Commit | Line | Data |
---|---|---|
4c2df51b | 1 | /* DWARF 2 location expression support for GDB. |
feb13ab0 | 2 | |
b811d2c2 | 3 | Copyright (C) 2003-2020 Free Software Foundation, Inc. |
feb13ab0 | 4 | |
4c2df51b DJ |
5 | Contributed by Daniel Jacobowitz, MontaVista Software, Inc. |
6 | ||
7 | This file is part of GDB. | |
8 | ||
9 | This program is free software; you can redistribute it and/or modify | |
10 | it under the terms of the GNU General Public License as published by | |
a9762ec7 JB |
11 | the Free Software Foundation; either version 3 of the License, or |
12 | (at your option) any later version. | |
4c2df51b | 13 | |
a9762ec7 JB |
14 | This program is distributed in the hope that it will be useful, |
15 | but WITHOUT ANY WARRANTY; without even the implied warranty of | |
16 | MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the | |
17 | GNU General Public License for more details. | |
4c2df51b DJ |
18 | |
19 | You should have received a copy of the GNU General Public License | |
a9762ec7 | 20 | along with this program. If not, see <http://www.gnu.org/licenses/>. */ |
4c2df51b DJ |
21 | |
22 | #include "defs.h" | |
4de283e4 TT |
23 | #include "ui-out.h" |
24 | #include "value.h" | |
25 | #include "frame.h" | |
26 | #include "gdbcore.h" | |
27 | #include "target.h" | |
28 | #include "inferior.h" | |
d55e5aa6 | 29 | #include "ax.h" |
4de283e4 TT |
30 | #include "ax-gdb.h" |
31 | #include "regcache.h" | |
32 | #include "objfiles.h" | |
edb3359d | 33 | #include "block.h" |
4de283e4 | 34 | #include "gdbcmd.h" |
0fde2c53 | 35 | #include "complaints.h" |
fa8f86ff | 36 | #include "dwarf2.h" |
82ca8957 TT |
37 | #include "dwarf2/expr.h" |
38 | #include "dwarf2/loc.h" | |
39 | #include "dwarf2/read.h" | |
40 | #include "dwarf2/frame.h" | |
f4382c45 | 41 | #include "dwarf2/leb.h" |
4de283e4 | 42 | #include "compile/compile.h" |
268a13a5 | 43 | #include "gdbsupport/selftest.h" |
4de283e4 TT |
44 | #include <algorithm> |
45 | #include <vector> | |
46 | #include <unordered_set> | |
268a13a5 TT |
47 | #include "gdbsupport/underlying.h" |
48 | #include "gdbsupport/byte-vector.h" | |
4c2df51b | 49 | |
1632a688 JK |
50 | static struct value *dwarf2_evaluate_loc_desc_full (struct type *type, |
51 | struct frame_info *frame, | |
52 | const gdb_byte *data, | |
56eb65bd SP |
53 | size_t size, |
54 | struct dwarf2_per_cu_data *per_cu, | |
7942e96e AA |
55 | struct type *subobj_type, |
56 | LONGEST subobj_byte_offset); | |
8cf6f0b1 | 57 | |
192ca6d8 TT |
58 | static struct call_site_parameter *dwarf_expr_reg_to_entry_parameter |
59 | (struct frame_info *frame, | |
60 | enum call_site_parameter_kind kind, | |
61 | union call_site_parameter_u kind_u, | |
62 | struct dwarf2_per_cu_data **per_cu_return); | |
63 | ||
a6b786da KB |
64 | static struct value *indirect_synthetic_pointer |
65 | (sect_offset die, LONGEST byte_offset, | |
14095eb3 SM |
66 | dwarf2_per_cu_data *per_cu, |
67 | dwarf2_per_objfile *per_objfile, | |
a6b786da | 68 | struct frame_info *frame, |
e4a62c65 | 69 | struct type *type, bool resolve_abstract_p = false); |
a6b786da | 70 | |
f664829e DE |
71 | /* Until these have formal names, we define these here. |
72 | ref: http://gcc.gnu.org/wiki/DebugFission | |
73 | Each entry in .debug_loc.dwo begins with a byte that describes the entry, | |
74 | and is then followed by data specific to that entry. */ | |
75 | ||
76 | enum debug_loc_kind | |
77 | { | |
78 | /* Indicates the end of the list of entries. */ | |
79 | DEBUG_LOC_END_OF_LIST = 0, | |
80 | ||
81 | /* This is followed by an unsigned LEB128 number that is an index into | |
82 | .debug_addr and specifies the base address for all following entries. */ | |
83 | DEBUG_LOC_BASE_ADDRESS = 1, | |
84 | ||
85 | /* This is followed by two unsigned LEB128 numbers that are indices into | |
86 | .debug_addr and specify the beginning and ending addresses, and then | |
87 | a normal location expression as in .debug_loc. */ | |
3771a44c DE |
88 | DEBUG_LOC_START_END = 2, |
89 | ||
90 | /* This is followed by an unsigned LEB128 number that is an index into | |
91 | .debug_addr and specifies the beginning address, and a 4 byte unsigned | |
92 | number that specifies the length, and then a normal location expression | |
93 | as in .debug_loc. */ | |
94 | DEBUG_LOC_START_LENGTH = 3, | |
f664829e | 95 | |
9fc3eaae | 96 | /* This is followed by two unsigned LEB128 operands. The values of these |
97 | operands are the starting and ending offsets, respectively, relative to | |
98 | the applicable base address. */ | |
99 | DEBUG_LOC_OFFSET_PAIR = 4, | |
100 | ||
f664829e DE |
101 | /* An internal value indicating there is insufficient data. */ |
102 | DEBUG_LOC_BUFFER_OVERFLOW = -1, | |
103 | ||
104 | /* An internal value indicating an invalid kind of entry was found. */ | |
105 | DEBUG_LOC_INVALID_ENTRY = -2 | |
106 | }; | |
107 | ||
b6807d98 TT |
108 | /* Helper function which throws an error if a synthetic pointer is |
109 | invalid. */ | |
110 | ||
111 | static void | |
112 | invalid_synthetic_pointer (void) | |
113 | { | |
114 | error (_("access outside bounds of object " | |
115 | "referenced via synthetic pointer")); | |
116 | } | |
117 | ||
f664829e DE |
118 | /* Decode the addresses in a non-dwo .debug_loc entry. |
119 | A pointer to the next byte to examine is returned in *NEW_PTR. | |
120 | The encoded low,high addresses are return in *LOW,*HIGH. | |
121 | The result indicates the kind of entry found. */ | |
122 | ||
123 | static enum debug_loc_kind | |
124 | decode_debug_loc_addresses (const gdb_byte *loc_ptr, const gdb_byte *buf_end, | |
125 | const gdb_byte **new_ptr, | |
126 | CORE_ADDR *low, CORE_ADDR *high, | |
127 | enum bfd_endian byte_order, | |
128 | unsigned int addr_size, | |
129 | int signed_addr_p) | |
130 | { | |
131 | CORE_ADDR base_mask = ~(~(CORE_ADDR)1 << (addr_size * 8 - 1)); | |
132 | ||
133 | if (buf_end - loc_ptr < 2 * addr_size) | |
134 | return DEBUG_LOC_BUFFER_OVERFLOW; | |
135 | ||
136 | if (signed_addr_p) | |
137 | *low = extract_signed_integer (loc_ptr, addr_size, byte_order); | |
138 | else | |
139 | *low = extract_unsigned_integer (loc_ptr, addr_size, byte_order); | |
140 | loc_ptr += addr_size; | |
141 | ||
142 | if (signed_addr_p) | |
143 | *high = extract_signed_integer (loc_ptr, addr_size, byte_order); | |
144 | else | |
145 | *high = extract_unsigned_integer (loc_ptr, addr_size, byte_order); | |
146 | loc_ptr += addr_size; | |
147 | ||
148 | *new_ptr = loc_ptr; | |
149 | ||
150 | /* A base-address-selection entry. */ | |
151 | if ((*low & base_mask) == base_mask) | |
152 | return DEBUG_LOC_BASE_ADDRESS; | |
153 | ||
154 | /* An end-of-list entry. */ | |
155 | if (*low == 0 && *high == 0) | |
156 | return DEBUG_LOC_END_OF_LIST; | |
157 | ||
3771a44c | 158 | return DEBUG_LOC_START_END; |
f664829e DE |
159 | } |
160 | ||
43988095 JK |
161 | /* Decode the addresses in .debug_loclists entry. |
162 | A pointer to the next byte to examine is returned in *NEW_PTR. | |
163 | The encoded low,high addresses are return in *LOW,*HIGH. | |
164 | The result indicates the kind of entry found. */ | |
165 | ||
166 | static enum debug_loc_kind | |
82ca3f51 SM |
167 | decode_debug_loclists_addresses (dwarf2_per_cu_data *per_cu, |
168 | dwarf2_per_objfile *per_objfile, | |
43988095 JK |
169 | const gdb_byte *loc_ptr, |
170 | const gdb_byte *buf_end, | |
171 | const gdb_byte **new_ptr, | |
172 | CORE_ADDR *low, CORE_ADDR *high, | |
173 | enum bfd_endian byte_order, | |
174 | unsigned int addr_size, | |
175 | int signed_addr_p) | |
176 | { | |
177 | uint64_t u64; | |
178 | ||
179 | if (loc_ptr == buf_end) | |
180 | return DEBUG_LOC_BUFFER_OVERFLOW; | |
181 | ||
182 | switch (*loc_ptr++) | |
183 | { | |
3112ed97 NA |
184 | case DW_LLE_base_addressx: |
185 | *low = 0; | |
186 | loc_ptr = gdb_read_uleb128 (loc_ptr, buf_end, &u64); | |
187 | if (loc_ptr == NULL) | |
188 | return DEBUG_LOC_BUFFER_OVERFLOW; | |
82ca3f51 | 189 | *high = dwarf2_read_addr_index (per_cu, per_objfile, u64); |
3112ed97 NA |
190 | *new_ptr = loc_ptr; |
191 | return DEBUG_LOC_BASE_ADDRESS; | |
192 | case DW_LLE_startx_length: | |
193 | loc_ptr = gdb_read_uleb128 (loc_ptr, buf_end, &u64); | |
194 | if (loc_ptr == NULL) | |
195 | return DEBUG_LOC_BUFFER_OVERFLOW; | |
82ca3f51 | 196 | *low = dwarf2_read_addr_index (per_cu, per_objfile, u64); |
3112ed97 NA |
197 | *high = *low; |
198 | loc_ptr = gdb_read_uleb128 (loc_ptr, buf_end, &u64); | |
199 | if (loc_ptr == NULL) | |
200 | return DEBUG_LOC_BUFFER_OVERFLOW; | |
201 | *high += u64; | |
202 | *new_ptr = loc_ptr; | |
203 | return DEBUG_LOC_START_LENGTH; | |
204 | case DW_LLE_start_length: | |
205 | if (buf_end - loc_ptr < addr_size) | |
206 | return DEBUG_LOC_BUFFER_OVERFLOW; | |
207 | if (signed_addr_p) | |
208 | *low = extract_signed_integer (loc_ptr, addr_size, byte_order); | |
209 | else | |
210 | *low = extract_unsigned_integer (loc_ptr, addr_size, byte_order); | |
211 | loc_ptr += addr_size; | |
212 | *high = *low; | |
213 | loc_ptr = gdb_read_uleb128 (loc_ptr, buf_end, &u64); | |
214 | if (loc_ptr == NULL) | |
215 | return DEBUG_LOC_BUFFER_OVERFLOW; | |
216 | *high += u64; | |
217 | *new_ptr = loc_ptr; | |
218 | return DEBUG_LOC_START_LENGTH; | |
43988095 JK |
219 | case DW_LLE_end_of_list: |
220 | *new_ptr = loc_ptr; | |
221 | return DEBUG_LOC_END_OF_LIST; | |
222 | case DW_LLE_base_address: | |
223 | if (loc_ptr + addr_size > buf_end) | |
224 | return DEBUG_LOC_BUFFER_OVERFLOW; | |
225 | if (signed_addr_p) | |
226 | *high = extract_signed_integer (loc_ptr, addr_size, byte_order); | |
227 | else | |
228 | *high = extract_unsigned_integer (loc_ptr, addr_size, byte_order); | |
229 | loc_ptr += addr_size; | |
230 | *new_ptr = loc_ptr; | |
231 | return DEBUG_LOC_BASE_ADDRESS; | |
232 | case DW_LLE_offset_pair: | |
233 | loc_ptr = gdb_read_uleb128 (loc_ptr, buf_end, &u64); | |
234 | if (loc_ptr == NULL) | |
235 | return DEBUG_LOC_BUFFER_OVERFLOW; | |
236 | *low = u64; | |
237 | loc_ptr = gdb_read_uleb128 (loc_ptr, buf_end, &u64); | |
238 | if (loc_ptr == NULL) | |
239 | return DEBUG_LOC_BUFFER_OVERFLOW; | |
240 | *high = u64; | |
241 | *new_ptr = loc_ptr; | |
9fc3eaae | 242 | return DEBUG_LOC_OFFSET_PAIR; |
3112ed97 NA |
243 | /* Following cases are not supported yet. */ |
244 | case DW_LLE_startx_endx: | |
245 | case DW_LLE_start_end: | |
246 | case DW_LLE_default_location: | |
43988095 JK |
247 | default: |
248 | return DEBUG_LOC_INVALID_ENTRY; | |
249 | } | |
250 | } | |
251 | ||
f664829e DE |
252 | /* Decode the addresses in .debug_loc.dwo entry. |
253 | A pointer to the next byte to examine is returned in *NEW_PTR. | |
254 | The encoded low,high addresses are return in *LOW,*HIGH. | |
255 | The result indicates the kind of entry found. */ | |
256 | ||
257 | static enum debug_loc_kind | |
82ca3f51 SM |
258 | decode_debug_loc_dwo_addresses (dwarf2_per_cu_data *per_cu, |
259 | dwarf2_per_objfile *per_objfile, | |
f664829e DE |
260 | const gdb_byte *loc_ptr, |
261 | const gdb_byte *buf_end, | |
262 | const gdb_byte **new_ptr, | |
3771a44c DE |
263 | CORE_ADDR *low, CORE_ADDR *high, |
264 | enum bfd_endian byte_order) | |
f664829e | 265 | { |
9fccedf7 | 266 | uint64_t low_index, high_index; |
f664829e DE |
267 | |
268 | if (loc_ptr == buf_end) | |
269 | return DEBUG_LOC_BUFFER_OVERFLOW; | |
270 | ||
271 | switch (*loc_ptr++) | |
272 | { | |
43988095 | 273 | case DW_LLE_GNU_end_of_list_entry: |
f664829e DE |
274 | *new_ptr = loc_ptr; |
275 | return DEBUG_LOC_END_OF_LIST; | |
43988095 | 276 | case DW_LLE_GNU_base_address_selection_entry: |
f664829e DE |
277 | *low = 0; |
278 | loc_ptr = gdb_read_uleb128 (loc_ptr, buf_end, &high_index); | |
279 | if (loc_ptr == NULL) | |
280 | return DEBUG_LOC_BUFFER_OVERFLOW; | |
82ca3f51 | 281 | *high = dwarf2_read_addr_index (per_cu, per_objfile, high_index); |
f664829e DE |
282 | *new_ptr = loc_ptr; |
283 | return DEBUG_LOC_BASE_ADDRESS; | |
43988095 | 284 | case DW_LLE_GNU_start_end_entry: |
f664829e DE |
285 | loc_ptr = gdb_read_uleb128 (loc_ptr, buf_end, &low_index); |
286 | if (loc_ptr == NULL) | |
287 | return DEBUG_LOC_BUFFER_OVERFLOW; | |
82ca3f51 | 288 | *low = dwarf2_read_addr_index (per_cu, per_objfile, low_index); |
f664829e DE |
289 | loc_ptr = gdb_read_uleb128 (loc_ptr, buf_end, &high_index); |
290 | if (loc_ptr == NULL) | |
291 | return DEBUG_LOC_BUFFER_OVERFLOW; | |
82ca3f51 | 292 | *high = dwarf2_read_addr_index (per_cu, per_objfile, high_index); |
f664829e | 293 | *new_ptr = loc_ptr; |
3771a44c | 294 | return DEBUG_LOC_START_END; |
43988095 | 295 | case DW_LLE_GNU_start_length_entry: |
3771a44c DE |
296 | loc_ptr = gdb_read_uleb128 (loc_ptr, buf_end, &low_index); |
297 | if (loc_ptr == NULL) | |
298 | return DEBUG_LOC_BUFFER_OVERFLOW; | |
82ca3f51 | 299 | *low = dwarf2_read_addr_index (per_cu, per_objfile, low_index); |
3771a44c DE |
300 | if (loc_ptr + 4 > buf_end) |
301 | return DEBUG_LOC_BUFFER_OVERFLOW; | |
302 | *high = *low; | |
303 | *high += extract_unsigned_integer (loc_ptr, 4, byte_order); | |
304 | *new_ptr = loc_ptr + 4; | |
305 | return DEBUG_LOC_START_LENGTH; | |
f664829e DE |
306 | default: |
307 | return DEBUG_LOC_INVALID_ENTRY; | |
308 | } | |
309 | } | |
310 | ||
8cf6f0b1 | 311 | /* A function for dealing with location lists. Given a |
0d53c4c4 DJ |
312 | symbol baton (BATON) and a pc value (PC), find the appropriate |
313 | location expression, set *LOCEXPR_LENGTH, and return a pointer | |
314 | to the beginning of the expression. Returns NULL on failure. | |
315 | ||
316 | For now, only return the first matching location expression; there | |
317 | can be more than one in the list. */ | |
318 | ||
8cf6f0b1 TT |
319 | const gdb_byte * |
320 | dwarf2_find_location_expression (struct dwarf2_loclist_baton *baton, | |
321 | size_t *locexpr_length, CORE_ADDR pc) | |
0d53c4c4 | 322 | { |
a50264ba TT |
323 | dwarf2_per_objfile *per_objfile = baton->per_objfile; |
324 | struct objfile *objfile = per_objfile->objfile; | |
08feed99 | 325 | struct gdbarch *gdbarch = objfile->arch (); |
e17a4113 | 326 | enum bfd_endian byte_order = gdbarch_byte_order (gdbarch); |
09ba997f | 327 | unsigned int addr_size = baton->per_cu->addr_size (); |
d4a087c7 | 328 | int signed_addr_p = bfd_get_sign_extend_vma (objfile->obfd); |
8edfa926 | 329 | /* Adjust base_address for relocatable objects. */ |
4b167ea1 | 330 | CORE_ADDR base_offset = baton->per_objfile->objfile->text_section_offset (); |
8edfa926 | 331 | CORE_ADDR base_address = baton->base_address + base_offset; |
f664829e | 332 | const gdb_byte *loc_ptr, *buf_end; |
0d53c4c4 DJ |
333 | |
334 | loc_ptr = baton->data; | |
335 | buf_end = baton->data + baton->size; | |
336 | ||
337 | while (1) | |
338 | { | |
f664829e DE |
339 | CORE_ADDR low = 0, high = 0; /* init for gcc -Wall */ |
340 | int length; | |
341 | enum debug_loc_kind kind; | |
342 | const gdb_byte *new_ptr = NULL; /* init for gcc -Wall */ | |
343 | ||
9fc3eaae | 344 | if (baton->per_cu->version () < 5 && baton->from_dwo) |
f664829e | 345 | kind = decode_debug_loc_dwo_addresses (baton->per_cu, |
82ca3f51 | 346 | baton->per_objfile, |
f664829e | 347 | loc_ptr, buf_end, &new_ptr, |
3771a44c | 348 | &low, &high, byte_order); |
09ba997f | 349 | else if (baton->per_cu->version () < 5) |
f664829e DE |
350 | kind = decode_debug_loc_addresses (loc_ptr, buf_end, &new_ptr, |
351 | &low, &high, | |
352 | byte_order, addr_size, | |
353 | signed_addr_p); | |
43988095 JK |
354 | else |
355 | kind = decode_debug_loclists_addresses (baton->per_cu, | |
82ca3f51 | 356 | baton->per_objfile, |
43988095 JK |
357 | loc_ptr, buf_end, &new_ptr, |
358 | &low, &high, byte_order, | |
359 | addr_size, signed_addr_p); | |
360 | ||
f664829e DE |
361 | loc_ptr = new_ptr; |
362 | switch (kind) | |
1d6edc3c | 363 | { |
f664829e | 364 | case DEBUG_LOC_END_OF_LIST: |
1d6edc3c JK |
365 | *locexpr_length = 0; |
366 | return NULL; | |
f664829e DE |
367 | case DEBUG_LOC_BASE_ADDRESS: |
368 | base_address = high + base_offset; | |
369 | continue; | |
3771a44c DE |
370 | case DEBUG_LOC_START_END: |
371 | case DEBUG_LOC_START_LENGTH: | |
9fc3eaae | 372 | case DEBUG_LOC_OFFSET_PAIR: |
f664829e DE |
373 | break; |
374 | case DEBUG_LOC_BUFFER_OVERFLOW: | |
375 | case DEBUG_LOC_INVALID_ENTRY: | |
376 | error (_("dwarf2_find_location_expression: " | |
377 | "Corrupted DWARF expression.")); | |
378 | default: | |
379 | gdb_assert_not_reached ("bad debug_loc_kind"); | |
1d6edc3c | 380 | } |
b5758fe4 | 381 | |
bed911e5 | 382 | /* Otherwise, a location expression entry. |
8ddd5a6c | 383 | If the entry is from a DWO, don't add base address: the entry is from |
9fc3eaae | 384 | .debug_addr which already has the DWARF "base address". We still add |
385 | base_offset in case we're debugging a PIE executable. However, if the | |
386 | entry is DW_LLE_offset_pair from a DWO, add the base address as the | |
387 | operands are offsets relative to the applicable base address. */ | |
388 | if (baton->from_dwo && kind != DEBUG_LOC_OFFSET_PAIR) | |
8ddd5a6c DE |
389 | { |
390 | low += base_offset; | |
391 | high += base_offset; | |
392 | } | |
393 | else | |
bed911e5 DE |
394 | { |
395 | low += base_address; | |
396 | high += base_address; | |
397 | } | |
0d53c4c4 | 398 | |
09ba997f | 399 | if (baton->per_cu->version () < 5) |
43988095 JK |
400 | { |
401 | length = extract_unsigned_integer (loc_ptr, 2, byte_order); | |
402 | loc_ptr += 2; | |
403 | } | |
404 | else | |
405 | { | |
406 | unsigned int bytes_read; | |
407 | ||
408 | length = read_unsigned_leb128 (NULL, loc_ptr, &bytes_read); | |
409 | loc_ptr += bytes_read; | |
410 | } | |
0d53c4c4 | 411 | |
e18b2753 JK |
412 | if (low == high && pc == low) |
413 | { | |
414 | /* This is entry PC record present only at entry point | |
415 | of a function. Verify it is really the function entry point. */ | |
416 | ||
3977b71f | 417 | const struct block *pc_block = block_for_pc (pc); |
e18b2753 JK |
418 | struct symbol *pc_func = NULL; |
419 | ||
420 | if (pc_block) | |
421 | pc_func = block_linkage_function (pc_block); | |
422 | ||
2b1ffcfd | 423 | if (pc_func && pc == BLOCK_ENTRY_PC (SYMBOL_BLOCK_VALUE (pc_func))) |
e18b2753 JK |
424 | { |
425 | *locexpr_length = length; | |
426 | return loc_ptr; | |
427 | } | |
428 | } | |
429 | ||
0d53c4c4 DJ |
430 | if (pc >= low && pc < high) |
431 | { | |
432 | *locexpr_length = length; | |
433 | return loc_ptr; | |
434 | } | |
435 | ||
436 | loc_ptr += length; | |
437 | } | |
438 | } | |
439 | ||
f1e6e072 TT |
440 | /* Implement find_frame_base_location method for LOC_BLOCK functions using |
441 | DWARF expression for its DW_AT_frame_base. */ | |
442 | ||
443 | static void | |
444 | locexpr_find_frame_base_location (struct symbol *framefunc, CORE_ADDR pc, | |
445 | const gdb_byte **start, size_t *length) | |
446 | { | |
9a3c8263 SM |
447 | struct dwarf2_locexpr_baton *symbaton |
448 | = (struct dwarf2_locexpr_baton *) SYMBOL_LOCATION_BATON (framefunc); | |
f1e6e072 TT |
449 | |
450 | *length = symbaton->size; | |
451 | *start = symbaton->data; | |
452 | } | |
453 | ||
7d1c9c9b JB |
454 | /* Implement the struct symbol_block_ops::get_frame_base method for |
455 | LOC_BLOCK functions using a DWARF expression as its DW_AT_frame_base. */ | |
63e43d3a PMR |
456 | |
457 | static CORE_ADDR | |
7d1c9c9b | 458 | locexpr_get_frame_base (struct symbol *framefunc, struct frame_info *frame) |
63e43d3a PMR |
459 | { |
460 | struct gdbarch *gdbarch; | |
461 | struct type *type; | |
462 | struct dwarf2_locexpr_baton *dlbaton; | |
463 | const gdb_byte *start; | |
464 | size_t length; | |
465 | struct value *result; | |
466 | ||
467 | /* If this method is called, then FRAMEFUNC is supposed to be a DWARF block. | |
468 | Thus, it's supposed to provide the find_frame_base_location method as | |
469 | well. */ | |
470 | gdb_assert (SYMBOL_BLOCK_OPS (framefunc)->find_frame_base_location != NULL); | |
471 | ||
472 | gdbarch = get_frame_arch (frame); | |
473 | type = builtin_type (gdbarch)->builtin_data_ptr; | |
9a3c8263 | 474 | dlbaton = (struct dwarf2_locexpr_baton *) SYMBOL_LOCATION_BATON (framefunc); |
63e43d3a PMR |
475 | |
476 | SYMBOL_BLOCK_OPS (framefunc)->find_frame_base_location | |
477 | (framefunc, get_frame_pc (frame), &start, &length); | |
478 | result = dwarf2_evaluate_loc_desc (type, frame, start, length, | |
479 | dlbaton->per_cu); | |
480 | ||
481 | /* The DW_AT_frame_base attribute contains a location description which | |
482 | computes the base address itself. However, the call to | |
483 | dwarf2_evaluate_loc_desc returns a value representing a variable at | |
484 | that address. The frame base address is thus this variable's | |
485 | address. */ | |
486 | return value_address (result); | |
487 | } | |
488 | ||
f1e6e072 TT |
489 | /* Vector for inferior functions as represented by LOC_BLOCK, if the inferior |
490 | function uses DWARF expression for its DW_AT_frame_base. */ | |
491 | ||
492 | const struct symbol_block_ops dwarf2_block_frame_base_locexpr_funcs = | |
493 | { | |
63e43d3a | 494 | locexpr_find_frame_base_location, |
7d1c9c9b | 495 | locexpr_get_frame_base |
f1e6e072 TT |
496 | }; |
497 | ||
498 | /* Implement find_frame_base_location method for LOC_BLOCK functions using | |
499 | DWARF location list for its DW_AT_frame_base. */ | |
500 | ||
501 | static void | |
502 | loclist_find_frame_base_location (struct symbol *framefunc, CORE_ADDR pc, | |
503 | const gdb_byte **start, size_t *length) | |
504 | { | |
9a3c8263 SM |
505 | struct dwarf2_loclist_baton *symbaton |
506 | = (struct dwarf2_loclist_baton *) SYMBOL_LOCATION_BATON (framefunc); | |
f1e6e072 TT |
507 | |
508 | *start = dwarf2_find_location_expression (symbaton, length, pc); | |
509 | } | |
510 | ||
7d1c9c9b JB |
511 | /* Implement the struct symbol_block_ops::get_frame_base method for |
512 | LOC_BLOCK functions using a DWARF location list as its DW_AT_frame_base. */ | |
513 | ||
514 | static CORE_ADDR | |
515 | loclist_get_frame_base (struct symbol *framefunc, struct frame_info *frame) | |
516 | { | |
517 | struct gdbarch *gdbarch; | |
518 | struct type *type; | |
519 | struct dwarf2_loclist_baton *dlbaton; | |
520 | const gdb_byte *start; | |
521 | size_t length; | |
522 | struct value *result; | |
523 | ||
524 | /* If this method is called, then FRAMEFUNC is supposed to be a DWARF block. | |
525 | Thus, it's supposed to provide the find_frame_base_location method as | |
526 | well. */ | |
527 | gdb_assert (SYMBOL_BLOCK_OPS (framefunc)->find_frame_base_location != NULL); | |
528 | ||
529 | gdbarch = get_frame_arch (frame); | |
530 | type = builtin_type (gdbarch)->builtin_data_ptr; | |
9a3c8263 | 531 | dlbaton = (struct dwarf2_loclist_baton *) SYMBOL_LOCATION_BATON (framefunc); |
7d1c9c9b JB |
532 | |
533 | SYMBOL_BLOCK_OPS (framefunc)->find_frame_base_location | |
534 | (framefunc, get_frame_pc (frame), &start, &length); | |
535 | result = dwarf2_evaluate_loc_desc (type, frame, start, length, | |
536 | dlbaton->per_cu); | |
537 | ||
538 | /* The DW_AT_frame_base attribute contains a location description which | |
539 | computes the base address itself. However, the call to | |
540 | dwarf2_evaluate_loc_desc returns a value representing a variable at | |
541 | that address. The frame base address is thus this variable's | |
542 | address. */ | |
543 | return value_address (result); | |
544 | } | |
545 | ||
f1e6e072 TT |
546 | /* Vector for inferior functions as represented by LOC_BLOCK, if the inferior |
547 | function uses DWARF location list for its DW_AT_frame_base. */ | |
548 | ||
549 | const struct symbol_block_ops dwarf2_block_frame_base_loclist_funcs = | |
550 | { | |
63e43d3a | 551 | loclist_find_frame_base_location, |
7d1c9c9b | 552 | loclist_get_frame_base |
f1e6e072 TT |
553 | }; |
554 | ||
af945b75 TT |
555 | /* See dwarf2loc.h. */ |
556 | ||
557 | void | |
558 | func_get_frame_base_dwarf_block (struct symbol *framefunc, CORE_ADDR pc, | |
559 | const gdb_byte **start, size_t *length) | |
0936ad1d | 560 | { |
f1e6e072 | 561 | if (SYMBOL_BLOCK_OPS (framefunc) != NULL) |
0d53c4c4 | 562 | { |
f1e6e072 | 563 | const struct symbol_block_ops *ops_block = SYMBOL_BLOCK_OPS (framefunc); |
22c6caba | 564 | |
f1e6e072 | 565 | ops_block->find_frame_base_location (framefunc, pc, start, length); |
0d53c4c4 DJ |
566 | } |
567 | else | |
f1e6e072 | 568 | *length = 0; |
0d53c4c4 | 569 | |
1d6edc3c | 570 | if (*length == 0) |
8a3fe4f8 | 571 | error (_("Could not find the frame base for \"%s\"."), |
987012b8 | 572 | framefunc->natural_name ()); |
4c2df51b DJ |
573 | } |
574 | ||
4c2df51b | 575 | static CORE_ADDR |
192ca6d8 | 576 | get_frame_pc_for_per_cu_dwarf_call (void *baton) |
4c2df51b | 577 | { |
192ca6d8 | 578 | dwarf_expr_context *ctx = (dwarf_expr_context *) baton; |
4c2df51b | 579 | |
192ca6d8 | 580 | return ctx->get_frame_pc (); |
4c2df51b DJ |
581 | } |
582 | ||
5c631832 | 583 | static void |
b64f50a1 | 584 | per_cu_dwarf_call (struct dwarf_expr_context *ctx, cu_offset die_offset, |
14095eb3 | 585 | dwarf2_per_cu_data *per_cu, dwarf2_per_objfile *per_objfile) |
5c631832 JK |
586 | { |
587 | struct dwarf2_locexpr_baton block; | |
588 | ||
14095eb3 | 589 | block = dwarf2_fetch_die_loc_cu_off (die_offset, per_cu, per_objfile, |
192ca6d8 TT |
590 | get_frame_pc_for_per_cu_dwarf_call, |
591 | ctx); | |
5c631832 JK |
592 | |
593 | /* DW_OP_call_ref is currently not supported. */ | |
594 | gdb_assert (block.per_cu == per_cu); | |
595 | ||
595d2e30 | 596 | ctx->eval (block.data, block.size); |
5c631832 JK |
597 | } |
598 | ||
a6b786da KB |
599 | /* Given context CTX, section offset SECT_OFF, and compilation unit |
600 | data PER_CU, execute the "variable value" operation on the DIE | |
601 | found at SECT_OFF. */ | |
602 | ||
603 | static struct value * | |
604 | sect_variable_value (struct dwarf_expr_context *ctx, sect_offset sect_off, | |
14095eb3 SM |
605 | dwarf2_per_cu_data *per_cu, |
606 | dwarf2_per_objfile *per_objfile) | |
a6b786da | 607 | { |
14095eb3 SM |
608 | struct type *die_type |
609 | = dwarf2_fetch_die_type_sect_off (sect_off, per_cu, per_objfile); | |
a6b786da KB |
610 | |
611 | if (die_type == NULL) | |
612 | error (_("Bad DW_OP_GNU_variable_value DIE.")); | |
613 | ||
614 | /* Note: Things still work when the following test is removed. This | |
615 | test and error is here to conform to the proposed specification. */ | |
78134374 SM |
616 | if (die_type->code () != TYPE_CODE_INT |
617 | && die_type->code () != TYPE_CODE_PTR) | |
a6b786da KB |
618 | error (_("Type of DW_OP_GNU_variable_value DIE must be an integer or pointer.")); |
619 | ||
620 | struct type *type = lookup_pointer_type (die_type); | |
621 | struct frame_info *frame = get_selected_frame (_("No frame selected.")); | |
14095eb3 SM |
622 | return indirect_synthetic_pointer (sect_off, 0, per_cu, per_objfile, frame, |
623 | type, true); | |
a6b786da KB |
624 | } |
625 | ||
192ca6d8 | 626 | class dwarf_evaluate_loc_desc : public dwarf_expr_context |
5c631832 | 627 | { |
89b07335 SM |
628 | public: |
629 | dwarf_evaluate_loc_desc (dwarf2_per_objfile *per_objfile) | |
630 | : dwarf_expr_context (per_objfile) | |
631 | {} | |
5c631832 | 632 | |
192ca6d8 TT |
633 | struct frame_info *frame; |
634 | struct dwarf2_per_cu_data *per_cu; | |
635 | CORE_ADDR obj_address; | |
5c631832 | 636 | |
192ca6d8 TT |
637 | /* Helper function for dwarf2_evaluate_loc_desc. Computes the CFA for |
638 | the frame in BATON. */ | |
8a9b8146 | 639 | |
632e107b | 640 | CORE_ADDR get_frame_cfa () override |
192ca6d8 TT |
641 | { |
642 | return dwarf2_frame_cfa (frame); | |
643 | } | |
8a9b8146 | 644 | |
192ca6d8 TT |
645 | /* Helper function for dwarf2_evaluate_loc_desc. Computes the PC for |
646 | the frame in BATON. */ | |
647 | ||
632e107b | 648 | CORE_ADDR get_frame_pc () override |
192ca6d8 TT |
649 | { |
650 | return get_frame_address_in_block (frame); | |
651 | } | |
652 | ||
653 | /* Using the objfile specified in BATON, find the address for the | |
654 | current thread's thread-local storage with offset OFFSET. */ | |
632e107b | 655 | CORE_ADDR get_tls_address (CORE_ADDR offset) override |
192ca6d8 | 656 | { |
09ba997f | 657 | struct objfile *objfile = per_cu->objfile (); |
192ca6d8 TT |
658 | |
659 | return target_translate_tls_address (objfile, offset); | |
660 | } | |
661 | ||
662 | /* Helper interface of per_cu_dwarf_call for | |
663 | dwarf2_evaluate_loc_desc. */ | |
664 | ||
632e107b | 665 | void dwarf_call (cu_offset die_offset) override |
192ca6d8 | 666 | { |
14095eb3 | 667 | per_cu_dwarf_call (this, die_offset, per_cu, per_objfile); |
192ca6d8 TT |
668 | } |
669 | ||
a6b786da KB |
670 | /* Helper interface of sect_variable_value for |
671 | dwarf2_evaluate_loc_desc. */ | |
672 | ||
673 | struct value *dwarf_variable_value (sect_offset sect_off) override | |
674 | { | |
14095eb3 | 675 | return sect_variable_value (this, sect_off, per_cu, per_objfile); |
a6b786da KB |
676 | } |
677 | ||
632e107b | 678 | struct type *get_base_type (cu_offset die_offset, int size) override |
192ca6d8 | 679 | { |
7d5697f9 TT |
680 | struct type *result = dwarf2_get_die_type (die_offset, per_cu); |
681 | if (result == NULL) | |
216f72a1 | 682 | error (_("Could not find type for DW_OP_const_type")); |
7d5697f9 | 683 | if (size != 0 && TYPE_LENGTH (result) != size) |
216f72a1 | 684 | error (_("DW_OP_const_type has different sizes for type and data")); |
7d5697f9 | 685 | return result; |
192ca6d8 TT |
686 | } |
687 | ||
688 | /* Callback function for dwarf2_evaluate_loc_desc. | |
336d760d | 689 | Fetch the address indexed by DW_OP_addrx or DW_OP_GNU_addr_index. */ |
192ca6d8 | 690 | |
632e107b | 691 | CORE_ADDR get_addr_index (unsigned int index) override |
192ca6d8 | 692 | { |
82ca3f51 | 693 | return dwarf2_read_addr_index (per_cu, per_objfile, index); |
192ca6d8 TT |
694 | } |
695 | ||
696 | /* Callback function for get_object_address. Return the address of the VLA | |
697 | object. */ | |
698 | ||
632e107b | 699 | CORE_ADDR get_object_address () override |
192ca6d8 TT |
700 | { |
701 | if (obj_address == 0) | |
702 | error (_("Location address is not set.")); | |
703 | return obj_address; | |
704 | } | |
705 | ||
706 | /* Execute DWARF block of call_site_parameter which matches KIND and | |
707 | KIND_U. Choose DEREF_SIZE value of that parameter. Search | |
708 | caller of this objects's frame. | |
709 | ||
710 | The caller can be from a different CU - per_cu_dwarf_call | |
711 | implementation can be more simple as it does not support cross-CU | |
712 | DWARF executions. */ | |
713 | ||
714 | void push_dwarf_reg_entry_value (enum call_site_parameter_kind kind, | |
715 | union call_site_parameter_u kind_u, | |
632e107b | 716 | int deref_size) override |
192ca6d8 TT |
717 | { |
718 | struct frame_info *caller_frame; | |
719 | struct dwarf2_per_cu_data *caller_per_cu; | |
192ca6d8 TT |
720 | struct call_site_parameter *parameter; |
721 | const gdb_byte *data_src; | |
722 | size_t size; | |
723 | ||
724 | caller_frame = get_prev_frame (frame); | |
725 | ||
726 | parameter = dwarf_expr_reg_to_entry_parameter (frame, kind, kind_u, | |
727 | &caller_per_cu); | |
728 | data_src = deref_size == -1 ? parameter->value : parameter->data_value; | |
729 | size = deref_size == -1 ? parameter->value_size : parameter->data_value_size; | |
730 | ||
731 | /* DEREF_SIZE size is not verified here. */ | |
732 | if (data_src == NULL) | |
733 | throw_error (NO_ENTRY_VALUE_ERROR, | |
216f72a1 | 734 | _("Cannot resolve DW_AT_call_data_value")); |
192ca6d8 | 735 | |
7d5697f9 TT |
736 | scoped_restore save_frame = make_scoped_restore (&this->frame, |
737 | caller_frame); | |
738 | scoped_restore save_per_cu = make_scoped_restore (&this->per_cu, | |
739 | caller_per_cu); | |
740 | scoped_restore save_obj_addr = make_scoped_restore (&this->obj_address, | |
741 | (CORE_ADDR) 0); | |
192ca6d8 TT |
742 | |
743 | scoped_restore save_arch = make_scoped_restore (&this->gdbarch); | |
08feed99 | 744 | this->gdbarch = per_cu->objfile ()->arch (); |
192ca6d8 | 745 | scoped_restore save_addr_size = make_scoped_restore (&this->addr_size); |
09ba997f | 746 | this->addr_size = per_cu->addr_size (); |
192ca6d8 TT |
747 | |
748 | this->eval (data_src, size); | |
749 | } | |
750 | ||
751 | /* Using the frame specified in BATON, find the location expression | |
752 | describing the frame base. Return a pointer to it in START and | |
753 | its length in LENGTH. */ | |
632e107b | 754 | void get_frame_base (const gdb_byte **start, size_t * length) override |
192ca6d8 TT |
755 | { |
756 | /* FIXME: cagney/2003-03-26: This code should be using | |
757 | get_frame_base_address(), and then implement a dwarf2 specific | |
758 | this_base method. */ | |
759 | struct symbol *framefunc; | |
760 | const struct block *bl = get_frame_block (frame, NULL); | |
761 | ||
762 | if (bl == NULL) | |
763 | error (_("frame address is not available.")); | |
764 | ||
765 | /* Use block_linkage_function, which returns a real (not inlined) | |
766 | function, instead of get_frame_function, which may return an | |
767 | inlined function. */ | |
768 | framefunc = block_linkage_function (bl); | |
769 | ||
770 | /* If we found a frame-relative symbol then it was certainly within | |
771 | some function associated with a frame. If we can't find the frame, | |
772 | something has gone wrong. */ | |
773 | gdb_assert (framefunc != NULL); | |
774 | ||
775 | func_get_frame_base_dwarf_block (framefunc, | |
776 | get_frame_address_in_block (frame), | |
777 | start, length); | |
778 | } | |
779 | ||
780 | /* Read memory at ADDR (length LEN) into BUF. */ | |
781 | ||
632e107b | 782 | void read_mem (gdb_byte *buf, CORE_ADDR addr, size_t len) override |
192ca6d8 TT |
783 | { |
784 | read_memory (addr, buf, len); | |
785 | } | |
786 | ||
787 | /* Using the frame specified in BATON, return the value of register | |
788 | REGNUM, treated as a pointer. */ | |
632e107b | 789 | CORE_ADDR read_addr_from_reg (int dwarf_regnum) override |
192ca6d8 TT |
790 | { |
791 | struct gdbarch *gdbarch = get_frame_arch (frame); | |
792 | int regnum = dwarf_reg_to_regnum_or_error (gdbarch, dwarf_regnum); | |
793 | ||
794 | return address_from_register (regnum, frame); | |
795 | } | |
796 | ||
797 | /* Implement "get_reg_value" callback. */ | |
798 | ||
632e107b | 799 | struct value *get_reg_value (struct type *type, int dwarf_regnum) override |
192ca6d8 TT |
800 | { |
801 | struct gdbarch *gdbarch = get_frame_arch (frame); | |
802 | int regnum = dwarf_reg_to_regnum_or_error (gdbarch, dwarf_regnum); | |
803 | ||
804 | return value_from_register (type, regnum, frame); | |
805 | } | |
806 | }; | |
8a9b8146 | 807 | |
8e3b41a9 JK |
808 | /* See dwarf2loc.h. */ |
809 | ||
ccce17b0 | 810 | unsigned int entry_values_debug = 0; |
8e3b41a9 JK |
811 | |
812 | /* Helper to set entry_values_debug. */ | |
813 | ||
814 | static void | |
815 | show_entry_values_debug (struct ui_file *file, int from_tty, | |
816 | struct cmd_list_element *c, const char *value) | |
817 | { | |
818 | fprintf_filtered (file, | |
819 | _("Entry values and tail call frames debugging is %s.\n"), | |
820 | value); | |
821 | } | |
822 | ||
216f72a1 | 823 | /* Find DW_TAG_call_site's DW_AT_call_target address. |
8e3b41a9 JK |
824 | CALLER_FRAME (for registers) can be NULL if it is not known. This function |
825 | always returns valid address or it throws NO_ENTRY_VALUE_ERROR. */ | |
826 | ||
827 | static CORE_ADDR | |
828 | call_site_to_target_addr (struct gdbarch *call_site_gdbarch, | |
829 | struct call_site *call_site, | |
830 | struct frame_info *caller_frame) | |
831 | { | |
832 | switch (FIELD_LOC_KIND (call_site->target)) | |
833 | { | |
834 | case FIELD_LOC_KIND_DWARF_BLOCK: | |
835 | { | |
836 | struct dwarf2_locexpr_baton *dwarf_block; | |
837 | struct value *val; | |
838 | struct type *caller_core_addr_type; | |
839 | struct gdbarch *caller_arch; | |
840 | ||
841 | dwarf_block = FIELD_DWARF_BLOCK (call_site->target); | |
842 | if (dwarf_block == NULL) | |
843 | { | |
7cbd4a93 | 844 | struct bound_minimal_symbol msym; |
8e3b41a9 JK |
845 | |
846 | msym = lookup_minimal_symbol_by_pc (call_site->pc - 1); | |
847 | throw_error (NO_ENTRY_VALUE_ERROR, | |
216f72a1 | 848 | _("DW_AT_call_target is not specified at %s in %s"), |
8e3b41a9 | 849 | paddress (call_site_gdbarch, call_site->pc), |
7cbd4a93 | 850 | (msym.minsym == NULL ? "???" |
c9d95fa3 | 851 | : msym.minsym->print_name ())); |
8e3b41a9 JK |
852 | |
853 | } | |
854 | if (caller_frame == NULL) | |
855 | { | |
7cbd4a93 | 856 | struct bound_minimal_symbol msym; |
8e3b41a9 JK |
857 | |
858 | msym = lookup_minimal_symbol_by_pc (call_site->pc - 1); | |
859 | throw_error (NO_ENTRY_VALUE_ERROR, | |
216f72a1 | 860 | _("DW_AT_call_target DWARF block resolving " |
8e3b41a9 JK |
861 | "requires known frame which is currently not " |
862 | "available at %s in %s"), | |
863 | paddress (call_site_gdbarch, call_site->pc), | |
7cbd4a93 | 864 | (msym.minsym == NULL ? "???" |
c9d95fa3 | 865 | : msym.minsym->print_name ())); |
8e3b41a9 JK |
866 | |
867 | } | |
868 | caller_arch = get_frame_arch (caller_frame); | |
869 | caller_core_addr_type = builtin_type (caller_arch)->builtin_func_ptr; | |
870 | val = dwarf2_evaluate_loc_desc (caller_core_addr_type, caller_frame, | |
871 | dwarf_block->data, dwarf_block->size, | |
872 | dwarf_block->per_cu); | |
216f72a1 | 873 | /* DW_AT_call_target is a DWARF expression, not a DWARF location. */ |
8e3b41a9 JK |
874 | if (VALUE_LVAL (val) == lval_memory) |
875 | return value_address (val); | |
876 | else | |
877 | return value_as_address (val); | |
878 | } | |
879 | ||
880 | case FIELD_LOC_KIND_PHYSNAME: | |
881 | { | |
882 | const char *physname; | |
3b7344d5 | 883 | struct bound_minimal_symbol msym; |
8e3b41a9 JK |
884 | |
885 | physname = FIELD_STATIC_PHYSNAME (call_site->target); | |
9112db09 JK |
886 | |
887 | /* Handle both the mangled and demangled PHYSNAME. */ | |
888 | msym = lookup_minimal_symbol (physname, NULL, NULL); | |
3b7344d5 | 889 | if (msym.minsym == NULL) |
8e3b41a9 | 890 | { |
3b7344d5 | 891 | msym = lookup_minimal_symbol_by_pc (call_site->pc - 1); |
8e3b41a9 JK |
892 | throw_error (NO_ENTRY_VALUE_ERROR, |
893 | _("Cannot find function \"%s\" for a call site target " | |
894 | "at %s in %s"), | |
895 | physname, paddress (call_site_gdbarch, call_site->pc), | |
3b7344d5 | 896 | (msym.minsym == NULL ? "???" |
c9d95fa3 | 897 | : msym.minsym->print_name ())); |
8e3b41a9 JK |
898 | |
899 | } | |
77e371c0 | 900 | return BMSYMBOL_VALUE_ADDRESS (msym); |
8e3b41a9 JK |
901 | } |
902 | ||
903 | case FIELD_LOC_KIND_PHYSADDR: | |
904 | return FIELD_STATIC_PHYSADDR (call_site->target); | |
905 | ||
906 | default: | |
907 | internal_error (__FILE__, __LINE__, _("invalid call site target kind")); | |
908 | } | |
909 | } | |
910 | ||
111c6489 JK |
911 | /* Convert function entry point exact address ADDR to the function which is |
912 | compliant with TAIL_CALL_LIST_COMPLETE condition. Throw | |
913 | NO_ENTRY_VALUE_ERROR otherwise. */ | |
914 | ||
915 | static struct symbol * | |
916 | func_addr_to_tail_call_list (struct gdbarch *gdbarch, CORE_ADDR addr) | |
917 | { | |
918 | struct symbol *sym = find_pc_function (addr); | |
919 | struct type *type; | |
920 | ||
2b1ffcfd | 921 | if (sym == NULL || BLOCK_ENTRY_PC (SYMBOL_BLOCK_VALUE (sym)) != addr) |
111c6489 | 922 | throw_error (NO_ENTRY_VALUE_ERROR, |
216f72a1 | 923 | _("DW_TAG_call_site resolving failed to find function " |
111c6489 JK |
924 | "name for address %s"), |
925 | paddress (gdbarch, addr)); | |
926 | ||
927 | type = SYMBOL_TYPE (sym); | |
78134374 | 928 | gdb_assert (type->code () == TYPE_CODE_FUNC); |
111c6489 JK |
929 | gdb_assert (TYPE_SPECIFIC_FIELD (type) == TYPE_SPECIFIC_FUNC); |
930 | ||
931 | return sym; | |
932 | } | |
933 | ||
2d6c5dc2 JK |
934 | /* Verify function with entry point exact address ADDR can never call itself |
935 | via its tail calls (incl. transitively). Throw NO_ENTRY_VALUE_ERROR if it | |
936 | can call itself via tail calls. | |
937 | ||
938 | If a funtion can tail call itself its entry value based parameters are | |
939 | unreliable. There is no verification whether the value of some/all | |
940 | parameters is unchanged through the self tail call, we expect if there is | |
941 | a self tail call all the parameters can be modified. */ | |
942 | ||
943 | static void | |
944 | func_verify_no_selftailcall (struct gdbarch *gdbarch, CORE_ADDR verify_addr) | |
945 | { | |
2d6c5dc2 JK |
946 | CORE_ADDR addr; |
947 | ||
2d6c5dc2 JK |
948 | /* The verification is completely unordered. Track here function addresses |
949 | which still need to be iterated. */ | |
fc4007c9 | 950 | std::vector<CORE_ADDR> todo; |
2d6c5dc2 | 951 | |
fc4007c9 TT |
952 | /* Track here CORE_ADDRs which were already visited. */ |
953 | std::unordered_set<CORE_ADDR> addr_hash; | |
2d6c5dc2 | 954 | |
fc4007c9 TT |
955 | todo.push_back (verify_addr); |
956 | while (!todo.empty ()) | |
2d6c5dc2 JK |
957 | { |
958 | struct symbol *func_sym; | |
959 | struct call_site *call_site; | |
960 | ||
fc4007c9 TT |
961 | addr = todo.back (); |
962 | todo.pop_back (); | |
2d6c5dc2 JK |
963 | |
964 | func_sym = func_addr_to_tail_call_list (gdbarch, addr); | |
965 | ||
966 | for (call_site = TYPE_TAIL_CALL_LIST (SYMBOL_TYPE (func_sym)); | |
967 | call_site; call_site = call_site->tail_call_next) | |
968 | { | |
969 | CORE_ADDR target_addr; | |
2d6c5dc2 JK |
970 | |
971 | /* CALLER_FRAME with registers is not available for tail-call jumped | |
972 | frames. */ | |
973 | target_addr = call_site_to_target_addr (gdbarch, call_site, NULL); | |
974 | ||
975 | if (target_addr == verify_addr) | |
976 | { | |
7cbd4a93 | 977 | struct bound_minimal_symbol msym; |
2d6c5dc2 JK |
978 | |
979 | msym = lookup_minimal_symbol_by_pc (verify_addr); | |
980 | throw_error (NO_ENTRY_VALUE_ERROR, | |
216f72a1 | 981 | _("DW_OP_entry_value resolving has found " |
2d6c5dc2 JK |
982 | "function \"%s\" at %s can call itself via tail " |
983 | "calls"), | |
7cbd4a93 | 984 | (msym.minsym == NULL ? "???" |
c9d95fa3 | 985 | : msym.minsym->print_name ()), |
2d6c5dc2 JK |
986 | paddress (gdbarch, verify_addr)); |
987 | } | |
988 | ||
fc4007c9 TT |
989 | if (addr_hash.insert (target_addr).second) |
990 | todo.push_back (target_addr); | |
2d6c5dc2 JK |
991 | } |
992 | } | |
2d6c5dc2 JK |
993 | } |
994 | ||
111c6489 JK |
995 | /* Print user readable form of CALL_SITE->PC to gdb_stdlog. Used only for |
996 | ENTRY_VALUES_DEBUG. */ | |
997 | ||
998 | static void | |
999 | tailcall_dump (struct gdbarch *gdbarch, const struct call_site *call_site) | |
1000 | { | |
1001 | CORE_ADDR addr = call_site->pc; | |
7cbd4a93 | 1002 | struct bound_minimal_symbol msym = lookup_minimal_symbol_by_pc (addr - 1); |
111c6489 JK |
1003 | |
1004 | fprintf_unfiltered (gdb_stdlog, " %s(%s)", paddress (gdbarch, addr), | |
7cbd4a93 | 1005 | (msym.minsym == NULL ? "???" |
c9d95fa3 | 1006 | : msym.minsym->print_name ())); |
111c6489 JK |
1007 | |
1008 | } | |
1009 | ||
111c6489 JK |
1010 | /* Intersect RESULTP with CHAIN to keep RESULTP unambiguous, keep in RESULTP |
1011 | only top callers and bottom callees which are present in both. GDBARCH is | |
1012 | used only for ENTRY_VALUES_DEBUG. RESULTP is NULL after return if there are | |
1013 | no remaining possibilities to provide unambiguous non-trivial result. | |
1014 | RESULTP should point to NULL on the first (initialization) call. Caller is | |
1015 | responsible for xfree of any RESULTP data. */ | |
1016 | ||
1017 | static void | |
fc4007c9 TT |
1018 | chain_candidate (struct gdbarch *gdbarch, |
1019 | gdb::unique_xmalloc_ptr<struct call_site_chain> *resultp, | |
1020 | std::vector<struct call_site *> *chain) | |
111c6489 | 1021 | { |
fc4007c9 | 1022 | long length = chain->size (); |
111c6489 JK |
1023 | int callers, callees, idx; |
1024 | ||
fc4007c9 | 1025 | if (*resultp == NULL) |
111c6489 JK |
1026 | { |
1027 | /* Create the initial chain containing all the passed PCs. */ | |
1028 | ||
fc4007c9 TT |
1029 | struct call_site_chain *result |
1030 | = ((struct call_site_chain *) | |
1031 | xmalloc (sizeof (*result) | |
1032 | + sizeof (*result->call_site) * (length - 1))); | |
111c6489 JK |
1033 | result->length = length; |
1034 | result->callers = result->callees = length; | |
fc4007c9 TT |
1035 | if (!chain->empty ()) |
1036 | memcpy (result->call_site, chain->data (), | |
19a1b230 | 1037 | sizeof (*result->call_site) * length); |
fc4007c9 | 1038 | resultp->reset (result); |
111c6489 JK |
1039 | |
1040 | if (entry_values_debug) | |
1041 | { | |
1042 | fprintf_unfiltered (gdb_stdlog, "tailcall: initial:"); | |
1043 | for (idx = 0; idx < length; idx++) | |
1044 | tailcall_dump (gdbarch, result->call_site[idx]); | |
1045 | fputc_unfiltered ('\n', gdb_stdlog); | |
1046 | } | |
1047 | ||
1048 | return; | |
1049 | } | |
1050 | ||
1051 | if (entry_values_debug) | |
1052 | { | |
1053 | fprintf_unfiltered (gdb_stdlog, "tailcall: compare:"); | |
1054 | for (idx = 0; idx < length; idx++) | |
fc4007c9 | 1055 | tailcall_dump (gdbarch, chain->at (idx)); |
111c6489 JK |
1056 | fputc_unfiltered ('\n', gdb_stdlog); |
1057 | } | |
1058 | ||
1059 | /* Intersect callers. */ | |
1060 | ||
fc4007c9 | 1061 | callers = std::min ((long) (*resultp)->callers, length); |
111c6489 | 1062 | for (idx = 0; idx < callers; idx++) |
fc4007c9 | 1063 | if ((*resultp)->call_site[idx] != chain->at (idx)) |
111c6489 | 1064 | { |
fc4007c9 | 1065 | (*resultp)->callers = idx; |
111c6489 JK |
1066 | break; |
1067 | } | |
1068 | ||
1069 | /* Intersect callees. */ | |
1070 | ||
fc4007c9 | 1071 | callees = std::min ((long) (*resultp)->callees, length); |
111c6489 | 1072 | for (idx = 0; idx < callees; idx++) |
fc4007c9 TT |
1073 | if ((*resultp)->call_site[(*resultp)->length - 1 - idx] |
1074 | != chain->at (length - 1 - idx)) | |
111c6489 | 1075 | { |
fc4007c9 | 1076 | (*resultp)->callees = idx; |
111c6489 JK |
1077 | break; |
1078 | } | |
1079 | ||
1080 | if (entry_values_debug) | |
1081 | { | |
1082 | fprintf_unfiltered (gdb_stdlog, "tailcall: reduced:"); | |
fc4007c9 TT |
1083 | for (idx = 0; idx < (*resultp)->callers; idx++) |
1084 | tailcall_dump (gdbarch, (*resultp)->call_site[idx]); | |
111c6489 | 1085 | fputs_unfiltered (" |", gdb_stdlog); |
fc4007c9 TT |
1086 | for (idx = 0; idx < (*resultp)->callees; idx++) |
1087 | tailcall_dump (gdbarch, | |
1088 | (*resultp)->call_site[(*resultp)->length | |
1089 | - (*resultp)->callees + idx]); | |
111c6489 JK |
1090 | fputc_unfiltered ('\n', gdb_stdlog); |
1091 | } | |
1092 | ||
fc4007c9 | 1093 | if ((*resultp)->callers == 0 && (*resultp)->callees == 0) |
111c6489 JK |
1094 | { |
1095 | /* There are no common callers or callees. It could be also a direct | |
1096 | call (which has length 0) with ambiguous possibility of an indirect | |
1097 | call - CALLERS == CALLEES == 0 is valid during the first allocation | |
1098 | but any subsequence processing of such entry means ambiguity. */ | |
fc4007c9 | 1099 | resultp->reset (NULL); |
111c6489 JK |
1100 | return; |
1101 | } | |
1102 | ||
1103 | /* See call_site_find_chain_1 why there is no way to reach the bottom callee | |
1104 | PC again. In such case there must be two different code paths to reach | |
e0619de6 | 1105 | it. CALLERS + CALLEES equal to LENGTH in the case of self tail-call. */ |
fc4007c9 | 1106 | gdb_assert ((*resultp)->callers + (*resultp)->callees <= (*resultp)->length); |
111c6489 JK |
1107 | } |
1108 | ||
1109 | /* Create and return call_site_chain for CALLER_PC and CALLEE_PC. All the | |
1110 | assumed frames between them use GDBARCH. Use depth first search so we can | |
1111 | keep single CHAIN of call_site's back to CALLER_PC. Function recursion | |
8084e579 TT |
1112 | would have needless GDB stack overhead. Any unreliability results |
1113 | in thrown NO_ENTRY_VALUE_ERROR. */ | |
111c6489 | 1114 | |
8084e579 | 1115 | static gdb::unique_xmalloc_ptr<call_site_chain> |
111c6489 JK |
1116 | call_site_find_chain_1 (struct gdbarch *gdbarch, CORE_ADDR caller_pc, |
1117 | CORE_ADDR callee_pc) | |
1118 | { | |
c4be5165 | 1119 | CORE_ADDR save_callee_pc = callee_pc; |
fc4007c9 | 1120 | gdb::unique_xmalloc_ptr<struct call_site_chain> retval; |
111c6489 JK |
1121 | struct call_site *call_site; |
1122 | ||
111c6489 JK |
1123 | /* CHAIN contains only the intermediate CALL_SITEs. Neither CALLER_PC's |
1124 | call_site nor any possible call_site at CALLEE_PC's function is there. | |
1125 | Any CALL_SITE in CHAIN will be iterated to its siblings - via | |
1126 | TAIL_CALL_NEXT. This is inappropriate for CALLER_PC's call_site. */ | |
fc4007c9 | 1127 | std::vector<struct call_site *> chain; |
111c6489 JK |
1128 | |
1129 | /* We are not interested in the specific PC inside the callee function. */ | |
1130 | callee_pc = get_pc_function_start (callee_pc); | |
1131 | if (callee_pc == 0) | |
1132 | throw_error (NO_ENTRY_VALUE_ERROR, _("Unable to find function for PC %s"), | |
c4be5165 | 1133 | paddress (gdbarch, save_callee_pc)); |
111c6489 | 1134 | |
fc4007c9 TT |
1135 | /* Mark CALL_SITEs so we do not visit the same ones twice. */ |
1136 | std::unordered_set<CORE_ADDR> addr_hash; | |
111c6489 JK |
1137 | |
1138 | /* Do not push CALL_SITE to CHAIN. Push there only the first tail call site | |
1139 | at the target's function. All the possible tail call sites in the | |
1140 | target's function will get iterated as already pushed into CHAIN via their | |
1141 | TAIL_CALL_NEXT. */ | |
1142 | call_site = call_site_for_pc (gdbarch, caller_pc); | |
1143 | ||
1144 | while (call_site) | |
1145 | { | |
1146 | CORE_ADDR target_func_addr; | |
1147 | struct call_site *target_call_site; | |
1148 | ||
1149 | /* CALLER_FRAME with registers is not available for tail-call jumped | |
1150 | frames. */ | |
1151 | target_func_addr = call_site_to_target_addr (gdbarch, call_site, NULL); | |
1152 | ||
1153 | if (target_func_addr == callee_pc) | |
1154 | { | |
fc4007c9 | 1155 | chain_candidate (gdbarch, &retval, &chain); |
111c6489 JK |
1156 | if (retval == NULL) |
1157 | break; | |
1158 | ||
1159 | /* There is no way to reach CALLEE_PC again as we would prevent | |
1160 | entering it twice as being already marked in ADDR_HASH. */ | |
1161 | target_call_site = NULL; | |
1162 | } | |
1163 | else | |
1164 | { | |
1165 | struct symbol *target_func; | |
1166 | ||
1167 | target_func = func_addr_to_tail_call_list (gdbarch, target_func_addr); | |
1168 | target_call_site = TYPE_TAIL_CALL_LIST (SYMBOL_TYPE (target_func)); | |
1169 | } | |
1170 | ||
1171 | do | |
1172 | { | |
1173 | /* Attempt to visit TARGET_CALL_SITE. */ | |
1174 | ||
1175 | if (target_call_site) | |
1176 | { | |
fc4007c9 | 1177 | if (addr_hash.insert (target_call_site->pc).second) |
111c6489 JK |
1178 | { |
1179 | /* Successfully entered TARGET_CALL_SITE. */ | |
1180 | ||
fc4007c9 | 1181 | chain.push_back (target_call_site); |
111c6489 JK |
1182 | break; |
1183 | } | |
1184 | } | |
1185 | ||
1186 | /* Backtrack (without revisiting the originating call_site). Try the | |
1187 | callers's sibling; if there isn't any try the callers's callers's | |
1188 | sibling etc. */ | |
1189 | ||
1190 | target_call_site = NULL; | |
fc4007c9 | 1191 | while (!chain.empty ()) |
111c6489 | 1192 | { |
fc4007c9 TT |
1193 | call_site = chain.back (); |
1194 | chain.pop_back (); | |
111c6489 | 1195 | |
fc4007c9 TT |
1196 | size_t removed = addr_hash.erase (call_site->pc); |
1197 | gdb_assert (removed == 1); | |
111c6489 JK |
1198 | |
1199 | target_call_site = call_site->tail_call_next; | |
1200 | if (target_call_site) | |
1201 | break; | |
1202 | } | |
1203 | } | |
1204 | while (target_call_site); | |
1205 | ||
fc4007c9 | 1206 | if (chain.empty ()) |
111c6489 JK |
1207 | call_site = NULL; |
1208 | else | |
fc4007c9 | 1209 | call_site = chain.back (); |
111c6489 JK |
1210 | } |
1211 | ||
1212 | if (retval == NULL) | |
1213 | { | |
7cbd4a93 | 1214 | struct bound_minimal_symbol msym_caller, msym_callee; |
111c6489 JK |
1215 | |
1216 | msym_caller = lookup_minimal_symbol_by_pc (caller_pc); | |
1217 | msym_callee = lookup_minimal_symbol_by_pc (callee_pc); | |
1218 | throw_error (NO_ENTRY_VALUE_ERROR, | |
1219 | _("There are no unambiguously determinable intermediate " | |
1220 | "callers or callees between caller function \"%s\" at %s " | |
1221 | "and callee function \"%s\" at %s"), | |
7cbd4a93 | 1222 | (msym_caller.minsym == NULL |
c9d95fa3 | 1223 | ? "???" : msym_caller.minsym->print_name ()), |
111c6489 | 1224 | paddress (gdbarch, caller_pc), |
7cbd4a93 | 1225 | (msym_callee.minsym == NULL |
c9d95fa3 | 1226 | ? "???" : msym_callee.minsym->print_name ()), |
111c6489 JK |
1227 | paddress (gdbarch, callee_pc)); |
1228 | } | |
1229 | ||
8084e579 | 1230 | return retval; |
111c6489 JK |
1231 | } |
1232 | ||
1233 | /* Create and return call_site_chain for CALLER_PC and CALLEE_PC. All the | |
1234 | assumed frames between them use GDBARCH. If valid call_site_chain cannot be | |
8084e579 | 1235 | constructed return NULL. */ |
111c6489 | 1236 | |
8084e579 | 1237 | gdb::unique_xmalloc_ptr<call_site_chain> |
111c6489 JK |
1238 | call_site_find_chain (struct gdbarch *gdbarch, CORE_ADDR caller_pc, |
1239 | CORE_ADDR callee_pc) | |
1240 | { | |
8084e579 | 1241 | gdb::unique_xmalloc_ptr<call_site_chain> retval; |
111c6489 | 1242 | |
a70b8144 | 1243 | try |
111c6489 JK |
1244 | { |
1245 | retval = call_site_find_chain_1 (gdbarch, caller_pc, callee_pc); | |
1246 | } | |
230d2906 | 1247 | catch (const gdb_exception_error &e) |
111c6489 JK |
1248 | { |
1249 | if (e.error == NO_ENTRY_VALUE_ERROR) | |
1250 | { | |
1251 | if (entry_values_debug) | |
1252 | exception_print (gdb_stdout, e); | |
1253 | ||
1254 | return NULL; | |
1255 | } | |
1256 | else | |
eedc3f4f | 1257 | throw; |
111c6489 | 1258 | } |
492d29ea | 1259 | |
111c6489 JK |
1260 | return retval; |
1261 | } | |
1262 | ||
24c5c679 JK |
1263 | /* Return 1 if KIND and KIND_U match PARAMETER. Return 0 otherwise. */ |
1264 | ||
1265 | static int | |
1266 | call_site_parameter_matches (struct call_site_parameter *parameter, | |
1267 | enum call_site_parameter_kind kind, | |
1268 | union call_site_parameter_u kind_u) | |
1269 | { | |
1270 | if (kind == parameter->kind) | |
1271 | switch (kind) | |
1272 | { | |
1273 | case CALL_SITE_PARAMETER_DWARF_REG: | |
1274 | return kind_u.dwarf_reg == parameter->u.dwarf_reg; | |
1275 | case CALL_SITE_PARAMETER_FB_OFFSET: | |
1276 | return kind_u.fb_offset == parameter->u.fb_offset; | |
1788b2d3 | 1277 | case CALL_SITE_PARAMETER_PARAM_OFFSET: |
9c541725 | 1278 | return kind_u.param_cu_off == parameter->u.param_cu_off; |
24c5c679 JK |
1279 | } |
1280 | return 0; | |
1281 | } | |
1282 | ||
1283 | /* Fetch call_site_parameter from caller matching KIND and KIND_U. | |
1284 | FRAME is for callee. | |
8e3b41a9 JK |
1285 | |
1286 | Function always returns non-NULL, it throws NO_ENTRY_VALUE_ERROR | |
1287 | otherwise. */ | |
1288 | ||
1289 | static struct call_site_parameter * | |
24c5c679 JK |
1290 | dwarf_expr_reg_to_entry_parameter (struct frame_info *frame, |
1291 | enum call_site_parameter_kind kind, | |
1292 | union call_site_parameter_u kind_u, | |
8e3b41a9 JK |
1293 | struct dwarf2_per_cu_data **per_cu_return) |
1294 | { | |
9e3a7d65 JK |
1295 | CORE_ADDR func_addr, caller_pc; |
1296 | struct gdbarch *gdbarch; | |
1297 | struct frame_info *caller_frame; | |
8e3b41a9 JK |
1298 | struct call_site *call_site; |
1299 | int iparams; | |
509f0fd9 JK |
1300 | /* Initialize it just to avoid a GCC false warning. */ |
1301 | struct call_site_parameter *parameter = NULL; | |
8e3b41a9 JK |
1302 | CORE_ADDR target_addr; |
1303 | ||
9e3a7d65 JK |
1304 | while (get_frame_type (frame) == INLINE_FRAME) |
1305 | { | |
1306 | frame = get_prev_frame (frame); | |
1307 | gdb_assert (frame != NULL); | |
1308 | } | |
1309 | ||
1310 | func_addr = get_frame_func (frame); | |
1311 | gdbarch = get_frame_arch (frame); | |
1312 | caller_frame = get_prev_frame (frame); | |
8e3b41a9 JK |
1313 | if (gdbarch != frame_unwind_arch (frame)) |
1314 | { | |
7cbd4a93 TT |
1315 | struct bound_minimal_symbol msym |
1316 | = lookup_minimal_symbol_by_pc (func_addr); | |
8e3b41a9 JK |
1317 | struct gdbarch *caller_gdbarch = frame_unwind_arch (frame); |
1318 | ||
1319 | throw_error (NO_ENTRY_VALUE_ERROR, | |
216f72a1 | 1320 | _("DW_OP_entry_value resolving callee gdbarch %s " |
8e3b41a9 JK |
1321 | "(of %s (%s)) does not match caller gdbarch %s"), |
1322 | gdbarch_bfd_arch_info (gdbarch)->printable_name, | |
1323 | paddress (gdbarch, func_addr), | |
7cbd4a93 | 1324 | (msym.minsym == NULL ? "???" |
c9d95fa3 | 1325 | : msym.minsym->print_name ()), |
8e3b41a9 JK |
1326 | gdbarch_bfd_arch_info (caller_gdbarch)->printable_name); |
1327 | } | |
1328 | ||
1329 | if (caller_frame == NULL) | |
1330 | { | |
7cbd4a93 TT |
1331 | struct bound_minimal_symbol msym |
1332 | = lookup_minimal_symbol_by_pc (func_addr); | |
8e3b41a9 | 1333 | |
216f72a1 | 1334 | throw_error (NO_ENTRY_VALUE_ERROR, _("DW_OP_entry_value resolving " |
8e3b41a9 JK |
1335 | "requires caller of %s (%s)"), |
1336 | paddress (gdbarch, func_addr), | |
7cbd4a93 | 1337 | (msym.minsym == NULL ? "???" |
c9d95fa3 | 1338 | : msym.minsym->print_name ())); |
8e3b41a9 JK |
1339 | } |
1340 | caller_pc = get_frame_pc (caller_frame); | |
1341 | call_site = call_site_for_pc (gdbarch, caller_pc); | |
1342 | ||
1343 | target_addr = call_site_to_target_addr (gdbarch, call_site, caller_frame); | |
1344 | if (target_addr != func_addr) | |
1345 | { | |
1346 | struct minimal_symbol *target_msym, *func_msym; | |
1347 | ||
7cbd4a93 TT |
1348 | target_msym = lookup_minimal_symbol_by_pc (target_addr).minsym; |
1349 | func_msym = lookup_minimal_symbol_by_pc (func_addr).minsym; | |
8e3b41a9 | 1350 | throw_error (NO_ENTRY_VALUE_ERROR, |
216f72a1 | 1351 | _("DW_OP_entry_value resolving expects callee %s at %s " |
8e3b41a9 JK |
1352 | "but the called frame is for %s at %s"), |
1353 | (target_msym == NULL ? "???" | |
c9d95fa3 | 1354 | : target_msym->print_name ()), |
8e3b41a9 | 1355 | paddress (gdbarch, target_addr), |
c9d95fa3 | 1356 | func_msym == NULL ? "???" : func_msym->print_name (), |
8e3b41a9 JK |
1357 | paddress (gdbarch, func_addr)); |
1358 | } | |
1359 | ||
2d6c5dc2 JK |
1360 | /* No entry value based parameters would be reliable if this function can |
1361 | call itself via tail calls. */ | |
1362 | func_verify_no_selftailcall (gdbarch, func_addr); | |
1363 | ||
8e3b41a9 JK |
1364 | for (iparams = 0; iparams < call_site->parameter_count; iparams++) |
1365 | { | |
1366 | parameter = &call_site->parameter[iparams]; | |
24c5c679 | 1367 | if (call_site_parameter_matches (parameter, kind, kind_u)) |
8e3b41a9 JK |
1368 | break; |
1369 | } | |
1370 | if (iparams == call_site->parameter_count) | |
1371 | { | |
7cbd4a93 TT |
1372 | struct minimal_symbol *msym |
1373 | = lookup_minimal_symbol_by_pc (caller_pc).minsym; | |
8e3b41a9 | 1374 | |
216f72a1 | 1375 | /* DW_TAG_call_site_parameter will be missing just if GCC could not |
8e3b41a9 JK |
1376 | determine its value. */ |
1377 | throw_error (NO_ENTRY_VALUE_ERROR, _("Cannot find matching parameter " | |
216f72a1 | 1378 | "at DW_TAG_call_site %s at %s"), |
8e3b41a9 | 1379 | paddress (gdbarch, caller_pc), |
c9d95fa3 | 1380 | msym == NULL ? "???" : msym->print_name ()); |
8e3b41a9 JK |
1381 | } |
1382 | ||
1383 | *per_cu_return = call_site->per_cu; | |
1384 | return parameter; | |
1385 | } | |
1386 | ||
a471c594 | 1387 | /* Return value for PARAMETER matching DEREF_SIZE. If DEREF_SIZE is -1, return |
216f72a1 JK |
1388 | the normal DW_AT_call_value block. Otherwise return the |
1389 | DW_AT_call_data_value (dereferenced) block. | |
e18b2753 JK |
1390 | |
1391 | TYPE and CALLER_FRAME specify how to evaluate the DWARF block into returned | |
1392 | struct value. | |
1393 | ||
1394 | Function always returns non-NULL, non-optimized out value. It throws | |
1395 | NO_ENTRY_VALUE_ERROR if it cannot resolve the value for any reason. */ | |
1396 | ||
1397 | static struct value * | |
1398 | dwarf_entry_parameter_to_value (struct call_site_parameter *parameter, | |
a471c594 | 1399 | CORE_ADDR deref_size, struct type *type, |
e18b2753 JK |
1400 | struct frame_info *caller_frame, |
1401 | struct dwarf2_per_cu_data *per_cu) | |
1402 | { | |
a471c594 | 1403 | const gdb_byte *data_src; |
e18b2753 | 1404 | gdb_byte *data; |
a471c594 JK |
1405 | size_t size; |
1406 | ||
1407 | data_src = deref_size == -1 ? parameter->value : parameter->data_value; | |
1408 | size = deref_size == -1 ? parameter->value_size : parameter->data_value_size; | |
1409 | ||
1410 | /* DEREF_SIZE size is not verified here. */ | |
1411 | if (data_src == NULL) | |
1412 | throw_error (NO_ENTRY_VALUE_ERROR, | |
216f72a1 | 1413 | _("Cannot resolve DW_AT_call_data_value")); |
e18b2753 | 1414 | |
216f72a1 | 1415 | /* DW_AT_call_value is a DWARF expression, not a DWARF |
e18b2753 JK |
1416 | location. Postprocessing of DWARF_VALUE_MEMORY would lose the type from |
1417 | DWARF block. */ | |
224c3ddb | 1418 | data = (gdb_byte *) alloca (size + 1); |
a471c594 JK |
1419 | memcpy (data, data_src, size); |
1420 | data[size] = DW_OP_stack_value; | |
e18b2753 | 1421 | |
a471c594 | 1422 | return dwarf2_evaluate_loc_desc (type, caller_frame, data, size + 1, per_cu); |
e18b2753 JK |
1423 | } |
1424 | ||
a471c594 JK |
1425 | /* VALUE must be of type lval_computed with entry_data_value_funcs. Perform |
1426 | the indirect method on it, that is use its stored target value, the sole | |
1427 | purpose of entry_data_value_funcs.. */ | |
1428 | ||
1429 | static struct value * | |
1430 | entry_data_value_coerce_ref (const struct value *value) | |
1431 | { | |
1432 | struct type *checked_type = check_typedef (value_type (value)); | |
1433 | struct value *target_val; | |
1434 | ||
aa006118 | 1435 | if (!TYPE_IS_REFERENCE (checked_type)) |
a471c594 JK |
1436 | return NULL; |
1437 | ||
9a3c8263 | 1438 | target_val = (struct value *) value_computed_closure (value); |
a471c594 JK |
1439 | value_incref (target_val); |
1440 | return target_val; | |
1441 | } | |
1442 | ||
1443 | /* Implement copy_closure. */ | |
1444 | ||
1445 | static void * | |
1446 | entry_data_value_copy_closure (const struct value *v) | |
1447 | { | |
9a3c8263 | 1448 | struct value *target_val = (struct value *) value_computed_closure (v); |
a471c594 JK |
1449 | |
1450 | value_incref (target_val); | |
1451 | return target_val; | |
1452 | } | |
1453 | ||
1454 | /* Implement free_closure. */ | |
1455 | ||
1456 | static void | |
1457 | entry_data_value_free_closure (struct value *v) | |
1458 | { | |
9a3c8263 | 1459 | struct value *target_val = (struct value *) value_computed_closure (v); |
a471c594 | 1460 | |
22bc8444 | 1461 | value_decref (target_val); |
a471c594 JK |
1462 | } |
1463 | ||
1464 | /* Vector for methods for an entry value reference where the referenced value | |
1465 | is stored in the caller. On the first dereference use | |
216f72a1 | 1466 | DW_AT_call_data_value in the caller. */ |
a471c594 JK |
1467 | |
1468 | static const struct lval_funcs entry_data_value_funcs = | |
1469 | { | |
1470 | NULL, /* read */ | |
1471 | NULL, /* write */ | |
a471c594 JK |
1472 | NULL, /* indirect */ |
1473 | entry_data_value_coerce_ref, | |
1474 | NULL, /* check_synthetic_pointer */ | |
1475 | entry_data_value_copy_closure, | |
1476 | entry_data_value_free_closure | |
1477 | }; | |
1478 | ||
24c5c679 JK |
1479 | /* Read parameter of TYPE at (callee) FRAME's function entry. KIND and KIND_U |
1480 | are used to match DW_AT_location at the caller's | |
216f72a1 | 1481 | DW_TAG_call_site_parameter. |
e18b2753 JK |
1482 | |
1483 | Function always returns non-NULL value. It throws NO_ENTRY_VALUE_ERROR if it | |
1484 | cannot resolve the parameter for any reason. */ | |
1485 | ||
1486 | static struct value * | |
1487 | value_of_dwarf_reg_entry (struct type *type, struct frame_info *frame, | |
24c5c679 JK |
1488 | enum call_site_parameter_kind kind, |
1489 | union call_site_parameter_u kind_u) | |
e18b2753 | 1490 | { |
a471c594 JK |
1491 | struct type *checked_type = check_typedef (type); |
1492 | struct type *target_type = TYPE_TARGET_TYPE (checked_type); | |
e18b2753 | 1493 | struct frame_info *caller_frame = get_prev_frame (frame); |
a471c594 | 1494 | struct value *outer_val, *target_val, *val; |
e18b2753 JK |
1495 | struct call_site_parameter *parameter; |
1496 | struct dwarf2_per_cu_data *caller_per_cu; | |
1497 | ||
24c5c679 | 1498 | parameter = dwarf_expr_reg_to_entry_parameter (frame, kind, kind_u, |
e18b2753 JK |
1499 | &caller_per_cu); |
1500 | ||
a471c594 JK |
1501 | outer_val = dwarf_entry_parameter_to_value (parameter, -1 /* deref_size */, |
1502 | type, caller_frame, | |
1503 | caller_per_cu); | |
1504 | ||
216f72a1 | 1505 | /* Check if DW_AT_call_data_value cannot be used. If it should be |
a471c594 JK |
1506 | used and it is not available do not fall back to OUTER_VAL - dereferencing |
1507 | TYPE_CODE_REF with non-entry data value would give current value - not the | |
1508 | entry value. */ | |
1509 | ||
aa006118 | 1510 | if (!TYPE_IS_REFERENCE (checked_type) |
a471c594 JK |
1511 | || TYPE_TARGET_TYPE (checked_type) == NULL) |
1512 | return outer_val; | |
1513 | ||
1514 | target_val = dwarf_entry_parameter_to_value (parameter, | |
1515 | TYPE_LENGTH (target_type), | |
1516 | target_type, caller_frame, | |
1517 | caller_per_cu); | |
1518 | ||
a471c594 | 1519 | val = allocate_computed_value (type, &entry_data_value_funcs, |
895dafa6 | 1520 | release_value (target_val).release ()); |
a471c594 JK |
1521 | |
1522 | /* Copy the referencing pointer to the new computed value. */ | |
1523 | memcpy (value_contents_raw (val), value_contents_raw (outer_val), | |
1524 | TYPE_LENGTH (checked_type)); | |
1525 | set_value_lazy (val, 0); | |
1526 | ||
1527 | return val; | |
e18b2753 JK |
1528 | } |
1529 | ||
1530 | /* Read parameter of TYPE at (callee) FRAME's function entry. DATA and | |
1531 | SIZE are DWARF block used to match DW_AT_location at the caller's | |
216f72a1 | 1532 | DW_TAG_call_site_parameter. |
e18b2753 JK |
1533 | |
1534 | Function always returns non-NULL value. It throws NO_ENTRY_VALUE_ERROR if it | |
1535 | cannot resolve the parameter for any reason. */ | |
1536 | ||
1537 | static struct value * | |
1538 | value_of_dwarf_block_entry (struct type *type, struct frame_info *frame, | |
1539 | const gdb_byte *block, size_t block_len) | |
1540 | { | |
24c5c679 | 1541 | union call_site_parameter_u kind_u; |
e18b2753 | 1542 | |
24c5c679 JK |
1543 | kind_u.dwarf_reg = dwarf_block_to_dwarf_reg (block, block + block_len); |
1544 | if (kind_u.dwarf_reg != -1) | |
1545 | return value_of_dwarf_reg_entry (type, frame, CALL_SITE_PARAMETER_DWARF_REG, | |
1546 | kind_u); | |
e18b2753 | 1547 | |
24c5c679 JK |
1548 | if (dwarf_block_to_fb_offset (block, block + block_len, &kind_u.fb_offset)) |
1549 | return value_of_dwarf_reg_entry (type, frame, CALL_SITE_PARAMETER_FB_OFFSET, | |
1550 | kind_u); | |
e18b2753 JK |
1551 | |
1552 | /* This can normally happen - throw NO_ENTRY_VALUE_ERROR to get the message | |
1553 | suppressed during normal operation. The expression can be arbitrary if | |
1554 | there is no caller-callee entry value binding expected. */ | |
1555 | throw_error (NO_ENTRY_VALUE_ERROR, | |
216f72a1 | 1556 | _("DWARF-2 expression error: DW_OP_entry_value is supported " |
e18b2753 JK |
1557 | "only for single DW_OP_reg* or for DW_OP_fbreg(*)")); |
1558 | } | |
1559 | ||
052b9502 NF |
1560 | struct piece_closure |
1561 | { | |
88bfdde4 | 1562 | /* Reference count. */ |
1e467161 | 1563 | int refc = 0; |
88bfdde4 | 1564 | |
a50264ba TT |
1565 | /* The objfile from which this closure's expression came. */ |
1566 | dwarf2_per_objfile *per_objfile = nullptr; | |
1567 | ||
8cf6f0b1 | 1568 | /* The CU from which this closure's expression came. */ |
1e467161 | 1569 | struct dwarf2_per_cu_data *per_cu = NULL; |
052b9502 | 1570 | |
1e467161 SM |
1571 | /* The pieces describing this variable. */ |
1572 | std::vector<dwarf_expr_piece> pieces; | |
ee40d8d4 YQ |
1573 | |
1574 | /* Frame ID of frame to which a register value is relative, used | |
1575 | only by DWARF_VALUE_REGISTER. */ | |
1576 | struct frame_id frame_id; | |
052b9502 NF |
1577 | }; |
1578 | ||
1579 | /* Allocate a closure for a value formed from separately-described | |
1580 | PIECES. */ | |
1581 | ||
1582 | static struct piece_closure * | |
3c3cd3d4 SM |
1583 | allocate_piece_closure (dwarf2_per_cu_data *per_cu, |
1584 | dwarf2_per_objfile *per_objfile, | |
1e467161 | 1585 | std::vector<dwarf_expr_piece> &&pieces, |
ddd7882a | 1586 | struct frame_info *frame) |
052b9502 | 1587 | { |
1e467161 | 1588 | struct piece_closure *c = new piece_closure; |
052b9502 | 1589 | |
88bfdde4 | 1590 | c->refc = 1; |
a50264ba | 1591 | /* We must capture this here due to sharing of DWARF state. */ |
3c3cd3d4 | 1592 | c->per_objfile = per_objfile; |
8cf6f0b1 | 1593 | c->per_cu = per_cu; |
1e467161 | 1594 | c->pieces = std::move (pieces); |
ee40d8d4 YQ |
1595 | if (frame == NULL) |
1596 | c->frame_id = null_frame_id; | |
1597 | else | |
1598 | c->frame_id = get_frame_id (frame); | |
052b9502 | 1599 | |
1e467161 SM |
1600 | for (dwarf_expr_piece &piece : c->pieces) |
1601 | if (piece.location == DWARF_VALUE_STACK) | |
1602 | value_incref (piece.v.value); | |
052b9502 NF |
1603 | |
1604 | return c; | |
1605 | } | |
1606 | ||
03c8af18 AA |
1607 | /* Return the number of bytes overlapping a contiguous chunk of N_BITS |
1608 | bits whose first bit is located at bit offset START. */ | |
1609 | ||
1610 | static size_t | |
1611 | bits_to_bytes (ULONGEST start, ULONGEST n_bits) | |
1612 | { | |
1613 | return (start % 8 + n_bits + 7) / 8; | |
1614 | } | |
1615 | ||
55acdf22 AA |
1616 | /* Read or write a pieced value V. If FROM != NULL, operate in "write |
1617 | mode": copy FROM into the pieces comprising V. If FROM == NULL, | |
1618 | operate in "read mode": fetch the contents of the (lazy) value V by | |
1619 | composing it from its pieces. */ | |
1620 | ||
052b9502 | 1621 | static void |
55acdf22 | 1622 | rw_pieced_value (struct value *v, struct value *from) |
052b9502 NF |
1623 | { |
1624 | int i; | |
359b19bb | 1625 | LONGEST offset = 0, max_offset; |
d3b1e874 | 1626 | ULONGEST bits_to_skip; |
55acdf22 AA |
1627 | gdb_byte *v_contents; |
1628 | const gdb_byte *from_contents; | |
3e43a32a MS |
1629 | struct piece_closure *c |
1630 | = (struct piece_closure *) value_computed_closure (v); | |
d5722aa2 | 1631 | gdb::byte_vector buffer; |
d5a22e77 | 1632 | bool bits_big_endian = type_byte_order (value_type (v)) == BFD_ENDIAN_BIG; |
afd74c5f | 1633 | |
55acdf22 AA |
1634 | if (from != NULL) |
1635 | { | |
1636 | from_contents = value_contents (from); | |
1637 | v_contents = NULL; | |
1638 | } | |
1639 | else | |
1640 | { | |
1641 | if (value_type (v) != value_enclosing_type (v)) | |
1642 | internal_error (__FILE__, __LINE__, | |
1643 | _("Should not be able to create a lazy value with " | |
1644 | "an enclosing type")); | |
1645 | v_contents = value_contents_raw (v); | |
1646 | from_contents = NULL; | |
1647 | } | |
052b9502 | 1648 | |
d3b1e874 | 1649 | bits_to_skip = 8 * value_offset (v); |
0e03807e TT |
1650 | if (value_bitsize (v)) |
1651 | { | |
af547a96 AA |
1652 | bits_to_skip += (8 * value_offset (value_parent (v)) |
1653 | + value_bitpos (v)); | |
55acdf22 | 1654 | if (from != NULL |
34877895 | 1655 | && (type_byte_order (value_type (from)) |
55acdf22 AA |
1656 | == BFD_ENDIAN_BIG)) |
1657 | { | |
1658 | /* Use the least significant bits of FROM. */ | |
1659 | max_offset = 8 * TYPE_LENGTH (value_type (from)); | |
1660 | offset = max_offset - value_bitsize (v); | |
1661 | } | |
1662 | else | |
1663 | max_offset = value_bitsize (v); | |
0e03807e TT |
1664 | } |
1665 | else | |
359b19bb | 1666 | max_offset = 8 * TYPE_LENGTH (value_type (v)); |
d3b1e874 | 1667 | |
f236533e | 1668 | /* Advance to the first non-skipped piece. */ |
1e467161 | 1669 | for (i = 0; i < c->pieces.size () && bits_to_skip >= c->pieces[i].size; i++) |
f236533e AA |
1670 | bits_to_skip -= c->pieces[i].size; |
1671 | ||
1e467161 | 1672 | for (; i < c->pieces.size () && offset < max_offset; i++) |
052b9502 NF |
1673 | { |
1674 | struct dwarf_expr_piece *p = &c->pieces[i]; | |
55acdf22 | 1675 | size_t this_size_bits, this_size; |
359b19bb | 1676 | |
f236533e | 1677 | this_size_bits = p->size - bits_to_skip; |
359b19bb AA |
1678 | if (this_size_bits > max_offset - offset) |
1679 | this_size_bits = max_offset - offset; | |
9a619af0 | 1680 | |
cec03d70 | 1681 | switch (p->location) |
052b9502 | 1682 | { |
cec03d70 TT |
1683 | case DWARF_VALUE_REGISTER: |
1684 | { | |
ee40d8d4 | 1685 | struct frame_info *frame = frame_find_by_id (c->frame_id); |
cec03d70 | 1686 | struct gdbarch *arch = get_frame_arch (frame); |
0fde2c53 | 1687 | int gdb_regnum = dwarf_reg_to_regnum_or_error (arch, p->v.regno); |
03c8af18 | 1688 | ULONGEST reg_bits = 8 * register_size (arch, gdb_regnum); |
0fde2c53 | 1689 | int optim, unavail; |
dcbf108f | 1690 | |
0fde2c53 | 1691 | if (gdbarch_byte_order (arch) == BFD_ENDIAN_BIG |
65d84b76 | 1692 | && p->offset + p->size < reg_bits) |
63b4f126 | 1693 | { |
0fde2c53 | 1694 | /* Big-endian, and we want less than full size. */ |
f236533e | 1695 | bits_to_skip += reg_bits - (p->offset + p->size); |
63b4f126 | 1696 | } |
65d84b76 | 1697 | else |
f236533e | 1698 | bits_to_skip += p->offset; |
65d84b76 | 1699 | |
f236533e | 1700 | this_size = bits_to_bytes (bits_to_skip, this_size_bits); |
d5722aa2 | 1701 | buffer.resize (this_size); |
0fde2c53 | 1702 | |
55acdf22 | 1703 | if (from == NULL) |
63b4f126 | 1704 | { |
55acdf22 AA |
1705 | /* Read mode. */ |
1706 | if (!get_frame_register_bytes (frame, gdb_regnum, | |
1707 | bits_to_skip / 8, | |
1708 | this_size, buffer.data (), | |
1709 | &optim, &unavail)) | |
1710 | { | |
1711 | if (optim) | |
1712 | mark_value_bits_optimized_out (v, offset, | |
1713 | this_size_bits); | |
1714 | if (unavail) | |
1715 | mark_value_bits_unavailable (v, offset, | |
1716 | this_size_bits); | |
1717 | break; | |
1718 | } | |
1719 | ||
1720 | copy_bitwise (v_contents, offset, | |
1721 | buffer.data (), bits_to_skip % 8, | |
1722 | this_size_bits, bits_big_endian); | |
1723 | } | |
1724 | else | |
1725 | { | |
1726 | /* Write mode. */ | |
1727 | if (bits_to_skip % 8 != 0 || this_size_bits % 8 != 0) | |
1728 | { | |
1729 | /* Data is copied non-byte-aligned into the register. | |
1730 | Need some bits from original register value. */ | |
1731 | get_frame_register_bytes (frame, gdb_regnum, | |
1732 | bits_to_skip / 8, | |
1733 | this_size, buffer.data (), | |
1734 | &optim, &unavail); | |
1735 | if (optim) | |
1736 | throw_error (OPTIMIZED_OUT_ERROR, | |
1737 | _("Can't do read-modify-write to " | |
1738 | "update bitfield; containing word " | |
1739 | "has been optimized out")); | |
1740 | if (unavail) | |
1741 | throw_error (NOT_AVAILABLE_ERROR, | |
1742 | _("Can't do read-modify-write to " | |
1743 | "update bitfield; containing word " | |
1744 | "is unavailable")); | |
1745 | } | |
1746 | ||
1747 | copy_bitwise (buffer.data (), bits_to_skip % 8, | |
1748 | from_contents, offset, | |
1749 | this_size_bits, bits_big_endian); | |
1750 | put_frame_register_bytes (frame, gdb_regnum, | |
1751 | bits_to_skip / 8, | |
1752 | this_size, buffer.data ()); | |
63b4f126 | 1753 | } |
cec03d70 TT |
1754 | } |
1755 | break; | |
1756 | ||
1757 | case DWARF_VALUE_MEMORY: | |
55acdf22 AA |
1758 | { |
1759 | bits_to_skip += p->offset; | |
1760 | ||
1761 | CORE_ADDR start_addr = p->v.mem.addr + bits_to_skip / 8; | |
1762 | ||
1763 | if (bits_to_skip % 8 == 0 && this_size_bits % 8 == 0 | |
1764 | && offset % 8 == 0) | |
1765 | { | |
1766 | /* Everything is byte-aligned; no buffer needed. */ | |
1767 | if (from != NULL) | |
1768 | write_memory_with_notification (start_addr, | |
1769 | (from_contents | |
1770 | + offset / 8), | |
1771 | this_size_bits / 8); | |
1772 | else | |
1773 | read_value_memory (v, offset, | |
1774 | p->v.mem.in_stack_memory, | |
1775 | p->v.mem.addr + bits_to_skip / 8, | |
1776 | v_contents + offset / 8, | |
1777 | this_size_bits / 8); | |
1778 | break; | |
1779 | } | |
1780 | ||
1781 | this_size = bits_to_bytes (bits_to_skip, this_size_bits); | |
d5722aa2 | 1782 | buffer.resize (this_size); |
55acdf22 AA |
1783 | |
1784 | if (from == NULL) | |
1785 | { | |
1786 | /* Read mode. */ | |
1787 | read_value_memory (v, offset, | |
1788 | p->v.mem.in_stack_memory, | |
1789 | p->v.mem.addr + bits_to_skip / 8, | |
1790 | buffer.data (), this_size); | |
1791 | copy_bitwise (v_contents, offset, | |
1792 | buffer.data (), bits_to_skip % 8, | |
1793 | this_size_bits, bits_big_endian); | |
1794 | } | |
1795 | else | |
1796 | { | |
1797 | /* Write mode. */ | |
1798 | if (bits_to_skip % 8 != 0 || this_size_bits % 8 != 0) | |
1799 | { | |
1800 | if (this_size <= 8) | |
1801 | { | |
1802 | /* Perform a single read for small sizes. */ | |
1803 | read_memory (start_addr, buffer.data (), | |
1804 | this_size); | |
1805 | } | |
1806 | else | |
1807 | { | |
1808 | /* Only the first and last bytes can possibly have | |
1809 | any bits reused. */ | |
1810 | read_memory (start_addr, buffer.data (), 1); | |
1811 | read_memory (start_addr + this_size - 1, | |
1812 | &buffer[this_size - 1], 1); | |
1813 | } | |
1814 | } | |
1815 | ||
1816 | copy_bitwise (buffer.data (), bits_to_skip % 8, | |
1817 | from_contents, offset, | |
1818 | this_size_bits, bits_big_endian); | |
1819 | write_memory_with_notification (start_addr, | |
1820 | buffer.data (), | |
1821 | this_size); | |
1822 | } | |
1823 | } | |
cec03d70 TT |
1824 | break; |
1825 | ||
1826 | case DWARF_VALUE_STACK: | |
1827 | { | |
55acdf22 AA |
1828 | if (from != NULL) |
1829 | { | |
1830 | mark_value_bits_optimized_out (v, offset, this_size_bits); | |
1831 | break; | |
1832 | } | |
1833 | ||
09ba997f | 1834 | struct objfile *objfile = c->per_cu->objfile (); |
08feed99 | 1835 | struct gdbarch *objfile_gdbarch = objfile->arch (); |
e9352324 AA |
1836 | ULONGEST stack_value_size_bits |
1837 | = 8 * TYPE_LENGTH (value_type (p->v.value)); | |
1838 | ||
1839 | /* Use zeroes if piece reaches beyond stack value. */ | |
65d84b76 | 1840 | if (p->offset + p->size > stack_value_size_bits) |
e9352324 AA |
1841 | break; |
1842 | ||
1843 | /* Piece is anchored at least significant bit end. */ | |
1844 | if (gdbarch_byte_order (objfile_gdbarch) == BFD_ENDIAN_BIG) | |
f236533e | 1845 | bits_to_skip += stack_value_size_bits - p->offset - p->size; |
65d84b76 | 1846 | else |
f236533e | 1847 | bits_to_skip += p->offset; |
e9352324 | 1848 | |
55acdf22 | 1849 | copy_bitwise (v_contents, offset, |
e9352324 | 1850 | value_contents_all (p->v.value), |
f236533e | 1851 | bits_to_skip, |
e9352324 | 1852 | this_size_bits, bits_big_endian); |
cec03d70 TT |
1853 | } |
1854 | break; | |
1855 | ||
1856 | case DWARF_VALUE_LITERAL: | |
1857 | { | |
55acdf22 AA |
1858 | if (from != NULL) |
1859 | { | |
1860 | mark_value_bits_optimized_out (v, offset, this_size_bits); | |
1861 | break; | |
1862 | } | |
1863 | ||
242d31ab AA |
1864 | ULONGEST literal_size_bits = 8 * p->v.literal.length; |
1865 | size_t n = this_size_bits; | |
afd74c5f | 1866 | |
242d31ab | 1867 | /* Cut off at the end of the implicit value. */ |
f236533e AA |
1868 | bits_to_skip += p->offset; |
1869 | if (bits_to_skip >= literal_size_bits) | |
242d31ab | 1870 | break; |
f236533e AA |
1871 | if (n > literal_size_bits - bits_to_skip) |
1872 | n = literal_size_bits - bits_to_skip; | |
e9352324 | 1873 | |
55acdf22 | 1874 | copy_bitwise (v_contents, offset, |
f236533e | 1875 | p->v.literal.data, bits_to_skip, |
242d31ab | 1876 | n, bits_big_endian); |
cec03d70 TT |
1877 | } |
1878 | break; | |
1879 | ||
8cf6f0b1 | 1880 | case DWARF_VALUE_IMPLICIT_POINTER: |
55acdf22 AA |
1881 | if (from != NULL) |
1882 | { | |
1883 | mark_value_bits_optimized_out (v, offset, this_size_bits); | |
1884 | break; | |
1885 | } | |
1886 | ||
1887 | /* These bits show up as zeros -- but do not cause the value to | |
1888 | be considered optimized-out. */ | |
8cf6f0b1 TT |
1889 | break; |
1890 | ||
cb826367 | 1891 | case DWARF_VALUE_OPTIMIZED_OUT: |
9a0dc9e3 | 1892 | mark_value_bits_optimized_out (v, offset, this_size_bits); |
cb826367 TT |
1893 | break; |
1894 | ||
cec03d70 TT |
1895 | default: |
1896 | internal_error (__FILE__, __LINE__, _("invalid location type")); | |
052b9502 | 1897 | } |
d3b1e874 | 1898 | |
d3b1e874 | 1899 | offset += this_size_bits; |
f236533e | 1900 | bits_to_skip = 0; |
052b9502 NF |
1901 | } |
1902 | } | |
1903 | ||
55acdf22 | 1904 | |
052b9502 | 1905 | static void |
55acdf22 | 1906 | read_pieced_value (struct value *v) |
052b9502 | 1907 | { |
55acdf22 AA |
1908 | rw_pieced_value (v, NULL); |
1909 | } | |
242d31ab | 1910 | |
55acdf22 AA |
1911 | static void |
1912 | write_pieced_value (struct value *to, struct value *from) | |
1913 | { | |
1914 | rw_pieced_value (to, from); | |
052b9502 NF |
1915 | } |
1916 | ||
9a0dc9e3 PA |
1917 | /* An implementation of an lval_funcs method to see whether a value is |
1918 | a synthetic pointer. */ | |
8cf6f0b1 | 1919 | |
0e03807e | 1920 | static int |
6b850546 | 1921 | check_pieced_synthetic_pointer (const struct value *value, LONGEST bit_offset, |
9a0dc9e3 | 1922 | int bit_length) |
0e03807e TT |
1923 | { |
1924 | struct piece_closure *c | |
1925 | = (struct piece_closure *) value_computed_closure (value); | |
1926 | int i; | |
1927 | ||
1928 | bit_offset += 8 * value_offset (value); | |
1929 | if (value_bitsize (value)) | |
1930 | bit_offset += value_bitpos (value); | |
1931 | ||
1e467161 | 1932 | for (i = 0; i < c->pieces.size () && bit_length > 0; i++) |
0e03807e TT |
1933 | { |
1934 | struct dwarf_expr_piece *p = &c->pieces[i]; | |
1935 | size_t this_size_bits = p->size; | |
1936 | ||
1937 | if (bit_offset > 0) | |
1938 | { | |
1939 | if (bit_offset >= this_size_bits) | |
1940 | { | |
1941 | bit_offset -= this_size_bits; | |
1942 | continue; | |
1943 | } | |
1944 | ||
1945 | bit_length -= this_size_bits - bit_offset; | |
1946 | bit_offset = 0; | |
1947 | } | |
1948 | else | |
1949 | bit_length -= this_size_bits; | |
1950 | ||
9a0dc9e3 PA |
1951 | if (p->location != DWARF_VALUE_IMPLICIT_POINTER) |
1952 | return 0; | |
0e03807e TT |
1953 | } |
1954 | ||
9a0dc9e3 | 1955 | return 1; |
8cf6f0b1 TT |
1956 | } |
1957 | ||
1958 | /* A wrapper function for get_frame_address_in_block. */ | |
1959 | ||
1960 | static CORE_ADDR | |
1961 | get_frame_address_in_block_wrapper (void *baton) | |
1962 | { | |
9a3c8263 | 1963 | return get_frame_address_in_block ((struct frame_info *) baton); |
8cf6f0b1 TT |
1964 | } |
1965 | ||
3326303b MG |
1966 | /* Fetch a DW_AT_const_value through a synthetic pointer. */ |
1967 | ||
1968 | static struct value * | |
1969 | fetch_const_value_from_synthetic_pointer (sect_offset die, LONGEST byte_offset, | |
14095eb3 SM |
1970 | dwarf2_per_cu_data *per_cu, |
1971 | dwarf2_per_objfile *per_objfile, | |
3326303b MG |
1972 | struct type *type) |
1973 | { | |
1974 | struct value *result = NULL; | |
3326303b MG |
1975 | const gdb_byte *bytes; |
1976 | LONGEST len; | |
1977 | ||
8268c778 | 1978 | auto_obstack temp_obstack; |
14095eb3 SM |
1979 | bytes = dwarf2_fetch_constant_bytes (die, per_cu, per_objfile, |
1980 | &temp_obstack, &len); | |
3326303b MG |
1981 | |
1982 | if (bytes != NULL) | |
1983 | { | |
1984 | if (byte_offset >= 0 | |
1985 | && byte_offset + TYPE_LENGTH (TYPE_TARGET_TYPE (type)) <= len) | |
1986 | { | |
1987 | bytes += byte_offset; | |
1988 | result = value_from_contents (TYPE_TARGET_TYPE (type), bytes); | |
1989 | } | |
1990 | else | |
1991 | invalid_synthetic_pointer (); | |
1992 | } | |
1993 | else | |
1994 | result = allocate_optimized_out_value (TYPE_TARGET_TYPE (type)); | |
1995 | ||
3326303b MG |
1996 | return result; |
1997 | } | |
1998 | ||
1999 | /* Fetch the value pointed to by a synthetic pointer. */ | |
2000 | ||
2001 | static struct value * | |
2002 | indirect_synthetic_pointer (sect_offset die, LONGEST byte_offset, | |
14095eb3 SM |
2003 | dwarf2_per_cu_data *per_cu, |
2004 | dwarf2_per_objfile *per_objfile, | |
e4a62c65 TV |
2005 | struct frame_info *frame, struct type *type, |
2006 | bool resolve_abstract_p) | |
3326303b MG |
2007 | { |
2008 | /* Fetch the location expression of the DIE we're pointing to. */ | |
2009 | struct dwarf2_locexpr_baton baton | |
14095eb3 | 2010 | = dwarf2_fetch_die_loc_sect_off (die, per_cu, per_objfile, |
e4a62c65 TV |
2011 | get_frame_address_in_block_wrapper, frame, |
2012 | resolve_abstract_p); | |
3326303b | 2013 | |
7942e96e | 2014 | /* Get type of pointed-to DIE. */ |
14095eb3 SM |
2015 | struct type *orig_type = dwarf2_fetch_die_type_sect_off (die, per_cu, |
2016 | per_objfile); | |
7942e96e AA |
2017 | if (orig_type == NULL) |
2018 | invalid_synthetic_pointer (); | |
2019 | ||
3326303b MG |
2020 | /* If pointed-to DIE has a DW_AT_location, evaluate it and return the |
2021 | resulting value. Otherwise, it may have a DW_AT_const_value instead, | |
2022 | or it may've been optimized out. */ | |
2023 | if (baton.data != NULL) | |
7942e96e AA |
2024 | return dwarf2_evaluate_loc_desc_full (orig_type, frame, baton.data, |
2025 | baton.size, baton.per_cu, | |
2026 | TYPE_TARGET_TYPE (type), | |
3326303b MG |
2027 | byte_offset); |
2028 | else | |
2029 | return fetch_const_value_from_synthetic_pointer (die, byte_offset, per_cu, | |
14095eb3 | 2030 | per_objfile, type); |
3326303b MG |
2031 | } |
2032 | ||
8cf6f0b1 TT |
2033 | /* An implementation of an lval_funcs method to indirect through a |
2034 | pointer. This handles the synthetic pointer case when needed. */ | |
2035 | ||
2036 | static struct value * | |
2037 | indirect_pieced_value (struct value *value) | |
2038 | { | |
2039 | struct piece_closure *c | |
2040 | = (struct piece_closure *) value_computed_closure (value); | |
2041 | struct type *type; | |
2042 | struct frame_info *frame; | |
6b850546 DT |
2043 | int i, bit_length; |
2044 | LONGEST bit_offset; | |
8cf6f0b1 | 2045 | struct dwarf_expr_piece *piece = NULL; |
8cf6f0b1 | 2046 | LONGEST byte_offset; |
b597c318 | 2047 | enum bfd_endian byte_order; |
8cf6f0b1 | 2048 | |
0e37a63c | 2049 | type = check_typedef (value_type (value)); |
78134374 | 2050 | if (type->code () != TYPE_CODE_PTR) |
8cf6f0b1 TT |
2051 | return NULL; |
2052 | ||
2053 | bit_length = 8 * TYPE_LENGTH (type); | |
2054 | bit_offset = 8 * value_offset (value); | |
2055 | if (value_bitsize (value)) | |
2056 | bit_offset += value_bitpos (value); | |
2057 | ||
1e467161 | 2058 | for (i = 0; i < c->pieces.size () && bit_length > 0; i++) |
8cf6f0b1 TT |
2059 | { |
2060 | struct dwarf_expr_piece *p = &c->pieces[i]; | |
2061 | size_t this_size_bits = p->size; | |
2062 | ||
2063 | if (bit_offset > 0) | |
2064 | { | |
2065 | if (bit_offset >= this_size_bits) | |
2066 | { | |
2067 | bit_offset -= this_size_bits; | |
2068 | continue; | |
2069 | } | |
2070 | ||
2071 | bit_length -= this_size_bits - bit_offset; | |
2072 | bit_offset = 0; | |
2073 | } | |
2074 | else | |
2075 | bit_length -= this_size_bits; | |
2076 | ||
2077 | if (p->location != DWARF_VALUE_IMPLICIT_POINTER) | |
2078 | return NULL; | |
2079 | ||
2080 | if (bit_length != 0) | |
216f72a1 | 2081 | error (_("Invalid use of DW_OP_implicit_pointer")); |
8cf6f0b1 TT |
2082 | |
2083 | piece = p; | |
2084 | break; | |
2085 | } | |
2086 | ||
3326303b | 2087 | gdb_assert (piece != NULL); |
8cf6f0b1 | 2088 | frame = get_selected_frame (_("No frame selected.")); |
543305c9 | 2089 | |
5bd1ef56 TT |
2090 | /* This is an offset requested by GDB, such as value subscripts. |
2091 | However, due to how synthetic pointers are implemented, this is | |
2092 | always presented to us as a pointer type. This means we have to | |
b597c318 YQ |
2093 | sign-extend it manually as appropriate. Use raw |
2094 | extract_signed_integer directly rather than value_as_address and | |
2095 | sign extend afterwards on architectures that would need it | |
2096 | (mostly everywhere except MIPS, which has signed addresses) as | |
2097 | the later would go through gdbarch_pointer_to_address and thus | |
2098 | return a CORE_ADDR with high bits set on architectures that | |
2099 | encode address spaces and other things in CORE_ADDR. */ | |
2100 | byte_order = gdbarch_byte_order (get_frame_arch (frame)); | |
2101 | byte_offset = extract_signed_integer (value_contents (value), | |
2102 | TYPE_LENGTH (type), byte_order); | |
5bd1ef56 | 2103 | byte_offset += piece->v.ptr.offset; |
8cf6f0b1 | 2104 | |
9c541725 PA |
2105 | return indirect_synthetic_pointer (piece->v.ptr.die_sect_off, |
2106 | byte_offset, c->per_cu, | |
14095eb3 | 2107 | c->per_objfile, frame, type); |
3326303b | 2108 | } |
8cf6f0b1 | 2109 | |
3326303b MG |
2110 | /* Implementation of the coerce_ref method of lval_funcs for synthetic C++ |
2111 | references. */ | |
b6807d98 | 2112 | |
3326303b MG |
2113 | static struct value * |
2114 | coerce_pieced_ref (const struct value *value) | |
2115 | { | |
2116 | struct type *type = check_typedef (value_type (value)); | |
b6807d98 | 2117 | |
3326303b MG |
2118 | if (value_bits_synthetic_pointer (value, value_embedded_offset (value), |
2119 | TARGET_CHAR_BIT * TYPE_LENGTH (type))) | |
2120 | { | |
2121 | const struct piece_closure *closure | |
2122 | = (struct piece_closure *) value_computed_closure (value); | |
2123 | struct frame_info *frame | |
2124 | = get_selected_frame (_("No frame selected.")); | |
2125 | ||
2126 | /* gdb represents synthetic pointers as pieced values with a single | |
2127 | piece. */ | |
2128 | gdb_assert (closure != NULL); | |
1e467161 | 2129 | gdb_assert (closure->pieces.size () == 1); |
3326303b | 2130 | |
1e467161 SM |
2131 | return indirect_synthetic_pointer |
2132 | (closure->pieces[0].v.ptr.die_sect_off, | |
2133 | closure->pieces[0].v.ptr.offset, | |
14095eb3 | 2134 | closure->per_cu, closure->per_objfile, frame, type); |
3326303b MG |
2135 | } |
2136 | else | |
2137 | { | |
2138 | /* Else: not a synthetic reference; do nothing. */ | |
2139 | return NULL; | |
2140 | } | |
0e03807e TT |
2141 | } |
2142 | ||
052b9502 | 2143 | static void * |
0e03807e | 2144 | copy_pieced_value_closure (const struct value *v) |
052b9502 | 2145 | { |
3e43a32a MS |
2146 | struct piece_closure *c |
2147 | = (struct piece_closure *) value_computed_closure (v); | |
052b9502 | 2148 | |
88bfdde4 TT |
2149 | ++c->refc; |
2150 | return c; | |
052b9502 NF |
2151 | } |
2152 | ||
2153 | static void | |
2154 | free_pieced_value_closure (struct value *v) | |
2155 | { | |
3e43a32a MS |
2156 | struct piece_closure *c |
2157 | = (struct piece_closure *) value_computed_closure (v); | |
052b9502 | 2158 | |
88bfdde4 TT |
2159 | --c->refc; |
2160 | if (c->refc == 0) | |
2161 | { | |
1e467161 SM |
2162 | for (dwarf_expr_piece &p : c->pieces) |
2163 | if (p.location == DWARF_VALUE_STACK) | |
22bc8444 | 2164 | value_decref (p.v.value); |
8a9b8146 | 2165 | |
1e467161 | 2166 | delete c; |
88bfdde4 | 2167 | } |
052b9502 NF |
2168 | } |
2169 | ||
2170 | /* Functions for accessing a variable described by DW_OP_piece. */ | |
c8f2448a | 2171 | static const struct lval_funcs pieced_value_funcs = { |
052b9502 NF |
2172 | read_pieced_value, |
2173 | write_pieced_value, | |
8cf6f0b1 | 2174 | indirect_pieced_value, |
3326303b | 2175 | coerce_pieced_ref, |
8cf6f0b1 | 2176 | check_pieced_synthetic_pointer, |
052b9502 NF |
2177 | copy_pieced_value_closure, |
2178 | free_pieced_value_closure | |
2179 | }; | |
2180 | ||
4c2df51b | 2181 | /* Evaluate a location description, starting at DATA and with length |
8cf6f0b1 | 2182 | SIZE, to find the current location of variable of TYPE in the |
7942e96e AA |
2183 | context of FRAME. If SUBOBJ_TYPE is non-NULL, return instead the |
2184 | location of the subobject of type SUBOBJ_TYPE at byte offset | |
2185 | SUBOBJ_BYTE_OFFSET within the variable of type TYPE. */ | |
a2d33775 | 2186 | |
8cf6f0b1 TT |
2187 | static struct value * |
2188 | dwarf2_evaluate_loc_desc_full (struct type *type, struct frame_info *frame, | |
56eb65bd | 2189 | const gdb_byte *data, size_t size, |
8cf6f0b1 | 2190 | struct dwarf2_per_cu_data *per_cu, |
7942e96e AA |
2191 | struct type *subobj_type, |
2192 | LONGEST subobj_byte_offset) | |
4c2df51b | 2193 | { |
4c2df51b | 2194 | struct value *retval; |
09ba997f | 2195 | struct objfile *objfile = per_cu->objfile (); |
4c2df51b | 2196 | |
7942e96e AA |
2197 | if (subobj_type == NULL) |
2198 | { | |
2199 | subobj_type = type; | |
2200 | subobj_byte_offset = 0; | |
2201 | } | |
2202 | else if (subobj_byte_offset < 0) | |
8cf6f0b1 TT |
2203 | invalid_synthetic_pointer (); |
2204 | ||
0d53c4c4 | 2205 | if (size == 0) |
7942e96e | 2206 | return allocate_optimized_out_value (subobj_type); |
0d53c4c4 | 2207 | |
89b07335 SM |
2208 | dwarf2_per_objfile *per_objfile = get_dwarf2_per_objfile (objfile); |
2209 | dwarf_evaluate_loc_desc ctx (per_objfile); | |
192ca6d8 TT |
2210 | ctx.frame = frame; |
2211 | ctx.per_cu = per_cu; | |
2212 | ctx.obj_address = 0; | |
4c2df51b | 2213 | |
0cf08227 | 2214 | scoped_value_mark free_values; |
4a227398 | 2215 | |
08feed99 | 2216 | ctx.gdbarch = objfile->arch (); |
09ba997f TT |
2217 | ctx.addr_size = per_cu->addr_size (); |
2218 | ctx.ref_addr_size = per_cu->ref_addr_size (); | |
4c2df51b | 2219 | |
a70b8144 | 2220 | try |
79e1a869 | 2221 | { |
595d2e30 | 2222 | ctx.eval (data, size); |
79e1a869 | 2223 | } |
230d2906 | 2224 | catch (const gdb_exception_error &ex) |
79e1a869 PA |
2225 | { |
2226 | if (ex.error == NOT_AVAILABLE_ERROR) | |
2227 | { | |
0cf08227 | 2228 | free_values.free_to_mark (); |
7942e96e AA |
2229 | retval = allocate_value (subobj_type); |
2230 | mark_value_bytes_unavailable (retval, 0, | |
2231 | TYPE_LENGTH (subobj_type)); | |
79e1a869 PA |
2232 | return retval; |
2233 | } | |
8e3b41a9 JK |
2234 | else if (ex.error == NO_ENTRY_VALUE_ERROR) |
2235 | { | |
2236 | if (entry_values_debug) | |
2237 | exception_print (gdb_stdout, ex); | |
0cf08227 | 2238 | free_values.free_to_mark (); |
7942e96e | 2239 | return allocate_optimized_out_value (subobj_type); |
8e3b41a9 | 2240 | } |
79e1a869 | 2241 | else |
eedc3f4f | 2242 | throw; |
79e1a869 PA |
2243 | } |
2244 | ||
1e467161 | 2245 | if (ctx.pieces.size () > 0) |
87808bd6 | 2246 | { |
052b9502 | 2247 | struct piece_closure *c; |
8cf6f0b1 | 2248 | ULONGEST bit_size = 0; |
052b9502 | 2249 | |
1e467161 SM |
2250 | for (dwarf_expr_piece &piece : ctx.pieces) |
2251 | bit_size += piece.size; | |
03278692 TT |
2252 | /* Complain if the expression is larger than the size of the |
2253 | outer type. */ | |
2254 | if (bit_size > 8 * TYPE_LENGTH (type)) | |
8cf6f0b1 TT |
2255 | invalid_synthetic_pointer (); |
2256 | ||
3c3cd3d4 SM |
2257 | c = allocate_piece_closure (per_cu, per_objfile, std::move (ctx.pieces), |
2258 | frame); | |
72fc29ff TT |
2259 | /* We must clean up the value chain after creating the piece |
2260 | closure but before allocating the result. */ | |
0cf08227 | 2261 | free_values.free_to_mark (); |
7942e96e AA |
2262 | retval = allocate_computed_value (subobj_type, |
2263 | &pieced_value_funcs, c); | |
2264 | set_value_offset (retval, subobj_byte_offset); | |
87808bd6 | 2265 | } |
4c2df51b DJ |
2266 | else |
2267 | { | |
718b9626 | 2268 | switch (ctx.location) |
cec03d70 TT |
2269 | { |
2270 | case DWARF_VALUE_REGISTER: | |
2271 | { | |
2272 | struct gdbarch *arch = get_frame_arch (frame); | |
7c33b57c | 2273 | int dwarf_regnum |
595d2e30 | 2274 | = longest_to_int (value_as_long (ctx.fetch (0))); |
0fde2c53 | 2275 | int gdb_regnum = dwarf_reg_to_regnum_or_error (arch, dwarf_regnum); |
9a619af0 | 2276 | |
7942e96e | 2277 | if (subobj_byte_offset != 0) |
8cf6f0b1 | 2278 | error (_("cannot use offset on synthetic pointer to register")); |
0cf08227 | 2279 | free_values.free_to_mark (); |
7942e96e | 2280 | retval = value_from_register (subobj_type, gdb_regnum, frame); |
0fde2c53 DE |
2281 | if (value_optimized_out (retval)) |
2282 | { | |
2283 | struct value *tmp; | |
2284 | ||
2285 | /* This means the register has undefined value / was | |
2286 | not saved. As we're computing the location of some | |
2287 | variable etc. in the program, not a value for | |
2288 | inspecting a register ($pc, $sp, etc.), return a | |
2289 | generic optimized out value instead, so that we show | |
2290 | <optimized out> instead of <not saved>. */ | |
7942e96e AA |
2291 | tmp = allocate_value (subobj_type); |
2292 | value_contents_copy (tmp, 0, retval, 0, | |
2293 | TYPE_LENGTH (subobj_type)); | |
0fde2c53 DE |
2294 | retval = tmp; |
2295 | } | |
cec03d70 TT |
2296 | } |
2297 | break; | |
2298 | ||
2299 | case DWARF_VALUE_MEMORY: | |
2300 | { | |
f56331b4 | 2301 | struct type *ptr_type; |
595d2e30 | 2302 | CORE_ADDR address = ctx.fetch_address (0); |
69009882 | 2303 | bool in_stack_memory = ctx.fetch_in_stack_memory (0); |
cec03d70 | 2304 | |
f56331b4 KB |
2305 | /* DW_OP_deref_size (and possibly other operations too) may |
2306 | create a pointer instead of an address. Ideally, the | |
2307 | pointer to address conversion would be performed as part | |
2308 | of those operations, but the type of the object to | |
2309 | which the address refers is not known at the time of | |
2310 | the operation. Therefore, we do the conversion here | |
2311 | since the type is readily available. */ | |
2312 | ||
78134374 | 2313 | switch (subobj_type->code ()) |
f56331b4 KB |
2314 | { |
2315 | case TYPE_CODE_FUNC: | |
2316 | case TYPE_CODE_METHOD: | |
718b9626 | 2317 | ptr_type = builtin_type (ctx.gdbarch)->builtin_func_ptr; |
f56331b4 KB |
2318 | break; |
2319 | default: | |
718b9626 | 2320 | ptr_type = builtin_type (ctx.gdbarch)->builtin_data_ptr; |
f56331b4 KB |
2321 | break; |
2322 | } | |
2323 | address = value_as_address (value_from_pointer (ptr_type, address)); | |
2324 | ||
0cf08227 | 2325 | free_values.free_to_mark (); |
7942e96e AA |
2326 | retval = value_at_lazy (subobj_type, |
2327 | address + subobj_byte_offset); | |
44353522 DE |
2328 | if (in_stack_memory) |
2329 | set_value_stack (retval, 1); | |
cec03d70 TT |
2330 | } |
2331 | break; | |
2332 | ||
2333 | case DWARF_VALUE_STACK: | |
2334 | { | |
595d2e30 | 2335 | struct value *value = ctx.fetch (0); |
8a9b8146 | 2336 | size_t n = TYPE_LENGTH (value_type (value)); |
7942e96e AA |
2337 | size_t len = TYPE_LENGTH (subobj_type); |
2338 | size_t max = TYPE_LENGTH (type); | |
08feed99 | 2339 | struct gdbarch *objfile_gdbarch = objfile->arch (); |
cec03d70 | 2340 | |
7942e96e | 2341 | if (subobj_byte_offset + len > max) |
8cf6f0b1 TT |
2342 | invalid_synthetic_pointer (); |
2343 | ||
72fc29ff TT |
2344 | /* Preserve VALUE because we are going to free values back |
2345 | to the mark, but we still need the value contents | |
2346 | below. */ | |
bbfa6f00 | 2347 | value_ref_ptr value_holder = value_ref_ptr::new_reference (value); |
0cf08227 | 2348 | free_values.free_to_mark (); |
72fc29ff | 2349 | |
7942e96e | 2350 | retval = allocate_value (subobj_type); |
b6cede78 | 2351 | |
7942e96e AA |
2352 | /* The given offset is relative to the actual object. */ |
2353 | if (gdbarch_byte_order (objfile_gdbarch) == BFD_ENDIAN_BIG) | |
2354 | subobj_byte_offset += n - max; | |
2355 | ||
2356 | memcpy (value_contents_raw (retval), | |
2357 | value_contents_all (value) + subobj_byte_offset, len); | |
cec03d70 TT |
2358 | } |
2359 | break; | |
2360 | ||
2361 | case DWARF_VALUE_LITERAL: | |
2362 | { | |
2363 | bfd_byte *contents; | |
7942e96e | 2364 | size_t n = TYPE_LENGTH (subobj_type); |
cec03d70 | 2365 | |
7942e96e | 2366 | if (subobj_byte_offset + n > ctx.len) |
8cf6f0b1 TT |
2367 | invalid_synthetic_pointer (); |
2368 | ||
0cf08227 | 2369 | free_values.free_to_mark (); |
7942e96e | 2370 | retval = allocate_value (subobj_type); |
cec03d70 | 2371 | contents = value_contents_raw (retval); |
7942e96e | 2372 | memcpy (contents, ctx.data + subobj_byte_offset, n); |
cec03d70 TT |
2373 | } |
2374 | break; | |
2375 | ||
dd90784c | 2376 | case DWARF_VALUE_OPTIMIZED_OUT: |
0cf08227 | 2377 | free_values.free_to_mark (); |
7942e96e | 2378 | retval = allocate_optimized_out_value (subobj_type); |
dd90784c JK |
2379 | break; |
2380 | ||
8cf6f0b1 TT |
2381 | /* DWARF_VALUE_IMPLICIT_POINTER was converted to a pieced |
2382 | operation by execute_stack_op. */ | |
2383 | case DWARF_VALUE_IMPLICIT_POINTER: | |
cb826367 TT |
2384 | /* DWARF_VALUE_OPTIMIZED_OUT can't occur in this context -- |
2385 | it can only be encountered when making a piece. */ | |
cec03d70 TT |
2386 | default: |
2387 | internal_error (__FILE__, __LINE__, _("invalid location type")); | |
2388 | } | |
4c2df51b DJ |
2389 | } |
2390 | ||
718b9626 | 2391 | set_value_initialized (retval, ctx.initialized); |
42be36b3 | 2392 | |
4c2df51b DJ |
2393 | return retval; |
2394 | } | |
8cf6f0b1 TT |
2395 | |
2396 | /* The exported interface to dwarf2_evaluate_loc_desc_full; it always | |
2397 | passes 0 as the byte_offset. */ | |
2398 | ||
2399 | struct value * | |
2400 | dwarf2_evaluate_loc_desc (struct type *type, struct frame_info *frame, | |
56eb65bd | 2401 | const gdb_byte *data, size_t size, |
8cf6f0b1 TT |
2402 | struct dwarf2_per_cu_data *per_cu) |
2403 | { | |
7942e96e AA |
2404 | return dwarf2_evaluate_loc_desc_full (type, frame, data, size, per_cu, |
2405 | NULL, 0); | |
8cf6f0b1 TT |
2406 | } |
2407 | ||
b249d2c2 TT |
2408 | /* A specialization of dwarf_evaluate_loc_desc that is used by |
2409 | dwarf2_locexpr_baton_eval. This subclass exists to handle the case | |
2410 | where a caller of dwarf2_locexpr_baton_eval passes in some data, | |
2411 | but with the address being 0. In this situation, we arrange for | |
2412 | memory reads to come from the passed-in buffer. */ | |
2413 | ||
2414 | struct evaluate_for_locexpr_baton : public dwarf_evaluate_loc_desc | |
2415 | { | |
89b07335 SM |
2416 | evaluate_for_locexpr_baton (dwarf2_per_objfile *per_objfile) |
2417 | : dwarf_evaluate_loc_desc (per_objfile) | |
2418 | {} | |
2419 | ||
b249d2c2 TT |
2420 | /* The data that was passed in. */ |
2421 | gdb::array_view<const gdb_byte> data_view; | |
2422 | ||
2423 | CORE_ADDR get_object_address () override | |
2424 | { | |
2425 | if (data_view.data () == nullptr && obj_address == 0) | |
2426 | error (_("Location address is not set.")); | |
2427 | return obj_address; | |
2428 | } | |
2429 | ||
2430 | void read_mem (gdb_byte *buf, CORE_ADDR addr, size_t len) override | |
2431 | { | |
2432 | if (len == 0) | |
2433 | return; | |
2434 | ||
2435 | /* Prefer the passed-in memory, if it exists. */ | |
2436 | CORE_ADDR offset = addr - obj_address; | |
2437 | if (offset < data_view.size () && offset + len <= data_view.size ()) | |
2438 | { | |
2439 | memcpy (buf, data_view.data (), len); | |
2440 | return; | |
2441 | } | |
2442 | ||
2443 | read_memory (addr, buf, len); | |
2444 | } | |
2445 | }; | |
2446 | ||
2447 | /* Evaluates a dwarf expression and stores the result in VAL, | |
2448 | expecting that the dwarf expression only produces a single | |
2449 | CORE_ADDR. FRAME is the frame in which the expression is | |
2450 | evaluated. ADDR_STACK is a context (location of a variable) and | |
2451 | might be needed to evaluate the location expression. | |
2452 | PUSH_INITIAL_VALUE is true if the address (either from ADDR_STACK, | |
2453 | or the default of 0) should be pushed on the DWARF expression | |
2454 | evaluation stack before evaluating the expression; this is required | |
2455 | by certain forms of DWARF expression. Returns 1 on success, 0 | |
2456 | otherwise. */ | |
80180f79 SA |
2457 | |
2458 | static int | |
2459 | dwarf2_locexpr_baton_eval (const struct dwarf2_locexpr_baton *dlbaton, | |
63e43d3a | 2460 | struct frame_info *frame, |
b249d2c2 | 2461 | const struct property_addr_info *addr_stack, |
61122aa9 TT |
2462 | CORE_ADDR *valp, |
2463 | bool push_initial_value) | |
80180f79 | 2464 | { |
80180f79 SA |
2465 | if (dlbaton == NULL || dlbaton->size == 0) |
2466 | return 0; | |
2467 | ||
89b07335 SM |
2468 | dwarf2_per_objfile *per_objfile = dlbaton->per_objfile; |
2469 | evaluate_for_locexpr_baton ctx (per_objfile); | |
80180f79 | 2470 | |
192ca6d8 TT |
2471 | ctx.frame = frame; |
2472 | ctx.per_cu = dlbaton->per_cu; | |
b249d2c2 TT |
2473 | if (addr_stack == nullptr) |
2474 | ctx.obj_address = 0; | |
2475 | else | |
2476 | { | |
2477 | ctx.obj_address = addr_stack->addr; | |
2478 | ctx.data_view = addr_stack->valaddr; | |
2479 | } | |
80180f79 | 2480 | |
89b07335 | 2481 | ctx.gdbarch = per_objfile->objfile->arch (); |
09ba997f TT |
2482 | ctx.addr_size = dlbaton->per_cu->addr_size (); |
2483 | ctx.ref_addr_size = dlbaton->per_cu->ref_addr_size (); | |
80180f79 | 2484 | |
61122aa9 | 2485 | if (push_initial_value) |
b249d2c2 | 2486 | ctx.push_address (ctx.obj_address, false); |
61122aa9 | 2487 | |
a70b8144 | 2488 | try |
16f808ec TV |
2489 | { |
2490 | ctx.eval (dlbaton->data, dlbaton->size); | |
2491 | } | |
230d2906 | 2492 | catch (const gdb_exception_error &ex) |
16f808ec TV |
2493 | { |
2494 | if (ex.error == NOT_AVAILABLE_ERROR) | |
2495 | { | |
2496 | return 0; | |
2497 | } | |
2498 | else if (ex.error == NO_ENTRY_VALUE_ERROR) | |
2499 | { | |
2500 | if (entry_values_debug) | |
2501 | exception_print (gdb_stdout, ex); | |
2502 | return 0; | |
2503 | } | |
2504 | else | |
eedc3f4f | 2505 | throw; |
16f808ec | 2506 | } |
80180f79 | 2507 | |
718b9626 | 2508 | switch (ctx.location) |
80180f79 SA |
2509 | { |
2510 | case DWARF_VALUE_REGISTER: | |
2511 | case DWARF_VALUE_MEMORY: | |
2512 | case DWARF_VALUE_STACK: | |
595d2e30 | 2513 | *valp = ctx.fetch_address (0); |
718b9626 | 2514 | if (ctx.location == DWARF_VALUE_REGISTER) |
192ca6d8 | 2515 | *valp = ctx.read_addr_from_reg (*valp); |
80180f79 SA |
2516 | return 1; |
2517 | case DWARF_VALUE_LITERAL: | |
718b9626 TT |
2518 | *valp = extract_signed_integer (ctx.data, ctx.len, |
2519 | gdbarch_byte_order (ctx.gdbarch)); | |
80180f79 SA |
2520 | return 1; |
2521 | /* Unsupported dwarf values. */ | |
2522 | case DWARF_VALUE_OPTIMIZED_OUT: | |
2523 | case DWARF_VALUE_IMPLICIT_POINTER: | |
2524 | break; | |
2525 | } | |
2526 | ||
80180f79 SA |
2527 | return 0; |
2528 | } | |
2529 | ||
2530 | /* See dwarf2loc.h. */ | |
2531 | ||
603490bf | 2532 | bool |
08412b07 | 2533 | dwarf2_evaluate_property (const struct dynamic_prop *prop, |
63e43d3a | 2534 | struct frame_info *frame, |
fe26d3a3 | 2535 | const struct property_addr_info *addr_stack, |
61122aa9 TT |
2536 | CORE_ADDR *value, |
2537 | bool push_initial_value) | |
80180f79 SA |
2538 | { |
2539 | if (prop == NULL) | |
603490bf | 2540 | return false; |
80180f79 | 2541 | |
63e43d3a PMR |
2542 | if (frame == NULL && has_stack_frames ()) |
2543 | frame = get_selected_frame (NULL); | |
2544 | ||
80180f79 SA |
2545 | switch (prop->kind) |
2546 | { | |
2547 | case PROP_LOCEXPR: | |
2548 | { | |
9a3c8263 SM |
2549 | const struct dwarf2_property_baton *baton |
2550 | = (const struct dwarf2_property_baton *) prop->data.baton; | |
9a49df9d | 2551 | gdb_assert (baton->property_type != NULL); |
80180f79 | 2552 | |
b249d2c2 | 2553 | if (dwarf2_locexpr_baton_eval (&baton->locexpr, frame, addr_stack, |
61122aa9 | 2554 | value, push_initial_value)) |
80180f79 | 2555 | { |
9a49df9d | 2556 | if (baton->locexpr.is_reference) |
80180f79 | 2557 | { |
9a49df9d | 2558 | struct value *val = value_at (baton->property_type, *value); |
80180f79 SA |
2559 | *value = value_as_address (val); |
2560 | } | |
0d4e84ed AB |
2561 | else |
2562 | { | |
2563 | gdb_assert (baton->property_type != NULL); | |
2564 | ||
2565 | struct type *type = check_typedef (baton->property_type); | |
2566 | if (TYPE_LENGTH (type) < sizeof (CORE_ADDR) | |
2567 | && !TYPE_UNSIGNED (type)) | |
2568 | { | |
2569 | /* If we have a valid return candidate and it's value | |
2570 | is signed, we have to sign-extend the value because | |
2571 | CORE_ADDR on 64bit machine has 8 bytes but address | |
2572 | size of an 32bit application is bytes. */ | |
2573 | const int addr_size | |
09ba997f | 2574 | = (baton->locexpr.per_cu->addr_size () |
0d4e84ed AB |
2575 | * TARGET_CHAR_BIT); |
2576 | const CORE_ADDR neg_mask | |
2577 | = (~((CORE_ADDR) 0) << (addr_size - 1)); | |
2578 | ||
2579 | /* Check if signed bit is set and sign-extend values. */ | |
2580 | if (*value & neg_mask) | |
2581 | *value |= neg_mask; | |
2582 | } | |
2583 | } | |
603490bf | 2584 | return true; |
80180f79 SA |
2585 | } |
2586 | } | |
2587 | break; | |
2588 | ||
2589 | case PROP_LOCLIST: | |
2590 | { | |
9a3c8263 SM |
2591 | struct dwarf2_property_baton *baton |
2592 | = (struct dwarf2_property_baton *) prop->data.baton; | |
1c33af77 | 2593 | CORE_ADDR pc; |
80180f79 SA |
2594 | const gdb_byte *data; |
2595 | struct value *val; | |
2596 | size_t size; | |
2597 | ||
1c33af77 TV |
2598 | if (frame == NULL |
2599 | || !get_frame_address_in_block_if_available (frame, &pc)) | |
2600 | return false; | |
2601 | ||
80180f79 SA |
2602 | data = dwarf2_find_location_expression (&baton->loclist, &size, pc); |
2603 | if (data != NULL) | |
2604 | { | |
9a49df9d | 2605 | val = dwarf2_evaluate_loc_desc (baton->property_type, frame, data, |
80180f79 SA |
2606 | size, baton->loclist.per_cu); |
2607 | if (!value_optimized_out (val)) | |
2608 | { | |
2609 | *value = value_as_address (val); | |
603490bf | 2610 | return true; |
80180f79 SA |
2611 | } |
2612 | } | |
2613 | } | |
2614 | break; | |
2615 | ||
2616 | case PROP_CONST: | |
2617 | *value = prop->data.const_val; | |
603490bf | 2618 | return true; |
df25ebbd JB |
2619 | |
2620 | case PROP_ADDR_OFFSET: | |
2621 | { | |
9a3c8263 SM |
2622 | struct dwarf2_property_baton *baton |
2623 | = (struct dwarf2_property_baton *) prop->data.baton; | |
fe26d3a3 | 2624 | const struct property_addr_info *pinfo; |
df25ebbd JB |
2625 | struct value *val; |
2626 | ||
2627 | for (pinfo = addr_stack; pinfo != NULL; pinfo = pinfo->next) | |
988915ee TT |
2628 | { |
2629 | /* This approach lets us avoid checking the qualifiers. */ | |
2630 | if (TYPE_MAIN_TYPE (pinfo->type) | |
9a49df9d | 2631 | == TYPE_MAIN_TYPE (baton->property_type)) |
988915ee TT |
2632 | break; |
2633 | } | |
df25ebbd | 2634 | if (pinfo == NULL) |
2c811c0f | 2635 | error (_("cannot find reference address for offset property")); |
b249d2c2 | 2636 | if (pinfo->valaddr.data () != NULL) |
c3345124 JB |
2637 | val = value_from_contents |
2638 | (baton->offset_info.type, | |
b249d2c2 | 2639 | pinfo->valaddr.data () + baton->offset_info.offset); |
c3345124 JB |
2640 | else |
2641 | val = value_at (baton->offset_info.type, | |
2642 | pinfo->addr + baton->offset_info.offset); | |
df25ebbd | 2643 | *value = value_as_address (val); |
603490bf | 2644 | return true; |
df25ebbd | 2645 | } |
80180f79 SA |
2646 | } |
2647 | ||
603490bf | 2648 | return false; |
80180f79 SA |
2649 | } |
2650 | ||
bb2ec1b3 TT |
2651 | /* See dwarf2loc.h. */ |
2652 | ||
2653 | void | |
d82b3862 | 2654 | dwarf2_compile_property_to_c (string_file *stream, |
bb2ec1b3 TT |
2655 | const char *result_name, |
2656 | struct gdbarch *gdbarch, | |
2657 | unsigned char *registers_used, | |
2658 | const struct dynamic_prop *prop, | |
2659 | CORE_ADDR pc, | |
2660 | struct symbol *sym) | |
2661 | { | |
9a3c8263 SM |
2662 | struct dwarf2_property_baton *baton |
2663 | = (struct dwarf2_property_baton *) prop->data.baton; | |
bb2ec1b3 TT |
2664 | const gdb_byte *data; |
2665 | size_t size; | |
4b167ea1 SM |
2666 | dwarf2_per_cu_data *per_cu; |
2667 | dwarf2_per_objfile *per_objfile; | |
bb2ec1b3 TT |
2668 | |
2669 | if (prop->kind == PROP_LOCEXPR) | |
2670 | { | |
2671 | data = baton->locexpr.data; | |
2672 | size = baton->locexpr.size; | |
2673 | per_cu = baton->locexpr.per_cu; | |
4b167ea1 | 2674 | per_objfile = baton->locexpr.per_objfile; |
bb2ec1b3 TT |
2675 | } |
2676 | else | |
2677 | { | |
2678 | gdb_assert (prop->kind == PROP_LOCLIST); | |
2679 | ||
2680 | data = dwarf2_find_location_expression (&baton->loclist, &size, pc); | |
2681 | per_cu = baton->loclist.per_cu; | |
4b167ea1 | 2682 | per_objfile = baton->loclist.per_objfile; |
bb2ec1b3 TT |
2683 | } |
2684 | ||
2685 | compile_dwarf_bounds_to_c (stream, result_name, prop, sym, pc, | |
2686 | gdbarch, registers_used, | |
09ba997f | 2687 | per_cu->addr_size (), |
4b167ea1 | 2688 | data, data + size, per_cu, per_objfile); |
bb2ec1b3 TT |
2689 | } |
2690 | ||
4c2df51b | 2691 | \f |
0b31a4bc | 2692 | /* Helper functions and baton for dwarf2_loc_desc_get_symbol_read_needs. */ |
4c2df51b | 2693 | |
192ca6d8 | 2694 | class symbol_needs_eval_context : public dwarf_expr_context |
4c2df51b | 2695 | { |
89b07335 SM |
2696 | public: |
2697 | symbol_needs_eval_context (dwarf2_per_objfile *per_objfile) | |
2698 | : dwarf_expr_context (per_objfile) | |
2699 | {} | |
192ca6d8 | 2700 | |
0b31a4bc | 2701 | enum symbol_needs_kind needs; |
17ea53c3 | 2702 | struct dwarf2_per_cu_data *per_cu; |
4c2df51b | 2703 | |
192ca6d8 | 2704 | /* Reads from registers do require a frame. */ |
632e107b | 2705 | CORE_ADDR read_addr_from_reg (int regnum) override |
192ca6d8 TT |
2706 | { |
2707 | needs = SYMBOL_NEEDS_FRAME; | |
2708 | return 1; | |
2709 | } | |
2710 | ||
2711 | /* "get_reg_value" callback: Reads from registers do require a | |
2712 | frame. */ | |
2713 | ||
632e107b | 2714 | struct value *get_reg_value (struct type *type, int regnum) override |
192ca6d8 TT |
2715 | { |
2716 | needs = SYMBOL_NEEDS_FRAME; | |
2717 | return value_zero (type, not_lval); | |
2718 | } | |
2719 | ||
2720 | /* Reads from memory do not require a frame. */ | |
632e107b | 2721 | void read_mem (gdb_byte *buf, CORE_ADDR addr, size_t len) override |
192ca6d8 TT |
2722 | { |
2723 | memset (buf, 0, len); | |
2724 | } | |
2725 | ||
2726 | /* Frame-relative accesses do require a frame. */ | |
632e107b | 2727 | void get_frame_base (const gdb_byte **start, size_t *length) override |
192ca6d8 TT |
2728 | { |
2729 | static gdb_byte lit0 = DW_OP_lit0; | |
2730 | ||
2731 | *start = &lit0; | |
2732 | *length = 1; | |
2733 | ||
2734 | needs = SYMBOL_NEEDS_FRAME; | |
2735 | } | |
2736 | ||
2737 | /* CFA accesses require a frame. */ | |
632e107b | 2738 | CORE_ADDR get_frame_cfa () override |
192ca6d8 TT |
2739 | { |
2740 | needs = SYMBOL_NEEDS_FRAME; | |
2741 | return 1; | |
2742 | } | |
2743 | ||
632e107b | 2744 | CORE_ADDR get_frame_pc () override |
7d5697f9 TT |
2745 | { |
2746 | needs = SYMBOL_NEEDS_FRAME; | |
2747 | return 1; | |
2748 | } | |
2749 | ||
192ca6d8 | 2750 | /* Thread-local accesses require registers, but not a frame. */ |
632e107b | 2751 | CORE_ADDR get_tls_address (CORE_ADDR offset) override |
192ca6d8 TT |
2752 | { |
2753 | if (needs <= SYMBOL_NEEDS_REGISTERS) | |
2754 | needs = SYMBOL_NEEDS_REGISTERS; | |
2755 | return 1; | |
2756 | } | |
2757 | ||
2758 | /* Helper interface of per_cu_dwarf_call for | |
2759 | dwarf2_loc_desc_get_symbol_read_needs. */ | |
2760 | ||
632e107b | 2761 | void dwarf_call (cu_offset die_offset) override |
192ca6d8 | 2762 | { |
14095eb3 | 2763 | per_cu_dwarf_call (this, die_offset, per_cu, per_objfile); |
192ca6d8 TT |
2764 | } |
2765 | ||
a6b786da KB |
2766 | /* Helper interface of sect_variable_value for |
2767 | dwarf2_loc_desc_get_symbol_read_needs. */ | |
2768 | ||
2769 | struct value *dwarf_variable_value (sect_offset sect_off) override | |
2770 | { | |
14095eb3 | 2771 | return sect_variable_value (this, sect_off, per_cu, per_objfile); |
a6b786da KB |
2772 | } |
2773 | ||
216f72a1 | 2774 | /* DW_OP_entry_value accesses require a caller, therefore a |
192ca6d8 TT |
2775 | frame. */ |
2776 | ||
2777 | void push_dwarf_reg_entry_value (enum call_site_parameter_kind kind, | |
2778 | union call_site_parameter_u kind_u, | |
632e107b | 2779 | int deref_size) override |
192ca6d8 TT |
2780 | { |
2781 | needs = SYMBOL_NEEDS_FRAME; | |
3019eac3 | 2782 | |
192ca6d8 TT |
2783 | /* The expression may require some stub values on DWARF stack. */ |
2784 | push_address (0, 0); | |
2785 | } | |
3019eac3 | 2786 | |
336d760d | 2787 | /* DW_OP_addrx and DW_OP_GNU_addr_index doesn't require a frame. */ |
08412b07 | 2788 | |
632e107b | 2789 | CORE_ADDR get_addr_index (unsigned int index) override |
192ca6d8 TT |
2790 | { |
2791 | /* Nothing to do. */ | |
2792 | return 1; | |
2793 | } | |
08412b07 | 2794 | |
192ca6d8 | 2795 | /* DW_OP_push_object_address has a frame already passed through. */ |
9e8b7a03 | 2796 | |
632e107b | 2797 | CORE_ADDR get_object_address () override |
192ca6d8 TT |
2798 | { |
2799 | /* Nothing to do. */ | |
2800 | return 1; | |
2801 | } | |
9e8b7a03 JK |
2802 | }; |
2803 | ||
0b31a4bc TT |
2804 | /* Compute the correct symbol_needs_kind value for the location |
2805 | expression at DATA (length SIZE). */ | |
4c2df51b | 2806 | |
0b31a4bc TT |
2807 | static enum symbol_needs_kind |
2808 | dwarf2_loc_desc_get_symbol_read_needs (const gdb_byte *data, size_t size, | |
2809 | struct dwarf2_per_cu_data *per_cu) | |
4c2df51b | 2810 | { |
f630a401 | 2811 | int in_reg; |
09ba997f | 2812 | struct objfile *objfile = per_cu->objfile (); |
4c2df51b | 2813 | |
eb115069 TT |
2814 | scoped_value_mark free_values; |
2815 | ||
89b07335 | 2816 | symbol_needs_eval_context ctx (get_dwarf2_per_objfile (objfile)); |
192ca6d8 TT |
2817 | |
2818 | ctx.needs = SYMBOL_NEEDS_NONE; | |
2819 | ctx.per_cu = per_cu; | |
08feed99 | 2820 | ctx.gdbarch = objfile->arch (); |
09ba997f TT |
2821 | ctx.addr_size = per_cu->addr_size (); |
2822 | ctx.ref_addr_size = per_cu->ref_addr_size (); | |
4c2df51b | 2823 | |
595d2e30 | 2824 | ctx.eval (data, size); |
4c2df51b | 2825 | |
718b9626 | 2826 | in_reg = ctx.location == DWARF_VALUE_REGISTER; |
f630a401 | 2827 | |
1e467161 SM |
2828 | /* If the location has several pieces, and any of them are in |
2829 | registers, then we will need a frame to fetch them from. */ | |
2830 | for (dwarf_expr_piece &p : ctx.pieces) | |
2831 | if (p.location == DWARF_VALUE_REGISTER) | |
2832 | in_reg = 1; | |
87808bd6 | 2833 | |
0b31a4bc | 2834 | if (in_reg) |
192ca6d8 TT |
2835 | ctx.needs = SYMBOL_NEEDS_FRAME; |
2836 | return ctx.needs; | |
4c2df51b DJ |
2837 | } |
2838 | ||
3cf03773 TT |
2839 | /* A helper function that throws an unimplemented error mentioning a |
2840 | given DWARF operator. */ | |
2841 | ||
621846f4 | 2842 | static void ATTRIBUTE_NORETURN |
3cf03773 | 2843 | unimplemented (unsigned int op) |
0d53c4c4 | 2844 | { |
f39c6ffd | 2845 | const char *name = get_DW_OP_name (op); |
b1bfef65 TT |
2846 | |
2847 | if (name) | |
2848 | error (_("DWARF operator %s cannot be translated to an agent expression"), | |
2849 | name); | |
2850 | else | |
1ba1b353 TT |
2851 | error (_("Unknown DWARF operator 0x%02x cannot be translated " |
2852 | "to an agent expression"), | |
b1bfef65 | 2853 | op); |
3cf03773 | 2854 | } |
08922a10 | 2855 | |
0fde2c53 DE |
2856 | /* See dwarf2loc.h. |
2857 | ||
2858 | This is basically a wrapper on gdbarch_dwarf2_reg_to_regnum so that we | |
2859 | can issue a complaint, which is better than having every target's | |
2860 | implementation of dwarf2_reg_to_regnum do it. */ | |
08922a10 | 2861 | |
d064d1be | 2862 | int |
0fde2c53 | 2863 | dwarf_reg_to_regnum (struct gdbarch *arch, int dwarf_reg) |
3cf03773 TT |
2864 | { |
2865 | int reg = gdbarch_dwarf2_reg_to_regnum (arch, dwarf_reg); | |
0fde2c53 | 2866 | |
3cf03773 | 2867 | if (reg == -1) |
0fde2c53 | 2868 | { |
b98664d3 | 2869 | complaint (_("bad DWARF register number %d"), dwarf_reg); |
0fde2c53 DE |
2870 | } |
2871 | return reg; | |
2872 | } | |
2873 | ||
2874 | /* Subroutine of dwarf_reg_to_regnum_or_error to simplify it. | |
2875 | Throw an error because DWARF_REG is bad. */ | |
2876 | ||
2877 | static void | |
2878 | throw_bad_regnum_error (ULONGEST dwarf_reg) | |
2879 | { | |
2880 | /* Still want to print -1 as "-1". | |
2881 | We *could* have int and ULONGEST versions of dwarf2_reg_to_regnum_or_error | |
2882 | but that's overkill for now. */ | |
2883 | if ((int) dwarf_reg == dwarf_reg) | |
2884 | error (_("Unable to access DWARF register number %d"), (int) dwarf_reg); | |
2885 | error (_("Unable to access DWARF register number %s"), | |
2886 | pulongest (dwarf_reg)); | |
2887 | } | |
2888 | ||
2889 | /* See dwarf2loc.h. */ | |
2890 | ||
2891 | int | |
2892 | dwarf_reg_to_regnum_or_error (struct gdbarch *arch, ULONGEST dwarf_reg) | |
2893 | { | |
2894 | int reg; | |
2895 | ||
2896 | if (dwarf_reg > INT_MAX) | |
2897 | throw_bad_regnum_error (dwarf_reg); | |
2898 | /* Yes, we will end up issuing a complaint and an error if DWARF_REG is | |
2899 | bad, but that's ok. */ | |
2900 | reg = dwarf_reg_to_regnum (arch, (int) dwarf_reg); | |
2901 | if (reg == -1) | |
2902 | throw_bad_regnum_error (dwarf_reg); | |
3cf03773 TT |
2903 | return reg; |
2904 | } | |
08922a10 | 2905 | |
3cf03773 TT |
2906 | /* A helper function that emits an access to memory. ARCH is the |
2907 | target architecture. EXPR is the expression which we are building. | |
2908 | NBITS is the number of bits we want to read. This emits the | |
2909 | opcodes needed to read the memory and then extract the desired | |
2910 | bits. */ | |
08922a10 | 2911 | |
3cf03773 TT |
2912 | static void |
2913 | access_memory (struct gdbarch *arch, struct agent_expr *expr, ULONGEST nbits) | |
08922a10 | 2914 | { |
3cf03773 TT |
2915 | ULONGEST nbytes = (nbits + 7) / 8; |
2916 | ||
9df7235c | 2917 | gdb_assert (nbytes > 0 && nbytes <= sizeof (LONGEST)); |
3cf03773 | 2918 | |
92bc6a20 | 2919 | if (expr->tracing) |
3cf03773 TT |
2920 | ax_trace_quick (expr, nbytes); |
2921 | ||
2922 | if (nbits <= 8) | |
2923 | ax_simple (expr, aop_ref8); | |
2924 | else if (nbits <= 16) | |
2925 | ax_simple (expr, aop_ref16); | |
2926 | else if (nbits <= 32) | |
2927 | ax_simple (expr, aop_ref32); | |
2928 | else | |
2929 | ax_simple (expr, aop_ref64); | |
2930 | ||
2931 | /* If we read exactly the number of bytes we wanted, we're done. */ | |
2932 | if (8 * nbytes == nbits) | |
2933 | return; | |
2934 | ||
d5a22e77 | 2935 | if (gdbarch_byte_order (arch) == BFD_ENDIAN_BIG) |
0d53c4c4 | 2936 | { |
3cf03773 TT |
2937 | /* On a bits-big-endian machine, we want the high-order |
2938 | NBITS. */ | |
2939 | ax_const_l (expr, 8 * nbytes - nbits); | |
2940 | ax_simple (expr, aop_rsh_unsigned); | |
0d53c4c4 | 2941 | } |
3cf03773 | 2942 | else |
0d53c4c4 | 2943 | { |
3cf03773 TT |
2944 | /* On a bits-little-endian box, we want the low-order NBITS. */ |
2945 | ax_zero_ext (expr, nbits); | |
0d53c4c4 | 2946 | } |
3cf03773 | 2947 | } |
0936ad1d | 2948 | |
8cf6f0b1 TT |
2949 | /* A helper function to return the frame's PC. */ |
2950 | ||
2951 | static CORE_ADDR | |
2952 | get_ax_pc (void *baton) | |
2953 | { | |
9a3c8263 | 2954 | struct agent_expr *expr = (struct agent_expr *) baton; |
8cf6f0b1 TT |
2955 | |
2956 | return expr->scope; | |
2957 | } | |
2958 | ||
3cf03773 TT |
2959 | /* Compile a DWARF location expression to an agent expression. |
2960 | ||
2961 | EXPR is the agent expression we are building. | |
2962 | LOC is the agent value we modify. | |
2963 | ARCH is the architecture. | |
2964 | ADDR_SIZE is the size of addresses, in bytes. | |
2965 | OP_PTR is the start of the location expression. | |
2966 | OP_END is one past the last byte of the location expression. | |
2967 | ||
2968 | This will throw an exception for various kinds of errors -- for | |
2969 | example, if the expression cannot be compiled, or if the expression | |
2970 | is invalid. */ | |
0936ad1d | 2971 | |
5707a07a | 2972 | static void |
9f6f94ff | 2973 | dwarf2_compile_expr_to_ax (struct agent_expr *expr, struct axs_value *loc, |
40f4af28 SM |
2974 | unsigned int addr_size, const gdb_byte *op_ptr, |
2975 | const gdb_byte *op_end, | |
4b167ea1 SM |
2976 | dwarf2_per_cu_data *per_cu, |
2977 | dwarf2_per_objfile *per_objfile) | |
3cf03773 | 2978 | { |
40f4af28 | 2979 | gdbarch *arch = expr->gdbarch; |
58414334 | 2980 | std::vector<int> dw_labels, patches; |
3cf03773 TT |
2981 | const gdb_byte * const base = op_ptr; |
2982 | const gdb_byte *previous_piece = op_ptr; | |
2983 | enum bfd_endian byte_order = gdbarch_byte_order (arch); | |
2984 | ULONGEST bits_collected = 0; | |
2985 | unsigned int addr_size_bits = 8 * addr_size; | |
d5a22e77 | 2986 | bool bits_big_endian = byte_order == BFD_ENDIAN_BIG; |
0936ad1d | 2987 | |
58414334 | 2988 | std::vector<int> offsets (op_end - op_ptr, -1); |
0936ad1d | 2989 | |
3cf03773 TT |
2990 | /* By default we are making an address. */ |
2991 | loc->kind = axs_lvalue_memory; | |
0d45f56e | 2992 | |
3cf03773 TT |
2993 | while (op_ptr < op_end) |
2994 | { | |
aead7601 | 2995 | enum dwarf_location_atom op = (enum dwarf_location_atom) *op_ptr; |
9fccedf7 DE |
2996 | uint64_t uoffset, reg; |
2997 | int64_t offset; | |
3cf03773 TT |
2998 | int i; |
2999 | ||
3000 | offsets[op_ptr - base] = expr->len; | |
3001 | ++op_ptr; | |
3002 | ||
3003 | /* Our basic approach to code generation is to map DWARF | |
3004 | operations directly to AX operations. However, there are | |
3005 | some differences. | |
3006 | ||
3007 | First, DWARF works on address-sized units, but AX always uses | |
3008 | LONGEST. For most operations we simply ignore this | |
3009 | difference; instead we generate sign extensions as needed | |
3010 | before division and comparison operations. It would be nice | |
3011 | to omit the sign extensions, but there is no way to determine | |
3012 | the size of the target's LONGEST. (This code uses the size | |
3013 | of the host LONGEST in some cases -- that is a bug but it is | |
3014 | difficult to fix.) | |
3015 | ||
3016 | Second, some DWARF operations cannot be translated to AX. | |
3017 | For these we simply fail. See | |
3018 | http://sourceware.org/bugzilla/show_bug.cgi?id=11662. */ | |
3019 | switch (op) | |
0936ad1d | 3020 | { |
3cf03773 TT |
3021 | case DW_OP_lit0: |
3022 | case DW_OP_lit1: | |
3023 | case DW_OP_lit2: | |
3024 | case DW_OP_lit3: | |
3025 | case DW_OP_lit4: | |
3026 | case DW_OP_lit5: | |
3027 | case DW_OP_lit6: | |
3028 | case DW_OP_lit7: | |
3029 | case DW_OP_lit8: | |
3030 | case DW_OP_lit9: | |
3031 | case DW_OP_lit10: | |
3032 | case DW_OP_lit11: | |
3033 | case DW_OP_lit12: | |
3034 | case DW_OP_lit13: | |
3035 | case DW_OP_lit14: | |
3036 | case DW_OP_lit15: | |
3037 | case DW_OP_lit16: | |
3038 | case DW_OP_lit17: | |
3039 | case DW_OP_lit18: | |
3040 | case DW_OP_lit19: | |
3041 | case DW_OP_lit20: | |
3042 | case DW_OP_lit21: | |
3043 | case DW_OP_lit22: | |
3044 | case DW_OP_lit23: | |
3045 | case DW_OP_lit24: | |
3046 | case DW_OP_lit25: | |
3047 | case DW_OP_lit26: | |
3048 | case DW_OP_lit27: | |
3049 | case DW_OP_lit28: | |
3050 | case DW_OP_lit29: | |
3051 | case DW_OP_lit30: | |
3052 | case DW_OP_lit31: | |
3053 | ax_const_l (expr, op - DW_OP_lit0); | |
3054 | break; | |
0d53c4c4 | 3055 | |
3cf03773 | 3056 | case DW_OP_addr: |
ac56253d | 3057 | uoffset = extract_unsigned_integer (op_ptr, addr_size, byte_order); |
3cf03773 | 3058 | op_ptr += addr_size; |
ac56253d TT |
3059 | /* Some versions of GCC emit DW_OP_addr before |
3060 | DW_OP_GNU_push_tls_address. In this case the value is an | |
3061 | index, not an address. We don't support things like | |
3062 | branching between the address and the TLS op. */ | |
3063 | if (op_ptr >= op_end || *op_ptr != DW_OP_GNU_push_tls_address) | |
4b167ea1 | 3064 | uoffset += per_objfile->objfile->text_section_offset (); |
ac56253d | 3065 | ax_const_l (expr, uoffset); |
3cf03773 | 3066 | break; |
4c2df51b | 3067 | |
3cf03773 TT |
3068 | case DW_OP_const1u: |
3069 | ax_const_l (expr, extract_unsigned_integer (op_ptr, 1, byte_order)); | |
3070 | op_ptr += 1; | |
3071 | break; | |
3072 | case DW_OP_const1s: | |
3073 | ax_const_l (expr, extract_signed_integer (op_ptr, 1, byte_order)); | |
3074 | op_ptr += 1; | |
3075 | break; | |
3076 | case DW_OP_const2u: | |
3077 | ax_const_l (expr, extract_unsigned_integer (op_ptr, 2, byte_order)); | |
3078 | op_ptr += 2; | |
3079 | break; | |
3080 | case DW_OP_const2s: | |
3081 | ax_const_l (expr, extract_signed_integer (op_ptr, 2, byte_order)); | |
3082 | op_ptr += 2; | |
3083 | break; | |
3084 | case DW_OP_const4u: | |
3085 | ax_const_l (expr, extract_unsigned_integer (op_ptr, 4, byte_order)); | |
3086 | op_ptr += 4; | |
3087 | break; | |
3088 | case DW_OP_const4s: | |
3089 | ax_const_l (expr, extract_signed_integer (op_ptr, 4, byte_order)); | |
3090 | op_ptr += 4; | |
3091 | break; | |
3092 | case DW_OP_const8u: | |
3093 | ax_const_l (expr, extract_unsigned_integer (op_ptr, 8, byte_order)); | |
3094 | op_ptr += 8; | |
3095 | break; | |
3096 | case DW_OP_const8s: | |
3097 | ax_const_l (expr, extract_signed_integer (op_ptr, 8, byte_order)); | |
3098 | op_ptr += 8; | |
3099 | break; | |
3100 | case DW_OP_constu: | |
f664829e | 3101 | op_ptr = safe_read_uleb128 (op_ptr, op_end, &uoffset); |
3cf03773 TT |
3102 | ax_const_l (expr, uoffset); |
3103 | break; | |
3104 | case DW_OP_consts: | |
f664829e | 3105 | op_ptr = safe_read_sleb128 (op_ptr, op_end, &offset); |
3cf03773 TT |
3106 | ax_const_l (expr, offset); |
3107 | break; | |
9c238357 | 3108 | |
3cf03773 TT |
3109 | case DW_OP_reg0: |
3110 | case DW_OP_reg1: | |
3111 | case DW_OP_reg2: | |
3112 | case DW_OP_reg3: | |
3113 | case DW_OP_reg4: | |
3114 | case DW_OP_reg5: | |
3115 | case DW_OP_reg6: | |
3116 | case DW_OP_reg7: | |
3117 | case DW_OP_reg8: | |
3118 | case DW_OP_reg9: | |
3119 | case DW_OP_reg10: | |
3120 | case DW_OP_reg11: | |
3121 | case DW_OP_reg12: | |
3122 | case DW_OP_reg13: | |
3123 | case DW_OP_reg14: | |
3124 | case DW_OP_reg15: | |
3125 | case DW_OP_reg16: | |
3126 | case DW_OP_reg17: | |
3127 | case DW_OP_reg18: | |
3128 | case DW_OP_reg19: | |
3129 | case DW_OP_reg20: | |
3130 | case DW_OP_reg21: | |
3131 | case DW_OP_reg22: | |
3132 | case DW_OP_reg23: | |
3133 | case DW_OP_reg24: | |
3134 | case DW_OP_reg25: | |
3135 | case DW_OP_reg26: | |
3136 | case DW_OP_reg27: | |
3137 | case DW_OP_reg28: | |
3138 | case DW_OP_reg29: | |
3139 | case DW_OP_reg30: | |
3140 | case DW_OP_reg31: | |
3141 | dwarf_expr_require_composition (op_ptr, op_end, "DW_OP_regx"); | |
0fde2c53 | 3142 | loc->u.reg = dwarf_reg_to_regnum_or_error (arch, op - DW_OP_reg0); |
3cf03773 TT |
3143 | loc->kind = axs_lvalue_register; |
3144 | break; | |
9c238357 | 3145 | |
3cf03773 | 3146 | case DW_OP_regx: |
f664829e | 3147 | op_ptr = safe_read_uleb128 (op_ptr, op_end, ®); |
3cf03773 | 3148 | dwarf_expr_require_composition (op_ptr, op_end, "DW_OP_regx"); |
0fde2c53 | 3149 | loc->u.reg = dwarf_reg_to_regnum_or_error (arch, reg); |
3cf03773 TT |
3150 | loc->kind = axs_lvalue_register; |
3151 | break; | |
08922a10 | 3152 | |
3cf03773 TT |
3153 | case DW_OP_implicit_value: |
3154 | { | |
9fccedf7 | 3155 | uint64_t len; |
3cf03773 | 3156 | |
f664829e | 3157 | op_ptr = safe_read_uleb128 (op_ptr, op_end, &len); |
3cf03773 TT |
3158 | if (op_ptr + len > op_end) |
3159 | error (_("DW_OP_implicit_value: too few bytes available.")); | |
3160 | if (len > sizeof (ULONGEST)) | |
3161 | error (_("Cannot translate DW_OP_implicit_value of %d bytes"), | |
3162 | (int) len); | |
3163 | ||
3164 | ax_const_l (expr, extract_unsigned_integer (op_ptr, len, | |
3165 | byte_order)); | |
3166 | op_ptr += len; | |
3167 | dwarf_expr_require_composition (op_ptr, op_end, | |
3168 | "DW_OP_implicit_value"); | |
3169 | ||
3170 | loc->kind = axs_rvalue; | |
3171 | } | |
3172 | break; | |
08922a10 | 3173 | |
3cf03773 TT |
3174 | case DW_OP_stack_value: |
3175 | dwarf_expr_require_composition (op_ptr, op_end, "DW_OP_stack_value"); | |
3176 | loc->kind = axs_rvalue; | |
3177 | break; | |
08922a10 | 3178 | |
3cf03773 TT |
3179 | case DW_OP_breg0: |
3180 | case DW_OP_breg1: | |
3181 | case DW_OP_breg2: | |
3182 | case DW_OP_breg3: | |
3183 | case DW_OP_breg4: | |
3184 | case DW_OP_breg5: | |
3185 | case DW_OP_breg6: | |
3186 | case DW_OP_breg7: | |
3187 | case DW_OP_breg8: | |
3188 | case DW_OP_breg9: | |
3189 | case DW_OP_breg10: | |
3190 | case DW_OP_breg11: | |
3191 | case DW_OP_breg12: | |
3192 | case DW_OP_breg13: | |
3193 | case DW_OP_breg14: | |
3194 | case DW_OP_breg15: | |
3195 | case DW_OP_breg16: | |
3196 | case DW_OP_breg17: | |
3197 | case DW_OP_breg18: | |
3198 | case DW_OP_breg19: | |
3199 | case DW_OP_breg20: | |
3200 | case DW_OP_breg21: | |
3201 | case DW_OP_breg22: | |
3202 | case DW_OP_breg23: | |
3203 | case DW_OP_breg24: | |
3204 | case DW_OP_breg25: | |
3205 | case DW_OP_breg26: | |
3206 | case DW_OP_breg27: | |
3207 | case DW_OP_breg28: | |
3208 | case DW_OP_breg29: | |
3209 | case DW_OP_breg30: | |
3210 | case DW_OP_breg31: | |
f664829e | 3211 | op_ptr = safe_read_sleb128 (op_ptr, op_end, &offset); |
0fde2c53 | 3212 | i = dwarf_reg_to_regnum_or_error (arch, op - DW_OP_breg0); |
3cf03773 TT |
3213 | ax_reg (expr, i); |
3214 | if (offset != 0) | |
3215 | { | |
3216 | ax_const_l (expr, offset); | |
3217 | ax_simple (expr, aop_add); | |
3218 | } | |
3219 | break; | |
3220 | case DW_OP_bregx: | |
3221 | { | |
f664829e DE |
3222 | op_ptr = safe_read_uleb128 (op_ptr, op_end, ®); |
3223 | op_ptr = safe_read_sleb128 (op_ptr, op_end, &offset); | |
0fde2c53 | 3224 | i = dwarf_reg_to_regnum_or_error (arch, reg); |
3cf03773 TT |
3225 | ax_reg (expr, i); |
3226 | if (offset != 0) | |
3227 | { | |
3228 | ax_const_l (expr, offset); | |
3229 | ax_simple (expr, aop_add); | |
3230 | } | |
3231 | } | |
3232 | break; | |
3233 | case DW_OP_fbreg: | |
3234 | { | |
3235 | const gdb_byte *datastart; | |
3236 | size_t datalen; | |
3977b71f | 3237 | const struct block *b; |
3cf03773 | 3238 | struct symbol *framefunc; |
08922a10 | 3239 | |
3cf03773 TT |
3240 | b = block_for_pc (expr->scope); |
3241 | ||
3242 | if (!b) | |
3243 | error (_("No block found for address")); | |
3244 | ||
3245 | framefunc = block_linkage_function (b); | |
3246 | ||
3247 | if (!framefunc) | |
3248 | error (_("No function found for block")); | |
3249 | ||
af945b75 TT |
3250 | func_get_frame_base_dwarf_block (framefunc, expr->scope, |
3251 | &datastart, &datalen); | |
3cf03773 | 3252 | |
f664829e | 3253 | op_ptr = safe_read_sleb128 (op_ptr, op_end, &offset); |
40f4af28 | 3254 | dwarf2_compile_expr_to_ax (expr, loc, addr_size, datastart, |
4b167ea1 SM |
3255 | datastart + datalen, per_cu, |
3256 | per_objfile); | |
d84cf7eb TT |
3257 | if (loc->kind == axs_lvalue_register) |
3258 | require_rvalue (expr, loc); | |
3cf03773 TT |
3259 | |
3260 | if (offset != 0) | |
3261 | { | |
3262 | ax_const_l (expr, offset); | |
3263 | ax_simple (expr, aop_add); | |
3264 | } | |
3265 | ||
3266 | loc->kind = axs_lvalue_memory; | |
3267 | } | |
08922a10 | 3268 | break; |
08922a10 | 3269 | |
3cf03773 TT |
3270 | case DW_OP_dup: |
3271 | ax_simple (expr, aop_dup); | |
3272 | break; | |
08922a10 | 3273 | |
3cf03773 TT |
3274 | case DW_OP_drop: |
3275 | ax_simple (expr, aop_pop); | |
3276 | break; | |
08922a10 | 3277 | |
3cf03773 TT |
3278 | case DW_OP_pick: |
3279 | offset = *op_ptr++; | |
c7f96d2b | 3280 | ax_pick (expr, offset); |
3cf03773 TT |
3281 | break; |
3282 | ||
3283 | case DW_OP_swap: | |
3284 | ax_simple (expr, aop_swap); | |
3285 | break; | |
08922a10 | 3286 | |
3cf03773 | 3287 | case DW_OP_over: |
c7f96d2b | 3288 | ax_pick (expr, 1); |
3cf03773 | 3289 | break; |
08922a10 | 3290 | |
3cf03773 | 3291 | case DW_OP_rot: |
c7f96d2b | 3292 | ax_simple (expr, aop_rot); |
3cf03773 | 3293 | break; |
08922a10 | 3294 | |
3cf03773 TT |
3295 | case DW_OP_deref: |
3296 | case DW_OP_deref_size: | |
3297 | { | |
3298 | int size; | |
08922a10 | 3299 | |
3cf03773 TT |
3300 | if (op == DW_OP_deref_size) |
3301 | size = *op_ptr++; | |
3302 | else | |
3303 | size = addr_size; | |
3304 | ||
9df7235c | 3305 | if (size != 1 && size != 2 && size != 4 && size != 8) |
f3cec7e6 HZ |
3306 | error (_("Unsupported size %d in %s"), |
3307 | size, get_DW_OP_name (op)); | |
9df7235c | 3308 | access_memory (arch, expr, size * TARGET_CHAR_BIT); |
3cf03773 TT |
3309 | } |
3310 | break; | |
3311 | ||
3312 | case DW_OP_abs: | |
3313 | /* Sign extend the operand. */ | |
3314 | ax_ext (expr, addr_size_bits); | |
3315 | ax_simple (expr, aop_dup); | |
3316 | ax_const_l (expr, 0); | |
3317 | ax_simple (expr, aop_less_signed); | |
3318 | ax_simple (expr, aop_log_not); | |
3319 | i = ax_goto (expr, aop_if_goto); | |
3320 | /* We have to emit 0 - X. */ | |
3321 | ax_const_l (expr, 0); | |
3322 | ax_simple (expr, aop_swap); | |
3323 | ax_simple (expr, aop_sub); | |
3324 | ax_label (expr, i, expr->len); | |
3325 | break; | |
3326 | ||
3327 | case DW_OP_neg: | |
3328 | /* No need to sign extend here. */ | |
3329 | ax_const_l (expr, 0); | |
3330 | ax_simple (expr, aop_swap); | |
3331 | ax_simple (expr, aop_sub); | |
3332 | break; | |
3333 | ||
3334 | case DW_OP_not: | |
3335 | /* Sign extend the operand. */ | |
3336 | ax_ext (expr, addr_size_bits); | |
3337 | ax_simple (expr, aop_bit_not); | |
3338 | break; | |
3339 | ||
3340 | case DW_OP_plus_uconst: | |
f664829e | 3341 | op_ptr = safe_read_uleb128 (op_ptr, op_end, ®); |
3cf03773 TT |
3342 | /* It would be really weird to emit `DW_OP_plus_uconst 0', |
3343 | but we micro-optimize anyhow. */ | |
3344 | if (reg != 0) | |
3345 | { | |
3346 | ax_const_l (expr, reg); | |
3347 | ax_simple (expr, aop_add); | |
3348 | } | |
3349 | break; | |
3350 | ||
3351 | case DW_OP_and: | |
3352 | ax_simple (expr, aop_bit_and); | |
3353 | break; | |
3354 | ||
3355 | case DW_OP_div: | |
3356 | /* Sign extend the operands. */ | |
3357 | ax_ext (expr, addr_size_bits); | |
3358 | ax_simple (expr, aop_swap); | |
3359 | ax_ext (expr, addr_size_bits); | |
3360 | ax_simple (expr, aop_swap); | |
3361 | ax_simple (expr, aop_div_signed); | |
08922a10 SS |
3362 | break; |
3363 | ||
3cf03773 TT |
3364 | case DW_OP_minus: |
3365 | ax_simple (expr, aop_sub); | |
3366 | break; | |
3367 | ||
3368 | case DW_OP_mod: | |
3369 | ax_simple (expr, aop_rem_unsigned); | |
3370 | break; | |
3371 | ||
3372 | case DW_OP_mul: | |
3373 | ax_simple (expr, aop_mul); | |
3374 | break; | |
3375 | ||
3376 | case DW_OP_or: | |
3377 | ax_simple (expr, aop_bit_or); | |
3378 | break; | |
3379 | ||
3380 | case DW_OP_plus: | |
3381 | ax_simple (expr, aop_add); | |
3382 | break; | |
3383 | ||
3384 | case DW_OP_shl: | |
3385 | ax_simple (expr, aop_lsh); | |
3386 | break; | |
3387 | ||
3388 | case DW_OP_shr: | |
3389 | ax_simple (expr, aop_rsh_unsigned); | |
3390 | break; | |
3391 | ||
3392 | case DW_OP_shra: | |
3393 | ax_simple (expr, aop_rsh_signed); | |
3394 | break; | |
3395 | ||
3396 | case DW_OP_xor: | |
3397 | ax_simple (expr, aop_bit_xor); | |
3398 | break; | |
3399 | ||
3400 | case DW_OP_le: | |
3401 | /* Sign extend the operands. */ | |
3402 | ax_ext (expr, addr_size_bits); | |
3403 | ax_simple (expr, aop_swap); | |
3404 | ax_ext (expr, addr_size_bits); | |
3405 | /* Note no swap here: A <= B is !(B < A). */ | |
3406 | ax_simple (expr, aop_less_signed); | |
3407 | ax_simple (expr, aop_log_not); | |
3408 | break; | |
3409 | ||
3410 | case DW_OP_ge: | |
3411 | /* Sign extend the operands. */ | |
3412 | ax_ext (expr, addr_size_bits); | |
3413 | ax_simple (expr, aop_swap); | |
3414 | ax_ext (expr, addr_size_bits); | |
3415 | ax_simple (expr, aop_swap); | |
3416 | /* A >= B is !(A < B). */ | |
3417 | ax_simple (expr, aop_less_signed); | |
3418 | ax_simple (expr, aop_log_not); | |
3419 | break; | |
3420 | ||
3421 | case DW_OP_eq: | |
3422 | /* Sign extend the operands. */ | |
3423 | ax_ext (expr, addr_size_bits); | |
3424 | ax_simple (expr, aop_swap); | |
3425 | ax_ext (expr, addr_size_bits); | |
3426 | /* No need for a second swap here. */ | |
3427 | ax_simple (expr, aop_equal); | |
3428 | break; | |
3429 | ||
3430 | case DW_OP_lt: | |
3431 | /* Sign extend the operands. */ | |
3432 | ax_ext (expr, addr_size_bits); | |
3433 | ax_simple (expr, aop_swap); | |
3434 | ax_ext (expr, addr_size_bits); | |
3435 | ax_simple (expr, aop_swap); | |
3436 | ax_simple (expr, aop_less_signed); | |
3437 | break; | |
3438 | ||
3439 | case DW_OP_gt: | |
3440 | /* Sign extend the operands. */ | |
3441 | ax_ext (expr, addr_size_bits); | |
3442 | ax_simple (expr, aop_swap); | |
3443 | ax_ext (expr, addr_size_bits); | |
3444 | /* Note no swap here: A > B is B < A. */ | |
3445 | ax_simple (expr, aop_less_signed); | |
3446 | break; | |
3447 | ||
3448 | case DW_OP_ne: | |
3449 | /* Sign extend the operands. */ | |
3450 | ax_ext (expr, addr_size_bits); | |
3451 | ax_simple (expr, aop_swap); | |
3452 | ax_ext (expr, addr_size_bits); | |
3453 | /* No need for a swap here. */ | |
3454 | ax_simple (expr, aop_equal); | |
3455 | ax_simple (expr, aop_log_not); | |
3456 | break; | |
3457 | ||
3458 | case DW_OP_call_frame_cfa: | |
a8fd5589 TT |
3459 | { |
3460 | int regnum; | |
3461 | CORE_ADDR text_offset; | |
3462 | LONGEST off; | |
3463 | const gdb_byte *cfa_start, *cfa_end; | |
3464 | ||
3465 | if (dwarf2_fetch_cfa_info (arch, expr->scope, per_cu, | |
3466 | ®num, &off, | |
3467 | &text_offset, &cfa_start, &cfa_end)) | |
3468 | { | |
3469 | /* Register. */ | |
3470 | ax_reg (expr, regnum); | |
3471 | if (off != 0) | |
3472 | { | |
3473 | ax_const_l (expr, off); | |
3474 | ax_simple (expr, aop_add); | |
3475 | } | |
3476 | } | |
3477 | else | |
3478 | { | |
3479 | /* Another expression. */ | |
3480 | ax_const_l (expr, text_offset); | |
40f4af28 | 3481 | dwarf2_compile_expr_to_ax (expr, loc, addr_size, cfa_start, |
4b167ea1 | 3482 | cfa_end, per_cu, per_objfile); |
a8fd5589 TT |
3483 | } |
3484 | ||
3485 | loc->kind = axs_lvalue_memory; | |
3486 | } | |
3cf03773 TT |
3487 | break; |
3488 | ||
3489 | case DW_OP_GNU_push_tls_address: | |
4aa4e28b | 3490 | case DW_OP_form_tls_address: |
3cf03773 TT |
3491 | unimplemented (op); |
3492 | break; | |
3493 | ||
08412b07 JB |
3494 | case DW_OP_push_object_address: |
3495 | unimplemented (op); | |
3496 | break; | |
3497 | ||
3cf03773 TT |
3498 | case DW_OP_skip: |
3499 | offset = extract_signed_integer (op_ptr, 2, byte_order); | |
3500 | op_ptr += 2; | |
3501 | i = ax_goto (expr, aop_goto); | |
58414334 TT |
3502 | dw_labels.push_back (op_ptr + offset - base); |
3503 | patches.push_back (i); | |
3cf03773 TT |
3504 | break; |
3505 | ||
3506 | case DW_OP_bra: | |
3507 | offset = extract_signed_integer (op_ptr, 2, byte_order); | |
3508 | op_ptr += 2; | |
3509 | /* Zero extend the operand. */ | |
3510 | ax_zero_ext (expr, addr_size_bits); | |
3511 | i = ax_goto (expr, aop_if_goto); | |
58414334 TT |
3512 | dw_labels.push_back (op_ptr + offset - base); |
3513 | patches.push_back (i); | |
3cf03773 TT |
3514 | break; |
3515 | ||
3516 | case DW_OP_nop: | |
3517 | break; | |
3518 | ||
3519 | case DW_OP_piece: | |
3520 | case DW_OP_bit_piece: | |
08922a10 | 3521 | { |
b926417a | 3522 | uint64_t size; |
3cf03773 TT |
3523 | |
3524 | if (op_ptr - 1 == previous_piece) | |
3525 | error (_("Cannot translate empty pieces to agent expressions")); | |
3526 | previous_piece = op_ptr - 1; | |
3527 | ||
f664829e | 3528 | op_ptr = safe_read_uleb128 (op_ptr, op_end, &size); |
3cf03773 TT |
3529 | if (op == DW_OP_piece) |
3530 | { | |
3531 | size *= 8; | |
b926417a | 3532 | uoffset = 0; |
3cf03773 TT |
3533 | } |
3534 | else | |
b926417a | 3535 | op_ptr = safe_read_uleb128 (op_ptr, op_end, &uoffset); |
08922a10 | 3536 | |
3cf03773 TT |
3537 | if (bits_collected + size > 8 * sizeof (LONGEST)) |
3538 | error (_("Expression pieces exceed word size")); | |
3539 | ||
3540 | /* Access the bits. */ | |
3541 | switch (loc->kind) | |
3542 | { | |
3543 | case axs_lvalue_register: | |
3544 | ax_reg (expr, loc->u.reg); | |
3545 | break; | |
3546 | ||
3547 | case axs_lvalue_memory: | |
3548 | /* Offset the pointer, if needed. */ | |
b926417a | 3549 | if (uoffset > 8) |
3cf03773 | 3550 | { |
b926417a | 3551 | ax_const_l (expr, uoffset / 8); |
3cf03773 | 3552 | ax_simple (expr, aop_add); |
b926417a | 3553 | uoffset %= 8; |
3cf03773 TT |
3554 | } |
3555 | access_memory (arch, expr, size); | |
3556 | break; | |
3557 | } | |
3558 | ||
3559 | /* For a bits-big-endian target, shift up what we already | |
3560 | have. For a bits-little-endian target, shift up the | |
3561 | new data. Note that there is a potential bug here if | |
3562 | the DWARF expression leaves multiple values on the | |
3563 | stack. */ | |
3564 | if (bits_collected > 0) | |
3565 | { | |
3566 | if (bits_big_endian) | |
3567 | { | |
3568 | ax_simple (expr, aop_swap); | |
3569 | ax_const_l (expr, size); | |
3570 | ax_simple (expr, aop_lsh); | |
3571 | /* We don't need a second swap here, because | |
3572 | aop_bit_or is symmetric. */ | |
3573 | } | |
3574 | else | |
3575 | { | |
3576 | ax_const_l (expr, size); | |
3577 | ax_simple (expr, aop_lsh); | |
3578 | } | |
3579 | ax_simple (expr, aop_bit_or); | |
3580 | } | |
3581 | ||
3582 | bits_collected += size; | |
3583 | loc->kind = axs_rvalue; | |
08922a10 SS |
3584 | } |
3585 | break; | |
08922a10 | 3586 | |
3cf03773 TT |
3587 | case DW_OP_GNU_uninit: |
3588 | unimplemented (op); | |
3589 | ||
3590 | case DW_OP_call2: | |
3591 | case DW_OP_call4: | |
3592 | { | |
3593 | struct dwarf2_locexpr_baton block; | |
3594 | int size = (op == DW_OP_call2 ? 2 : 4); | |
3595 | ||
3596 | uoffset = extract_unsigned_integer (op_ptr, size, byte_order); | |
3597 | op_ptr += size; | |
3598 | ||
b926417a | 3599 | cu_offset cuoffset = (cu_offset) uoffset; |
14095eb3 | 3600 | block = dwarf2_fetch_die_loc_cu_off (cuoffset, per_cu, per_objfile, |
8b9737bf | 3601 | get_ax_pc, expr); |
3cf03773 TT |
3602 | |
3603 | /* DW_OP_call_ref is currently not supported. */ | |
3604 | gdb_assert (block.per_cu == per_cu); | |
3605 | ||
40f4af28 | 3606 | dwarf2_compile_expr_to_ax (expr, loc, addr_size, block.data, |
4b167ea1 SM |
3607 | block.data + block.size, per_cu, |
3608 | per_objfile); | |
3cf03773 TT |
3609 | } |
3610 | break; | |
3611 | ||
3612 | case DW_OP_call_ref: | |
3613 | unimplemented (op); | |
3614 | ||
a6b786da KB |
3615 | case DW_OP_GNU_variable_value: |
3616 | unimplemented (op); | |
3617 | ||
3cf03773 | 3618 | default: |
b1bfef65 | 3619 | unimplemented (op); |
08922a10 | 3620 | } |
08922a10 | 3621 | } |
3cf03773 TT |
3622 | |
3623 | /* Patch all the branches we emitted. */ | |
b926417a | 3624 | for (int i = 0; i < patches.size (); ++i) |
3cf03773 | 3625 | { |
58414334 | 3626 | int targ = offsets[dw_labels[i]]; |
3cf03773 TT |
3627 | if (targ == -1) |
3628 | internal_error (__FILE__, __LINE__, _("invalid label")); | |
58414334 | 3629 | ax_label (expr, patches[i], targ); |
3cf03773 | 3630 | } |
08922a10 SS |
3631 | } |
3632 | ||
4c2df51b DJ |
3633 | \f |
3634 | /* Return the value of SYMBOL in FRAME using the DWARF-2 expression | |
3635 | evaluator to calculate the location. */ | |
3636 | static struct value * | |
3637 | locexpr_read_variable (struct symbol *symbol, struct frame_info *frame) | |
3638 | { | |
9a3c8263 SM |
3639 | struct dwarf2_locexpr_baton *dlbaton |
3640 | = (struct dwarf2_locexpr_baton *) SYMBOL_LOCATION_BATON (symbol); | |
4c2df51b | 3641 | struct value *val; |
9a619af0 | 3642 | |
a2d33775 JK |
3643 | val = dwarf2_evaluate_loc_desc (SYMBOL_TYPE (symbol), frame, dlbaton->data, |
3644 | dlbaton->size, dlbaton->per_cu); | |
4c2df51b DJ |
3645 | |
3646 | return val; | |
3647 | } | |
3648 | ||
e18b2753 JK |
3649 | /* Return the value of SYMBOL in FRAME at (callee) FRAME's function |
3650 | entry. SYMBOL should be a function parameter, otherwise NO_ENTRY_VALUE_ERROR | |
3651 | will be thrown. */ | |
3652 | ||
3653 | static struct value * | |
3654 | locexpr_read_variable_at_entry (struct symbol *symbol, struct frame_info *frame) | |
3655 | { | |
9a3c8263 SM |
3656 | struct dwarf2_locexpr_baton *dlbaton |
3657 | = (struct dwarf2_locexpr_baton *) SYMBOL_LOCATION_BATON (symbol); | |
e18b2753 JK |
3658 | |
3659 | return value_of_dwarf_block_entry (SYMBOL_TYPE (symbol), frame, dlbaton->data, | |
3660 | dlbaton->size); | |
3661 | } | |
3662 | ||
0b31a4bc TT |
3663 | /* Implementation of get_symbol_read_needs from |
3664 | symbol_computed_ops. */ | |
3665 | ||
3666 | static enum symbol_needs_kind | |
3667 | locexpr_get_symbol_read_needs (struct symbol *symbol) | |
4c2df51b | 3668 | { |
9a3c8263 SM |
3669 | struct dwarf2_locexpr_baton *dlbaton |
3670 | = (struct dwarf2_locexpr_baton *) SYMBOL_LOCATION_BATON (symbol); | |
9a619af0 | 3671 | |
0b31a4bc TT |
3672 | return dwarf2_loc_desc_get_symbol_read_needs (dlbaton->data, dlbaton->size, |
3673 | dlbaton->per_cu); | |
4c2df51b DJ |
3674 | } |
3675 | ||
9eae7c52 TT |
3676 | /* Return true if DATA points to the end of a piece. END is one past |
3677 | the last byte in the expression. */ | |
3678 | ||
3679 | static int | |
3680 | piece_end_p (const gdb_byte *data, const gdb_byte *end) | |
3681 | { | |
3682 | return data == end || data[0] == DW_OP_piece || data[0] == DW_OP_bit_piece; | |
3683 | } | |
3684 | ||
5e44ecb3 TT |
3685 | /* Helper for locexpr_describe_location_piece that finds the name of a |
3686 | DWARF register. */ | |
3687 | ||
3688 | static const char * | |
3689 | locexpr_regname (struct gdbarch *gdbarch, int dwarf_regnum) | |
3690 | { | |
3691 | int regnum; | |
3692 | ||
0fde2c53 DE |
3693 | /* This doesn't use dwarf_reg_to_regnum_or_error on purpose. |
3694 | We'd rather print *something* here than throw an error. */ | |
3695 | regnum = dwarf_reg_to_regnum (gdbarch, dwarf_regnum); | |
3696 | /* gdbarch_register_name may just return "", return something more | |
3697 | descriptive for bad register numbers. */ | |
3698 | if (regnum == -1) | |
3699 | { | |
3700 | /* The text is output as "$bad_register_number". | |
3701 | That is why we use the underscores. */ | |
3702 | return _("bad_register_number"); | |
3703 | } | |
5e44ecb3 TT |
3704 | return gdbarch_register_name (gdbarch, regnum); |
3705 | } | |
3706 | ||
9eae7c52 TT |
3707 | /* Nicely describe a single piece of a location, returning an updated |
3708 | position in the bytecode sequence. This function cannot recognize | |
3709 | all locations; if a location is not recognized, it simply returns | |
f664829e DE |
3710 | DATA. If there is an error during reading, e.g. we run off the end |
3711 | of the buffer, an error is thrown. */ | |
08922a10 | 3712 | |
0d45f56e | 3713 | static const gdb_byte * |
08922a10 | 3714 | locexpr_describe_location_piece (struct symbol *symbol, struct ui_file *stream, |
82ca3f51 SM |
3715 | CORE_ADDR addr, dwarf2_per_cu_data *per_cu, |
3716 | dwarf2_per_objfile *per_objfile, | |
9eae7c52 | 3717 | const gdb_byte *data, const gdb_byte *end, |
0d45f56e | 3718 | unsigned int addr_size) |
4c2df51b | 3719 | { |
82ca3f51 | 3720 | objfile *objfile = per_objfile->objfile; |
08feed99 | 3721 | struct gdbarch *gdbarch = objfile->arch (); |
49f6c839 | 3722 | size_t leb128_size; |
08922a10 SS |
3723 | |
3724 | if (data[0] >= DW_OP_reg0 && data[0] <= DW_OP_reg31) | |
3725 | { | |
08922a10 | 3726 | fprintf_filtered (stream, _("a variable in $%s"), |
5e44ecb3 | 3727 | locexpr_regname (gdbarch, data[0] - DW_OP_reg0)); |
08922a10 SS |
3728 | data += 1; |
3729 | } | |
3730 | else if (data[0] == DW_OP_regx) | |
3731 | { | |
9fccedf7 | 3732 | uint64_t reg; |
4c2df51b | 3733 | |
f664829e | 3734 | data = safe_read_uleb128 (data + 1, end, ®); |
08922a10 | 3735 | fprintf_filtered (stream, _("a variable in $%s"), |
5e44ecb3 | 3736 | locexpr_regname (gdbarch, reg)); |
08922a10 SS |
3737 | } |
3738 | else if (data[0] == DW_OP_fbreg) | |
4c2df51b | 3739 | { |
3977b71f | 3740 | const struct block *b; |
08922a10 SS |
3741 | struct symbol *framefunc; |
3742 | int frame_reg = 0; | |
9fccedf7 | 3743 | int64_t frame_offset; |
7155d578 | 3744 | const gdb_byte *base_data, *new_data, *save_data = data; |
08922a10 | 3745 | size_t base_size; |
9fccedf7 | 3746 | int64_t base_offset = 0; |
08922a10 | 3747 | |
f664829e | 3748 | new_data = safe_read_sleb128 (data + 1, end, &frame_offset); |
9eae7c52 TT |
3749 | if (!piece_end_p (new_data, end)) |
3750 | return data; | |
3751 | data = new_data; | |
3752 | ||
08922a10 SS |
3753 | b = block_for_pc (addr); |
3754 | ||
3755 | if (!b) | |
3756 | error (_("No block found for address for symbol \"%s\"."), | |
987012b8 | 3757 | symbol->print_name ()); |
08922a10 SS |
3758 | |
3759 | framefunc = block_linkage_function (b); | |
3760 | ||
3761 | if (!framefunc) | |
3762 | error (_("No function found for block for symbol \"%s\"."), | |
987012b8 | 3763 | symbol->print_name ()); |
08922a10 | 3764 | |
af945b75 | 3765 | func_get_frame_base_dwarf_block (framefunc, addr, &base_data, &base_size); |
08922a10 SS |
3766 | |
3767 | if (base_data[0] >= DW_OP_breg0 && base_data[0] <= DW_OP_breg31) | |
3768 | { | |
0d45f56e | 3769 | const gdb_byte *buf_end; |
08922a10 SS |
3770 | |
3771 | frame_reg = base_data[0] - DW_OP_breg0; | |
f664829e DE |
3772 | buf_end = safe_read_sleb128 (base_data + 1, base_data + base_size, |
3773 | &base_offset); | |
08922a10 | 3774 | if (buf_end != base_data + base_size) |
3e43a32a MS |
3775 | error (_("Unexpected opcode after " |
3776 | "DW_OP_breg%u for symbol \"%s\"."), | |
987012b8 | 3777 | frame_reg, symbol->print_name ()); |
08922a10 SS |
3778 | } |
3779 | else if (base_data[0] >= DW_OP_reg0 && base_data[0] <= DW_OP_reg31) | |
3780 | { | |
3781 | /* The frame base is just the register, with no offset. */ | |
3782 | frame_reg = base_data[0] - DW_OP_reg0; | |
3783 | base_offset = 0; | |
3784 | } | |
3785 | else | |
3786 | { | |
3787 | /* We don't know what to do with the frame base expression, | |
3788 | so we can't trace this variable; give up. */ | |
7155d578 | 3789 | return save_data; |
08922a10 SS |
3790 | } |
3791 | ||
3e43a32a MS |
3792 | fprintf_filtered (stream, |
3793 | _("a variable at frame base reg $%s offset %s+%s"), | |
5e44ecb3 | 3794 | locexpr_regname (gdbarch, frame_reg), |
08922a10 SS |
3795 | plongest (base_offset), plongest (frame_offset)); |
3796 | } | |
9eae7c52 TT |
3797 | else if (data[0] >= DW_OP_breg0 && data[0] <= DW_OP_breg31 |
3798 | && piece_end_p (data, end)) | |
08922a10 | 3799 | { |
9fccedf7 | 3800 | int64_t offset; |
08922a10 | 3801 | |
f664829e | 3802 | data = safe_read_sleb128 (data + 1, end, &offset); |
08922a10 | 3803 | |
4c2df51b | 3804 | fprintf_filtered (stream, |
08922a10 SS |
3805 | _("a variable at offset %s from base reg $%s"), |
3806 | plongest (offset), | |
5e44ecb3 | 3807 | locexpr_regname (gdbarch, data[0] - DW_OP_breg0)); |
4c2df51b DJ |
3808 | } |
3809 | ||
c3228f12 EZ |
3810 | /* The location expression for a TLS variable looks like this (on a |
3811 | 64-bit LE machine): | |
3812 | ||
3813 | DW_AT_location : 10 byte block: 3 4 0 0 0 0 0 0 0 e0 | |
3814 | (DW_OP_addr: 4; DW_OP_GNU_push_tls_address) | |
09d8bd00 | 3815 | |
c3228f12 EZ |
3816 | 0x3 is the encoding for DW_OP_addr, which has an operand as long |
3817 | as the size of an address on the target machine (here is 8 | |
09d8bd00 TT |
3818 | bytes). Note that more recent version of GCC emit DW_OP_const4u |
3819 | or DW_OP_const8u, depending on address size, rather than | |
0963b4bd MS |
3820 | DW_OP_addr. 0xe0 is the encoding for DW_OP_GNU_push_tls_address. |
3821 | The operand represents the offset at which the variable is within | |
3822 | the thread local storage. */ | |
c3228f12 | 3823 | |
9eae7c52 | 3824 | else if (data + 1 + addr_size < end |
09d8bd00 TT |
3825 | && (data[0] == DW_OP_addr |
3826 | || (addr_size == 4 && data[0] == DW_OP_const4u) | |
3827 | || (addr_size == 8 && data[0] == DW_OP_const8u)) | |
4aa4e28b TT |
3828 | && (data[1 + addr_size] == DW_OP_GNU_push_tls_address |
3829 | || data[1 + addr_size] == DW_OP_form_tls_address) | |
9eae7c52 | 3830 | && piece_end_p (data + 2 + addr_size, end)) |
08922a10 | 3831 | { |
d4a087c7 UW |
3832 | ULONGEST offset; |
3833 | offset = extract_unsigned_integer (data + 1, addr_size, | |
3834 | gdbarch_byte_order (gdbarch)); | |
9a619af0 | 3835 | |
08922a10 | 3836 | fprintf_filtered (stream, |
d4a087c7 | 3837 | _("a thread-local variable at offset 0x%s " |
08922a10 | 3838 | "in the thread-local storage for `%s'"), |
4262abfb | 3839 | phex_nz (offset, addr_size), objfile_name (objfile)); |
08922a10 SS |
3840 | |
3841 | data += 1 + addr_size + 1; | |
3842 | } | |
49f6c839 DE |
3843 | |
3844 | /* With -gsplit-dwarf a TLS variable can also look like this: | |
3845 | DW_AT_location : 3 byte block: fc 4 e0 | |
3846 | (DW_OP_GNU_const_index: 4; | |
3847 | DW_OP_GNU_push_tls_address) */ | |
3848 | else if (data + 3 <= end | |
3849 | && data + 1 + (leb128_size = skip_leb128 (data + 1, end)) < end | |
3850 | && data[0] == DW_OP_GNU_const_index | |
3851 | && leb128_size > 0 | |
4aa4e28b TT |
3852 | && (data[1 + leb128_size] == DW_OP_GNU_push_tls_address |
3853 | || data[1 + leb128_size] == DW_OP_form_tls_address) | |
49f6c839 DE |
3854 | && piece_end_p (data + 2 + leb128_size, end)) |
3855 | { | |
a55c1f32 | 3856 | uint64_t offset; |
49f6c839 DE |
3857 | |
3858 | data = safe_read_uleb128 (data + 1, end, &offset); | |
82ca3f51 | 3859 | offset = dwarf2_read_addr_index (per_cu, per_objfile, offset); |
49f6c839 DE |
3860 | fprintf_filtered (stream, |
3861 | _("a thread-local variable at offset 0x%s " | |
3862 | "in the thread-local storage for `%s'"), | |
4262abfb | 3863 | phex_nz (offset, addr_size), objfile_name (objfile)); |
49f6c839 DE |
3864 | ++data; |
3865 | } | |
3866 | ||
9eae7c52 TT |
3867 | else if (data[0] >= DW_OP_lit0 |
3868 | && data[0] <= DW_OP_lit31 | |
3869 | && data + 1 < end | |
3870 | && data[1] == DW_OP_stack_value) | |
3871 | { | |
3872 | fprintf_filtered (stream, _("the constant %d"), data[0] - DW_OP_lit0); | |
3873 | data += 2; | |
3874 | } | |
3875 | ||
3876 | return data; | |
3877 | } | |
3878 | ||
3879 | /* Disassemble an expression, stopping at the end of a piece or at the | |
3880 | end of the expression. Returns a pointer to the next unread byte | |
3881 | in the input expression. If ALL is nonzero, then this function | |
f664829e DE |
3882 | will keep going until it reaches the end of the expression. |
3883 | If there is an error during reading, e.g. we run off the end | |
3884 | of the buffer, an error is thrown. */ | |
9eae7c52 TT |
3885 | |
3886 | static const gdb_byte * | |
3887 | disassemble_dwarf_expression (struct ui_file *stream, | |
3888 | struct gdbarch *arch, unsigned int addr_size, | |
2bda9cc5 | 3889 | int offset_size, const gdb_byte *start, |
9eae7c52 | 3890 | const gdb_byte *data, const gdb_byte *end, |
2bda9cc5 | 3891 | int indent, int all, |
82ca3f51 SM |
3892 | dwarf2_per_cu_data *per_cu, |
3893 | dwarf2_per_objfile *per_objfile) | |
9eae7c52 | 3894 | { |
9eae7c52 TT |
3895 | while (data < end |
3896 | && (all | |
3897 | || (data[0] != DW_OP_piece && data[0] != DW_OP_bit_piece))) | |
3898 | { | |
aead7601 | 3899 | enum dwarf_location_atom op = (enum dwarf_location_atom) *data++; |
9fccedf7 DE |
3900 | uint64_t ul; |
3901 | int64_t l; | |
9eae7c52 TT |
3902 | const char *name; |
3903 | ||
f39c6ffd | 3904 | name = get_DW_OP_name (op); |
9eae7c52 TT |
3905 | |
3906 | if (!name) | |
3907 | error (_("Unrecognized DWARF opcode 0x%02x at %ld"), | |
06826322 | 3908 | op, (long) (data - 1 - start)); |
2bda9cc5 JK |
3909 | fprintf_filtered (stream, " %*ld: %s", indent + 4, |
3910 | (long) (data - 1 - start), name); | |
9eae7c52 TT |
3911 | |
3912 | switch (op) | |
3913 | { | |
3914 | case DW_OP_addr: | |
d4a087c7 UW |
3915 | ul = extract_unsigned_integer (data, addr_size, |
3916 | gdbarch_byte_order (arch)); | |
9eae7c52 | 3917 | data += addr_size; |
d4a087c7 | 3918 | fprintf_filtered (stream, " 0x%s", phex_nz (ul, addr_size)); |
9eae7c52 TT |
3919 | break; |
3920 | ||
3921 | case DW_OP_const1u: | |
3922 | ul = extract_unsigned_integer (data, 1, gdbarch_byte_order (arch)); | |
3923 | data += 1; | |
3924 | fprintf_filtered (stream, " %s", pulongest (ul)); | |
3925 | break; | |
3926 | case DW_OP_const1s: | |
3927 | l = extract_signed_integer (data, 1, gdbarch_byte_order (arch)); | |
3928 | data += 1; | |
3929 | fprintf_filtered (stream, " %s", plongest (l)); | |
3930 | break; | |
3931 | case DW_OP_const2u: | |
3932 | ul = extract_unsigned_integer (data, 2, gdbarch_byte_order (arch)); | |
3933 | data += 2; | |
3934 | fprintf_filtered (stream, " %s", pulongest (ul)); | |
3935 | break; | |
3936 | case DW_OP_const2s: | |
3937 | l = extract_signed_integer (data, 2, gdbarch_byte_order (arch)); | |
3938 | data += 2; | |
3939 | fprintf_filtered (stream, " %s", plongest (l)); | |
3940 | break; | |
3941 | case DW_OP_const4u: | |
3942 | ul = extract_unsigned_integer (data, 4, gdbarch_byte_order (arch)); | |
3943 | data += 4; | |
3944 | fprintf_filtered (stream, " %s", pulongest (ul)); | |
3945 | break; | |
3946 | case DW_OP_const4s: | |
3947 | l = extract_signed_integer (data, 4, gdbarch_byte_order (arch)); | |
3948 | data += 4; | |
3949 | fprintf_filtered (stream, " %s", plongest (l)); | |
3950 | break; | |
3951 | case DW_OP_const8u: | |
3952 | ul = extract_unsigned_integer (data, 8, gdbarch_byte_order (arch)); | |
3953 | data += 8; | |
3954 | fprintf_filtered (stream, " %s", pulongest (ul)); | |
3955 | break; | |
3956 | case DW_OP_const8s: | |
3957 | l = extract_signed_integer (data, 8, gdbarch_byte_order (arch)); | |
3958 | data += 8; | |
3959 | fprintf_filtered (stream, " %s", plongest (l)); | |
3960 | break; | |
3961 | case DW_OP_constu: | |
f664829e | 3962 | data = safe_read_uleb128 (data, end, &ul); |
9eae7c52 TT |
3963 | fprintf_filtered (stream, " %s", pulongest (ul)); |
3964 | break; | |
3965 | case DW_OP_consts: | |
f664829e | 3966 | data = safe_read_sleb128 (data, end, &l); |
9eae7c52 TT |
3967 | fprintf_filtered (stream, " %s", plongest (l)); |
3968 | break; | |
3969 | ||
3970 | case DW_OP_reg0: | |
3971 | case DW_OP_reg1: | |
3972 | case DW_OP_reg2: | |
3973 | case DW_OP_reg3: | |
3974 | case DW_OP_reg4: | |
3975 | case DW_OP_reg5: | |
3976 | case DW_OP_reg6: | |
3977 | case DW_OP_reg7: | |
3978 | case DW_OP_reg8: | |
3979 | case DW_OP_reg9: | |
3980 | case DW_OP_reg10: | |
3981 | case DW_OP_reg11: | |
3982 | case DW_OP_reg12: | |
3983 | case DW_OP_reg13: | |
3984 | case DW_OP_reg14: | |
3985 | case DW_OP_reg15: | |
3986 | case DW_OP_reg16: | |
3987 | case DW_OP_reg17: | |
3988 | case DW_OP_reg18: | |
3989 | case DW_OP_reg19: | |
3990 | case DW_OP_reg20: | |
3991 | case DW_OP_reg21: | |
3992 | case DW_OP_reg22: | |
3993 | case DW_OP_reg23: | |
3994 | case DW_OP_reg24: | |
3995 | case DW_OP_reg25: | |
3996 | case DW_OP_reg26: | |
3997 | case DW_OP_reg27: | |
3998 | case DW_OP_reg28: | |
3999 | case DW_OP_reg29: | |
4000 | case DW_OP_reg30: | |
4001 | case DW_OP_reg31: | |
4002 | fprintf_filtered (stream, " [$%s]", | |
5e44ecb3 | 4003 | locexpr_regname (arch, op - DW_OP_reg0)); |
9eae7c52 TT |
4004 | break; |
4005 | ||
4006 | case DW_OP_regx: | |
f664829e | 4007 | data = safe_read_uleb128 (data, end, &ul); |
9eae7c52 | 4008 | fprintf_filtered (stream, " %s [$%s]", pulongest (ul), |
5e44ecb3 | 4009 | locexpr_regname (arch, (int) ul)); |
9eae7c52 TT |
4010 | break; |
4011 | ||
4012 | case DW_OP_implicit_value: | |
f664829e | 4013 | data = safe_read_uleb128 (data, end, &ul); |
9eae7c52 TT |
4014 | data += ul; |
4015 | fprintf_filtered (stream, " %s", pulongest (ul)); | |
4016 | break; | |
4017 | ||
4018 | case DW_OP_breg0: | |
4019 | case DW_OP_breg1: | |
4020 | case DW_OP_breg2: | |
4021 | case DW_OP_breg3: | |
4022 | case DW_OP_breg4: | |
4023 | case DW_OP_breg5: | |
4024 | case DW_OP_breg6: | |
4025 | case DW_OP_breg7: | |
4026 | case DW_OP_breg8: | |
4027 | case DW_OP_breg9: | |
4028 | case DW_OP_breg10: | |
4029 | case DW_OP_breg11: | |
4030 | case DW_OP_breg12: | |
4031 | case DW_OP_breg13: | |
4032 | case DW_OP_breg14: | |
4033 | case DW_OP_breg15: | |
4034 | case DW_OP_breg16: | |
4035 | case DW_OP_breg17: | |
4036 | case DW_OP_breg18: | |
4037 | case DW_OP_breg19: | |
4038 | case DW_OP_breg20: | |
4039 | case DW_OP_breg21: | |
4040 | case DW_OP_breg22: | |
4041 | case DW_OP_breg23: | |
4042 | case DW_OP_breg24: | |
4043 | case DW_OP_breg25: | |
4044 | case DW_OP_breg26: | |
4045 | case DW_OP_breg27: | |
4046 | case DW_OP_breg28: | |
4047 | case DW_OP_breg29: | |
4048 | case DW_OP_breg30: | |
4049 | case DW_OP_breg31: | |
f664829e | 4050 | data = safe_read_sleb128 (data, end, &l); |
0502ed8c | 4051 | fprintf_filtered (stream, " %s [$%s]", plongest (l), |
5e44ecb3 | 4052 | locexpr_regname (arch, op - DW_OP_breg0)); |
9eae7c52 TT |
4053 | break; |
4054 | ||
4055 | case DW_OP_bregx: | |
f664829e DE |
4056 | data = safe_read_uleb128 (data, end, &ul); |
4057 | data = safe_read_sleb128 (data, end, &l); | |
0502ed8c JK |
4058 | fprintf_filtered (stream, " register %s [$%s] offset %s", |
4059 | pulongest (ul), | |
5e44ecb3 | 4060 | locexpr_regname (arch, (int) ul), |
0502ed8c | 4061 | plongest (l)); |
9eae7c52 TT |
4062 | break; |
4063 | ||
4064 | case DW_OP_fbreg: | |
f664829e | 4065 | data = safe_read_sleb128 (data, end, &l); |
0502ed8c | 4066 | fprintf_filtered (stream, " %s", plongest (l)); |
9eae7c52 TT |
4067 | break; |
4068 | ||
4069 | case DW_OP_xderef_size: | |
4070 | case DW_OP_deref_size: | |
4071 | case DW_OP_pick: | |
4072 | fprintf_filtered (stream, " %d", *data); | |
4073 | ++data; | |
4074 | break; | |
4075 | ||
4076 | case DW_OP_plus_uconst: | |
f664829e | 4077 | data = safe_read_uleb128 (data, end, &ul); |
9eae7c52 TT |
4078 | fprintf_filtered (stream, " %s", pulongest (ul)); |
4079 | break; | |
4080 | ||
4081 | case DW_OP_skip: | |
4082 | l = extract_signed_integer (data, 2, gdbarch_byte_order (arch)); | |
4083 | data += 2; | |
4084 | fprintf_filtered (stream, " to %ld", | |
4085 | (long) (data + l - start)); | |
4086 | break; | |
4087 | ||
4088 | case DW_OP_bra: | |
4089 | l = extract_signed_integer (data, 2, gdbarch_byte_order (arch)); | |
4090 | data += 2; | |
4091 | fprintf_filtered (stream, " %ld", | |
4092 | (long) (data + l - start)); | |
4093 | break; | |
4094 | ||
4095 | case DW_OP_call2: | |
4096 | ul = extract_unsigned_integer (data, 2, gdbarch_byte_order (arch)); | |
4097 | data += 2; | |
4098 | fprintf_filtered (stream, " offset %s", phex_nz (ul, 2)); | |
4099 | break; | |
4100 | ||
4101 | case DW_OP_call4: | |
4102 | ul = extract_unsigned_integer (data, 4, gdbarch_byte_order (arch)); | |
4103 | data += 4; | |
4104 | fprintf_filtered (stream, " offset %s", phex_nz (ul, 4)); | |
4105 | break; | |
4106 | ||
4107 | case DW_OP_call_ref: | |
4108 | ul = extract_unsigned_integer (data, offset_size, | |
4109 | gdbarch_byte_order (arch)); | |
4110 | data += offset_size; | |
4111 | fprintf_filtered (stream, " offset %s", phex_nz (ul, offset_size)); | |
4112 | break; | |
4113 | ||
4114 | case DW_OP_piece: | |
f664829e | 4115 | data = safe_read_uleb128 (data, end, &ul); |
9eae7c52 TT |
4116 | fprintf_filtered (stream, " %s (bytes)", pulongest (ul)); |
4117 | break; | |
4118 | ||
4119 | case DW_OP_bit_piece: | |
4120 | { | |
9fccedf7 | 4121 | uint64_t offset; |
9eae7c52 | 4122 | |
f664829e DE |
4123 | data = safe_read_uleb128 (data, end, &ul); |
4124 | data = safe_read_uleb128 (data, end, &offset); | |
9eae7c52 TT |
4125 | fprintf_filtered (stream, " size %s offset %s (bits)", |
4126 | pulongest (ul), pulongest (offset)); | |
4127 | } | |
4128 | break; | |
8cf6f0b1 | 4129 | |
216f72a1 | 4130 | case DW_OP_implicit_pointer: |
8cf6f0b1 TT |
4131 | case DW_OP_GNU_implicit_pointer: |
4132 | { | |
4133 | ul = extract_unsigned_integer (data, offset_size, | |
4134 | gdbarch_byte_order (arch)); | |
4135 | data += offset_size; | |
4136 | ||
f664829e | 4137 | data = safe_read_sleb128 (data, end, &l); |
8cf6f0b1 TT |
4138 | |
4139 | fprintf_filtered (stream, " DIE %s offset %s", | |
4140 | phex_nz (ul, offset_size), | |
4141 | plongest (l)); | |
4142 | } | |
4143 | break; | |
5e44ecb3 | 4144 | |
216f72a1 | 4145 | case DW_OP_deref_type: |
5e44ecb3 TT |
4146 | case DW_OP_GNU_deref_type: |
4147 | { | |
b926417a | 4148 | int deref_addr_size = *data++; |
5e44ecb3 TT |
4149 | struct type *type; |
4150 | ||
f664829e | 4151 | data = safe_read_uleb128 (data, end, &ul); |
9c541725 | 4152 | cu_offset offset = (cu_offset) ul; |
5e44ecb3 TT |
4153 | type = dwarf2_get_die_type (offset, per_cu); |
4154 | fprintf_filtered (stream, "<"); | |
4155 | type_print (type, "", stream, -1); | |
9c541725 PA |
4156 | fprintf_filtered (stream, " [0x%s]> %d", |
4157 | phex_nz (to_underlying (offset), 0), | |
b926417a | 4158 | deref_addr_size); |
5e44ecb3 TT |
4159 | } |
4160 | break; | |
4161 | ||
216f72a1 | 4162 | case DW_OP_const_type: |
5e44ecb3 TT |
4163 | case DW_OP_GNU_const_type: |
4164 | { | |
5e44ecb3 TT |
4165 | struct type *type; |
4166 | ||
f664829e | 4167 | data = safe_read_uleb128 (data, end, &ul); |
9c541725 | 4168 | cu_offset type_die = (cu_offset) ul; |
5e44ecb3 TT |
4169 | type = dwarf2_get_die_type (type_die, per_cu); |
4170 | fprintf_filtered (stream, "<"); | |
4171 | type_print (type, "", stream, -1); | |
9c541725 PA |
4172 | fprintf_filtered (stream, " [0x%s]>", |
4173 | phex_nz (to_underlying (type_die), 0)); | |
d9e49b61 TT |
4174 | |
4175 | int n = *data++; | |
4176 | fprintf_filtered (stream, " %d byte block:", n); | |
4177 | for (int i = 0; i < n; ++i) | |
4178 | fprintf_filtered (stream, " %02x", data[i]); | |
4179 | data += n; | |
5e44ecb3 TT |
4180 | } |
4181 | break; | |
4182 | ||
216f72a1 | 4183 | case DW_OP_regval_type: |
5e44ecb3 TT |
4184 | case DW_OP_GNU_regval_type: |
4185 | { | |
9fccedf7 | 4186 | uint64_t reg; |
5e44ecb3 TT |
4187 | struct type *type; |
4188 | ||
f664829e DE |
4189 | data = safe_read_uleb128 (data, end, ®); |
4190 | data = safe_read_uleb128 (data, end, &ul); | |
9c541725 | 4191 | cu_offset type_die = (cu_offset) ul; |
5e44ecb3 TT |
4192 | |
4193 | type = dwarf2_get_die_type (type_die, per_cu); | |
4194 | fprintf_filtered (stream, "<"); | |
4195 | type_print (type, "", stream, -1); | |
b64f50a1 | 4196 | fprintf_filtered (stream, " [0x%s]> [$%s]", |
9c541725 | 4197 | phex_nz (to_underlying (type_die), 0), |
5e44ecb3 TT |
4198 | locexpr_regname (arch, reg)); |
4199 | } | |
4200 | break; | |
4201 | ||
216f72a1 | 4202 | case DW_OP_convert: |
5e44ecb3 | 4203 | case DW_OP_GNU_convert: |
216f72a1 | 4204 | case DW_OP_reinterpret: |
5e44ecb3 TT |
4205 | case DW_OP_GNU_reinterpret: |
4206 | { | |
f664829e | 4207 | data = safe_read_uleb128 (data, end, &ul); |
9c541725 | 4208 | cu_offset type_die = (cu_offset) ul; |
5e44ecb3 | 4209 | |
9c541725 | 4210 | if (to_underlying (type_die) == 0) |
5e44ecb3 TT |
4211 | fprintf_filtered (stream, "<0>"); |
4212 | else | |
4213 | { | |
4214 | struct type *type; | |
4215 | ||
4216 | type = dwarf2_get_die_type (type_die, per_cu); | |
4217 | fprintf_filtered (stream, "<"); | |
4218 | type_print (type, "", stream, -1); | |
9c541725 PA |
4219 | fprintf_filtered (stream, " [0x%s]>", |
4220 | phex_nz (to_underlying (type_die), 0)); | |
5e44ecb3 TT |
4221 | } |
4222 | } | |
4223 | break; | |
2bda9cc5 | 4224 | |
216f72a1 | 4225 | case DW_OP_entry_value: |
2bda9cc5 | 4226 | case DW_OP_GNU_entry_value: |
f664829e | 4227 | data = safe_read_uleb128 (data, end, &ul); |
2bda9cc5 JK |
4228 | fputc_filtered ('\n', stream); |
4229 | disassemble_dwarf_expression (stream, arch, addr_size, offset_size, | |
4230 | start, data, data + ul, indent + 2, | |
82ca3f51 | 4231 | all, per_cu, per_objfile); |
2bda9cc5 JK |
4232 | data += ul; |
4233 | continue; | |
49f6c839 | 4234 | |
a24f71ab JK |
4235 | case DW_OP_GNU_parameter_ref: |
4236 | ul = extract_unsigned_integer (data, 4, gdbarch_byte_order (arch)); | |
4237 | data += 4; | |
4238 | fprintf_filtered (stream, " offset %s", phex_nz (ul, 4)); | |
4239 | break; | |
4240 | ||
336d760d | 4241 | case DW_OP_addrx: |
49f6c839 DE |
4242 | case DW_OP_GNU_addr_index: |
4243 | data = safe_read_uleb128 (data, end, &ul); | |
82ca3f51 | 4244 | ul = dwarf2_read_addr_index (per_cu, per_objfile, ul); |
49f6c839 DE |
4245 | fprintf_filtered (stream, " 0x%s", phex_nz (ul, addr_size)); |
4246 | break; | |
4247 | case DW_OP_GNU_const_index: | |
4248 | data = safe_read_uleb128 (data, end, &ul); | |
82ca3f51 | 4249 | ul = dwarf2_read_addr_index (per_cu, per_objfile, ul); |
49f6c839 DE |
4250 | fprintf_filtered (stream, " %s", pulongest (ul)); |
4251 | break; | |
a6b786da KB |
4252 | |
4253 | case DW_OP_GNU_variable_value: | |
4254 | ul = extract_unsigned_integer (data, offset_size, | |
4255 | gdbarch_byte_order (arch)); | |
4256 | data += offset_size; | |
4257 | fprintf_filtered (stream, " offset %s", phex_nz (ul, offset_size)); | |
4258 | break; | |
9eae7c52 TT |
4259 | } |
4260 | ||
4261 | fprintf_filtered (stream, "\n"); | |
4262 | } | |
c3228f12 | 4263 | |
08922a10 | 4264 | return data; |
4c2df51b DJ |
4265 | } |
4266 | ||
009b64fc TT |
4267 | static bool dwarf_always_disassemble; |
4268 | ||
4269 | static void | |
4270 | show_dwarf_always_disassemble (struct ui_file *file, int from_tty, | |
4271 | struct cmd_list_element *c, const char *value) | |
4272 | { | |
4273 | fprintf_filtered (file, | |
4274 | _("Whether to always disassemble " | |
4275 | "DWARF expressions is %s.\n"), | |
4276 | value); | |
4277 | } | |
4278 | ||
08922a10 SS |
4279 | /* Describe a single location, which may in turn consist of multiple |
4280 | pieces. */ | |
a55cc764 | 4281 | |
08922a10 SS |
4282 | static void |
4283 | locexpr_describe_location_1 (struct symbol *symbol, CORE_ADDR addr, | |
0d45f56e | 4284 | struct ui_file *stream, |
56eb65bd | 4285 | const gdb_byte *data, size_t size, |
82ca3f51 SM |
4286 | unsigned int addr_size, |
4287 | int offset_size, dwarf2_per_cu_data *per_cu, | |
4288 | dwarf2_per_objfile *per_objfile) | |
08922a10 | 4289 | { |
0d45f56e | 4290 | const gdb_byte *end = data + size; |
9eae7c52 | 4291 | int first_piece = 1, bad = 0; |
82ca3f51 | 4292 | objfile *objfile = per_objfile->objfile; |
08922a10 | 4293 | |
08922a10 SS |
4294 | while (data < end) |
4295 | { | |
9eae7c52 TT |
4296 | const gdb_byte *here = data; |
4297 | int disassemble = 1; | |
4298 | ||
4299 | if (first_piece) | |
4300 | first_piece = 0; | |
4301 | else | |
4302 | fprintf_filtered (stream, _(", and ")); | |
08922a10 | 4303 | |
b4f54984 | 4304 | if (!dwarf_always_disassemble) |
9eae7c52 | 4305 | { |
3e43a32a | 4306 | data = locexpr_describe_location_piece (symbol, stream, |
82ca3f51 | 4307 | addr, per_cu, per_objfile, |
9eae7c52 TT |
4308 | data, end, addr_size); |
4309 | /* If we printed anything, or if we have an empty piece, | |
4310 | then don't disassemble. */ | |
4311 | if (data != here | |
4312 | || data[0] == DW_OP_piece | |
4313 | || data[0] == DW_OP_bit_piece) | |
4314 | disassemble = 0; | |
08922a10 | 4315 | } |
9eae7c52 | 4316 | if (disassemble) |
2bda9cc5 JK |
4317 | { |
4318 | fprintf_filtered (stream, _("a complex DWARF expression:\n")); | |
4319 | data = disassemble_dwarf_expression (stream, | |
08feed99 | 4320 | objfile->arch (), |
2bda9cc5 JK |
4321 | addr_size, offset_size, data, |
4322 | data, end, 0, | |
b4f54984 | 4323 | dwarf_always_disassemble, |
82ca3f51 | 4324 | per_cu, per_objfile); |
2bda9cc5 | 4325 | } |
9eae7c52 TT |
4326 | |
4327 | if (data < end) | |
08922a10 | 4328 | { |
9eae7c52 | 4329 | int empty = data == here; |
08922a10 | 4330 | |
9eae7c52 TT |
4331 | if (disassemble) |
4332 | fprintf_filtered (stream, " "); | |
4333 | if (data[0] == DW_OP_piece) | |
4334 | { | |
9fccedf7 | 4335 | uint64_t bytes; |
08922a10 | 4336 | |
f664829e | 4337 | data = safe_read_uleb128 (data + 1, end, &bytes); |
08922a10 | 4338 | |
9eae7c52 TT |
4339 | if (empty) |
4340 | fprintf_filtered (stream, _("an empty %s-byte piece"), | |
4341 | pulongest (bytes)); | |
4342 | else | |
4343 | fprintf_filtered (stream, _(" [%s-byte piece]"), | |
4344 | pulongest (bytes)); | |
4345 | } | |
4346 | else if (data[0] == DW_OP_bit_piece) | |
4347 | { | |
9fccedf7 | 4348 | uint64_t bits, offset; |
9eae7c52 | 4349 | |
f664829e DE |
4350 | data = safe_read_uleb128 (data + 1, end, &bits); |
4351 | data = safe_read_uleb128 (data, end, &offset); | |
9eae7c52 TT |
4352 | |
4353 | if (empty) | |
4354 | fprintf_filtered (stream, | |
4355 | _("an empty %s-bit piece"), | |
4356 | pulongest (bits)); | |
4357 | else | |
4358 | fprintf_filtered (stream, | |
4359 | _(" [%s-bit piece, offset %s bits]"), | |
4360 | pulongest (bits), pulongest (offset)); | |
4361 | } | |
4362 | else | |
4363 | { | |
4364 | bad = 1; | |
4365 | break; | |
4366 | } | |
08922a10 SS |
4367 | } |
4368 | } | |
4369 | ||
4370 | if (bad || data > end) | |
4371 | error (_("Corrupted DWARF2 expression for \"%s\"."), | |
987012b8 | 4372 | symbol->print_name ()); |
08922a10 SS |
4373 | } |
4374 | ||
4375 | /* Print a natural-language description of SYMBOL to STREAM. This | |
4376 | version is for a symbol with a single location. */ | |
a55cc764 | 4377 | |
08922a10 SS |
4378 | static void |
4379 | locexpr_describe_location (struct symbol *symbol, CORE_ADDR addr, | |
4380 | struct ui_file *stream) | |
4381 | { | |
9a3c8263 SM |
4382 | struct dwarf2_locexpr_baton *dlbaton |
4383 | = (struct dwarf2_locexpr_baton *) SYMBOL_LOCATION_BATON (symbol); | |
09ba997f TT |
4384 | unsigned int addr_size = dlbaton->per_cu->addr_size (); |
4385 | int offset_size = dlbaton->per_cu->offset_size (); | |
08922a10 | 4386 | |
3e43a32a MS |
4387 | locexpr_describe_location_1 (symbol, addr, stream, |
4388 | dlbaton->data, dlbaton->size, | |
82ca3f51 SM |
4389 | addr_size, offset_size, |
4390 | dlbaton->per_cu, dlbaton->per_objfile); | |
08922a10 SS |
4391 | } |
4392 | ||
4393 | /* Describe the location of SYMBOL as an agent value in VALUE, generating | |
4394 | any necessary bytecode in AX. */ | |
a55cc764 | 4395 | |
0d53c4c4 | 4396 | static void |
40f4af28 SM |
4397 | locexpr_tracepoint_var_ref (struct symbol *symbol, struct agent_expr *ax, |
4398 | struct axs_value *value) | |
a55cc764 | 4399 | { |
9a3c8263 SM |
4400 | struct dwarf2_locexpr_baton *dlbaton |
4401 | = (struct dwarf2_locexpr_baton *) SYMBOL_LOCATION_BATON (symbol); | |
09ba997f | 4402 | unsigned int addr_size = dlbaton->per_cu->addr_size (); |
a55cc764 | 4403 | |
1d6edc3c | 4404 | if (dlbaton->size == 0) |
cabe9ab6 PA |
4405 | value->optimized_out = 1; |
4406 | else | |
40f4af28 | 4407 | dwarf2_compile_expr_to_ax (ax, value, addr_size, dlbaton->data, |
4b167ea1 SM |
4408 | dlbaton->data + dlbaton->size, dlbaton->per_cu, |
4409 | dlbaton->per_objfile); | |
a55cc764 DJ |
4410 | } |
4411 | ||
bb2ec1b3 TT |
4412 | /* symbol_computed_ops 'generate_c_location' method. */ |
4413 | ||
4414 | static void | |
d82b3862 | 4415 | locexpr_generate_c_location (struct symbol *sym, string_file *stream, |
bb2ec1b3 TT |
4416 | struct gdbarch *gdbarch, |
4417 | unsigned char *registers_used, | |
4418 | CORE_ADDR pc, const char *result_name) | |
4419 | { | |
9a3c8263 SM |
4420 | struct dwarf2_locexpr_baton *dlbaton |
4421 | = (struct dwarf2_locexpr_baton *) SYMBOL_LOCATION_BATON (sym); | |
09ba997f | 4422 | unsigned int addr_size = dlbaton->per_cu->addr_size (); |
bb2ec1b3 TT |
4423 | |
4424 | if (dlbaton->size == 0) | |
987012b8 | 4425 | error (_("symbol \"%s\" is optimized out"), sym->natural_name ()); |
bb2ec1b3 TT |
4426 | |
4427 | compile_dwarf_expr_to_c (stream, result_name, | |
4428 | sym, pc, gdbarch, registers_used, addr_size, | |
4429 | dlbaton->data, dlbaton->data + dlbaton->size, | |
4b167ea1 | 4430 | dlbaton->per_cu, dlbaton->per_objfile); |
bb2ec1b3 TT |
4431 | } |
4432 | ||
4c2df51b DJ |
4433 | /* The set of location functions used with the DWARF-2 expression |
4434 | evaluator. */ | |
768a979c | 4435 | const struct symbol_computed_ops dwarf2_locexpr_funcs = { |
4c2df51b | 4436 | locexpr_read_variable, |
e18b2753 | 4437 | locexpr_read_variable_at_entry, |
0b31a4bc | 4438 | locexpr_get_symbol_read_needs, |
4c2df51b | 4439 | locexpr_describe_location, |
f1e6e072 | 4440 | 0, /* location_has_loclist */ |
bb2ec1b3 TT |
4441 | locexpr_tracepoint_var_ref, |
4442 | locexpr_generate_c_location | |
4c2df51b | 4443 | }; |
0d53c4c4 DJ |
4444 | |
4445 | ||
4446 | /* Wrapper functions for location lists. These generally find | |
4447 | the appropriate location expression and call something above. */ | |
4448 | ||
4449 | /* Return the value of SYMBOL in FRAME using the DWARF-2 expression | |
4450 | evaluator to calculate the location. */ | |
4451 | static struct value * | |
4452 | loclist_read_variable (struct symbol *symbol, struct frame_info *frame) | |
4453 | { | |
9a3c8263 SM |
4454 | struct dwarf2_loclist_baton *dlbaton |
4455 | = (struct dwarf2_loclist_baton *) SYMBOL_LOCATION_BATON (symbol); | |
0d53c4c4 | 4456 | struct value *val; |
947bb88f | 4457 | const gdb_byte *data; |
b6b08ebf | 4458 | size_t size; |
8cf6f0b1 | 4459 | CORE_ADDR pc = frame ? get_frame_address_in_block (frame) : 0; |
0d53c4c4 | 4460 | |
8cf6f0b1 | 4461 | data = dwarf2_find_location_expression (dlbaton, &size, pc); |
1d6edc3c JK |
4462 | val = dwarf2_evaluate_loc_desc (SYMBOL_TYPE (symbol), frame, data, size, |
4463 | dlbaton->per_cu); | |
0d53c4c4 DJ |
4464 | |
4465 | return val; | |
4466 | } | |
4467 | ||
e18b2753 JK |
4468 | /* Read variable SYMBOL like loclist_read_variable at (callee) FRAME's function |
4469 | entry. SYMBOL should be a function parameter, otherwise NO_ENTRY_VALUE_ERROR | |
4470 | will be thrown. | |
4471 | ||
4472 | Function always returns non-NULL value, it may be marked optimized out if | |
4473 | inferior frame information is not available. It throws NO_ENTRY_VALUE_ERROR | |
4474 | if it cannot resolve the parameter for any reason. */ | |
4475 | ||
4476 | static struct value * | |
4477 | loclist_read_variable_at_entry (struct symbol *symbol, struct frame_info *frame) | |
4478 | { | |
9a3c8263 SM |
4479 | struct dwarf2_loclist_baton *dlbaton |
4480 | = (struct dwarf2_loclist_baton *) SYMBOL_LOCATION_BATON (symbol); | |
e18b2753 JK |
4481 | const gdb_byte *data; |
4482 | size_t size; | |
4483 | CORE_ADDR pc; | |
4484 | ||
4485 | if (frame == NULL || !get_frame_func_if_available (frame, &pc)) | |
4486 | return allocate_optimized_out_value (SYMBOL_TYPE (symbol)); | |
4487 | ||
4488 | data = dwarf2_find_location_expression (dlbaton, &size, pc); | |
4489 | if (data == NULL) | |
4490 | return allocate_optimized_out_value (SYMBOL_TYPE (symbol)); | |
4491 | ||
4492 | return value_of_dwarf_block_entry (SYMBOL_TYPE (symbol), frame, data, size); | |
4493 | } | |
4494 | ||
0b31a4bc TT |
4495 | /* Implementation of get_symbol_read_needs from |
4496 | symbol_computed_ops. */ | |
4497 | ||
4498 | static enum symbol_needs_kind | |
4499 | loclist_symbol_needs (struct symbol *symbol) | |
0d53c4c4 DJ |
4500 | { |
4501 | /* If there's a location list, then assume we need to have a frame | |
4502 | to choose the appropriate location expression. With tracking of | |
4503 | global variables this is not necessarily true, but such tracking | |
4504 | is disabled in GCC at the moment until we figure out how to | |
4505 | represent it. */ | |
4506 | ||
0b31a4bc | 4507 | return SYMBOL_NEEDS_FRAME; |
0d53c4c4 DJ |
4508 | } |
4509 | ||
08922a10 SS |
4510 | /* Print a natural-language description of SYMBOL to STREAM. This |
4511 | version applies when there is a list of different locations, each | |
4512 | with a specified address range. */ | |
4513 | ||
4514 | static void | |
4515 | loclist_describe_location (struct symbol *symbol, CORE_ADDR addr, | |
4516 | struct ui_file *stream) | |
0d53c4c4 | 4517 | { |
9a3c8263 SM |
4518 | struct dwarf2_loclist_baton *dlbaton |
4519 | = (struct dwarf2_loclist_baton *) SYMBOL_LOCATION_BATON (symbol); | |
947bb88f | 4520 | const gdb_byte *loc_ptr, *buf_end; |
a50264ba TT |
4521 | dwarf2_per_objfile *per_objfile = dlbaton->per_objfile; |
4522 | struct objfile *objfile = per_objfile->objfile; | |
08feed99 | 4523 | struct gdbarch *gdbarch = objfile->arch (); |
08922a10 | 4524 | enum bfd_endian byte_order = gdbarch_byte_order (gdbarch); |
09ba997f TT |
4525 | unsigned int addr_size = dlbaton->per_cu->addr_size (); |
4526 | int offset_size = dlbaton->per_cu->offset_size (); | |
d4a087c7 | 4527 | int signed_addr_p = bfd_get_sign_extend_vma (objfile->obfd); |
08922a10 | 4528 | /* Adjust base_address for relocatable objects. */ |
4b167ea1 | 4529 | CORE_ADDR base_offset = objfile->text_section_offset (); |
08922a10 | 4530 | CORE_ADDR base_address = dlbaton->base_address + base_offset; |
f664829e | 4531 | int done = 0; |
08922a10 SS |
4532 | |
4533 | loc_ptr = dlbaton->data; | |
4534 | buf_end = dlbaton->data + dlbaton->size; | |
4535 | ||
9eae7c52 | 4536 | fprintf_filtered (stream, _("multi-location:\n")); |
08922a10 SS |
4537 | |
4538 | /* Iterate through locations until we run out. */ | |
f664829e | 4539 | while (!done) |
08922a10 | 4540 | { |
f664829e DE |
4541 | CORE_ADDR low = 0, high = 0; /* init for gcc -Wall */ |
4542 | int length; | |
4543 | enum debug_loc_kind kind; | |
4544 | const gdb_byte *new_ptr = NULL; /* init for gcc -Wall */ | |
4545 | ||
85a9510c | 4546 | if (dlbaton->per_cu->version () < 5 && dlbaton->from_dwo) |
f664829e | 4547 | kind = decode_debug_loc_dwo_addresses (dlbaton->per_cu, |
82ca3f51 | 4548 | dlbaton->per_objfile, |
f664829e | 4549 | loc_ptr, buf_end, &new_ptr, |
3771a44c | 4550 | &low, &high, byte_order); |
85a9510c | 4551 | else if (dlbaton->per_cu->version () < 5) |
f664829e DE |
4552 | kind = decode_debug_loc_addresses (loc_ptr, buf_end, &new_ptr, |
4553 | &low, &high, | |
4554 | byte_order, addr_size, | |
4555 | signed_addr_p); | |
85a9510c | 4556 | else |
4557 | kind = decode_debug_loclists_addresses (dlbaton->per_cu, | |
82ca3f51 | 4558 | dlbaton->per_objfile, |
85a9510c | 4559 | loc_ptr, buf_end, &new_ptr, |
4560 | &low, &high, byte_order, | |
4561 | addr_size, signed_addr_p); | |
f664829e DE |
4562 | loc_ptr = new_ptr; |
4563 | switch (kind) | |
08922a10 | 4564 | { |
f664829e DE |
4565 | case DEBUG_LOC_END_OF_LIST: |
4566 | done = 1; | |
4567 | continue; | |
4568 | case DEBUG_LOC_BASE_ADDRESS: | |
d4a087c7 | 4569 | base_address = high + base_offset; |
9eae7c52 | 4570 | fprintf_filtered (stream, _(" Base address %s"), |
08922a10 | 4571 | paddress (gdbarch, base_address)); |
08922a10 | 4572 | continue; |
3771a44c DE |
4573 | case DEBUG_LOC_START_END: |
4574 | case DEBUG_LOC_START_LENGTH: | |
85a9510c | 4575 | case DEBUG_LOC_OFFSET_PAIR: |
f664829e DE |
4576 | break; |
4577 | case DEBUG_LOC_BUFFER_OVERFLOW: | |
4578 | case DEBUG_LOC_INVALID_ENTRY: | |
4579 | error (_("Corrupted DWARF expression for symbol \"%s\"."), | |
987012b8 | 4580 | symbol->print_name ()); |
f664829e DE |
4581 | default: |
4582 | gdb_assert_not_reached ("bad debug_loc_kind"); | |
08922a10 SS |
4583 | } |
4584 | ||
08922a10 SS |
4585 | /* Otherwise, a location expression entry. */ |
4586 | low += base_address; | |
4587 | high += base_address; | |
4588 | ||
3e29f34a MR |
4589 | low = gdbarch_adjust_dwarf2_addr (gdbarch, low); |
4590 | high = gdbarch_adjust_dwarf2_addr (gdbarch, high); | |
4591 | ||
85a9510c | 4592 | if (dlbaton->per_cu->version () < 5) |
4593 | { | |
4594 | length = extract_unsigned_integer (loc_ptr, 2, byte_order); | |
4595 | loc_ptr += 2; | |
4596 | } | |
4597 | else | |
4598 | { | |
4599 | unsigned int bytes_read; | |
4600 | length = read_unsigned_leb128 (NULL, loc_ptr, &bytes_read); | |
4601 | loc_ptr += bytes_read; | |
4602 | } | |
08922a10 | 4603 | |
08922a10 SS |
4604 | /* (It would improve readability to print only the minimum |
4605 | necessary digits of the second number of the range.) */ | |
9eae7c52 | 4606 | fprintf_filtered (stream, _(" Range %s-%s: "), |
08922a10 SS |
4607 | paddress (gdbarch, low), paddress (gdbarch, high)); |
4608 | ||
4609 | /* Now describe this particular location. */ | |
4610 | locexpr_describe_location_1 (symbol, low, stream, loc_ptr, length, | |
82ca3f51 SM |
4611 | addr_size, offset_size, |
4612 | dlbaton->per_cu, dlbaton->per_objfile); | |
9eae7c52 TT |
4613 | |
4614 | fprintf_filtered (stream, "\n"); | |
08922a10 SS |
4615 | |
4616 | loc_ptr += length; | |
4617 | } | |
0d53c4c4 DJ |
4618 | } |
4619 | ||
4620 | /* Describe the location of SYMBOL as an agent value in VALUE, generating | |
4621 | any necessary bytecode in AX. */ | |
4622 | static void | |
40f4af28 SM |
4623 | loclist_tracepoint_var_ref (struct symbol *symbol, struct agent_expr *ax, |
4624 | struct axs_value *value) | |
0d53c4c4 | 4625 | { |
9a3c8263 SM |
4626 | struct dwarf2_loclist_baton *dlbaton |
4627 | = (struct dwarf2_loclist_baton *) SYMBOL_LOCATION_BATON (symbol); | |
947bb88f | 4628 | const gdb_byte *data; |
b6b08ebf | 4629 | size_t size; |
09ba997f | 4630 | unsigned int addr_size = dlbaton->per_cu->addr_size (); |
0d53c4c4 | 4631 | |
8cf6f0b1 | 4632 | data = dwarf2_find_location_expression (dlbaton, &size, ax->scope); |
1d6edc3c | 4633 | if (size == 0) |
cabe9ab6 PA |
4634 | value->optimized_out = 1; |
4635 | else | |
40f4af28 | 4636 | dwarf2_compile_expr_to_ax (ax, value, addr_size, data, data + size, |
4b167ea1 | 4637 | dlbaton->per_cu, dlbaton->per_objfile); |
0d53c4c4 DJ |
4638 | } |
4639 | ||
bb2ec1b3 TT |
4640 | /* symbol_computed_ops 'generate_c_location' method. */ |
4641 | ||
4642 | static void | |
d82b3862 | 4643 | loclist_generate_c_location (struct symbol *sym, string_file *stream, |
bb2ec1b3 TT |
4644 | struct gdbarch *gdbarch, |
4645 | unsigned char *registers_used, | |
4646 | CORE_ADDR pc, const char *result_name) | |
4647 | { | |
9a3c8263 SM |
4648 | struct dwarf2_loclist_baton *dlbaton |
4649 | = (struct dwarf2_loclist_baton *) SYMBOL_LOCATION_BATON (sym); | |
09ba997f | 4650 | unsigned int addr_size = dlbaton->per_cu->addr_size (); |
bb2ec1b3 TT |
4651 | const gdb_byte *data; |
4652 | size_t size; | |
4653 | ||
4654 | data = dwarf2_find_location_expression (dlbaton, &size, pc); | |
4655 | if (size == 0) | |
987012b8 | 4656 | error (_("symbol \"%s\" is optimized out"), sym->natural_name ()); |
bb2ec1b3 TT |
4657 | |
4658 | compile_dwarf_expr_to_c (stream, result_name, | |
4659 | sym, pc, gdbarch, registers_used, addr_size, | |
4660 | data, data + size, | |
4b167ea1 SM |
4661 | dlbaton->per_cu, |
4662 | dlbaton->per_objfile); | |
bb2ec1b3 TT |
4663 | } |
4664 | ||
0d53c4c4 DJ |
4665 | /* The set of location functions used with the DWARF-2 expression |
4666 | evaluator and location lists. */ | |
768a979c | 4667 | const struct symbol_computed_ops dwarf2_loclist_funcs = { |
0d53c4c4 | 4668 | loclist_read_variable, |
e18b2753 | 4669 | loclist_read_variable_at_entry, |
0b31a4bc | 4670 | loclist_symbol_needs, |
0d53c4c4 | 4671 | loclist_describe_location, |
f1e6e072 | 4672 | 1, /* location_has_loclist */ |
bb2ec1b3 TT |
4673 | loclist_tracepoint_var_ref, |
4674 | loclist_generate_c_location | |
0d53c4c4 | 4675 | }; |
8e3b41a9 | 4676 | |
6c265988 | 4677 | void _initialize_dwarf2loc (); |
8e3b41a9 | 4678 | void |
6c265988 | 4679 | _initialize_dwarf2loc () |
8e3b41a9 | 4680 | { |
ccce17b0 YQ |
4681 | add_setshow_zuinteger_cmd ("entry-values", class_maintenance, |
4682 | &entry_values_debug, | |
4683 | _("Set entry values and tail call frames " | |
4684 | "debugging."), | |
4685 | _("Show entry values and tail call frames " | |
4686 | "debugging."), | |
4687 | _("When non-zero, the process of determining " | |
4688 | "parameter values from function entry point " | |
4689 | "and tail call frames will be printed."), | |
4690 | NULL, | |
4691 | show_entry_values_debug, | |
4692 | &setdebuglist, &showdebuglist); | |
009b64fc TT |
4693 | |
4694 | add_setshow_boolean_cmd ("always-disassemble", class_obscure, | |
4695 | &dwarf_always_disassemble, _("\ | |
4696 | Set whether `info address' always disassembles DWARF expressions."), _("\ | |
4697 | Show whether `info address' always disassembles DWARF expressions."), _("\ | |
4698 | When enabled, DWARF expressions are always printed in an assembly-like\n\ | |
4699 | syntax. When disabled, expressions will be printed in a more\n\ | |
4700 | conversational style, when possible."), | |
4701 | NULL, | |
4702 | show_dwarf_always_disassemble, | |
4703 | &set_dwarf_cmdlist, | |
4704 | &show_dwarf_cmdlist); | |
8e3b41a9 | 4705 | } |