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c906108c | 1 | /* Parameters for execution on any Hewlett-Packard PA-RISC machine. |
b6ba6518 KB |
2 | Copyright 1986, 1987, 1989, 1990, 1991, 1992, 1993, 1994, 1995, 1996, |
3 | 1998, 1999, 2000 Free Software Foundation, Inc. | |
c906108c SS |
4 | |
5 | Contributed by the Center for Software Science at the | |
6 | University of Utah (pa-gdb-bugs@cs.utah.edu). | |
7 | ||
c5aa993b | 8 | This file is part of GDB. |
c906108c | 9 | |
c5aa993b JM |
10 | This program is free software; you can redistribute it and/or modify |
11 | it under the terms of the GNU General Public License as published by | |
12 | the Free Software Foundation; either version 2 of the License, or | |
13 | (at your option) any later version. | |
c906108c | 14 | |
c5aa993b JM |
15 | This program is distributed in the hope that it will be useful, |
16 | but WITHOUT ANY WARRANTY; without even the implied warranty of | |
17 | MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the | |
18 | GNU General Public License for more details. | |
c906108c | 19 | |
c5aa993b JM |
20 | You should have received a copy of the GNU General Public License |
21 | along with this program; if not, write to the Free Software | |
22 | Foundation, Inc., 59 Temple Place - Suite 330, | |
23 | Boston, MA 02111-1307, USA. */ | |
c906108c | 24 | |
f88e2c52 AC |
25 | #include "regcache.h" |
26 | ||
c906108c SS |
27 | /* Forward declarations of some types we use in prototypes */ |
28 | ||
c906108c SS |
29 | struct frame_info; |
30 | struct frame_saved_regs; | |
31 | struct value; | |
32 | struct type; | |
33 | struct inferior_status; | |
c906108c | 34 | |
c906108c SS |
35 | /* By default assume we don't have to worry about software floating point. */ |
36 | #ifndef SOFT_FLOAT | |
37 | #define SOFT_FLOAT 0 | |
38 | #endif | |
39 | ||
40 | /* Get at various relevent fields of an instruction word. */ | |
41 | ||
42 | #define MASK_5 0x1f | |
43 | #define MASK_11 0x7ff | |
44 | #define MASK_14 0x3fff | |
45 | #define MASK_21 0x1fffff | |
46 | ||
47 | /* This macro gets bit fields using HP's numbering (MSB = 0) */ | |
48 | #ifndef GET_FIELD | |
49 | #define GET_FIELD(X, FROM, TO) \ | |
50 | ((X) >> (31 - (TO)) & ((1 << ((TO) - (FROM) + 1)) - 1)) | |
51 | #endif | |
52 | ||
c906108c SS |
53 | /* On the PA, any pass-by-value structure > 8 bytes is actually |
54 | passed via a pointer regardless of its type or the compiler | |
55 | used. */ | |
56 | ||
57 | #define REG_STRUCT_HAS_ADDR(gcc_p,type) \ | |
58 | (TYPE_LENGTH (type) > 8) | |
59 | ||
60 | /* Offset from address of function to start of its code. | |
61 | Zero on most machines. */ | |
62 | ||
63 | #define FUNCTION_START_OFFSET 0 | |
c5aa993b | 64 | |
c906108c SS |
65 | /* Advance PC across any function entry prologue instructions |
66 | to reach some "real" code. */ | |
67 | ||
a14ed312 | 68 | extern CORE_ADDR hppa_skip_prologue (CORE_ADDR); |
b83266a0 | 69 | #define SKIP_PROLOGUE(pc) (hppa_skip_prologue (pc)) |
c906108c SS |
70 | |
71 | /* If PC is in some function-call trampoline code, return the PC | |
72 | where the function itself actually starts. If not, return NULL. */ | |
73 | ||
74 | #define SKIP_TRAMPOLINE_CODE(pc) skip_trampoline_code (pc, NULL) | |
a14ed312 | 75 | extern CORE_ADDR skip_trampoline_code (CORE_ADDR, char *); |
c906108c SS |
76 | |
77 | /* Return non-zero if we are in an appropriate trampoline. */ | |
78 | ||
79 | #define IN_SOLIB_CALL_TRAMPOLINE(pc, name) \ | |
80 | in_solib_call_trampoline (pc, name) | |
a14ed312 | 81 | extern int in_solib_call_trampoline (CORE_ADDR, char *); |
c906108c SS |
82 | |
83 | #define IN_SOLIB_RETURN_TRAMPOLINE(pc, name) \ | |
84 | in_solib_return_trampoline (pc, name) | |
a14ed312 | 85 | extern int in_solib_return_trampoline (CORE_ADDR, char *); |
c906108c SS |
86 | |
87 | /* Immediately after a function call, return the saved pc. | |
88 | Can't go through the frames for this because on some machines | |
89 | the new frame is not set up until the new function executes | |
90 | some instructions. */ | |
91 | ||
92 | #undef SAVED_PC_AFTER_CALL | |
93 | #define SAVED_PC_AFTER_CALL(frame) saved_pc_after_call (frame) | |
a14ed312 | 94 | extern CORE_ADDR saved_pc_after_call (struct frame_info *); |
c906108c SS |
95 | |
96 | /* Stack grows upward */ | |
97 | #define INNER_THAN(lhs,rhs) ((lhs) > (rhs)) | |
98 | ||
99 | /* elz: adjust the quantity to the next highest value which is 64-bit aligned. | |
100 | This is used in valops.c, when the sp is adjusted. | |
c5aa993b | 101 | On hppa the sp must always be kept 64-bit aligned */ |
c906108c SS |
102 | |
103 | #define STACK_ALIGN(arg) ( ((arg)%8) ? (((arg)+7)&-8) : (arg)) | |
0a49d05e | 104 | #define EXTRA_STACK_ALIGNMENT_NEEDED 0 |
c906108c SS |
105 | |
106 | /* Sequence of bytes for breakpoint instruction. */ | |
107 | ||
108 | #define BREAKPOINT {0x00, 0x01, 0x00, 0x04} | |
109 | #define BREAKPOINT32 0x10004 | |
110 | ||
111 | /* Amount PC must be decremented by after a breakpoint. | |
112 | This is often the number of bytes in BREAKPOINT | |
113 | but not always. | |
114 | ||
115 | Not on the PA-RISC */ | |
116 | ||
117 | #define DECR_PC_AFTER_BREAK 0 | |
118 | ||
119 | /* Sometimes we may pluck out a minimal symbol that has a negative | |
120 | address. | |
121 | ||
122 | An example of this occurs when an a.out is linked against a foo.sl. | |
123 | The foo.sl defines a global bar(), and the a.out declares a signature | |
124 | for bar(). However, the a.out doesn't directly call bar(), but passes | |
125 | its address in another call. | |
126 | ||
127 | If you have this scenario and attempt to "break bar" before running, | |
128 | gdb will find a minimal symbol for bar() in the a.out. But that | |
129 | symbol's address will be negative. What this appears to denote is | |
130 | an index backwards from the base of the procedure linkage table (PLT) | |
131 | into the data linkage table (DLT), the end of which is contiguous | |
132 | with the start of the PLT. This is clearly not a valid address for | |
133 | us to set a breakpoint on. | |
134 | ||
135 | Note that one must be careful in how one checks for a negative address. | |
136 | 0xc0000000 is a legitimate address of something in a shared text | |
137 | segment, for example. Since I don't know what the possible range | |
138 | is of these "really, truly negative" addresses that come from the | |
139 | minimal symbols, I'm resorting to the gross hack of checking the | |
140 | top byte of the address for all 1's. Sigh. | |
c5aa993b | 141 | */ |
c906108c SS |
142 | #define PC_REQUIRES_RUN_BEFORE_USE(pc) \ |
143 | (! target_has_stack && (pc & 0xFF000000)) | |
144 | ||
c5aa993b | 145 | /* return instruction is bv r0(rp) or bv,n r0(rp) */ |
c906108c SS |
146 | |
147 | #define ABOUT_TO_RETURN(pc) ((read_memory_integer (pc, 4) | 0x2) == 0xE840C002) | |
148 | ||
149 | /* Say how long (ordinary) registers are. This is a piece of bogosity | |
150 | used in push_word and a few other places; REGISTER_RAW_SIZE is the | |
151 | real way to know how big a register is. */ | |
152 | ||
153 | #define REGISTER_SIZE 4 | |
154 | ||
155 | /* Number of machine registers */ | |
156 | ||
157 | #define NUM_REGS 128 | |
158 | ||
159 | /* Initializer for an array of names of registers. | |
160 | There should be NUM_REGS strings in this initializer. | |
161 | They are in rows of eight entries */ | |
162 | ||
163 | #define REGISTER_NAMES \ | |
164 | {"flags", "r1", "rp", "r3", "r4", "r5", "r6", "r7", \ | |
165 | "r8", "r9", "r10", "r11", "r12", "r13", "r14", "r15", \ | |
166 | "r16", "r17", "r18", "r19", "r20", "r21", "r22", "r23", \ | |
167 | "r24", "r25", "r26", "dp", "ret0", "ret1", "sp", "r31", \ | |
168 | "sar", "pcoqh", "pcsqh", "pcoqt", "pcsqt", "eiem", "iir", "isr", \ | |
169 | "ior", "ipsw", "goto", "sr4", "sr0", "sr1", "sr2", "sr3", \ | |
170 | "sr5", "sr6", "sr7", "cr0", "cr8", "cr9", "ccr", "cr12", \ | |
171 | "cr13", "cr24", "cr25", "cr26", "mpsfu_high","mpsfu_low","mpsfu_ovflo","pad",\ | |
172 | "fpsr", "fpe1", "fpe2", "fpe3", "fpe4", "fpe5", "fpe6", "fpe7", \ | |
173 | "fr4", "fr4R", "fr5", "fr5R", "fr6", "fr6R", "fr7", "fr7R", \ | |
174 | "fr8", "fr8R", "fr9", "fr9R", "fr10", "fr10R", "fr11", "fr11R", \ | |
175 | "fr12", "fr12R", "fr13", "fr13R", "fr14", "fr14R", "fr15", "fr15R", \ | |
176 | "fr16", "fr16R", "fr17", "fr17R", "fr18", "fr18R", "fr19", "fr19R", \ | |
177 | "fr20", "fr20R", "fr21", "fr21R", "fr22", "fr22R", "fr23", "fr23R", \ | |
178 | "fr24", "fr24R", "fr25", "fr25R", "fr26", "fr26R", "fr27", "fr27R", \ | |
179 | "fr28", "fr28R", "fr29", "fr29R", "fr30", "fr30R", "fr31", "fr31R"} | |
180 | ||
181 | /* Register numbers of various important registers. | |
182 | Note that some of these values are "real" register numbers, | |
183 | and correspond to the general registers of the machine, | |
184 | and some are "phony" register numbers which are too large | |
185 | to be actual register numbers as far as the user is concerned | |
186 | but do serve to get the desired values when passed to read_register. */ | |
187 | ||
188 | #define R0_REGNUM 0 /* Doesn't actually exist, used as base for | |
189 | other r registers. */ | |
190 | #define FLAGS_REGNUM 0 /* Various status flags */ | |
191 | #define RP_REGNUM 2 /* return pointer */ | |
192 | #define FP_REGNUM 3 /* Contains address of executing stack */ | |
193 | /* frame */ | |
194 | #define SP_REGNUM 30 /* Contains address of top of stack */ | |
195 | #define SAR_REGNUM 32 /* Shift Amount Register */ | |
196 | #define IPSW_REGNUM 41 /* Interrupt Processor Status Word */ | |
197 | #define PCOQ_HEAD_REGNUM 33 /* instruction offset queue head */ | |
198 | #define PCSQ_HEAD_REGNUM 34 /* instruction space queue head */ | |
199 | #define PCOQ_TAIL_REGNUM 35 /* instruction offset queue tail */ | |
200 | #define PCSQ_TAIL_REGNUM 36 /* instruction space queue tail */ | |
201 | #define EIEM_REGNUM 37 /* External Interrupt Enable Mask */ | |
202 | #define IIR_REGNUM 38 /* Interrupt Instruction Register */ | |
203 | #define IOR_REGNUM 40 /* Interrupt Offset Register */ | |
204 | #define SR4_REGNUM 43 /* space register 4 */ | |
205 | #define RCR_REGNUM 51 /* Recover Counter (also known as cr0) */ | |
206 | #define CCR_REGNUM 54 /* Coprocessor Configuration Register */ | |
207 | #define TR0_REGNUM 57 /* Temporary Registers (cr24 -> cr31) */ | |
c5aa993b JM |
208 | #define CR27_REGNUM 60 /* Base register for thread-local storage, cr27 */ |
209 | #define FP0_REGNUM 64 /* floating point reg. 0 (fspr) */ | |
c906108c SS |
210 | #define FP4_REGNUM 72 |
211 | ||
c5aa993b JM |
212 | #define ARG0_REGNUM 26 /* The first argument of a callee. */ |
213 | #define ARG1_REGNUM 25 /* The second argument of a callee. */ | |
214 | #define ARG2_REGNUM 24 /* The third argument of a callee. */ | |
215 | #define ARG3_REGNUM 23 /* The fourth argument of a callee. */ | |
c906108c SS |
216 | |
217 | /* compatibility with the rest of gdb. */ | |
218 | #define PC_REGNUM PCOQ_HEAD_REGNUM | |
219 | #define NPC_REGNUM PCOQ_TAIL_REGNUM | |
220 | ||
221 | /* | |
222 | * Processor Status Word Masks | |
223 | */ | |
224 | ||
c5aa993b JM |
225 | #define PSW_T 0x01000000 /* Taken Branch Trap Enable */ |
226 | #define PSW_H 0x00800000 /* Higher-Privilege Transfer Trap Enable */ | |
227 | #define PSW_L 0x00400000 /* Lower-Privilege Transfer Trap Enable */ | |
228 | #define PSW_N 0x00200000 /* PC Queue Front Instruction Nullified */ | |
229 | #define PSW_X 0x00100000 /* Data Memory Break Disable */ | |
230 | #define PSW_B 0x00080000 /* Taken Branch in Previous Cycle */ | |
231 | #define PSW_C 0x00040000 /* Code Address Translation Enable */ | |
232 | #define PSW_V 0x00020000 /* Divide Step Correction */ | |
233 | #define PSW_M 0x00010000 /* High-Priority Machine Check Disable */ | |
234 | #define PSW_CB 0x0000ff00 /* Carry/Borrow Bits */ | |
235 | #define PSW_R 0x00000010 /* Recovery Counter Enable */ | |
236 | #define PSW_Q 0x00000008 /* Interruption State Collection Enable */ | |
237 | #define PSW_P 0x00000004 /* Protection ID Validation Enable */ | |
238 | #define PSW_D 0x00000002 /* Data Address Translation Enable */ | |
239 | #define PSW_I 0x00000001 /* External, Power Failure, Low-Priority */ | |
240 | /* Machine Check Interruption Enable */ | |
c906108c SS |
241 | |
242 | /* When fetching register values from an inferior or a core file, | |
243 | clean them up using this macro. BUF is a char pointer to | |
244 | the raw value of the register in the registers[] array. */ | |
245 | ||
4ee3352d | 246 | #define DEPRECATED_CLEAN_UP_REGISTER_VALUE(regno, buf) \ |
c906108c SS |
247 | do { \ |
248 | if ((regno) == PCOQ_HEAD_REGNUM || (regno) == PCOQ_TAIL_REGNUM) \ | |
7be570e7 | 249 | (buf)[sizeof(CORE_ADDR) -1] &= ~0x3; \ |
c906108c SS |
250 | } while (0) |
251 | ||
903ad3a6 | 252 | /* Define DEPRECATED_REGISTERS_INFO() to do machine-specific formatting |
c906108c SS |
253 | of register dumps. */ |
254 | ||
903ad3a6 | 255 | #define DEPRECATED_REGISTERS_INFO(_regnum, fp) pa_do_registers_info (_regnum, fp) |
a14ed312 | 256 | extern void pa_do_registers_info (int, int); |
c906108c SS |
257 | |
258 | #if 0 | |
259 | #define STRCAT_REGISTER(regnum, fpregs, stream, precision) pa_do_strcat_registers_info (regnum, fpregs, stream, precision) | |
d9fcf2fb | 260 | extern void pa_do_strcat_registers_info (int, int, struct ui_file *, enum precision_type); |
c906108c SS |
261 | #endif |
262 | ||
263 | /* PA specific macro to see if the current instruction is nullified. */ | |
264 | #ifndef INSTRUCTION_NULLIFIED | |
265 | #define INSTRUCTION_NULLIFIED \ | |
266 | (((int)read_register (IPSW_REGNUM) & 0x00200000) && \ | |
267 | !((int)read_register (FLAGS_REGNUM) & 0x2)) | |
268 | #endif | |
269 | ||
270 | /* Number of bytes of storage in the actual machine representation | |
271 | for register N. On the PA-RISC, all regs are 4 bytes, including | |
272 | the FP registers (they're accessed as two 4 byte halves). */ | |
273 | ||
274 | #define REGISTER_RAW_SIZE(N) 4 | |
275 | ||
276 | /* Total amount of space needed to store our copies of the machine's | |
277 | register state, the array `registers'. */ | |
278 | #define REGISTER_BYTES (NUM_REGS * 4) | |
279 | ||
280 | /* Index within `registers' of the first byte of the space for | |
281 | register N. */ | |
282 | ||
283 | #define REGISTER_BYTE(N) (N) * 4 | |
284 | ||
285 | /* Number of bytes of storage in the program's representation | |
286 | for register N. */ | |
287 | ||
288 | #define REGISTER_VIRTUAL_SIZE(N) REGISTER_RAW_SIZE(N) | |
289 | ||
290 | /* Largest value REGISTER_RAW_SIZE can have. */ | |
291 | ||
292 | #define MAX_REGISTER_RAW_SIZE 4 | |
293 | ||
294 | /* Largest value REGISTER_VIRTUAL_SIZE can have. */ | |
295 | ||
296 | #define MAX_REGISTER_VIRTUAL_SIZE 8 | |
297 | ||
298 | /* Return the GDB type object for the "standard" data type | |
299 | of data in register N. */ | |
300 | ||
301 | #define REGISTER_VIRTUAL_TYPE(N) \ | |
302 | ((N) < FP4_REGNUM ? builtin_type_int : builtin_type_float) | |
303 | ||
304 | /* Store the address of the place in which to copy the structure the | |
305 | subroutine will return. This is called from call_function. */ | |
306 | ||
307 | #define STORE_STRUCT_RETURN(ADDR, SP) {write_register (28, (ADDR)); } | |
308 | ||
309 | /* Extract from an array REGBUF containing the (raw) register state | |
310 | a function return value of type TYPE, and copy that, in virtual format, | |
1cdb71fe | 311 | into VALBUF. */ |
c906108c | 312 | |
61d8d407 | 313 | void hppa_extract_return_value (struct type *type, char *regbuf, char *valbuf); |
26e9b323 | 314 | #define DEPRECATED_EXTRACT_RETURN_VALUE(TYPE,REGBUF,VALBUF) \ |
1cdb71fe | 315 | hppa_extract_return_value (TYPE, REGBUF, VALBUF); |
c906108c SS |
316 | |
317 | /* elz: decide whether the function returning a value of type type | |
318 | will put it on the stack or in the registers. | |
319 | The pa calling convention says that: | |
320 | register 28 (called ret0 by gdb) contains any ASCII char, | |
321 | and any non_floating point value up to 32-bits. | |
322 | reg 28 and 29 contain non-floating point up tp 64 bits and larger | |
323 | than 32 bits. (higer order word in reg 28). | |
324 | fr4: floating point up to 64 bits | |
325 | sr1: space identifier (32-bit) | |
326 | stack: any lager than 64-bit, with the address in r28 | |
c5aa993b | 327 | */ |
c906108c SS |
328 | extern use_struct_convention_fn hppa_use_struct_convention; |
329 | #define USE_STRUCT_CONVENTION(gcc_p,type) hppa_use_struct_convention (gcc_p,type) | |
330 | ||
331 | /* Write into appropriate registers a function return value | |
1cdb71fe | 332 | of type TYPE, given in virtual format. */ |
c906108c | 333 | |
61d8d407 AC |
334 | |
335 | extern void hppa_store_return_value (struct type *type, char *valbuf); | |
ebba8386 | 336 | #define DEPRECATED_STORE_RETURN_VALUE(TYPE,VALBUF) \ |
1cdb71fe | 337 | hppa_store_return_value (TYPE, VALBUF); |
c906108c SS |
338 | |
339 | /* Extract from an array REGBUF containing the (raw) register state | |
340 | the address in which a function should return its structure value, | |
341 | as a CORE_ADDR (or an expression that can be used as one). */ | |
342 | ||
26e9b323 | 343 | #define DEPRECATED_EXTRACT_STRUCT_VALUE_ADDRESS(REGBUF) \ |
c906108c SS |
344 | (*(int *)((REGBUF) + REGISTER_BYTE (28))) |
345 | ||
346 | /* elz: Return a large value, which is stored on the stack at addr. | |
26e9b323 AC |
347 | This is defined only for the hppa, at this moment. The above macro |
348 | DEPRECATED_EXTRACT_STRUCT_VALUE_ADDRESS is not called anymore, | |
349 | because it assumes that on exit from a called function which | |
350 | returns a large structure on the stack, the address of the ret | |
351 | structure is still in register 28. Unfortunately this register is | |
352 | usually overwritten by the called function itself, on hppa. This is | |
353 | specified in the calling convention doc. As far as I know, the only | |
354 | way to get the return value is to have the caller tell us where it | |
355 | told the callee to put it, rather than have the callee tell us. */ | |
61d8d407 AC |
356 | struct value *hppa_value_returned_from_stack (register struct type *valtype, |
357 | CORE_ADDR addr); | |
c906108c SS |
358 | #define VALUE_RETURNED_FROM_STACK(valtype,addr) \ |
359 | hppa_value_returned_from_stack (valtype, addr) | |
360 | ||
361 | /* | |
362 | * This macro defines the register numbers (from REGISTER_NAMES) that | |
363 | * are effectively unavailable to the user through ptrace(). It allows | |
364 | * us to include the whole register set in REGISTER_NAMES (inorder to | |
365 | * better support remote debugging). If it is used in | |
366 | * fetch/store_inferior_registers() gdb will not complain about I/O errors | |
367 | * on fetching these registers. If all registers in REGISTER_NAMES | |
368 | * are available, then return false (0). | |
369 | */ | |
370 | ||
371 | #define CANNOT_STORE_REGISTER(regno) \ | |
372 | ((regno) == 0) || \ | |
373 | ((regno) == PCSQ_HEAD_REGNUM) || \ | |
374 | ((regno) >= PCSQ_TAIL_REGNUM && (regno) < IPSW_REGNUM) || \ | |
375 | ((regno) > IPSW_REGNUM && (regno) < FP4_REGNUM) | |
376 | ||
377 | #define INIT_EXTRA_FRAME_INFO(fromleaf, frame) init_extra_frame_info (fromleaf, frame) | |
a14ed312 | 378 | extern void init_extra_frame_info (int, struct frame_info *); |
c906108c SS |
379 | |
380 | /* Describe the pointer in each stack frame to the previous stack frame | |
381 | (its caller). */ | |
382 | ||
f208ba17 AC |
383 | /* FRAME_CHAIN takes a frame's nominal address and produces the |
384 | frame's chain-pointer. */ | |
c906108c SS |
385 | |
386 | /* In the case of the PA-RISC, the frame's nominal address | |
387 | is the address of a 4-byte word containing the calling frame's | |
388 | address (previous FP). */ | |
389 | ||
390 | #define FRAME_CHAIN(thisframe) frame_chain (thisframe) | |
a14ed312 | 391 | extern CORE_ADDR frame_chain (struct frame_info *); |
c906108c | 392 | |
a14ed312 | 393 | extern int hppa_frame_chain_valid (CORE_ADDR, struct frame_info *); |
c906108c SS |
394 | #define FRAME_CHAIN_VALID(chain, thisframe) hppa_frame_chain_valid (chain, thisframe) |
395 | ||
c906108c SS |
396 | /* Define other aspects of the stack frame. */ |
397 | ||
398 | /* A macro that tells us whether the function invocation represented | |
399 | by FI does not have a frame on the stack associated with it. If it | |
400 | does not, FRAMELESS is set to 1, else 0. */ | |
392a587b JM |
401 | #define FRAMELESS_FUNCTION_INVOCATION(FI) \ |
402 | (frameless_function_invocation (FI)) | |
a14ed312 | 403 | extern int frameless_function_invocation (struct frame_info *); |
c906108c | 404 | |
a14ed312 | 405 | extern CORE_ADDR hppa_frame_saved_pc (struct frame_info *frame); |
c906108c SS |
406 | #define FRAME_SAVED_PC(FRAME) hppa_frame_saved_pc (FRAME) |
407 | ||
408 | #define FRAME_ARGS_ADDRESS(fi) ((fi)->frame) | |
409 | ||
410 | #define FRAME_LOCALS_ADDRESS(fi) ((fi)->frame) | |
411 | /* Set VAL to the number of args passed to frame described by FI. | |
412 | Can set VAL to -1, meaning no way to tell. */ | |
413 | ||
414 | /* We can't tell how many args there are | |
415 | now that the C compiler delays popping them. */ | |
392a587b | 416 | #define FRAME_NUM_ARGS(fi) (-1) |
c906108c SS |
417 | |
418 | /* Return number of bytes at start of arglist that are not really args. */ | |
419 | ||
420 | #define FRAME_ARGS_SKIP 0 | |
421 | ||
422 | #define FRAME_FIND_SAVED_REGS(frame_info, frame_saved_regs) \ | |
423 | hppa_frame_find_saved_regs (frame_info, &frame_saved_regs) | |
424 | extern void | |
a14ed312 | 425 | hppa_frame_find_saved_regs (struct frame_info *, struct frame_saved_regs *); |
c906108c | 426 | \f |
c5aa993b | 427 | |
c906108c SS |
428 | /* Things needed for making the inferior call functions. */ |
429 | ||
430 | /* Push an empty stack frame, to record the current PC, etc. */ | |
431 | ||
7a292a7a | 432 | #define PUSH_DUMMY_FRAME push_dummy_frame (inf_status) |
a14ed312 | 433 | extern void push_dummy_frame (struct inferior_status *); |
c906108c SS |
434 | |
435 | /* Discard from the stack the innermost frame, | |
436 | restoring all saved registers. */ | |
437 | #define POP_FRAME hppa_pop_frame () | |
a14ed312 | 438 | extern void hppa_pop_frame (void); |
c906108c SS |
439 | |
440 | #define INSTRUCTION_SIZE 4 | |
441 | ||
442 | #ifndef PA_LEVEL_0 | |
443 | ||
444 | /* Non-level zero PA's have space registers (but they don't always have | |
445 | floating-point, do they???? */ | |
446 | ||
447 | /* This sequence of words is the instructions | |
448 | ||
c5aa993b JM |
449 | ; Call stack frame has already been built by gdb. Since we could be calling |
450 | ; a varargs function, and we do not have the benefit of a stub to put things in | |
451 | ; the right place, we load the first 4 word of arguments into both the general | |
452 | ; and fp registers. | |
453 | call_dummy | |
454 | ldw -36(sp), arg0 | |
455 | ldw -40(sp), arg1 | |
456 | ldw -44(sp), arg2 | |
457 | ldw -48(sp), arg3 | |
458 | ldo -36(sp), r1 | |
459 | fldws 0(0, r1), fr4 | |
460 | fldds -4(0, r1), fr5 | |
461 | fldws -8(0, r1), fr6 | |
462 | fldds -12(0, r1), fr7 | |
463 | ldil 0, r22 ; FUNC_LDIL_OFFSET must point here | |
464 | ldo 0(r22), r22 ; FUNC_LDO_OFFSET must point here | |
465 | ldsid (0,r22), r4 | |
466 | ldil 0, r1 ; SR4EXPORT_LDIL_OFFSET must point here | |
467 | ldo 0(r1), r1 ; SR4EXPORT_LDO_OFFSET must point here | |
468 | ldsid (0,r1), r20 | |
469 | combt,=,n r4, r20, text_space ; If target is in data space, do a | |
470 | ble 0(sr5, r22) ; "normal" procedure call | |
471 | copy r31, r2 | |
472 | break 4, 8 | |
473 | mtsp r21, sr0 | |
474 | ble,n 0(sr0, r22) | |
475 | text_space ; Otherwise, go through _sr4export, | |
476 | ble (sr4, r1) ; which will return back here. | |
477 | stw r31,-24(r30) | |
478 | break 4, 8 | |
479 | mtsp r21, sr0 | |
480 | ble,n 0(sr0, r22) | |
481 | nop ; To avoid kernel bugs | |
482 | nop ; and keep the dummy 8 byte aligned | |
c906108c SS |
483 | |
484 | The dummy decides if the target is in text space or data space. If | |
485 | it's in data space, there's no problem because the target can | |
486 | return back to the dummy. However, if the target is in text space, | |
487 | the dummy calls the secret, undocumented routine _sr4export, which | |
488 | calls a function in text space and can return to any space. Instead | |
489 | of including fake instructions to represent saved registers, we | |
490 | know that the frame is associated with the call dummy and treat it | |
491 | specially. | |
492 | ||
493 | The trailing NOPs are needed to avoid a bug in HPUX, BSD and OSF1 | |
494 | kernels. If the memory at the location pointed to by the PC is | |
495 | 0xffffffff then a ptrace step call will fail (even if the instruction | |
496 | is nullified). | |
497 | ||
498 | The code to pop a dummy frame single steps three instructions | |
499 | starting with the last mtsp. This includes the nullified "instruction" | |
500 | following the ble (which is uninitialized junk). If the | |
501 | "instruction" following the last BLE is 0xffffffff, then the ptrace | |
502 | will fail and the dummy frame is not correctly popped. | |
503 | ||
504 | By placing a NOP in the delay slot of the BLE instruction we can be | |
505 | sure that we never try to execute a 0xffffffff instruction and | |
506 | avoid the kernel bug. The second NOP is needed to keep the call | |
507 | dummy 8 byte aligned. */ | |
508 | ||
509 | /* Define offsets into the call dummy for the target function address */ | |
510 | #define FUNC_LDIL_OFFSET (INSTRUCTION_SIZE * 9) | |
511 | #define FUNC_LDO_OFFSET (INSTRUCTION_SIZE * 10) | |
512 | ||
513 | /* Define offsets into the call dummy for the _sr4export address */ | |
514 | #define SR4EXPORT_LDIL_OFFSET (INSTRUCTION_SIZE * 12) | |
515 | #define SR4EXPORT_LDO_OFFSET (INSTRUCTION_SIZE * 13) | |
516 | ||
517 | #define CALL_DUMMY {0x4BDA3FB9, 0x4BD93FB1, 0x4BD83FA9, 0x4BD73FA1,\ | |
518 | 0x37C13FB9, 0x24201004, 0x2C391005, 0x24311006,\ | |
519 | 0x2C291007, 0x22C00000, 0x36D60000, 0x02C010A4,\ | |
520 | 0x20200000, 0x34210000, 0x002010b4, 0x82842022,\ | |
521 | 0xe6c06000, 0x081f0242, 0x00010004, 0x00151820,\ | |
522 | 0xe6c00002, 0xe4202000, 0x6bdf3fd1, 0x00010004,\ | |
523 | 0x00151820, 0xe6c00002, 0x08000240, 0x08000240} | |
524 | ||
525 | #define CALL_DUMMY_LENGTH (INSTRUCTION_SIZE * 28) | |
7be570e7 | 526 | #define REG_PARM_STACK_SPACE 16 |
c906108c SS |
527 | |
528 | #else /* defined PA_LEVEL_0 */ | |
529 | ||
530 | /* This is the call dummy for a level 0 PA. Level 0's don't have space | |
1faa59a8 | 531 | registers (or floating point?), so we skip all that inter-space call stuff, |
c906108c SS |
532 | and avoid touching the fp regs. |
533 | ||
c5aa993b JM |
534 | call_dummy |
535 | ||
536 | ldw -36(%sp), %arg0 | |
537 | ldw -40(%sp), %arg1 | |
538 | ldw -44(%sp), %arg2 | |
539 | ldw -48(%sp), %arg3 | |
540 | ldil 0, %r31 ; FUNC_LDIL_OFFSET must point here | |
541 | ldo 0(%r31), %r31 ; FUNC_LDO_OFFSET must point here | |
542 | ble 0(%sr0, %r31) | |
543 | copy %r31, %r2 | |
544 | break 4, 8 | |
545 | nop ; restore_pc_queue expects these | |
546 | bv,n 0(%r22) ; instructions to be here... | |
547 | nop | |
548 | */ | |
c906108c SS |
549 | |
550 | /* Define offsets into the call dummy for the target function address */ | |
551 | #define FUNC_LDIL_OFFSET (INSTRUCTION_SIZE * 4) | |
552 | #define FUNC_LDO_OFFSET (INSTRUCTION_SIZE * 5) | |
553 | ||
554 | #define CALL_DUMMY {0x4bda3fb9, 0x4bd93fb1, 0x4bd83fa9, 0x4bd73fa1,\ | |
555 | 0x23e00000, 0x37ff0000, 0xe7e00000, 0x081f0242,\ | |
556 | 0x00010004, 0x08000240, 0xeac0c002, 0x08000240} | |
557 | ||
558 | #define CALL_DUMMY_LENGTH (INSTRUCTION_SIZE * 12) | |
559 | ||
560 | #endif | |
561 | ||
562 | #define CALL_DUMMY_START_OFFSET 0 | |
563 | ||
564 | /* If we've reached a trap instruction within the call dummy, then | |
565 | we'll consider that to mean that we've reached the call dummy's | |
566 | end after its successful completion. */ | |
567 | #define CALL_DUMMY_HAS_COMPLETED(pc, sp, frame_address) \ | |
568 | (PC_IN_CALL_DUMMY((pc), (sp), (frame_address)) && \ | |
569 | (read_memory_integer((pc), 4) == BREAKPOINT32)) | |
570 | ||
571 | /* | |
572 | * Insert the specified number of args and function address | |
573 | * into a call sequence of the above form stored at DUMMYNAME. | |
574 | * | |
575 | * On the hppa we need to call the stack dummy through $$dyncall. | |
576 | * Therefore our version of FIX_CALL_DUMMY takes an extra argument, | |
577 | * real_pc, which is the location where gdb should start up the | |
578 | * inferior to do the function call. | |
579 | */ | |
580 | ||
581 | #define FIX_CALL_DUMMY hppa_fix_call_dummy | |
582 | ||
583 | extern CORE_ADDR | |
a14ed312 KB |
584 | hppa_fix_call_dummy (char *, CORE_ADDR, CORE_ADDR, int, |
585 | struct value **, struct type *, int); | |
c906108c SS |
586 | |
587 | #define PUSH_ARGUMENTS(nargs, args, sp, struct_return, struct_addr) \ | |
392a587b | 588 | (hppa_push_arguments((nargs), (args), (sp), (struct_return), (struct_addr))) |
c906108c | 589 | extern CORE_ADDR |
a14ed312 | 590 | hppa_push_arguments (int, struct value **, CORE_ADDR, int, CORE_ADDR); |
c906108c SS |
591 | \f |
592 | /* The low two bits of the PC on the PA contain the privilege level. Some | |
593 | genius implementing a (non-GCC) compiler apparently decided this means | |
594 | that "addresses" in a text section therefore include a privilege level, | |
595 | and thus symbol tables should contain these bits. This seems like a | |
596 | bonehead thing to do--anyway, it seems to work for our purposes to just | |
597 | ignore those bits. */ | |
598 | #define SMASH_TEXT_ADDRESS(addr) ((addr) &= ~0x3) | |
599 | ||
600 | #define GDB_TARGET_IS_HPPA | |
601 | ||
602 | #define BELIEVE_PCC_PROMOTION 1 | |
603 | ||
604 | /* | |
605 | * Unwind table and descriptor. | |
606 | */ | |
607 | ||
c5aa993b JM |
608 | struct unwind_table_entry |
609 | { | |
7be570e7 JM |
610 | CORE_ADDR region_start; |
611 | CORE_ADDR region_end; | |
c5aa993b JM |
612 | |
613 | unsigned int Cannot_unwind:1; /* 0 */ | |
614 | unsigned int Millicode:1; /* 1 */ | |
615 | unsigned int Millicode_save_sr0:1; /* 2 */ | |
616 | unsigned int Region_description:2; /* 3..4 */ | |
617 | unsigned int reserved1:1; /* 5 */ | |
618 | unsigned int Entry_SR:1; /* 6 */ | |
619 | unsigned int Entry_FR:4; /* number saved *//* 7..10 */ | |
620 | unsigned int Entry_GR:5; /* number saved *//* 11..15 */ | |
621 | unsigned int Args_stored:1; /* 16 */ | |
622 | unsigned int Variable_Frame:1; /* 17 */ | |
623 | unsigned int Separate_Package_Body:1; /* 18 */ | |
624 | unsigned int Frame_Extension_Millicode:1; /* 19 */ | |
625 | unsigned int Stack_Overflow_Check:1; /* 20 */ | |
626 | unsigned int Two_Instruction_SP_Increment:1; /* 21 */ | |
627 | unsigned int Ada_Region:1; /* 22 */ | |
628 | unsigned int cxx_info:1; /* 23 */ | |
629 | unsigned int cxx_try_catch:1; /* 24 */ | |
630 | unsigned int sched_entry_seq:1; /* 25 */ | |
631 | unsigned int reserved2:1; /* 26 */ | |
632 | unsigned int Save_SP:1; /* 27 */ | |
633 | unsigned int Save_RP:1; /* 28 */ | |
634 | unsigned int Save_MRP_in_frame:1; /* 29 */ | |
635 | unsigned int extn_ptr_defined:1; /* 30 */ | |
636 | unsigned int Cleanup_defined:1; /* 31 */ | |
637 | ||
638 | unsigned int MPE_XL_interrupt_marker:1; /* 0 */ | |
639 | unsigned int HP_UX_interrupt_marker:1; /* 1 */ | |
640 | unsigned int Large_frame:1; /* 2 */ | |
641 | unsigned int Pseudo_SP_Set:1; /* 3 */ | |
642 | unsigned int reserved4:1; /* 4 */ | |
643 | unsigned int Total_frame_size:27; /* 5..31 */ | |
644 | ||
645 | /* This is *NOT* part of an actual unwind_descriptor in an object | |
646 | file. It is *ONLY* part of the "internalized" descriptors that | |
647 | we create from those in a file. | |
c906108c | 648 | */ |
c5aa993b JM |
649 | struct |
650 | { | |
651 | unsigned int stub_type:4; /* 0..3 */ | |
652 | unsigned int padding:28; /* 4..31 */ | |
653 | } | |
654 | stub_unwind; | |
655 | }; | |
c906108c SS |
656 | |
657 | /* HP linkers also generate unwinds for various linker-generated stubs. | |
658 | GDB reads in the stubs from the $UNWIND_END$ subspace, then | |
659 | "converts" them into normal unwind entries using some of the reserved | |
660 | fields to store the stub type. */ | |
661 | ||
662 | struct stub_unwind_entry | |
c5aa993b JM |
663 | { |
664 | /* The offset within the executable for the associated stub. */ | |
665 | unsigned stub_offset; | |
c906108c | 666 | |
c5aa993b JM |
667 | /* The type of stub this unwind entry describes. */ |
668 | char type; | |
c906108c | 669 | |
c5aa993b JM |
670 | /* Unknown. Not needed by GDB at this time. */ |
671 | char prs_info; | |
c906108c | 672 | |
c5aa993b JM |
673 | /* Length (in instructions) of the associated stub. */ |
674 | short stub_length; | |
675 | }; | |
c906108c SS |
676 | |
677 | /* Sizes (in bytes) of the native unwind entries. */ | |
678 | #define UNWIND_ENTRY_SIZE 16 | |
679 | #define STUB_UNWIND_ENTRY_SIZE 8 | |
680 | ||
681 | /* The gaps represent linker stubs used in MPE and space for future | |
682 | expansion. */ | |
683 | enum unwind_stub_types | |
c5aa993b JM |
684 | { |
685 | LONG_BRANCH = 1, | |
686 | PARAMETER_RELOCATION = 2, | |
687 | EXPORT = 10, | |
688 | IMPORT = 11, | |
689 | IMPORT_SHLIB = 12, | |
690 | }; | |
c906108c SS |
691 | |
692 | /* We use the objfile->obj_private pointer for two things: | |
c5aa993b | 693 | |
c906108c SS |
694 | * 1. An unwind table; |
695 | * | |
696 | * 2. A pointer to any associated shared library object. | |
697 | * | |
698 | * #defines are used to help refer to these objects. | |
699 | */ | |
c5aa993b | 700 | |
c906108c | 701 | /* Info about the unwind table associated with an object file. |
c5aa993b | 702 | |
c906108c SS |
703 | * This is hung off of the "objfile->obj_private" pointer, and |
704 | * is allocated in the objfile's psymbol obstack. This allows | |
705 | * us to have unique unwind info for each executable and shared | |
706 | * library that we are debugging. | |
707 | */ | |
c5aa993b JM |
708 | struct obj_unwind_info |
709 | { | |
710 | struct unwind_table_entry *table; /* Pointer to unwind info */ | |
711 | struct unwind_table_entry *cache; /* Pointer to last entry we found */ | |
712 | int last; /* Index of last entry */ | |
713 | }; | |
714 | ||
715 | typedef struct obj_private_struct | |
716 | { | |
717 | struct obj_unwind_info *unwind_info; /* a pointer */ | |
718 | struct so_list *so_info; /* a pointer */ | |
53a5351d | 719 | CORE_ADDR dp; |
c5aa993b JM |
720 | } |
721 | obj_private_data_t; | |
c906108c SS |
722 | |
723 | #if 0 | |
a14ed312 KB |
724 | extern void target_write_pc (CORE_ADDR, int); |
725 | extern CORE_ADDR target_read_pc (int); | |
726 | extern CORE_ADDR skip_trampoline_code (CORE_ADDR, char *); | |
c906108c SS |
727 | #endif |
728 | ||
729 | #define TARGET_READ_PC(pid) target_read_pc (pid) | |
39f77062 | 730 | extern CORE_ADDR target_read_pc (ptid_t); |
c906108c SS |
731 | |
732 | #define TARGET_WRITE_PC(v,pid) target_write_pc (v,pid) | |
39f77062 | 733 | extern void target_write_pc (CORE_ADDR, ptid_t); |
c906108c | 734 | |
39f77062 | 735 | #define TARGET_READ_FP() target_read_fp (PIDGET (inferior_ptid)) |
a14ed312 | 736 | extern CORE_ADDR target_read_fp (int); |
c906108c SS |
737 | |
738 | /* For a number of horrible reasons we may have to adjust the location | |
739 | of variables on the stack. Ugh. */ | |
740 | #define HPREAD_ADJUST_STACK_ADDRESS(ADDR) hpread_adjust_stack_address(ADDR) | |
741 | ||
a14ed312 | 742 | extern int hpread_adjust_stack_address (CORE_ADDR); |
c906108c SS |
743 | |
744 | /* If the current gcc for for this target does not produce correct debugging | |
745 | information for float parameters, both prototyped and unprototyped, then | |
746 | define this macro. This forces gdb to always assume that floats are | |
747 | passed as doubles and then converted in the callee. | |
748 | ||
749 | For the pa, it appears that the debug info marks the parameters as | |
750 | floats regardless of whether the function is prototyped, but the actual | |
751 | values are passed as doubles for the non-prototyped case and floats for | |
752 | the prototyped case. Thus we choose to make the non-prototyped case work | |
753 | for C and break the prototyped case, since the non-prototyped case is | |
754 | probably much more common. (FIXME). */ | |
755 | ||
b9a8e3bf | 756 | #define COERCE_FLOAT_TO_DOUBLE(formal, actual) (current_language -> la_language == language_c) |
c2c6d25f JM |
757 | |
758 | /* Here's how to step off a permanent breakpoint. */ | |
759 | #define SKIP_PERMANENT_BREAKPOINT (hppa_skip_permanent_breakpoint) | |
760 | extern void hppa_skip_permanent_breakpoint (void); | |
2df3850c JM |
761 | |
762 | /* On HP-UX, certain system routines (millicode) have names beginning | |
763 | with $ or $$, e.g. $$dyncall, which handles inter-space procedure | |
764 | calls on PA-RISC. Tell the expression parser to check for those | |
765 | when parsing tokens that begin with "$". */ | |
766 | #define SYMBOLS_CAN_START_WITH_DOLLAR (1) |