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/*
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* Copyright ( C ) 2008 - 2013 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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*/
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# include <stddef.h>
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# include "lib.h"
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# include "metadata.h"
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# include "lvm-string.h"
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# include "str_list.h"
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# include "lvm_misc.h"
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# include "lvm2app.h"
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# include "locking.h"
# include "toolcontext.h"
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# include "lvm_misc.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 lvm_pv_create_params
{
uint32_t magic ;
lvm_t libh ;
const char * pv_name ;
struct pvcreate_params pv_p ;
} ;
# define PV_CREATE_PARAMS_MAGIC 0xFEED0002
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const char * lvm_pv_get_uuid ( const pv_t pv )
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{
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const char * rc ;
struct saved_env e = store_user_env ( pv - > vg - > cmd ) ;
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rc = pv_uuid_dup ( pv - > vg - > vgmem , pv ) ;
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restore_user_env ( & e ) ;
return rc ;
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}
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const char * lvm_pv_get_name ( const pv_t pv )
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{
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const char * rc ;
struct saved_env e = store_user_env ( pv - > vg - > cmd ) ;
rc = dm_pool_strndup ( pv - > vg - > vgmem , pv_dev_name ( pv ) , NAME_LEN ) ;
restore_user_env ( & e ) ;
return rc ;
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}
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uint64_t lvm_pv_get_mda_count ( const pv_t pv )
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{
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uint64_t rc ;
struct saved_env e = store_user_env ( pv - > vg - > cmd ) ;
rc = ( uint64_t ) pv_mda_count ( pv ) ;
restore_user_env ( & e ) ;
return rc ;
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}
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uint64_t lvm_pv_get_dev_size ( const pv_t pv )
{
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uint64_t rc ;
struct saved_env e = store_user_env ( pv - > vg - > cmd ) ;
rc = SECTOR_SIZE * pv_dev_size ( pv ) ;
restore_user_env ( & e ) ;
return rc ;
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}
uint64_t lvm_pv_get_size ( const pv_t pv )
{
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uint64_t rc ;
struct saved_env e = store_user_env ( pv - > vg - > cmd ) ;
rc = SECTOR_SIZE * pv_size_field ( pv ) ;
restore_user_env ( & e ) ;
return rc ;
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}
uint64_t lvm_pv_get_free ( const pv_t pv )
{
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uint64_t rc ;
struct saved_env e = store_user_env ( pv - > vg - > cmd ) ;
rc = SECTOR_SIZE * pv_free ( pv ) ;
restore_user_env ( & e ) ;
return rc ;
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}
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struct lvm_property_value lvm_pv_get_property ( const pv_t pv , const char * name )
{
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struct lvm_property_value rc ;
struct saved_env e = store_user_env ( pv - > vg - > cmd ) ;
rc = get_property ( pv , NULL , NULL , NULL , NULL , NULL , NULL , name ) ;
restore_user_env ( & e ) ;
return rc ;
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}
struct lvm_property_value lvm_pvseg_get_property ( const pvseg_t pvseg ,
const char * name )
{
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struct lvm_property_value rc ;
struct saved_env e = store_user_env ( pvseg - > pv - > vg - > cmd ) ;
rc = get_property ( NULL , NULL , NULL , NULL , pvseg , NULL , NULL , name ) ;
restore_user_env ( & e ) ;
return rc ;
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}
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struct lvm_list_wrapper
{
unsigned long magic ;
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struct cmd_context * cmd ;
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struct dm_list pvslist ;
struct dm_list vgslist ;
} ;
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int lvm_pv_remove ( lvm_t libh , const char * pv_name )
{
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int rc = 0 ;
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struct cmd_context * cmd = ( struct cmd_context * ) libh ;
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struct saved_env e = store_user_env ( cmd ) ;
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struct dm_list pv_names ;
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dm_list_init ( & pv_names ) ;
if ( ! str_list_add ( cmd - > mem , & pv_names , pv_name ) )
rc = - 1 ;
if ( rc > = 0 & & ! pvremove_many ( cmd , & pv_names , 0 , 0 ) )
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rc = - 1 ;
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restore_user_env ( & e ) ;
return rc ;
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}
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# define PV_LIST_MAGIC 4026907153U
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static struct dm_list * _lvm_list_pvs ( lvm_t libh )
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{
struct lvm_list_wrapper * rc = NULL ;
struct cmd_context * cmd = ( struct cmd_context * ) libh ;
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/*
* This memory will get cleared when the library handle
* gets closed , don ' t try to free is as it doesn ' t work
* like malloc / free do .
*/
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if ( ! ( rc = dm_pool_zalloc ( cmd - > mem , sizeof ( * rc ) ) ) ) {
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log_errno ( ENOMEM , " Memory allocation fail for pv list. " ) ;
return NULL ;
}
if ( ! lock_vol ( cmd , VG_GLOBAL , LCK_VG_WRITE , NULL ) ) {
log_errno ( ENOLCK , " Unable to obtain global lock. " ) ;
} else {
dm_list_init ( & rc - > pvslist ) ;
dm_list_init ( & rc - > vgslist ) ;
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if ( ! get_pvs_perserve_vg ( cmd , & rc - > pvslist , & rc - > vgslist ) )
return_NULL ;
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/*
* If we have no PVs we still need to have access to cmd
* pointer in the free call .
*/
rc - > cmd = cmd ;
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rc - > magic = PV_LIST_MAGIC ;
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}
return & rc - > pvslist ;
}
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struct dm_list * lvm_list_pvs ( lvm_t libh )
{
struct dm_list * rc ;
struct saved_env e = store_user_env ( ( struct cmd_context * ) libh ) ;
rc = _lvm_list_pvs ( libh ) ;
restore_user_env ( & e ) ;
return rc ;
}
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int lvm_list_pvs_free ( struct dm_list * pvlist )
{
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struct lvm_list_wrapper * to_delete ;
struct vg_list * vgl ;
struct pv_list * pvl ;
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struct saved_env e ;
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if ( pvlist ) {
to_delete = dm_list_struct_base ( pvlist , struct lvm_list_wrapper , pvslist ) ;
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if ( to_delete - > magic ! = PV_LIST_MAGIC ) {
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log_errno ( EINVAL , " Not a correct pvlist structure " ) ;
return - 1 ;
}
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/*
* Need to ensure that pointer is valid before we can use reference to
* cmd .
*/
e = store_user_env ( to_delete - > cmd ) ;
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dm_list_iterate_items ( vgl , & to_delete - > vgslist ) {
release_vg ( vgl - > vg ) ;
}
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dm_list_iterate_items ( pvl , & to_delete - > pvslist )
free_pv_fid ( pvl - > pv ) ;
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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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unlock_vg ( to_delete - > cmd , NULL , VG_GLOBAL ) ;
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to_delete - > magic = 0xA5A5A5A5 ;
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restore_user_env ( & e ) ;
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}
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return 0 ;
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}
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static struct dm_list * _lvm_pv_list_pvsegs ( pv_t pv )
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{
struct dm_list * list ;
pvseg_list_t * pvseg ;
struct pv_segment * pvl ;
if ( dm_list_empty ( & pv - > segments ) )
return NULL ;
if ( ! ( list = dm_pool_zalloc ( pv - > vg - > vgmem , sizeof ( * list ) ) ) ) {
log_errno ( ENOMEM , " Memory allocation fail for dm_list. " ) ;
return NULL ;
}
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dm_list_init ( list ) ;
dm_list_iterate_items ( pvl , & pv - > segments ) {
if ( ! ( pvseg = dm_pool_zalloc ( pv - > vg - > vgmem , sizeof ( * pvseg ) ) ) ) {
log_errno ( ENOMEM ,
" Memory allocation fail for lvm_pvseg_list. " ) ;
return NULL ;
}
pvseg - > pvseg = pvl ;
dm_list_add ( list , & pvseg - > list ) ;
}
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return list ;
}
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struct dm_list * lvm_pv_list_pvsegs ( pv_t pv )
{
struct dm_list * rc ;
struct saved_env e = store_user_env ( pv - > vg - > cmd ) ;
rc = _lvm_pv_list_pvsegs ( pv ) ;
restore_user_env ( & e ) ;
return rc ;
}
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pv_t lvm_pv_from_name ( vg_t vg , const char * name )
{
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pv_t rc = NULL ;
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struct pv_list * pvl ;
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struct saved_env e = store_user_env ( vg - > cmd ) ;
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dm_list_iterate_items ( pvl , & vg - > pvs )
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if ( ! strcmp ( name , pv_dev_name ( pvl - > pv ) ) ) {
rc = pvl - > pv ;
break ;
}
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restore_user_env ( & e ) ;
return rc ;
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}
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static pv_t _lvm_pv_from_uuid ( vg_t vg , const char * uuid )
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{
struct pv_list * pvl ;
struct id id ;
if ( strlen ( uuid ) < ID_LEN ) {
log_errno ( EINVAL , " Invalid UUID string length " ) ;
return NULL ;
}
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if ( ! id_read_format ( & id , uuid ) ) {
log_errno ( EINVAL , " Invalid UUID format. " ) ;
return NULL ;
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}
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dm_list_iterate_items ( pvl , & vg - > pvs )
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if ( id_equal ( & id , & pvl - > pv - > id ) )
return pvl - > pv ;
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return NULL ;
}
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pv_t lvm_pv_from_uuid ( vg_t vg , const char * uuid )
{
pv_t rc ;
struct saved_env e = store_user_env ( vg - > cmd ) ;
rc = _lvm_pv_from_uuid ( vg , uuid ) ;
restore_user_env ( & e ) ;
return rc ;
}
static int _lvm_pv_resize ( const pv_t pv , uint64_t new_size )
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{
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uint64_t size = new_size > > SECTOR_SHIFT ;
if ( new_size % SECTOR_SIZE ) {
log_errno ( EINVAL , " Size not a multiple of 512 " ) ;
return - 1 ;
}
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if ( ! vg_check_write_mode ( pv - > vg ) )
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return - 1 ;
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if ( ! pv_resize_single ( pv - > vg - > cmd , pv - > vg , pv , size ) ) {
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log_error ( " PV re-size failed! " ) ;
return - 1 ;
}
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return 0 ;
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}
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int lvm_pv_resize ( const pv_t pv , uint64_t new_size )
{
int rc ;
struct saved_env e = store_user_env ( pv - > vg - > cmd ) ;
rc = _lvm_pv_resize ( pv , new_size ) ;
restore_user_env ( & e ) ;
return rc ;
}
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/*
* Common internal code to create a parameter passing object
*/
static struct lvm_pv_create_params * _lvm_pv_params_create (
lvm_t libh ,
const char * pv_name ,
struct lvm_pv_create_params * pvcp_in )
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{
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struct lvm_pv_create_params * pvcp = NULL ;
const char * dev = NULL ;
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struct cmd_context * cmd = ( struct cmd_context * ) libh ;
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if ( ! pv_name | | strlen ( pv_name ) = = 0 ) {
log_error ( " Invalid pv_name " ) ;
return NULL ;
}
if ( ! pvcp_in ) {
pvcp = dm_pool_zalloc ( cmd - > libmem , sizeof ( struct lvm_pv_create_params ) ) ;
} else {
pvcp = pvcp_in ;
}
if ( ! pvcp ) {
return NULL ;
}
dev = dm_pool_strdup ( cmd - > libmem , pv_name ) ;
if ( ! dev ) {
return NULL ;
}
pvcreate_params_set_defaults ( & pvcp - > pv_p ) ;
pvcp - > pv_p . yes = 1 ;
pvcp - > pv_p . force = DONT_PROMPT ;
pvcp - > pv_name = dev ;
pvcp - > libh = libh ;
pvcp - > magic = PV_CREATE_PARAMS_MAGIC ;
return pvcp ;
}
pv_create_params_t lvm_pv_params_create ( lvm_t libh , const char * pv_name )
{
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pv_create_params_t rc ;
struct saved_env e = store_user_env ( ( struct cmd_context * ) libh ) ;
rc = _lvm_pv_params_create ( libh , pv_name , NULL ) ;
restore_user_env ( & e ) ;
return rc ;
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}
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struct lvm_property_value lvm_pv_params_get_property (
const pv_create_params_t params ,
const char * name )
{
struct lvm_property_value rc = {
. is_valid = 0
} ;
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struct saved_env e ;
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if ( params & & params - > magic = = PV_CREATE_PARAMS_MAGIC ) {
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e = store_user_env ( ( struct cmd_context * ) ( params - > libh ) ) ;
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rc = get_property ( NULL , NULL , NULL , NULL , NULL , NULL , & params - > pv_p ,
name ) ;
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restore_user_env ( & e ) ;
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} else {
log_error ( " Invalid pv_create_params parameter " ) ;
}
return rc ;
}
int lvm_pv_params_set_property ( pv_create_params_t params , const char * name ,
struct lvm_property_value * prop )
{
int rc = - 1 ;
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struct saved_env e ;
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if ( params & & params - > magic = = PV_CREATE_PARAMS_MAGIC ) {
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e = store_user_env ( ( struct cmd_context * ) ( params - > libh ) ) ;
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rc = set_property ( NULL , NULL , NULL , NULL , & params - > pv_p , name , prop ) ;
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restore_user_env ( & e ) ;
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} else {
log_error ( " Invalid pv_create_params parameter " ) ;
}
return rc ;
}
static int _pv_create ( pv_create_params_t params )
{
struct cmd_context * cmd = ( struct cmd_context * ) params - > libh ;
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int rc = 0 ;
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if ( params - > pv_p . pva . size ) {
if ( params - > pv_p . pva . size % SECTOR_SIZE ) {
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log_errno ( EINVAL , " Size not a multiple of 512 " ) ;
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return - 1 ;
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}
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params - > pv_p . pva . size = params - > pv_p . pva . size > > SECTOR_SHIFT ;
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}
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if ( ! lock_vol ( cmd , VG_ORPHANS , LCK_VG_WRITE , NULL ) ) {
log_errno ( EINVAL , " Can't get lock for orphan PVs " ) ;
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return - 1 ;
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}
if ( ! ( pvcreate_vol ( cmd , params - > pv_name , & params - > pv_p , 1 ) ) )
rc = - 1 ;
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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unlock_vg ( cmd , NULL , VG_ORPHANS ) ;
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return rc ;
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}
int lvm_pv_create ( lvm_t libh , const char * pv_name , uint64_t size )
{
struct lvm_pv_create_params pp ;
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int rc = - 1 ;
struct saved_env e = store_user_env ( ( struct cmd_context * ) libh ) ;
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if ( _lvm_pv_params_create ( libh , pv_name , & pp ) ) {
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pp . pv_p . pva . size = size ;
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rc = _pv_create ( & pp ) ;
}
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restore_user_env ( & e ) ;
return rc ;
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}
int lvm_pv_create_adv ( pv_create_params_t params )
{
int rc = - 1 ;
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struct saved_env e ;
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if ( params & & params - > magic = = PV_CREATE_PARAMS_MAGIC ) {
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e = store_user_env ( ( struct cmd_context * ) ( params - > libh ) ) ;
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rc = _pv_create ( params ) ;
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restore_user_env ( & e ) ;
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} else {
log_error ( " Invalid pv_create_params parameter " ) ;
}
return rc ;
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}