1 /* Internal interfaces for libelf. 2 Copyright (C) 1998-2010, 2015, 2016 Red Hat, Inc. 3 This file is part of elfutils. 4 Contributed by Ulrich Drepper <drepper@redhat.com>, 1998. 5 6 This file is free software; you can redistribute it and/or modify 7 it under the terms of either 8 9 * the GNU Lesser General Public License as published by the Free 10 Software Foundation; either version 3 of the License, or (at 11 your option) any later version 12 13 or 14 15 * the GNU General Public License as published by the Free 16 Software Foundation; either version 2 of the License, or (at 17 your option) any later version 18 19 or both in parallel, as here. 20 21 elfutils is distributed in the hope that it will be useful, but 22 WITHOUT ANY WARRANTY; without even the implied warranty of 23 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU 24 General Public License for more details. 25 26 You should have received copies of the GNU General Public License and 27 the GNU Lesser General Public License along with this program. If 28 not, see <http://www.gnu.org/licenses/>. */ 29 30 #ifndef _LIBELFP_H 31 #define _LIBELFP_H 1 32 33 #include <ar.h> 34 #include <gelf.h> 35 36 #include <errno.h> 37 #include <stdbool.h> 38 #include <stdint.h> 39 #include <stdio.h> 40 #include <string.h> 41 42 /* gettext helper macros. */ 43 #define _(Str) dgettext ("elfutils", Str) 44 45 46 /* Helper Macros to write 32 bit and 64 bit functions. */ 47 #define __elfw2_(Bits, Name) __elf##Bits##_##Name 48 #define elfw2_(Bits, Name) elf##Bits##_##Name 49 #define ElfW2_(Bits, Name) Elf##Bits##_##Name 50 #define ELFW2_(Bits, Name) ELF##Bits##_##Name 51 #define ELFW_(Name, Bits) Name##Bits 52 #define __elfw2(Bits, Name) __elfw2_(Bits, Name) 53 #define elfw2(Bits, Name) elfw2_(Bits, Name) 54 #define ElfW2(Bits, Name) ElfW2_(Bits, Name) 55 #define ELFW2(Bits, Name) ELFW2_(Bits, Name) 56 #define ELFW(Name, Bits) ELFW_(Name, Bits) 57 58 59 /* Sizes of the external types, for 32 bits objects. */ 60 #define ELF32_FSZ_ADDR 4 61 #define ELF32_FSZ_OFF 4 62 #define ELF32_FSZ_HALF 2 63 #define ELF32_FSZ_WORD 4 64 #define ELF32_FSZ_SWORD 4 65 #define ELF32_FSZ_XWORD 8 66 #define ELF32_FSZ_SXWORD 8 67 68 /* Same for 64 bits objects. */ 69 #define ELF64_FSZ_ADDR 8 70 #define ELF64_FSZ_OFF 8 71 #define ELF64_FSZ_HALF 2 72 #define ELF64_FSZ_WORD 4 73 #define ELF64_FSZ_SWORD 4 74 #define ELF64_FSZ_XWORD 8 75 #define ELF64_FSZ_SXWORD 8 76 77 78 /* This is an extension of the ELF_F_* enumeration. The values here are 79 not part of the library interface, they are only used internally. */ 80 enum 81 { 82 ELF_F_MMAPPED = 0x40, 83 ELF_F_MALLOCED = 0x80, 84 ELF_F_FILEDATA = 0x100 85 }; 86 87 88 /* Get definition of all the external types. */ 89 #include "exttypes.h" 90 91 92 /* Error values. */ 93 enum 94 { 95 ELF_E_NOERROR = 0, 96 ELF_E_UNKNOWN_ERROR, 97 ELF_E_UNKNOWN_VERSION, 98 ELF_E_UNKNOWN_TYPE, 99 ELF_E_INVALID_HANDLE, 100 ELF_E_SOURCE_SIZE, 101 ELF_E_DEST_SIZE, 102 ELF_E_INVALID_ENCODING, 103 ELF_E_NOMEM, 104 ELF_E_INVALID_FILE, 105 ELF_E_INVALID_ELF, 106 ELF_E_INVALID_OP, 107 ELF_E_NO_VERSION, 108 ELF_E_INVALID_CMD, 109 ELF_E_RANGE, 110 ELF_E_ARCHIVE_FMAG, 111 ELF_E_INVALID_ARCHIVE, 112 ELF_E_NO_ARCHIVE, 113 ELF_E_NO_INDEX, 114 ELF_E_READ_ERROR, 115 ELF_E_WRITE_ERROR, 116 ELF_E_INVALID_CLASS, 117 ELF_E_INVALID_INDEX, 118 ELF_E_INVALID_OPERAND, 119 ELF_E_INVALID_SECTION, 120 ELF_E_INVALID_COMMAND, 121 ELF_E_WRONG_ORDER_EHDR, 122 ELF_E_FD_DISABLED, 123 ELF_E_FD_MISMATCH, 124 ELF_E_OFFSET_RANGE, 125 ELF_E_NOT_NUL_SECTION, 126 ELF_E_DATA_MISMATCH, 127 ELF_E_INVALID_SECTION_HEADER, 128 ELF_E_INVALID_DATA, 129 ELF_E_DATA_ENCODING, 130 ELF_E_SECTION_TOO_SMALL, 131 ELF_E_INVALID_ALIGN, 132 ELF_E_INVALID_SHENTSIZE, 133 ELF_E_UPDATE_RO, 134 ELF_E_NOFILE, 135 ELF_E_GROUP_NOT_REL, 136 ELF_E_INVALID_PHDR, 137 ELF_E_NO_PHDR, 138 ELF_E_INVALID_OFFSET, 139 ELF_E_INVALID_SECTION_TYPE, 140 ELF_E_INVALID_SECTION_FLAGS, 141 ELF_E_NOT_COMPRESSED, 142 ELF_E_ALREADY_COMPRESSED, 143 ELF_E_UNKNOWN_COMPRESSION_TYPE, 144 ELF_E_COMPRESS_ERROR, 145 ELF_E_DECOMPRESS_ERROR, 146 /* Keep this as the last entry. */ 147 ELF_E_NUM 148 }; 149 150 151 /* The visible `Elf_Data' type is not sufficent for some operations due 152 to a misdesigned interface. Extend it for internal purposes. */ 153 typedef struct 154 { 155 Elf_Data d; 156 Elf_Scn *s; 157 } Elf_Data_Scn; 158 159 160 /* List of `Elf_Data' descriptors. This is what makes up the section 161 contents. */ 162 typedef struct Elf_Data_List 163 { 164 /* `data' *must* be the first element in the struct. */ 165 Elf_Data_Scn data; 166 struct Elf_Data_List *next; 167 int flags; 168 } Elf_Data_List; 169 170 171 /* Descriptor for ELF section. */ 172 struct Elf_Scn 173 { 174 /* We have to distinguish several different situations: 175 176 1. the section is user created. Therefore there is no file or memory 177 region to read the data from. Here we have two different subcases: 178 179 a) data was not yet added (before the first `elf_newdata' call) 180 181 b) at least one data set is available 182 183 2. this is a section from a file/memory region. We have to read the 184 current content in one data block if we have to. But we don't 185 read the data until it is necessary. So we have the subcases: 186 187 a) the section in the file has size zero (for whatever reason) 188 189 b) the data of the file is not (yet) read 190 191 c) the data is read and available. 192 193 In addition to this we have different data sets, the raw and the converted 194 data. This distinction only exists for the data read from the file. 195 All user-added data set (all but the first when read from the file or 196 all of them for user-create sections) are the same in both formats. 197 We don't create the converted data before it is necessary. 198 199 The `data_read' element signals whether data is available in the 200 raw format. 201 202 If there is data from the file/memory region or if read one data 203 set is added the `rawdata_list_read' pointer in non-NULL and points 204 to the last filled data set. `raw_datalist_rear' is therefore NULL 205 only if there is no data set at all. 206 207 This so far allows to distinguish all but two cases (given that the 208 `rawdata_list' and `data_list' entries are initialized to zero) is 209 between not yet loaded data from the file/memory region and a section 210 with zero size and type ELF_T_BYTE. */ 211 Elf_Data_List data_list; /* List of data buffers. */ 212 Elf_Data_List *data_list_rear; /* Pointer to the rear of the data list. */ 213 214 Elf_Data_Scn rawdata; /* Uninterpreted data of the section. */ 215 216 int data_read; /* Nonzero if the section was created by the 217 user or if the data from the file/memory 218 is read. */ 219 int shndx_index; /* Index of the extended section index 220 table for this symbol table (if this 221 section is a symbol table). */ 222 223 size_t index; /* Index of this section. */ 224 struct Elf *elf; /* The underlying ELF file. */ 225 226 union 227 { 228 Elf32_Shdr *e32; /* Pointer to 32bit section header. */ 229 Elf64_Shdr *e64; /* Pointer to 64bit section header. */ 230 } shdr; 231 232 unsigned int shdr_flags; /* Section header modified? */ 233 unsigned int flags; /* Section changed in size? 234 ELF_F_MALLOCED for a Elf_Data_Chunk 235 dummy_scn means the rawchunks 236 data.d.d_buf was malloced. For normal 237 sections it means rawdata_base was 238 malloced (by elf_compress) even if 239 the Elf was mmapped. */ 240 241 char *rawdata_base; /* The unmodified data of the section. */ 242 char *data_base; /* The converted data of the section. */ 243 244 char *zdata_base; /* The uncompressed data of the section. */ 245 size_t zdata_size; /* If zdata_base != NULL, the size of data. */ 246 size_t zdata_align; /* If zdata_base != NULL, the addralign. */ 247 248 struct Elf_ScnList *list; /* Pointer to the section list element the 249 data is in. */ 250 }; 251 252 253 /* List of section. */ 254 typedef struct Elf_ScnList 255 { 256 unsigned int cnt; /* Number of elements of 'data' used. */ 257 unsigned int max; /* Number of elements of 'data' allocated. */ 258 struct Elf_ScnList *next; /* Next block of sections. */ 259 struct Elf_Scn data[0]; /* Section data. */ 260 } Elf_ScnList; 261 262 263 /* elf_getdata_rawchunk result. */ 264 typedef struct Elf_Data_Chunk 265 { 266 Elf_Data_Scn data; 267 union 268 { 269 Elf_Scn dummy_scn; 270 struct Elf_Data_Chunk *next; 271 }; 272 } Elf_Data_Chunk; 273 274 275 /* The ELF descriptor. */ 276 struct Elf 277 { 278 /* Address to which the file was mapped. NULL if not mapped. */ 279 void *map_address; 280 281 /* When created for an archive member this points to the descriptor 282 for the archive. */ 283 Elf *parent; 284 Elf *next; /* Used in list of archive descriptors. */ 285 286 /* What kind of file is underneath (ELF file, archive...). */ 287 Elf_Kind kind; 288 289 /* Command used to create this descriptor. */ 290 Elf_Cmd cmd; 291 292 /* The binary class. */ 293 unsigned int class; 294 295 /* The used file descriptor. -1 if not available anymore. */ 296 int fildes; 297 298 /* Offset in the archive this file starts or zero. */ 299 off_t start_offset; 300 301 /* Size of the file in the archive or the entire file size, or ~0 302 for an (yet) unknown size. */ 303 size_t maximum_size; 304 305 /* Describes the way the memory was allocated and if the dirty bit is 306 signalled it means that the whole file has to be rewritten since 307 the layout changed. */ 308 int flags; 309 310 /* Reference counting for the descriptor. */ 311 int ref_count; 312 313 /* Lock to handle multithreaded programs. */ 314 rwlock_define (,lock); 315 316 union 317 { 318 struct 319 { 320 /* The next fields are only useful when testing for ==/!= NULL. */ 321 void *ehdr; 322 void *shdr; 323 void *phdr; 324 325 Elf_ScnList *scns_last; /* Last element in the section list. 326 If NULL the data has not yet been 327 read from the file. */ 328 Elf_Data_Chunk *rawchunks; /* List of elf_getdata_rawchunk results. */ 329 unsigned int scnincr; /* Number of sections allocate the last 330 time. */ 331 int ehdr_flags; /* Flags (dirty) for ELF header. */ 332 int phdr_flags; /* Flags (dirty|malloc) for program header. */ 333 int shdr_malloced; /* Nonzero if shdr array was allocated. */ 334 off_t sizestr_offset; /* Offset of the size string in the parent 335 if this is an archive member. */ 336 } elf; 337 338 struct 339 { 340 Elf32_Ehdr *ehdr; /* Pointer to the ELF header. This is 341 never malloced. */ 342 Elf32_Shdr *shdr; /* Used when reading from a file. */ 343 Elf32_Phdr *phdr; /* Pointer to the program header array. */ 344 Elf_ScnList *scns_last; /* Last element in the section list. 345 If NULL the data has not yet been 346 read from the file. */ 347 Elf_Data_Chunk *rawchunks; /* List of elf_getdata_rawchunk results. */ 348 unsigned int scnincr; /* Number of sections allocate the last 349 time. */ 350 int ehdr_flags; /* Flags (dirty) for ELF header. */ 351 int phdr_flags; /* Flags (dirty|malloc) for program header. */ 352 int shdr_malloced; /* Nonzero if shdr array was allocated. */ 353 off_t sizestr_offset; /* Offset of the size string in the parent 354 if this is an archive member. */ 355 Elf32_Ehdr ehdr_mem; /* Memory used for ELF header when not 356 mmaped. */ 357 char __e32scnspad[sizeof (Elf64_Ehdr) - sizeof (Elf32_Ehdr)]; 358 359 /* The section array. */ 360 Elf_ScnList scns; 361 } elf32; 362 363 struct 364 { 365 Elf64_Ehdr *ehdr; /* Pointer to the ELF header. This is 366 never malloced. */ 367 Elf64_Shdr *shdr; /* Used when reading from a file. */ 368 Elf64_Phdr *phdr; /* Pointer to the program header array. */ 369 Elf_ScnList *scns_last; /* Last element in the section list. 370 If NULL the data has not yet been 371 read from the file. */ 372 Elf_Data_Chunk *rawchunks; /* List of elf_getdata_rawchunk results. */ 373 unsigned int scnincr; /* Number of sections allocate the last 374 time. */ 375 int ehdr_flags; /* Flags (dirty) for ELF header. */ 376 int phdr_flags; /* Flags (dirty|malloc) for program header. */ 377 int shdr_malloced; /* Nonzero if shdr array was allocated. */ 378 off_t sizestr_offset; /* Offset of the size string in the parent 379 if this is an archive member. */ 380 Elf64_Ehdr ehdr_mem; /* Memory used for ELF header when not 381 mmaped. */ 382 383 /* The section array. */ 384 Elf_ScnList scns; 385 } elf64; 386 387 struct 388 { 389 Elf *children; /* List of all descriptors for this archive. */ 390 Elf_Arsym *ar_sym; /* Symbol table returned by elf_getarsym. */ 391 size_t ar_sym_num; /* Number of entries in `ar_sym'. */ 392 char *long_names; /* If no index is available but long names 393 are used this elements points to the data.*/ 394 size_t long_names_len; /* Length of the long name table. */ 395 off_t offset; /* Offset in file we are currently at. 396 elf_next() advances this to the next 397 member of the archive. */ 398 Elf_Arhdr elf_ar_hdr; /* Structure returned by 'elf_getarhdr'. */ 399 struct ar_hdr ar_hdr; /* Header read from file. */ 400 char ar_name[16]; /* NUL terminated ar_name of elf_ar_hdr. */ 401 char raw_name[17]; /* This is a buffer for the NUL terminated 402 named raw_name used in the elf_ar_hdr. */ 403 } ar; 404 } state; 405 406 /* There absolutely never must be anything following the union. */ 407 }; 408 409 /* Type of the conversion functions. These functions will convert the 410 byte order. */ 411 typedef void (*xfct_t) (void *, const void *, size_t, int); 412 413 /* The table with the function pointers. */ 414 extern const xfct_t __elf_xfctstom[ELFCLASSNUM - 1][ELF_T_NUM] 415 attribute_hidden; 416 417 418 /* Array with sizes of the external types indexed by ELF version, binary 419 class, and type. */ 420 extern const size_t __libelf_type_sizes[ELFCLASSNUM - 1][ELF_T_NUM] 421 attribute_hidden; 422 /* We often have to access the size for a type in the current version. */ 423 # define elf_typesize(class,type,n) \ 424 (__libelf_type_sizes[ELFW(ELFCLASS,class) - 1][type] * n) 425 426 /* The byte value used for filling gaps. */ 427 extern int __libelf_fill_byte attribute_hidden; 428 429 /* EV_CURRENT if the version was set, EV_NONE otherwise. */ 430 extern unsigned int __libelf_version attribute_hidden; 431 432 /* Array with alignment requirements of the internal types indexed by 433 binary class, and type. */ 434 extern const uint_fast8_t __libelf_type_aligns[ELFCLASSNUM - 1][ELF_T_NUM] 435 attribute_hidden; 436 # define __libelf_type_align(class, type) \ 437 (__libelf_type_aligns[class - 1][type] ?: 1) 438 439 /* Given an Elf handle and a section type returns the Elf_Data d_type. 440 Should not be called when SHF_COMPRESSED is set, the d_type should 441 be ELF_T_BYTE. */ 442 extern Elf_Type __libelf_data_type (Elf *elf, int sh_type, GElf_Xword align) 443 internal_function; 444 445 446 /* Create Elf descriptor from memory image. */ 447 extern Elf *__libelf_read_mmaped_file (int fildes, void *map_address, 448 off_t offset, size_t maxsize, 449 Elf_Cmd cmd, Elf *parent) 450 internal_function; 451 452 /* Set error value. */ 453 extern void __libelf_seterrno (int value) internal_function; 454 455 /* Get the next archive header. */ 456 extern int __libelf_next_arhdr_wrlock (Elf *elf) internal_function; 457 458 /* Read all of the file associated with the descriptor. */ 459 extern char *__libelf_readall (Elf *elf) internal_function; 460 461 /* Read the complete section table and convert the byte order if necessary. */ 462 extern int __libelf_readsections (Elf *elf) internal_function; 463 464 /* Store the information for the raw data in the `rawdata_list' element. */ 465 extern int __libelf_set_rawdata (Elf_Scn *scn) internal_function; 466 extern int __libelf_set_rawdata_wrlock (Elf_Scn *scn) internal_function; 467 468 469 /* Helper functions for elf_update. */ 470 extern off_t __elf32_updatenull_wrlock (Elf *elf, int *change_bop, 471 size_t shnum) internal_function; 472 extern off_t __elf64_updatenull_wrlock (Elf *elf, int *change_bop, 473 size_t shnum) internal_function; 474 475 extern int __elf32_updatemmap (Elf *elf, int change_bo, size_t shnum) 476 internal_function; 477 extern int __elf64_updatemmap (Elf *elf, int change_bo, size_t shnum) 478 internal_function; 479 extern int __elf32_updatefile (Elf *elf, int change_bo, size_t shnum) 480 internal_function; 481 extern int __elf64_updatefile (Elf *elf, int change_bo, size_t shnum) 482 internal_function; 483 484 485 /* Alias for exported functions to avoid PLT entries, and 486 rdlock/wrlock variants of these functions. */ 487 extern int __elf_end_internal (Elf *__elf) attribute_hidden; 488 extern Elf *__elf_begin_internal (int __fildes, Elf_Cmd __cmd, Elf *__ref) 489 attribute_hidden; 490 extern Elf32_Ehdr *__elf32_getehdr_wrlock (Elf *__elf) internal_function; 491 extern Elf64_Ehdr *__elf64_getehdr_wrlock (Elf *__elf) internal_function; 492 extern Elf32_Ehdr *__elf32_newehdr_internal (Elf *__elf) attribute_hidden; 493 extern Elf64_Ehdr *__elf64_newehdr_internal (Elf *__elf) attribute_hidden; 494 extern Elf32_Phdr *__elf32_getphdr_internal (Elf *__elf) attribute_hidden; 495 extern Elf64_Phdr *__elf64_getphdr_internal (Elf *__elf) attribute_hidden; 496 extern Elf32_Phdr *__elf32_getphdr_wrlock (Elf *__elf) attribute_hidden; 497 extern Elf64_Phdr *__elf64_getphdr_wrlock (Elf *__elf) attribute_hidden; 498 extern Elf32_Phdr *__elf32_newphdr_internal (Elf *__elf, size_t __cnt) 499 attribute_hidden; 500 extern Elf64_Phdr *__elf64_newphdr_internal (Elf *__elf, size_t __cnt) 501 attribute_hidden; 502 extern Elf_Scn *__elf32_offscn_internal (Elf *__elf, Elf32_Off __offset) 503 attribute_hidden; 504 extern Elf_Scn *__elf64_offscn_internal (Elf *__elf, Elf64_Off __offset) 505 attribute_hidden; 506 extern int __elf_getphdrnum_rdlock (Elf *__elf, size_t *__dst) 507 internal_function; 508 extern int __elf_getphdrnum_chk_rdlock (Elf *__elf, size_t *__dst) 509 internal_function; 510 extern int __elf_getshdrnum_rdlock (Elf *__elf, size_t *__dst) 511 internal_function; 512 extern int __elf_getshdrstrndx_internal (Elf *__elf, size_t *__dst) 513 attribute_hidden; 514 extern Elf32_Shdr *__elf32_getshdr_rdlock (Elf_Scn *__scn) internal_function; 515 extern Elf64_Shdr *__elf64_getshdr_rdlock (Elf_Scn *__scn) internal_function; 516 extern Elf32_Shdr *__elf32_getshdr_wrlock (Elf_Scn *__scn) internal_function; 517 extern Elf64_Shdr *__elf64_getshdr_wrlock (Elf_Scn *__scn) internal_function; 518 extern Elf_Scn *__elf_getscn_internal (Elf *__elf, size_t __index) 519 attribute_hidden; 520 extern Elf_Scn *__elf_nextscn_internal (Elf *__elf, Elf_Scn *__scn) 521 attribute_hidden; 522 extern int __elf_scnshndx_internal (Elf_Scn *__scn) attribute_hidden; 523 extern Elf_Data *__elf_getdata_internal (Elf_Scn *__scn, Elf_Data *__data) 524 attribute_hidden; 525 extern Elf_Data *__elf_getdata_rdlock (Elf_Scn *__scn, Elf_Data *__data) 526 internal_function; 527 extern Elf_Data *__elf_rawdata_internal (Elf_Scn *__scn, Elf_Data *__data) 528 attribute_hidden; 529 /* Should be called to setup first section data element if 530 data_list_rear is NULL and we know data_read is set and there is 531 raw data available. Might upgrade the ELF lock from a read to a 532 write lock. If the lock is already a write lock set wrlocked. */ 533 extern void __libelf_set_data_list_rdlock (Elf_Scn *scn, int wrlocked) 534 internal_function; 535 extern char *__elf_strptr_internal (Elf *__elf, size_t __index, 536 size_t __offset) attribute_hidden; 537 extern Elf_Data *__elf32_xlatetom_internal (Elf_Data *__dest, 538 const Elf_Data *__src, 539 unsigned int __encode) 540 attribute_hidden; 541 extern Elf_Data *__elf64_xlatetom_internal (Elf_Data *__dest, 542 const Elf_Data *__src, 543 unsigned int __encode) 544 attribute_hidden; 545 extern Elf_Data *__elf32_xlatetof_internal (Elf_Data *__dest, 546 const Elf_Data *__src, 547 unsigned int __encode) 548 attribute_hidden; 549 extern Elf_Data *__elf64_xlatetof_internal (Elf_Data *__dest, 550 const Elf_Data *__src, 551 unsigned int __encode) 552 attribute_hidden; 553 extern unsigned int __elf_version_internal (unsigned int __version) 554 attribute_hidden; 555 extern unsigned long int __elf_hash_internal (const char *__string) 556 __attribute__ ((__pure__)) attribute_hidden; 557 extern long int __elf32_checksum_internal (Elf *__elf) attribute_hidden; 558 extern long int __elf64_checksum_internal (Elf *__elf) attribute_hidden; 559 560 561 extern GElf_Ehdr *__gelf_getehdr_rdlock (Elf *__elf, GElf_Ehdr *__dest) 562 internal_function; 563 extern size_t __gelf_fsize_internal (Elf *__elf, Elf_Type __type, 564 size_t __count, unsigned int __version) 565 attribute_hidden; 566 extern GElf_Shdr *__gelf_getshdr_internal (Elf_Scn *__scn, GElf_Shdr *__dst) 567 attribute_hidden; 568 extern GElf_Sym *__gelf_getsym_internal (Elf_Data *__data, int __ndx, 569 GElf_Sym *__dst) attribute_hidden; 570 571 572 extern uint32_t __libelf_crc32 (uint32_t crc, unsigned char *buf, size_t len) 573 attribute_hidden; 574 575 extern void * __libelf_compress (Elf_Scn *scn, size_t hsize, int ei_data, 576 size_t *orig_size, size_t *orig_addralign, 577 size_t *size, bool force) 578 internal_function; 579 580 extern void * __libelf_decompress (void *buf_in, size_t size_in, 581 size_t size_out) internal_function; 582 extern void * __libelf_decompress_elf (Elf_Scn *scn, 583 size_t *size_out, size_t *addralign) 584 internal_function; 585 586 587 extern void __libelf_reset_rawdata (Elf_Scn *scn, void *buf, size_t size, 588 size_t align, Elf_Type type) 589 internal_function; 590 591 592 /* We often have to update a flag iff a value changed. Make this 593 convenient. */ 594 #define update_if_changed(var, exp, flag) \ 595 do { \ 596 __typeof__ (var) *_var = &(var); \ 597 __typeof__ (exp) _exp = (exp); \ 598 if (*_var != _exp) \ 599 { \ 600 *_var = _exp; \ 601 (flag) |= ELF_F_DIRTY; \ 602 } \ 603 } while (0) 604 605 /* Align offset to 4 bytes as needed for note name and descriptor data. 606 This is almost always used, except for GNU Property notes, which use 607 8 byte padding... */ 608 #define NOTE_ALIGN4(n) (((n) + 3) & -4U) 609 610 /* Special note padding rule for GNU Property notes. */ 611 #define NOTE_ALIGN8(n) (((n) + 7) & -8U) 612 613 /* Convenience macro. */ 614 #define INVALID_NDX(ndx, type, data) \ 615 unlikely ((data)->d_size / sizeof (type) <= (unsigned int) (ndx)) 616 617 #endif /* libelfP.h */ 618