execution | |
157 | * GDB Files:: @value{GDBN} files | |
158 | * Targets:: Specifying a debugging target | |
6b2f586d | 159 | * Remote Debugging:: Debugging remote programs |
6d2ebf8b SS |
160 | * Configurations:: Configuration-specific information |
161 | * Controlling GDB:: Controlling @value{GDBN} | |
162 | * Sequences:: Canned sequences of commands | |
21c294e6 | 163 | * Interpreters:: Command Interpreters |
c8f4133a | 164 | * TUI:: @value{GDBN} Text User Interface |
6d2ebf8b | 165 | * Emacs:: Using @value{GDBN} under @sc{gnu} Emacs |
7162c0ca | 166 | * GDB/MI:: @value{GDBN}'s Machine Interface. |
c8f4133a | 167 | * Annotations:: @value{GDBN}'s annotation interface. |
6d2ebf8b SS |
168 | |
169 | * GDB Bugs:: Reporting bugs in @value{GDBN} | |
6d2ebf8b SS |
170 | |
171 | * Command Line Editing:: Command Line Editing | |
172 | * Using History Interactively:: Using History Interactively | |
0869d01b | 173 | * Formatting Documentation:: How to format and print @value{GDBN} documentation |
6d2ebf8b | 174 | * Installing GDB:: Installing GDB |
eb12ee30 | 175 | * Maintenance Commands:: Maintenance Commands |
e0ce93ac | 176 | * Remote Protocol:: GDB Remote Serial Protocol |
f418dd93 | 177 | * Agent Expressions:: The GDB Agent Expression Mechanism |
23181151 DJ |
178 | * Target Descriptions:: How targets can describe themselves to |
179 | @value{GDBN} | |
aab4e0ec AC |
180 | * Copying:: GNU General Public License says |
181 | how you can copy and share GDB | |
6826cf00 | 182 | * GNU Free Documentation License:: The license for this documentation |
6d2ebf8b SS |
183 | * Index:: Index |
184 | @end menu | |
185 | ||
6c0e9fb3 | 186 | @end ifnottex |
c906108c | 187 | |
449f3b6c | 188 | @contents |
449f3b6c | 189 | |
6d2ebf8b | 190 | @node Summary |
c906108c SS |
191 | @unnumbered Summary of @value{GDBN} |
192 | ||
193 | The purpose of a debugger such as @value{GDBN} is to allow you to see what is | |
194 | going on ``inside'' another program while it executes---or what another | |
195 | program was doing at the moment it crashed. | |
196 | ||
197 | @value{GDBN} can do four main kinds of things (plus other things in support of | |
198 | these) to help you catch bugs in the act: | |
199 | ||
200 | @itemize @bullet | |
201 | @item | |
202 | Start your program, specifying anything that might affect its behavior. | |
203 | ||
204 | @item | |
205 | Make your program stop on specified conditions. | |
206 | ||
207 | @item | |
208 | Examine what has happened, when your program has stopped. | |
209 | ||
210 | @item | |
211 | Change things in your program, so you can experiment with correcting the | |
212 | effects of one bug and go on to learn about another. | |
213 | @end itemize | |
214 | ||
49efadf5 | 215 | You can use @value{GDBN} to debug programs written in C and C@t{++}. |
79a6e687 | 216 | For more information, see @ref{Supported Languages,,Supported Languages}. |
c906108c SS |
217 | For more information, see @ref{C,,C and C++}. |
218 | ||
cce74817 | 219 | @cindex Modula-2 |
e632838e AC |
220 | Support for Modula-2 is partial. For information on Modula-2, see |
221 | @ref{Modula-2,,Modula-2}. | |
c906108c | 222 | |
cce74817 JM |
223 | @cindex Pascal |
224 | Debugging Pascal programs which use sets, subranges, file variables, or | |
225 | nested functions does not currently work. @value{GDBN} does not support | |
226 | entering expressions, printing values, or similar features using Pascal | |
227 | syntax. | |
c906108c | 228 | |
c906108c SS |
229 | @cindex Fortran |
230 | @value{GDBN} can be used to debug programs written in Fortran, although | |
53a5351d | 231 | it may be necessary to refer to some variables with a trailing |
cce74817 | 232 | underscore. |
c906108c | 233 | |
b37303ee AF |
234 | @value{GDBN} can be used to debug programs written in Objective-C, |
235 | using either the Apple/NeXT or the GNU Objective-C runtime. | |
236 | ||
c906108c SS |
237 | @menu |
238 | * Free Software:: Freely redistributable software | |
239 | * Contributors:: Contributors to GDB | |
240 | @end menu | |
241 | ||
6d2ebf8b | 242 | @node Free Software |
79a6e687 | 243 | @unnumberedsec Free Software |
c906108c | 244 | |
5d161b24 | 245 | @value{GDBN} is @dfn{free software}, protected by the @sc{gnu} |
c906108c SS |
246 | General Public License |
247 | (GPL). The GPL gives you the freedom to copy or adapt a licensed | |
248 | program---but every person getting a copy also gets with it the | |
249 | freedom to modify that copy (which means that they must get access to | |
250 | the source code), and the freedom to distribute further copies. | |
251 | Typical software companies use copyrights to limit your freedoms; the | |
252 | Free Software Foundation uses the GPL to preserve these freedoms. | |
253 | ||
254 | Fundamentally, the General Public License is a license which says that | |
255 | you have these freedoms and that you cannot take these freedoms away | |
256 | from anyone else. | |
257 | ||
2666264b | 258 | @unnumberedsec Free Software Needs Free Documentation |
959acfd1 EZ |
259 | |
260 | The biggest deficiency in the free software community today is not in | |
261 | the software---it is the lack of good free documentation that we can | |
262 | include with the free software. Many of our most important | |
263 | programs do not come with free reference manuals and free introductory | |
264 | texts. Documentation is an essential part of any software package; | |
265 | when an important free software package does not come with a free | |
266 | manual and a free tutorial, that is a major gap. We have many such | |
267 | gaps today. | |
268 | ||
269 | Consider Perl, for instance. The tutorial manuals that people | |
270 | normally use are non-free. How did this come about? Because the | |
271 | authors of those manuals published them with restrictive terms---no | |
272 | copying, no modification, source files not available---which exclude | |
273 | them from the free software world. | |
274 | ||
275 | That wasn't the first time this sort of thing happened, and it was far | |
276 | from the last. Many times we have heard a GNU user eagerly describe a | |
277 | manual that he is writing, his intended contribution to the community, | |
278 | only to learn that he had ruined everything by signing a publication | |
279 | contract to make it non-free. | |
280 | ||
281 | Free documentation, like free software, is a matter of freedom, not | |
282 | price. The problem with the non-free manual is not that publishers | |
283 | charge a price for printed copies---that in itself is fine. (The Free | |
284 | Software Foundation sells printed copies of manuals, too.) The | |
285 | problem is the restrictions on the use of the manual. Free manuals | |
286 | are available in source code form, and give you permission to copy and | |
287 | modify. Non-free manuals do not allow this. | |
288 | ||
289 | The criteria of freedom for a free manual are roughly the same as for | |
290 | free software. Redistribution (including the normal kinds of | |
291 | commercial redistribution) must be permitted, so that the manual can | |
292 | accompany every copy of the program, both on-line and on paper. | |
293 | ||
294 | Permission for modification of the technical content is crucial too. | |
295 | When people modify the software, adding or changing features, if they | |
296 | are conscientious they will change the manual too---so they can | |
297 | provide accurate and clear documentation for the modified program. A | |
298 | manual that leaves you no choice but to write a new manual to document | |
299 | a changed version of the program is not really available to our | |
300 | community. | |
301 | ||
302 | Some kinds of limits on the way modification is handled are | |
303 | acceptable. For example, requirements to preserve the original | |
304 | author's copyright notice, the distribution terms, or the list of | |
305 | authors, are ok. It is also no problem to require modified versions | |
306 | to include notice that they were modified. Even entire sections that | |
307 | may not be deleted or changed are acceptable, as long as they deal | |
308 | with nontechnical topics (like this one). These kinds of restrictions | |
309 | are acceptable because they don't obstruct the community's normal use | |
310 | of the manual. | |
311 | ||
312 | However, it must be possible to modify all the @emph{technical} | |
313 | content of the manual, and then distribute the result in all the usual | |
314 | media, through all the usual channels. Otherwise, the restrictions | |
315 | obstruct the use of the manual, it is not free, and we need another | |
316 | manual to replace it. | |
317 | ||
318 | Please spread the word about this issue. Our community continues to | |
319 | lose manuals to proprietary publishing. If we spread the word that | |
320 | free software needs free reference manuals and free tutorials, perhaps | |
321 | the next person who wants to contribute by writing documentation will | |
322 | realize, before it is too late, that only free manuals contribute to | |
323 | the free software community. | |
324 | ||
325 | If you are writing documentation, please insist on publishing it under | |
326 | the GNU Free Documentation License or another free documentation | |
327 | license. Remember that this decision requires your approval---you | |
328 | don't have to let the publisher decide. Some commercial publishers | |
329 | will use a free license if you insist, but they will not propose the | |
330 | option; it is up to you to raise the issue and say firmly that this is | |
331 | what you want. If the publisher you are dealing with refuses, please | |
332 | try other publishers. If you're not sure whether a proposed license | |
42584a72 | 333 | is free, write to @email{licensing@@gnu.org}. |
959acfd1 EZ |
334 | |
335 | You can encourage commercial publishers to sell more free, copylefted | |
336 | manuals and tutorials by buying them, and particularly by buying | |
337 | copies from the publishers that paid for their writing or for major | |
338 | improvements. Meanwhile, try to avoid buying non-free documentation | |
339 | at all. Check the distribution terms of a manual before you buy it, | |
340 | and insist that whoever seeks your business must respect your freedom. | |
72c9928d EZ |
341 | Check the history of the book, and try to reward the publishers that |
342 | have paid or pay the authors to work on it. | |
959acfd1 EZ |
343 | |
344 | The Free Software Foundation maintains a list of free documentation | |
345 | published by other publishers, at | |
346 | @url{http://www.fsf.org/doc/other-free-books.html}. | |
347 | ||
6d2ebf8b | 348 | @node Contributors |
96a2c332 SS |
349 | @unnumberedsec Contributors to @value{GDBN} |
350 | ||
351 | Richard Stallman was the original author of @value{GDBN}, and of many | |
352 | other @sc{gnu} programs. Many others have contributed to its | |
353 | development. This section attempts to credit major contributors. One | |
354 | of the virtues of free software is that everyone is free to contribute | |
355 | to it; with regret, we cannot actually acknowledge everyone here. The | |
356 | file @file{ChangeLog} in the @value{GDBN} distribution approximates a | |
c906108c SS |
357 | blow-by-blow account. |
358 | ||
359 | Changes much prior to version 2.0 are lost in the mists of time. | |
360 | ||
361 | @quotation | |
362 | @emph{Plea:} Additions to this section are particularly welcome. If you | |
363 | or your friends (or enemies, to be evenhanded) have been unfairly | |
364 | omitted from this list, we would like to add your names! | |
365 | @end quotation | |
366 | ||
367 | So that they may not regard their many labors as thankless, we | |
368 | particularly thank those who shepherded @value{GDBN} through major | |
369 | releases: | |
7ba3cf9c | 370 | Andrew Cagney (releases 6.3, 6.2, 6.1, 6.0, 5.3, 5.2, 5.1 and 5.0); |
c906108c SS |
371 | Jim Blandy (release 4.18); |
372 | Jason Molenda (release 4.17); | |
373 | Stan Shebs (release 4.14); | |
374 | Fred Fish (releases 4.16, 4.15, 4.13, 4.12, 4.11, 4.10, and 4.9); | |
375 | Stu Grossman and John Gilmore (releases 4.8, 4.7, 4.6, 4.5, and 4.4); | |
376 | John Gilmore (releases 4.3, 4.2, 4.1, 4.0, and 3.9); | |
377 | Jim Kingdon (releases 3.5, 3.4, and 3.3); | |
378 | and Randy Smith (releases 3.2, 3.1, and 3.0). | |
379 | ||
380 | Richard Stallman, assisted at various times by Peter TerMaat, Chris | |
381 | Hanson, and Richard Mlynarik, handled releases through 2.8. | |
382 | ||
b37052ae EZ |
383 | Michael Tiemann is the author of most of the @sc{gnu} C@t{++} support |
384 | in @value{GDBN}, with significant additional contributions from Per | |
385 | Bothner and Daniel Berlin. James Clark wrote the @sc{gnu} C@t{++} | |
386 | demangler. Early work on C@t{++} was by Peter TerMaat (who also did | |
387 | much general update work leading to release 3.0). | |
c906108c | 388 | |
b37052ae | 389 | @value{GDBN} uses the BFD subroutine library to examine multiple |
c906108c SS |
390 | object-file formats; BFD was a joint project of David V. |
391 | Henkel-Wallace, Rich Pixley, Steve Chamberlain, and John Gilmore. | |
392 | ||
393 | David Johnson wrote the original COFF support; Pace Willison did | |
394 | the original support for encapsulated COFF. | |
395 | ||
0179ffac | 396 | Brent Benson of Harris Computer Systems contributed DWARF 2 support. |
c906108c SS |
397 | |
398 | Adam de Boor and Bradley Davis contributed the ISI Optimum V support. | |
399 | Per Bothner, Noboyuki Hikichi, and Alessandro Forin contributed MIPS | |
400 | support. | |
401 | Jean-Daniel Fekete contributed Sun 386i support. | |
402 | Chris Hanson improved the HP9000 support. | |
403 | Noboyuki Hikichi and Tomoyuki Hasei contributed Sony/News OS 3 support. | |
404 | David Johnson contributed Encore Umax support. | |
405 | Jyrki Kuoppala contributed Altos 3068 support. | |
406 | Jeff Law contributed HP PA and SOM support. | |
407 | Keith Packard contributed NS32K support. | |
408 | Doug Rabson contributed Acorn Risc Machine support. | |
409 | Bob Rusk contributed Harris Nighthawk CX-UX support. | |
410 | Chris Smith contributed Convex support (and Fortran debugging). | |
411 | Jonathan Stone contributed Pyramid support. | |
412 | Michael Tiemann contributed SPARC support. | |
413 | Tim Tucker contributed support for the Gould NP1 and Gould Powernode. | |
414 | Pace Willison contributed Intel 386 support. | |
415 | Jay Vosburgh contributed Symmetry support. | |
a37295f9 | 416 | Marko Mlinar contributed OpenRISC 1000 support. |
c906108c | 417 | |
1104b9e7 | 418 | Andreas Schwab contributed M68K @sc{gnu}/Linux support. |
c906108c SS |
419 | |
420 | Rich Schaefer and Peter Schauer helped with support of SunOS shared | |
421 | libraries. | |
422 | ||
423 | Jay Fenlason and Roland McGrath ensured that @value{GDBN} and GAS agree | |
424 | about several machine instruction sets. | |
425 | ||
426 | Patrick Duval, Ted Goldstein, Vikram Koka and Glenn Engel helped develop | |
427 | remote debugging. Intel Corporation, Wind River Systems, AMD, and ARM | |
428 | contributed remote debugging modules for the i960, VxWorks, A29K UDI, | |
429 | and RDI targets, respectively. | |
430 | ||
431 | Brian Fox is the author of the readline libraries providing | |
432 | command-line editing and command history. | |
433 | ||
7a292a7a SS |
434 | Andrew Beers of SUNY Buffalo wrote the language-switching code, the |
435 | Modula-2 support, and contributed the Languages chapter of this manual. | |
c906108c | 436 | |
5d161b24 | 437 | Fred Fish wrote most of the support for Unix System Vr4. |
b37052ae | 438 | He also enhanced the command-completion support to cover C@t{++} overloaded |
c906108c | 439 | symbols. |
c906108c | 440 | |
f24c5e49 KI |
441 | Hitachi America (now Renesas America), Ltd. sponsored the support for |
442 | H8/300, H8/500, and Super-H processors. | |
c906108c SS |
443 | |
444 | NEC sponsored the support for the v850, Vr4xxx, and Vr5xxx processors. | |
445 | ||
f24c5e49 KI |
446 | Mitsubishi (now Renesas) sponsored the support for D10V, D30V, and M32R/D |
447 | processors. | |
c906108c SS |
448 | |
449 | Toshiba sponsored the support for the TX39 Mips processor. | |
450 | ||
451 | Matsushita sponsored the support for the MN10200 and MN10300 processors. | |
452 | ||
96a2c332 | 453 | Fujitsu sponsored the support for SPARClite and FR30 processors. |
c906108c SS |
454 | |
455 | Kung Hsu, Jeff Law, and Rick Sladkey added support for hardware | |
456 | watchpoints. | |
457 | ||
458 | Michael Snyder added support for tracepoints. | |
459 | ||
460 | Stu Grossman wrote gdbserver. | |
461 | ||
462 | Jim Kingdon, Peter Schauer, Ian Taylor, and Stu Grossman made | |
96a2c332 | 463 | nearly innumerable bug fixes and cleanups throughout @value{GDBN}. |
c906108c SS |
464 | |
465 | The following people at the Hewlett-Packard Company contributed | |
466 | support for the PA-RISC 2.0 architecture, HP-UX 10.20, 10.30, and 11.0 | |
b37052ae | 467 | (narrow mode), HP's implementation of kernel threads, HP's aC@t{++} |
d0d5df6f AC |
468 | compiler, and the Text User Interface (nee Terminal User Interface): |
469 | Ben Krepp, Richard Title, John Bishop, Susan Macchia, Kathy Mann, | |
470 | Satish Pai, India Paul, Steve Rehrauer, and Elena Zannoni. Kim Haase | |
471 | provided HP-specific information in this manual. | |
c906108c | 472 | |
b37052ae EZ |
473 | DJ Delorie ported @value{GDBN} to MS-DOS, for the DJGPP project. |
474 | Robert Hoehne made significant contributions to the DJGPP port. | |
475 | ||
96a2c332 SS |
476 | Cygnus Solutions has sponsored @value{GDBN} maintenance and much of its |
477 | development since 1991. Cygnus engineers who have worked on @value{GDBN} | |
2df3850c JM |
478 | fulltime include Mark Alexander, Jim Blandy, Per Bothner, Kevin |
479 | Buettner, Edith Epstein, Chris Faylor, Fred Fish, Martin Hunt, Jim | |
480 | Ingham, John Gilmore, Stu Grossman, Kung Hsu, Jim Kingdon, John Metzler, | |
481 | Fernando Nasser, Geoffrey Noer, Dawn Perchik, Rich Pixley, Zdenek | |
482 | Radouch, Keith Seitz, Stan Shebs, David Taylor, and Elena Zannoni. In | |
483 | addition, Dave Brolley, Ian Carmichael, Steve Chamberlain, Nick Clifton, | |
484 | JT Conklin, Stan Cox, DJ Delorie, Ulrich Drepper, Frank Eigler, Doug | |
485 | Evans, Sean Fagan, David Henkel-Wallace, Richard Henderson, Jeff | |
486 | Holcomb, Jeff Law, Jim Lemke, Tom Lord, Bob Manson, Michael Meissner, | |
487 | Jason Merrill, Catherine Moore, Drew Moseley, Ken Raeburn, Gavin | |
488 | Romig-Koch, Rob Savoye, Jamie Smith, Mike Stump, Ian Taylor, Angela | |
489 | Thomas, Michael Tiemann, Tom Tromey, Ron Unrau, Jim Wilson, and David | |
490 | Zuhn have made contributions both large and small. | |
c906108c | 491 | |
ffed4509 AC |
492 | Andrew Cagney, Fernando Nasser, and Elena Zannoni, while working for |
493 | Cygnus Solutions, implemented the original @sc{gdb/mi} interface. | |
494 | ||
e2e0bcd1 JB |
495 | Jim Blandy added support for preprocessor macros, while working for Red |
496 | Hat. | |
c906108c | 497 | |
a9967aef AC |
498 | Andrew Cagney designed @value{GDBN}'s architecture vector. Many |
499 | people including Andrew Cagney, Stephane Carrez, Randolph Chung, Nick | |
500 | Duffek, Richard Henderson, Mark Kettenis, Grace Sainsbury, Kei | |
501 | Sakamoto, Yoshinori Sato, Michael Snyder, Andreas Schwab, Jason | |
502 | Thorpe, Corinna Vinschen, Ulrich Weigand, and Elena Zannoni, helped | |
503 | with the migration of old architectures to this new framework. | |
504 | ||
c5e30d01 AC |
505 | Andrew Cagney completely re-designed and re-implemented @value{GDBN}'s |
506 | unwinder framework, this consisting of a fresh new design featuring | |
507 | frame IDs, independent frame sniffers, and the sentinel frame. Mark | |
508 | Kettenis implemented the @sc{dwarf 2} unwinder, Jeff Johnston the | |
509 | libunwind unwinder, and Andrew Cagney the dummy, sentinel, tramp, and | |
db2e3e2e | 510 | trad unwinders. The architecture-specific changes, each involving a |
c5e30d01 AC |
511 | complete rewrite of the architecture's frame code, were carried out by |
512 | Jim Blandy, Joel Brobecker, Kevin Buettner, Andrew Cagney, Stephane | |
513 | Carrez, Randolph Chung, Orjan Friberg, Richard Henderson, Daniel | |
514 | Jacobowitz, Jeff Johnston, Mark Kettenis, Theodore A. Roth, Kei | |
515 | Sakamoto, Yoshinori Sato, Michael Snyder, Corinna Vinschen, and Ulrich | |
516 | Weigand. | |
517 | ||
ca3bf3bd DJ |
518 | Christian Zankel, Ross Morley, Bob Wilson, and Maxim Grigoriev from |
519 | Tensilica, Inc.@: contributed support for Xtensa processors. Others | |
520 | who have worked on the Xtensa port of @value{GDBN} in the past include | |
521 | Steve Tjiang, John Newlin, and Scott Foehner. | |
522 | ||
6d2ebf8b | 523 | @node Sample Session |
c906108c SS |
524 | @chapter A Sample @value{GDBN} Session |
525 | ||
526 | You can use this manual at your leisure to read all about @value{GDBN}. | |
527 | However, a handful of commands are enough to get started using the | |
528 | debugger. This chapter illustrates those commands. | |
529 | ||
530 | @iftex | |
531 | In this sample session, we emphasize user input like this: @b{input}, | |
532 | to make it easier to pick out from the surrounding output. | |
533 | @end iftex | |
534 | ||
535 | @c FIXME: this example may not be appropriate for some configs, where | |
536 | @c FIXME...primary interest is in remote use. | |
537 | ||
538 | One of the preliminary versions of @sc{gnu} @code{m4} (a generic macro | |
539 | processor) exhibits the following bug: sometimes, when we change its | |
540 | quote strings from the default, the commands used to capture one macro | |
541 | definition within another stop working. In the following short @code{m4} | |
542 | session, we define a macro @code{foo} which expands to @code{0000}; we | |
543 | then use the @code{m4} built-in @code{defn} to define @code{bar} as the | |
544 | same thing. However, when we change the open quote string to | |
545 | @code{<QUOTE>} and the close quote string to @code{<UNQUOTE>}, the same | |
546 | procedure fails to define a new synonym @code{baz}: | |
547 | ||
548 | @smallexample | |
549 | $ @b{cd gnu/m4} | |
550 | $ @b{./m4} | |
551 | @b{define(foo,0000)} | |
552 | ||
553 | @b{foo} | |
554 | 0000 | |
555 | @b{define(bar,defn(`foo'))} | |
556 | ||
557 | @b{bar} | |
558 | 0000 | |
559 | @b{changequote(<QUOTE>,<UNQUOTE>)} | |
560 | ||
561 | @b{define(baz,defn(<QUOTE>foo<UNQUOTE>))} | |
562 | @b{baz} | |
c8aa23ab | 563 | @b{Ctrl-d} |
c906108c SS |
564 | m4: End of input: 0: fatal error: EOF in string |
565 | @end smallexample | |
566 | ||
567 | @noindent | |
568 | Let us use @value{GDBN} to try to see what is going on. | |
569 | ||
c906108c SS |
570 | @smallexample |
571 | $ @b{@value{GDBP} m4} | |
572 | @c FIXME: this falsifies the exact text played out, to permit smallbook | |
573 | @c FIXME... format to come out better. | |
574 | @value{GDBN} is free software and you are welcome to distribute copies | |
5d161b24 | 575 | of it under certain conditions; type "show copying" to see |
c906108c | 576 | the conditions. |
5d161b24 | 577 | There is absolutely no warranty for @value{GDBN}; type "show warranty" |
c906108c SS |
578 | for details. |
579 | ||
580 | @value{GDBN} @value{GDBVN}, Copyright 1999 Free Software Foundation, Inc... | |
581 | (@value{GDBP}) | |
582 | @end smallexample | |
c906108c SS |
583 | |
584 | @noindent | |
585 | @value{GDBN} reads only enough symbol data to know where to find the | |
586 | rest when needed; as a result, the first prompt comes up very quickly. | |
587 | We now tell @value{GDBN} to use a narrower display width than usual, so | |
588 | that examples fit in this manual. | |
589 | ||
590 | @smallexample | |
591 | (@value{GDBP}) @b{set width 70} | |
592 | @end smallexample | |
593 | ||
594 | @noindent | |
595 | We need to see how the @code{m4} built-in @code{changequote} works. | |
596 | Having looked at the source, we know the relevant subroutine is | |
597 | @code{m4_changequote}, so we set a breakpoint there with the @value{GDBN} | |
598 | @code{break} command. | |
599 | ||
600 | @smallexample | |
601 | (@value{GDBP}) @b{break m4_changequote} | |
602 | Breakpoint 1 at 0x62f4: file builtin.c, line 879. | |
603 | @end smallexample | |
604 | ||
605 | @noindent | |
606 | Using the @code{run} command, we start @code{m4} running under @value{GDBN} | |
607 | control; as long as control does not reach the @code{m4_changequote} | |
608 | subroutine, the program runs as usual: | |
609 | ||
610 | @smallexample | |
611 | (@value{GDBP}) @b{run} | |
612 | Starting program: /work/Editorial/gdb/gnu/m4/m4 | |
613 | @b{define(foo,0000)} | |
614 | ||
615 | @b{foo} | |
616 | 0000 | |
617 | @end smallexample | |
618 | ||
619 | @noindent | |
620 | To trigger the breakpoint, we call @code{changequote}. @value{GDBN} | |
621 | suspends execution of @code{m4}, displaying information about the | |
622 | context where it stops. | |
623 | ||
624 | @smallexample | |
625 | @b{changequote(<QUOTE>,<UNQUOTE>)} | |
626 | ||
5d161b24 | 627 | Breakpoint 1, m4_changequote (argc=3, argv=0x33c70) |
c906108c SS |
628 | at builtin.c:879 |
629 | 879 if (bad_argc(TOKEN_DATA_TEXT(argv[0]),argc,1,3)) | |
630 | @end smallexample | |
631 | ||
632 | @noindent | |
633 | Now we use the command @code{n} (@code{next}) to advance execution to | |
634 | the next line of the current function. | |
635 | ||
636 | @smallexample | |
637 | (@value{GDBP}) @b{n} | |
638 | 882 set_quotes((argc >= 2) ? TOKEN_DATA_TEXT(argv[1])\ | |
639 | : nil, | |
640 | @end smallexample | |
641 | ||
642 | @noindent | |
643 | @code{set_quotes} looks like a promising subroutine. We can go into it | |
644 | by using the command @code{s} (@code{step}) instead of @code{next}. | |
645 | @code{step} goes to the next line to be executed in @emph{any} | |
646 | subroutine, so it steps into @code{set_quotes}. | |
647 | ||
648 | @smallexample | |
649 | (@value{GDBP}) @b{s} | |
650 | set_quotes (lq=0x34c78 "<QUOTE>", rq=0x34c88 "<UNQUOTE>") | |
651 | at input.c:530 | |
652 | 530 if (lquote != def_lquote) | |
653 | @end smallexample | |
654 | ||
655 | @noindent | |
656 | The display that shows the subroutine where @code{m4} is now | |
657 | suspended (and its arguments) is called a stack frame display. It | |
658 | shows a summary of the stack. We can use the @code{backtrace} | |
659 | command (which can also be spelled @code{bt}), to see where we are | |
660 | in the stack as a whole: the @code{backtrace} command displays a | |
661 | stack frame for each active subroutine. | |
662 | ||
663 | @smallexample | |
664 | (@value{GDBP}) @b{bt} | |
665 | #0 set_quotes (lq=0x34c78 "<QUOTE>", rq=0x34c88 "<UNQUOTE>") | |
666 | at input.c:530 | |
5d161b24 | 667 | #1 0x6344 in m4_changequote (argc=3, argv=0x33c70) |
c906108c SS |
668 | at builtin.c:882 |
669 | #2 0x8174 in expand_macro (sym=0x33320) at macro.c:242 | |
670 | #3 0x7a88 in expand_token (obs=0x0, t=209696, td=0xf7fffa30) | |
671 | at macro.c:71 | |
672 | #4 0x79dc in expand_input () at macro.c:40 | |
673 | #5 0x2930 in main (argc=0, argv=0xf7fffb20) at m4.c:195 | |
674 | @end smallexample | |
675 | ||
676 | @noindent | |
677 | We step through a few more lines to see what happens. The first two | |
678 | times, we can use @samp{s}; the next two times we use @code{n} to avoid | |
679 | falling into the @code{xstrdup} subroutine. | |
680 | ||
681 | @smallexample | |
682 | (@value{GDBP}) @b{s} | |
683 | 0x3b5c 532 if (rquote != def_rquote) | |
684 | (@value{GDBP}) @b{s} | |
685 | 0x3b80 535 lquote = (lq == nil || *lq == '\0') ? \ | |
686 | def_lquote : xstrdup(lq); | |
687 | (@value{GDBP}) @b{n} | |
688 | 536 rquote = (rq == nil || *rq == '\0') ? def_rquote\ | |
689 | : xstrdup(rq); | |
690 | (@value{GDBP}) @b{n} | |
691 | 538 len_lquote = strlen(rquote); | |
692 | @end smallexample | |
693 | ||
694 | @noindent | |
695 | The last line displayed looks a little odd; we can examine the variables | |
696 | @code{lquote} and @code{rquote} to see if they are in fact the new left | |
697 | and right quotes we specified. We use the command @code{p} | |
698 | (@code{print}) to see their values. | |
699 | ||
700 | @smallexample | |
701 | (@value{GDBP}) @b{p lquote} | |
702 | $1 = 0x35d40 "<QUOTE>" | |
703 | (@value{GDBP}) @b{p rquote} | |
704 | $2 = 0x35d50 "<UNQUOTE>" | |
705 | @end smallexample | |
706 | ||
707 | @noindent | |
708 | @code{lquote} and @code{rquote} are indeed the new left and right quotes. | |
709 | To look at some context, we can display ten lines of source | |
710 | surrounding the current line with the @code{l} (@code{list}) command. | |
711 | ||
712 | @smallexample | |
713 | (@value{GDBP}) @b{l} | |
714 | 533 xfree(rquote); | |
715 | 534 | |
716 | 535 lquote = (lq == nil || *lq == '\0') ? def_lquote\ | |
717 | : xstrdup (lq); | |
718 | 536 rquote = (rq == nil || *rq == '\0') ? def_rquote\ | |
719 | : xstrdup (rq); | |
720 | 537 | |
721 | 538 len_lquote = strlen(rquote); | |
722 | 539 len_rquote = strlen(lquote); | |
723 | 540 @} | |
724 | 541 | |
725 | 542 void | |
726 | @end smallexample | |
727 | ||
728 | @noindent | |
729 | Let us step past the two lines that set @code{len_lquote} and | |
730 | @code{len_rquote}, and then examine the values of those variables. | |
731 | ||
732 | @smallexample | |
733 | (@value{GDBP}) @b{n} | |
734 | 539 len_rquote = strlen(lquote); | |
735 | (@value{GDBP}) @b{n} | |
736 | 540 @} | |
737 | (@value{GDBP}) @b{p len_lquote} | |
738 | $3 = 9 | |
739 | (@value{GDBP}) @b{p len_rquote} | |
740 | $4 = 7 | |
741 | @end smallexample | |
742 | ||
743 | @noindent | |
744 | That certainly looks wrong, assuming @code{len_lquote} and | |
745 | @code{len_rquote} are meant to be the lengths of @code{lquote} and | |
746 | @code{rquote} respectively. We can set them to better values using | |
747 | the @code{p} command, since it can print the value of | |
748 | any expression---and that expression can include subroutine calls and | |
749 | assignments. | |
750 | ||
751 | @smallexample | |
752 | (@value{GDBP}) @b{p len_lquote=strlen(lquote)} | |
753 | $5 = 7 | |
754 | (@value{GDBP}) @b{p len_rquote=strlen(rquote)} | |
755 | $6 = 9 | |
756 | @end smallexample | |
757 | ||
758 | @noindent | |
759 | Is that enough to fix the problem of using the new quotes with the | |
760 | @code{m4} built-in @code{defn}? We can allow @code{m4} to continue | |
761 | executing with the @code{c} (@code{continue}) command, and then try the | |
762 | example that caused trouble initially: | |
763 | ||
764 | @smallexample | |
765 | (@value{GDBP}) @b{c} | |
766 | Continuing. | |
767 | ||
768 | @b{define(baz,defn(<QUOTE>foo<UNQUOTE>))} | |
769 | ||
770 | baz | |
771 | 0000 | |
772 | @end smallexample | |
773 | ||
774 | @noindent | |
775 | Success! The new quotes now work just as well as the default ones. The | |
776 | problem seems to have been just the two typos defining the wrong | |
777 | lengths. We allow @code{m4} exit by giving it an EOF as input: | |
778 | ||
779 | @smallexample | |
c8aa23ab | 780 | @b{Ctrl-d} |
c906108c SS |
781 | Program exited normally. |
782 | @end smallexample | |
783 | ||
784 | @noindent | |
785 | The message @samp{Program exited normally.} is from @value{GDBN}; it | |
786 | indicates @code{m4} has finished executing. We can end our @value{GDBN} | |
787 | session with the @value{GDBN} @code{quit} command. | |
788 | ||
789 | @smallexample | |
790 | (@value{GDBP}) @b{quit} | |
791 | @end smallexample | |
c906108c | 792 | |
6d2ebf8b | 793 | @node Invocation |
c906108c SS |
794 | @chapter Getting In and Out of @value{GDBN} |
795 | ||
796 | This chapter discusses how to start @value{GDBN}, and how to get out of it. | |
5d161b24 | 797 | The essentials are: |
c906108c | 798 | @itemize @bullet |
5d161b24 | 799 | @item |
53a5351d | 800 | type @samp{@value{GDBP}} to start @value{GDBN}. |
5d161b24 | 801 | @item |
c8aa23ab | 802 | type @kbd{quit} or @kbd{Ctrl-d} to exit. |
c906108c SS |
803 | @end itemize |
804 | ||
805 | @menu | |
806 | * Invoking GDB:: How to start @value{GDBN} | |
807 | * Quitting GDB:: How to quit @value{GDBN} | |
808 | * Shell Commands:: How to use shell commands inside @value{GDBN} | |
79a6e687 | 809 | * Logging Output:: How to log @value{GDBN}'s output to a file |
c906108c SS |
810 | @end menu |
811 | ||
6d2ebf8b | 812 | @node Invoking GDB |
c906108c SS |
813 | @section Invoking @value{GDBN} |
814 | ||
c906108c SS |
815 | Invoke @value{GDBN} by running the program @code{@value{GDBP}}. Once started, |
816 | @value{GDBN} reads commands from the terminal until you tell it to exit. | |
817 | ||
818 | You can also run @code{@value{GDBP}} with a variety of arguments and options, | |
819 | to specify more of your debugging environment at the outset. | |
820 | ||
c906108c SS |
821 | The command-line options described here are designed |
822 | to cover a variety of situations; in some environments, some of these | |
5d161b24 | 823 | options may effectively be unavailable. |
c906108c SS |
824 | |
825 | The most usual way to start @value{GDBN} is with one argument, | |
826 | specifying an executable program: | |
827 | ||
474c8240 | 828 | @smallexample |
c906108c | 829 | @value{GDBP} @var{program} |
474c8240 | 830 | @end smallexample |
c906108c | 831 | |
c906108c SS |
832 | @noindent |
833 | You can also start with both an executable program and a core file | |
834 | specified: | |
835 | ||
474c8240 | 836 | @smallexample |
c906108c | 837 | @value{GDBP} @var{program} @var{core} |
474c8240 | 838 | @end smallexample |
c906108c SS |
839 | |
840 | You can, instead, specify a process ID as a second argument, if you want | |
841 | to debug a running process: | |
842 | ||
474c8240 | 843 | @smallexample |
c906108c | 844 | @value{GDBP} @var{program} 1234 |
474c8240 | 845 | @end smallexample |
c906108c SS |
846 | |
847 | @noindent | |
848 | would attach @value{GDBN} to process @code{1234} (unless you also have a file | |
849 | named @file{1234}; @value{GDBN} does check for a core file first). | |
850 | ||
c906108c | 851 | Taking advantage of the second command-line argument requires a fairly |
2df3850c JM |
852 | complete operating system; when you use @value{GDBN} as a remote |
853 | debugger attached to a bare board, there may not be any notion of | |
854 | ``process'', and there is often no way to get a core dump. @value{GDBN} | |
855 | will warn you if it is unable to attach or to read core dumps. | |
c906108c | 856 | |
aa26fa3a TT |
857 | You can optionally have @code{@value{GDBP}} pass any arguments after the |
858 | executable file to the inferior using @code{--args}. This option stops | |
859 | option processing. | |
474c8240 | 860 | @smallexample |
3f94c067 | 861 | @value{GDBP} --args gcc -O2 -c foo.c |
474c8240 | 862 | @end smallexample |
aa26fa3a TT |
863 | This will cause @code{@value{GDBP}} to debug @code{gcc}, and to set |
864 | @code{gcc}'s command-line arguments (@pxref{Arguments}) to @samp{-O2 -c foo.c}. | |
865 | ||
96a2c332 | 866 | You can run @code{@value{GDBP}} without printing the front material, which describes |
c906108c SS |
867 | @value{GDBN}'s non-warranty, by specifying @code{-silent}: |
868 | ||
869 | @smallexample | |
870 | @value{GDBP} -silent | |
871 | @end smallexample | |
872 | ||
873 | @noindent | |
874 | You can further control how @value{GDBN} starts up by using command-line | |
875 | options. @value{GDBN} itself can remind you of the options available. | |
876 | ||
877 | @noindent | |
878 | Type | |
879 | ||
474c8240 | 880 | @smallexample |
c906108c | 881 | @value{GDBP} -help |
474c8240 | 882 | @end smallexample |
c906108c SS |
883 | |
884 | @noindent | |
885 | to display all available options and briefly describe their use | |
886 | (@samp{@value{GDBP} -h} is a shorter equivalent). | |
887 | ||
888 | All options and command line arguments you give are processed | |
889 | in sequential order. The order makes a difference when the | |
890 | @samp{-x} option is used. | |
891 | ||
892 | ||
893 | @menu | |
c906108c SS |
894 | * File Options:: Choosing files |
895 | * Mode Options:: Choosing modes | |
6fc08d32 | 896 | * Startup:: What @value{GDBN} does during startup |
c906108c SS |
897 | @end menu |
898 | ||
6d2ebf8b | 899 | @node File Options |
79a6e687 | 900 | @subsection Choosing Files |
c906108c | 901 | |
2df3850c | 902 | When @value{GDBN} starts, it reads any arguments other than options as |
c906108c SS |
903 | specifying an executable file and core file (or process ID). This is |
904 | the same as if the arguments were specified by the @samp{-se} and | |
d52fb0e9 | 905 | @samp{-c} (or @samp{-p}) options respectively. (@value{GDBN} reads the |
19837790 MS |
906 | first argument that does not have an associated option flag as |
907 | equivalent to the @samp{-se} option followed by that argument; and the | |
908 | second argument that does not have an associated option flag, if any, as | |
909 | equivalent to the @samp{-c}/@samp{-p} option followed by that argument.) | |
910 | If the second argument begins with a decimal digit, @value{GDBN} will | |
911 | first attempt to attach to it as a process, and if that fails, attempt | |
912 | to open it as a corefile. If you have a corefile whose name begins with | |
b383017d | 913 | a digit, you can prevent @value{GDBN} from treating it as a pid by |
c1468174 | 914 | prefixing it with @file{./}, e.g.@: @file{./12345}. |
7a292a7a SS |
915 | |
916 | If @value{GDBN} has not been configured to included core file support, | |
917 | such as for most embedded targets, then it will complain about a second | |
918 | argument and ignore it. | |
c906108c SS |
919 | |
920 | Many options have both long and short forms; both are shown in the | |
921 | following list. @value{GDBN} also recognizes the long forms if you truncate | |
922 | them, so long as enough of the option is present to be unambiguous. | |
923 | (If you prefer, you can flag option arguments with @samp{--} rather | |
924 | than @samp{-}, though we illustrate the more usual convention.) | |
925 | ||
d700128c EZ |
926 | @c NOTE: the @cindex entries here use double dashes ON PURPOSE. This |
927 | @c way, both those who look for -foo and --foo in the index, will find | |
928 | @c it. | |
929 | ||
c906108c SS |
930 | @table @code |
931 | @item -symbols @var{file} | |
932 | @itemx -s @var{file} | |
d700128c EZ |
933 | @cindex @code{--symbols} |
934 | @cindex @code{-s} | |
c906108c SS |
935 | Read symbol table from file @var{file}. |
936 | ||
937 | @item -exec @var{file} | |
938 | @itemx -e @var{file} | |
d700128c EZ |
939 | @cindex @code{--exec} |
940 | @cindex @code{-e} | |
7a292a7a SS |
941 | Use file @var{file} as the executable file to execute when appropriate, |
942 | and for examining pure data in conjunction with a core dump. | |
c906108c SS |
943 | |
944 | @item -se @var{file} | |
d700128c | 945 | @cindex @code{--se} |
c906108c SS |
946 | Read symbol table from file @var{file} and use it as the executable |
947 | file. | |
948 | ||
c906108c SS |
949 | @item -core @var{file} |
950 | @itemx -c @var{file} | |
d700128c EZ |
951 | @cindex @code{--core} |
952 | @cindex @code{-c} | |
b383017d | 953 | Use file @var{file} as a core dump to examine. |
c906108c | 954 | |
19837790 MS |
955 | @item -pid @var{number} |
956 | @itemx -p @var{number} | |
957 | @cindex @code{--pid} | |
958 | @cindex @code{-p} | |
959 | Connect to process ID @var{number}, as with the @code{attach} command. | |
c906108c SS |
960 | |
961 | @item -command @var{file} | |
962 | @itemx -x @var{file} | |
d700128c EZ |
963 | @cindex @code{--command} |
964 | @cindex @code{-x} | |
c906108c SS |
965 | Execute @value{GDBN} commands from file @var{file}. @xref{Command |
966 | Files,, Command files}. | |
967 | ||
8a5a3c82 AS |
968 | @item -eval-command @var{command} |
969 | @itemx -ex @var{command} | |
970 | @cindex @code{--eval-command} | |
971 | @cindex @code{-ex} | |
972 | Execute a single @value{GDBN} command. | |
973 | ||
974 | This option may be used multiple times to call multiple commands. It may | |
975 | also be interleaved with @samp{-command} as required. | |
976 | ||
977 | @smallexample | |
978 | @value{GDBP} -ex 'target sim' -ex 'load' \ | |
979 | -x setbreakpoints -ex 'run' a.out | |
980 | @end smallexample | |
981 | ||
c906108c SS |
982 | @item -directory @var{directory} |
983 | @itemx -d @var{directory} | |
d700128c EZ |
984 | @cindex @code{--directory} |
985 | @cindex @code{-d} | |
4b505b12 | 986 | Add @var{directory} to the path to search for source and script files. |
c906108c | 987 | |
c906108c SS |
988 | @item -r |
989 | @itemx -readnow | |
d700128c EZ |
990 | @cindex @code{--readnow} |
991 | @cindex @code{-r} | |
c906108c SS |
992 | Read each symbol file's entire symbol table immediately, rather than |
993 | the default, which is to read it incrementally as it is needed. | |
994 | This makes startup slower, but makes future operations faster. | |
53a5351d | 995 | |
c906108c SS |
996 | @end table |
997 | ||
6d2ebf8b | 998 | @node Mode Options |
79a6e687 | 999 | @subsection Choosing Modes |
c906108c SS |
1000 | |
1001 | You can run @value{GDBN} in various alternative modes---for example, in | |
1002 | batch mode or quiet mode. | |
1003 | ||
1004 | @table @code | |
1005 | @item -nx | |
1006 | @itemx -n | |
d700128c EZ |
1007 | @cindex @code{--nx} |
1008 | @cindex @code{-n} | |
96565e91 | 1009 | Do not execute commands found in any initialization files. Normally, |
2df3850c JM |
1010 | @value{GDBN} executes the commands in these files after all the command |
1011 | options and arguments have been processed. @xref{Command Files,,Command | |
79a6e687 | 1012 | Files}. |
c906108c SS |
1013 | |
1014 | @item -quiet | |
d700128c | 1015 | @itemx -silent |
c906108c | 1016 | @itemx -q |
d700128c EZ |
1017 | @cindex @code{--quiet} |
1018 | @cindex @code{--silent} | |
1019 | @cindex @code{-q} | |
c906108c SS |
1020 | ``Quiet''. Do not print the introductory and copyright messages. These |
1021 | messages are also suppressed in batch mode. | |
1022 | ||
1023 | @item -batch | |
d700128c | 1024 | @cindex @code{--batch} |
c906108c SS |
1025 | Run in batch mode. Exit with status @code{0} after processing all the |
1026 | command files specified with @samp{-x} (and all commands from | |
1027 | initialization files, if not inhibited with @samp{-n}). Exit with | |
1028 | nonzero status if an error occurs in executing the @value{GDBN} commands | |
1029 | in the command files. | |
1030 | ||
2df3850c JM |
1031 | Batch mode may be useful for running @value{GDBN} as a filter, for |
1032 | example to download and run a program on another computer; in order to | |
1033 | make this more useful, the message | |
c906108c | 1034 | |
474c8240 | 1035 | @smallexample |
c906108c | 1036 | Program exited normally. |
474c8240 | 1037 | @end smallexample |
c906108c SS |
1038 | |
1039 | @noindent | |
2df3850c JM |
1040 | (which is ordinarily issued whenever a program running under |
1041 | @value{GDBN} control terminates) is not issued when running in batch | |
1042 | mode. | |
1043 | ||
1a088d06 AS |
1044 | @item -batch-silent |
1045 | @cindex @code{--batch-silent} | |
1046 | Run in batch mode exactly like @samp{-batch}, but totally silently. All | |
1047 | @value{GDBN} output to @code{stdout} is prevented (@code{stderr} is | |
1048 | unaffected). This is much quieter than @samp{-silent} and would be useless | |
1049 | for an interactive session. | |
1050 | ||
1051 | This is particularly useful when using targets that give @samp{Loading section} | |
1052 | messages, for example. | |
1053 | ||
1054 | Note that targets that give their output via @value{GDBN}, as opposed to | |
1055 | writing directly to @code{stdout}, will also be made silent. | |
1056 | ||
4b0ad762 AS |
1057 | @item -return-child-result |
1058 | @cindex @code{--return-child-result} | |
1059 | The return code from @value{GDBN} will be the return code from the child | |
1060 | process (the process being debugged), with the following exceptions: | |
1061 | ||
1062 | @itemize @bullet | |
1063 | @item | |
1064 | @value{GDBN} exits abnormally. E.g., due to an incorrect argument or an | |
1065 | internal error. In this case the exit code is the same as it would have been | |
1066 | without @samp{-return-child-result}. | |
1067 | @item | |
1068 | The user quits with an explicit value. E.g., @samp{quit 1}. | |
1069 | @item | |
1070 | The child process never runs, or is not allowed to terminate, in which case | |
1071 | the exit code will be -1. | |
1072 | @end itemize | |
1073 | ||
1074 | This option is useful in conjunction with @samp{-batch} or @samp{-batch-silent}, | |
1075 | when @value{GDBN} is being used as a remote program loader or simulator | |
1076 | interface. | |
1077 | ||
2df3850c JM |
1078 | @item -nowindows |
1079 | @itemx -nw | |
d700128c EZ |
1080 | @cindex @code{--nowindows} |
1081 | @cindex @code{-nw} | |
2df3850c | 1082 | ``No windows''. If @value{GDBN} comes with a graphical user interface |
96a2c332 | 1083 | (GUI) built in, then this option tells @value{GDBN} to only use the command-line |
2df3850c JM |
1084 | interface. If no GUI is available, this option has no effect. |
1085 | ||
1086 | @item -windows | |
1087 | @itemx -w | |
d700128c EZ |
1088 | @cindex @code{--windows} |
1089 | @cindex @code{-w} | |
2df3850c JM |
1090 | If @value{GDBN} includes a GUI, then this option requires it to be |
1091 | used if possible. | |
c906108c SS |
1092 | |
1093 | @item -cd @var{directory} | |
d700128c | 1094 | @cindex @code{--cd} |
c906108c SS |
1095 | Run @value{GDBN} using @var{directory} as its working directory, |
1096 | instead of the current directory. | |
1097 | ||
c906108c SS |
1098 | @item -fullname |
1099 | @itemx -f | |
d700128c EZ |
1100 | @cindex @code{--fullname} |
1101 | @cindex @code{-f} | |
7a292a7a SS |
1102 | @sc{gnu} Emacs sets this option when it runs @value{GDBN} as a |
1103 | subprocess. It tells @value{GDBN} to output the full file name and line | |
1104 | number in a standard, recognizable fashion each time a stack frame is | |
1105 | displayed (which includes each time your program stops). This | |
1106 | recognizable format looks like two @samp{\032} characters, followed by | |
1107 | the file name, line number and character position separated by colons, | |
1108 | and a newline. The Emacs-to-@value{GDBN} interface program uses the two | |
1109 | @samp{\032} characters as a signal to display the source code for the | |
1110 | frame. | |
c906108c | 1111 | |
d700128c EZ |
1112 | @item -epoch |
1113 | @cindex @code{--epoch} | |
1114 | The Epoch Emacs-@value{GDBN} interface sets this option when it runs | |
1115 | @value{GDBN} as a subprocess. It tells @value{GDBN} to modify its print | |
1116 | routines so as to allow Epoch to display values of expressions in a | |
1117 | separate window. | |
1118 | ||
1119 | @item -annotate @var{level} | |
1120 | @cindex @code{--annotate} | |
1121 | This option sets the @dfn{annotation level} inside @value{GDBN}. Its | |
1122 | effect is identical to using @samp{set annotate @var{level}} | |
086432e2 AC |
1123 | (@pxref{Annotations}). The annotation @var{level} controls how much |
1124 | information @value{GDBN} prints together with its prompt, values of | |
1125 | expressions, source lines, and other types of output. Level 0 is the | |
1126 | normal, level 1 is for use when @value{GDBN} is run as a subprocess of | |
1127 | @sc{gnu} Emacs, level 3 is the maximum annotation suitable for programs | |
1128 | that control @value{GDBN}, and level 2 has been deprecated. | |
1129 | ||
265eeb58 | 1130 | The annotation mechanism has largely been superseded by @sc{gdb/mi} |
086432e2 | 1131 | (@pxref{GDB/MI}). |
d700128c | 1132 | |
aa26fa3a TT |
1133 | @item --args |
1134 | @cindex @code{--args} | |
1135 | Change interpretation of command line so that arguments following the | |
1136 | executable file are passed as command line arguments to the inferior. | |
1137 | This option stops option processing. | |
1138 | ||
2df3850c JM |
1139 | @item -baud @var{bps} |
1140 | @itemx -b @var{bps} | |
d700128c EZ |
1141 | @cindex @code{--baud} |
1142 | @cindex @code{-b} | |
c906108c SS |
1143 | Set the line speed (baud rate or bits per second) of any serial |
1144 | interface used by @value{GDBN} for remote debugging. | |
c906108c | 1145 | |
f47b1503 AS |
1146 | @item -l @var{timeout} |
1147 | @cindex @code{-l} | |
1148 | Set the timeout (in seconds) of any communication used by @value{GDBN} | |
1149 | for remote debugging. | |
1150 | ||
c906108c | 1151 | @item -tty @var{device} |
d700128c EZ |
1152 | @itemx -t @var{device} |
1153 | @cindex @code{--tty} | |
1154 | @cindex @code{-t} | |
c906108c SS |
1155 | Run using @var{device} for your program's standard input and output. |
1156 | @c FIXME: kingdon thinks there is more to -tty. Investigate. | |
c906108c | 1157 | |
53a5351d | 1158 | @c resolve the situation of these eventually |
c4555f82 SC |
1159 | @item -tui |
1160 | @cindex @code{--tui} | |
d0d5df6f AC |
1161 | Activate the @dfn{Text User Interface} when starting. The Text User |
1162 | Interface manages several text windows on the terminal, showing | |
1163 | source, assembly, registers and @value{GDBN} command outputs | |
1164 | (@pxref{TUI, ,@value{GDBN} Text User Interface}). Alternatively, the | |
1165 | Text User Interface can be enabled by invoking the program | |
46ba6afa | 1166 | @samp{@value{GDBTUI}}. Do not use this option if you run @value{GDBN} from |
d0d5df6f | 1167 | Emacs (@pxref{Emacs, ,Using @value{GDBN} under @sc{gnu} Emacs}). |
53a5351d JM |
1168 | |
1169 | @c @item -xdb | |
d700128c | 1170 | @c @cindex @code{--xdb} |
53a5351d JM |
1171 | @c Run in XDB compatibility mode, allowing the use of certain XDB commands. |
1172 | @c For information, see the file @file{xdb_trans.html}, which is usually | |
1173 | @c installed in the directory @code{/opt/langtools/wdb/doc} on HP-UX | |
1174 | @c systems. | |
1175 | ||
d700128c EZ |
1176 | @item -interpreter @var{interp} |
1177 | @cindex @code{--interpreter} | |
1178 | Use the interpreter @var{interp} for interface with the controlling | |
1179 | program or device. This option is meant to be set by programs which | |
94bbb2c0 | 1180 | communicate with @value{GDBN} using it as a back end. |
21c294e6 | 1181 | @xref{Interpreters, , Command Interpreters}. |
94bbb2c0 | 1182 | |
da0f9dcd | 1183 | @samp{--interpreter=mi} (or @samp{--interpreter=mi2}) causes |
2fcf52f0 | 1184 | @value{GDBN} to use the @dfn{@sc{gdb/mi} interface} (@pxref{GDB/MI, , |
6b5e8c01 | 1185 | The @sc{gdb/mi} Interface}) included since @value{GDBN} version 6.0. The |
6c74ac8b AC |
1186 | previous @sc{gdb/mi} interface, included in @value{GDBN} version 5.3 and |
1187 | selected with @samp{--interpreter=mi1}, is deprecated. Earlier | |
1188 | @sc{gdb/mi} interfaces are no longer supported. | |
d700128c EZ |
1189 | |
1190 | @item -write | |
1191 | @cindex @code{--write} | |
1192 | Open the executable and core files for both reading and writing. This | |
1193 | is equivalent to the @samp{set write on} command inside @value{GDBN} | |
1194 | (@pxref{Patching}). | |
1195 | ||
1196 | @item -statistics | |
1197 | @cindex @code{--statistics} | |
1198 | This option causes @value{GDBN} to print statistics about time and | |
1199 | memory usage after it completes each command and returns to the prompt. | |
1200 | ||
1201 | @item -version | |
1202 | @cindex @code{--version} | |
1203 | This option causes @value{GDBN} to print its version number and | |
1204 | no-warranty blurb, and exit. | |
1205 | ||
c906108c SS |
1206 | @end table |
1207 | ||
6fc08d32 | 1208 | @node Startup |
79a6e687 | 1209 | @subsection What @value{GDBN} Does During Startup |
6fc08d32 EZ |
1210 | @cindex @value{GDBN} startup |
1211 | ||
1212 | Here's the description of what @value{GDBN} does during session startup: | |
1213 | ||
1214 | @enumerate | |
1215 | @item | |
1216 | Sets up the command interpreter as specified by the command line | |
1217 | (@pxref{Mode Options, interpreter}). | |
1218 | ||
1219 | @item | |
1220 | @cindex init file | |
1221 | Reads the @dfn{init file} (if any) in your home directory@footnote{On | |
1222 | DOS/Windows systems, the home directory is the one pointed to by the | |
1223 | @code{HOME} environment variable.} and executes all the commands in | |
1224 | that file. | |
1225 | ||
1226 | @item | |
1227 | Processes command line options and operands. | |
1228 | ||
1229 | @item | |
1230 | Reads and executes the commands from init file (if any) in the current | |
119b882a EZ |
1231 | working directory. This is only done if the current directory is |
1232 | different from your home directory. Thus, you can have more than one | |
1233 | init file, one generic in your home directory, and another, specific | |
1234 | to the program you are debugging, in the directory where you invoke | |
6fc08d32 EZ |
1235 | @value{GDBN}. |
1236 | ||
1237 | @item | |
1238 | Reads command files specified by the @samp{-x} option. @xref{Command | |
1239 | Files}, for more details about @value{GDBN} command files. | |
1240 | ||
1241 | @item | |
1242 | Reads the command history recorded in the @dfn{history file}. | |
d620b259 | 1243 | @xref{Command History}, for more details about the command history and the |
6fc08d32 EZ |
1244 | files where @value{GDBN} records it. |
1245 | @end enumerate | |
1246 | ||
1247 | Init files use the same syntax as @dfn{command files} (@pxref{Command | |
1248 | Files}) and are processed by @value{GDBN} in the same way. The init | |
1249 | file in your home directory can set options (such as @samp{set | |
1250 | complaints}) that affect subsequent processing of command line options | |
1251 | and operands. Init files are not executed if you use the @samp{-nx} | |
79a6e687 | 1252 | option (@pxref{Mode Options, ,Choosing Modes}). |
6fc08d32 EZ |
1253 | |
1254 | @cindex init file name | |
1255 | @cindex @file{.gdbinit} | |
119b882a | 1256 | @cindex @file{gdb.ini} |
8807d78b | 1257 | The @value{GDBN} init files are normally called @file{.gdbinit}. |
119b882a EZ |
1258 | The DJGPP port of @value{GDBN} uses the name @file{gdb.ini}, due to |
1259 | the limitations of file names imposed by DOS filesystems. The Windows | |
1260 | ports of @value{GDBN} use the standard name, but if they find a | |
1261 | @file{gdb.ini} file, they warn you about that and suggest to rename | |
1262 | the file to the standard name. | |
1263 | ||
6fc08d32 | 1264 | |
6d2ebf8b | 1265 | @node Quitting GDB |
c906108c SS |
1266 | @section Quitting @value{GDBN} |
1267 | @cindex exiting @value{GDBN} | |
1268 | @cindex leaving @value{GDBN} | |
1269 | ||
1270 | @table @code | |
1271 | @kindex quit @r{[}@var{expression}@r{]} | |
41afff9a | 1272 | @kindex q @r{(@code{quit})} |
96a2c332 SS |
1273 | @item quit @r{[}@var{expression}@r{]} |
1274 | @itemx q | |
1275 | To exit @value{GDBN}, use the @code{quit} command (abbreviated | |
c8aa23ab | 1276 | @code{q}), or type an end-of-file character (usually @kbd{Ctrl-d}). If you |
96a2c332 SS |
1277 | do not supply @var{expression}, @value{GDBN} will terminate normally; |
1278 | otherwise it will terminate using the result of @var{expression} as the | |
1279 | error code. | |
c906108c SS |
1280 | @end table |
1281 | ||
1282 | @cindex interrupt | |
c8aa23ab | 1283 | An interrupt (often @kbd{Ctrl-c}) does not exit from @value{GDBN}, but rather |
c906108c SS |
1284 | terminates the action of any @value{GDBN} command that is in progress and |
1285 | returns to @value{GDBN} command level. It is safe to type the interrupt | |
1286 | character at any time because @value{GDBN} does not allow it to take effect | |
1287 | until a time when it is safe. | |
1288 | ||
c906108c SS |
1289 | If you have been using @value{GDBN} to control an attached process or |
1290 | device, you can release it with the @code{detach} command | |
79a6e687 | 1291 | (@pxref{Attach, ,Debugging an Already-running Process}). |
c906108c | 1292 | |
6d2ebf8b | 1293 | @node Shell Commands |
79a6e687 | 1294 | @section Shell Commands |
c906108c SS |
1295 | |
1296 | If you need to execute occasional shell commands during your | |
1297 | debugging session, there is no need to leave or suspend @value{GDBN}; you can | |
1298 | just use the @code{shell} command. | |
1299 | ||
1300 | @table @code | |
1301 | @kindex shell | |
1302 | @cindex shell escape | |
1303 | @item shell @var{command string} | |
1304 | Invoke a standard shell to execute @var{command string}. | |
c906108c | 1305 | If it exists, the environment variable @code{SHELL} determines which |
d4f3574e SS |
1306 | shell to run. Otherwise @value{GDBN} uses the default shell |
1307 | (@file{/bin/sh} on Unix systems, @file{COMMAND.COM} on MS-DOS, etc.). | |
c906108c SS |
1308 | @end table |
1309 | ||
1310 | The utility @code{make} is often needed in development environments. | |
1311 | You do not have to use the @code{shell} command for this purpose in | |
1312 | @value{GDBN}: | |
1313 | ||
1314 | @table @code | |
1315 | @kindex make | |
1316 | @cindex calling make | |
1317 | @item make @var{make-args} | |
1318 | Execute the @code{make} program with the specified | |
1319 | arguments. This is equivalent to @samp{shell make @var{make-args}}. | |
1320 | @end table | |
1321 | ||
79a6e687 BW |
1322 | @node Logging Output |
1323 | @section Logging Output | |
0fac0b41 | 1324 | @cindex logging @value{GDBN} output |
9c16f35a | 1325 | @cindex save @value{GDBN} output to a file |
0fac0b41 DJ |
1326 | |
1327 | You may want to save the output of @value{GDBN} commands to a file. | |
1328 | There are several commands to control @value{GDBN}'s logging. | |
1329 | ||
1330 | @table @code | |
1331 | @kindex set logging | |
1332 | @item set logging on | |
1333 | Enable logging. | |
1334 | @item set logging off | |
1335 | Disable logging. | |
9c16f35a | 1336 | @cindex logging file name |
0fac0b41 DJ |
1337 | @item set logging file @var{file} |
1338 | Change the name of the current logfile. The default logfile is @file{gdb.txt}. | |
1339 | @item set logging overwrite [on|off] | |
1340 | By default, @value{GDBN} will append to the logfile. Set @code{overwrite} if | |
1341 | you want @code{set logging on} to overwrite the logfile instead. | |
1342 | @item set logging redirect [on|off] | |
1343 | By default, @value{GDBN} output will go to both the terminal and the logfile. | |
1344 | Set @code{redirect} if you want output to go only to the log file. | |
1345 | @kindex show logging | |
1346 | @item show logging | |
1347 | Show the current values of the logging settings. | |
1348 | @end table | |
1349 | ||
6d2ebf8b | 1350 | @node Commands |
c906108c SS |
1351 | @chapter @value{GDBN} Commands |
1352 | ||
1353 | You can abbreviate a @value{GDBN} command to the first few letters of the command | |
1354 | name, if that abbreviation is unambiguous; and you can repeat certain | |
1355 | @value{GDBN} commands by typing just @key{RET}. You can also use the @key{TAB} | |
1356 | key to get @value{GDBN} to fill out the rest of a word in a command (or to | |
1357 | show you the alternatives available, if there is more than one possibility). | |
1358 | ||
1359 | @menu | |
1360 | * Command Syntax:: How to give commands to @value{GDBN} | |
1361 | * Completion:: Command completion | |
1362 | * Help:: How to ask @value{GDBN} for help | |
1363 | @end menu | |
1364 | ||
6d2ebf8b | 1365 | @node Command Syntax |
79a6e687 | 1366 | @section Command Syntax |
c906108c SS |
1367 | |
1368 | A @value{GDBN} command is a single line of input. There is no limit on | |
1369 | how long it can be. It starts with a command name, which is followed by | |
1370 | arguments whose meaning depends on the command name. For example, the | |
1371 | command @code{step} accepts an argument which is the number of times to | |
1372 | step, as in @samp{step 5}. You can also use the @code{step} command | |
96a2c332 | 1373 | with no arguments. Some commands do not allow any arguments. |
c906108c SS |
1374 | |
1375 | @cindex abbreviation | |
1376 | @value{GDBN} command names may always be truncated if that abbreviation is | |
1377 | unambiguous. Other possible command abbreviations are listed in the | |
1378 | documentation for individual commands. In some cases, even ambiguous | |
1379 | abbreviations are allowed; for example, @code{s} is specially defined as | |
1380 | equivalent to @code{step} even though there are other commands whose | |
1381 | names start with @code{s}. You can test abbreviations by using them as | |
1382 | arguments to the @code{help} command. | |
1383 | ||
1384 | @cindex repeating commands | |
41afff9a | 1385 | @kindex RET @r{(repeat last command)} |
c906108c | 1386 | A blank line as input to @value{GDBN} (typing just @key{RET}) means to |
96a2c332 | 1387 | repeat the previous command. Certain commands (for example, @code{run}) |
c906108c SS |
1388 | will not repeat this way; these are commands whose unintentional |
1389 | repetition might cause trouble and which you are unlikely to want to | |
c45da7e6 EZ |
1390 | repeat. User-defined commands can disable this feature; see |
1391 | @ref{Define, dont-repeat}. | |
c906108c SS |
1392 | |
1393 | The @code{list} and @code{x} commands, when you repeat them with | |
1394 | @key{RET}, construct new arguments rather than repeating | |
1395 | exactly as typed. This permits easy scanning of source or memory. | |
1396 | ||
1397 | @value{GDBN} can also use @key{RET} in another way: to partition lengthy | |
1398 | output, in a way similar to the common utility @code{more} | |
79a6e687 | 1399 | (@pxref{Screen Size,,Screen Size}). Since it is easy to press one |
c906108c SS |
1400 | @key{RET} too many in this situation, @value{GDBN} disables command |
1401 | repetition after any command that generates this sort of display. | |
1402 | ||
41afff9a | 1403 | @kindex # @r{(a comment)} |
c906108c SS |
1404 | @cindex comment |
1405 | Any text from a @kbd{#} to the end of the line is a comment; it does | |
1406 | nothing. This is useful mainly in command files (@pxref{Command | |
79a6e687 | 1407 | Files,,Command Files}). |
c906108c | 1408 | |
88118b3a | 1409 | @cindex repeating command sequences |
c8aa23ab EZ |
1410 | @kindex Ctrl-o @r{(operate-and-get-next)} |
1411 | The @kbd{Ctrl-o} binding is useful for repeating a complex sequence of | |
7f9087cb | 1412 | commands. This command accepts the current line, like @key{RET}, and |
88118b3a TT |
1413 | then fetches the next line relative to the current line from the history |
1414 | for editing. | |
1415 | ||
6d2ebf8b | 1416 | @node Completion |
79a6e687 | 1417 | @section Command Completion |
c906108c SS |
1418 | |
1419 | @cindex completion | |
1420 | @cindex word completion | |
1421 | @value{GDBN} can fill in the rest of a word in a command for you, if there is | |
1422 | only one possibility; it can also show you what the valid possibilities | |
1423 | are for the next word in a command, at any time. This works for @value{GDBN} | |
1424 | commands, @value{GDBN} subcommands, and the names of symbols in your program. | |
1425 | ||
1426 | Press the @key{TAB} key whenever you want @value{GDBN} to fill out the rest | |
1427 | of a word. If there is only one possibility, @value{GDBN} fills in the | |
1428 | word, and waits for you to finish the command (or press @key{RET} to | |
1429 | enter it). For example, if you type | |
1430 | ||
1431 | @c FIXME "@key" does not distinguish its argument sufficiently to permit | |
1432 | @c complete accuracy in these examples; space introduced for clarity. | |
1433 | @c If texinfo enhancements make it unnecessary, it would be nice to | |
1434 | @c replace " @key" by "@key" in the following... | |
474c8240 | 1435 | @smallexample |
c906108c | 1436 | (@value{GDBP}) info bre @key{TAB} |
474c8240 | 1437 | @end smallexample |
c906108c SS |
1438 | |
1439 | @noindent | |
1440 | @value{GDBN} fills in the rest of the word @samp{breakpoints}, since that is | |
1441 | the only @code{info} subcommand beginning with @samp{bre}: | |
1442 | ||
474c8240 | 1443 | @smallexample |
c906108c | 1444 | (@value{GDBP}) info breakpoints |
474c8240 | 1445 | @end smallexample |
c906108c SS |
1446 | |
1447 | @noindent | |
1448 | You can either press @key{RET} at this point, to run the @code{info | |
1449 | breakpoints} command, or backspace and enter something else, if | |
1450 | @samp{breakpoints} does not look like the command you expected. (If you | |
1451 | were sure you wanted @code{info breakpoints} in the first place, you | |
1452 | might as well just type @key{RET} immediately after @samp{info bre}, | |
1453 | to exploit command abbreviations rather than command completion). | |
1454 | ||
1455 | If there is more than one possibility for the next word when you press | |
1456 | @key{TAB}, @value{GDBN} sounds a bell. You can either supply more | |
1457 | characters and try again, or just press @key{TAB} a second time; | |
1458 | @value{GDBN} displays all the possible completions for that word. For | |
1459 | example, you might want to set a breakpoint on a subroutine whose name | |
1460 | begins with @samp{make_}, but when you type @kbd{b make_@key{TAB}} @value{GDBN} | |
1461 | just sounds the bell. Typing @key{TAB} again displays all the | |
1462 | function names in your program that begin with those characters, for | |
1463 | example: | |
1464 | ||
474c8240 | 1465 | @smallexample |
c906108c SS |
1466 | (@value{GDBP}) b make_ @key{TAB} |
1467 | @exdent @value{GDBN} sounds bell; press @key{TAB} again, to see: | |
5d161b24 DB |
1468 | make_a_section_from_file make_environ |
1469 | make_abs_section make_function_type | |
1470 | make_blockvector make_pointer_type | |
1471 | make_cleanup make_reference_type | |
c906108c SS |
1472 | make_command make_symbol_completion_list |
1473 | (@value{GDBP}) b make_ | |
474c8240 | 1474 | @end smallexample |
c906108c SS |
1475 | |
1476 | @noindent | |
1477 | After displaying the available possibilities, @value{GDBN} copies your | |
1478 | partial input (@samp{b make_} in the example) so you can finish the | |
1479 | command. | |
1480 | ||
1481 | If you just want to see the list of alternatives in the first place, you | |
b37052ae | 1482 | can press @kbd{M-?} rather than pressing @key{TAB} twice. @kbd{M-?} |
7a292a7a | 1483 | means @kbd{@key{META} ?}. You can type this either by holding down a |
c906108c | 1484 | key designated as the @key{META} shift on your keyboard (if there is |
7a292a7a | 1485 | one) while typing @kbd{?}, or as @key{ESC} followed by @kbd{?}. |
c906108c SS |
1486 | |
1487 | @cindex quotes in commands | |
1488 | @cindex completion of quoted strings | |
1489 | Sometimes the string you need, while logically a ``word'', may contain | |
7a292a7a SS |
1490 | parentheses or other characters that @value{GDBN} normally excludes from |
1491 | its notion of a word. To permit word completion to work in this | |
1492 | situation, you may enclose words in @code{'} (single quote marks) in | |
1493 | @value{GDBN} commands. | |
c906108c | 1494 | |
c906108c | 1495 | The most likely situation where you might need this is in typing the |
b37052ae EZ |
1496 | name of a C@t{++} function. This is because C@t{++} allows function |
1497 | overloading (multiple definitions of the same function, distinguished | |
1498 | by argument type). For example, when you want to set a breakpoint you | |
1499 | may need to distinguish whether you mean the version of @code{name} | |
1500 | that takes an @code{int} parameter, @code{name(int)}, or the version | |
1501 | that takes a @code{float} parameter, @code{name(float)}. To use the | |
1502 | word-completion facilities in this situation, type a single quote | |
1503 | @code{'} at the beginning of the function name. This alerts | |
1504 | @value{GDBN} that it may need to consider more information than usual | |
1505 | when you press @key{TAB} or @kbd{M-?} to request word completion: | |
c906108c | 1506 | |
474c8240 | 1507 | @smallexample |
96a2c332 | 1508 | (@value{GDBP}) b 'bubble( @kbd{M-?} |
c906108c SS |
1509 | bubble(double,double) bubble(int,int) |
1510 | (@value{GDBP}) b 'bubble( | |
474c8240 | 1511 | @end smallexample |
c906108c SS |
1512 | |
1513 | In some cases, @value{GDBN} can tell that completing a name requires using | |
1514 | quotes. When this happens, @value{GDBN} inserts the quote for you (while | |
1515 | completing as much as it can) if you do not type the quote in the first | |
1516 | place: | |
1517 | ||
474c8240 | 1518 | @smallexample |
c906108c SS |
1519 | (@value{GDBP}) b bub @key{TAB} |
1520 | @exdent @value{GDBN} alters your input line to the following, and rings a bell: | |
1521 | (@value{GDBP}) b 'bubble( | |
474c8240 | 1522 | @end smallexample |
c906108c SS |
1523 | |
1524 | @noindent | |
1525 | In general, @value{GDBN} can tell that a quote is needed (and inserts it) if | |
1526 | you have not yet started typing the argument list when you ask for | |
1527 | completion on an overloaded symbol. | |
1528 | ||
79a6e687 BW |
1529 | For more information about overloaded functions, see @ref{C Plus Plus |
1530 | Expressions, ,C@t{++} Expressions}. You can use the command @code{set | |
c906108c | 1531 | overload-resolution off} to disable overload resolution; |
79a6e687 | 1532 | see @ref{Debugging C Plus Plus, ,@value{GDBN} Features for C@t{++}}. |
c906108c | 1533 | |
65d12d83 TT |
1534 | @cindex completion of structure field names |
1535 | @cindex structure field name completion | |
1536 | @cindex completion of union field names | |
1537 | @cindex union field name completion | |
1538 | When completing in an expression which looks up a field in a | |
1539 | structure, @value{GDBN} also tries@footnote{The completer can be | |
1540 | confused by certain kinds of invalid expressions. Also, it only | |
1541 | examines the static type of the expression, not the dynamic type.} to | |
1542 | limit completions to the field names available in the type of the | |
1543 | left-hand-side: | |
1544 | ||
1545 | @smallexample | |
1546 | (@value{GDBP}) p gdb_stdout.@kbd{M-?} | |
1547 | magic to_delete to_fputs to_put to_rewind | |
1548 | to_data to_flush to_isatty to_read to_write | |
1549 | @end smallexample | |
1550 | ||
1551 | @noindent | |
1552 | This is because the @code{gdb_stdout} is a variable of the type | |
1553 | @code{struct ui_file} that is defined in @value{GDBN} sources as | |
1554 | follows: | |
1555 | ||
1556 | @smallexample | |
1557 | struct ui_file | |
1558 | @{ | |
1559 | int *magic; | |
1560 | ui_file_flush_ftype *to_flush; | |
1561 | ui_file_write_ftype *to_write; | |
1562 | ui_file_fputs_ftype *to_fputs; | |
1563 | ui_file_read_ftype *to_read; | |
1564 | ui_file_delete_ftype *to_delete; | |
1565 | ui_file_isatty_ftype *to_isatty; | |
1566 | ui_file_rewind_ftype *to_rewind; | |
1567 | ui_file_put_ftype *to_put; | |
1568 | void *to_data; | |
1569 | @} | |
1570 | @end smallexample | |
1571 | ||
c906108c | 1572 | |
6d2ebf8b | 1573 | @node Help |
79a6e687 | 1574 | @section Getting Help |
c906108c SS |
1575 | @cindex online documentation |
1576 | @kindex help | |
1577 | ||
5d161b24 | 1578 | You can always ask @value{GDBN} itself for information on its commands, |
c906108c SS |
1579 | using the command @code{help}. |
1580 | ||
1581 | @table @code | |
41afff9a | 1582 | @kindex h @r{(@code{help})} |
c906108c SS |
1583 | @item help |
1584 | @itemx h | |
1585 | You can use @code{help} (abbreviated @code{h}) with no arguments to | |
1586 | display a short list of named classes of commands: | |
1587 | ||
1588 | @smallexample | |
1589 | (@value{GDBP}) help | |
1590 | List of classes of commands: | |
1591 | ||
2df3850c | 1592 | aliases -- Aliases of other commands |
c906108c | 1593 | breakpoints -- Making program stop at certain points |
2df3850c | 1594 | data -- Examining data |
c906108c | 1595 | files -- Specifying and examining files |
2df3850c JM |
1596 | internals -- Maintenance commands |
1597 | obscure -- Obscure features | |
1598 | running -- Running the program | |
1599 | stack -- Examining the stack | |
c906108c SS |
1600 | status -- Status inquiries |
1601 | support -- Support facilities | |
12c27660 | 1602 | tracepoints -- Tracing of program execution without |
96a2c332 | 1603 | stopping the program |
c906108c | 1604 | user-defined -- User-defined commands |
c906108c | 1605 | |
5d161b24 | 1606 | Type "help" followed by a class name for a list of |
c906108c | 1607 | commands in that class. |
5d161b24 | 1608 | Type "help" followed by command name for full |
c906108c SS |
1609 | documentation. |
1610 | Command name abbreviations are allowed if unambiguous. | |
1611 | (@value{GDBP}) | |
1612 | @end smallexample | |
96a2c332 | 1613 | @c the above line break eliminates huge line overfull... |
c906108c SS |
1614 | |
1615 | @item help @var{class} | |
1616 | Using one of the general help classes as an argument, you can get a | |
1617 | list of the individual commands in that class. For example, here is the | |
1618 | help display for the class @code{status}: | |
1619 | ||
1620 | @smallexample | |
1621 | (@value{GDBP}) help status | |
1622 | Status inquiries. | |
1623 | ||
1624 | List of commands: | |
1625 | ||
1626 | @c Line break in "show" line falsifies real output, but needed | |
1627 | @c to fit in smallbook page size. | |
2df3850c | 1628 | info -- Generic command for showing things |
12c27660 | 1629 | about the program being debugged |
2df3850c | 1630 | show -- Generic command for showing things |
12c27660 | 1631 | about the debugger |
c906108c | 1632 | |
5d161b24 | 1633 | Type "help" followed by command name for full |
c906108c SS |
1634 | documentation. |
1635 | Command name abbreviations are allowed if unambiguous. | |
1636 | (@value{GDBP}) | |
1637 | @end smallexample | |
1638 | ||
1639 | @item help @var{command} | |
1640 | With a command name as @code{help} argument, @value{GDBN} displays a | |
1641 | short paragraph on how to use that command. | |
1642 | ||
6837a0a2 DB |
1643 | @kindex apropos |
1644 | @item apropos @var{args} | |
09d4efe1 | 1645 | The @code{apropos} command searches through all of the @value{GDBN} |
6837a0a2 DB |
1646 | commands, and their documentation, for the regular expression specified in |
1647 | @var{args}. It prints out all matches found. For example: | |
1648 | ||
1649 | @smallexample | |
1650 | apropos reload | |
1651 | @end smallexample | |
1652 | ||
b37052ae EZ |
1653 | @noindent |
1654 | results in: | |
6837a0a2 DB |
1655 | |
1656 | @smallexample | |
6d2ebf8b SS |
1657 | @c @group |
1658 | set symbol-reloading -- Set dynamic symbol table reloading | |
12c27660 | 1659 | multiple times in one run |
6d2ebf8b | 1660 | show symbol-reloading -- Show dynamic symbol table reloading |
12c27660 | 1661 | multiple times in one run |
6d2ebf8b | 1662 | @c @end group |
6837a0a2 DB |
1663 | @end smallexample |
1664 | ||
c906108c SS |
1665 | @kindex complete |
1666 | @item complete @var{args} | |
1667 | The @code{complete @var{args}} command lists all the possible completions | |
1668 | for the beginning of a command. Use @var{args} to specify the beginning of the | |
1669 | command you want completed. For example: | |
1670 | ||
1671 | @smallexample | |
1672 | complete i | |
1673 | @end smallexample | |
1674 | ||
1675 | @noindent results in: | |
1676 | ||
1677 | @smallexample | |
1678 | @group | |
2df3850c JM |
1679 | if |
1680 | ignore | |
c906108c SS |
1681 | info |
1682 | inspect | |
c906108c SS |
1683 | @end group |
1684 | @end smallexample | |
1685 | ||
1686 | @noindent This is intended for use by @sc{gnu} Emacs. | |
1687 | @end table | |
1688 | ||
1689 | In addition to @code{help}, you can use the @value{GDBN} commands @code{info} | |
1690 | and @code{show} to inquire about the state of your program, or the state | |
1691 | of @value{GDBN} itself. Each command supports many topics of inquiry; this | |
1692 | manual introduces each of them in the appropriate context. The listings | |
1693 | under @code{info} and under @code{show} in the Index point to | |
1694 | all the sub-commands. @xref{Index}. | |
1695 | ||
1696 | @c @group | |
1697 | @table @code | |
1698 | @kindex info | |
41afff9a | 1699 | @kindex i @r{(@code{info})} |
c906108c SS |
1700 | @item info |
1701 | This command (abbreviated @code{i}) is for describing the state of your | |
cda4ce5a | 1702 | program. For example, you can show the arguments passed to a function |
c906108c SS |
1703 | with @code{info args}, list the registers currently in use with @code{info |
1704 | registers}, or list the breakpoints you have set with @code{info breakpoints}. | |
1705 | You can get a complete list of the @code{info} sub-commands with | |
1706 | @w{@code{help info}}. | |
1707 | ||
1708 | @kindex set | |
1709 | @item set | |
5d161b24 | 1710 | You can assign the result of an expression to an environment variable with |
c906108c SS |
1711 | @code{set}. For example, you can set the @value{GDBN} prompt to a $-sign with |
1712 | @code{set prompt $}. | |
1713 | ||
1714 | @kindex show | |
1715 | @item show | |
5d161b24 | 1716 | In contrast to @code{info}, @code{show} is for describing the state of |
c906108c SS |
1717 | @value{GDBN} itself. |
1718 | You can change most of the things you can @code{show}, by using the | |
1719 | related command @code{set}; for example, you can control what number | |
1720 | system is used for displays with @code{set radix}, or simply inquire | |
1721 | which is currently in use with @code{show radix}. | |
1722 | ||
1723 | @kindex info set | |
1724 | To display all the settable parameters and their current | |
1725 | values, you can use @code{show} with no arguments; you may also use | |
1726 | @code{info set}. Both commands produce the same display. | |
1727 | @c FIXME: "info set" violates the rule that "info" is for state of | |
1728 | @c FIXME...program. Ck w/ GNU: "info set" to be called something else, | |
1729 | @c FIXME...or change desc of rule---eg "state of prog and debugging session"? | |
1730 | @end table | |
1731 | @c @end group | |
1732 | ||
1733 | Here are three miscellaneous @code{show} subcommands, all of which are | |
1734 | exceptional in lacking corresponding @code{set} commands: | |
1735 | ||
1736 | @table @code | |
1737 | @kindex show version | |
9c16f35a | 1738 | @cindex @value{GDBN} version number |
c906108c SS |
1739 | @item show version |
1740 | Show what version of @value{GDBN} is running. You should include this | |
2df3850c JM |
1741 | information in @value{GDBN} bug-reports. If multiple versions of |
1742 | @value{GDBN} are in use at your site, you may need to determine which | |
1743 | version of @value{GDBN} you are running; as @value{GDBN} evolves, new | |
1744 | commands are introduced, and old ones may wither away. Also, many | |
1745 | system vendors ship variant versions of @value{GDBN}, and there are | |
96a2c332 | 1746 | variant versions of @value{GDBN} in @sc{gnu}/Linux distributions as well. |
2df3850c JM |
1747 | The version number is the same as the one announced when you start |
1748 | @value{GDBN}. | |
c906108c SS |
1749 | |
1750 | @kindex show copying | |
09d4efe1 | 1751 | @kindex info copying |
9c16f35a | 1752 | @cindex display @value{GDBN} copyright |
c906108c | 1753 | @item show copying |
09d4efe1 | 1754 | @itemx info copying |
c906108c SS |
1755 | Display information about permission for copying @value{GDBN}. |
1756 | ||
1757 | @kindex show warranty | |
09d4efe1 | 1758 | @kindex info warranty |
c906108c | 1759 | @item show warranty |
09d4efe1 | 1760 | @itemx info warranty |
2df3850c | 1761 | Display the @sc{gnu} ``NO WARRANTY'' statement, or a warranty, |
96a2c332 | 1762 | if your version of @value{GDBN} comes with one. |
2df3850c | 1763 | |
c906108c SS |
1764 | @end table |
1765 | ||
6d2ebf8b | 1766 | @node Running |
c906108c SS |
1767 | @chapter Running Programs Under @value{GDBN} |
1768 | ||
1769 | When you run a program under @value{GDBN}, you must first generate | |
1770 | debugging information when you compile it. | |
7a292a7a SS |
1771 | |
1772 | You may start @value{GDBN} with its arguments, if any, in an environment | |
1773 | of your choice. If you are doing native debugging, you may redirect | |
1774 | your program's input and output, debug an already running process, or | |
1775 | kill a child process. | |
c906108c SS |
1776 | |
1777 | @menu | |
1778 | * Compilation:: Compiling for debugging | |
1779 | * Starting:: Starting your program | |
c906108c SS |
1780 | * Arguments:: Your program's arguments |
1781 | * Environment:: Your program's environment | |
c906108c SS |
1782 | |
1783 | * Working Directory:: Your program's working directory | |
1784 | * Input/Output:: Your program's input and output | |
1785 | * Attach:: Debugging an already-running process | |
1786 | * Kill Process:: Killing the child process | |
c906108c SS |
1787 | |
1788 | * Threads:: Debugging programs with multiple threads | |
1789 | * Processes:: Debugging programs with multiple processes | |
5c95884b | 1790 | * Checkpoint/Restart:: Setting a @emph{bookmark} to return to later |
c906108c SS |
1791 | @end menu |
1792 | ||
6d2ebf8b | 1793 | @node Compilation |
79a6e687 | 1794 | @section Compiling for Debugging |
c906108c SS |
1795 | |
1796 | In order to debug a program effectively, you need to generate | |
1797 | debugging information when you compile it. This debugging information | |
1798 | is stored in the object file; it describes the data type of each | |
1799 | variable or function and the correspondence between source line numbers | |
1800 | and addresses in the executable code. | |
1801 | ||
1802 | To request debugging information, specify the @samp{-g} option when you run | |
1803 | the compiler. | |
1804 | ||
514c4d71 EZ |
1805 | Programs that are to be shipped to your customers are compiled with |
1806 | optimizations, using the @samp{-O} compiler option. However, many | |
1807 | compilers are unable to handle the @samp{-g} and @samp{-O} options | |
1808 | together. Using those compilers, you cannot generate optimized | |
c906108c SS |
1809 | executables containing debugging information. |
1810 | ||
514c4d71 | 1811 | @value{NGCC}, the @sc{gnu} C/C@t{++} compiler, supports @samp{-g} with or |
53a5351d JM |
1812 | without @samp{-O}, making it possible to debug optimized code. We |
1813 | recommend that you @emph{always} use @samp{-g} whenever you compile a | |
1814 | program. You may think your program is correct, but there is no sense | |
1815 | in pushing your luck. | |
c906108c SS |
1816 | |
1817 | @cindex optimized code, debugging | |
1818 | @cindex debugging optimized code | |
1819 | When you debug a program compiled with @samp{-g -O}, remember that the | |
1820 | optimizer is rearranging your code; the debugger shows you what is | |
1821 | really there. Do not be too surprised when the execution path does not | |
1822 | exactly match your source file! An extreme example: if you define a | |
1823 | variable, but never use it, @value{GDBN} never sees that | |
1824 | variable---because the compiler optimizes it out of existence. | |
1825 | ||
1826 | Some things do not work as well with @samp{-g -O} as with just | |
1827 | @samp{-g}, particularly on machines with instruction scheduling. If in | |
1828 | doubt, recompile with @samp{-g} alone, and if this fixes the problem, | |
1829 | please report it to us as a bug (including a test case!). | |
15387254 | 1830 | @xref{Variables}, for more information about debugging optimized code. |
c906108c SS |
1831 | |
1832 | Older versions of the @sc{gnu} C compiler permitted a variant option | |
1833 | @w{@samp{-gg}} for debugging information. @value{GDBN} no longer supports this | |
1834 | format; if your @sc{gnu} C compiler has this option, do not use it. | |
1835 | ||
514c4d71 EZ |
1836 | @value{GDBN} knows about preprocessor macros and can show you their |
1837 | expansion (@pxref{Macros}). Most compilers do not include information | |
1838 | about preprocessor macros in the debugging information if you specify | |
1839 | the @option{-g} flag alone, because this information is rather large. | |
1840 | Version 3.1 and later of @value{NGCC}, the @sc{gnu} C compiler, | |
1841 | provides macro information if you specify the options | |
1842 | @option{-gdwarf-2} and @option{-g3}; the former option requests | |
1843 | debugging information in the Dwarf 2 format, and the latter requests | |
1844 | ``extra information''. In the future, we hope to find more compact | |
1845 | ways to represent macro information, so that it can be included with | |
1846 | @option{-g} alone. | |
1847 | ||
c906108c | 1848 | @need 2000 |
6d2ebf8b | 1849 | @node Starting |
79a6e687 | 1850 | @section Starting your Program |
c906108c SS |
1851 | @cindex starting |
1852 | @cindex running | |
1853 | ||
1854 | @table @code | |
1855 | @kindex run | |
41afff9a | 1856 | @kindex r @r{(@code{run})} |
c906108c SS |
1857 | @item run |
1858 | @itemx r | |
7a292a7a SS |
1859 | Use the @code{run} command to start your program under @value{GDBN}. |
1860 | You must first specify the program name (except on VxWorks) with an | |
1861 | argument to @value{GDBN} (@pxref{Invocation, ,Getting In and Out of | |
1862 | @value{GDBN}}), or by using the @code{file} or @code{exec-file} command | |
79a6e687 | 1863 | (@pxref{Files, ,Commands to Specify Files}). |
c906108c SS |
1864 | |
1865 | @end table | |
1866 | ||
c906108c SS |
1867 | If you are running your program in an execution environment that |
1868 | supports processes, @code{run} creates an inferior process and makes | |
8edfe269 DJ |
1869 | that process run your program. In some environments without processes, |
1870 | @code{run} jumps to the start of your program. Other targets, | |
1871 | like @samp{remote}, are always running. If you get an error | |
1872 | message like this one: | |
1873 | ||
1874 | @smallexample | |
1875 | The "remote" target does not support "run". | |
1876 | Try "help target" or "continue". | |
1877 | @end smallexample | |
1878 | ||
1879 | @noindent | |
1880 | then use @code{continue} to run your program. You may need @code{load} | |
1881 | first (@pxref{load}). | |
c906108c SS |
1882 | |
1883 | The execution of a program is affected by certain information it | |
1884 | receives from its superior. @value{GDBN} provides ways to specify this | |
1885 | information, which you must do @emph{before} starting your program. (You | |
1886 | can change it after starting your program, but such changes only affect | |
1887 | your program the next time you start it.) This information may be | |
1888 | divided into four categories: | |
1889 | ||
1890 | @table @asis | |
1891 | @item The @emph{arguments.} | |
1892 | Specify the arguments to give your program as the arguments of the | |
1893 | @code{run} command. If a shell is available on your target, the shell | |
1894 | is used to pass the arguments, so that you may use normal conventions | |
1895 | (such as wildcard expansion or variable substitution) in describing | |
1896 | the arguments. | |
1897 | In Unix systems, you can control which shell is used with the | |
1898 | @code{SHELL} environment variable. | |
79a6e687 | 1899 | @xref{Arguments, ,Your Program's Arguments}. |
c906108c SS |
1900 | |
1901 | @item The @emph{environment.} | |
1902 | Your program normally inherits its environment from @value{GDBN}, but you can | |
1903 | use the @value{GDBN} commands @code{set environment} and @code{unset | |
1904 | environment} to change parts of the environment that affect | |
79a6e687 | 1905 | your program. @xref{Environment, ,Your Program's Environment}. |
c906108c SS |
1906 | |
1907 | @item The @emph{working directory.} | |
1908 | Your program inherits its working directory from @value{GDBN}. You can set | |
1909 | the @value{GDBN} working directory with the @code{cd} command in @value{GDBN}. | |
79a6e687 | 1910 | @xref{Working Directory, ,Your Program's Working Directory}. |
c906108c SS |
1911 | |
1912 | @item The @emph{standard input and output.} | |
1913 | Your program normally uses the same device for standard input and | |
1914 | standard output as @value{GDBN} is using. You can redirect input and output | |
1915 | in the @code{run} command line, or you can use the @code{tty} command to | |
1916 | set a different device for your program. | |
79a6e687 | 1917 | @xref{Input/Output, ,Your Program's Input and Output}. |
c906108c SS |
1918 | |
1919 | @cindex pipes | |
1920 | @emph{Warning:} While input and output redirection work, you cannot use | |
1921 | pipes to pass the output of the program you are debugging to another | |
1922 | program; if you attempt this, @value{GDBN} is likely to wind up debugging the | |
1923 | wrong program. | |
1924 | @end table | |
c906108c SS |
1925 | |
1926 | When you issue the @code{run} command, your program begins to execute | |
79a6e687 | 1927 | immediately. @xref{Stopping, ,Stopping and Continuing}, for discussion |
c906108c SS |
1928 | of how to arrange for your program to stop. Once your program has |
1929 | stopped, you may call functions in your program, using the @code{print} | |
1930 | or @code{call} commands. @xref{Data, ,Examining Data}. | |
1931 | ||
1932 | If the modification time of your symbol file has changed since the last | |
1933 | time @value{GDBN} read its symbols, @value{GDBN} discards its symbol | |
1934 | table, and reads it again. When it does this, @value{GDBN} tries to retain | |
1935 | your current breakpoints. | |
1936 | ||
4e8b0763 JB |
1937 | @table @code |
1938 | @kindex start | |
1939 | @item start | |
1940 | @cindex run to main procedure | |
1941 | The name of the main procedure can vary from language to language. | |
1942 | With C or C@t{++}, the main procedure name is always @code{main}, but | |
1943 | other languages such as Ada do not require a specific name for their | |
1944 | main procedure. The debugger provides a convenient way to start the | |
1945 | execution of the program and to stop at the beginning of the main | |
1946 | procedure, depending on the language used. | |
1947 | ||
1948 | The @samp{start} command does the equivalent of setting a temporary | |
1949 | breakpoint at the beginning of the main procedure and then invoking | |
1950 | the @samp{run} command. | |
1951 | ||
f018e82f EZ |
1952 | @cindex elaboration phase |
1953 | Some programs contain an @dfn{elaboration} phase where some startup code is | |
1954 | executed before the main procedure is called. This depends on the | |
1955 | languages used to write your program. In C@t{++}, for instance, | |
4e8b0763 JB |
1956 | constructors for static and global objects are executed before |
1957 | @code{main} is called. It is therefore possible that the debugger stops | |
1958 | before reaching the main procedure. However, the temporary breakpoint | |
1959 | will remain to halt execution. | |
1960 | ||
1961 | Specify the arguments to give to your program as arguments to the | |
1962 | @samp{start} command. These arguments will be given verbatim to the | |
1963 | underlying @samp{run} command. Note that the same arguments will be | |
1964 | reused if no argument is provided during subsequent calls to | |
1965 | @samp{start} or @samp{run}. | |
1966 | ||
1967 | It is sometimes necessary to debug the program during elaboration. In | |
1968 | these cases, using the @code{start} command would stop the execution of | |
1969 | your program too late, as the program would have already completed the | |
1970 | elaboration phase. Under these circumstances, insert breakpoints in your | |
1971 | elaboration code before running your program. | |
ccd213ac DJ |
1972 | |
1973 | @kindex set exec-wrapper | |
1974 | @item set exec-wrapper @var{wrapper} | |
1975 | @itemx show exec-wrapper | |
1976 | @itemx unset exec-wrapper | |
1977 | When @samp{exec-wrapper} is set, the specified wrapper is used to | |
1978 | launch programs for debugging. @value{GDBN} starts your program | |
1979 | with a shell command of the form @kbd{exec @var{wrapper} | |
1980 | @var{program}}. Quoting is added to @var{program} and its | |
1981 | arguments, but not to @var{wrapper}, so you should add quotes if | |
1982 | appropriate for your shell. The wrapper runs until it executes | |
1983 | your program, and then @value{GDBN} takes control. | |
1984 | ||
1985 | You can use any program that eventually calls @code{execve} with | |
1986 | its arguments as a wrapper. Several standard Unix utilities do | |
1987 | this, e.g.@: @code{env} and @code{nohup}. Any Unix shell script ending | |
1988 | with @code{exec "$@@"} will also work. | |
1989 | ||
1990 | For example, you can use @code{env} to pass an environment variable to | |
1991 | the debugged program, without setting the variable in your shell's | |
1992 | environment: | |
1993 | ||
1994 | @smallexample | |
1995 | (@value{GDBP}) set exec-wrapper env 'LD_PRELOAD=libtest.so' | |
1996 | (@value{GDBP}) run | |
1997 | @end smallexample | |
1998 | ||
1999 | This command is available when debugging locally on most targets, excluding | |
2000 | @sc{djgpp}, Cygwin, MS Windows, and QNX Neutrino. | |
2001 | ||
4e8b0763 JB |
2002 | @end table |
2003 | ||
6d2ebf8b | 2004 | @node Arguments |
79a6e687 | 2005 | @section Your Program's Arguments |
c906108c SS |
2006 | |
2007 | @cindex arguments (to your program) | |
2008 | The arguments to your program can be specified by the arguments of the | |
5d161b24 | 2009 | @code{run} command. |
c906108c SS |
2010 | They are passed to a shell, which expands wildcard characters and |
2011 | performs redirection of I/O, and thence to your program. Your | |
2012 | @code{SHELL} environment variable (if it exists) specifies what shell | |
2013 | @value{GDBN} uses. If you do not define @code{SHELL}, @value{GDBN} uses | |
d4f3574e SS |
2014 | the default shell (@file{/bin/sh} on Unix). |
2015 | ||
2016 | On non-Unix systems, the program is usually invoked directly by | |
2017 | @value{GDBN}, which emulates I/O redirection via the appropriate system | |
2018 | calls, and the wildcard characters are expanded by the startup code of | |
2019 | the program, not by the shell. | |
c906108c SS |
2020 | |
2021 | @code{run} with no arguments uses the same arguments used by the previous | |
2022 | @code{run}, or those set by the @code{set args} command. | |
2023 | ||
c906108c | 2024 | @table @code |
41afff9a | 2025 | @kindex set args |
c906108c SS |
2026 | @item set args |
2027 | Specify the arguments to be used the next time your program is run. If | |
2028 | @code{set args} has no arguments, @code{run} executes your program | |
2029 | with no arguments. Once you have run your program with arguments, | |
2030 | using @code{set args} before the next @code{run} is the only way to run | |
2031 | it again without arguments. | |
2032 | ||
2033 | @kindex show args | |
2034 | @item show args | |
2035 | Show the arguments to give your program when it is started. | |
2036 | @end table | |
2037 | ||
6d2ebf8b | 2038 | @node Environment |
79a6e687 | 2039 | @section Your Program's Environment |
c906108c SS |
2040 | |
2041 | @cindex environment (of your program) | |
2042 | The @dfn{environment} consists of a set of environment variables and | |
2043 | their values. Environment variables conventionally record such things as | |
2044 | your user name, your home directory, your terminal type, and your search | |
2045 | path for programs to run. Usually you set up environment variables with | |
2046 | the shell and they are inherited by all the other programs you run. When | |
2047 | debugging, it can be useful to try running your program with a modified | |
2048 | environment without having to start @value{GDBN} over again. | |
2049 | ||
2050 | @table @code | |
2051 | @kindex path | |
2052 | @item path @var{directory} | |
2053 | Add @var{directory} to the front of the @code{PATH} environment variable | |
17cc6a06 EZ |
2054 | (the search path for executables) that will be passed to your program. |
2055 | The value of @code{PATH} used by @value{GDBN} does not change. | |
d4f3574e SS |
2056 | You may specify several directory names, separated by whitespace or by a |
2057 | system-dependent separator character (@samp{:} on Unix, @samp{;} on | |
2058 | MS-DOS and MS-Windows). If @var{directory} is already in the path, it | |
2059 | is moved to the front, so it is searched sooner. | |
c906108c SS |
2060 | |
2061 | You can use the string @samp{$cwd} to refer to whatever is the current | |
2062 | working directory at the time @value{GDBN} searches the path. If you | |
2063 | use @samp{.} instead, it refers to the directory where you executed the | |
2064 | @code{path} command. @value{GDBN} replaces @samp{.} in the | |
2065 | @var{directory} argument (with the current path) before adding | |
2066 | @var{directory} to the search path. | |
2067 | @c 'path' is explicitly nonrepeatable, but RMS points out it is silly to | |
2068 | @c document that, since repeating it would be a no-op. | |
2069 | ||
2070 | @kindex show paths | |
2071 | @item show paths | |
2072 | Display the list of search paths for executables (the @code{PATH} | |
2073 | environment variable). | |
2074 | ||
2075 | @kindex show environment | |
2076 | @item show environment @r{[}@var{varname}@r{]} | |
2077 | Print the value of environment variable @var{varname} to be given to | |
2078 | your program when it starts. If you do not supply @var{varname}, | |
2079 | print the names and values of all environment variables to be given to | |
2080 | your program. You can abbreviate @code{environment} as @code{env}. | |
2081 | ||
2082 | @kindex set environment | |
53a5351d | 2083 | @item set environment @var{varname} @r{[}=@var{value}@r{]} |
c906108c SS |
2084 | Set environment variable @var{varname} to @var{value}. The value |
2085 | changes for your program only, not for @value{GDBN} itself. @var{value} may | |
2086 | be any string; the values of environment variables are just strings, and | |
2087 | any interpretation is supplied by your program itself. The @var{value} | |
2088 | parameter is optional; if it is eliminated, the variable is set to a | |
2089 | null value. | |
2090 | @c "any string" here does not include leading, trailing | |
2091 | @c blanks. Gnu asks: does anyone care? | |
2092 | ||
2093 | For example, this command: | |
2094 | ||
474c8240 | 2095 | @smallexample |
c906108c | 2096 | set env USER = foo |
474c8240 | 2097 | @end smallexample |
c906108c SS |
2098 | |
2099 | @noindent | |
d4f3574e | 2100 | tells the debugged program, when subsequently run, that its user is named |
c906108c SS |
2101 | @samp{foo}. (The spaces around @samp{=} are used for clarity here; they |
2102 | are not actually required.) | |
2103 | ||
2104 | @kindex unset environment | |
2105 | @item unset environment @var{varname} | |
2106 | Remove variable @var{varname} from the environment to be passed to your | |
2107 | program. This is different from @samp{set env @var{varname} =}; | |
2108 | @code{unset environment} removes the variable from the environment, | |
2109 | rather than assigning it an empty value. | |
2110 | @end table | |
2111 | ||
d4f3574e SS |
2112 | @emph{Warning:} On Unix systems, @value{GDBN} runs your program using |
2113 | the shell indicated | |
c906108c SS |
2114 | by your @code{SHELL} environment variable if it exists (or |
2115 | @code{/bin/sh} if not). If your @code{SHELL} variable names a shell | |
2116 | that runs an initialization file---such as @file{.cshrc} for C-shell, or | |
2117 | @file{.bashrc} for BASH---any variables you set in that file affect | |
2118 | your program. You may wish to move setting of environment variables to | |
2119 | files that are only run when you sign on, such as @file{.login} or | |
2120 | @file{.profile}. | |
2121 | ||
6d2ebf8b | 2122 | @node Working Directory |
79a6e687 | 2123 | @section Your Program's Working Directory |
c906108c SS |
2124 | |
2125 | @cindex working directory (of your program) | |
2126 | Each time you start your program with @code{run}, it inherits its | |
2127 | working directory from the current working directory of @value{GDBN}. | |
2128 | The @value{GDBN} working directory is initially whatever it inherited | |
2129 | from its parent process (typically the shell), but you can specify a new | |
2130 | working directory in @value{GDBN} with the @code{cd} command. | |
2131 | ||
2132 | The @value{GDBN} working directory also serves as a default for the commands | |
2133 | that specify files for @value{GDBN} to operate on. @xref{Files, ,Commands to | |
79a6e687 | 2134 | Specify Files}. |
c906108c SS |
2135 | |
2136 | @table @code | |
2137 | @kindex cd | |
721c2651 | 2138 | @cindex change working directory |
c906108c SS |
2139 | @item cd @var{directory} |
2140 | Set the @value{GDBN} working directory to @var{directory}. | |
2141 | ||
2142 | @kindex pwd | |
2143 | @item pwd | |
2144 | Print the @value{GDBN} working directory. | |
2145 | @end table | |
2146 | ||
60bf7e09 EZ |
2147 | It is generally impossible to find the current working directory of |
2148 | the process being debugged (since a program can change its directory | |
2149 | during its run). If you work on a system where @value{GDBN} is | |
2150 | configured with the @file{/proc} support, you can use the @code{info | |
2151 | proc} command (@pxref{SVR4 Process Information}) to find out the | |
2152 | current working directory of the debuggee. | |
2153 | ||
6d2ebf8b | 2154 | @node Input/Output |
79a6e687 | 2155 | @section Your Program's Input and Output |
c906108c SS |
2156 | |
2157 | @cindex redirection | |
2158 | @cindex i/o | |
2159 | @cindex terminal | |
2160 | By default, the program you run under @value{GDBN} does input and output to | |
5d161b24 | 2161 | the same terminal that @value{GDBN} uses. @value{GDBN} switches the terminal |
c906108c SS |
2162 | to its own terminal modes to interact with you, but it records the terminal |
2163 | modes your program was using and switches back to them when you continue | |
2164 | running your program. | |
2165 | ||
2166 | @table @code | |
2167 | @kindex info terminal | |
2168 | @item info terminal | |
2169 | Displays information recorded by @value{GDBN} about the terminal modes your | |
2170 | program is using. | |
2171 | @end table | |
2172 | ||
2173 | You can redirect your program's input and/or output using shell | |
2174 | redirection with the @code{run} command. For example, | |
2175 | ||
474c8240 | 2176 | @smallexample |
c906108c | 2177 | run > outfile |
474c8240 | 2178 | @end smallexample |
c906108c SS |
2179 | |
2180 | @noindent | |
2181 | starts your program, diverting its output to the file @file{outfile}. | |
2182 | ||
2183 | @kindex tty | |
2184 | @cindex controlling terminal | |
2185 | Another way to specify where your program should do input and output is | |
2186 | with the @code{tty} command. This command accepts a file name as | |
2187 | argument, and causes this file to be the default for future @code{run} | |
2188 | commands. It also resets the controlling terminal for the child | |
2189 | process, for future @code{run} commands. For example, | |
2190 | ||
474c8240 | 2191 | @smallexample |
c906108c | 2192 | tty /dev/ttyb |
474c8240 | 2193 | @end smallexample |
c906108c SS |
2194 | |
2195 | @noindent | |
2196 | directs that processes started with subsequent @code{run} commands | |
2197 | default to do input and output on the terminal @file{/dev/ttyb} and have | |
2198 | that as their controlling terminal. | |
2199 | ||
2200 | An explicit redirection in @code{run} overrides the @code{tty} command's | |
2201 | effect on the input/output device, but not its effect on the controlling | |
2202 | terminal. | |
2203 | ||
2204 | When you use the @code{tty} command or redirect input in the @code{run} | |
2205 | command, only the input @emph{for your program} is affected. The input | |
3cb3b8df BR |
2206 | for @value{GDBN} still comes from your terminal. @code{tty} is an alias |
2207 | for @code{set inferior-tty}. | |
2208 | ||
2209 | @cindex inferior tty | |
2210 | @cindex set inferior controlling terminal | |
2211 | You can use the @code{show inferior-tty} command to tell @value{GDBN} to | |
2212 | display the name of the terminal that will be used for future runs of your | |
2213 | program. | |
2214 | ||
2215 | @table @code | |
2216 | @item set inferior-tty /dev/ttyb | |
2217 | @kindex set inferior-tty | |
2218 | Set the tty for the program being debugged to /dev/ttyb. | |
2219 | ||
2220 | @item show inferior-tty | |
2221 | @kindex show inferior-tty | |
2222 | Show the current tty for the program being debugged. | |
2223 | @end table | |
c906108c | 2224 | |
6d2ebf8b | 2225 | @node Attach |
79a6e687 | 2226 | @section Debugging an Already-running Process |
c906108c SS |
2227 | @kindex attach |
2228 | @cindex attach | |
2229 | ||
2230 | @table @code | |
2231 | @item attach @var{process-id} | |
2232 | This command attaches to a running process---one that was started | |
2233 | outside @value{GDBN}. (@code{info files} shows your active | |
2234 | targets.) The command takes as argument a process ID. The usual way to | |
09d4efe1 | 2235 | find out the @var{process-id} of a Unix process is with the @code{ps} utility, |
c906108c SS |
2236 | or with the @samp{jobs -l} shell command. |
2237 | ||
2238 | @code{attach} does not repeat if you press @key{RET} a second time after | |
2239 | executing the command. | |
2240 | @end table | |
2241 | ||
2242 | To use @code{attach}, your program must be running in an environment | |
2243 | which supports processes; for example, @code{attach} does not work for | |
2244 | programs on bare-board targets that lack an operating system. You must | |
2245 | also have permission to send the process a signal. | |
2246 | ||
2247 | When you use @code{attach}, the debugger finds the program running in | |
2248 | the process first by looking in the current working directory, then (if | |
2249 | the program is not found) by using the source file search path | |
79a6e687 | 2250 | (@pxref{Source Path, ,Specifying Source Directories}). You can also use |
c906108c SS |
2251 | the @code{file} command to load the program. @xref{Files, ,Commands to |
2252 | Specify Files}. | |
2253 | ||
2254 | The first thing @value{GDBN} does after arranging to debug the specified | |
2255 | process is to stop it. You can examine and modify an attached process | |
53a5351d JM |
2256 | with all the @value{GDBN} commands that are ordinarily available when |
2257 | you start processes with @code{run}. You can insert breakpoints; you | |
2258 | can step and continue; you can modify storage. If you would rather the | |
2259 | process continue running, you may use the @code{continue} command after | |
c906108c SS |
2260 | attaching @value{GDBN} to the process. |
2261 | ||
2262 | @table @code | |
2263 | @kindex detach | |
2264 | @item detach | |
2265 | When you have finished debugging the attached process, you can use the | |
2266 | @code{detach} command to release it from @value{GDBN} control. Detaching | |
2267 | the process continues its execution. After the @code{detach} command, | |
2268 | that process and @value{GDBN} become completely independent once more, and you | |
2269 | are ready to @code{attach} another process or start one with @code{run}. | |
2270 | @code{detach} does not repeat if you press @key{RET} again after | |
2271 | executing the command. | |
2272 | @end table | |
2273 | ||
159fcc13 JK |
2274 | If you exit @value{GDBN} while you have an attached process, you detach |
2275 | that process. If you use the @code{run} command, you kill that process. | |
2276 | By default, @value{GDBN} asks for confirmation if you try to do either of these | |
2277 | things; you can control whether or not you need to confirm by using the | |
2278 | @code{set confirm} command (@pxref{Messages/Warnings, ,Optional Warnings and | |
79a6e687 | 2279 | Messages}). |
c906108c | 2280 | |
6d2ebf8b | 2281 | @node Kill Process |
79a6e687 | 2282 | @section Killing the Child Process |
c906108c SS |
2283 | |
2284 | @table @code | |
2285 | @kindex kill | |
2286 | @item kill | |
2287 | Kill the child process in which your program is running under @value{GDBN}. | |
2288 | @end table | |
2289 | ||
2290 | This command is useful if you wish to debug a core dump instead of a | |
2291 | running process. @value{GDBN} ignores any core dump file while your program | |
2292 | is running. | |
2293 | ||
2294 | On some operating systems, a program cannot be executed outside @value{GDBN} | |
2295 | while you have breakpoints set on it inside @value{GDBN}. You can use the | |
2296 | @code{kill} command in this situation to permit running your program | |
2297 | outside the debugger. | |
2298 | ||
2299 | The @code{kill} command is also useful if you wish to recompile and | |
2300 | relink your program, since on many systems it is impossible to modify an | |
2301 | executable file while it is running in a process. In this case, when you | |
2302 | next type @code{run}, @value{GDBN} notices that the file has changed, and | |
2303 | reads the symbol table again (while trying to preserve your current | |
2304 | breakpoint settings). | |
2305 | ||
6d2ebf8b | 2306 | @node Threads |
79a6e687 | 2307 | @section Debugging Programs with Multiple Threads |
c906108c SS |
2308 | |
2309 | @cindex threads of execution | |
2310 | @cindex multiple threads | |
2311 | @cindex switching threads | |
2312 | In some operating systems, such as HP-UX and Solaris, a single program | |
2313 | may have more than one @dfn{thread} of execution. The precise semantics | |
2314 | of threads differ from one operating system to another, but in general | |
2315 | the threads of a single program are akin to multiple processes---except | |
2316 | that they share one address space (that is, they can all examine and | |
2317 | modify the same variables). On the other hand, each thread has its own | |
2318 | registers and execution stack, and perhaps private memory. | |
2319 | ||
2320 | @value{GDBN} provides these facilities for debugging multi-thread | |
2321 | programs: | |
2322 | ||
2323 | @itemize @bullet | |
2324 | @item automatic notification of new threads | |
2325 | @item @samp{thread @var{threadno}}, a command to switch among threads | |
2326 | @item @samp{info threads}, a command to inquire about existing threads | |
5d161b24 | 2327 | @item @samp{thread apply [@var{threadno}] [@var{all}] @var{args}}, |
c906108c SS |
2328 | a command to apply a command to a list of threads |
2329 | @item thread-specific breakpoints | |
93815fbf VP |
2330 | @item @samp{set print thread-events}, which controls printing of |
2331 | messages on thread start and exit. | |
c906108c SS |
2332 | @end itemize |
2333 | ||
c906108c SS |
2334 | @quotation |
2335 | @emph{Warning:} These facilities are not yet available on every | |
2336 | @value{GDBN} configuration where the operating system supports threads. | |
2337 | If your @value{GDBN} does not support threads, these commands have no | |
2338 | effect. For example, a system without thread support shows no output | |
2339 | from @samp{info threads}, and always rejects the @code{thread} command, | |
2340 | like this: | |
2341 | ||
2342 | @smallexample | |
2343 | (@value{GDBP}) info threads | |
2344 | (@value{GDBP}) thread 1 | |
2345 | Thread ID 1 not known. Use the "info threads" command to | |
2346 | see the IDs of currently known threads. | |
2347 | @end smallexample | |
2348 | @c FIXME to implementors: how hard would it be to say "sorry, this GDB | |
2349 | @c doesn't support threads"? | |
2350 | @end quotation | |
c906108c SS |
2351 | |
2352 | @cindex focus of debugging | |
2353 | @cindex current thread | |
2354 | The @value{GDBN} thread debugging facility allows you to observe all | |
2355 | threads while your program runs---but whenever @value{GDBN} takes | |
2356 | control, one thread in particular is always the focus of debugging. | |
2357 | This thread is called the @dfn{current thread}. Debugging commands show | |
2358 | program information from the perspective of the current thread. | |
2359 | ||
41afff9a | 2360 | @cindex @code{New} @var{systag} message |
c906108c SS |
2361 | @cindex thread identifier (system) |
2362 | @c FIXME-implementors!! It would be more helpful if the [New...] message | |
2363 | @c included GDB's numeric thread handle, so you could just go to that | |
2364 | @c thread without first checking `info threads'. | |
2365 | Whenever @value{GDBN} detects a new thread in your program, it displays | |
2366 | the target system's identification for the thread with a message in the | |
2367 | form @samp{[New @var{systag}]}. @var{systag} is a thread identifier | |
2368 | whose form varies depending on the particular system. For example, on | |
8807d78b | 2369 | @sc{gnu}/Linux, you might see |
c906108c | 2370 | |
474c8240 | 2371 | @smallexample |
8807d78b | 2372 | [New Thread 46912507313328 (LWP 25582)] |
474c8240 | 2373 | @end smallexample |
c906108c SS |
2374 | |
2375 | @noindent | |
2376 | when @value{GDBN} notices a new thread. In contrast, on an SGI system, | |
2377 | the @var{systag} is simply something like @samp{process 368}, with no | |
2378 | further qualifier. | |
2379 | ||
2380 | @c FIXME!! (1) Does the [New...] message appear even for the very first | |
2381 | @c thread of a program, or does it only appear for the | |
6ca652b0 | 2382 | @c second---i.e.@: when it becomes obvious we have a multithread |
c906108c SS |
2383 | @c program? |
2384 | @c (2) *Is* there necessarily a first thread always? Or do some | |
2385 | @c multithread systems permit starting a program with multiple | |
5d161b24 | 2386 | @c threads ab initio? |
c906108c SS |
2387 | |
2388 | @cindex thread number | |
2389 | @cindex thread identifier (GDB) | |
2390 | For debugging purposes, @value{GDBN} associates its own thread | |
2391 | number---always a single integer---with each thread in your program. | |
2392 | ||
2393 | @table @code | |
2394 | @kindex info threads | |
2395 | @item info threads | |
2396 | Display a summary of all threads currently in your | |
2397 | program. @value{GDBN} displays for each thread (in this order): | |
2398 | ||
2399 | @enumerate | |
09d4efe1 EZ |
2400 | @item |
2401 | the thread number assigned by @value{GDBN} | |
c906108c | 2402 | |
09d4efe1 EZ |
2403 | @item |
2404 | the target system's thread identifier (@var{systag}) | |
c906108c | 2405 | |
09d4efe1 EZ |
2406 | @item |
2407 | the current stack frame summary for that thread | |
c906108c SS |
2408 | @end enumerate |
2409 | ||
2410 | @noindent | |
2411 | An asterisk @samp{*} to the left of the @value{GDBN} thread number | |
2412 | indicates the current thread. | |
2413 | ||
5d161b24 | 2414 | For example, |
c906108c SS |
2415 | @end table |
2416 | @c end table here to get a little more width for example | |
2417 | ||
2418 | @smallexample | |
2419 | (@value{GDBP}) info threads | |
2420 | 3 process 35 thread 27 0x34e5 in sigpause () | |
2421 | 2 process 35 thread 23 0x34e5 in sigpause () | |
2422 | * 1 process 35 thread 13 main (argc=1, argv=0x7ffffff8) | |
2423 | at threadtest.c:68 | |
2424 | @end smallexample | |
53a5351d JM |
2425 | |
2426 | On HP-UX systems: | |
c906108c | 2427 | |
4644b6e3 EZ |
2428 | @cindex debugging multithreaded programs (on HP-UX) |
2429 | @cindex thread identifier (GDB), on HP-UX | |
c906108c SS |
2430 | For debugging purposes, @value{GDBN} associates its own thread |
2431 | number---a small integer assigned in thread-creation order---with each | |
2432 | thread in your program. | |
2433 | ||
41afff9a EZ |
2434 | @cindex @code{New} @var{systag} message, on HP-UX |
2435 | @cindex thread identifier (system), on HP-UX | |
c906108c SS |
2436 | @c FIXME-implementors!! It would be more helpful if the [New...] message |
2437 | @c included GDB's numeric thread handle, so you could just go to that | |
2438 | @c thread without first checking `info threads'. | |
2439 | Whenever @value{GDBN} detects a new thread in your program, it displays | |
2440 | both @value{GDBN}'s thread number and the target system's identification for the thread with a message in the | |
2441 | form @samp{[New @var{systag}]}. @var{systag} is a thread identifier | |
2442 | whose form varies depending on the particular system. For example, on | |
2443 | HP-UX, you see | |
2444 | ||
474c8240 | 2445 | @smallexample |
c906108c | 2446 | [New thread 2 (system thread 26594)] |
474c8240 | 2447 | @end smallexample |
c906108c SS |
2448 | |
2449 | @noindent | |
5d161b24 | 2450 | when @value{GDBN} notices a new thread. |
c906108c SS |
2451 | |
2452 | @table @code | |
4644b6e3 | 2453 | @kindex info threads (HP-UX) |
c906108c SS |
2454 | @item info threads |
2455 | Display a summary of all threads currently in your | |
2456 | program. @value{GDBN} displays for each thread (in this order): | |
2457 | ||
2458 | @enumerate | |
2459 | @item the thread number assigned by @value{GDBN} | |
2460 | ||
2461 | @item the target system's thread identifier (@var{systag}) | |
2462 | ||
2463 | @item the current stack frame summary for that thread | |
2464 | @end enumerate | |
2465 | ||
2466 | @noindent | |
2467 | An asterisk @samp{*} to the left of the @value{GDBN} thread number | |
2468 | indicates the current thread. | |
2469 | ||
5d161b24 | 2470 | For example, |
c906108c SS |
2471 | @end table |
2472 | @c end table here to get a little more width for example | |
2473 | ||
474c8240 | 2474 | @smallexample |
c906108c | 2475 | (@value{GDBP}) info threads |
6d2ebf8b SS |
2476 | * 3 system thread 26607 worker (wptr=0x7b09c318 "@@") \@* |
2477 | at quicksort.c:137 | |
2478 | 2 system thread 26606 0x7b0030d8 in __ksleep () \@* | |
2479 | from /usr/lib/libc.2 | |
2480 | 1 system thread 27905 0x7b003498 in _brk () \@* | |
2481 | from /usr/lib/libc.2 | |
474c8240 | 2482 | @end smallexample |
c906108c | 2483 | |
c45da7e6 EZ |
2484 | On Solaris, you can display more information about user threads with a |
2485 | Solaris-specific command: | |
2486 | ||
2487 | @table @code | |
2488 | @item maint info sol-threads | |
2489 | @kindex maint info sol-threads | |
2490 | @cindex thread info (Solaris) | |
2491 | Display info on Solaris user threads. | |
2492 | @end table | |
2493 | ||
c906108c SS |
2494 | @table @code |
2495 | @kindex thread @var{threadno} | |
2496 | @item thread @var{threadno} | |
2497 | Make thread number @var{threadno} the current thread. The command | |
2498 | argument @var{threadno} is the internal @value{GDBN} thread number, as | |
2499 | shown in the first field of the @samp{info threads} display. | |
2500 | @value{GDBN} responds by displaying the system identifier of the thread | |
2501 | you selected, and its current stack frame summary: | |
2502 | ||
2503 | @smallexample | |
2504 | @c FIXME!! This example made up; find a @value{GDBN} w/threads and get real one | |
2505 | (@value{GDBP}) thread 2 | |
c906108c | 2506 | [Switching to process 35 thread 23] |
c906108c SS |
2507 | 0x34e5 in sigpause () |
2508 | @end smallexample | |
2509 | ||
2510 | @noindent | |
2511 | As with the @samp{[New @dots{}]} message, the form of the text after | |
2512 | @samp{Switching to} depends on your system's conventions for identifying | |
5d161b24 | 2513 | threads. |
c906108c | 2514 | |
9c16f35a | 2515 | @kindex thread apply |
638ac427 | 2516 | @cindex apply command to several threads |
839c27b7 EZ |
2517 | @item thread apply [@var{threadno}] [@var{all}] @var{command} |
2518 | The @code{thread apply} command allows you to apply the named | |
2519 | @var{command} to one or more threads. Specify the numbers of the | |
2520 | threads that you want affected with the command argument | |
2521 | @var{threadno}. It can be a single thread number, one of the numbers | |
2522 | shown in the first field of the @samp{info threads} display; or it | |
2523 | could be a range of thread numbers, as in @code{2-4}. To apply a | |
2524 | command to all threads, type @kbd{thread apply all @var{command}}. | |
93815fbf VP |
2525 | |
2526 | @kindex set print thread-events | |
2527 | @cindex print messages on thread start and exit | |
2528 | @item set print thread-events | |
2529 | @itemx set print thread-events on | |
2530 | @itemx set print thread-events off | |
2531 | The @code{set print thread-events} command allows you to enable or | |
2532 | disable printing of messages when @value{GDBN} notices that new threads have | |
2533 | started or that threads have exited. By default, these messages will | |
2534 | be printed if detection of these events is supported by the target. | |
2535 | Note that these messages cannot be disabled on all targets. | |
2536 | ||
2537 | @kindex show print thread-events | |
2538 | @item show print thread-events | |
2539 | Show whether messages will be printed when @value{GDBN} detects that threads | |
2540 | have started and exited. | |
c906108c SS |
2541 | @end table |
2542 | ||
2543 | @cindex automatic thread selection | |
2544 | @cindex switching threads automatically | |
2545 | @cindex threads, automatic switching | |
2546 | Whenever @value{GDBN} stops your program, due to a breakpoint or a | |
2547 | signal, it automatically selects the thread where that breakpoint or | |
2548 | signal happened. @value{GDBN} alerts you to the context switch with a | |
2549 | message of the form @samp{[Switching to @var{systag}]} to identify the | |
2550 | thread. | |
2551 | ||
79a6e687 | 2552 | @xref{Thread Stops,,Stopping and Starting Multi-thread Programs}, for |
c906108c SS |
2553 | more information about how @value{GDBN} behaves when you stop and start |
2554 | programs with multiple threads. | |
2555 | ||
79a6e687 | 2556 | @xref{Set Watchpoints,,Setting Watchpoints}, for information about |
c906108c | 2557 | watchpoints in programs with multiple threads. |
c906108c | 2558 | |
6d2ebf8b | 2559 | @node Processes |
79a6e687 | 2560 | @section Debugging Programs with Multiple Processes |
c906108c SS |
2561 | |
2562 | @cindex fork, debugging programs which call | |
2563 | @cindex multiple processes | |
2564 | @cindex processes, multiple | |
53a5351d JM |
2565 | On most systems, @value{GDBN} has no special support for debugging |
2566 | programs which create additional processes using the @code{fork} | |
2567 | function. When a program forks, @value{GDBN} will continue to debug the | |
2568 | parent process and the child process will run unimpeded. If you have | |
2569 | set a breakpoint in any code which the child then executes, the child | |
2570 | will get a @code{SIGTRAP} signal which (unless it catches the signal) | |
2571 | will cause it to terminate. | |
c906108c SS |
2572 | |
2573 | However, if you want to debug the child process there is a workaround | |
2574 | which isn't too painful. Put a call to @code{sleep} in the code which | |
2575 | the child process executes after the fork. It may be useful to sleep | |
2576 | only if a certain environment variable is set, or a certain file exists, | |
2577 | so that the delay need not occur when you don't want to run @value{GDBN} | |
2578 | on the child. While the child is sleeping, use the @code{ps} program to | |
2579 | get its process ID. Then tell @value{GDBN} (a new invocation of | |
2580 | @value{GDBN} if you are also debugging the parent process) to attach to | |
d4f3574e | 2581 | the child process (@pxref{Attach}). From that point on you can debug |
c906108c | 2582 | the child process just like any other process which you attached to. |
c906108c | 2583 | |
b51970ac DJ |
2584 | On some systems, @value{GDBN} provides support for debugging programs that |
2585 | create additional processes using the @code{fork} or @code{vfork} functions. | |
2586 | Currently, the only platforms with this feature are HP-UX (11.x and later | |
a6b151f1 | 2587 | only?) and @sc{gnu}/Linux (kernel version 2.5.60 and later). |
c906108c SS |
2588 | |
2589 | By default, when a program forks, @value{GDBN} will continue to debug | |
2590 | the parent process and the child process will run unimpeded. | |
2591 | ||
2592 | If you want to follow the child process instead of the parent process, | |
2593 | use the command @w{@code{set follow-fork-mode}}. | |
2594 | ||
2595 | @table @code | |
2596 | @kindex set follow-fork-mode | |
2597 | @item set follow-fork-mode @var{mode} | |
2598 | Set the debugger response to a program call of @code{fork} or | |
2599 | @code{vfork}. A call to @code{fork} or @code{vfork} creates a new | |
9c16f35a | 2600 | process. The @var{mode} argument can be: |
c906108c SS |
2601 | |
2602 | @table @code | |
2603 | @item parent | |
2604 | The original process is debugged after a fork. The child process runs | |
2df3850c | 2605 | unimpeded. This is the default. |
c906108c SS |
2606 | |
2607 | @item child | |
2608 | The new process is debugged after a fork. The parent process runs | |
2609 | unimpeded. | |
2610 | ||
c906108c SS |
2611 | @end table |
2612 | ||
9c16f35a | 2613 | @kindex show follow-fork-mode |
c906108c | 2614 | @item show follow-fork-mode |
2df3850c | 2615 | Display the current debugger response to a @code{fork} or @code{vfork} call. |
c906108c SS |
2616 | @end table |
2617 | ||
5c95884b MS |
2618 | @cindex debugging multiple processes |
2619 | On Linux, if you want to debug both the parent and child processes, use the | |
2620 | command @w{@code{set detach-on-fork}}. | |
2621 | ||
2622 | @table @code | |
2623 | @kindex set detach-on-fork | |
2624 | @item set detach-on-fork @var{mode} | |
2625 | Tells gdb whether to detach one of the processes after a fork, or | |
2626 | retain debugger control over them both. | |
2627 | ||
2628 | @table @code | |
2629 | @item on | |
2630 | The child process (or parent process, depending on the value of | |
2631 | @code{follow-fork-mode}) will be detached and allowed to run | |
2632 | independently. This is the default. | |
2633 | ||
2634 | @item off | |
2635 | Both processes will be held under the control of @value{GDBN}. | |
2636 | One process (child or parent, depending on the value of | |
2637 | @code{follow-fork-mode}) is debugged as usual, while the other | |
2638 | is held suspended. | |
2639 | ||
2640 | @end table | |
2641 | ||
11310833 NR |
2642 | @kindex show detach-on-fork |
2643 | @item show detach-on-fork | |
2644 | Show whether detach-on-fork mode is on/off. | |
5c95884b MS |
2645 | @end table |
2646 | ||
11310833 | 2647 | If you choose to set @samp{detach-on-fork} mode off, then |
5c95884b MS |
2648 | @value{GDBN} will retain control of all forked processes (including |
2649 | nested forks). You can list the forked processes under the control of | |
2650 | @value{GDBN} by using the @w{@code{info forks}} command, and switch | |
2651 | from one fork to another by using the @w{@code{fork}} command. | |
2652 | ||
2653 | @table @code | |
2654 | @kindex info forks | |
2655 | @item info forks | |
2656 | Print a list of all forked processes under the control of @value{GDBN}. | |
2657 | The listing will include a fork id, a process id, and the current | |
2658 | position (program counter) of the process. | |
2659 | ||
5c95884b MS |
2660 | @kindex fork @var{fork-id} |
2661 | @item fork @var{fork-id} | |
2662 | Make fork number @var{fork-id} the current process. The argument | |
2663 | @var{fork-id} is the internal fork number assigned by @value{GDBN}, | |
2664 | as shown in the first field of the @samp{info forks} display. | |
2665 | ||
11310833 NR |
2666 | @kindex process @var{process-id} |
2667 | @item process @var{process-id} | |
2668 | Make process number @var{process-id} the current process. The | |
2669 | argument @var{process-id} must be one that is listed in the output of | |
2670 | @samp{info forks}. | |
2671 | ||
5c95884b MS |
2672 | @end table |
2673 | ||
2674 | To quit debugging one of the forked processes, you can either detach | |
f73adfeb | 2675 | from it by using the @w{@code{detach fork}} command (allowing it to |
5c95884b | 2676 | run independently), or delete (and kill) it using the |
b8db102d | 2677 | @w{@code{delete fork}} command. |
5c95884b MS |
2678 | |
2679 | @table @code | |
f73adfeb AS |
2680 | @kindex detach fork @var{fork-id} |
2681 | @item detach fork @var{fork-id} | |
5c95884b MS |
2682 | Detach from the process identified by @value{GDBN} fork number |
2683 | @var{fork-id}, and remove it from the fork list. The process will be | |
2684 | allowed to run independently. | |
2685 | ||
b8db102d MS |
2686 | @kindex delete fork @var{fork-id} |
2687 | @item delete fork @var{fork-id} | |
5c95884b MS |
2688 | Kill the process identified by @value{GDBN} fork number @var{fork-id}, |
2689 | and remove it from the fork list. | |
2690 | ||
2691 | @end table | |
2692 | ||
c906108c SS |
2693 | If you ask to debug a child process and a @code{vfork} is followed by an |
2694 | @code{exec}, @value{GDBN} executes the new target up to the first | |
2695 | breakpoint in the new target. If you have a breakpoint set on | |
2696 | @code{main} in your original program, the breakpoint will also be set on | |
2697 | the child process's @code{main}. | |
2698 | ||
2699 | When a child process is spawned by @code{vfork}, you cannot debug the | |
2700 | child or parent until an @code{exec} call completes. | |
2701 | ||
2702 | If you issue a @code{run} command to @value{GDBN} after an @code{exec} | |
2703 | call executes, the new target restarts. To restart the parent process, | |
2704 | use the @code{file} command with the parent executable name as its | |
2705 | argument. | |
2706 | ||
2707 | You can use the @code{catch} command to make @value{GDBN} stop whenever | |
2708 | a @code{fork}, @code{vfork}, or @code{exec} call is made. @xref{Set | |
79a6e687 | 2709 | Catchpoints, ,Setting Catchpoints}. |
c906108c | 2710 | |
5c95884b | 2711 | @node Checkpoint/Restart |
79a6e687 | 2712 | @section Setting a @emph{Bookmark} to Return to Later |
5c95884b MS |
2713 | |
2714 | @cindex checkpoint | |
2715 | @cindex restart | |
2716 | @cindex bookmark | |
2717 | @cindex snapshot of a process | |
2718 | @cindex rewind program state | |
2719 | ||
2720 | On certain operating systems@footnote{Currently, only | |
2721 | @sc{gnu}/Linux.}, @value{GDBN} is able to save a @dfn{snapshot} of a | |
2722 | program's state, called a @dfn{checkpoint}, and come back to it | |
2723 | later. | |
2724 | ||
2725 | Returning to a checkpoint effectively undoes everything that has | |
2726 | happened in the program since the @code{checkpoint} was saved. This | |
2727 | includes changes in memory, registers, and even (within some limits) | |
2728 | system state. Effectively, it is like going back in time to the | |
2729 | moment when the checkpoint was saved. | |
2730 | ||
2731 | Thus, if you're stepping thru a program and you think you're | |
2732 | getting close to the point where things go wrong, you can save | |
2733 | a checkpoint. Then, if you accidentally go too far and miss | |
2734 | the critical statement, instead of having to restart your program | |
2735 | from the beginning, you can just go back to the checkpoint and | |
2736 | start again from there. | |
2737 | ||
2738 | This can be especially useful if it takes a lot of time or | |
2739 | steps to reach the point where you think the bug occurs. | |
2740 | ||
2741 | To use the @code{checkpoint}/@code{restart} method of debugging: | |
2742 | ||
2743 | @table @code | |
2744 | @kindex checkpoint | |
2745 | @item checkpoint | |
2746 | Save a snapshot of the debugged program's current execution state. | |
2747 | The @code{checkpoint} command takes no arguments, but each checkpoint | |
2748 | is assigned a small integer id, similar to a breakpoint id. | |
2749 | ||
2750 | @kindex info checkpoints | |
2751 | @item info checkpoints | |
2752 | List the checkpoints that have been saved in the current debugging | |
2753 | session. For each checkpoint, the following information will be | |
2754 | listed: | |
2755 | ||
2756 | @table @code | |
2757 | @item Checkpoint ID | |
2758 | @item Process ID | |
2759 | @item Code Address | |
2760 | @item Source line, or label | |
2761 | @end table | |
2762 | ||
2763 | @kindex restart @var{checkpoint-id} | |
2764 | @item restart @var{checkpoint-id} | |
2765 | Restore the program state that was saved as checkpoint number | |
2766 | @var{checkpoint-id}. All program variables, registers, stack frames | |
2767 | etc.@: will be returned to the values that they had when the checkpoint | |
2768 | was saved. In essence, gdb will ``wind back the clock'' to the point | |
2769 | in time when the checkpoint was saved. | |
2770 | ||
2771 | Note that breakpoints, @value{GDBN} variables, command history etc. | |
2772 | are not affected by restoring a checkpoint. In general, a checkpoint | |
2773 | only restores things that reside in the program being debugged, not in | |
2774 | the debugger. | |
2775 | ||
b8db102d MS |
2776 | @kindex delete checkpoint @var{checkpoint-id} |
2777 | @item delete checkpoint @var{checkpoint-id} | |
5c95884b MS |
2778 | Delete the previously-saved checkpoint identified by @var{checkpoint-id}. |
2779 | ||
2780 | @end table | |
2781 | ||
2782 | Returning to a previously saved checkpoint will restore the user state | |
2783 | of the program being debugged, plus a significant subset of the system | |
2784 | (OS) state, including file pointers. It won't ``un-write'' data from | |
2785 | a file, but it will rewind the file pointer to the previous location, | |
2786 | so that the previously written data can be overwritten. For files | |
2787 | opened in read mode, the pointer will also be restored so that the | |
2788 | previously read data can be read again. | |
2789 | ||
2790 | Of course, characters that have been sent to a printer (or other | |
2791 | external device) cannot be ``snatched back'', and characters received | |
2792 | from eg.@: a serial device can be removed from internal program buffers, | |
2793 | but they cannot be ``pushed back'' into the serial pipeline, ready to | |
2794 | be received again. Similarly, the actual contents of files that have | |
2795 | been changed cannot be restored (at this time). | |
2796 | ||
2797 | However, within those constraints, you actually can ``rewind'' your | |
2798 | program to a previously saved point in time, and begin debugging it | |
2799 | again --- and you can change the course of events so as to debug a | |
2800 | different execution path this time. | |
2801 | ||
2802 | @cindex checkpoints and process id | |
2803 | Finally, there is one bit of internal program state that will be | |
2804 | different when you return to a checkpoint --- the program's process | |
2805 | id. Each checkpoint will have a unique process id (or @var{pid}), | |
2806 | and each will be different from the program's original @var{pid}. | |
2807 | If your program has saved a local copy of its process id, this could | |
2808 | potentially pose a problem. | |
2809 | ||
79a6e687 | 2810 | @subsection A Non-obvious Benefit of Using Checkpoints |
5c95884b MS |
2811 | |
2812 | On some systems such as @sc{gnu}/Linux, address space randomization | |
2813 | is performed on new processes for security reasons. This makes it | |
2814 | difficult or impossible to set a breakpoint, or watchpoint, on an | |
2815 | absolute address if you have to restart the program, since the | |
2816 | absolute location of a symbol will change from one execution to the | |
2817 | next. | |
2818 | ||
2819 | A checkpoint, however, is an @emph{identical} copy of a process. | |
2820 | Therefore if you create a checkpoint at (eg.@:) the start of main, | |
2821 | and simply return to that checkpoint instead of restarting the | |
2822 | process, you can avoid the effects of address randomization and | |
2823 | your symbols will all stay in the same place. | |
2824 | ||
6d2ebf8b | 2825 | @node Stopping |
c906108c SS |
2826 | @chapter Stopping and Continuing |
2827 | ||
2828 | The principal purposes of using a debugger are so that you can stop your | |
2829 | program before it terminates; or so that, if your program runs into | |
2830 | trouble, you can investigate and find out why. | |
2831 | ||
7a292a7a SS |
2832 | Inside @value{GDBN}, your program may stop for any of several reasons, |
2833 | such as a signal, a breakpoint, or reaching a new line after a | |
2834 | @value{GDBN} command such as @code{step}. You may then examine and | |
2835 | change variables, set new breakpoints or remove old ones, and then | |
2836 | continue execution. Usually, the messages shown by @value{GDBN} provide | |
2837 | ample explanation of the status of your program---but you can also | |
2838 | explicitly request this information at any time. | |
c906108c SS |
2839 | |
2840 | @table @code | |
2841 | @kindex info program | |
2842 | @item info program | |
2843 | Display information about the status of your program: whether it is | |
7a292a7a | 2844 | running or not, what process it is, and why it stopped. |
c906108c SS |
2845 | @end table |
2846 | ||
2847 | @menu | |
2848 | * Breakpoints:: Breakpoints, watchpoints, and catchpoints | |
2849 | * Continuing and Stepping:: Resuming execution | |
c906108c | 2850 | * Signals:: Signals |
c906108c | 2851 | * Thread Stops:: Stopping and starting multi-thread programs |
c906108c SS |
2852 | @end menu |
2853 | ||
6d2ebf8b | 2854 | @node Breakpoints |
79a6e687 | 2855 | @section Breakpoints, Watchpoints, and Catchpoints |
c906108c SS |
2856 | |
2857 | @cindex breakpoints | |
2858 | A @dfn{breakpoint} makes your program stop whenever a certain point in | |
2859 | the program is reached. For each breakpoint, you can add conditions to | |
2860 | control in finer detail whether your program stops. You can set | |
2861 | breakpoints with the @code{break} command and its variants (@pxref{Set | |
79a6e687 | 2862 | Breaks, ,Setting Breakpoints}), to specify the place where your program |
c906108c SS |
2863 | should stop by line number, function name or exact address in the |
2864 | program. | |
2865 | ||
09d4efe1 EZ |
2866 | On some systems, you can set breakpoints in shared libraries before |
2867 | the executable is run. There is a minor limitation on HP-UX systems: | |
2868 | you must wait until the executable is run in order to set breakpoints | |
2869 | in shared library routines that are not called directly by the program | |
2870 | (for example, routines that are arguments in a @code{pthread_create} | |
2871 | call). | |
c906108c SS |
2872 | |
2873 | @cindex watchpoints | |
fd60e0df | 2874 | @cindex data breakpoints |
c906108c SS |
2875 | @cindex memory tracing |
2876 | @cindex breakpoint on memory address | |
2877 | @cindex breakpoint on variable modification | |
2878 | A @dfn{watchpoint} is a special breakpoint that stops your program | |
fd60e0df | 2879 | when the value of an expression changes. The expression may be a value |
0ced0c34 | 2880 | of a variable, or it could involve values of one or more variables |
fd60e0df EZ |
2881 | combined by operators, such as @samp{a + b}. This is sometimes called |
2882 | @dfn{data breakpoints}. You must use a different command to set | |
79a6e687 | 2883 | watchpoints (@pxref{Set Watchpoints, ,Setting Watchpoints}), but aside |
fd60e0df EZ |
2884 | from that, you can manage a watchpoint like any other breakpoint: you |
2885 | enable, disable, and delete both breakpoints and watchpoints using the | |
2886 | same commands. | |
c906108c SS |
2887 | |
2888 | You can arrange to have values from your program displayed automatically | |
2889 | whenever @value{GDBN} stops at a breakpoint. @xref{Auto Display,, | |
79a6e687 | 2890 | Automatic Display}. |
c906108c SS |
2891 | |
2892 | @cindex catchpoints | |
2893 | @cindex breakpoint on events | |
2894 | A @dfn{catchpoint} is another special breakpoint that stops your program | |
b37052ae | 2895 | when a certain kind of event occurs, such as the throwing of a C@t{++} |
c906108c SS |
2896 | exception or the loading of a library. As with watchpoints, you use a |
2897 | different command to set a catchpoint (@pxref{Set Catchpoints, ,Setting | |
79a6e687 | 2898 | Catchpoints}), but aside from that, you can manage a catchpoint like any |
c906108c | 2899 | other breakpoint. (To stop when your program receives a signal, use the |
d4f3574e | 2900 | @code{handle} command; see @ref{Signals, ,Signals}.) |
c906108c SS |
2901 | |
2902 | @cindex breakpoint numbers | |
2903 | @cindex numbers for breakpoints | |
2904 | @value{GDBN} assigns a number to each breakpoint, watchpoint, or | |
2905 | catchpoint when you create it; these numbers are successive integers | |
2906 | starting with one. In many of the commands for controlling various | |
2907 | features of breakpoints you use the breakpoint number to say which | |
2908 | breakpoint you want to change. Each breakpoint may be @dfn{enabled} or | |
2909 | @dfn{disabled}; if disabled, it has no effect on your program until you | |
2910 | enable it again. | |
2911 | ||
c5394b80 JM |
2912 | @cindex breakpoint ranges |
2913 | @cindex ranges of breakpoints | |
2914 | Some @value{GDBN} commands accept a range of breakpoints on which to | |
2915 | operate. A breakpoint range is either a single breakpoint number, like | |
2916 | @samp{5}, or two such numbers, in increasing order, separated by a | |
2917 | hyphen, like @samp{5-7}. When a breakpoint range is given to a command, | |
d52fb0e9 | 2918 | all breakpoints in that range are operated on. |
c5394b80 | 2919 | |
c906108c SS |
2920 | @menu |
2921 | * Set Breaks:: Setting breakpoints | |
2922 | * Set Watchpoints:: Setting watchpoints | |
2923 | * Set Catchpoints:: Setting catchpoints | |
2924 | * Delete Breaks:: Deleting breakpoints | |
2925 | * Disabling:: Disabling breakpoints | |
2926 | * Conditions:: Break conditions | |
2927 | * Break Commands:: Breakpoint command lists | |
d4f3574e | 2928 | * Error in Breakpoints:: ``Cannot insert breakpoints'' |
79a6e687 | 2929 | * Breakpoint-related Warnings:: ``Breakpoint address adjusted...'' |
c906108c SS |
2930 | @end menu |
2931 | ||
6d2ebf8b | 2932 | @node Set Breaks |
79a6e687 | 2933 | @subsection Setting Breakpoints |
c906108c | 2934 | |
5d161b24 | 2935 | @c FIXME LMB what does GDB do if no code on line of breakpt? |
c906108c SS |
2936 | @c consider in particular declaration with/without initialization. |
2937 | @c | |
2938 | @c FIXME 2 is there stuff on this already? break at fun start, already init? | |
2939 | ||
2940 | @kindex break | |
41afff9a EZ |
2941 | @kindex b @r{(@code{break})} |
2942 | @vindex $bpnum@r{, convenience variable} | |
c906108c SS |
2943 | @cindex latest breakpoint |
2944 | Breakpoints are set with the @code{break} command (abbreviated | |
5d161b24 | 2945 | @code{b}). The debugger convenience variable @samp{$bpnum} records the |
f3b28801 | 2946 | number of the breakpoint you've set most recently; see @ref{Convenience |
79a6e687 | 2947 | Vars,, Convenience Variables}, for a discussion of what you can do with |
c906108c SS |
2948 | convenience variables. |
2949 | ||
c906108c | 2950 | @table @code |
2a25a5ba EZ |
2951 | @item break @var{location} |
2952 | Set a breakpoint at the given @var{location}, which can specify a | |
2953 | function name, a line number, or an address of an instruction. | |
2954 | (@xref{Specify Location}, for a list of all the possible ways to | |
2955 | specify a @var{location}.) The breakpoint will stop your program just | |
2956 | before it executes any of the code in the specified @var{location}. | |
2957 | ||
c906108c | 2958 | When using source languages that permit overloading of symbols, such as |
2a25a5ba | 2959 | C@t{++}, a function name may refer to more than one possible place to break. |
6ba66d6a JB |
2960 | @xref{Ambiguous Expressions,,Ambiguous Expressions}, for a discussion of |
2961 | that situation. | |
c906108c | 2962 | |
c906108c SS |
2963 | @item break |
2964 | When called without any arguments, @code{break} sets a breakpoint at | |
2965 | the next instruction to be executed in the selected stack frame | |
2966 | (@pxref{Stack, ,Examining the Stack}). In any selected frame but the | |
2967 | innermost, this makes your program stop as soon as control | |
2968 | returns to that frame. This is similar to the effect of a | |
2969 | @code{finish} command in the frame inside the selected frame---except | |
2970 | that @code{finish} does not leave an active breakpoint. If you use | |
2971 | @code{break} without an argument in the innermost frame, @value{GDBN} stops | |
2972 | the next time it reaches the current location; this may be useful | |
2973 | inside loops. | |
2974 | ||
2975 | @value{GDBN} normally ignores breakpoints when it resumes execution, until at | |
2976 | least one instruction has been executed. If it did not do this, you | |
2977 | would be unable to proceed past a breakpoint without first disabling the | |
2978 | breakpoint. This rule applies whether or not the breakpoint already | |
2979 | existed when your program stopped. | |
2980 | ||
2981 | @item break @dots{} if @var{cond} | |
2982 | Set a breakpoint with condition @var{cond}; evaluate the expression | |
2983 | @var{cond} each time the breakpoint is reached, and stop only if the | |
2984 | value is nonzero---that is, if @var{cond} evaluates as true. | |
2985 | @samp{@dots{}} stands for one of the possible arguments described | |
2986 | above (or no argument) specifying where to break. @xref{Conditions, | |
79a6e687 | 2987 | ,Break Conditions}, for more information on breakpoint conditions. |
c906108c SS |
2988 | |
2989 | @kindex tbreak | |
2990 | @item tbreak @var{args} | |
2991 | Set a breakpoint enabled only for one stop. @var{args} are the | |
2992 | same as for the @code{break} command, and the breakpoint is set in the same | |
2993 | way, but the breakpoint is automatically deleted after the first time your | |
79a6e687 | 2994 | program stops there. @xref{Disabling, ,Disabling Breakpoints}. |
c906108c | 2995 | |
c906108c | 2996 | @kindex hbreak |
ba04e063 | 2997 | @cindex hardware breakpoints |
c906108c | 2998 | @item hbreak @var{args} |
d4f3574e SS |
2999 | Set a hardware-assisted breakpoint. @var{args} are the same as for the |
3000 | @code{break} command and the breakpoint is set in the same way, but the | |
c906108c SS |
3001 | breakpoint requires hardware support and some target hardware may not |
3002 | have this support. The main purpose of this is EPROM/ROM code | |
d4f3574e SS |
3003 | debugging, so you can set a breakpoint at an instruction without |
3004 | changing the instruction. This can be used with the new trap-generation | |
09d4efe1 | 3005 | provided by SPARClite DSU and most x86-based targets. These targets |
d4f3574e SS |
3006 | will generate traps when a program accesses some data or instruction |
3007 | address that is assigned to the debug registers. However the hardware | |
3008 | breakpoint registers can take a limited number of breakpoints. For | |
3009 | example, on the DSU, only two data breakpoints can be set at a time, and | |
3010 | @value{GDBN} will reject this command if more than two are used. Delete | |
3011 | or disable unused hardware breakpoints before setting new ones | |
79a6e687 BW |
3012 | (@pxref{Disabling, ,Disabling Breakpoints}). |
3013 | @xref{Conditions, ,Break Conditions}. | |
9c16f35a EZ |
3014 | For remote targets, you can restrict the number of hardware |
3015 | breakpoints @value{GDBN} will use, see @ref{set remote | |
3016 | hardware-breakpoint-limit}. | |
501eef12 | 3017 | |
c906108c SS |
3018 | @kindex thbreak |
3019 | @item thbreak @var{args} | |
3020 | Set a hardware-assisted breakpoint enabled only for one stop. @var{args} | |
3021 | are the same as for the @code{hbreak} command and the breakpoint is set in | |
5d161b24 | 3022 | the same way. However, like the @code{tbreak} command, |
c906108c SS |
3023 | the breakpoint is automatically deleted after the |
3024 | first time your program stops there. Also, like the @code{hbreak} | |
5d161b24 | 3025 | command, the breakpoint requires hardware support and some target hardware |
79a6e687 BW |
3026 | may not have this support. @xref{Disabling, ,Disabling Breakpoints}. |
3027 | See also @ref{Conditions, ,Break Conditions}. | |
c906108c SS |
3028 | |
3029 | @kindex rbreak | |
3030 | @cindex regular expression | |
c45da7e6 EZ |
3031 | @cindex breakpoints in functions matching a regexp |
3032 | @cindex set breakpoints in many functions | |
c906108c | 3033 | @item rbreak @var{regex} |
c906108c | 3034 | Set breakpoints on all functions matching the regular expression |
11cf8741 JM |
3035 | @var{regex}. This command sets an unconditional breakpoint on all |
3036 | matches, printing a list of all breakpoints it set. Once these | |
3037 | breakpoints are set, they are treated just like the breakpoints set with | |
3038 | the @code{break} command. You can delete them, disable them, or make | |
3039 | them conditional the same way as any other breakpoint. | |
3040 | ||
3041 | The syntax of the regular expression is the standard one used with tools | |
3042 | like @file{grep}. Note that this is different from the syntax used by | |
3043 | shells, so for instance @code{foo*} matches all functions that include | |
3044 | an @code{fo} followed by zero or more @code{o}s. There is an implicit | |
3045 | @code{.*} leading and trailing the regular expression you supply, so to | |
3046 | match only functions that begin with @code{foo}, use @code{^foo}. | |
c906108c | 3047 | |
f7dc1244 | 3048 | @cindex non-member C@t{++} functions, set breakpoint in |
b37052ae | 3049 | When debugging C@t{++} programs, @code{rbreak} is useful for setting |
c906108c SS |
3050 | breakpoints on overloaded functions that are not members of any special |
3051 | classes. | |
c906108c | 3052 | |
f7dc1244 EZ |
3053 | @cindex set breakpoints on all functions |
3054 | The @code{rbreak} command can be used to set breakpoints in | |
3055 | @strong{all} the functions in a program, like this: | |
3056 | ||
3057 | @smallexample | |
3058 | (@value{GDBP}) rbreak . | |
3059 | @end smallexample | |
3060 | ||
c906108c SS |
3061 | @kindex info breakpoints |
3062 | @cindex @code{$_} and @code{info breakpoints} | |
3063 | @item info breakpoints @r{[}@var{n}@r{]} | |
3064 | @itemx info break @r{[}@var{n}@r{]} | |
3065 | @itemx info watchpoints @r{[}@var{n}@r{]} | |
3066 | Print a table of all breakpoints, watchpoints, and catchpoints set and | |
45ac1734 EZ |
3067 | not deleted. Optional argument @var{n} means print information only |
3068 | about the specified breakpoint (or watchpoint or catchpoint). For | |
3069 | each breakpoint, following columns are printed: | |
c906108c SS |
3070 | |
3071 | @table @emph | |
3072 | @item Breakpoint Numbers | |
3073 | @item Type | |
3074 | Breakpoint, watchpoint, or catchpoint. | |
3075 | @item Disposition | |
3076 | Whether the breakpoint is marked to be disabled or deleted when hit. | |
3077 | @item Enabled or Disabled | |
3078 | Enabled breakpoints are marked with @samp{y}. @samp{n} marks breakpoints | |
b3db7447 | 3079 | that are not enabled. |
c906108c | 3080 | @item Address |
fe6fbf8b | 3081 | Where the breakpoint is in your program, as a memory address. For a |
b3db7447 NR |
3082 | pending breakpoint whose address is not yet known, this field will |
3083 | contain @samp{<PENDING>}. Such breakpoint won't fire until a shared | |
3084 | library that has the symbol or line referred by breakpoint is loaded. | |
3085 | See below for details. A breakpoint with several locations will | |
3b784c4f | 3086 | have @samp{<MULTIPLE>} in this field---see below for details. |
c906108c SS |
3087 | @item What |
3088 | Where the breakpoint is in the source for your program, as a file and | |
2650777c JJ |
3089 | line number. For a pending breakpoint, the original string passed to |
3090 | the breakpoint command will be listed as it cannot be resolved until | |
3091 | the appropriate shared library is loaded in the future. | |
c906108c SS |
3092 | @end table |
3093 | ||
3094 | @noindent | |
3095 | If a breakpoint is conditional, @code{info break} shows the condition on | |
3096 | the line following the affected breakpoint; breakpoint commands, if any, | |
2650777c JJ |
3097 | are listed after that. A pending breakpoint is allowed to have a condition |
3098 | specified for it. The condition is not parsed for validity until a shared | |
3099 | library is loaded that allows the pending breakpoint to resolve to a | |
3100 | valid location. | |
c906108c SS |
3101 | |
3102 | @noindent | |
3103 | @code{info break} with a breakpoint | |
3104 | number @var{n} as argument lists only that breakpoint. The | |
3105 | convenience variable @code{$_} and the default examining-address for | |
3106 | the @code{x} command are set to the address of the last breakpoint | |
79a6e687 | 3107 | listed (@pxref{Memory, ,Examining Memory}). |
c906108c SS |
3108 | |
3109 | @noindent | |
3110 | @code{info break} displays a count of the number of times the breakpoint | |
3111 | has been hit. This is especially useful in conjunction with the | |
3112 | @code{ignore} command. You can ignore a large number of breakpoint | |
3113 | hits, look at the breakpoint info to see how many times the breakpoint | |
3114 | was hit, and then run again, ignoring one less than that number. This | |
3115 | will get you quickly to the last hit of that breakpoint. | |
3116 | @end table | |
3117 | ||
3118 | @value{GDBN} allows you to set any number of breakpoints at the same place in | |
3119 | your program. There is nothing silly or meaningless about this. When | |
3120 | the breakpoints are conditional, this is even useful | |
79a6e687 | 3121 | (@pxref{Conditions, ,Break Conditions}). |
c906108c | 3122 | |
2e9132cc EZ |
3123 | @cindex multiple locations, breakpoints |
3124 | @cindex breakpoints, multiple locations | |
fcda367b | 3125 | It is possible that a breakpoint corresponds to several locations |
fe6fbf8b VP |
3126 | in your program. Examples of this situation are: |
3127 | ||
3128 | @itemize @bullet | |
fe6fbf8b VP |
3129 | @item |
3130 | For a C@t{++} constructor, the @value{NGCC} compiler generates several | |
3131 | instances of the function body, used in different cases. | |
3132 | ||
3133 | @item | |
3134 | For a C@t{++} template function, a given line in the function can | |
3135 | correspond to any number of instantiations. | |
3136 | ||
3137 | @item | |
3138 | For an inlined function, a given source line can correspond to | |
3139 | several places where that function is inlined. | |
fe6fbf8b VP |
3140 | @end itemize |
3141 | ||
3142 | In all those cases, @value{GDBN} will insert a breakpoint at all | |
2e9132cc EZ |
3143 | the relevant locations@footnote{ |
3144 | As of this writing, multiple-location breakpoints work only if there's | |
3145 | line number information for all the locations. This means that they | |
3146 | will generally not work in system libraries, unless you have debug | |
3147 | info with line numbers for them.}. | |
fe6fbf8b | 3148 | |
3b784c4f EZ |
3149 | A breakpoint with multiple locations is displayed in the breakpoint |
3150 | table using several rows---one header row, followed by one row for | |
3151 | each breakpoint location. The header row has @samp{<MULTIPLE>} in the | |
3152 | address column. The rows for individual locations contain the actual | |
3153 | addresses for locations, and show the functions to which those | |
3154 | locations belong. The number column for a location is of the form | |
fe6fbf8b VP |
3155 | @var{breakpoint-number}.@var{location-number}. |
3156 | ||
3157 | For example: | |
3b784c4f | 3158 | |
fe6fbf8b VP |
3159 | @smallexample |
3160 | Num Type Disp Enb Address What | |
3161 | 1 breakpoint keep y <MULTIPLE> | |
3162 | stop only if i==1 | |
3163 | breakpoint already hit 1 time | |
3164 | 1.1 y 0x080486a2 in void foo<int>() at t.cc:8 | |
3165 | 1.2 y 0x080486ca in void foo<double>() at t.cc:8 | |
3166 | @end smallexample | |
3167 | ||
3168 | Each location can be individually enabled or disabled by passing | |
3169 | @var{breakpoint-number}.@var{location-number} as argument to the | |
3b784c4f EZ |
3170 | @code{enable} and @code{disable} commands. Note that you cannot |
3171 | delete the individual locations from the list, you can only delete the | |
16bfc218 | 3172 | entire list of locations that belong to their parent breakpoint (with |
3b784c4f EZ |
3173 | the @kbd{delete @var{num}} command, where @var{num} is the number of |
3174 | the parent breakpoint, 1 in the above example). Disabling or enabling | |
3175 | the parent breakpoint (@pxref{Disabling}) affects all of the locations | |
3176 | that belong to that breakpoint. | |
fe6fbf8b | 3177 | |
2650777c | 3178 | @cindex pending breakpoints |
fe6fbf8b | 3179 | It's quite common to have a breakpoint inside a shared library. |
3b784c4f | 3180 | Shared libraries can be loaded and unloaded explicitly, |
fe6fbf8b VP |
3181 | and possibly repeatedly, as the program is executed. To support |
3182 | this use case, @value{GDBN} updates breakpoint locations whenever | |
3183 | any shared library is loaded or unloaded. Typically, you would | |
fcda367b | 3184 | set a breakpoint in a shared library at the beginning of your |
fe6fbf8b VP |
3185 | debugging session, when the library is not loaded, and when the |
3186 | symbols from the library are not available. When you try to set | |
3187 | breakpoint, @value{GDBN} will ask you if you want to set | |
3b784c4f | 3188 | a so called @dfn{pending breakpoint}---breakpoint whose address |
fe6fbf8b VP |
3189 | is not yet resolved. |
3190 | ||
3191 | After the program is run, whenever a new shared library is loaded, | |
3192 | @value{GDBN} reevaluates all the breakpoints. When a newly loaded | |
3193 | shared library contains the symbol or line referred to by some | |
3194 | pending breakpoint, that breakpoint is resolved and becomes an | |
3195 | ordinary breakpoint. When a library is unloaded, all breakpoints | |
3196 | that refer to its symbols or source lines become pending again. | |
3197 | ||
3198 | This logic works for breakpoints with multiple locations, too. For | |
3199 | example, if you have a breakpoint in a C@t{++} template function, and | |
3200 | a newly loaded shared library has an instantiation of that template, | |
3201 | a new location is added to the list of locations for the breakpoint. | |
3202 | ||
3203 | Except for having unresolved address, pending breakpoints do not | |
3204 | differ from regular breakpoints. You can set conditions or commands, | |
3205 | enable and disable them and perform other breakpoint operations. | |
3206 | ||
3207 | @value{GDBN} provides some additional commands for controlling what | |
3208 | happens when the @samp{break} command cannot resolve breakpoint | |
3209 | address specification to an address: | |
dd79a6cf JJ |
3210 | |
3211 | @kindex set breakpoint pending | |
3212 | @kindex show breakpoint pending | |
3213 | @table @code | |
3214 | @item set breakpoint pending auto | |
3215 | This is the default behavior. When @value{GDBN} cannot find the breakpoint | |
3216 | location, it queries you whether a pending breakpoint should be created. | |
3217 | ||
3218 | @item set breakpoint pending on | |
3219 | This indicates that an unrecognized breakpoint location should automatically | |
3220 | result in a pending breakpoint being created. | |
3221 | ||
3222 | @item set breakpoint pending off | |
3223 | This indicates that pending breakpoints are not to be created. Any | |
3224 | unrecognized breakpoint location results in an error. This setting does | |
3225 | not affect any pending breakpoints previously created. | |
3226 | ||
3227 | @item show breakpoint pending | |
3228 | Show the current behavior setting for creating pending breakpoints. | |
3229 | @end table | |
2650777c | 3230 | |
fe6fbf8b VP |
3231 | The settings above only affect the @code{break} command and its |
3232 | variants. Once breakpoint is set, it will be automatically updated | |
3233 | as shared libraries are loaded and unloaded. | |
2650777c | 3234 | |
765dc015 VP |
3235 | @cindex automatic hardware breakpoints |
3236 | For some targets, @value{GDBN} can automatically decide if hardware or | |
3237 | software breakpoints should be used, depending on whether the | |
3238 | breakpoint address is read-only or read-write. This applies to | |
3239 | breakpoints set with the @code{break} command as well as to internal | |
3240 | breakpoints set by commands like @code{next} and @code{finish}. For | |
fcda367b | 3241 | breakpoints set with @code{hbreak}, @value{GDBN} will always use hardware |
765dc015 VP |
3242 | breakpoints. |
3243 | ||
3244 | You can control this automatic behaviour with the following commands:: | |
3245 | ||
3246 | @kindex set breakpoint auto-hw | |
3247 | @kindex show breakpoint auto-hw | |
3248 | @table @code | |
3249 | @item set breakpoint auto-hw on | |
3250 | This is the default behavior. When @value{GDBN} sets a breakpoint, it | |
3251 | will try to use the target memory map to decide if software or hardware | |
3252 | breakpoint must be used. | |
3253 | ||
3254 | @item set breakpoint auto-hw off | |
3255 | This indicates @value{GDBN} should not automatically select breakpoint | |
3256 | type. If the target provides a memory map, @value{GDBN} will warn when | |
3257 | trying to set software breakpoint at a read-only address. | |
3258 | @end table | |
3259 | ||
74960c60 VP |
3260 | @value{GDBN} normally implements breakpoints by replacing the program code |
3261 | at the breakpoint address with a special instruction, which, when | |
3262 | executed, given control to the debugger. By default, the program | |
3263 | code is so modified only when the program is resumed. As soon as | |
3264 | the program stops, @value{GDBN} restores the original instructions. This | |
3265 | behaviour guards against leaving breakpoints inserted in the | |
3266 | target should gdb abrubptly disconnect. However, with slow remote | |
3267 | targets, inserting and removing breakpoint can reduce the performance. | |
3268 | This behavior can be controlled with the following commands:: | |
3269 | ||
3270 | @kindex set breakpoint always-inserted | |
3271 | @kindex show breakpoint always-inserted | |
3272 | @table @code | |
3273 | @item set breakpoint always-inserted off | |
3274 | This is the default behaviour. All breakpoints, including newly added | |
3275 | by the user, are inserted in the target only when the target is | |
3276 | resumed. All breakpoints are removed from the target when it stops. | |
3277 | ||
3278 | @item set breakpoint always-inserted on | |
3279 | Causes all breakpoints to be inserted in the target at all times. If | |
3280 | the user adds a new breakpoint, or changes an existing breakpoint, the | |
3281 | breakpoints in the target are updated immediately. A breakpoint is | |
3282 | removed from the target only when breakpoint itself is removed. | |
3283 | @end table | |
765dc015 | 3284 | |
c906108c SS |
3285 | @cindex negative breakpoint numbers |
3286 | @cindex internal @value{GDBN} breakpoints | |
eb12ee30 AC |
3287 | @value{GDBN} itself sometimes sets breakpoints in your program for |
3288 | special purposes, such as proper handling of @code{longjmp} (in C | |
3289 | programs). These internal breakpoints are assigned negative numbers, | |
3290 | starting with @code{-1}; @samp{info breakpoints} does not display them. | |
c906108c | 3291 | You can see these breakpoints with the @value{GDBN} maintenance command |
eb12ee30 | 3292 | @samp{maint info breakpoints} (@pxref{maint info breakpoints}). |
c906108c SS |
3293 | |
3294 | ||
6d2ebf8b | 3295 | @node Set Watchpoints |
79a6e687 | 3296 | @subsection Setting Watchpoints |
c906108c SS |
3297 | |
3298 | @cindex setting watchpoints | |
c906108c SS |
3299 | You can use a watchpoint to stop execution whenever the value of an |
3300 | expression changes, without having to predict a particular place where | |
fd60e0df EZ |
3301 | this may happen. (This is sometimes called a @dfn{data breakpoint}.) |
3302 | The expression may be as simple as the value of a single variable, or | |
3303 | as complex as many variables combined by operators. Examples include: | |
3304 | ||
3305 | @itemize @bullet | |
3306 | @item | |
3307 | A reference to the value of a single variable. | |
3308 | ||
3309 | @item | |
3310 | An address cast to an appropriate data type. For example, | |
3311 | @samp{*(int *)0x12345678} will watch a 4-byte region at the specified | |
3312 | address (assuming an @code{int} occupies 4 bytes). | |
3313 | ||
3314 | @item | |
3315 | An arbitrarily complex expression, such as @samp{a*b + c/d}. The | |
3316 | expression can use any operators valid in the program's native | |
3317 | language (@pxref{Languages}). | |
3318 | @end itemize | |
c906108c | 3319 | |
fa4727a6 DJ |
3320 | You can set a watchpoint on an expression even if the expression can |
3321 | not be evaluated yet. For instance, you can set a watchpoint on | |
3322 | @samp{*global_ptr} before @samp{global_ptr} is initialized. | |
3323 | @value{GDBN} will stop when your program sets @samp{global_ptr} and | |
3324 | the expression produces a valid value. If the expression becomes | |
3325 | valid in some other way than changing a variable (e.g.@: if the memory | |
3326 | pointed to by @samp{*global_ptr} becomes readable as the result of a | |
3327 | @code{malloc} call), @value{GDBN} may not stop until the next time | |
3328 | the expression changes. | |
3329 | ||
82f2d802 EZ |
3330 | @cindex software watchpoints |
3331 | @cindex hardware watchpoints | |
c906108c | 3332 | Depending on your system, watchpoints may be implemented in software or |
2df3850c | 3333 | hardware. @value{GDBN} does software watchpointing by single-stepping your |
c906108c SS |
3334 | program and testing the variable's value each time, which is hundreds of |
3335 | times slower than normal execution. (But this may still be worth it, to | |
3336 | catch errors where you have no clue what part of your program is the | |
3337 | culprit.) | |
3338 | ||
37e4754d | 3339 | On some systems, such as HP-UX, PowerPC, @sc{gnu}/Linux and most other |
82f2d802 EZ |
3340 | x86-based targets, @value{GDBN} includes support for hardware |
3341 | watchpoints, which do not slow down the running of your program. | |
c906108c SS |
3342 | |
3343 | @table @code | |
3344 | @kindex watch | |
d8b2a693 | 3345 | @item watch @var{expr} @r{[}thread @var{threadnum}@r{]} |
fd60e0df EZ |
3346 | Set a watchpoint for an expression. @value{GDBN} will break when the |
3347 | expression @var{expr} is written into by the program and its value | |
3348 | changes. The simplest (and the most popular) use of this command is | |
3349 | to watch the value of a single variable: | |
3350 | ||
3351 | @smallexample | |
3352 | (@value{GDBP}) watch foo | |
3353 | @end smallexample | |
c906108c | 3354 | |
d8b2a693 JB |
3355 | If the command includes a @code{@r{[}thread @var{threadnum}@r{]}} |
3356 | clause, @value{GDBN} breaks only when the thread identified by | |
3357 | @var{threadnum} changes the value of @var{expr}. If any other threads | |
3358 | change the value of @var{expr}, @value{GDBN} will not break. Note | |
3359 | that watchpoints restricted to a single thread in this way only work | |
3360 | with Hardware Watchpoints. | |
3361 | ||
c906108c | 3362 | @kindex rwatch |
d8b2a693 | 3363 | @item rwatch @var{expr} @r{[}thread @var{threadnum}@r{]} |
09d4efe1 EZ |
3364 | Set a watchpoint that will break when the value of @var{expr} is read |
3365 | by the program. | |
c906108c SS |
3366 | |
3367 | @kindex awatch | |
d8b2a693 | 3368 | @item awatch @var{expr} @r{[}thread @var{threadnum}@r{]} |
09d4efe1 EZ |
3369 | Set a watchpoint that will break when @var{expr} is either read from |
3370 | or written into by the program. | |
c906108c | 3371 | |
45ac1734 | 3372 | @kindex info watchpoints @r{[}@var{n}@r{]} |
c906108c SS |
3373 | @item info watchpoints |
3374 | This command prints a list of watchpoints, breakpoints, and catchpoints; | |
09d4efe1 | 3375 | it is the same as @code{info break} (@pxref{Set Breaks}). |
c906108c SS |
3376 | @end table |
3377 | ||
3378 | @value{GDBN} sets a @dfn{hardware watchpoint} if possible. Hardware | |
3379 | watchpoints execute very quickly, and the debugger reports a change in | |
3380 | value at the exact instruction where the change occurs. If @value{GDBN} | |
3381 | cannot set a hardware watchpoint, it sets a software watchpoint, which | |
3382 | executes more slowly and reports the change in value at the next | |
82f2d802 EZ |
3383 | @emph{statement}, not the instruction, after the change occurs. |
3384 | ||
82f2d802 EZ |
3385 | @cindex use only software watchpoints |
3386 | You can force @value{GDBN} to use only software watchpoints with the | |
3387 | @kbd{set can-use-hw-watchpoints 0} command. With this variable set to | |
3388 | zero, @value{GDBN} will never try to use hardware watchpoints, even if | |
3389 | the underlying system supports them. (Note that hardware-assisted | |
3390 | watchpoints that were set @emph{before} setting | |
3391 | @code{can-use-hw-watchpoints} to zero will still use the hardware | |
d3e8051b | 3392 | mechanism of watching expression values.) |
c906108c | 3393 | |
9c16f35a EZ |
3394 | @table @code |
3395 | @item set can-use-hw-watchpoints | |
3396 | @kindex set can-use-hw-watchpoints | |
3397 | Set whether or not to use hardware watchpoints. | |
3398 | ||
3399 | @item show can-use-hw-watchpoints | |
3400 | @kindex show can-use-hw-watchpoints | |
3401 | Show the current mode of using hardware watchpoints. | |
3402 | @end table | |
3403 | ||
3404 | For remote targets, you can restrict the number of hardware | |
3405 | watchpoints @value{GDBN} will use, see @ref{set remote | |
3406 | hardware-breakpoint-limit}. | |
3407 | ||
c906108c SS |
3408 | When you issue the @code{watch} command, @value{GDBN} reports |
3409 | ||
474c8240 | 3410 | @smallexample |
c906108c | 3411 | Hardware watchpoint @var{num}: @var{expr} |
474c8240 | 3412 | @end smallexample |
c906108c SS |
3413 | |
3414 | @noindent | |
3415 | if it was able to set a hardware watchpoint. | |
3416 | ||
7be570e7 JM |
3417 | Currently, the @code{awatch} and @code{rwatch} commands can only set |
3418 | hardware watchpoints, because accesses to data that don't change the | |
3419 | value of the watched expression cannot be detected without examining | |
3420 | every instruction as it is being executed, and @value{GDBN} does not do | |
3421 | that currently. If @value{GDBN} finds that it is unable to set a | |
3422 | hardware breakpoint with the @code{awatch} or @code{rwatch} command, it | |
3423 | will print a message like this: | |
3424 | ||
3425 | @smallexample | |
3426 | Expression cannot be implemented with read/access watchpoint. | |
3427 | @end smallexample | |
3428 | ||
3429 | Sometimes, @value{GDBN} cannot set a hardware watchpoint because the | |
3430 | data type of the watched expression is wider than what a hardware | |
3431 | watchpoint on the target machine can handle. For example, some systems | |
3432 | can only watch regions that are up to 4 bytes wide; on such systems you | |
3433 | cannot set hardware watchpoints for an expression that yields a | |
3434 | double-precision floating-point number (which is typically 8 bytes | |
3435 | wide). As a work-around, it might be possible to break the large region | |
3436 | into a series of smaller ones and watch them with separate watchpoints. | |
3437 | ||
3438 | If you set too many hardware watchpoints, @value{GDBN} might be unable | |
3439 | to insert all of them when you resume the execution of your program. | |
3440 | Since the precise number of active watchpoints is unknown until such | |
3441 | time as the program is about to be resumed, @value{GDBN} might not be | |
3442 | able to warn you about this when you set the watchpoints, and the | |
3443 | warning will be printed only when the program is resumed: | |
3444 | ||
3445 | @smallexample | |
3446 | Hardware watchpoint @var{num}: Could not insert watchpoint | |
3447 | @end smallexample | |
3448 | ||
3449 | @noindent | |
3450 | If this happens, delete or disable some of the watchpoints. | |
3451 | ||
fd60e0df EZ |
3452 | Watching complex expressions that reference many variables can also |
3453 | exhaust the resources available for hardware-assisted watchpoints. | |
3454 | That's because @value{GDBN} needs to watch every variable in the | |
3455 | expression with separately allocated resources. | |
3456 | ||
c906108c | 3457 | If you call a function interactively using @code{print} or @code{call}, |
2df3850c | 3458 | any watchpoints you have set will be inactive until @value{GDBN} reaches another |
c906108c SS |
3459 | kind of breakpoint or the call completes. |
3460 | ||
7be570e7 JM |
3461 | @value{GDBN} automatically deletes watchpoints that watch local |
3462 | (automatic) variables, or expressions that involve such variables, when | |
3463 | they go out of scope, that is, when the execution leaves the block in | |
3464 | which these variables were defined. In particular, when the program | |
3465 | being debugged terminates, @emph{all} local variables go out of scope, | |
3466 | and so only watchpoints that watch global variables remain set. If you | |
3467 | rerun the program, you will need to set all such watchpoints again. One | |
3468 | way of doing that would be to set a code breakpoint at the entry to the | |
3469 | @code{main} function and when it breaks, set all the watchpoints. | |
3470 | ||
c906108c SS |
3471 | @cindex watchpoints and threads |
3472 | @cindex threads and watchpoints | |
d983da9c DJ |
3473 | In multi-threaded programs, watchpoints will detect changes to the |
3474 | watched expression from every thread. | |
3475 | ||
3476 | @quotation | |
3477 | @emph{Warning:} In multi-threaded programs, software watchpoints | |
53a5351d JM |
3478 | have only limited usefulness. If @value{GDBN} creates a software |
3479 | watchpoint, it can only watch the value of an expression @emph{in a | |
3480 | single thread}. If you are confident that the expression can only | |
3481 | change due to the current thread's activity (and if you are also | |
3482 | confident that no other thread can become current), then you can use | |
3483 | software watchpoints as usual. However, @value{GDBN} may not notice | |
3484 | when a non-current thread's activity changes the expression. (Hardware | |
3485 | watchpoints, in contrast, watch an expression in all threads.) | |
c906108c | 3486 | @end quotation |
c906108c | 3487 | |
501eef12 AC |
3488 | @xref{set remote hardware-watchpoint-limit}. |
3489 | ||
6d2ebf8b | 3490 | @node Set Catchpoints |
79a6e687 | 3491 | @subsection Setting Catchpoints |
d4f3574e | 3492 | @cindex catchpoints, setting |
c906108c SS |
3493 | @cindex exception handlers |
3494 | @cindex event handling | |
3495 | ||
3496 | You can use @dfn{catchpoints} to cause the debugger to stop for certain | |
b37052ae | 3497 | kinds of program events, such as C@t{++} exceptions or the loading of a |
c906108c SS |
3498 | shared library. Use the @code{catch} command to set a catchpoint. |
3499 | ||
3500 | @table @code | |
3501 | @kindex catch | |
3502 | @item catch @var{event} | |
3503 | Stop when @var{event} occurs. @var{event} can be any of the following: | |
3504 | @table @code | |
3505 | @item throw | |
4644b6e3 | 3506 | @cindex stop on C@t{++} exceptions |
b37052ae | 3507 | The throwing of a C@t{++} exception. |
c906108c SS |
3508 | |
3509 | @item catch | |
b37052ae | 3510 | The catching of a C@t{++} exception. |
c906108c | 3511 | |
8936fcda JB |
3512 | @item exception |
3513 | @cindex Ada exception catching | |
3514 | @cindex catch Ada exceptions | |
3515 | An Ada exception being raised. If an exception name is specified | |
3516 | at the end of the command (eg @code{catch exception Program_Error}), | |
3517 | the debugger will stop only when this specific exception is raised. | |
3518 | Otherwise, the debugger stops execution when any Ada exception is raised. | |
3519 | ||
3520 | @item exception unhandled | |
3521 | An exception that was raised but is not handled by the program. | |
3522 | ||
3523 | @item assert | |
3524 | A failed Ada assertion. | |
3525 | ||
c906108c | 3526 | @item exec |
4644b6e3 | 3527 | @cindex break on fork/exec |
5ee187d7 DJ |
3528 | A call to @code{exec}. This is currently only available for HP-UX |
3529 | and @sc{gnu}/Linux. | |
c906108c SS |
3530 | |
3531 | @item fork | |
5ee187d7 DJ |
3532 | A call to @code{fork}. This is currently only available for HP-UX |
3533 | and @sc{gnu}/Linux. | |
c906108c SS |
3534 | |
3535 | @item vfork | |
5ee187d7 DJ |
3536 | A call to @code{vfork}. This is currently only available for HP-UX |
3537 | and @sc{gnu}/Linux. | |
c906108c SS |
3538 | |
3539 | @item load | |
3540 | @itemx load @var{libname} | |
4644b6e3 | 3541 | @cindex break on load/unload of shared library |
c906108c SS |
3542 | The dynamic loading of any shared library, or the loading of the library |
3543 | @var{libname}. This is currently only available for HP-UX. | |
3544 | ||
3545 | @item unload | |
3546 | @itemx unload @var{libname} | |
c906108c SS |
3547 | The unloading of any dynamically loaded shared library, or the unloading |
3548 | of the library @var{libname}. This is currently only available for HP-UX. | |
3549 | @end table | |
3550 | ||
3551 | @item tcatch @var{event} | |
3552 | Set a catchpoint that is enabled only for one stop. The catchpoint is | |
3553 | automatically deleted after the first time the event is caught. | |
3554 | ||
3555 | @end table | |
3556 | ||
3557 | Use the @code{info break} command to list the current catchpoints. | |
3558 | ||
b37052ae | 3559 | There are currently some limitations to C@t{++} exception handling |
c906108c SS |
3560 | (@code{catch throw} and @code{catch catch}) in @value{GDBN}: |
3561 | ||
3562 | @itemize @bullet | |
3563 | @item | |
3564 | If you call a function interactively, @value{GDBN} normally returns | |
3565 | control to you when the function has finished executing. If the call | |
3566 | raises an exception, however, the call may bypass the mechanism that | |
3567 | returns control to you and cause your program either to abort or to | |
3568 | simply continue running until it hits a breakpoint, catches a signal | |
3569 | that @value{GDBN} is listening for, or exits. This is the case even if | |
3570 | you set a catchpoint for the exception; catchpoints on exceptions are | |
3571 | disabled within interactive calls. | |
3572 | ||
3573 | @item | |
3574 | You cannot raise an exception interactively. | |
3575 | ||
3576 | @item | |
3577 | You cannot install an exception handler interactively. | |
3578 | @end itemize | |
3579 | ||
3580 | @cindex raise exceptions | |
3581 | Sometimes @code{catch} is not the best way to debug exception handling: | |
3582 | if you need to know exactly where an exception is raised, it is better to | |
3583 | stop @emph{before} the exception handler is called, since that way you | |
3584 | can see the stack before any unwinding takes place. If you set a | |
3585 | breakpoint in an exception handler instead, it may not be easy to find | |
3586 | out where the exception was raised. | |
3587 | ||
3588 | To stop just before an exception handler is called, you need some | |
b37052ae | 3589 | knowledge of the implementation. In the case of @sc{gnu} C@t{++}, exceptions are |
c906108c SS |
3590 | raised by calling a library function named @code{__raise_exception} |
3591 | which has the following ANSI C interface: | |
3592 | ||
474c8240 | 3593 | @smallexample |
c906108c | 3594 | /* @var{addr} is where the exception identifier is stored. |
d4f3574e SS |
3595 | @var{id} is the exception identifier. */ |
3596 | void __raise_exception (void **addr, void *id); | |
474c8240 | 3597 | @end smallexample |
c906108c SS |
3598 | |
3599 | @noindent | |
3600 | To make the debugger catch all exceptions before any stack | |
3601 | unwinding takes place, set a breakpoint on @code{__raise_exception} | |
79a6e687 | 3602 | (@pxref{Breakpoints, ,Breakpoints; Watchpoints; and Exceptions}). |
c906108c | 3603 | |
79a6e687 | 3604 | With a conditional breakpoint (@pxref{Conditions, ,Break Conditions}) |
c906108c SS |
3605 | that depends on the value of @var{id}, you can stop your program when |
3606 | a specific exception is raised. You can use multiple conditional | |
3607 | breakpoints to stop your program when any of a number of exceptions are | |
3608 | raised. | |
3609 | ||
3610 | ||
6d2ebf8b | 3611 | @node Delete Breaks |
79a6e687 | 3612 | @subsection Deleting Breakpoints |
c906108c SS |
3613 | |
3614 | @cindex clearing breakpoints, watchpoints, catchpoints | |
3615 | @cindex deleting breakpoints, watchpoints, catchpoints | |
3616 | It is often necessary to eliminate a breakpoint, watchpoint, or | |
3617 | catchpoint once it has done its job and you no longer want your program | |
3618 | to stop there. This is called @dfn{deleting} the breakpoint. A | |
3619 | breakpoint that has been deleted no longer exists; it is forgotten. | |
3620 | ||
3621 | With the @code{clear} command you can delete breakpoints according to | |
3622 | where they are in your program. With the @code{delete} command you can | |
3623 | delete individual breakpoints, watchpoints, or catchpoints by specifying | |
3624 | their breakpoint numbers. | |
3625 | ||
3626 | It is not necessary to delete a breakpoint to proceed past it. @value{GDBN} | |
3627 | automatically ignores breakpoints on the first instruction to be executed | |
3628 | when you continue execution without changing the execution address. | |
3629 | ||
3630 | @table @code | |
3631 | @kindex clear | |
3632 | @item clear | |
3633 | Delete any breakpoints at the next instruction to be executed in the | |
79a6e687 | 3634 | selected stack frame (@pxref{Selection, ,Selecting a Frame}). When |
c906108c SS |
3635 | the innermost frame is selected, this is a good way to delete a |
3636 | breakpoint where your program just stopped. | |
3637 | ||
2a25a5ba EZ |
3638 | @item clear @var{location} |
3639 | Delete any breakpoints set at the specified @var{location}. | |
3640 | @xref{Specify Location}, for the various forms of @var{location}; the | |
3641 | most useful ones are listed below: | |
3642 | ||
3643 | @table @code | |
c906108c SS |
3644 | @item clear @var{function} |
3645 | @itemx clear @var{filename}:@var{function} | |
09d4efe1 | 3646 | Delete any breakpoints set at entry to the named @var{function}. |
c906108c SS |
3647 | |
3648 | @item clear @var{linenum} | |
3649 | @itemx clear @var{filename}:@var{linenum} | |
09d4efe1 EZ |
3650 | Delete any breakpoints set at or within the code of the specified |
3651 | @var{linenum} of the specified @var{filename}. | |
2a25a5ba | 3652 | @end table |
c906108c SS |
3653 | |
3654 | @cindex delete breakpoints | |
3655 | @kindex delete | |
41afff9a | 3656 | @kindex d @r{(@code{delete})} |
c5394b80 JM |
3657 | @item delete @r{[}breakpoints@r{]} @r{[}@var{range}@dots{}@r{]} |
3658 | Delete the breakpoints, watchpoints, or catchpoints of the breakpoint | |
3659 | ranges specified as arguments. If no argument is specified, delete all | |
c906108c SS |
3660 | breakpoints (@value{GDBN} asks confirmation, unless you have @code{set |
3661 | confirm off}). You can abbreviate this command as @code{d}. | |
3662 | @end table | |
3663 | ||
6d2ebf8b | 3664 | @node Disabling |
79a6e687 | 3665 | @subsection Disabling Breakpoints |
c906108c | 3666 | |
4644b6e3 | 3667 | @cindex enable/disable a breakpoint |
c906108c SS |
3668 | Rather than deleting a breakpoint, watchpoint, or catchpoint, you might |
3669 | prefer to @dfn{disable} it. This makes the breakpoint inoperative as if | |
3670 | it had been deleted, but remembers the information on the breakpoint so | |
3671 | that you can @dfn{enable} it again later. | |
3672 | ||
3673 | You disable and enable breakpoints, watchpoints, and catchpoints with | |
3674 | the @code{enable} and @code{disable} commands, optionally specifying one | |
3675 | or more breakpoint numbers as arguments. Use @code{info break} or | |
3676 | @code{info watch} to print a list of breakpoints, watchpoints, and | |
3677 | catchpoints if you do not know which numbers to use. | |
3678 | ||
3b784c4f EZ |
3679 | Disabling and enabling a breakpoint that has multiple locations |
3680 | affects all of its locations. | |
3681 | ||
c906108c SS |
3682 | A breakpoint, watchpoint, or catchpoint can have any of four different |
3683 | states of enablement: | |
3684 | ||
3685 | @itemize @bullet | |
3686 | @item | |
3687 | Enabled. The breakpoint stops your program. A breakpoint set | |
3688 | with the @code{break} command starts out in this state. | |
3689 | @item | |
3690 | Disabled. The breakpoint has no effect on your program. | |
3691 | @item | |
3692 | Enabled once. The breakpoint stops your program, but then becomes | |
d4f3574e | 3693 | disabled. |
c906108c SS |
3694 | @item |
3695 | Enabled for deletion. The breakpoint stops your program, but | |
d4f3574e SS |
3696 | immediately after it does so it is deleted permanently. A breakpoint |
3697 | set with the @code{tbreak} command starts out in this state. | |
c906108c SS |
3698 | @end itemize |
3699 | ||
3700 | You can use the following commands to enable or disable breakpoints, | |
3701 | watchpoints, and catchpoints: | |
3702 | ||
3703 | @table @code | |
c906108c | 3704 | @kindex disable |
41afff9a | 3705 | @kindex dis @r{(@code{disable})} |
c5394b80 | 3706 | @item disable @r{[}breakpoints@r{]} @r{[}@var{range}@dots{}@r{]} |
c906108c SS |
3707 | Disable the specified breakpoints---or all breakpoints, if none are |
3708 | listed. A disabled breakpoint has no effect but is not forgotten. All | |
3709 | options such as ignore-counts, conditions and commands are remembered in | |
3710 | case the breakpoint is enabled again later. You may abbreviate | |
3711 | @code{disable} as @code{dis}. | |
3712 | ||
c906108c | 3713 | @kindex enable |
c5394b80 | 3714 | @item enable @r{[}breakpoints@r{]} @r{[}@var{range}@dots{}@r{]} |
c906108c SS |
3715 | Enable the specified breakpoints (or all defined breakpoints). They |
3716 | become effective once again in stopping your program. | |
3717 | ||
c5394b80 | 3718 | @item enable @r{[}breakpoints@r{]} once @var{range}@dots{} |
c906108c SS |
3719 | Enable the specified breakpoints temporarily. @value{GDBN} disables any |
3720 | of these breakpoints immediately after stopping your program. | |
3721 | ||
c5394b80 | 3722 | @item enable @r{[}breakpoints@r{]} delete @var{range}@dots{} |
c906108c SS |
3723 | Enable the specified breakpoints to work once, then die. @value{GDBN} |
3724 | deletes any of these breakpoints as soon as your program stops there. | |
09d4efe1 | 3725 | Breakpoints set by the @code{tbreak} command start out in this state. |
c906108c SS |
3726 | @end table |
3727 | ||
d4f3574e SS |
3728 | @c FIXME: I think the following ``Except for [...] @code{tbreak}'' is |
3729 | @c confusing: tbreak is also initially enabled. | |
c906108c | 3730 | Except for a breakpoint set with @code{tbreak} (@pxref{Set Breaks, |
79a6e687 | 3731 | ,Setting Breakpoints}), breakpoints that you set are initially enabled; |
c906108c SS |
3732 | subsequently, they become disabled or enabled only when you use one of |
3733 | the commands above. (The command @code{until} can set and delete a | |
3734 | breakpoint of its own, but it does not change the state of your other | |
3735 | breakpoints; see @ref{Continuing and Stepping, ,Continuing and | |
79a6e687 | 3736 | Stepping}.) |
c906108c | 3737 | |
6d2ebf8b | 3738 | @node Conditions |
79a6e687 | 3739 | @subsection Break Conditions |
c906108c SS |
3740 | @cindex conditional breakpoints |
3741 | @cindex breakpoint conditions | |
3742 | ||
3743 | @c FIXME what is scope of break condition expr? Context where wanted? | |
5d161b24 | 3744 | @c in particular for a watchpoint? |
c906108c SS |
3745 | The simplest sort of breakpoint breaks every time your program reaches a |
3746 | specified place. You can also specify a @dfn{condition} for a | |
3747 | breakpoint. A condition is just a Boolean expression in your | |
3748 | programming language (@pxref{Expressions, ,Expressions}). A breakpoint with | |
3749 | a condition evaluates the expression each time your program reaches it, | |
3750 | and your program stops only if the condition is @emph{true}. | |
3751 | ||
3752 | This is the converse of using assertions for program validation; in that | |
3753 | situation, you want to stop when the assertion is violated---that is, | |
3754 | when the condition is false. In C, if you want to test an assertion expressed | |
3755 | by the condition @var{assert}, you should set the condition | |
3756 | @samp{! @var{assert}} on the appropriate breakpoint. | |
3757 | ||
3758 | Conditions are also accepted for watchpoints; you may not need them, | |
3759 | since a watchpoint is inspecting the value of an expression anyhow---but | |
3760 | it might be simpler, say, to just set a watchpoint on a variable name, | |
3761 | and specify a condition that tests whether the new value is an interesting | |
3762 | one. | |
3763 | ||
3764 | Break conditions can have side effects, and may even call functions in | |
3765 | your program. This can be useful, for example, to activate functions | |
3766 | that log program progress, or to use your own print functions to | |
3767 | format special data structures. The effects are completely predictable | |
3768 | unless there is another enabled breakpoint at the same address. (In | |
3769 | that case, @value{GDBN} might see the other breakpoint first and stop your | |
3770 | program without checking the condition of this one.) Note that | |
d4f3574e SS |
3771 | breakpoint commands are usually more convenient and flexible than break |
3772 | conditions for the | |
c906108c | 3773 | purpose of performing side effects when a breakpoint is reached |
79a6e687 | 3774 | (@pxref{Break Commands, ,Breakpoint Command Lists}). |
c906108c SS |
3775 | |
3776 | Break conditions can be specified when a breakpoint is set, by using | |
3777 | @samp{if} in the arguments to the @code{break} command. @xref{Set | |
79a6e687 | 3778 | Breaks, ,Setting Breakpoints}. They can also be changed at any time |
c906108c | 3779 | with the @code{condition} command. |
53a5351d | 3780 | |
c906108c SS |
3781 | You can also use the @code{if} keyword with the @code{watch} command. |
3782 | The @code{catch} command does not recognize the @code{if} keyword; | |
3783 | @code{condition} is the only way to impose a further condition on a | |
3784 | catchpoint. | |
c906108c SS |
3785 | |
3786 | @table @code | |
3787 | @kindex condition | |
3788 | @item condition @var{bnum} @var{expression} | |
3789 | Specify @var{expression} as the break condition for breakpoint, | |
3790 | watchpoint, or catchpoint number @var{bnum}. After you set a condition, | |
3791 | breakpoint @var{bnum} stops your program only if the value of | |
3792 | @var{expression} is true (nonzero, in C). When you use | |
3793 | @code{condition}, @value{GDBN} checks @var{expression} immediately for | |
3794 | syntactic correctness, and to determine whether symbols in it have | |
d4f3574e SS |
3795 | referents in the context of your breakpoint. If @var{expression} uses |
3796 | symbols not referenced in the context of the breakpoint, @value{GDBN} | |
3797 | prints an error message: | |
3798 | ||
474c8240 | 3799 | @smallexample |
d4f3574e | 3800 | No symbol "foo" in current context. |
474c8240 | 3801 | @end smallexample |
d4f3574e SS |
3802 | |
3803 | @noindent | |
c906108c SS |
3804 | @value{GDBN} does |
3805 | not actually evaluate @var{expression} at the time the @code{condition} | |
d4f3574e SS |
3806 | command (or a command that sets a breakpoint with a condition, like |
3807 | @code{break if @dots{}}) is given, however. @xref{Expressions, ,Expressions}. | |
c906108c SS |
3808 | |
3809 | @item condition @var{bnum} | |
3810 | Remove the condition from breakpoint number @var{bnum}. It becomes | |
3811 | an ordinary unconditional breakpoint. | |
3812 | @end table | |
3813 | ||
3814 | @cindex ignore count (of breakpoint) | |
3815 | A special case of a breakpoint condition is to stop only when the | |
3816 | breakpoint has been reached a certain number of times. This is so | |
3817 | useful that there is a special way to do it, using the @dfn{ignore | |
3818 | count} of the breakpoint. Every breakpoint has an ignore count, which | |
3819 | is an integer. Most of the time, the ignore count is zero, and | |
3820 | therefore has no effect. But if your program reaches a breakpoint whose | |
3821 | ignore count is positive, then instead of stopping, it just decrements | |
3822 | the ignore count by one and continues. As a result, if the ignore count | |
3823 | value is @var{n}, the breakpoint does not stop the next @var{n} times | |
3824 | your program reaches it. | |
3825 | ||
3826 | @table @code | |
3827 | @kindex ignore | |
3828 | @item ignore @var{bnum} @var{count} | |
3829 | Set the ignore count of breakpoint number @var{bnum} to @var{count}. | |
3830 | The next @var{count} times the breakpoint is reached, your program's | |
3831 | execution does not stop; other than to decrement the ignore count, @value{GDBN} | |
3832 | takes no action. | |
3833 | ||
3834 | To make the breakpoint stop the next time it is reached, specify | |
3835 | a count of zero. | |
3836 | ||
3837 | When you use @code{continue} to resume execution of your program from a | |
3838 | breakpoint, you can specify an ignore count directly as an argument to | |
3839 | @code{continue}, rather than using @code{ignore}. @xref{Continuing and | |
79a6e687 | 3840 | Stepping,,Continuing and Stepping}. |
c906108c SS |
3841 | |
3842 | If a breakpoint has a positive ignore count and a condition, the | |
3843 | condition is not checked. Once the ignore count reaches zero, | |
3844 | @value{GDBN} resumes checking the condition. | |
3845 | ||
3846 | You could achieve the effect of the ignore count with a condition such | |
3847 | as @w{@samp{$foo-- <= 0}} using a debugger convenience variable that | |
3848 | is decremented each time. @xref{Convenience Vars, ,Convenience | |
79a6e687 | 3849 | Variables}. |
c906108c SS |
3850 | @end table |
3851 | ||
3852 | Ignore counts apply to breakpoints, watchpoints, and catchpoints. | |
3853 | ||
3854 | ||
6d2ebf8b | 3855 | @node Break Commands |
79a6e687 | 3856 | @subsection Breakpoint Command Lists |
c906108c SS |
3857 | |
3858 | @cindex breakpoint commands | |
3859 | You can give any breakpoint (or watchpoint or catchpoint) a series of | |
3860 | commands to execute when your program stops due to that breakpoint. For | |
3861 | example, you might want to print the values of certain expressions, or | |
3862 | enable other breakpoints. | |
3863 | ||
3864 | @table @code | |
3865 | @kindex commands | |
ca91424e | 3866 | @kindex end@r{ (breakpoint commands)} |
c906108c SS |
3867 | @item commands @r{[}@var{bnum}@r{]} |
3868 | @itemx @dots{} @var{command-list} @dots{} | |
3869 | @itemx end | |
3870 | Specify a list of commands for breakpoint number @var{bnum}. The commands | |
3871 | themselves appear on the following lines. Type a line containing just | |
3872 | @code{end} to terminate the commands. | |
3873 | ||
3874 | To remove all commands from a breakpoint, type @code{commands} and | |
3875 | follow it immediately with @code{end}; that is, give no commands. | |
3876 | ||
3877 | With no @var{bnum} argument, @code{commands} refers to the last | |
3878 | breakpoint, watchpoint, or catchpoint set (not to the breakpoint most | |
3879 | recently encountered). | |
3880 | @end table | |
3881 | ||
3882 | Pressing @key{RET} as a means of repeating the last @value{GDBN} command is | |
3883 | disabled within a @var{command-list}. | |
3884 | ||
3885 | You can use breakpoint commands to start your program up again. Simply | |
3886 | use the @code{continue} command, or @code{step}, or any other command | |
3887 | that resumes execution. | |
3888 | ||
3889 | Any other commands in the command list, after a command that resumes | |
3890 | execution, are ignored. This is because any time you resume execution | |
3891 | (even with a simple @code{next} or @code{step}), you may encounter | |
3892 | another breakpoint---which could have its own command list, leading to | |
3893 | ambiguities about which list to execute. | |
3894 | ||
3895 | @kindex silent | |
3896 | If the first command you specify in a command list is @code{silent}, the | |
3897 | usual message about stopping at a breakpoint is not printed. This may | |
3898 | be desirable for breakpoints that are to print a specific message and | |
3899 | then continue. If none of the remaining commands print anything, you | |
3900 | see no sign that the breakpoint was reached. @code{silent} is | |
3901 | meaningful only at the beginning of a breakpoint command list. | |
3902 | ||
3903 | The commands @code{echo}, @code{output}, and @code{printf} allow you to | |
3904 | print precisely controlled output, and are often useful in silent | |
79a6e687 | 3905 | breakpoints. @xref{Output, ,Commands for Controlled Output}. |
c906108c SS |
3906 | |
3907 | For example, here is how you could use breakpoint commands to print the | |
3908 | value of @code{x} at entry to @code{foo} whenever @code{x} is positive. | |
3909 | ||
474c8240 | 3910 | @smallexample |
c906108c SS |
3911 | break foo if x>0 |
3912 | commands | |
3913 | silent | |
3914 | printf "x is %d\n",x | |
3915 | cont | |
3916 | end | |
474c8240 | 3917 | @end smallexample |
c906108c SS |
3918 | |
3919 | One application for breakpoint commands is to compensate for one bug so | |
3920 | you can test for another. Put a breakpoint just after the erroneous line | |
3921 | of code, give it a condition to detect the case in which something | |
3922 | erroneous has been done, and give it commands to assign correct values | |
3923 | to any variables that need them. End with the @code{continue} command | |
3924 | so that your program does not stop, and start with the @code{silent} | |
3925 | command so that no output is produced. Here is an example: | |
3926 | ||
474c8240 | 3927 | @smallexample |
c906108c SS |
3928 | break 403 |
3929 | commands | |
3930 | silent | |
3931 | set x = y + 4 | |
3932 | cont | |
3933 | end | |
474c8240 | 3934 | @end smallexample |
c906108c | 3935 | |
c906108c | 3936 | @c @ifclear BARETARGET |
6d2ebf8b | 3937 | @node Error in Breakpoints |
d4f3574e | 3938 | @subsection ``Cannot insert breakpoints'' |
c906108c SS |
3939 | @c |
3940 | @c FIXME!! 14/6/95 Is there a real example of this? Let's use it. | |
3941 | @c | |
d4f3574e SS |
3942 | Under some operating systems, breakpoints cannot be used in a program if |
3943 | any other process is running that program. In this situation, | |
5d161b24 | 3944 | attempting to run or continue a program with a breakpoint causes |
d4f3574e SS |
3945 | @value{GDBN} to print an error message: |
3946 | ||
474c8240 | 3947 | @smallexample |
d4f3574e SS |
3948 | Cannot insert breakpoints. |
3949 | The same program may be running in another process. | |
474c8240 | 3950 | @end smallexample |
d4f3574e SS |
3951 | |
3952 | When this happens, you have three ways to proceed: | |
3953 | ||
3954 | @enumerate | |
3955 | @item | |
3956 | Remove or disable the breakpoints, then continue. | |
3957 | ||
3958 | @item | |
5d161b24 | 3959 | Suspend @value{GDBN}, and copy the file containing your program to a new |
d4f3574e | 3960 | name. Resume @value{GDBN} and use the @code{exec-file} command to specify |
5d161b24 | 3961 | that @value{GDBN} should run your program under that name. |
d4f3574e SS |
3962 | Then start your program again. |
3963 | ||
3964 | @item | |
3965 | Relink your program so that the text segment is nonsharable, using the | |
3966 | linker option @samp{-N}. The operating system limitation may not apply | |
3967 | to nonsharable executables. | |
3968 | @end enumerate | |
c906108c SS |
3969 | @c @end ifclear |
3970 | ||
d4f3574e SS |
3971 | A similar message can be printed if you request too many active |
3972 | hardware-assisted breakpoints and watchpoints: | |
3973 | ||
3974 | @c FIXME: the precise wording of this message may change; the relevant | |
3975 | @c source change is not committed yet (Sep 3, 1999). | |
3976 | @smallexample | |
3977 | Stopped; cannot insert breakpoints. | |
3978 | You may have requested too many hardware breakpoints and watchpoints. | |
3979 | @end smallexample | |
3980 | ||
3981 | @noindent | |
3982 | This message is printed when you attempt to resume the program, since | |
3983 | only then @value{GDBN} knows exactly how many hardware breakpoints and | |
3984 | watchpoints it needs to insert. | |
3985 | ||
3986 | When this message is printed, you need to disable or remove some of the | |
3987 | hardware-assisted breakpoints and watchpoints, and then continue. | |
3988 | ||
79a6e687 | 3989 | @node Breakpoint-related Warnings |
1485d690 KB |
3990 | @subsection ``Breakpoint address adjusted...'' |
3991 | @cindex breakpoint address adjusted | |
3992 | ||
3993 | Some processor architectures place constraints on the addresses at | |
3994 | which breakpoints may be placed. For architectures thus constrained, | |
3995 | @value{GDBN} will attempt to adjust the breakpoint's address to comply | |
3996 | with the constraints dictated by the architecture. | |
3997 | ||
3998 | One example of such an architecture is the Fujitsu FR-V. The FR-V is | |
3999 | a VLIW architecture in which a number of RISC-like instructions may be | |
4000 | bundled together for parallel execution. The FR-V architecture | |
4001 | constrains the location of a breakpoint instruction within such a | |
4002 | bundle to the instruction with the lowest address. @value{GDBN} | |
4003 | honors this constraint by adjusting a breakpoint's address to the | |
4004 | first in the bundle. | |
4005 | ||
4006 | It is not uncommon for optimized code to have bundles which contain | |
4007 | instructions from different source statements, thus it may happen that | |
4008 | a breakpoint's address will be adjusted from one source statement to | |
4009 | another. Since this adjustment may significantly alter @value{GDBN}'s | |
4010 | breakpoint related behavior from what the user expects, a warning is | |
4011 | printed when the breakpoint is first set and also when the breakpoint | |
4012 | is hit. | |
4013 | ||
4014 | A warning like the one below is printed when setting a breakpoint | |
4015 | that's been subject to address adjustment: | |
4016 | ||
4017 | @smallexample | |
4018 | warning: Breakpoint address adjusted from 0x00010414 to 0x00010410. | |
4019 | @end smallexample | |
4020 | ||
4021 | Such warnings are printed both for user settable and @value{GDBN}'s | |
4022 | internal breakpoints. If you see one of these warnings, you should | |
4023 | verify that a breakpoint set at the adjusted address will have the | |
4024 | desired affect. If not, the breakpoint in question may be removed and | |
b383017d | 4025 | other breakpoints may be set which will have the desired behavior. |
1485d690 KB |
4026 | E.g., it may be sufficient to place the breakpoint at a later |
4027 | instruction. A conditional breakpoint may also be useful in some | |
4028 | cases to prevent the breakpoint from triggering too often. | |
4029 | ||
4030 | @value{GDBN} will also issue a warning when stopping at one of these | |
4031 | adjusted breakpoints: | |
4032 | ||
4033 | @smallexample | |
4034 | warning: Breakpoint 1 address previously adjusted from 0x00010414 | |
4035 | to 0x00010410. | |
4036 | @end smallexample | |
4037 | ||
4038 | When this warning is encountered, it may be too late to take remedial | |
4039 | action except in cases where the breakpoint is hit earlier or more | |
4040 | frequently than expected. | |
d4f3574e | 4041 | |
6d2ebf8b | 4042 | @node Continuing and Stepping |
79a6e687 | 4043 | @section Continuing and Stepping |
c906108c SS |
4044 | |
4045 | @cindex stepping | |
4046 | @cindex continuing | |
4047 | @cindex resuming execution | |
4048 | @dfn{Continuing} means resuming program execution until your program | |
4049 | completes normally. In contrast, @dfn{stepping} means executing just | |
4050 | one more ``step'' of your program, where ``step'' may mean either one | |
4051 | line of source code, or one machine instruction (depending on what | |
7a292a7a SS |
4052 | particular command you use). Either when continuing or when stepping, |
4053 | your program may stop even sooner, due to a breakpoint or a signal. (If | |
d4f3574e SS |
4054 | it stops due to a signal, you may want to use @code{handle}, or use |
4055 | @samp{signal 0} to resume execution. @xref{Signals, ,Signals}.) | |
c906108c SS |
4056 | |
4057 | @table @code | |
4058 | @kindex continue | |
41afff9a EZ |
4059 | @kindex c @r{(@code{continue})} |
4060 | @kindex fg @r{(resume foreground execution)} | |
c906108c SS |
4061 | @item continue @r{[}@var{ignore-count}@r{]} |
4062 | @itemx c @r{[}@var{ignore-count}@r{]} | |
4063 | @itemx fg @r{[}@var{ignore-count}@r{]} | |
4064 | Resume program execution, at the address where your program last stopped; | |
4065 | any breakpoints set at that address are bypassed. The optional argument | |
4066 | @var{ignore-count} allows you to specify a further number of times to | |
4067 | ignore a breakpoint at this location; its effect is like that of | |
79a6e687 | 4068 | @code{ignore} (@pxref{Conditions, ,Break Conditions}). |
c906108c SS |
4069 | |
4070 | The argument @var{ignore-count} is meaningful only when your program | |
4071 | stopped due to a breakpoint. At other times, the argument to | |
4072 | @code{continue} is ignored. | |
4073 | ||
d4f3574e SS |
4074 | The synonyms @code{c} and @code{fg} (for @dfn{foreground}, as the |
4075 | debugged program is deemed to be the foreground program) are provided | |
4076 | purely for convenience, and have exactly the same behavior as | |
4077 | @code{continue}. | |
c906108c SS |
4078 | @end table |
4079 | ||
4080 | To resume execution at a different place, you can use @code{return} | |
79a6e687 | 4081 | (@pxref{Returning, ,Returning from a Function}) to go back to the |
c906108c | 4082 | calling function; or @code{jump} (@pxref{Jumping, ,Continuing at a |
79a6e687 | 4083 | Different Address}) to go to an arbitrary location in your program. |
c906108c SS |
4084 | |
4085 | A typical technique for using stepping is to set a breakpoint | |
79a6e687 | 4086 | (@pxref{Breakpoints, ,Breakpoints; Watchpoints; and Catchpoints}) at the |
c906108c SS |
4087 | beginning of the function or the section of your program where a problem |
4088 | is believed to lie, run your program until it stops at that breakpoint, | |
4089 | and then step through the suspect area, examining the variables that are | |
4090 | interesting, until you see the problem happen. | |
4091 | ||
4092 | @table @code | |
4093 | @kindex step | |
41afff9a | 4094 | @kindex s @r{(@code{step})} |
c906108c SS |
4095 | @item step |
4096 | Continue running your program until control reaches a different source | |
4097 | line, then stop it and return control to @value{GDBN}. This command is | |
4098 | abbreviated @code{s}. | |
4099 | ||
4100 | @quotation | |
4101 | @c "without debugging information" is imprecise; actually "without line | |
4102 | @c numbers in the debugging information". (gcc -g1 has debugging info but | |
4103 | @c not line numbers). But it seems complex to try to make that | |
4104 | @c distinction here. | |
4105 | @emph{Warning:} If you use the @code{step} command while control is | |
4106 | within a function that was compiled without debugging information, | |
4107 | execution proceeds until control reaches a function that does have | |
4108 | debugging information. Likewise, it will not step into a function which | |
4109 | is compiled without debugging information. To step through functions | |
4110 | without debugging information, use the @code{stepi} command, described | |
4111 | below. | |
4112 | @end quotation | |
4113 | ||
4a92d011 EZ |
4114 | The @code{step} command only stops at the first instruction of a source |
4115 | line. This prevents the multiple stops that could otherwise occur in | |
4116 | @code{switch} statements, @code{for} loops, etc. @code{step} continues | |
4117 | to stop if a function that has debugging information is called within | |
4118 | the line. In other words, @code{step} @emph{steps inside} any functions | |
4119 | called within the line. | |
c906108c | 4120 | |
d4f3574e SS |
4121 | Also, the @code{step} command only enters a function if there is line |
4122 | number information for the function. Otherwise it acts like the | |
5d161b24 | 4123 | @code{next} command. This avoids problems when using @code{cc -gl} |
c906108c | 4124 | on MIPS machines. Previously, @code{step} entered subroutines if there |
5d161b24 | 4125 | was any debugging information about the routine. |
c906108c SS |
4126 | |
4127 | @item step @var{count} | |
4128 | Continue running as in @code{step}, but do so @var{count} times. If a | |
7a292a7a SS |
4129 | breakpoint is reached, or a signal not related to stepping occurs before |
4130 | @var{count} steps, stepping stops right away. | |
c906108c SS |
4131 | |
4132 | @kindex next | |
41afff9a | 4133 | @kindex n @r{(@code{next})} |
c906108c SS |
4134 | @item next @r{[}@var{count}@r{]} |
4135 | Continue to the next source line in the current (innermost) stack frame. | |
7a292a7a SS |
4136 | This is similar to @code{step}, but function calls that appear within |
4137 | the line of code are executed without stopping. Execution stops when | |
4138 | control reaches a different line of code at the original stack level | |
4139 | that was executing when you gave the @code{next} command. This command | |
4140 | is abbreviated @code{n}. | |
c906108c SS |
4141 | |
4142 | An argument @var{count} is a repeat count, as for @code{step}. | |
4143 | ||
4144 | ||
4145 | @c FIX ME!! Do we delete this, or is there a way it fits in with | |
4146 | @c the following paragraph? --- Vctoria | |
4147 | @c | |
4148 | @c @code{next} within a function that lacks debugging information acts like | |
4149 | @c @code{step}, but any function calls appearing within the code of the | |
4150 | @c function are executed without stopping. | |
4151 | ||
d4f3574e SS |
4152 | The @code{next} command only stops at the first instruction of a |
4153 | source line. This prevents multiple stops that could otherwise occur in | |
4a92d011 | 4154 | @code{switch} statements, @code{for} loops, etc. |
c906108c | 4155 | |
b90a5f51 CF |
4156 | @kindex set step-mode |
4157 | @item set step-mode | |
4158 | @cindex functions without line info, and stepping | |
4159 | @cindex stepping into functions with no line info | |
4160 | @itemx set step-mode on | |
4a92d011 | 4161 | The @code{set step-mode on} command causes the @code{step} command to |
b90a5f51 CF |
4162 | stop at the first instruction of a function which contains no debug line |
4163 | information rather than stepping over it. | |
4164 | ||
4a92d011 EZ |
4165 | This is useful in cases where you may be interested in inspecting the |
4166 | machine instructions of a function which has no symbolic info and do not | |
4167 | want @value{GDBN} to automatically skip over this function. | |
b90a5f51 CF |
4168 | |
4169 | @item set step-mode off | |
4a92d011 | 4170 | Causes the @code{step} command to step over any functions which contains no |
b90a5f51 CF |
4171 | debug information. This is the default. |
4172 | ||
9c16f35a EZ |
4173 | @item show step-mode |
4174 | Show whether @value{GDBN} will stop in or step over functions without | |
4175 | source line debug information. | |
4176 | ||
c906108c | 4177 | @kindex finish |
8dfa32fc | 4178 | @kindex fin @r{(@code{finish})} |
c906108c SS |
4179 | @item finish |
4180 | Continue running until just after function in the selected stack frame | |
8dfa32fc JB |
4181 | returns. Print the returned value (if any). This command can be |
4182 | abbreviated as @code{fin}. | |
c906108c SS |
4183 | |
4184 | Contrast this with the @code{return} command (@pxref{Returning, | |
79a6e687 | 4185 | ,Returning from a Function}). |
c906108c SS |
4186 | |
4187 | @kindex until | |
41afff9a | 4188 | @kindex u @r{(@code{until})} |
09d4efe1 | 4189 | @cindex run until specified location |
c906108c SS |
4190 | @item until |
4191 | @itemx u | |
4192 | Continue running until a source line past the current line, in the | |
4193 | current stack frame, is reached. This command is used to avoid single | |
4194 | stepping through a loop more than once. It is like the @code{next} | |
4195 | command, except that when @code{until} encounters a jump, it | |
4196 | automatically continues execution until the program counter is greater | |
4197 | than the address of the jump. | |
4198 | ||
4199 | This means that when you reach the end of a loop after single stepping | |
4200 | though it, @code{until} makes your program continue execution until it | |
4201 | exits the loop. In contrast, a @code{next} command at the end of a loop | |
4202 | simply steps back to the beginning of the loop, which forces you to step | |
4203 | through the next iteration. | |
4204 | ||
4205 | @code{until} always stops your program if it attempts to exit the current | |
4206 | stack frame. | |
4207 | ||
4208 | @code{until} may produce somewhat counterintuitive results if the order | |
4209 | of machine code does not match the order of the source lines. For | |
4210 | example, in the following excerpt from a debugging session, the @code{f} | |
4211 | (@code{frame}) command shows that execution is stopped at line | |
4212 | @code{206}; yet when we use @code{until}, we get to line @code{195}: | |
4213 | ||
474c8240 | 4214 | @smallexample |
c906108c SS |
4215 | (@value{GDBP}) f |
4216 | #0 main (argc=4, argv=0xf7fffae8) at m4.c:206 | |
4217 | 206 expand_input(); | |
4218 | (@value{GDBP}) until | |
4219 | 195 for ( ; argc > 0; NEXTARG) @{ | |
474c8240 | 4220 | @end smallexample |
c906108c SS |
4221 | |
4222 | This happened because, for execution efficiency, the compiler had | |
4223 | generated code for the loop closure test at the end, rather than the | |
4224 | start, of the loop---even though the test in a C @code{for}-loop is | |
4225 | written before the body of the loop. The @code{until} command appeared | |
4226 | to step back to the beginning of the loop when it advanced to this | |
4227 | expression; however, it has not really gone to an earlier | |
4228 | statement---not in terms of the actual machine code. | |
4229 | ||
4230 | @code{until} with no argument works by means of single | |
4231 | instruction stepping, and hence is slower than @code{until} with an | |
4232 | argument. | |
4233 | ||
4234 | @item until @var{location} | |
4235 | @itemx u @var{location} | |
4236 | Continue running your program until either the specified location is | |
4237 | reached, or the current stack frame returns. @var{location} is any of | |
2a25a5ba EZ |
4238 | the forms described in @ref{Specify Location}. |
4239 | This form of the command uses temporary breakpoints, and | |
c60eb6f1 EZ |
4240 | hence is quicker than @code{until} without an argument. The specified |
4241 | location is actually reached only if it is in the current frame. This | |
4242 | implies that @code{until} can be used to skip over recursive function | |
4243 | invocations. For instance in the code below, if the current location is | |
4244 | line @code{96}, issuing @code{until 99} will execute the program up to | |
db2e3e2e | 4245 | line @code{99} in the same invocation of factorial, i.e., after the inner |
c60eb6f1 EZ |
4246 | invocations have returned. |
4247 | ||
4248 | @smallexample | |
4249 | 94 int factorial (int value) | |
4250 | 95 @{ | |
4251 | 96 if (value > 1) @{ | |
4252 | 97 value *= factorial (value - 1); | |
4253 | 98 @} | |
4254 | 99 return (value); | |
4255 | 100 @} | |
4256 | @end smallexample | |
4257 | ||
4258 | ||
4259 | @kindex advance @var{location} | |
4260 | @itemx advance @var{location} | |
09d4efe1 | 4261 | Continue running the program up to the given @var{location}. An argument is |
2a25a5ba EZ |
4262 | required, which should be of one of the forms described in |
4263 | @ref{Specify Location}. | |
4264 | Execution will also stop upon exit from the current stack | |
c60eb6f1 EZ |
4265 | frame. This command is similar to @code{until}, but @code{advance} will |
4266 | not skip over recursive function calls, and the target location doesn't | |
4267 | have to be in the same frame as the current one. | |
4268 | ||
c906108c SS |
4269 | |
4270 | @kindex stepi | |
41afff9a | 4271 | @kindex si @r{(@code{stepi})} |
c906108c | 4272 | @item stepi |
96a2c332 | 4273 | @itemx stepi @var{arg} |
c906108c SS |
4274 | @itemx si |
4275 | Execute one machine instruction, then stop and return to the debugger. | |
4276 | ||
4277 | It is often useful to do @samp{display/i $pc} when stepping by machine | |
4278 | instructions. This makes @value{GDBN} automatically display the next | |
4279 | instruction to be executed, each time your program stops. @xref{Auto | |
79a6e687 | 4280 | Display,, Automatic Display}. |
c906108c SS |
4281 | |
4282 | An argument is a repeat count, as in @code{step}. | |
4283 | ||
4284 | @need 750 | |
4285 | @kindex nexti | |
41afff9a | 4286 | @kindex ni @r{(@code{nexti})} |
c906108c | 4287 | @item nexti |
96a2c332 | 4288 | @itemx nexti @var{arg} |
c906108c SS |
4289 | @itemx ni |
4290 | Execute one machine instruction, but if it is a function call, | |
4291 | proceed until the function returns. | |
4292 | ||
4293 | An argument is a repeat count, as in @code{next}. | |
4294 | @end table | |
4295 | ||
6d2ebf8b | 4296 | @node Signals |
c906108c SS |
4297 | @section Signals |
4298 | @cindex signals | |
4299 | ||
4300 | A signal is an asynchronous event that can happen in a program. The | |
4301 | operating system defines the possible kinds of signals, and gives each | |
4302 | kind a name and a number. For example, in Unix @code{SIGINT} is the | |
c8aa23ab | 4303 | signal a program gets when you type an interrupt character (often @kbd{Ctrl-c}); |
c906108c SS |
4304 | @code{SIGSEGV} is the signal a program gets from referencing a place in |
4305 | memory far away from all the areas in use; @code{SIGALRM} occurs when | |
4306 | the alarm clock timer goes off (which happens only if your program has | |
4307 | requested an alarm). | |
4308 | ||
4309 | @cindex fatal signals | |
4310 | Some signals, including @code{SIGALRM}, are a normal part of the | |
4311 | functioning of your program. Others, such as @code{SIGSEGV}, indicate | |
d4f3574e | 4312 | errors; these signals are @dfn{fatal} (they kill your program immediately) if the |
c906108c SS |
4313 | program has not specified in advance some other way to handle the signal. |
4314 | @code{SIGINT} does not indicate an error in your program, but it is normally | |
4315 | fatal so it can carry out the purpose of the interrupt: to kill the program. | |
4316 | ||
4317 | @value{GDBN} has the ability to detect any occurrence of a signal in your | |
4318 | program. You can tell @value{GDBN} in advance what to do for each kind of | |
4319 | signal. | |
4320 | ||
4321 | @cindex handling signals | |
24f93129 EZ |
4322 | Normally, @value{GDBN} is set up to let the non-erroneous signals like |
4323 | @code{SIGALRM} be silently passed to your program | |
4324 | (so as not to interfere with their role in the program's functioning) | |
c906108c SS |
4325 | but to stop your program immediately whenever an error signal happens. |
4326 | You can change these settings with the @code{handle} command. | |
4327 | ||
4328 | @table @code | |
4329 | @kindex info signals | |
09d4efe1 | 4330 | @kindex info handle |
c906108c | 4331 | @item info signals |
96a2c332 | 4332 | @itemx info handle |
c906108c SS |
4333 | Print a table of all the kinds of signals and how @value{GDBN} has been told to |
4334 | handle each one. You can use this to see the signal numbers of all | |
4335 | the defined types of signals. | |
4336 | ||
45ac1734 EZ |
4337 | @item info signals @var{sig} |
4338 | Similar, but print information only about the specified signal number. | |
4339 | ||
d4f3574e | 4340 | @code{info handle} is an alias for @code{info signals}. |
c906108c SS |
4341 | |
4342 | @kindex handle | |
45ac1734 | 4343 | @item handle @var{signal} @r{[}@var{keywords}@dots{}@r{]} |
5ece1a18 EZ |
4344 | Change the way @value{GDBN} handles signal @var{signal}. @var{signal} |
4345 | can be the number of a signal or its name (with or without the | |
24f93129 | 4346 | @samp{SIG} at the beginning); a list of signal numbers of the form |
5ece1a18 | 4347 | @samp{@var{low}-@var{high}}; or the word @samp{all}, meaning all the |
45ac1734 EZ |
4348 | known signals. Optional arguments @var{keywords}, described below, |
4349 | say what change to make. | |
c906108c SS |
4350 | @end table |
4351 | ||
4352 | @c @group | |
4353 | The keywords allowed by the @code{handle} command can be abbreviated. | |
4354 | Their full names are: | |
4355 | ||
4356 | @table @code | |
4357 | @item nostop | |
4358 | @value{GDBN} should not stop your program when this signal happens. It may | |
4359 | still print a message telling you that the signal has come in. | |
4360 | ||
4361 | @item stop | |
4362 | @value{GDBN} should stop your program when this signal happens. This implies | |
4363 | the @code{print} keyword as well. | |
4364 | ||
4365 | @item print | |
4366 | @value{GDBN} should print a message when this signal happens. | |
4367 | ||
4368 | @item noprint | |
4369 | @value{GDBN} should not mention the occurrence of the signal at all. This | |
4370 | implies the @code{nostop} keyword as well. | |
4371 | ||
4372 | @item pass | |
5ece1a18 | 4373 | @itemx noignore |
c906108c SS |
4374 | @value{GDBN} should allow your program to see this signal; your program |
4375 | can handle the signal, or else it may terminate if the signal is fatal | |
5ece1a18 | 4376 | and not handled. @code{pass} and @code{noignore} are synonyms. |
c906108c SS |
4377 | |
4378 | @item nopass | |
5ece1a18 | 4379 | @itemx ignore |
c906108c | 4380 | @value{GDBN} should not allow your program to see this signal. |
5ece1a18 | 4381 | @code{nopass} and @code{ignore} are synonyms. |
c906108c SS |
4382 | @end table |
4383 | @c @end group | |
4384 | ||
d4f3574e SS |
4385 | When a signal stops your program, the signal is not visible to the |
4386 | program until you | |
c906108c SS |
4387 | continue. Your program sees the signal then, if @code{pass} is in |
4388 | effect for the signal in question @emph{at that time}. In other words, | |
4389 | after @value{GDBN} reports a signal, you can use the @code{handle} | |
4390 | command with @code{pass} or @code{nopass} to control whether your | |
4391 | program sees that signal when you continue. | |
4392 | ||
24f93129 EZ |
4393 | The default is set to @code{nostop}, @code{noprint}, @code{pass} for |
4394 | non-erroneous signals such as @code{SIGALRM}, @code{SIGWINCH} and | |
4395 | @code{SIGCHLD}, and to @code{stop}, @code{print}, @code{pass} for the | |
4396 | erroneous signals. | |
4397 | ||
c906108c SS |
4398 | You can also use the @code{signal} command to prevent your program from |
4399 | seeing a signal, or cause it to see a signal it normally would not see, | |
4400 | or to give it any signal at any time. For example, if your program stopped | |
4401 | due to some sort of memory reference error, you might store correct | |
4402 | values into the erroneous variables and continue, hoping to see more | |
4403 | execution; but your program would probably terminate immediately as | |
4404 | a result of the fatal signal once it saw the signal. To prevent this, | |
4405 | you can continue with @samp{signal 0}. @xref{Signaling, ,Giving your | |
79a6e687 | 4406 | Program a Signal}. |
c906108c | 4407 | |
6d2ebf8b | 4408 | @node Thread Stops |
79a6e687 | 4409 | @section Stopping and Starting Multi-thread Programs |
c906108c SS |
4410 | |
4411 | When your program has multiple threads (@pxref{Threads,, Debugging | |
79a6e687 | 4412 | Programs with Multiple Threads}), you can choose whether to set |
c906108c SS |
4413 | breakpoints on all threads, or on a particular thread. |
4414 | ||
4415 | @table @code | |
4416 | @cindex breakpoints and threads | |
4417 | @cindex thread breakpoints | |
4418 | @kindex break @dots{} thread @var{threadno} | |
4419 | @item break @var{linespec} thread @var{threadno} | |
4420 | @itemx break @var{linespec} thread @var{threadno} if @dots{} | |
4421 | @var{linespec} specifies source lines; there are several ways of | |
2a25a5ba EZ |
4422 | writing them (@pxref{Specify Location}), but the effect is always to |
4423 | specify some source line. | |
c906108c SS |
4424 | |
4425 | Use the qualifier @samp{thread @var{threadno}} with a breakpoint command | |
4426 | to specify that you only want @value{GDBN} to stop the program when a | |
4427 | particular thread reaches this breakpoint. @var{threadno} is one of the | |
4428 | numeric thread identifiers assigned by @value{GDBN}, shown in the first | |
4429 | column of the @samp{info threads} display. | |
4430 | ||
4431 | If you do not specify @samp{thread @var{threadno}} when you set a | |
4432 | breakpoint, the breakpoint applies to @emph{all} threads of your | |
4433 | program. | |
4434 | ||
4435 | You can use the @code{thread} qualifier on conditional breakpoints as | |
4436 | well; in this case, place @samp{thread @var{threadno}} before the | |
4437 | breakpoint condition, like this: | |
4438 | ||
4439 | @smallexample | |
2df3850c | 4440 | (@value{GDBP}) break frik.c:13 thread 28 if bartab > lim |
c906108c SS |
4441 | @end smallexample |
4442 | ||
4443 | @end table | |
4444 | ||
4445 | @cindex stopped threads | |
4446 | @cindex threads, stopped | |
4447 | Whenever your program stops under @value{GDBN} for any reason, | |
4448 | @emph{all} threads of execution stop, not just the current thread. This | |
4449 | allows you to examine the overall state of the program, including | |
4450 | switching between threads, without worrying that things may change | |
4451 | underfoot. | |
4452 | ||
36d86913 MC |
4453 | @cindex thread breakpoints and system calls |
4454 | @cindex system calls and thread breakpoints | |
4455 | @cindex premature return from system calls | |
4456 | There is an unfortunate side effect. If one thread stops for a | |
4457 | breakpoint, or for some other reason, and another thread is blocked in a | |
4458 | system call, then the system call may return prematurely. This is a | |
4459 | consequence of the interaction between multiple threads and the signals | |
4460 | that @value{GDBN} uses to implement breakpoints and other events that | |
4461 | stop execution. | |
4462 | ||
4463 | To handle this problem, your program should check the return value of | |
4464 | each system call and react appropriately. This is good programming | |
4465 | style anyways. | |
4466 | ||
4467 | For example, do not write code like this: | |
4468 | ||
4469 | @smallexample | |
4470 | sleep (10); | |
4471 | @end smallexample | |
4472 | ||
4473 | The call to @code{sleep} will return early if a different thread stops | |
4474 | at a breakpoint or for some other reason. | |
4475 | ||
4476 | Instead, write this: | |
4477 | ||
4478 | @smallexample | |
4479 | int unslept = 10; | |
4480 | while (unslept > 0) | |
4481 | unslept = sleep (unslept); | |
4482 | @end smallexample | |
4483 | ||
4484 | A system call is allowed to return early, so the system is still | |
4485 | conforming to its specification. But @value{GDBN} does cause your | |
4486 | multi-threaded program to behave differently than it would without | |
4487 | @value{GDBN}. | |
4488 | ||
4489 | Also, @value{GDBN} uses internal breakpoints in the thread library to | |
4490 | monitor certain events such as thread creation and thread destruction. | |
4491 | When such an event happens, a system call in another thread may return | |
4492 | prematurely, even though your program does not appear to stop. | |
4493 | ||
c906108c SS |
4494 | @cindex continuing threads |
4495 | @cindex threads, continuing | |
4496 | Conversely, whenever you restart the program, @emph{all} threads start | |
4497 | executing. @emph{This is true even when single-stepping} with commands | |
5d161b24 | 4498 | like @code{step} or @code{next}. |
c906108c SS |
4499 | |
4500 | In particular, @value{GDBN} cannot single-step all threads in lockstep. | |
4501 | Since thread scheduling is up to your debugging target's operating | |
4502 | system (not controlled by @value{GDBN}), other threads may | |
4503 | execute more than one statement while the current thread completes a | |
4504 | single step. Moreover, in general other threads stop in the middle of a | |
4505 | statement, rather than at a clean statement boundary, when the program | |
4506 | stops. | |
4507 | ||
4508 | You might even find your program stopped in another thread after | |
4509 | continuing or even single-stepping. This happens whenever some other | |
4510 | thread runs into a breakpoint, a signal, or an exception before the | |
4511 | first thread completes whatever you requested. | |
4512 | ||
4513 | On some OSes, you can lock the OS scheduler and thus allow only a single | |
4514 | thread to run. | |
4515 | ||
4516 | @table @code | |
4517 | @item set scheduler-locking @var{mode} | |
9c16f35a EZ |
4518 | @cindex scheduler locking mode |
4519 | @cindex lock scheduler | |
c906108c SS |
4520 | Set the scheduler locking mode. If it is @code{off}, then there is no |
4521 | locking and any thread may run at any time. If @code{on}, then only the | |
4522 | current thread may run when the inferior is resumed. The @code{step} | |
4523 | mode optimizes for single-stepping. It stops other threads from | |
4524 | ``seizing the prompt'' by preempting the current thread while you are | |
4525 | stepping. Other threads will only rarely (or never) get a chance to run | |
d4f3574e | 4526 | when you step. They are more likely to run when you @samp{next} over a |
c906108c | 4527 | function call, and they are completely free to run when you use commands |
d4f3574e | 4528 | like @samp{continue}, @samp{until}, or @samp{finish}. However, unless another |
c906108c | 4529 | thread hits a breakpoint during its timeslice, they will never steal the |
2df3850c | 4530 | @value{GDBN} prompt away from the thread that you are debugging. |
c906108c SS |
4531 | |
4532 | @item show scheduler-locking | |
4533 | Display the current scheduler locking mode. | |
4534 | @end table | |
4535 | ||
c906108c | 4536 | |
6d2ebf8b | 4537 | @node Stack |
c906108c SS |
4538 | @chapter Examining the Stack |
4539 | ||
4540 | When your program has stopped, the first thing you need to know is where it | |
4541 | stopped and how it got there. | |
4542 | ||
4543 | @cindex call stack | |
5d161b24 DB |
4544 | Each time your program performs a function call, information about the call |
4545 | is generated. | |
4546 | That information includes the location of the call in your program, | |
4547 | the arguments of the call, | |
c906108c | 4548 | and the local variables of the function being called. |
5d161b24 | 4549 | The information is saved in a block of data called a @dfn{stack frame}. |
c906108c SS |
4550 | The stack frames are allocated in a region of memory called the @dfn{call |
4551 | stack}. | |
4552 | ||
4553 | When your program stops, the @value{GDBN} commands for examining the | |
4554 | stack allow you to see all of this information. | |
4555 | ||
4556 | @cindex selected frame | |
4557 | One of the stack frames is @dfn{selected} by @value{GDBN} and many | |
4558 | @value{GDBN} commands refer implicitly to the selected frame. In | |
4559 | particular, whenever you ask @value{GDBN} for the value of a variable in | |
4560 | your program, the value is found in the selected frame. There are | |
4561 | special @value{GDBN} commands to select whichever frame you are | |
79a6e687 | 4562 | interested in. @xref{Selection, ,Selecting a Frame}. |
c906108c SS |
4563 | |
4564 | When your program stops, @value{GDBN} automatically selects the | |
5d161b24 | 4565 | currently executing frame and describes it briefly, similar to the |
79a6e687 | 4566 | @code{frame} command (@pxref{Frame Info, ,Information about a Frame}). |
c906108c SS |
4567 | |
4568 | @menu | |
4569 | * Frames:: Stack frames | |
4570 | * Backtrace:: Backtraces | |
4571 | * Selection:: Selecting a frame | |
4572 | * Frame Info:: Information on a frame | |
c906108c SS |
4573 | |
4574 | @end menu | |
4575 | ||
6d2ebf8b | 4576 | @node Frames |
79a6e687 | 4577 | @section Stack Frames |
c906108c | 4578 | |
d4f3574e | 4579 | @cindex frame, definition |
c906108c SS |
4580 | @cindex stack frame |
4581 | The call stack is divided up into contiguous pieces called @dfn{stack | |
4582 | frames}, or @dfn{frames} for short; each frame is the data associated | |
4583 | with one call to one function. The frame contains the arguments given | |
4584 | to the function, the function's local variables, and the address at | |
4585 | which the function is executing. | |
4586 | ||
4587 | @cindex initial frame | |
4588 | @cindex outermost frame | |
4589 | @cindex innermost frame | |
4590 | When your program is started, the stack has only one frame, that of the | |
4591 | function @code{main}. This is called the @dfn{initial} frame or the | |
4592 | @dfn{outermost} frame. Each time a function is called, a new frame is | |
4593 | made. Each time a function returns, the frame for that function invocation | |
4594 | is eliminated. If a function is recursive, there can be many frames for | |
4595 | the same function. The frame for the function in which execution is | |
4596 | actually occurring is called the @dfn{innermost} frame. This is the most | |
4597 | recently created of all the stack frames that still exist. | |
4598 | ||
4599 | @cindex frame pointer | |
4600 | Inside your program, stack frames are identified by their addresses. A | |
4601 | stack frame consists of many bytes, each of which has its own address; each | |
4602 | kind of computer has a convention for choosing one byte whose | |
4603 | address serves as the address of the frame. Usually this address is kept | |
e09f16f9 EZ |
4604 | in a register called the @dfn{frame pointer register} |
4605 | (@pxref{Registers, $fp}) while execution is going on in that frame. | |
c906108c SS |
4606 | |
4607 | @cindex frame number | |
4608 | @value{GDBN} assigns numbers to all existing stack frames, starting with | |
4609 | zero for the innermost frame, one for the frame that called it, | |
4610 | and so on upward. These numbers do not really exist in your program; | |
4611 | they are assigned by @value{GDBN} to give you a way of designating stack | |
4612 | frames in @value{GDBN} commands. | |
4613 | ||
6d2ebf8b SS |
4614 | @c The -fomit-frame-pointer below perennially causes hbox overflow |
4615 | @c underflow problems. | |
c906108c SS |
4616 | @cindex frameless execution |
4617 | Some compilers provide a way to compile functions so that they operate | |
e22ea452 | 4618 | without stack frames. (For example, the @value{NGCC} option |
474c8240 | 4619 | @smallexample |
6d2ebf8b | 4620 | @samp{-fomit-frame-pointer} |
474c8240 | 4621 | @end smallexample |
6d2ebf8b | 4622 | generates functions without a frame.) |
c906108c SS |
4623 | This is occasionally done with heavily used library functions to save |
4624 | the frame setup time. @value{GDBN} has limited facilities for dealing | |
4625 | with these function invocations. If the innermost function invocation | |
4626 | has no stack frame, @value{GDBN} nevertheless regards it as though | |
4627 | it had a separate frame, which is numbered zero as usual, allowing | |
4628 | correct tracing of the function call chain. However, @value{GDBN} has | |
4629 | no provision for frameless functions elsewhere in the stack. | |
4630 | ||
4631 | @table @code | |
d4f3574e | 4632 | @kindex frame@r{, command} |
41afff9a | 4633 | @cindex current stack frame |
c906108c | 4634 | @item frame @var{args} |
5d161b24 | 4635 | The @code{frame} command allows you to move from one stack frame to another, |
c906108c | 4636 | and to print the stack frame you select. @var{args} may be either the |
5d161b24 DB |
4637 | address of the frame or the stack frame number. Without an argument, |
4638 | @code{frame} prints the current stack frame. | |
c906108c SS |
4639 | |
4640 | @kindex select-frame | |
41afff9a | 4641 | @cindex selecting frame silently |
c906108c SS |
4642 | @item select-frame |
4643 | The @code{select-frame} command allows you to move from one stack frame | |
4644 | to another without printing the frame. This is the silent version of | |
4645 | @code{frame}. | |
4646 | @end table | |
4647 | ||
6d2ebf8b | 4648 | @node Backtrace |
c906108c SS |
4649 | @section Backtraces |
4650 | ||
09d4efe1 EZ |
4651 | @cindex traceback |
4652 | @cindex call stack traces | |
c906108c SS |
4653 | A backtrace is a summary of how your program got where it is. It shows one |
4654 | line per frame, for many frames, starting with the currently executing | |
4655 | frame (frame zero), followed by its caller (frame one), and on up the | |
4656 | stack. | |
4657 | ||
4658 | @table @code | |
4659 | @kindex backtrace | |
41afff9a | 4660 | @kindex bt @r{(@code{backtrace})} |
c906108c SS |
4661 | @item backtrace |
4662 | @itemx bt | |
4663 | Print a backtrace of the entire stack: one line per frame for all | |
4664 | frames in the stack. | |
4665 | ||
4666 | You can stop the backtrace at any time by typing the system interrupt | |
c8aa23ab | 4667 | character, normally @kbd{Ctrl-c}. |
c906108c SS |
4668 | |
4669 | @item backtrace @var{n} | |
4670 | @itemx bt @var{n} | |
4671 | Similar, but print only the innermost @var{n} frames. | |
4672 | ||
4673 | @item backtrace -@var{n} | |
4674 | @itemx bt -@var{n} | |
4675 | Similar, but print only the outermost @var{n} frames. | |
0f061b69 NR |
4676 | |
4677 | @item backtrace full | |
0f061b69 | 4678 | @itemx bt full |
dd74f6ae NR |
4679 | @itemx bt full @var{n} |
4680 | @itemx bt full -@var{n} | |
e7109c7e | 4681 | Print the values of the local variables also. @var{n} specifies the |
286ba84d | 4682 | number of frames to print, as described above. |
c906108c SS |
4683 | @end table |
4684 | ||
4685 | @kindex where | |
4686 | @kindex info stack | |
c906108c SS |
4687 | The names @code{where} and @code{info stack} (abbreviated @code{info s}) |
4688 | are additional aliases for @code{backtrace}. | |
4689 | ||
839c27b7 EZ |
4690 | @cindex multiple threads, backtrace |
4691 | In a multi-threaded program, @value{GDBN} by default shows the | |
4692 | backtrace only for the current thread. To display the backtrace for | |
4693 | several or all of the threads, use the command @code{thread apply} | |
4694 | (@pxref{Threads, thread apply}). For example, if you type @kbd{thread | |
4695 | apply all backtrace}, @value{GDBN} will display the backtrace for all | |
4696 | the threads; this is handy when you debug a core dump of a | |
4697 | multi-threaded program. | |
4698 | ||
c906108c SS |
4699 | Each line in the backtrace shows the frame number and the function name. |
4700 | The program counter value is also shown---unless you use @code{set | |
4701 | print address off}. The backtrace also shows the source file name and | |
4702 | line number, as well as the arguments to the function. The program | |
4703 | counter value is omitted if it is at the beginning of the code for that | |
4704 | line number. | |
4705 | ||
4706 | Here is an example of a backtrace. It was made with the command | |
4707 | @samp{bt 3}, so it shows the innermost three frames. | |
4708 | ||
4709 | @smallexample | |
4710 | @group | |
5d161b24 | 4711 | #0 m4_traceon (obs=0x24eb0, argc=1, argv=0x2b8c8) |
c906108c SS |
4712 | at builtin.c:993 |
4713 | #1 0x6e38 in expand_macro (sym=0x2b600) at macro.c:242 | |
4714 | #2 0x6840 in expand_token (obs=0x0, t=177664, td=0xf7fffb08) | |
4715 | at macro.c:71 | |
4716 | (More stack frames follow...) | |
4717 | @end group | |
4718 | @end smallexample | |
4719 | ||
4720 | @noindent | |
4721 | The display for frame zero does not begin with a program counter | |
4722 | value, indicating that your program has stopped at the beginning of the | |
4723 | code for line @code{993} of @code{builtin.c}. | |
4724 | ||
18999be5 EZ |
4725 | @cindex value optimized out, in backtrace |
4726 | @cindex function call arguments, optimized out | |
4727 | If your program was compiled with optimizations, some compilers will | |
4728 | optimize away arguments passed to functions if those arguments are | |
4729 | never used after the call. Such optimizations generate code that | |
4730 | passes arguments through registers, but doesn't store those arguments | |
4731 | in the stack frame. @value{GDBN} has no way of displaying such | |
4732 | arguments in stack frames other than the innermost one. Here's what | |
4733 | such a backtrace might look like: | |
4734 | ||
4735 | @smallexample | |
4736 | @group | |
4737 | #0 m4_traceon (obs=0x24eb0, argc=1, argv=0x2b8c8) | |
4738 | at builtin.c:993 | |
4739 | #1 0x6e38 in expand_macro (sym=<value optimized out>) at macro.c:242 | |
4740 | #2 0x6840 in expand_token (obs=0x0, t=<value optimized out>, td=0xf7fffb08) | |
4741 | at macro.c:71 | |
4742 | (More stack frames follow...) | |
4743 | @end group | |
4744 | @end smallexample | |
4745 | ||
4746 | @noindent | |
4747 | The values of arguments that were not saved in their stack frames are | |
4748 | shown as @samp{<value optimized out>}. | |
4749 | ||
4750 | If you need to display the values of such optimized-out arguments, | |
4751 | either deduce that from other variables whose values depend on the one | |
4752 | you are interested in, or recompile without optimizations. | |
4753 | ||
a8f24a35 EZ |
4754 | @cindex backtrace beyond @code{main} function |
4755 | @cindex program entry point | |
4756 | @cindex startup code, and backtrace | |
25d29d70 AC |
4757 | Most programs have a standard user entry point---a place where system |
4758 | libraries and startup code transition into user code. For C this is | |
d416eeec EZ |
4759 | @code{main}@footnote{ |
4760 | Note that embedded programs (the so-called ``free-standing'' | |
4761 | environment) are not required to have a @code{main} function as the | |
4762 | entry point. They could even have multiple entry points.}. | |
4763 | When @value{GDBN} finds the entry function in a backtrace | |
25d29d70 AC |
4764 | it will terminate the backtrace, to avoid tracing into highly |
4765 | system-specific (and generally uninteresting) code. | |
4766 | ||
4767 | If you need to examine the startup code, or limit the number of levels | |
4768 | in a backtrace, you can change this behavior: | |
95f90d25 DJ |
4769 | |
4770 | @table @code | |
25d29d70 AC |
4771 | @item set backtrace past-main |
4772 | @itemx set backtrace past-main on | |
4644b6e3 | 4773 | @kindex set backtrace |
25d29d70 AC |
4774 | Backtraces will continue past the user entry point. |
4775 | ||
4776 | @item set backtrace past-main off | |
95f90d25 DJ |
4777 | Backtraces will stop when they encounter the user entry point. This is the |
4778 | default. | |
4779 | ||
25d29d70 | 4780 | @item show backtrace past-main |
4644b6e3 | 4781 | @kindex show backtrace |
25d29d70 AC |
4782 | Display the current user entry point backtrace policy. |
4783 | ||
2315ffec RC |
4784 | @item set backtrace past-entry |
4785 | @itemx set backtrace past-entry on | |
a8f24a35 | 4786 | Backtraces will continue past the internal entry point of an application. |
2315ffec RC |
4787 | This entry point is encoded by the linker when the application is built, |
4788 | and is likely before the user entry point @code{main} (or equivalent) is called. | |
4789 | ||
4790 | @item set backtrace past-entry off | |
d3e8051b | 4791 | Backtraces will stop when they encounter the internal entry point of an |
2315ffec RC |
4792 | application. This is the default. |
4793 | ||
4794 | @item show backtrace past-entry | |
4795 | Display the current internal entry point backtrace policy. | |
4796 | ||
25d29d70 AC |
4797 | @item set backtrace limit @var{n} |
4798 | @itemx set backtrace limit 0 | |
4799 | @cindex backtrace limit | |
4800 | Limit the backtrace to @var{n} levels. A value of zero means | |
4801 | unlimited. | |
95f90d25 | 4802 | |
25d29d70 AC |
4803 | @item show backtrace limit |
4804 | Display the current limit on backtrace levels. | |
95f90d25 DJ |
4805 | @end table |
4806 | ||
6d2ebf8b | 4807 | @node Selection |
79a6e687 | 4808 | @section Selecting a Frame |
c906108c SS |
4809 | |
4810 | Most commands for examining the stack and other data in your program work on | |
4811 | whichever stack frame is selected at the moment. Here are the commands for | |
4812 | selecting a stack frame; all of them finish by printing a brief description | |
4813 | of the stack frame just selected. | |
4814 | ||
4815 | @table @code | |
d4f3574e | 4816 | @kindex frame@r{, selecting} |
41afff9a | 4817 | @kindex f @r{(@code{frame})} |
c906108c SS |
4818 | @item frame @var{n} |
4819 | @itemx f @var{n} | |
4820 | Select frame number @var{n}. Recall that frame zero is the innermost | |
4821 | (currently executing) frame, frame one is the frame that called the | |
4822 | innermost one, and so on. The highest-numbered frame is the one for | |
4823 | @code{main}. | |
4824 | ||
4825 | @item frame @var{addr} | |
4826 | @itemx f @var{addr} | |
4827 | Select the frame at address @var{addr}. This is useful mainly if the | |
4828 | chaining of stack frames has been damaged by a bug, making it | |
4829 | impossible for @value{GDBN} to assign numbers properly to all frames. In | |
4830 | addition, this can be useful when your program has multiple stacks and | |
4831 | switches between them. | |
4832 | ||
c906108c SS |
4833 | On the SPARC architecture, @code{frame} needs two addresses to |
4834 | select an arbitrary frame: a frame pointer and a stack pointer. | |
4835 | ||
4836 | On the MIPS and Alpha architecture, it needs two addresses: a stack | |
4837 | pointer and a program counter. | |
4838 | ||
4839 | On the 29k architecture, it needs three addresses: a register stack | |
4840 | pointer, a program counter, and a memory stack pointer. | |
c906108c SS |
4841 | |
4842 | @kindex up | |
4843 | @item up @var{n} | |
4844 | Move @var{n} frames up the stack. For positive numbers @var{n}, this | |
4845 | advances toward the outermost frame, to higher frame numbers, to frames | |
4846 | that have existed longer. @var{n} defaults to one. | |
4847 | ||
4848 | @kindex down | |
41afff9a | 4849 | @kindex do @r{(@code{down})} |
c906108c SS |
4850 | @item down @var{n} |
4851 | Move @var{n} frames down the stack. For positive numbers @var{n}, this | |
4852 | advances toward the innermost frame, to lower frame numbers, to frames | |
4853 | that were created more recently. @var{n} defaults to one. You may | |
4854 | abbreviate @code{down} as @code{do}. | |
4855 | @end table | |
4856 | ||
4857 | All of these commands end by printing two lines of output describing the | |
4858 | frame. The first line shows the frame number, the function name, the | |
4859 | arguments, and the source file and line number of execution in that | |
5d161b24 | 4860 | frame. The second line shows the text of that source line. |
c906108c SS |
4861 | |
4862 | @need 1000 | |
4863 | For example: | |
4864 | ||
4865 | @smallexample | |
4866 | @group | |
4867 | (@value{GDBP}) up | |
4868 | #1 0x22f0 in main (argc=1, argv=0xf7fffbf4, env=0xf7fffbfc) | |
4869 | at env.c:10 | |
4870 | 10 read_input_file (argv[i]); | |
4871 | @end group | |
4872 | @end smallexample | |
4873 | ||
4874 | After such a printout, the @code{list} command with no arguments | |
4875 | prints ten lines centered on the point of execution in the frame. | |
87885426 FN |
4876 | You can also edit the program at the point of execution with your favorite |
4877 | editing program by typing @code{edit}. | |
79a6e687 | 4878 | @xref{List, ,Printing Source Lines}, |
87885426 | 4879 | for details. |
c906108c SS |
4880 | |
4881 | @table @code | |
4882 | @kindex down-silently | |
4883 | @kindex up-silently | |
4884 | @item up-silently @var{n} | |
4885 | @itemx down-silently @var{n} | |
4886 | These two commands are variants of @code{up} and @code{down}, | |
4887 | respectively; they differ in that they do their work silently, without | |
4888 | causing display of the new frame. They are intended primarily for use | |
4889 | in @value{GDBN} command scripts, where the output might be unnecessary and | |
4890 | distracting. | |
4891 | @end table | |
4892 | ||
6d2ebf8b | 4893 | @node Frame Info |
79a6e687 | 4894 | @section Information About a Frame |
c906108c SS |
4895 | |
4896 | There are several other commands to print information about the selected | |
4897 | stack frame. | |
4898 | ||
4899 | @table @code | |
4900 | @item frame | |
4901 | @itemx f | |
4902 | When used without any argument, this command does not change which | |
4903 | frame is selected, but prints a brief description of the currently | |
4904 | selected stack frame. It can be abbreviated @code{f}. With an | |
4905 | argument, this command is used to select a stack frame. | |
79a6e687 | 4906 | @xref{Selection, ,Selecting a Frame}. |
c906108c SS |
4907 | |
4908 | @kindex info frame | |
41afff9a | 4909 | @kindex info f @r{(@code{info frame})} |
c906108c SS |
4910 | @item info frame |
4911 | @itemx info f | |
4912 | This command prints a verbose description of the selected stack frame, | |
4913 | including: | |
4914 | ||
4915 | @itemize @bullet | |
5d161b24 DB |
4916 | @item |
4917 | the address of the frame | |
c906108c SS |
4918 | @item |
4919 | the address of the next frame down (called by this frame) | |
4920 | @item | |
4921 | the address of the next frame up (caller of this frame) | |
4922 | @item | |
4923 | the language in which the source code corresponding to this frame is written | |
4924 | @item | |
4925 | the address of the frame's arguments | |
4926 | @item | |
d4f3574e SS |
4927 | the address of the frame's local variables |
4928 | @item | |
c906108c SS |
4929 | the program counter saved in it (the address of execution in the caller frame) |
4930 | @item | |
4931 | which registers were saved in the frame | |
4932 | @end itemize | |
4933 | ||
4934 | @noindent The verbose description is useful when | |
4935 | something has gone wrong that has made the stack format fail to fit | |
4936 | the usual conventions. | |
4937 | ||
4938 | @item info frame @var{addr} | |
4939 | @itemx info f @var{addr} | |
4940 | Print a verbose description of the frame at address @var{addr}, without | |
4941 | selecting that frame. The selected frame remains unchanged by this | |
4942 | command. This requires the same kind of address (more than one for some | |
4943 | architectures) that you specify in the @code{frame} command. | |
79a6e687 | 4944 | @xref{Selection, ,Selecting a Frame}. |
c906108c SS |
4945 | |
4946 | @kindex info args | |
4947 | @item info args | |
4948 | Print the arguments of the selected frame, each on a separate line. | |
4949 | ||
4950 | @item info locals | |
4951 | @kindex info locals | |
4952 | Print the local variables of the selected frame, each on a separate | |
4953 | line. These are all variables (declared either static or automatic) | |
4954 | accessible at the point of execution of the selected frame. | |
4955 | ||
c906108c | 4956 | @kindex info catch |
d4f3574e SS |
4957 | @cindex catch exceptions, list active handlers |
4958 | @cindex exception handlers, how to list | |
c906108c SS |
4959 | @item info catch |
4960 | Print a list of all the exception handlers that are active in the | |
4961 | current stack frame at the current point of execution. To see other | |
4962 | exception handlers, visit the associated frame (using the @code{up}, | |
4963 | @code{down}, or @code{frame} commands); then type @code{info catch}. | |
79a6e687 | 4964 | @xref{Set Catchpoints, , Setting Catchpoints}. |
53a5351d | 4965 | |
c906108c SS |
4966 | @end table |
4967 | ||
c906108c | 4968 | |
6d2ebf8b | 4969 | @node Source |
c906108c SS |
4970 | @chapter Examining Source Files |
4971 | ||
4972 | @value{GDBN} can print parts of your program's source, since the debugging | |
4973 | information recorded in the program tells @value{GDBN} what source files were | |
4974 | used to build it. When your program stops, @value{GDBN} spontaneously prints | |
4975 | the line where it stopped. Likewise, when you select a stack frame | |
79a6e687 | 4976 | (@pxref{Selection, ,Selecting a Frame}), @value{GDBN} prints the line where |
c906108c SS |
4977 | execution in that frame has stopped. You can print other portions of |
4978 | source files by explicit command. | |
4979 | ||
7a292a7a | 4980 | If you use @value{GDBN} through its @sc{gnu} Emacs interface, you may |
d4f3574e | 4981 | prefer to use Emacs facilities to view source; see @ref{Emacs, ,Using |
7a292a7a | 4982 | @value{GDBN} under @sc{gnu} Emacs}. |
c906108c SS |
4983 | |
4984 | @menu | |
4985 | * List:: Printing source lines | |
2a25a5ba | 4986 | * Specify Location:: How to specify code locations |
87885426 | 4987 | * Edit:: Editing source files |
c906108c | 4988 | * Search:: Searching source files |
c906108c SS |
4989 | * Source Path:: Specifying source directories |
4990 | * Machine Code:: Source and machine code | |
4991 | @end menu | |
4992 | ||
6d2ebf8b | 4993 | @node List |
79a6e687 | 4994 | @section Printing Source Lines |
c906108c SS |
4995 | |
4996 | @kindex list | |
41afff9a | 4997 | @kindex l @r{(@code{list})} |
c906108c | 4998 | To print lines from a source file, use the @code{list} command |
5d161b24 | 4999 | (abbreviated @code{l}). By default, ten lines are printed. |
2a25a5ba EZ |
5000 | There are several ways to specify what part of the file you want to |
5001 | print; see @ref{Specify Location}, for the full list. | |
c906108c SS |
5002 | |
5003 | Here are the forms of the @code{list} command most commonly used: | |
5004 | ||
5005 | @table @code | |
5006 | @item list @var{linenum} | |
5007 | Print lines centered around line number @var{linenum} in the | |
5008 | current source file. | |
5009 | ||
5010 | @item list @var{function} | |
5011 | Print lines centered around the beginning of function | |
5012 | @var{function}. | |
5013 | ||
5014 | @item list | |
5015 | Print more lines. If the last lines printed were printed with a | |
5016 | @code{list} command, this prints lines following the last lines | |
5017 | printed; however, if the last line printed was a solitary line printed | |
5018 | as part of displaying a stack frame (@pxref{Stack, ,Examining the | |
5019 | Stack}), this prints lines centered around that line. | |
5020 | ||
5021 | @item list - | |
5022 | Print lines just before the lines last printed. | |
5023 | @end table | |
5024 | ||
9c16f35a | 5025 | @cindex @code{list}, how many lines to display |
c906108c SS |
5026 | By default, @value{GDBN} prints ten source lines with any of these forms of |
5027 | the @code{list} command. You can change this using @code{set listsize}: | |
5028 | ||
5029 | @table @code | |
5030 | @kindex set listsize | |
5031 | @item set listsize @var{count} | |
5032 | Make the @code{list} command display @var{count} source lines (unless | |
5033 | the @code{list} argument explicitly specifies some other number). | |
5034 | ||
5035 | @kindex show listsize | |
5036 | @item show listsize | |
5037 | Display the number of lines that @code{list} prints. | |
5038 | @end table | |
5039 | ||
5040 | Repeating a @code{list} command with @key{RET} discards the argument, | |
5041 | so it is equivalent to typing just @code{list}. This is more useful | |
5042 | than listing the same lines again. An exception is made for an | |
5043 | argument of @samp{-}; that argument is preserved in repetition so that | |
5044 | each repetition moves up in the source file. | |
5045 | ||
c906108c SS |
5046 | In general, the @code{list} command expects you to supply zero, one or two |
5047 | @dfn{linespecs}. Linespecs specify source lines; there are several ways | |
2a25a5ba EZ |
5048 | of writing them (@pxref{Specify Location}), but the effect is always |
5049 | to specify some source line. | |
5050 | ||
c906108c SS |
5051 | Here is a complete description of the possible arguments for @code{list}: |
5052 | ||
5053 | @table @code | |
5054 | @item list @var{linespec} | |
5055 | Print lines centered around the line specified by @var{linespec}. | |
5056 | ||
5057 | @item list @var{first},@var{last} | |
5058 | Print lines from @var{first} to @var{last}. Both arguments are | |
2a25a5ba EZ |
5059 | linespecs. When a @code{list} command has two linespecs, and the |
5060 | source file of the second linespec is omitted, this refers to | |
5061 | the same source file as the first linespec. | |
c906108c SS |
5062 | |
5063 | @item list ,@var{last} | |
5064 | Print lines ending with @var{last}. | |
5065 | ||
5066 | @item list @var{first}, | |
5067 | Print lines starting with @var{first}. | |
5068 | ||
5069 | @item list + | |
5070 | Print lines just after the lines last printed. | |
5071 | ||
5072 | @item list - | |
5073 | Print lines just before the lines last printed. | |
5074 | ||
5075 | @item list | |
5076 | As described in the preceding table. | |
5077 | @end table | |
5078 | ||
2a25a5ba EZ |
5079 | @node Specify Location |
5080 | @section Specifying a Location | |
5081 | @cindex specifying location | |
5082 | @cindex linespec | |
c906108c | 5083 | |
2a25a5ba EZ |
5084 | Several @value{GDBN} commands accept arguments that specify a location |
5085 | of your program's code. Since @value{GDBN} is a source-level | |
5086 | debugger, a location usually specifies some line in the source code; | |
5087 | for that reason, locations are also known as @dfn{linespecs}. | |
c906108c | 5088 | |
2a25a5ba EZ |
5089 | Here are all the different ways of specifying a code location that |
5090 | @value{GDBN} understands: | |
c906108c | 5091 | |
2a25a5ba EZ |
5092 | @table @code |
5093 | @item @var{linenum} | |
5094 | Specifies the line number @var{linenum} of the current source file. | |
c906108c | 5095 | |
2a25a5ba EZ |
5096 | @item -@var{offset} |
5097 | @itemx +@var{offset} | |
5098 | Specifies the line @var{offset} lines before or after the @dfn{current | |
5099 | line}. For the @code{list} command, the current line is the last one | |
5100 | printed; for the breakpoint commands, this is the line at which | |
5101 | execution stopped in the currently selected @dfn{stack frame} | |
5102 | (@pxref{Frames, ,Frames}, for a description of stack frames.) When | |
5103 | used as the second of the two linespecs in a @code{list} command, | |
5104 | this specifies the line @var{offset} lines up or down from the first | |
5105 | linespec. | |
5106 | ||
5107 | @item @var{filename}:@var{linenum} | |
5108 | Specifies the line @var{linenum} in the source file @var{filename}. | |
c906108c SS |
5109 | |
5110 | @item @var{function} | |
5111 | Specifies the line that begins the body of the function @var{function}. | |
2a25a5ba | 5112 | For example, in C, this is the line with the open brace. |
c906108c SS |
5113 | |
5114 | @item @var{filename}:@var{function} | |
2a25a5ba EZ |
5115 | Specifies the line that begins the body of the function @var{function} |
5116 | in the file @var{filename}. You only need the file name with a | |
5117 | function name to avoid ambiguity when there are identically named | |
5118 | functions in different source files. | |
c906108c SS |
5119 | |
5120 | @item *@var{address} | |
2a25a5ba EZ |
5121 | Specifies the program address @var{address}. For line-oriented |
5122 | commands, such as @code{list} and @code{edit}, this specifies a source | |
5123 | line that contains @var{address}. For @code{break} and other | |
5124 | breakpoint oriented commands, this can be used to set breakpoints in | |
5125 | parts of your program which do not have debugging information or | |
5126 | source files. | |
5127 | ||
5128 | Here @var{address} may be any expression valid in the current working | |
5129 | language (@pxref{Languages, working language}) that specifies a code | |
5fa54e5d EZ |
5130 | address. In addition, as a convenience, @value{GDBN} extends the |
5131 | semantics of expressions used in locations to cover the situations | |
5132 | that frequently happen during debugging. Here are the various forms | |
5133 | of @var{address}: | |
2a25a5ba EZ |
5134 | |
5135 | @table @code | |
5136 | @item @var{expression} | |
5137 | Any expression valid in the current working language. | |
5138 | ||
5139 | @item @var{funcaddr} | |
5140 | An address of a function or procedure derived from its name. In C, | |
5141 | C@t{++}, Java, Objective-C, Fortran, minimal, and assembly, this is | |
5142 | simply the function's name @var{function} (and actually a special case | |
5143 | of a valid expression). In Pascal and Modula-2, this is | |
5144 | @code{&@var{function}}. In Ada, this is @code{@var{function}'Address} | |
5145 | (although the Pascal form also works). | |
5146 | ||
5147 | This form specifies the address of the function's first instruction, | |
5148 | before the stack frame and arguments have been set up. | |
5149 | ||
5150 | @item '@var{filename}'::@var{funcaddr} | |
5151 | Like @var{funcaddr} above, but also specifies the name of the source | |
5152 | file explicitly. This is useful if the name of the function does not | |
5153 | specify the function unambiguously, e.g., if there are several | |
5154 | functions with identical names in different source files. | |
c906108c SS |
5155 | @end table |
5156 | ||
2a25a5ba EZ |
5157 | @end table |
5158 | ||
5159 | ||
87885426 | 5160 | @node Edit |
79a6e687 | 5161 | @section Editing Source Files |
87885426 FN |
5162 | @cindex editing source files |
5163 | ||
5164 | @kindex edit | |
5165 | @kindex e @r{(@code{edit})} | |
5166 | To edit the lines in a source file, use the @code{edit} command. | |
5167 | The editing program of your choice | |
5168 | is invoked with the current line set to | |
5169 | the active line in the program. | |
5170 | Alternatively, there are several ways to specify what part of the file you | |
2a25a5ba | 5171 | want to print if you want to see other parts of the program: |
87885426 FN |
5172 | |
5173 | @table @code | |
2a25a5ba EZ |
5174 | @item edit @var{location} |
5175 | Edit the source file specified by @code{location}. Editing starts at | |
5176 | that @var{location}, e.g., at the specified source line of the | |
5177 | specified file. @xref{Specify Location}, for all the possible forms | |
5178 | of the @var{location} argument; here are the forms of the @code{edit} | |
5179 | command most commonly used: | |
87885426 | 5180 | |
2a25a5ba | 5181 | @table @code |
87885426 FN |
5182 | @item edit @var{number} |
5183 | Edit the current source file with @var{number} as the active line number. | |
5184 | ||
5185 | @item edit @var{function} | |
5186 | Edit the file containing @var{function} at the beginning of its definition. | |
2a25a5ba | 5187 | @end table |
87885426 | 5188 | |
87885426 FN |
5189 | @end table |
5190 | ||
79a6e687 | 5191 | @subsection Choosing your Editor |
87885426 FN |
5192 | You can customize @value{GDBN} to use any editor you want |
5193 | @footnote{ | |
5194 | The only restriction is that your editor (say @code{ex}), recognizes the | |
5195 | following command-line syntax: | |
10998722 | 5196 | @smallexample |
87885426 | 5197 | ex +@var{number} file |
10998722 | 5198 | @end smallexample |
15387254 EZ |
5199 | The optional numeric value +@var{number} specifies the number of the line in |
5200 | the file where to start editing.}. | |
5201 | By default, it is @file{@value{EDITOR}}, but you can change this | |
10998722 AC |
5202 | by setting the environment variable @code{EDITOR} before using |
5203 | @value{GDBN}. For example, to configure @value{GDBN} to use the | |
5204 | @code{vi} editor, you could use these commands with the @code{sh} shell: | |
5205 | @smallexample | |
87885426 FN |
5206 | EDITOR=/usr/bin/vi |
5207 | export EDITOR | |
15387254 | 5208 | gdb @dots{} |
10998722 | 5209 | @end smallexample |
87885426 | 5210 | or in the @code{csh} shell, |
10998722 | 5211 | @smallexample |
87885426 | 5212 | setenv EDITOR /usr/bin/vi |
15387254 | 5213 | gdb @dots{} |
10998722 | 5214 | @end smallexample |
87885426 | 5215 | |
6d2ebf8b | 5216 | @node Search |
79a6e687 | 5217 | @section Searching Source Files |
15387254 | 5218 | @cindex searching source files |
c906108c SS |
5219 | |
5220 | There are two commands for searching through the current source file for a | |
5221 | regular expression. | |
5222 | ||
5223 | @table @code | |
5224 | @kindex search | |
5225 | @kindex forward-search | |
5226 | @item forward-search @var{regexp} | |
5227 | @itemx search @var{regexp} | |
5228 | The command @samp{forward-search @var{regexp}} checks each line, | |
5229 | starting with the one following the last line listed, for a match for | |
5d161b24 | 5230 | @var{regexp}. It lists the line that is found. You can use the |
c906108c SS |
5231 | synonym @samp{search @var{regexp}} or abbreviate the command name as |
5232 | @code{fo}. | |
5233 | ||
09d4efe1 | 5234 | @kindex reverse-search |
c906108c SS |
5235 | @item reverse-search @var{regexp} |
5236 | The command @samp{reverse-search @var{regexp}} checks each line, starting | |
5237 | with the one before the last line listed and going backward, for a match | |
5238 | for @var{regexp}. It lists the line that is found. You can abbreviate | |
5239 | this command as @code{rev}. | |
5240 | @end table | |
c906108c | 5241 | |
6d2ebf8b | 5242 | @node Source Path |
79a6e687 | 5243 | @section Specifying Source Directories |
c906108c SS |
5244 | |
5245 | @cindex source path | |
5246 | @cindex directories for source files | |
5247 | Executable programs sometimes do not record the directories of the source | |
5248 | files from which they were compiled, just the names. Even when they do, | |
5249 | the directories could be moved between the compilation and your debugging | |
5250 | session. @value{GDBN} has a list of directories to search for source files; | |
5251 | this is called the @dfn{source path}. Each time @value{GDBN} wants a source file, | |
5252 | it tries all the directories in the list, in the order they are present | |
0b66e38c EZ |
5253 | in the list, until it finds a file with the desired name. |
5254 | ||
5255 | For example, suppose an executable references the file | |
5256 | @file{/usr/src/foo-1.0/lib/foo.c}, and our source path is | |
5257 | @file{/mnt/cross}. The file is first looked up literally; if this | |
5258 | fails, @file{/mnt/cross/usr/src/foo-1.0/lib/foo.c} is tried; if this | |
5259 | fails, @file{/mnt/cross/foo.c} is opened; if this fails, an error | |
5260 | message is printed. @value{GDBN} does not look up the parts of the | |
5261 | source file name, such as @file{/mnt/cross/src/foo-1.0/lib/foo.c}. | |
5262 | Likewise, the subdirectories of the source path are not searched: if | |
5263 | the source path is @file{/mnt/cross}, and the binary refers to | |
5264 | @file{foo.c}, @value{GDBN} would not find it under | |
5265 | @file{/mnt/cross/usr/src/foo-1.0/lib}. | |
5266 | ||
5267 | Plain file names, relative file names with leading directories, file | |
5268 | names containing dots, etc.@: are all treated as described above; for | |
5269 | instance, if the source path is @file{/mnt/cross}, and the source file | |
5270 | is recorded as @file{../lib/foo.c}, @value{GDBN} would first try | |
5271 | @file{../lib/foo.c}, then @file{/mnt/cross/../lib/foo.c}, and after | |
5272 | that---@file{/mnt/cross/foo.c}. | |
5273 | ||
5274 | Note that the executable search path is @emph{not} used to locate the | |
cd852561 | 5275 | source files. |
c906108c SS |
5276 | |
5277 | Whenever you reset or rearrange the source path, @value{GDBN} clears out | |
5278 | any information it has cached about where source files are found and where | |
5279 | each line is in the file. | |
5280 | ||
5281 | @kindex directory | |
5282 | @kindex dir | |
d4f3574e SS |
5283 | When you start @value{GDBN}, its source path includes only @samp{cdir} |
5284 | and @samp{cwd}, in that order. | |
c906108c SS |
5285 | To add other directories, use the @code{directory} command. |
5286 | ||
4b505b12 AS |
5287 | The search path is used to find both program source files and @value{GDBN} |
5288 | script files (read using the @samp{-command} option and @samp{source} command). | |
5289 | ||
30daae6c JB |
5290 | In addition to the source path, @value{GDBN} provides a set of commands |
5291 | that manage a list of source path substitution rules. A @dfn{substitution | |
5292 | rule} specifies how to rewrite source directories stored in the program's | |
5293 | debug information in case the sources were moved to a different | |
5294 | directory between compilation and debugging. A rule is made of | |
5295 | two strings, the first specifying what needs to be rewritten in | |
5296 | the path, and the second specifying how it should be rewritten. | |
5297 | In @ref{set substitute-path}, we name these two parts @var{from} and | |
5298 | @var{to} respectively. @value{GDBN} does a simple string replacement | |
5299 | of @var{from} with @var{to} at the start of the directory part of the | |
5300 | source file name, and uses that result instead of the original file | |
5301 | name to look up the sources. | |
5302 | ||
5303 | Using the previous example, suppose the @file{foo-1.0} tree has been | |
5304 | moved from @file{/usr/src} to @file{/mnt/cross}, then you can tell | |
3f94c067 | 5305 | @value{GDBN} to replace @file{/usr/src} in all source path names with |
30daae6c JB |
5306 | @file{/mnt/cross}. The first lookup will then be |
5307 | @file{/mnt/cross/foo-1.0/lib/foo.c} in place of the original location | |
5308 | of @file{/usr/src/foo-1.0/lib/foo.c}. To define a source path | |
5309 | substitution rule, use the @code{set substitute-path} command | |
5310 | (@pxref{set substitute-path}). | |
5311 | ||
5312 | To avoid unexpected substitution results, a rule is applied only if the | |
5313 | @var{from} part of the directory name ends at a directory separator. | |
5314 | For instance, a rule substituting @file{/usr/source} into | |
5315 | @file{/mnt/cross} will be applied to @file{/usr/source/foo-1.0} but | |
5316 | not to @file{/usr/sourceware/foo-2.0}. And because the substitution | |
d3e8051b | 5317 | is applied only at the beginning of the directory name, this rule will |
30daae6c JB |
5318 | not be applied to @file{/root/usr/source/baz.c} either. |
5319 | ||
5320 | In many cases, you can achieve the same result using the @code{directory} | |
5321 | command. However, @code{set substitute-path} can be more efficient in | |
5322 | the case where the sources are organized in a complex tree with multiple | |
5323 | subdirectories. With the @code{directory} command, you need to add each | |
5324 | subdirectory of your project. If you moved the entire tree while | |
5325 | preserving its internal organization, then @code{set substitute-path} | |
5326 | allows you to direct the debugger to all the sources with one single | |
5327 | command. | |
5328 | ||
5329 | @code{set substitute-path} is also more than just a shortcut command. | |
5330 | The source path is only used if the file at the original location no | |
5331 | longer exists. On the other hand, @code{set substitute-path} modifies | |
5332 | the debugger behavior to look at the rewritten location instead. So, if | |
5333 | for any reason a source file that is not relevant to your executable is | |
5334 | located at the original location, a substitution rule is the only | |
3f94c067 | 5335 | method available to point @value{GDBN} at the new location. |
30daae6c | 5336 | |
c906108c SS |
5337 | @table @code |
5338 | @item directory @var{dirname} @dots{} | |
5339 | @item dir @var{dirname} @dots{} | |
5340 | Add directory @var{dirname} to the front of the source path. Several | |
d4f3574e SS |
5341 | directory names may be given to this command, separated by @samp{:} |
5342 | (@samp{;} on MS-DOS and MS-Windows, where @samp{:} usually appears as | |
5343 | part of absolute file names) or | |
c906108c SS |
5344 | whitespace. You may specify a directory that is already in the source |
5345 | path; this moves it forward, so @value{GDBN} searches it sooner. | |
5346 | ||
5347 | @kindex cdir | |
5348 | @kindex cwd | |
41afff9a | 5349 | @vindex $cdir@r{, convenience variable} |
d3e8051b | 5350 | @vindex $cwd@r{, convenience variable} |
c906108c SS |
5351 | @cindex compilation directory |
5352 | @cindex current directory | |
5353 | @cindex working directory | |
5354 | @cindex directory, current | |
5355 | @cindex directory, compilation | |
5356 | You can use the string @samp{$cdir} to refer to the compilation | |
5357 | directory (if one is recorded), and @samp{$cwd} to refer to the current | |
5358 | working directory. @samp{$cwd} is not the same as @samp{.}---the former | |
5359 | tracks the current working directory as it changes during your @value{GDBN} | |
5360 | session, while the latter is immediately expanded to the current | |
5361 | directory at the time you add an entry to the source path. | |
5362 | ||
5363 | @item directory | |
cd852561 | 5364 | Reset the source path to its default value (@samp{$cdir:$cwd} on Unix systems). This requires confirmation. |
c906108c SS |
5365 | |
5366 | @c RET-repeat for @code{directory} is explicitly disabled, but since | |
5367 | @c repeating it would be a no-op we do not say that. (thanks to RMS) | |
5368 | ||
5369 | @item show directories | |
5370 | @kindex show directories | |
5371 | Print the source path: show which directories it contains. | |
30daae6c JB |
5372 | |
5373 | @anchor{set substitute-path} | |
5374 | @item set substitute-path @var{from} @var{to} | |
5375 | @kindex set substitute-path | |
5376 | Define a source path substitution rule, and add it at the end of the | |
5377 | current list of existing substitution rules. If a rule with the same | |
5378 | @var{from} was already defined, then the old rule is also deleted. | |
5379 | ||
5380 | For example, if the file @file{/foo/bar/baz.c} was moved to | |
5381 | @file{/mnt/cross/baz.c}, then the command | |
5382 | ||
5383 | @smallexample | |
5384 | (@value{GDBP}) set substitute-path /usr/src /mnt/cross | |
5385 | @end smallexample | |
5386 | ||
5387 | @noindent | |
5388 | will tell @value{GDBN} to replace @samp{/usr/src} with | |
5389 | @samp{/mnt/cross}, which will allow @value{GDBN} to find the file | |
5390 | @file{baz.c} even though it was moved. | |
5391 | ||
5392 | In the case when more than one substitution rule have been defined, | |
5393 | the rules are evaluated one by one in the order where they have been | |
5394 | defined. The first one matching, if any, is selected to perform | |
5395 | the substitution. | |
5396 | ||
5397 | For instance, if we had entered the following commands: | |
5398 | ||
5399 | @smallexample | |
5400 | (@value{GDBP}) set substitute-path /usr/src/include /mnt/include | |
5401 | (@value{GDBP}) set substitute-path /usr/src /mnt/src | |
5402 | @end smallexample | |
5403 | ||
5404 | @noindent | |
5405 | @value{GDBN} would then rewrite @file{/usr/src/include/defs.h} into | |
5406 | @file{/mnt/include/defs.h} by using the first rule. However, it would | |
5407 | use the second rule to rewrite @file{/usr/src/lib/foo.c} into | |
5408 | @file{/mnt/src/lib/foo.c}. | |
5409 | ||
5410 | ||
5411 | @item unset substitute-path [path] | |
5412 | @kindex unset substitute-path | |
5413 | If a path is specified, search the current list of substitution rules | |
5414 | for a rule that would rewrite that path. Delete that rule if found. | |
5415 | A warning is emitted by the debugger if no rule could be found. | |
5416 | ||
5417 | If no path is specified, then all substitution rules are deleted. | |
5418 | ||
5419 | @item show substitute-path [path] | |
5420 | @kindex show substitute-path | |
5421 | If a path is specified, then print the source path substitution rule | |
5422 | which would rewrite that path, if any. | |
5423 | ||
5424 | If no path is specified, then print all existing source path substitution | |
5425 | rules. | |
5426 | ||
c906108c SS |
5427 | @end table |
5428 | ||
5429 | If your source path is cluttered with directories that are no longer of | |
5430 | interest, @value{GDBN} may sometimes cause confusion by finding the wrong | |
5431 | versions of source. You can correct the situation as follows: | |
5432 | ||
5433 | @enumerate | |
5434 | @item | |
cd852561 | 5435 | Use @code{directory} with no argument to reset the source path to its default value. |
c906108c SS |
5436 | |
5437 | @item | |
5438 | Use @code{directory} with suitable arguments to reinstall the | |
5439 | directories you want in the source path. You can add all the | |
5440 | directories in one command. | |
5441 | @end enumerate | |
5442 | ||
6d2ebf8b | 5443 | @node Machine Code |
79a6e687 | 5444 | @section Source and Machine Code |
15387254 | 5445 | @cindex source line and its code address |
c906108c SS |
5446 | |
5447 | You can use the command @code{info line} to map source lines to program | |
5448 | addresses (and vice versa), and the command @code{disassemble} to display | |
5449 | a range of addresses as machine instructions. When run under @sc{gnu} Emacs | |
d4f3574e | 5450 | mode, the @code{info line} command causes the arrow to point to the |
5d161b24 | 5451 | line specified. Also, @code{info line} prints addresses in symbolic form as |
c906108c SS |
5452 | well as hex. |
5453 | ||
5454 | @table @code | |
5455 | @kindex info line | |
5456 | @item info line @var{linespec} | |
5457 | Print the starting and ending addresses of the compiled code for | |
5458 | source line @var{linespec}. You can specify source lines in any of | |
2a25a5ba | 5459 | the ways documented in @ref{Specify Location}. |
c906108c SS |
5460 | @end table |
5461 | ||
5462 | For example, we can use @code{info line} to discover the location of | |
5463 | the object code for the first line of function | |
5464 | @code{m4_changequote}: | |
5465 | ||
d4f3574e SS |
5466 | @c FIXME: I think this example should also show the addresses in |
5467 | @c symbolic form, as they usually would be displayed. | |
c906108c | 5468 | @smallexample |
96a2c332 | 5469 | (@value{GDBP}) info line m4_changequote |
c906108c SS |
5470 | Line 895 of "builtin.c" starts at pc 0x634c and ends at 0x6350. |
5471 | @end smallexample | |
5472 | ||
5473 | @noindent | |
15387254 | 5474 | @cindex code address and its source line |
c906108c SS |
5475 | We can also inquire (using @code{*@var{addr}} as the form for |
5476 | @var{linespec}) what source line covers a particular address: | |
5477 | @smallexample | |
5478 | (@value{GDBP}) info line *0x63ff | |
5479 | Line 926 of "builtin.c" starts at pc 0x63e4 and ends at 0x6404. | |
5480 | @end smallexample | |
5481 | ||
5482 | @cindex @code{$_} and @code{info line} | |
15387254 | 5483 | @cindex @code{x} command, default address |
41afff9a | 5484 | @kindex x@r{(examine), and} info line |
c906108c SS |
5485 | After @code{info line}, the default address for the @code{x} command |
5486 | is changed to the starting address of the line, so that @samp{x/i} is | |
5487 | sufficient to begin examining the machine code (@pxref{Memory, | |
79a6e687 | 5488 | ,Examining Memory}). Also, this address is saved as the value of the |
c906108c | 5489 | convenience variable @code{$_} (@pxref{Convenience Vars, ,Convenience |
79a6e687 | 5490 | Variables}). |
c906108c SS |
5491 | |
5492 | @table @code | |
5493 | @kindex disassemble | |
5494 | @cindex assembly instructions | |
5495 | @cindex instructions, assembly | |
5496 | @cindex machine instructions | |
5497 | @cindex listing machine instructions | |
5498 | @item disassemble | |
d14508fe | 5499 | @itemx disassemble /m |
c906108c | 5500 | This specialized command dumps a range of memory as machine |
d14508fe DE |
5501 | instructions. It can also print mixed source+disassembly by specifying |
5502 | the @code{/m} modifier. | |
5503 | The default memory range is the function surrounding the | |
c906108c SS |
5504 | program counter of the selected frame. A single argument to this |
5505 | command is a program counter value; @value{GDBN} dumps the function | |
5506 | surrounding this value. Two arguments specify a range of addresses | |
5507 | (first inclusive, second exclusive) to dump. | |
5508 | @end table | |
5509 | ||
c906108c SS |
5510 | The following example shows the disassembly of a range of addresses of |
5511 | HP PA-RISC 2.0 code: | |
5512 | ||
5513 | @smallexample | |
5514 | (@value{GDBP}) disas 0x32c4 0x32e4 | |
5515 | Dump of assembler code from 0x32c4 to 0x32e4: | |
5516 | 0x32c4 <main+204>: addil 0,dp | |
5517 | 0x32c8 <main+208>: ldw 0x22c(sr0,r1),r26 | |
5518 | 0x32cc <main+212>: ldil 0x3000,r31 | |
5519 | 0x32d0 <main+216>: ble 0x3f8(sr4,r31) | |
5520 | 0x32d4 <main+220>: ldo 0(r31),rp | |
5521 | 0x32d8 <main+224>: addil -0x800,dp | |
5522 | 0x32dc <main+228>: ldo 0x588(r1),r26 | |
5523 | 0x32e0 <main+232>: ldil 0x3000,r31 | |
5524 | End of assembler dump. | |
5525 | @end smallexample | |
c906108c | 5526 | |
d14508fe DE |
5527 | Here is an example showing mixed source+assembly for Intel x86: |
5528 | ||
5529 | @smallexample | |
5530 | (@value{GDBP}) disas /m main | |
5531 | Dump of assembler code for function main: | |
5532 | 5 @{ | |
5533 | 0x08048330 <main+0>: push %ebp | |
5534 | 0x08048331 <main+1>: mov %esp,%ebp | |
5535 | 0x08048333 <main+3>: sub $0x8,%esp | |
5536 | 0x08048336 <main+6>: and $0xfffffff0,%esp | |
5537 | 0x08048339 <main+9>: sub $0x10,%esp | |
5538 | ||
5539 | 6 printf ("Hello.\n"); | |
5540 | 0x0804833c <main+12>: movl $0x8048440,(%esp) | |
5541 | 0x08048343 <main+19>: call 0x8048284 <puts@@plt> | |
5542 | ||
5543 | 7 return 0; | |
5544 | 8 @} | |
5545 | 0x08048348 <main+24>: mov $0x0,%eax | |
5546 | 0x0804834d <main+29>: leave | |
5547 | 0x0804834e <main+30>: ret | |
5548 | ||
5549 | End of assembler dump. | |
5550 | @end smallexample | |
5551 | ||
c906108c SS |
5552 | Some architectures have more than one commonly-used set of instruction |
5553 | mnemonics or other syntax. | |
5554 | ||
76d17f34 EZ |
5555 | For programs that were dynamically linked and use shared libraries, |
5556 | instructions that call functions or branch to locations in the shared | |
5557 | libraries might show a seemingly bogus location---it's actually a | |
5558 | location of the relocation table. On some architectures, @value{GDBN} | |
5559 | might be able to resolve these to actual function names. | |
5560 | ||
c906108c | 5561 | @table @code |
d4f3574e | 5562 | @kindex set disassembly-flavor |
d4f3574e SS |
5563 | @cindex Intel disassembly flavor |
5564 | @cindex AT&T disassembly flavor | |
5565 | @item set disassembly-flavor @var{instruction-set} | |
c906108c SS |
5566 | Select the instruction set to use when disassembling the |
5567 | program via the @code{disassemble} or @code{x/i} commands. | |
5568 | ||
5569 | Currently this command is only defined for the Intel x86 family. You | |
d4f3574e SS |
5570 | can set @var{instruction-set} to either @code{intel} or @code{att}. |
5571 | The default is @code{att}, the AT&T flavor used by default by Unix | |
5572 | assemblers for x86-based targets. | |
9c16f35a EZ |
5573 | |
5574 | @kindex show disassembly-flavor | |
5575 | @item show disassembly-flavor | |
5576 | Show the current setting of the disassembly flavor. | |
c906108c SS |
5577 | @end table |
5578 | ||
5579 | ||
6d2ebf8b | 5580 | @node Data |
c906108c SS |
5581 | @chapter Examining Data |
5582 | ||
5583 | @cindex printing data | |
5584 | @cindex examining data | |
5585 | @kindex print | |
5586 | @kindex inspect | |
5587 | @c "inspect" is not quite a synonym if you are using Epoch, which we do not | |
5588 | @c document because it is nonstandard... Under Epoch it displays in a | |
5589 | @c different window or something like that. | |
5590 | The usual way to examine data in your program is with the @code{print} | |
7a292a7a SS |
5591 | command (abbreviated @code{p}), or its synonym @code{inspect}. It |
5592 | evaluates and prints the value of an expression of the language your | |
5593 | program is written in (@pxref{Languages, ,Using @value{GDBN} with | |
5594 | Different Languages}). | |
c906108c SS |
5595 | |
5596 | @table @code | |
d4f3574e SS |
5597 | @item print @var{expr} |
5598 | @itemx print /@var{f} @var{expr} | |
5599 | @var{expr} is an expression (in the source language). By default the | |
5600 | value of @var{expr} is printed in a format appropriate to its data type; | |
c906108c | 5601 | you can choose a different format by specifying @samp{/@var{f}}, where |
d4f3574e | 5602 | @var{f} is a letter specifying the format; see @ref{Output Formats,,Output |
79a6e687 | 5603 | Formats}. |
c906108c SS |
5604 | |
5605 | @item print | |
5606 | @itemx print /@var{f} | |
15387254 | 5607 | @cindex reprint the last value |
d4f3574e | 5608 | If you omit @var{expr}, @value{GDBN} displays the last value again (from the |
79a6e687 | 5609 | @dfn{value history}; @pxref{Value History, ,Value History}). This allows you to |
c906108c SS |
5610 | conveniently inspect the same value in an alternative format. |
5611 | @end table | |
5612 | ||
5613 | A more low-level way of examining data is with the @code{x} command. | |
5614 | It examines data in memory at a specified address and prints it in a | |
79a6e687 | 5615 | specified format. @xref{Memory, ,Examining Memory}. |
c906108c | 5616 | |
7a292a7a | 5617 | If you are interested in information about types, or about how the |
d4f3574e SS |
5618 | fields of a struct or a class are declared, use the @code{ptype @var{exp}} |
5619 | command rather than @code{print}. @xref{Symbols, ,Examining the Symbol | |
7a292a7a | 5620 | Table}. |
c906108c SS |
5621 | |
5622 | @menu | |
5623 | * Expressions:: Expressions | |
6ba66d6a | 5624 | * Ambiguous Expressions:: Ambiguous Expressions |
c906108c SS |
5625 | * Variables:: Program variables |
5626 | * Arrays:: Artificial arrays | |
5627 | * Output Formats:: Output formats | |
5628 | * Memory:: Examining memory | |
5629 | * Auto Display:: Automatic display | |
5630 | * Print Settings:: Print settings | |
5631 | * Value History:: Value history | |
5632 | * Convenience Vars:: Convenience variables | |
5633 | * Registers:: Registers | |
c906108c | 5634 | * Floating Point Hardware:: Floating point hardware |
53c69bd7 | 5635 | * Vector Unit:: Vector Unit |
721c2651 | 5636 | * OS Information:: Auxiliary data provided by operating system |
29e57380 | 5637 | * Memory Region Attributes:: Memory region attributes |
16d9dec6 | 5638 | * Dump/Restore Files:: Copy between memory and a file |
384ee23f | 5639 | * Core File Generation:: Cause a program dump its core |
a0eb71c5 KB |
5640 | * Character Sets:: Debugging programs that use a different |
5641 | character set than GDB does | |
09d4efe1 | 5642 | * Caching Remote Data:: Data caching for remote targets |
08388c79 | 5643 | * Searching Memory:: Searching memory for a sequence of bytes |
c906108c SS |
5644 | @end menu |
5645 | ||
6d2ebf8b | 5646 | @node Expressions |
c906108c SS |
5647 | @section Expressions |
5648 | ||
5649 | @cindex expressions | |
5650 | @code{print} and many other @value{GDBN} commands accept an expression and | |
5651 | compute its value. Any kind of constant, variable or operator defined | |
5652 | by the programming language you are using is valid in an expression in | |
e2e0bcd1 JB |
5653 | @value{GDBN}. This includes conditional expressions, function calls, |
5654 | casts, and string constants. It also includes preprocessor macros, if | |
5655 | you compiled your program to include this information; see | |
5656 | @ref{Compilation}. | |
c906108c | 5657 | |
15387254 | 5658 | @cindex arrays in expressions |
d4f3574e SS |
5659 | @value{GDBN} supports array constants in expressions input by |
5660 | the user. The syntax is @{@var{element}, @var{element}@dots{}@}. For example, | |
63092375 DJ |
5661 | you can use the command @code{print @{1, 2, 3@}} to create an array |
5662 | of three integers. If you pass an array to a function or assign it | |
5663 | to a program variable, @value{GDBN} copies the array to memory that | |
5664 | is @code{malloc}ed in the target program. | |
c906108c | 5665 | |
c906108c SS |
5666 | Because C is so widespread, most of the expressions shown in examples in |
5667 | this manual are in C. @xref{Languages, , Using @value{GDBN} with Different | |
5668 | Languages}, for information on how to use expressions in other | |
5669 | languages. | |
5670 | ||
5671 | In this section, we discuss operators that you can use in @value{GDBN} | |
5672 | expressions regardless of your programming language. | |
5673 | ||
15387254 | 5674 | @cindex casts, in expressions |
c906108c SS |
5675 | Casts are supported in all languages, not just in C, because it is so |
5676 | useful to cast a number into a pointer in order to examine a structure | |
5677 | at that address in memory. | |
5678 | @c FIXME: casts supported---Mod2 true? | |
c906108c SS |
5679 | |
5680 | @value{GDBN} supports these operators, in addition to those common | |
5681 | to programming languages: | |
5682 | ||
5683 | @table @code | |
5684 | @item @@ | |
5685 | @samp{@@} is a binary operator for treating parts of memory as arrays. | |
79a6e687 | 5686 | @xref{Arrays, ,Artificial Arrays}, for more information. |
c906108c SS |
5687 | |
5688 | @item :: | |
5689 | @samp{::} allows you to specify a variable in terms of the file or | |
79a6e687 | 5690 | function where it is defined. @xref{Variables, ,Program Variables}. |
c906108c SS |
5691 | |
5692 | @cindex @{@var{type}@} | |
5693 | @cindex type casting memory | |
5694 | @cindex memory, viewing as typed object | |
5695 | @cindex casts, to view memory | |
5696 | @item @{@var{type}@} @var{addr} | |
5697 | Refers to an object of type @var{type} stored at address @var{addr} in | |
5698 | memory. @var{addr} may be any expression whose value is an integer or | |
5699 | pointer (but parentheses are required around binary operators, just as in | |
5700 | a cast). This construct is allowed regardless of what kind of data is | |
5701 | normally supposed to reside at @var{addr}. | |
5702 | @end table | |
5703 | ||
6ba66d6a JB |
5704 | @node Ambiguous Expressions |
5705 | @section Ambiguous Expressions | |
5706 | @cindex ambiguous expressions | |
5707 | ||
5708 | Expressions can sometimes contain some ambiguous elements. For instance, | |
5709 | some programming languages (notably Ada, C@t{++} and Objective-C) permit | |
5710 | a single function name to be defined several times, for application in | |
5711 | different contexts. This is called @dfn{overloading}. Another example | |
5712 | involving Ada is generics. A @dfn{generic package} is similar to C@t{++} | |
5713 | templates and is typically instantiated several times, resulting in | |
5714 | the same function name being defined in different contexts. | |
5715 | ||
5716 | In some cases and depending on the language, it is possible to adjust | |
5717 | the expression to remove the ambiguity. For instance in C@t{++}, you | |
5718 | can specify the signature of the function you want to break on, as in | |
5719 | @kbd{break @var{function}(@var{types})}. In Ada, using the fully | |
5720 | qualified name of your function often makes the expression unambiguous | |
5721 | as well. | |
5722 | ||
5723 | When an ambiguity that needs to be resolved is detected, the debugger | |
5724 | has the capability to display a menu of numbered choices for each | |
5725 | possibility, and then waits for the selection with the prompt @samp{>}. | |
5726 | The first option is always @samp{[0] cancel}, and typing @kbd{0 @key{RET}} | |
5727 | aborts the current command. If the command in which the expression was | |
5728 | used allows more than one choice to be selected, the next option in the | |
5729 | menu is @samp{[1] all}, and typing @kbd{1 @key{RET}} selects all possible | |
5730 | choices. | |
5731 | ||
5732 | For example, the following session excerpt shows an attempt to set a | |
5733 | breakpoint at the overloaded symbol @code{String::after}. | |
5734 | We choose three particular definitions of that function name: | |
5735 | ||
5736 | @c FIXME! This is likely to change to show arg type lists, at least | |
5737 | @smallexample | |
5738 | @group | |
5739 | (@value{GDBP}) b String::after | |
5740 | [0] cancel | |
5741 | [1] all | |
5742 | [2] file:String.cc; line number:867 | |
5743 | [3] file:String.cc; line number:860 | |
5744 | [4] file:String.cc; line number:875 | |
5745 | [5] file:String.cc; line number:853 | |
5746 | [6] file:String.cc; line number:846 | |
5747 | [7] file:String.cc; line number:735 | |
5748 | > 2 4 6 | |
5749 | Breakpoint 1 at 0xb26c: file String.cc, line 867. | |
5750 | Breakpoint 2 at 0xb344: file String.cc, line 875. | |
5751 | Breakpoint 3 at 0xafcc: file String.cc, line 846. | |
5752 | Multiple breakpoints were set. | |
5753 | Use the "delete" command to delete unwanted | |
5754 | breakpoints. | |
5755 | (@value{GDBP}) | |
5756 | @end group | |
5757 | @end smallexample | |
5758 | ||
5759 | @table @code | |
5760 | @kindex set multiple-symbols | |
5761 | @item set multiple-symbols @var{mode} | |
5762 | @cindex multiple-symbols menu | |
5763 | ||
5764 | This option allows you to adjust the debugger behavior when an expression | |
5765 | is ambiguous. | |
5766 | ||
5767 | By default, @var{mode} is set to @code{all}. If the command with which | |
5768 | the expression is used allows more than one choice, then @value{GDBN} | |
5769 | automatically selects all possible choices. For instance, inserting | |
5770 | a breakpoint on a function using an ambiguous name results in a breakpoint | |
5771 | inserted on each possible match. However, if a unique choice must be made, | |
5772 | then @value{GDBN} uses the menu to help you disambiguate the expression. | |
5773 | For instance, printing the address of an overloaded function will result | |
5774 | in the use of the menu. | |
5775 | ||
5776 | When @var{mode} is set to @code{ask}, the debugger always uses the menu | |
5777 | when an ambiguity is detected. | |
5778 | ||
5779 | Finally, when @var{mode} is set to @code{cancel}, the debugger reports | |
5780 | an error due to the ambiguity and the command is aborted. | |
5781 | ||
5782 | @kindex show multiple-symbols | |
5783 | @item show multiple-symbols | |
5784 | Show the current value of the @code{multiple-symbols} setting. | |
5785 | @end table | |
5786 | ||
6d2ebf8b | 5787 | @node Variables |
79a6e687 | 5788 | @section Program Variables |
c906108c SS |
5789 | |
5790 | The most common kind of expression to use is the name of a variable | |
5791 | in your program. | |
5792 | ||
5793 | Variables in expressions are understood in the selected stack frame | |
79a6e687 | 5794 | (@pxref{Selection, ,Selecting a Frame}); they must be either: |
c906108c SS |
5795 | |
5796 | @itemize @bullet | |
5797 | @item | |
5798 | global (or file-static) | |
5799 | @end itemize | |
5800 | ||
5d161b24 | 5801 | @noindent or |
c906108c SS |
5802 | |
5803 | @itemize @bullet | |
5804 | @item | |
5805 | visible according to the scope rules of the | |
5806 | programming language from the point of execution in that frame | |
5d161b24 | 5807 | @end itemize |
c906108c SS |
5808 | |
5809 | @noindent This means that in the function | |
5810 | ||
474c8240 | 5811 | @smallexample |
c906108c SS |
5812 | foo (a) |
5813 | int a; | |
5814 | @{ | |
5815 | bar (a); | |
5816 | @{ | |
5817 | int b = test (); | |
5818 | bar (b); | |
5819 | @} | |
5820 | @} | |
474c8240 | 5821 | @end smallexample |
c906108c SS |
5822 | |
5823 | @noindent | |
5824 | you can examine and use the variable @code{a} whenever your program is | |
5825 | executing within the function @code{foo}, but you can only use or | |
5826 | examine the variable @code{b} while your program is executing inside | |
5827 | the block where @code{b} is declared. | |
5828 | ||
5829 | @cindex variable name conflict | |
5830 | There is an exception: you can refer to a variable or function whose | |
5831 | scope is a single source file even if the current execution point is not | |
5832 | in this file. But it is possible to have more than one such variable or | |
5833 | function with the same name (in different source files). If that | |
5834 | happens, referring to that name has unpredictable effects. If you wish, | |
5835 | you can specify a static variable in a particular function or file, | |
15387254 | 5836 | using the colon-colon (@code{::}) notation: |
c906108c | 5837 | |
d4f3574e | 5838 | @cindex colon-colon, context for variables/functions |
12c27660 | 5839 | @ifnotinfo |
c906108c | 5840 | @c info cannot cope with a :: index entry, but why deprive hard copy readers? |
41afff9a | 5841 | @cindex @code{::}, context for variables/functions |
12c27660 | 5842 | @end ifnotinfo |
474c8240 | 5843 | @smallexample |
c906108c SS |
5844 | @var{file}::@var{variable} |
5845 | @var{function}::@var{variable} | |
474c8240 | 5846 | @end smallexample |
c906108c SS |
5847 | |
5848 | @noindent | |
5849 | Here @var{file} or @var{function} is the name of the context for the | |
5850 | static @var{variable}. In the case of file names, you can use quotes to | |
5851 | make sure @value{GDBN} parses the file name as a single word---for example, | |
5852 | to print a global value of @code{x} defined in @file{f2.c}: | |
5853 | ||
474c8240 | 5854 | @smallexample |
c906108c | 5855 | (@value{GDBP}) p 'f2.c'::x |
474c8240 | 5856 | @end smallexample |
c906108c | 5857 | |
b37052ae | 5858 | @cindex C@t{++} scope resolution |
c906108c | 5859 | This use of @samp{::} is very rarely in conflict with the very similar |
b37052ae | 5860 | use of the same notation in C@t{++}. @value{GDBN} also supports use of the C@t{++} |
c906108c SS |
5861 | scope resolution operator in @value{GDBN} expressions. |
5862 | @c FIXME: Um, so what happens in one of those rare cases where it's in | |
5863 | @c conflict?? --mew | |
c906108c SS |
5864 | |
5865 | @cindex wrong values | |
5866 | @cindex variable values, wrong | |
15387254 EZ |
5867 | @cindex function entry/exit, wrong values of variables |
5868 | @cindex optimized code, wrong values of variables | |
c906108c SS |
5869 | @quotation |
5870 | @emph{Warning:} Occasionally, a local variable may appear to have the | |
5871 | wrong value at certain points in a function---just after entry to a new | |
5872 | scope, and just before exit. | |
5873 | @end quotation | |
5874 | You may see this problem when you are stepping by machine instructions. | |
5875 | This is because, on most machines, it takes more than one instruction to | |
5876 | set up a stack frame (including local variable definitions); if you are | |
5877 | stepping by machine instructions, variables may appear to have the wrong | |
5878 | values until the stack frame is completely built. On exit, it usually | |
5879 | also takes more than one machine instruction to destroy a stack frame; | |
5880 | after you begin stepping through that group of instructions, local | |
5881 | variable definitions may be gone. | |
5882 | ||
5883 | This may also happen when the compiler does significant optimizations. | |
5884 | To be sure of always seeing accurate values, turn off all optimization | |
5885 | when compiling. | |
5886 | ||
d4f3574e SS |
5887 | @cindex ``No symbol "foo" in current context'' |
5888 | Another possible effect of compiler optimizations is to optimize | |
5889 | unused variables out of existence, or assign variables to registers (as | |
5890 | opposed to memory addresses). Depending on the support for such cases | |
5891 | offered by the debug info format used by the compiler, @value{GDBN} | |
5892 | might not be able to display values for such local variables. If that | |
5893 | happens, @value{GDBN} will print a message like this: | |
5894 | ||
474c8240 | 5895 | @smallexample |
d4f3574e | 5896 | No symbol "foo" in current context. |
474c8240 | 5897 | @end smallexample |
d4f3574e SS |
5898 | |
5899 | To solve such problems, either recompile without optimizations, or use a | |
5900 | different debug info format, if the compiler supports several such | |
15387254 | 5901 | formats. For example, @value{NGCC}, the @sc{gnu} C/C@t{++} compiler, |
0179ffac DC |
5902 | usually supports the @option{-gstabs+} option. @option{-gstabs+} |
5903 | produces debug info in a format that is superior to formats such as | |
5904 | COFF. You may be able to use DWARF 2 (@option{-gdwarf-2}), which is also | |
5905 | an effective form for debug info. @xref{Debugging Options,,Options | |
ce9341a1 BW |
5906 | for Debugging Your Program or GCC, gcc.info, Using the @sc{gnu} |
5907 | Compiler Collection (GCC)}. | |
79a6e687 | 5908 | @xref{C, ,C and C@t{++}}, for more information about debug info formats |
15387254 | 5909 | that are best suited to C@t{++} programs. |
d4f3574e | 5910 | |
ab1adacd EZ |
5911 | If you ask to print an object whose contents are unknown to |
5912 | @value{GDBN}, e.g., because its data type is not completely specified | |
5913 | by the debug information, @value{GDBN} will say @samp{<incomplete | |
5914 | type>}. @xref{Symbols, incomplete type}, for more about this. | |
5915 | ||
3a60f64e JK |
5916 | Strings are identified as arrays of @code{char} values without specified |
5917 | signedness. Arrays of either @code{signed char} or @code{unsigned char} get | |
5918 | printed as arrays of 1 byte sized integers. @code{-fsigned-char} or | |
5919 | @code{-funsigned-char} @value{NGCC} options have no effect as @value{GDBN} | |
5920 | defines literal string type @code{"char"} as @code{char} without a sign. | |
5921 | For program code | |
5922 | ||
5923 | @smallexample | |
5924 | char var0[] = "A"; | |
5925 | signed char var1[] = "A"; | |
5926 | @end smallexample | |
5927 | ||
5928 | You get during debugging | |
5929 | @smallexample | |
5930 | (gdb) print var0 | |
5931 | $1 = "A" | |
5932 | (gdb) print var1 | |
5933 | $2 = @{65 'A', 0 '\0'@} | |
5934 | @end smallexample | |
5935 | ||
6d2ebf8b | 5936 | @node Arrays |
79a6e687 | 5937 | @section Artificial Arrays |
c906108c SS |
5938 | |
5939 | @cindex artificial array | |
15387254 | 5940 | @cindex arrays |
41afff9a | 5941 | @kindex @@@r{, referencing memory as an array} |
c906108c SS |
5942 | It is often useful to print out several successive objects of the |
5943 | same type in memory; a section of an array, or an array of | |
5944 | dynamically determined size for which only a pointer exists in the | |
5945 | program. | |
5946 | ||
5947 | You can do this by referring to a contiguous span of memory as an | |
5948 | @dfn{artificial array}, using the binary operator @samp{@@}. The left | |
5949 | operand of @samp{@@} should be the first element of the desired array | |
5950 | and be an individual object. The right operand should be the desired length | |
5951 | of the array. The result is an array value whose elements are all of | |
5952 | the type of the left argument. The first element is actually the left | |
5953 | argument; the second element comes from bytes of memory immediately | |
5954 | following those that hold the first element, and so on. Here is an | |
5955 | example. If a program says | |
5956 | ||
474c8240 | 5957 | @smallexample |
c906108c | 5958 | int *array = (int *) malloc (len * sizeof (int)); |
474c8240 | 5959 | @end smallexample |
c906108c SS |
5960 | |
5961 | @noindent | |
5962 | you can print the contents of @code{array} with | |
5963 | ||
474c8240 | 5964 | @smallexample |
c906108c | 5965 | p *array@@len |
474c8240 | 5966 | @end smallexample |
c906108c SS |
5967 | |
5968 | The left operand of @samp{@@} must reside in memory. Array values made | |
5969 | with @samp{@@} in this way behave just like other arrays in terms of | |
5970 | subscripting, and are coerced to pointers when used in expressions. | |
5971 | Artificial arrays most often appear in expressions via the value history | |
79a6e687 | 5972 | (@pxref{Value History, ,Value History}), after printing one out. |
c906108c SS |
5973 | |
5974 | Another way to create an artificial array is to use a cast. | |
5975 | This re-interprets a value as if it were an array. | |
5976 | The value need not be in memory: | |
474c8240 | 5977 | @smallexample |
c906108c SS |
5978 | (@value{GDBP}) p/x (short[2])0x12345678 |
5979 | $1 = @{0x1234, 0x5678@} | |
474c8240 | 5980 | @end smallexample |
c906108c SS |
5981 | |
5982 | As a convenience, if you leave the array length out (as in | |
c3f6f71d | 5983 | @samp{(@var{type}[])@var{value}}) @value{GDBN} calculates the size to fill |
c906108c | 5984 | the value (as @samp{sizeof(@var{value})/sizeof(@var{type})}: |
474c8240 | 5985 | @smallexample |
c906108c SS |
5986 | (@value{GDBP}) p/x (short[])0x12345678 |
5987 | $2 = @{0x1234, 0x5678@} | |
474c8240 | 5988 | @end smallexample |
c906108c SS |
5989 | |
5990 | Sometimes the artificial array mechanism is not quite enough; in | |
5991 | moderately complex data structures, the elements of interest may not | |
5992 | actually be adjacent---for example, if you are interested in the values | |
5993 | of pointers in an array. One useful work-around in this situation is | |
5994 | to use a convenience variable (@pxref{Convenience Vars, ,Convenience | |
79a6e687 | 5995 | Variables}) as a counter in an expression that prints the first |
c906108c SS |
5996 | interesting value, and then repeat that expression via @key{RET}. For |
5997 | instance, suppose you have an array @code{dtab} of pointers to | |
5998 | structures, and you are interested in the values of a field @code{fv} | |
5999 | in each structure. Here is an example of what you might type: | |
6000 | ||
474c8240 | 6001 | @smallexample |
c906108c SS |
6002 | set $i = 0 |
6003 | p dtab[$i++]->fv | |
6004 | @key{RET} | |
6005 | @key{RET} | |
6006 | @dots{} | |
474c8240 | 6007 | @end smallexample |
c906108c | 6008 | |
6d2ebf8b | 6009 | @node Output Formats |
79a6e687 | 6010 | @section Output Formats |
c906108c SS |
6011 | |
6012 | @cindex formatted output | |
6013 | @cindex output formats | |
6014 | By default, @value{GDBN} prints a value according to its data type. Sometimes | |
6015 | this is not what you want. For example, you might want to print a number | |
6016 | in hex, or a pointer in decimal. Or you might want to view data in memory | |
6017 | at a certain address as a character string or as an instruction. To do | |
6018 | these things, specify an @dfn{output format} when you print a value. | |
6019 | ||
6020 | The simplest use of output formats is to say how to print a value | |
6021 | already computed. This is done by starting the arguments of the | |
6022 | @code{print} command with a slash and a format letter. The format | |
6023 | letters supported are: | |
6024 | ||
6025 | @table @code | |
6026 | @item x | |
6027 | Regard the bits of the value as an integer, and print the integer in | |
6028 | hexadecimal. | |
6029 | ||
6030 | @item d | |
6031 | Print as integer in signed decimal. | |
6032 | ||
6033 | @item u | |
6034 | Print as integer in unsigned decimal. | |
6035 | ||
6036 | @item o | |
6037 | Print as integer in octal. | |
6038 | ||
6039 | @item t | |
6040 | Print as integer in binary. The letter @samp{t} stands for ``two''. | |
6041 | @footnote{@samp{b} cannot be used because these format letters are also | |
6042 | used with the @code{x} command, where @samp{b} stands for ``byte''; | |
79a6e687 | 6043 | see @ref{Memory,,Examining Memory}.} |
c906108c SS |
6044 | |
6045 | @item a | |
6046 | @cindex unknown address, locating | |
3d67e040 | 6047 | @cindex locate address |
c906108c SS |
6048 | Print as an address, both absolute in hexadecimal and as an offset from |
6049 | the nearest preceding symbol. You can use this format used to discover | |
6050 | where (in what function) an unknown address is located: | |
6051 | ||
474c8240 | 6052 | @smallexample |
c906108c SS |
6053 | (@value{GDBP}) p/a 0x54320 |
6054 | $3 = 0x54320 <_initialize_vx+396> | |
474c8240 | 6055 | @end smallexample |
c906108c | 6056 | |
3d67e040 EZ |
6057 | @noindent |
6058 | The command @code{info symbol 0x54320} yields similar results. | |
6059 | @xref{Symbols, info symbol}. | |
6060 | ||
c906108c | 6061 | @item c |
51274035 EZ |
6062 | Regard as an integer and print it as a character constant. This |
6063 | prints both the numerical value and its character representation. The | |
6064 | character representation is replaced with the octal escape @samp{\nnn} | |
6065 | for characters outside the 7-bit @sc{ascii} range. | |
c906108c | 6066 | |
ea37ba09 DJ |
6067 | Without this format, @value{GDBN} displays @code{char}, |
6068 | @w{@code{unsigned char}}, and @w{@code{signed char}} data as character | |
6069 | constants. Single-byte members of vectors are displayed as integer | |
6070 | data. | |
6071 | ||
c906108c SS |
6072 | @item f |
6073 | Regard the bits of the value as a floating point number and print | |
6074 | using typical floating point syntax. | |
ea37ba09 DJ |
6075 | |
6076 | @item s | |
6077 | @cindex printing strings | |
6078 | @cindex printing byte arrays | |
6079 | Regard as a string, if possible. With this format, pointers to single-byte | |
6080 | data are displayed as null-terminated strings and arrays of single-byte data | |
6081 | are displayed as fixed-length strings. Other values are displayed in their | |
6082 | natural types. | |
6083 | ||
6084 | Without this format, @value{GDBN} displays pointers to and arrays of | |
6085 | @code{char}, @w{@code{unsigned char}}, and @w{@code{signed char}} as | |
6086 | strings. Single-byte members of a vector are displayed as an integer | |
6087 | array. | |
c906108c SS |
6088 | @end table |
6089 | ||
6090 | For example, to print the program counter in hex (@pxref{Registers}), type | |
6091 | ||
474c8240 | 6092 | @smallexample |
c906108c | 6093 | p/x $pc |
474c8240 | 6094 | @end smallexample |
c906108c SS |
6095 | |
6096 | @noindent | |
6097 | Note that no space is required before the slash; this is because command | |
6098 | names in @value{GDBN} cannot contain a slash. | |
6099 | ||
6100 | To reprint the last value in the value history with a different format, | |
6101 | you can use the @code{print} command with just a format and no | |
6102 | expression. For example, @samp{p/x} reprints the last value in hex. | |
6103 | ||
6d2ebf8b | 6104 | @node Memory |
79a6e687 | 6105 | @section Examining Memory |
c906108c SS |
6106 | |
6107 | You can use the command @code{x} (for ``examine'') to examine memory in | |
6108 | any of several formats, independently of your program's data types. | |
6109 | ||
6110 | @cindex examining memory | |
6111 | @table @code | |
41afff9a | 6112 | @kindex x @r{(examine memory)} |
c906108c SS |
6113 | @item x/@var{nfu} @var{addr} |
6114 | @itemx x @var{addr} | |
6115 | @itemx x | |
6116 | Use the @code{x} command to examine memory. | |
6117 | @end table | |
6118 | ||
6119 | @var{n}, @var{f}, and @var{u} are all optional parameters that specify how | |
6120 | much memory to display and how to format it; @var{addr} is an | |
6121 | expression giving the address where you want to start displaying memory. | |
6122 | If you use defaults for @var{nfu}, you need not type the slash @samp{/}. | |
6123 | Several commands set convenient defaults for @var{addr}. | |
6124 | ||
6125 | @table @r | |
6126 | @item @var{n}, the repeat count | |
6127 | The repeat count is a decimal integer; the default is 1. It specifies | |
6128 | how much memory (counting by units @var{u}) to display. | |
6129 | @c This really is **decimal**; unaffected by 'set radix' as of GDB | |
6130 | @c 4.1.2. | |
6131 | ||
6132 | @item @var{f}, the display format | |
51274035 EZ |
6133 | The display format is one of the formats used by @code{print} |
6134 | (@samp{x}, @samp{d}, @samp{u}, @samp{o}, @samp{t}, @samp{a}, @samp{c}, | |
ea37ba09 DJ |
6135 | @samp{f}, @samp{s}), and in addition @samp{i} (for machine instructions). |
6136 | The default is @samp{x} (hexadecimal) initially. The default changes | |
6137 | each time you use either @code{x} or @code{print}. | |
c906108c SS |
6138 | |
6139 | @item @var{u}, the unit size | |
6140 | The unit size is any of | |
6141 | ||
6142 | @table @code | |
6143 | @item b | |
6144 | Bytes. | |
6145 | @item h | |
6146 | Halfwords (two bytes). | |
6147 | @item w | |
6148 | Words (four bytes). This is the initial default. | |
6149 | @item g | |
6150 | Giant words (eight bytes). | |
6151 | @end table | |
6152 | ||
6153 | Each time you specify a unit size with @code{x}, that size becomes the | |
6154 | default unit the next time you use @code{x}. (For the @samp{s} and | |
6155 | @samp{i} formats, the unit size is ignored and is normally not written.) | |
6156 | ||
6157 | @item @var{addr}, starting display address | |
6158 | @var{addr} is the address where you want @value{GDBN} to begin displaying | |
6159 | memory. The expression need not have a pointer value (though it may); | |
6160 | it is always interpreted as an integer address of a byte of memory. | |
6161 | @xref{Expressions, ,Expressions}, for more information on expressions. The default for | |
6162 | @var{addr} is usually just after the last address examined---but several | |
6163 | other commands also set the default address: @code{info breakpoints} (to | |
6164 | the address of the last breakpoint listed), @code{info line} (to the | |
6165 | starting address of a line), and @code{print} (if you use it to display | |
6166 | a value from memory). | |
6167 | @end table | |
6168 | ||
6169 | For example, @samp{x/3uh 0x54320} is a request to display three halfwords | |
6170 | (@code{h}) of memory, formatted as unsigned decimal integers (@samp{u}), | |
6171 | starting at address @code{0x54320}. @samp{x/4xw $sp} prints the four | |
6172 | words (@samp{w}) of memory above the stack pointer (here, @samp{$sp}; | |
d4f3574e | 6173 | @pxref{Registers, ,Registers}) in hexadecimal (@samp{x}). |
c906108c SS |
6174 | |
6175 | Since the letters indicating unit sizes are all distinct from the | |
6176 | letters specifying output formats, you do not have to remember whether | |
6177 | unit size or format comes first; either order works. The output | |
6178 | specifications @samp{4xw} and @samp{4wx} mean exactly the same thing. | |
6179 | (However, the count @var{n} must come first; @samp{wx4} does not work.) | |
6180 | ||
6181 | Even though the unit size @var{u} is ignored for the formats @samp{s} | |
6182 | and @samp{i}, you might still want to use a count @var{n}; for example, | |
6183 | @samp{3i} specifies that you want to see three machine instructions, | |
a4642986 MR |
6184 | including any operands. For convenience, especially when used with |
6185 | the @code{display} command, the @samp{i} format also prints branch delay | |
6186 | slot instructions, if any, beyond the count specified, which immediately | |
6187 | follow the last instruction that is within the count. The command | |
6188 | @code{disassemble} gives an alternative way of inspecting machine | |
6189 | instructions; see @ref{Machine Code,,Source and Machine Code}. | |
c906108c SS |
6190 | |
6191 | All the defaults for the arguments to @code{x} are designed to make it | |
6192 | easy to continue scanning memory with minimal specifications each time | |
6193 | you use @code{x}. For example, after you have inspected three machine | |
6194 | instructions with @samp{x/3i @var{addr}}, you can inspect the next seven | |
6195 | with just @samp{x/7}. If you use @key{RET} to repeat the @code{x} command, | |
6196 | the repeat count @var{n} is used again; the other arguments default as | |
6197 | for successive uses of @code{x}. | |
6198 | ||
6199 | @cindex @code{$_}, @code{$__}, and value history | |
6200 | The addresses and contents printed by the @code{x} command are not saved | |
6201 | in the value history because there is often too much of them and they | |
6202 | would get in the way. Instead, @value{GDBN} makes these values available for | |
6203 | subsequent use in expressions as values of the convenience variables | |
6204 | @code{$_} and @code{$__}. After an @code{x} command, the last address | |
6205 | examined is available for use in expressions in the convenience variable | |
6206 | @code{$_}. The contents of that address, as examined, are available in | |
6207 | the convenience variable @code{$__}. | |
6208 | ||
6209 | If the @code{x} command has a repeat count, the address and contents saved | |
6210 | are from the last memory unit printed; this is not the same as the last | |
6211 | address printed if several units were printed on the last line of output. | |
6212 | ||
09d4efe1 EZ |
6213 | @cindex remote memory comparison |
6214 | @cindex verify remote memory image | |
6215 | When you are debugging a program running on a remote target machine | |
ea35711c | 6216 | (@pxref{Remote Debugging}), you may wish to verify the program's image in the |
09d4efe1 EZ |
6217 | remote machine's memory against the executable file you downloaded to |
6218 | the target. The @code{compare-sections} command is provided for such | |
6219 | situations. | |
6220 | ||
6221 | @table @code | |
6222 | @kindex compare-sections | |
6223 | @item compare-sections @r{[}@var{section-name}@r{]} | |
6224 | Compare the data of a loadable section @var{section-name} in the | |
6225 | executable file of the program being debugged with the same section in | |
6226 | the remote machine's memory, and report any mismatches. With no | |
6227 | arguments, compares all loadable sections. This command's | |
6228 | availability depends on the target's support for the @code{"qCRC"} | |
6229 | remote request. | |
6230 | @end table | |
6231 | ||
6d2ebf8b | 6232 | @node Auto Display |
79a6e687 | 6233 | @section Automatic Display |
c906108c SS |
6234 | @cindex automatic display |
6235 | @cindex display of expressions | |
6236 | ||
6237 | If you find that you want to print the value of an expression frequently | |
6238 | (to see how it changes), you might want to add it to the @dfn{automatic | |
6239 | display list} so that @value{GDBN} prints its value each time your program stops. | |
6240 | Each expression added to the list is given a number to identify it; | |
6241 | to remove an expression from the list, you specify that number. | |
6242 | The automatic display looks like this: | |
6243 | ||
474c8240 | 6244 | @smallexample |
c906108c SS |
6245 | 2: foo = 38 |
6246 | 3: bar[5] = (struct hack *) 0x3804 | |
474c8240 | 6247 | @end smallexample |
c906108c SS |
6248 | |
6249 | @noindent | |
6250 | This display shows item numbers, expressions and their current values. As with | |
6251 | displays you request manually using @code{x} or @code{print}, you can | |
6252 | specify the output format you prefer; in fact, @code{display} decides | |
ea37ba09 DJ |
6253 | whether to use @code{print} or @code{x} depending your format |
6254 | specification---it uses @code{x} if you specify either the @samp{i} | |
6255 | or @samp{s} format, or a unit size; otherwise it uses @code{print}. | |
c906108c SS |
6256 | |
6257 | @table @code | |
6258 | @kindex display | |
d4f3574e SS |
6259 | @item display @var{expr} |
6260 | Add the expression @var{expr} to the list of expressions to display | |
c906108c SS |
6261 | each time your program stops. @xref{Expressions, ,Expressions}. |
6262 | ||
6263 | @code{display} does not repeat if you press @key{RET} again after using it. | |
6264 | ||
d4f3574e | 6265 | @item display/@var{fmt} @var{expr} |
c906108c | 6266 | For @var{fmt} specifying only a display format and not a size or |
d4f3574e | 6267 | count, add the expression @var{expr} to the auto-display list but |
c906108c | 6268 | arrange to display it each time in the specified format @var{fmt}. |
79a6e687 | 6269 | @xref{Output Formats,,Output Formats}. |
c906108c SS |
6270 | |
6271 | @item display/@var{fmt} @var{addr} | |
6272 | For @var{fmt} @samp{i} or @samp{s}, or including a unit-size or a | |
6273 | number of units, add the expression @var{addr} as a memory address to | |
6274 | be examined each time your program stops. Examining means in effect | |
79a6e687 | 6275 | doing @samp{x/@var{fmt} @var{addr}}. @xref{Memory, ,Examining Memory}. |
c906108c SS |
6276 | @end table |
6277 | ||
6278 | For example, @samp{display/i $pc} can be helpful, to see the machine | |
6279 | instruction about to be executed each time execution stops (@samp{$pc} | |
d4f3574e | 6280 | is a common name for the program counter; @pxref{Registers, ,Registers}). |
c906108c SS |
6281 | |
6282 | @table @code | |
6283 | @kindex delete display | |
6284 | @kindex undisplay | |
6285 | @item undisplay @var{dnums}@dots{} | |
6286 | @itemx delete display @var{dnums}@dots{} | |
6287 | Remove item numbers @var{dnums} from the list of expressions to display. | |
6288 | ||
6289 | @code{undisplay} does not repeat if you press @key{RET} after using it. | |
6290 | (Otherwise you would just get the error @samp{No display number @dots{}}.) | |
6291 | ||
6292 | @kindex disable display | |
6293 | @item disable display @var{dnums}@dots{} | |
6294 | Disable the display of item numbers @var{dnums}. A disabled display | |
6295 | item is not printed automatically, but is not forgotten. It may be | |
6296 | enabled again later. | |
6297 | ||
6298 | @kindex enable display | |
6299 | @item enable display @var{dnums}@dots{} | |
6300 | Enable display of item numbers @var{dnums}. It becomes effective once | |
6301 | again in auto display of its expression, until you specify otherwise. | |
6302 | ||
6303 | @item display | |
6304 | Display the current values of the expressions on the list, just as is | |
6305 | done when your program stops. | |
6306 | ||
6307 | @kindex info display | |
6308 | @item info display | |
6309 | Print the list of expressions previously set up to display | |
6310 | automatically, each one with its item number, but without showing the | |
6311 | values. This includes disabled expressions, which are marked as such. | |
6312 | It also includes expressions which would not be displayed right now | |
6313 | because they refer to automatic variables not currently available. | |
6314 | @end table | |
6315 | ||
15387254 | 6316 | @cindex display disabled out of scope |
c906108c SS |
6317 | If a display expression refers to local variables, then it does not make |
6318 | sense outside the lexical context for which it was set up. Such an | |
6319 | expression is disabled when execution enters a context where one of its | |
6320 | variables is not defined. For example, if you give the command | |
6321 | @code{display last_char} while inside a function with an argument | |
6322 | @code{last_char}, @value{GDBN} displays this argument while your program | |
6323 | continues to stop inside that function. When it stops elsewhere---where | |
6324 | there is no variable @code{last_char}---the display is disabled | |
6325 | automatically. The next time your program stops where @code{last_char} | |
6326 | is meaningful, you can enable the display expression once again. | |
6327 | ||
6d2ebf8b | 6328 | @node Print Settings |
79a6e687 | 6329 | @section Print Settings |
c906108c SS |
6330 | |
6331 | @cindex format options | |
6332 | @cindex print settings | |
6333 | @value{GDBN} provides the following ways to control how arrays, structures, | |
6334 | and symbols are printed. | |
6335 | ||
6336 | @noindent | |
6337 | These settings are useful for debugging programs in any language: | |
6338 | ||
6339 | @table @code | |
4644b6e3 | 6340 | @kindex set print |
c906108c SS |
6341 | @item set print address |
6342 | @itemx set print address on | |
4644b6e3 | 6343 | @cindex print/don't print memory addresses |
c906108c SS |
6344 | @value{GDBN} prints memory addresses showing the location of stack |
6345 | traces, structure values, pointer values, breakpoints, and so forth, | |
6346 | even when it also displays the contents of those addresses. The default | |
6347 | is @code{on}. For example, this is what a stack frame display looks like with | |
6348 | @code{set print address on}: | |
6349 | ||
6350 | @smallexample | |
6351 | @group | |
6352 | (@value{GDBP}) f | |
6353 | #0 set_quotes (lq=0x34c78 "<<", rq=0x34c88 ">>") | |
6354 | at input.c:530 | |
6355 | 530 if (lquote != def_lquote) | |
6356 | @end group | |
6357 | @end smallexample | |
6358 | ||
6359 | @item set print address off | |
6360 | Do not print addresses when displaying their contents. For example, | |
6361 | this is the same stack frame displayed with @code{set print address off}: | |
6362 | ||
6363 | @smallexample | |
6364 | @group | |
6365 | (@value{GDBP}) set print addr off | |
6366 | (@value{GDBP}) f | |
6367 | #0 set_quotes (lq="<<", rq=">>") at input.c:530 | |
6368 | 530 if (lquote != def_lquote) | |
6369 | @end group | |
6370 | @end smallexample | |
6371 | ||
6372 | You can use @samp{set print address off} to eliminate all machine | |
6373 | dependent displays from the @value{GDBN} interface. For example, with | |
6374 | @code{print address off}, you should get the same text for backtraces on | |
6375 | all machines---whether or not they involve pointer arguments. | |
6376 | ||
4644b6e3 | 6377 | @kindex show print |
c906108c SS |
6378 | @item show print address |
6379 | Show whether or not addresses are to be printed. | |
6380 | @end table | |
6381 | ||
6382 | When @value{GDBN} prints a symbolic address, it normally prints the | |
6383 | closest earlier symbol plus an offset. If that symbol does not uniquely | |
6384 | identify the address (for example, it is a name whose scope is a single | |
6385 | source file), you may need to clarify. One way to do this is with | |
6386 | @code{info line}, for example @samp{info line *0x4537}. Alternately, | |
6387 | you can set @value{GDBN} to print the source file and line number when | |
6388 | it prints a symbolic address: | |
6389 | ||
6390 | @table @code | |
c906108c | 6391 | @item set print symbol-filename on |
9c16f35a EZ |
6392 | @cindex source file and line of a symbol |
6393 | @cindex symbol, source file and line | |
c906108c SS |
6394 | Tell @value{GDBN} to print the source file name and line number of a |
6395 | symbol in the symbolic form of an address. | |
6396 | ||
6397 | @item set print symbol-filename off | |
6398 | Do not print source file name and line number of a symbol. This is the | |
6399 | default. | |
6400 | ||
c906108c SS |
6401 | @item show print symbol-filename |
6402 | Show whether or not @value{GDBN} will print the source file name and | |
6403 | line number of a symbol in the symbolic form of an address. | |
6404 | @end table | |
6405 | ||
6406 | Another situation where it is helpful to show symbol filenames and line | |
6407 | numbers is when disassembling code; @value{GDBN} shows you the line | |
6408 | number and source file that corresponds to each instruction. | |
6409 | ||
6410 | Also, you may wish to see the symbolic form only if the address being | |
6411 | printed is reasonably close to the closest earlier symbol: | |
6412 | ||
6413 | @table @code | |
c906108c | 6414 | @item set print max-symbolic-offset @var{max-offset} |
4644b6e3 | 6415 | @cindex maximum value for offset of closest symbol |
c906108c SS |
6416 | Tell @value{GDBN} to only display the symbolic form of an address if the |
6417 | offset between the closest earlier symbol and the address is less than | |
5d161b24 | 6418 | @var{max-offset}. The default is 0, which tells @value{GDBN} |
c906108c SS |
6419 | to always print the symbolic form of an address if any symbol precedes it. |
6420 | ||
c906108c SS |
6421 | @item show print max-symbolic-offset |
6422 | Ask how large the maximum offset is that @value{GDBN} prints in a | |
6423 | symbolic address. | |
6424 | @end table | |
6425 | ||
6426 | @cindex wild pointer, interpreting | |
6427 | @cindex pointer, finding referent | |
6428 | If you have a pointer and you are not sure where it points, try | |
6429 | @samp{set print symbol-filename on}. Then you can determine the name | |
6430 | and source file location of the variable where it points, using | |
6431 | @samp{p/a @var{pointer}}. This interprets the address in symbolic form. | |
6432 | For example, here @value{GDBN} shows that a variable @code{ptt} points | |
6433 | at another variable @code{t}, defined in @file{hi2.c}: | |
6434 | ||
474c8240 | 6435 | @smallexample |
c906108c SS |
6436 | (@value{GDBP}) set print symbol-filename on |
6437 | (@value{GDBP}) p/a ptt | |
6438 | $4 = 0xe008 <t in hi2.c> | |
474c8240 | 6439 | @end smallexample |
c906108c SS |
6440 | |
6441 | @quotation | |
6442 | @emph{Warning:} For pointers that point to a local variable, @samp{p/a} | |
6443 | does not show the symbol name and filename of the referent, even with | |
6444 | the appropriate @code{set print} options turned on. | |
6445 | @end quotation | |
6446 | ||
6447 | Other settings control how different kinds of objects are printed: | |
6448 | ||
6449 | @table @code | |
c906108c SS |
6450 | @item set print array |
6451 | @itemx set print array on | |
4644b6e3 | 6452 | @cindex pretty print arrays |
c906108c SS |
6453 | Pretty print arrays. This format is more convenient to read, |
6454 | but uses more space. The default is off. | |
6455 | ||
6456 | @item set print array off | |
6457 | Return to compressed format for arrays. | |
6458 | ||
c906108c SS |
6459 | @item show print array |
6460 | Show whether compressed or pretty format is selected for displaying | |
6461 | arrays. | |
6462 | ||
3c9c013a JB |
6463 | @cindex print array indexes |
6464 | @item set print array-indexes | |
6465 | @itemx set print array-indexes on | |
6466 | Print the index of each element when displaying arrays. May be more | |
6467 | convenient to locate a given element in the array or quickly find the | |
6468 | index of a given element in that printed array. The default is off. | |
6469 | ||
6470 | @item set print array-indexes off | |
6471 | Stop printing element indexes when displaying arrays. | |
6472 | ||
6473 | @item show print array-indexes | |
6474 | Show whether the index of each element is printed when displaying | |
6475 | arrays. | |
6476 | ||
c906108c | 6477 | @item set print elements @var{number-of-elements} |
4644b6e3 | 6478 | @cindex number of array elements to print |
9c16f35a | 6479 | @cindex limit on number of printed array elements |
c906108c SS |
6480 | Set a limit on how many elements of an array @value{GDBN} will print. |
6481 | If @value{GDBN} is printing a large array, it stops printing after it has | |
6482 | printed the number of elements set by the @code{set print elements} command. | |
6483 | This limit also applies to the display of strings. | |
d4f3574e | 6484 | When @value{GDBN} starts, this limit is set to 200. |
c906108c SS |
6485 | Setting @var{number-of-elements} to zero means that the printing is unlimited. |
6486 | ||
c906108c SS |
6487 | @item show print elements |
6488 | Display the number of elements of a large array that @value{GDBN} will print. | |
6489 | If the number is 0, then the printing is unlimited. | |
6490 | ||
b4740add JB |
6491 | @item set print frame-arguments @var{value} |
6492 | @cindex printing frame argument values | |
6493 | @cindex print all frame argument values | |
6494 | @cindex print frame argument values for scalars only | |
6495 | @cindex do not print frame argument values | |
6496 | This command allows to control how the values of arguments are printed | |
6497 | when the debugger prints a frame (@pxref{Frames}). The possible | |
6498 | values are: | |
6499 | ||
6500 | @table @code | |
6501 | @item all | |
6502 | The values of all arguments are printed. This is the default. | |
6503 | ||
6504 | @item scalars | |
6505 | Print the value of an argument only if it is a scalar. The value of more | |
6506 | complex arguments such as arrays, structures, unions, etc, is replaced | |
6507 | by @code{@dots{}}. Here is an example where only scalar arguments are shown: | |
6508 | ||
6509 | @smallexample | |
6510 | #1 0x08048361 in call_me (i=3, s=@dots{}, ss=0xbf8d508c, u=@dots{}, e=green) | |
6511 | at frame-args.c:23 | |
6512 | @end smallexample | |
6513 | ||
6514 | @item none | |
6515 | None of the argument values are printed. Instead, the value of each argument | |
6516 | is replaced by @code{@dots{}}. In this case, the example above now becomes: | |
6517 | ||
6518 | @smallexample | |
6519 | #1 0x08048361 in call_me (i=@dots{}, s=@dots{}, ss=@dots{}, u=@dots{}, e=@dots{}) | |
6520 | at frame-args.c:23 | |
6521 | @end smallexample | |
6522 | @end table | |
6523 | ||
6524 | By default, all argument values are always printed. But this command | |
6525 | can be useful in several cases. For instance, it can be used to reduce | |
6526 | the amount of information printed in each frame, making the backtrace | |
6527 | more readable. Also, this command can be used to improve performance | |
6528 | when displaying Ada frames, because the computation of large arguments | |
6529 | can sometimes be CPU-intensive, especiallly in large applications. | |
6530 | Setting @code{print frame-arguments} to @code{scalars} or @code{none} | |
6531 | avoids this computation, thus speeding up the display of each Ada frame. | |
6532 | ||
6533 | @item show print frame-arguments | |
6534 | Show how the value of arguments should be displayed when printing a frame. | |
6535 | ||
9c16f35a EZ |
6536 | @item set print repeats |
6537 | @cindex repeated array elements | |
6538 | Set the threshold for suppressing display of repeated array | |
d3e8051b | 6539 | elements. When the number of consecutive identical elements of an |
9c16f35a EZ |
6540 | array exceeds the threshold, @value{GDBN} prints the string |
6541 | @code{"<repeats @var{n} times>"}, where @var{n} is the number of | |
6542 | identical repetitions, instead of displaying the identical elements | |
6543 | themselves. Setting the threshold to zero will cause all elements to | |
6544 | be individually printed. The default threshold is 10. | |
6545 | ||
6546 | @item show print repeats | |
6547 | Display the current threshold for printing repeated identical | |
6548 | elements. | |
6549 | ||
c906108c | 6550 | @item set print null-stop |
4644b6e3 | 6551 | @cindex @sc{null} elements in arrays |
c906108c | 6552 | Cause @value{GDBN} to stop printing the characters of an array when the first |
d4f3574e | 6553 | @sc{null} is encountered. This is useful when large arrays actually |
c906108c | 6554 | contain only short strings. |
d4f3574e | 6555 | The default is off. |
c906108c | 6556 | |
9c16f35a EZ |
6557 | @item show print null-stop |
6558 | Show whether @value{GDBN} stops printing an array on the first | |
6559 | @sc{null} character. | |
6560 | ||
c906108c | 6561 | @item set print pretty on |
9c16f35a EZ |
6562 | @cindex print structures in indented form |
6563 | @cindex indentation in structure display | |
5d161b24 | 6564 | Cause @value{GDBN} to print structures in an indented format with one member |
c906108c SS |
6565 | per line, like this: |
6566 | ||
6567 | @smallexample | |
6568 | @group | |
6569 | $1 = @{ | |
6570 | next = 0x0, | |
6571 | flags = @{ | |
6572 | sweet = 1, | |
6573 | sour = 1 | |
6574 | @}, | |
6575 | meat = 0x54 "Pork" | |
6576 | @} | |
6577 | @end group | |
6578 | @end smallexample | |
6579 | ||
6580 | @item set print pretty off | |
6581 | Cause @value{GDBN} to print structures in a compact format, like this: | |
6582 | ||
6583 | @smallexample | |
6584 | @group | |
6585 | $1 = @{next = 0x0, flags = @{sweet = 1, sour = 1@}, \ | |
6586 | meat = 0x54 "Pork"@} | |
6587 | @end group | |
6588 | @end smallexample | |
6589 | ||
6590 | @noindent | |
6591 | This is the default format. | |
6592 | ||
c906108c SS |
6593 | @item show print pretty |
6594 | Show which format @value{GDBN} is using to print structures. | |
6595 | ||
c906108c | 6596 | @item set print sevenbit-strings on |
4644b6e3 EZ |
6597 | @cindex eight-bit characters in strings |
6598 | @cindex octal escapes in strings | |
c906108c SS |
6599 | Print using only seven-bit characters; if this option is set, |
6600 | @value{GDBN} displays any eight-bit characters (in strings or | |
6601 | character values) using the notation @code{\}@var{nnn}. This setting is | |
6602 | best if you are working in English (@sc{ascii}) and you use the | |
6603 | high-order bit of characters as a marker or ``meta'' bit. | |
6604 | ||
6605 | @item set print sevenbit-strings off | |
6606 | Print full eight-bit characters. This allows the use of more | |
6607 | international character sets, and is the default. | |
6608 | ||
c906108c SS |
6609 | @item show print sevenbit-strings |
6610 | Show whether or not @value{GDBN} is printing only seven-bit characters. | |
6611 | ||
c906108c | 6612 | @item set print union on |
4644b6e3 | 6613 | @cindex unions in structures, printing |
9c16f35a EZ |
6614 | Tell @value{GDBN} to print unions which are contained in structures |
6615 | and other unions. This is the default setting. | |
c906108c SS |
6616 | |
6617 | @item set print union off | |
9c16f35a EZ |
6618 | Tell @value{GDBN} not to print unions which are contained in |
6619 | structures and other unions. @value{GDBN} will print @code{"@{...@}"} | |
6620 | instead. | |
c906108c | 6621 | |
c906108c SS |
6622 | @item show print union |
6623 | Ask @value{GDBN} whether or not it will print unions which are contained in | |
9c16f35a | 6624 | structures and other unions. |
c906108c SS |
6625 | |
6626 | For example, given the declarations | |
6627 | ||
6628 | @smallexample | |
6629 | typedef enum @{Tree, Bug@} Species; | |
6630 | typedef enum @{Big_tree, Acorn, Seedling@} Tree_forms; | |
5d161b24 | 6631 | typedef enum @{Caterpillar, Cocoon, Butterfly@} |
c906108c SS |
6632 | Bug_forms; |
6633 | ||
6634 | struct thing @{ | |
6635 | Species it; | |
6636 | union @{ | |
6637 | Tree_forms tree; | |
6638 | Bug_forms bug; | |
6639 | @} form; | |
6640 | @}; | |
6641 | ||
6642 | struct thing foo = @{Tree, @{Acorn@}@}; | |
6643 | @end smallexample | |
6644 | ||
6645 | @noindent | |
6646 | with @code{set print union on} in effect @samp{p foo} would print | |
6647 | ||
6648 | @smallexample | |
6649 | $1 = @{it = Tree, form = @{tree = Acorn, bug = Cocoon@}@} | |
6650 | @end smallexample | |
6651 | ||
6652 | @noindent | |
6653 | and with @code{set print union off} in effect it would print | |
6654 | ||
6655 | @smallexample | |
6656 | $1 = @{it = Tree, form = @{...@}@} | |
6657 | @end smallexample | |
9c16f35a EZ |
6658 | |
6659 | @noindent | |
6660 | @code{set print union} affects programs written in C-like languages | |
6661 | and in Pascal. | |
c906108c SS |
6662 | @end table |
6663 | ||
c906108c SS |
6664 | @need 1000 |
6665 | @noindent | |
b37052ae | 6666 | These settings are of interest when debugging C@t{++} programs: |
c906108c SS |
6667 | |
6668 | @table @code | |
4644b6e3 | 6669 | @cindex demangling C@t{++} names |
c906108c SS |
6670 | @item set print demangle |
6671 | @itemx set print demangle on | |
b37052ae | 6672 | Print C@t{++} names in their source form rather than in the encoded |
c906108c | 6673 | (``mangled'') form passed to the assembler and linker for type-safe |
d4f3574e | 6674 | linkage. The default is on. |
c906108c | 6675 | |
c906108c | 6676 | @item show print demangle |
b37052ae | 6677 | Show whether C@t{++} names are printed in mangled or demangled form. |
c906108c | 6678 | |
c906108c SS |
6679 | @item set print asm-demangle |
6680 | @itemx set print asm-demangle on | |
b37052ae | 6681 | Print C@t{++} names in their source form rather than their mangled form, even |
c906108c SS |
6682 | in assembler code printouts such as instruction disassemblies. |
6683 | The default is off. | |
6684 | ||
c906108c | 6685 | @item show print asm-demangle |
b37052ae | 6686 | Show whether C@t{++} names in assembly listings are printed in mangled |
c906108c SS |
6687 | or demangled form. |
6688 | ||
b37052ae EZ |
6689 | @cindex C@t{++} symbol decoding style |
6690 | @cindex symbol decoding style, C@t{++} | |
a8f24a35 | 6691 | @kindex set demangle-style |
c906108c SS |
6692 | @item set demangle-style @var{style} |
6693 | Choose among several encoding schemes used by different compilers to | |
b37052ae | 6694 | represent C@t{++} names. The choices for @var{style} are currently: |
c906108c SS |
6695 | |
6696 | @table @code | |
6697 | @item auto | |
6698 | Allow @value{GDBN} to choose a decoding style by inspecting your program. | |
6699 | ||
6700 | @item gnu | |
b37052ae | 6701 | Decode based on the @sc{gnu} C@t{++} compiler (@code{g++}) encoding algorithm. |
c906108c | 6702 | This is the default. |
c906108c SS |
6703 | |
6704 | @item hp | |
b37052ae | 6705 | Decode based on the HP ANSI C@t{++} (@code{aCC}) encoding algorithm. |
c906108c SS |
6706 | |
6707 | @item lucid | |
b37052ae | 6708 | Decode based on the Lucid C@t{++} compiler (@code{lcc}) encoding algorithm. |
c906108c SS |
6709 | |
6710 | @item arm | |
b37052ae | 6711 | Decode using the algorithm in the @cite{C@t{++} Annotated Reference Manual}. |
c906108c SS |
6712 | @strong{Warning:} this setting alone is not sufficient to allow |
6713 | debugging @code{cfront}-generated executables. @value{GDBN} would | |
6714 | require further enhancement to permit that. | |
6715 | ||
6716 | @end table | |
6717 | If you omit @var{style}, you will see a list of possible formats. | |
6718 | ||
c906108c | 6719 | @item show demangle-style |
b37052ae | 6720 | Display the encoding style currently in use for decoding C@t{++} symbols. |
c906108c | 6721 | |
c906108c SS |
6722 | @item set print object |
6723 | @itemx set print object on | |
4644b6e3 | 6724 | @cindex derived type of an object, printing |
9c16f35a | 6725 | @cindex display derived types |
c906108c SS |
6726 | When displaying a pointer to an object, identify the @emph{actual} |
6727 | (derived) type of the object rather than the @emph{declared} type, using | |
6728 | the virtual function table. | |
6729 | ||
6730 | @item set print object off | |
6731 | Display only the declared type of objects, without reference to the | |
6732 | virtual function table. This is the default setting. | |
6733 | ||
c906108c SS |
6734 | @item show print object |
6735 | Show whether actual, or declared, object types are displayed. | |
6736 | ||
c906108c SS |
6737 | @item set print static-members |
6738 | @itemx set print static-members on | |
4644b6e3 | 6739 | @cindex static members of C@t{++} objects |
b37052ae | 6740 | Print static members when displaying a C@t{++} object. The default is on. |
c906108c SS |
6741 | |
6742 | @item set print static-members off | |
b37052ae | 6743 | Do not print static members when displaying a C@t{++} object. |
c906108c | 6744 | |
c906108c | 6745 | @item show print static-members |
9c16f35a EZ |
6746 | Show whether C@t{++} static members are printed or not. |
6747 | ||
6748 | @item set print pascal_static-members | |
6749 | @itemx set print pascal_static-members on | |
d3e8051b EZ |
6750 | @cindex static members of Pascal objects |
6751 | @cindex Pascal objects, static members display | |
9c16f35a EZ |
6752 | Print static members when displaying a Pascal object. The default is on. |
6753 | ||
6754 | @item set print pascal_static-members off | |
6755 | Do not print static members when displaying a Pascal object. | |
6756 | ||
6757 | @item show print pascal_static-members | |
6758 | Show whether Pascal static members are printed or not. | |
c906108c SS |
6759 | |
6760 | @c These don't work with HP ANSI C++ yet. | |
c906108c SS |
6761 | @item set print vtbl |
6762 | @itemx set print vtbl on | |
4644b6e3 | 6763 | @cindex pretty print C@t{++} virtual function tables |
9c16f35a EZ |
6764 | @cindex virtual functions (C@t{++}) display |
6765 | @cindex VTBL display | |
b37052ae | 6766 | Pretty print C@t{++} virtual function tables. The default is off. |
c906108c | 6767 | (The @code{vtbl} commands do not work on programs compiled with the HP |
b37052ae | 6768 | ANSI C@t{++} compiler (@code{aCC}).) |
c906108c SS |
6769 | |
6770 | @item set print vtbl off | |
b37052ae | 6771 | Do not pretty print C@t{++} virtual function tables. |
c906108c | 6772 | |
c906108c | 6773 | @item show print vtbl |
b37052ae | 6774 | Show whether C@t{++} virtual function tables are pretty printed, or not. |
c906108c | 6775 | @end table |
c906108c | 6776 | |
6d2ebf8b | 6777 | @node Value History |
79a6e687 | 6778 | @section Value History |
c906108c SS |
6779 | |
6780 | @cindex value history | |
9c16f35a | 6781 | @cindex history of values printed by @value{GDBN} |
5d161b24 DB |
6782 | Values printed by the @code{print} command are saved in the @value{GDBN} |
6783 | @dfn{value history}. This allows you to refer to them in other expressions. | |
6784 | Values are kept until the symbol table is re-read or discarded | |
6785 | (for example with the @code{file} or @code{symbol-file} commands). | |
6786 | When the symbol table changes, the value history is discarded, | |
6787 | since the values may contain pointers back to the types defined in the | |
c906108c SS |
6788 | symbol table. |
6789 | ||
6790 | @cindex @code{$} | |
6791 | @cindex @code{$$} | |
6792 | @cindex history number | |
6793 | The values printed are given @dfn{history numbers} by which you can | |
6794 | refer to them. These are successive integers starting with one. | |
6795 | @code{print} shows you the history number assigned to a value by | |
6796 | printing @samp{$@var{num} = } before the value; here @var{num} is the | |
6797 | history number. | |
6798 | ||
6799 | To refer to any previous value, use @samp{$} followed by the value's | |
6800 | history number. The way @code{print} labels its output is designed to | |
6801 | remind you of this. Just @code{$} refers to the most recent value in | |
6802 | the history, and @code{$$} refers to the value before that. | |
6803 | @code{$$@var{n}} refers to the @var{n}th value from the end; @code{$$2} | |
6804 | is the value just prior to @code{$$}, @code{$$1} is equivalent to | |
6805 | @code{$$}, and @code{$$0} is equivalent to @code{$}. | |
6806 | ||
6807 | For example, suppose you have just printed a pointer to a structure and | |
6808 | want to see the contents of the structure. It suffices to type | |
6809 | ||
474c8240 | 6810 | @smallexample |
c906108c | 6811 | p *$ |
474c8240 | 6812 | @end smallexample |
c906108c SS |
6813 | |
6814 | If you have a chain of structures where the component @code{next} points | |
6815 | to the next one, you can print the contents of the next one with this: | |
6816 | ||
474c8240 | 6817 | @smallexample |
c906108c | 6818 | p *$.next |
474c8240 | 6819 | @end smallexample |
c906108c SS |
6820 | |
6821 | @noindent | |
6822 | You can print successive links in the chain by repeating this | |
6823 | command---which you can do by just typing @key{RET}. | |
6824 | ||
6825 | Note that the history records values, not expressions. If the value of | |
6826 | @code{x} is 4 and you type these commands: | |
6827 | ||
474c8240 | 6828 | @smallexample |
c906108c SS |
6829 | print x |
6830 | set x=5 | |
474c8240 | 6831 | @end smallexample |
c906108c SS |
6832 | |
6833 | @noindent | |
6834 | then the value recorded in the value history by the @code{print} command | |
6835 | remains 4 even though the value of @code{x} has changed. | |
6836 | ||
6837 | @table @code | |
6838 | @kindex show values | |
6839 | @item show values | |
6840 | Print the last ten values in the value history, with their item numbers. | |
6841 | This is like @samp{p@ $$9} repeated ten times, except that @code{show | |
6842 | values} does not change the history. | |
6843 | ||
6844 | @item show values @var{n} | |
6845 | Print ten history values centered on history item number @var{n}. | |
6846 | ||
6847 | @item show values + | |
6848 | Print ten history values just after the values last printed. If no more | |
6849 | values are available, @code{show values +} produces no display. | |
6850 | @end table | |
6851 | ||
6852 | Pressing @key{RET} to repeat @code{show values @var{n}} has exactly the | |
6853 | same effect as @samp{show values +}. | |
6854 | ||
6d2ebf8b | 6855 | @node Convenience Vars |
79a6e687 | 6856 | @section Convenience Variables |
c906108c SS |
6857 | |
6858 | @cindex convenience variables | |
9c16f35a | 6859 | @cindex user-defined variables |
c906108c SS |
6860 | @value{GDBN} provides @dfn{convenience variables} that you can use within |
6861 | @value{GDBN} to hold on to a value and refer to it later. These variables | |
6862 | exist entirely within @value{GDBN}; they are not part of your program, and | |
6863 | setting a convenience variable has no direct effect on further execution | |
6864 | of your program. That is why you can use them freely. | |
6865 | ||
6866 | Convenience variables are prefixed with @samp{$}. Any name preceded by | |
6867 | @samp{$} can be used for a convenience variable, unless it is one of | |
d4f3574e | 6868 | the predefined machine-specific register names (@pxref{Registers, ,Registers}). |
c906108c | 6869 | (Value history references, in contrast, are @emph{numbers} preceded |
79a6e687 | 6870 | by @samp{$}. @xref{Value History, ,Value History}.) |
c906108c SS |
6871 | |
6872 | You can save a value in a convenience variable with an assignment | |
6873 | expression, just as you would set a variable in your program. | |
6874 | For example: | |
6875 | ||
474c8240 | 6876 | @smallexample |
c906108c | 6877 | set $foo = *object_ptr |
474c8240 | 6878 | @end smallexample |
c906108c SS |
6879 | |
6880 | @noindent | |
6881 | would save in @code{$foo} the value contained in the object pointed to by | |
6882 | @code{object_ptr}. | |
6883 | ||
6884 | Using a convenience variable for the first time creates it, but its | |
6885 | value is @code{void} until you assign a new value. You can alter the | |
6886 | value with another assignment at any time. | |
6887 | ||
6888 | Convenience variables have no fixed types. You can assign a convenience | |
6889 | variable any type of value, including structures and arrays, even if | |
6890 | that variable already has a value of a different type. The convenience | |
6891 | variable, when used as an expression, has the type of its current value. | |
6892 | ||
6893 | @table @code | |
6894 | @kindex show convenience | |
9c16f35a | 6895 | @cindex show all user variables |
c906108c SS |
6896 | @item show convenience |
6897 | Print a list of convenience variables used so far, and their values. | |
d4f3574e | 6898 | Abbreviated @code{show conv}. |
53e5f3cf AS |
6899 | |
6900 | @kindex init-if-undefined | |
6901 | @cindex convenience variables, initializing | |
6902 | @item init-if-undefined $@var{variable} = @var{expression} | |
6903 | Set a convenience variable if it has not already been set. This is useful | |
6904 | for user-defined commands that keep some state. It is similar, in concept, | |
6905 | to using local static variables with initializers in C (except that | |
6906 | convenience variables are global). It can also be used to allow users to | |
6907 | override default values used in a command script. | |
6908 | ||
6909 | If the variable is already defined then the expression is not evaluated so | |
6910 | any side-effects do not occur. | |
c906108c SS |
6911 | @end table |
6912 | ||
6913 | One of the ways to use a convenience variable is as a counter to be | |
6914 | incremented or a pointer to be advanced. For example, to print | |
6915 | a field from successive elements of an array of structures: | |
6916 | ||
474c8240 | 6917 | @smallexample |
c906108c SS |
6918 | set $i = 0 |
6919 | print bar[$i++]->contents | |
474c8240 | 6920 | @end smallexample |
c906108c | 6921 | |
d4f3574e SS |
6922 | @noindent |
6923 | Repeat that command by typing @key{RET}. | |
c906108c SS |
6924 | |
6925 | Some convenience variables are created automatically by @value{GDBN} and given | |
6926 | values likely to be useful. | |
6927 | ||
6928 | @table @code | |
41afff9a | 6929 | @vindex $_@r{, convenience variable} |
c906108c SS |
6930 | @item $_ |
6931 | The variable @code{$_} is automatically set by the @code{x} command to | |
79a6e687 | 6932 | the last address examined (@pxref{Memory, ,Examining Memory}). Other |
c906108c SS |
6933 | commands which provide a default address for @code{x} to examine also |
6934 | set @code{$_} to that address; these commands include @code{info line} | |
6935 | and @code{info breakpoint}. The type of @code{$_} is @code{void *} | |
6936 | except when set by the @code{x} command, in which case it is a pointer | |
6937 | to the type of @code{$__}. | |
6938 | ||
41afff9a | 6939 | @vindex $__@r{, convenience variable} |
c906108c SS |
6940 | @item $__ |
6941 | The variable @code{$__} is automatically set by the @code{x} command | |
6942 | to the value found in the last address examined. Its type is chosen | |
6943 | to match the format in which the data was printed. | |
6944 | ||
6945 | @item $_exitcode | |
41afff9a | 6946 | @vindex $_exitcode@r{, convenience variable} |
c906108c SS |
6947 | The variable @code{$_exitcode} is automatically set to the exit code when |
6948 | the program being debugged terminates. | |
6949 | @end table | |
6950 | ||
53a5351d JM |
6951 | On HP-UX systems, if you refer to a function or variable name that |
6952 | begins with a dollar sign, @value{GDBN} searches for a user or system | |
6953 | name first, before it searches for a convenience variable. | |
c906108c | 6954 | |
6d2ebf8b | 6955 | @node Registers |
c906108c SS |
6956 | @section Registers |
6957 | ||
6958 | @cindex registers | |
6959 | You can refer to machine register contents, in expressions, as variables | |
6960 | with names starting with @samp{$}. The names of registers are different | |
6961 | for each machine; use @code{info registers} to see the names used on | |
6962 | your machine. | |
6963 | ||
6964 | @table @code | |
6965 | @kindex info registers | |
6966 | @item info registers | |
6967 | Print the names and values of all registers except floating-point | |
c85508ee | 6968 | and vector registers (in the selected stack frame). |
c906108c SS |
6969 | |
6970 | @kindex info all-registers | |
6971 | @cindex floating point registers | |
6972 | @item info all-registers | |
6973 | Print the names and values of all registers, including floating-point | |
c85508ee | 6974 | and vector registers (in the selected stack frame). |
c906108c SS |
6975 | |
6976 | @item info registers @var{regname} @dots{} | |
6977 | Print the @dfn{relativized} value of each specified register @var{regname}. | |
5d161b24 DB |
6978 | As discussed in detail below, register values are normally relative to |
6979 | the selected stack frame. @var{regname} may be any register name valid on | |
c906108c SS |
6980 | the machine you are using, with or without the initial @samp{$}. |
6981 | @end table | |
6982 | ||
e09f16f9 EZ |
6983 | @cindex stack pointer register |
6984 | @cindex program counter register | |
6985 | @cindex process status register | |
6986 | @cindex frame pointer register | |
6987 | @cindex standard registers | |
c906108c SS |
6988 | @value{GDBN} has four ``standard'' register names that are available (in |
6989 | expressions) on most machines---whenever they do not conflict with an | |
6990 | architecture's canonical mnemonics for registers. The register names | |
6991 | @code{$pc} and @code{$sp} are used for the program counter register and | |
6992 | the stack pointer. @code{$fp} is used for a register that contains a | |
6993 | pointer to the current stack frame, and @code{$ps} is used for a | |
6994 | register that contains the processor status. For example, | |
6995 | you could print the program counter in hex with | |
6996 | ||
474c8240 | 6997 | @smallexample |
c906108c | 6998 | p/x $pc |
474c8240 | 6999 | @end smallexample |
c906108c SS |
7000 | |
7001 | @noindent | |
7002 | or print the instruction to be executed next with | |
7003 | ||
474c8240 | 7004 | @smallexample |
c906108c | 7005 | x/i $pc |
474c8240 | 7006 | @end smallexample |
c906108c SS |
7007 | |
7008 | @noindent | |
7009 | or add four to the stack pointer@footnote{This is a way of removing | |
7010 | one word from the stack, on machines where stacks grow downward in | |
7011 | memory (most machines, nowadays). This assumes that the innermost | |
7012 | stack frame is selected; setting @code{$sp} is not allowed when other | |
7013 | stack frames are selected. To pop entire frames off the stack, | |
7014 | regardless of machine architecture, use @code{return}; | |
79a6e687 | 7015 | see @ref{Returning, ,Returning from a Function}.} with |
c906108c | 7016 | |
474c8240 | 7017 | @smallexample |
c906108c | 7018 | set $sp += 4 |
474c8240 | 7019 | @end smallexample |
c906108c SS |
7020 | |
7021 | Whenever possible, these four standard register names are available on | |
7022 | your machine even though the machine has different canonical mnemonics, | |
7023 | so long as there is no conflict. The @code{info registers} command | |
7024 | shows the canonical names. For example, on the SPARC, @code{info | |
7025 | registers} displays the processor status register as @code{$psr} but you | |
d4f3574e SS |
7026 | can also refer to it as @code{$ps}; and on x86-based machines @code{$ps} |
7027 | is an alias for the @sc{eflags} register. | |
c906108c SS |
7028 | |
7029 | @value{GDBN} always considers the contents of an ordinary register as an | |
7030 | integer when the register is examined in this way. Some machines have | |
7031 | special registers which can hold nothing but floating point; these | |
7032 | registers are considered to have floating point values. There is no way | |
7033 | to refer to the contents of an ordinary register as floating point value | |
7034 | (although you can @emph{print} it as a floating point value with | |
7035 | @samp{print/f $@var{regname}}). | |
7036 | ||
7037 | Some registers have distinct ``raw'' and ``virtual'' data formats. This | |
7038 | means that the data format in which the register contents are saved by | |
7039 | the operating system is not the same one that your program normally | |
7040 | sees. For example, the registers of the 68881 floating point | |
7041 | coprocessor are always saved in ``extended'' (raw) format, but all C | |
7042 | programs expect to work with ``double'' (virtual) format. In such | |
5d161b24 | 7043 | cases, @value{GDBN} normally works with the virtual format only (the format |
c906108c SS |
7044 | that makes sense for your program), but the @code{info registers} command |
7045 | prints the data in both formats. | |
7046 | ||
36b80e65 EZ |
7047 | @cindex SSE registers (x86) |
7048 | @cindex MMX registers (x86) | |
7049 | Some machines have special registers whose contents can be interpreted | |
7050 | in several different ways. For example, modern x86-based machines | |
7051 | have SSE and MMX registers that can hold several values packed | |
7052 | together in several different formats. @value{GDBN} refers to such | |
7053 | registers in @code{struct} notation: | |
7054 | ||
7055 | @smallexample | |
7056 | (@value{GDBP}) print $xmm1 | |
7057 | $1 = @{ | |
7058 | v4_float = @{0, 3.43859137e-038, 1.54142831e-044, 1.821688e-044@}, | |
7059 | v2_double = @{9.92129282474342e-303, 2.7585945287983262e-313@}, | |
7060 | v16_int8 = "\000\000\000\000\3706;\001\v\000\000\000\r\000\000", | |
7061 | v8_int16 = @{0, 0, 14072, 315, 11, 0, 13, 0@}, | |
7062 | v4_int32 = @{0, 20657912, 11, 13@}, | |
7063 | v2_int64 = @{88725056443645952, 55834574859@}, | |
7064 | uint128 = 0x0000000d0000000b013b36f800000000 | |
7065 | @} | |
7066 | @end smallexample | |
7067 | ||
7068 | @noindent | |
7069 | To set values of such registers, you need to tell @value{GDBN} which | |
7070 | view of the register you wish to change, as if you were assigning | |
7071 | value to a @code{struct} member: | |
7072 | ||
7073 | @smallexample | |
7074 | (@value{GDBP}) set $xmm1.uint128 = 0x000000000000000000000000FFFFFFFF | |
7075 | @end smallexample | |
7076 | ||
c906108c | 7077 | Normally, register values are relative to the selected stack frame |
79a6e687 | 7078 | (@pxref{Selection, ,Selecting a Frame}). This means that you get the |
c906108c SS |
7079 | value that the register would contain if all stack frames farther in |
7080 | were exited and their saved registers restored. In order to see the | |
7081 | true contents of hardware registers, you must select the innermost | |
7082 | frame (with @samp{frame 0}). | |
7083 | ||
7084 | However, @value{GDBN} must deduce where registers are saved, from the machine | |
7085 | code generated by your compiler. If some registers are not saved, or if | |
7086 | @value{GDBN} is unable to locate the saved registers, the selected stack | |
7087 | frame makes no difference. | |
7088 | ||
6d2ebf8b | 7089 | @node Floating Point Hardware |
79a6e687 | 7090 | @section Floating Point Hardware |
c906108c SS |
7091 | @cindex floating point |
7092 | ||
7093 | Depending on the configuration, @value{GDBN} may be able to give | |
7094 | you more information about the status of the floating point hardware. | |
7095 | ||
7096 | @table @code | |
7097 | @kindex info float | |
7098 | @item info float | |
7099 | Display hardware-dependent information about the floating | |
7100 | point unit. The exact contents and layout vary depending on the | |
7101 | floating point chip. Currently, @samp{info float} is supported on | |
7102 | the ARM and x86 machines. | |
7103 | @end table | |
c906108c | 7104 | |
e76f1f2e AC |
7105 | @node Vector Unit |
7106 | @section Vector Unit | |
7107 | @cindex vector unit | |
7108 | ||
7109 | Depending on the configuration, @value{GDBN} may be able to give you | |
7110 | more information about the status of the vector unit. | |
7111 | ||
7112 | @table @code | |
7113 | @kindex info vector | |
7114 | @item info vector | |
7115 | Display information about the vector unit. The exact contents and | |
7116 | layout vary depending on the hardware. | |
7117 | @end table | |
7118 | ||
721c2651 | 7119 | @node OS Information |
79a6e687 | 7120 | @section Operating System Auxiliary Information |
721c2651 EZ |
7121 | @cindex OS information |
7122 | ||
7123 | @value{GDBN} provides interfaces to useful OS facilities that can help | |
7124 | you debug your program. | |
7125 | ||
7126 | @cindex @code{ptrace} system call | |
7127 | @cindex @code{struct user} contents | |
7128 | When @value{GDBN} runs on a @dfn{Posix system} (such as GNU or Unix | |
7129 | machines), it interfaces with the inferior via the @code{ptrace} | |
7130 | system call. The operating system creates a special sata structure, | |
7131 | called @code{struct user}, for this interface. You can use the | |
7132 | command @code{info udot} to display the contents of this data | |
7133 | structure. | |
7134 | ||
7135 | @table @code | |
7136 | @item info udot | |
7137 | @kindex info udot | |
7138 | Display the contents of the @code{struct user} maintained by the OS | |
7139 | kernel for the program being debugged. @value{GDBN} displays the | |
7140 | contents of @code{struct user} as a list of hex numbers, similar to | |
7141 | the @code{examine} command. | |
7142 | @end table | |
7143 | ||
b383017d RM |
7144 | @cindex auxiliary vector |
7145 | @cindex vector, auxiliary | |
b383017d RM |
7146 | Some operating systems supply an @dfn{auxiliary vector} to programs at |
7147 | startup. This is akin to the arguments and environment that you | |
7148 | specify for a program, but contains a system-dependent variety of | |
7149 | binary values that tell system libraries important details about the | |
7150 | hardware, operating system, and process. Each value's purpose is | |
7151 | identified by an integer tag; the meanings are well-known but system-specific. | |
7152 | Depending on the configuration and operating system facilities, | |
9c16f35a EZ |
7153 | @value{GDBN} may be able to show you this information. For remote |
7154 | targets, this functionality may further depend on the remote stub's | |
427c3a89 DJ |
7155 | support of the @samp{qXfer:auxv:read} packet, see |
7156 | @ref{qXfer auxiliary vector read}. | |
b383017d RM |
7157 | |
7158 | @table @code | |
7159 | @kindex info auxv | |
7160 | @item info auxv | |
7161 | Display the auxiliary vector of the inferior, which can be either a | |
e4937fc1 | 7162 | live process or a core dump file. @value{GDBN} prints each tag value |
b383017d RM |
7163 | numerically, and also shows names and text descriptions for recognized |
7164 | tags. Some values in the vector are numbers, some bit masks, and some | |
e4937fc1 | 7165 | pointers to strings or other data. @value{GDBN} displays each value in the |
b383017d RM |
7166 | most appropriate form for a recognized tag, and in hexadecimal for |
7167 | an unrecognized tag. | |
7168 | @end table | |
7169 | ||
721c2651 | 7170 | |
29e57380 | 7171 | @node Memory Region Attributes |
79a6e687 | 7172 | @section Memory Region Attributes |
29e57380 C |
7173 | @cindex memory region attributes |
7174 | ||
b383017d | 7175 | @dfn{Memory region attributes} allow you to describe special handling |
fd79ecee DJ |
7176 | required by regions of your target's memory. @value{GDBN} uses |
7177 | attributes to determine whether to allow certain types of memory | |
7178 | accesses; whether to use specific width accesses; and whether to cache | |
7179 | target memory. By default the description of memory regions is | |
7180 | fetched from the target (if the current target supports this), but the | |
7181 | user can override the fetched regions. | |
29e57380 C |
7182 | |
7183 | Defined memory regions can be individually enabled and disabled. When a | |
7184 | memory region is disabled, @value{GDBN} uses the default attributes when | |
7185 | accessing memory in that region. Similarly, if no memory regions have | |
7186 | been defined, @value{GDBN} uses the default attributes when accessing | |
7187 | all memory. | |
7188 | ||
b383017d | 7189 | When a memory region is defined, it is given a number to identify it; |
29e57380 C |
7190 | to enable, disable, or remove a memory region, you specify that number. |
7191 | ||
7192 | @table @code | |
7193 | @kindex mem | |
bfac230e | 7194 | @item mem @var{lower} @var{upper} @var{attributes}@dots{} |
09d4efe1 EZ |
7195 | Define a memory region bounded by @var{lower} and @var{upper} with |
7196 | attributes @var{attributes}@dots{}, and add it to the list of regions | |
7197 | monitored by @value{GDBN}. Note that @var{upper} == 0 is a special | |
d3e8051b | 7198 | case: it is treated as the target's maximum memory address. |
bfac230e | 7199 | (0xffff on 16 bit targets, 0xffffffff on 32 bit targets, etc.) |
29e57380 | 7200 | |
fd79ecee DJ |
7201 | @item mem auto |
7202 | Discard any user changes to the memory regions and use target-supplied | |
7203 | regions, if available, or no regions if the target does not support. | |
7204 | ||
29e57380 C |
7205 | @kindex delete mem |
7206 | @item delete mem @var{nums}@dots{} | |
09d4efe1 EZ |
7207 | Remove memory regions @var{nums}@dots{} from the list of regions |
7208 | monitored by @value{GDBN}. | |
29e57380 C |
7209 | |
7210 | @kindex disable mem | |
7211 | @item disable mem @var{nums}@dots{} | |
09d4efe1 | 7212 | Disable monitoring of memory regions @var{nums}@dots{}. |
b383017d | 7213 | A disabled memory region is not forgotten. |
29e57380 C |
7214 | It may be enabled again later. |
7215 | ||
7216 | @kindex enable mem | |
7217 | @item enable mem @var{nums}@dots{} | |
09d4efe1 | 7218 | Enable monitoring of memory regions @var{nums}@dots{}. |
29e57380 C |
7219 | |
7220 | @kindex info mem | |
7221 | @item info mem | |
7222 | Print a table of all defined memory regions, with the following columns | |
09d4efe1 | 7223 | for each region: |
29e57380 C |
7224 | |
7225 | @table @emph | |
7226 | @item Memory Region Number | |
7227 | @item Enabled or Disabled. | |
b383017d | 7228 | Enabled memory regions are marked with @samp{y}. |
29e57380 C |
7229 | Disabled memory regions are marked with @samp{n}. |
7230 | ||
7231 | @item Lo Address | |
7232 | The address defining the inclusive lower bound of the memory region. | |
7233 | ||
7234 | @item Hi Address | |
7235 | The address defining the exclusive upper bound of the memory region. | |
7236 | ||
7237 | @item Attributes | |
7238 | The list of attributes set for this memory region. | |
7239 | @end table | |
7240 | @end table | |
7241 | ||
7242 | ||
7243 | @subsection Attributes | |
7244 | ||
b383017d | 7245 | @subsubsection Memory Access Mode |
29e57380 C |
7246 | The access mode attributes set whether @value{GDBN} may make read or |
7247 | write accesses to a memory region. | |
7248 | ||
7249 | While these attributes prevent @value{GDBN} from performing invalid | |
7250 | memory accesses, they do nothing to prevent the target system, I/O DMA, | |
359df76b | 7251 | etc.@: from accessing memory. |
29e57380 C |
7252 | |
7253 | @table @code | |
7254 | @item ro | |
7255 | Memory is read only. | |
7256 | @item wo | |
7257 | Memory is write only. | |
7258 | @item rw | |
6ca652b0 | 7259 | Memory is read/write. This is the default. |
29e57380 C |
7260 | @end table |
7261 | ||
7262 | @subsubsection Memory Access Size | |
d3e8051b | 7263 | The access size attribute tells @value{GDBN} to use specific sized |
29e57380 C |
7264 | accesses in the memory region. Often memory mapped device registers |
7265 | require specific sized accesses. If no access size attribute is | |
7266 | specified, @value{GDBN} may use accesses of any size. | |
7267 | ||
7268 | @table @code | |
7269 | @item 8 | |
7270 | Use 8 bit memory accesses. | |
7271 | @item 16 | |
7272 | Use 16 bit memory accesses. | |
7273 | @item 32 | |
7274 | Use 32 bit memory accesses. | |
7275 | @item 64 | |
7276 | Use 64 bit memory accesses. | |
7277 | @end table | |
7278 | ||
7279 | @c @subsubsection Hardware/Software Breakpoints | |
7280 | @c The hardware/software breakpoint attributes set whether @value{GDBN} | |
7281 | @c will use hardware or software breakpoints for the internal breakpoints | |
7282 | @c used by the step, next, finish, until, etc. commands. | |
7283 | @c | |
7284 | @c @table @code | |
7285 | @c @item hwbreak | |
b383017d | 7286 | @c Always use hardware breakpoints |
29e57380 C |
7287 | @c @item swbreak (default) |
7288 | @c @end table | |
7289 | ||
7290 | @subsubsection Data Cache | |
7291 | The data cache attributes set whether @value{GDBN} will cache target | |
7292 | memory. While this generally improves performance by reducing debug | |
7293 | protocol overhead, it can lead to incorrect results because @value{GDBN} | |
7294 | does not know about volatile variables or memory mapped device | |
7295 | registers. | |
7296 | ||
7297 | @table @code | |
7298 | @item cache | |
b383017d | 7299 | Enable @value{GDBN} to cache target memory. |
6ca652b0 EZ |
7300 | @item nocache |
7301 | Disable @value{GDBN} from caching target memory. This is the default. | |
29e57380 C |
7302 | @end table |
7303 | ||
4b5752d0 VP |
7304 | @subsection Memory Access Checking |
7305 | @value{GDBN} can be instructed to refuse accesses to memory that is | |
7306 | not explicitly described. This can be useful if accessing such | |
7307 | regions has undesired effects for a specific target, or to provide | |
7308 | better error checking. The following commands control this behaviour. | |
7309 | ||
7310 | @table @code | |
7311 | @kindex set mem inaccessible-by-default | |
7312 | @item set mem inaccessible-by-default [on|off] | |
7313 | If @code{on} is specified, make @value{GDBN} treat memory not | |
7314 | explicitly described by the memory ranges as non-existent and refuse accesses | |
7315 | to such memory. The checks are only performed if there's at least one | |
7316 | memory range defined. If @code{off} is specified, make @value{GDBN} | |
7317 | treat the memory not explicitly described by the memory ranges as RAM. | |
56cf5405 | 7318 | The default value is @code{on}. |
4b5752d0 VP |
7319 | @kindex show mem inaccessible-by-default |
7320 | @item show mem inaccessible-by-default | |
7321 | Show the current handling of accesses to unknown memory. | |
7322 | @end table | |
7323 | ||
7324 | ||
29e57380 | 7325 | @c @subsubsection Memory Write Verification |
b383017d | 7326 | @c The memory write verification attributes set whether @value{GDBN} |
29e57380 C |
7327 | @c will re-reads data after each write to verify the write was successful. |
7328 | @c | |
7329 | @c @table @code | |
7330 | @c @item verify | |
7331 | @c @item noverify (default) | |
7332 | @c @end table | |
7333 | ||
16d9dec6 | 7334 | @node Dump/Restore Files |
79a6e687 | 7335 | @section Copy Between Memory and a File |
16d9dec6 MS |
7336 | @cindex dump/restore files |
7337 | @cindex append data to a file | |
7338 | @cindex dump data to a file | |
7339 | @cindex restore data from a file | |
16d9dec6 | 7340 | |
df5215a6 JB |
7341 | You can use the commands @code{dump}, @code{append}, and |
7342 | @code{restore} to copy data between target memory and a file. The | |
7343 | @code{dump} and @code{append} commands write data to a file, and the | |
7344 | @code{restore} command reads data from a file back into the inferior's | |
7345 | memory. Files may be in binary, Motorola S-record, Intel hex, or | |
7346 | Tektronix Hex format; however, @value{GDBN} can only append to binary | |
7347 | files. | |
7348 | ||
7349 | @table @code | |
7350 | ||
7351 | @kindex dump | |
7352 | @item dump @r{[}@var{format}@r{]} memory @var{filename} @var{start_addr} @var{end_addr} | |
7353 | @itemx dump @r{[}@var{format}@r{]} value @var{filename} @var{expr} | |
7354 | Dump the contents of memory from @var{start_addr} to @var{end_addr}, | |
7355 | or the value of @var{expr}, to @var{filename} in the given format. | |
16d9dec6 | 7356 | |
df5215a6 | 7357 | The @var{format} parameter may be any one of: |
16d9dec6 | 7358 | @table @code |
df5215a6 JB |
7359 | @item binary |
7360 | Raw binary form. | |
7361 | @item ihex | |
7362 | Intel hex format. | |
7363 | @item srec | |
7364 | Motorola S-record format. | |
7365 | @item tekhex | |
7366 | Tektronix Hex format. | |
7367 | @end table | |
7368 | ||
7369 | @value{GDBN} uses the same definitions of these formats as the | |
7370 | @sc{gnu} binary utilities, like @samp{objdump} and @samp{objcopy}. If | |
7371 | @var{format} is omitted, @value{GDBN} dumps the data in raw binary | |
7372 | form. | |
7373 | ||
7374 | @kindex append | |
7375 | @item append @r{[}binary@r{]} memory @var{filename} @var{start_addr} @var{end_addr} | |
7376 | @itemx append @r{[}binary@r{]} value @var{filename} @var{expr} | |
7377 | Append the contents of memory from @var{start_addr} to @var{end_addr}, | |
09d4efe1 | 7378 | or the value of @var{expr}, to the file @var{filename}, in raw binary form. |
df5215a6 JB |
7379 | (@value{GDBN} can only append data to files in raw binary form.) |
7380 | ||
7381 | @kindex restore | |
7382 | @item restore @var{filename} @r{[}binary@r{]} @var{bias} @var{start} @var{end} | |
7383 | Restore the contents of file @var{filename} into memory. The | |
7384 | @code{restore} command can automatically recognize any known @sc{bfd} | |
7385 | file format, except for raw binary. To restore a raw binary file you | |
7386 | must specify the optional keyword @code{binary} after the filename. | |
16d9dec6 | 7387 | |
b383017d | 7388 | If @var{bias} is non-zero, its value will be added to the addresses |
16d9dec6 MS |
7389 | contained in the file. Binary files always start at address zero, so |
7390 | they will be restored at address @var{bias}. Other bfd files have | |
7391 | a built-in location; they will be restored at offset @var{bias} | |
7392 | from that location. | |
7393 | ||
7394 | If @var{start} and/or @var{end} are non-zero, then only data between | |
7395 | file offset @var{start} and file offset @var{end} will be restored. | |
b383017d | 7396 | These offsets are relative to the addresses in the file, before |
16d9dec6 MS |
7397 | the @var{bias} argument is applied. |
7398 | ||
7399 | @end table | |
7400 | ||
384ee23f EZ |
7401 | @node Core File Generation |
7402 | @section How to Produce a Core File from Your Program | |
7403 | @cindex dump core from inferior | |
7404 | ||
7405 | A @dfn{core file} or @dfn{core dump} is a file that records the memory | |
7406 | image of a running process and its process status (register values | |
7407 | etc.). Its primary use is post-mortem debugging of a program that | |
7408 | crashed while it ran outside a debugger. A program that crashes | |
7409 | automatically produces a core file, unless this feature is disabled by | |
7410 | the user. @xref{Files}, for information on invoking @value{GDBN} in | |
7411 | the post-mortem debugging mode. | |
7412 | ||
7413 | Occasionally, you may wish to produce a core file of the program you | |
7414 | are debugging in order to preserve a snapshot of its state. | |
7415 | @value{GDBN} has a special command for that. | |
7416 | ||
7417 | @table @code | |
7418 | @kindex gcore | |
7419 | @kindex generate-core-file | |
7420 | @item generate-core-file [@var{file}] | |
7421 | @itemx gcore [@var{file}] | |
7422 | Produce a core dump of the inferior process. The optional argument | |
7423 | @var{file} specifies the file name where to put the core dump. If not | |
7424 | specified, the file name defaults to @file{core.@var{pid}}, where | |
7425 | @var{pid} is the inferior process ID. | |
7426 | ||
7427 | Note that this command is implemented only for some systems (as of | |
7428 | this writing, @sc{gnu}/Linux, FreeBSD, Solaris, Unixware, and S390). | |
7429 | @end table | |
7430 | ||
a0eb71c5 KB |
7431 | @node Character Sets |
7432 | @section Character Sets | |
7433 | @cindex character sets | |
7434 | @cindex charset | |
7435 | @cindex translating between character sets | |
7436 | @cindex host character set | |
7437 | @cindex target character set | |
7438 | ||
7439 | If the program you are debugging uses a different character set to | |
7440 | represent characters and strings than the one @value{GDBN} uses itself, | |
7441 | @value{GDBN} can automatically translate between the character sets for | |
7442 | you. The character set @value{GDBN} uses we call the @dfn{host | |
7443 | character set}; the one the inferior program uses we call the | |
7444 | @dfn{target character set}. | |
7445 | ||
7446 | For example, if you are running @value{GDBN} on a @sc{gnu}/Linux system, which | |
7447 | uses the ISO Latin 1 character set, but you are using @value{GDBN}'s | |
ea35711c | 7448 | remote protocol (@pxref{Remote Debugging}) to debug a program |
a0eb71c5 KB |
7449 | running on an IBM mainframe, which uses the @sc{ebcdic} character set, |
7450 | then the host character set is Latin-1, and the target character set is | |
7451 | @sc{ebcdic}. If you give @value{GDBN} the command @code{set | |
e33d66ec | 7452 | target-charset EBCDIC-US}, then @value{GDBN} translates between |
a0eb71c5 KB |
7453 | @sc{ebcdic} and Latin 1 as you print character or string values, or use |
7454 | character and string literals in expressions. | |
7455 | ||
7456 | @value{GDBN} has no way to automatically recognize which character set | |
7457 | the inferior program uses; you must tell it, using the @code{set | |
7458 | target-charset} command, described below. | |
7459 | ||
7460 | Here are the commands for controlling @value{GDBN}'s character set | |
7461 | support: | |
7462 | ||
7463 | @table @code | |
7464 | @item set target-charset @var{charset} | |
7465 | @kindex set target-charset | |
7466 | Set the current target character set to @var{charset}. We list the | |
e33d66ec EZ |
7467 | character set names @value{GDBN} recognizes below, but if you type |
7468 | @code{set target-charset} followed by @key{TAB}@key{TAB}, @value{GDBN} will | |
7469 | list the target character sets it supports. | |
a0eb71c5 KB |
7470 | @end table |
7471 | ||
7472 | @table @code | |
7473 | @item set host-charset @var{charset} | |
7474 | @kindex set host-charset | |
7475 | Set the current host character set to @var{charset}. | |
7476 | ||
7477 | By default, @value{GDBN} uses a host character set appropriate to the | |
7478 | system it is running on; you can override that default using the | |
7479 | @code{set host-charset} command. | |
7480 | ||
7481 | @value{GDBN} can only use certain character sets as its host character | |
7482 | set. We list the character set names @value{GDBN} recognizes below, and | |
e33d66ec EZ |
7483 | indicate which can be host character sets, but if you type |
7484 | @code{set target-charset} followed by @key{TAB}@key{TAB}, @value{GDBN} will | |
7485 | list the host character sets it supports. | |
a0eb71c5 KB |
7486 | |
7487 | @item set charset @var{charset} | |
7488 | @kindex set charset | |
e33d66ec EZ |
7489 | Set the current host and target character sets to @var{charset}. As |
7490 | above, if you type @code{set charset} followed by @key{TAB}@key{TAB}, | |
7491 | @value{GDBN} will list the name of the character sets that can be used | |
7492 | for both host and target. | |
7493 | ||
a0eb71c5 KB |
7494 | |
7495 | @item show charset | |
a0eb71c5 | 7496 | @kindex show charset |
b383017d | 7497 | Show the names of the current host and target charsets. |
e33d66ec EZ |
7498 | |
7499 | @itemx show host-charset | |
a0eb71c5 | 7500 | @kindex show host-charset |
b383017d | 7501 | Show the name of the current host charset. |
e33d66ec EZ |
7502 | |
7503 | @itemx show target-charset | |
a0eb71c5 | 7504 | @kindex show target-charset |
b383017d | 7505 | Show the name of the current target charset. |
a0eb71c5 KB |
7506 | |
7507 | @end table | |
7508 | ||
7509 | @value{GDBN} currently includes support for the following character | |
7510 | sets: | |
7511 | ||
7512 | @table @code | |
7513 | ||
7514 | @item ASCII | |
7515 | @cindex ASCII character set | |
7516 | Seven-bit U.S. @sc{ascii}. @value{GDBN} can use this as its host | |
7517 | character set. | |
7518 | ||
7519 | @item ISO-8859-1 | |
7520 | @cindex ISO 8859-1 character set | |
7521 | @cindex ISO Latin 1 character set | |
e33d66ec | 7522 | The ISO Latin 1 character set. This extends @sc{ascii} with accented |
a0eb71c5 KB |
7523 | characters needed for French, German, and Spanish. @value{GDBN} can use |
7524 | this as its host character set. | |
7525 | ||
7526 | @item EBCDIC-US | |
7527 | @itemx IBM1047 | |
7528 | @cindex EBCDIC character set | |
7529 | @cindex IBM1047 character set | |
7530 | Variants of the @sc{ebcdic} character set, used on some of IBM's | |
7531 | mainframe operating systems. (@sc{gnu}/Linux on the S/390 uses U.S. @sc{ascii}.) | |
7532 | @value{GDBN} cannot use these as its host character set. | |
7533 | ||
7534 | @end table | |
7535 | ||
7536 | Note that these are all single-byte character sets. More work inside | |
3f94c067 | 7537 | @value{GDBN} is needed to support multi-byte or variable-width character |
a0eb71c5 KB |
7538 | encodings, like the UTF-8 and UCS-2 encodings of Unicode. |
7539 | ||
7540 | Here is an example of @value{GDBN}'s character set support in action. | |
7541 | Assume that the following source code has been placed in the file | |
7542 | @file{charset-test.c}: | |
7543 | ||
7544 | @smallexample | |
7545 | #include <stdio.h> | |
7546 | ||
7547 | char ascii_hello[] | |
7548 | = @{72, 101, 108, 108, 111, 44, 32, 119, | |
7549 | 111, 114, 108, 100, 33, 10, 0@}; | |
7550 | char ibm1047_hello[] | |
7551 | = @{200, 133, 147, 147, 150, 107, 64, 166, | |
7552 | 150, 153, 147, 132, 90, 37, 0@}; | |
7553 | ||
7554 | main () | |
7555 | @{ | |
7556 | printf ("Hello, world!\n"); | |
7557 | @} | |
10998722 | 7558 | @end smallexample |
a0eb71c5 KB |
7559 | |
7560 | In this program, @code{ascii_hello} and @code{ibm1047_hello} are arrays | |
7561 | containing the string @samp{Hello, world!} followed by a newline, | |
7562 | encoded in the @sc{ascii} and @sc{ibm1047} character sets. | |
7563 | ||
7564 | We compile the program, and invoke the debugger on it: | |
7565 | ||
7566 | @smallexample | |
7567 | $ gcc -g charset-test.c -o charset-test | |
7568 | $ gdb -nw charset-test | |
7569 | GNU gdb 2001-12-19-cvs | |
7570 | Copyright 2001 Free Software Foundation, Inc. | |
7571 | @dots{} | |
f7dc1244 | 7572 | (@value{GDBP}) |
10998722 | 7573 | @end smallexample |
a0eb71c5 KB |
7574 | |
7575 | We can use the @code{show charset} command to see what character sets | |
7576 | @value{GDBN} is currently using to interpret and display characters and | |
7577 | strings: | |
7578 | ||
7579 | @smallexample | |
f7dc1244 | 7580 | (@value{GDBP}) show charset |
e33d66ec | 7581 | The current host and target character set is `ISO-8859-1'. |
f7dc1244 | 7582 | (@value{GDBP}) |
10998722 | 7583 | @end smallexample |
a0eb71c5 KB |
7584 | |
7585 | For the sake of printing this manual, let's use @sc{ascii} as our | |
7586 | initial character set: | |
7587 | @smallexample | |
f7dc1244 EZ |
7588 | (@value{GDBP}) set charset ASCII |
7589 | (@value{GDBP}) show charset | |
e33d66ec | 7590 | The current host and target character set is `ASCII'. |
f7dc1244 | 7591 | (@value{GDBP}) |
10998722 | 7592 | @end smallexample |
a0eb71c5 KB |
7593 | |
7594 | Let's assume that @sc{ascii} is indeed the correct character set for our | |
7595 | host system --- in other words, let's assume that if @value{GDBN} prints | |
7596 | characters using the @sc{ascii} character set, our terminal will display | |
7597 | them properly. Since our current target character set is also | |
7598 | @sc{ascii}, the contents of @code{ascii_hello} print legibly: | |
7599 | ||
7600 | @smallexample | |
f7dc1244 | 7601 | (@value{GDBP}) print ascii_hello |
a0eb71c5 | 7602 | $1 = 0x401698 "Hello, world!\n" |
f7dc1244 | 7603 | (@value{GDBP}) print ascii_hello[0] |
a0eb71c5 | 7604 | $2 = 72 'H' |
f7dc1244 | 7605 | (@value{GDBP}) |
10998722 | 7606 | @end smallexample |
a0eb71c5 KB |
7607 | |
7608 | @value{GDBN} uses the target character set for character and string | |
7609 | literals you use in expressions: | |
7610 | ||
7611 | @smallexample | |
f7dc1244 | 7612 | (@value{GDBP}) print '+' |
a0eb71c5 | 7613 | $3 = 43 '+' |
f7dc1244 | 7614 | (@value{GDBP}) |
10998722 | 7615 | @end smallexample |
a0eb71c5 KB |
7616 | |
7617 | The @sc{ascii} character set uses the number 43 to encode the @samp{+} | |
7618 | character. | |
7619 | ||
7620 | @value{GDBN} relies on the user to tell it which character set the | |
7621 | target program uses. If we print @code{ibm1047_hello} while our target | |
7622 | character set is still @sc{ascii}, we get jibberish: | |
7623 | ||
7624 | @smallexample | |
f7dc1244 | 7625 | (@value{GDBP}) print ibm1047_hello |
a0eb71c5 | 7626 | $4 = 0x4016a8 "\310\205\223\223\226k@@\246\226\231\223\204Z%" |
f7dc1244 | 7627 | (@value{GDBP}) print ibm1047_hello[0] |
a0eb71c5 | 7628 | $5 = 200 '\310' |
f7dc1244 | 7629 | (@value{GDBP}) |
10998722 | 7630 | @end smallexample |
a0eb71c5 | 7631 | |
e33d66ec | 7632 | If we invoke the @code{set target-charset} followed by @key{TAB}@key{TAB}, |
a0eb71c5 KB |
7633 | @value{GDBN} tells us the character sets it supports: |
7634 | ||
7635 | @smallexample | |
f7dc1244 | 7636 | (@value{GDBP}) set target-charset |
b383017d | 7637 | ASCII EBCDIC-US IBM1047 ISO-8859-1 |
f7dc1244 | 7638 | (@value{GDBP}) set target-charset |
10998722 | 7639 | @end smallexample |
a0eb71c5 KB |
7640 | |
7641 | We can select @sc{ibm1047} as our target character set, and examine the | |
7642 | program's strings again. Now the @sc{ascii} string is wrong, but | |
7643 | @value{GDBN} translates the contents of @code{ibm1047_hello} from the | |
7644 | target character set, @sc{ibm1047}, to the host character set, | |
7645 | @sc{ascii}, and they display correctly: | |
7646 | ||
7647 | @smallexample | |
f7dc1244 EZ |
7648 | (@value{GDBP}) set target-charset IBM1047 |
7649 | (@value{GDBP}) show charset | |
e33d66ec EZ |
7650 | The current host character set is `ASCII'. |
7651 | The current target character set is `IBM1047'. | |
f7dc1244 | 7652 | (@value{GDBP}) print ascii_hello |
a0eb71c5 | 7653 | $6 = 0x401698 "\110\145%%?\054\040\167?\162%\144\041\012" |
f7dc1244 | 7654 | (@value{GDBP}) print ascii_hello[0] |
a0eb71c5 | 7655 | $7 = 72 '\110' |
f7dc1244 | 7656 | (@value{GDBP}) print ibm1047_hello |
a0eb71c5 | 7657 | $8 = 0x4016a8 "Hello, world!\n" |
f7dc1244 | 7658 | (@value{GDBP}) print ibm1047_hello[0] |
a0eb71c5 | 7659 | $9 = 200 'H' |
f7dc1244 | 7660 | (@value{GDBP}) |
10998722 | 7661 | @end smallexample |
a0eb71c5 KB |
7662 | |
7663 | As above, @value{GDBN} uses the target character set for character and | |
7664 | string literals you use in expressions: | |
7665 | ||
7666 | @smallexample | |
f7dc1244 | 7667 | (@value{GDBP}) print '+' |
a0eb71c5 | 7668 | $10 = 78 '+' |
f7dc1244 | 7669 | (@value{GDBP}) |
10998722 | 7670 | @end smallexample |
a0eb71c5 | 7671 | |
e33d66ec | 7672 | The @sc{ibm1047} character set uses the number 78 to encode the @samp{+} |
a0eb71c5 KB |
7673 | character. |
7674 | ||
09d4efe1 EZ |
7675 | @node Caching Remote Data |
7676 | @section Caching Data of Remote Targets | |
7677 | @cindex caching data of remote targets | |
7678 | ||
7679 | @value{GDBN} can cache data exchanged between the debugger and a | |
ea35711c | 7680 | remote target (@pxref{Remote Debugging}). Such caching generally improves |
09d4efe1 EZ |
7681 | performance, because it reduces the overhead of the remote protocol by |
7682 | bundling memory reads and writes into large chunks. Unfortunately, | |
7683 | @value{GDBN} does not currently know anything about volatile | |
7684 | registers, and thus data caching will produce incorrect results when | |
7685 | volatile registers are in use. | |
7686 | ||
7687 | @table @code | |
7688 | @kindex set remotecache | |
7689 | @item set remotecache on | |
7690 | @itemx set remotecache off | |
7691 | Set caching state for remote targets. When @code{ON}, use data | |
7692 | caching. By default, this option is @code{OFF}. | |
7693 | ||
7694 | @kindex show remotecache | |
7695 | @item show remotecache | |
7696 | Show the current state of data caching for remote targets. | |
7697 | ||
7698 | @kindex info dcache | |
7699 | @item info dcache | |
7700 | Print the information about the data cache performance. The | |
7701 | information displayed includes: the dcache width and depth; and for | |
7702 | each cache line, how many times it was referenced, and its data and | |
7703 | state (dirty, bad, ok, etc.). This command is useful for debugging | |
7704 | the data cache operation. | |
7705 | @end table | |
7706 | ||
08388c79 DE |
7707 | @node Searching Memory |
7708 | @section Search Memory | |
7709 | @cindex searching memory | |
7710 | ||
7711 | Memory can be searched for a particular sequence of bytes with the | |
7712 | @code{find} command. | |
7713 | ||
7714 | @table @code | |
7715 | @kindex find | |
7716 | @item find @r{[}/@var{sn}@r{]} @var{start_addr}, +@var{len}, @var{val1} @r{[}, @var{val2}, @dots{}@r{]} | |
7717 | @itemx find @r{[}/@var{sn}@r{]} @var{start_addr}, @var{end_addr}, @var{val1} @r{[}, @var{val2}, @dots{}@r{]} | |
7718 | Search memory for the sequence of bytes specified by @var{val1}, @var{val2}, | |
7719 | etc. The search begins at address @var{start_addr} and continues for either | |
7720 | @var{len} bytes or through to @var{end_addr} inclusive. | |
7721 | @end table | |
7722 | ||
7723 | @var{s} and @var{n} are optional parameters. | |
7724 | They may be specified in either order, apart or together. | |
7725 | ||
7726 | @table @r | |
7727 | @item @var{s}, search query size | |
7728 | The size of each search query value. | |
7729 | ||
7730 | @table @code | |
7731 | @item b | |
7732 | bytes | |
7733 | @item h | |
7734 | halfwords (two bytes) | |
7735 | @item w | |
7736 | words (four bytes) | |
7737 | @item g | |
7738 | giant words (eight bytes) | |
7739 | @end table | |
7740 | ||
7741 | All values are interpreted in the current language. | |
7742 | This means, for example, that if the current source language is C/C@t{++} | |
7743 | then searching for the string ``hello'' includes the trailing '\0'. | |
7744 | ||
7745 | If the value size is not specified, it is taken from the | |
7746 | value's type in the current language. | |
7747 | This is useful when one wants to specify the search | |
7748 | pattern as a mixture of types. | |
7749 | Note that this means, for example, that in the case of C-like languages | |
7750 | a search for an untyped 0x42 will search for @samp{(int) 0x42} | |
7751 | which is typically four bytes. | |
7752 | ||
7753 | @item @var{n}, maximum number of finds | |
7754 | The maximum number of matches to print. The default is to print all finds. | |
7755 | @end table | |
7756 | ||
7757 | You can use strings as search values. Quote them with double-quotes | |
7758 | (@code{"}). | |
7759 | The string value is copied into the search pattern byte by byte, | |
7760 | regardless of the endianness of the target and the size specification. | |
7761 | ||
7762 | The address of each match found is printed as well as a count of the | |
7763 | number of matches found. | |
7764 | ||
7765 | The address of the last value found is stored in convenience variable | |
7766 | @samp{$_}. | |
7767 | A count of the number of matches is stored in @samp{$numfound}. | |
7768 | ||
7769 | For example, if stopped at the @code{printf} in this function: | |
7770 | ||
7771 | @smallexample | |
7772 | void | |
7773 | hello () | |
7774 | @{ | |
7775 | static char hello[] = "hello-hello"; | |
7776 | static struct @{ char c; short s; int i; @} | |
7777 | __attribute__ ((packed)) mixed | |
7778 | = @{ 'c', 0x1234, 0x87654321 @}; | |
7779 | printf ("%s\n", hello); | |
7780 | @} | |
7781 | @end smallexample | |
7782 | ||
7783 | @noindent | |
7784 | you get during debugging: | |
7785 | ||
7786 | @smallexample | |
7787 | (gdb) find &hello[0], +sizeof(hello), "hello" | |
7788 | 0x804956d <hello.1620+6> | |
7789 | 1 pattern found | |
7790 | (gdb) find &hello[0], +sizeof(hello), 'h', 'e', 'l', 'l', 'o' | |
7791 | 0x8049567 <hello.1620> | |
7792 | 0x804956d <hello.1620+6> | |
7793 | 2 patterns found | |
7794 | (gdb) find /b1 &hello[0], +sizeof(hello), 'h', 0x65, 'l' | |
7795 | 0x8049567 <hello.1620> | |
7796 | 1 pattern found | |
7797 | (gdb) find &mixed, +sizeof(mixed), (char) 'c', (short) 0x1234, (int) 0x87654321 | |
7798 | 0x8049560 <mixed.1625> | |
7799 | 1 pattern found | |
7800 | (gdb) print $numfound | |
7801 | $1 = 1 | |
7802 | (gdb) print $_ | |
7803 | $2 = (void *) 0x8049560 | |
7804 | @end smallexample | |
a0eb71c5 | 7805 | |
e2e0bcd1 JB |
7806 | @node Macros |
7807 | @chapter C Preprocessor Macros | |
7808 | ||
49efadf5 | 7809 | Some languages, such as C and C@t{++}, provide a way to define and invoke |
e2e0bcd1 JB |
7810 | ``preprocessor macros'' which expand into strings of tokens. |
7811 | @value{GDBN} can evaluate expressions containing macro invocations, show | |
7812 | the result of macro expansion, and show a macro's definition, including | |
7813 | where it was defined. | |
7814 | ||
7815 | You may need to compile your program specially to provide @value{GDBN} | |
7816 | with information about preprocessor macros. Most compilers do not | |
7817 | include macros in their debugging information, even when you compile | |
7818 | with the @option{-g} flag. @xref{Compilation}. | |
7819 | ||
7820 | A program may define a macro at one point, remove that definition later, | |
7821 | and then provide a different definition after that. Thus, at different | |
7822 | points in the program, a macro may have different definitions, or have | |
7823 | no definition at all. If there is a current stack frame, @value{GDBN} | |
7824 | uses the macros in scope at that frame's source code line. Otherwise, | |
7825 | @value{GDBN} uses the macros in scope at the current listing location; | |
7826 | see @ref{List}. | |
7827 | ||
7828 | At the moment, @value{GDBN} does not support the @code{##} | |
7829 | token-splicing operator, the @code{#} stringification operator, or | |
7830 | variable-arity macros. | |
7831 | ||
7832 | Whenever @value{GDBN} evaluates an expression, it always expands any | |
7833 | macro invocations present in the expression. @value{GDBN} also provides | |
7834 | the following commands for working with macros explicitly. | |
7835 | ||
7836 | @table @code | |
7837 | ||
7838 | @kindex macro expand | |
7839 | @cindex macro expansion, showing the results of preprocessor | |
7840 | @cindex preprocessor macro expansion, showing the results of | |
7841 | @cindex expanding preprocessor macros | |
7842 | @item macro expand @var{expression} | |
7843 | @itemx macro exp @var{expression} | |
7844 | Show the results of expanding all preprocessor macro invocations in | |
7845 | @var{expression}. Since @value{GDBN} simply expands macros, but does | |
7846 | not parse the result, @var{expression} need not be a valid expression; | |
7847 | it can be any string of tokens. | |
7848 | ||
09d4efe1 | 7849 | @kindex macro exp1 |
e2e0bcd1 JB |
7850 | @item macro expand-once @var{expression} |
7851 | @itemx macro exp1 @var{expression} | |
4644b6e3 | 7852 | @cindex expand macro once |
e2e0bcd1 JB |
7853 | @i{(This command is not yet implemented.)} Show the results of |
7854 | expanding those preprocessor macro invocations that appear explicitly in | |
7855 | @var{expression}. Macro invocations appearing in that expansion are | |
7856 | left unchanged. This command allows you to see the effect of a | |
7857 | particular macro more clearly, without being confused by further | |
7858 | expansions. Since @value{GDBN} simply expands macros, but does not | |
7859 | parse the result, @var{expression} need not be a valid expression; it | |
7860 | can be any string of tokens. | |
7861 | ||
475b0867 | 7862 | @kindex info macro |
e2e0bcd1 JB |
7863 | @cindex macro definition, showing |
7864 | @cindex definition, showing a macro's | |
475b0867 | 7865 | @item info macro @var{macro} |
e2e0bcd1 JB |
7866 | Show the definition of the macro named @var{macro}, and describe the |
7867 | source location where that definition was established. | |
7868 | ||
7869 | @kindex macro define | |
7870 | @cindex user-defined macros | |
7871 | @cindex defining macros interactively | |
7872 | @cindex macros, user-defined | |
7873 | @item macro define @var{macro} @var{replacement-list} | |
7874 | @itemx macro define @var{macro}(@var{arglist}) @var{replacement-list} | |
7875 | @i{(This command is not yet implemented.)} Introduce a definition for a | |
7876 | preprocessor macro named @var{macro}, invocations of which are replaced | |
7877 | by the tokens given in @var{replacement-list}. The first form of this | |
7878 | command defines an ``object-like'' macro, which takes no arguments; the | |
7879 | second form defines a ``function-like'' macro, which takes the arguments | |
7880 | given in @var{arglist}. | |
7881 | ||
7882 | A definition introduced by this command is in scope in every expression | |
7883 | evaluated in @value{GDBN}, until it is removed with the @command{macro | |
7884 | undef} command, described below. The definition overrides all | |
7885 | definitions for @var{macro} present in the program being debugged, as | |
7886 | well as any previous user-supplied definition. | |
7887 | ||
7888 | @kindex macro undef | |
7889 | @item macro undef @var{macro} | |
7890 | @i{(This command is not yet implemented.)} Remove any user-supplied | |
7891 | definition for the macro named @var{macro}. This command only affects | |
7892 | definitions provided with the @command{macro define} command, described | |
7893 | above; it cannot remove definitions present in the program being | |
7894 | debugged. | |
7895 | ||
09d4efe1 EZ |
7896 | @kindex macro list |
7897 | @item macro list | |
7898 | @i{(This command is not yet implemented.)} List all the macros | |
7899 | defined using the @code{macro define} command. | |
e2e0bcd1 JB |
7900 | @end table |
7901 | ||
7902 | @cindex macros, example of debugging with | |
7903 | Here is a transcript showing the above commands in action. First, we | |
7904 | show our source files: | |
7905 | ||
7906 | @smallexample | |
7907 | $ cat sample.c | |
7908 | #include <stdio.h> | |
7909 | #include "sample.h" | |
7910 | ||
7911 | #define M 42 | |
7912 | #define ADD(x) (M + x) | |
7913 | ||
7914 | main () | |
7915 | @{ | |
7916 | #define N 28 | |
7917 | printf ("Hello, world!\n"); | |
7918 | #undef N | |
7919 | printf ("We're so creative.\n"); | |
7920 | #define N 1729 | |
7921 | printf ("Goodbye, world!\n"); | |
7922 | @} | |
7923 | $ cat sample.h | |
7924 | #define Q < | |
7925 | $ | |
7926 | @end smallexample | |
7927 | ||
7928 | Now, we compile the program using the @sc{gnu} C compiler, @value{NGCC}. | |
7929 | We pass the @option{-gdwarf-2} and @option{-g3} flags to ensure the | |
7930 | compiler includes information about preprocessor macros in the debugging | |
7931 | information. | |
7932 | ||
7933 | @smallexample | |
7934 | $ gcc -gdwarf-2 -g3 sample.c -o sample | |
7935 | $ | |
7936 | @end smallexample | |
7937 | ||
7938 | Now, we start @value{GDBN} on our sample program: | |
7939 | ||
7940 | @smallexample | |
7941 | $ gdb -nw sample | |
7942 | GNU gdb 2002-05-06-cvs | |
7943 | Copyright 2002 Free Software Foundation, Inc. | |
7944 | GDB is free software, @dots{} | |
f7dc1244 | 7945 | (@value{GDBP}) |
e2e0bcd1 JB |
7946 | @end smallexample |
7947 | ||
7948 | We can expand macros and examine their definitions, even when the | |
7949 | program is not running. @value{GDBN} uses the current listing position | |
7950 | to decide which macro definitions are in scope: | |
7951 | ||
7952 | @smallexample | |
f7dc1244 | 7953 | (@value{GDBP}) list main |
e2e0bcd1 JB |
7954 | 3 |
7955 | 4 #define M 42 | |
7956 | 5 #define ADD(x) (M + x) | |
7957 | 6 | |
7958 | 7 main () | |
7959 | 8 @{ | |
7960 | 9 #define N 28 | |
7961 | 10 printf ("Hello, world!\n"); | |
7962 | 11 #undef N | |
7963 | 12 printf ("We're so creative.\n"); | |
f7dc1244 | 7964 | (@value{GDBP}) info macro ADD |
e2e0bcd1 JB |
7965 | Defined at /home/jimb/gdb/macros/play/sample.c:5 |
7966 | #define ADD(x) (M + x) | |
f7dc1244 | 7967 | (@value{GDBP}) info macro Q |
e2e0bcd1 JB |
7968 | Defined at /home/jimb/gdb/macros/play/sample.h:1 |
7969 | included at /home/jimb/gdb/macros/play/sample.c:2 | |
7970 | #define Q < | |
f7dc1244 | 7971 | (@value{GDBP}) macro expand ADD(1) |
e2e0bcd1 | 7972 | expands to: (42 + 1) |
f7dc1244 | 7973 | (@value{GDBP}) macro expand-once ADD(1) |
e2e0bcd1 | 7974 | expands to: once (M + 1) |
f7dc1244 | 7975 | (@value{GDBP}) |
e2e0bcd1 JB |
7976 | @end smallexample |
7977 | ||
7978 | In the example above, note that @command{macro expand-once} expands only | |
7979 | the macro invocation explicit in the original text --- the invocation of | |
7980 | @code{ADD} --- but does not expand the invocation of the macro @code{M}, | |
7981 | which was introduced by @code{ADD}. | |
7982 | ||
3f94c067 BW |
7983 | Once the program is running, @value{GDBN} uses the macro definitions in |
7984 | force at the source line of the current stack frame: | |
e2e0bcd1 JB |
7985 | |
7986 | @smallexample | |
f7dc1244 | 7987 | (@value{GDBP}) break main |
e2e0bcd1 | 7988 | Breakpoint 1 at 0x8048370: file sample.c, line 10. |
f7dc1244 | 7989 | (@value{GDBP}) run |
b383017d | 7990 | Starting program: /home/jimb/gdb/macros/play/sample |
e2e0bcd1 JB |
7991 | |
7992 | Breakpoint 1, main () at sample.c:10 | |
7993 | 10 printf ("Hello, world!\n"); | |
f7dc1244 | 7994 | (@value{GDBP}) |
e2e0bcd1 JB |
7995 | @end smallexample |
7996 | ||
7997 | At line 10, the definition of the macro @code{N} at line 9 is in force: | |
7998 | ||
7999 | @smallexample | |
f7dc1244 | 8000 | (@value{GDBP}) info macro N |
e2e0bcd1 JB |
8001 | Defined at /home/jimb/gdb/macros/play/sample.c:9 |
8002 | #define N 28 | |
f7dc1244 | 8003 | (@value{GDBP}) macro expand N Q M |
e2e0bcd1 | 8004 | expands to: 28 < 42 |
f7dc1244 | 8005 | (@value{GDBP}) print N Q M |
e2e0bcd1 | 8006 | $1 = 1 |
f7dc1244 | 8007 | (@value{GDBP}) |
e2e0bcd1 JB |
8008 | @end smallexample |
8009 | ||
8010 | As we step over directives that remove @code{N}'s definition, and then | |
8011 | give it a new definition, @value{GDBN} finds the definition (or lack | |
8012 | thereof) in force at each point: | |
8013 | ||
8014 | @smallexample | |
f7dc1244 | 8015 | (@value{GDBP}) next |
e2e0bcd1 JB |
8016 | Hello, world! |
8017 | 12 printf ("We're so creative.\n"); | |
f7dc1244 | 8018 | (@value{GDBP}) info macro N |
e2e0bcd1 JB |
8019 | The symbol `N' has no definition as a C/C++ preprocessor macro |
8020 | at /home/jimb/gdb/macros/play/sample.c:12 | |
f7dc1244 | 8021 | (@value{GDBP}) next |
e2e0bcd1 JB |
8022 | We're so creative. |
8023 | 14 printf ("Goodbye, world!\n"); | |
f7dc1244 | 8024 | (@value{GDBP}) info macro N |
e2e0bcd1 JB |
8025 | Defined at /home/jimb/gdb/macros/play/sample.c:13 |
8026 | #define N 1729 | |
f7dc1244 | 8027 | (@value{GDBP}) macro expand N Q M |
e2e0bcd1 | 8028 | expands to: 1729 < 42 |
f7dc1244 | 8029 | (@value{GDBP}) print N Q M |
e2e0bcd1 | 8030 | $2 = 0 |
f7dc1244 | 8031 | (@value{GDBP}) |
e2e0bcd1 JB |
8032 | @end smallexample |
8033 | ||
8034 | ||
b37052ae EZ |
8035 | @node Tracepoints |
8036 | @chapter Tracepoints | |
8037 | @c This chapter is based on the documentation written by Michael | |
8038 | @c Snyder, David Taylor, Jim Blandy, and Elena Zannoni. | |
8039 | ||
8040 | @cindex tracepoints | |
8041 | In some applications, it is not feasible for the debugger to interrupt | |
8042 | the program's execution long enough for the developer to learn | |
8043 | anything helpful about its behavior. If the program's correctness | |
8044 | depends on its real-time behavior, delays introduced by a debugger | |
8045 | might cause the program to change its behavior drastically, or perhaps | |
8046 | fail, even when the code itself is correct. It is useful to be able | |
8047 | to observe the program's behavior without interrupting it. | |
8048 | ||
8049 | Using @value{GDBN}'s @code{trace} and @code{collect} commands, you can | |
8050 | specify locations in the program, called @dfn{tracepoints}, and | |
8051 | arbitrary expressions to evaluate when those tracepoints are reached. | |
8052 | Later, using the @code{tfind} command, you can examine the values | |
8053 | those expressions had when the program hit the tracepoints. The | |
8054 | expressions may also denote objects in memory---structures or arrays, | |
8055 | for example---whose values @value{GDBN} should record; while visiting | |
8056 | a particular tracepoint, you may inspect those objects as if they were | |
8057 | in memory at that moment. However, because @value{GDBN} records these | |
8058 | values without interacting with you, it can do so quickly and | |
8059 | unobtrusively, hopefully not disturbing the program's behavior. | |
8060 | ||
8061 | The tracepoint facility is currently available only for remote | |
9d29849a JB |
8062 | targets. @xref{Targets}. In addition, your remote target must know |
8063 | how to collect trace data. This functionality is implemented in the | |
8064 | remote stub; however, none of the stubs distributed with @value{GDBN} | |
8065 | support tracepoints as of this writing. The format of the remote | |
8066 | packets used to implement tracepoints are described in @ref{Tracepoint | |
8067 | Packets}. | |
b37052ae EZ |
8068 | |
8069 | This chapter describes the tracepoint commands and features. | |
8070 | ||
8071 | @menu | |
b383017d RM |
8072 | * Set Tracepoints:: |
8073 | * Analyze Collected Data:: | |
8074 | * Tracepoint Variables:: | |
b37052ae EZ |
8075 | @end menu |
8076 | ||
8077 | @node Set Tracepoints | |
8078 | @section Commands to Set Tracepoints | |
8079 | ||
8080 | Before running such a @dfn{trace experiment}, an arbitrary number of | |
8081 | tracepoints can be set. Like a breakpoint (@pxref{Set Breaks}), a | |
8082 | tracepoint has a number assigned to it by @value{GDBN}. Like with | |
8083 | breakpoints, tracepoint numbers are successive integers starting from | |
8084 | one. Many of the commands associated with tracepoints take the | |
8085 | tracepoint number as their argument, to identify which tracepoint to | |
8086 | work on. | |
8087 | ||
8088 | For each tracepoint, you can specify, in advance, some arbitrary set | |
8089 | of data that you want the target to collect in the trace buffer when | |
8090 | it hits that tracepoint. The collected data can include registers, | |
8091 | local variables, or global data. Later, you can use @value{GDBN} | |
8092 | commands to examine the values these data had at the time the | |
8093 | tracepoint was hit. | |
8094 | ||
8095 | This section describes commands to set tracepoints and associated | |
8096 | conditions and actions. | |
8097 | ||
8098 | @menu | |
b383017d RM |
8099 | * Create and Delete Tracepoints:: |
8100 | * Enable and Disable Tracepoints:: | |
8101 | * Tracepoint Passcounts:: | |
8102 | * Tracepoint Actions:: | |
8103 | * Listing Tracepoints:: | |
79a6e687 | 8104 | * Starting and Stopping Trace Experiments:: |
b37052ae EZ |
8105 | @end menu |
8106 | ||
8107 | @node Create and Delete Tracepoints | |
8108 | @subsection Create and Delete Tracepoints | |
8109 | ||
8110 | @table @code | |
8111 | @cindex set tracepoint | |
8112 | @kindex trace | |
8113 | @item trace | |
8114 | The @code{trace} command is very similar to the @code{break} command. | |
8115 | Its argument can be a source line, a function name, or an address in | |
8116 | the target program. @xref{Set Breaks}. The @code{trace} command | |
8117 | defines a tracepoint, which is a point in the target program where the | |
8118 | debugger will briefly stop, collect some data, and then allow the | |
8119 | program to continue. Setting a tracepoint or changing its commands | |
8120 | doesn't take effect until the next @code{tstart} command; thus, you | |
8121 | cannot change the tracepoint attributes once a trace experiment is | |
8122 | running. | |
8123 | ||
8124 | Here are some examples of using the @code{trace} command: | |
8125 | ||
8126 | @smallexample | |
8127 | (@value{GDBP}) @b{trace foo.c:121} // a source file and line number | |
8128 | ||
8129 | (@value{GDBP}) @b{trace +2} // 2 lines forward | |
8130 | ||
8131 | (@value{GDBP}) @b{trace my_function} // first source line of function | |
8132 | ||
8133 | (@value{GDBP}) @b{trace *my_function} // EXACT start address of function | |
8134 | ||
8135 | (@value{GDBP}) @b{trace *0x2117c4} // an address | |
8136 | @end smallexample | |
8137 | ||
8138 | @noindent | |
8139 | You can abbreviate @code{trace} as @code{tr}. | |
8140 | ||
8141 | @vindex $tpnum | |
8142 | @cindex last tracepoint number | |
8143 | @cindex recent tracepoint number | |
8144 | @cindex tracepoint number | |
8145 | The convenience variable @code{$tpnum} records the tracepoint number | |
8146 | of the most recently set tracepoint. | |
8147 | ||
8148 | @kindex delete tracepoint | |
8149 | @cindex tracepoint deletion | |
8150 | @item delete tracepoint @r{[}@var{num}@r{]} | |
8151 | Permanently delete one or more tracepoints. With no argument, the | |
8152 | default is to delete all tracepoints. | |
8153 | ||
8154 | Examples: | |
8155 | ||
8156 | @smallexample | |
8157 | (@value{GDBP}) @b{delete trace 1 2 3} // remove three tracepoints | |
8158 | ||
8159 | (@value{GDBP}) @b{delete trace} // remove all tracepoints | |
8160 | @end smallexample | |
8161 | ||
8162 | @noindent | |
8163 | You can abbreviate this command as @code{del tr}. | |
8164 | @end table | |
8165 | ||
8166 | @node Enable and Disable Tracepoints | |
8167 | @subsection Enable and Disable Tracepoints | |
8168 | ||
8169 | @table @code | |
8170 | @kindex disable tracepoint | |
8171 | @item disable tracepoint @r{[}@var{num}@r{]} | |
8172 | Disable tracepoint @var{num}, or all tracepoints if no argument | |
8173 | @var{num} is given. A disabled tracepoint will have no effect during | |
8174 | the next trace experiment, but it is not forgotten. You can re-enable | |
8175 | a disabled tracepoint using the @code{enable tracepoint} command. | |
8176 | ||
8177 | @kindex enable tracepoint | |
8178 | @item enable tracepoint @r{[}@var{num}@r{]} | |
8179 | Enable tracepoint @var{num}, or all tracepoints. The enabled | |
8180 | tracepoints will become effective the next time a trace experiment is | |
8181 | run. | |
8182 | @end table | |
8183 | ||
8184 | @node Tracepoint Passcounts | |
8185 | @subsection Tracepoint Passcounts | |
8186 | ||
8187 | @table @code | |
8188 | @kindex passcount | |
8189 | @cindex tracepoint pass count | |
8190 | @item passcount @r{[}@var{n} @r{[}@var{num}@r{]]} | |
8191 | Set the @dfn{passcount} of a tracepoint. The passcount is a way to | |
8192 | automatically stop a trace experiment. If a tracepoint's passcount is | |
8193 | @var{n}, then the trace experiment will be automatically stopped on | |
8194 | the @var{n}'th time that tracepoint is hit. If the tracepoint number | |
8195 | @var{num} is not specified, the @code{passcount} command sets the | |
8196 | passcount of the most recently defined tracepoint. If no passcount is | |
8197 | given, the trace experiment will run until stopped explicitly by the | |
8198 | user. | |
8199 | ||
8200 | Examples: | |
8201 | ||
8202 | @smallexample | |
b383017d | 8203 | (@value{GDBP}) @b{passcount 5 2} // Stop on the 5th execution of |
6826cf00 | 8204 | @exdent @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @code{// tracepoint 2} |
b37052ae EZ |
8205 | |
8206 | (@value{GDBP}) @b{passcount 12} // Stop on the 12th execution of the | |
6826cf00 | 8207 | @exdent @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @code{// most recently defined tracepoint.} |
b37052ae EZ |
8208 | (@value{GDBP}) @b{trace foo} |
8209 | (@value{GDBP}) @b{pass 3} | |
8210 | (@value{GDBP}) @b{trace bar} | |
8211 | (@value{GDBP}) @b{pass 2} | |
8212 | (@value{GDBP}) @b{trace baz} | |
8213 | (@value{GDBP}) @b{pass 1} // Stop tracing when foo has been | |
6826cf00 EZ |
8214 | @exdent @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @code{// executed 3 times OR when bar has} |
8215 | @exdent @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @code{// been executed 2 times} | |
8216 | @exdent @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @ @code{// OR when baz has been executed 1 time.} | |
b37052ae EZ |
8217 | @end smallexample |
8218 | @end table | |
8219 | ||
8220 | @node Tracepoint Actions | |
8221 | @subsection Tracepoint Action Lists | |
8222 | ||
8223 | @table @code | |
8224 | @kindex actions | |
8225 | @cindex tracepoint actions | |
8226 | @item actions @r{[}@var{num}@r{]} | |
8227 | This command will prompt for a list of actions to be taken when the | |
8228 | tracepoint is hit. If the tracepoint number @var{num} is not | |
8229 | specified, this command sets the actions for the one that was most | |
8230 | recently defined (so that you can define a tracepoint and then say | |
8231 | @code{actions} without bothering about its number). You specify the | |
8232 | actions themselves on the following lines, one action at a time, and | |
8233 | terminate the actions list with a line containing just @code{end}. So | |
8234 | far, the only defined actions are @code{collect} and | |
8235 | @code{while-stepping}. | |
8236 | ||
8237 | @cindex remove actions from a tracepoint | |
8238 | To remove all actions from a tracepoint, type @samp{actions @var{num}} | |
8239 | and follow it immediately with @samp{end}. | |
8240 | ||
8241 | @smallexample | |
8242 | (@value{GDBP}) @b{collect @var{data}} // collect some data | |
8243 | ||
6826cf00 | 8244 | (@value{GDBP}) @b{while-stepping 5} // single-step 5 times, collect data |
b37052ae | 8245 | |
6826cf00 | 8246 | (@value{GDBP}) @b{end} // signals the end of actions. |
b37052ae EZ |
8247 | @end smallexample |
8248 | ||
8249 | In the following example, the action list begins with @code{collect} | |
8250 | commands indicating the things to be collected when the tracepoint is | |
8251 | hit. Then, in order to single-step and collect additional data | |
8252 | following the tracepoint, a @code{while-stepping} command is used, | |
8253 | followed by the list of things to be collected while stepping. The | |
8254 | @code{while-stepping} command is terminated by its own separate | |
8255 | @code{end} command. Lastly, the action list is terminated by an | |
8256 | @code{end} command. | |
8257 | ||
8258 | @smallexample | |
8259 | (@value{GDBP}) @b{trace foo} | |
8260 | (@value{GDBP}) @b{actions} | |
8261 | Enter actions for tracepoint 1, one per line: | |
8262 | > collect bar,baz | |
8263 | > collect $regs | |
8264 | > while-stepping 12 | |
8265 | > collect $fp, $sp | |
8266 | > end | |
8267 | end | |
8268 | @end smallexample | |
8269 | ||
8270 | @kindex collect @r{(tracepoints)} | |
8271 | @item collect @var{expr1}, @var{expr2}, @dots{} | |
8272 | Collect values of the given expressions when the tracepoint is hit. | |
8273 | This command accepts a comma-separated list of any valid expressions. | |
8274 | In addition to global, static, or local variables, the following | |
8275 | special arguments are supported: | |
8276 | ||
8277 | @table @code | |
8278 | @item $regs | |
8279 | collect all registers | |
8280 | ||
8281 | @item $args | |
8282 | collect all function arguments | |
8283 | ||
8284 | @item $locals | |
8285 | collect all local variables. | |
8286 | @end table | |
8287 | ||
8288 | You can give several consecutive @code{collect} commands, each one | |
8289 | with a single argument, or one @code{collect} command with several | |
8290 | arguments separated by commas: the effect is the same. | |
8291 | ||
f5c37c66 EZ |
8292 | The command @code{info scope} (@pxref{Symbols, info scope}) is |
8293 | particularly useful for figuring out what data to collect. | |
8294 | ||
b37052ae EZ |
8295 | @kindex while-stepping @r{(tracepoints)} |
8296 | @item while-stepping @var{n} | |
8297 | Perform @var{n} single-step traces after the tracepoint, collecting | |
8298 | new data at each step. The @code{while-stepping} command is | |
8299 | followed by the list of what to collect while stepping (followed by | |
8300 | its own @code{end} command): | |
8301 | ||
8302 | @smallexample | |
8303 | > while-stepping 12 | |
8304 | > collect $regs, myglobal | |
8305 | > end | |
8306 | > | |
8307 | @end smallexample | |
8308 | ||
8309 | @noindent | |
8310 | You may abbreviate @code{while-stepping} as @code{ws} or | |
8311 | @code{stepping}. | |
8312 | @end table | |
8313 | ||
8314 | @node Listing Tracepoints | |
8315 | @subsection Listing Tracepoints | |
8316 | ||
8317 | @table @code | |
8318 | @kindex info tracepoints | |
09d4efe1 | 8319 | @kindex info tp |
b37052ae EZ |
8320 | @cindex information about tracepoints |
8321 | @item info tracepoints @r{[}@var{num}@r{]} | |
8a037dd7 | 8322 | Display information about the tracepoint @var{num}. If you don't specify |
798c8bc6 | 8323 | a tracepoint number, displays information about all the tracepoints |
b37052ae EZ |
8324 | defined so far. For each tracepoint, the following information is |
8325 | shown: | |
8326 | ||
8327 | @itemize @bullet | |
8328 | @item | |
8329 | its number | |
8330 | @item | |
8331 | whether it is enabled or disabled | |
8332 | @item | |
8333 | its address | |
8334 | @item | |
8335 | its passcount as given by the @code{passcount @var{n}} command | |
8336 | @item | |
8337 | its step count as given by the @code{while-stepping @var{n}} command | |
8338 | @item | |
8339 | where in the source files is the tracepoint set | |
8340 | @item | |
8341 | its action list as given by the @code{actions} command | |
8342 | @end itemize | |
8343 | ||
8344 | @smallexample | |
8345 | (@value{GDBP}) @b{info trace} | |
8346 | Num Enb Address PassC StepC What | |
8347 | 1 y 0x002117c4 0 0 <gdb_asm> | |
6826cf00 EZ |
8348 | 2 y 0x0020dc64 0 0 in g_test at g_test.c:1375 |
8349 | 3 y 0x0020b1f4 0 0 in get_data at ../foo.c:41 | |
b37052ae EZ |
8350 | (@value{GDBP}) |
8351 | @end smallexample | |
8352 | ||
8353 | @noindent | |
8354 | This command can be abbreviated @code{info tp}. | |
8355 | @end table | |
8356 | ||
79a6e687 BW |
8357 | @node Starting and Stopping Trace Experiments |
8358 | @subsection Starting and Stopping Trace Experiments | |
b37052ae EZ |
8359 | |
8360 | @table @code | |
8361 | @kindex tstart | |
8362 | @cindex start a new trace experiment | |
8363 | @cindex collected data discarded | |
8364 | @item tstart | |
8365 | This command takes no arguments. It starts the trace experiment, and | |
8366 | begins collecting data. This has the side effect of discarding all | |
8367 | the data collected in the trace buffer during the previous trace | |
8368 | experiment. | |
8369 | ||
8370 | @kindex tstop | |
8371 | @cindex stop a running trace experiment | |
8372 | @item tstop | |
8373 | This command takes no arguments. It ends the trace experiment, and | |
8374 | stops collecting data. | |
8375 | ||
68c71a2e | 8376 | @strong{Note}: a trace experiment and data collection may stop |
b37052ae EZ |
8377 | automatically if any tracepoint's passcount is reached |
8378 | (@pxref{Tracepoint Passcounts}), or if the trace buffer becomes full. | |
8379 | ||
8380 | @kindex tstatus | |
8381 | @cindex status of trace data collection | |
8382 | @cindex trace experiment, status of | |
8383 | @item tstatus | |
8384 | This command displays the status of the current trace data | |
8385 | collection. | |
8386 | @end table | |
8387 | ||
8388 | Here is an example of the commands we described so far: | |
8389 | ||
8390 | @smallexample | |
8391 | (@value{GDBP}) @b{trace gdb_c_test} | |
8392 | (@value{GDBP}) @b{actions} | |
8393 | Enter actions for tracepoint #1, one per line. | |
8394 | > collect $regs,$locals,$args | |
8395 | > while-stepping 11 | |
8396 | > collect $regs | |
8397 | > end | |
8398 | > end | |
8399 | (@value{GDBP}) @b{tstart} | |
8400 | [time passes @dots{}] | |
8401 | (@value{GDBP}) @b{tstop} | |
8402 | @end smallexample | |
8403 | ||
8404 | ||
8405 | @node Analyze Collected Data | |
79a6e687 | 8406 | @section Using the Collected Data |
b37052ae EZ |
8407 | |
8408 | After the tracepoint experiment ends, you use @value{GDBN} commands | |
8409 | for examining the trace data. The basic idea is that each tracepoint | |
8410 | collects a trace @dfn{snapshot} every time it is hit and another | |
8411 | snapshot every time it single-steps. All these snapshots are | |
8412 | consecutively numbered from zero and go into a buffer, and you can | |
8413 | examine them later. The way you examine them is to @dfn{focus} on a | |
8414 | specific trace snapshot. When the remote stub is focused on a trace | |
8415 | snapshot, it will respond to all @value{GDBN} requests for memory and | |
8416 | registers by reading from the buffer which belongs to that snapshot, | |
8417 | rather than from @emph{real} memory or registers of the program being | |
8418 | debugged. This means that @strong{all} @value{GDBN} commands | |
8419 | (@code{print}, @code{info registers}, @code{backtrace}, etc.) will | |
8420 | behave as if we were currently debugging the program state as it was | |
8421 | when the tracepoint occurred. Any requests for data that are not in | |
8422 | the buffer will fail. | |
8423 | ||
8424 | @menu | |
8425 | * tfind:: How to select a trace snapshot | |
8426 | * tdump:: How to display all data for a snapshot | |
8427 | * save-tracepoints:: How to save tracepoints for a future run | |
8428 | @end menu | |
8429 | ||
8430 | @node tfind | |
8431 | @subsection @code{tfind @var{n}} | |
8432 | ||
8433 | @kindex tfind | |
8434 | @cindex select trace snapshot | |
8435 | @cindex find trace snapshot | |
8436 | The basic command for selecting a trace snapshot from the buffer is | |
8437 | @code{tfind @var{n}}, which finds trace snapshot number @var{n}, | |
8438 | counting from zero. If no argument @var{n} is given, the next | |
8439 | snapshot is selected. | |
8440 | ||
8441 | Here are the various forms of using the @code{tfind} command. | |
8442 | ||
8443 | @table @code | |
8444 | @item tfind start | |
8445 | Find the first snapshot in the buffer. This is a synonym for | |
8446 | @code{tfind 0} (since 0 is the number of the first snapshot). | |
8447 | ||
8448 | @item tfind none | |
8449 | Stop debugging trace snapshots, resume @emph{live} debugging. | |
8450 | ||
8451 | @item tfind end | |
8452 | Same as @samp{tfind none}. | |
8453 | ||
8454 | @item tfind | |
8455 | No argument means find the next trace snapshot. | |
8456 | ||
8457 | @item tfind - | |
8458 | Find the previous trace snapshot before the current one. This permits | |
8459 | retracing earlier steps. | |
8460 | ||
8461 | @item tfind tracepoint @var{num} | |
8462 | Find the next snapshot associated with tracepoint @var{num}. Search | |
8463 | proceeds forward from the last examined trace snapshot. If no | |
8464 | argument @var{num} is given, it means find the next snapshot collected | |
8465 | for the same tracepoint as the current snapshot. | |
8466 | ||
8467 | @item tfind pc @var{addr} | |
8468 | Find the next snapshot associated with the value @var{addr} of the | |
8469 | program counter. Search proceeds forward from the last examined trace | |
8470 | snapshot. If no argument @var{addr} is given, it means find the next | |
8471 | snapshot with the same value of PC as the current snapshot. | |
8472 | ||
8473 | @item tfind outside @var{addr1}, @var{addr2} | |
8474 | Find the next snapshot whose PC is outside the given range of | |
8475 | addresses. | |
8476 | ||
8477 | @item tfind range @var{addr1}, @var{addr2} | |
8478 | Find the next snapshot whose PC is between @var{addr1} and | |
8479 | @var{addr2}. @c FIXME: Is the range inclusive or exclusive? | |
8480 | ||
8481 | @item tfind line @r{[}@var{file}:@r{]}@var{n} | |
8482 | Find the next snapshot associated with the source line @var{n}. If | |
8483 | the optional argument @var{file} is given, refer to line @var{n} in | |
8484 | that source file. Search proceeds forward from the last examined | |
8485 | trace snapshot. If no argument @var{n} is given, it means find the | |
8486 | next line other than the one currently being examined; thus saying | |
8487 | @code{tfind line} repeatedly can appear to have the same effect as | |
8488 | stepping from line to line in a @emph{live} debugging session. | |
8489 | @end table | |
8490 | ||
8491 | The default arguments for the @code{tfind} commands are specifically | |
8492 | designed to make it easy to scan through the trace buffer. For | |
8493 | instance, @code{tfind} with no argument selects the next trace | |
8494 | snapshot, and @code{tfind -} with no argument selects the previous | |
8495 | trace snapshot. So, by giving one @code{tfind} command, and then | |
8496 | simply hitting @key{RET} repeatedly you can examine all the trace | |
8497 | snapshots in order. Or, by saying @code{tfind -} and then hitting | |
8498 | @key{RET} repeatedly you can examine the snapshots in reverse order. | |
8499 | The @code{tfind line} command with no argument selects the snapshot | |
8500 | for the next source line executed. The @code{tfind pc} command with | |
8501 | no argument selects the next snapshot with the same program counter | |
8502 | (PC) as the current frame. The @code{tfind tracepoint} command with | |
8503 | no argument selects the next trace snapshot collected by the same | |
8504 | tracepoint as the current one. | |
8505 | ||
8506 | In addition to letting you scan through the trace buffer manually, | |
8507 | these commands make it easy to construct @value{GDBN} scripts that | |
8508 | scan through the trace buffer and print out whatever collected data | |
8509 | you are interested in. Thus, if we want to examine the PC, FP, and SP | |
8510 | registers from each trace frame in the buffer, we can say this: | |
8511 | ||
8512 | @smallexample | |
8513 | (@value{GDBP}) @b{tfind start} | |
8514 | (@value{GDBP}) @b{while ($trace_frame != -1)} | |
8515 | > printf "Frame %d, PC = %08X, SP = %08X, FP = %08X\n", \ | |
8516 | $trace_frame, $pc, $sp, $fp | |
8517 | > tfind | |
8518 | > end | |
8519 | ||
8520 | Frame 0, PC = 0020DC64, SP = 0030BF3C, FP = 0030BF44 | |
8521 | Frame 1, PC = 0020DC6C, SP = 0030BF38, FP = 0030BF44 | |
8522 | Frame 2, PC = 0020DC70, SP = 0030BF34, FP = 0030BF44 | |
8523 | Frame 3, PC = 0020DC74, SP = 0030BF30, FP = 0030BF44 | |
8524 | Frame 4, PC = 0020DC78, SP = 0030BF2C, FP = 0030BF44 | |
8525 | Frame 5, PC = 0020DC7C, SP = 0030BF28, FP = 0030BF44 | |
8526 | Frame 6, PC = 0020DC80, SP = 0030BF24, FP = 0030BF44 | |
8527 | Frame 7, PC = 0020DC84, SP = 0030BF20, FP = 0030BF44 | |
8528 | Frame 8, PC = 0020DC88, SP = 0030BF1C, FP = 0030BF44 | |
8529 | Frame 9, PC = 0020DC8E, SP = 0030BF18, FP = 0030BF44 | |
8530 | Frame 10, PC = 00203F6C, SP = 0030BE3C, FP = 0030BF14 | |
8531 | @end smallexample | |
8532 | ||
8533 | Or, if we want to examine the variable @code{X} at each source line in | |
8534 | the buffer: | |
8535 | ||
8536 | @smallexample | |
8537 | (@value{GDBP}) @b{tfind start} | |
8538 | (@value{GDBP}) @b{while ($trace_frame != -1)} | |
8539 | > printf "Frame %d, X == %d\n", $trace_frame, X | |
8540 | > tfind line | |
8541 | > end | |
8542 | ||
8543 | Frame 0, X = 1 | |
8544 | Frame 7, X = 2 | |
8545 | Frame 13, X = 255 | |
8546 | @end smallexample | |
8547 | ||
8548 | @node tdump | |
8549 | @subsection @code{tdump} | |
8550 | @kindex tdump | |
8551 | @cindex dump all data collected at tracepoint | |
8552 | @cindex tracepoint data, display | |
8553 | ||
8554 | This command takes no arguments. It prints all the data collected at | |
8555 | the current trace snapshot. | |
8556 | ||
8557 | @smallexample | |
8558 | (@value{GDBP}) @b{trace 444} | |
8559 | (@value{GDBP}) @b{actions} | |
8560 | Enter actions for tracepoint #2, one per line: | |
8561 | > collect $regs, $locals, $args, gdb_long_test | |
8562 | > end | |
8563 | ||
8564 | (@value{GDBP}) @b{tstart} | |
8565 | ||
8566 | (@value{GDBP}) @b{tfind line 444} | |
8567 | #0 gdb_test (p1=0x11, p2=0x22, p3=0x33, p4=0x44, p5=0x55, p6=0x66) | |
8568 | at gdb_test.c:444 | |
8569 | 444 printp( "%s: arguments = 0x%X 0x%X 0x%X 0x%X 0x%X 0x%X\n", ) | |
8570 | ||
8571 | (@value{GDBP}) @b{tdump} | |
8572 | Data collected at tracepoint 2, trace frame 1: | |
8573 | d0 0xc4aa0085 -995491707 | |
8574 | d1 0x18 24 | |
8575 | d2 0x80 128 | |
8576 | d3 0x33 51 | |
8577 | d4 0x71aea3d 119204413 | |
8578 | d5 0x22 34 | |
8579 | d6 0xe0 224 | |
8580 | d7 0x380035 3670069 | |
8581 | a0 0x19e24a 1696330 | |
8582 | a1 0x3000668 50333288 | |
8583 | a2 0x100 256 | |
8584 | a3 0x322000 3284992 | |
8585 | a4 0x3000698 50333336 | |
8586 | a5 0x1ad3cc 1758156 | |
8587 | fp 0x30bf3c 0x30bf3c | |
8588 | sp 0x30bf34 0x30bf34 | |
8589 | ps 0x0 0 | |
8590 | pc 0x20b2c8 0x20b2c8 | |
8591 | fpcontrol 0x0 0 | |
8592 | fpstatus 0x0 0 | |
8593 | fpiaddr 0x0 0 | |
8594 | p = 0x20e5b4 "gdb-test" | |
8595 | p1 = (void *) 0x11 | |
8596 | p2 = (void *) 0x22 | |
8597 | p3 = (void *) 0x33 | |
8598 | p4 = (void *) 0x44 | |
8599 | p5 = (void *) 0x55 | |
8600 | p6 = (void *) 0x66 | |
8601 | gdb_long_test = 17 '\021' | |
8602 | ||
8603 | (@value{GDBP}) | |
8604 | @end smallexample | |
8605 | ||
8606 | @node save-tracepoints | |
8607 | @subsection @code{save-tracepoints @var{filename}} | |
8608 | @kindex save-tracepoints | |
8609 | @cindex save tracepoints for future sessions | |
8610 | ||
8611 | This command saves all current tracepoint definitions together with | |
8612 | their actions and passcounts, into a file @file{@var{filename}} | |
8613 | suitable for use in a later debugging session. To read the saved | |
8614 | tracepoint definitions, use the @code{source} command (@pxref{Command | |
8615 | Files}). | |
8616 | ||
8617 | @node Tracepoint Variables | |
8618 | @section Convenience Variables for Tracepoints | |
8619 | @cindex tracepoint variables | |
8620 | @cindex convenience variables for tracepoints | |
8621 | ||
8622 | @table @code | |
8623 | @vindex $trace_frame | |
8624 | @item (int) $trace_frame | |
8625 | The current trace snapshot (a.k.a.@: @dfn{frame}) number, or -1 if no | |
8626 | snapshot is selected. | |
8627 | ||
8628 | @vindex $tracepoint | |
8629 | @item (int) $tracepoint | |
8630 | The tracepoint for the current trace snapshot. | |
8631 | ||
8632 | @vindex $trace_line | |
8633 | @item (int) $trace_line | |
8634 | The line number for the current trace snapshot. | |
8635 | ||
8636 | @vindex $trace_file | |
8637 | @item (char []) $trace_file | |
8638 | The source file for the current trace snapshot. | |
8639 | ||
8640 | @vindex $trace_func | |
8641 | @item (char []) $trace_func | |
8642 | The name of the function containing @code{$tracepoint}. | |
8643 | @end table | |
8644 | ||
8645 | Note: @code{$trace_file} is not suitable for use in @code{printf}, | |
8646 | use @code{output} instead. | |
8647 | ||
8648 | Here's a simple example of using these convenience variables for | |
8649 | stepping through all the trace snapshots and printing some of their | |
8650 | data. | |
8651 | ||
8652 | @smallexample | |
8653 | (@value{GDBP}) @b{tfind start} | |
8654 | ||
8655 | (@value{GDBP}) @b{while $trace_frame != -1} | |
8656 | > output $trace_file | |
8657 | > printf ", line %d (tracepoint #%d)\n", $trace_line, $tracepoint | |
8658 | > tfind | |
8659 | > end | |
8660 | @end smallexample | |
8661 | ||
df0cd8c5 JB |
8662 | @node Overlays |
8663 | @chapter Debugging Programs That Use Overlays | |
8664 | @cindex overlays | |
8665 | ||
8666 | If your program is too large to fit completely in your target system's | |
8667 | memory, you can sometimes use @dfn{overlays} to work around this | |
8668 | problem. @value{GDBN} provides some support for debugging programs that | |
8669 | use overlays. | |
8670 | ||
8671 | @menu | |
8672 | * How Overlays Work:: A general explanation of overlays. | |
8673 | * Overlay Commands:: Managing overlays in @value{GDBN}. | |
8674 | * Automatic Overlay Debugging:: @value{GDBN} can find out which overlays are | |
8675 | mapped by asking the inferior. | |
8676 | * Overlay Sample Program:: A sample program using overlays. | |
8677 | @end menu | |
8678 | ||
8679 | @node How Overlays Work | |
8680 | @section How Overlays Work | |
8681 | @cindex mapped overlays | |
8682 | @cindex unmapped overlays | |
8683 | @cindex load address, overlay's | |
8684 | @cindex mapped address | |
8685 | @cindex overlay area | |
8686 | ||
8687 | Suppose you have a computer whose instruction address space is only 64 | |
8688 | kilobytes long, but which has much more memory which can be accessed by | |
8689 | other means: special instructions, segment registers, or memory | |
8690 | management hardware, for example. Suppose further that you want to | |
8691 | adapt a program which is larger than 64 kilobytes to run on this system. | |
8692 | ||
8693 | One solution is to identify modules of your program which are relatively | |
8694 | independent, and need not call each other directly; call these modules | |
8695 | @dfn{overlays}. Separate the overlays from the main program, and place | |
8696 | their machine code in the larger memory. Place your main program in | |
8697 | instruction memory, but leave at least enough space there to hold the | |
8698 | largest overlay as well. | |
8699 | ||
8700 | Now, to call a function located in an overlay, you must first copy that | |
8701 | overlay's machine code from the large memory into the space set aside | |
8702 | for it in the instruction memory, and then jump to its entry point | |
8703 | there. | |
8704 | ||
c928edc0 AC |
8705 | @c NB: In the below the mapped area's size is greater or equal to the |
8706 | @c size of all overlays. This is intentional to remind the developer | |
8707 | @c that overlays don't necessarily need to be the same size. | |
8708 | ||
474c8240 | 8709 | @smallexample |
df0cd8c5 | 8710 | @group |
c928edc0 AC |
8711 | Data Instruction Larger |
8712 | Address Space Address Space Address Space | |
8713 | +-----------+ +-----------+ +-----------+ | |
8714 | | | | | | | | |
8715 | +-----------+ +-----------+ +-----------+<-- overlay 1 | |
8716 | | program | | main | .----| overlay 1 | load address | |
8717 | | variables | | program | | +-----------+ | |
8718 | | and heap | | | | | | | |
8719 | +-----------+ | | | +-----------+<-- overlay 2 | |
8720 | | | +-----------+ | | | load address | |
8721 | +-----------+ | | | .-| overlay 2 | | |
8722 | | | | | | | | |
8723 | mapped --->+-----------+ | | +-----------+ | |
8724 | address | | | | | | | |
8725 | | overlay | <-' | | | | |
8726 | | area | <---' +-----------+<-- overlay 3 | |
8727 | | | <---. | | load address | |
8728 | +-----------+ `--| overlay 3 | | |
8729 | | | | | | |
8730 | +-----------+ | | | |
8731 | +-----------+ | |
8732 | | | | |
8733 | +-----------+ | |
8734 | ||
8735 | @anchor{A code overlay}A code overlay | |
df0cd8c5 | 8736 | @end group |
474c8240 | 8737 | @end smallexample |
df0cd8c5 | 8738 | |
c928edc0 AC |
8739 | The diagram (@pxref{A code overlay}) shows a system with separate data |
8740 | and instruction address spaces. To map an overlay, the program copies | |
8741 | its code from the larger address space to the instruction address space. | |
8742 | Since the overlays shown here all use the same mapped address, only one | |
8743 | may be mapped at a time. For a system with a single address space for | |
8744 | data and instructions, the diagram would be similar, except that the | |
8745 | program variables and heap would share an address space with the main | |
8746 | program and the overlay area. | |
df0cd8c5 JB |
8747 | |
8748 | An overlay loaded into instruction memory and ready for use is called a | |
8749 | @dfn{mapped} overlay; its @dfn{mapped address} is its address in the | |
8750 | instruction memory. An overlay not present (or only partially present) | |
8751 | in instruction memory is called @dfn{unmapped}; its @dfn{load address} | |
8752 | is its address in the larger memory. The mapped address is also called | |
8753 | the @dfn{virtual memory address}, or @dfn{VMA}; the load address is also | |
8754 | called the @dfn{load memory address}, or @dfn{LMA}. | |
8755 | ||
8756 | Unfortunately, overlays are not a completely transparent way to adapt a | |
8757 | program to limited instruction memory. They introduce a new set of | |
8758 | global constraints you must keep in mind as you design your program: | |
8759 | ||
8760 | @itemize @bullet | |
8761 | ||
8762 | @item | |
8763 | Before calling or returning to a function in an overlay, your program | |
8764 | must make sure that overlay is actually mapped. Otherwise, the call or | |
8765 | return will transfer control to the right address, but in the wrong | |
8766 | overlay, and your program will probably crash. | |
8767 | ||
8768 | @item | |
8769 | If the process of mapping an overlay is expensive on your system, you | |
8770 | will need to choose your overlays carefully to minimize their effect on | |
8771 | your program's performance. | |
8772 | ||
8773 | @item | |
8774 | The executable file you load onto your system must contain each | |
8775 | overlay's instructions, appearing at the overlay's load address, not its | |
8776 | mapped address. However, each overlay's instructions must be relocated | |
8777 | and its symbols defined as if the overlay were at its mapped address. | |
8778 | You can use GNU linker scripts to specify different load and relocation | |
8779 | addresses for pieces of your program; see @ref{Overlay Description,,, | |
8780 | ld.info, Using ld: the GNU linker}. | |
8781 | ||
8782 | @item | |
8783 | The procedure for loading executable files onto your system must be able | |
8784 | to load their contents into the larger address space as well as the | |
8785 | instruction and data spaces. | |
8786 | ||
8787 | @end itemize | |
8788 | ||
8789 | The overlay system described above is rather simple, and could be | |
8790 | improved in many ways: | |
8791 | ||
8792 | @itemize @bullet | |
8793 | ||
8794 | @item | |
8795 | If your system has suitable bank switch registers or memory management | |
8796 | hardware, you could use those facilities to make an overlay's load area | |
8797 | contents simply appear at their mapped address in instruction space. | |
8798 | This would probably be faster than copying the overlay to its mapped | |
8799 | area in the usual way. | |
8800 | ||
8801 | @item | |
8802 | If your overlays are small enough, you could set aside more than one | |
8803 | overlay area, and have more than one overlay mapped at a time. | |
8804 | ||
8805 | @item | |
8806 | You can use overlays to manage data, as well as instructions. In | |
8807 | general, data overlays are even less transparent to your design than | |
8808 | code overlays: whereas code overlays only require care when you call or | |
8809 | return to functions, data overlays require care every time you access | |
8810 | the data. Also, if you change the contents of a data overlay, you | |
8811 | must copy its contents back out to its load address before you can copy a | |
8812 | different data overlay into the same mapped area. | |
8813 | ||
8814 | @end itemize | |
8815 | ||
8816 | ||
8817 | @node Overlay Commands | |
8818 | @section Overlay Commands | |
8819 | ||
8820 | To use @value{GDBN}'s overlay support, each overlay in your program must | |
8821 | correspond to a separate section of the executable file. The section's | |
8822 | virtual memory address and load memory address must be the overlay's | |
8823 | mapped and load addresses. Identifying overlays with sections allows | |
8824 | @value{GDBN} to determine the appropriate address of a function or | |
8825 | variable, depending on whether the overlay is mapped or not. | |
8826 | ||
8827 | @value{GDBN}'s overlay commands all start with the word @code{overlay}; | |
8828 | you can abbreviate this as @code{ov} or @code{ovly}. The commands are: | |
8829 | ||
8830 | @table @code | |
8831 | @item overlay off | |
4644b6e3 | 8832 | @kindex overlay |
df0cd8c5 JB |
8833 | Disable @value{GDBN}'s overlay support. When overlay support is |
8834 | disabled, @value{GDBN} assumes that all functions and variables are | |
8835 | always present at their mapped addresses. By default, @value{GDBN}'s | |
8836 | overlay support is disabled. | |
8837 | ||
8838 | @item overlay manual | |
df0cd8c5 JB |
8839 | @cindex manual overlay debugging |
8840 | Enable @dfn{manual} overlay debugging. In this mode, @value{GDBN} | |
8841 | relies on you to tell it which overlays are mapped, and which are not, | |
8842 | using the @code{overlay map-overlay} and @code{overlay unmap-overlay} | |
8843 | commands described below. | |
8844 | ||
8845 | @item overlay map-overlay @var{overlay} | |
8846 | @itemx overlay map @var{overlay} | |
df0cd8c5 JB |
8847 | @cindex map an overlay |
8848 | Tell @value{GDBN} that @var{overlay} is now mapped; @var{overlay} must | |
8849 | be the name of the object file section containing the overlay. When an | |
8850 | overlay is mapped, @value{GDBN} assumes it can find the overlay's | |
8851 | functions and variables at their mapped addresses. @value{GDBN} assumes | |
8852 | that any other overlays whose mapped ranges overlap that of | |
8853 | @var{overlay} are now unmapped. | |
8854 | ||
8855 | @item overlay unmap-overlay @var{overlay} | |
8856 | @itemx overlay unmap @var{overlay} | |
df0cd8c5 JB |
8857 | @cindex unmap an overlay |
8858 | Tell @value{GDBN} that @var{overlay} is no longer mapped; @var{overlay} | |
8859 | must be the name of the object file section containing the overlay. | |
8860 | When an overlay is unmapped, @value{GDBN} assumes it can find the | |
8861 | overlay's functions and variables at their load addresses. | |
8862 | ||
8863 | @item overlay auto | |
df0cd8c5 JB |
8864 | Enable @dfn{automatic} overlay debugging. In this mode, @value{GDBN} |
8865 | consults a data structure the overlay manager maintains in the inferior | |
8866 | to see which overlays are mapped. For details, see @ref{Automatic | |
8867 | Overlay Debugging}. | |
8868 | ||
8869 | @item overlay load-target | |
8870 | @itemx overlay load | |
df0cd8c5 JB |
8871 | @cindex reloading the overlay table |
8872 | Re-read the overlay table from the inferior. Normally, @value{GDBN} | |
8873 | re-reads the table @value{GDBN} automatically each time the inferior | |
8874 | stops, so this command should only be necessary if you have changed the | |
8875 | overlay mapping yourself using @value{GDBN}. This command is only | |
8876 | useful when using automatic overlay debugging. | |
8877 | ||
8878 | @item overlay list-overlays | |
8879 | @itemx overlay list | |
8880 | @cindex listing mapped overlays | |
8881 | Display a list of the overlays currently mapped, along with their mapped | |
8882 | addresses, load addresses, and sizes. | |
8883 | ||
8884 | @end table | |
8885 | ||
8886 | Normally, when @value{GDBN} prints a code address, it includes the name | |
8887 | of the function the address falls in: | |
8888 | ||
474c8240 | 8889 | @smallexample |
f7dc1244 | 8890 | (@value{GDBP}) print main |
df0cd8c5 | 8891 | $3 = @{int ()@} 0x11a0 <main> |
474c8240 | 8892 | @end smallexample |
df0cd8c5 JB |
8893 | @noindent |
8894 | When overlay debugging is enabled, @value{GDBN} recognizes code in | |
8895 | unmapped overlays, and prints the names of unmapped functions with | |
8896 | asterisks around them. For example, if @code{foo} is a function in an | |
8897 | unmapped overlay, @value{GDBN} prints it this way: | |
8898 | ||
474c8240 | 8899 | @smallexample |
f7dc1244 | 8900 | (@value{GDBP}) overlay list |
df0cd8c5 | 8901 | No sections are mapped. |
f7dc1244 | 8902 | (@value{GDBP}) print foo |
df0cd8c5 | 8903 | $5 = @{int (int)@} 0x100000 <*foo*> |
474c8240 | 8904 | @end smallexample |
df0cd8c5 JB |
8905 | @noindent |
8906 | When @code{foo}'s overlay is mapped, @value{GDBN} prints the function's | |
8907 | name normally: | |
8908 | ||
474c8240 | 8909 | @smallexample |
f7dc1244 | 8910 | (@value{GDBP}) overlay list |
b383017d | 8911 | Section .ov.foo.text, loaded at 0x100000 - 0x100034, |
df0cd8c5 | 8912 | mapped at 0x1016 - 0x104a |
f7dc1244 | 8913 | (@value{GDBP}) print foo |
df0cd8c5 | 8914 | $6 = @{int (int)@} 0x1016 <foo> |
474c8240 | 8915 | @end smallexample |
df0cd8c5 JB |
8916 | |
8917 | When overlay debugging is enabled, @value{GDBN} can find the correct | |
8918 | address for functions and variables in an overlay, whether or not the | |
8919 | overlay is mapped. This allows most @value{GDBN} commands, like | |
8920 | @code{break} and @code{disassemble}, to work normally, even on unmapped | |
8921 | code. However, @value{GDBN}'s breakpoint support has some limitations: | |
8922 | ||
8923 | @itemize @bullet | |
8924 | @item | |
8925 | @cindex breakpoints in overlays | |
8926 | @cindex overlays, setting breakpoints in | |
8927 | You can set breakpoints in functions in unmapped overlays, as long as | |
8928 | @value{GDBN} can write to the overlay at its load address. | |
8929 | @item | |
8930 | @value{GDBN} can not set hardware or simulator-based breakpoints in | |
8931 | unmapped overlays. However, if you set a breakpoint at the end of your | |
8932 | overlay manager (and tell @value{GDBN} which overlays are now mapped, if | |
8933 | you are using manual overlay management), @value{GDBN} will re-set its | |
8934 | breakpoints properly. | |
8935 | @end itemize | |
8936 | ||
8937 | ||
8938 | @node Automatic Overlay Debugging | |
8939 | @section Automatic Overlay Debugging | |
8940 | @cindex automatic overlay debugging | |
8941 | ||
8942 | @value{GDBN} can automatically track which overlays are mapped and which | |
8943 | are not, given some simple co-operation from the overlay manager in the | |
8944 | inferior. If you enable automatic overlay debugging with the | |
8945 | @code{overlay auto} command (@pxref{Overlay Commands}), @value{GDBN} | |
8946 | looks in the inferior's memory for certain variables describing the | |
8947 | current state of the overlays. | |
8948 | ||
8949 | Here are the variables your overlay manager must define to support | |
8950 | @value{GDBN}'s automatic overlay debugging: | |
8951 | ||
8952 | @table @asis | |
8953 | ||
8954 | @item @code{_ovly_table}: | |
8955 | This variable must be an array of the following structures: | |
8956 | ||
474c8240 | 8957 | @smallexample |
df0cd8c5 JB |
8958 | struct |
8959 | @{ | |
8960 | /* The overlay's mapped address. */ | |
8961 | unsigned long vma; | |
8962 | ||
8963 | /* The size of the overlay, in bytes. */ | |
8964 | unsigned long size; | |
8965 | ||
8966 | /* The overlay's load address. */ | |
8967 | unsigned long lma; | |
8968 | ||
8969 | /* Non-zero if the overlay is currently mapped; | |
8970 | zero otherwise. */ | |
8971 | unsigned long mapped; | |
8972 | @} | |
474c8240 | 8973 | @end smallexample |
df0cd8c5 JB |
8974 | |
8975 | @item @code{_novlys}: | |
8976 | This variable must be a four-byte signed integer, holding the total | |
8977 | number of elements in @code{_ovly_table}. | |
8978 | ||
8979 | @end table | |
8980 | ||
8981 | To decide whether a particular overlay is mapped or not, @value{GDBN} | |
8982 | looks for an entry in @w{@code{_ovly_table}} whose @code{vma} and | |
8983 | @code{lma} members equal the VMA and LMA of the overlay's section in the | |
8984 | executable file. When @value{GDBN} finds a matching entry, it consults | |
8985 | the entry's @code{mapped} member to determine whether the overlay is | |
8986 | currently mapped. | |
8987 | ||
81d46470 | 8988 | In addition, your overlay manager may define a function called |
def71bfa | 8989 | @code{_ovly_debug_event}. If this function is defined, @value{GDBN} |
81d46470 MS |
8990 | will silently set a breakpoint there. If the overlay manager then |
8991 | calls this function whenever it has changed the overlay table, this | |
8992 | will enable @value{GDBN} to accurately keep track of which overlays | |
8993 | are in program memory, and update any breakpoints that may be set | |
b383017d | 8994 | in overlays. This will allow breakpoints to work even if the |
81d46470 MS |
8995 | overlays are kept in ROM or other non-writable memory while they |
8996 | are not being executed. | |
df0cd8c5 JB |
8997 | |
8998 | @node Overlay Sample Program | |
8999 | @section Overlay Sample Program | |
9000 | @cindex overlay example program | |
9001 | ||
9002 | When linking a program which uses overlays, you must place the overlays | |
9003 | at their load addresses, while relocating them to run at their mapped | |
9004 | addresses. To do this, you must write a linker script (@pxref{Overlay | |
9005 | Description,,, ld.info, Using ld: the GNU linker}). Unfortunately, | |
9006 | since linker scripts are specific to a particular host system, target | |
9007 | architecture, and target memory layout, this manual cannot provide | |
9008 | portable sample code demonstrating @value{GDBN}'s overlay support. | |
9009 | ||
9010 | However, the @value{GDBN} source distribution does contain an overlaid | |
9011 | program, with linker scripts for a few systems, as part of its test | |
9012 | suite. The program consists of the following files from | |
9013 | @file{gdb/testsuite/gdb.base}: | |
9014 | ||
9015 | @table @file | |
9016 | @item overlays.c | |
9017 | The main program file. | |
9018 | @item ovlymgr.c | |
9019 | A simple overlay manager, used by @file{overlays.c}. | |
9020 | @item foo.c | |
9021 | @itemx bar.c | |
9022 | @itemx baz.c | |
9023 | @itemx grbx.c | |
9024 | Overlay modules, loaded and used by @file{overlays.c}. | |
9025 | @item d10v.ld | |
9026 | @itemx m32r.ld | |
9027 | Linker scripts for linking the test program on the @code{d10v-elf} | |
9028 | and @code{m32r-elf} targets. | |
9029 | @end table | |
9030 | ||
9031 | You can build the test program using the @code{d10v-elf} GCC | |
9032 | cross-compiler like this: | |
9033 | ||
474c8240 | 9034 | @smallexample |
df0cd8c5 JB |
9035 | $ d10v-elf-gcc -g -c overlays.c |
9036 | $ d10v-elf-gcc -g -c ovlymgr.c | |
9037 | $ d10v-elf-gcc -g -c foo.c | |
9038 | $ d10v-elf-gcc -g -c bar.c | |
9039 | $ d10v-elf-gcc -g -c baz.c | |
9040 | $ d10v-elf-gcc -g -c grbx.c | |
9041 | $ d10v-elf-gcc -g overlays.o ovlymgr.o foo.o bar.o \ | |
9042 | baz.o grbx.o -Wl,-Td10v.ld -o overlays | |
474c8240 | 9043 | @end smallexample |
df0cd8c5 JB |
9044 | |
9045 | The build process is identical for any other architecture, except that | |
9046 | you must substitute the appropriate compiler and linker script for the | |
9047 | target system for @code{d10v-elf-gcc} and @code{d10v.ld}. | |
9048 | ||
9049 | ||
6d2ebf8b | 9050 | @node Languages |
c906108c SS |
9051 | @chapter Using @value{GDBN} with Different Languages |
9052 | @cindex languages | |
9053 | ||
c906108c SS |
9054 | Although programming languages generally have common aspects, they are |
9055 | rarely expressed in the same manner. For instance, in ANSI C, | |
9056 | dereferencing a pointer @code{p} is accomplished by @code{*p}, but in | |
9057 | Modula-2, it is accomplished by @code{p^}. Values can also be | |
5d161b24 | 9058 | represented (and displayed) differently. Hex numbers in C appear as |
c906108c | 9059 | @samp{0x1ae}, while in Modula-2 they appear as @samp{1AEH}. |
c906108c SS |
9060 | |
9061 | @cindex working language | |
9062 | Language-specific information is built into @value{GDBN} for some languages, | |
9063 | allowing you to express operations like the above in your program's | |
9064 | native language, and allowing @value{GDBN} to output values in a manner | |
9065 | consistent with the syntax of your program's native language. The | |
9066 | language you use to build expressions is called the @dfn{working | |
9067 | language}. | |
9068 | ||
9069 | @menu | |
9070 | * Setting:: Switching between source languages | |
9071 | * Show:: Displaying the language | |
c906108c | 9072 | * Checks:: Type and range checks |
79a6e687 BW |
9073 | * Supported Languages:: Supported languages |
9074 | * Unsupported Languages:: Unsupported languages | |
c906108c SS |
9075 | @end menu |
9076 | ||
6d2ebf8b | 9077 | @node Setting |
79a6e687 | 9078 | @section Switching Between Source Languages |
c906108c SS |
9079 | |
9080 | There are two ways to control the working language---either have @value{GDBN} | |
9081 | set it automatically, or select it manually yourself. You can use the | |
9082 | @code{set language} command for either purpose. On startup, @value{GDBN} | |
9083 | defaults to setting the language automatically. The working language is | |
9084 | used to determine how expressions you type are interpreted, how values | |
9085 | are printed, etc. | |
9086 | ||
9087 | In addition to the working language, every source file that | |
9088 | @value{GDBN} knows about has its own working language. For some object | |
9089 | file formats, the compiler might indicate which language a particular | |
9090 | source file is in. However, most of the time @value{GDBN} infers the | |
9091 | language from the name of the file. The language of a source file | |
b37052ae | 9092 | controls whether C@t{++} names are demangled---this way @code{backtrace} can |
c906108c | 9093 | show each frame appropriately for its own language. There is no way to |
d4f3574e SS |
9094 | set the language of a source file from within @value{GDBN}, but you can |
9095 | set the language associated with a filename extension. @xref{Show, , | |
79a6e687 | 9096 | Displaying the Language}. |
c906108c SS |
9097 | |
9098 | This is most commonly a problem when you use a program, such | |
5d161b24 | 9099 | as @code{cfront} or @code{f2c}, that generates C but is written in |
c906108c SS |
9100 | another language. In that case, make the |
9101 | program use @code{#line} directives in its C output; that way | |
9102 | @value{GDBN} will know the correct language of the source code of the original | |
9103 | program, and will display that source code, not the generated C code. | |
9104 | ||
9105 | @menu | |
9106 | * Filenames:: Filename extensions and languages. | |
9107 | * Manually:: Setting the working language manually | |
9108 | * Automatically:: Having @value{GDBN} infer the source language | |
9109 | @end menu | |
9110 | ||
6d2ebf8b | 9111 | @node Filenames |
79a6e687 | 9112 | @subsection List of Filename Extensions and Languages |
c906108c SS |
9113 | |
9114 | If a source file name ends in one of the following extensions, then | |
9115 | @value{GDBN} infers that its language is the one indicated. | |
9116 | ||
9117 | @table @file | |
e07c999f PH |
9118 | @item .ada |
9119 | @itemx .ads | |
9120 | @itemx .adb | |
9121 | @itemx .a | |
9122 | Ada source file. | |
c906108c SS |
9123 | |
9124 | @item .c | |
9125 | C source file | |
9126 | ||
9127 | @item .C | |
9128 | @itemx .cc | |
9129 | @itemx .cp | |
9130 | @itemx .cpp | |
9131 | @itemx .cxx | |
9132 | @itemx .c++ | |
b37052ae | 9133 | C@t{++} source file |
c906108c | 9134 | |
b37303ee AF |
9135 | @item .m |
9136 | Objective-C source file | |
9137 | ||
c906108c SS |
9138 | @item .f |
9139 | @itemx .F | |
9140 | Fortran source file | |
9141 | ||
c906108c SS |
9142 | @item .mod |
9143 | Modula-2 source file | |
c906108c SS |
9144 | |
9145 | @item .s | |
9146 | @itemx .S | |
9147 | Assembler source file. This actually behaves almost like C, but | |
9148 | @value{GDBN} does not skip over function prologues when stepping. | |
9149 | @end table | |
9150 | ||
9151 | In addition, you may set the language associated with a filename | |
79a6e687 | 9152 | extension. @xref{Show, , Displaying the Language}. |
c906108c | 9153 | |
6d2ebf8b | 9154 | @node Manually |
79a6e687 | 9155 | @subsection Setting the Working Language |
c906108c SS |
9156 | |
9157 | If you allow @value{GDBN} to set the language automatically, | |
9158 | expressions are interpreted the same way in your debugging session and | |
9159 | your program. | |
9160 | ||
9161 | @kindex set language | |
9162 | If you wish, you may set the language manually. To do this, issue the | |
9163 | command @samp{set language @var{lang}}, where @var{lang} is the name of | |
5d161b24 | 9164 | a language, such as |
c906108c | 9165 | @code{c} or @code{modula-2}. |
c906108c SS |
9166 | For a list of the supported languages, type @samp{set language}. |
9167 | ||
c906108c SS |
9168 | Setting the language manually prevents @value{GDBN} from updating the working |
9169 | language automatically. This can lead to confusion if you try | |
9170 | to debug a program when the working language is not the same as the | |
9171 | source language, when an expression is acceptable to both | |
9172 | languages---but means different things. For instance, if the current | |
9173 | source file were written in C, and @value{GDBN} was parsing Modula-2, a | |
9174 | command such as: | |
9175 | ||
474c8240 | 9176 | @smallexample |
c906108c | 9177 | print a = b + c |
474c8240 | 9178 | @end smallexample |
c906108c SS |
9179 | |
9180 | @noindent | |
9181 | might not have the effect you intended. In C, this means to add | |
9182 | @code{b} and @code{c} and place the result in @code{a}. The result | |
9183 | printed would be the value of @code{a}. In Modula-2, this means to compare | |
9184 | @code{a} to the result of @code{b+c}, yielding a @code{BOOLEAN} value. | |
c906108c | 9185 | |
6d2ebf8b | 9186 | @node Automatically |
79a6e687 | 9187 | @subsection Having @value{GDBN} Infer the Source Language |
c906108c SS |
9188 | |
9189 | To have @value{GDBN} set the working language automatically, use | |
9190 | @samp{set language local} or @samp{set language auto}. @value{GDBN} | |
9191 | then infers the working language. That is, when your program stops in a | |
9192 | frame (usually by encountering a breakpoint), @value{GDBN} sets the | |
9193 | working language to the language recorded for the function in that | |
9194 | frame. If the language for a frame is unknown (that is, if the function | |
9195 | or block corresponding to the frame was defined in a source file that | |
9196 | does not have a recognized extension), the current working language is | |
9197 | not changed, and @value{GDBN} issues a warning. | |
9198 | ||
9199 | This may not seem necessary for most programs, which are written | |
9200 | entirely in one source language. However, program modules and libraries | |
9201 | written in one source language can be used by a main program written in | |
9202 | a different source language. Using @samp{set language auto} in this | |
9203 | case frees you from having to set the working language manually. | |
9204 | ||
6d2ebf8b | 9205 | @node Show |
79a6e687 | 9206 | @section Displaying the Language |
c906108c SS |
9207 | |
9208 | The following commands help you find out which language is the | |
9209 | working language, and also what language source files were written in. | |
9210 | ||
c906108c SS |
9211 | @table @code |
9212 | @item show language | |
9c16f35a | 9213 | @kindex show language |
c906108c SS |
9214 | Display the current working language. This is the |
9215 | language you can use with commands such as @code{print} to | |
9216 | build and compute expressions that may involve variables in your program. | |
9217 | ||
9218 | @item info frame | |
4644b6e3 | 9219 | @kindex info frame@r{, show the source language} |
5d161b24 | 9220 | Display the source language for this frame. This language becomes the |
c906108c | 9221 | working language if you use an identifier from this frame. |
79a6e687 | 9222 | @xref{Frame Info, ,Information about a Frame}, to identify the other |
c906108c SS |
9223 | information listed here. |
9224 | ||
9225 | @item info source | |
4644b6e3 | 9226 | @kindex info source@r{, show the source language} |
c906108c | 9227 | Display the source language of this source file. |
5d161b24 | 9228 | @xref{Symbols, ,Examining the Symbol Table}, to identify the other |
c906108c SS |
9229 | information listed here. |
9230 | @end table | |
9231 | ||
9232 | In unusual circumstances, you may have source files with extensions | |
9233 | not in the standard list. You can then set the extension associated | |
9234 | with a language explicitly: | |
9235 | ||
c906108c | 9236 | @table @code |
09d4efe1 | 9237 | @item set extension-language @var{ext} @var{language} |
9c16f35a | 9238 | @kindex set extension-language |
09d4efe1 EZ |
9239 | Tell @value{GDBN} that source files with extension @var{ext} are to be |
9240 | assumed as written in the source language @var{language}. | |
c906108c SS |
9241 | |
9242 | @item info extensions | |
9c16f35a | 9243 | @kindex info extensions |
c906108c SS |
9244 | List all the filename extensions and the associated languages. |
9245 | @end table | |
9246 | ||
6d2ebf8b | 9247 | @node Checks |
79a6e687 | 9248 | @section Type and Range Checking |
c906108c SS |
9249 | |
9250 | @quotation | |
9251 | @emph{Warning:} In this release, the @value{GDBN} commands for type and range | |
9252 | checking are included, but they do not yet have any effect. This | |
9253 | section documents the intended facilities. | |
9254 | @end quotation | |
9255 | @c FIXME remove warning when type/range code added | |
9256 | ||
9257 | Some languages are designed to guard you against making seemingly common | |
9258 | errors through a series of compile- and run-time checks. These include | |
9259 | checking the type of arguments to functions and operators, and making | |
9260 | sure mathematical overflows are caught at run time. Checks such as | |
9261 | these help to ensure a program's correctness once it has been compiled | |
9262 | by eliminating type mismatches, and providing active checks for range | |
9263 | errors when your program is running. | |
9264 | ||
9265 | @value{GDBN} can check for conditions like the above if you wish. | |
9c16f35a EZ |
9266 | Although @value{GDBN} does not check the statements in your program, |
9267 | it can check expressions entered directly into @value{GDBN} for | |
9268 | evaluation via the @code{print} command, for example. As with the | |
9269 | working language, @value{GDBN} can also decide whether or not to check | |
9270 | automatically based on your program's source language. | |
79a6e687 | 9271 | @xref{Supported Languages, ,Supported Languages}, for the default |
9c16f35a | 9272 | settings of supported languages. |
c906108c SS |
9273 | |
9274 | @menu | |
9275 | * Type Checking:: An overview of type checking | |
9276 | * Range Checking:: An overview of range checking | |
9277 | @end menu | |
9278 | ||
9279 | @cindex type checking | |
9280 | @cindex checks, type | |
6d2ebf8b | 9281 | @node Type Checking |
79a6e687 | 9282 | @subsection An Overview of Type Checking |
c906108c SS |
9283 | |
9284 | Some languages, such as Modula-2, are strongly typed, meaning that the | |
9285 | arguments to operators and functions have to be of the correct type, | |
9286 | otherwise an error occurs. These checks prevent type mismatch | |
9287 | errors from ever causing any run-time problems. For example, | |
9288 | ||
9289 | @smallexample | |
9290 | 1 + 2 @result{} 3 | |
9291 | @exdent but | |
9292 | @error{} 1 + 2.3 | |
9293 | @end smallexample | |
9294 | ||
9295 | The second example fails because the @code{CARDINAL} 1 is not | |
9296 | type-compatible with the @code{REAL} 2.3. | |
9297 | ||
5d161b24 DB |
9298 | For the expressions you use in @value{GDBN} commands, you can tell the |
9299 | @value{GDBN} type checker to skip checking; | |
9300 | to treat any mismatches as errors and abandon the expression; | |
9301 | or to only issue warnings when type mismatches occur, | |
c906108c SS |
9302 | but evaluate the expression anyway. When you choose the last of |
9303 | these, @value{GDBN} evaluates expressions like the second example above, but | |
9304 | also issues a warning. | |
9305 | ||
5d161b24 DB |
9306 | Even if you turn type checking off, there may be other reasons |
9307 | related to type that prevent @value{GDBN} from evaluating an expression. | |
9308 | For instance, @value{GDBN} does not know how to add an @code{int} and | |
9309 | a @code{struct foo}. These particular type errors have nothing to do | |
9310 | with the language in use, and usually arise from expressions, such as | |
c906108c SS |
9311 | the one described above, which make little sense to evaluate anyway. |
9312 | ||
9313 | Each language defines to what degree it is strict about type. For | |
9314 | instance, both Modula-2 and C require the arguments to arithmetical | |
9315 | operators to be numbers. In C, enumerated types and pointers can be | |
9316 | represented as numbers, so that they are valid arguments to mathematical | |
79a6e687 | 9317 | operators. @xref{Supported Languages, ,Supported Languages}, for further |
c906108c SS |
9318 | details on specific languages. |
9319 | ||
9320 | @value{GDBN} provides some additional commands for controlling the type checker: | |
9321 | ||
c906108c SS |
9322 | @kindex set check type |
9323 | @kindex show check type | |
9324 | @table @code | |
9325 | @item set check type auto | |
9326 | Set type checking on or off based on the current working language. | |
79a6e687 | 9327 | @xref{Supported Languages, ,Supported Languages}, for the default settings for |
c906108c SS |
9328 | each language. |
9329 | ||
9330 | @item set check type on | |
9331 | @itemx set check type off | |
9332 | Set type checking on or off, overriding the default setting for the | |
9333 | current working language. Issue a warning if the setting does not | |
9334 | match the language default. If any type mismatches occur in | |
d4f3574e | 9335 | evaluating an expression while type checking is on, @value{GDBN} prints a |
c906108c SS |
9336 | message and aborts evaluation of the expression. |
9337 | ||
9338 | @item set check type warn | |
9339 | Cause the type checker to issue warnings, but to always attempt to | |
9340 | evaluate the expression. Evaluating the expression may still | |
9341 | be impossible for other reasons. For example, @value{GDBN} cannot add | |
9342 | numbers and structures. | |
9343 | ||
9344 | @item show type | |
5d161b24 | 9345 | Show the current setting of the type checker, and whether or not @value{GDBN} |
c906108c SS |
9346 | is setting it automatically. |
9347 | @end table | |
9348 | ||
9349 | @cindex range checking | |
9350 | @cindex checks, range | |
6d2ebf8b | 9351 | @node Range Checking |
79a6e687 | 9352 | @subsection An Overview of Range Checking |
c906108c SS |
9353 | |
9354 | In some languages (such as Modula-2), it is an error to exceed the | |
9355 | bounds of a type; this is enforced with run-time checks. Such range | |
9356 | checking is meant to ensure program correctness by making sure | |
9357 | computations do not overflow, or indices on an array element access do | |
9358 | not exceed the bounds of the array. | |
9359 | ||
9360 | For expressions you use in @value{GDBN} commands, you can tell | |
9361 | @value{GDBN} to treat range errors in one of three ways: ignore them, | |
9362 | always treat them as errors and abandon the expression, or issue | |
9363 | warnings but evaluate the expression anyway. | |
9364 | ||
9365 | A range error can result from numerical overflow, from exceeding an | |
9366 | array index bound, or when you type a constant that is not a member | |
9367 | of any type. Some languages, however, do not treat overflows as an | |
9368 | error. In many implementations of C, mathematical overflow causes the | |
9369 | result to ``wrap around'' to lower values---for example, if @var{m} is | |
9370 | the largest integer value, and @var{s} is the smallest, then | |
9371 | ||
474c8240 | 9372 | @smallexample |
c906108c | 9373 | @var{m} + 1 @result{} @var{s} |
474c8240 | 9374 | @end smallexample |
c906108c SS |
9375 | |
9376 | This, too, is specific to individual languages, and in some cases | |
79a6e687 BW |
9377 | specific to individual compilers or machines. @xref{Supported Languages, , |
9378 | Supported Languages}, for further details on specific languages. | |
c906108c SS |
9379 | |
9380 | @value{GDBN} provides some additional commands for controlling the range checker: | |
9381 | ||
c906108c SS |
9382 | @kindex set check range |
9383 | @kindex show check range | |
9384 | @table @code | |
9385 | @item set check range auto | |
9386 | Set range checking on or off based on the current working language. | |
79a6e687 | 9387 | @xref{Supported Languages, ,Supported Languages}, for the default settings for |
c906108c SS |
9388 | each language. |
9389 | ||
9390 | @item set check range on | |
9391 | @itemx set check range off | |
9392 | Set range checking on or off, overriding the default setting for the | |
9393 | current working language. A warning is issued if the setting does not | |
c3f6f71d JM |
9394 | match the language default. If a range error occurs and range checking is on, |
9395 | then a message is printed and evaluation of the expression is aborted. | |
c906108c SS |
9396 | |
9397 | @item set check range warn | |
9398 | Output messages when the @value{GDBN} range checker detects a range error, | |
9399 | but attempt to evaluate the expression anyway. Evaluating the | |
9400 | expression may still be impossible for other reasons, such as accessing | |
9401 | memory that the process does not own (a typical example from many Unix | |
9402 | systems). | |
9403 | ||
9404 | @item show range | |
9405 | Show the current setting of the range checker, and whether or not it is | |
9406 | being set automatically by @value{GDBN}. | |
9407 | @end table | |
c906108c | 9408 | |
79a6e687 BW |
9409 | @node Supported Languages |
9410 | @section Supported Languages | |
c906108c | 9411 | |
9c16f35a EZ |
9412 | @value{GDBN} supports C, C@t{++}, Objective-C, Fortran, Java, Pascal, |
9413 | assembly, Modula-2, and Ada. | |
cce74817 | 9414 | @c This is false ... |
c906108c SS |
9415 | Some @value{GDBN} features may be used in expressions regardless of the |
9416 | language you use: the @value{GDBN} @code{@@} and @code{::} operators, | |
9417 | and the @samp{@{type@}addr} construct (@pxref{Expressions, | |
9418 | ,Expressions}) can be used with the constructs of any supported | |
9419 | language. | |
9420 | ||
9421 | The following sections detail to what degree each source language is | |
9422 | supported by @value{GDBN}. These sections are not meant to be language | |
9423 | tutorials or references, but serve only as a reference guide to what the | |
9424 | @value{GDBN} expression parser accepts, and what input and output | |
9425 | formats should look like for different languages. There are many good | |
9426 | books written on each of these languages; please look to these for a | |
9427 | language reference or tutorial. | |
9428 | ||
c906108c | 9429 | @menu |
b37303ee | 9430 | * C:: C and C@t{++} |
b383017d | 9431 | * Objective-C:: Objective-C |
09d4efe1 | 9432 | * Fortran:: Fortran |
9c16f35a | 9433 | * Pascal:: Pascal |
b37303ee | 9434 | * Modula-2:: Modula-2 |
e07c999f | 9435 | * Ada:: Ada |
c906108c SS |
9436 | @end menu |
9437 | ||
6d2ebf8b | 9438 | @node C |
b37052ae | 9439 | @subsection C and C@t{++} |
7a292a7a | 9440 | |
b37052ae EZ |
9441 | @cindex C and C@t{++} |
9442 | @cindex expressions in C or C@t{++} | |
c906108c | 9443 | |
b37052ae | 9444 | Since C and C@t{++} are so closely related, many features of @value{GDBN} apply |
c906108c SS |
9445 | to both languages. Whenever this is the case, we discuss those languages |
9446 | together. | |
9447 | ||
41afff9a EZ |
9448 | @cindex C@t{++} |
9449 | @cindex @code{g++}, @sc{gnu} C@t{++} compiler | |
b37052ae EZ |
9450 | @cindex @sc{gnu} C@t{++} |
9451 | The C@t{++} debugging facilities are jointly implemented by the C@t{++} | |
9452 | compiler and @value{GDBN}. Therefore, to debug your C@t{++} code | |
9453 | effectively, you must compile your C@t{++} programs with a supported | |
9454 | C@t{++} compiler, such as @sc{gnu} @code{g++}, or the HP ANSI C@t{++} | |
c906108c SS |
9455 | compiler (@code{aCC}). |
9456 | ||
0179ffac DC |
9457 | For best results when using @sc{gnu} C@t{++}, use the DWARF 2 debugging |
9458 | format; if it doesn't work on your system, try the stabs+ debugging | |
9459 | format. You can select those formats explicitly with the @code{g++} | |
9460 | command-line options @option{-gdwarf-2} and @option{-gstabs+}. | |
ce9341a1 BW |
9461 | @xref{Debugging Options,,Options for Debugging Your Program or GCC, |
9462 | gcc.info, Using the @sc{gnu} Compiler Collection (GCC)}. | |
c906108c | 9463 | |
c906108c | 9464 | @menu |
b37052ae EZ |
9465 | * C Operators:: C and C@t{++} operators |
9466 | * C Constants:: C and C@t{++} constants | |
79a6e687 | 9467 | * C Plus Plus Expressions:: C@t{++} expressions |
b37052ae EZ |
9468 | * C Defaults:: Default settings for C and C@t{++} |
9469 | * C Checks:: C and C@t{++} type and range checks | |
c906108c | 9470 | * Debugging C:: @value{GDBN} and C |
79a6e687 | 9471 | * Debugging C Plus Plus:: @value{GDBN} features for C@t{++} |
febe4383 | 9472 | * Decimal Floating Point:: Numbers in Decimal Floating Point format |
c906108c | 9473 | @end menu |
c906108c | 9474 | |
6d2ebf8b | 9475 | @node C Operators |
79a6e687 | 9476 | @subsubsection C and C@t{++} Operators |
7a292a7a | 9477 | |
b37052ae | 9478 | @cindex C and C@t{++} operators |
c906108c SS |
9479 | |
9480 | Operators must be defined on values of specific types. For instance, | |
9481 | @code{+} is defined on numbers, but not on structures. Operators are | |
5d161b24 | 9482 | often defined on groups of types. |
c906108c | 9483 | |
b37052ae | 9484 | For the purposes of C and C@t{++}, the following definitions hold: |
c906108c SS |
9485 | |
9486 | @itemize @bullet | |
53a5351d | 9487 | |
c906108c | 9488 | @item |
c906108c | 9489 | @emph{Integral types} include @code{int} with any of its storage-class |
b37052ae | 9490 | specifiers; @code{char}; @code{enum}; and, for C@t{++}, @code{bool}. |
c906108c SS |
9491 | |
9492 | @item | |
d4f3574e SS |
9493 | @emph{Floating-point types} include @code{float}, @code{double}, and |
9494 | @code{long double} (if supported by the target platform). | |
c906108c SS |
9495 | |
9496 | @item | |
53a5351d | 9497 | @emph{Pointer types} include all types defined as @code{(@var{type} *)}. |
c906108c SS |
9498 | |
9499 | @item | |
9500 | @emph{Scalar types} include all of the above. | |
53a5351d | 9501 | |
c906108c SS |
9502 | @end itemize |
9503 | ||
9504 | @noindent | |
9505 | The following operators are supported. They are listed here | |
9506 | in order of increasing precedence: | |
9507 | ||
9508 | @table @code | |
9509 | @item , | |
9510 | The comma or sequencing operator. Expressions in a comma-separated list | |
9511 | are evaluated from left to right, with the result of the entire | |
9512 | expression being the last expression evaluated. | |
9513 | ||
9514 | @item = | |
9515 | Assignment. The value of an assignment expression is the value | |
9516 | assigned. Defined on scalar types. | |
9517 | ||
9518 | @item @var{op}= | |
9519 | Used in an expression of the form @w{@code{@var{a} @var{op}= @var{b}}}, | |
9520 | and translated to @w{@code{@var{a} = @var{a op b}}}. | |
d4f3574e | 9521 | @w{@code{@var{op}=}} and @code{=} have the same precedence. |
c906108c SS |
9522 | @var{op} is any one of the operators @code{|}, @code{^}, @code{&}, |
9523 | @code{<<}, @code{>>}, @code{+}, @code{-}, @code{*}, @code{/}, @code{%}. | |
9524 | ||
9525 | @item ?: | |
9526 | The ternary operator. @code{@var{a} ? @var{b} : @var{c}} can be thought | |
9527 | of as: if @var{a} then @var{b} else @var{c}. @var{a} should be of an | |
9528 | integral type. | |
9529 | ||
9530 | @item || | |
9531 | Logical @sc{or}. Defined on integral types. | |
9532 | ||
9533 | @item && | |
9534 | Logical @sc{and}. Defined on integral types. | |
9535 | ||
9536 | @item | | |
9537 | Bitwise @sc{or}. Defined on integral types. | |
9538 | ||
9539 | @item ^ | |
9540 | Bitwise exclusive-@sc{or}. Defined on integral types. | |
9541 | ||
9542 | @item & | |
9543 | Bitwise @sc{and}. Defined on integral types. | |
9544 | ||
9545 | @item ==@r{, }!= | |
9546 | Equality and inequality. Defined on scalar types. The value of these | |
9547 | expressions is 0 for false and non-zero for true. | |
9548 | ||
9549 | @item <@r{, }>@r{, }<=@r{, }>= | |
9550 | Less than, greater than, less than or equal, greater than or equal. | |
9551 | Defined on scalar types. The value of these expressions is 0 for false | |
9552 | and non-zero for true. | |
9553 | ||
9554 | @item <<@r{, }>> | |
9555 | left shift, and right shift. Defined on integral types. | |
9556 | ||
9557 | @item @@ | |
9558 | The @value{GDBN} ``artificial array'' operator (@pxref{Expressions, ,Expressions}). | |
9559 | ||
9560 | @item +@r{, }- | |
9561 | Addition and subtraction. Defined on integral types, floating-point types and | |
9562 | pointer types. | |
9563 | ||
9564 | @item *@r{, }/@r{, }% | |
9565 | Multiplication, division, and modulus. Multiplication and division are | |
9566 | defined on integral and floating-point types. Modulus is defined on | |
9567 | integral types. | |
9568 | ||
9569 | @item ++@r{, }-- | |
9570 | Increment and decrement. When appearing before a variable, the | |
9571 | operation is performed before the variable is used in an expression; | |
9572 | when appearing after it, the variable's value is used before the | |
9573 | operation takes place. | |
9574 | ||
9575 | @item * | |
9576 | Pointer dereferencing. Defined on pointer types. Same precedence as | |
9577 | @code{++}. | |
9578 | ||
9579 | @item & | |
9580 | Address operator. Defined on variables. Same precedence as @code{++}. | |
9581 | ||
b37052ae EZ |
9582 | For debugging C@t{++}, @value{GDBN} implements a use of @samp{&} beyond what is |
9583 | allowed in the C@t{++} language itself: you can use @samp{&(&@var{ref})} | |
b17828ca | 9584 | to examine the address |
b37052ae | 9585 | where a C@t{++} reference variable (declared with @samp{&@var{ref}}) is |
c906108c | 9586 | stored. |
c906108c SS |
9587 | |
9588 | @item - | |
9589 | Negative. Defined on integral and floating-point types. Same | |
9590 | precedence as @code{++}. | |
9591 | ||
9592 | @item ! | |
9593 | Logical negation. Defined on integral types. Same precedence as | |
9594 | @code{++}. | |
9595 | ||
9596 | @item ~ | |
9597 | Bitwise complement operator. Defined on integral types. Same precedence as | |
9598 | @code{++}. | |
9599 | ||
9600 | ||
9601 | @item .@r{, }-> | |
9602 | Structure member, and pointer-to-structure member. For convenience, | |
9603 | @value{GDBN} regards the two as equivalent, choosing whether to dereference a | |
9604 | pointer based on the stored type information. | |
9605 | Defined on @code{struct} and @code{union} data. | |
9606 | ||
c906108c SS |
9607 | @item .*@r{, }->* |
9608 | Dereferences of pointers to members. | |
c906108c SS |
9609 | |
9610 | @item [] | |
9611 | Array indexing. @code{@var{a}[@var{i}]} is defined as | |
9612 | @code{*(@var{a}+@var{i})}. Same precedence as @code{->}. | |
9613 | ||
9614 | @item () | |
9615 | Function parameter list. Same precedence as @code{->}. | |
9616 | ||
c906108c | 9617 | @item :: |
b37052ae | 9618 | C@t{++} scope resolution operator. Defined on @code{struct}, @code{union}, |
7a292a7a | 9619 | and @code{class} types. |
c906108c SS |
9620 | |
9621 | @item :: | |
7a292a7a SS |
9622 | Doubled colons also represent the @value{GDBN} scope operator |
9623 | (@pxref{Expressions, ,Expressions}). Same precedence as @code{::}, | |
9624 | above. | |
c906108c SS |
9625 | @end table |
9626 | ||
c906108c SS |
9627 | If an operator is redefined in the user code, @value{GDBN} usually |
9628 | attempts to invoke the redefined version instead of using the operator's | |
9629 | predefined meaning. | |
c906108c | 9630 | |
6d2ebf8b | 9631 | @node C Constants |
79a6e687 | 9632 | @subsubsection C and C@t{++} Constants |
c906108c | 9633 | |
b37052ae | 9634 | @cindex C and C@t{++} constants |
c906108c | 9635 | |
b37052ae | 9636 | @value{GDBN} allows you to express the constants of C and C@t{++} in the |
c906108c | 9637 | following ways: |
c906108c SS |
9638 | |
9639 | @itemize @bullet | |
9640 | @item | |
9641 | Integer constants are a sequence of digits. Octal constants are | |
6ca652b0 EZ |
9642 | specified by a leading @samp{0} (i.e.@: zero), and hexadecimal constants |
9643 | by a leading @samp{0x} or @samp{0X}. Constants may also end with a letter | |
c906108c SS |
9644 | @samp{l}, specifying that the constant should be treated as a |
9645 | @code{long} value. | |
9646 | ||
9647 | @item | |
9648 | Floating point constants are a sequence of digits, followed by a decimal | |
9649 | point, followed by a sequence of digits, and optionally followed by an | |
9650 | exponent. An exponent is of the form: | |
9651 | @samp{@w{e@r{[[}+@r{]|}-@r{]}@var{nnn}}}, where @var{nnn} is another | |
9652 | sequence of digits. The @samp{+} is optional for positive exponents. | |
d4f3574e SS |
9653 | A floating-point constant may also end with a letter @samp{f} or |
9654 | @samp{F}, specifying that the constant should be treated as being of | |
9655 | the @code{float} (as opposed to the default @code{double}) type; or with | |
9656 | a letter @samp{l} or @samp{L}, which specifies a @code{long double} | |
9657 | constant. | |
c906108c SS |
9658 | |
9659 | @item | |
9660 | Enumerated constants consist of enumerated identifiers, or their | |
9661 | integral equivalents. | |
9662 | ||
9663 | @item | |
9664 | Character constants are a single character surrounded by single quotes | |
9665 | (@code{'}), or a number---the ordinal value of the corresponding character | |
d4f3574e | 9666 | (usually its @sc{ascii} value). Within quotes, the single character may |
c906108c SS |
9667 | be represented by a letter or by @dfn{escape sequences}, which are of |
9668 | the form @samp{\@var{nnn}}, where @var{nnn} is the octal representation | |
9669 | of the character's ordinal value; or of the form @samp{\@var{x}}, where | |
9670 | @samp{@var{x}} is a predefined special character---for example, | |
9671 | @samp{\n} for newline. | |
9672 | ||
9673 | @item | |
96a2c332 SS |
9674 | String constants are a sequence of character constants surrounded by |
9675 | double quotes (@code{"}). Any valid character constant (as described | |
9676 | above) may appear. Double quotes within the string must be preceded by | |
9677 | a backslash, so for instance @samp{"a\"b'c"} is a string of five | |
9678 | characters. | |
c906108c SS |
9679 | |
9680 | @item | |
9681 | Pointer constants are an integral value. You can also write pointers | |
9682 | to constants using the C operator @samp{&}. | |
9683 | ||
9684 | @item | |
9685 | Array constants are comma-separated lists surrounded by braces @samp{@{} | |
9686 | and @samp{@}}; for example, @samp{@{1,2,3@}} is a three-element array of | |
9687 | integers, @samp{@{@{1,2@}, @{3,4@}, @{5,6@}@}} is a three-by-two array, | |
9688 | and @samp{@{&"hi", &"there", &"fred"@}} is a three-element array of pointers. | |
9689 | @end itemize | |
9690 | ||
79a6e687 BW |
9691 | @node C Plus Plus Expressions |
9692 | @subsubsection C@t{++} Expressions | |
b37052ae EZ |
9693 | |
9694 | @cindex expressions in C@t{++} | |
9695 | @value{GDBN} expression handling can interpret most C@t{++} expressions. | |
9696 | ||
0179ffac DC |
9697 | @cindex debugging C@t{++} programs |
9698 | @cindex C@t{++} compilers | |
9699 | @cindex debug formats and C@t{++} | |
9700 | @cindex @value{NGCC} and C@t{++} | |
c906108c | 9701 | @quotation |
b37052ae | 9702 | @emph{Warning:} @value{GDBN} can only debug C@t{++} code if you use the |
0179ffac DC |
9703 | proper compiler and the proper debug format. Currently, @value{GDBN} |
9704 | works best when debugging C@t{++} code that is compiled with | |
9705 | @value{NGCC} 2.95.3 or with @value{NGCC} 3.1 or newer, using the options | |
9706 | @option{-gdwarf-2} or @option{-gstabs+}. DWARF 2 is preferred over | |
9707 | stabs+. Most configurations of @value{NGCC} emit either DWARF 2 or | |
9708 | stabs+ as their default debug format, so you usually don't need to | |
9709 | specify a debug format explicitly. Other compilers and/or debug formats | |
9710 | are likely to work badly or not at all when using @value{GDBN} to debug | |
9711 | C@t{++} code. | |
c906108c | 9712 | @end quotation |
c906108c SS |
9713 | |
9714 | @enumerate | |
9715 | ||
9716 | @cindex member functions | |
9717 | @item | |
9718 | Member function calls are allowed; you can use expressions like | |
9719 | ||
474c8240 | 9720 | @smallexample |
c906108c | 9721 | count = aml->GetOriginal(x, y) |
474c8240 | 9722 | @end smallexample |
c906108c | 9723 | |
41afff9a | 9724 | @vindex this@r{, inside C@t{++} member functions} |
b37052ae | 9725 | @cindex namespace in C@t{++} |
c906108c SS |
9726 | @item |
9727 | While a member function is active (in the selected stack frame), your | |
9728 | expressions have the same namespace available as the member function; | |
9729 | that is, @value{GDBN} allows implicit references to the class instance | |
b37052ae | 9730 | pointer @code{this} following the same rules as C@t{++}. |
c906108c | 9731 | |
c906108c | 9732 | @cindex call overloaded functions |
d4f3574e | 9733 | @cindex overloaded functions, calling |
b37052ae | 9734 | @cindex type conversions in C@t{++} |
c906108c SS |
9735 | @item |
9736 | You can call overloaded functions; @value{GDBN} resolves the function | |
d4f3574e | 9737 | call to the right definition, with some restrictions. @value{GDBN} does not |
c906108c SS |
9738 | perform overload resolution involving user-defined type conversions, |
9739 | calls to constructors, or instantiations of templates that do not exist | |
9740 | in the program. It also cannot handle ellipsis argument lists or | |
9741 | default arguments. | |
9742 | ||
9743 | It does perform integral conversions and promotions, floating-point | |
9744 | promotions, arithmetic conversions, pointer conversions, conversions of | |
9745 | class objects to base classes, and standard conversions such as those of | |
9746 | functions or arrays to pointers; it requires an exact match on the | |
9747 | number of function arguments. | |
9748 | ||
9749 | Overload resolution is always performed, unless you have specified | |
79a6e687 BW |
9750 | @code{set overload-resolution off}. @xref{Debugging C Plus Plus, |
9751 | ,@value{GDBN} Features for C@t{++}}. | |
c906108c | 9752 | |
d4f3574e | 9753 | You must specify @code{set overload-resolution off} in order to use an |
c906108c SS |
9754 | explicit function signature to call an overloaded function, as in |
9755 | @smallexample | |
9756 | p 'foo(char,int)'('x', 13) | |
9757 | @end smallexample | |
d4f3574e | 9758 | |
c906108c | 9759 | The @value{GDBN} command-completion facility can simplify this; |
79a6e687 | 9760 | see @ref{Completion, ,Command Completion}. |
c906108c | 9761 | |
c906108c SS |
9762 | @cindex reference declarations |
9763 | @item | |
b37052ae EZ |
9764 | @value{GDBN} understands variables declared as C@t{++} references; you can use |
9765 | them in expressions just as you do in C@t{++} source---they are automatically | |
c906108c SS |
9766 | dereferenced. |
9767 | ||
9768 | In the parameter list shown when @value{GDBN} displays a frame, the values of | |
9769 | reference variables are not displayed (unlike other variables); this | |
9770 | avoids clutter, since references are often used for large structures. | |
9771 | The @emph{address} of a reference variable is always shown, unless | |
9772 | you have specified @samp{set print address off}. | |
9773 | ||
9774 | @item | |
b37052ae | 9775 | @value{GDBN} supports the C@t{++} name resolution operator @code{::}---your |
c906108c SS |
9776 | expressions can use it just as expressions in your program do. Since |
9777 | one scope may be defined in another, you can use @code{::} repeatedly if | |
9778 | necessary, for example in an expression like | |
9779 | @samp{@var{scope1}::@var{scope2}::@var{name}}. @value{GDBN} also allows | |
b37052ae | 9780 | resolving name scope by reference to source files, in both C and C@t{++} |
79a6e687 | 9781 | debugging (@pxref{Variables, ,Program Variables}). |
c906108c SS |
9782 | @end enumerate |
9783 | ||
b37052ae | 9784 | In addition, when used with HP's C@t{++} compiler, @value{GDBN} supports |
53a5351d JM |
9785 | calling virtual functions correctly, printing out virtual bases of |
9786 | objects, calling functions in a base subobject, casting objects, and | |
9787 | invoking user-defined operators. | |
c906108c | 9788 | |
6d2ebf8b | 9789 | @node C Defaults |
79a6e687 | 9790 | @subsubsection C and C@t{++} Defaults |
7a292a7a | 9791 | |
b37052ae | 9792 | @cindex C and C@t{++} defaults |
c906108c | 9793 | |
c906108c SS |
9794 | If you allow @value{GDBN} to set type and range checking automatically, they |
9795 | both default to @code{off} whenever the working language changes to | |
b37052ae | 9796 | C or C@t{++}. This happens regardless of whether you or @value{GDBN} |
c906108c | 9797 | selects the working language. |
c906108c SS |
9798 | |
9799 | If you allow @value{GDBN} to set the language automatically, it | |
9800 | recognizes source files whose names end with @file{.c}, @file{.C}, or | |
9801 | @file{.cc}, etc, and when @value{GDBN} enters code compiled from one of | |
b37052ae | 9802 | these files, it sets the working language to C or C@t{++}. |
79a6e687 | 9803 | @xref{Automatically, ,Having @value{GDBN} Infer the Source Language}, |
c906108c SS |
9804 | for further details. |
9805 | ||
c906108c SS |
9806 | @c Type checking is (a) primarily motivated by Modula-2, and (b) |
9807 | @c unimplemented. If (b) changes, it might make sense to let this node | |
9808 | @c appear even if Mod-2 does not, but meanwhile ignore it. roland 16jul93. | |
7a292a7a | 9809 | |
6d2ebf8b | 9810 | @node C Checks |
79a6e687 | 9811 | @subsubsection C and C@t{++} Type and Range Checks |
7a292a7a | 9812 | |
b37052ae | 9813 | @cindex C and C@t{++} checks |
c906108c | 9814 | |
b37052ae | 9815 | By default, when @value{GDBN} parses C or C@t{++} expressions, type checking |
c906108c SS |
9816 | is not used. However, if you turn type checking on, @value{GDBN} |
9817 | considers two variables type equivalent if: | |
9818 | ||
9819 | @itemize @bullet | |
9820 | @item | |
9821 | The two variables are structured and have the same structure, union, or | |
9822 | enumerated tag. | |
9823 | ||
9824 | @item | |
9825 | The two variables have the same type name, or types that have been | |
9826 | declared equivalent through @code{typedef}. | |
9827 | ||
9828 | @ignore | |
9829 | @c leaving this out because neither J Gilmore nor R Pesch understand it. | |
9830 | @c FIXME--beers? | |
9831 | @item | |
9832 | The two @code{struct}, @code{union}, or @code{enum} variables are | |
9833 | declared in the same declaration. (Note: this may not be true for all C | |
9834 | compilers.) | |
9835 | @end ignore | |
9836 | @end itemize | |
9837 | ||
9838 | Range checking, if turned on, is done on mathematical operations. Array | |
9839 | indices are not checked, since they are often used to index a pointer | |
9840 | that is not itself an array. | |
c906108c | 9841 | |
6d2ebf8b | 9842 | @node Debugging C |
c906108c | 9843 | @subsubsection @value{GDBN} and C |
c906108c SS |
9844 | |
9845 | The @code{set print union} and @code{show print union} commands apply to | |
9846 | the @code{union} type. When set to @samp{on}, any @code{union} that is | |
7a292a7a SS |
9847 | inside a @code{struct} or @code{class} is also printed. Otherwise, it |
9848 | appears as @samp{@{...@}}. | |
c906108c SS |
9849 | |
9850 | The @code{@@} operator aids in the debugging of dynamic arrays, formed | |
9851 | with pointers and a memory allocation function. @xref{Expressions, | |
9852 | ,Expressions}. | |
9853 | ||
79a6e687 BW |
9854 | @node Debugging C Plus Plus |
9855 | @subsubsection @value{GDBN} Features for C@t{++} | |
c906108c | 9856 | |
b37052ae | 9857 | @cindex commands for C@t{++} |
7a292a7a | 9858 | |
b37052ae EZ |
9859 | Some @value{GDBN} commands are particularly useful with C@t{++}, and some are |
9860 | designed specifically for use with C@t{++}. Here is a summary: | |
c906108c SS |
9861 | |
9862 | @table @code | |
9863 | @cindex break in overloaded functions | |
9864 | @item @r{breakpoint menus} | |
9865 | When you want a breakpoint in a function whose name is overloaded, | |
6ba66d6a JB |
9866 | @value{GDBN} has the capability to display a menu of possible breakpoint |
9867 | locations to help you specify which function definition you want. | |
9868 | @xref{Ambiguous Expressions,,Ambiguous Expressions}. | |
c906108c | 9869 | |
b37052ae | 9870 | @cindex overloading in C@t{++} |
c906108c SS |
9871 | @item rbreak @var{regex} |
9872 | Setting breakpoints using regular expressions is helpful for setting | |
9873 | breakpoints on overloaded functions that are not members of any special | |
9874 | classes. | |
79a6e687 | 9875 | @xref{Set Breaks, ,Setting Breakpoints}. |
c906108c | 9876 | |
b37052ae | 9877 | @cindex C@t{++} exception handling |
c906108c SS |
9878 | @item catch throw |
9879 | @itemx catch catch | |
b37052ae | 9880 | Debug C@t{++} exception handling using these commands. @xref{Set |
79a6e687 | 9881 | Catchpoints, , Setting Catchpoints}. |
c906108c SS |
9882 | |
9883 | @cindex inheritance | |
9884 | @item ptype @var{typename} | |
9885 | Print inheritance relationships as well as other information for type | |
9886 | @var{typename}. | |
9887 | @xref{Symbols, ,Examining the Symbol Table}. | |
9888 | ||
b37052ae | 9889 | @cindex C@t{++} symbol display |
c906108c SS |
9890 | @item set print demangle |
9891 | @itemx show print demangle | |
9892 | @itemx set print asm-demangle | |
9893 | @itemx show print asm-demangle | |
b37052ae EZ |
9894 | Control whether C@t{++} symbols display in their source form, both when |
9895 | displaying code as C@t{++} source and when displaying disassemblies. | |
79a6e687 | 9896 | @xref{Print Settings, ,Print Settings}. |
c906108c SS |
9897 | |
9898 | @item set print object | |
9899 | @itemx show print object | |
9900 | Choose whether to print derived (actual) or declared types of objects. | |
79a6e687 | 9901 | @xref{Print Settings, ,Print Settings}. |
c906108c SS |
9902 | |
9903 | @item set print vtbl | |
9904 | @itemx show print vtbl | |
9905 | Control the format for printing virtual function tables. | |
79a6e687 | 9906 | @xref{Print Settings, ,Print Settings}. |
c906108c | 9907 | (The @code{vtbl} commands do not work on programs compiled with the HP |
b37052ae | 9908 | ANSI C@t{++} compiler (@code{aCC}).) |
c906108c SS |
9909 | |
9910 | @kindex set overload-resolution | |
d4f3574e | 9911 | @cindex overloaded functions, overload resolution |
c906108c | 9912 | @item set overload-resolution on |
b37052ae | 9913 | Enable overload resolution for C@t{++} expression evaluation. The default |
c906108c SS |
9914 | is on. For overloaded functions, @value{GDBN} evaluates the arguments |
9915 | and searches for a function whose signature matches the argument types, | |
79a6e687 BW |
9916 | using the standard C@t{++} conversion rules (see @ref{C Plus Plus |
9917 | Expressions, ,C@t{++} Expressions}, for details). | |
9918 | If it cannot find a match, it emits a message. | |
c906108c SS |
9919 | |
9920 | @item set overload-resolution off | |
b37052ae | 9921 | Disable overload resolution for C@t{++} expression evaluation. For |
c906108c SS |
9922 | overloaded functions that are not class member functions, @value{GDBN} |
9923 | chooses the first function of the specified name that it finds in the | |
9924 | symbol table, whether or not its arguments are of the correct type. For | |
9925 | overloaded functions that are class member functions, @value{GDBN} | |
9926 | searches for a function whose signature @emph{exactly} matches the | |
9927 | argument types. | |
c906108c | 9928 | |
9c16f35a EZ |
9929 | @kindex show overload-resolution |
9930 | @item show overload-resolution | |
9931 | Show the current setting of overload resolution. | |
9932 | ||
c906108c SS |
9933 | @item @r{Overloaded symbol names} |
9934 | You can specify a particular definition of an overloaded symbol, using | |
b37052ae | 9935 | the same notation that is used to declare such symbols in C@t{++}: type |
c906108c SS |
9936 | @code{@var{symbol}(@var{types})} rather than just @var{symbol}. You can |
9937 | also use the @value{GDBN} command-line word completion facilities to list the | |
9938 | available choices, or to finish the type list for you. | |
79a6e687 | 9939 | @xref{Completion,, Command Completion}, for details on how to do this. |
c906108c | 9940 | @end table |
c906108c | 9941 | |
febe4383 TJB |
9942 | @node Decimal Floating Point |
9943 | @subsubsection Decimal Floating Point format | |
9944 | @cindex decimal floating point format | |
9945 | ||
9946 | @value{GDBN} can examine, set and perform computations with numbers in | |
9947 | decimal floating point format, which in the C language correspond to the | |
9948 | @code{_Decimal32}, @code{_Decimal64} and @code{_Decimal128} types as | |
9949 | specified by the extension to support decimal floating-point arithmetic. | |
9950 | ||
9951 | There are two encodings in use, depending on the architecture: BID (Binary | |
9952 | Integer Decimal) for x86 and x86-64, and DPD (Densely Packed Decimal) for | |
9953 | PowerPC. @value{GDBN} will use the appropriate encoding for the configured | |
9954 | target. | |
9955 | ||
9956 | Because of a limitation in @file{libdecnumber}, the library used by @value{GDBN} | |
9957 | to manipulate decimal floating point numbers, it is not possible to convert | |
9958 | (using a cast, for example) integers wider than 32-bit to decimal float. | |
9959 | ||
9960 | In addition, in order to imitate @value{GDBN}'s behaviour with binary floating | |
9961 | point computations, error checking in decimal float operations ignores | |
9962 | underflow, overflow and divide by zero exceptions. | |
9963 | ||
4acd40f3 TJB |
9964 | In the PowerPC architecture, @value{GDBN} provides a set of pseudo-registers |
9965 | to inspect @code{_Decimal128} values stored in floating point registers. See | |
9966 | @ref{PowerPC,,PowerPC} for more details. | |
9967 | ||
b37303ee AF |
9968 | @node Objective-C |
9969 | @subsection Objective-C | |
9970 | ||
9971 | @cindex Objective-C | |
9972 | This section provides information about some commands and command | |
721c2651 EZ |
9973 | options that are useful for debugging Objective-C code. See also |
9974 | @ref{Symbols, info classes}, and @ref{Symbols, info selectors}, for a | |
9975 | few more commands specific to Objective-C support. | |
b37303ee AF |
9976 | |
9977 | @menu | |
b383017d RM |
9978 | * Method Names in Commands:: |
9979 | * The Print Command with Objective-C:: | |
b37303ee AF |
9980 | @end menu |
9981 | ||
c8f4133a | 9982 | @node Method Names in Commands |
b37303ee AF |
9983 | @subsubsection Method Names in Commands |
9984 | ||
9985 | The following commands have been extended to accept Objective-C method | |
9986 | names as line specifications: | |
9987 | ||
9988 | @kindex clear@r{, and Objective-C} | |
9989 | @kindex break@r{, and Objective-C} | |
9990 | @kindex info line@r{, and Objective-C} | |
9991 | @kindex jump@r{, and Objective-C} | |
9992 | @kindex list@r{, and Objective-C} | |
9993 | @itemize | |
9994 | @item @code{clear} | |
9995 | @item @code{break} | |
9996 | @item @code{info line} | |
9997 | @item @code{jump} | |
9998 | @item @code{list} | |
9999 | @end itemize | |
10000 | ||
10001 | A fully qualified Objective-C method name is specified as | |
10002 | ||
10003 | @smallexample | |
10004 | -[@var{Class} @var{methodName}] | |
10005 | @end smallexample | |
10006 | ||
c552b3bb JM |
10007 | where the minus sign is used to indicate an instance method and a |
10008 | plus sign (not shown) is used to indicate a class method. The class | |
10009 | name @var{Class} and method name @var{methodName} are enclosed in | |
10010 | brackets, similar to the way messages are specified in Objective-C | |
10011 | source code. For example, to set a breakpoint at the @code{create} | |
10012 | instance method of class @code{Fruit} in the program currently being | |
10013 | debugged, enter: | |
b37303ee AF |
10014 | |
10015 | @smallexample | |
10016 | break -[Fruit create] | |
10017 | @end smallexample | |
10018 | ||
10019 | To list ten program lines around the @code{initialize} class method, | |
10020 | enter: | |
10021 | ||
10022 | @smallexample | |
10023 | list +[NSText initialize] | |
10024 | @end smallexample | |
10025 | ||
c552b3bb JM |
10026 | In the current version of @value{GDBN}, the plus or minus sign is |
10027 | required. In future versions of @value{GDBN}, the plus or minus | |
10028 | sign will be optional, but you can use it to narrow the search. It | |
10029 | is also possible to specify just a method name: | |
b37303ee AF |
10030 | |
10031 | @smallexample | |
10032 | break create | |
10033 | @end smallexample | |
10034 | ||
10035 | You must specify the complete method name, including any colons. If | |
10036 | your program's source files contain more than one @code{create} method, | |
10037 | you'll be presented with a numbered list of classes that implement that | |
10038 | method. Indicate your choice by number, or type @samp{0} to exit if | |
10039 | none apply. | |
10040 | ||
10041 | As another example, to clear a breakpoint established at the | |
10042 | @code{makeKeyAndOrderFront:} method of the @code{NSWindow} class, enter: | |
10043 | ||
10044 | @smallexample | |
10045 | clear -[NSWindow makeKeyAndOrderFront:] | |
10046 | @end smallexample | |
10047 | ||
10048 | @node The Print Command with Objective-C | |
10049 | @subsubsection The Print Command With Objective-C | |
721c2651 | 10050 | @cindex Objective-C, print objects |
c552b3bb JM |
10051 | @kindex print-object |
10052 | @kindex po @r{(@code{print-object})} | |
b37303ee | 10053 | |
c552b3bb | 10054 | The print command has also been extended to accept methods. For example: |
b37303ee AF |
10055 | |
10056 | @smallexample | |
c552b3bb | 10057 | print -[@var{object} hash] |
b37303ee AF |
10058 | @end smallexample |
10059 | ||
10060 | @cindex print an Objective-C object description | |
c552b3bb JM |
10061 | @cindex @code{_NSPrintForDebugger}, and printing Objective-C objects |
10062 | @noindent | |
10063 | will tell @value{GDBN} to send the @code{hash} message to @var{object} | |
10064 | and print the result. Also, an additional command has been added, | |
10065 | @code{print-object} or @code{po} for short, which is meant to print | |
10066 | the description of an object. However, this command may only work | |
10067 | with certain Objective-C libraries that have a particular hook | |
10068 | function, @code{_NSPrintForDebugger}, defined. | |
b37303ee | 10069 | |
09d4efe1 EZ |
10070 | @node Fortran |
10071 | @subsection Fortran | |
10072 | @cindex Fortran-specific support in @value{GDBN} | |
10073 | ||
814e32d7 WZ |
10074 | @value{GDBN} can be used to debug programs written in Fortran, but it |
10075 | currently supports only the features of Fortran 77 language. | |
10076 | ||
10077 | @cindex trailing underscore, in Fortran symbols | |
10078 | Some Fortran compilers (@sc{gnu} Fortran 77 and Fortran 95 compilers | |
10079 | among them) append an underscore to the names of variables and | |
10080 | functions. When you debug programs compiled by those compilers, you | |
10081 | will need to refer to variables and functions with a trailing | |
10082 | underscore. | |
10083 | ||
10084 | @menu | |
10085 | * Fortran Operators:: Fortran operators and expressions | |
10086 | * Fortran Defaults:: Default settings for Fortran | |
79a6e687 | 10087 | * Special Fortran Commands:: Special @value{GDBN} commands for Fortran |
814e32d7 WZ |
10088 | @end menu |
10089 | ||
10090 | @node Fortran Operators | |
79a6e687 | 10091 | @subsubsection Fortran Operators and Expressions |
814e32d7 WZ |
10092 | |
10093 | @cindex Fortran operators and expressions | |
10094 | ||
10095 | Operators must be defined on values of specific types. For instance, | |
10096 | @code{+} is defined on numbers, but not on characters or other non- | |
ff2587ec | 10097 | arithmetic types. Operators are often defined on groups of types. |
814e32d7 WZ |
10098 | |
10099 | @table @code | |
10100 | @item ** | |
10101 | The exponentiation operator. It raises the first operand to the power | |
10102 | of the second one. | |
10103 | ||
10104 | @item : | |
10105 | The range operator. Normally used in the form of array(low:high) to | |
10106 | represent a section of array. | |
68837c9d MD |
10107 | |
10108 | @item % | |
10109 | The access component operator. Normally used to access elements in derived | |
10110 | types. Also suitable for unions. As unions aren't part of regular Fortran, | |
10111 | this can only happen when accessing a register that uses a gdbarch-defined | |
10112 | union type. | |
814e32d7 WZ |
10113 | @end table |
10114 | ||
10115 | @node Fortran Defaults | |
10116 | @subsubsection Fortran Defaults | |
10117 | ||
10118 | @cindex Fortran Defaults | |
10119 | ||
10120 | Fortran symbols are usually case-insensitive, so @value{GDBN} by | |
10121 | default uses case-insensitive matches for Fortran symbols. You can | |
10122 | change that with the @samp{set case-insensitive} command, see | |
10123 | @ref{Symbols}, for the details. | |
10124 | ||
79a6e687 BW |
10125 | @node Special Fortran Commands |
10126 | @subsubsection Special Fortran Commands | |
814e32d7 WZ |
10127 | |
10128 | @cindex Special Fortran commands | |
10129 | ||
db2e3e2e BW |
10130 | @value{GDBN} has some commands to support Fortran-specific features, |
10131 | such as displaying common blocks. | |
814e32d7 | 10132 | |
09d4efe1 EZ |
10133 | @table @code |
10134 | @cindex @code{COMMON} blocks, Fortran | |
10135 | @kindex info common | |
10136 | @item info common @r{[}@var{common-name}@r{]} | |
10137 | This command prints the values contained in the Fortran @code{COMMON} | |
10138 | block whose name is @var{common-name}. With no argument, the names of | |
d52fb0e9 | 10139 | all @code{COMMON} blocks visible at the current program location are |
09d4efe1 EZ |
10140 | printed. |
10141 | @end table | |
10142 | ||
9c16f35a EZ |
10143 | @node Pascal |
10144 | @subsection Pascal | |
10145 | ||
10146 | @cindex Pascal support in @value{GDBN}, limitations | |
10147 | Debugging Pascal programs which use sets, subranges, file variables, or | |
10148 | nested functions does not currently work. @value{GDBN} does not support | |
10149 | entering expressions, printing values, or similar features using Pascal | |
10150 | syntax. | |
10151 | ||
10152 | The Pascal-specific command @code{set print pascal_static-members} | |
10153 | controls whether static members of Pascal objects are displayed. | |
10154 | @xref{Print Settings, pascal_static-members}. | |
10155 | ||
09d4efe1 | 10156 | @node Modula-2 |
c906108c | 10157 | @subsection Modula-2 |
7a292a7a | 10158 | |
d4f3574e | 10159 | @cindex Modula-2, @value{GDBN} support |
c906108c SS |
10160 | |
10161 | The extensions made to @value{GDBN} to support Modula-2 only support | |
10162 | output from the @sc{gnu} Modula-2 compiler (which is currently being | |
10163 | developed). Other Modula-2 compilers are not currently supported, and | |
10164 | attempting to debug executables produced by them is most likely | |
10165 | to give an error as @value{GDBN} reads in the executable's symbol | |
10166 | table. | |
10167 | ||
10168 | @cindex expressions in Modula-2 | |
10169 | @menu | |
10170 | * M2 Operators:: Built-in operators | |
10171 | * Built-In Func/Proc:: Built-in functions and procedures | |
10172 | * M2 Constants:: Modula-2 constants | |
72019c9c | 10173 | * M2 Types:: Modula-2 types |
c906108c SS |
10174 | * M2 Defaults:: Default settings for Modula-2 |
10175 | * Deviations:: Deviations from standard Modula-2 | |
10176 | * M2 Checks:: Modula-2 type and range checks | |
10177 | * M2 Scope:: The scope operators @code{::} and @code{.} | |
10178 | * GDB/M2:: @value{GDBN} and Modula-2 | |
10179 | @end menu | |
10180 | ||
6d2ebf8b | 10181 | @node M2 Operators |
c906108c SS |
10182 | @subsubsection Operators |
10183 | @cindex Modula-2 operators | |
10184 | ||
10185 | Operators must be defined on values of specific types. For instance, | |
10186 | @code{+} is defined on numbers, but not on structures. Operators are | |
10187 | often defined on groups of types. For the purposes of Modula-2, the | |
10188 | following definitions hold: | |
10189 | ||
10190 | @itemize @bullet | |
10191 | ||
10192 | @item | |
10193 | @emph{Integral types} consist of @code{INTEGER}, @code{CARDINAL}, and | |
10194 | their subranges. | |
10195 | ||
10196 | @item | |
10197 | @emph{Character types} consist of @code{CHAR} and its subranges. | |
10198 | ||
10199 | @item | |
10200 | @emph{Floating-point types} consist of @code{REAL}. | |
10201 | ||
10202 | @item | |
10203 | @emph{Pointer types} consist of anything declared as @code{POINTER TO | |
10204 | @var{type}}. | |
10205 | ||
10206 | @item | |
10207 | @emph{Scalar types} consist of all of the above. | |
10208 | ||
10209 | @item | |
10210 | @emph{Set types} consist of @code{SET} and @code{BITSET} types. | |
10211 | ||
10212 | @item | |
10213 | @emph{Boolean types} consist of @code{BOOLEAN}. | |
10214 | @end itemize | |
10215 | ||
10216 | @noindent | |
10217 | The following operators are supported, and appear in order of | |
10218 | increasing precedence: | |
10219 | ||
10220 | @table @code | |
10221 | @item , | |
10222 | Function argument or array index separator. | |
10223 | ||
10224 | @item := | |
10225 | Assignment. The value of @var{var} @code{:=} @var{value} is | |
10226 | @var{value}. | |
10227 | ||
10228 | @item <@r{, }> | |
10229 | Less than, greater than on integral, floating-point, or enumerated | |
10230 | types. | |
10231 | ||
10232 | @item <=@r{, }>= | |
96a2c332 | 10233 | Less than or equal to, greater than or equal to |
c906108c SS |
10234 | on integral, floating-point and enumerated types, or set inclusion on |
10235 | set types. Same precedence as @code{<}. | |
10236 | ||
10237 | @item =@r{, }<>@r{, }# | |
10238 | Equality and two ways of expressing inequality, valid on scalar types. | |
10239 | Same precedence as @code{<}. In @value{GDBN} scripts, only @code{<>} is | |
10240 | available for inequality, since @code{#} conflicts with the script | |
10241 | comment character. | |
10242 | ||
10243 | @item IN | |
10244 | Set membership. Defined on set types and the types of their members. | |
10245 | Same precedence as @code{<}. | |
10246 | ||
10247 | @item OR | |
10248 | Boolean disjunction. Defined on boolean types. | |
10249 | ||
10250 | @item AND@r{, }& | |
d4f3574e | 10251 | Boolean conjunction. Defined on boolean types. |
c906108c SS |
10252 | |
10253 | @item @@ | |
10254 | The @value{GDBN} ``artificial array'' operator (@pxref{Expressions, ,Expressions}). | |
10255 | ||
10256 | @item +@r{, }- | |
10257 | Addition and subtraction on integral and floating-point types, or union | |
10258 | and difference on set types. | |
10259 | ||
10260 | @item * | |
10261 | Multiplication on integral and floating-point types, or set intersection | |
10262 | on set types. | |
10263 | ||
10264 | @item / | |
10265 | Division on floating-point types, or symmetric set difference on set | |
10266 | types. Same precedence as @code{*}. | |
10267 | ||
10268 | @item DIV@r{, }MOD | |
10269 | Integer division and remainder. Defined on integral types. Same | |
10270 | precedence as @code{*}. | |
10271 | ||
10272 | @item - | |
10273 | Negative. Defined on @code{INTEGER} and @code{REAL} data. | |
10274 | ||
10275 | @item ^ | |
10276 | Pointer dereferencing. Defined on pointer types. | |
10277 | ||
10278 | @item NOT | |
10279 | Boolean negation. Defined on boolean types. Same precedence as | |
10280 | @code{^}. | |
10281 | ||
10282 | @item . | |
10283 | @code{RECORD} field selector. Defined on @code{RECORD} data. Same | |
10284 | precedence as @code{^}. | |
10285 | ||
10286 | @item [] | |
10287 | Array indexing. Defined on @code{ARRAY} data. Same precedence as @code{^}. | |
10288 | ||
10289 | @item () | |
10290 | Procedure argument list. Defined on @code{PROCEDURE} objects. Same precedence | |
10291 | as @code{^}. | |
10292 | ||
10293 | @item ::@r{, }. | |
10294 | @value{GDBN} and Modula-2 scope operators. | |
10295 | @end table | |
10296 | ||
10297 | @quotation | |
72019c9c | 10298 | @emph{Warning:} Set expressions and their operations are not yet supported, so @value{GDBN} |
c906108c SS |
10299 | treats the use of the operator @code{IN}, or the use of operators |
10300 | @code{+}, @code{-}, @code{*}, @code{/}, @code{=}, , @code{<>}, @code{#}, | |
10301 | @code{<=}, and @code{>=} on sets as an error. | |
10302 | @end quotation | |
10303 | ||
cb51c4e0 | 10304 | |
6d2ebf8b | 10305 | @node Built-In Func/Proc |
79a6e687 | 10306 | @subsubsection Built-in Functions and Procedures |
cb51c4e0 | 10307 | @cindex Modula-2 built-ins |
c906108c SS |
10308 | |
10309 | Modula-2 also makes available several built-in procedures and functions. | |
10310 | In describing these, the following metavariables are used: | |
10311 | ||
10312 | @table @var | |
10313 | ||
10314 | @item a | |
10315 | represents an @code{ARRAY} variable. | |
10316 | ||
10317 | @item c | |
10318 | represents a @code{CHAR} constant or variable. | |
10319 | ||
10320 | @item i | |
10321 | represents a variable or constant of integral type. | |
10322 | ||
10323 | @item m | |
10324 | represents an identifier that belongs to a set. Generally used in the | |
10325 | same function with the metavariable @var{s}. The type of @var{s} should | |
10326 | be @code{SET OF @var{mtype}} (where @var{mtype} is the type of @var{m}). | |
10327 | ||
10328 | @item n | |
10329 | represents a variable or constant of integral or floating-point type. | |
10330 | ||
10331 | @item r | |
10332 | represents a variable or constant of floating-point type. | |
10333 | ||
10334 | @item t | |
10335 | represents a type. | |
10336 | ||
10337 | @item v | |
10338 | represents a variable. | |
10339 | ||
10340 | @item x | |
10341 | represents a variable or constant of one of many types. See the | |
10342 | explanation of the function for details. | |
10343 | @end table | |
10344 | ||
10345 | All Modula-2 built-in procedures also return a result, described below. | |
10346 | ||
10347 | @table @code | |
10348 | @item ABS(@var{n}) | |
10349 | Returns the absolute value of @var{n}. | |
10350 | ||
10351 | @item CAP(@var{c}) | |
10352 | If @var{c} is a lower case letter, it returns its upper case | |
c3f6f71d | 10353 | equivalent, otherwise it returns its argument. |
c906108c SS |
10354 | |
10355 | @item CHR(@var{i}) | |
10356 | Returns the character whose ordinal value is @var{i}. | |
10357 | ||
10358 | @item DEC(@var{v}) | |
c3f6f71d | 10359 | Decrements the value in the variable @var{v} by one. Returns the new value. |
c906108c SS |
10360 | |
10361 | @item DEC(@var{v},@var{i}) | |
10362 | Decrements the value in the variable @var{v} by @var{i}. Returns the | |
10363 | new value. | |
10364 | ||
10365 | @item EXCL(@var{m},@var{s}) | |
10366 | Removes the element @var{m} from the set @var{s}. Returns the new | |
10367 | set. | |
10368 | ||
10369 | @item FLOAT(@var{i}) | |
10370 | Returns the floating point equivalent of the integer @var{i}. | |
10371 | ||
10372 | @item HIGH(@var{a}) | |
10373 | Returns the index of the last member of @var{a}. | |
10374 | ||
10375 | @item INC(@var{v}) | |
c3f6f71d | 10376 | Increments the value in the variable @var{v} by one. Returns the new value. |
c906108c SS |
10377 | |
10378 | @item INC(@var{v},@var{i}) | |
10379 | Increments the value in the variable @var{v} by @var{i}. Returns the | |
10380 | new value. | |
10381 | ||
10382 | @item INCL(@var{m},@var{s}) | |
10383 | Adds the element @var{m} to the set @var{s} if it is not already | |
10384 | there. Returns the new set. | |
10385 | ||
10386 | @item MAX(@var{t}) | |
10387 | Returns the maximum value of the type @var{t}. | |
10388 | ||
10389 | @item MIN(@var{t}) | |
10390 | Returns the minimum value of the type @var{t}. | |
10391 | ||
10392 | @item ODD(@var{i}) | |
10393 | Returns boolean TRUE if @var{i} is an odd number. | |
10394 | ||
10395 | @item ORD(@var{x}) | |
10396 | Returns the ordinal value of its argument. For example, the ordinal | |
c3f6f71d JM |
10397 | value of a character is its @sc{ascii} value (on machines supporting the |
10398 | @sc{ascii} character set). @var{x} must be of an ordered type, which include | |
c906108c SS |
10399 | integral, character and enumerated types. |
10400 | ||
10401 | @item SIZE(@var{x}) | |
10402 | Returns the size of its argument. @var{x} can be a variable or a type. | |
10403 | ||
10404 | @item TRUNC(@var{r}) | |
10405 | Returns the integral part of @var{r}. | |
10406 | ||
844781a1 GM |
10407 | @item TSIZE(@var{x}) |
10408 | Returns the size of its argument. @var{x} can be a variable or a type. | |
10409 | ||
c906108c SS |
10410 | @item VAL(@var{t},@var{i}) |
10411 | Returns the member of the type @var{t} whose ordinal value is @var{i}. | |
10412 | @end table | |
10413 | ||
10414 | @quotation | |
10415 | @emph{Warning:} Sets and their operations are not yet supported, so | |
10416 | @value{GDBN} treats the use of procedures @code{INCL} and @code{EXCL} as | |
10417 | an error. | |
10418 | @end quotation | |
10419 | ||
10420 | @cindex Modula-2 constants | |
6d2ebf8b | 10421 | @node M2 Constants |
c906108c SS |
10422 | @subsubsection Constants |
10423 | ||
10424 | @value{GDBN} allows you to express the constants of Modula-2 in the following | |
10425 | ways: | |
10426 | ||
10427 | @itemize @bullet | |
10428 | ||
10429 | @item | |
10430 | Integer constants are simply a sequence of digits. When used in an | |
10431 | expression, a constant is interpreted to be type-compatible with the | |
10432 | rest of the expression. Hexadecimal integers are specified by a | |
10433 | trailing @samp{H}, and octal integers by a trailing @samp{B}. | |
10434 | ||
10435 | @item | |
10436 | Floating point constants appear as a sequence of digits, followed by a | |
10437 | decimal point and another sequence of digits. An optional exponent can | |
10438 | then be specified, in the form @samp{E@r{[}+@r{|}-@r{]}@var{nnn}}, where | |
10439 | @samp{@r{[}+@r{|}-@r{]}@var{nnn}} is the desired exponent. All of the | |
10440 | digits of the floating point constant must be valid decimal (base 10) | |
10441 | digits. | |
10442 | ||
10443 | @item | |
10444 | Character constants consist of a single character enclosed by a pair of | |
10445 | like quotes, either single (@code{'}) or double (@code{"}). They may | |
c3f6f71d | 10446 | also be expressed by their ordinal value (their @sc{ascii} value, usually) |
c906108c SS |
10447 | followed by a @samp{C}. |
10448 | ||
10449 | @item | |
10450 | String constants consist of a sequence of characters enclosed by a | |
10451 | pair of like quotes, either single (@code{'}) or double (@code{"}). | |
10452 | Escape sequences in the style of C are also allowed. @xref{C | |
79a6e687 | 10453 | Constants, ,C and C@t{++} Constants}, for a brief explanation of escape |
c906108c SS |
10454 | sequences. |
10455 | ||
10456 | @item | |
10457 | Enumerated constants consist of an enumerated identifier. | |
10458 | ||
10459 | @item | |
10460 | Boolean constants consist of the identifiers @code{TRUE} and | |
10461 | @code{FALSE}. | |
10462 | ||
10463 | @item | |
10464 | Pointer constants consist of integral values only. | |
10465 | ||
10466 | @item | |
10467 | Set constants are not yet supported. | |
10468 | @end itemize | |
10469 | ||
72019c9c GM |
10470 | @node M2 Types |
10471 | @subsubsection Modula-2 Types | |
10472 | @cindex Modula-2 types | |
10473 | ||
10474 | Currently @value{GDBN} can print the following data types in Modula-2 | |
10475 | syntax: array types, record types, set types, pointer types, procedure | |
10476 | types, enumerated types, subrange types and base types. You can also | |
10477 | print the contents of variables declared using these type. | |
10478 | This section gives a number of simple source code examples together with | |
10479 | sample @value{GDBN} sessions. | |
10480 | ||
10481 | The first example contains the following section of code: | |
10482 | ||
10483 | @smallexample | |
10484 | VAR | |
10485 | s: SET OF CHAR ; | |
10486 | r: [20..40] ; | |
10487 | @end smallexample | |
10488 | ||
10489 | @noindent | |
10490 | and you can request @value{GDBN} to interrogate the type and value of | |
10491 | @code{r} and @code{s}. | |
10492 | ||
10493 | @smallexample | |
10494 | (@value{GDBP}) print s | |
10495 | @{'A'..'C', 'Z'@} | |
10496 | (@value{GDBP}) ptype s | |
10497 | SET OF CHAR | |
10498 | (@value{GDBP}) print r | |
10499 | 21 | |
10500 | (@value{GDBP}) ptype r | |
10501 | [20..40] | |
10502 | @end smallexample | |
10503 | ||
10504 | @noindent | |
10505 | Likewise if your source code declares @code{s} as: | |
10506 | ||
10507 | @smallexample | |
10508 | VAR | |
10509 | s: SET ['A'..'Z'] ; | |
10510 | @end smallexample | |
10511 | ||
10512 | @noindent | |
10513 | then you may query the type of @code{s} by: | |
10514 | ||
10515 | @smallexample | |
10516 | (@value{GDBP}) ptype s | |
10517 | type = SET ['A'..'Z'] | |
10518 | @end smallexample | |
10519 | ||
10520 | @noindent | |
10521 | Note that at present you cannot interactively manipulate set | |
10522 | expressions using the debugger. | |
10523 | ||
10524 | The following example shows how you might declare an array in Modula-2 | |
10525 | and how you can interact with @value{GDBN} to print its type and contents: | |
10526 | ||
10527 | @smallexample | |
10528 | VAR | |
10529 | s: ARRAY [-10..10] OF CHAR ; | |
10530 | @end smallexample | |
10531 | ||
10532 | @smallexample | |
10533 | (@value{GDBP}) ptype s | |
10534 | ARRAY [-10..10] OF CHAR | |
10535 | @end smallexample | |
10536 | ||
10537 | Note that the array handling is not yet complete and although the type | |
10538 | is printed correctly, expression handling still assumes that all | |
10539 | arrays have a lower bound of zero and not @code{-10} as in the example | |
844781a1 | 10540 | above. |
72019c9c GM |
10541 | |
10542 | Here are some more type related Modula-2 examples: | |
10543 | ||
10544 | @smallexample | |
10545 | TYPE | |
10546 | colour = (blue, red, yellow, green) ; | |
10547 | t = [blue..yellow] ; | |
10548 | VAR | |
10549 | s: t ; | |
10550 | BEGIN | |
10551 | s := blue ; | |
10552 | @end smallexample | |
10553 | ||
10554 | @noindent | |
10555 | The @value{GDBN} interaction shows how you can query the data type | |
10556 | and value of a variable. | |
10557 | ||
10558 | @smallexample | |
10559 | (@value{GDBP}) print s | |
10560 | $1 = blue | |
10561 | (@value{GDBP}) ptype t | |
10562 | type = [blue..yellow] | |
10563 | @end smallexample | |
10564 | ||
10565 | @noindent | |
10566 | In this example a Modula-2 array is declared and its contents | |
10567 | displayed. Observe that the contents are written in the same way as | |
10568 | their @code{C} counterparts. | |
10569 | ||
10570 | @smallexample | |
10571 | VAR | |
10572 | s: ARRAY [1..5] OF CARDINAL ; | |
10573 | BEGIN | |
10574 | s[1] := 1 ; | |
10575 | @end smallexample | |
10576 | ||
10577 | @smallexample | |
10578 | (@value{GDBP}) print s | |
10579 | $1 = @{1, 0, 0, 0, 0@} | |
10580 | (@value{GDBP}) ptype s | |
10581 | type = ARRAY [1..5] OF CARDINAL | |
10582 | @end smallexample | |
10583 | ||
10584 | The Modula-2 language interface to @value{GDBN} also understands | |
10585 | pointer types as shown in this example: | |
10586 | ||
10587 | @smallexample | |
10588 | VAR | |
10589 | s: POINTER TO ARRAY [1..5] OF CARDINAL ; | |
10590 | BEGIN | |
10591 | NEW(s) ; | |
10592 | s^[1] := 1 ; | |
10593 | @end smallexample | |
10594 | ||
10595 | @noindent | |
10596 | and you can request that @value{GDBN} describes the type of @code{s}. | |
10597 | ||
10598 | @smallexample | |
10599 | (@value{GDBP}) ptype s | |
10600 | type = POINTER TO ARRAY [1..5] OF CARDINAL | |
10601 | @end smallexample | |
10602 | ||
10603 | @value{GDBN} handles compound types as we can see in this example. | |
10604 | Here we combine array types, record types, pointer types and subrange | |
10605 | types: | |
10606 | ||
10607 | @smallexample | |
10608 | TYPE | |
10609 | foo = RECORD | |
10610 | f1: CARDINAL ; | |
10611 | f2: CHAR ; | |
10612 | f3: myarray ; | |
10613 | END ; | |
10614 | ||
10615 | myarray = ARRAY myrange OF CARDINAL ; | |
10616 | myrange = [-2..2] ; | |
10617 | VAR | |
10618 | s: POINTER TO ARRAY myrange OF foo ; | |
10619 | @end smallexample | |
10620 | ||
10621 | @noindent | |
10622 | and you can ask @value{GDBN} to describe the type of @code{s} as shown | |
10623 | below. | |
10624 | ||
10625 | @smallexample | |
10626 | (@value{GDBP}) ptype s | |
10627 | type = POINTER TO ARRAY [-2..2] OF foo = RECORD | |
10628 | f1 : CARDINAL; | |
10629 | f2 : CHAR; | |
10630 | f3 : ARRAY [-2..2] OF CARDINAL; | |
10631 | END | |
10632 | @end smallexample | |
10633 | ||
6d2ebf8b | 10634 | @node M2 Defaults |
79a6e687 | 10635 | @subsubsection Modula-2 Defaults |
c906108c SS |
10636 | @cindex Modula-2 defaults |
10637 | ||
10638 | If type and range checking are set automatically by @value{GDBN}, they | |
10639 | both default to @code{on} whenever the working language changes to | |
d4f3574e | 10640 | Modula-2. This happens regardless of whether you or @value{GDBN} |
c906108c SS |
10641 | selected the working language. |
10642 | ||
10643 | If you allow @value{GDBN} to set the language automatically, then entering | |
10644 | code compiled from a file whose name ends with @file{.mod} sets the | |
79a6e687 BW |
10645 | working language to Modula-2. @xref{Automatically, ,Having @value{GDBN} |
10646 | Infer the Source Language}, for further details. | |
c906108c | 10647 | |
6d2ebf8b | 10648 | @node Deviations |
79a6e687 | 10649 | @subsubsection Deviations from Standard Modula-2 |
c906108c SS |
10650 | @cindex Modula-2, deviations from |
10651 | ||
10652 | A few changes have been made to make Modula-2 programs easier to debug. | |
10653 | This is done primarily via loosening its type strictness: | |
10654 | ||
10655 | @itemize @bullet | |
10656 | @item | |
10657 | Unlike in standard Modula-2, pointer constants can be formed by | |
10658 | integers. This allows you to modify pointer variables during | |
10659 | debugging. (In standard Modula-2, the actual address contained in a | |
10660 | pointer variable is hidden from you; it can only be modified | |
10661 | through direct assignment to another pointer variable or expression that | |
10662 | returned a pointer.) | |
10663 | ||
10664 | @item | |
10665 | C escape sequences can be used in strings and characters to represent | |
10666 | non-printable characters. @value{GDBN} prints out strings with these | |
10667 | escape sequences embedded. Single non-printable characters are | |
10668 | printed using the @samp{CHR(@var{nnn})} format. | |
10669 | ||
10670 | @item | |
10671 | The assignment operator (@code{:=}) returns the value of its right-hand | |
10672 | argument. | |
10673 | ||
10674 | @item | |
10675 | All built-in procedures both modify @emph{and} return their argument. | |
10676 | @end itemize | |
10677 | ||
6d2ebf8b | 10678 | @node M2 Checks |
79a6e687 | 10679 | @subsubsection Modula-2 Type and Range Checks |
c906108c SS |
10680 | @cindex Modula-2 checks |
10681 | ||
10682 | @quotation | |
10683 | @emph{Warning:} in this release, @value{GDBN} does not yet perform type or | |
10684 | range checking. | |
10685 | @end quotation | |
10686 | @c FIXME remove warning when type/range checks added | |
10687 | ||
10688 | @value{GDBN} considers two Modula-2 variables type equivalent if: | |
10689 | ||
10690 | @itemize @bullet | |
10691 | @item | |
10692 | They are of types that have been declared equivalent via a @code{TYPE | |
10693 | @var{t1} = @var{t2}} statement | |
10694 | ||
10695 | @item | |
10696 | They have been declared on the same line. (Note: This is true of the | |
10697 | @sc{gnu} Modula-2 compiler, but it may not be true of other compilers.) | |
10698 | @end itemize | |
10699 | ||
10700 | As long as type checking is enabled, any attempt to combine variables | |
10701 | whose types are not equivalent is an error. | |
10702 | ||
10703 | Range checking is done on all mathematical operations, assignment, array | |
10704 | index bounds, and all built-in functions and procedures. | |
10705 | ||
6d2ebf8b | 10706 | @node M2 Scope |
79a6e687 | 10707 | @subsubsection The Scope Operators @code{::} and @code{.} |
c906108c | 10708 | @cindex scope |
41afff9a | 10709 | @cindex @code{.}, Modula-2 scope operator |
c906108c SS |
10710 | @cindex colon, doubled as scope operator |
10711 | @ifinfo | |
41afff9a | 10712 | @vindex colon-colon@r{, in Modula-2} |
c906108c SS |
10713 | @c Info cannot handle :: but TeX can. |
10714 | @end ifinfo | |
10715 | @iftex | |
41afff9a | 10716 | @vindex ::@r{, in Modula-2} |
c906108c SS |
10717 | @end iftex |
10718 | ||
10719 | There are a few subtle differences between the Modula-2 scope operator | |
10720 | (@code{.}) and the @value{GDBN} scope operator (@code{::}). The two have | |
10721 | similar syntax: | |
10722 | ||
474c8240 | 10723 | @smallexample |
c906108c SS |
10724 | |
10725 | @var{module} . @var{id} | |
10726 | @var{scope} :: @var{id} | |
474c8240 | 10727 | @end smallexample |
c906108c SS |
10728 | |
10729 | @noindent | |
10730 | where @var{scope} is the name of a module or a procedure, | |
10731 | @var{module} the name of a module, and @var{id} is any declared | |
10732 | identifier within your program, except another module. | |
10733 | ||
10734 | Using the @code{::} operator makes @value{GDBN} search the scope | |
10735 | specified by @var{scope} for the identifier @var{id}. If it is not | |
10736 | found in the specified scope, then @value{GDBN} searches all scopes | |
10737 | enclosing the one specified by @var{scope}. | |
10738 | ||
10739 | Using the @code{.} operator makes @value{GDBN} search the current scope for | |
10740 | the identifier specified by @var{id} that was imported from the | |
10741 | definition module specified by @var{module}. With this operator, it is | |
10742 | an error if the identifier @var{id} was not imported from definition | |
10743 | module @var{module}, or if @var{id} is not an identifier in | |
10744 | @var{module}. | |
10745 | ||
6d2ebf8b | 10746 | @node GDB/M2 |
c906108c SS |
10747 | @subsubsection @value{GDBN} and Modula-2 |
10748 | ||
10749 | Some @value{GDBN} commands have little use when debugging Modula-2 programs. | |
10750 | Five subcommands of @code{set print} and @code{show print} apply | |
b37052ae | 10751 | specifically to C and C@t{++}: @samp{vtbl}, @samp{demangle}, |
c906108c | 10752 | @samp{asm-demangle}, @samp{object}, and @samp{union}. The first four |
b37052ae | 10753 | apply to C@t{++}, and the last to the C @code{union} type, which has no direct |
c906108c SS |
10754 | analogue in Modula-2. |
10755 | ||
10756 | The @code{@@} operator (@pxref{Expressions, ,Expressions}), while available | |
d4f3574e | 10757 | with any language, is not useful with Modula-2. Its |
c906108c | 10758 | intent is to aid the debugging of @dfn{dynamic arrays}, which cannot be |
b37052ae | 10759 | created in Modula-2 as they can in C or C@t{++}. However, because an |
c906108c | 10760 | address can be specified by an integral constant, the construct |
d4f3574e | 10761 | @samp{@{@var{type}@}@var{adrexp}} is still useful. |
c906108c SS |
10762 | |
10763 | @cindex @code{#} in Modula-2 | |
10764 | In @value{GDBN} scripts, the Modula-2 inequality operator @code{#} is | |
10765 | interpreted as the beginning of a comment. Use @code{<>} instead. | |
c906108c | 10766 | |
e07c999f PH |
10767 | @node Ada |
10768 | @subsection Ada | |
10769 | @cindex Ada | |
10770 | ||
10771 | The extensions made to @value{GDBN} for Ada only support | |
10772 | output from the @sc{gnu} Ada (GNAT) compiler. | |
10773 | Other Ada compilers are not currently supported, and | |
10774 | attempting to debug executables produced by them is most likely | |
10775 | to be difficult. | |
10776 | ||
10777 | ||
10778 | @cindex expressions in Ada | |
10779 | @menu | |
10780 | * Ada Mode Intro:: General remarks on the Ada syntax | |
10781 | and semantics supported by Ada mode | |
10782 | in @value{GDBN}. | |
10783 | * Omissions from Ada:: Restrictions on the Ada expression syntax. | |
10784 | * Additions to Ada:: Extensions of the Ada expression syntax. | |
10785 | * Stopping Before Main Program:: Debugging the program during elaboration. | |
10786 | * Ada Glitches:: Known peculiarities of Ada mode. | |
10787 | @end menu | |
10788 | ||
10789 | @node Ada Mode Intro | |
10790 | @subsubsection Introduction | |
10791 | @cindex Ada mode, general | |
10792 | ||
10793 | The Ada mode of @value{GDBN} supports a fairly large subset of Ada expression | |
10794 | syntax, with some extensions. | |
10795 | The philosophy behind the design of this subset is | |
10796 | ||
10797 | @itemize @bullet | |
10798 | @item | |
10799 | That @value{GDBN} should provide basic literals and access to operations for | |
10800 | arithmetic, dereferencing, field selection, indexing, and subprogram calls, | |
10801 | leaving more sophisticated computations to subprograms written into the | |
10802 | program (which therefore may be called from @value{GDBN}). | |
10803 | ||
10804 | @item | |
10805 | That type safety and strict adherence to Ada language restrictions | |
10806 | are not particularly important to the @value{GDBN} user. | |
10807 | ||
10808 | @item | |
10809 | That brevity is important to the @value{GDBN} user. | |
10810 | @end itemize | |
10811 | ||
10812 | Thus, for brevity, the debugger acts as if there were | |
10813 | implicit @code{with} and @code{use} clauses in effect for all user-written | |
10814 | packages, making it unnecessary to fully qualify most names with | |
10815 | their packages, regardless of context. Where this causes ambiguity, | |
10816 | @value{GDBN} asks the user's intent. | |
10817 | ||
10818 | The debugger will start in Ada mode if it detects an Ada main program. | |
10819 | As for other languages, it will enter Ada mode when stopped in a program that | |
10820 | was translated from an Ada source file. | |
10821 | ||
10822 | While in Ada mode, you may use `@t{--}' for comments. This is useful | |
10823 | mostly for documenting command files. The standard @value{GDBN} comment | |
10824 | (@samp{#}) still works at the beginning of a line in Ada mode, but not in the | |
10825 | middle (to allow based literals). | |
10826 | ||
10827 | The debugger supports limited overloading. Given a subprogram call in which | |
10828 | the function symbol has multiple definitions, it will use the number of | |
10829 | actual parameters and some information about their types to attempt to narrow | |
10830 | the set of definitions. It also makes very limited use of context, preferring | |
10831 | procedures to functions in the context of the @code{call} command, and | |
10832 | functions to procedures elsewhere. | |
10833 | ||
10834 | @node Omissions from Ada | |
10835 | @subsubsection Omissions from Ada | |
10836 | @cindex Ada, omissions from | |
10837 | ||
10838 | Here are the notable omissions from the subset: | |
10839 | ||
10840 | @itemize @bullet | |
10841 | @item | |
10842 | Only a subset of the attributes are supported: | |
10843 | ||
10844 | @itemize @minus | |
10845 | @item | |
10846 | @t{'First}, @t{'Last}, and @t{'Length} | |
10847 | on array objects (not on types and subtypes). | |
10848 | ||
10849 | @item | |
10850 | @t{'Min} and @t{'Max}. | |
10851 | ||
10852 | @item | |
10853 | @t{'Pos} and @t{'Val}. | |
10854 | ||
10855 | @item | |
10856 | @t{'Tag}. | |
10857 | ||
10858 | @item | |
10859 | @t{'Range} on array objects (not subtypes), but only as the right | |
10860 | operand of the membership (@code{in}) operator. | |
10861 | ||
10862 | @item | |
10863 | @t{'Access}, @t{'Unchecked_Access}, and | |
10864 | @t{'Unrestricted_Access} (a GNAT extension). | |
10865 | ||
10866 | @item | |
10867 | @t{'Address}. | |
10868 | @end itemize | |
10869 | ||
10870 | @item | |
10871 | The names in | |
10872 | @code{Characters.Latin_1} are not available and | |
10873 | concatenation is not implemented. Thus, escape characters in strings are | |
10874 | not currently available. | |
10875 | ||
10876 | @item | |
10877 | Equality tests (@samp{=} and @samp{/=}) on arrays test for bitwise | |
10878 | equality of representations. They will generally work correctly | |
10879 | for strings and arrays whose elements have integer or enumeration types. | |
10880 | They may not work correctly for arrays whose element | |
10881 | types have user-defined equality, for arrays of real values | |
10882 | (in particular, IEEE-conformant floating point, because of negative | |
10883 | zeroes and NaNs), and for arrays whose elements contain unused bits with | |
10884 | indeterminate values. | |
10885 | ||
10886 | @item | |
10887 | The other component-by-component array operations (@code{and}, @code{or}, | |
10888 | @code{xor}, @code{not}, and relational tests other than equality) | |
10889 | are not implemented. | |
10890 | ||
10891 | @item | |
860701dc PH |
10892 | @cindex array aggregates (Ada) |
10893 | @cindex record aggregates (Ada) | |
10894 | @cindex aggregates (Ada) | |
10895 | There is limited support for array and record aggregates. They are | |
10896 | permitted only on the right sides of assignments, as in these examples: | |
10897 | ||
10898 | @smallexample | |
10899 | set An_Array := (1, 2, 3, 4, 5, 6) | |
10900 | set An_Array := (1, others => 0) | |
10901 | set An_Array := (0|4 => 1, 1..3 => 2, 5 => 6) | |
10902 | set A_2D_Array := ((1, 2, 3), (4, 5, 6), (7, 8, 9)) | |
10903 | set A_Record := (1, "Peter", True); | |
10904 | set A_Record := (Name => "Peter", Id => 1, Alive => True) | |
10905 | @end smallexample | |
10906 | ||
10907 | Changing a | |
10908 | discriminant's value by assigning an aggregate has an | |
10909 | undefined effect if that discriminant is used within the record. | |
10910 | However, you can first modify discriminants by directly assigning to | |
10911 | them (which normally would not be allowed in Ada), and then performing an | |
10912 | aggregate assignment. For example, given a variable @code{A_Rec} | |
10913 | declared to have a type such as: | |
10914 | ||
10915 | @smallexample | |
10916 | type Rec (Len : Small_Integer := 0) is record | |
10917 | Id : Integer; | |
10918 | Vals : IntArray (1 .. Len); | |
10919 | end record; | |
10920 | @end smallexample | |
10921 | ||
10922 | you can assign a value with a different size of @code{Vals} with two | |
10923 | assignments: | |
10924 | ||
10925 | @smallexample | |
10926 | set A_Rec.Len := 4 | |
10927 | set A_Rec := (Id => 42, Vals => (1, 2, 3, 4)) | |
10928 | @end smallexample | |
10929 | ||
10930 | As this example also illustrates, @value{GDBN} is very loose about the usual | |
10931 | rules concerning aggregates. You may leave out some of the | |
10932 | components of an array or record aggregate (such as the @code{Len} | |
10933 | component in the assignment to @code{A_Rec} above); they will retain their | |
10934 | original values upon assignment. You may freely use dynamic values as | |
10935 | indices in component associations. You may even use overlapping or | |
10936 | redundant component associations, although which component values are | |
10937 | assigned in such cases is not defined. | |
e07c999f PH |
10938 | |
10939 | @item | |
10940 | Calls to dispatching subprograms are not implemented. | |
10941 | ||
10942 | @item | |
10943 | The overloading algorithm is much more limited (i.e., less selective) | |
ae21e955 BW |
10944 | than that of real Ada. It makes only limited use of the context in |
10945 | which a subexpression appears to resolve its meaning, and it is much | |
10946 | looser in its rules for allowing type matches. As a result, some | |
10947 | function calls will be ambiguous, and the user will be asked to choose | |
10948 | the proper resolution. | |
e07c999f PH |
10949 | |
10950 | @item | |
10951 | The @code{new} operator is not implemented. | |
10952 | ||
10953 | @item | |
10954 | Entry calls are not implemented. | |
10955 | ||
10956 | @item | |
10957 | Aside from printing, arithmetic operations on the native VAX floating-point | |
10958 | formats are not supported. | |
10959 | ||
10960 | @item | |
10961 | It is not possible to slice a packed array. | |
10962 | @end itemize | |
10963 | ||
10964 | @node Additions to Ada | |
10965 | @subsubsection Additions to Ada | |
10966 | @cindex Ada, deviations from | |
10967 | ||
10968 | As it does for other languages, @value{GDBN} makes certain generic | |
10969 | extensions to Ada (@pxref{Expressions}): | |
10970 | ||
10971 | @itemize @bullet | |
10972 | @item | |
ae21e955 BW |
10973 | If the expression @var{E} is a variable residing in memory (typically |
10974 | a local variable or array element) and @var{N} is a positive integer, | |
10975 | then @code{@var{E}@@@var{N}} displays the values of @var{E} and the | |
10976 | @var{N}-1 adjacent variables following it in memory as an array. In | |
10977 | Ada, this operator is generally not necessary, since its prime use is | |
10978 | in displaying parts of an array, and slicing will usually do this in | |
10979 | Ada. However, there are occasional uses when debugging programs in | |
10980 | which certain debugging information has been optimized away. | |
e07c999f PH |
10981 | |
10982 | @item | |
ae21e955 BW |
10983 | @code{@var{B}::@var{var}} means ``the variable named @var{var} that |
10984 | appears in function or file @var{B}.'' When @var{B} is a file name, | |
10985 | you must typically surround it in single quotes. | |
e07c999f PH |
10986 | |
10987 | @item | |
10988 | The expression @code{@{@var{type}@} @var{addr}} means ``the variable of type | |
10989 | @var{type} that appears at address @var{addr}.'' | |
10990 | ||
10991 | @item | |
10992 | A name starting with @samp{$} is a convenience variable | |
10993 | (@pxref{Convenience Vars}) or a machine register (@pxref{Registers}). | |
10994 | @end itemize | |
10995 | ||
ae21e955 BW |
10996 | In addition, @value{GDBN} provides a few other shortcuts and outright |
10997 | additions specific to Ada: | |
e07c999f PH |
10998 | |
10999 | @itemize @bullet | |
11000 | @item | |
11001 | The assignment statement is allowed as an expression, returning | |
11002 | its right-hand operand as its value. Thus, you may enter | |
11003 | ||
11004 | @smallexample | |
11005 | set x := y + 3 | |
11006 | print A(tmp := y + 1) | |
11007 | @end smallexample | |
11008 | ||
11009 | @item | |
11010 | The semicolon is allowed as an ``operator,'' returning as its value | |
11011 | the value of its right-hand operand. | |
11012 | This allows, for example, | |
11013 | complex conditional breaks: | |
11014 | ||
11015 | @smallexample | |
11016 | break f | |
11017 | condition 1 (report(i); k += 1; A(k) > 100) | |
11018 | @end smallexample | |
11019 | ||
11020 | @item | |
11021 | Rather than use catenation and symbolic character names to introduce special | |
11022 | characters into strings, one may instead use a special bracket notation, | |
11023 | which is also used to print strings. A sequence of characters of the form | |
11024 | @samp{["@var{XX}"]} within a string or character literal denotes the | |
11025 | (single) character whose numeric encoding is @var{XX} in hexadecimal. The | |
11026 | sequence of characters @samp{["""]} also denotes a single quotation mark | |
11027 | in strings. For example, | |
11028 | @smallexample | |
11029 | "One line.["0a"]Next line.["0a"]" | |
11030 | @end smallexample | |
11031 | @noindent | |
ae21e955 BW |
11032 | contains an ASCII newline character (@code{Ada.Characters.Latin_1.LF}) |
11033 | after each period. | |
e07c999f PH |
11034 | |
11035 | @item | |
11036 | The subtype used as a prefix for the attributes @t{'Pos}, @t{'Min}, and | |
11037 | @t{'Max} is optional (and is ignored in any case). For example, it is valid | |
11038 | to write | |
11039 | ||
11040 | @smallexample | |
11041 | print 'max(x, y) | |
11042 | @end smallexample | |
11043 | ||
11044 | @item | |
11045 | When printing arrays, @value{GDBN} uses positional notation when the | |
11046 | array has a lower bound of 1, and uses a modified named notation otherwise. | |
ae21e955 BW |
11047 | For example, a one-dimensional array of three integers with a lower bound |
11048 | of 3 might print as | |
e07c999f PH |
11049 | |
11050 | @smallexample | |
11051 | (3 => 10, 17, 1) | |
11052 | @end smallexample | |
11053 | ||
11054 | @noindent | |
11055 | That is, in contrast to valid Ada, only the first component has a @code{=>} | |
11056 | clause. | |
11057 | ||
11058 | @item | |
11059 | You may abbreviate attributes in expressions with any unique, | |
11060 | multi-character subsequence of | |
11061 | their names (an exact match gets preference). | |
11062 | For example, you may use @t{a'len}, @t{a'gth}, or @t{a'lh} | |
11063 | in place of @t{a'length}. | |
11064 | ||
11065 | @item | |
11066 | @cindex quoting Ada internal identifiers | |
11067 | Since Ada is case-insensitive, the debugger normally maps identifiers you type | |
11068 | to lower case. The GNAT compiler uses upper-case characters for | |
11069 | some of its internal identifiers, which are normally of no interest to users. | |
11070 | For the rare occasions when you actually have to look at them, | |
11071 | enclose them in angle brackets to avoid the lower-case mapping. | |
11072 | For example, | |
11073 | @smallexample | |
11074 | @value{GDBP} print <JMPBUF_SAVE>[0] | |
11075 | @end smallexample | |
11076 | ||
11077 | @item | |
11078 | Printing an object of class-wide type or dereferencing an | |
11079 | access-to-class-wide value will display all the components of the object's | |
11080 | specific type (as indicated by its run-time tag). Likewise, component | |
11081 | selection on such a value will operate on the specific type of the | |
11082 | object. | |
11083 | ||
11084 | @end itemize | |
11085 | ||
11086 | @node Stopping Before Main Program | |
11087 | @subsubsection Stopping at the Very Beginning | |
11088 | ||
11089 | @cindex breakpointing Ada elaboration code | |
11090 | It is sometimes necessary to debug the program during elaboration, and | |
11091 | before reaching the main procedure. | |
11092 | As defined in the Ada Reference | |
11093 | Manual, the elaboration code is invoked from a procedure called | |
11094 | @code{adainit}. To run your program up to the beginning of | |
11095 | elaboration, simply use the following two commands: | |
11096 | @code{tbreak adainit} and @code{run}. | |
11097 | ||
11098 | @node Ada Glitches | |
11099 | @subsubsection Known Peculiarities of Ada Mode | |
11100 | @cindex Ada, problems | |
11101 | ||
11102 | Besides the omissions listed previously (@pxref{Omissions from Ada}), | |
11103 | we know of several problems with and limitations of Ada mode in | |
11104 | @value{GDBN}, | |
11105 | some of which will be fixed with planned future releases of the debugger | |
11106 | and the GNU Ada compiler. | |
11107 | ||
11108 | @itemize @bullet | |
11109 | @item | |
11110 | Currently, the debugger | |
11111 | has insufficient information to determine whether certain pointers represent | |
11112 | pointers to objects or the objects themselves. | |
11113 | Thus, the user may have to tack an extra @code{.all} after an expression | |
11114 | to get it printed properly. | |
11115 | ||
11116 | @item | |
11117 | Static constants that the compiler chooses not to materialize as objects in | |
11118 | storage are invisible to the debugger. | |
11119 | ||
11120 | @item | |
11121 | Named parameter associations in function argument lists are ignored (the | |
11122 | argument lists are treated as positional). | |
11123 | ||
11124 | @item | |
11125 | Many useful library packages are currently invisible to the debugger. | |
11126 | ||
11127 | @item | |
11128 | Fixed-point arithmetic, conversions, input, and output is carried out using | |
11129 | floating-point arithmetic, and may give results that only approximate those on | |
11130 | the host machine. | |
11131 | ||
11132 | @item | |
11133 | The type of the @t{'Address} attribute may not be @code{System.Address}. | |
11134 | ||
11135 | @item | |
11136 | The GNAT compiler never generates the prefix @code{Standard} for any of | |
11137 | the standard symbols defined by the Ada language. @value{GDBN} knows about | |
11138 | this: it will strip the prefix from names when you use it, and will never | |
11139 | look for a name you have so qualified among local symbols, nor match against | |
11140 | symbols in other packages or subprograms. If you have | |
11141 | defined entities anywhere in your program other than parameters and | |
11142 | local variables whose simple names match names in @code{Standard}, | |
11143 | GNAT's lack of qualification here can cause confusion. When this happens, | |
11144 | you can usually resolve the confusion | |
11145 | by qualifying the problematic names with package | |
11146 | @code{Standard} explicitly. | |
11147 | @end itemize | |
11148 | ||
79a6e687 BW |
11149 | @node Unsupported Languages |
11150 | @section Unsupported Languages | |
4e562065 JB |
11151 | |
11152 | @cindex unsupported languages | |
11153 | @cindex minimal language | |
11154 | In addition to the other fully-supported programming languages, | |
11155 | @value{GDBN} also provides a pseudo-language, called @code{minimal}. | |
11156 | It does not represent a real programming language, but provides a set | |
11157 | of capabilities close to what the C or assembly languages provide. | |
11158 | This should allow most simple operations to be performed while debugging | |
11159 | an application that uses a language currently not supported by @value{GDBN}. | |
11160 | ||
11161 | If the language is set to @code{auto}, @value{GDBN} will automatically | |
11162 | select this language if the current frame corresponds to an unsupported | |
11163 | language. | |
11164 | ||
6d2ebf8b | 11165 | @node Symbols |
c906108c SS |
11166 | @chapter Examining the Symbol Table |
11167 | ||
d4f3574e | 11168 | The commands described in this chapter allow you to inquire about the |
c906108c SS |
11169 | symbols (names of variables, functions and types) defined in your |
11170 | program. This information is inherent in the text of your program and | |
11171 | does not change as your program executes. @value{GDBN} finds it in your | |
11172 | program's symbol table, in the file indicated when you started @value{GDBN} | |
79a6e687 BW |
11173 | (@pxref{File Options, ,Choosing Files}), or by one of the |
11174 | file-management commands (@pxref{Files, ,Commands to Specify Files}). | |
c906108c SS |
11175 | |
11176 | @cindex symbol names | |
11177 | @cindex names of symbols | |
11178 | @cindex quoting names | |
11179 | Occasionally, you may need to refer to symbols that contain unusual | |
11180 | characters, which @value{GDBN} ordinarily treats as word delimiters. The | |
11181 | most frequent case is in referring to static variables in other | |
79a6e687 | 11182 | source files (@pxref{Variables,,Program Variables}). File names |
c906108c SS |
11183 | are recorded in object files as debugging symbols, but @value{GDBN} would |
11184 | ordinarily parse a typical file name, like @file{foo.c}, as the three words | |
11185 | @samp{foo} @samp{.} @samp{c}. To allow @value{GDBN} to recognize | |
11186 | @samp{foo.c} as a single symbol, enclose it in single quotes; for example, | |
11187 | ||
474c8240 | 11188 | @smallexample |
c906108c | 11189 | p 'foo.c'::x |
474c8240 | 11190 | @end smallexample |
c906108c SS |
11191 | |
11192 | @noindent | |
11193 | looks up the value of @code{x} in the scope of the file @file{foo.c}. | |
11194 | ||
11195 | @table @code | |
a8f24a35 EZ |
11196 | @cindex case-insensitive symbol names |
11197 | @cindex case sensitivity in symbol names | |
11198 | @kindex set case-sensitive | |
11199 | @item set case-sensitive on | |
11200 | @itemx set case-sensitive off | |
11201 | @itemx set case-sensitive auto | |
11202 | Normally, when @value{GDBN} looks up symbols, it matches their names | |
11203 | with case sensitivity determined by the current source language. | |
11204 | Occasionally, you may wish to control that. The command @code{set | |
11205 | case-sensitive} lets you do that by specifying @code{on} for | |
11206 | case-sensitive matches or @code{off} for case-insensitive ones. If | |
11207 | you specify @code{auto}, case sensitivity is reset to the default | |
11208 | suitable for the source language. The default is case-sensitive | |
11209 | matches for all languages except for Fortran, for which the default is | |
11210 | case-insensitive matches. | |
11211 | ||
9c16f35a EZ |
11212 | @kindex show case-sensitive |
11213 | @item show case-sensitive | |
a8f24a35 EZ |
11214 | This command shows the current setting of case sensitivity for symbols |
11215 | lookups. | |
11216 | ||
c906108c | 11217 | @kindex info address |
b37052ae | 11218 | @cindex address of a symbol |
c906108c SS |
11219 | @item info address @var{symbol} |
11220 | Describe where the data for @var{symbol} is stored. For a register | |
11221 | variable, this says which register it is kept in. For a non-register | |
11222 | local variable, this prints the stack-frame offset at which the variable | |
11223 | is always stored. | |
11224 | ||
11225 | Note the contrast with @samp{print &@var{symbol}}, which does not work | |
11226 | at all for a register variable, and for a stack local variable prints | |
11227 | the exact address of the current instantiation of the variable. | |
11228 | ||
3d67e040 | 11229 | @kindex info symbol |
b37052ae | 11230 | @cindex symbol from address |
9c16f35a | 11231 | @cindex closest symbol and offset for an address |
3d67e040 EZ |
11232 | @item info symbol @var{addr} |
11233 | Print the name of a symbol which is stored at the address @var{addr}. | |
11234 | If no symbol is stored exactly at @var{addr}, @value{GDBN} prints the | |
11235 | nearest symbol and an offset from it: | |
11236 | ||
474c8240 | 11237 | @smallexample |
3d67e040 EZ |
11238 | (@value{GDBP}) info symbol 0x54320 |
11239 | _initialize_vx + 396 in section .text | |
474c8240 | 11240 | @end smallexample |
3d67e040 EZ |
11241 | |
11242 | @noindent | |
11243 | This is the opposite of the @code{info address} command. You can use | |
11244 | it to find out the name of a variable or a function given its address. | |
11245 | ||
c906108c | 11246 | @kindex whatis |
62f3a2ba FF |
11247 | @item whatis [@var{arg}] |
11248 | Print the data type of @var{arg}, which can be either an expression or | |
11249 | a data type. With no argument, print the data type of @code{$}, the | |
11250 | last value in the value history. If @var{arg} is an expression, it is | |
11251 | not actually evaluated, and any side-effecting operations (such as | |
11252 | assignments or function calls) inside it do not take place. If | |
11253 | @var{arg} is a type name, it may be the name of a type or typedef, or | |
11254 | for C code it may have the form @samp{class @var{class-name}}, | |
11255 | @samp{struct @var{struct-tag}}, @samp{union @var{union-tag}} or | |
11256 | @samp{enum @var{enum-tag}}. | |
c906108c SS |
11257 | @xref{Expressions, ,Expressions}. |
11258 | ||
c906108c | 11259 | @kindex ptype |
62f3a2ba FF |
11260 | @item ptype [@var{arg}] |
11261 | @code{ptype} accepts the same arguments as @code{whatis}, but prints a | |
11262 | detailed description of the type, instead of just the name of the type. | |
11263 | @xref{Expressions, ,Expressions}. | |
c906108c SS |
11264 | |
11265 | For example, for this variable declaration: | |
11266 | ||
474c8240 | 11267 | @smallexample |
c906108c | 11268 | struct complex @{double real; double imag;@} v; |
474c8240 | 11269 | @end smallexample |
c906108c SS |
11270 | |
11271 | @noindent | |
11272 | the two commands give this output: | |
11273 | ||
474c8240 | 11274 | @smallexample |
c906108c SS |
11275 | @group |
11276 | (@value{GDBP}) whatis v | |
11277 | type = struct complex | |
11278 | (@value{GDBP}) ptype v | |
11279 | type = struct complex @{ | |
11280 | double real; | |
11281 | double imag; | |
11282 | @} | |
11283 | @end group | |
474c8240 | 11284 | @end smallexample |
c906108c SS |
11285 | |
11286 | @noindent | |
11287 | As with @code{whatis}, using @code{ptype} without an argument refers to | |
11288 | the type of @code{$}, the last value in the value history. | |
11289 | ||
ab1adacd EZ |
11290 | @cindex incomplete type |
11291 | Sometimes, programs use opaque data types or incomplete specifications | |
11292 | of complex data structure. If the debug information included in the | |
11293 | program does not allow @value{GDBN} to display a full declaration of | |
11294 | the data type, it will say @samp{<incomplete type>}. For example, | |
11295 | given these declarations: | |
11296 | ||
11297 | @smallexample | |
11298 | struct foo; | |
11299 | struct foo *fooptr; | |
11300 | @end smallexample | |
11301 | ||
11302 | @noindent | |
11303 | but no definition for @code{struct foo} itself, @value{GDBN} will say: | |
11304 | ||
11305 | @smallexample | |
ddb50cd7 | 11306 | (@value{GDBP}) ptype foo |
ab1adacd EZ |
11307 | $1 = <incomplete type> |
11308 | @end smallexample | |
11309 | ||
11310 | @noindent | |
11311 | ``Incomplete type'' is C terminology for data types that are not | |
11312 | completely specified. | |
11313 | ||
c906108c SS |
11314 | @kindex info types |
11315 | @item info types @var{regexp} | |
11316 | @itemx info types | |
09d4efe1 EZ |
11317 | Print a brief description of all types whose names match the regular |
11318 | expression @var{regexp} (or all types in your program, if you supply | |
11319 | no argument). Each complete typename is matched as though it were a | |
11320 | complete line; thus, @samp{i type value} gives information on all | |
11321 | types in your program whose names include the string @code{value}, but | |
11322 | @samp{i type ^value$} gives information only on types whose complete | |
11323 | name is @code{value}. | |
c906108c SS |
11324 | |
11325 | This command differs from @code{ptype} in two ways: first, like | |
11326 | @code{whatis}, it does not print a detailed description; second, it | |
11327 | lists all source files where a type is defined. | |
11328 | ||
b37052ae EZ |
11329 | @kindex info scope |
11330 | @cindex local variables | |
09d4efe1 | 11331 | @item info scope @var{location} |
b37052ae | 11332 | List all the variables local to a particular scope. This command |
09d4efe1 EZ |
11333 | accepts a @var{location} argument---a function name, a source line, or |
11334 | an address preceded by a @samp{*}, and prints all the variables local | |
2a25a5ba EZ |
11335 | to the scope defined by that location. (@xref{Specify Location}, for |
11336 | details about supported forms of @var{location}.) For example: | |
b37052ae EZ |
11337 | |
11338 | @smallexample | |
11339 | (@value{GDBP}) @b{info scope command_line_handler} | |
11340 | Scope for command_line_handler: | |
11341 | Symbol rl is an argument at stack/frame offset 8, length 4. | |
11342 | Symbol linebuffer is in static storage at address 0x150a18, length 4. | |
11343 | Symbol linelength is in static storage at address 0x150a1c, length 4. | |
11344 | Symbol p is a local variable in register $esi, length 4. | |
11345 | Symbol p1 is a local variable in register $ebx, length 4. | |
11346 | Symbol nline is a local variable in register $edx, length 4. | |
11347 | Symbol repeat is a local variable at frame offset -8, length 4. | |
11348 | @end smallexample | |
11349 | ||
f5c37c66 EZ |
11350 | @noindent |
11351 | This command is especially useful for determining what data to collect | |
11352 | during a @dfn{trace experiment}, see @ref{Tracepoint Actions, | |
11353 | collect}. | |
11354 | ||
c906108c SS |
11355 | @kindex info source |
11356 | @item info source | |
919d772c JB |
11357 | Show information about the current source file---that is, the source file for |
11358 | the function containing the current point of execution: | |
11359 | @itemize @bullet | |
11360 | @item | |
11361 | the name of the source file, and the directory containing it, | |
11362 | @item | |
11363 | the directory it was compiled in, | |
11364 | @item | |
11365 | its length, in lines, | |
11366 | @item | |
11367 | which programming language it is written in, | |
11368 | @item | |
11369 | whether the executable includes debugging information for that file, and | |
11370 | if so, what format the information is in (e.g., STABS, Dwarf 2, etc.), and | |
11371 | @item | |
11372 | whether the debugging information includes information about | |
11373 | preprocessor macros. | |
11374 | @end itemize | |
11375 | ||
c906108c SS |
11376 | |
11377 | @kindex info sources | |
11378 | @item info sources | |
11379 | Print the names of all source files in your program for which there is | |
11380 | debugging information, organized into two lists: files whose symbols | |
11381 | have already been read, and files whose symbols will be read when needed. | |
11382 | ||
11383 | @kindex info functions | |
11384 | @item info functions | |
11385 | Print the names and data types of all defined functions. | |
11386 | ||
11387 | @item info functions @var{regexp} | |
11388 | Print the names and data types of all defined functions | |
11389 | whose names contain a match for regular expression @var{regexp}. | |
11390 | Thus, @samp{info fun step} finds all functions whose names | |
11391 | include @code{step}; @samp{info fun ^step} finds those whose names | |
b383017d | 11392 | start with @code{step}. If a function name contains characters |
c1468174 | 11393 | that conflict with the regular expression language (e.g.@: |
1c5dfdad | 11394 | @samp{operator*()}), they may be quoted with a backslash. |
c906108c SS |
11395 | |
11396 | @kindex info variables | |
11397 | @item info variables | |
11398 | Print the names and data types of all variables that are declared | |
6ca652b0 | 11399 | outside of functions (i.e.@: excluding local variables). |
c906108c SS |
11400 | |
11401 | @item info variables @var{regexp} | |
11402 | Print the names and data types of all variables (except for local | |
11403 | variables) whose names contain a match for regular expression | |
11404 | @var{regexp}. | |
11405 | ||
b37303ee | 11406 | @kindex info classes |
721c2651 | 11407 | @cindex Objective-C, classes and selectors |
b37303ee AF |
11408 | @item info classes |
11409 | @itemx info classes @var{regexp} | |
11410 | Display all Objective-C classes in your program, or | |
11411 | (with the @var{regexp} argument) all those matching a particular regular | |
11412 | expression. | |
11413 | ||
11414 | @kindex info selectors | |
11415 | @item info selectors | |
11416 | @itemx info selectors @var{regexp} | |
11417 | Display all Objective-C selectors in your program, or | |
11418 | (with the @var{regexp} argument) all those matching a particular regular | |
11419 | expression. | |
11420 | ||
c906108c SS |
11421 | @ignore |
11422 | This was never implemented. | |
11423 | @kindex info methods | |
11424 | @item info methods | |
11425 | @itemx info methods @var{regexp} | |
11426 | The @code{info methods} command permits the user to examine all defined | |
b37052ae EZ |
11427 | methods within C@t{++} program, or (with the @var{regexp} argument) a |
11428 | specific set of methods found in the various C@t{++} classes. Many | |
11429 | C@t{++} classes provide a large number of methods. Thus, the output | |
c906108c SS |
11430 | from the @code{ptype} command can be overwhelming and hard to use. The |
11431 | @code{info-methods} command filters the methods, printing only those | |
11432 | which match the regular-expression @var{regexp}. | |
11433 | @end ignore | |
11434 | ||
c906108c SS |
11435 | @cindex reloading symbols |
11436 | Some systems allow individual object files that make up your program to | |
7a292a7a SS |
11437 | be replaced without stopping and restarting your program. For example, |
11438 | in VxWorks you can simply recompile a defective object file and keep on | |
11439 | running. If you are running on one of these systems, you can allow | |
11440 | @value{GDBN} to reload the symbols for automatically relinked modules: | |
c906108c SS |
11441 | |
11442 | @table @code | |
11443 | @kindex set symbol-reloading | |
11444 | @item set symbol-reloading on | |
11445 | Replace symbol definitions for the corresponding source file when an | |
11446 | object file with a particular name is seen again. | |
11447 | ||
11448 | @item set symbol-reloading off | |
6d2ebf8b SS |
11449 | Do not replace symbol definitions when encountering object files of the |
11450 | same name more than once. This is the default state; if you are not | |
11451 | running on a system that permits automatic relinking of modules, you | |
11452 | should leave @code{symbol-reloading} off, since otherwise @value{GDBN} | |
11453 | may discard symbols when linking large programs, that may contain | |
11454 | several modules (from different directories or libraries) with the same | |
11455 | name. | |
c906108c SS |
11456 | |
11457 | @kindex show symbol-reloading | |
11458 | @item show symbol-reloading | |
11459 | Show the current @code{on} or @code{off} setting. | |
11460 | @end table | |
c906108c | 11461 | |
9c16f35a | 11462 | @cindex opaque data types |
c906108c SS |
11463 | @kindex set opaque-type-resolution |
11464 | @item set opaque-type-resolution on | |
11465 | Tell @value{GDBN} to resolve opaque types. An opaque type is a type | |
11466 | declared as a pointer to a @code{struct}, @code{class}, or | |
11467 | @code{union}---for example, @code{struct MyType *}---that is used in one | |
11468 | source file although the full declaration of @code{struct MyType} is in | |
11469 | another source file. The default is on. | |
11470 | ||
11471 | A change in the setting of this subcommand will not take effect until | |
11472 | the next time symbols for a file are loaded. | |
11473 | ||
11474 | @item set opaque-type-resolution off | |
11475 | Tell @value{GDBN} not to resolve opaque types. In this case, the type | |
11476 | is printed as follows: | |
11477 | @smallexample | |
11478 | @{<no data fields>@} | |
11479 | @end smallexample | |
11480 | ||
11481 | @kindex show opaque-type-resolution | |
11482 | @item show opaque-type-resolution | |
11483 | Show whether opaque types are resolved or not. | |
c906108c SS |
11484 | |
11485 | @kindex maint print symbols | |
11486 | @cindex symbol dump | |
11487 | @kindex maint print psymbols | |
11488 | @cindex partial symbol dump | |
11489 | @item maint print symbols @var{filename} | |
11490 | @itemx maint print psymbols @var{filename} | |
11491 | @itemx maint print msymbols @var{filename} | |
11492 | Write a dump of debugging symbol data into the file @var{filename}. | |
11493 | These commands are used to debug the @value{GDBN} symbol-reading code. Only | |
11494 | symbols with debugging data are included. If you use @samp{maint print | |
11495 | symbols}, @value{GDBN} includes all the symbols for which it has already | |
11496 | collected full details: that is, @var{filename} reflects symbols for | |
11497 | only those files whose symbols @value{GDBN} has read. You can use the | |
11498 | command @code{info sources} to find out which files these are. If you | |
11499 | use @samp{maint print psymbols} instead, the dump shows information about | |
11500 | symbols that @value{GDBN} only knows partially---that is, symbols defined in | |
11501 | files that @value{GDBN} has skimmed, but not yet read completely. Finally, | |
11502 | @samp{maint print msymbols} dumps just the minimal symbol information | |
11503 | required for each object file from which @value{GDBN} has read some symbols. | |
79a6e687 | 11504 | @xref{Files, ,Commands to Specify Files}, for a discussion of how |
c906108c | 11505 | @value{GDBN} reads symbols (in the description of @code{symbol-file}). |
44ea7b70 | 11506 | |
5e7b2f39 JB |
11507 | @kindex maint info symtabs |
11508 | @kindex maint info psymtabs | |
44ea7b70 JB |
11509 | @cindex listing @value{GDBN}'s internal symbol tables |
11510 | @cindex symbol tables, listing @value{GDBN}'s internal | |
11511 | @cindex full symbol tables, listing @value{GDBN}'s internal | |
11512 | @cindex partial symbol tables, listing @value{GDBN}'s internal | |
5e7b2f39 JB |
11513 | @item maint info symtabs @r{[} @var{regexp} @r{]} |
11514 | @itemx maint info psymtabs @r{[} @var{regexp} @r{]} | |
44ea7b70 JB |
11515 | |
11516 | List the @code{struct symtab} or @code{struct partial_symtab} | |
11517 | structures whose names match @var{regexp}. If @var{regexp} is not | |
11518 | given, list them all. The output includes expressions which you can | |
11519 | copy into a @value{GDBN} debugging this one to examine a particular | |
11520 | structure in more detail. For example: | |
11521 | ||
11522 | @smallexample | |
5e7b2f39 | 11523 | (@value{GDBP}) maint info psymtabs dwarf2read |
44ea7b70 JB |
11524 | @{ objfile /home/gnu/build/gdb/gdb |
11525 | ((struct objfile *) 0x82e69d0) | |
b383017d | 11526 | @{ psymtab /home/gnu/src/gdb/dwarf2read.c |
44ea7b70 JB |
11527 | ((struct partial_symtab *) 0x8474b10) |
11528 | readin no | |
11529 | fullname (null) | |
11530 | text addresses 0x814d3c8 -- 0x8158074 | |
11531 | globals (* (struct partial_symbol **) 0x8507a08 @@ 9) | |
11532 | statics (* (struct partial_symbol **) 0x40e95b78 @@ 2882) | |
11533 | dependencies (none) | |
11534 | @} | |
11535 | @} | |
5e7b2f39 | 11536 | (@value{GDBP}) maint info symtabs |
44ea7b70 JB |
11537 | (@value{GDBP}) |
11538 | @end smallexample | |
11539 | @noindent | |
11540 | We see that there is one partial symbol table whose filename contains | |
11541 | the string @samp{dwarf2read}, belonging to the @samp{gdb} executable; | |
11542 | and we see that @value{GDBN} has not read in any symtabs yet at all. | |
11543 | If we set a breakpoint on a function, that will cause @value{GDBN} to | |
11544 | read the symtab for the compilation unit containing that function: | |
11545 | ||
11546 | @smallexample | |
11547 | (@value{GDBP}) break dwarf2_psymtab_to_symtab | |
11548 | Breakpoint 1 at 0x814e5da: file /home/gnu/src/gdb/dwarf2read.c, | |
11549 | line 1574. | |
5e7b2f39 | 11550 | (@value{GDBP}) maint info symtabs |
b383017d | 11551 | @{ objfile /home/gnu/build/gdb/gdb |
44ea7b70 | 11552 | ((struct objfile *) 0x82e69d0) |
b383017d | 11553 | @{ symtab /home/gnu/src/gdb/dwarf2read.c |
44ea7b70 JB |
11554 | ((struct symtab *) 0x86c1f38) |
11555 | dirname (null) | |
11556 | fullname (null) | |
11557 | blockvector ((struct blockvector *) 0x86c1bd0) (primary) | |
1b39d5c0 | 11558 | linetable ((struct linetable *) 0x8370fa0) |
44ea7b70 JB |
11559 | debugformat DWARF 2 |
11560 | @} | |
11561 | @} | |
b383017d | 11562 | (@value{GDBP}) |
44ea7b70 | 11563 | @end smallexample |
c906108c SS |
11564 | @end table |
11565 | ||
44ea7b70 | 11566 | |
6d2ebf8b | 11567 | @node Altering |
c906108c SS |
11568 | @chapter Altering Execution |
11569 | ||
11570 | Once you think you have found an error in your program, you might want to | |
11571 | find out for certain whether correcting the apparent error would lead to | |
11572 | correct results in the rest of the run. You can find the answer by | |
11573 | experiment, using the @value{GDBN} features for altering execution of the | |
11574 | program. | |
11575 | ||
11576 | For example, you can store new values into variables or memory | |
7a292a7a SS |
11577 | locations, give your program a signal, restart it at a different |
11578 | address, or even return prematurely from a function. | |
c906108c SS |
11579 | |
11580 | @menu | |
11581 | * Assignment:: Assignment to variables | |
11582 | * Jumping:: Continuing at a different address | |
c906108c | 11583 | * Signaling:: Giving your program a signal |
c906108c SS |
11584 | * Returning:: Returning from a function |
11585 | * Calling:: Calling your program's functions | |
11586 | * Patching:: Patching your program | |
11587 | @end menu | |
11588 | ||
6d2ebf8b | 11589 | @node Assignment |
79a6e687 | 11590 | @section Assignment to Variables |
c906108c SS |
11591 | |
11592 | @cindex assignment | |
11593 | @cindex setting variables | |
11594 | To alter the value of a variable, evaluate an assignment expression. | |
11595 | @xref{Expressions, ,Expressions}. For example, | |
11596 | ||
474c8240 | 11597 | @smallexample |
c906108c | 11598 | print x=4 |
474c8240 | 11599 | @end smallexample |
c906108c SS |
11600 | |
11601 | @noindent | |
11602 | stores the value 4 into the variable @code{x}, and then prints the | |
5d161b24 | 11603 | value of the assignment expression (which is 4). |
c906108c SS |
11604 | @xref{Languages, ,Using @value{GDBN} with Different Languages}, for more |
11605 | information on operators in supported languages. | |
c906108c SS |
11606 | |
11607 | @kindex set variable | |
11608 | @cindex variables, setting | |
11609 | If you are not interested in seeing the value of the assignment, use the | |
11610 | @code{set} command instead of the @code{print} command. @code{set} is | |
11611 | really the same as @code{print} except that the expression's value is | |
11612 | not printed and is not put in the value history (@pxref{Value History, | |
79a6e687 | 11613 | ,Value History}). The expression is evaluated only for its effects. |
c906108c | 11614 | |
c906108c SS |
11615 | If the beginning of the argument string of the @code{set} command |
11616 | appears identical to a @code{set} subcommand, use the @code{set | |
11617 | variable} command instead of just @code{set}. This command is identical | |
11618 | to @code{set} except for its lack of subcommands. For example, if your | |
11619 | program has a variable @code{width}, you get an error if you try to set | |
11620 | a new value with just @samp{set width=13}, because @value{GDBN} has the | |
11621 | command @code{set width}: | |
11622 | ||
474c8240 | 11623 | @smallexample |
c906108c SS |
11624 | (@value{GDBP}) whatis width |
11625 | type = double | |
11626 | (@value{GDBP}) p width | |
11627 | $4 = 13 | |
11628 | (@value{GDBP}) set width=47 | |
11629 | Invalid syntax in expression. | |
474c8240 | 11630 | @end smallexample |
c906108c SS |
11631 | |
11632 | @noindent | |
11633 | The invalid expression, of course, is @samp{=47}. In | |
11634 | order to actually set the program's variable @code{width}, use | |
11635 | ||
474c8240 | 11636 | @smallexample |
c906108c | 11637 | (@value{GDBP}) set var width=47 |
474c8240 | 11638 | @end smallexample |
53a5351d | 11639 | |
c906108c SS |
11640 | Because the @code{set} command has many subcommands that can conflict |
11641 | with the names of program variables, it is a good idea to use the | |
11642 | @code{set variable} command instead of just @code{set}. For example, if | |
11643 | your program has a variable @code{g}, you run into problems if you try | |
11644 | to set a new value with just @samp{set g=4}, because @value{GDBN} has | |
11645 | the command @code{set gnutarget}, abbreviated @code{set g}: | |
11646 | ||
474c8240 | 11647 | @smallexample |
c906108c SS |
11648 | @group |
11649 | (@value{GDBP}) whatis g | |
11650 | type = double | |
11651 | (@value{GDBP}) p g | |
11652 | $1 = 1 | |
11653 | (@value{GDBP}) set g=4 | |
2df3850c | 11654 | (@value{GDBP}) p g |
c906108c SS |
11655 | $2 = 1 |
11656 | (@value{GDBP}) r | |
11657 | The program being debugged has been started already. | |
11658 | Start it from the beginning? (y or n) y | |
11659 | Starting program: /home/smith/cc_progs/a.out | |
6d2ebf8b SS |
11660 | "/home/smith/cc_progs/a.out": can't open to read symbols: |
11661 | Invalid bfd target. | |
c906108c SS |
11662 | (@value{GDBP}) show g |
11663 | The current BFD target is "=4". | |
11664 | @end group | |
474c8240 | 11665 | @end smallexample |
c906108c SS |
11666 | |
11667 | @noindent | |
11668 | The program variable @code{g} did not change, and you silently set the | |
11669 | @code{gnutarget} to an invalid value. In order to set the variable | |
11670 | @code{g}, use | |
11671 | ||
474c8240 | 11672 | @smallexample |
c906108c | 11673 | (@value{GDBP}) set var g=4 |
474c8240 | 11674 | @end smallexample |
c906108c SS |
11675 | |
11676 | @value{GDBN} allows more implicit conversions in assignments than C; you can | |
11677 | freely store an integer value into a pointer variable or vice versa, | |
11678 | and you can convert any structure to any other structure that is the | |
11679 | same length or shorter. | |
11680 | @comment FIXME: how do structs align/pad in these conversions? | |
11681 | @comment /doc@cygnus.com 18dec1990 | |
11682 | ||
11683 | To store values into arbitrary places in memory, use the @samp{@{@dots{}@}} | |
11684 | construct to generate a value of specified type at a specified address | |
11685 | (@pxref{Expressions, ,Expressions}). For example, @code{@{int@}0x83040} refers | |
11686 | to memory location @code{0x83040} as an integer (which implies a certain size | |
11687 | and representation in memory), and | |
11688 | ||
474c8240 | 11689 | @smallexample |
c906108c | 11690 | set @{int@}0x83040 = 4 |
474c8240 | 11691 | @end smallexample |
c906108c SS |
11692 | |
11693 | @noindent | |
11694 | stores the value 4 into that memory location. | |
11695 | ||
6d2ebf8b | 11696 | @node Jumping |
79a6e687 | 11697 | @section Continuing at a Different Address |
c906108c SS |
11698 | |
11699 | Ordinarily, when you continue your program, you do so at the place where | |
11700 | it stopped, with the @code{continue} command. You can instead continue at | |
11701 | an address of your own choosing, with the following commands: | |
11702 | ||
11703 | @table @code | |
11704 | @kindex jump | |
11705 | @item jump @var{linespec} | |
2a25a5ba EZ |
11706 | @itemx jump @var{location} |
11707 | Resume execution at line @var{linespec} or at address given by | |
11708 | @var{location}. Execution stops again immediately if there is a | |
11709 | breakpoint there. @xref{Specify Location}, for a description of the | |
11710 | different forms of @var{linespec} and @var{location}. It is common | |
11711 | practice to use the @code{tbreak} command in conjunction with | |
11712 | @code{jump}. @xref{Set Breaks, ,Setting Breakpoints}. | |
c906108c SS |
11713 | |
11714 | The @code{jump} command does not change the current stack frame, or | |
11715 | the stack pointer, or the contents of any memory location or any | |
11716 | register other than the program counter. If line @var{linespec} is in | |
11717 | a different function from the one currently executing, the results may | |
11718 | be bizarre if the two functions expect different patterns of arguments or | |
11719 | of local variables. For this reason, the @code{jump} command requests | |
11720 | confirmation if the specified line is not in the function currently | |
11721 | executing. However, even bizarre results are predictable if you are | |
11722 | well acquainted with the machine-language code of your program. | |
c906108c SS |
11723 | @end table |
11724 | ||
c906108c | 11725 | @c Doesn't work on HP-UX; have to set $pcoqh and $pcoqt. |
53a5351d JM |
11726 | On many systems, you can get much the same effect as the @code{jump} |
11727 | command by storing a new value into the register @code{$pc}. The | |
11728 | difference is that this does not start your program running; it only | |
11729 | changes the address of where it @emph{will} run when you continue. For | |
11730 | example, | |
c906108c | 11731 | |
474c8240 | 11732 | @smallexample |
c906108c | 11733 | set $pc = 0x485 |
474c8240 | 11734 | @end smallexample |
c906108c SS |
11735 | |
11736 | @noindent | |
11737 | makes the next @code{continue} command or stepping command execute at | |
11738 | address @code{0x485}, rather than at the address where your program stopped. | |
79a6e687 | 11739 | @xref{Continuing and Stepping, ,Continuing and Stepping}. |
c906108c SS |
11740 | |
11741 | The most common occasion to use the @code{jump} command is to back | |
11742 | up---perhaps with more breakpoints set---over a portion of a program | |
11743 | that has already executed, in order to examine its execution in more | |
11744 | detail. | |
11745 | ||
c906108c | 11746 | @c @group |
6d2ebf8b | 11747 | @node Signaling |
79a6e687 | 11748 | @section Giving your Program a Signal |
9c16f35a | 11749 | @cindex deliver a signal to a program |
c906108c SS |
11750 | |
11751 | @table @code | |
11752 | @kindex signal | |
11753 | @item signal @var{signal} | |
11754 | Resume execution where your program stopped, but immediately give it the | |
11755 | signal @var{signal}. @var{signal} can be the name or the number of a | |
11756 | signal. For example, on many systems @code{signal 2} and @code{signal | |
11757 | SIGINT} are both ways of sending an interrupt signal. | |
11758 | ||
11759 | Alternatively, if @var{signal} is zero, continue execution without | |
11760 | giving a signal. This is useful when your program stopped on account of | |
11761 | a signal and would ordinary see the signal when resumed with the | |
11762 | @code{continue} command; @samp{signal 0} causes it to resume without a | |
11763 | signal. | |
11764 | ||
11765 | @code{signal} does not repeat when you press @key{RET} a second time | |
11766 | after executing the command. | |
11767 | @end table | |
11768 | @c @end group | |
11769 | ||
11770 | Invoking the @code{signal} command is not the same as invoking the | |
11771 | @code{kill} utility from the shell. Sending a signal with @code{kill} | |
11772 | causes @value{GDBN} to decide what to do with the signal depending on | |
11773 | the signal handling tables (@pxref{Signals}). The @code{signal} command | |
11774 | passes the signal directly to your program. | |
11775 | ||
c906108c | 11776 | |
6d2ebf8b | 11777 | @node Returning |
79a6e687 | 11778 | @section Returning from a Function |
c906108c SS |
11779 | |
11780 | @table @code | |
11781 | @cindex returning from a function | |
11782 | @kindex return | |
11783 | @item return | |
11784 | @itemx return @var{expression} | |
11785 | You can cancel execution of a function call with the @code{return} | |
11786 | command. If you give an | |
11787 | @var{expression} argument, its value is used as the function's return | |
11788 | value. | |
11789 | @end table | |
11790 | ||
11791 | When you use @code{return}, @value{GDBN} discards the selected stack frame | |
11792 | (and all frames within it). You can think of this as making the | |
11793 | discarded frame return prematurely. If you wish to specify a value to | |
11794 | be returned, give that value as the argument to @code{return}. | |
11795 | ||
11796 | This pops the selected stack frame (@pxref{Selection, ,Selecting a | |
79a6e687 | 11797 | Frame}), and any other frames inside of it, leaving its caller as the |
c906108c SS |
11798 | innermost remaining frame. That frame becomes selected. The |
11799 | specified value is stored in the registers used for returning values | |
11800 | of functions. | |
11801 | ||
11802 | The @code{return} command does not resume execution; it leaves the | |
11803 | program stopped in the state that would exist if the function had just | |
11804 | returned. In contrast, the @code{finish} command (@pxref{Continuing | |
79a6e687 | 11805 | and Stepping, ,Continuing and Stepping}) resumes execution until the |
c906108c SS |
11806 | selected stack frame returns naturally. |
11807 | ||
6d2ebf8b | 11808 | @node Calling |
79a6e687 | 11809 | @section Calling Program Functions |
c906108c | 11810 | |
f8568604 | 11811 | @table @code |
c906108c | 11812 | @cindex calling functions |
f8568604 EZ |
11813 | @cindex inferior functions, calling |
11814 | @item print @var{expr} | |
d3e8051b | 11815 | Evaluate the expression @var{expr} and display the resulting value. |
f8568604 EZ |
11816 | @var{expr} may include calls to functions in the program being |
11817 | debugged. | |
11818 | ||
c906108c | 11819 | @kindex call |
c906108c SS |
11820 | @item call @var{expr} |
11821 | Evaluate the expression @var{expr} without displaying @code{void} | |
11822 | returned values. | |
c906108c SS |
11823 | |
11824 | You can use this variant of the @code{print} command if you want to | |
f8568604 EZ |
11825 | execute a function from your program that does not return anything |
11826 | (a.k.a.@: @dfn{a void function}), but without cluttering the output | |
11827 | with @code{void} returned values that @value{GDBN} will otherwise | |
11828 | print. If the result is not void, it is printed and saved in the | |
11829 | value history. | |
11830 | @end table | |
11831 | ||
9c16f35a EZ |
11832 | It is possible for the function you call via the @code{print} or |
11833 | @code{call} command to generate a signal (e.g., if there's a bug in | |
11834 | the function, or if you passed it incorrect arguments). What happens | |
11835 | in that case is controlled by the @code{set unwindonsignal} command. | |
11836 | ||
11837 | @table @code | |
11838 | @item set unwindonsignal | |
11839 | @kindex set unwindonsignal | |
11840 | @cindex unwind stack in called functions | |
11841 | @cindex call dummy stack unwinding | |
11842 | Set unwinding of the stack if a signal is received while in a function | |
11843 | that @value{GDBN} called in the program being debugged. If set to on, | |
11844 | @value{GDBN} unwinds the stack it created for the call and restores | |
11845 | the context to what it was before the call. If set to off (the | |
11846 | default), @value{GDBN} stops in the frame where the signal was | |
11847 | received. | |
11848 | ||
11849 | @item show unwindonsignal | |
11850 | @kindex show unwindonsignal | |
11851 | Show the current setting of stack unwinding in the functions called by | |
11852 | @value{GDBN}. | |
11853 | @end table | |
11854 | ||
f8568604 EZ |
11855 | @cindex weak alias functions |
11856 | Sometimes, a function you wish to call is actually a @dfn{weak alias} | |
11857 | for another function. In such case, @value{GDBN} might not pick up | |
11858 | the type information, including the types of the function arguments, | |
11859 | which causes @value{GDBN} to call the inferior function incorrectly. | |
11860 | As a result, the called function will function erroneously and may | |
11861 | even crash. A solution to that is to use the name of the aliased | |
11862 | function instead. | |
c906108c | 11863 | |
6d2ebf8b | 11864 | @node Patching |
79a6e687 | 11865 | @section Patching Programs |
7a292a7a | 11866 | |
c906108c SS |
11867 | @cindex patching binaries |
11868 | @cindex writing into executables | |
c906108c | 11869 | @cindex writing into corefiles |
c906108c | 11870 | |
7a292a7a SS |
11871 | By default, @value{GDBN} opens the file containing your program's |
11872 | executable code (or the corefile) read-only. This prevents accidental | |
11873 | alterations to machine code; but it also prevents you from intentionally | |
11874 | patching your program's binary. | |
c906108c SS |
11875 | |
11876 | If you'd like to be able to patch the binary, you can specify that | |
11877 | explicitly with the @code{set write} command. For example, you might | |
11878 | want to turn on internal debugging flags, or even to make emergency | |
11879 | repairs. | |
11880 | ||
11881 | @table @code | |
11882 | @kindex set write | |
11883 | @item set write on | |
11884 | @itemx set write off | |
7a292a7a SS |
11885 | If you specify @samp{set write on}, @value{GDBN} opens executable and |
11886 | core files for both reading and writing; if you specify @samp{set write | |
c906108c SS |
11887 | off} (the default), @value{GDBN} opens them read-only. |
11888 | ||
11889 | If you have already loaded a file, you must load it again (using the | |
7a292a7a SS |
11890 | @code{exec-file} or @code{core-file} command) after changing @code{set |
11891 | write}, for your new setting to take effect. | |
c906108c SS |
11892 | |
11893 | @item show write | |
11894 | @kindex show write | |
7a292a7a SS |
11895 | Display whether executable files and core files are opened for writing |
11896 | as well as reading. | |
c906108c SS |
11897 | @end table |
11898 | ||
6d2ebf8b | 11899 | @node GDB Files |
c906108c SS |
11900 | @chapter @value{GDBN} Files |
11901 | ||
7a292a7a SS |
11902 | @value{GDBN} needs to know the file name of the program to be debugged, |
11903 | both in order to read its symbol table and in order to start your | |
11904 | program. To debug a core dump of a previous run, you must also tell | |
11905 | @value{GDBN} the name of the core dump file. | |
c906108c SS |
11906 | |
11907 | @menu | |
11908 | * Files:: Commands to specify files | |
5b5d99cf | 11909 | * Separate Debug Files:: Debugging information in separate files |
c906108c SS |
11910 | * Symbol Errors:: Errors reading symbol files |
11911 | @end menu | |
11912 | ||
6d2ebf8b | 11913 | @node Files |
79a6e687 | 11914 | @section Commands to Specify Files |
c906108c | 11915 | |
7a292a7a | 11916 | @cindex symbol table |
c906108c | 11917 | @cindex core dump file |
7a292a7a SS |
11918 | |
11919 | You may want to specify executable and core dump file names. The usual | |
11920 | way to do this is at start-up time, using the arguments to | |
11921 | @value{GDBN}'s start-up commands (@pxref{Invocation, , Getting In and | |
11922 | Out of @value{GDBN}}). | |
c906108c SS |
11923 | |
11924 | Occasionally it is necessary to change to a different file during a | |
397ca115 EZ |
11925 | @value{GDBN} session. Or you may run @value{GDBN} and forget to |
11926 | specify a file you want to use. Or you are debugging a remote target | |
79a6e687 BW |
11927 | via @code{gdbserver} (@pxref{Server, file, Using the @code{gdbserver} |
11928 | Program}). In these situations the @value{GDBN} commands to specify | |
0869d01b | 11929 | new files are useful. |
c906108c SS |
11930 | |
11931 | @table @code | |
11932 | @cindex executable file | |
11933 | @kindex file | |
11934 | @item file @var{filename} | |
11935 | Use @var{filename} as the program to be debugged. It is read for its | |
11936 | symbols and for the contents of pure memory. It is also the program | |
11937 | executed when you use the @code{run} command. If you do not specify a | |
5d161b24 DB |
11938 | directory and the file is not found in the @value{GDBN} working directory, |
11939 | @value{GDBN} uses the environment variable @code{PATH} as a list of | |
11940 | directories to search, just as the shell does when looking for a program | |
11941 | to run. You can change the value of this variable, for both @value{GDBN} | |
c906108c SS |
11942 | and your program, using the @code{path} command. |
11943 | ||
fc8be69e EZ |
11944 | @cindex unlinked object files |
11945 | @cindex patching object files | |
11946 | You can load unlinked object @file{.o} files into @value{GDBN} using | |
11947 | the @code{file} command. You will not be able to ``run'' an object | |
11948 | file, but you can disassemble functions and inspect variables. Also, | |
11949 | if the underlying BFD functionality supports it, you could use | |
11950 | @kbd{gdb -write} to patch object files using this technique. Note | |
11951 | that @value{GDBN} can neither interpret nor modify relocations in this | |
11952 | case, so branches and some initialized variables will appear to go to | |
11953 | the wrong place. But this feature is still handy from time to time. | |
11954 | ||
c906108c SS |
11955 | @item file |
11956 | @code{file} with no argument makes @value{GDBN} discard any information it | |
11957 | has on both executable file and the symbol table. | |
11958 | ||
11959 | @kindex exec-file | |
11960 | @item exec-file @r{[} @var{filename} @r{]} | |
11961 | Specify that the program to be run (but not the symbol table) is found | |
11962 | in @var{filename}. @value{GDBN} searches the environment variable @code{PATH} | |
11963 | if necessary to locate your program. Omitting @var{filename} means to | |
11964 | discard information on the executable file. | |
11965 | ||
11966 | @kindex symbol-file | |
11967 | @item symbol-file @r{[} @var{filename} @r{]} | |
11968 | Read symbol table information from file @var{filename}. @code{PATH} is | |
11969 | searched when necessary. Use the @code{file} command to get both symbol | |
11970 | table and program to run from the same file. | |
11971 | ||
11972 | @code{symbol-file} with no argument clears out @value{GDBN} information on your | |
11973 | program's symbol table. | |
11974 | ||
ae5a43e0 DJ |
11975 | The @code{symbol-file} command causes @value{GDBN} to forget the contents of |
11976 | some breakpoints and auto-display expressions. This is because they may | |
11977 | contain pointers to the internal data recording symbols and data types, | |
11978 | which are part of the old symbol table data being discarded inside | |
11979 | @value{GDBN}. | |
c906108c SS |
11980 | |
11981 | @code{symbol-file} does not repeat if you press @key{RET} again after | |
11982 | executing it once. | |
11983 | ||
11984 | When @value{GDBN} is configured for a particular environment, it | |
11985 | understands debugging information in whatever format is the standard | |
11986 | generated for that environment; you may use either a @sc{gnu} compiler, or | |
11987 | other compilers that adhere to the local conventions. | |
c906108c | 11988 | Best results are usually obtained from @sc{gnu} compilers; for example, |
e22ea452 | 11989 | using @code{@value{NGCC}} you can generate debugging information for |
c906108c | 11990 | optimized code. |
c906108c SS |
11991 | |
11992 | For most kinds of object files, with the exception of old SVR3 systems | |
11993 | using COFF, the @code{symbol-file} command does not normally read the | |
11994 | symbol table in full right away. Instead, it scans the symbol table | |
11995 | quickly to find which source files and which symbols are present. The | |
11996 | details are read later, one source file at a time, as they are needed. | |
11997 | ||
11998 | The purpose of this two-stage reading strategy is to make @value{GDBN} | |
11999 | start up faster. For the most part, it is invisible except for | |
12000 | occasional pauses while the symbol table details for a particular source | |
12001 | file are being read. (The @code{set verbose} command can turn these | |
12002 | pauses into messages if desired. @xref{Messages/Warnings, ,Optional | |
79a6e687 | 12003 | Warnings and Messages}.) |
c906108c | 12004 | |
c906108c SS |
12005 | We have not implemented the two-stage strategy for COFF yet. When the |
12006 | symbol table is stored in COFF format, @code{symbol-file} reads the | |
12007 | symbol table data in full right away. Note that ``stabs-in-COFF'' | |
12008 | still does the two-stage strategy, since the debug info is actually | |
12009 | in stabs format. | |
12010 | ||
12011 | @kindex readnow | |
12012 | @cindex reading symbols immediately | |
12013 | @cindex symbols, reading immediately | |
a94ab193 EZ |
12014 | @item symbol-file @var{filename} @r{[} -readnow @r{]} |
12015 | @itemx file @var{filename} @r{[} -readnow @r{]} | |
c906108c SS |
12016 | You can override the @value{GDBN} two-stage strategy for reading symbol |
12017 | tables by using the @samp{-readnow} option with any of the commands that | |
12018 | load symbol table information, if you want to be sure @value{GDBN} has the | |
5d161b24 | 12019 | entire symbol table available. |
c906108c | 12020 | |
c906108c SS |
12021 | @c FIXME: for now no mention of directories, since this seems to be in |
12022 | @c flux. 13mar1992 status is that in theory GDB would look either in | |
12023 | @c current dir or in same dir as myprog; but issues like competing | |
12024 | @c GDB's, or clutter in system dirs, mean that in practice right now | |
12025 | @c only current dir is used. FFish says maybe a special GDB hierarchy | |
12026 | @c (eg rooted in val of env var GDBSYMS) could exist for mappable symbol | |
12027 | @c files. | |
12028 | ||
c906108c | 12029 | @kindex core-file |
09d4efe1 | 12030 | @item core-file @r{[}@var{filename}@r{]} |
4644b6e3 | 12031 | @itemx core |
c906108c SS |
12032 | Specify the whereabouts of a core dump file to be used as the ``contents |
12033 | of memory''. Traditionally, core files contain only some parts of the | |
12034 | address space of the process that generated them; @value{GDBN} can access the | |
12035 | executable file itself for other parts. | |
12036 | ||
12037 | @code{core-file} with no argument specifies that no core file is | |
12038 | to be used. | |
12039 | ||
12040 | Note that the core file is ignored when your program is actually running | |
7a292a7a SS |
12041 | under @value{GDBN}. So, if you have been running your program and you |
12042 | wish to debug a core file instead, you must kill the subprocess in which | |
12043 | the program is running. To do this, use the @code{kill} command | |
79a6e687 | 12044 | (@pxref{Kill Process, ,Killing the Child Process}). |
c906108c | 12045 | |
c906108c SS |
12046 | @kindex add-symbol-file |
12047 | @cindex dynamic linking | |
12048 | @item add-symbol-file @var{filename} @var{address} | |
a94ab193 | 12049 | @itemx add-symbol-file @var{filename} @var{address} @r{[} -readnow @r{]} |
17d9d558 | 12050 | @itemx add-symbol-file @var{filename} @r{-s}@var{section} @var{address} @dots{} |
96a2c332 SS |
12051 | The @code{add-symbol-file} command reads additional symbol table |
12052 | information from the file @var{filename}. You would use this command | |
12053 | when @var{filename} has been dynamically loaded (by some other means) | |
12054 | into the program that is running. @var{address} should be the memory | |
12055 | address at which the file has been loaded; @value{GDBN} cannot figure | |
d167840f EZ |
12056 | this out for itself. You can additionally specify an arbitrary number |
12057 | of @samp{@r{-s}@var{section} @var{address}} pairs, to give an explicit | |
12058 | section name and base address for that section. You can specify any | |
12059 | @var{address} as an expression. | |
c906108c SS |
12060 | |
12061 | The symbol table of the file @var{filename} is added to the symbol table | |
12062 | originally read with the @code{symbol-file} command. You can use the | |
96a2c332 SS |
12063 | @code{add-symbol-file} command any number of times; the new symbol data |
12064 | thus read keeps adding to the old. To discard all old symbol data | |
12065 | instead, use the @code{symbol-file} command without any arguments. | |
c906108c | 12066 | |
17d9d558 JB |
12067 | @cindex relocatable object files, reading symbols from |
12068 | @cindex object files, relocatable, reading symbols from | |
12069 | @cindex reading symbols from relocatable object files | |
12070 | @cindex symbols, reading from relocatable object files | |
12071 | @cindex @file{.o} files, reading symbols from | |
12072 | Although @var{filename} is typically a shared library file, an | |
12073 | executable file, or some other object file which has been fully | |
12074 | relocated for loading into a process, you can also load symbolic | |
12075 | information from relocatable @file{.o} files, as long as: | |
12076 | ||
12077 | @itemize @bullet | |
12078 | @item | |
12079 | the file's symbolic information refers only to linker symbols defined in | |
12080 | that file, not to symbols defined by other object files, | |
12081 | @item | |
12082 | every section the file's symbolic information refers to has actually | |
12083 | been loaded into the inferior, as it appears in the file, and | |
12084 | @item | |
12085 | you can determine the address at which every section was loaded, and | |
12086 | provide these to the @code{add-symbol-file} command. | |
12087 | @end itemize | |
12088 | ||
12089 | @noindent | |
12090 | Some embedded operating systems, like Sun Chorus and VxWorks, can load | |
12091 | relocatable files into an already running program; such systems | |
12092 | typically make the requirements above easy to meet. However, it's | |
12093 | important to recognize that many native systems use complex link | |
49efadf5 | 12094 | procedures (@code{.linkonce} section factoring and C@t{++} constructor table |
17d9d558 JB |
12095 | assembly, for example) that make the requirements difficult to meet. In |
12096 | general, one cannot assume that using @code{add-symbol-file} to read a | |
12097 | relocatable object file's symbolic information will have the same effect | |
12098 | as linking the relocatable object file into the program in the normal | |
12099 | way. | |
12100 | ||
c906108c SS |
12101 | @code{add-symbol-file} does not repeat if you press @key{RET} after using it. |
12102 | ||
c45da7e6 EZ |
12103 | @kindex add-symbol-file-from-memory |
12104 | @cindex @code{syscall DSO} | |
12105 | @cindex load symbols from memory | |
12106 | @item add-symbol-file-from-memory @var{address} | |
12107 | Load symbols from the given @var{address} in a dynamically loaded | |
12108 | object file whose image is mapped directly into the inferior's memory. | |
12109 | For example, the Linux kernel maps a @code{syscall DSO} into each | |
12110 | process's address space; this DSO provides kernel-specific code for | |
12111 | some system calls. The argument can be any expression whose | |
12112 | evaluation yields the address of the file's shared object file header. | |
12113 | For this command to work, you must have used @code{symbol-file} or | |
12114 | @code{exec-file} commands in advance. | |
12115 | ||
09d4efe1 EZ |
12116 | @kindex add-shared-symbol-files |
12117 | @kindex assf | |
12118 | @item add-shared-symbol-files @var{library-file} | |
12119 | @itemx assf @var{library-file} | |
12120 | The @code{add-shared-symbol-files} command can currently be used only | |
12121 | in the Cygwin build of @value{GDBN} on MS-Windows OS, where it is an | |
12122 | alias for the @code{dll-symbols} command (@pxref{Cygwin Native}). | |
12123 | @value{GDBN} automatically looks for shared libraries, however if | |
12124 | @value{GDBN} does not find yours, you can invoke | |
12125 | @code{add-shared-symbol-files}. It takes one argument: the shared | |
12126 | library's file name. @code{assf} is a shorthand alias for | |
12127 | @code{add-shared-symbol-files}. | |
c906108c | 12128 | |
c906108c | 12129 | @kindex section |
09d4efe1 EZ |
12130 | @item section @var{section} @var{addr} |
12131 | The @code{section} command changes the base address of the named | |
12132 | @var{section} of the exec file to @var{addr}. This can be used if the | |
12133 | exec file does not contain section addresses, (such as in the | |
12134 | @code{a.out} format), or when the addresses specified in the file | |
12135 | itself are wrong. Each section must be changed separately. The | |
12136 | @code{info files} command, described below, lists all the sections and | |
12137 | their addresses. | |
c906108c SS |
12138 | |
12139 | @kindex info files | |
12140 | @kindex info target | |
12141 | @item info files | |
12142 | @itemx info target | |
7a292a7a SS |
12143 | @code{info files} and @code{info target} are synonymous; both print the |
12144 | current target (@pxref{Targets, ,Specifying a Debugging Target}), | |
12145 | including the names of the executable and core dump files currently in | |
12146 | use by @value{GDBN}, and the files from which symbols were loaded. The | |
12147 | command @code{help target} lists all possible targets rather than | |
12148 | current ones. | |
12149 | ||
fe95c787 MS |
12150 | @kindex maint info sections |
12151 | @item maint info sections | |
12152 | Another command that can give you extra information about program sections | |
12153 | is @code{maint info sections}. In addition to the section information | |
12154 | displayed by @code{info files}, this command displays the flags and file | |
12155 | offset of each section in the executable and core dump files. In addition, | |
12156 | @code{maint info sections} provides the following command options (which | |
12157 | may be arbitrarily combined): | |
12158 | ||
12159 | @table @code | |
12160 | @item ALLOBJ | |
12161 | Display sections for all loaded object files, including shared libraries. | |
12162 | @item @var{sections} | |
6600abed | 12163 | Display info only for named @var{sections}. |
fe95c787 MS |
12164 | @item @var{section-flags} |
12165 | Display info only for sections for which @var{section-flags} are true. | |
12166 | The section flags that @value{GDBN} currently knows about are: | |
12167 | @table @code | |
12168 | @item ALLOC | |
12169 | Section will have space allocated in the process when loaded. | |
12170 | Set for all sections except those containing debug information. | |
12171 | @item LOAD | |
12172 | Section will be loaded from the file into the child process memory. | |
12173 | Set for pre-initialized code and data, clear for @code{.bss} sections. | |
12174 | @item RELOC | |
12175 | Section needs to be relocated before loading. | |
12176 | @item READONLY | |
12177 | Section cannot be modified by the child process. | |
12178 | @item CODE | |
12179 | Section contains executable code only. | |
6600abed | 12180 | @item DATA |
fe95c787 MS |
12181 | Section contains data only (no executable code). |
12182 | @item ROM | |
12183 | Section will reside in ROM. | |
12184 | @item CONSTRUCTOR | |
12185 | Section contains data for constructor/destructor lists. | |
12186 | @item HAS_CONTENTS | |
12187 | Section is not empty. | |
12188 | @item NEVER_LOAD | |
12189 | An instruction to the linker to not output the section. | |
12190 | @item COFF_SHARED_LIBRARY | |
12191 | A notification to the linker that the section contains | |
12192 | COFF shared library information. | |
12193 | @item IS_COMMON | |
12194 | Section contains common symbols. | |
12195 | @end table | |
12196 | @end table | |
6763aef9 | 12197 | @kindex set trust-readonly-sections |
9c16f35a | 12198 | @cindex read-only sections |
6763aef9 MS |
12199 | @item set trust-readonly-sections on |
12200 | Tell @value{GDBN} that readonly sections in your object file | |
6ca652b0 | 12201 | really are read-only (i.e.@: that their contents will not change). |
6763aef9 MS |
12202 | In that case, @value{GDBN} can fetch values from these sections |
12203 | out of the object file, rather than from the target program. | |
12204 | For some targets (notably embedded ones), this can be a significant | |
12205 | enhancement to debugging performance. | |
12206 | ||
12207 | The default is off. | |
12208 | ||
12209 | @item set trust-readonly-sections off | |
15110bc3 | 12210 | Tell @value{GDBN} not to trust readonly sections. This means that |
6763aef9 MS |
12211 | the contents of the section might change while the program is running, |
12212 | and must therefore be fetched from the target when needed. | |
9c16f35a EZ |
12213 | |
12214 | @item show trust-readonly-sections | |
12215 | Show the current setting of trusting readonly sections. | |
c906108c SS |
12216 | @end table |
12217 | ||
12218 | All file-specifying commands allow both absolute and relative file names | |
12219 | as arguments. @value{GDBN} always converts the file name to an absolute file | |
12220 | name and remembers it that way. | |
12221 | ||
c906108c | 12222 | @cindex shared libraries |
9cceb671 DJ |
12223 | @anchor{Shared Libraries} |
12224 | @value{GDBN} supports @sc{gnu}/Linux, MS-Windows, HP-UX, SunOS, SVr4, Irix, | |
9c16f35a | 12225 | and IBM RS/6000 AIX shared libraries. |
53a5351d | 12226 | |
9cceb671 DJ |
12227 | On MS-Windows @value{GDBN} must be linked with the Expat library to support |
12228 | shared libraries. @xref{Expat}. | |
12229 | ||
c906108c SS |
12230 | @value{GDBN} automatically loads symbol definitions from shared libraries |
12231 | when you use the @code{run} command, or when you examine a core file. | |
12232 | (Before you issue the @code{run} command, @value{GDBN} does not understand | |
12233 | references to a function in a shared library, however---unless you are | |
12234 | debugging a core file). | |
53a5351d JM |
12235 | |
12236 | On HP-UX, if the program loads a library explicitly, @value{GDBN} | |
12237 | automatically loads the symbols at the time of the @code{shl_load} call. | |
12238 | ||
c906108c SS |
12239 | @c FIXME: some @value{GDBN} release may permit some refs to undef |
12240 | @c FIXME...symbols---eg in a break cmd---assuming they are from a shared | |
12241 | @c FIXME...lib; check this from time to time when updating manual | |
12242 | ||
b7209cb4 FF |
12243 | There are times, however, when you may wish to not automatically load |
12244 | symbol definitions from shared libraries, such as when they are | |
12245 | particularly large or there are many of them. | |
12246 | ||
12247 | To control the automatic loading of shared library symbols, use the | |
12248 | commands: | |
12249 | ||
12250 | @table @code | |
12251 | @kindex set auto-solib-add | |
12252 | @item set auto-solib-add @var{mode} | |
12253 | If @var{mode} is @code{on}, symbols from all shared object libraries | |
12254 | will be loaded automatically when the inferior begins execution, you | |
12255 | attach to an independently started inferior, or when the dynamic linker | |
12256 | informs @value{GDBN} that a new library has been loaded. If @var{mode} | |
12257 | is @code{off}, symbols must be loaded manually, using the | |
12258 | @code{sharedlibrary} command. The default value is @code{on}. | |
12259 | ||
dcaf7c2c EZ |
12260 | @cindex memory used for symbol tables |
12261 | If your program uses lots of shared libraries with debug info that | |
12262 | takes large amounts of memory, you can decrease the @value{GDBN} | |
12263 | memory footprint by preventing it from automatically loading the | |
12264 | symbols from shared libraries. To that end, type @kbd{set | |
12265 | auto-solib-add off} before running the inferior, then load each | |
12266 | library whose debug symbols you do need with @kbd{sharedlibrary | |
d3e8051b | 12267 | @var{regexp}}, where @var{regexp} is a regular expression that matches |
dcaf7c2c EZ |
12268 | the libraries whose symbols you want to be loaded. |
12269 | ||
b7209cb4 FF |
12270 | @kindex show auto-solib-add |
12271 | @item show auto-solib-add | |
12272 | Display the current autoloading mode. | |
12273 | @end table | |
12274 | ||
c45da7e6 | 12275 | @cindex load shared library |
b7209cb4 FF |
12276 | To explicitly load shared library symbols, use the @code{sharedlibrary} |
12277 | command: | |
12278 | ||
c906108c SS |
12279 | @table @code |
12280 | @kindex info sharedlibrary | |
12281 | @kindex info share | |
12282 | @item info share | |
12283 | @itemx info sharedlibrary | |
12284 | Print the names of the shared libraries which are currently loaded. | |
12285 | ||
12286 | @kindex sharedlibrary | |
12287 | @kindex share | |
12288 | @item sharedlibrary @var{regex} | |
12289 | @itemx share @var{regex} | |
c906108c SS |
12290 | Load shared object library symbols for files matching a |
12291 | Unix regular expression. | |
12292 | As with files loaded automatically, it only loads shared libraries | |
12293 | required by your program for a core file or after typing @code{run}. If | |
12294 | @var{regex} is omitted all shared libraries required by your program are | |
12295 | loaded. | |
c45da7e6 EZ |
12296 | |
12297 | @item nosharedlibrary | |
12298 | @kindex nosharedlibrary | |
12299 | @cindex unload symbols from shared libraries | |
12300 | Unload all shared object library symbols. This discards all symbols | |
12301 | that have been loaded from all shared libraries. Symbols from shared | |
12302 | libraries that were loaded by explicit user requests are not | |
12303 | discarded. | |
c906108c SS |
12304 | @end table |
12305 | ||
721c2651 EZ |
12306 | Sometimes you may wish that @value{GDBN} stops and gives you control |
12307 | when any of shared library events happen. Use the @code{set | |
12308 | stop-on-solib-events} command for this: | |
12309 | ||
12310 | @table @code | |
12311 | @item set stop-on-solib-events | |
12312 | @kindex set stop-on-solib-events | |
12313 | This command controls whether @value{GDBN} should give you control | |
12314 | when the dynamic linker notifies it about some shared library event. | |
12315 | The most common event of interest is loading or unloading of a new | |
12316 | shared library. | |
12317 | ||
12318 | @item show stop-on-solib-events | |
12319 | @kindex show stop-on-solib-events | |
12320 | Show whether @value{GDBN} stops and gives you control when shared | |
12321 | library events happen. | |
12322 | @end table | |
12323 | ||
f5ebfba0 DJ |
12324 | Shared libraries are also supported in many cross or remote debugging |
12325 | configurations. A copy of the target's libraries need to be present on the | |
12326 | host system; they need to be the same as the target libraries, although the | |
12327 | copies on the target can be stripped as long as the copies on the host are | |
12328 | not. | |
12329 | ||
59b7b46f EZ |
12330 | @cindex where to look for shared libraries |
12331 | For remote debugging, you need to tell @value{GDBN} where the target | |
12332 | libraries are, so that it can load the correct copies---otherwise, it | |
12333 | may try to load the host's libraries. @value{GDBN} has two variables | |
12334 | to specify the search directories for target libraries. | |
f5ebfba0 DJ |
12335 | |
12336 | @table @code | |
59b7b46f | 12337 | @cindex prefix for shared library file names |
f822c95b | 12338 | @cindex system root, alternate |
f5ebfba0 | 12339 | @kindex set solib-absolute-prefix |
f822c95b DJ |
12340 | @kindex set sysroot |
12341 | @item set sysroot @var{path} | |
12342 | Use @var{path} as the system root for the program being debugged. Any | |
12343 | absolute shared library paths will be prefixed with @var{path}; many | |
12344 | runtime loaders store the absolute paths to the shared library in the | |
12345 | target program's memory. If you use @code{set sysroot} to find shared | |
12346 | libraries, they need to be laid out in the same way that they are on | |
12347 | the target, with e.g.@: a @file{/lib} and @file{/usr/lib} hierarchy | |
12348 | under @var{path}. | |
12349 | ||
12350 | The @code{set solib-absolute-prefix} command is an alias for @code{set | |
12351 | sysroot}. | |
12352 | ||
12353 | @cindex default system root | |
59b7b46f | 12354 | @cindex @samp{--with-sysroot} |
f822c95b DJ |
12355 | You can set the default system root by using the configure-time |
12356 | @samp{--with-sysroot} option. If the system root is inside | |
12357 | @value{GDBN}'s configured binary prefix (set with @samp{--prefix} or | |
12358 | @samp{--exec-prefix}), then the default system root will be updated | |
12359 | automatically if the installed @value{GDBN} is moved to a new | |
12360 | location. | |
12361 | ||
12362 | @kindex show sysroot | |
12363 | @item show sysroot | |
f5ebfba0 DJ |
12364 | Display the current shared library prefix. |
12365 | ||
12366 | @kindex set solib-search-path | |
12367 | @item set solib-search-path @var{path} | |
f822c95b DJ |
12368 | If this variable is set, @var{path} is a colon-separated list of |
12369 | directories to search for shared libraries. @samp{solib-search-path} | |
12370 | is used after @samp{sysroot} fails to locate the library, or if the | |
12371 | path to the library is relative instead of absolute. If you want to | |
12372 | use @samp{solib-search-path} instead of @samp{sysroot}, be sure to set | |
d3e8051b | 12373 | @samp{sysroot} to a nonexistent directory to prevent @value{GDBN} from |
f822c95b | 12374 | finding your host's libraries. @samp{sysroot} is preferred; setting |
d3e8051b | 12375 | it to a nonexistent directory may interfere with automatic loading |
f822c95b | 12376 | of shared library symbols. |
f5ebfba0 DJ |
12377 | |
12378 | @kindex show solib-search-path | |
12379 | @item show solib-search-path | |
12380 | Display the current shared library search path. | |
12381 | @end table | |
12382 | ||
5b5d99cf JB |
12383 | |
12384 | @node Separate Debug Files | |
12385 | @section Debugging Information in Separate Files | |
12386 | @cindex separate debugging information files | |
12387 | @cindex debugging information in separate files | |
12388 | @cindex @file{.debug} subdirectories | |
12389 | @cindex debugging information directory, global | |
12390 | @cindex global debugging information directory | |
c7e83d54 EZ |
12391 | @cindex build ID, and separate debugging files |
12392 | @cindex @file{.build-id} directory | |
5b5d99cf JB |
12393 | |
12394 | @value{GDBN} allows you to put a program's debugging information in a | |
12395 | file separate from the executable itself, in a way that allows | |
12396 | @value{GDBN} to find and load the debugging information automatically. | |
c7e83d54 EZ |
12397 | Since debugging information can be very large---sometimes larger |
12398 | than the executable code itself---some systems distribute debugging | |
5b5d99cf JB |
12399 | information for their executables in separate files, which users can |
12400 | install only when they need to debug a problem. | |
12401 | ||
c7e83d54 EZ |
12402 | @value{GDBN} supports two ways of specifying the separate debug info |
12403 | file: | |
5b5d99cf JB |
12404 | |
12405 | @itemize @bullet | |
12406 | @item | |
c7e83d54 EZ |
12407 | The executable contains a @dfn{debug link} that specifies the name of |
12408 | the separate debug info file. The separate debug file's name is | |
12409 | usually @file{@var{executable}.debug}, where @var{executable} is the | |
12410 | name of the corresponding executable file without leading directories | |
12411 | (e.g., @file{ls.debug} for @file{/usr/bin/ls}). In addition, the | |
12412 | debug link specifies a CRC32 checksum for the debug file, which | |
12413 | @value{GDBN} uses to validate that the executable and the debug file | |
12414 | came from the same build. | |
12415 | ||
12416 | @item | |
7e27a47a | 12417 | The executable contains a @dfn{build ID}, a unique bit string that is |
c7e83d54 | 12418 | also present in the corresponding debug info file. (This is supported |
7e27a47a EZ |
12419 | only on some operating systems, notably those which use the ELF format |
12420 | for binary files and the @sc{gnu} Binutils.) For more details about | |
12421 | this feature, see the description of the @option{--build-id} | |
12422 | command-line option in @ref{Options, , Command Line Options, ld.info, | |
12423 | The GNU Linker}. The debug info file's name is not specified | |
12424 | explicitly by the build ID, but can be computed from the build ID, see | |
12425 | below. | |
d3750b24 JK |
12426 | @end itemize |
12427 | ||
c7e83d54 EZ |
12428 | Depending on the way the debug info file is specified, @value{GDBN} |
12429 | uses two different methods of looking for the debug file: | |
d3750b24 JK |
12430 | |
12431 | @itemize @bullet | |
12432 | @item | |
c7e83d54 EZ |
12433 | For the ``debug link'' method, @value{GDBN} looks up the named file in |
12434 | the directory of the executable file, then in a subdirectory of that | |
12435 | directory named @file{.debug}, and finally under the global debug | |
12436 | directory, in a subdirectory whose name is identical to the leading | |
12437 | directories of the executable's absolute file name. | |
12438 | ||
12439 | @item | |
83f83d7f | 12440 | For the ``build ID'' method, @value{GDBN} looks in the |
c7e83d54 EZ |
12441 | @file{.build-id} subdirectory of the global debug directory for a file |
12442 | named @file{@var{nn}/@var{nnnnnnnn}.debug}, where @var{nn} are the | |
7e27a47a EZ |
12443 | first 2 hex characters of the build ID bit string, and @var{nnnnnnnn} |
12444 | are the rest of the bit string. (Real build ID strings are 32 or more | |
12445 | hex characters, not 10.) | |
c7e83d54 EZ |
12446 | @end itemize |
12447 | ||
12448 | So, for example, suppose you ask @value{GDBN} to debug | |
7e27a47a EZ |
12449 | @file{/usr/bin/ls}, which has a debug link that specifies the |
12450 | file @file{ls.debug}, and a build ID whose value in hex is | |
c7e83d54 EZ |
12451 | @code{abcdef1234}. If the global debug directory is |
12452 | @file{/usr/lib/debug}, then @value{GDBN} will look for the following | |
12453 | debug information files, in the indicated order: | |
12454 | ||
12455 | @itemize @minus | |
12456 | @item | |
12457 | @file{/usr/lib/debug/.build-id/ab/cdef1234.debug} | |
d3750b24 | 12458 | @item |
c7e83d54 | 12459 | @file{/usr/bin/ls.debug} |
5b5d99cf | 12460 | @item |
c7e83d54 | 12461 | @file{/usr/bin/.debug/ls.debug} |
5b5d99cf | 12462 | @item |
c7e83d54 | 12463 | @file{/usr/lib/debug/usr/bin/ls.debug}. |
5b5d99cf | 12464 | @end itemize |
5b5d99cf JB |
12465 | |
12466 | You can set the global debugging info directory's name, and view the | |
12467 | name @value{GDBN} is currently using. | |
12468 | ||
12469 | @table @code | |
12470 | ||
12471 | @kindex set debug-file-directory | |
12472 | @item set debug-file-directory @var{directory} | |
12473 | Set the directory which @value{GDBN} searches for separate debugging | |
12474 | information files to @var{directory}. | |
12475 | ||
12476 | @kindex show debug-file-directory | |
12477 | @item show debug-file-directory | |
12478 | Show the directory @value{GDBN} searches for separate debugging | |
12479 | information files. | |
12480 | ||
12481 | @end table | |
12482 | ||
12483 | @cindex @code{.gnu_debuglink} sections | |
c7e83d54 | 12484 | @cindex debug link sections |
5b5d99cf JB |
12485 | A debug link is a special section of the executable file named |
12486 | @code{.gnu_debuglink}. The section must contain: | |
12487 | ||
12488 | @itemize | |
12489 | @item | |
12490 | A filename, with any leading directory components removed, followed by | |
12491 | a zero byte, | |
12492 | @item | |
12493 | zero to three bytes of padding, as needed to reach the next four-byte | |
12494 | boundary within the section, and | |
12495 | @item | |
12496 | a four-byte CRC checksum, stored in the same endianness used for the | |
12497 | executable file itself. The checksum is computed on the debugging | |
12498 | information file's full contents by the function given below, passing | |
12499 | zero as the @var{crc} argument. | |
12500 | @end itemize | |
12501 | ||
12502 | Any executable file format can carry a debug link, as long as it can | |
12503 | contain a section named @code{.gnu_debuglink} with the contents | |
12504 | described above. | |
12505 | ||
d3750b24 | 12506 | @cindex @code{.note.gnu.build-id} sections |
c7e83d54 | 12507 | @cindex build ID sections |
7e27a47a EZ |
12508 | The build ID is a special section in the executable file (and in other |
12509 | ELF binary files that @value{GDBN} may consider). This section is | |
12510 | often named @code{.note.gnu.build-id}, but that name is not mandatory. | |
12511 | It contains unique identification for the built files---the ID remains | |
12512 | the same across multiple builds of the same build tree. The default | |
12513 | algorithm SHA1 produces 160 bits (40 hexadecimal characters) of the | |
12514 | content for the build ID string. The same section with an identical | |
12515 | value is present in the original built binary with symbols, in its | |
12516 | stripped variant, and in the separate debugging information file. | |
d3750b24 | 12517 | |
5b5d99cf JB |
12518 | The debugging information file itself should be an ordinary |
12519 | executable, containing a full set of linker symbols, sections, and | |
12520 | debugging information. The sections of the debugging information file | |
c7e83d54 EZ |
12521 | should have the same names, addresses, and sizes as the original file, |
12522 | but they need not contain any data---much like a @code{.bss} section | |
5b5d99cf JB |
12523 | in an ordinary executable. |
12524 | ||
7e27a47a | 12525 | The @sc{gnu} binary utilities (Binutils) package includes the |
c7e83d54 EZ |
12526 | @samp{objcopy} utility that can produce |
12527 | the separated executable / debugging information file pairs using the | |
12528 | following commands: | |
12529 | ||
12530 | @smallexample | |
12531 | @kbd{objcopy --only-keep-debug foo foo.debug} | |
12532 | @kbd{strip -g foo} | |
c7e83d54 EZ |
12533 | @end smallexample |
12534 | ||
12535 | @noindent | |
12536 | These commands remove the debugging | |
83f83d7f JK |
12537 | information from the executable file @file{foo} and place it in the file |
12538 | @file{foo.debug}. You can use the first, second or both methods to link the | |
12539 | two files: | |
12540 | ||
12541 | @itemize @bullet | |
12542 | @item | |
12543 | The debug link method needs the following additional command to also leave | |
12544 | behind a debug link in @file{foo}: | |
12545 | ||
12546 | @smallexample | |
12547 | @kbd{objcopy --add-gnu-debuglink=foo.debug foo} | |
12548 | @end smallexample | |
12549 | ||
12550 | Ulrich Drepper's @file{elfutils} package, starting with version 0.53, contains | |
d3750b24 | 12551 | a version of the @code{strip} command such that the command @kbd{strip foo -f |
83f83d7f JK |
12552 | foo.debug} has the same functionality as the two @code{objcopy} commands and |
12553 | the @code{ln -s} command above, together. | |
12554 | ||
12555 | @item | |
12556 | Build ID gets embedded into the main executable using @code{ld --build-id} or | |
12557 | the @value{NGCC} counterpart @code{gcc -Wl,--build-id}. Build ID support plus | |
12558 | compatibility fixes for debug files separation are present in @sc{gnu} binary | |
7e27a47a | 12559 | utilities (Binutils) package since version 2.18. |
83f83d7f JK |
12560 | @end itemize |
12561 | ||
12562 | @noindent | |
d3750b24 | 12563 | |
c7e83d54 EZ |
12564 | Since there are many different ways to compute CRC's for the debug |
12565 | link (different polynomials, reversals, byte ordering, etc.), the | |
12566 | simplest way to describe the CRC used in @code{.gnu_debuglink} | |
12567 | sections is to give the complete code for a function that computes it: | |
5b5d99cf | 12568 | |
4644b6e3 | 12569 | @kindex gnu_debuglink_crc32 |
5b5d99cf JB |
12570 | @smallexample |
12571 | unsigned long | |
12572 | gnu_debuglink_crc32 (unsigned long crc, | |
12573 | unsigned char *buf, size_t len) | |
12574 | @{ | |
12575 | static const unsigned long crc32_table[256] = | |
12576 | @{ | |
12577 | 0x00000000, 0x77073096, 0xee0e612c, 0x990951ba, 0x076dc419, | |
12578 | 0x706af48f, 0xe963a535, 0x9e6495a3, 0x0edb8832, 0x79dcb8a4, | |
12579 | 0xe0d5e91e, 0x97d2d988, 0x09b64c2b, 0x7eb17cbd, 0xe7b82d07, | |
12580 | 0x90bf1d91, 0x1db71064, 0x6ab020f2, 0xf3b97148, 0x84be41de, | |
12581 | 0x1adad47d, 0x6ddde4eb, 0xf4d4b551, 0x83d385c7, 0x136c9856, | |
12582 | 0x646ba8c0, 0xfd62f97a, 0x8a65c9ec, 0x14015c4f, 0x63066cd9, | |
12583 | 0xfa0f3d63, 0x8d080df5, 0x3b6e20c8, 0x4c69105e, 0xd56041e4, | |
12584 | 0xa2677172, 0x3c03e4d1, 0x4b04d447, 0xd20d85fd, 0xa50ab56b, | |
12585 | 0x35b5a8fa, 0x42b2986c, 0xdbbbc9d6, 0xacbcf940, 0x32d86ce3, | |
12586 | 0x45df5c75, 0xdcd60dcf, 0xabd13d59, 0x26d930ac, 0x51de003a, | |
12587 | 0xc8d75180, 0xbfd06116, 0x21b4f4b5, 0x56b3c423, 0xcfba9599, | |
12588 | 0xb8bda50f, 0x2802b89e, 0x5f058808, 0xc60cd9b2, 0xb10be924, | |
12589 | 0x2f6f7c87, 0x58684c11, 0xc1611dab, 0xb6662d3d, 0x76dc4190, | |
12590 | 0x01db7106, 0x98d220bc, 0xefd5102a, 0x71b18589, 0x06b6b51f, | |
12591 | 0x9fbfe4a5, 0xe8b8d433, 0x7807c9a2, 0x0f00f934, 0x9609a88e, | |
12592 | 0xe10e9818, 0x7f6a0dbb, 0x086d3d2d, 0x91646c97, 0xe6635c01, | |
12593 | 0x6b6b51f4, 0x1c6c6162, 0x856530d8, 0xf262004e, 0x6c0695ed, | |
12594 | 0x1b01a57b, 0x8208f4c1, 0xf50fc457, 0x65b0d9c6, 0x12b7e950, | |
12595 | 0x8bbeb8ea, 0xfcb9887c, 0x62dd1ddf, 0x15da2d49, 0x8cd37cf3, | |
12596 | 0xfbd44c65, 0x4db26158, 0x3ab551ce, 0xa3bc0074, 0xd4bb30e2, | |
12597 | 0x4adfa541, 0x3dd895d7, 0xa4d1c46d, 0xd3d6f4fb, 0x4369e96a, | |
12598 | 0x346ed9fc, 0xad678846, 0xda60b8d0, 0x44042d73, 0x33031de5, | |
12599 | 0xaa0a4c5f, 0xdd0d7cc9, 0x5005713c, 0x270241aa, 0xbe0b1010, | |
12600 | 0xc90c2086, 0x5768b525, 0x206f85b3, 0xb966d409, 0xce61e49f, | |
12601 | 0x5edef90e, 0x29d9c998, 0xb0d09822, 0xc7d7a8b4, 0x59b33d17, | |
12602 | 0x2eb40d81, 0xb7bd5c3b, 0xc0ba6cad, 0xedb88320, 0x9abfb3b6, | |
12603 | 0x03b6e20c, 0x74b1d29a, 0xead54739, 0x9dd277af, 0x04db2615, | |
12604 | 0x73dc1683, 0xe3630b12, 0x94643b84, 0x0d6d6a3e, 0x7a6a5aa8, | |
12605 | 0xe40ecf0b, 0x9309ff9d, 0x0a00ae27, 0x7d079eb1, 0xf00f9344, | |
12606 | 0x8708a3d2, 0x1e01f268, 0x6906c2fe, 0xf762575d, 0x806567cb, | |
12607 | 0x196c3671, 0x6e6b06e7, 0xfed41b76, 0x89d32be0, 0x10da7a5a, | |
12608 | 0x67dd4acc, 0xf9b9df6f, 0x8ebeeff9, 0x17b7be43, 0x60b08ed5, | |
12609 | 0xd6d6a3e8, 0xa1d1937e, 0x38d8c2c4, 0x4fdff252, 0xd1bb67f1, | |
12610 | 0xa6bc5767, 0x3fb506dd, 0x48b2364b, 0xd80d2bda, 0xaf0a1b4c, | |
12611 | 0x36034af6, 0x41047a60, 0xdf60efc3, 0xa867df55, 0x316e8eef, | |
12612 | 0x4669be79, 0xcb61b38c, 0xbc66831a, 0x256fd2a0, 0x5268e236, | |
12613 | 0xcc0c7795, 0xbb0b4703, 0x220216b9, 0x5505262f, 0xc5ba3bbe, | |
12614 | 0xb2bd0b28, 0x2bb45a92, 0x5cb36a04, 0xc2d7ffa7, 0xb5d0cf31, | |
12615 | 0x2cd99e8b, 0x5bdeae1d, 0x9b64c2b0, 0xec63f226, 0x756aa39c, | |
12616 | 0x026d930a, 0x9c0906a9, 0xeb0e363f, 0x72076785, 0x05005713, | |
12617 | 0x95bf4a82, 0xe2b87a14, 0x7bb12bae, 0x0cb61b38, 0x92d28e9b, | |
12618 | 0xe5d5be0d, 0x7cdcefb7, 0x0bdbdf21, 0x86d3d2d4, 0xf1d4e242, | |
12619 | 0x68ddb3f8, 0x1fda836e, 0x81be16cd, 0xf6b9265b, 0x6fb077e1, | |
12620 | 0x18b74777, 0x88085ae6, 0xff0f6a70, 0x66063bca, 0x11010b5c, | |
12621 | 0x8f659eff, 0xf862ae69, 0x616bffd3, 0x166ccf45, 0xa00ae278, | |
12622 | 0xd70dd2ee, 0x4e048354, 0x3903b3c2, 0xa7672661, 0xd06016f7, | |
12623 | 0x4969474d, 0x3e6e77db, 0xaed16a4a, 0xd9d65adc, 0x40df0b66, | |
12624 | 0x37d83bf0, 0xa9bcae53, 0xdebb9ec5, 0x47b2cf7f, 0x30b5ffe9, | |
12625 | 0xbdbdf21c, 0xcabac28a, 0x53b39330, 0x24b4a3a6, 0xbad03605, | |
12626 | 0xcdd70693, 0x54de5729, 0x23d967bf, 0xb3667a2e, 0xc4614ab8, | |
12627 | 0x5d681b02, 0x2a6f2b94, 0xb40bbe37, 0xc30c8ea1, 0x5a05df1b, | |
12628 | 0x2d02ef8d | |
12629 | @}; | |
12630 | unsigned char *end; | |
12631 | ||
12632 | crc = ~crc & 0xffffffff; | |
12633 | for (end = buf + len; buf < end; ++buf) | |
12634 | crc = crc32_table[(crc ^ *buf) & 0xff] ^ (crc >> 8); | |
e7a3abfc | 12635 | return ~crc & 0xffffffff; |
5b5d99cf JB |
12636 | @} |
12637 | @end smallexample | |
12638 | ||
c7e83d54 EZ |
12639 | @noindent |
12640 | This computation does not apply to the ``build ID'' method. | |
12641 | ||
5b5d99cf | 12642 | |
6d2ebf8b | 12643 | @node Symbol Errors |
79a6e687 | 12644 | @section Errors Reading Symbol Files |
c906108c SS |
12645 | |
12646 | While reading a symbol file, @value{GDBN} occasionally encounters problems, | |
12647 | such as symbol types it does not recognize, or known bugs in compiler | |
12648 | output. By default, @value{GDBN} does not notify you of such problems, since | |
12649 | they are relatively common and primarily of interest to people | |
12650 | debugging compilers. If you are interested in seeing information | |
12651 | about ill-constructed symbol tables, you can either ask @value{GDBN} to print | |
12652 | only one message about each such type of problem, no matter how many | |
12653 | times the problem occurs; or you can ask @value{GDBN} to print more messages, | |
12654 | to see how many times the problems occur, with the @code{set | |
79a6e687 BW |
12655 | complaints} command (@pxref{Messages/Warnings, ,Optional Warnings and |
12656 | Messages}). | |
c906108c SS |
12657 | |
12658 | The messages currently printed, and their meanings, include: | |
12659 | ||
12660 | @table @code | |
12661 | @item inner block not inside outer block in @var{symbol} | |
12662 | ||
12663 | The symbol information shows where symbol scopes begin and end | |
12664 | (such as at the start of a function or a block of statements). This | |
12665 | error indicates that an inner scope block is not fully contained | |
12666 | in its outer scope blocks. | |
12667 | ||
12668 | @value{GDBN} circumvents the problem by treating the inner block as if it had | |
12669 | the same scope as the outer block. In the error message, @var{symbol} | |
12670 | may be shown as ``@code{(don't know)}'' if the outer block is not a | |
12671 | function. | |
12672 | ||
12673 | @item block at @var{address} out of order | |
12674 | ||
12675 | The symbol information for symbol scope blocks should occur in | |
12676 | order of increasing addresses. This error indicates that it does not | |
12677 | do so. | |
12678 | ||
12679 | @value{GDBN} does not circumvent this problem, and has trouble | |
12680 | locating symbols in the source file whose symbols it is reading. (You | |
12681 | can often determine what source file is affected by specifying | |
79a6e687 BW |
12682 | @code{set verbose on}. @xref{Messages/Warnings, ,Optional Warnings and |
12683 | Messages}.) | |
c906108c SS |
12684 | |
12685 | @item bad block start address patched | |
12686 | ||
12687 | The symbol information for a symbol scope block has a start address | |
12688 | smaller than the address of the preceding source line. This is known | |
12689 | to occur in the SunOS 4.1.1 (and earlier) C compiler. | |
12690 | ||
12691 | @value{GDBN} circumvents the problem by treating the symbol scope block as | |
12692 | starting on the previous source line. | |
12693 | ||
12694 | @item bad string table offset in symbol @var{n} | |
12695 | ||
12696 | @cindex foo | |
12697 | Symbol number @var{n} contains a pointer into the string table which is | |
12698 | larger than the size of the string table. | |
12699 | ||
12700 | @value{GDBN} circumvents the problem by considering the symbol to have the | |
12701 | name @code{foo}, which may cause other problems if many symbols end up | |
12702 | with this name. | |
12703 | ||
12704 | @item unknown symbol type @code{0x@var{nn}} | |
12705 | ||
7a292a7a SS |
12706 | The symbol information contains new data types that @value{GDBN} does |
12707 | not yet know how to read. @code{0x@var{nn}} is the symbol type of the | |
d4f3574e | 12708 | uncomprehended information, in hexadecimal. |
c906108c | 12709 | |
7a292a7a SS |
12710 | @value{GDBN} circumvents the error by ignoring this symbol information. |
12711 | This usually allows you to debug your program, though certain symbols | |
c906108c | 12712 | are not accessible. If you encounter such a problem and feel like |
7a292a7a SS |
12713 | debugging it, you can debug @code{@value{GDBP}} with itself, breakpoint |
12714 | on @code{complain}, then go up to the function @code{read_dbx_symtab} | |
12715 | and examine @code{*bufp} to see the symbol. | |
c906108c SS |
12716 | |
12717 | @item stub type has NULL name | |
c906108c | 12718 | |
7a292a7a | 12719 | @value{GDBN} could not find the full definition for a struct or class. |
c906108c | 12720 | |
7a292a7a | 12721 | @item const/volatile indicator missing (ok if using g++ v1.x), got@dots{} |
b37052ae | 12722 | The symbol information for a C@t{++} member function is missing some |
7a292a7a SS |
12723 | information that recent versions of the compiler should have output for |
12724 | it. | |
c906108c SS |
12725 | |
12726 | @item info mismatch between compiler and debugger | |
12727 | ||
12728 | @value{GDBN} could not parse a type specification output by the compiler. | |
7a292a7a | 12729 | |
c906108c SS |
12730 | @end table |
12731 | ||
6d2ebf8b | 12732 | @node Targets |
c906108c | 12733 | @chapter Specifying a Debugging Target |
7a292a7a | 12734 | |
c906108c | 12735 | @cindex debugging target |
c906108c | 12736 | A @dfn{target} is the execution environment occupied by your program. |
53a5351d JM |
12737 | |
12738 | Often, @value{GDBN} runs in the same host environment as your program; | |
12739 | in that case, the debugging target is specified as a side effect when | |
12740 | you use the @code{file} or @code{core} commands. When you need more | |
c906108c SS |
12741 | flexibility---for example, running @value{GDBN} on a physically separate |
12742 | host, or controlling a standalone system over a serial port or a | |
53a5351d JM |
12743 | realtime system over a TCP/IP connection---you can use the @code{target} |
12744 | command to specify one of the target types configured for @value{GDBN} | |
79a6e687 | 12745 | (@pxref{Target Commands, ,Commands for Managing Targets}). |
c906108c | 12746 | |
a8f24a35 EZ |
12747 | @cindex target architecture |
12748 | It is possible to build @value{GDBN} for several different @dfn{target | |
12749 | architectures}. When @value{GDBN} is built like that, you can choose | |
12750 | one of the available architectures with the @kbd{set architecture} | |
12751 | command. | |
12752 | ||
12753 | @table @code | |
12754 | @kindex set architecture | |
12755 | @kindex show architecture | |
12756 | @item set architecture @var{arch} | |
12757 | This command sets the current target architecture to @var{arch}. The | |
12758 | value of @var{arch} can be @code{"auto"}, in addition to one of the | |
12759 | supported architectures. | |
12760 | ||
12761 | @item show architecture | |
12762 | Show the current target architecture. | |
9c16f35a EZ |
12763 | |
12764 | @item set processor | |
12765 | @itemx processor | |
12766 | @kindex set processor | |
12767 | @kindex show processor | |
12768 | These are alias commands for, respectively, @code{set architecture} | |
12769 | and @code{show architecture}. | |
a8f24a35 EZ |
12770 | @end table |
12771 | ||
c906108c SS |
12772 | @menu |
12773 | * Active Targets:: Active targets | |
12774 | * Target Commands:: Commands for managing targets | |
c906108c | 12775 | * Byte Order:: Choosing target byte order |
c906108c SS |
12776 | @end menu |
12777 | ||
6d2ebf8b | 12778 | @node Active Targets |
79a6e687 | 12779 | @section Active Targets |
7a292a7a | 12780 | |
c906108c SS |
12781 | @cindex stacking targets |
12782 | @cindex active targets | |
12783 | @cindex multiple targets | |
12784 | ||
c906108c | 12785 | There are three classes of targets: processes, core files, and |
7a292a7a SS |
12786 | executable files. @value{GDBN} can work concurrently on up to three |
12787 | active targets, one in each class. This allows you to (for example) | |
12788 | start a process and inspect its activity without abandoning your work on | |
12789 | a core file. | |
c906108c SS |
12790 | |
12791 | For example, if you execute @samp{gdb a.out}, then the executable file | |
12792 | @code{a.out} is the only active target. If you designate a core file as | |
12793 | well---presumably from a prior run that crashed and coredumped---then | |
12794 | @value{GDBN} has two active targets and uses them in tandem, looking | |
12795 | first in the corefile target, then in the executable file, to satisfy | |
12796 | requests for memory addresses. (Typically, these two classes of target | |
12797 | are complementary, since core files contain only a program's | |
12798 | read-write memory---variables and so on---plus machine status, while | |
12799 | executable files contain only the program text and initialized data.) | |
c906108c SS |
12800 | |
12801 | When you type @code{run}, your executable file becomes an active process | |
7a292a7a SS |
12802 | target as well. When a process target is active, all @value{GDBN} |
12803 | commands requesting memory addresses refer to that target; addresses in | |
12804 | an active core file or executable file target are obscured while the | |
12805 | process target is active. | |
c906108c | 12806 | |
7a292a7a | 12807 | Use the @code{core-file} and @code{exec-file} commands to select a new |
79a6e687 BW |
12808 | core file or executable target (@pxref{Files, ,Commands to Specify |
12809 | Files}). To specify as a target a process that is already running, use | |
12810 | the @code{attach} command (@pxref{Attach, ,Debugging an Already-running | |
12811 | Process}). | |
c906108c | 12812 | |
6d2ebf8b | 12813 | @node Target Commands |
79a6e687 | 12814 | @section Commands for Managing Targets |
c906108c SS |
12815 | |
12816 | @table @code | |
12817 | @item target @var{type} @var{parameters} | |
7a292a7a SS |
12818 | Connects the @value{GDBN} host environment to a target machine or |
12819 | process. A target is typically a protocol for talking to debugging | |
12820 | facilities. You use the argument @var{type} to specify the type or | |
12821 | protocol of the target machine. | |
c906108c SS |
12822 | |
12823 | Further @var{parameters} are interpreted by the target protocol, but | |
12824 | typically include things like device names or host names to connect | |
12825 | with, process numbers, and baud rates. | |
c906108c SS |
12826 | |
12827 | The @code{target} command does not repeat if you press @key{RET} again | |
12828 | after executing the command. | |
12829 | ||
12830 | @kindex help target | |
12831 | @item help target | |
12832 | Displays the names of all targets available. To display targets | |
12833 | currently selected, use either @code{info target} or @code{info files} | |
79a6e687 | 12834 | (@pxref{Files, ,Commands to Specify Files}). |
c906108c SS |
12835 | |
12836 | @item help target @var{name} | |
12837 | Describe a particular target, including any parameters necessary to | |
12838 | select it. | |
12839 | ||
12840 | @kindex set gnutarget | |
12841 | @item set gnutarget @var{args} | |
5d161b24 | 12842 | @value{GDBN} uses its own library BFD to read your files. @value{GDBN} |
c906108c | 12843 | knows whether it is reading an @dfn{executable}, |
5d161b24 DB |
12844 | a @dfn{core}, or a @dfn{.o} file; however, you can specify the file format |
12845 | with the @code{set gnutarget} command. Unlike most @code{target} commands, | |
c906108c SS |
12846 | with @code{gnutarget} the @code{target} refers to a program, not a machine. |
12847 | ||
d4f3574e | 12848 | @quotation |
c906108c SS |
12849 | @emph{Warning:} To specify a file format with @code{set gnutarget}, |
12850 | you must know the actual BFD name. | |
d4f3574e | 12851 | @end quotation |
c906108c | 12852 | |
d4f3574e | 12853 | @noindent |
79a6e687 | 12854 | @xref{Files, , Commands to Specify Files}. |
c906108c | 12855 | |
5d161b24 | 12856 | @kindex show gnutarget |
c906108c SS |
12857 | @item show gnutarget |
12858 | Use the @code{show gnutarget} command to display what file format | |
12859 | @code{gnutarget} is set to read. If you have not set @code{gnutarget}, | |
12860 | @value{GDBN} will determine the file format for each file automatically, | |
12861 | and @code{show gnutarget} displays @samp{The current BDF target is "auto"}. | |
12862 | @end table | |
12863 | ||
4644b6e3 | 12864 | @cindex common targets |
c906108c SS |
12865 | Here are some common targets (available, or not, depending on the GDB |
12866 | configuration): | |
c906108c SS |
12867 | |
12868 | @table @code | |
4644b6e3 | 12869 | @kindex target |
c906108c | 12870 | @item target exec @var{program} |
4644b6e3 | 12871 | @cindex executable file target |
c906108c SS |
12872 | An executable file. @samp{target exec @var{program}} is the same as |
12873 | @samp{exec-file @var{program}}. | |
12874 | ||
c906108c | 12875 | @item target core @var{filename} |
4644b6e3 | 12876 | @cindex core dump file target |
c906108c SS |
12877 | A core dump file. @samp{target core @var{filename}} is the same as |
12878 | @samp{core-file @var{filename}}. | |
c906108c | 12879 | |
1a10341b | 12880 | @item target remote @var{medium} |
4644b6e3 | 12881 | @cindex remote target |
1a10341b JB |
12882 | A remote system connected to @value{GDBN} via a serial line or network |
12883 | connection. This command tells @value{GDBN} to use its own remote | |
12884 | protocol over @var{medium} for debugging. @xref{Remote Debugging}. | |
12885 | ||
12886 | For example, if you have a board connected to @file{/dev/ttya} on the | |
12887 | machine running @value{GDBN}, you could say: | |
12888 | ||
12889 | @smallexample | |
12890 | target remote /dev/ttya | |
12891 | @end smallexample | |
12892 | ||
12893 | @code{target remote} supports the @code{load} command. This is only | |
12894 | useful if you have some other way of getting the stub to the target | |
12895 | system, and you can put it somewhere in memory where it won't get | |
12896 | clobbered by the download. | |
c906108c | 12897 | |
c906108c | 12898 | @item target sim |
4644b6e3 | 12899 | @cindex built-in simulator target |
2df3850c | 12900 | Builtin CPU simulator. @value{GDBN} includes simulators for most architectures. |
104c1213 | 12901 | In general, |
474c8240 | 12902 | @smallexample |
104c1213 JM |
12903 | target sim |
12904 | load | |
12905 | run | |
474c8240 | 12906 | @end smallexample |
d4f3574e | 12907 | @noindent |
104c1213 | 12908 | works; however, you cannot assume that a specific memory map, device |
d4f3574e | 12909 | drivers, or even basic I/O is available, although some simulators do |
104c1213 JM |
12910 | provide these. For info about any processor-specific simulator details, |
12911 | see the appropriate section in @ref{Embedded Processors, ,Embedded | |
12912 | Processors}. | |
12913 | ||
c906108c SS |
12914 | @end table |
12915 | ||
104c1213 | 12916 | Some configurations may include these targets as well: |
c906108c SS |
12917 | |
12918 | @table @code | |
12919 | ||
c906108c | 12920 | @item target nrom @var{dev} |
4644b6e3 | 12921 | @cindex NetROM ROM emulator target |
c906108c SS |
12922 | NetROM ROM emulator. This target only supports downloading. |
12923 | ||
c906108c SS |
12924 | @end table |
12925 | ||
5d161b24 | 12926 | Different targets are available on different configurations of @value{GDBN}; |
c906108c | 12927 | your configuration may have more or fewer targets. |
c906108c | 12928 | |
721c2651 EZ |
12929 | Many remote targets require you to download the executable's code once |
12930 | you've successfully established a connection. You may wish to control | |
3d00d119 DJ |
12931 | various aspects of this process. |
12932 | ||
12933 | @table @code | |
721c2651 EZ |
12934 | |
12935 | @item set hash | |
12936 | @kindex set hash@r{, for remote monitors} | |
12937 | @cindex hash mark while downloading | |
12938 | This command controls whether a hash mark @samp{#} is displayed while | |
12939 | downloading a file to the remote monitor. If on, a hash mark is | |
12940 | displayed after each S-record is successfully downloaded to the | |
12941 | monitor. | |
12942 | ||
12943 | @item show hash | |
12944 | @kindex show hash@r{, for remote monitors} | |
12945 | Show the current status of displaying the hash mark. | |
12946 | ||
12947 | @item set debug monitor | |
12948 | @kindex set debug monitor | |
12949 | @cindex display remote monitor communications | |
12950 | Enable or disable display of communications messages between | |
12951 | @value{GDBN} and the remote monitor. | |
12952 | ||
12953 | @item show debug monitor | |
12954 | @kindex show debug monitor | |
12955 | Show the current status of displaying communications between | |
12956 | @value{GDBN} and the remote monitor. | |
a8f24a35 | 12957 | @end table |
c906108c SS |
12958 | |
12959 | @table @code | |
12960 | ||
12961 | @kindex load @var{filename} | |
12962 | @item load @var{filename} | |
8edfe269 | 12963 | @anchor{load} |
c906108c SS |
12964 | Depending on what remote debugging facilities are configured into |
12965 | @value{GDBN}, the @code{load} command may be available. Where it exists, it | |
12966 | is meant to make @var{filename} (an executable) available for debugging | |
12967 | on the remote system---by downloading, or dynamic linking, for example. | |
12968 | @code{load} also records the @var{filename} symbol table in @value{GDBN}, like | |
12969 | the @code{add-symbol-file} command. | |
12970 | ||
12971 | If your @value{GDBN} does not have a @code{load} command, attempting to | |
12972 | execute it gets the error message ``@code{You can't do that when your | |
12973 | target is @dots{}}'' | |
c906108c SS |
12974 | |
12975 | The file is loaded at whatever address is specified in the executable. | |
12976 | For some object file formats, you can specify the load address when you | |
12977 | link the program; for other formats, like a.out, the object file format | |
12978 | specifies a fixed address. | |
12979 | @c FIXME! This would be a good place for an xref to the GNU linker doc. | |
12980 | ||
68437a39 DJ |
12981 | Depending on the remote side capabilities, @value{GDBN} may be able to |
12982 | load programs into flash memory. | |
12983 | ||
c906108c SS |
12984 | @code{load} does not repeat if you press @key{RET} again after using it. |
12985 | @end table | |
12986 | ||
6d2ebf8b | 12987 | @node Byte Order |
79a6e687 | 12988 | @section Choosing Target Byte Order |
7a292a7a | 12989 | |
c906108c SS |
12990 | @cindex choosing target byte order |
12991 | @cindex target byte order | |
c906108c | 12992 | |
172c2a43 | 12993 | Some types of processors, such as the MIPS, PowerPC, and Renesas SH, |
c906108c SS |
12994 | offer the ability to run either big-endian or little-endian byte |
12995 | orders. Usually the executable or symbol will include a bit to | |
12996 | designate the endian-ness, and you will not need to worry about | |
12997 | which to use. However, you may still find it useful to adjust | |
d4f3574e | 12998 | @value{GDBN}'s idea of processor endian-ness manually. |
c906108c SS |
12999 | |
13000 | @table @code | |
4644b6e3 | 13001 | @kindex set endian |
c906108c SS |
13002 | @item set endian big |
13003 | Instruct @value{GDBN} to assume the target is big-endian. | |
13004 | ||
c906108c SS |
13005 | @item set endian little |
13006 | Instruct @value{GDBN} to assume the target is little-endian. | |
13007 | ||
c906108c SS |
13008 | @item set endian auto |
13009 | Instruct @value{GDBN} to use the byte order associated with the | |
13010 | executable. | |
13011 | ||
13012 | @item show endian | |
13013 | Display @value{GDBN}'s current idea of the target byte order. | |
13014 | ||
13015 | @end table | |
13016 | ||
13017 | Note that these commands merely adjust interpretation of symbolic | |
13018 | data on the host, and that they have absolutely no effect on the | |
13019 | target system. | |
13020 | ||
ea35711c DJ |
13021 | |
13022 | @node Remote Debugging | |
13023 | @chapter Debugging Remote Programs | |
c906108c SS |
13024 | @cindex remote debugging |
13025 | ||
13026 | If you are trying to debug a program running on a machine that cannot run | |
5d161b24 DB |
13027 | @value{GDBN} in the usual way, it is often useful to use remote debugging. |
13028 | For example, you might use remote debugging on an operating system kernel, | |
c906108c SS |
13029 | or on a small system which does not have a general purpose operating system |
13030 | powerful enough to run a full-featured debugger. | |
13031 | ||
13032 | Some configurations of @value{GDBN} have special serial or TCP/IP interfaces | |
13033 | to make this work with particular debugging targets. In addition, | |
5d161b24 | 13034 | @value{GDBN} comes with a generic serial protocol (specific to @value{GDBN}, |
c906108c SS |
13035 | but not specific to any particular target system) which you can use if you |
13036 | write the remote stubs---the code that runs on the remote system to | |
13037 | communicate with @value{GDBN}. | |
13038 | ||
13039 | Other remote targets may be available in your | |
13040 | configuration of @value{GDBN}; use @code{help target} to list them. | |
c906108c | 13041 | |
6b2f586d | 13042 | @menu |
07f31aa6 | 13043 | * Connecting:: Connecting to a remote target |
a6b151f1 | 13044 | * File Transfer:: Sending files to a remote system |
6b2f586d | 13045 | * Server:: Using the gdbserver program |
79a6e687 BW |
13046 | * Remote Configuration:: Remote configuration |
13047 | * Remote Stub:: Implementing a remote stub | |
6b2f586d AC |
13048 | @end menu |
13049 | ||
07f31aa6 | 13050 | @node Connecting |
79a6e687 | 13051 | @section Connecting to a Remote Target |
07f31aa6 DJ |
13052 | |
13053 | On the @value{GDBN} host machine, you will need an unstripped copy of | |
d3e8051b | 13054 | your program, since @value{GDBN} needs symbol and debugging information. |
07f31aa6 DJ |
13055 | Start up @value{GDBN} as usual, using the name of the local copy of your |
13056 | program as the first argument. | |
13057 | ||
86941c27 JB |
13058 | @cindex @code{target remote} |
13059 | @value{GDBN} can communicate with the target over a serial line, or | |
13060 | over an @acronym{IP} network using @acronym{TCP} or @acronym{UDP}. In | |
13061 | each case, @value{GDBN} uses the same protocol for debugging your | |
13062 | program; only the medium carrying the debugging packets varies. The | |
13063 | @code{target remote} command establishes a connection to the target. | |
13064 | Its arguments indicate which medium to use: | |
13065 | ||
13066 | @table @code | |
13067 | ||
13068 | @item target remote @var{serial-device} | |
07f31aa6 | 13069 | @cindex serial line, @code{target remote} |
86941c27 JB |
13070 | Use @var{serial-device} to communicate with the target. For example, |
13071 | to use a serial line connected to the device named @file{/dev/ttyb}: | |
13072 | ||
13073 | @smallexample | |
13074 | target remote /dev/ttyb | |
13075 | @end smallexample | |
13076 | ||
07f31aa6 DJ |
13077 | If you're using a serial line, you may want to give @value{GDBN} the |
13078 | @w{@samp{--baud}} option, or use the @code{set remotebaud} command | |
79a6e687 | 13079 | (@pxref{Remote Configuration, set remotebaud}) before the |
9c16f35a | 13080 | @code{target} command. |
07f31aa6 | 13081 | |
86941c27 JB |
13082 | @item target remote @code{@var{host}:@var{port}} |
13083 | @itemx target remote @code{tcp:@var{host}:@var{port}} | |
13084 | @cindex @acronym{TCP} port, @code{target remote} | |
13085 | Debug using a @acronym{TCP} connection to @var{port} on @var{host}. | |
13086 | The @var{host} may be either a host name or a numeric @acronym{IP} | |
13087 | address; @var{port} must be a decimal number. The @var{host} could be | |
13088 | the target machine itself, if it is directly connected to the net, or | |
13089 | it might be a terminal server which in turn has a serial line to the | |
13090 | target. | |
07f31aa6 | 13091 | |
86941c27 JB |
13092 | For example, to connect to port 2828 on a terminal server named |
13093 | @code{manyfarms}: | |
07f31aa6 DJ |
13094 | |
13095 | @smallexample | |
13096 | target remote manyfarms:2828 | |
13097 | @end smallexample | |
13098 | ||
86941c27 JB |
13099 | If your remote target is actually running on the same machine as your |
13100 | debugger session (e.g.@: a simulator for your target running on the | |
13101 | same host), you can omit the hostname. For example, to connect to | |
13102 | port 1234 on your local machine: | |
07f31aa6 DJ |
13103 | |
13104 | @smallexample | |
13105 | target remote :1234 | |
13106 | @end smallexample | |
13107 | @noindent | |
13108 | ||
13109 | Note that the colon is still required here. | |
13110 | ||
86941c27 JB |
13111 | @item target remote @code{udp:@var{host}:@var{port}} |
13112 | @cindex @acronym{UDP} port, @code{target remote} | |
13113 | Debug using @acronym{UDP} packets to @var{port} on @var{host}. For example, to | |
13114 | connect to @acronym{UDP} port 2828 on a terminal server named @code{manyfarms}: | |
07f31aa6 DJ |
13115 | |
13116 | @smallexample | |
13117 | target remote udp:manyfarms:2828 | |
13118 | @end smallexample | |
13119 | ||
86941c27 JB |
13120 | When using a @acronym{UDP} connection for remote debugging, you should |
13121 | keep in mind that the `U' stands for ``Unreliable''. @acronym{UDP} | |
13122 | can silently drop packets on busy or unreliable networks, which will | |
13123 | cause havoc with your debugging session. | |
13124 | ||
66b8c7f6 JB |
13125 | @item target remote | @var{command} |
13126 | @cindex pipe, @code{target remote} to | |
13127 | Run @var{command} in the background and communicate with it using a | |
13128 | pipe. The @var{command} is a shell command, to be parsed and expanded | |
13129 | by the system's command shell, @code{/bin/sh}; it should expect remote | |
13130 | protocol packets on its standard input, and send replies on its | |
13131 | standard output. You could use this to run a stand-alone simulator | |
13132 | that speaks the remote debugging protocol, to make net connections | |
13133 | using programs like @code{ssh}, or for other similar tricks. | |
13134 | ||
13135 | If @var{command} closes its standard output (perhaps by exiting), | |
13136 | @value{GDBN} will try to send it a @code{SIGTERM} signal. (If the | |
13137 | program has already exited, this will have no effect.) | |
13138 | ||
86941c27 | 13139 | @end table |
07f31aa6 | 13140 | |
86941c27 | 13141 | Once the connection has been established, you can use all the usual |
8edfe269 DJ |
13142 | commands to examine and change data. The remote program is already |
13143 | running; you can use @kbd{step} and @kbd{continue}, and you do not | |
13144 | need to use @kbd{run}. | |
07f31aa6 DJ |
13145 | |
13146 | @cindex interrupting remote programs | |
13147 | @cindex remote programs, interrupting | |
13148 | Whenever @value{GDBN} is waiting for the remote program, if you type the | |
c8aa23ab | 13149 | interrupt character (often @kbd{Ctrl-c}), @value{GDBN} attempts to stop the |
07f31aa6 DJ |
13150 | program. This may or may not succeed, depending in part on the hardware |
13151 | and the serial drivers the remote system uses. If you type the | |
13152 | interrupt character once again, @value{GDBN} displays this prompt: | |
13153 | ||
13154 | @smallexample | |
13155 | Interrupted while waiting for the program. | |
13156 | Give up (and stop debugging it)? (y or n) | |
13157 | @end smallexample | |
13158 | ||
13159 | If you type @kbd{y}, @value{GDBN} abandons the remote debugging session. | |
13160 | (If you decide you want to try again later, you can use @samp{target | |
13161 | remote} again to connect once more.) If you type @kbd{n}, @value{GDBN} | |
13162 | goes back to waiting. | |
13163 | ||
13164 | @table @code | |
13165 | @kindex detach (remote) | |
13166 | @item detach | |
13167 | When you have finished debugging the remote program, you can use the | |
13168 | @code{detach} command to release it from @value{GDBN} control. | |
13169 | Detaching from the target normally resumes its execution, but the results | |
13170 | will depend on your particular remote stub. After the @code{detach} | |
13171 | command, @value{GDBN} is free to connect to another target. | |
13172 | ||
13173 | @kindex disconnect | |
13174 | @item disconnect | |
13175 | The @code{disconnect} command behaves like @code{detach}, except that | |
13176 | the target is generally not resumed. It will wait for @value{GDBN} | |
13177 | (this instance or another one) to connect and continue debugging. After | |
13178 | the @code{disconnect} command, @value{GDBN} is again free to connect to | |
13179 | another target. | |
09d4efe1 EZ |
13180 | |
13181 | @cindex send command to remote monitor | |
fad38dfa EZ |
13182 | @cindex extend @value{GDBN} for remote targets |
13183 | @cindex add new commands for external monitor | |
09d4efe1 EZ |
13184 | @kindex monitor |
13185 | @item monitor @var{cmd} | |
fad38dfa EZ |
13186 | This command allows you to send arbitrary commands directly to the |
13187 | remote monitor. Since @value{GDBN} doesn't care about the commands it | |
13188 | sends like this, this command is the way to extend @value{GDBN}---you | |
13189 | can add new commands that only the external monitor will understand | |
13190 | and implement. | |
07f31aa6 DJ |
13191 | @end table |
13192 | ||
a6b151f1 DJ |
13193 | @node File Transfer |
13194 | @section Sending files to a remote system | |
13195 | @cindex remote target, file transfer | |
13196 | @cindex file transfer | |
13197 | @cindex sending files to remote systems | |
13198 | ||
13199 | Some remote targets offer the ability to transfer files over the same | |
13200 | connection used to communicate with @value{GDBN}. This is convenient | |
13201 | for targets accessible through other means, e.g.@: @sc{gnu}/Linux systems | |
13202 | running @code{gdbserver} over a network interface. For other targets, | |
13203 | e.g.@: embedded devices with only a single serial port, this may be | |
13204 | the only way to upload or download files. | |
13205 | ||
13206 | Not all remote targets support these commands. | |
13207 | ||
13208 | @table @code | |
13209 | @kindex remote put | |
13210 | @item remote put @var{hostfile} @var{targetfile} | |
13211 | Copy file @var{hostfile} from the host system (the machine running | |
13212 | @value{GDBN}) to @var{targetfile} on the target system. | |
13213 | ||
13214 | @kindex remote get | |
13215 | @item remote get @var{targetfile} @var{hostfile} | |
13216 | Copy file @var{targetfile} from the target system to @var{hostfile} | |
13217 | on the host system. | |
13218 | ||
13219 | @kindex remote delete | |
13220 | @item remote delete @var{targetfile} | |
13221 | Delete @var{targetfile} from the target system. | |
13222 | ||
13223 | @end table | |
13224 | ||
6f05cf9f | 13225 | @node Server |
79a6e687 | 13226 | @section Using the @code{gdbserver} Program |
6f05cf9f AC |
13227 | |
13228 | @kindex gdbserver | |
13229 | @cindex remote connection without stubs | |
13230 | @code{gdbserver} is a control program for Unix-like systems, which | |
13231 | allows you to connect your program with a remote @value{GDBN} via | |
13232 | @code{target remote}---but without linking in the usual debugging stub. | |
13233 | ||
13234 | @code{gdbserver} is not a complete replacement for the debugging stubs, | |
13235 | because it requires essentially the same operating-system facilities | |
13236 | that @value{GDBN} itself does. In fact, a system that can run | |
13237 | @code{gdbserver} to connect to a remote @value{GDBN} could also run | |
13238 | @value{GDBN} locally! @code{gdbserver} is sometimes useful nevertheless, | |
13239 | because it is a much smaller program than @value{GDBN} itself. It is | |
13240 | also easier to port than all of @value{GDBN}, so you may be able to get | |
13241 | started more quickly on a new system by using @code{gdbserver}. | |
13242 | Finally, if you develop code for real-time systems, you may find that | |
13243 | the tradeoffs involved in real-time operation make it more convenient to | |
13244 | do as much development work as possible on another system, for example | |
13245 | by cross-compiling. You can use @code{gdbserver} to make a similar | |
13246 | choice for debugging. | |
13247 | ||
13248 | @value{GDBN} and @code{gdbserver} communicate via either a serial line | |
13249 | or a TCP connection, using the standard @value{GDBN} remote serial | |
13250 | protocol. | |
13251 | ||
2d717e4f DJ |
13252 | @quotation |
13253 | @emph{Warning:} @code{gdbserver} does not have any built-in security. | |
13254 | Do not run @code{gdbserver} connected to any public network; a | |
13255 | @value{GDBN} connection to @code{gdbserver} provides access to the | |
13256 | target system with the same privileges as the user running | |
13257 | @code{gdbserver}. | |
13258 | @end quotation | |
13259 | ||
13260 | @subsection Running @code{gdbserver} | |
13261 | @cindex arguments, to @code{gdbserver} | |
13262 | ||
13263 | Run @code{gdbserver} on the target system. You need a copy of the | |
13264 | program you want to debug, including any libraries it requires. | |
6f05cf9f AC |
13265 | @code{gdbserver} does not need your program's symbol table, so you can |
13266 | strip the program if necessary to save space. @value{GDBN} on the host | |
13267 | system does all the symbol handling. | |
13268 | ||
13269 | To use the server, you must tell it how to communicate with @value{GDBN}; | |
56460a61 | 13270 | the name of your program; and the arguments for your program. The usual |
6f05cf9f AC |
13271 | syntax is: |
13272 | ||
13273 | @smallexample | |
13274 | target> gdbserver @var{comm} @var{program} [ @var{args} @dots{} ] | |
13275 | @end smallexample | |
13276 | ||
13277 | @var{comm} is either a device name (to use a serial line) or a TCP | |
13278 | hostname and portnumber. For example, to debug Emacs with the argument | |
13279 | @samp{foo.txt} and communicate with @value{GDBN} over the serial port | |
13280 | @file{/dev/com1}: | |
13281 | ||
13282 | @smallexample | |
13283 | target> gdbserver /dev/com1 emacs foo.txt | |
13284 | @end smallexample | |
13285 | ||
13286 | @code{gdbserver} waits passively for the host @value{GDBN} to communicate | |
13287 | with it. | |
13288 | ||
13289 | To use a TCP connection instead of a serial line: | |
13290 | ||
13291 | @smallexample | |
13292 | target> gdbserver host:2345 emacs foo.txt | |
13293 | @end smallexample | |
13294 | ||
13295 | The only difference from the previous example is the first argument, | |
13296 | specifying that you are communicating with the host @value{GDBN} via | |
13297 | TCP. The @samp{host:2345} argument means that @code{gdbserver} is to | |
13298 | expect a TCP connection from machine @samp{host} to local TCP port 2345. | |
13299 | (Currently, the @samp{host} part is ignored.) You can choose any number | |
13300 | you want for the port number as long as it does not conflict with any | |
13301 | TCP ports already in use on the target system (for example, @code{23} is | |
13302 | reserved for @code{telnet}).@footnote{If you choose a port number that | |
13303 | conflicts with another service, @code{gdbserver} prints an error message | |
13304 | and exits.} You must use the same port number with the host @value{GDBN} | |
13305 | @code{target remote} command. | |
13306 | ||
2d717e4f DJ |
13307 | @subsubsection Attaching to a Running Program |
13308 | ||
56460a61 DJ |
13309 | On some targets, @code{gdbserver} can also attach to running programs. |
13310 | This is accomplished via the @code{--attach} argument. The syntax is: | |
13311 | ||
13312 | @smallexample | |
2d717e4f | 13313 | target> gdbserver --attach @var{comm} @var{pid} |
56460a61 DJ |
13314 | @end smallexample |
13315 | ||
13316 | @var{pid} is the process ID of a currently running process. It isn't necessary | |
13317 | to point @code{gdbserver} at a binary for the running process. | |
13318 | ||
b1fe9455 DJ |
13319 | @pindex pidof |
13320 | @cindex attach to a program by name | |
13321 | You can debug processes by name instead of process ID if your target has the | |
13322 | @code{pidof} utility: | |
13323 | ||
13324 | @smallexample | |
2d717e4f | 13325 | target> gdbserver --attach @var{comm} `pidof @var{program}` |
b1fe9455 DJ |
13326 | @end smallexample |
13327 | ||
f822c95b | 13328 | In case more than one copy of @var{program} is running, or @var{program} |
b1fe9455 DJ |
13329 | has multiple threads, most versions of @code{pidof} support the |
13330 | @code{-s} option to only return the first process ID. | |
13331 | ||
2d717e4f DJ |
13332 | @subsubsection Multi-Process Mode for @code{gdbserver} |
13333 | @cindex gdbserver, multiple processes | |
13334 | @cindex multiple processes with gdbserver | |
13335 | ||
13336 | When you connect to @code{gdbserver} using @code{target remote}, | |
13337 | @code{gdbserver} debugs the specified program only once. When the | |
13338 | program exits, or you detach from it, @value{GDBN} closes the connection | |
13339 | and @code{gdbserver} exits. | |
13340 | ||
6e6c6f50 | 13341 | If you connect using @kbd{target extended-remote}, @code{gdbserver} |
2d717e4f DJ |
13342 | enters multi-process mode. When the debugged program exits, or you |
13343 | detach from it, @value{GDBN} stays connected to @code{gdbserver} even | |
13344 | though no program is running. The @code{run} and @code{attach} | |
13345 | commands instruct @code{gdbserver} to run or attach to a new program. | |
13346 | The @code{run} command uses @code{set remote exec-file} (@pxref{set | |
13347 | remote exec-file}) to select the program to run. Command line | |
13348 | arguments are supported, except for wildcard expansion and I/O | |
13349 | redirection (@pxref{Arguments}). | |
13350 | ||
13351 | To start @code{gdbserver} without supplying an initial command to run | |
13352 | or process ID to attach, use the @option{--multi} command line option. | |
6e6c6f50 | 13353 | Then you can connect using @kbd{target extended-remote} and start |
2d717e4f DJ |
13354 | the program you want to debug. |
13355 | ||
13356 | @code{gdbserver} does not automatically exit in multi-process mode. | |
13357 | You can terminate it by using @code{monitor exit} | |
13358 | (@pxref{Monitor Commands for gdbserver}). | |
13359 | ||
13360 | @subsubsection Other Command-Line Arguments for @code{gdbserver} | |
13361 | ||
13362 | You can include @option{--debug} on the @code{gdbserver} command line. | |
13363 | @code{gdbserver} will display extra status information about the debugging | |
13364 | process. This option is intended for @code{gdbserver} development and | |
13365 | for bug reports to the developers. | |
13366 | ||
ccd213ac DJ |
13367 | The @option{--wrapper} option specifies a wrapper to launch programs |
13368 | for debugging. The option should be followed by the name of the | |
13369 | wrapper, then any command-line arguments to pass to the wrapper, then | |
13370 | @kbd{--} indicating the end of the wrapper arguments. | |
13371 | ||
13372 | @code{gdbserver} runs the specified wrapper program with a combined | |
13373 | command line including the wrapper arguments, then the name of the | |
13374 | program to debug, then any arguments to the program. The wrapper | |
13375 | runs until it executes your program, and then @value{GDBN} gains control. | |
13376 | ||
13377 | You can use any program that eventually calls @code{execve} with | |
13378 | its arguments as a wrapper. Several standard Unix utilities do | |
13379 | this, e.g.@: @code{env} and @code{nohup}. Any Unix shell script ending | |
13380 | with @code{exec "$@@"} will also work. | |
13381 | ||
13382 | For example, you can use @code{env} to pass an environment variable to | |
13383 | the debugged program, without setting the variable in @code{gdbserver}'s | |
13384 | environment: | |
13385 | ||
13386 | @smallexample | |
13387 | $ gdbserver --wrapper env LD_PRELOAD=libtest.so -- :2222 ./testprog | |
13388 | @end smallexample | |
13389 | ||
2d717e4f DJ |
13390 | @subsection Connecting to @code{gdbserver} |
13391 | ||
13392 | Run @value{GDBN} on the host system. | |
13393 | ||
13394 | First make sure you have the necessary symbol files. Load symbols for | |
f822c95b DJ |
13395 | your application using the @code{file} command before you connect. Use |
13396 | @code{set sysroot} to locate target libraries (unless your @value{GDBN} | |
2d717e4f | 13397 | was compiled with the correct sysroot using @code{--with-sysroot}). |
f822c95b DJ |
13398 | |
13399 | The symbol file and target libraries must exactly match the executable | |
13400 | and libraries on the target, with one exception: the files on the host | |
13401 | system should not be stripped, even if the files on the target system | |
13402 | are. Mismatched or missing files will lead to confusing results | |
13403 | during debugging. On @sc{gnu}/Linux targets, mismatched or missing | |
13404 | files may also prevent @code{gdbserver} from debugging multi-threaded | |
13405 | programs. | |
13406 | ||
79a6e687 | 13407 | Connect to your target (@pxref{Connecting,,Connecting to a Remote Target}). |
6f05cf9f AC |
13408 | For TCP connections, you must start up @code{gdbserver} prior to using |
13409 | the @code{target remote} command. Otherwise you may get an error whose | |
13410 | text depends on the host system, but which usually looks something like | |
2d717e4f | 13411 | @samp{Connection refused}. Don't use the @code{load} |
397ca115 | 13412 | command in @value{GDBN} when using @code{gdbserver}, since the program is |
f822c95b | 13413 | already on the target. |
07f31aa6 | 13414 | |
79a6e687 | 13415 | @subsection Monitor Commands for @code{gdbserver} |
c74d0ad8 | 13416 | @cindex monitor commands, for @code{gdbserver} |
2d717e4f | 13417 | @anchor{Monitor Commands for gdbserver} |
c74d0ad8 DJ |
13418 | |
13419 | During a @value{GDBN} session using @code{gdbserver}, you can use the | |
13420 | @code{monitor} command to send special requests to @code{gdbserver}. | |
2d717e4f | 13421 | Here are the available commands. |
c74d0ad8 DJ |
13422 | |
13423 | @table @code | |
13424 | @item monitor help | |
13425 | List the available monitor commands. | |
13426 | ||
13427 | @item monitor set debug 0 | |
13428 | @itemx monitor set debug 1 | |
13429 | Disable or enable general debugging messages. | |
13430 | ||
13431 | @item monitor set remote-debug 0 | |
13432 | @itemx monitor set remote-debug 1 | |
13433 | Disable or enable specific debugging messages associated with the remote | |
13434 | protocol (@pxref{Remote Protocol}). | |
13435 | ||
2d717e4f DJ |
13436 | @item monitor exit |
13437 | Tell gdbserver to exit immediately. This command should be followed by | |
13438 | @code{disconnect} to close the debugging session. @code{gdbserver} will | |
13439 | detach from any attached processes and kill any processes it created. | |
13440 | Use @code{monitor exit} to terminate @code{gdbserver} at the end | |
13441 | of a multi-process mode debug session. | |
13442 | ||
c74d0ad8 DJ |
13443 | @end table |
13444 | ||
79a6e687 BW |
13445 | @node Remote Configuration |
13446 | @section Remote Configuration | |
501eef12 | 13447 | |
9c16f35a EZ |
13448 | @kindex set remote |
13449 | @kindex show remote | |
13450 | This section documents the configuration options available when | |
13451 | debugging remote programs. For the options related to the File I/O | |
fc320d37 | 13452 | extensions of the remote protocol, see @ref{system, |
9c16f35a | 13453 | system-call-allowed}. |
501eef12 AC |
13454 | |
13455 | @table @code | |
9c16f35a | 13456 | @item set remoteaddresssize @var{bits} |
d3e8051b | 13457 | @cindex address size for remote targets |
9c16f35a EZ |
13458 | @cindex bits in remote address |
13459 | Set the maximum size of address in a memory packet to the specified | |
13460 | number of bits. @value{GDBN} will mask off the address bits above | |
13461 | that number, when it passes addresses to the remote target. The | |
13462 | default value is the number of bits in the target's address. | |
13463 | ||
13464 | @item show remoteaddresssize | |
13465 | Show the current value of remote address size in bits. | |
13466 | ||
13467 | @item set remotebaud @var{n} | |
13468 | @cindex baud rate for remote targets | |
13469 | Set the baud rate for the remote serial I/O to @var{n} baud. The | |
13470 | value is used to set the speed of the serial port used for debugging | |
13471 | remote targets. | |
13472 | ||
13473 | @item show remotebaud | |
13474 | Show the current speed of the remote connection. | |
13475 | ||
13476 | @item set remotebreak | |
13477 | @cindex interrupt remote programs | |
13478 | @cindex BREAK signal instead of Ctrl-C | |
9a6253be | 13479 | @anchor{set remotebreak} |
9c16f35a | 13480 | If set to on, @value{GDBN} sends a @code{BREAK} signal to the remote |
c8aa23ab | 13481 | when you type @kbd{Ctrl-c} to interrupt the program running |
9a7a1b36 | 13482 | on the remote. If set to off, @value{GDBN} sends the @samp{Ctrl-C} |
9c16f35a EZ |
13483 | character instead. The default is off, since most remote systems |
13484 | expect to see @samp{Ctrl-C} as the interrupt signal. | |
13485 | ||
13486 | @item show remotebreak | |
13487 | Show whether @value{GDBN} sends @code{BREAK} or @samp{Ctrl-C} to | |
13488 | interrupt the remote program. | |
13489 | ||
23776285 MR |
13490 | @item set remoteflow on |
13491 | @itemx set remoteflow off | |
13492 | @kindex set remoteflow | |
13493 | Enable or disable hardware flow control (@code{RTS}/@code{CTS}) | |
13494 | on the serial port used to communicate to the remote target. | |
13495 | ||
13496 | @item show remoteflow | |
13497 | @kindex show remoteflow | |
13498 | Show the current setting of hardware flow control. | |
13499 | ||
9c16f35a EZ |
13500 | @item set remotelogbase @var{base} |
13501 | Set the base (a.k.a.@: radix) of logging serial protocol | |
13502 | communications to @var{base}. Supported values of @var{base} are: | |
13503 | @code{ascii}, @code{octal}, and @code{hex}. The default is | |
13504 | @code{ascii}. | |
13505 | ||
13506 | @item show remotelogbase | |
13507 | Show the current setting of the radix for logging remote serial | |
13508 | protocol. | |
13509 | ||
13510 | @item set remotelogfile @var{file} | |
13511 | @cindex record serial communications on file | |
13512 | Record remote serial communications on the named @var{file}. The | |
13513 | default is not to record at all. | |
13514 | ||
13515 | @item show remotelogfile. | |
13516 | Show the current setting of the file name on which to record the | |
13517 | serial communications. | |
13518 | ||
13519 | @item set remotetimeout @var{num} | |
13520 | @cindex timeout for serial communications | |
13521 | @cindex remote timeout | |
13522 | Set the timeout limit to wait for the remote target to respond to | |
13523 | @var{num} seconds. The default is 2 seconds. | |
13524 | ||
13525 | @item show remotetimeout | |
13526 | Show the current number of seconds to wait for the remote target | |
13527 | responses. | |
13528 | ||
13529 | @cindex limit hardware breakpoints and watchpoints | |
13530 | @cindex remote target, limit break- and watchpoints | |
501eef12 AC |
13531 | @anchor{set remote hardware-watchpoint-limit} |
13532 | @anchor{set remote hardware-breakpoint-limit} | |
13533 | @item set remote hardware-watchpoint-limit @var{limit} | |
13534 | @itemx set remote hardware-breakpoint-limit @var{limit} | |
13535 | Restrict @value{GDBN} to using @var{limit} remote hardware breakpoint or | |
13536 | watchpoints. A limit of -1, the default, is treated as unlimited. | |
2d717e4f DJ |
13537 | |
13538 | @item set remote exec-file @var{filename} | |
13539 | @itemx show remote exec-file | |
13540 | @anchor{set remote exec-file} | |
13541 | @cindex executable file, for remote target | |
13542 | Select the file used for @code{run} with @code{target | |
13543 | extended-remote}. This should be set to a filename valid on the | |
13544 | target system. If it is not set, the target will use a default | |
13545 | filename (e.g.@: the last program run). | |
501eef12 AC |
13546 | @end table |
13547 | ||
427c3a89 DJ |
13548 | @cindex remote packets, enabling and disabling |
13549 | The @value{GDBN} remote protocol autodetects the packets supported by | |
13550 | your debugging stub. If you need to override the autodetection, you | |
13551 | can use these commands to enable or disable individual packets. Each | |
13552 | packet can be set to @samp{on} (the remote target supports this | |
13553 | packet), @samp{off} (the remote target does not support this packet), | |
13554 | or @samp{auto} (detect remote target support for this packet). They | |
13555 | all default to @samp{auto}. For more information about each packet, | |
13556 | see @ref{Remote Protocol}. | |
13557 | ||
13558 | During normal use, you should not have to use any of these commands. | |
13559 | If you do, that may be a bug in your remote debugging stub, or a bug | |
13560 | in @value{GDBN}. You may want to report the problem to the | |
13561 | @value{GDBN} developers. | |
13562 | ||
cfa9d6d9 DJ |
13563 | For each packet @var{name}, the command to enable or disable the |
13564 | packet is @code{set remote @var{name}-packet}. The available settings | |
13565 | are: | |
427c3a89 | 13566 | |
cfa9d6d9 | 13567 | @multitable @columnfractions 0.28 0.32 0.25 |
427c3a89 DJ |
13568 | @item Command Name |
13569 | @tab Remote Packet | |
13570 | @tab Related Features | |
13571 | ||
cfa9d6d9 | 13572 | @item @code{fetch-register} |
427c3a89 DJ |
13573 | @tab @code{p} |
13574 | @tab @code{info registers} | |
13575 | ||
cfa9d6d9 | 13576 | @item @code{set-register} |
427c3a89 DJ |
13577 | @tab @code{P} |
13578 | @tab @code{set} | |
13579 | ||
cfa9d6d9 | 13580 | @item @code{binary-download} |
427c3a89 DJ |
13581 | @tab @code{X} |
13582 | @tab @code{load}, @code{set} | |
13583 | ||
cfa9d6d9 | 13584 | @item @code{read-aux-vector} |
427c3a89 DJ |
13585 | @tab @code{qXfer:auxv:read} |
13586 | @tab @code{info auxv} | |
13587 | ||
cfa9d6d9 | 13588 | @item @code{symbol-lookup} |
427c3a89 DJ |
13589 | @tab @code{qSymbol} |
13590 | @tab Detecting multiple threads | |
13591 | ||
2d717e4f DJ |
13592 | @item @code{attach} |
13593 | @tab @code{vAttach} | |
13594 | @tab @code{attach} | |
13595 | ||
cfa9d6d9 | 13596 | @item @code{verbose-resume} |
427c3a89 DJ |
13597 | @tab @code{vCont} |
13598 | @tab Stepping or resuming multiple threads | |
13599 | ||
2d717e4f DJ |
13600 | @item @code{run} |
13601 | @tab @code{vRun} | |
13602 | @tab @code{run} | |
13603 | ||
cfa9d6d9 | 13604 | @item @code{software-breakpoint} |
427c3a89 DJ |
13605 | @tab @code{Z0} |
13606 | @tab @code{break} | |
13607 | ||
cfa9d6d9 | 13608 | @item @code{hardware-breakpoint} |
427c3a89 DJ |
13609 | @tab @code{Z1} |
13610 | @tab @code{hbreak} | |
13611 | ||
cfa9d6d9 | 13612 | @item @code{write-watchpoint} |
427c3a89 DJ |
13613 | @tab @code{Z2} |
13614 | @tab @code{watch} | |
13615 | ||
cfa9d6d9 | 13616 | @item @code{read-watchpoint} |
427c3a89 DJ |
13617 | @tab @code{Z3} |
13618 | @tab @code{rwatch} | |
13619 | ||
cfa9d6d9 | 13620 | @item @code{access-watchpoint} |
427c3a89 DJ |
13621 | @tab @code{Z4} |
13622 | @tab @code{awatch} | |
13623 | ||
cfa9d6d9 DJ |
13624 | @item @code{target-features} |
13625 | @tab @code{qXfer:features:read} | |
13626 | @tab @code{set architecture} | |
13627 | ||
13628 | @item @code{library-info} | |
13629 | @tab @code{qXfer:libraries:read} | |
13630 | @tab @code{info sharedlibrary} | |
13631 | ||
13632 | @item @code{memory-map} | |
13633 | @tab @code{qXfer:memory-map:read} | |
13634 | @tab @code{info mem} | |
13635 | ||
13636 | @item @code{read-spu-object} | |
13637 | @tab @code{qXfer:spu:read} | |
13638 | @tab @code{info spu} | |
13639 | ||
13640 | @item @code{write-spu-object} | |
13641 | @tab @code{qXfer:spu:write} | |
13642 | @tab @code{info spu} | |
13643 | ||
13644 | @item @code{get-thread-local-@*storage-address} | |
427c3a89 DJ |
13645 | @tab @code{qGetTLSAddr} |
13646 | @tab Displaying @code{__thread} variables | |
13647 | ||
08388c79 DE |
13648 | @item @code{search-memory} |
13649 | @tab @code{qSearch:memory} | |
13650 | @tab @code{find} | |
13651 | ||
427c3a89 DJ |
13652 | @item @code{supported-packets} |
13653 | @tab @code{qSupported} | |
13654 | @tab Remote communications parameters | |
13655 | ||
cfa9d6d9 | 13656 | @item @code{pass-signals} |
89be2091 DJ |
13657 | @tab @code{QPassSignals} |
13658 | @tab @code{handle @var{signal}} | |
13659 | ||
a6b151f1 DJ |
13660 | @item @code{hostio-close-packet} |
13661 | @tab @code{vFile:close} | |
13662 | @tab @code{remote get}, @code{remote put} | |
13663 | ||
13664 | @item @code{hostio-open-packet} | |
13665 | @tab @code{vFile:open} | |
13666 | @tab @code{remote get}, @code{remote put} | |
13667 | ||
13668 | @item @code{hostio-pread-packet} | |
13669 | @tab @code{vFile:pread} | |
13670 | @tab @code{remote get}, @code{remote put} | |
13671 | ||
13672 | @item @code{hostio-pwrite-packet} | |
13673 | @tab @code{vFile:pwrite} | |
13674 | @tab @code{remote get}, @code{remote put} | |
13675 | ||
13676 | @item @code{hostio-unlink-packet} | |
13677 | @tab @code{vFile:unlink} | |
13678 | @tab @code{remote delete} | |
427c3a89 DJ |
13679 | @end multitable |
13680 | ||
79a6e687 BW |
13681 | @node Remote Stub |
13682 | @section Implementing a Remote Stub | |
7a292a7a | 13683 | |
8e04817f AC |
13684 | @cindex debugging stub, example |
13685 | @cindex remote stub, example | |
13686 | @cindex stub example, remote debugging | |
13687 | The stub files provided with @value{GDBN} implement the target side of the | |
13688 | communication protocol, and the @value{GDBN} side is implemented in the | |
13689 | @value{GDBN} source file @file{remote.c}. Normally, you can simply allow | |
13690 | these subroutines to communicate, and ignore the details. (If you're | |
13691 | implementing your own stub file, you can still ignore the details: start | |
13692 | with one of the existing stub files. @file{sparc-stub.c} is the best | |
13693 | organized, and therefore the easiest to read.) | |
13694 | ||
104c1213 JM |
13695 | @cindex remote serial debugging, overview |
13696 | To debug a program running on another machine (the debugging | |
13697 | @dfn{target} machine), you must first arrange for all the usual | |
13698 | prerequisites for the program to run by itself. For example, for a C | |
13699 | program, you need: | |
c906108c | 13700 | |
104c1213 JM |
13701 | @enumerate |
13702 | @item | |
13703 | A startup routine to set up the C runtime environment; these usually | |
13704 | have a name like @file{crt0}. The startup routine may be supplied by | |
13705 | your hardware supplier, or you may have to write your own. | |
96baa820 | 13706 | |
5d161b24 | 13707 | @item |
d4f3574e | 13708 | A C subroutine library to support your program's |
104c1213 | 13709 | subroutine calls, notably managing input and output. |
96baa820 | 13710 | |
104c1213 JM |
13711 | @item |
13712 | A way of getting your program to the other machine---for example, a | |
13713 | download program. These are often supplied by the hardware | |
13714 | manufacturer, but you may have to write your own from hardware | |
13715 | documentation. | |
13716 | @end enumerate | |
96baa820 | 13717 | |
104c1213 JM |
13718 | The next step is to arrange for your program to use a serial port to |
13719 | communicate with the machine where @value{GDBN} is running (the @dfn{host} | |
13720 | machine). In general terms, the scheme looks like this: | |
96baa820 | 13721 | |
104c1213 JM |
13722 | @table @emph |
13723 | @item On the host, | |
13724 | @value{GDBN} already understands how to use this protocol; when everything | |
13725 | else is set up, you can simply use the @samp{target remote} command | |
13726 | (@pxref{Targets,,Specifying a Debugging Target}). | |
13727 | ||
13728 | @item On the target, | |
13729 | you must link with your program a few special-purpose subroutines that | |
13730 | implement the @value{GDBN} remote serial protocol. The file containing these | |
13731 | subroutines is called a @dfn{debugging stub}. | |
13732 | ||
13733 | On certain remote targets, you can use an auxiliary program | |
13734 | @code{gdbserver} instead of linking a stub into your program. | |
79a6e687 | 13735 | @xref{Server,,Using the @code{gdbserver} Program}, for details. |
104c1213 | 13736 | @end table |
96baa820 | 13737 | |
104c1213 JM |
13738 | The debugging stub is specific to the architecture of the remote |
13739 | machine; for example, use @file{sparc-stub.c} to debug programs on | |
13740 | @sc{sparc} boards. | |
96baa820 | 13741 | |
104c1213 JM |
13742 | @cindex remote serial stub list |
13743 | These working remote stubs are distributed with @value{GDBN}: | |
96baa820 | 13744 | |
104c1213 JM |
13745 | @table @code |
13746 | ||
13747 | @item i386-stub.c | |
41afff9a | 13748 | @cindex @file{i386-stub.c} |
104c1213 JM |
13749 | @cindex Intel |
13750 | @cindex i386 | |
13751 | For Intel 386 and compatible architectures. | |
13752 | ||
13753 | @item m68k-stub.c | |
41afff9a | 13754 | @cindex @file{m68k-stub.c} |
104c1213 JM |
13755 | @cindex Motorola 680x0 |
13756 | @cindex m680x0 | |
13757 | For Motorola 680x0 architectures. | |
13758 | ||
13759 | @item sh-stub.c | |
41afff9a | 13760 | @cindex @file{sh-stub.c} |
172c2a43 | 13761 | @cindex Renesas |
104c1213 | 13762 | @cindex SH |
172c2a43 | 13763 | For Renesas SH architectures. |
104c1213 JM |
13764 | |
13765 | @item sparc-stub.c | |
41afff9a | 13766 | @cindex @file{sparc-stub.c} |
104c1213 JM |
13767 | @cindex Sparc |
13768 | For @sc{sparc} architectures. | |
13769 | ||
13770 | @item sparcl-stub.c | |
41afff9a | 13771 | @cindex @file{sparcl-stub.c} |
104c1213 JM |
13772 | @cindex Fujitsu |
13773 | @cindex SparcLite | |
13774 | For Fujitsu @sc{sparclite} architectures. | |
13775 | ||
13776 | @end table | |
13777 | ||
13778 | The @file{README} file in the @value{GDBN} distribution may list other | |
13779 | recently added stubs. | |
13780 | ||
13781 | @menu | |
13782 | * Stub Contents:: What the stub can do for you | |
13783 | * Bootstrapping:: What you must do for the stub | |
13784 | * Debug Session:: Putting it all together | |
104c1213 JM |
13785 | @end menu |
13786 | ||
6d2ebf8b | 13787 | @node Stub Contents |
79a6e687 | 13788 | @subsection What the Stub Can Do for You |
104c1213 JM |
13789 | |
13790 | @cindex remote serial stub | |
13791 | The debugging stub for your architecture supplies these three | |
13792 | subroutines: | |
13793 | ||
13794 | @table @code | |
13795 | @item set_debug_traps | |
4644b6e3 | 13796 | @findex set_debug_traps |
104c1213 JM |
13797 | @cindex remote serial stub, initialization |
13798 | This routine arranges for @code{handle_exception} to run when your | |
13799 | program stops. You must call this subroutine explicitly near the | |
13800 | beginning of your program. | |
13801 | ||
13802 | @item handle_exception | |
4644b6e3 | 13803 | @findex handle_exception |
104c1213 JM |
13804 | @cindex remote serial stub, main routine |
13805 | This is the central workhorse, but your program never calls it | |
13806 | explicitly---the setup code arranges for @code{handle_exception} to | |
13807 | run when a trap is triggered. | |
13808 | ||
13809 | @code{handle_exception} takes control when your program stops during | |
13810 | execution (for example, on a breakpoint), and mediates communications | |
13811 | with @value{GDBN} on the host machine. This is where the communications | |
13812 | protocol is implemented; @code{handle_exception} acts as the @value{GDBN} | |
d4f3574e | 13813 | representative on the target machine. It begins by sending summary |
104c1213 JM |
13814 | information on the state of your program, then continues to execute, |
13815 | retrieving and transmitting any information @value{GDBN} needs, until you | |
13816 | execute a @value{GDBN} command that makes your program resume; at that point, | |
13817 | @code{handle_exception} returns control to your own code on the target | |
5d161b24 | 13818 | machine. |
104c1213 JM |
13819 | |
13820 | @item breakpoint | |
13821 | @cindex @code{breakpoint} subroutine, remote | |
13822 | Use this auxiliary subroutine to make your program contain a | |
13823 | breakpoint. Depending on the particular situation, this may be the only | |
13824 | way for @value{GDBN} to get control. For instance, if your target | |
13825 | machine has some sort of interrupt button, you won't need to call this; | |
13826 | pressing the interrupt button transfers control to | |
13827 | @code{handle_exception}---in effect, to @value{GDBN}. On some machines, | |
13828 | simply receiving characters on the serial port may also trigger a trap; | |
13829 | again, in that situation, you don't need to call @code{breakpoint} from | |
13830 | your own program---simply running @samp{target remote} from the host | |
5d161b24 | 13831 | @value{GDBN} session gets control. |
104c1213 JM |
13832 | |
13833 | Call @code{breakpoint} if none of these is true, or if you simply want | |
13834 | to make certain your program stops at a predetermined point for the | |
13835 | start of your debugging session. | |
13836 | @end table | |
13837 | ||
6d2ebf8b | 13838 | @node Bootstrapping |
79a6e687 | 13839 | @subsection What You Must Do for the Stub |
104c1213 JM |
13840 | |
13841 | @cindex remote stub, support routines | |
13842 | The debugging stubs that come with @value{GDBN} are set up for a particular | |
13843 | chip architecture, but they have no information about the rest of your | |
13844 | debugging target machine. | |
13845 | ||
13846 | First of all you need to tell the stub how to communicate with the | |
13847 | serial port. | |
13848 | ||
13849 | @table @code | |
13850 | @item int getDebugChar() | |
4644b6e3 | 13851 | @findex getDebugChar |
104c1213 JM |
13852 | Write this subroutine to read a single character from the serial port. |
13853 | It may be identical to @code{getchar} for your target system; a | |
13854 | different name is used to allow you to distinguish the two if you wish. | |
13855 | ||
13856 | @item void putDebugChar(int) | |
4644b6e3 | 13857 | @findex putDebugChar |
104c1213 | 13858 | Write this subroutine to write a single character to the serial port. |
5d161b24 | 13859 | It may be identical to @code{putchar} for your target system; a |
104c1213 JM |
13860 | different name is used to allow you to distinguish the two if you wish. |
13861 | @end table | |
13862 | ||
13863 | @cindex control C, and remote debugging | |
13864 | @cindex interrupting remote targets | |
13865 | If you want @value{GDBN} to be able to stop your program while it is | |
13866 | running, you need to use an interrupt-driven serial driver, and arrange | |
13867 | for it to stop when it receives a @code{^C} (@samp{\003}, the control-C | |
13868 | character). That is the character which @value{GDBN} uses to tell the | |
13869 | remote system to stop. | |
13870 | ||
13871 | Getting the debugging target to return the proper status to @value{GDBN} | |
13872 | probably requires changes to the standard stub; one quick and dirty way | |
13873 | is to just execute a breakpoint instruction (the ``dirty'' part is that | |
13874 | @value{GDBN} reports a @code{SIGTRAP} instead of a @code{SIGINT}). | |
13875 | ||
13876 | Other routines you need to supply are: | |
13877 | ||
13878 | @table @code | |
13879 | @item void exceptionHandler (int @var{exception_number}, void *@var{exception_address}) | |
4644b6e3 | 13880 | @findex exceptionHandler |
104c1213 JM |
13881 | Write this function to install @var{exception_address} in the exception |
13882 | handling tables. You need to do this because the stub does not have any | |
13883 | way of knowing what the exception handling tables on your target system | |
13884 | are like (for example, the processor's table might be in @sc{rom}, | |
13885 | containing entries which point to a table in @sc{ram}). | |
13886 | @var{exception_number} is the exception number which should be changed; | |
13887 | its meaning is architecture-dependent (for example, different numbers | |
13888 | might represent divide by zero, misaligned access, etc). When this | |
13889 | exception occurs, control should be transferred directly to | |
13890 | @var{exception_address}, and the processor state (stack, registers, | |
13891 | and so on) should be just as it is when a processor exception occurs. So if | |
13892 | you want to use a jump instruction to reach @var{exception_address}, it | |
13893 | should be a simple jump, not a jump to subroutine. | |
13894 | ||
13895 | For the 386, @var{exception_address} should be installed as an interrupt | |
13896 | gate so that interrupts are masked while the handler runs. The gate | |
13897 | should be at privilege level 0 (the most privileged level). The | |
13898 | @sc{sparc} and 68k stubs are able to mask interrupts themselves without | |
13899 | help from @code{exceptionHandler}. | |
13900 | ||
13901 | @item void flush_i_cache() | |
4644b6e3 | 13902 | @findex flush_i_cache |
d4f3574e | 13903 | On @sc{sparc} and @sc{sparclite} only, write this subroutine to flush the |
104c1213 JM |
13904 | instruction cache, if any, on your target machine. If there is no |
13905 | instruction cache, this subroutine may be a no-op. | |
13906 | ||
13907 | On target machines that have instruction caches, @value{GDBN} requires this | |
13908 | function to make certain that the state of your program is stable. | |
13909 | @end table | |
13910 | ||
13911 | @noindent | |
13912 | You must also make sure this library routine is available: | |
13913 | ||
13914 | @table @code | |
13915 | @item void *memset(void *, int, int) | |
4644b6e3 | 13916 | @findex memset |
104c1213 JM |
13917 | This is the standard library function @code{memset} that sets an area of |
13918 | memory to a known value. If you have one of the free versions of | |
13919 | @code{libc.a}, @code{memset} can be found there; otherwise, you must | |
13920 | either obtain it from your hardware manufacturer, or write your own. | |
13921 | @end table | |
13922 | ||
13923 | If you do not use the GNU C compiler, you may need other standard | |
13924 | library subroutines as well; this varies from one stub to another, | |
13925 | but in general the stubs are likely to use any of the common library | |
e22ea452 | 13926 | subroutines which @code{@value{NGCC}} generates as inline code. |
104c1213 JM |
13927 | |
13928 | ||
6d2ebf8b | 13929 | @node Debug Session |
79a6e687 | 13930 | @subsection Putting it All Together |
104c1213 JM |
13931 | |
13932 | @cindex remote serial debugging summary | |
13933 | In summary, when your program is ready to debug, you must follow these | |
13934 | steps. | |
13935 | ||
13936 | @enumerate | |
13937 | @item | |
6d2ebf8b | 13938 | Make sure you have defined the supporting low-level routines |
79a6e687 | 13939 | (@pxref{Bootstrapping,,What You Must Do for the Stub}): |
104c1213 JM |
13940 | @display |
13941 | @code{getDebugChar}, @code{putDebugChar}, | |
13942 | @code{flush_i_cache}, @code{memset}, @code{exceptionHandler}. | |
13943 | @end display | |
13944 | ||
13945 | @item | |
13946 | Insert these lines near the top of your program: | |
13947 | ||
474c8240 | 13948 | @smallexample |
104c1213 JM |
13949 | set_debug_traps(); |
13950 | breakpoint(); | |
474c8240 | 13951 | @end smallexample |
104c1213 JM |
13952 | |
13953 | @item | |
13954 | For the 680x0 stub only, you need to provide a variable called | |
13955 | @code{exceptionHook}. Normally you just use: | |
13956 | ||
474c8240 | 13957 | @smallexample |
104c1213 | 13958 | void (*exceptionHook)() = 0; |
474c8240 | 13959 | @end smallexample |
104c1213 | 13960 | |
d4f3574e | 13961 | @noindent |
104c1213 | 13962 | but if before calling @code{set_debug_traps}, you set it to point to a |
598ca718 | 13963 | function in your program, that function is called when |
104c1213 JM |
13964 | @code{@value{GDBN}} continues after stopping on a trap (for example, bus |
13965 | error). The function indicated by @code{exceptionHook} is called with | |
13966 | one parameter: an @code{int} which is the exception number. | |
13967 | ||
13968 | @item | |
13969 | Compile and link together: your program, the @value{GDBN} debugging stub for | |
13970 | your target architecture, and the supporting subroutines. | |
13971 | ||
13972 | @item | |
13973 | Make sure you have a serial connection between your target machine and | |
13974 | the @value{GDBN} host, and identify the serial port on the host. | |
13975 | ||
13976 | @item | |
13977 | @c The "remote" target now provides a `load' command, so we should | |
13978 | @c document that. FIXME. | |
13979 | Download your program to your target machine (or get it there by | |
13980 | whatever means the manufacturer provides), and start it. | |
13981 | ||
13982 | @item | |
07f31aa6 | 13983 | Start @value{GDBN} on the host, and connect to the target |
79a6e687 | 13984 | (@pxref{Connecting,,Connecting to a Remote Target}). |
9db8d71f | 13985 | |
104c1213 JM |
13986 | @end enumerate |
13987 | ||
8e04817f AC |
13988 | @node Configurations |
13989 | @chapter Configuration-Specific Information | |
104c1213 | 13990 | |
8e04817f AC |
13991 | While nearly all @value{GDBN} commands are available for all native and |
13992 | cross versions of the debugger, there are some exceptions. This chapter | |
13993 | describes things that are only available in certain configurations. | |
104c1213 | 13994 | |
8e04817f AC |
13995 | There are three major categories of configurations: native |
13996 | configurations, where the host and target are the same, embedded | |
13997 | operating system configurations, which are usually the same for several | |
13998 | different processor architectures, and bare embedded processors, which | |
13999 | are quite different from each other. | |
104c1213 | 14000 | |
8e04817f AC |
14001 | @menu |
14002 | * Native:: | |
14003 | * Embedded OS:: | |
14004 | * Embedded Processors:: | |
14005 | * Architectures:: | |
14006 | @end menu | |
104c1213 | 14007 | |
8e04817f AC |
14008 | @node Native |
14009 | @section Native | |
104c1213 | 14010 | |
8e04817f AC |
14011 | This section describes details specific to particular native |
14012 | configurations. | |
6cf7e474 | 14013 | |
8e04817f AC |
14014 | @menu |
14015 | * HP-UX:: HP-UX | |
7561d450 | 14016 | * BSD libkvm Interface:: Debugging BSD kernel memory images |
8e04817f AC |
14017 | * SVR4 Process Information:: SVR4 process information |
14018 | * DJGPP Native:: Features specific to the DJGPP port | |
78c47bea | 14019 | * Cygwin Native:: Features specific to the Cygwin port |
14d6dd68 | 14020 | * Hurd Native:: Features specific to @sc{gnu} Hurd |
a64548ea | 14021 | * Neutrino:: Features specific to QNX Neutrino |
8e04817f | 14022 | @end menu |
6cf7e474 | 14023 | |
8e04817f AC |
14024 | @node HP-UX |
14025 | @subsection HP-UX | |
104c1213 | 14026 | |
8e04817f AC |
14027 | On HP-UX systems, if you refer to a function or variable name that |
14028 | begins with a dollar sign, @value{GDBN} searches for a user or system | |
14029 | name first, before it searches for a convenience variable. | |
104c1213 | 14030 | |
9c16f35a | 14031 | |
7561d450 MK |
14032 | @node BSD libkvm Interface |
14033 | @subsection BSD libkvm Interface | |
14034 | ||
14035 | @cindex libkvm | |
14036 | @cindex kernel memory image | |
14037 | @cindex kernel crash dump | |
14038 | ||
14039 | BSD-derived systems (FreeBSD/NetBSD/OpenBSD) have a kernel memory | |
14040 | interface that provides a uniform interface for accessing kernel virtual | |
14041 | memory images, including live systems and crash dumps. @value{GDBN} | |
14042 | uses this interface to allow you to debug live kernels and kernel crash | |
14043 | dumps on many native BSD configurations. This is implemented as a | |
14044 | special @code{kvm} debugging target. For debugging a live system, load | |
14045 | the currently running kernel into @value{GDBN} and connect to the | |
14046 | @code{kvm} target: | |
14047 | ||
14048 | @smallexample | |
14049 | (@value{GDBP}) @b{target kvm} | |
14050 | @end smallexample | |
14051 | ||
14052 | For debugging crash dumps, provide the file name of the crash dump as an | |
14053 | argument: | |
14054 | ||
14055 | @smallexample | |
14056 | (@value{GDBP}) @b{target kvm /var/crash/bsd.0} | |
14057 | @end smallexample | |
14058 | ||
14059 | Once connected to the @code{kvm} target, the following commands are | |
14060 | available: | |
14061 | ||
14062 | @table @code | |
14063 | @kindex kvm | |
14064 | @item kvm pcb | |
721c2651 | 14065 | Set current context from the @dfn{Process Control Block} (PCB) address. |
7561d450 MK |
14066 | |
14067 | @item kvm proc | |
14068 | Set current context from proc address. This command isn't available on | |
14069 | modern FreeBSD systems. | |
14070 | @end table | |
14071 | ||
8e04817f | 14072 | @node SVR4 Process Information |
79a6e687 | 14073 | @subsection SVR4 Process Information |
60bf7e09 EZ |
14074 | @cindex /proc |
14075 | @cindex examine process image | |
14076 | @cindex process info via @file{/proc} | |
104c1213 | 14077 | |
60bf7e09 EZ |
14078 | Many versions of SVR4 and compatible systems provide a facility called |
14079 | @samp{/proc} that can be used to examine the image of a running | |
14080 | process using file-system subroutines. If @value{GDBN} is configured | |
14081 | for an operating system with this facility, the command @code{info | |
14082 | proc} is available to report information about the process running | |
14083 | your program, or about any process running on your system. @code{info | |
14084 | proc} works only on SVR4 systems that include the @code{procfs} code. | |
14085 | This includes, as of this writing, @sc{gnu}/Linux, OSF/1 (Digital | |
14086 | Unix), Solaris, Irix, and Unixware, but not HP-UX, for example. | |
104c1213 | 14087 | |
8e04817f AC |
14088 | @table @code |
14089 | @kindex info proc | |
60bf7e09 | 14090 | @cindex process ID |
8e04817f | 14091 | @item info proc |
60bf7e09 EZ |
14092 | @itemx info proc @var{process-id} |
14093 | Summarize available information about any running process. If a | |
14094 | process ID is specified by @var{process-id}, display information about | |
14095 | that process; otherwise display information about the program being | |
14096 | debugged. The summary includes the debugged process ID, the command | |
14097 | line used to invoke it, its current working directory, and its | |
14098 | executable file's absolute file name. | |
14099 | ||
14100 | On some systems, @var{process-id} can be of the form | |
14101 | @samp{[@var{pid}]/@var{tid}} which specifies a certain thread ID | |
14102 | within a process. If the optional @var{pid} part is missing, it means | |
14103 | a thread from the process being debugged (the leading @samp{/} still | |
14104 | needs to be present, or else @value{GDBN} will interpret the number as | |
14105 | a process ID rather than a thread ID). | |
6cf7e474 | 14106 | |
8e04817f | 14107 | @item info proc mappings |
60bf7e09 EZ |
14108 | @cindex memory address space mappings |
14109 | Report the memory address space ranges accessible in the program, with | |
14110 | information on whether the process has read, write, or execute access | |
14111 | rights to each range. On @sc{gnu}/Linux systems, each memory range | |
14112 | includes the object file which is mapped to that range, instead of the | |
14113 | memory access rights to that range. | |
14114 | ||
14115 | @item info proc stat | |
14116 | @itemx info proc status | |
14117 | @cindex process detailed status information | |
14118 | These subcommands are specific to @sc{gnu}/Linux systems. They show | |
14119 | the process-related information, including the user ID and group ID; | |
14120 | how many threads are there in the process; its virtual memory usage; | |
14121 | the signals that are pending, blocked, and ignored; its TTY; its | |
14122 | consumption of system and user time; its stack size; its @samp{nice} | |
2eecc4ab | 14123 | value; etc. For more information, see the @samp{proc} man page |
60bf7e09 EZ |
14124 | (type @kbd{man 5 proc} from your shell prompt). |
14125 | ||
14126 | @item info proc all | |
14127 | Show all the information about the process described under all of the | |
14128 | above @code{info proc} subcommands. | |
14129 | ||
8e04817f AC |
14130 | @ignore |
14131 | @comment These sub-options of 'info proc' were not included when | |
14132 | @comment procfs.c was re-written. Keep their descriptions around | |
14133 | @comment against the day when someone finds the time to put them back in. | |
14134 | @kindex info proc times | |
14135 | @item info proc times | |
14136 | Starting time, user CPU time, and system CPU time for your program and | |
14137 | its children. | |
6cf7e474 | 14138 | |
8e04817f AC |
14139 | @kindex info proc id |
14140 | @item info proc id | |
14141 | Report on the process IDs related to your program: its own process ID, | |
14142 | the ID of its parent, the process group ID, and the session ID. | |
8e04817f | 14143 | @end ignore |
721c2651 EZ |
14144 | |
14145 | @item set procfs-trace | |
14146 | @kindex set procfs-trace | |
14147 | @cindex @code{procfs} API calls | |
14148 | This command enables and disables tracing of @code{procfs} API calls. | |
14149 | ||
14150 | @item show procfs-trace | |
14151 | @kindex show procfs-trace | |
14152 | Show the current state of @code{procfs} API call tracing. | |
14153 | ||
14154 | @item set procfs-file @var{file} | |
14155 | @kindex set procfs-file | |
14156 | Tell @value{GDBN} to write @code{procfs} API trace to the named | |
14157 | @var{file}. @value{GDBN} appends the trace info to the previous | |
14158 | contents of the file. The default is to display the trace on the | |
14159 | standard output. | |
14160 | ||
14161 | @item show procfs-file | |
14162 | @kindex show procfs-file | |
14163 | Show the file to which @code{procfs} API trace is written. | |
14164 | ||
14165 | @item proc-trace-entry | |
14166 | @itemx proc-trace-exit | |
14167 | @itemx proc-untrace-entry | |
14168 | @itemx proc-untrace-exit | |
14169 | @kindex proc-trace-entry | |
14170 | @kindex proc-trace-exit | |
14171 | @kindex proc-untrace-entry | |
14172 | @kindex proc-untrace-exit | |
14173 | These commands enable and disable tracing of entries into and exits | |
14174 | from the @code{syscall} interface. | |
14175 | ||
14176 | @item info pidlist | |
14177 | @kindex info pidlist | |
14178 | @cindex process list, QNX Neutrino | |
14179 | For QNX Neutrino only, this command displays the list of all the | |
14180 | processes and all the threads within each process. | |
14181 | ||
14182 | @item info meminfo | |
14183 | @kindex info meminfo | |
14184 | @cindex mapinfo list, QNX Neutrino | |
14185 | For QNX Neutrino only, this command displays the list of all mapinfos. | |
8e04817f | 14186 | @end table |
104c1213 | 14187 | |
8e04817f AC |
14188 | @node DJGPP Native |
14189 | @subsection Features for Debugging @sc{djgpp} Programs | |
14190 | @cindex @sc{djgpp} debugging | |
14191 | @cindex native @sc{djgpp} debugging | |
14192 | @cindex MS-DOS-specific commands | |
104c1213 | 14193 | |
514c4d71 EZ |
14194 | @cindex DPMI |
14195 | @sc{djgpp} is a port of the @sc{gnu} development tools to MS-DOS and | |
8e04817f AC |
14196 | MS-Windows. @sc{djgpp} programs are 32-bit protected-mode programs |
14197 | that use the @dfn{DPMI} (DOS Protected-Mode Interface) API to run on | |
14198 | top of real-mode DOS systems and their emulations. | |
104c1213 | 14199 | |
8e04817f AC |
14200 | @value{GDBN} supports native debugging of @sc{djgpp} programs, and |
14201 | defines a few commands specific to the @sc{djgpp} port. This | |
14202 | subsection describes those commands. | |
104c1213 | 14203 | |
8e04817f AC |
14204 | @table @code |
14205 | @kindex info dos | |
14206 | @item info dos | |
14207 | This is a prefix of @sc{djgpp}-specific commands which print | |
14208 | information about the target system and important OS structures. | |
f1251bdd | 14209 | |
8e04817f AC |
14210 | @kindex sysinfo |
14211 | @cindex MS-DOS system info | |
14212 | @cindex free memory information (MS-DOS) | |
14213 | @item info dos sysinfo | |
14214 | This command displays assorted information about the underlying | |
14215 | platform: the CPU type and features, the OS version and flavor, the | |
14216 | DPMI version, and the available conventional and DPMI memory. | |
104c1213 | 14217 | |
8e04817f AC |
14218 | @cindex GDT |
14219 | @cindex LDT | |
14220 | @cindex IDT | |
14221 | @cindex segment descriptor tables | |
14222 | @cindex descriptor tables display | |
14223 | @item info dos gdt | |
14224 | @itemx info dos ldt | |
14225 | @itemx info dos idt | |
14226 | These 3 commands display entries from, respectively, Global, Local, | |
14227 | and Interrupt Descriptor Tables (GDT, LDT, and IDT). The descriptor | |
14228 | tables are data structures which store a descriptor for each segment | |
14229 | that is currently in use. The segment's selector is an index into a | |
14230 | descriptor table; the table entry for that index holds the | |
14231 | descriptor's base address and limit, and its attributes and access | |
14232 | rights. | |
104c1213 | 14233 | |
8e04817f AC |
14234 | A typical @sc{djgpp} program uses 3 segments: a code segment, a data |
14235 | segment (used for both data and the stack), and a DOS segment (which | |
14236 | allows access to DOS/BIOS data structures and absolute addresses in | |
14237 | conventional memory). However, the DPMI host will usually define | |
14238 | additional segments in order to support the DPMI environment. | |
d4f3574e | 14239 | |
8e04817f AC |
14240 | @cindex garbled pointers |
14241 | These commands allow to display entries from the descriptor tables. | |
14242 | Without an argument, all entries from the specified table are | |
14243 | displayed. An argument, which should be an integer expression, means | |
14244 | display a single entry whose index is given by the argument. For | |
14245 | example, here's a convenient way to display information about the | |
14246 | debugged program's data segment: | |
104c1213 | 14247 | |
8e04817f AC |
14248 | @smallexample |
14249 | @exdent @code{(@value{GDBP}) info dos ldt $ds} | |
14250 | @exdent @code{0x13f: base=0x11970000 limit=0x0009ffff 32-Bit Data (Read/Write, Exp-up)} | |
14251 | @end smallexample | |
104c1213 | 14252 | |
8e04817f AC |
14253 | @noindent |
14254 | This comes in handy when you want to see whether a pointer is outside | |
14255 | the data segment's limit (i.e.@: @dfn{garbled}). | |
104c1213 | 14256 | |
8e04817f AC |
14257 | @cindex page tables display (MS-DOS) |
14258 | @item info dos pde | |
14259 | @itemx info dos pte | |
14260 | These two commands display entries from, respectively, the Page | |
14261 | Directory and the Page Tables. Page Directories and Page Tables are | |
14262 | data structures which control how virtual memory addresses are mapped | |
14263 | into physical addresses. A Page Table includes an entry for every | |
14264 | page of memory that is mapped into the program's address space; there | |
14265 | may be several Page Tables, each one holding up to 4096 entries. A | |
14266 | Page Directory has up to 4096 entries, one each for every Page Table | |
14267 | that is currently in use. | |
104c1213 | 14268 | |
8e04817f AC |
14269 | Without an argument, @kbd{info dos pde} displays the entire Page |
14270 | Directory, and @kbd{info dos pte} displays all the entries in all of | |
14271 | the Page Tables. An argument, an integer expression, given to the | |
14272 | @kbd{info dos pde} command means display only that entry from the Page | |
14273 | Directory table. An argument given to the @kbd{info dos pte} command | |
14274 | means display entries from a single Page Table, the one pointed to by | |
14275 | the specified entry in the Page Directory. | |
104c1213 | 14276 | |
8e04817f AC |
14277 | @cindex direct memory access (DMA) on MS-DOS |
14278 | These commands are useful when your program uses @dfn{DMA} (Direct | |
14279 | Memory Access), which needs physical addresses to program the DMA | |
14280 | controller. | |
104c1213 | 14281 | |
8e04817f | 14282 | These commands are supported only with some DPMI servers. |
104c1213 | 14283 | |
8e04817f AC |
14284 | @cindex physical address from linear address |
14285 | @item info dos address-pte @var{addr} | |
14286 | This command displays the Page Table entry for a specified linear | |
514c4d71 EZ |
14287 | address. The argument @var{addr} is a linear address which should |
14288 | already have the appropriate segment's base address added to it, | |
14289 | because this command accepts addresses which may belong to @emph{any} | |
14290 | segment. For example, here's how to display the Page Table entry for | |
14291 | the page where a variable @code{i} is stored: | |
104c1213 | 14292 | |
b383017d | 14293 | @smallexample |
8e04817f AC |
14294 | @exdent @code{(@value{GDBP}) info dos address-pte __djgpp_base_address + (char *)&i} |
14295 | @exdent @code{Page Table entry for address 0x11a00d30:} | |
b383017d | 14296 | @exdent @code{Base=0x02698000 Dirty Acc. Not-Cached Write-Back Usr Read-Write +0xd30} |
8e04817f | 14297 | @end smallexample |
104c1213 | 14298 | |
8e04817f AC |
14299 | @noindent |
14300 | This says that @code{i} is stored at offset @code{0xd30} from the page | |
514c4d71 | 14301 | whose physical base address is @code{0x02698000}, and shows all the |
8e04817f | 14302 | attributes of that page. |
104c1213 | 14303 | |
8e04817f AC |
14304 | Note that you must cast the addresses of variables to a @code{char *}, |
14305 | since otherwise the value of @code{__djgpp_base_address}, the base | |
14306 | address of all variables and functions in a @sc{djgpp} program, will | |
14307 | be added using the rules of C pointer arithmetics: if @code{i} is | |
14308 | declared an @code{int}, @value{GDBN} will add 4 times the value of | |
14309 | @code{__djgpp_base_address} to the address of @code{i}. | |
104c1213 | 14310 | |
8e04817f AC |
14311 | Here's another example, it displays the Page Table entry for the |
14312 | transfer buffer: | |
104c1213 | 14313 | |
8e04817f AC |
14314 | @smallexample |
14315 | @exdent @code{(@value{GDBP}) info dos address-pte *((unsigned *)&_go32_info_block + 3)} | |
14316 | @exdent @code{Page Table entry for address 0x29110:} | |
14317 | @exdent @code{Base=0x00029000 Dirty Acc. Not-Cached Write-Back Usr Read-Write +0x110} | |
14318 | @end smallexample | |
104c1213 | 14319 | |
8e04817f AC |
14320 | @noindent |
14321 | (The @code{+ 3} offset is because the transfer buffer's address is the | |
514c4d71 EZ |
14322 | 3rd member of the @code{_go32_info_block} structure.) The output |
14323 | clearly shows that this DPMI server maps the addresses in conventional | |
14324 | memory 1:1, i.e.@: the physical (@code{0x00029000} + @code{0x110}) and | |
14325 | linear (@code{0x29110}) addresses are identical. | |
104c1213 | 14326 | |
8e04817f AC |
14327 | This command is supported only with some DPMI servers. |
14328 | @end table | |
104c1213 | 14329 | |
c45da7e6 | 14330 | @cindex DOS serial data link, remote debugging |
a8f24a35 EZ |
14331 | In addition to native debugging, the DJGPP port supports remote |
14332 | debugging via a serial data link. The following commands are specific | |
14333 | to remote serial debugging in the DJGPP port of @value{GDBN}. | |
14334 | ||
14335 | @table @code | |
14336 | @kindex set com1base | |
14337 | @kindex set com1irq | |
14338 | @kindex set com2base | |
14339 | @kindex set com2irq | |
14340 | @kindex set com3base | |
14341 | @kindex set com3irq | |
14342 | @kindex set com4base | |
14343 | @kindex set com4irq | |
14344 | @item set com1base @var{addr} | |
14345 | This command sets the base I/O port address of the @file{COM1} serial | |
14346 | port. | |
14347 | ||
14348 | @item set com1irq @var{irq} | |
14349 | This command sets the @dfn{Interrupt Request} (@code{IRQ}) line to use | |
14350 | for the @file{COM1} serial port. | |
14351 | ||
14352 | There are similar commands @samp{set com2base}, @samp{set com3irq}, | |
14353 | etc.@: for setting the port address and the @code{IRQ} lines for the | |
14354 | other 3 COM ports. | |
14355 | ||
14356 | @kindex show com1base | |
14357 | @kindex show com1irq | |
14358 | @kindex show com2base | |
14359 | @kindex show com2irq | |
14360 | @kindex show com3base | |
14361 | @kindex show com3irq | |
14362 | @kindex show com4base | |
14363 | @kindex show com4irq | |
14364 | The related commands @samp{show com1base}, @samp{show com1irq} etc.@: | |
14365 | display the current settings of the base address and the @code{IRQ} | |
14366 | lines used by the COM ports. | |
c45da7e6 EZ |
14367 | |
14368 | @item info serial | |
14369 | @kindex info serial | |
14370 | @cindex DOS serial port status | |
14371 | This command prints the status of the 4 DOS serial ports. For each | |
14372 | port, it prints whether it's active or not, its I/O base address and | |
14373 | IRQ number, whether it uses a 16550-style FIFO, its baudrate, and the | |
14374 | counts of various errors encountered so far. | |
a8f24a35 EZ |
14375 | @end table |
14376 | ||
14377 | ||
78c47bea | 14378 | @node Cygwin Native |
79a6e687 | 14379 | @subsection Features for Debugging MS Windows PE Executables |
78c47bea PM |
14380 | @cindex MS Windows debugging |
14381 | @cindex native Cygwin debugging | |
14382 | @cindex Cygwin-specific commands | |
14383 | ||
be448670 | 14384 | @value{GDBN} supports native debugging of MS Windows programs, including |
db2e3e2e BW |
14385 | DLLs with and without symbolic debugging information. There are various |
14386 | additional Cygwin-specific commands, described in this section. | |
14387 | Working with DLLs that have no debugging symbols is described in | |
14388 | @ref{Non-debug DLL Symbols}. | |
78c47bea PM |
14389 | |
14390 | @table @code | |
14391 | @kindex info w32 | |
14392 | @item info w32 | |
db2e3e2e | 14393 | This is a prefix of MS Windows-specific commands which print |
78c47bea PM |
14394 | information about the target system and important OS structures. |
14395 | ||
14396 | @item info w32 selector | |
14397 | This command displays information returned by | |
14398 | the Win32 API @code{GetThreadSelectorEntry} function. | |
14399 | It takes an optional argument that is evaluated to | |
14400 | a long value to give the information about this given selector. | |
14401 | Without argument, this command displays information | |
d3e8051b | 14402 | about the six segment registers. |
78c47bea PM |
14403 | |
14404 | @kindex info dll | |
14405 | @item info dll | |
db2e3e2e | 14406 | This is a Cygwin-specific alias of @code{info shared}. |
78c47bea PM |
14407 | |
14408 | @kindex dll-symbols | |
14409 | @item dll-symbols | |
14410 | This command loads symbols from a dll similarly to | |
14411 | add-sym command but without the need to specify a base address. | |
14412 | ||
be90c084 | 14413 | @kindex set cygwin-exceptions |
e16b02ee EZ |
14414 | @cindex debugging the Cygwin DLL |
14415 | @cindex Cygwin DLL, debugging | |
be90c084 | 14416 | @item set cygwin-exceptions @var{mode} |
e16b02ee EZ |
14417 | If @var{mode} is @code{on}, @value{GDBN} will break on exceptions that |
14418 | happen inside the Cygwin DLL. If @var{mode} is @code{off}, | |
14419 | @value{GDBN} will delay recognition of exceptions, and may ignore some | |
14420 | exceptions which seem to be caused by internal Cygwin DLL | |
14421 | ``bookkeeping''. This option is meant primarily for debugging the | |
14422 | Cygwin DLL itself; the default value is @code{off} to avoid annoying | |
14423 | @value{GDBN} users with false @code{SIGSEGV} signals. | |
be90c084 CF |
14424 | |
14425 | @kindex show cygwin-exceptions | |
14426 | @item show cygwin-exceptions | |
e16b02ee EZ |
14427 | Displays whether @value{GDBN} will break on exceptions that happen |
14428 | inside the Cygwin DLL itself. | |
be90c084 | 14429 | |
b383017d | 14430 | @kindex set new-console |
78c47bea | 14431 | @item set new-console @var{mode} |
b383017d | 14432 | If @var{mode} is @code{on} the debuggee will |
78c47bea PM |
14433 | be started in a new console on next start. |
14434 | If @var{mode} is @code{off}i, the debuggee will | |
14435 | be started in the same console as the debugger. | |
14436 | ||
14437 | @kindex show new-console | |
14438 | @item show new-console | |
14439 | Displays whether a new console is used | |
14440 | when the debuggee is started. | |
14441 | ||
14442 | @kindex set new-group | |
14443 | @item set new-group @var{mode} | |
14444 | This boolean value controls whether the debuggee should | |
14445 | start a new group or stay in the same group as the debugger. | |
14446 | This affects the way the Windows OS handles | |
c8aa23ab | 14447 | @samp{Ctrl-C}. |
78c47bea PM |
14448 | |
14449 | @kindex show new-group | |
14450 | @item show new-group | |
14451 | Displays current value of new-group boolean. | |
14452 | ||
14453 | @kindex set debugevents | |
14454 | @item set debugevents | |
219eec71 EZ |
14455 | This boolean value adds debug output concerning kernel events related |
14456 | to the debuggee seen by the debugger. This includes events that | |
14457 | signal thread and process creation and exit, DLL loading and | |
14458 | unloading, console interrupts, and debugging messages produced by the | |
14459 | Windows @code{OutputDebugString} API call. | |
78c47bea PM |
14460 | |
14461 | @kindex set debugexec | |
14462 | @item set debugexec | |
b383017d | 14463 | This boolean value adds debug output concerning execute events |
219eec71 | 14464 | (such as resume thread) seen by the debugger. |
78c47bea PM |
14465 | |
14466 | @kindex set debugexceptions | |
14467 | @item set debugexceptions | |
219eec71 EZ |
14468 | This boolean value adds debug output concerning exceptions in the |
14469 | debuggee seen by the debugger. | |
78c47bea PM |
14470 | |
14471 | @kindex set debugmemory | |
14472 | @item set debugmemory | |
219eec71 EZ |
14473 | This boolean value adds debug output concerning debuggee memory reads |
14474 | and writes by the debugger. | |
78c47bea PM |
14475 | |
14476 | @kindex set shell | |
14477 | @item set shell | |
14478 | This boolean values specifies whether the debuggee is called | |
14479 | via a shell or directly (default value is on). | |
14480 | ||
14481 | @kindex show shell | |
14482 | @item show shell | |
14483 | Displays if the debuggee will be started with a shell. | |
14484 | ||
14485 | @end table | |
14486 | ||
be448670 | 14487 | @menu |
79a6e687 | 14488 | * Non-debug DLL Symbols:: Support for DLLs without debugging symbols |
be448670 CF |
14489 | @end menu |
14490 | ||
79a6e687 BW |
14491 | @node Non-debug DLL Symbols |
14492 | @subsubsection Support for DLLs without Debugging Symbols | |
be448670 CF |
14493 | @cindex DLLs with no debugging symbols |
14494 | @cindex Minimal symbols and DLLs | |
14495 | ||
14496 | Very often on windows, some of the DLLs that your program relies on do | |
14497 | not include symbolic debugging information (for example, | |
db2e3e2e | 14498 | @file{kernel32.dll}). When @value{GDBN} doesn't recognize any debugging |
be448670 | 14499 | symbols in a DLL, it relies on the minimal amount of symbolic |
db2e3e2e | 14500 | information contained in the DLL's export table. This section |
be448670 CF |
14501 | describes working with such symbols, known internally to @value{GDBN} as |
14502 | ``minimal symbols''. | |
14503 | ||
14504 | Note that before the debugged program has started execution, no DLLs | |
db2e3e2e | 14505 | will have been loaded. The easiest way around this problem is simply to |
be448670 | 14506 | start the program --- either by setting a breakpoint or letting the |
db2e3e2e | 14507 | program run once to completion. It is also possible to force |
be448670 | 14508 | @value{GDBN} to load a particular DLL before starting the executable --- |
12c27660 | 14509 | see the shared library information in @ref{Files}, or the |
db2e3e2e | 14510 | @code{dll-symbols} command in @ref{Cygwin Native}. Currently, |
be448670 CF |
14511 | explicitly loading symbols from a DLL with no debugging information will |
14512 | cause the symbol names to be duplicated in @value{GDBN}'s lookup table, | |
14513 | which may adversely affect symbol lookup performance. | |
14514 | ||
79a6e687 | 14515 | @subsubsection DLL Name Prefixes |
be448670 CF |
14516 | |
14517 | In keeping with the naming conventions used by the Microsoft debugging | |
14518 | tools, DLL export symbols are made available with a prefix based on the | |
14519 | DLL name, for instance @code{KERNEL32!CreateFileA}. The plain name is | |
14520 | also entered into the symbol table, so @code{CreateFileA} is often | |
14521 | sufficient. In some cases there will be name clashes within a program | |
14522 | (particularly if the executable itself includes full debugging symbols) | |
14523 | necessitating the use of the fully qualified name when referring to the | |
14524 | contents of the DLL. Use single-quotes around the name to avoid the | |
14525 | exclamation mark (``!'') being interpreted as a language operator. | |
14526 | ||
14527 | Note that the internal name of the DLL may be all upper-case, even | |
14528 | though the file name of the DLL is lower-case, or vice-versa. Since | |
14529 | symbols within @value{GDBN} are @emph{case-sensitive} this may cause | |
14530 | some confusion. If in doubt, try the @code{info functions} and | |
0869d01b NR |
14531 | @code{info variables} commands or even @code{maint print msymbols} |
14532 | (@pxref{Symbols}). Here's an example: | |
be448670 CF |
14533 | |
14534 | @smallexample | |
f7dc1244 | 14535 | (@value{GDBP}) info function CreateFileA |
be448670 CF |
14536 | All functions matching regular expression "CreateFileA": |
14537 | ||
14538 | Non-debugging symbols: | |
14539 | 0x77e885f4 CreateFileA | |
14540 | 0x77e885f4 KERNEL32!CreateFileA | |
14541 | @end smallexample | |
14542 | ||
14543 | @smallexample | |
f7dc1244 | 14544 | (@value{GDBP}) info function ! |
be448670 CF |
14545 | All functions matching regular expression "!": |
14546 | ||
14547 | Non-debugging symbols: | |
14548 | 0x6100114c cygwin1!__assert | |
14549 | 0x61004034 cygwin1!_dll_crt0@@0 | |
14550 | 0x61004240 cygwin1!dll_crt0(per_process *) | |
14551 | [etc...] | |
14552 | @end smallexample | |
14553 | ||
79a6e687 | 14554 | @subsubsection Working with Minimal Symbols |
be448670 CF |
14555 | |
14556 | Symbols extracted from a DLL's export table do not contain very much | |
14557 | type information. All that @value{GDBN} can do is guess whether a symbol | |
14558 | refers to a function or variable depending on the linker section that | |
14559 | contains the symbol. Also note that the actual contents of the memory | |
14560 | contained in a DLL are not available unless the program is running. This | |
14561 | means that you cannot examine the contents of a variable or disassemble | |
14562 | a function within a DLL without a running program. | |
14563 | ||
14564 | Variables are generally treated as pointers and dereferenced | |
14565 | automatically. For this reason, it is often necessary to prefix a | |
14566 | variable name with the address-of operator (``&'') and provide explicit | |
14567 | type information in the command. Here's an example of the type of | |
14568 | problem: | |
14569 | ||
14570 | @smallexample | |
f7dc1244 | 14571 | (@value{GDBP}) print 'cygwin1!__argv' |
be448670 CF |
14572 | $1 = 268572168 |
14573 | @end smallexample | |
14574 | ||
14575 | @smallexample | |
f7dc1244 | 14576 | (@value{GDBP}) x 'cygwin1!__argv' |
be448670 CF |
14577 | 0x10021610: "\230y\"" |
14578 | @end smallexample | |
14579 | ||
14580 | And two possible solutions: | |
14581 | ||
14582 | @smallexample | |
f7dc1244 | 14583 | (@value{GDBP}) print ((char **)'cygwin1!__argv')[0] |
be448670 CF |
14584 | $2 = 0x22fd98 "/cygdrive/c/mydirectory/myprogram" |
14585 | @end smallexample | |
14586 | ||
14587 | @smallexample | |
f7dc1244 | 14588 | (@value{GDBP}) x/2x &'cygwin1!__argv' |
be448670 | 14589 | 0x610c0aa8 <cygwin1!__argv>: 0x10021608 0x00000000 |
f7dc1244 | 14590 | (@value{GDBP}) x/x 0x10021608 |
be448670 | 14591 | 0x10021608: 0x0022fd98 |
f7dc1244 | 14592 | (@value{GDBP}) x/s 0x0022fd98 |
be448670 CF |
14593 | 0x22fd98: "/cygdrive/c/mydirectory/myprogram" |
14594 | @end smallexample | |
14595 | ||
14596 | Setting a break point within a DLL is possible even before the program | |
14597 | starts execution. However, under these circumstances, @value{GDBN} can't | |
14598 | examine the initial instructions of the function in order to skip the | |
14599 | function's frame set-up code. You can work around this by using ``*&'' | |
14600 | to set the breakpoint at a raw memory address: | |
14601 | ||
14602 | @smallexample | |
f7dc1244 | 14603 | (@value{GDBP}) break *&'python22!PyOS_Readline' |
be448670 CF |
14604 | Breakpoint 1 at 0x1e04eff0 |
14605 | @end smallexample | |
14606 | ||
14607 | The author of these extensions is not entirely convinced that setting a | |
14608 | break point within a shared DLL like @file{kernel32.dll} is completely | |
14609 | safe. | |
14610 | ||
14d6dd68 | 14611 | @node Hurd Native |
79a6e687 | 14612 | @subsection Commands Specific to @sc{gnu} Hurd Systems |
14d6dd68 EZ |
14613 | @cindex @sc{gnu} Hurd debugging |
14614 | ||
14615 | This subsection describes @value{GDBN} commands specific to the | |
14616 | @sc{gnu} Hurd native debugging. | |
14617 | ||
14618 | @table @code | |
14619 | @item set signals | |
14620 | @itemx set sigs | |
14621 | @kindex set signals@r{, Hurd command} | |
14622 | @kindex set sigs@r{, Hurd command} | |
14623 | This command toggles the state of inferior signal interception by | |
14624 | @value{GDBN}. Mach exceptions, such as breakpoint traps, are not | |
14625 | affected by this command. @code{sigs} is a shorthand alias for | |
14626 | @code{signals}. | |
14627 | ||
14628 | @item show signals | |
14629 | @itemx show sigs | |
14630 | @kindex show signals@r{, Hurd command} | |
14631 | @kindex show sigs@r{, Hurd command} | |
14632 | Show the current state of intercepting inferior's signals. | |
14633 | ||
14634 | @item set signal-thread | |
14635 | @itemx set sigthread | |
14636 | @kindex set signal-thread | |
14637 | @kindex set sigthread | |
14638 | This command tells @value{GDBN} which thread is the @code{libc} signal | |
14639 | thread. That thread is run when a signal is delivered to a running | |
14640 | process. @code{set sigthread} is the shorthand alias of @code{set | |
14641 | signal-thread}. | |
14642 | ||
14643 | @item show signal-thread | |
14644 | @itemx show sigthread | |
14645 | @kindex show signal-thread | |
14646 | @kindex show sigthread | |
14647 | These two commands show which thread will run when the inferior is | |
14648 | delivered a signal. | |
14649 | ||
14650 | @item set stopped | |
14651 | @kindex set stopped@r{, Hurd command} | |
14652 | This commands tells @value{GDBN} that the inferior process is stopped, | |
14653 | as with the @code{SIGSTOP} signal. The stopped process can be | |
14654 | continued by delivering a signal to it. | |
14655 | ||
14656 | @item show stopped | |
14657 | @kindex show stopped@r{, Hurd command} | |
14658 | This command shows whether @value{GDBN} thinks the debuggee is | |
14659 | stopped. | |
14660 | ||
14661 | @item set exceptions | |
14662 | @kindex set exceptions@r{, Hurd command} | |
14663 | Use this command to turn off trapping of exceptions in the inferior. | |
14664 | When exception trapping is off, neither breakpoints nor | |
14665 | single-stepping will work. To restore the default, set exception | |
14666 | trapping on. | |
14667 | ||
14668 | @item show exceptions | |
14669 | @kindex show exceptions@r{, Hurd command} | |
14670 | Show the current state of trapping exceptions in the inferior. | |
14671 | ||
14672 | @item set task pause | |
14673 | @kindex set task@r{, Hurd commands} | |
14674 | @cindex task attributes (@sc{gnu} Hurd) | |
14675 | @cindex pause current task (@sc{gnu} Hurd) | |
14676 | This command toggles task suspension when @value{GDBN} has control. | |
14677 | Setting it to on takes effect immediately, and the task is suspended | |
14678 | whenever @value{GDBN} gets control. Setting it to off will take | |
14679 | effect the next time the inferior is continued. If this option is set | |
14680 | to off, you can use @code{set thread default pause on} or @code{set | |
14681 | thread pause on} (see below) to pause individual threads. | |
14682 | ||
14683 | @item show task pause | |
14684 | @kindex show task@r{, Hurd commands} | |
14685 | Show the current state of task suspension. | |
14686 | ||
14687 | @item set task detach-suspend-count | |
14688 | @cindex task suspend count | |
14689 | @cindex detach from task, @sc{gnu} Hurd | |
14690 | This command sets the suspend count the task will be left with when | |
14691 | @value{GDBN} detaches from it. | |
14692 | ||
14693 | @item show task detach-suspend-count | |
14694 | Show the suspend count the task will be left with when detaching. | |
14695 | ||
14696 | @item set task exception-port | |
14697 | @itemx set task excp | |
14698 | @cindex task exception port, @sc{gnu} Hurd | |
14699 | This command sets the task exception port to which @value{GDBN} will | |
14700 | forward exceptions. The argument should be the value of the @dfn{send | |
14701 | rights} of the task. @code{set task excp} is a shorthand alias. | |
14702 | ||
14703 | @item set noninvasive | |
14704 | @cindex noninvasive task options | |
14705 | This command switches @value{GDBN} to a mode that is the least | |
14706 | invasive as far as interfering with the inferior is concerned. This | |
14707 | is the same as using @code{set task pause}, @code{set exceptions}, and | |
14708 | @code{set signals} to values opposite to the defaults. | |
14709 | ||
14710 | @item info send-rights | |
14711 | @itemx info receive-rights | |
14712 | @itemx info port-rights | |
14713 | @itemx info port-sets | |
14714 | @itemx info dead-names | |
14715 | @itemx info ports | |
14716 | @itemx info psets | |
14717 | @cindex send rights, @sc{gnu} Hurd | |
14718 | @cindex receive rights, @sc{gnu} Hurd | |
14719 | @cindex port rights, @sc{gnu} Hurd | |
14720 | @cindex port sets, @sc{gnu} Hurd | |
14721 | @cindex dead names, @sc{gnu} Hurd | |
14722 | These commands display information about, respectively, send rights, | |
14723 | receive rights, port rights, port sets, and dead names of a task. | |
14724 | There are also shorthand aliases: @code{info ports} for @code{info | |
14725 | port-rights} and @code{info psets} for @code{info port-sets}. | |
14726 | ||
14727 | @item set thread pause | |
14728 | @kindex set thread@r{, Hurd command} | |
14729 | @cindex thread properties, @sc{gnu} Hurd | |
14730 | @cindex pause current thread (@sc{gnu} Hurd) | |
14731 | This command toggles current thread suspension when @value{GDBN} has | |
14732 | control. Setting it to on takes effect immediately, and the current | |
14733 | thread is suspended whenever @value{GDBN} gets control. Setting it to | |
14734 | off will take effect the next time the inferior is continued. | |
14735 | Normally, this command has no effect, since when @value{GDBN} has | |
14736 | control, the whole task is suspended. However, if you used @code{set | |
14737 | task pause off} (see above), this command comes in handy to suspend | |
14738 | only the current thread. | |
14739 | ||
14740 | @item show thread pause | |
14741 | @kindex show thread@r{, Hurd command} | |
14742 | This command shows the state of current thread suspension. | |
14743 | ||
14744 | @item set thread run | |
d3e8051b | 14745 | This command sets whether the current thread is allowed to run. |
14d6dd68 EZ |
14746 | |
14747 | @item show thread run | |
14748 | Show whether the current thread is allowed to run. | |
14749 | ||
14750 | @item set thread detach-suspend-count | |
14751 | @cindex thread suspend count, @sc{gnu} Hurd | |
14752 | @cindex detach from thread, @sc{gnu} Hurd | |
14753 | This command sets the suspend count @value{GDBN} will leave on a | |
14754 | thread when detaching. This number is relative to the suspend count | |
14755 | found by @value{GDBN} when it notices the thread; use @code{set thread | |
14756 | takeover-suspend-count} to force it to an absolute value. | |
14757 | ||
14758 | @item show thread detach-suspend-count | |
14759 | Show the suspend count @value{GDBN} will leave on the thread when | |
14760 | detaching. | |
14761 | ||
14762 | @item set thread exception-port | |
14763 | @itemx set thread excp | |
14764 | Set the thread exception port to which to forward exceptions. This | |
14765 | overrides the port set by @code{set task exception-port} (see above). | |
14766 | @code{set thread excp} is the shorthand alias. | |
14767 | ||
14768 | @item set thread takeover-suspend-count | |
14769 | Normally, @value{GDBN}'s thread suspend counts are relative to the | |
14770 | value @value{GDBN} finds when it notices each thread. This command | |
14771 | changes the suspend counts to be absolute instead. | |
14772 | ||
14773 | @item set thread default | |
14774 | @itemx show thread default | |
14775 | @cindex thread default settings, @sc{gnu} Hurd | |
14776 | Each of the above @code{set thread} commands has a @code{set thread | |
14777 | default} counterpart (e.g., @code{set thread default pause}, @code{set | |
14778 | thread default exception-port}, etc.). The @code{thread default} | |
14779 | variety of commands sets the default thread properties for all | |
14780 | threads; you can then change the properties of individual threads with | |
14781 | the non-default commands. | |
14782 | @end table | |
14783 | ||
14784 | ||
a64548ea EZ |
14785 | @node Neutrino |
14786 | @subsection QNX Neutrino | |
14787 | @cindex QNX Neutrino | |
14788 | ||
14789 | @value{GDBN} provides the following commands specific to the QNX | |
14790 | Neutrino target: | |
14791 | ||
14792 | @table @code | |
14793 | @item set debug nto-debug | |
14794 | @kindex set debug nto-debug | |
14795 | When set to on, enables debugging messages specific to the QNX | |
14796 | Neutrino support. | |
14797 | ||
14798 | @item show debug nto-debug | |
14799 | @kindex show debug nto-debug | |
14800 | Show the current state of QNX Neutrino messages. | |
14801 | @end table | |
14802 | ||
14803 | ||
8e04817f AC |
14804 | @node Embedded OS |
14805 | @section Embedded Operating Systems | |
104c1213 | 14806 | |
8e04817f AC |
14807 | This section describes configurations involving the debugging of |
14808 | embedded operating systems that are available for several different | |
14809 | architectures. | |
d4f3574e | 14810 | |
8e04817f AC |
14811 | @menu |
14812 | * VxWorks:: Using @value{GDBN} with VxWorks | |
14813 | @end menu | |
104c1213 | 14814 | |
8e04817f AC |
14815 | @value{GDBN} includes the ability to debug programs running on |
14816 | various real-time operating systems. | |
104c1213 | 14817 | |
8e04817f AC |
14818 | @node VxWorks |
14819 | @subsection Using @value{GDBN} with VxWorks | |
104c1213 | 14820 | |
8e04817f | 14821 | @cindex VxWorks |
104c1213 | 14822 | |
8e04817f | 14823 | @table @code |
104c1213 | 14824 | |
8e04817f AC |
14825 | @kindex target vxworks |
14826 | @item target vxworks @var{machinename} | |
14827 | A VxWorks system, attached via TCP/IP. The argument @var{machinename} | |
14828 | is the target system's machine name or IP address. | |
104c1213 | 14829 | |
8e04817f | 14830 | @end table |
104c1213 | 14831 | |
8e04817f AC |
14832 | On VxWorks, @code{load} links @var{filename} dynamically on the |
14833 | current target system as well as adding its symbols in @value{GDBN}. | |
104c1213 | 14834 | |
8e04817f AC |
14835 | @value{GDBN} enables developers to spawn and debug tasks running on networked |
14836 | VxWorks targets from a Unix host. Already-running tasks spawned from | |
14837 | the VxWorks shell can also be debugged. @value{GDBN} uses code that runs on | |
14838 | both the Unix host and on the VxWorks target. The program | |
14839 | @code{@value{GDBP}} is installed and executed on the Unix host. (It may be | |
14840 | installed with the name @code{vxgdb}, to distinguish it from a | |
14841 | @value{GDBN} for debugging programs on the host itself.) | |
104c1213 | 14842 | |
8e04817f AC |
14843 | @table @code |
14844 | @item VxWorks-timeout @var{args} | |
14845 | @kindex vxworks-timeout | |
14846 | All VxWorks-based targets now support the option @code{vxworks-timeout}. | |
14847 | This option is set by the user, and @var{args} represents the number of | |
14848 | seconds @value{GDBN} waits for responses to rpc's. You might use this if | |
14849 | your VxWorks target is a slow software simulator or is on the far side | |
14850 | of a thin network line. | |
14851 | @end table | |
104c1213 | 14852 | |
8e04817f AC |
14853 | The following information on connecting to VxWorks was current when |
14854 | this manual was produced; newer releases of VxWorks may use revised | |
14855 | procedures. | |
104c1213 | 14856 | |
4644b6e3 | 14857 | @findex INCLUDE_RDB |
8e04817f AC |
14858 | To use @value{GDBN} with VxWorks, you must rebuild your VxWorks kernel |
14859 | to include the remote debugging interface routines in the VxWorks | |
14860 | library @file{rdb.a}. To do this, define @code{INCLUDE_RDB} in the | |
14861 | VxWorks configuration file @file{configAll.h} and rebuild your VxWorks | |
14862 | kernel. The resulting kernel contains @file{rdb.a}, and spawns the | |
14863 | source debugging task @code{tRdbTask} when VxWorks is booted. For more | |
14864 | information on configuring and remaking VxWorks, see the manufacturer's | |
14865 | manual. | |
14866 | @c VxWorks, see the @cite{VxWorks Programmer's Guide}. | |
104c1213 | 14867 | |
8e04817f AC |
14868 | Once you have included @file{rdb.a} in your VxWorks system image and set |
14869 | your Unix execution search path to find @value{GDBN}, you are ready to | |
14870 | run @value{GDBN}. From your Unix host, run @code{@value{GDBP}} (or | |
14871 | @code{vxgdb}, depending on your installation). | |
104c1213 | 14872 | |
8e04817f | 14873 | @value{GDBN} comes up showing the prompt: |
104c1213 | 14874 | |
474c8240 | 14875 | @smallexample |
8e04817f | 14876 | (vxgdb) |
474c8240 | 14877 | @end smallexample |
104c1213 | 14878 | |
8e04817f AC |
14879 | @menu |
14880 | * VxWorks Connection:: Connecting to VxWorks | |
14881 | * VxWorks Download:: VxWorks download | |
14882 | * VxWorks Attach:: Running tasks | |
14883 | @end menu | |
104c1213 | 14884 | |
8e04817f AC |
14885 | @node VxWorks Connection |
14886 | @subsubsection Connecting to VxWorks | |
104c1213 | 14887 | |
8e04817f AC |
14888 | The @value{GDBN} command @code{target} lets you connect to a VxWorks target on the |
14889 | network. To connect to a target whose host name is ``@code{tt}'', type: | |
104c1213 | 14890 | |
474c8240 | 14891 | @smallexample |
8e04817f | 14892 | (vxgdb) target vxworks tt |
474c8240 | 14893 | @end smallexample |
104c1213 | 14894 | |
8e04817f AC |
14895 | @need 750 |
14896 | @value{GDBN} displays messages like these: | |
104c1213 | 14897 | |
8e04817f AC |
14898 | @smallexample |
14899 | Attaching remote machine across net... | |
14900 | Connected to tt. | |
14901 | @end smallexample | |
104c1213 | 14902 | |
8e04817f AC |
14903 | @need 1000 |
14904 | @value{GDBN} then attempts to read the symbol tables of any object modules | |
14905 | loaded into the VxWorks target since it was last booted. @value{GDBN} locates | |
14906 | these files by searching the directories listed in the command search | |
79a6e687 | 14907 | path (@pxref{Environment, ,Your Program's Environment}); if it fails |
8e04817f | 14908 | to find an object file, it displays a message such as: |
5d161b24 | 14909 | |
474c8240 | 14910 | @smallexample |
8e04817f | 14911 | prog.o: No such file or directory. |
474c8240 | 14912 | @end smallexample |
104c1213 | 14913 | |
8e04817f AC |
14914 | When this happens, add the appropriate directory to the search path with |
14915 | the @value{GDBN} command @code{path}, and execute the @code{target} | |
14916 | command again. | |
104c1213 | 14917 | |
8e04817f | 14918 | @node VxWorks Download |
79a6e687 | 14919 | @subsubsection VxWorks Download |
104c1213 | 14920 | |
8e04817f AC |
14921 | @cindex download to VxWorks |
14922 | If you have connected to the VxWorks target and you want to debug an | |
14923 | object that has not yet been loaded, you can use the @value{GDBN} | |
14924 | @code{load} command to download a file from Unix to VxWorks | |
14925 | incrementally. The object file given as an argument to the @code{load} | |
14926 | command is actually opened twice: first by the VxWorks target in order | |
14927 | to download the code, then by @value{GDBN} in order to read the symbol | |
14928 | table. This can lead to problems if the current working directories on | |
14929 | the two systems differ. If both systems have NFS mounted the same | |
14930 | filesystems, you can avoid these problems by using absolute paths. | |
14931 | Otherwise, it is simplest to set the working directory on both systems | |
14932 | to the directory in which the object file resides, and then to reference | |
14933 | the file by its name, without any path. For instance, a program | |
14934 | @file{prog.o} may reside in @file{@var{vxpath}/vw/demo/rdb} in VxWorks | |
14935 | and in @file{@var{hostpath}/vw/demo/rdb} on the host. To load this | |
14936 | program, type this on VxWorks: | |
104c1213 | 14937 | |
474c8240 | 14938 | @smallexample |
8e04817f | 14939 | -> cd "@var{vxpath}/vw/demo/rdb" |
474c8240 | 14940 | @end smallexample |
104c1213 | 14941 | |
8e04817f AC |
14942 | @noindent |
14943 | Then, in @value{GDBN}, type: | |
104c1213 | 14944 | |
474c8240 | 14945 | @smallexample |
8e04817f AC |
14946 | (vxgdb) cd @var{hostpath}/vw/demo/rdb |
14947 | (vxgdb) load prog.o | |
474c8240 | 14948 | @end smallexample |
104c1213 | 14949 | |
8e04817f | 14950 | @value{GDBN} displays a response similar to this: |
104c1213 | 14951 | |
8e04817f AC |
14952 | @smallexample |
14953 | Reading symbol data from wherever/vw/demo/rdb/prog.o... done. | |
14954 | @end smallexample | |
104c1213 | 14955 | |
8e04817f AC |
14956 | You can also use the @code{load} command to reload an object module |
14957 | after editing and recompiling the corresponding source file. Note that | |
14958 | this makes @value{GDBN} delete all currently-defined breakpoints, | |
14959 | auto-displays, and convenience variables, and to clear the value | |
14960 | history. (This is necessary in order to preserve the integrity of | |
14961 | debugger's data structures that reference the target system's symbol | |
14962 | table.) | |
104c1213 | 14963 | |
8e04817f | 14964 | @node VxWorks Attach |
79a6e687 | 14965 | @subsubsection Running Tasks |
104c1213 JM |
14966 | |
14967 | @cindex running VxWorks tasks | |
14968 | You can also attach to an existing task using the @code{attach} command as | |
14969 | follows: | |
14970 | ||
474c8240 | 14971 | @smallexample |
104c1213 | 14972 | (vxgdb) attach @var{task} |
474c8240 | 14973 | @end smallexample |
104c1213 JM |
14974 | |
14975 | @noindent | |
14976 | where @var{task} is the VxWorks hexadecimal task ID. The task can be running | |
14977 | or suspended when you attach to it. Running tasks are suspended at | |
14978 | the time of attachment. | |
14979 | ||
6d2ebf8b | 14980 | @node Embedded Processors |
104c1213 JM |
14981 | @section Embedded Processors |
14982 | ||
14983 | This section goes into details specific to particular embedded | |
14984 | configurations. | |
14985 | ||
c45da7e6 EZ |
14986 | @cindex send command to simulator |
14987 | Whenever a specific embedded processor has a simulator, @value{GDBN} | |
14988 | allows to send an arbitrary command to the simulator. | |
14989 | ||
14990 | @table @code | |
14991 | @item sim @var{command} | |
14992 | @kindex sim@r{, a command} | |
14993 | Send an arbitrary @var{command} string to the simulator. Consult the | |
14994 | documentation for the specific simulator in use for information about | |
14995 | acceptable commands. | |
14996 | @end table | |
14997 | ||
7d86b5d5 | 14998 | |
104c1213 | 14999 | @menu |
c45da7e6 | 15000 | * ARM:: ARM RDI |
172c2a43 | 15001 | * M32R/D:: Renesas M32R/D |
104c1213 | 15002 | * M68K:: Motorola M68K |
104c1213 | 15003 | * MIPS Embedded:: MIPS Embedded |
a37295f9 | 15004 | * OpenRISC 1000:: OpenRisc 1000 |
104c1213 | 15005 | * PA:: HP PA Embedded |
4acd40f3 | 15006 | * PowerPC Embedded:: PowerPC Embedded |
104c1213 JM |
15007 | * Sparclet:: Tsqware Sparclet |
15008 | * Sparclite:: Fujitsu Sparclite | |
104c1213 | 15009 | * Z8000:: Zilog Z8000 |
a64548ea EZ |
15010 | * AVR:: Atmel AVR |
15011 | * CRIS:: CRIS | |
15012 | * Super-H:: Renesas Super-H | |
104c1213 JM |
15013 | @end menu |
15014 | ||
6d2ebf8b | 15015 | @node ARM |
104c1213 | 15016 | @subsection ARM |
c45da7e6 | 15017 | @cindex ARM RDI |
104c1213 JM |
15018 | |
15019 | @table @code | |
8e04817f AC |
15020 | @kindex target rdi |
15021 | @item target rdi @var{dev} | |
15022 | ARM Angel monitor, via RDI library interface to ADP protocol. You may | |
15023 | use this target to communicate with both boards running the Angel | |
15024 | monitor, or with the EmbeddedICE JTAG debug device. | |
15025 | ||
15026 | @kindex target rdp | |
15027 | @item target rdp @var{dev} | |
15028 | ARM Demon monitor. | |
15029 | ||
15030 | @end table | |
15031 | ||
e2f4edfd EZ |
15032 | @value{GDBN} provides the following ARM-specific commands: |
15033 | ||
15034 | @table @code | |
15035 | @item set arm disassembler | |
15036 | @kindex set arm | |
15037 | This commands selects from a list of disassembly styles. The | |
15038 | @code{"std"} style is the standard style. | |
15039 | ||
15040 | @item show arm disassembler | |
15041 | @kindex show arm | |
15042 | Show the current disassembly style. | |
15043 | ||
15044 | @item set arm apcs32 | |
15045 | @cindex ARM 32-bit mode | |
15046 | This command toggles ARM operation mode between 32-bit and 26-bit. | |
15047 | ||
15048 | @item show arm apcs32 | |
15049 | Display the current usage of the ARM 32-bit mode. | |
15050 | ||
15051 | @item set arm fpu @var{fputype} | |
15052 | This command sets the ARM floating-point unit (FPU) type. The | |
15053 | argument @var{fputype} can be one of these: | |
15054 | ||
15055 | @table @code | |
15056 | @item auto | |
15057 | Determine the FPU type by querying the OS ABI. | |
15058 | @item softfpa | |
15059 | Software FPU, with mixed-endian doubles on little-endian ARM | |
15060 | processors. | |
15061 | @item fpa | |
15062 | GCC-compiled FPA co-processor. | |
15063 | @item softvfp | |
15064 | Software FPU with pure-endian doubles. | |
15065 | @item vfp | |
15066 | VFP co-processor. | |
15067 | @end table | |
15068 | ||
15069 | @item show arm fpu | |
15070 | Show the current type of the FPU. | |
15071 | ||
15072 | @item set arm abi | |
15073 | This command forces @value{GDBN} to use the specified ABI. | |
15074 | ||
15075 | @item show arm abi | |
15076 | Show the currently used ABI. | |
15077 | ||
0428b8f5 DJ |
15078 | @item set arm fallback-mode (arm|thumb|auto) |
15079 | @value{GDBN} uses the symbol table, when available, to determine | |
15080 | whether instructions are ARM or Thumb. This command controls | |
15081 | @value{GDBN}'s default behavior when the symbol table is not | |
15082 | available. The default is @samp{auto}, which causes @value{GDBN} to | |
15083 | use the current execution mode (from the @code{T} bit in the @code{CPSR} | |
15084 | register). | |
15085 | ||
15086 | @item show arm fallback-mode | |
15087 | Show the current fallback instruction mode. | |
15088 | ||
15089 | @item set arm force-mode (arm|thumb|auto) | |
15090 | This command overrides use of the symbol table to determine whether | |
15091 | instructions are ARM or Thumb. The default is @samp{auto}, which | |
15092 | causes @value{GDBN} to use the symbol table and then the setting | |
15093 | of @samp{set arm fallback-mode}. | |
15094 | ||
15095 | @item show arm force-mode | |
15096 | Show the current forced instruction mode. | |
15097 | ||
e2f4edfd EZ |
15098 | @item set debug arm |
15099 | Toggle whether to display ARM-specific debugging messages from the ARM | |
15100 | target support subsystem. | |
15101 | ||
15102 | @item show debug arm | |
15103 | Show whether ARM-specific debugging messages are enabled. | |
15104 | @end table | |
15105 | ||
c45da7e6 EZ |
15106 | The following commands are available when an ARM target is debugged |
15107 | using the RDI interface: | |
15108 | ||
15109 | @table @code | |
15110 | @item rdilogfile @r{[}@var{file}@r{]} | |
15111 | @kindex rdilogfile | |
15112 | @cindex ADP (Angel Debugger Protocol) logging | |
15113 | Set the filename for the ADP (Angel Debugger Protocol) packet log. | |
15114 | With an argument, sets the log file to the specified @var{file}. With | |
15115 | no argument, show the current log file name. The default log file is | |
15116 | @file{rdi.log}. | |
15117 | ||
15118 | @item rdilogenable @r{[}@var{arg}@r{]} | |
15119 | @kindex rdilogenable | |
15120 | Control logging of ADP packets. With an argument of 1 or @code{"yes"} | |
15121 | enables logging, with an argument 0 or @code{"no"} disables it. With | |
15122 | no arguments displays the current setting. When logging is enabled, | |
15123 | ADP packets exchanged between @value{GDBN} and the RDI target device | |
15124 | are logged to a file. | |
15125 | ||
15126 | @item set rdiromatzero | |
15127 | @kindex set rdiromatzero | |
15128 | @cindex ROM at zero address, RDI | |
15129 | Tell @value{GDBN} whether the target has ROM at address 0. If on, | |
15130 | vector catching is disabled, so that zero address can be used. If off | |
15131 | (the default), vector catching is enabled. For this command to take | |
15132 | effect, it needs to be invoked prior to the @code{target rdi} command. | |
15133 | ||
15134 | @item show rdiromatzero | |
15135 | @kindex show rdiromatzero | |
15136 | Show the current setting of ROM at zero address. | |
15137 | ||
15138 | @item set rdiheartbeat | |
15139 | @kindex set rdiheartbeat | |
15140 | @cindex RDI heartbeat | |
15141 | Enable or disable RDI heartbeat packets. It is not recommended to | |
15142 | turn on this option, since it confuses ARM and EPI JTAG interface, as | |
15143 | well as the Angel monitor. | |
15144 | ||
15145 | @item show rdiheartbeat | |
15146 | @kindex show rdiheartbeat | |
15147 | Show the setting of RDI heartbeat packets. | |
15148 | @end table | |
15149 | ||
e2f4edfd | 15150 | |
8e04817f | 15151 | @node M32R/D |
ba04e063 | 15152 | @subsection Renesas M32R/D and M32R/SDI |
8e04817f AC |
15153 | |
15154 | @table @code | |
8e04817f AC |
15155 | @kindex target m32r |
15156 | @item target m32r @var{dev} | |
172c2a43 | 15157 | Renesas M32R/D ROM monitor. |
8e04817f | 15158 | |
fb3e19c0 KI |
15159 | @kindex target m32rsdi |
15160 | @item target m32rsdi @var{dev} | |
15161 | Renesas M32R SDI server, connected via parallel port to the board. | |
721c2651 EZ |
15162 | @end table |
15163 | ||
15164 | The following @value{GDBN} commands are specific to the M32R monitor: | |
15165 | ||
15166 | @table @code | |
15167 | @item set download-path @var{path} | |
15168 | @kindex set download-path | |
15169 | @cindex find downloadable @sc{srec} files (M32R) | |
d3e8051b | 15170 | Set the default path for finding downloadable @sc{srec} files. |
721c2651 EZ |
15171 | |
15172 | @item show download-path | |
15173 | @kindex show download-path | |
15174 | Show the default path for downloadable @sc{srec} files. | |
fb3e19c0 | 15175 | |
721c2651 EZ |
15176 | @item set board-address @var{addr} |
15177 | @kindex set board-address | |
15178 | @cindex M32-EVA target board address | |
15179 | Set the IP address for the M32R-EVA target board. | |
15180 | ||
15181 | @item show board-address | |
15182 | @kindex show board-address | |
15183 | Show the current IP address of the target board. | |
15184 | ||
15185 | @item set server-address @var{addr} | |
15186 | @kindex set server-address | |
15187 | @cindex download server address (M32R) | |
15188 | Set the IP address for the download server, which is the @value{GDBN}'s | |
15189 | host machine. | |
15190 | ||
15191 | @item show server-address | |
15192 | @kindex show server-address | |
15193 | Display the IP address of the download server. | |
15194 | ||
15195 | @item upload @r{[}@var{file}@r{]} | |
15196 | @kindex upload@r{, M32R} | |
15197 | Upload the specified @sc{srec} @var{file} via the monitor's Ethernet | |
15198 | upload capability. If no @var{file} argument is given, the current | |
15199 | executable file is uploaded. | |
15200 | ||
15201 | @item tload @r{[}@var{file}@r{]} | |
15202 | @kindex tload@r{, M32R} | |
15203 | Test the @code{upload} command. | |
8e04817f AC |
15204 | @end table |
15205 | ||
ba04e063 EZ |
15206 | The following commands are available for M32R/SDI: |
15207 | ||
15208 | @table @code | |
15209 | @item sdireset | |
15210 | @kindex sdireset | |
15211 | @cindex reset SDI connection, M32R | |
15212 | This command resets the SDI connection. | |
15213 | ||
15214 | @item sdistatus | |
15215 | @kindex sdistatus | |
15216 | This command shows the SDI connection status. | |
15217 | ||
15218 | @item debug_chaos | |
15219 | @kindex debug_chaos | |
15220 | @cindex M32R/Chaos debugging | |
15221 | Instructs the remote that M32R/Chaos debugging is to be used. | |
15222 | ||
15223 | @item use_debug_dma | |
15224 | @kindex use_debug_dma | |
15225 | Instructs the remote to use the DEBUG_DMA method of accessing memory. | |
15226 | ||
15227 | @item use_mon_code | |
15228 | @kindex use_mon_code | |
15229 | Instructs the remote to use the MON_CODE method of accessing memory. | |
15230 | ||
15231 | @item use_ib_break | |
15232 | @kindex use_ib_break | |
15233 | Instructs the remote to set breakpoints by IB break. | |
15234 | ||
15235 | @item use_dbt_break | |
15236 | @kindex use_dbt_break | |
15237 | Instructs the remote to set breakpoints by DBT. | |
15238 | @end table | |
15239 | ||
8e04817f AC |
15240 | @node M68K |
15241 | @subsection M68k | |
15242 | ||
7ce59000 DJ |
15243 | The Motorola m68k configuration includes ColdFire support, and a |
15244 | target command for the following ROM monitor. | |
8e04817f AC |
15245 | |
15246 | @table @code | |
15247 | ||
8e04817f AC |
15248 | @kindex target dbug |
15249 | @item target dbug @var{dev} | |
15250 | dBUG ROM monitor for Motorola ColdFire. | |
15251 | ||
8e04817f AC |
15252 | @end table |
15253 | ||
8e04817f AC |
15254 | @node MIPS Embedded |
15255 | @subsection MIPS Embedded | |
15256 | ||
15257 | @cindex MIPS boards | |
15258 | @value{GDBN} can use the MIPS remote debugging protocol to talk to a | |
15259 | MIPS board attached to a serial line. This is available when | |
15260 | you configure @value{GDBN} with @samp{--target=mips-idt-ecoff}. | |
104c1213 | 15261 | |
8e04817f AC |
15262 | @need 1000 |
15263 | Use these @value{GDBN} commands to specify the connection to your target board: | |
104c1213 | 15264 | |
8e04817f AC |
15265 | @table @code |
15266 | @item target mips @var{port} | |
15267 | @kindex target mips @var{port} | |
15268 | To run a program on the board, start up @code{@value{GDBP}} with the | |
15269 | name of your program as the argument. To connect to the board, use the | |
15270 | command @samp{target mips @var{port}}, where @var{port} is the name of | |
15271 | the serial port connected to the board. If the program has not already | |
15272 | been downloaded to the board, you may use the @code{load} command to | |
15273 | download it. You can then use all the usual @value{GDBN} commands. | |
104c1213 | 15274 | |
8e04817f AC |
15275 | For example, this sequence connects to the target board through a serial |
15276 | port, and loads and runs a program called @var{prog} through the | |
15277 | debugger: | |
104c1213 | 15278 | |
474c8240 | 15279 | @smallexample |
8e04817f AC |
15280 | host$ @value{GDBP} @var{prog} |
15281 | @value{GDBN} is free software and @dots{} | |
15282 | (@value{GDBP}) target mips /dev/ttyb | |
15283 | (@value{GDBP}) load @var{prog} | |
15284 | (@value{GDBP}) run | |
474c8240 | 15285 | @end smallexample |
104c1213 | 15286 | |
8e04817f AC |
15287 | @item target mips @var{hostname}:@var{portnumber} |
15288 | On some @value{GDBN} host configurations, you can specify a TCP | |
15289 | connection (for instance, to a serial line managed by a terminal | |
15290 | concentrator) instead of a serial port, using the syntax | |
15291 | @samp{@var{hostname}:@var{portnumber}}. | |
104c1213 | 15292 | |
8e04817f AC |
15293 | @item target pmon @var{port} |
15294 | @kindex target pmon @var{port} | |
15295 | PMON ROM monitor. | |
104c1213 | 15296 | |
8e04817f AC |
15297 | @item target ddb @var{port} |
15298 | @kindex target ddb @var{port} | |
15299 | NEC's DDB variant of PMON for Vr4300. | |
104c1213 | 15300 | |
8e04817f AC |
15301 | @item target lsi @var{port} |
15302 | @kindex target lsi @var{port} | |
15303 | LSI variant of PMON. | |
104c1213 | 15304 | |
8e04817f AC |
15305 | @kindex target r3900 |
15306 | @item target r3900 @var{dev} | |
15307 | Densan DVE-R3900 ROM monitor for Toshiba R3900 Mips. | |
104c1213 | 15308 | |
8e04817f AC |
15309 | @kindex target array |
15310 | @item target array @var{dev} | |
15311 | Array Tech LSI33K RAID controller board. | |
104c1213 | 15312 | |
8e04817f | 15313 | @end table |
104c1213 | 15314 | |
104c1213 | 15315 | |
8e04817f AC |
15316 | @noindent |
15317 | @value{GDBN} also supports these special commands for MIPS targets: | |
104c1213 | 15318 | |
8e04817f | 15319 | @table @code |
8e04817f AC |
15320 | @item set mipsfpu double |
15321 | @itemx set mipsfpu single | |
15322 | @itemx set mipsfpu none | |
a64548ea | 15323 | @itemx set mipsfpu auto |
8e04817f AC |
15324 | @itemx show mipsfpu |
15325 | @kindex set mipsfpu | |
15326 | @kindex show mipsfpu | |
15327 | @cindex MIPS remote floating point | |
15328 | @cindex floating point, MIPS remote | |
15329 | If your target board does not support the MIPS floating point | |
15330 | coprocessor, you should use the command @samp{set mipsfpu none} (if you | |
15331 | need this, you may wish to put the command in your @value{GDBN} init | |
15332 | file). This tells @value{GDBN} how to find the return value of | |
15333 | functions which return floating point values. It also allows | |
15334 | @value{GDBN} to avoid saving the floating point registers when calling | |
15335 | functions on the board. If you are using a floating point coprocessor | |
15336 | with only single precision floating point support, as on the @sc{r4650} | |
15337 | processor, use the command @samp{set mipsfpu single}. The default | |
15338 | double precision floating point coprocessor may be selected using | |
15339 | @samp{set mipsfpu double}. | |
104c1213 | 15340 | |
8e04817f AC |
15341 | In previous versions the only choices were double precision or no |
15342 | floating point, so @samp{set mipsfpu on} will select double precision | |
15343 | and @samp{set mipsfpu off} will select no floating point. | |
104c1213 | 15344 | |
8e04817f AC |
15345 | As usual, you can inquire about the @code{mipsfpu} variable with |
15346 | @samp{show mipsfpu}. | |
104c1213 | 15347 | |
8e04817f AC |
15348 | @item set timeout @var{seconds} |
15349 | @itemx set retransmit-timeout @var{seconds} | |
15350 | @itemx show timeout | |
15351 | @itemx show retransmit-timeout | |
15352 | @cindex @code{timeout}, MIPS protocol | |
15353 | @cindex @code{retransmit-timeout}, MIPS protocol | |
15354 | @kindex set timeout | |
15355 | @kindex show timeout | |
15356 | @kindex set retransmit-timeout | |
15357 | @kindex show retransmit-timeout | |
15358 | You can control the timeout used while waiting for a packet, in the MIPS | |
15359 | remote protocol, with the @code{set timeout @var{seconds}} command. The | |
15360 | default is 5 seconds. Similarly, you can control the timeout used while | |
15361 | waiting for an acknowledgement of a packet with the @code{set | |
15362 | retransmit-timeout @var{seconds}} command. The default is 3 seconds. | |
15363 | You can inspect both values with @code{show timeout} and @code{show | |
15364 | retransmit-timeout}. (These commands are @emph{only} available when | |
15365 | @value{GDBN} is configured for @samp{--target=mips-idt-ecoff}.) | |
104c1213 | 15366 | |
8e04817f AC |
15367 | The timeout set by @code{set timeout} does not apply when @value{GDBN} |
15368 | is waiting for your program to stop. In that case, @value{GDBN} waits | |
15369 | forever because it has no way of knowing how long the program is going | |
15370 | to run before stopping. | |
ba04e063 EZ |
15371 | |
15372 | @item set syn-garbage-limit @var{num} | |
15373 | @kindex set syn-garbage-limit@r{, MIPS remote} | |
15374 | @cindex synchronize with remote MIPS target | |
15375 | Limit the maximum number of characters @value{GDBN} should ignore when | |
15376 | it tries to synchronize with the remote target. The default is 10 | |
15377 | characters. Setting the limit to -1 means there's no limit. | |
15378 | ||
15379 | @item show syn-garbage-limit | |
15380 | @kindex show syn-garbage-limit@r{, MIPS remote} | |
15381 | Show the current limit on the number of characters to ignore when | |
15382 | trying to synchronize with the remote system. | |
15383 | ||
15384 | @item set monitor-prompt @var{prompt} | |
15385 | @kindex set monitor-prompt@r{, MIPS remote} | |
15386 | @cindex remote monitor prompt | |
15387 | Tell @value{GDBN} to expect the specified @var{prompt} string from the | |
15388 | remote monitor. The default depends on the target: | |
15389 | @table @asis | |
15390 | @item pmon target | |
15391 | @samp{PMON} | |
15392 | @item ddb target | |
15393 | @samp{NEC010} | |
15394 | @item lsi target | |
15395 | @samp{PMON>} | |
15396 | @end table | |
15397 | ||
15398 | @item show monitor-prompt | |
15399 | @kindex show monitor-prompt@r{, MIPS remote} | |
15400 | Show the current strings @value{GDBN} expects as the prompt from the | |
15401 | remote monitor. | |
15402 | ||
15403 | @item set monitor-warnings | |
15404 | @kindex set monitor-warnings@r{, MIPS remote} | |
15405 | Enable or disable monitor warnings about hardware breakpoints. This | |
15406 | has effect only for the @code{lsi} target. When on, @value{GDBN} will | |
15407 | display warning messages whose codes are returned by the @code{lsi} | |
15408 | PMON monitor for breakpoint commands. | |
15409 | ||
15410 | @item show monitor-warnings | |
15411 | @kindex show monitor-warnings@r{, MIPS remote} | |
15412 | Show the current setting of printing monitor warnings. | |
15413 | ||
15414 | @item pmon @var{command} | |
15415 | @kindex pmon@r{, MIPS remote} | |
15416 | @cindex send PMON command | |
15417 | This command allows sending an arbitrary @var{command} string to the | |
15418 | monitor. The monitor must be in debug mode for this to work. | |
8e04817f | 15419 | @end table |
104c1213 | 15420 | |
a37295f9 MM |
15421 | @node OpenRISC 1000 |
15422 | @subsection OpenRISC 1000 | |
15423 | @cindex OpenRISC 1000 | |
15424 | ||
15425 | @cindex or1k boards | |
15426 | See OR1k Architecture document (@uref{www.opencores.org}) for more information | |
15427 | about platform and commands. | |
15428 | ||
15429 | @table @code | |
15430 | ||
15431 | @kindex target jtag | |
15432 | @item target jtag jtag://@var{host}:@var{port} | |
15433 | ||
15434 | Connects to remote JTAG server. | |
15435 | JTAG remote server can be either an or1ksim or JTAG server, | |
15436 | connected via parallel port to the board. | |
15437 | ||
15438 | Example: @code{target jtag jtag://localhost:9999} | |
15439 | ||
15440 | @kindex or1ksim | |
15441 | @item or1ksim @var{command} | |
15442 | If connected to @code{or1ksim} OpenRISC 1000 Architectural | |
15443 | Simulator, proprietary commands can be executed. | |
15444 | ||
15445 | @kindex info or1k spr | |
15446 | @item info or1k spr | |
15447 | Displays spr groups. | |
15448 | ||
15449 | @item info or1k spr @var{group} | |
15450 | @itemx info or1k spr @var{groupno} | |
15451 | Displays register names in selected group. | |
15452 | ||
15453 | @item info or1k spr @var{group} @var{register} | |
15454 | @itemx info or1k spr @var{register} | |
15455 | @itemx info or1k spr @var{groupno} @var{registerno} | |
15456 | @itemx info or1k spr @var{registerno} | |
15457 | Shows information about specified spr register. | |
15458 | ||
15459 | @kindex spr | |
15460 | @item spr @var{group} @var{register} @var{value} | |
15461 | @itemx spr @var{register @var{value}} | |
15462 | @itemx spr @var{groupno} @var{registerno @var{value}} | |
15463 | @itemx spr @var{registerno @var{value}} | |
15464 | Writes @var{value} to specified spr register. | |
15465 | @end table | |
15466 | ||
15467 | Some implementations of OpenRISC 1000 Architecture also have hardware trace. | |
15468 | It is very similar to @value{GDBN} trace, except it does not interfere with normal | |
15469 | program execution and is thus much faster. Hardware breakpoints/watchpoint | |
15470 | triggers can be set using: | |
15471 | @table @code | |
15472 | @item $LEA/$LDATA | |
15473 | Load effective address/data | |
15474 | @item $SEA/$SDATA | |
15475 | Store effective address/data | |
15476 | @item $AEA/$ADATA | |
15477 | Access effective address ($SEA or $LEA) or data ($SDATA/$LDATA) | |
15478 | @item $FETCH | |
15479 | Fetch data | |
15480 | @end table | |
15481 | ||
15482 | When triggered, it can capture low level data, like: @code{PC}, @code{LSEA}, | |
15483 | @code{LDATA}, @code{SDATA}, @code{READSPR}, @code{WRITESPR}, @code{INSTR}. | |
15484 | ||
15485 | @code{htrace} commands: | |
15486 | @cindex OpenRISC 1000 htrace | |
15487 | @table @code | |
15488 | @kindex hwatch | |
15489 | @item hwatch @var{conditional} | |
d3e8051b | 15490 | Set hardware watchpoint on combination of Load/Store Effective Address(es) |
a37295f9 MM |
15491 | or Data. For example: |
15492 | ||
15493 | @code{hwatch ($LEA == my_var) && ($LDATA < 50) || ($SEA == my_var) && ($SDATA >= 50)} | |
15494 | ||
15495 | @code{hwatch ($LEA == my_var) && ($LDATA < 50) || ($SEA == my_var) && ($SDATA >= 50)} | |
15496 | ||
4644b6e3 | 15497 | @kindex htrace |
a37295f9 MM |
15498 | @item htrace info |
15499 | Display information about current HW trace configuration. | |
15500 | ||
a37295f9 MM |
15501 | @item htrace trigger @var{conditional} |
15502 | Set starting criteria for HW trace. | |
15503 | ||
a37295f9 MM |
15504 | @item htrace qualifier @var{conditional} |
15505 | Set acquisition qualifier for HW trace. | |
15506 | ||
a37295f9 MM |
15507 | @item htrace stop @var{conditional} |
15508 | Set HW trace stopping criteria. | |
15509 | ||
f153cc92 | 15510 | @item htrace record [@var{data}]* |
a37295f9 MM |
15511 | Selects the data to be recorded, when qualifier is met and HW trace was |
15512 | triggered. | |
15513 | ||
a37295f9 | 15514 | @item htrace enable |
a37295f9 MM |
15515 | @itemx htrace disable |
15516 | Enables/disables the HW trace. | |
15517 | ||
f153cc92 | 15518 | @item htrace rewind [@var{filename}] |
a37295f9 MM |
15519 | Clears currently recorded trace data. |
15520 | ||
15521 | If filename is specified, new trace file is made and any newly collected data | |
15522 | will be written there. | |
15523 | ||
f153cc92 | 15524 | @item htrace print [@var{start} [@var{len}]] |
a37295f9 MM |
15525 | Prints trace buffer, using current record configuration. |
15526 | ||
a37295f9 MM |
15527 | @item htrace mode continuous |
15528 | Set continuous trace mode. | |
15529 | ||
a37295f9 MM |
15530 | @item htrace mode suspend |
15531 | Set suspend trace mode. | |
15532 | ||
15533 | @end table | |
15534 | ||
4acd40f3 TJB |
15535 | @node PowerPC Embedded |
15536 | @subsection PowerPC Embedded | |
104c1213 | 15537 | |
55eddb0f DJ |
15538 | @value{GDBN} provides the following PowerPC-specific commands: |
15539 | ||
104c1213 | 15540 | @table @code |
55eddb0f DJ |
15541 | @kindex set powerpc |
15542 | @item set powerpc soft-float | |
15543 | @itemx show powerpc soft-float | |
15544 | Force @value{GDBN} to use (or not use) a software floating point calling | |
15545 | convention. By default, @value{GDBN} selects the calling convention based | |
15546 | on the selected architecture and the provided executable file. | |
15547 | ||
15548 | @item set powerpc vector-abi | |
15549 | @itemx show powerpc vector-abi | |
15550 | Force @value{GDBN} to use the specified calling convention for vector | |
15551 | arguments and return values. The valid options are @samp{auto}; | |
15552 | @samp{generic}, to avoid vector registers even if they are present; | |
15553 | @samp{altivec}, to use AltiVec registers; and @samp{spe} to use SPE | |
15554 | registers. By default, @value{GDBN} selects the calling convention | |
15555 | based on the selected architecture and the provided executable file. | |
15556 | ||
8e04817f AC |
15557 | @kindex target dink32 |
15558 | @item target dink32 @var{dev} | |
15559 | DINK32 ROM monitor. | |
104c1213 | 15560 | |
8e04817f AC |
15561 | @kindex target ppcbug |
15562 | @item target ppcbug @var{dev} | |
15563 | @kindex target ppcbug1 | |
15564 | @item target ppcbug1 @var{dev} | |
15565 | PPCBUG ROM monitor for PowerPC. | |
104c1213 | 15566 | |
8e04817f AC |
15567 | @kindex target sds |
15568 | @item target sds @var{dev} | |
15569 | SDS monitor, running on a PowerPC board (such as Motorola's ADS). | |
c45da7e6 | 15570 | @end table |
8e04817f | 15571 | |
c45da7e6 | 15572 | @cindex SDS protocol |
d52fb0e9 | 15573 | The following commands specific to the SDS protocol are supported |
55eddb0f | 15574 | by @value{GDBN}: |
c45da7e6 EZ |
15575 | |
15576 | @table @code | |
15577 | @item set sdstimeout @var{nsec} | |
15578 | @kindex set sdstimeout | |
15579 | Set the timeout for SDS protocol reads to be @var{nsec} seconds. The | |
15580 | default is 2 seconds. | |
15581 | ||
15582 | @item show sdstimeout | |
15583 | @kindex show sdstimeout | |
15584 | Show the current value of the SDS timeout. | |
15585 | ||
15586 | @item sds @var{command} | |
15587 | @kindex sds@r{, a command} | |
15588 | Send the specified @var{command} string to the SDS monitor. | |
8e04817f AC |
15589 | @end table |
15590 | ||
c45da7e6 | 15591 | |
8e04817f AC |
15592 | @node PA |
15593 | @subsection HP PA Embedded | |
104c1213 JM |
15594 | |
15595 | @table @code | |
15596 | ||
8e04817f AC |
15597 | @kindex target op50n |
15598 | @item target op50n @var{dev} | |
15599 | OP50N monitor, running on an OKI HPPA board. | |
15600 | ||
15601 | @kindex target w89k | |
15602 | @item target w89k @var{dev} | |
15603 | W89K monitor, running on a Winbond HPPA board. | |
104c1213 JM |
15604 | |
15605 | @end table | |
15606 | ||
8e04817f AC |
15607 | @node Sparclet |
15608 | @subsection Tsqware Sparclet | |
104c1213 | 15609 | |
8e04817f AC |
15610 | @cindex Sparclet |
15611 | ||
15612 | @value{GDBN} enables developers to debug tasks running on | |
15613 | Sparclet targets from a Unix host. | |
15614 | @value{GDBN} uses code that runs on | |
15615 | both the Unix host and on the Sparclet target. The program | |
15616 | @code{@value{GDBP}} is installed and executed on the Unix host. | |
104c1213 | 15617 | |
8e04817f AC |
15618 | @table @code |
15619 | @item remotetimeout @var{args} | |
15620 | @kindex remotetimeout | |
15621 | @value{GDBN} supports the option @code{remotetimeout}. | |
15622 | This option is set by the user, and @var{args} represents the number of | |
15623 | seconds @value{GDBN} waits for responses. | |
104c1213 JM |
15624 | @end table |
15625 | ||
8e04817f AC |
15626 | @cindex compiling, on Sparclet |
15627 | When compiling for debugging, include the options @samp{-g} to get debug | |
15628 | information and @samp{-Ttext} to relocate the program to where you wish to | |
15629 | load it on the target. You may also want to add the options @samp{-n} or | |
15630 | @samp{-N} in order to reduce the size of the sections. Example: | |
104c1213 | 15631 | |
474c8240 | 15632 | @smallexample |
8e04817f | 15633 | sparclet-aout-gcc prog.c -Ttext 0x12010000 -g -o prog -N |
474c8240 | 15634 | @end smallexample |
104c1213 | 15635 | |
8e04817f | 15636 | You can use @code{objdump} to verify that the addresses are what you intended: |
104c1213 | 15637 | |
474c8240 | 15638 | @smallexample |
8e04817f | 15639 | sparclet-aout-objdump --headers --syms prog |
474c8240 | 15640 | @end smallexample |
104c1213 | 15641 | |
8e04817f AC |
15642 | @cindex running, on Sparclet |
15643 | Once you have set | |
15644 | your Unix execution search path to find @value{GDBN}, you are ready to | |
15645 | run @value{GDBN}. From your Unix host, run @code{@value{GDBP}} | |
15646 | (or @code{sparclet-aout-gdb}, depending on your installation). | |
104c1213 | 15647 | |
8e04817f AC |
15648 | @value{GDBN} comes up showing the prompt: |
15649 | ||
474c8240 | 15650 | @smallexample |
8e04817f | 15651 | (gdbslet) |
474c8240 | 15652 | @end smallexample |
104c1213 JM |
15653 | |
15654 | @menu | |
8e04817f AC |
15655 | * Sparclet File:: Setting the file to debug |
15656 | * Sparclet Connection:: Connecting to Sparclet | |
15657 | * Sparclet Download:: Sparclet download | |
15658 | * Sparclet Execution:: Running and debugging | |
104c1213 JM |
15659 | @end menu |
15660 | ||
8e04817f | 15661 | @node Sparclet File |
79a6e687 | 15662 | @subsubsection Setting File to Debug |
104c1213 | 15663 | |
8e04817f | 15664 | The @value{GDBN} command @code{file} lets you choose with program to debug. |
104c1213 | 15665 | |
474c8240 | 15666 | @smallexample |
8e04817f | 15667 | (gdbslet) file prog |
474c8240 | 15668 | @end smallexample |
104c1213 | 15669 | |
8e04817f AC |
15670 | @need 1000 |
15671 | @value{GDBN} then attempts to read the symbol table of @file{prog}. | |
15672 | @value{GDBN} locates | |
15673 | the file by searching the directories listed in the command search | |
15674 | path. | |
12c27660 | 15675 | If the file was compiled with debug information (option @samp{-g}), source |
8e04817f AC |
15676 | files will be searched as well. |
15677 | @value{GDBN} locates | |
15678 | the source files by searching the directories listed in the directory search | |
79a6e687 | 15679 | path (@pxref{Environment, ,Your Program's Environment}). |
8e04817f AC |
15680 | If it fails |
15681 | to find a file, it displays a message such as: | |
104c1213 | 15682 | |
474c8240 | 15683 | @smallexample |
8e04817f | 15684 | prog: No such file or directory. |
474c8240 | 15685 | @end smallexample |
104c1213 | 15686 | |
8e04817f AC |
15687 | When this happens, add the appropriate directories to the search paths with |
15688 | the @value{GDBN} commands @code{path} and @code{dir}, and execute the | |
15689 | @code{target} command again. | |
104c1213 | 15690 | |
8e04817f AC |
15691 | @node Sparclet Connection |
15692 | @subsubsection Connecting to Sparclet | |
104c1213 | 15693 | |
8e04817f AC |
15694 | The @value{GDBN} command @code{target} lets you connect to a Sparclet target. |
15695 | To connect to a target on serial port ``@code{ttya}'', type: | |
104c1213 | 15696 | |
474c8240 | 15697 | @smallexample |
8e04817f AC |
15698 | (gdbslet) target sparclet /dev/ttya |
15699 | Remote target sparclet connected to /dev/ttya | |
15700 | main () at ../prog.c:3 | |
474c8240 | 15701 | @end smallexample |
104c1213 | 15702 | |
8e04817f AC |
15703 | @need 750 |
15704 | @value{GDBN} displays messages like these: | |
104c1213 | 15705 | |
474c8240 | 15706 | @smallexample |
8e04817f | 15707 | Connected to ttya. |
474c8240 | 15708 | @end smallexample |
104c1213 | 15709 | |
8e04817f | 15710 | @node Sparclet Download |
79a6e687 | 15711 | @subsubsection Sparclet Download |
104c1213 | 15712 | |
8e04817f AC |
15713 | @cindex download to Sparclet |
15714 | Once connected to the Sparclet target, | |
15715 | you can use the @value{GDBN} | |
15716 | @code{load} command to download the file from the host to the target. | |
15717 | The file name and load offset should be given as arguments to the @code{load} | |
15718 | command. | |
15719 | Since the file format is aout, the program must be loaded to the starting | |
15720 | address. You can use @code{objdump} to find out what this value is. The load | |
15721 | offset is an offset which is added to the VMA (virtual memory address) | |
15722 | of each of the file's sections. | |
15723 | For instance, if the program | |
15724 | @file{prog} was linked to text address 0x1201000, with data at 0x12010160 | |
15725 | and bss at 0x12010170, in @value{GDBN}, type: | |
104c1213 | 15726 | |
474c8240 | 15727 | @smallexample |
8e04817f AC |
15728 | (gdbslet) load prog 0x12010000 |
15729 | Loading section .text, size 0xdb0 vma 0x12010000 | |
474c8240 | 15730 | @end smallexample |
104c1213 | 15731 | |
8e04817f AC |
15732 | If the code is loaded at a different address then what the program was linked |
15733 | to, you may need to use the @code{section} and @code{add-symbol-file} commands | |
15734 | to tell @value{GDBN} where to map the symbol table. | |
15735 | ||
15736 | @node Sparclet Execution | |
79a6e687 | 15737 | @subsubsection Running and Debugging |
8e04817f AC |
15738 | |
15739 | @cindex running and debugging Sparclet programs | |
15740 | You can now begin debugging the task using @value{GDBN}'s execution control | |
15741 | commands, @code{b}, @code{step}, @code{run}, etc. See the @value{GDBN} | |
15742 | manual for the list of commands. | |
15743 | ||
474c8240 | 15744 | @smallexample |
8e04817f AC |
15745 | (gdbslet) b main |
15746 | Breakpoint 1 at 0x12010000: file prog.c, line 3. | |
15747 | (gdbslet) run | |
15748 | Starting program: prog | |
15749 | Breakpoint 1, main (argc=1, argv=0xeffff21c) at prog.c:3 | |
15750 | 3 char *symarg = 0; | |
15751 | (gdbslet) step | |
15752 | 4 char *execarg = "hello!"; | |
15753 | (gdbslet) | |
474c8240 | 15754 | @end smallexample |
8e04817f AC |
15755 | |
15756 | @node Sparclite | |
15757 | @subsection Fujitsu Sparclite | |
104c1213 JM |
15758 | |
15759 | @table @code | |
15760 | ||
8e04817f AC |
15761 | @kindex target sparclite |
15762 | @item target sparclite @var{dev} | |
15763 | Fujitsu sparclite boards, used only for the purpose of loading. | |
15764 | You must use an additional command to debug the program. | |
15765 | For example: target remote @var{dev} using @value{GDBN} standard | |
15766 | remote protocol. | |
104c1213 JM |
15767 | |
15768 | @end table | |
15769 | ||
8e04817f AC |
15770 | @node Z8000 |
15771 | @subsection Zilog Z8000 | |
104c1213 | 15772 | |
8e04817f AC |
15773 | @cindex Z8000 |
15774 | @cindex simulator, Z8000 | |
15775 | @cindex Zilog Z8000 simulator | |
104c1213 | 15776 | |
8e04817f AC |
15777 | When configured for debugging Zilog Z8000 targets, @value{GDBN} includes |
15778 | a Z8000 simulator. | |
15779 | ||
15780 | For the Z8000 family, @samp{target sim} simulates either the Z8002 (the | |
15781 | unsegmented variant of the Z8000 architecture) or the Z8001 (the | |
15782 | segmented variant). The simulator recognizes which architecture is | |
15783 | appropriate by inspecting the object code. | |
104c1213 | 15784 | |
8e04817f AC |
15785 | @table @code |
15786 | @item target sim @var{args} | |
15787 | @kindex sim | |
15788 | @kindex target sim@r{, with Z8000} | |
15789 | Debug programs on a simulated CPU. If the simulator supports setup | |
15790 | options, specify them via @var{args}. | |
104c1213 JM |
15791 | @end table |
15792 | ||
8e04817f AC |
15793 | @noindent |
15794 | After specifying this target, you can debug programs for the simulated | |
15795 | CPU in the same style as programs for your host computer; use the | |
15796 | @code{file} command to load a new program image, the @code{run} command | |
15797 | to run your program, and so on. | |
15798 | ||
15799 | As well as making available all the usual machine registers | |
15800 | (@pxref{Registers, ,Registers}), the Z8000 simulator provides three | |
15801 | additional items of information as specially named registers: | |
104c1213 JM |
15802 | |
15803 | @table @code | |
15804 | ||
8e04817f AC |
15805 | @item cycles |
15806 | Counts clock-ticks in the simulator. | |
104c1213 | 15807 | |
8e04817f AC |
15808 | @item insts |
15809 | Counts instructions run in the simulator. | |
104c1213 | 15810 | |
8e04817f AC |
15811 | @item time |
15812 | Execution time in 60ths of a second. | |
104c1213 | 15813 | |
8e04817f | 15814 | @end table |
104c1213 | 15815 | |
8e04817f AC |
15816 | You can refer to these values in @value{GDBN} expressions with the usual |
15817 | conventions; for example, @w{@samp{b fputc if $cycles>5000}} sets a | |
15818 | conditional breakpoint that suspends only after at least 5000 | |
15819 | simulated clock ticks. | |
104c1213 | 15820 | |
a64548ea EZ |
15821 | @node AVR |
15822 | @subsection Atmel AVR | |
15823 | @cindex AVR | |
15824 | ||
15825 | When configured for debugging the Atmel AVR, @value{GDBN} supports the | |
15826 | following AVR-specific commands: | |
15827 | ||
15828 | @table @code | |
15829 | @item info io_registers | |
15830 | @kindex info io_registers@r{, AVR} | |
15831 | @cindex I/O registers (Atmel AVR) | |
15832 | This command displays information about the AVR I/O registers. For | |
15833 | each register, @value{GDBN} prints its number and value. | |
15834 | @end table | |
15835 | ||
15836 | @node CRIS | |
15837 | @subsection CRIS | |
15838 | @cindex CRIS | |
15839 | ||
15840 | When configured for debugging CRIS, @value{GDBN} provides the | |
15841 | following CRIS-specific commands: | |
15842 | ||
15843 | @table @code | |
15844 | @item set cris-version @var{ver} | |
15845 | @cindex CRIS version | |
e22e55c9 OF |
15846 | Set the current CRIS version to @var{ver}, either @samp{10} or @samp{32}. |
15847 | The CRIS version affects register names and sizes. This command is useful in | |
15848 | case autodetection of the CRIS version fails. | |
a64548ea EZ |
15849 | |
15850 | @item show cris-version | |
15851 | Show the current CRIS version. | |
15852 | ||
15853 | @item set cris-dwarf2-cfi | |
15854 | @cindex DWARF-2 CFI and CRIS | |
e22e55c9 OF |
15855 | Set the usage of DWARF-2 CFI for CRIS debugging. The default is @samp{on}. |
15856 | Change to @samp{off} when using @code{gcc-cris} whose version is below | |
15857 | @code{R59}. | |
a64548ea EZ |
15858 | |
15859 | @item show cris-dwarf2-cfi | |
15860 | Show the current state of using DWARF-2 CFI. | |
e22e55c9 OF |
15861 | |
15862 | @item set cris-mode @var{mode} | |
15863 | @cindex CRIS mode | |
15864 | Set the current CRIS mode to @var{mode}. It should only be changed when | |
15865 | debugging in guru mode, in which case it should be set to | |
15866 | @samp{guru} (the default is @samp{normal}). | |
15867 | ||
15868 | @item show cris-mode | |
15869 | Show the current CRIS mode. | |
a64548ea EZ |
15870 | @end table |
15871 | ||
15872 | @node Super-H | |
15873 | @subsection Renesas Super-H | |
15874 | @cindex Super-H | |
15875 | ||
15876 | For the Renesas Super-H processor, @value{GDBN} provides these | |
15877 | commands: | |
15878 | ||
15879 | @table @code | |
15880 | @item regs | |
15881 | @kindex regs@r{, Super-H} | |
15882 | Show the values of all Super-H registers. | |
c055b101 CV |
15883 | |
15884 | @item set sh calling-convention @var{convention} | |
15885 | @kindex set sh calling-convention | |
15886 | Set the calling-convention used when calling functions from @value{GDBN}. | |
15887 | Allowed values are @samp{gcc}, which is the default setting, and @samp{renesas}. | |
15888 | With the @samp{gcc} setting, functions are called using the @value{NGCC} calling | |
15889 | convention. If the DWARF-2 information of the called function specifies | |
15890 | that the function follows the Renesas calling convention, the function | |
15891 | is called using the Renesas calling convention. If the calling convention | |
15892 | is set to @samp{renesas}, the Renesas calling convention is always used, | |
15893 | regardless of the DWARF-2 information. This can be used to override the | |
15894 | default of @samp{gcc} if debug information is missing, or the compiler | |
15895 | does not emit the DWARF-2 calling convention entry for a function. | |
15896 | ||
15897 | @item show sh calling-convention | |
15898 | @kindex show sh calling-convention | |
15899 | Show the current calling convention setting. | |
15900 | ||
a64548ea EZ |
15901 | @end table |
15902 | ||
15903 | ||
8e04817f AC |
15904 | @node Architectures |
15905 | @section Architectures | |
104c1213 | 15906 | |
8e04817f AC |
15907 | This section describes characteristics of architectures that affect |
15908 | all uses of @value{GDBN} with the architecture, both native and cross. | |
104c1213 | 15909 | |
8e04817f | 15910 | @menu |
9c16f35a | 15911 | * i386:: |
8e04817f AC |
15912 | * A29K:: |
15913 | * Alpha:: | |
15914 | * MIPS:: | |
a64548ea | 15915 | * HPPA:: HP PA architecture |
23d964e7 | 15916 | * SPU:: Cell Broadband Engine SPU architecture |
4acd40f3 | 15917 | * PowerPC:: |
8e04817f | 15918 | @end menu |
104c1213 | 15919 | |
9c16f35a | 15920 | @node i386 |
db2e3e2e | 15921 | @subsection x86 Architecture-specific Issues |
9c16f35a EZ |
15922 | |
15923 | @table @code | |
15924 | @item set struct-convention @var{mode} | |
15925 | @kindex set struct-convention | |
15926 | @cindex struct return convention | |
15927 | @cindex struct/union returned in registers | |
15928 | Set the convention used by the inferior to return @code{struct}s and | |
15929 | @code{union}s from functions to @var{mode}. Possible values of | |
15930 | @var{mode} are @code{"pcc"}, @code{"reg"}, and @code{"default"} (the | |
15931 | default). @code{"default"} or @code{"pcc"} means that @code{struct}s | |
15932 | are returned on the stack, while @code{"reg"} means that a | |
15933 | @code{struct} or a @code{union} whose size is 1, 2, 4, or 8 bytes will | |
15934 | be returned in a register. | |
15935 | ||
15936 | @item show struct-convention | |
15937 | @kindex show struct-convention | |
15938 | Show the current setting of the convention to return @code{struct}s | |
15939 | from functions. | |
15940 | @end table | |
15941 | ||
8e04817f AC |
15942 | @node A29K |
15943 | @subsection A29K | |
104c1213 JM |
15944 | |
15945 | @table @code | |
104c1213 | 15946 | |
8e04817f AC |
15947 | @kindex set rstack_high_address |
15948 | @cindex AMD 29K register stack | |
15949 | @cindex register stack, AMD29K | |
15950 | @item set rstack_high_address @var{address} | |
15951 | On AMD 29000 family processors, registers are saved in a separate | |
15952 | @dfn{register stack}. There is no way for @value{GDBN} to determine the | |
15953 | extent of this stack. Normally, @value{GDBN} just assumes that the | |
15954 | stack is ``large enough''. This may result in @value{GDBN} referencing | |
15955 | memory locations that do not exist. If necessary, you can get around | |
15956 | this problem by specifying the ending address of the register stack with | |
15957 | the @code{set rstack_high_address} command. The argument should be an | |
15958 | address, which you probably want to precede with @samp{0x} to specify in | |
15959 | hexadecimal. | |
104c1213 | 15960 | |
8e04817f AC |
15961 | @kindex show rstack_high_address |
15962 | @item show rstack_high_address | |
15963 | Display the current limit of the register stack, on AMD 29000 family | |
15964 | processors. | |
104c1213 | 15965 | |
8e04817f | 15966 | @end table |
104c1213 | 15967 | |
8e04817f AC |
15968 | @node Alpha |
15969 | @subsection Alpha | |
104c1213 | 15970 | |
8e04817f | 15971 | See the following section. |
104c1213 | 15972 | |
8e04817f AC |
15973 | @node MIPS |
15974 | @subsection MIPS | |
104c1213 | 15975 | |
8e04817f AC |
15976 | @cindex stack on Alpha |
15977 | @cindex stack on MIPS | |
15978 | @cindex Alpha stack | |
15979 | @cindex MIPS stack | |
15980 | Alpha- and MIPS-based computers use an unusual stack frame, which | |
15981 | sometimes requires @value{GDBN} to search backward in the object code to | |
15982 | find the beginning of a function. | |
104c1213 | 15983 | |
8e04817f AC |
15984 | @cindex response time, MIPS debugging |
15985 | To improve response time (especially for embedded applications, where | |
15986 | @value{GDBN} may be restricted to a slow serial line for this search) | |
15987 | you may want to limit the size of this search, using one of these | |
15988 | commands: | |
104c1213 | 15989 | |
8e04817f AC |
15990 | @table @code |
15991 | @cindex @code{heuristic-fence-post} (Alpha, MIPS) | |
15992 | @item set heuristic-fence-post @var{limit} | |
15993 | Restrict @value{GDBN} to examining at most @var{limit} bytes in its | |
15994 | search for the beginning of a function. A value of @var{0} (the | |
15995 | default) means there is no limit. However, except for @var{0}, the | |
15996 | larger the limit the more bytes @code{heuristic-fence-post} must search | |
e2f4edfd EZ |
15997 | and therefore the longer it takes to run. You should only need to use |
15998 | this command when debugging a stripped executable. | |
104c1213 | 15999 | |
8e04817f AC |
16000 | @item show heuristic-fence-post |
16001 | Display the current limit. | |
16002 | @end table | |
104c1213 JM |
16003 | |
16004 | @noindent | |
8e04817f AC |
16005 | These commands are available @emph{only} when @value{GDBN} is configured |
16006 | for debugging programs on Alpha or MIPS processors. | |
104c1213 | 16007 | |
a64548ea EZ |
16008 | Several MIPS-specific commands are available when debugging MIPS |
16009 | programs: | |
16010 | ||
16011 | @table @code | |
a64548ea EZ |
16012 | @item set mips abi @var{arg} |
16013 | @kindex set mips abi | |
16014 | @cindex set ABI for MIPS | |
16015 | Tell @value{GDBN} which MIPS ABI is used by the inferior. Possible | |
16016 | values of @var{arg} are: | |
16017 | ||
16018 | @table @samp | |
16019 | @item auto | |
16020 | The default ABI associated with the current binary (this is the | |
16021 | default). | |
16022 | @item o32 | |
16023 | @item o64 | |
16024 | @item n32 | |
16025 | @item n64 | |
16026 | @item eabi32 | |
16027 | @item eabi64 | |
16028 | @item auto | |
16029 | @end table | |
16030 | ||
16031 | @item show mips abi | |
16032 | @kindex show mips abi | |
16033 | Show the MIPS ABI used by @value{GDBN} to debug the inferior. | |
16034 | ||
16035 | @item set mipsfpu | |
16036 | @itemx show mipsfpu | |
16037 | @xref{MIPS Embedded, set mipsfpu}. | |
16038 | ||
16039 | @item set mips mask-address @var{arg} | |
16040 | @kindex set mips mask-address | |
16041 | @cindex MIPS addresses, masking | |
16042 | This command determines whether the most-significant 32 bits of 64-bit | |
16043 | MIPS addresses are masked off. The argument @var{arg} can be | |
16044 | @samp{on}, @samp{off}, or @samp{auto}. The latter is the default | |
16045 | setting, which lets @value{GDBN} determine the correct value. | |
16046 | ||
16047 | @item show mips mask-address | |
16048 | @kindex show mips mask-address | |
16049 | Show whether the upper 32 bits of MIPS addresses are masked off or | |
16050 | not. | |
16051 | ||
16052 | @item set remote-mips64-transfers-32bit-regs | |
16053 | @kindex set remote-mips64-transfers-32bit-regs | |
16054 | This command controls compatibility with 64-bit MIPS targets that | |
16055 | transfer data in 32-bit quantities. If you have an old MIPS 64 target | |
16056 | that transfers 32 bits for some registers, like @sc{sr} and @sc{fsr}, | |
16057 | and 64 bits for other registers, set this option to @samp{on}. | |
16058 | ||
16059 | @item show remote-mips64-transfers-32bit-regs | |
16060 | @kindex show remote-mips64-transfers-32bit-regs | |
16061 | Show the current setting of compatibility with older MIPS 64 targets. | |
16062 | ||
16063 | @item set debug mips | |
16064 | @kindex set debug mips | |
16065 | This command turns on and off debugging messages for the MIPS-specific | |
16066 | target code in @value{GDBN}. | |
16067 | ||
16068 | @item show debug mips | |
16069 | @kindex show debug mips | |
16070 | Show the current setting of MIPS debugging messages. | |
16071 | @end table | |
16072 | ||
16073 | ||
16074 | @node HPPA | |
16075 | @subsection HPPA | |
16076 | @cindex HPPA support | |
16077 | ||
d3e8051b | 16078 | When @value{GDBN} is debugging the HP PA architecture, it provides the |
a64548ea EZ |
16079 | following special commands: |
16080 | ||
16081 | @table @code | |
16082 | @item set debug hppa | |
16083 | @kindex set debug hppa | |
db2e3e2e | 16084 | This command determines whether HPPA architecture-specific debugging |
a64548ea EZ |
16085 | messages are to be displayed. |
16086 | ||
16087 | @item show debug hppa | |
16088 | Show whether HPPA debugging messages are displayed. | |
16089 | ||
16090 | @item maint print unwind @var{address} | |
16091 | @kindex maint print unwind@r{, HPPA} | |
16092 | This command displays the contents of the unwind table entry at the | |
16093 | given @var{address}. | |
16094 | ||
16095 | @end table | |
16096 | ||
104c1213 | 16097 | |
23d964e7 UW |
16098 | @node SPU |
16099 | @subsection Cell Broadband Engine SPU architecture | |
16100 | @cindex Cell Broadband Engine | |
16101 | @cindex SPU | |
16102 | ||
16103 | When @value{GDBN} is debugging the Cell Broadband Engine SPU architecture, | |
16104 | it provides the following special commands: | |
16105 | ||
16106 | @table @code | |
16107 | @item info spu event | |
16108 | @kindex info spu | |
16109 | Display SPU event facility status. Shows current event mask | |
16110 | and pending event status. | |
16111 | ||
16112 | @item info spu signal | |
16113 | Display SPU signal notification facility status. Shows pending | |
16114 | signal-control word and signal notification mode of both signal | |
16115 | notification channels. | |
16116 | ||
16117 | @item info spu mailbox | |
16118 | Display SPU mailbox facility status. Shows all pending entries, | |
16119 | in order of processing, in each of the SPU Write Outbound, | |
16120 | SPU Write Outbound Interrupt, and SPU Read Inbound mailboxes. | |
16121 | ||
16122 | @item info spu dma | |
16123 | Display MFC DMA status. Shows all pending commands in the MFC | |
16124 | DMA queue. For each entry, opcode, tag, class IDs, effective | |
16125 | and local store addresses and transfer size are shown. | |
16126 | ||
16127 | @item info spu proxydma | |
16128 | Display MFC Proxy-DMA status. Shows all pending commands in the MFC | |
16129 | Proxy-DMA queue. For each entry, opcode, tag, class IDs, effective | |
16130 | and local store addresses and transfer size are shown. | |
16131 | ||
16132 | @end table | |
16133 | ||
4acd40f3 TJB |
16134 | @node PowerPC |
16135 | @subsection PowerPC | |
16136 | @cindex PowerPC architecture | |
16137 | ||
16138 | When @value{GDBN} is debugging the PowerPC architecture, it provides a set of | |
16139 | pseudo-registers to enable inspection of 128-bit wide Decimal Floating Point | |
16140 | numbers stored in the floating point registers. These values must be stored | |
16141 | in two consecutive registers, always starting at an even register like | |
16142 | @code{f0} or @code{f2}. | |
16143 | ||
16144 | The pseudo-registers go from @code{$dl0} through @code{$dl15}, and are formed | |
16145 | by joining the even/odd register pairs @code{f0} and @code{f1} for @code{$dl0}, | |
16146 | @code{f2} and @code{f3} for @code{$dl1} and so on. | |
16147 | ||
23d964e7 | 16148 | |
8e04817f AC |
16149 | @node Controlling GDB |
16150 | @chapter Controlling @value{GDBN} | |
16151 | ||
16152 | You can alter the way @value{GDBN} interacts with you by using the | |
16153 | @code{set} command. For commands controlling how @value{GDBN} displays | |
79a6e687 | 16154 | data, see @ref{Print Settings, ,Print Settings}. Other settings are |
8e04817f AC |
16155 | described here. |
16156 | ||
16157 | @menu | |
16158 | * Prompt:: Prompt | |
16159 | * Editing:: Command editing | |
d620b259 | 16160 | * Command History:: Command history |
8e04817f AC |
16161 | * Screen Size:: Screen size |
16162 | * Numbers:: Numbers | |
1e698235 | 16163 | * ABI:: Configuring the current ABI |
8e04817f AC |
16164 | * Messages/Warnings:: Optional warnings and messages |
16165 | * Debugging Output:: Optional messages about internal happenings | |
16166 | @end menu | |
16167 | ||
16168 | @node Prompt | |
16169 | @section Prompt | |
104c1213 | 16170 | |
8e04817f | 16171 | @cindex prompt |
104c1213 | 16172 | |
8e04817f AC |
16173 | @value{GDBN} indicates its readiness to read a command by printing a string |
16174 | called the @dfn{prompt}. This string is normally @samp{(@value{GDBP})}. You | |
16175 | can change the prompt string with the @code{set prompt} command. For | |
16176 | instance, when debugging @value{GDBN} with @value{GDBN}, it is useful to change | |
16177 | the prompt in one of the @value{GDBN} sessions so that you can always tell | |
16178 | which one you are talking to. | |
104c1213 | 16179 | |
8e04817f AC |
16180 | @emph{Note:} @code{set prompt} does not add a space for you after the |
16181 | prompt you set. This allows you to set a prompt which ends in a space | |
16182 | or a prompt that does not. | |
104c1213 | 16183 | |
8e04817f AC |
16184 | @table @code |
16185 | @kindex set prompt | |
16186 | @item set prompt @var{newprompt} | |
16187 | Directs @value{GDBN} to use @var{newprompt} as its prompt string henceforth. | |
104c1213 | 16188 | |
8e04817f AC |
16189 | @kindex show prompt |
16190 | @item show prompt | |
16191 | Prints a line of the form: @samp{Gdb's prompt is: @var{your-prompt}} | |
104c1213 JM |
16192 | @end table |
16193 | ||
8e04817f | 16194 | @node Editing |
79a6e687 | 16195 | @section Command Editing |
8e04817f AC |
16196 | @cindex readline |
16197 | @cindex command line editing | |
104c1213 | 16198 | |
703663ab | 16199 | @value{GDBN} reads its input commands via the @dfn{Readline} interface. This |
8e04817f AC |
16200 | @sc{gnu} library provides consistent behavior for programs which provide a |
16201 | command line interface to the user. Advantages are @sc{gnu} Emacs-style | |
16202 | or @dfn{vi}-style inline editing of commands, @code{csh}-like history | |
16203 | substitution, and a storage and recall of command history across | |
16204 | debugging sessions. | |
104c1213 | 16205 | |
8e04817f AC |
16206 | You may control the behavior of command line editing in @value{GDBN} with the |
16207 | command @code{set}. | |
104c1213 | 16208 | |
8e04817f AC |
16209 | @table @code |
16210 | @kindex set editing | |
16211 | @cindex editing | |
16212 | @item set editing | |
16213 | @itemx set editing on | |
16214 | Enable command line editing (enabled by default). | |
104c1213 | 16215 | |
8e04817f AC |
16216 | @item set editing off |
16217 | Disable command line editing. | |
104c1213 | 16218 | |
8e04817f AC |
16219 | @kindex show editing |
16220 | @item show editing | |
16221 | Show whether command line editing is enabled. | |
104c1213 JM |
16222 | @end table |
16223 | ||
703663ab EZ |
16224 | @xref{Command Line Editing}, for more details about the Readline |
16225 | interface. Users unfamiliar with @sc{gnu} Emacs or @code{vi} are | |
16226 | encouraged to read that chapter. | |
16227 | ||
d620b259 | 16228 | @node Command History |
79a6e687 | 16229 | @section Command History |
703663ab | 16230 | @cindex command history |
8e04817f AC |
16231 | |
16232 | @value{GDBN} can keep track of the commands you type during your | |
16233 | debugging sessions, so that you can be certain of precisely what | |
16234 | happened. Use these commands to manage the @value{GDBN} command | |
16235 | history facility. | |
104c1213 | 16236 | |
703663ab EZ |
16237 | @value{GDBN} uses the @sc{gnu} History library, a part of the Readline |
16238 | package, to provide the history facility. @xref{Using History | |
16239 | Interactively}, for the detailed description of the History library. | |
16240 | ||
d620b259 | 16241 | To issue a command to @value{GDBN} without affecting certain aspects of |
9e6c4bd5 NR |
16242 | the state which is seen by users, prefix it with @samp{server } |
16243 | (@pxref{Server Prefix}). This | |
d620b259 NR |
16244 | means that this command will not affect the command history, nor will it |
16245 | affect @value{GDBN}'s notion of which command to repeat if @key{RET} is | |
16246 | pressed on a line by itself. | |
16247 | ||
16248 | @cindex @code{server}, command prefix | |
16249 | The server prefix does not affect the recording of values into the value | |
16250 | history; to print a value without recording it into the value history, | |
16251 | use the @code{output} command instead of the @code{print} command. | |
16252 | ||
703663ab EZ |
16253 | Here is the description of @value{GDBN} commands related to command |
16254 | history. | |
16255 | ||
104c1213 | 16256 | @table @code |
8e04817f AC |
16257 | @cindex history substitution |
16258 | @cindex history file | |
16259 | @kindex set history filename | |
4644b6e3 | 16260 | @cindex @env{GDBHISTFILE}, environment variable |
8e04817f AC |
16261 | @item set history filename @var{fname} |
16262 | Set the name of the @value{GDBN} command history file to @var{fname}. | |
16263 | This is the file where @value{GDBN} reads an initial command history | |
16264 | list, and where it writes the command history from this session when it | |
16265 | exits. You can access this list through history expansion or through | |
16266 | the history command editing characters listed below. This file defaults | |
16267 | to the value of the environment variable @code{GDBHISTFILE}, or to | |
16268 | @file{./.gdb_history} (@file{./_gdb_history} on MS-DOS) if this variable | |
16269 | is not set. | |
104c1213 | 16270 | |
9c16f35a EZ |
16271 | @cindex save command history |
16272 | @kindex set history save | |
8e04817f AC |
16273 | @item set history save |
16274 | @itemx set history save on | |
16275 | Record command history in a file, whose name may be specified with the | |
16276 | @code{set history filename} command. By default, this option is disabled. | |
104c1213 | 16277 | |
8e04817f AC |
16278 | @item set history save off |
16279 | Stop recording command history in a file. | |
104c1213 | 16280 | |
8e04817f | 16281 | @cindex history size |
9c16f35a | 16282 | @kindex set history size |
6fc08d32 | 16283 | @cindex @env{HISTSIZE}, environment variable |
8e04817f AC |
16284 | @item set history size @var{size} |
16285 | Set the number of commands which @value{GDBN} keeps in its history list. | |
16286 | This defaults to the value of the environment variable | |
16287 | @code{HISTSIZE}, or to 256 if this variable is not set. | |
104c1213 JM |
16288 | @end table |
16289 | ||
8e04817f | 16290 | History expansion assigns special meaning to the character @kbd{!}. |
703663ab | 16291 | @xref{Event Designators}, for more details. |
8e04817f | 16292 | |
703663ab | 16293 | @cindex history expansion, turn on/off |
8e04817f AC |
16294 | Since @kbd{!} is also the logical not operator in C, history expansion |
16295 | is off by default. If you decide to enable history expansion with the | |
16296 | @code{set history expansion on} command, you may sometimes need to | |
16297 | follow @kbd{!} (when it is used as logical not, in an expression) with | |
16298 | a space or a tab to prevent it from being expanded. The readline | |
16299 | history facilities do not attempt substitution on the strings | |
16300 | @kbd{!=} and @kbd{!(}, even when history expansion is enabled. | |
16301 | ||
16302 | The commands to control history expansion are: | |
104c1213 JM |
16303 | |
16304 | @table @code | |
8e04817f AC |
16305 | @item set history expansion on |
16306 | @itemx set history expansion | |
703663ab | 16307 | @kindex set history expansion |
8e04817f | 16308 | Enable history expansion. History expansion is off by default. |
104c1213 | 16309 | |
8e04817f AC |
16310 | @item set history expansion off |
16311 | Disable history expansion. | |
104c1213 | 16312 | |
8e04817f AC |
16313 | @c @group |
16314 | @kindex show history | |
16315 | @item show history | |
16316 | @itemx show history filename | |
16317 | @itemx show history save | |
16318 | @itemx show history size | |
16319 | @itemx show history expansion | |
16320 | These commands display the state of the @value{GDBN} history parameters. | |
16321 | @code{show history} by itself displays all four states. | |
16322 | @c @end group | |
16323 | @end table | |
16324 | ||
16325 | @table @code | |
9c16f35a EZ |
16326 | @kindex show commands |
16327 | @cindex show last commands | |
16328 | @cindex display command history | |
8e04817f AC |
16329 | @item show commands |
16330 | Display the last ten commands in the command history. | |
104c1213 | 16331 | |
8e04817f AC |
16332 | @item show commands @var{n} |
16333 | Print ten commands centered on command number @var{n}. | |
16334 | ||
16335 | @item show commands + | |
16336 | Print ten commands just after the commands last printed. | |
104c1213 JM |
16337 | @end table |
16338 | ||
8e04817f | 16339 | @node Screen Size |
79a6e687 | 16340 | @section Screen Size |
8e04817f AC |
16341 | @cindex size of screen |
16342 | @cindex pauses in output | |
104c1213 | 16343 | |
8e04817f AC |
16344 | Certain commands to @value{GDBN} may produce large amounts of |
16345 | information output to the screen. To help you read all of it, | |
16346 | @value{GDBN} pauses and asks you for input at the end of each page of | |
16347 | output. Type @key{RET} when you want to continue the output, or @kbd{q} | |
16348 | to discard the remaining output. Also, the screen width setting | |
16349 | determines when to wrap lines of output. Depending on what is being | |
16350 | printed, @value{GDBN} tries to break the line at a readable place, | |
16351 | rather than simply letting it overflow onto the following line. | |
16352 | ||
16353 | Normally @value{GDBN} knows the size of the screen from the terminal | |
16354 | driver software. For example, on Unix @value{GDBN} uses the termcap data base | |
16355 | together with the value of the @code{TERM} environment variable and the | |
16356 | @code{stty rows} and @code{stty cols} settings. If this is not correct, | |
16357 | you can override it with the @code{set height} and @code{set | |
16358 | width} commands: | |
16359 | ||
16360 | @table @code | |
16361 | @kindex set height | |
16362 | @kindex set width | |
16363 | @kindex show width | |
16364 | @kindex show height | |
16365 | @item set height @var{lpp} | |
16366 | @itemx show height | |
16367 | @itemx set width @var{cpl} | |
16368 | @itemx show width | |
16369 | These @code{set} commands specify a screen height of @var{lpp} lines and | |
16370 | a screen width of @var{cpl} characters. The associated @code{show} | |
16371 | commands display the current settings. | |
104c1213 | 16372 | |
8e04817f AC |
16373 | If you specify a height of zero lines, @value{GDBN} does not pause during |
16374 | output no matter how long the output is. This is useful if output is to a | |
16375 | file or to an editor buffer. | |
104c1213 | 16376 | |
8e04817f AC |
16377 | Likewise, you can specify @samp{set width 0} to prevent @value{GDBN} |
16378 | from wrapping its output. | |
9c16f35a EZ |
16379 | |
16380 | @item set pagination on | |
16381 | @itemx set pagination off | |
16382 | @kindex set pagination | |
16383 | Turn the output pagination on or off; the default is on. Turning | |
16384 | pagination off is the alternative to @code{set height 0}. | |
16385 | ||
16386 | @item show pagination | |
16387 | @kindex show pagination | |
16388 | Show the current pagination mode. | |
104c1213 JM |
16389 | @end table |
16390 | ||
8e04817f AC |
16391 | @node Numbers |
16392 | @section Numbers | |
16393 | @cindex number representation | |
16394 | @cindex entering numbers | |
104c1213 | 16395 | |
8e04817f AC |
16396 | You can always enter numbers in octal, decimal, or hexadecimal in |
16397 | @value{GDBN} by the usual conventions: octal numbers begin with | |
16398 | @samp{0}, decimal numbers end with @samp{.}, and hexadecimal numbers | |
eb2dae08 EZ |
16399 | begin with @samp{0x}. Numbers that neither begin with @samp{0} or |
16400 | @samp{0x}, nor end with a @samp{.} are, by default, entered in base | |
16401 | 10; likewise, the default display for numbers---when no particular | |
16402 | format is specified---is base 10. You can change the default base for | |
16403 | both input and output with the commands described below. | |
104c1213 | 16404 | |
8e04817f AC |
16405 | @table @code |
16406 | @kindex set input-radix | |
16407 | @item set input-radix @var{base} | |
16408 | Set the default base for numeric input. Supported choices | |
16409 | for @var{base} are decimal 8, 10, or 16. @var{base} must itself be | |
eb2dae08 | 16410 | specified either unambiguously or using the current input radix; for |
8e04817f | 16411 | example, any of |
104c1213 | 16412 | |
8e04817f | 16413 | @smallexample |
9c16f35a EZ |
16414 | set input-radix 012 |
16415 | set input-radix 10. | |
16416 | set input-radix 0xa | |
8e04817f | 16417 | @end smallexample |
104c1213 | 16418 | |
8e04817f | 16419 | @noindent |
9c16f35a | 16420 | sets the input base to decimal. On the other hand, @samp{set input-radix 10} |
eb2dae08 EZ |
16421 | leaves the input radix unchanged, no matter what it was, since |
16422 | @samp{10}, being without any leading or trailing signs of its base, is | |
16423 | interpreted in the current radix. Thus, if the current radix is 16, | |
16424 | @samp{10} is interpreted in hex, i.e.@: as 16 decimal, which doesn't | |
16425 | change the radix. | |
104c1213 | 16426 | |
8e04817f AC |
16427 | @kindex set output-radix |
16428 | @item set output-radix @var{base} | |
16429 | Set the default base for numeric display. Supported choices | |
16430 | for @var{base} are decimal 8, 10, or 16. @var{base} must itself be | |
eb2dae08 | 16431 | specified either unambiguously or using the current input radix. |
104c1213 | 16432 | |
8e04817f AC |
16433 | @kindex show input-radix |
16434 | @item show input-radix | |
16435 | Display the current default base for numeric input. | |
104c1213 | 16436 | |
8e04817f AC |
16437 | @kindex show output-radix |
16438 | @item show output-radix | |
16439 | Display the current default base for numeric display. | |
9c16f35a EZ |
16440 | |
16441 | @item set radix @r{[}@var{base}@r{]} | |
16442 | @itemx show radix | |
16443 | @kindex set radix | |
16444 | @kindex show radix | |
16445 | These commands set and show the default base for both input and output | |
16446 | of numbers. @code{set radix} sets the radix of input and output to | |
16447 | the same base; without an argument, it resets the radix back to its | |
16448 | default value of 10. | |
16449 | ||
8e04817f | 16450 | @end table |
104c1213 | 16451 | |
1e698235 | 16452 | @node ABI |
79a6e687 | 16453 | @section Configuring the Current ABI |
1e698235 DJ |
16454 | |
16455 | @value{GDBN} can determine the @dfn{ABI} (Application Binary Interface) of your | |
16456 | application automatically. However, sometimes you need to override its | |
16457 | conclusions. Use these commands to manage @value{GDBN}'s view of the | |
16458 | current ABI. | |
16459 | ||
98b45e30 DJ |
16460 | @cindex OS ABI |
16461 | @kindex set osabi | |
b4e9345d | 16462 | @kindex show osabi |
98b45e30 DJ |
16463 | |
16464 | One @value{GDBN} configuration can debug binaries for multiple operating | |
b383017d | 16465 | system targets, either via remote debugging or native emulation. |
98b45e30 DJ |
16466 | @value{GDBN} will autodetect the @dfn{OS ABI} (Operating System ABI) in use, |
16467 | but you can override its conclusion using the @code{set osabi} command. | |
16468 | One example where this is useful is in debugging of binaries which use | |
16469 | an alternate C library (e.g.@: @sc{uClibc} for @sc{gnu}/Linux) which does | |
16470 | not have the same identifying marks that the standard C library for your | |
16471 | platform provides. | |
16472 | ||
16473 | @table @code | |
16474 | @item show osabi | |
16475 | Show the OS ABI currently in use. | |
16476 | ||
16477 | @item set osabi | |
16478 | With no argument, show the list of registered available OS ABI's. | |
16479 | ||
16480 | @item set osabi @var{abi} | |
16481 | Set the current OS ABI to @var{abi}. | |
16482 | @end table | |
16483 | ||
1e698235 | 16484 | @cindex float promotion |
1e698235 DJ |
16485 | |
16486 | Generally, the way that an argument of type @code{float} is passed to a | |
16487 | function depends on whether the function is prototyped. For a prototyped | |
16488 | (i.e.@: ANSI/ISO style) function, @code{float} arguments are passed unchanged, | |
16489 | according to the architecture's convention for @code{float}. For unprototyped | |
16490 | (i.e.@: K&R style) functions, @code{float} arguments are first promoted to type | |
16491 | @code{double} and then passed. | |
16492 | ||
16493 | Unfortunately, some forms of debug information do not reliably indicate whether | |
16494 | a function is prototyped. If @value{GDBN} calls a function that is not marked | |
16495 | as prototyped, it consults @kbd{set coerce-float-to-double}. | |
16496 | ||
16497 | @table @code | |
a8f24a35 | 16498 | @kindex set coerce-float-to-double |
1e698235 DJ |
16499 | @item set coerce-float-to-double |
16500 | @itemx set coerce-float-to-double on | |
16501 | Arguments of type @code{float} will be promoted to @code{double} when passed | |
16502 | to an unprototyped function. This is the default setting. | |
16503 | ||
16504 | @item set coerce-float-to-double off | |
16505 | Arguments of type @code{float} will be passed directly to unprototyped | |
16506 | functions. | |
9c16f35a EZ |
16507 | |
16508 | @kindex show coerce-float-to-double | |
16509 | @item show coerce-float-to-double | |
16510 | Show the current setting of promoting @code{float} to @code{double}. | |
1e698235 DJ |
16511 | @end table |
16512 | ||
f1212245 DJ |
16513 | @kindex set cp-abi |
16514 | @kindex show cp-abi | |
16515 | @value{GDBN} needs to know the ABI used for your program's C@t{++} | |
16516 | objects. The correct C@t{++} ABI depends on which C@t{++} compiler was | |
16517 | used to build your application. @value{GDBN} only fully supports | |
16518 | programs with a single C@t{++} ABI; if your program contains code using | |
16519 | multiple C@t{++} ABI's or if @value{GDBN} can not identify your | |
16520 | program's ABI correctly, you can tell @value{GDBN} which ABI to use. | |
16521 | Currently supported ABI's include ``gnu-v2'', for @code{g++} versions | |
16522 | before 3.0, ``gnu-v3'', for @code{g++} versions 3.0 and later, and | |
16523 | ``hpaCC'' for the HP ANSI C@t{++} compiler. Other C@t{++} compilers may | |
16524 | use the ``gnu-v2'' or ``gnu-v3'' ABI's as well. The default setting is | |
16525 | ``auto''. | |
16526 | ||
16527 | @table @code | |
16528 | @item show cp-abi | |
16529 | Show the C@t{++} ABI currently in use. | |
16530 | ||
16531 | @item set cp-abi | |
16532 | With no argument, show the list of supported C@t{++} ABI's. | |
16533 | ||
16534 | @item set cp-abi @var{abi} | |
16535 | @itemx set cp-abi auto | |
16536 | Set the current C@t{++} ABI to @var{abi}, or return to automatic detection. | |
16537 | @end table | |
16538 | ||
8e04817f | 16539 | @node Messages/Warnings |
79a6e687 | 16540 | @section Optional Warnings and Messages |
104c1213 | 16541 | |
9c16f35a EZ |
16542 | @cindex verbose operation |
16543 | @cindex optional warnings | |
8e04817f AC |
16544 | By default, @value{GDBN} is silent about its inner workings. If you are |
16545 | running on a slow machine, you may want to use the @code{set verbose} | |
16546 | command. This makes @value{GDBN} tell you when it does a lengthy | |
16547 | internal operation, so you will not think it has crashed. | |
104c1213 | 16548 | |
8e04817f AC |
16549 | Currently, the messages controlled by @code{set verbose} are those |
16550 | which announce that the symbol table for a source file is being read; | |
79a6e687 | 16551 | see @code{symbol-file} in @ref{Files, ,Commands to Specify Files}. |
104c1213 | 16552 | |
8e04817f AC |
16553 | @table @code |
16554 | @kindex set verbose | |
16555 | @item set verbose on | |
16556 | Enables @value{GDBN} output of certain informational messages. | |
104c1213 | 16557 | |
8e04817f AC |
16558 | @item set verbose off |
16559 | Disables @value{GDBN} output of certain informational messages. | |
104c1213 | 16560 | |
8e04817f AC |
16561 | @kindex show verbose |
16562 | @item show verbose | |
16563 | Displays whether @code{set verbose} is on or off. | |
16564 | @end table | |
104c1213 | 16565 | |
8e04817f AC |
16566 | By default, if @value{GDBN} encounters bugs in the symbol table of an |
16567 | object file, it is silent; but if you are debugging a compiler, you may | |
79a6e687 BW |
16568 | find this information useful (@pxref{Symbol Errors, ,Errors Reading |
16569 | Symbol Files}). | |
104c1213 | 16570 | |
8e04817f | 16571 | @table @code |
104c1213 | 16572 | |
8e04817f AC |
16573 | @kindex set complaints |
16574 | @item set complaints @var{limit} | |
16575 | Permits @value{GDBN} to output @var{limit} complaints about each type of | |
16576 | unusual symbols before becoming silent about the problem. Set | |
16577 | @var{limit} to zero to suppress all complaints; set it to a large number | |
16578 | to prevent complaints from being suppressed. | |
104c1213 | 16579 | |
8e04817f AC |
16580 | @kindex show complaints |
16581 | @item show complaints | |
16582 | Displays how many symbol complaints @value{GDBN} is permitted to produce. | |
104c1213 | 16583 | |
8e04817f | 16584 | @end table |
104c1213 | 16585 | |
8e04817f AC |
16586 | By default, @value{GDBN} is cautious, and asks what sometimes seems to be a |
16587 | lot of stupid questions to confirm certain commands. For example, if | |
16588 | you try to run a program which is already running: | |
104c1213 | 16589 | |
474c8240 | 16590 | @smallexample |
8e04817f AC |
16591 | (@value{GDBP}) run |
16592 | The program being debugged has been started already. | |
16593 | Start it from the beginning? (y or n) | |
474c8240 | 16594 | @end smallexample |
104c1213 | 16595 | |
8e04817f AC |
16596 | If you are willing to unflinchingly face the consequences of your own |
16597 | commands, you can disable this ``feature'': | |
104c1213 | 16598 | |
8e04817f | 16599 | @table @code |
104c1213 | 16600 | |
8e04817f AC |
16601 | @kindex set confirm |
16602 | @cindex flinching | |
16603 | @cindex confirmation | |
16604 | @cindex stupid questions | |
16605 | @item set confirm off | |
16606 | Disables confirmation requests. | |
104c1213 | 16607 | |
8e04817f AC |
16608 | @item set confirm on |
16609 | Enables confirmation requests (the default). | |
104c1213 | 16610 | |
8e04817f AC |
16611 | @kindex show confirm |
16612 | @item show confirm | |
16613 | Displays state of confirmation requests. | |
16614 | ||
16615 | @end table | |
104c1213 | 16616 | |
16026cd7 AS |
16617 | @cindex command tracing |
16618 | If you need to debug user-defined commands or sourced files you may find it | |
16619 | useful to enable @dfn{command tracing}. In this mode each command will be | |
16620 | printed as it is executed, prefixed with one or more @samp{+} symbols, the | |
16621 | quantity denoting the call depth of each command. | |
16622 | ||
16623 | @table @code | |
16624 | @kindex set trace-commands | |
16625 | @cindex command scripts, debugging | |
16626 | @item set trace-commands on | |
16627 | Enable command tracing. | |
16628 | @item set trace-commands off | |
16629 | Disable command tracing. | |
16630 | @item show trace-commands | |
16631 | Display the current state of command tracing. | |
16632 | @end table | |
16633 | ||
8e04817f | 16634 | @node Debugging Output |
79a6e687 | 16635 | @section Optional Messages about Internal Happenings |
4644b6e3 EZ |
16636 | @cindex optional debugging messages |
16637 | ||
da316a69 EZ |
16638 | @value{GDBN} has commands that enable optional debugging messages from |
16639 | various @value{GDBN} subsystems; normally these commands are of | |
16640 | interest to @value{GDBN} maintainers, or when reporting a bug. This | |
16641 | section documents those commands. | |
16642 | ||
104c1213 | 16643 | @table @code |
a8f24a35 EZ |
16644 | @kindex set exec-done-display |
16645 | @item set exec-done-display | |
16646 | Turns on or off the notification of asynchronous commands' | |
16647 | completion. When on, @value{GDBN} will print a message when an | |
16648 | asynchronous command finishes its execution. The default is off. | |
16649 | @kindex show exec-done-display | |
16650 | @item show exec-done-display | |
16651 | Displays the current setting of asynchronous command completion | |
16652 | notification. | |
4644b6e3 EZ |
16653 | @kindex set debug |
16654 | @cindex gdbarch debugging info | |
a8f24a35 | 16655 | @cindex architecture debugging info |
8e04817f | 16656 | @item set debug arch |
a8f24a35 | 16657 | Turns on or off display of gdbarch debugging info. The default is off |
4644b6e3 | 16658 | @kindex show debug |
8e04817f AC |
16659 | @item show debug arch |
16660 | Displays the current state of displaying gdbarch debugging info. | |
721c2651 EZ |
16661 | @item set debug aix-thread |
16662 | @cindex AIX threads | |
16663 | Display debugging messages about inner workings of the AIX thread | |
16664 | module. | |
16665 | @item show debug aix-thread | |
16666 | Show the current state of AIX thread debugging info display. | |
237fc4c9 PA |
16667 | @item set debug displaced |
16668 | @cindex displaced stepping debugging info | |
16669 | Turns on or off display of @value{GDBN} debugging info for the | |
16670 | displaced stepping support. The default is off. | |
16671 | @item show debug displaced | |
16672 | Displays the current state of displaying @value{GDBN} debugging info | |
16673 | related to displaced stepping. | |
8e04817f | 16674 | @item set debug event |
4644b6e3 | 16675 | @cindex event debugging info |
a8f24a35 | 16676 | Turns on or off display of @value{GDBN} event debugging info. The |
8e04817f | 16677 | default is off. |
8e04817f AC |
16678 | @item show debug event |
16679 | Displays the current state of displaying @value{GDBN} event debugging | |
16680 | info. | |
8e04817f | 16681 | @item set debug expression |
4644b6e3 | 16682 | @cindex expression debugging info |
721c2651 EZ |
16683 | Turns on or off display of debugging info about @value{GDBN} |
16684 | expression parsing. The default is off. | |
8e04817f | 16685 | @item show debug expression |
721c2651 EZ |
16686 | Displays the current state of displaying debugging info about |
16687 | @value{GDBN} expression parsing. | |
7453dc06 | 16688 | @item set debug frame |
4644b6e3 | 16689 | @cindex frame debugging info |
7453dc06 AC |
16690 | Turns on or off display of @value{GDBN} frame debugging info. The |
16691 | default is off. | |
7453dc06 AC |
16692 | @item show debug frame |
16693 | Displays the current state of displaying @value{GDBN} frame debugging | |
16694 | info. | |
30e91e0b RC |
16695 | @item set debug infrun |
16696 | @cindex inferior debugging info | |
16697 | Turns on or off display of @value{GDBN} debugging info for running the inferior. | |
16698 | The default is off. @file{infrun.c} contains GDB's runtime state machine used | |
16699 | for implementing operations such as single-stepping the inferior. | |
16700 | @item show debug infrun | |
16701 | Displays the current state of @value{GDBN} inferior debugging. | |
da316a69 EZ |
16702 | @item set debug lin-lwp |
16703 | @cindex @sc{gnu}/Linux LWP debug messages | |
16704 | @cindex Linux lightweight processes | |
721c2651 | 16705 | Turns on or off debugging messages from the Linux LWP debug support. |
da316a69 EZ |
16706 | @item show debug lin-lwp |
16707 | Show the current state of Linux LWP debugging messages. | |
b84876c2 PA |
16708 | @item set debug lin-lwp-async |
16709 | @cindex @sc{gnu}/Linux LWP async debug messages | |
16710 | @cindex Linux lightweight processes | |
16711 | Turns on or off debugging messages from the Linux LWP async debug support. | |
16712 | @item show debug lin-lwp-async | |
16713 | Show the current state of Linux LWP async debugging messages. | |
2b4855ab | 16714 | @item set debug observer |
4644b6e3 | 16715 | @cindex observer debugging info |
2b4855ab AC |
16716 | Turns on or off display of @value{GDBN} observer debugging. This |
16717 | includes info such as the notification of observable events. | |
2b4855ab AC |
16718 | @item show debug observer |
16719 | Displays the current state of observer debugging. | |
8e04817f | 16720 | @item set debug overload |
4644b6e3 | 16721 | @cindex C@t{++} overload debugging info |
8e04817f | 16722 | Turns on or off display of @value{GDBN} C@t{++} overload debugging |
359df76b | 16723 | info. This includes info such as ranking of functions, etc. The default |
8e04817f | 16724 | is off. |
8e04817f AC |
16725 | @item show debug overload |
16726 | Displays the current state of displaying @value{GDBN} C@t{++} overload | |
16727 | debugging info. | |
8e04817f AC |
16728 | @cindex packets, reporting on stdout |
16729 | @cindex serial connections, debugging | |
605a56cb DJ |
16730 | @cindex debug remote protocol |
16731 | @cindex remote protocol debugging | |
16732 | @cindex display remote packets | |
8e04817f AC |
16733 | @item set debug remote |
16734 | Turns on or off display of reports on all packets sent back and forth across | |
16735 | the serial line to the remote machine. The info is printed on the | |
16736 | @value{GDBN} standard output stream. The default is off. | |
8e04817f AC |
16737 | @item show debug remote |
16738 | Displays the state of display of remote packets. | |
8e04817f AC |
16739 | @item set debug serial |
16740 | Turns on or off display of @value{GDBN} serial debugging info. The | |
16741 | default is off. | |
8e04817f AC |
16742 | @item show debug serial |
16743 | Displays the current state of displaying @value{GDBN} serial debugging | |
16744 | info. | |
c45da7e6 EZ |
16745 | @item set debug solib-frv |
16746 | @cindex FR-V shared-library debugging | |
16747 | Turns on or off debugging messages for FR-V shared-library code. | |
16748 | @item show debug solib-frv | |
16749 | Display the current state of FR-V shared-library code debugging | |
16750 | messages. | |
8e04817f | 16751 | @item set debug target |
4644b6e3 | 16752 | @cindex target debugging info |
8e04817f AC |
16753 | Turns on or off display of @value{GDBN} target debugging info. This info |
16754 | includes what is going on at the target level of GDB, as it happens. The | |
701b08bb DJ |
16755 | default is 0. Set it to 1 to track events, and to 2 to also track the |
16756 | value of large memory transfers. Changes to this flag do not take effect | |
16757 | until the next time you connect to a target or use the @code{run} command. | |
8e04817f AC |
16758 | @item show debug target |
16759 | Displays the current state of displaying @value{GDBN} target debugging | |
16760 | info. | |
75feb17d DJ |
16761 | @item set debug timestamp |
16762 | @cindex timestampping debugging info | |
16763 | Turns on or off display of timestamps with @value{GDBN} debugging info. | |
16764 | When enabled, seconds and microseconds are displayed before each debugging | |
16765 | message. | |
16766 | @item show debug timestamp | |
16767 | Displays the current state of displaying timestamps with @value{GDBN} | |
16768 | debugging info. | |
c45da7e6 | 16769 | @item set debugvarobj |
4644b6e3 | 16770 | @cindex variable object debugging info |
8e04817f AC |
16771 | Turns on or off display of @value{GDBN} variable object debugging |
16772 | info. The default is off. | |
c45da7e6 | 16773 | @item show debugvarobj |
8e04817f AC |
16774 | Displays the current state of displaying @value{GDBN} variable object |
16775 | debugging info. | |
e776119f DJ |
16776 | @item set debug xml |
16777 | @cindex XML parser debugging | |
16778 | Turns on or off debugging messages for built-in XML parsers. | |
16779 | @item show debug xml | |
16780 | Displays the current state of XML debugging messages. | |
8e04817f | 16781 | @end table |
104c1213 | 16782 | |
8e04817f AC |
16783 | @node Sequences |
16784 | @chapter Canned Sequences of Commands | |
104c1213 | 16785 | |
8e04817f | 16786 | Aside from breakpoint commands (@pxref{Break Commands, ,Breakpoint |
79a6e687 | 16787 | Command Lists}), @value{GDBN} provides two ways to store sequences of |
8e04817f AC |
16788 | commands for execution as a unit: user-defined commands and command |
16789 | files. | |
104c1213 | 16790 | |
8e04817f | 16791 | @menu |
fcc73fe3 EZ |
16792 | * Define:: How to define your own commands |
16793 | * Hooks:: Hooks for user-defined commands | |
16794 | * Command Files:: How to write scripts of commands to be stored in a file | |
16795 | * Output:: Commands for controlled output | |
8e04817f | 16796 | @end menu |
104c1213 | 16797 | |
8e04817f | 16798 | @node Define |
79a6e687 | 16799 | @section User-defined Commands |
104c1213 | 16800 | |
8e04817f | 16801 | @cindex user-defined command |
fcc73fe3 | 16802 | @cindex arguments, to user-defined commands |
8e04817f AC |
16803 | A @dfn{user-defined command} is a sequence of @value{GDBN} commands to |
16804 | which you assign a new name as a command. This is done with the | |
16805 | @code{define} command. User commands may accept up to 10 arguments | |
16806 | separated by whitespace. Arguments are accessed within the user command | |
c03c782f | 16807 | via @code{$arg0@dots{}$arg9}. A trivial example: |
104c1213 | 16808 | |
8e04817f AC |
16809 | @smallexample |
16810 | define adder | |
16811 | print $arg0 + $arg1 + $arg2 | |
c03c782f | 16812 | end |
8e04817f | 16813 | @end smallexample |
104c1213 JM |
16814 | |
16815 | @noindent | |
8e04817f | 16816 | To execute the command use: |
104c1213 | 16817 | |
8e04817f AC |
16818 | @smallexample |
16819 | adder 1 2 3 | |
16820 | @end smallexample | |
104c1213 | 16821 | |
8e04817f AC |
16822 | @noindent |
16823 | This defines the command @code{adder}, which prints the sum of | |
16824 | its three arguments. Note the arguments are text substitutions, so they may | |
16825 | reference variables, use complex expressions, or even perform inferior | |
16826 | functions calls. | |
104c1213 | 16827 | |
fcc73fe3 EZ |
16828 | @cindex argument count in user-defined commands |
16829 | @cindex how many arguments (user-defined commands) | |
c03c782f AS |
16830 | In addition, @code{$argc} may be used to find out how many arguments have |
16831 | been passed. This expands to a number in the range 0@dots{}10. | |
16832 | ||
16833 | @smallexample | |
16834 | define adder | |
16835 | if $argc == 2 | |
16836 | print $arg0 + $arg1 | |
16837 | end | |
16838 | if $argc == 3 | |
16839 | print $arg0 + $arg1 + $arg2 | |
16840 | end | |
16841 | end | |
16842 | @end smallexample | |
16843 | ||
104c1213 | 16844 | @table @code |
104c1213 | 16845 | |
8e04817f AC |
16846 | @kindex define |
16847 | @item define @var{commandname} | |
16848 | Define a command named @var{commandname}. If there is already a command | |
16849 | by that name, you are asked to confirm that you want to redefine it. | |
104c1213 | 16850 | |
8e04817f AC |
16851 | The definition of the command is made up of other @value{GDBN} command lines, |
16852 | which are given following the @code{define} command. The end of these | |
16853 | commands is marked by a line containing @code{end}. | |
104c1213 | 16854 | |
8e04817f | 16855 | @kindex document |
ca91424e | 16856 | @kindex end@r{ (user-defined commands)} |
8e04817f AC |
16857 | @item document @var{commandname} |
16858 | Document the user-defined command @var{commandname}, so that it can be | |
16859 | accessed by @code{help}. The command @var{commandname} must already be | |
16860 | defined. This command reads lines of documentation just as @code{define} | |
16861 | reads the lines of the command definition, ending with @code{end}. | |
16862 | After the @code{document} command is finished, @code{help} on command | |
16863 | @var{commandname} displays the documentation you have written. | |
104c1213 | 16864 | |
8e04817f AC |
16865 | You may use the @code{document} command again to change the |
16866 | documentation of a command. Redefining the command with @code{define} | |
16867 | does not change the documentation. | |
104c1213 | 16868 | |
c45da7e6 EZ |
16869 | @kindex dont-repeat |
16870 | @cindex don't repeat command | |
16871 | @item dont-repeat | |
16872 | Used inside a user-defined command, this tells @value{GDBN} that this | |
16873 | command should not be repeated when the user hits @key{RET} | |
16874 | (@pxref{Command Syntax, repeat last command}). | |
16875 | ||
8e04817f AC |
16876 | @kindex help user-defined |
16877 | @item help user-defined | |
16878 | List all user-defined commands, with the first line of the documentation | |
16879 | (if any) for each. | |
104c1213 | 16880 | |
8e04817f AC |
16881 | @kindex show user |
16882 | @item show user | |
16883 | @itemx show user @var{commandname} | |
16884 | Display the @value{GDBN} commands used to define @var{commandname} (but | |
16885 | not its documentation). If no @var{commandname} is given, display the | |
16886 | definitions for all user-defined commands. | |
104c1213 | 16887 | |
fcc73fe3 | 16888 | @cindex infinite recursion in user-defined commands |
20f01a46 DH |
16889 | @kindex show max-user-call-depth |
16890 | @kindex set max-user-call-depth | |
16891 | @item show max-user-call-depth | |
5ca0cb28 DH |
16892 | @itemx set max-user-call-depth |
16893 | The value of @code{max-user-call-depth} controls how many recursion | |
3f94c067 | 16894 | levels are allowed in user-defined commands before @value{GDBN} suspects an |
5ca0cb28 | 16895 | infinite recursion and aborts the command. |
104c1213 JM |
16896 | @end table |
16897 | ||
fcc73fe3 EZ |
16898 | In addition to the above commands, user-defined commands frequently |
16899 | use control flow commands, described in @ref{Command Files}. | |
16900 | ||
8e04817f AC |
16901 | When user-defined commands are executed, the |
16902 | commands of the definition are not printed. An error in any command | |
16903 | stops execution of the user-defined command. | |
104c1213 | 16904 | |
8e04817f AC |
16905 | If used interactively, commands that would ask for confirmation proceed |
16906 | without asking when used inside a user-defined command. Many @value{GDBN} | |
16907 | commands that normally print messages to say what they are doing omit the | |
16908 | messages when used in a user-defined command. | |
104c1213 | 16909 | |
8e04817f | 16910 | @node Hooks |
79a6e687 | 16911 | @section User-defined Command Hooks |
8e04817f AC |
16912 | @cindex command hooks |
16913 | @cindex hooks, for commands | |
16914 | @cindex hooks, pre-command | |
104c1213 | 16915 | |
8e04817f | 16916 | @kindex hook |
8e04817f AC |
16917 | You may define @dfn{hooks}, which are a special kind of user-defined |
16918 | command. Whenever you run the command @samp{foo}, if the user-defined | |
16919 | command @samp{hook-foo} exists, it is executed (with no arguments) | |
16920 | before that command. | |
104c1213 | 16921 | |
8e04817f AC |
16922 | @cindex hooks, post-command |
16923 | @kindex hookpost | |
8e04817f AC |
16924 | A hook may also be defined which is run after the command you executed. |
16925 | Whenever you run the command @samp{foo}, if the user-defined command | |
16926 | @samp{hookpost-foo} exists, it is executed (with no arguments) after | |
16927 | that command. Post-execution hooks may exist simultaneously with | |
16928 | pre-execution hooks, for the same command. | |
104c1213 | 16929 | |
8e04817f | 16930 | It is valid for a hook to call the command which it hooks. If this |
9f1c6395 | 16931 | occurs, the hook is not re-executed, thereby avoiding infinite recursion. |
104c1213 | 16932 | |
8e04817f AC |
16933 | @c It would be nice if hookpost could be passed a parameter indicating |
16934 | @c if the command it hooks executed properly or not. FIXME! | |
104c1213 | 16935 | |
8e04817f AC |
16936 | @kindex stop@r{, a pseudo-command} |
16937 | In addition, a pseudo-command, @samp{stop} exists. Defining | |
16938 | (@samp{hook-stop}) makes the associated commands execute every time | |
16939 | execution stops in your program: before breakpoint commands are run, | |
16940 | displays are printed, or the stack frame is printed. | |
104c1213 | 16941 | |
8e04817f AC |
16942 | For example, to ignore @code{SIGALRM} signals while |
16943 | single-stepping, but treat them normally during normal execution, | |
16944 | you could define: | |
104c1213 | 16945 | |
474c8240 | 16946 | @smallexample |
8e04817f AC |
16947 | define hook-stop |
16948 | handle SIGALRM nopass | |
16949 | end | |
104c1213 | 16950 | |
8e04817f AC |
16951 | define hook-run |
16952 | handle SIGALRM pass | |
16953 | end | |
104c1213 | 16954 | |
8e04817f | 16955 | define hook-continue |
d3e8051b | 16956 | handle SIGALRM pass |
8e04817f | 16957 | end |
474c8240 | 16958 | @end smallexample |
104c1213 | 16959 | |
d3e8051b | 16960 | As a further example, to hook at the beginning and end of the @code{echo} |
b383017d | 16961 | command, and to add extra text to the beginning and end of the message, |
8e04817f | 16962 | you could define: |
104c1213 | 16963 | |
474c8240 | 16964 | @smallexample |
8e04817f AC |
16965 | define hook-echo |
16966 | echo <<<--- | |
16967 | end | |
104c1213 | 16968 | |
8e04817f AC |
16969 | define hookpost-echo |
16970 | echo --->>>\n | |
16971 | end | |
104c1213 | 16972 | |
8e04817f AC |
16973 | (@value{GDBP}) echo Hello World |
16974 | <<<---Hello World--->>> | |
16975 | (@value{GDBP}) | |
104c1213 | 16976 | |
474c8240 | 16977 | @end smallexample |
104c1213 | 16978 | |
8e04817f AC |
16979 | You can define a hook for any single-word command in @value{GDBN}, but |
16980 | not for command aliases; you should define a hook for the basic command | |
c1468174 | 16981 | name, e.g.@: @code{backtrace} rather than @code{bt}. |
8e04817f AC |
16982 | @c FIXME! So how does Joe User discover whether a command is an alias |
16983 | @c or not? | |
16984 | If an error occurs during the execution of your hook, execution of | |
16985 | @value{GDBN} commands stops and @value{GDBN} issues a prompt | |
16986 | (before the command that you actually typed had a chance to run). | |
104c1213 | 16987 | |
8e04817f AC |
16988 | If you try to define a hook which does not match any known command, you |
16989 | get a warning from the @code{define} command. | |
c906108c | 16990 | |
8e04817f | 16991 | @node Command Files |
79a6e687 | 16992 | @section Command Files |
c906108c | 16993 | |
8e04817f | 16994 | @cindex command files |
fcc73fe3 | 16995 | @cindex scripting commands |
6fc08d32 EZ |
16996 | A command file for @value{GDBN} is a text file made of lines that are |
16997 | @value{GDBN} commands. Comments (lines starting with @kbd{#}) may | |
16998 | also be included. An empty line in a command file does nothing; it | |
16999 | does not mean to repeat the last command, as it would from the | |
17000 | terminal. | |
c906108c | 17001 | |
6fc08d32 EZ |
17002 | You can request the execution of a command file with the @code{source} |
17003 | command: | |
c906108c | 17004 | |
8e04817f AC |
17005 | @table @code |
17006 | @kindex source | |
ca91424e | 17007 | @cindex execute commands from a file |
16026cd7 | 17008 | @item source [@code{-v}] @var{filename} |
8e04817f | 17009 | Execute the command file @var{filename}. |
c906108c SS |
17010 | @end table |
17011 | ||
fcc73fe3 EZ |
17012 | The lines in a command file are generally executed sequentially, |
17013 | unless the order of execution is changed by one of the | |
17014 | @emph{flow-control commands} described below. The commands are not | |
a71ec265 DH |
17015 | printed as they are executed. An error in any command terminates |
17016 | execution of the command file and control is returned to the console. | |
c906108c | 17017 | |
4b505b12 AS |
17018 | @value{GDBN} searches for @var{filename} in the current directory and then |
17019 | on the search path (specified with the @samp{directory} command). | |
17020 | ||
16026cd7 AS |
17021 | If @code{-v}, for verbose mode, is given then @value{GDBN} displays |
17022 | each command as it is executed. The option must be given before | |
17023 | @var{filename}, and is interpreted as part of the filename anywhere else. | |
17024 | ||
8e04817f AC |
17025 | Commands that would ask for confirmation if used interactively proceed |
17026 | without asking when used in a command file. Many @value{GDBN} commands that | |
17027 | normally print messages to say what they are doing omit the messages | |
17028 | when called from command files. | |
c906108c | 17029 | |
8e04817f AC |
17030 | @value{GDBN} also accepts command input from standard input. In this |
17031 | mode, normal output goes to standard output and error output goes to | |
17032 | standard error. Errors in a command file supplied on standard input do | |
6fc08d32 | 17033 | not terminate execution of the command file---execution continues with |
8e04817f | 17034 | the next command. |
c906108c | 17035 | |
474c8240 | 17036 | @smallexample |
8e04817f | 17037 | gdb < cmds > log 2>&1 |
474c8240 | 17038 | @end smallexample |
c906108c | 17039 | |
8e04817f AC |
17040 | (The syntax above will vary depending on the shell used.) This example |
17041 | will execute commands from the file @file{cmds}. All output and errors | |
17042 | would be directed to @file{log}. | |
c906108c | 17043 | |
fcc73fe3 EZ |
17044 | Since commands stored on command files tend to be more general than |
17045 | commands typed interactively, they frequently need to deal with | |
17046 | complicated situations, such as different or unexpected values of | |
17047 | variables and symbols, changes in how the program being debugged is | |
17048 | built, etc. @value{GDBN} provides a set of flow-control commands to | |
17049 | deal with these complexities. Using these commands, you can write | |
17050 | complex scripts that loop over data structures, execute commands | |
17051 | conditionally, etc. | |
17052 | ||
17053 | @table @code | |
17054 | @kindex if | |
17055 | @kindex else | |
17056 | @item if | |
17057 | @itemx else | |
17058 | This command allows to include in your script conditionally executed | |
17059 | commands. The @code{if} command takes a single argument, which is an | |
17060 | expression to evaluate. It is followed by a series of commands that | |
17061 | are executed only if the expression is true (its value is nonzero). | |
17062 | There can then optionally be an @code{else} line, followed by a series | |
17063 | of commands that are only executed if the expression was false. The | |
17064 | end of the list is marked by a line containing @code{end}. | |
17065 | ||
17066 | @kindex while | |
17067 | @item while | |
17068 | This command allows to write loops. Its syntax is similar to | |
17069 | @code{if}: the command takes a single argument, which is an expression | |
17070 | to evaluate, and must be followed by the commands to execute, one per | |
17071 | line, terminated by an @code{end}. These commands are called the | |
17072 | @dfn{body} of the loop. The commands in the body of @code{while} are | |
17073 | executed repeatedly as long as the expression evaluates to true. | |
17074 | ||
17075 | @kindex loop_break | |
17076 | @item loop_break | |
17077 | This command exits the @code{while} loop in whose body it is included. | |
17078 | Execution of the script continues after that @code{while}s @code{end} | |
17079 | line. | |
17080 | ||
17081 | @kindex loop_continue | |
17082 | @item loop_continue | |
17083 | This command skips the execution of the rest of the body of commands | |
17084 | in the @code{while} loop in whose body it is included. Execution | |
17085 | branches to the beginning of the @code{while} loop, where it evaluates | |
17086 | the controlling expression. | |
ca91424e EZ |
17087 | |
17088 | @kindex end@r{ (if/else/while commands)} | |
17089 | @item end | |
17090 | Terminate the block of commands that are the body of @code{if}, | |
17091 | @code{else}, or @code{while} flow-control commands. | |
fcc73fe3 EZ |
17092 | @end table |
17093 | ||
17094 | ||
8e04817f | 17095 | @node Output |
79a6e687 | 17096 | @section Commands for Controlled Output |
c906108c | 17097 | |
8e04817f AC |
17098 | During the execution of a command file or a user-defined command, normal |
17099 | @value{GDBN} output is suppressed; the only output that appears is what is | |
17100 | explicitly printed by the commands in the definition. This section | |
17101 | describes three commands useful for generating exactly the output you | |
17102 | want. | |
c906108c SS |
17103 | |
17104 | @table @code | |
8e04817f AC |
17105 | @kindex echo |
17106 | @item echo @var{text} | |
17107 | @c I do not consider backslash-space a standard C escape sequence | |
17108 | @c because it is not in ANSI. | |
17109 | Print @var{text}. Nonprinting characters can be included in | |
17110 | @var{text} using C escape sequences, such as @samp{\n} to print a | |
17111 | newline. @strong{No newline is printed unless you specify one.} | |
17112 | In addition to the standard C escape sequences, a backslash followed | |
17113 | by a space stands for a space. This is useful for displaying a | |
17114 | string with spaces at the beginning or the end, since leading and | |
17115 | trailing spaces are otherwise trimmed from all arguments. | |
17116 | To print @samp{@w{ }and foo =@w{ }}, use the command | |
17117 | @samp{echo \@w{ }and foo = \@w{ }}. | |
c906108c | 17118 | |
8e04817f AC |
17119 | A backslash at the end of @var{text} can be used, as in C, to continue |
17120 | the command onto subsequent lines. For example, | |
c906108c | 17121 | |
474c8240 | 17122 | @smallexample |
8e04817f AC |
17123 | echo This is some text\n\ |
17124 | which is continued\n\ | |
17125 | onto several lines.\n | |
474c8240 | 17126 | @end smallexample |
c906108c | 17127 | |
8e04817f | 17128 | produces the same output as |
c906108c | 17129 | |
474c8240 | 17130 | @smallexample |
8e04817f AC |
17131 | echo This is some text\n |
17132 | echo which is continued\n | |
17133 | echo onto several lines.\n | |
474c8240 | 17134 | @end smallexample |
c906108c | 17135 | |
8e04817f AC |
17136 | @kindex output |
17137 | @item output @var{expression} | |
17138 | Print the value of @var{expression} and nothing but that value: no | |
17139 | newlines, no @samp{$@var{nn} = }. The value is not entered in the | |
17140 | value history either. @xref{Expressions, ,Expressions}, for more information | |
17141 | on expressions. | |
c906108c | 17142 | |
8e04817f AC |
17143 | @item output/@var{fmt} @var{expression} |
17144 | Print the value of @var{expression} in format @var{fmt}. You can use | |
17145 | the same formats as for @code{print}. @xref{Output Formats,,Output | |
79a6e687 | 17146 | Formats}, for more information. |
c906108c | 17147 | |
8e04817f | 17148 | @kindex printf |
82160952 EZ |
17149 | @item printf @var{template}, @var{expressions}@dots{} |
17150 | Print the values of one or more @var{expressions} under the control of | |
17151 | the string @var{template}. To print several values, make | |
17152 | @var{expressions} be a comma-separated list of individual expressions, | |
17153 | which may be either numbers or pointers. Their values are printed as | |
17154 | specified by @var{template}, exactly as a C program would do by | |
17155 | executing the code below: | |
c906108c | 17156 | |
474c8240 | 17157 | @smallexample |
82160952 | 17158 | printf (@var{template}, @var{expressions}@dots{}); |
474c8240 | 17159 | @end smallexample |
c906108c | 17160 | |
82160952 EZ |
17161 | As in @code{C} @code{printf}, ordinary characters in @var{template} |
17162 | are printed verbatim, while @dfn{conversion specification} introduced | |
17163 | by the @samp{%} character cause subsequent @var{expressions} to be | |
17164 | evaluated, their values converted and formatted according to type and | |
17165 | style information encoded in the conversion specifications, and then | |
17166 | printed. | |
17167 | ||
8e04817f | 17168 | For example, you can print two values in hex like this: |
c906108c | 17169 | |
8e04817f AC |
17170 | @smallexample |
17171 | printf "foo, bar-foo = 0x%x, 0x%x\n", foo, bar-foo | |
17172 | @end smallexample | |
c906108c | 17173 | |
82160952 EZ |
17174 | @code{printf} supports all the standard @code{C} conversion |
17175 | specifications, including the flags and modifiers between the @samp{%} | |
17176 | character and the conversion letter, with the following exceptions: | |
17177 | ||
17178 | @itemize @bullet | |
17179 | @item | |
17180 | The argument-ordering modifiers, such as @samp{2$}, are not supported. | |
17181 | ||
17182 | @item | |
17183 | The modifier @samp{*} is not supported for specifying precision or | |
17184 | width. | |
17185 | ||
17186 | @item | |
17187 | The @samp{'} flag (for separation of digits into groups according to | |
17188 | @code{LC_NUMERIC'}) is not supported. | |
17189 | ||
17190 | @item | |
17191 | The type modifiers @samp{hh}, @samp{j}, @samp{t}, and @samp{z} are not | |
17192 | supported. | |
17193 | ||
17194 | @item | |
17195 | The conversion letter @samp{n} (as in @samp{%n}) is not supported. | |
17196 | ||
17197 | @item | |
17198 | The conversion letters @samp{a} and @samp{A} are not supported. | |
17199 | @end itemize | |
17200 | ||
17201 | @noindent | |
17202 | Note that the @samp{ll} type modifier is supported only if the | |
17203 | underlying @code{C} implementation used to build @value{GDBN} supports | |
17204 | the @code{long long int} type, and the @samp{L} type modifier is | |
17205 | supported only if @code{long double} type is available. | |
17206 | ||
17207 | As in @code{C}, @code{printf} supports simple backslash-escape | |
17208 | sequences, such as @code{\n}, @samp{\t}, @samp{\\}, @samp{\"}, | |
17209 | @samp{\a}, and @samp{\f}, that consist of backslash followed by a | |
17210 | single character. Octal and hexadecimal escape sequences are not | |
17211 | supported. | |
1a619819 LM |
17212 | |
17213 | Additionally, @code{printf} supports conversion specifications for DFP | |
0aea4bf3 LM |
17214 | (@dfn{Decimal Floating Point}) types using the following length modifiers |
17215 | together with a floating point specifier. | |
1a619819 LM |
17216 | letters: |
17217 | ||
17218 | @itemize @bullet | |
17219 | @item | |
17220 | @samp{H} for printing @code{Decimal32} types. | |
17221 | ||
17222 | @item | |
17223 | @samp{D} for printing @code{Decimal64} types. | |
17224 | ||
17225 | @item | |
17226 | @samp{DD} for printing @code{Decimal128} types. | |
17227 | @end itemize | |
17228 | ||
17229 | If the underlying @code{C} implementation used to build @value{GDBN} has | |
0aea4bf3 | 17230 | support for the three length modifiers for DFP types, other modifiers |
3b784c4f | 17231 | such as width and precision will also be available for @value{GDBN} to use. |
1a619819 LM |
17232 | |
17233 | In case there is no such @code{C} support, no additional modifiers will be | |
17234 | available and the value will be printed in the standard way. | |
17235 | ||
17236 | Here's an example of printing DFP types using the above conversion letters: | |
17237 | @smallexample | |
0aea4bf3 | 17238 | printf "D32: %Hf - D64: %Df - D128: %DDf\n",1.2345df,1.2E10dd,1.2E1dl |
1a619819 LM |
17239 | @end smallexample |
17240 | ||
c906108c SS |
17241 | @end table |
17242 | ||
21c294e6 AC |
17243 | @node Interpreters |
17244 | @chapter Command Interpreters | |
17245 | @cindex command interpreters | |
17246 | ||
17247 | @value{GDBN} supports multiple command interpreters, and some command | |
17248 | infrastructure to allow users or user interface writers to switch | |
17249 | between interpreters or run commands in other interpreters. | |
17250 | ||
17251 | @value{GDBN} currently supports two command interpreters, the console | |
17252 | interpreter (sometimes called the command-line interpreter or @sc{cli}) | |
17253 | and the machine interface interpreter (or @sc{gdb/mi}). This manual | |
17254 | describes both of these interfaces in great detail. | |
17255 | ||
17256 | By default, @value{GDBN} will start with the console interpreter. | |
17257 | However, the user may choose to start @value{GDBN} with another | |
17258 | interpreter by specifying the @option{-i} or @option{--interpreter} | |
17259 | startup options. Defined interpreters include: | |
17260 | ||
17261 | @table @code | |
17262 | @item console | |
17263 | @cindex console interpreter | |
17264 | The traditional console or command-line interpreter. This is the most often | |
17265 | used interpreter with @value{GDBN}. With no interpreter specified at runtime, | |
17266 | @value{GDBN} will use this interpreter. | |
17267 | ||
17268 | @item mi | |
17269 | @cindex mi interpreter | |
17270 | The newest @sc{gdb/mi} interface (currently @code{mi2}). Used primarily | |
17271 | by programs wishing to use @value{GDBN} as a backend for a debugger GUI | |
17272 | or an IDE. For more information, see @ref{GDB/MI, ,The @sc{gdb/mi} | |
17273 | Interface}. | |
17274 | ||
17275 | @item mi2 | |
17276 | @cindex mi2 interpreter | |
17277 | The current @sc{gdb/mi} interface. | |
17278 | ||
17279 | @item mi1 | |
17280 | @cindex mi1 interpreter | |
17281 | The @sc{gdb/mi} interface included in @value{GDBN} 5.1, 5.2, and 5.3. | |
17282 | ||
17283 | @end table | |
17284 | ||
17285 | @cindex invoke another interpreter | |
17286 | The interpreter being used by @value{GDBN} may not be dynamically | |
17287 | switched at runtime. Although possible, this could lead to a very | |
17288 | precarious situation. Consider an IDE using @sc{gdb/mi}. If a user | |
17289 | enters the command "interpreter-set console" in a console view, | |
17290 | @value{GDBN} would switch to using the console interpreter, rendering | |
17291 | the IDE inoperable! | |
17292 | ||
17293 | @kindex interpreter-exec | |
17294 | Although you may only choose a single interpreter at startup, you may execute | |
17295 | commands in any interpreter from the current interpreter using the appropriate | |
17296 | command. If you are running the console interpreter, simply use the | |
17297 | @code{interpreter-exec} command: | |
17298 | ||
17299 | @smallexample | |
17300 | interpreter-exec mi "-data-list-register-names" | |
17301 | @end smallexample | |
17302 | ||
17303 | @sc{gdb/mi} has a similar command, although it is only available in versions of | |
17304 | @value{GDBN} which support @sc{gdb/mi} version 2 (or greater). | |
17305 | ||
8e04817f AC |
17306 | @node TUI |
17307 | @chapter @value{GDBN} Text User Interface | |
17308 | @cindex TUI | |
d0d5df6f | 17309 | @cindex Text User Interface |
c906108c | 17310 | |
8e04817f AC |
17311 | @menu |
17312 | * TUI Overview:: TUI overview | |
17313 | * TUI Keys:: TUI key bindings | |
7cf36c78 | 17314 | * TUI Single Key Mode:: TUI single key mode |
db2e3e2e | 17315 | * TUI Commands:: TUI-specific commands |
8e04817f AC |
17316 | * TUI Configuration:: TUI configuration variables |
17317 | @end menu | |
c906108c | 17318 | |
46ba6afa | 17319 | The @value{GDBN} Text User Interface (TUI) is a terminal |
d0d5df6f AC |
17320 | interface which uses the @code{curses} library to show the source |
17321 | file, the assembly output, the program registers and @value{GDBN} | |
46ba6afa BW |
17322 | commands in separate text windows. The TUI mode is supported only |
17323 | on platforms where a suitable version of the @code{curses} library | |
17324 | is available. | |
d0d5df6f | 17325 | |
46ba6afa BW |
17326 | @pindex @value{GDBTUI} |
17327 | The TUI mode is enabled by default when you invoke @value{GDBN} as | |
17328 | either @samp{@value{GDBTUI}} or @samp{@value{GDBP} -tui}. | |
17329 | You can also switch in and out of TUI mode while @value{GDBN} runs by | |
17330 | using various TUI commands and key bindings, such as @kbd{C-x C-a}. | |
17331 | @xref{TUI Keys, ,TUI Key Bindings}. | |
c906108c | 17332 | |
8e04817f | 17333 | @node TUI Overview |
79a6e687 | 17334 | @section TUI Overview |
c906108c | 17335 | |
46ba6afa | 17336 | In TUI mode, @value{GDBN} can display several text windows: |
c906108c | 17337 | |
8e04817f AC |
17338 | @table @emph |
17339 | @item command | |
17340 | This window is the @value{GDBN} command window with the @value{GDBN} | |
46ba6afa BW |
17341 | prompt and the @value{GDBN} output. The @value{GDBN} input is still |
17342 | managed using readline. | |
c906108c | 17343 | |
8e04817f AC |
17344 | @item source |
17345 | The source window shows the source file of the program. The current | |
46ba6afa | 17346 | line and active breakpoints are displayed in this window. |
c906108c | 17347 | |
8e04817f AC |
17348 | @item assembly |
17349 | The assembly window shows the disassembly output of the program. | |
c906108c | 17350 | |
8e04817f | 17351 | @item register |
46ba6afa BW |
17352 | This window shows the processor registers. Registers are highlighted |
17353 | when their values change. | |
c906108c SS |
17354 | @end table |
17355 | ||
269c21fe | 17356 | The source and assembly windows show the current program position |
46ba6afa BW |
17357 | by highlighting the current line and marking it with a @samp{>} marker. |
17358 | Breakpoints are indicated with two markers. The first marker | |
269c21fe SC |
17359 | indicates the breakpoint type: |
17360 | ||
17361 | @table @code | |
17362 | @item B | |
17363 | Breakpoint which was hit at least once. | |
17364 | ||
17365 | @item b | |
17366 | Breakpoint which was never hit. | |
17367 | ||
17368 | @item H | |
17369 | Hardware breakpoint which was hit at least once. | |
17370 | ||
17371 | @item h | |
17372 | Hardware breakpoint which was never hit. | |
269c21fe SC |
17373 | @end table |
17374 | ||
17375 | The second marker indicates whether the breakpoint is enabled or not: | |
17376 | ||
17377 | @table @code | |
17378 | @item + | |
17379 | Breakpoint is enabled. | |
17380 | ||
17381 | @item - | |
17382 | Breakpoint is disabled. | |
269c21fe SC |
17383 | @end table |
17384 | ||
46ba6afa BW |
17385 | The source, assembly and register windows are updated when the current |
17386 | thread changes, when the frame changes, or when the program counter | |
17387 | changes. | |
17388 | ||
17389 | These windows are not all visible at the same time. The command | |
17390 | window is always visible. The others can be arranged in several | |
17391 | layouts: | |
c906108c | 17392 | |
8e04817f AC |
17393 | @itemize @bullet |
17394 | @item | |
46ba6afa | 17395 | source only, |
2df3850c | 17396 | |
8e04817f | 17397 | @item |
46ba6afa | 17398 | assembly only, |
8e04817f AC |
17399 | |
17400 | @item | |
46ba6afa | 17401 | source and assembly, |
8e04817f AC |
17402 | |
17403 | @item | |
46ba6afa | 17404 | source and registers, or |
c906108c | 17405 | |
8e04817f | 17406 | @item |
46ba6afa | 17407 | assembly and registers. |
8e04817f | 17408 | @end itemize |
c906108c | 17409 | |
46ba6afa | 17410 | A status line above the command window shows the following information: |
b7bb15bc SC |
17411 | |
17412 | @table @emph | |
17413 | @item target | |
46ba6afa | 17414 | Indicates the current @value{GDBN} target. |
b7bb15bc SC |
17415 | (@pxref{Targets, ,Specifying a Debugging Target}). |
17416 | ||
17417 | @item process | |
46ba6afa | 17418 | Gives the current process or thread number. |
b7bb15bc SC |
17419 | When no process is being debugged, this field is set to @code{No process}. |
17420 | ||
17421 | @item function | |
17422 | Gives the current function name for the selected frame. | |
17423 | The name is demangled if demangling is turned on (@pxref{Print Settings}). | |
46ba6afa | 17424 | When there is no symbol corresponding to the current program counter, |
b7bb15bc SC |
17425 | the string @code{??} is displayed. |
17426 | ||
17427 | @item line | |
17428 | Indicates the current line number for the selected frame. | |
46ba6afa | 17429 | When the current line number is not known, the string @code{??} is displayed. |
b7bb15bc SC |
17430 | |
17431 | @item pc | |
17432 | Indicates the current program counter address. | |
b7bb15bc SC |
17433 | @end table |
17434 | ||
8e04817f AC |
17435 | @node TUI Keys |
17436 | @section TUI Key Bindings | |
17437 | @cindex TUI key bindings | |
c906108c | 17438 | |
8e04817f | 17439 | The TUI installs several key bindings in the readline keymaps |
46ba6afa | 17440 | (@pxref{Command Line Editing}). The following key bindings |
8e04817f | 17441 | are installed for both TUI mode and the @value{GDBN} standard mode. |
c906108c | 17442 | |
8e04817f AC |
17443 | @table @kbd |
17444 | @kindex C-x C-a | |
17445 | @item C-x C-a | |
17446 | @kindex C-x a | |
17447 | @itemx C-x a | |
17448 | @kindex C-x A | |
17449 | @itemx C-x A | |
46ba6afa BW |
17450 | Enter or leave the TUI mode. When leaving the TUI mode, |
17451 | the curses window management stops and @value{GDBN} operates using | |
17452 | its standard mode, writing on the terminal directly. When reentering | |
17453 | the TUI mode, control is given back to the curses windows. | |
8e04817f | 17454 | The screen is then refreshed. |
c906108c | 17455 | |
8e04817f AC |
17456 | @kindex C-x 1 |
17457 | @item C-x 1 | |
17458 | Use a TUI layout with only one window. The layout will | |
17459 | either be @samp{source} or @samp{assembly}. When the TUI mode | |
17460 | is not active, it will switch to the TUI mode. | |
2df3850c | 17461 | |
8e04817f | 17462 | Think of this key binding as the Emacs @kbd{C-x 1} binding. |
c906108c | 17463 | |
8e04817f AC |
17464 | @kindex C-x 2 |
17465 | @item C-x 2 | |
17466 | Use a TUI layout with at least two windows. When the current | |
46ba6afa | 17467 | layout already has two windows, the next layout with two windows is used. |
8e04817f AC |
17468 | When a new layout is chosen, one window will always be common to the |
17469 | previous layout and the new one. | |
c906108c | 17470 | |
8e04817f | 17471 | Think of it as the Emacs @kbd{C-x 2} binding. |
2df3850c | 17472 | |
72ffddc9 SC |
17473 | @kindex C-x o |
17474 | @item C-x o | |
17475 | Change the active window. The TUI associates several key bindings | |
46ba6afa | 17476 | (like scrolling and arrow keys) with the active window. This command |
72ffddc9 SC |
17477 | gives the focus to the next TUI window. |
17478 | ||
17479 | Think of it as the Emacs @kbd{C-x o} binding. | |
17480 | ||
7cf36c78 SC |
17481 | @kindex C-x s |
17482 | @item C-x s | |
46ba6afa BW |
17483 | Switch in and out of the TUI SingleKey mode that binds single |
17484 | keys to @value{GDBN} commands (@pxref{TUI Single Key Mode}). | |
c906108c SS |
17485 | @end table |
17486 | ||
46ba6afa | 17487 | The following key bindings only work in the TUI mode: |
5d161b24 | 17488 | |
46ba6afa | 17489 | @table @asis |
8e04817f | 17490 | @kindex PgUp |
46ba6afa | 17491 | @item @key{PgUp} |
8e04817f | 17492 | Scroll the active window one page up. |
c906108c | 17493 | |
8e04817f | 17494 | @kindex PgDn |
46ba6afa | 17495 | @item @key{PgDn} |
8e04817f | 17496 | Scroll the active window one page down. |
c906108c | 17497 | |
8e04817f | 17498 | @kindex Up |
46ba6afa | 17499 | @item @key{Up} |
8e04817f | 17500 | Scroll the active window one line up. |
c906108c | 17501 | |
8e04817f | 17502 | @kindex Down |
46ba6afa | 17503 | @item @key{Down} |
8e04817f | 17504 | Scroll the active window one line down. |
c906108c | 17505 | |
8e04817f | 17506 | @kindex Left |
46ba6afa | 17507 | @item @key{Left} |
8e04817f | 17508 | Scroll the active window one column left. |
c906108c | 17509 | |
8e04817f | 17510 | @kindex Right |
46ba6afa | 17511 | @item @key{Right} |
8e04817f | 17512 | Scroll the active window one column right. |
c906108c | 17513 | |
8e04817f | 17514 | @kindex C-L |
46ba6afa | 17515 | @item @kbd{C-L} |
8e04817f | 17516 | Refresh the screen. |
8e04817f | 17517 | @end table |
c906108c | 17518 | |
46ba6afa BW |
17519 | Because the arrow keys scroll the active window in the TUI mode, they |
17520 | are not available for their normal use by readline unless the command | |
17521 | window has the focus. When another window is active, you must use | |
17522 | other readline key bindings such as @kbd{C-p}, @kbd{C-n}, @kbd{C-b} | |
17523 | and @kbd{C-f} to control the command window. | |
8e04817f | 17524 | |
7cf36c78 SC |
17525 | @node TUI Single Key Mode |
17526 | @section TUI Single Key Mode | |
17527 | @cindex TUI single key mode | |
17528 | ||
46ba6afa BW |
17529 | The TUI also provides a @dfn{SingleKey} mode, which binds several |
17530 | frequently used @value{GDBN} commands to single keys. Type @kbd{C-x s} to | |
17531 | switch into this mode, where the following key bindings are used: | |
7cf36c78 SC |
17532 | |
17533 | @table @kbd | |
17534 | @kindex c @r{(SingleKey TUI key)} | |
17535 | @item c | |
17536 | continue | |
17537 | ||
17538 | @kindex d @r{(SingleKey TUI key)} | |
17539 | @item d | |
17540 | down | |
17541 | ||
17542 | @kindex f @r{(SingleKey TUI key)} | |
17543 | @item f | |
17544 | finish | |
17545 | ||
17546 | @kindex n @r{(SingleKey TUI key)} | |
17547 | @item n | |
17548 | next | |
17549 | ||
17550 | @kindex q @r{(SingleKey TUI key)} | |
17551 | @item q | |
46ba6afa | 17552 | exit the SingleKey mode. |
7cf36c78 SC |
17553 | |
17554 | @kindex r @r{(SingleKey TUI key)} | |
17555 | @item r | |
17556 | run | |
17557 | ||
17558 | @kindex s @r{(SingleKey TUI key)} | |
17559 | @item s | |
17560 | step | |
17561 | ||
17562 | @kindex u @r{(SingleKey TUI key)} | |
17563 | @item u | |
17564 | up | |
17565 | ||
17566 | @kindex v @r{(SingleKey TUI key)} | |
17567 | @item v | |
17568 | info locals | |
17569 | ||
17570 | @kindex w @r{(SingleKey TUI key)} | |
17571 | @item w | |
17572 | where | |
7cf36c78 SC |
17573 | @end table |
17574 | ||
17575 | Other keys temporarily switch to the @value{GDBN} command prompt. | |
17576 | The key that was pressed is inserted in the editing buffer so that | |
17577 | it is possible to type most @value{GDBN} commands without interaction | |
46ba6afa BW |
17578 | with the TUI SingleKey mode. Once the command is entered the TUI |
17579 | SingleKey mode is restored. The only way to permanently leave | |
7f9087cb | 17580 | this mode is by typing @kbd{q} or @kbd{C-x s}. |
7cf36c78 SC |
17581 | |
17582 | ||
8e04817f | 17583 | @node TUI Commands |
db2e3e2e | 17584 | @section TUI-specific Commands |
8e04817f AC |
17585 | @cindex TUI commands |
17586 | ||
17587 | The TUI has specific commands to control the text windows. | |
46ba6afa BW |
17588 | These commands are always available, even when @value{GDBN} is not in |
17589 | the TUI mode. When @value{GDBN} is in the standard mode, most | |
17590 | of these commands will automatically switch to the TUI mode. | |
c906108c SS |
17591 | |
17592 | @table @code | |
3d757584 SC |
17593 | @item info win |
17594 | @kindex info win | |
17595 | List and give the size of all displayed windows. | |
17596 | ||
8e04817f | 17597 | @item layout next |
4644b6e3 | 17598 | @kindex layout |
8e04817f | 17599 | Display the next layout. |
2df3850c | 17600 | |
8e04817f | 17601 | @item layout prev |
8e04817f | 17602 | Display the previous layout. |
c906108c | 17603 | |
8e04817f | 17604 | @item layout src |
8e04817f | 17605 | Display the source window only. |
c906108c | 17606 | |
8e04817f | 17607 | @item layout asm |
8e04817f | 17608 | Display the assembly window only. |
c906108c | 17609 | |
8e04817f | 17610 | @item layout split |
8e04817f | 17611 | Display the source and assembly window. |
c906108c | 17612 | |
8e04817f | 17613 | @item layout regs |
8e04817f AC |
17614 | Display the register window together with the source or assembly window. |
17615 | ||
46ba6afa | 17616 | @item focus next |
8e04817f | 17617 | @kindex focus |
46ba6afa BW |
17618 | Make the next window active for scrolling. |
17619 | ||
17620 | @item focus prev | |
17621 | Make the previous window active for scrolling. | |
17622 | ||
17623 | @item focus src | |
17624 | Make the source window active for scrolling. | |
17625 | ||
17626 | @item focus asm | |
17627 | Make the assembly window active for scrolling. | |
17628 | ||
17629 | @item focus regs | |
17630 | Make the register window active for scrolling. | |
17631 | ||
17632 | @item focus cmd | |
17633 | Make the command window active for scrolling. | |
c906108c | 17634 | |
8e04817f AC |
17635 | @item refresh |
17636 | @kindex refresh | |
7f9087cb | 17637 | Refresh the screen. This is similar to typing @kbd{C-L}. |
c906108c | 17638 | |
6a1b180d SC |
17639 | @item tui reg float |
17640 | @kindex tui reg | |
17641 | Show the floating point registers in the register window. | |
17642 | ||
17643 | @item tui reg general | |
17644 | Show the general registers in the register window. | |
17645 | ||
17646 | @item tui reg next | |
17647 | Show the next register group. The list of register groups as well as | |
17648 | their order is target specific. The predefined register groups are the | |
17649 | following: @code{general}, @code{float}, @code{system}, @code{vector}, | |
17650 | @code{all}, @code{save}, @code{restore}. | |
17651 | ||
17652 | @item tui reg system | |
17653 | Show the system registers in the register window. | |
17654 | ||
8e04817f AC |
17655 | @item update |
17656 | @kindex update | |
17657 | Update the source window and the current execution point. | |
c906108c | 17658 | |
8e04817f AC |
17659 | @item winheight @var{name} +@var{count} |
17660 | @itemx winheight @var{name} -@var{count} | |
17661 | @kindex winheight | |
17662 | Change the height of the window @var{name} by @var{count} | |
17663 | lines. Positive counts increase the height, while negative counts | |
17664 | decrease it. | |
2df3850c | 17665 | |
46ba6afa BW |
17666 | @item tabset @var{nchars} |
17667 | @kindex tabset | |
c45da7e6 | 17668 | Set the width of tab stops to be @var{nchars} characters. |
c906108c SS |
17669 | @end table |
17670 | ||
8e04817f | 17671 | @node TUI Configuration |
79a6e687 | 17672 | @section TUI Configuration Variables |
8e04817f | 17673 | @cindex TUI configuration variables |
c906108c | 17674 | |
46ba6afa | 17675 | Several configuration variables control the appearance of TUI windows. |
c906108c | 17676 | |
8e04817f AC |
17677 | @table @code |
17678 | @item set tui border-kind @var{kind} | |
17679 | @kindex set tui border-kind | |
17680 | Select the border appearance for the source, assembly and register windows. | |
17681 | The possible values are the following: | |
17682 | @table @code | |
17683 | @item space | |
17684 | Use a space character to draw the border. | |
c906108c | 17685 | |
8e04817f | 17686 | @item ascii |
46ba6afa | 17687 | Use @sc{ascii} characters @samp{+}, @samp{-} and @samp{|} to draw the border. |
c906108c | 17688 | |
8e04817f AC |
17689 | @item acs |
17690 | Use the Alternate Character Set to draw the border. The border is | |
17691 | drawn using character line graphics if the terminal supports them. | |
8e04817f | 17692 | @end table |
c78b4128 | 17693 | |
8e04817f AC |
17694 | @item set tui border-mode @var{mode} |
17695 | @kindex set tui border-mode | |
46ba6afa BW |
17696 | @itemx set tui active-border-mode @var{mode} |
17697 | @kindex set tui active-border-mode | |
17698 | Select the display attributes for the borders of the inactive windows | |
17699 | or the active window. The @var{mode} can be one of the following: | |
8e04817f AC |
17700 | @table @code |
17701 | @item normal | |
17702 | Use normal attributes to display the border. | |
c906108c | 17703 | |
8e04817f AC |
17704 | @item standout |
17705 | Use standout mode. | |
c906108c | 17706 | |
8e04817f AC |
17707 | @item reverse |
17708 | Use reverse video mode. | |
c906108c | 17709 | |
8e04817f AC |
17710 | @item half |
17711 | Use half bright mode. | |
c906108c | 17712 | |
8e04817f AC |
17713 | @item half-standout |
17714 | Use half bright and standout mode. | |
c906108c | 17715 | |
8e04817f AC |
17716 | @item bold |
17717 | Use extra bright or bold mode. | |
c78b4128 | 17718 | |
8e04817f AC |
17719 | @item bold-standout |
17720 | Use extra bright or bold and standout mode. | |
8e04817f | 17721 | @end table |
8e04817f | 17722 | @end table |
c78b4128 | 17723 | |
8e04817f AC |
17724 | @node Emacs |
17725 | @chapter Using @value{GDBN} under @sc{gnu} Emacs | |
c78b4128 | 17726 | |
8e04817f AC |
17727 | @cindex Emacs |
17728 | @cindex @sc{gnu} Emacs | |
17729 | A special interface allows you to use @sc{gnu} Emacs to view (and | |
17730 | edit) the source files for the program you are debugging with | |
17731 | @value{GDBN}. | |
c906108c | 17732 | |
8e04817f AC |
17733 | To use this interface, use the command @kbd{M-x gdb} in Emacs. Give the |
17734 | executable file you want to debug as an argument. This command starts | |
17735 | @value{GDBN} as a subprocess of Emacs, with input and output through a newly | |
17736 | created Emacs buffer. | |
17737 | @c (Do not use the @code{-tui} option to run @value{GDBN} from Emacs.) | |
c906108c | 17738 | |
5e252a2e | 17739 | Running @value{GDBN} under Emacs can be just like running @value{GDBN} normally except for two |
8e04817f | 17740 | things: |
c906108c | 17741 | |
8e04817f AC |
17742 | @itemize @bullet |
17743 | @item | |
5e252a2e NR |
17744 | All ``terminal'' input and output goes through an Emacs buffer, called |
17745 | the GUD buffer. | |
c906108c | 17746 | |
8e04817f AC |
17747 | This applies both to @value{GDBN} commands and their output, and to the input |
17748 | and output done by the program you are debugging. | |
bf0184be | 17749 | |
8e04817f AC |
17750 | This is useful because it means that you can copy the text of previous |
17751 | commands and input them again; you can even use parts of the output | |
17752 | in this way. | |
bf0184be | 17753 | |
8e04817f AC |
17754 | All the facilities of Emacs' Shell mode are available for interacting |
17755 | with your program. In particular, you can send signals the usual | |
17756 | way---for example, @kbd{C-c C-c} for an interrupt, @kbd{C-c C-z} for a | |
17757 | stop. | |
bf0184be ND |
17758 | |
17759 | @item | |
8e04817f | 17760 | @value{GDBN} displays source code through Emacs. |
bf0184be | 17761 | |
8e04817f AC |
17762 | Each time @value{GDBN} displays a stack frame, Emacs automatically finds the |
17763 | source file for that frame and puts an arrow (@samp{=>}) at the | |
17764 | left margin of the current line. Emacs uses a separate buffer for | |
17765 | source display, and splits the screen to show both your @value{GDBN} session | |
17766 | and the source. | |
bf0184be | 17767 | |
8e04817f AC |
17768 | Explicit @value{GDBN} @code{list} or search commands still produce output as |
17769 | usual, but you probably have no reason to use them from Emacs. | |
5e252a2e NR |
17770 | @end itemize |
17771 | ||
17772 | We call this @dfn{text command mode}. Emacs 22.1, and later, also uses | |
17773 | a graphical mode, enabled by default, which provides further buffers | |
17774 | that can control the execution and describe the state of your program. | |
17775 | @xref{GDB Graphical Interface,,, Emacs, The @sc{gnu} Emacs Manual}. | |
c906108c | 17776 | |
64fabec2 AC |
17777 | If you specify an absolute file name when prompted for the @kbd{M-x |
17778 | gdb} argument, then Emacs sets your current working directory to where | |
17779 | your program resides. If you only specify the file name, then Emacs | |
17780 | sets your current working directory to to the directory associated | |
17781 | with the previous buffer. In this case, @value{GDBN} may find your | |
17782 | program by searching your environment's @code{PATH} variable, but on | |
17783 | some operating systems it might not find the source. So, although the | |
17784 | @value{GDBN} input and output session proceeds normally, the auxiliary | |
17785 | buffer does not display the current source and line of execution. | |
17786 | ||
17787 | The initial working directory of @value{GDBN} is printed on the top | |
5e252a2e NR |
17788 | line of the GUD buffer and this serves as a default for the commands |
17789 | that specify files for @value{GDBN} to operate on. @xref{Files, | |
17790 | ,Commands to Specify Files}. | |
64fabec2 AC |
17791 | |
17792 | By default, @kbd{M-x gdb} calls the program called @file{gdb}. If you | |
17793 | need to call @value{GDBN} by a different name (for example, if you | |
17794 | keep several configurations around, with different names) you can | |
17795 | customize the Emacs variable @code{gud-gdb-command-name} to run the | |
17796 | one you want. | |
8e04817f | 17797 | |
5e252a2e | 17798 | In the GUD buffer, you can use these special Emacs commands in |
8e04817f | 17799 | addition to the standard Shell mode commands: |
c906108c | 17800 | |
8e04817f AC |
17801 | @table @kbd |
17802 | @item C-h m | |
5e252a2e | 17803 | Describe the features of Emacs' GUD Mode. |
c906108c | 17804 | |
64fabec2 | 17805 | @item C-c C-s |
8e04817f AC |
17806 | Execute to another source line, like the @value{GDBN} @code{step} command; also |
17807 | update the display window to show the current file and location. | |
c906108c | 17808 | |
64fabec2 | 17809 | @item C-c C-n |
8e04817f AC |
17810 | Execute to next source line in this function, skipping all function |
17811 | calls, like the @value{GDBN} @code{next} command. Then update the display window | |
17812 | to show the current file and location. | |
c906108c | 17813 | |
64fabec2 | 17814 | @item C-c C-i |
8e04817f AC |
17815 | Execute one instruction, like the @value{GDBN} @code{stepi} command; update |
17816 | display window accordingly. | |
c906108c | 17817 | |
8e04817f AC |
17818 | @item C-c C-f |
17819 | Execute until exit from the selected stack frame, like the @value{GDBN} | |
17820 | @code{finish} command. | |
c906108c | 17821 | |
64fabec2 | 17822 | @item C-c C-r |
8e04817f AC |
17823 | Continue execution of your program, like the @value{GDBN} @code{continue} |
17824 | command. | |
b433d00b | 17825 | |
64fabec2 | 17826 | @item C-c < |
8e04817f AC |
17827 | Go up the number of frames indicated by the numeric argument |
17828 | (@pxref{Arguments, , Numeric Arguments, Emacs, The @sc{gnu} Emacs Manual}), | |
17829 | like the @value{GDBN} @code{up} command. | |
b433d00b | 17830 | |
64fabec2 | 17831 | @item C-c > |
8e04817f AC |
17832 | Go down the number of frames indicated by the numeric argument, like the |
17833 | @value{GDBN} @code{down} command. | |
8e04817f | 17834 | @end table |
c906108c | 17835 | |
7f9087cb | 17836 | In any source file, the Emacs command @kbd{C-x @key{SPC}} (@code{gud-break}) |
8e04817f | 17837 | tells @value{GDBN} to set a breakpoint on the source line point is on. |
c906108c | 17838 | |
5e252a2e NR |
17839 | In text command mode, if you type @kbd{M-x speedbar}, Emacs displays a |
17840 | separate frame which shows a backtrace when the GUD buffer is current. | |
17841 | Move point to any frame in the stack and type @key{RET} to make it | |
17842 | become the current frame and display the associated source in the | |
17843 | source buffer. Alternatively, click @kbd{Mouse-2} to make the | |
17844 | selected frame become the current one. In graphical mode, the | |
17845 | speedbar displays watch expressions. | |
64fabec2 | 17846 | |
8e04817f AC |
17847 | If you accidentally delete the source-display buffer, an easy way to get |
17848 | it back is to type the command @code{f} in the @value{GDBN} buffer, to | |
17849 | request a frame display; when you run under Emacs, this recreates | |
17850 | the source buffer if necessary to show you the context of the current | |
17851 | frame. | |
c906108c | 17852 | |
8e04817f AC |
17853 | The source files displayed in Emacs are in ordinary Emacs buffers |
17854 | which are visiting the source files in the usual way. You can edit | |
17855 | the files with these buffers if you wish; but keep in mind that @value{GDBN} | |
17856 | communicates with Emacs in terms of line numbers. If you add or | |
17857 | delete lines from the text, the line numbers that @value{GDBN} knows cease | |
17858 | to correspond properly with the code. | |
b383017d | 17859 | |
5e252a2e NR |
17860 | A more detailed description of Emacs' interaction with @value{GDBN} is |
17861 | given in the Emacs manual (@pxref{Debuggers,,, Emacs, The @sc{gnu} | |
17862 | Emacs Manual}). | |
c906108c | 17863 | |
8e04817f AC |
17864 | @c The following dropped because Epoch is nonstandard. Reactivate |
17865 | @c if/when v19 does something similar. ---doc@cygnus.com 19dec1990 | |
17866 | @ignore | |
17867 | @kindex Emacs Epoch environment | |
17868 | @kindex Epoch | |
17869 | @kindex inspect | |
c906108c | 17870 | |
8e04817f AC |
17871 | Version 18 of @sc{gnu} Emacs has a built-in window system |
17872 | called the @code{epoch} | |
17873 | environment. Users of this environment can use a new command, | |
17874 | @code{inspect} which performs identically to @code{print} except that | |
17875 | each value is printed in its own window. | |
17876 | @end ignore | |
c906108c | 17877 | |
922fbb7b AC |
17878 | |
17879 | @node GDB/MI | |
17880 | @chapter The @sc{gdb/mi} Interface | |
17881 | ||
17882 | @unnumberedsec Function and Purpose | |
17883 | ||
17884 | @cindex @sc{gdb/mi}, its purpose | |
6b5e8c01 NR |
17885 | @sc{gdb/mi} is a line based machine oriented text interface to |
17886 | @value{GDBN} and is activated by specifying using the | |
17887 | @option{--interpreter} command line option (@pxref{Mode Options}). It | |
17888 | is specifically intended to support the development of systems which | |
17889 | use the debugger as just one small component of a larger system. | |
922fbb7b AC |
17890 | |
17891 | This chapter is a specification of the @sc{gdb/mi} interface. It is written | |
17892 | in the form of a reference manual. | |
17893 | ||
17894 | Note that @sc{gdb/mi} is still under construction, so some of the | |
af6eff6f NR |
17895 | features described below are incomplete and subject to change |
17896 | (@pxref{GDB/MI Development and Front Ends, , @sc{gdb/mi} Development and Front Ends}). | |
922fbb7b AC |
17897 | |
17898 | @unnumberedsec Notation and Terminology | |
17899 | ||
17900 | @cindex notational conventions, for @sc{gdb/mi} | |
17901 | This chapter uses the following notation: | |
17902 | ||
17903 | @itemize @bullet | |
17904 | @item | |
17905 | @code{|} separates two alternatives. | |
17906 | ||
17907 | @item | |
17908 | @code{[ @var{something} ]} indicates that @var{something} is optional: | |
17909 | it may or may not be given. | |
17910 | ||
17911 | @item | |
17912 | @code{( @var{group} )*} means that @var{group} inside the parentheses | |
17913 | may repeat zero or more times. | |
17914 | ||
17915 | @item | |
17916 | @code{( @var{group} )+} means that @var{group} inside the parentheses | |
17917 | may repeat one or more times. | |
17918 | ||
17919 | @item | |
17920 | @code{"@var{string}"} means a literal @var{string}. | |
17921 | @end itemize | |
17922 | ||
17923 | @ignore | |
17924 | @heading Dependencies | |
17925 | @end ignore | |
17926 | ||
922fbb7b AC |
17927 | @menu |
17928 | * GDB/MI Command Syntax:: | |
17929 | * GDB/MI Compatibility with CLI:: | |
af6eff6f | 17930 | * GDB/MI Development and Front Ends:: |
922fbb7b | 17931 | * GDB/MI Output Records:: |
ef21caaf | 17932 | * GDB/MI Simple Examples:: |
922fbb7b | 17933 | * GDB/MI Command Description Format:: |
ef21caaf | 17934 | * GDB/MI Breakpoint Commands:: |
a2c02241 NR |
17935 | * GDB/MI Program Context:: |
17936 | * GDB/MI Thread Commands:: | |
17937 | * GDB/MI Program Execution:: | |
17938 | * GDB/MI Stack Manipulation:: | |
17939 | * GDB/MI Variable Objects:: | |
922fbb7b | 17940 | * GDB/MI Data Manipulation:: |
a2c02241 NR |
17941 | * GDB/MI Tracepoint Commands:: |
17942 | * GDB/MI Symbol Query:: | |
351ff01a | 17943 | * GDB/MI File Commands:: |
922fbb7b AC |
17944 | @ignore |
17945 | * GDB/MI Kod Commands:: | |
17946 | * GDB/MI Memory Overlay Commands:: | |
17947 | * GDB/MI Signal Handling Commands:: | |
17948 | @end ignore | |
922fbb7b | 17949 | * GDB/MI Target Manipulation:: |
a6b151f1 | 17950 | * GDB/MI File Transfer Commands:: |
ef21caaf | 17951 | * GDB/MI Miscellaneous Commands:: |
922fbb7b AC |
17952 | @end menu |
17953 | ||
17954 | @c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% | |
17955 | @node GDB/MI Command Syntax | |
17956 | @section @sc{gdb/mi} Command Syntax | |
17957 | ||
17958 | @menu | |
17959 | * GDB/MI Input Syntax:: | |
17960 | * GDB/MI Output Syntax:: | |
922fbb7b AC |
17961 | @end menu |
17962 | ||
17963 | @node GDB/MI Input Syntax | |
17964 | @subsection @sc{gdb/mi} Input Syntax | |
17965 | ||
17966 | @cindex input syntax for @sc{gdb/mi} | |
17967 | @cindex @sc{gdb/mi}, input syntax | |
17968 | @table @code | |
17969 | @item @var{command} @expansion{} | |
17970 | @code{@var{cli-command} | @var{mi-command}} | |
17971 | ||
17972 | @item @var{cli-command} @expansion{} | |
17973 | @code{[ @var{token} ] @var{cli-command} @var{nl}}, where | |
17974 | @var{cli-command} is any existing @value{GDBN} CLI command. | |
17975 | ||
17976 | @item @var{mi-command} @expansion{} | |
17977 | @code{[ @var{token} ] "-" @var{operation} ( " " @var{option} )* | |
17978 | @code{[} " --" @code{]} ( " " @var{parameter} )* @var{nl}} | |
17979 | ||
17980 | @item @var{token} @expansion{} | |
17981 | "any sequence of digits" | |
17982 | ||
17983 | @item @var{option} @expansion{} | |
17984 | @code{"-" @var{parameter} [ " " @var{parameter} ]} | |
17985 | ||
17986 | @item @var{parameter} @expansion{} | |
17987 | @code{@var{non-blank-sequence} | @var{c-string}} | |
17988 | ||
17989 | @item @var{operation} @expansion{} | |
17990 | @emph{any of the operations described in this chapter} | |
17991 | ||
17992 | @item @var{non-blank-sequence} @expansion{} | |
17993 | @emph{anything, provided it doesn't contain special characters such as | |
17994 | "-", @var{nl}, """ and of course " "} | |
17995 | ||
17996 | @item @var{c-string} @expansion{} | |
17997 | @code{""" @var{seven-bit-iso-c-string-content} """} | |
17998 | ||
17999 | @item @var{nl} @expansion{} | |
18000 | @code{CR | CR-LF} | |
18001 | @end table | |
18002 | ||
18003 | @noindent | |
18004 | Notes: | |
18005 | ||
18006 | @itemize @bullet | |
18007 | @item | |
18008 | The CLI commands are still handled by the @sc{mi} interpreter; their | |
18009 | output is described below. | |
18010 | ||
18011 | @item | |
18012 | The @code{@var{token}}, when present, is passed back when the command | |
18013 | finishes. | |
18014 | ||
18015 | @item | |
18016 | Some @sc{mi} commands accept optional arguments as part of the parameter | |
18017 | list. Each option is identified by a leading @samp{-} (dash) and may be | |
18018 | followed by an optional argument parameter. Options occur first in the | |
18019 | parameter list and can be delimited from normal parameters using | |
18020 | @samp{--} (this is useful when some parameters begin with a dash). | |
18021 | @end itemize | |
18022 | ||
18023 | Pragmatics: | |
18024 | ||
18025 | @itemize @bullet | |
18026 | @item | |
18027 | We want easy access to the existing CLI syntax (for debugging). | |
18028 | ||
18029 | @item | |
18030 | We want it to be easy to spot a @sc{mi} operation. | |
18031 | @end itemize | |
18032 | ||
18033 | @node GDB/MI Output Syntax | |
18034 | @subsection @sc{gdb/mi} Output Syntax | |
18035 | ||
18036 | @cindex output syntax of @sc{gdb/mi} | |
18037 | @cindex @sc{gdb/mi}, output syntax | |
18038 | The output from @sc{gdb/mi} consists of zero or more out-of-band records | |
18039 | followed, optionally, by a single result record. This result record | |
18040 | is for the most recent command. The sequence of output records is | |
594fe323 | 18041 | terminated by @samp{(gdb)}. |
922fbb7b AC |
18042 | |
18043 | If an input command was prefixed with a @code{@var{token}} then the | |
18044 | corresponding output for that command will also be prefixed by that same | |
18045 | @var{token}. | |
18046 | ||
18047 | @table @code | |
18048 | @item @var{output} @expansion{} | |
594fe323 | 18049 | @code{( @var{out-of-band-record} )* [ @var{result-record} ] "(gdb)" @var{nl}} |
922fbb7b AC |
18050 | |
18051 | @item @var{result-record} @expansion{} | |
18052 | @code{ [ @var{token} ] "^" @var{result-class} ( "," @var{result} )* @var{nl}} | |
18053 | ||
18054 | @item @var{out-of-band-record} @expansion{} | |
18055 | @code{@var{async-record} | @var{stream-record}} | |
18056 | ||
18057 | @item @var{async-record} @expansion{} | |
18058 | @code{@var{exec-async-output} | @var{status-async-output} | @var{notify-async-output}} | |
18059 | ||
18060 | @item @var{exec-async-output} @expansion{} | |
18061 | @code{[ @var{token} ] "*" @var{async-output}} | |
18062 | ||
18063 | @item @var{status-async-output} @expansion{} | |
18064 | @code{[ @var{token} ] "+" @var{async-output}} | |
18065 | ||
18066 | @item @var{notify-async-output} @expansion{} | |
18067 | @code{[ @var{token} ] "=" @var{async-output}} | |
18068 | ||
18069 | @item @var{async-output} @expansion{} | |
18070 | @code{@var{async-class} ( "," @var{result} )* @var{nl}} | |
18071 | ||
18072 | @item @var{result-class} @expansion{} | |
18073 | @code{"done" | "running" | "connected" | "error" | "exit"} | |
18074 | ||
18075 | @item @var{async-class} @expansion{} | |
18076 | @code{"stopped" | @var{others}} (where @var{others} will be added | |
18077 | depending on the needs---this is still in development). | |
18078 | ||
18079 | @item @var{result} @expansion{} | |
18080 | @code{ @var{variable} "=" @var{value}} | |
18081 | ||
18082 | @item @var{variable} @expansion{} | |
18083 | @code{ @var{string} } | |
18084 | ||
18085 | @item @var{value} @expansion{} | |
18086 | @code{ @var{const} | @var{tuple} | @var{list} } | |
18087 | ||
18088 | @item @var{const} @expansion{} | |
18089 | @code{@var{c-string}} | |
18090 | ||
18091 | @item @var{tuple} @expansion{} | |
18092 | @code{ "@{@}" | "@{" @var{result} ( "," @var{result} )* "@}" } | |
18093 | ||
18094 | @item @var{list} @expansion{} | |
18095 | @code{ "[]" | "[" @var{value} ( "," @var{value} )* "]" | "[" | |
18096 | @var{result} ( "," @var{result} )* "]" } | |
18097 | ||
18098 | @item @var{stream-record} @expansion{} | |
18099 | @code{@var{console-stream-output} | @var{target-stream-output} | @var{log-stream-output}} | |
18100 | ||
18101 | @item @var{console-stream-output} @expansion{} | |
18102 | @code{"~" @var{c-string}} | |
18103 | ||
18104 | @item @var{target-stream-output} @expansion{} | |
18105 | @code{"@@" @var{c-string}} | |
18106 | ||
18107 | @item @var{log-stream-output} @expansion{} | |
18108 | @code{"&" @var{c-string}} | |
18109 | ||
18110 | @item @var{nl} @expansion{} | |
18111 | @code{CR | CR-LF} | |
18112 | ||
18113 | @item @var{token} @expansion{} | |
18114 | @emph{any sequence of digits}. | |
18115 | @end table | |
18116 | ||
18117 | @noindent | |
18118 | Notes: | |
18119 | ||
18120 | @itemize @bullet | |
18121 | @item | |
18122 | All output sequences end in a single line containing a period. | |
18123 | ||
18124 | @item | |
721c02de VP |
18125 | The @code{@var{token}} is from the corresponding request. Note that |
18126 | for all async output, while the token is allowed by the grammar and | |
18127 | may be output by future versions of @value{GDBN} for select async | |
18128 | output messages, it is generally omitted. Frontends should treat | |
18129 | all async output as reporting general changes in the state of the | |
18130 | target and there should be no need to associate async output to any | |
18131 | prior command. | |
922fbb7b AC |
18132 | |
18133 | @item | |
18134 | @cindex status output in @sc{gdb/mi} | |
18135 | @var{status-async-output} contains on-going status information about the | |
18136 | progress of a slow operation. It can be discarded. All status output is | |
18137 | prefixed by @samp{+}. | |
18138 | ||
18139 | @item | |
18140 | @cindex async output in @sc{gdb/mi} | |
18141 | @var{exec-async-output} contains asynchronous state change on the target | |
18142 | (stopped, started, disappeared). All async output is prefixed by | |
18143 | @samp{*}. | |
18144 | ||
18145 | @item | |
18146 | @cindex notify output in @sc{gdb/mi} | |
18147 | @var{notify-async-output} contains supplementary information that the | |
18148 | client should handle (e.g., a new breakpoint information). All notify | |
18149 | output is prefixed by @samp{=}. | |
18150 | ||
18151 | @item | |
18152 | @cindex console output in @sc{gdb/mi} | |
18153 | @var{console-stream-output} is output that should be displayed as is in the | |
18154 | console. It is the textual response to a CLI command. All the console | |
18155 | output is prefixed by @samp{~}. | |
18156 | ||
18157 | @item | |
18158 | @cindex target output in @sc{gdb/mi} | |
18159 | @var{target-stream-output} is the output produced by the target program. | |
18160 | All the target output is prefixed by @samp{@@}. | |
18161 | ||
18162 | @item | |
18163 | @cindex log output in @sc{gdb/mi} | |
18164 | @var{log-stream-output} is output text coming from @value{GDBN}'s internals, for | |
18165 | instance messages that should be displayed as part of an error log. All | |
18166 | the log output is prefixed by @samp{&}. | |
18167 | ||
18168 | @item | |
18169 | @cindex list output in @sc{gdb/mi} | |
18170 | New @sc{gdb/mi} commands should only output @var{lists} containing | |
18171 | @var{values}. | |
18172 | ||
18173 | ||
18174 | @end itemize | |
18175 | ||
18176 | @xref{GDB/MI Stream Records, , @sc{gdb/mi} Stream Records}, for more | |
18177 | details about the various output records. | |
18178 | ||
922fbb7b AC |
18179 | @c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% |
18180 | @node GDB/MI Compatibility with CLI | |
18181 | @section @sc{gdb/mi} Compatibility with CLI | |
18182 | ||
18183 | @cindex compatibility, @sc{gdb/mi} and CLI | |
18184 | @cindex @sc{gdb/mi}, compatibility with CLI | |
922fbb7b | 18185 | |
a2c02241 NR |
18186 | For the developers convenience CLI commands can be entered directly, |
18187 | but there may be some unexpected behaviour. For example, commands | |
18188 | that query the user will behave as if the user replied yes, breakpoint | |
18189 | command lists are not executed and some CLI commands, such as | |
18190 | @code{if}, @code{when} and @code{define}, prompt for further input with | |
18191 | @samp{>}, which is not valid MI output. | |
ef21caaf NR |
18192 | |
18193 | This feature may be removed at some stage in the future and it is | |
a2c02241 NR |
18194 | recommended that front ends use the @code{-interpreter-exec} command |
18195 | (@pxref{-interpreter-exec}). | |
922fbb7b | 18196 | |
af6eff6f NR |
18197 | @c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% |
18198 | @node GDB/MI Development and Front Ends | |
18199 | @section @sc{gdb/mi} Development and Front Ends | |
18200 | @cindex @sc{gdb/mi} development | |
18201 | ||
18202 | The application which takes the MI output and presents the state of the | |
18203 | program being debugged to the user is called a @dfn{front end}. | |
18204 | ||
18205 | Although @sc{gdb/mi} is still incomplete, it is currently being used | |
18206 | by a variety of front ends to @value{GDBN}. This makes it difficult | |
18207 | to introduce new functionality without breaking existing usage. This | |
18208 | section tries to minimize the problems by describing how the protocol | |
18209 | might change. | |
18210 | ||
18211 | Some changes in MI need not break a carefully designed front end, and | |
18212 | for these the MI version will remain unchanged. The following is a | |
18213 | list of changes that may occur within one level, so front ends should | |
18214 | parse MI output in a way that can handle them: | |
18215 | ||
18216 | @itemize @bullet | |
18217 | @item | |
18218 | New MI commands may be added. | |
18219 | ||
18220 | @item | |
18221 | New fields may be added to the output of any MI command. | |
18222 | ||
36ece8b3 NR |
18223 | @item |
18224 | The range of values for fields with specified values, e.g., | |
9f708cb2 | 18225 | @code{in_scope} (@pxref{-var-update}) may be extended. |
36ece8b3 | 18226 | |
af6eff6f NR |
18227 | @c The format of field's content e.g type prefix, may change so parse it |
18228 | @c at your own risk. Yes, in general? | |
18229 | ||
18230 | @c The order of fields may change? Shouldn't really matter but it might | |
18231 | @c resolve inconsistencies. | |
18232 | @end itemize | |
18233 | ||
18234 | If the changes are likely to break front ends, the MI version level | |
18235 | will be increased by one. This will allow the front end to parse the | |
18236 | output according to the MI version. Apart from mi0, new versions of | |
18237 | @value{GDBN} will not support old versions of MI and it will be the | |
18238 | responsibility of the front end to work with the new one. | |
18239 | ||
18240 | @c Starting with mi3, add a new command -mi-version that prints the MI | |
18241 | @c version? | |
18242 | ||
18243 | The best way to avoid unexpected changes in MI that might break your front | |
18244 | end is to make your project known to @value{GDBN} developers and | |
7a9a6b69 | 18245 | follow development on @email{gdb@@sourceware.org} and |
fa0f268d | 18246 | @email{gdb-patches@@sourceware.org}. |
af6eff6f NR |
18247 | @cindex mailing lists |
18248 | ||
922fbb7b AC |
18249 | @c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% |
18250 | @node GDB/MI Output Records | |
18251 | @section @sc{gdb/mi} Output Records | |
18252 | ||
18253 | @menu | |
18254 | * GDB/MI Result Records:: | |
18255 | * GDB/MI Stream Records:: | |
82f68b1c | 18256 | * GDB/MI Async Records:: |
922fbb7b AC |
18257 | @end menu |
18258 | ||
18259 | @node GDB/MI Result Records | |
18260 | @subsection @sc{gdb/mi} Result Records | |
18261 | ||
18262 | @cindex result records in @sc{gdb/mi} | |
18263 | @cindex @sc{gdb/mi}, result records | |
18264 | In addition to a number of out-of-band notifications, the response to a | |
18265 | @sc{gdb/mi} command includes one of the following result indications: | |
18266 | ||
18267 | @table @code | |
18268 | @findex ^done | |
18269 | @item "^done" [ "," @var{results} ] | |
18270 | The synchronous operation was successful, @code{@var{results}} are the return | |
18271 | values. | |
18272 | ||
18273 | @item "^running" | |
18274 | @findex ^running | |
18275 | @c Is this one correct? Should it be an out-of-band notification? | |
18276 | The asynchronous operation was successfully started. The target is | |
18277 | running. | |
18278 | ||
ef21caaf NR |
18279 | @item "^connected" |
18280 | @findex ^connected | |
3f94c067 | 18281 | @value{GDBN} has connected to a remote target. |
ef21caaf | 18282 | |
922fbb7b AC |
18283 | @item "^error" "," @var{c-string} |
18284 | @findex ^error | |
18285 | The operation failed. The @code{@var{c-string}} contains the corresponding | |
18286 | error message. | |
ef21caaf NR |
18287 | |
18288 | @item "^exit" | |
18289 | @findex ^exit | |
3f94c067 | 18290 | @value{GDBN} has terminated. |
ef21caaf | 18291 | |
922fbb7b AC |
18292 | @end table |
18293 | ||
18294 | @node GDB/MI Stream Records | |
18295 | @subsection @sc{gdb/mi} Stream Records | |
18296 | ||
18297 | @cindex @sc{gdb/mi}, stream records | |
18298 | @cindex stream records in @sc{gdb/mi} | |
18299 | @value{GDBN} internally maintains a number of output streams: the console, the | |
18300 | target, and the log. The output intended for each of these streams is | |
18301 | funneled through the @sc{gdb/mi} interface using @dfn{stream records}. | |
18302 | ||
18303 | Each stream record begins with a unique @dfn{prefix character} which | |
18304 | identifies its stream (@pxref{GDB/MI Output Syntax, , @sc{gdb/mi} Output | |
18305 | Syntax}). In addition to the prefix, each stream record contains a | |
18306 | @code{@var{string-output}}. This is either raw text (with an implicit new | |
18307 | line) or a quoted C string (which does not contain an implicit newline). | |
18308 | ||
18309 | @table @code | |
18310 | @item "~" @var{string-output} | |
18311 | The console output stream contains text that should be displayed in the | |
18312 | CLI console window. It contains the textual responses to CLI commands. | |
18313 | ||
18314 | @item "@@" @var{string-output} | |
18315 | The target output stream contains any textual output from the running | |
ef21caaf NR |
18316 | target. This is only present when GDB's event loop is truly |
18317 | asynchronous, which is currently only the case for remote targets. | |
922fbb7b AC |
18318 | |
18319 | @item "&" @var{string-output} | |
18320 | The log stream contains debugging messages being produced by @value{GDBN}'s | |
18321 | internals. | |
18322 | @end table | |
18323 | ||
82f68b1c VP |
18324 | @node GDB/MI Async Records |
18325 | @subsection @sc{gdb/mi} Async Records | |
922fbb7b | 18326 | |
82f68b1c VP |
18327 | @cindex async records in @sc{gdb/mi} |
18328 | @cindex @sc{gdb/mi}, async records | |
18329 | @dfn{Async} records are used to notify the @sc{gdb/mi} client of | |
922fbb7b | 18330 | additional changes that have occurred. Those changes can either be a |
82f68b1c | 18331 | consequence of @sc{gdb/mi} commands (e.g., a breakpoint modified) or a result of |
922fbb7b AC |
18332 | target activity (e.g., target stopped). |
18333 | ||
8eb41542 | 18334 | The following is the list of possible async records: |
922fbb7b AC |
18335 | |
18336 | @table @code | |
034dad6f | 18337 | |
e1ac3328 VP |
18338 | @item *running,thread-id="@var{thread}" |
18339 | The target is now running. The @var{thread} field tells which | |
18340 | specific thread is now running, and can be @samp{all} if all threads | |
18341 | are running. The frontend should assume that no interaction with a | |
18342 | running thread is possible after this notification is produced. | |
18343 | The frontend should not assume that this notification is output | |
18344 | only once for any command. @value{GDBN} may emit this notification | |
18345 | several times, either for different threads, because it cannot resume | |
18346 | all threads together, or even for a single thread, if the thread must | |
18347 | be stepped though some code before letting it run freely. | |
18348 | ||
82f68b1c VP |
18349 | @item *stopped,reason="@var{reason}" |
18350 | The target has stopped. The @var{reason} field can have one of the | |
18351 | following values: | |
034dad6f BR |
18352 | |
18353 | @table @code | |
18354 | @item breakpoint-hit | |
18355 | A breakpoint was reached. | |
18356 | @item watchpoint-trigger | |
18357 | A watchpoint was triggered. | |
18358 | @item read-watchpoint-trigger | |
18359 | A read watchpoint was triggered. | |
18360 | @item access-watchpoint-trigger | |
18361 | An access watchpoint was triggered. | |
18362 | @item function-finished | |
18363 | An -exec-finish or similar CLI command was accomplished. | |
18364 | @item location-reached | |
18365 | An -exec-until or similar CLI command was accomplished. | |
18366 | @item watchpoint-scope | |
18367 | A watchpoint has gone out of scope. | |
18368 | @item end-stepping-range | |
18369 | An -exec-next, -exec-next-instruction, -exec-step, -exec-step-instruction or | |
18370 | similar CLI command was accomplished. | |
18371 | @item exited-signalled | |
18372 | The inferior exited because of a signal. | |
18373 | @item exited | |
18374 | The inferior exited. | |
18375 | @item exited-normally | |
18376 | The inferior exited normally. | |
18377 | @item signal-received | |
18378 | A signal was received by the inferior. | |
922fbb7b AC |
18379 | @end table |
18380 | ||
82f68b1c VP |
18381 | @item =thread-created,id="@var{id}" |
18382 | @itemx =thread-exited,id="@var{id}" | |
18383 | A thread either was created, or has exited. The @var{id} field | |
18384 | contains the @value{GDBN} identifier of the thread. | |
18385 | @end table | |
18386 | ||
18387 | ||
922fbb7b | 18388 | |
ef21caaf NR |
18389 | @c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% |
18390 | @node GDB/MI Simple Examples | |
18391 | @section Simple Examples of @sc{gdb/mi} Interaction | |
18392 | @cindex @sc{gdb/mi}, simple examples | |
18393 | ||
18394 | This subsection presents several simple examples of interaction using | |
18395 | the @sc{gdb/mi} interface. In these examples, @samp{->} means that the | |
18396 | following line is passed to @sc{gdb/mi} as input, while @samp{<-} means | |
18397 | the output received from @sc{gdb/mi}. | |
18398 | ||
d3e8051b | 18399 | Note the line breaks shown in the examples are here only for |
ef21caaf NR |
18400 | readability, they don't appear in the real output. |
18401 | ||
79a6e687 | 18402 | @subheading Setting a Breakpoint |
ef21caaf NR |
18403 | |
18404 | Setting a breakpoint generates synchronous output which contains detailed | |
18405 | information of the breakpoint. | |
18406 | ||
18407 | @smallexample | |
18408 | -> -break-insert main | |
18409 | <- ^done,bkpt=@{number="1",type="breakpoint",disp="keep", | |
18410 | enabled="y",addr="0x08048564",func="main",file="myprog.c", | |
18411 | fullname="/home/nickrob/myprog.c",line="68",times="0"@} | |
18412 | <- (gdb) | |
18413 | @end smallexample | |
18414 | ||
18415 | @subheading Program Execution | |
18416 | ||
18417 | Program execution generates asynchronous records and MI gives the | |
18418 | reason that execution stopped. | |
18419 | ||
18420 | @smallexample | |
18421 | -> -exec-run | |
18422 | <- ^running | |
18423 | <- (gdb) | |
a47ec5fe | 18424 | <- *stopped,reason="breakpoint-hit",disp="keep",bkptno="1",thread-id="0", |
ef21caaf NR |
18425 | frame=@{addr="0x08048564",func="main", |
18426 | args=[@{name="argc",value="1"@},@{name="argv",value="0xbfc4d4d4"@}], | |
18427 | file="myprog.c",fullname="/home/nickrob/myprog.c",line="68"@} | |
18428 | <- (gdb) | |
18429 | -> -exec-continue | |
18430 | <- ^running | |
18431 | <- (gdb) | |
18432 | <- *stopped,reason="exited-normally" | |
18433 | <- (gdb) | |
18434 | @end smallexample | |
18435 | ||
3f94c067 | 18436 | @subheading Quitting @value{GDBN} |
ef21caaf | 18437 | |
3f94c067 | 18438 | Quitting @value{GDBN} just prints the result class @samp{^exit}. |
ef21caaf NR |
18439 | |
18440 | @smallexample | |
18441 | -> (gdb) | |
18442 | <- -gdb-exit | |
18443 | <- ^exit | |
18444 | @end smallexample | |
18445 | ||
a2c02241 | 18446 | @subheading A Bad Command |
ef21caaf NR |
18447 | |
18448 | Here's what happens if you pass a non-existent command: | |
18449 | ||
18450 | @smallexample | |
18451 | -> -rubbish | |
18452 | <- ^error,msg="Undefined MI command: rubbish" | |
594fe323 | 18453 | <- (gdb) |
ef21caaf NR |
18454 | @end smallexample |
18455 | ||
18456 | ||
922fbb7b AC |
18457 | @c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% |
18458 | @node GDB/MI Command Description Format | |
18459 | @section @sc{gdb/mi} Command Description Format | |
18460 | ||
18461 | The remaining sections describe blocks of commands. Each block of | |
18462 | commands is laid out in a fashion similar to this section. | |
18463 | ||
922fbb7b AC |
18464 | @subheading Motivation |
18465 | ||
18466 | The motivation for this collection of commands. | |
18467 | ||
18468 | @subheading Introduction | |
18469 | ||
18470 | A brief introduction to this collection of commands as a whole. | |
18471 | ||
18472 | @subheading Commands | |
18473 | ||
18474 | For each command in the block, the following is described: | |
18475 | ||
18476 | @subsubheading Synopsis | |
18477 | ||
18478 | @smallexample | |
18479 | -command @var{args}@dots{} | |
18480 | @end smallexample | |
18481 | ||
922fbb7b AC |
18482 | @subsubheading Result |
18483 | ||
265eeb58 | 18484 | @subsubheading @value{GDBN} Command |
922fbb7b | 18485 | |
265eeb58 | 18486 | The corresponding @value{GDBN} CLI command(s), if any. |
922fbb7b AC |
18487 | |
18488 | @subsubheading Example | |
18489 | ||
ef21caaf NR |
18490 | Example(s) formatted for readability. Some of the described commands have |
18491 | not been implemented yet and these are labeled N.A.@: (not available). | |
18492 | ||
18493 | ||
922fbb7b | 18494 | @c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% |
ef21caaf NR |
18495 | @node GDB/MI Breakpoint Commands |
18496 | @section @sc{gdb/mi} Breakpoint Commands | |
922fbb7b AC |
18497 | |
18498 | @cindex breakpoint commands for @sc{gdb/mi} | |
18499 | @cindex @sc{gdb/mi}, breakpoint commands | |
18500 | This section documents @sc{gdb/mi} commands for manipulating | |
18501 | breakpoints. | |
18502 | ||
18503 | @subheading The @code{-break-after} Command | |
18504 | @findex -break-after | |
18505 | ||
18506 | @subsubheading Synopsis | |
18507 | ||
18508 | @smallexample | |
18509 | -break-after @var{number} @var{count} | |
18510 | @end smallexample | |
18511 | ||
18512 | The breakpoint number @var{number} is not in effect until it has been | |
18513 | hit @var{count} times. To see how this is reflected in the output of | |
18514 | the @samp{-break-list} command, see the description of the | |
18515 | @samp{-break-list} command below. | |
18516 | ||
18517 | @subsubheading @value{GDBN} Command | |
18518 | ||
18519 | The corresponding @value{GDBN} command is @samp{ignore}. | |
18520 | ||
18521 | @subsubheading Example | |
18522 | ||
18523 | @smallexample | |
594fe323 | 18524 | (gdb) |
922fbb7b | 18525 | -break-insert main |
a47ec5fe AR |
18526 | ^done,bkpt=@{number="1",type="breakpoint",disp="keep", |
18527 | enabled="y",addr="0x000100d0",func="main",file="hello.c", | |
948d5102 | 18528 | fullname="/home/foo/hello.c",line="5",times="0"@} |
594fe323 | 18529 | (gdb) |
922fbb7b AC |
18530 | -break-after 1 3 |
18531 | ~ | |
18532 | ^done | |
594fe323 | 18533 | (gdb) |
922fbb7b AC |
18534 | -break-list |
18535 | ^done,BreakpointTable=@{nr_rows="1",nr_cols="6", | |
18536 | hdr=[@{width="3",alignment="-1",col_name="number",colhdr="Num"@}, | |
18537 | @{width="14",alignment="-1",col_name="type",colhdr="Type"@}, | |
18538 | @{width="4",alignment="-1",col_name="disp",colhdr="Disp"@}, | |
18539 | @{width="3",alignment="-1",col_name="enabled",colhdr="Enb"@}, | |
18540 | @{width="10",alignment="-1",col_name="addr",colhdr="Address"@}, | |
18541 | @{width="40",alignment="2",col_name="what",colhdr="What"@}], | |
18542 | body=[bkpt=@{number="1",type="breakpoint",disp="keep",enabled="y", | |
948d5102 NR |
18543 | addr="0x000100d0",func="main",file="hello.c",fullname="/home/foo/hello.c", |
18544 | line="5",times="0",ignore="3"@}]@} | |
594fe323 | 18545 | (gdb) |
922fbb7b AC |
18546 | @end smallexample |
18547 | ||
18548 | @ignore | |
18549 | @subheading The @code{-break-catch} Command | |
18550 | @findex -break-catch | |
18551 | ||
18552 | @subheading The @code{-break-commands} Command | |
18553 | @findex -break-commands | |
18554 | @end ignore | |
18555 | ||
18556 | ||
18557 | @subheading The @code{-break-condition} Command | |
18558 | @findex -break-condition | |
18559 | ||
18560 | @subsubheading Synopsis | |
18561 | ||
18562 | @smallexample | |
18563 | -break-condition @var{number} @var{expr} | |
18564 | @end smallexample | |
18565 | ||
18566 | Breakpoint @var{number} will stop the program only if the condition in | |
18567 | @var{expr} is true. The condition becomes part of the | |
18568 | @samp{-break-list} output (see the description of the @samp{-break-list} | |
18569 | command below). | |
18570 | ||
18571 | @subsubheading @value{GDBN} Command | |
18572 | ||
18573 | The corresponding @value{GDBN} command is @samp{condition}. | |
18574 | ||
18575 | @subsubheading Example | |
18576 | ||
18577 | @smallexample | |
594fe323 | 18578 | (gdb) |
922fbb7b AC |
18579 | -break-condition 1 1 |
18580 | ^done | |
594fe323 | 18581 | (gdb) |
922fbb7b AC |
18582 | -break-list |
18583 | ^done,BreakpointTable=@{nr_rows="1",nr_cols="6", | |
18584 | hdr=[@{width="3",alignment="-1",col_name="number",colhdr="Num"@}, | |
18585 | @{width="14",alignment="-1",col_name="type",colhdr="Type"@}, | |
18586 | @{width="4",alignment="-1",col_name="disp",colhdr="Disp"@}, | |
18587 | @{width="3",alignment="-1",col_name="enabled",colhdr="Enb"@}, | |
18588 | @{width="10",alignment="-1",col_name="addr",colhdr="Address"@}, | |
18589 | @{width="40",alignment="2",col_name="what",colhdr="What"@}], | |
18590 | body=[bkpt=@{number="1",type="breakpoint",disp="keep",enabled="y", | |
948d5102 NR |
18591 | addr="0x000100d0",func="main",file="hello.c",fullname="/home/foo/hello.c", |
18592 | line="5",cond="1",times="0",ignore="3"@}]@} | |
594fe323 | 18593 | (gdb) |
922fbb7b AC |
18594 | @end smallexample |
18595 | ||
18596 | @subheading The @code{-break-delete} Command | |
18597 | @findex -break-delete | |
18598 | ||
18599 | @subsubheading Synopsis | |
18600 | ||
18601 | @smallexample | |
18602 | -break-delete ( @var{breakpoint} )+ | |
18603 | @end smallexample | |
18604 | ||
18605 | Delete the breakpoint(s) whose number(s) are specified in the argument | |
18606 | list. This is obviously reflected in the breakpoint list. | |
18607 | ||
79a6e687 | 18608 | @subsubheading @value{GDBN} Command |
922fbb7b AC |
18609 | |
18610 | The corresponding @value{GDBN} command is @samp{delete}. | |
18611 | ||
18612 | @subsubheading Example | |
18613 | ||
18614 | @smallexample | |
594fe323 | 18615 | (gdb) |
922fbb7b AC |
18616 | -break-delete 1 |
18617 | ^done | |
594fe323 | 18618 | (gdb) |
922fbb7b AC |
18619 | -break-list |
18620 | ^done,BreakpointTable=@{nr_rows="0",nr_cols="6", | |
18621 | hdr=[@{width="3",alignment="-1",col_name="number",colhdr="Num"@}, | |
18622 | @{width="14",alignment="-1",col_name="type",colhdr="Type"@}, | |
18623 | @{width="4",alignment="-1",col_name="disp",colhdr="Disp"@}, | |
18624 | @{width="3",alignment="-1",col_name="enabled",colhdr="Enb"@}, | |
18625 | @{width="10",alignment="-1",col_name="addr",colhdr="Address"@}, | |
18626 | @{width="40",alignment="2",col_name="what",colhdr="What"@}], | |
18627 | body=[]@} | |
594fe323 | 18628 | (gdb) |
922fbb7b AC |
18629 | @end smallexample |
18630 | ||
18631 | @subheading The @code{-break-disable} Command | |
18632 | @findex -break-disable | |
18633 | ||
18634 | @subsubheading Synopsis | |
18635 | ||
18636 | @smallexample | |
18637 | -break-disable ( @var{breakpoint} )+ | |
18638 | @end smallexample | |
18639 | ||
18640 | Disable the named @var{breakpoint}(s). The field @samp{enabled} in the | |
18641 | break list is now set to @samp{n} for the named @var{breakpoint}(s). | |
18642 | ||
18643 | @subsubheading @value{GDBN} Command | |
18644 | ||
18645 | The corresponding @value{GDBN} command is @samp{disable}. | |
18646 | ||
18647 | @subsubheading Example | |
18648 | ||
18649 | @smallexample | |
594fe323 | 18650 | (gdb) |
922fbb7b AC |
18651 | -break-disable 2 |
18652 | ^done | |
594fe323 | 18653 | (gdb) |
922fbb7b AC |
18654 | -break-list |
18655 | ^done,BreakpointTable=@{nr_rows="1",nr_cols="6", | |
18656 | hdr=[@{width="3",alignment="-1",col_name="number",colhdr="Num"@}, | |
18657 | @{width="14",alignment="-1",col_name="type",colhdr="Type"@}, | |
18658 | @{width="4",alignment="-1",col_name="disp",colhdr="Disp"@}, | |
18659 | @{width="3",alignment="-1",col_name="enabled",colhdr="Enb"@}, | |
18660 | @{width="10",alignment="-1",col_name="addr",colhdr="Address"@}, | |
18661 | @{width="40",alignment="2",col_name="what",colhdr="What"@}], | |
18662 | body=[bkpt=@{number="2",type="breakpoint",disp="keep",enabled="n", | |
948d5102 NR |
18663 | addr="0x000100d0",func="main",file="hello.c",fullname="/home/foo/hello.c", |
18664 | line="5",times="0"@}]@} | |
594fe323 | 18665 | (gdb) |
922fbb7b AC |
18666 | @end smallexample |
18667 | ||
18668 | @subheading The @code{-break-enable} Command | |
18669 | @findex -break-enable | |
18670 | ||
18671 | @subsubheading Synopsis | |
18672 | ||
18673 | @smallexample | |
18674 | -break-enable ( @var{breakpoint} )+ | |
18675 | @end smallexample | |
18676 | ||
18677 | Enable (previously disabled) @var{breakpoint}(s). | |
18678 | ||
18679 | @subsubheading @value{GDBN} Command | |
18680 | ||
18681 | The corresponding @value{GDBN} command is @samp{enable}. | |
18682 | ||
18683 | @subsubheading Example | |
18684 | ||
18685 | @smallexample | |
594fe323 | 18686 | (gdb) |
922fbb7b AC |
18687 | -break-enable 2 |
18688 | ^done | |
594fe323 | 18689 | (gdb) |
922fbb7b AC |
18690 | -break-list |
18691 | ^done,BreakpointTable=@{nr_rows="1",nr_cols="6", | |
18692 | hdr=[@{width="3",alignment="-1",col_name="number",colhdr="Num"@}, | |
18693 | @{width="14",alignment="-1",col_name="type",colhdr="Type"@}, | |
18694 | @{width="4",alignment="-1",col_name="disp",colhdr="Disp"@}, | |
18695 | @{width="3",alignment="-1",col_name="enabled",colhdr="Enb"@}, | |
18696 | @{width="10",alignment="-1",col_name="addr",colhdr="Address"@}, | |
18697 | @{width="40",alignment="2",col_name="what",colhdr="What"@}], | |
18698 | body=[bkpt=@{number="2",type="breakpoint",disp="keep",enabled="y", | |
948d5102 NR |
18699 | addr="0x000100d0",func="main",file="hello.c",fullname="/home/foo/hello.c", |
18700 | line="5",times="0"@}]@} | |
594fe323 | 18701 | (gdb) |
922fbb7b AC |
18702 | @end smallexample |
18703 | ||
18704 | @subheading The @code{-break-info} Command | |
18705 | @findex -break-info | |
18706 | ||
18707 | @subsubheading Synopsis | |
18708 | ||
18709 | @smallexample | |
18710 | -break-info @var{breakpoint} | |
18711 | @end smallexample | |
18712 | ||
18713 | @c REDUNDANT??? | |
18714 | Get information about a single breakpoint. | |
18715 | ||
79a6e687 | 18716 | @subsubheading @value{GDBN} Command |
922fbb7b AC |
18717 | |
18718 | The corresponding @value{GDBN} command is @samp{info break @var{breakpoint}}. | |
18719 | ||
18720 | @subsubheading Example | |
18721 | N.A. | |
18722 | ||
18723 | @subheading The @code{-break-insert} Command | |
18724 | @findex -break-insert | |
18725 | ||
18726 | @subsubheading Synopsis | |
18727 | ||
18728 | @smallexample | |
afe8ab22 | 18729 | -break-insert [ -t ] [ -h ] [ -f ] |
922fbb7b | 18730 | [ -c @var{condition} ] [ -i @var{ignore-count} ] |
afe8ab22 | 18731 | [ -p @var{thread} ] [ @var{location} ] |
922fbb7b AC |
18732 | @end smallexample |
18733 | ||
18734 | @noindent | |
afe8ab22 | 18735 | If specified, @var{location}, can be one of: |
922fbb7b AC |
18736 | |
18737 | @itemize @bullet | |
18738 | @item function | |
18739 | @c @item +offset | |
18740 | @c @item -offset | |
18741 | @c @item linenum | |
18742 | @item filename:linenum | |
18743 | @item filename:function | |
18744 | @item *address | |
18745 | @end itemize | |
18746 | ||
18747 | The possible optional parameters of this command are: | |
18748 | ||
18749 | @table @samp | |
18750 | @item -t | |
948d5102 | 18751 | Insert a temporary breakpoint. |
922fbb7b AC |
18752 | @item -h |
18753 | Insert a hardware breakpoint. | |
18754 | @item -c @var{condition} | |
18755 | Make the breakpoint conditional on @var{condition}. | |
18756 | @item -i @var{ignore-count} | |
18757 | Initialize the @var{ignore-count}. | |
afe8ab22 VP |
18758 | @item -f |
18759 | If @var{location} cannot be parsed (for example if it | |
18760 | refers to unknown files or functions), create a pending | |
18761 | breakpoint. Without this flag, @value{GDBN} will report | |
18762 | an error, and won't create a breakpoint, if @var{location} | |
18763 | cannot be parsed. | |
922fbb7b AC |
18764 | @end table |
18765 | ||
18766 | @subsubheading Result | |
18767 | ||
18768 | The result is in the form: | |
18769 | ||
18770 | @smallexample | |
948d5102 NR |
18771 | ^done,bkpt=@{number="@var{number}",type="@var{type}",disp="del"|"keep", |
18772 | enabled="y"|"n",addr="@var{hex}",func="@var{funcname}",file="@var{filename}", | |
ef21caaf NR |
18773 | fullname="@var{full_filename}",line="@var{lineno}",[thread="@var{threadno},] |
18774 | times="@var{times}"@} | |
922fbb7b AC |
18775 | @end smallexample |
18776 | ||
18777 | @noindent | |
948d5102 NR |
18778 | where @var{number} is the @value{GDBN} number for this breakpoint, |
18779 | @var{funcname} is the name of the function where the breakpoint was | |
18780 | inserted, @var{filename} is the name of the source file which contains | |
18781 | this function, @var{lineno} is the source line number within that file | |
18782 | and @var{times} the number of times that the breakpoint has been hit | |
18783 | (always 0 for -break-insert but may be greater for -break-info or -break-list | |
18784 | which use the same output). | |
922fbb7b AC |
18785 | |
18786 | Note: this format is open to change. | |
18787 | @c An out-of-band breakpoint instead of part of the result? | |
18788 | ||
18789 | @subsubheading @value{GDBN} Command | |
18790 | ||
18791 | The corresponding @value{GDBN} commands are @samp{break}, @samp{tbreak}, | |
18792 | @samp{hbreak}, @samp{thbreak}, and @samp{rbreak}. | |
18793 | ||
18794 | @subsubheading Example | |
18795 | ||
18796 | @smallexample | |
594fe323 | 18797 | (gdb) |
922fbb7b | 18798 | -break-insert main |
948d5102 NR |
18799 | ^done,bkpt=@{number="1",addr="0x0001072c",file="recursive2.c", |
18800 | fullname="/home/foo/recursive2.c,line="4",times="0"@} | |
594fe323 | 18801 | (gdb) |
922fbb7b | 18802 | -break-insert -t foo |
948d5102 NR |
18803 | ^done,bkpt=@{number="2",addr="0x00010774",file="recursive2.c", |
18804 | fullname="/home/foo/recursive2.c,line="11",times="0"@} | |
594fe323 | 18805 | (gdb) |
922fbb7b AC |
18806 | -break-list |
18807 | ^done,BreakpointTable=@{nr_rows="2",nr_cols="6", | |
18808 | hdr=[@{width="3",alignment="-1",col_name="number",colhdr="Num"@}, | |
18809 | @{width="14",alignment="-1",col_name="type",colhdr="Type"@}, | |
18810 | @{width="4",alignment="-1",col_name="disp",colhdr="Disp"@}, | |
18811 | @{width="3",alignment="-1",col_name="enabled",colhdr="Enb"@}, | |
18812 | @{width="10",alignment="-1",col_name="addr",colhdr="Address"@}, | |
18813 | @{width="40",alignment="2",col_name="what",colhdr="What"@}], | |
18814 | body=[bkpt=@{number="1",type="breakpoint",disp="keep",enabled="y", | |
948d5102 NR |
18815 | addr="0x0001072c", func="main",file="recursive2.c", |
18816 | fullname="/home/foo/recursive2.c,"line="4",times="0"@}, | |
922fbb7b | 18817 | bkpt=@{number="2",type="breakpoint",disp="del",enabled="y", |
948d5102 NR |
18818 | addr="0x00010774",func="foo",file="recursive2.c", |
18819 | fullname="/home/foo/recursive2.c",line="11",times="0"@}]@} | |
594fe323 | 18820 | (gdb) |
922fbb7b AC |
18821 | -break-insert -r foo.* |
18822 | ~int foo(int, int); | |
948d5102 NR |
18823 | ^done,bkpt=@{number="3",addr="0x00010774",file="recursive2.c, |
18824 | "fullname="/home/foo/recursive2.c",line="11",times="0"@} | |
594fe323 | 18825 | (gdb) |
922fbb7b AC |
18826 | @end smallexample |
18827 | ||
18828 | @subheading The @code{-break-list} Command | |
18829 | @findex -break-list | |
18830 | ||
18831 | @subsubheading Synopsis | |
18832 | ||
18833 | @smallexample | |
18834 | -break-list | |
18835 | @end smallexample | |
18836 | ||
18837 | Displays the list of inserted breakpoints, showing the following fields: | |
18838 | ||
18839 | @table @samp | |
18840 | @item Number | |
18841 | number of the breakpoint | |
18842 | @item Type | |
18843 | type of the breakpoint: @samp{breakpoint} or @samp{watchpoint} | |
18844 | @item Disposition | |
18845 | should the breakpoint be deleted or disabled when it is hit: @samp{keep} | |
18846 | or @samp{nokeep} | |
18847 | @item Enabled | |
18848 | is the breakpoint enabled or no: @samp{y} or @samp{n} | |
18849 | @item Address | |
18850 | memory location at which the breakpoint is set | |
18851 | @item What | |
18852 | logical location of the breakpoint, expressed by function name, file | |
18853 | name, line number | |
18854 | @item Times | |
18855 | number of times the breakpoint has been hit | |
18856 | @end table | |
18857 | ||
18858 | If there are no breakpoints or watchpoints, the @code{BreakpointTable} | |
18859 | @code{body} field is an empty list. | |
18860 | ||
18861 | @subsubheading @value{GDBN} Command | |
18862 | ||
18863 | The corresponding @value{GDBN} command is @samp{info break}. | |
18864 | ||
18865 | @subsubheading Example | |
18866 | ||
18867 | @smallexample | |
594fe323 | 18868 | (gdb) |
922fbb7b AC |
18869 | -break-list |
18870 | ^done,BreakpointTable=@{nr_rows="2",nr_cols="6", | |
18871 | hdr=[@{width="3",alignment="-1",col_name="number",colhdr="Num"@}, | |
18872 | @{width="14",alignment="-1",col_name="type",colhdr="Type"@}, | |
18873 | @{width="4",alignment="-1",col_name="disp",colhdr="Disp"@}, | |
18874 | @{width="3",alignment="-1",col_name="enabled",colhdr="Enb"@}, | |
18875 | @{width="10",alignment="-1",col_name="addr",colhdr="Address"@}, | |
18876 | @{width="40",alignment="2",col_name="what",colhdr="What"@}], | |
18877 | body=[bkpt=@{number="1",type="breakpoint",disp="keep",enabled="y", | |
18878 | addr="0x000100d0",func="main",file="hello.c",line="5",times="0"@}, | |
18879 | bkpt=@{number="2",type="breakpoint",disp="keep",enabled="y", | |
948d5102 NR |
18880 | addr="0x00010114",func="foo",file="hello.c",fullname="/home/foo/hello.c", |
18881 | line="13",times="0"@}]@} | |
594fe323 | 18882 | (gdb) |
922fbb7b AC |
18883 | @end smallexample |
18884 | ||
18885 | Here's an example of the result when there are no breakpoints: | |
18886 | ||
18887 | @smallexample | |
594fe323 | 18888 | (gdb) |
922fbb7b AC |
18889 | -break-list |
18890 | ^done,BreakpointTable=@{nr_rows="0",nr_cols="6", | |
18891 | hdr=[@{width="3",alignment="-1",col_name="number",colhdr="Num"@}, | |
18892 | @{width="14",alignment="-1",col_name="type",colhdr="Type"@}, | |
18893 | @{width="4",alignment="-1",col_name="disp",colhdr="Disp"@}, | |
18894 | @{width="3",alignment="-1",col_name="enabled",colhdr="Enb"@}, | |
18895 | @{width="10",alignment="-1",col_name="addr",colhdr="Address"@}, | |
18896 | @{width="40",alignment="2",col_name="what",colhdr="What"@}], | |
18897 | body=[]@} | |
594fe323 | 18898 | (gdb) |
922fbb7b AC |
18899 | @end smallexample |
18900 | ||
18901 | @subheading The @code{-break-watch} Command | |
18902 | @findex -break-watch | |
18903 | ||
18904 | @subsubheading Synopsis | |
18905 | ||
18906 | @smallexample | |
18907 | -break-watch [ -a | -r ] | |
18908 | @end smallexample | |
18909 | ||
18910 | Create a watchpoint. With the @samp{-a} option it will create an | |
d3e8051b | 18911 | @dfn{access} watchpoint, i.e., a watchpoint that triggers either on a |
922fbb7b | 18912 | read from or on a write to the memory location. With the @samp{-r} |
d3e8051b | 18913 | option, the watchpoint created is a @dfn{read} watchpoint, i.e., it will |
922fbb7b AC |
18914 | trigger only when the memory location is accessed for reading. Without |
18915 | either of the options, the watchpoint created is a regular watchpoint, | |
d3e8051b | 18916 | i.e., it will trigger when the memory location is accessed for writing. |
79a6e687 | 18917 | @xref{Set Watchpoints, , Setting Watchpoints}. |
922fbb7b AC |
18918 | |
18919 | Note that @samp{-break-list} will report a single list of watchpoints and | |
18920 | breakpoints inserted. | |
18921 | ||
18922 | @subsubheading @value{GDBN} Command | |
18923 | ||
18924 | The corresponding @value{GDBN} commands are @samp{watch}, @samp{awatch}, and | |
18925 | @samp{rwatch}. | |
18926 | ||
18927 | @subsubheading Example | |
18928 | ||
18929 | Setting a watchpoint on a variable in the @code{main} function: | |
18930 | ||
18931 | @smallexample | |
594fe323 | 18932 | (gdb) |
922fbb7b AC |
18933 | -break-watch x |
18934 | ^done,wpt=@{number="2",exp="x"@} | |
594fe323 | 18935 | (gdb) |
922fbb7b AC |
18936 | -exec-continue |
18937 | ^running | |
0869d01b NR |
18938 | (gdb) |
18939 | *stopped,reason="watchpoint-trigger",wpt=@{number="2",exp="x"@}, | |
922fbb7b | 18940 | value=@{old="-268439212",new="55"@}, |
76ff342d | 18941 | frame=@{func="main",args=[],file="recursive2.c", |
948d5102 | 18942 | fullname="/home/foo/bar/recursive2.c",line="5"@} |
594fe323 | 18943 | (gdb) |
922fbb7b AC |
18944 | @end smallexample |
18945 | ||
18946 | Setting a watchpoint on a variable local to a function. @value{GDBN} will stop | |
18947 | the program execution twice: first for the variable changing value, then | |
18948 | for the watchpoint going out of scope. | |
18949 | ||
18950 | @smallexample | |
594fe323 | 18951 | (gdb) |
922fbb7b AC |
18952 | -break-watch C |
18953 | ^done,wpt=@{number="5",exp="C"@} | |
594fe323 | 18954 | (gdb) |
922fbb7b AC |
18955 | -exec-continue |
18956 | ^running | |
0869d01b NR |
18957 | (gdb) |
18958 | *stopped,reason="watchpoint-trigger", | |
922fbb7b AC |
18959 | wpt=@{number="5",exp="C"@},value=@{old="-276895068",new="3"@}, |
18960 | frame=@{func="callee4",args=[], | |
76ff342d DJ |
18961 | file="../../../devo/gdb/testsuite/gdb.mi/basics.c", |
18962 | fullname="/home/foo/bar/devo/gdb/testsuite/gdb.mi/basics.c",line="13"@} | |
594fe323 | 18963 | (gdb) |
922fbb7b AC |
18964 | -exec-continue |
18965 | ^running | |
0869d01b NR |
18966 | (gdb) |
18967 | *stopped,reason="watchpoint-scope",wpnum="5", | |
922fbb7b AC |
18968 | frame=@{func="callee3",args=[@{name="strarg", |
18969 | value="0x11940 \"A string argument.\""@}], | |
76ff342d DJ |
18970 | file="../../../devo/gdb/testsuite/gdb.mi/basics.c", |
18971 | fullname="/home/foo/bar/devo/gdb/testsuite/gdb.mi/basics.c",line="18"@} | |
594fe323 | 18972 | (gdb) |
922fbb7b AC |
18973 | @end smallexample |
18974 | ||
18975 | Listing breakpoints and watchpoints, at different points in the program | |
18976 | execution. Note that once the watchpoint goes out of scope, it is | |
18977 | deleted. | |
18978 | ||
18979 | @smallexample | |
594fe323 | 18980 | (gdb) |
922fbb7b AC |
18981 | -break-watch C |
18982 | ^done,wpt=@{number="2",exp="C"@} | |
594fe323 | 18983 | (gdb) |
922fbb7b AC |
18984 | -break-list |
18985 | ^done,BreakpointTable=@{nr_rows="2",nr_cols="6", | |
18986 | hdr=[@{width="3",alignment="-1",col_name="number",colhdr="Num"@}, | |
18987 | @{width="14",alignment="-1",col_name="type",colhdr="Type"@}, | |
18988 | @{width="4",alignment="-1",col_name="disp",colhdr="Disp"@}, | |
18989 | @{width="3",alignment="-1",col_name="enabled",colhdr="Enb"@}, | |
18990 | @{width="10",alignment="-1",col_name="addr",colhdr="Address"@}, | |
18991 | @{width="40",alignment="2",col_name="what",colhdr="What"@}], | |
18992 | body=[bkpt=@{number="1",type="breakpoint",disp="keep",enabled="y", | |
18993 | addr="0x00010734",func="callee4", | |
948d5102 NR |
18994 | file="../../../devo/gdb/testsuite/gdb.mi/basics.c", |
18995 | fullname="/home/foo/devo/gdb/testsuite/gdb.mi/basics.c"line="8",times="1"@}, | |
922fbb7b AC |
18996 | bkpt=@{number="2",type="watchpoint",disp="keep", |
18997 | enabled="y",addr="",what="C",times="0"@}]@} | |
594fe323 | 18998 | (gdb) |
922fbb7b AC |
18999 | -exec-continue |
19000 | ^running | |
0869d01b NR |
19001 | (gdb) |
19002 | *stopped,reason="watchpoint-trigger",wpt=@{number="2",exp="C"@}, | |
922fbb7b AC |
19003 | value=@{old="-276895068",new="3"@}, |
19004 | frame=@{func="callee4",args=[], | |
76ff342d DJ |
19005 | file="../../../devo/gdb/testsuite/gdb.mi/basics.c", |
19006 | fullname="/home/foo/bar/devo/gdb/testsuite/gdb.mi/basics.c",line="13"@} | |
594fe323 | 19007 | (gdb) |
922fbb7b AC |
19008 | -break-list |
19009 | ^done,BreakpointTable=@{nr_rows="2",nr_cols="6", | |
19010 | hdr=[@{width="3",alignment="-1",col_name="number",colhdr="Num"@}, | |
19011 | @{width="14",alignment="-1",col_name="type",colhdr="Type"@}, | |
19012 | @{width="4",alignment="-1",col_name="disp",colhdr="Disp"@}, | |
19013 | @{width="3",alignment="-1",col_name="enabled",colhdr="Enb"@}, | |
19014 | @{width="10",alignment="-1",col_name="addr",colhdr="Address"@}, | |
19015 | @{width="40",alignment="2",col_name="what",colhdr="What"@}], | |
19016 | body=[bkpt=@{number="1",type="breakpoint",disp="keep",enabled="y", | |
19017 | addr="0x00010734",func="callee4", | |
948d5102 NR |
19018 | file="../../../devo/gdb/testsuite/gdb.mi/basics.c", |
19019 | fullname="/home/foo/devo/gdb/testsuite/gdb.mi/basics.c",line="8",times="1"@}, | |
922fbb7b AC |
19020 | bkpt=@{number="2",type="watchpoint",disp="keep", |
19021 | enabled="y",addr="",what="C",times="-5"@}]@} | |
594fe323 | 19022 | (gdb) |
922fbb7b AC |
19023 | -exec-continue |
19024 | ^running | |
19025 | ^done,reason="watchpoint-scope",wpnum="2", | |
19026 | frame=@{func="callee3",args=[@{name="strarg", | |
19027 | value="0x11940 \"A string argument.\""@}], | |
76ff342d DJ |
19028 | file="../../../devo/gdb/testsuite/gdb.mi/basics.c", |
19029 | fullname="/home/foo/bar/devo/gdb/testsuite/gdb.mi/basics.c",line="18"@} | |
594fe323 | 19030 | (gdb) |
922fbb7b AC |
19031 | -break-list |
19032 | ^done,BreakpointTable=@{nr_rows="1",nr_cols="6", | |
19033 | hdr=[@{width="3",alignment="-1",col_name="number",colhdr="Num"@}, | |
19034 | @{width="14",alignment="-1",col_name="type",colhdr="Type"@}, | |
19035 | @{width="4",alignment="-1",col_name="disp",colhdr="Disp"@}, | |
19036 | @{width="3",alignment="-1",col_name="enabled",colhdr="Enb"@}, | |
19037 | @{width="10",alignment="-1",col_name="addr",colhdr="Address"@}, | |
19038 | @{width="40",alignment="2",col_name="what",colhdr="What"@}], | |
19039 | body=[bkpt=@{number="1",type="breakpoint",disp="keep",enabled="y", | |
19040 | addr="0x00010734",func="callee4", | |
948d5102 NR |
19041 | file="../../../devo/gdb/testsuite/gdb.mi/basics.c", |
19042 | fullname="/home/foo/devo/gdb/testsuite/gdb.mi/basics.c",line="8", | |
19043 | times="1"@}]@} | |
594fe323 | 19044 | (gdb) |
922fbb7b AC |
19045 | @end smallexample |
19046 | ||
19047 | @c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% | |
a2c02241 NR |
19048 | @node GDB/MI Program Context |
19049 | @section @sc{gdb/mi} Program Context | |
922fbb7b | 19050 | |
a2c02241 NR |
19051 | @subheading The @code{-exec-arguments} Command |
19052 | @findex -exec-arguments | |
922fbb7b | 19053 | |
922fbb7b AC |
19054 | |
19055 | @subsubheading Synopsis | |
19056 | ||
19057 | @smallexample | |
a2c02241 | 19058 | -exec-arguments @var{args} |
922fbb7b AC |
19059 | @end smallexample |
19060 | ||
a2c02241 NR |
19061 | Set the inferior program arguments, to be used in the next |
19062 | @samp{-exec-run}. | |
922fbb7b | 19063 | |
a2c02241 | 19064 | @subsubheading @value{GDBN} Command |
922fbb7b | 19065 | |
a2c02241 | 19066 | The corresponding @value{GDBN} command is @samp{set args}. |
922fbb7b | 19067 | |
a2c02241 | 19068 | @subsubheading Example |
922fbb7b | 19069 | |
fbc5282e MK |
19070 | @smallexample |
19071 | (gdb) | |
19072 | -exec-arguments -v word | |
19073 | ^done | |
19074 | (gdb) | |
19075 | @end smallexample | |
922fbb7b | 19076 | |
a2c02241 NR |
19077 | |
19078 | @subheading The @code{-exec-show-arguments} Command | |
19079 | @findex -exec-show-arguments | |
19080 | ||
19081 | @subsubheading Synopsis | |
19082 | ||
19083 | @smallexample | |
19084 | -exec-show-arguments | |
19085 | @end smallexample | |
19086 | ||
19087 | Print the arguments of the program. | |
922fbb7b AC |
19088 | |
19089 | @subsubheading @value{GDBN} Command | |
19090 | ||
a2c02241 | 19091 | The corresponding @value{GDBN} command is @samp{show args}. |
922fbb7b AC |
19092 | |
19093 | @subsubheading Example | |
a2c02241 | 19094 | N.A. |
922fbb7b | 19095 | |
922fbb7b | 19096 | |
a2c02241 NR |
19097 | @subheading The @code{-environment-cd} Command |
19098 | @findex -environment-cd | |
922fbb7b | 19099 | |
a2c02241 | 19100 | @subsubheading Synopsis |
922fbb7b AC |
19101 | |
19102 | @smallexample | |
a2c02241 | 19103 | -environment-cd @var{pathdir} |
922fbb7b AC |
19104 | @end smallexample |
19105 | ||
a2c02241 | 19106 | Set @value{GDBN}'s working directory. |
922fbb7b | 19107 | |
a2c02241 | 19108 | @subsubheading @value{GDBN} Command |
922fbb7b | 19109 | |
a2c02241 NR |
19110 | The corresponding @value{GDBN} command is @samp{cd}. |
19111 | ||
19112 | @subsubheading Example | |
922fbb7b AC |
19113 | |
19114 | @smallexample | |
594fe323 | 19115 | (gdb) |
a2c02241 NR |
19116 | -environment-cd /kwikemart/marge/ezannoni/flathead-dev/devo/gdb |
19117 | ^done | |
594fe323 | 19118 | (gdb) |
922fbb7b AC |
19119 | @end smallexample |
19120 | ||
19121 | ||
a2c02241 NR |
19122 | @subheading The @code{-environment-directory} Command |
19123 | @findex -environment-directory | |
922fbb7b AC |
19124 | |
19125 | @subsubheading Synopsis | |
19126 | ||
19127 | @smallexample | |
a2c02241 | 19128 | -environment-directory [ -r ] [ @var{pathdir} ]+ |
922fbb7b AC |
19129 | @end smallexample |
19130 | ||
a2c02241 NR |
19131 | Add directories @var{pathdir} to beginning of search path for source files. |
19132 | If the @samp{-r} option is used, the search path is reset to the default | |
19133 | search path. If directories @var{pathdir} are supplied in addition to the | |
19134 | @samp{-r} option, the search path is first reset and then addition | |
19135 | occurs as normal. | |
19136 | Multiple directories may be specified, separated by blanks. Specifying | |
19137 | multiple directories in a single command | |
19138 | results in the directories added to the beginning of the | |
19139 | search path in the same order they were presented in the command. | |
19140 | If blanks are needed as | |
19141 | part of a directory name, double-quotes should be used around | |
19142 | the name. In the command output, the path will show up separated | |
d3e8051b | 19143 | by the system directory-separator character. The directory-separator |
a2c02241 NR |
19144 | character must not be used |
19145 | in any directory name. | |
19146 | If no directories are specified, the current search path is displayed. | |
922fbb7b AC |
19147 | |
19148 | @subsubheading @value{GDBN} Command | |
19149 | ||
a2c02241 | 19150 | The corresponding @value{GDBN} command is @samp{dir}. |
922fbb7b AC |
19151 | |
19152 | @subsubheading Example | |
19153 | ||
922fbb7b | 19154 | @smallexample |
594fe323 | 19155 | (gdb) |
a2c02241 NR |
19156 | -environment-directory /kwikemart/marge/ezannoni/flathead-dev/devo/gdb |
19157 | ^done,source-path="/kwikemart/marge/ezannoni/flathead-dev/devo/gdb:$cdir:$cwd" | |
594fe323 | 19158 | (gdb) |
a2c02241 NR |
19159 | -environment-directory "" |
19160 | ^done,source-path="/kwikemart/marge/ezannoni/flathead-dev/devo/gdb:$cdir:$cwd" | |
594fe323 | 19161 | (gdb) |
a2c02241 NR |
19162 | -environment-directory -r /home/jjohnstn/src/gdb /usr/src |
19163 | ^done,source-path="/home/jjohnstn/src/gdb:/usr/src:$cdir:$cwd" | |
594fe323 | 19164 | (gdb) |
a2c02241 NR |
19165 | -environment-directory -r |
19166 | ^done,source-path="$cdir:$cwd" | |
594fe323 | 19167 | (gdb) |
922fbb7b AC |
19168 | @end smallexample |
19169 | ||
19170 | ||
a2c02241 NR |
19171 | @subheading The @code{-environment-path} Command |
19172 | @findex -environment-path | |
922fbb7b AC |
19173 | |
19174 | @subsubheading Synopsis | |
19175 | ||
19176 | @smallexample | |
a2c02241 | 19177 | -environment-path [ -r ] [ @var{pathdir} ]+ |
922fbb7b AC |
19178 | @end smallexample |
19179 | ||
a2c02241 NR |
19180 | Add directories @var{pathdir} to beginning of search path for object files. |
19181 | If the @samp{-r} option is used, the search path is reset to the original | |
19182 | search path that existed at gdb start-up. If directories @var{pathdir} are | |
19183 | supplied in addition to the | |
19184 | @samp{-r} option, the search path is first reset and then addition | |
19185 | occurs as normal. | |
19186 | Multiple directories may be specified, separated by blanks. Specifying | |
19187 | multiple directories in a single command | |
19188 | results in the directories added to the beginning of the | |
19189 | search path in the same order they were presented in the command. | |
19190 | If blanks are needed as | |
19191 | part of a directory name, double-quotes should be used around | |
19192 | the name. In the command output, the path will show up separated | |
d3e8051b | 19193 | by the system directory-separator character. The directory-separator |
a2c02241 NR |
19194 | character must not be used |
19195 | in any directory name. | |
19196 | If no directories are specified, the current path is displayed. | |
19197 | ||
922fbb7b AC |
19198 | |
19199 | @subsubheading @value{GDBN} Command | |
19200 | ||
a2c02241 | 19201 | The corresponding @value{GDBN} command is @samp{path}. |
922fbb7b AC |
19202 | |
19203 | @subsubheading Example | |
19204 | ||
922fbb7b | 19205 | @smallexample |
594fe323 | 19206 | (gdb) |
a2c02241 NR |
19207 | -environment-path |
19208 | ^done,path="/usr/bin" | |
594fe323 | 19209 | (gdb) |
a2c02241 NR |
19210 | -environment-path /kwikemart/marge/ezannoni/flathead-dev/ppc-eabi/gdb /bin |
19211 | ^done,path="/kwikemart/marge/ezannoni/flathead-dev/ppc-eabi/gdb:/bin:/usr/bin" | |
594fe323 | 19212 | (gdb) |
a2c02241 NR |
19213 | -environment-path -r /usr/local/bin |
19214 | ^done,path="/usr/local/bin:/usr/bin" | |
594fe323 | 19215 | (gdb) |
922fbb7b AC |
19216 | @end smallexample |
19217 | ||
19218 | ||
a2c02241 NR |
19219 | @subheading The @code{-environment-pwd} Command |
19220 | @findex -environment-pwd | |
922fbb7b AC |
19221 | |
19222 | @subsubheading Synopsis | |
19223 | ||
19224 | @smallexample | |
a2c02241 | 19225 | -environment-pwd |
922fbb7b AC |
19226 | @end smallexample |
19227 | ||
a2c02241 | 19228 | Show the current working directory. |
922fbb7b | 19229 | |
79a6e687 | 19230 | @subsubheading @value{GDBN} Command |
922fbb7b | 19231 | |
a2c02241 | 19232 | The corresponding @value{GDBN} command is @samp{pwd}. |
922fbb7b AC |
19233 | |
19234 | @subsubheading Example | |
19235 | ||
922fbb7b | 19236 | @smallexample |
594fe323 | 19237 | (gdb) |
a2c02241 NR |
19238 | -environment-pwd |
19239 | ^done,cwd="/kwikemart/marge/ezannoni/flathead-dev/devo/gdb" | |
594fe323 | 19240 | (gdb) |
922fbb7b AC |
19241 | @end smallexample |
19242 | ||
a2c02241 NR |
19243 | @c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% |
19244 | @node GDB/MI Thread Commands | |
19245 | @section @sc{gdb/mi} Thread Commands | |
19246 | ||
19247 | ||
19248 | @subheading The @code{-thread-info} Command | |
19249 | @findex -thread-info | |
922fbb7b AC |
19250 | |
19251 | @subsubheading Synopsis | |
19252 | ||
19253 | @smallexample | |
8e8901c5 | 19254 | -thread-info [ @var{thread-id} ] |
922fbb7b AC |
19255 | @end smallexample |
19256 | ||
8e8901c5 VP |
19257 | Reports information about either a specific thread, if |
19258 | the @var{thread-id} parameter is present, or about all | |
19259 | threads. When printing information about all threads, | |
19260 | also reports the current thread. | |
19261 | ||
79a6e687 | 19262 | @subsubheading @value{GDBN} Command |
922fbb7b | 19263 | |
8e8901c5 VP |
19264 | The @samp{info thread} command prints the same information |
19265 | about all threads. | |
922fbb7b AC |
19266 | |
19267 | @subsubheading Example | |
922fbb7b AC |
19268 | |
19269 | @smallexample | |
8e8901c5 VP |
19270 | -thread-info |
19271 | ^done,threads=[ | |
19272 | @{id="2",target-id="Thread 0xb7e14b90 (LWP 21257)", | |
19273 | frame=@{level="0",addr="0xffffe410",func="__kernel_vsyscall",args=[]@}, | |
19274 | @{id="1",target-id="Thread 0xb7e156b0 (LWP 21254)", | |
19275 | frame=@{level="0",addr="0x0804891f",func="foo",args=[@{name="i",value="10"@}], | |
19276 | file="/tmp/a.c",fullname="/tmp/a.c",line="158"@}@}], | |
19277 | current-thread-id="1" | |
19278 | (gdb) | |
922fbb7b AC |
19279 | @end smallexample |
19280 | ||
a2c02241 NR |
19281 | @subheading The @code{-thread-list-ids} Command |
19282 | @findex -thread-list-ids | |
922fbb7b | 19283 | |
a2c02241 | 19284 | @subsubheading Synopsis |
922fbb7b | 19285 | |
a2c02241 NR |
19286 | @smallexample |
19287 | -thread-list-ids | |
19288 | @end smallexample | |
922fbb7b | 19289 | |
a2c02241 NR |
19290 | Produces a list of the currently known @value{GDBN} thread ids. At the |
19291 | end of the list it also prints the total number of such threads. | |
922fbb7b AC |
19292 | |
19293 | @subsubheading @value{GDBN} Command | |
19294 | ||
a2c02241 | 19295 | Part of @samp{info threads} supplies the same information. |
922fbb7b AC |
19296 | |
19297 | @subsubheading Example | |
19298 | ||
a2c02241 | 19299 | No threads present, besides the main process: |
922fbb7b AC |
19300 | |
19301 | @smallexample | |
594fe323 | 19302 | (gdb) |
a2c02241 NR |
19303 | -thread-list-ids |
19304 | ^done,thread-ids=@{@},number-of-threads="0" | |
594fe323 | 19305 | (gdb) |
922fbb7b AC |
19306 | @end smallexample |
19307 | ||
922fbb7b | 19308 | |
a2c02241 | 19309 | Several threads: |
922fbb7b AC |
19310 | |
19311 | @smallexample | |
594fe323 | 19312 | (gdb) |
a2c02241 NR |
19313 | -thread-list-ids |
19314 | ^done,thread-ids=@{thread-id="3",thread-id="2",thread-id="1"@}, | |
19315 | number-of-threads="3" | |
594fe323 | 19316 | (gdb) |
922fbb7b AC |
19317 | @end smallexample |
19318 | ||
a2c02241 NR |
19319 | |
19320 | @subheading The @code{-thread-select} Command | |
19321 | @findex -thread-select | |
922fbb7b AC |
19322 | |
19323 | @subsubheading Synopsis | |
19324 | ||
19325 | @smallexample | |
a2c02241 | 19326 | -thread-select @var{threadnum} |
922fbb7b AC |
19327 | @end smallexample |
19328 | ||
a2c02241 NR |
19329 | Make @var{threadnum} the current thread. It prints the number of the new |
19330 | current thread, and the topmost frame for that thread. | |
922fbb7b AC |
19331 | |
19332 | @subsubheading @value{GDBN} Command | |
19333 | ||
a2c02241 | 19334 | The corresponding @value{GDBN} command is @samp{thread}. |
922fbb7b AC |
19335 | |
19336 | @subsubheading Example | |
922fbb7b AC |
19337 | |
19338 | @smallexample | |
594fe323 | 19339 | (gdb) |
a2c02241 NR |
19340 | -exec-next |
19341 | ^running | |
594fe323 | 19342 | (gdb) |
a2c02241 NR |
19343 | *stopped,reason="end-stepping-range",thread-id="2",line="187", |
19344 | file="../../../devo/gdb/testsuite/gdb.threads/linux-dp.c" | |
594fe323 | 19345 | (gdb) |
a2c02241 NR |
19346 | -thread-list-ids |
19347 | ^done, | |
19348 | thread-ids=@{thread-id="3",thread-id="2",thread-id="1"@}, | |
19349 | number-of-threads="3" | |
594fe323 | 19350 | (gdb) |
a2c02241 NR |
19351 | -thread-select 3 |
19352 | ^done,new-thread-id="3", | |
19353 | frame=@{level="0",func="vprintf", | |
19354 | args=[@{name="format",value="0x8048e9c \"%*s%c %d %c\\n\""@}, | |
19355 | @{name="arg",value="0x2"@}],file="vprintf.c",line="31"@} | |
594fe323 | 19356 | (gdb) |
922fbb7b AC |
19357 | @end smallexample |
19358 | ||
a2c02241 NR |
19359 | @c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% |
19360 | @node GDB/MI Program Execution | |
19361 | @section @sc{gdb/mi} Program Execution | |
922fbb7b | 19362 | |
ef21caaf | 19363 | These are the asynchronous commands which generate the out-of-band |
3f94c067 | 19364 | record @samp{*stopped}. Currently @value{GDBN} only really executes |
ef21caaf NR |
19365 | asynchronously with remote targets and this interaction is mimicked in |
19366 | other cases. | |
922fbb7b | 19367 | |
922fbb7b AC |
19368 | @subheading The @code{-exec-continue} Command |
19369 | @findex -exec-continue | |
19370 | ||
19371 | @subsubheading Synopsis | |
19372 | ||
19373 | @smallexample | |
19374 | -exec-continue | |
19375 | @end smallexample | |
19376 | ||
ef21caaf NR |
19377 | Resumes the execution of the inferior program until a breakpoint is |
19378 | encountered, or until the inferior exits. | |
922fbb7b AC |
19379 | |
19380 | @subsubheading @value{GDBN} Command | |
19381 | ||
19382 | The corresponding @value{GDBN} corresponding is @samp{continue}. | |
19383 | ||
19384 | @subsubheading Example | |
19385 | ||
19386 | @smallexample | |
19387 | -exec-continue | |
19388 | ^running | |
594fe323 | 19389 | (gdb) |
922fbb7b | 19390 | @@Hello world |
a47ec5fe AR |
19391 | *stopped,reason="breakpoint-hit",disp="keep",bkptno="2",frame=@{ |
19392 | func="foo",args=[],file="hello.c",fullname="/home/foo/bar/hello.c", | |
19393 | line="13"@} | |
594fe323 | 19394 | (gdb) |
922fbb7b AC |
19395 | @end smallexample |
19396 | ||
19397 | ||
19398 | @subheading The @code{-exec-finish} Command | |
19399 | @findex -exec-finish | |
19400 | ||
19401 | @subsubheading Synopsis | |
19402 | ||
19403 | @smallexample | |
19404 | -exec-finish | |
19405 | @end smallexample | |
19406 | ||
ef21caaf NR |
19407 | Resumes the execution of the inferior program until the current |
19408 | function is exited. Displays the results returned by the function. | |
922fbb7b AC |
19409 | |
19410 | @subsubheading @value{GDBN} Command | |
19411 | ||
19412 | The corresponding @value{GDBN} command is @samp{finish}. | |
19413 | ||
19414 | @subsubheading Example | |
19415 | ||
19416 | Function returning @code{void}. | |
19417 | ||
19418 | @smallexample | |
19419 | -exec-finish | |
19420 | ^running | |
594fe323 | 19421 | (gdb) |
922fbb7b AC |
19422 | @@hello from foo |
19423 | *stopped,reason="function-finished",frame=@{func="main",args=[], | |
948d5102 | 19424 | file="hello.c",fullname="/home/foo/bar/hello.c",line="7"@} |
594fe323 | 19425 | (gdb) |
922fbb7b AC |
19426 | @end smallexample |
19427 | ||
19428 | Function returning other than @code{void}. The name of the internal | |
19429 | @value{GDBN} variable storing the result is printed, together with the | |
19430 | value itself. | |
19431 | ||
19432 | @smallexample | |
19433 | -exec-finish | |
19434 | ^running | |
594fe323 | 19435 | (gdb) |
922fbb7b AC |
19436 | *stopped,reason="function-finished",frame=@{addr="0x000107b0",func="foo", |
19437 | args=[@{name="a",value="1"],@{name="b",value="9"@}@}, | |
948d5102 | 19438 | file="recursive2.c",fullname="/home/foo/bar/recursive2.c",line="14"@}, |
922fbb7b | 19439 | gdb-result-var="$1",return-value="0" |
594fe323 | 19440 | (gdb) |
922fbb7b AC |
19441 | @end smallexample |
19442 | ||
19443 | ||
19444 | @subheading The @code{-exec-interrupt} Command | |
19445 | @findex -exec-interrupt | |
19446 | ||
19447 | @subsubheading Synopsis | |
19448 | ||
19449 | @smallexample | |
19450 | -exec-interrupt | |
19451 | @end smallexample | |
19452 | ||
ef21caaf NR |
19453 | Interrupts the background execution of the target. Note how the token |
19454 | associated with the stop message is the one for the execution command | |
19455 | that has been interrupted. The token for the interrupt itself only | |
19456 | appears in the @samp{^done} output. If the user is trying to | |
922fbb7b AC |
19457 | interrupt a non-running program, an error message will be printed. |
19458 | ||
19459 | @subsubheading @value{GDBN} Command | |
19460 | ||
19461 | The corresponding @value{GDBN} command is @samp{interrupt}. | |
19462 | ||
19463 | @subsubheading Example | |
19464 | ||
19465 | @smallexample | |
594fe323 | 19466 | (gdb) |
922fbb7b AC |
19467 | 111-exec-continue |
19468 | 111^running | |
19469 | ||
594fe323 | 19470 | (gdb) |
922fbb7b AC |
19471 | 222-exec-interrupt |
19472 | 222^done | |
594fe323 | 19473 | (gdb) |
922fbb7b | 19474 | 111*stopped,signal-name="SIGINT",signal-meaning="Interrupt", |
76ff342d | 19475 | frame=@{addr="0x00010140",func="foo",args=[],file="try.c", |
948d5102 | 19476 | fullname="/home/foo/bar/try.c",line="13"@} |
594fe323 | 19477 | (gdb) |
922fbb7b | 19478 | |
594fe323 | 19479 | (gdb) |
922fbb7b AC |
19480 | -exec-interrupt |
19481 | ^error,msg="mi_cmd_exec_interrupt: Inferior not executing." | |
594fe323 | 19482 | (gdb) |
922fbb7b AC |
19483 | @end smallexample |
19484 | ||
19485 | ||
19486 | @subheading The @code{-exec-next} Command | |
19487 | @findex -exec-next | |
19488 | ||
19489 | @subsubheading Synopsis | |
19490 | ||
19491 | @smallexample | |
19492 | -exec-next | |
19493 | @end smallexample | |
19494 | ||
ef21caaf NR |
19495 | Resumes execution of the inferior program, stopping when the beginning |
19496 | of the next source line is reached. | |
922fbb7b AC |
19497 | |
19498 | @subsubheading @value{GDBN} Command | |
19499 | ||
19500 | The corresponding @value{GDBN} command is @samp{next}. | |
19501 | ||
19502 | @subsubheading Example | |
19503 | ||
19504 | @smallexample | |
19505 | -exec-next | |
19506 | ^running | |
594fe323 | 19507 | (gdb) |
922fbb7b | 19508 | *stopped,reason="end-stepping-range",line="8",file="hello.c" |
594fe323 | 19509 | (gdb) |
922fbb7b AC |
19510 | @end smallexample |
19511 | ||
19512 | ||
19513 | @subheading The @code{-exec-next-instruction} Command | |
19514 | @findex -exec-next-instruction | |
19515 | ||
19516 | @subsubheading Synopsis | |
19517 | ||
19518 | @smallexample | |
19519 | -exec-next-instruction | |
19520 | @end smallexample | |
19521 | ||
ef21caaf NR |
19522 | Executes one machine instruction. If the instruction is a function |
19523 | call, continues until the function returns. If the program stops at an | |
19524 | instruction in the middle of a source line, the address will be | |
19525 | printed as well. | |
922fbb7b AC |
19526 | |
19527 | @subsubheading @value{GDBN} Command | |
19528 | ||
19529 | The corresponding @value{GDBN} command is @samp{nexti}. | |
19530 | ||
19531 | @subsubheading Example | |
19532 | ||
19533 | @smallexample | |
594fe323 | 19534 | (gdb) |
922fbb7b AC |
19535 | -exec-next-instruction |
19536 | ^running | |
19537 | ||
594fe323 | 19538 | (gdb) |
922fbb7b AC |
19539 | *stopped,reason="end-stepping-range", |
19540 | addr="0x000100d4",line="5",file="hello.c" | |
594fe323 | 19541 | (gdb) |
922fbb7b AC |
19542 | @end smallexample |
19543 | ||
19544 | ||
19545 | @subheading The @code{-exec-return} Command | |
19546 | @findex -exec-return | |
19547 | ||
19548 | @subsubheading Synopsis | |
19549 | ||
19550 | @smallexample | |
19551 | -exec-return | |
19552 | @end smallexample | |
19553 | ||
19554 | Makes current function return immediately. Doesn't execute the inferior. | |
19555 | Displays the new current frame. | |
19556 | ||
19557 | @subsubheading @value{GDBN} Command | |
19558 | ||
19559 | The corresponding @value{GDBN} command is @samp{return}. | |
19560 | ||
19561 | @subsubheading Example | |
19562 | ||
19563 | @smallexample | |
594fe323 | 19564 | (gdb) |
922fbb7b AC |
19565 | 200-break-insert callee4 |
19566 | 200^done,bkpt=@{number="1",addr="0x00010734", | |
19567 | file="../../../devo/gdb/testsuite/gdb.mi/basics.c",line="8"@} | |
594fe323 | 19568 | (gdb) |
922fbb7b AC |
19569 | 000-exec-run |
19570 | 000^running | |
594fe323 | 19571 | (gdb) |
a47ec5fe | 19572 | 000*stopped,reason="breakpoint-hit",disp="keep",bkptno="1", |
922fbb7b | 19573 | frame=@{func="callee4",args=[], |
76ff342d DJ |
19574 | file="../../../devo/gdb/testsuite/gdb.mi/basics.c", |
19575 | fullname="/home/foo/bar/devo/gdb/testsuite/gdb.mi/basics.c",line="8"@} | |
594fe323 | 19576 | (gdb) |
922fbb7b AC |
19577 | 205-break-delete |
19578 | 205^done | |
594fe323 | 19579 | (gdb) |
922fbb7b AC |
19580 | 111-exec-return |
19581 | 111^done,frame=@{level="0",func="callee3", | |
19582 | args=[@{name="strarg", | |
19583 | value="0x11940 \"A string argument.\""@}], | |
76ff342d DJ |
19584 | file="../../../devo/gdb/testsuite/gdb.mi/basics.c", |
19585 | fullname="/home/foo/bar/devo/gdb/testsuite/gdb.mi/basics.c",line="18"@} | |
594fe323 | 19586 | (gdb) |
922fbb7b AC |
19587 | @end smallexample |
19588 | ||
19589 | ||
19590 | @subheading The @code{-exec-run} Command | |
19591 | @findex -exec-run | |
19592 | ||
19593 | @subsubheading Synopsis | |
19594 | ||
19595 | @smallexample | |
19596 | -exec-run | |
19597 | @end smallexample | |
19598 | ||
ef21caaf NR |
19599 | Starts execution of the inferior from the beginning. The inferior |
19600 | executes until either a breakpoint is encountered or the program | |
19601 | exits. In the latter case the output will include an exit code, if | |
19602 | the program has exited exceptionally. | |
922fbb7b AC |
19603 | |
19604 | @subsubheading @value{GDBN} Command | |
19605 | ||
19606 | The corresponding @value{GDBN} command is @samp{run}. | |
19607 | ||
ef21caaf | 19608 | @subsubheading Examples |
922fbb7b AC |
19609 | |
19610 | @smallexample | |
594fe323 | 19611 | (gdb) |
922fbb7b AC |
19612 | -break-insert main |
19613 | ^done,bkpt=@{number="1",addr="0x0001072c",file="recursive2.c",line="4"@} | |
594fe323 | 19614 | (gdb) |
922fbb7b AC |
19615 | -exec-run |
19616 | ^running | |
594fe323 | 19617 | (gdb) |
a47ec5fe | 19618 | *stopped,reason="breakpoint-hit",disp="keep",bkptno="1", |
76ff342d | 19619 | frame=@{func="main",args=[],file="recursive2.c", |
948d5102 | 19620 | fullname="/home/foo/bar/recursive2.c",line="4"@} |
594fe323 | 19621 | (gdb) |
922fbb7b AC |
19622 | @end smallexample |
19623 | ||
ef21caaf NR |
19624 | @noindent |
19625 | Program exited normally: | |
19626 | ||
19627 | @smallexample | |
594fe323 | 19628 | (gdb) |
ef21caaf NR |
19629 | -exec-run |
19630 | ^running | |
594fe323 | 19631 | (gdb) |
ef21caaf NR |
19632 | x = 55 |
19633 | *stopped,reason="exited-normally" | |
594fe323 | 19634 | (gdb) |
ef21caaf NR |
19635 | @end smallexample |
19636 | ||
19637 | @noindent | |
19638 | Program exited exceptionally: | |
19639 | ||
19640 | @smallexample | |
594fe323 | 19641 | (gdb) |
ef21caaf NR |
19642 | -exec-run |
19643 | ^running | |
594fe323 | 19644 | (gdb) |
ef21caaf NR |
19645 | x = 55 |
19646 | *stopped,reason="exited",exit-code="01" | |
594fe323 | 19647 | (gdb) |
ef21caaf NR |
19648 | @end smallexample |
19649 | ||
19650 | Another way the program can terminate is if it receives a signal such as | |
19651 | @code{SIGINT}. In this case, @sc{gdb/mi} displays this: | |
19652 | ||
19653 | @smallexample | |
594fe323 | 19654 | (gdb) |
ef21caaf NR |
19655 | *stopped,reason="exited-signalled",signal-name="SIGINT", |
19656 | signal-meaning="Interrupt" | |
19657 | @end smallexample | |
19658 | ||
922fbb7b | 19659 | |
a2c02241 NR |
19660 | @c @subheading -exec-signal |
19661 | ||
19662 | ||
19663 | @subheading The @code{-exec-step} Command | |
19664 | @findex -exec-step | |
922fbb7b AC |
19665 | |
19666 | @subsubheading Synopsis | |
19667 | ||
19668 | @smallexample | |
a2c02241 | 19669 | -exec-step |
922fbb7b AC |
19670 | @end smallexample |
19671 | ||
a2c02241 NR |
19672 | Resumes execution of the inferior program, stopping when the beginning |
19673 | of the next source line is reached, if the next source line is not a | |
19674 | function call. If it is, stop at the first instruction of the called | |
19675 | function. | |
922fbb7b AC |
19676 | |
19677 | @subsubheading @value{GDBN} Command | |
19678 | ||
a2c02241 | 19679 | The corresponding @value{GDBN} command is @samp{step}. |
922fbb7b AC |
19680 | |
19681 | @subsubheading Example | |
19682 | ||
19683 | Stepping into a function: | |
19684 | ||
19685 | @smallexample | |
19686 | -exec-step | |
19687 | ^running | |
594fe323 | 19688 | (gdb) |
922fbb7b AC |
19689 | *stopped,reason="end-stepping-range", |
19690 | frame=@{func="foo",args=[@{name="a",value="10"@}, | |
76ff342d | 19691 | @{name="b",value="0"@}],file="recursive2.c", |
948d5102 | 19692 | fullname="/home/foo/bar/recursive2.c",line="11"@} |
594fe323 | 19693 | (gdb) |
922fbb7b AC |
19694 | @end smallexample |
19695 | ||
19696 | Regular stepping: | |
19697 | ||
19698 | @smallexample | |
19699 | -exec-step | |
19700 | ^running | |
594fe323 | 19701 | (gdb) |
922fbb7b | 19702 | *stopped,reason="end-stepping-range",line="14",file="recursive2.c" |
594fe323 | 19703 | (gdb) |
922fbb7b AC |
19704 | @end smallexample |
19705 | ||
19706 | ||
19707 | @subheading The @code{-exec-step-instruction} Command | |
19708 | @findex -exec-step-instruction | |
19709 | ||
19710 | @subsubheading Synopsis | |
19711 | ||
19712 | @smallexample | |
19713 | -exec-step-instruction | |
19714 | @end smallexample | |
19715 | ||
ef21caaf NR |
19716 | Resumes the inferior which executes one machine instruction. The |
19717 | output, once @value{GDBN} has stopped, will vary depending on whether | |
19718 | we have stopped in the middle of a source line or not. In the former | |
19719 | case, the address at which the program stopped will be printed as | |
922fbb7b AC |
19720 | well. |
19721 | ||
19722 | @subsubheading @value{GDBN} Command | |
19723 | ||
19724 | The corresponding @value{GDBN} command is @samp{stepi}. | |
19725 | ||
19726 | @subsubheading Example | |
19727 | ||
19728 | @smallexample | |
594fe323 | 19729 | (gdb) |
922fbb7b AC |
19730 | -exec-step-instruction |
19731 | ^running | |
19732 | ||
594fe323 | 19733 | (gdb) |
922fbb7b | 19734 | *stopped,reason="end-stepping-range", |
76ff342d | 19735 | frame=@{func="foo",args=[],file="try.c", |
948d5102 | 19736 | fullname="/home/foo/bar/try.c",line="10"@} |
594fe323 | 19737 | (gdb) |
922fbb7b AC |
19738 | -exec-step-instruction |
19739 | ^running | |
19740 | ||
594fe323 | 19741 | (gdb) |
922fbb7b | 19742 | *stopped,reason="end-stepping-range", |
76ff342d | 19743 | frame=@{addr="0x000100f4",func="foo",args=[],file="try.c", |
948d5102 | 19744 | fullname="/home/foo/bar/try.c",line="10"@} |
594fe323 | 19745 | (gdb) |
922fbb7b AC |
19746 | @end smallexample |
19747 | ||
19748 | ||
19749 | @subheading The @code{-exec-until} Command | |
19750 | @findex -exec-until | |
19751 | ||
19752 | @subsubheading Synopsis | |
19753 | ||
19754 | @smallexample | |
19755 | -exec-until [ @var{location} ] | |
19756 | @end smallexample | |
19757 | ||
ef21caaf NR |
19758 | Executes the inferior until the @var{location} specified in the |
19759 | argument is reached. If there is no argument, the inferior executes | |
19760 | until a source line greater than the current one is reached. The | |
19761 | reason for stopping in this case will be @samp{location-reached}. | |
922fbb7b AC |
19762 | |
19763 | @subsubheading @value{GDBN} Command | |
19764 | ||
19765 | The corresponding @value{GDBN} command is @samp{until}. | |
19766 | ||
19767 | @subsubheading Example | |
19768 | ||
19769 | @smallexample | |
594fe323 | 19770 | (gdb) |
922fbb7b AC |
19771 | -exec-until recursive2.c:6 |
19772 | ^running | |
594fe323 | 19773 | (gdb) |
922fbb7b AC |
19774 | x = 55 |
19775 | *stopped,reason="location-reached",frame=@{func="main",args=[], | |
948d5102 | 19776 | file="recursive2.c",fullname="/home/foo/bar/recursive2.c",line="6"@} |
594fe323 | 19777 | (gdb) |
922fbb7b AC |
19778 | @end smallexample |
19779 | ||
19780 | @ignore | |
19781 | @subheading -file-clear | |
19782 | Is this going away???? | |
19783 | @end ignore | |
19784 | ||
351ff01a | 19785 | @c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% |
a2c02241 NR |
19786 | @node GDB/MI Stack Manipulation |
19787 | @section @sc{gdb/mi} Stack Manipulation Commands | |
351ff01a | 19788 | |
922fbb7b | 19789 | |
a2c02241 NR |
19790 | @subheading The @code{-stack-info-frame} Command |
19791 | @findex -stack-info-frame | |
922fbb7b AC |
19792 | |
19793 | @subsubheading Synopsis | |
19794 | ||
19795 | @smallexample | |
a2c02241 | 19796 | -stack-info-frame |
922fbb7b AC |
19797 | @end smallexample |
19798 | ||
a2c02241 | 19799 | Get info on the selected frame. |
922fbb7b AC |
19800 | |
19801 | @subsubheading @value{GDBN} Command | |
19802 | ||
a2c02241 NR |
19803 | The corresponding @value{GDBN} command is @samp{info frame} or @samp{frame} |
19804 | (without arguments). | |
922fbb7b AC |
19805 | |
19806 | @subsubheading Example | |
19807 | ||
19808 | @smallexample | |
594fe323 | 19809 | (gdb) |
a2c02241 NR |
19810 | -stack-info-frame |
19811 | ^done,frame=@{level="1",addr="0x0001076c",func="callee3", | |
19812 | file="../../../devo/gdb/testsuite/gdb.mi/basics.c", | |
19813 | fullname="/home/foo/bar/devo/gdb/testsuite/gdb.mi/basics.c",line="17"@} | |
594fe323 | 19814 | (gdb) |
922fbb7b AC |
19815 | @end smallexample |
19816 | ||
a2c02241 NR |
19817 | @subheading The @code{-stack-info-depth} Command |
19818 | @findex -stack-info-depth | |
922fbb7b AC |
19819 | |
19820 | @subsubheading Synopsis | |
19821 | ||
19822 | @smallexample | |
a2c02241 | 19823 | -stack-info-depth [ @var{max-depth} ] |
922fbb7b AC |
19824 | @end smallexample |
19825 | ||
a2c02241 NR |
19826 | Return the depth of the stack. If the integer argument @var{max-depth} |
19827 | is specified, do not count beyond @var{max-depth} frames. | |
922fbb7b AC |
19828 | |
19829 | @subsubheading @value{GDBN} Command | |
19830 | ||
a2c02241 | 19831 | There's no equivalent @value{GDBN} command. |
922fbb7b AC |
19832 | |
19833 | @subsubheading Example | |
19834 | ||
a2c02241 NR |
19835 | For a stack with frame levels 0 through 11: |
19836 | ||
922fbb7b | 19837 | @smallexample |
594fe323 | 19838 | (gdb) |
a2c02241 NR |
19839 | -stack-info-depth |
19840 | ^done,depth="12" | |
594fe323 | 19841 | (gdb) |
a2c02241 NR |
19842 | -stack-info-depth 4 |
19843 | ^done,depth="4" | |
594fe323 | 19844 | (gdb) |
a2c02241 NR |
19845 | -stack-info-depth 12 |
19846 | ^done,depth="12" | |
594fe323 | 19847 | (gdb) |
a2c02241 NR |
19848 | -stack-info-depth 11 |
19849 | ^done,depth="11" | |
594fe323 | 19850 | (gdb) |
a2c02241 NR |
19851 | -stack-info-depth 13 |
19852 | ^done,depth="12" | |
594fe323 | 19853 | (gdb) |
922fbb7b AC |
19854 | @end smallexample |
19855 | ||
a2c02241 NR |
19856 | @subheading The @code{-stack-list-arguments} Command |
19857 | @findex -stack-list-arguments | |
922fbb7b AC |
19858 | |
19859 | @subsubheading Synopsis | |
19860 | ||
19861 | @smallexample | |
a2c02241 NR |
19862 | -stack-list-arguments @var{show-values} |
19863 | [ @var{low-frame} @var{high-frame} ] | |
922fbb7b AC |
19864 | @end smallexample |
19865 | ||
a2c02241 NR |
19866 | Display a list of the arguments for the frames between @var{low-frame} |
19867 | and @var{high-frame} (inclusive). If @var{low-frame} and | |
2f1acb09 VP |
19868 | @var{high-frame} are not provided, list the arguments for the whole |
19869 | call stack. If the two arguments are equal, show the single frame | |
19870 | at the corresponding level. It is an error if @var{low-frame} is | |
19871 | larger than the actual number of frames. On the other hand, | |
19872 | @var{high-frame} may be larger than the actual number of frames, in | |
19873 | which case only existing frames will be returned. | |
a2c02241 NR |
19874 | |
19875 | The @var{show-values} argument must have a value of 0 or 1. A value of | |
19876 | 0 means that only the names of the arguments are listed, a value of 1 | |
19877 | means that both names and values of the arguments are printed. | |
922fbb7b AC |
19878 | |
19879 | @subsubheading @value{GDBN} Command | |
19880 | ||
a2c02241 NR |
19881 | @value{GDBN} does not have an equivalent command. @code{gdbtk} has a |
19882 | @samp{gdb_get_args} command which partially overlaps with the | |
19883 | functionality of @samp{-stack-list-arguments}. | |
922fbb7b AC |
19884 | |
19885 | @subsubheading Example | |
922fbb7b | 19886 | |
a2c02241 | 19887 | @smallexample |
594fe323 | 19888 | (gdb) |
a2c02241 NR |
19889 | -stack-list-frames |
19890 | ^done, | |
19891 | stack=[ | |
19892 | frame=@{level="0",addr="0x00010734",func="callee4", | |
19893 | file="../../../devo/gdb/testsuite/gdb.mi/basics.c", | |
19894 | fullname="/home/foo/bar/devo/gdb/testsuite/gdb.mi/basics.c",line="8"@}, | |
19895 | frame=@{level="1",addr="0x0001076c",func="callee3", | |
19896 | file="../../../devo/gdb/testsuite/gdb.mi/basics.c", | |
19897 | fullname="/home/foo/bar/devo/gdb/testsuite/gdb.mi/basics.c",line="17"@}, | |
19898 | frame=@{level="2",addr="0x0001078c",func="callee2", | |
19899 | file="../../../devo/gdb/testsuite/gdb.mi/basics.c", | |
19900 | fullname="/home/foo/bar/devo/gdb/testsuite/gdb.mi/basics.c",line="22"@}, | |
19901 | frame=@{level="3",addr="0x000107b4",func="callee1", | |
19902 | file="../../../devo/gdb/testsuite/gdb.mi/basics.c", | |
19903 | fullname="/home/foo/bar/devo/gdb/testsuite/gdb.mi/basics.c",line="27"@}, | |
19904 | frame=@{level="4",addr="0x000107e0",func="main", | |
19905 | file="../../../devo/gdb/testsuite/gdb.mi/basics.c", | |
19906 | fullname="/home/foo/bar/devo/gdb/testsuite/gdb.mi/basics.c",line="32"@}] | |
594fe323 | 19907 | (gdb) |
a2c02241 NR |
19908 | -stack-list-arguments 0 |
19909 | ^done, | |
19910 | stack-args=[ | |
19911 | frame=@{level="0",args=[]@}, | |
19912 | frame=@{level="1",args=[name="strarg"]@}, | |
19913 | frame=@{level="2",args=[name="intarg",name="strarg"]@}, | |
19914 | frame=@{level="3",args=[name="intarg",name="strarg",name="fltarg"]@}, | |
19915 | frame=@{level="4",args=[]@}] | |
594fe323 | 19916 | (gdb) |
a2c02241 NR |
19917 | -stack-list-arguments 1 |
19918 | ^done, | |
19919 | stack-args=[ | |
19920 | frame=@{level="0",args=[]@}, | |
19921 | frame=@{level="1", | |
19922 | args=[@{name="strarg",value="0x11940 \"A string argument.\""@}]@}, | |
19923 | frame=@{level="2",args=[ | |
19924 | @{name="intarg",value="2"@}, | |
19925 | @{name="strarg",value="0x11940 \"A string argument.\""@}]@}, | |
19926 | @{frame=@{level="3",args=[ | |
19927 | @{name="intarg",value="2"@}, | |
19928 | @{name="strarg",value="0x11940 \"A string argument.\""@}, | |
19929 | @{name="fltarg",value="3.5"@}]@}, | |
19930 | frame=@{level="4",args=[]@}] | |
594fe323 | 19931 | (gdb) |
a2c02241 NR |
19932 | -stack-list-arguments 0 2 2 |
19933 | ^done,stack-args=[frame=@{level="2",args=[name="intarg",name="strarg"]@}] | |
594fe323 | 19934 | (gdb) |
a2c02241 NR |
19935 | -stack-list-arguments 1 2 2 |
19936 | ^done,stack-args=[frame=@{level="2", | |
19937 | args=[@{name="intarg",value="2"@}, | |
19938 | @{name="strarg",value="0x11940 \"A string argument.\""@}]@}] | |
594fe323 | 19939 | (gdb) |
a2c02241 NR |
19940 | @end smallexample |
19941 | ||
19942 | @c @subheading -stack-list-exception-handlers | |
922fbb7b | 19943 | |
a2c02241 NR |
19944 | |
19945 | @subheading The @code{-stack-list-frames} Command | |
19946 | @findex -stack-list-frames | |
1abaf70c BR |
19947 | |
19948 | @subsubheading Synopsis | |
19949 | ||
19950 | @smallexample | |
a2c02241 | 19951 | -stack-list-frames [ @var{low-frame} @var{high-frame} ] |
1abaf70c BR |
19952 | @end smallexample |
19953 | ||
a2c02241 NR |
19954 | List the frames currently on the stack. For each frame it displays the |
19955 | following info: | |
19956 | ||
19957 | @table @samp | |
19958 | @item @var{level} | |
d3e8051b | 19959 | The frame number, 0 being the topmost frame, i.e., the innermost function. |
a2c02241 NR |
19960 | @item @var{addr} |
19961 | The @code{$pc} value for that frame. | |
19962 | @item @var{func} | |
19963 | Function name. | |
19964 | @item @var{file} | |
19965 | File name of the source file where the function lives. | |
19966 | @item @var{line} | |
19967 | Line number corresponding to the @code{$pc}. | |
19968 | @end table | |
19969 | ||
19970 | If invoked without arguments, this command prints a backtrace for the | |
19971 | whole stack. If given two integer arguments, it shows the frames whose | |
19972 | levels are between the two arguments (inclusive). If the two arguments | |
2ab1eb7a VP |
19973 | are equal, it shows the single frame at the corresponding level. It is |
19974 | an error if @var{low-frame} is larger than the actual number of | |
a5451f4e | 19975 | frames. On the other hand, @var{high-frame} may be larger than the |
2ab1eb7a | 19976 | actual number of frames, in which case only existing frames will be returned. |
1abaf70c BR |
19977 | |
19978 | @subsubheading @value{GDBN} Command | |
19979 | ||
a2c02241 | 19980 | The corresponding @value{GDBN} commands are @samp{backtrace} and @samp{where}. |
1abaf70c BR |
19981 | |
19982 | @subsubheading Example | |
19983 | ||
a2c02241 NR |
19984 | Full stack backtrace: |
19985 | ||
1abaf70c | 19986 | @smallexample |
594fe323 | 19987 | (gdb) |
a2c02241 NR |
19988 | -stack-list-frames |
19989 | ^done,stack= | |
19990 | [frame=@{level="0",addr="0x0001076c",func="foo", | |
19991 | file="recursive2.c",fullname="/home/foo/bar/recursive2.c",line="11"@}, | |
19992 | frame=@{level="1",addr="0x000107a4",func="foo", | |
19993 | file="recursive2.c",fullname="/home/foo/bar/recursive2.c",line="14"@}, | |
19994 | frame=@{level="2",addr="0x000107a4",func="foo", | |
19995 | file="recursive2.c",fullname="/home/foo/bar/recursive2.c",line="14"@}, | |
19996 | frame=@{level="3",addr="0x000107a4",func="foo", | |
19997 | file="recursive2.c",fullname="/home/foo/bar/recursive2.c",line="14"@}, | |
19998 | frame=@{level="4",addr="0x000107a4",func="foo", | |
19999 | file="recursive2.c",fullname="/home/foo/bar/recursive2.c",line="14"@}, | |
20000 | frame=@{level="5",addr="0x000107a4",func="foo", | |
20001 | file="recursive2.c",fullname="/home/foo/bar/recursive2.c",line="14"@}, | |
20002 | frame=@{level="6",addr="0x000107a4",func="foo", | |
20003 | file="recursive2.c",fullname="/home/foo/bar/recursive2.c",line="14"@}, | |
20004 | frame=@{level="7",addr="0x000107a4",func="foo", | |
20005 | file="recursive2.c",fullname="/home/foo/bar/recursive2.c",line="14"@}, | |
20006 | frame=@{level="8",addr="0x000107a4",func="foo", | |
20007 | file="recursive2.c",fullname="/home/foo/bar/recursive2.c",line="14"@}, | |
20008 | frame=@{level="9",addr="0x000107a4",func="foo", | |
20009 | file="recursive2.c",fullname="/home/foo/bar/recursive2.c",line="14"@}, | |
20010 | frame=@{level="10",addr="0x000107a4",func="foo", | |
20011 | file="recursive2.c",fullname="/home/foo/bar/recursive2.c",line="14"@}, | |
20012 | frame=@{level="11",addr="0x00010738",func="main", | |
20013 | file="recursive2.c",fullname="/home/foo/bar/recursive2.c",line="4"@}] | |
594fe323 | 20014 | (gdb) |
1abaf70c BR |
20015 | @end smallexample |
20016 | ||
a2c02241 | 20017 | Show frames between @var{low_frame} and @var{high_frame}: |
1abaf70c | 20018 | |
a2c02241 | 20019 | @smallexample |
594fe323 | 20020 | (gdb) |
a2c02241 NR |
20021 | -stack-list-frames 3 5 |
20022 | ^done,stack= | |
20023 | [frame=@{level="3",addr="0x000107a4",func="foo", | |
20024 | file="recursive2.c",fullname="/home/foo/bar/recursive2.c",line="14"@}, | |
20025 | frame=@{level="4",addr="0x000107a4",func="foo", | |
20026 | file="recursive2.c",fullname="/home/foo/bar/recursive2.c",line="14"@}, | |
20027 | frame=@{level="5",addr="0x000107a4",func="foo", | |
20028 | file="recursive2.c",fullname="/home/foo/bar/recursive2.c",line="14"@}] | |
594fe323 | 20029 | (gdb) |
a2c02241 | 20030 | @end smallexample |
922fbb7b | 20031 | |
a2c02241 | 20032 | Show a single frame: |
922fbb7b AC |
20033 | |
20034 | @smallexample | |
594fe323 | 20035 | (gdb) |
a2c02241 NR |
20036 | -stack-list-frames 3 3 |
20037 | ^done,stack= | |
20038 | [frame=@{level="3",addr="0x000107a4",func="foo", | |
20039 | file="recursive2.c",fullname="/home/foo/bar/recursive2.c",line="14"@}] | |
594fe323 | 20040 | (gdb) |
922fbb7b AC |
20041 | @end smallexample |
20042 | ||
922fbb7b | 20043 | |
a2c02241 NR |
20044 | @subheading The @code{-stack-list-locals} Command |
20045 | @findex -stack-list-locals | |
57c22c6c | 20046 | |
a2c02241 | 20047 | @subsubheading Synopsis |
922fbb7b AC |
20048 | |
20049 | @smallexample | |
a2c02241 | 20050 | -stack-list-locals @var{print-values} |
922fbb7b AC |
20051 | @end smallexample |
20052 | ||
a2c02241 NR |
20053 | Display the local variable names for the selected frame. If |
20054 | @var{print-values} is 0 or @code{--no-values}, print only the names of | |
20055 | the variables; if it is 1 or @code{--all-values}, print also their | |
20056 | values; and if it is 2 or @code{--simple-values}, print the name, | |
20057 | type and value for simple data types and the name and type for arrays, | |
20058 | structures and unions. In this last case, a frontend can immediately | |
20059 | display the value of simple data types and create variable objects for | |
d3e8051b | 20060 | other data types when the user wishes to explore their values in |
a2c02241 | 20061 | more detail. |
922fbb7b AC |
20062 | |
20063 | @subsubheading @value{GDBN} Command | |
20064 | ||
a2c02241 | 20065 | @samp{info locals} in @value{GDBN}, @samp{gdb_get_locals} in @code{gdbtk}. |
922fbb7b AC |
20066 | |
20067 | @subsubheading Example | |
922fbb7b AC |
20068 | |
20069 | @smallexample | |
594fe323 | 20070 | (gdb) |
a2c02241 NR |
20071 | -stack-list-locals 0 |
20072 | ^done,locals=[name="A",name="B",name="C"] | |
594fe323 | 20073 | (gdb) |
a2c02241 NR |
20074 | -stack-list-locals --all-values |
20075 | ^done,locals=[@{name="A",value="1"@},@{name="B",value="2"@}, | |
20076 | @{name="C",value="@{1, 2, 3@}"@}] | |
20077 | -stack-list-locals --simple-values | |
20078 | ^done,locals=[@{name="A",type="int",value="1"@}, | |
20079 | @{name="B",type="int",value="2"@},@{name="C",type="int [3]"@}] | |
594fe323 | 20080 | (gdb) |
922fbb7b AC |
20081 | @end smallexample |
20082 | ||
922fbb7b | 20083 | |
a2c02241 NR |
20084 | @subheading The @code{-stack-select-frame} Command |
20085 | @findex -stack-select-frame | |
922fbb7b AC |
20086 | |
20087 | @subsubheading Synopsis | |
20088 | ||
20089 | @smallexample | |
a2c02241 | 20090 | -stack-select-frame @var{framenum} |
922fbb7b AC |
20091 | @end smallexample |
20092 | ||
a2c02241 NR |
20093 | Change the selected frame. Select a different frame @var{framenum} on |
20094 | the stack. | |
922fbb7b AC |
20095 | |
20096 | @subsubheading @value{GDBN} Command | |
20097 | ||
a2c02241 NR |
20098 | The corresponding @value{GDBN} commands are @samp{frame}, @samp{up}, |
20099 | @samp{down}, @samp{select-frame}, @samp{up-silent}, and @samp{down-silent}. | |
922fbb7b AC |
20100 | |
20101 | @subsubheading Example | |
20102 | ||
20103 | @smallexample | |
594fe323 | 20104 | (gdb) |
a2c02241 | 20105 | -stack-select-frame 2 |
922fbb7b | 20106 | ^done |
594fe323 | 20107 | (gdb) |
922fbb7b AC |
20108 | @end smallexample |
20109 | ||
20110 | @c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% | |
a2c02241 NR |
20111 | @node GDB/MI Variable Objects |
20112 | @section @sc{gdb/mi} Variable Objects | |
922fbb7b | 20113 | |
a1b5960f | 20114 | @ignore |
922fbb7b | 20115 | |
a2c02241 | 20116 | @subheading Motivation for Variable Objects in @sc{gdb/mi} |
922fbb7b | 20117 | |
a2c02241 NR |
20118 | For the implementation of a variable debugger window (locals, watched |
20119 | expressions, etc.), we are proposing the adaptation of the existing code | |
20120 | used by @code{Insight}. | |
922fbb7b | 20121 | |
a2c02241 | 20122 | The two main reasons for that are: |
922fbb7b | 20123 | |
a2c02241 NR |
20124 | @enumerate 1 |
20125 | @item | |
20126 | It has been proven in practice (it is already on its second generation). | |
922fbb7b | 20127 | |
a2c02241 NR |
20128 | @item |
20129 | It will shorten development time (needless to say how important it is | |
20130 | now). | |
20131 | @end enumerate | |
922fbb7b | 20132 | |
a2c02241 NR |
20133 | The original interface was designed to be used by Tcl code, so it was |
20134 | slightly changed so it could be used through @sc{gdb/mi}. This section | |
20135 | describes the @sc{gdb/mi} operations that will be available and gives some | |
20136 | hints about their use. | |
922fbb7b | 20137 | |
a2c02241 NR |
20138 | @emph{Note}: In addition to the set of operations described here, we |
20139 | expect the @sc{gui} implementation of a variable window to require, at | |
20140 | least, the following operations: | |
922fbb7b | 20141 | |
a2c02241 NR |
20142 | @itemize @bullet |
20143 | @item @code{-gdb-show} @code{output-radix} | |
20144 | @item @code{-stack-list-arguments} | |
20145 | @item @code{-stack-list-locals} | |
20146 | @item @code{-stack-select-frame} | |
20147 | @end itemize | |
922fbb7b | 20148 | |
a1b5960f VP |
20149 | @end ignore |
20150 | ||
c8b2f53c | 20151 | @subheading Introduction to Variable Objects |
922fbb7b | 20152 | |
a2c02241 | 20153 | @cindex variable objects in @sc{gdb/mi} |
c8b2f53c VP |
20154 | |
20155 | Variable objects are "object-oriented" MI interface for examining and | |
20156 | changing values of expressions. Unlike some other MI interfaces that | |
20157 | work with expressions, variable objects are specifically designed for | |
20158 | simple and efficient presentation in the frontend. A variable object | |
20159 | is identified by string name. When a variable object is created, the | |
20160 | frontend specifies the expression for that variable object. The | |
20161 | expression can be a simple variable, or it can be an arbitrary complex | |
20162 | expression, and can even involve CPU registers. After creating a | |
20163 | variable object, the frontend can invoke other variable object | |
20164 | operations---for example to obtain or change the value of a variable | |
20165 | object, or to change display format. | |
20166 | ||
20167 | Variable objects have hierarchical tree structure. Any variable object | |
20168 | that corresponds to a composite type, such as structure in C, has | |
20169 | a number of child variable objects, for example corresponding to each | |
20170 | element of a structure. A child variable object can itself have | |
20171 | children, recursively. Recursion ends when we reach | |
25d5ea92 VP |
20172 | leaf variable objects, which always have built-in types. Child variable |
20173 | objects are created only by explicit request, so if a frontend | |
20174 | is not interested in the children of a particular variable object, no | |
20175 | child will be created. | |
c8b2f53c VP |
20176 | |
20177 | For a leaf variable object it is possible to obtain its value as a | |
20178 | string, or set the value from a string. String value can be also | |
20179 | obtained for a non-leaf variable object, but it's generally a string | |
20180 | that only indicates the type of the object, and does not list its | |
20181 | contents. Assignment to a non-leaf variable object is not allowed. | |
20182 | ||
20183 | A frontend does not need to read the values of all variable objects each time | |
20184 | the program stops. Instead, MI provides an update command that lists all | |
20185 | variable objects whose values has changed since the last update | |
20186 | operation. This considerably reduces the amount of data that must | |
25d5ea92 VP |
20187 | be transferred to the frontend. As noted above, children variable |
20188 | objects are created on demand, and only leaf variable objects have a | |
20189 | real value. As result, gdb will read target memory only for leaf | |
20190 | variables that frontend has created. | |
20191 | ||
20192 | The automatic update is not always desirable. For example, a frontend | |
20193 | might want to keep a value of some expression for future reference, | |
20194 | and never update it. For another example, fetching memory is | |
20195 | relatively slow for embedded targets, so a frontend might want | |
20196 | to disable automatic update for the variables that are either not | |
20197 | visible on the screen, or ``closed''. This is possible using so | |
20198 | called ``frozen variable objects''. Such variable objects are never | |
20199 | implicitly updated. | |
922fbb7b | 20200 | |
a2c02241 NR |
20201 | The following is the complete set of @sc{gdb/mi} operations defined to |
20202 | access this functionality: | |
922fbb7b | 20203 | |
a2c02241 NR |
20204 | @multitable @columnfractions .4 .6 |
20205 | @item @strong{Operation} | |
20206 | @tab @strong{Description} | |
922fbb7b | 20207 | |
a2c02241 NR |
20208 | @item @code{-var-create} |
20209 | @tab create a variable object | |
20210 | @item @code{-var-delete} | |
22d8a470 | 20211 | @tab delete the variable object and/or its children |
a2c02241 NR |
20212 | @item @code{-var-set-format} |
20213 | @tab set the display format of this variable | |
20214 | @item @code{-var-show-format} | |
20215 | @tab show the display format of this variable | |
20216 | @item @code{-var-info-num-children} | |
20217 | @tab tells how many children this object has | |
20218 | @item @code{-var-list-children} | |
20219 | @tab return a list of the object's children | |
20220 | @item @code{-var-info-type} | |
20221 | @tab show the type of this variable object | |
20222 | @item @code{-var-info-expression} | |
02142340 VP |
20223 | @tab print parent-relative expression that this variable object represents |
20224 | @item @code{-var-info-path-expression} | |
20225 | @tab print full expression that this variable object represents | |
a2c02241 NR |
20226 | @item @code{-var-show-attributes} |
20227 | @tab is this variable editable? does it exist here? | |
20228 | @item @code{-var-evaluate-expression} | |
20229 | @tab get the value of this variable | |
20230 | @item @code{-var-assign} | |
20231 | @tab set the value of this variable | |
20232 | @item @code{-var-update} | |
20233 | @tab update the variable and its children | |
25d5ea92 VP |
20234 | @item @code{-var-set-frozen} |
20235 | @tab set frozeness attribute | |
a2c02241 | 20236 | @end multitable |
922fbb7b | 20237 | |
a2c02241 NR |
20238 | In the next subsection we describe each operation in detail and suggest |
20239 | how it can be used. | |
922fbb7b | 20240 | |
a2c02241 | 20241 | @subheading Description And Use of Operations on Variable Objects |
922fbb7b | 20242 | |
a2c02241 NR |
20243 | @subheading The @code{-var-create} Command |
20244 | @findex -var-create | |
ef21caaf | 20245 | |
a2c02241 | 20246 | @subsubheading Synopsis |
ef21caaf | 20247 | |
a2c02241 NR |
20248 | @smallexample |
20249 | -var-create @{@var{name} | "-"@} | |
20250 | @{@var{frame-addr} | "*"@} @var{expression} | |
20251 | @end smallexample | |
20252 | ||
20253 | This operation creates a variable object, which allows the monitoring of | |
20254 | a variable, the result of an expression, a memory cell or a CPU | |
20255 | register. | |
ef21caaf | 20256 | |
a2c02241 NR |
20257 | The @var{name} parameter is the string by which the object can be |
20258 | referenced. It must be unique. If @samp{-} is specified, the varobj | |
20259 | system will generate a string ``varNNNNNN'' automatically. It will be | |
20260 | unique provided that one does not specify @var{name} on that format. | |
20261 | The command fails if a duplicate name is found. | |
ef21caaf | 20262 | |
a2c02241 NR |
20263 | The frame under which the expression should be evaluated can be |
20264 | specified by @var{frame-addr}. A @samp{*} indicates that the current | |
20265 | frame should be used. | |
922fbb7b | 20266 | |
a2c02241 NR |
20267 | @var{expression} is any expression valid on the current language set (must not |
20268 | begin with a @samp{*}), or one of the following: | |
922fbb7b | 20269 | |
a2c02241 NR |
20270 | @itemize @bullet |
20271 | @item | |
20272 | @samp{*@var{addr}}, where @var{addr} is the address of a memory cell | |
922fbb7b | 20273 | |
a2c02241 NR |
20274 | @item |
20275 | @samp{*@var{addr}-@var{addr}} --- a memory address range (TBD) | |
922fbb7b | 20276 | |
a2c02241 NR |
20277 | @item |
20278 | @samp{$@var{regname}} --- a CPU register name | |
20279 | @end itemize | |
922fbb7b | 20280 | |
a2c02241 | 20281 | @subsubheading Result |
922fbb7b | 20282 | |
a2c02241 NR |
20283 | This operation returns the name, number of children and the type of the |
20284 | object created. Type is returned as a string as the ones generated by | |
20285 | the @value{GDBN} CLI: | |
922fbb7b AC |
20286 | |
20287 | @smallexample | |
a2c02241 | 20288 | name="@var{name}",numchild="N",type="@var{type}" |
dcaaae04 NR |
20289 | @end smallexample |
20290 | ||
a2c02241 NR |
20291 | |
20292 | @subheading The @code{-var-delete} Command | |
20293 | @findex -var-delete | |
922fbb7b AC |
20294 | |
20295 | @subsubheading Synopsis | |
20296 | ||
20297 | @smallexample | |
22d8a470 | 20298 | -var-delete [ -c ] @var{name} |
922fbb7b AC |
20299 | @end smallexample |
20300 | ||
a2c02241 | 20301 | Deletes a previously created variable object and all of its children. |
22d8a470 | 20302 | With the @samp{-c} option, just deletes the children. |
922fbb7b | 20303 | |
a2c02241 | 20304 | Returns an error if the object @var{name} is not found. |
922fbb7b | 20305 | |
922fbb7b | 20306 | |
a2c02241 NR |
20307 | @subheading The @code{-var-set-format} Command |
20308 | @findex -var-set-format | |
922fbb7b | 20309 | |
a2c02241 | 20310 | @subsubheading Synopsis |
922fbb7b AC |
20311 | |
20312 | @smallexample | |
a2c02241 | 20313 | -var-set-format @var{name} @var{format-spec} |
922fbb7b AC |
20314 | @end smallexample |
20315 | ||
a2c02241 NR |
20316 | Sets the output format for the value of the object @var{name} to be |
20317 | @var{format-spec}. | |
20318 | ||
de051565 | 20319 | @anchor{-var-set-format} |
a2c02241 NR |
20320 | The syntax for the @var{format-spec} is as follows: |
20321 | ||
20322 | @smallexample | |
20323 | @var{format-spec} @expansion{} | |
20324 | @{binary | decimal | hexadecimal | octal | natural@} | |
20325 | @end smallexample | |
20326 | ||
c8b2f53c VP |
20327 | The natural format is the default format choosen automatically |
20328 | based on the variable type (like decimal for an @code{int}, hex | |
20329 | for pointers, etc.). | |
20330 | ||
20331 | For a variable with children, the format is set only on the | |
20332 | variable itself, and the children are not affected. | |
a2c02241 NR |
20333 | |
20334 | @subheading The @code{-var-show-format} Command | |
20335 | @findex -var-show-format | |
922fbb7b AC |
20336 | |
20337 | @subsubheading Synopsis | |
20338 | ||
20339 | @smallexample | |
a2c02241 | 20340 | -var-show-format @var{name} |
922fbb7b AC |
20341 | @end smallexample |
20342 | ||
a2c02241 | 20343 | Returns the format used to display the value of the object @var{name}. |
922fbb7b | 20344 | |
a2c02241 NR |
20345 | @smallexample |
20346 | @var{format} @expansion{} | |
20347 | @var{format-spec} | |
20348 | @end smallexample | |
922fbb7b | 20349 | |
922fbb7b | 20350 | |
a2c02241 NR |
20351 | @subheading The @code{-var-info-num-children} Command |
20352 | @findex -var-info-num-children | |
20353 | ||
20354 | @subsubheading Synopsis | |
20355 | ||
20356 | @smallexample | |
20357 | -var-info-num-children @var{name} | |
20358 | @end smallexample | |
20359 | ||
20360 | Returns the number of children of a variable object @var{name}: | |
20361 | ||
20362 | @smallexample | |
20363 | numchild=@var{n} | |
20364 | @end smallexample | |
20365 | ||
20366 | ||
20367 | @subheading The @code{-var-list-children} Command | |
20368 | @findex -var-list-children | |
20369 | ||
20370 | @subsubheading Synopsis | |
20371 | ||
20372 | @smallexample | |
20373 | -var-list-children [@var{print-values}] @var{name} | |
20374 | @end smallexample | |
20375 | @anchor{-var-list-children} | |
20376 | ||
20377 | Return a list of the children of the specified variable object and | |
20378 | create variable objects for them, if they do not already exist. With | |
20379 | a single argument or if @var{print-values} has a value for of 0 or | |
20380 | @code{--no-values}, print only the names of the variables; if | |
20381 | @var{print-values} is 1 or @code{--all-values}, also print their | |
20382 | values; and if it is 2 or @code{--simple-values} print the name and | |
20383 | value for simple data types and just the name for arrays, structures | |
20384 | and unions. | |
922fbb7b AC |
20385 | |
20386 | @subsubheading Example | |
20387 | ||
20388 | @smallexample | |
594fe323 | 20389 | (gdb) |
a2c02241 NR |
20390 | -var-list-children n |
20391 | ^done,numchild=@var{n},children=[@{name=@var{name}, | |
20392 | numchild=@var{n},type=@var{type}@},@r{(repeats N times)}] | |
594fe323 | 20393 | (gdb) |
a2c02241 NR |
20394 | -var-list-children --all-values n |
20395 | ^done,numchild=@var{n},children=[@{name=@var{name}, | |
20396 | numchild=@var{n},value=@var{value},type=@var{type}@},@r{(repeats N times)}] | |
922fbb7b AC |
20397 | @end smallexample |
20398 | ||
922fbb7b | 20399 | |
a2c02241 NR |
20400 | @subheading The @code{-var-info-type} Command |
20401 | @findex -var-info-type | |
922fbb7b | 20402 | |
a2c02241 NR |
20403 | @subsubheading Synopsis |
20404 | ||
20405 | @smallexample | |
20406 | -var-info-type @var{name} | |
20407 | @end smallexample | |
20408 | ||
20409 | Returns the type of the specified variable @var{name}. The type is | |
20410 | returned as a string in the same format as it is output by the | |
20411 | @value{GDBN} CLI: | |
20412 | ||
20413 | @smallexample | |
20414 | type=@var{typename} | |
20415 | @end smallexample | |
20416 | ||
20417 | ||
20418 | @subheading The @code{-var-info-expression} Command | |
20419 | @findex -var-info-expression | |
922fbb7b AC |
20420 | |
20421 | @subsubheading Synopsis | |
20422 | ||
20423 | @smallexample | |
a2c02241 | 20424 | -var-info-expression @var{name} |
922fbb7b AC |
20425 | @end smallexample |
20426 | ||
02142340 VP |
20427 | Returns a string that is suitable for presenting this |
20428 | variable object in user interface. The string is generally | |
20429 | not valid expression in the current language, and cannot be evaluated. | |
20430 | ||
20431 | For example, if @code{a} is an array, and variable object | |
20432 | @code{A} was created for @code{a}, then we'll get this output: | |
922fbb7b | 20433 | |
a2c02241 | 20434 | @smallexample |
02142340 VP |
20435 | (gdb) -var-info-expression A.1 |
20436 | ^done,lang="C",exp="1" | |
a2c02241 | 20437 | @end smallexample |
922fbb7b | 20438 | |
a2c02241 | 20439 | @noindent |
02142340 VP |
20440 | Here, the values of @code{lang} can be @code{@{"C" | "C++" | "Java"@}}. |
20441 | ||
20442 | Note that the output of the @code{-var-list-children} command also | |
20443 | includes those expressions, so the @code{-var-info-expression} command | |
20444 | is of limited use. | |
20445 | ||
20446 | @subheading The @code{-var-info-path-expression} Command | |
20447 | @findex -var-info-path-expression | |
20448 | ||
20449 | @subsubheading Synopsis | |
20450 | ||
20451 | @smallexample | |
20452 | -var-info-path-expression @var{name} | |
20453 | @end smallexample | |
20454 | ||
20455 | Returns an expression that can be evaluated in the current | |
20456 | context and will yield the same value that a variable object has. | |
20457 | Compare this with the @code{-var-info-expression} command, which | |
20458 | result can be used only for UI presentation. Typical use of | |
20459 | the @code{-var-info-path-expression} command is creating a | |
20460 | watchpoint from a variable object. | |
20461 | ||
20462 | For example, suppose @code{C} is a C@t{++} class, derived from class | |
20463 | @code{Base}, and that the @code{Base} class has a member called | |
20464 | @code{m_size}. Assume a variable @code{c} is has the type of | |
20465 | @code{C} and a variable object @code{C} was created for variable | |
20466 | @code{c}. Then, we'll get this output: | |
20467 | @smallexample | |
20468 | (gdb) -var-info-path-expression C.Base.public.m_size | |
20469 | ^done,path_expr=((Base)c).m_size) | |
20470 | @end smallexample | |
922fbb7b | 20471 | |
a2c02241 NR |
20472 | @subheading The @code{-var-show-attributes} Command |
20473 | @findex -var-show-attributes | |
922fbb7b | 20474 | |
a2c02241 | 20475 | @subsubheading Synopsis |
922fbb7b | 20476 | |
a2c02241 NR |
20477 | @smallexample |
20478 | -var-show-attributes @var{name} | |
20479 | @end smallexample | |
922fbb7b | 20480 | |
a2c02241 | 20481 | List attributes of the specified variable object @var{name}: |
922fbb7b AC |
20482 | |
20483 | @smallexample | |
a2c02241 | 20484 | status=@var{attr} [ ( ,@var{attr} )* ] |
922fbb7b AC |
20485 | @end smallexample |
20486 | ||
a2c02241 NR |
20487 | @noindent |
20488 | where @var{attr} is @code{@{ @{ editable | noneditable @} | TBD @}}. | |
20489 | ||
20490 | @subheading The @code{-var-evaluate-expression} Command | |
20491 | @findex -var-evaluate-expression | |
20492 | ||
20493 | @subsubheading Synopsis | |
20494 | ||
20495 | @smallexample | |
de051565 | 20496 | -var-evaluate-expression [-f @var{format-spec}] @var{name} |
a2c02241 NR |
20497 | @end smallexample |
20498 | ||
20499 | Evaluates the expression that is represented by the specified variable | |
de051565 MK |
20500 | object and returns its value as a string. The format of the string |
20501 | can be specified with the @samp{-f} option. The possible values of | |
20502 | this option are the same as for @code{-var-set-format} | |
20503 | (@pxref{-var-set-format}). If the @samp{-f} option is not specified, | |
20504 | the current display format will be used. The current display format | |
20505 | can be changed using the @code{-var-set-format} command. | |
a2c02241 NR |
20506 | |
20507 | @smallexample | |
20508 | value=@var{value} | |
20509 | @end smallexample | |
20510 | ||
20511 | Note that one must invoke @code{-var-list-children} for a variable | |
20512 | before the value of a child variable can be evaluated. | |
20513 | ||
20514 | @subheading The @code{-var-assign} Command | |
20515 | @findex -var-assign | |
20516 | ||
20517 | @subsubheading Synopsis | |
20518 | ||
20519 | @smallexample | |
20520 | -var-assign @var{name} @var{expression} | |
20521 | @end smallexample | |
20522 | ||
20523 | Assigns the value of @var{expression} to the variable object specified | |
20524 | by @var{name}. The object must be @samp{editable}. If the variable's | |
20525 | value is altered by the assign, the variable will show up in any | |
20526 | subsequent @code{-var-update} list. | |
20527 | ||
20528 | @subsubheading Example | |
922fbb7b AC |
20529 | |
20530 | @smallexample | |
594fe323 | 20531 | (gdb) |
a2c02241 NR |
20532 | -var-assign var1 3 |
20533 | ^done,value="3" | |
594fe323 | 20534 | (gdb) |
a2c02241 NR |
20535 | -var-update * |
20536 | ^done,changelist=[@{name="var1",in_scope="true",type_changed="false"@}] | |
594fe323 | 20537 | (gdb) |
922fbb7b AC |
20538 | @end smallexample |
20539 | ||
a2c02241 NR |
20540 | @subheading The @code{-var-update} Command |
20541 | @findex -var-update | |
20542 | ||
20543 | @subsubheading Synopsis | |
20544 | ||
20545 | @smallexample | |
20546 | -var-update [@var{print-values}] @{@var{name} | "*"@} | |
20547 | @end smallexample | |
20548 | ||
c8b2f53c VP |
20549 | Reevaluate the expressions corresponding to the variable object |
20550 | @var{name} and all its direct and indirect children, and return the | |
36ece8b3 NR |
20551 | list of variable objects whose values have changed; @var{name} must |
20552 | be a root variable object. Here, ``changed'' means that the result of | |
20553 | @code{-var-evaluate-expression} before and after the | |
20554 | @code{-var-update} is different. If @samp{*} is used as the variable | |
9f708cb2 VP |
20555 | object names, all existing variable objects are updated, except |
20556 | for frozen ones (@pxref{-var-set-frozen}). The option | |
36ece8b3 | 20557 | @var{print-values} determines whether both names and values, or just |
de051565 | 20558 | names are printed. The possible values of this option are the same |
36ece8b3 NR |
20559 | as for @code{-var-list-children} (@pxref{-var-list-children}). It is |
20560 | recommended to use the @samp{--all-values} option, to reduce the | |
20561 | number of MI commands needed on each program stop. | |
c8b2f53c | 20562 | |
a2c02241 NR |
20563 | |
20564 | @subsubheading Example | |
922fbb7b AC |
20565 | |
20566 | @smallexample | |
594fe323 | 20567 | (gdb) |
a2c02241 NR |
20568 | -var-assign var1 3 |
20569 | ^done,value="3" | |
594fe323 | 20570 | (gdb) |
a2c02241 NR |
20571 | -var-update --all-values var1 |
20572 | ^done,changelist=[@{name="var1",value="3",in_scope="true", | |
20573 | type_changed="false"@}] | |
594fe323 | 20574 | (gdb) |
922fbb7b AC |
20575 | @end smallexample |
20576 | ||
9f708cb2 | 20577 | @anchor{-var-update} |
36ece8b3 NR |
20578 | The field in_scope may take three values: |
20579 | ||
20580 | @table @code | |
20581 | @item "true" | |
20582 | The variable object's current value is valid. | |
20583 | ||
20584 | @item "false" | |
20585 | The variable object does not currently hold a valid value but it may | |
20586 | hold one in the future if its associated expression comes back into | |
20587 | scope. | |
20588 | ||
20589 | @item "invalid" | |
20590 | The variable object no longer holds a valid value. | |
20591 | This can occur when the executable file being debugged has changed, | |
20592 | either through recompilation or by using the @value{GDBN} @code{file} | |
20593 | command. The front end should normally choose to delete these variable | |
20594 | objects. | |
20595 | @end table | |
20596 | ||
20597 | In the future new values may be added to this list so the front should | |
20598 | be prepared for this possibility. @xref{GDB/MI Development and Front Ends, ,@sc{GDB/MI} Development and Front Ends}. | |
20599 | ||
25d5ea92 VP |
20600 | @subheading The @code{-var-set-frozen} Command |
20601 | @findex -var-set-frozen | |
9f708cb2 | 20602 | @anchor{-var-set-frozen} |
25d5ea92 VP |
20603 | |
20604 | @subsubheading Synopsis | |
20605 | ||
20606 | @smallexample | |
9f708cb2 | 20607 | -var-set-frozen @var{name} @var{flag} |
25d5ea92 VP |
20608 | @end smallexample |
20609 | ||
9f708cb2 | 20610 | Set the frozenness flag on the variable object @var{name}. The |
25d5ea92 | 20611 | @var{flag} parameter should be either @samp{1} to make the variable |
9f708cb2 | 20612 | frozen or @samp{0} to make it unfrozen. If a variable object is |
25d5ea92 | 20613 | frozen, then neither itself, nor any of its children, are |
9f708cb2 | 20614 | implicitly updated by @code{-var-update} of |
25d5ea92 VP |
20615 | a parent variable or by @code{-var-update *}. Only |
20616 | @code{-var-update} of the variable itself will update its value and | |
20617 | values of its children. After a variable object is unfrozen, it is | |
20618 | implicitly updated by all subsequent @code{-var-update} operations. | |
20619 | Unfreezing a variable does not update it, only subsequent | |
20620 | @code{-var-update} does. | |
20621 | ||
20622 | @subsubheading Example | |
20623 | ||
20624 | @smallexample | |
20625 | (gdb) | |
20626 | -var-set-frozen V 1 | |
20627 | ^done | |
20628 | (gdb) | |
20629 | @end smallexample | |
20630 | ||
20631 | ||
a2c02241 NR |
20632 | @c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% |
20633 | @node GDB/MI Data Manipulation | |
20634 | @section @sc{gdb/mi} Data Manipulation | |
922fbb7b | 20635 | |
a2c02241 NR |
20636 | @cindex data manipulation, in @sc{gdb/mi} |
20637 | @cindex @sc{gdb/mi}, data manipulation | |
20638 | This section describes the @sc{gdb/mi} commands that manipulate data: | |
20639 | examine memory and registers, evaluate expressions, etc. | |
20640 | ||
20641 | @c REMOVED FROM THE INTERFACE. | |
20642 | @c @subheading -data-assign | |
20643 | @c Change the value of a program variable. Plenty of side effects. | |
79a6e687 | 20644 | @c @subsubheading GDB Command |
a2c02241 NR |
20645 | @c set variable |
20646 | @c @subsubheading Example | |
20647 | @c N.A. | |
20648 | ||
20649 | @subheading The @code{-data-disassemble} Command | |
20650 | @findex -data-disassemble | |
922fbb7b AC |
20651 | |
20652 | @subsubheading Synopsis | |
20653 | ||
20654 | @smallexample | |
a2c02241 NR |
20655 | -data-disassemble |
20656 | [ -s @var{start-addr} -e @var{end-addr} ] | |
20657 | | [ -f @var{filename} -l @var{linenum} [ -n @var{lines} ] ] | |
20658 | -- @var{mode} | |
922fbb7b AC |
20659 | @end smallexample |
20660 | ||
a2c02241 NR |
20661 | @noindent |
20662 | Where: | |
20663 | ||
20664 | @table @samp | |
20665 | @item @var{start-addr} | |
20666 | is the beginning address (or @code{$pc}) | |
20667 | @item @var{end-addr} | |
20668 | is the end address | |
20669 | @item @var{filename} | |
20670 | is the name of the file to disassemble | |
20671 | @item @var{linenum} | |
20672 | is the line number to disassemble around | |
20673 | @item @var{lines} | |
d3e8051b | 20674 | is the number of disassembly lines to be produced. If it is -1, |
a2c02241 NR |
20675 | the whole function will be disassembled, in case no @var{end-addr} is |
20676 | specified. If @var{end-addr} is specified as a non-zero value, and | |
20677 | @var{lines} is lower than the number of disassembly lines between | |
20678 | @var{start-addr} and @var{end-addr}, only @var{lines} lines are | |
20679 | displayed; if @var{lines} is higher than the number of lines between | |
20680 | @var{start-addr} and @var{end-addr}, only the lines up to @var{end-addr} | |
20681 | are displayed. | |
20682 | @item @var{mode} | |
20683 | is either 0 (meaning only disassembly) or 1 (meaning mixed source and | |
20684 | disassembly). | |
20685 | @end table | |
20686 | ||
20687 | @subsubheading Result | |
20688 | ||
20689 | The output for each instruction is composed of four fields: | |
20690 | ||
20691 | @itemize @bullet | |
20692 | @item Address | |
20693 | @item Func-name | |
20694 | @item Offset | |
20695 | @item Instruction | |
20696 | @end itemize | |
20697 | ||
20698 | Note that whatever included in the instruction field, is not manipulated | |
d3e8051b | 20699 | directly by @sc{gdb/mi}, i.e., it is not possible to adjust its format. |
922fbb7b AC |
20700 | |
20701 | @subsubheading @value{GDBN} Command | |
20702 | ||
a2c02241 | 20703 | There's no direct mapping from this command to the CLI. |
922fbb7b AC |
20704 | |
20705 | @subsubheading Example | |
20706 | ||
a2c02241 NR |
20707 | Disassemble from the current value of @code{$pc} to @code{$pc + 20}: |
20708 | ||
922fbb7b | 20709 | @smallexample |
594fe323 | 20710 | (gdb) |
a2c02241 NR |
20711 | -data-disassemble -s $pc -e "$pc + 20" -- 0 |
20712 | ^done, | |
20713 | asm_insns=[ | |
20714 | @{address="0x000107c0",func-name="main",offset="4", | |
20715 | inst="mov 2, %o0"@}, | |
20716 | @{address="0x000107c4",func-name="main",offset="8", | |
20717 | inst="sethi %hi(0x11800), %o2"@}, | |
20718 | @{address="0x000107c8",func-name="main",offset="12", | |
20719 | inst="or %o2, 0x140, %o1\t! 0x11940 <_lib_version+8>"@}, | |
20720 | @{address="0x000107cc",func-name="main",offset="16", | |
20721 | inst="sethi %hi(0x11800), %o2"@}, | |
20722 | @{address="0x000107d0",func-name="main",offset="20", | |
20723 | inst="or %o2, 0x168, %o4\t! 0x11968 <_lib_version+48>"@}] | |
594fe323 | 20724 | (gdb) |
a2c02241 NR |
20725 | @end smallexample |
20726 | ||
20727 | Disassemble the whole @code{main} function. Line 32 is part of | |
20728 | @code{main}. | |
20729 | ||
20730 | @smallexample | |
20731 | -data-disassemble -f basics.c -l 32 -- 0 | |
20732 | ^done,asm_insns=[ | |
20733 | @{address="0x000107bc",func-name="main",offset="0", | |
20734 | inst="save %sp, -112, %sp"@}, | |
20735 | @{address="0x000107c0",func-name="main",offset="4", | |
20736 | inst="mov 2, %o0"@}, | |
20737 | @{address="0x000107c4",func-name="main",offset="8", | |
20738 | inst="sethi %hi(0x11800), %o2"@}, | |
20739 | [@dots{}] | |
20740 | @{address="0x0001081c",func-name="main",offset="96",inst="ret "@}, | |
20741 | @{address="0x00010820",func-name="main",offset="100",inst="restore "@}] | |
594fe323 | 20742 | (gdb) |
922fbb7b AC |
20743 | @end smallexample |
20744 | ||
a2c02241 | 20745 | Disassemble 3 instructions from the start of @code{main}: |
922fbb7b | 20746 | |
a2c02241 | 20747 | @smallexample |
594fe323 | 20748 | (gdb) |
a2c02241 NR |
20749 | -data-disassemble -f basics.c -l 32 -n 3 -- 0 |
20750 | ^done,asm_insns=[ | |
20751 | @{address="0x000107bc",func-name="main",offset="0", | |
20752 | inst="save %sp, -112, %sp"@}, | |
20753 | @{address="0x000107c0",func-name="main",offset="4", | |
20754 | inst="mov 2, %o0"@}, | |
20755 | @{address="0x000107c4",func-name="main",offset="8", | |
20756 | inst="sethi %hi(0x11800), %o2"@}] | |
594fe323 | 20757 | (gdb) |
a2c02241 NR |
20758 | @end smallexample |
20759 | ||
20760 | Disassemble 3 instructions from the start of @code{main} in mixed mode: | |
20761 | ||
20762 | @smallexample | |
594fe323 | 20763 | (gdb) |
a2c02241 NR |
20764 | -data-disassemble -f basics.c -l 32 -n 3 -- 1 |
20765 | ^done,asm_insns=[ | |
20766 | src_and_asm_line=@{line="31", | |
20767 | file="/kwikemart/marge/ezannoni/flathead-dev/devo/gdb/ \ | |
20768 | testsuite/gdb.mi/basics.c",line_asm_insn=[ | |
20769 | @{address="0x000107bc",func-name="main",offset="0", | |
20770 | inst="save %sp, -112, %sp"@}]@}, | |
20771 | src_and_asm_line=@{line="32", | |
20772 | file="/kwikemart/marge/ezannoni/flathead-dev/devo/gdb/ \ | |
20773 | testsuite/gdb.mi/basics.c",line_asm_insn=[ | |
20774 | @{address="0x000107c0",func-name="main",offset="4", | |
20775 | inst="mov 2, %o0"@}, | |
20776 | @{address="0x000107c4",func-name="main",offset="8", | |
20777 | inst="sethi %hi(0x11800), %o2"@}]@}] | |
594fe323 | 20778 | (gdb) |
a2c02241 NR |
20779 | @end smallexample |
20780 | ||
20781 | ||
20782 | @subheading The @code{-data-evaluate-expression} Command | |
20783 | @findex -data-evaluate-expression | |
922fbb7b AC |
20784 | |
20785 | @subsubheading Synopsis | |
20786 | ||
20787 | @smallexample | |
a2c02241 | 20788 | -data-evaluate-expression @var{expr} |
922fbb7b AC |
20789 | @end smallexample |
20790 | ||
a2c02241 NR |
20791 | Evaluate @var{expr} as an expression. The expression could contain an |
20792 | inferior function call. The function call will execute synchronously. | |
20793 | If the expression contains spaces, it must be enclosed in double quotes. | |
922fbb7b AC |
20794 | |
20795 | @subsubheading @value{GDBN} Command | |
20796 | ||
a2c02241 NR |
20797 | The corresponding @value{GDBN} commands are @samp{print}, @samp{output}, and |
20798 | @samp{call}. In @code{gdbtk} only, there's a corresponding | |
20799 | @samp{gdb_eval} command. | |
922fbb7b AC |
20800 | |
20801 | @subsubheading Example | |
20802 | ||
a2c02241 NR |
20803 | In the following example, the numbers that precede the commands are the |
20804 | @dfn{tokens} described in @ref{GDB/MI Command Syntax, ,@sc{gdb/mi} | |
20805 | Command Syntax}. Notice how @sc{gdb/mi} returns the same tokens in its | |
20806 | output. | |
20807 | ||
922fbb7b | 20808 | @smallexample |
a2c02241 NR |
20809 | 211-data-evaluate-expression A |
20810 | 211^done,value="1" | |
594fe323 | 20811 | (gdb) |
a2c02241 NR |
20812 | 311-data-evaluate-expression &A |
20813 | 311^done,value="0xefffeb7c" | |
594fe323 | 20814 | (gdb) |
a2c02241 NR |
20815 | 411-data-evaluate-expression A+3 |
20816 | 411^done,value="4" | |
594fe323 | 20817 | (gdb) |
a2c02241 NR |
20818 | 511-data-evaluate-expression "A + 3" |
20819 | 511^done,value="4" | |
594fe323 | 20820 | (gdb) |
a2c02241 | 20821 | @end smallexample |
922fbb7b AC |
20822 | |
20823 | ||
a2c02241 NR |
20824 | @subheading The @code{-data-list-changed-registers} Command |
20825 | @findex -data-list-changed-registers | |
922fbb7b AC |
20826 | |
20827 | @subsubheading Synopsis | |
20828 | ||
20829 | @smallexample | |
a2c02241 | 20830 | -data-list-changed-registers |
922fbb7b AC |
20831 | @end smallexample |
20832 | ||
a2c02241 | 20833 | Display a list of the registers that have changed. |
922fbb7b AC |
20834 | |
20835 | @subsubheading @value{GDBN} Command | |
20836 | ||
a2c02241 NR |
20837 | @value{GDBN} doesn't have a direct analog for this command; @code{gdbtk} |
20838 | has the corresponding command @samp{gdb_changed_register_list}. | |
922fbb7b AC |
20839 | |
20840 | @subsubheading Example | |
922fbb7b | 20841 | |
a2c02241 | 20842 | On a PPC MBX board: |
922fbb7b AC |
20843 | |
20844 | @smallexample | |
594fe323 | 20845 | (gdb) |
a2c02241 NR |
20846 | -exec-continue |
20847 | ^running | |
922fbb7b | 20848 | |
594fe323 | 20849 | (gdb) |
a47ec5fe AR |
20850 | *stopped,reason="breakpoint-hit",disp="keep",bkptno="1",frame=@{ |
20851 | func="main",args=[],file="try.c",fullname="/home/foo/bar/try.c", | |
20852 | line="5"@} | |
594fe323 | 20853 | (gdb) |
a2c02241 NR |
20854 | -data-list-changed-registers |
20855 | ^done,changed-registers=["0","1","2","4","5","6","7","8","9", | |
20856 | "10","11","13","14","15","16","17","18","19","20","21","22","23", | |
20857 | "24","25","26","27","28","30","31","64","65","66","67","69"] | |
594fe323 | 20858 | (gdb) |
a2c02241 | 20859 | @end smallexample |
922fbb7b AC |
20860 | |
20861 | ||
a2c02241 NR |
20862 | @subheading The @code{-data-list-register-names} Command |
20863 | @findex -data-list-register-names | |
922fbb7b AC |
20864 | |
20865 | @subsubheading Synopsis | |
20866 | ||
20867 | @smallexample | |
a2c02241 | 20868 | -data-list-register-names [ ( @var{regno} )+ ] |
922fbb7b AC |
20869 | @end smallexample |
20870 | ||
a2c02241 NR |
20871 | Show a list of register names for the current target. If no arguments |
20872 | are given, it shows a list of the names of all the registers. If | |
20873 | integer numbers are given as arguments, it will print a list of the | |
20874 | names of the registers corresponding to the arguments. To ensure | |
20875 | consistency between a register name and its number, the output list may | |
20876 | include empty register names. | |
922fbb7b AC |
20877 | |
20878 | @subsubheading @value{GDBN} Command | |
20879 | ||
a2c02241 NR |
20880 | @value{GDBN} does not have a command which corresponds to |
20881 | @samp{-data-list-register-names}. In @code{gdbtk} there is a | |
20882 | corresponding command @samp{gdb_regnames}. | |
922fbb7b AC |
20883 | |
20884 | @subsubheading Example | |
922fbb7b | 20885 | |
a2c02241 NR |
20886 | For the PPC MBX board: |
20887 | @smallexample | |
594fe323 | 20888 | (gdb) |
a2c02241 NR |
20889 | -data-list-register-names |
20890 | ^done,register-names=["r0","r1","r2","r3","r4","r5","r6","r7", | |
20891 | "r8","r9","r10","r11","r12","r13","r14","r15","r16","r17","r18", | |
20892 | "r19","r20","r21","r22","r23","r24","r25","r26","r27","r28","r29", | |
20893 | "r30","r31","f0","f1","f2","f3","f4","f5","f6","f7","f8","f9", | |
20894 | "f10","f11","f12","f13","f14","f15","f16","f17","f18","f19","f20", | |
20895 | "f21","f22","f23","f24","f25","f26","f27","f28","f29","f30","f31", | |
20896 | "", "pc","ps","cr","lr","ctr","xer"] | |
594fe323 | 20897 | (gdb) |
a2c02241 NR |
20898 | -data-list-register-names 1 2 3 |
20899 | ^done,register-names=["r1","r2","r3"] | |
594fe323 | 20900 | (gdb) |
a2c02241 | 20901 | @end smallexample |
922fbb7b | 20902 | |
a2c02241 NR |
20903 | @subheading The @code{-data-list-register-values} Command |
20904 | @findex -data-list-register-values | |
922fbb7b AC |
20905 | |
20906 | @subsubheading Synopsis | |
20907 | ||
20908 | @smallexample | |
a2c02241 | 20909 | -data-list-register-values @var{fmt} [ ( @var{regno} )*] |
922fbb7b AC |
20910 | @end smallexample |
20911 | ||
a2c02241 NR |
20912 | Display the registers' contents. @var{fmt} is the format according to |
20913 | which the registers' contents are to be returned, followed by an optional | |
20914 | list of numbers specifying the registers to display. A missing list of | |
20915 | numbers indicates that the contents of all the registers must be returned. | |
20916 | ||
20917 | Allowed formats for @var{fmt} are: | |
20918 | ||
20919 | @table @code | |
20920 | @item x | |
20921 | Hexadecimal | |
20922 | @item o | |
20923 | Octal | |
20924 | @item t | |
20925 | Binary | |
20926 | @item d | |
20927 | Decimal | |
20928 | @item r | |
20929 | Raw | |
20930 | @item N | |
20931 | Natural | |
20932 | @end table | |
922fbb7b AC |
20933 | |
20934 | @subsubheading @value{GDBN} Command | |
20935 | ||
a2c02241 NR |
20936 | The corresponding @value{GDBN} commands are @samp{info reg}, @samp{info |
20937 | all-reg}, and (in @code{gdbtk}) @samp{gdb_fetch_registers}. | |
922fbb7b AC |
20938 | |
20939 | @subsubheading Example | |
922fbb7b | 20940 | |
a2c02241 NR |
20941 | For a PPC MBX board (note: line breaks are for readability only, they |
20942 | don't appear in the actual output): | |
20943 | ||
20944 | @smallexample | |
594fe323 | 20945 | (gdb) |
a2c02241 NR |
20946 | -data-list-register-values r 64 65 |
20947 | ^done,register-values=[@{number="64",value="0xfe00a300"@}, | |
20948 | @{number="65",value="0x00029002"@}] | |
594fe323 | 20949 | (gdb) |
a2c02241 NR |
20950 | -data-list-register-values x |
20951 | ^done,register-values=[@{number="0",value="0xfe0043c8"@}, | |
20952 | @{number="1",value="0x3fff88"@},@{number="2",value="0xfffffffe"@}, | |
20953 | @{number="3",value="0x0"@},@{number="4",value="0xa"@}, | |
20954 | @{number="5",value="0x3fff68"@},@{number="6",value="0x3fff58"@}, | |
20955 | @{number="7",value="0xfe011e98"@},@{number="8",value="0x2"@}, | |
20956 | @{number="9",value="0xfa202820"@},@{number="10",value="0xfa202808"@}, | |
20957 | @{number="11",value="0x1"@},@{number="12",value="0x0"@}, | |
20958 | @{number="13",value="0x4544"@},@{number="14",value="0xffdfffff"@}, | |
20959 | @{number="15",value="0xffffffff"@},@{number="16",value="0xfffffeff"@}, | |
20960 | @{number="17",value="0xefffffed"@},@{number="18",value="0xfffffffe"@}, | |
20961 | @{number="19",value="0xffffffff"@},@{number="20",value="0xffffffff"@}, | |
20962 | @{number="21",value="0xffffffff"@},@{number="22",value="0xfffffff7"@}, | |
20963 | @{number="23",value="0xffffffff"@},@{number="24",value="0xffffffff"@}, | |
20964 | @{number="25",value="0xffffffff"@},@{number="26",value="0xfffffffb"@}, | |
20965 | @{number="27",value="0xffffffff"@},@{number="28",value="0xf7bfffff"@}, | |
20966 | @{number="29",value="0x0"@},@{number="30",value="0xfe010000"@}, | |
20967 | @{number="31",value="0x0"@},@{number="32",value="0x0"@}, | |
20968 | @{number="33",value="0x0"@},@{number="34",value="0x0"@}, | |
20969 | @{number="35",value="0x0"@},@{number="36",value="0x0"@}, | |
20970 | @{number="37",value="0x0"@},@{number="38",value="0x0"@}, | |
20971 | @{number="39",value="0x0"@},@{number="40",value="0x0"@}, | |
20972 | @{number="41",value="0x0"@},@{number="42",value="0x0"@}, | |
20973 | @{number="43",value="0x0"@},@{number="44",value="0x0"@}, | |
20974 | @{number="45",value="0x0"@},@{number="46",value="0x0"@}, | |
20975 | @{number="47",value="0x0"@},@{number="48",value="0x0"@}, | |
20976 | @{number="49",value="0x0"@},@{number="50",value="0x0"@}, | |
20977 | @{number="51",value="0x0"@},@{number="52",value="0x0"@}, | |
20978 | @{number="53",value="0x0"@},@{number="54",value="0x0"@}, | |
20979 | @{number="55",value="0x0"@},@{number="56",value="0x0"@}, | |
20980 | @{number="57",value="0x0"@},@{number="58",value="0x0"@}, | |
20981 | @{number="59",value="0x0"@},@{number="60",value="0x0"@}, | |
20982 | @{number="61",value="0x0"@},@{number="62",value="0x0"@}, | |
20983 | @{number="63",value="0x0"@},@{number="64",value="0xfe00a300"@}, | |
20984 | @{number="65",value="0x29002"@},@{number="66",value="0x202f04b5"@}, | |
20985 | @{number="67",value="0xfe0043b0"@},@{number="68",value="0xfe00b3e4"@}, | |
20986 | @{number="69",value="0x20002b03"@}] | |
594fe323 | 20987 | (gdb) |
a2c02241 | 20988 | @end smallexample |
922fbb7b | 20989 | |
a2c02241 NR |
20990 | |
20991 | @subheading The @code{-data-read-memory} Command | |
20992 | @findex -data-read-memory | |
922fbb7b AC |
20993 | |
20994 | @subsubheading Synopsis | |
20995 | ||
20996 | @smallexample | |
a2c02241 NR |
20997 | -data-read-memory [ -o @var{byte-offset} ] |
20998 | @var{address} @var{word-format} @var{word-size} | |
20999 | @var{nr-rows} @var{nr-cols} [ @var{aschar} ] | |
922fbb7b AC |
21000 | @end smallexample |
21001 | ||
a2c02241 NR |
21002 | @noindent |
21003 | where: | |
922fbb7b | 21004 | |
a2c02241 NR |
21005 | @table @samp |
21006 | @item @var{address} | |
21007 | An expression specifying the address of the first memory word to be | |
21008 | read. Complex expressions containing embedded white space should be | |
21009 | quoted using the C convention. | |
922fbb7b | 21010 | |
a2c02241 NR |
21011 | @item @var{word-format} |
21012 | The format to be used to print the memory words. The notation is the | |
21013 | same as for @value{GDBN}'s @code{print} command (@pxref{Output Formats, | |
79a6e687 | 21014 | ,Output Formats}). |
922fbb7b | 21015 | |
a2c02241 NR |
21016 | @item @var{word-size} |
21017 | The size of each memory word in bytes. | |
922fbb7b | 21018 | |
a2c02241 NR |
21019 | @item @var{nr-rows} |
21020 | The number of rows in the output table. | |
922fbb7b | 21021 | |
a2c02241 NR |
21022 | @item @var{nr-cols} |
21023 | The number of columns in the output table. | |
922fbb7b | 21024 | |
a2c02241 NR |
21025 | @item @var{aschar} |
21026 | If present, indicates that each row should include an @sc{ascii} dump. The | |
21027 | value of @var{aschar} is used as a padding character when a byte is not a | |
21028 | member of the printable @sc{ascii} character set (printable @sc{ascii} | |
21029 | characters are those whose code is between 32 and 126, inclusively). | |
922fbb7b | 21030 | |
a2c02241 NR |
21031 | @item @var{byte-offset} |
21032 | An offset to add to the @var{address} before fetching memory. | |
21033 | @end table | |
922fbb7b | 21034 | |
a2c02241 NR |
21035 | This command displays memory contents as a table of @var{nr-rows} by |
21036 | @var{nr-cols} words, each word being @var{word-size} bytes. In total, | |
21037 | @code{@var{nr-rows} * @var{nr-cols} * @var{word-size}} bytes are read | |
21038 | (returned as @samp{total-bytes}). Should less than the requested number | |
21039 | of bytes be returned by the target, the missing words are identified | |
21040 | using @samp{N/A}. The number of bytes read from the target is returned | |
21041 | in @samp{nr-bytes} and the starting address used to read memory in | |
21042 | @samp{addr}. | |
21043 | ||
21044 | The address of the next/previous row or page is available in | |
21045 | @samp{next-row} and @samp{prev-row}, @samp{next-page} and | |
21046 | @samp{prev-page}. | |
922fbb7b AC |
21047 | |
21048 | @subsubheading @value{GDBN} Command | |
21049 | ||
a2c02241 NR |
21050 | The corresponding @value{GDBN} command is @samp{x}. @code{gdbtk} has |
21051 | @samp{gdb_get_mem} memory read command. | |
922fbb7b AC |
21052 | |
21053 | @subsubheading Example | |
32e7087d | 21054 | |
a2c02241 NR |
21055 | Read six bytes of memory starting at @code{bytes+6} but then offset by |
21056 | @code{-6} bytes. Format as three rows of two columns. One byte per | |
21057 | word. Display each word in hex. | |
32e7087d JB |
21058 | |
21059 | @smallexample | |
594fe323 | 21060 | (gdb) |
a2c02241 NR |
21061 | 9-data-read-memory -o -6 -- bytes+6 x 1 3 2 |
21062 | 9^done,addr="0x00001390",nr-bytes="6",total-bytes="6", | |
21063 | next-row="0x00001396",prev-row="0x0000138e",next-page="0x00001396", | |
21064 | prev-page="0x0000138a",memory=[ | |
21065 | @{addr="0x00001390",data=["0x00","0x01"]@}, | |
21066 | @{addr="0x00001392",data=["0x02","0x03"]@}, | |
21067 | @{addr="0x00001394",data=["0x04","0x05"]@}] | |
594fe323 | 21068 | (gdb) |
32e7087d JB |
21069 | @end smallexample |
21070 | ||
a2c02241 NR |
21071 | Read two bytes of memory starting at address @code{shorts + 64} and |
21072 | display as a single word formatted in decimal. | |
32e7087d | 21073 | |
32e7087d | 21074 | @smallexample |
594fe323 | 21075 | (gdb) |
a2c02241 NR |
21076 | 5-data-read-memory shorts+64 d 2 1 1 |
21077 | 5^done,addr="0x00001510",nr-bytes="2",total-bytes="2", | |
21078 | next-row="0x00001512",prev-row="0x0000150e", | |
21079 | next-page="0x00001512",prev-page="0x0000150e",memory=[ | |
21080 | @{addr="0x00001510",data=["128"]@}] | |
594fe323 | 21081 | (gdb) |
32e7087d JB |
21082 | @end smallexample |
21083 | ||
a2c02241 NR |
21084 | Read thirty two bytes of memory starting at @code{bytes+16} and format |
21085 | as eight rows of four columns. Include a string encoding with @samp{x} | |
21086 | used as the non-printable character. | |
922fbb7b AC |
21087 | |
21088 | @smallexample | |
594fe323 | 21089 | (gdb) |
a2c02241 NR |
21090 | 4-data-read-memory bytes+16 x 1 8 4 x |
21091 | 4^done,addr="0x000013a0",nr-bytes="32",total-bytes="32", | |
21092 | next-row="0x000013c0",prev-row="0x0000139c", | |
21093 | next-page="0x000013c0",prev-page="0x00001380",memory=[ | |
21094 | @{addr="0x000013a0",data=["0x10","0x11","0x12","0x13"],ascii="xxxx"@}, | |
21095 | @{addr="0x000013a4",data=["0x14","0x15","0x16","0x17"],ascii="xxxx"@}, | |
21096 | @{addr="0x000013a8",data=["0x18","0x19","0x1a","0x1b"],ascii="xxxx"@}, | |
21097 | @{addr="0x000013ac",data=["0x1c","0x1d","0x1e","0x1f"],ascii="xxxx"@}, | |
21098 | @{addr="0x000013b0",data=["0x20","0x21","0x22","0x23"],ascii=" !\"#"@}, | |
21099 | @{addr="0x000013b4",data=["0x24","0x25","0x26","0x27"],ascii="$%&'"@}, | |
21100 | @{addr="0x000013b8",data=["0x28","0x29","0x2a","0x2b"],ascii="()*+"@}, | |
21101 | @{addr="0x000013bc",data=["0x2c","0x2d","0x2e","0x2f"],ascii=",-./"@}] | |
594fe323 | 21102 | (gdb) |
922fbb7b AC |
21103 | @end smallexample |
21104 | ||
a2c02241 NR |
21105 | @c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% |
21106 | @node GDB/MI Tracepoint Commands | |
21107 | @section @sc{gdb/mi} Tracepoint Commands | |
922fbb7b | 21108 | |
a2c02241 | 21109 | The tracepoint commands are not yet implemented. |
922fbb7b | 21110 | |
a2c02241 | 21111 | @c @subheading -trace-actions |
922fbb7b | 21112 | |
a2c02241 | 21113 | @c @subheading -trace-delete |
922fbb7b | 21114 | |
a2c02241 | 21115 | @c @subheading -trace-disable |
922fbb7b | 21116 | |
a2c02241 | 21117 | @c @subheading -trace-dump |
922fbb7b | 21118 | |
a2c02241 | 21119 | @c @subheading -trace-enable |
922fbb7b | 21120 | |
a2c02241 | 21121 | @c @subheading -trace-exists |
922fbb7b | 21122 | |
a2c02241 | 21123 | @c @subheading -trace-find |
922fbb7b | 21124 | |
a2c02241 | 21125 | @c @subheading -trace-frame-number |
922fbb7b | 21126 | |
a2c02241 | 21127 | @c @subheading -trace-info |
922fbb7b | 21128 | |
a2c02241 | 21129 | @c @subheading -trace-insert |
922fbb7b | 21130 | |
a2c02241 | 21131 | @c @subheading -trace-list |
922fbb7b | 21132 | |
a2c02241 | 21133 | @c @subheading -trace-pass-count |
922fbb7b | 21134 | |
a2c02241 | 21135 | @c @subheading -trace-save |
922fbb7b | 21136 | |
a2c02241 | 21137 | @c @subheading -trace-start |
922fbb7b | 21138 | |
a2c02241 | 21139 | @c @subheading -trace-stop |
922fbb7b | 21140 | |
922fbb7b | 21141 | |
a2c02241 NR |
21142 | @c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% |
21143 | @node GDB/MI Symbol Query | |
21144 | @section @sc{gdb/mi} Symbol Query Commands | |
922fbb7b AC |
21145 | |
21146 | ||
a2c02241 NR |
21147 | @subheading The @code{-symbol-info-address} Command |
21148 | @findex -symbol-info-address | |
922fbb7b AC |
21149 | |
21150 | @subsubheading Synopsis | |
21151 | ||
21152 | @smallexample | |
a2c02241 | 21153 | -symbol-info-address @var{symbol} |
922fbb7b AC |
21154 | @end smallexample |
21155 | ||
a2c02241 | 21156 | Describe where @var{symbol} is stored. |
922fbb7b AC |
21157 | |
21158 | @subsubheading @value{GDBN} Command | |
21159 | ||
a2c02241 | 21160 | The corresponding @value{GDBN} command is @samp{info address}. |
922fbb7b AC |
21161 | |
21162 | @subsubheading Example | |
21163 | N.A. | |
21164 | ||
21165 | ||
a2c02241 NR |
21166 | @subheading The @code{-symbol-info-file} Command |
21167 | @findex -symbol-info-file | |
922fbb7b AC |
21168 | |
21169 | @subsubheading Synopsis | |
21170 | ||
21171 | @smallexample | |
a2c02241 | 21172 | -symbol-info-file |
922fbb7b AC |
21173 | @end smallexample |
21174 | ||
a2c02241 | 21175 | Show the file for the symbol. |
922fbb7b | 21176 | |
a2c02241 | 21177 | @subsubheading @value{GDBN} Command |
922fbb7b | 21178 | |
a2c02241 NR |
21179 | There's no equivalent @value{GDBN} command. @code{gdbtk} has |
21180 | @samp{gdb_find_file}. | |
922fbb7b AC |
21181 | |
21182 | @subsubheading Example | |
21183 | N.A. | |
21184 | ||
21185 | ||
a2c02241 NR |
21186 | @subheading The @code{-symbol-info-function} Command |
21187 | @findex -symbol-info-function | |
922fbb7b AC |
21188 | |
21189 | @subsubheading Synopsis | |
21190 | ||
21191 | @smallexample | |
a2c02241 | 21192 | -symbol-info-function |
922fbb7b AC |
21193 | @end smallexample |
21194 | ||
a2c02241 | 21195 | Show which function the symbol lives in. |
922fbb7b AC |
21196 | |
21197 | @subsubheading @value{GDBN} Command | |
21198 | ||
a2c02241 | 21199 | @samp{gdb_get_function} in @code{gdbtk}. |
922fbb7b AC |
21200 | |
21201 | @subsubheading Example | |
21202 | N.A. | |
21203 | ||
21204 | ||
a2c02241 NR |
21205 | @subheading The @code{-symbol-info-line} Command |
21206 | @findex -symbol-info-line | |
922fbb7b AC |
21207 | |
21208 | @subsubheading Synopsis | |
21209 | ||
21210 | @smallexample | |
a2c02241 | 21211 | -symbol-info-line |
922fbb7b AC |
21212 | @end smallexample |
21213 | ||
a2c02241 | 21214 | Show the core addresses of the code for a source line. |
922fbb7b | 21215 | |
a2c02241 | 21216 | @subsubheading @value{GDBN} Command |
922fbb7b | 21217 | |
a2c02241 NR |
21218 | The corresponding @value{GDBN} command is @samp{info line}. |
21219 | @code{gdbtk} has the @samp{gdb_get_line} and @samp{gdb_get_file} commands. | |
922fbb7b AC |
21220 | |
21221 | @subsubheading Example | |
a2c02241 | 21222 | N.A. |
922fbb7b AC |
21223 | |
21224 | ||
a2c02241 NR |
21225 | @subheading The @code{-symbol-info-symbol} Command |
21226 | @findex -symbol-info-symbol | |
07f31aa6 DJ |
21227 | |
21228 | @subsubheading Synopsis | |
21229 | ||
a2c02241 NR |
21230 | @smallexample |
21231 | -symbol-info-symbol @var{addr} | |
21232 | @end smallexample | |
07f31aa6 | 21233 | |
a2c02241 | 21234 | Describe what symbol is at location @var{addr}. |
07f31aa6 | 21235 | |
a2c02241 | 21236 | @subsubheading @value{GDBN} Command |
07f31aa6 | 21237 | |
a2c02241 | 21238 | The corresponding @value{GDBN} command is @samp{info symbol}. |
07f31aa6 DJ |
21239 | |
21240 | @subsubheading Example | |
a2c02241 | 21241 | N.A. |
07f31aa6 DJ |
21242 | |
21243 | ||
a2c02241 NR |
21244 | @subheading The @code{-symbol-list-functions} Command |
21245 | @findex -symbol-list-functions | |
922fbb7b AC |
21246 | |
21247 | @subsubheading Synopsis | |
21248 | ||
21249 | @smallexample | |
a2c02241 | 21250 | -symbol-list-functions |
922fbb7b AC |
21251 | @end smallexample |
21252 | ||
a2c02241 | 21253 | List the functions in the executable. |
922fbb7b AC |
21254 | |
21255 | @subsubheading @value{GDBN} Command | |
21256 | ||
a2c02241 NR |
21257 | @samp{info functions} in @value{GDBN}, @samp{gdb_listfunc} and |
21258 | @samp{gdb_search} in @code{gdbtk}. | |
922fbb7b AC |
21259 | |
21260 | @subsubheading Example | |
a2c02241 | 21261 | N.A. |
922fbb7b AC |
21262 | |
21263 | ||
a2c02241 NR |
21264 | @subheading The @code{-symbol-list-lines} Command |
21265 | @findex -symbol-list-lines | |
922fbb7b AC |
21266 | |
21267 | @subsubheading Synopsis | |
21268 | ||
21269 | @smallexample | |
a2c02241 | 21270 | -symbol-list-lines @var{filename} |
922fbb7b AC |
21271 | @end smallexample |
21272 | ||
a2c02241 NR |
21273 | Print the list of lines that contain code and their associated program |
21274 | addresses for the given source filename. The entries are sorted in | |
21275 | ascending PC order. | |
922fbb7b AC |
21276 | |
21277 | @subsubheading @value{GDBN} Command | |
21278 | ||
a2c02241 | 21279 | There is no corresponding @value{GDBN} command. |
922fbb7b AC |
21280 | |
21281 | @subsubheading Example | |
a2c02241 | 21282 | @smallexample |
594fe323 | 21283 | (gdb) |
a2c02241 NR |
21284 | -symbol-list-lines basics.c |
21285 | ^done,lines=[@{pc="0x08048554",line="7"@},@{pc="0x0804855a",line="8"@}] | |
594fe323 | 21286 | (gdb) |
a2c02241 | 21287 | @end smallexample |
922fbb7b AC |
21288 | |
21289 | ||
a2c02241 NR |
21290 | @subheading The @code{-symbol-list-types} Command |
21291 | @findex -symbol-list-types | |
922fbb7b AC |
21292 | |
21293 | @subsubheading Synopsis | |
21294 | ||
21295 | @smallexample | |
a2c02241 | 21296 | -symbol-list-types |
922fbb7b AC |
21297 | @end smallexample |
21298 | ||
a2c02241 | 21299 | List all the type names. |
922fbb7b AC |
21300 | |
21301 | @subsubheading @value{GDBN} Command | |
21302 | ||
a2c02241 NR |
21303 | The corresponding commands are @samp{info types} in @value{GDBN}, |
21304 | @samp{gdb_search} in @code{gdbtk}. | |
922fbb7b AC |
21305 | |
21306 | @subsubheading Example | |
21307 | N.A. | |
21308 | ||
21309 | ||
a2c02241 NR |
21310 | @subheading The @code{-symbol-list-variables} Command |
21311 | @findex -symbol-list-variables | |
922fbb7b AC |
21312 | |
21313 | @subsubheading Synopsis | |
21314 | ||
21315 | @smallexample | |
a2c02241 | 21316 | -symbol-list-variables |
922fbb7b AC |
21317 | @end smallexample |
21318 | ||
a2c02241 | 21319 | List all the global and static variable names. |
922fbb7b AC |
21320 | |
21321 | @subsubheading @value{GDBN} Command | |
21322 | ||
a2c02241 | 21323 | @samp{info variables} in @value{GDBN}, @samp{gdb_search} in @code{gdbtk}. |
922fbb7b AC |
21324 | |
21325 | @subsubheading Example | |
21326 | N.A. | |
21327 | ||
21328 | ||
a2c02241 NR |
21329 | @subheading The @code{-symbol-locate} Command |
21330 | @findex -symbol-locate | |
922fbb7b AC |
21331 | |
21332 | @subsubheading Synopsis | |
21333 | ||
21334 | @smallexample | |
a2c02241 | 21335 | -symbol-locate |
922fbb7b AC |
21336 | @end smallexample |
21337 | ||
922fbb7b AC |
21338 | @subsubheading @value{GDBN} Command |
21339 | ||
a2c02241 | 21340 | @samp{gdb_loc} in @code{gdbtk}. |
922fbb7b AC |
21341 | |
21342 | @subsubheading Example | |
21343 | N.A. | |
21344 | ||
21345 | ||
a2c02241 NR |
21346 | @subheading The @code{-symbol-type} Command |
21347 | @findex -symbol-type | |
922fbb7b AC |
21348 | |
21349 | @subsubheading Synopsis | |
21350 | ||
21351 | @smallexample | |
a2c02241 | 21352 | -symbol-type @var{variable} |
922fbb7b AC |
21353 | @end smallexample |
21354 | ||
a2c02241 | 21355 | Show type of @var{variable}. |
922fbb7b | 21356 | |
a2c02241 | 21357 | @subsubheading @value{GDBN} Command |
922fbb7b | 21358 | |
a2c02241 NR |
21359 | The corresponding @value{GDBN} command is @samp{ptype}, @code{gdbtk} has |
21360 | @samp{gdb_obj_variable}. | |
21361 | ||
21362 | @subsubheading Example | |
21363 | N.A. | |
21364 | ||
21365 | ||
21366 | @c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% | |
21367 | @node GDB/MI File Commands | |
21368 | @section @sc{gdb/mi} File Commands | |
21369 | ||
21370 | This section describes the GDB/MI commands to specify executable file names | |
21371 | and to read in and obtain symbol table information. | |
21372 | ||
21373 | @subheading The @code{-file-exec-and-symbols} Command | |
21374 | @findex -file-exec-and-symbols | |
21375 | ||
21376 | @subsubheading Synopsis | |
922fbb7b AC |
21377 | |
21378 | @smallexample | |
a2c02241 | 21379 | -file-exec-and-symbols @var{file} |
922fbb7b AC |
21380 | @end smallexample |
21381 | ||
a2c02241 NR |
21382 | Specify the executable file to be debugged. This file is the one from |
21383 | which the symbol table is also read. If no file is specified, the | |
21384 | command clears the executable and symbol information. If breakpoints | |
21385 | are set when using this command with no arguments, @value{GDBN} will produce | |
21386 | error messages. Otherwise, no output is produced, except a completion | |
21387 | notification. | |
21388 | ||
922fbb7b AC |
21389 | @subsubheading @value{GDBN} Command |
21390 | ||
a2c02241 | 21391 | The corresponding @value{GDBN} command is @samp{file}. |
922fbb7b AC |
21392 | |
21393 | @subsubheading Example | |
21394 | ||
21395 | @smallexample | |
594fe323 | 21396 | (gdb) |
a2c02241 NR |
21397 | -file-exec-and-symbols /kwikemart/marge/ezannoni/TRUNK/mbx/hello.mbx |
21398 | ^done | |
594fe323 | 21399 | (gdb) |
922fbb7b AC |
21400 | @end smallexample |
21401 | ||
922fbb7b | 21402 | |
a2c02241 NR |
21403 | @subheading The @code{-file-exec-file} Command |
21404 | @findex -file-exec-file | |
922fbb7b AC |
21405 | |
21406 | @subsubheading Synopsis | |
21407 | ||
21408 | @smallexample | |
a2c02241 | 21409 | -file-exec-file @var{file} |
922fbb7b AC |
21410 | @end smallexample |
21411 | ||
a2c02241 NR |
21412 | Specify the executable file to be debugged. Unlike |
21413 | @samp{-file-exec-and-symbols}, the symbol table is @emph{not} read | |
21414 | from this file. If used without argument, @value{GDBN} clears the information | |
21415 | about the executable file. No output is produced, except a completion | |
21416 | notification. | |
922fbb7b | 21417 | |
a2c02241 NR |
21418 | @subsubheading @value{GDBN} Command |
21419 | ||
21420 | The corresponding @value{GDBN} command is @samp{exec-file}. | |
922fbb7b AC |
21421 | |
21422 | @subsubheading Example | |
a2c02241 NR |
21423 | |
21424 | @smallexample | |
594fe323 | 21425 | (gdb) |
a2c02241 NR |
21426 | -file-exec-file /kwikemart/marge/ezannoni/TRUNK/mbx/hello.mbx |
21427 | ^done | |
594fe323 | 21428 | (gdb) |
a2c02241 | 21429 | @end smallexample |
922fbb7b AC |
21430 | |
21431 | ||
a2c02241 NR |
21432 | @subheading The @code{-file-list-exec-sections} Command |
21433 | @findex -file-list-exec-sections | |
922fbb7b AC |
21434 | |
21435 | @subsubheading Synopsis | |
21436 | ||
21437 | @smallexample | |
a2c02241 | 21438 | -file-list-exec-sections |
922fbb7b AC |
21439 | @end smallexample |
21440 | ||
a2c02241 NR |
21441 | List the sections of the current executable file. |
21442 | ||
922fbb7b AC |
21443 | @subsubheading @value{GDBN} Command |
21444 | ||
a2c02241 NR |
21445 | The @value{GDBN} command @samp{info file} shows, among the rest, the same |
21446 | information as this command. @code{gdbtk} has a corresponding command | |
21447 | @samp{gdb_load_info}. | |
922fbb7b AC |
21448 | |
21449 | @subsubheading Example | |
21450 | N.A. | |
21451 | ||
21452 | ||
a2c02241 NR |
21453 | @subheading The @code{-file-list-exec-source-file} Command |
21454 | @findex -file-list-exec-source-file | |
922fbb7b AC |
21455 | |
21456 | @subsubheading Synopsis | |
21457 | ||
21458 | @smallexample | |
a2c02241 | 21459 | -file-list-exec-source-file |
922fbb7b AC |
21460 | @end smallexample |
21461 | ||
a2c02241 | 21462 | List the line number, the current source file, and the absolute path |
44288b44 NR |
21463 | to the current source file for the current executable. The macro |
21464 | information field has a value of @samp{1} or @samp{0} depending on | |
21465 | whether or not the file includes preprocessor macro information. | |
922fbb7b AC |
21466 | |
21467 | @subsubheading @value{GDBN} Command | |
21468 | ||
a2c02241 | 21469 | The @value{GDBN} equivalent is @samp{info source} |
922fbb7b AC |
21470 | |
21471 | @subsubheading Example | |
21472 | ||
922fbb7b | 21473 | @smallexample |
594fe323 | 21474 | (gdb) |
a2c02241 | 21475 | 123-file-list-exec-source-file |
44288b44 | 21476 | 123^done,line="1",file="foo.c",fullname="/home/bar/foo.c,macro-info="1" |
594fe323 | 21477 | (gdb) |
922fbb7b AC |
21478 | @end smallexample |
21479 | ||
21480 | ||
a2c02241 NR |
21481 | @subheading The @code{-file-list-exec-source-files} Command |
21482 | @findex -file-list-exec-source-files | |
922fbb7b AC |
21483 | |
21484 | @subsubheading Synopsis | |
21485 | ||
21486 | @smallexample | |
a2c02241 | 21487 | -file-list-exec-source-files |
922fbb7b AC |
21488 | @end smallexample |
21489 | ||
a2c02241 NR |
21490 | List the source files for the current executable. |
21491 | ||
3f94c067 BW |
21492 | It will always output the filename, but only when @value{GDBN} can find |
21493 | the absolute file name of a source file, will it output the fullname. | |
922fbb7b AC |
21494 | |
21495 | @subsubheading @value{GDBN} Command | |
21496 | ||
a2c02241 NR |
21497 | The @value{GDBN} equivalent is @samp{info sources}. |
21498 | @code{gdbtk} has an analogous command @samp{gdb_listfiles}. | |
922fbb7b AC |
21499 | |
21500 | @subsubheading Example | |
922fbb7b | 21501 | @smallexample |
594fe323 | 21502 | (gdb) |
a2c02241 NR |
21503 | -file-list-exec-source-files |
21504 | ^done,files=[ | |
21505 | @{file=foo.c,fullname=/home/foo.c@}, | |
21506 | @{file=/home/bar.c,fullname=/home/bar.c@}, | |
21507 | @{file=gdb_could_not_find_fullpath.c@}] | |
594fe323 | 21508 | (gdb) |
922fbb7b AC |
21509 | @end smallexample |
21510 | ||
a2c02241 NR |
21511 | @subheading The @code{-file-list-shared-libraries} Command |
21512 | @findex -file-list-shared-libraries | |
922fbb7b | 21513 | |
a2c02241 | 21514 | @subsubheading Synopsis |
922fbb7b | 21515 | |
a2c02241 NR |
21516 | @smallexample |
21517 | -file-list-shared-libraries | |
21518 | @end smallexample | |
922fbb7b | 21519 | |
a2c02241 | 21520 | List the shared libraries in the program. |
922fbb7b | 21521 | |
a2c02241 | 21522 | @subsubheading @value{GDBN} Command |
922fbb7b | 21523 | |
a2c02241 | 21524 | The corresponding @value{GDBN} command is @samp{info shared}. |
922fbb7b | 21525 | |
a2c02241 NR |
21526 | @subsubheading Example |
21527 | N.A. | |
922fbb7b AC |
21528 | |
21529 | ||
a2c02241 NR |
21530 | @subheading The @code{-file-list-symbol-files} Command |
21531 | @findex -file-list-symbol-files | |
922fbb7b | 21532 | |
a2c02241 | 21533 | @subsubheading Synopsis |
922fbb7b | 21534 | |
a2c02241 NR |
21535 | @smallexample |
21536 | -file-list-symbol-files | |
21537 | @end smallexample | |
922fbb7b | 21538 | |
a2c02241 | 21539 | List symbol files. |
922fbb7b | 21540 | |
a2c02241 | 21541 | @subsubheading @value{GDBN} Command |
922fbb7b | 21542 | |
a2c02241 | 21543 | The corresponding @value{GDBN} command is @samp{info file} (part of it). |
922fbb7b | 21544 | |
a2c02241 NR |
21545 | @subsubheading Example |
21546 | N.A. | |
922fbb7b | 21547 | |
922fbb7b | 21548 | |
a2c02241 NR |
21549 | @subheading The @code{-file-symbol-file} Command |
21550 | @findex -file-symbol-file | |
922fbb7b | 21551 | |
a2c02241 | 21552 | @subsubheading Synopsis |
922fbb7b | 21553 | |
a2c02241 NR |
21554 | @smallexample |
21555 | -file-symbol-file @var{file} | |
21556 | @end smallexample | |
922fbb7b | 21557 | |
a2c02241 NR |
21558 | Read symbol table info from the specified @var{file} argument. When |
21559 | used without arguments, clears @value{GDBN}'s symbol table info. No output is | |
21560 | produced, except for a completion notification. | |
922fbb7b | 21561 | |
a2c02241 | 21562 | @subsubheading @value{GDBN} Command |
922fbb7b | 21563 | |
a2c02241 | 21564 | The corresponding @value{GDBN} command is @samp{symbol-file}. |
922fbb7b | 21565 | |
a2c02241 | 21566 | @subsubheading Example |
922fbb7b | 21567 | |
a2c02241 | 21568 | @smallexample |
594fe323 | 21569 | (gdb) |
a2c02241 NR |
21570 | -file-symbol-file /kwikemart/marge/ezannoni/TRUNK/mbx/hello.mbx |
21571 | ^done | |
594fe323 | 21572 | (gdb) |
a2c02241 | 21573 | @end smallexample |
922fbb7b | 21574 | |
a2c02241 | 21575 | @ignore |
a2c02241 NR |
21576 | @c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% |
21577 | @node GDB/MI Memory Overlay Commands | |
21578 | @section @sc{gdb/mi} Memory Overlay Commands | |
922fbb7b | 21579 | |
a2c02241 | 21580 | The memory overlay commands are not implemented. |
922fbb7b | 21581 | |
a2c02241 | 21582 | @c @subheading -overlay-auto |
922fbb7b | 21583 | |
a2c02241 | 21584 | @c @subheading -overlay-list-mapping-state |
922fbb7b | 21585 | |
a2c02241 | 21586 | @c @subheading -overlay-list-overlays |
922fbb7b | 21587 | |
a2c02241 | 21588 | @c @subheading -overlay-map |
922fbb7b | 21589 | |
a2c02241 | 21590 | @c @subheading -overlay-off |
922fbb7b | 21591 | |
a2c02241 | 21592 | @c @subheading -overlay-on |
922fbb7b | 21593 | |
a2c02241 | 21594 | @c @subheading -overlay-unmap |
922fbb7b | 21595 | |
a2c02241 NR |
21596 | @c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% |
21597 | @node GDB/MI Signal Handling Commands | |
21598 | @section @sc{gdb/mi} Signal Handling Commands | |
922fbb7b | 21599 | |
a2c02241 | 21600 | Signal handling commands are not implemented. |
922fbb7b | 21601 | |
a2c02241 | 21602 | @c @subheading -signal-handle |
922fbb7b | 21603 | |
a2c02241 | 21604 | @c @subheading -signal-list-handle-actions |
922fbb7b | 21605 | |
a2c02241 NR |
21606 | @c @subheading -signal-list-signal-types |
21607 | @end ignore | |
922fbb7b | 21608 | |
922fbb7b | 21609 | |
a2c02241 NR |
21610 | @c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% |
21611 | @node GDB/MI Target Manipulation | |
21612 | @section @sc{gdb/mi} Target Manipulation Commands | |
922fbb7b AC |
21613 | |
21614 | ||
a2c02241 NR |
21615 | @subheading The @code{-target-attach} Command |
21616 | @findex -target-attach | |
922fbb7b AC |
21617 | |
21618 | @subsubheading Synopsis | |
21619 | ||
21620 | @smallexample | |
a2c02241 | 21621 | -target-attach @var{pid} | @var{file} |
922fbb7b AC |
21622 | @end smallexample |
21623 | ||
a2c02241 | 21624 | Attach to a process @var{pid} or a file @var{file} outside of @value{GDBN}. |
922fbb7b | 21625 | |
79a6e687 | 21626 | @subsubheading @value{GDBN} Command |
922fbb7b | 21627 | |
a2c02241 | 21628 | The corresponding @value{GDBN} command is @samp{attach}. |
922fbb7b | 21629 | |
a2c02241 | 21630 | @subsubheading Example |
b56e7235 VP |
21631 | @smallexample |
21632 | (gdb) | |
21633 | -target-attach 34 | |
21634 | =thread-created,id="1" | |
21635 | *stopped,thread-id="1",frame={addr="0xb7f7e410",func="bar",args=[]} | |
21636 | ^done | |
21637 | (gdb) | |
21638 | @end smallexample | |
a2c02241 NR |
21639 | |
21640 | @subheading The @code{-target-compare-sections} Command | |
21641 | @findex -target-compare-sections | |
922fbb7b AC |
21642 | |
21643 | @subsubheading Synopsis | |
21644 | ||
21645 | @smallexample | |
a2c02241 | 21646 | -target-compare-sections [ @var{section} ] |
922fbb7b AC |
21647 | @end smallexample |
21648 | ||
a2c02241 NR |
21649 | Compare data of section @var{section} on target to the exec file. |
21650 | Without the argument, all sections are compared. | |
922fbb7b | 21651 | |
a2c02241 | 21652 | @subsubheading @value{GDBN} Command |
922fbb7b | 21653 | |
a2c02241 | 21654 | The @value{GDBN} equivalent is @samp{compare-sections}. |
922fbb7b | 21655 | |
a2c02241 NR |
21656 | @subsubheading Example |
21657 | N.A. | |
21658 | ||
21659 | ||
21660 | @subheading The @code{-target-detach} Command | |
21661 | @findex -target-detach | |
922fbb7b AC |
21662 | |
21663 | @subsubheading Synopsis | |
21664 | ||
21665 | @smallexample | |
a2c02241 | 21666 | -target-detach |
922fbb7b AC |
21667 | @end smallexample |
21668 | ||
a2c02241 NR |
21669 | Detach from the remote target which normally resumes its execution. |
21670 | There's no output. | |
21671 | ||
79a6e687 | 21672 | @subsubheading @value{GDBN} Command |
a2c02241 NR |
21673 | |
21674 | The corresponding @value{GDBN} command is @samp{detach}. | |
21675 | ||
21676 | @subsubheading Example | |
922fbb7b AC |
21677 | |
21678 | @smallexample | |
594fe323 | 21679 | (gdb) |
a2c02241 NR |
21680 | -target-detach |
21681 | ^done | |
594fe323 | 21682 | (gdb) |
922fbb7b AC |
21683 | @end smallexample |
21684 | ||
21685 | ||
a2c02241 NR |
21686 | @subheading The @code{-target-disconnect} Command |
21687 | @findex -target-disconnect | |
922fbb7b AC |
21688 | |
21689 | @subsubheading Synopsis | |
21690 | ||
123dc839 | 21691 | @smallexample |
a2c02241 | 21692 | -target-disconnect |
123dc839 | 21693 | @end smallexample |
922fbb7b | 21694 | |
a2c02241 NR |
21695 | Disconnect from the remote target. There's no output and the target is |
21696 | generally not resumed. | |
21697 | ||
79a6e687 | 21698 | @subsubheading @value{GDBN} Command |
a2c02241 NR |
21699 | |
21700 | The corresponding @value{GDBN} command is @samp{disconnect}. | |
bc8ced35 NR |
21701 | |
21702 | @subsubheading Example | |
922fbb7b AC |
21703 | |
21704 | @smallexample | |
594fe323 | 21705 | (gdb) |
a2c02241 NR |
21706 | -target-disconnect |
21707 | ^done | |
594fe323 | 21708 | (gdb) |
922fbb7b AC |
21709 | @end smallexample |
21710 | ||
21711 | ||
a2c02241 NR |
21712 | @subheading The @code{-target-download} Command |
21713 | @findex -target-download | |
922fbb7b AC |
21714 | |
21715 | @subsubheading Synopsis | |
21716 | ||
21717 | @smallexample | |
a2c02241 | 21718 | -target-download |
922fbb7b AC |
21719 | @end smallexample |
21720 | ||
a2c02241 NR |
21721 | Loads the executable onto the remote target. |
21722 | It prints out an update message every half second, which includes the fields: | |
21723 | ||
21724 | @table @samp | |
21725 | @item section | |
21726 | The name of the section. | |
21727 | @item section-sent | |
21728 | The size of what has been sent so far for that section. | |
21729 | @item section-size | |
21730 | The size of the section. | |
21731 | @item total-sent | |
21732 | The total size of what was sent so far (the current and the previous sections). | |
21733 | @item total-size | |
21734 | The size of the overall executable to download. | |
21735 | @end table | |
21736 | ||
21737 | @noindent | |
21738 | Each message is sent as status record (@pxref{GDB/MI Output Syntax, , | |
21739 | @sc{gdb/mi} Output Syntax}). | |
21740 | ||
21741 | In addition, it prints the name and size of the sections, as they are | |
21742 | downloaded. These messages include the following fields: | |
21743 | ||
21744 | @table @samp | |
21745 | @item section | |
21746 | The name of the section. | |
21747 | @item section-size | |
21748 | The size of the section. | |
21749 | @item total-size | |
21750 | The size of the overall executable to download. | |
21751 | @end table | |
21752 | ||
21753 | @noindent | |
21754 | At the end, a summary is printed. | |
21755 | ||
21756 | @subsubheading @value{GDBN} Command | |
21757 | ||
21758 | The corresponding @value{GDBN} command is @samp{load}. | |
21759 | ||
21760 | @subsubheading Example | |
21761 | ||
21762 | Note: each status message appears on a single line. Here the messages | |
21763 | have been broken down so that they can fit onto a page. | |
922fbb7b AC |
21764 | |
21765 | @smallexample | |
594fe323 | 21766 | (gdb) |
a2c02241 NR |
21767 | -target-download |
21768 | +download,@{section=".text",section-size="6668",total-size="9880"@} | |
21769 | +download,@{section=".text",section-sent="512",section-size="6668", | |
21770 | total-sent="512",total-size="9880"@} | |
21771 | +download,@{section=".text",section-sent="1024",section-size="6668", | |
21772 | total-sent="1024",total-size="9880"@} | |
21773 | +download,@{section=".text",section-sent="1536",section-size="6668", | |
21774 | total-sent="1536",total-size="9880"@} | |
21775 | +download,@{section=".text",section-sent="2048",section-size="6668", | |
21776 | total-sent="2048",total-size="9880"@} | |
21777 | +download,@{section=".text",section-sent="2560",section-size="6668", | |
21778 | total-sent="2560",total-size="9880"@} | |
21779 | +download,@{section=".text",section-sent="3072",section-size="6668", | |
21780 | total-sent="3072",total-size="9880"@} | |
21781 | +download,@{section=".text",section-sent="3584",section-size="6668", | |
21782 | total-sent="3584",total-size="9880"@} | |
21783 | +download,@{section=".text",section-sent="4096",section-size="6668", | |
21784 | total-sent="4096",total-size="9880"@} | |
21785 | +download,@{section=".text",section-sent="4608",section-size="6668", | |
21786 | total-sent="4608",total-size="9880"@} | |
21787 | +download,@{section=".text",section-sent="5120",section-size="6668", | |
21788 | total-sent="5120",total-size="9880"@} | |
21789 | +download,@{section=".text",section-sent="5632",section-size="6668", | |
21790 | total-sent="5632",total-size="9880"@} | |
21791 | +download,@{section=".text",section-sent="6144",section-size="6668", | |
21792 | total-sent="6144",total-size="9880"@} | |
21793 | +download,@{section=".text",section-sent="6656",section-size="6668", | |
21794 | total-sent="6656",total-size="9880"@} | |
21795 | +download,@{section=".init",section-size="28",total-size="9880"@} | |
21796 | +download,@{section=".fini",section-size="28",total-size="9880"@} | |
21797 | +download,@{section=".data",section-size="3156",total-size="9880"@} | |
21798 | +download,@{section=".data",section-sent="512",section-size="3156", | |
21799 | total-sent="7236",total-size="9880"@} | |
21800 | +download,@{section=".data",section-sent="1024",section-size="3156", | |
21801 | total-sent="7748",total-size="9880"@} | |
21802 | +download,@{section=".data",section-sent="1536",section-size="3156", | |
21803 | total-sent="8260",total-size="9880"@} | |
21804 | +download,@{section=".data",section-sent="2048",section-size="3156", | |
21805 | total-sent="8772",total-size="9880"@} | |
21806 | +download,@{section=".data",section-sent="2560",section-size="3156", | |
21807 | total-sent="9284",total-size="9880"@} | |
21808 | +download,@{section=".data",section-sent="3072",section-size="3156", | |
21809 | total-sent="9796",total-size="9880"@} | |
21810 | ^done,address="0x10004",load-size="9880",transfer-rate="6586", | |
21811 | write-rate="429" | |
594fe323 | 21812 | (gdb) |
922fbb7b AC |
21813 | @end smallexample |
21814 | ||
21815 | ||
a2c02241 NR |
21816 | @subheading The @code{-target-exec-status} Command |
21817 | @findex -target-exec-status | |
922fbb7b AC |
21818 | |
21819 | @subsubheading Synopsis | |
21820 | ||
21821 | @smallexample | |
a2c02241 | 21822 | -target-exec-status |
922fbb7b AC |
21823 | @end smallexample |
21824 | ||
a2c02241 NR |
21825 | Provide information on the state of the target (whether it is running or |
21826 | not, for instance). | |
922fbb7b | 21827 | |
a2c02241 | 21828 | @subsubheading @value{GDBN} Command |
922fbb7b | 21829 | |
a2c02241 NR |
21830 | There's no equivalent @value{GDBN} command. |
21831 | ||
21832 | @subsubheading Example | |
21833 | N.A. | |
922fbb7b | 21834 | |
a2c02241 NR |
21835 | |
21836 | @subheading The @code{-target-list-available-targets} Command | |
21837 | @findex -target-list-available-targets | |
922fbb7b AC |
21838 | |
21839 | @subsubheading Synopsis | |
21840 | ||
21841 | @smallexample | |
a2c02241 | 21842 | -target-list-available-targets |
922fbb7b AC |
21843 | @end smallexample |
21844 | ||
a2c02241 | 21845 | List the possible targets to connect to. |
922fbb7b | 21846 | |
a2c02241 | 21847 | @subsubheading @value{GDBN} Command |
922fbb7b | 21848 | |
a2c02241 | 21849 | The corresponding @value{GDBN} command is @samp{help target}. |
922fbb7b | 21850 | |
a2c02241 NR |
21851 | @subsubheading Example |
21852 | N.A. | |
21853 | ||
21854 | ||
21855 | @subheading The @code{-target-list-current-targets} Command | |
21856 | @findex -target-list-current-targets | |
922fbb7b AC |
21857 | |
21858 | @subsubheading Synopsis | |
21859 | ||
21860 | @smallexample | |
a2c02241 | 21861 | -target-list-current-targets |
922fbb7b AC |
21862 | @end smallexample |
21863 | ||
a2c02241 | 21864 | Describe the current target. |
922fbb7b | 21865 | |
a2c02241 | 21866 | @subsubheading @value{GDBN} Command |
922fbb7b | 21867 | |
a2c02241 NR |
21868 | The corresponding information is printed by @samp{info file} (among |
21869 | other things). | |
922fbb7b | 21870 | |
a2c02241 NR |
21871 | @subsubheading Example |
21872 | N.A. | |
21873 | ||
21874 | ||
21875 | @subheading The @code{-target-list-parameters} Command | |
21876 | @findex -target-list-parameters | |
922fbb7b AC |
21877 | |
21878 | @subsubheading Synopsis | |
21879 | ||
21880 | @smallexample | |
a2c02241 | 21881 | -target-list-parameters |
922fbb7b AC |
21882 | @end smallexample |
21883 | ||
a2c02241 NR |
21884 | @c ???? |
21885 | ||
21886 | @subsubheading @value{GDBN} Command | |
21887 | ||
21888 | No equivalent. | |
922fbb7b AC |
21889 | |
21890 | @subsubheading Example | |
a2c02241 NR |
21891 | N.A. |
21892 | ||
21893 | ||
21894 | @subheading The @code{-target-select} Command | |
21895 | @findex -target-select | |
21896 | ||
21897 | @subsubheading Synopsis | |
922fbb7b AC |
21898 | |
21899 | @smallexample | |
a2c02241 | 21900 | -target-select @var{type} @var{parameters @dots{}} |
922fbb7b AC |
21901 | @end smallexample |
21902 | ||
a2c02241 | 21903 | Connect @value{GDBN} to the remote target. This command takes two args: |
922fbb7b | 21904 | |
a2c02241 NR |
21905 | @table @samp |
21906 | @item @var{type} | |
75c99385 | 21907 | The type of target, for instance @samp{remote}, etc. |
a2c02241 NR |
21908 | @item @var{parameters} |
21909 | Device names, host names and the like. @xref{Target Commands, , | |
79a6e687 | 21910 | Commands for Managing Targets}, for more details. |
a2c02241 NR |
21911 | @end table |
21912 | ||
21913 | The output is a connection notification, followed by the address at | |
21914 | which the target program is, in the following form: | |
922fbb7b AC |
21915 | |
21916 | @smallexample | |
a2c02241 NR |
21917 | ^connected,addr="@var{address}",func="@var{function name}", |
21918 | args=[@var{arg list}] | |
922fbb7b AC |
21919 | @end smallexample |
21920 | ||
a2c02241 NR |
21921 | @subsubheading @value{GDBN} Command |
21922 | ||
21923 | The corresponding @value{GDBN} command is @samp{target}. | |
265eeb58 NR |
21924 | |
21925 | @subsubheading Example | |
922fbb7b | 21926 | |
265eeb58 | 21927 | @smallexample |
594fe323 | 21928 | (gdb) |
75c99385 | 21929 | -target-select remote /dev/ttya |
a2c02241 | 21930 | ^connected,addr="0xfe00a300",func="??",args=[] |
594fe323 | 21931 | (gdb) |
265eeb58 | 21932 | @end smallexample |
ef21caaf | 21933 | |
a6b151f1 DJ |
21934 | @c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% |
21935 | @node GDB/MI File Transfer Commands | |
21936 | @section @sc{gdb/mi} File Transfer Commands | |
21937 | ||
21938 | ||
21939 | @subheading The @code{-target-file-put} Command | |
21940 | @findex -target-file-put | |
21941 | ||
21942 | @subsubheading Synopsis | |
21943 | ||
21944 | @smallexample | |
21945 | -target-file-put @var{hostfile} @var{targetfile} | |
21946 | @end smallexample | |
21947 | ||
21948 | Copy file @var{hostfile} from the host system (the machine running | |
21949 | @value{GDBN}) to @var{targetfile} on the target system. | |
21950 | ||
21951 | @subsubheading @value{GDBN} Command | |
21952 | ||
21953 | The corresponding @value{GDBN} command is @samp{remote put}. | |
21954 | ||
21955 | @subsubheading Example | |
21956 | ||
21957 | @smallexample | |
21958 | (gdb) | |
21959 | -target-file-put localfile remotefile | |
21960 | ^done | |
21961 | (gdb) | |
21962 | @end smallexample | |
21963 | ||
21964 | ||
1763a388 | 21965 | @subheading The @code{-target-file-get} Command |
a6b151f1 DJ |
21966 | @findex -target-file-get |
21967 | ||
21968 | @subsubheading Synopsis | |
21969 | ||
21970 | @smallexample | |
21971 | -target-file-get @var{targetfile} @var{hostfile} | |
21972 | @end smallexample | |
21973 | ||
21974 | Copy file @var{targetfile} from the target system to @var{hostfile} | |
21975 | on the host system. | |
21976 | ||
21977 | @subsubheading @value{GDBN} Command | |
21978 | ||
21979 | The corresponding @value{GDBN} command is @samp{remote get}. | |
21980 | ||
21981 | @subsubheading Example | |
21982 | ||
21983 | @smallexample | |
21984 | (gdb) | |
21985 | -target-file-get remotefile localfile | |
21986 | ^done | |
21987 | (gdb) | |
21988 | @end smallexample | |
21989 | ||
21990 | ||
21991 | @subheading The @code{-target-file-delete} Command | |
21992 | @findex -target-file-delete | |
21993 | ||
21994 | @subsubheading Synopsis | |
21995 | ||
21996 | @smallexample | |
21997 | -target-file-delete @var{targetfile} | |
21998 | @end smallexample | |
21999 | ||
22000 | Delete @var{targetfile} from the target system. | |
22001 | ||
22002 | @subsubheading @value{GDBN} Command | |
22003 | ||
22004 | The corresponding @value{GDBN} command is @samp{remote delete}. | |
22005 | ||
22006 | @subsubheading Example | |
22007 | ||
22008 | @smallexample | |
22009 | (gdb) | |
22010 | -target-file-delete remotefile | |
22011 | ^done | |
22012 | (gdb) | |
22013 | @end smallexample | |
22014 | ||
22015 | ||
ef21caaf NR |
22016 | @c %%%%%%%%%%%%%%%%%%%%%%%%%%%% SECTION %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% |
22017 | @node GDB/MI Miscellaneous Commands | |
22018 | @section Miscellaneous @sc{gdb/mi} Commands | |
22019 | ||
22020 | @c @subheading -gdb-complete | |
22021 | ||
22022 | @subheading The @code{-gdb-exit} Command | |
22023 | @findex -gdb-exit | |
22024 | ||
22025 | @subsubheading Synopsis | |
22026 | ||
22027 | @smallexample | |
22028 | -gdb-exit | |
22029 | @end smallexample | |
22030 | ||
22031 | Exit @value{GDBN} immediately. | |
22032 | ||
22033 | @subsubheading @value{GDBN} Command | |
22034 | ||
22035 | Approximately corresponds to @samp{quit}. | |
22036 | ||
22037 | @subsubheading Example | |
22038 | ||
22039 | @smallexample | |
594fe323 | 22040 | (gdb) |
ef21caaf NR |
22041 | -gdb-exit |
22042 | ^exit | |
22043 | @end smallexample | |
22044 | ||
a2c02241 NR |
22045 | |
22046 | @subheading The @code{-exec-abort} Command | |
22047 | @findex -exec-abort | |
22048 | ||
22049 | @subsubheading Synopsis | |
22050 | ||
22051 | @smallexample | |
22052 | -exec-abort | |
22053 | @end smallexample | |
22054 | ||
22055 | Kill the inferior running program. | |
22056 | ||
22057 | @subsubheading @value{GDBN} Command | |
22058 | ||
22059 | The corresponding @value{GDBN} command is @samp{kill}. | |
22060 | ||
22061 | @subsubheading Example | |
22062 | N.A. | |
22063 | ||
22064 | ||
ef21caaf NR |
22065 | @subheading The @code{-gdb-set} Command |
22066 | @findex -gdb-set | |
22067 | ||
22068 | @subsubheading Synopsis | |
22069 | ||
22070 | @smallexample | |
22071 | -gdb-set | |
22072 | @end smallexample | |
22073 | ||
22074 | Set an internal @value{GDBN} variable. | |
22075 | @c IS THIS A DOLLAR VARIABLE? OR SOMETHING LIKE ANNOTATE ????? | |
22076 | ||
22077 | @subsubheading @value{GDBN} Command | |
22078 | ||
22079 | The corresponding @value{GDBN} command is @samp{set}. | |
22080 | ||
22081 | @subsubheading Example | |
22082 | ||
22083 | @smallexample | |
594fe323 | 22084 | (gdb) |
ef21caaf NR |
22085 | -gdb-set $foo=3 |
22086 | ^done | |
594fe323 | 22087 | (gdb) |
ef21caaf NR |
22088 | @end smallexample |
22089 | ||
22090 | ||
22091 | @subheading The @code{-gdb-show} Command | |
22092 | @findex -gdb-show | |
22093 | ||
22094 | @subsubheading Synopsis | |
22095 | ||
22096 | @smallexample | |
22097 | -gdb-show | |
22098 | @end smallexample | |
22099 | ||
22100 | Show the current value of a @value{GDBN} variable. | |
22101 | ||
79a6e687 | 22102 | @subsubheading @value{GDBN} Command |
ef21caaf NR |
22103 | |
22104 | The corresponding @value{GDBN} command is @samp{show}. | |
22105 | ||
22106 | @subsubheading Example | |
22107 | ||
22108 | @smallexample | |
594fe323 | 22109 | (gdb) |
ef21caaf NR |
22110 | -gdb-show annotate |
22111 | ^done,value="0" | |
594fe323 | 22112 | (gdb) |
ef21caaf NR |
22113 | @end smallexample |
22114 | ||
22115 | @c @subheading -gdb-source | |
22116 | ||
22117 | ||
22118 | @subheading The @code{-gdb-version} Command | |
22119 | @findex -gdb-version | |
22120 | ||
22121 | @subsubheading Synopsis | |
22122 | ||
22123 | @smallexample | |
22124 | -gdb-version | |
22125 | @end smallexample | |
22126 | ||
22127 | Show version information for @value{GDBN}. Used mostly in testing. | |
22128 | ||
22129 | @subsubheading @value{GDBN} Command | |
22130 | ||
22131 | The @value{GDBN} equivalent is @samp{show version}. @value{GDBN} by | |
22132 | default shows this information when you start an interactive session. | |
22133 | ||
22134 | @subsubheading Example | |
22135 | ||
22136 | @c This example modifies the actual output from GDB to avoid overfull | |
22137 | @c box in TeX. | |
22138 | @smallexample | |
594fe323 | 22139 | (gdb) |
ef21caaf NR |
22140 | -gdb-version |
22141 | ~GNU gdb 5.2.1 | |
22142 | ~Copyright 2000 Free Software Foundation, Inc. | |
22143 | ~GDB is free software, covered by the GNU General Public License, and | |
22144 | ~you are welcome to change it and/or distribute copies of it under | |
22145 | ~ certain conditions. | |
22146 | ~Type "show copying" to see the conditions. | |
22147 | ~There is absolutely no warranty for GDB. Type "show warranty" for | |
22148 | ~ details. | |
22149 | ~This GDB was configured as | |
22150 | "--host=sparc-sun-solaris2.5.1 --target=ppc-eabi". | |
22151 | ^done | |
594fe323 | 22152 | (gdb) |
ef21caaf NR |
22153 | @end smallexample |
22154 | ||
084344da VP |
22155 | @subheading The @code{-list-features} Command |
22156 | @findex -list-features | |
22157 | ||
22158 | Returns a list of particular features of the MI protocol that | |
22159 | this version of gdb implements. A feature can be a command, | |
22160 | or a new field in an output of some command, or even an | |
22161 | important bugfix. While a frontend can sometimes detect presence | |
22162 | of a feature at runtime, it is easier to perform detection at debugger | |
22163 | startup. | |
22164 | ||
22165 | The command returns a list of strings, with each string naming an | |
22166 | available feature. Each returned string is just a name, it does not | |
22167 | have any internal structure. The list of possible feature names | |
22168 | is given below. | |
22169 | ||
22170 | Example output: | |
22171 | ||
22172 | @smallexample | |
22173 | (gdb) -list-features | |
22174 | ^done,result=["feature1","feature2"] | |
22175 | @end smallexample | |
22176 | ||
22177 | The current list of features is: | |
22178 | ||
22179 | @itemize @minus | |
22180 | @item | |
22181 | @samp{frozen-varobjs}---indicates presence of the | |
22182 | @code{-var-set-frozen} command, as well as possible presense of the | |
22183 | @code{frozen} field in the output of @code{-varobj-create}. | |
8b4ed427 VP |
22184 | @item |
22185 | @samp{pending-breakpoints}---indicates presence of the @code{-f} | |
22186 | option to the @code{-break-insert} command. | |
8e8901c5 VP |
22187 | @item |
22188 | @samp{thread-info}---indicates presence of the @code{-thread-info} command. | |
8b4ed427 | 22189 | |
084344da VP |
22190 | @end itemize |
22191 | ||
ef21caaf NR |
22192 | @subheading The @code{-interpreter-exec} Command |
22193 | @findex -interpreter-exec | |
22194 | ||
22195 | @subheading Synopsis | |
22196 | ||
22197 | @smallexample | |
22198 | -interpreter-exec @var{interpreter} @var{command} | |
22199 | @end smallexample | |
a2c02241 | 22200 | @anchor{-interpreter-exec} |
ef21caaf NR |
22201 | |
22202 | Execute the specified @var{command} in the given @var{interpreter}. | |
22203 | ||
22204 | @subheading @value{GDBN} Command | |
22205 | ||
22206 | The corresponding @value{GDBN} command is @samp{interpreter-exec}. | |
22207 | ||
22208 | @subheading Example | |
22209 | ||
22210 | @smallexample | |
594fe323 | 22211 | (gdb) |
ef21caaf NR |
22212 | -interpreter-exec console "break main" |
22213 | &"During symbol reading, couldn't parse type; debugger out of date?.\n" | |
22214 | &"During symbol reading, bad structure-type format.\n" | |
22215 | ~"Breakpoint 1 at 0x8074fc6: file ../../src/gdb/main.c, line 743.\n" | |
22216 | ^done | |
594fe323 | 22217 | (gdb) |
ef21caaf NR |
22218 | @end smallexample |
22219 | ||
22220 | @subheading The @code{-inferior-tty-set} Command | |
22221 | @findex -inferior-tty-set | |
22222 | ||
22223 | @subheading Synopsis | |
22224 | ||
22225 | @smallexample | |
22226 | -inferior-tty-set /dev/pts/1 | |
22227 | @end smallexample | |
22228 | ||
22229 | Set terminal for future runs of the program being debugged. | |
22230 | ||
22231 | @subheading @value{GDBN} Command | |
22232 | ||
22233 | The corresponding @value{GDBN} command is @samp{set inferior-tty} /dev/pts/1. | |
22234 | ||
22235 | @subheading Example | |
22236 | ||
22237 | @smallexample | |
594fe323 | 22238 | (gdb) |
ef21caaf NR |
22239 | -inferior-tty-set /dev/pts/1 |
22240 | ^done | |
594fe323 | 22241 | (gdb) |
ef21caaf NR |
22242 | @end smallexample |
22243 | ||
22244 | @subheading The @code{-inferior-tty-show} Command | |
22245 | @findex -inferior-tty-show | |
22246 | ||
22247 | @subheading Synopsis | |
22248 | ||
22249 | @smallexample | |
22250 | -inferior-tty-show | |
22251 | @end smallexample | |
22252 | ||
22253 | Show terminal for future runs of program being debugged. | |
22254 | ||
22255 | @subheading @value{GDBN} Command | |
22256 | ||
22257 | The corresponding @value{GDBN} command is @samp{show inferior-tty}. | |
22258 | ||
22259 | @subheading Example | |
22260 | ||
22261 | @smallexample | |
594fe323 | 22262 | (gdb) |
ef21caaf NR |
22263 | -inferior-tty-set /dev/pts/1 |
22264 | ^done | |
594fe323 | 22265 | (gdb) |
ef21caaf NR |
22266 | -inferior-tty-show |
22267 | ^done,inferior_tty_terminal="/dev/pts/1" | |
594fe323 | 22268 | (gdb) |
ef21caaf | 22269 | @end smallexample |
922fbb7b | 22270 | |
a4eefcd8 NR |
22271 | @subheading The @code{-enable-timings} Command |
22272 | @findex -enable-timings | |
22273 | ||
22274 | @subheading Synopsis | |
22275 | ||
22276 | @smallexample | |
22277 | -enable-timings [yes | no] | |
22278 | @end smallexample | |
22279 | ||
22280 | Toggle the printing of the wallclock, user and system times for an MI | |
22281 | command as a field in its output. This command is to help frontend | |
22282 | developers optimize the performance of their code. No argument is | |
22283 | equivalent to @samp{yes}. | |
22284 | ||
22285 | @subheading @value{GDBN} Command | |
22286 | ||
22287 | No equivalent. | |
22288 | ||
22289 | @subheading Example | |
22290 | ||
22291 | @smallexample | |
22292 | (gdb) | |
22293 | -enable-timings | |
22294 | ^done | |
22295 | (gdb) | |
22296 | -break-insert main | |
22297 | ^done,bkpt=@{number="1",type="breakpoint",disp="keep",enabled="y", | |
22298 | addr="0x080484ed",func="main",file="myprog.c", | |
22299 | fullname="/home/nickrob/myprog.c",line="73",times="0"@}, | |
22300 | time=@{wallclock="0.05185",user="0.00800",system="0.00000"@} | |
22301 | (gdb) | |
22302 | -enable-timings no | |
22303 | ^done | |
22304 | (gdb) | |
22305 | -exec-run | |
22306 | ^running | |
22307 | (gdb) | |
a47ec5fe | 22308 | *stopped,reason="breakpoint-hit",disp="keep",bkptno="1",thread-id="0", |
a4eefcd8 NR |
22309 | frame=@{addr="0x080484ed",func="main",args=[@{name="argc",value="1"@}, |
22310 | @{name="argv",value="0xbfb60364"@}],file="myprog.c", | |
22311 | fullname="/home/nickrob/myprog.c",line="73"@} | |
22312 | (gdb) | |
22313 | @end smallexample | |
22314 | ||
922fbb7b AC |
22315 | @node Annotations |
22316 | @chapter @value{GDBN} Annotations | |
22317 | ||
086432e2 AC |
22318 | This chapter describes annotations in @value{GDBN}. Annotations were |
22319 | designed to interface @value{GDBN} to graphical user interfaces or other | |
22320 | similar programs which want to interact with @value{GDBN} at a | |
922fbb7b AC |
22321 | relatively high level. |
22322 | ||
d3e8051b | 22323 | The annotation mechanism has largely been superseded by @sc{gdb/mi} |
086432e2 AC |
22324 | (@pxref{GDB/MI}). |
22325 | ||
922fbb7b AC |
22326 | @ignore |
22327 | This is Edition @value{EDITION}, @value{DATE}. | |
22328 | @end ignore | |
22329 | ||
22330 | @menu | |
22331 | * Annotations Overview:: What annotations are; the general syntax. | |
9e6c4bd5 | 22332 | * Server Prefix:: Issuing a command without affecting user state. |
922fbb7b AC |
22333 | * Prompting:: Annotations marking @value{GDBN}'s need for input. |
22334 | * Errors:: Annotations for error messages. | |
922fbb7b AC |
22335 | * Invalidation:: Some annotations describe things now invalid. |
22336 | * Annotations for Running:: | |
22337 | Whether the program is running, how it stopped, etc. | |
22338 | * Source Annotations:: Annotations describing source code. | |
922fbb7b AC |
22339 | @end menu |
22340 | ||
22341 | @node Annotations Overview | |
22342 | @section What is an Annotation? | |
22343 | @cindex annotations | |
22344 | ||
922fbb7b AC |
22345 | Annotations start with a newline character, two @samp{control-z} |
22346 | characters, and the name of the annotation. If there is no additional | |
22347 | information associated with this annotation, the name of the annotation | |
22348 | is followed immediately by a newline. If there is additional | |
22349 | information, the name of the annotation is followed by a space, the | |
22350 | additional information, and a newline. The additional information | |
22351 | cannot contain newline characters. | |
22352 | ||
22353 | Any output not beginning with a newline and two @samp{control-z} | |
22354 | characters denotes literal output from @value{GDBN}. Currently there is | |
22355 | no need for @value{GDBN} to output a newline followed by two | |
22356 | @samp{control-z} characters, but if there was such a need, the | |
22357 | annotations could be extended with an @samp{escape} annotation which | |
22358 | means those three characters as output. | |
22359 | ||
086432e2 AC |
22360 | The annotation @var{level}, which is specified using the |
22361 | @option{--annotate} command line option (@pxref{Mode Options}), controls | |
22362 | how much information @value{GDBN} prints together with its prompt, | |
22363 | values of expressions, source lines, and other types of output. Level 0 | |
d3e8051b | 22364 | is for no annotations, level 1 is for use when @value{GDBN} is run as a |
086432e2 AC |
22365 | subprocess of @sc{gnu} Emacs, level 3 is the maximum annotation suitable |
22366 | for programs that control @value{GDBN}, and level 2 annotations have | |
22367 | been made obsolete (@pxref{Limitations, , Limitations of the Annotation | |
09d4efe1 EZ |
22368 | Interface, annotate, GDB's Obsolete Annotations}). |
22369 | ||
22370 | @table @code | |
22371 | @kindex set annotate | |
22372 | @item set annotate @var{level} | |
e09f16f9 | 22373 | The @value{GDBN} command @code{set annotate} sets the level of |
09d4efe1 | 22374 | annotations to the specified @var{level}. |
9c16f35a EZ |
22375 | |
22376 | @item show annotate | |
22377 | @kindex show annotate | |
22378 | Show the current annotation level. | |
09d4efe1 EZ |
22379 | @end table |
22380 | ||
22381 | This chapter describes level 3 annotations. | |
086432e2 | 22382 | |
922fbb7b AC |
22383 | A simple example of starting up @value{GDBN} with annotations is: |
22384 | ||
22385 | @smallexample | |
086432e2 AC |
22386 | $ @kbd{gdb --annotate=3} |
22387 | GNU gdb 6.0 | |
22388 | Copyright 2003 Free Software Foundation, Inc. | |
922fbb7b AC |
22389 | GDB is free software, covered by the GNU General Public License, |
22390 | and you are welcome to change it and/or distribute copies of it | |
22391 | under certain conditions. | |
22392 | Type "show copying" to see the conditions. | |
22393 | There is absolutely no warranty for GDB. Type "show warranty" | |
22394 | for details. | |
086432e2 | 22395 | This GDB was configured as "i386-pc-linux-gnu" |
922fbb7b AC |
22396 | |
22397 | ^Z^Zpre-prompt | |
f7dc1244 | 22398 | (@value{GDBP}) |
922fbb7b | 22399 | ^Z^Zprompt |
086432e2 | 22400 | @kbd{quit} |
922fbb7b AC |
22401 | |
22402 | ^Z^Zpost-prompt | |
b383017d | 22403 | $ |
922fbb7b AC |
22404 | @end smallexample |
22405 | ||
22406 | Here @samp{quit} is input to @value{GDBN}; the rest is output from | |
22407 | @value{GDBN}. The three lines beginning @samp{^Z^Z} (where @samp{^Z} | |
22408 | denotes a @samp{control-z} character) are annotations; the rest is | |
22409 | output from @value{GDBN}. | |
22410 | ||
9e6c4bd5 NR |
22411 | @node Server Prefix |
22412 | @section The Server Prefix | |
22413 | @cindex server prefix | |
22414 | ||
22415 | If you prefix a command with @samp{server } then it will not affect | |
22416 | the command history, nor will it affect @value{GDBN}'s notion of which | |
22417 | command to repeat if @key{RET} is pressed on a line by itself. This | |
22418 | means that commands can be run behind a user's back by a front-end in | |
22419 | a transparent manner. | |
22420 | ||
22421 | The server prefix does not affect the recording of values into the value | |
22422 | history; to print a value without recording it into the value history, | |
22423 | use the @code{output} command instead of the @code{print} command. | |
22424 | ||
922fbb7b AC |
22425 | @node Prompting |
22426 | @section Annotation for @value{GDBN} Input | |
22427 | ||
22428 | @cindex annotations for prompts | |
22429 | When @value{GDBN} prompts for input, it annotates this fact so it is possible | |
22430 | to know when to send output, when the output from a given command is | |
22431 | over, etc. | |
22432 | ||
22433 | Different kinds of input each have a different @dfn{input type}. Each | |
22434 | input type has three annotations: a @code{pre-} annotation, which | |
22435 | denotes the beginning of any prompt which is being output, a plain | |
22436 | annotation, which denotes the end of the prompt, and then a @code{post-} | |
22437 | annotation which denotes the end of any echo which may (or may not) be | |
22438 | associated with the input. For example, the @code{prompt} input type | |
22439 | features the following annotations: | |
22440 | ||
22441 | @smallexample | |
22442 | ^Z^Zpre-prompt | |
22443 | ^Z^Zprompt | |
22444 | ^Z^Zpost-prompt | |
22445 | @end smallexample | |
22446 | ||
22447 | The input types are | |
22448 | ||
22449 | @table @code | |
e5ac9b53 EZ |
22450 | @findex pre-prompt annotation |
22451 | @findex prompt annotation | |
22452 | @findex post-prompt annotation | |
922fbb7b AC |
22453 | @item prompt |
22454 | When @value{GDBN} is prompting for a command (the main @value{GDBN} prompt). | |
22455 | ||
e5ac9b53 EZ |
22456 | @findex pre-commands annotation |
22457 | @findex commands annotation | |
22458 | @findex post-commands annotation | |
922fbb7b AC |
22459 | @item commands |
22460 | When @value{GDBN} prompts for a set of commands, like in the @code{commands} | |
22461 | command. The annotations are repeated for each command which is input. | |
22462 | ||
e5ac9b53 EZ |
22463 | @findex pre-overload-choice annotation |
22464 | @findex overload-choice annotation | |
22465 | @findex post-overload-choice annotation | |
922fbb7b AC |
22466 | @item overload-choice |
22467 | When @value{GDBN} wants the user to select between various overloaded functions. | |
22468 | ||
e5ac9b53 EZ |
22469 | @findex pre-query annotation |
22470 | @findex query annotation | |
22471 | @findex post-query annotation | |
922fbb7b AC |
22472 | @item query |
22473 | When @value{GDBN} wants the user to confirm a potentially dangerous operation. | |
22474 | ||
e5ac9b53 EZ |
22475 | @findex pre-prompt-for-continue annotation |
22476 | @findex prompt-for-continue annotation | |
22477 | @findex post-prompt-for-continue annotation | |
922fbb7b AC |
22478 | @item prompt-for-continue |
22479 | When @value{GDBN} is asking the user to press return to continue. Note: Don't | |
22480 | expect this to work well; instead use @code{set height 0} to disable | |
22481 | prompting. This is because the counting of lines is buggy in the | |
22482 | presence of annotations. | |
22483 | @end table | |
22484 | ||
22485 | @node Errors | |
22486 | @section Errors | |
22487 | @cindex annotations for errors, warnings and interrupts | |
22488 | ||
e5ac9b53 | 22489 | @findex quit annotation |
922fbb7b AC |
22490 | @smallexample |
22491 | ^Z^Zquit | |
22492 | @end smallexample | |
22493 | ||
22494 | This annotation occurs right before @value{GDBN} responds to an interrupt. | |
22495 | ||
e5ac9b53 | 22496 | @findex error annotation |
922fbb7b AC |
22497 | @smallexample |
22498 | ^Z^Zerror | |
22499 | @end smallexample | |
22500 | ||
22501 | This annotation occurs right before @value{GDBN} responds to an error. | |
22502 | ||
22503 | Quit and error annotations indicate that any annotations which @value{GDBN} was | |
22504 | in the middle of may end abruptly. For example, if a | |
22505 | @code{value-history-begin} annotation is followed by a @code{error}, one | |
22506 | cannot expect to receive the matching @code{value-history-end}. One | |
22507 | cannot expect not to receive it either, however; an error annotation | |
22508 | does not necessarily mean that @value{GDBN} is immediately returning all the way | |
22509 | to the top level. | |
22510 | ||
e5ac9b53 | 22511 | @findex error-begin annotation |
922fbb7b AC |
22512 | A quit or error annotation may be preceded by |
22513 | ||
22514 | @smallexample | |
22515 | ^Z^Zerror-begin | |
22516 | @end smallexample | |
22517 | ||
22518 | Any output between that and the quit or error annotation is the error | |
22519 | message. | |
22520 | ||
22521 | Warning messages are not yet annotated. | |
22522 | @c If we want to change that, need to fix warning(), type_error(), | |
22523 | @c range_error(), and possibly other places. | |
22524 | ||
922fbb7b AC |
22525 | @node Invalidation |
22526 | @section Invalidation Notices | |
22527 | ||
22528 | @cindex annotations for invalidation messages | |
22529 | The following annotations say that certain pieces of state may have | |
22530 | changed. | |
22531 | ||
22532 | @table @code | |
e5ac9b53 | 22533 | @findex frames-invalid annotation |
922fbb7b AC |
22534 | @item ^Z^Zframes-invalid |
22535 | ||
22536 | The frames (for example, output from the @code{backtrace} command) may | |
22537 | have changed. | |
22538 | ||
e5ac9b53 | 22539 | @findex breakpoints-invalid annotation |
922fbb7b AC |
22540 | @item ^Z^Zbreakpoints-invalid |
22541 | ||
22542 | The breakpoints may have changed. For example, the user just added or | |
22543 | deleted a breakpoint. | |
22544 | @end table | |
22545 | ||
22546 | @node Annotations for Running | |
22547 | @section Running the Program | |
22548 | @cindex annotations for running programs | |
22549 | ||
e5ac9b53 EZ |
22550 | @findex starting annotation |
22551 | @findex stopping annotation | |
922fbb7b | 22552 | When the program starts executing due to a @value{GDBN} command such as |
b383017d | 22553 | @code{step} or @code{continue}, |
922fbb7b AC |
22554 | |
22555 | @smallexample | |
22556 | ^Z^Zstarting | |
22557 | @end smallexample | |
22558 | ||
b383017d | 22559 | is output. When the program stops, |
922fbb7b AC |
22560 | |
22561 | @smallexample | |
22562 | ^Z^Zstopped | |
22563 | @end smallexample | |
22564 | ||
22565 | is output. Before the @code{stopped} annotation, a variety of | |
22566 | annotations describe how the program stopped. | |
22567 | ||
22568 | @table @code | |
e5ac9b53 | 22569 | @findex exited annotation |
922fbb7b AC |
22570 | @item ^Z^Zexited @var{exit-status} |
22571 | The program exited, and @var{exit-status} is the exit status (zero for | |
22572 | successful exit, otherwise nonzero). | |
22573 | ||
e5ac9b53 EZ |
22574 | @findex signalled annotation |
22575 | @findex signal-name annotation | |
22576 | @findex signal-name-end annotation | |
22577 | @findex signal-string annotation | |
22578 | @findex signal-string-end annotation | |
922fbb7b AC |
22579 | @item ^Z^Zsignalled |
22580 | The program exited with a signal. After the @code{^Z^Zsignalled}, the | |
22581 | annotation continues: | |
22582 | ||
22583 | @smallexample | |
22584 | @var{intro-text} | |
22585 | ^Z^Zsignal-name | |
22586 | @var{name} | |
22587 | ^Z^Zsignal-name-end | |
22588 | @var{middle-text} | |
22589 | ^Z^Zsignal-string | |
22590 | @var{string} | |
22591 | ^Z^Zsignal-string-end | |
22592 | @var{end-text} | |
22593 | @end smallexample | |
22594 | ||
22595 | @noindent | |
22596 | where @var{name} is the name of the signal, such as @code{SIGILL} or | |
22597 | @code{SIGSEGV}, and @var{string} is the explanation of the signal, such | |
22598 | as @code{Illegal Instruction} or @code{Segmentation fault}. | |
22599 | @var{intro-text}, @var{middle-text}, and @var{end-text} are for the | |
22600 | user's benefit and have no particular format. | |
22601 | ||
e5ac9b53 | 22602 | @findex signal annotation |
922fbb7b AC |
22603 | @item ^Z^Zsignal |
22604 | The syntax of this annotation is just like @code{signalled}, but @value{GDBN} is | |
22605 | just saying that the program received the signal, not that it was | |
22606 | terminated with it. | |
22607 | ||
e5ac9b53 | 22608 | @findex breakpoint annotation |
922fbb7b AC |
22609 | @item ^Z^Zbreakpoint @var{number} |
22610 | The program hit breakpoint number @var{number}. | |
22611 | ||
e5ac9b53 | 22612 | @findex watchpoint annotation |
922fbb7b AC |
22613 | @item ^Z^Zwatchpoint @var{number} |
22614 | The program hit watchpoint number @var{number}. | |
22615 | @end table | |
22616 | ||
22617 | @node Source Annotations | |
22618 | @section Displaying Source | |
22619 | @cindex annotations for source display | |
22620 | ||
e5ac9b53 | 22621 | @findex source annotation |
922fbb7b AC |
22622 | The following annotation is used instead of displaying source code: |
22623 | ||
22624 | @smallexample | |
22625 | ^Z^Zsource @var{filename}:@var{line}:@var{character}:@var{middle}:@var{addr} | |
22626 | @end smallexample | |
22627 | ||
22628 | where @var{filename} is an absolute file name indicating which source | |
22629 | file, @var{line} is the line number within that file (where 1 is the | |
22630 | first line in the file), @var{character} is the character position | |
22631 | within the file (where 0 is the first character in the file) (for most | |
22632 | debug formats this will necessarily point to the beginning of a line), | |
22633 | @var{middle} is @samp{middle} if @var{addr} is in the middle of the | |
22634 | line, or @samp{beg} if @var{addr} is at the beginning of the line, and | |
22635 | @var{addr} is the address in the target program associated with the | |
22636 | source which is being displayed. @var{addr} is in the form @samp{0x} | |
22637 | followed by one or more lowercase hex digits (note that this does not | |
22638 | depend on the language). | |
22639 | ||
8e04817f AC |
22640 | @node GDB Bugs |
22641 | @chapter Reporting Bugs in @value{GDBN} | |
22642 | @cindex bugs in @value{GDBN} | |
22643 | @cindex reporting bugs in @value{GDBN} | |
c906108c | 22644 | |
8e04817f | 22645 | Your bug reports play an essential role in making @value{GDBN} reliable. |
c906108c | 22646 | |
8e04817f AC |
22647 | Reporting a bug may help you by bringing a solution to your problem, or it |
22648 | may not. But in any case the principal function of a bug report is to help | |
22649 | the entire community by making the next version of @value{GDBN} work better. Bug | |
22650 | reports are your contribution to the maintenance of @value{GDBN}. | |
c906108c | 22651 | |
8e04817f AC |
22652 | In order for a bug report to serve its purpose, you must include the |
22653 | information that enables us to fix the bug. | |
c4555f82 SC |
22654 | |
22655 | @menu | |
8e04817f AC |
22656 | * Bug Criteria:: Have you found a bug? |
22657 | * Bug Reporting:: How to report bugs | |
c4555f82 SC |
22658 | @end menu |
22659 | ||
8e04817f | 22660 | @node Bug Criteria |
79a6e687 | 22661 | @section Have You Found a Bug? |
8e04817f | 22662 | @cindex bug criteria |
c4555f82 | 22663 | |
8e04817f | 22664 | If you are not sure whether you have found a bug, here are some guidelines: |
c4555f82 SC |
22665 | |
22666 | @itemize @bullet | |
8e04817f AC |
22667 | @cindex fatal signal |
22668 | @cindex debugger crash | |
22669 | @cindex crash of debugger | |
c4555f82 | 22670 | @item |
8e04817f AC |
22671 | If the debugger gets a fatal signal, for any input whatever, that is a |
22672 | @value{GDBN} bug. Reliable debuggers never crash. | |
22673 | ||
22674 | @cindex error on valid input | |
22675 | @item | |
22676 | If @value{GDBN} produces an error message for valid input, that is a | |
22677 | bug. (Note that if you're cross debugging, the problem may also be | |
22678 | somewhere in the connection to the target.) | |
c4555f82 | 22679 | |
8e04817f | 22680 | @cindex invalid input |
c4555f82 | 22681 | @item |
8e04817f AC |
22682 | If @value{GDBN} does not produce an error message for invalid input, |
22683 | that is a bug. However, you should note that your idea of | |
22684 | ``invalid input'' might be our idea of ``an extension'' or ``support | |
22685 | for traditional practice''. | |
22686 | ||
22687 | @item | |
22688 | If you are an experienced user of debugging tools, your suggestions | |
22689 | for improvement of @value{GDBN} are welcome in any case. | |
c4555f82 SC |
22690 | @end itemize |
22691 | ||
8e04817f | 22692 | @node Bug Reporting |
79a6e687 | 22693 | @section How to Report Bugs |
8e04817f AC |
22694 | @cindex bug reports |
22695 | @cindex @value{GDBN} bugs, reporting | |
22696 | ||
22697 | A number of companies and individuals offer support for @sc{gnu} products. | |
22698 | If you obtained @value{GDBN} from a support organization, we recommend you | |
22699 | contact that organization first. | |
22700 | ||
22701 | You can find contact information for many support companies and | |
22702 | individuals in the file @file{etc/SERVICE} in the @sc{gnu} Emacs | |
22703 | distribution. | |
22704 | @c should add a web page ref... | |
22705 | ||
c16158bc JM |
22706 | @ifset BUGURL |
22707 | @ifset BUGURL_DEFAULT | |
129188f6 | 22708 | In any event, we also recommend that you submit bug reports for |
d3e8051b | 22709 | @value{GDBN}. The preferred method is to submit them directly using |
129188f6 AC |
22710 | @uref{http://www.gnu.org/software/gdb/bugs/, @value{GDBN}'s Bugs web |
22711 | page}. Alternatively, the @email{bug-gdb@@gnu.org, e-mail gateway} can | |
22712 | be used. | |
8e04817f AC |
22713 | |
22714 | @strong{Do not send bug reports to @samp{info-gdb}, or to | |
22715 | @samp{help-gdb}, or to any newsgroups.} Most users of @value{GDBN} do | |
22716 | not want to receive bug reports. Those that do have arranged to receive | |
22717 | @samp{bug-gdb}. | |
22718 | ||
22719 | The mailing list @samp{bug-gdb} has a newsgroup @samp{gnu.gdb.bug} which | |
22720 | serves as a repeater. The mailing list and the newsgroup carry exactly | |
22721 | the same messages. Often people think of posting bug reports to the | |
22722 | newsgroup instead of mailing them. This appears to work, but it has one | |
22723 | problem which can be crucial: a newsgroup posting often lacks a mail | |
22724 | path back to the sender. Thus, if we need to ask for more information, | |
22725 | we may be unable to reach you. For this reason, it is better to send | |
22726 | bug reports to the mailing list. | |
c16158bc JM |
22727 | @end ifset |
22728 | @ifclear BUGURL_DEFAULT | |
22729 | In any event, we also recommend that you submit bug reports for | |
22730 | @value{GDBN} to @value{BUGURL}. | |
22731 | @end ifclear | |
22732 | @end ifset | |
c4555f82 | 22733 | |
8e04817f AC |
22734 | The fundamental principle of reporting bugs usefully is this: |
22735 | @strong{report all the facts}. If you are not sure whether to state a | |
22736 | fact or leave it out, state it! | |
c4555f82 | 22737 | |
8e04817f AC |
22738 | Often people omit facts because they think they know what causes the |
22739 | problem and assume that some details do not matter. Thus, you might | |
22740 | assume that the name of the variable you use in an example does not matter. | |
22741 | Well, probably it does not, but one cannot be sure. Perhaps the bug is a | |
22742 | stray memory reference which happens to fetch from the location where that | |
22743 | name is stored in memory; perhaps, if the name were different, the contents | |
22744 | of that location would fool the debugger into doing the right thing despite | |
22745 | the bug. Play it safe and give a specific, complete example. That is the | |
22746 | easiest thing for you to do, and the most helpful. | |
c4555f82 | 22747 | |
8e04817f AC |
22748 | Keep in mind that the purpose of a bug report is to enable us to fix the |
22749 | bug. It may be that the bug has been reported previously, but neither | |
22750 | you nor we can know that unless your bug report is complete and | |
22751 | self-contained. | |
c4555f82 | 22752 | |
8e04817f AC |
22753 | Sometimes people give a few sketchy facts and ask, ``Does this ring a |
22754 | bell?'' Those bug reports are useless, and we urge everyone to | |
22755 | @emph{refuse to respond to them} except to chide the sender to report | |
22756 | bugs properly. | |
22757 | ||
22758 | To enable us to fix the bug, you should include all these things: | |
c4555f82 SC |
22759 | |
22760 | @itemize @bullet | |
22761 | @item | |
8e04817f AC |
22762 | The version of @value{GDBN}. @value{GDBN} announces it if you start |
22763 | with no arguments; you can also print it at any time using @code{show | |
22764 | version}. | |
c4555f82 | 22765 | |
8e04817f AC |
22766 | Without this, we will not know whether there is any point in looking for |
22767 | the bug in the current version of @value{GDBN}. | |
c4555f82 SC |
22768 | |
22769 | @item | |
8e04817f AC |
22770 | The type of machine you are using, and the operating system name and |
22771 | version number. | |
c4555f82 SC |
22772 | |
22773 | @item | |
c1468174 | 22774 | What compiler (and its version) was used to compile @value{GDBN}---e.g.@: |
8e04817f | 22775 | ``@value{GCC}--2.8.1''. |
c4555f82 SC |
22776 | |
22777 | @item | |
8e04817f | 22778 | What compiler (and its version) was used to compile the program you are |
c1468174 | 22779 | debugging---e.g.@: ``@value{GCC}--2.8.1'', or ``HP92453-01 A.10.32.03 HP |
3f94c067 BW |
22780 | C Compiler''. For @value{NGCC}, you can say @kbd{@value{GCC} --version} |
22781 | to get this information; for other compilers, see the documentation for | |
22782 | those compilers. | |
c4555f82 | 22783 | |
8e04817f AC |
22784 | @item |
22785 | The command arguments you gave the compiler to compile your example and | |
22786 | observe the bug. For example, did you use @samp{-O}? To guarantee | |
22787 | you will not omit something important, list them all. A copy of the | |
22788 | Makefile (or the output from make) is sufficient. | |
c4555f82 | 22789 | |
8e04817f AC |
22790 | If we were to try to guess the arguments, we would probably guess wrong |
22791 | and then we might not encounter the bug. | |
c4555f82 | 22792 | |
8e04817f AC |
22793 | @item |
22794 | A complete input script, and all necessary source files, that will | |
22795 | reproduce the bug. | |
c4555f82 | 22796 | |
8e04817f AC |
22797 | @item |
22798 | A description of what behavior you observe that you believe is | |
22799 | incorrect. For example, ``It gets a fatal signal.'' | |
c4555f82 | 22800 | |
8e04817f AC |
22801 | Of course, if the bug is that @value{GDBN} gets a fatal signal, then we |
22802 | will certainly notice it. But if the bug is incorrect output, we might | |
22803 | not notice unless it is glaringly wrong. You might as well not give us | |
22804 | a chance to make a mistake. | |
c4555f82 | 22805 | |
8e04817f AC |
22806 | Even if the problem you experience is a fatal signal, you should still |
22807 | say so explicitly. Suppose something strange is going on, such as, your | |
22808 | copy of @value{GDBN} is out of synch, or you have encountered a bug in | |
22809 | the C library on your system. (This has happened!) Your copy might | |
22810 | crash and ours would not. If you told us to expect a crash, then when | |
22811 | ours fails to crash, we would know that the bug was not happening for | |
22812 | us. If you had not told us to expect a crash, then we would not be able | |
22813 | to draw any conclusion from our observations. | |
c4555f82 | 22814 | |
e0c07bf0 MC |
22815 | @pindex script |
22816 | @cindex recording a session script | |
22817 | To collect all this information, you can use a session recording program | |
22818 | such as @command{script}, which is available on many Unix systems. | |
22819 | Just run your @value{GDBN} session inside @command{script} and then | |
22820 | include the @file{typescript} file with your bug report. | |
22821 | ||
22822 | Another way to record a @value{GDBN} session is to run @value{GDBN} | |
22823 | inside Emacs and then save the entire buffer to a file. | |
22824 | ||
8e04817f AC |
22825 | @item |
22826 | If you wish to suggest changes to the @value{GDBN} source, send us context | |
22827 | diffs. If you even discuss something in the @value{GDBN} source, refer to | |
22828 | it by context, not by line number. | |
c4555f82 | 22829 | |
8e04817f AC |
22830 | The line numbers in our development sources will not match those in your |
22831 | sources. Your line numbers would convey no useful information to us. | |
c4555f82 | 22832 | |
8e04817f | 22833 | @end itemize |
c4555f82 | 22834 | |
8e04817f | 22835 | Here are some things that are not necessary: |
c4555f82 | 22836 | |
8e04817f AC |
22837 | @itemize @bullet |
22838 | @item | |
22839 | A description of the envelope of the bug. | |
c4555f82 | 22840 | |
8e04817f AC |
22841 | Often people who encounter a bug spend a lot of time investigating |
22842 | which changes to the input file will make the bug go away and which | |
22843 | changes will not affect it. | |
c4555f82 | 22844 | |
8e04817f AC |
22845 | This is often time consuming and not very useful, because the way we |
22846 | will find the bug is by running a single example under the debugger | |
22847 | with breakpoints, not by pure deduction from a series of examples. | |
22848 | We recommend that you save your time for something else. | |
c4555f82 | 22849 | |
8e04817f AC |
22850 | Of course, if you can find a simpler example to report @emph{instead} |
22851 | of the original one, that is a convenience for us. Errors in the | |
22852 | output will be easier to spot, running under the debugger will take | |
22853 | less time, and so on. | |
c4555f82 | 22854 | |
8e04817f AC |
22855 | However, simplification is not vital; if you do not want to do this, |
22856 | report the bug anyway and send us the entire test case you used. | |
c4555f82 | 22857 | |
8e04817f AC |
22858 | @item |
22859 | A patch for the bug. | |
c4555f82 | 22860 | |
8e04817f AC |
22861 | A patch for the bug does help us if it is a good one. But do not omit |
22862 | the necessary information, such as the test case, on the assumption that | |
22863 | a patch is all we need. We might see problems with your patch and decide | |
22864 | to fix the problem another way, or we might not understand it at all. | |
c4555f82 | 22865 | |
8e04817f AC |
22866 | Sometimes with a program as complicated as @value{GDBN} it is very hard to |
22867 | construct an example that will make the program follow a certain path | |
22868 | through the code. If you do not send us the example, we will not be able | |
22869 | to construct one, so we will not be able to verify that the bug is fixed. | |
c4555f82 | 22870 | |
8e04817f AC |
22871 | And if we cannot understand what bug you are trying to fix, or why your |
22872 | patch should be an improvement, we will not install it. A test case will | |
22873 | help us to understand. | |
c4555f82 | 22874 | |
8e04817f AC |
22875 | @item |
22876 | A guess about what the bug is or what it depends on. | |
c4555f82 | 22877 | |
8e04817f AC |
22878 | Such guesses are usually wrong. Even we cannot guess right about such |
22879 | things without first using the debugger to find the facts. | |
22880 | @end itemize | |
c4555f82 | 22881 | |
8e04817f AC |
22882 | @c The readline documentation is distributed with the readline code |
22883 | @c and consists of the two following files: | |
22884 | @c rluser.texinfo | |
22885 | @c inc-hist.texinfo | |
22886 | @c Use -I with makeinfo to point to the appropriate directory, | |
22887 | @c environment var TEXINPUTS with TeX. | |
5bdf8622 | 22888 | @include rluser.texi |
8e04817f | 22889 | @include inc-hist.texinfo |
c4555f82 | 22890 | |
c4555f82 | 22891 | |
8e04817f AC |
22892 | @node Formatting Documentation |
22893 | @appendix Formatting Documentation | |
c4555f82 | 22894 | |
8e04817f AC |
22895 | @cindex @value{GDBN} reference card |
22896 | @cindex reference card | |
22897 | The @value{GDBN} 4 release includes an already-formatted reference card, ready | |
22898 | for printing with PostScript or Ghostscript, in the @file{gdb} | |
22899 | subdirectory of the main source directory@footnote{In | |
22900 | @file{gdb-@value{GDBVN}/gdb/refcard.ps} of the version @value{GDBVN} | |
22901 | release.}. If you can use PostScript or Ghostscript with your printer, | |
22902 | you can print the reference card immediately with @file{refcard.ps}. | |
c4555f82 | 22903 | |
8e04817f AC |
22904 | The release also includes the source for the reference card. You |
22905 | can format it, using @TeX{}, by typing: | |
c4555f82 | 22906 | |
474c8240 | 22907 | @smallexample |
8e04817f | 22908 | make refcard.dvi |
474c8240 | 22909 | @end smallexample |
c4555f82 | 22910 | |
8e04817f AC |
22911 | The @value{GDBN} reference card is designed to print in @dfn{landscape} |
22912 | mode on US ``letter'' size paper; | |
22913 | that is, on a sheet 11 inches wide by 8.5 inches | |
22914 | high. You will need to specify this form of printing as an option to | |
22915 | your @sc{dvi} output program. | |
c4555f82 | 22916 | |
8e04817f | 22917 | @cindex documentation |
c4555f82 | 22918 | |
8e04817f AC |
22919 | All the documentation for @value{GDBN} comes as part of the machine-readable |
22920 | distribution. The documentation is written in Texinfo format, which is | |
22921 | a documentation system that uses a single source file to produce both | |
22922 | on-line information and a printed manual. You can use one of the Info | |
22923 | formatting commands to create the on-line version of the documentation | |
22924 | and @TeX{} (or @code{texi2roff}) to typeset the printed version. | |
c4555f82 | 22925 | |
8e04817f AC |
22926 | @value{GDBN} includes an already formatted copy of the on-line Info |
22927 | version of this manual in the @file{gdb} subdirectory. The main Info | |
22928 | file is @file{gdb-@value{GDBVN}/gdb/gdb.info}, and it refers to | |
22929 | subordinate files matching @samp{gdb.info*} in the same directory. If | |
22930 | necessary, you can print out these files, or read them with any editor; | |
22931 | but they are easier to read using the @code{info} subsystem in @sc{gnu} | |
22932 | Emacs or the standalone @code{info} program, available as part of the | |
22933 | @sc{gnu} Texinfo distribution. | |
c4555f82 | 22934 | |
8e04817f AC |
22935 | If you want to format these Info files yourself, you need one of the |
22936 | Info formatting programs, such as @code{texinfo-format-buffer} or | |
22937 | @code{makeinfo}. | |
c4555f82 | 22938 | |
8e04817f AC |
22939 | If you have @code{makeinfo} installed, and are in the top level |
22940 | @value{GDBN} source directory (@file{gdb-@value{GDBVN}}, in the case of | |
22941 | version @value{GDBVN}), you can make the Info file by typing: | |
c4555f82 | 22942 | |
474c8240 | 22943 | @smallexample |
8e04817f AC |
22944 | cd gdb |
22945 | make gdb.info | |
474c8240 | 22946 | @end smallexample |
c4555f82 | 22947 | |
8e04817f AC |
22948 | If you want to typeset and print copies of this manual, you need @TeX{}, |
22949 | a program to print its @sc{dvi} output files, and @file{texinfo.tex}, the | |
22950 | Texinfo definitions file. | |
c4555f82 | 22951 | |
8e04817f AC |
22952 | @TeX{} is a typesetting program; it does not print files directly, but |
22953 | produces output files called @sc{dvi} files. To print a typeset | |
22954 | document, you need a program to print @sc{dvi} files. If your system | |
22955 | has @TeX{} installed, chances are it has such a program. The precise | |
22956 | command to use depends on your system; @kbd{lpr -d} is common; another | |
22957 | (for PostScript devices) is @kbd{dvips}. The @sc{dvi} print command may | |
22958 | require a file name without any extension or a @samp{.dvi} extension. | |
c4555f82 | 22959 | |
8e04817f AC |
22960 | @TeX{} also requires a macro definitions file called |
22961 | @file{texinfo.tex}. This file tells @TeX{} how to typeset a document | |
22962 | written in Texinfo format. On its own, @TeX{} cannot either read or | |
22963 | typeset a Texinfo file. @file{texinfo.tex} is distributed with GDB | |
22964 | and is located in the @file{gdb-@var{version-number}/texinfo} | |
22965 | directory. | |
c4555f82 | 22966 | |
8e04817f | 22967 | If you have @TeX{} and a @sc{dvi} printer program installed, you can |
d3e8051b | 22968 | typeset and print this manual. First switch to the @file{gdb} |
8e04817f AC |
22969 | subdirectory of the main source directory (for example, to |
22970 | @file{gdb-@value{GDBVN}/gdb}) and type: | |
c4555f82 | 22971 | |
474c8240 | 22972 | @smallexample |
8e04817f | 22973 | make gdb.dvi |
474c8240 | 22974 | @end smallexample |
c4555f82 | 22975 | |
8e04817f | 22976 | Then give @file{gdb.dvi} to your @sc{dvi} printing program. |
c4555f82 | 22977 | |
8e04817f AC |
22978 | @node Installing GDB |
22979 | @appendix Installing @value{GDBN} | |
8e04817f | 22980 | @cindex installation |
c4555f82 | 22981 | |
7fa2210b DJ |
22982 | @menu |
22983 | * Requirements:: Requirements for building @value{GDBN} | |
db2e3e2e | 22984 | * Running Configure:: Invoking the @value{GDBN} @file{configure} script |
7fa2210b DJ |
22985 | * Separate Objdir:: Compiling @value{GDBN} in another directory |
22986 | * Config Names:: Specifying names for hosts and targets | |
22987 | * Configure Options:: Summary of options for configure | |
22988 | @end menu | |
22989 | ||
22990 | @node Requirements | |
79a6e687 | 22991 | @section Requirements for Building @value{GDBN} |
7fa2210b DJ |
22992 | @cindex building @value{GDBN}, requirements for |
22993 | ||
22994 | Building @value{GDBN} requires various tools and packages to be available. | |
22995 | Other packages will be used only if they are found. | |
22996 | ||
79a6e687 | 22997 | @heading Tools/Packages Necessary for Building @value{GDBN} |
7fa2210b DJ |
22998 | @table @asis |
22999 | @item ISO C90 compiler | |
23000 | @value{GDBN} is written in ISO C90. It should be buildable with any | |
23001 | working C90 compiler, e.g.@: GCC. | |
23002 | ||
23003 | @end table | |
23004 | ||
79a6e687 | 23005 | @heading Tools/Packages Optional for Building @value{GDBN} |
7fa2210b DJ |
23006 | @table @asis |
23007 | @item Expat | |
123dc839 | 23008 | @anchor{Expat} |
7fa2210b DJ |
23009 | @value{GDBN} can use the Expat XML parsing library. This library may be |
23010 | included with your operating system distribution; if it is not, you | |
23011 | can get the latest version from @url{http://expat.sourceforge.net}. | |
db2e3e2e | 23012 | The @file{configure} script will search for this library in several |
7fa2210b DJ |
23013 | standard locations; if it is installed in an unusual path, you can |
23014 | use the @option{--with-libexpat-prefix} option to specify its location. | |
23015 | ||
9cceb671 DJ |
23016 | Expat is used for: |
23017 | ||
23018 | @itemize @bullet | |
23019 | @item | |
23020 | Remote protocol memory maps (@pxref{Memory Map Format}) | |
23021 | @item | |
23022 | Target descriptions (@pxref{Target Descriptions}) | |
23023 | @item | |
23024 | Remote shared library lists (@pxref{Library List Format}) | |
23025 | @item | |
23026 | MS-Windows shared libraries (@pxref{Shared Libraries}) | |
23027 | @end itemize | |
7fa2210b | 23028 | |
31fffb02 CS |
23029 | @item zlib |
23030 | @cindex compressed debug sections | |
23031 | @value{GDBN} will use the @samp{zlib} library, if available, to read | |
23032 | compressed debug sections. Some linkers, such as GNU gold, are capable | |
23033 | of producing binaries with compressed debug sections. If @value{GDBN} | |
23034 | is compiled with @samp{zlib}, it will be able to read the debug | |
23035 | information in such binaries. | |
23036 | ||
23037 | The @samp{zlib} library is likely included with your operating system | |
23038 | distribution; if it is not, you can get the latest version from | |
23039 | @url{http://zlib.net}. | |
23040 | ||
7fa2210b DJ |
23041 | @end table |
23042 | ||
23043 | @node Running Configure | |
db2e3e2e | 23044 | @section Invoking the @value{GDBN} @file{configure} Script |
7fa2210b | 23045 | @cindex configuring @value{GDBN} |
db2e3e2e | 23046 | @value{GDBN} comes with a @file{configure} script that automates the process |
8e04817f AC |
23047 | of preparing @value{GDBN} for installation; you can then use @code{make} to |
23048 | build the @code{gdb} program. | |
23049 | @iftex | |
23050 | @c irrelevant in info file; it's as current as the code it lives with. | |
23051 | @footnote{If you have a more recent version of @value{GDBN} than @value{GDBVN}, | |
23052 | look at the @file{README} file in the sources; we may have improved the | |
23053 | installation procedures since publishing this manual.} | |
23054 | @end iftex | |
c4555f82 | 23055 | |
8e04817f AC |
23056 | The @value{GDBN} distribution includes all the source code you need for |
23057 | @value{GDBN} in a single directory, whose name is usually composed by | |
23058 | appending the version number to @samp{gdb}. | |
c4555f82 | 23059 | |
8e04817f AC |
23060 | For example, the @value{GDBN} version @value{GDBVN} distribution is in the |
23061 | @file{gdb-@value{GDBVN}} directory. That directory contains: | |
c4555f82 | 23062 | |
8e04817f AC |
23063 | @table @code |
23064 | @item gdb-@value{GDBVN}/configure @r{(and supporting files)} | |
23065 | script for configuring @value{GDBN} and all its supporting libraries | |
c4555f82 | 23066 | |
8e04817f AC |
23067 | @item gdb-@value{GDBVN}/gdb |
23068 | the source specific to @value{GDBN} itself | |
c4555f82 | 23069 | |
8e04817f AC |
23070 | @item gdb-@value{GDBVN}/bfd |
23071 | source for the Binary File Descriptor library | |
c906108c | 23072 | |
8e04817f AC |
23073 | @item gdb-@value{GDBVN}/include |
23074 | @sc{gnu} include files | |
c906108c | 23075 | |
8e04817f AC |
23076 | @item gdb-@value{GDBVN}/libiberty |
23077 | source for the @samp{-liberty} free software library | |
c906108c | 23078 | |
8e04817f AC |
23079 | @item gdb-@value{GDBVN}/opcodes |
23080 | source for the library of opcode tables and disassemblers | |
c906108c | 23081 | |
8e04817f AC |
23082 | @item gdb-@value{GDBVN}/readline |
23083 | source for the @sc{gnu} command-line interface | |
c906108c | 23084 | |
8e04817f AC |
23085 | @item gdb-@value{GDBVN}/glob |
23086 | source for the @sc{gnu} filename pattern-matching subroutine | |
c906108c | 23087 | |
8e04817f AC |
23088 | @item gdb-@value{GDBVN}/mmalloc |
23089 | source for the @sc{gnu} memory-mapped malloc package | |
23090 | @end table | |
c906108c | 23091 | |
db2e3e2e | 23092 | The simplest way to configure and build @value{GDBN} is to run @file{configure} |
8e04817f AC |
23093 | from the @file{gdb-@var{version-number}} source directory, which in |
23094 | this example is the @file{gdb-@value{GDBVN}} directory. | |
c906108c | 23095 | |
8e04817f | 23096 | First switch to the @file{gdb-@var{version-number}} source directory |
db2e3e2e | 23097 | if you are not already in it; then run @file{configure}. Pass the |
8e04817f AC |
23098 | identifier for the platform on which @value{GDBN} will run as an |
23099 | argument. | |
c906108c | 23100 | |
8e04817f | 23101 | For example: |
c906108c | 23102 | |
474c8240 | 23103 | @smallexample |
8e04817f AC |
23104 | cd gdb-@value{GDBVN} |
23105 | ./configure @var{host} | |
23106 | make | |
474c8240 | 23107 | @end smallexample |
c906108c | 23108 | |
8e04817f AC |
23109 | @noindent |
23110 | where @var{host} is an identifier such as @samp{sun4} or | |
23111 | @samp{decstation}, that identifies the platform where @value{GDBN} will run. | |
db2e3e2e | 23112 | (You can often leave off @var{host}; @file{configure} tries to guess the |
8e04817f | 23113 | correct value by examining your system.) |
c906108c | 23114 | |
8e04817f AC |
23115 | Running @samp{configure @var{host}} and then running @code{make} builds the |
23116 | @file{bfd}, @file{readline}, @file{mmalloc}, and @file{libiberty} | |
23117 | libraries, then @code{gdb} itself. The configured source files, and the | |
23118 | binaries, are left in the corresponding source directories. | |
c906108c | 23119 | |
8e04817f | 23120 | @need 750 |
db2e3e2e | 23121 | @file{configure} is a Bourne-shell (@code{/bin/sh}) script; if your |
8e04817f AC |
23122 | system does not recognize this automatically when you run a different |
23123 | shell, you may need to run @code{sh} on it explicitly: | |
c906108c | 23124 | |
474c8240 | 23125 | @smallexample |
8e04817f | 23126 | sh configure @var{host} |
474c8240 | 23127 | @end smallexample |
c906108c | 23128 | |
db2e3e2e | 23129 | If you run @file{configure} from a directory that contains source |
8e04817f | 23130 | directories for multiple libraries or programs, such as the |
db2e3e2e BW |
23131 | @file{gdb-@value{GDBVN}} source directory for version @value{GDBVN}, |
23132 | @file{configure} | |
8e04817f AC |
23133 | creates configuration files for every directory level underneath (unless |
23134 | you tell it not to, with the @samp{--norecursion} option). | |
23135 | ||
db2e3e2e | 23136 | You should run the @file{configure} script from the top directory in the |
94e91d6d | 23137 | source tree, the @file{gdb-@var{version-number}} directory. If you run |
db2e3e2e | 23138 | @file{configure} from one of the subdirectories, you will configure only |
94e91d6d | 23139 | that subdirectory. That is usually not what you want. In particular, |
db2e3e2e | 23140 | if you run the first @file{configure} from the @file{gdb} subdirectory |
94e91d6d MC |
23141 | of the @file{gdb-@var{version-number}} directory, you will omit the |
23142 | configuration of @file{bfd}, @file{readline}, and other sibling | |
23143 | directories of the @file{gdb} subdirectory. This leads to build errors | |
23144 | about missing include files such as @file{bfd/bfd.h}. | |
c906108c | 23145 | |
8e04817f AC |
23146 | You can install @code{@value{GDBP}} anywhere; it has no hardwired paths. |
23147 | However, you should make sure that the shell on your path (named by | |
23148 | the @samp{SHELL} environment variable) is publicly readable. Remember | |
23149 | that @value{GDBN} uses the shell to start your program---some systems refuse to | |
23150 | let @value{GDBN} debug child processes whose programs are not readable. | |
c906108c | 23151 | |
8e04817f | 23152 | @node Separate Objdir |
79a6e687 | 23153 | @section Compiling @value{GDBN} in Another Directory |
c906108c | 23154 | |
8e04817f AC |
23155 | If you want to run @value{GDBN} versions for several host or target machines, |
23156 | you need a different @code{gdb} compiled for each combination of | |
db2e3e2e | 23157 | host and target. @file{configure} is designed to make this easy by |
8e04817f AC |
23158 | allowing you to generate each configuration in a separate subdirectory, |
23159 | rather than in the source directory. If your @code{make} program | |
23160 | handles the @samp{VPATH} feature (@sc{gnu} @code{make} does), running | |
23161 | @code{make} in each of these directories builds the @code{gdb} | |
23162 | program specified there. | |
c906108c | 23163 | |
db2e3e2e | 23164 | To build @code{gdb} in a separate directory, run @file{configure} |
8e04817f | 23165 | with the @samp{--srcdir} option to specify where to find the source. |
db2e3e2e BW |
23166 | (You also need to specify a path to find @file{configure} |
23167 | itself from your working directory. If the path to @file{configure} | |
8e04817f AC |
23168 | would be the same as the argument to @samp{--srcdir}, you can leave out |
23169 | the @samp{--srcdir} option; it is assumed.) | |
c906108c | 23170 | |
8e04817f AC |
23171 | For example, with version @value{GDBVN}, you can build @value{GDBN} in a |
23172 | separate directory for a Sun 4 like this: | |
c906108c | 23173 | |
474c8240 | 23174 | @smallexample |
8e04817f AC |
23175 | @group |
23176 | cd gdb-@value{GDBVN} | |
23177 | mkdir ../gdb-sun4 | |
23178 | cd ../gdb-sun4 | |
23179 | ../gdb-@value{GDBVN}/configure sun4 | |
23180 | make | |
23181 | @end group | |
474c8240 | 23182 | @end smallexample |
c906108c | 23183 | |
db2e3e2e | 23184 | When @file{configure} builds a configuration using a remote source |
8e04817f AC |
23185 | directory, it creates a tree for the binaries with the same structure |
23186 | (and using the same names) as the tree under the source directory. In | |
23187 | the example, you'd find the Sun 4 library @file{libiberty.a} in the | |
23188 | directory @file{gdb-sun4/libiberty}, and @value{GDBN} itself in | |
23189 | @file{gdb-sun4/gdb}. | |
c906108c | 23190 | |
94e91d6d MC |
23191 | Make sure that your path to the @file{configure} script has just one |
23192 | instance of @file{gdb} in it. If your path to @file{configure} looks | |
23193 | like @file{../gdb-@value{GDBVN}/gdb/configure}, you are configuring only | |
23194 | one subdirectory of @value{GDBN}, not the whole package. This leads to | |
23195 | build errors about missing include files such as @file{bfd/bfd.h}. | |
23196 | ||
8e04817f AC |
23197 | One popular reason to build several @value{GDBN} configurations in separate |
23198 | directories is to configure @value{GDBN} for cross-compiling (where | |
23199 | @value{GDBN} runs on one machine---the @dfn{host}---while debugging | |
23200 | programs that run on another machine---the @dfn{target}). | |
23201 | You specify a cross-debugging target by | |
db2e3e2e | 23202 | giving the @samp{--target=@var{target}} option to @file{configure}. |
c906108c | 23203 | |
8e04817f AC |
23204 | When you run @code{make} to build a program or library, you must run |
23205 | it in a configured directory---whatever directory you were in when you | |
db2e3e2e | 23206 | called @file{configure} (or one of its subdirectories). |
c906108c | 23207 | |
db2e3e2e | 23208 | The @code{Makefile} that @file{configure} generates in each source |
8e04817f AC |
23209 | directory also runs recursively. If you type @code{make} in a source |
23210 | directory such as @file{gdb-@value{GDBVN}} (or in a separate configured | |
23211 | directory configured with @samp{--srcdir=@var{dirname}/gdb-@value{GDBVN}}), you | |
23212 | will build all the required libraries, and then build GDB. | |
c906108c | 23213 | |
8e04817f AC |
23214 | When you have multiple hosts or targets configured in separate |
23215 | directories, you can run @code{make} on them in parallel (for example, | |
23216 | if they are NFS-mounted on each of the hosts); they will not interfere | |
23217 | with each other. | |
c906108c | 23218 | |
8e04817f | 23219 | @node Config Names |
79a6e687 | 23220 | @section Specifying Names for Hosts and Targets |
c906108c | 23221 | |
db2e3e2e | 23222 | The specifications used for hosts and targets in the @file{configure} |
8e04817f AC |
23223 | script are based on a three-part naming scheme, but some short predefined |
23224 | aliases are also supported. The full naming scheme encodes three pieces | |
23225 | of information in the following pattern: | |
c906108c | 23226 | |
474c8240 | 23227 | @smallexample |
8e04817f | 23228 | @var{architecture}-@var{vendor}-@var{os} |
474c8240 | 23229 | @end smallexample |
c906108c | 23230 | |
8e04817f AC |
23231 | For example, you can use the alias @code{sun4} as a @var{host} argument, |
23232 | or as the value for @var{target} in a @code{--target=@var{target}} | |
23233 | option. The equivalent full name is @samp{sparc-sun-sunos4}. | |
c906108c | 23234 | |
db2e3e2e | 23235 | The @file{configure} script accompanying @value{GDBN} does not provide |
8e04817f | 23236 | any query facility to list all supported host and target names or |
db2e3e2e | 23237 | aliases. @file{configure} calls the Bourne shell script |
8e04817f AC |
23238 | @code{config.sub} to map abbreviations to full names; you can read the |
23239 | script, if you wish, or you can use it to test your guesses on | |
23240 | abbreviations---for example: | |
c906108c | 23241 | |
8e04817f AC |
23242 | @smallexample |
23243 | % sh config.sub i386-linux | |
23244 | i386-pc-linux-gnu | |
23245 | % sh config.sub alpha-linux | |
23246 | alpha-unknown-linux-gnu | |
23247 | % sh config.sub hp9k700 | |
23248 | hppa1.1-hp-hpux | |
23249 | % sh config.sub sun4 | |
23250 | sparc-sun-sunos4.1.1 | |
23251 | % sh config.sub sun3 | |
23252 | m68k-sun-sunos4.1.1 | |
23253 | % sh config.sub i986v | |
23254 | Invalid configuration `i986v': machine `i986v' not recognized | |
23255 | @end smallexample | |
c906108c | 23256 | |
8e04817f AC |
23257 | @noindent |
23258 | @code{config.sub} is also distributed in the @value{GDBN} source | |
23259 | directory (@file{gdb-@value{GDBVN}}, for version @value{GDBVN}). | |
d700128c | 23260 | |
8e04817f | 23261 | @node Configure Options |
db2e3e2e | 23262 | @section @file{configure} Options |
c906108c | 23263 | |
db2e3e2e BW |
23264 | Here is a summary of the @file{configure} options and arguments that |
23265 | are most often useful for building @value{GDBN}. @file{configure} also has | |
8e04817f | 23266 | several other options not listed here. @inforef{What Configure |
db2e3e2e | 23267 | Does,,configure.info}, for a full explanation of @file{configure}. |
c906108c | 23268 | |
474c8240 | 23269 | @smallexample |
8e04817f AC |
23270 | configure @r{[}--help@r{]} |
23271 | @r{[}--prefix=@var{dir}@r{]} | |
23272 | @r{[}--exec-prefix=@var{dir}@r{]} | |
23273 | @r{[}--srcdir=@var{dirname}@r{]} | |
23274 | @r{[}--norecursion@r{]} @r{[}--rm@r{]} | |
23275 | @r{[}--target=@var{target}@r{]} | |
23276 | @var{host} | |
474c8240 | 23277 | @end smallexample |
c906108c | 23278 | |
8e04817f AC |
23279 | @noindent |
23280 | You may introduce options with a single @samp{-} rather than | |
23281 | @samp{--} if you prefer; but you may abbreviate option names if you use | |
23282 | @samp{--}. | |
c906108c | 23283 | |
8e04817f AC |
23284 | @table @code |
23285 | @item --help | |
db2e3e2e | 23286 | Display a quick summary of how to invoke @file{configure}. |
c906108c | 23287 | |
8e04817f AC |
23288 | @item --prefix=@var{dir} |
23289 | Configure the source to install programs and files under directory | |
23290 | @file{@var{dir}}. | |
c906108c | 23291 | |
8e04817f AC |
23292 | @item --exec-prefix=@var{dir} |
23293 | Configure the source to install programs under directory | |
23294 | @file{@var{dir}}. | |
c906108c | 23295 | |
8e04817f AC |
23296 | @c avoid splitting the warning from the explanation: |
23297 | @need 2000 | |
23298 | @item --srcdir=@var{dirname} | |
23299 | @strong{Warning: using this option requires @sc{gnu} @code{make}, or another | |
23300 | @code{make} that implements the @code{VPATH} feature.}@* | |
23301 | Use this option to make configurations in directories separate from the | |
23302 | @value{GDBN} source directories. Among other things, you can use this to | |
23303 | build (or maintain) several configurations simultaneously, in separate | |
db2e3e2e | 23304 | directories. @file{configure} writes configuration-specific files in |
8e04817f | 23305 | the current directory, but arranges for them to use the source in the |
db2e3e2e | 23306 | directory @var{dirname}. @file{configure} creates directories under |
8e04817f AC |
23307 | the working directory in parallel to the source directories below |
23308 | @var{dirname}. | |
c906108c | 23309 | |
8e04817f | 23310 | @item --norecursion |
db2e3e2e | 23311 | Configure only the directory level where @file{configure} is executed; do not |
8e04817f | 23312 | propagate configuration to subdirectories. |
c906108c | 23313 | |
8e04817f AC |
23314 | @item --target=@var{target} |
23315 | Configure @value{GDBN} for cross-debugging programs running on the specified | |
23316 | @var{target}. Without this option, @value{GDBN} is configured to debug | |
23317 | programs that run on the same machine (@var{host}) as @value{GDBN} itself. | |
c906108c | 23318 | |
8e04817f | 23319 | There is no convenient way to generate a list of all available targets. |
c906108c | 23320 | |
8e04817f AC |
23321 | @item @var{host} @dots{} |
23322 | Configure @value{GDBN} to run on the specified @var{host}. | |
c906108c | 23323 | |
8e04817f AC |
23324 | There is no convenient way to generate a list of all available hosts. |
23325 | @end table | |
c906108c | 23326 | |
8e04817f AC |
23327 | There are many other options available as well, but they are generally |
23328 | needed for special purposes only. | |
c906108c | 23329 | |
8e04817f AC |
23330 | @node Maintenance Commands |
23331 | @appendix Maintenance Commands | |
23332 | @cindex maintenance commands | |
23333 | @cindex internal commands | |
c906108c | 23334 | |
8e04817f | 23335 | In addition to commands intended for @value{GDBN} users, @value{GDBN} |
09d4efe1 EZ |
23336 | includes a number of commands intended for @value{GDBN} developers, |
23337 | that are not documented elsewhere in this manual. These commands are | |
da316a69 EZ |
23338 | provided here for reference. (For commands that turn on debugging |
23339 | messages, see @ref{Debugging Output}.) | |
c906108c | 23340 | |
8e04817f | 23341 | @table @code |
09d4efe1 EZ |
23342 | @kindex maint agent |
23343 | @item maint agent @var{expression} | |
23344 | Translate the given @var{expression} into remote agent bytecodes. | |
23345 | This command is useful for debugging the Agent Expression mechanism | |
23346 | (@pxref{Agent Expressions}). | |
23347 | ||
8e04817f AC |
23348 | @kindex maint info breakpoints |
23349 | @item @anchor{maint info breakpoints}maint info breakpoints | |
23350 | Using the same format as @samp{info breakpoints}, display both the | |
23351 | breakpoints you've set explicitly, and those @value{GDBN} is using for | |
23352 | internal purposes. Internal breakpoints are shown with negative | |
23353 | breakpoint numbers. The type column identifies what kind of breakpoint | |
23354 | is shown: | |
c906108c | 23355 | |
8e04817f AC |
23356 | @table @code |
23357 | @item breakpoint | |
23358 | Normal, explicitly set breakpoint. | |
c906108c | 23359 | |
8e04817f AC |
23360 | @item watchpoint |
23361 | Normal, explicitly set watchpoint. | |
c906108c | 23362 | |
8e04817f AC |
23363 | @item longjmp |
23364 | Internal breakpoint, used to handle correctly stepping through | |
23365 | @code{longjmp} calls. | |
c906108c | 23366 | |
8e04817f AC |
23367 | @item longjmp resume |
23368 | Internal breakpoint at the target of a @code{longjmp}. | |
c906108c | 23369 | |
8e04817f AC |
23370 | @item until |
23371 | Temporary internal breakpoint used by the @value{GDBN} @code{until} command. | |
c906108c | 23372 | |
8e04817f AC |
23373 | @item finish |
23374 | Temporary internal breakpoint used by the @value{GDBN} @code{finish} command. | |
c906108c | 23375 | |
8e04817f AC |
23376 | @item shlib events |
23377 | Shared library events. | |
c906108c | 23378 | |
8e04817f | 23379 | @end table |
c906108c | 23380 | |
237fc4c9 PA |
23381 | @kindex maint set can-use-displaced-stepping |
23382 | @kindex maint show can-use-displaced-stepping | |
23383 | @cindex displaced stepping support | |
23384 | @cindex out-of-line single-stepping | |
23385 | @item maint set can-use-displaced-stepping | |
23386 | @itemx maint show can-use-displaced-stepping | |
23387 | Control whether or not @value{GDBN} will do @dfn{displaced stepping} | |
23388 | if the target supports it. The default is on. Displaced stepping is | |
23389 | a way to single-step over breakpoints without removing them from the | |
23390 | inferior, by executing an out-of-line copy of the instruction that was | |
23391 | originally at the breakpoint location. It is also known as | |
23392 | out-of-line single-stepping. | |
23393 | ||
09d4efe1 EZ |
23394 | @kindex maint check-symtabs |
23395 | @item maint check-symtabs | |
23396 | Check the consistency of psymtabs and symtabs. | |
23397 | ||
23398 | @kindex maint cplus first_component | |
23399 | @item maint cplus first_component @var{name} | |
23400 | Print the first C@t{++} class/namespace component of @var{name}. | |
23401 | ||
23402 | @kindex maint cplus namespace | |
23403 | @item maint cplus namespace | |
23404 | Print the list of possible C@t{++} namespaces. | |
23405 | ||
23406 | @kindex maint demangle | |
23407 | @item maint demangle @var{name} | |
d3e8051b | 23408 | Demangle a C@t{++} or Objective-C mangled @var{name}. |
09d4efe1 EZ |
23409 | |
23410 | @kindex maint deprecate | |
23411 | @kindex maint undeprecate | |
23412 | @cindex deprecated commands | |
23413 | @item maint deprecate @var{command} @r{[}@var{replacement}@r{]} | |
23414 | @itemx maint undeprecate @var{command} | |
23415 | Deprecate or undeprecate the named @var{command}. Deprecated commands | |
23416 | cause @value{GDBN} to issue a warning when you use them. The optional | |
23417 | argument @var{replacement} says which newer command should be used in | |
23418 | favor of the deprecated one; if it is given, @value{GDBN} will mention | |
23419 | the replacement as part of the warning. | |
23420 | ||
23421 | @kindex maint dump-me | |
23422 | @item maint dump-me | |
721c2651 | 23423 | @cindex @code{SIGQUIT} signal, dump core of @value{GDBN} |
09d4efe1 | 23424 | Cause a fatal signal in the debugger and force it to dump its core. |
721c2651 EZ |
23425 | This is supported only on systems which support aborting a program |
23426 | with the @code{SIGQUIT} signal. | |
09d4efe1 | 23427 | |
8d30a00d AC |
23428 | @kindex maint internal-error |
23429 | @kindex maint internal-warning | |
09d4efe1 EZ |
23430 | @item maint internal-error @r{[}@var{message-text}@r{]} |
23431 | @itemx maint internal-warning @r{[}@var{message-text}@r{]} | |
8d30a00d AC |
23432 | Cause @value{GDBN} to call the internal function @code{internal_error} |
23433 | or @code{internal_warning} and hence behave as though an internal error | |
23434 | or internal warning has been detected. In addition to reporting the | |
23435 | internal problem, these functions give the user the opportunity to | |
23436 | either quit @value{GDBN} or create a core file of the current | |
23437 | @value{GDBN} session. | |
23438 | ||
09d4efe1 EZ |
23439 | These commands take an optional parameter @var{message-text} that is |
23440 | used as the text of the error or warning message. | |
23441 | ||
d3e8051b | 23442 | Here's an example of using @code{internal-error}: |
09d4efe1 | 23443 | |
8d30a00d | 23444 | @smallexample |
f7dc1244 | 23445 | (@value{GDBP}) @kbd{maint internal-error testing, 1, 2} |
8d30a00d AC |
23446 | @dots{}/maint.c:121: internal-error: testing, 1, 2 |
23447 | A problem internal to GDB has been detected. Further | |
23448 | debugging may prove unreliable. | |
23449 | Quit this debugging session? (y or n) @kbd{n} | |
23450 | Create a core file? (y or n) @kbd{n} | |
f7dc1244 | 23451 | (@value{GDBP}) |
8d30a00d AC |
23452 | @end smallexample |
23453 | ||
09d4efe1 EZ |
23454 | @kindex maint packet |
23455 | @item maint packet @var{text} | |
23456 | If @value{GDBN} is talking to an inferior via the serial protocol, | |
23457 | then this command sends the string @var{text} to the inferior, and | |
23458 | displays the response packet. @value{GDBN} supplies the initial | |
23459 | @samp{$} character, the terminating @samp{#} character, and the | |
23460 | checksum. | |
23461 | ||
23462 | @kindex maint print architecture | |
23463 | @item maint print architecture @r{[}@var{file}@r{]} | |
23464 | Print the entire architecture configuration. The optional argument | |
23465 | @var{file} names the file where the output goes. | |
8d30a00d | 23466 | |
81adfced DJ |
23467 | @kindex maint print c-tdesc |
23468 | @item maint print c-tdesc | |
23469 | Print the current target description (@pxref{Target Descriptions}) as | |
23470 | a C source file. The created source file can be used in @value{GDBN} | |
23471 | when an XML parser is not available to parse the description. | |
23472 | ||
00905d52 AC |
23473 | @kindex maint print dummy-frames |
23474 | @item maint print dummy-frames | |
00905d52 AC |
23475 | Prints the contents of @value{GDBN}'s internal dummy-frame stack. |
23476 | ||
23477 | @smallexample | |
f7dc1244 | 23478 | (@value{GDBP}) @kbd{b add} |
00905d52 | 23479 | @dots{} |
f7dc1244 | 23480 | (@value{GDBP}) @kbd{print add(2,3)} |
00905d52 AC |
23481 | Breakpoint 2, add (a=2, b=3) at @dots{} |
23482 | 58 return (a + b); | |
23483 | The program being debugged stopped while in a function called from GDB. | |
23484 | @dots{} | |
f7dc1244 | 23485 | (@value{GDBP}) @kbd{maint print dummy-frames} |
00905d52 AC |
23486 | 0x1a57c80: pc=0x01014068 fp=0x0200bddc sp=0x0200bdd6 |
23487 | top=0x0200bdd4 id=@{stack=0x200bddc,code=0x101405c@} | |
23488 | call_lo=0x01014000 call_hi=0x01014001 | |
f7dc1244 | 23489 | (@value{GDBP}) |
00905d52 AC |
23490 | @end smallexample |
23491 | ||
23492 | Takes an optional file parameter. | |
23493 | ||
0680b120 AC |
23494 | @kindex maint print registers |
23495 | @kindex maint print raw-registers | |
23496 | @kindex maint print cooked-registers | |
617073a9 | 23497 | @kindex maint print register-groups |
09d4efe1 EZ |
23498 | @item maint print registers @r{[}@var{file}@r{]} |
23499 | @itemx maint print raw-registers @r{[}@var{file}@r{]} | |
23500 | @itemx maint print cooked-registers @r{[}@var{file}@r{]} | |
23501 | @itemx maint print register-groups @r{[}@var{file}@r{]} | |
0680b120 AC |
23502 | Print @value{GDBN}'s internal register data structures. |
23503 | ||
617073a9 AC |
23504 | The command @code{maint print raw-registers} includes the contents of |
23505 | the raw register cache; the command @code{maint print cooked-registers} | |
23506 | includes the (cooked) value of all registers; and the command | |
23507 | @code{maint print register-groups} includes the groups that each | |
23508 | register is a member of. @xref{Registers,, Registers, gdbint, | |
23509 | @value{GDBN} Internals}. | |
0680b120 | 23510 | |
09d4efe1 EZ |
23511 | These commands take an optional parameter, a file name to which to |
23512 | write the information. | |
0680b120 | 23513 | |
617073a9 | 23514 | @kindex maint print reggroups |
09d4efe1 EZ |
23515 | @item maint print reggroups @r{[}@var{file}@r{]} |
23516 | Print @value{GDBN}'s internal register group data structures. The | |
23517 | optional argument @var{file} tells to what file to write the | |
23518 | information. | |
617073a9 | 23519 | |
09d4efe1 | 23520 | The register groups info looks like this: |
617073a9 AC |
23521 | |
23522 | @smallexample | |
f7dc1244 | 23523 | (@value{GDBP}) @kbd{maint print reggroups} |
b383017d RM |
23524 | Group Type |
23525 | general user | |
23526 | float user | |
23527 | all user | |
23528 | vector user | |
23529 | system user | |
23530 | save internal | |
23531 | restore internal | |
617073a9 AC |
23532 | @end smallexample |
23533 | ||
09d4efe1 EZ |
23534 | @kindex flushregs |
23535 | @item flushregs | |
23536 | This command forces @value{GDBN} to flush its internal register cache. | |
23537 | ||
23538 | @kindex maint print objfiles | |
23539 | @cindex info for known object files | |
23540 | @item maint print objfiles | |
23541 | Print a dump of all known object files. For each object file, this | |
23542 | command prints its name, address in memory, and all of its psymtabs | |
23543 | and symtabs. | |
23544 | ||
23545 | @kindex maint print statistics | |
23546 | @cindex bcache statistics | |
23547 | @item maint print statistics | |
23548 | This command prints, for each object file in the program, various data | |
23549 | about that object file followed by the byte cache (@dfn{bcache}) | |
23550 | statistics for the object file. The objfile data includes the number | |
d3e8051b | 23551 | of minimal, partial, full, and stabs symbols, the number of types |
09d4efe1 EZ |
23552 | defined by the objfile, the number of as yet unexpanded psym tables, |
23553 | the number of line tables and string tables, and the amount of memory | |
23554 | used by the various tables. The bcache statistics include the counts, | |
23555 | sizes, and counts of duplicates of all and unique objects, max, | |
23556 | average, and median entry size, total memory used and its overhead and | |
23557 | savings, and various measures of the hash table size and chain | |
23558 | lengths. | |
23559 | ||
c7ba131e JB |
23560 | @kindex maint print target-stack |
23561 | @cindex target stack description | |
23562 | @item maint print target-stack | |
23563 | A @dfn{target} is an interface between the debugger and a particular | |
23564 | kind of file or process. Targets can be stacked in @dfn{strata}, | |
23565 | so that more than one target can potentially respond to a request. | |
23566 | In particular, memory accesses will walk down the stack of targets | |
23567 | until they find a target that is interested in handling that particular | |
23568 | address. | |
23569 | ||
23570 | This command prints a short description of each layer that was pushed on | |
23571 | the @dfn{target stack}, starting from the top layer down to the bottom one. | |
23572 | ||
09d4efe1 EZ |
23573 | @kindex maint print type |
23574 | @cindex type chain of a data type | |
23575 | @item maint print type @var{expr} | |
23576 | Print the type chain for a type specified by @var{expr}. The argument | |
23577 | can be either a type name or a symbol. If it is a symbol, the type of | |
23578 | that symbol is described. The type chain produced by this command is | |
23579 | a recursive definition of the data type as stored in @value{GDBN}'s | |
23580 | data structures, including its flags and contained types. | |
23581 | ||
23582 | @kindex maint set dwarf2 max-cache-age | |
23583 | @kindex maint show dwarf2 max-cache-age | |
23584 | @item maint set dwarf2 max-cache-age | |
23585 | @itemx maint show dwarf2 max-cache-age | |
23586 | Control the DWARF 2 compilation unit cache. | |
23587 | ||
23588 | @cindex DWARF 2 compilation units cache | |
23589 | In object files with inter-compilation-unit references, such as those | |
23590 | produced by the GCC option @samp{-feliminate-dwarf2-dups}, the DWARF 2 | |
23591 | reader needs to frequently refer to previously read compilation units. | |
23592 | This setting controls how long a compilation unit will remain in the | |
23593 | cache if it is not referenced. A higher limit means that cached | |
23594 | compilation units will be stored in memory longer, and more total | |
23595 | memory will be used. Setting it to zero disables caching, which will | |
23596 | slow down @value{GDBN} startup, but reduce memory consumption. | |
23597 | ||
e7ba9c65 DJ |
23598 | @kindex maint set profile |
23599 | @kindex maint show profile | |
23600 | @cindex profiling GDB | |
23601 | @item maint set profile | |
23602 | @itemx maint show profile | |
23603 | Control profiling of @value{GDBN}. | |
23604 | ||
23605 | Profiling will be disabled until you use the @samp{maint set profile} | |
23606 | command to enable it. When you enable profiling, the system will begin | |
23607 | collecting timing and execution count data; when you disable profiling or | |
23608 | exit @value{GDBN}, the results will be written to a log file. Remember that | |
23609 | if you use profiling, @value{GDBN} will overwrite the profiling log file | |
23610 | (often called @file{gmon.out}). If you have a record of important profiling | |
23611 | data in a @file{gmon.out} file, be sure to move it to a safe location. | |
23612 | ||
23613 | Configuring with @samp{--enable-profiling} arranges for @value{GDBN} to be | |
b383017d | 23614 | compiled with the @samp{-pg} compiler option. |
e7ba9c65 | 23615 | |
b84876c2 PA |
23616 | @kindex maint set linux-async |
23617 | @kindex maint show linux-async | |
23618 | @cindex asynchronous support | |
23619 | @item maint set linux-async | |
23620 | @itemx maint show linux-async | |
23621 | Control the GNU/Linux native asynchronous support of @value{GDBN}. | |
23622 | ||
23623 | GNU/Linux native asynchronous support will be disabled until you use | |
23624 | the @samp{maint set linux-async} command to enable it. | |
23625 | ||
75c99385 PA |
23626 | @kindex maint set remote-async |
23627 | @kindex maint show remote-async | |
23628 | @cindex asynchronous support | |
23629 | @item maint set remote-async | |
23630 | @itemx maint show remote-async | |
23631 | Control the remote asynchronous support of @value{GDBN}. | |
23632 | ||
23633 | Remote asynchronous support will be disabled until you use | |
23634 | the @samp{maint set remote-async} command to enable it. | |
23635 | ||
09d4efe1 EZ |
23636 | @kindex maint show-debug-regs |
23637 | @cindex x86 hardware debug registers | |
23638 | @item maint show-debug-regs | |
23639 | Control whether to show variables that mirror the x86 hardware debug | |
23640 | registers. Use @code{ON} to enable, @code{OFF} to disable. If | |
3f94c067 | 23641 | enabled, the debug registers values are shown when @value{GDBN} inserts or |
09d4efe1 EZ |
23642 | removes a hardware breakpoint or watchpoint, and when the inferior |
23643 | triggers a hardware-assisted breakpoint or watchpoint. | |
23644 | ||
23645 | @kindex maint space | |
23646 | @cindex memory used by commands | |
23647 | @item maint space | |
23648 | Control whether to display memory usage for each command. If set to a | |
23649 | nonzero value, @value{GDBN} will display how much memory each command | |
23650 | took, following the command's own output. This can also be requested | |
23651 | by invoking @value{GDBN} with the @option{--statistics} command-line | |
23652 | switch (@pxref{Mode Options}). | |
23653 | ||
23654 | @kindex maint time | |
23655 | @cindex time of command execution | |
23656 | @item maint time | |
23657 | Control whether to display the execution time for each command. If | |
23658 | set to a nonzero value, @value{GDBN} will display how much time it | |
23659 | took to execute each command, following the command's own output. | |
e2b7ddea VP |
23660 | The time is not printed for the commands that run the target, since |
23661 | there's no mechanism currently to compute how much time was spend | |
23662 | by @value{GDBN} and how much time was spend by the program been debugged. | |
23663 | it's not possibly currently | |
09d4efe1 EZ |
23664 | This can also be requested by invoking @value{GDBN} with the |
23665 | @option{--statistics} command-line switch (@pxref{Mode Options}). | |
23666 | ||
23667 | @kindex maint translate-address | |
23668 | @item maint translate-address @r{[}@var{section}@r{]} @var{addr} | |
23669 | Find the symbol stored at the location specified by the address | |
23670 | @var{addr} and an optional section name @var{section}. If found, | |
23671 | @value{GDBN} prints the name of the closest symbol and an offset from | |
23672 | the symbol's location to the specified address. This is similar to | |
23673 | the @code{info address} command (@pxref{Symbols}), except that this | |
23674 | command also allows to find symbols in other sections. | |
ae038cb0 | 23675 | |
8e04817f | 23676 | @end table |
c906108c | 23677 | |
9c16f35a EZ |
23678 | The following command is useful for non-interactive invocations of |
23679 | @value{GDBN}, such as in the test suite. | |
23680 | ||
23681 | @table @code | |
23682 | @item set watchdog @var{nsec} | |
23683 | @kindex set watchdog | |
23684 | @cindex watchdog timer | |
23685 | @cindex timeout for commands | |
23686 | Set the maximum number of seconds @value{GDBN} will wait for the | |
23687 | target operation to finish. If this time expires, @value{GDBN} | |
23688 | reports and error and the command is aborted. | |
23689 | ||
23690 | @item show watchdog | |
23691 | Show the current setting of the target wait timeout. | |
23692 | @end table | |
c906108c | 23693 | |
e0ce93ac | 23694 | @node Remote Protocol |
8e04817f | 23695 | @appendix @value{GDBN} Remote Serial Protocol |
c906108c | 23696 | |
ee2d5c50 AC |
23697 | @menu |
23698 | * Overview:: | |
23699 | * Packets:: | |
23700 | * Stop Reply Packets:: | |
23701 | * General Query Packets:: | |
23702 | * Register Packet Format:: | |
9d29849a | 23703 | * Tracepoint Packets:: |
a6b151f1 | 23704 | * Host I/O Packets:: |
9a6253be | 23705 | * Interrupts:: |
ee2d5c50 | 23706 | * Examples:: |
79a6e687 | 23707 | * File-I/O Remote Protocol Extension:: |
cfa9d6d9 | 23708 | * Library List Format:: |
79a6e687 | 23709 | * Memory Map Format:: |
ee2d5c50 AC |
23710 | @end menu |
23711 | ||
23712 | @node Overview | |
23713 | @section Overview | |
23714 | ||
8e04817f AC |
23715 | There may be occasions when you need to know something about the |
23716 | protocol---for example, if there is only one serial port to your target | |
23717 | machine, you might want your program to do something special if it | |
23718 | recognizes a packet meant for @value{GDBN}. | |
c906108c | 23719 | |
d2c6833e | 23720 | In the examples below, @samp{->} and @samp{<-} are used to indicate |
bf06d120 | 23721 | transmitted and received data, respectively. |
c906108c | 23722 | |
8e04817f AC |
23723 | @cindex protocol, @value{GDBN} remote serial |
23724 | @cindex serial protocol, @value{GDBN} remote | |
23725 | @cindex remote serial protocol | |
23726 | All @value{GDBN} commands and responses (other than acknowledgments) are | |
23727 | sent as a @var{packet}. A @var{packet} is introduced with the character | |
23728 | @samp{$}, the actual @var{packet-data}, and the terminating character | |
23729 | @samp{#} followed by a two-digit @var{checksum}: | |
c906108c | 23730 | |
474c8240 | 23731 | @smallexample |
8e04817f | 23732 | @code{$}@var{packet-data}@code{#}@var{checksum} |
474c8240 | 23733 | @end smallexample |
8e04817f | 23734 | @noindent |
c906108c | 23735 | |
8e04817f AC |
23736 | @cindex checksum, for @value{GDBN} remote |
23737 | @noindent | |
23738 | The two-digit @var{checksum} is computed as the modulo 256 sum of all | |
23739 | characters between the leading @samp{$} and the trailing @samp{#} (an | |
23740 | eight bit unsigned checksum). | |
c906108c | 23741 | |
8e04817f AC |
23742 | Implementors should note that prior to @value{GDBN} 5.0 the protocol |
23743 | specification also included an optional two-digit @var{sequence-id}: | |
c906108c | 23744 | |
474c8240 | 23745 | @smallexample |
8e04817f | 23746 | @code{$}@var{sequence-id}@code{:}@var{packet-data}@code{#}@var{checksum} |
474c8240 | 23747 | @end smallexample |
c906108c | 23748 | |
8e04817f AC |
23749 | @cindex sequence-id, for @value{GDBN} remote |
23750 | @noindent | |
23751 | That @var{sequence-id} was appended to the acknowledgment. @value{GDBN} | |
23752 | has never output @var{sequence-id}s. Stubs that handle packets added | |
23753 | since @value{GDBN} 5.0 must not accept @var{sequence-id}. | |
c906108c | 23754 | |
8e04817f AC |
23755 | @cindex acknowledgment, for @value{GDBN} remote |
23756 | When either the host or the target machine receives a packet, the first | |
23757 | response expected is an acknowledgment: either @samp{+} (to indicate | |
23758 | the package was received correctly) or @samp{-} (to request | |
23759 | retransmission): | |
c906108c | 23760 | |
474c8240 | 23761 | @smallexample |
d2c6833e AC |
23762 | -> @code{$}@var{packet-data}@code{#}@var{checksum} |
23763 | <- @code{+} | |
474c8240 | 23764 | @end smallexample |
8e04817f | 23765 | @noindent |
53a5351d | 23766 | |
8e04817f AC |
23767 | The host (@value{GDBN}) sends @var{command}s, and the target (the |
23768 | debugging stub incorporated in your program) sends a @var{response}. In | |
23769 | the case of step and continue @var{command}s, the response is only sent | |
23770 | when the operation has completed (the target has again stopped). | |
c906108c | 23771 | |
8e04817f AC |
23772 | @var{packet-data} consists of a sequence of characters with the |
23773 | exception of @samp{#} and @samp{$} (see @samp{X} packet for additional | |
23774 | exceptions). | |
c906108c | 23775 | |
ee2d5c50 | 23776 | @cindex remote protocol, field separator |
0876f84a | 23777 | Fields within the packet should be separated using @samp{,} @samp{;} or |
8e04817f | 23778 | @samp{:}. Except where otherwise noted all numbers are represented in |
ee2d5c50 | 23779 | @sc{hex} with leading zeros suppressed. |
c906108c | 23780 | |
8e04817f AC |
23781 | Implementors should note that prior to @value{GDBN} 5.0, the character |
23782 | @samp{:} could not appear as the third character in a packet (as it | |
23783 | would potentially conflict with the @var{sequence-id}). | |
c906108c | 23784 | |
0876f84a DJ |
23785 | @cindex remote protocol, binary data |
23786 | @anchor{Binary Data} | |
23787 | Binary data in most packets is encoded either as two hexadecimal | |
23788 | digits per byte of binary data. This allowed the traditional remote | |
23789 | protocol to work over connections which were only seven-bit clean. | |
23790 | Some packets designed more recently assume an eight-bit clean | |
23791 | connection, and use a more efficient encoding to send and receive | |
23792 | binary data. | |
23793 | ||
23794 | The binary data representation uses @code{7d} (@sc{ascii} @samp{@}}) | |
23795 | as an escape character. Any escaped byte is transmitted as the escape | |
23796 | character followed by the original character XORed with @code{0x20}. | |
23797 | For example, the byte @code{0x7d} would be transmitted as the two | |
23798 | bytes @code{0x7d 0x5d}. The bytes @code{0x23} (@sc{ascii} @samp{#}), | |
23799 | @code{0x24} (@sc{ascii} @samp{$}), and @code{0x7d} (@sc{ascii} | |
23800 | @samp{@}}) must always be escaped. Responses sent by the stub | |
23801 | must also escape @code{0x2a} (@sc{ascii} @samp{*}), so that it | |
23802 | is not interpreted as the start of a run-length encoded sequence | |
23803 | (described next). | |
23804 | ||
1d3811f6 DJ |
23805 | Response @var{data} can be run-length encoded to save space. |
23806 | Run-length encoding replaces runs of identical characters with one | |
23807 | instance of the repeated character, followed by a @samp{*} and a | |
23808 | repeat count. The repeat count is itself sent encoded, to avoid | |
23809 | binary characters in @var{data}: a value of @var{n} is sent as | |
23810 | @code{@var{n}+29}. For a repeat count greater or equal to 3, this | |
23811 | produces a printable @sc{ascii} character, e.g.@: a space (@sc{ascii} | |
23812 | code 32) for a repeat count of 3. (This is because run-length | |
23813 | encoding starts to win for counts 3 or more.) Thus, for example, | |
23814 | @samp{0* } is a run-length encoding of ``0000'': the space character | |
23815 | after @samp{*} means repeat the leading @code{0} @w{@code{32 - 29 = | |
23816 | 3}} more times. | |
23817 | ||
23818 | The printable characters @samp{#} and @samp{$} or with a numeric value | |
23819 | greater than 126 must not be used. Runs of six repeats (@samp{#}) or | |
23820 | seven repeats (@samp{$}) can be expanded using a repeat count of only | |
23821 | five (@samp{"}). For example, @samp{00000000} can be encoded as | |
23822 | @samp{0*"00}. | |
c906108c | 23823 | |
8e04817f AC |
23824 | The error response returned for some packets includes a two character |
23825 | error number. That number is not well defined. | |
c906108c | 23826 | |
f8da2bff | 23827 | @cindex empty response, for unsupported packets |
8e04817f AC |
23828 | For any @var{command} not supported by the stub, an empty response |
23829 | (@samp{$#00}) should be returned. That way it is possible to extend the | |
23830 | protocol. A newer @value{GDBN} can tell if a packet is supported based | |
23831 | on that response. | |
c906108c | 23832 | |
b383017d RM |
23833 | A stub is required to support the @samp{g}, @samp{G}, @samp{m}, @samp{M}, |
23834 | @samp{c}, and @samp{s} @var{command}s. All other @var{command}s are | |
8e04817f | 23835 | optional. |
c906108c | 23836 | |
ee2d5c50 AC |
23837 | @node Packets |
23838 | @section Packets | |
23839 | ||
23840 | The following table provides a complete list of all currently defined | |
23841 | @var{command}s and their corresponding response @var{data}. | |
79a6e687 | 23842 | @xref{File-I/O Remote Protocol Extension}, for details about the File |
9c16f35a | 23843 | I/O extension of the remote protocol. |
ee2d5c50 | 23844 | |
b8ff78ce JB |
23845 | Each packet's description has a template showing the packet's overall |
23846 | syntax, followed by an explanation of the packet's meaning. We | |
23847 | include spaces in some of the templates for clarity; these are not | |
23848 | part of the packet's syntax. No @value{GDBN} packet uses spaces to | |
23849 | separate its components. For example, a template like @samp{foo | |
23850 | @var{bar} @var{baz}} describes a packet beginning with the three ASCII | |
23851 | bytes @samp{foo}, followed by a @var{bar}, followed directly by a | |
3f94c067 | 23852 | @var{baz}. @value{GDBN} does not transmit a space character between the |
b8ff78ce JB |
23853 | @samp{foo} and the @var{bar}, or between the @var{bar} and the |
23854 | @var{baz}. | |
23855 | ||
8ffe2530 JB |
23856 | Note that all packet forms beginning with an upper- or lower-case |
23857 | letter, other than those described here, are reserved for future use. | |
23858 | ||
b8ff78ce | 23859 | Here are the packet descriptions. |
ee2d5c50 | 23860 | |
b8ff78ce | 23861 | @table @samp |
ee2d5c50 | 23862 | |
b8ff78ce JB |
23863 | @item ! |
23864 | @cindex @samp{!} packet | |
2d717e4f | 23865 | @anchor{extended mode} |
8e04817f AC |
23866 | Enable extended mode. In extended mode, the remote server is made |
23867 | persistent. The @samp{R} packet is used to restart the program being | |
23868 | debugged. | |
ee2d5c50 AC |
23869 | |
23870 | Reply: | |
23871 | @table @samp | |
23872 | @item OK | |
8e04817f | 23873 | The remote target both supports and has enabled extended mode. |
ee2d5c50 | 23874 | @end table |
c906108c | 23875 | |
b8ff78ce JB |
23876 | @item ? |
23877 | @cindex @samp{?} packet | |
ee2d5c50 AC |
23878 | Indicate the reason the target halted. The reply is the same as for |
23879 | step and continue. | |
c906108c | 23880 | |
ee2d5c50 AC |
23881 | Reply: |
23882 | @xref{Stop Reply Packets}, for the reply specifications. | |
23883 | ||
b8ff78ce JB |
23884 | @item A @var{arglen},@var{argnum},@var{arg},@dots{} |
23885 | @cindex @samp{A} packet | |
23886 | Initialized @code{argv[]} array passed into program. @var{arglen} | |
23887 | specifies the number of bytes in the hex encoded byte stream | |
23888 | @var{arg}. See @code{gdbserver} for more details. | |
ee2d5c50 AC |
23889 | |
23890 | Reply: | |
23891 | @table @samp | |
23892 | @item OK | |
b8ff78ce JB |
23893 | The arguments were set. |
23894 | @item E @var{NN} | |
23895 | An error occurred. | |
ee2d5c50 AC |
23896 | @end table |
23897 | ||
b8ff78ce JB |
23898 | @item b @var{baud} |
23899 | @cindex @samp{b} packet | |
23900 | (Don't use this packet; its behavior is not well-defined.) | |
ee2d5c50 AC |
23901 | Change the serial line speed to @var{baud}. |
23902 | ||
23903 | JTC: @emph{When does the transport layer state change? When it's | |
23904 | received, or after the ACK is transmitted. In either case, there are | |
23905 | problems if the command or the acknowledgment packet is dropped.} | |
23906 | ||
23907 | Stan: @emph{If people really wanted to add something like this, and get | |
23908 | it working for the first time, they ought to modify ser-unix.c to send | |
23909 | some kind of out-of-band message to a specially-setup stub and have the | |
23910 | switch happen "in between" packets, so that from remote protocol's point | |
23911 | of view, nothing actually happened.} | |
23912 | ||
b8ff78ce JB |
23913 | @item B @var{addr},@var{mode} |
23914 | @cindex @samp{B} packet | |
8e04817f | 23915 | Set (@var{mode} is @samp{S}) or clear (@var{mode} is @samp{C}) a |
2f870471 AC |
23916 | breakpoint at @var{addr}. |
23917 | ||
b8ff78ce | 23918 | Don't use this packet. Use the @samp{Z} and @samp{z} packets instead |
2f870471 | 23919 | (@pxref{insert breakpoint or watchpoint packet}). |
c906108c | 23920 | |
4f553f88 | 23921 | @item c @r{[}@var{addr}@r{]} |
b8ff78ce JB |
23922 | @cindex @samp{c} packet |
23923 | Continue. @var{addr} is address to resume. If @var{addr} is omitted, | |
23924 | resume at current address. | |
c906108c | 23925 | |
ee2d5c50 AC |
23926 | Reply: |
23927 | @xref{Stop Reply Packets}, for the reply specifications. | |
23928 | ||
4f553f88 | 23929 | @item C @var{sig}@r{[};@var{addr}@r{]} |
b8ff78ce | 23930 | @cindex @samp{C} packet |
8e04817f | 23931 | Continue with signal @var{sig} (hex signal number). If |
b8ff78ce | 23932 | @samp{;@var{addr}} is omitted, resume at same address. |
c906108c | 23933 | |
ee2d5c50 AC |
23934 | Reply: |
23935 | @xref{Stop Reply Packets}, for the reply specifications. | |
c906108c | 23936 | |
b8ff78ce JB |
23937 | @item d |
23938 | @cindex @samp{d} packet | |
ee2d5c50 AC |
23939 | Toggle debug flag. |
23940 | ||
b8ff78ce JB |
23941 | Don't use this packet; instead, define a general set packet |
23942 | (@pxref{General Query Packets}). | |
ee2d5c50 | 23943 | |
b8ff78ce JB |
23944 | @item D |
23945 | @cindex @samp{D} packet | |
ee2d5c50 | 23946 | Detach @value{GDBN} from the remote system. Sent to the remote target |
07f31aa6 | 23947 | before @value{GDBN} disconnects via the @code{detach} command. |
ee2d5c50 AC |
23948 | |
23949 | Reply: | |
23950 | @table @samp | |
10fac096 NW |
23951 | @item OK |
23952 | for success | |
b8ff78ce | 23953 | @item E @var{NN} |
10fac096 | 23954 | for an error |
ee2d5c50 | 23955 | @end table |
c906108c | 23956 | |
b8ff78ce JB |
23957 | @item F @var{RC},@var{EE},@var{CF};@var{XX} |
23958 | @cindex @samp{F} packet | |
23959 | A reply from @value{GDBN} to an @samp{F} packet sent by the target. | |
23960 | This is part of the File-I/O protocol extension. @xref{File-I/O | |
79a6e687 | 23961 | Remote Protocol Extension}, for the specification. |
ee2d5c50 | 23962 | |
b8ff78ce | 23963 | @item g |
ee2d5c50 | 23964 | @anchor{read registers packet} |
b8ff78ce | 23965 | @cindex @samp{g} packet |
ee2d5c50 AC |
23966 | Read general registers. |
23967 | ||
23968 | Reply: | |
23969 | @table @samp | |
23970 | @item @var{XX@dots{}} | |
8e04817f AC |
23971 | Each byte of register data is described by two hex digits. The bytes |
23972 | with the register are transmitted in target byte order. The size of | |
b8ff78ce | 23973 | each register and their position within the @samp{g} packet are |
4a9bb1df UW |
23974 | determined by the @value{GDBN} internal gdbarch functions |
23975 | @code{DEPRECATED_REGISTER_RAW_SIZE} and @code{gdbarch_register_name}. The | |
b8ff78ce JB |
23976 | specification of several standard @samp{g} packets is specified below. |
23977 | @item E @var{NN} | |
ee2d5c50 AC |
23978 | for an error. |
23979 | @end table | |
c906108c | 23980 | |
b8ff78ce JB |
23981 | @item G @var{XX@dots{}} |
23982 | @cindex @samp{G} packet | |
23983 | Write general registers. @xref{read registers packet}, for a | |
23984 | description of the @var{XX@dots{}} data. | |
ee2d5c50 AC |
23985 | |
23986 | Reply: | |
23987 | @table @samp | |
23988 | @item OK | |
23989 | for success | |
b8ff78ce | 23990 | @item E @var{NN} |
ee2d5c50 AC |
23991 | for an error |
23992 | @end table | |
23993 | ||
b8ff78ce JB |
23994 | @item H @var{c} @var{t} |
23995 | @cindex @samp{H} packet | |
8e04817f | 23996 | Set thread for subsequent operations (@samp{m}, @samp{M}, @samp{g}, |
ee2d5c50 AC |
23997 | @samp{G}, et.al.). @var{c} depends on the operation to be performed: it |
23998 | should be @samp{c} for step and continue operations, @samp{g} for other | |
b8ff78ce JB |
23999 | operations. The thread designator @var{t} may be @samp{-1}, meaning all |
24000 | the threads, a thread number, or @samp{0} which means pick any thread. | |
ee2d5c50 AC |
24001 | |
24002 | Reply: | |
24003 | @table @samp | |
24004 | @item OK | |
24005 | for success | |
b8ff78ce | 24006 | @item E @var{NN} |
ee2d5c50 AC |
24007 | for an error |
24008 | @end table | |
c906108c | 24009 | |
8e04817f AC |
24010 | @c FIXME: JTC: |
24011 | @c 'H': How restrictive (or permissive) is the thread model. If a | |
24012 | @c thread is selected and stopped, are other threads allowed | |
24013 | @c to continue to execute? As I mentioned above, I think the | |
24014 | @c semantics of each command when a thread is selected must be | |
24015 | @c described. For example: | |
24016 | @c | |
24017 | @c 'g': If the stub supports threads and a specific thread is | |
24018 | @c selected, returns the register block from that thread; | |
24019 | @c otherwise returns current registers. | |
24020 | @c | |
24021 | @c 'G' If the stub supports threads and a specific thread is | |
24022 | @c selected, sets the registers of the register block of | |
24023 | @c that thread; otherwise sets current registers. | |
c906108c | 24024 | |
b8ff78ce | 24025 | @item i @r{[}@var{addr}@r{[},@var{nnn}@r{]]} |
ee2d5c50 | 24026 | @anchor{cycle step packet} |
b8ff78ce JB |
24027 | @cindex @samp{i} packet |
24028 | Step the remote target by a single clock cycle. If @samp{,@var{nnn}} is | |
8e04817f AC |
24029 | present, cycle step @var{nnn} cycles. If @var{addr} is present, cycle |
24030 | step starting at that address. | |
c906108c | 24031 | |
b8ff78ce JB |
24032 | @item I |
24033 | @cindex @samp{I} packet | |
24034 | Signal, then cycle step. @xref{step with signal packet}. @xref{cycle | |
24035 | step packet}. | |
ee2d5c50 | 24036 | |
b8ff78ce JB |
24037 | @item k |
24038 | @cindex @samp{k} packet | |
24039 | Kill request. | |
c906108c | 24040 | |
ac282366 | 24041 | FIXME: @emph{There is no description of how to operate when a specific |
ee2d5c50 AC |
24042 | thread context has been selected (i.e.@: does 'k' kill only that |
24043 | thread?)}. | |
c906108c | 24044 | |
b8ff78ce JB |
24045 | @item m @var{addr},@var{length} |
24046 | @cindex @samp{m} packet | |
8e04817f | 24047 | Read @var{length} bytes of memory starting at address @var{addr}. |
fb031cdf JB |
24048 | Note that @var{addr} may not be aligned to any particular boundary. |
24049 | ||
24050 | The stub need not use any particular size or alignment when gathering | |
24051 | data from memory for the response; even if @var{addr} is word-aligned | |
24052 | and @var{length} is a multiple of the word size, the stub is free to | |
24053 | use byte accesses, or not. For this reason, this packet may not be | |
24054 | suitable for accessing memory-mapped I/O devices. | |
c43c5473 JB |
24055 | @cindex alignment of remote memory accesses |
24056 | @cindex size of remote memory accesses | |
24057 | @cindex memory, alignment and size of remote accesses | |
c906108c | 24058 | |
ee2d5c50 AC |
24059 | Reply: |
24060 | @table @samp | |
24061 | @item @var{XX@dots{}} | |
599b237a | 24062 | Memory contents; each byte is transmitted as a two-digit hexadecimal |
b8ff78ce JB |
24063 | number. The reply may contain fewer bytes than requested if the |
24064 | server was able to read only part of the region of memory. | |
24065 | @item E @var{NN} | |
ee2d5c50 AC |
24066 | @var{NN} is errno |
24067 | @end table | |
24068 | ||
b8ff78ce JB |
24069 | @item M @var{addr},@var{length}:@var{XX@dots{}} |
24070 | @cindex @samp{M} packet | |
8e04817f | 24071 | Write @var{length} bytes of memory starting at address @var{addr}. |
b8ff78ce | 24072 | @var{XX@dots{}} is the data; each byte is transmitted as a two-digit |
599b237a | 24073 | hexadecimal number. |
ee2d5c50 AC |
24074 | |
24075 | Reply: | |
24076 | @table @samp | |
24077 | @item OK | |
24078 | for success | |
b8ff78ce | 24079 | @item E @var{NN} |
8e04817f AC |
24080 | for an error (this includes the case where only part of the data was |
24081 | written). | |
ee2d5c50 | 24082 | @end table |
c906108c | 24083 | |
b8ff78ce JB |
24084 | @item p @var{n} |
24085 | @cindex @samp{p} packet | |
24086 | Read the value of register @var{n}; @var{n} is in hex. | |
2e868123 AC |
24087 | @xref{read registers packet}, for a description of how the returned |
24088 | register value is encoded. | |
ee2d5c50 AC |
24089 | |
24090 | Reply: | |
24091 | @table @samp | |
2e868123 AC |
24092 | @item @var{XX@dots{}} |
24093 | the register's value | |
b8ff78ce | 24094 | @item E @var{NN} |
2e868123 AC |
24095 | for an error |
24096 | @item | |
24097 | Indicating an unrecognized @var{query}. | |
ee2d5c50 AC |
24098 | @end table |
24099 | ||
b8ff78ce | 24100 | @item P @var{n@dots{}}=@var{r@dots{}} |
ee2d5c50 | 24101 | @anchor{write register packet} |
b8ff78ce JB |
24102 | @cindex @samp{P} packet |
24103 | Write register @var{n@dots{}} with value @var{r@dots{}}. The register | |
599b237a | 24104 | number @var{n} is in hexadecimal, and @var{r@dots{}} contains two hex |
8e04817f | 24105 | digits for each byte in the register (target byte order). |
c906108c | 24106 | |
ee2d5c50 AC |
24107 | Reply: |
24108 | @table @samp | |
24109 | @item OK | |
24110 | for success | |
b8ff78ce | 24111 | @item E @var{NN} |
ee2d5c50 AC |
24112 | for an error |
24113 | @end table | |
24114 | ||
5f3bebba JB |
24115 | @item q @var{name} @var{params}@dots{} |
24116 | @itemx Q @var{name} @var{params}@dots{} | |
b8ff78ce | 24117 | @cindex @samp{q} packet |
b8ff78ce | 24118 | @cindex @samp{Q} packet |
5f3bebba JB |
24119 | General query (@samp{q}) and set (@samp{Q}). These packets are |
24120 | described fully in @ref{General Query Packets}. | |
c906108c | 24121 | |
b8ff78ce JB |
24122 | @item r |
24123 | @cindex @samp{r} packet | |
8e04817f | 24124 | Reset the entire system. |
c906108c | 24125 | |
b8ff78ce | 24126 | Don't use this packet; use the @samp{R} packet instead. |
ee2d5c50 | 24127 | |
b8ff78ce JB |
24128 | @item R @var{XX} |
24129 | @cindex @samp{R} packet | |
8e04817f | 24130 | Restart the program being debugged. @var{XX}, while needed, is ignored. |
2d717e4f | 24131 | This packet is only available in extended mode (@pxref{extended mode}). |
ee2d5c50 | 24132 | |
8e04817f | 24133 | The @samp{R} packet has no reply. |
ee2d5c50 | 24134 | |
4f553f88 | 24135 | @item s @r{[}@var{addr}@r{]} |
b8ff78ce JB |
24136 | @cindex @samp{s} packet |
24137 | Single step. @var{addr} is the address at which to resume. If | |
24138 | @var{addr} is omitted, resume at same address. | |
c906108c | 24139 | |
ee2d5c50 AC |
24140 | Reply: |
24141 | @xref{Stop Reply Packets}, for the reply specifications. | |
24142 | ||
4f553f88 | 24143 | @item S @var{sig}@r{[};@var{addr}@r{]} |
ee2d5c50 | 24144 | @anchor{step with signal packet} |
b8ff78ce JB |
24145 | @cindex @samp{S} packet |
24146 | Step with signal. This is analogous to the @samp{C} packet, but | |
24147 | requests a single-step, rather than a normal resumption of execution. | |
c906108c | 24148 | |
ee2d5c50 AC |
24149 | Reply: |
24150 | @xref{Stop Reply Packets}, for the reply specifications. | |
24151 | ||
b8ff78ce JB |
24152 | @item t @var{addr}:@var{PP},@var{MM} |
24153 | @cindex @samp{t} packet | |
8e04817f | 24154 | Search backwards starting at address @var{addr} for a match with pattern |
ee2d5c50 AC |
24155 | @var{PP} and mask @var{MM}. @var{PP} and @var{MM} are 4 bytes. |
24156 | @var{addr} must be at least 3 digits. | |
c906108c | 24157 | |
b8ff78ce JB |
24158 | @item T @var{XX} |
24159 | @cindex @samp{T} packet | |
ee2d5c50 | 24160 | Find out if the thread XX is alive. |
c906108c | 24161 | |
ee2d5c50 AC |
24162 | Reply: |
24163 | @table @samp | |
24164 | @item OK | |
24165 | thread is still alive | |
b8ff78ce | 24166 | @item E @var{NN} |
ee2d5c50 AC |
24167 | thread is dead |
24168 | @end table | |
24169 | ||
b8ff78ce JB |
24170 | @item v |
24171 | Packets starting with @samp{v} are identified by a multi-letter name, | |
24172 | up to the first @samp{;} or @samp{?} (or the end of the packet). | |
86d30acc | 24173 | |
2d717e4f DJ |
24174 | @item vAttach;@var{pid} |
24175 | @cindex @samp{vAttach} packet | |
24176 | Attach to a new process with the specified process ID. @var{pid} is a | |
d0d064df PA |
24177 | hexadecimal integer identifying the process. The attached process is |
24178 | stopped. | |
2d717e4f DJ |
24179 | |
24180 | This packet is only available in extended mode (@pxref{extended mode}). | |
24181 | ||
24182 | Reply: | |
24183 | @table @samp | |
24184 | @item E @var{nn} | |
24185 | for an error | |
24186 | @item @r{Any stop packet} | |
24187 | for success (@pxref{Stop Reply Packets}) | |
24188 | @end table | |
24189 | ||
b8ff78ce JB |
24190 | @item vCont@r{[};@var{action}@r{[}:@var{tid}@r{]]}@dots{} |
24191 | @cindex @samp{vCont} packet | |
24192 | Resume the inferior, specifying different actions for each thread. | |
86d30acc DJ |
24193 | If an action is specified with no @var{tid}, then it is applied to any |
24194 | threads that don't have a specific action specified; if no default action is | |
24195 | specified then other threads should remain stopped. Specifying multiple | |
24196 | default actions is an error; specifying no actions is also an error. | |
24197 | Thread IDs are specified in hexadecimal. Currently supported actions are: | |
24198 | ||
b8ff78ce | 24199 | @table @samp |
86d30acc DJ |
24200 | @item c |
24201 | Continue. | |
b8ff78ce | 24202 | @item C @var{sig} |
86d30acc DJ |
24203 | Continue with signal @var{sig}. @var{sig} should be two hex digits. |
24204 | @item s | |
24205 | Step. | |
b8ff78ce | 24206 | @item S @var{sig} |
86d30acc DJ |
24207 | Step with signal @var{sig}. @var{sig} should be two hex digits. |
24208 | @end table | |
24209 | ||
24210 | The optional @var{addr} argument normally associated with these packets is | |
b8ff78ce | 24211 | not supported in @samp{vCont}. |
86d30acc DJ |
24212 | |
24213 | Reply: | |
24214 | @xref{Stop Reply Packets}, for the reply specifications. | |
24215 | ||
b8ff78ce JB |
24216 | @item vCont? |
24217 | @cindex @samp{vCont?} packet | |
d3e8051b | 24218 | Request a list of actions supported by the @samp{vCont} packet. |
86d30acc DJ |
24219 | |
24220 | Reply: | |
24221 | @table @samp | |
b8ff78ce JB |
24222 | @item vCont@r{[};@var{action}@dots{}@r{]} |
24223 | The @samp{vCont} packet is supported. Each @var{action} is a supported | |
24224 | command in the @samp{vCont} packet. | |
86d30acc | 24225 | @item |
b8ff78ce | 24226 | The @samp{vCont} packet is not supported. |
86d30acc | 24227 | @end table |
ee2d5c50 | 24228 | |
a6b151f1 DJ |
24229 | @item vFile:@var{operation}:@var{parameter}@dots{} |
24230 | @cindex @samp{vFile} packet | |
24231 | Perform a file operation on the target system. For details, | |
24232 | see @ref{Host I/O Packets}. | |
24233 | ||
68437a39 DJ |
24234 | @item vFlashErase:@var{addr},@var{length} |
24235 | @cindex @samp{vFlashErase} packet | |
24236 | Direct the stub to erase @var{length} bytes of flash starting at | |
24237 | @var{addr}. The region may enclose any number of flash blocks, but | |
24238 | its start and end must fall on block boundaries, as indicated by the | |
79a6e687 BW |
24239 | flash block size appearing in the memory map (@pxref{Memory Map |
24240 | Format}). @value{GDBN} groups flash memory programming operations | |
68437a39 DJ |
24241 | together, and sends a @samp{vFlashDone} request after each group; the |
24242 | stub is allowed to delay erase operation until the @samp{vFlashDone} | |
24243 | packet is received. | |
24244 | ||
24245 | Reply: | |
24246 | @table @samp | |
24247 | @item OK | |
24248 | for success | |
24249 | @item E @var{NN} | |
24250 | for an error | |
24251 | @end table | |
24252 | ||
24253 | @item vFlashWrite:@var{addr}:@var{XX@dots{}} | |
24254 | @cindex @samp{vFlashWrite} packet | |
24255 | Direct the stub to write data to flash address @var{addr}. The data | |
24256 | is passed in binary form using the same encoding as for the @samp{X} | |
24257 | packet (@pxref{Binary Data}). The memory ranges specified by | |
24258 | @samp{vFlashWrite} packets preceding a @samp{vFlashDone} packet must | |
24259 | not overlap, and must appear in order of increasing addresses | |
24260 | (although @samp{vFlashErase} packets for higher addresses may already | |
24261 | have been received; the ordering is guaranteed only between | |
24262 | @samp{vFlashWrite} packets). If a packet writes to an address that was | |
24263 | neither erased by a preceding @samp{vFlashErase} packet nor by some other | |
24264 | target-specific method, the results are unpredictable. | |
24265 | ||
24266 | ||
24267 | Reply: | |
24268 | @table @samp | |
24269 | @item OK | |
24270 | for success | |
24271 | @item E.memtype | |
24272 | for vFlashWrite addressing non-flash memory | |
24273 | @item E @var{NN} | |
24274 | for an error | |
24275 | @end table | |
24276 | ||
24277 | @item vFlashDone | |
24278 | @cindex @samp{vFlashDone} packet | |
24279 | Indicate to the stub that flash programming operation is finished. | |
24280 | The stub is permitted to delay or batch the effects of a group of | |
24281 | @samp{vFlashErase} and @samp{vFlashWrite} packets until a | |
24282 | @samp{vFlashDone} packet is received. The contents of the affected | |
24283 | regions of flash memory are unpredictable until the @samp{vFlashDone} | |
24284 | request is completed. | |
24285 | ||
2d717e4f DJ |
24286 | @item vRun;@var{filename}@r{[};@var{argument}@r{]}@dots{} |
24287 | @cindex @samp{vRun} packet | |
24288 | Run the program @var{filename}, passing it each @var{argument} on its | |
24289 | command line. The file and arguments are hex-encoded strings. If | |
24290 | @var{filename} is an empty string, the stub may use a default program | |
24291 | (e.g.@: the last program run). The program is created in the stopped | |
9b562ab8 | 24292 | state. |
2d717e4f DJ |
24293 | |
24294 | This packet is only available in extended mode (@pxref{extended mode}). | |
24295 | ||
24296 | Reply: | |
24297 | @table @samp | |
24298 | @item E @var{nn} | |
24299 | for an error | |
24300 | @item @r{Any stop packet} | |
24301 | for success (@pxref{Stop Reply Packets}) | |
24302 | @end table | |
24303 | ||
b8ff78ce | 24304 | @item X @var{addr},@var{length}:@var{XX@dots{}} |
9a6253be | 24305 | @anchor{X packet} |
b8ff78ce JB |
24306 | @cindex @samp{X} packet |
24307 | Write data to memory, where the data is transmitted in binary. | |
24308 | @var{addr} is address, @var{length} is number of bytes, | |
0876f84a | 24309 | @samp{@var{XX}@dots{}} is binary data (@pxref{Binary Data}). |
c906108c | 24310 | |
ee2d5c50 AC |
24311 | Reply: |
24312 | @table @samp | |
24313 | @item OK | |
24314 | for success | |
b8ff78ce | 24315 | @item E @var{NN} |
ee2d5c50 AC |
24316 | for an error |
24317 | @end table | |
24318 | ||
b8ff78ce JB |
24319 | @item z @var{type},@var{addr},@var{length} |
24320 | @itemx Z @var{type},@var{addr},@var{length} | |
2f870471 | 24321 | @anchor{insert breakpoint or watchpoint packet} |
b8ff78ce JB |
24322 | @cindex @samp{z} packet |
24323 | @cindex @samp{Z} packets | |
24324 | Insert (@samp{Z}) or remove (@samp{z}) a @var{type} breakpoint or | |
2f870471 AC |
24325 | watchpoint starting at address @var{address} and covering the next |
24326 | @var{length} bytes. | |
ee2d5c50 | 24327 | |
2f870471 AC |
24328 | Each breakpoint and watchpoint packet @var{type} is documented |
24329 | separately. | |
24330 | ||
512217c7 AC |
24331 | @emph{Implementation notes: A remote target shall return an empty string |
24332 | for an unrecognized breakpoint or watchpoint packet @var{type}. A | |
24333 | remote target shall support either both or neither of a given | |
b8ff78ce | 24334 | @samp{Z@var{type}@dots{}} and @samp{z@var{type}@dots{}} packet pair. To |
2f870471 AC |
24335 | avoid potential problems with duplicate packets, the operations should |
24336 | be implemented in an idempotent way.} | |
24337 | ||
b8ff78ce JB |
24338 | @item z0,@var{addr},@var{length} |
24339 | @itemx Z0,@var{addr},@var{length} | |
24340 | @cindex @samp{z0} packet | |
24341 | @cindex @samp{Z0} packet | |
24342 | Insert (@samp{Z0}) or remove (@samp{z0}) a memory breakpoint at address | |
24343 | @var{addr} of size @var{length}. | |
2f870471 AC |
24344 | |
24345 | A memory breakpoint is implemented by replacing the instruction at | |
24346 | @var{addr} with a software breakpoint or trap instruction. The | |
b8ff78ce | 24347 | @var{length} is used by targets that indicates the size of the |
2f870471 AC |
24348 | breakpoint (in bytes) that should be inserted (e.g., the @sc{arm} and |
24349 | @sc{mips} can insert either a 2 or 4 byte breakpoint). | |
c906108c | 24350 | |
2f870471 AC |
24351 | @emph{Implementation note: It is possible for a target to copy or move |
24352 | code that contains memory breakpoints (e.g., when implementing | |
24353 | overlays). The behavior of this packet, in the presence of such a | |
24354 | target, is not defined.} | |
c906108c | 24355 | |
ee2d5c50 AC |
24356 | Reply: |
24357 | @table @samp | |
2f870471 AC |
24358 | @item OK |
24359 | success | |
24360 | @item | |
24361 | not supported | |
b8ff78ce | 24362 | @item E @var{NN} |
ee2d5c50 | 24363 | for an error |
2f870471 AC |
24364 | @end table |
24365 | ||
b8ff78ce JB |
24366 | @item z1,@var{addr},@var{length} |
24367 | @itemx Z1,@var{addr},@var{length} | |
24368 | @cindex @samp{z1} packet | |
24369 | @cindex @samp{Z1} packet | |
24370 | Insert (@samp{Z1}) or remove (@samp{z1}) a hardware breakpoint at | |
24371 | address @var{addr} of size @var{length}. | |
2f870471 AC |
24372 | |
24373 | A hardware breakpoint is implemented using a mechanism that is not | |
24374 | dependant on being able to modify the target's memory. | |
24375 | ||
24376 | @emph{Implementation note: A hardware breakpoint is not affected by code | |
24377 | movement.} | |
24378 | ||
24379 | Reply: | |
24380 | @table @samp | |
ee2d5c50 | 24381 | @item OK |
2f870471 AC |
24382 | success |
24383 | @item | |
24384 | not supported | |
b8ff78ce | 24385 | @item E @var{NN} |
2f870471 AC |
24386 | for an error |
24387 | @end table | |
24388 | ||
b8ff78ce JB |
24389 | @item z2,@var{addr},@var{length} |
24390 | @itemx Z2,@var{addr},@var{length} | |
24391 | @cindex @samp{z2} packet | |
24392 | @cindex @samp{Z2} packet | |
24393 | Insert (@samp{Z2}) or remove (@samp{z2}) a write watchpoint. | |
2f870471 AC |
24394 | |
24395 | Reply: | |
24396 | @table @samp | |
24397 | @item OK | |
24398 | success | |
24399 | @item | |
24400 | not supported | |
b8ff78ce | 24401 | @item E @var{NN} |
2f870471 AC |
24402 | for an error |
24403 | @end table | |
24404 | ||
b8ff78ce JB |
24405 | @item z3,@var{addr},@var{length} |
24406 | @itemx Z3,@var{addr},@var{length} | |
24407 | @cindex @samp{z3} packet | |
24408 | @cindex @samp{Z3} packet | |
24409 | Insert (@samp{Z3}) or remove (@samp{z3}) a read watchpoint. | |
2f870471 AC |
24410 | |
24411 | Reply: | |
24412 | @table @samp | |
24413 | @item OK | |
24414 | success | |
24415 | @item | |
24416 | not supported | |
b8ff78ce | 24417 | @item E @var{NN} |
2f870471 AC |
24418 | for an error |
24419 | @end table | |
24420 | ||
b8ff78ce JB |
24421 | @item z4,@var{addr},@var{length} |
24422 | @itemx Z4,@var{addr},@var{length} | |
24423 | @cindex @samp{z4} packet | |
24424 | @cindex @samp{Z4} packet | |
24425 | Insert (@samp{Z4}) or remove (@samp{z4}) an access watchpoint. | |
2f870471 AC |
24426 | |
24427 | Reply: | |
24428 | @table @samp | |
24429 | @item OK | |
24430 | success | |
24431 | @item | |
24432 | not supported | |
b8ff78ce | 24433 | @item E @var{NN} |
2f870471 | 24434 | for an error |
ee2d5c50 AC |
24435 | @end table |
24436 | ||
24437 | @end table | |
c906108c | 24438 | |
ee2d5c50 AC |
24439 | @node Stop Reply Packets |
24440 | @section Stop Reply Packets | |
24441 | @cindex stop reply packets | |
c906108c | 24442 | |
8e04817f AC |
24443 | The @samp{C}, @samp{c}, @samp{S}, @samp{s} and @samp{?} packets can |
24444 | receive any of the below as a reply. In the case of the @samp{C}, | |
24445 | @samp{c}, @samp{S} and @samp{s} packets, that reply is only returned | |
b8ff78ce | 24446 | when the target halts. In the below the exact meaning of @dfn{signal |
89be2091 DJ |
24447 | number} is defined by the header @file{include/gdb/signals.h} in the |
24448 | @value{GDBN} source code. | |
c906108c | 24449 | |
b8ff78ce JB |
24450 | As in the description of request packets, we include spaces in the |
24451 | reply templates for clarity; these are not part of the reply packet's | |
24452 | syntax. No @value{GDBN} stop reply packet uses spaces to separate its | |
24453 | components. | |
c906108c | 24454 | |
b8ff78ce | 24455 | @table @samp |
ee2d5c50 | 24456 | |
b8ff78ce | 24457 | @item S @var{AA} |
599b237a | 24458 | The program received signal number @var{AA} (a two-digit hexadecimal |
940178d3 JB |
24459 | number). This is equivalent to a @samp{T} response with no |
24460 | @var{n}:@var{r} pairs. | |
c906108c | 24461 | |
b8ff78ce JB |
24462 | @item T @var{AA} @var{n1}:@var{r1};@var{n2}:@var{r2};@dots{} |
24463 | @cindex @samp{T} packet reply | |
599b237a | 24464 | The program received signal number @var{AA} (a two-digit hexadecimal |
940178d3 JB |
24465 | number). This is equivalent to an @samp{S} response, except that the |
24466 | @samp{@var{n}:@var{r}} pairs can carry values of important registers | |
24467 | and other information directly in the stop reply packet, reducing | |
24468 | round-trip latency. Single-step and breakpoint traps are reported | |
24469 | this way. Each @samp{@var{n}:@var{r}} pair is interpreted as follows: | |
cfa9d6d9 DJ |
24470 | |
24471 | @itemize @bullet | |
b8ff78ce | 24472 | @item |
599b237a | 24473 | If @var{n} is a hexadecimal number, it is a register number, and the |
b8ff78ce JB |
24474 | corresponding @var{r} gives that register's value. @var{r} is a |
24475 | series of bytes in target byte order, with each byte given by a | |
24476 | two-digit hex number. | |
cfa9d6d9 | 24477 | |
b8ff78ce JB |
24478 | @item |
24479 | If @var{n} is @samp{thread}, then @var{r} is the thread process ID, in | |
24480 | hex. | |
cfa9d6d9 | 24481 | |
b8ff78ce | 24482 | @item |
cfa9d6d9 DJ |
24483 | If @var{n} is a recognized @dfn{stop reason}, it describes a more |
24484 | specific event that stopped the target. The currently defined stop | |
24485 | reasons are listed below. @var{aa} should be @samp{05}, the trap | |
24486 | signal. At most one stop reason should be present. | |
24487 | ||
b8ff78ce JB |
24488 | @item |
24489 | Otherwise, @value{GDBN} should ignore this @samp{@var{n}:@var{r}} pair | |
24490 | and go on to the next; this allows us to extend the protocol in the | |
24491 | future. | |
cfa9d6d9 DJ |
24492 | @end itemize |
24493 | ||
24494 | The currently defined stop reasons are: | |
24495 | ||
24496 | @table @samp | |
24497 | @item watch | |
24498 | @itemx rwatch | |
24499 | @itemx awatch | |
24500 | The packet indicates a watchpoint hit, and @var{r} is the data address, in | |
24501 | hex. | |
24502 | ||
24503 | @cindex shared library events, remote reply | |
24504 | @item library | |
24505 | The packet indicates that the loaded libraries have changed. | |
24506 | @value{GDBN} should use @samp{qXfer:libraries:read} to fetch a new | |
24507 | list of loaded libraries. @var{r} is ignored. | |
24508 | @end table | |
ee2d5c50 | 24509 | |
b8ff78ce | 24510 | @item W @var{AA} |
8e04817f | 24511 | The process exited, and @var{AA} is the exit status. This is only |
ee2d5c50 AC |
24512 | applicable to certain targets. |
24513 | ||
b8ff78ce | 24514 | @item X @var{AA} |
8e04817f | 24515 | The process terminated with signal @var{AA}. |
c906108c | 24516 | |
b8ff78ce JB |
24517 | @item O @var{XX}@dots{} |
24518 | @samp{@var{XX}@dots{}} is hex encoding of @sc{ascii} data, to be | |
24519 | written as the program's console output. This can happen at any time | |
24520 | while the program is running and the debugger should continue to wait | |
24521 | for @samp{W}, @samp{T}, etc. | |
0ce1b118 | 24522 | |
b8ff78ce | 24523 | @item F @var{call-id},@var{parameter}@dots{} |
0ce1b118 CV |
24524 | @var{call-id} is the identifier which says which host system call should |
24525 | be called. This is just the name of the function. Translation into the | |
24526 | correct system call is only applicable as it's defined in @value{GDBN}. | |
79a6e687 | 24527 | @xref{File-I/O Remote Protocol Extension}, for a list of implemented |
0ce1b118 CV |
24528 | system calls. |
24529 | ||
b8ff78ce JB |
24530 | @samp{@var{parameter}@dots{}} is a list of parameters as defined for |
24531 | this very system call. | |
0ce1b118 | 24532 | |
b8ff78ce JB |
24533 | The target replies with this packet when it expects @value{GDBN} to |
24534 | call a host system call on behalf of the target. @value{GDBN} replies | |
24535 | with an appropriate @samp{F} packet and keeps up waiting for the next | |
24536 | reply packet from the target. The latest @samp{C}, @samp{c}, @samp{S} | |
79a6e687 BW |
24537 | or @samp{s} action is expected to be continued. @xref{File-I/O Remote |
24538 | Protocol Extension}, for more details. | |
0ce1b118 | 24539 | |
ee2d5c50 AC |
24540 | @end table |
24541 | ||
24542 | @node General Query Packets | |
24543 | @section General Query Packets | |
9c16f35a | 24544 | @cindex remote query requests |
c906108c | 24545 | |
5f3bebba JB |
24546 | Packets starting with @samp{q} are @dfn{general query packets}; |
24547 | packets starting with @samp{Q} are @dfn{general set packets}. General | |
24548 | query and set packets are a semi-unified form for retrieving and | |
24549 | sending information to and from the stub. | |
24550 | ||
24551 | The initial letter of a query or set packet is followed by a name | |
24552 | indicating what sort of thing the packet applies to. For example, | |
24553 | @value{GDBN} may use a @samp{qSymbol} packet to exchange symbol | |
24554 | definitions with the stub. These packet names follow some | |
24555 | conventions: | |
24556 | ||
24557 | @itemize @bullet | |
24558 | @item | |
24559 | The name must not contain commas, colons or semicolons. | |
24560 | @item | |
24561 | Most @value{GDBN} query and set packets have a leading upper case | |
24562 | letter. | |
24563 | @item | |
24564 | The names of custom vendor packets should use a company prefix, in | |
24565 | lower case, followed by a period. For example, packets designed at | |
24566 | the Acme Corporation might begin with @samp{qacme.foo} (for querying | |
24567 | foos) or @samp{Qacme.bar} (for setting bars). | |
24568 | @end itemize | |
24569 | ||
aa56d27a JB |
24570 | The name of a query or set packet should be separated from any |
24571 | parameters by a @samp{:}; the parameters themselves should be | |
24572 | separated by @samp{,} or @samp{;}. Stubs must be careful to match the | |
369af7bd DJ |
24573 | full packet name, and check for a separator or the end of the packet, |
24574 | in case two packet names share a common prefix. New packets should not begin | |
24575 | with @samp{qC}, @samp{qP}, or @samp{qL}@footnote{The @samp{qP} and @samp{qL} | |
24576 | packets predate these conventions, and have arguments without any terminator | |
24577 | for the packet name; we suspect they are in widespread use in places that | |
24578 | are difficult to upgrade. The @samp{qC} packet has no arguments, but some | |
24579 | existing stubs (e.g.@: RedBoot) are known to not check for the end of the | |
24580 | packet.}. | |
c906108c | 24581 | |
b8ff78ce JB |
24582 | Like the descriptions of the other packets, each description here |
24583 | has a template showing the packet's overall syntax, followed by an | |
24584 | explanation of the packet's meaning. We include spaces in some of the | |
24585 | templates for clarity; these are not part of the packet's syntax. No | |
24586 | @value{GDBN} packet uses spaces to separate its components. | |
24587 | ||
5f3bebba JB |
24588 | Here are the currently defined query and set packets: |
24589 | ||
b8ff78ce | 24590 | @table @samp |
c906108c | 24591 | |
b8ff78ce | 24592 | @item qC |
9c16f35a | 24593 | @cindex current thread, remote request |
b8ff78ce | 24594 | @cindex @samp{qC} packet |
ee2d5c50 AC |
24595 | Return the current thread id. |
24596 | ||
24597 | Reply: | |
24598 | @table @samp | |
b8ff78ce | 24599 | @item QC @var{pid} |
599b237a | 24600 | Where @var{pid} is an unsigned hexadecimal process id. |
b8ff78ce | 24601 | @item @r{(anything else)} |
ee2d5c50 AC |
24602 | Any other reply implies the old pid. |
24603 | @end table | |
24604 | ||
b8ff78ce | 24605 | @item qCRC:@var{addr},@var{length} |
ff2587ec | 24606 | @cindex CRC of memory block, remote request |
b8ff78ce JB |
24607 | @cindex @samp{qCRC} packet |
24608 | Compute the CRC checksum of a block of memory. | |
ff2587ec WZ |
24609 | Reply: |
24610 | @table @samp | |
b8ff78ce | 24611 | @item E @var{NN} |
ff2587ec | 24612 | An error (such as memory fault) |
b8ff78ce JB |
24613 | @item C @var{crc32} |
24614 | The specified memory region's checksum is @var{crc32}. | |
ff2587ec WZ |
24615 | @end table |
24616 | ||
b8ff78ce JB |
24617 | @item qfThreadInfo |
24618 | @itemx qsThreadInfo | |
9c16f35a | 24619 | @cindex list active threads, remote request |
b8ff78ce JB |
24620 | @cindex @samp{qfThreadInfo} packet |
24621 | @cindex @samp{qsThreadInfo} packet | |
24622 | Obtain a list of all active thread ids from the target (OS). Since there | |
8e04817f AC |
24623 | may be too many active threads to fit into one reply packet, this query |
24624 | works iteratively: it may require more than one query/reply sequence to | |
24625 | obtain the entire list of threads. The first query of the sequence will | |
b8ff78ce JB |
24626 | be the @samp{qfThreadInfo} query; subsequent queries in the |
24627 | sequence will be the @samp{qsThreadInfo} query. | |
ee2d5c50 | 24628 | |
b8ff78ce | 24629 | NOTE: This packet replaces the @samp{qL} query (see below). |
ee2d5c50 AC |
24630 | |
24631 | Reply: | |
24632 | @table @samp | |
b8ff78ce | 24633 | @item m @var{id} |
ee2d5c50 | 24634 | A single thread id |
b8ff78ce | 24635 | @item m @var{id},@var{id}@dots{} |
ee2d5c50 | 24636 | a comma-separated list of thread ids |
b8ff78ce JB |
24637 | @item l |
24638 | (lower case letter @samp{L}) denotes end of list. | |
ee2d5c50 AC |
24639 | @end table |
24640 | ||
24641 | In response to each query, the target will reply with a list of one or | |
e1aac25b JB |
24642 | more thread ids, in big-endian unsigned hex, separated by commas. |
24643 | @value{GDBN} will respond to each reply with a request for more thread | |
b8ff78ce JB |
24644 | ids (using the @samp{qs} form of the query), until the target responds |
24645 | with @samp{l} (lower-case el, for @dfn{last}). | |
c906108c | 24646 | |
b8ff78ce | 24647 | @item qGetTLSAddr:@var{thread-id},@var{offset},@var{lm} |
ff2587ec | 24648 | @cindex get thread-local storage address, remote request |
b8ff78ce | 24649 | @cindex @samp{qGetTLSAddr} packet |
ff2587ec WZ |
24650 | Fetch the address associated with thread local storage specified |
24651 | by @var{thread-id}, @var{offset}, and @var{lm}. | |
24652 | ||
24653 | @var{thread-id} is the (big endian, hex encoded) thread id associated with the | |
24654 | thread for which to fetch the TLS address. | |
24655 | ||
24656 | @var{offset} is the (big endian, hex encoded) offset associated with the | |
24657 | thread local variable. (This offset is obtained from the debug | |
24658 | information associated with the variable.) | |
24659 | ||
db2e3e2e | 24660 | @var{lm} is the (big endian, hex encoded) OS/ABI-specific encoding of the |
ff2587ec WZ |
24661 | the load module associated with the thread local storage. For example, |
24662 | a @sc{gnu}/Linux system will pass the link map address of the shared | |
24663 | object associated with the thread local storage under consideration. | |
24664 | Other operating environments may choose to represent the load module | |
24665 | differently, so the precise meaning of this parameter will vary. | |
ee2d5c50 AC |
24666 | |
24667 | Reply: | |
b8ff78ce JB |
24668 | @table @samp |
24669 | @item @var{XX}@dots{} | |
ff2587ec WZ |
24670 | Hex encoded (big endian) bytes representing the address of the thread |
24671 | local storage requested. | |
24672 | ||
b8ff78ce JB |
24673 | @item E @var{nn} |
24674 | An error occurred. @var{nn} are hex digits. | |
ff2587ec | 24675 | |
b8ff78ce JB |
24676 | @item |
24677 | An empty reply indicates that @samp{qGetTLSAddr} is not supported by the stub. | |
ee2d5c50 AC |
24678 | @end table |
24679 | ||
b8ff78ce | 24680 | @item qL @var{startflag} @var{threadcount} @var{nextthread} |
8e04817f AC |
24681 | Obtain thread information from RTOS. Where: @var{startflag} (one hex |
24682 | digit) is one to indicate the first query and zero to indicate a | |
24683 | subsequent query; @var{threadcount} (two hex digits) is the maximum | |
24684 | number of threads the response packet can contain; and @var{nextthread} | |
24685 | (eight hex digits), for subsequent queries (@var{startflag} is zero), is | |
24686 | returned in the response as @var{argthread}. | |
ee2d5c50 | 24687 | |
b8ff78ce | 24688 | Don't use this packet; use the @samp{qfThreadInfo} query instead (see above). |
ee2d5c50 AC |
24689 | |
24690 | Reply: | |
24691 | @table @samp | |
b8ff78ce | 24692 | @item qM @var{count} @var{done} @var{argthread} @var{thread}@dots{} |
8e04817f AC |
24693 | Where: @var{count} (two hex digits) is the number of threads being |
24694 | returned; @var{done} (one hex digit) is zero to indicate more threads | |
24695 | and one indicates no further threads; @var{argthreadid} (eight hex | |
b8ff78ce | 24696 | digits) is @var{nextthread} from the request packet; @var{thread}@dots{} |
ee2d5c50 | 24697 | is a sequence of thread IDs from the target. @var{threadid} (eight hex |
8e04817f | 24698 | digits). See @code{remote.c:parse_threadlist_response()}. |
ee2d5c50 | 24699 | @end table |
c906108c | 24700 | |
b8ff78ce | 24701 | @item qOffsets |
9c16f35a | 24702 | @cindex section offsets, remote request |
b8ff78ce | 24703 | @cindex @samp{qOffsets} packet |
31d99776 DJ |
24704 | Get section offsets that the target used when relocating the downloaded |
24705 | image. | |
c906108c | 24706 | |
ee2d5c50 AC |
24707 | Reply: |
24708 | @table @samp | |
31d99776 DJ |
24709 | @item Text=@var{xxx};Data=@var{yyy}@r{[};Bss=@var{zzz}@r{]} |
24710 | Relocate the @code{Text} section by @var{xxx} from its original address. | |
24711 | Relocate the @code{Data} section by @var{yyy} from its original address. | |
24712 | If the object file format provides segment information (e.g.@: @sc{elf} | |
24713 | @samp{PT_LOAD} program headers), @value{GDBN} will relocate entire | |
24714 | segments by the supplied offsets. | |
24715 | ||
24716 | @emph{Note: while a @code{Bss} offset may be included in the response, | |
24717 | @value{GDBN} ignores this and instead applies the @code{Data} offset | |
24718 | to the @code{Bss} section.} | |
24719 | ||
24720 | @item TextSeg=@var{xxx}@r{[};DataSeg=@var{yyy}@r{]} | |
24721 | Relocate the first segment of the object file, which conventionally | |
24722 | contains program code, to a starting address of @var{xxx}. If | |
24723 | @samp{DataSeg} is specified, relocate the second segment, which | |
24724 | conventionally contains modifiable data, to a starting address of | |
24725 | @var{yyy}. @value{GDBN} will report an error if the object file | |
24726 | does not contain segment information, or does not contain at least | |
24727 | as many segments as mentioned in the reply. Extra segments are | |
24728 | kept at fixed offsets relative to the last relocated segment. | |
ee2d5c50 AC |
24729 | @end table |
24730 | ||
b8ff78ce | 24731 | @item qP @var{mode} @var{threadid} |
9c16f35a | 24732 | @cindex thread information, remote request |
b8ff78ce | 24733 | @cindex @samp{qP} packet |
8e04817f AC |
24734 | Returns information on @var{threadid}. Where: @var{mode} is a hex |
24735 | encoded 32 bit mode; @var{threadid} is a hex encoded 64 bit thread ID. | |
ee2d5c50 | 24736 | |
aa56d27a JB |
24737 | Don't use this packet; use the @samp{qThreadExtraInfo} query instead |
24738 | (see below). | |
24739 | ||
b8ff78ce | 24740 | Reply: see @code{remote.c:remote_unpack_thread_info_response()}. |
c906108c | 24741 | |
89be2091 DJ |
24742 | @item QPassSignals: @var{signal} @r{[};@var{signal}@r{]}@dots{} |
24743 | @cindex pass signals to inferior, remote request | |
24744 | @cindex @samp{QPassSignals} packet | |
23181151 | 24745 | @anchor{QPassSignals} |
89be2091 DJ |
24746 | Each listed @var{signal} should be passed directly to the inferior process. |
24747 | Signals are numbered identically to continue packets and stop replies | |
24748 | (@pxref{Stop Reply Packets}). Each @var{signal} list item should be | |
24749 | strictly greater than the previous item. These signals do not need to stop | |
24750 | the inferior, or be reported to @value{GDBN}. All other signals should be | |
24751 | reported to @value{GDBN}. Multiple @samp{QPassSignals} packets do not | |
24752 | combine; any earlier @samp{QPassSignals} list is completely replaced by the | |
24753 | new list. This packet improves performance when using @samp{handle | |
24754 | @var{signal} nostop noprint pass}. | |
24755 | ||
24756 | Reply: | |
24757 | @table @samp | |
24758 | @item OK | |
24759 | The request succeeded. | |
24760 | ||
24761 | @item E @var{nn} | |
24762 | An error occurred. @var{nn} are hex digits. | |
24763 | ||
24764 | @item | |
24765 | An empty reply indicates that @samp{QPassSignals} is not supported by | |
24766 | the stub. | |
24767 | @end table | |
24768 | ||
24769 | Use of this packet is controlled by the @code{set remote pass-signals} | |
79a6e687 | 24770 | command (@pxref{Remote Configuration, set remote pass-signals}). |
89be2091 DJ |
24771 | This packet is not probed by default; the remote stub must request it, |
24772 | by supplying an appropriate @samp{qSupported} response (@pxref{qSupported}). | |
24773 | ||
b8ff78ce | 24774 | @item qRcmd,@var{command} |
ff2587ec | 24775 | @cindex execute remote command, remote request |
b8ff78ce | 24776 | @cindex @samp{qRcmd} packet |
ff2587ec | 24777 | @var{command} (hex encoded) is passed to the local interpreter for |
b8ff78ce JB |
24778 | execution. Invalid commands should be reported using the output |
24779 | string. Before the final result packet, the target may also respond | |
24780 | with a number of intermediate @samp{O@var{output}} console output | |
24781 | packets. @emph{Implementors should note that providing access to a | |
24782 | stubs's interpreter may have security implications}. | |
fa93a9d8 | 24783 | |
ff2587ec WZ |
24784 | Reply: |
24785 | @table @samp | |
24786 | @item OK | |
24787 | A command response with no output. | |
24788 | @item @var{OUTPUT} | |
24789 | A command response with the hex encoded output string @var{OUTPUT}. | |
b8ff78ce | 24790 | @item E @var{NN} |
ff2587ec | 24791 | Indicate a badly formed request. |
b8ff78ce JB |
24792 | @item |
24793 | An empty reply indicates that @samp{qRcmd} is not recognized. | |
ff2587ec | 24794 | @end table |
fa93a9d8 | 24795 | |
aa56d27a JB |
24796 | (Note that the @code{qRcmd} packet's name is separated from the |
24797 | command by a @samp{,}, not a @samp{:}, contrary to the naming | |
24798 | conventions above. Please don't use this packet as a model for new | |
24799 | packets.) | |
24800 | ||
08388c79 DE |
24801 | @item qSearch:memory:@var{address};@var{length};@var{search-pattern} |
24802 | @cindex searching memory, in remote debugging | |
24803 | @cindex @samp{qSearch:memory} packet | |
24804 | @anchor{qSearch memory} | |
24805 | Search @var{length} bytes at @var{address} for @var{search-pattern}. | |
24806 | @var{address} and @var{length} are encoded in hex. | |
24807 | @var{search-pattern} is a sequence of bytes, hex encoded. | |
24808 | ||
24809 | Reply: | |
24810 | @table @samp | |
24811 | @item 0 | |
24812 | The pattern was not found. | |
24813 | @item 1,address | |
24814 | The pattern was found at @var{address}. | |
24815 | @item E @var{NN} | |
24816 | A badly formed request or an error was encountered while searching memory. | |
24817 | @item | |
24818 | An empty reply indicates that @samp{qSearch:memory} is not recognized. | |
24819 | @end table | |
24820 | ||
be2a5f71 DJ |
24821 | @item qSupported @r{[}:@var{gdbfeature} @r{[};@var{gdbfeature}@r{]}@dots{} @r{]} |
24822 | @cindex supported packets, remote query | |
24823 | @cindex features of the remote protocol | |
24824 | @cindex @samp{qSupported} packet | |
0876f84a | 24825 | @anchor{qSupported} |
be2a5f71 DJ |
24826 | Tell the remote stub about features supported by @value{GDBN}, and |
24827 | query the stub for features it supports. This packet allows | |
24828 | @value{GDBN} and the remote stub to take advantage of each others' | |
24829 | features. @samp{qSupported} also consolidates multiple feature probes | |
24830 | at startup, to improve @value{GDBN} performance---a single larger | |
24831 | packet performs better than multiple smaller probe packets on | |
24832 | high-latency links. Some features may enable behavior which must not | |
24833 | be on by default, e.g.@: because it would confuse older clients or | |
24834 | stubs. Other features may describe packets which could be | |
24835 | automatically probed for, but are not. These features must be | |
24836 | reported before @value{GDBN} will use them. This ``default | |
24837 | unsupported'' behavior is not appropriate for all packets, but it | |
24838 | helps to keep the initial connection time under control with new | |
24839 | versions of @value{GDBN} which support increasing numbers of packets. | |
24840 | ||
24841 | Reply: | |
24842 | @table @samp | |
24843 | @item @var{stubfeature} @r{[};@var{stubfeature}@r{]}@dots{} | |
24844 | The stub supports or does not support each returned @var{stubfeature}, | |
24845 | depending on the form of each @var{stubfeature} (see below for the | |
24846 | possible forms). | |
24847 | @item | |
24848 | An empty reply indicates that @samp{qSupported} is not recognized, | |
24849 | or that no features needed to be reported to @value{GDBN}. | |
24850 | @end table | |
24851 | ||
24852 | The allowed forms for each feature (either a @var{gdbfeature} in the | |
24853 | @samp{qSupported} packet, or a @var{stubfeature} in the response) | |
24854 | are: | |
24855 | ||
24856 | @table @samp | |
24857 | @item @var{name}=@var{value} | |
24858 | The remote protocol feature @var{name} is supported, and associated | |
24859 | with the specified @var{value}. The format of @var{value} depends | |
24860 | on the feature, but it must not include a semicolon. | |
24861 | @item @var{name}+ | |
24862 | The remote protocol feature @var{name} is supported, and does not | |
24863 | need an associated value. | |
24864 | @item @var{name}- | |
24865 | The remote protocol feature @var{name} is not supported. | |
24866 | @item @var{name}? | |
24867 | The remote protocol feature @var{name} may be supported, and | |
24868 | @value{GDBN} should auto-detect support in some other way when it is | |
24869 | needed. This form will not be used for @var{gdbfeature} notifications, | |
24870 | but may be used for @var{stubfeature} responses. | |
24871 | @end table | |
24872 | ||
24873 | Whenever the stub receives a @samp{qSupported} request, the | |
24874 | supplied set of @value{GDBN} features should override any previous | |
24875 | request. This allows @value{GDBN} to put the stub in a known | |
24876 | state, even if the stub had previously been communicating with | |
24877 | a different version of @value{GDBN}. | |
24878 | ||
24879 | No values of @var{gdbfeature} (for the packet sent by @value{GDBN}) | |
24880 | are defined yet. Stubs should ignore any unknown values for | |
24881 | @var{gdbfeature}. Any @value{GDBN} which sends a @samp{qSupported} | |
24882 | packet supports receiving packets of unlimited length (earlier | |
24883 | versions of @value{GDBN} may reject overly long responses). Values | |
24884 | for @var{gdbfeature} may be defined in the future to let the stub take | |
24885 | advantage of new features in @value{GDBN}, e.g.@: incompatible | |
24886 | improvements in the remote protocol---support for unlimited length | |
24887 | responses would be a @var{gdbfeature} example, if it were not implied by | |
24888 | the @samp{qSupported} query. The stub's reply should be independent | |
24889 | of the @var{gdbfeature} entries sent by @value{GDBN}; first @value{GDBN} | |
24890 | describes all the features it supports, and then the stub replies with | |
24891 | all the features it supports. | |
24892 | ||
24893 | Similarly, @value{GDBN} will silently ignore unrecognized stub feature | |
24894 | responses, as long as each response uses one of the standard forms. | |
24895 | ||
24896 | Some features are flags. A stub which supports a flag feature | |
24897 | should respond with a @samp{+} form response. Other features | |
24898 | require values, and the stub should respond with an @samp{=} | |
24899 | form response. | |
24900 | ||
24901 | Each feature has a default value, which @value{GDBN} will use if | |
24902 | @samp{qSupported} is not available or if the feature is not mentioned | |
24903 | in the @samp{qSupported} response. The default values are fixed; a | |
24904 | stub is free to omit any feature responses that match the defaults. | |
24905 | ||
24906 | Not all features can be probed, but for those which can, the probing | |
24907 | mechanism is useful: in some cases, a stub's internal | |
24908 | architecture may not allow the protocol layer to know some information | |
24909 | about the underlying target in advance. This is especially common in | |
24910 | stubs which may be configured for multiple targets. | |
24911 | ||
24912 | These are the currently defined stub features and their properties: | |
24913 | ||
cfa9d6d9 | 24914 | @multitable @columnfractions 0.35 0.2 0.12 0.2 |
be2a5f71 DJ |
24915 | @c NOTE: The first row should be @headitem, but we do not yet require |
24916 | @c a new enough version of Texinfo (4.7) to use @headitem. | |
0876f84a | 24917 | @item Feature Name |
be2a5f71 DJ |
24918 | @tab Value Required |
24919 | @tab Default | |
24920 | @tab Probe Allowed | |
24921 | ||
24922 | @item @samp{PacketSize} | |
24923 | @tab Yes | |
24924 | @tab @samp{-} | |
24925 | @tab No | |
24926 | ||
0876f84a DJ |
24927 | @item @samp{qXfer:auxv:read} |
24928 | @tab No | |
24929 | @tab @samp{-} | |
24930 | @tab Yes | |
24931 | ||
23181151 DJ |
24932 | @item @samp{qXfer:features:read} |
24933 | @tab No | |
24934 | @tab @samp{-} | |
24935 | @tab Yes | |
24936 | ||
cfa9d6d9 DJ |
24937 | @item @samp{qXfer:libraries:read} |
24938 | @tab No | |
24939 | @tab @samp{-} | |
24940 | @tab Yes | |
24941 | ||
68437a39 DJ |
24942 | @item @samp{qXfer:memory-map:read} |
24943 | @tab No | |
24944 | @tab @samp{-} | |
24945 | @tab Yes | |
24946 | ||
0e7f50da UW |
24947 | @item @samp{qXfer:spu:read} |
24948 | @tab No | |
24949 | @tab @samp{-} | |
24950 | @tab Yes | |
24951 | ||
24952 | @item @samp{qXfer:spu:write} | |
24953 | @tab No | |
24954 | @tab @samp{-} | |
24955 | @tab Yes | |
24956 | ||
89be2091 DJ |
24957 | @item @samp{QPassSignals} |
24958 | @tab No | |
24959 | @tab @samp{-} | |
24960 | @tab Yes | |
24961 | ||
be2a5f71 DJ |
24962 | @end multitable |
24963 | ||
24964 | These are the currently defined stub features, in more detail: | |
24965 | ||
24966 | @table @samp | |
24967 | @cindex packet size, remote protocol | |
24968 | @item PacketSize=@var{bytes} | |
24969 | The remote stub can accept packets up to at least @var{bytes} in | |
24970 | length. @value{GDBN} will send packets up to this size for bulk | |
24971 | transfers, and will never send larger packets. This is a limit on the | |
24972 | data characters in the packet, including the frame and checksum. | |
24973 | There is no trailing NUL byte in a remote protocol packet; if the stub | |
24974 | stores packets in a NUL-terminated format, it should allow an extra | |
24975 | byte in its buffer for the NUL. If this stub feature is not supported, | |
24976 | @value{GDBN} guesses based on the size of the @samp{g} packet response. | |
24977 | ||
0876f84a DJ |
24978 | @item qXfer:auxv:read |
24979 | The remote stub understands the @samp{qXfer:auxv:read} packet | |
24980 | (@pxref{qXfer auxiliary vector read}). | |
24981 | ||
23181151 DJ |
24982 | @item qXfer:features:read |
24983 | The remote stub understands the @samp{qXfer:features:read} packet | |
24984 | (@pxref{qXfer target description read}). | |
24985 | ||
cfa9d6d9 DJ |
24986 | @item qXfer:libraries:read |
24987 | The remote stub understands the @samp{qXfer:libraries:read} packet | |
24988 | (@pxref{qXfer library list read}). | |
24989 | ||
23181151 DJ |
24990 | @item qXfer:memory-map:read |
24991 | The remote stub understands the @samp{qXfer:memory-map:read} packet | |
24992 | (@pxref{qXfer memory map read}). | |
24993 | ||
0e7f50da UW |
24994 | @item qXfer:spu:read |
24995 | The remote stub understands the @samp{qXfer:spu:read} packet | |
24996 | (@pxref{qXfer spu read}). | |
24997 | ||
24998 | @item qXfer:spu:write | |
24999 | The remote stub understands the @samp{qXfer:spu:write} packet | |
25000 | (@pxref{qXfer spu write}). | |
25001 | ||
23181151 DJ |
25002 | @item QPassSignals |
25003 | The remote stub understands the @samp{QPassSignals} packet | |
25004 | (@pxref{QPassSignals}). | |
25005 | ||
be2a5f71 DJ |
25006 | @end table |
25007 | ||
b8ff78ce | 25008 | @item qSymbol:: |
ff2587ec | 25009 | @cindex symbol lookup, remote request |
b8ff78ce | 25010 | @cindex @samp{qSymbol} packet |
ff2587ec WZ |
25011 | Notify the target that @value{GDBN} is prepared to serve symbol lookup |
25012 | requests. Accept requests from the target for the values of symbols. | |
fa93a9d8 JB |
25013 | |
25014 | Reply: | |
ff2587ec | 25015 | @table @samp |
b8ff78ce | 25016 | @item OK |
ff2587ec | 25017 | The target does not need to look up any (more) symbols. |
b8ff78ce | 25018 | @item qSymbol:@var{sym_name} |
ff2587ec WZ |
25019 | The target requests the value of symbol @var{sym_name} (hex encoded). |
25020 | @value{GDBN} may provide the value by using the | |
b8ff78ce JB |
25021 | @samp{qSymbol:@var{sym_value}:@var{sym_name}} message, described |
25022 | below. | |
ff2587ec | 25023 | @end table |
83761cbd | 25024 | |
b8ff78ce | 25025 | @item qSymbol:@var{sym_value}:@var{sym_name} |
ff2587ec WZ |
25026 | Set the value of @var{sym_name} to @var{sym_value}. |
25027 | ||
25028 | @var{sym_name} (hex encoded) is the name of a symbol whose value the | |
25029 | target has previously requested. | |
25030 | ||
25031 | @var{sym_value} (hex) is the value for symbol @var{sym_name}. If | |
25032 | @value{GDBN} cannot supply a value for @var{sym_name}, then this field | |
25033 | will be empty. | |
25034 | ||
25035 | Reply: | |
25036 | @table @samp | |
b8ff78ce | 25037 | @item OK |
ff2587ec | 25038 | The target does not need to look up any (more) symbols. |
b8ff78ce | 25039 | @item qSymbol:@var{sym_name} |
ff2587ec WZ |
25040 | The target requests the value of a new symbol @var{sym_name} (hex |
25041 | encoded). @value{GDBN} will continue to supply the values of symbols | |
25042 | (if available), until the target ceases to request them. | |
fa93a9d8 | 25043 | @end table |
0abb7bc7 | 25044 | |
9d29849a JB |
25045 | @item QTDP |
25046 | @itemx QTFrame | |
25047 | @xref{Tracepoint Packets}. | |
25048 | ||
b8ff78ce | 25049 | @item qThreadExtraInfo,@var{id} |
ff2587ec | 25050 | @cindex thread attributes info, remote request |
b8ff78ce JB |
25051 | @cindex @samp{qThreadExtraInfo} packet |
25052 | Obtain a printable string description of a thread's attributes from | |
25053 | the target OS. @var{id} is a thread-id in big-endian hex. This | |
25054 | string may contain anything that the target OS thinks is interesting | |
25055 | for @value{GDBN} to tell the user about the thread. The string is | |
25056 | displayed in @value{GDBN}'s @code{info threads} display. Some | |
25057 | examples of possible thread extra info strings are @samp{Runnable}, or | |
25058 | @samp{Blocked on Mutex}. | |
ff2587ec WZ |
25059 | |
25060 | Reply: | |
25061 | @table @samp | |
b8ff78ce JB |
25062 | @item @var{XX}@dots{} |
25063 | Where @samp{@var{XX}@dots{}} is a hex encoding of @sc{ascii} data, | |
25064 | comprising the printable string containing the extra information about | |
25065 | the thread's attributes. | |
ff2587ec | 25066 | @end table |
814e32d7 | 25067 | |
aa56d27a JB |
25068 | (Note that the @code{qThreadExtraInfo} packet's name is separated from |
25069 | the command by a @samp{,}, not a @samp{:}, contrary to the naming | |
25070 | conventions above. Please don't use this packet as a model for new | |
25071 | packets.) | |
25072 | ||
9d29849a JB |
25073 | @item QTStart |
25074 | @itemx QTStop | |
25075 | @itemx QTinit | |
25076 | @itemx QTro | |
25077 | @itemx qTStatus | |
25078 | @xref{Tracepoint Packets}. | |
25079 | ||
0876f84a DJ |
25080 | @item qXfer:@var{object}:read:@var{annex}:@var{offset},@var{length} |
25081 | @cindex read special object, remote request | |
25082 | @cindex @samp{qXfer} packet | |
68437a39 | 25083 | @anchor{qXfer read} |
0876f84a DJ |
25084 | Read uninterpreted bytes from the target's special data area |
25085 | identified by the keyword @var{object}. Request @var{length} bytes | |
25086 | starting at @var{offset} bytes into the data. The content and | |
0e7f50da | 25087 | encoding of @var{annex} is specific to @var{object}; it can supply |
0876f84a DJ |
25088 | additional details about what data to access. |
25089 | ||
25090 | Here are the specific requests of this form defined so far. All | |
25091 | @samp{qXfer:@var{object}:read:@dots{}} requests use the same reply | |
25092 | formats, listed below. | |
25093 | ||
25094 | @table @samp | |
25095 | @item qXfer:auxv:read::@var{offset},@var{length} | |
25096 | @anchor{qXfer auxiliary vector read} | |
25097 | Access the target's @dfn{auxiliary vector}. @xref{OS Information, | |
427c3a89 | 25098 | auxiliary vector}. Note @var{annex} must be empty. |
0876f84a DJ |
25099 | |
25100 | This packet is not probed by default; the remote stub must request it, | |
89be2091 | 25101 | by supplying an appropriate @samp{qSupported} response (@pxref{qSupported}). |
0876f84a | 25102 | |
23181151 DJ |
25103 | @item qXfer:features:read:@var{annex}:@var{offset},@var{length} |
25104 | @anchor{qXfer target description read} | |
25105 | Access the @dfn{target description}. @xref{Target Descriptions}. The | |
25106 | annex specifies which XML document to access. The main description is | |
25107 | always loaded from the @samp{target.xml} annex. | |
25108 | ||
25109 | This packet is not probed by default; the remote stub must request it, | |
25110 | by supplying an appropriate @samp{qSupported} response (@pxref{qSupported}). | |
25111 | ||
cfa9d6d9 DJ |
25112 | @item qXfer:libraries:read:@var{annex}:@var{offset},@var{length} |
25113 | @anchor{qXfer library list read} | |
25114 | Access the target's list of loaded libraries. @xref{Library List Format}. | |
25115 | The annex part of the generic @samp{qXfer} packet must be empty | |
25116 | (@pxref{qXfer read}). | |
25117 | ||
25118 | Targets which maintain a list of libraries in the program's memory do | |
25119 | not need to implement this packet; it is designed for platforms where | |
25120 | the operating system manages the list of loaded libraries. | |
25121 | ||
25122 | This packet is not probed by default; the remote stub must request it, | |
25123 | by supplying an appropriate @samp{qSupported} response (@pxref{qSupported}). | |
25124 | ||
68437a39 DJ |
25125 | @item qXfer:memory-map:read::@var{offset},@var{length} |
25126 | @anchor{qXfer memory map read} | |
79a6e687 | 25127 | Access the target's @dfn{memory-map}. @xref{Memory Map Format}. The |
68437a39 DJ |
25128 | annex part of the generic @samp{qXfer} packet must be empty |
25129 | (@pxref{qXfer read}). | |
25130 | ||
0e7f50da UW |
25131 | This packet is not probed by default; the remote stub must request it, |
25132 | by supplying an appropriate @samp{qSupported} response (@pxref{qSupported}). | |
25133 | ||
25134 | @item qXfer:spu:read:@var{annex}:@var{offset},@var{length} | |
25135 | @anchor{qXfer spu read} | |
25136 | Read contents of an @code{spufs} file on the target system. The | |
25137 | annex specifies which file to read; it must be of the form | |
25138 | @file{@var{id}/@var{name}}, where @var{id} specifies an SPU context ID | |
25139 | in the target process, and @var{name} identifes the @code{spufs} file | |
25140 | in that context to be accessed. | |
25141 | ||
68437a39 DJ |
25142 | This packet is not probed by default; the remote stub must request it, |
25143 | by supplying an appropriate @samp{qSupported} response (@pxref{qSupported}). | |
25144 | @end table | |
25145 | ||
0876f84a DJ |
25146 | Reply: |
25147 | @table @samp | |
25148 | @item m @var{data} | |
25149 | Data @var{data} (@pxref{Binary Data}) has been read from the | |
25150 | target. There may be more data at a higher address (although | |
25151 | it is permitted to return @samp{m} even for the last valid | |
25152 | block of data, as long as at least one byte of data was read). | |
25153 | @var{data} may have fewer bytes than the @var{length} in the | |
25154 | request. | |
25155 | ||
25156 | @item l @var{data} | |
25157 | Data @var{data} (@pxref{Binary Data}) has been read from the target. | |
25158 | There is no more data to be read. @var{data} may have fewer bytes | |
25159 | than the @var{length} in the request. | |
25160 | ||
25161 | @item l | |
25162 | The @var{offset} in the request is at the end of the data. | |
25163 | There is no more data to be read. | |
25164 | ||
25165 | @item E00 | |
25166 | The request was malformed, or @var{annex} was invalid. | |
25167 | ||
25168 | @item E @var{nn} | |
25169 | The offset was invalid, or there was an error encountered reading the data. | |
25170 | @var{nn} is a hex-encoded @code{errno} value. | |
25171 | ||
25172 | @item | |
25173 | An empty reply indicates the @var{object} string was not recognized by | |
25174 | the stub, or that the object does not support reading. | |
25175 | @end table | |
25176 | ||
25177 | @item qXfer:@var{object}:write:@var{annex}:@var{offset}:@var{data}@dots{} | |
25178 | @cindex write data into object, remote request | |
25179 | Write uninterpreted bytes into the target's special data area | |
25180 | identified by the keyword @var{object}, starting at @var{offset} bytes | |
0e7f50da | 25181 | into the data. @var{data}@dots{} is the binary-encoded data |
0876f84a | 25182 | (@pxref{Binary Data}) to be written. The content and encoding of @var{annex} |
0e7f50da | 25183 | is specific to @var{object}; it can supply additional details about what data |
0876f84a DJ |
25184 | to access. |
25185 | ||
0e7f50da UW |
25186 | Here are the specific requests of this form defined so far. All |
25187 | @samp{qXfer:@var{object}:write:@dots{}} requests use the same reply | |
25188 | formats, listed below. | |
25189 | ||
25190 | @table @samp | |
25191 | @item qXfer:@var{spu}:write:@var{annex}:@var{offset}:@var{data}@dots{} | |
25192 | @anchor{qXfer spu write} | |
25193 | Write @var{data} to an @code{spufs} file on the target system. The | |
25194 | annex specifies which file to write; it must be of the form | |
25195 | @file{@var{id}/@var{name}}, where @var{id} specifies an SPU context ID | |
25196 | in the target process, and @var{name} identifes the @code{spufs} file | |
25197 | in that context to be accessed. | |
25198 | ||
25199 | This packet is not probed by default; the remote stub must request it, | |
25200 | by supplying an appropriate @samp{qSupported} response (@pxref{qSupported}). | |
25201 | @end table | |
0876f84a DJ |
25202 | |
25203 | Reply: | |
25204 | @table @samp | |
25205 | @item @var{nn} | |
25206 | @var{nn} (hex encoded) is the number of bytes written. | |
25207 | This may be fewer bytes than supplied in the request. | |
25208 | ||
25209 | @item E00 | |
25210 | The request was malformed, or @var{annex} was invalid. | |
25211 | ||
25212 | @item E @var{nn} | |
25213 | The offset was invalid, or there was an error encountered writing the data. | |
25214 | @var{nn} is a hex-encoded @code{errno} value. | |
25215 | ||
25216 | @item | |
25217 | An empty reply indicates the @var{object} string was not | |
25218 | recognized by the stub, or that the object does not support writing. | |
25219 | @end table | |
25220 | ||
25221 | @item qXfer:@var{object}:@var{operation}:@dots{} | |
25222 | Requests of this form may be added in the future. When a stub does | |
25223 | not recognize the @var{object} keyword, or its support for | |
25224 | @var{object} does not recognize the @var{operation} keyword, the stub | |
25225 | must respond with an empty packet. | |
25226 | ||
ee2d5c50 AC |
25227 | @end table |
25228 | ||
25229 | @node Register Packet Format | |
25230 | @section Register Packet Format | |
eb12ee30 | 25231 | |
b8ff78ce | 25232 | The following @code{g}/@code{G} packets have previously been defined. |
ee2d5c50 AC |
25233 | In the below, some thirty-two bit registers are transferred as |
25234 | sixty-four bits. Those registers should be zero/sign extended (which?) | |
599b237a BW |
25235 | to fill the space allocated. Register bytes are transferred in target |
25236 | byte order. The two nibbles within a register byte are transferred | |
ee2d5c50 | 25237 | most-significant - least-significant. |
eb12ee30 | 25238 | |
ee2d5c50 | 25239 | @table @r |
eb12ee30 | 25240 | |
8e04817f | 25241 | @item MIPS32 |
ee2d5c50 | 25242 | |
599b237a | 25243 | All registers are transferred as thirty-two bit quantities in the order: |
8e04817f AC |
25244 | 32 general-purpose; sr; lo; hi; bad; cause; pc; 32 floating-point |
25245 | registers; fsr; fir; fp. | |
eb12ee30 | 25246 | |
8e04817f | 25247 | @item MIPS64 |
ee2d5c50 | 25248 | |
599b237a | 25249 | All registers are transferred as sixty-four bit quantities (including |
8e04817f AC |
25250 | thirty-two bit registers such as @code{sr}). The ordering is the same |
25251 | as @code{MIPS32}. | |
eb12ee30 | 25252 | |
ee2d5c50 AC |
25253 | @end table |
25254 | ||
9d29849a JB |
25255 | @node Tracepoint Packets |
25256 | @section Tracepoint Packets | |
25257 | @cindex tracepoint packets | |
25258 | @cindex packets, tracepoint | |
25259 | ||
25260 | Here we describe the packets @value{GDBN} uses to implement | |
25261 | tracepoints (@pxref{Tracepoints}). | |
25262 | ||
25263 | @table @samp | |
25264 | ||
25265 | @item QTDP:@var{n}:@var{addr}:@var{ena}:@var{step}:@var{pass}@r{[}-@r{]} | |
25266 | Create a new tracepoint, number @var{n}, at @var{addr}. If @var{ena} | |
25267 | is @samp{E}, then the tracepoint is enabled; if it is @samp{D}, then | |
25268 | the tracepoint is disabled. @var{step} is the tracepoint's step | |
25269 | count, and @var{pass} is its pass count. If the trailing @samp{-} is | |
25270 | present, further @samp{QTDP} packets will follow to specify this | |
25271 | tracepoint's actions. | |
25272 | ||
25273 | Replies: | |
25274 | @table @samp | |
25275 | @item OK | |
25276 | The packet was understood and carried out. | |
25277 | @item | |
25278 | The packet was not recognized. | |
25279 | @end table | |
25280 | ||
25281 | @item QTDP:-@var{n}:@var{addr}:@r{[}S@r{]}@var{action}@dots{}@r{[}-@r{]} | |
25282 | Define actions to be taken when a tracepoint is hit. @var{n} and | |
25283 | @var{addr} must be the same as in the initial @samp{QTDP} packet for | |
25284 | this tracepoint. This packet may only be sent immediately after | |
25285 | another @samp{QTDP} packet that ended with a @samp{-}. If the | |
25286 | trailing @samp{-} is present, further @samp{QTDP} packets will follow, | |
25287 | specifying more actions for this tracepoint. | |
25288 | ||
25289 | In the series of action packets for a given tracepoint, at most one | |
25290 | can have an @samp{S} before its first @var{action}. If such a packet | |
25291 | is sent, it and the following packets define ``while-stepping'' | |
25292 | actions. Any prior packets define ordinary actions --- that is, those | |
25293 | taken when the tracepoint is first hit. If no action packet has an | |
25294 | @samp{S}, then all the packets in the series specify ordinary | |
25295 | tracepoint actions. | |
25296 | ||
25297 | The @samp{@var{action}@dots{}} portion of the packet is a series of | |
25298 | actions, concatenated without separators. Each action has one of the | |
25299 | following forms: | |
25300 | ||
25301 | @table @samp | |
25302 | ||
25303 | @item R @var{mask} | |
25304 | Collect the registers whose bits are set in @var{mask}. @var{mask} is | |
599b237a | 25305 | a hexadecimal number whose @var{i}'th bit is set if register number |
9d29849a JB |
25306 | @var{i} should be collected. (The least significant bit is numbered |
25307 | zero.) Note that @var{mask} may be any number of digits long; it may | |
25308 | not fit in a 32-bit word. | |
25309 | ||
25310 | @item M @var{basereg},@var{offset},@var{len} | |
25311 | Collect @var{len} bytes of memory starting at the address in register | |
25312 | number @var{basereg}, plus @var{offset}. If @var{basereg} is | |
25313 | @samp{-1}, then the range has a fixed address: @var{offset} is the | |
25314 | address of the lowest byte to collect. The @var{basereg}, | |
599b237a | 25315 | @var{offset}, and @var{len} parameters are all unsigned hexadecimal |
9d29849a JB |
25316 | values (the @samp{-1} value for @var{basereg} is a special case). |
25317 | ||
25318 | @item X @var{len},@var{expr} | |
25319 | Evaluate @var{expr}, whose length is @var{len}, and collect memory as | |
25320 | it directs. @var{expr} is an agent expression, as described in | |
25321 | @ref{Agent Expressions}. Each byte of the expression is encoded as a | |
25322 | two-digit hex number in the packet; @var{len} is the number of bytes | |
25323 | in the expression (and thus one-half the number of hex digits in the | |
25324 | packet). | |
25325 | ||
25326 | @end table | |
25327 | ||
25328 | Any number of actions may be packed together in a single @samp{QTDP} | |
25329 | packet, as long as the packet does not exceed the maximum packet | |
c1947b85 JB |
25330 | length (400 bytes, for many stubs). There may be only one @samp{R} |
25331 | action per tracepoint, and it must precede any @samp{M} or @samp{X} | |
25332 | actions. Any registers referred to by @samp{M} and @samp{X} actions | |
25333 | must be collected by a preceding @samp{R} action. (The | |
25334 | ``while-stepping'' actions are treated as if they were attached to a | |
25335 | separate tracepoint, as far as these restrictions are concerned.) | |
9d29849a JB |
25336 | |
25337 | Replies: | |
25338 | @table @samp | |
25339 | @item OK | |
25340 | The packet was understood and carried out. | |
25341 | @item | |
25342 | The packet was not recognized. | |
25343 | @end table | |
25344 | ||
25345 | @item QTFrame:@var{n} | |
25346 | Select the @var{n}'th tracepoint frame from the buffer, and use the | |
25347 | register and memory contents recorded there to answer subsequent | |
25348 | request packets from @value{GDBN}. | |
25349 | ||
25350 | A successful reply from the stub indicates that the stub has found the | |
25351 | requested frame. The response is a series of parts, concatenated | |
25352 | without separators, describing the frame we selected. Each part has | |
25353 | one of the following forms: | |
25354 | ||
25355 | @table @samp | |
25356 | @item F @var{f} | |
25357 | The selected frame is number @var{n} in the trace frame buffer; | |
599b237a | 25358 | @var{f} is a hexadecimal number. If @var{f} is @samp{-1}, then there |
9d29849a JB |
25359 | was no frame matching the criteria in the request packet. |
25360 | ||
25361 | @item T @var{t} | |
25362 | The selected trace frame records a hit of tracepoint number @var{t}; | |
599b237a | 25363 | @var{t} is a hexadecimal number. |
9d29849a JB |
25364 | |
25365 | @end table | |
25366 | ||
25367 | @item QTFrame:pc:@var{addr} | |
25368 | Like @samp{QTFrame:@var{n}}, but select the first tracepoint frame after the | |
25369 | currently selected frame whose PC is @var{addr}; | |
599b237a | 25370 | @var{addr} is a hexadecimal number. |
9d29849a JB |
25371 | |
25372 | @item QTFrame:tdp:@var{t} | |
25373 | Like @samp{QTFrame:@var{n}}, but select the first tracepoint frame after the | |
25374 | currently selected frame that is a hit of tracepoint @var{t}; @var{t} | |
599b237a | 25375 | is a hexadecimal number. |
9d29849a JB |
25376 | |
25377 | @item QTFrame:range:@var{start}:@var{end} | |
25378 | Like @samp{QTFrame:@var{n}}, but select the first tracepoint frame after the | |
25379 | currently selected frame whose PC is between @var{start} (inclusive) | |
599b237a | 25380 | and @var{end} (exclusive); @var{start} and @var{end} are hexadecimal |
9d29849a JB |
25381 | numbers. |
25382 | ||
25383 | @item QTFrame:outside:@var{start}:@var{end} | |
25384 | Like @samp{QTFrame:range:@var{start}:@var{end}}, but select the first | |
25385 | frame @emph{outside} the given range of addresses. | |
25386 | ||
25387 | @item QTStart | |
25388 | Begin the tracepoint experiment. Begin collecting data from tracepoint | |
25389 | hits in the trace frame buffer. | |
25390 | ||
25391 | @item QTStop | |
25392 | End the tracepoint experiment. Stop collecting trace frames. | |
25393 | ||
25394 | @item QTinit | |
25395 | Clear the table of tracepoints, and empty the trace frame buffer. | |
25396 | ||
25397 | @item QTro:@var{start1},@var{end1}:@var{start2},@var{end2}:@dots{} | |
25398 | Establish the given ranges of memory as ``transparent''. The stub | |
25399 | will answer requests for these ranges from memory's current contents, | |
25400 | if they were not collected as part of the tracepoint hit. | |
25401 | ||
25402 | @value{GDBN} uses this to mark read-only regions of memory, like those | |
25403 | containing program code. Since these areas never change, they should | |
25404 | still have the same contents they did when the tracepoint was hit, so | |
25405 | there's no reason for the stub to refuse to provide their contents. | |
25406 | ||
25407 | @item qTStatus | |
25408 | Ask the stub if there is a trace experiment running right now. | |
25409 | ||
25410 | Replies: | |
25411 | @table @samp | |
25412 | @item T0 | |
25413 | There is no trace experiment running. | |
25414 | @item T1 | |
25415 | There is a trace experiment running. | |
25416 | @end table | |
25417 | ||
25418 | @end table | |
25419 | ||
25420 | ||
a6b151f1 DJ |
25421 | @node Host I/O Packets |
25422 | @section Host I/O Packets | |
25423 | @cindex Host I/O, remote protocol | |
25424 | @cindex file transfer, remote protocol | |
25425 | ||
25426 | The @dfn{Host I/O} packets allow @value{GDBN} to perform I/O | |
25427 | operations on the far side of a remote link. For example, Host I/O is | |
25428 | used to upload and download files to a remote target with its own | |
25429 | filesystem. Host I/O uses the same constant values and data structure | |
25430 | layout as the target-initiated File-I/O protocol. However, the | |
25431 | Host I/O packets are structured differently. The target-initiated | |
25432 | protocol relies on target memory to store parameters and buffers. | |
25433 | Host I/O requests are initiated by @value{GDBN}, and the | |
25434 | target's memory is not involved. @xref{File-I/O Remote Protocol | |
25435 | Extension}, for more details on the target-initiated protocol. | |
25436 | ||
25437 | The Host I/O request packets all encode a single operation along with | |
25438 | its arguments. They have this format: | |
25439 | ||
25440 | @table @samp | |
25441 | ||
25442 | @item vFile:@var{operation}: @var{parameter}@dots{} | |
25443 | @var{operation} is the name of the particular request; the target | |
25444 | should compare the entire packet name up to the second colon when checking | |
25445 | for a supported operation. The format of @var{parameter} depends on | |
25446 | the operation. Numbers are always passed in hexadecimal. Negative | |
25447 | numbers have an explicit minus sign (i.e.@: two's complement is not | |
25448 | used). Strings (e.g.@: filenames) are encoded as a series of | |
25449 | hexadecimal bytes. The last argument to a system call may be a | |
25450 | buffer of escaped binary data (@pxref{Binary Data}). | |
25451 | ||
25452 | @end table | |
25453 | ||
25454 | The valid responses to Host I/O packets are: | |
25455 | ||
25456 | @table @samp | |
25457 | ||
25458 | @item F @var{result} [, @var{errno}] [; @var{attachment}] | |
25459 | @var{result} is the integer value returned by this operation, usually | |
25460 | non-negative for success and -1 for errors. If an error has occured, | |
25461 | @var{errno} will be included in the result. @var{errno} will have a | |
25462 | value defined by the File-I/O protocol (@pxref{Errno Values}). For | |
25463 | operations which return data, @var{attachment} supplies the data as a | |
25464 | binary buffer. Binary buffers in response packets are escaped in the | |
25465 | normal way (@pxref{Binary Data}). See the individual packet | |
25466 | documentation for the interpretation of @var{result} and | |
25467 | @var{attachment}. | |
25468 | ||
25469 | @item | |
25470 | An empty response indicates that this operation is not recognized. | |
25471 | ||
25472 | @end table | |
25473 | ||
25474 | These are the supported Host I/O operations: | |
25475 | ||
25476 | @table @samp | |
25477 | @item vFile:open: @var{pathname}, @var{flags}, @var{mode} | |
25478 | Open a file at @var{pathname} and return a file descriptor for it, or | |
25479 | return -1 if an error occurs. @var{pathname} is a string, | |
25480 | @var{flags} is an integer indicating a mask of open flags | |
25481 | (@pxref{Open Flags}), and @var{mode} is an integer indicating a mask | |
25482 | of mode bits to use if the file is created (@pxref{mode_t Values}). | |
c1c25a1a | 25483 | @xref{open}, for details of the open flags and mode values. |
a6b151f1 DJ |
25484 | |
25485 | @item vFile:close: @var{fd} | |
25486 | Close the open file corresponding to @var{fd} and return 0, or | |
25487 | -1 if an error occurs. | |
25488 | ||
25489 | @item vFile:pread: @var{fd}, @var{count}, @var{offset} | |
25490 | Read data from the open file corresponding to @var{fd}. Up to | |
25491 | @var{count} bytes will be read from the file, starting at @var{offset} | |
25492 | relative to the start of the file. The target may read fewer bytes; | |
25493 | common reasons include packet size limits and an end-of-file | |
25494 | condition. The number of bytes read is returned. Zero should only be | |
25495 | returned for a successful read at the end of the file, or if | |
25496 | @var{count} was zero. | |
25497 | ||
25498 | The data read should be returned as a binary attachment on success. | |
25499 | If zero bytes were read, the response should include an empty binary | |
25500 | attachment (i.e.@: a trailing semicolon). The return value is the | |
25501 | number of target bytes read; the binary attachment may be longer if | |
25502 | some characters were escaped. | |
25503 | ||
25504 | @item vFile:pwrite: @var{fd}, @var{offset}, @var{data} | |
25505 | Write @var{data} (a binary buffer) to the open file corresponding | |
25506 | to @var{fd}. Start the write at @var{offset} from the start of the | |
25507 | file. Unlike many @code{write} system calls, there is no | |
25508 | separate @var{count} argument; the length of @var{data} in the | |
25509 | packet is used. @samp{vFile:write} returns the number of bytes written, | |
25510 | which may be shorter than the length of @var{data}, or -1 if an | |
25511 | error occurred. | |
25512 | ||
25513 | @item vFile:unlink: @var{pathname} | |
25514 | Delete the file at @var{pathname} on the target. Return 0, | |
25515 | or -1 if an error occurs. @var{pathname} is a string. | |
25516 | ||
25517 | @end table | |
25518 | ||
9a6253be KB |
25519 | @node Interrupts |
25520 | @section Interrupts | |
25521 | @cindex interrupts (remote protocol) | |
25522 | ||
25523 | When a program on the remote target is running, @value{GDBN} may | |
25524 | attempt to interrupt it by sending a @samp{Ctrl-C} or a @code{BREAK}, | |
25525 | control of which is specified via @value{GDBN}'s @samp{remotebreak} | |
25526 | setting (@pxref{set remotebreak}). | |
25527 | ||
25528 | The precise meaning of @code{BREAK} is defined by the transport | |
25529 | mechanism and may, in fact, be undefined. @value{GDBN} does | |
25530 | not currently define a @code{BREAK} mechanism for any of the network | |
25531 | interfaces. | |
25532 | ||
25533 | @samp{Ctrl-C}, on the other hand, is defined and implemented for all | |
25534 | transport mechanisms. It is represented by sending the single byte | |
25535 | @code{0x03} without any of the usual packet overhead described in | |
25536 | the Overview section (@pxref{Overview}). When a @code{0x03} byte is | |
25537 | transmitted as part of a packet, it is considered to be packet data | |
25538 | and does @emph{not} represent an interrupt. E.g., an @samp{X} packet | |
0876f84a | 25539 | (@pxref{X packet}), used for binary downloads, may include an unescaped |
9a6253be KB |
25540 | @code{0x03} as part of its packet. |
25541 | ||
25542 | Stubs are not required to recognize these interrupt mechanisms and the | |
25543 | precise meaning associated with receipt of the interrupt is | |
25544 | implementation defined. If the stub is successful at interrupting the | |
25545 | running program, it is expected that it will send one of the Stop | |
25546 | Reply Packets (@pxref{Stop Reply Packets}) to @value{GDBN} as a result | |
25547 | of successfully stopping the program. Interrupts received while the | |
25548 | program is stopped will be discarded. | |
25549 | ||
ee2d5c50 AC |
25550 | @node Examples |
25551 | @section Examples | |
eb12ee30 | 25552 | |
8e04817f AC |
25553 | Example sequence of a target being re-started. Notice how the restart |
25554 | does not get any direct output: | |
eb12ee30 | 25555 | |
474c8240 | 25556 | @smallexample |
d2c6833e AC |
25557 | -> @code{R00} |
25558 | <- @code{+} | |
8e04817f | 25559 | @emph{target restarts} |
d2c6833e | 25560 | -> @code{?} |
8e04817f | 25561 | <- @code{+} |
d2c6833e AC |
25562 | <- @code{T001:1234123412341234} |
25563 | -> @code{+} | |
474c8240 | 25564 | @end smallexample |
eb12ee30 | 25565 | |
8e04817f | 25566 | Example sequence of a target being stepped by a single instruction: |
eb12ee30 | 25567 | |
474c8240 | 25568 | @smallexample |
d2c6833e | 25569 | -> @code{G1445@dots{}} |
8e04817f | 25570 | <- @code{+} |
d2c6833e AC |
25571 | -> @code{s} |
25572 | <- @code{+} | |
25573 | @emph{time passes} | |
25574 | <- @code{T001:1234123412341234} | |
8e04817f | 25575 | -> @code{+} |
d2c6833e | 25576 | -> @code{g} |
8e04817f | 25577 | <- @code{+} |
d2c6833e AC |
25578 | <- @code{1455@dots{}} |
25579 | -> @code{+} | |
474c8240 | 25580 | @end smallexample |
eb12ee30 | 25581 | |
79a6e687 BW |
25582 | @node File-I/O Remote Protocol Extension |
25583 | @section File-I/O Remote Protocol Extension | |
0ce1b118 CV |
25584 | @cindex File-I/O remote protocol extension |
25585 | ||
25586 | @menu | |
25587 | * File-I/O Overview:: | |
79a6e687 BW |
25588 | * Protocol Basics:: |
25589 | * The F Request Packet:: | |
25590 | * The F Reply Packet:: | |
25591 | * The Ctrl-C Message:: | |
0ce1b118 | 25592 | * Console I/O:: |
79a6e687 | 25593 | * List of Supported Calls:: |
db2e3e2e | 25594 | * Protocol-specific Representation of Datatypes:: |
0ce1b118 CV |
25595 | * Constants:: |
25596 | * File-I/O Examples:: | |
25597 | @end menu | |
25598 | ||
25599 | @node File-I/O Overview | |
25600 | @subsection File-I/O Overview | |
25601 | @cindex file-i/o overview | |
25602 | ||
9c16f35a | 25603 | The @dfn{File I/O remote protocol extension} (short: File-I/O) allows the |
fc320d37 | 25604 | target to use the host's file system and console I/O to perform various |
0ce1b118 | 25605 | system calls. System calls on the target system are translated into a |
fc320d37 SL |
25606 | remote protocol packet to the host system, which then performs the needed |
25607 | actions and returns a response packet to the target system. | |
0ce1b118 CV |
25608 | This simulates file system operations even on targets that lack file systems. |
25609 | ||
fc320d37 SL |
25610 | The protocol is defined to be independent of both the host and target systems. |
25611 | It uses its own internal representation of datatypes and values. Both | |
0ce1b118 | 25612 | @value{GDBN} and the target's @value{GDBN} stub are responsible for |
fc320d37 SL |
25613 | translating the system-dependent value representations into the internal |
25614 | protocol representations when data is transmitted. | |
0ce1b118 | 25615 | |
fc320d37 SL |
25616 | The communication is synchronous. A system call is possible only when |
25617 | @value{GDBN} is waiting for a response from the @samp{C}, @samp{c}, @samp{S} | |
25618 | or @samp{s} packets. While @value{GDBN} handles the request for a system call, | |
0ce1b118 | 25619 | the target is stopped to allow deterministic access to the target's |
fc320d37 SL |
25620 | memory. Therefore File-I/O is not interruptible by target signals. On |
25621 | the other hand, it is possible to interrupt File-I/O by a user interrupt | |
c8aa23ab | 25622 | (@samp{Ctrl-C}) within @value{GDBN}. |
0ce1b118 CV |
25623 | |
25624 | The target's request to perform a host system call does not finish | |
25625 | the latest @samp{C}, @samp{c}, @samp{S} or @samp{s} action. That means, | |
25626 | after finishing the system call, the target returns to continuing the | |
25627 | previous activity (continue, step). No additional continue or step | |
25628 | request from @value{GDBN} is required. | |
25629 | ||
25630 | @smallexample | |
f7dc1244 | 25631 | (@value{GDBP}) continue |
0ce1b118 CV |
25632 | <- target requests 'system call X' |
25633 | target is stopped, @value{GDBN} executes system call | |
3f94c067 BW |
25634 | -> @value{GDBN} returns result |
25635 | ... target continues, @value{GDBN} returns to wait for the target | |
0ce1b118 CV |
25636 | <- target hits breakpoint and sends a Txx packet |
25637 | @end smallexample | |
25638 | ||
fc320d37 SL |
25639 | The protocol only supports I/O on the console and to regular files on |
25640 | the host file system. Character or block special devices, pipes, | |
25641 | named pipes, sockets or any other communication method on the host | |
0ce1b118 CV |
25642 | system are not supported by this protocol. |
25643 | ||
79a6e687 BW |
25644 | @node Protocol Basics |
25645 | @subsection Protocol Basics | |
0ce1b118 CV |
25646 | @cindex protocol basics, file-i/o |
25647 | ||
fc320d37 SL |
25648 | The File-I/O protocol uses the @code{F} packet as the request as well |
25649 | as reply packet. Since a File-I/O system call can only occur when | |
25650 | @value{GDBN} is waiting for a response from the continuing or stepping target, | |
25651 | the File-I/O request is a reply that @value{GDBN} has to expect as a result | |
25652 | of a previous @samp{C}, @samp{c}, @samp{S} or @samp{s} packet. | |
0ce1b118 CV |
25653 | This @code{F} packet contains all information needed to allow @value{GDBN} |
25654 | to call the appropriate host system call: | |
25655 | ||
25656 | @itemize @bullet | |
b383017d | 25657 | @item |
0ce1b118 CV |
25658 | A unique identifier for the requested system call. |
25659 | ||
25660 | @item | |
25661 | All parameters to the system call. Pointers are given as addresses | |
25662 | in the target memory address space. Pointers to strings are given as | |
b383017d | 25663 | pointer/length pair. Numerical values are given as they are. |
db2e3e2e | 25664 | Numerical control flags are given in a protocol-specific representation. |
0ce1b118 CV |
25665 | |
25666 | @end itemize | |
25667 | ||
fc320d37 | 25668 | At this point, @value{GDBN} has to perform the following actions. |
0ce1b118 CV |
25669 | |
25670 | @itemize @bullet | |
b383017d | 25671 | @item |
fc320d37 SL |
25672 | If the parameters include pointer values to data needed as input to a |
25673 | system call, @value{GDBN} requests this data from the target with a | |
0ce1b118 CV |
25674 | standard @code{m} packet request. This additional communication has to be |
25675 | expected by the target implementation and is handled as any other @code{m} | |
25676 | packet. | |
25677 | ||
25678 | @item | |
25679 | @value{GDBN} translates all value from protocol representation to host | |
25680 | representation as needed. Datatypes are coerced into the host types. | |
25681 | ||
25682 | @item | |
fc320d37 | 25683 | @value{GDBN} calls the system call. |
0ce1b118 CV |
25684 | |
25685 | @item | |
25686 | It then coerces datatypes back to protocol representation. | |
25687 | ||
25688 | @item | |
fc320d37 SL |
25689 | If the system call is expected to return data in buffer space specified |
25690 | by pointer parameters to the call, the data is transmitted to the | |
0ce1b118 CV |
25691 | target using a @code{M} or @code{X} packet. This packet has to be expected |
25692 | by the target implementation and is handled as any other @code{M} or @code{X} | |
25693 | packet. | |
25694 | ||
25695 | @end itemize | |
25696 | ||
25697 | Eventually @value{GDBN} replies with another @code{F} packet which contains all | |
25698 | necessary information for the target to continue. This at least contains | |
25699 | ||
25700 | @itemize @bullet | |
25701 | @item | |
25702 | Return value. | |
25703 | ||
25704 | @item | |
25705 | @code{errno}, if has been changed by the system call. | |
25706 | ||
25707 | @item | |
25708 | ``Ctrl-C'' flag. | |
25709 | ||
25710 | @end itemize | |
25711 | ||
25712 | After having done the needed type and value coercion, the target continues | |
25713 | the latest continue or step action. | |
25714 | ||
79a6e687 BW |
25715 | @node The F Request Packet |
25716 | @subsection The @code{F} Request Packet | |
0ce1b118 CV |
25717 | @cindex file-i/o request packet |
25718 | @cindex @code{F} request packet | |
25719 | ||
25720 | The @code{F} request packet has the following format: | |
25721 | ||
25722 | @table @samp | |
fc320d37 | 25723 | @item F@var{call-id},@var{parameter@dots{}} |
0ce1b118 CV |
25724 | |
25725 | @var{call-id} is the identifier to indicate the host system call to be called. | |
25726 | This is just the name of the function. | |
25727 | ||
fc320d37 SL |
25728 | @var{parameter@dots{}} are the parameters to the system call. |
25729 | Parameters are hexadecimal integer values, either the actual values in case | |
25730 | of scalar datatypes, pointers to target buffer space in case of compound | |
25731 | datatypes and unspecified memory areas, or pointer/length pairs in case | |
25732 | of string parameters. These are appended to the @var{call-id} as a | |
25733 | comma-delimited list. All values are transmitted in ASCII | |
25734 | string representation, pointer/length pairs separated by a slash. | |
0ce1b118 | 25735 | |
b383017d | 25736 | @end table |
0ce1b118 | 25737 | |
fc320d37 | 25738 | |
0ce1b118 | 25739 | |
79a6e687 BW |
25740 | @node The F Reply Packet |
25741 | @subsection The @code{F} Reply Packet | |
0ce1b118 CV |
25742 | @cindex file-i/o reply packet |
25743 | @cindex @code{F} reply packet | |
25744 | ||
25745 | The @code{F} reply packet has the following format: | |
25746 | ||
25747 | @table @samp | |
25748 | ||
d3bdde98 | 25749 | @item F@var{retcode},@var{errno},@var{Ctrl-C flag};@var{call-specific attachment} |
0ce1b118 CV |
25750 | |
25751 | @var{retcode} is the return code of the system call as hexadecimal value. | |
25752 | ||
db2e3e2e BW |
25753 | @var{errno} is the @code{errno} set by the call, in protocol-specific |
25754 | representation. | |
0ce1b118 CV |
25755 | This parameter can be omitted if the call was successful. |
25756 | ||
fc320d37 SL |
25757 | @var{Ctrl-C flag} is only sent if the user requested a break. In this |
25758 | case, @var{errno} must be sent as well, even if the call was successful. | |
25759 | The @var{Ctrl-C flag} itself consists of the character @samp{C}: | |
0ce1b118 CV |
25760 | |
25761 | @smallexample | |
25762 | F0,0,C | |
25763 | @end smallexample | |
25764 | ||
25765 | @noindent | |
fc320d37 | 25766 | or, if the call was interrupted before the host call has been performed: |
0ce1b118 CV |
25767 | |
25768 | @smallexample | |
25769 | F-1,4,C | |
25770 | @end smallexample | |
25771 | ||
25772 | @noindent | |
db2e3e2e | 25773 | assuming 4 is the protocol-specific representation of @code{EINTR}. |
0ce1b118 CV |
25774 | |
25775 | @end table | |
25776 | ||
0ce1b118 | 25777 | |
79a6e687 BW |
25778 | @node The Ctrl-C Message |
25779 | @subsection The @samp{Ctrl-C} Message | |
0ce1b118 CV |
25780 | @cindex ctrl-c message, in file-i/o protocol |
25781 | ||
c8aa23ab | 25782 | If the @samp{Ctrl-C} flag is set in the @value{GDBN} |
79a6e687 | 25783 | reply packet (@pxref{The F Reply Packet}), |
fc320d37 | 25784 | the target should behave as if it had |
0ce1b118 | 25785 | gotten a break message. The meaning for the target is ``system call |
fc320d37 | 25786 | interrupted by @code{SIGINT}''. Consequentially, the target should actually stop |
0ce1b118 | 25787 | (as with a break message) and return to @value{GDBN} with a @code{T02} |
c8aa23ab | 25788 | packet. |
fc320d37 SL |
25789 | |
25790 | It's important for the target to know in which | |
25791 | state the system call was interrupted. There are two possible cases: | |
0ce1b118 CV |
25792 | |
25793 | @itemize @bullet | |
25794 | @item | |
25795 | The system call hasn't been performed on the host yet. | |
25796 | ||
25797 | @item | |
25798 | The system call on the host has been finished. | |
25799 | ||
25800 | @end itemize | |
25801 | ||
25802 | These two states can be distinguished by the target by the value of the | |
25803 | returned @code{errno}. If it's the protocol representation of @code{EINTR}, the system | |
25804 | call hasn't been performed. This is equivalent to the @code{EINTR} handling | |
25805 | on POSIX systems. In any other case, the target may presume that the | |
fc320d37 | 25806 | system call has been finished --- successfully or not --- and should behave |
0ce1b118 CV |
25807 | as if the break message arrived right after the system call. |
25808 | ||
fc320d37 | 25809 | @value{GDBN} must behave reliably. If the system call has not been called |
0ce1b118 CV |
25810 | yet, @value{GDBN} may send the @code{F} reply immediately, setting @code{EINTR} as |
25811 | @code{errno} in the packet. If the system call on the host has been finished | |
fc320d37 SL |
25812 | before the user requests a break, the full action must be finished by |
25813 | @value{GDBN}. This requires sending @code{M} or @code{X} packets as necessary. | |
25814 | The @code{F} packet may only be sent when either nothing has happened | |
0ce1b118 CV |
25815 | or the full action has been completed. |
25816 | ||
25817 | @node Console I/O | |
25818 | @subsection Console I/O | |
25819 | @cindex console i/o as part of file-i/o | |
25820 | ||
d3e8051b | 25821 | By default and if not explicitly closed by the target system, the file |
0ce1b118 CV |
25822 | descriptors 0, 1 and 2 are connected to the @value{GDBN} console. Output |
25823 | on the @value{GDBN} console is handled as any other file output operation | |
25824 | (@code{write(1, @dots{})} or @code{write(2, @dots{})}). Console input is handled | |
25825 | by @value{GDBN} so that after the target read request from file descriptor | |
25826 | 0 all following typing is buffered until either one of the following | |
25827 | conditions is met: | |
25828 | ||
25829 | @itemize @bullet | |
25830 | @item | |
c8aa23ab | 25831 | The user types @kbd{Ctrl-c}. The behaviour is as explained above, and the |
0ce1b118 CV |
25832 | @code{read} |
25833 | system call is treated as finished. | |
25834 | ||
25835 | @item | |
7f9087cb | 25836 | The user presses @key{RET}. This is treated as end of input with a trailing |
fc320d37 | 25837 | newline. |
0ce1b118 CV |
25838 | |
25839 | @item | |
c8aa23ab EZ |
25840 | The user types @kbd{Ctrl-d}. This is treated as end of input. No trailing |
25841 | character (neither newline nor @samp{Ctrl-D}) is appended to the input. | |
0ce1b118 CV |
25842 | |
25843 | @end itemize | |
25844 | ||
fc320d37 SL |
25845 | If the user has typed more characters than fit in the buffer given to |
25846 | the @code{read} call, the trailing characters are buffered in @value{GDBN} until | |
25847 | either another @code{read(0, @dots{})} is requested by the target, or debugging | |
25848 | is stopped at the user's request. | |
0ce1b118 | 25849 | |
0ce1b118 | 25850 | |
79a6e687 BW |
25851 | @node List of Supported Calls |
25852 | @subsection List of Supported Calls | |
0ce1b118 CV |
25853 | @cindex list of supported file-i/o calls |
25854 | ||
25855 | @menu | |
25856 | * open:: | |
25857 | * close:: | |
25858 | * read:: | |
25859 | * write:: | |
25860 | * lseek:: | |
25861 | * rename:: | |
25862 | * unlink:: | |
25863 | * stat/fstat:: | |
25864 | * gettimeofday:: | |
25865 | * isatty:: | |
25866 | * system:: | |
25867 | @end menu | |
25868 | ||
25869 | @node open | |
25870 | @unnumberedsubsubsec open | |
25871 | @cindex open, file-i/o system call | |
25872 | ||
fc320d37 SL |
25873 | @table @asis |
25874 | @item Synopsis: | |
0ce1b118 | 25875 | @smallexample |
0ce1b118 CV |
25876 | int open(const char *pathname, int flags); |
25877 | int open(const char *pathname, int flags, mode_t mode); | |
0ce1b118 CV |
25878 | @end smallexample |
25879 | ||
fc320d37 SL |
25880 | @item Request: |
25881 | @samp{Fopen,@var{pathptr}/@var{len},@var{flags},@var{mode}} | |
25882 | ||
0ce1b118 | 25883 | @noindent |
fc320d37 | 25884 | @var{flags} is the bitwise @code{OR} of the following values: |
0ce1b118 CV |
25885 | |
25886 | @table @code | |
b383017d | 25887 | @item O_CREAT |
0ce1b118 CV |
25888 | If the file does not exist it will be created. The host |
25889 | rules apply as far as file ownership and time stamps | |
25890 | are concerned. | |
25891 | ||
b383017d | 25892 | @item O_EXCL |
fc320d37 | 25893 | When used with @code{O_CREAT}, if the file already exists it is |
0ce1b118 CV |
25894 | an error and open() fails. |
25895 | ||
b383017d | 25896 | @item O_TRUNC |
0ce1b118 | 25897 | If the file already exists and the open mode allows |
fc320d37 SL |
25898 | writing (@code{O_RDWR} or @code{O_WRONLY} is given) it will be |
25899 | truncated to zero length. | |
0ce1b118 | 25900 | |
b383017d | 25901 | @item O_APPEND |
0ce1b118 CV |
25902 | The file is opened in append mode. |
25903 | ||
b383017d | 25904 | @item O_RDONLY |
0ce1b118 CV |
25905 | The file is opened for reading only. |
25906 | ||
b383017d | 25907 | @item O_WRONLY |
0ce1b118 CV |
25908 | The file is opened for writing only. |
25909 | ||
b383017d | 25910 | @item O_RDWR |
0ce1b118 | 25911 | The file is opened for reading and writing. |
fc320d37 | 25912 | @end table |
0ce1b118 CV |
25913 | |
25914 | @noindent | |
fc320d37 | 25915 | Other bits are silently ignored. |
0ce1b118 | 25916 | |
0ce1b118 CV |
25917 | |
25918 | @noindent | |
fc320d37 | 25919 | @var{mode} is the bitwise @code{OR} of the following values: |
0ce1b118 CV |
25920 | |
25921 | @table @code | |
b383017d | 25922 | @item S_IRUSR |
0ce1b118 CV |
25923 | User has read permission. |
25924 | ||
b383017d | 25925 | @item S_IWUSR |
0ce1b118 CV |
25926 | User has write permission. |
25927 | ||
b383017d | 25928 | @item S_IRGRP |
0ce1b118 CV |
25929 | Group has read permission. |
25930 | ||
b383017d | 25931 | @item S_IWGRP |
0ce1b118 CV |
25932 | Group has write permission. |
25933 | ||
b383017d | 25934 | @item S_IROTH |
0ce1b118 CV |
25935 | Others have read permission. |
25936 | ||
b383017d | 25937 | @item S_IWOTH |
0ce1b118 | 25938 | Others have write permission. |
fc320d37 | 25939 | @end table |
0ce1b118 CV |
25940 | |
25941 | @noindent | |
fc320d37 | 25942 | Other bits are silently ignored. |
0ce1b118 | 25943 | |
0ce1b118 | 25944 | |
fc320d37 SL |
25945 | @item Return value: |
25946 | @code{open} returns the new file descriptor or -1 if an error | |
25947 | occurred. | |
0ce1b118 | 25948 | |
fc320d37 | 25949 | @item Errors: |
0ce1b118 CV |
25950 | |
25951 | @table @code | |
b383017d | 25952 | @item EEXIST |
fc320d37 | 25953 | @var{pathname} already exists and @code{O_CREAT} and @code{O_EXCL} were used. |
0ce1b118 | 25954 | |
b383017d | 25955 | @item EISDIR |
fc320d37 | 25956 | @var{pathname} refers to a directory. |
0ce1b118 | 25957 | |
b383017d | 25958 | @item EACCES |
0ce1b118 CV |
25959 | The requested access is not allowed. |
25960 | ||
25961 | @item ENAMETOOLONG | |
fc320d37 | 25962 | @var{pathname} was too long. |
0ce1b118 | 25963 | |
b383017d | 25964 | @item ENOENT |
fc320d37 | 25965 | A directory component in @var{pathname} does not exist. |
0ce1b118 | 25966 | |
b383017d | 25967 | @item ENODEV |
fc320d37 | 25968 | @var{pathname} refers to a device, pipe, named pipe or socket. |
0ce1b118 | 25969 | |
b383017d | 25970 | @item EROFS |
fc320d37 | 25971 | @var{pathname} refers to a file on a read-only filesystem and |
0ce1b118 CV |
25972 | write access was requested. |
25973 | ||
b383017d | 25974 | @item EFAULT |
fc320d37 | 25975 | @var{pathname} is an invalid pointer value. |
0ce1b118 | 25976 | |
b383017d | 25977 | @item ENOSPC |
0ce1b118 CV |
25978 | No space on device to create the file. |
25979 | ||
b383017d | 25980 | @item EMFILE |
0ce1b118 CV |
25981 | The process already has the maximum number of files open. |
25982 | ||
b383017d | 25983 | @item ENFILE |
0ce1b118 CV |
25984 | The limit on the total number of files open on the system |
25985 | has been reached. | |
25986 | ||
b383017d | 25987 | @item EINTR |
0ce1b118 CV |
25988 | The call was interrupted by the user. |
25989 | @end table | |
25990 | ||
fc320d37 SL |
25991 | @end table |
25992 | ||
0ce1b118 CV |
25993 | @node close |
25994 | @unnumberedsubsubsec close | |
25995 | @cindex close, file-i/o system call | |
25996 | ||
fc320d37 SL |
25997 | @table @asis |
25998 | @item Synopsis: | |
0ce1b118 | 25999 | @smallexample |
0ce1b118 | 26000 | int close(int fd); |
fc320d37 | 26001 | @end smallexample |
0ce1b118 | 26002 | |
fc320d37 SL |
26003 | @item Request: |
26004 | @samp{Fclose,@var{fd}} | |
0ce1b118 | 26005 | |
fc320d37 SL |
26006 | @item Return value: |
26007 | @code{close} returns zero on success, or -1 if an error occurred. | |
0ce1b118 | 26008 | |
fc320d37 | 26009 | @item Errors: |
0ce1b118 CV |
26010 | |
26011 | @table @code | |
b383017d | 26012 | @item EBADF |
fc320d37 | 26013 | @var{fd} isn't a valid open file descriptor. |
0ce1b118 | 26014 | |
b383017d | 26015 | @item EINTR |
0ce1b118 CV |
26016 | The call was interrupted by the user. |
26017 | @end table | |
26018 | ||
fc320d37 SL |
26019 | @end table |
26020 | ||
0ce1b118 CV |
26021 | @node read |
26022 | @unnumberedsubsubsec read | |
26023 | @cindex read, file-i/o system call | |
26024 | ||
fc320d37 SL |
26025 | @table @asis |
26026 | @item Synopsis: | |
0ce1b118 | 26027 | @smallexample |
0ce1b118 | 26028 | int read(int fd, void *buf, unsigned int count); |
fc320d37 | 26029 | @end smallexample |
0ce1b118 | 26030 | |
fc320d37 SL |
26031 | @item Request: |
26032 | @samp{Fread,@var{fd},@var{bufptr},@var{count}} | |
0ce1b118 | 26033 | |
fc320d37 | 26034 | @item Return value: |
0ce1b118 CV |
26035 | On success, the number of bytes read is returned. |
26036 | Zero indicates end of file. If count is zero, read | |
b383017d | 26037 | returns zero as well. On error, -1 is returned. |
0ce1b118 | 26038 | |
fc320d37 | 26039 | @item Errors: |
0ce1b118 CV |
26040 | |
26041 | @table @code | |
b383017d | 26042 | @item EBADF |
fc320d37 | 26043 | @var{fd} is not a valid file descriptor or is not open for |
0ce1b118 CV |
26044 | reading. |
26045 | ||
b383017d | 26046 | @item EFAULT |
fc320d37 | 26047 | @var{bufptr} is an invalid pointer value. |
0ce1b118 | 26048 | |
b383017d | 26049 | @item EINTR |
0ce1b118 CV |
26050 | The call was interrupted by the user. |
26051 | @end table | |
26052 | ||
fc320d37 SL |
26053 | @end table |
26054 | ||
0ce1b118 CV |
26055 | @node write |
26056 | @unnumberedsubsubsec write | |
26057 | @cindex write, file-i/o system call | |
26058 | ||
fc320d37 SL |
26059 | @table @asis |
26060 | @item Synopsis: | |
0ce1b118 | 26061 | @smallexample |
0ce1b118 | 26062 | int write(int fd, const void *buf, unsigned int count); |
fc320d37 | 26063 | @end smallexample |
0ce1b118 | 26064 | |
fc320d37 SL |
26065 | @item Request: |
26066 | @samp{Fwrite,@var{fd},@var{bufptr},@var{count}} | |
0ce1b118 | 26067 | |
fc320d37 | 26068 | @item Return value: |
0ce1b118 CV |
26069 | On success, the number of bytes written are returned. |
26070 | Zero indicates nothing was written. On error, -1 | |
26071 | is returned. | |
26072 | ||
fc320d37 | 26073 | @item Errors: |
0ce1b118 CV |
26074 | |
26075 | @table @code | |
b383017d | 26076 | @item EBADF |
fc320d37 | 26077 | @var{fd} is not a valid file descriptor or is not open for |
0ce1b118 CV |
26078 | writing. |
26079 | ||
b383017d | 26080 | @item EFAULT |
fc320d37 | 26081 | @var{bufptr} is an invalid pointer value. |
0ce1b118 | 26082 | |
b383017d | 26083 | @item EFBIG |
0ce1b118 | 26084 | An attempt was made to write a file that exceeds the |
db2e3e2e | 26085 | host-specific maximum file size allowed. |
0ce1b118 | 26086 | |
b383017d | 26087 | @item ENOSPC |
0ce1b118 CV |
26088 | No space on device to write the data. |
26089 | ||
b383017d | 26090 | @item EINTR |
0ce1b118 CV |
26091 | The call was interrupted by the user. |
26092 | @end table | |
26093 | ||
fc320d37 SL |
26094 | @end table |
26095 | ||
0ce1b118 CV |
26096 | @node lseek |
26097 | @unnumberedsubsubsec lseek | |
26098 | @cindex lseek, file-i/o system call | |
26099 | ||
fc320d37 SL |
26100 | @table @asis |
26101 | @item Synopsis: | |
0ce1b118 | 26102 | @smallexample |
0ce1b118 | 26103 | long lseek (int fd, long offset, int flag); |
0ce1b118 CV |
26104 | @end smallexample |
26105 | ||
fc320d37 SL |
26106 | @item Request: |
26107 | @samp{Flseek,@var{fd},@var{offset},@var{flag}} | |
26108 | ||
26109 | @var{flag} is one of: | |
0ce1b118 CV |
26110 | |
26111 | @table @code | |
b383017d | 26112 | @item SEEK_SET |
fc320d37 | 26113 | The offset is set to @var{offset} bytes. |
0ce1b118 | 26114 | |
b383017d | 26115 | @item SEEK_CUR |
fc320d37 | 26116 | The offset is set to its current location plus @var{offset} |
0ce1b118 CV |
26117 | bytes. |
26118 | ||
b383017d | 26119 | @item SEEK_END |
fc320d37 | 26120 | The offset is set to the size of the file plus @var{offset} |
0ce1b118 CV |
26121 | bytes. |
26122 | @end table | |
26123 | ||
fc320d37 | 26124 | @item Return value: |
0ce1b118 CV |
26125 | On success, the resulting unsigned offset in bytes from |
26126 | the beginning of the file is returned. Otherwise, a | |
26127 | value of -1 is returned. | |
26128 | ||
fc320d37 | 26129 | @item Errors: |
0ce1b118 CV |
26130 | |
26131 | @table @code | |
b383017d | 26132 | @item EBADF |
fc320d37 | 26133 | @var{fd} is not a valid open file descriptor. |
0ce1b118 | 26134 | |
b383017d | 26135 | @item ESPIPE |
fc320d37 | 26136 | @var{fd} is associated with the @value{GDBN} console. |
0ce1b118 | 26137 | |
b383017d | 26138 | @item EINVAL |
fc320d37 | 26139 | @var{flag} is not a proper value. |
0ce1b118 | 26140 | |
b383017d | 26141 | @item EINTR |
0ce1b118 CV |
26142 | The call was interrupted by the user. |
26143 | @end table | |
26144 | ||
fc320d37 SL |
26145 | @end table |
26146 | ||
0ce1b118 CV |
26147 | @node rename |
26148 | @unnumberedsubsubsec rename | |
26149 | @cindex rename, file-i/o system call | |
26150 | ||
fc320d37 SL |
26151 | @table @asis |
26152 | @item Synopsis: | |
0ce1b118 | 26153 | @smallexample |
0ce1b118 | 26154 | int rename(const char *oldpath, const char *newpath); |
fc320d37 | 26155 | @end smallexample |
0ce1b118 | 26156 | |
fc320d37 SL |
26157 | @item Request: |
26158 | @samp{Frename,@var{oldpathptr}/@var{len},@var{newpathptr}/@var{len}} | |
0ce1b118 | 26159 | |
fc320d37 | 26160 | @item Return value: |
0ce1b118 CV |
26161 | On success, zero is returned. On error, -1 is returned. |
26162 | ||
fc320d37 | 26163 | @item Errors: |
0ce1b118 CV |
26164 | |
26165 | @table @code | |
b383017d | 26166 | @item EISDIR |
fc320d37 | 26167 | @var{newpath} is an existing directory, but @var{oldpath} is not a |
0ce1b118 CV |
26168 | directory. |
26169 | ||
b383017d | 26170 | @item EEXIST |
fc320d37 | 26171 | @var{newpath} is a non-empty directory. |
0ce1b118 | 26172 | |
b383017d | 26173 | @item EBUSY |
fc320d37 | 26174 | @var{oldpath} or @var{newpath} is a directory that is in use by some |
0ce1b118 CV |
26175 | process. |
26176 | ||
b383017d | 26177 | @item EINVAL |
0ce1b118 CV |
26178 | An attempt was made to make a directory a subdirectory |
26179 | of itself. | |
26180 | ||
b383017d | 26181 | @item ENOTDIR |
fc320d37 SL |
26182 | A component used as a directory in @var{oldpath} or new |
26183 | path is not a directory. Or @var{oldpath} is a directory | |
26184 | and @var{newpath} exists but is not a directory. | |
0ce1b118 | 26185 | |
b383017d | 26186 | @item EFAULT |
fc320d37 | 26187 | @var{oldpathptr} or @var{newpathptr} are invalid pointer values. |
0ce1b118 | 26188 | |
b383017d | 26189 | @item EACCES |
0ce1b118 CV |
26190 | No access to the file or the path of the file. |
26191 | ||
26192 | @item ENAMETOOLONG | |
b383017d | 26193 | |
fc320d37 | 26194 | @var{oldpath} or @var{newpath} was too long. |
0ce1b118 | 26195 | |
b383017d | 26196 | @item ENOENT |
fc320d37 | 26197 | A directory component in @var{oldpath} or @var{newpath} does not exist. |
0ce1b118 | 26198 | |
b383017d | 26199 | @item EROFS |
0ce1b118 CV |
26200 | The file is on a read-only filesystem. |
26201 | ||
b383017d | 26202 | @item ENOSPC |
0ce1b118 CV |
26203 | The device containing the file has no room for the new |
26204 | directory entry. | |
26205 | ||
b383017d | 26206 | @item EINTR |
0ce1b118 CV |
26207 | The call was interrupted by the user. |
26208 | @end table | |
26209 | ||
fc320d37 SL |
26210 | @end table |
26211 | ||
0ce1b118 CV |
26212 | @node unlink |
26213 | @unnumberedsubsubsec unlink | |
26214 | @cindex unlink, file-i/o system call | |
26215 | ||
fc320d37 SL |
26216 | @table @asis |
26217 | @item Synopsis: | |
0ce1b118 | 26218 | @smallexample |
0ce1b118 | 26219 | int unlink(const char *pathname); |
fc320d37 | 26220 | @end smallexample |
0ce1b118 | 26221 | |
fc320d37 SL |
26222 | @item Request: |
26223 | @samp{Funlink,@var{pathnameptr}/@var{len}} | |
0ce1b118 | 26224 | |
fc320d37 | 26225 | @item Return value: |
0ce1b118 CV |
26226 | On success, zero is returned. On error, -1 is returned. |
26227 | ||
fc320d37 | 26228 | @item Errors: |
0ce1b118 CV |
26229 | |
26230 | @table @code | |
b383017d | 26231 | @item EACCES |
0ce1b118 CV |
26232 | No access to the file or the path of the file. |
26233 | ||
b383017d | 26234 | @item EPERM |
0ce1b118 CV |
26235 | The system does not allow unlinking of directories. |
26236 | ||
b383017d | 26237 | @item EBUSY |
fc320d37 | 26238 | The file @var{pathname} cannot be unlinked because it's |
0ce1b118 CV |
26239 | being used by another process. |
26240 | ||
b383017d | 26241 | @item EFAULT |
fc320d37 | 26242 | @var{pathnameptr} is an invalid pointer value. |
0ce1b118 CV |
26243 | |
26244 | @item ENAMETOOLONG | |
fc320d37 | 26245 | @var{pathname} was too long. |
0ce1b118 | 26246 | |
b383017d | 26247 | @item ENOENT |
fc320d37 | 26248 | A directory component in @var{pathname} does not exist. |
0ce1b118 | 26249 | |
b383017d | 26250 | @item ENOTDIR |
0ce1b118 CV |
26251 | A component of the path is not a directory. |
26252 | ||
b383017d | 26253 | @item EROFS |
0ce1b118 CV |
26254 | The file is on a read-only filesystem. |
26255 | ||
b383017d | 26256 | @item EINTR |
0ce1b118 CV |
26257 | The call was interrupted by the user. |
26258 | @end table | |
26259 | ||
fc320d37 SL |
26260 | @end table |
26261 | ||
0ce1b118 CV |
26262 | @node stat/fstat |
26263 | @unnumberedsubsubsec stat/fstat | |
26264 | @cindex fstat, file-i/o system call | |
26265 | @cindex stat, file-i/o system call | |
26266 | ||
fc320d37 SL |
26267 | @table @asis |
26268 | @item Synopsis: | |
0ce1b118 | 26269 | @smallexample |
0ce1b118 CV |
26270 | int stat(const char *pathname, struct stat *buf); |
26271 | int fstat(int fd, struct stat *buf); | |
fc320d37 | 26272 | @end smallexample |
0ce1b118 | 26273 | |
fc320d37 SL |
26274 | @item Request: |
26275 | @samp{Fstat,@var{pathnameptr}/@var{len},@var{bufptr}}@* | |
26276 | @samp{Ffstat,@var{fd},@var{bufptr}} | |
0ce1b118 | 26277 | |
fc320d37 | 26278 | @item Return value: |
0ce1b118 CV |
26279 | On success, zero is returned. On error, -1 is returned. |
26280 | ||
fc320d37 | 26281 | @item Errors: |
0ce1b118 CV |
26282 | |
26283 | @table @code | |
b383017d | 26284 | @item EBADF |
fc320d37 | 26285 | @var{fd} is not a valid open file. |
0ce1b118 | 26286 | |
b383017d | 26287 | @item ENOENT |
fc320d37 | 26288 | A directory component in @var{pathname} does not exist or the |
0ce1b118 CV |
26289 | path is an empty string. |
26290 | ||
b383017d | 26291 | @item ENOTDIR |
0ce1b118 CV |
26292 | A component of the path is not a directory. |
26293 | ||
b383017d | 26294 | @item EFAULT |
fc320d37 | 26295 | @var{pathnameptr} is an invalid pointer value. |
0ce1b118 | 26296 | |
b383017d | 26297 | @item EACCES |
0ce1b118 CV |
26298 | No access to the file or the path of the file. |
26299 | ||
26300 | @item ENAMETOOLONG | |
fc320d37 | 26301 | @var{pathname} was too long. |
0ce1b118 | 26302 | |
b383017d | 26303 | @item EINTR |
0ce1b118 CV |
26304 | The call was interrupted by the user. |
26305 | @end table | |
26306 | ||
fc320d37 SL |
26307 | @end table |
26308 | ||
0ce1b118 CV |
26309 | @node gettimeofday |
26310 | @unnumberedsubsubsec gettimeofday | |
26311 | @cindex gettimeofday, file-i/o system call | |
26312 | ||
fc320d37 SL |
26313 | @table @asis |
26314 | @item Synopsis: | |
0ce1b118 | 26315 | @smallexample |
0ce1b118 | 26316 | int gettimeofday(struct timeval *tv, void *tz); |
fc320d37 | 26317 | @end smallexample |
0ce1b118 | 26318 | |
fc320d37 SL |
26319 | @item Request: |
26320 | @samp{Fgettimeofday,@var{tvptr},@var{tzptr}} | |
0ce1b118 | 26321 | |
fc320d37 | 26322 | @item Return value: |
0ce1b118 CV |
26323 | On success, 0 is returned, -1 otherwise. |
26324 | ||
fc320d37 | 26325 | @item Errors: |
0ce1b118 CV |
26326 | |
26327 | @table @code | |
b383017d | 26328 | @item EINVAL |
fc320d37 | 26329 | @var{tz} is a non-NULL pointer. |
0ce1b118 | 26330 | |
b383017d | 26331 | @item EFAULT |
fc320d37 SL |
26332 | @var{tvptr} and/or @var{tzptr} is an invalid pointer value. |
26333 | @end table | |
26334 | ||
0ce1b118 CV |
26335 | @end table |
26336 | ||
26337 | @node isatty | |
26338 | @unnumberedsubsubsec isatty | |
26339 | @cindex isatty, file-i/o system call | |
26340 | ||
fc320d37 SL |
26341 | @table @asis |
26342 | @item Synopsis: | |
0ce1b118 | 26343 | @smallexample |
0ce1b118 | 26344 | int isatty(int fd); |
fc320d37 | 26345 | @end smallexample |
0ce1b118 | 26346 | |
fc320d37 SL |
26347 | @item Request: |
26348 | @samp{Fisatty,@var{fd}} | |
0ce1b118 | 26349 | |
fc320d37 SL |
26350 | @item Return value: |
26351 | Returns 1 if @var{fd} refers to the @value{GDBN} console, 0 otherwise. | |
0ce1b118 | 26352 | |
fc320d37 | 26353 | @item Errors: |
0ce1b118 CV |
26354 | |
26355 | @table @code | |
b383017d | 26356 | @item EINTR |
0ce1b118 CV |
26357 | The call was interrupted by the user. |
26358 | @end table | |
26359 | ||
fc320d37 SL |
26360 | @end table |
26361 | ||
26362 | Note that the @code{isatty} call is treated as a special case: it returns | |
26363 | 1 to the target if the file descriptor is attached | |
26364 | to the @value{GDBN} console, 0 otherwise. Implementing through system calls | |
26365 | would require implementing @code{ioctl} and would be more complex than | |
26366 | needed. | |
26367 | ||
26368 | ||
0ce1b118 CV |
26369 | @node system |
26370 | @unnumberedsubsubsec system | |
26371 | @cindex system, file-i/o system call | |
26372 | ||
fc320d37 SL |
26373 | @table @asis |
26374 | @item Synopsis: | |
0ce1b118 | 26375 | @smallexample |
0ce1b118 | 26376 | int system(const char *command); |
fc320d37 | 26377 | @end smallexample |
0ce1b118 | 26378 | |
fc320d37 SL |
26379 | @item Request: |
26380 | @samp{Fsystem,@var{commandptr}/@var{len}} | |
0ce1b118 | 26381 | |
fc320d37 | 26382 | @item Return value: |
5600ea19 NS |
26383 | If @var{len} is zero, the return value indicates whether a shell is |
26384 | available. A zero return value indicates a shell is not available. | |
26385 | For non-zero @var{len}, the value returned is -1 on error and the | |
26386 | return status of the command otherwise. Only the exit status of the | |
26387 | command is returned, which is extracted from the host's @code{system} | |
26388 | return value by calling @code{WEXITSTATUS(retval)}. In case | |
26389 | @file{/bin/sh} could not be executed, 127 is returned. | |
0ce1b118 | 26390 | |
fc320d37 | 26391 | @item Errors: |
0ce1b118 CV |
26392 | |
26393 | @table @code | |
b383017d | 26394 | @item EINTR |
0ce1b118 CV |
26395 | The call was interrupted by the user. |
26396 | @end table | |
26397 | ||
fc320d37 SL |
26398 | @end table |
26399 | ||
26400 | @value{GDBN} takes over the full task of calling the necessary host calls | |
26401 | to perform the @code{system} call. The return value of @code{system} on | |
26402 | the host is simplified before it's returned | |
26403 | to the target. Any termination signal information from the child process | |
26404 | is discarded, and the return value consists | |
26405 | entirely of the exit status of the called command. | |
26406 | ||
26407 | Due to security concerns, the @code{system} call is by default refused | |
26408 | by @value{GDBN}. The user has to allow this call explicitly with the | |
26409 | @code{set remote system-call-allowed 1} command. | |
26410 | ||
26411 | @table @code | |
26412 | @item set remote system-call-allowed | |
26413 | @kindex set remote system-call-allowed | |
26414 | Control whether to allow the @code{system} calls in the File I/O | |
26415 | protocol for the remote target. The default is zero (disabled). | |
26416 | ||
26417 | @item show remote system-call-allowed | |
26418 | @kindex show remote system-call-allowed | |
26419 | Show whether the @code{system} calls are allowed in the File I/O | |
26420 | protocol. | |
26421 | @end table | |
26422 | ||
db2e3e2e BW |
26423 | @node Protocol-specific Representation of Datatypes |
26424 | @subsection Protocol-specific Representation of Datatypes | |
26425 | @cindex protocol-specific representation of datatypes, in file-i/o protocol | |
0ce1b118 CV |
26426 | |
26427 | @menu | |
79a6e687 BW |
26428 | * Integral Datatypes:: |
26429 | * Pointer Values:: | |
26430 | * Memory Transfer:: | |
0ce1b118 CV |
26431 | * struct stat:: |
26432 | * struct timeval:: | |
26433 | @end menu | |
26434 | ||
79a6e687 BW |
26435 | @node Integral Datatypes |
26436 | @unnumberedsubsubsec Integral Datatypes | |
0ce1b118 CV |
26437 | @cindex integral datatypes, in file-i/o protocol |
26438 | ||
fc320d37 SL |
26439 | The integral datatypes used in the system calls are @code{int}, |
26440 | @code{unsigned int}, @code{long}, @code{unsigned long}, | |
26441 | @code{mode_t}, and @code{time_t}. | |
0ce1b118 | 26442 | |
fc320d37 | 26443 | @code{int}, @code{unsigned int}, @code{mode_t} and @code{time_t} are |
0ce1b118 CV |
26444 | implemented as 32 bit values in this protocol. |
26445 | ||
fc320d37 | 26446 | @code{long} and @code{unsigned long} are implemented as 64 bit types. |
b383017d | 26447 | |
0ce1b118 CV |
26448 | @xref{Limits}, for corresponding MIN and MAX values (similar to those |
26449 | in @file{limits.h}) to allow range checking on host and target. | |
26450 | ||
26451 | @code{time_t} datatypes are defined as seconds since the Epoch. | |
26452 | ||
26453 | All integral datatypes transferred as part of a memory read or write of a | |
26454 | structured datatype e.g.@: a @code{struct stat} have to be given in big endian | |
26455 | byte order. | |
26456 | ||
79a6e687 BW |
26457 | @node Pointer Values |
26458 | @unnumberedsubsubsec Pointer Values | |
0ce1b118 CV |
26459 | @cindex pointer values, in file-i/o protocol |
26460 | ||
26461 | Pointers to target data are transmitted as they are. An exception | |
26462 | is made for pointers to buffers for which the length isn't | |
26463 | transmitted as part of the function call, namely strings. Strings | |
26464 | are transmitted as a pointer/length pair, both as hex values, e.g.@: | |
26465 | ||
26466 | @smallexample | |
26467 | @code{1aaf/12} | |
26468 | @end smallexample | |
26469 | ||
26470 | @noindent | |
26471 | which is a pointer to data of length 18 bytes at position 0x1aaf. | |
26472 | The length is defined as the full string length in bytes, including | |
fc320d37 SL |
26473 | the trailing null byte. For example, the string @code{"hello world"} |
26474 | at address 0x123456 is transmitted as | |
0ce1b118 CV |
26475 | |
26476 | @smallexample | |
fc320d37 | 26477 | @code{123456/d} |
0ce1b118 CV |
26478 | @end smallexample |
26479 | ||
79a6e687 BW |
26480 | @node Memory Transfer |
26481 | @unnumberedsubsubsec Memory Transfer | |
fc320d37 SL |
26482 | @cindex memory transfer, in file-i/o protocol |
26483 | ||
26484 | Structured data which is transferred using a memory read or write (for | |
db2e3e2e | 26485 | example, a @code{struct stat}) is expected to be in a protocol-specific format |
fc320d37 SL |
26486 | with all scalar multibyte datatypes being big endian. Translation to |
26487 | this representation needs to be done both by the target before the @code{F} | |
26488 | packet is sent, and by @value{GDBN} before | |
26489 | it transfers memory to the target. Transferred pointers to structured | |
26490 | data should point to the already-coerced data at any time. | |
0ce1b118 | 26491 | |
0ce1b118 CV |
26492 | |
26493 | @node struct stat | |
26494 | @unnumberedsubsubsec struct stat | |
26495 | @cindex struct stat, in file-i/o protocol | |
26496 | ||
fc320d37 SL |
26497 | The buffer of type @code{struct stat} used by the target and @value{GDBN} |
26498 | is defined as follows: | |
0ce1b118 CV |
26499 | |
26500 | @smallexample | |
26501 | struct stat @{ | |
26502 | unsigned int st_dev; /* device */ | |
26503 | unsigned int st_ino; /* inode */ | |
26504 | mode_t st_mode; /* protection */ | |
26505 | unsigned int st_nlink; /* number of hard links */ | |
26506 | unsigned int st_uid; /* user ID of owner */ | |
26507 | unsigned int st_gid; /* group ID of owner */ | |
26508 | unsigned int st_rdev; /* device type (if inode device) */ | |
26509 | unsigned long st_size; /* total size, in bytes */ | |
26510 | unsigned long st_blksize; /* blocksize for filesystem I/O */ | |
26511 | unsigned long st_blocks; /* number of blocks allocated */ | |
26512 | time_t st_atime; /* time of last access */ | |
26513 | time_t st_mtime; /* time of last modification */ | |
26514 | time_t st_ctime; /* time of last change */ | |
26515 | @}; | |
26516 | @end smallexample | |
26517 | ||
fc320d37 | 26518 | The integral datatypes conform to the definitions given in the |
79a6e687 | 26519 | appropriate section (see @ref{Integral Datatypes}, for details) so this |
0ce1b118 CV |
26520 | structure is of size 64 bytes. |
26521 | ||
26522 | The values of several fields have a restricted meaning and/or | |
26523 | range of values. | |
26524 | ||
fc320d37 | 26525 | @table @code |
0ce1b118 | 26526 | |
fc320d37 SL |
26527 | @item st_dev |
26528 | A value of 0 represents a file, 1 the console. | |
0ce1b118 | 26529 | |
fc320d37 SL |
26530 | @item st_ino |
26531 | No valid meaning for the target. Transmitted unchanged. | |
0ce1b118 | 26532 | |
fc320d37 SL |
26533 | @item st_mode |
26534 | Valid mode bits are described in @ref{Constants}. Any other | |
26535 | bits have currently no meaning for the target. | |
0ce1b118 | 26536 | |
fc320d37 SL |
26537 | @item st_uid |
26538 | @itemx st_gid | |
26539 | @itemx st_rdev | |
26540 | No valid meaning for the target. Transmitted unchanged. | |
0ce1b118 | 26541 | |
fc320d37 SL |
26542 | @item st_atime |
26543 | @itemx st_mtime | |
26544 | @itemx st_ctime | |
26545 | These values have a host and file system dependent | |
26546 | accuracy. Especially on Windows hosts, the file system may not | |
26547 | support exact timing values. | |
26548 | @end table | |
0ce1b118 | 26549 | |
fc320d37 SL |
26550 | The target gets a @code{struct stat} of the above representation and is |
26551 | responsible for coercing it to the target representation before | |
0ce1b118 CV |
26552 | continuing. |
26553 | ||
fc320d37 SL |
26554 | Note that due to size differences between the host, target, and protocol |
26555 | representations of @code{struct stat} members, these members could eventually | |
0ce1b118 CV |
26556 | get truncated on the target. |
26557 | ||
26558 | @node struct timeval | |
26559 | @unnumberedsubsubsec struct timeval | |
26560 | @cindex struct timeval, in file-i/o protocol | |
26561 | ||
fc320d37 | 26562 | The buffer of type @code{struct timeval} used by the File-I/O protocol |
0ce1b118 CV |
26563 | is defined as follows: |
26564 | ||
26565 | @smallexample | |
b383017d | 26566 | struct timeval @{ |
0ce1b118 CV |
26567 | time_t tv_sec; /* second */ |
26568 | long tv_usec; /* microsecond */ | |
26569 | @}; | |
26570 | @end smallexample | |
26571 | ||
fc320d37 | 26572 | The integral datatypes conform to the definitions given in the |
79a6e687 | 26573 | appropriate section (see @ref{Integral Datatypes}, for details) so this |
0ce1b118 CV |
26574 | structure is of size 8 bytes. |
26575 | ||
26576 | @node Constants | |
26577 | @subsection Constants | |
26578 | @cindex constants, in file-i/o protocol | |
26579 | ||
26580 | The following values are used for the constants inside of the | |
fc320d37 | 26581 | protocol. @value{GDBN} and target are responsible for translating these |
0ce1b118 CV |
26582 | values before and after the call as needed. |
26583 | ||
26584 | @menu | |
79a6e687 BW |
26585 | * Open Flags:: |
26586 | * mode_t Values:: | |
26587 | * Errno Values:: | |
26588 | * Lseek Flags:: | |
0ce1b118 CV |
26589 | * Limits:: |
26590 | @end menu | |
26591 | ||
79a6e687 BW |
26592 | @node Open Flags |
26593 | @unnumberedsubsubsec Open Flags | |
0ce1b118 CV |
26594 | @cindex open flags, in file-i/o protocol |
26595 | ||
26596 | All values are given in hexadecimal representation. | |
26597 | ||
26598 | @smallexample | |
26599 | O_RDONLY 0x0 | |
26600 | O_WRONLY 0x1 | |
26601 | O_RDWR 0x2 | |
26602 | O_APPEND 0x8 | |
26603 | O_CREAT 0x200 | |
26604 | O_TRUNC 0x400 | |
26605 | O_EXCL 0x800 | |
26606 | @end smallexample | |
26607 | ||
79a6e687 BW |
26608 | @node mode_t Values |
26609 | @unnumberedsubsubsec mode_t Values | |
0ce1b118 CV |
26610 | @cindex mode_t values, in file-i/o protocol |
26611 | ||
26612 | All values are given in octal representation. | |
26613 | ||
26614 | @smallexample | |
26615 | S_IFREG 0100000 | |
26616 | S_IFDIR 040000 | |
26617 | S_IRUSR 0400 | |
26618 | S_IWUSR 0200 | |
26619 | S_IXUSR 0100 | |
26620 | S_IRGRP 040 | |
26621 | S_IWGRP 020 | |
26622 | S_IXGRP 010 | |
26623 | S_IROTH 04 | |
26624 | S_IWOTH 02 | |
26625 | S_IXOTH 01 | |
26626 | @end smallexample | |
26627 | ||
79a6e687 BW |
26628 | @node Errno Values |
26629 | @unnumberedsubsubsec Errno Values | |
0ce1b118 CV |
26630 | @cindex errno values, in file-i/o protocol |
26631 | ||
26632 | All values are given in decimal representation. | |
26633 | ||
26634 | @smallexample | |
26635 | EPERM 1 | |
26636 | ENOENT 2 | |
26637 | EINTR 4 | |
26638 | EBADF 9 | |
26639 | EACCES 13 | |
26640 | EFAULT 14 | |
26641 | EBUSY 16 | |
26642 | EEXIST 17 | |
26643 | ENODEV 19 | |
26644 | ENOTDIR 20 | |
26645 | EISDIR 21 | |
26646 | EINVAL 22 | |
26647 | ENFILE 23 | |
26648 | EMFILE 24 | |
26649 | EFBIG 27 | |
26650 | ENOSPC 28 | |
26651 | ESPIPE 29 | |
26652 | EROFS 30 | |
26653 | ENAMETOOLONG 91 | |
26654 | EUNKNOWN 9999 | |
26655 | @end smallexample | |
26656 | ||
fc320d37 | 26657 | @code{EUNKNOWN} is used as a fallback error value if a host system returns |
0ce1b118 CV |
26658 | any error value not in the list of supported error numbers. |
26659 | ||
79a6e687 BW |
26660 | @node Lseek Flags |
26661 | @unnumberedsubsubsec Lseek Flags | |
0ce1b118 CV |
26662 | @cindex lseek flags, in file-i/o protocol |
26663 | ||
26664 | @smallexample | |
26665 | SEEK_SET 0 | |
26666 | SEEK_CUR 1 | |
26667 | SEEK_END 2 | |
26668 | @end smallexample | |
26669 | ||
26670 | @node Limits | |
26671 | @unnumberedsubsubsec Limits | |
26672 | @cindex limits, in file-i/o protocol | |
26673 | ||
26674 | All values are given in decimal representation. | |
26675 | ||
26676 | @smallexample | |
26677 | INT_MIN -2147483648 | |
26678 | INT_MAX 2147483647 | |
26679 | UINT_MAX 4294967295 | |
26680 | LONG_MIN -9223372036854775808 | |
26681 | LONG_MAX 9223372036854775807 | |
26682 | ULONG_MAX 18446744073709551615 | |
26683 | @end smallexample | |
26684 | ||
26685 | @node File-I/O Examples | |
26686 | @subsection File-I/O Examples | |
26687 | @cindex file-i/o examples | |
26688 | ||
26689 | Example sequence of a write call, file descriptor 3, buffer is at target | |
26690 | address 0x1234, 6 bytes should be written: | |
26691 | ||
26692 | @smallexample | |
26693 | <- @code{Fwrite,3,1234,6} | |
26694 | @emph{request memory read from target} | |
26695 | -> @code{m1234,6} | |
26696 | <- XXXXXX | |
26697 | @emph{return "6 bytes written"} | |
26698 | -> @code{F6} | |
26699 | @end smallexample | |
26700 | ||
26701 | Example sequence of a read call, file descriptor 3, buffer is at target | |
26702 | address 0x1234, 6 bytes should be read: | |
26703 | ||
26704 | @smallexample | |
26705 | <- @code{Fread,3,1234,6} | |
26706 | @emph{request memory write to target} | |
26707 | -> @code{X1234,6:XXXXXX} | |
26708 | @emph{return "6 bytes read"} | |
26709 | -> @code{F6} | |
26710 | @end smallexample | |
26711 | ||
26712 | Example sequence of a read call, call fails on the host due to invalid | |
fc320d37 | 26713 | file descriptor (@code{EBADF}): |
0ce1b118 CV |
26714 | |
26715 | @smallexample | |
26716 | <- @code{Fread,3,1234,6} | |
26717 | -> @code{F-1,9} | |
26718 | @end smallexample | |
26719 | ||
c8aa23ab | 26720 | Example sequence of a read call, user presses @kbd{Ctrl-c} before syscall on |
0ce1b118 CV |
26721 | host is called: |
26722 | ||
26723 | @smallexample | |
26724 | <- @code{Fread,3,1234,6} | |
26725 | -> @code{F-1,4,C} | |
26726 | <- @code{T02} | |
26727 | @end smallexample | |
26728 | ||
c8aa23ab | 26729 | Example sequence of a read call, user presses @kbd{Ctrl-c} after syscall on |
0ce1b118 CV |
26730 | host is called: |
26731 | ||
26732 | @smallexample | |
26733 | <- @code{Fread,3,1234,6} | |
26734 | -> @code{X1234,6:XXXXXX} | |
26735 | <- @code{T02} | |
26736 | @end smallexample | |
26737 | ||
cfa9d6d9 DJ |
26738 | @node Library List Format |
26739 | @section Library List Format | |
26740 | @cindex library list format, remote protocol | |
26741 | ||
26742 | On some platforms, a dynamic loader (e.g.@: @file{ld.so}) runs in the | |
26743 | same process as your application to manage libraries. In this case, | |
26744 | @value{GDBN} can use the loader's symbol table and normal memory | |
26745 | operations to maintain a list of shared libraries. On other | |
26746 | platforms, the operating system manages loaded libraries. | |
26747 | @value{GDBN} can not retrieve the list of currently loaded libraries | |
26748 | through memory operations, so it uses the @samp{qXfer:libraries:read} | |
26749 | packet (@pxref{qXfer library list read}) instead. The remote stub | |
26750 | queries the target's operating system and reports which libraries | |
26751 | are loaded. | |
26752 | ||
26753 | The @samp{qXfer:libraries:read} packet returns an XML document which | |
26754 | lists loaded libraries and their offsets. Each library has an | |
1fddbabb PA |
26755 | associated name and one or more segment or section base addresses, |
26756 | which report where the library was loaded in memory. | |
26757 | ||
26758 | For the common case of libraries that are fully linked binaries, the | |
26759 | library should have a list of segments. If the target supports | |
26760 | dynamic linking of a relocatable object file, its library XML element | |
26761 | should instead include a list of allocated sections. The segment or | |
26762 | section bases are start addresses, not relocation offsets; they do not | |
26763 | depend on the library's link-time base addresses. | |
cfa9d6d9 | 26764 | |
9cceb671 DJ |
26765 | @value{GDBN} must be linked with the Expat library to support XML |
26766 | library lists. @xref{Expat}. | |
26767 | ||
cfa9d6d9 DJ |
26768 | A simple memory map, with one loaded library relocated by a single |
26769 | offset, looks like this: | |
26770 | ||
26771 | @smallexample | |
26772 | <library-list> | |
26773 | <library name="/lib/libc.so.6"> | |
26774 | <segment address="0x10000000"/> | |
26775 | </library> | |
26776 | </library-list> | |
26777 | @end smallexample | |
26778 | ||
1fddbabb PA |
26779 | Another simple memory map, with one loaded library with three |
26780 | allocated sections (.text, .data, .bss), looks like this: | |
26781 | ||
26782 | @smallexample | |
26783 | <library-list> | |
26784 | <library name="sharedlib.o"> | |
26785 | <section address="0x10000000"/> | |
26786 | <section address="0x20000000"/> | |
26787 | <section address="0x30000000"/> | |
26788 | </library> | |
26789 | </library-list> | |
26790 | @end smallexample | |
26791 | ||
cfa9d6d9 DJ |
26792 | The format of a library list is described by this DTD: |
26793 | ||
26794 | @smallexample | |
26795 | <!-- library-list: Root element with versioning --> | |
26796 | <!ELEMENT library-list (library)*> | |
26797 | <!ATTLIST library-list version CDATA #FIXED "1.0"> | |
1fddbabb | 26798 | <!ELEMENT library (segment*, section*)> |
cfa9d6d9 DJ |
26799 | <!ATTLIST library name CDATA #REQUIRED> |
26800 | <!ELEMENT segment EMPTY> | |
26801 | <!ATTLIST segment address CDATA #REQUIRED> | |
1fddbabb PA |
26802 | <!ELEMENT section EMPTY> |
26803 | <!ATTLIST section address CDATA #REQUIRED> | |
cfa9d6d9 DJ |
26804 | @end smallexample |
26805 | ||
1fddbabb PA |
26806 | In addition, segments and section descriptors cannot be mixed within a |
26807 | single library element, and you must supply at least one segment or | |
26808 | section for each library. | |
26809 | ||
79a6e687 BW |
26810 | @node Memory Map Format |
26811 | @section Memory Map Format | |
68437a39 DJ |
26812 | @cindex memory map format |
26813 | ||
26814 | To be able to write into flash memory, @value{GDBN} needs to obtain a | |
26815 | memory map from the target. This section describes the format of the | |
26816 | memory map. | |
26817 | ||
26818 | The memory map is obtained using the @samp{qXfer:memory-map:read} | |
26819 | (@pxref{qXfer memory map read}) packet and is an XML document that | |
9cceb671 DJ |
26820 | lists memory regions. |
26821 | ||
26822 | @value{GDBN} must be linked with the Expat library to support XML | |
26823 | memory maps. @xref{Expat}. | |
26824 | ||
26825 | The top-level structure of the document is shown below: | |
68437a39 DJ |
26826 | |
26827 | @smallexample | |
26828 | <?xml version="1.0"?> | |
26829 | <!DOCTYPE memory-map | |
26830 | PUBLIC "+//IDN gnu.org//DTD GDB Memory Map V1.0//EN" | |
26831 | "http://sourceware.org/gdb/gdb-memory-map.dtd"> | |
26832 | <memory-map> | |
26833 | region... | |
26834 | </memory-map> | |
26835 | @end smallexample | |
26836 | ||
26837 | Each region can be either: | |
26838 | ||
26839 | @itemize | |
26840 | ||
26841 | @item | |
26842 | A region of RAM starting at @var{addr} and extending for @var{length} | |
26843 | bytes from there: | |
26844 | ||
26845 | @smallexample | |
26846 | <memory type="ram" start="@var{addr}" length="@var{length}"/> | |
26847 | @end smallexample | |
26848 | ||
26849 | ||
26850 | @item | |
26851 | A region of read-only memory: | |
26852 | ||
26853 | @smallexample | |
26854 | <memory type="rom" start="@var{addr}" length="@var{length}"/> | |
26855 | @end smallexample | |
26856 | ||
26857 | ||
26858 | @item | |
26859 | A region of flash memory, with erasure blocks @var{blocksize} | |
26860 | bytes in length: | |
26861 | ||
26862 | @smallexample | |
26863 | <memory type="flash" start="@var{addr}" length="@var{length}"> | |
26864 | <property name="blocksize">@var{blocksize}</property> | |
26865 | </memory> | |
26866 | @end smallexample | |
26867 | ||
26868 | @end itemize | |
26869 | ||
26870 | Regions must not overlap. @value{GDBN} assumes that areas of memory not covered | |
26871 | by the memory map are RAM, and uses the ordinary @samp{M} and @samp{X} | |
26872 | packets to write to addresses in such ranges. | |
26873 | ||
26874 | The formal DTD for memory map format is given below: | |
26875 | ||
26876 | @smallexample | |
26877 | <!-- ................................................... --> | |
26878 | <!-- Memory Map XML DTD ................................ --> | |
26879 | <!-- File: memory-map.dtd .............................. --> | |
26880 | <!-- .................................... .............. --> | |
26881 | <!-- memory-map.dtd --> | |
26882 | <!-- memory-map: Root element with versioning --> | |
26883 | <!ELEMENT memory-map (memory | property)> | |
26884 | <!ATTLIST memory-map version CDATA #FIXED "1.0.0"> | |
26885 | <!ELEMENT memory (property)> | |
26886 | <!-- memory: Specifies a memory region, | |
26887 | and its type, or device. --> | |
26888 | <!ATTLIST memory type CDATA #REQUIRED | |
26889 | start CDATA #REQUIRED | |
26890 | length CDATA #REQUIRED | |
26891 | device CDATA #IMPLIED> | |
26892 | <!-- property: Generic attribute tag --> | |
26893 | <!ELEMENT property (#PCDATA | property)*> | |
26894 | <!ATTLIST property name CDATA #REQUIRED> | |
26895 | @end smallexample | |
26896 | ||
f418dd93 DJ |
26897 | @include agentexpr.texi |
26898 | ||
23181151 DJ |
26899 | @node Target Descriptions |
26900 | @appendix Target Descriptions | |
26901 | @cindex target descriptions | |
26902 | ||
26903 | @strong{Warning:} target descriptions are still under active development, | |
26904 | and the contents and format may change between @value{GDBN} releases. | |
26905 | The format is expected to stabilize in the future. | |
26906 | ||
26907 | One of the challenges of using @value{GDBN} to debug embedded systems | |
26908 | is that there are so many minor variants of each processor | |
26909 | architecture in use. It is common practice for vendors to start with | |
26910 | a standard processor core --- ARM, PowerPC, or MIPS, for example --- | |
26911 | and then make changes to adapt it to a particular market niche. Some | |
26912 | architectures have hundreds of variants, available from dozens of | |
26913 | vendors. This leads to a number of problems: | |
26914 | ||
26915 | @itemize @bullet | |
26916 | @item | |
26917 | With so many different customized processors, it is difficult for | |
26918 | the @value{GDBN} maintainers to keep up with the changes. | |
26919 | @item | |
26920 | Since individual variants may have short lifetimes or limited | |
26921 | audiences, it may not be worthwhile to carry information about every | |
26922 | variant in the @value{GDBN} source tree. | |
26923 | @item | |
26924 | When @value{GDBN} does support the architecture of the embedded system | |
26925 | at hand, the task of finding the correct architecture name to give the | |
26926 | @command{set architecture} command can be error-prone. | |
26927 | @end itemize | |
26928 | ||
26929 | To address these problems, the @value{GDBN} remote protocol allows a | |
26930 | target system to not only identify itself to @value{GDBN}, but to | |
26931 | actually describe its own features. This lets @value{GDBN} support | |
26932 | processor variants it has never seen before --- to the extent that the | |
26933 | descriptions are accurate, and that @value{GDBN} understands them. | |
26934 | ||
9cceb671 DJ |
26935 | @value{GDBN} must be linked with the Expat library to support XML |
26936 | target descriptions. @xref{Expat}. | |
123dc839 | 26937 | |
23181151 DJ |
26938 | @menu |
26939 | * Retrieving Descriptions:: How descriptions are fetched from a target. | |
26940 | * Target Description Format:: The contents of a target description. | |
123dc839 DJ |
26941 | * Predefined Target Types:: Standard types available for target |
26942 | descriptions. | |
26943 | * Standard Target Features:: Features @value{GDBN} knows about. | |
23181151 DJ |
26944 | @end menu |
26945 | ||
26946 | @node Retrieving Descriptions | |
26947 | @section Retrieving Descriptions | |
26948 | ||
26949 | Target descriptions can be read from the target automatically, or | |
26950 | specified by the user manually. The default behavior is to read the | |
26951 | description from the target. @value{GDBN} retrieves it via the remote | |
26952 | protocol using @samp{qXfer} requests (@pxref{General Query Packets, | |
26953 | qXfer}). The @var{annex} in the @samp{qXfer} packet will be | |
26954 | @samp{target.xml}. The contents of the @samp{target.xml} annex are an | |
26955 | XML document, of the form described in @ref{Target Description | |
26956 | Format}. | |
26957 | ||
26958 | Alternatively, you can specify a file to read for the target description. | |
26959 | If a file is set, the target will not be queried. The commands to | |
26960 | specify a file are: | |
26961 | ||
26962 | @table @code | |
26963 | @cindex set tdesc filename | |
26964 | @item set tdesc filename @var{path} | |
26965 | Read the target description from @var{path}. | |
26966 | ||
26967 | @cindex unset tdesc filename | |
26968 | @item unset tdesc filename | |
26969 | Do not read the XML target description from a file. @value{GDBN} | |
26970 | will use the description supplied by the current target. | |
26971 | ||
26972 | @cindex show tdesc filename | |
26973 | @item show tdesc filename | |
26974 | Show the filename to read for a target description, if any. | |
26975 | @end table | |
26976 | ||
26977 | ||
26978 | @node Target Description Format | |
26979 | @section Target Description Format | |
26980 | @cindex target descriptions, XML format | |
26981 | ||
26982 | A target description annex is an @uref{http://www.w3.org/XML/, XML} | |
26983 | document which complies with the Document Type Definition provided in | |
26984 | the @value{GDBN} sources in @file{gdb/features/gdb-target.dtd}. This | |
26985 | means you can use generally available tools like @command{xmllint} to | |
26986 | check that your feature descriptions are well-formed and valid. | |
26987 | However, to help people unfamiliar with XML write descriptions for | |
26988 | their targets, we also describe the grammar here. | |
26989 | ||
123dc839 DJ |
26990 | Target descriptions can identify the architecture of the remote target |
26991 | and (for some architectures) provide information about custom register | |
26992 | sets. @value{GDBN} can use this information to autoconfigure for your | |
26993 | target, or to warn you if you connect to an unsupported target. | |
23181151 DJ |
26994 | |
26995 | Here is a simple target description: | |
26996 | ||
123dc839 | 26997 | @smallexample |
1780a0ed | 26998 | <target version="1.0"> |
23181151 DJ |
26999 | <architecture>i386:x86-64</architecture> |
27000 | </target> | |
123dc839 | 27001 | @end smallexample |
23181151 DJ |
27002 | |
27003 | @noindent | |
27004 | This minimal description only says that the target uses | |
27005 | the x86-64 architecture. | |
27006 | ||
123dc839 DJ |
27007 | A target description has the following overall form, with [ ] marking |
27008 | optional elements and @dots{} marking repeatable elements. The elements | |
27009 | are explained further below. | |
23181151 | 27010 | |
123dc839 | 27011 | @smallexample |
23181151 DJ |
27012 | <?xml version="1.0"?> |
27013 | <!DOCTYPE target SYSTEM "gdb-target.dtd"> | |
1780a0ed | 27014 | <target version="1.0"> |
123dc839 DJ |
27015 | @r{[}@var{architecture}@r{]} |
27016 | @r{[}@var{feature}@dots{}@r{]} | |
23181151 | 27017 | </target> |
123dc839 | 27018 | @end smallexample |
23181151 DJ |
27019 | |
27020 | @noindent | |
27021 | The description is generally insensitive to whitespace and line | |
27022 | breaks, under the usual common-sense rules. The XML version | |
27023 | declaration and document type declaration can generally be omitted | |
27024 | (@value{GDBN} does not require them), but specifying them may be | |
1780a0ed DJ |
27025 | useful for XML validation tools. The @samp{version} attribute for |
27026 | @samp{<target>} may also be omitted, but we recommend | |
27027 | including it; if future versions of @value{GDBN} use an incompatible | |
27028 | revision of @file{gdb-target.dtd}, they will detect and report | |
27029 | the version mismatch. | |
23181151 | 27030 | |
108546a0 DJ |
27031 | @subsection Inclusion |
27032 | @cindex target descriptions, inclusion | |
27033 | @cindex XInclude | |
27034 | @ifnotinfo | |
27035 | @cindex <xi:include> | |
27036 | @end ifnotinfo | |
27037 | ||
27038 | It can sometimes be valuable to split a target description up into | |
27039 | several different annexes, either for organizational purposes, or to | |
27040 | share files between different possible target descriptions. You can | |
27041 | divide a description into multiple files by replacing any element of | |
27042 | the target description with an inclusion directive of the form: | |
27043 | ||
123dc839 | 27044 | @smallexample |
108546a0 | 27045 | <xi:include href="@var{document}"/> |
123dc839 | 27046 | @end smallexample |
108546a0 DJ |
27047 | |
27048 | @noindent | |
27049 | When @value{GDBN} encounters an element of this form, it will retrieve | |
27050 | the named XML @var{document}, and replace the inclusion directive with | |
27051 | the contents of that document. If the current description was read | |
27052 | using @samp{qXfer}, then so will be the included document; | |
27053 | @var{document} will be interpreted as the name of an annex. If the | |
27054 | current description was read from a file, @value{GDBN} will look for | |
27055 | @var{document} as a file in the same directory where it found the | |
27056 | original description. | |
27057 | ||
123dc839 DJ |
27058 | @subsection Architecture |
27059 | @cindex <architecture> | |
27060 | ||
27061 | An @samp{<architecture>} element has this form: | |
27062 | ||
27063 | @smallexample | |
27064 | <architecture>@var{arch}</architecture> | |
27065 | @end smallexample | |
27066 | ||
27067 | @var{arch} is an architecture name from the same selection | |
27068 | accepted by @code{set architecture} (@pxref{Targets, ,Specifying a | |
27069 | Debugging Target}). | |
27070 | ||
27071 | @subsection Features | |
27072 | @cindex <feature> | |
27073 | ||
27074 | Each @samp{<feature>} describes some logical portion of the target | |
27075 | system. Features are currently used to describe available CPU | |
27076 | registers and the types of their contents. A @samp{<feature>} element | |
27077 | has this form: | |
27078 | ||
27079 | @smallexample | |
27080 | <feature name="@var{name}"> | |
27081 | @r{[}@var{type}@dots{}@r{]} | |
27082 | @var{reg}@dots{} | |
27083 | </feature> | |
27084 | @end smallexample | |
27085 | ||
27086 | @noindent | |
27087 | Each feature's name should be unique within the description. The name | |
27088 | of a feature does not matter unless @value{GDBN} has some special | |
27089 | knowledge of the contents of that feature; if it does, the feature | |
27090 | should have its standard name. @xref{Standard Target Features}. | |
27091 | ||
27092 | @subsection Types | |
27093 | ||
27094 | Any register's value is a collection of bits which @value{GDBN} must | |
27095 | interpret. The default interpretation is a two's complement integer, | |
27096 | but other types can be requested by name in the register description. | |
27097 | Some predefined types are provided by @value{GDBN} (@pxref{Predefined | |
27098 | Target Types}), and the description can define additional composite types. | |
27099 | ||
27100 | Each type element must have an @samp{id} attribute, which gives | |
27101 | a unique (within the containing @samp{<feature>}) name to the type. | |
27102 | Types must be defined before they are used. | |
27103 | ||
27104 | @cindex <vector> | |
27105 | Some targets offer vector registers, which can be treated as arrays | |
27106 | of scalar elements. These types are written as @samp{<vector>} elements, | |
27107 | specifying the array element type, @var{type}, and the number of elements, | |
27108 | @var{count}: | |
27109 | ||
27110 | @smallexample | |
27111 | <vector id="@var{id}" type="@var{type}" count="@var{count}"/> | |
27112 | @end smallexample | |
27113 | ||
27114 | @cindex <union> | |
27115 | If a register's value is usefully viewed in multiple ways, define it | |
27116 | with a union type containing the useful representations. The | |
27117 | @samp{<union>} element contains one or more @samp{<field>} elements, | |
27118 | each of which has a @var{name} and a @var{type}: | |
27119 | ||
27120 | @smallexample | |
27121 | <union id="@var{id}"> | |
27122 | <field name="@var{name}" type="@var{type}"/> | |
27123 | @dots{} | |
27124 | </union> | |
27125 | @end smallexample | |
27126 | ||
27127 | @subsection Registers | |
27128 | @cindex <reg> | |
27129 | ||
27130 | Each register is represented as an element with this form: | |
27131 | ||
27132 | @smallexample | |
27133 | <reg name="@var{name}" | |
27134 | bitsize="@var{size}" | |
27135 | @r{[}regnum="@var{num}"@r{]} | |
27136 | @r{[}save-restore="@var{save-restore}"@r{]} | |
27137 | @r{[}type="@var{type}"@r{]} | |
27138 | @r{[}group="@var{group}"@r{]}/> | |
27139 | @end smallexample | |
27140 | ||
27141 | @noindent | |
27142 | The components are as follows: | |
27143 | ||
27144 | @table @var | |
27145 | ||
27146 | @item name | |
27147 | The register's name; it must be unique within the target description. | |
27148 | ||
27149 | @item bitsize | |
27150 | The register's size, in bits. | |
27151 | ||
27152 | @item regnum | |
27153 | The register's number. If omitted, a register's number is one greater | |
27154 | than that of the previous register (either in the current feature or in | |
27155 | a preceeding feature); the first register in the target description | |
27156 | defaults to zero. This register number is used to read or write | |
27157 | the register; e.g.@: it is used in the remote @code{p} and @code{P} | |
27158 | packets, and registers appear in the @code{g} and @code{G} packets | |
27159 | in order of increasing register number. | |
27160 | ||
27161 | @item save-restore | |
27162 | Whether the register should be preserved across inferior function | |
27163 | calls; this must be either @code{yes} or @code{no}. The default is | |
27164 | @code{yes}, which is appropriate for most registers except for | |
27165 | some system control registers; this is not related to the target's | |
27166 | ABI. | |
27167 | ||
27168 | @item type | |
27169 | The type of the register. @var{type} may be a predefined type, a type | |
27170 | defined in the current feature, or one of the special types @code{int} | |
27171 | and @code{float}. @code{int} is an integer type of the correct size | |
27172 | for @var{bitsize}, and @code{float} is a floating point type (in the | |
27173 | architecture's normal floating point format) of the correct size for | |
27174 | @var{bitsize}. The default is @code{int}. | |
27175 | ||
27176 | @item group | |
27177 | The register group to which this register belongs. @var{group} must | |
27178 | be either @code{general}, @code{float}, or @code{vector}. If no | |
27179 | @var{group} is specified, @value{GDBN} will not display the register | |
27180 | in @code{info registers}. | |
27181 | ||
27182 | @end table | |
27183 | ||
27184 | @node Predefined Target Types | |
27185 | @section Predefined Target Types | |
27186 | @cindex target descriptions, predefined types | |
27187 | ||
27188 | Type definitions in the self-description can build up composite types | |
27189 | from basic building blocks, but can not define fundamental types. Instead, | |
27190 | standard identifiers are provided by @value{GDBN} for the fundamental | |
27191 | types. The currently supported types are: | |
27192 | ||
27193 | @table @code | |
27194 | ||
27195 | @item int8 | |
27196 | @itemx int16 | |
27197 | @itemx int32 | |
27198 | @itemx int64 | |
7cc46491 | 27199 | @itemx int128 |
123dc839 DJ |
27200 | Signed integer types holding the specified number of bits. |
27201 | ||
27202 | @item uint8 | |
27203 | @itemx uint16 | |
27204 | @itemx uint32 | |
27205 | @itemx uint64 | |
7cc46491 | 27206 | @itemx uint128 |
123dc839 DJ |
27207 | Unsigned integer types holding the specified number of bits. |
27208 | ||
27209 | @item code_ptr | |
27210 | @itemx data_ptr | |
27211 | Pointers to unspecified code and data. The program counter and | |
27212 | any dedicated return address register may be marked as code | |
27213 | pointers; printing a code pointer converts it into a symbolic | |
27214 | address. The stack pointer and any dedicated address registers | |
27215 | may be marked as data pointers. | |
27216 | ||
6e3bbd1a PB |
27217 | @item ieee_single |
27218 | Single precision IEEE floating point. | |
27219 | ||
27220 | @item ieee_double | |
27221 | Double precision IEEE floating point. | |
27222 | ||
123dc839 DJ |
27223 | @item arm_fpa_ext |
27224 | The 12-byte extended precision format used by ARM FPA registers. | |
27225 | ||
27226 | @end table | |
27227 | ||
27228 | @node Standard Target Features | |
27229 | @section Standard Target Features | |
27230 | @cindex target descriptions, standard features | |
27231 | ||
27232 | A target description must contain either no registers or all the | |
27233 | target's registers. If the description contains no registers, then | |
27234 | @value{GDBN} will assume a default register layout, selected based on | |
27235 | the architecture. If the description contains any registers, the | |
27236 | default layout will not be used; the standard registers must be | |
27237 | described in the target description, in such a way that @value{GDBN} | |
27238 | can recognize them. | |
27239 | ||
27240 | This is accomplished by giving specific names to feature elements | |
27241 | which contain standard registers. @value{GDBN} will look for features | |
27242 | with those names and verify that they contain the expected registers; | |
27243 | if any known feature is missing required registers, or if any required | |
27244 | feature is missing, @value{GDBN} will reject the target | |
27245 | description. You can add additional registers to any of the | |
27246 | standard features --- @value{GDBN} will display them just as if | |
27247 | they were added to an unrecognized feature. | |
27248 | ||
27249 | This section lists the known features and their expected contents. | |
27250 | Sample XML documents for these features are included in the | |
27251 | @value{GDBN} source tree, in the directory @file{gdb/features}. | |
27252 | ||
27253 | Names recognized by @value{GDBN} should include the name of the | |
27254 | company or organization which selected the name, and the overall | |
27255 | architecture to which the feature applies; so e.g.@: the feature | |
27256 | containing ARM core registers is named @samp{org.gnu.gdb.arm.core}. | |
27257 | ||
ff6f572f DJ |
27258 | The names of registers are not case sensitive for the purpose |
27259 | of recognizing standard features, but @value{GDBN} will only display | |
27260 | registers using the capitalization used in the description. | |
27261 | ||
e9c17194 VP |
27262 | @menu |
27263 | * ARM Features:: | |
1e26b4f8 | 27264 | * MIPS Features:: |
e9c17194 | 27265 | * M68K Features:: |
1e26b4f8 | 27266 | * PowerPC Features:: |
e9c17194 VP |
27267 | @end menu |
27268 | ||
27269 | ||
27270 | @node ARM Features | |
123dc839 DJ |
27271 | @subsection ARM Features |
27272 | @cindex target descriptions, ARM features | |
27273 | ||
27274 | The @samp{org.gnu.gdb.arm.core} feature is required for ARM targets. | |
27275 | It should contain registers @samp{r0} through @samp{r13}, @samp{sp}, | |
27276 | @samp{lr}, @samp{pc}, and @samp{cpsr}. | |
27277 | ||
27278 | The @samp{org.gnu.gdb.arm.fpa} feature is optional. If present, it | |
27279 | should contain registers @samp{f0} through @samp{f7} and @samp{fps}. | |
27280 | ||
ff6f572f DJ |
27281 | The @samp{org.gnu.gdb.xscale.iwmmxt} feature is optional. If present, |
27282 | it should contain at least registers @samp{wR0} through @samp{wR15} and | |
27283 | @samp{wCGR0} through @samp{wCGR3}. The @samp{wCID}, @samp{wCon}, | |
27284 | @samp{wCSSF}, and @samp{wCASF} registers are optional. | |
23181151 | 27285 | |
1e26b4f8 | 27286 | @node MIPS Features |
f8b73d13 DJ |
27287 | @subsection MIPS Features |
27288 | @cindex target descriptions, MIPS features | |
27289 | ||
27290 | The @samp{org.gnu.gdb.mips.cpu} feature is required for MIPS targets. | |
27291 | It should contain registers @samp{r0} through @samp{r31}, @samp{lo}, | |
27292 | @samp{hi}, and @samp{pc}. They may be 32-bit or 64-bit depending | |
27293 | on the target. | |
27294 | ||
27295 | The @samp{org.gnu.gdb.mips.cp0} feature is also required. It should | |
27296 | contain at least the @samp{status}, @samp{badvaddr}, and @samp{cause} | |
27297 | registers. They may be 32-bit or 64-bit depending on the target. | |
27298 | ||
27299 | The @samp{org.gnu.gdb.mips.fpu} feature is currently required, though | |
27300 | it may be optional in a future version of @value{GDBN}. It should | |
27301 | contain registers @samp{f0} through @samp{f31}, @samp{fcsr}, and | |
27302 | @samp{fir}. They may be 32-bit or 64-bit depending on the target. | |
27303 | ||
822b6570 DJ |
27304 | The @samp{org.gnu.gdb.mips.linux} feature is optional. It should |
27305 | contain a single register, @samp{restart}, which is used by the | |
27306 | Linux kernel to control restartable syscalls. | |
27307 | ||
e9c17194 VP |
27308 | @node M68K Features |
27309 | @subsection M68K Features | |
27310 | @cindex target descriptions, M68K features | |
27311 | ||
27312 | @table @code | |
27313 | @item @samp{org.gnu.gdb.m68k.core} | |
27314 | @itemx @samp{org.gnu.gdb.coldfire.core} | |
27315 | @itemx @samp{org.gnu.gdb.fido.core} | |
27316 | One of those features must be always present. | |
27317 | The feature that is present determines which flavor of m86k is | |
27318 | used. The feature that is present should contain registers | |
27319 | @samp{d0} through @samp{d7}, @samp{a0} through @samp{a5}, @samp{fp}, | |
27320 | @samp{sp}, @samp{ps} and @samp{pc}. | |
27321 | ||
27322 | @item @samp{org.gnu.gdb.coldfire.fp} | |
27323 | This feature is optional. If present, it should contain registers | |
27324 | @samp{fp0} through @samp{fp7}, @samp{fpcontrol}, @samp{fpstatus} and | |
27325 | @samp{fpiaddr}. | |
27326 | @end table | |
27327 | ||
1e26b4f8 | 27328 | @node PowerPC Features |
7cc46491 DJ |
27329 | @subsection PowerPC Features |
27330 | @cindex target descriptions, PowerPC features | |
27331 | ||
27332 | The @samp{org.gnu.gdb.power.core} feature is required for PowerPC | |
27333 | targets. It should contain registers @samp{r0} through @samp{r31}, | |
27334 | @samp{pc}, @samp{msr}, @samp{cr}, @samp{lr}, @samp{ctr}, and | |
27335 | @samp{xer}. They may be 32-bit or 64-bit depending on the target. | |
27336 | ||
27337 | The @samp{org.gnu.gdb.power.fpu} feature is optional. It should | |
27338 | contain registers @samp{f0} through @samp{f31} and @samp{fpscr}. | |
27339 | ||
27340 | The @samp{org.gnu.gdb.power.altivec} feature is optional. It should | |
27341 | contain registers @samp{vr0} through @samp{vr31}, @samp{vscr}, | |
27342 | and @samp{vrsave}. | |
27343 | ||
27344 | The @samp{org.gnu.gdb.power.spe} feature is optional. It should | |
27345 | contain registers @samp{ev0h} through @samp{ev31h}, @samp{acc}, and | |
27346 | @samp{spefscr}. SPE targets should provide 32-bit registers in | |
27347 | @samp{org.gnu.gdb.power.core} and provide the upper halves in | |
27348 | @samp{ev0h} through @samp{ev31h}. @value{GDBN} will combine | |
27349 | these to present registers @samp{ev0} through @samp{ev31} to the | |
27350 | user. | |
27351 | ||
aab4e0ec | 27352 | @include gpl.texi |
eb12ee30 | 27353 | |
2154891a | 27354 | @raisesections |
6826cf00 | 27355 | @include fdl.texi |
2154891a | 27356 | @lowersections |
6826cf00 | 27357 | |
6d2ebf8b | 27358 | @node Index |
c906108c SS |
27359 | @unnumbered Index |
27360 | ||
27361 | @printindex cp | |
27362 | ||
27363 | @tex | |
27364 | % I think something like @colophon should be in texinfo. In the | |
27365 | % meantime: | |
27366 | \long\def\colophon{\hbox to0pt{}\vfill | |
27367 | \centerline{The body of this manual is set in} | |
27368 | \centerline{\fontname\tenrm,} | |
27369 | \centerline{with headings in {\bf\fontname\tenbf}} | |
27370 | \centerline{and examples in {\tt\fontname\tentt}.} | |
27371 | \centerline{{\it\fontname\tenit\/},} | |
27372 | \centerline{{\bf\fontname\tenbf}, and} | |
27373 | \centerline{{\sl\fontname\tensl\/}} | |
27374 | \centerline{are used for emphasis.}\vfill} | |
27375 | \page\colophon | |
27376 | % Blame: doc@cygnus.com, 1991. | |
27377 | @end tex | |
27378 | ||
c906108c | 27379 | @bye |