utilities.c revision 1.29
1 1.29 mycroft /* $NetBSD: utilities.c,v 1.29 2001/01/09 09:25:32 mycroft Exp $ */ 2 1.15 cgd 3 1.1 cgd /* 4 1.9 mycroft * Copyright (c) 1980, 1986, 1993 5 1.9 mycroft * The Regents of the University of California. All rights reserved. 6 1.1 cgd * 7 1.1 cgd * Redistribution and use in source and binary forms, with or without 8 1.1 cgd * modification, are permitted provided that the following conditions 9 1.1 cgd * are met: 10 1.1 cgd * 1. Redistributions of source code must retain the above copyright 11 1.1 cgd * notice, this list of conditions and the following disclaimer. 12 1.1 cgd * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 cgd * notice, this list of conditions and the following disclaimer in the 14 1.1 cgd * documentation and/or other materials provided with the distribution. 15 1.1 cgd * 3. All advertising materials mentioning features or use of this software 16 1.1 cgd * must display the following acknowledgement: 17 1.1 cgd * This product includes software developed by the University of 18 1.1 cgd * California, Berkeley and its contributors. 19 1.1 cgd * 4. Neither the name of the University nor the names of its contributors 20 1.1 cgd * may be used to endorse or promote products derived from this software 21 1.1 cgd * without specific prior written permission. 22 1.1 cgd * 23 1.1 cgd * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 24 1.1 cgd * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 25 1.1 cgd * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 26 1.1 cgd * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 27 1.1 cgd * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 28 1.1 cgd * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 29 1.1 cgd * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 30 1.1 cgd * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 31 1.1 cgd * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 32 1.1 cgd * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 33 1.1 cgd * SUCH DAMAGE. 34 1.1 cgd */ 35 1.1 cgd 36 1.19 lukem #include <sys/cdefs.h> 37 1.1 cgd #ifndef lint 38 1.13 cgd #if 0 39 1.20 lukem static char sccsid[] = "@(#)utilities.c 8.6 (Berkeley) 5/19/95"; 40 1.13 cgd #else 41 1.29 mycroft __RCSID("$NetBSD: utilities.c,v 1.29 2001/01/09 09:25:32 mycroft Exp $"); 42 1.13 cgd #endif 43 1.1 cgd #endif /* not lint */ 44 1.1 cgd 45 1.1 cgd #include <sys/param.h> 46 1.7 cgd #include <sys/time.h> 47 1.20 lukem 48 1.9 mycroft #include <ufs/ufs/dinode.h> 49 1.9 mycroft #include <ufs/ufs/dir.h> 50 1.9 mycroft #include <ufs/ffs/fs.h> 51 1.23 bouyer #include <ufs/ffs/ffs_extern.h> 52 1.26 fvdl #include <ufs/ufs/ufs_bswap.h> 53 1.20 lukem 54 1.20 lukem #include <ctype.h> 55 1.20 lukem #include <err.h> 56 1.21 lukem #include <stdio.h> 57 1.21 lukem #include <stdlib.h> 58 1.1 cgd #include <string.h> 59 1.21 lukem #include <unistd.h> 60 1.11 cgd 61 1.18 christos #include "fsutil.h" 62 1.1 cgd #include "fsck.h" 63 1.11 cgd #include "extern.h" 64 1.1 cgd 65 1.1 cgd long diskreads, totalreads; /* Disk cache statistics */ 66 1.1 cgd 67 1.20 lukem static void rwerror __P((char *, ufs_daddr_t)); 68 1.17 christos 69 1.11 cgd int 70 1.1 cgd ftypeok(dp) 71 1.1 cgd struct dinode *dp; 72 1.1 cgd { 73 1.23 bouyer switch (iswap16(dp->di_mode) & IFMT) { 74 1.1 cgd 75 1.1 cgd case IFDIR: 76 1.1 cgd case IFREG: 77 1.1 cgd case IFBLK: 78 1.1 cgd case IFCHR: 79 1.1 cgd case IFLNK: 80 1.1 cgd case IFSOCK: 81 1.1 cgd case IFIFO: 82 1.1 cgd return (1); 83 1.1 cgd 84 1.1 cgd default: 85 1.1 cgd if (debug) 86 1.23 bouyer printf("bad file type 0%o\n", iswap16(dp->di_mode)); 87 1.1 cgd return (0); 88 1.1 cgd } 89 1.1 cgd } 90 1.1 cgd 91 1.11 cgd int 92 1.1 cgd reply(question) 93 1.1 cgd char *question; 94 1.1 cgd { 95 1.1 cgd int persevere; 96 1.1 cgd char c; 97 1.1 cgd 98 1.1 cgd if (preen) 99 1.1 cgd pfatal("INTERNAL ERROR: GOT TO reply()"); 100 1.1 cgd persevere = !strcmp(question, "CONTINUE"); 101 1.1 cgd printf("\n"); 102 1.1 cgd if (!persevere && (nflag || fswritefd < 0)) { 103 1.1 cgd printf("%s? no\n\n", question); 104 1.26 fvdl resolved = 0; 105 1.1 cgd return (0); 106 1.1 cgd } 107 1.1 cgd if (yflag || (persevere && nflag)) { 108 1.1 cgd printf("%s? yes\n\n", question); 109 1.1 cgd return (1); 110 1.1 cgd } 111 1.1 cgd do { 112 1.1 cgd printf("%s? [yn] ", question); 113 1.1 cgd (void) fflush(stdout); 114 1.1 cgd c = getc(stdin); 115 1.26 fvdl while (c != '\n' && getc(stdin) != '\n') { 116 1.26 fvdl if (feof(stdin)) { 117 1.26 fvdl resolved = 0; 118 1.1 cgd return (0); 119 1.26 fvdl } 120 1.26 fvdl } 121 1.1 cgd } while (c != 'y' && c != 'Y' && c != 'n' && c != 'N'); 122 1.1 cgd printf("\n"); 123 1.1 cgd if (c == 'y' || c == 'Y') 124 1.1 cgd return (1); 125 1.26 fvdl resolved = 0; 126 1.1 cgd return (0); 127 1.1 cgd } 128 1.1 cgd 129 1.1 cgd /* 130 1.1 cgd * Malloc buffers and set up cache. 131 1.1 cgd */ 132 1.11 cgd void 133 1.1 cgd bufinit() 134 1.1 cgd { 135 1.19 lukem struct bufarea *bp; 136 1.1 cgd long bufcnt, i; 137 1.1 cgd char *bufp; 138 1.1 cgd 139 1.1 cgd pbp = pdirbp = (struct bufarea *)0; 140 1.23 bouyer bufp = malloc((unsigned int)sblock->fs_bsize); 141 1.1 cgd if (bufp == 0) 142 1.20 lukem errx(EEXIT, "cannot allocate buffer pool"); 143 1.1 cgd cgblk.b_un.b_buf = bufp; 144 1.1 cgd initbarea(&cgblk); 145 1.1 cgd bufhead.b_next = bufhead.b_prev = &bufhead; 146 1.23 bouyer bufcnt = MAXBUFSPACE / sblock->fs_bsize; 147 1.1 cgd if (bufcnt < MINBUFS) 148 1.1 cgd bufcnt = MINBUFS; 149 1.1 cgd for (i = 0; i < bufcnt; i++) { 150 1.1 cgd bp = (struct bufarea *)malloc(sizeof(struct bufarea)); 151 1.23 bouyer bufp = malloc((unsigned int)sblock->fs_bsize); 152 1.1 cgd if (bp == NULL || bufp == NULL) { 153 1.1 cgd if (i >= MINBUFS) 154 1.1 cgd break; 155 1.20 lukem errx(EEXIT, "cannot allocate buffer pool"); 156 1.1 cgd } 157 1.1 cgd bp->b_un.b_buf = bufp; 158 1.1 cgd bp->b_prev = &bufhead; 159 1.1 cgd bp->b_next = bufhead.b_next; 160 1.1 cgd bufhead.b_next->b_prev = bp; 161 1.1 cgd bufhead.b_next = bp; 162 1.1 cgd initbarea(bp); 163 1.1 cgd } 164 1.1 cgd bufhead.b_size = i; /* save number of buffers */ 165 1.1 cgd } 166 1.1 cgd 167 1.1 cgd /* 168 1.1 cgd * Manage a cache of directory blocks. 169 1.1 cgd */ 170 1.1 cgd struct bufarea * 171 1.1 cgd getdatablk(blkno, size) 172 1.20 lukem ufs_daddr_t blkno; 173 1.1 cgd long size; 174 1.1 cgd { 175 1.19 lukem struct bufarea *bp; 176 1.1 cgd 177 1.1 cgd for (bp = bufhead.b_next; bp != &bufhead; bp = bp->b_next) 178 1.23 bouyer if (bp->b_bno == fsbtodb(sblock, blkno)) 179 1.1 cgd goto foundit; 180 1.1 cgd for (bp = bufhead.b_prev; bp != &bufhead; bp = bp->b_prev) 181 1.1 cgd if ((bp->b_flags & B_INUSE) == 0) 182 1.1 cgd break; 183 1.1 cgd if (bp == &bufhead) 184 1.20 lukem errx(EEXIT, "deadlocked buffer pool"); 185 1.1 cgd getblk(bp, blkno, size); 186 1.1 cgd /* fall through */ 187 1.1 cgd foundit: 188 1.1 cgd totalreads++; 189 1.1 cgd bp->b_prev->b_next = bp->b_next; 190 1.1 cgd bp->b_next->b_prev = bp->b_prev; 191 1.1 cgd bp->b_prev = &bufhead; 192 1.1 cgd bp->b_next = bufhead.b_next; 193 1.1 cgd bufhead.b_next->b_prev = bp; 194 1.1 cgd bufhead.b_next = bp; 195 1.1 cgd bp->b_flags |= B_INUSE; 196 1.1 cgd return (bp); 197 1.1 cgd } 198 1.1 cgd 199 1.1 cgd void 200 1.1 cgd getblk(bp, blk, size) 201 1.19 lukem struct bufarea *bp; 202 1.20 lukem ufs_daddr_t blk; 203 1.1 cgd long size; 204 1.1 cgd { 205 1.20 lukem ufs_daddr_t dblk; 206 1.1 cgd 207 1.23 bouyer dblk = fsbtodb(sblock, blk); 208 1.1 cgd if (bp->b_bno != dblk) { 209 1.1 cgd flush(fswritefd, bp); 210 1.1 cgd diskreads++; 211 1.1 cgd bp->b_errs = bread(fsreadfd, bp->b_un.b_buf, dblk, size); 212 1.1 cgd bp->b_bno = dblk; 213 1.1 cgd bp->b_size = size; 214 1.1 cgd } 215 1.1 cgd } 216 1.1 cgd 217 1.11 cgd void 218 1.1 cgd flush(fd, bp) 219 1.1 cgd int fd; 220 1.19 lukem struct bufarea *bp; 221 1.1 cgd { 222 1.19 lukem int i, j; 223 1.1 cgd 224 1.1 cgd if (!bp->b_dirty) 225 1.1 cgd return; 226 1.1 cgd if (bp->b_errs != 0) 227 1.1 cgd pfatal("WRITING %sZERO'ED BLOCK %d TO DISK\n", 228 1.1 cgd (bp->b_errs == bp->b_size / dev_bsize) ? "" : "PARTIALLY ", 229 1.1 cgd bp->b_bno); 230 1.1 cgd bp->b_dirty = 0; 231 1.1 cgd bp->b_errs = 0; 232 1.1 cgd bwrite(fd, bp->b_un.b_buf, bp->b_bno, (long)bp->b_size); 233 1.1 cgd if (bp != &sblk) 234 1.1 cgd return; 235 1.23 bouyer for (i = 0, j = 0; i < sblock->fs_cssize; i += sblock->fs_bsize, j++) { 236 1.23 bouyer int size = sblock->fs_cssize - i < sblock->fs_bsize ? 237 1.23 bouyer sblock->fs_cssize - i : sblock->fs_bsize; 238 1.23 bouyer /* 239 1.23 bouyer * The following routines assumes that struct csum is made of 240 1.23 bouyer * u_int32_t's 241 1.23 bouyer */ 242 1.23 bouyer if (needswap) { 243 1.29 mycroft int k; 244 1.23 bouyer u_int32_t *cd = (u_int32_t *)sblock->fs_csp[j]; 245 1.29 mycroft 246 1.23 bouyer for (k = 0; k < size / sizeof(u_int32_t); k++) 247 1.23 bouyer cd[k] = bswap32(cd[k]); 248 1.23 bouyer } 249 1.23 bouyer bwrite(fswritefd, (char *)sblock->fs_csp[j], 250 1.23 bouyer fsbtodb(sblock, sblock->fs_csaddr + j * sblock->fs_frag), 251 1.29 mycroft size); 252 1.23 bouyer if (needswap) { 253 1.29 mycroft int k; 254 1.23 bouyer u_int32_t *cd = (u_int32_t *)sblock->fs_csp[j]; 255 1.29 mycroft 256 1.23 bouyer for (k = 0; k < size / sizeof(u_int32_t); k++) 257 1.23 bouyer cd[k] = bswap32(cd[k]); 258 1.23 bouyer } 259 1.1 cgd } 260 1.1 cgd } 261 1.1 cgd 262 1.17 christos static void 263 1.1 cgd rwerror(mesg, blk) 264 1.1 cgd char *mesg; 265 1.20 lukem ufs_daddr_t blk; 266 1.1 cgd { 267 1.1 cgd 268 1.1 cgd if (preen == 0) 269 1.1 cgd printf("\n"); 270 1.17 christos pfatal("CANNOT %s: BLK %d", mesg, blk); 271 1.1 cgd if (reply("CONTINUE") == 0) 272 1.20 lukem exit(EEXIT); 273 1.1 cgd } 274 1.1 cgd 275 1.11 cgd void 276 1.23 bouyer ckfini() 277 1.1 cgd { 278 1.19 lukem struct bufarea *bp, *nbp; 279 1.20 lukem int ofsmodified, cnt = 0; 280 1.1 cgd 281 1.9 mycroft if (fswritefd < 0) { 282 1.9 mycroft (void)close(fsreadfd); 283 1.9 mycroft return; 284 1.9 mycroft } 285 1.1 cgd flush(fswritefd, &sblk); 286 1.1 cgd if (havesb && sblk.b_bno != SBOFF / dev_bsize && 287 1.1 cgd !preen && reply("UPDATE STANDARD SUPERBLOCK")) { 288 1.1 cgd sblk.b_bno = SBOFF / dev_bsize; 289 1.1 cgd sbdirty(); 290 1.1 cgd flush(fswritefd, &sblk); 291 1.1 cgd } 292 1.1 cgd flush(fswritefd, &cgblk); 293 1.1 cgd free(cgblk.b_un.b_buf); 294 1.6 deraadt for (bp = bufhead.b_prev; bp && bp != &bufhead; bp = nbp) { 295 1.1 cgd cnt++; 296 1.1 cgd flush(fswritefd, bp); 297 1.1 cgd nbp = bp->b_prev; 298 1.1 cgd free(bp->b_un.b_buf); 299 1.1 cgd free((char *)bp); 300 1.1 cgd } 301 1.1 cgd if (bufhead.b_size != cnt) 302 1.20 lukem errx(EEXIT, "Panic: lost %d buffers", bufhead.b_size - cnt); 303 1.1 cgd pbp = pdirbp = (struct bufarea *)0; 304 1.23 bouyer if (markclean && (sblock->fs_clean & FS_ISCLEAN) == 0) { 305 1.14 mycroft /* 306 1.14 mycroft * Mark the file system as clean, and sync the superblock. 307 1.14 mycroft */ 308 1.14 mycroft if (preen) 309 1.14 mycroft pwarn("MARKING FILE SYSTEM CLEAN\n"); 310 1.14 mycroft else if (!reply("MARK FILE SYSTEM CLEAN")) 311 1.14 mycroft markclean = 0; 312 1.14 mycroft if (markclean) { 313 1.23 bouyer sblock->fs_clean = FS_ISCLEAN; 314 1.14 mycroft sbdirty(); 315 1.20 lukem ofsmodified = fsmodified; 316 1.14 mycroft flush(fswritefd, &sblk); 317 1.22 lukem #if LITE2BORKEN 318 1.20 lukem fsmodified = ofsmodified; 319 1.22 lukem #endif 320 1.20 lukem if (!preen) 321 1.20 lukem printf( 322 1.20 lukem "\n***** FILE SYSTEM MARKED CLEAN *****\n"); 323 1.14 mycroft } 324 1.14 mycroft } 325 1.1 cgd if (debug) 326 1.1 cgd printf("cache missed %ld of %ld (%d%%)\n", diskreads, 327 1.1 cgd totalreads, (int)(diskreads * 100 / totalreads)); 328 1.1 cgd (void)close(fsreadfd); 329 1.1 cgd (void)close(fswritefd); 330 1.1 cgd } 331 1.1 cgd 332 1.11 cgd int 333 1.1 cgd bread(fd, buf, blk, size) 334 1.1 cgd int fd; 335 1.1 cgd char *buf; 336 1.20 lukem ufs_daddr_t blk; 337 1.1 cgd long size; 338 1.1 cgd { 339 1.1 cgd char *cp; 340 1.1 cgd int i, errs; 341 1.9 mycroft off_t offset; 342 1.1 cgd 343 1.9 mycroft offset = blk; 344 1.9 mycroft offset *= dev_bsize; 345 1.9 mycroft if (lseek(fd, offset, 0) < 0) 346 1.1 cgd rwerror("SEEK", blk); 347 1.1 cgd else if (read(fd, buf, (int)size) == size) 348 1.1 cgd return (0); 349 1.1 cgd rwerror("READ", blk); 350 1.9 mycroft if (lseek(fd, offset, 0) < 0) 351 1.1 cgd rwerror("SEEK", blk); 352 1.1 cgd errs = 0; 353 1.10 mycroft memset(buf, 0, (size_t)size); 354 1.1 cgd printf("THE FOLLOWING DISK SECTORS COULD NOT BE READ:"); 355 1.1 cgd for (cp = buf, i = 0; i < size; i += secsize, cp += secsize) { 356 1.1 cgd if (read(fd, cp, (int)secsize) != secsize) { 357 1.9 mycroft (void)lseek(fd, offset + i + secsize, 0); 358 1.1 cgd if (secsize != dev_bsize && dev_bsize != 1) 359 1.1 cgd printf(" %ld (%ld),", 360 1.1 cgd (blk * dev_bsize + i) / secsize, 361 1.1 cgd blk + i / dev_bsize); 362 1.1 cgd else 363 1.1 cgd printf(" %ld,", blk + i / dev_bsize); 364 1.1 cgd errs++; 365 1.1 cgd } 366 1.1 cgd } 367 1.1 cgd printf("\n"); 368 1.1 cgd return (errs); 369 1.1 cgd } 370 1.1 cgd 371 1.11 cgd void 372 1.1 cgd bwrite(fd, buf, blk, size) 373 1.1 cgd int fd; 374 1.1 cgd char *buf; 375 1.20 lukem ufs_daddr_t blk; 376 1.1 cgd long size; 377 1.1 cgd { 378 1.1 cgd int i; 379 1.1 cgd char *cp; 380 1.9 mycroft off_t offset; 381 1.1 cgd 382 1.1 cgd if (fd < 0) 383 1.1 cgd return; 384 1.9 mycroft offset = blk; 385 1.9 mycroft offset *= dev_bsize; 386 1.9 mycroft if (lseek(fd, offset, 0) < 0) 387 1.1 cgd rwerror("SEEK", blk); 388 1.1 cgd else if (write(fd, buf, (int)size) == size) { 389 1.1 cgd fsmodified = 1; 390 1.1 cgd return; 391 1.1 cgd } 392 1.1 cgd rwerror("WRITE", blk); 393 1.9 mycroft if (lseek(fd, offset, 0) < 0) 394 1.1 cgd rwerror("SEEK", blk); 395 1.1 cgd printf("THE FOLLOWING SECTORS COULD NOT BE WRITTEN:"); 396 1.1 cgd for (cp = buf, i = 0; i < size; i += dev_bsize, cp += dev_bsize) 397 1.1 cgd if (write(fd, cp, (int)dev_bsize) != dev_bsize) { 398 1.9 mycroft (void)lseek(fd, offset + i + dev_bsize, 0); 399 1.1 cgd printf(" %ld,", blk + i / dev_bsize); 400 1.1 cgd } 401 1.1 cgd printf("\n"); 402 1.1 cgd return; 403 1.1 cgd } 404 1.1 cgd 405 1.1 cgd /* 406 1.1 cgd * allocate a data block with the specified number of fragments 407 1.1 cgd */ 408 1.20 lukem ufs_daddr_t 409 1.1 cgd allocblk(frags) 410 1.1 cgd long frags; 411 1.1 cgd { 412 1.26 fvdl int i, j, k, cg, baseblk; 413 1.26 fvdl struct cg *cgp = cgrp; 414 1.1 cgd 415 1.23 bouyer if (frags <= 0 || frags > sblock->fs_frag) 416 1.1 cgd return (0); 417 1.23 bouyer for (i = 0; i < maxfsblock - sblock->fs_frag; i += sblock->fs_frag) { 418 1.23 bouyer for (j = 0; j <= sblock->fs_frag - frags; j++) { 419 1.1 cgd if (testbmap(i + j)) 420 1.1 cgd continue; 421 1.1 cgd for (k = 1; k < frags; k++) 422 1.1 cgd if (testbmap(i + j + k)) 423 1.1 cgd break; 424 1.1 cgd if (k < frags) { 425 1.1 cgd j += k; 426 1.1 cgd continue; 427 1.1 cgd } 428 1.26 fvdl cg = dtog(sblock, i + j); 429 1.26 fvdl getblk(&cgblk, cgtod(sblock, cg), sblock->fs_cgsize); 430 1.26 fvdl memcpy(cgp, cgblk.b_un.b_cg, sblock->fs_cgsize); 431 1.26 fvdl if ((doswap && !needswap) || (!doswap && needswap)) 432 1.26 fvdl swap_cg(cgblk.b_un.b_cg, cgp); 433 1.26 fvdl if (!cg_chkmagic(cgp, 0)) 434 1.26 fvdl pfatal("CG %d: ALLOCBLK: BAD MAGIC NUMBER\n", 435 1.26 fvdl cg); 436 1.26 fvdl baseblk = dtogd(sblock, i + j); 437 1.26 fvdl for (k = 0; k < frags; k++) { 438 1.1 cgd setbmap(i + j + k); 439 1.26 fvdl clrbit(cg_blksfree(cgp, 0), baseblk + k); 440 1.26 fvdl } 441 1.1 cgd n_blks += frags; 442 1.26 fvdl if (frags == sblock->fs_frag) 443 1.26 fvdl cgp->cg_cs.cs_nbfree--; 444 1.26 fvdl else 445 1.26 fvdl cgp->cg_cs.cs_nffree -= frags; 446 1.26 fvdl cgdirty(); 447 1.1 cgd return (i + j); 448 1.1 cgd } 449 1.1 cgd } 450 1.1 cgd return (0); 451 1.1 cgd } 452 1.1 cgd 453 1.1 cgd /* 454 1.1 cgd * Free a previously allocated block 455 1.1 cgd */ 456 1.11 cgd void 457 1.1 cgd freeblk(blkno, frags) 458 1.20 lukem ufs_daddr_t blkno; 459 1.1 cgd long frags; 460 1.1 cgd { 461 1.1 cgd struct inodesc idesc; 462 1.1 cgd 463 1.1 cgd idesc.id_blkno = blkno; 464 1.1 cgd idesc.id_numfrags = frags; 465 1.1 cgd (void)pass4check(&idesc); 466 1.1 cgd } 467 1.1 cgd 468 1.1 cgd /* 469 1.1 cgd * Find a pathname 470 1.1 cgd */ 471 1.11 cgd void 472 1.1 cgd getpathname(namebuf, curdir, ino) 473 1.1 cgd char *namebuf; 474 1.1 cgd ino_t curdir, ino; 475 1.1 cgd { 476 1.1 cgd int len; 477 1.19 lukem char *cp; 478 1.1 cgd struct inodesc idesc; 479 1.1 cgd static int busy = 0; 480 1.1 cgd 481 1.9 mycroft if (curdir == ino && ino == ROOTINO) { 482 1.9 mycroft (void)strcpy(namebuf, "/"); 483 1.9 mycroft return; 484 1.9 mycroft } 485 1.1 cgd if (busy || 486 1.1 cgd (statemap[curdir] != DSTATE && statemap[curdir] != DFOUND)) { 487 1.1 cgd (void)strcpy(namebuf, "?"); 488 1.1 cgd return; 489 1.1 cgd } 490 1.1 cgd busy = 1; 491 1.10 mycroft memset(&idesc, 0, sizeof(struct inodesc)); 492 1.1 cgd idesc.id_type = DATA; 493 1.1 cgd idesc.id_fix = IGNORE; 494 1.1 cgd cp = &namebuf[MAXPATHLEN - 1]; 495 1.1 cgd *cp = '\0'; 496 1.1 cgd if (curdir != ino) { 497 1.1 cgd idesc.id_parent = curdir; 498 1.1 cgd goto namelookup; 499 1.1 cgd } 500 1.1 cgd while (ino != ROOTINO) { 501 1.1 cgd idesc.id_number = ino; 502 1.1 cgd idesc.id_func = findino; 503 1.1 cgd idesc.id_name = ".."; 504 1.1 cgd if ((ckinode(ginode(ino), &idesc) & FOUND) == 0) 505 1.1 cgd break; 506 1.1 cgd namelookup: 507 1.1 cgd idesc.id_number = idesc.id_parent; 508 1.1 cgd idesc.id_parent = ino; 509 1.1 cgd idesc.id_func = findname; 510 1.1 cgd idesc.id_name = namebuf; 511 1.1 cgd if ((ckinode(ginode(idesc.id_number), &idesc)&FOUND) == 0) 512 1.1 cgd break; 513 1.1 cgd len = strlen(namebuf); 514 1.1 cgd cp -= len; 515 1.20 lukem memmove(cp, namebuf, (size_t)len); 516 1.1 cgd *--cp = '/'; 517 1.1 cgd if (cp < &namebuf[MAXNAMLEN]) 518 1.1 cgd break; 519 1.1 cgd ino = idesc.id_number; 520 1.1 cgd } 521 1.1 cgd busy = 0; 522 1.1 cgd if (ino != ROOTINO) 523 1.1 cgd *--cp = '?'; 524 1.20 lukem memmove(namebuf, cp, (size_t)(&namebuf[MAXPATHLEN] - cp)); 525 1.1 cgd } 526 1.1 cgd 527 1.1 cgd void 528 1.20 lukem catch(sig) 529 1.20 lukem int sig; 530 1.1 cgd { 531 1.23 bouyer if (!doinglevel2) { 532 1.23 bouyer markclean = 0; 533 1.23 bouyer ckfini(); 534 1.23 bouyer } 535 1.1 cgd exit(12); 536 1.1 cgd } 537 1.1 cgd 538 1.1 cgd /* 539 1.1 cgd * When preening, allow a single quit to signal 540 1.1 cgd * a special exit after filesystem checks complete 541 1.1 cgd * so that reboot sequence may be interrupted. 542 1.1 cgd */ 543 1.1 cgd void 544 1.20 lukem catchquit(sig) 545 1.20 lukem int sig; 546 1.1 cgd { 547 1.24 mrg extern int returntosingle; 548 1.1 cgd 549 1.1 cgd printf("returning to single-user after filesystem check\n"); 550 1.1 cgd returntosingle = 1; 551 1.1 cgd (void)signal(SIGQUIT, SIG_DFL); 552 1.1 cgd } 553 1.1 cgd 554 1.1 cgd /* 555 1.1 cgd * Ignore a single quit signal; wait and flush just in case. 556 1.1 cgd * Used by child processes in preen. 557 1.1 cgd */ 558 1.1 cgd void 559 1.20 lukem voidquit(sig) 560 1.20 lukem int sig; 561 1.1 cgd { 562 1.1 cgd 563 1.1 cgd sleep(1); 564 1.1 cgd (void)signal(SIGQUIT, SIG_IGN); 565 1.1 cgd (void)signal(SIGQUIT, SIG_DFL); 566 1.1 cgd } 567 1.1 cgd 568 1.1 cgd /* 569 1.1 cgd * determine whether an inode should be fixed. 570 1.1 cgd */ 571 1.11 cgd int 572 1.1 cgd dofix(idesc, msg) 573 1.19 lukem struct inodesc *idesc; 574 1.1 cgd char *msg; 575 1.1 cgd { 576 1.1 cgd 577 1.1 cgd switch (idesc->id_fix) { 578 1.1 cgd 579 1.1 cgd case DONTKNOW: 580 1.1 cgd if (idesc->id_type == DATA) 581 1.1 cgd direrror(idesc->id_number, msg); 582 1.1 cgd else 583 1.27 is pwarn("%s", msg); 584 1.1 cgd if (preen) { 585 1.1 cgd printf(" (SALVAGED)\n"); 586 1.1 cgd idesc->id_fix = FIX; 587 1.1 cgd return (ALTERED); 588 1.1 cgd } 589 1.1 cgd if (reply("SALVAGE") == 0) { 590 1.1 cgd idesc->id_fix = NOFIX; 591 1.1 cgd return (0); 592 1.1 cgd } 593 1.1 cgd idesc->id_fix = FIX; 594 1.1 cgd return (ALTERED); 595 1.1 cgd 596 1.1 cgd case FIX: 597 1.1 cgd return (ALTERED); 598 1.1 cgd 599 1.1 cgd case NOFIX: 600 1.1 cgd case IGNORE: 601 1.1 cgd return (0); 602 1.1 cgd 603 1.1 cgd default: 604 1.20 lukem errx(EEXIT, "UNKNOWN INODESC FIX MODE %d", idesc->id_fix); 605 1.1 cgd } 606 1.1 cgd /* NOTREACHED */ 607 1.20 lukem return (0); 608 1.23 bouyer } 609 1.23 bouyer 610 1.25 mycroft void 611 1.25 mycroft copyback_cg(blk) 612 1.23 bouyer struct bufarea *blk; 613 1.23 bouyer { 614 1.25 mycroft 615 1.25 mycroft memcpy(blk->b_un.b_cg, cgrp, sblock->fs_cgsize); 616 1.23 bouyer if (needswap) 617 1.23 bouyer swap_cg(cgrp, blk->b_un.b_cg); 618 1.23 bouyer } 619 1.23 bouyer 620 1.23 bouyer void 621 1.23 bouyer swap_cg(o, n) 622 1.23 bouyer struct cg *o, *n; 623 1.23 bouyer { 624 1.23 bouyer int i; 625 1.23 bouyer u_int32_t *n32, *o32; 626 1.23 bouyer u_int16_t *n16, *o16; 627 1.23 bouyer 628 1.23 bouyer n->cg_firstfield = bswap32(o->cg_firstfield); 629 1.23 bouyer n->cg_magic = bswap32(o->cg_magic); 630 1.23 bouyer n->cg_time = bswap32(o->cg_time); 631 1.23 bouyer n->cg_cgx = bswap32(o->cg_cgx); 632 1.23 bouyer n->cg_ncyl = bswap16(o->cg_ncyl); 633 1.23 bouyer n->cg_niblk = bswap16(o->cg_niblk); 634 1.23 bouyer n->cg_ndblk = bswap32(o->cg_ndblk); 635 1.23 bouyer n->cg_cs.cs_ndir = bswap32(o->cg_cs.cs_ndir); 636 1.23 bouyer n->cg_cs.cs_nbfree = bswap32(o->cg_cs.cs_nbfree); 637 1.23 bouyer n->cg_cs.cs_nifree = bswap32(o->cg_cs.cs_nifree); 638 1.23 bouyer n->cg_cs.cs_nffree = bswap32(o->cg_cs.cs_nffree); 639 1.23 bouyer n->cg_rotor = bswap32(o->cg_rotor); 640 1.23 bouyer n->cg_frotor = bswap32(o->cg_frotor); 641 1.23 bouyer n->cg_irotor = bswap32(o->cg_irotor); 642 1.23 bouyer n->cg_btotoff = bswap32(o->cg_btotoff); 643 1.23 bouyer n->cg_boff = bswap32(o->cg_boff); 644 1.23 bouyer n->cg_iusedoff = bswap32(o->cg_iusedoff); 645 1.23 bouyer n->cg_freeoff = bswap32(o->cg_freeoff); 646 1.23 bouyer n->cg_nextfreeoff = bswap32(o->cg_nextfreeoff); 647 1.23 bouyer n->cg_clustersumoff = bswap32(o->cg_clustersumoff); 648 1.23 bouyer n->cg_clusteroff = bswap32(o->cg_clusteroff); 649 1.23 bouyer n->cg_nclusterblks = bswap32(o->cg_nclusterblks); 650 1.23 bouyer for (i=0; i < MAXFRAG; i++) 651 1.23 bouyer n->cg_frsum[i] = bswap32(o->cg_frsum[i]); 652 1.23 bouyer 653 1.23 bouyer if (sblock->fs_postblformat == FS_42POSTBLFMT) { /* old format */ 654 1.23 bouyer struct ocg *on, *oo; 655 1.23 bouyer int j; 656 1.23 bouyer on = (struct ocg *)n; 657 1.23 bouyer oo = (struct ocg *)o; 658 1.23 bouyer for(i = 0; i < 8; i++) { 659 1.23 bouyer on->cg_frsum[i] = bswap32(oo->cg_frsum[i]); 660 1.23 bouyer } 661 1.23 bouyer for(i = 0; i < 32; i++) { 662 1.23 bouyer on->cg_btot[i] = bswap32(oo->cg_btot[i]); 663 1.23 bouyer for (j = 0; j < 8; j++) 664 1.23 bouyer on->cg_b[i][j] = bswap16(oo->cg_b[i][j]); 665 1.23 bouyer } 666 1.23 bouyer memmove(on->cg_iused, oo->cg_iused, 256); 667 1.23 bouyer on->cg_magic = bswap32(oo->cg_magic); 668 1.23 bouyer } else { /* new format */ 669 1.23 bouyer if (n->cg_magic == CG_MAGIC) { 670 1.23 bouyer n32 = (u_int32_t*)((u_int8_t*)n + n->cg_btotoff); 671 1.23 bouyer o32 = (u_int32_t*)((u_int8_t*)o + n->cg_btotoff); 672 1.23 bouyer n16 = (u_int16_t*)((u_int8_t*)n + n->cg_boff); 673 1.23 bouyer o16 = (u_int16_t*)((u_int8_t*)o + n->cg_boff); 674 1.23 bouyer } else { 675 1.23 bouyer n32 = (u_int32_t*)((u_int8_t*)n + o->cg_btotoff); 676 1.23 bouyer o32 = (u_int32_t*)((u_int8_t*)o + o->cg_btotoff); 677 1.23 bouyer n16 = (u_int16_t*)((u_int8_t*)n + o->cg_boff); 678 1.23 bouyer o16 = (u_int16_t*)((u_int8_t*)o + o->cg_boff); 679 1.23 bouyer } 680 1.23 bouyer for (i=0; i < sblock->fs_cpg; i++) 681 1.23 bouyer n32[i] = bswap32(o32[i]); 682 1.23 bouyer 683 1.23 bouyer for (i=0; i < sblock->fs_cpg * sblock->fs_nrpos; i++) 684 1.23 bouyer n16[i] = bswap16(o16[i]); 685 1.23 bouyer 686 1.23 bouyer if (n->cg_magic == CG_MAGIC) { 687 1.23 bouyer n32 = (u_int32_t*)((u_int8_t*)n + n->cg_clustersumoff); 688 1.23 bouyer o32 = (u_int32_t*)((u_int8_t*)o + n->cg_clustersumoff); 689 1.23 bouyer } else { 690 1.23 bouyer n32 = (u_int32_t*)((u_int8_t*)n + o->cg_clustersumoff); 691 1.23 bouyer o32 = (u_int32_t*)((u_int8_t*)o + o->cg_clustersumoff); 692 1.23 bouyer } 693 1.28 enami for (i = 1; i < sblock->fs_contigsumsize + 1; i++) 694 1.23 bouyer n32[i] = bswap32(o32[i]); 695 1.23 bouyer } 696 1.1 cgd } 697
Indexes created Fri Sep 26 20:09:58 GMT 2025