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/*
* Copyright (C) 2010 Jeroen Oortwijn <oortwijn@gmail.com>
*
* Partly based on the Haiku BFS driver by
* Axel Dörfler <axeld@pinc-software.de>
*
* Also inspired by the Linux BeFS driver by
* Will Dyson <will_dyson@pobox.com>, et al.
*
* This file may be redistributed under the terms of the
* GNU Lesser General Public License.
*/
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <string.h>
#include <inttypes.h>
#include "superblocks.h"
#define B_OS_NAME_LENGTH 0x20
#define SUPER_BLOCK_MAGIC1 0x42465331 /* BFS1 */
#define SUPER_BLOCK_MAGIC2 0xdd121031
#define SUPER_BLOCK_MAGIC3 0x15b6830e
#define SUPER_BLOCK_FS_ENDIAN 0x42494745 /* BIGE */
#define INODE_MAGIC1 0x3bbe0ad9
#define BPLUSTREE_MAGIC 0x69f6c2e8
#define BPLUSTREE_NULL -1LL
#define NUM_DIRECT_BLOCKS 12
#define B_UINT64_TYPE 0x554c4c47 /* ULLG */
#define KEY_NAME "be:volume_id"
#define KEY_SIZE 8
#define FS16_TO_CPU(value, fs_is_le) (fs_is_le ? le16_to_cpu(value) \
: be16_to_cpu(value))
#define FS32_TO_CPU(value, fs_is_le) (fs_is_le ? le32_to_cpu(value) \
: be32_to_cpu(value))
#define FS64_TO_CPU(value, fs_is_le) (fs_is_le ? le64_to_cpu(value) \
: be64_to_cpu(value))
typedef struct block_run {
int32_t allocation_group;
uint16_t start;
uint16_t len;
} __attribute__((packed)) block_run, inode_addr;
struct befs_super_block {
char name[B_OS_NAME_LENGTH];
int32_t magic1;
int32_t fs_byte_order;
uint32_t block_size;
uint32_t block_shift;
int64_t num_blocks;
int64_t used_blocks;
int32_t inode_size;
int32_t magic2;
int32_t blocks_per_ag;
int32_t ag_shift;
int32_t num_ags;
int32_t flags;
block_run log_blocks;
int64_t log_start;
int64_t log_end;
int32_t magic3;
inode_addr root_dir;
inode_addr indices;
int32_t pad[8];
} __attribute__((packed));
typedef struct data_stream {
block_run direct[NUM_DIRECT_BLOCKS];
int64_t max_direct_range;
block_run indirect;
int64_t max_indirect_range;
block_run double_indirect;
int64_t max_double_indirect_range;
int64_t size;
} __attribute__((packed)) data_stream;
struct befs_inode {
int32_t magic1;
inode_addr inode_num;
int32_t uid;
int32_t gid;
int32_t mode;
int32_t flags;
int64_t create_time;
int64_t last_modified_time;
inode_addr parent;
inode_addr attributes;
uint32_t type;
int32_t inode_size;
uint32_t etc;
data_stream data;
int32_t pad[4];
int32_t small_data[0];
} __attribute__((packed));
struct small_data {
uint32_t type;
uint16_t name_size;
uint16_t data_size;
char name[0];
} __attribute__((packed));
struct bplustree_header {
uint32_t magic;
uint32_t node_size;
uint32_t max_number_of_levels;
uint32_t data_type;
int64_t root_node_pointer;
int64_t free_node_pointer;
int64_t maximum_size;
} __attribute__((packed));
struct bplustree_node {
int64_t left_link;
int64_t right_link;
int64_t overflow_link;
uint16_t all_key_count;
uint16_t all_key_length;
char name[0];
} __attribute__((packed));
static const unsigned char *get_block_run(blkid_probe pr, const struct befs_super_block *bs,
const struct block_run *br, int fs_le)
{
return blkid_probe_get_buffer(pr,
((uint64_t) FS32_TO_CPU(br->allocation_group, fs_le)
<< FS32_TO_CPU(bs->ag_shift, fs_le)
<< FS32_TO_CPU(bs->block_shift, fs_le))
+ ((uint64_t) FS16_TO_CPU(br->start, fs_le)
<< FS32_TO_CPU(bs->block_shift, fs_le)),
(uint64_t) FS16_TO_CPU(br->len, fs_le)
<< FS32_TO_CPU(bs->block_shift, fs_le));
}
static const unsigned char *get_custom_block_run(blkid_probe pr,
const struct befs_super_block *bs,
const struct block_run *br,
int64_t offset, uint32_t length, int fs_le)
{
if (offset + length > (int64_t) FS16_TO_CPU(br->len, fs_le)
<< FS32_TO_CPU(bs->block_shift, fs_le))
return NULL;
return blkid_probe_get_buffer(pr,
((uint64_t) FS32_TO_CPU(br->allocation_group, fs_le)
<< FS32_TO_CPU(bs->ag_shift, fs_le)
<< FS32_TO_CPU(bs->block_shift, fs_le))
+ ((uint64_t) FS16_TO_CPU(br->start, fs_le)
<< FS32_TO_CPU(bs->block_shift, fs_le))
+ offset,
length);
}
static const unsigned char *get_tree_node(blkid_probe pr, const struct befs_super_block *bs,
const struct data_stream *ds,
int64_t start, uint32_t length, int fs_le)
{
if (start < (int64_t) FS64_TO_CPU(ds->max_direct_range, fs_le)) {
int64_t br_len;
size_t i;
for (i = 0; i < NUM_DIRECT_BLOCKS; i++) {
br_len = (int64_t) FS16_TO_CPU(ds->direct[i].len, fs_le)
<< FS32_TO_CPU(bs->block_shift, fs_le);
if (start < br_len)
return get_custom_block_run(pr, bs,
&ds->direct[i],
start, length, fs_le);
start -= br_len;
}
} else if (start < (int64_t) FS64_TO_CPU(ds->max_indirect_range, fs_le)) {
struct block_run *br;
int64_t max_br, br_len, i;
start -= FS64_TO_CPU(ds->max_direct_range, fs_le);
max_br = ((int64_t) FS16_TO_CPU(ds->indirect.len, fs_le)
<< FS32_TO_CPU(bs->block_shift, fs_le))
/ sizeof(struct block_run);
br = (struct block_run *) get_block_run(pr, bs, &ds->indirect,
fs_le);
if (!br)
return NULL;
for (i = 0; i < max_br; i++) {
br_len = (int64_t) FS16_TO_CPU(br[i].len, fs_le)
<< FS32_TO_CPU(bs->block_shift, fs_le);
if (start < br_len)
return get_custom_block_run(pr, bs, &br[i],
start, length, fs_le);
start -= br_len;
}
} else if (start < (int64_t) FS64_TO_CPU(ds->max_double_indirect_range, fs_le)) {
struct block_run *br;
int64_t max_br, di_br_size, br_per_di_br, di_index, i_index;
start -= (int64_t) FS64_TO_CPU(ds->max_indirect_range, fs_le);
di_br_size = (int64_t) FS16_TO_CPU(ds->double_indirect.len,
fs_le) << FS32_TO_CPU(bs->block_shift, fs_le);
if (di_br_size == 0)
return NULL;
br_per_di_br = di_br_size / sizeof(struct block_run);
if (br_per_di_br == 0)
return NULL;
di_index = start / (br_per_di_br * di_br_size);
i_index = (start % (br_per_di_br * di_br_size)) / di_br_size;
start = (start % (br_per_di_br * di_br_size)) % di_br_size;
if (di_index >= br_per_di_br)
return NULL; /* Corrupt? */
br = (struct block_run *) get_block_run(pr, bs,
&ds->double_indirect, fs_le);
if (!br)
return NULL;
max_br = ((int64_t)FS16_TO_CPU(br[di_index].len, fs_le)
<< FS32_TO_CPU(bs->block_shift, fs_le))
/ sizeof(struct block_run);
if (i_index >= max_br)
return NULL; /* Corrupt? */
br = (struct block_run *) get_block_run(pr, bs, &br[di_index],
fs_le);
if (!br)
return NULL;
return get_custom_block_run(pr, bs, &br[i_index], start, length,
fs_le);
}
return NULL;
}
#define BAD_KEYS -2
static int32_t compare_keys(const char keys1[], uint16_t keylengths1[],
int32_t index, const char *key2,
uint16_t keylength2, uint16_t all_key_length,
int fs_le)
{
const char *key1;
uint16_t keylength1, keystart1;
int32_t result;
keystart1 = index == 0 ? 0 : FS16_TO_CPU(keylengths1[index - 1], fs_le);
keylength1 = FS16_TO_CPU(keylengths1[index], fs_le) - keystart1;
if (keystart1 + keylength1 > all_key_length)
return BAD_KEYS; /* Corrupt? */
key1 = &keys1[keystart1];
result = strncmp(key1, key2, min(keylength1, keylength2));
if (result == 0)
return keylength1 - keylength2;
if (result < 0) /* Don't clash with BAD_KEYS */
result = -1;
return result;
}
static int64_t get_key_value(blkid_probe pr, const struct befs_super_block *bs,
const struct befs_inode *bi, const char *key, int fs_le)
{
struct bplustree_header *bh;
struct bplustree_node *bn;
uint16_t *keylengths;
int64_t *values;
int64_t node_pointer;
uint32_t bn_size, all_key_count, all_key_length;
uint32_t keylengths_offset, values_offset;
int32_t first, last, mid, cmp;
int loop_detect = 0;
errno = 0;
bh = (struct bplustree_header *) get_tree_node(pr, bs, &bi->data, 0,
sizeof(struct bplustree_header), fs_le);
if (!bh)
return errno ? -errno : -ENOENT;
if ((int32_t) FS32_TO_CPU(bh->magic, fs_le) != BPLUSTREE_MAGIC)
return -ENOENT;
node_pointer = FS64_TO_CPU(bh->root_node_pointer, fs_le);
bn_size = FS32_TO_CPU(bh->node_size, fs_le);
if (bn_size < sizeof(struct bplustree_node))
return -ENOENT; /* Corrupt? */
do {
errno = 0;
bn = (struct bplustree_node *) get_tree_node(pr, bs, &bi->data,
node_pointer, bn_size, fs_le);
if (!bn)
return errno ? -errno : -ENOENT;
all_key_count = FS16_TO_CPU(bn->all_key_count, fs_le);
all_key_length = FS16_TO_CPU(bn->all_key_length, fs_le);
keylengths_offset =
(sizeof(struct bplustree_node) + all_key_length
+ sizeof(int64_t) - 1) & ~(sizeof(int64_t) - 1);
values_offset = keylengths_offset +
all_key_count * sizeof(uint16_t);
if (values_offset + all_key_count * sizeof(uint64_t) > bn_size)
return -ENOENT; /* Corrupt? */
keylengths = (uint16_t *) ((uint8_t *) bn + keylengths_offset);
values = (int64_t *) ((uint8_t *) bn + values_offset);
first = 0;
mid = 0;
last = all_key_count - 1;
cmp = compare_keys(bn->name, keylengths, last, key,
strlen(key), all_key_length, fs_le);
if (cmp == BAD_KEYS)
return -ENOENT;
if (cmp == 0) {
if ((int64_t) FS64_TO_CPU(bn->overflow_link, fs_le)
== BPLUSTREE_NULL)
return FS64_TO_CPU(values[last], fs_le);
node_pointer = FS64_TO_CPU(values[last], fs_le);
} else if (cmp < 0)
node_pointer = FS64_TO_CPU(bn->overflow_link, fs_le);
else {
while (first <= last) {
mid = (first + last) / 2;
cmp = compare_keys(bn->name, keylengths, mid,
key, strlen(key),
all_key_length, fs_le);
if (cmp == BAD_KEYS)
return -ENOENT;
if (cmp == 0) {
if ((int64_t) FS64_TO_CPU(bn->overflow_link,
fs_le) == BPLUSTREE_NULL)
return FS64_TO_CPU(values[mid],
fs_le);
break;
}
if (cmp < 0)
first = mid + 1;
else
last = mid - 1;
}
if (cmp < 0)
node_pointer = FS64_TO_CPU(values[mid + 1],
fs_le);
else
node_pointer = FS64_TO_CPU(values[mid], fs_le);
}
} while (++loop_detect < 100 &&
(int64_t) FS64_TO_CPU(bn->overflow_link, fs_le)
!= BPLUSTREE_NULL);
return 0;
}
static int get_uuid(blkid_probe pr, const struct befs_super_block *bs,
uint64_t * const uuid, int fs_le)
{
struct befs_inode *bi;
struct small_data *sd;
uint64_t bi_size, offset, sd_size, sd_total_size;
bi = (struct befs_inode *) get_block_run(pr, bs, &bs->root_dir, fs_le);
if (!bi)
return errno ? -errno : BLKID_PROBE_NONE;
if (FS32_TO_CPU(bi->magic1, fs_le) != INODE_MAGIC1)
return BLKID_PROBE_NONE;
bi_size = (uint64_t)FS16_TO_CPU(bs->root_dir.len, fs_le) <<
FS32_TO_CPU(bs->block_shift, fs_le);
sd_total_size = min(bi_size - sizeof(struct befs_inode),
(uint64_t)FS32_TO_CPU(bi->inode_size, fs_le));
offset = 0;
while (offset + sizeof(struct small_data) <= sd_total_size) {
sd = (struct small_data *) ((uint8_t *)bi->small_data + offset);
sd_size = sizeof(struct small_data)
+ FS16_TO_CPU(sd->name_size, fs_le) + 3
+ FS16_TO_CPU(sd->data_size, fs_le) + 1;
if (offset + sd_size > sd_total_size)
break;
if (FS32_TO_CPU(sd->type, fs_le) == B_UINT64_TYPE
&& FS16_TO_CPU(sd->name_size, fs_le) == strlen(KEY_NAME)
&& FS16_TO_CPU(sd->data_size, fs_le) == KEY_SIZE
&& strcmp(sd->name, KEY_NAME) == 0) {
memcpy(uuid,
sd->name + FS16_TO_CPU(sd->name_size, fs_le) + 3,
sizeof(uint64_t));
break;
}
if (FS32_TO_CPU(sd->type, fs_le) == 0
&& FS16_TO_CPU(sd->name_size, fs_le) == 0
&& FS16_TO_CPU(sd->data_size, fs_le) == 0)
break;
offset += sd_size;
}
if (*uuid == 0
&& (FS32_TO_CPU(bi->attributes.allocation_group, fs_le) != 0
|| FS16_TO_CPU(bi->attributes.start, fs_le) != 0
|| FS16_TO_CPU(bi->attributes.len, fs_le) != 0)) {
int64_t value;
bi = (struct befs_inode *) get_block_run(pr, bs,
&bi->attributes, fs_le);
if (!bi)
return errno ? -errno : BLKID_PROBE_NONE;
if (FS32_TO_CPU(bi->magic1, fs_le) != INODE_MAGIC1)
return BLKID_PROBE_NONE;
value = get_key_value(pr, bs, bi, KEY_NAME, fs_le);
if (value < 0)
return value == -ENOENT ? BLKID_PROBE_NONE : value;
if (value > 0) {
bi = (struct befs_inode *) blkid_probe_get_buffer(pr,
value << FS32_TO_CPU(bs->block_shift, fs_le),
FS32_TO_CPU(bs->block_size, fs_le));
if (!bi)
return errno ? -errno : BLKID_PROBE_NONE;
if (FS32_TO_CPU(bi->magic1, fs_le) != INODE_MAGIC1)
return 1;
if (FS32_TO_CPU(bi->type, fs_le) == B_UINT64_TYPE
&& FS64_TO_CPU(bi->data.size, fs_le) == KEY_SIZE
&& FS16_TO_CPU(bi->data.direct[0].len, fs_le)
== 1) {
uint64_t *attr_data;
attr_data = (uint64_t *) get_block_run(pr, bs,
&bi->data.direct[0], fs_le);
if (!attr_data)
return errno ? -errno : BLKID_PROBE_NONE;
*uuid = *attr_data;
}
}
}
return 0;
}
static int probe_befs(blkid_probe pr, const struct blkid_idmag *mag)
{
struct befs_super_block *bs;
const char *version = NULL;
uint64_t volume_id = 0;
uint32_t block_size, block_shift;
int fs_le, ret;
bs = (struct befs_super_block *) blkid_probe_get_buffer(pr,
mag->sboff - B_OS_NAME_LENGTH,
sizeof(struct befs_super_block));
if (!bs)
return errno ? -errno : BLKID_PROBE_NONE;
if (le32_to_cpu(bs->magic1) == SUPER_BLOCK_MAGIC1
&& le32_to_cpu(bs->magic2) == SUPER_BLOCK_MAGIC2
&& le32_to_cpu(bs->magic3) == SUPER_BLOCK_MAGIC3
&& le32_to_cpu(bs->fs_byte_order) == SUPER_BLOCK_FS_ENDIAN) {
fs_le = 1;
version = "little-endian";
} else if (be32_to_cpu(bs->magic1) == SUPER_BLOCK_MAGIC1
&& be32_to_cpu(bs->magic2) == SUPER_BLOCK_MAGIC2
&& be32_to_cpu(bs->magic3) == SUPER_BLOCK_MAGIC3
&& be32_to_cpu(bs->fs_byte_order) == SUPER_BLOCK_FS_ENDIAN) {
fs_le = 0;
version = "big-endian";
} else
return BLKID_PROBE_NONE;
block_size = FS32_TO_CPU(bs->block_size, fs_le);
block_shift = FS32_TO_CPU(bs->block_shift, fs_le);
if (block_shift < 10 || block_shift > 13 ||
block_size != 1U << block_shift)
return BLKID_PROBE_NONE;
if (FS32_TO_CPU(bs->ag_shift, fs_le) > 64)
return BLKID_PROBE_NONE;
ret = get_uuid(pr, bs, &volume_id, fs_le);
if (ret != 0)
return ret;
/*
* all checks pass, set LABEL, VERSION and UUID
*/
if (*bs->name != '\0')
blkid_probe_set_label(pr, (unsigned char *) bs->name,
sizeof(bs->name));
if (version)
blkid_probe_set_version(pr, version);
if (volume_id)
blkid_probe_sprintf_uuid(pr, (unsigned char *) &volume_id,
sizeof(volume_id), "%016" PRIx64,
FS64_TO_CPU(volume_id, fs_le));
blkid_probe_set_fsblocksize(pr, block_size);
blkid_probe_set_block_size(pr, block_size);
blkid_probe_set_fsendianness(pr,
fs_le ? BLKID_ENDIANNESS_LITTLE : BLKID_ENDIANNESS_BIG);
return BLKID_PROBE_OK;
}
const struct blkid_idinfo befs_idinfo =
{
.name = "befs",
.usage = BLKID_USAGE_FILESYSTEM,
.probefunc = probe_befs,
.minsz = 1024 * 1440,
.magics = {
{ .magic = "BFS1", .len = 4, .sboff = B_OS_NAME_LENGTH },
{ .magic = "1SFB", .len = 4, .sboff = B_OS_NAME_LENGTH },
{ .magic = "BFS1", .len = 4, .sboff = 0x200 +
B_OS_NAME_LENGTH },
{ .magic = "1SFB", .len = 4, .sboff = 0x200 +
B_OS_NAME_LENGTH },
{ NULL }
}
};
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