/* * allocate a new directory */ int allocdir(ino_t parent, ino_t request, int mode) { ino_t ino; struct ext2fs_dinode *dp; struct bufarea *bp; struct ext2fs_dirtemplate *dirp; ino = allocino(request, IFDIR|mode); dirhead.dot_reclen = h2fs16(12); /* XXX */ dirhead.dotdot_reclen = h2fs16(sblock.e2fs_bsize - 12); /* XXX */ dirhead.dot_namlen = 1; if (sblock.e2fs.e2fs_rev > E2FS_REV0 && (sblock.e2fs.e2fs_features_incompat & EXT2F_INCOMPAT_FTYPE)) dirhead.dot_type = EXT2_FT_DIR; else dirhead.dot_type = 0; dirhead.dotdot_namlen = 2; if (sblock.e2fs.e2fs_rev > E2FS_REV0 && (sblock.e2fs.e2fs_features_incompat & EXT2F_INCOMPAT_FTYPE)) dirhead.dotdot_type = EXT2_FT_DIR; else dirhead.dotdot_type = 0; dirp = &dirhead; dirp->dot_ino = h2fs32(ino); dirp->dotdot_ino = h2fs32(parent); dp = ginode(ino); bp = getdirblk(fs2h32(dp->e2di_blocks[0]), sblock.e2fs_bsize); if (bp->b_errs) { freeino(ino); return (0); } memcpy(bp->b_un.b_buf, dirp, sizeof(struct ext2fs_dirtemplate)); dirty(bp); dp->e2di_nlink = h2fs16(2); inodirty(); if (ino == EXT2_ROOTINO) { lncntp[ino] = fs2h16(dp->e2di_nlink); cacheino(dp, ino); return(ino); } if (statemap[parent] != DSTATE && statemap[parent] != DFOUND) { freeino(ino); return (0); } cacheino(dp, ino); statemap[ino] = statemap[parent]; if (statemap[ino] == DSTATE) { lncntp[ino] = fs2h16(dp->e2di_nlink); lncntp[parent]++; } dp = ginode(parent); dp->e2di_nlink = h2fs16(fs2h16(dp->e2di_nlink) + 1); inodirty(); return (ino); }
/* * allocate a new directory */ ufs1_ino_t allocdir(ufs1_ino_t parent, ufs1_ino_t request, int mode) { ufs1_ino_t ino; char *cp; struct ufs1_dinode *dp; struct bufarea *bp; struct dirtemplate *dirp; ino = allocino(request, IFDIR|mode); if (newinofmt) dirp = &dirhead; else dirp = (struct dirtemplate *)&odirhead; dirp->dot_ino = ino; dirp->dotdot_ino = parent; dp = ginode(ino); bp = getdirblk(dp->di_db[0], sblock.fs_fsize); if (bp->b_errs) { freeino(ino); return (0); } memmove(bp->b_un.b_buf, dirp, sizeof(struct dirtemplate)); for (cp = &bp->b_un.b_buf[DIRBLKSIZ]; cp < &bp->b_un.b_buf[sblock.fs_fsize]; cp += DIRBLKSIZ) memmove(cp, &emptydir, sizeof emptydir); dirty(bp); dp->di_nlink = 2; inodirty(); if (ino == ROOTINO) { inoinfo(ino)->ino_linkcnt = dp->di_nlink; cacheino(dp, ino); return(ino); } if (inoinfo(parent)->ino_state != DSTATE && inoinfo(parent)->ino_state != DFOUND) { freeino(ino); return (0); } cacheino(dp, ino); inoinfo(ino)->ino_state = inoinfo(parent)->ino_state; if (inoinfo(ino)->ino_state == DSTATE) { inoinfo(ino)->ino_linkcnt = dp->di_nlink; inoinfo(parent)->ino_linkcnt++; } dp = ginode(parent); dp->di_nlink++; inodirty(); return (ino); }
/* * allocate a new directory */ ino_t allocdir(ino_t parent, ino_t request, int mode) { ino_t ino; char *cp; union dinode *dp; struct bufarea *bp; struct inoinfo *inp; struct dirtemplate *dirp; ino = allocino(request, IFDIR|mode); dirp = &dirhead; dirp->dot_ino = ino; dirp->dotdot_ino = parent; dp = ginode(ino); bp = getdirblk(DIP(dp, di_db[0]), sblock.fs_fsize); if (bp->b_errs) { freeino(ino); return (0); } memmove(bp->b_un.b_buf, dirp, sizeof(struct dirtemplate)); for (cp = &bp->b_un.b_buf[DIRBLKSIZ]; cp < &bp->b_un.b_buf[sblock.fs_fsize]; cp += DIRBLKSIZ) memmove(cp, &emptydir, sizeof emptydir); dirty(bp); DIP_SET(dp, di_nlink, 2); inodirty(); if (ino == ROOTINO) { inoinfo(ino)->ino_linkcnt = DIP(dp, di_nlink); cacheino(dp, ino); return(ino); } if (!INO_IS_DVALID(parent)) { freeino(ino); return (0); } cacheino(dp, ino); inp = getinoinfo(ino); inp->i_parent = parent; inp->i_dotdot = parent; inoinfo(ino)->ino_state = inoinfo(parent)->ino_state; if (inoinfo(ino)->ino_state == DSTATE) { inoinfo(ino)->ino_linkcnt = DIP(dp, di_nlink); inoinfo(parent)->ino_linkcnt++; } dp = ginode(parent); DIP_SET(dp, di_nlink, DIP(dp, di_nlink) + 1); inodirty(); return (ino); }
/* * free a directory inode */ static void freedir(ino_t ino, ino_t parent) { union dinode *dp; if (ino != parent) { dp = ginode(parent); DIP_SET(dp, nlink, iswap16(iswap16(DIP(dp, nlink)) - 1)); inodirty(); } freeino(ino); }
/* * free a directory inode */ static void freedir(ino_t ino, ino_t parent) { struct ext2fs_dinode *dp; if (ino != parent) { dp = ginode(parent); dp->e2di_nlink = h2fs16(fs2h16(dp->e2di_nlink) - 1); inodirty(); } freeino(ino); }
/* * free a directory inode */ static void freedir(ufs1_ino_t ino, ufs1_ino_t parent) { struct ufs1_dinode *dp; if (ino != parent) { dp = ginode(parent); dp->di_nlink--; inodirty(); } freeino(ino); }
/* * free a directory inode */ static void freedir(ino_t ino, ino_t parent) { union dinode *dp; if (ino != parent) { dp = ginode(parent); DIP_SET(dp, di_nlink, DIP(dp, di_nlink) - 1); inodirty(); } freeino(ino); }
/* * free a directory inode */ static void freedir(ino_t ino, ino_t parent) { struct uvnode *vp; if (ino != parent) { vp = vget(fs, parent); lfs_dino_setnlink(fs, VTOI(vp)->i_din, lfs_dino_getnlink(fs, VTOI(vp)->i_din) - 1); inodirty(VTOI(vp)); } freeino(ino); }
/* * Scan each entry in a directory block. */ int dirscan(struct inodesc *idesc) { struct direct *dp; struct bufarea *bp; int dsize, n; long blksiz; #if DIRBLKSIZ > APPLEUFS_DIRBLKSIZ char dbuf[DIRBLKSIZ]; #else char dbuf[APPLEUFS_DIRBLKSIZ]; #endif if (idesc->id_type != DATA) errexit("wrong type to dirscan %d", idesc->id_type); if (idesc->id_entryno == 0 && (idesc->id_filesize & (dirblksiz - 1)) != 0) idesc->id_filesize = roundup(idesc->id_filesize, dirblksiz); blksiz = idesc->id_numfrags * sblock->fs_fsize; if (chkrange(idesc->id_blkno, idesc->id_numfrags)) { idesc->id_filesize -= blksiz; return (SKIP); } /* * If we are are swapping byte order in directory entries, just swap * this block and return. */ if (do_dirswap) { int off; bp = getdirblk(idesc->id_blkno, blksiz); for (off = 0; off < blksiz; off += iswap16(dp->d_reclen)) { dp = (struct direct *)(bp->b_un.b_buf + off); dp->d_ino = bswap32(dp->d_ino); dp->d_reclen = bswap16(dp->d_reclen); if (!newinofmt) { u_int8_t tmp = dp->d_namlen; dp->d_namlen = dp->d_type; dp->d_type = tmp; } if (dp->d_reclen == 0) break; } dirty(bp); idesc->id_filesize -= blksiz; return (idesc->id_filesize > 0 ? KEEPON : STOP); } idesc->id_loc = 0; for (dp = fsck_readdir(idesc); dp != NULL; dp = fsck_readdir(idesc)) { dsize = iswap16(dp->d_reclen); if (dsize > sizeof dbuf) dsize = sizeof dbuf; memmove(dbuf, dp, (size_t)dsize); # if (BYTE_ORDER == LITTLE_ENDIAN) if (!newinofmt && !needswap) { # else if (!newinofmt && needswap) { # endif struct direct *tdp = (struct direct *)dbuf; u_char tmp; tmp = tdp->d_namlen; tdp->d_namlen = tdp->d_type; tdp->d_type = tmp; } idesc->id_dirp = (struct direct *)dbuf; if ((n = (*idesc->id_func)(idesc)) & ALTERED) { # if (BYTE_ORDER == LITTLE_ENDIAN) if (!newinofmt && !doinglevel2 && !needswap) { # else if (!newinofmt && !doinglevel2 && needswap) { # endif struct direct *tdp; u_char tmp; tdp = (struct direct *)dbuf; tmp = tdp->d_namlen; tdp->d_namlen = tdp->d_type; tdp->d_type = tmp; } bp = getdirblk(idesc->id_blkno, blksiz); memmove(bp->b_un.b_buf + idesc->id_loc - dsize, dbuf, (size_t)dsize); dirty(bp); sbdirty(); } if (n & STOP) return (n); } return (idesc->id_filesize > 0 ? KEEPON : STOP); } /* * get next entry in a directory. */ static struct direct * fsck_readdir(struct inodesc *idesc) { struct direct *dp, *ndp; struct bufarea *bp; long size, blksiz, fix, dploc; blksiz = idesc->id_numfrags * sblock->fs_fsize; bp = getdirblk(idesc->id_blkno, blksiz); if (idesc->id_loc % dirblksiz == 0 && idesc->id_filesize > 0 && idesc->id_loc < blksiz) { dp = (struct direct *)(bp->b_un.b_buf + idesc->id_loc); if (dircheck(idesc, dp)) goto dpok; if (idesc->id_fix == IGNORE) return (0); fix = dofix(idesc, "DIRECTORY CORRUPTED"); bp = getdirblk(idesc->id_blkno, blksiz); dp = (struct direct *)(bp->b_un.b_buf + idesc->id_loc); dp->d_reclen = iswap16(dirblksiz); dp->d_ino = 0; dp->d_type = 0; dp->d_namlen = 0; dp->d_name[0] = '\0'; if (fix) dirty(bp); else markclean = 0; idesc->id_loc += dirblksiz; idesc->id_filesize -= dirblksiz; return (dp); } dpok: if (idesc->id_filesize <= 0 || idesc->id_loc >= blksiz) return NULL; dploc = idesc->id_loc; dp = (struct direct *)(bp->b_un.b_buf + dploc); idesc->id_loc += iswap16(dp->d_reclen); idesc->id_filesize -= iswap16(dp->d_reclen); if ((idesc->id_loc % dirblksiz) == 0) return (dp); ndp = (struct direct *)(bp->b_un.b_buf + idesc->id_loc); if (idesc->id_loc < blksiz && idesc->id_filesize > 0 && dircheck(idesc, ndp) == 0) { size = dirblksiz - (idesc->id_loc % dirblksiz); idesc->id_loc += size; idesc->id_filesize -= size; if (idesc->id_fix == IGNORE) return (0); fix = dofix(idesc, "DIRECTORY CORRUPTED"); bp = getdirblk(idesc->id_blkno, blksiz); dp = (struct direct *)(bp->b_un.b_buf + dploc); dp->d_reclen = iswap16(iswap16(dp->d_reclen) + size); if (fix) dirty(bp); else markclean = 0; } return (dp); } /* * Verify that a directory entry is valid. * This is a superset of the checks made in the kernel. */ static int dircheck(struct inodesc *idesc, struct direct *dp) { int size; char *cp; u_char namlen, type; int spaceleft; spaceleft = dirblksiz - (idesc->id_loc % dirblksiz); if (iswap32(dp->d_ino) >= maxino || dp->d_reclen == 0 || iswap16(dp->d_reclen) > spaceleft || (iswap16(dp->d_reclen) & 0x3) != 0) return (0); if (dp->d_ino == 0) return (1); size = DIRSIZ(!newinofmt, dp, needswap); # if (BYTE_ORDER == LITTLE_ENDIAN) if (!newinofmt && !needswap) { # else if (!newinofmt && needswap) { # endif type = dp->d_namlen; namlen = dp->d_type; } else { namlen = dp->d_namlen; type = dp->d_type; } if (iswap16(dp->d_reclen) < size || idesc->id_filesize < size || /* namlen > MAXNAMLEN || */ type > 15) return (0); for (cp = dp->d_name, size = 0; size < namlen; size++) if (*cp == '\0' || (*cp++ == '/')) return (0); if (*cp != '\0') return (0); return (1); } void direrror(ino_t ino, const char *errmesg) { fileerror(ino, ino, errmesg); } void fileerror(ino_t cwd, ino_t ino, const char *errmesg) { union dinode *dp; char pathbuf[MAXPATHLEN + 1]; uint16_t mode; pwarn("%s ", errmesg); pinode(ino); printf("\n"); getpathname(pathbuf, sizeof(pathbuf), cwd, ino); if (ino < ROOTINO || ino > maxino) { pfatal("NAME=%s\n", pathbuf); return; } dp = ginode(ino); if (ftypeok(dp)) { mode = DIP(dp, mode); pfatal("%s=%s\n", (iswap16(mode) & IFMT) == IFDIR ? "DIR" : "FILE", pathbuf); } else pfatal("NAME=%s\n", pathbuf); } void adjust(struct inodesc *idesc, int lcnt) { union dinode *dp; int16_t nlink; int saveresolved; dp = ginode(idesc->id_number); nlink = iswap16(DIP(dp, nlink)); if (nlink == lcnt) { /* * If we have not hit any unresolved problems, are running * in preen mode, and are on a file system using soft updates, * then just toss any partially allocated files. */ if (resolved && preen && usedsoftdep) { clri(idesc, "UNREF", 1); return; } else { /* * The file system can be marked clean even if * a file is not linked up, but is cleared. * Hence, resolved should not be cleared when * linkup is answered no, but clri is answered yes. */ saveresolved = resolved; if (linkup(idesc->id_number, (ino_t)0, NULL) == 0) { resolved = saveresolved; clri(idesc, "UNREF", 0); return; } /* * Account for the new reference created by linkup(). */ dp = ginode(idesc->id_number); lcnt--; } } if (lcnt != 0) { pwarn("LINK COUNT %s", (lfdir == idesc->id_number) ? lfname : ((iswap16(DIP(dp, mode)) & IFMT) == IFDIR ? "DIR" : "FILE")); pinode(idesc->id_number); printf(" COUNT %d SHOULD BE %d", nlink, nlink - lcnt); if (preen || usedsoftdep) { if (lcnt < 0) { printf("\n"); pfatal("LINK COUNT INCREASING"); } if (preen) printf(" (ADJUSTED)\n"); } if (preen || reply("ADJUST") == 1) { DIP_SET(dp, nlink, iswap16(nlink - lcnt)); inodirty(); } else markclean = 0; } } static int mkentry(struct inodesc *idesc) { struct direct *dirp = idesc->id_dirp; struct direct newent; int newlen, oldlen; newent.d_namlen = strlen(idesc->id_name); newlen = DIRSIZ(0, &newent, 0); if (dirp->d_ino != 0) oldlen = DIRSIZ(0, dirp, 0); else oldlen = 0; if (iswap16(dirp->d_reclen) - oldlen < newlen) return (KEEPON); newent.d_reclen = iswap16(iswap16(dirp->d_reclen) - oldlen); dirp->d_reclen = iswap16(oldlen); dirp = (struct direct *)(((char *)dirp) + oldlen); /* ino to be entered is in id_parent */ dirp->d_ino = iswap32(idesc->id_parent); dirp->d_reclen = newent.d_reclen; if (newinofmt) dirp->d_type = inoinfo(idesc->id_parent)->ino_type; else dirp->d_type = 0; dirp->d_namlen = newent.d_namlen; memmove(dirp->d_name, idesc->id_name, (size_t)newent.d_namlen + 1); # if (BYTE_ORDER == LITTLE_ENDIAN) /* * If the entry was split, dirscan() will only reverse the byte * order of the original entry, and not the new one, before * writing it back out. So, we reverse the byte order here if * necessary. */ if (oldlen != 0 && !newinofmt && !doinglevel2 && !needswap) { # else if (oldlen != 0 && !newinofmt && !doinglevel2 && needswap) { # endif u_char tmp; tmp = dirp->d_namlen; dirp->d_namlen = dirp->d_type; dirp->d_type = tmp; } return (ALTERED|STOP); } static int chgino(struct inodesc *idesc) { struct direct *dirp = idesc->id_dirp; if (memcmp(dirp->d_name, idesc->id_name, (int)dirp->d_namlen + 1)) return (KEEPON); dirp->d_ino = iswap32(idesc->id_parent); if (newinofmt) dirp->d_type = inoinfo(idesc->id_parent)->ino_type; else dirp->d_type = 0; return (ALTERED|STOP); } int linkup(ino_t orphan, ino_t parentdir, char *name) { union dinode *dp; int lostdir; ino_t oldlfdir; struct inodesc idesc; char tempname[BUFSIZ]; int16_t nlink; uint16_t mode; memset(&idesc, 0, sizeof(struct inodesc)); dp = ginode(orphan); mode = iswap16(DIP(dp, mode)); nlink = iswap16(DIP(dp, nlink)); lostdir = (mode & IFMT) == IFDIR; pwarn("UNREF %s ", lostdir ? "DIR" : "FILE"); pinode(orphan); if (preen && DIP(dp, size) == 0) return (0); if (preen) printf(" (RECONNECTED)\n"); else if (reply("RECONNECT") == 0) { markclean = 0; return (0); } if (parentdir != 0) inoinfo(parentdir)->ino_linkcnt++; if (lfdir == 0) { dp = ginode(ROOTINO); idesc.id_name = lfname; idesc.id_type = DATA; idesc.id_func = findino; idesc.id_number = ROOTINO; if ((ckinode(dp, &idesc) & FOUND) != 0) { lfdir = idesc.id_parent; } else { pwarn("NO lost+found DIRECTORY"); if (preen || reply("CREATE")) { lfdir = allocdir(ROOTINO, (ino_t)0, lfmode); if (lfdir != 0) { if (makeentry(ROOTINO, lfdir, lfname) != 0) { numdirs++; if (preen) printf(" (CREATED)\n"); } else { freedir(lfdir, ROOTINO); lfdir = 0; if (preen) printf("\n"); } } if (lfdir != 0) { reparent(lfdir, ROOTINO); } } } if (lfdir == 0) { pfatal("SORRY. CANNOT CREATE lost+found DIRECTORY\n\n"); markclean = 0; return (0); } } dp = ginode(lfdir); mode = DIP(dp, mode); mode = iswap16(mode); if ((mode & IFMT) != IFDIR) { pfatal("lost+found IS NOT A DIRECTORY"); if (reply("REALLOCATE") == 0) { markclean = 0; return (0); } oldlfdir = lfdir; lfdir = allocdir(ROOTINO, (ino_t)0, lfmode); if (lfdir == 0) { pfatal("SORRY. CANNOT CREATE lost+found DIRECTORY\n\n"); markclean = 0; return (0); } if ((changeino(ROOTINO, lfname, lfdir) & ALTERED) == 0) { pfatal("SORRY. CANNOT CREATE lost+found DIRECTORY\n\n"); markclean = 0; return (0); } inodirty(); reparent(lfdir, ROOTINO); idesc.id_type = ADDR; idesc.id_func = pass4check; idesc.id_number = oldlfdir; adjust(&idesc, inoinfo(oldlfdir)->ino_linkcnt + 1); inoinfo(oldlfdir)->ino_linkcnt = 0; dp = ginode(lfdir); } if (inoinfo(lfdir)->ino_state != DFOUND) { pfatal("SORRY. NO lost+found DIRECTORY\n\n"); markclean = 0; return (0); } (void)lftempname(tempname, orphan); if (makeentry(lfdir, orphan, (name ? name : tempname)) == 0) { pfatal("SORRY. NO SPACE IN lost+found DIRECTORY"); printf("\n\n"); markclean = 0; return (0); } inoinfo(orphan)->ino_linkcnt--; if (lostdir) { if ((changeino(orphan, "..", lfdir) & ALTERED) == 0 && parentdir != (ino_t)-1) (void)makeentry(orphan, lfdir, ".."); dp = ginode(lfdir); nlink = DIP(dp, nlink); DIP_SET(dp, nlink, iswap16(iswap16(nlink) + 1)); inodirty(); inoinfo(lfdir)->ino_linkcnt++; reparent(orphan, lfdir); pwarn("DIR I=%llu CONNECTED. ", (unsigned long long)orphan); if (parentdir != (ino_t)-1) printf("PARENT WAS I=%llu\n", (unsigned long long)parentdir); if (preen == 0) printf("\n"); } return (1); } /* * fix an entry in a directory. */ int changeino(ino_t dir, const char *name, ino_t newnum) { struct inodesc idesc; memset(&idesc, 0, sizeof(struct inodesc)); idesc.id_type = DATA; idesc.id_func = chgino; idesc.id_number = dir; idesc.id_fix = DONTKNOW; idesc.id_name = name; idesc.id_parent = newnum; /* new value for name */ return (ckinode(ginode(dir), &idesc)); } /* * make an entry in a directory */ int makeentry(ino_t parent, ino_t ino, const char *name) { union dinode *dp; struct inodesc idesc; char pathbuf[MAXPATHLEN + 1]; if (parent < ROOTINO || parent >= maxino || ino < ROOTINO || ino >= maxino) return (0); memset(&idesc, 0, sizeof(struct inodesc)); idesc.id_type = DATA; idesc.id_func = mkentry; idesc.id_number = parent; idesc.id_parent = ino; /* this is the inode to enter */ idesc.id_fix = DONTKNOW; idesc.id_name = name; dp = ginode(parent); if (iswap64(DIP(dp, size)) % dirblksiz) { DIP_SET(dp, size, iswap64(roundup(iswap64(DIP(dp, size)), dirblksiz))); inodirty(); } if ((ckinode(dp, &idesc) & ALTERED) != 0) return (1); getpathname(pathbuf, sizeof(pathbuf), parent, parent); dp = ginode(parent); if (expanddir(dp, pathbuf) == 0) return (0); return (ckinode(dp, &idesc) & ALTERED); } /* * Attempt to expand the size of a directory */ static int expanddir(union dinode *dp, char *name) { daddr_t lastbn, newblk, dirblk; struct bufarea *bp; char *cp; #if DIRBLKSIZ > APPLEUFS_DIRBLKSIZ char firstblk[DIRBLKSIZ]; #else char firstblk[APPLEUFS_DIRBLKSIZ]; #endif struct ufs1_dinode *dp1 = NULL; struct ufs2_dinode *dp2 = NULL; if (is_ufs2) dp2 = &dp->dp2; else dp1 = &dp->dp1; lastbn = lblkno(sblock, iswap64(DIP(dp, size))); if (lastbn >= NDADDR - 1 || DIP(dp, db[lastbn]) == 0 || DIP(dp, size) == 0) return (0); if ((newblk = allocblk(sblock->fs_frag)) == 0) return (0); if (is_ufs2) { dp2->di_db[lastbn + 1] = dp2->di_db[lastbn]; dp2->di_db[lastbn] = iswap64(newblk); dp2->di_size = iswap64(iswap64(dp2->di_size)+sblock->fs_bsize); dp2->di_blocks = iswap64(iswap64(dp2->di_blocks) + btodb(sblock->fs_bsize)); dirblk = iswap64(dp2->di_db[lastbn + 1]); } else { dp1->di_db[lastbn + 1] = dp1->di_db[lastbn]; dp1->di_db[lastbn] = iswap32((int32_t)newblk); dp1->di_size = iswap64(iswap64(dp1->di_size)+sblock->fs_bsize); dp1->di_blocks = iswap32(iswap32(dp1->di_blocks) + btodb(sblock->fs_bsize)); dirblk = iswap32(dp1->di_db[lastbn + 1]); } bp = getdirblk(dirblk, sblksize(sblock, DIP(dp, size), lastbn + 1)); if (bp->b_errs) goto bad; memmove(firstblk, bp->b_un.b_buf, dirblksiz); bp = getdirblk(newblk, sblock->fs_bsize); if (bp->b_errs) goto bad; memmove(bp->b_un.b_buf, firstblk, dirblksiz); emptydir.dot_reclen = iswap16(dirblksiz); for (cp = &bp->b_un.b_buf[dirblksiz]; cp < &bp->b_un.b_buf[sblock->fs_bsize]; cp += dirblksiz) memmove(cp, &emptydir, sizeof emptydir); dirty(bp); bp = getdirblk(dirblk, sblksize(sblock, DIP(dp, size), lastbn + 1)); if (bp->b_errs) goto bad; memmove(bp->b_un.b_buf, &emptydir, sizeof emptydir); pwarn("NO SPACE LEFT IN %s", name); if (preen) printf(" (EXPANDED)\n"); else if (reply("EXPAND") == 0) goto bad; dirty(bp); inodirty(); return (1); bad: if (is_ufs2) { dp2->di_db[lastbn] = dp2->di_db[lastbn + 1]; dp2->di_db[lastbn + 1] = 0; dp2->di_size = iswap64(iswap64(dp2->di_size)-sblock->fs_bsize); dp2->di_blocks = iswap64(iswap64(dp2->di_blocks) - btodb(sblock->fs_bsize)); } else { dp1->di_db[lastbn] = dp1->di_db[lastbn + 1]; dp1->di_db[lastbn + 1] = 0; dp1->di_size = iswap64(iswap64(dp1->di_size)-sblock->fs_bsize); dp1->di_blocks = iswap32(iswap32(dp1->di_blocks) - btodb(sblock->fs_bsize)); } freeblk(newblk, sblock->fs_frag); markclean = 0; return (0); } /* * allocate a new directory */ ino_t allocdir(ino_t parent, ino_t request, int mode) { ino_t ino; char *cp; union dinode *dp; struct bufarea *bp; struct inoinfo *inp; struct dirtemplate *dirp; daddr_t dirblk; ino = allocino(request, IFDIR|mode); if (ino < ROOTINO) return 0; dirhead.dot_reclen = iswap16(12); dirhead.dotdot_reclen = iswap16(dirblksiz - 12); odirhead.dot_reclen = iswap16(12); odirhead.dotdot_reclen = iswap16(dirblksiz - 12); odirhead.dot_namlen = iswap16(1); odirhead.dotdot_namlen = iswap16(2); if (newinofmt) dirp = &dirhead; else dirp = (struct dirtemplate *)&odirhead; dirp->dot_ino = iswap32(ino); dirp->dotdot_ino = iswap32(parent); dp = ginode(ino); dirblk = is_ufs2 ? iswap64(dp->dp2.di_db[0]) : iswap32(dp->dp1.di_db[0]); bp = getdirblk(dirblk, sblock->fs_fsize); if (bp->b_errs) { freeino(ino); return (0); } memmove(bp->b_un.b_buf, dirp, sizeof(struct dirtemplate)); emptydir.dot_reclen = iswap16(dirblksiz); for (cp = &bp->b_un.b_buf[dirblksiz]; cp < &bp->b_un.b_buf[sblock->fs_fsize]; cp += dirblksiz) memmove(cp, &emptydir, sizeof emptydir); dirty(bp); DIP_SET(dp, nlink, iswap16(2)); inodirty(); if (ino == ROOTINO) { inoinfo(ino)->ino_linkcnt = iswap16(DIP(dp, nlink)); cacheino(dp, ino); return(ino); } if (inoinfo(parent)->ino_state != DSTATE && inoinfo(parent)->ino_state != DFOUND) { freeino(ino); return (0); } cacheino(dp, ino); inp = getinoinfo(ino); inp->i_parent = parent; inp->i_dotdot = parent; inoinfo(ino)->ino_state = inoinfo(parent)->ino_state; if (inoinfo(ino)->ino_state == DSTATE) { inoinfo(ino)->ino_linkcnt = iswap16(DIP(dp, nlink)); inoinfo(parent)->ino_linkcnt++; } dp = ginode(parent); DIP_SET(dp, nlink, iswap16(iswap16(DIP(dp, nlink)) + 1)); inodirty(); return (ino); }
pass2() { register struct dinode *dp; register struct inoinfo **inpp, *inp; struct inoinfo **inpend; struct inodesc curino; struct dinode dino; char pathbuf[MAXPATHLEN + 1]; switch (statemap[ROOTINO]) { case USTATE: pfatal("ROOT INODE UNALLOCATED"); if (reply("ALLOCATE") == 0) errexit(""); if (allocdir(ROOTINO, ROOTINO, 0755) != ROOTINO) errexit("CANNOT ALLOCATE ROOT INODE\n"); break; case DCLEAR: pfatal("DUPS/BAD IN ROOT INODE"); if (reply("REALLOCATE")) { freeino(ROOTINO); if (allocdir(ROOTINO, ROOTINO, 0755) != ROOTINO) errexit("CANNOT ALLOCATE ROOT INODE\n"); break; } if (reply("CONTINUE") == 0) errexit(""); break; case FSTATE: case FCLEAR: pfatal("ROOT INODE NOT DIRECTORY"); if (reply("REALLOCATE")) { freeino(ROOTINO); if (allocdir(ROOTINO, ROOTINO, 0755) != ROOTINO) errexit("CANNOT ALLOCATE ROOT INODE\n"); break; } if (reply("FIX") == 0) errexit(""); dp = ginode(ROOTINO); dp->di_mode &= ~IFMT; dp->di_mode |= IFDIR; inodirty(); break; case DSTATE: break; default: errexit("BAD STATE %d FOR ROOT INODE", statemap[ROOTINO]); } statemap[ROOTINO] = DFOUND; /* * Sort the directory list into disk block order. */ qsort((char *)inpsort, (size_t)inplast, sizeof *inpsort, blksort); /* * Check the integrity of each directory. */ bzero((char *)&curino, sizeof(struct inodesc)); curino.id_type = DATA; curino.id_func = pass2check; dp = &dino; inpend = &inpsort[inplast]; for (inpp = inpsort; inpp < inpend; inpp++) { inp = *inpp; if (inp->i_isize == 0) continue; if (inp->i_isize < MINDIRSIZE) { direrror(inp->i_number, "DIRECTORY TOO SHORT"); inp->i_isize = roundup(MINDIRSIZE, DIRBLKSIZ); if (reply("FIX") == 1) { dp = ginode(inp->i_number); dp->di_size = inp->i_isize; inodirty(); dp = &dino; } } else if ((inp->i_isize & (DIRBLKSIZ - 1)) != 0) { getpathname(pathbuf, inp->i_number, inp->i_number); pwarn("DIRECTORY %s: LENGTH %d NOT MULTIPLE OF %d", pathbuf, inp->i_isize, DIRBLKSIZ); if (preen) printf(" (ADJUSTED)\n"); inp->i_isize = roundup(inp->i_isize, DIRBLKSIZ); if (preen || reply("ADJUST") == 1) { dp = ginode(inp->i_number); dp->di_size = roundup(inp->i_isize, DIRBLKSIZ); inodirty(); dp = &dino; } } bzero((char *)&dino, sizeof(struct dinode)); dino.di_mode = IFDIR; dp->di_size = inp->i_isize; bcopy((char *)&inp->i_blks[0], (char *)&dp->di_db[0], (size_t)inp->i_numblks); curino.id_number = inp->i_number; curino.id_parent = inp->i_parent; (void)ckinode(dp, &curino); } /* * Now that the parents of all directories have been found, * make another pass to verify the value of `..' */ for (inpp = inpsort; inpp < inpend; inpp++) { inp = *inpp; if (inp->i_parent == 0 || inp->i_isize == 0) continue; if (statemap[inp->i_parent] == DFOUND && statemap[inp->i_number] == DSTATE) statemap[inp->i_number] = DFOUND; if (inp->i_dotdot == inp->i_parent || inp->i_dotdot == (ino_t)-1) continue; if (inp->i_dotdot == 0) { inp->i_dotdot = inp->i_parent; fileerror(inp->i_parent, inp->i_number, "MISSING '..'"); if (reply("FIX") == 0) continue; (void)makeentry(inp->i_number, inp->i_parent, ".."); lncntp[inp->i_parent]--; continue; } fileerror(inp->i_parent, inp->i_number, "BAD INODE NUMBER FOR '..'"); if (reply("FIX") == 0) continue; lncntp[inp->i_dotdot]++; lncntp[inp->i_parent]--; inp->i_dotdot = inp->i_parent; (void)changeino(inp->i_number, "..", inp->i_parent); } /* * Mark all the directories that can be found from the root. */ propagate(); }
void pass2(void) { union dinode *dp; struct inoinfo **inpp, *inp; struct inoinfo **inpend; struct inodesc curino; union dinode dino; int i; char pathbuf[MAXPATHLEN + 1]; switch (inoinfo(ROOTINO)->ino_state) { case USTATE: pfatal("ROOT INODE UNALLOCATED"); if (reply("ALLOCATE") == 0) { ckfini(0); exit(EEXIT); } if (allocdir(ROOTINO, ROOTINO, 0755) != ROOTINO) errx(EEXIT, "CANNOT ALLOCATE ROOT INODE"); break; case DCLEAR: pfatal("DUPS/BAD IN ROOT INODE"); if (reply("REALLOCATE")) { freeino(ROOTINO); if (allocdir(ROOTINO, ROOTINO, 0755) != ROOTINO) errx(EEXIT, "CANNOT ALLOCATE ROOT INODE"); break; } if (reply("CONTINUE") == 0) { ckfini(0); exit(EEXIT); } break; case FSTATE: case FCLEAR: case FZLINK: pfatal("ROOT INODE NOT DIRECTORY"); if (reply("REALLOCATE")) { freeino(ROOTINO); if (allocdir(ROOTINO, ROOTINO, 0755) != ROOTINO) errx(EEXIT, "CANNOT ALLOCATE ROOT INODE"); break; } if (reply("FIX") == 0) { ckfini(0); exit(EEXIT); } dp = ginode(ROOTINO); DIP_SET(dp, di_mode, DIP(dp, di_mode) & ~IFMT); DIP_SET(dp, di_mode, DIP(dp, di_mode) | IFDIR); inodirty(); break; case DSTATE: case DZLINK: break; default: errx(EEXIT, "BAD STATE %d FOR ROOT INODE", inoinfo(ROOTINO)->ino_state); } inoinfo(ROOTINO)->ino_state = DFOUND; inoinfo(WINO)->ino_state = FSTATE; inoinfo(WINO)->ino_type = DT_WHT; /* * Sort the directory list into disk block order. */ qsort((char *)inpsort, (size_t)inplast, sizeof *inpsort, blksort); /* * Check the integrity of each directory. */ memset(&curino, 0, sizeof(struct inodesc)); curino.id_type = DATA; curino.id_func = pass2check; inpend = &inpsort[inplast]; for (inpp = inpsort; inpp < inpend; inpp++) { if (got_siginfo) { printf("%s: phase 2: dir %td of %d (%d%%)\n", cdevname, inpp - inpsort, (int)inplast, (int)((inpp - inpsort) * 100 / inplast)); got_siginfo = 0; } if (got_sigalarm) { setproctitle("%s p2 %d%%", cdevname, (int)((inpp - inpsort) * 100 / inplast)); got_sigalarm = 0; } inp = *inpp; if (inp->i_isize == 0) continue; if (inp->i_isize < MINDIRSIZE) { direrror(inp->i_number, "DIRECTORY TOO SHORT"); inp->i_isize = roundup(MINDIRSIZE, DIRBLKSIZ); if (reply("FIX") == 1) { dp = ginode(inp->i_number); DIP_SET(dp, di_size, inp->i_isize); inodirty(); } } else if ((inp->i_isize & (DIRBLKSIZ - 1)) != 0) { getpathname(pathbuf, inp->i_number, inp->i_number); if (usedsoftdep) pfatal("%s %s: LENGTH %jd NOT MULTIPLE OF %d", "DIRECTORY", pathbuf, (intmax_t)inp->i_isize, DIRBLKSIZ); else pwarn("%s %s: LENGTH %jd NOT MULTIPLE OF %d", "DIRECTORY", pathbuf, (intmax_t)inp->i_isize, DIRBLKSIZ); if (preen) printf(" (ADJUSTED)\n"); inp->i_isize = roundup(inp->i_isize, DIRBLKSIZ); if (preen || reply("ADJUST") == 1) { dp = ginode(inp->i_number); DIP_SET(dp, di_size, roundup(inp->i_isize, DIRBLKSIZ)); inodirty(); } } dp = &dino; memset(dp, 0, sizeof(struct ufs2_dinode)); DIP_SET(dp, di_mode, IFDIR); DIP_SET(dp, di_size, inp->i_isize); for (i = 0; i < (inp->i_numblks<NDADDR ? inp->i_numblks : NDADDR); i++) DIP_SET(dp, di_db[i], inp->i_blks[i]); if (inp->i_numblks > NDADDR) for (i = 0; i < NIADDR; i++) DIP_SET(dp, di_ib[i], inp->i_blks[NDADDR + i]); curino.id_number = inp->i_number; curino.id_parent = inp->i_parent; (void)ckinode(dp, &curino); } /* * Now that the parents of all directories have been found, * make another pass to verify the value of `..' */ for (inpp = inpsort; inpp < inpend; inpp++) { inp = *inpp; if (inp->i_parent == 0 || inp->i_isize == 0) continue; if (inoinfo(inp->i_parent)->ino_state == DFOUND && INO_IS_DUNFOUND(inp->i_number)) inoinfo(inp->i_number)->ino_state = DFOUND; if (inp->i_dotdot == inp->i_parent || inp->i_dotdot == (ino_t)-1) continue; if (inp->i_dotdot == 0) { inp->i_dotdot = inp->i_parent; fileerror(inp->i_parent, inp->i_number, "MISSING '..'"); if (reply("FIX") == 0) continue; (void)makeentry(inp->i_number, inp->i_parent, ".."); inoinfo(inp->i_parent)->ino_linkcnt--; continue; } /* * Here we have: * inp->i_number is directory with bad ".." in it. * inp->i_dotdot is current value of "..". * inp->i_parent is directory to which ".." should point. */ getpathname(pathbuf, inp->i_parent, inp->i_number); printf("BAD INODE NUMBER FOR '..' in DIR I=%d (%s)\n", inp->i_number, pathbuf); getpathname(pathbuf, inp->i_dotdot, inp->i_dotdot); printf("CURRENTLY POINTS TO I=%d (%s), ", inp->i_dotdot, pathbuf); getpathname(pathbuf, inp->i_parent, inp->i_parent); printf("SHOULD POINT TO I=%d (%s)", inp->i_parent, pathbuf); if (cursnapshot != 0) { /* * We need to: * setcwd(inp->i_number); * setdotdot(inp->i_dotdot, inp->i_parent); */ cmd.value = inp->i_number; if (sysctlbyname("vfs.ffs.setcwd", 0, 0, &cmd, sizeof cmd) == -1) { /* kernel lacks support for these functions */ printf(" (IGNORED)\n"); continue; } cmd.value = inp->i_dotdot; /* verify same value */ cmd.size = inp->i_parent; /* new parent */ if (sysctlbyname("vfs.ffs.setdotdot", 0, 0, &cmd, sizeof cmd) == -1) { printf(" (FIX FAILED: %s)\n", strerror(errno)); continue; } printf(" (FIXED)\n"); inoinfo(inp->i_parent)->ino_linkcnt--; inp->i_dotdot = inp->i_parent; continue; } if (preen) printf(" (FIXED)\n"); else if (reply("FIX") == 0) continue; inoinfo(inp->i_dotdot)->ino_linkcnt++; inoinfo(inp->i_parent)->ino_linkcnt--; inp->i_dotdot = inp->i_parent; (void)changeino(inp->i_number, "..", inp->i_parent); } /* * Mark all the directories that can be found from the root. */ propagate(); }
void pass2(void) { union dinode *dp; struct inoinfo **inpp, *inp, *pinp; struct inoinfo **inpend; struct inostat *rinfo, *info; struct inodesc curino; union dinode dino; int i, maxblk; char pathbuf[MAXPATHLEN + 1]; rinfo = inoinfo(ROOTINO); switch (rinfo->ino_state) { case USTATE: pfatal("ROOT INODE UNALLOCATED"); if (reply("ALLOCATE") == 0) { markclean = 0; ckfini(); exit(FSCK_EXIT_CHECK_FAILED); } if (allocdir(ROOTINO, ROOTINO, 0755) != ROOTINO) errexit("CANNOT ALLOCATE ROOT INODE"); break; case DCLEAR: pfatal("DUPS/BAD IN ROOT INODE"); if (reply("REALLOCATE")) { freeino(ROOTINO); if (allocdir(ROOTINO, ROOTINO, 0755) != ROOTINO) errexit("CANNOT ALLOCATE ROOT INODE"); break; } markclean = 0; if (reply("CONTINUE") == 0) { ckfini(); exit(FSCK_EXIT_CHECK_FAILED); } break; case FSTATE: case FCLEAR: pfatal("ROOT INODE NOT DIRECTORY"); if (reply("REALLOCATE")) { freeino(ROOTINO); if (allocdir(ROOTINO, ROOTINO, 0755) != ROOTINO) errexit("CANNOT ALLOCATE ROOT INODE"); break; } if (reply("FIX") == 0) { markclean = 0; ckfini(); exit(FSCK_EXIT_CHECK_FAILED); } dp = ginode(ROOTINO); DIP_SET(dp, mode, iswap16((iswap16(DIP(dp, mode)) & ~IFMT) | IFDIR)); inodirty(); break; case DSTATE: break; default: errexit("BAD STATE %d FOR ROOT INODE", rinfo->ino_state); } if (newinofmt) { info = inoinfo(WINO); info->ino_state = FSTATE; info->ino_type = DT_WHT; } /* * Sort the directory list into disk block order. */ qsort((char *)inpsort, (size_t)inplast, sizeof *inpsort, blksort); /* * Check the integrity of each directory. */ memset(&curino, 0, sizeof(struct inodesc)); curino.id_type = DATA; curino.id_func = pass2check; inpend = &inpsort[inplast]; for (inpp = inpsort; inpp < inpend; inpp++) { if (got_siginfo) { fprintf(stderr, "%s: phase 2: dir %ld of %d (%d%%)\n", cdevname(), (long)(inpp - inpsort), (int)inplast, (int)((inpp - inpsort) * 100 / inplast)); got_siginfo = 0; } #ifdef PROGRESS progress_bar(cdevname(), preen ? NULL : "phase 2", (inpp - inpsort), inplast); #endif /* PROGRESS */ inp = *inpp; if (inp->i_isize == 0) continue; if (inp->i_isize < MINDIRSIZE) { direrror(inp->i_number, "DIRECTORY TOO SHORT"); inp->i_isize = roundup(MINDIRSIZE, dirblksiz); if (reply("FIX") == 1) { dp = ginode(inp->i_number); DIP_SET(dp, size, iswap64(inp->i_isize)); inodirty(); } else markclean = 0; } else if ((inp->i_isize & (dirblksiz - 1)) != 0) { getpathname(pathbuf, sizeof(pathbuf), inp->i_number, inp->i_number); if (usedsoftdep) pfatal("%s %s: LENGTH %lld NOT MULTIPLE OF %d", "DIRECTORY", pathbuf, (long long)inp->i_isize, dirblksiz); else pwarn("%s %s: LENGTH %lld NOT MULTIPLE OF %d", "DIRECTORY", pathbuf, (long long)inp->i_isize, dirblksiz); if (preen) printf(" (ADJUSTED)\n"); inp->i_isize = roundup(inp->i_isize, dirblksiz); if (preen || reply("ADJUST") == 1) { dp = ginode(inp->i_number); DIP_SET(dp, size, iswap64(inp->i_isize)); inodirty(); } else markclean = 0; } memset(&dino, 0, sizeof dino); dp = &dino; if (!is_ufs2) { dp->dp1.di_mode = iswap16(IFDIR); dp->dp1.di_size = iswap64(inp->i_isize); maxblk = inp->i_numblks < NDADDR ? inp->i_numblks : NDADDR; for (i = 0; i < maxblk; i++) dp->dp1.di_db[i] = inp->i_blks[i]; if (inp->i_numblks > NDADDR) { for (i = 0; i < NIADDR; i++) dp->dp1.di_ib[i] = inp->i_blks[NDADDR + i]; } } else { dp->dp2.di_mode = iswap16(IFDIR); dp->dp2.di_size = iswap64(inp->i_isize); maxblk = inp->i_numblks < NDADDR ? inp->i_numblks : NDADDR; for (i = 0; i < maxblk; i++) dp->dp2.di_db[i] = inp->i_blks[i]; if (inp->i_numblks > NDADDR) { for (i = 0; i < NIADDR; i++) dp->dp2.di_ib[i] = inp->i_blks[NDADDR + i]; } } curino.id_number = inp->i_number; curino.id_parent = inp->i_parent; (void)ckinode(&dino, &curino); } /* * Byte swapping in directory entries, if needed, has been done. * Now rescan dirs for pass2check() */ if (do_dirswap) { do_dirswap = 0; for (inpp = inpsort; inpp < inpend; inpp++) { inp = *inpp; if (inp->i_isize == 0) continue; memset(&dino, 0, sizeof dino); if (!is_ufs2) { dino.dp1.di_mode = iswap16(IFDIR); dino.dp1.di_size = iswap64(inp->i_isize); for (i = 0; i < inp->i_numblks; i++) dino.dp1.di_db[i] = inp->i_blks[i]; } else { dino.dp2.di_mode = iswap16(IFDIR); dino.dp2.di_size = iswap64(inp->i_isize); for (i = 0; i < inp->i_numblks; i++) dino.dp2.di_db[i] = inp->i_blks[i]; } curino.id_number = inp->i_number; curino.id_parent = inp->i_parent; (void)ckinode(&dino, &curino); } } /* * Now that the parents of all directories have been found, * make another pass to verify the value of `..' */ for (inpp = inpsort; inpp < inpend; inpp++) { inp = *inpp; if (inp->i_parent == 0 || inp->i_isize == 0) continue; if (inp->i_dotdot == inp->i_parent || inp->i_dotdot == (ino_t)-1) continue; info = inoinfo(inp->i_parent); if (inp->i_dotdot == 0) { inp->i_dotdot = inp->i_parent; fileerror(inp->i_parent, inp->i_number, "MISSING '..'"); if (reply("FIX") == 0) { markclean = 0; continue; } (void)makeentry(inp->i_number, inp->i_parent, ".."); info->ino_linkcnt--; continue; } fileerror(inp->i_parent, inp->i_number, "BAD INODE NUMBER FOR '..'"); if (reply("FIX") == 0) { markclean = 0; continue; } inoinfo(inp->i_dotdot)->ino_linkcnt++; info->ino_linkcnt--; inp->i_dotdot = inp->i_parent; (void)changeino(inp->i_number, "..", inp->i_parent); } /* * Create a list of children for each directory. */ inpend = &inpsort[inplast]; for (inpp = inpsort; inpp < inpend; inpp++) { inp = *inpp; info = inoinfo(inp->i_number); inp->i_child = inp->i_sibling = 0; if (info->ino_state == DFOUND) info->ino_state = DSTATE; } for (inpp = inpsort; inpp < inpend; inpp++) { inp = *inpp; if (inp->i_parent == 0 || inp->i_number == ROOTINO) continue; pinp = getinoinfo(inp->i_parent); inp->i_sibling = pinp->i_child; pinp->i_child = inp; } /* * Mark all the directories that can be found from the root. */ propagate(ROOTINO); #ifdef PROGRESS if (!preen) progress_done(); #endif /* PROGRESS */ }
void pass2(void) { union dinode *dp; struct inoinfo **inpp, *inp, *pinp; struct inoinfo **inpend; struct inodesc curino; union dinode dino; char pathbuf[MAXPATHLEN + 1]; int i; switch (GET_ISTATE(ROOTINO)) { case USTATE: pfatal("ROOT INODE UNALLOCATED"); if (reply("ALLOCATE") == 0) { ckfini(0); errexit("%s", ""); } if (allocdir(ROOTINO, ROOTINO, 0755) != ROOTINO) errexit("CANNOT ALLOCATE ROOT INODE\n"); break; case DCLEAR: pfatal("DUPS/BAD IN ROOT INODE"); if (reply("REALLOCATE")) { freeino(ROOTINO); if (allocdir(ROOTINO, ROOTINO, 0755) != ROOTINO) errexit("CANNOT ALLOCATE ROOT INODE\n"); break; } if (reply("CONTINUE") == 0) { ckfini(0); errexit("%s", ""); } break; case FSTATE: case FCLEAR: pfatal("ROOT INODE NOT DIRECTORY"); if (reply("REALLOCATE")) { freeino(ROOTINO); if (allocdir(ROOTINO, ROOTINO, 0755) != ROOTINO) errexit("CANNOT ALLOCATE ROOT INODE\n"); break; } if (reply("FIX") == 0) { ckfini(0); errexit("%s", ""); } dp = ginode(ROOTINO); DIP_SET(dp, di_mode, DIP(dp, di_mode) & ~IFMT); DIP_SET(dp, di_mode, DIP(dp, di_mode) | IFDIR); inodirty(); break; case DSTATE: break; default: errexit("BAD STATE %d FOR ROOT INODE\n", GET_ISTATE(ROOTINO)); } SET_ISTATE(ROOTINO, DFOUND); /* * Sort the directory list into disk block order. */ qsort(inpsort, (size_t)inplast, sizeof *inpsort, blksort); /* * Check the integrity of each directory. */ memset(&curino, 0, sizeof(struct inodesc)); curino.id_type = DATA; curino.id_func = pass2check; inpend = &inpsort[inplast]; info_pos = 0; info_max = inpend - inpsort; info_fn = pass2_info1; for (inpp = inpsort; inpp < inpend; inpp++) { inp = *inpp; info_pos ++; if (inp->i_isize == 0) continue; if (inp->i_isize < MINDIRSIZE) { direrror(inp->i_number, "DIRECTORY TOO SHORT"); inp->i_isize = roundup(MINDIRSIZE, DIRBLKSIZ); if (reply("FIX") == 1) { dp = ginode(inp->i_number); DIP_SET(dp, di_size, inp->i_isize); inodirty(); } } else if ((inp->i_isize & (DIRBLKSIZ - 1)) != 0) { getpathname(pathbuf, sizeof pathbuf, inp->i_number, inp->i_number); if (usedsoftdep) pfatal("%s %s: LENGTH %ld NOT MULTIPLE of %d", "DIRECTORY", pathbuf, (long)inp->i_isize, DIRBLKSIZ); else pwarn("%s %s: LENGTH %ld NOT MULTIPLE OF %d", "DIRECTORY", pathbuf, (long)inp->i_isize, DIRBLKSIZ); if (preen) printf(" (ADJUSTED)\n"); inp->i_isize = roundup(inp->i_isize, DIRBLKSIZ); if (preen || reply("ADJUST") == 1) { dp = ginode(inp->i_number); DIP_SET(dp, di_size, inp->i_isize); inodirty(); } } memset(&dino, 0, sizeof(union dinode)); dp = &dino; DIP_SET(dp, di_mode, IFDIR); DIP_SET(dp, di_size, inp->i_isize); for (i = 0; i < (inp->i_numblks<NDADDR ? inp->i_numblks : NDADDR); i++) DIP_SET(dp, di_db[i], inp->i_blks[i]); if (inp->i_numblks > NDADDR) for (i = 0; i < NIADDR; i++) DIP_SET(dp, di_ib[i], inp->i_blks[NDADDR + i]); curino.id_number = inp->i_number; curino.id_parent = inp->i_parent; (void)ckinode(dp, &curino); } /* * Now that the parents of all directories have been found, * make another pass to verify the value of `..' */ info_pos = 0; info_fn = pass2_info2; for (inpp = inpsort; inpp < inpend; inpp++) { inp = *inpp; info_pos++; if (inp->i_parent == 0 || inp->i_isize == 0) continue; if (inp->i_dotdot == inp->i_parent || inp->i_dotdot == (ino_t)-1) continue; if (inp->i_dotdot == 0) { inp->i_dotdot = inp->i_parent; fileerror(inp->i_parent, inp->i_number, "MISSING '..'"); if (reply("FIX") == 0) continue; (void)makeentry(inp->i_number, inp->i_parent, ".."); lncntp[inp->i_parent]--; continue; } fileerror(inp->i_parent, inp->i_number, "BAD INODE NUMBER FOR '..'"); if (reply("FIX") == 0) continue; lncntp[inp->i_dotdot]++; lncntp[inp->i_parent]--; inp->i_dotdot = inp->i_parent; (void)changeino(inp->i_number, "..", inp->i_parent); } info_fn = NULL; /* * Create a list of children for each directory. */ inpend = &inpsort[inplast]; for (inpp = inpsort; inpp < inpend; inpp++) { inp = *inpp; if (inp->i_parent == 0 || inp->i_number == ROOTINO) continue; pinp = getinoinfo(inp->i_parent); inp->i_parentp = pinp; inp->i_sibling = pinp->i_child; pinp->i_child = inp; } /* * Mark all the directories that can be found from the root. */ propagate(ROOTINO); }
/* * allocate a new directory */ int allocdir(ino_t parent, ino_t request, int mode) { ino_t ino; char *cp; union lfs_dinode *dp; struct ubuf *bp; LFS_DIRHEADER *dirp; struct uvnode *vp; ino = allocino(request, LFS_IFDIR | mode); vp = vget(fs, ino); dp = VTOD(vp); bread(vp, lfs_dino_getdb(fs, dp, 0), lfs_sb_getfsize(fs), 0, &bp); if (bp->b_flags & B_ERROR) { brelse(bp, 0); freeino(ino); return (0); } dirp = (LFS_DIRHEADER *)bp->b_data; /* . */ lfs_dir_setino(fs, dirp, ino); lfs_dir_setreclen(fs, dirp, LFS_DIRECTSIZ(fs, 1)); lfs_dir_settype(fs, dirp, LFS_DT_DIR); lfs_dir_setnamlen(fs, dirp, 1); lfs_copydirname(fs, lfs_dir_nameptr(fs, dirp), ".", 1, LFS_DIRECTSIZ(fs, 1)); /* .. */ dirp = LFS_NEXTDIR(fs, dirp); lfs_dir_setino(fs, dirp, parent); lfs_dir_setreclen(fs, dirp, LFS_DIRBLKSIZ - LFS_DIRECTSIZ(fs, 1)); lfs_dir_settype(fs, dirp, LFS_DT_DIR); lfs_dir_setnamlen(fs, dirp, 2); lfs_copydirname(fs, lfs_dir_nameptr(fs, dirp), "..", 2, LFS_DIRBLKSIZ - LFS_DIRECTSIZ(fs, 1)); for (cp = &bp->b_data[LFS_DIRBLKSIZ]; cp < &bp->b_data[lfs_sb_getfsize(fs)]; cp += LFS_DIRBLKSIZ) { zerodirblk(cp); } VOP_BWRITE(bp); lfs_dino_setnlink(fs, dp, 2); inodirty(VTOI(vp)); if (ino == ULFS_ROOTINO) { lncntp[ino] = lfs_dino_getnlink(fs, dp); cacheino(dp, ino); return (ino); } if (statemap[parent] != DSTATE && statemap[parent] != DFOUND) { freeino(ino); return (0); } cacheino(dp, ino); statemap[ino] = statemap[parent]; if (statemap[ino] == DSTATE) { lncntp[ino] = lfs_dino_getnlink(fs, dp); lncntp[parent]++; } vp = vget(fs, parent); dp = VTOD(vp); lfs_dino_setnlink(fs, dp, lfs_dino_getnlink(fs, dp) + 1); inodirty(VTOI(vp)); return (ino); }
void pass2(void) { struct ext2fs_dinode *dp; struct inoinfo **inpp, *inp; struct inoinfo **inpend; struct inodesc curino; struct ext2fs_dinode dino; char pathbuf[MAXPATHLEN + 1]; switch (statemap[EXT2_ROOTINO]) { case USTATE: pfatal("ROOT INODE UNALLOCATED"); if (reply("ALLOCATE") == 0) errexit("%s\n", ""); if (allocdir(EXT2_ROOTINO, EXT2_ROOTINO, 0755) != EXT2_ROOTINO) errexit("CANNOT ALLOCATE ROOT INODE\n"); break; case DCLEAR: pfatal("DUPS/BAD IN ROOT INODE"); if (reply("REALLOCATE")) { freeino(EXT2_ROOTINO); if (allocdir(EXT2_ROOTINO, EXT2_ROOTINO, 0755) != EXT2_ROOTINO) errexit("CANNOT ALLOCATE ROOT INODE\n"); break; } if (reply("CONTINUE") == 0) errexit("%s\n", ""); break; case FSTATE: case FCLEAR: pfatal("ROOT INODE NOT DIRECTORY"); if (reply("REALLOCATE")) { freeino(EXT2_ROOTINO); if (allocdir(EXT2_ROOTINO, EXT2_ROOTINO, 0755) != EXT2_ROOTINO) errexit("CANNOT ALLOCATE ROOT INODE\n"); break; } if (reply("FIX") == 0) errexit("%s\n", ""); dp = ginode(EXT2_ROOTINO); dp->e2di_mode = htole16((letoh16(dp->e2di_mode) & ~IFMT) | IFDIR); inodirty(); break; case DSTATE: break; default: errexit("BAD STATE %d FOR ROOT INODE\n", statemap[EXT2_ROOTINO]); } /* * Sort the directory list into disk block order. */ qsort((char *)inpsort, (size_t)inplast, sizeof *inpsort, blksort); /* * Check the integrity of each directory. */ memset(&curino, 0, sizeof(struct inodesc)); curino.id_type = DATA; curino.id_func = pass2check; inpend = &inpsort[inplast]; for (inpp = inpsort; inpp < inpend; inpp++) { inp = *inpp; if (inp->i_isize == 0) continue; if (inp->i_isize < MINDIRSIZE) { direrror(inp->i_number, "DIRECTORY TOO SHORT"); inp->i_isize = roundup(MINDIRSIZE, sblock.e2fs_bsize); if (reply("FIX") == 1) { dp = ginode(inp->i_number); inossize(dp, inp->i_isize); inodirty(); } } else if ((inp->i_isize & (sblock.e2fs_bsize - 1)) != 0) { getpathname(pathbuf, sizeof pathbuf, inp->i_number, inp->i_number); pwarn("DIRECTORY %s: LENGTH %lu NOT MULTIPLE OF %d", pathbuf, (u_long)inp->i_isize, sblock.e2fs_bsize); if (preen) printf(" (ADJUSTED)\n"); inp->i_isize = roundup(inp->i_isize, sblock.e2fs_bsize); if (preen || reply("ADJUST") == 1) { dp = ginode(inp->i_number); inossize(dp, inp->i_isize); inodirty(); } } memset(&dino, 0, sizeof(struct ext2fs_dinode)); dino.e2di_mode = htole16(IFDIR); inossize(&dino, inp->i_isize); memcpy(&dino.e2di_blocks[0], &inp->i_blks[0], (size_t)inp->i_numblks); curino.id_number = inp->i_number; curino.id_parent = inp->i_parent; (void)ckinode(&dino, &curino); } /* * Now that the parents of all directories have been found, * make another pass to verify the value of `..' */ for (inpp = inpsort; inpp < inpend; inpp++) { inp = *inpp; if (inp->i_parent == 0 || inp->i_isize == 0) continue; if (inp->i_dotdot == inp->i_parent || inp->i_dotdot == (ino_t)-1) continue; if (inp->i_dotdot == 0) { inp->i_dotdot = inp->i_parent; fileerror(inp->i_parent, inp->i_number, "MISSING '..'"); if (reply("FIX") == 0) continue; (void)makeentry(inp->i_number, inp->i_parent, ".."); lncntp[inp->i_parent]--; continue; } fileerror(inp->i_parent, inp->i_number, "BAD INODE NUMBER FOR '..'"); if (reply("FIX") == 0) continue; lncntp[inp->i_dotdot]++; lncntp[inp->i_parent]--; inp->i_dotdot = inp->i_parent; (void)changeino(inp->i_number, "..", inp->i_parent); } /* * Mark all the directories that can be found from the root. */ propagate(); }
void pass2(void) { struct ufs1_dinode *dp; struct inoinfo **inpp, *inp; struct inoinfo **inpend; struct inodesc curino; struct ufs1_dinode dino; char pathbuf[MAXPATHLEN + 1]; long i, n; switch (inoinfo(ROOTINO)->ino_state) { case USTATE: pfatal("ROOT INODE UNALLOCATED"); if (reply("ALLOCATE") == 0) { ckfini(0); exit(EEXIT); } if (allocdir(ROOTINO, ROOTINO, 0755) != ROOTINO) errx(EEXIT, "CANNOT ALLOCATE ROOT INODE"); break; case DCLEAR: pfatal("DUPS/BAD IN ROOT INODE"); if (reply("REALLOCATE")) { freeino(ROOTINO); if (allocdir(ROOTINO, ROOTINO, 0755) != ROOTINO) errx(EEXIT, "CANNOT ALLOCATE ROOT INODE"); break; } if (reply("CONTINUE") == 0) { ckfini(0); exit(EEXIT); } break; case FSTATE: case FCLEAR: pfatal("ROOT INODE NOT DIRECTORY"); if (reply("REALLOCATE")) { freeino(ROOTINO); if (allocdir(ROOTINO, ROOTINO, 0755) != ROOTINO) errx(EEXIT, "CANNOT ALLOCATE ROOT INODE"); break; } if (reply("FIX") == 0) { ckfini(0); exit(EEXIT); } dp = ginode(ROOTINO); dp->di_mode &= ~IFMT; dp->di_mode |= IFDIR; inodirty(); break; case DSTATE: break; default: errx(EEXIT, "BAD STATE %d FOR ROOT INODE", inoinfo(ROOTINO)->ino_state); } inoinfo(ROOTINO)->ino_state = DFOUND; if (newinofmt) { inoinfo(WINO)->ino_state = FSTATE; inoinfo(WINO)->ino_type = DT_WHT; } /* * Sort the directory list into disk block order. Do this in blocks * of 1000 directories in order to maintain locality of reference * in memory in case fsck is using swap space. */ for (i = 0; i < inplast; i += 1000) { if ((n = inplast - i) > 1000) n = 1000; qsort(inpsort + i, (size_t)n, sizeof *inpsort, blksort); } /* * Check the integrity of each directory. */ memset(&curino, 0, sizeof(struct inodesc)); curino.id_type = DATA; curino.id_func = pass2check; dp = &dino; inpend = &inpsort[inplast]; for (inpp = inpsort; inpp < inpend; inpp++) { if (got_siginfo) { printf("%s: phase 2: dir %d of %ld (%d%%)\n", cdevname, inpp - inpsort, inplast, (int)((inpp - inpsort) * 100 / inplast)); got_siginfo = 0; } inp = *inpp; if (inp->i_isize == 0) continue; if (inp->i_isize < MINDIRSIZE) { direrror(inp->i_number, "DIRECTORY TOO SHORT"); inp->i_isize = roundup(MINDIRSIZE, DIRBLKSIZ); if (reply("FIX") == 1) { dp = ginode(inp->i_number); dp->di_size = inp->i_isize; inodirty(); dp = &dino; } } else if ((inp->i_isize & (DIRBLKSIZ - 1)) != 0) { getpathname(pathbuf, inp->i_number, inp->i_number); if (usedsoftdep) pfatal("%s %s: LENGTH %d NOT MULTIPLE OF %d", "DIRECTORY", pathbuf, inp->i_isize, DIRBLKSIZ); else pwarn("%s %s: LENGTH %d NOT MULTIPLE OF %d", "DIRECTORY", pathbuf, inp->i_isize, DIRBLKSIZ); if (preen) printf(" (ADJUSTED)\n"); inp->i_isize = roundup(inp->i_isize, DIRBLKSIZ); if (preen || reply("ADJUST") == 1) { dp = ginode(inp->i_number); dp->di_size = roundup(inp->i_isize, DIRBLKSIZ); inodirty(); dp = &dino; } } memset(&dino, 0, sizeof(struct ufs1_dinode)); dino.di_mode = IFDIR; dp->di_size = inp->i_isize; memmove(&dp->di_db[0], &inp->i_blks[0], (size_t)inp->i_numblks); curino.id_number = inp->i_number; curino.id_parent = inp->i_parent; ckinode(dp, &curino); } /* * Now that the parents of all directories have been found, * make another pass to verify the value of `..' */ for (inpp = inpsort; inpp < inpend; inpp++) { inp = *inpp; if (inp->i_parent == 0 || inp->i_isize == 0) continue; if (inoinfo(inp->i_parent)->ino_state == DFOUND && inoinfo(inp->i_number)->ino_state == DSTATE) inoinfo(inp->i_number)->ino_state = DFOUND; if (inp->i_dotdot == inp->i_parent || inp->i_dotdot == (ufs1_ino_t)-1) continue; if (inp->i_dotdot == 0) { inp->i_dotdot = inp->i_parent; fileerror(inp->i_parent, inp->i_number, "MISSING '..'"); if (reply("FIX") == 0) continue; makeentry(inp->i_number, inp->i_parent, ".."); inoinfo(inp->i_parent)->ino_linkcnt--; continue; } fileerror(inp->i_parent, inp->i_number, "BAD INODE NUMBER FOR '..'"); if (reply("FIX") == 0) continue; inoinfo(inp->i_dotdot)->ino_linkcnt++; inoinfo(inp->i_parent)->ino_linkcnt--; inp->i_dotdot = inp->i_parent; changeino(inp->i_number, "..", inp->i_parent); } /* * Mark all the directories that can be found from the root. */ propagate(); }
pass2() { register DINODE *dp; struct inodesc rootdesc; bzero((char *)&rootdesc, sizeof(struct inodesc)); rootdesc.id_type = ADDR; rootdesc.id_func = pass2check; rootdesc.id_number = ROOTINO; pathp = pathname; switch (statemap[ROOTINO]) { case USTATE: pfatal("ROOT INODE UNALLOCATED"); if (reply("ALLOCATE") == 0) errexit(""); if (allocdir(ROOTINO, ROOTINO) != ROOTINO) errexit("CANNOT ALLOCATE ROOT INODE\n"); descend(&rootdesc, ROOTINO); break; case DCLEAR: pfatal("DUPS/BAD IN ROOT INODE"); if (reply("REALLOCATE")) { freeino(ROOTINO); if (allocdir(ROOTINO, ROOTINO) != ROOTINO) errexit("CANNOT ALLOCATE ROOT INODE\n"); descend(&rootdesc, ROOTINO); break; } if (reply("CONTINUE") == 0) errexit(""); statemap[ROOTINO] = DSTATE; descend(&rootdesc, ROOTINO); break; case FSTATE: case FCLEAR: pfatal("ROOT INODE NOT DIRECTORY"); if (reply("REALLOCATE")) { freeino(ROOTINO); if (allocdir(ROOTINO, ROOTINO) != ROOTINO) errexit("CANNOT ALLOCATE ROOT INODE\n"); descend(&rootdesc, ROOTINO); break; } if (reply("FIX") == 0) errexit(""); dp = ginode(ROOTINO); dp->di_mode &= ~IFMT; dp->di_mode |= IFDIR; inodirty(); statemap[ROOTINO] = DSTATE; /* fall into ... */ case DSTATE: descend(&rootdesc, ROOTINO); break; default: errexit("BAD STATE %d FOR ROOT INODE", statemap[ROOTINO]); } }
/* * Perform checks on an inode and setup/track the state of the inode * in maps (statemap[], lncntp[]) for future reference and validation. * Initiate the calls to ckinode and in turn pass1check() to handle * further validation. */ static void verify_inode(fsck_ino_t inumber, struct inodesc *idesc, fsck_ino_t maxinumber) { int j, clear, flags; int isdir; char *err; fsck_ino_t shadow, attrinode; daddr32_t ndb; struct dinode *dp; struct inoinfo *iip; dp = getnextinode(inumber); if ((dp->di_mode & IFMT) == 0) { /* mode and type of file is not set */ if ((memcmp((void *)dp->di_db, (void *)zino.di_db, NDADDR * sizeof (daddr32_t)) != 0) || (memcmp((void *)dp->di_ib, (void *)zino.di_ib, NIADDR * sizeof (daddr32_t)) != 0) || (dp->di_mode != 0) || (dp->di_size != 0)) { pfatal("PARTIALLY ALLOCATED INODE I=%u", inumber); if (reply("CLEAR") == 1) { dp = ginode(inumber); clearinode(dp); inodirty(); } else { iscorrupt = 1; } } statemap[inumber] = USTATE; return; } isdir = ((dp->di_mode & IFMT) == IFDIR) || ((dp->di_mode & IFMT) == IFATTRDIR); lastino = inumber; if (dp->di_size > (u_offset_t)UFS_MAXOFFSET_T) { pfatal("NEGATIVE SIZE %lld I=%d", (longlong_t)dp->di_size, inumber); goto bogus; } /* * A more precise test of the type is done later on. Just get * rid of the blatantly-wrong ones before we do any * significant work. */ if ((dp->di_mode & IFMT) == IFMT) { pfatal("BAD MODE 0%o I=%d", dp->di_mode & IFMT, inumber); if (reply("BAD MODE: MAKE IT A FILE") == 1) { statemap[inumber] = FSTATE; dp = ginode(inumber); dp->di_mode = IFREG | 0600; inodirty(); truncino(inumber, sblock.fs_fsize, TI_NOPARENT); dp = getnextrefresh(); } else { iscorrupt = 1; } } ndb = howmany(dp->di_size, (u_offset_t)sblock.fs_bsize); if (ndb < 0) { /* extra space to distinguish from previous pfatal() */ pfatal("NEGATIVE SIZE %lld I=%d", (longlong_t)dp->di_size, inumber); goto bogus; } if ((dp->di_mode & IFMT) == IFBLK || (dp->di_mode & IFMT) == IFCHR) { if (dp->di_size != 0) { pfatal("SPECIAL FILE WITH NON-ZERO LENGTH %lld I=%d", (longlong_t)dp->di_size, inumber); goto bogus; } for (j = 0; j < NDADDR; j++) { /* * It's a device, so all the block pointers * should be zero except for di_ordev. * di_ordev is overlayed on the block array, * but where varies between big and little * endian, so make sure that the only non-zero * element is the correct one. There can be * a device whose ordev is zero, so we can't * check for the reverse. */ if (dp->di_db[j] != 0 && &dp->di_db[j] != &dp->di_ordev) { if (debug) { (void) printf( "spec file di_db[%d] has %d\n", j, dp->di_db[j]); } pfatal( "SPECIAL FILE WITH NON-ZERO FRAGMENT LIST I=%d", inumber); goto bogus; } } for (j = 0; j < NIADDR; j++) { if (dp->di_ib[j] != 0) { if (debug) (void) printf( "special has %d at ib[%d]\n", dp->di_ib[j], j); pfatal( "SPECIAL FILE WITH NON-ZERO FRAGMENT LIST I=%d", inumber); goto bogus; } } } else { /* * This assignment is mostly here to appease lint, but * doesn't hurt. */ err = "Internal error: unexpected variant of having " "blocks past end of file I=%d"; clear = 0; /* * If it's not a device, it has to follow the * rules for files. In particular, no blocks after * the last one that di_size says is in use. */ for (j = ndb; j < NDADDR; j++) { if (dp->di_db[j] != 0) { if (debug) { (void) printf("bad file direct " "addr[%d]: block 0x%x " "format: 0%o\n", j, dp->di_db[j], dp->di_mode & IFMT); } err = "FILE WITH FRAGMENTS PAST END I=%d"; clear = 1; break; } } /* * Find last indirect pointer that should be in use, * and make sure any after it are clear. */ if (!clear) { for (j = 0, ndb -= NDADDR; ndb > 0; j++) { ndb /= NINDIR(&sblock); } for (; j < NIADDR; j++) { if (dp->di_ib[j] != 0) { if (debug) { (void) printf("bad file " "indirect addr: block %d\n", dp->di_ib[j]); } err = "FILE WITH FRAGMENTS PAST END I=%d"; clear = 2; break; } } } if (clear) { /* * The discarded blocks will be garbage- * collected in pass5. If we're told not to * discard them, it's just lost blocks, which * isn't worth setting iscorrupt for. */ pwarn(err, inumber); if (preen || reply("DISCARD EXCESS FRAGMENTS") == 1) { dp = ginode(inumber); if (clear == 1) { for (; j < NDADDR; j++) dp->di_db[j] = 0; j = 0; } for (; j < NIADDR; j++) dp->di_ib[j] = 0; inodirty(); dp = getnextrefresh(); if (preen) (void) printf(" (TRUNCATED)"); } } } if (ftypeok(dp) == 0) { pfatal("UNKNOWN FILE TYPE 0%o I=%d", dp->di_mode, inumber); goto bogus; } n_files++; TRACK_LNCNTP(inumber, lncntp[inumber] = dp->di_nlink); /* * We can't do anything about it right now, so note that its * processing is being delayed. Otherwise, we'd be changing * the block allocations out from under ourselves, which causes * no end of confusion. */ flags = statemap[inumber] & INDELAYD; /* * if errorlocked or logging, then open deleted files will * manifest as di_nlink <= 0 and di_mode != 0 * so skip them; they're ok. * Also skip anything already marked to be cleared. */ if (dp->di_nlink <= 0 && !((errorlocked || islog) && dp->di_mode == 0) && !(flags & INCLEAR)) { flags |= INZLINK; if (debug) (void) printf( "marking i=%d INZLINK; nlink %d, mode 0%o, islog %d\n", inumber, dp->di_nlink, dp->di_mode, islog); } switch (dp->di_mode & IFMT) { case IFDIR: case IFATTRDIR: if (dp->di_size == 0) { /* * INCLEAR means it will be ignored by passes 2 & 3. */ if ((dp->di_mode & IFMT) == IFDIR) (void) printf("ZERO-LENGTH DIR I=%d\n", inumber); else (void) printf("ZERO-LENGTH ATTRDIR I=%d\n", inumber); add_orphan_dir(inumber); flags |= INCLEAR; flags &= ~INZLINK; /* It will be cleared anyway */ } statemap[inumber] = DSTATE | flags; cacheino(dp, inumber); countdirs++; break; case IFSHAD: if (dp->di_size == 0) { (void) printf("ZERO-LENGTH SHADOW I=%d\n", inumber); flags |= INCLEAR; flags &= ~INZLINK; /* It will be cleared anyway */ } statemap[inumber] = SSTATE | flags; cacheacl(dp, inumber); break; default: statemap[inumber] = FSTATE | flags; } badblk = 0; dupblk = 0; idesc->id_number = inumber; idesc->id_fix = DONTKNOW; if (dp->di_size > (u_offset_t)MAXOFF_T) { largefile_count++; } (void) ckinode(dp, idesc, CKI_TRAVERSE); if (isdir && (idesc->id_firsthole >= 0)) check_dirholes(inumber, idesc); if (dp->di_blocks != idesc->id_entryno) { /* * The kernel releases any blocks it finds in the lists, * ignoring the block count itself. So, a bad count is * not grounds for setting iscorrupt. */ pwarn("INCORRECT DISK BLOCK COUNT I=%u (%d should be %d)", inumber, (uint32_t)dp->di_blocks, idesc->id_entryno); if (!preen && (reply("CORRECT") == 0)) return; dp = ginode(inumber); dp->di_blocks = idesc->id_entryno; iip = getinoinfo(inumber); if (iip != NULL) iip->i_isize = dp->di_size; inodirty(); if (preen) (void) printf(" (CORRECTED)\n"); } if (isdir && (dp->di_blocks == 0)) { /* * INCLEAR will cause passes 2 and 3 to skip it. */ (void) printf("DIR WITH ZERO BLOCKS I=%d\n", inumber); statemap[inumber] = DCLEAR; add_orphan_dir(inumber); } /* * Check that the ACL is on a valid file type */ shadow = dp->di_shadow; if (shadow != 0) { if (acltypeok(dp) == 0) { clear_attr_acl(inumber, -1, "NON-ZERO ACL REFERENCE, I=%d\n"); } else if ((shadow <= UFSROOTINO) || (shadow > maxinumber)) { clear_attr_acl(inumber, -1, "BAD ACL REFERENCE I=%d\n"); } else { registershadowclient(shadow, inumber, &shadowclientinfo); } } attrinode = dp->di_oeftflag; if (attrinode != 0) { if ((attrinode <= UFSROOTINO) || (attrinode > maxinumber)) { clear_attr_acl(attrinode, inumber, "BAD ATTRIBUTE REFERENCE TO I=%d FROM I=%d\n"); } else { dp = ginode(attrinode); if ((dp->di_mode & IFMT) != IFATTRDIR) { clear_attr_acl(attrinode, inumber, "BAD ATTRIBUTE DIR REF TO I=%d FROM I=%d\n"); } else if (dp->di_size == 0) { clear_attr_acl(attrinode, inumber, "REFERENCE TO ZERO-LENGTH ATTRIBUTE DIR I=%d from I=%d\n"); } else { registershadowclient(attrinode, inumber, &attrclientinfo); } } } return; /* * If we got here, we've not had the chance to see if a * directory has holes, but we know the directory's bad, * so it's safe to always return false (no holes found). * * Also, a pfatal() is always done before jumping here, so * we know we're not in preen mode. */ bogus: if (isdir) { /* * INCLEAR makes passes 2 & 3 skip it. */ statemap[inumber] = DCLEAR; add_orphan_dir(inumber); cacheino(dp, inumber); } else { statemap[inumber] = FCLEAR; } if (reply("CLEAR") == 1) { (void) tdelete((void *)inumber, &limbo_dirs, ino_t_cmp); freeino(inumber, TI_PARENT); inodirty(); } else { iscorrupt = 1; } }