/* $NetBSD: pass6.c,v 1.20 2007/10/10 20:42:20 ad Exp $ */ /*- * Copyright (c) 2003 The NetBSD Foundation, Inc. * All rights reserved. * * This code is derived from software contributed to The NetBSD Foundation * by Konrad E. Schroder . * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by the NetBSD * Foundation, Inc. and its contributors. * 4. Neither the name of The NetBSD Foundation nor the names of its * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include #include #include #include #include #include #include #include #define vnode uvnode #include #undef vnode #include #include #include #include #include #include #include #include "bufcache.h" #include "vnode.h" #include "lfs_user.h" #include "segwrite.h" #include "fsck.h" #include "extern.h" #include "fsutil.h" extern u_int32_t cksum(void *, size_t); extern u_int32_t lfs_sb_cksum(struct dlfs *); extern ufs_daddr_t badblk; extern SEGUSE *seg_table; static int nnewblocks; /* * Our own copy of lfs_update_single so we can account in seg_table * as well as the Ifile; and so we can add the blocks to their new * segment. * * Change the given block's address to ndaddr, finding its previous * location using ufs_bmaparray(). * * Account for this change in the segment table. */ static void rfw_update_single(struct uvnode *vp, daddr_t lbn, ufs_daddr_t ndaddr, int size) { SEGUSE *sup; struct ubuf *bp; struct indir a[NIADDR + 2], *ap; struct inode *ip; daddr_t daddr, ooff; int num, error; int i, bb, osize = 0, obb = 0; u_int32_t oldsn, sn; ip = VTOI(vp); ip->i_flag |= IN_MODIFIED; error = ufs_bmaparray(fs, vp, lbn, &daddr, a, &num); if (error) errx(1, "lfs_updatemeta: ufs_bmaparray returned %d" " looking up lbn %" PRId64 "\n", error, lbn); if (daddr > 0) daddr = dbtofsb(fs, daddr); bb = fragstofsb(fs, numfrags(fs, size)); switch (num) { case 0: ooff = ip->i_ffs1_db[lbn]; if (ooff <= 0) ip->i_ffs1_blocks += bb; else { /* possible fragment truncation or extension */ obb = btofsb(fs, ip->i_lfs_fragsize[lbn]); ip->i_ffs1_blocks += (bb - obb); } ip->i_ffs1_db[lbn] = ndaddr; break; case 1: ooff = ip->i_ffs1_ib[a[0].in_off]; if (ooff <= 0) ip->i_ffs1_blocks += bb; ip->i_ffs1_ib[a[0].in_off] = ndaddr; break; default: ap = &a[num - 1]; if (bread(vp, ap->in_lbn, fs->lfs_bsize, NULL, &bp)) errx(1, "lfs_updatemeta: bread bno %" PRId64, ap->in_lbn); ooff = ((ufs_daddr_t *) bp->b_data)[ap->in_off]; if (ooff <= 0) ip->i_ffs1_blocks += bb; ((ufs_daddr_t *) bp->b_data)[ap->in_off] = ndaddr; (void) VOP_BWRITE(bp); } /* * Update segment usage information, based on old size * and location. */ if (daddr > 0) { oldsn = dtosn(fs, daddr); if (lbn >= 0 && lbn < NDADDR) osize = ip->i_lfs_fragsize[lbn]; else osize = fs->lfs_bsize; LFS_SEGENTRY(sup, fs, oldsn, bp); seg_table[oldsn].su_nbytes -= osize; sup->su_nbytes -= osize; if (!(bp->b_flags & B_GATHERED)) fs->lfs_flags |= LFS_IFDIRTY; LFS_WRITESEGENTRY(sup, fs, oldsn, bp); for (i = 0; i < btofsb(fs, osize); i++) clrbmap(daddr + i); } /* If block is beyond EOF, update size */ if (lbn >= 0 && ip->i_ffs1_size <= (lbn << fs->lfs_bshift)) { ip->i_ffs1_size = (lbn << fs->lfs_bshift) + 1; } /* If block frag size is too large for old EOF, update size */ if (lbn < NDADDR) { off_t minsize; minsize = (lbn << fs->lfs_bshift); minsize += (size - fs->lfs_fsize) + 1; if (ip->i_ffs1_size < minsize) ip->i_ffs1_size = minsize; } /* Count for the user */ ++nnewblocks; /* Add block to its new segment */ sn = dtosn(fs, ndaddr); LFS_SEGENTRY(sup, fs, sn, bp); seg_table[sn].su_nbytes += size; sup->su_nbytes += size; if (!(bp->b_flags & B_GATHERED)) fs->lfs_flags |= LFS_IFDIRTY; LFS_WRITESEGENTRY(sup, fs, sn, bp); for (i = 0; i < btofsb(fs, size); i++) #ifndef VERBOSE_BLOCKMAP setbmap(daddr + i); #else setbmap(daddr + i, ip->i_number); #endif /* Check bfree accounting as well */ if (daddr <= 0) { fs->lfs_bfree -= btofsb(fs, size); } else if (size != osize) { fs->lfs_bfree -= (bb - obb); } /* * Now that this block has a new address, and its old * segment no longer owns it, we can forget about its * old size. */ if (lbn >= 0 && lbn < NDADDR) ip->i_lfs_fragsize[lbn] = size; } /* * Remove the vnode from the cache, including any blocks it * may hold. Account the blocks. Finally account the removal * of the inode from its segment. */ static void remove_ino(struct uvnode *vp, ino_t ino) { IFILE *ifp; SEGUSE *sup; CLEANERINFO *cip; struct ubuf *bp, *sbp, *cbp; struct inodesc idesc; ufs_daddr_t daddr; int obfree; if (debug) pwarn("remove ino %d\n", (int)ino); obfree = fs->lfs_bfree; LFS_IENTRY(ifp, fs, ino, bp); daddr = ifp->if_daddr; if (daddr > 0) { ifp->if_daddr = 0x0; LFS_GET_HEADFREE(fs, cip, cbp, &(ifp->if_nextfree)); VOP_BWRITE(bp); LFS_PUT_HEADFREE(fs, cip, cbp, ino); sbdirty(); if (vp == NULL) vp = lfs_raw_vget(fs, ino, fs->lfs_ivnode->v_fd, daddr); LFS_SEGENTRY(sup, fs, dtosn(fs, daddr), sbp); sup->su_nbytes -= DINODE1_SIZE; VOP_BWRITE(sbp); seg_table[dtosn(fs, daddr)].su_nbytes -= DINODE1_SIZE; } else brelse(bp, 0); /* Do on-disk accounting */ if (vp) { idesc.id_number = ino; idesc.id_func = pass4check; /* Delete dinode and blocks */ idesc.id_type = ADDR; idesc.id_lblkno = 0; clri(&idesc, "unknown", 2); /* XXX magic number 2 */ /* vp has been destroyed */ } } /* * Use FIP records to update blocks, if the generation number matches. */ static void pass6harvest(ufs_daddr_t daddr, FINFO *fip) { struct uvnode *vp; int i; size_t size; vp = vget(fs, fip->fi_ino); if (vp && vp != fs->lfs_ivnode && VTOI(vp)->i_ffs1_gen == fip->fi_version) { for (i = 0; i < fip->fi_nblocks; i++) { size = (i == fip->fi_nblocks - 1 ? fip->fi_lastlength : fs->lfs_bsize); if (debug) pwarn("ino %lld lbn %lld -> 0x%lx\n", (long long)fip->fi_ino, (long long)fip->fi_blocks[i], (long)daddr); rfw_update_single(vp, fip->fi_blocks[i], daddr, size); daddr += btofsb(fs, size); } } } /* * Check validity of blocks on roll-forward inodes. */ int pass6check(struct inodesc * idesc) { int i, sn, anyout, anynew; /* Brand new blocks are always OK */ if (idesc->id_blkno == UNWRITTEN) return KEEPON; /* Check that the blocks do not lie within clean segments. */ anyout = anynew = 0; for (i = 0; i < fragstofsb(fs, idesc->id_numfrags); i++) { sn = dtosn(fs, idesc->id_blkno + i); if (sn < 0 || sn >= fs->lfs_nseg || (seg_table[sn].su_flags & SEGUSE_DIRTY) == 0) { anyout = 1; break; } if (seg_table[sn].su_flags & SEGUSE_ACTIVE) { if (sn != dtosn(fs, fs->lfs_offset) || idesc->id_blkno > fs->lfs_offset) { ++anynew; } } if (!anynew) { /* Clear so pass1check won't be surprised */ clrbmap(idesc->id_blkno + i); seg_table[sn].su_nbytes -= fsbtob(fs, 1); } } if (anyout) { blkerror(idesc->id_number, "BAD", idesc->id_blkno); if (badblk++ >= MAXBAD) { pwarn("EXCESSIVE BAD BLKS I=%llu", (unsigned long long)idesc->id_number); if (preen) pwarn(" (SKIPPING)\n"); else if (reply("CONTINUE") == 0) err(EEXIT, "%s", ""); return (STOP); } } return pass1check(idesc); } static void account_indir(struct uvnode *vp, struct ufs1_dinode *dp, daddr_t ilbn, daddr_t daddr, int lvl) { struct ubuf *bp; int32_t *dap, *odap, *buf, *obuf; daddr_t lbn; if (lvl == 0) lbn = -ilbn; else lbn = ilbn + 1; bread(fs->lfs_devvp, fsbtodb(fs, daddr), fs->lfs_bsize, NULL, &bp); buf = emalloc(fs->lfs_bsize); memcpy(buf, bp->b_data, fs->lfs_bsize); brelse(bp, 0); obuf = emalloc(fs->lfs_bsize); if (vp) { bread(vp, ilbn, fs->lfs_bsize, NULL, &bp); memcpy(obuf, bp->b_data, fs->lfs_bsize); brelse(bp, 0); } else memset(obuf, 0, fs->lfs_bsize); for (dap = buf, odap = obuf; dap < (int32_t *)((char *)buf + fs->lfs_bsize); ++dap, ++odap) { if (*dap > 0 && *dap != *odap) { rfw_update_single(vp, lbn, *dap, dblksize(fs, dp, lbn)); if (lvl > 0) account_indir(vp, dp, lbn, *dap, lvl - 1); } if (lvl == 0) ++lbn; else if (lvl == 1) lbn -= NINDIR(fs); else if (lvl == 2) lbn -= NINDIR(fs) * NINDIR(fs); } free(obuf); free(buf); } /* * Account block changes between new found inode and existing inode. */ static void account_block_changes(struct ufs1_dinode *dp) { int i; daddr_t lbn, off, odaddr; struct uvnode *vp; struct inode *ip; vp = vget(fs, dp->di_inumber); ip = (vp ? VTOI(vp) : NULL); /* Check direct block holdings between existing and new */ for (i = 0; i < NDADDR; i++) { odaddr = (ip ? ip->i_ffs1_db[i] : 0x0); if (dp->di_db[i] > 0 && dp->di_db[i] != odaddr) rfw_update_single(vp, i, dp->di_db[i], dblksize(fs, dp, i)); } /* Check indirect block holdings between existing and new */ off = 0; for (i = 0; i < NIADDR; i++) { odaddr = (ip ? ip->i_ffs1_ib[i] : 0x0); if (dp->di_ib[i] > 0 && dp->di_ib[i] != odaddr) { lbn = -(NDADDR + off + i); rfw_update_single(vp, i, dp->di_ib[i], fs->lfs_bsize); account_indir(vp, dp, lbn, dp->di_ib[i], i); } if (off == 0) off = NINDIR(fs); else off *= NINDIR(fs); } } /* * Give a previously allocated inode a new address; do segment * accounting if necessary. * * Caller has ensured that this inode is not on the free list, so no * free list accounting is done. */ static void readdress_inode(struct ufs1_dinode *dp, ufs_daddr_t daddr) { IFILE *ifp; SEGUSE *sup; struct ubuf *bp; int sn; ufs_daddr_t odaddr; ino_t thisino = dp->di_inumber; struct uvnode *vp; /* Recursively check all block holdings, account changes */ account_block_changes(dp); /* Move ifile pointer to this location */ LFS_IENTRY(ifp, fs, thisino, bp); odaddr = ifp->if_daddr; assert(odaddr != 0); ifp->if_daddr = daddr; VOP_BWRITE(bp); if (debug) pwarn("readdress ino %d from 0x%x to 0x%x mode %o nlink %d\n", (int)dp->di_inumber, (unsigned)odaddr, (unsigned)daddr, (int)dp->di_mode, (int)dp->di_nlink); /* Copy over preexisting in-core inode, if any */ vp = vget(fs, thisino); memcpy(VTOI(vp)->i_din.ffs1_din, dp, sizeof(*dp)); /* Finally account the inode itself */ sn = dtosn(fs, odaddr); LFS_SEGENTRY(sup, fs, sn, bp); sup->su_nbytes -= DINODE1_SIZE; VOP_BWRITE(bp); seg_table[sn].su_nbytes -= DINODE1_SIZE; sn = dtosn(fs, daddr); LFS_SEGENTRY(sup, fs, sn, bp); sup->su_nbytes += DINODE1_SIZE; VOP_BWRITE(bp); seg_table[sn].su_nbytes += DINODE1_SIZE; } /* * Allocate the given inode from the free list. */ static void alloc_inode(ino_t thisino, ufs_daddr_t daddr) { ino_t ino, nextfree, oldhead; IFILE *ifp; SEGUSE *sup; struct ubuf *bp, *cbp; CLEANERINFO *cip; if (debug) pwarn("allocating ino %d at 0x%x\n", (int)thisino, (unsigned)daddr); while (thisino >= maxino) { extend_ifile(fs); } LFS_IENTRY(ifp, fs, thisino, bp); if (ifp->if_daddr != 0) { pwarn("allocated inode %lld already allocated\n", (long long)thisino); } nextfree = ifp->if_nextfree; ifp->if_nextfree = 0; ifp->if_daddr = daddr; VOP_BWRITE(bp); LFS_GET_HEADFREE(fs, cip, cbp, &oldhead); if (oldhead == thisino) { LFS_PUT_HEADFREE(fs, cip, cbp, nextfree); sbdirty(); if (nextfree == 0) { extend_ifile(fs); } } else { /* Search the free list for this inode */ ino = oldhead; while (ino) { LFS_IENTRY(ifp, fs, ino, bp); assert(ifp->if_nextfree != ino); if (ifp->if_nextfree == thisino) { ifp->if_nextfree = nextfree; VOP_BWRITE(bp); if (nextfree == 0) LFS_PUT_TAILFREE(fs, cip, cbp, ino); break; } else ino = ifp->if_nextfree; brelse(bp, 0); } } /* Account for new location */ LFS_SEGENTRY(sup, fs, dtosn(fs, daddr), bp); sup->su_nbytes += DINODE1_SIZE; VOP_BWRITE(bp); seg_table[dtosn(fs, daddr)].su_nbytes += DINODE1_SIZE; } /* * Roll forward from the last verified checkpoint. * * Basic strategy: * * Run through the summaries finding the last valid partial segment. * Note segment numbers as we go. For each inode that we find, compare * its generation number; if newer than old inode's (or if old inode is * USTATE), change to that inode. Recursively look at inode blocks that * do not have their old disk addresses. These addresses must lie in * segments we have seen already in our roll forward. * * A second pass through the past-checkpoint area verifies the validity * of these new blocks, as well as updating other blocks that do not * have corresponding new inodes (but their generation number must match * the old generation number). */ void pass6(void) { ufs_daddr_t daddr, ibdaddr, odaddr, lastgood, nextseg, *idaddrp; struct uvnode *vp, *devvp; CLEANERINFO *cip; SEGUSE *sup; SEGSUM *sp; struct ubuf *bp, *ibp, *sbp, *cbp; struct ufs1_dinode *dp; struct inodesc idesc; int i, j, bc, hassuper; int nnewfiles, ndelfiles, nmvfiles; int sn, curseg; char *ibbuf; long lastserial; devvp = fs->lfs_devvp; /* If we can't roll forward because of created files, don't try */ if (no_roll_forward) { if (debug) pwarn("not rolling forward due to possible allocation conflict\n"); return; } /* Find last valid partial segment */ lastgood = try_verify(fs, devvp, 0, debug); if (lastgood == fs->lfs_offset) { if (debug) pwarn("not rolling forward, nothing to recover\n"); return; } if (debug) pwarn("could roll forward from 0x%" PRIx32 " to 0x%" PRIx32 "\n", fs->lfs_offset, lastgood); if (!preen && reply("ROLL FORWARD") == 0) return; /* * Pass 1: find inode blocks. We ignore the Ifile inode but accept * changes to any other inode. */ ibbuf = emalloc(fs->lfs_ibsize); nnewfiles = ndelfiles = nmvfiles = nnewblocks = 0; daddr = fs->lfs_offset; nextseg = fs->lfs_nextseg; hassuper = 0; lastserial = 0; while (daddr != lastgood) { seg_table[dtosn(fs, daddr)].su_flags |= SEGUSE_DIRTY | SEGUSE_ACTIVE; LFS_SEGENTRY(sup, fs, dtosn(fs, daddr), sbp); sup->su_flags |= SEGUSE_DIRTY; VOP_BWRITE(sbp); /* Could be a superblock */ if (sntod(fs, dtosn(fs, daddr)) == daddr) { if (daddr == fs->lfs_start) { ++hassuper; daddr += btofsb(fs, LFS_LABELPAD); } for (i = 0; i < LFS_MAXNUMSB; i++) { if (daddr == fs->lfs_sboffs[i]) { ++hassuper; daddr += btofsb(fs, LFS_SBPAD); } if (daddr < fs->lfs_sboffs[i]) break; } } /* Read in summary block */ bread(devvp, fsbtodb(fs, daddr), fs->lfs_sumsize, NULL, &bp); sp = (SEGSUM *)bp->b_data; if (debug) pwarn("sum at 0x%x: ninos=%d nfinfo=%d\n", (unsigned)daddr, (int)sp->ss_ninos, (int)sp->ss_nfinfo); /* We have verified that this is a good summary. */ LFS_SEGENTRY(sup, fs, dtosn(fs, daddr), sbp); ++sup->su_nsums; VOP_BWRITE(sbp); fs->lfs_bfree -= btofsb(fs, fs->lfs_sumsize); fs->lfs_dmeta += btofsb(fs, fs->lfs_sumsize); sbdirty(); nextseg = sp->ss_next; if (sntod(fs, dtosn(fs, daddr)) == daddr + hassuper * btofsb(fs, LFS_SBPAD) && dtosn(fs, daddr) != dtosn(fs, fs->lfs_offset)) { --fs->lfs_nclean; sbdirty(); } /* Find inodes, look at generation number. */ if (sp->ss_ninos) { LFS_SEGENTRY(sup, fs, dtosn(fs, daddr), sbp); sup->su_ninos += howmany(sp->ss_ninos, INOPB(fs)); VOP_BWRITE(sbp); fs->lfs_dmeta += btofsb(fs, howmany(sp->ss_ninos, INOPB(fs)) * fs->lfs_ibsize); } idaddrp = ((ufs_daddr_t *)((char *)bp->b_data + fs->lfs_sumsize)); for (i = 0; i < howmany(sp->ss_ninos, INOPB(fs)); i++) { ino_t *inums; inums = ecalloc(INOPB(fs) + 1, sizeof(*inums)); ibdaddr = *--idaddrp; fs->lfs_bfree -= btofsb(fs, fs->lfs_ibsize); sbdirty(); bread(devvp, fsbtodb(fs, ibdaddr), fs->lfs_ibsize, NOCRED, &ibp); memcpy(ibbuf, ibp->b_data, fs->lfs_ibsize); brelse(ibp, 0); j = 0; for (dp = (struct ufs1_dinode *)ibbuf; dp < (struct ufs1_dinode *)ibbuf + INOPB(fs); ++dp) { if (dp->di_u.inumber == 0 || dp->di_u.inumber == fs->lfs_ifile) continue; /* Basic sanity checks */ if (dp->di_nlink < 0 #if 0 || dp->di_u.inumber < 0 || dp->di_size < 0 #endif ) { pwarn("BAD INODE AT 0x%" PRIx32 "\n", ibdaddr); brelse(bp, 0); free(inums); goto out; } vp = vget(fs, dp->di_u.inumber); /* * Four cases: * (1) Invalid inode (nlink == 0). * If currently allocated, remove. */ if (dp->di_nlink == 0) { remove_ino(vp, dp->di_u.inumber); ++ndelfiles; continue; } /* * (2) New valid inode, previously free. * Nothing to do except account * the inode itself, done after the * loop. */ if (vp == NULL) { if (!(sp->ss_flags & SS_DIROP)) pfatal("NEW FILE IN NON-DIROP PARTIAL SEGMENT"); else { inums[j++] = dp->di_u.inumber; nnewfiles++; } continue; } /* * (3) Valid new version of previously * allocated inode. Delete old file * and proceed as in (2). */ if (vp && VTOI(vp)->i_ffs1_gen < dp->di_gen) { remove_ino(vp, dp->di_u.inumber); if (!(sp->ss_flags & SS_DIROP)) pfatal("NEW FILE VERSION IN NON-DIROP PARTIAL SEGMENT"); else { inums[j++] = dp->di_u.inumber; ndelfiles++; nnewfiles++; } continue; } /* * (4) Same version of previously * allocated inode. Move inode to * this location, account inode change * only. We'll pick up any new * blocks when we do the block pass. */ if (vp && VTOI(vp)->i_ffs1_gen == dp->di_gen) { nmvfiles++; readdress_inode(dp, ibdaddr); /* Update with new info */ VTOD(vp)->di_mode = dp->di_mode; VTOD(vp)->di_nlink = dp->di_nlink; /* XXX size is important */ VTOD(vp)->di_size = dp->di_size; VTOD(vp)->di_atime = dp->di_atime; VTOD(vp)->di_atimensec = dp->di_atimensec; VTOD(vp)->di_mtime = dp->di_mtime; VTOD(vp)->di_mtimensec = dp->di_mtimensec; VTOD(vp)->di_ctime = dp->di_ctime; VTOD(vp)->di_ctimensec = dp->di_ctimensec; VTOD(vp)->di_flags = dp->di_flags; VTOD(vp)->di_uid = dp->di_uid; VTOD(vp)->di_gid = dp->di_gid; inodirty(VTOI(vp)); } } for (j = 0; inums[j]; j++) { alloc_inode(inums[j], ibdaddr); vp = lfs_raw_vget(fs, inums[j], devvp->v_fd, ibdaddr); /* We'll get the blocks later */ if (debug) pwarn("alloc ino %d nlink %d\n", (int)inums[j], VTOD(vp)->di_nlink); memset(VTOD(vp)->di_db, 0, (NDADDR + NIADDR) * sizeof(ufs_daddr_t)); VTOD(vp)->di_blocks = 0; vp->v_uflag |= VU_DIROP; inodirty(VTOI(vp)); } free(inums); } bc = check_summary(fs, sp, daddr, debug, devvp, NULL); if (bc == 0) { pwarn("unexpected bad seg ptr at 0x%x with serial=%d\n", (int)daddr, (int)sp->ss_serial); brelse(bp, 0); break; } else { if (debug) pwarn("good seg ptr at 0x%x with serial=%d\n", (int)daddr, (int)sp->ss_serial); lastserial = sp->ss_serial; } odaddr = daddr; daddr += btofsb(fs, fs->lfs_sumsize + bc); if (dtosn(fs, odaddr) != dtosn(fs, daddr) || dtosn(fs, daddr) != dtosn(fs, daddr + btofsb(fs, fs->lfs_sumsize + fs->lfs_bsize) - 1)) { daddr = ((SEGSUM *)bp->b_data)->ss_next; } brelse(bp, 0); } out: free(ibbuf); /* Set serial here, just to be sure (XXX should be right already) */ fs->lfs_serial = lastserial + 1; /* * Check our new vnodes. Any blocks must lie in segments that * we've seen before (SEGUSE_DIRTY or SEGUSE_RFW); and the rest * of the pass 1 checks as well. */ memset(&idesc, 0, sizeof(struct inodesc)); idesc.id_type = ADDR; idesc.id_func = pass6check; idesc.id_lblkno = 0; LIST_FOREACH(vp, &vnodelist, v_mntvnodes) { if ((vp->v_uflag & VU_DIROP) == 0) --n_files; /* Don't double count */ checkinode(VTOI(vp)->i_number, &idesc); } /* * Second pass. Run through FINFO entries looking for blocks * with the same generation number as files we've seen before. * If they have it, pretend like we just wrote them. We don't * do the pretend-write, though, if we've already seen them * (the accounting would have been done for us already). */ daddr = fs->lfs_offset; while (daddr != lastgood) { if (!(seg_table[dtosn(fs, daddr)].su_flags & SEGUSE_DIRTY)) { seg_table[dtosn(fs, daddr)].su_flags |= SEGUSE_DIRTY; LFS_SEGENTRY(sup, fs, dtosn(fs, daddr), sbp); sup->su_flags |= SEGUSE_DIRTY; VOP_BWRITE(sbp); } /* Could be a superblock */ if (sntod(fs, dtosn(fs, daddr)) == daddr) { if (daddr == fs->lfs_start) daddr += btofsb(fs, LFS_LABELPAD); for (i = 0; i < LFS_MAXNUMSB; i++) { if (daddr == fs->lfs_sboffs[i]) { daddr += btofsb(fs, LFS_SBPAD); } if (daddr < fs->lfs_sboffs[i]) break; } } /* Read in summary block */ bread(devvp, fsbtodb(fs, daddr), fs->lfs_sumsize, NULL, &bp); sp = (SEGSUM *)bp->b_data; bc = check_summary(fs, sp, daddr, debug, devvp, pass6harvest); if (bc == 0) { pwarn("unexpected bad seg ptr [2] at 0x%x with serial=%d\n", (int)daddr, (int)sp->ss_serial); brelse(bp, 0); break; } odaddr = daddr; daddr += btofsb(fs, fs->lfs_sumsize + bc); fs->lfs_avail -= btofsb(fs, fs->lfs_sumsize + bc); if (dtosn(fs, odaddr) != dtosn(fs, daddr) || dtosn(fs, daddr) != dtosn(fs, daddr + btofsb(fs, fs->lfs_sumsize + fs->lfs_bsize) - 1)) { fs->lfs_avail -= sntod(fs, dtosn(fs, daddr) + 1) - daddr; daddr = ((SEGSUM *)bp->b_data)->ss_next; } LFS_CLEANERINFO(cip, fs, cbp); LFS_SYNC_CLEANERINFO(cip, fs, cbp, 0); bp->b_flags |= B_AGE; brelse(bp, 0); } /* Final address could also be a superblock */ if (sntod(fs, dtosn(fs, lastgood)) == lastgood) { if (lastgood == fs->lfs_start) lastgood += btofsb(fs, LFS_LABELPAD); for (i = 0; i < LFS_MAXNUMSB; i++) { if (lastgood == fs->lfs_sboffs[i]) lastgood += btofsb(fs, LFS_SBPAD); if (lastgood < fs->lfs_sboffs[i]) break; } } /* Update offset to point at correct location */ fs->lfs_offset = lastgood; fs->lfs_curseg = sntod(fs, dtosn(fs, lastgood)); for (sn = curseg = dtosn(fs, fs->lfs_curseg);;) { sn = (sn + 1) % fs->lfs_nseg; if (sn == curseg) errx(1, "no clean segments"); LFS_SEGENTRY(sup, fs, sn, bp); if ((sup->su_flags & SEGUSE_DIRTY) == 0) { sup->su_flags |= SEGUSE_DIRTY | SEGUSE_ACTIVE; VOP_BWRITE(bp); break; } brelse(bp, 0); } fs->lfs_nextseg = sntod(fs, sn); if (preen) { if (ndelfiles) pwarn("roll forward deleted %d file%s\n", ndelfiles, (ndelfiles > 1 ? "s" : "")); if (nnewfiles) pwarn("roll forward added %d file%s\n", nnewfiles, (nnewfiles > 1 ? "s" : "")); if (nmvfiles) pwarn("roll forward relocated %d inode%s\n", nmvfiles, (nmvfiles > 1 ? "s" : "")); if (nnewblocks) pwarn("roll forward verified %d data block%s\n", nnewblocks, (nnewblocks > 1 ? "s" : "")); if (ndelfiles == 0 && nnewfiles == 0 && nmvfiles == 0 && nnewblocks == 0) pwarn("roll forward produced nothing new\n"); } if (!preen) { /* Run pass 5 again (it's quick anyway). */ pwarn("** Phase 6b - Recheck Segment Block Accounting\n"); pass5(); } /* Likewise for pass 0 */ if (!preen) pwarn("** Phase 6c - Recheck Inode Free List\n"); pass0(); }