1 /*- 2 * Copyright (c) 1992, 1993 3 * The Regents of the University of California. All rights reserved. 4 * 5 * %sccs.include.redist.c% 6 */ 7 8 #ifndef lint 9 static char sccsid[] = "@(#)library.c 8.1 (Berkeley) 06/04/93"; 10 #endif /* not lint */ 11 12 #include <sys/param.h> 13 #include <sys/time.h> 14 #include <sys/stat.h> 15 #include <sys/mount.h> 16 #include <sys/types.h> 17 #include <sys/mman.h> 18 19 #include <ufs/ufs/dinode.h> 20 #include <ufs/lfs/lfs.h> 21 22 #include <fcntl.h> 23 #include <stdio.h> 24 #include <stdlib.h> 25 #include <string.h> 26 #include <unistd.h> 27 28 #include "clean.h" 29 30 void add_blocks __P((FS_INFO *, BLOCK_INFO *, int *, SEGSUM *, caddr_t, 31 daddr_t, daddr_t)); 32 void add_inodes __P((FS_INFO *, BLOCK_INFO *, int *, SEGSUM *, caddr_t, 33 daddr_t)); 34 int bi_compare __P((const void *, const void *)); 35 int bi_toss __P((const void *, const void *, const void *)); 36 void get_ifile __P((FS_INFO *, int)); 37 int get_superblock __P((FS_INFO *, struct lfs *)); 38 int pseg_valid __P((FS_INFO *, SEGSUM *)); 39 40 /* 41 * This function will get information on a a filesystem which matches 42 * the name and type given. If a "name" is in a filesystem of the given 43 * type, then buf is filled with that filesystem's info, and the 44 * a non-zero value is returned. 45 */ 46 int 47 fs_getmntinfo(buf, name, type) 48 struct statfs **buf; 49 char *name; 50 int type; 51 { 52 /* allocate space for the filesystem info */ 53 *buf = (struct statfs *)malloc(sizeof(struct statfs)); 54 if (*buf == NULL) 55 return 0; 56 57 /* grab the filesystem info */ 58 if (statfs(name, *buf) < 0) { 59 free(*buf); 60 return 0; 61 } 62 63 /* check to see if it's the one we want */ 64 if (((*buf)->f_type != type) || 65 strncmp(name, (*buf)->f_mntonname, MNAMELEN)) { 66 /* "this is not the filesystem you're looking for */ 67 free(*buf); 68 return 0; 69 } 70 71 return 1; 72 } 73 74 /* 75 * Get all the information available on an LFS file system. 76 * Returns an pointer to an FS_INFO structure, NULL on error. 77 */ 78 FS_INFO * 79 get_fs_info (lstatfsp, use_mmap) 80 struct statfs *lstatfsp; /* IN: pointer to statfs struct */ 81 int use_mmap; /* IN: mmap or read */ 82 { 83 FS_INFO *fsp; 84 int i; 85 86 fsp = (FS_INFO *)malloc(sizeof(FS_INFO)); 87 if (fsp == NULL) 88 return NULL; 89 bzero(fsp, sizeof(FS_INFO)); 90 91 fsp->fi_statfsp = lstatfsp; 92 if (get_superblock (fsp, &fsp->fi_lfs)) 93 err(1, "get_fs_info: get_superblock failed"); 94 fsp->fi_daddr_shift = 95 fsp->fi_lfs.lfs_bshift - fsp->fi_lfs.lfs_fsbtodb; 96 get_ifile (fsp, use_mmap); 97 return (fsp); 98 } 99 100 /* 101 * If we are reading the ifile then we need to refresh it. Even if 102 * we are mmapping it, it might have grown. Finally, we need to 103 * refresh the file system information (statfs) info. 104 */ 105 void 106 reread_fs_info(fsp, use_mmap) 107 FS_INFO *fsp; /* IN: prointer fs_infos to reread */ 108 int use_mmap; 109 { 110 int i; 111 112 if (statfs(fsp->fi_statfsp->f_mntonname, fsp->fi_statfsp)) 113 err(1, "reread_fs_info: statfs failed"); 114 get_ifile (fsp, use_mmap); 115 } 116 117 /* 118 * Gets the superblock from disk (possibly in face of errors) 119 */ 120 int 121 get_superblock (fsp, sbp) 122 FS_INFO *fsp; /* local file system info structure */ 123 struct lfs *sbp; 124 { 125 char mntfromname[MNAMELEN+1]; 126 int fid; 127 128 strcpy(mntfromname, "/dev/r"); 129 strcat(mntfromname, fsp->fi_statfsp->f_mntfromname+5); 130 131 if ((fid = open(mntfromname, O_RDONLY, (mode_t)0)) < 0) { 132 err(0, "get_superblock: bad open"); 133 return (-1); 134 } 135 136 get(fid, LFS_LABELPAD, sbp, sizeof(struct lfs)); 137 close (fid); 138 139 return (0); 140 } 141 142 /* 143 * This function will map the ifile into memory. It causes a 144 * fatal error on failure. 145 */ 146 void 147 get_ifile (fsp, use_mmap) 148 FS_INFO *fsp; 149 int use_mmap; 150 151 { 152 struct stat file_stat; 153 caddr_t ifp; 154 char *ifile_name; 155 int count, fid; 156 157 ifp = NULL; 158 ifile_name = malloc(strlen(fsp->fi_statfsp->f_mntonname) + 159 strlen(IFILE_NAME)+2); 160 strcat(strcat(strcpy(ifile_name, fsp->fi_statfsp->f_mntonname), "/"), 161 IFILE_NAME); 162 163 if ((fid = open(ifile_name, O_RDWR, (mode_t)0)) < 0) 164 err(1, "get_ifile: bad open"); 165 166 if (fstat (fid, &file_stat)) 167 err(1, "get_ifile: fstat failed"); 168 169 if (use_mmap && file_stat.st_size == fsp->fi_ifile_length) { 170 (void) close(fid); 171 return; 172 } 173 174 /* get the ifile */ 175 if (use_mmap) { 176 if (fsp->fi_cip) 177 munmap((caddr_t)fsp->fi_cip, fsp->fi_ifile_length); 178 ifp = mmap ((caddr_t)0, file_stat.st_size, 179 PROT_READ|PROT_WRITE, 0, fid, (off_t)0); 180 if (ifp == (caddr_t)(-1)) 181 err(1, "get_ifile: mmap failed"); 182 } else { 183 if (fsp->fi_cip) 184 free(fsp->fi_cip); 185 if (!(ifp = malloc (file_stat.st_size))) 186 err (1, "get_ifile: malloc failed"); 187 redo_read: 188 count = read (fid, ifp, (size_t) file_stat.st_size); 189 190 if (count < 0) 191 err(1, "get_ifile: bad ifile read"); 192 else if (count < file_stat.st_size) { 193 err(0, "get_ifile"); 194 if (lseek(fid, 0, SEEK_SET) < 0) 195 err(1, "get_ifile: bad ifile lseek"); 196 goto redo_read; 197 } 198 } 199 fsp->fi_ifile_length = file_stat.st_size; 200 close (fid); 201 202 fsp->fi_cip = (CLEANERINFO *)ifp; 203 fsp->fi_segusep = (SEGUSE *)(ifp + CLEANSIZE(fsp)); 204 fsp->fi_ifilep = (IFILE *)((caddr_t)fsp->fi_segusep + SEGTABSIZE(fsp)); 205 206 /* 207 * The number of ifile entries is equal to the number of blocks 208 * blocks in the ifile minus the ones allocated to cleaner info 209 * and segment usage table multiplied by the number of ifile 210 * entries per page. 211 */ 212 fsp->fi_ifile_count = (fsp->fi_ifile_length >> fsp->fi_lfs.lfs_bshift - 213 fsp->fi_lfs.lfs_cleansz - fsp->fi_lfs.lfs_segtabsz) * 214 fsp->fi_lfs.lfs_ifpb; 215 216 free (ifile_name); 217 } 218 219 /* 220 * This function will scan a segment and return a list of 221 * <inode, blocknum> pairs which indicate which blocks were 222 * contained as live data within the segment when the segment 223 * summary was read (it may have "died" since then). Any given 224 * pair will be listed at most once. 225 */ 226 int 227 lfs_segmapv(fsp, seg, seg_buf, blocks, bcount) 228 FS_INFO *fsp; /* pointer to local file system information */ 229 int seg; /* the segment number */ 230 caddr_t seg_buf; /* the buffer containing the segment's data */ 231 BLOCK_INFO **blocks; /* OUT: array of block_info for live blocks */ 232 int *bcount; /* OUT: number of active blocks in segment */ 233 { 234 BLOCK_INFO *bip; 235 SEGSUM *sp; 236 SEGUSE *sup; 237 FINFO *fip; 238 struct lfs *lfsp; 239 caddr_t s, segend; 240 daddr_t pseg_addr, seg_addr; 241 int i, nelem, nblocks, sumsize; 242 time_t timestamp; 243 244 lfsp = &fsp->fi_lfs; 245 nelem = 2 * lfsp->lfs_ssize; 246 if (!(bip = malloc(nelem * sizeof(BLOCK_INFO)))) 247 goto err0; 248 249 sup = SEGUSE_ENTRY(lfsp, fsp->fi_segusep, seg); 250 s = seg_buf + (sup->su_flags & SEGUSE_SUPERBLOCK ? LFS_SBPAD : 0); 251 seg_addr = sntoda(lfsp, seg); 252 pseg_addr = seg_addr + (sup->su_flags & SEGUSE_SUPERBLOCK ? btodb(LFS_SBPAD) : 0); 253 #ifdef VERBOSE 254 printf("\tsegment buffer at: 0x%x\tseg_addr 0x%x\n", s, seg_addr); 255 #endif /* VERBOSE */ 256 257 *bcount = 0; 258 for (segend = seg_buf + seg_size(lfsp), timestamp = 0; s < segend; ) { 259 sp = (SEGSUM *)s; 260 261 #ifdef VERBOSE 262 printf("\tpartial at: 0x%x\n", pseg_addr); 263 print_SEGSUM(lfsp, sp); 264 fflush(stdout); 265 #endif /* VERBOSE */ 266 267 nblocks = pseg_valid(fsp, sp); 268 if (nblocks <= 0) 269 break; 270 271 /* Check if we have hit old data */ 272 if (timestamp > ((SEGSUM*)s)->ss_create) 273 break; 274 timestamp = ((SEGSUM*)s)->ss_create; 275 276 #ifdef DIAGNOSTIC 277 /* Verfiy size of summary block */ 278 sumsize = sizeof(SEGSUM) + 279 (sp->ss_ninos + INOPB(lfsp) - 1) / INOPB(lfsp); 280 for (fip = (FINFO *)(sp + 1); i < sp->ss_nfinfo; ++i) { 281 sumsize += sizeof(FINFO) + 282 (fip->fi_nblocks - 1) * sizeof(daddr_t); 283 fip = (FINFO *)(&fip->fi_blocks[fip->fi_nblocks]); 284 } 285 if (sumsize > LFS_SUMMARY_SIZE) { 286 fprintf(stderr, 287 "Segment %d summary block too big: %d\n", 288 seg, sumsize); 289 exit(1); 290 } 291 #endif 292 293 if (*bcount + nblocks + sp->ss_ninos > nelem) { 294 nelem = *bcount + nblocks + sp->ss_ninos; 295 bip = realloc (bip, nelem * sizeof(BLOCK_INFO)); 296 if (!bip) 297 goto err0; 298 } 299 add_blocks(fsp, bip, bcount, sp, seg_buf, seg_addr, pseg_addr); 300 add_inodes(fsp, bip, bcount, sp, seg_buf, seg_addr); 301 pseg_addr += fsbtodb(lfsp, nblocks) + 302 bytetoda(fsp, LFS_SUMMARY_SIZE); 303 s += (nblocks << lfsp->lfs_bshift) + LFS_SUMMARY_SIZE; 304 } 305 qsort(bip, *bcount, sizeof(BLOCK_INFO), bi_compare); 306 toss(bip, bcount, sizeof(BLOCK_INFO), bi_toss, NULL); 307 #ifdef VERBOSE 308 { 309 BLOCK_INFO *_bip; 310 int i; 311 312 printf("BLOCK INFOS\n"); 313 for (_bip = bip, i=0; i < *bcount; ++_bip, ++i) 314 PRINT_BINFO(_bip); 315 } 316 #endif 317 *blocks = bip; 318 return (0); 319 320 err0: *bcount = 0; 321 return (-1); 322 323 } 324 325 /* 326 * This will parse a partial segment and fill in BLOCK_INFO structures 327 * for each block described in the segment summary. It will not include 328 * blocks or inodes from files with new version numbers. 329 */ 330 void 331 add_blocks (fsp, bip, countp, sp, seg_buf, segaddr, psegaddr) 332 FS_INFO *fsp; /* pointer to super block */ 333 BLOCK_INFO *bip; /* Block info array */ 334 int *countp; /* IN/OUT: number of blocks in array */ 335 SEGSUM *sp; /* segment summmary pointer */ 336 caddr_t seg_buf; /* buffer containing segment */ 337 daddr_t segaddr; /* address of this segment */ 338 daddr_t psegaddr; /* address of this partial segment */ 339 { 340 IFILE *ifp; 341 FINFO *fip; 342 caddr_t bp; 343 daddr_t *dp, *iaddrp; 344 int db_per_block, i, j; 345 u_long page_size; 346 347 #ifdef VERBOSE 348 printf("FILE INFOS\n"); 349 #endif 350 db_per_block = fsbtodb(&fsp->fi_lfs, 1); 351 page_size = fsp->fi_lfs.lfs_bsize; 352 bp = seg_buf + datobyte(fsp, psegaddr - segaddr) + LFS_SUMMARY_SIZE; 353 bip += *countp; 354 psegaddr += bytetoda(fsp, LFS_SUMMARY_SIZE); 355 iaddrp = (daddr_t *)((caddr_t)sp + LFS_SUMMARY_SIZE); 356 --iaddrp; 357 for (fip = (FINFO *)(sp + 1), i = 0; i < sp->ss_nfinfo; 358 ++i, fip = (FINFO *)(&fip->fi_blocks[fip->fi_nblocks])) { 359 360 ifp = IFILE_ENTRY(&fsp->fi_lfs, fsp->fi_ifilep, fip->fi_ino); 361 PRINT_FINFO(fip, ifp); 362 if (ifp->if_version > fip->fi_version) 363 continue; 364 dp = &(fip->fi_blocks[0]); 365 for (j = 0; j < fip->fi_nblocks; j++, dp++) { 366 while (psegaddr == *iaddrp) { 367 psegaddr += db_per_block; 368 bp += page_size; 369 --iaddrp; 370 } 371 bip->bi_inode = fip->fi_ino; 372 bip->bi_lbn = *dp; 373 bip->bi_daddr = psegaddr; 374 bip->bi_segcreate = (time_t)(sp->ss_create); 375 bip->bi_bp = bp; 376 bip->bi_version = ifp->if_version; 377 psegaddr += db_per_block; 378 bp += page_size; 379 ++bip; 380 ++(*countp); 381 } 382 } 383 } 384 385 /* 386 * For a particular segment summary, reads the inode blocks and adds 387 * INODE_INFO structures to the array. Returns the number of inodes 388 * actually added. 389 */ 390 void 391 add_inodes (fsp, bip, countp, sp, seg_buf, seg_addr) 392 FS_INFO *fsp; /* pointer to super block */ 393 BLOCK_INFO *bip; /* block info array */ 394 int *countp; /* pointer to current number of inodes */ 395 SEGSUM *sp; /* segsum pointer */ 396 caddr_t seg_buf; /* the buffer containing the segment's data */ 397 daddr_t seg_addr; /* disk address of seg_buf */ 398 { 399 struct dinode *di; 400 struct lfs *lfsp; 401 IFILE *ifp; 402 BLOCK_INFO *bp; 403 daddr_t *daddrp; 404 ino_t inum; 405 int i; 406 407 if (sp->ss_ninos <= 0) 408 return; 409 410 bp = bip + *countp; 411 lfsp = &fsp->fi_lfs; 412 #ifdef VERBOSE 413 (void) printf("INODES:\n"); 414 #endif 415 daddrp = (daddr_t *)((caddr_t)sp + LFS_SUMMARY_SIZE); 416 for (i = 0; i < sp->ss_ninos; ++i) { 417 if (i % INOPB(lfsp) == 0) { 418 --daddrp; 419 di = (struct dinode *)(seg_buf + 420 ((*daddrp - seg_addr) << fsp->fi_daddr_shift)); 421 } else 422 ++di; 423 424 inum = di->di_inumber; 425 bp->bi_lbn = LFS_UNUSED_LBN; 426 bp->bi_inode = inum; 427 bp->bi_daddr = *daddrp; 428 bp->bi_bp = di; 429 bp->bi_segcreate = sp->ss_create; 430 431 if (inum == LFS_IFILE_INUM) { 432 bp->bi_version = 1; /* Ifile version should be 1 */ 433 bp++; 434 ++(*countp); 435 PRINT_INODE(1, bp); 436 } else { 437 ifp = IFILE_ENTRY(lfsp, fsp->fi_ifilep, inum); 438 PRINT_INODE(ifp->if_daddr == *daddrp, bp); 439 bp->bi_version = ifp->if_version; 440 if (ifp->if_daddr == *daddrp) { 441 bp++; 442 ++(*countp); 443 } 444 } 445 } 446 } 447 448 /* 449 * Checks the summary checksum and the data checksum to determine if the 450 * segment is valid or not. Returns the size of the partial segment if it 451 * is valid, * and 0 otherwise. Use dump_summary to figure out size of the 452 * the partial as well as whether or not the checksum is valid. 453 */ 454 int 455 pseg_valid (fsp, ssp) 456 FS_INFO *fsp; /* pointer to file system info */ 457 SEGSUM *ssp; /* pointer to segment summary block */ 458 { 459 caddr_t p; 460 int i, nblocks; 461 u_long *datap; 462 463 if ((nblocks = dump_summary(&fsp->fi_lfs, ssp, 0, NULL)) <= 0 || 464 nblocks > fsp->fi_lfs.lfs_ssize - 1) 465 return(0); 466 467 /* check data/inode block(s) checksum too */ 468 datap = (u_long *)malloc(nblocks * sizeof(u_long)); 469 p = (caddr_t)ssp + LFS_SUMMARY_SIZE; 470 for (i = 0; i < nblocks; ++i) { 471 datap[i] = *((u_long *)p); 472 p += fsp->fi_lfs.lfs_bsize; 473 } 474 if (cksum ((void *)datap, nblocks * sizeof(u_long)) != ssp->ss_datasum) 475 return (0); 476 477 return (nblocks); 478 } 479 480 481 /* #define MMAP_SEGMENT */ 482 /* 483 * read a segment into a memory buffer 484 */ 485 int 486 mmap_segment (fsp, segment, segbuf, use_mmap) 487 FS_INFO *fsp; /* file system information */ 488 int segment; /* segment number */ 489 caddr_t *segbuf; /* pointer to buffer area */ 490 int use_mmap; /* mmap instead of read */ 491 { 492 struct lfs *lfsp; 493 int fid; /* fildes for file system device */ 494 daddr_t seg_daddr; /* base disk address of segment */ 495 off_t seg_byte; 496 size_t ssize; 497 char mntfromname[MNAMELEN+2]; 498 499 lfsp = &fsp->fi_lfs; 500 501 /* get the disk address of the beginning of the segment */ 502 seg_daddr = sntoda(lfsp, segment); 503 seg_byte = datobyte(fsp, seg_daddr); 504 ssize = seg_size(lfsp); 505 506 strcpy(mntfromname, "/dev/r"); 507 strcat(mntfromname, fsp->fi_statfsp->f_mntfromname+5); 508 509 if ((fid = open(mntfromname, O_RDONLY, (mode_t)0)) < 0) { 510 err(0, "mmap_segment: bad open"); 511 return (-1); 512 } 513 514 if (use_mmap) { 515 *segbuf = mmap ((caddr_t)0, seg_size(lfsp), PROT_READ, 516 0, fid, seg_byte); 517 if (*(long *)segbuf < 0) { 518 err(0, "mmap_segment: mmap failed"); 519 return (NULL); 520 } 521 } else { 522 #ifdef VERBOSE 523 printf("mmap_segment\tseg_daddr: %lu\tseg_size: %lu\tseg_offset: %qu\n", 524 seg_daddr, ssize, seg_byte); 525 #endif 526 /* malloc the space for the buffer */ 527 *segbuf = malloc(ssize); 528 if (!*segbuf) { 529 err(0, "mmap_segment: malloc failed"); 530 return(NULL); 531 } 532 533 /* read the segment data into the buffer */ 534 if (lseek (fid, seg_byte, SEEK_SET) != seg_byte) { 535 err (0, "mmap_segment: bad lseek"); 536 free(*segbuf); 537 return (-1); 538 } 539 540 if (read (fid, *segbuf, ssize) != ssize) { 541 err (0, "mmap_segment: bad read"); 542 free(*segbuf); 543 return (-1); 544 } 545 } 546 close (fid); 547 548 return (0); 549 } 550 551 void 552 munmap_segment (fsp, seg_buf, use_mmap) 553 FS_INFO *fsp; /* file system information */ 554 caddr_t seg_buf; /* pointer to buffer area */ 555 int use_mmap; /* mmap instead of read/write */ 556 { 557 if (use_mmap) 558 munmap (seg_buf, seg_size(&fsp->fi_lfs)); 559 else 560 free (seg_buf); 561 } 562 563 564 /* 565 * USEFUL DEBUGGING TOOLS: 566 */ 567 void 568 print_SEGSUM (lfsp, p) 569 struct lfs *lfsp; 570 SEGSUM *p; 571 { 572 if (p) 573 (void) dump_summary(lfsp, p, DUMP_ALL, NULL); 574 else printf("0x0"); 575 fflush(stdout); 576 } 577 578 int 579 bi_compare(a, b) 580 const void *a; 581 const void *b; 582 { 583 const BLOCK_INFO *ba, *bb; 584 int diff; 585 586 ba = a; 587 bb = b; 588 589 if (diff = (int)(ba->bi_inode - bb->bi_inode)) 590 return (diff); 591 if (diff = (int)(ba->bi_lbn - bb->bi_lbn)) { 592 if (ba->bi_lbn == LFS_UNUSED_LBN) 593 return(-1); 594 else if (bb->bi_lbn == LFS_UNUSED_LBN) 595 return(1); 596 else if (ba->bi_lbn < 0 && bb->bi_lbn >= 0) 597 return(1); 598 else if (bb->bi_lbn < 0 && ba->bi_lbn >= 0) 599 return(-1); 600 else 601 return (diff); 602 } 603 if (diff = (int)(ba->bi_segcreate - bb->bi_segcreate)) 604 return (diff); 605 diff = (int)(ba->bi_daddr - bb->bi_daddr); 606 return (diff); 607 } 608 609 int 610 bi_toss(dummy, a, b) 611 const void *dummy; 612 const void *a; 613 const void *b; 614 { 615 const BLOCK_INFO *ba, *bb; 616 617 ba = a; 618 bb = b; 619 620 return(ba->bi_inode == bb->bi_inode && ba->bi_lbn == bb->bi_lbn); 621 } 622 623 void 624 toss(p, nump, size, dotoss, client) 625 void *p; 626 int *nump; 627 size_t size; 628 int (*dotoss) __P((const void *, const void *, const void *)); 629 void *client; 630 { 631 int i; 632 void *p1; 633 634 if (*nump == 0) 635 return; 636 637 for (i = *nump; --i > 0;) { 638 p1 = p + size; 639 if (dotoss(client, p, p1)) { 640 memmove(p, p1, i * size); 641 --(*nump); 642 } else 643 p += size; 644 } 645 } 646