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lvm2/device_mapper/vdo/vdo_target.c
Zdenek Kabelac 79427151dc vdo: add support for auto-unsafe writePolicy
This vdoWritePolicy policy missed matching support in lvm2.
2021-09-06 15:19:51 +02:00

132 lines
4.1 KiB
C

/*
* Copyright (C) 2018 Red Hat, Inc. All rights reserved.
*
* This file is part of LVM2.
*
* This copyrighted material is made available to anyone wishing to use,
* modify, copy, or redistribute it subject to the terms and conditions
* of the GNU Lesser General Public License v.2.1.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this program; if not, write to the Free Software Foundation,
* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include "device_mapper/misc/dmlib.h"
#include "device_mapper/all.h"
#include "vdo_limits.h"
#include "target.h"
bool dm_vdo_validate_target_params(const struct dm_vdo_target_params *vtp,
uint64_t vdo_size)
{
bool valid = true;
/* 512 or 4096 bytes only ATM */
if ((vtp->minimum_io_size != 1) &&
(vtp->minimum_io_size != 8)) {
log_error("VDO minimum io size %u is unsupported.",
vtp->minimum_io_size);
valid = false;
}
if ((vtp->block_map_cache_size_mb < DM_VDO_BLOCK_MAP_CACHE_SIZE_MINIMUM_MB) ||
(vtp->block_map_cache_size_mb > DM_VDO_BLOCK_MAP_CACHE_SIZE_MAXIMUM_MB)) {
log_error("VDO block map cache size %u out of range.",
vtp->block_map_cache_size_mb);
valid = false;
}
if ((vtp->index_memory_size_mb < DM_VDO_INDEX_MEMORY_SIZE_MINIMUM_MB) ||
(vtp->index_memory_size_mb > DM_VDO_INDEX_MEMORY_SIZE_MAXIMUM_MB)) {
log_error("VDO index memory size %u out of range.",
vtp->index_memory_size_mb);
valid = false;
}
if ((vtp->slab_size_mb < DM_VDO_SLAB_SIZE_MINIMUM_MB) ||
(vtp->slab_size_mb > DM_VDO_SLAB_SIZE_MAXIMUM_MB)) {
log_error("VDO slab size %u out of range.",
vtp->slab_size_mb);
valid = false;
}
if ((vtp->max_discard < DM_VDO_MAX_DISCARD_MINIMUM) ||
(vtp->max_discard > DM_VDO_MAX_DISCARD_MAXIMUM)) {
log_error("VDO max discard %u out of range.",
vtp->max_discard);
valid = false;
}
if (vtp->ack_threads > DM_VDO_ACK_THREADS_MAXIMUM) {
log_error("VDO ack threads %u out of range.", vtp->ack_threads);
valid = false;
}
if ((vtp->bio_threads < DM_VDO_BIO_THREADS_MINIMUM) ||
(vtp->bio_threads > DM_VDO_BIO_THREADS_MAXIMUM)) {
log_error("VDO bio threads %u out of range.", vtp->bio_threads);
valid = false;
}
if ((vtp->bio_rotation < DM_VDO_BIO_ROTATION_MINIMUM) ||
(vtp->bio_rotation > DM_VDO_BIO_ROTATION_MAXIMUM)) {
log_error("VDO bio rotation %u out of range.", vtp->bio_rotation);
valid = false;
}
if ((vtp->cpu_threads < DM_VDO_CPU_THREADS_MINIMUM) ||
(vtp->cpu_threads > DM_VDO_CPU_THREADS_MAXIMUM)) {
log_error("VDO cpu threads %u out of range.", vtp->cpu_threads);
valid = false;
}
if (vtp->hash_zone_threads > DM_VDO_HASH_ZONE_THREADS_MAXIMUM) {
log_error("VDO hash zone threads %u out of range.", vtp->hash_zone_threads);
valid = false;
}
if (vtp->logical_threads > DM_VDO_LOGICAL_THREADS_MAXIMUM) {
log_error("VDO logical threads %u out of range.", vtp->logical_threads);
valid = false;
}
if (vtp->physical_threads > DM_VDO_PHYSICAL_THREADS_MAXIMUM) {
log_error("VDO physical threads %u out of range.", vtp->physical_threads);
valid = false;
}
switch (vtp->write_policy) {
case DM_VDO_WRITE_POLICY_SYNC:
case DM_VDO_WRITE_POLICY_ASYNC:
case DM_VDO_WRITE_POLICY_ASYNC_UNSAFE:
case DM_VDO_WRITE_POLICY_AUTO:
break;
default:
log_error(INTERNAL_ERROR "VDO write policy %u is unknown.", vtp->write_policy);
valid = false;
}
if ((vtp->hash_zone_threads ||
vtp->logical_threads ||
vtp->physical_threads) &&
(!vtp->hash_zone_threads ||
!vtp->logical_threads ||
!vtp->physical_threads)) {
log_error("Value of vdo_hash_zone_threads(%u), vdo_logical_threads(%u), "
"vdo_physical_threads(%u) must be all zero or all non-zero.",
vtp->hash_zone_threads, vtp->logical_threads, vtp->physical_threads);
valid = false;
}
if (vdo_size >= (DM_VDO_LOGICAL_SIZE_MAXIMUM_MB * UINT64_C(1024 * 2))) {
log_error("VDO logical size is by " FMTu64 "KiB bigger then limit " FMTu64 "TiB.",
(vdo_size - (DM_VDO_LOGICAL_SIZE_MAXIMUM_MB * UINT64_C(1024 * 2))) / 2,
DM_VDO_LOGICAL_SIZE_MAXIMUM_MB / UINT64_C(1024) / UINT64_C(1024));
valid = false;
}
return valid;
}