1 /* 2 * Copyright 2005 Sun Microsystems, Inc. All rights reserved. 3 * Use is subject to license terms. 4 */ 5 6 /* Copyright (c) 1983, 1984, 1985, 1986, 1987, 1988, 1989 AT&T */ 7 /* All Rights Reserved */ 8 9 10 /* 11 * Copyright (c) 1980, 1986, 1990 The Regents of the University of California. 12 * All rights reserved. 13 * 14 * Redistribution and use in source and binary forms are permitted 15 * provided that: (1) source distributions retain this entire copyright 16 * notice and comment, and (2) distributions including binaries display 17 * the following acknowledgement: ``This product includes software 18 * developed by the University of California, Berkeley and its contributors'' 19 * in the documentation or other materials provided with the distribution 20 * and in all advertising materials mentioning features or use of this 21 * software. Neither the name of the University nor the names of its 22 * contributors may be used to endorse or promote products derived 23 * from this software without specific prior written permission. 24 * THIS SOFTWARE IS PROVIDED '`AS IS'' AND WITHOUT ANY EXPRESS OR 25 * IMPLIED WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED 26 * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. 27 */ 28 29 #pragma ident "%Z%%M% %I% %E% SMI" 30 31 /* 32 * In-core structures: 33 * blockmap[] 34 * A bitmap of block usage very similar to what's on disk, but 35 * for the entire filesystem rather than just a cylinder group. 36 * Zero indicates free, one indicates allocated. Note that this 37 * is opposite the interpretation of a cylinder group's free block 38 * bitmap. 39 * 40 * statemap[] 41 * Tracks what is known about each inode in the filesystem. 42 * The fundamental state value is one of USTATE, FSTATE, DSTATE, 43 * or SSTATE (unallocated, file, directory, shadow/acl). 44 * 45 * There are optional modifying attributes as well: INZLINK, 46 * INFOUND, INCLEAR, INORPHAN, and INDELAYD. The IN prefix 47 * stands for inode. INZLINK declares that no links (di_nlink == 48 * 0) to the inode have been found. It is used instead of 49 * examining di_nlink because we've always got the statemap[] in 50 * memory, and on average the odds are against having any given 51 * inode in the cache. INFOUND flags that an inode was 52 * encountered during the descent of the filesystem. In other 53 * words, it's reachable, either by name or by being an acl or 54 * attribute. INCLEAR declares an intent to call clri() on an 55 * inode. 56 * 57 * INORPHAN indicates that the inode has already been seen once 58 * in pass3 and determined to be an orphan, so any additional 59 * encounters don't need to waste cycles redetermining that status. 60 * It also means we don't ask the user about doing something to the 61 * inode N times. 62 * 63 * INDELAYD marks inodes that pass1 determined needed to be truncated. 64 * They can't be truncated during that pass, because it depends on 65 * having a stable world for building the block and inode tables from. 66 * 67 * The IN flags rarely used directly, but instead are 68 * pre-combined through the {D,F,S}ZLINK, DFOUND, and 69 * {D,F,S}CLEAR convenience macros. This mainly matters when 70 * trying to use grep on the source. 71 * 72 * Three state-test macros are provided: S_IS_DUNFOUND(), 73 * S_IS_DVALID(), and S_IS_ZLINK(). The first is true when an 74 * inode's state indicates that it is either a simple directory 75 * (DSTATE without the INFOUND or INCLEAR modifiers) or a 76 * directory with the INZLINK modifier set. By definition, if a 77 * directory has zero links, then it can't be found. As for 78 * S_IS_DVALID(), it decides if a directory inode is alive. 79 * Effectively, this translates to whether or not it's been 80 * flagged for clearing. If not, then it's valid for current 81 * purposes. This is true even if INZLINK is set, as we may find 82 * a reference to it later. Finally, S_IS_ZLINK() just picks out 83 * the INZLINK flag from the state. 84 * 85 * The S_*() macros all work on a state value. To simplify a 86 * bit, the INO_IS_{DUNFOUND,DVALID}() macros take an inode 87 * number argument. The inode is looked up in the statemap[] and 88 * the result handed off to the corresponding S_*() macro. This 89 * is partly a holdover from working with different data 90 * structures (with the same net intent) in the BSD fsck. 91 * 92 * lncntp 93 * Each entry is initialized to the di_link from the on-disk 94 * inode. Each time we find one of those links, we decrement it. 95 * Once all the traversing is done, we should have a zero. If we 96 * have a positive value, then some reference disappeared 97 * (probably from a directory that got nuked); deal with it by 98 * fixing the count. If we have a negative value, then we found 99 * an extra reference. This is a can't-happen, except in the 100 * special case of when we reconnect a directory to its parent or 101 * to lost+found. An exact match between lncntp[] and the on-disk 102 * inode means it's completely unreferenced. 103 * 104 * aclphead 105 * This is a hash table of the acl inodes in the filesystem. 106 * 107 * aclpsort 108 * The same acls as in aclphead, but as a simple linear array. 109 * It is used to hold the acl pointers for sorting and scanning 110 * in pass3b. 111 */ 112 113 #include <stdio.h> 114 #include <stdlib.h> 115 #include <unistd.h> 116 #include <sys/types.h> 117 #include <sys/param.h> 118 #include <sys/int_types.h> 119 #include <sys/mntent.h> 120 #include <sys/fs/ufs_fs.h> 121 #include <sys/vnode.h> 122 #include <sys/fs/ufs_inode.h> 123 #include <sys/stat.h> 124 #include <fcntl.h> 125 #include <sys/wait.h> 126 #include <sys/mnttab.h> 127 #include <signal.h> 128 #include <string.h> 129 #include <sys/vfstab.h> 130 #include <sys/statvfs.h> 131 #include <sys/filio.h> 132 #include <ustat.h> 133 #include <errno.h> 134 #include "fsck.h" 135 136 static void usage(void); 137 static long argtol(int, char *, char *, int); 138 static void checkfilesys(char *); 139 static void check_sanity(char *); 140 static void report_limbo(const void *, VISIT, int); 141 142 #define QUICK_CHECK 'm' /* are things ok according to superblock? */ 143 #define ALL_no 'n' /* auto-answer interactive questions `no' */ 144 #define ALL_NO 'N' /* auto-answer interactive questions `no' */ 145 #define UFS_OPTS 'o' /* ufs-specific options, see subopts[] */ 146 #define ECHO_CMD 'V' /* echo the command line */ 147 #define ALL_yes 'y' /* auto-answer interactive questions `yes' */ 148 #define ALL_YES 'Y' /* auto-answer interactive questions `yes' */ 149 #define VERBOSE 'v' /* be chatty */ 150 151 static char *subopts[] = { 152 #define PREEN 0 /* non-interactive mode (parent is parallel) */ 153 "p", 154 #define BLOCK 1 /* alternate superblock */ 155 "b", 156 #define DEBUG 2 /* yammer */ 157 "d", 158 #define ONLY_WRITES 3 /* check all writable filesystems */ 159 "w", 160 #define FORCE 4 /* force checking, even if clean */ 161 "f", 162 NULL 163 }; 164 165 /* 166 * Filesystems that are `magical' - if they exist in vfstab, 167 * then they have to be mounted for the system to have gotten 168 * far enough to be able to run fsck. Thus, don't get all 169 * bent out of shape if we're asked to check it and it is mounted. 170 */ 171 char *magic_fs[] = { 172 "", /* MAGIC_NONE, for normal filesystems */ 173 "/", /* MAGIC_ROOT */ 174 "/usr", /* MAGIC_USR */ 175 NULL /* MAGIC_LIMIT */ 176 }; 177 178 int 179 main(int argc, char *argv[]) 180 { 181 int c; 182 int wflag = 0; 183 char *suboptions, *value; 184 struct rlimit rlimit; 185 extern int optind; 186 extern char *optarg; 187 188 while ((c = getopt(argc, argv, "mnNo:VvyY")) != EOF) { 189 switch (c) { 190 191 case QUICK_CHECK: 192 mflag++; 193 break; 194 195 case ALL_no: 196 case ALL_NO: 197 nflag++; 198 yflag = 0; 199 break; 200 201 case VERBOSE: 202 verbose++; 203 break; 204 205 case UFS_OPTS: 206 /* 207 * ufs specific options. 208 */ 209 if (optarg == NULL) { 210 usage(); 211 /* 212 * lint does not believe this, nor does it 213 * believe #pragma does_not_return(usage) 214 */ 215 /* NOTREACHED */ 216 } 217 suboptions = optarg; 218 while (*suboptions != '\0') { 219 switch (getsubopt(&suboptions, subopts, 220 &value)) { 221 222 case PREEN: 223 preen++; 224 break; 225 226 case BLOCK: 227 bflag = argtol(BLOCK, "block", 228 value, 10); 229 (void) printf("Alternate super block " 230 "location: %ld.\n", 231 (long)bflag); 232 break; 233 234 case DEBUG: 235 debug++; 236 verbose++; 237 break; 238 239 case ONLY_WRITES: 240 /* check only writable filesystems */ 241 wflag++; 242 break; 243 244 case FORCE: 245 fflag++; 246 break; 247 248 default: 249 usage(); 250 } 251 } 252 break; 253 254 case ECHO_CMD: 255 { 256 int opt_count; 257 char *opt_text; 258 259 (void) printf("fsck -F ufs "); 260 for (opt_count = 1; opt_count < argc; 261 opt_count++) { 262 opt_text = argv[opt_count]; 263 if (opt_text) 264 (void) printf("%s ", opt_text); 265 } 266 (void) printf("\n"); 267 } 268 break; 269 270 case ALL_yes: 271 case ALL_YES: 272 yflag++; 273 nflag = 0; 274 break; 275 276 default: 277 usage(); 278 } 279 } 280 argc -= optind; 281 argv += optind; 282 283 if (argc == 0) 284 usage(); 285 286 rflag++; /* check raw devices where we can */ 287 if (signal(SIGINT, SIG_IGN) != SIG_IGN) 288 (void) signal(SIGINT, catch); 289 if (preen) 290 (void) signal(SIGQUIT, catchquit); 291 292 /* 293 * Push up our allowed memory limit so we can cope 294 * with huge file systems. 295 */ 296 if (getrlimit(RLIMIT_DATA, &rlimit) == 0) { 297 rlimit.rlim_cur = rlimit.rlim_max; 298 (void) setrlimit(RLIMIT_DATA, &rlimit); 299 } 300 301 /* 302 * There are a lot of places where we just exit if a problem is 303 * found. This means that we won't necessarily check everything 304 * we were asked to. It would be nice to do everything, and 305 * then provide a summary when we're done. However, the 306 * interface doesn't really allow us to do that in any useful 307 * way. So, we'll just bail on the first unrecoverable 308 * problem encountered. If we've been run by the generic 309 * wrapper, we were only given one filesystem to check, so the 310 * multi-fs case implies being run manually; that means the 311 * user can rerun us on the remaining filesystems when it's 312 * convenient for them. 313 */ 314 while (argc-- > 0) { 315 if (wflag && !writable(*argv)) { 316 (void) fprintf(stderr, "not writeable '%s'\n", *argv); 317 argv++; 318 if (exitstat == 0) 319 exitstat = EXBADPARM; 320 } else { 321 checkfilesys(*argv++); 322 } 323 } 324 if (interrupted) 325 exitstat = EXSIGNAL; 326 exit(exitstat); 327 } 328 329 /* 330 * A relatively intelligent strtol(). Note that if str is NULL, we'll 331 * exit, so ret does not actually need to be pre-initialized. Lint 332 * doesn't believe this, and it's harmless enough to make lint happy here. 333 */ 334 static long 335 argtol(int flag, char *req, char *str, int base) 336 { 337 char *cp = str; 338 long ret = -1; 339 340 errno = 0; 341 if (str != NULL) 342 ret = strtol(str, &cp, base); 343 if (cp == str || *cp) { 344 (void) fprintf(stderr, "-%c flag requires a %s\n", flag, req); 345 exit(EXBADPARM); 346 } 347 if (errno != 0) { 348 (void) fprintf(stderr, "-%c %s value out of range\n", 349 flag, req); 350 } 351 352 return (ret); 353 } 354 355 /* 356 * Check the specified file system. 357 */ 358 static void 359 checkfilesys(char *filesys) 360 { 361 daddr32_t n_ffree, n_bfree; 362 char *devstr; 363 fsck_ino_t files; 364 daddr32_t blks; 365 fsck_ino_t inumber; 366 int zlinks_printed; 367 fsck_ino_t limbo_victim; 368 double dbl_nffree, dbl_dsize; 369 int quiet_dups; 370 371 mountfd = -1; 372 hotroot = 0; 373 mountedfs = M_NOMNT; 374 reattached_dir = 0; 375 broke_dir_link = 0; 376 iscorrupt = 1; /* assume failure in setup() */ 377 islog = 0; 378 islogok = 0; 379 overflowed_lf = 0; 380 errorlocked = is_errorlocked(filesys); 381 limbo_dirs = NULL; 382 383 if ((devstr = setup(filesys)) == NULL) { 384 if (!iscorrupt) { 385 return; 386 } 387 388 if (preen) 389 pfatal("CAN'T CHECK FILE SYSTEM."); 390 if ((exitstat == 0) && (mflag)) 391 exitstat = EXUMNTCHK; 392 exit(exitstat); 393 } else { 394 devname = devstr; 395 } 396 397 if (mflag) { 398 check_sanity(filesys); 399 /* NOTREACHED */ 400 } 401 402 if (debug) 403 printclean(); 404 405 iscorrupt = 0; /* setup() succeeded, assume good filesystem */ 406 407 /* 408 * 1: scan inodes tallying blocks used 409 */ 410 if (!preen) { 411 /* hotroot is reported as such in setup() if debug is on */ 412 if (mountedfs != M_NOMNT) 413 (void) printf("** Currently Mounted on %s\n", 414 sblock.fs_fsmnt); 415 else 416 (void) printf("** Last Mounted on %s\n", 417 sblock.fs_fsmnt); 418 (void) printf("** Phase 1 - Check Blocks and Sizes\n"); 419 } 420 pass1(); 421 422 /* 423 * 1b: locate first references to duplicates, if any 424 */ 425 if (have_dups()) { 426 if (preen) 427 pfatal("INTERNAL ERROR: dups with -o p"); 428 (void) printf("** Phase 1b - Rescan For More DUPS\n"); 429 pass1b(); 430 } 431 432 /* 433 * 2: traverse directories from root to mark all connected directories 434 */ 435 if (!preen) 436 (void) printf("** Phase 2 - Check Pathnames\n"); 437 pass2(); 438 439 /* 440 * 3a: scan inodes looking for disconnected directories. 441 */ 442 if (!preen) 443 (void) printf("** Phase 3a - Check Connectivity\n"); 444 pass3a(); 445 446 /* 447 * 3b: check acls 448 */ 449 if (!preen) 450 (void) printf("** Phase 3b - Verify Shadows/ACLs\n"); 451 pass3b(); 452 453 /* 454 * 4: scan inodes looking for disconnected files; check reference counts 455 */ 456 if (!preen) 457 (void) printf("** Phase 4 - Check Reference Counts\n"); 458 pass4(); 459 460 /* 461 * 5: check and repair resource counts in cylinder groups 462 */ 463 if (!preen) 464 (void) printf("** Phase 5 - Check Cylinder Groups\n"); 465 recount: 466 pass5(); 467 468 if (overflowed_lf) { 469 iscorrupt = 1; 470 } 471 472 if (mountedfs == M_RW) { 473 iscorrupt = 1; 474 } 475 476 if (have_dups()) { 477 quiet_dups = (reply("LIST REMAINING DUPS") == 0); 478 if (report_dups(quiet_dups) > 0) 479 iscorrupt = 1; 480 481 (void) printf("WARNING: DATA LOSS MAY HAVE OCCURRED DUE TO " 482 "DUP BLOCKS.\nVERIFY FILE CONTENTS BEFORE USING.\n"); 483 } 484 485 if (limbo_dirs != NULL) { 486 /* 487 * Don't force iscorrupt, as this is sufficiently 488 * harmless that the filesystem can be mounted and 489 * used. We just leak some inodes and/or blocks. 490 */ 491 pwarn("Orphan directories not cleared or reconnected:\n"); 492 493 twalk(limbo_dirs, report_limbo); 494 495 while (limbo_dirs != NULL) { 496 limbo_victim = *(fsck_ino_t *)limbo_dirs; 497 if (limbo_victim != NULL) { 498 (void) tdelete((void *)limbo_victim, 499 &limbo_dirs, 500 ino_t_cmp); 501 } 502 } 503 504 rerun = 1; 505 } 506 507 if (iscorrupt) { 508 (void) printf("FILESYSTEM MAY STILL BE INCONSISTENT.\n"); 509 rerun = 1; 510 } 511 512 /* 513 * iscorrupt must be stable at this point. 514 * updateclean() returns true when it had to discard the log. 515 * This can only happen once, since sblock.fs_logbno gets 516 * cleared as part of that operation. 517 */ 518 if (updateclean()) { 519 if (!preen) 520 (void) printf( 521 "Log was discarded, updating cyl groups\n"); 522 goto recount; 523 } 524 525 if (debug) 526 printclean(); 527 528 ckfini(); 529 530 /* 531 * print out summary statistics 532 */ 533 n_ffree = sblock.fs_cstotal.cs_nffree; 534 n_bfree = sblock.fs_cstotal.cs_nbfree; 535 files = maxino - UFSROOTINO - sblock.fs_cstotal.cs_nifree - n_files; 536 blks = n_blks + 537 sblock.fs_ncg * (cgdmin(&sblock, 0) - cgsblock(&sblock, 0)); 538 blks += cgsblock(&sblock, 0) - cgbase(&sblock, 0); 539 blks += howmany(sblock.fs_cssize, sblock.fs_fsize); 540 blks = maxfsblock - (n_ffree + sblock.fs_frag * n_bfree) - blks; 541 if (debug && (files > 0 || blks > 0)) { 542 countdirs = sblock.fs_cstotal.cs_ndir - countdirs; 543 pwarn("Reclaimed: %d directories, %d files, %lld fragments\n", 544 countdirs, files - countdirs, 545 (longlong_t)blks); 546 } 547 548 dbl_nffree = (double)n_ffree; 549 dbl_dsize = (double)sblock.fs_dsize; 550 551 if (!verbose) { 552 /* 553 * Done as one big string to try for a single write, 554 * so the output doesn't get interleaved with other 555 * preening fscks. 556 */ 557 pwarn("%ld files, %lld used, %lld free " 558 "(%lld frags, %lld blocks, %.1f%% fragmentation)\n", 559 (long)n_files, (longlong_t)n_blks, 560 (longlong_t)n_ffree + sblock.fs_frag * n_bfree, 561 (longlong_t)n_ffree, (longlong_t)n_bfree, 562 (dbl_nffree * 100.0) / dbl_dsize); 563 } else { 564 pwarn("\nFilesystem summary:\n"); 565 pwarn("Inodes in use: %ld\n", (long)n_files); 566 pwarn("Blocks in use: %lld\n", (longlong_t)n_blks); 567 pwarn("Total free fragments: %lld\n", 568 (longlong_t)n_ffree + sblock.fs_frag * n_bfree); 569 pwarn("Free fragments not in blocks: %lld\n", 570 (longlong_t)n_ffree); 571 pwarn("Total free blocks: %lld\n", (longlong_t)n_bfree); 572 pwarn("Fragment/block fragmentation: %.1f%%\n", 573 (dbl_nffree * 100.0) / dbl_dsize); 574 pwarn(""); 575 576 if (files < 0) 577 pwarn("%d inodes missing\n", -files); 578 if (blks < 0) 579 pwarn("%lld blocks missing\n", -(longlong_t)blks); 580 581 zlinks_printed = 0; 582 for (inumber = UFSROOTINO; inumber < maxino; inumber++) { 583 if (S_IS_ZLINK(statemap[inumber])) { 584 if (zlinks_printed == 0) { 585 pwarn("The following zero " 586 "link count inodes remain:"); 587 } 588 if (zlinks_printed) { 589 if ((zlinks_printed % 9) == 0) 590 (void) puts(",\n"); 591 else 592 (void) puts(", "); 593 } 594 (void) printf("%u", inumber); 595 zlinks_printed++; 596 } 597 } 598 if ((zlinks_printed != 0) && ((zlinks_printed % 9) != 0)) 599 (void) putchar('\n'); 600 } 601 602 /* 603 * Clean up after ourselves, so we can do the next filesystem. 604 */ 605 free_dup_state(); 606 inocleanup(); 607 free(blockmap); 608 free(statemap); 609 free((void *)lncntp); 610 lncntp = NULL; 611 blockmap = NULL; 612 statemap = NULL; 613 if (iscorrupt && exitstat == 0) 614 exitstat = EXFNDERRS; 615 if (fsmodified) 616 (void) printf("\n***** FILE SYSTEM WAS MODIFIED *****\n"); 617 if (overflowed_lf) 618 (void) printf("\n***** %s FULL, MUST REMOVE ENTRIES *****\n", 619 lfname); 620 if (reattached_dir) { 621 (void) printf("ORPHANED DIRECTORIES REATTACHED; DIR LINK " 622 "COUNTS MAY NOT BE CORRECT.\n"); 623 rerun = 1; 624 } 625 if (broke_dir_link) { 626 (void) printf( 627 "DIRECTORY HARDLINK BROKEN; LOOPS MAY STILL EXIST.\n"); 628 rerun = 1; 629 } 630 if (iscorrupt) 631 (void) printf("***** FILE SYSTEM IS BAD *****\n"); 632 633 if (rerun) 634 (void) printf("\n***** PLEASE RERUN FSCK *****\n"); 635 636 if ((exitstat == 0) && 637 (((mountedfs != M_NOMNT) && !errorlocked) || hotroot)) { 638 exitstat = EXROOTOKAY; 639 } 640 641 if ((exitstat == 0) && rerun) 642 exitstat = EXFNDERRS; 643 644 if (mountedfs != M_NOMNT) { 645 if (!fsmodified) 646 return; 647 /* 648 * _FIOFFS is much more effective than a simple sync(). 649 * Note that the original fswritefd was discarded in 650 * ckfini(). 651 */ 652 fswritefd = open(devstr, O_RDWR, 0); 653 if (fswritefd != -1) { 654 (void) ioctl(fswritefd, _FIOFFS, NULL); 655 (void) close(fswritefd); 656 } 657 658 if (!preen) 659 (void) printf("\n***** REBOOT NOW *****\n"); 660 661 exitstat = EXREBOOTNOW; 662 } 663 } 664 665 /* 666 * fsck -m: does the filesystem pass cursory examination 667 * 668 * XXX This is very redundant with setup(). The right thing would be 669 * for setup() to modify its behaviour when mflag is set (less 670 * chatty, exit instead of return, etc). 671 */ 672 void 673 check_sanity(char *filename) 674 { 675 struct stat64 stbd, stbr; 676 char *devname; 677 struct ustat usb; 678 char vfsfilename[MAXPATHLEN]; 679 struct vfstab vfsbuf; 680 FILE *vfstab; 681 struct statvfs vfs_stat; 682 int found_magic[MAGIC_LIMIT]; 683 int magic_cnt; 684 int is_magic = 0; 685 int is_block; 686 687 (void) memset((void *)found_magic, 0, sizeof (found_magic)); 688 689 if (stat64(filename, &stbd) < 0) { 690 (void) fprintf(stderr, 691 "ufs fsck: sanity check failed : cannot stat %s\n", filename); 692 exit(EXNOSTAT); 693 } 694 695 if ((stbd.st_mode & S_IFMT) == S_IFBLK) { 696 is_block = 1; 697 } else if ((stbd.st_mode & S_IFMT) == S_IFCHR) { 698 is_block = 0; 699 } else { 700 /* 701 * In !mflag mode, we allow checking the contents 702 * of a file. Since this is intended primarily for 703 * speeding up boot-time checks and allowing for a 704 * file complicates the ok-input tests, we'll disallow 705 * that option. 706 */ 707 (void) fprintf(stderr, 708 "ufs fsck: sanity check failed: " 709 "%s not block or character device\n", 710 filename); 711 exit(EXNOSTAT); 712 } 713 714 /* 715 * Determine if this is the root file system via vfstab. Give up 716 * silently on failures. The whole point of this is to be tolerant 717 * of the magic file systems being already mounted. 718 */ 719 if ((vfstab = fopen(VFSTAB, "r")) != 0) { 720 for (magic_cnt = 0; magic_cnt < MAGIC_LIMIT; magic_cnt++) { 721 if (magic_cnt == MAGIC_NONE) 722 continue; 723 if (getvfsfile(vfstab, &vfsbuf, 724 magic_fs[magic_cnt]) == 0) { 725 if (is_block) 726 devname = vfsbuf.vfs_special; 727 else 728 devname = vfsbuf.vfs_fsckdev; 729 if (stat64(devname, &stbr) == 0) { 730 if (stbr.st_rdev == stbd.st_rdev) { 731 found_magic[magic_cnt] = 1; 732 is_magic = magic_cnt; 733 break; 734 } 735 } 736 } 737 } 738 } 739 740 /* 741 * Only works if filename is a block device or if 742 * character and block device has the same dev_t value. 743 * This is currently true, but nothing really forces it. 744 */ 745 if (!is_magic && (ustat(stbd.st_rdev, &usb) == 0)) { 746 (void) fprintf(stderr, 747 "ufs fsck: sanity check: %s already mounted\n", filename); 748 exit(EXMOUNTED); 749 } 750 751 if (is_magic) { 752 (void) strcpy(vfsfilename, magic_fs[is_magic]); 753 if (statvfs(vfsfilename, &vfs_stat) != 0) { 754 (void) fprintf(stderr, "ufs fsck: Cannot stat %s\n", 755 vfsfilename); 756 exit(EXNOSTAT); 757 } 758 759 if (!(vfs_stat.f_flag & ST_RDONLY)) { 760 /* 761 * The file system is mounted read/write 762 * We need to exit saying this. If it's only 763 * mounted readonly, we can continue. 764 */ 765 766 (void) fprintf(stderr, 767 "ufs fsck: sanity check:" 768 "%s already mounted read/write\n", 769 filename); 770 exit(EXMOUNTED); 771 } 772 } 773 774 /* 775 * We know that at boot, the ufs root file system is mounted 776 * read-only first. After fsck runs, it is remounted as 777 * read-write. Therefore, we do not need to check for different 778 * values for fs_state between the root file system and the 779 * rest of the file systems. 780 */ 781 if (islog && !islogok) { 782 (void) fprintf(stderr, 783 "ufs fsck: sanity check: %s needs checking\n", filename); 784 exit(EXUMNTCHK); 785 } 786 if ((sblock.fs_state + (long)sblock.fs_time == FSOKAY) && 787 (sblock.fs_clean == FSCLEAN || sblock.fs_clean == FSSTABLE || 788 (sblock.fs_clean == FSLOG && islog))) { 789 (void) fprintf(stderr, 790 "ufs fsck: sanity check: %s okay\n", filename); 791 } else { 792 (void) fprintf(stderr, 793 "ufs fsck: sanity check: %s needs checking\n", filename); 794 exit(EXUMNTCHK); 795 } 796 exit(EXOKAY); 797 } 798 799 caddr_t 800 hasvfsopt(struct vfstab *vfs, char *opt) 801 { 802 struct mnttab mtab; 803 804 if (vfs->vfs_mntopts == NULL) 805 return (NULL); 806 mtab.mnt_mntopts = vfs->vfs_mntopts; 807 return (hasmntopt(&mtab, opt)); 808 } 809 810 void 811 usage(void) 812 { 813 (void) fprintf(stderr, 814 "ufs usage: fsck [-F ufs] [-m] [-n] [-V] [-v] [-y] " 815 "[-o p,b=#,w,f] [special ....]\n"); 816 817 exit(EXBADPARM); 818 } 819 820 /*ARGSUSED*/ 821 static void 822 report_limbo(const void *node, VISIT order, int level) 823 { 824 fsck_ino_t ino = *(fsck_ino_t *)node; 825 826 if ((order == postorder) || (order == leaf)) { 827 (void) printf(" Inode %d\n", ino); 828 } 829 } 830