1 /* Interfaces for libdw.
2 Copyright (C) 2002-2010, 2013, 2014, 2016, 2018 Red Hat, Inc.
3 This file is part of elfutils.
4
5 This file is free software; you can redistribute it and/or modify
6 it under the terms of either
7
8 * the GNU Lesser General Public License as published by the Free
9 Software Foundation; either version 3 of the License, or (at
10 your option) any later version
11
12 or
13
14 * the GNU General Public License as published by the Free
15 Software Foundation; either version 2 of the License, or (at
16 your option) any later version
17
18 or both in parallel, as here.
19
20 elfutils is distributed in the hope that it will be useful, but
21 WITHOUT ANY WARRANTY; without even the implied warranty of
22 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
23 General Public License for more details.
24
25 You should have received copies of the GNU General Public License and
26 the GNU Lesser General Public License along with this program. If
27 not, see <http://www.gnu.org/licenses/>. */
28
29 #ifndef _LIBDW_H
30 #define _LIBDW_H 1
31
32 #include <gelf.h>
33 #include <stdbool.h>
34 #include <stddef.h>
35 #include <stdint.h>
36
37 /* Mode for the session. */
38 typedef enum
39 {
40 DWARF_C_READ, /* Read .. */
41 DWARF_C_RDWR, /* Read and write .. */
42 DWARF_C_WRITE, /* Write .. */
43 }
44 Dwarf_Cmd;
45
46
47 /* Callback results. */
48 enum
49 {
50 DWARF_CB_OK = 0,
51 DWARF_CB_ABORT
52 };
53
54
55 /* Error values. */
56 enum
57 {
58 DW_TAG_invalid = 0
59 #define DW_TAG_invalid DW_TAG_invalid
60 };
61
62
63 /* Type for offset in DWARF file. */
64 typedef GElf_Off Dwarf_Off;
65
66 /* Type for address in DWARF file. */
67 typedef GElf_Addr Dwarf_Addr;
68
69 /* Integer types. Big enough to hold any numeric value. */
70 typedef GElf_Xword Dwarf_Word;
71 typedef GElf_Sxword Dwarf_Sword;
72 /* For the times we know we do not need that much. */
73 typedef GElf_Half Dwarf_Half;
74
75
76 /* DWARF abbreviation record. */
77 typedef struct Dwarf_Abbrev Dwarf_Abbrev;
78
79 /* Returned to show the last DIE has be returned. */
80 #define DWARF_END_ABBREV ((Dwarf_Abbrev *) -1l)
81
82 /* Source code line information for CU. */
83 typedef struct Dwarf_Lines_s Dwarf_Lines;
84
85 /* One source code line information. */
86 typedef struct Dwarf_Line_s Dwarf_Line;
87
88 /* Source file information. */
89 typedef struct Dwarf_Files_s Dwarf_Files;
90
91 /* One address range record. */
92 typedef struct Dwarf_Arange_s Dwarf_Arange;
93
94 /* Address ranges of a file. */
95 typedef struct Dwarf_Aranges_s Dwarf_Aranges;
96
97 /* CU representation. */
98 struct Dwarf_CU;
99 typedef struct Dwarf_CU Dwarf_CU;
100
101 /* Macro information. */
102 typedef struct Dwarf_Macro_s Dwarf_Macro;
103
104 /* Attribute representation. */
105 typedef struct
106 {
107 unsigned int code;
108 unsigned int form;
109 unsigned char *valp;
110 struct Dwarf_CU *cu;
111 } Dwarf_Attribute;
112
113
114 /* Data block representation. */
115 typedef struct
116 {
117 Dwarf_Word length;
118 unsigned char *data;
119 } Dwarf_Block;
120
121
122 /* DIE information. */
123 typedef struct
124 {
125 /* The offset can be computed from the address. */
126 void *addr;
127 struct Dwarf_CU *cu;
128 Dwarf_Abbrev *abbrev;
129 // XXX We'll see what other information will be needed.
130 long int padding__;
131 } Dwarf_Die;
132
133 /* Returned to show the last DIE has be returned. */
134 #define DWARF_END_DIE ((Dwarf_Die *) -1l)
135
136
137 /* Global symbol information. */
138 typedef struct
139 {
140 Dwarf_Off cu_offset;
141 Dwarf_Off die_offset;
142 const char *name;
143 } Dwarf_Global;
144
145
146 /* One operation in a DWARF location expression.
147 A location expression is an array of these. */
148 typedef struct
149 {
150 uint8_t atom; /* Operation */
151 Dwarf_Word number; /* Operand */
152 Dwarf_Word number2; /* Possible second operand */
153 Dwarf_Word offset; /* Offset in location expression */
154 } Dwarf_Op;
155
156
157 /* This describes one Common Information Entry read from a CFI section.
158 Pointers here point into the DATA->d_buf block passed to dwarf_next_cfi. */
159 typedef struct
160 {
161 Dwarf_Off CIE_id; /* Always DW_CIE_ID_64 in Dwarf_CIE structures. */
162
163 /* Instruction stream describing initial state used by FDEs. If
164 we did not understand the whole augmentation string and it did
165 not use 'z', then there might be more augmentation data here
166 (and in FDEs) before the actual instructions. */
167 const uint8_t *initial_instructions;
168 const uint8_t *initial_instructions_end;
169
170 Dwarf_Word code_alignment_factor;
171 Dwarf_Sword data_alignment_factor;
172 Dwarf_Word return_address_register;
173
174 const char *augmentation; /* Augmentation string. */
175
176 /* Augmentation data, might be NULL. The size is correct only if
177 we understood the augmentation string sufficiently. */
178 const uint8_t *augmentation_data;
179 size_t augmentation_data_size;
180 size_t fde_augmentation_data_size;
181 } Dwarf_CIE;
182
183 /* This describes one Frame Description Entry read from a CFI section.
184 Pointers here point into the DATA->d_buf block passed to dwarf_next_cfi. */
185 typedef struct
186 {
187 /* Section offset of CIE this FDE refers to. This will never be
188 DW_CIE_ID_64 in an FDE. If this value is DW_CIE_ID_64, this is
189 actually a Dwarf_CIE structure. */
190 Dwarf_Off CIE_pointer;
191
192 /* We can't really decode anything further without looking up the CIE
193 and checking its augmentation string. Here follows the encoded
194 initial_location and address_range, then any augmentation data,
195 then the instruction stream. This FDE describes PC locations in
196 the byte range [initial_location, initial_location+address_range).
197 When the CIE augmentation string uses 'z', the augmentation data is
198 a DW_FORM_block (self-sized). Otherwise, when we understand the
199 augmentation string completely, fde_augmentation_data_size gives
200 the number of bytes of augmentation data before the instructions. */
201 const uint8_t *start;
202 const uint8_t *end;
203 } Dwarf_FDE;
204
205 /* Each entry in a CFI section is either a CIE described by Dwarf_CIE or
206 an FDE described by Dward_FDE. Check CIE_id to see which you have. */
207 typedef union
208 {
209 Dwarf_Off CIE_id; /* Always DW_CIE_ID_64 in Dwarf_CIE structures. */
210 Dwarf_CIE cie;
211 Dwarf_FDE fde;
212 } Dwarf_CFI_Entry;
213
214 /* Same as DW_CIE_ID_64 from dwarf.h to keep libdw.h independent. */
215 #define LIBDW_CIE_ID 0xffffffffffffffffULL
216 #define dwarf_cfi_cie_p(entry) ((entry)->cie.CIE_id == LIBDW_CIE_ID)
217
218 /* Opaque type representing a frame state described by CFI. */
219 typedef struct Dwarf_Frame_s Dwarf_Frame;
220
221 /* Opaque type representing a CFI section found in a DWARF or ELF file. */
222 typedef struct Dwarf_CFI_s Dwarf_CFI;
223
224
225 /* Handle for debug sessions. */
226 typedef struct Dwarf Dwarf;
227
228
229 /* Out-Of-Memory handler. */
230 typedef void (*__noreturn_attribute__ Dwarf_OOM) (void);
231
232
233 #ifdef __cplusplus
234 extern "C" {
235 #endif
236
237 /* Create a handle for a new debug session. */
238 extern Dwarf *dwarf_begin (int fildes, Dwarf_Cmd cmd);
239
240 /* Create a handle for a new debug session for an ELF file. */
241 extern Dwarf *dwarf_begin_elf (Elf *elf, Dwarf_Cmd cmd, Elf_Scn *scngrp);
242
243 /* Retrieve ELF descriptor used for DWARF access. */
244 extern Elf *dwarf_getelf (Dwarf *dwarf);
245
246 /* Retrieve DWARF descriptor used for a Dwarf_Die or Dwarf_Attribute.
247 A Dwarf_Die or a Dwarf_Attribute is associated with a particular
248 Dwarf_CU handle. This function returns the DWARF descriptor for
249 that Dwarf_CU. */
250 extern Dwarf *dwarf_cu_getdwarf (Dwarf_CU *cu);
251
252 /* Retrieves the DWARF descriptor for debugaltlink data. Returns NULL
253 if no alternate debug data has been supplied yet. libdw will try
254 to set the alt file on first use of an alt FORM if not yet explicitly
255 provided by dwarf_setalt. */
256 extern Dwarf *dwarf_getalt (Dwarf *main);
257
258 /* Provides the data referenced by the .gnu_debugaltlink section. The
259 caller should check that MAIN and ALT match (i.e., they have the
260 same build ID). It is the responsibility of the caller to ensure
261 that the data referenced by ALT stays valid while it is used by
262 MAIN, until dwarf_setalt is called on MAIN with a different
263 descriptor, or dwarf_end. Must be called before inspecting DIEs
264 that might have alt FORMs. Otherwise libdw will try to set the
265 alt file itself on first use. */
266 extern void dwarf_setalt (Dwarf *main, Dwarf *alt);
267
268 /* Release debugging handling context. */
269 extern int dwarf_end (Dwarf *dwarf);
270
271
272 /* Read the header for the DWARF CU. */
273 extern int dwarf_nextcu (Dwarf *dwarf, Dwarf_Off off, Dwarf_Off *next_off,
274 size_t *header_sizep, Dwarf_Off *abbrev_offsetp,
275 uint8_t *address_sizep, uint8_t *offset_sizep)
276 __nonnull_attribute__ (3);
277
278 /* Read the header of a DWARF CU or type unit. If TYPE_SIGNATUREP is not
279 null, this reads a type unit from the .debug_types section; otherwise
280 this reads a CU from the .debug_info section. */
281 extern int dwarf_next_unit (Dwarf *dwarf, Dwarf_Off off, Dwarf_Off *next_off,
282 size_t *header_sizep, Dwarf_Half *versionp,
283 Dwarf_Off *abbrev_offsetp,
284 uint8_t *address_sizep, uint8_t *offset_sizep,
285 uint64_t *type_signaturep, Dwarf_Off *type_offsetp)
286 __nonnull_attribute__ (3);
287
288
289 /* Gets the next Dwarf_CU (unit), version, unit type and if available
290 the CU DIE and sub (type) DIE of the unit. Returns 0 on success,
291 -1 on error or 1 if there are no more units. To start iterating
292 provide NULL for CU. If version < 5 the unit type is set from the
293 CU DIE if available (DW_UT_compile for DW_TAG_compile_unit,
294 DW_UT_type for DW_TAG_type_unit or DW_UT_partial for
295 DW_TAG_partial_unit), otherwise it is set to zero. If unavailable
296 (the version or unit type is unknown) the CU DIE is cleared.
297 Likewise if the sub DIE isn't isn't available (the unit type is not
298 DW_UT_type or DW_UT_split_type) the sub DIE tag is cleared. */
299 extern int dwarf_get_units (Dwarf *dwarf, Dwarf_CU *cu, Dwarf_CU **next_cu,
300 Dwarf_Half *version, uint8_t *unit_type,
301 Dwarf_Die *cudie, Dwarf_Die *subdie)
302 __nonnull_attribute__ (3);
303
304 /* Provides information and DIEs associated with the given Dwarf_CU
305 unit. Returns -1 on error, zero on success. Arguments not needed
306 may be NULL. If they are NULL and aren't known yet, they won't be
307 looked up. If the subdie doesn't exist for this unit_type it will
308 be cleared. If there is no unit_id for this unit type it will be
309 set to zero. */
310 extern int dwarf_cu_info (Dwarf_CU *cu,
311 Dwarf_Half *version, uint8_t *unit_type,
312 Dwarf_Die *cudie, Dwarf_Die *subdie,
313 uint64_t *unit_id,
314 uint8_t *address_size, uint8_t *offset_size);
315
316 /* Decode one DWARF CFI entry (CIE or FDE) from the raw section data.
317 The E_IDENT from the originating ELF file indicates the address
318 size and byte order used in the CFI section contained in DATA;
319 EH_FRAME_P should be true for .eh_frame format and false for
320 .debug_frame format. OFFSET is the byte position in the section
321 to start at; on return *NEXT_OFFSET is filled in with the byte
322 position immediately after this entry.
323
324 On success, returns 0 and fills in *ENTRY; use dwarf_cfi_cie_p to
325 see whether ENTRY->cie or ENTRY->fde is valid.
326
327 On errors, returns -1. Some format errors will permit safely
328 skipping to the next CFI entry though the current one is unusable.
329 In that case, *NEXT_OFF will be updated before a -1 return.
330
331 If there are no more CFI entries left in the section,
332 returns 1 and sets *NEXT_OFFSET to (Dwarf_Off) -1. */
333 extern int dwarf_next_cfi (const unsigned char e_ident[],
334 Elf_Data *data, bool eh_frame_p,
335 Dwarf_Off offset, Dwarf_Off *next_offset,
336 Dwarf_CFI_Entry *entry)
337 __nonnull_attribute__ (1, 2, 5, 6);
338
339 /* Use the CFI in the DWARF .debug_frame section.
340 Returns NULL if there is no such section (not an error).
341 The pointer returned can be used until dwarf_end is called on DWARF,
342 and must not be passed to dwarf_cfi_end.
343 Calling this more than once returns the same pointer. */
344 extern Dwarf_CFI *dwarf_getcfi (Dwarf *dwarf);
345
346 /* Use the CFI in the ELF file's exception-handling data.
347 Returns NULL if there is no such data.
348 The pointer returned can be used until elf_end is called on ELF,
349 and must be passed to dwarf_cfi_end before then.
350 Calling this more than once allocates independent data structures. */
351 extern Dwarf_CFI *dwarf_getcfi_elf (Elf *elf);
352
353 /* Release resources allocated by dwarf_getcfi_elf. */
354 extern int dwarf_cfi_end (Dwarf_CFI *cache);
355
356
357 /* Return DIE at given offset in .debug_info section. */
358 extern Dwarf_Die *dwarf_offdie (Dwarf *dbg, Dwarf_Off offset,
359 Dwarf_Die *result) __nonnull_attribute__ (3);
360
361 /* Return DIE at given offset in .debug_types section. */
362 extern Dwarf_Die *dwarf_offdie_types (Dwarf *dbg, Dwarf_Off offset,
363 Dwarf_Die *result)
364 __nonnull_attribute__ (3);
365
366 /* Return offset of DIE. */
367 extern Dwarf_Off dwarf_dieoffset (Dwarf_Die *die);
368
369 /* Return offset of DIE in CU. */
370 extern Dwarf_Off dwarf_cuoffset (Dwarf_Die *die);
371
372 /* Return CU DIE containing given DIE. */
373 extern Dwarf_Die *dwarf_diecu (Dwarf_Die *die, Dwarf_Die *result,
374 uint8_t *address_sizep, uint8_t *offset_sizep)
375 __nonnull_attribute__ (2);
376
377 /* Given a Dwarf_Die addr returns a (reconstructed) Dwarf_Die, or NULL
378 if the given addr didn't come from a valid Dwarf_Die. In particular
379 it will make sure that the correct Dwarf_CU pointer is set for the
380 Dwarf_Die, the Dwarf_Abbrev pointer will not be set up yet (it will
381 only be once the Dwarf_Die is used to read attributes, children or
382 siblings). This functions can be used to keep a reference to a
383 Dwarf_Die which you want to refer to later. The addr, and the result
384 of this function, is only valid while the associated Dwarf is valid. */
385 extern Dwarf_Die *dwarf_die_addr_die (Dwarf *dbg, void *addr,
386 Dwarf_Die *result)
387 __nonnull_attribute__ (3);
388
389 /* Return the CU DIE and the header info associated with a Dwarf_Die
390 or Dwarf_Attribute. A Dwarf_Die or a Dwarf_Attribute is associated
391 with a particular Dwarf_CU handle. This function returns the CU or
392 type unit DIE and header information for that Dwarf_CU. The
393 returned DIE is either a compile_unit, partial_unit or type_unit.
394 If it is a type_unit, then the type signature and type offset are
395 also provided, otherwise type_offset will be set to zero. See also
396 dwarf_diecu and dwarf_next_unit. */
397 extern Dwarf_Die *dwarf_cu_die (Dwarf_CU *cu, Dwarf_Die *result,
398 Dwarf_Half *versionp,
399 Dwarf_Off *abbrev_offsetp,
400 uint8_t *address_sizep,
401 uint8_t *offset_sizep,
402 uint64_t *type_signaturep,
403 Dwarf_Off *type_offsetp)
404 __nonnull_attribute__ (2);
405
406 /* Return CU DIE containing given address. */
407 extern Dwarf_Die *dwarf_addrdie (Dwarf *dbg, Dwarf_Addr addr,
408 Dwarf_Die *result) __nonnull_attribute__ (3);
409
410 /* Return child of current DIE. */
411 extern int dwarf_child (Dwarf_Die *die, Dwarf_Die *result)
412 __nonnull_attribute__ (2);
413
414 /* Locates the first sibling of DIE and places it in RESULT.
415 Returns 0 if a sibling was found, -1 if something went wrong.
416 Returns 1 if no sibling could be found and, if RESULT is not
417 the same as DIE, it sets RESULT->addr to the address of the
418 (non-sibling) DIE that follows this one, or NULL if this DIE
419 was the last one in the compilation unit. */
420 extern int dwarf_siblingof (Dwarf_Die *die, Dwarf_Die *result)
421 __nonnull_attribute__ (2);
422
423 /* For type aliases and qualifier type DIEs, which don't modify or
424 change the structural layout of the underlying type, follow the
425 DW_AT_type attribute (recursively) and return the underlying type
426 Dwarf_Die.
427
428 Returns 0 when RESULT contains a Dwarf_Die (possibly equal to the
429 given DIE) that isn't a type alias or qualifier type. Returns 1
430 when RESULT contains a type alias or qualifier Dwarf_Die that
431 couldn't be peeled further (it doesn't have a DW_TAG_type
432 attribute). Returns -1 when an error occurred.
433
434 The current DWARF specification defines one type alias tag
435 (DW_TAG_typedef) and seven modifier/qualifier type tags
436 (DW_TAG_const_type, DW_TAG_volatile_type, DW_TAG_restrict_type,
437 DW_TAG_atomic_type, DW_TAG_immutable_type, DW_TAG_packed_type and
438 DW_TAG_shared_type). This function won't peel modifier type
439 tags that change the way the underlying type is accessed such
440 as the pointer or reference type tags (DW_TAG_pointer_type,
441 DW_TAG_reference_type or DW_TAG_rvalue_reference_type).
442
443 A future version of this function might peel other alias or
444 qualifier type tags if a future DWARF version or GNU extension
445 defines other type aliases or qualifier type tags that don't modify,
446 change the structural layout or the way to access the underlying type. */
447 extern int dwarf_peel_type (Dwarf_Die *die, Dwarf_Die *result)
448 __nonnull_attribute__ (2);
449
450 /* Check whether the DIE has children. */
451 extern int dwarf_haschildren (Dwarf_Die *die) __nonnull_attribute__ (1);
452
453 /* Walks the attributes of DIE, starting at the one OFFSET bytes in,
454 calling the CALLBACK function for each one. Stops if the callback
455 function ever returns a value other than DWARF_CB_OK and returns the
456 offset of the offending attribute. If the end of the attributes
457 is reached 1 is returned. If something goes wrong -1 is returned and
458 the dwarf error number is set. */
459 extern ptrdiff_t dwarf_getattrs (Dwarf_Die *die,
460 int (*callback) (Dwarf_Attribute *, void *),
461 void *arg, ptrdiff_t offset)
462 __nonnull_attribute__ (2);
463
464 /* Return tag of given DIE. */
465 extern int dwarf_tag (Dwarf_Die *die) __nonnull_attribute__ (1);
466
467
468 /* Return specific attribute of DIE. */
469 extern Dwarf_Attribute *dwarf_attr (Dwarf_Die *die, unsigned int search_name,
470 Dwarf_Attribute *result)
471 __nonnull_attribute__ (3);
472
473 /* Check whether given DIE has specific attribute. */
474 extern int dwarf_hasattr (Dwarf_Die *die, unsigned int search_name);
475
476 /* These are the same as dwarf_attr and dwarf_hasattr, respectively,
477 but they resolve an indirect attribute through
478 DW_AT_abstract_origin, DW_AT_specification or, if the DIE is a
479 top-level split CU, the skeleton DIE. Note that the attribute
480 might come from a DIE in a different CU (possibly from a different
481 Dwarf file). In that case all attribute information needs to be
482 resolved through the CU associated with the returned
483 Dwarf_Attribute. The dwarf_form functions already do this
484 automatically. */
485 extern Dwarf_Attribute *dwarf_attr_integrate (Dwarf_Die *die,
486 unsigned int search_name,
487 Dwarf_Attribute *result)
488 __nonnull_attribute__ (3);
489 extern int dwarf_hasattr_integrate (Dwarf_Die *die, unsigned int search_name);
490
491
492
493
494 /* Check whether given attribute has specific form. */
495 extern int dwarf_hasform (Dwarf_Attribute *attr, unsigned int search_form);
496
497 /* Return attribute code of given attribute. */
498 extern unsigned int dwarf_whatattr (Dwarf_Attribute *attr);
499
500 /* Return form code of given attribute. */
501 extern unsigned int dwarf_whatform (Dwarf_Attribute *attr);
502
503
504 /* Return string associated with given attribute. */
505 extern const char *dwarf_formstring (Dwarf_Attribute *attrp);
506
507 /* Return unsigned constant represented by attribute. */
508 extern int dwarf_formudata (Dwarf_Attribute *attr, Dwarf_Word *return_uval)
509 __nonnull_attribute__ (2);
510
511 /* Return signed constant represented by attribute. */
512 extern int dwarf_formsdata (Dwarf_Attribute *attr, Dwarf_Sword *return_uval)
513 __nonnull_attribute__ (2);
514
515 /* Return address represented by attribute. */
516 extern int dwarf_formaddr (Dwarf_Attribute *attr, Dwarf_Addr *return_addr)
517 __nonnull_attribute__ (2);
518
519 /* This function is deprecated. Always use dwarf_formref_die instead.
520 Return reference offset represented by attribute. */
521 extern int dwarf_formref (Dwarf_Attribute *attr, Dwarf_Off *return_offset)
522 __nonnull_attribute__ (2) __deprecated_attribute__;
523
524 /* Look up the DIE in a reference-form attribute. */
525 extern Dwarf_Die *dwarf_formref_die (Dwarf_Attribute *attr, Dwarf_Die *die_mem)
526 __nonnull_attribute__ (2);
527
528 /* Return block represented by attribute. */
529 extern int dwarf_formblock (Dwarf_Attribute *attr, Dwarf_Block *return_block)
530 __nonnull_attribute__ (2);
531
532 /* Return flag represented by attribute. */
533 extern int dwarf_formflag (Dwarf_Attribute *attr, bool *return_bool)
534 __nonnull_attribute__ (2);
535
536
537 /* Simplified attribute value access functions. */
538
539 /* Return string in name attribute of DIE. */
540 extern const char *dwarf_diename (Dwarf_Die *die);
541
542 /* Return high PC attribute of DIE. */
543 extern int dwarf_highpc (Dwarf_Die *die, Dwarf_Addr *return_addr)
544 __nonnull_attribute__ (2);
545
546 /* Return low PC attribute of DIE. */
547 extern int dwarf_lowpc (Dwarf_Die *die, Dwarf_Addr *return_addr)
548 __nonnull_attribute__ (2);
549
550 /* Return entry_pc or low_pc attribute of DIE. */
551 extern int dwarf_entrypc (Dwarf_Die *die, Dwarf_Addr *return_addr)
552 __nonnull_attribute__ (2);
553
554 /* Return 1 if DIE's lowpc/highpc or ranges attributes match the PC address,
555 0 if not, or -1 for errors. */
556 extern int dwarf_haspc (Dwarf_Die *die, Dwarf_Addr pc);
557
558 /* Enumerate the PC address ranges covered by this DIE, covering all
559 addresses where dwarf_haspc returns true. In the first call OFFSET
560 should be zero and *BASEP need not be initialized. Returns -1 for
561 errors, zero when there are no more address ranges to report, or a
562 nonzero OFFSET value to pass to the next call. Each subsequent call
563 must preserve *BASEP from the prior call. Successful calls fill in
564 *STARTP and *ENDP with a contiguous address range. */
565 extern ptrdiff_t dwarf_ranges (Dwarf_Die *die,
566 ptrdiff_t offset, Dwarf_Addr *basep,
567 Dwarf_Addr *startp, Dwarf_Addr *endp);
568
569
570 /* Return byte size attribute of DIE. */
571 extern int dwarf_bytesize (Dwarf_Die *die);
572
573 /* Return bit size attribute of DIE. */
574 extern int dwarf_bitsize (Dwarf_Die *die);
575
576 /* Return bit offset attribute of DIE. */
577 extern int dwarf_bitoffset (Dwarf_Die *die);
578
579 /* Return array order attribute of DIE. */
580 extern int dwarf_arrayorder (Dwarf_Die *die);
581
582 /* Return source language attribute of DIE. */
583 extern int dwarf_srclang (Dwarf_Die *die);
584
585
586 /* Get abbreviation at given offset for given DIE. */
587 extern Dwarf_Abbrev *dwarf_getabbrev (Dwarf_Die *die, Dwarf_Off offset,
588 size_t *lengthp);
589
590 /* Get abbreviation at given offset in .debug_abbrev section. */
591 extern int dwarf_offabbrev (Dwarf *dbg, Dwarf_Off offset, size_t *lengthp,
592 Dwarf_Abbrev *abbrevp)
593 __nonnull_attribute__ (4);
594
595 /* Get abbreviation code. */
596 extern unsigned int dwarf_getabbrevcode (Dwarf_Abbrev *abbrev);
597
598 /* Get abbreviation tag. */
599 extern unsigned int dwarf_getabbrevtag (Dwarf_Abbrev *abbrev);
600
601 /* Return true if abbreviation is children flag set. */
602 extern int dwarf_abbrevhaschildren (Dwarf_Abbrev *abbrev);
603
604 /* Get number of attributes of abbreviation. */
605 extern int dwarf_getattrcnt (Dwarf_Abbrev *abbrev, size_t *attrcntp)
606 __nonnull_attribute__ (2);
607
608 /* Get specific attribute of abbreviation. */
609 extern int dwarf_getabbrevattr (Dwarf_Abbrev *abbrev, size_t idx,
610 unsigned int *namep, unsigned int *formp,
611 Dwarf_Off *offset);
612
613 /* Get specific attribute of abbreviation and any data encoded with it.
614 Specifically for DW_FORM_implicit_const data will be set to the
615 constant value associated. */
616 extern int dwarf_getabbrevattr_data (Dwarf_Abbrev *abbrev, size_t idx,
617 unsigned int *namep, unsigned int *formp,
618 Dwarf_Sword *datap, Dwarf_Off *offset);
619
620 /* Get string from-debug_str section. */
621 extern const char *dwarf_getstring (Dwarf *dbg, Dwarf_Off offset,
622 size_t *lenp);
623
624
625 /* Get public symbol information. */
626 extern ptrdiff_t dwarf_getpubnames (Dwarf *dbg,
627 int (*callback) (Dwarf *, Dwarf_Global *,
628 void *),
629 void *arg, ptrdiff_t offset)
630 __nonnull_attribute__ (2);
631
632
633 /* Get source file information for CU. */
634 extern int dwarf_getsrclines (Dwarf_Die *cudie, Dwarf_Lines **lines,
635 size_t *nlines) __nonnull_attribute__ (2, 3);
636
637 /* Return one of the source lines of the CU. */
638 extern Dwarf_Line *dwarf_onesrcline (Dwarf_Lines *lines, size_t idx);
639
640 /* Get the file source files used in the CU. */
641 extern int dwarf_getsrcfiles (Dwarf_Die *cudie, Dwarf_Files **files,
642 size_t *nfiles)
643 __nonnull_attribute__ (2);
644
645
646 /* Get source for address in CU. */
647 extern Dwarf_Line *dwarf_getsrc_die (Dwarf_Die *cudie, Dwarf_Addr addr);
648
649 /* Get source for file and line number. */
650 extern int dwarf_getsrc_file (Dwarf *dbg, const char *fname, int line, int col,
651 Dwarf_Line ***srcsp, size_t *nsrcs)
652 __nonnull_attribute__ (2, 5, 6);
653
654
655 /* Return line address. */
656 extern int dwarf_lineaddr (Dwarf_Line *line, Dwarf_Addr *addrp);
657
658 /* Return line VLIW operation index. */
659 extern int dwarf_lineop_index (Dwarf_Line *line, unsigned int *op_indexp);
660
661 /* Return line number. */
662 extern int dwarf_lineno (Dwarf_Line *line, int *linep)
663 __nonnull_attribute__ (2);
664
665 /* Return column in line. */
666 extern int dwarf_linecol (Dwarf_Line *line, int *colp)
667 __nonnull_attribute__ (2);
668
669 /* Return true if record is for beginning of a statement. */
670 extern int dwarf_linebeginstatement (Dwarf_Line *line, bool *flagp)
671 __nonnull_attribute__ (2);
672
673 /* Return true if record is for end of sequence. */
674 extern int dwarf_lineendsequence (Dwarf_Line *line, bool *flagp)
675 __nonnull_attribute__ (2);
676
677 /* Return true if record is for beginning of a basic block. */
678 extern int dwarf_lineblock (Dwarf_Line *line, bool *flagp)
679 __nonnull_attribute__ (2);
680
681 /* Return true if record is for end of prologue. */
682 extern int dwarf_lineprologueend (Dwarf_Line *line, bool *flagp)
683 __nonnull_attribute__ (2);
684
685 /* Return true if record is for beginning of epilogue. */
686 extern int dwarf_lineepiloguebegin (Dwarf_Line *line, bool *flagp)
687 __nonnull_attribute__ (2);
688
689 /* Return instruction-set architecture in this record. */
690 extern int dwarf_lineisa (Dwarf_Line *line, unsigned int *isap)
691 __nonnull_attribute__ (2);
692
693 /* Return code path discriminator in this record. */
694 extern int dwarf_linediscriminator (Dwarf_Line *line, unsigned int *discp)
695 __nonnull_attribute__ (2);
696
697
698 /* Find line information for address. The returned string is NULL when
699 an error occurred, or the file path. The file path is either absolute
700 or relative to the compilation directory. See dwarf_decl_file. */
701 extern const char *dwarf_linesrc (Dwarf_Line *line,
702 Dwarf_Word *mtime, Dwarf_Word *length);
703
704 /* Return the caller of this line if inlined. If not inlined,
705 return NULL. */
706 extern Dwarf_Line *dwarf_linecontext (Dwarf_Lines *lines, Dwarf_Line *line);
707
708 /* Return the function name in this line record. If this line is
709 inlined, this is the name of the function that was inlined. If this line
710 is not inlined, return NULL. */
711 extern const char *dwarf_linefunctionname (Dwarf *dbg, Dwarf_Line *line);
712
713 /* Return file information. The returned string is NULL when
714 an error occurred, or the file path. The file path is either absolute
715 or relative to the compilation directory. See dwarf_decl_file. */
716 extern const char *dwarf_filesrc (Dwarf_Files *file, size_t idx,
717 Dwarf_Word *mtime, Dwarf_Word *length);
718
719 /* Return the Dwarf_Files and index associated with the given Dwarf_Line. */
720 extern int dwarf_line_file (Dwarf_Line *line,
721 Dwarf_Files **files, size_t *idx)
722 __nonnull_attribute__ (2, 3);
723
724 /* Return the directory list used in the file information extracted.
725 (*RESULT)[0] is the CU's DW_AT_comp_dir value, and may be null.
726 (*RESULT)[0..*NDIRS-1] are the compile-time include directory path
727 encoded by the compiler. */
728 extern int dwarf_getsrcdirs (Dwarf_Files *files,
729 const char *const **result, size_t *ndirs)
730 __nonnull_attribute__ (2, 3);
731
732 /* Iterates through the debug line units. Returns 0 on success, -1 on
733 error or 1 if there are no more units. To start iterating use zero
734 for OFF and set *CU to NULL. On success NEXT_OFF will be set to
735 the next offset to use. The *CU will be set if this line table
736 needed a specific CU and needs to be given when calling
737 dwarf_next_lines again (to help dwarf_next_lines quickly find the
738 next CU). *CU might be set to NULL when it couldn't be found (the
739 compilation directory entry will be the empty string in that case)
740 or for DWARF 5 or later tables, which are self contained. SRCFILES
741 and SRCLINES may be NULL if the caller is not interested in the
742 actual line or file table. On success and when not NULL, NFILES
743 and NLINES will be set to the number of files in the file table and
744 number of lines in the line table. */
745 extern int dwarf_next_lines (Dwarf *dwarf, Dwarf_Off off,
746 Dwarf_Off *next_off, Dwarf_CU **cu,
747 Dwarf_Files **srcfiles, size_t *nfiles,
748 Dwarf_Lines **srclines, size_t *nlines)
749 __nonnull_attribute__ (3,4);
750
751 /* Return location expression, decoded as a list of operations. */
752 extern int dwarf_getlocation (Dwarf_Attribute *attr, Dwarf_Op **expr,
753 size_t *exprlen) __nonnull_attribute__ (2, 3);
754
755 /* Return location expressions. If the attribute uses a location list,
756 ADDRESS selects the relevant location expressions from the list.
757 There can be multiple matches, resulting in multiple expressions to
758 return. EXPRS and EXPRLENS are parallel arrays of NLOCS slots to
759 fill in. Returns the number of locations filled in, or -1 for
760 errors. If EXPRS is a null pointer, stores nothing and returns the
761 total number of locations. A return value of zero means that the
762 location list indicated no value is accessible. */
763 extern int dwarf_getlocation_addr (Dwarf_Attribute *attr, Dwarf_Addr address,
764 Dwarf_Op **exprs, size_t *exprlens,
765 size_t nlocs);
766
767 /* Enumerate the locations ranges and descriptions covered by the
768 given attribute. In the first call OFFSET should be zero and
769 *BASEP need not be initialized. Returns -1 for errors, zero when
770 there are no more locations to report, or a nonzero OFFSET
771 value to pass to the next call. Each subsequent call must preserve
772 *BASEP from the prior call. Successful calls fill in *STARTP and
773 *ENDP with a contiguous address range and *EXPR with a pointer to
774 an array of operations with length *EXPRLEN. If the attribute
775 describes a single location description and not a location list the
776 first call (with OFFSET zero) will return the location description
777 in *EXPR with *STARTP set to zero and *ENDP set to minus one. */
778 extern ptrdiff_t dwarf_getlocations (Dwarf_Attribute *attr,
779 ptrdiff_t offset, Dwarf_Addr *basep,
780 Dwarf_Addr *startp, Dwarf_Addr *endp,
781 Dwarf_Op **expr, size_t *exprlen);
782
783 /* Return the block associated with a DW_OP_implicit_value operation.
784 The OP pointer must point into an expression that dwarf_getlocation
785 or dwarf_getlocation_addr has returned given the same ATTR. */
786 extern int dwarf_getlocation_implicit_value (Dwarf_Attribute *attr,
787 const Dwarf_Op *op,
788 Dwarf_Block *return_block)
789 __nonnull_attribute__ (2, 3);
790
791 /* Return the attribute indicated by a DW_OP_GNU_implicit_pointer operation.
792 The OP pointer must point into an expression that dwarf_getlocation
793 or dwarf_getlocation_addr has returned given the same ATTR.
794 The result is the DW_AT_location or DW_AT_const_value attribute
795 of the OP->number DIE. */
796 extern int dwarf_getlocation_implicit_pointer (Dwarf_Attribute *attr,
797 const Dwarf_Op *op,
798 Dwarf_Attribute *result)
799 __nonnull_attribute__ (2, 3);
800
801 /* Return the DIE associated with an operation such as
802 DW_OP_GNU_implicit_pointer, DW_OP_GNU_parameter_ref, DW_OP_GNU_convert,
803 DW_OP_GNU_reinterpret, DW_OP_GNU_const_type, DW_OP_GNU_regval_type or
804 DW_OP_GNU_deref_type. The OP pointer must point into an expression that
805 dwarf_getlocation or dwarf_getlocation_addr has returned given the same
806 ATTR. The RESULT is a DIE that expresses a type or value needed by the
807 given OP. */
808 extern int dwarf_getlocation_die (Dwarf_Attribute *attr,
809 const Dwarf_Op *op,
810 Dwarf_Die *result)
811 __nonnull_attribute__ (2, 3);
812
813 /* Return the attribute expressing a value associated with an operation such
814 as DW_OP_implicit_value, DW_OP_GNU_entry_value or DW_OP_GNU_const_type.
815 The OP pointer must point into an expression that dwarf_getlocation
816 or dwarf_getlocation_addr has returned given the same ATTR.
817 The RESULT is a value expressed by an attribute such as DW_AT_location
818 or DW_AT_const_value. */
819 extern int dwarf_getlocation_attr (Dwarf_Attribute *attr,
820 const Dwarf_Op *op,
821 Dwarf_Attribute *result)
822 __nonnull_attribute__ (2, 3);
823
824
825 /* Compute the byte-size of a type DIE according to DWARF rules.
826 For most types, this is just DW_AT_byte_size.
827 For DW_TAG_array_type it can apply much more complex rules. */
828 extern int dwarf_aggregate_size (Dwarf_Die *die, Dwarf_Word *size);
829
830 /* Given a language code, as returned by dwarf_srclan, get the default
831 lower bound for a subrange type without a lower bound attribute.
832 Returns zero on success or -1 on failure when the given language
833 wasn't recognized. */
834 extern int dwarf_default_lower_bound (int lang, Dwarf_Sword *result)
835 __nonnull_attribute__ (2);
836
837 /* Return scope DIEs containing PC address.
838 Sets *SCOPES to a malloc'd array of Dwarf_Die structures,
839 and returns the number of elements in the array.
840 (*SCOPES)[0] is the DIE for the innermost scope containing PC,
841 (*SCOPES)[1] is the DIE for the scope containing that scope, and so on.
842 Returns -1 for errors or 0 if no scopes match PC. */
843 extern int dwarf_getscopes (Dwarf_Die *cudie, Dwarf_Addr pc,
844 Dwarf_Die **scopes);
845
846 /* Return scope DIEs containing the given DIE.
847 Sets *SCOPES to a malloc'd array of Dwarf_Die structures,
848 and returns the number of elements in the array.
849 (*SCOPES)[0] is a copy of DIE.
850 (*SCOPES)[1] is the DIE for the scope containing that scope, and so on.
851 Returns -1 for errors or 0 if DIE is not found in any scope entry. */
852 extern int dwarf_getscopes_die (Dwarf_Die *die, Dwarf_Die **scopes);
853
854
855 /* Search SCOPES[0..NSCOPES-1] for a variable called NAME.
856 Ignore the first SKIP_SHADOWS scopes that match the name.
857 If MATCH_FILE is not null, accept only declaration in that source file;
858 if MATCH_LINENO or MATCH_LINECOL are also nonzero, accept only declaration
859 at that line and column.
860
861 If successful, fill in *RESULT with the DIE of the variable found,
862 and return N where SCOPES[N] is the scope defining the variable.
863 Return -1 for errors or -2 for no matching variable found. */
864 extern int dwarf_getscopevar (Dwarf_Die *scopes, int nscopes,
865 const char *name, int skip_shadows,
866 const char *match_file,
867 int match_lineno, int match_linecol,
868 Dwarf_Die *result);
869
870
871
872 /* Return list address ranges. */
873 extern int dwarf_getaranges (Dwarf *dbg, Dwarf_Aranges **aranges,
874 size_t *naranges)
875 __nonnull_attribute__ (2);
876
877 /* Return one of the address range entries. */
878 extern Dwarf_Arange *dwarf_onearange (Dwarf_Aranges *aranges, size_t idx);
879
880 /* Return information in address range record. */
881 extern int dwarf_getarangeinfo (Dwarf_Arange *arange, Dwarf_Addr *addrp,
882 Dwarf_Word *lengthp, Dwarf_Off *offsetp);
883
884 /* Get address range which includes given address. */
885 extern Dwarf_Arange *dwarf_getarange_addr (Dwarf_Aranges *aranges,
886 Dwarf_Addr addr);
887
888
889
890 /* Get functions in CUDIE. The given callback will be called for all
891 defining DW_TAG_subprograms in the CU DIE tree. If the callback
892 returns DWARF_CB_ABORT the return value can be used as offset argument
893 to resume the function to find all remaining functions (this is not
894 really recommended, since it needs to rewalk the CU DIE tree first till
895 that offset is found again). If the callback returns DWARF_CB_OK
896 dwarf_getfuncs will not return but keep calling the callback for each
897 function DIE it finds. Pass zero for offset on the first call to walk
898 the full CU DIE tree. If no more functions can be found and the callback
899 returned DWARF_CB_OK then the function returns zero. */
900 extern ptrdiff_t dwarf_getfuncs (Dwarf_Die *cudie,
901 int (*callback) (Dwarf_Die *, void *),
902 void *arg, ptrdiff_t offset);
903
904
905 /* Return file name containing definition of the given declaration.
906 Of the DECL has an (indirect, see dwarf_attr_integrate) decl_file
907 attribute. The returned file path is either absolute, or relative
908 to the compilation directory. Given the decl DIE, the compilation
909 directory can be retrieved through:
910 dwarf_formstring (dwarf_attr (dwarf_diecu (decl, &cudie, NULL, NULL),
911 DW_AT_comp_dir, &attr));
912 Returns NULL if no decl_file could be found or an error occurred. */
913 extern const char *dwarf_decl_file (Dwarf_Die *decl);
914
915 /* Get line number of beginning of given declaration. */
916 extern int dwarf_decl_line (Dwarf_Die *decl, int *linep)
917 __nonnull_attribute__ (2);
918
919 /* Get column number of beginning of given declaration. */
920 extern int dwarf_decl_column (Dwarf_Die *decl, int *colp)
921 __nonnull_attribute__ (2);
922
923
924 /* Return nonzero if given function is an abstract inline definition. */
925 extern int dwarf_func_inline (Dwarf_Die *func);
926
927 /* Find each concrete inlined instance of the abstract inline definition. */
928 extern int dwarf_func_inline_instances (Dwarf_Die *func,
929 int (*callback) (Dwarf_Die *, void *),
930 void *arg);
931
932
933 /* Find the appropriate PC location or locations for function entry
934 breakpoints for the given DW_TAG_subprogram DIE. Returns -1 for errors.
935 On success, returns the number of breakpoint locations (never zero)
936 and sets *BKPTS to a malloc'd vector of addresses. */
937 extern int dwarf_entry_breakpoints (Dwarf_Die *die, Dwarf_Addr **bkpts);
938
939
940 /* Iterate through the macro unit referenced by CUDIE and call
941 CALLBACK for each macro information entry. To start the iteration,
942 one would pass DWARF_GETMACROS_START for TOKEN.
943
944 The iteration continues while CALLBACK returns DWARF_CB_OK. If the
945 callback returns DWARF_CB_ABORT, the iteration stops and a
946 continuation token is returned, which can be used to restart the
947 iteration at the point where it ended. Returns -1 for errors or 0
948 if there are no more macro entries.
949
950 Note that the Dwarf_Macro pointer passed to the callback is only
951 valid for the duration of the callback invocation.
952
953 For backward compatibility, a token of 0 is accepted for starting
954 the iteration as well, but in that case this interface will refuse
955 to serve opcode 0xff from .debug_macro sections. Such opcode would
956 be considered invalid and would cause dwarf_getmacros to return
957 with error. */
958 #define DWARF_GETMACROS_START PTRDIFF_MIN
959 extern ptrdiff_t dwarf_getmacros (Dwarf_Die *cudie,
960 int (*callback) (Dwarf_Macro *, void *),
961 void *arg, ptrdiff_t token)
962 __nonnull_attribute__ (2);
963
964 /* This is similar in operation to dwarf_getmacros, but selects the
965 unit to iterate through by offset instead of by CU, and always
966 iterates .debug_macro. This can be used for handling
967 DW_MACRO_GNU_transparent_include's or similar opcodes.
968
969 TOKEN value of DWARF_GETMACROS_START can be used to start the
970 iteration.
971
972 It is not appropriate to obtain macro unit offset by hand from a CU
973 DIE and then request iteration through this interface. The reason
974 for this is that if a dwarf_macro_getsrcfiles is later called,
975 there would be no way to figure out what DW_AT_comp_dir was present
976 on the CU DIE, and file names referenced in either the macro unit
977 itself, or the .debug_line unit that it references, might be wrong.
978 Use dwarf_getmacros. */
979 extern ptrdiff_t dwarf_getmacros_off (Dwarf *dbg, Dwarf_Off macoff,
980 int (*callback) (Dwarf_Macro *, void *),
981 void *arg, ptrdiff_t token)
982 __nonnull_attribute__ (3);
983
984 /* Get the source files used by the macro entry. You shouldn't assume
985 that Dwarf_Files references will remain valid after MACRO becomes
986 invalid. (Which is to say it's only valid within the
987 dwarf_getmacros* callback.) Returns 0 for success or a negative
988 value in case of an error. */
989 extern int dwarf_macro_getsrcfiles (Dwarf *dbg, Dwarf_Macro *macro,
990 Dwarf_Files **files, size_t *nfiles)
991 __nonnull_attribute__ (2, 3, 4);
992
993 /* Return macro opcode. That's a constant that can be either from
994 DW_MACINFO_* domain or DW_MACRO_GNU_* domain. The two domains have
995 compatible values, so it's OK to use either of them for
996 comparisons. The only differences is 0xff, which could be either
997 DW_MACINFO_vendor_ext or a vendor-defined DW_MACRO_* constant. One
998 would need to look if the CU DIE which the iteration was requested
999 for has attribute DW_AT_macro_info, or either of DW_AT_GNU_macros
1000 or DW_AT_macros to differentiate the two interpretations. */
1001 extern int dwarf_macro_opcode (Dwarf_Macro *macro, unsigned int *opcodep)
1002 __nonnull_attribute__ (2);
1003
1004 /* Get number of parameters of MACRO and store it to *PARAMCNTP. */
1005 extern int dwarf_macro_getparamcnt (Dwarf_Macro *macro, size_t *paramcntp);
1006
1007 /* Get IDX-th parameter of MACRO (numbered from zero), and stores it
1008 to *ATTRIBUTE. Returns 0 on success or -1 for errors.
1009
1010 After a successful call, you can query ATTRIBUTE by dwarf_whatform
1011 to determine which of the dwarf_formX calls to make to get actual
1012 value out of ATTRIBUTE. Note that calling dwarf_whatattr is not
1013 meaningful for pseudo-attributes formed this way. */
1014 extern int dwarf_macro_param (Dwarf_Macro *macro, size_t idx,
1015 Dwarf_Attribute *attribute);
1016
1017 /* Return macro parameter with index 0. This will return -1 if the
1018 parameter is not an integral value. Use dwarf_macro_param for more
1019 general access. */
1020 extern int dwarf_macro_param1 (Dwarf_Macro *macro, Dwarf_Word *paramp)
1021 __nonnull_attribute__ (2);
1022
1023 /* Return macro parameter with index 1. This will return -1 if the
1024 parameter is not an integral or string value. Use
1025 dwarf_macro_param for more general access. */
1026 extern int dwarf_macro_param2 (Dwarf_Macro *macro, Dwarf_Word *paramp,
1027 const char **strp);
1028
1029 /* Compute what's known about a call frame when the PC is at ADDRESS.
1030 Returns 0 for success or -1 for errors.
1031 On success, *FRAME is a malloc'd pointer. */
1032 extern int dwarf_cfi_addrframe (Dwarf_CFI *cache,
1033 Dwarf_Addr address, Dwarf_Frame **frame)
1034 __nonnull_attribute__ (3);
1035
1036 /* Return the DWARF register number used in FRAME to denote
1037 the return address in FRAME's caller frame. The remaining
1038 arguments can be non-null to fill in more information.
1039
1040 Fill [*START, *END) with the PC range to which FRAME's information applies.
1041 Fill in *SIGNALP to indicate whether this is a signal-handling frame.
1042 If true, this is the implicit call frame that calls a signal handler.
1043 This frame's "caller" is actually the interrupted state, not a call;
1044 its return address is an exact PC, not a PC after a call instruction. */
1045 extern int dwarf_frame_info (Dwarf_Frame *frame,
1046 Dwarf_Addr *start, Dwarf_Addr *end, bool *signalp);
1047
1048 /* Return a DWARF expression that yields the Canonical Frame Address at
1049 this frame state. Returns -1 for errors, or zero for success, with
1050 *NOPS set to the number of operations stored at *OPS. That pointer
1051 can be used only as long as FRAME is alive and unchanged. *NOPS is
1052 zero if the CFA cannot be determined here. Note that if nonempty,
1053 *OPS is a DWARF expression, not a location description--append
1054 DW_OP_stack_value to a get a location description for the CFA. */
1055 extern int dwarf_frame_cfa (Dwarf_Frame *frame, Dwarf_Op **ops, size_t *nops)
1056 __nonnull_attribute__ (2);
1057
1058 /* Deliver a DWARF location description that yields the location or
1059 value of DWARF register number REGNO in the state described by FRAME.
1060
1061 Returns -1 for errors or zero for success, setting *NOPS to the
1062 number of operations in the array stored at *OPS. Note the last
1063 operation is DW_OP_stack_value if there is no mutable location but
1064 only a computable value.
1065
1066 *NOPS zero with *OPS set to OPS_MEM means CFI says the caller's
1067 REGNO is "undefined", i.e. it's call-clobbered and cannot be recovered.
1068
1069 *NOPS zero with *OPS set to a null pointer means CFI says the
1070 caller's REGNO is "same_value", i.e. this frame did not change it;
1071 ask the caller frame where to find it.
1072
1073 For common simple expressions *OPS is OPS_MEM (which is a caller
1074 owned array for at least 3 Dwarf_Ops). For arbitrary DWARF
1075 expressions in the CFI, *OPS is an internal pointer that can be
1076 used as long as the Dwarf_CFI used to create FRAME remains
1077 alive. */
1078 extern int dwarf_frame_register (Dwarf_Frame *frame, int regno,
1079 Dwarf_Op ops_mem[3],
1080 Dwarf_Op **ops, size_t *nops)
1081 __nonnull_attribute__ (3, 4, 5);
1082
1083
1084 /* Return error code of last failing function call. This value is kept
1085 separately for each thread. */
1086 extern int dwarf_errno (void);
1087
1088 /* Return error string for ERROR. If ERROR is zero, return error string
1089 for most recent error or NULL is none occurred. If ERROR is -1 the
1090 behaviour is similar to the last case except that not NULL but a legal
1091 string is returned. */
1092 extern const char *dwarf_errmsg (int err);
1093
1094
1095 /* Register new Out-Of-Memory handler. The old handler is returned. */
1096 extern Dwarf_OOM dwarf_new_oom_handler (Dwarf *dbg, Dwarf_OOM handler);
1097
1098
1099 /* Inline optimizations. */
1100 #ifdef __OPTIMIZE__
1101 /* Return attribute code of given attribute. */
1102 __libdw_extern_inline unsigned int
dwarf_whatattr(Dwarf_Attribute * attr)1103 dwarf_whatattr (Dwarf_Attribute *attr)
1104 {
1105 return attr == NULL ? 0 : attr->code;
1106 }
1107
1108 /* Return attribute code of given attribute. */
1109 __libdw_extern_inline unsigned int
dwarf_whatform(Dwarf_Attribute * attr)1110 dwarf_whatform (Dwarf_Attribute *attr)
1111 {
1112 return attr == NULL ? 0 : attr->form;
1113 }
1114 #endif /* Optimize. */
1115
1116 #ifdef __cplusplus
1117 }
1118 #endif
1119
1120 #endif /* libdw.h */
1121