OpenSolaris_b135/lib/libparted/common/libparted/labels/dvh.c
/*
libparted - a library for manipulating disk partitions
Copyright (C) 2001, 2002, 2005, 2007 Free Software Foundation, Inc.
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3 of the License, or
(at your option) any later version.
This program 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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include <config.h>
#include <parted/parted.h>
#include <parted/debug.h>
#include <parted/endian.h>
#include "dvh.h"
#if ENABLE_NLS
# include <libintl.h>
# define _(String) dgettext (PACKAGE, String)
#else
# define _(String) (String)
#endif /* ENABLE_NLS */
/* Default size for volhdr part, same val as IRIX's fx uses */
#define PTYPE_VOLHDR_DFLTSZ 4096
/* Partition numbers that seem to be strongly held convention */
#define PNUM_VOLHDR 8
#define PNUM_VOLUME 10
/* Other notes of interest:
* PED_PARTITION_EXTENDED is used for volume headers
* PED_PARTITION_LOGICAL is used for bootfiles
* PED_PARTITION_NORMAL is used for all else
*/
typedef struct _DVHDiskData {
struct device_parameters dev_params;
int swap; /* part num of swap, 0=none */
int root; /* part num of root, 0=none */
int boot; /* part num of boot, 0=none */
} DVHDiskData;
typedef struct _DVHPartData {
int type;
char name[VDNAMESIZE + 1]; /* boot volumes only */
int real_file_size; /* boot volumes only */
} DVHPartData;
static PedDiskType dvh_disk_type;
static int
dvh_probe (const PedDevice *dev)
{
struct volume_header vh;
if (dev->sector_size != 512)
return 0;
if (!ped_device_read (dev, &vh, 0, 1))
return 0;
return PED_BE32_TO_CPU (vh.vh_magic) == VHMAGIC;
}
#ifndef DISCOVER_ONLY
static int
dvh_clobber (PedDevice* dev)
{
char zeros[512];
memset (zeros, 0, 512);
return ped_device_write (dev, zeros, 0, 1);
}
#endif /* !DISCOVER_ONLY */
static PedDisk*
dvh_alloc (const PedDevice* dev)
{
PedDisk* disk;
DVHDiskData* dvh_disk_data;
PedPartition* volume_part;
PedConstraint* constraint_any;
disk = _ped_disk_alloc (dev, &dvh_disk_type);
if (!disk)
goto error;
disk->disk_specific = dvh_disk_data
= ped_malloc (sizeof (DVHDiskData));
if (!dvh_disk_data)
goto error_free_disk;
memset (&dvh_disk_data->dev_params, 0,
sizeof (struct device_parameters));
dvh_disk_data->swap = 0;
dvh_disk_data->root = 0;
dvh_disk_data->boot = 0;
volume_part = ped_partition_new (disk, PED_PARTITION_EXTENDED, NULL,
0, PTYPE_VOLHDR_DFLTSZ - 1);
if (!volume_part)
goto error_free_disk_specific;
volume_part->num = PNUM_VOLHDR + 1;
constraint_any = ped_constraint_any (dev);
if (!ped_disk_add_partition (disk, volume_part, constraint_any))
goto error_destroy_constraint_any;
ped_constraint_destroy (constraint_any);
return disk;
error_destroy_constraint_any:
ped_constraint_destroy (constraint_any);
ped_partition_destroy (volume_part);
error_free_disk_specific:
ped_free (disk->disk_specific);
error_free_disk:
ped_free (disk);
error:
return NULL;
}
static PedDisk*
dvh_duplicate (const PedDisk* disk)
{
PedDisk* new_disk;
DVHDiskData* new_dvh_disk_data;
DVHDiskData* old_dvh_disk_data = disk->disk_specific;
PED_ASSERT (old_dvh_disk_data != NULL, goto error);
new_disk = _ped_disk_alloc (disk->dev, &dvh_disk_type);
if (!new_disk)
goto error;
new_disk->disk_specific = new_dvh_disk_data
= ped_malloc (sizeof (DVHDiskData));
if (!new_dvh_disk_data)
goto error_free_new_disk;
new_dvh_disk_data->dev_params = old_dvh_disk_data->dev_params;
return new_disk;
error_free_new_disk:
ped_free (new_disk);
error:
return NULL;
}
static void
dvh_free (PedDisk* disk)
{
ped_free (disk->disk_specific);
_ped_disk_free (disk);
}
/* two's complement 32-bit checksum */
static uint32_t
_checksum (const uint32_t* base, size_t size)
{
uint32_t sum = 0;
size_t i;
for (i = 0; i < size / sizeof (uint32_t); i++)
sum = sum - PED_BE32_TO_CPU (base[i]);
return sum;
}
/* try to make a reasonable volume header partition... */
static PedExceptionOption
_handle_no_volume_header (PedDisk* disk)
{
PedExceptionOption ret;
PedPartition* part;
PedConstraint* constraint;
switch (ped_exception_throw (
PED_EXCEPTION_WARNING,
PED_EXCEPTION_FIX + PED_EXCEPTION_CANCEL,
_("%s has no extended partition (volume header partition)."),
disk->dev->path)) {
case PED_EXCEPTION_UNHANDLED:
case PED_EXCEPTION_FIX:
default:
part = ped_partition_new (
disk, PED_PARTITION_EXTENDED, NULL,
0, PTYPE_VOLHDR_DFLTSZ - 1);
if (!part)
goto error;
part->num = PNUM_VOLHDR + 1;
constraint = ped_constraint_any (part->disk->dev);
if (!constraint)
goto error_destroy_part;
if (!ped_disk_add_partition (disk, part, constraint))
goto error_destroy_constraint;
ped_constraint_destroy (constraint);
ret = PED_EXCEPTION_FIX;
break;
case PED_EXCEPTION_CANCEL:
goto error;
}
return ret;
error_destroy_constraint:
ped_constraint_destroy (constraint);
error_destroy_part:
ped_partition_destroy (part);
error:
return PED_EXCEPTION_CANCEL;
}
static PedPartition*
_parse_partition (PedDisk* disk, struct partition_table* pt)
{
PedPartition* part;
DVHPartData* dvh_part_data;
PedSector start = PED_BE32_TO_CPU (pt->pt_firstlbn);
PedSector length = PED_BE32_TO_CPU (pt->pt_nblks);
part = ped_partition_new (disk,
pt->pt_type ? 0 : PED_PARTITION_EXTENDED,
NULL,
start, start + length - 1);
if (!part)
return NULL;
dvh_part_data = part->disk_specific;
dvh_part_data->type = PED_BE32_TO_CPU (pt->pt_type);
strcpy (dvh_part_data->name, "");
return part;
}
static PedPartition*
_parse_boot_file (PedDisk* disk, struct volume_directory* vd)
{
PedPartition* part;
DVHPartData* dvh_part_data;
PedSector start = PED_BE32_TO_CPU (vd->vd_lbn);
int length = PED_BE32_TO_CPU (vd->vd_nbytes);
part = ped_partition_new (disk, PED_PARTITION_LOGICAL, NULL,
start, start + length/512 - 1);
if (!part)
return NULL;
dvh_part_data = part->disk_specific;
dvh_part_data->real_file_size = length;
strncpy (dvh_part_data->name, vd->vd_name, VDNAMESIZE);
dvh_part_data->name[VDNAMESIZE] = 0;
return part;
}
static int dvh_write (const PedDisk* disk);
/* YUCK
*
* If you remove a boot/root/swap partition, the disk->disk_specific
* thing isn't updated. (Probably reflects a design bug somewhere...)
* Anyway, the workaround is: flush stale flags whenever we allocate
* new partition numbers, and before we write to disk.
*/
static void
_flush_stale_flags (const PedDisk* disk)
{
DVHDiskData* dvh_disk_data = disk->disk_specific;
if (dvh_disk_data->root
&& !ped_disk_get_partition (disk, dvh_disk_data->root))
dvh_disk_data->root = 0;
if (dvh_disk_data->swap
&& !ped_disk_get_partition (disk, dvh_disk_data->swap))
dvh_disk_data->swap = 0;
if (dvh_disk_data->boot
&& !ped_disk_get_partition (disk, dvh_disk_data->boot))
dvh_disk_data->boot = 0;
}
static int
dvh_read (PedDisk* disk)
{
DVHDiskData* dvh_disk_data = disk->disk_specific;
int i;
struct volume_header vh;
char boot_name [BFNAMESIZE + 1];
#ifndef DISCOVER_ONLY
int write_back = 0;
#endif
PED_ASSERT (dvh_disk_data != NULL, return 0);
ped_disk_delete_all (disk);
if (!ped_device_read (disk->dev, &vh, 0, 1))
return 0;
if (_checksum ((uint32_t*) &vh, sizeof (struct volume_header))) {
if (ped_exception_throw (
PED_EXCEPTION_ERROR,
PED_EXCEPTION_IGNORE_CANCEL,
_("Checksum is wrong, indicating the partition "
"table is corrupt."))
== PED_EXCEPTION_CANCEL)
return 0;
}
PED_ASSERT (PED_BE32_TO_CPU (vh.vh_magic) == VHMAGIC, return 0);
dvh_disk_data->dev_params = vh.vh_dp;
strncpy (boot_name, vh.vh_bootfile, BFNAMESIZE);
boot_name[BFNAMESIZE] = 0;
/* normal partitions */
for (i = 0; i < NPARTAB; i++) {
PedPartition* part;
PedConstraint* constraint_exact;
if (!vh.vh_pt[i].pt_nblks)
continue;
/* Skip the whole-disk partition, parted disklikes overlap */
if (PED_BE32_TO_CPU (vh.vh_pt[i].pt_type) == PTYPE_VOLUME)
continue;
part = _parse_partition (disk, &vh.vh_pt[i]);
if (!part)
goto error_delete_all;
part->fs_type = ped_file_system_probe (&part->geom);
part->num = i + 1;
if (PED_BE16_TO_CPU (vh.vh_rootpt) == i)
ped_partition_set_flag (part, PED_PARTITION_ROOT, 1);
if (PED_BE16_TO_CPU (vh.vh_swappt) == i)
ped_partition_set_flag (part, PED_PARTITION_SWAP, 1);
constraint_exact = ped_constraint_exact (&part->geom);
if (!ped_disk_add_partition(disk, part, constraint_exact)) {
ped_partition_destroy (part);
goto error_delete_all;
}
ped_constraint_destroy (constraint_exact);
}
if (!ped_disk_extended_partition (disk)) {
#ifdef DISCOVER_ONLY
return 1;
#else
switch (_handle_no_volume_header (disk)) {
case PED_EXCEPTION_CANCEL:
return 0;
case PED_EXCEPTION_IGNORE:
return 1;
case PED_EXCEPTION_FIX:
write_back = 1;
break;
default:
break;
}
#endif
}
/* boot partitions */
for (i = 0; i < NVDIR; i++) {
PedPartition* part;
PedConstraint* constraint_exact;
if (!vh.vh_vd[i].vd_nbytes)
continue;
part = _parse_boot_file (disk, &vh.vh_vd[i]);
if (!part)
goto error_delete_all;
part->fs_type = ped_file_system_probe (&part->geom);
part->num = NPARTAB + i + 1;
if (!strcmp (boot_name, ped_partition_get_name (part)))
ped_partition_set_flag (part, PED_PARTITION_BOOT, 1);
constraint_exact = ped_constraint_exact (&part->geom);
if (!ped_disk_add_partition(disk, part, constraint_exact)) {
ped_partition_destroy (part);
goto error_delete_all;
}
ped_constraint_destroy (constraint_exact);
}
#ifndef DISCOVER_ONLY
if (write_back)
dvh_write (disk);
#endif
return 1;
error_delete_all:
ped_disk_delete_all (disk);
return 0;
}
#ifndef DISCOVER_ONLY
static void
_generate_partition (PedPartition* part, struct partition_table* pt)
{
DVHPartData* dvh_part_data = part->disk_specific;
/* Assert not a bootfile */
PED_ASSERT ((part->type & PED_PARTITION_LOGICAL) == 0, return);
pt->pt_nblks = PED_CPU_TO_BE32 (part->geom.length);
pt->pt_firstlbn = PED_CPU_TO_BE32 (part->geom.start);
pt->pt_type = PED_CPU_TO_BE32 (dvh_part_data->type);
}
static void
_generate_boot_file (PedPartition* part, struct volume_directory* vd)
{
DVHPartData* dvh_part_data = part->disk_specific;
/* Assert it's a bootfile */
PED_ASSERT ((part->type & PED_PARTITION_LOGICAL) != 0, return);
vd->vd_nbytes = PED_CPU_TO_BE32 (dvh_part_data->real_file_size);
vd->vd_lbn = PED_CPU_TO_BE32 (part->geom.start);
memset (vd->vd_name, 0, VDNAMESIZE);
strncpy (vd->vd_name, dvh_part_data->name, VDNAMESIZE);
}
static int
dvh_write (const PedDisk* disk)
{
DVHDiskData* dvh_disk_data = disk->disk_specific;
struct volume_header vh;
int i;
PED_ASSERT (dvh_disk_data != NULL, return 0);
_flush_stale_flags (disk);
memset (&vh, 0, sizeof (struct volume_header));
vh.vh_magic = PED_CPU_TO_BE32 (VHMAGIC);
vh.vh_rootpt = PED_CPU_TO_BE16 (dvh_disk_data->root - 1);
vh.vh_swappt = PED_CPU_TO_BE16 (dvh_disk_data->swap - 1);
if (dvh_disk_data->boot) {
PedPartition* boot_part;
boot_part = ped_disk_get_partition (disk, dvh_disk_data->boot);
strcpy (vh.vh_bootfile, ped_partition_get_name (boot_part));
}
vh.vh_dp = dvh_disk_data->dev_params;
/* Set up rudimentary device geometry */
vh.vh_dp.dp_cyls
= PED_CPU_TO_BE16 ((short)disk->dev->bios_geom.cylinders);
vh.vh_dp.dp_trks0 = PED_CPU_TO_BE16 ((short)disk->dev->bios_geom.heads);
vh.vh_dp.dp_secs
= PED_CPU_TO_BE16 ((short)disk->dev->bios_geom.sectors);
vh.vh_dp.dp_secbytes = PED_CPU_TO_BE16 ((short)disk->dev->sector_size);
for (i = 0; i < NPARTAB; i++) {
PedPartition* part = ped_disk_get_partition (disk, i + 1);
if (part)
_generate_partition (part, &vh.vh_pt[i]);
}
/* whole disk partition
* This is only ever written here, and never modified
* (or even shown) as it must contain the entire disk,
* and parted does not like overlapping partitions
*/
vh.vh_pt[PNUM_VOLUME].pt_nblks = PED_CPU_TO_BE32 (disk->dev->length);
vh.vh_pt[PNUM_VOLUME].pt_firstlbn = PED_CPU_TO_BE32 (0);
vh.vh_pt[PNUM_VOLUME].pt_type = PED_CPU_TO_BE32 (PTYPE_VOLUME);
for (i = 0; i < NVDIR; i++) {
PedPartition* part = ped_disk_get_partition (disk,
i + 1 + NPARTAB);
if (part)
_generate_boot_file (part, &vh.vh_vd[i]);
}
vh.vh_csum = 0;
vh.vh_csum = PED_CPU_TO_BE32 (_checksum ((uint32_t*) &vh,
sizeof (struct volume_header)));
return ped_device_write (disk->dev, &vh, 0, 1)
&& ped_device_sync (disk->dev);
}
#endif /* !DISCOVER_ONLY */
static PedPartition*
dvh_partition_new (const PedDisk* disk, PedPartitionType part_type,
const PedFileSystemType* fs_type,
PedSector start, PedSector end)
{
PedPartition* part;
DVHPartData* dvh_part_data;
part = _ped_partition_alloc (disk, part_type, fs_type, start, end);
if (!part)
goto error;
if (!ped_partition_is_active (part)) {
part->disk_specific = NULL;
return part;
}
dvh_part_data = part->disk_specific =
ped_malloc (sizeof (DVHPartData));
if (!dvh_part_data)
goto error_free_part;
dvh_part_data->type = (part_type == PED_PARTITION_EXTENDED)
? PTYPE_VOLHDR
: PTYPE_RAW;
strcpy (dvh_part_data->name, "");
dvh_part_data->real_file_size = part->geom.length * 512;
return part;
error_free_part:
_ped_partition_free (part);
error:
return NULL;
}
static PedPartition*
dvh_partition_duplicate (const PedPartition* part)
{
PedPartition* result;
DVHPartData* part_data = part->disk_specific;
DVHPartData* result_data;
result = _ped_partition_alloc (part->disk, part->type, part->fs_type,
part->geom.start, part->geom.end);
if (!result)
goto error;
result->num = part->num;
if (!ped_partition_is_active (part)) {
result->disk_specific = NULL;
return result;
}
result_data = result->disk_specific =
ped_malloc (sizeof (DVHPartData));
if (!result_data)
goto error_free_part;
result_data->type = part_data->type;
strcpy (result_data->name, part_data->name);
result_data->real_file_size = part_data->real_file_size;
return result;
error_free_part:
_ped_partition_free (result);
error:
return NULL;
}
static void
dvh_partition_destroy (PedPartition* part)
{
if (ped_partition_is_active (part)) {
PED_ASSERT (part->disk_specific != NULL, return);
ped_free (part->disk_specific);
}
_ped_partition_free (part);
}
static int
dvh_partition_set_system (PedPartition* part, const PedFileSystemType* fs_type)
{
DVHPartData* dvh_part_data = part->disk_specific;
part->fs_type = fs_type;
if (part->type == PED_PARTITION_EXTENDED) {
dvh_part_data->type = PTYPE_VOLHDR;
return 1;
}
/* Is this a bootfile? */
if (part->type == PED_PARTITION_LOGICAL)
return 1;
if (fs_type && !strcmp (fs_type->name, "xfs"))
dvh_part_data->type = PTYPE_XFS;
else
dvh_part_data->type = PTYPE_RAW;
return 1;
}
static int
dvh_partition_set_flag (PedPartition* part, PedPartitionFlag flag, int state)
{
DVHDiskData* dvh_disk_data = part->disk->disk_specific;
switch (flag) {
case PED_PARTITION_ROOT:
if (part->type != 0 && state) {
#ifndef DISCOVER_ONLY
ped_exception_throw (
PED_EXCEPTION_ERROR,
PED_EXCEPTION_CANCEL,
_("Only primary partitions can be root "
"partitions."));
#endif
return 0;
}
dvh_disk_data->root = state ? part->num : 0;
break;
case PED_PARTITION_SWAP:
if (part->type != 0 && state) {
#ifndef DISCOVER_ONLY
ped_exception_throw (
PED_EXCEPTION_ERROR,
PED_EXCEPTION_CANCEL,
_("Only primary partitions can be swap "
"partitions."));
return 0;
#endif
}
dvh_disk_data->swap = state ? part->num : 0;
break;
case PED_PARTITION_BOOT:
if (part->type != PED_PARTITION_LOGICAL && state) {
#ifndef DISCOVER_ONLY
ped_exception_throw (
PED_EXCEPTION_ERROR,
PED_EXCEPTION_CANCEL,
_("Only logical partitions can be a boot "
"file."));
#endif
return 0;
}
dvh_disk_data->boot = state ? part->num : 0;
break;
case PED_PARTITION_LVM:
case PED_PARTITION_LBA:
case PED_PARTITION_HIDDEN:
case PED_PARTITION_RAID:
default:
return 0;
}
return 1;
}
static int
dvh_partition_get_flag (const PedPartition* part, PedPartitionFlag flag)
{
DVHDiskData* dvh_disk_data = part->disk->disk_specific;
switch (flag) {
case PED_PARTITION_ROOT:
return dvh_disk_data->root == part->num;
case PED_PARTITION_SWAP:
return dvh_disk_data->swap == part->num;
case PED_PARTITION_BOOT:
return dvh_disk_data->boot == part->num;
case PED_PARTITION_LVM:
case PED_PARTITION_LBA:
case PED_PARTITION_HIDDEN:
case PED_PARTITION_RAID:
default:
return 0;
}
return 1;
}
static int
dvh_partition_is_flag_available (const PedPartition* part,
PedPartitionFlag flag)
{
switch (flag) {
case PED_PARTITION_ROOT:
case PED_PARTITION_SWAP:
case PED_PARTITION_BOOT:
return 1;
case PED_PARTITION_LVM:
case PED_PARTITION_LBA:
case PED_PARTITION_HIDDEN:
case PED_PARTITION_RAID:
default:
return 0;
}
return 1;
}
static void
dvh_partition_set_name (PedPartition* part, const char* name)
{
DVHPartData* dvh_part_data = part->disk_specific;
if (part->type == PED_PARTITION_LOGICAL) {
/* Bootfile */
strncpy (dvh_part_data->name, name, VDNAMESIZE);
dvh_part_data->name[VDNAMESIZE] = 0;
} else {
#ifndef DISCOVER_ONLY
ped_exception_throw (
PED_EXCEPTION_ERROR,
PED_EXCEPTION_CANCEL,
_("Only logical partitions (boot files) have a name."));
#endif
}
}
static const char*
dvh_partition_get_name (const PedPartition* part)
{
DVHPartData* dvh_part_data = part->disk_specific;
return dvh_part_data->name;
}
/* The constraint for the volume header partition is different, because it must
* contain the first sector of the disk.
*/
static PedConstraint*
_get_extended_constraint (PedDisk* disk)
{
PedGeometry min_geom;
if (!ped_geometry_init (&min_geom, disk->dev, 0, 1))
return NULL;
return ped_constraint_new_from_min (&min_geom);
}
static PedConstraint*
_get_primary_constraint (PedDisk* disk)
{
PedGeometry max_geom;
if (!ped_geometry_init (&max_geom, disk->dev, 1, disk->dev->length - 1))
return NULL;
return ped_constraint_new_from_max (&max_geom);
}
static int
dvh_partition_align (PedPartition* part, const PedConstraint* constraint)
{
PED_ASSERT (part != NULL, return 0);
if (_ped_partition_attempt_align (
part, constraint,
(part->type == PED_PARTITION_EXTENDED)
? _get_extended_constraint (part->disk)
: _get_primary_constraint (part->disk)))
return 1;
#ifndef DISCOVER_ONLY
ped_exception_throw (
PED_EXCEPTION_ERROR,
PED_EXCEPTION_CANCEL,
_("Unable to satisfy all constraints on the partition."));
#endif
return 0;
}
static int
dvh_partition_enumerate (PedPartition* part)
{
int i;
/* never change the partition numbers */
if (part->num != -1)
return 1;
_flush_stale_flags (part->disk);
if (part->type & PED_PARTITION_LOGICAL) {
/* Bootfile */
for (i = 1 + NPARTAB; i <= NPARTAB + NVDIR; i++) {
if (!ped_disk_get_partition (part->disk, i)) {
part->num = i;
return 1;
}
}
PED_ASSERT (0, return 0);
} else if (part->type & PED_PARTITION_EXTENDED) {
/* Volheader */
part->num = PNUM_VOLHDR + 1;
} else {
for (i = 1; i <= NPARTAB; i++) {
/* reserved for full volume partition */
if (i == PNUM_VOLUME + 1)
continue;
if (!ped_disk_get_partition (part->disk, i)) {
part->num = i;
return 1;
}
}
ped_exception_throw (
PED_EXCEPTION_ERROR,
PED_EXCEPTION_CANCEL,
_("Too many primary partitions"));
}
return 0;
}
static int
dvh_get_max_primary_partition_count (const PedDisk* disk)
{
return NPARTAB;
}
static int
dvh_alloc_metadata (PedDisk* disk)
{
PedPartition* part;
PedPartition* extended_part;
PedConstraint* constraint_exact;
PedPartitionType metadata_type;
PED_ASSERT(disk != NULL, return 0);
/* We don't need to "protect" the start of the disk from the volume
* header.
*/
extended_part = ped_disk_extended_partition (disk);
if (extended_part && extended_part->geom.start == 0)
metadata_type = PED_PARTITION_METADATA | PED_PARTITION_LOGICAL;
else
metadata_type = PED_PARTITION_METADATA;
part = ped_partition_new (disk, metadata_type, NULL, 0, 0);
if (!part)
goto error;
constraint_exact = ped_constraint_exact (&part->geom);
if (!ped_disk_add_partition (disk, part, constraint_exact))
goto error_destroy_part;
ped_constraint_destroy (constraint_exact);
return 1;
ped_constraint_destroy (constraint_exact);
error_destroy_part:
ped_partition_destroy (part);
error:
return 0;
}
static PedDiskOps dvh_disk_ops = {
.probe = dvh_probe,
#ifndef DISCOVER_ONLY
.clobber = dvh_clobber,
#else
.clobber = NULL,
#endif
.alloc = dvh_alloc,
.duplicate = dvh_duplicate,
.free = dvh_free,
.read = dvh_read,
#ifndef DISCOVER_ONLY
.write = dvh_write,
#else
.write = NULL,
#endif
.partition_new = dvh_partition_new,
.partition_duplicate = dvh_partition_duplicate,
.partition_destroy = dvh_partition_destroy,
.partition_set_system = dvh_partition_set_system,
.partition_set_flag = dvh_partition_set_flag,
.partition_get_flag = dvh_partition_get_flag,
.partition_is_flag_available = dvh_partition_is_flag_available,
.partition_set_name = dvh_partition_set_name,
.partition_get_name = dvh_partition_get_name,
.partition_align = dvh_partition_align,
.partition_enumerate = dvh_partition_enumerate,
.alloc_metadata = dvh_alloc_metadata,
.get_max_primary_partition_count =
dvh_get_max_primary_partition_count
};
static PedDiskType dvh_disk_type = {
.next = NULL,
.name = "dvh",
.ops = &dvh_disk_ops,
.features = PED_DISK_TYPE_PARTITION_NAME | PED_DISK_TYPE_EXTENDED
};
void
ped_disk_dvh_init ()
{
PED_ASSERT (sizeof (struct volume_header) == 512, return);
ped_disk_type_register (&dvh_disk_type);
}
void
ped_disk_dvh_done ()
{
ped_disk_type_unregister (&dvh_disk_type);
}