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|
/* $OpenBSD: pass1.c,v 1.45 2017/04/12 15:23:08 millert Exp $ */
/* $NetBSD: pass1.c,v 1.16 1996/09/27 22:45:15 christos Exp $ */
/*
* 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> /* MIN setbit btodb isset */
#include <sys/time.h>
#include <ufs/ufs/dinode.h>
#include <ufs/ufs/dir.h>
#include <ufs/ffs/fs.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <limits.h>
#include "fsck.h"
#include "extern.h"
#include "fsutil.h"
static daddr_t badblk;
static daddr_t dupblk;
static void checkinode(ino_t, struct inodesc *);
static ino_t info_inumber;
static int
pass1_info(char *buf, size_t buflen)
{
return (snprintf(buf, buflen, "phase 1, inode %llu/%llu",
(unsigned long long)info_inumber,
(unsigned long long)sblock.fs_ipg * sblock.fs_ncg) > 0);
}
void
pass1(void)
{
ino_t inumber, inosused, ninosused;
size_t inospace;
struct inostat *info;
int c;
struct inodesc idesc;
daddr_t i, cgd;
u_int8_t *cp;
/*
* 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_type = ADDR;
idesc.id_func = pass1check;
n_files = n_blks = 0;
info_inumber = 0;
info_fn = pass1_info;
for (c = 0; c < sblock.fs_ncg; c++) {
inumber = c * sblock.fs_ipg;
setinodebuf(inumber);
getblk(&cgblk, cgtod(&sblock, c), sblock.fs_cgsize);
if (sblock.fs_magic == FS_UFS2_MAGIC) {
inosused = cgrp.cg_initediblk;
if (inosused > sblock.fs_ipg)
inosused = sblock.fs_ipg;
} else
inosused = sblock.fs_ipg;
/*
* 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 && usedsoftdep) {
cp = &cg_inosused(&cgrp)[(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 = 0;
continue;
}
info = calloc((unsigned)inosused, sizeof(struct inostat));
inospace = (unsigned)inosused * sizeof(struct inostat);
if (info == NULL)
errexit("cannot alloc %zu bytes for inoinfo", inospace);
inostathead[c].il_stat = info;
/*
* Scan the allocated inodes.
*/
for (i = 0; i < inosused; i++, inumber++) {
info_inumber = inumber;
if (inumber < ROOTINO) {
(void)getnextinode(inumber);
continue;
}
checkinode(inumber, &idesc);
}
lastino += 1;
if (inosused < sblock.fs_ipg || inumber == lastino)
continue;
/*
* 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.
*/
if (lastino < (c * sblock.fs_ipg))
ninosused = 0;
else
ninosused = lastino - (c * sblock.fs_ipg);
inostathead[c].il_numalloced = ninosused;
if (ninosused == 0) {
free(inostathead[c].il_stat);
inostathead[c].il_stat = 0;
continue;
}
if (ninosused != inosused) {
struct inostat *ninfo;
size_t ninospace;
ninfo = reallocarray(info, ninosused, sizeof(*ninfo));
if (ninfo == NULL) {
pfatal("too many inodes %llu, or out of memory\n",
(unsigned long long)ninosused);
exit(8);
}
ninospace = ninosused * sizeof(*ninfo);
if (ninosused > inosused)
memset(&ninfo[inosused], 0, ninospace - inospace);
inostathead[c].il_stat = ninfo;
}
}
info_fn = NULL;
freeinodebuf();
}
static void
checkinode(ino_t inumber, struct inodesc *idesc)
{
union dinode *dp;
off_t kernmaxfilesize;
struct zlncnt *zlnp;
int ndb, j;
mode_t mode;
u_int64_t lndb;
dp = getnextinode(inumber);
mode = DIP(dp, di_mode) & IFMT;
if (mode == 0) {
if ((sblock.fs_magic == FS_UFS1_MAGIC &&
(memcmp(dp->dp1.di_db, ufs1_zino.di_db,
NDADDR * sizeof(int32_t)) ||
memcmp(dp->dp1.di_ib, ufs1_zino.di_ib,
NIADDR * sizeof(int32_t)) ||
dp->dp1.di_mode || dp->dp1.di_size)) ||
(sblock.fs_magic == FS_UFS2_MAGIC &&
(memcmp(dp->dp2.di_db, ufs2_zino.di_db,
NDADDR * sizeof(daddr_t)) ||
memcmp(dp->dp2.di_ib, ufs2_zino.di_ib,
NIADDR * sizeof(daddr_t)) ||
dp->dp2.di_mode || dp->dp2.di_size))) {
pfatal("PARTIALLY ALLOCATED INODE I=%llu",
(unsigned long long)inumber);
if (reply("CLEAR") == 1) {
dp = ginode(inumber);
clearinode(dp);
inodirty();
}
}
SET_ISTATE(inumber, USTATE);
return;
}
lastino = inumber;
/* This should match the file size limit in ffs_mountfs(). */
kernmaxfilesize = FS_KERNMAXFILESIZE(getpagesize(), &sblock);
if (DIP(dp, di_size) > kernmaxfilesize ||
DIP(dp, di_size) > sblock.fs_maxfilesize ||
(mode == IFDIR && DIP(dp, di_size) > MAXDIRSIZE)) {
if (debug)
printf("bad size %llu:",
(unsigned long long)DIP(dp, di_size));
goto unknown;
}
if (!preen && mode == IFMT && reply("HOLD BAD BLOCK") == 1) {
dp = ginode(inumber);
DIP_SET(dp, di_size, sblock.fs_fsize);
DIP_SET(dp, di_mode, IFREG|0600);
inodirty();
}
lndb = howmany(DIP(dp, di_size), sblock.fs_bsize);
ndb = lndb > (u_int64_t)INT_MAX ? -1 : (int)lndb;
if (ndb < 0) {
if (debug)
printf("bad size %llu ndb %d:",
(unsigned long long)DIP(dp, di_size), ndb);
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) < sblock.fs_maxsymlinklen ||
(sblock.fs_maxsymlinklen == 0 && DIP(dp, di_blocks) == 0)) {
if (sblock.fs_magic == FS_UFS1_MAGIC)
ndb = howmany(DIP(dp, di_size),
sizeof(int32_t));
else
ndb = howmany(DIP(dp, di_size),
sizeof(int64_t));
if (ndb > NDADDR) {
j = ndb - NDADDR;
for (ndb = 1; j > 1; j--)
ndb *= NINDIR(&sblock);
ndb += NDADDR;
}
}
}
for (j = ndb; j < NDADDR; j++)
if (DIP(dp, di_db[j]) != 0) {
if (debug)
printf("bad direct addr: %lld\n",
(long long)DIP(dp, di_db[j]));
goto unknown;
}
for (j = 0, ndb -= NDADDR; ndb > 0; j++)
ndb /= NINDIR(&sblock);
for (; j < NIADDR; j++)
if (DIP(dp, di_ib[j]) != 0) {
if (debug)
printf("bad indirect addr: %lld\n",
(long long)DIP(dp, di_ib[j]));
goto unknown;
}
if (ftypeok(dp) == 0)
goto unknown;
n_files++;
ILNCOUNT(inumber) = DIP(dp, di_nlink);
if (DIP(dp, di_nlink) <= 0) {
zlnp = malloc(sizeof *zlnp);
if (zlnp == NULL) {
pfatal("LINK COUNT TABLE OVERFLOW");
if (reply("CONTINUE") == 0) {
ckfini(0);
errexit("%s", "");
}
} else {
zlnp->zlncnt = inumber;
zlnp->next = zlnhead;
zlnhead = zlnp;
}
}
if (mode == IFDIR) {
if (DIP(dp, di_size) == 0)
SET_ISTATE(inumber, DCLEAR);
else
SET_ISTATE(inumber, DSTATE);
cacheino(dp, inumber);
} else
SET_ISTATE(inumber, FSTATE);
SET_ITYPE(inumber, IFTODT(mode));
badblk = dupblk = 0;
idesc->id_number = inumber;
(void)ckinode(dp, idesc);
idesc->id_entryno *= btodb(sblock.fs_fsize);
if (DIP(dp, di_blocks) != idesc->id_entryno) {
pwarn("INCORRECT BLOCK COUNT I=%llu (%lld should be %lld)",
(unsigned long long)inumber, (long long)DIP(dp, di_blocks),
(long long)idesc->id_entryno);
if (preen)
printf(" (CORRECTED)\n");
else if (reply("CORRECT") == 0)
return;
dp = ginode(inumber);
DIP_SET(dp, di_blocks, idesc->id_entryno);
inodirty();
}
return;
unknown:
pfatal("UNKNOWN FILE TYPE I=%llu", (unsigned long long)inumber);
SET_ISTATE(inumber, FCLEAR);
if (reply("CLEAR") == 1) {
SET_ISTATE(inumber, USTATE);
dp = ginode(inumber);
clearinode(dp);
inodirty();
}
}
int
pass1check(struct inodesc *idesc)
{
int res = KEEPON;
int anyout, nfrags;
daddr_t blkno = idesc->id_blkno;
struct dups *dlp;
struct dups *new;
if ((anyout = chkrange(blkno, idesc->id_numfrags)) != 0) {
blkerror(idesc->id_number, "BAD", blkno);
if (badblk++ >= MAXBAD) {
pwarn("EXCESSIVE BAD BLKS I=%llu",
(unsigned long long)idesc->id_number);
if (preen)
printf(" (SKIPPING)\n");
else if (reply("CONTINUE") == 0) {
ckfini(0);
errexit("%s", "");
}
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=%llu",
(unsigned long long)idesc->id_number);
if (preen)
printf(" (SKIPPING)\n");
else if (reply("CONTINUE") == 0) {
ckfini(0);
errexit("%s", "");
}
return (STOP);
}
new = malloc(sizeof(struct dups));
if (new == NULL) {
pfatal("DUP TABLE OVERFLOW.");
if (reply("CONTINUE") == 0) {
ckfini(0);
errexit("%s", "");
}
return (STOP);
}
new->dup = blkno;
if (muldup == 0) {
duplist = muldup = new;
new->next = 0;
} 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++;
}
return (res);
}
|