archive_read_support_format_iso9660.c revision 338034
166868Sadrian/*- 21558Srgrimes * Copyright (c) 2003-2007 Tim Kientzle 31558Srgrimes * Copyright (c) 2009 Andreas Henriksson <andreas@fatal.se> 41558Srgrimes * Copyright (c) 2009-2012 Michihiro NAKAJIMA 5175678Smpp * All rights reserved. 6126178Sjohan * 774815Sru * Redistribution and use in source and binary forms, with or without 8207736Smckusick * modification, are permitted provided that the following conditions 9207736Smckusick * are met: 1087325Sobrien * 1. Redistributions of source code must retain the above copyright 11175678Smpp * notice, this list of conditions and the following disclaimer. 121558Srgrimes * 2. Redistributions in binary form must reproduce the above copyright 131558Srgrimes * notice, this list of conditions and the following disclaimer in the 14 * documentation and/or other materials provided with the distribution. 15 * 16 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR(S) ``AS IS'' AND ANY EXPRESS OR 17 * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 18 * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 19 * IN NO EVENT SHALL THE AUTHOR(S) BE LIABLE FOR ANY DIRECT, INDIRECT, 20 * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 21 * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 22 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 23 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 24 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 25 * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 26 */ 27 28#include "archive_platform.h" 29__FBSDID("$FreeBSD: stable/10/contrib/libarchive/libarchive/archive_read_support_format_iso9660.c 338034 2018-08-18 23:24:53Z mm $"); 30 31#ifdef HAVE_ERRNO_H 32#include <errno.h> 33#endif 34/* #include <stdint.h> */ /* See archive_platform.h */ 35#include <stdio.h> 36#ifdef HAVE_STDLIB_H 37#include <stdlib.h> 38#endif 39#ifdef HAVE_STRING_H 40#include <string.h> 41#endif 42#include <time.h> 43#ifdef HAVE_ZLIB_H 44#include <zlib.h> 45#endif 46 47#include "archive.h" 48#include "archive_endian.h" 49#include "archive_entry.h" 50#include "archive_entry_locale.h" 51#include "archive_private.h" 52#include "archive_read_private.h" 53#include "archive_string.h" 54 55/* 56 * An overview of ISO 9660 format: 57 * 58 * Each disk is laid out as follows: 59 * * 32k reserved for private use 60 * * Volume descriptor table. Each volume descriptor 61 * is 2k and specifies basic format information. 62 * The "Primary Volume Descriptor" (PVD) is defined by the 63 * standard and should always be present; other volume 64 * descriptors include various vendor-specific extensions. 65 * * Files and directories. Each file/dir is specified by 66 * an "extent" (starting sector and length in bytes). 67 * Dirs are just files with directory records packed one 68 * after another. The PVD contains a single dir entry 69 * specifying the location of the root directory. Everything 70 * else follows from there. 71 * 72 * This module works by first reading the volume descriptors, then 73 * building a list of directory entries, sorted by starting 74 * sector. At each step, I look for the earliest dir entry that 75 * hasn't yet been read, seek forward to that location and read 76 * that entry. If it's a dir, I slurp in the new dir entries and 77 * add them to the heap; if it's a regular file, I return the 78 * corresponding archive_entry and wait for the client to request 79 * the file body. This strategy allows us to read most compliant 80 * CDs with a single pass through the data, as required by libarchive. 81 */ 82#define LOGICAL_BLOCK_SIZE 2048 83#define SYSTEM_AREA_BLOCK 16 84 85/* Structure of on-disk primary volume descriptor. */ 86#define PVD_type_offset 0 87#define PVD_type_size 1 88#define PVD_id_offset (PVD_type_offset + PVD_type_size) 89#define PVD_id_size 5 90#define PVD_version_offset (PVD_id_offset + PVD_id_size) 91#define PVD_version_size 1 92#define PVD_reserved1_offset (PVD_version_offset + PVD_version_size) 93#define PVD_reserved1_size 1 94#define PVD_system_id_offset (PVD_reserved1_offset + PVD_reserved1_size) 95#define PVD_system_id_size 32 96#define PVD_volume_id_offset (PVD_system_id_offset + PVD_system_id_size) 97#define PVD_volume_id_size 32 98#define PVD_reserved2_offset (PVD_volume_id_offset + PVD_volume_id_size) 99#define PVD_reserved2_size 8 100#define PVD_volume_space_size_offset (PVD_reserved2_offset + PVD_reserved2_size) 101#define PVD_volume_space_size_size 8 102#define PVD_reserved3_offset (PVD_volume_space_size_offset + PVD_volume_space_size_size) 103#define PVD_reserved3_size 32 104#define PVD_volume_set_size_offset (PVD_reserved3_offset + PVD_reserved3_size) 105#define PVD_volume_set_size_size 4 106#define PVD_volume_sequence_number_offset (PVD_volume_set_size_offset + PVD_volume_set_size_size) 107#define PVD_volume_sequence_number_size 4 108#define PVD_logical_block_size_offset (PVD_volume_sequence_number_offset + PVD_volume_sequence_number_size) 109#define PVD_logical_block_size_size 4 110#define PVD_path_table_size_offset (PVD_logical_block_size_offset + PVD_logical_block_size_size) 111#define PVD_path_table_size_size 8 112#define PVD_type_1_path_table_offset (PVD_path_table_size_offset + PVD_path_table_size_size) 113#define PVD_type_1_path_table_size 4 114#define PVD_opt_type_1_path_table_offset (PVD_type_1_path_table_offset + PVD_type_1_path_table_size) 115#define PVD_opt_type_1_path_table_size 4 116#define PVD_type_m_path_table_offset (PVD_opt_type_1_path_table_offset + PVD_opt_type_1_path_table_size) 117#define PVD_type_m_path_table_size 4 118#define PVD_opt_type_m_path_table_offset (PVD_type_m_path_table_offset + PVD_type_m_path_table_size) 119#define PVD_opt_type_m_path_table_size 4 120#define PVD_root_directory_record_offset (PVD_opt_type_m_path_table_offset + PVD_opt_type_m_path_table_size) 121#define PVD_root_directory_record_size 34 122#define PVD_volume_set_id_offset (PVD_root_directory_record_offset + PVD_root_directory_record_size) 123#define PVD_volume_set_id_size 128 124#define PVD_publisher_id_offset (PVD_volume_set_id_offset + PVD_volume_set_id_size) 125#define PVD_publisher_id_size 128 126#define PVD_preparer_id_offset (PVD_publisher_id_offset + PVD_publisher_id_size) 127#define PVD_preparer_id_size 128 128#define PVD_application_id_offset (PVD_preparer_id_offset + PVD_preparer_id_size) 129#define PVD_application_id_size 128 130#define PVD_copyright_file_id_offset (PVD_application_id_offset + PVD_application_id_size) 131#define PVD_copyright_file_id_size 37 132#define PVD_abstract_file_id_offset (PVD_copyright_file_id_offset + PVD_copyright_file_id_size) 133#define PVD_abstract_file_id_size 37 134#define PVD_bibliographic_file_id_offset (PVD_abstract_file_id_offset + PVD_abstract_file_id_size) 135#define PVD_bibliographic_file_id_size 37 136#define PVD_creation_date_offset (PVD_bibliographic_file_id_offset + PVD_bibliographic_file_id_size) 137#define PVD_creation_date_size 17 138#define PVD_modification_date_offset (PVD_creation_date_offset + PVD_creation_date_size) 139#define PVD_modification_date_size 17 140#define PVD_expiration_date_offset (PVD_modification_date_offset + PVD_modification_date_size) 141#define PVD_expiration_date_size 17 142#define PVD_effective_date_offset (PVD_expiration_date_offset + PVD_expiration_date_size) 143#define PVD_effective_date_size 17 144#define PVD_file_structure_version_offset (PVD_effective_date_offset + PVD_effective_date_size) 145#define PVD_file_structure_version_size 1 146#define PVD_reserved4_offset (PVD_file_structure_version_offset + PVD_file_structure_version_size) 147#define PVD_reserved4_size 1 148#define PVD_application_data_offset (PVD_reserved4_offset + PVD_reserved4_size) 149#define PVD_application_data_size 512 150#define PVD_reserved5_offset (PVD_application_data_offset + PVD_application_data_size) 151#define PVD_reserved5_size (2048 - PVD_reserved5_offset) 152 153/* TODO: It would make future maintenance easier to just hardcode the 154 * above values. In particular, ECMA119 states the offsets as part of 155 * the standard. That would eliminate the need for the following check.*/ 156#if PVD_reserved5_offset != 1395 157#error PVD offset and size definitions are wrong. 158#endif 159 160 161/* Structure of optional on-disk supplementary volume descriptor. */ 162#define SVD_type_offset 0 163#define SVD_type_size 1 164#define SVD_id_offset (SVD_type_offset + SVD_type_size) 165#define SVD_id_size 5 166#define SVD_version_offset (SVD_id_offset + SVD_id_size) 167#define SVD_version_size 1 168/* ... */ 169#define SVD_reserved1_offset 72 170#define SVD_reserved1_size 8 171#define SVD_volume_space_size_offset 80 172#define SVD_volume_space_size_size 8 173#define SVD_escape_sequences_offset (SVD_volume_space_size_offset + SVD_volume_space_size_size) 174#define SVD_escape_sequences_size 32 175/* ... */ 176#define SVD_logical_block_size_offset 128 177#define SVD_logical_block_size_size 4 178#define SVD_type_L_path_table_offset 140 179#define SVD_type_M_path_table_offset 148 180/* ... */ 181#define SVD_root_directory_record_offset 156 182#define SVD_root_directory_record_size 34 183#define SVD_file_structure_version_offset 881 184#define SVD_reserved2_offset 882 185#define SVD_reserved2_size 1 186#define SVD_reserved3_offset 1395 187#define SVD_reserved3_size 653 188/* ... */ 189/* FIXME: validate correctness of last SVD entry offset. */ 190 191/* Structure of an on-disk directory record. */ 192/* Note: ISO9660 stores each multi-byte integer twice, once in 193 * each byte order. The sizes here are the size of just one 194 * of the two integers. (This is why the offset of a field isn't 195 * the same as the offset+size of the previous field.) */ 196#define DR_length_offset 0 197#define DR_length_size 1 198#define DR_ext_attr_length_offset 1 199#define DR_ext_attr_length_size 1 200#define DR_extent_offset 2 201#define DR_extent_size 4 202#define DR_size_offset 10 203#define DR_size_size 4 204#define DR_date_offset 18 205#define DR_date_size 7 206#define DR_flags_offset 25 207#define DR_flags_size 1 208#define DR_file_unit_size_offset 26 209#define DR_file_unit_size_size 1 210#define DR_interleave_offset 27 211#define DR_interleave_size 1 212#define DR_volume_sequence_number_offset 28 213#define DR_volume_sequence_number_size 2 214#define DR_name_len_offset 32 215#define DR_name_len_size 1 216#define DR_name_offset 33 217 218#ifdef HAVE_ZLIB_H 219static const unsigned char zisofs_magic[8] = { 220 0x37, 0xE4, 0x53, 0x96, 0xC9, 0xDB, 0xD6, 0x07 221}; 222 223struct zisofs { 224 /* Set 1 if this file compressed by paged zlib */ 225 int pz; 226 int pz_log2_bs; /* Log2 of block size */ 227 uint64_t pz_uncompressed_size; 228 229 int initialized; 230 unsigned char *uncompressed_buffer; 231 size_t uncompressed_buffer_size; 232 233 uint32_t pz_offset; 234 unsigned char header[16]; 235 size_t header_avail; 236 int header_passed; 237 unsigned char *block_pointers; 238 size_t block_pointers_alloc; 239 size_t block_pointers_size; 240 size_t block_pointers_avail; 241 size_t block_off; 242 uint32_t block_avail; 243 244 z_stream stream; 245 int stream_valid; 246}; 247#else 248struct zisofs { 249 /* Set 1 if this file compressed by paged zlib */ 250 int pz; 251}; 252#endif 253 254struct content { 255 uint64_t offset;/* Offset on disk. */ 256 uint64_t size; /* File size in bytes. */ 257 struct content *next; 258}; 259 260/* In-memory storage for a directory record. */ 261struct file_info { 262 struct file_info *use_next; 263 struct file_info *parent; 264 struct file_info *next; 265 struct file_info *re_next; 266 int subdirs; 267 uint64_t key; /* Heap Key. */ 268 uint64_t offset; /* Offset on disk. */ 269 uint64_t size; /* File size in bytes. */ 270 uint32_t ce_offset; /* Offset of CE. */ 271 uint32_t ce_size; /* Size of CE. */ 272 char rr_moved; /* Flag to rr_moved. */ 273 char rr_moved_has_re_only; 274 char re; /* Having RRIP "RE" extension. */ 275 char re_descendant; 276 uint64_t cl_offset; /* Having RRIP "CL" extension. */ 277 int birthtime_is_set; 278 time_t birthtime; /* File created time. */ 279 time_t mtime; /* File last modified time. */ 280 time_t atime; /* File last accessed time. */ 281 time_t ctime; /* File attribute change time. */ 282 uint64_t rdev; /* Device number. */ 283 mode_t mode; 284 uid_t uid; 285 gid_t gid; 286 int64_t number; 287 int nlinks; 288 struct archive_string name; /* Pathname */ 289 unsigned char *utf16be_name; 290 size_t utf16be_bytes; 291 char name_continues; /* Non-zero if name continues */ 292 struct archive_string symlink; 293 char symlink_continues; /* Non-zero if link continues */ 294 /* Set 1 if this file compressed by paged zlib(zisofs) */ 295 int pz; 296 int pz_log2_bs; /* Log2 of block size */ 297 uint64_t pz_uncompressed_size; 298 /* Set 1 if this file is multi extent. */ 299 int multi_extent; 300 struct { 301 struct content *first; 302 struct content **last; 303 } contents; 304 struct { 305 struct file_info *first; 306 struct file_info **last; 307 } rede_files; 308}; 309 310struct heap_queue { 311 struct file_info **files; 312 int allocated; 313 int used; 314}; 315 316struct iso9660 { 317 int magic; 318#define ISO9660_MAGIC 0x96609660 319 320 int opt_support_joliet; 321 int opt_support_rockridge; 322 323 struct archive_string pathname; 324 char seenRockridge; /* Set true if RR extensions are used. */ 325 char seenSUSP; /* Set true if SUSP is being used. */ 326 char seenJoliet; 327 328 unsigned char suspOffset; 329 struct file_info *rr_moved; 330 struct read_ce_queue { 331 struct read_ce_req { 332 uint64_t offset;/* Offset of CE on disk. */ 333 struct file_info *file; 334 } *reqs; 335 int cnt; 336 int allocated; 337 } read_ce_req; 338 339 int64_t previous_number; 340 struct archive_string previous_pathname; 341 342 struct file_info *use_files; 343 struct heap_queue pending_files; 344 struct { 345 struct file_info *first; 346 struct file_info **last; 347 } cache_files; 348 struct { 349 struct file_info *first; 350 struct file_info **last; 351 } re_files; 352 353 uint64_t current_position; 354 ssize_t logical_block_size; 355 uint64_t volume_size; /* Total size of volume in bytes. */ 356 int32_t volume_block;/* Total size of volume in logical blocks. */ 357 358 struct vd { 359 int location; /* Location of Extent. */ 360 uint32_t size; 361 } primary, joliet; 362 363 int64_t entry_sparse_offset; 364 int64_t entry_bytes_remaining; 365 size_t entry_bytes_unconsumed; 366 struct zisofs entry_zisofs; 367 struct content *entry_content; 368 struct archive_string_conv *sconv_utf16be; 369 /* 370 * Buffers for a full pathname in UTF-16BE in Joliet extensions. 371 */ 372#define UTF16_NAME_MAX 1024 373 unsigned char *utf16be_path; 374 size_t utf16be_path_len; 375 unsigned char *utf16be_previous_path; 376 size_t utf16be_previous_path_len; 377 /* Null buffer used in bidder to improve its performance. */ 378 unsigned char null[2048]; 379}; 380 381static int archive_read_format_iso9660_bid(struct archive_read *, int); 382static int archive_read_format_iso9660_options(struct archive_read *, 383 const char *, const char *); 384static int archive_read_format_iso9660_cleanup(struct archive_read *); 385static int archive_read_format_iso9660_read_data(struct archive_read *, 386 const void **, size_t *, int64_t *); 387static int archive_read_format_iso9660_read_data_skip(struct archive_read *); 388static int archive_read_format_iso9660_read_header(struct archive_read *, 389 struct archive_entry *); 390static const char *build_pathname(struct archive_string *, struct file_info *, int); 391static int build_pathname_utf16be(unsigned char *, size_t, size_t *, 392 struct file_info *); 393#if DEBUG 394static void dump_isodirrec(FILE *, const unsigned char *isodirrec); 395#endif 396static time_t time_from_tm(struct tm *); 397static time_t isodate17(const unsigned char *); 398static time_t isodate7(const unsigned char *); 399static int isBootRecord(struct iso9660 *, const unsigned char *); 400static int isVolumePartition(struct iso9660 *, const unsigned char *); 401static int isVDSetTerminator(struct iso9660 *, const unsigned char *); 402static int isJolietSVD(struct iso9660 *, const unsigned char *); 403static int isSVD(struct iso9660 *, const unsigned char *); 404static int isEVD(struct iso9660 *, const unsigned char *); 405static int isPVD(struct iso9660 *, const unsigned char *); 406static int next_cache_entry(struct archive_read *, struct iso9660 *, 407 struct file_info **); 408static int next_entry_seek(struct archive_read *, struct iso9660 *, 409 struct file_info **); 410static struct file_info * 411 parse_file_info(struct archive_read *a, 412 struct file_info *parent, const unsigned char *isodirrec, 413 size_t reclen); 414static int parse_rockridge(struct archive_read *a, 415 struct file_info *file, const unsigned char *start, 416 const unsigned char *end); 417static int register_CE(struct archive_read *a, int32_t location, 418 struct file_info *file); 419static int read_CE(struct archive_read *a, struct iso9660 *iso9660); 420static void parse_rockridge_NM1(struct file_info *, 421 const unsigned char *, int); 422static void parse_rockridge_SL1(struct file_info *, 423 const unsigned char *, int); 424static void parse_rockridge_TF1(struct file_info *, 425 const unsigned char *, int); 426static void parse_rockridge_ZF1(struct file_info *, 427 const unsigned char *, int); 428static void register_file(struct iso9660 *, struct file_info *); 429static void release_files(struct iso9660 *); 430static unsigned toi(const void *p, int n); 431static inline void re_add_entry(struct iso9660 *, struct file_info *); 432static inline struct file_info * re_get_entry(struct iso9660 *); 433static inline int rede_add_entry(struct file_info *); 434static inline struct file_info * rede_get_entry(struct file_info *); 435static inline void cache_add_entry(struct iso9660 *iso9660, 436 struct file_info *file); 437static inline struct file_info *cache_get_entry(struct iso9660 *iso9660); 438static int heap_add_entry(struct archive_read *a, struct heap_queue *heap, 439 struct file_info *file, uint64_t key); 440static struct file_info *heap_get_entry(struct heap_queue *heap); 441 442#define add_entry(arch, iso9660, file) \ 443 heap_add_entry(arch, &((iso9660)->pending_files), file, file->offset) 444#define next_entry(iso9660) \ 445 heap_get_entry(&((iso9660)->pending_files)) 446 447int 448archive_read_support_format_iso9660(struct archive *_a) 449{ 450 struct archive_read *a = (struct archive_read *)_a; 451 struct iso9660 *iso9660; 452 int r; 453 454 archive_check_magic(_a, ARCHIVE_READ_MAGIC, 455 ARCHIVE_STATE_NEW, "archive_read_support_format_iso9660"); 456 457 iso9660 = (struct iso9660 *)calloc(1, sizeof(*iso9660)); 458 if (iso9660 == NULL) { 459 archive_set_error(&a->archive, ENOMEM, 460 "Can't allocate iso9660 data"); 461 return (ARCHIVE_FATAL); 462 } 463 iso9660->magic = ISO9660_MAGIC; 464 iso9660->cache_files.first = NULL; 465 iso9660->cache_files.last = &(iso9660->cache_files.first); 466 iso9660->re_files.first = NULL; 467 iso9660->re_files.last = &(iso9660->re_files.first); 468 /* Enable to support Joliet extensions by default. */ 469 iso9660->opt_support_joliet = 1; 470 /* Enable to support Rock Ridge extensions by default. */ 471 iso9660->opt_support_rockridge = 1; 472 473 r = __archive_read_register_format(a, 474 iso9660, 475 "iso9660", 476 archive_read_format_iso9660_bid, 477 archive_read_format_iso9660_options, 478 archive_read_format_iso9660_read_header, 479 archive_read_format_iso9660_read_data, 480 archive_read_format_iso9660_read_data_skip, 481 NULL, 482 archive_read_format_iso9660_cleanup, 483 NULL, 484 NULL); 485 486 if (r != ARCHIVE_OK) { 487 free(iso9660); 488 return (r); 489 } 490 return (ARCHIVE_OK); 491} 492 493 494static int 495archive_read_format_iso9660_bid(struct archive_read *a, int best_bid) 496{ 497 struct iso9660 *iso9660; 498 ssize_t bytes_read; 499 const unsigned char *p; 500 int seenTerminator; 501 502 /* If there's already a better bid than we can ever 503 make, don't bother testing. */ 504 if (best_bid > 48) 505 return (-1); 506 507 iso9660 = (struct iso9660 *)(a->format->data); 508 509 /* 510 * Skip the first 32k (reserved area) and get the first 511 * 8 sectors of the volume descriptor table. Of course, 512 * if the I/O layer gives us more, we'll take it. 513 */ 514#define RESERVED_AREA (SYSTEM_AREA_BLOCK * LOGICAL_BLOCK_SIZE) 515 p = __archive_read_ahead(a, 516 RESERVED_AREA + 8 * LOGICAL_BLOCK_SIZE, 517 &bytes_read); 518 if (p == NULL) 519 return (-1); 520 521 /* Skip the reserved area. */ 522 bytes_read -= RESERVED_AREA; 523 p += RESERVED_AREA; 524 525 /* Check each volume descriptor. */ 526 seenTerminator = 0; 527 for (; bytes_read > LOGICAL_BLOCK_SIZE; 528 bytes_read -= LOGICAL_BLOCK_SIZE, p += LOGICAL_BLOCK_SIZE) { 529 /* Do not handle undefined Volume Descriptor Type. */ 530 if (p[0] >= 4 && p[0] <= 254) 531 return (0); 532 /* Standard Identifier must be "CD001" */ 533 if (memcmp(p + 1, "CD001", 5) != 0) 534 return (0); 535 if (isPVD(iso9660, p)) 536 continue; 537 if (!iso9660->joliet.location) { 538 if (isJolietSVD(iso9660, p)) 539 continue; 540 } 541 if (isBootRecord(iso9660, p)) 542 continue; 543 if (isEVD(iso9660, p)) 544 continue; 545 if (isSVD(iso9660, p)) 546 continue; 547 if (isVolumePartition(iso9660, p)) 548 continue; 549 if (isVDSetTerminator(iso9660, p)) { 550 seenTerminator = 1; 551 break; 552 } 553 return (0); 554 } 555 /* 556 * ISO 9660 format must have Primary Volume Descriptor and 557 * Volume Descriptor Set Terminator. 558 */ 559 if (seenTerminator && iso9660->primary.location > 16) 560 return (48); 561 562 /* We didn't find a valid PVD; return a bid of zero. */ 563 return (0); 564} 565 566static int 567archive_read_format_iso9660_options(struct archive_read *a, 568 const char *key, const char *val) 569{ 570 struct iso9660 *iso9660; 571 572 iso9660 = (struct iso9660 *)(a->format->data); 573 574 if (strcmp(key, "joliet") == 0) { 575 if (val == NULL || strcmp(val, "off") == 0 || 576 strcmp(val, "ignore") == 0 || 577 strcmp(val, "disable") == 0 || 578 strcmp(val, "0") == 0) 579 iso9660->opt_support_joliet = 0; 580 else 581 iso9660->opt_support_joliet = 1; 582 return (ARCHIVE_OK); 583 } 584 if (strcmp(key, "rockridge") == 0 || 585 strcmp(key, "Rockridge") == 0) { 586 iso9660->opt_support_rockridge = val != NULL; 587 return (ARCHIVE_OK); 588 } 589 590 /* Note: The "warn" return is just to inform the options 591 * supervisor that we didn't handle it. It will generate 592 * a suitable error if no one used this option. */ 593 return (ARCHIVE_WARN); 594} 595 596static int 597isNull(struct iso9660 *iso9660, const unsigned char *h, unsigned offset, 598unsigned bytes) 599{ 600 601 while (bytes >= sizeof(iso9660->null)) { 602 if (!memcmp(iso9660->null, h + offset, sizeof(iso9660->null))) 603 return (0); 604 offset += sizeof(iso9660->null); 605 bytes -= sizeof(iso9660->null); 606 } 607 if (bytes) 608 return memcmp(iso9660->null, h + offset, bytes) == 0; 609 else 610 return (1); 611} 612 613static int 614isBootRecord(struct iso9660 *iso9660, const unsigned char *h) 615{ 616 (void)iso9660; /* UNUSED */ 617 618 /* Type of the Volume Descriptor Boot Record must be 0. */ 619 if (h[0] != 0) 620 return (0); 621 622 /* Volume Descriptor Version must be 1. */ 623 if (h[6] != 1) 624 return (0); 625 626 return (1); 627} 628 629static int 630isVolumePartition(struct iso9660 *iso9660, const unsigned char *h) 631{ 632 int32_t location; 633 634 /* Type of the Volume Partition Descriptor must be 3. */ 635 if (h[0] != 3) 636 return (0); 637 638 /* Volume Descriptor Version must be 1. */ 639 if (h[6] != 1) 640 return (0); 641 /* Unused Field */ 642 if (h[7] != 0) 643 return (0); 644 645 location = archive_le32dec(h + 72); 646 if (location <= SYSTEM_AREA_BLOCK || 647 location >= iso9660->volume_block) 648 return (0); 649 if ((uint32_t)location != archive_be32dec(h + 76)) 650 return (0); 651 652 return (1); 653} 654 655static int 656isVDSetTerminator(struct iso9660 *iso9660, const unsigned char *h) 657{ 658 (void)iso9660; /* UNUSED */ 659 660 /* Type of the Volume Descriptor Set Terminator must be 255. */ 661 if (h[0] != 255) 662 return (0); 663 664 /* Volume Descriptor Version must be 1. */ 665 if (h[6] != 1) 666 return (0); 667 668 /* Reserved field must be 0. */ 669 if (!isNull(iso9660, h, 7, 2048-7)) 670 return (0); 671 672 return (1); 673} 674 675static int 676isJolietSVD(struct iso9660 *iso9660, const unsigned char *h) 677{ 678 const unsigned char *p; 679 ssize_t logical_block_size; 680 int32_t volume_block; 681 682 /* Check if current sector is a kind of Supplementary Volume 683 * Descriptor. */ 684 if (!isSVD(iso9660, h)) 685 return (0); 686 687 /* FIXME: do more validations according to joliet spec. */ 688 689 /* check if this SVD contains joliet extension! */ 690 p = h + SVD_escape_sequences_offset; 691 /* N.B. Joliet spec says p[1] == '\\', but.... */ 692 if (p[0] == '%' && p[1] == '/') { 693 int level = 0; 694 695 if (p[2] == '@') 696 level = 1; 697 else if (p[2] == 'C') 698 level = 2; 699 else if (p[2] == 'E') 700 level = 3; 701 else /* not joliet */ 702 return (0); 703 704 iso9660->seenJoliet = level; 705 706 } else /* not joliet */ 707 return (0); 708 709 logical_block_size = 710 archive_le16dec(h + SVD_logical_block_size_offset); 711 volume_block = archive_le32dec(h + SVD_volume_space_size_offset); 712 713 iso9660->logical_block_size = logical_block_size; 714 iso9660->volume_block = volume_block; 715 iso9660->volume_size = logical_block_size * (uint64_t)volume_block; 716 /* Read Root Directory Record in Volume Descriptor. */ 717 p = h + SVD_root_directory_record_offset; 718 iso9660->joliet.location = archive_le32dec(p + DR_extent_offset); 719 iso9660->joliet.size = archive_le32dec(p + DR_size_offset); 720 721 return (48); 722} 723 724static int 725isSVD(struct iso9660 *iso9660, const unsigned char *h) 726{ 727 const unsigned char *p; 728 ssize_t logical_block_size; 729 int32_t volume_block; 730 int32_t location; 731 732 (void)iso9660; /* UNUSED */ 733 734 /* Type 2 means it's a SVD. */ 735 if (h[SVD_type_offset] != 2) 736 return (0); 737 738 /* Reserved field must be 0. */ 739 if (!isNull(iso9660, h, SVD_reserved1_offset, SVD_reserved1_size)) 740 return (0); 741 if (!isNull(iso9660, h, SVD_reserved2_offset, SVD_reserved2_size)) 742 return (0); 743 if (!isNull(iso9660, h, SVD_reserved3_offset, SVD_reserved3_size)) 744 return (0); 745 746 /* File structure version must be 1 for ISO9660/ECMA119. */ 747 if (h[SVD_file_structure_version_offset] != 1) 748 return (0); 749 750 logical_block_size = 751 archive_le16dec(h + SVD_logical_block_size_offset); 752 if (logical_block_size <= 0) 753 return (0); 754 755 volume_block = archive_le32dec(h + SVD_volume_space_size_offset); 756 if (volume_block <= SYSTEM_AREA_BLOCK+4) 757 return (0); 758 759 /* Location of Occurrence of Type L Path Table must be 760 * available location, 761 * >= SYSTEM_AREA_BLOCK(16) + 2 and < Volume Space Size. */ 762 location = archive_le32dec(h+SVD_type_L_path_table_offset); 763 if (location < SYSTEM_AREA_BLOCK+2 || location >= volume_block) 764 return (0); 765 766 /* The Type M Path Table must be at a valid location (WinISO 767 * and probably other programs omit this, so we allow zero) 768 * 769 * >= SYSTEM_AREA_BLOCK(16) + 2 and < Volume Space Size. */ 770 location = archive_be32dec(h+SVD_type_M_path_table_offset); 771 if ((location > 0 && location < SYSTEM_AREA_BLOCK+2) 772 || location >= volume_block) 773 return (0); 774 775 /* Read Root Directory Record in Volume Descriptor. */ 776 p = h + SVD_root_directory_record_offset; 777 if (p[DR_length_offset] != 34) 778 return (0); 779 780 return (48); 781} 782 783static int 784isEVD(struct iso9660 *iso9660, const unsigned char *h) 785{ 786 const unsigned char *p; 787 ssize_t logical_block_size; 788 int32_t volume_block; 789 int32_t location; 790 791 (void)iso9660; /* UNUSED */ 792 793 /* Type of the Enhanced Volume Descriptor must be 2. */ 794 if (h[PVD_type_offset] != 2) 795 return (0); 796 797 /* EVD version must be 2. */ 798 if (h[PVD_version_offset] != 2) 799 return (0); 800 801 /* Reserved field must be 0. */ 802 if (h[PVD_reserved1_offset] != 0) 803 return (0); 804 805 /* Reserved field must be 0. */ 806 if (!isNull(iso9660, h, PVD_reserved2_offset, PVD_reserved2_size)) 807 return (0); 808 809 /* Reserved field must be 0. */ 810 if (!isNull(iso9660, h, PVD_reserved3_offset, PVD_reserved3_size)) 811 return (0); 812 813 /* Logical block size must be > 0. */ 814 /* I've looked at Ecma 119 and can't find any stronger 815 * restriction on this field. */ 816 logical_block_size = 817 archive_le16dec(h + PVD_logical_block_size_offset); 818 if (logical_block_size <= 0) 819 return (0); 820 821 volume_block = 822 archive_le32dec(h + PVD_volume_space_size_offset); 823 if (volume_block <= SYSTEM_AREA_BLOCK+4) 824 return (0); 825 826 /* File structure version must be 2 for ISO9660:1999. */ 827 if (h[PVD_file_structure_version_offset] != 2) 828 return (0); 829 830 /* Location of Occurrence of Type L Path Table must be 831 * available location, 832 * >= SYSTEM_AREA_BLOCK(16) + 2 and < Volume Space Size. */ 833 location = archive_le32dec(h+PVD_type_1_path_table_offset); 834 if (location < SYSTEM_AREA_BLOCK+2 || location >= volume_block) 835 return (0); 836 837 /* Location of Occurrence of Type M Path Table must be 838 * available location, 839 * >= SYSTEM_AREA_BLOCK(16) + 2 and < Volume Space Size. */ 840 location = archive_be32dec(h+PVD_type_m_path_table_offset); 841 if ((location > 0 && location < SYSTEM_AREA_BLOCK+2) 842 || location >= volume_block) 843 return (0); 844 845 /* Reserved field must be 0. */ 846 if (!isNull(iso9660, h, PVD_reserved4_offset, PVD_reserved4_size)) 847 return (0); 848 849 /* Reserved field must be 0. */ 850 if (!isNull(iso9660, h, PVD_reserved5_offset, PVD_reserved5_size)) 851 return (0); 852 853 /* Read Root Directory Record in Volume Descriptor. */ 854 p = h + PVD_root_directory_record_offset; 855 if (p[DR_length_offset] != 34) 856 return (0); 857 858 return (48); 859} 860 861static int 862isPVD(struct iso9660 *iso9660, const unsigned char *h) 863{ 864 const unsigned char *p; 865 ssize_t logical_block_size; 866 int32_t volume_block; 867 int32_t location; 868 int i; 869 870 /* Type of the Primary Volume Descriptor must be 1. */ 871 if (h[PVD_type_offset] != 1) 872 return (0); 873 874 /* PVD version must be 1. */ 875 if (h[PVD_version_offset] != 1) 876 return (0); 877 878 /* Reserved field must be 0. */ 879 if (h[PVD_reserved1_offset] != 0) 880 return (0); 881 882 /* Reserved field must be 0. */ 883 if (!isNull(iso9660, h, PVD_reserved2_offset, PVD_reserved2_size)) 884 return (0); 885 886 /* Reserved field must be 0. */ 887 if (!isNull(iso9660, h, PVD_reserved3_offset, PVD_reserved3_size)) 888 return (0); 889 890 /* Logical block size must be > 0. */ 891 /* I've looked at Ecma 119 and can't find any stronger 892 * restriction on this field. */ 893 logical_block_size = 894 archive_le16dec(h + PVD_logical_block_size_offset); 895 if (logical_block_size <= 0) 896 return (0); 897 898 volume_block = archive_le32dec(h + PVD_volume_space_size_offset); 899 if (volume_block <= SYSTEM_AREA_BLOCK+4) 900 return (0); 901 902 /* File structure version must be 1 for ISO9660/ECMA119. */ 903 if (h[PVD_file_structure_version_offset] != 1) 904 return (0); 905 906 /* Location of Occurrence of Type L Path Table must be 907 * available location, 908 * > SYSTEM_AREA_BLOCK(16) + 2 and < Volume Space Size. */ 909 location = archive_le32dec(h+PVD_type_1_path_table_offset); 910 if (location < SYSTEM_AREA_BLOCK+2 || location >= volume_block) 911 return (0); 912 913 /* The Type M Path Table must also be at a valid location 914 * (although ECMA 119 requires a Type M Path Table, WinISO and 915 * probably other programs omit it, so we permit a zero here) 916 * 917 * >= SYSTEM_AREA_BLOCK(16) + 2 and < Volume Space Size. */ 918 location = archive_be32dec(h+PVD_type_m_path_table_offset); 919 if ((location > 0 && location < SYSTEM_AREA_BLOCK+2) 920 || location >= volume_block) 921 return (0); 922 923 /* Reserved field must be 0. */ 924 /* But accept NetBSD/FreeBSD "makefs" images with 0x20 here. */ 925 for (i = 0; i < PVD_reserved4_size; ++i) 926 if (h[PVD_reserved4_offset + i] != 0 927 && h[PVD_reserved4_offset + i] != 0x20) 928 return (0); 929 930 /* Reserved field must be 0. */ 931 if (!isNull(iso9660, h, PVD_reserved5_offset, PVD_reserved5_size)) 932 return (0); 933 934 /* XXX TODO: Check other values for sanity; reject more 935 * malformed PVDs. XXX */ 936 937 /* Read Root Directory Record in Volume Descriptor. */ 938 p = h + PVD_root_directory_record_offset; 939 if (p[DR_length_offset] != 34) 940 return (0); 941 942 if (!iso9660->primary.location) { 943 iso9660->logical_block_size = logical_block_size; 944 iso9660->volume_block = volume_block; 945 iso9660->volume_size = 946 logical_block_size * (uint64_t)volume_block; 947 iso9660->primary.location = 948 archive_le32dec(p + DR_extent_offset); 949 iso9660->primary.size = archive_le32dec(p + DR_size_offset); 950 } 951 952 return (48); 953} 954 955static int 956read_children(struct archive_read *a, struct file_info *parent) 957{ 958 struct iso9660 *iso9660; 959 const unsigned char *b, *p; 960 struct file_info *multi; 961 size_t step, skip_size; 962 963 iso9660 = (struct iso9660 *)(a->format->data); 964 /* flush any remaining bytes from the last round to ensure 965 * we're positioned */ 966 if (iso9660->entry_bytes_unconsumed) { 967 __archive_read_consume(a, iso9660->entry_bytes_unconsumed); 968 iso9660->entry_bytes_unconsumed = 0; 969 } 970 if (iso9660->current_position > parent->offset) { 971 archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, 972 "Ignoring out-of-order directory (%s) %jd > %jd", 973 parent->name.s, 974 (intmax_t)iso9660->current_position, 975 (intmax_t)parent->offset); 976 return (ARCHIVE_WARN); 977 } 978 if (parent->offset + parent->size > iso9660->volume_size) { 979 archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, 980 "Directory is beyond end-of-media: %s", 981 parent->name.s); 982 return (ARCHIVE_WARN); 983 } 984 if (iso9660->current_position < parent->offset) { 985 int64_t skipsize; 986 987 skipsize = parent->offset - iso9660->current_position; 988 skipsize = __archive_read_consume(a, skipsize); 989 if (skipsize < 0) 990 return ((int)skipsize); 991 iso9660->current_position = parent->offset; 992 } 993 994 step = (size_t)(((parent->size + iso9660->logical_block_size -1) / 995 iso9660->logical_block_size) * iso9660->logical_block_size); 996 b = __archive_read_ahead(a, step, NULL); 997 if (b == NULL) { 998 archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, 999 "Failed to read full block when scanning " 1000 "ISO9660 directory list"); 1001 return (ARCHIVE_FATAL); 1002 } 1003 iso9660->current_position += step; 1004 multi = NULL; 1005 skip_size = step; 1006 while (step) { 1007 p = b; 1008 b += iso9660->logical_block_size; 1009 step -= iso9660->logical_block_size; 1010 for (; *p != 0 && p < b && p + *p <= b; p += *p) { 1011 struct file_info *child; 1012 1013 /* N.B.: these special directory identifiers 1014 * are 8 bit "values" even on a 1015 * Joliet CD with UCS-2 (16bit) encoding. 1016 */ 1017 1018 /* Skip '.' entry. */ 1019 if (*(p + DR_name_len_offset) == 1 1020 && *(p + DR_name_offset) == '\0') 1021 continue; 1022 /* Skip '..' entry. */ 1023 if (*(p + DR_name_len_offset) == 1 1024 && *(p + DR_name_offset) == '\001') 1025 continue; 1026 child = parse_file_info(a, parent, p, b - p); 1027 if (child == NULL) { 1028 __archive_read_consume(a, skip_size); 1029 return (ARCHIVE_FATAL); 1030 } 1031 if (child->cl_offset == 0 && 1032 (child->multi_extent || multi != NULL)) { 1033 struct content *con; 1034 1035 if (multi == NULL) { 1036 multi = child; 1037 multi->contents.first = NULL; 1038 multi->contents.last = 1039 &(multi->contents.first); 1040 } 1041 con = malloc(sizeof(struct content)); 1042 if (con == NULL) { 1043 archive_set_error( 1044 &a->archive, ENOMEM, 1045 "No memory for multi extent"); 1046 __archive_read_consume(a, skip_size); 1047 return (ARCHIVE_FATAL); 1048 } 1049 con->offset = child->offset; 1050 con->size = child->size; 1051 con->next = NULL; 1052 *multi->contents.last = con; 1053 multi->contents.last = &(con->next); 1054 if (multi == child) { 1055 if (add_entry(a, iso9660, child) 1056 != ARCHIVE_OK) 1057 return (ARCHIVE_FATAL); 1058 } else { 1059 multi->size += child->size; 1060 if (!child->multi_extent) 1061 multi = NULL; 1062 } 1063 } else 1064 if (add_entry(a, iso9660, child) != ARCHIVE_OK) 1065 return (ARCHIVE_FATAL); 1066 } 1067 } 1068 1069 __archive_read_consume(a, skip_size); 1070 1071 /* Read data which recorded by RRIP "CE" extension. */ 1072 if (read_CE(a, iso9660) != ARCHIVE_OK) 1073 return (ARCHIVE_FATAL); 1074 1075 return (ARCHIVE_OK); 1076} 1077 1078static int 1079choose_volume(struct archive_read *a, struct iso9660 *iso9660) 1080{ 1081 struct file_info *file; 1082 int64_t skipsize; 1083 struct vd *vd; 1084 const void *block; 1085 char seenJoliet; 1086 1087 vd = &(iso9660->primary); 1088 if (!iso9660->opt_support_joliet) 1089 iso9660->seenJoliet = 0; 1090 if (iso9660->seenJoliet && 1091 vd->location > iso9660->joliet.location) 1092 /* This condition is unlikely; by way of caution. */ 1093 vd = &(iso9660->joliet); 1094 1095 skipsize = LOGICAL_BLOCK_SIZE * (int64_t)vd->location; 1096 skipsize = __archive_read_consume(a, skipsize); 1097 if (skipsize < 0) 1098 return ((int)skipsize); 1099 iso9660->current_position = skipsize; 1100 1101 block = __archive_read_ahead(a, vd->size, NULL); 1102 if (block == NULL) { 1103 archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, 1104 "Failed to read full block when scanning " 1105 "ISO9660 directory list"); 1106 return (ARCHIVE_FATAL); 1107 } 1108 1109 /* 1110 * While reading Root Directory, flag seenJoliet must be zero to 1111 * avoid converting special name 0x00(Current Directory) and 1112 * next byte to UCS2. 1113 */ 1114 seenJoliet = iso9660->seenJoliet;/* Save flag. */ 1115 iso9660->seenJoliet = 0; 1116 file = parse_file_info(a, NULL, block, vd->size); 1117 if (file == NULL) 1118 return (ARCHIVE_FATAL); 1119 iso9660->seenJoliet = seenJoliet; 1120 1121 /* 1122 * If the iso image has both RockRidge and Joliet, we preferentially 1123 * use RockRidge Extensions rather than Joliet ones. 1124 */ 1125 if (vd == &(iso9660->primary) && iso9660->seenRockridge 1126 && iso9660->seenJoliet) 1127 iso9660->seenJoliet = 0; 1128 1129 if (vd == &(iso9660->primary) && !iso9660->seenRockridge 1130 && iso9660->seenJoliet) { 1131 /* Switch reading data from primary to joliet. */ 1132 vd = &(iso9660->joliet); 1133 skipsize = LOGICAL_BLOCK_SIZE * (int64_t)vd->location; 1134 skipsize -= iso9660->current_position; 1135 skipsize = __archive_read_consume(a, skipsize); 1136 if (skipsize < 0) 1137 return ((int)skipsize); 1138 iso9660->current_position += skipsize; 1139 1140 block = __archive_read_ahead(a, vd->size, NULL); 1141 if (block == NULL) { 1142 archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, 1143 "Failed to read full block when scanning " 1144 "ISO9660 directory list"); 1145 return (ARCHIVE_FATAL); 1146 } 1147 iso9660->seenJoliet = 0; 1148 file = parse_file_info(a, NULL, block, vd->size); 1149 if (file == NULL) 1150 return (ARCHIVE_FATAL); 1151 iso9660->seenJoliet = seenJoliet; 1152 } 1153 1154 /* Store the root directory in the pending list. */ 1155 if (add_entry(a, iso9660, file) != ARCHIVE_OK) 1156 return (ARCHIVE_FATAL); 1157 if (iso9660->seenRockridge) { 1158 a->archive.archive_format = ARCHIVE_FORMAT_ISO9660_ROCKRIDGE; 1159 a->archive.archive_format_name = 1160 "ISO9660 with Rockridge extensions"; 1161 } 1162 1163 return (ARCHIVE_OK); 1164} 1165 1166static int 1167archive_read_format_iso9660_read_header(struct archive_read *a, 1168 struct archive_entry *entry) 1169{ 1170 struct iso9660 *iso9660; 1171 struct file_info *file; 1172 int r, rd_r = ARCHIVE_OK; 1173 1174 iso9660 = (struct iso9660 *)(a->format->data); 1175 1176 if (!a->archive.archive_format) { 1177 a->archive.archive_format = ARCHIVE_FORMAT_ISO9660; 1178 a->archive.archive_format_name = "ISO9660"; 1179 } 1180 1181 if (iso9660->current_position == 0) { 1182 r = choose_volume(a, iso9660); 1183 if (r != ARCHIVE_OK) 1184 return (r); 1185 } 1186 1187 file = NULL;/* Eliminate a warning. */ 1188 /* Get the next entry that appears after the current offset. */ 1189 r = next_entry_seek(a, iso9660, &file); 1190 if (r != ARCHIVE_OK) 1191 return (r); 1192 1193 if (iso9660->seenJoliet) { 1194 /* 1195 * Convert UTF-16BE of a filename to local locale MBS 1196 * and store the result into a filename field. 1197 */ 1198 if (iso9660->sconv_utf16be == NULL) { 1199 iso9660->sconv_utf16be = 1200 archive_string_conversion_from_charset( 1201 &(a->archive), "UTF-16BE", 1); 1202 if (iso9660->sconv_utf16be == NULL) 1203 /* Couldn't allocate memory */ 1204 return (ARCHIVE_FATAL); 1205 } 1206 if (iso9660->utf16be_path == NULL) { 1207 iso9660->utf16be_path = malloc(UTF16_NAME_MAX); 1208 if (iso9660->utf16be_path == NULL) { 1209 archive_set_error(&a->archive, ENOMEM, 1210 "No memory"); 1211 return (ARCHIVE_FATAL); 1212 } 1213 } 1214 if (iso9660->utf16be_previous_path == NULL) { 1215 iso9660->utf16be_previous_path = malloc(UTF16_NAME_MAX); 1216 if (iso9660->utf16be_previous_path == NULL) { 1217 archive_set_error(&a->archive, ENOMEM, 1218 "No memory"); 1219 return (ARCHIVE_FATAL); 1220 } 1221 } 1222 1223 iso9660->utf16be_path_len = 0; 1224 if (build_pathname_utf16be(iso9660->utf16be_path, 1225 UTF16_NAME_MAX, &(iso9660->utf16be_path_len), file) != 0) { 1226 archive_set_error(&a->archive, 1227 ARCHIVE_ERRNO_FILE_FORMAT, 1228 "Pathname is too long"); 1229 return (ARCHIVE_FATAL); 1230 } 1231 1232 r = archive_entry_copy_pathname_l(entry, 1233 (const char *)iso9660->utf16be_path, 1234 iso9660->utf16be_path_len, 1235 iso9660->sconv_utf16be); 1236 if (r != 0) { 1237 if (errno == ENOMEM) { 1238 archive_set_error(&a->archive, ENOMEM, 1239 "No memory for Pathname"); 1240 return (ARCHIVE_FATAL); 1241 } 1242 archive_set_error(&a->archive, 1243 ARCHIVE_ERRNO_FILE_FORMAT, 1244 "Pathname cannot be converted " 1245 "from %s to current locale.", 1246 archive_string_conversion_charset_name( 1247 iso9660->sconv_utf16be)); 1248 1249 rd_r = ARCHIVE_WARN; 1250 } 1251 } else { 1252 const char *path = build_pathname(&iso9660->pathname, file, 0); 1253 if (path == NULL) { 1254 archive_set_error(&a->archive, 1255 ARCHIVE_ERRNO_FILE_FORMAT, 1256 "Pathname is too long"); 1257 return (ARCHIVE_FATAL); 1258 } else { 1259 archive_string_empty(&iso9660->pathname); 1260 archive_entry_set_pathname(entry, path); 1261 } 1262 } 1263 1264 iso9660->entry_bytes_remaining = file->size; 1265 /* Offset for sparse-file-aware clients. */ 1266 iso9660->entry_sparse_offset = 0; 1267 1268 if (file->offset + file->size > iso9660->volume_size) { 1269 archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, 1270 "File is beyond end-of-media: %s", 1271 archive_entry_pathname(entry)); 1272 iso9660->entry_bytes_remaining = 0; 1273 return (ARCHIVE_WARN); 1274 } 1275 1276 /* Set up the entry structure with information about this entry. */ 1277 archive_entry_set_mode(entry, file->mode); 1278 archive_entry_set_uid(entry, file->uid); 1279 archive_entry_set_gid(entry, file->gid); 1280 archive_entry_set_nlink(entry, file->nlinks); 1281 if (file->birthtime_is_set) 1282 archive_entry_set_birthtime(entry, file->birthtime, 0); 1283 else 1284 archive_entry_unset_birthtime(entry); 1285 archive_entry_set_mtime(entry, file->mtime, 0); 1286 archive_entry_set_ctime(entry, file->ctime, 0); 1287 archive_entry_set_atime(entry, file->atime, 0); 1288 /* N.B.: Rock Ridge supports 64-bit device numbers. */ 1289 archive_entry_set_rdev(entry, (dev_t)file->rdev); 1290 archive_entry_set_size(entry, iso9660->entry_bytes_remaining); 1291 if (file->symlink.s != NULL) 1292 archive_entry_copy_symlink(entry, file->symlink.s); 1293 1294 /* Note: If the input isn't seekable, we can't rewind to 1295 * return the same body again, so if the next entry refers to 1296 * the same data, we have to return it as a hardlink to the 1297 * original entry. */ 1298 if (file->number != -1 && 1299 file->number == iso9660->previous_number) { 1300 if (iso9660->seenJoliet) { 1301 r = archive_entry_copy_hardlink_l(entry, 1302 (const char *)iso9660->utf16be_previous_path, 1303 iso9660->utf16be_previous_path_len, 1304 iso9660->sconv_utf16be); 1305 if (r != 0) { 1306 if (errno == ENOMEM) { 1307 archive_set_error(&a->archive, ENOMEM, 1308 "No memory for Linkname"); 1309 return (ARCHIVE_FATAL); 1310 } 1311 archive_set_error(&a->archive, 1312 ARCHIVE_ERRNO_FILE_FORMAT, 1313 "Linkname cannot be converted " 1314 "from %s to current locale.", 1315 archive_string_conversion_charset_name( 1316 iso9660->sconv_utf16be)); 1317 rd_r = ARCHIVE_WARN; 1318 } 1319 } else 1320 archive_entry_set_hardlink(entry, 1321 iso9660->previous_pathname.s); 1322 archive_entry_unset_size(entry); 1323 iso9660->entry_bytes_remaining = 0; 1324 return (rd_r); 1325 } 1326 1327 if ((file->mode & AE_IFMT) != AE_IFDIR && 1328 file->offset < iso9660->current_position) { 1329 int64_t r64; 1330 1331 r64 = __archive_read_seek(a, file->offset, SEEK_SET); 1332 if (r64 != (int64_t)file->offset) { 1333 /* We can't seek backwards to extract it, so issue 1334 * a warning. Note that this can only happen if 1335 * this entry was added to the heap after we passed 1336 * this offset, that is, only if the directory 1337 * mentioning this entry is later than the body of 1338 * the entry. Such layouts are very unusual; most 1339 * ISO9660 writers lay out and record all directory 1340 * information first, then store all file bodies. */ 1341 archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, 1342 "Ignoring out-of-order file @%jx (%s) %jd < %jd", 1343 (intmax_t)file->number, 1344 iso9660->pathname.s, 1345 (intmax_t)file->offset, 1346 (intmax_t)iso9660->current_position); 1347 iso9660->entry_bytes_remaining = 0; 1348 return (ARCHIVE_WARN); 1349 } 1350 iso9660->current_position = (uint64_t)r64; 1351 } 1352 1353 /* Initialize zisofs variables. */ 1354 iso9660->entry_zisofs.pz = file->pz; 1355 if (file->pz) { 1356#ifdef HAVE_ZLIB_H 1357 struct zisofs *zisofs; 1358 1359 zisofs = &iso9660->entry_zisofs; 1360 zisofs->initialized = 0; 1361 zisofs->pz_log2_bs = file->pz_log2_bs; 1362 zisofs->pz_uncompressed_size = file->pz_uncompressed_size; 1363 zisofs->pz_offset = 0; 1364 zisofs->header_avail = 0; 1365 zisofs->header_passed = 0; 1366 zisofs->block_pointers_avail = 0; 1367#endif 1368 archive_entry_set_size(entry, file->pz_uncompressed_size); 1369 } 1370 1371 iso9660->previous_number = file->number; 1372 if (iso9660->seenJoliet) { 1373 memcpy(iso9660->utf16be_previous_path, iso9660->utf16be_path, 1374 iso9660->utf16be_path_len); 1375 iso9660->utf16be_previous_path_len = iso9660->utf16be_path_len; 1376 } else 1377 archive_strcpy( 1378 &iso9660->previous_pathname, iso9660->pathname.s); 1379 1380 /* Reset entry_bytes_remaining if the file is multi extent. */ 1381 iso9660->entry_content = file->contents.first; 1382 if (iso9660->entry_content != NULL) 1383 iso9660->entry_bytes_remaining = iso9660->entry_content->size; 1384 1385 if (archive_entry_filetype(entry) == AE_IFDIR) { 1386 /* Overwrite nlinks by proper link number which is 1387 * calculated from number of sub directories. */ 1388 archive_entry_set_nlink(entry, 2 + file->subdirs); 1389 /* Directory data has been read completely. */ 1390 iso9660->entry_bytes_remaining = 0; 1391 } 1392 1393 if (rd_r != ARCHIVE_OK) 1394 return (rd_r); 1395 return (ARCHIVE_OK); 1396} 1397 1398static int 1399archive_read_format_iso9660_read_data_skip(struct archive_read *a) 1400{ 1401 /* Because read_next_header always does an explicit skip 1402 * to the next entry, we don't need to do anything here. */ 1403 (void)a; /* UNUSED */ 1404 return (ARCHIVE_OK); 1405} 1406 1407#ifdef HAVE_ZLIB_H 1408 1409static int 1410zisofs_read_data(struct archive_read *a, 1411 const void **buff, size_t *size, int64_t *offset) 1412{ 1413 struct iso9660 *iso9660; 1414 struct zisofs *zisofs; 1415 const unsigned char *p; 1416 size_t avail; 1417 ssize_t bytes_read; 1418 size_t uncompressed_size; 1419 int r; 1420 1421 iso9660 = (struct iso9660 *)(a->format->data); 1422 zisofs = &iso9660->entry_zisofs; 1423 1424 p = __archive_read_ahead(a, 1, &bytes_read); 1425 if (bytes_read <= 0) { 1426 archive_set_error(&a->archive, ARCHIVE_ERRNO_FILE_FORMAT, 1427 "Truncated zisofs file body"); 1428 return (ARCHIVE_FATAL); 1429 } 1430 if (bytes_read > iso9660->entry_bytes_remaining) 1431 bytes_read = (ssize_t)iso9660->entry_bytes_remaining; 1432 avail = bytes_read; 1433 uncompressed_size = 0; 1434 1435 if (!zisofs->initialized) { 1436 size_t ceil, xsize; 1437 1438 /* Allocate block pointers buffer. */ 1439 ceil = (size_t)((zisofs->pz_uncompressed_size + 1440 (((int64_t)1) << zisofs->pz_log2_bs) - 1) 1441 >> zisofs->pz_log2_bs); 1442 xsize = (ceil + 1) * 4; 1443 if (zisofs->block_pointers_alloc < xsize) { 1444 size_t alloc; 1445 1446 if (zisofs->block_pointers != NULL) 1447 free(zisofs->block_pointers); 1448 alloc = ((xsize >> 10) + 1) << 10; 1449 zisofs->block_pointers = malloc(alloc); 1450 if (zisofs->block_pointers == NULL) { 1451 archive_set_error(&a->archive, ENOMEM, 1452 "No memory for zisofs decompression"); 1453 return (ARCHIVE_FATAL); 1454 } 1455 zisofs->block_pointers_alloc = alloc; 1456 } 1457 zisofs->block_pointers_size = xsize; 1458 1459 /* Allocate uncompressed data buffer. */ 1460 xsize = (size_t)1UL << zisofs->pz_log2_bs; 1461 if (zisofs->uncompressed_buffer_size < xsize) { 1462 if (zisofs->uncompressed_buffer != NULL) 1463 free(zisofs->uncompressed_buffer); 1464 zisofs->uncompressed_buffer = malloc(xsize); 1465 if (zisofs->uncompressed_buffer == NULL) { 1466 archive_set_error(&a->archive, ENOMEM, 1467 "No memory for zisofs decompression"); 1468 return (ARCHIVE_FATAL); 1469 } 1470 } 1471 zisofs->uncompressed_buffer_size = xsize; 1472 1473 /* 1474 * Read the file header, and check the magic code of zisofs. 1475 */ 1476 if (zisofs->header_avail < sizeof(zisofs->header)) { 1477 xsize = sizeof(zisofs->header) - zisofs->header_avail; 1478 if (avail < xsize) 1479 xsize = avail; 1480 memcpy(zisofs->header + zisofs->header_avail, p, xsize); 1481 zisofs->header_avail += xsize; 1482 avail -= xsize; 1483 p += xsize; 1484 } 1485 if (!zisofs->header_passed && 1486 zisofs->header_avail == sizeof(zisofs->header)) { 1487 int err = 0; 1488 1489 if (memcmp(zisofs->header, zisofs_magic, 1490 sizeof(zisofs_magic)) != 0) 1491 err = 1; 1492 if (archive_le32dec(zisofs->header + 8) 1493 != zisofs->pz_uncompressed_size) 1494 err = 1; 1495 if (zisofs->header[12] != 4) 1496 err = 1; 1497 if (zisofs->header[13] != zisofs->pz_log2_bs) 1498 err = 1; 1499 if (err) { 1500 archive_set_error(&a->archive, 1501 ARCHIVE_ERRNO_FILE_FORMAT, 1502 "Illegal zisofs file body"); 1503 return (ARCHIVE_FATAL); 1504 } 1505 zisofs->header_passed = 1; 1506 } 1507 /* 1508 * Read block pointers. 1509 */ 1510 if (zisofs->header_passed && 1511 zisofs->block_pointers_avail < zisofs->block_pointers_size) { 1512 xsize = zisofs->block_pointers_size 1513 - zisofs->block_pointers_avail; 1514 if (avail < xsize) 1515 xsize = avail; 1516 memcpy(zisofs->block_pointers 1517 + zisofs->block_pointers_avail, p, xsize); 1518 zisofs->block_pointers_avail += xsize; 1519 avail -= xsize; 1520 p += xsize; 1521 if (zisofs->block_pointers_avail 1522 == zisofs->block_pointers_size) { 1523 /* We've got all block pointers and initialize 1524 * related variables. */ 1525 zisofs->block_off = 0; 1526 zisofs->block_avail = 0; 1527 /* Complete a initialization */ 1528 zisofs->initialized = 1; 1529 } 1530 } 1531 1532 if (!zisofs->initialized) 1533 goto next_data; /* We need more data. */ 1534 } 1535 1536 /* 1537 * Get block offsets from block pointers. 1538 */ 1539 if (zisofs->block_avail == 0) { 1540 uint32_t bst, bed; 1541 1542 if (zisofs->block_off + 4 >= zisofs->block_pointers_size) { 1543 /* There isn't a pair of offsets. */ 1544 archive_set_error(&a->archive, 1545 ARCHIVE_ERRNO_FILE_FORMAT, 1546 "Illegal zisofs block pointers"); 1547 return (ARCHIVE_FATAL); 1548 } 1549 bst = archive_le32dec( 1550 zisofs->block_pointers + zisofs->block_off); 1551 if (bst != zisofs->pz_offset + (bytes_read - avail)) { 1552 /* TODO: Should we seek offset of current file 1553 * by bst ? */ 1554 archive_set_error(&a->archive, 1555 ARCHIVE_ERRNO_FILE_FORMAT, 1556 "Illegal zisofs block pointers(cannot seek)"); 1557 return (ARCHIVE_FATAL); 1558 } 1559 bed = archive_le32dec( 1560 zisofs->block_pointers + zisofs->block_off + 4); 1561 if (bed < bst) { 1562 archive_set_error(&a->archive, 1563 ARCHIVE_ERRNO_FILE_FORMAT, 1564 "Illegal zisofs block pointers"); 1565 return (ARCHIVE_FATAL); 1566 } 1567 zisofs->block_avail = bed - bst; 1568 zisofs->block_off += 4; 1569 1570 /* Initialize compression library for new block. */ 1571 if (zisofs->stream_valid) 1572 r = inflateReset(&zisofs->stream); 1573 else 1574 r = inflateInit(&zisofs->stream); 1575 if (r != Z_OK) { 1576 archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, 1577 "Can't initialize zisofs decompression."); 1578 return (ARCHIVE_FATAL); 1579 } 1580 zisofs->stream_valid = 1; 1581 zisofs->stream.total_in = 0; 1582 zisofs->stream.total_out = 0; 1583 } 1584 1585 /* 1586 * Make uncompressed data. 1587 */ 1588 if (zisofs->block_avail == 0) { 1589 memset(zisofs->uncompressed_buffer, 0, 1590 zisofs->uncompressed_buffer_size); 1591 uncompressed_size = zisofs->uncompressed_buffer_size; 1592 } else { 1593 zisofs->stream.next_in = (Bytef *)(uintptr_t)(const void *)p; 1594 if (avail > zisofs->block_avail) 1595 zisofs->stream.avail_in = zisofs->block_avail; 1596 else 1597 zisofs->stream.avail_in = (uInt)avail; 1598 zisofs->stream.next_out = zisofs->uncompressed_buffer; 1599 zisofs->stream.avail_out = 1600 (uInt)zisofs->uncompressed_buffer_size; 1601 1602 r = inflate(&zisofs->stream, 0); 1603 switch (r) { 1604 case Z_OK: /* Decompressor made some progress.*/ 1605 case Z_STREAM_END: /* Found end of stream. */ 1606 break; 1607 default: 1608 archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, 1609 "zisofs decompression failed (%d)", r); 1610 return (ARCHIVE_FATAL); 1611 } 1612 uncompressed_size = 1613 zisofs->uncompressed_buffer_size - zisofs->stream.avail_out; 1614 avail -= zisofs->stream.next_in - p; 1615 zisofs->block_avail -= (uint32_t)(zisofs->stream.next_in - p); 1616 } 1617next_data: 1618 bytes_read -= avail; 1619 *buff = zisofs->uncompressed_buffer; 1620 *size = uncompressed_size; 1621 *offset = iso9660->entry_sparse_offset; 1622 iso9660->entry_sparse_offset += uncompressed_size; 1623 iso9660->entry_bytes_remaining -= bytes_read; 1624 iso9660->current_position += bytes_read; 1625 zisofs->pz_offset += (uint32_t)bytes_read; 1626 iso9660->entry_bytes_unconsumed += bytes_read; 1627 1628 return (ARCHIVE_OK); 1629} 1630 1631#else /* HAVE_ZLIB_H */ 1632 1633static int 1634zisofs_read_data(struct archive_read *a, 1635 const void **buff, size_t *size, int64_t *offset) 1636{ 1637 1638 (void)buff;/* UNUSED */ 1639 (void)size;/* UNUSED */ 1640 (void)offset;/* UNUSED */ 1641 archive_set_error(&a->archive, ARCHIVE_ERRNO_FILE_FORMAT, 1642 "zisofs is not supported on this platform."); 1643 return (ARCHIVE_FAILED); 1644} 1645 1646#endif /* HAVE_ZLIB_H */ 1647 1648static int 1649archive_read_format_iso9660_read_data(struct archive_read *a, 1650 const void **buff, size_t *size, int64_t *offset) 1651{ 1652 ssize_t bytes_read; 1653 struct iso9660 *iso9660; 1654 1655 iso9660 = (struct iso9660 *)(a->format->data); 1656 1657 if (iso9660->entry_bytes_unconsumed) { 1658 __archive_read_consume(a, iso9660->entry_bytes_unconsumed); 1659 iso9660->entry_bytes_unconsumed = 0; 1660 } 1661 1662 if (iso9660->entry_bytes_remaining <= 0) { 1663 if (iso9660->entry_content != NULL) 1664 iso9660->entry_content = iso9660->entry_content->next; 1665 if (iso9660->entry_content == NULL) { 1666 *buff = NULL; 1667 *size = 0; 1668 *offset = iso9660->entry_sparse_offset; 1669 return (ARCHIVE_EOF); 1670 } 1671 /* Seek forward to the start of the entry. */ 1672 if (iso9660->current_position < iso9660->entry_content->offset) { 1673 int64_t step; 1674 1675 step = iso9660->entry_content->offset - 1676 iso9660->current_position; 1677 step = __archive_read_consume(a, step); 1678 if (step < 0) 1679 return ((int)step); 1680 iso9660->current_position = 1681 iso9660->entry_content->offset; 1682 } 1683 if (iso9660->entry_content->offset < iso9660->current_position) { 1684 archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, 1685 "Ignoring out-of-order file (%s) %jd < %jd", 1686 iso9660->pathname.s, 1687 (intmax_t)iso9660->entry_content->offset, 1688 (intmax_t)iso9660->current_position); 1689 *buff = NULL; 1690 *size = 0; 1691 *offset = iso9660->entry_sparse_offset; 1692 return (ARCHIVE_WARN); 1693 } 1694 iso9660->entry_bytes_remaining = iso9660->entry_content->size; 1695 } 1696 if (iso9660->entry_zisofs.pz) 1697 return (zisofs_read_data(a, buff, size, offset)); 1698 1699 *buff = __archive_read_ahead(a, 1, &bytes_read); 1700 if (bytes_read == 0) 1701 archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, 1702 "Truncated input file"); 1703 if (*buff == NULL) 1704 return (ARCHIVE_FATAL); 1705 if (bytes_read > iso9660->entry_bytes_remaining) 1706 bytes_read = (ssize_t)iso9660->entry_bytes_remaining; 1707 *size = bytes_read; 1708 *offset = iso9660->entry_sparse_offset; 1709 iso9660->entry_sparse_offset += bytes_read; 1710 iso9660->entry_bytes_remaining -= bytes_read; 1711 iso9660->entry_bytes_unconsumed = bytes_read; 1712 iso9660->current_position += bytes_read; 1713 return (ARCHIVE_OK); 1714} 1715 1716static int 1717archive_read_format_iso9660_cleanup(struct archive_read *a) 1718{ 1719 struct iso9660 *iso9660; 1720 int r = ARCHIVE_OK; 1721 1722 iso9660 = (struct iso9660 *)(a->format->data); 1723 release_files(iso9660); 1724 free(iso9660->read_ce_req.reqs); 1725 archive_string_free(&iso9660->pathname); 1726 archive_string_free(&iso9660->previous_pathname); 1727 if (iso9660->pending_files.files) 1728 free(iso9660->pending_files.files); 1729#ifdef HAVE_ZLIB_H 1730 free(iso9660->entry_zisofs.uncompressed_buffer); 1731 free(iso9660->entry_zisofs.block_pointers); 1732 if (iso9660->entry_zisofs.stream_valid) { 1733 if (inflateEnd(&iso9660->entry_zisofs.stream) != Z_OK) { 1734 archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, 1735 "Failed to clean up zlib decompressor"); 1736 r = ARCHIVE_FATAL; 1737 } 1738 } 1739#endif 1740 free(iso9660->utf16be_path); 1741 free(iso9660->utf16be_previous_path); 1742 free(iso9660); 1743 (a->format->data) = NULL; 1744 return (r); 1745} 1746 1747/* 1748 * This routine parses a single ISO directory record, makes sense 1749 * of any extensions, and stores the result in memory. 1750 */ 1751static struct file_info * 1752parse_file_info(struct archive_read *a, struct file_info *parent, 1753 const unsigned char *isodirrec, size_t reclen) 1754{ 1755 struct iso9660 *iso9660; 1756 struct file_info *file, *filep; 1757 size_t name_len; 1758 const unsigned char *rr_start, *rr_end; 1759 const unsigned char *p; 1760 size_t dr_len; 1761 uint64_t fsize, offset; 1762 int32_t location; 1763 int flags; 1764 1765 iso9660 = (struct iso9660 *)(a->format->data); 1766 1767 if (reclen != 0) 1768 dr_len = (size_t)isodirrec[DR_length_offset]; 1769 /* 1770 * Sanity check that reclen is not zero and dr_len is greater than 1771 * reclen but at least 34 1772 */ 1773 if (reclen == 0 || reclen < dr_len || dr_len < 34) { 1774 archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, 1775 "Invalid length of directory record"); 1776 return (NULL); 1777 } 1778 name_len = (size_t)isodirrec[DR_name_len_offset]; 1779 location = archive_le32dec(isodirrec + DR_extent_offset); 1780 fsize = toi(isodirrec + DR_size_offset, DR_size_size); 1781 /* Sanity check that name_len doesn't exceed dr_len. */ 1782 if (dr_len - 33 < name_len || name_len == 0) { 1783 archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, 1784 "Invalid length of file identifier"); 1785 return (NULL); 1786 } 1787 /* Sanity check that location doesn't exceed volume block. 1788 * Don't check lower limit of location; it's possibility 1789 * the location has negative value when file type is symbolic 1790 * link or file size is zero. As far as I know latest mkisofs 1791 * do that. 1792 */ 1793 if (location > 0 && 1794 (location + ((fsize + iso9660->logical_block_size -1) 1795 / iso9660->logical_block_size)) 1796 > (uint32_t)iso9660->volume_block) { 1797 archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, 1798 "Invalid location of extent of file"); 1799 return (NULL); 1800 } 1801 /* Sanity check that location doesn't have a negative value 1802 * when the file is not empty. it's too large. */ 1803 if (fsize != 0 && location < 0) { 1804 archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, 1805 "Invalid location of extent of file"); 1806 return (NULL); 1807 } 1808 1809 /* Sanity check that this entry does not create a cycle. */ 1810 offset = iso9660->logical_block_size * (uint64_t)location; 1811 for (filep = parent; filep != NULL; filep = filep->parent) { 1812 if (filep->offset == offset) { 1813 archive_set_error(&a->archive, ARCHIVE_ERRNO_FILE_FORMAT, 1814 "Directory structure contains loop"); 1815 return (NULL); 1816 } 1817 } 1818 1819 /* Create a new file entry and copy data from the ISO dir record. */ 1820 file = (struct file_info *)calloc(1, sizeof(*file)); 1821 if (file == NULL) { 1822 archive_set_error(&a->archive, ENOMEM, 1823 "No memory for file entry"); 1824 return (NULL); 1825 } 1826 file->parent = parent; 1827 file->offset = offset; 1828 file->size = fsize; 1829 file->mtime = isodate7(isodirrec + DR_date_offset); 1830 file->ctime = file->atime = file->mtime; 1831 file->rede_files.first = NULL; 1832 file->rede_files.last = &(file->rede_files.first); 1833 1834 p = isodirrec + DR_name_offset; 1835 /* Rockridge extensions (if any) follow name. Compute this 1836 * before fidgeting the name_len below. */ 1837 rr_start = p + name_len + (name_len & 1 ? 0 : 1); 1838 rr_end = isodirrec + dr_len; 1839 1840 if (iso9660->seenJoliet) { 1841 /* Joliet names are max 64 chars (128 bytes) according to spec, 1842 * but genisoimage/mkisofs allows recording longer Joliet 1843 * names which are 103 UCS2 characters(206 bytes) by their 1844 * option '-joliet-long'. 1845 */ 1846 if (name_len > 206) 1847 name_len = 206; 1848 name_len &= ~1; 1849 1850 /* trim trailing first version and dot from filename. 1851 * 1852 * Remember we were in UTF-16BE land! 1853 * SEPARATOR 1 (.) and SEPARATOR 2 (;) are both 1854 * 16 bits big endian characters on Joliet. 1855 * 1856 * TODO: sanitize filename? 1857 * Joliet allows any UCS-2 char except: 1858 * *, /, :, ;, ? and \. 1859 */ 1860 /* Chop off trailing ';1' from files. */ 1861 if (name_len > 4 && p[name_len-4] == 0 && p[name_len-3] == ';' 1862 && p[name_len-2] == 0 && p[name_len-1] == '1') 1863 name_len -= 4; 1864#if 0 /* XXX: this somehow manages to strip of single-character file extensions, like '.c'. */ 1865 /* Chop off trailing '.' from filenames. */ 1866 if (name_len > 2 && p[name_len-2] == 0 && p[name_len-1] == '.') 1867 name_len -= 2; 1868#endif 1869 if ((file->utf16be_name = malloc(name_len)) == NULL) { 1870 archive_set_error(&a->archive, ENOMEM, 1871 "No memory for file name"); 1872 goto fail; 1873 } 1874 memcpy(file->utf16be_name, p, name_len); 1875 file->utf16be_bytes = name_len; 1876 } else { 1877 /* Chop off trailing ';1' from files. */ 1878 if (name_len > 2 && p[name_len - 2] == ';' && 1879 p[name_len - 1] == '1') 1880 name_len -= 2; 1881 /* Chop off trailing '.' from filenames. */ 1882 if (name_len > 1 && p[name_len - 1] == '.') 1883 --name_len; 1884 1885 archive_strncpy(&file->name, (const char *)p, name_len); 1886 } 1887 1888 flags = isodirrec[DR_flags_offset]; 1889 if (flags & 0x02) 1890 file->mode = AE_IFDIR | 0700; 1891 else 1892 file->mode = AE_IFREG | 0400; 1893 if (flags & 0x80) 1894 file->multi_extent = 1; 1895 else 1896 file->multi_extent = 0; 1897 /* 1898 * Use a location for the file number, which is treated as an inode 1899 * number to find out hardlink target. If Rockridge extensions is 1900 * being used, the file number will be overwritten by FILE SERIAL 1901 * NUMBER of RRIP "PX" extension. 1902 * Note: Old mkisofs did not record that FILE SERIAL NUMBER 1903 * in ISO images. 1904 * Note2: xorriso set 0 to the location of a symlink file. 1905 */ 1906 if (file->size == 0 && location >= 0) { 1907 /* If file->size is zero, its location points wrong place, 1908 * and so we should not use it for the file number. 1909 * When the location has negative value, it can be used 1910 * for the file number. 1911 */ 1912 file->number = -1; 1913 /* Do not appear before any directory entries. */ 1914 file->offset = -1; 1915 } else 1916 file->number = (int64_t)(uint32_t)location; 1917 1918 /* Rockridge extensions overwrite information from above. */ 1919 if (iso9660->opt_support_rockridge) { 1920 if (parent == NULL && rr_end - rr_start >= 7) { 1921 p = rr_start; 1922 if (memcmp(p, "SP\x07\x01\xbe\xef", 6) == 0) { 1923 /* 1924 * SP extension stores the suspOffset 1925 * (Number of bytes to skip between 1926 * filename and SUSP records.) 1927 * It is mandatory by the SUSP standard 1928 * (IEEE 1281). 1929 * 1930 * It allows SUSP to coexist with 1931 * non-SUSP uses of the System 1932 * Use Area by placing non-SUSP data 1933 * before SUSP data. 1934 * 1935 * SP extension must be in the root 1936 * directory entry, disable all SUSP 1937 * processing if not found. 1938 */ 1939 iso9660->suspOffset = p[6]; 1940 iso9660->seenSUSP = 1; 1941 rr_start += 7; 1942 } 1943 } 1944 if (iso9660->seenSUSP) { 1945 int r; 1946 1947 file->name_continues = 0; 1948 file->symlink_continues = 0; 1949 rr_start += iso9660->suspOffset; 1950 r = parse_rockridge(a, file, rr_start, rr_end); 1951 if (r != ARCHIVE_OK) 1952 goto fail; 1953 /* 1954 * A file size of symbolic link files in ISO images 1955 * made by makefs is not zero and its location is 1956 * the same as those of next regular file. That is 1957 * the same as hard like file and it causes unexpected 1958 * error. 1959 */ 1960 if (file->size > 0 && 1961 (file->mode & AE_IFMT) == AE_IFLNK) { 1962 file->size = 0; 1963 file->number = -1; 1964 file->offset = -1; 1965 } 1966 } else 1967 /* If there isn't SUSP, disable parsing 1968 * rock ridge extensions. */ 1969 iso9660->opt_support_rockridge = 0; 1970 } 1971 1972 file->nlinks = 1;/* Reset nlink. we'll calculate it later. */ 1973 /* Tell file's parent how many children that parent has. */ 1974 if (parent != NULL && (flags & 0x02)) 1975 parent->subdirs++; 1976 1977 if (iso9660->seenRockridge) { 1978 if (parent != NULL && parent->parent == NULL && 1979 (flags & 0x02) && iso9660->rr_moved == NULL && 1980 file->name.s && 1981 (strcmp(file->name.s, "rr_moved") == 0 || 1982 strcmp(file->name.s, ".rr_moved") == 0)) { 1983 iso9660->rr_moved = file; 1984 file->rr_moved = 1; 1985 file->rr_moved_has_re_only = 1; 1986 file->re = 0; 1987 parent->subdirs--; 1988 } else if (file->re) { 1989 /* 1990 * Sanity check: file's parent is rr_moved. 1991 */ 1992 if (parent == NULL || parent->rr_moved == 0) { 1993 archive_set_error(&a->archive, 1994 ARCHIVE_ERRNO_MISC, 1995 "Invalid Rockridge RE"); 1996 goto fail; 1997 } 1998 /* 1999 * Sanity check: file does not have "CL" extension. 2000 */ 2001 if (file->cl_offset) { 2002 archive_set_error(&a->archive, 2003 ARCHIVE_ERRNO_MISC, 2004 "Invalid Rockridge RE and CL"); 2005 goto fail; 2006 } 2007 /* 2008 * Sanity check: The file type must be a directory. 2009 */ 2010 if ((flags & 0x02) == 0) { 2011 archive_set_error(&a->archive, 2012 ARCHIVE_ERRNO_MISC, 2013 "Invalid Rockridge RE"); 2014 goto fail; 2015 } 2016 } else if (parent != NULL && parent->rr_moved) 2017 file->rr_moved_has_re_only = 0; 2018 else if (parent != NULL && (flags & 0x02) && 2019 (parent->re || parent->re_descendant)) 2020 file->re_descendant = 1; 2021 if (file->cl_offset) { 2022 struct file_info *r; 2023 2024 if (parent == NULL || parent->parent == NULL) { 2025 archive_set_error(&a->archive, 2026 ARCHIVE_ERRNO_MISC, 2027 "Invalid Rockridge CL"); 2028 goto fail; 2029 } 2030 /* 2031 * Sanity check: The file type must be a regular file. 2032 */ 2033 if ((flags & 0x02) != 0) { 2034 archive_set_error(&a->archive, 2035 ARCHIVE_ERRNO_MISC, 2036 "Invalid Rockridge CL"); 2037 goto fail; 2038 } 2039 parent->subdirs++; 2040 /* Overwrite an offset and a number of this "CL" entry 2041 * to appear before other dirs. "+1" to those is to 2042 * make sure to appear after "RE" entry which this 2043 * "CL" entry should be connected with. */ 2044 file->offset = file->number = file->cl_offset + 1; 2045 2046 /* 2047 * Sanity check: cl_offset does not point at its 2048 * the parents or itself. 2049 */ 2050 for (r = parent; r; r = r->parent) { 2051 if (r->offset == file->cl_offset) { 2052 archive_set_error(&a->archive, 2053 ARCHIVE_ERRNO_MISC, 2054 "Invalid Rockridge CL"); 2055 goto fail; 2056 } 2057 } 2058 if (file->cl_offset == file->offset || 2059 parent->rr_moved) { 2060 archive_set_error(&a->archive, 2061 ARCHIVE_ERRNO_MISC, 2062 "Invalid Rockridge CL"); 2063 goto fail; 2064 } 2065 } 2066 } 2067 2068#if DEBUG 2069 /* DEBUGGING: Warn about attributes I don't yet fully support. */ 2070 if ((flags & ~0x02) != 0) { 2071 fprintf(stderr, "\n ** Unrecognized flag: "); 2072 dump_isodirrec(stderr, isodirrec); 2073 fprintf(stderr, "\n"); 2074 } else if (toi(isodirrec + DR_volume_sequence_number_offset, 2) != 1) { 2075 fprintf(stderr, "\n ** Unrecognized sequence number: "); 2076 dump_isodirrec(stderr, isodirrec); 2077 fprintf(stderr, "\n"); 2078 } else if (*(isodirrec + DR_file_unit_size_offset) != 0) { 2079 fprintf(stderr, "\n ** Unexpected file unit size: "); 2080 dump_isodirrec(stderr, isodirrec); 2081 fprintf(stderr, "\n"); 2082 } else if (*(isodirrec + DR_interleave_offset) != 0) { 2083 fprintf(stderr, "\n ** Unexpected interleave: "); 2084 dump_isodirrec(stderr, isodirrec); 2085 fprintf(stderr, "\n"); 2086 } else if (*(isodirrec + DR_ext_attr_length_offset) != 0) { 2087 fprintf(stderr, "\n ** Unexpected extended attribute length: "); 2088 dump_isodirrec(stderr, isodirrec); 2089 fprintf(stderr, "\n"); 2090 } 2091#endif 2092 register_file(iso9660, file); 2093 return (file); 2094fail: 2095 archive_string_free(&file->name); 2096 free(file); 2097 return (NULL); 2098} 2099 2100static int 2101parse_rockridge(struct archive_read *a, struct file_info *file, 2102 const unsigned char *p, const unsigned char *end) 2103{ 2104 struct iso9660 *iso9660; 2105 2106 iso9660 = (struct iso9660 *)(a->format->data); 2107 2108 while (p + 4 <= end /* Enough space for another entry. */ 2109 && p[0] >= 'A' && p[0] <= 'Z' /* Sanity-check 1st char of name. */ 2110 && p[1] >= 'A' && p[1] <= 'Z' /* Sanity-check 2nd char of name. */ 2111 && p[2] >= 4 /* Sanity-check length. */ 2112 && p + p[2] <= end) { /* Sanity-check length. */ 2113 const unsigned char *data = p + 4; 2114 int data_length = p[2] - 4; 2115 int version = p[3]; 2116 2117 switch(p[0]) { 2118 case 'C': 2119 if (p[1] == 'E') { 2120 if (version == 1 && data_length == 24) { 2121 /* 2122 * CE extension comprises: 2123 * 8 byte sector containing extension 2124 * 8 byte offset w/in above sector 2125 * 8 byte length of continuation 2126 */ 2127 int32_t location = 2128 archive_le32dec(data); 2129 file->ce_offset = 2130 archive_le32dec(data+8); 2131 file->ce_size = 2132 archive_le32dec(data+16); 2133 if (register_CE(a, location, file) 2134 != ARCHIVE_OK) 2135 return (ARCHIVE_FATAL); 2136 } 2137 } 2138 else if (p[1] == 'L') { 2139 if (version == 1 && data_length == 8) { 2140 file->cl_offset = (uint64_t) 2141 iso9660->logical_block_size * 2142 (uint64_t)archive_le32dec(data); 2143 iso9660->seenRockridge = 1; 2144 } 2145 } 2146 break; 2147 case 'N': 2148 if (p[1] == 'M') { 2149 if (version == 1) { 2150 parse_rockridge_NM1(file, 2151 data, data_length); 2152 iso9660->seenRockridge = 1; 2153 } 2154 } 2155 break; 2156 case 'P': 2157 /* 2158 * PD extension is padding; 2159 * contents are always ignored. 2160 * 2161 * PL extension won't appear; 2162 * contents are always ignored. 2163 */ 2164 if (p[1] == 'N') { 2165 if (version == 1 && data_length == 16) { 2166 file->rdev = toi(data,4); 2167 file->rdev <<= 32; 2168 file->rdev |= toi(data + 8, 4); 2169 iso9660->seenRockridge = 1; 2170 } 2171 } 2172 else if (p[1] == 'X') { 2173 /* 2174 * PX extension comprises: 2175 * 8 bytes for mode, 2176 * 8 bytes for nlinks, 2177 * 8 bytes for uid, 2178 * 8 bytes for gid, 2179 * 8 bytes for inode. 2180 */ 2181 if (version == 1) { 2182 if (data_length >= 8) 2183 file->mode 2184 = toi(data, 4); 2185 if (data_length >= 16) 2186 file->nlinks 2187 = toi(data + 8, 4); 2188 if (data_length >= 24) 2189 file->uid 2190 = toi(data + 16, 4); 2191 if (data_length >= 32) 2192 file->gid 2193 = toi(data + 24, 4); 2194 if (data_length >= 40) 2195 file->number 2196 = toi(data + 32, 4); 2197 iso9660->seenRockridge = 1; 2198 } 2199 } 2200 break; 2201 case 'R': 2202 if (p[1] == 'E' && version == 1) { 2203 file->re = 1; 2204 iso9660->seenRockridge = 1; 2205 } 2206 else if (p[1] == 'R' && version == 1) { 2207 /* 2208 * RR extension comprises: 2209 * one byte flag value 2210 * This extension is obsolete, 2211 * so contents are always ignored. 2212 */ 2213 } 2214 break; 2215 case 'S': 2216 if (p[1] == 'L') { 2217 if (version == 1) { 2218 parse_rockridge_SL1(file, 2219 data, data_length); 2220 iso9660->seenRockridge = 1; 2221 } 2222 } 2223 else if (p[1] == 'T' 2224 && data_length == 0 && version == 1) { 2225 /* 2226 * ST extension marks end of this 2227 * block of SUSP entries. 2228 * 2229 * It allows SUSP to coexist with 2230 * non-SUSP uses of the System 2231 * Use Area by placing non-SUSP data 2232 * after SUSP data. 2233 */ 2234 iso9660->seenSUSP = 0; 2235 iso9660->seenRockridge = 0; 2236 return (ARCHIVE_OK); 2237 } 2238 break; 2239 case 'T': 2240 if (p[1] == 'F') { 2241 if (version == 1) { 2242 parse_rockridge_TF1(file, 2243 data, data_length); 2244 iso9660->seenRockridge = 1; 2245 } 2246 } 2247 break; 2248 case 'Z': 2249 if (p[1] == 'F') { 2250 if (version == 1) 2251 parse_rockridge_ZF1(file, 2252 data, data_length); 2253 } 2254 break; 2255 default: 2256 break; 2257 } 2258 2259 p += p[2]; 2260 } 2261 return (ARCHIVE_OK); 2262} 2263 2264static int 2265register_CE(struct archive_read *a, int32_t location, 2266 struct file_info *file) 2267{ 2268 struct iso9660 *iso9660; 2269 struct read_ce_queue *heap; 2270 struct read_ce_req *p; 2271 uint64_t offset, parent_offset; 2272 int hole, parent; 2273 2274 iso9660 = (struct iso9660 *)(a->format->data); 2275 offset = ((uint64_t)location) * (uint64_t)iso9660->logical_block_size; 2276 if (((file->mode & AE_IFMT) == AE_IFREG && 2277 offset >= file->offset) || 2278 offset < iso9660->current_position || 2279 (((uint64_t)file->ce_offset) + file->ce_size) 2280 > (uint64_t)iso9660->logical_block_size || 2281 offset + file->ce_offset + file->ce_size 2282 > iso9660->volume_size) { 2283 archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, 2284 "Invalid parameter in SUSP \"CE\" extension"); 2285 return (ARCHIVE_FATAL); 2286 } 2287 2288 /* Expand our CE list as necessary. */ 2289 heap = &(iso9660->read_ce_req); 2290 if (heap->cnt >= heap->allocated) { 2291 int new_size; 2292 2293 if (heap->allocated < 16) 2294 new_size = 16; 2295 else 2296 new_size = heap->allocated * 2; 2297 /* Overflow might keep us from growing the list. */ 2298 if (new_size <= heap->allocated) { 2299 archive_set_error(&a->archive, ENOMEM, "Out of memory"); 2300 return (ARCHIVE_FATAL); 2301 } 2302 p = calloc(new_size, sizeof(p[0])); 2303 if (p == NULL) { 2304 archive_set_error(&a->archive, ENOMEM, "Out of memory"); 2305 return (ARCHIVE_FATAL); 2306 } 2307 if (heap->reqs != NULL) { 2308 memcpy(p, heap->reqs, heap->cnt * sizeof(*p)); 2309 free(heap->reqs); 2310 } 2311 heap->reqs = p; 2312 heap->allocated = new_size; 2313 } 2314 2315 /* 2316 * Start with hole at end, walk it up tree to find insertion point. 2317 */ 2318 hole = heap->cnt++; 2319 while (hole > 0) { 2320 parent = (hole - 1)/2; 2321 parent_offset = heap->reqs[parent].offset; 2322 if (offset >= parent_offset) { 2323 heap->reqs[hole].offset = offset; 2324 heap->reqs[hole].file = file; 2325 return (ARCHIVE_OK); 2326 } 2327 /* Move parent into hole <==> move hole up tree. */ 2328 heap->reqs[hole] = heap->reqs[parent]; 2329 hole = parent; 2330 } 2331 heap->reqs[0].offset = offset; 2332 heap->reqs[0].file = file; 2333 return (ARCHIVE_OK); 2334} 2335 2336static void 2337next_CE(struct read_ce_queue *heap) 2338{ 2339 uint64_t a_offset, b_offset, c_offset; 2340 int a, b, c; 2341 struct read_ce_req tmp; 2342 2343 if (heap->cnt < 1) 2344 return; 2345 2346 /* 2347 * Move the last item in the heap to the root of the tree 2348 */ 2349 heap->reqs[0] = heap->reqs[--(heap->cnt)]; 2350 2351 /* 2352 * Rebalance the heap. 2353 */ 2354 a = 0; /* Starting element and its offset */ 2355 a_offset = heap->reqs[a].offset; 2356 for (;;) { 2357 b = a + a + 1; /* First child */ 2358 if (b >= heap->cnt) 2359 return; 2360 b_offset = heap->reqs[b].offset; 2361 c = b + 1; /* Use second child if it is smaller. */ 2362 if (c < heap->cnt) { 2363 c_offset = heap->reqs[c].offset; 2364 if (c_offset < b_offset) { 2365 b = c; 2366 b_offset = c_offset; 2367 } 2368 } 2369 if (a_offset <= b_offset) 2370 return; 2371 tmp = heap->reqs[a]; 2372 heap->reqs[a] = heap->reqs[b]; 2373 heap->reqs[b] = tmp; 2374 a = b; 2375 } 2376} 2377 2378 2379static int 2380read_CE(struct archive_read *a, struct iso9660 *iso9660) 2381{ 2382 struct read_ce_queue *heap; 2383 const unsigned char *b, *p, *end; 2384 struct file_info *file; 2385 size_t step; 2386 int r; 2387 2388 /* Read data which RRIP "CE" extension points. */ 2389 heap = &(iso9660->read_ce_req); 2390 step = iso9660->logical_block_size; 2391 while (heap->cnt && 2392 heap->reqs[0].offset == iso9660->current_position) { 2393 b = __archive_read_ahead(a, step, NULL); 2394 if (b == NULL) { 2395 archive_set_error(&a->archive, 2396 ARCHIVE_ERRNO_MISC, 2397 "Failed to read full block when scanning " 2398 "ISO9660 directory list"); 2399 return (ARCHIVE_FATAL); 2400 } 2401 do { 2402 file = heap->reqs[0].file; 2403 if (file->ce_offset + file->ce_size > step) { 2404 archive_set_error(&a->archive, 2405 ARCHIVE_ERRNO_FILE_FORMAT, 2406 "Malformed CE information"); 2407 return (ARCHIVE_FATAL); 2408 } 2409 p = b + file->ce_offset; 2410 end = p + file->ce_size; 2411 next_CE(heap); 2412 r = parse_rockridge(a, file, p, end); 2413 if (r != ARCHIVE_OK) 2414 return (ARCHIVE_FATAL); 2415 } while (heap->cnt && 2416 heap->reqs[0].offset == iso9660->current_position); 2417 /* NOTE: Do not move this consume's code to front of 2418 * do-while loop. Registration of nested CE extension 2419 * might cause error because of current position. */ 2420 __archive_read_consume(a, step); 2421 iso9660->current_position += step; 2422 } 2423 return (ARCHIVE_OK); 2424} 2425 2426static void 2427parse_rockridge_NM1(struct file_info *file, 2428 const unsigned char *data, int data_length) 2429{ 2430 if (!file->name_continues) 2431 archive_string_empty(&file->name); 2432 file->name_continues = 0; 2433 if (data_length < 1) 2434 return; 2435 /* 2436 * NM version 1 extension comprises: 2437 * 1 byte flag, value is one of: 2438 * = 0: remainder is name 2439 * = 1: remainder is name, next NM entry continues name 2440 * = 2: "." 2441 * = 4: ".." 2442 * = 32: Implementation specific 2443 * All other values are reserved. 2444 */ 2445 switch(data[0]) { 2446 case 0: 2447 if (data_length < 2) 2448 return; 2449 archive_strncat(&file->name, 2450 (const char *)data + 1, data_length - 1); 2451 break; 2452 case 1: 2453 if (data_length < 2) 2454 return; 2455 archive_strncat(&file->name, 2456 (const char *)data + 1, data_length - 1); 2457 file->name_continues = 1; 2458 break; 2459 case 2: 2460 archive_strcat(&file->name, "."); 2461 break; 2462 case 4: 2463 archive_strcat(&file->name, ".."); 2464 break; 2465 default: 2466 return; 2467 } 2468 2469} 2470 2471static void 2472parse_rockridge_TF1(struct file_info *file, const unsigned char *data, 2473 int data_length) 2474{ 2475 char flag; 2476 /* 2477 * TF extension comprises: 2478 * one byte flag 2479 * create time (optional) 2480 * modify time (optional) 2481 * access time (optional) 2482 * attribute time (optional) 2483 * Time format and presence of fields 2484 * is controlled by flag bits. 2485 */ 2486 if (data_length < 1) 2487 return; 2488 flag = data[0]; 2489 ++data; 2490 --data_length; 2491 if (flag & 0x80) { 2492 /* Use 17-byte time format. */ 2493 if ((flag & 1) && data_length >= 17) { 2494 /* Create time. */ 2495 file->birthtime_is_set = 1; 2496 file->birthtime = isodate17(data); 2497 data += 17; 2498 data_length -= 17; 2499 } 2500 if ((flag & 2) && data_length >= 17) { 2501 /* Modify time. */ 2502 file->mtime = isodate17(data); 2503 data += 17; 2504 data_length -= 17; 2505 } 2506 if ((flag & 4) && data_length >= 17) { 2507 /* Access time. */ 2508 file->atime = isodate17(data); 2509 data += 17; 2510 data_length -= 17; 2511 } 2512 if ((flag & 8) && data_length >= 17) { 2513 /* Attribute change time. */ 2514 file->ctime = isodate17(data); 2515 } 2516 } else { 2517 /* Use 7-byte time format. */ 2518 if ((flag & 1) && data_length >= 7) { 2519 /* Create time. */ 2520 file->birthtime_is_set = 1; 2521 file->birthtime = isodate7(data); 2522 data += 7; 2523 data_length -= 7; 2524 } 2525 if ((flag & 2) && data_length >= 7) { 2526 /* Modify time. */ 2527 file->mtime = isodate7(data); 2528 data += 7; 2529 data_length -= 7; 2530 } 2531 if ((flag & 4) && data_length >= 7) { 2532 /* Access time. */ 2533 file->atime = isodate7(data); 2534 data += 7; 2535 data_length -= 7; 2536 } 2537 if ((flag & 8) && data_length >= 7) { 2538 /* Attribute change time. */ 2539 file->ctime = isodate7(data); 2540 } 2541 } 2542} 2543 2544static void 2545parse_rockridge_SL1(struct file_info *file, const unsigned char *data, 2546 int data_length) 2547{ 2548 const char *separator = ""; 2549 2550 if (!file->symlink_continues || file->symlink.length < 1) 2551 archive_string_empty(&file->symlink); 2552 file->symlink_continues = 0; 2553 2554 /* 2555 * Defined flag values: 2556 * 0: This is the last SL record for this symbolic link 2557 * 1: this symbolic link field continues in next SL entry 2558 * All other values are reserved. 2559 */ 2560 if (data_length < 1) 2561 return; 2562 switch(*data) { 2563 case 0: 2564 break; 2565 case 1: 2566 file->symlink_continues = 1; 2567 break; 2568 default: 2569 return; 2570 } 2571 ++data; /* Skip flag byte. */ 2572 --data_length; 2573 2574 /* 2575 * SL extension body stores "components". 2576 * Basically, this is a complicated way of storing 2577 * a POSIX path. It also interferes with using 2578 * symlinks for storing non-path data. <sigh> 2579 * 2580 * Each component is 2 bytes (flag and length) 2581 * possibly followed by name data. 2582 */ 2583 while (data_length >= 2) { 2584 unsigned char flag = *data++; 2585 unsigned char nlen = *data++; 2586 data_length -= 2; 2587 2588 archive_strcat(&file->symlink, separator); 2589 separator = "/"; 2590 2591 switch(flag) { 2592 case 0: /* Usual case, this is text. */ 2593 if (data_length < nlen) 2594 return; 2595 archive_strncat(&file->symlink, 2596 (const char *)data, nlen); 2597 break; 2598 case 0x01: /* Text continues in next component. */ 2599 if (data_length < nlen) 2600 return; 2601 archive_strncat(&file->symlink, 2602 (const char *)data, nlen); 2603 separator = ""; 2604 break; 2605 case 0x02: /* Current dir. */ 2606 archive_strcat(&file->symlink, "."); 2607 break; 2608 case 0x04: /* Parent dir. */ 2609 archive_strcat(&file->symlink, ".."); 2610 break; 2611 case 0x08: /* Root of filesystem. */ 2612 archive_strcat(&file->symlink, "/"); 2613 separator = ""; 2614 break; 2615 case 0x10: /* Undefined (historically "volume root" */ 2616 archive_string_empty(&file->symlink); 2617 archive_strcat(&file->symlink, "ROOT"); 2618 break; 2619 case 0x20: /* Undefined (historically "hostname") */ 2620 archive_strcat(&file->symlink, "hostname"); 2621 break; 2622 default: 2623 /* TODO: issue a warning ? */ 2624 return; 2625 } 2626 data += nlen; 2627 data_length -= nlen; 2628 } 2629} 2630 2631static void 2632parse_rockridge_ZF1(struct file_info *file, const unsigned char *data, 2633 int data_length) 2634{ 2635 2636 if (data[0] == 0x70 && data[1] == 0x7a && data_length == 12) { 2637 /* paged zlib */ 2638 file->pz = 1; 2639 file->pz_log2_bs = data[3]; 2640 file->pz_uncompressed_size = archive_le32dec(&data[4]); 2641 } 2642} 2643 2644static void 2645register_file(struct iso9660 *iso9660, struct file_info *file) 2646{ 2647 2648 file->use_next = iso9660->use_files; 2649 iso9660->use_files = file; 2650} 2651 2652static void 2653release_files(struct iso9660 *iso9660) 2654{ 2655 struct content *con, *connext; 2656 struct file_info *file; 2657 2658 file = iso9660->use_files; 2659 while (file != NULL) { 2660 struct file_info *next = file->use_next; 2661 2662 archive_string_free(&file->name); 2663 archive_string_free(&file->symlink); 2664 free(file->utf16be_name); 2665 con = file->contents.first; 2666 while (con != NULL) { 2667 connext = con->next; 2668 free(con); 2669 con = connext; 2670 } 2671 free(file); 2672 file = next; 2673 } 2674} 2675 2676static int 2677next_entry_seek(struct archive_read *a, struct iso9660 *iso9660, 2678 struct file_info **pfile) 2679{ 2680 struct file_info *file; 2681 int r; 2682 2683 r = next_cache_entry(a, iso9660, pfile); 2684 if (r != ARCHIVE_OK) 2685 return (r); 2686 file = *pfile; 2687 2688 /* Don't waste time seeking for zero-length bodies. */ 2689 if (file->size == 0) 2690 file->offset = iso9660->current_position; 2691 2692 /* flush any remaining bytes from the last round to ensure 2693 * we're positioned */ 2694 if (iso9660->entry_bytes_unconsumed) { 2695 __archive_read_consume(a, iso9660->entry_bytes_unconsumed); 2696 iso9660->entry_bytes_unconsumed = 0; 2697 } 2698 2699 /* Seek forward to the start of the entry. */ 2700 if (iso9660->current_position < file->offset) { 2701 int64_t step; 2702 2703 step = file->offset - iso9660->current_position; 2704 step = __archive_read_consume(a, step); 2705 if (step < 0) 2706 return ((int)step); 2707 iso9660->current_position = file->offset; 2708 } 2709 2710 /* We found body of file; handle it now. */ 2711 return (ARCHIVE_OK); 2712} 2713 2714static int 2715next_cache_entry(struct archive_read *a, struct iso9660 *iso9660, 2716 struct file_info **pfile) 2717{ 2718 struct file_info *file; 2719 struct { 2720 struct file_info *first; 2721 struct file_info **last; 2722 } empty_files; 2723 int64_t number; 2724 int count; 2725 2726 file = cache_get_entry(iso9660); 2727 if (file != NULL) { 2728 *pfile = file; 2729 return (ARCHIVE_OK); 2730 } 2731 2732 for (;;) { 2733 struct file_info *re, *d; 2734 2735 *pfile = file = next_entry(iso9660); 2736 if (file == NULL) { 2737 /* 2738 * If directory entries all which are descendant of 2739 * rr_moved are still remaining, expose their. 2740 */ 2741 if (iso9660->re_files.first != NULL && 2742 iso9660->rr_moved != NULL && 2743 iso9660->rr_moved->rr_moved_has_re_only) 2744 /* Expose "rr_moved" entry. */ 2745 cache_add_entry(iso9660, iso9660->rr_moved); 2746 while ((re = re_get_entry(iso9660)) != NULL) { 2747 /* Expose its descendant dirs. */ 2748 while ((d = rede_get_entry(re)) != NULL) 2749 cache_add_entry(iso9660, d); 2750 } 2751 if (iso9660->cache_files.first != NULL) 2752 return (next_cache_entry(a, iso9660, pfile)); 2753 return (ARCHIVE_EOF); 2754 } 2755 2756 if (file->cl_offset) { 2757 struct file_info *first_re = NULL; 2758 int nexted_re = 0; 2759 2760 /* 2761 * Find "RE" dir for the current file, which 2762 * has "CL" flag. 2763 */ 2764 while ((re = re_get_entry(iso9660)) 2765 != first_re) { 2766 if (first_re == NULL) 2767 first_re = re; 2768 if (re->offset == file->cl_offset) { 2769 re->parent->subdirs--; 2770 re->parent = file->parent; 2771 re->re = 0; 2772 if (re->parent->re_descendant) { 2773 nexted_re = 1; 2774 re->re_descendant = 1; 2775 if (rede_add_entry(re) < 0) 2776 goto fatal_rr; 2777 /* Move a list of descendants 2778 * to a new ancestor. */ 2779 while ((d = rede_get_entry( 2780 re)) != NULL) 2781 if (rede_add_entry(d) 2782 < 0) 2783 goto fatal_rr; 2784 break; 2785 } 2786 /* Replace the current file 2787 * with "RE" dir */ 2788 *pfile = file = re; 2789 /* Expose its descendant */ 2790 while ((d = rede_get_entry( 2791 file)) != NULL) 2792 cache_add_entry( 2793 iso9660, d); 2794 break; 2795 } else 2796 re_add_entry(iso9660, re); 2797 } 2798 if (nexted_re) { 2799 /* 2800 * Do not expose this at this time 2801 * because we have not gotten its full-path 2802 * name yet. 2803 */ 2804 continue; 2805 } 2806 } else if ((file->mode & AE_IFMT) == AE_IFDIR) { 2807 int r; 2808 2809 /* Read file entries in this dir. */ 2810 r = read_children(a, file); 2811 if (r != ARCHIVE_OK) 2812 return (r); 2813 2814 /* 2815 * Handle a special dir of Rockridge extensions, 2816 * "rr_moved". 2817 */ 2818 if (file->rr_moved) { 2819 /* 2820 * If this has only the subdirectories which 2821 * have "RE" flags, do not expose at this time. 2822 */ 2823 if (file->rr_moved_has_re_only) 2824 continue; 2825 /* Otherwise expose "rr_moved" entry. */ 2826 } else if (file->re) { 2827 /* 2828 * Do not expose this at this time 2829 * because we have not gotten its full-path 2830 * name yet. 2831 */ 2832 re_add_entry(iso9660, file); 2833 continue; 2834 } else if (file->re_descendant) { 2835 /* 2836 * If the top level "RE" entry of this entry 2837 * is not exposed, we, accordingly, should not 2838 * expose this entry at this time because 2839 * we cannot make its proper full-path name. 2840 */ 2841 if (rede_add_entry(file) == 0) 2842 continue; 2843 /* Otherwise we can expose this entry because 2844 * it seems its top level "RE" has already been 2845 * exposed. */ 2846 } 2847 } 2848 break; 2849 } 2850 2851 if ((file->mode & AE_IFMT) != AE_IFREG || file->number == -1) 2852 return (ARCHIVE_OK); 2853 2854 count = 0; 2855 number = file->number; 2856 iso9660->cache_files.first = NULL; 2857 iso9660->cache_files.last = &(iso9660->cache_files.first); 2858 empty_files.first = NULL; 2859 empty_files.last = &empty_files.first; 2860 /* Collect files which has the same file serial number. 2861 * Peek pending_files so that file which number is different 2862 * is not put back. */ 2863 while (iso9660->pending_files.used > 0 && 2864 (iso9660->pending_files.files[0]->number == -1 || 2865 iso9660->pending_files.files[0]->number == number)) { 2866 if (file->number == -1) { 2867 /* This file has the same offset 2868 * but it's wrong offset which empty files 2869 * and symlink files have. 2870 * NOTE: This wrong offset was recorded by 2871 * old mkisofs utility. If ISO images is 2872 * created by latest mkisofs, this does not 2873 * happen. 2874 */ 2875 file->next = NULL; 2876 *empty_files.last = file; 2877 empty_files.last = &(file->next); 2878 } else { 2879 count++; 2880 cache_add_entry(iso9660, file); 2881 } 2882 file = next_entry(iso9660); 2883 } 2884 2885 if (count == 0) { 2886 *pfile = file; 2887 return ((file == NULL)?ARCHIVE_EOF:ARCHIVE_OK); 2888 } 2889 if (file->number == -1) { 2890 file->next = NULL; 2891 *empty_files.last = file; 2892 empty_files.last = &(file->next); 2893 } else { 2894 count++; 2895 cache_add_entry(iso9660, file); 2896 } 2897 2898 if (count > 1) { 2899 /* The count is the same as number of hardlink, 2900 * so much so that each nlinks of files in cache_file 2901 * is overwritten by value of the count. 2902 */ 2903 for (file = iso9660->cache_files.first; 2904 file != NULL; file = file->next) 2905 file->nlinks = count; 2906 } 2907 /* If there are empty files, that files are added 2908 * to the tail of the cache_files. */ 2909 if (empty_files.first != NULL) { 2910 *iso9660->cache_files.last = empty_files.first; 2911 iso9660->cache_files.last = empty_files.last; 2912 } 2913 *pfile = cache_get_entry(iso9660); 2914 return ((*pfile == NULL)?ARCHIVE_EOF:ARCHIVE_OK); 2915 2916fatal_rr: 2917 archive_set_error(&a->archive, ARCHIVE_ERRNO_MISC, 2918 "Failed to connect 'CL' pointer to 'RE' rr_moved pointer of " 2919 "Rockridge extensions: current position = %jd, CL offset = %jd", 2920 (intmax_t)iso9660->current_position, (intmax_t)file->cl_offset); 2921 return (ARCHIVE_FATAL); 2922} 2923 2924static inline void 2925re_add_entry(struct iso9660 *iso9660, struct file_info *file) 2926{ 2927 file->re_next = NULL; 2928 *iso9660->re_files.last = file; 2929 iso9660->re_files.last = &(file->re_next); 2930} 2931 2932static inline struct file_info * 2933re_get_entry(struct iso9660 *iso9660) 2934{ 2935 struct file_info *file; 2936 2937 if ((file = iso9660->re_files.first) != NULL) { 2938 iso9660->re_files.first = file->re_next; 2939 if (iso9660->re_files.first == NULL) 2940 iso9660->re_files.last = 2941 &(iso9660->re_files.first); 2942 } 2943 return (file); 2944} 2945 2946static inline int 2947rede_add_entry(struct file_info *file) 2948{ 2949 struct file_info *re; 2950 2951 /* 2952 * Find "RE" entry. 2953 */ 2954 re = file->parent; 2955 while (re != NULL && !re->re) 2956 re = re->parent; 2957 if (re == NULL) 2958 return (-1); 2959 2960 file->re_next = NULL; 2961 *re->rede_files.last = file; 2962 re->rede_files.last = &(file->re_next); 2963 return (0); 2964} 2965 2966static inline struct file_info * 2967rede_get_entry(struct file_info *re) 2968{ 2969 struct file_info *file; 2970 2971 if ((file = re->rede_files.first) != NULL) { 2972 re->rede_files.first = file->re_next; 2973 if (re->rede_files.first == NULL) 2974 re->rede_files.last = 2975 &(re->rede_files.first); 2976 } 2977 return (file); 2978} 2979 2980static inline void 2981cache_add_entry(struct iso9660 *iso9660, struct file_info *file) 2982{ 2983 file->next = NULL; 2984 *iso9660->cache_files.last = file; 2985 iso9660->cache_files.last = &(file->next); 2986} 2987 2988static inline struct file_info * 2989cache_get_entry(struct iso9660 *iso9660) 2990{ 2991 struct file_info *file; 2992 2993 if ((file = iso9660->cache_files.first) != NULL) { 2994 iso9660->cache_files.first = file->next; 2995 if (iso9660->cache_files.first == NULL) 2996 iso9660->cache_files.last = 2997 &(iso9660->cache_files.first); 2998 } 2999 return (file); 3000} 3001 3002static int 3003heap_add_entry(struct archive_read *a, struct heap_queue *heap, 3004 struct file_info *file, uint64_t key) 3005{ 3006 uint64_t file_key, parent_key; 3007 int hole, parent; 3008 3009 /* Expand our pending files list as necessary. */ 3010 if (heap->used >= heap->allocated) { 3011 struct file_info **new_pending_files; 3012 int new_size = heap->allocated * 2; 3013 3014 if (heap->allocated < 1024) 3015 new_size = 1024; 3016 /* Overflow might keep us from growing the list. */ 3017 if (new_size <= heap->allocated) { 3018 archive_set_error(&a->archive, 3019 ENOMEM, "Out of memory"); 3020 return (ARCHIVE_FATAL); 3021 } 3022 new_pending_files = (struct file_info **) 3023 malloc(new_size * sizeof(new_pending_files[0])); 3024 if (new_pending_files == NULL) { 3025 archive_set_error(&a->archive, 3026 ENOMEM, "Out of memory"); 3027 return (ARCHIVE_FATAL); 3028 } 3029 if (heap->allocated) 3030 memcpy(new_pending_files, heap->files, 3031 heap->allocated * sizeof(new_pending_files[0])); 3032 if (heap->files != NULL) 3033 free(heap->files); 3034 heap->files = new_pending_files; 3035 heap->allocated = new_size; 3036 } 3037 3038 file_key = file->key = key; 3039 3040 /* 3041 * Start with hole at end, walk it up tree to find insertion point. 3042 */ 3043 hole = heap->used++; 3044 while (hole > 0) { 3045 parent = (hole - 1)/2; 3046 parent_key = heap->files[parent]->key; 3047 if (file_key >= parent_key) { 3048 heap->files[hole] = file; 3049 return (ARCHIVE_OK); 3050 } 3051 /* Move parent into hole <==> move hole up tree. */ 3052 heap->files[hole] = heap->files[parent]; 3053 hole = parent; 3054 } 3055 heap->files[0] = file; 3056 3057 return (ARCHIVE_OK); 3058} 3059 3060static struct file_info * 3061heap_get_entry(struct heap_queue *heap) 3062{ 3063 uint64_t a_key, b_key, c_key; 3064 int a, b, c; 3065 struct file_info *r, *tmp; 3066 3067 if (heap->used < 1) 3068 return (NULL); 3069 3070 /* 3071 * The first file in the list is the earliest; we'll return this. 3072 */ 3073 r = heap->files[0]; 3074 3075 /* 3076 * Move the last item in the heap to the root of the tree 3077 */ 3078 heap->files[0] = heap->files[--(heap->used)]; 3079 3080 /* 3081 * Rebalance the heap. 3082 */ 3083 a = 0; /* Starting element and its heap key */ 3084 a_key = heap->files[a]->key; 3085 for (;;) { 3086 b = a + a + 1; /* First child */ 3087 if (b >= heap->used) 3088 return (r); 3089 b_key = heap->files[b]->key; 3090 c = b + 1; /* Use second child if it is smaller. */ 3091 if (c < heap->used) { 3092 c_key = heap->files[c]->key; 3093 if (c_key < b_key) { 3094 b = c; 3095 b_key = c_key; 3096 } 3097 } 3098 if (a_key <= b_key) 3099 return (r); 3100 tmp = heap->files[a]; 3101 heap->files[a] = heap->files[b]; 3102 heap->files[b] = tmp; 3103 a = b; 3104 } 3105} 3106 3107static unsigned int 3108toi(const void *p, int n) 3109{ 3110 const unsigned char *v = (const unsigned char *)p; 3111 if (n > 1) 3112 return v[0] + 256 * toi(v + 1, n - 1); 3113 if (n == 1) 3114 return v[0]; 3115 return (0); 3116} 3117 3118static time_t 3119isodate7(const unsigned char *v) 3120{ 3121 struct tm tm; 3122 int offset; 3123 time_t t; 3124 3125 memset(&tm, 0, sizeof(tm)); 3126 tm.tm_year = v[0]; 3127 tm.tm_mon = v[1] - 1; 3128 tm.tm_mday = v[2]; 3129 tm.tm_hour = v[3]; 3130 tm.tm_min = v[4]; 3131 tm.tm_sec = v[5]; 3132 /* v[6] is the signed timezone offset, in 1/4-hour increments. */ 3133 offset = ((const signed char *)v)[6]; 3134 if (offset > -48 && offset < 52) { 3135 tm.tm_hour -= offset / 4; 3136 tm.tm_min -= (offset % 4) * 15; 3137 } 3138 t = time_from_tm(&tm); 3139 if (t == (time_t)-1) 3140 return ((time_t)0); 3141 return (t); 3142} 3143 3144static time_t 3145isodate17(const unsigned char *v) 3146{ 3147 struct tm tm; 3148 int offset; 3149 time_t t; 3150 3151 memset(&tm, 0, sizeof(tm)); 3152 tm.tm_year = (v[0] - '0') * 1000 + (v[1] - '0') * 100 3153 + (v[2] - '0') * 10 + (v[3] - '0') 3154 - 1900; 3155 tm.tm_mon = (v[4] - '0') * 10 + (v[5] - '0'); 3156 tm.tm_mday = (v[6] - '0') * 10 + (v[7] - '0'); 3157 tm.tm_hour = (v[8] - '0') * 10 + (v[9] - '0'); 3158 tm.tm_min = (v[10] - '0') * 10 + (v[11] - '0'); 3159 tm.tm_sec = (v[12] - '0') * 10 + (v[13] - '0'); 3160 /* v[16] is the signed timezone offset, in 1/4-hour increments. */ 3161 offset = ((const signed char *)v)[16]; 3162 if (offset > -48 && offset < 52) { 3163 tm.tm_hour -= offset / 4; 3164 tm.tm_min -= (offset % 4) * 15; 3165 } 3166 t = time_from_tm(&tm); 3167 if (t == (time_t)-1) 3168 return ((time_t)0); 3169 return (t); 3170} 3171 3172static time_t 3173time_from_tm(struct tm *t) 3174{ 3175#if HAVE_TIMEGM 3176 /* Use platform timegm() if available. */ 3177 return (timegm(t)); 3178#elif HAVE__MKGMTIME64 3179 return (_mkgmtime64(t)); 3180#else 3181 /* Else use direct calculation using POSIX assumptions. */ 3182 /* First, fix up tm_yday based on the year/month/day. */ 3183 if (mktime(t) == (time_t)-1) 3184 return ((time_t)-1); 3185 /* Then we can compute timegm() from first principles. */ 3186 return (t->tm_sec 3187 + t->tm_min * 60 3188 + t->tm_hour * 3600 3189 + t->tm_yday * 86400 3190 + (t->tm_year - 70) * 31536000 3191 + ((t->tm_year - 69) / 4) * 86400 3192 - ((t->tm_year - 1) / 100) * 86400 3193 + ((t->tm_year + 299) / 400) * 86400); 3194#endif 3195} 3196 3197static const char * 3198build_pathname(struct archive_string *as, struct file_info *file, int depth) 3199{ 3200 // Plain ISO9660 only allows 8 dir levels; if we get 3201 // to 1000, then something is very, very wrong. 3202 if (depth > 1000) { 3203 return NULL; 3204 } 3205 if (file->parent != NULL && archive_strlen(&file->parent->name) > 0) { 3206 if (build_pathname(as, file->parent, depth + 1) == NULL) { 3207 return NULL; 3208 } 3209 archive_strcat(as, "/"); 3210 } 3211 if (archive_strlen(&file->name) == 0) 3212 archive_strcat(as, "."); 3213 else 3214 archive_string_concat(as, &file->name); 3215 return (as->s); 3216} 3217 3218static int 3219build_pathname_utf16be(unsigned char *p, size_t max, size_t *len, 3220 struct file_info *file) 3221{ 3222 if (file->parent != NULL && file->parent->utf16be_bytes > 0) { 3223 if (build_pathname_utf16be(p, max, len, file->parent) != 0) 3224 return (-1); 3225 p[*len] = 0; 3226 p[*len + 1] = '/'; 3227 *len += 2; 3228 } 3229 if (file->utf16be_bytes == 0) { 3230 if (*len + 2 > max) 3231 return (-1);/* Path is too long! */ 3232 p[*len] = 0; 3233 p[*len + 1] = '.'; 3234 *len += 2; 3235 } else { 3236 if (*len + file->utf16be_bytes > max) 3237 return (-1);/* Path is too long! */ 3238 memcpy(p + *len, file->utf16be_name, file->utf16be_bytes); 3239 *len += file->utf16be_bytes; 3240 } 3241 return (0); 3242} 3243 3244#if DEBUG 3245static void 3246dump_isodirrec(FILE *out, const unsigned char *isodirrec) 3247{ 3248 fprintf(out, " l %d,", 3249 toi(isodirrec + DR_length_offset, DR_length_size)); 3250 fprintf(out, " a %d,", 3251 toi(isodirrec + DR_ext_attr_length_offset, DR_ext_attr_length_size)); 3252 fprintf(out, " ext 0x%x,", 3253 toi(isodirrec + DR_extent_offset, DR_extent_size)); 3254 fprintf(out, " s %d,", 3255 toi(isodirrec + DR_size_offset, DR_extent_size)); 3256 fprintf(out, " f 0x%x,", 3257 toi(isodirrec + DR_flags_offset, DR_flags_size)); 3258 fprintf(out, " u %d,", 3259 toi(isodirrec + DR_file_unit_size_offset, DR_file_unit_size_size)); 3260 fprintf(out, " ilv %d,", 3261 toi(isodirrec + DR_interleave_offset, DR_interleave_size)); 3262 fprintf(out, " seq %d,", 3263 toi(isodirrec + DR_volume_sequence_number_offset, 3264 DR_volume_sequence_number_size)); 3265 fprintf(out, " nl %d:", 3266 toi(isodirrec + DR_name_len_offset, DR_name_len_size)); 3267 fprintf(out, " `%.*s'", 3268 toi(isodirrec + DR_name_len_offset, DR_name_len_size), 3269 isodirrec + DR_name_offset); 3270} 3271#endif 3272