1 /* Internal definitions for libdwfl.
2 Copyright (C) 2005-2015 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 _LIBDWFLP_H
30 #define _LIBDWFLP_H 1
31
32 #ifndef PACKAGE_NAME
33 # include <config.h>
34 #endif
35 #include <libdwfl.h>
36 #include <libebl.h>
37 #include <assert.h>
38 #include <dirent.h>
39 #include <errno.h>
40 #include <stdbool.h>
41 #include <stdlib.h>
42 #include <string.h>
43
44 #include "../libdw/libdwP.h" /* We need its INTDECLs. */
45 #include "../libdwelf/libdwelfP.h"
46
47 typedef struct Dwfl_Process Dwfl_Process;
48
49 /* gettext helper macros. */
50 #define _(Str) dgettext ("elfutils", Str)
51
52 #define DWFL_ERRORS \
53 DWFL_ERROR (NOERROR, N_("no error")) \
54 DWFL_ERROR (UNKNOWN_ERROR, N_("unknown error")) \
55 DWFL_ERROR (NOMEM, N_("out of memory")) \
56 DWFL_ERROR (ERRNO, N_("See errno")) \
57 DWFL_ERROR (LIBELF, N_("See elf_errno")) \
58 DWFL_ERROR (LIBDW, N_("See dwarf_errno")) \
59 DWFL_ERROR (LIBEBL, N_("See ebl_errno (XXX missing)")) \
60 DWFL_ERROR (ZLIB, N_("gzip decompression failed")) \
61 DWFL_ERROR (BZLIB, N_("bzip2 decompression failed")) \
62 DWFL_ERROR (LZMA, N_("LZMA decompression failed")) \
63 DWFL_ERROR (UNKNOWN_MACHINE, N_("no support library found for machine")) \
64 DWFL_ERROR (NOREL, N_("Callbacks missing for ET_REL file")) \
65 DWFL_ERROR (BADRELTYPE, N_("Unsupported relocation type")) \
66 DWFL_ERROR (BADRELOFF, N_("r_offset is bogus")) \
67 DWFL_ERROR (BADSTROFF, N_("offset out of range")) \
68 DWFL_ERROR (RELUNDEF, N_("relocation refers to undefined symbol")) \
69 DWFL_ERROR (CB, N_("Callback returned failure")) \
70 DWFL_ERROR (NO_DWARF, N_("No DWARF information found")) \
71 DWFL_ERROR (NO_SYMTAB, N_("No symbol table found")) \
72 DWFL_ERROR (NO_PHDR, N_("No ELF program headers")) \
73 DWFL_ERROR (OVERLAP, N_("address range overlaps an existing module")) \
74 DWFL_ERROR (ADDR_OUTOFRANGE, N_("address out of range")) \
75 DWFL_ERROR (NO_MATCH, N_("no matching address range")) \
76 DWFL_ERROR (TRUNCATED, N_("image truncated")) \
77 DWFL_ERROR (ALREADY_ELF, N_("ELF file opened")) \
78 DWFL_ERROR (BADELF, N_("not a valid ELF file")) \
79 DWFL_ERROR (WEIRD_TYPE, N_("cannot handle DWARF type description")) \
80 DWFL_ERROR (WRONG_ID_ELF, N_("ELF file does not match build ID")) \
81 DWFL_ERROR (BAD_PRELINK, N_("corrupt .gnu.prelink_undo section data")) \
82 DWFL_ERROR (LIBEBL_BAD, N_("Internal error due to ebl")) \
83 DWFL_ERROR (CORE_MISSING, N_("Missing data in core file")) \
84 DWFL_ERROR (INVALID_REGISTER, N_("Invalid register")) \
85 DWFL_ERROR (PROCESS_MEMORY_READ, N_("Error reading process memory")) \
86 DWFL_ERROR (PROCESS_NO_ARCH, N_("Couldn't find architecture of any ELF")) \
87 DWFL_ERROR (PARSE_PROC, N_("Error parsing /proc filesystem")) \
88 DWFL_ERROR (INVALID_DWARF, N_("Invalid DWARF")) \
89 DWFL_ERROR (UNSUPPORTED_DWARF, N_("Unsupported DWARF")) \
90 DWFL_ERROR (NEXT_THREAD_FAIL, N_("Unable to find more threads")) \
91 DWFL_ERROR (ATTACH_STATE_CONFLICT, N_("Dwfl already has attached state")) \
92 DWFL_ERROR (NO_ATTACH_STATE, N_("Dwfl has no attached state")) \
93 DWFL_ERROR (NO_UNWIND, N_("Unwinding not supported for this architecture")) \
94 DWFL_ERROR (INVALID_ARGUMENT, N_("Invalid argument")) \
95 DWFL_ERROR (NO_CORE_FILE, N_("Not an ET_CORE ELF file"))
96
97 #define DWFL_ERROR(name, text) DWFL_E_##name,
98 typedef enum { DWFL_ERRORS DWFL_E_NUM } Dwfl_Error;
99 #undef DWFL_ERROR
100
101 #define OTHER_ERROR(name) ((unsigned int) DWFL_E_##name << 16)
102 #define DWFL_E(name, errno) (OTHER_ERROR (name) | (errno))
103
104 extern int __libdwfl_canon_error (Dwfl_Error) internal_function;
105 extern void __libdwfl_seterrno (Dwfl_Error) internal_function;
106
107 /* Resources we might keep for the user about the core file that the
108 Dwfl might have been created from. Can currently only be set
109 through std-argp. */
110 struct Dwfl_User_Core
111 {
112 char *executable_for_core; /* --executable if --core was specified. */
113 Elf *core; /* non-NULL if we need to free it. */
114 int fd; /* close if >= 0. */
115 };
116
117 struct Dwfl
118 {
119 const Dwfl_Callbacks *callbacks;
120
121 Dwfl_Module *modulelist; /* List in order used by full traversals. */
122
123 Dwfl_Process *process;
124 Dwfl_Error attacherr; /* Previous error attaching process. */
125
126 GElf_Addr offline_next_address;
127
128 GElf_Addr segment_align; /* Smallest granularity of segments. */
129
130 /* Binary search table in three parallel malloc'd arrays. */
131 size_t lookup_elts; /* Elements in use. */
132 size_t lookup_alloc; /* Elements allococated. */
133 GElf_Addr *lookup_addr; /* Start address of segment. */
134 Dwfl_Module **lookup_module; /* Module associated with segment, or null. */
135 int *lookup_segndx; /* User segment index, or -1. */
136
137 /* Cache from last dwfl_report_segment call. */
138 const void *lookup_tail_ident;
139 GElf_Off lookup_tail_vaddr;
140 GElf_Off lookup_tail_offset;
141 int lookup_tail_ndx;
142
143 struct Dwfl_User_Core *user_core;
144 };
145
146 #define OFFLINE_REDZONE 0x10000
147
148 struct dwfl_file
149 {
150 char *name;
151 int fd;
152 bool valid; /* The build ID note has been matched. */
153 bool relocated; /* Partial relocation of all sections done. */
154
155 Elf *elf;
156
157 /* This is the lowest p_vaddr in this ELF file, aligned to p_align.
158 For a file without phdrs, this is zero. */
159 GElf_Addr vaddr;
160
161 /* This is an address chosen for synchronization between the main file
162 and the debug file. See dwfl_module_getdwarf.c for how it's chosen. */
163 GElf_Addr address_sync;
164 };
165
166 struct Dwfl_Module
167 {
168 Dwfl *dwfl;
169 struct Dwfl_Module *next; /* Link on Dwfl.modulelist. */
170
171 void *userdata;
172
173 char *name; /* Iterator name for this module. */
174 GElf_Addr low_addr, high_addr;
175
176 struct dwfl_file main, debug, aux_sym;
177 GElf_Addr main_bias;
178 Ebl *ebl;
179 GElf_Half e_type; /* GElf_Ehdr.e_type cache. */
180 Dwfl_Error elferr; /* Previous failure to open main file. */
181
182 struct dwfl_relocation *reloc_info; /* Relocatable sections. */
183
184 struct dwfl_file *symfile; /* Either main or debug. */
185 Elf_Data *symdata; /* Data in the ELF symbol table section. */
186 Elf_Data *aux_symdata; /* Data in the auxiliary ELF symbol table. */
187 size_t syments; /* sh_size / sh_entsize of that section. */
188 size_t aux_syments; /* sh_size / sh_entsize of aux_sym section. */
189 int first_global; /* Index of first global symbol of table. */
190 int aux_first_global; /* Index of first global of aux_sym table. */
191 Elf_Data *symstrdata; /* Data for its string table. */
192 Elf_Data *aux_symstrdata; /* Data for aux_sym string table. */
193 Elf_Data *symxndxdata; /* Data in the extended section index table. */
194 Elf_Data *aux_symxndxdata; /* Data in the extended auxiliary table. */
195
196 Dwarf *dw; /* libdw handle for its debugging info. */
197 Dwarf *alt; /* Dwarf used for dwarf_setalt, or NULL. */
198 int alt_fd; /* descriptor, only valid when alt != NULL. */
199 Elf *alt_elf; /* Elf for alt Dwarf. */
200
201 Dwfl_Error symerr; /* Previous failure to load symbols. */
202 Dwfl_Error dwerr; /* Previous failure to load DWARF. */
203
204 /* Known CU's in this module. */
205 struct dwfl_cu *first_cu, **cu;
206
207 void *lazy_cu_root; /* Table indexed by Dwarf_Off of CU. */
208
209 struct dwfl_arange *aranges; /* Mapping of addresses in module to CUs. */
210
211 void *build_id_bits; /* malloc'd copy of build ID bits. */
212 GElf_Addr build_id_vaddr; /* Address where they reside, 0 if unknown. */
213 int build_id_len; /* -1 for prior failure, 0 if unset. */
214
215 unsigned int ncu;
216 unsigned int lazycu; /* Possible users, deleted when none left. */
217 unsigned int naranges;
218
219 Dwarf_CFI *dwarf_cfi; /* Cached DWARF CFI for this module. */
220 Dwarf_CFI *eh_cfi; /* Cached EH CFI for this module. */
221
222 int segment; /* Index of first segment table entry. */
223 bool gc; /* Mark/sweep flag. */
224 bool is_executable; /* Use Dwfl::executable_for_core? */
225 };
226
227 /* This holds information common for all the threads/tasks/TIDs of one process
228 for backtraces. */
229
230 struct Dwfl_Process
231 {
232 struct Dwfl *dwfl;
233 pid_t pid;
234 const Dwfl_Thread_Callbacks *callbacks;
235 void *callbacks_arg;
236 struct ebl *ebl;
237 bool ebl_close:1;
238 };
239
240 /* See its typedef in libdwfl.h. */
241
242 struct Dwfl_Thread
243 {
244 Dwfl_Process *process;
245 pid_t tid;
246 /* The current frame being unwound. Initially it is the bottom frame.
247 Later the processed frames get freed and this pointer is updated. */
248 Dwfl_Frame *unwound;
249 void *callbacks_arg;
250 };
251
252 /* See its typedef in libdwfl.h. */
253
254 struct Dwfl_Frame
255 {
256 Dwfl_Thread *thread;
257 /* Previous (outer) frame. */
258 Dwfl_Frame *unwound;
259 bool signal_frame : 1;
260 bool initial_frame : 1;
261 enum
262 {
263 /* This structure is still being initialized or there was an error
264 initializing it. */
265 DWFL_FRAME_STATE_ERROR,
266 /* PC field is valid. */
267 DWFL_FRAME_STATE_PC_SET,
268 /* PC field is undefined, this means the next (inner) frame was the
269 outermost frame. */
270 DWFL_FRAME_STATE_PC_UNDEFINED
271 } pc_state;
272 /* Either initialized from appropriate REGS element or on some archs
273 initialized separately as the return address has no DWARF register. */
274 Dwarf_Addr pc;
275 /* (1 << X) bitmask where 0 <= X < ebl_frame_nregs. */
276 uint64_t regs_set[3];
277 /* REGS array size is ebl_frame_nregs.
278 REGS_SET tells which of the REGS are valid. */
279 Dwarf_Addr regs[];
280 };
281
282 /* Fetch value from Dwfl_Frame->regs indexed by DWARF REGNO.
283 No error code is set if the function returns FALSE. */
284 bool __libdwfl_frame_reg_get (Dwfl_Frame *state, unsigned regno,
285 Dwarf_Addr *val)
286 internal_function;
287
288 /* Store value to Dwfl_Frame->regs indexed by DWARF REGNO.
289 No error code is set if the function returns FALSE. */
290 bool __libdwfl_frame_reg_set (Dwfl_Frame *state, unsigned regno,
291 Dwarf_Addr val)
292 internal_function;
293
294 /* Information cached about each CU in Dwfl_Module.dw. */
295 struct dwfl_cu
296 {
297 /* This caches libdw information about the CU. It's also the
298 address passed back to users, so we take advantage of the
299 fact that it's placed first to cast back. */
300 Dwarf_Die die;
301
302 Dwfl_Module *mod; /* Pointer back to containing module. */
303
304 struct dwfl_cu *next; /* CU immediately following in the file. */
305
306 struct Dwfl_Lines *lines;
307 };
308
309 struct Dwfl_Lines
310 {
311 struct dwfl_cu *cu;
312
313 /* This is what the opaque Dwfl_Line * pointers we pass to users are.
314 We need to recover pointers to our struct dwfl_cu and a record in
315 libdw's Dwarf_Line table. To minimize the memory used in addition
316 to libdw's Dwarf_Lines buffer, we just point to our own index in
317 this table, and have one pointer back to the CU. The indices here
318 match those in libdw's Dwarf_CU.lines->info table. */
319 struct Dwfl_Line
320 {
321 unsigned int idx; /* My index in the dwfl_cu.lines table. */
322 } idx[0];
323 };
324
325 static inline struct dwfl_cu *
dwfl_linecu_inline(const Dwfl_Line * line)326 dwfl_linecu_inline (const Dwfl_Line *line)
327 {
328 const struct Dwfl_Lines *lines = ((const void *) line
329 - offsetof (struct Dwfl_Lines,
330 idx[line->idx]));
331 return lines->cu;
332 }
333 #define dwfl_linecu dwfl_linecu_inline
334
335 static inline GElf_Addr
dwfl_adjusted_address(Dwfl_Module * mod,GElf_Addr addr)336 dwfl_adjusted_address (Dwfl_Module *mod, GElf_Addr addr)
337 {
338 return addr + mod->main_bias;
339 }
340
341 static inline GElf_Addr
dwfl_deadjust_address(Dwfl_Module * mod,GElf_Addr addr)342 dwfl_deadjust_address (Dwfl_Module *mod, GElf_Addr addr)
343 {
344 return addr - mod->main_bias;
345 }
346
347 static inline Dwarf_Addr
dwfl_adjusted_dwarf_addr(Dwfl_Module * mod,Dwarf_Addr addr)348 dwfl_adjusted_dwarf_addr (Dwfl_Module *mod, Dwarf_Addr addr)
349 {
350 return dwfl_adjusted_address (mod, (addr
351 - mod->debug.address_sync
352 + mod->main.address_sync));
353 }
354
355 static inline Dwarf_Addr
dwfl_deadjust_dwarf_addr(Dwfl_Module * mod,Dwarf_Addr addr)356 dwfl_deadjust_dwarf_addr (Dwfl_Module *mod, Dwarf_Addr addr)
357 {
358 return (dwfl_deadjust_address (mod, addr)
359 - mod->main.address_sync
360 + mod->debug.address_sync);
361 }
362
363 static inline Dwarf_Addr
dwfl_adjusted_aux_sym_addr(Dwfl_Module * mod,Dwarf_Addr addr)364 dwfl_adjusted_aux_sym_addr (Dwfl_Module *mod, Dwarf_Addr addr)
365 {
366 return dwfl_adjusted_address (mod, (addr
367 - mod->aux_sym.address_sync
368 + mod->main.address_sync));
369 }
370
371 static inline Dwarf_Addr
dwfl_deadjust_aux_sym_addr(Dwfl_Module * mod,Dwarf_Addr addr)372 dwfl_deadjust_aux_sym_addr (Dwfl_Module *mod, Dwarf_Addr addr)
373 {
374 return (dwfl_deadjust_address (mod, addr)
375 - mod->main.address_sync
376 + mod->aux_sym.address_sync);
377 }
378
379 static inline GElf_Addr
dwfl_adjusted_st_value(Dwfl_Module * mod,Elf * symelf,GElf_Addr addr)380 dwfl_adjusted_st_value (Dwfl_Module *mod, Elf *symelf, GElf_Addr addr)
381 {
382 if (symelf == mod->main.elf)
383 return dwfl_adjusted_address (mod, addr);
384 if (symelf == mod->debug.elf)
385 return dwfl_adjusted_dwarf_addr (mod, addr);
386 return dwfl_adjusted_aux_sym_addr (mod, addr);
387 }
388
389 static inline GElf_Addr
dwfl_deadjust_st_value(Dwfl_Module * mod,Elf * symelf,GElf_Addr addr)390 dwfl_deadjust_st_value (Dwfl_Module *mod, Elf *symelf, GElf_Addr addr)
391 {
392 if (symelf == mod->main.elf)
393 return dwfl_deadjust_address (mod, addr);
394 if (symelf == mod->debug.elf)
395 return dwfl_deadjust_dwarf_addr (mod, addr);
396 return dwfl_deadjust_aux_sym_addr (mod, addr);
397 }
398
399 /* This describes a contiguous address range that lies in a single CU.
400 We condense runs of Dwarf_Arange entries for the same CU into this. */
401 struct dwfl_arange
402 {
403 struct dwfl_cu *cu;
404 size_t arange; /* Index in Dwarf_Aranges. */
405 };
406
407
408 /* Structure used for keeping track of ptrace attaching a thread.
409 Shared by linux-pid-attach and linux-proc-maps. If it has been setup
410 then get the instance through __libdwfl_get_pid_arg. */
411 struct __libdwfl_pid_arg
412 {
413 /* /proc/PID/task/. */
414 DIR *dir;
415 /* Elf for /proc/PID/exe. Set to NULL if it couldn't be opened. */
416 Elf *elf;
417 /* fd for /proc/PID/exe. Set to -1 if it couldn't be opened. */
418 int elf_fd;
419 /* It is 0 if not used. */
420 pid_t tid_attached;
421 /* Valid only if TID_ATTACHED is not zero. */
422 bool tid_was_stopped;
423 /* True if threads are ptrace stopped by caller. */
424 bool assume_ptrace_stopped;
425 };
426
427 /* If DWfl is not NULL and a Dwfl_Process has been setup that has
428 Dwfl_Thread_Callbacks set to pid_thread_callbacks, then return the
429 callbacks_arg, which will be a struct __libdwfl_pid_arg. Otherwise
430 returns NULL. */
431 extern struct __libdwfl_pid_arg *__libdwfl_get_pid_arg (Dwfl *dwfl)
432 internal_function;
433
434 /* Makes sure the given tid is attached. On success returns true and
435 sets tid_was_stopped. */
436 extern bool __libdwfl_ptrace_attach (pid_t tid, bool *tid_was_stoppedp)
437 internal_function;
438
439 /* Detaches a tid that was attached through
440 __libdwfl_ptrace_attach. Must be given the tid_was_stopped as set
441 by __libdwfl_ptrace_attach. */
442 extern void __libdwfl_ptrace_detach (pid_t tid, bool tid_was_stopped)
443 internal_function;
444
445
446 /* Internal wrapper for old dwfl_module_getsym and new dwfl_module_getsym_info.
447 adjust_st_value set to true returns adjusted SYM st_value, set to false
448 it will not adjust SYM at all, but does match against resolved *ADDR. */
449 extern const char *__libdwfl_getsym (Dwfl_Module *mod, int ndx, GElf_Sym *sym,
450 GElf_Addr *addr, GElf_Word *shndxp,
451 Elf **elfp, Dwarf_Addr *biasp,
452 bool *resolved, bool adjust_st_value)
453 internal_function;
454
455 /* Internal wrapper for old dwfl_module_addrsym and new dwfl_module_addrinfo.
456 adjust_st_value set to true returns adjusted SYM st_value, set to false
457 it will not adjust SYM at all, but does match against resolved values. */
458 extern const char *__libdwfl_addrsym (Dwfl_Module *mod, GElf_Addr addr,
459 GElf_Off *off, GElf_Sym *sym,
460 GElf_Word *shndxp, Elf **elfp,
461 Dwarf_Addr *bias,
462 bool adjust_st_value) internal_function;
463
464 extern void __libdwfl_module_free (Dwfl_Module *mod) internal_function;
465
466 /* Find the main ELF file, update MOD->elferr and/or MOD->main.elf. */
467 extern void __libdwfl_getelf (Dwfl_Module *mod) internal_function;
468
469 /* Process relocations in debugging sections in an ET_REL file.
470 FILE must be opened with ELF_C_READ_MMAP_PRIVATE or ELF_C_READ,
471 to make it possible to relocate the data in place (or ELF_C_RDWR or
472 ELF_C_RDWR_MMAP if you intend to modify the Elf file on disk). After
473 this, dwarf_begin_elf on FILE will read the relocated data.
474
475 When DEBUG is false, apply partial relocation to all sections. */
476 extern Dwfl_Error __libdwfl_relocate (Dwfl_Module *mod, Elf *file, bool debug)
477 internal_function;
478
479 /* Find the section index in mod->main.elf that contains the given
480 *ADDR. Adjusts *ADDR to be section relative on success, returns
481 SHN_UNDEF on failure. */
482 extern size_t __libdwfl_find_section_ndx (Dwfl_Module *mod, Dwarf_Addr *addr)
483 internal_function;
484
485 /* Process (simple) relocations in arbitrary section TSCN of an ET_REL file.
486 RELOCSCN is SHT_REL or SHT_RELA and TSCN is its sh_info target section. */
487 extern Dwfl_Error __libdwfl_relocate_section (Dwfl_Module *mod, Elf *relocated,
488 Elf_Scn *relocscn, Elf_Scn *tscn,
489 bool partial)
490 internal_function;
491
492 /* Adjust *VALUE from section-relative to absolute.
493 MOD->dwfl->callbacks->section_address is called to determine the actual
494 address of a loaded section. */
495 extern Dwfl_Error __libdwfl_relocate_value (Dwfl_Module *mod, Elf *elf,
496 size_t *shstrndx_cache,
497 Elf32_Word shndx,
498 GElf_Addr *value)
499 internal_function;
500
501 /* Ensure that MOD->ebl is set up. */
502 extern Dwfl_Error __libdwfl_module_getebl (Dwfl_Module *mod) internal_function;
503
504 /* Install a new Dwarf_CFI in *SLOT (MOD->eh_cfi or MOD->dwarf_cfi). */
505 extern Dwarf_CFI *__libdwfl_set_cfi (Dwfl_Module *mod, Dwarf_CFI **slot,
506 Dwarf_CFI *cfi)
507 internal_function;
508
509 /* Iterate through all the CU's in the module. Start by passing a null
510 LASTCU, and then pass the last *CU returned. Success return with null
511 *CU no more CUs. */
512 extern Dwfl_Error __libdwfl_nextcu (Dwfl_Module *mod, struct dwfl_cu *lastcu,
513 struct dwfl_cu **cu) internal_function;
514
515 /* Find the CU by address. */
516 extern Dwfl_Error __libdwfl_addrcu (Dwfl_Module *mod, Dwarf_Addr addr,
517 struct dwfl_cu **cu) internal_function;
518
519 /* Ensure that CU->lines (and CU->cu->lines) is set up. */
520 extern Dwfl_Error __libdwfl_cu_getsrclines (struct dwfl_cu *cu)
521 internal_function;
522
523 /* Look in ELF for an NT_GNU_BUILD_ID note. Store it to BUILD_ID_BITS,
524 its vaddr in ELF to BUILD_ID_VADDR (it is unrelocated, even if MOD is not
525 NULL) and store length to BUILD_ID_LEN. Returns -1 for errors, 1 if it was
526 stored and 0 if no note is found. MOD may be NULL, MOD must be non-NULL
527 only if ELF is ET_REL. */
528 extern int __libdwfl_find_elf_build_id (Dwfl_Module *mod, Elf *elf,
529 const void **build_id_bits,
530 GElf_Addr *build_id_elfaddr,
531 int *build_id_len)
532 internal_function;
533
534 /* Look in ELF for an NT_GNU_BUILD_ID note. If SET is true, store it
535 in MOD and return its length. If SET is false, instead compare it
536 to that stored in MOD and return 2 if they match, 1 if they do not.
537 Returns -1 for errors, 0 if no note is found. */
538 extern int __libdwfl_find_build_id (Dwfl_Module *mod, bool set, Elf *elf)
539 internal_function;
540
541 /* Open a main or debuginfo file by its build ID, returns the fd. */
542 extern int __libdwfl_open_mod_by_build_id (Dwfl_Module *mod, bool debug,
543 char **file_name) internal_function;
544
545 /* Same, but takes an explicit build_id, can also be used for alt debug. */
546 extern int __libdwfl_open_by_build_id (Dwfl_Module *mod, bool debug,
547 char **file_name, const size_t id_len,
548 const uint8_t *id) internal_function;
549
550 extern uint32_t __libdwfl_crc32 (uint32_t crc, unsigned char *buf, size_t len)
551 attribute_hidden;
552 extern int __libdwfl_crc32_file (int fd, uint32_t *resp) attribute_hidden;
553
554
555 /* Given ELF and some parameters return TRUE if the *P return value parameters
556 have been successfully filled in. Any of the *P parameters can be NULL. */
557 extern bool __libdwfl_elf_address_range (Elf *elf, GElf_Addr base,
558 bool add_p_vaddr, bool sanity,
559 GElf_Addr *vaddrp,
560 GElf_Addr *address_syncp,
561 GElf_Addr *startp, GElf_Addr *endp,
562 GElf_Addr *biasp, GElf_Half *e_typep)
563 internal_function;
564
565 /* Meat of dwfl_report_elf, given elf_begin just called.
566 Consumes ELF on success, not on failure. */
567 extern Dwfl_Module *__libdwfl_report_elf (Dwfl *dwfl, const char *name,
568 const char *file_name, int fd,
569 Elf *elf, GElf_Addr base,
570 bool add_p_vaddr, bool sanity)
571 internal_function;
572
573 /* Meat of dwfl_report_offline. */
574 extern Dwfl_Module *__libdwfl_report_offline (Dwfl *dwfl, const char *name,
575 const char *file_name,
576 int fd, bool closefd,
577 int (*predicate) (const char *,
578 const char *))
579 internal_function;
580
581 /* Free PROCESS. Unlink and free also any structures it references. */
582 extern void __libdwfl_process_free (Dwfl_Process *process)
583 internal_function;
584
585 /* Update STATE->unwound for the unwound frame.
586 On error STATE->unwound == NULL
587 or STATE->unwound->pc_state == DWFL_FRAME_STATE_ERROR;
588 in such case dwfl_errno () is set.
589 If STATE->unwound->pc_state == DWFL_FRAME_STATE_PC_UNDEFINED
590 then STATE was the last valid frame. */
591 extern void __libdwfl_frame_unwind (Dwfl_Frame *state)
592 internal_function;
593
594 /* Align segment START downwards or END upwards addresses according to DWFL. */
595 extern GElf_Addr __libdwfl_segment_start (Dwfl *dwfl, GElf_Addr start)
596 internal_function;
597 extern GElf_Addr __libdwfl_segment_end (Dwfl *dwfl, GElf_Addr end)
598 internal_function;
599
600 /* Decompression wrappers: decompress whole file into memory. */
601 extern Dwfl_Error __libdw_gunzip (int fd, off_t start_offset,
602 void *mapped, size_t mapped_size,
603 void **whole, size_t *whole_size)
604 internal_function;
605 extern Dwfl_Error __libdw_bunzip2 (int fd, off_t start_offset,
606 void *mapped, size_t mapped_size,
607 void **whole, size_t *whole_size)
608 internal_function;
609 extern Dwfl_Error __libdw_unlzma (int fd, off_t start_offset,
610 void *mapped, size_t mapped_size,
611 void **whole, size_t *whole_size)
612 internal_function;
613
614 /* Skip the image header before a file image: updates *START_OFFSET. */
615 extern Dwfl_Error __libdw_image_header (int fd, off_t *start_offset,
616 void *mapped, size_t mapped_size)
617 internal_function;
618
619 /* Open Elf handle on *FDP. This handles decompression and checks
620 elf_kind. Succeed only for ELF_K_ELF, or also ELF_K_AR if ARCHIVE_OK.
621 Returns DWFL_E_NOERROR and sets *ELFP on success, resets *FDP to -1 if
622 it's no longer used. Resets *FDP on failure too iff CLOSE_ON_FAIL. */
623 extern Dwfl_Error __libdw_open_file (int *fdp, Elf **elfp,
624 bool close_on_fail, bool archive_ok)
625 internal_function;
626
627 /* Fetch PT_DYNAMIC P_VADDR from ELF and store it to *VADDRP. Return success.
628 *VADDRP is not modified if the function fails. */
629 extern bool __libdwfl_dynamic_vaddr_get (Elf *elf, GElf_Addr *vaddrp)
630 internal_function;
631
632 /* These are working nicely for --core, but are not ready to be
633 exported interfaces quite yet. */
634
635 /* Type of callback function ...
636 */
637 typedef bool Dwfl_Memory_Callback (Dwfl *dwfl, int segndx,
638 void **buffer, size_t *buffer_available,
639 GElf_Addr vaddr, size_t minread, void *arg);
640
641 /* Type of callback function ...
642 */
643 typedef bool Dwfl_Module_Callback (Dwfl_Module *mod, void **userdata,
644 const char *name, Dwarf_Addr base,
645 void **buffer, size_t *buffer_available,
646 GElf_Off cost, GElf_Off worthwhile,
647 GElf_Off whole, GElf_Off contiguous,
648 void *arg, Elf **elfp);
649
650 /* One shared library (or executable) info from DT_DEBUG link map. */
651 struct r_debug_info_module
652 {
653 struct r_debug_info_module *next;
654 /* FD is -1 iff ELF is NULL. */
655 int fd;
656 Elf *elf;
657 GElf_Addr l_ld;
658 /* START and END are both zero if not valid. */
659 GElf_Addr start, end;
660 bool disk_file_has_build_id;
661 char name[0];
662 };
663
664 /* Information gathered from DT_DEBUG by dwfl_link_map_report hinted to
665 dwfl_segment_report_module. */
666 struct r_debug_info
667 {
668 struct r_debug_info_module *module;
669 };
670
671 /* ...
672 */
673 extern int dwfl_segment_report_module (Dwfl *dwfl, int ndx, const char *name,
674 Dwfl_Memory_Callback *memory_callback,
675 void *memory_callback_arg,
676 Dwfl_Module_Callback *read_eagerly,
677 void *read_eagerly_arg,
678 const void *note_file,
679 size_t note_file_size,
680 const struct r_debug_info *r_debug_info);
681
682 /* Report a module for entry in the dynamic linker's struct link_map list.
683 For each link_map entry, if an existing module resides at its address,
684 this just modifies that module's name and suggested file name. If
685 no such module exists, this calls dwfl_report_elf on the l_name string.
686
687 If AUXV is not null, it points to AUXV_SIZE bytes of auxiliary vector
688 data as contained in an NT_AUXV note or read from a /proc/pid/auxv
689 file. When this is available, it guides the search. If AUXV is null
690 or the memory it points to is not accessible, then this search can
691 only find where to begin if the correct executable file was
692 previously reported and preloaded as with dwfl_report_elf.
693
694 Fill in R_DEBUG_INFO if it is not NULL. It should be cleared by the
695 caller, this function does not touch fields it does not need to modify.
696 If R_DEBUG_INFO is not NULL then no modules get added to DWFL, caller
697 has to add them from filled in R_DEBUG_INFO.
698
699 Returns the number of modules found, or -1 for errors. */
700 extern int dwfl_link_map_report (Dwfl *dwfl, const void *auxv, size_t auxv_size,
701 Dwfl_Memory_Callback *memory_callback,
702 void *memory_callback_arg,
703 struct r_debug_info *r_debug_info);
704
705
706 /* Avoid PLT entries. */
707 INTDECL (dwfl_begin)
708 INTDECL (dwfl_errmsg)
709 INTDECL (dwfl_errno)
710 INTDECL (dwfl_addrmodule)
711 INTDECL (dwfl_addrsegment)
712 INTDECL (dwfl_addrdwarf)
713 INTDECL (dwfl_addrdie)
714 INTDECL (dwfl_core_file_attach)
715 INTDECL (dwfl_core_file_report)
716 INTDECL (dwfl_getmodules)
717 INTDECL (dwfl_module_addrdie)
718 INTDECL (dwfl_module_address_section)
719 INTDECL (dwfl_module_addrinfo)
720 INTDECL (dwfl_module_addrsym)
721 INTDECL (dwfl_module_build_id)
722 INTDECL (dwfl_module_getdwarf)
723 INTDECL (dwfl_module_getelf)
724 INTDECL (dwfl_module_getsym)
725 INTDECL (dwfl_module_getsym_info)
726 INTDECL (dwfl_module_getsymtab)
727 INTDECL (dwfl_module_getsymtab_first_global)
728 INTDECL (dwfl_module_getsrc)
729 INTDECL (dwfl_module_report_build_id)
730 INTDECL (dwfl_report_elf)
731 INTDECL (dwfl_report_begin)
732 INTDECL (dwfl_report_begin_add)
733 INTDECL (dwfl_report_module)
734 INTDECL (dwfl_report_segment)
735 INTDECL (dwfl_report_offline)
736 INTDECL (dwfl_report_end)
737 INTDECL (dwfl_build_id_find_elf)
738 INTDECL (dwfl_build_id_find_debuginfo)
739 INTDECL (dwfl_standard_find_debuginfo)
740 INTDECL (dwfl_link_map_report)
741 INTDECL (dwfl_linux_kernel_find_elf)
742 INTDECL (dwfl_linux_kernel_module_section_address)
743 INTDECL (dwfl_linux_proc_attach)
744 INTDECL (dwfl_linux_proc_report)
745 INTDECL (dwfl_linux_proc_maps_report)
746 INTDECL (dwfl_linux_proc_find_elf)
747 INTDECL (dwfl_linux_kernel_report_kernel)
748 INTDECL (dwfl_linux_kernel_report_modules)
749 INTDECL (dwfl_linux_kernel_report_offline)
750 INTDECL (dwfl_offline_section_address)
751 INTDECL (dwfl_module_relocate_address)
752 INTDECL (dwfl_module_dwarf_cfi)
753 INTDECL (dwfl_module_eh_cfi)
754 INTDECL (dwfl_attach_state)
755 INTDECL (dwfl_pid)
756 INTDECL (dwfl_thread_dwfl)
757 INTDECL (dwfl_thread_tid)
758 INTDECL (dwfl_frame_thread)
759 INTDECL (dwfl_thread_state_registers)
760 INTDECL (dwfl_thread_state_register_pc)
761 INTDECL (dwfl_getthread_frames)
762 INTDECL (dwfl_getthreads)
763 INTDECL (dwfl_thread_getframes)
764 INTDECL (dwfl_frame_pc)
765
766 /* Leading arguments standard to callbacks passed a Dwfl_Module. */
767 #define MODCB_ARGS(mod) (mod), &(mod)->userdata, (mod)->name, (mod)->low_addr
768 #define CBFAIL (errno ? DWFL_E (ERRNO, errno) : DWFL_E_CB);
769
770
771 /* The default used by dwfl_standard_find_debuginfo. */
772 #define DEFAULT_DEBUGINFO_PATH ":.debug:/usr/lib/debug"
773
774
775 #endif /* libdwflP.h */
776