/* $FreeBSD$ */
/* $NetBSD: msdosfs_fat.c,v 1.28 1997/11/17 15:36:49 ws Exp $ */
/*-
* SPDX-License-Identifier: BSD-4-Clause
*
* Copyright (C) 1994, 1995, 1997 Wolfgang Solfrank.
* Copyright (C) 1994, 1995, 1997 TooLs GmbH.
* All rights reserved.
* Original code by Paul Popelka (paulp@uts.amdahl.com) (see below).
*
* 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 TooLs GmbH.
* 4. The name of TooLs GmbH may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY TOOLS GMBH ``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 TOOLS GMBH 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.
*/
/*-
* Written by Paul Popelka (paulp@uts.amdahl.com)
*
* You can do anything you want with this software, just don't say you wrote
* it, and don't remove this notice.
*
* This software is provided "as is".
*
* The author supplies this software to be publicly redistributed on the
* understanding that the author is not responsible for the correct
* functioning of this software in any circumstances and is not liable for
* any damages caused by this software.
*
* October 1992
*/
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/buf.h>
#include <sys/mount.h>
#include <sys/vnode.h>
#include <fs/msdosfs/bpb.h>
#include <fs/msdosfs/direntry.h>
#include <fs/msdosfs/denode.h>
#include <fs/msdosfs/fat.h>
#include <fs/msdosfs/msdosfsmount.h>
#define FULL_RUN ((u_int)0xffffffff)
static int chainalloc(struct msdosfsmount *pmp, u_long start,
u_long count, u_long fillwith, u_long *retcluster,
u_long *got);
static int chainlength(struct msdosfsmount *pmp, u_long start,
u_long count);
static void fatblock(struct msdosfsmount *pmp, u_long ofs, u_long *bnp,
u_long *sizep, u_long *bop);
static int fatchain(struct msdosfsmount *pmp, u_long start, u_long count,
u_long fillwith);
static void fc_lookup(struct denode *dep, u_long findcn, u_long *frcnp,
u_long *fsrcnp);
static void updatefats(struct msdosfsmount *pmp, struct buf *bp,
u_long fatbn);
static __inline void
usemap_alloc(struct msdosfsmount *pmp, u_long cn);
static __inline void
usemap_free(struct msdosfsmount *pmp, u_long cn);
static int clusteralloc1(struct msdosfsmount *pmp, u_long start,
u_long count, u_long fillwith, u_long *retcluster,
u_long *got);
static void
fatblock(struct msdosfsmount *pmp, u_long ofs, u_long *bnp, u_long *sizep,
u_long *bop)
{
u_long bn, size;
bn = ofs / pmp->pm_fatblocksize * pmp->pm_fatblocksec;
size = min(pmp->pm_fatblocksec, pmp->pm_FATsecs - bn)
* DEV_BSIZE;
bn += pmp->pm_fatblk + pmp->pm_curfat * pmp->pm_FATsecs;
if (bnp)
*bnp = bn;
if (sizep)
*sizep = size;
if (bop)
*bop = ofs % pmp->pm_fatblocksize;
}
/*
* Map the logical cluster number of a file into a physical disk sector
* that is filesystem relative.
*
* dep - address of denode representing the file of interest
* findcn - file relative cluster whose filesystem relative cluster number
* and/or block number are/is to be found
* bnp - address of where to place the filesystem relative block number.
* If this pointer is null then don't return this quantity.
* cnp - address of where to place the filesystem relative cluster number.
* If this pointer is null then don't return this quantity.
* sp - pointer to returned block size
*
* NOTE: Either bnp or cnp must be non-null.
* This function has one side effect. If the requested file relative cluster
* is beyond the end of file, then the actual number of clusters in the file
* is returned in *cnp. This is useful for determining how long a directory is.
* If cnp is null, nothing is returned.
*/
int
pcbmap(struct denode *dep, u_long findcn, daddr_t *bnp, u_long *cnp, int *sp)
{
int error;
u_long i;
u_long cn;
u_long prevcn = 0; /* XXX: prevcn could be used unititialized */
u_long byteoffset;
u_long bn;
u_long bo;
struct buf *bp = NULL;
u_long bp_bn = -1;
struct msdosfsmount *pmp = dep->de_pmp;
u_long bsize;
KASSERT(bnp != NULL || cnp != NULL || sp != NULL,
("pcbmap: extra call"));
ASSERT_VOP_ELOCKED(DETOV(dep), "pcbmap");
cn = dep->de_StartCluster;
/*
* The "file" that makes up the root directory is contiguous,
* permanently allocated, of fixed size, and is not made up of
* clusters. If the cluster number is beyond the end of the root
* directory, then return the number of clusters in the file.
*/
if (cn == MSDOSFSROOT) {
if (dep->de_Attributes & ATTR_DIRECTORY) {
if (de_cn2off(pmp, findcn) >= dep->de_FileSize) {
if (cnp)
*cnp = de_bn2cn(pmp, pmp->pm_rootdirsize);
return (E2BIG);
}
if (bnp)
*bnp = pmp->pm_rootdirblk + de_cn2bn(pmp, findcn);
if (cnp)
*cnp = MSDOSFSROOT;
if (sp)
*sp = min(pmp->pm_bpcluster,
dep->de_FileSize - de_cn2off(pmp, findcn));
return (0);
} else { /* just an empty file */
if (cnp)
*cnp = 0;
return (E2BIG);
}
}
/*
* All other files do I/O in cluster sized blocks
*/
if (sp)
*sp = pmp->pm_bpcluster;
/*
* Rummage around in the FAT cache, maybe we can avoid tromping
* through every FAT entry for the file. And, keep track of how far
* off the cache was from where we wanted to be.
*/
i = 0;
fc_lookup(dep, findcn, &i, &cn);
/*
* Handle all other files or directories the normal way.
*/
for (; i < findcn; i++) {
/*
* Stop with all reserved clusters, not just with EOF.
*/
if ((cn | ~pmp->pm_fatmask) >= CLUST_RSRVD)
goto hiteof;
byteoffset = FATOFS(pmp, cn);
fatblock(pmp, byteoffset, &bn, &bsize, &bo);
if (bn != bp_bn) {
if (bp)
brelse(bp);
error = bread(pmp->pm_devvp, bn, bsize, NOCRED, &bp);
if (error) {
brelse(bp);
return (error);
}
bp_bn = bn;
}
prevcn = cn;
if (bo >= bsize) {
if (bp)
brelse(bp);
return (EIO);
}
if (FAT32(pmp))
cn = getulong(&bp->b_data[bo]);
else
cn = getushort(&bp->b_data[bo]);
if (FAT12(pmp) && (prevcn & 1))
cn >>= 4;
cn &= pmp->pm_fatmask;
/*
* Force the special cluster numbers
* to be the same for all cluster sizes
* to let the rest of msdosfs handle
* all cases the same.
*/
if ((cn | ~pmp->pm_fatmask) >= CLUST_RSRVD)
cn |= ~pmp->pm_fatmask;
}
if (!MSDOSFSEOF(pmp, cn)) {
if (bp)
brelse(bp);
if (bnp)
*bnp = cntobn(pmp, cn);
if (cnp)
*cnp = cn;
fc_setcache(dep, FC_LASTMAP, i, cn);
return (0);
}
hiteof:;
if (cnp)
*cnp = i;
if (bp)
brelse(bp);
/* update last file cluster entry in the FAT cache */
fc_setcache(dep, FC_LASTFC, i - 1, prevcn);
return (E2BIG);
}
/*
* Find the closest entry in the FAT cache to the cluster we are looking
* for.
*/
static void
fc_lookup(struct denode *dep, u_long findcn, u_long *frcnp, u_long *fsrcnp)
{
int i;
u_long cn;
struct fatcache *closest = NULL;
ASSERT_VOP_LOCKED(DETOV(dep), "fc_lookup");
for (i = 0; i < FC_SIZE; i++) {
cn = dep->de_fc[i].fc_frcn;
if (cn != FCE_EMPTY && cn <= findcn) {
if (closest == NULL || cn > closest->fc_frcn)
closest = &dep->de_fc[i];
}
}
if (closest) {
*frcnp = closest->fc_frcn;
*fsrcnp = closest->fc_fsrcn;
}
}
/*
* Purge the FAT cache in denode dep of all entries relating to file
* relative cluster frcn and beyond.
*/
void
fc_purge(struct denode *dep, u_int frcn)
{
int i;
struct fatcache *fcp;
ASSERT_VOP_ELOCKED(DETOV(dep), "fc_purge");
fcp = dep->de_fc;
for (i = 0; i < FC_SIZE; i++, fcp++) {
if (fcp->fc_frcn >= frcn)
fcp->fc_frcn = FCE_EMPTY;
}
}
/*
* Update the FAT.
* If mirroring the FAT, update all copies, with the first copy as last.
* Else update only the current FAT (ignoring the others).
*
* pmp - msdosfsmount structure for filesystem to update
* bp - addr of modified FAT block
* fatbn - block number relative to begin of filesystem of the modified FAT block.
*/
static void
updatefats(struct msdosfsmount *pmp, struct buf *bp, u_long fatbn)
{
struct buf *bpn;
int cleanfat, i;
#ifdef MSDOSFS_DEBUG
printf("updatefats(pmp %p, bp %p, fatbn %lu)\n", pmp, bp, fatbn);
#endif
if (pmp->pm_flags & MSDOSFS_FATMIRROR) {
/*
* Now copy the block(s) of the modified FAT to the other copies of
* the FAT and write them out. This is faster than reading in the
* other FATs and then writing them back out. This could tie up
* the FAT for quite a while. Preventing others from accessing it.
* To prevent us from going after the FAT quite so much we use
* delayed writes, unless they specified "synchronous" when the
* filesystem was mounted. If synch is asked for then use
* bwrite()'s and really slow things down.
*/
if (fatbn != pmp->pm_fatblk || FAT12(pmp))
cleanfat = 0;
else if (FAT16(pmp))
cleanfat = 16;
else
cleanfat = 32;
for (i = 1; i < pmp->pm_FATs; i++) {
fatbn += pmp->pm_FATsecs;
/* getblk() never fails */
bpn = getblk(pmp->pm_devvp, fatbn, bp->b_bcount,
0, 0, 0);
memcpy(bpn->b_data, bp->b_data, bp->b_bcount);
/* Force the clean bit on in the other copies. */
if (cleanfat == 16)
((uint8_t *)bpn->b_data)[3] |= 0x80;
else if (cleanfat == 32)
((uint8_t *)bpn->b_data)[7] |= 0x08;
if (pmp->pm_mountp->mnt_flag & MNT_SYNCHRONOUS)
bwrite(bpn);
else
bdwrite(bpn);
}
}
/*
* Write out the first (or current) FAT last.
*/
if (pmp->pm_mountp->mnt_flag & MNT_SYNCHRONOUS)
bwrite(bp);
else
bdwrite(bp);
}
/*
* Updating entries in 12 bit FATs is a pain in the butt.
*
* The following picture shows where nibbles go when moving from a 12 bit
* cluster number into the appropriate bytes in the FAT.
*
* byte m byte m+1 byte m+2
* +----+----+ +----+----+ +----+----+
* | 0 1 | | 2 3 | | 4 5 | FAT bytes
* +----+----+ +----+----+ +----+----+
*
* +----+----+----+ +----+----+----+
* | 3 0 1 | | 4 5 2 |
* +----+----+----+ +----+----+----+
* cluster n cluster n+1
*
* Where n is even. m = n + (n >> 2)
*
*/
static __inline void
usemap_alloc(struct msdosfsmount *pmp, u_long cn)
{
MSDOSFS_ASSERT_MP_LOCKED(pmp);
KASSERT(cn <= pmp->pm_maxcluster, ("cn too large %lu %lu", cn,
pmp->pm_maxcluster));
KASSERT((pmp->pm_flags & MSDOSFSMNT_RONLY) == 0,
("usemap_alloc on ro msdosfs mount"));
KASSERT((pmp->pm_inusemap[cn / N_INUSEBITS] & (1 << (cn % N_INUSEBITS)))
== 0, ("Allocating used sector %ld %ld %x", cn, cn % N_INUSEBITS,
(unsigned)pmp->pm_inusemap[cn / N_INUSEBITS]));
pmp->pm_inusemap[cn / N_INUSEBITS] |= 1U << (cn % N_INUSEBITS);
KASSERT(pmp->pm_freeclustercount > 0, ("usemap_alloc: too little"));
pmp->pm_freeclustercount--;
pmp->pm_flags |= MSDOSFS_FSIMOD;
}
static __inline void
usemap_free(struct msdosfsmount *pmp, u_long cn)
{
MSDOSFS_ASSERT_MP_LOCKED(pmp);
KASSERT(cn <= pmp->pm_maxcluster, ("cn too large %lu %lu", cn,
pmp->pm_maxcluster));
KASSERT((pmp->pm_flags & MSDOSFSMNT_RONLY) == 0,
("usemap_free on ro msdosfs mount"));
pmp->pm_freeclustercount++;
pmp->pm_flags |= MSDOSFS_FSIMOD;
KASSERT((pmp->pm_inusemap[cn / N_INUSEBITS] & (1 << (cn % N_INUSEBITS)))
!= 0, ("Freeing unused sector %ld %ld %x", cn, cn % N_INUSEBITS,
(unsigned)pmp->pm_inusemap[cn / N_INUSEBITS]));
pmp->pm_inusemap[cn / N_INUSEBITS] &= ~(1U << (cn % N_INUSEBITS));
}
int
clusterfree(struct msdosfsmount *pmp, u_long cluster, u_long *oldcnp)
{
int error;
u_long oldcn;
error = fatentry(FAT_GET_AND_SET, pmp, cluster, &oldcn, MSDOSFSFREE);
if (error)
return (error);
/*
* If the cluster was successfully marked free, then update
* the count of free clusters, and turn off the "allocated"
* bit in the "in use" cluster bit map.
*/
MSDOSFS_LOCK_MP(pmp);
usemap_free(pmp, cluster);
MSDOSFS_UNLOCK_MP(pmp);
if (oldcnp)
*oldcnp = oldcn;
return (0);
}
/*
* Get or Set or 'Get and Set' the cluster'th entry in the FAT.
*
* function - whether to get or set a FAT entry
* pmp - address of the msdosfsmount structure for the filesystem
* whose FAT is to be manipulated.
* cn - which cluster is of interest
* oldcontents - address of a word that is to receive the contents of the
* cluster'th entry if this is a get function
* newcontents - the new value to be written into the cluster'th element of
* the FAT if this is a set function.
*
* This function can also be used to free a cluster by setting the FAT entry
* for a cluster to 0.
*
* All copies of the FAT are updated if this is a set function. NOTE: If
* fatentry() marks a cluster as free it does not update the inusemap in
* the msdosfsmount structure. This is left to the caller.
*/
int
fatentry(int function, struct msdosfsmount *pmp, u_long cn, u_long *oldcontents,
u_long newcontents)
{
int error;
u_long readcn;
u_long bn, bo, bsize, byteoffset;
struct buf *bp;
#ifdef MSDOSFS_DEBUG
printf("fatentry(func %d, pmp %p, clust %lu, oldcon %p, newcon %lx)\n",
function, pmp, cn, oldcontents, newcontents);
#endif
#ifdef DIAGNOSTIC
/*
* Be sure they asked us to do something.
*/
if ((function & (FAT_SET | FAT_GET)) == 0) {
#ifdef MSDOSFS_DEBUG
printf("fatentry(): function code doesn't specify get or set\n");
#endif
return (EINVAL);
}
/*
* If they asked us to return a cluster number but didn't tell us
* where to put it, give them an error.
*/
if ((function & FAT_GET) && oldcontents == NULL) {
#ifdef MSDOSFS_DEBUG
printf("fatentry(): get function with no place to put result\n");
#endif
return (EINVAL);
}
#endif
/*
* Be sure the requested cluster is in the filesystem.
*/
if (cn < CLUST_FIRST || cn > pmp->pm_maxcluster)
return (EINVAL);
byteoffset = FATOFS(pmp, cn);
fatblock(pmp, byteoffset, &bn, &bsize, &bo);
error = bread(pmp->pm_devvp, bn, bsize, NOCRED, &bp);
if (error) {
brelse(bp);
return (error);
}
if (function & FAT_GET) {
if (FAT32(pmp))
readcn = getulong(&bp->b_data[bo]);
else
readcn = getushort(&bp->b_data[bo]);
if (FAT12(pmp) & (cn & 1))
readcn >>= 4;
readcn &= pmp->pm_fatmask;
/* map reserved FAT entries to same values for all FATs */
if ((readcn | ~pmp->pm_fatmask) >= CLUST_RSRVD)
readcn |= ~pmp->pm_fatmask;
*oldcontents = readcn;
}
if (function & FAT_SET) {
switch (pmp->pm_fatmask) {
case FAT12_MASK:
readcn = getushort(&bp->b_data[bo]);
if (cn & 1) {
readcn &= 0x000f;
readcn |= newcontents << 4;
} else {
readcn &= 0xf000;
readcn |= newcontents & 0xfff;
}
putushort(&bp->b_data[bo], readcn);
break;
case FAT16_MASK:
putushort(&bp->b_data[bo], newcontents);
break;
case FAT32_MASK:
/*
* According to spec we have to retain the
* high order bits of the FAT entry.
*/
readcn = getulong(&bp->b_data[bo]);
readcn &= ~FAT32_MASK;
readcn |= newcontents & FAT32_MASK;
putulong(&bp->b_data[bo], readcn);
break;
}
updatefats(pmp, bp, bn);
bp = NULL;
pmp->pm_fmod = 1;
}
if (bp)
brelse(bp);
return (0);
}
/*
* Update a contiguous cluster chain
*
* pmp - mount point
* start - first cluster of chain
* count - number of clusters in chain
* fillwith - what to write into FAT entry of last cluster
*/
static int
fatchain(struct msdosfsmount *pmp, u_long start, u_long count, u_long fillwith)
{
int error;
u_long bn, bo, bsize, byteoffset, readcn, newc;
struct buf *bp;
#ifdef MSDOSFS_DEBUG
printf("fatchain(pmp %p, start %lu, count %lu, fillwith %lx)\n",
pmp, start, count, fillwith);
#endif
/*
* Be sure the clusters are in the filesystem.
*/
if (start < CLUST_FIRST || start + count - 1 > pmp->pm_maxcluster)
return (EINVAL);
while (count > 0) {
byteoffset = FATOFS(pmp, start);
fatblock(pmp, byteoffset, &bn, &bsize, &bo);
error = bread(pmp->pm_devvp, bn, bsize, NOCRED, &bp);
if (error) {
brelse(bp);
return (error);
}
while (count > 0) {
start++;
newc = --count > 0 ? start : fillwith;
switch (pmp->pm_fatmask) {
case FAT12_MASK:
readcn = getushort(&bp->b_data[bo]);
if (start & 1) {
readcn &= 0xf000;
readcn |= newc & 0xfff;
} else {
readcn &= 0x000f;
readcn |= newc << 4;
}
putushort(&bp->b_data[bo], readcn);
bo++;
if (!(start & 1))
bo++;
break;
case FAT16_MASK:
putushort(&bp->b_data[bo], newc);
bo += 2;
break;
case FAT32_MASK:
readcn = getulong(&bp->b_data[bo]);
readcn &= ~pmp->pm_fatmask;
readcn |= newc & pmp->pm_fatmask;
putulong(&bp->b_data[bo], readcn);
bo += 4;
break;
}
if (bo >= bsize)
break;
}
updatefats(pmp, bp, bn);
}
pmp->pm_fmod = 1;
return (0);
}
/*
* Check the length of a free cluster chain starting at start.
*
* pmp - mount point
* start - start of chain
* count - maximum interesting length
*/
static int
chainlength(struct msdosfsmount *pmp, u_long start, u_long count)
{
u_long idx, max_idx;
u_int map;
u_long len;
MSDOSFS_ASSERT_MP_LOCKED(pmp);
if (start > pmp->pm_maxcluster)
return (0);
max_idx = pmp->pm_maxcluster / N_INUSEBITS;
idx = start / N_INUSEBITS;
start %= N_INUSEBITS;
map = pmp->pm_inusemap[idx];
map &= ~((1 << start) - 1);
if (map) {
len = ffs(map) - 1 - start;
len = MIN(len, count);
if (start + len > pmp->pm_maxcluster)
len = pmp->pm_maxcluster - start + 1;
return (len);
}
len = N_INUSEBITS - start;
if (len >= count) {
len = count;
if (start + len > pmp->pm_maxcluster)
len = pmp->pm_maxcluster - start + 1;
return (len);
}
while (++idx <= max_idx) {
if (len >= count)
break;
map = pmp->pm_inusemap[idx];
if (map) {
len += ffs(map) - 1;
break;
}
len += N_INUSEBITS;
}
len = MIN(len, count);
if (start + len > pmp->pm_maxcluster)
len = pmp->pm_maxcluster - start + 1;
return (len);
}
/*
* Allocate contigous free clusters.
*
* pmp - mount point.
* start - start of cluster chain.
* count - number of clusters to allocate.
* fillwith - put this value into the FAT entry for the
* last allocated cluster.
* retcluster - put the first allocated cluster's number here.
* got - how many clusters were actually allocated.
*/
static int
chainalloc(struct msdosfsmount *pmp, u_long start, u_long count,
u_long fillwith, u_long *retcluster, u_long *got)
{
int error;
u_long cl, n;
MSDOSFS_ASSERT_MP_LOCKED(pmp);
KASSERT((pmp->pm_flags & MSDOSFSMNT_RONLY) == 0,
("chainalloc on ro msdosfs mount"));
for (cl = start, n = count; n-- > 0;)
usemap_alloc(pmp, cl++);
pmp->pm_nxtfree = start + count;
if (pmp->pm_nxtfree > pmp->pm_maxcluster)
pmp->pm_nxtfree = CLUST_FIRST;
pmp->pm_flags |= MSDOSFS_FSIMOD;
error = fatchain(pmp, start, count, fillwith);
if (error != 0) {
for (cl = start, n = count; n-- > 0;)
usemap_free(pmp, cl++);
return (error);
}
#ifdef MSDOSFS_DEBUG
printf("clusteralloc(): allocated cluster chain at %lu (%lu clusters)\n",
start, count);
#endif
if (retcluster)
*retcluster = start;
if (got)
*got = count;
return (0);
}
/*
* Allocate contiguous free clusters.
*
* pmp - mount point.
* start - preferred start of cluster chain.
* count - number of clusters requested.
* fillwith - put this value into the FAT entry for the
* last allocated cluster.
* retcluster - put the first allocated cluster's number here.
* got - how many clusters were actually allocated.
*/
int
clusteralloc(struct msdosfsmount *pmp, u_long start, u_long count,
u_long fillwith, u_long *retcluster, u_long *got)
{
int error;
MSDOSFS_LOCK_MP(pmp);
error = clusteralloc1(pmp, start, count, fillwith, retcluster, got);
MSDOSFS_UNLOCK_MP(pmp);
return (error);
}
static int
clusteralloc1(struct msdosfsmount *pmp, u_long start, u_long count,
u_long fillwith, u_long *retcluster, u_long *got)
{
u_long idx;
u_long len, newst, foundl, cn, l;
u_long foundcn = 0; /* XXX: foundcn could be used unititialized */
u_int map;
MSDOSFS_ASSERT_MP_LOCKED(pmp);
#ifdef MSDOSFS_DEBUG
printf("clusteralloc(): find %lu clusters\n", count);
#endif
if (start) {
if ((len = chainlength(pmp, start, count)) >= count)
return (chainalloc(pmp, start, count, fillwith, retcluster, got));
} else
len = 0;
newst = pmp->pm_nxtfree;
foundl = 0;
for (cn = newst; cn <= pmp->pm_maxcluster;) {
idx = cn / N_INUSEBITS;
map = pmp->pm_inusemap[idx];
map |= (1U << (cn % N_INUSEBITS)) - 1;
if (map != FULL_RUN) {
cn = idx * N_INUSEBITS + ffs(map ^ FULL_RUN) - 1;
if ((l = chainlength(pmp, cn, count)) >= count)
return (chainalloc(pmp, cn, count, fillwith, retcluster, got));
if (l > foundl) {
foundcn = cn;
foundl = l;
}
cn += l + 1;
continue;
}
cn += N_INUSEBITS - cn % N_INUSEBITS;
}
for (cn = 0; cn < newst;) {
idx = cn / N_INUSEBITS;
map = pmp->pm_inusemap[idx];
map |= (1U << (cn % N_INUSEBITS)) - 1;
if (map != FULL_RUN) {
cn = idx * N_INUSEBITS + ffs(map ^ FULL_RUN) - 1;
if ((l = chainlength(pmp, cn, count)) >= count)
return (chainalloc(pmp, cn, count, fillwith, retcluster, got));
if (l > foundl) {
foundcn = cn;
foundl = l;
}
cn += l + 1;
continue;
}
cn += N_INUSEBITS - cn % N_INUSEBITS;
}
if (!foundl)
return (ENOSPC);
if (len)
return (chainalloc(pmp, start, len, fillwith, retcluster, got));
else
return (chainalloc(pmp, foundcn, foundl, fillwith, retcluster, got));
}
/*
* Free a chain of clusters.
*
* pmp - address of the msdosfs mount structure for the filesystem
* containing the cluster chain to be freed.
* startcluster - number of the 1st cluster in the chain of clusters to be
* freed.
*/
int
freeclusterchain(struct msdosfsmount *pmp, u_long cluster)
{
int error;
struct buf *bp = NULL;
u_long bn, bo, bsize, byteoffset;
u_long readcn, lbn = -1;
MSDOSFS_LOCK_MP(pmp);
while (cluster >= CLUST_FIRST && cluster <= pmp->pm_maxcluster) {
byteoffset = FATOFS(pmp, cluster);
fatblock(pmp, byteoffset, &bn, &bsize, &bo);
if (lbn != bn) {
if (bp)
updatefats(pmp, bp, lbn);
error = bread(pmp->pm_devvp, bn, bsize, NOCRED, &bp);
if (error) {
brelse(bp);
MSDOSFS_UNLOCK_MP(pmp);
return (error);
}
lbn = bn;
}
usemap_free(pmp, cluster);
switch (pmp->pm_fatmask) {
case FAT12_MASK:
readcn = getushort(&bp->b_data[bo]);
if (cluster & 1) {
cluster = readcn >> 4;
readcn &= 0x000f;
readcn |= MSDOSFSFREE << 4;
} else {
cluster = readcn;
readcn &= 0xf000;
readcn |= MSDOSFSFREE & 0xfff;
}
putushort(&bp->b_data[bo], readcn);
break;
case FAT16_MASK:
cluster = getushort(&bp->b_data[bo]);
putushort(&bp->b_data[bo], MSDOSFSFREE);
break;
case FAT32_MASK:
cluster = getulong(&bp->b_data[bo]);
putulong(&bp->b_data[bo],
(MSDOSFSFREE & FAT32_MASK) | (cluster & ~FAT32_MASK));
break;
}
cluster &= pmp->pm_fatmask;
if ((cluster | ~pmp->pm_fatmask) >= CLUST_RSRVD)
cluster |= pmp->pm_fatmask;
}
if (bp)
updatefats(pmp, bp, bn);
MSDOSFS_UNLOCK_MP(pmp);
return (0);
}
/*
* Read in FAT blocks looking for free clusters. For every free cluster
* found turn off its corresponding bit in the pm_inusemap.
*/
int
fillinusemap(struct msdosfsmount *pmp)
{
struct buf *bp;
u_long bn, bo, bsize, byteoffset, cn, readcn;
int error;
MSDOSFS_ASSERT_MP_LOCKED(pmp);
bp = NULL;
/*
* Mark all clusters in use, we mark the free ones in the FAT scan
* loop further down.
*/
for (cn = 0; cn < (pmp->pm_maxcluster + N_INUSEBITS) / N_INUSEBITS; cn++)
pmp->pm_inusemap[cn] = FULL_RUN;
/*
* Figure how many free clusters are in the filesystem by ripping
* through the FAT counting the number of entries whose content is
* zero. These represent free clusters.
*/
pmp->pm_freeclustercount = 0;
for (cn = 0; cn <= pmp->pm_maxcluster; cn++) {
byteoffset = FATOFS(pmp, cn);
bo = byteoffset % pmp->pm_fatblocksize;
if (bo == 0) {
/* Read new FAT block */
if (bp != NULL)
brelse(bp);
fatblock(pmp, byteoffset, &bn, &bsize, NULL);
error = bread(pmp->pm_devvp, bn, bsize, NOCRED, &bp);
if (error != 0)
return (error);
}
if (FAT32(pmp))
readcn = getulong(&bp->b_data[bo]);
else
readcn = getushort(&bp->b_data[bo]);
if (FAT12(pmp) && (cn & 1))
readcn >>= 4;
readcn &= pmp->pm_fatmask;
/*
* Check if the FAT ID matches the BPB's media descriptor and
* all other bits are set to 1.
*/
if (cn == 0 && readcn != ((pmp->pm_fatmask & 0xffffff00) |
pmp->pm_bpb.bpbMedia)) {
#ifdef MSDOSFS_DEBUG
printf("mountmsdosfs(): Media descriptor in BPB"
"does not match FAT ID\n");
#endif
brelse(bp);
return (EINVAL);
} else if (readcn == CLUST_FREE)
usemap_free(pmp, cn);
}
if (bp != NULL)
brelse(bp);
for (cn = pmp->pm_maxcluster + 1; cn < (pmp->pm_maxcluster +
N_INUSEBITS) / N_INUSEBITS; cn++)
pmp->pm_inusemap[cn / N_INUSEBITS] |= 1U << (cn % N_INUSEBITS);
return (0);
}
/*
* Allocate a new cluster and chain it onto the end of the file.
*
* dep - the file to extend
* count - number of clusters to allocate
* bpp - where to return the address of the buf header for the first new
* file block
* ncp - where to put cluster number of the first newly allocated cluster
* If this pointer is 0, do not return the cluster number.
* flags - see fat.h
*
* NOTE: This function is not responsible for turning on the DE_UPDATE bit of
* the de_flag field of the denode and it does not change the de_FileSize
* field. This is left for the caller to do.
*/
int
extendfile(struct denode *dep, u_long count, struct buf **bpp, u_long *ncp,
int flags)
{
int error;
u_long frcn;
u_long cn, got;
struct msdosfsmount *pmp = dep->de_pmp;
struct buf *bp;
daddr_t blkno;
/*
* Don't try to extend the root directory
*/
if (dep->de_StartCluster == MSDOSFSROOT
&& (dep->de_Attributes & ATTR_DIRECTORY)) {
#ifdef MSDOSFS_DEBUG
printf("extendfile(): attempt to extend root directory\n");
#endif
return (ENOSPC);
}
/*
* If the "file's last cluster" cache entry is empty, and the file
* is not empty, then fill the cache entry by calling pcbmap().
*/
if (dep->de_fc[FC_LASTFC].fc_frcn == FCE_EMPTY &&
dep->de_StartCluster != 0) {
error = pcbmap(dep, 0xffff, 0, &cn, 0);
/* we expect it to return E2BIG */
if (error != E2BIG)
return (error);
}
dep->de_fc[FC_NEXTTOLASTFC].fc_frcn =
dep->de_fc[FC_LASTFC].fc_frcn;
dep->de_fc[FC_NEXTTOLASTFC].fc_fsrcn =
dep->de_fc[FC_LASTFC].fc_fsrcn;
while (count > 0) {
/*
* Allocate a new cluster chain and cat onto the end of the
* file. If the file is empty we make de_StartCluster point
* to the new block. Note that de_StartCluster being 0 is
* sufficient to be sure the file is empty since we exclude
* attempts to extend the root directory above, and the root
* dir is the only file with a startcluster of 0 that has
* blocks allocated (sort of).
*/
if (dep->de_StartCluster == 0)
cn = 0;
else
cn = dep->de_fc[FC_LASTFC].fc_fsrcn + 1;
error = clusteralloc(pmp, cn, count, CLUST_EOFE, &cn, &got);
if (error)
return (error);
count -= got;
/*
* Give them the filesystem relative cluster number if they want
* it.
*/
if (ncp) {
*ncp = cn;
ncp = NULL;
}
if (dep->de_StartCluster == 0) {
dep->de_StartCluster = cn;
frcn = 0;
} else {
error = fatentry(FAT_SET, pmp,
dep->de_fc[FC_LASTFC].fc_fsrcn,
0, cn);
if (error) {
clusterfree(pmp, cn, NULL);
return (error);
}
frcn = dep->de_fc[FC_LASTFC].fc_frcn + 1;
}
/*
* Update the "last cluster of the file" entry in the
* denode's FAT cache.
*/
fc_setcache(dep, FC_LASTFC, frcn + got - 1, cn + got - 1);
if (flags & DE_CLEAR) {
while (got-- > 0) {
/*
* Get the buf header for the new block of the file.
*/
if (dep->de_Attributes & ATTR_DIRECTORY)
bp = getblk(pmp->pm_devvp,
cntobn(pmp, cn++),
pmp->pm_bpcluster, 0, 0, 0);
else {
bp = getblk(DETOV(dep),
frcn++,
pmp->pm_bpcluster, 0, 0, 0);
/*
* Do the bmap now, as in msdosfs_write
*/
if (pcbmap(dep,
bp->b_lblkno,
&blkno, 0, 0))
bp->b_blkno = -1;
if (bp->b_blkno == -1)
panic("extendfile: pcbmap");
else
bp->b_blkno = blkno;
}
clrbuf(bp);
if (bpp) {
*bpp = bp;
bpp = NULL;
} else
bdwrite(bp);
}
}
}
return (0);
}
/*-
* Routine to mark a FAT16 or FAT32 volume as "clean" or "dirty" by
* manipulating the upper bit of the FAT entry for cluster 1. Note that
* this bit is not defined for FAT12 volumes, which are always assumed to
* be clean.
*
* The fatentry() routine only works on cluster numbers that a file could
* occupy, so it won't manipulate the entry for cluster 1. So we have to do
* it here. The code was stolen from fatentry() and tailored for cluster 1.
*
* Inputs:
* pmp The MS-DOS volume to mark
* dirty Non-zero if the volume should be marked dirty; zero if it
* should be marked clean
*
* Result:
* 0 Success
* EROFS Volume is read-only
* ? (other errors from called routines)
*/
int
markvoldirty(struct msdosfsmount *pmp, int dirty)
{
struct buf *bp;
u_long bn, bo, bsize, byteoffset, fatval;
int error;
/*
* FAT12 does not support a "clean" bit, so don't do anything for
* FAT12.
*/
if (FAT12(pmp))
return (0);
/* Can't change the bit on a read-only filesystem. */
if (pmp->pm_flags & MSDOSFSMNT_RONLY)
return (EROFS);
/*
* Fetch the block containing the FAT entry. It is given by the
* pseudo-cluster 1.
*/
byteoffset = FATOFS(pmp, 1);
fatblock(pmp, byteoffset, &bn, &bsize, &bo);
error = bread(pmp->pm_devvp, bn, bsize, NOCRED, &bp);
if (error) {
brelse(bp);
return (error);
}
/*
* Get the current value of the FAT entry and set/clear the relevant
* bit. Dirty means clear the "clean" bit; clean means set the
* "clean" bit.
*/
if (FAT32(pmp)) {
/* FAT32 uses bit 27. */
fatval = getulong(&bp->b_data[bo]);
if (dirty)
fatval &= 0xF7FFFFFF;
else
fatval |= 0x08000000;
putulong(&bp->b_data[bo], fatval);
} else {
/* Must be FAT16; use bit 15. */
fatval = getushort(&bp->b_data[bo]);
if (dirty)
fatval &= 0x7FFF;
else
fatval |= 0x8000;
putushort(&bp->b_data[bo], fatval);
}
/* Write out the modified FAT block synchronously. */
return (bwrite(bp));
}