freebsd-src/sbin/fsck_ffs/pass1.c
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607 lines
17 KiB
C

/*-
* SPDX-License-Identifier: BSD-3-Clause
*
* Copyright (c) 1980, 1986, 1993
* The Regents of the University of California. All rights reserved.
*
* 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. Neither the name of the University 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 REGENTS 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 REGENTS 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 <sys/param.h>
#include <sys/stat.h>
#include <sys/sysctl.h>
#include <ufs/ufs/dinode.h>
#include <ufs/ufs/dir.h>
#include <ufs/ffs/fs.h>
#include <err.h>
#include <limits.h>
#include <stdint.h>
#include <string.h>
#include "fsck.h"
static ufs2_daddr_t badblk;
static ufs2_daddr_t dupblk;
static ino_t lastino; /* last inode in use */
static int checkinode(ino_t inumber, struct inodesc *, int rebuiltcg);
void
pass1(void)
{
struct inostat *info;
struct inodesc idesc;
struct bufarea *cgbp;
struct cg *cgp;
ino_t inumber, inosused, mininos;
ufs2_daddr_t i, cgd;
u_int8_t *cp;
int c, rebuiltcg;
badblk = dupblk = lastino = 0;
/*
* Set file system reserved blocks in used block map.
*/
for (c = 0; c < sblock.fs_ncg; c++) {
cgd = cgdmin(&sblock, c);
if (c == 0) {
i = cgbase(&sblock, c);
} else
i = cgsblock(&sblock, c);
for (; i < cgd; i++)
setbmap(i);
}
i = sblock.fs_csaddr;
cgd = i + howmany(sblock.fs_cssize, sblock.fs_fsize);
for (; i < cgd; i++)
setbmap(i);
/*
* Find all allocated blocks.
*/
memset(&idesc, 0, sizeof(struct inodesc));
idesc.id_func = pass1check;
n_files = n_blks = 0;
for (c = 0; c < sblock.fs_ncg; c++) {
inumber = c * sblock.fs_ipg;
cgbp = cglookup(c);
cgp = cgbp->b_un.b_cg;
rebuiltcg = 0;
if (!check_cgmagic(c, cgbp)) {
if (!reply("REBUILD CYLINDER GROUP")) {
cgheader_corrupt = 1;
if (!nflag) {
pwarn("YOU WILL NEED TO RERUN FSCK.\n");
rerun = 1;
}
} else {
rebuild_cg(c, cgbp);
rebuiltcg = 1;
}
}
if (!rebuiltcg && sblock.fs_magic == FS_UFS2_MAGIC) {
inosused = cgp->cg_initediblk;
if (inosused > sblock.fs_ipg) {
pfatal("Too many initialized inodes (%ju > %d) "
"in cylinder group %d\nReset to %d\n",
(uintmax_t)inosused, sblock.fs_ipg, c,
sblock.fs_ipg);
inosused = sblock.fs_ipg;
}
} else {
inosused = sblock.fs_ipg;
}
if (got_siginfo) {
printf("%s: phase 1: cyl group %d of %d (%d%%)\n",
cdevname, c, sblock.fs_ncg,
c * 100 / sblock.fs_ncg);
got_siginfo = 0;
}
if (got_sigalarm) {
setproctitle("%s p1 %d%%", cdevname,
c * 100 / sblock.fs_ncg);
got_sigalarm = 0;
}
/*
* If we are using soft updates, then we can trust the
* cylinder group inode allocation maps to tell us which
* inodes are allocated. We will scan the used inode map
* to find the inodes that are really in use, and then
* read only those inodes in from disk.
*/
if ((preen || inoopt) && usedsoftdep && !rebuiltcg) {
cp = &cg_inosused(cgp)[(inosused - 1) / CHAR_BIT];
for ( ; inosused != 0; cp--) {
if (*cp == 0) {
if (inosused > CHAR_BIT)
inosused -= CHAR_BIT;
else
inosused = 0;
continue;
}
for (i = 1 << (CHAR_BIT - 1); i > 0; i >>= 1) {
if (*cp & i)
break;
inosused--;
}
break;
}
}
/*
* Allocate inoinfo structures for the allocated inodes.
*/
inostathead[c].il_numalloced = inosused;
if (inosused == 0) {
inostathead[c].il_stat = NULL;
continue;
}
info = Calloc((unsigned)inosused, sizeof(struct inostat));
if (info == NULL)
errx(EEXIT, "cannot alloc %u bytes for inoinfo",
(unsigned)(sizeof(struct inostat) * inosused));
inostathead[c].il_stat = info;
/*
* Scan the allocated inodes.
*/
setinodebuf(c, inosused);
for (i = 0; i < inosused; i++, inumber++) {
if (inumber < UFS_ROOTINO) {
(void)getnextinode(inumber, rebuiltcg);
continue;
}
/*
* NULL return indicates probable end of allocated
* inodes during cylinder group rebuild attempt.
* We always keep trying until we get to the minimum
* valid number for this cylinder group.
*/
if (checkinode(inumber, &idesc, rebuiltcg) == 0 &&
i > cgp->cg_initediblk)
break;
}
/*
* This optimization speeds up future runs of fsck
* by trimming down the number of inodes in cylinder
* groups that formerly had many inodes but now have
* fewer in use.
*/
mininos = roundup(inosused + INOPB(&sblock), INOPB(&sblock));
if (inoopt && !preen && !rebuiltcg &&
sblock.fs_magic == FS_UFS2_MAGIC &&
cgp->cg_initediblk > 2 * INOPB(&sblock) &&
mininos < cgp->cg_initediblk) {
i = cgp->cg_initediblk;
if (mininos < 2 * INOPB(&sblock))
cgp->cg_initediblk = 2 * INOPB(&sblock);
else
cgp->cg_initediblk = mininos;
pwarn("CYLINDER GROUP %d: RESET FROM %ju TO %d %s\n",
c, i, cgp->cg_initediblk, "VALID INODES");
cgdirty(cgbp);
}
if (inosused < sblock.fs_ipg)
continue;
lastino += 1;
if (lastino < (c * sblock.fs_ipg))
inosused = 0;
else
inosused = lastino - (c * sblock.fs_ipg);
if (rebuiltcg && inosused > cgp->cg_initediblk &&
sblock.fs_magic == FS_UFS2_MAGIC) {
cgp->cg_initediblk = roundup(inosused, INOPB(&sblock));
pwarn("CYLINDER GROUP %d: FOUND %d VALID INODES\n", c,
cgp->cg_initediblk);
}
/*
* If we were not able to determine in advance which inodes
* were in use, then reduce the size of the inoinfo structure
* to the size necessary to describe the inodes that we
* really found. Always leave map space in the first cylinder
* group in case we need to a root or lost+found directory.
*/
if (inumber == lastino || c == 0)
continue;
inostathead[c].il_numalloced = inosused;
if (inosused == 0) {
free(inostathead[c].il_stat);
inostathead[c].il_stat = NULL;
continue;
}
info = Calloc((unsigned)inosused, sizeof(struct inostat));
if (info == NULL)
errx(EEXIT, "cannot alloc %u bytes for inoinfo",
(unsigned)(sizeof(struct inostat) * inosused));
memmove(info, inostathead[c].il_stat, inosused * sizeof(*info));
free(inostathead[c].il_stat);
inostathead[c].il_stat = info;
}
freeinodebuf();
}
static int
checkinode(ino_t inumber, struct inodesc *idesc, int rebuiltcg)
{
struct inode ip;
union dinode *dp;
ufs2_daddr_t ndb;
mode_t mode;
intmax_t size, fixsize;
int j, ret, offset;
if ((dp = getnextinode(inumber, rebuiltcg)) == NULL) {
pfatal("INVALID INODE");
goto unknown;
}
mode = DIP(dp, di_mode) & IFMT;
if (mode == 0) {
if ((sblock.fs_magic == FS_UFS1_MAGIC &&
(memcmp(dp->dp1.di_db, zino.dp1.di_db,
UFS_NDADDR * sizeof(ufs1_daddr_t)) ||
memcmp(dp->dp1.di_ib, zino.dp1.di_ib,
UFS_NIADDR * sizeof(ufs1_daddr_t)) ||
dp->dp1.di_mode || dp->dp1.di_size)) ||
(sblock.fs_magic == FS_UFS2_MAGIC &&
(memcmp(dp->dp2.di_db, zino.dp2.di_db,
UFS_NDADDR * sizeof(ufs2_daddr_t)) ||
memcmp(dp->dp2.di_ib, zino.dp2.di_ib,
UFS_NIADDR * sizeof(ufs2_daddr_t)) ||
dp->dp2.di_mode || dp->dp2.di_size))) {
pfatal("PARTIALLY ALLOCATED INODE I=%lu",
(u_long)inumber);
if (reply("CLEAR") == 1) {
ginode(inumber, &ip);
clearinode(ip.i_dp);
inodirty(&ip);
irelse(&ip);
}
}
inoinfo(inumber)->ino_state = USTATE;
return (1);
}
lastino = inumber;
if (chkfilesize(mode, DIP(dp, di_size)) == 0) {
pfatal("BAD FILE SIZE");
goto unknown;
}
if (!preen && mode == IFMT && reply("HOLD BAD BLOCK") == 1) {
ginode(inumber, &ip);
dp = ip.i_dp;
DIP_SET(dp, di_size, sblock.fs_fsize);
DIP_SET(dp, di_mode, IFREG|0600);
inodirty(&ip);
irelse(&ip);
}
if ((mode == IFBLK || mode == IFCHR || mode == IFIFO ||
mode == IFSOCK) && DIP(dp, di_size) != 0) {
if (debug)
printf("bad special-file size %ju:",
(uintmax_t)DIP(dp, di_size));
pfatal("BAD SPECIAL-FILE SIZE");
goto unknown;
}
if ((mode == IFBLK || mode == IFCHR) &&
(dev_t)DIP(dp, di_rdev) == NODEV) {
if (debug)
printf("bad special-file rdev NODEV:");
pfatal("BAD SPECIAL-FILE RDEV");
goto unknown;
}
ndb = howmany(DIP(dp, di_size), sblock.fs_bsize);
if (ndb < 0) {
if (debug)
printf("negative size %ju ndb %ju:",
(uintmax_t)DIP(dp, di_size), (uintmax_t)ndb);
pfatal("NEGATIVE FILE SIZE");
goto unknown;
}
if (mode == IFBLK || mode == IFCHR)
ndb++;
if (mode == IFLNK) {
/*
* Fake ndb value so direct/indirect block checks below
* will detect any garbage after symlink string.
*/
if (DIP(dp, di_size) < (off_t)sblock.fs_maxsymlinklen) {
if (sblock.fs_magic == FS_UFS1_MAGIC)
ndb = howmany(DIP(dp, di_size),
sizeof(ufs1_daddr_t));
else
ndb = howmany(DIP(dp, di_size),
sizeof(ufs2_daddr_t));
if (ndb > UFS_NDADDR) {
j = ndb - UFS_NDADDR;
for (ndb = 1; j > 1; j--)
ndb *= NINDIR(&sblock);
ndb += UFS_NDADDR;
}
}
}
for (j = ndb; ndb < UFS_NDADDR && j < UFS_NDADDR; j++) {
if (DIP(dp, di_db[j]) == 0)
continue;
if (debug)
printf("invalid direct addr[%d]: %ju\n", j,
(uintmax_t)DIP(dp, di_db[j]));
pfatal("INVALID DIRECT BLOCK");
ginode(inumber, &ip);
prtinode(&ip);
if (reply("CLEAR") == 1) {
DIP_SET(ip.i_dp, di_db[j], 0);
inodirty(&ip);
}
irelse(&ip);
}
for (j = 0, ndb -= UFS_NDADDR; ndb > 0; j++)
ndb /= NINDIR(&sblock);
for (; j < UFS_NIADDR; j++) {
if (DIP(dp, di_ib[j]) == 0)
continue;
if (debug)
printf("invalid indirect addr: %ju\n",
(uintmax_t)DIP(dp, di_ib[j]));
pfatal("INVALID INDIRECT BLOCK");
ginode(inumber, &ip);
prtinode(&ip);
if (reply("CLEAR") == 1) {
DIP_SET(ip.i_dp, di_ib[j], 0);
inodirty(&ip);
}
irelse(&ip);
}
if (ftypeok(dp) == 0) {
pfatal("UNKNOWN FILE TYPE");
goto unknown;
}
n_files++;
inoinfo(inumber)->ino_linkcnt = DIP(dp, di_nlink);
if (mode == IFDIR) {
if (DIP(dp, di_size) == 0) {
inoinfo(inumber)->ino_state = DCLEAR;
} else if (DIP(dp, di_nlink) == 0) {
inoinfo(inumber)->ino_state = DZLINK;
} else {
inoinfo(inumber)->ino_state = DSTATE;
}
cacheino(dp, inumber);
countdirs++;
} else if (DIP(dp, di_nlink) <= 0)
inoinfo(inumber)->ino_state = FZLINK;
else
inoinfo(inumber)->ino_state = FSTATE;
inoinfo(inumber)->ino_type = IFTODT(mode);
badblk = dupblk = 0;
idesc->id_number = inumber;
if (DIP(dp, di_flags) & SF_SNAPSHOT)
inoinfo(inumber)->ino_idtype = SNAP;
else
inoinfo(inumber)->ino_idtype = ADDR;
idesc->id_type = inoinfo(inumber)->ino_idtype;
(void)ckinode(dp, idesc);
if (sblock.fs_magic == FS_UFS2_MAGIC && dp->dp2.di_extsize > 0) {
ndb = howmany(dp->dp2.di_extsize, sblock.fs_bsize);
for (j = 0; j < UFS_NXADDR; j++) {
if (--ndb == 0 &&
(offset = blkoff(&sblock, dp->dp2.di_extsize)) != 0)
idesc->id_numfrags = numfrags(&sblock,
fragroundup(&sblock, offset));
else
idesc->id_numfrags = sblock.fs_frag;
if (dp->dp2.di_extb[j] == 0)
continue;
idesc->id_blkno = dp->dp2.di_extb[j];
ret = (*idesc->id_func)(idesc);
if (ret & STOP)
break;
}
}
if (sblock.fs_magic == FS_UFS2_MAGIC)
eascan(idesc, &dp->dp2);
idesc->id_entryno *= btodb(sblock.fs_fsize);
if (DIP(dp, di_blocks) != idesc->id_entryno) {
pwarn("INCORRECT BLOCK COUNT I=%lu (%ju should be %ju)",
(u_long)inumber, (uintmax_t)DIP(dp, di_blocks),
(uintmax_t)idesc->id_entryno);
if (preen)
printf(" (CORRECTED)\n");
else if (reply("CORRECT") == 0)
return (1);
if (bkgrdflag == 0) {
ginode(inumber, &ip);
DIP_SET(ip.i_dp, di_blocks, idesc->id_entryno);
inodirty(&ip);
irelse(&ip);
} else {
cmd.value = idesc->id_number;
cmd.size = idesc->id_entryno - DIP(dp, di_blocks);
if (debug)
printf("adjblkcnt ino %ju amount %lld\n",
(uintmax_t)cmd.value, (long long)cmd.size);
if (sysctl(adjblkcnt, MIBSIZE, 0, 0,
&cmd, sizeof cmd) == -1)
rwerror("ADJUST INODE BLOCK COUNT", cmd.value);
}
}
/*
* UFS does not allow files to end with a hole; it requires that
* the last block of a file be allocated. The last allocated block
* in a file is tracked in id_lballoc. Here, we check for a size
* past the last allocated block of the file and if that is found,
* shorten the file to reference the last allocated block to avoid
* having it reference a hole at its end.
*
* Soft updates will always ensure that the file size is correct
* for files that contain only direct block pointers. However
* soft updates does not roll back sizes for files with indirect
* blocks that it has set to unallocated because their contents
* have not yet been written to disk. Hence, the file can appear
* to have a hole at its end because the block pointer has been
* rolled back to zero. Thus finding a hole at the end of a file
* that is located in an indirect block receives only a warning
* while finding a hole at the end of a file in a direct block
* receives a fatal error message.
*/
size = DIP(dp, di_size);
if (idesc->id_lballoc < lblkno(&sblock, size - 1) &&
/* exclude embedded symbolic links */
((mode != IFLNK) || size >= sblock.fs_maxsymlinklen)) {
fixsize = lblktosize(&sblock, idesc->id_lballoc + 1);
if (size > UFS_NDADDR * sblock.fs_bsize)
pwarn("INODE %lu: FILE SIZE %ju BEYOND END OF "
"ALLOCATED FILE, SIZE SHOULD BE %ju",
(u_long)inumber, size, fixsize);
else
pfatal("INODE %lu: FILE SIZE %ju BEYOND END OF "
"ALLOCATED FILE, SIZE SHOULD BE %ju",
(u_long)inumber, size, fixsize);
if (preen)
printf(" (ADJUSTED)\n");
else if (reply("ADJUST") == 0)
return (1);
if (bkgrdflag == 0) {
ginode(inumber, &ip);
DIP_SET(ip.i_dp, di_size, fixsize);
inodirty(&ip);
irelse(&ip);
} else {
cmd.value = idesc->id_number;
cmd.size = fixsize;
if (debug)
printf("setsize ino %ju size set to %ju\n",
(uintmax_t)cmd.value, (uintmax_t)cmd.size);
if (sysctl(setsize, MIBSIZE, 0, 0,
&cmd, sizeof cmd) == -1)
rwerror("SET INODE SIZE", cmd.value);
}
}
return (1);
unknown:
ginode(inumber, &ip);
prtinode(&ip);
inoinfo(inumber)->ino_state = USTATE;
if (reply("CLEAR") == 1) {
clearinode(ip.i_dp);
inodirty(&ip);
}
irelse(&ip);
return (1);
}
int
pass1check(struct inodesc *idesc)
{
int res = KEEPON;
int anyout, nfrags;
ufs2_daddr_t blkno = idesc->id_blkno;
struct dups *dlp;
struct dups *new;
if (idesc->id_type == SNAP) {
if (blkno == BLK_NOCOPY)
return (KEEPON);
if (idesc->id_number == cursnapshot) {
if (blkno == blkstofrags(&sblock, idesc->id_lbn))
return (KEEPON);
if (blkno == BLK_SNAP) {
blkno = blkstofrags(&sblock, idesc->id_lbn);
idesc->id_entryno -= idesc->id_numfrags;
}
} else {
if (blkno == BLK_SNAP)
return (KEEPON);
}
}
if ((anyout = chkrange(blkno, idesc->id_numfrags)) != 0) {
blkerror(idesc->id_number, "BAD", blkno);
if (badblk++ >= MAXBAD) {
pwarn("EXCESSIVE BAD BLKS I=%lu",
(u_long)idesc->id_number);
if (preen)
printf(" (SKIPPING)\n");
else if (reply("CONTINUE") == 0) {
ckfini(0);
exit(EEXIT);
}
rerun = 1;
return (STOP);
}
}
for (nfrags = idesc->id_numfrags; nfrags > 0; blkno++, nfrags--) {
if (anyout && chkrange(blkno, 1)) {
res = SKIP;
} else if (!testbmap(blkno)) {
n_blks++;
setbmap(blkno);
} else {
blkerror(idesc->id_number, "DUP", blkno);
if (dupblk++ >= MAXDUP) {
pwarn("EXCESSIVE DUP BLKS I=%lu",
(u_long)idesc->id_number);
if (preen)
printf(" (SKIPPING)\n");
else if (reply("CONTINUE") == 0) {
ckfini(0);
exit(EEXIT);
}
rerun = 1;
return (STOP);
}
new = (struct dups *)Malloc(sizeof(struct dups));
if (new == NULL) {
pfatal("DUP TABLE OVERFLOW.");
if (reply("CONTINUE") == 0) {
ckfini(0);
exit(EEXIT);
}
rerun = 1;
return (STOP);
}
new->dup = blkno;
if (muldup == NULL) {
duplist = muldup = new;
new->next = NULL;
} else {
new->next = muldup->next;
muldup->next = new;
}
for (dlp = duplist; dlp != muldup; dlp = dlp->next)
if (dlp->dup == blkno)
break;
if (dlp == muldup && dlp->dup != blkno)
muldup = new;
}
/*
* count the number of blocks found in id_entryno
*/
idesc->id_entryno++;
}
if (idesc->id_level == 0 && idesc->id_lballoc < idesc->id_lbn)
idesc->id_lballoc = idesc->id_lbn;
return (res);
}