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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 ,
* Inc . , 59 Temple Place , Suite 330 , Boston , MA 02111 - 1307 USA
*/
# include "lib.h"
# include "metadata.h"
# include "lvmcache.h"
/*
* FIXME : Check for valid handle before dereferencing field or log error ?
*/
# define pv_field(handle, field) ((handle)->field)
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char * pv_fmt_dup ( const struct physical_volume * pv )
{
if ( ! pv - > fmt )
return NULL ;
return dm_pool_strdup ( pv - > vg - > vgmem , pv - > fmt - > name ) ;
}
char * pv_name_dup ( const struct physical_volume * pv )
{
return dm_pool_strdup ( pv - > vg - > vgmem , dev_name ( pv - > dev ) ) ;
}
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/*
* Gets / Sets for external LVM library
*/
struct id pv_id ( const struct physical_volume * pv )
{
return pv_field ( pv , id ) ;
}
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char * pv_uuid_dup ( const struct physical_volume * pv )
{
return id_format_and_copy ( pv - > vg - > vgmem , & pv - > id ) ;
}
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char * pv_tags_dup ( const struct physical_volume * pv )
{
return tags_format_and_copy ( pv - > vg - > vgmem , & pv - > tags ) ;
}
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const struct format_type * pv_format_type ( const struct physical_volume * pv )
{
return pv_field ( pv , fmt ) ;
}
struct id pv_vgid ( const struct physical_volume * pv )
{
return pv_field ( pv , vgid ) ;
}
struct device * pv_dev ( const struct physical_volume * pv )
{
return pv_field ( pv , dev ) ;
}
const char * pv_vg_name ( const struct physical_volume * pv )
{
return pv_field ( pv , vg_name ) ;
}
const char * pv_dev_name ( const struct physical_volume * pv )
{
return dev_name ( pv_dev ( pv ) ) ;
}
uint64_t pv_size ( const struct physical_volume * pv )
{
return pv_field ( pv , size ) ;
}
uint64_t pv_dev_size ( const struct physical_volume * pv )
{
uint64_t size ;
if ( ! dev_get_size ( pv - > dev , & size ) )
size = 0 ;
return size ;
}
uint64_t pv_size_field ( const struct physical_volume * pv )
{
uint64_t size ;
if ( ! pv - > pe_count )
size = pv - > size ;
else
size = ( uint64_t ) pv - > pe_count * pv - > pe_size ;
return size ;
}
uint64_t pv_free ( const struct physical_volume * pv )
{
uint64_t freespace ;
if ( ! pv - > pe_count )
freespace = pv - > size ;
else
freespace = ( uint64_t )
( pv - > pe_count - pv - > pe_alloc_count ) * pv - > pe_size ;
return freespace ;
}
uint64_t pv_status ( const struct physical_volume * pv )
{
return pv_field ( pv , status ) ;
}
uint32_t pv_pe_size ( const struct physical_volume * pv )
{
return pv_field ( pv , pe_size ) ;
}
uint64_t pv_pe_start ( const struct physical_volume * pv )
{
return pv_field ( pv , pe_start ) ;
}
uint32_t pv_pe_count ( const struct physical_volume * pv )
{
return pv_field ( pv , pe_count ) ;
}
uint32_t pv_pe_alloc_count ( const struct physical_volume * pv )
{
return pv_field ( pv , pe_alloc_count ) ;
}
uint32_t pv_mda_count ( const struct physical_volume * pv )
{
struct lvmcache_info * info ;
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info = lvmcache_info_from_pvid ( ( const char * ) & pv - > id . uuid , 0 ) ;
return info ? lvmcache_mda_count ( info ) : UINT64_C ( 0 ) ;
}
static int _count_unignored ( struct metadata_area * mda , void * baton )
{
uint32_t * count = baton ;
if ( ! mda_is_ignored ( mda ) )
( * count ) + + ;
return 1 ;
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}
uint32_t pv_mda_used_count ( const struct physical_volume * pv )
{
struct lvmcache_info * info ;
uint32_t used_count = 0 ;
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info = lvmcache_info_from_pvid ( ( const char * ) & pv - > id . uuid , 0 ) ;
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if ( ! info )
return 0 ;
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lvmcache_foreach_mda ( info , _count_unignored , & used_count ) ;
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return used_count ;
}
/**
* is_orphan - Determine whether a pv is an orphan based on its vg_name
* @ pv : handle to the physical volume
*/
int is_orphan ( const struct physical_volume * pv )
{
return is_orphan_vg ( pv_field ( pv , vg_name ) ) ;
}
/**
* is_pv - Determine whether a pv is a real pv or dummy one
* @ pv : handle to device
*/
int is_pv ( const struct physical_volume * pv )
{
return ( pv_field ( pv , vg_name ) ? 1 : 0 ) ;
}
int is_missing_pv ( const struct physical_volume * pv )
{
return pv_field ( pv , status ) & MISSING_PV ? 1 : 0 ;
}
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char * pv_attr_dup ( struct dm_pool * mem , const struct physical_volume * pv )
{
char * repstr ;
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if ( ! ( repstr = dm_pool_zalloc ( mem , 4 ) ) ) {
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log_error ( " dm_pool_alloc failed " ) ;
return NULL ;
}
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repstr [ 0 ] = ( pv - > status & ALLOCATABLE_PV ) ? ' a ' : ' - ' ;
repstr [ 1 ] = ( pv - > status & EXPORTED_VG ) ? ' x ' : ' - ' ;
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repstr [ 2 ] = ( pv - > status & MISSING_PV ) ? ' m ' : ' - ' ;
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return repstr ;
}
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uint64_t pv_mda_size ( const struct physical_volume * pv )
{
struct lvmcache_info * info ;
uint64_t min_mda_size = 0 ;
const char * pvid = ( const char * ) ( & pv - > id . uuid ) ;
/* PVs could have 2 mdas of different sizes (rounding effect) */
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if ( ( info = lvmcache_info_from_pvid ( pvid , 0 ) ) )
min_mda_size = lvmcache_smallest_mda_size ( info ) ;
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return min_mda_size ;
}
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static int _pv_mda_free ( struct metadata_area * mda , void * baton ) {
uint64_t mda_free ;
uint64_t * freespace = baton ;
if ( ! mda - > ops - > mda_free_sectors )
return 1 ;
mda_free = mda - > ops - > mda_free_sectors ( mda ) ;
if ( mda_free < * freespace )
* freespace = mda_free ;
return 1 ;
}
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uint64_t pv_mda_free ( const struct physical_volume * pv )
{
struct lvmcache_info * info ;
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uint64_t freespace = UINT64_MAX ;
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const char * pvid = ( const char * ) & pv - > id . uuid ;
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if ( ( info = lvmcache_info_from_pvid ( pvid , 0 ) ) )
lvmcache_foreach_mda ( info , _pv_mda_free , & freespace ) ;
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if ( freespace = = UINT64_MAX )
freespace = UINT64_C ( 0 ) ;
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return freespace ;
}
uint64_t pv_used ( const struct physical_volume * pv )
{
uint64_t used ;
if ( ! pv - > pe_count )
used = 0LL ;
else
used = ( uint64_t ) pv - > pe_alloc_count * pv - > pe_size ;
return used ;
}
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struct _pv_mda_set_ignored_baton {
unsigned mda_ignored ;
struct dm_list * mdas_in_use , * mdas_ignored , * mdas_to_change ;
} ;
static int _pv_mda_set_ignored_one ( struct metadata_area * mda , void * baton )
{
struct _pv_mda_set_ignored_baton * b = baton ;
struct metadata_area * vg_mda , * tmda ;
if ( mda_is_ignored ( mda ) & & ! b - > mda_ignored ) {
/* Changing an ignored mda to one in_use requires moving it */
dm_list_iterate_items_safe ( vg_mda , tmda , b - > mdas_ignored )
if ( mda_locns_match ( mda , vg_mda ) ) {
mda_set_ignored ( vg_mda , b - > mda_ignored ) ;
dm_list_move ( b - > mdas_in_use , & vg_mda - > list ) ;
}
}
dm_list_iterate_items_safe ( vg_mda , tmda , b - > mdas_in_use )
if ( mda_locns_match ( mda , vg_mda ) )
/* Don't move mda: needs writing to disk. */
mda_set_ignored ( vg_mda , b - > mda_ignored ) ;
mda_set_ignored ( mda , b - > mda_ignored ) ;
return 1 ;
}
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unsigned pv_mda_set_ignored ( const struct physical_volume * pv , unsigned mda_ignored )
{
struct lvmcache_info * info ;
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struct _pv_mda_set_ignored_baton baton ;
struct metadata_area * mda ;
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if ( ! ( info = lvmcache_info_from_pvid ( ( const char * ) & pv - > id . uuid , 0 ) ) )
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return_0 ;
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baton . mda_ignored = mda_ignored ;
baton . mdas_in_use = & pv - > fid - > metadata_areas_in_use ;
baton . mdas_ignored = & pv - > fid - > metadata_areas_ignored ;
baton . mdas_to_change = baton . mda_ignored ? baton . mdas_in_use : baton . mdas_ignored ;
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if ( is_orphan ( pv ) ) {
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dm_list_iterate_items ( mda , baton . mdas_to_change )
mda_set_ignored ( mda , baton . mda_ignored ) ;
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return 1 ;
}
/*
* Do not allow disabling of the the last PV in a VG .
*/
if ( pv_mda_used_count ( pv ) = = vg_mda_used_count ( pv - > vg ) ) {
log_error ( " Cannot disable all metadata areas in volume group %s. " ,
pv - > vg - > name ) ;
return 0 ;
}
/*
* Non - orphan case is more complex .
* If the PV ' s mdas are ignored , and we wish to un - ignore ,
* we clear the bit and move them from the ignored mda list to the
* in_use list , ensuring the new state will get written to disk
* in the vg_write ( ) path .
* If the PV ' s mdas are not ignored , and we are setting
* them to ignored , we set the bit but leave them on the in_use
* list , ensuring the new state will get written to disk in the
* vg_write ( ) path .
*/
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/* FIXME: Try not to update the cache here! Also, try to iterate over
* PV mdas only using the format instance ' s index somehow
* ( i . e . try to avoid using mda_locn_match call ) . */
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lvmcache_foreach_mda ( info , _pv_mda_set_ignored_one , & baton ) ;
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return 1 ;
}