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sortix-mirror/libmount/mbr.c
Jonas 'Sortie' Termansen 2b72262b4f Relicense Sortix to the ISC license. 
I hereby relicense all my work on Sortix under the ISC license as below.

All Sortix contributions by other people are already under this license,
are not substantial enough to be copyrightable, or have been removed.

All imported code from other projects is compatible with this license.

All GPL licensed code from other projects had previously been removed.

Copyright 2011-2016 Jonas 'Sortie' Termansen and contributors.

Permission to use, copy, modify, and distribute this software for any
purpose with or without fee is hereby granted, provided that the above
copyright notice and this permission notice appear in all copies.

THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
2016-03-05 22:21:50 +01:00

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/*
* Copyright (c) 2015 Jonas 'Sortie' Termansen.
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*
* mbr.c
* Master Boot Record.
*/
#include <sys/types.h>
#include <endian.h>
#include <errno.h>
#include <stdbool.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <mount/blockdevice.h>
#include <mount/harddisk.h>
#include <mount/mbr.h>
#include <mount/partition.h>
#include "util.h"
void mbr_partition_decode(struct mbr_partition* v)
{
// flags is endian agnostic.
// start_head is endian agnostic.
v->start_sector_cylinder = le16toh(v->start_sector_cylinder);
v->end_sector_cylinder = le16toh(v->end_sector_cylinder);
// system_id is endian agnostic.
// end_head is endian agnostic.
v->start_sector = le32toh(v->start_sector);
v->total_sectors = le32toh(v->total_sectors);
}
void mbr_partition_encode(struct mbr_partition* v)
{
v->start_sector_cylinder = htole16(v->start_sector_cylinder);
v->end_sector_cylinder = htole16(v->end_sector_cylinder);
// flags is endian agnostic.
// start_head is endian agnostic.
v->start_sector = htole32(v->start_sector);
v->total_sectors = htole32(v->total_sectors);
// system_id is endian agnostic.
// end_head is endian agnostic.
}
void mbr_partition_table_release(struct mbr_partition_table* pt)
{
if ( !pt )
return;
free(pt->ebr_chain);
free(pt);
}
static bool mbr_is_extended_partition(const struct mbr_partition* partition)
{
return partition->system_id == 0x05 || // CHS addressing.
partition->system_id == 0x0F; // LBA addressing.
}
bool mbr_is_partition_used(const struct mbr_partition* partition)
{
if ( memiszero(partition, sizeof(*partition)) )
return false;
if ( !partition->system_id ||
!partition->total_sectors )
return false;
return true;
}
enum partition_error
blockdevice_get_partition_table_mbr(struct partition_table** pt_ptr,
struct blockdevice* bdev)
{
*pt_ptr = NULL;
blksize_t logical_block_size = blockdevice_logical_block_size(bdev);
if ( !blockdevice_check_reasonable_block_size(logical_block_size) )
return errno = EINVAL, PARTITION_ERROR_ERRNO;
off_t device_size = blockdevice_size(bdev);
const char* device_path = bdev->p ? bdev->p->path : bdev->hd->path;
struct mbr mbr;
if ( blockdevice_preadall(bdev, &mbr, sizeof(mbr), 0) != sizeof(mbr) )
return PARTITION_ERROR_ERRNO;
if ( mbr.signature[0] != 0x55 && mbr.signature[1] != 0xAA )
return errno = EINVAL, PARTITION_ERROR_ERRNO;
struct partition_table* pt = CALLOC_TYPE(struct partition_table);
if ( !pt )
return PARTITION_ERROR_ERRNO;
*pt_ptr = pt;
pt->type = PARTITION_TABLE_TYPE_MBR;
size_t pt__partitions_length = 0;
pt->usable_start = logical_block_size;
off_t last_sector = device_size / logical_block_size;
if ( UINT32_MAX + 1LL < last_sector )
last_sector = UINT32_MAX + 1LL;
pt->usable_end = last_sector * logical_block_size;
struct mbr_partition_table* mbrpt = CALLOC_TYPE(struct mbr_partition_table);
if ( !mbrpt )
return PARTITION_ERROR_ERRNO;
pt->raw_partition_table = mbrpt;
memcpy(&mbrpt->mbr, &mbr, sizeof(mbr));
unsigned int extended_partition_count = 0;
for ( unsigned int i = 0; i < 4; i++ )
{
struct mbr_partition pmbr;
memcpy(&pmbr, mbr.partitions[i], sizeof(pmbr));
mbr_partition_decode(&pmbr);
if ( mbr_is_partition_used(&pmbr) && mbr_is_extended_partition(&pmbr) )
extended_partition_count++;
}
if ( 2 <= extended_partition_count ) // Violates assumptions.
return PARTITION_ERROR_TOO_EXTENDED;
for ( unsigned int i = 0; i < 4; i++ )
{
struct mbr_partition pmbr;
memcpy(&pmbr, mbr.partitions[i], sizeof(pmbr));
mbr_partition_decode(&pmbr);
if ( !mbr_is_partition_used(&pmbr) )
continue;
// TODO: Potential overflow.
if ( pmbr.start_sector == 0 )
return PARTITION_ERROR_BEFORE_USABLE;
off_t start = (off_t) pmbr.start_sector * (off_t) logical_block_size;
off_t length = (off_t) pmbr.total_sectors * (off_t) logical_block_size;
if ( device_size < start || device_size - start < length )
return PARTITION_ERROR_BEYOND_DEVICE;
for ( size_t j = 0; j < pt->partitions_count; j++ )
if ( partition_check_overlap(pt->partitions[j], start, length) )
return PARTITION_ERROR_OVERLAP;
struct partition* p = CALLOC_TYPE(struct partition);
if ( !p )
return PARTITION_ERROR_ERRNO;
memset(&p->bdev, 0, sizeof(p->bdev));
p->bdev.p = p;
p->parent_bdev = bdev;
p->index = 1 + i;
p->start = start;
p->length = length;
p->type = PARTITION_TYPE_PRIMARY;
if ( mbr_is_extended_partition(&pmbr) )
{
p->extended_start = start;
p->extended_length = length;
p->type = PARTITION_TYPE_EXTENDED;
}
p->table_type = PARTITION_TABLE_TYPE_MBR;
p->mbr_system_id = pmbr.system_id;
if ( !array_add((void***) &pt->partitions,
&pt->partitions_count,
&pt__partitions_length,
p) )
return free(p), PARTITION_ERROR_ERRNO;
if ( device_path &&
asprintf(&p->path, "%sp%u", device_path, p->index) < 0 )
return PARTITION_ERROR_ERRNO;
}
for ( unsigned int i = 0; i < 4; i++ )
{
struct mbr_partition pextmbr;
memcpy(&pextmbr, mbr.partitions[i], sizeof(pextmbr));
mbr_partition_decode(&pextmbr);
if ( !mbr_is_partition_used(&pextmbr) )
continue;
if ( !mbr_is_extended_partition(&pextmbr) )
continue;
// TODO: Potential overflow.
off_t pext_start = (off_t) pextmbr.start_sector * (off_t) logical_block_size;
off_t pext_length = (off_t) pextmbr.total_sectors * (off_t) logical_block_size;
off_t ebr_rel = 0;
unsigned int j = 0;
while ( true )
{
struct mbr ebr;
if ( pext_length <= ebr_rel )
return PARTITION_ERROR_BEYOND_EXTENDED;
off_t ebr_off = pext_start + ebr_rel;
if ( blockdevice_preadall(bdev, &ebr, sizeof(ebr), ebr_off) != sizeof(ebr) )
return PARTITION_ERROR_ERRNO;
if ( ebr.signature[0] != 0x55 && ebr.signature[1] != 0xAA )
return PARTITION_ERROR_BAD_EXTENDED;
size_t new_chain_count = mbrpt->ebr_chain_count + 1;
size_t chain_size = sizeof(struct mbr_ebr_link) * new_chain_count;
struct mbr_ebr_link* new_chain =
(struct mbr_ebr_link*) realloc(mbrpt->ebr_chain, chain_size);
if ( !new_chain )
return PARTITION_ERROR_ERRNO;
mbrpt->ebr_chain = new_chain;
mbrpt->ebr_chain_count = new_chain_count;
memcpy(&mbrpt->ebr_chain[j].ebr, &ebr, sizeof(ebr));
mbrpt->ebr_chain[j].offset = ebr_off;
struct mbr_partition pmbr;
memcpy(&pmbr, ebr.partitions[0], sizeof(pmbr));
mbr_partition_decode(&pmbr);
if ( mbr_is_partition_used(&pmbr) )
{
// TODO: Potential overflow.
off_t start = (off_t) pmbr.start_sector * (off_t) logical_block_size;
off_t length = (off_t) pmbr.total_sectors * (off_t) logical_block_size;
if ( pext_length - ebr_rel < start )
return PARTITION_ERROR_BEYOND_EXTENDED;
off_t max_length = (pext_length - ebr_rel) - start;
if ( max_length < length )
return PARTITION_ERROR_BEYOND_EXTENDED;
struct partition* p = CALLOC_TYPE(struct partition);
if ( !p )
return PARTITION_ERROR_ERRNO;
memset(&p->bdev, 0, sizeof(p->bdev));
p->bdev.p = p;
p->parent_bdev = bdev;
p->index = 5 + j;
p->start = ebr_off + start;
p->length = length;
p->type = PARTITION_TYPE_LOGICAL;
p->table_type = PARTITION_TABLE_TYPE_MBR;
p->mbr_system_id = pmbr.system_id;
if ( !array_add((void***) &pt->partitions,
&pt->partitions_count,
&pt__partitions_length,
p) )
return free(p), PARTITION_ERROR_ERRNO;
if ( device_path &&
asprintf(&p->path, "%sp%u", device_path, p->index) < 0 )
return PARTITION_ERROR_ERRNO;
}
j++;
struct mbr_partition next;
memcpy(&next, ebr.partitions[1], sizeof(next));
mbr_partition_decode(&next);
// TODO: Potential overflow.
off_t next_rel = (off_t) next.start_sector * (off_t) logical_block_size;
if ( !next_rel )
break;
if ( next_rel <= ebr_rel ) // Violates assumptions.
return PARTITION_ERROR_NONLINEAR_EXTENDED;
if ( pext_length <= next_rel )
return PARTITION_ERROR_BEYOND_EXTENDED;
ebr_rel = next_rel;
}
break;
}
return PARTITION_ERROR_NONE;
}
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