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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"
lvmetad: two phase vg_update
Previously, a command sent lvmetad new VG metadata in vg_commit().
In vg_commit(), devices are suspended, so any memory allocation
done by the command while sending to lvmetad, or by lvmetad while
updating its cache could deadlock if memory reclaim was triggered.
Now lvmetad is updated in unlock_vg(), after devices are resumed.
The new method for updating VG metadata in lvmetad is in two phases:
1. In vg_write(), before devices are suspended, the command sends
lvmetad a short message ("set_vg_info") telling it what the new
VG seqno will be. lvmetad sees that the seqno is newer than
the seqno of its cached VG, so it sets the INVALID flag for the
cached VG. If sending the message to lvmetad fails, the command
fails before the metadata is committed and the change is not made.
If sending the message succeeds, vg_commit() is called.
2. In unlock_vg(), after devices are resumed, the command sends
lvmetad the standard vg_update message with the new metadata.
lvmetad sees that the seqno in the new metadata matches the
seqno it saved from set_vg_info, and knows it has the latest
copy, so it clears the INVALID flag for the cached VG.
If a command fails between 1 and 2 (after committing the VG on disk,
but before sending lvmetad the new metadata), the cached VG retains
the INVALID flag in lvmetad. A subsequent command will read the
cached VG from lvmetad, see the INVALID flag, ignore the cached
copy, read the VG from disk instead, update the lvmetad copy
with the latest copy from disk, (this clears the INVALID flag
in lvmetad), and use the correct VG metadata for the command.
(This INVALID mechanism already existed for use by lvmlockd.)
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# include "lvmetad.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 - > pv_write_list ) ;
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dm_list_init ( & vg - > pvs_outdated ) ;
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dm_list_init ( & vg - > lvs ) ;
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dm_list_init ( & vg - > historical_lvs ) ;
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dm_list_init ( & vg - > tags ) ;
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dm_list_init ( & vg - > removed_lvs ) ;
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dm_list_init ( & vg - > removed_historical_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 ? : " <no 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 ? : " <no 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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_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 ) ) {
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if ( ! is_power_of_2 ( new_extent_size ) & &
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( 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 */
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if ( ! is_power_of_2 ( new_extent_size ) ) {
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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 ;
}
2014-09-16 13:41:28 +04:00
/*
2014-11-11 17:13:00 +03:00
* Setting the cluster attribute marks active volumes exclusive .
2014-09-16 13:41:28 +04:00
*
* FIXME : resolve logic with reacquiring proper top - level LV locks
* and we likely can ' t giveup DLM locks for active LVs . . .
*/
2010-09-30 17:16:55 +04:00
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. " ) ;
2010-09-30 17:16:55 +04:00
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 " ) ;
2010-09-30 17:16:55 +04:00
return 1 ;
}
2014-10-24 21:29:04 +04:00
/* The input string has already been validated. */
int vg_set_system_id ( struct volume_group * vg , const char * system_id )
{
2015-02-24 02:03:52 +03:00
if ( ! system_id | | ! * system_id ) {
2014-10-24 21:29:04 +04:00
vg - > system_id = NULL ;
return 1 ;
}
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if ( systemid_on_pvs ( vg ) ) {
2015-02-27 22:32:00 +03:00
log_error ( " Metadata format %s does not support this type of system ID. " ,
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vg - > fid - > fmt - > name ) ;
return 0 ;
}
2014-10-24 21:29:04 +04:00
if ( ! ( vg - > system_id = dm_pool_strdup ( vg - > vgmem , system_id ) ) ) {
2015-02-24 02:03:52 +03:00
log_error ( " Failed to allocate memory for system_id in vg_set_system_id. " ) ;
2014-10-24 21:29:04 +04:00
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 ' ;
2014-10-24 21:29:04 +04:00
return 1 ;
}
2015-03-05 23:00:44 +03:00
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 ;
}
2010-09-30 17:52:55 +04:00
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 ;
}
2010-09-30 18:07:19 +04:00
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 ' : ' - ' ;
2010-09-30 17:52:55 +04:00
repstr [ 4 ] = alloc_policy_char ( vg - > alloc ) ;
2015-03-05 23:00:44 +03:00
if ( vg_is_clustered ( vg ) )
repstr [ 5 ] = ' c ' ;
else if ( is_lockd_type ( vg - > lock_type ) )
repstr [ 5 ] = ' s ' ;
else
repstr [ 5 ] = ' - ' ;
2010-09-30 17:52:55 +04:00
return repstr ;
}
2013-09-04 02:31:45 +04:00
int vgreduce_single ( struct cmd_context * cmd , struct volume_group * vg ,
2013-09-04 03:07:43 +04:00
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 ;
}
2013-09-04 03:07:43 +04:00
/*
* 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 ;
}