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/*
* volume_id - reads filesystem label and uuid
*
* Copyright (C) 2004 Kay Sievers <kay.sievers@vrfy.org>
*
* The superblock structs are taken from the linux kernel sources
* and the libblkid living inside the e2fsprogs. This is a simple
* straightforward implementation for reading the label strings of the
* most common filesystems.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#ifndef _GNU_SOURCE
#define _GNU_SOURCE 1
#endif
#ifdef HAVE_CONFIG_H
# include <config.h>
#endif
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <string.h>
#include <errno.h>
#include <ctype.h>
#include <fcntl.h>
#include <sys/stat.h>
#include <asm/types.h>
#include "volume_id.h"
#include "volume_id_logging.h"
#define bswap16(x) (__u16)((((__u16)(x) & 0x00ffu) << 8) | \
(((__u16)(x) & 0xff00u) >> 8))
#define bswap32(x) (__u32)((((__u32)(x) & 0xff000000u) >> 24) | \
(((__u32)(x) & 0x00ff0000u) >> 8) | \
(((__u32)(x) & 0x0000ff00u) << 8) | \
(((__u32)(x) & 0x000000ffu) << 24))
#define bswap64(x) (__u64)((((__u64)(x) & 0xff00000000000000ull) >> 56) | \
(((__u64)(x) & 0x00ff000000000000ull) >> 40) | \
(((__u64)(x) & 0x0000ff0000000000ull) >> 24) | \
(((__u64)(x) & 0x000000ff00000000ull) >> 8) | \
(((__u64)(x) & 0x00000000ff000000ull) << 8) | \
(((__u64)(x) & 0x0000000000ff0000ull) << 24) | \
(((__u64)(x) & 0x000000000000ff00ull) << 40) | \
(((__u64)(x) & 0x00000000000000ffull) << 56))
#if (__BYTE_ORDER == __LITTLE_ENDIAN)
#define le16_to_cpu(x) (x)
#define le32_to_cpu(x) (x)
#define le64_to_cpu(x) (x)
#define be16_to_cpu(x) bswap16(x)
#define be32_to_cpu(x) bswap32(x)
#elif (__BYTE_ORDER == __BIG_ENDIAN)
#define le16_to_cpu(x) bswap16(x)
#define le32_to_cpu(x) bswap32(x)
#define le64_to_cpu(x) bswap64(x)
#define be16_to_cpu(x) (x)
#define be32_to_cpu(x) (x)
#endif
/* size of superblock buffer, reiserfs block is at 64k */
#define SB_BUFFER_SIZE 0x11000
/* size of seek buffer 4k */
#define SEEK_BUFFER_SIZE 0x10000
static void set_label_raw(struct volume_id *id,
const __u8 *buf, unsigned int count)
{
memcpy(id->label_raw, buf, count);
id->label_raw_len = count;
}
static void set_label_string(struct volume_id *id,
const __u8 *buf, unsigned int count)
{
unsigned int i;
memcpy(id->label, buf, count);
/* remove trailing whitespace */
i = strnlen(id->label, count);
while (i--) {
if (! isspace(id->label[i]))
break;
}
id->label[i+1] = '\0';
}
#define LE 0
#define BE 1
static void set_label_unicode16(struct volume_id *id,
const __u8 *buf,
unsigned int endianess,
unsigned int count)
{
unsigned int i, j;
__u16 c;
j = 0;
for (i = 0; i + 2 <= count; i += 2) {
if (endianess == LE)
c = (buf[i+1] << 8) | buf[i];
else
c = (buf[i] << 8) | buf[i+1];
if (c == 0) {
id->label[j] = '\0';
break;
} else if (c < 0x80) {
id->label[j++] = (__u8) c;
} else if (c < 0x800) {
id->label[j++] = (__u8) (0xc0 | (c >> 6));
id->label[j++] = (__u8) (0x80 | (c & 0x3f));
} else {
id->label[j++] = (__u8) (0xe0 | (c >> 12));
id->label[j++] = (__u8) (0x80 | ((c >> 6) & 0x3f));
id->label[j++] = (__u8) (0x80 | (c & 0x3f));
}
}
}
enum uuid_format {
UUID_DCE,
UUID_DOS,
UUID_NTFS,
UUID_HFS,
};
static void set_uuid(struct volume_id *id, const __u8 *buf, enum uuid_format format)
{
unsigned int i;
unsigned int count = 0;
switch(format) {
case UUID_DOS:
count = 4;
break;
case UUID_NTFS:
case UUID_HFS:
count = 8;
break;
case UUID_DCE:
count = 16;
}
memcpy(id->uuid_raw, buf, count);
/* if set, create string in the same format, the native platform uses */
for (i = 0; i < count; i++)
if (buf[i] != 0)
goto set;
return;
set:
switch(format) {
case UUID_DOS:
sprintf(id->uuid, "%02X%02X-%02X%02X",
buf[3], buf[2], buf[1], buf[0]);
break;
case UUID_NTFS:
sprintf(id->uuid,"%02X%02X%02X%02X%02X%02X%02X%02X",
buf[7], buf[6], buf[5], buf[4],
buf[3], buf[2], buf[1], buf[0]);
break;
case UUID_HFS:
sprintf(id->uuid,"%02X%02X%02X%02X%02X%02X%02X%02X",
buf[0], buf[1], buf[2], buf[3],
buf[4], buf[5], buf[6], buf[7]);
break;
case UUID_DCE:
sprintf(id->uuid,
"%02x%02x%02x%02x-%02x%02x-%02x%02x-%02x%02x-%02x%02x%02x%02x%02x%02x",
buf[0], buf[1], buf[2], buf[3],
buf[4], buf[5],
buf[6], buf[7],
buf[8], buf[9],
buf[10], buf[11], buf[12], buf[13], buf[14],buf[15]);
break;
}
}
static __u8 *get_buffer(struct volume_id *id, __u64 off, unsigned int len)
{
unsigned int buf_len;
dbg("get buffer off 0x%llx, len 0x%x", off, len);
/* check if requested area fits in superblock buffer */
if (off + len <= SB_BUFFER_SIZE) {
if (id->sbbuf == NULL) {
id->sbbuf = malloc(SB_BUFFER_SIZE);
if (id->sbbuf == NULL)
return NULL;
}
/* check if we need to read */
if ((off + len) > id->sbbuf_len) {
dbg("read sbbuf len:0x%llx", off + len);
lseek(id->fd, 0, SEEK_SET);
buf_len = read(id->fd, id->sbbuf, off + len);
dbg("got 0x%x (%i) bytes", buf_len, buf_len);
id->sbbuf_len = buf_len;
if (buf_len < off + len)
return NULL;
}
return &(id->sbbuf[off]);
} else {
if (len > SEEK_BUFFER_SIZE) {
dbg("seek buffer too small %d", SEEK_BUFFER_SIZE);
return NULL;
}
/* get seek buffer */
if (id->seekbuf == NULL) {
id->seekbuf = malloc(SEEK_BUFFER_SIZE);
if (id->seekbuf == NULL)
return NULL;
}
/* check if we need to read */
if ((off < id->seekbuf_off) || ((off + len) > (id->seekbuf_off + id->seekbuf_len))) {
dbg("read seekbuf off:0x%llx len:0x%x", off, len);
if (lseek(id->fd, off, SEEK_SET) == -1)
return NULL;
buf_len = read(id->fd, id->seekbuf, len);
dbg("got 0x%x (%i) bytes", buf_len, buf_len);
id->seekbuf_off = off;
id->seekbuf_len = buf_len;
if (buf_len < len) {
dbg("requested 0x%x bytes, got only 0x%x bytes", len, buf_len);
return NULL;
}
}
return &(id->seekbuf[off - id->seekbuf_off]);
}
}
static void free_buffer(struct volume_id *id)
{
if (id->sbbuf != NULL) {
free(id->sbbuf);
id->sbbuf = NULL;
id->sbbuf_len = 0;
}
if (id->seekbuf != NULL) {
free(id->seekbuf);
id->seekbuf = NULL;
id->seekbuf_len = 0;
}
}
#define HPT37X_CONFIG_OFF 0x1200
#define HPT37X_MAGIC_OK 0x5a7816f0
#define HPT37X_MAGIC_BAD 0x5a7816fd
static int probe_highpoint_ataraid(struct volume_id *id, __u64 off)
{
struct hpt37x {
__u8 filler1[32];
__u32 magic;
__u32 magic_0;
__u32 magic_1;
} __attribute__((packed)) *hpt;
const __u8 *buf;
buf = get_buffer(id, off + HPT37X_CONFIG_OFF, 0x200);
if (buf == NULL)
return -1;
hpt = (struct hpt37x *) buf;
if (hpt->magic != HPT37X_MAGIC_OK && hpt->magic != HPT37X_MAGIC_BAD)
return -1;
id->usage_id = VOLUME_ID_RAID;
id->type_id = VOLUME_ID_HPTRAID;
id->type = "hpt_ataraid_member";
return 0;
}
#define LVM1_SB_OFF 0x400
#define LVM1_MAGIC "HM"
static int probe_lvm1(struct volume_id *id, __u64 off)
{
struct lvm2_super_block {
__u8 id[2];
} __attribute__((packed)) *lvm;
const __u8 *buf;
buf = get_buffer(id, off + LVM1_SB_OFF, 0x800);
if (buf == NULL)
return -1;
lvm = (struct lvm2_super_block *) buf;
if (strncmp(lvm->id, LVM1_MAGIC, 2) != 0)
return -1;
id->usage_id = VOLUME_ID_RAID;
id->type_id = VOLUME_ID_LVM1;
id->type = "LVM1_member";
return 0;
}
#define LVM2_LABEL_ID "LABELONE"
#define LVM2LABEL_SCAN_SECTORS 4
static int probe_lvm2(struct volume_id *id, __u64 off)
{
struct lvm2_super_block {
__u8 id[8];
__u64 sector_xl;
__u32 crc_xl;
__u32 offset_xl;
__u8 type[8];
} __attribute__((packed)) *lvm;
const __u8 *buf;
unsigned int soff;
buf = get_buffer(id, off, LVM2LABEL_SCAN_SECTORS * 0x200);
if (buf == NULL)
return -1;
for (soff = 0; soff < LVM2LABEL_SCAN_SECTORS * 0x200; soff += 0x200) {
lvm = (struct lvm2_super_block *) &buf[soff];
if (strncmp(lvm->id, LVM2_LABEL_ID, 8) == 0)
goto found;
}
return -1;
found:
strncpy(id->type_version, lvm->type, 8);
id->usage_id = VOLUME_ID_RAID;
id->type_id = VOLUME_ID_LVM2;
id->type = "LVM2_member";
return 0;
}
#define MD_RESERVED_BYTES 0x10000
#define MD_MAGIC 0xa92b4efc
static int probe_linux_raid(struct volume_id *id, __u64 off, __u64 size)
{
struct mdp_super_block {
__u32 md_magic;
__u32 major_version;
__u32 minor_version;
__u32 patch_version;
__u32 gvalid_words;
__u32 set_uuid0;
__u32 ctime;
__u32 level;
__u32 size;
__u32 nr_disks;
__u32 raid_disks;
__u32 md_minor;
__u32 not_persistent;
__u32 set_uuid1;
__u32 set_uuid2;
__u32 set_uuid3;
} __attribute__((packed)) *mdp;
const __u8 *buf;
__u64 sboff;
__u8 uuid[16];
if (size < 0x10000)
return -1;
sboff = (size & ~(MD_RESERVED_BYTES - 1)) - MD_RESERVED_BYTES;
buf = get_buffer(id, off + sboff, 0x800);
if (buf == NULL)
return -1;
mdp = (struct mdp_super_block *) buf;
if (le32_to_cpu(mdp->md_magic) != MD_MAGIC)
return -1;
memcpy(uuid, &mdp->set_uuid0, 4);
memcpy(&uuid[4], &mdp->set_uuid1, 12);
set_uuid(id, uuid, UUID_DCE);
snprintf(id->type_version, VOLUME_ID_FORMAT_SIZE-1, "%u.%u.%u",
le32_to_cpu(mdp->major_version),
le32_to_cpu(mdp->minor_version),
le32_to_cpu(mdp->patch_version));
dbg("found raid signature");
id->usage_id = VOLUME_ID_RAID;
id->type = "linux_raid_member";
return 0;
}
#define MSDOS_MAGIC "\x55\xaa"
#define MSDOS_PARTTABLE_OFFSET 0x1be
#define MSDOS_SIG_OFF 0x1fe
#define BSIZE 0x200
#define DOS_EXTENDED_PARTITION 0x05
#define LINUX_EXTENDED_PARTITION 0x85
#define WIN98_EXTENDED_PARTITION 0x0f
#define LINUX_RAID_PARTITION 0xfd
#define is_extended(type) \
(type == DOS_EXTENDED_PARTITION || \
type == WIN98_EXTENDED_PARTITION || \
type == LINUX_EXTENDED_PARTITION)
#define is_raid(type) \
(type == LINUX_RAID_PARTITION)
static int probe_msdos_part_table(struct volume_id *id, __u64 off)
{
struct msdos_partition_entry {
__u8 boot_ind;
__u8 head;
__u8 sector;
__u8 cyl;
__u8 sys_ind;
__u8 end_head;
__u8 end_sector;
__u8 end_cyl;
__u32 start_sect;
__u32 nr_sects;
} __attribute__((packed)) *part;
const __u8 *buf;
int i;
__u64 poff;
__u64 plen;
__u64 extended = 0;
__u64 current;
__u64 next;
int limit;
int empty = 1;
struct volume_id_partition *p;
buf = get_buffer(id, off, 0x200);
if (buf == NULL)
return -1;
if (strncmp(&buf[MSDOS_SIG_OFF], MSDOS_MAGIC, 2) != 0)
return -1;
/* check flags on all entries for a valid partition table */
part = (struct msdos_partition_entry*) &buf[MSDOS_PARTTABLE_OFFSET];
for (i = 0; i < 4; i++) {
if (part[i].boot_ind != 0 &&
part[i].boot_ind != 0x80)
return -1;
if (le32_to_cpu(part[i].nr_sects) != 0)
empty = 0;
}
if (empty == 1)
return -1;
if (id->partitions != NULL)
free(id->partitions);
id->partitions = malloc(VOLUME_ID_PARTITIONS_MAX *
sizeof(struct volume_id_partition));
if (id->partitions == NULL)
return -1;
memset(id->partitions, 0x00,
VOLUME_ID_PARTITIONS_MAX * sizeof(struct volume_id_partition));
for (i = 0; i < 4; i++) {
poff = (__u64) le32_to_cpu(part[i].start_sect) * BSIZE;
plen = (__u64) le32_to_cpu(part[i].nr_sects) * BSIZE;
if (plen == 0)
continue;
p = &id->partitions[i];
p->partition_type_raw = part[i].sys_ind;
if (is_extended(part[i].sys_ind)) {
dbg("found extended partition at 0x%llx", poff);
p->usage_id = VOLUME_ID_PARTITIONTABLE;
p->type_id = VOLUME_ID_MSDOSEXTENDED;
p->type = "msdos_extended_partition";
if (extended == 0)
extended = off + poff;
} else {
dbg("found 0x%x data partition at 0x%llx, len 0x%llx",
part[i].sys_ind, poff, plen);
if (is_raid(part[i].sys_ind))
p->usage_id = VOLUME_ID_RAID;
else
p->usage_id = VOLUME_ID_UNPROBED;
}
p->off = off + poff;
p->len = plen;
id->partition_count = i+1;
}
next = extended;
current = extended;
limit = 50;
/* follow extended partition chain and add data partitions */
while (next != 0) {
if (limit-- == 0) {
dbg("extended chain limit reached");
break;
}
buf = get_buffer(id, current, 0x200);
if (buf == NULL)
break;
part = (struct msdos_partition_entry*) &buf[MSDOS_PARTTABLE_OFFSET];
if (strncmp(&buf[MSDOS_SIG_OFF], MSDOS_MAGIC, 2) != 0)
break;
next = 0;
for (i = 0; i < 4; i++) {
poff = (__u64) le32_to_cpu(part[i].start_sect) * BSIZE;
plen = (__u64) le32_to_cpu(part[i].nr_sects) * BSIZE;
if (plen == 0)
continue;
if (is_extended(part[i].sys_ind)) {
dbg("found extended partition at 0x%llx", poff);
if (next == 0)
next = extended + poff;
} else {
dbg("found 0x%x data partition at 0x%llx, len 0x%llx",
part[i].sys_ind, poff, plen);
/* we always start at the 5th entry */
while (id->partition_count < 4)
id->partitions[id->partition_count++].usage_id =
VOLUME_ID_UNUSED;
p = &id->partitions[id->partition_count];
if (is_raid(part[i].sys_ind))
p->usage_id = VOLUME_ID_RAID;
else
p->usage_id = VOLUME_ID_UNPROBED;
p->off = current + poff;
p->len = plen;
id->partition_count++;
p->partition_type_raw = part[i].sys_ind;
if (id->partition_count >= VOLUME_ID_PARTITIONS_MAX) {
dbg("too many partitions");
next = 0;
}
}
}
current = next;
}
id->usage_id = VOLUME_ID_PARTITIONTABLE;
id->type_id = VOLUME_ID_MSDOSPARTTABLE;
id->type = "msdos_partition_table";
return 0;
}
#define EXT3_FEATURE_COMPAT_HAS_JOURNAL 0x00000004
#define EXT3_FEATURE_INCOMPAT_JOURNAL_DEV 0x00000008
#define EXT_SUPERBLOCK_OFFSET 0x400
static int probe_ext(struct volume_id *id, __u64 off)
{
struct ext2_super_block {
__u32 inodes_count;
__u32 blocks_count;
__u32 r_blocks_count;
__u32 free_blocks_count;
__u32 free_inodes_count;
__u32 first_data_block;
__u32 log_block_size;
__u32 dummy3[7];
__u8 magic[2];
__u16 state;
__u32 dummy5[8];
__u32 feature_compat;
__u32 feature_incompat;
__u32 feature_ro_compat;
__u8 uuid[16];
__u8 volume_name[16];
} __attribute__((__packed__)) *es;
es = (struct ext2_super_block *)
get_buffer(id, off + EXT_SUPERBLOCK_OFFSET, 0x200);
if (es == NULL)
return -1;
if (es->magic[0] != 0123 ||
es->magic[1] != 0357)
return -1;
set_label_raw(id, es->volume_name, 16);
set_label_string(id, es->volume_name, 16);
set_uuid(id, es->uuid, UUID_DCE);
if ((le32_to_cpu(es->feature_compat) &
EXT3_FEATURE_COMPAT_HAS_JOURNAL) != 0) {
id->usage_id = VOLUME_ID_FILESYSTEM;
id->type_id = VOLUME_ID_EXT3;
id->type = "ext3";
} else {
id->usage_id = VOLUME_ID_FILESYSTEM;
id->type_id = VOLUME_ID_EXT2;
id->type = "ext2";
}
return 0;
}
#define REISERFS1_SUPERBLOCK_OFFSET 0x2000
#define REISERFS_SUPERBLOCK_OFFSET 0x10000
static int probe_reiserfs(struct volume_id *id, __u64 off)
{
struct reiserfs_super_block {
__u32 blocks_count;
__u32 free_blocks;
__u32 root_block;
__u32 journal_block;
__u32 journal_dev;
__u32 orig_journal_size;
__u32 dummy2[5];
__u16 blocksize;
__u16 dummy3[3];
__u8 magic[12];
__u32 dummy4[5];
__u8 uuid[16];
__u8 label[16];
} __attribute__((__packed__)) *rs;
rs = (struct reiserfs_super_block *)
get_buffer(id, off + REISERFS_SUPERBLOCK_OFFSET, 0x200);
if (rs == NULL)
return -1;
if (strncmp(rs->magic, "ReIsEr2Fs", 9) == 0) {
strcpy(id->type_version, "3.6");
goto found;
}
if (strncmp(rs->magic, "ReIsEr3Fs", 9) == 0) {
strcpy(id->type_version, "JR");
goto found;
}
rs = (struct reiserfs_super_block *)
get_buffer(id, off + REISERFS1_SUPERBLOCK_OFFSET, 0x200);
if (rs == NULL)
return -1;
if (strncmp(rs->magic, "ReIsErFs", 8) == 0) {
strcpy(id->type_version, "3.5");
goto found;
}
return -1;
found:
set_label_raw(id, rs->label, 16);
set_label_string(id, rs->label, 16);
set_uuid(id, rs->uuid, UUID_DCE);
id->usage_id = VOLUME_ID_FILESYSTEM;
id->type_id = VOLUME_ID_REISERFS;
id->type = "reiserfs";
return 0;
}
static int probe_xfs(struct volume_id *id, __u64 off)
{
struct xfs_super_block {
__u8 magic[4];
__u32 blocksize;
__u64 dblocks;
__u64 rblocks;
__u32 dummy1[2];
__u8 uuid[16];
__u32 dummy2[15];
__u8 fname[12];
__u32 dummy3[2];
__u64 icount;
__u64 ifree;
__u64 fdblocks;
} __attribute__((__packed__)) *xs;
xs = (struct xfs_super_block *) get_buffer(id, off, 0x200);
if (xs == NULL)
return -1;
if (strncmp(xs->magic, "XFSB", 4) != 0)
return -1;
set_label_raw(id, xs->fname, 12);
set_label_string(id, xs->fname, 12);
set_uuid(id, xs->uuid, UUID_DCE);
id->usage_id = VOLUME_ID_FILESYSTEM;
id->type_id = VOLUME_ID_XFS;
id->type = "xfs";
return 0;
}
#define JFS_SUPERBLOCK_OFFSET 0x8000
static int probe_jfs(struct volume_id *id, __u64 off)
{
struct jfs_super_block {
__u8 magic[4];
__u32 version;
__u64 size;
__u32 bsize;
__u32 dummy1;
__u32 pbsize;
__u32 dummy2[27];
__u8 uuid[16];
__u8 label[16];
__u8 loguuid[16];
} __attribute__((__packed__)) *js;
js = (struct jfs_super_block *)
get_buffer(id, off + JFS_SUPERBLOCK_OFFSET, 0x200);
if (js == NULL)
return -1;
if (strncmp(js->magic, "JFS1", 4) != 0)
return -1;
set_label_raw(id, js->label, 16);
set_label_string(id, js->label, 16);
set_uuid(id, js->uuid, UUID_DCE);
id->usage_id = VOLUME_ID_FILESYSTEM;
id->type_id = VOLUME_ID_JFS;
id->type = "jfs";
return 0;
}
#define FAT12_MAX 0xff5
#define FAT16_MAX 0xfff5
#define FAT_ATTR_VOLUME_ID 0x08
#define FAT_ATTR_DIR 0x10
#define FAT_ATTR_LONG_NAME 0x0f
#define FAT_ATTR_MASK 0x3f
#define FAT_ENTRY_FREE 0xe5
static int probe_vfat(struct volume_id *id, __u64 off)
{
struct vfat_super_block {
__u8 boot_jump[3];
__u8 sysid[8];
__u16 sector_size;
__u8 sectors_per_cluster;
__u16 reserved;
__u8 fats;
__u16 dir_entries;
__u16 sectors;
__u8 media;
__u16 fat_length;
__u16 secs_track;
__u16 heads;
__u32 hidden;
__u32 total_sect;
union {
struct fat_super_block {
__u8 unknown[3];
__u8 serno[4];
__u8 label[11];
__u8 magic[8];
__u8 dummy2[192];
__u8 pmagic[2];
} __attribute__((__packed__)) fat;
struct fat32_super_block {
__u32 fat32_length;
__u16 flags;
__u8 version[2];
__u32 root_cluster;
__u16 insfo_sector;
__u16 backup_boot;
__u16 reserved2[6];
__u8 unknown[3];
__u8 serno[4];
__u8 label[11];
__u8 magic[8];
__u8 dummy2[164];
__u8 pmagic[2];
} __attribute__((__packed__)) fat32;
} __attribute__((__packed__)) type;
} __attribute__((__packed__)) *vs;
struct vfat_dir_entry {
__u8 name[11];
__u8 attr;
__u16 time_creat;
__u16 date_creat;
__u16 time_acc;
__u16 date_acc;
__u16 cluster_high;
__u16 time_write;
__u16 date_write;
__u16 cluster_low;
__u32 size;
} __attribute__((__packed__)) *dir;
__u16 sector_size;
__u16 dir_entries;
__u32 sect_count;
__u16 reserved;
__u32 fat_size;
__u32 root_cluster;
__u32 dir_size;
__u32 cluster_count;
__u32 fat_length;
__u64 root_start;
__u32 start_data_sect;
__u16 root_dir_entries;
__u8 *buf;
__u32 buf_size;
__u8 *label = NULL;
__u32 next;
int maxloop;
int i;
vs = (struct vfat_super_block *) get_buffer(id, off, 0x200);
if (vs == NULL)
return -1;
/* believe only that's fat, don't trust the version
* the cluster_count will tell us
*/
if (strncmp(vs->sysid, "NTFS", 4) == 0)
return -1;
if (strncmp(vs->type.fat32.magic, "MSWIN", 5) == 0)
goto valid;
if (strncmp(vs->type.fat32.magic, "FAT32 ", 8) == 0)
goto valid;
if (strncmp(vs->type.fat.magic, "FAT16 ", 8) == 0)
goto valid;
if (strncmp(vs->type.fat.magic, "MSDOS", 5) == 0)
goto valid;
if (strncmp(vs->type.fat.magic, "FAT12 ", 8) == 0)
goto valid;
/*
* There are old floppies out there without a magic, so we check
* for well known values and guess if it's a fat volume
*/
/* boot jump address check */
if ((vs->boot_jump[0] != 0xeb || vs->boot_jump[2] != 0x90) &&
vs->boot_jump[0] != 0xe9)
return -1;
/* heads check */
if (vs->heads == 0)
return -1;
/* cluster size check*/
if (vs->sectors_per_cluster == 0 ||
(vs->sectors_per_cluster & (vs->sectors_per_cluster-1)))
return -1;
/* media check */
if (vs->media < 0xf8 && vs->media != 0xf0)
return -1;
/* fat count*/
if (vs->fats != 2)
return -1;
valid:
/* sector size check */
sector_size = le16_to_cpu(vs->sector_size);
if (sector_size != 0x200 && sector_size != 0x400 &&
sector_size != 0x800 && sector_size != 0x1000)
return -1;
dbg("sector_size 0x%x", sector_size);
dbg("sectors_per_cluster 0x%x", vs->sectors_per_cluster);
dir_entries = le16_to_cpu(vs->dir_entries);
reserved = le16_to_cpu(vs->reserved);
dbg("reserved 0x%x", reserved);
sect_count = le16_to_cpu(vs->sectors);
if (sect_count == 0)
sect_count = le32_to_cpu(vs->total_sect);
dbg("sect_count 0x%x", sect_count);
fat_length = le16_to_cpu(vs->fat_length);
if (fat_length == 0)
fat_length = le32_to_cpu(vs->type.fat32.fat32_length);
dbg("fat_length 0x%x", fat_length);
fat_size = fat_length * vs->fats;
dir_size = ((dir_entries * sizeof(struct vfat_dir_entry)) +
(sector_size-1)) / sector_size;
dbg("dir_size 0x%x", dir_size);
cluster_count = sect_count - (reserved + fat_size + dir_size);
cluster_count /= vs->sectors_per_cluster;
dbg("cluster_count 0x%x", cluster_count);
if (cluster_count < FAT12_MAX) {
strcpy(id->type_version, "FAT12");
} else if (cluster_count < FAT16_MAX) {
strcpy(id->type_version, "FAT16");
} else {
strcpy(id->type_version, "FAT32");
goto fat32;
}
/* the label may be an attribute in the root directory */
root_start = (reserved + fat_size) * sector_size;
dbg("root dir start 0x%llx", root_start);
root_dir_entries = le16_to_cpu(vs->dir_entries);
dbg("expected entries 0x%x", root_dir_entries);
buf_size = root_dir_entries * sizeof(struct vfat_dir_entry);
buf = get_buffer(id, off + root_start, buf_size);
if (buf == NULL)
goto found;
dir = (struct vfat_dir_entry*) buf;
for (i = 0; i < root_dir_entries; i++) {
/* end marker */
if (dir[i].name[0] == 0x00) {
dbg("end of dir");
break;
}
/* empty entry */
if (dir[i].name[0] == FAT_ENTRY_FREE)
continue;
/* long name */
if ((dir[i].attr & FAT_ATTR_MASK) == FAT_ATTR_LONG_NAME)
continue;
if ((dir[i].attr & (FAT_ATTR_VOLUME_ID | FAT_ATTR_DIR)) == FAT_ATTR_VOLUME_ID) {
/* labels do not have file data */
if (dir[i].cluster_high != 0 || dir[i].cluster_low != 0)
continue;
dbg("found ATTR_VOLUME_ID id in root dir");
label = dir[i].name;
break;
}
dbg("skip dir entry");
}
vs = (struct vfat_super_block *) get_buffer(id, off, 0x200);
if (vs == NULL)
return -1;
if (label != NULL && strncmp(label, "NO NAME ", 11) != 0) {
set_label_raw(id, label, 11);
set_label_string(id, label, 11);
} else if (strncmp(vs->type.fat.label, "NO NAME ", 11) != 0) {
set_label_raw(id, vs->type.fat.label, 11);
set_label_string(id, vs->type.fat.label, 11);
}
set_uuid(id, vs->type.fat.serno, UUID_DOS);
goto found;
fat32:
/* FAT32 root dir is a cluster chain like any other directory */
buf_size = vs->sectors_per_cluster * sector_size;
root_cluster = le32_to_cpu(vs->type.fat32.root_cluster);
dbg("root dir cluster %u", root_cluster);
start_data_sect = reserved + fat_size;
next = root_cluster;
maxloop = 100;
while (--maxloop) {
__u32 next_sect_off;
__u64 next_off;
__u64 fat_entry_off;
int count;
dbg("next cluster %u", next);
next_sect_off = (next - 2) * vs->sectors_per_cluster;
next_off = (start_data_sect + next_sect_off) * sector_size;
dbg("cluster offset 0x%llx", next_off);
/* get cluster */
buf = get_buffer(id, off + next_off, buf_size);
if (buf == NULL)
goto found;
dir = (struct vfat_dir_entry*) buf;
count = buf_size / sizeof(struct vfat_dir_entry);
dbg("expected entries 0x%x", count);
for (i = 0; i < count; i++) {
/* end marker */
if (dir[i].name[0] == 0x00) {
dbg("end of dir");
goto fat32_label;
}
/* empty entry */
if (dir[i].name[0] == FAT_ENTRY_FREE)
continue;
/* long name */
if ((dir[i].attr & FAT_ATTR_MASK) == FAT_ATTR_LONG_NAME)
continue;
if ((dir[i].attr & (FAT_ATTR_VOLUME_ID | FAT_ATTR_DIR)) == FAT_ATTR_VOLUME_ID) {
/* labels do not have file data */
if (dir[i].cluster_high != 0 || dir[i].cluster_low != 0)
continue;
dbg("found ATTR_VOLUME_ID id in root dir");
label = dir[i].name;
goto fat32_label;
}
dbg("skip dir entry");
}
/* get FAT entry */
fat_entry_off = (reserved * sector_size) + (next * sizeof(__u32));
buf = get_buffer(id, off + fat_entry_off, buf_size);
if (buf == NULL)
goto found;
/* set next cluster */
next = le32_to_cpu(*((__u32 *) buf) & 0x0fffffff);
if (next == 0)
break;
}
if (maxloop == 0)
dbg("reached maximum follow count of root cluster chain, give up");
fat32_label:
vs = (struct vfat_super_block *) get_buffer(id, off, 0x200);
if (vs == NULL)
return -1;
if (label != NULL && strncmp(label, "NO NAME ", 11) != 0) {
set_label_raw(id, label, 11);
set_label_string(id, label, 11);
} else if (strncmp(vs->type.fat32.label, "NO NAME ", 11) != 0) {
set_label_raw(id, vs->type.fat32.label, 11);
set_label_string(id, vs->type.fat32.label, 11);
}
set_uuid(id, vs->type.fat32.serno, UUID_DOS);
found:
id->usage_id = VOLUME_ID_FILESYSTEM;
id->type_id = VOLUME_ID_VFAT;
id->type = "vfat";
return 0;
}
#define UDF_VSD_OFFSET 0x8000
static int probe_udf(struct volume_id *id, __u64 off)
{
struct volume_descriptor {
struct descriptor_tag {
__u16 id;
__u16 version;
__u8 checksum;
__u8 reserved;
__u16 serial;
__u16 crc;
__u16 crc_len;
__u32 location;
} __attribute__((__packed__)) tag;
union {
struct anchor_descriptor {
__u32 length;
__u32 location;
} __attribute__((__packed__)) anchor;
struct primary_descriptor {
__u32 seq_num;
__u32 desc_num;
struct dstring {
__u8 clen;
__u8 c[31];
} __attribute__((__packed__)) ident;
} __attribute__((__packed__)) primary;
} __attribute__((__packed__)) type;
} __attribute__((__packed__)) *vd;
struct volume_structure_descriptor {
__u8 type;
__u8 id[5];
__u8 version;
} *vsd;
unsigned int bs;
unsigned int b;
unsigned int type;
unsigned int count;
unsigned int loc;
unsigned int clen;
vsd = (struct volume_structure_descriptor *)
get_buffer(id, off + UDF_VSD_OFFSET, 0x200);
if (vsd == NULL)
return -1;
if (strncmp(vsd->id, "NSR02", 5) == 0)
goto blocksize;
if (strncmp(vsd->id, "NSR03", 5) == 0)
goto blocksize;
if (strncmp(vsd->id, "BEA01", 5) == 0)
goto blocksize;
if (strncmp(vsd->id, "BOOT2", 5) == 0)
goto blocksize;
if (strncmp(vsd->id, "CD001", 5) == 0)
goto blocksize;
if (strncmp(vsd->id, "CDW02", 5) == 0)
goto blocksize;
if (strncmp(vsd->id, "TEA03", 5) == 0)
goto blocksize;
return -1;
blocksize:
/* search the next VSD to get the logical block size of the volume */
for (bs = 0x800; bs < 0x8000; bs += 0x800) {
vsd = (struct volume_structure_descriptor *)
get_buffer(id, off + UDF_VSD_OFFSET + bs, 0x800);
if (vsd == NULL)
return -1;
dbg("test for blocksize: 0x%x", bs);
if (vsd->id[0] != '\0')
goto nsr;
}
return -1;
nsr:
/* search the list of VSDs for a NSR descriptor */
for (b = 0; b < 64; b++) {
vsd = (struct volume_structure_descriptor *)
get_buffer(id, off + UDF_VSD_OFFSET + (b * bs), 0x800);
if (vsd == NULL)
return -1;
dbg("vsd: %c%c%c%c%c",
vsd->id[0], vsd->id[1], vsd->id[2], vsd->id[3], vsd->id[4]);
if (vsd->id[0] == '\0')
return -1;
if (strncmp(vsd->id, "NSR02", 5) == 0)
goto anchor;
if (strncmp(vsd->id, "NSR03", 5) == 0)
goto anchor;
}
return -1;
anchor:
/* read anchor volume descriptor */
vd = (struct volume_descriptor *)
get_buffer(id, off + (256 * bs), 0x200);
if (vd == NULL)
return -1;
type = le16_to_cpu(vd->tag.id);
if (type != 2) /* TAG_ID_AVDP */
goto found;
/* get desriptor list address and block count */
count = le32_to_cpu(vd->type.anchor.length) / bs;
loc = le32_to_cpu(vd->type.anchor.location);
dbg("0x%x descriptors starting at logical secor 0x%x", count, loc);
/* pick the primary descriptor from the list */
for (b = 0; b < count; b++) {
vd = (struct volume_descriptor *)
get_buffer(id, off + ((loc + b) * bs), 0x200);
if (vd == NULL)
return -1;
type = le16_to_cpu(vd->tag.id);
dbg("descriptor type %i", type);
/* check validity */
if (type == 0)
goto found;
if (le32_to_cpu(vd->tag.location) != loc + b)
goto found;
if (type == 1) /* TAG_ID_PVD */
goto pvd;
}
goto found;
pvd:
set_label_raw(id, &(vd->type.primary.ident.clen), 32);
clen = vd->type.primary.ident.clen;
dbg("label string charsize=%i bit", clen);
if (clen == 8)
set_label_string(id, vd->type.primary.ident.c, 31);
else if (clen == 16)
set_label_unicode16(id, vd->type.primary.ident.c, BE,31);
found:
id->usage_id = VOLUME_ID_FILESYSTEM;
id->type_id = VOLUME_ID_UDF;
id->type = "udf";
return 0;
}
#define ISO_SUPERBLOCK_OFFSET 0x8000
#define ISO_SECTOR_SIZE 0x800
#define ISO_VD_OFFSET (ISO_SUPERBLOCK_OFFSET + ISO_SECTOR_SIZE)
#define ISO_VD_PRIMARY 0x1
#define ISO_VD_SUPPLEMENTARY 0x2
#define ISO_VD_END 0xff
#define ISO_VD_MAX 16
static int probe_iso9660(struct volume_id *id, __u64 off)
{
union iso_super_block {
struct iso_header {
__u8 type;
__u8 id[5];
__u8 version;
__u8 unused1;
__u8 system_id[32];
__u8 volume_id[32];
} __attribute__((__packed__)) iso;
struct hs_header {
__u8 foo[8];
__u8 type;
__u8 id[4];
__u8 version;
} __attribute__((__packed__)) hs;
} __attribute__((__packed__)) *is;
is = (union iso_super_block *)
get_buffer(id, off + ISO_SUPERBLOCK_OFFSET, 0x200);
if (is == NULL)
return -1;
if (strncmp(is->iso.id, "CD001", 5) == 0) {
char root_label[VOLUME_ID_LABEL_SIZE+1];
int vd_offset;
int i;
int found_svd;
memset(root_label, 0, sizeof(root_label));
strncpy(root_label, is->iso.volume_id, sizeof(root_label)-1);
found_svd = 0;
vd_offset = ISO_VD_OFFSET;
for (i = 0; i < ISO_VD_MAX; i++) {
is = (union iso_super_block *)
get_buffer (id, off + vd_offset, 0x200);
if (is == NULL || is->iso.type == ISO_VD_END)
break;
if (is->iso.type == ISO_VD_SUPPLEMENTARY) {
dbg("found ISO supplementary VD at offset 0x%llx", off + vd_offset);
set_label_raw(id, is->iso.volume_id, 32);
set_label_unicode16(id, is->iso.volume_id, BE, 32);
found_svd = 1;
break;
}
vd_offset += ISO_SECTOR_SIZE;
}
if (!found_svd ||
(found_svd && !strncmp(root_label, id->label, 16)))
{
set_label_raw(id, root_label, 32);
set_label_string(id, root_label, 32);
}
goto found;
}
if (strncmp(is->hs.id, "CDROM", 5) == 0)
goto found;
return -1;
found:
id->usage_id = VOLUME_ID_FILESYSTEM;
id->type_id = VOLUME_ID_ISO9660;
id->type = "iso9660";
return 0;
}
#define UFS_MAGIC 0x00011954
#define UFS2_MAGIC 0x19540119
#define UFS_MAGIC_FEA 0x00195612
#define UFS_MAGIC_LFN 0x00095014
static int probe_ufs(struct volume_id *id, __u64 off)
{
struct ufs_super_block {
__u32 fs_link;
__u32 fs_rlink;
__u32 fs_sblkno;
__u32 fs_cblkno;
__u32 fs_iblkno;
__u32 fs_dblkno;
__u32 fs_cgoffset;
__u32 fs_cgmask;
__u32 fs_time;
__u32 fs_size;
__u32 fs_dsize;
__u32 fs_ncg;
__u32 fs_bsize;
__u32 fs_fsize;
__u32 fs_frag;
__u32 fs_minfree;
__u32 fs_rotdelay;
__u32 fs_rps;
__u32 fs_bmask;
__u32 fs_fmask;
__u32 fs_bshift;
__u32 fs_fshift;
__u32 fs_maxcontig;
__u32 fs_maxbpg;
__u32 fs_fragshift;
__u32 fs_fsbtodb;
__u32 fs_sbsize;
__u32 fs_csmask;
__u32 fs_csshift;
__u32 fs_nindir;
__u32 fs_inopb;
__u32 fs_nspf;
__u32 fs_optim;
__u32 fs_npsect_state;
__u32 fs_interleave;
__u32 fs_trackskew;
__u32 fs_id[2];
__u32 fs_csaddr;
__u32 fs_cssize;
__u32 fs_cgsize;
__u32 fs_ntrak;
__u32 fs_nsect;
__u32 fs_spc;
__u32 fs_ncyl;
__u32 fs_cpg;
__u32 fs_ipg;
__u32 fs_fpg;
struct ufs_csum {
__u32 cs_ndir;
__u32 cs_nbfree;
__u32 cs_nifree;
__u32 cs_nffree;
} __attribute__((__packed__)) fs_cstotal;
__s8 fs_fmod;
__s8 fs_clean;
__s8 fs_ronly;
__s8 fs_flags;
union {
struct {
__s8 fs_fsmnt[512];
__u32 fs_cgrotor;
__u32 fs_csp[31];
__u32 fs_maxcluster;
__u32 fs_cpc;
__u16 fs_opostbl[16][8];
} __attribute__((__packed__)) fs_u1;
struct {
__s8 fs_fsmnt[468];
__u8 fs_volname[32];
__u64 fs_swuid;
__s32 fs_pad;
__u32 fs_cgrotor;
__u32 fs_ocsp[28];
__u32 fs_contigdirs;
__u32 fs_csp;
__u32 fs_maxcluster;
__u32 fs_active;
__s32 fs_old_cpc;
__s32 fs_maxbsize;
__s64 fs_sparecon64[17];
__s64 fs_sblockloc;
struct ufs2_csum_total {
__u64 cs_ndir;
__u64 cs_nbfree;
__u64 cs_nifree;
__u64 cs_nffree;
__u64 cs_numclusters;
__u64 cs_spare[3];
} __attribute__((__packed__)) fs_cstotal;
struct ufs_timeval {
__s32 tv_sec;
__s32 tv_usec;
} __attribute__((__packed__)) fs_time;
__s64 fs_size;
__s64 fs_dsize;
__u64 fs_csaddr;
__s64 fs_pendingblocks;
__s32 fs_pendinginodes;
} __attribute__((__packed__)) fs_u2;
} fs_u11;
union {
struct {
__s32 fs_sparecon[53];
__s32 fs_reclaim;
__s32 fs_sparecon2[1];
__s32 fs_state;
__u32 fs_qbmask[2];
__u32 fs_qfmask[2];
} __attribute__((__packed__)) fs_sun;
struct {
__s32 fs_sparecon[53];
__s32 fs_reclaim;
__s32 fs_sparecon2[1];
__u32 fs_npsect;
__u32 fs_qbmask[2];
__u32 fs_qfmask[2];
} __attribute__((__packed__)) fs_sunx86;
struct {
__s32 fs_sparecon[50];
__s32 fs_contigsumsize;
__s32 fs_maxsymlinklen;
__s32 fs_inodefmt;
__u32 fs_maxfilesize[2];
__u32 fs_qbmask[2];
__u32 fs_qfmask[2];
__s32 fs_state;
} __attribute__((__packed__)) fs_44;
} fs_u2;
__s32 fs_postblformat;
__s32 fs_nrpos;
__s32 fs_postbloff;
__s32 fs_rotbloff;
__u32 fs_magic;
__u8 fs_space[1];
} __attribute__((__packed__)) *ufs;
__u32 magic;
int i;
int offsets[] = {0, 8, 64, 256, -1};
for (i = 0; offsets[i] >= 0; i++) {
ufs = (struct ufs_super_block *)
get_buffer(id, off + (offsets[i] * 0x400), 0x800);
if (ufs == NULL)
return -1;
dbg("offset 0x%x", offsets[i] * 0x400);
magic = be32_to_cpu(ufs->fs_magic);
if ((magic == UFS_MAGIC) ||
(magic == UFS2_MAGIC) ||
(magic == UFS_MAGIC_FEA) ||
(magic == UFS_MAGIC_LFN)) {
dbg("magic 0x%08x(be)", magic);
goto found;
}
magic = le32_to_cpu(ufs->fs_magic);
if ((magic == UFS_MAGIC) ||
(magic == UFS2_MAGIC) ||
(magic == UFS_MAGIC_FEA) ||
(magic == UFS_MAGIC_LFN)) {
dbg("magic 0x%08x(le)", magic);
goto found;
}
}
return -1;
found:
id->usage_id = VOLUME_ID_FILESYSTEM;
id->type_id = VOLUME_ID_UFS;
id->type = "ufs";
return 0;
}
static int probe_mac_partition_map(struct volume_id *id, __u64 off)
{
struct mac_driver_desc {
__u8 signature[2];
__u16 block_size;
__u32 block_count;
} __attribute__((__packed__)) *driver;
struct mac_partition {
__u8 signature[2];
__u16 res1;
__u32 map_count;
__u32 start_block;
__u32 block_count;
__u8 name[32];
__u8 type[32];
} __attribute__((__packed__)) *part;
const __u8 *buf;
buf = get_buffer(id, off, 0x200);
if (buf == NULL)
return -1;
part = (struct mac_partition *) buf;
if ((strncmp(part->signature, "PM", 2) == 0) &&
(strncmp(part->type, "Apple_partition_map", 19) == 0)) {
/* linux creates an own subdevice for the map
* just return the type if the drive header is missing */
id->usage_id = VOLUME_ID_PARTITIONTABLE;
id->type_id = VOLUME_ID_MACPARTMAP;
id->type = "mac_partition_map";
return 0;
}
driver = (struct mac_driver_desc *) buf;
if (strncmp(driver->signature, "ER", 2) == 0) {
/* we are on a main device, like a CD
* just try to probe the first partition from the map */
unsigned int bsize = be16_to_cpu(driver->block_size);
int part_count;
int i;
/* get first entry of partition table */
buf = get_buffer(id, off + bsize, 0x200);
if (buf == NULL)
return -1;
part = (struct mac_partition *) buf;
if (strncmp(part->signature, "PM", 2) != 0)
return -1;
part_count = be32_to_cpu(part->map_count);
dbg("expecting %d partition entries", part_count);
if (id->partitions != NULL)
free(id->partitions);
id->partitions =
malloc(part_count * sizeof(struct volume_id_partition));
if (id->partitions == NULL)
return -1;
memset(id->partitions, 0x00, sizeof(struct volume_id_partition));
id->partition_count = part_count;
for (i = 0; i < part_count; i++) {
__u64 poff;
__u64 plen;
buf = get_buffer(id, off + ((i+1) * bsize), 0x200);
if (buf == NULL)
return -1;
part = (struct mac_partition *) buf;
if (strncmp(part->signature, "PM", 2) != 0)
return -1;
poff = be32_to_cpu(part->start_block) * bsize;
plen = be32_to_cpu(part->block_count) * bsize;
dbg("found '%s' partition entry at 0x%llx, len 0x%llx",
part->type, poff, plen);
id->partitions[i].off = poff;
id->partitions[i].len = plen;
if (strncmp(part->type, "Apple_Free", 10) == 0) {
id->partitions[i].usage_id = VOLUME_ID_UNUSED;
} else if (strncmp(part->type, "Apple_partition_map", 19) == 0) {
id->partitions[i].usage_id = VOLUME_ID_PARTITIONTABLE;
id->partitions[i].type_id = VOLUME_ID_MACPARTMAP;
} else {
id->partitions[i].usage_id = VOLUME_ID_UNPROBED;
}
}
id->usage_id = VOLUME_ID_PARTITIONTABLE;
id->type_id = VOLUME_ID_MACPARTMAP;
id->type = "mac_partition_map";
return 0;
}
return -1;
}
#define HFS_SUPERBLOCK_OFFSET 0x400
#define HFS_NODE_LEAF 0xff
#define HFSPLUS_POR_CNID 1
#define HFSPLUS_EXTENT_COUNT 8
static int probe_hfs_hfsplus(struct volume_id *id, __u64 off)
{
struct hfs_finder_info{
__u32 boot_folder;
__u32 start_app;
__u32 open_folder;
__u32 os9_folder;
__u32 reserved;
__u32 osx_folder;
__u8 id[8];
} __attribute__((__packed__));
struct hfs_mdb {
__u8 signature[2];
__u32 cr_date;
__u32 ls_Mod;
__u16 atrb;
__u16 nm_fls;
__u16 vbm_st;
__u16 alloc_ptr;
__u16 nm_al_blks;
__u32 al_blk_size;
__u32 clp_size;
__u16 al_bl_st;
__u32 nxt_cnid;
__u16 free_bks;
__u8 label_len;
__u8 label[27];
__u32 vol_bkup;
__u16 vol_seq_num;
__u32 wr_cnt;
__u32 xt_clump_size;
__u32 ct_clump_size;
__u16 num_root_dirs;
__u32 file_count;
__u32 dir_count;
struct hfs_finder_info finder_info;
__u8 embed_sig[2];
__u16 embed_startblock;
__u16 embed_blockcount;
} __attribute__((__packed__)) *hfs;
struct hfsplus_bnode_descriptor {
__u32 next;
__u32 prev;
__u8 type;
__u8 height;
__u16 num_recs;
__u16 reserved;
} __attribute__((__packed__));
struct hfsplus_bheader_record {
__u16 depth;
__u32 root;
__u32 leaf_count;
__u32 leaf_head;
__u32 leaf_tail;
__u16 node_size;
} __attribute__((__packed__));
struct hfsplus_catalog_key {
__u16 key_len;
__u32 parent_id;
__u16 unicode_len;
__u8 unicode[255 * 2];
} __attribute__((__packed__));
struct hfsplus_extent {
__u32 start_block;
__u32 block_count;
} __attribute__((__packed__));
struct hfsplus_fork {
__u64 total_size;
__u32 clump_size;
__u32 total_blocks;
struct hfsplus_extent extents[HFSPLUS_EXTENT_COUNT];
} __attribute__((__packed__));
struct hfsplus_vol_header {
__u8 signature[2];
__u16 version;
__u32 attributes;
__u32 last_mount_vers;
__u32 reserved;
__u32 create_date;
__u32 modify_date;
__u32 backup_date;
__u32 checked_date;
__u32 file_count;
__u32 folder_count;
__u32 blocksize;
__u32 total_blocks;
__u32 free_blocks;
__u32 next_alloc;
__u32 rsrc_clump_sz;
__u32 data_clump_sz;
__u32 next_cnid;
__u32 write_count;
__u64 encodings_bmp;
struct hfs_finder_info finder_info;
struct hfsplus_fork alloc_file;
struct hfsplus_fork ext_file;
struct hfsplus_fork cat_file;
struct hfsplus_fork attr_file;
struct hfsplus_fork start_file;
} __attribute__((__packed__)) *hfsplus;
unsigned int blocksize;
unsigned int cat_block;
unsigned int ext_block_start;
unsigned int ext_block_count;
int ext;
unsigned int leaf_node_head;
unsigned int leaf_node_count;
unsigned int leaf_node_size;
unsigned int leaf_block;
__u64 leaf_off;
unsigned int alloc_block_size;
unsigned int alloc_first_block;
unsigned int embed_first_block;
unsigned int record_count;
struct hfsplus_bnode_descriptor *descr;
struct hfsplus_bheader_record *bnode;
struct hfsplus_catalog_key *key;
unsigned int label_len;
struct hfsplus_extent extents[HFSPLUS_EXTENT_COUNT];
const __u8 *buf;
buf = get_buffer(id, off + HFS_SUPERBLOCK_OFFSET, 0x200);
if (buf == NULL)
return -1;
hfs = (struct hfs_mdb *) buf;
if (strncmp(hfs->signature, "BD", 2) != 0)
goto checkplus;
/* it may be just a hfs wrapper for hfs+ */
if (strncmp(hfs->embed_sig, "H+", 2) == 0) {
alloc_block_size = be32_to_cpu(hfs->al_blk_size);
dbg("alloc_block_size 0x%x", alloc_block_size);
alloc_first_block = be16_to_cpu(hfs->al_bl_st);
dbg("alloc_first_block 0x%x", alloc_first_block);
embed_first_block = be16_to_cpu(hfs->embed_startblock);
dbg("embed_first_block 0x%x", embed_first_block);
off += (alloc_first_block * 512) +
(embed_first_block * alloc_block_size);
dbg("hfs wrapped hfs+ found at offset 0x%llx", off);
buf = get_buffer(id, off + HFS_SUPERBLOCK_OFFSET, 0x200);
if (buf == NULL)
return -1;
goto checkplus;
}
if (hfs->label_len > 0 && hfs->label_len < 28) {
set_label_raw(id, hfs->label, hfs->label_len);
set_label_string(id, hfs->label, hfs->label_len) ;
}
set_uuid(id, hfs->finder_info.id, UUID_HFS);
id->usage_id = VOLUME_ID_FILESYSTEM;
id->type_id = VOLUME_ID_HFS;
id->type = "hfs";
return 0;
checkplus:
hfsplus = (struct hfsplus_vol_header *) buf;
if (strncmp(hfsplus->signature, "H+", 2) == 0)
goto hfsplus;
if (strncmp(hfsplus->signature, "HX", 2) == 0)
goto hfsplus;
return -1;
hfsplus:
set_uuid(id, hfsplus->finder_info.id, UUID_HFS);
blocksize = be32_to_cpu(hfsplus->blocksize);
dbg("blocksize %u", blocksize);
memcpy(extents, hfsplus->cat_file.extents, sizeof(extents));
cat_block = be32_to_cpu(extents[0].start_block);
dbg("catalog start block 0x%x", cat_block);
buf = get_buffer(id, off + (cat_block * blocksize), 0x2000);
if (buf == NULL)
goto found;
bnode = (struct hfsplus_bheader_record *)
&buf[sizeof(struct hfsplus_bnode_descriptor)];
leaf_node_head = be32_to_cpu(bnode->leaf_head);
dbg("catalog leaf node 0x%x", leaf_node_head);
leaf_node_size = be16_to_cpu(bnode->node_size);
dbg("leaf node size 0x%x", leaf_node_size);
leaf_node_count = be32_to_cpu(bnode->leaf_count);
dbg("leaf node count 0x%x", leaf_node_count);
if (leaf_node_count == 0)
goto found;
leaf_block = (leaf_node_head * leaf_node_size) / blocksize;
/* get physical location */
for (ext = 0; ext < HFSPLUS_EXTENT_COUNT; ext++) {
ext_block_start = be32_to_cpu(extents[ext].start_block);
ext_block_count = be32_to_cpu(extents[ext].block_count);
dbg("extent start block 0x%x, count 0x%x", ext_block_start, ext_block_count);
if (ext_block_count == 0)
goto found;
/* this is our extent */
if (leaf_block < ext_block_count)
break;
leaf_block -= ext_block_count;
}
if (ext == HFSPLUS_EXTENT_COUNT)
goto found;
dbg("found block in extent %i", ext);
leaf_off = (ext_block_start + leaf_block) * blocksize;
buf = get_buffer(id, off + leaf_off, leaf_node_size);
if (buf == NULL)
goto found;
descr = (struct hfsplus_bnode_descriptor *) buf;
dbg("descriptor type 0x%x", descr->type);
record_count = be16_to_cpu(descr->num_recs);
dbg("number of records %u", record_count);
if (record_count == 0)
goto found;
if (descr->type != HFS_NODE_LEAF)
goto found;
key = (struct hfsplus_catalog_key *)
&buf[sizeof(struct hfsplus_bnode_descriptor)];
dbg("parent id 0x%x", be32_to_cpu(key->parent_id));
if (be32_to_cpu(key->parent_id) != HFSPLUS_POR_CNID)
goto found;
label_len = be16_to_cpu(key->unicode_len) * 2;
dbg("label unicode16 len %i", label_len);
set_label_raw(id, key->unicode, label_len);
set_label_unicode16(id, key->unicode, BE, label_len);
found:
id->usage_id = VOLUME_ID_FILESYSTEM;
id->type_id = VOLUME_ID_HFSPLUS;
id->type = "hfsplus";
return 0;
}
#define MFT_RECORD_VOLUME 3
#define MFT_RECORD_ATTR_VOLUME_NAME 0x60
#define MFT_RECORD_ATTR_VOLUME_INFO 0x70
#define MFT_RECORD_ATTR_OBJECT_ID 0x40
#define MFT_RECORD_ATTR_END 0xffffffffu
static int probe_ntfs(struct volume_id *id, __u64 off)
{
struct ntfs_super_block {
__u8 jump[3];
__u8 oem_id[8];
__u16 bytes_per_sector;
__u8 sectors_per_cluster;
__u16 reserved_sectors;
__u8 fats;
__u16 root_entries;
__u16 sectors;
__u8 media_type;
__u16 sectors_per_fat;
__u16 sectors_per_track;
__u16 heads;
__u32 hidden_sectors;
__u32 large_sectors;
__u16 unused[2];
__u64 number_of_sectors;
__u64 mft_cluster_location;
__u64 mft_mirror_cluster_location;
__s8 cluster_per_mft_record;
__u8 reserved1[3];
__s8 cluster_per_index_record;
__u8 reserved2[3];
__u8 volume_serial[8];
__u16 checksum;
} __attribute__((__packed__)) *ns;
struct master_file_table_record {
__u8 magic[4];
__u16 usa_ofs;
__u16 usa_count;
__u64 lsn;
__u16 sequence_number;
__u16 link_count;
__u16 attrs_offset;
__u16 flags;
__u32 bytes_in_use;
__u32 bytes_allocated;
} __attribute__((__packed__)) *mftr;
struct file_attribute {
__u32 type;
__u32 len;
__u8 non_resident;
__u8 name_len;
__u16 name_offset;
__u16 flags;
__u16 instance;
__u32 value_len;
__u16 value_offset;
} __attribute__((__packed__)) *attr;
struct volume_info {
__u64 reserved;
__u8 major_ver;
__u8 minor_ver;
} __attribute__((__packed__)) *info;
unsigned int sector_size;
unsigned int cluster_size;
__u64 mft_cluster;
__u64 mft_off;
unsigned int mft_record_size;
unsigned int attr_type;
unsigned int attr_off;
unsigned int attr_len;
unsigned int val_off;
unsigned int val_len;
const __u8 *buf;
const __u8 *val;
ns = (struct ntfs_super_block *) get_buffer(id, off, 0x200);
if (ns == NULL)
return -1;
if (strncmp(ns->oem_id, "NTFS", 4) != 0)
return -1;
set_uuid(id, ns->volume_serial, UUID_NTFS);
sector_size = le16_to_cpu(ns->bytes_per_sector);
cluster_size = ns->sectors_per_cluster * sector_size;
mft_cluster = le64_to_cpu(ns->mft_cluster_location);
mft_off = mft_cluster * cluster_size;
if (ns->cluster_per_mft_record < 0)
/* size = -log2(mft_record_size); normally 1024 Bytes */
mft_record_size = 1 << -ns->cluster_per_mft_record;
else
mft_record_size = ns->cluster_per_mft_record * cluster_size;
dbg("sectorsize 0x%x", sector_size);
dbg("clustersize 0x%x", cluster_size);
dbg("mftcluster %lli", mft_cluster);
dbg("mftoffset 0x%llx", mft_off);
dbg("cluster per mft_record %i", ns->cluster_per_mft_record);
dbg("mft record size %i", mft_record_size);
buf = get_buffer(id, off + mft_off + (MFT_RECORD_VOLUME * mft_record_size),
mft_record_size);
if (buf == NULL)
goto found;
mftr = (struct master_file_table_record*) buf;
dbg("mftr->magic '%c%c%c%c'", mftr->magic[0], mftr->magic[1], mftr->magic[2], mftr->magic[3]);
if (strncmp(mftr->magic, "FILE", 4) != 0)
goto found;
attr_off = le16_to_cpu(mftr->attrs_offset);
dbg("file $Volume's attributes are at offset %i", attr_off);
while (1) {
attr = (struct file_attribute*) &buf[attr_off];
attr_type = le32_to_cpu(attr->type);
attr_len = le16_to_cpu(attr->len);
val_off = le16_to_cpu(attr->value_offset);
val_len = le32_to_cpu(attr->value_len);
attr_off += attr_len;
if (attr_len == 0)
break;
if (attr_off >= mft_record_size)
break;
if (attr_type == MFT_RECORD_ATTR_END)
break;
dbg("found attribute type 0x%x, len %i, at offset %i",
attr_type, attr_len, attr_off);
if (attr_type == MFT_RECORD_ATTR_VOLUME_INFO) {
dbg("found info, len %i", val_len);
info = (struct volume_info*) (((__u8 *) attr) + val_off);
snprintf(id->type_version, VOLUME_ID_FORMAT_SIZE-1,
"%u.%u", info->major_ver, info->minor_ver);
}
if (attr_type == MFT_RECORD_ATTR_VOLUME_NAME) {
dbg("found label, len %i", val_len);
if (val_len > VOLUME_ID_LABEL_SIZE)
val_len = VOLUME_ID_LABEL_SIZE;
val = ((__u8 *) attr) + val_off;
set_label_raw(id, val, val_len);
set_label_unicode16(id, val, LE, val_len);
}
}
found:
id->usage_id = VOLUME_ID_FILESYSTEM;
id->type_id = VOLUME_ID_NTFS;
id->type = "ntfs";
return 0;
}
#define LARGEST_PAGESIZE 0x4000
static int probe_swap(struct volume_id *id, __u64 off)
{
struct swap_header_v1_2 {
__u8 bootbits[1024];
__u32 version;
__u32 last_page;
__u32 nr_badpages;
__u8 uuid[16];
__u8 volume_name[16];
} __attribute__((__packed__)) *sw;
const __u8 *buf;
unsigned int page;
/* the swap signature is at the end of the PAGE_SIZE */
for (page = 0x1000; page <= LARGEST_PAGESIZE; page <<= 1) {
buf = get_buffer(id, off + page-10, 10);
if (buf == NULL)
return -1;
if (strncmp(buf, "SWAP-SPACE", 10) == 0) {
strcpy(id->type_version, "1");
goto found;
}
if (strncmp(buf, "SWAPSPACE2", 10) == 0) {
sw = (struct swap_header_v1_2 *) get_buffer(id, off, sizeof(struct swap_header_v1_2));
if (sw == NULL)
return -1;
strcpy(id->type_version, "2");
set_label_raw(id, sw->volume_name, 16);
set_label_string(id, sw->volume_name, 16);
set_uuid(id, sw->uuid, UUID_DCE);
goto found;
}
}
return -1;
found:
id->usage_id = VOLUME_ID_OTHER;
id->type_id = VOLUME_ID_SWAP;
id->type = "swap";
return 0;
}
/* probe volume for filesystem type and try to read label+uuid */
int volume_id_probe(struct volume_id *id,
enum volume_id_type type,
unsigned long long off,
unsigned long long size)
{
int rc;
dbg("called with size=0x%llx", size);
if (id == NULL)
return -EINVAL;
switch (type) {
case VOLUME_ID_MSDOSPARTTABLE:
rc = probe_msdos_part_table(id, off);
break;
case VOLUME_ID_EXT3:
case VOLUME_ID_EXT2:
rc = probe_ext(id, off);
break;
case VOLUME_ID_REISERFS:
rc = probe_reiserfs(id, off);
break;
case VOLUME_ID_XFS:
rc = probe_xfs(id, off);
break;
case VOLUME_ID_JFS:
rc = probe_jfs(id, off);
break;
case VOLUME_ID_VFAT:
rc = probe_vfat(id, off);
break;
case VOLUME_ID_UDF:
rc = probe_udf(id, off);
break;
case VOLUME_ID_ISO9660:
rc = probe_iso9660(id, off);
break;
case VOLUME_ID_MACPARTMAP:
rc = probe_mac_partition_map(id, off);
break;
case VOLUME_ID_HFS:
case VOLUME_ID_HFSPLUS:
rc = probe_hfs_hfsplus(id, off);
break;
case VOLUME_ID_UFS:
rc = probe_ufs(id, off);
break;
case VOLUME_ID_NTFS:
rc = probe_ntfs(id, off);
break;
case VOLUME_ID_SWAP:
rc = probe_swap(id, off);
break;
case VOLUME_ID_LINUX_RAID:
rc = probe_linux_raid(id, off, size);
break;
case VOLUME_ID_LVM1:
rc = probe_lvm1(id, off);
break;
case VOLUME_ID_LVM2:
rc = probe_lvm2(id, off);
break;
case VOLUME_ID_HPTRAID:
rc = probe_highpoint_ataraid(id, off);
break;
case VOLUME_ID_ALL:
default:
/* probe for raid first, cause fs probes may be successful on raid members */
rc = probe_linux_raid(id, off, size);
if (rc == 0)
break;
rc = probe_lvm1(id, off);
if (rc == 0)
break;
rc = probe_lvm2(id, off);
if (rc == 0)
break;
rc = probe_highpoint_ataraid(id, off);
if (rc == 0)
break;
/* signature in the first block, only small buffer needed */
rc = probe_vfat(id, off);
if (rc == 0)
break;
rc = probe_mac_partition_map(id, off);
if (rc == 0)
break;
rc = probe_xfs(id, off);
if (rc == 0)
break;
/* fill buffer with maximum */
get_buffer(id, 0, SB_BUFFER_SIZE);
rc = probe_swap(id, off);
if (rc == 0)
break;
rc = probe_ext(id, off);
if (rc == 0)
break;
rc = probe_reiserfs(id, off);
if (rc == 0)
break;
rc = probe_jfs(id, off);
if (rc == 0)
break;
rc = probe_udf(id, off);
if (rc == 0)
break;
rc = probe_iso9660(id, off);
if (rc == 0)
break;
rc = probe_hfs_hfsplus(id, off);
if (rc == 0)
break;
rc = probe_ufs(id, off);
if (rc == 0)
break;
rc = probe_ntfs(id, off);
if (rc == 0)
break;
rc = -1;
}
/* If the filestystem in recognized, we free the allocated buffers,
otherwise they will stay in place for the possible next probe call */
if (rc == 0)
free_buffer(id);
return rc;
}
/* open volume by already open file descriptor */
struct volume_id *volume_id_open_fd(int fd)
{
struct volume_id *id;
id = malloc(sizeof(struct volume_id));
if (id == NULL)
return NULL;
memset(id, 0x00, sizeof(struct volume_id));
id->fd = fd;
return id;
}
/* open volume by device node */
struct volume_id *volume_id_open_node(const char *path)
{
struct volume_id *id;
int fd;
fd = open(path, O_RDONLY);
if (fd < 0) {
dbg("unable to open '%s'", path);
return NULL;
}
id = volume_id_open_fd(fd);
if (id == NULL)
return NULL;
/* close fd on device close */
id->fd_close = 1;
return id;
}
/* open volume by major/minor */
struct volume_id *volume_id_open_dev_t(dev_t devt)
{
struct volume_id *id;
__u8 tmp_node[VOLUME_ID_PATH_MAX];
snprintf(tmp_node, VOLUME_ID_PATH_MAX,
"/tmp/volume-%u-%u-%u", getpid(), major(devt), minor(devt));
tmp_node[VOLUME_ID_PATH_MAX] = '\0';
/* create tempory node to open the block device */
unlink(tmp_node);
if (mknod(tmp_node, (S_IFBLK | 0600), devt) != 0)
return NULL;
id = volume_id_open_node(tmp_node);
unlink(tmp_node);
return id;
}
/* free allocated volume info */
void volume_id_close(struct volume_id *id)
{
if (id == NULL)
return;
if (id->fd_close != 0)
close(id->fd);
free_buffer(id);
if (id->partitions != NULL)
free(id->partitions);
free(id);
}
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