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/*
* Copyright ( C ) 2014 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 . , 59 Temple Place , Suite 330 , Boston , MA 02111 - 1307 USA
*/
# include "lib.h"
# include "metadata.h"
# include "locking.h"
# include "lvm-string.h"
# include "toolcontext.h"
# include "display.h"
# include "segtype.h"
# include "activate.h"
# include "defaults.h"
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# include "lv_alloc.h"
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/* https://github.com/jthornber/thin-provisioning-tools/blob/master/caching/cache_metadata_size.cc */
# define DM_TRANSACTION_OVERHEAD 4096 /* KiB */
# define DM_BYTES_PER_BLOCK 16 /* bytes */
# define DM_HINT_OVERHEAD_PER_BLOCK 8 /* bytes */
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# define DM_MAX_HINT_WIDTH (4+16) /* bytes. FIXME Configurable? */
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const char * get_cache_pool_cachemode_name ( const struct lv_segment * seg )
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{
if ( seg - > feature_flags & DM_CACHE_FEATURE_WRITEBACK )
return " writeback " ;
if ( seg - > feature_flags & DM_CACHE_FEATURE_WRITETHROUGH )
return " writethrough " ;
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if ( seg - > feature_flags & DM_CACHE_FEATURE_PASSTHROUGH )
return " passthrough " ;
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log_error ( INTERNAL_ERROR " LV %s has uknown feature flags % " PRIu64 " . " ,
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display_lvname ( seg - > lv ) , seg - > feature_flags ) ;
return NULL ;
}
int set_cache_pool_feature ( uint64_t * feature_flags , const char * str )
{
if ( ! strcmp ( str , " writeback " ) )
* feature_flags | = DM_CACHE_FEATURE_WRITEBACK ;
else if ( ! strcmp ( str , " writethrough " ) )
* feature_flags | = DM_CACHE_FEATURE_WRITETHROUGH ;
else if ( ! strcmp ( str , " passhrough " ) )
* feature_flags | = DM_CACHE_FEATURE_PASSTHROUGH ;
else {
log_error ( " Cache pool feature \" %s \" is unknown. " , str ) ;
return 0 ;
}
return 1 ;
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}
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int update_cache_pool_params ( const struct segment_type * segtype ,
struct volume_group * vg , unsigned attr ,
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int passed_args , uint32_t pool_data_extents ,
uint32_t * pool_metadata_extents ,
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int * chunk_size_calc_method , uint32_t * chunk_size )
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{
uint64_t min_meta_size ;
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uint32_t extent_size = vg - > extent_size ;
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uint64_t pool_metadata_size = ( uint64_t ) * pool_metadata_extents * vg - > extent_size ;
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if ( ! ( passed_args & PASS_ARG_CHUNK_SIZE ) )
* chunk_size = DEFAULT_CACHE_POOL_CHUNK_SIZE * 2 ;
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if ( ! validate_pool_chunk_size ( vg - > cmd , segtype , * chunk_size ) )
return_0 ;
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/*
* Default meta size is :
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* ( Overhead + mapping size + hint size )
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*/
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min_meta_size = ( uint64_t ) pool_data_extents * extent_size / * chunk_size ; /* nr_chunks */
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min_meta_size * = ( DM_BYTES_PER_BLOCK + DM_MAX_HINT_WIDTH + DM_HINT_OVERHEAD_PER_BLOCK ) ;
min_meta_size = ( min_meta_size + ( SECTOR_SIZE - 1 ) ) > > SECTOR_SHIFT ; /* in sectors */
min_meta_size + = DM_TRANSACTION_OVERHEAD * ( 1024 > > SECTOR_SHIFT ) ;
/* Round up to extent size */
if ( min_meta_size % extent_size )
min_meta_size + = extent_size - min_meta_size % extent_size ;
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if ( ! pool_metadata_size )
pool_metadata_size = min_meta_size ;
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if ( pool_metadata_size > ( 2 * DEFAULT_CACHE_POOL_MAX_METADATA_SIZE ) ) {
pool_metadata_size = 2 * DEFAULT_CACHE_POOL_MAX_METADATA_SIZE ;
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if ( passed_args & PASS_ARG_POOL_METADATA_SIZE )
log_warn ( " WARNING: Maximum supported pool metadata size is %s. " ,
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display_size ( vg - > cmd , pool_metadata_size ) ) ;
} else if ( pool_metadata_size < min_meta_size ) {
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if ( passed_args & PASS_ARG_POOL_METADATA_SIZE )
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log_warn ( " WARNING: Minimum required pool metadata size is %s "
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" (needs extra %s). " ,
display_size ( vg - > cmd , min_meta_size ) ,
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display_size ( vg - > cmd , min_meta_size - pool_metadata_size ) ) ;
pool_metadata_size = min_meta_size ;
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}
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if ( ! ( * pool_metadata_extents =
extents_from_size ( vg - > cmd , pool_metadata_size , extent_size ) ) )
return_0 ;
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return 1 ;
}
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/*
* Validate arguments for converting origin into cached volume with given cache pool .
*
* Always validates origin_lv , and when it is known also cache pool_lv
*/
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int validate_lv_cache_create_pool ( const struct logical_volume * pool_lv )
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{
struct lv_segment * seg ;
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if ( ! lv_is_cache_pool ( pool_lv ) ) {
log_error ( " Logical volume %s is not a cache pool. " ,
display_lvname ( pool_lv ) ) ;
return 0 ;
}
if ( lv_is_locked ( pool_lv ) ) {
log_error ( " Cannot use locked cache pool %s. " ,
display_lvname ( pool_lv ) ) ;
return 0 ;
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}
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if ( ! dm_list_empty ( & pool_lv - > segs_using_this_lv ) ) {
seg = get_only_segment_using_this_lv ( pool_lv ) ;
log_error ( " Logical volume %s is already in use by %s " ,
display_lvname ( pool_lv ) ,
seg ? display_lvname ( seg - > lv ) : " another LV " ) ;
return 0 ;
}
return 1 ;
}
int validate_lv_cache_create_origin ( const struct logical_volume * origin_lv )
{
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if ( lv_is_locked ( origin_lv ) ) {
log_error ( " Cannot use locked origin volume %s. " ,
display_lvname ( origin_lv ) ) ;
return 0 ;
}
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/* For now we only support conversion of thin pool data volume */
if ( ! lv_is_visible ( origin_lv ) & & ! lv_is_thin_pool_data ( origin_lv ) ) {
log_error ( " Can't convert internal LV %s. " , display_lvname ( origin_lv ) ) ;
return 0 ;
}
/*
* Only linear , striped or raid supported .
* FIXME Tidy up all these type restrictions .
*/
if ( lv_is_cache_type ( origin_lv ) | |
lv_is_mirror_type ( origin_lv ) | |
lv_is_thin_volume ( origin_lv ) | | lv_is_thin_pool_metadata ( origin_lv ) | |
lv_is_origin ( origin_lv ) | | lv_is_merging_origin ( origin_lv ) | |
lv_is_cow ( origin_lv ) | | lv_is_merging_cow ( origin_lv ) | |
lv_is_external_origin ( origin_lv ) | |
lv_is_virtual ( origin_lv ) ) {
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log_error ( " Cache is not supported with %s segment type of the original logical volume %s. " ,
first_seg ( origin_lv ) - > segtype - > name , display_lvname ( origin_lv ) ) ;
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return 0 ;
}
return 1 ;
}
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/*
* lv_cache_create
* @ pool
* @ origin
*
* Given a cache_pool and an origin , link the two and create a
* cached LV .
*
* Returns : cache LV on success , NULL on failure
*/
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struct logical_volume * lv_cache_create ( struct logical_volume * pool_lv ,
struct logical_volume * origin_lv )
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{
const struct segment_type * segtype ;
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struct cmd_context * cmd = pool_lv - > vg - > cmd ;
struct logical_volume * cache_lv = origin_lv ;
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struct lv_segment * seg ;
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if ( ! validate_lv_cache_create_pool ( pool_lv ) | |
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! validate_lv_cache_create_origin ( cache_lv ) )
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return_NULL ;
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if ( lv_is_thin_pool ( cache_lv ) )
cache_lv = seg_lv ( first_seg ( cache_lv ) , 0 ) ; /* cache _tdata */
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if ( ! ( segtype = get_segtype_from_string ( cmd , " cache " ) ) )
return_NULL ;
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if ( ! insert_layer_for_lv ( cmd , cache_lv , CACHE , " _corig " ) )
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return_NULL ;
seg = first_seg ( cache_lv ) ;
seg - > segtype = segtype ;
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if ( ! attach_pool_lv ( seg , pool_lv , NULL , NULL ) )
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return_NULL ;
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return cache_lv ;
}
/*
* lv_cache_remove
* @ cache_lv
*
* Given a cache LV , remove the cache layer . This will unlink
* the origin and cache_pool , remove the cache LV layer , and promote
* the origin to a usable non - cached LV of the same name as the
* given cache_lv .
*
* Returns : 1 on success , 0 on failure
*/
int lv_cache_remove ( struct logical_volume * cache_lv )
{
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int is_cleaner ;
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uint64_t dirty_blocks ;
struct lv_segment * cache_seg = first_seg ( cache_lv ) ;
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struct logical_volume * corigin_lv ;
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struct logical_volume * cache_pool_lv ;
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struct lv_status_cache * status ;
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if ( ! lv_is_cache ( cache_lv ) ) {
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log_error ( INTERNAL_ERROR " LV %s is not cache volume. " ,
display_lvname ( cache_lv ) ) ;
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return 0 ;
}
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if ( lv_is_pending_delete ( cache_lv ) ) {
log_error ( INTERNAL_ERROR " LV %s is already dropped cache volume. " ,
display_lvname ( cache_lv ) ) ;
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goto remove ; /* Already dropped */
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}
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/* Localy active volume is needed for writeback */
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if ( ! lv_is_active_locally ( cache_lv ) ) {
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/* Give up any remote locks */
if ( ! deactivate_lv ( cache_lv - > vg - > cmd , cache_lv ) ) {
log_error ( " Cannot deactivate remotely active cache lv. " ) ;
return 0 ;
}
/* For inactive writethrough just drop cache layer */
if ( first_seg ( cache_seg - > pool_lv ) - > feature_flags &
DM_CACHE_FEATURE_WRITETHROUGH ) {
corigin_lv = seg_lv ( cache_seg , 0 ) ;
if ( ! detach_pool_lv ( cache_seg ) )
return_0 ;
if ( ! remove_layer_from_lv ( cache_lv , corigin_lv ) )
return_0 ;
if ( ! lv_remove ( corigin_lv ) )
return_0 ;
return 1 ;
}
/* Otherwise localy active volume is need to sync dirty blocks */
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cache_lv - > status | = LV_TEMPORARY ;
if ( ! activate_lv_excl_local ( cache_lv - > vg - > cmd , cache_lv ) | |
! lv_is_active_locally ( cache_lv ) ) {
log_error ( " Failed to active cache locally %s. " ,
display_lvname ( cache_lv ) ) ;
return 0 ;
}
cache_lv - > status & = ~ LV_TEMPORARY ;
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}
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/*
* FIXME :
* Before the link can be broken , we must ensure that the
* cache has been flushed . This may already be the case
* if the cache mode is writethrough ( or the cleaner
* policy is in place from a previous half - finished attempt
* to remove the cache_pool ) . It could take a long time to
* flush the cache - it should probably be done in the background .
*
* Also , if we do perform the flush in the background and we
* happen to also be removing the cache / origin LV , then we
* could check if the cleaner policy is in place and simply
* remove the cache_pool then without waiting for the flush to
* complete .
*/
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if ( ! lv_cache_status ( cache_lv , & status ) )
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return_0 ;
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dirty_blocks = status - > cache - > dirty_blocks ;
if ( ! ( status - > cache - > feature_flags & DM_CACHE_FEATURE_WRITETHROUGH ) )
dirty_blocks + + ; /* Not writethrough - always dirty */
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is_cleaner = ! strcmp ( status - > cache - > policy_name , " cleaner " ) ;
dm_pool_destroy ( status - > mem ) ;
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if ( dirty_blocks & & ! is_cleaner ) {
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/* Switch to cleaner policy to flush the cache */
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log_print_unless_silent ( " Flushing cache for %s. " , cache_lv - > name ) ;
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cache_seg - > cleaner_policy = 1 ;
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/* update the kernel to put the cleaner policy in place */
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if ( ! lv_update_and_reload_origin ( cache_lv ) )
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return_0 ;
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}
//FIXME: use polling to do this...
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while ( dirty_blocks ) {
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if ( ! lv_cache_status ( cache_lv , & status ) )
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return_0 ;
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dirty_blocks = status - > cache - > dirty_blocks ;
dm_pool_destroy ( status - > mem ) ;
if ( dirty_blocks ) {
log_print_unless_silent ( " % " PRIu64 " blocks must still be flushed. " ,
dirty_blocks ) ;
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sleep ( 1 ) ;
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}
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}
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cache_pool_lv = cache_seg - > pool_lv ;
if ( ! detach_pool_lv ( cache_seg ) )
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return_0 ;
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/*
* Drop layer from cache LV and make _corigin to appear again as regular LV
* And use ' existing ' _corigin volume to keep reference on cache - pool
* This way we still have a way to reference _corigin in dm table and we
* know it ' s been ' cache ' LV and we can drop all needed table entries via
* activation and deactivation of it .
*
* This ' cache ' LV without origin is temporary LV , which still could be
* easily operated by lvm2 commands - it could be activate / deactivated / removed .
* However in the dm - table it will use ' error ' target for _corigin volume .
*/
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corigin_lv = seg_lv ( cache_seg , 0 ) ;
lv_set_visible ( corigin_lv ) ;
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if ( ! remove_layer_from_lv ( cache_lv , corigin_lv ) )
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return_0 ;
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/* Replace 'error' with 'cache' segtype */
cache_seg = first_seg ( corigin_lv ) ;
if ( ! ( cache_seg - > segtype = get_segtype_from_string ( corigin_lv - > vg - > cmd , " cache " ) ) )
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return_0 ;
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if ( ! ( cache_seg - > areas = dm_pool_zalloc ( cache_lv - > vg - > vgmem , sizeof ( * cache_seg - > areas ) ) ) )
return_0 ;
if ( ! set_lv_segment_area_lv ( cache_seg , 0 , cache_lv , 0 , 0 ) )
return_0 ;
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cache_seg - > area_count = 1 ;
corigin_lv - > le_count = cache_lv - > le_count ;
corigin_lv - > size = cache_lv - > size ;
corigin_lv - > status | = LV_PENDING_DELETE ;
/* Reattach cache pool */
if ( ! attach_pool_lv ( cache_seg , cache_pool_lv , NULL , NULL ) )
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return_0 ;
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/* Suspend/resume also deactivates deleted LV via support of LV_PENDING_DELETE */
if ( ! lv_update_and_reload ( cache_lv ) )
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return_0 ;
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cache_lv = corigin_lv ;
remove :
if ( ! detach_pool_lv ( cache_seg ) )
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return_0 ;
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if ( ! lv_remove ( cache_lv ) ) /* Will use LV_PENDING_DELETE */
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return_0 ;
return 1 ;
}
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int lv_is_cache_origin ( const struct logical_volume * lv )
{
struct lv_segment * seg ;
/* Make sure there's exactly one segment in segs_using_this_lv! */
if ( dm_list_empty ( & lv - > segs_using_this_lv ) | |
( dm_list_size ( & lv - > segs_using_this_lv ) > 1 ) )
return 0 ;
seg = get_only_segment_using_this_lv ( lv ) ;
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return seg & & lv_is_cache ( seg - > lv ) & & ! lv_is_pending_delete ( seg - > lv ) & & ( seg_lv ( seg , 0 ) = = lv ) ;
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}
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int lv_cache_setpolicy ( struct logical_volume * lv , struct dm_config_tree * policy )
{
struct lv_segment * seg = first_seg ( lv ) ;
const char * name ;
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struct dm_config_node * cn ;
struct dm_config_tree * old = NULL , * new = NULL , * tmp = NULL ;
int r = 0 ;
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if ( lv_is_cache ( lv ) )
seg = first_seg ( seg - > pool_lv ) ;
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if ( seg - > policy_settings ) {
if ( ! ( old = dm_config_create ( ) ) )
goto_out ;
if ( ! ( new = dm_config_create ( ) ) )
goto_out ;
new - > root = policy - > root ;
old - > root = seg - > policy_settings ;
new - > cascade = old ;
if ( ! ( tmp = policy = dm_config_flatten ( new ) ) )
goto_out ;
}
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if ( ( cn = dm_config_find_node ( policy - > root , " policy_settings " ) ) & &
! ( seg - > policy_settings = dm_config_clone_node_with_mem ( lv - > vg - > vgmem , cn , 0 ) ) )
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goto_out ;
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if ( ( name = dm_config_find_str ( policy - > root , " policy " , NULL ) ) & &
! ( seg - > policy_name = dm_pool_strdup ( lv - > vg - > vgmem , name ) ) )
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goto_out ;
restart : /* remove any 'default" nodes */
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cn = seg - > policy_settings ? seg - > policy_settings - > child : NULL ;
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while ( cn ) {
if ( cn - > v - > type = = DM_CFG_STRING & & ! strcmp ( cn - > v - > v . str , " default " ) ) {
dm_config_remove_node ( seg - > policy_settings , cn ) ;
goto restart ;
}
cn = cn - > sib ;
}
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r = 1 ;
out :
if ( old )
dm_config_destroy ( old ) ;
if ( new )
dm_config_destroy ( new ) ;
if ( tmp )
dm_config_destroy ( tmp ) ;
return r ;
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}
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/*
* Wipe cache pool metadata area before use .
*
* Activates metadata volume as ' cache - pool ' so regular wiping
* of existing visible volume may proceed .
*/
int wipe_cache_pool ( struct logical_volume * cache_pool_lv )
{
int r ;
/* Only unused cache-pool could be activated and wiped */
if ( ! lv_is_cache_pool ( cache_pool_lv ) | |
! dm_list_empty ( & cache_pool_lv - > segs_using_this_lv ) ) {
log_error ( INTERNAL_ERROR " Failed to wipe cache pool for volume %s. " ,
display_lvname ( cache_pool_lv ) ) ;
return 0 ;
}
cache_pool_lv - > status | = LV_TEMPORARY ;
if ( ! activate_lv_local ( cache_pool_lv - > vg - > cmd , cache_pool_lv ) ) {
log_error ( " Aborting. Failed to activate cache pool %s. " ,
display_lvname ( cache_pool_lv ) ) ;
return 0 ;
}
cache_pool_lv - > status & = ~ LV_TEMPORARY ;
if ( ! ( r = wipe_lv ( cache_pool_lv , ( struct wipe_params ) { . do_zero = 1 } ) ) ) {
log_error ( " Aborting. Failed to wipe cache pool %s. " ,
display_lvname ( cache_pool_lv ) ) ;
/* Delay return of error after deactivation */
}
/* Deactivate cleared cache-pool metadata */
if ( ! deactivate_lv ( cache_pool_lv - > vg - > cmd , cache_pool_lv ) ) {
log_error ( " Aborting. Could not deactivate cache pool %s. " ,
display_lvname ( cache_pool_lv ) ) ;
r = 0 ;
}
return r ;
}