Update copyright year range in all GDB files.
[deliverable/binutils-gdb.git] / gdb / auxv.c
CommitLineData
14ed0a8b
RM
1/* Auxiliary vector support for GDB, the GNU debugger.
2
b811d2c2 3 Copyright (C) 2004-2020 Free Software Foundation, Inc.
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4
5 This file is part of GDB.
6
7 This program is free software; you can redistribute it and/or modify
8 it under the terms of the GNU General Public License as published by
a9762ec7 9 the Free Software Foundation; either version 3 of the License, or
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RM
10 (at your option) any later version.
11
12 This program is distributed in the hope that it will be useful,
13 but WITHOUT ANY WARRANTY; without even the implied warranty of
14 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15 GNU General Public License for more details.
16
17 You should have received a copy of the GNU General Public License
a9762ec7 18 along with this program. If not, see <http://www.gnu.org/licenses/>. */
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19
20#include "defs.h"
4de283e4 21#include "target.h"
d55e5aa6 22#include "gdbtypes.h"
4de283e4 23#include "command.h"
d55e5aa6 24#include "inferior.h"
d55e5aa6 25#include "valprint.h"
4de283e4
TT
26#include "gdbcore.h"
27#include "observable.h"
268a13a5 28#include "gdbsupport/filestuff.h"
4de283e4
TT
29#include "objfiles.h"
30
31#include "auxv.h"
32#include "elf/common.h"
33
34#include <unistd.h>
35#include <fcntl.h>
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36
37
edcc890f
YQ
38/* Implement the to_xfer_partial target_ops method. This function
39 handles access via /proc/PID/auxv, which is a common method for
40 native targets. */
14ed0a8b 41
9b409511 42static enum target_xfer_status
9f2982ff 43procfs_xfer_auxv (gdb_byte *readbuf,
36aa5e41 44 const gdb_byte *writebuf,
14ed0a8b 45 ULONGEST offset,
9b409511
YQ
46 ULONGEST len,
47 ULONGEST *xfered_len)
14ed0a8b 48{
14ed0a8b 49 int fd;
9b409511 50 ssize_t l;
14ed0a8b 51
528e1572 52 std::string pathname = string_printf ("/proc/%d/auxv", inferior_ptid.pid ());
614c279d 53 fd = gdb_open_cloexec (pathname, writebuf != NULL ? O_WRONLY : O_RDONLY, 0);
14ed0a8b 54 if (fd < 0)
2ed4b548 55 return TARGET_XFER_E_IO;
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56
57 if (offset != (ULONGEST) 0
58 && lseek (fd, (off_t) offset, SEEK_SET) != (off_t) offset)
9b409511 59 l = -1;
14ed0a8b 60 else if (readbuf != NULL)
9b409511 61 l = read (fd, readbuf, (size_t) len);
14ed0a8b 62 else
9b409511 63 l = write (fd, writebuf, (size_t) len);
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64
65 (void) close (fd);
66
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67 if (l < 0)
68 return TARGET_XFER_E_IO;
69 else if (l == 0)
70 return TARGET_XFER_EOF;
71 else
72 {
73 *xfered_len = (ULONGEST) l;
74 return TARGET_XFER_OK;
75 }
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RM
76}
77
9f2982ff
JK
78/* This function handles access via ld.so's symbol `_dl_auxv'. */
79
9b409511 80static enum target_xfer_status
9f2982ff
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81ld_so_xfer_auxv (gdb_byte *readbuf,
82 const gdb_byte *writebuf,
83 ULONGEST offset,
9b409511 84 ULONGEST len, ULONGEST *xfered_len)
9f2982ff 85{
3b7344d5 86 struct bound_minimal_symbol msym;
9f2982ff 87 CORE_ADDR data_address, pointer_address;
f5656ead 88 struct type *ptr_type = builtin_type (target_gdbarch ())->builtin_data_ptr;
9f2982ff
JK
89 size_t ptr_size = TYPE_LENGTH (ptr_type);
90 size_t auxv_pair_size = 2 * ptr_size;
224c3ddb 91 gdb_byte *ptr_buf = (gdb_byte *) alloca (ptr_size);
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92 LONGEST retval;
93 size_t block;
94
95 msym = lookup_minimal_symbol ("_dl_auxv", NULL, NULL);
3b7344d5 96 if (msym.minsym == NULL)
2ed4b548 97 return TARGET_XFER_E_IO;
9f2982ff 98
3b7344d5 99 if (MSYMBOL_SIZE (msym.minsym) != ptr_size)
2ed4b548 100 return TARGET_XFER_E_IO;
9f2982ff 101
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MS
102 /* POINTER_ADDRESS is a location where the `_dl_auxv' variable
103 resides. DATA_ADDRESS is the inferior value present in
104 `_dl_auxv', therefore the real inferior AUXV address. */
9f2982ff 105
77e371c0 106 pointer_address = BMSYMBOL_VALUE_ADDRESS (msym);
9f2982ff 107
3cd07d20 108 /* The location of the _dl_auxv symbol may no longer be correct if
0e2de366
MS
109 ld.so runs at a different address than the one present in the
110 file. This is very common case - for unprelinked ld.so or with a
111 PIE executable. PIE executable forces random address even for
112 libraries already being prelinked to some address. PIE
113 executables themselves are never prelinked even on prelinked
114 systems. Prelinking of a PIE executable would block their
115 purpose of randomizing load of everything including the
116 executable.
117
118 If the memory read fails, return -1 to fallback on another
119 mechanism for retrieving the AUXV.
120
121 In most cases of a PIE running under valgrind there is no way to
122 find out the base addresses of any of ld.so, executable or AUXV
123 as everything is randomized and /proc information is not relevant
124 for the virtual executable running under valgrind. We think that
125 we might need a valgrind extension to make it work. This is PR
126 11440. */
3cd07d20
JK
127
128 if (target_read_memory (pointer_address, ptr_buf, ptr_size) != 0)
2ed4b548 129 return TARGET_XFER_E_IO;
3cd07d20
JK
130
131 data_address = extract_typed_address (ptr_buf, ptr_type);
9f2982ff 132
0e2de366
MS
133 /* Possibly still not initialized such as during an inferior
134 startup. */
9f2982ff 135 if (data_address == 0)
2ed4b548 136 return TARGET_XFER_E_IO;
9f2982ff
JK
137
138 data_address += offset;
139
140 if (writebuf != NULL)
141 {
142 if (target_write_memory (data_address, writebuf, len) == 0)
9b409511
YQ
143 {
144 *xfered_len = (ULONGEST) len;
145 return TARGET_XFER_OK;
146 }
9f2982ff 147 else
2ed4b548 148 return TARGET_XFER_E_IO;
9f2982ff
JK
149 }
150
0e2de366
MS
151 /* Stop if trying to read past the existing AUXV block. The final
152 AT_NULL was already returned before. */
9f2982ff
JK
153
154 if (offset >= auxv_pair_size)
155 {
156 if (target_read_memory (data_address - auxv_pair_size, ptr_buf,
157 ptr_size) != 0)
2ed4b548 158 return TARGET_XFER_E_IO;
9f2982ff
JK
159
160 if (extract_typed_address (ptr_buf, ptr_type) == AT_NULL)
9b409511 161 return TARGET_XFER_EOF;
9f2982ff
JK
162 }
163
164 retval = 0;
165 block = 0x400;
166 gdb_assert (block % auxv_pair_size == 0);
167
168 while (len > 0)
169 {
170 if (block > len)
171 block = len;
172
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MS
173 /* Reading sizes smaller than AUXV_PAIR_SIZE is not supported.
174 Tails unaligned to AUXV_PAIR_SIZE will not be read during a
175 call (they should be completed during next read with
176 new/extended buffer). */
9f2982ff
JK
177
178 block &= -auxv_pair_size;
179 if (block == 0)
9b409511 180 break;
9f2982ff
JK
181
182 if (target_read_memory (data_address, readbuf, block) != 0)
183 {
184 if (block <= auxv_pair_size)
9b409511 185 break;
9f2982ff
JK
186
187 block = auxv_pair_size;
188 continue;
189 }
190
191 data_address += block;
192 len -= block;
193
0e2de366
MS
194 /* Check terminal AT_NULL. This function is being called
195 indefinitely being extended its READBUF until it returns EOF
196 (0). */
9f2982ff
JK
197
198 while (block >= auxv_pair_size)
199 {
200 retval += auxv_pair_size;
201
202 if (extract_typed_address (readbuf, ptr_type) == AT_NULL)
9b409511
YQ
203 {
204 *xfered_len = (ULONGEST) retval;
205 return TARGET_XFER_OK;
206 }
9f2982ff
JK
207
208 readbuf += auxv_pair_size;
209 block -= auxv_pair_size;
210 }
211 }
212
9b409511
YQ
213 *xfered_len = (ULONGEST) retval;
214 return TARGET_XFER_OK;
9f2982ff
JK
215}
216
edcc890f
YQ
217/* Implement the to_xfer_partial target_ops method for
218 TARGET_OBJECT_AUXV. It handles access to AUXV. */
9f2982ff 219
9b409511 220enum target_xfer_status
9f2982ff
JK
221memory_xfer_auxv (struct target_ops *ops,
222 enum target_object object,
223 const char *annex,
224 gdb_byte *readbuf,
225 const gdb_byte *writebuf,
226 ULONGEST offset,
9b409511 227 ULONGEST len, ULONGEST *xfered_len)
9f2982ff
JK
228{
229 gdb_assert (object == TARGET_OBJECT_AUXV);
230 gdb_assert (readbuf || writebuf);
231
0e2de366
MS
232 /* ld_so_xfer_auxv is the only function safe for virtual
233 executables being executed by valgrind's memcheck. Using
234 ld_so_xfer_auxv during inferior startup is problematic, because
235 ld.so symbol tables have not yet been relocated. So GDB uses
236 this function only when attaching to a process.
86e4bafc 237 */
9f2982ff
JK
238
239 if (current_inferior ()->attach_flag != 0)
240 {
9b409511 241 enum target_xfer_status ret;
9f2982ff 242
9b409511
YQ
243 ret = ld_so_xfer_auxv (readbuf, writebuf, offset, len, xfered_len);
244 if (ret != TARGET_XFER_E_IO)
245 return ret;
9f2982ff
JK
246 }
247
9b409511 248 return procfs_xfer_auxv (readbuf, writebuf, offset, len, xfered_len);
9f2982ff
JK
249}
250
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RM
251/* Read one auxv entry from *READPTR, not reading locations >= ENDPTR.
252 Return 0 if *READPTR is already at the end of the buffer.
253 Return -1 if there is insufficient buffer for a whole entry.
254 Return 1 if an entry was read into *TYPEP and *VALP. */
8de71aab 255int
c47ffbe3 256default_auxv_parse (struct target_ops *ops, gdb_byte **readptr,
36aa5e41 257 gdb_byte *endptr, CORE_ADDR *typep, CORE_ADDR *valp)
14ed0a8b 258{
f5656ead 259 const int sizeof_auxv_field = gdbarch_ptr_bit (target_gdbarch ())
ffe5a37e 260 / TARGET_CHAR_BIT;
f5656ead 261 const enum bfd_endian byte_order = gdbarch_byte_order (target_gdbarch ());
36aa5e41 262 gdb_byte *ptr = *readptr;
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RM
263
264 if (endptr == ptr)
265 return 0;
266
267 if (endptr - ptr < sizeof_auxv_field * 2)
268 return -1;
269
e17a4113 270 *typep = extract_unsigned_integer (ptr, sizeof_auxv_field, byte_order);
14ed0a8b 271 ptr += sizeof_auxv_field;
e17a4113 272 *valp = extract_unsigned_integer (ptr, sizeof_auxv_field, byte_order);
14ed0a8b
RM
273 ptr += sizeof_auxv_field;
274
275 *readptr = ptr;
276 return 1;
277}
278
c47ffbe3
VP
279/* Read one auxv entry from *READPTR, not reading locations >= ENDPTR.
280 Return 0 if *READPTR is already at the end of the buffer.
281 Return -1 if there is insufficient buffer for a whole entry.
282 Return 1 if an entry was read into *TYPEP and *VALP. */
283int
f6ac5f3d
PA
284target_auxv_parse (gdb_byte **readptr,
285 gdb_byte *endptr, CORE_ADDR *typep, CORE_ADDR *valp)
c47ffbe3 286{
27a48a92
MK
287 struct gdbarch *gdbarch = target_gdbarch();
288
289 if (gdbarch_auxv_parse_p (gdbarch))
290 return gdbarch_auxv_parse (gdbarch, readptr, endptr, typep, valp);
291
8b88a78e 292 return current_top_target ()->auxv_parse (readptr, endptr, typep, valp);
c47ffbe3
VP
293}
294
865ecab4 295
865ecab4
LM
296/* Auxiliary Vector information structure. This is used by GDB
297 for caching purposes for each inferior. This helps reduce the
298 overhead of transfering data from a remote target to the local host. */
299struct auxv_info
300{
9018be22 301 gdb::optional<gdb::byte_vector> data;
865ecab4
LM
302};
303
e9b89e2d
TT
304/* Per-inferior data key for auxv. */
305static const struct inferior_key<auxv_info> auxv_inferior_data;
865ecab4
LM
306
307/* Invalidate INF's auxv cache. */
308
309static void
310invalidate_auxv_cache_inf (struct inferior *inf)
311{
e9b89e2d 312 auxv_inferior_data.clear (inf);
865ecab4
LM
313}
314
315/* Invalidate current inferior's auxv cache. */
316
317static void
318invalidate_auxv_cache (void)
319{
320 invalidate_auxv_cache_inf (current_inferior ());
321}
322
323/* Fetch the auxv object from inferior INF. If auxv is cached already,
324 return a pointer to the cache. If not, fetch the auxv object from the
325 target and cache it. This function always returns a valid INFO pointer. */
326
327static struct auxv_info *
328get_auxv_inferior_data (struct target_ops *ops)
329{
330 struct auxv_info *info;
331 struct inferior *inf = current_inferior ();
332
e9b89e2d 333 info = auxv_inferior_data.get (inf);
865ecab4
LM
334 if (info == NULL)
335 {
e9b89e2d 336 info = auxv_inferior_data.emplace (inf);
9018be22 337 info->data = target_read_alloc (ops, TARGET_OBJECT_AUXV, NULL);
865ecab4
LM
338 }
339
340 return info;
341}
342
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RM
343/* Extract the auxiliary vector entry with a_type matching MATCH.
344 Return zero if no such entry was found, or -1 if there was
345 an error getting the information. On success, return 1 after
346 storing the entry's value field in *VALP. */
347int
348target_auxv_search (struct target_ops *ops, CORE_ADDR match, CORE_ADDR *valp)
349{
350 CORE_ADDR type, val;
9018be22 351 auxv_info *info = get_auxv_inferior_data (ops);
865ecab4 352
9018be22
SM
353 if (!info->data)
354 return -1;
14ed0a8b 355
9018be22
SM
356 gdb_byte *data = info->data->data ();
357 gdb_byte *ptr = data;
358 size_t len = info->data->size ();
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RM
359
360 while (1)
f6ac5f3d 361 switch (target_auxv_parse (&ptr, data + len, &type, &val))
14ed0a8b
RM
362 {
363 case 1: /* Here's an entry, check it. */
364 if (type == match)
365 {
14ed0a8b
RM
366 *valp = val;
367 return 1;
368 }
369 break;
370 case 0: /* End of the vector. */
14ed0a8b
RM
371 return 0;
372 default: /* Bogosity. */
14ed0a8b
RM
373 return -1;
374 }
375
376 /*NOTREACHED*/
377}
378
379
2faa3447
JB
380/* Print the description of a single AUXV entry on the specified file. */
381
382void
383fprint_auxv_entry (struct ui_file *file, const char *name,
384 const char *description, enum auxv_format format,
385 CORE_ADDR type, CORE_ADDR val)
386{
387 fprintf_filtered (file, ("%-4s %-20s %-30s "),
388 plongest (type), name, description);
389 switch (format)
390 {
391 case AUXV_FORMAT_DEC:
392 fprintf_filtered (file, ("%s\n"), plongest (val));
393 break;
394 case AUXV_FORMAT_HEX:
395 fprintf_filtered (file, ("%s\n"), paddress (target_gdbarch (), val));
396 break;
397 case AUXV_FORMAT_STR:
398 {
399 struct value_print_options opts;
400
401 get_user_print_options (&opts);
402 if (opts.addressprint)
403 fprintf_filtered (file, ("%s "), paddress (target_gdbarch (), val));
404 val_print_string (builtin_type (target_gdbarch ())->builtin_char,
405 NULL, val, -1, file, &opts);
406 fprintf_filtered (file, ("\n"));
407 }
408 break;
409 }
410}
411
412/* The default implementation of gdbarch_print_auxv_entry. */
413
414void
415default_print_auxv_entry (struct gdbarch *gdbarch, struct ui_file *file,
416 CORE_ADDR type, CORE_ADDR val)
417{
418 const char *name = "???";
419 const char *description = "";
420 enum auxv_format format = AUXV_FORMAT_HEX;
421
422 switch (type)
423 {
424#define TAG(tag, text, kind) \
425 case tag: name = #tag; description = text; format = kind; break
426 TAG (AT_NULL, _("End of vector"), AUXV_FORMAT_HEX);
427 TAG (AT_IGNORE, _("Entry should be ignored"), AUXV_FORMAT_HEX);
428 TAG (AT_EXECFD, _("File descriptor of program"), AUXV_FORMAT_DEC);
429 TAG (AT_PHDR, _("Program headers for program"), AUXV_FORMAT_HEX);
430 TAG (AT_PHENT, _("Size of program header entry"), AUXV_FORMAT_DEC);
431 TAG (AT_PHNUM, _("Number of program headers"), AUXV_FORMAT_DEC);
432 TAG (AT_PAGESZ, _("System page size"), AUXV_FORMAT_DEC);
433 TAG (AT_BASE, _("Base address of interpreter"), AUXV_FORMAT_HEX);
434 TAG (AT_FLAGS, _("Flags"), AUXV_FORMAT_HEX);
435 TAG (AT_ENTRY, _("Entry point of program"), AUXV_FORMAT_HEX);
436 TAG (AT_NOTELF, _("Program is not ELF"), AUXV_FORMAT_DEC);
437 TAG (AT_UID, _("Real user ID"), AUXV_FORMAT_DEC);
438 TAG (AT_EUID, _("Effective user ID"), AUXV_FORMAT_DEC);
439 TAG (AT_GID, _("Real group ID"), AUXV_FORMAT_DEC);
440 TAG (AT_EGID, _("Effective group ID"), AUXV_FORMAT_DEC);
441 TAG (AT_CLKTCK, _("Frequency of times()"), AUXV_FORMAT_DEC);
442 TAG (AT_PLATFORM, _("String identifying platform"), AUXV_FORMAT_STR);
443 TAG (AT_HWCAP, _("Machine-dependent CPU capability hints"),
444 AUXV_FORMAT_HEX);
445 TAG (AT_FPUCW, _("Used FPU control word"), AUXV_FORMAT_DEC);
446 TAG (AT_DCACHEBSIZE, _("Data cache block size"), AUXV_FORMAT_DEC);
447 TAG (AT_ICACHEBSIZE, _("Instruction cache block size"), AUXV_FORMAT_DEC);
448 TAG (AT_UCACHEBSIZE, _("Unified cache block size"), AUXV_FORMAT_DEC);
449 TAG (AT_IGNOREPPC, _("Entry should be ignored"), AUXV_FORMAT_DEC);
450 TAG (AT_BASE_PLATFORM, _("String identifying base platform"),
451 AUXV_FORMAT_STR);
452 TAG (AT_RANDOM, _("Address of 16 random bytes"), AUXV_FORMAT_HEX);
453 TAG (AT_HWCAP2, _("Extension of AT_HWCAP"), AUXV_FORMAT_HEX);
454 TAG (AT_EXECFN, _("File name of executable"), AUXV_FORMAT_STR);
455 TAG (AT_SECURE, _("Boolean, was exec setuid-like?"), AUXV_FORMAT_DEC);
456 TAG (AT_SYSINFO, _("Special system info/entry points"), AUXV_FORMAT_HEX);
457 TAG (AT_SYSINFO_EHDR, _("System-supplied DSO's ELF header"),
458 AUXV_FORMAT_HEX);
459 TAG (AT_L1I_CACHESHAPE, _("L1 Instruction cache information"),
460 AUXV_FORMAT_HEX);
461 TAG (AT_L1D_CACHESHAPE, _("L1 Data cache information"), AUXV_FORMAT_HEX);
462 TAG (AT_L2_CACHESHAPE, _("L2 cache information"), AUXV_FORMAT_HEX);
463 TAG (AT_L3_CACHESHAPE, _("L3 cache information"), AUXV_FORMAT_HEX);
464 TAG (AT_SUN_UID, _("Effective user ID"), AUXV_FORMAT_DEC);
465 TAG (AT_SUN_RUID, _("Real user ID"), AUXV_FORMAT_DEC);
466 TAG (AT_SUN_GID, _("Effective group ID"), AUXV_FORMAT_DEC);
467 TAG (AT_SUN_RGID, _("Real group ID"), AUXV_FORMAT_DEC);
468 TAG (AT_SUN_LDELF, _("Dynamic linker's ELF header"), AUXV_FORMAT_HEX);
469 TAG (AT_SUN_LDSHDR, _("Dynamic linker's section headers"),
470 AUXV_FORMAT_HEX);
471 TAG (AT_SUN_LDNAME, _("String giving name of dynamic linker"),
472 AUXV_FORMAT_STR);
473 TAG (AT_SUN_LPAGESZ, _("Large pagesize"), AUXV_FORMAT_DEC);
474 TAG (AT_SUN_PLATFORM, _("Platform name string"), AUXV_FORMAT_STR);
3d282ac3 475 TAG (AT_SUN_CAP_HW1, _("Machine-dependent CPU capability hints"),
2faa3447
JB
476 AUXV_FORMAT_HEX);
477 TAG (AT_SUN_IFLUSH, _("Should flush icache?"), AUXV_FORMAT_DEC);
478 TAG (AT_SUN_CPU, _("CPU name string"), AUXV_FORMAT_STR);
479 TAG (AT_SUN_EMUL_ENTRY, _("COFF entry point address"), AUXV_FORMAT_HEX);
480 TAG (AT_SUN_EMUL_EXECFD, _("COFF executable file descriptor"),
481 AUXV_FORMAT_DEC);
482 TAG (AT_SUN_EXECNAME,
483 _("Canonicalized file name given to execve"), AUXV_FORMAT_STR);
484 TAG (AT_SUN_MMU, _("String for name of MMU module"), AUXV_FORMAT_STR);
485 TAG (AT_SUN_LDDATA, _("Dynamic linker's data segment address"),
486 AUXV_FORMAT_HEX);
487 TAG (AT_SUN_AUXFLAGS,
488 _("AF_SUN_ flags passed from the kernel"), AUXV_FORMAT_HEX);
3d282ac3
RO
489 TAG (AT_SUN_EMULATOR, _("Name of emulation binary for runtime linker"),
490 AUXV_FORMAT_STR);
491 TAG (AT_SUN_BRANDNAME, _("Name of brand library"), AUXV_FORMAT_STR);
492 TAG (AT_SUN_BRAND_AUX1, _("Aux vector for brand modules 1"),
493 AUXV_FORMAT_HEX);
494 TAG (AT_SUN_BRAND_AUX2, _("Aux vector for brand modules 2"),
495 AUXV_FORMAT_HEX);
496 TAG (AT_SUN_BRAND_AUX3, _("Aux vector for brand modules 3"),
497 AUXV_FORMAT_HEX);
498 TAG (AT_SUN_CAP_HW2, _("Machine-dependent CPU capability hints 2"),
499 AUXV_FORMAT_HEX);
2faa3447
JB
500 }
501
502 fprint_auxv_entry (file, name, description, format, type, val);
503}
504
0e2de366 505/* Print the contents of the target's AUXV on the specified file. */
2faa3447 506
14ed0a8b
RM
507int
508fprint_target_auxv (struct ui_file *file, struct target_ops *ops)
509{
2faa3447 510 struct gdbarch *gdbarch = target_gdbarch ();
14ed0a8b 511 CORE_ADDR type, val;
14ed0a8b 512 int ents = 0;
9018be22 513 auxv_info *info = get_auxv_inferior_data (ops);
14ed0a8b 514
9018be22
SM
515 if (!info->data)
516 return -1;
14ed0a8b 517
9018be22
SM
518 gdb_byte *data = info->data->data ();
519 gdb_byte *ptr = data;
520 size_t len = info->data->size ();
865ecab4 521
f6ac5f3d 522 while (target_auxv_parse (&ptr, data + len, &type, &val) > 0)
14ed0a8b 523 {
2faa3447 524 gdbarch_print_auxv_entry (gdbarch, file, type, val);
14ed0a8b 525 ++ents;
7c6467a4
PP
526 if (type == AT_NULL)
527 break;
14ed0a8b
RM
528 }
529
14ed0a8b
RM
530 return ents;
531}
532
533static void
1d12d88f 534info_auxv_command (const char *cmd, int from_tty)
14ed0a8b 535{
14ed0a8b 536 if (! target_has_stack)
edefbb7c 537 error (_("The program has no auxiliary information now."));
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RM
538 else
539 {
8b88a78e 540 int ents = fprint_target_auxv (gdb_stdout, current_top_target ());
5b4ee69b 541
14ed0a8b 542 if (ents < 0)
edefbb7c 543 error (_("No auxiliary vector found, or failed reading it."));
14ed0a8b 544 else if (ents == 0)
edefbb7c 545 error (_("Auxiliary vector is empty."));
14ed0a8b
RM
546 }
547}
548
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549void
550_initialize_auxv (void)
551{
552 add_info ("auxv", info_auxv_command,
edefbb7c
AC
553 _("Display the inferior's auxiliary vector.\n\
554This is information provided by the operating system at program startup."));
865ecab4 555
865ecab4 556 /* Observers used to invalidate the auxv cache when needed. */
76727919
TT
557 gdb::observers::inferior_exit.attach (invalidate_auxv_cache_inf);
558 gdb::observers::inferior_appeared.attach (invalidate_auxv_cache_inf);
559 gdb::observers::executable_changed.attach (invalidate_auxv_cache);
14ed0a8b 560}
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