Coverage Report

Created: 2026-06-30 06:53

next uncovered line (L), next uncovered region (R), next uncovered branch (B)
/src/libbpf/elfutils/libelf/elf_getdata.c
Line
Count
Source
1
/* Return the next data element from the section after possibly converting it.
2
   Copyright (C) 1998-2005, 2006, 2007, 2015, 2016 Red Hat, Inc.
3
   Copyright (C) 2022 Mark J. Wielaard <mark@klomp.org>
4
   This file is part of elfutils.
5
   Written by Ulrich Drepper <drepper@redhat.com>, 1998.
6
7
   This file is free software; you can redistribute it and/or modify
8
   it under the terms of either
9
10
     * the GNU Lesser General Public License as published by the Free
11
       Software Foundation; either version 3 of the License, or (at
12
       your option) any later version
13
14
   or
15
16
     * the GNU General Public License as published by the Free
17
       Software Foundation; either version 2 of the License, or (at
18
       your option) any later version
19
20
   or both in parallel, as here.
21
22
   elfutils is distributed in the hope that it will be useful, but
23
   WITHOUT ANY WARRANTY; without even the implied warranty of
24
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
25
   General Public License for more details.
26
27
   You should have received copies of the GNU General Public License and
28
   the GNU Lesser General Public License along with this program.  If
29
   not, see <http://www.gnu.org/licenses/>.  */
30
31
#ifdef HAVE_CONFIG_H
32
# include <config.h>
33
#endif
34
35
#include <errno.h>
36
#include <stddef.h>
37
#include <string.h>
38
39
#include "libelfP.h"
40
#include "common.h"
41
#include "elf-knowledge.h"
42
43
44
#define TYPEIDX(Sh_Type) \
45
77.6k
  (Sh_Type >= SHT_NULL && Sh_Type < SHT_NUM              \
46
77.6k
   ? Sh_Type                      \
47
77.6k
   : (Sh_Type >= SHT_GNU_HASH && Sh_Type <= SHT_HISUNW            \
48
27.0k
      ? SHT_NUM + Sh_Type - SHT_GNU_HASH              \
49
27.0k
      : 0))
50
51
/* Associate section types with libelf types.  */
52
static const Elf_Type shtype_map[TYPEIDX (SHT_HISUNW) + 1] =
53
  {
54
      [SHT_SYMTAB] = ELF_T_SYM,
55
      [SHT_RELA] = ELF_T_RELA,
56
      [SHT_HASH] = ELF_T_WORD,
57
      [SHT_DYNAMIC] = ELF_T_DYN,
58
      [SHT_REL] = ELF_T_REL,
59
      [SHT_DYNSYM] = ELF_T_SYM,
60
      [SHT_INIT_ARRAY] = ELF_T_ADDR,
61
      [SHT_FINI_ARRAY] = ELF_T_ADDR,
62
      [SHT_PREINIT_ARRAY] = ELF_T_ADDR,
63
      [SHT_GROUP] = ELF_T_WORD,
64
      [SHT_SYMTAB_SHNDX] = ELF_T_WORD,
65
      [SHT_NOTE] = ELF_T_NHDR, /* Need alignment to guess ELF_T_NHDR8.  */
66
      [TYPEIDX (SHT_GNU_verdef)] = ELF_T_VDEF,
67
      [TYPEIDX (SHT_GNU_verneed)] = ELF_T_VNEED,
68
      [TYPEIDX (SHT_GNU_versym)] = ELF_T_HALF,
69
      [TYPEIDX (SHT_SUNW_syminfo)] = ELF_T_SYMINFO,
70
      [TYPEIDX (SHT_SUNW_move)] = ELF_T_MOVE,
71
      [TYPEIDX (SHT_GNU_LIBLIST)] = ELF_T_LIB,
72
      [TYPEIDX (SHT_GNU_HASH)] = ELF_T_GNUHASH,
73
  };
74
75
/* Associate libelf types with their internal alignment requirements.  */
76
const uint_fast8_t __libelf_type_aligns[ELFCLASSNUM - 1][ELF_T_NUM] =
77
  {
78
# define TYPE_ALIGNS(Bits)                  \
79
      [ELF_T_ADDR] = __alignof__ (ElfW2(Bits,Addr)),            \
80
      [ELF_T_EHDR] = __alignof__ (ElfW2(Bits,Ehdr)),            \
81
      [ELF_T_HALF] = __alignof__ (ElfW2(Bits,Half)),            \
82
      [ELF_T_OFF] = __alignof__ (ElfW2(Bits,Off)),            \
83
      [ELF_T_PHDR] = __alignof__ (ElfW2(Bits,Phdr)),            \
84
      [ELF_T_SHDR] = __alignof__ (ElfW2(Bits,Shdr)),            \
85
      [ELF_T_SWORD] = __alignof__ (ElfW2(Bits,Sword)),            \
86
      [ELF_T_WORD] = __alignof__ (ElfW2(Bits,Word)),            \
87
      [ELF_T_XWORD] = __alignof__ (ElfW2(Bits,Xword)),            \
88
      [ELF_T_SXWORD] = __alignof__ (ElfW2(Bits,Sxword)),          \
89
      [ELF_T_SYM] = __alignof__ (ElfW2(Bits,Sym)),            \
90
      [ELF_T_SYMINFO] = __alignof__ (ElfW2(Bits,Syminfo)),          \
91
      [ELF_T_REL] = __alignof__ (ElfW2(Bits,Rel)),            \
92
      [ELF_T_RELA] = __alignof__ (ElfW2(Bits,Rela)),            \
93
      [ELF_T_DYN] = __alignof__ (ElfW2(Bits,Dyn)),            \
94
      [ELF_T_VDEF] = __alignof__ (ElfW2(Bits,Verdef)),            \
95
      [ELF_T_VDAUX] = __alignof__ (ElfW2(Bits,Verdaux)),          \
96
      [ELF_T_VNEED] = __alignof__ (ElfW2(Bits,Verneed)),          \
97
      [ELF_T_VNAUX] = __alignof__ (ElfW2(Bits,Vernaux)),          \
98
      [ELF_T_MOVE] = __alignof__ (ElfW2(Bits,Move)),            \
99
      [ELF_T_LIB] = __alignof__ (ElfW2(Bits,Lib)),            \
100
      [ELF_T_NHDR] = __alignof__ (ElfW2(Bits,Nhdr)),            \
101
      [ELF_T_AUXV] = __alignof__ (ElfW2(Bits,auxv_t)),            \
102
      [ELF_T_CHDR] = __alignof__ (ElfW2(Bits,Chdr)),            \
103
      [ELF_T_NHDR8] = 8 /* Special case for GNU Property note.  */
104
    [ELFCLASS32 - 1] =  {
105
  TYPE_ALIGNS (32),
106
  [ELF_T_GNUHASH] = __alignof__ (Elf32_Word),
107
    },
108
    [ELFCLASS64 - 1] = {
109
  TYPE_ALIGNS (64),
110
  [ELF_T_GNUHASH] = __alignof__ (Elf64_Xword),
111
    },
112
# undef TYPE_ALIGNS
113
  };
114
115
116
Elf_Type
117
internal_function
118
__libelf_data_type (GElf_Ehdr *ehdr, int sh_type, GElf_Xword align)
119
44.5k
{
120
  /* Some broken ELF ABI for 64-bit machines use the wrong hash table
121
     entry size.  See elf-knowledge.h for more information.  */
122
44.5k
  if (sh_type == SHT_HASH && ehdr->e_ident[EI_CLASS] == ELFCLASS64)
123
1.51k
    {
124
1.51k
      return (SH_ENTSIZE_HASH (ehdr) == 4 ? ELF_T_WORD : ELF_T_XWORD);
125
1.51k
    }
126
43.0k
  else
127
43.0k
    {
128
43.0k
      Elf_Type t = shtype_map[TYPEIDX (sh_type)];
129
      /* Special case for GNU Property notes.  */
130
43.0k
      if (t == ELF_T_NHDR && align == 8)
131
297
  t = ELF_T_NHDR8;
132
43.0k
      return t;
133
43.0k
    }
134
44.5k
}
135
136
/* Convert the data in the current section.  */
137
static void
138
convert_data (Elf_Scn *scn, int eclass,
139
        int data, size_t size, Elf_Type type)
140
34.6k
{
141
34.6k
  const size_t align = __libelf_type_align (eclass, type);
142
143
  /* Do we need to convert the data and/or adjust for alignment?  */
144
34.6k
  if (data == MY_ELFDATA || type == ELF_T_BYTE)
145
22.2k
    {
146
22.2k
      if (((((size_t) (char *) scn->rawdata_base)) & (align - 1)) == 0)
147
  /* No need to copy, we can use the raw data.  */
148
18.9k
  scn->data_base = scn->rawdata_base;
149
3.37k
      else
150
3.37k
  {
151
3.37k
    scn->data_base = malloc (size);
152
3.37k
    if (scn->data_base == NULL)
153
0
      {
154
0
        __libelf_seterrno (ELF_E_NOMEM);
155
0
        return;
156
0
      }
157
158
    /* The copy will be appropriately aligned for direct access.  */
159
3.37k
    memcpy (scn->data_base, scn->rawdata_base, size);
160
3.37k
  }
161
22.2k
    }
162
12.3k
  else
163
12.3k
    {
164
12.3k
      xfct_t fp;
165
166
12.3k
      scn->data_base = malloc (size);
167
12.3k
      if (scn->data_base == NULL)
168
0
  {
169
0
    __libelf_seterrno (ELF_E_NOMEM);
170
0
    return;
171
0
  }
172
173
      /* Make sure the source is correctly aligned for the conversion
174
   function to directly access the data elements.  */
175
12.3k
      char *rawdata_source;
176
12.3k
      if (((((size_t) (char *) scn->rawdata_base)) & (align - 1)) == 0)
177
2.33k
  rawdata_source = scn->rawdata_base;
178
10.0k
      else
179
10.0k
  {
180
10.0k
    rawdata_source = malloc (size);
181
10.0k
    if (rawdata_source == NULL)
182
0
      {
183
0
        __libelf_seterrno (ELF_E_NOMEM);
184
0
        return;
185
0
      }
186
187
    /* The copy will be appropriately aligned for direct access.  */
188
10.0k
    memcpy (rawdata_source, scn->rawdata_base, size);
189
10.0k
  }
190
191
      /* Get the conversion function.  */
192
12.3k
      fp = __elf_xfctstom[eclass - 1][type];
193
194
12.3k
      fp (scn->data_base, rawdata_source, size, 0);
195
196
12.3k
      if (rawdata_source != scn->rawdata_base)
197
10.0k
  free (rawdata_source);
198
12.3k
    }
199
200
34.6k
  scn->data_list.data.d.d_buf = scn->data_base;
201
34.6k
  scn->data_list.data.d.d_size = size;
202
34.6k
  scn->data_list.data.d.d_type = type;
203
34.6k
  scn->data_list.data.d.d_off = scn->rawdata.d.d_off;
204
34.6k
  scn->data_list.data.d.d_align = scn->rawdata.d.d_align;
205
34.6k
  scn->data_list.data.d.d_version = scn->rawdata.d.d_version;
206
207
34.6k
  scn->data_list.data.s = scn;
208
34.6k
}
209
210
211
/* Store the information for the raw data in the `rawdata' element.  */
212
int
213
internal_function
214
__libelf_set_rawdata_wrlock (Elf_Scn *scn)
215
56.1k
{
216
56.1k
  Elf64_Off offset;
217
56.1k
  Elf64_Xword size;
218
56.1k
  Elf64_Xword align;
219
56.1k
  Elf64_Xword flags;
220
56.1k
  int type;
221
56.1k
  Elf *elf = scn->elf;
222
223
56.1k
  if (elf->class == ELFCLASS32)
224
0
    {
225
0
      Elf32_Shdr *shdr
226
0
  = scn->shdr.e32 ?: __elf32_getshdr_wrlock (scn);
227
228
0
      if (shdr == NULL)
229
  /* Something went terribly wrong.  */
230
0
  return 1;
231
232
0
      offset = shdr->sh_offset;
233
0
      size = shdr->sh_size;
234
0
      type = shdr->sh_type;
235
0
      align = shdr->sh_addralign;
236
0
      flags = shdr->sh_flags;
237
0
    }
238
56.1k
  else
239
56.1k
    {
240
56.1k
      Elf64_Shdr *shdr
241
56.1k
  = scn->shdr.e64 ?: __elf64_getshdr_wrlock (scn);
242
243
56.1k
      if (shdr == NULL)
244
  /* Something went terribly wrong.  */
245
0
  return 1;
246
247
56.1k
      offset = shdr->sh_offset;
248
56.1k
      size = shdr->sh_size;
249
56.1k
      type = shdr->sh_type;
250
56.1k
      align = shdr->sh_addralign;
251
56.1k
      flags = shdr->sh_flags;
252
56.1k
    }
253
254
  /* If the section has no data (for whatever reason), leave the `d_buf'
255
     pointer NULL.  */
256
56.1k
  if (size != 0 && type != SHT_NOBITS)
257
43.4k
    {
258
      /* First a test whether the section is valid at all.  */
259
43.4k
      size_t entsize;
260
261
      /* Compressed data has a header, but then compressed data.
262
   Make sure to set the alignment of the header explicitly,
263
   don't trust the file alignment for the section, it is
264
   often wrong.  */
265
43.4k
      if ((flags & SHF_COMPRESSED) != 0)
266
7.36k
  {
267
7.36k
    entsize = 1;
268
7.36k
    align = __libelf_type_align (elf->class, ELF_T_CHDR);
269
7.36k
  }
270
36.0k
      else if (type == SHT_HASH)
271
1.50k
  {
272
1.50k
    GElf_Ehdr ehdr_mem;
273
1.50k
    GElf_Ehdr *ehdr = __gelf_getehdr_rdlock (elf, &ehdr_mem);
274
1.50k
    if (unlikely (ehdr == NULL))
275
0
      return 1;
276
1.50k
    entsize = SH_ENTSIZE_HASH (ehdr);
277
1.50k
  }
278
34.5k
      else
279
34.5k
  {
280
34.5k
    Elf_Type t = shtype_map[TYPEIDX (type)];
281
34.5k
    if (t == ELF_T_NHDR && align == 8)
282
298
      t = ELF_T_NHDR8;
283
34.5k
    if (t == ELF_T_VDEF || t == ELF_T_NHDR || t == ELF_T_NHDR8
284
32.1k
        || (t == ELF_T_GNUHASH && elf->class == ELFCLASS64))
285
4.74k
      entsize = 1;
286
29.7k
    else
287
29.7k
      entsize = __libelf_type_sizes[elf->class - 1][t];
288
34.5k
  }
289
290
      /* We assume it is an array of bytes if it is none of the structured
291
   sections we know of.  */
292
43.4k
      if (entsize == 0)
293
0
  entsize = 1;
294
295
43.4k
      if (unlikely (size % entsize != 0))
296
126
  {
297
126
    __libelf_seterrno (ELF_E_INVALID_DATA);
298
126
    return 1;
299
126
  }
300
301
      /* We can use the mapped or loaded data if available.  */
302
43.2k
      if (elf->map_address != NULL)
303
43.2k
  {
304
    /* First see whether the information in the section header is
305
       valid and it does not ask for too much.  Check for unsigned
306
       overflow.  */
307
43.2k
    if (unlikely (offset > elf->maximum_size
308
43.2k
        || elf->maximum_size - offset < size))
309
1.71k
      {
310
        /* Something is wrong.  */
311
1.71k
        __libelf_seterrno (ELF_E_INVALID_SECTION_HEADER);
312
1.71k
        return 1;
313
1.71k
      }
314
315
41.5k
    scn->rawdata_base = scn->rawdata.d.d_buf
316
41.5k
      = (char *) elf->map_address + elf->start_offset + offset;
317
41.5k
  }
318
0
      else if (likely (elf->fildes != -1))
319
0
  {
320
    /* First see whether the information in the section header is
321
       valid and it does not ask for too much.  Check for unsigned
322
       overflow.  */
323
0
    if (unlikely (offset > elf->maximum_size
324
0
      || elf->maximum_size - offset < size))
325
0
      {
326
        /* Something is wrong.  */
327
0
        __libelf_seterrno (ELF_E_INVALID_SECTION_HEADER);
328
0
        return 1;
329
0
      }
330
331
    /* We have to read the data from the file.  Allocate the needed
332
       memory.  */
333
0
    scn->rawdata_base = scn->rawdata.d.d_buf = malloc (size);
334
0
    if (scn->rawdata.d.d_buf == NULL)
335
0
      {
336
0
        __libelf_seterrno (ELF_E_NOMEM);
337
0
        return 1;
338
0
      }
339
340
0
    ssize_t n = pread_retry (elf->fildes, scn->rawdata.d.d_buf, size,
341
0
           elf->start_offset + offset);
342
0
    if (unlikely ((size_t) n != size))
343
0
      {
344
        /* Cannot read the data.  */
345
0
        free (scn->rawdata.d.d_buf);
346
0
        scn->rawdata_base = scn->rawdata.d.d_buf = NULL;
347
0
        __libelf_seterrno (ELF_E_READ_ERROR);
348
0
        return 1;
349
0
      }
350
0
  }
351
0
      else
352
0
  {
353
    /* The file descriptor is already closed, we cannot get the data
354
       anymore.  */
355
0
    __libelf_seterrno (ELF_E_FD_DISABLED);
356
0
    return 1;
357
0
  }
358
43.2k
    }
359
360
54.3k
  scn->rawdata.d.d_size = size;
361
362
  /* Compressed data always has type ELF_T_CHDR regardless of the
363
     section type.  */
364
54.3k
  if ((flags & SHF_COMPRESSED) != 0)
365
9.71k
    scn->rawdata.d.d_type = ELF_T_CHDR;
366
44.5k
  else
367
44.5k
    {
368
44.5k
      GElf_Ehdr ehdr_mem;
369
44.5k
      GElf_Ehdr *ehdr = __gelf_getehdr_rdlock (elf, &ehdr_mem);
370
44.5k
      if (unlikely (ehdr == NULL))
371
0
  return 1;
372
44.5k
      scn->rawdata.d.d_type = __libelf_data_type (ehdr, type, align);
373
44.5k
    }
374
54.3k
  scn->rawdata.d.d_off = 0;
375
376
  /* Make sure the alignment makes sense.  d_align should be aligned both
377
     in the section (trivially true since d_off is zero) and in the file.
378
     Unfortunately we cannot be too strict because there are ELF files
379
     out there that fail this requirement.  We will try to fix those up
380
     in elf_update when writing out the image.  But for very large
381
     alignment values this can bloat the image considerably.  So here
382
     just check and clamp the alignment value to not be bigger than the
383
     actual offset of the data in the file.  Given that there is always
384
     at least an ehdr this will only trigger for alignment values > 64
385
     which should be uncommon.  */
386
54.3k
  align = align ?: 1;
387
54.3k
  if (type != SHT_NOBITS && align > offset)
388
36.4k
    {
389
      /* Align the offset to the next power of two. Uses algorithm from
390
         https://graphics.stanford.edu/~seander/bithacks.html#RoundUpPowerOf2 */
391
36.4k
      align = offset - 1;
392
36.4k
      align |= align >> 1;
393
36.4k
      align |= align >> 2;
394
36.4k
      align |= align >> 4;
395
36.4k
      align |= align >> 8;
396
36.4k
      align |= align >> 16;
397
36.4k
      align |= align >> 32;
398
36.4k
      align++;
399
36.4k
    }
400
54.3k
  scn->rawdata.d.d_align = align;
401
54.3k
  if (elf->class == ELFCLASS32
402
54.3k
      || (offsetof (struct Elf, state.elf32.ehdr)
403
54.3k
    == offsetof (struct Elf, state.elf64.ehdr)))
404
54.3k
    scn->rawdata.d.d_version =
405
54.3k
      elf->state.elf32.ehdr->e_ident[EI_VERSION];
406
0
  else
407
0
    scn->rawdata.d.d_version =
408
0
      elf->state.elf64.ehdr->e_ident[EI_VERSION];
409
410
54.3k
  scn->rawdata.s = scn;
411
412
54.3k
  scn->data_read = 1;
413
414
  /* We actually read data from the file.  At least we tried.  */
415
54.3k
  scn->flags |= ELF_F_FILEDATA;
416
417
54.3k
  return 0;
418
54.3k
}
419
420
int
421
internal_function
422
__libelf_set_rawdata (Elf_Scn *scn)
423
8.12k
{
424
8.12k
  int result;
425
426
8.12k
  if (scn == NULL)
427
0
    return 1;
428
429
8.12k
  rwlock_wrlock (scn->elf->lock);
430
8.12k
  result = __libelf_set_rawdata_wrlock (scn);
431
8.12k
  rwlock_unlock (scn->elf->lock);
432
433
8.12k
  return result;
434
8.12k
}
435
436
void
437
internal_function
438
__libelf_set_data_list_rdlock (Elf_Scn *scn, int wrlocked)
439
47.0k
{
440
47.0k
  if (scn->rawdata.d.d_buf != NULL && scn->rawdata.d.d_size > 0)
441
34.6k
    {
442
34.6k
      Elf *elf = scn->elf;
443
444
      /* Upgrade the lock to a write lock if necessary and check
445
   nobody else already did the work.  */
446
34.6k
      if (!wrlocked)
447
386
  {
448
386
    rwlock_unlock (elf->lock);
449
386
    rwlock_wrlock (elf->lock);
450
386
    if (scn->data_list_rear != NULL)
451
0
      return;
452
386
  }
453
454
      /* Convert according to the version and the type.   */
455
34.6k
      convert_data (scn, elf->class,
456
34.6k
        (elf->class == ELFCLASS32
457
34.6k
         || (offsetof (struct Elf, state.elf32.ehdr)
458
34.6k
       == offsetof (struct Elf, state.elf64.ehdr))
459
34.6k
         ? elf->state.elf32.ehdr->e_ident[EI_DATA]
460
34.6k
         : elf->state.elf64.ehdr->e_ident[EI_DATA]),
461
34.6k
        scn->rawdata.d.d_size, scn->rawdata.d.d_type);
462
34.6k
    }
463
12.4k
  else
464
12.4k
    {
465
      /* This is an empty or NOBITS section.  There is no buffer but
466
   the size information etc is important.  */
467
12.4k
      scn->data_list.data.d = scn->rawdata.d;
468
12.4k
      scn->data_list.data.s = scn;
469
12.4k
    }
470
471
47.0k
  scn->data_list_rear = &scn->data_list;
472
47.0k
}
473
474
Elf_Data *
475
internal_function
476
__elf_getdata_rdlock (Elf_Scn *scn, Elf_Data *data)
477
58.1k
{
478
58.1k
  Elf_Data *result = NULL;
479
58.1k
  Elf *elf;
480
58.1k
  int locked = 0;
481
482
58.1k
  if (scn == NULL)
483
0
    return NULL;
484
485
58.1k
  if (unlikely (scn->elf->kind != ELF_K_ELF))
486
0
    {
487
0
      __libelf_seterrno (ELF_E_INVALID_HANDLE);
488
0
      return NULL;
489
0
    }
490
491
  /* We will need this multiple times later on.  */
492
58.1k
  elf = scn->elf;
493
494
  /* If `data' is not NULL this means we are not addressing the initial
495
     data in the file.  But this also means this data is already read
496
     (since otherwise it is not possible to have a valid `data' pointer)
497
     and all the data structures are initialized as well.  In this case
498
     we can simply walk the list of data records.  */
499
58.1k
  if (data != NULL)
500
0
    {
501
0
      Elf_Data_List *runp;
502
503
      /* It is not possible that if DATA is not NULL the first entry is
504
   returned.  But this also means that there must be a first data
505
   entry.  */
506
0
      if (scn->data_list_rear == NULL
507
    /* The section the reference data is for must match the section
508
       parameter.  */
509
0
    || unlikely (((Elf_Data_Scn *) data)->s != scn))
510
0
  {
511
0
    __libelf_seterrno (ELF_E_DATA_MISMATCH);
512
0
    goto out;
513
0
  }
514
515
      /* We start searching with the first entry.  */
516
0
      runp = &scn->data_list;
517
518
0
      while (1)
519
0
  {
520
    /* If `data' does not match any known record punt.  */
521
0
    if (runp == NULL)
522
0
      {
523
0
        __libelf_seterrno (ELF_E_DATA_MISMATCH);
524
0
        goto out;
525
0
      }
526
527
0
    if (&runp->data.d == data)
528
      /* Found the entry.  */
529
0
      break;
530
531
0
    runp = runp->next;
532
0
  }
533
534
      /* Return the data for the next data record.  */
535
0
      result = runp->next ? &runp->next->data.d : NULL;
536
0
      goto out;
537
0
    }
538
539
  /* If the data for this section was not yet initialized do it now.  */
540
58.1k
  if (scn->data_read == 0)
541
47.6k
    {
542
      /* We cannot acquire a write lock while we are holding a read
543
         lock.  Therefore give up the read lock and then get the write
544
         lock.  But this means that the data could meanwhile be
545
         modified, therefore start the tests again.  */
546
47.6k
      rwlock_unlock (elf->lock);
547
47.6k
      rwlock_wrlock (elf->lock);
548
47.6k
      locked = 1;
549
550
      /* Read the data from the file.  There is always a file (or
551
   memory region) associated with this descriptor since
552
   otherwise the `data_read' flag would be set.  */
553
47.6k
      if (scn->data_read == 0 && __libelf_set_rawdata_wrlock (scn) != 0)
554
  /* Something went wrong.  The error value is already set.  */
555
993
  goto out;
556
47.6k
    }
557
558
  /* At this point we know the raw data is available.  But it might be
559
     empty in case the section has size zero (for whatever reason).
560
     Now create the converted data in case this is necessary.  */
561
57.1k
  if (scn->data_list_rear == NULL)
562
47.0k
    __libelf_set_data_list_rdlock (scn, locked);
563
564
  /* Return the first data element in the list.  */
565
57.1k
  result = &scn->data_list.data.d;
566
567
58.1k
 out:
568
58.1k
  return result;
569
57.1k
}
570
571
Elf_Data *
572
elf_getdata (Elf_Scn *scn, Elf_Data *data)
573
58.1k
{
574
58.1k
  Elf_Data *result;
575
576
58.1k
  if (scn == NULL)
577
0
    return NULL;
578
579
58.1k
  rwlock_rdlock (scn->elf->lock);
580
58.1k
  result = __elf_getdata_rdlock (scn, data);
581
58.1k
  rwlock_unlock (scn->elf->lock);
582
583
58.1k
  return result;
584
58.1k
}
585
INTDEF(elf_getdata)