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/*
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* Copyright ( C ) 2001 - 2004 Sistina Software , Inc . All rights reserved .
* Copyright ( C ) 2004 - 2010 Red Hat , Inc . All rights reserved .
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*
* 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 ,
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* Inc . , 51 Franklin Street , Fifth Floor , Boston , MA 02110 - 1301 USA
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*/
# include "lib.h"
# include "metadata.h"
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# include "display.h"
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# include "activate.h"
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# include "toolcontext.h"
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# include "lvmcache.h"
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# include "archiver.h"
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struct volume_group * alloc_vg ( const char * pool_name , struct cmd_context * cmd ,
const char * vg_name )
{
struct dm_pool * vgmem ;
struct volume_group * vg ;
if ( ! ( vgmem = dm_pool_create ( pool_name , VG_MEMPOOL_CHUNK ) ) | |
! ( vg = dm_pool_zalloc ( vgmem , sizeof ( * vg ) ) ) ) {
log_error ( " Failed to allocate volume group structure " ) ;
if ( vgmem )
dm_pool_destroy ( vgmem ) ;
return NULL ;
}
if ( vg_name & & ! ( vg - > name = dm_pool_strdup ( vgmem , vg_name ) ) ) {
log_error ( " Failed to allocate VG name. " ) ;
dm_pool_destroy ( vgmem ) ;
return NULL ;
}
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if ( ! ( vg - > lvm1_system_id = dm_pool_zalloc ( vgmem , NAME_LEN + 1 ) ) ) {
log_error ( " Failed to allocate VG systemd id. " ) ;
dm_pool_destroy ( vgmem ) ;
return NULL ;
}
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vg - > system_id = " " ;
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vg - > cmd = cmd ;
vg - > vgmem = vgmem ;
vg - > alloc = ALLOC_NORMAL ;
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if ( ! ( vg - > hostnames = dm_hash_create ( 16 ) ) ) {
log_error ( " Failed to allocate VG hostname hashtable. " ) ;
dm_pool_destroy ( vgmem ) ;
return NULL ;
}
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dm_list_init ( & vg - > pvs ) ;
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dm_list_init ( & vg - > pvs_to_write ) ;
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dm_list_init ( & vg - > pvs_outdated ) ;
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dm_list_init ( & vg - > lvs ) ;
dm_list_init ( & vg - > tags ) ;
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dm_list_init ( & vg - > removed_lvs ) ;
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dm_list_init ( & vg - > removed_pvs ) ;
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log_debug_mem ( " Allocated VG %s at %p. " , vg - > name , vg ) ;
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return vg ;
}
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static void _free_vg ( struct volume_group * vg )
{
vg_set_fid ( vg , NULL ) ;
if ( vg - > cmd & & vg - > vgmem = = vg - > cmd - > mem ) {
log_error ( INTERNAL_ERROR " global memory pool used for VG %s " ,
vg - > name ) ;
return ;
}
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log_debug_mem ( " Freeing VG %s at %p. " , vg - > name , vg ) ;
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dm_hash_destroy ( vg - > hostnames ) ;
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dm_pool_destroy ( vg - > vgmem ) ;
}
void release_vg ( struct volume_group * vg )
{
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if ( ! vg | | ( vg - > fid & & vg = = vg - > fid - > fmt - > orphan_vg ) )
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return ;
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/* Check if there are any vginfo holders */
if ( vg - > vginfo & &
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! lvmcache_vginfo_holders_dec_and_test_for_zero ( vg - > vginfo ) )
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return ;
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release_vg ( vg - > vg_committed ) ;
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release_vg ( vg - > vg_precommitted ) ;
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if ( vg - > cft_precommitted )
dm_config_destroy ( vg - > cft_precommitted ) ;
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_free_vg ( vg ) ;
}
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/*
* FIXME out of place , but the main ( cmd ) pool has been already
* destroyed and touching the fid ( also via release_vg ) will crash the
* program
*
* For now quick wrapper to allow destroy of orphan vg
*/
void free_orphan_vg ( struct volume_group * vg )
{
_free_vg ( vg ) ;
}
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int link_lv_to_vg ( struct volume_group * vg , struct logical_volume * lv )
{
struct lv_list * lvl ;
if ( vg_max_lv_reached ( vg ) )
stack ;
if ( ! ( lvl = dm_pool_zalloc ( vg - > vgmem , sizeof ( * lvl ) ) ) )
return_0 ;
lvl - > lv = lv ;
lv - > vg = vg ;
dm_list_add ( & vg - > lvs , & lvl - > list ) ;
lv - > status & = ~ LV_REMOVED ;
return 1 ;
}
int unlink_lv_from_vg ( struct logical_volume * lv )
{
struct lv_list * lvl ;
if ( ! ( lvl = find_lv_in_vg ( lv - > vg , lv - > name ) ) )
return_0 ;
dm_list_move ( & lv - > vg - > removed_lvs , & lvl - > list ) ;
lv - > status | = LV_REMOVED ;
return 1 ;
}
int vg_max_lv_reached ( struct volume_group * vg )
{
if ( ! vg - > max_lv )
return 0 ;
if ( vg - > max_lv > vg_visible_lvs ( vg ) )
return 0 ;
log_verbose ( " Maximum number of logical volumes (%u) reached "
" in volume group %s " , vg - > max_lv , vg - > name ) ;
return 1 ;
}
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char * vg_fmt_dup ( const struct volume_group * vg )
{
if ( ! vg - > fid | | ! vg - > fid - > fmt )
return NULL ;
return dm_pool_strdup ( vg - > vgmem , vg - > fid - > fmt - > name ) ;
}
char * vg_name_dup ( const struct volume_group * vg )
{
return dm_pool_strdup ( vg - > vgmem , vg - > name ) ;
}
char * vg_system_id_dup ( const struct volume_group * vg )
{
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return dm_pool_strdup ( vg - > vgmem , vg - > system_id ? : vg - > lvm1_system_id ? : " " ) ;
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}
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char * vg_lock_type_dup ( const struct volume_group * vg )
{
return dm_pool_strdup ( vg - > vgmem , vg - > lock_type ? : vg - > lock_type ? : " " ) ;
}
char * vg_lock_args_dup ( const struct volume_group * vg )
{
return dm_pool_strdup ( vg - > vgmem , vg - > lock_args ? : vg - > lock_args ? : " " ) ;
}
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char * vg_uuid_dup ( const struct volume_group * vg )
{
return id_format_and_copy ( vg - > vgmem , & vg - > id ) ;
}
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char * vg_tags_dup ( const struct volume_group * vg )
{
return tags_format_and_copy ( vg - > vgmem , & vg - > tags ) ;
}
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uint32_t vg_seqno ( const struct volume_group * vg )
{
return vg - > seqno ;
}
uint64_t vg_status ( const struct volume_group * vg )
{
return vg - > status ;
}
uint64_t vg_size ( const struct volume_group * vg )
{
return ( uint64_t ) vg - > extent_count * vg - > extent_size ;
}
uint64_t vg_free ( const struct volume_group * vg )
{
return ( uint64_t ) vg - > free_count * vg - > extent_size ;
}
uint64_t vg_extent_size ( const struct volume_group * vg )
{
return ( uint64_t ) vg - > extent_size ;
}
uint64_t vg_extent_count ( const struct volume_group * vg )
{
return ( uint64_t ) vg - > extent_count ;
}
uint64_t vg_free_count ( const struct volume_group * vg )
{
return ( uint64_t ) vg - > free_count ;
}
uint64_t vg_pv_count ( const struct volume_group * vg )
{
return ( uint64_t ) vg - > pv_count ;
}
uint64_t vg_max_pv ( const struct volume_group * vg )
{
return ( uint64_t ) vg - > max_pv ;
}
uint64_t vg_max_lv ( const struct volume_group * vg )
{
return ( uint64_t ) vg - > max_lv ;
}
unsigned snapshot_count ( const struct volume_group * vg )
{
struct lv_list * lvl ;
unsigned num_snapshots = 0 ;
dm_list_iterate_items ( lvl , & vg - > lvs )
if ( lv_is_cow ( lvl - > lv ) )
num_snapshots + + ;
return num_snapshots ;
}
unsigned vg_visible_lvs ( const struct volume_group * vg )
{
struct lv_list * lvl ;
unsigned lv_count = 0 ;
dm_list_iterate_items ( lvl , & vg - > lvs ) {
if ( lv_is_visible ( lvl - > lv ) )
lv_count + + ;
}
return lv_count ;
}
uint32_t vg_mda_count ( const struct volume_group * vg )
{
return dm_list_size ( & vg - > fid - > metadata_areas_in_use ) +
dm_list_size ( & vg - > fid - > metadata_areas_ignored ) ;
}
uint32_t vg_mda_used_count ( const struct volume_group * vg )
{
uint32_t used_count = 0 ;
struct metadata_area * mda ;
/*
* Ignored mdas could be on either list - the reason being the state
* may have changed from ignored to un - ignored and we need to write
* the state to disk .
*/
dm_list_iterate_items ( mda , & vg - > fid - > metadata_areas_in_use )
if ( ! mda_is_ignored ( mda ) )
used_count + + ;
return used_count ;
}
uint32_t vg_mda_copies ( const struct volume_group * vg )
{
return vg - > mda_copies ;
}
uint64_t vg_mda_size ( const struct volume_group * vg )
{
return find_min_mda_size ( & vg - > fid - > metadata_areas_in_use ) ;
}
uint64_t vg_mda_free ( const struct volume_group * vg )
{
uint64_t freespace = UINT64_MAX , mda_free ;
struct metadata_area * mda ;
dm_list_iterate_items ( mda , & vg - > fid - > metadata_areas_in_use ) {
if ( ! mda - > ops - > mda_free_sectors )
continue ;
mda_free = mda - > ops - > mda_free_sectors ( mda ) ;
if ( mda_free < freespace )
freespace = mda_free ;
}
if ( freespace = = UINT64_MAX )
freespace = UINT64_C ( 0 ) ;
return freespace ;
}
int vg_set_mda_copies ( struct volume_group * vg , uint32_t mda_copies )
{
vg - > mda_copies = mda_copies ;
/* FIXME Use log_verbose when this is due to specific cmdline request. */
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log_debug_metadata ( " Setting mda_copies to % " PRIu32 " for VG %s " ,
mda_copies , vg - > name ) ;
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return 1 ;
}
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char * vg_profile_dup ( const struct volume_group * vg )
{
const char * profile_name = vg - > profile ? vg - > profile - > name : " " ;
return dm_pool_strdup ( vg - > vgmem , profile_name ) ;
}
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static int _recalc_extents ( uint32_t * extents , const char * desc1 ,
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const char * desc2 , uint32_t old_extent_size ,
uint32_t new_extent_size )
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{
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uint64_t size = ( uint64_t ) old_extent_size * ( * extents ) ;
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if ( size % new_extent_size ) {
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log_error ( " New size % " PRIu64 " for %s%s not an exact number "
" of new extents. " , size , desc1 , desc2 ) ;
return 0 ;
}
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size / = new_extent_size ;
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if ( size > MAX_EXTENT_COUNT ) {
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log_error ( " New extent count % " PRIu64 " for %s%s exceeds "
" 32 bits. " , size , desc1 , desc2 ) ;
return 0 ;
}
* extents = ( uint32_t ) size ;
return 1 ;
}
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int vg_check_new_extent_size ( const struct format_type * fmt , uint32_t new_extent_size )
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{
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if ( ! new_extent_size ) {
log_error ( " Physical extent size may not be zero " ) ;
return 0 ;
}
if ( ( fmt - > features & FMT_NON_POWER2_EXTENTS ) ) {
if ( ( new_extent_size & ( new_extent_size - 1 ) ) & &
( new_extent_size % MIN_NON_POWER2_EXTENT_SIZE ) ) {
log_error ( " Physical Extent size must be a multiple of %s when not a power of 2. " ,
display_size ( fmt - > cmd , ( uint64_t ) MIN_NON_POWER2_EXTENT_SIZE ) ) ;
return 0 ;
}
return 1 ;
}
/* Apply original format1 restrictions */
if ( ( new_extent_size & ( new_extent_size - 1 ) ) ) {
log_error ( " Metadata format only supports Physical Extent sizes that are powers of 2. " ) ;
return 0 ;
}
if ( new_extent_size > MAX_PE_SIZE | | new_extent_size < MIN_PE_SIZE ) {
log_error ( " Extent size must be between %s and %s " ,
display_size ( fmt - > cmd , ( uint64_t ) MIN_PE_SIZE ) ,
display_size ( fmt - > cmd , ( uint64_t ) MAX_PE_SIZE ) ) ;
return 0 ;
}
if ( new_extent_size % MIN_PE_SIZE ) {
log_error ( " Extent size must be multiple of %s " ,
display_size ( fmt - > cmd , ( uint64_t ) MIN_PE_SIZE ) ) ;
return 0 ;
}
return 1 ;
}
int vg_set_extent_size ( struct volume_group * vg , uint32_t new_extent_size )
{
uint32_t old_extent_size = vg - > extent_size ;
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struct pv_list * pvl ;
struct lv_list * lvl ;
struct physical_volume * pv ;
struct logical_volume * lv ;
struct lv_segment * seg ;
struct pv_segment * pvseg ;
uint32_t s ;
if ( ! vg_is_resizeable ( vg ) ) {
log_error ( " Volume group \" %s \" must be resizeable "
" to change PE size " , vg - > name ) ;
return 0 ;
}
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if ( new_extent_size = = vg - > extent_size )
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return 1 ;
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if ( ! vg_check_new_extent_size ( vg - > fid - > fmt , new_extent_size ) )
return_0 ;
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if ( new_extent_size > vg - > extent_size ) {
if ( ( uint64_t ) vg_size ( vg ) % new_extent_size ) {
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/* FIXME Adjust used PV sizes instead */
log_error ( " New extent size is not a perfect fit " ) ;
return 0 ;
}
}
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vg - > extent_size = new_extent_size ;
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if ( vg - > fid - > fmt - > ops - > vg_setup & &
! vg - > fid - > fmt - > ops - > vg_setup ( vg - > fid , vg ) )
return_0 ;
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if ( ! _recalc_extents ( & vg - > extent_count , vg - > name , " " , old_extent_size ,
new_extent_size ) )
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return_0 ;
if ( ! _recalc_extents ( & vg - > free_count , vg - > name , " free space " ,
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old_extent_size , new_extent_size ) )
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return_0 ;
/* foreach PV */
dm_list_iterate_items ( pvl , & vg - > pvs ) {
pv = pvl - > pv ;
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pv - > pe_size = new_extent_size ;
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if ( ! _recalc_extents ( & pv - > pe_count , pv_dev_name ( pv ) , " " ,
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old_extent_size , new_extent_size ) )
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return_0 ;
if ( ! _recalc_extents ( & pv - > pe_alloc_count , pv_dev_name ( pv ) ,
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" allocated space " , old_extent_size , new_extent_size ) )
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return_0 ;
/* foreach free PV Segment */
dm_list_iterate_items ( pvseg , & pv - > segments ) {
if ( pvseg_is_allocated ( pvseg ) )
continue ;
if ( ! _recalc_extents ( & pvseg - > pe , pv_dev_name ( pv ) ,
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" PV segment start " , old_extent_size ,
new_extent_size ) )
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return_0 ;
if ( ! _recalc_extents ( & pvseg - > len , pv_dev_name ( pv ) ,
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" PV segment length " , old_extent_size ,
new_extent_size ) )
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return_0 ;
}
}
/* foreach LV */
dm_list_iterate_items ( lvl , & vg - > lvs ) {
lv = lvl - > lv ;
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if ( ! _recalc_extents ( & lv - > le_count , lv - > name , " " , old_extent_size ,
new_extent_size ) )
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return_0 ;
dm_list_iterate_items ( seg , & lv - > segments ) {
if ( ! _recalc_extents ( & seg - > le , lv - > name ,
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" segment start " , old_extent_size ,
new_extent_size ) )
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return_0 ;
if ( ! _recalc_extents ( & seg - > len , lv - > name ,
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" segment length " , old_extent_size ,
new_extent_size ) )
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return_0 ;
if ( ! _recalc_extents ( & seg - > area_len , lv - > name ,
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" area length " , old_extent_size ,
new_extent_size ) )
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return_0 ;
if ( ! _recalc_extents ( & seg - > extents_copied , lv - > name ,
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" extents moved " , old_extent_size ,
new_extent_size ) )
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return_0 ;
/* foreach area */
for ( s = 0 ; s < seg - > area_count ; s + + ) {
switch ( seg_type ( seg , s ) ) {
case AREA_PV :
if ( ! _recalc_extents
( & seg_pe ( seg , s ) ,
lv - > name ,
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" pvseg start " , old_extent_size ,
new_extent_size ) )
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return_0 ;
if ( ! _recalc_extents
( & seg_pvseg ( seg , s ) - > len ,
lv - > name ,
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" pvseg length " , old_extent_size ,
new_extent_size ) )
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return_0 ;
break ;
case AREA_LV :
if ( ! _recalc_extents
( & seg_le ( seg , s ) , lv - > name ,
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" area start " , old_extent_size ,
new_extent_size ) )
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return_0 ;
break ;
case AREA_UNASSIGNED :
log_error ( " Unassigned area %u found in "
" segment " , s ) ;
return 0 ;
}
}
}
}
return 1 ;
}
int vg_set_max_lv ( struct volume_group * vg , uint32_t max_lv )
{
if ( ! vg_is_resizeable ( vg ) ) {
log_error ( " Volume group \" %s \" must be resizeable "
" to change MaxLogicalVolume " , vg - > name ) ;
return 0 ;
}
if ( ! ( vg - > fid - > fmt - > features & FMT_UNLIMITED_VOLS ) ) {
if ( ! max_lv )
max_lv = 255 ;
else if ( max_lv > 255 ) {
log_error ( " MaxLogicalVolume limit is 255 " ) ;
return 0 ;
}
}
if ( max_lv & & max_lv < vg_visible_lvs ( vg ) ) {
log_error ( " MaxLogicalVolume is less than the current number "
" %d of LVs for %s " , vg_visible_lvs ( vg ) ,
vg - > name ) ;
return 0 ;
}
vg - > max_lv = max_lv ;
return 1 ;
}
int vg_set_max_pv ( struct volume_group * vg , uint32_t max_pv )
{
if ( ! vg_is_resizeable ( vg ) ) {
log_error ( " Volume group \" %s \" must be resizeable "
" to change MaxPhysicalVolumes " , vg - > name ) ;
return 0 ;
}
if ( ! ( vg - > fid - > fmt - > features & FMT_UNLIMITED_VOLS ) ) {
if ( ! max_pv )
max_pv = 255 ;
else if ( max_pv > 255 ) {
log_error ( " MaxPhysicalVolume limit is 255 " ) ;
return 0 ;
}
}
if ( max_pv & & max_pv < vg - > pv_count ) {
log_error ( " MaxPhysicalVolumes is less than the current number "
" %d of PVs for \" %s \" " , vg - > pv_count ,
vg - > name ) ;
return 0 ;
}
vg - > max_pv = max_pv ;
return 1 ;
}
int vg_set_alloc_policy ( struct volume_group * vg , alloc_policy_t alloc )
{
if ( alloc = = ALLOC_INHERIT ) {
log_error ( " Volume Group allocation policy cannot inherit "
" from anything " ) ;
return 0 ;
}
if ( alloc = = vg - > alloc )
return 1 ;
vg - > alloc = alloc ;
return 1 ;
}
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/*
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* Setting the cluster attribute marks active volumes exclusive .
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*
* FIXME : resolve logic with reacquiring proper top - level LV locks
* and we likely can ' t giveup DLM locks for active LVs . . .
*/
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int vg_set_clustered ( struct volume_group * vg , int clustered )
{
struct lv_list * lvl ;
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int fail = 0 ;
if ( vg_is_clustered ( vg ) & &
locking_is_clustered ( ) & &
locking_supports_remote_queries ( ) & &
! clustered ) {
/*
* If the volume is locally active but not exclusively
* we cannot determine when other nodes also use
* locally active ( CR lock ) , so refuse conversion .
*/
dm_list_iterate_items ( lvl , & vg - > lvs )
if ( ( lv_lock_holder ( lvl - > lv ) = = lvl - > lv ) & &
lv_is_active ( lvl - > lv ) & &
! lv_is_active_exclusive_locally ( lvl - > lv ) ) {
/* Show all non-local-exclusively active LVs
* this includes i . e . clustered mirrors */
log_error ( " Can't change cluster attribute with "
" active logical volume %s. " ,
display_lvname ( lvl - > lv ) ) ;
fail = 1 ;
}
2010-09-30 17:16:55 +04:00
2014-09-17 16:27:46 +04:00
if ( fail ) {
log_print_unless_silent ( " Conversion is supported only for "
" locally exclusive volumes. " ) ;
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return 0 ;
}
}
if ( clustered )
vg - > status | = CLUSTERED ;
else
vg - > status & = ~ CLUSTERED ;
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log_debug_metadata ( " Setting volume group %s as %sclustered. " ,
vg - > name , clustered ? " " : " not " ) ;
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return 1 ;
}
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/* The input string has already been validated. */
int vg_set_system_id ( struct volume_group * vg , const char * system_id )
{
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if ( ! system_id | | ! * system_id ) {
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vg - > system_id = NULL ;
return 1 ;
}
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if ( systemid_on_pvs ( vg ) ) {
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log_error ( " Metadata format %s does not support this type of system ID. " ,
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vg - > fid - > fmt - > name ) ;
return 0 ;
}
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if ( ! ( vg - > system_id = dm_pool_strdup ( vg - > vgmem , system_id ) ) ) {
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log_error ( " Failed to allocate memory for system_id in vg_set_system_id. " ) ;
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return 0 ;
}
2015-02-24 02:03:52 +03:00
2015-03-04 04:00:51 +03:00
if ( vg - > lvm1_system_id )
* vg - > lvm1_system_id = ' \0 ' ;
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return 1 ;
}
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int vg_set_lock_type ( struct volume_group * vg , const char * lock_type )
{
if ( ! lock_type )
lock_type = " none " ;
if ( ! ( vg - > lock_type = dm_pool_strdup ( vg - > vgmem , lock_type ) ) ) {
log_error ( " vg_set_lock_type %s no mem " , lock_type ) ;
return 0 ;
}
return 1 ;
}
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char * vg_attr_dup ( struct dm_pool * mem , const struct volume_group * vg )
{
char * repstr ;
if ( ! ( repstr = dm_pool_zalloc ( mem , 7 ) ) ) {
log_error ( " dm_pool_alloc failed " ) ;
return NULL ;
}
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repstr [ 0 ] = ( vg - > status & LVM_WRITE ) ? ' w ' : ' r ' ;
repstr [ 1 ] = ( vg_is_resizeable ( vg ) ) ? ' z ' : ' - ' ;
repstr [ 2 ] = ( vg_is_exported ( vg ) ) ? ' x ' : ' - ' ;
repstr [ 3 ] = ( vg_missing_pv_count ( vg ) ) ? ' p ' : ' - ' ;
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repstr [ 4 ] = alloc_policy_char ( vg - > alloc ) ;
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if ( vg_is_clustered ( vg ) )
repstr [ 5 ] = ' c ' ;
else if ( is_lockd_type ( vg - > lock_type ) )
repstr [ 5 ] = ' s ' ;
else
repstr [ 5 ] = ' - ' ;
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return repstr ;
}
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int vgreduce_single ( struct cmd_context * cmd , struct volume_group * vg ,
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struct physical_volume * pv , int commit )
2013-09-04 02:31:45 +04:00
{
struct pv_list * pvl ;
struct volume_group * orphan_vg = NULL ;
int r = 0 ;
const char * name = pv_dev_name ( pv ) ;
if ( ! vg ) {
log_error ( INTERNAL_ERROR " VG is NULL. " ) ;
return r ;
}
if ( pv_pe_alloc_count ( pv ) ) {
log_error ( " Physical volume \" %s \" still in use " , name ) ;
return r ;
}
if ( vg - > pv_count = = 1 ) {
log_error ( " Can't remove final physical volume \" %s \" from "
" volume group \" %s \" " , name , vg - > name ) ;
return r ;
}
if ( ! lock_vol ( cmd , VG_ORPHANS , LCK_VG_WRITE , NULL ) ) {
log_error ( " Can't get lock for orphan PVs " ) ;
return r ;
}
pvl = find_pv_in_vg ( vg , name ) ;
if ( ! archive ( vg ) )
goto_bad ;
log_verbose ( " Removing \" %s \" from volume group \" %s \" " , name , vg - > name ) ;
if ( pvl )
del_pvl_from_vgs ( vg , pvl ) ;
pv - > vg_name = vg - > fid - > fmt - > orphan_vg_name ;
pv - > status = ALLOCATABLE_PV ;
if ( ! dev_get_size ( pv_dev ( pv ) , & pv - > size ) ) {
log_error ( " %s: Couldn't get size. " , pv_dev_name ( pv ) ) ;
goto bad ;
}
vg - > free_count - = pv_pe_count ( pv ) - pv_pe_alloc_count ( pv ) ;
vg - > extent_count - = pv_pe_count ( pv ) ;
orphan_vg = vg_read_for_update ( cmd , vg - > fid - > fmt - > orphan_vg_name ,
2015-03-05 23:00:44 +03:00
NULL , 0 , 0 ) ;
2013-09-04 02:31:45 +04:00
if ( vg_read_error ( orphan_vg ) )
goto bad ;
if ( ! vg_split_mdas ( cmd , vg , orphan_vg ) | | ! vg - > pv_count ) {
log_error ( " Cannot remove final metadata area on \" %s \" from \" %s \" " ,
name , vg - > name ) ;
goto bad ;
}
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/*
* Only write out the needed changes if so requested by caller .
*/
if ( commit ) {
if ( ! vg_write ( vg ) | | ! vg_commit ( vg ) ) {
log_error ( " Removal of physical volume \" %s \" from "
" \" %s \" failed " , name , vg - > name ) ;
goto bad ;
}
2013-09-04 02:31:45 +04:00
2013-09-04 03:07:43 +04:00
if ( ! pv_write ( cmd , pv , 0 ) ) {
log_error ( " Failed to clear metadata from physical "
" volume \" %s \" "
" after removal from \" %s \" " , name , vg - > name ) ;
goto bad ;
}
2013-09-04 02:31:45 +04:00
2013-09-04 03:07:43 +04:00
backup ( vg ) ;
2013-09-04 02:31:45 +04:00
2013-09-04 03:07:43 +04:00
log_print_unless_silent ( " Removed \" %s \" from volume group \" %s \" " ,
name , vg - > name ) ;
}
2013-09-04 02:31:45 +04:00
r = 1 ;
bad :
2013-09-04 03:07:43 +04:00
/* If we are committing here or we had an error then we will free fid */
if ( pvl & & ( commit | | r ! = 1 ) )
2013-09-04 02:31:45 +04:00
free_pv_fid ( pvl - > pv ) ;
unlock_and_release_vg ( cmd , orphan_vg , VG_ORPHANS ) ;
return r ;
}