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1// SPDX-License-Identifier: GPL-2.0-or-later
2/*
3 * elf.c - ELF access library
4 *
5 * Adapted from kpatch (https://github.com/dynup/kpatch):
6 * Copyright (C) 2013-2015 Josh Poimboeuf <jpoimboe@redhat.com>
7 * Copyright (C) 2014 Seth Jennings <sjenning@redhat.com>
8 */
9
10#include <sys/types.h>
11#include <sys/stat.h>
12#include <sys/mman.h>
13#include <fcntl.h>
14#include <stdio.h>
15#include <stdlib.h>
16#include <string.h>
17#include <unistd.h>
18#include <errno.h>
19#include <linux/interval_tree_generic.h>
20#include <objtool/builtin.h>
21
22#include <objtool/elf.h>
23#include <objtool/warn.h>
24
25#define MAX_NAME_LEN 128
26
27static inline u32 str_hash(const char *str)
28{
29 return jhash(str, strlen(str), 0);
30}
31
32#define __elf_table(name) (elf->name##_hash)
33#define __elf_bits(name) (elf->name##_bits)
34
35#define elf_hash_add(name, node, key) \
36 hlist_add_head(node, &__elf_table(name)[hash_min(key, __elf_bits(name))])
37
38#define elf_hash_for_each_possible(name, obj, member, key) \
39 hlist_for_each_entry(obj, &__elf_table(name)[hash_min(key, __elf_bits(name))], member)
40
41#define elf_alloc_hash(name, size) \
42({ \
43 __elf_bits(name) = max(10, ilog2(size)); \
44 __elf_table(name) = mmap(NULL, sizeof(struct hlist_head) << __elf_bits(name), \
45 PROT_READ|PROT_WRITE, \
46 MAP_PRIVATE|MAP_ANON, -1, 0); \
47 if (__elf_table(name) == (void *)-1L) { \
48 WARN("mmap fail " #name); \
49 __elf_table(name) = NULL; \
50 } \
51 __elf_table(name); \
52})
53
54static inline unsigned long __sym_start(struct symbol *s)
55{
56 return s->offset;
57}
58
59static inline unsigned long __sym_last(struct symbol *s)
60{
61 return s->offset + s->len - 1;
62}
63
64INTERVAL_TREE_DEFINE(struct symbol, node, unsigned long, __subtree_last,
65 __sym_start, __sym_last, static, __sym)
66
67#define __sym_for_each(_iter, _tree, _start, _end) \
68 for (_iter = __sym_iter_first((_tree), (_start), (_end)); \
69 _iter; _iter = __sym_iter_next(_iter, (_start), (_end)))
70
71struct symbol_hole {
72 unsigned long key;
73 const struct symbol *sym;
74};
75
76/*
77 * Find !section symbol where @offset is after it.
78 */
79static int symbol_hole_by_offset(const void *key, const struct rb_node *node)
80{
81 const struct symbol *s = rb_entry(node, struct symbol, node);
82 struct symbol_hole *sh = (void *)key;
83
84 if (sh->key < s->offset)
85 return -1;
86
87 if (sh->key >= s->offset + s->len) {
88 if (s->type != STT_SECTION)
89 sh->sym = s;
90 return 1;
91 }
92
93 return 0;
94}
95
96struct section *find_section_by_name(const struct elf *elf, const char *name)
97{
98 struct section *sec;
99
100 elf_hash_for_each_possible(section_name, sec, name_hash, str_hash(name)) {
101 if (!strcmp(sec->name, name))
102 return sec;
103 }
104
105 return NULL;
106}
107
108static struct section *find_section_by_index(struct elf *elf,
109 unsigned int idx)
110{
111 struct section *sec;
112
113 elf_hash_for_each_possible(section, sec, hash, idx) {
114 if (sec->idx == idx)
115 return sec;
116 }
117
118 return NULL;
119}
120
121static struct symbol *find_symbol_by_index(struct elf *elf, unsigned int idx)
122{
123 struct symbol *sym;
124
125 elf_hash_for_each_possible(symbol, sym, hash, idx) {
126 if (sym->idx == idx)
127 return sym;
128 }
129
130 return NULL;
131}
132
133struct symbol *find_symbol_by_offset(struct section *sec, unsigned long offset)
134{
135 struct rb_root_cached *tree = (struct rb_root_cached *)&sec->symbol_tree;
136 struct symbol *iter;
137
138 __sym_for_each(iter, tree, offset, offset) {
139 if (iter->offset == offset && iter->type != STT_SECTION)
140 return iter;
141 }
142
143 return NULL;
144}
145
146struct symbol *find_func_by_offset(struct section *sec, unsigned long offset)
147{
148 struct rb_root_cached *tree = (struct rb_root_cached *)&sec->symbol_tree;
149 struct symbol *iter;
150
151 __sym_for_each(iter, tree, offset, offset) {
152 if (iter->offset == offset && iter->type == STT_FUNC)
153 return iter;
154 }
155
156 return NULL;
157}
158
159struct symbol *find_symbol_containing(const struct section *sec, unsigned long offset)
160{
161 struct rb_root_cached *tree = (struct rb_root_cached *)&sec->symbol_tree;
162 struct symbol *iter;
163
164 __sym_for_each(iter, tree, offset, offset) {
165 if (iter->type != STT_SECTION)
166 return iter;
167 }
168
169 return NULL;
170}
171
172/*
173 * Returns size of hole starting at @offset.
174 */
175int find_symbol_hole_containing(const struct section *sec, unsigned long offset)
176{
177 struct symbol_hole hole = {
178 .key = offset,
179 .sym = NULL,
180 };
181 struct rb_node *n;
182 struct symbol *s;
183
184 /*
185 * Find the rightmost symbol for which @offset is after it.
186 */
187 n = rb_find(&hole, &sec->symbol_tree.rb_root, symbol_hole_by_offset);
188
189 /* found a symbol that contains @offset */
190 if (n)
191 return 0; /* not a hole */
192
193 /* didn't find a symbol for which @offset is after it */
194 if (!hole.sym)
195 return 0; /* not a hole */
196
197 /* @offset >= sym->offset + sym->len, find symbol after it */
198 n = rb_next(&hole.sym->node);
199 if (!n)
200 return -1; /* until end of address space */
201
202 /* hole until start of next symbol */
203 s = rb_entry(n, struct symbol, node);
204 return s->offset - offset;
205}
206
207struct symbol *find_func_containing(struct section *sec, unsigned long offset)
208{
209 struct rb_root_cached *tree = (struct rb_root_cached *)&sec->symbol_tree;
210 struct symbol *iter;
211
212 __sym_for_each(iter, tree, offset, offset) {
213 if (iter->type == STT_FUNC)
214 return iter;
215 }
216
217 return NULL;
218}
219
220struct symbol *find_symbol_by_name(const struct elf *elf, const char *name)
221{
222 struct symbol *sym;
223
224 elf_hash_for_each_possible(symbol_name, sym, name_hash, str_hash(name)) {
225 if (!strcmp(sym->name, name))
226 return sym;
227 }
228
229 return NULL;
230}
231
232struct reloc *find_reloc_by_dest_range(const struct elf *elf, struct section *sec,
233 unsigned long offset, unsigned int len)
234{
235 struct reloc *reloc, *r = NULL;
236 unsigned long o;
237
238 if (!sec->reloc)
239 return NULL;
240
241 sec = sec->reloc;
242
243 for_offset_range(o, offset, offset + len) {
244 elf_hash_for_each_possible(reloc, reloc, hash,
245 sec_offset_hash(sec, o)) {
246 if (reloc->sec != sec)
247 continue;
248
249 if (reloc->offset >= offset && reloc->offset < offset + len) {
250 if (!r || reloc->offset < r->offset)
251 r = reloc;
252 }
253 }
254 if (r)
255 return r;
256 }
257
258 return NULL;
259}
260
261struct reloc *find_reloc_by_dest(const struct elf *elf, struct section *sec, unsigned long offset)
262{
263 return find_reloc_by_dest_range(elf, sec, offset, 1);
264}
265
266static int read_sections(struct elf *elf)
267{
268 Elf_Scn *s = NULL;
269 struct section *sec;
270 size_t shstrndx, sections_nr;
271 int i;
272
273 if (elf_getshdrnum(elf->elf, §ions_nr)) {
274 WARN_ELF("elf_getshdrnum");
275 return -1;
276 }
277
278 if (elf_getshdrstrndx(elf->elf, &shstrndx)) {
279 WARN_ELF("elf_getshdrstrndx");
280 return -1;
281 }
282
283 if (!elf_alloc_hash(section, sections_nr) ||
284 !elf_alloc_hash(section_name, sections_nr))
285 return -1;
286
287 for (i = 0; i < sections_nr; i++) {
288 sec = malloc(sizeof(*sec));
289 if (!sec) {
290 perror("malloc");
291 return -1;
292 }
293 memset(sec, 0, sizeof(*sec));
294
295 INIT_LIST_HEAD(&sec->symbol_list);
296 INIT_LIST_HEAD(&sec->reloc_list);
297
298 s = elf_getscn(elf->elf, i);
299 if (!s) {
300 WARN_ELF("elf_getscn");
301 return -1;
302 }
303
304 sec->idx = elf_ndxscn(s);
305
306 if (!gelf_getshdr(s, &sec->sh)) {
307 WARN_ELF("gelf_getshdr");
308 return -1;
309 }
310
311 sec->name = elf_strptr(elf->elf, shstrndx, sec->sh.sh_name);
312 if (!sec->name) {
313 WARN_ELF("elf_strptr");
314 return -1;
315 }
316
317 if (sec->sh.sh_size != 0) {
318 sec->data = elf_getdata(s, NULL);
319 if (!sec->data) {
320 WARN_ELF("elf_getdata");
321 return -1;
322 }
323 if (sec->data->d_off != 0 ||
324 sec->data->d_size != sec->sh.sh_size) {
325 WARN("unexpected data attributes for %s",
326 sec->name);
327 return -1;
328 }
329 }
330
331 if (sec->sh.sh_flags & SHF_EXECINSTR)
332 elf->text_size += sec->sh.sh_size;
333
334 list_add_tail(&sec->list, &elf->sections);
335 elf_hash_add(section, &sec->hash, sec->idx);
336 elf_hash_add(section_name, &sec->name_hash, str_hash(sec->name));
337 }
338
339 if (opts.stats) {
340 printf("nr_sections: %lu\n", (unsigned long)sections_nr);
341 printf("section_bits: %d\n", elf->section_bits);
342 }
343
344 /* sanity check, one more call to elf_nextscn() should return NULL */
345 if (elf_nextscn(elf->elf, s)) {
346 WARN("section entry mismatch");
347 return -1;
348 }
349
350 return 0;
351}
352
353static void elf_add_symbol(struct elf *elf, struct symbol *sym)
354{
355 struct list_head *entry;
356 struct rb_node *pnode;
357 struct symbol *iter;
358
359 INIT_LIST_HEAD(&sym->reloc_list);
360 INIT_LIST_HEAD(&sym->pv_target);
361 sym->alias = sym;
362
363 sym->type = GELF_ST_TYPE(sym->sym.st_info);
364 sym->bind = GELF_ST_BIND(sym->sym.st_info);
365
366 if (sym->type == STT_FILE)
367 elf->num_files++;
368
369 sym->offset = sym->sym.st_value;
370 sym->len = sym->sym.st_size;
371
372 __sym_for_each(iter, &sym->sec->symbol_tree, sym->offset, sym->offset) {
373 if (iter->offset == sym->offset && iter->type == sym->type)
374 iter->alias = sym;
375 }
376
377 __sym_insert(sym, &sym->sec->symbol_tree);
378 pnode = rb_prev(&sym->node);
379 if (pnode)
380 entry = &rb_entry(pnode, struct symbol, node)->list;
381 else
382 entry = &sym->sec->symbol_list;
383 list_add(&sym->list, entry);
384 elf_hash_add(symbol, &sym->hash, sym->idx);
385 elf_hash_add(symbol_name, &sym->name_hash, str_hash(sym->name));
386
387 /*
388 * Don't store empty STT_NOTYPE symbols in the rbtree. They
389 * can exist within a function, confusing the sorting.
390 */
391 if (!sym->len)
392 __sym_remove(sym, &sym->sec->symbol_tree);
393}
394
395static int read_symbols(struct elf *elf)
396{
397 struct section *symtab, *symtab_shndx, *sec;
398 struct symbol *sym, *pfunc;
399 int symbols_nr, i;
400 char *coldstr;
401 Elf_Data *shndx_data = NULL;
402 Elf32_Word shndx;
403
404 symtab = find_section_by_name(elf, ".symtab");
405 if (symtab) {
406 symtab_shndx = find_section_by_name(elf, ".symtab_shndx");
407 if (symtab_shndx)
408 shndx_data = symtab_shndx->data;
409
410 symbols_nr = symtab->sh.sh_size / symtab->sh.sh_entsize;
411 } else {
412 /*
413 * A missing symbol table is actually possible if it's an empty
414 * .o file. This can happen for thunk_64.o. Make sure to at
415 * least allocate the symbol hash tables so we can do symbol
416 * lookups without crashing.
417 */
418 symbols_nr = 0;
419 }
420
421 if (!elf_alloc_hash(symbol, symbols_nr) ||
422 !elf_alloc_hash(symbol_name, symbols_nr))
423 return -1;
424
425 for (i = 0; i < symbols_nr; i++) {
426 sym = malloc(sizeof(*sym));
427 if (!sym) {
428 perror("malloc");
429 return -1;
430 }
431 memset(sym, 0, sizeof(*sym));
432
433 sym->idx = i;
434
435 if (!gelf_getsymshndx(symtab->data, shndx_data, i, &sym->sym,
436 &shndx)) {
437 WARN_ELF("gelf_getsymshndx");
438 goto err;
439 }
440
441 sym->name = elf_strptr(elf->elf, symtab->sh.sh_link,
442 sym->sym.st_name);
443 if (!sym->name) {
444 WARN_ELF("elf_strptr");
445 goto err;
446 }
447
448 if ((sym->sym.st_shndx > SHN_UNDEF &&
449 sym->sym.st_shndx < SHN_LORESERVE) ||
450 (shndx_data && sym->sym.st_shndx == SHN_XINDEX)) {
451 if (sym->sym.st_shndx != SHN_XINDEX)
452 shndx = sym->sym.st_shndx;
453
454 sym->sec = find_section_by_index(elf, shndx);
455 if (!sym->sec) {
456 WARN("couldn't find section for symbol %s",
457 sym->name);
458 goto err;
459 }
460 if (GELF_ST_TYPE(sym->sym.st_info) == STT_SECTION) {
461 sym->name = sym->sec->name;
462 sym->sec->sym = sym;
463 }
464 } else
465 sym->sec = find_section_by_index(elf, 0);
466
467 elf_add_symbol(elf, sym);
468 }
469
470 if (opts.stats) {
471 printf("nr_symbols: %lu\n", (unsigned long)symbols_nr);
472 printf("symbol_bits: %d\n", elf->symbol_bits);
473 }
474
475 /* Create parent/child links for any cold subfunctions */
476 list_for_each_entry(sec, &elf->sections, list) {
477 list_for_each_entry(sym, &sec->symbol_list, list) {
478 char pname[MAX_NAME_LEN + 1];
479 size_t pnamelen;
480 if (sym->type != STT_FUNC)
481 continue;
482
483 if (sym->pfunc == NULL)
484 sym->pfunc = sym;
485
486 if (sym->cfunc == NULL)
487 sym->cfunc = sym;
488
489 coldstr = strstr(sym->name, ".cold");
490 if (!coldstr)
491 continue;
492
493 pnamelen = coldstr - sym->name;
494 if (pnamelen > MAX_NAME_LEN) {
495 WARN("%s(): parent function name exceeds maximum length of %d characters",
496 sym->name, MAX_NAME_LEN);
497 return -1;
498 }
499
500 strncpy(pname, sym->name, pnamelen);
501 pname[pnamelen] = '\0';
502 pfunc = find_symbol_by_name(elf, pname);
503
504 if (!pfunc) {
505 WARN("%s(): can't find parent function",
506 sym->name);
507 return -1;
508 }
509
510 sym->pfunc = pfunc;
511 pfunc->cfunc = sym;
512
513 /*
514 * Unfortunately, -fnoreorder-functions puts the child
515 * inside the parent. Remove the overlap so we can
516 * have sane assumptions.
517 *
518 * Note that pfunc->len now no longer matches
519 * pfunc->sym.st_size.
520 */
521 if (sym->sec == pfunc->sec &&
522 sym->offset >= pfunc->offset &&
523 sym->offset + sym->len == pfunc->offset + pfunc->len) {
524 pfunc->len -= sym->len;
525 }
526 }
527 }
528
529 return 0;
530
531err:
532 free(sym);
533 return -1;
534}
535
536static struct section *elf_create_reloc_section(struct elf *elf,
537 struct section *base,
538 int reltype);
539
540int elf_add_reloc(struct elf *elf, struct section *sec, unsigned long offset,
541 unsigned int type, struct symbol *sym, s64 addend)
542{
543 struct reloc *reloc;
544
545 if (!sec->reloc && !elf_create_reloc_section(elf, sec, SHT_RELA))
546 return -1;
547
548 reloc = malloc(sizeof(*reloc));
549 if (!reloc) {
550 perror("malloc");
551 return -1;
552 }
553 memset(reloc, 0, sizeof(*reloc));
554
555 reloc->sec = sec->reloc;
556 reloc->offset = offset;
557 reloc->type = type;
558 reloc->sym = sym;
559 reloc->addend = addend;
560
561 list_add_tail(&reloc->sym_reloc_entry, &sym->reloc_list);
562 list_add_tail(&reloc->list, &sec->reloc->reloc_list);
563 elf_hash_add(reloc, &reloc->hash, reloc_hash(reloc));
564
565 sec->reloc->sh.sh_size += sec->reloc->sh.sh_entsize;
566 sec->reloc->changed = true;
567
568 return 0;
569}
570
571/*
572 * Ensure that any reloc section containing references to @sym is marked
573 * changed such that it will get re-generated in elf_rebuild_reloc_sections()
574 * with the new symbol index.
575 */
576static void elf_dirty_reloc_sym(struct elf *elf, struct symbol *sym)
577{
578 struct reloc *reloc;
579
580 list_for_each_entry(reloc, &sym->reloc_list, sym_reloc_entry)
581 reloc->sec->changed = true;
582}
583
584/*
585 * The libelf API is terrible; gelf_update_sym*() takes a data block relative
586 * index value, *NOT* the symbol index. As such, iterate the data blocks and
587 * adjust index until it fits.
588 *
589 * If no data block is found, allow adding a new data block provided the index
590 * is only one past the end.
591 */
592static int elf_update_symbol(struct elf *elf, struct section *symtab,
593 struct section *symtab_shndx, struct symbol *sym)
594{
595 Elf32_Word shndx = sym->sec ? sym->sec->idx : SHN_UNDEF;
596 Elf_Data *symtab_data = NULL, *shndx_data = NULL;
597 Elf64_Xword entsize = symtab->sh.sh_entsize;
598 int max_idx, idx = sym->idx;
599 Elf_Scn *s, *t = NULL;
600 bool is_special_shndx = sym->sym.st_shndx >= SHN_LORESERVE &&
601 sym->sym.st_shndx != SHN_XINDEX;
602
603 if (is_special_shndx)
604 shndx = sym->sym.st_shndx;
605
606 s = elf_getscn(elf->elf, symtab->idx);
607 if (!s) {
608 WARN_ELF("elf_getscn");
609 return -1;
610 }
611
612 if (symtab_shndx) {
613 t = elf_getscn(elf->elf, symtab_shndx->idx);
614 if (!t) {
615 WARN_ELF("elf_getscn");
616 return -1;
617 }
618 }
619
620 for (;;) {
621 /* get next data descriptor for the relevant sections */
622 symtab_data = elf_getdata(s, symtab_data);
623 if (t)
624 shndx_data = elf_getdata(t, shndx_data);
625
626 /* end-of-list */
627 if (!symtab_data) {
628 /*
629 * Over-allocate to avoid O(n^2) symbol creation
630 * behaviour. The down side is that libelf doesn't
631 * like this; see elf_truncate_section() for the fixup.
632 */
633 int num = max(1U, sym->idx/3);
634 void *buf;
635
636 if (idx) {
637 /* we don't do holes in symbol tables */
638 WARN("index out of range");
639 return -1;
640 }
641
642 /* if @idx == 0, it's the next contiguous entry, create it */
643 symtab_data = elf_newdata(s);
644 if (t)
645 shndx_data = elf_newdata(t);
646
647 buf = calloc(num, entsize);
648 if (!buf) {
649 WARN("malloc");
650 return -1;
651 }
652
653 symtab_data->d_buf = buf;
654 symtab_data->d_size = num * entsize;
655 symtab_data->d_align = 1;
656 symtab_data->d_type = ELF_T_SYM;
657
658 symtab->changed = true;
659 symtab->truncate = true;
660
661 if (t) {
662 buf = calloc(num, sizeof(Elf32_Word));
663 if (!buf) {
664 WARN("malloc");
665 return -1;
666 }
667
668 shndx_data->d_buf = buf;
669 shndx_data->d_size = num * sizeof(Elf32_Word);
670 shndx_data->d_align = sizeof(Elf32_Word);
671 shndx_data->d_type = ELF_T_WORD;
672
673 symtab_shndx->changed = true;
674 symtab_shndx->truncate = true;
675 }
676
677 break;
678 }
679
680 /* empty blocks should not happen */
681 if (!symtab_data->d_size) {
682 WARN("zero size data");
683 return -1;
684 }
685
686 /* is this the right block? */
687 max_idx = symtab_data->d_size / entsize;
688 if (idx < max_idx)
689 break;
690
691 /* adjust index and try again */
692 idx -= max_idx;
693 }
694
695 /* something went side-ways */
696 if (idx < 0) {
697 WARN("negative index");
698 return -1;
699 }
700
701 /* setup extended section index magic and write the symbol */
702 if ((shndx >= SHN_UNDEF && shndx < SHN_LORESERVE) || is_special_shndx) {
703 sym->sym.st_shndx = shndx;
704 if (!shndx_data)
705 shndx = 0;
706 } else {
707 sym->sym.st_shndx = SHN_XINDEX;
708 if (!shndx_data) {
709 WARN("no .symtab_shndx");
710 return -1;
711 }
712 }
713
714 if (!gelf_update_symshndx(symtab_data, shndx_data, idx, &sym->sym, shndx)) {
715 WARN_ELF("gelf_update_symshndx");
716 return -1;
717 }
718
719 return 0;
720}
721
722static struct symbol *
723__elf_create_symbol(struct elf *elf, struct symbol *sym)
724{
725 struct section *symtab, *symtab_shndx;
726 Elf32_Word first_non_local, new_idx;
727 struct symbol *old;
728
729 symtab = find_section_by_name(elf, ".symtab");
730 if (symtab) {
731 symtab_shndx = find_section_by_name(elf, ".symtab_shndx");
732 } else {
733 WARN("no .symtab");
734 return NULL;
735 }
736
737 new_idx = symtab->sh.sh_size / symtab->sh.sh_entsize;
738
739 if (GELF_ST_BIND(sym->sym.st_info) != STB_LOCAL)
740 goto non_local;
741
742 /*
743 * Move the first global symbol, as per sh_info, into a new, higher
744 * symbol index. This fees up a spot for a new local symbol.
745 */
746 first_non_local = symtab->sh.sh_info;
747 old = find_symbol_by_index(elf, first_non_local);
748 if (old) {
749 old->idx = new_idx;
750
751 hlist_del(&old->hash);
752 elf_hash_add(symbol, &old->hash, old->idx);
753
754 elf_dirty_reloc_sym(elf, old);
755
756 if (elf_update_symbol(elf, symtab, symtab_shndx, old)) {
757 WARN("elf_update_symbol move");
758 return NULL;
759 }
760
761 new_idx = first_non_local;
762 }
763
764 /*
765 * Either way, we will add a LOCAL symbol.
766 */
767 symtab->sh.sh_info += 1;
768
769non_local:
770 sym->idx = new_idx;
771 if (elf_update_symbol(elf, symtab, symtab_shndx, sym)) {
772 WARN("elf_update_symbol");
773 return NULL;
774 }
775
776 symtab->sh.sh_size += symtab->sh.sh_entsize;
777 symtab->changed = true;
778
779 if (symtab_shndx) {
780 symtab_shndx->sh.sh_size += sizeof(Elf32_Word);
781 symtab_shndx->changed = true;
782 }
783
784 return sym;
785}
786
787static struct symbol *
788elf_create_section_symbol(struct elf *elf, struct section *sec)
789{
790 struct symbol *sym = calloc(1, sizeof(*sym));
791
792 if (!sym) {
793 perror("malloc");
794 return NULL;
795 }
796
797 sym->name = sec->name;
798 sym->sec = sec;
799
800 // st_name 0
801 sym->sym.st_info = GELF_ST_INFO(STB_LOCAL, STT_SECTION);
802 // st_other 0
803 // st_value 0
804 // st_size 0
805
806 sym = __elf_create_symbol(elf, sym);
807 if (sym)
808 elf_add_symbol(elf, sym);
809
810 return sym;
811}
812
813static int elf_add_string(struct elf *elf, struct section *strtab, char *str);
814
815struct symbol *
816elf_create_prefix_symbol(struct elf *elf, struct symbol *orig, long size)
817{
818 struct symbol *sym = calloc(1, sizeof(*sym));
819 size_t namelen = strlen(orig->name) + sizeof("__pfx_");
820 char *name = malloc(namelen);
821
822 if (!sym || !name) {
823 perror("malloc");
824 return NULL;
825 }
826
827 snprintf(name, namelen, "__pfx_%s", orig->name);
828
829 sym->name = name;
830 sym->sec = orig->sec;
831
832 sym->sym.st_name = elf_add_string(elf, NULL, name);
833 sym->sym.st_info = orig->sym.st_info;
834 sym->sym.st_value = orig->sym.st_value - size;
835 sym->sym.st_size = size;
836
837 sym = __elf_create_symbol(elf, sym);
838 if (sym)
839 elf_add_symbol(elf, sym);
840
841 return sym;
842}
843
844int elf_add_reloc_to_insn(struct elf *elf, struct section *sec,
845 unsigned long offset, unsigned int type,
846 struct section *insn_sec, unsigned long insn_off)
847{
848 struct symbol *sym = insn_sec->sym;
849 int addend = insn_off;
850
851 if (!sym) {
852 /*
853 * Due to how weak functions work, we must use section based
854 * relocations. Symbol based relocations would result in the
855 * weak and non-weak function annotations being overlaid on the
856 * non-weak function after linking.
857 */
858 sym = elf_create_section_symbol(elf, insn_sec);
859 if (!sym)
860 return -1;
861
862 insn_sec->sym = sym;
863 }
864
865 return elf_add_reloc(elf, sec, offset, type, sym, addend);
866}
867
868static int read_rel_reloc(struct section *sec, int i, struct reloc *reloc, unsigned int *symndx)
869{
870 if (!gelf_getrel(sec->data, i, &reloc->rel)) {
871 WARN_ELF("gelf_getrel");
872 return -1;
873 }
874 reloc->type = GELF_R_TYPE(reloc->rel.r_info);
875 reloc->addend = 0;
876 reloc->offset = reloc->rel.r_offset;
877 *symndx = GELF_R_SYM(reloc->rel.r_info);
878 return 0;
879}
880
881static int read_rela_reloc(struct section *sec, int i, struct reloc *reloc, unsigned int *symndx)
882{
883 if (!gelf_getrela(sec->data, i, &reloc->rela)) {
884 WARN_ELF("gelf_getrela");
885 return -1;
886 }
887 reloc->type = GELF_R_TYPE(reloc->rela.r_info);
888 reloc->addend = reloc->rela.r_addend;
889 reloc->offset = reloc->rela.r_offset;
890 *symndx = GELF_R_SYM(reloc->rela.r_info);
891 return 0;
892}
893
894static int read_relocs(struct elf *elf)
895{
896 unsigned long nr_reloc, max_reloc = 0, tot_reloc = 0;
897 struct section *sec;
898 struct reloc *reloc;
899 unsigned int symndx;
900 struct symbol *sym;
901 int i;
902
903 if (!elf_alloc_hash(reloc, elf->text_size / 16))
904 return -1;
905
906 list_for_each_entry(sec, &elf->sections, list) {
907 if ((sec->sh.sh_type != SHT_RELA) &&
908 (sec->sh.sh_type != SHT_REL))
909 continue;
910
911 sec->base = find_section_by_index(elf, sec->sh.sh_info);
912 if (!sec->base) {
913 WARN("can't find base section for reloc section %s",
914 sec->name);
915 return -1;
916 }
917
918 sec->base->reloc = sec;
919
920 nr_reloc = 0;
921 for (i = 0; i < sec->sh.sh_size / sec->sh.sh_entsize; i++) {
922 reloc = malloc(sizeof(*reloc));
923 if (!reloc) {
924 perror("malloc");
925 return -1;
926 }
927 memset(reloc, 0, sizeof(*reloc));
928 switch (sec->sh.sh_type) {
929 case SHT_REL:
930 if (read_rel_reloc(sec, i, reloc, &symndx))
931 return -1;
932 break;
933 case SHT_RELA:
934 if (read_rela_reloc(sec, i, reloc, &symndx))
935 return -1;
936 break;
937 default: return -1;
938 }
939
940 reloc->sec = sec;
941 reloc->idx = i;
942 reloc->sym = sym = find_symbol_by_index(elf, symndx);
943 if (!reloc->sym) {
944 WARN("can't find reloc entry symbol %d for %s",
945 symndx, sec->name);
946 return -1;
947 }
948
949 list_add_tail(&reloc->sym_reloc_entry, &sym->reloc_list);
950 list_add_tail(&reloc->list, &sec->reloc_list);
951 elf_hash_add(reloc, &reloc->hash, reloc_hash(reloc));
952
953 nr_reloc++;
954 }
955 max_reloc = max(max_reloc, nr_reloc);
956 tot_reloc += nr_reloc;
957 }
958
959 if (opts.stats) {
960 printf("max_reloc: %lu\n", max_reloc);
961 printf("tot_reloc: %lu\n", tot_reloc);
962 printf("reloc_bits: %d\n", elf->reloc_bits);
963 }
964
965 return 0;
966}
967
968struct elf *elf_open_read(const char *name, int flags)
969{
970 struct elf *elf;
971 Elf_Cmd cmd;
972
973 elf_version(EV_CURRENT);
974
975 elf = malloc(sizeof(*elf));
976 if (!elf) {
977 perror("malloc");
978 return NULL;
979 }
980 memset(elf, 0, offsetof(struct elf, sections));
981
982 INIT_LIST_HEAD(&elf->sections);
983
984 elf->fd = open(name, flags);
985 if (elf->fd == -1) {
986 fprintf(stderr, "objtool: Can't open '%s': %s\n",
987 name, strerror(errno));
988 goto err;
989 }
990
991 if ((flags & O_ACCMODE) == O_RDONLY)
992 cmd = ELF_C_READ_MMAP;
993 else if ((flags & O_ACCMODE) == O_RDWR)
994 cmd = ELF_C_RDWR;
995 else /* O_WRONLY */
996 cmd = ELF_C_WRITE;
997
998 elf->elf = elf_begin(elf->fd, cmd, NULL);
999 if (!elf->elf) {
1000 WARN_ELF("elf_begin");
1001 goto err;
1002 }
1003
1004 if (!gelf_getehdr(elf->elf, &elf->ehdr)) {
1005 WARN_ELF("gelf_getehdr");
1006 goto err;
1007 }
1008
1009 if (read_sections(elf))
1010 goto err;
1011
1012 if (read_symbols(elf))
1013 goto err;
1014
1015 if (read_relocs(elf))
1016 goto err;
1017
1018 return elf;
1019
1020err:
1021 elf_close(elf);
1022 return NULL;
1023}
1024
1025static int elf_add_string(struct elf *elf, struct section *strtab, char *str)
1026{
1027 Elf_Data *data;
1028 Elf_Scn *s;
1029 int len;
1030
1031 if (!strtab)
1032 strtab = find_section_by_name(elf, ".strtab");
1033 if (!strtab) {
1034 WARN("can't find .strtab section");
1035 return -1;
1036 }
1037
1038 s = elf_getscn(elf->elf, strtab->idx);
1039 if (!s) {
1040 WARN_ELF("elf_getscn");
1041 return -1;
1042 }
1043
1044 data = elf_newdata(s);
1045 if (!data) {
1046 WARN_ELF("elf_newdata");
1047 return -1;
1048 }
1049
1050 data->d_buf = str;
1051 data->d_size = strlen(str) + 1;
1052 data->d_align = 1;
1053
1054 len = strtab->sh.sh_size;
1055 strtab->sh.sh_size += data->d_size;
1056 strtab->changed = true;
1057
1058 return len;
1059}
1060
1061struct section *elf_create_section(struct elf *elf, const char *name,
1062 unsigned int sh_flags, size_t entsize, int nr)
1063{
1064 struct section *sec, *shstrtab;
1065 size_t size = entsize * nr;
1066 Elf_Scn *s;
1067
1068 sec = malloc(sizeof(*sec));
1069 if (!sec) {
1070 perror("malloc");
1071 return NULL;
1072 }
1073 memset(sec, 0, sizeof(*sec));
1074
1075 INIT_LIST_HEAD(&sec->symbol_list);
1076 INIT_LIST_HEAD(&sec->reloc_list);
1077
1078 s = elf_newscn(elf->elf);
1079 if (!s) {
1080 WARN_ELF("elf_newscn");
1081 return NULL;
1082 }
1083
1084 sec->name = strdup(name);
1085 if (!sec->name) {
1086 perror("strdup");
1087 return NULL;
1088 }
1089
1090 sec->idx = elf_ndxscn(s);
1091 sec->changed = true;
1092
1093 sec->data = elf_newdata(s);
1094 if (!sec->data) {
1095 WARN_ELF("elf_newdata");
1096 return NULL;
1097 }
1098
1099 sec->data->d_size = size;
1100 sec->data->d_align = 1;
1101
1102 if (size) {
1103 sec->data->d_buf = malloc(size);
1104 if (!sec->data->d_buf) {
1105 perror("malloc");
1106 return NULL;
1107 }
1108 memset(sec->data->d_buf, 0, size);
1109 }
1110
1111 if (!gelf_getshdr(s, &sec->sh)) {
1112 WARN_ELF("gelf_getshdr");
1113 return NULL;
1114 }
1115
1116 sec->sh.sh_size = size;
1117 sec->sh.sh_entsize = entsize;
1118 sec->sh.sh_type = SHT_PROGBITS;
1119 sec->sh.sh_addralign = 1;
1120 sec->sh.sh_flags = SHF_ALLOC | sh_flags;
1121
1122 /* Add section name to .shstrtab (or .strtab for Clang) */
1123 shstrtab = find_section_by_name(elf, ".shstrtab");
1124 if (!shstrtab)
1125 shstrtab = find_section_by_name(elf, ".strtab");
1126 if (!shstrtab) {
1127 WARN("can't find .shstrtab or .strtab section");
1128 return NULL;
1129 }
1130 sec->sh.sh_name = elf_add_string(elf, shstrtab, sec->name);
1131 if (sec->sh.sh_name == -1)
1132 return NULL;
1133
1134 list_add_tail(&sec->list, &elf->sections);
1135 elf_hash_add(section, &sec->hash, sec->idx);
1136 elf_hash_add(section_name, &sec->name_hash, str_hash(sec->name));
1137
1138 elf->changed = true;
1139
1140 return sec;
1141}
1142
1143static struct section *elf_create_rel_reloc_section(struct elf *elf, struct section *base)
1144{
1145 char *relocname;
1146 struct section *sec;
1147
1148 relocname = malloc(strlen(base->name) + strlen(".rel") + 1);
1149 if (!relocname) {
1150 perror("malloc");
1151 return NULL;
1152 }
1153 strcpy(relocname, ".rel");
1154 strcat(relocname, base->name);
1155
1156 sec = elf_create_section(elf, relocname, 0, sizeof(GElf_Rel), 0);
1157 free(relocname);
1158 if (!sec)
1159 return NULL;
1160
1161 base->reloc = sec;
1162 sec->base = base;
1163
1164 sec->sh.sh_type = SHT_REL;
1165 sec->sh.sh_addralign = 8;
1166 sec->sh.sh_link = find_section_by_name(elf, ".symtab")->idx;
1167 sec->sh.sh_info = base->idx;
1168 sec->sh.sh_flags = SHF_INFO_LINK;
1169
1170 return sec;
1171}
1172
1173static struct section *elf_create_rela_reloc_section(struct elf *elf, struct section *base)
1174{
1175 char *relocname;
1176 struct section *sec;
1177 int addrsize = elf_class_addrsize(elf);
1178
1179 relocname = malloc(strlen(base->name) + strlen(".rela") + 1);
1180 if (!relocname) {
1181 perror("malloc");
1182 return NULL;
1183 }
1184 strcpy(relocname, ".rela");
1185 strcat(relocname, base->name);
1186
1187 if (addrsize == sizeof(u32))
1188 sec = elf_create_section(elf, relocname, 0, sizeof(Elf32_Rela), 0);
1189 else
1190 sec = elf_create_section(elf, relocname, 0, sizeof(GElf_Rela), 0);
1191 free(relocname);
1192 if (!sec)
1193 return NULL;
1194
1195 base->reloc = sec;
1196 sec->base = base;
1197
1198 sec->sh.sh_type = SHT_RELA;
1199 sec->sh.sh_addralign = addrsize;
1200 sec->sh.sh_link = find_section_by_name(elf, ".symtab")->idx;
1201 sec->sh.sh_info = base->idx;
1202 sec->sh.sh_flags = SHF_INFO_LINK;
1203
1204 return sec;
1205}
1206
1207static struct section *elf_create_reloc_section(struct elf *elf,
1208 struct section *base,
1209 int reltype)
1210{
1211 switch (reltype) {
1212 case SHT_REL: return elf_create_rel_reloc_section(elf, base);
1213 case SHT_RELA: return elf_create_rela_reloc_section(elf, base);
1214 default: return NULL;
1215 }
1216}
1217
1218static int elf_rebuild_rel_reloc_section(struct section *sec)
1219{
1220 struct reloc *reloc;
1221 int idx = 0;
1222 void *buf;
1223
1224 /* Allocate a buffer for relocations */
1225 buf = malloc(sec->sh.sh_size);
1226 if (!buf) {
1227 perror("malloc");
1228 return -1;
1229 }
1230
1231 sec->data->d_buf = buf;
1232 sec->data->d_size = sec->sh.sh_size;
1233 sec->data->d_type = ELF_T_REL;
1234
1235 idx = 0;
1236 list_for_each_entry(reloc, &sec->reloc_list, list) {
1237 reloc->rel.r_offset = reloc->offset;
1238 reloc->rel.r_info = GELF_R_INFO(reloc->sym->idx, reloc->type);
1239 if (!gelf_update_rel(sec->data, idx, &reloc->rel)) {
1240 WARN_ELF("gelf_update_rel");
1241 return -1;
1242 }
1243 idx++;
1244 }
1245
1246 return 0;
1247}
1248
1249static int elf_rebuild_rela_reloc_section(struct section *sec)
1250{
1251 struct reloc *reloc;
1252 int idx = 0;
1253 void *buf;
1254
1255 /* Allocate a buffer for relocations with addends */
1256 buf = malloc(sec->sh.sh_size);
1257 if (!buf) {
1258 perror("malloc");
1259 return -1;
1260 }
1261
1262 sec->data->d_buf = buf;
1263 sec->data->d_size = sec->sh.sh_size;
1264 sec->data->d_type = ELF_T_RELA;
1265
1266 idx = 0;
1267 list_for_each_entry(reloc, &sec->reloc_list, list) {
1268 reloc->rela.r_offset = reloc->offset;
1269 reloc->rela.r_addend = reloc->addend;
1270 reloc->rela.r_info = GELF_R_INFO(reloc->sym->idx, reloc->type);
1271 if (!gelf_update_rela(sec->data, idx, &reloc->rela)) {
1272 WARN_ELF("gelf_update_rela");
1273 return -1;
1274 }
1275 idx++;
1276 }
1277
1278 return 0;
1279}
1280
1281static int elf_rebuild_reloc_section(struct elf *elf, struct section *sec)
1282{
1283 switch (sec->sh.sh_type) {
1284 case SHT_REL: return elf_rebuild_rel_reloc_section(sec);
1285 case SHT_RELA: return elf_rebuild_rela_reloc_section(sec);
1286 default: return -1;
1287 }
1288}
1289
1290int elf_write_insn(struct elf *elf, struct section *sec,
1291 unsigned long offset, unsigned int len,
1292 const char *insn)
1293{
1294 Elf_Data *data = sec->data;
1295
1296 if (data->d_type != ELF_T_BYTE || data->d_off) {
1297 WARN("write to unexpected data for section: %s", sec->name);
1298 return -1;
1299 }
1300
1301 memcpy(data->d_buf + offset, insn, len);
1302 elf_flagdata(data, ELF_C_SET, ELF_F_DIRTY);
1303
1304 elf->changed = true;
1305
1306 return 0;
1307}
1308
1309int elf_write_reloc(struct elf *elf, struct reloc *reloc)
1310{
1311 struct section *sec = reloc->sec;
1312
1313 if (sec->sh.sh_type == SHT_REL) {
1314 reloc->rel.r_info = GELF_R_INFO(reloc->sym->idx, reloc->type);
1315 reloc->rel.r_offset = reloc->offset;
1316
1317 if (!gelf_update_rel(sec->data, reloc->idx, &reloc->rel)) {
1318 WARN_ELF("gelf_update_rel");
1319 return -1;
1320 }
1321 } else {
1322 reloc->rela.r_info = GELF_R_INFO(reloc->sym->idx, reloc->type);
1323 reloc->rela.r_addend = reloc->addend;
1324 reloc->rela.r_offset = reloc->offset;
1325
1326 if (!gelf_update_rela(sec->data, reloc->idx, &reloc->rela)) {
1327 WARN_ELF("gelf_update_rela");
1328 return -1;
1329 }
1330 }
1331
1332 elf->changed = true;
1333
1334 return 0;
1335}
1336
1337/*
1338 * When Elf_Scn::sh_size is smaller than the combined Elf_Data::d_size
1339 * do you:
1340 *
1341 * A) adhere to the section header and truncate the data, or
1342 * B) ignore the section header and write out all the data you've got?
1343 *
1344 * Yes, libelf sucks and we need to manually truncate if we over-allocate data.
1345 */
1346static int elf_truncate_section(struct elf *elf, struct section *sec)
1347{
1348 u64 size = sec->sh.sh_size;
1349 bool truncated = false;
1350 Elf_Data *data = NULL;
1351 Elf_Scn *s;
1352
1353 s = elf_getscn(elf->elf, sec->idx);
1354 if (!s) {
1355 WARN_ELF("elf_getscn");
1356 return -1;
1357 }
1358
1359 for (;;) {
1360 /* get next data descriptor for the relevant section */
1361 data = elf_getdata(s, data);
1362
1363 if (!data) {
1364 if (size) {
1365 WARN("end of section data but non-zero size left\n");
1366 return -1;
1367 }
1368 return 0;
1369 }
1370
1371 if (truncated) {
1372 /* when we remove symbols */
1373 WARN("truncated; but more data\n");
1374 return -1;
1375 }
1376
1377 if (!data->d_size) {
1378 WARN("zero size data");
1379 return -1;
1380 }
1381
1382 if (data->d_size > size) {
1383 truncated = true;
1384 data->d_size = size;
1385 }
1386
1387 size -= data->d_size;
1388 }
1389}
1390
1391int elf_write(struct elf *elf)
1392{
1393 struct section *sec;
1394 Elf_Scn *s;
1395
1396 if (opts.dryrun)
1397 return 0;
1398
1399 /* Update changed relocation sections and section headers: */
1400 list_for_each_entry(sec, &elf->sections, list) {
1401 if (sec->truncate)
1402 elf_truncate_section(elf, sec);
1403
1404 if (sec->changed) {
1405 s = elf_getscn(elf->elf, sec->idx);
1406 if (!s) {
1407 WARN_ELF("elf_getscn");
1408 return -1;
1409 }
1410 if (!gelf_update_shdr(s, &sec->sh)) {
1411 WARN_ELF("gelf_update_shdr");
1412 return -1;
1413 }
1414
1415 if (sec->base &&
1416 elf_rebuild_reloc_section(elf, sec)) {
1417 WARN("elf_rebuild_reloc_section");
1418 return -1;
1419 }
1420
1421 sec->changed = false;
1422 elf->changed = true;
1423 }
1424 }
1425
1426 /* Make sure the new section header entries get updated properly. */
1427 elf_flagelf(elf->elf, ELF_C_SET, ELF_F_DIRTY);
1428
1429 /* Write all changes to the file. */
1430 if (elf_update(elf->elf, ELF_C_WRITE) < 0) {
1431 WARN_ELF("elf_update");
1432 return -1;
1433 }
1434
1435 elf->changed = false;
1436
1437 return 0;
1438}
1439
1440void elf_close(struct elf *elf)
1441{
1442 struct section *sec, *tmpsec;
1443 struct symbol *sym, *tmpsym;
1444 struct reloc *reloc, *tmpreloc;
1445
1446 if (elf->elf)
1447 elf_end(elf->elf);
1448
1449 if (elf->fd > 0)
1450 close(elf->fd);
1451
1452 list_for_each_entry_safe(sec, tmpsec, &elf->sections, list) {
1453 list_for_each_entry_safe(sym, tmpsym, &sec->symbol_list, list) {
1454 list_del(&sym->list);
1455 hash_del(&sym->hash);
1456 free(sym);
1457 }
1458 list_for_each_entry_safe(reloc, tmpreloc, &sec->reloc_list, list) {
1459 list_del(&reloc->list);
1460 hash_del(&reloc->hash);
1461 free(reloc);
1462 }
1463 list_del(&sec->list);
1464 free(sec);
1465 }
1466
1467 free(elf);
1468}
1// SPDX-License-Identifier: GPL-2.0-or-later
2/*
3 * elf.c - ELF access library
4 *
5 * Adapted from kpatch (https://github.com/dynup/kpatch):
6 * Copyright (C) 2013-2015 Josh Poimboeuf <jpoimboe@redhat.com>
7 * Copyright (C) 2014 Seth Jennings <sjenning@redhat.com>
8 */
9
10#include <sys/types.h>
11#include <sys/stat.h>
12#include <fcntl.h>
13#include <stdio.h>
14#include <stdlib.h>
15#include <string.h>
16#include <unistd.h>
17#include <errno.h>
18#include "builtin.h"
19
20#include "elf.h"
21#include "warn.h"
22
23#define MAX_NAME_LEN 128
24
25static inline u32 str_hash(const char *str)
26{
27 return jhash(str, strlen(str), 0);
28}
29
30static inline int elf_hash_bits(void)
31{
32 return vmlinux ? ELF_HASH_BITS : 16;
33}
34
35#define elf_hash_add(hashtable, node, key) \
36 hlist_add_head(node, &hashtable[hash_min(key, elf_hash_bits())])
37
38static void elf_hash_init(struct hlist_head *table)
39{
40 __hash_init(table, 1U << elf_hash_bits());
41}
42
43#define elf_hash_for_each_possible(name, obj, member, key) \
44 hlist_for_each_entry(obj, &name[hash_min(key, elf_hash_bits())], member)
45
46static void rb_add(struct rb_root *tree, struct rb_node *node,
47 int (*cmp)(struct rb_node *, const struct rb_node *))
48{
49 struct rb_node **link = &tree->rb_node;
50 struct rb_node *parent = NULL;
51
52 while (*link) {
53 parent = *link;
54 if (cmp(node, parent) < 0)
55 link = &parent->rb_left;
56 else
57 link = &parent->rb_right;
58 }
59
60 rb_link_node(node, parent, link);
61 rb_insert_color(node, tree);
62}
63
64static struct rb_node *rb_find_first(const struct rb_root *tree, const void *key,
65 int (*cmp)(const void *key, const struct rb_node *))
66{
67 struct rb_node *node = tree->rb_node;
68 struct rb_node *match = NULL;
69
70 while (node) {
71 int c = cmp(key, node);
72 if (c <= 0) {
73 if (!c)
74 match = node;
75 node = node->rb_left;
76 } else if (c > 0) {
77 node = node->rb_right;
78 }
79 }
80
81 return match;
82}
83
84static struct rb_node *rb_next_match(struct rb_node *node, const void *key,
85 int (*cmp)(const void *key, const struct rb_node *))
86{
87 node = rb_next(node);
88 if (node && cmp(key, node))
89 node = NULL;
90 return node;
91}
92
93#define rb_for_each(tree, node, key, cmp) \
94 for ((node) = rb_find_first((tree), (key), (cmp)); \
95 (node); (node) = rb_next_match((node), (key), (cmp)))
96
97static int symbol_to_offset(struct rb_node *a, const struct rb_node *b)
98{
99 struct symbol *sa = rb_entry(a, struct symbol, node);
100 struct symbol *sb = rb_entry(b, struct symbol, node);
101
102 if (sa->offset < sb->offset)
103 return -1;
104 if (sa->offset > sb->offset)
105 return 1;
106
107 if (sa->len < sb->len)
108 return -1;
109 if (sa->len > sb->len)
110 return 1;
111
112 sa->alias = sb;
113
114 return 0;
115}
116
117static int symbol_by_offset(const void *key, const struct rb_node *node)
118{
119 const struct symbol *s = rb_entry(node, struct symbol, node);
120 const unsigned long *o = key;
121
122 if (*o < s->offset)
123 return -1;
124 if (*o >= s->offset + s->len)
125 return 1;
126
127 return 0;
128}
129
130struct section *find_section_by_name(const struct elf *elf, const char *name)
131{
132 struct section *sec;
133
134 elf_hash_for_each_possible(elf->section_name_hash, sec, name_hash, str_hash(name))
135 if (!strcmp(sec->name, name))
136 return sec;
137
138 return NULL;
139}
140
141static struct section *find_section_by_index(struct elf *elf,
142 unsigned int idx)
143{
144 struct section *sec;
145
146 elf_hash_for_each_possible(elf->section_hash, sec, hash, idx)
147 if (sec->idx == idx)
148 return sec;
149
150 return NULL;
151}
152
153static struct symbol *find_symbol_by_index(struct elf *elf, unsigned int idx)
154{
155 struct symbol *sym;
156
157 elf_hash_for_each_possible(elf->symbol_hash, sym, hash, idx)
158 if (sym->idx == idx)
159 return sym;
160
161 return NULL;
162}
163
164struct symbol *find_symbol_by_offset(struct section *sec, unsigned long offset)
165{
166 struct rb_node *node;
167
168 rb_for_each(&sec->symbol_tree, node, &offset, symbol_by_offset) {
169 struct symbol *s = rb_entry(node, struct symbol, node);
170
171 if (s->offset == offset && s->type != STT_SECTION)
172 return s;
173 }
174
175 return NULL;
176}
177
178struct symbol *find_func_by_offset(struct section *sec, unsigned long offset)
179{
180 struct rb_node *node;
181
182 rb_for_each(&sec->symbol_tree, node, &offset, symbol_by_offset) {
183 struct symbol *s = rb_entry(node, struct symbol, node);
184
185 if (s->offset == offset && s->type == STT_FUNC)
186 return s;
187 }
188
189 return NULL;
190}
191
192struct symbol *find_symbol_containing(const struct section *sec, unsigned long offset)
193{
194 struct rb_node *node;
195
196 rb_for_each(&sec->symbol_tree, node, &offset, symbol_by_offset) {
197 struct symbol *s = rb_entry(node, struct symbol, node);
198
199 if (s->type != STT_SECTION)
200 return s;
201 }
202
203 return NULL;
204}
205
206struct symbol *find_func_containing(struct section *sec, unsigned long offset)
207{
208 struct rb_node *node;
209
210 rb_for_each(&sec->symbol_tree, node, &offset, symbol_by_offset) {
211 struct symbol *s = rb_entry(node, struct symbol, node);
212
213 if (s->type == STT_FUNC)
214 return s;
215 }
216
217 return NULL;
218}
219
220struct symbol *find_symbol_by_name(const struct elf *elf, const char *name)
221{
222 struct symbol *sym;
223
224 elf_hash_for_each_possible(elf->symbol_name_hash, sym, name_hash, str_hash(name))
225 if (!strcmp(sym->name, name))
226 return sym;
227
228 return NULL;
229}
230
231struct reloc *find_reloc_by_dest_range(const struct elf *elf, struct section *sec,
232 unsigned long offset, unsigned int len)
233{
234 struct reloc *reloc, *r = NULL;
235 unsigned long o;
236
237 if (!sec->reloc)
238 return NULL;
239
240 sec = sec->reloc;
241
242 for_offset_range(o, offset, offset + len) {
243 elf_hash_for_each_possible(elf->reloc_hash, reloc, hash,
244 sec_offset_hash(sec, o)) {
245 if (reloc->sec != sec)
246 continue;
247
248 if (reloc->offset >= offset && reloc->offset < offset + len) {
249 if (!r || reloc->offset < r->offset)
250 r = reloc;
251 }
252 }
253 if (r)
254 return r;
255 }
256
257 return NULL;
258}
259
260struct reloc *find_reloc_by_dest(const struct elf *elf, struct section *sec, unsigned long offset)
261{
262 return find_reloc_by_dest_range(elf, sec, offset, 1);
263}
264
265static int read_sections(struct elf *elf)
266{
267 Elf_Scn *s = NULL;
268 struct section *sec;
269 size_t shstrndx, sections_nr;
270 int i;
271
272 if (elf_getshdrnum(elf->elf, §ions_nr)) {
273 WARN_ELF("elf_getshdrnum");
274 return -1;
275 }
276
277 if (elf_getshdrstrndx(elf->elf, &shstrndx)) {
278 WARN_ELF("elf_getshdrstrndx");
279 return -1;
280 }
281
282 for (i = 0; i < sections_nr; i++) {
283 sec = malloc(sizeof(*sec));
284 if (!sec) {
285 perror("malloc");
286 return -1;
287 }
288 memset(sec, 0, sizeof(*sec));
289
290 INIT_LIST_HEAD(&sec->symbol_list);
291 INIT_LIST_HEAD(&sec->reloc_list);
292
293 s = elf_getscn(elf->elf, i);
294 if (!s) {
295 WARN_ELF("elf_getscn");
296 return -1;
297 }
298
299 sec->idx = elf_ndxscn(s);
300
301 if (!gelf_getshdr(s, &sec->sh)) {
302 WARN_ELF("gelf_getshdr");
303 return -1;
304 }
305
306 sec->name = elf_strptr(elf->elf, shstrndx, sec->sh.sh_name);
307 if (!sec->name) {
308 WARN_ELF("elf_strptr");
309 return -1;
310 }
311
312 if (sec->sh.sh_size != 0) {
313 sec->data = elf_getdata(s, NULL);
314 if (!sec->data) {
315 WARN_ELF("elf_getdata");
316 return -1;
317 }
318 if (sec->data->d_off != 0 ||
319 sec->data->d_size != sec->sh.sh_size) {
320 WARN("unexpected data attributes for %s",
321 sec->name);
322 return -1;
323 }
324 }
325 sec->len = sec->sh.sh_size;
326
327 list_add_tail(&sec->list, &elf->sections);
328 elf_hash_add(elf->section_hash, &sec->hash, sec->idx);
329 elf_hash_add(elf->section_name_hash, &sec->name_hash, str_hash(sec->name));
330 }
331
332 if (stats)
333 printf("nr_sections: %lu\n", (unsigned long)sections_nr);
334
335 /* sanity check, one more call to elf_nextscn() should return NULL */
336 if (elf_nextscn(elf->elf, s)) {
337 WARN("section entry mismatch");
338 return -1;
339 }
340
341 return 0;
342}
343
344static int read_symbols(struct elf *elf)
345{
346 struct section *symtab, *symtab_shndx, *sec;
347 struct symbol *sym, *pfunc;
348 struct list_head *entry;
349 struct rb_node *pnode;
350 int symbols_nr, i;
351 char *coldstr;
352 Elf_Data *shndx_data = NULL;
353 Elf32_Word shndx;
354
355 symtab = find_section_by_name(elf, ".symtab");
356 if (!symtab) {
357 WARN("missing symbol table");
358 return -1;
359 }
360
361 symtab_shndx = find_section_by_name(elf, ".symtab_shndx");
362 if (symtab_shndx)
363 shndx_data = symtab_shndx->data;
364
365 symbols_nr = symtab->sh.sh_size / symtab->sh.sh_entsize;
366
367 for (i = 0; i < symbols_nr; i++) {
368 sym = malloc(sizeof(*sym));
369 if (!sym) {
370 perror("malloc");
371 return -1;
372 }
373 memset(sym, 0, sizeof(*sym));
374 sym->alias = sym;
375
376 sym->idx = i;
377
378 if (!gelf_getsymshndx(symtab->data, shndx_data, i, &sym->sym,
379 &shndx)) {
380 WARN_ELF("gelf_getsymshndx");
381 goto err;
382 }
383
384 sym->name = elf_strptr(elf->elf, symtab->sh.sh_link,
385 sym->sym.st_name);
386 if (!sym->name) {
387 WARN_ELF("elf_strptr");
388 goto err;
389 }
390
391 sym->type = GELF_ST_TYPE(sym->sym.st_info);
392 sym->bind = GELF_ST_BIND(sym->sym.st_info);
393
394 if ((sym->sym.st_shndx > SHN_UNDEF &&
395 sym->sym.st_shndx < SHN_LORESERVE) ||
396 (shndx_data && sym->sym.st_shndx == SHN_XINDEX)) {
397 if (sym->sym.st_shndx != SHN_XINDEX)
398 shndx = sym->sym.st_shndx;
399
400 sym->sec = find_section_by_index(elf, shndx);
401 if (!sym->sec) {
402 WARN("couldn't find section for symbol %s",
403 sym->name);
404 goto err;
405 }
406 if (sym->type == STT_SECTION) {
407 sym->name = sym->sec->name;
408 sym->sec->sym = sym;
409 }
410 } else
411 sym->sec = find_section_by_index(elf, 0);
412
413 sym->offset = sym->sym.st_value;
414 sym->len = sym->sym.st_size;
415
416 rb_add(&sym->sec->symbol_tree, &sym->node, symbol_to_offset);
417 pnode = rb_prev(&sym->node);
418 if (pnode)
419 entry = &rb_entry(pnode, struct symbol, node)->list;
420 else
421 entry = &sym->sec->symbol_list;
422 list_add(&sym->list, entry);
423 elf_hash_add(elf->symbol_hash, &sym->hash, sym->idx);
424 elf_hash_add(elf->symbol_name_hash, &sym->name_hash, str_hash(sym->name));
425 }
426
427 if (stats)
428 printf("nr_symbols: %lu\n", (unsigned long)symbols_nr);
429
430 /* Create parent/child links for any cold subfunctions */
431 list_for_each_entry(sec, &elf->sections, list) {
432 list_for_each_entry(sym, &sec->symbol_list, list) {
433 char pname[MAX_NAME_LEN + 1];
434 size_t pnamelen;
435 if (sym->type != STT_FUNC)
436 continue;
437
438 if (sym->pfunc == NULL)
439 sym->pfunc = sym;
440
441 if (sym->cfunc == NULL)
442 sym->cfunc = sym;
443
444 coldstr = strstr(sym->name, ".cold");
445 if (!coldstr)
446 continue;
447
448 pnamelen = coldstr - sym->name;
449 if (pnamelen > MAX_NAME_LEN) {
450 WARN("%s(): parent function name exceeds maximum length of %d characters",
451 sym->name, MAX_NAME_LEN);
452 return -1;
453 }
454
455 strncpy(pname, sym->name, pnamelen);
456 pname[pnamelen] = '\0';
457 pfunc = find_symbol_by_name(elf, pname);
458
459 if (!pfunc) {
460 WARN("%s(): can't find parent function",
461 sym->name);
462 return -1;
463 }
464
465 sym->pfunc = pfunc;
466 pfunc->cfunc = sym;
467
468 /*
469 * Unfortunately, -fnoreorder-functions puts the child
470 * inside the parent. Remove the overlap so we can
471 * have sane assumptions.
472 *
473 * Note that pfunc->len now no longer matches
474 * pfunc->sym.st_size.
475 */
476 if (sym->sec == pfunc->sec &&
477 sym->offset >= pfunc->offset &&
478 sym->offset + sym->len == pfunc->offset + pfunc->len) {
479 pfunc->len -= sym->len;
480 }
481 }
482 }
483
484 return 0;
485
486err:
487 free(sym);
488 return -1;
489}
490
491void elf_add_reloc(struct elf *elf, struct reloc *reloc)
492{
493 struct section *sec = reloc->sec;
494
495 list_add_tail(&reloc->list, &sec->reloc_list);
496 elf_hash_add(elf->reloc_hash, &reloc->hash, reloc_hash(reloc));
497}
498
499static int read_rel_reloc(struct section *sec, int i, struct reloc *reloc, unsigned int *symndx)
500{
501 if (!gelf_getrel(sec->data, i, &reloc->rel)) {
502 WARN_ELF("gelf_getrel");
503 return -1;
504 }
505 reloc->type = GELF_R_TYPE(reloc->rel.r_info);
506 reloc->addend = 0;
507 reloc->offset = reloc->rel.r_offset;
508 *symndx = GELF_R_SYM(reloc->rel.r_info);
509 return 0;
510}
511
512static int read_rela_reloc(struct section *sec, int i, struct reloc *reloc, unsigned int *symndx)
513{
514 if (!gelf_getrela(sec->data, i, &reloc->rela)) {
515 WARN_ELF("gelf_getrela");
516 return -1;
517 }
518 reloc->type = GELF_R_TYPE(reloc->rela.r_info);
519 reloc->addend = reloc->rela.r_addend;
520 reloc->offset = reloc->rela.r_offset;
521 *symndx = GELF_R_SYM(reloc->rela.r_info);
522 return 0;
523}
524
525static int read_relocs(struct elf *elf)
526{
527 struct section *sec;
528 struct reloc *reloc;
529 int i;
530 unsigned int symndx;
531 unsigned long nr_reloc, max_reloc = 0, tot_reloc = 0;
532
533 list_for_each_entry(sec, &elf->sections, list) {
534 if ((sec->sh.sh_type != SHT_RELA) &&
535 (sec->sh.sh_type != SHT_REL))
536 continue;
537
538 sec->base = find_section_by_index(elf, sec->sh.sh_info);
539 if (!sec->base) {
540 WARN("can't find base section for reloc section %s",
541 sec->name);
542 return -1;
543 }
544
545 sec->base->reloc = sec;
546
547 nr_reloc = 0;
548 for (i = 0; i < sec->sh.sh_size / sec->sh.sh_entsize; i++) {
549 reloc = malloc(sizeof(*reloc));
550 if (!reloc) {
551 perror("malloc");
552 return -1;
553 }
554 memset(reloc, 0, sizeof(*reloc));
555 switch (sec->sh.sh_type) {
556 case SHT_REL:
557 if (read_rel_reloc(sec, i, reloc, &symndx))
558 return -1;
559 break;
560 case SHT_RELA:
561 if (read_rela_reloc(sec, i, reloc, &symndx))
562 return -1;
563 break;
564 default: return -1;
565 }
566
567 reloc->sec = sec;
568 reloc->idx = i;
569 reloc->sym = find_symbol_by_index(elf, symndx);
570 if (!reloc->sym) {
571 WARN("can't find reloc entry symbol %d for %s",
572 symndx, sec->name);
573 return -1;
574 }
575
576 elf_add_reloc(elf, reloc);
577 nr_reloc++;
578 }
579 max_reloc = max(max_reloc, nr_reloc);
580 tot_reloc += nr_reloc;
581 }
582
583 if (stats) {
584 printf("max_reloc: %lu\n", max_reloc);
585 printf("tot_reloc: %lu\n", tot_reloc);
586 }
587
588 return 0;
589}
590
591struct elf *elf_open_read(const char *name, int flags)
592{
593 struct elf *elf;
594 Elf_Cmd cmd;
595
596 elf_version(EV_CURRENT);
597
598 elf = malloc(sizeof(*elf));
599 if (!elf) {
600 perror("malloc");
601 return NULL;
602 }
603 memset(elf, 0, offsetof(struct elf, sections));
604
605 INIT_LIST_HEAD(&elf->sections);
606
607 elf_hash_init(elf->symbol_hash);
608 elf_hash_init(elf->symbol_name_hash);
609 elf_hash_init(elf->section_hash);
610 elf_hash_init(elf->section_name_hash);
611 elf_hash_init(elf->reloc_hash);
612
613 elf->fd = open(name, flags);
614 if (elf->fd == -1) {
615 fprintf(stderr, "objtool: Can't open '%s': %s\n",
616 name, strerror(errno));
617 goto err;
618 }
619
620 if ((flags & O_ACCMODE) == O_RDONLY)
621 cmd = ELF_C_READ_MMAP;
622 else if ((flags & O_ACCMODE) == O_RDWR)
623 cmd = ELF_C_RDWR;
624 else /* O_WRONLY */
625 cmd = ELF_C_WRITE;
626
627 elf->elf = elf_begin(elf->fd, cmd, NULL);
628 if (!elf->elf) {
629 WARN_ELF("elf_begin");
630 goto err;
631 }
632
633 if (!gelf_getehdr(elf->elf, &elf->ehdr)) {
634 WARN_ELF("gelf_getehdr");
635 goto err;
636 }
637
638 if (read_sections(elf))
639 goto err;
640
641 if (read_symbols(elf))
642 goto err;
643
644 if (read_relocs(elf))
645 goto err;
646
647 return elf;
648
649err:
650 elf_close(elf);
651 return NULL;
652}
653
654struct section *elf_create_section(struct elf *elf, const char *name,
655 size_t entsize, int nr)
656{
657 struct section *sec, *shstrtab;
658 size_t size = entsize * nr;
659 Elf_Scn *s;
660 Elf_Data *data;
661
662 sec = malloc(sizeof(*sec));
663 if (!sec) {
664 perror("malloc");
665 return NULL;
666 }
667 memset(sec, 0, sizeof(*sec));
668
669 INIT_LIST_HEAD(&sec->symbol_list);
670 INIT_LIST_HEAD(&sec->reloc_list);
671
672 s = elf_newscn(elf->elf);
673 if (!s) {
674 WARN_ELF("elf_newscn");
675 return NULL;
676 }
677
678 sec->name = strdup(name);
679 if (!sec->name) {
680 perror("strdup");
681 return NULL;
682 }
683
684 sec->idx = elf_ndxscn(s);
685 sec->len = size;
686 sec->changed = true;
687
688 sec->data = elf_newdata(s);
689 if (!sec->data) {
690 WARN_ELF("elf_newdata");
691 return NULL;
692 }
693
694 sec->data->d_size = size;
695 sec->data->d_align = 1;
696
697 if (size) {
698 sec->data->d_buf = malloc(size);
699 if (!sec->data->d_buf) {
700 perror("malloc");
701 return NULL;
702 }
703 memset(sec->data->d_buf, 0, size);
704 }
705
706 if (!gelf_getshdr(s, &sec->sh)) {
707 WARN_ELF("gelf_getshdr");
708 return NULL;
709 }
710
711 sec->sh.sh_size = size;
712 sec->sh.sh_entsize = entsize;
713 sec->sh.sh_type = SHT_PROGBITS;
714 sec->sh.sh_addralign = 1;
715 sec->sh.sh_flags = SHF_ALLOC;
716
717
718 /* Add section name to .shstrtab (or .strtab for Clang) */
719 shstrtab = find_section_by_name(elf, ".shstrtab");
720 if (!shstrtab)
721 shstrtab = find_section_by_name(elf, ".strtab");
722 if (!shstrtab) {
723 WARN("can't find .shstrtab or .strtab section");
724 return NULL;
725 }
726
727 s = elf_getscn(elf->elf, shstrtab->idx);
728 if (!s) {
729 WARN_ELF("elf_getscn");
730 return NULL;
731 }
732
733 data = elf_newdata(s);
734 if (!data) {
735 WARN_ELF("elf_newdata");
736 return NULL;
737 }
738
739 data->d_buf = sec->name;
740 data->d_size = strlen(name) + 1;
741 data->d_align = 1;
742
743 sec->sh.sh_name = shstrtab->len;
744
745 shstrtab->len += strlen(name) + 1;
746 shstrtab->changed = true;
747
748 list_add_tail(&sec->list, &elf->sections);
749 elf_hash_add(elf->section_hash, &sec->hash, sec->idx);
750 elf_hash_add(elf->section_name_hash, &sec->name_hash, str_hash(sec->name));
751
752 elf->changed = true;
753
754 return sec;
755}
756
757static struct section *elf_create_rel_reloc_section(struct elf *elf, struct section *base)
758{
759 char *relocname;
760 struct section *sec;
761
762 relocname = malloc(strlen(base->name) + strlen(".rel") + 1);
763 if (!relocname) {
764 perror("malloc");
765 return NULL;
766 }
767 strcpy(relocname, ".rel");
768 strcat(relocname, base->name);
769
770 sec = elf_create_section(elf, relocname, sizeof(GElf_Rel), 0);
771 free(relocname);
772 if (!sec)
773 return NULL;
774
775 base->reloc = sec;
776 sec->base = base;
777
778 sec->sh.sh_type = SHT_REL;
779 sec->sh.sh_addralign = 8;
780 sec->sh.sh_link = find_section_by_name(elf, ".symtab")->idx;
781 sec->sh.sh_info = base->idx;
782 sec->sh.sh_flags = SHF_INFO_LINK;
783
784 return sec;
785}
786
787static struct section *elf_create_rela_reloc_section(struct elf *elf, struct section *base)
788{
789 char *relocname;
790 struct section *sec;
791
792 relocname = malloc(strlen(base->name) + strlen(".rela") + 1);
793 if (!relocname) {
794 perror("malloc");
795 return NULL;
796 }
797 strcpy(relocname, ".rela");
798 strcat(relocname, base->name);
799
800 sec = elf_create_section(elf, relocname, sizeof(GElf_Rela), 0);
801 free(relocname);
802 if (!sec)
803 return NULL;
804
805 base->reloc = sec;
806 sec->base = base;
807
808 sec->sh.sh_type = SHT_RELA;
809 sec->sh.sh_addralign = 8;
810 sec->sh.sh_link = find_section_by_name(elf, ".symtab")->idx;
811 sec->sh.sh_info = base->idx;
812 sec->sh.sh_flags = SHF_INFO_LINK;
813
814 return sec;
815}
816
817struct section *elf_create_reloc_section(struct elf *elf,
818 struct section *base,
819 int reltype)
820{
821 switch (reltype) {
822 case SHT_REL: return elf_create_rel_reloc_section(elf, base);
823 case SHT_RELA: return elf_create_rela_reloc_section(elf, base);
824 default: return NULL;
825 }
826}
827
828static int elf_rebuild_rel_reloc_section(struct section *sec, int nr)
829{
830 struct reloc *reloc;
831 int idx = 0, size;
832 GElf_Rel *relocs;
833
834 /* Allocate a buffer for relocations */
835 size = nr * sizeof(*relocs);
836 relocs = malloc(size);
837 if (!relocs) {
838 perror("malloc");
839 return -1;
840 }
841
842 sec->data->d_buf = relocs;
843 sec->data->d_size = size;
844
845 sec->sh.sh_size = size;
846
847 idx = 0;
848 list_for_each_entry(reloc, &sec->reloc_list, list) {
849 relocs[idx].r_offset = reloc->offset;
850 relocs[idx].r_info = GELF_R_INFO(reloc->sym->idx, reloc->type);
851 idx++;
852 }
853
854 return 0;
855}
856
857static int elf_rebuild_rela_reloc_section(struct section *sec, int nr)
858{
859 struct reloc *reloc;
860 int idx = 0, size;
861 GElf_Rela *relocs;
862
863 /* Allocate a buffer for relocations with addends */
864 size = nr * sizeof(*relocs);
865 relocs = malloc(size);
866 if (!relocs) {
867 perror("malloc");
868 return -1;
869 }
870
871 sec->data->d_buf = relocs;
872 sec->data->d_size = size;
873
874 sec->sh.sh_size = size;
875
876 idx = 0;
877 list_for_each_entry(reloc, &sec->reloc_list, list) {
878 relocs[idx].r_offset = reloc->offset;
879 relocs[idx].r_addend = reloc->addend;
880 relocs[idx].r_info = GELF_R_INFO(reloc->sym->idx, reloc->type);
881 idx++;
882 }
883
884 return 0;
885}
886
887int elf_rebuild_reloc_section(struct elf *elf, struct section *sec)
888{
889 struct reloc *reloc;
890 int nr;
891
892 sec->changed = true;
893 elf->changed = true;
894
895 nr = 0;
896 list_for_each_entry(reloc, &sec->reloc_list, list)
897 nr++;
898
899 switch (sec->sh.sh_type) {
900 case SHT_REL: return elf_rebuild_rel_reloc_section(sec, nr);
901 case SHT_RELA: return elf_rebuild_rela_reloc_section(sec, nr);
902 default: return -1;
903 }
904}
905
906int elf_write_insn(struct elf *elf, struct section *sec,
907 unsigned long offset, unsigned int len,
908 const char *insn)
909{
910 Elf_Data *data = sec->data;
911
912 if (data->d_type != ELF_T_BYTE || data->d_off) {
913 WARN("write to unexpected data for section: %s", sec->name);
914 return -1;
915 }
916
917 memcpy(data->d_buf + offset, insn, len);
918 elf_flagdata(data, ELF_C_SET, ELF_F_DIRTY);
919
920 elf->changed = true;
921
922 return 0;
923}
924
925int elf_write_reloc(struct elf *elf, struct reloc *reloc)
926{
927 struct section *sec = reloc->sec;
928
929 if (sec->sh.sh_type == SHT_REL) {
930 reloc->rel.r_info = GELF_R_INFO(reloc->sym->idx, reloc->type);
931 reloc->rel.r_offset = reloc->offset;
932
933 if (!gelf_update_rel(sec->data, reloc->idx, &reloc->rel)) {
934 WARN_ELF("gelf_update_rel");
935 return -1;
936 }
937 } else {
938 reloc->rela.r_info = GELF_R_INFO(reloc->sym->idx, reloc->type);
939 reloc->rela.r_addend = reloc->addend;
940 reloc->rela.r_offset = reloc->offset;
941
942 if (!gelf_update_rela(sec->data, reloc->idx, &reloc->rela)) {
943 WARN_ELF("gelf_update_rela");
944 return -1;
945 }
946 }
947
948 elf->changed = true;
949
950 return 0;
951}
952
953int elf_write(struct elf *elf)
954{
955 struct section *sec;
956 Elf_Scn *s;
957
958 /* Update section headers for changed sections: */
959 list_for_each_entry(sec, &elf->sections, list) {
960 if (sec->changed) {
961 s = elf_getscn(elf->elf, sec->idx);
962 if (!s) {
963 WARN_ELF("elf_getscn");
964 return -1;
965 }
966 if (!gelf_update_shdr(s, &sec->sh)) {
967 WARN_ELF("gelf_update_shdr");
968 return -1;
969 }
970
971 sec->changed = false;
972 }
973 }
974
975 /* Make sure the new section header entries get updated properly. */
976 elf_flagelf(elf->elf, ELF_C_SET, ELF_F_DIRTY);
977
978 /* Write all changes to the file. */
979 if (elf_update(elf->elf, ELF_C_WRITE) < 0) {
980 WARN_ELF("elf_update");
981 return -1;
982 }
983
984 elf->changed = false;
985
986 return 0;
987}
988
989void elf_close(struct elf *elf)
990{
991 struct section *sec, *tmpsec;
992 struct symbol *sym, *tmpsym;
993 struct reloc *reloc, *tmpreloc;
994
995 if (elf->elf)
996 elf_end(elf->elf);
997
998 if (elf->fd > 0)
999 close(elf->fd);
1000
1001 list_for_each_entry_safe(sec, tmpsec, &elf->sections, list) {
1002 list_for_each_entry_safe(sym, tmpsym, &sec->symbol_list, list) {
1003 list_del(&sym->list);
1004 hash_del(&sym->hash);
1005 free(sym);
1006 }
1007 list_for_each_entry_safe(reloc, tmpreloc, &sec->reloc_list, list) {
1008 list_del(&reloc->list);
1009 hash_del(&reloc->hash);
1010 free(reloc);
1011 }
1012 list_del(&sec->list);
1013 free(sec);
1014 }
1015
1016 free(elf);
1017}