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|
/* $OpenBSD: fat.c,v 1.3 1996/06/23 14:30:43 deraadt Exp $ */
/* $NetBSD: fat.c,v 1.1.4.1 1996/05/31 18:41:50 jtc Exp $ */
/*
* Copyright (C) 1995, 1996 Wolfgang Solfrank
* Copyright (c) 1995 Martin Husemann
*
* 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 Martin Husemann
* and Wolfgang Solfrank.
* 4. 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 AUTHORS ``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 AUTHORS 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.
*/
#ifndef lint
static char rcsid[] = "$OpenBSD: fat.c,v 1.3 1996/06/23 14:30:43 deraadt Exp $";
#endif /* not lint */
#include <stdlib.h>
#include <string.h>
#include <ctype.h>
#include <stdio.h>
#include <unistd.h>
#include "ext.h"
/*
* Check a cluster number for valid value
*/
static int
checkclnum(boot, fat, cl, next)
struct bootblock *boot;
int fat;
cl_t cl;
cl_t *next;
{
if (!boot->Is16BitFat && *next >= (CLUST_RSRVD&0xfff))
*next |= 0xf000;
if (*next == CLUST_FREE) {
boot->NumFree++;
return FSOK;
}
if (*next < CLUST_FIRST
|| (*next >= boot->NumClusters && *next < CLUST_EOFS)) {
pwarn("Cluster %d in FAT %d continues with %s cluster number %d\n",
cl, fat,
*next < CLUST_RSRVD ? "out of range" : "reserved",
*next);
if (ask(0, "Truncate")) {
*next = CLUST_EOF;
return FSFATMOD;
}
return FSERROR;
}
return FSOK;
}
/*
* Read a FAT and decode it into internal format
*/
int
readfat(fs, boot, no, fp)
int fs;
struct bootblock *boot;
int no;
struct fatEntry **fp;
{
struct fatEntry *fat;
u_char *buffer, *p;
cl_t cl;
off_t off;
int size;
int ret = FSOK;
boot->NumFree = 0;
fat = malloc(sizeof(struct fatEntry) * boot->NumClusters);
buffer = malloc(boot->FATsecs * boot->BytesPerSec);
if (fat == NULL || buffer == NULL) {
perror("No space for FAT");
if (fat)
free(fat);
return FSFATAL;
}
memset(fat, 0, sizeof(struct fatEntry) * boot->NumClusters);
off = boot->ResSectors + no * boot->FATsecs;
off *= boot->BytesPerSec;
if (lseek(fs, off, SEEK_SET) != off) {
perror("Unable to read FAT");
free(buffer);
free(fat);
return FSFATAL;
}
if ((size = read(fs, buffer, boot->FATsecs * boot->BytesPerSec))
!= boot->FATsecs * boot->BytesPerSec) {
if (size < 0)
perror("Unable to read FAT");
else
pfatal("Short FAT?");
free(buffer);
free(fat);
return FSFATAL;
}
/*
* Remember start of FAT to allow keeping it in write_fat.
*/
fat[0].length = buffer[0]|(buffer[1] << 8)|(buffer[2] << 16);
if (boot->Is16BitFat)
fat[0].length |= buffer[3] << 24;
if (buffer[1] != 0xff || buffer[2] != 0xff
|| (boot->Is16BitFat && buffer[3] != 0xff)) {
char *msg = boot->Is16BitFat
? "FAT starts with odd byte sequence (%02x%02x%02x%02x)\n"
: "FAT starts with odd byte sequence (%02x%02x%02x)\n";
pwarn(msg, buffer[0], buffer[1], buffer[2], buffer[3]);
if (ask(1, "Correct")) {
fat[0].length = boot->Media|0xffffff;
ret |= FSFATMOD;
}
}
p = buffer + (boot->Is16BitFat ? 4 : 3);
for (cl = CLUST_FIRST; cl < boot->NumClusters;) {
if (boot->Is16BitFat) {
fat[cl].next = p[0] + (p[1] << 8);
ret |= checkclnum(boot, no, cl, &fat[cl].next);
cl++;
p += 2;
} else {
fat[cl].next = (p[0] + (p[1] << 8)) & 0x0fff;
ret |= checkclnum(boot, no, cl, &fat[cl].next);
cl++;
if (cl >= boot->NumClusters)
break;
fat[cl].next = ((p[1] >> 4) + (p[2] << 4)) & 0x0fff;
ret |= checkclnum(boot, no, cl, &fat[cl].next);
cl++;
p += 3;
}
}
free(buffer);
*fp = fat;
return ret;
}
/*
* Get type of reserved cluster
*/
char *
rsrvdcltype(cl)
cl_t cl;
{
if (cl < CLUST_BAD)
return "reserved";
if (cl > CLUST_BAD)
return "as EOF";
return "bad";
}
static int
clustdiffer(cl, cp1, cp2, fatnum)
cl_t cl;
cl_t *cp1;
cl_t *cp2;
int fatnum;
{
if (*cp1 >= CLUST_RSRVD) {
if (*cp2 >= CLUST_RSRVD) {
if ((*cp1 < CLUST_BAD && *cp2 < CLUST_BAD)
|| (*cp1 > CLUST_BAD && *cp2 > CLUST_BAD)) {
pwarn("Cluster %d is marked %s with different indicators, ",
cl, rsrvdcltype(*cp1));
if (ask(1, "fix")) {
*cp2 = *cp1;
return FSFATMOD;
}
return FSFATAL;
}
pwarn("Cluster %d is marked %s in FAT 1, %s in FAT %d\n",
cl, rsrvdcltype(*cp1), rsrvdcltype(*cp2), fatnum);
if (ask(0, "use FAT #1's entry")) {
*cp2 = *cp1;
return FSFATMOD;
}
if (ask(0, "use FAT #%d's entry", fatnum)) {
*cp1 = *cp2;
return FSFATMOD;
}
return FSFATAL;
}
pwarn("Cluster %d is marked %s in FAT 1, but continues with cluster %d in FAT %d\n",
cl, rsrvdcltype(*cp1), *cp2, fatnum);
if (ask(0, "Use continuation from FAT %d", fatnum)) {
*cp1 = *cp2;
return FSFATMOD;
}
if (ask(0, "Use mark from FAT 1")) {
*cp2 = *cp1;
return FSFATMOD;
}
return FSFATAL;
}
if (*cp2 >= CLUST_RSRVD) {
pwarn("Cluster %d continues with cluster %d in FAT 1, but is marked %s in FAT %d\n",
cl, *cp1, rsrvdcltype(*cp2), fatnum);
if (ask(0, "Use continuation from FAT 1")) {
*cp2 = *cp1;
return FSFATMOD;
}
if (ask(0, "Use mark from FAT %d", fatnum)) {
*cp1 = *cp2;
return FSFATMOD;
}
return FSERROR;
}
pwarn("Cluster %d continues with cluster %d in FAT 1, but with cluster %d in FAT %d\n",
cl, *cp1, *cp2, fatnum);
if (ask(0, "Use continuation from FAT 1")) {
*cp2 = *cp1;
return FSFATMOD;
}
if (ask(0, "Use continuation from FAT %d", fatnum)) {
*cp1 = *cp2;
return FSFATMOD;
}
return FSERROR;
}
/*
* Compare two FAT copies in memory. Resolve any conflicts and merge them
* into the first one.
*/
int
comparefat(boot, first, second, fatnum)
struct bootblock *boot;
struct fatEntry *first;
struct fatEntry *second;
int fatnum;
{
cl_t cl;
int ret = FSOK;
if (first[0].next != second[0].next) {
pwarn("Media bytes in cluster 1(%02x) and %d(%02x) differ\n",
first[0].next, fatnum, second[0].next);
if (ask(1, "Use media byte from FAT 1")) {
second[0].next = first[0].next;
ret |= FSFATMOD;
} else if (ask(0, "Use media byte from FAT %d", fatnum)) {
first[0].next = second[0].next;
ret |= FSFATMOD;
} else
ret |= FSERROR;
}
for (cl = CLUST_FIRST; cl < boot->NumClusters; cl++)
if (first[cl].next != second[cl].next)
ret |= clustdiffer(cl, &first[cl].next, &second[cl].next, fatnum);
return ret;
}
void
clearchain(boot, fat, head)
struct bootblock *boot;
struct fatEntry *fat;
cl_t head;
{
cl_t p, q;
for (p = head; p >= CLUST_FIRST && p < boot->NumClusters; p = q) {
if (fat[p].head != head)
break;
q = fat[p].next;
fat[p].next = fat[p].head = CLUST_FREE;
fat[p].length = 0;
}
}
/*
* Check a complete FAT in-memory for crosslinks
*/
int
checkfat(boot, fat)
struct bootblock *boot;
struct fatEntry *fat;
{
cl_t head, p, h;
u_int len;
int ret = 0;
int conf;
/*
* pass 1: figure out the cluster chains.
*/
for (head = CLUST_FIRST; head < boot->NumClusters; head++) {
/* find next untraveled chain */
if (fat[head].head != 0 /* cluster already belongs to some chain*/
|| fat[head].next == CLUST_FREE)
continue; /* skip it. */
/* follow the chain and mark all clusters on the way */
for (len = 0, p = head;
p >= CLUST_FIRST && p < boot->NumClusters;
p = fat[p].next) {
fat[p].head = head;
len++;
}
/* the head record gets the length */
fat[head].length = len;
}
/*
* pass 2: check for crosslinked chains (we couldn't do this in pass 1 because
* we didn't know the real start of the chain then - would have treated partial
* chains as interlinked with their main chain)
*/
for (head = CLUST_FIRST; head < boot->NumClusters; head++) {
/* find next untraveled chain */
if (fat[head].head != head)
continue;
/* follow the chain to its end (hopefully) */
for (p = head;
fat[p].next >= CLUST_FIRST && fat[p].next < boot->NumClusters;
p = fat[p].next)
if (fat[fat[p].next].head != head)
break;
if (fat[p].next >= CLUST_EOFS)
continue;
if (fat[p].next == 0) {
pwarn("Cluster chain starting at %d ends with free cluster\n", head);
if (ask(0, "Clear chain starting at %d", head)) {
clearchain(boot, fat, head);
ret |= FSFATMOD;
} else
ret |= FSERROR;
continue;
}
if (fat[p].next >= CLUST_RSRVD) {
pwarn("Cluster chain starting at %d ends with cluster marked %s\n",
head, rsrvdcltype(fat[p].next));
if (ask(0, "Clear chain starting at %d", head)) {
clearchain(boot, fat, head);
ret |= FSFATMOD;
} else
ret |= FSERROR;
continue;
}
if (fat[p].next < CLUST_FIRST || fat[p].next >= boot->NumClusters) {
pwarn("Cluster chain starting at %d ends with cluster out of range (%d)\n",
head, fat[p].next);
if (ask(0, "Clear chain starting at %d", head)) {
clearchain(boot, fat, head);
ret |= FSFATMOD;
} else
ret |= FSERROR;
}
pwarn("Cluster chains starting at %d and %d are linked at cluster %d\n",
head, fat[p].head, p);
conf = FSERROR;
if (ask(0, "Clear chain starting at %d", head)) {
clearchain(boot, fat, head);
conf = FSFATMOD;
}
if (ask(0, "Clear chain starting at %d", h = fat[p].head)) {
if (conf == FSERROR) {
/*
* Transfer the common chain to the one not cleared above.
*/
for (; p >= CLUST_FIRST && p < boot->NumClusters;
p = fat[p].next) {
if (h != fat[p].head) {
/*
* Have to reexamine this chain.
*/
head--;
break;
}
fat[p].head = head;
}
}
clearchain(boot, fat, h);
conf |= FSFATMOD;
}
ret |= conf;
}
return ret;
}
/*
* Write out FATs encoding them from the internal format
*/
int
writefat(fs, boot, fat)
int fs;
struct bootblock *boot;
struct fatEntry *fat;
{
u_char *buffer, *p;
cl_t cl;
int i;
u_int32_t fatsz;
off_t off;
int ret = FSOK;
buffer = malloc(fatsz = boot->FATsecs * boot->BytesPerSec);
if (buffer == NULL) {
perror("No space for FAT");
return FSFATAL;
}
memset(buffer, 0, fatsz);
boot->NumFree = 0;
buffer[0] = (u_char)fat[0].length;
buffer[1] = (u_char)(fat[0].length >> 8);
if (boot->Is16BitFat)
buffer[3] = (u_char)(fat[0].length >> 24);
for (cl = CLUST_FIRST, p = buffer; cl < boot->NumClusters;) {
if (boot->Is16BitFat) {
p[0] = (u_char)fat[cl].next;
if (fat[cl].next == CLUST_FREE)
boot->NumFree++;
p[1] = (u_char)(fat[cl++].next >> 8);
p += 2;
} else {
if (fat[cl].next == CLUST_FREE)
boot->NumFree++;
if (cl + 1 < boot->NumClusters
&& fat[cl + 1].next == CLUST_FREE)
boot->NumFree++;
p[0] = (u_char)fat[cl].next;
p[1] = (u_char)((fat[cl].next >> 8) & 0xf)
|(u_char)(fat[cl+1].next << 4);
p[2] = (u_char)(fat[cl++].next >> 8);
p += 3;
}
}
for (i = 0; i < boot->FATs; i++) {
off = boot->ResSectors + i * boot->FATsecs;
off *= boot->BytesPerSec;
if (lseek(fs, off, SEEK_SET) != off
|| write(fs, buffer, fatsz) != fatsz) {
perror("Unable to write FAT");
ret = FSFATAL; /* Return immediately? XXX */
}
}
free(buffer);
return ret;
}
/*
* Check a complete in-memory FAT for lost cluster chains
*/
int
checklost(dosfs, boot, fat)
int dosfs;
struct bootblock *boot;
struct fatEntry *fat;
{
cl_t head;
int mod = FSOK;
for (head = CLUST_FIRST; head < boot->NumClusters; head++) {
/* find next untraveled chain */
if (fat[head].head != head
|| fat[head].next == CLUST_FREE
|| (fat[head].next >= CLUST_RSRVD
&& fat[head].next < CLUST_EOFS)
|| (fat[head].flags & FAT_USED))
continue;
pwarn("Lost cluster chain at cluster 0x%04x\n%d Cluster(s) lost\n",
head, fat[head].length);
mod |= reconnect(dosfs, boot, fat, head);
if (mod & FSFATAL)
break;
}
finishlf();
return mod;
}
|