udf.c revision 1.4
1 /* $NetBSD: udf.c,v 1.4 2013/08/05 18:44:16 reinoud Exp $ */ 2 3 /* 4 * Copyright (c) 2006, 2008, 2013 Reinoud Zandijk 5 * All rights reserved. 6 * 7 * Redistribution and use in source and binary forms, with or without 8 * modification, are permitted provided that the following conditions 9 * are met: 10 * 1. Redistributions of source code must retain the above copyright 11 * notice, this list of conditions and the following disclaimer. 12 * 2. Redistributions in binary form must reproduce the above copyright 13 * 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 ``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 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 #if HAVE_NBTOOL_CONFIG_H 29 #include "nbtool_config.h" 30 #endif 31 32 #include <sys/cdefs.h> 33 __RCSID("$NetBSD: udf.c,v 1.4 2013/08/05 18:44:16 reinoud Exp $"); 34 35 #include <stdio.h> 36 #include <stdlib.h> 37 #include <string.h> 38 #include <errno.h> 39 #include <time.h> 40 #include <assert.h> 41 #include <err.h> 42 #include <unistd.h> 43 #include <fcntl.h> 44 #include <sys/types.h> 45 #include <sys/param.h> 46 #include <sys/stat.h> 47 #include <util.h> 48 49 #if !HAVE_NBTOOL_CONFIG_H 50 #define _EXPOSE_MMC 51 #include <sys/cdio.h> 52 #else 53 #include "udf/cdio_mmc_structs.h" 54 #endif 55 56 #include "makefs.h" 57 #include "udf_create.h" 58 #include "udf_write.h" 59 #include "newfs_udf.h" 60 61 62 /* 63 * Note: due to the setup of the newfs code, the current state of the program 64 * and its options are helt in a few global variables. The FS specific parts 65 * are in a global `context' structure. 66 */ 67 68 /* global variables describing disc and format requests */ 69 int fd; /* device: file descriptor */ 70 char *dev; /* device: name */ 71 struct mmc_discinfo mmc_discinfo; /* device: disc info */ 72 73 char *format_str; /* format: string representation */ 74 int format_flags; /* format: attribute flags */ 75 int media_accesstype; /* derived from current mmc cap */ 76 int check_surface; /* for rewritables */ 77 int imagefile_secsize; /* for files */ 78 79 int display_progressbar; 80 81 int wrtrack_skew; 82 float meta_fract = (float) UDF_META_PERC / 100.0; 83 84 int mmc_profile; /* emulated profile */ 85 int req_enable, req_disable; 86 87 88 /* --------------------------------------------------------------------- */ 89 90 int 91 udf_write_sector(void *sector, uint32_t location) 92 { 93 uint64_t wpos; 94 ssize_t ret; 95 96 wpos = (uint64_t) location * context.sector_size; 97 ret = pwrite(fd, sector, context.sector_size, wpos); 98 if (ret == -1) 99 return errno; 100 if (ret < context.sector_size) 101 return EIO; 102 return 0; 103 } 104 105 106 /* not implemented for files */ 107 int 108 udf_surface_check(void) 109 { 110 return 0; 111 } 112 113 114 /* 115 * mmc_discinfo and mmc_trackinfo readers modified from origional in udf main 116 * code in sys/fs/udf/ 117 */ 118 119 #ifdef DEBUG 120 static void 121 udf_dump_discinfo(struct mmc_discinfo *di) 122 { 123 char bits[128]; 124 125 printf("Device/media info :\n"); 126 printf("\tMMC profile 0x%02x\n", di->mmc_profile); 127 printf("\tderived class %d\n", di->mmc_class); 128 printf("\tsector size %d\n", di->sector_size); 129 printf("\tdisc state %d\n", di->disc_state); 130 printf("\tlast ses state %d\n", di->last_session_state); 131 printf("\tbg format state %d\n", di->bg_format_state); 132 printf("\tfrst track %d\n", di->first_track); 133 printf("\tfst on last ses %d\n", di->first_track_last_session); 134 printf("\tlst on last ses %d\n", di->last_track_last_session); 135 printf("\tlink block penalty %d\n", di->link_block_penalty); 136 snprintb(bits, sizeof(bits), MMC_DFLAGS_FLAGBITS, (uint64_t) di->disc_flags); 137 printf("\tdisc flags %s\n", bits); 138 printf("\tdisc id %x\n", di->disc_id); 139 printf("\tdisc barcode %"PRIx64"\n", di->disc_barcode); 140 141 printf("\tnum sessions %d\n", di->num_sessions); 142 printf("\tnum tracks %d\n", di->num_tracks); 143 144 snprintb(bits, sizeof(bits), MMC_CAP_FLAGBITS, di->mmc_cur); 145 printf("\tcapabilities cur %s\n", bits); 146 snprintb(bits, sizeof(bits), MMC_CAP_FLAGBITS, di->mmc_cap); 147 printf("\tcapabilities cap %s\n", bits); 148 printf("\n"); 149 printf("\tlast_possible_lba %d\n", di->last_possible_lba); 150 printf("\n"); 151 } 152 #else 153 #define udf_dump_discinfo(a); 154 #endif 155 156 /* --------------------------------------------------------------------- */ 157 158 static int 159 udf_emulate_discinfo(fsinfo_t *fsopts, struct mmc_discinfo *di, 160 int mmc_emuprofile) 161 { 162 off_t sectors; 163 164 memset(di, 0, sizeof(*di)); 165 166 /* file support */ 167 if ((mmc_emuprofile != 0x01) && (fsopts->sectorsize != 2048)) 168 warnx("cd/dvd/bd sectorsize is not set to default 2048"); 169 170 sectors = fsopts->size / fsopts->sectorsize; 171 172 /* commons */ 173 di->mmc_profile = mmc_emuprofile; 174 di->disc_state = MMC_STATE_CLOSED; 175 di->last_session_state = MMC_STATE_CLOSED; 176 di->bg_format_state = MMC_BGFSTATE_COMPLETED; 177 di->link_block_penalty = 0; 178 179 di->disc_flags = MMC_DFLAGS_UNRESTRICTED; 180 181 di->last_possible_lba = sectors - 1; 182 di->sector_size = fsopts->sectorsize; 183 184 di->num_sessions = 1; 185 di->num_tracks = 1; 186 187 di->first_track = 1; 188 di->first_track_last_session = di->last_track_last_session = 1; 189 190 di->mmc_cur = MMC_CAP_RECORDABLE | MMC_CAP_ZEROLINKBLK; 191 switch (mmc_emuprofile) { 192 case 0x00: /* unknown, treat as CDROM */ 193 case 0x08: /* CDROM */ 194 case 0x10: /* DVD-ROM */ 195 req_enable |= FORMAT_READONLY; 196 /* FALLTROUGH */ 197 case 0x01: /* disc */ 198 /* set up a disc info profile for partitions/files */ 199 di->mmc_class = MMC_CLASS_DISC; 200 di->mmc_cur |= MMC_CAP_REWRITABLE | MMC_CAP_HW_DEFECTFREE; 201 break; 202 case 0x09: /* CD-R */ 203 di->mmc_class = MMC_CLASS_CD; 204 di->mmc_cur |= MMC_CAP_SEQUENTIAL; 205 di->disc_state = MMC_STATE_EMPTY; 206 break; 207 case 0x0a: /* CD-RW + CD-MRW (regretably) */ 208 di->mmc_class = MMC_CLASS_CD; 209 di->mmc_cur |= MMC_CAP_REWRITABLE; 210 break; 211 case 0x13: /* DVD-RW */ 212 di->mmc_class = MMC_CLASS_DVD; 213 di->mmc_cur |= MMC_CAP_REWRITABLE; 214 break; 215 case 0x11: /* DVD-R */ 216 case 0x14: /* DVD-RW sequential */ 217 case 0x1b: /* DVD+R */ 218 case 0x2b: /* DVD+R DL */ 219 case 0x51: /* HD DVD-R */ 220 di->mmc_class = MMC_CLASS_DVD; 221 di->mmc_cur |= MMC_CAP_SEQUENTIAL; 222 di->disc_state = MMC_STATE_EMPTY; 223 break; 224 case 0x41: /* BD-R */ 225 di->mmc_class = MMC_CLASS_BD; 226 di->mmc_cur |= MMC_CAP_SEQUENTIAL | MMC_CAP_HW_DEFECTFREE; 227 di->disc_state = MMC_STATE_EMPTY; 228 break; 229 case 0x43: /* BD-RE */ 230 di->mmc_class = MMC_CLASS_BD; 231 di->mmc_cur |= MMC_CAP_REWRITABLE | MMC_CAP_HW_DEFECTFREE; 232 break; 233 default: 234 err(EINVAL, "makefs_udf: unknown or unimplemented device type"); 235 return EINVAL; 236 } 237 di->mmc_cap = di->mmc_cur; 238 239 udf_dump_discinfo(di); 240 return 0; 241 } 242 243 244 int 245 udf_update_trackinfo(struct mmc_discinfo *di, struct mmc_trackinfo *ti) 246 { 247 /* discs partition support */ 248 if (ti->tracknr != 1) 249 return EIO; 250 251 /* create fake ti */ 252 ti->sessionnr = 1; 253 254 ti->track_mode = 0; /* XXX */ 255 ti->data_mode = 0; /* XXX */ 256 ti->flags = MMC_TRACKINFO_LRA_VALID | MMC_TRACKINFO_NWA_VALID; 257 258 ti->track_start = 0; 259 ti->packet_size = 32; /* take sensible default */ 260 261 ti->track_size = di->last_possible_lba; 262 ti->next_writable = di->last_possible_lba; 263 ti->last_recorded = ti->next_writable; 264 ti->free_blocks = 0; 265 266 return 0; 267 } 268 269 #define OPT_STR(letter, name, desc) \ 270 { letter, name, NULL, OPT_STRBUF, 0, 0, desc } 271 272 #define OPT_NUM(letter, name, field, min, max, desc) \ 273 { letter, name, &diskStructure->field, \ 274 sizeof(diskStructure->field) == 8 ? OPT_INT64 : \ 275 (sizeof(diskStructure->field) == 4 ? OPT_INT32 : \ 276 (sizeof(diskStructure->field) == 2 ? OPT_INT16 : OPT_INT8)), \ 277 min, max, desc } 278 279 #define OPT_BOOL(letter, name, field, desc) \ 280 OPT_NUM(letter, name, field, 0, 1, desc) 281 282 void 283 udf_prep_opts(fsinfo_t *fsopts) 284 { 285 struct tm *tm; 286 time_t now; 287 288 const option_t udf_options[] = { 289 OPT_STR('T', "disctype", "disc type (cdrom,dvdrom,dvdram,bdre,disk,cdr,dvdr,cdrw,dvdrw)"), 290 // { 'P', "progress", &display_progressbar, OPT_INT32, false, true, 291 // "display progress bar" }, 292 { .name = NULL } 293 }; 294 295 /* initialise */ 296 format_str = strdup(""); 297 req_enable = req_disable = 0; 298 format_flags = FORMAT_INVALID; 299 fsopts->sectorsize = 512; /* minimum allowed sector size */ 300 301 srandom((unsigned long) time(NULL)); 302 303 mmc_profile = 0x01; /* 'disc'/file */ 304 305 udf_init_create_context(); 306 context.app_name = APP_NAME; 307 context.impl_name = IMPL_NAME; 308 context.app_version_main = APP_VERSION_MAIN; 309 context.app_version_sub = APP_VERSION_SUB; 310 311 /* minimum and maximum UDF versions we advise */ 312 context.min_udf = 0x102; 313 context.max_udf = 0x201; 314 315 /* use user's time zone as default */ 316 (void)time(&now); 317 tm = localtime(&now); 318 context.gmtoff = tm->tm_gmtoff; 319 320 /* return info */ 321 fsopts->fs_specific = NULL; 322 fsopts->fs_options = copy_opts(udf_options); 323 } 324 325 326 void 327 udf_cleanup_opts(fsinfo_t *fsopts) 328 { 329 free(fsopts->fs_options); 330 } 331 332 333 int 334 udf_parse_opts(const char *option, fsinfo_t *fsopts) 335 { 336 option_t *udf_options = fsopts->fs_options; 337 const char *name, *desc; 338 char buf[1024]; 339 int i; 340 341 assert(option != NULL); 342 343 if (debug & DEBUG_FS_PARSE_OPTS) 344 printf("udf_parse_opts: got `%s'\n", option); 345 346 i = set_option(udf_options, option, buf, sizeof(buf)); 347 if (i == -1) 348 return 0; 349 350 if (udf_options[i].name == NULL) 351 abort(); 352 353 name = udf_options[i].name; 354 desc = udf_options[i].desc; 355 switch (udf_options[i].letter) { 356 case 'T': 357 if (strcmp(buf, "cdrom") == 0) { 358 mmc_profile = 0x00; 359 } else if (strcmp(buf, "dvdrom") == 0) { 360 mmc_profile = 0x10; 361 } else if (strcmp(buf, "dvdram") == 0) { 362 mmc_profile = 0x12; 363 } else if (strcmp(buf, "bdre") == 0) { 364 mmc_profile = 0x43; 365 } else if (strcmp(buf, "disk") == 0) { 366 mmc_profile = 0x01; 367 } else if (strcmp(buf, "cdr") == 0) { 368 mmc_profile = 0x09; 369 } else if (strcmp(buf, "dvdr") == 0) { 370 mmc_profile = 0x1b; 371 } else if (strcmp(buf, "cdrw") == 0) { 372 mmc_profile = 0x0a; 373 } else if (strcmp(buf, "dvdrw") == 0) { 374 mmc_profile = 0x13; 375 } else { 376 errx(EINVAL, "Unknown or unimplemented disc format"); 377 return 0; 378 } 379 } 380 return 1; 381 } 382 383 /* --------------------------------------------------------------------- */ 384 385 struct udf_stats { 386 uint32_t nfiles; 387 uint32_t ndirs; 388 uint32_t ndescr; 389 uint32_t nmetadatablocks; 390 uint32_t ndatablocks; 391 }; 392 393 394 /* node reference administration */ 395 static void 396 udf_inc_link(union dscrptr *dscr) 397 { 398 struct file_entry *fe; 399 struct extfile_entry *efe; 400 401 if (udf_rw16(dscr->tag.id) == TAGID_FENTRY) { 402 fe = &dscr->fe; 403 fe->link_cnt = udf_rw16(udf_rw16(fe->link_cnt) + 1); 404 } else if (udf_rw16(dscr->tag.id) == TAGID_EXTFENTRY) { 405 efe = &dscr->efe; 406 efe->link_cnt = udf_rw16(udf_rw16(efe->link_cnt) + 1); 407 } else { 408 errx(1, "Bad tag passed to udf_inc_link"); 409 } 410 } 411 412 413 static void 414 udf_set_link_cnt(union dscrptr *dscr, int num) 415 { 416 struct file_entry *fe; 417 struct extfile_entry *efe; 418 419 if (udf_rw16(dscr->tag.id) == TAGID_FENTRY) { 420 fe = &dscr->fe; 421 fe->link_cnt = udf_rw16(num); 422 } else if (udf_rw16(dscr->tag.id) == TAGID_EXTFENTRY) { 423 efe = &dscr->efe; 424 efe->link_cnt = udf_rw16(num); 425 } else { 426 errx(1, "Bad tag passed to udf_set_link_cnt"); 427 } 428 } 429 430 431 static uint32_t 432 udf_datablocks(off_t sz) 433 { 434 /* predictor if it can be written inside the node */ 435 if (sz < context.sector_size - UDF_EXTFENTRY_SIZE - 16) 436 return 0; 437 438 return UDF_ROUNDUP(sz, context.sector_size) / context.sector_size; 439 } 440 441 442 static void 443 udf_prepare_fids(struct long_ad *dir_icb, struct long_ad *dirdata_icb, 444 uint8_t *dirdata, uint32_t dirdata_size) 445 { 446 struct fileid_desc *fid; 447 struct long_ad *icb; 448 uint32_t fidsize, offset; 449 uint32_t location; 450 451 if (udf_datablocks(dirdata_size) == 0) { 452 /* going internal */ 453 icb = dir_icb; 454 } else { 455 /* external blocks to write to */ 456 icb = dirdata_icb; 457 } 458 459 for (offset = 0; offset < dirdata_size; offset += fidsize) { 460 /* for each FID: */ 461 fid = (struct fileid_desc *) (dirdata + offset); 462 assert(udf_rw16(fid->tag.id) == TAGID_FID); 463 464 location = udf_rw32(icb->loc.lb_num); 465 location += offset / context.sector_size; 466 467 fid->tag.tag_loc = udf_rw32(location); 468 udf_validate_tag_and_crc_sums((union dscrptr *) fid); 469 470 fidsize = udf_fidsize(fid); 471 } 472 } 473 474 static int 475 udf_file_inject_blob(union dscrptr *dscr, uint8_t *blob, size_t size) 476 { 477 struct icb_tag *icb; 478 struct file_entry *fe; 479 struct extfile_entry *efe; 480 uint64_t inf_len, obj_size; 481 uint32_t l_ea, l_ad; 482 uint32_t free_space, desc_size; 483 uint16_t crclen; 484 uint8_t *data, *pos; 485 486 fe = NULL; 487 efe = NULL; 488 if (udf_rw16(dscr->tag.id) == TAGID_FENTRY) { 489 fe = &dscr->fe; 490 data = fe->data; 491 l_ea = udf_rw32(fe->l_ea); 492 l_ad = udf_rw32(fe->l_ad); 493 icb = &fe->icbtag; 494 inf_len = udf_rw64(fe->inf_len); 495 obj_size = 0; 496 desc_size = sizeof(struct file_entry); 497 } else if (udf_rw16(dscr->tag.id) == TAGID_EXTFENTRY) { 498 efe = &dscr->efe; 499 data = efe->data; 500 l_ea = udf_rw32(efe->l_ea); 501 l_ad = udf_rw32(efe->l_ad); 502 icb = &efe->icbtag; 503 inf_len = udf_rw64(efe->inf_len); 504 obj_size = udf_rw64(efe->obj_size); 505 desc_size = sizeof(struct extfile_entry); 506 } else { 507 errx(1, "Bad tag passed to udf_file_inject_blob"); 508 } 509 crclen = udf_rw16(dscr->tag.desc_crc_len); 510 511 /* calculate free space */ 512 free_space = context.sector_size - (l_ea + l_ad) - desc_size; 513 if (udf_datablocks(size)) { 514 assert(free_space < size); 515 return 1; 516 } 517 518 /* going internal */ 519 assert(l_ad == 0); 520 assert(udf_rw16(icb->flags) == UDF_ICB_INTERN_ALLOC); 521 522 // assert(free_space >= size); 523 pos = data + l_ea + l_ad; 524 memcpy(pos, blob, size); 525 l_ad += size; 526 crclen += size; 527 528 inf_len += size; 529 obj_size += size; 530 531 if (fe) { 532 fe->l_ad = udf_rw32(l_ad); 533 fe->inf_len = udf_rw64(inf_len); 534 } else if (efe) { 535 efe->l_ad = udf_rw32(l_ad); 536 efe->inf_len = udf_rw64(inf_len); 537 efe->obj_size = udf_rw64(inf_len); 538 } 539 540 /* make sure the header sums stays correct */ 541 dscr->tag.desc_crc_len = udf_rw16(crclen); 542 udf_validate_tag_and_crc_sums(dscr); 543 544 return 0; 545 } 546 547 548 /* XXX no sparse file support */ 549 static void 550 udf_append_file_mapping(union dscrptr *dscr, struct long_ad *piece) 551 { 552 struct icb_tag *icb; 553 struct file_entry *fe; 554 struct extfile_entry *efe; 555 struct long_ad *last_long, last_piece; 556 struct short_ad *last_short, new_short; 557 uint64_t inf_len, obj_size, logblks_rec; 558 uint32_t l_ea, l_ad, size; 559 uint32_t last_lb_num, piece_lb_num; 560 uint32_t last_len, piece_len, last_flags; 561 uint32_t rest_len, merge_len, last_end; 562 uint16_t last_part_num, piece_part_num; 563 uint16_t crclen, cur_alloc; 564 uint8_t *data, *pos; 565 const int short_len = sizeof(struct short_ad); 566 const int long_len = sizeof(struct long_ad); 567 const int sector_size = context.sector_size; 568 const int use_shorts = (context.data_part == context.metadata_part); 569 uint64_t max_len = UDF_ROUNDDOWN(UDF_EXT_MAXLEN, sector_size); 570 571 if (udf_rw16(dscr->tag.id) == TAGID_FENTRY) { 572 fe = &dscr->fe; 573 data = fe->data; 574 l_ea = fe->l_ea; 575 l_ad = udf_rw32(fe->l_ad); 576 icb = &fe->icbtag; 577 inf_len = udf_rw64(fe->inf_len); 578 logblks_rec = udf_rw64(fe->logblks_rec); 579 obj_size = 0; 580 } else if (udf_rw16(dscr->tag.id) == TAGID_EXTFENTRY) { 581 efe = &dscr->efe; 582 data = efe->data; 583 l_ea = efe->l_ea; 584 l_ad = udf_rw32(efe->l_ad); 585 icb = &efe->icbtag; 586 inf_len = udf_rw64(efe->inf_len); 587 obj_size = udf_rw64(efe->obj_size); 588 logblks_rec = udf_rw64(efe->logblks_rec); 589 } else { 590 errx(1, "Bad tag passed to udf_file_append_blob"); 591 } 592 crclen = udf_rw16(dscr->tag.desc_crc_len); 593 594 pos = data + l_ea; 595 cur_alloc = udf_rw16(icb->flags); 596 size = UDF_EXT_LEN(udf_rw32(piece->len)); 597 598 /* extract last entry as a long_ad */ 599 memset(&last_piece, 0, sizeof(last_piece)); 600 last_len = 0; 601 last_lb_num = 0; 602 last_part_num = 0; 603 if (l_ad != 0) { 604 if (use_shorts) { 605 assert(cur_alloc == UDF_ICB_SHORT_ALLOC); 606 pos += l_ad - short_len; 607 last_short = (struct short_ad *) pos; 608 last_lb_num = udf_rw32(last_short->lb_num); 609 last_part_num = udf_rw16(piece->loc.part_num); 610 last_len = UDF_EXT_LEN(udf_rw32(last_short->len)); 611 last_flags = UDF_EXT_FLAGS(udf_rw32(last_short->len)); 612 } else { 613 assert(cur_alloc == UDF_ICB_LONG_ALLOC); 614 pos += l_ad - long_len; 615 last_long = (struct long_ad *) pos; 616 last_lb_num = udf_rw32(last_long->loc.lb_num); 617 last_part_num = udf_rw16(last_long->loc.part_num); 618 last_len = UDF_EXT_LEN(udf_rw32(last_long->len)); 619 last_flags = UDF_EXT_FLAGS(udf_rw32(last_long->len)); 620 } 621 } 622 623 piece_len = UDF_EXT_LEN(udf_rw32(piece->len)); 624 piece_lb_num = udf_rw32(piece->loc.lb_num); 625 piece_part_num = udf_rw16(piece->loc.part_num); 626 627 /* try merging */ 628 rest_len = max_len - last_len; 629 630 merge_len = MIN(udf_rw32(piece->len), rest_len); 631 last_end = last_lb_num + (last_len / sector_size); 632 633 if ((piece_lb_num == last_end) && (last_part_num == piece_part_num)) { 634 /* we can merge */ 635 last_len += merge_len; 636 piece_len -= merge_len; 637 638 /* write back merge result */ 639 if (use_shorts) { 640 last_short->len = udf_rw32(last_len | last_flags); 641 } else { 642 last_long->len = udf_rw32(last_len | last_flags); 643 } 644 piece_lb_num += merge_len / sector_size; 645 } 646 647 if (piece_len) { 648 /* append new entry */ 649 pos = data + l_ea + l_ad; 650 if (use_shorts) { 651 icb->flags = udf_rw16(UDF_ICB_SHORT_ALLOC); 652 memset(&new_short, 0, short_len); 653 new_short.len = udf_rw32(piece_len); 654 new_short.lb_num = udf_rw32(piece_lb_num); 655 memcpy(pos, &new_short, short_len); 656 l_ad += short_len; 657 crclen += short_len; 658 } else { 659 icb->flags = udf_rw16(UDF_ICB_LONG_ALLOC); 660 piece->len = udf_rw32(piece_len); 661 piece->loc.lb_num = udf_rw32(piece_lb_num); 662 memcpy(pos, piece, long_len); 663 l_ad += long_len; 664 crclen += long_len; 665 } 666 } 667 piece->len = udf_rw32(0); 668 669 inf_len += size; 670 obj_size += size; 671 logblks_rec += UDF_ROUNDUP(size, sector_size) / sector_size; 672 673 dscr->tag.desc_crc_len = udf_rw16(crclen); 674 if (udf_rw16(dscr->tag.id) == TAGID_FENTRY) { 675 fe->l_ad = udf_rw32(l_ad); 676 fe->inf_len = udf_rw64(inf_len); 677 fe->logblks_rec = udf_rw64(logblks_rec); 678 } else if (udf_rw16(dscr->tag.id) == TAGID_EXTFENTRY) { 679 efe->l_ad = udf_rw32(l_ad); 680 efe->inf_len = udf_rw64(inf_len); 681 efe->obj_size = udf_rw64(inf_len); 682 efe->logblks_rec = udf_rw64(logblks_rec); 683 } 684 } 685 686 687 static int 688 udf_append_file_contents(union dscrptr *dscr, struct long_ad *data_icb, 689 uint8_t *fdata, size_t flen) 690 { 691 struct long_ad icb; 692 uint32_t location; 693 uint32_t phys; 694 uint16_t vpart; 695 uint8_t *bpos; 696 int cnt, sects; 697 int error; 698 699 if (udf_file_inject_blob(dscr, fdata, flen) == 0) 700 return 0; 701 702 /* has to be appended in mappings */ 703 icb = *data_icb; 704 icb.len = udf_rw32(flen); 705 while (udf_rw32(icb.len) > 0) 706 udf_append_file_mapping(dscr, &icb); 707 udf_validate_tag_and_crc_sums(dscr); 708 709 /* write out data piece */ 710 vpart = udf_rw16(data_icb->loc.part_num); 711 location = udf_rw32(data_icb->loc.lb_num); 712 sects = udf_datablocks(flen); 713 for (cnt = 0; cnt < sects; cnt++) { 714 bpos = fdata + cnt*context.sector_size; 715 phys = context.vtop_offset[vpart] + location + cnt; 716 error = udf_write_sector(bpos, phys); 717 if (error) 718 return error; 719 } 720 return 0; 721 } 722 723 724 static int 725 udf_create_new_file(struct stat *st, union dscrptr **dscr, 726 int filetype, struct long_ad *icb) 727 { 728 struct file_entry *fe; 729 struct extfile_entry *efe; 730 int error; 731 732 fe = NULL; 733 efe = NULL; 734 if (context.dscrver == 2) { 735 error = udf_create_new_fe(&fe, filetype, st); 736 if (error) 737 errx(error, "can't create fe"); 738 *dscr = (union dscrptr *) fe; 739 icb->longad_uniqueid = fe->unique_id; 740 } else { 741 error = udf_create_new_efe(&efe, filetype, st); 742 if (error) 743 errx(error, "can't create fe"); 744 *dscr = (union dscrptr *) efe; 745 icb->longad_uniqueid = efe->unique_id; 746 } 747 748 return 0; 749 } 750 751 752 static void 753 udf_estimate_walk(fsinfo_t *fsopts, 754 fsnode *root, char *dir, struct udf_stats *stats) 755 { 756 struct fileid_desc *fid; 757 struct long_ad dummy_ref; 758 fsnode *cur; 759 fsinode *fnode; 760 size_t pathlen = strlen(dir); 761 char *mydir = dir + pathlen; 762 off_t sz; 763 uint32_t nblk, ddoff; 764 uint32_t softlink_len; 765 uint8_t *softlink_buf; 766 int nentries; 767 int error; 768 769 stats->ndirs++; 770 771 /* 772 * Count number of directory entries and count directory size; needed 773 * for the reservation of enough space for the directory. Pity we 774 * don't keep the FIDs we created. If it turns out to be a issue we 775 * can cache it later. 776 */ 777 fid = (struct fileid_desc *) malloc(context.sector_size); 778 assert(fid); 779 780 ddoff = 40; /* '..' entry */ 781 for (cur = root, nentries = 0; cur != NULL; cur = cur->next) { 782 switch (cur->type & S_IFMT) { 783 default: 784 /* what kind of nodes? */ 785 break; 786 case S_IFCHR: 787 case S_IFBLK: 788 /* not supported yet */ 789 continue; 790 case S_IFDIR: 791 if (strcmp(cur->name, ".") == 0) 792 continue; 793 case S_IFLNK: 794 case S_IFREG: 795 /* create dummy FID to see how long name will become */ 796 udf_create_fid(ddoff, fid, cur->name, 0, &dummy_ref); 797 798 nentries++; 799 ddoff += udf_fidsize(fid); 800 } 801 } 802 sz = ddoff; 803 804 root->inode->st.st_size = sz; /* max now */ 805 root->inode->flags |= FI_SIZED; 806 807 nblk = udf_datablocks(sz); 808 stats->nmetadatablocks += nblk; 809 810 /* for each entry in the directory, there needs to be a (E)FE */ 811 stats->nmetadatablocks += nentries + 1; 812 813 /* recurse */ 814 for (cur = root; cur != NULL; cur = cur->next) { 815 switch (cur->type & S_IFMT) { 816 default: 817 /* what kind of nodes? */ 818 break; 819 case S_IFCHR: 820 case S_IFBLK: 821 /* not supported yet */ 822 // stats->nfiles++; 823 break; 824 case S_IFDIR: 825 if (strcmp(cur->name, ".") == 0) 826 continue; 827 /* empty dir? */ 828 if (!cur->child) 829 break; 830 mydir[0] = '/'; 831 strncpy(&mydir[1], cur->name, MAXPATHLEN - pathlen); 832 udf_estimate_walk(fsopts, cur->child, dir, stats); 833 mydir[0] = '\0'; 834 break; 835 case S_IFREG: 836 fnode = cur->inode; 837 /* don't double-count hard-links */ 838 if (!(fnode->flags & FI_SIZED)) { 839 sz = fnode->st.st_size; 840 nblk = udf_datablocks(sz); 841 stats->ndatablocks += nblk; 842 /* ... */ 843 fnode->flags |= FI_SIZED; 844 } 845 stats->nfiles++; 846 break; 847 case S_IFLNK: 848 /* softlink */ 849 fnode = cur->inode; 850 /* don't double-count hard-links */ 851 if (!(fnode->flags & FI_SIZED)) { 852 error = udf_encode_symlink(&softlink_buf, 853 &softlink_len, cur->symlink); 854 if (error) { 855 printf("SOFTLINK error %d\n", error); 856 break; 857 } 858 nblk = udf_datablocks(softlink_len); 859 stats->ndatablocks += nblk; 860 fnode->flags |= FI_SIZED; 861 862 free(softlink_buf); 863 } 864 stats->nfiles++; 865 break; 866 } 867 } 868 } 869 870 871 #define UDF_MAX_CHUNK_SIZE (4*1024*1024) 872 static int 873 udf_copy_file(struct stat *st, char *path, fsnode *cur, struct fileid_desc *fid, 874 struct long_ad *icb) 875 { 876 union dscrptr *dscr; 877 struct long_ad data_icb; 878 fsinode *fnode; 879 size_t sz, chunk, rd; 880 uint8_t *data; 881 int nblk; 882 int i, f; 883 884 fnode = cur->inode; 885 886 f = open(path, O_RDONLY); 887 if (f < 0) { 888 warn("Can't open file %s for reading", cur->name); 889 return errno; 890 } 891 892 /* claim disc space for the (e)fe descriptor for this file */ 893 udf_metadata_alloc(1, icb); 894 udf_create_new_file(st, &dscr, UDF_ICB_FILETYPE_RANDOMACCESS, icb); 895 896 sz = fnode->st.st_size; 897 898 chunk = MIN(sz, UDF_MAX_CHUNK_SIZE); 899 data = malloc(MAX(chunk, context.sector_size)); 900 assert(data); 901 902 printf(" "); 903 i = 0; 904 while (chunk) { 905 rd = read(f, data, chunk); 906 if (rd != chunk) { 907 warn("Short read of file %s\n", cur->name); 908 close(f); 909 free(data); 910 return errno; 911 } 912 printf("\b%c", "\\|/-"[i++ % 4]); fflush(stdout);fflush(stderr); 913 914 nblk = udf_datablocks(chunk); 915 if (nblk > 0) 916 udf_data_alloc(nblk, &data_icb); 917 udf_append_file_contents(dscr, &data_icb, data, chunk); 918 919 sz -= chunk; 920 chunk = MIN(sz, UDF_MAX_CHUNK_SIZE); 921 } 922 printf("\b \n"); 923 close(f); 924 free(data); 925 926 /* write out dscr (e)fe */ 927 udf_set_link_cnt(dscr, fnode->nlink); 928 udf_write_dscr_virt(dscr, udf_rw32(icb->loc.lb_num), 929 udf_rw16(icb->loc.part_num), 1); 930 931 /* remember our location for hardlinks */ 932 cur->inode->fsuse = malloc(sizeof(struct long_ad)); 933 memcpy(cur->inode->fsuse, icb, sizeof(struct long_ad)); 934 935 return 0; 936 } 937 938 939 static int 940 udf_populate_walk(fsinfo_t *fsopts, fsnode *root, char *dir, 941 struct long_ad *parent_icb, struct long_ad *dir_icb) 942 { 943 union dscrptr *dir_dscr, *dscr; 944 struct fileid_desc *fid; 945 struct long_ad icb, data_icb, dirdata_icb; 946 fsnode *cur; 947 fsinode *fnode; 948 size_t pathlen = strlen(dir); 949 size_t dirlen; 950 char *mydir = dir + pathlen; 951 uint32_t nblk, ddoff; 952 uint32_t softlink_len; 953 uint8_t *softlink_buf; 954 uint8_t *dirdata; 955 int error, ret, retval; 956 957 /* claim disc space for the (e)fe descriptor for this dir */ 958 udf_metadata_alloc(1, dir_icb); 959 960 /* create new e(fe) */ 961 udf_create_new_file(&root->inode->st, &dir_dscr, 962 UDF_ICB_FILETYPE_DIRECTORY, dir_icb); 963 964 /* claim space for the directory contents */ 965 dirlen = root->inode->st.st_size; 966 nblk = udf_datablocks(dirlen); 967 if (nblk > 0) { 968 /* claim disc space for the dir contents */ 969 udf_data_alloc(nblk, &dirdata_icb); 970 } 971 972 /* allocate memory for the directory contents */ 973 nblk++; 974 dirdata = malloc(nblk * context.sector_size); 975 assert(dirdata); 976 memset(dirdata, 0, nblk * context.sector_size); 977 978 /* create and append '..' */ 979 fid = (struct fileid_desc *) dirdata; 980 ddoff = udf_create_parentfid(fid, parent_icb); 981 982 /* for '..' */ 983 udf_inc_link(dir_dscr); 984 985 /* recurse */ 986 retval = 0; 987 for (cur = root; cur != NULL; cur = cur->next) { 988 mydir[0] = '/'; 989 strncpy(&mydir[1], cur->name, MAXPATHLEN - pathlen); 990 991 fid = (struct fileid_desc *) (dirdata + ddoff); 992 switch (cur->type & S_IFMT) { 993 default: 994 /* what kind of nodes? */ 995 retval = 2; 996 break; 997 case S_IFCHR: 998 case S_IFBLK: 999 /* not supported */ 1000 retval = 2; 1001 warnx("device node %s not supported", dir); 1002 break; 1003 case S_IFDIR: 1004 /* not an empty dir? */ 1005 if (strcmp(cur->name, ".") == 0) 1006 break; 1007 assert(cur->child); 1008 if (cur->child) { 1009 ret = udf_populate_walk(fsopts, cur->child, 1010 dir, dir_icb, &icb); 1011 if (ret) 1012 retval = 2; 1013 } 1014 udf_create_fid(ddoff, fid, cur->name, 1015 UDF_FILE_CHAR_DIR, &icb); 1016 udf_inc_link(dir_dscr); 1017 ddoff += udf_fidsize(fid); 1018 break; 1019 case S_IFREG: 1020 fnode = cur->inode; 1021 /* don't re-copy hard-links */ 1022 if (!(fnode->flags & FI_WRITTEN)) { 1023 printf("%s", dir); 1024 error = udf_copy_file(&fnode->st, dir, cur, 1025 fid, &icb); 1026 if (!error) { 1027 fnode->flags |= FI_WRITTEN; 1028 udf_create_fid(ddoff, fid, cur->name, 1029 0, &icb); 1030 ddoff += udf_fidsize(fid); 1031 } else { 1032 retval = 2; 1033 } 1034 } else { 1035 /* hardlink! */ 1036 printf("%s (hardlink)\n", dir); 1037 udf_create_fid(ddoff, fid, cur->name, 1038 0, (struct long_ad *) (fnode->fsuse)); 1039 ddoff += udf_fidsize(fid); 1040 } 1041 fnode->nlink--; 1042 if (fnode->nlink == 0) 1043 free(fnode->fsuse); 1044 break; 1045 case S_IFLNK: 1046 /* softlink */ 1047 fnode = cur->inode; 1048 printf("%s -> %s\n", dir, cur->symlink); 1049 error = udf_encode_symlink(&softlink_buf, 1050 &softlink_len, cur->symlink); 1051 if (error) { 1052 printf("SOFTLINK error %d\n", error); 1053 retval = 2; 1054 break; 1055 } 1056 1057 udf_metadata_alloc(1, &icb); 1058 udf_create_new_file(&fnode->st, &dscr, 1059 UDF_ICB_FILETYPE_SYMLINK, &icb); 1060 1061 nblk = udf_datablocks(softlink_len); 1062 if (nblk > 0) 1063 udf_data_alloc(nblk, &data_icb); 1064 udf_append_file_contents(dscr, &data_icb, 1065 softlink_buf, softlink_len); 1066 1067 /* write out dscr (e)fe */ 1068 udf_inc_link(dscr); 1069 udf_write_dscr_virt(dscr, udf_rw32(icb.loc.lb_num), 1070 udf_rw16(icb.loc.part_num), 1); 1071 1072 free(softlink_buf); 1073 1074 udf_create_fid(ddoff, fid, cur->name, 0, &icb); 1075 ddoff += udf_fidsize(fid); 1076 break; 1077 } 1078 mydir[0] = '\0'; 1079 } 1080 1081 /* writeout directory contents */ 1082 dirlen = ddoff; /* XXX might bite back */ 1083 1084 udf_prepare_fids(dir_icb, &dirdata_icb, dirdata, dirlen); 1085 udf_append_file_contents(dir_dscr, &dirdata_icb, dirdata, dirlen); 1086 1087 /* write out dir_dscr (e)fe */ 1088 udf_write_dscr_virt(dir_dscr, udf_rw32(dir_icb->loc.lb_num), 1089 udf_rw16(dir_icb->loc.part_num), 1); 1090 1091 return retval; 1092 } 1093 1094 1095 static int 1096 udf_populate(const char *dir, fsnode *root, fsinfo_t *fsopts, 1097 struct udf_stats *stats) 1098 { 1099 struct long_ad rooticb; 1100 static char path[MAXPATHLEN+1]; 1101 int error; 1102 1103 /* make sure the root gets the rootdir entry */ 1104 context.metadata_alloc_pos = layout.rootdir; 1105 context.data_alloc_pos = layout.rootdir; 1106 1107 strncpy(path, dir, sizeof(path)); 1108 error = udf_populate_walk(fsopts, root, path, &rooticb, &rooticb); 1109 1110 return error; 1111 } 1112 1113 1114 static void 1115 udf_enumerate_and_estimate(const char *dir, fsnode *root, fsinfo_t *fsopts, 1116 struct udf_stats *stats) 1117 { 1118 char path[MAXPATHLEN + 1]; 1119 uint32_t n, nblk; 1120 1121 strncpy(path, dir, sizeof(path)); 1122 1123 /* calculate strict minimal size */ 1124 udf_estimate_walk(fsopts, root, path, stats); 1125 printf("ndirs\t\t%d\n", stats->ndirs); 1126 printf("nfiles\t\t%d\n", stats->nfiles); 1127 printf("ndata_blocks\t%d\n", stats->ndatablocks); 1128 printf("nmetadata_blocks\t%d\n", stats->nmetadatablocks); 1129 1130 /* adjust for options : free file nodes */ 1131 if (fsopts->freefiles) { 1132 /* be mercifull and reserve more for the FID */ 1133 stats->nmetadatablocks += fsopts->freefiles * 1.5; 1134 } else if ((n = fsopts->freefilepc)) { 1135 stats->nmetadatablocks += (stats->nmetadatablocks*n) / (100-n); 1136 } 1137 1138 /* adjust for options : free data blocks */ 1139 if (fsopts->freeblocks) { 1140 stats->ndatablocks += fsopts->freeblocks; 1141 } else if ((n = fsopts->freeblockpc)) { 1142 stats->ndatablocks += (stats->ndatablocks * n) / (100-n); 1143 } 1144 1145 /* rough predictor of minimum disc size */ 1146 nblk = stats->ndatablocks + stats->nmetadatablocks; 1147 nblk = (double) nblk * (1.0 + 1.0/8.0); /* free space map */ 1148 nblk += 256; /* pre-volume space */ 1149 nblk += 256; /* post-volume space */ 1150 nblk += 64; /* safeguard */ 1151 1152 /* try to honour minimum size */ 1153 n = fsopts->minsize / fsopts->sectorsize; 1154 if (nblk < n) { 1155 stats->ndatablocks += (n - nblk); 1156 nblk += n - nblk; 1157 } 1158 fsopts->size = (uint64_t) nblk * fsopts->sectorsize; 1159 1160 /* sanity size */ 1161 if (fsopts->size < 512*1024) 1162 fsopts->size = 512*1024; 1163 1164 fsopts->inodes = stats->nfiles + stats->ndirs; 1165 } 1166 1167 1168 void 1169 udf_makefs(const char *image, const char *dir, fsnode *root, fsinfo_t *fsopts) 1170 { 1171 struct udf_stats stats; 1172 uint64_t truncate_len; 1173 int error; 1174 1175 /* determine format */ 1176 udf_emulate_discinfo(fsopts, &mmc_discinfo, mmc_profile); 1177 printf("req_enable %d, req_disable %d\n", req_enable, req_disable); 1178 1179 context.sector_size = fsopts->sectorsize; 1180 error = udf_derive_format(req_enable, req_disable, false); 1181 if (error) 1182 err(EINVAL, "makefs_udf: can't determine format"); 1183 1184 /* names */ 1185 error = udf_proces_names(); 1186 if (error) 1187 err(EINVAL, "makefs_udf: bad names given"); 1188 1189 /* set return value to 1 indicating error */ 1190 error = 1; 1191 1192 /* estimate the amount of space needed */ 1193 memset(&stats, 0, sizeof(stats)); 1194 udf_enumerate_and_estimate(dir, root, fsopts, &stats); 1195 1196 printf("Calculated size of `%s': %lld bytes, %ld inodes\n", 1197 image, (long long)fsopts->size, (long)fsopts->inodes); 1198 1199 /* create file image */ 1200 if ((fd = open(image, O_RDWR | O_CREAT | O_TRUNC, 0666)) == -1) { 1201 err(EXIT_FAILURE, "%s", image); 1202 } 1203 if (lseek(fd, fsopts->size - 1, SEEK_SET) == -1) { 1204 goto err_exit; 1205 } 1206 if (write(fd, &fd, 1) != 1) { 1207 goto err_exit; 1208 } 1209 if (lseek(fd, 0, SEEK_SET) == -1) { 1210 goto err_exit; 1211 } 1212 fsopts->fd = fd; 1213 1214 /* calculate metadata percentage */ 1215 meta_fract = fsopts->size / (stats.nmetadatablocks*fsopts->sectorsize); 1216 meta_fract = ((int) ((meta_fract + 0.005)*100.0)) / 100; 1217 1218 /* update mmc info but now with correct size */ 1219 udf_emulate_discinfo(fsopts, &mmc_discinfo, mmc_profile); 1220 1221 udf_do_newfs_prefix(); 1222 1223 /* update context */ 1224 context.unique_id = 0; 1225 1226 /* XXX are the next two needed? or should be re-count them? */ 1227 context.num_files = stats.nfiles; 1228 context.num_directories = stats.ndirs; 1229 1230 error = udf_populate(dir, root, fsopts, &stats); 1231 1232 udf_do_newfs_postfix(); 1233 1234 if (format_flags & FORMAT_VAT) { 1235 truncate_len = context.vtop_offset[context.data_part] + 1236 context.data_alloc_pos; 1237 truncate_len *= context.sector_size; 1238 1239 printf("\nTruncing the disc-image to allow for VAT\n"); 1240 ftruncate(fd, truncate_len); 1241 } 1242 1243 if (error) { 1244 error = 2; /* some files couldn't be added */ 1245 goto err_exit; 1246 } 1247 1248 close(fd); 1249 return; 1250 1251 err_exit: 1252 close(fd); 1253 if (error == 2) { 1254 errx(error, "Not all files could be added"); 1255 } else { 1256 errx(error, "creation of %s failed", image); 1257 } 1258 } 1259 1260
Indexes created Fri Oct 03 02:09:57 GMT 2025