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/*
* Copyright ( C ) 2003 Sistina Software , Inc . All rights reserved .
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* Copyright ( C ) 2004 - 2006 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
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* of the GNU Lesser General Public License v .2 .1 .
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*
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* You should have received a copy of the GNU Lesser General Public License
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* 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 "pv_alloc.h"
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# include "toolcontext.h"
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# include "locking.h"
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# include "defaults.h"
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# include "lvmcache.h"
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# include "lvmetad.h"
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# include "display.h"
# include "label.h"
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# include "archiver.h"
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# include "lvm-signal.h"
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static struct pv_segment * _alloc_pv_segment ( struct dm_pool * mem ,
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struct physical_volume * pv ,
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uint32_t pe , uint32_t len ,
struct lv_segment * lvseg ,
uint32_t lv_area )
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{
struct pv_segment * peg ;
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if ( ! ( peg = dm_pool_zalloc ( mem , sizeof ( * peg ) ) ) ) {
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log_error ( " pv_segment allocation failed " ) ;
return NULL ;
}
peg - > pv = pv ;
peg - > pe = pe ;
peg - > len = len ;
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peg - > lvseg = lvseg ;
peg - > lv_area = lv_area ;
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dm_list_init ( & peg - > list ) ;
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return peg ;
}
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int alloc_pv_segment_whole_pv ( struct dm_pool * mem , struct physical_volume * pv )
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{
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struct pv_segment * peg ;
if ( ! pv - > pe_count )
return 1 ;
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/* FIXME Cope with holes in PVs */
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if ( ! ( peg = _alloc_pv_segment ( mem , pv , 0 , pv - > pe_count , NULL , 0 ) ) )
return_0 ;
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dm_list_add ( & pv - > segments , & peg - > list ) ;
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return 1 ;
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}
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int peg_dup ( struct dm_pool * mem , struct dm_list * peg_new , struct dm_list * peg_old )
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{
struct pv_segment * peg , * pego ;
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dm_list_init ( peg_new ) ;
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dm_list_iterate_items ( pego , peg_old ) {
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if ( ! ( peg = _alloc_pv_segment ( mem , pego - > pv , pego - > pe ,
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pego - > len , pego - > lvseg ,
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pego - > lv_area ) ) )
return_0 ;
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dm_list_add ( peg_new , & peg - > list ) ;
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}
return 1 ;
}
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/* Find segment at a given physical extent in a PV */
static struct pv_segment * find_peg_by_pe ( const struct physical_volume * pv ,
uint32_t pe )
{
struct pv_segment * pvseg ;
/* search backwards to optimise mostly used last segment split */
dm_list_iterate_back_items ( pvseg , & pv - > segments )
if ( pe > = pvseg - > pe & & pe < pvseg - > pe + pvseg - > len )
return pvseg ;
return NULL ;
}
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/*
* Split peg at given extent .
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* Second part is always not allocated to a LV and returned .
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*/
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static struct pv_segment * _pv_split_segment ( struct dm_pool * mem ,
struct physical_volume * pv ,
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struct pv_segment * peg ,
uint32_t pe )
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{
struct pv_segment * peg_new ;
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if ( ! ( peg_new = _alloc_pv_segment ( mem , peg - > pv , pe ,
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peg - > len + peg - > pe - pe ,
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NULL , 0 ) ) )
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return_NULL ;
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peg - > len = peg - > len - peg_new - > len ;
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dm_list_add_h ( & peg - > list , & peg_new - > list ) ;
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if ( peg - > lvseg ) {
peg - > pv - > pe_alloc_count - = peg_new - > len ;
peg - > lvseg - > lv - > vg - > free_count + = peg_new - > len ;
}
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return peg_new ;
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}
/*
* Ensure there is a PV segment boundary at the given extent .
*/
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int pv_split_segment ( struct dm_pool * mem ,
struct physical_volume * pv , uint32_t pe ,
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struct pv_segment * * pvseg_allocated )
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{
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struct pv_segment * pvseg , * pvseg_new = NULL ;
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if ( pe = = pv - > pe_count )
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goto out ;
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if ( ! ( pvseg = find_peg_by_pe ( pv , pe ) ) ) {
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log_error ( " Segment with extent % " PRIu32 " in PV %s not found " ,
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pe , pv_dev_name ( pv ) ) ;
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return 0 ;
}
/* This is a peg start already */
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if ( pe = = pvseg - > pe ) {
pvseg_new = pvseg ;
goto out ;
}
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if ( ! ( pvseg_new = _pv_split_segment ( mem , pv , pvseg , pe ) ) )
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return_0 ;
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out :
if ( pvseg_allocated )
* pvseg_allocated = pvseg_new ;
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return 1 ;
}
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static struct pv_segment null_pv_segment = {
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. pv = NULL ,
. pe = 0 ,
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} ;
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struct pv_segment * assign_peg_to_lvseg ( struct physical_volume * pv ,
uint32_t pe , uint32_t area_len ,
struct lv_segment * seg ,
uint32_t area_num )
{
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struct pv_segment * peg = NULL ;
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/* Missing format1 PV */
if ( ! pv )
return & null_pv_segment ;
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if ( ! pv_split_segment ( seg - > lv - > vg - > vgmem , pv , pe , & peg ) | |
! pv_split_segment ( seg - > lv - > vg - > vgmem , pv , pe + area_len , NULL ) )
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return_NULL ;
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if ( ! peg ) {
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log_error ( " Missing PV segment on %s at %u. " ,
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pv_dev_name ( pv ) , pe ) ;
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return NULL ;
}
peg - > lvseg = seg ;
peg - > lv_area = area_num ;
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peg - > pv - > pe_alloc_count + = area_len ;
peg - > lvseg - > lv - > vg - > free_count - = area_len ;
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return peg ;
}
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int discard_pv_segment ( struct pv_segment * peg , uint32_t discard_area_reduction )
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{
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uint64_t discard_offset_sectors ;
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uint64_t pe_start = peg - > pv - > pe_start ;
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char uuid [ 64 ] __attribute__ ( ( aligned ( 8 ) ) ) ;
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if ( ! peg - > lvseg ) {
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log_error ( " discard_pv_segment with unallocated segment: "
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" %s PE % " PRIu32 , pv_dev_name ( peg - > pv ) , peg - > pe ) ;
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return 0 ;
}
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/*
* Only issue discards if enabled in lvm . conf and both
* the device and kernel ( > = 2.6 .35 ) supports discards .
*/
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if ( ! find_config_tree_bool ( peg - > pv - > fmt - > cmd , devices_issue_discards_CFG , NULL ) )
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return 1 ;
/* Missing PV? */
if ( is_missing_pv ( peg - > pv ) | | ! peg - > pv - > dev ) {
if ( ! id_write_format ( & peg - > pv - > id , uuid , sizeof ( uuid ) ) )
return_0 ;
log_verbose ( " Skipping discard on missing device with uuid %s. " , uuid ) ;
return 1 ;
}
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if ( ! dev_discard_max_bytes ( peg - > pv - > fmt - > cmd - > dev_types , peg - > pv - > dev ) | |
! dev_discard_granularity ( peg - > pv - > fmt - > cmd - > dev_types , peg - > pv - > dev ) )
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return 1 ;
discard_offset_sectors = ( peg - > pe + peg - > lvseg - > area_len - discard_area_reduction ) *
( uint64_t ) peg - > pv - > vg - > extent_size + pe_start ;
if ( ! discard_offset_sectors ) {
/*
* pe_start = 0 and the PV ' s first extent contains the label .
* Must skip past the first extent .
*/
discard_offset_sectors = peg - > pv - > vg - > extent_size ;
discard_area_reduction - - ;
}
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log_debug_alloc ( " Discarding % " PRIu32 " extents offset % " PRIu64 " sectors on %s. " ,
discard_area_reduction , discard_offset_sectors , dev_name ( peg - > pv - > dev ) ) ;
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if ( discard_area_reduction & &
! dev_discard_blocks ( peg - > pv - > dev , discard_offset_sectors < < SECTOR_SHIFT ,
discard_area_reduction * ( uint64_t ) peg - > pv - > vg - > extent_size * SECTOR_SIZE ) )
return_0 ;
return 1 ;
}
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static int _merge_free_pv_segment ( struct pv_segment * peg )
{
struct dm_list * l ;
struct pv_segment * merge_peg ;
if ( peg - > lvseg ) {
log_error ( INTERNAL_ERROR
" _merge_free_pv_seg called on a "
" segment that is not free. " ) ;
return 0 ;
}
/*
* FIXME :
* Should we free the list element once it is deleted
* from the list ? I think not . It is likely part of
* a mempool .
*/
/* Attempt to merge with Free space before */
if ( ( l = dm_list_prev ( & peg - > pv - > segments , & peg - > list ) ) ) {
merge_peg = dm_list_item ( l , struct pv_segment ) ;
if ( ! merge_peg - > lvseg ) {
merge_peg - > len + = peg - > len ;
dm_list_del ( & peg - > list ) ;
peg = merge_peg ;
}
}
/* Attempt to merge with Free space after */
if ( ( l = dm_list_next ( & peg - > pv - > segments , & peg - > list ) ) ) {
merge_peg = dm_list_item ( l , struct pv_segment ) ;
if ( ! merge_peg - > lvseg ) {
peg - > len + = merge_peg - > len ;
dm_list_del ( & merge_peg - > list ) ;
}
}
return 1 ;
}
/*
* release_pv_segment
* @ peg
* @ area_reduction
*
* WARNING : When release_pv_segment is called , the freed space may be
* merged into the ' pv_segment ' s before and after it in the
* list if they are also free . Thus , any iterators of the
* ' pv - > segments ' list that call this function must be aware
* that the list can change in a way that is unsafe even for
* * _safe iterators . Restart the iterator in these cases .
*
* Returns : 1 on success , 0 on failure
*/
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int release_pv_segment ( struct pv_segment * peg , uint32_t area_reduction )
{
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struct dm_list * l ;
struct pv_segment * merge_peg ;
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if ( ! peg - > lvseg ) {
log_error ( " release_pv_segment with unallocated segment: "
" %s PE % " PRIu32 , pv_dev_name ( peg - > pv ) , peg - > pe ) ;
return 0 ;
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}
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if ( peg - > lvseg - > area_len = = area_reduction ) {
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peg - > pv - > pe_alloc_count - = area_reduction ;
peg - > lvseg - > lv - > vg - > free_count + = area_reduction ;
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peg - > lvseg = NULL ;
peg - > lv_area = 0 ;
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return _merge_free_pv_segment ( peg ) ;
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}
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if ( ! pv_split_segment ( peg - > lvseg - > lv - > vg - > vgmem ,
peg - > pv , peg - > pe + peg - > lvseg - > area_len -
area_reduction , NULL ) )
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return_0 ;
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/* The segment after 'peg' now holds free space, try to merge it */
if ( ( l = dm_list_next ( & peg - > pv - > segments , & peg - > list ) ) ) {
merge_peg = dm_list_item ( l , struct pv_segment ) ;
return _merge_free_pv_segment ( merge_peg ) ;
}
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return 1 ;
}
/*
* Only for use by lv_segment merging routines .
*/
void merge_pv_segments ( struct pv_segment * peg1 , struct pv_segment * peg2 )
{
peg1 - > len + = peg2 - > len ;
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dm_list_del ( & peg2 - > list ) ;
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}
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/*
* Calculate the overlap , in extents , between a struct pv_segment and
* a struct pe_range .
*/
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static uint32_t _overlap_pe ( const struct pv_segment * pvseg ,
const struct pe_range * per )
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{
uint32_t start ;
uint32_t end ;
start = max ( pvseg - > pe , per - > start ) ;
end = min ( pvseg - > pe + pvseg - > len , per - > start + per - > count ) ;
if ( end < start )
return 0 ;
else
return end - start ;
}
/*
* Returns : number of free PEs in a struct pv_list
*/
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uint32_t pv_list_extents_free ( const struct dm_list * pvh )
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{
struct pv_list * pvl ;
struct pe_range * per ;
uint32_t extents = 0 ;
struct pv_segment * pvseg ;
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dm_list_iterate_items ( pvl , pvh ) {
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if ( ! pvl - > pe_ranges ) {
log_warn ( INTERNAL_ERROR " WARNING: PV %s is without initialized PE ranges. " , dev_name ( pvl - > pv - > dev ) ) ;
continue ;
}
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dm_list_iterate_items ( per , pvl - > pe_ranges ) {
dm_list_iterate_items ( pvseg , & pvl - > pv - > segments ) {
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if ( ! pvseg_is_allocated ( pvseg ) )
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extents + = _overlap_pe ( pvseg , per ) ;
}
}
}
return extents ;
}
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/*
* Check all pv_segments in VG for consistency
*/
int check_pv_segments ( struct volume_group * vg )
{
struct physical_volume * pv ;
struct pv_list * pvl ;
struct pv_segment * peg ;
unsigned s , segno ;
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uint32_t start_pe , alloced ;
uint32_t pv_count = 0 , free_count = 0 , extent_count = 0 ;
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int ret = 1 ;
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dm_list_iterate_items ( pvl , & vg - > pvs ) {
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pv = pvl - > pv ;
segno = 0 ;
start_pe = 0 ;
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alloced = 0 ;
pv_count + + ;
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dm_list_iterate_items ( peg , & pv - > segments ) {
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s = peg - > lv_area ;
/* FIXME Remove this next line eventually */
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log_debug_alloc ( " %s %u: %6u %6u: %s(%u:%u) " ,
pv_dev_name ( pv ) , segno + + , peg - > pe , peg - > len ,
peg - > lvseg ? peg - > lvseg - > lv - > name : " NULL " ,
peg - > lvseg ? peg - > lvseg - > le : 0 , s ) ;
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/* FIXME Add details here on failure instead */
if ( start_pe ! = peg - > pe ) {
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log_error ( " Gap in pvsegs: %u, %u " ,
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start_pe , peg - > pe ) ;
ret = 0 ;
}
if ( peg - > lvseg ) {
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if ( seg_type ( peg - > lvseg , s ) ! = AREA_PV ) {
log_error ( " Wrong lvseg area type " ) ;
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ret = 0 ;
}
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if ( seg_pvseg ( peg - > lvseg , s ) ! = peg ) {
log_error ( " Inconsistent pvseg pointers " ) ;
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ret = 0 ;
}
if ( peg - > lvseg - > area_len ! = peg - > len ) {
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log_error ( " Inconsistent length: %u %u " ,
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peg - > len ,
peg - > lvseg - > area_len ) ;
ret = 0 ;
}
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alloced + = peg - > len ;
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}
start_pe + = peg - > len ;
}
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if ( start_pe ! = pv - > pe_count ) {
log_error ( " PV segment pe_count mismatch: %u != %u " ,
start_pe , pv - > pe_count ) ;
ret = 0 ;
}
if ( alloced ! = pv - > pe_alloc_count ) {
log_error ( " PV segment pe_alloc_count mismatch: "
" %u != %u " , alloced , pv - > pe_alloc_count ) ;
ret = 0 ;
}
extent_count + = start_pe ;
free_count + = ( start_pe - alloced ) ;
}
if ( pv_count ! = vg - > pv_count ) {
log_error ( " PV segment VG pv_count mismatch: %u != %u " ,
pv_count , vg - > pv_count ) ;
ret = 0 ;
}
if ( free_count ! = vg - > free_count ) {
log_error ( " PV segment VG free_count mismatch: %u != %u " ,
free_count , vg - > free_count ) ;
ret = 0 ;
}
if ( extent_count ! = vg - > extent_count ) {
log_error ( " PV segment VG extent_count mismatch: %u != %u " ,
extent_count , vg - > extent_count ) ;
ret = 0 ;
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}
return ret ;
}
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static int _reduce_pv ( struct physical_volume * pv , struct volume_group * vg ,
uint32_t old_pe_count , uint32_t new_pe_count )
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{
struct pv_segment * peg , * pegt ;
if ( new_pe_count < pv - > pe_alloc_count ) {
log_error ( " %s: cannot resize to % " PRIu32 " extents "
" as % " PRIu32 " are allocated. " ,
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pv_dev_name ( pv ) , new_pe_count ,
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pv - > pe_alloc_count ) ;
return 0 ;
}
/* Check PEs to be removed are not already allocated */
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dm_list_iterate_items ( peg , & pv - > segments ) {
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if ( peg - > pe + peg - > len < = new_pe_count )
continue ;
if ( peg - > lvseg ) {
log_error ( " %s: cannot resize to % " PRIu32 " extents as "
" later ones are allocated. " ,
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pv_dev_name ( pv ) , new_pe_count ) ;
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return 0 ;
}
}
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if ( ! pv_split_segment ( vg - > vgmem , pv , new_pe_count , NULL ) )
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return_0 ;
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2008-11-04 01:14:30 +03:00
dm_list_iterate_items_safe ( peg , pegt , & pv - > segments ) {
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if ( peg - > pe + peg - > len > new_pe_count )
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dm_list_del ( & peg - > list ) ;
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}
pv - > pe_count = new_pe_count ;
vg - > extent_count - = ( old_pe_count - new_pe_count ) ;
vg - > free_count - = ( old_pe_count - new_pe_count ) ;
return 1 ;
}
static int _extend_pv ( struct physical_volume * pv , struct volume_group * vg ,
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uint32_t old_pe_count , uint32_t new_pe_count )
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{
struct pv_segment * peg ;
if ( ( uint64_t ) new_pe_count * pv - > pe_size > pv - > size ) {
log_error ( " %s: cannot resize to % " PRIu32 " extents as there "
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" is only room for % " PRIu64 " . " , pv_dev_name ( pv ) ,
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new_pe_count , pv - > size / pv - > pe_size ) ;
return 0 ;
}
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if ( ! ( peg = _alloc_pv_segment ( pv - > fmt - > cmd - > mem , pv ,
old_pe_count ,
new_pe_count - old_pe_count ,
NULL , 0 ) ) )
return_0 ;
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dm_list_add ( & pv - > segments , & peg - > list ) ;
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pv - > pe_count = new_pe_count ;
vg - > extent_count + = ( new_pe_count - old_pe_count ) ;
vg - > free_count + = ( new_pe_count - old_pe_count ) ;
return 1 ;
}
/*
* Resize a PV in a VG , adding or removing segments as needed .
* New size must fit within pv - > size .
*/
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static int pv_resize ( struct physical_volume * pv ,
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struct volume_group * vg ,
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uint64_t size )
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{
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uint32_t old_pe_count , new_pe_count = 0 ;
if ( size < pv_min_size ( ) ) {
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log_error ( " Size must exceed minimum of % " PRIu64 " sectors on PV %s. " ,
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pv_min_size ( ) , pv_dev_name ( pv ) ) ;
return 0 ;
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}
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if ( size < pv_pe_start ( pv ) ) {
log_error ( " Size must exceed physical extent start "
" of % " PRIu64 " sectors on PV %s. " ,
pv_pe_start ( pv ) , pv_dev_name ( pv ) ) ;
}
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2011-02-21 15:27:26 +03:00
old_pe_count = pv - > pe_count ;
if ( ! pv - > fmt - > ops - > pv_resize ( pv - > fmt , pv , vg , size ) ) {
log_error ( " Format specific resize of PV %s failed. " ,
pv_dev_name ( pv ) ) ;
return 0 ;
}
/* pv->pe_count is 0 now! We need to recalculate! */
/* If there's a VG, calculate new PE count value. */
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/* Don't do for orphan VG */
if ( vg & & ! is_orphan_vg ( vg - > name ) ) {
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/* FIXME: Maybe PE calculation should go into pv->fmt->resize?
( like it is for pv - > fmt - > setup ) */
if ( ! ( new_pe_count = pv_size ( pv ) / vg - > extent_size ) ) {
log_error ( " Size must leave space for at least one physical "
" extent of % " PRIu32 " sectors on PV %s. " ,
pv_pe_size ( pv ) , pv_dev_name ( pv ) ) ;
return 0 ;
}
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if ( new_pe_count = = old_pe_count ) {
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pv - > pe_count = old_pe_count ;
log_verbose ( " No change to size of physical volume %s. " ,
pv_dev_name ( pv ) ) ;
return 1 ;
}
log_verbose ( " Resizing physical volume %s from % " PRIu32
" to % " PRIu32 " extents. " ,
pv_dev_name ( pv ) , pv - > pe_count , new_pe_count ) ;
if ( new_pe_count > old_pe_count )
return _extend_pv ( pv , vg , old_pe_count , new_pe_count ) ;
else
return _reduce_pv ( pv , vg , old_pe_count , new_pe_count ) ;
}
return 1 ;
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}
2013-04-03 00:10:18 +04:00
2013-06-29 01:25:28 +04:00
int pv_resize_single ( struct cmd_context * cmd ,
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struct volume_group * vg ,
struct physical_volume * pv ,
const uint64_t new_size )
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{
uint64_t size = 0 ;
int r = 0 ;
const char * pv_name = pv_dev_name ( pv ) ;
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const char * vg_name = pv - > vg_name ;
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int vg_needs_pv_write = 0 ;
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if ( ! archive ( vg ) )
goto out ;
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if ( ! ( pv - > fmt - > features & FMT_RESIZE_PV ) ) {
log_error ( " Physical volume %s format does not support resizing. " ,
pv_name ) ;
goto out ;
}
/* Get new size */
if ( ! dev_get_size ( pv_dev ( pv ) , & size ) ) {
log_error ( " %s: Couldn't get size. " , pv_name ) ;
goto out ;
}
if ( new_size ) {
if ( new_size > size )
log_warn ( " WARNING: %s: Overriding real size. "
" You could lose data. " , pv_name ) ;
log_verbose ( " %s: Pretending size is % " PRIu64 " not % " PRIu64
" sectors. " , pv_name , new_size , pv_size ( pv ) ) ;
size = new_size ;
}
log_verbose ( " Resizing volume \" %s \" to % " PRIu64 " sectors. " ,
2014-11-25 17:16:09 +03:00
pv_name , size ) ;
2013-06-29 01:25:28 +04:00
if ( ! pv_resize ( pv , vg , size ) )
goto_out ;
log_verbose ( " Updating physical volume \" %s \" " , pv_name ) ;
/* Write PV label only if this an orphan PV or it has 2nd mda. */
if ( ( is_orphan_vg ( vg_name ) | |
( vg_needs_pv_write = ( fid_get_mda_indexed ( vg - > fid ,
( const char * ) & pv - > id , ID_LEN , 1 ) ! = NULL ) ) ) & &
! pv_write ( cmd , pv , 1 ) ) {
log_error ( " Failed to store physical volume \" %s \" " ,
pv_name ) ;
goto out ;
}
if ( ! is_orphan_vg ( vg_name ) ) {
if ( ! vg_write ( vg ) | | ! vg_commit ( vg ) ) {
log_error ( " Failed to store physical volume \" %s \" in "
" volume group \" %s \" " , pv_name , vg_name ) ;
goto out ;
}
backup ( vg ) ;
}
log_print_unless_silent ( " Physical volume \" %s \" changed " , pv_name ) ;
r = 1 ;
out :
if ( ! r & & vg_needs_pv_write )
log_error ( " Use pvcreate and vgcfgrestore "
" to repair from archived metadata. " ) ;
return r ;
}
2013-04-03 00:10:18 +04:00
const char _really_wipe [ ] =
" Really WIPE LABELS from physical volume \" %s \" of volume group \" %s \" [y/n]? " ;
/*
* Decide whether it is " safe " to wipe the labels on this device .
* 0 indicates we may not .
*/
static int pvremove_check ( struct cmd_context * cmd , const char * name ,
2015-01-06 16:17:53 +03:00
unsigned force_count , unsigned prompt , struct dm_list * pvslist )
2013-04-03 00:10:18 +04:00
{
2013-02-19 05:14:51 +04:00
struct device * dev ;
struct label * label ;
struct pv_list * pvl ;
struct physical_volume * pv = NULL ;
int r = 0 ;
2013-04-03 00:10:18 +04:00
/* FIXME Check partition type is LVM unless --force is given */
2013-02-19 05:14:51 +04:00
if ( ! ( dev = dev_cache_get ( name , cmd - > filter ) ) ) {
log_error ( " Device %s not found " , name ) ;
return 0 ;
}
2013-04-03 00:10:18 +04:00
/* Is there a pv here already? */
/* If not, this is an error unless you used -f. */
2013-02-19 05:14:51 +04:00
if ( ! label_read ( dev , & label , 0 ) ) {
2013-04-03 00:10:18 +04:00
if ( force_count )
return 1 ;
2013-02-19 05:14:51 +04:00
log_error ( " No PV label found on %s. " , name ) ;
2013-04-03 00:10:18 +04:00
return 0 ;
}
2013-02-19 05:14:51 +04:00
dm_list_iterate_items ( pvl , pvslist )
if ( pvl - > pv - > dev = = dev )
pv = pvl - > pv ;
if ( ! pv ) {
log_error ( INTERNAL_ERROR " Physical Volume %s has a label, "
" but is neither in a VG nor orphan. " , name ) ;
goto out ; /* better safe than sorry */
2013-04-03 00:10:18 +04:00
}
if ( is_orphan ( pv ) ) {
2013-02-19 05:14:51 +04:00
r = 1 ;
goto out ;
2013-04-03 00:10:18 +04:00
}
/* we must have -ff to overwrite a non orphan */
if ( force_count < 2 ) {
log_error ( " PV %s belongs to Volume Group %s so please use vgreduce first. " , name , pv_vg_name ( pv ) ) ;
log_error ( " (If you are certain you need pvremove, then confirm by using --force twice.) " ) ;
2013-02-19 05:14:51 +04:00
goto out ;
2013-04-03 00:10:18 +04:00
}
/* prompt */
if ( ! prompt & &
2013-02-19 05:14:51 +04:00
yes_no_prompt ( " Really WIPE LABELS from physical volume \" %s \" "
" of volume group \" %s \" [y/n]? " ,
name , pv_vg_name ( pv ) ) = = ' n ' ) {
2013-04-03 00:10:18 +04:00
log_error ( " %s: physical volume label not removed " , name ) ;
2013-02-19 05:14:51 +04:00
goto out ;
2013-04-03 00:10:18 +04:00
}
if ( force_count ) {
log_warn ( " WARNING: Wiping physical volume label from "
" %s%s%s%s " , name ,
! is_orphan ( pv ) ? " of volume group \" " : " " ,
2014-03-19 03:01:00 +04:00
pv_vg_name ( pv ) ,
2013-04-03 00:10:18 +04:00
! is_orphan ( pv ) ? " \" " : " " ) ;
}
2013-02-19 05:14:51 +04:00
r = 1 ;
out :
return r ;
2013-04-03 00:10:18 +04:00
}
int pvremove_single ( struct cmd_context * cmd , const char * pv_name ,
2013-07-06 06:28:21 +04:00
void * handle __attribute__ ( ( unused ) ) , unsigned force_count ,
2015-01-06 16:17:53 +03:00
unsigned prompt , struct dm_list * pvslist )
2013-04-03 00:10:18 +04:00
{
struct device * dev ;
2014-06-09 00:57:04 +04:00
struct lvmcache_info * info ;
2013-07-06 06:28:21 +04:00
int r = 0 ;
2013-04-03 00:10:18 +04:00
2015-01-06 16:17:53 +03:00
if ( ! pvremove_check ( cmd , pv_name , force_count , prompt , pvslist ) )
2013-04-03 00:10:18 +04:00
goto out ;
if ( ! ( dev = dev_cache_get ( pv_name , cmd - > filter ) ) ) {
log_error ( " %s: Couldn't find device. Check your filters? " ,
pv_name ) ;
goto out ;
}
2014-06-09 00:57:04 +04:00
info = lvmcache_info_from_pvid ( dev - > pvid , 1 ) ;
2013-04-03 00:10:18 +04:00
if ( ! dev_test_excl ( dev ) ) {
/* FIXME Detect whether device-mapper is still using the device */
log_error ( " Can't open %s exclusively - not removing. "
" Mounted filesystem? " , dev_name ( dev ) ) ;
goto out ;
}
/* Wipe existing label(s) */
if ( ! label_remove ( dev ) ) {
log_error ( " Failed to wipe existing label(s) on %s " , pv_name ) ;
goto out ;
}
2014-06-09 00:57:04 +04:00
if ( info )
lvmcache_del ( info ) ;
2013-04-03 00:10:18 +04:00
if ( ! lvmetad_pv_gone_by_dev ( dev , NULL ) )
goto_out ;
log_print_unless_silent ( " Labels on physical volume \" %s \" successfully wiped " ,
pv_name ) ;
2013-07-06 06:28:21 +04:00
r = 1 ;
2013-04-03 00:10:18 +04:00
2015-01-06 16:17:53 +03:00
out :
return r ;
}
int pvremove_many ( struct cmd_context * cmd , struct dm_list * pv_names ,
unsigned force_count , unsigned prompt )
{
int ret = 1 ;
struct dm_list * pvslist = NULL ;
struct pv_list * pvl ;
const struct dm_str_list * pv_name ;
if ( ! lock_vol ( cmd , VG_ORPHANS , LCK_VG_WRITE , NULL ) ) {
log_error ( " Can't get lock for orphan PVs " ) ;
return 0 ;
}
lvmcache_seed_infos_from_lvmetad ( cmd ) ;
if ( ! ( pvslist = get_pvs ( cmd ) ) ) {
ret = 0 ;
goto_out ;
}
dm_list_iterate_items ( pv_name , pv_names ) {
if ( ! pvremove_single ( cmd , pv_name - > str , NULL , force_count , prompt , pvslist ) ) {
stack ;
ret = 0 ;
}
if ( sigint_caught ( ) ) {
ret = 0 ;
goto_out ;
}
}
2013-04-03 00:10:18 +04:00
out :
unlock_vg ( cmd , VG_ORPHANS ) ;
2015-01-06 16:17:53 +03:00
if ( pvslist )
dm_list_iterate_items ( pvl , pvslist )
free_pv_fid ( pvl - > pv ) ;
return ret ;
2013-04-03 00:10:18 +04:00
}
2013-04-04 01:53:21 +04:00
2013-07-09 05:37:56 +04:00
int pvcreate_single ( struct cmd_context * cmd , const char * pv_name ,
struct pvcreate_params * pp )
2013-04-04 01:53:21 +04:00
{
2013-07-06 06:28:21 +04:00
int r = 0 ;
2013-04-04 01:53:21 +04:00
if ( ! lock_vol ( cmd , VG_ORPHANS , LCK_VG_WRITE , NULL ) ) {
log_error ( " Can't get lock for orphan PVs " ) ;
2013-07-06 06:28:21 +04:00
return 0 ;
2013-04-04 01:53:21 +04:00
}
2013-07-09 05:37:56 +04:00
if ( ! ( pvcreate_vol ( cmd , pv_name , pp , 1 ) ) )
2013-07-06 06:28:21 +04:00
goto_out ;
r = 1 ;
2013-04-04 01:53:21 +04:00
2013-07-06 06:28:21 +04:00
out :
2013-04-04 01:53:21 +04:00
unlock_vg ( cmd , VG_ORPHANS ) ;
2013-07-06 06:28:21 +04:00
return r ;
2013-04-04 01:53:21 +04:00
}