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/* Pass one of GNU fsck -- count blocks and verify inodes
Copyright (C) 1994, 1995, 1996 Free Software Foundation, Inc.
Written by Michael I. Bushnell.
This file is part of the GNU Hurd.
The GNU Hurd is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License as
published by the Free Software Foundation; either version 2, or (at
your option) any later version.
The GNU Hurd is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */
#include "fsck.h"
static struct dinode zino;
/* Find all the blocks in use by files and filesystem reserved blocks.
Set them in the global block map. For each file, if a block is found
allocated twice, then record the block and inode in DUPLIST.
Initialize INODESTATE, LINKCOUNT, and TYPEMAP. */
void
pass1 ()
{
ino_t number;
ino_t i;
int cg;
struct dinode dino;
struct dinode *dp = &dino;
mode_t mode, type;
int ndb;
int holdallblocks;
int lbn;
int nblocks;
int blkerror;
int nblkrngerrors;
int nblkduperrors;
/* This function is called for each block of DP. Check to see
if the block number is valid. If so, set the entry in the
block map. If the block map entry is already set, then keep
track of this block and see if the user wants to clear the
node. Increment NBLOCKS by the number of data blocks held.
Set BLKERROR if this block is invalid.
Return RET_GOOD, RET_BAD, RET_STOP if the block is good,
bad, or if we should entirely stop checking blocks in this
inode. */
int
checkblock (daddr_t bno, int nfrags, off_t offset)
{
#define MAXBAD 10
int outofrange;
struct dups *dlp, *new;
int wasbad = 0;
/* Check to see if this block is in range */
outofrange = check_range (bno, nfrags);
if (outofrange)
{
blkerror = 1;
wasbad = 1;
if (nblkrngerrors == 0)
warning (0, "I=%d HAS BAD BLOCKS", number);
if (nblkrngerrors++ > MAXBAD)
{
problem (0, "EXCESSIVE BAD BLKS I=%d", number);
if (preen || reply ("SKIP"))
{
pfail ("SKIPPING");
return RET_STOP;
}
else
pfix ("CONTINUING");
}
}
for (; nfrags > 0; bno++, nfrags--)
{
if (outofrange && check_range (bno, 1))
warning (0, "BAD BLOCK %lu", bno);
else
{
if (!testbmap (bno))
setbmap (bno);
else
{
blkerror = 1;
if (nblkduperrors == 0)
warning (0, "I=%d HAS DUPLICATE BLOCKS", number);
warning (0, "DUPLICATE BLOCK %ld", bno);
wasbad = 1;
if (nblkduperrors++ > MAXBAD)
{
problem (0, "EXCESSIVE DUP BLKS I=%d", number);
if (preen || reply ("SKIP"))
{
pfail ("SKIPPING");
return RET_STOP;
}
else
pfix ("CONTINUING");
}
new = malloc (sizeof (struct dups));
new->dup = bno;
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 == bno)
break;
if (dlp == muldup && dlp->dup != bno)
muldup = new;
}
}
nblocks += sblock->fs_fsize / DEV_BSIZE;
}
return wasbad ? RET_BAD : RET_GOOD;
}
/* Account for blocks used by meta data */
for (cg = 0; cg < sblock->fs_ncg; cg++)
{
daddr_t firstdata, firstcgblock, bno;
/* Each cylinder group past the first reserves data
from its cylinder group copy to (but not including)
the first datablock.
The first, however, reserves from the very front of the
cylinder group (thus including the boot block), and it also
reserves the data blocks holding the csum information. */
firstdata = cgdmin (sblock, cg);
if (cg == 0)
{
firstcgblock = cgbase (sblock, cg);
firstdata += howmany (sblock->fs_cssize, sblock->fs_fsize);
}
else
firstcgblock = cgsblock (sblock, cg);
/* Mark the blocks set */
for (bno = firstcgblock; bno < firstdata; bno++)
setbmap (bno);
}
/* Loop through each inode, doing initial checks */
for (number = 0, cg = 0; cg < sblock->fs_ncg; cg++)
for (i = 0; i < sblock->fs_ipg; i++, number++)
{
/* These record whether we've already complained about extra
direct/indirect blocks. */
int dbwarn = 0, ibwarn = 0;
/* if (!preen && !(number % 10000))
printf ("I=%d\n", number); */
if (number < ROOTINO)
continue;
getinode (number, dp);
mode = DI_MODE (dp);
type = mode & IFMT;
/* If the node is not allocated, then make sure it's
properly clear */
if (type == 0)
{
if (bcmp (dp->di_db, zino.di_db, NDADDR * sizeof (daddr_t))
|| bcmp (dp->di_ib, zino.di_ib, NIADDR * sizeof (daddr_t))
|| dp->di_trans
|| DI_MODE (dp)
|| dp->di_size)
{
problem (0, "PARTIALLY ALLOCATED INODE I=%d", number);
if (preen || reply ("CLEAR"))
{
clear_inode (number, dp);
pfix ("CLEARED");
}
else
pfail (0);
}
inodestate[number] = UNALLOC;
}
else
{
/* Node is allocated. */
/* Check to see if we think the node should be cleared */
/* Verify size for basic validity */
holdallblocks = 0;
if (dp->di_size + sblock->fs_bsize - 1 < dp->di_size)
{
problem (1, "OVERFLOW IN FILE SIZE I=%d (SIZE == %lld)", number,
dp->di_size);
if (reply ("CLEAR"))
{
clear_inode (number, dp);
inodestate[number] = UNALLOC;
continue;
}
inodestate[number] = UNALLOC;
warning (0, "WILL TREAT ANY BLOCKS HELD BY I=%d AS ALLOCATED",
number);
holdallblocks = 1;
}
/* Decode type and set NDB
also set inodestate correctly. */
inodestate[number] = REG;
switch (type)
{
case IFBLK:
case IFCHR:
ndb = 1;
break;
case IFIFO:
case IFSOCK:
ndb = 0;
break;
case IFLNK:
if (sblock->fs_maxsymlinklen != -1)
{
/* Check to see if this is a fastlink. The
old fast link format has fs_maxsymlinklen
of zero and di_blocks zero; the new format has
fs_maxsymlinklen set and we ignore di_blocks.
So check for either. */
if ((sblock->fs_maxsymlinklen
&& dp->di_size < sblock->fs_maxsymlinklen)
|| (!sblock->fs_maxsymlinklen && !dp->di_blocks))
{
/* Fake NDB value so that we will check
all the block pointers past the symlink */
ndb = howmany (dp->di_size, sizeof (daddr_t));
if (ndb > NDADDR)
{
int j = ndb - NDADDR;
for (ndb = 1; j > 1; i--)
ndb *= NINDIR (sblock);
ndb += NDADDR;
}
}
else
ndb = howmany (dp->di_size, sblock->fs_bsize);
}
else
ndb = howmany (dp->di_size, sblock->fs_bsize);
break;
case IFDIR:
inodestate[number] = DIRECTORY;
/* Fall through */
case IFREG:
ndb = howmany (dp->di_size, sblock->fs_bsize);
break;
default:
problem (1, "UNKNOWN FILE TYPE I=%d (MODE=%ol)", number, mode);
if (reply ("CLEAR"))
{
clear_inode (number, dp);
inodestate[number] = UNALLOC;
continue;
}
inodestate[number] = UNALLOC;
holdallblocks = 1;
warning (0, "WILL TREAT ANY BLOCKS HELD BY I=%d "
"AS ALLOCATED", number);
ndb = 0;
}
if (ndb < 0)
{
problem (1, "BAD FILE SIZE I= %d (SIZE == %lld)", number,
dp->di_size);
if (reply ("CLEAR"))
{
clear_inode (number, dp);
inodestate[number] = UNALLOC;
continue;
}
inodestate[number] = UNALLOC;
warning (0, "WILL TREAT ANY BLOCKS HELD BY I=%d AS ALLOCATED",
number);
holdallblocks = 1;
}
/* Make sure that direct and indirect block pointers
past the file size are zero. If the size is bogus, then
don't bother (they should all be zero, but the user has
requested that they be treated as allocated). */
if (!holdallblocks)
{
if (dp->di_size
&& (type == IFBLK || type == IFCHR
|| type == IFSOCK || type == IFIFO))
{
problem (1, "SPECIAL NODE I=%d (MODE=%ol) HAS SIZE %lld",
number, mode, dp->di_size);
if (reply ("TRUNCATE"))
{
dp->di_size = 0;
write_inode (number, dp);
}
}
/* If we haven't set NDB speciall above, then it is set from
the file size correctly by the size check. */
/* Check all the direct and indirect blocks that are past the
amount necessary to be zero. */
for (lbn = ndb; lbn < NDADDR; lbn++)
{
if (dp->di_db[lbn])
{
if (!dbwarn)
{
dbwarn = 1;
problem (0, "INODE I=%d HAS EXTRA DIRECT BLOCKS",
number);
if (preen || reply ("DEALLOCATE"))
{
dp->di_db[lbn] = 0;
dbwarn = 2;
pfix ("DEALLOCATED");
}
else
pfail (0);
}
else if (dbwarn == 2)
dp->di_db[lbn] = 0;
}
if (dbwarn == 2)
write_inode (number, dp);
}
for (lbn = 0, ndb -= NDADDR; ndb > 0; lbn++)
ndb /= NINDIR (sblock);
for (; lbn < NIADDR; lbn++)
{
if (dp->di_ib[lbn])
{
if (ibwarn)
{
ibwarn = 1;
problem (0, "INODE I=%d HAS EXTRA INDIRECT BLOCKS",
number);
if (preen || reply ("DEALLOCATE"))
{
dp->di_ib[lbn] = 0;
ibwarn = 2;
pfix ("DEALLOCATED");
}
else
pfail (0);
}
else if (ibwarn == 2)
dp->di_ib[lbn] = 0;
}
if (ibwarn == 2)
write_inode (number, dp);
}
}
/* If this node is really allocated (as opposed to something
that we should clear but the user won't) then set LINKCOUNT
and TYPEMAP entries. */
if (inodestate[number] != UNALLOC)
{
linkcount[number] = dp->di_nlink;
typemap[number] = IFTODT (mode);
}
/* Iterate over the blocks of the file,
calling CHECKBLOCK for each file. */
nblocks = 0;
blkerror = 0;
nblkduperrors = 0;
nblkrngerrors = 0;
allblock_iterate (dp, checkblock);
if (blkerror)
{
if (preen)
warning (1, "DUPLICATE or BAD BLOCKS");
else
{
problem (0, "I=%d has ", number);
if (nblkduperrors)
{
pextend ("%d DUPLICATE BLOCKS", nblkduperrors);
if (nblkrngerrors)
pextend (" and ");
}
if (nblkrngerrors)
pextend ("%d BAD BLOCKS", nblkrngerrors);
if (reply ("CLEAR"))
{
clear_inode (number, dp);
inodestate[number] = UNALLOC;
continue;
}
else if (inodestate[number] == DIRECTORY)
inodestate[number] = BADDIR;
}
}
else if (dp->di_blocks != nblocks)
{
problem (0, "INCORRECT BLOCK COUNT I=%d (%ld should be %d)",
number, dp->di_blocks, nblocks);
if (preen || reply ("CORRECT"))
{
dp->di_blocks = nblocks;
write_inode (number, dp);
pfix ("CORRECTED");
}
else
pfail (0);
}
num_files++;
if (type == IFDIR)
record_directory (dp, number);
}
}
}
|