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/*
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* Copyright ( C ) 2018 - 2019 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 . , 51 Franklin Street , Fifth Floor , Boston , MA 02110 - 1301 USA
*/
# include "lib/misc/lib.h"
# include "lib/metadata/metadata.h"
# include "lib/locking/locking.h"
# include "lib/misc/lvm-string.h"
# include "lib/commands/toolcontext.h"
# include "lib/display/display.h"
# include "lib/metadata/segtype.h"
# include "lib/activate/activate.h"
# include "lib/config/defaults.h"
# include "lib/misc/lvm-exec.h"
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# include <sys/sysinfo.h> // sysinfo
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# include <stdarg.h>
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const char * get_vdo_compression_state_name ( enum dm_vdo_compression_state state )
{
switch ( state ) {
case DM_VDO_COMPRESSION_ONLINE :
return " online " ;
default :
log_debug ( INTERNAL_ERROR " Unrecognized compression state: %u. " , state ) ;
/* Fall through */
case DM_VDO_COMPRESSION_OFFLINE :
return " offline " ;
}
}
const char * get_vdo_index_state_name ( enum dm_vdo_index_state state )
{
switch ( state ) {
case DM_VDO_INDEX_ERROR :
return " error " ;
case DM_VDO_INDEX_CLOSED :
return " closed " ;
case DM_VDO_INDEX_OPENING :
return " opening " ;
case DM_VDO_INDEX_CLOSING :
return " closing " ;
case DM_VDO_INDEX_OFFLINE :
return " offline " ;
case DM_VDO_INDEX_ONLINE :
return " online " ;
default :
log_debug ( INTERNAL_ERROR " Unrecognized index state: %u. " , state ) ;
/* Fall through */
case DM_VDO_INDEX_UNKNOWN :
return " unknown " ;
}
}
const char * get_vdo_operating_mode_name ( enum dm_vdo_operating_mode mode )
{
switch ( mode ) {
case DM_VDO_MODE_RECOVERING :
return " recovering " ;
case DM_VDO_MODE_READ_ONLY :
return " read-only " ;
default :
log_debug ( INTERNAL_ERROR " Unrecognized operating mode: %u. " , mode ) ;
/* Fall through */
case DM_VDO_MODE_NORMAL :
return " normal " ;
}
}
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const char * get_vdo_write_policy_name ( enum dm_vdo_write_policy policy )
{
switch ( policy ) {
case DM_VDO_WRITE_POLICY_SYNC :
return " sync " ;
case DM_VDO_WRITE_POLICY_ASYNC :
return " async " ;
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case DM_VDO_WRITE_POLICY_ASYNC_UNSAFE :
return " async-unsafe " ;
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default :
log_debug ( INTERNAL_ERROR " Unrecognized VDO write policy: %u. " , policy ) ;
/* Fall through */
case DM_VDO_WRITE_POLICY_AUTO :
return " auto " ;
}
}
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/*
* Size of VDO virtual LV is adding header_size in front and back of device
* to avoid colission with blkid checks .
*/
static uint64_t _get_virtual_size ( uint32_t extents , uint32_t extent_size ,
uint32_t header_size )
{
return ( uint64_t ) extents * extent_size + 2 * header_size ;
}
uint64_t get_vdo_pool_virtual_size ( const struct lv_segment * vdo_pool_seg )
{
return _get_virtual_size ( vdo_pool_seg - > vdo_pool_virtual_extents ,
vdo_pool_seg - > lv - > vg - > extent_size ,
vdo_pool_seg - > vdo_pool_header_size ) ;
}
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int update_vdo_pool_virtual_size ( struct lv_segment * vdo_pool_seg )
{
struct seg_list * sl ;
uint32_t extents = 0 ;
/* FIXME: as long as we have only SINGLE VDO with vdo-pool this works */
/* after adding support for multiple VDO LVs - this needs heavy rework */
dm_list_iterate_items ( sl , & vdo_pool_seg - > lv - > segs_using_this_lv )
extents + = sl - > seg - > len ;
/* Only growing virtual/logical VDO size */
if ( extents > vdo_pool_seg - > vdo_pool_virtual_extents )
vdo_pool_seg - > vdo_pool_virtual_extents = extents ;
return 1 ;
}
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uint32_t get_vdo_pool_max_extents ( const struct dm_vdo_target_params * vtp ,
uint32_t extent_size )
{
uint64_t max_extents = ( DM_VDO_PHYSICAL_SIZE_MAXIMUM + extent_size - 1 ) / extent_size ;
uint64_t max_slab_extents = ( ( extent_size - 1 + DM_VDO_SLABS_MAXIMUM *
( ( uint64_t ) vtp - > slab_size_mb < < ( 20 - SECTOR_SHIFT ) ) ) /
extent_size ) ;
max_extents = ( max_slab_extents < max_extents ) ? max_slab_extents : max_extents ;
return ( max_extents > UINT32_MAX ) ? UINT32_MAX : ( uint32_t ) max_extents ;
}
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static int _sysfs_get_kvdo_value ( const char * dm_name , const struct dm_info * dminfo ,
const char * vdo_param , uint64_t * value )
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{
char path [ PATH_MAX ] ;
char temp [ 64 ] ;
int fd , size , r = 0 ;
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if ( dm_snprintf ( path , sizeof ( path ) , " %sblock/dm-%d/vdo/%s " ,
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dm_sysfs_dir ( ) , dminfo - > minor , vdo_param ) < 0 ) {
log_debug ( " Failed to build kvdo path. " ) ;
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return 0 ;
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}
if ( ( fd = open ( path , O_RDONLY ) ) < 0 ) {
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/* try with older location */
if ( dm_snprintf ( path , sizeof ( path ) , " %skvdo/%s/%s " ,
dm_sysfs_dir ( ) , dm_name , vdo_param ) < 0 ) {
log_debug ( " Failed to build kvdo path. " ) ;
return 0 ;
}
if ( ( fd = open ( path , O_RDONLY ) ) < 0 ) {
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log_sys_debug ( " open " , path ) ;
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goto bad ;
}
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}
if ( ( size = read ( fd , temp , sizeof ( temp ) - 1 ) ) < 0 ) {
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log_sys_debug ( " read " , path ) ;
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goto bad ;
}
temp [ size ] = 0 ;
errno = 0 ;
* value = strtoll ( temp , NULL , 0 ) ;
if ( errno ) {
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log_sys_debug ( " strtool " , path ) ;
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goto bad ;
}
r = 1 ;
bad :
if ( fd > = 0 & & close ( fd ) )
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log_sys_debug ( " close " , path ) ;
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return r ;
}
int parse_vdo_pool_status ( struct dm_pool * mem , const struct logical_volume * vdo_pool_lv ,
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const char * params , const struct dm_info * dminfo ,
struct lv_status_vdo * status )
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{
struct dm_vdo_status_parse_result result ;
char * dm_name ;
status - > usage = DM_PERCENT_INVALID ;
status - > saving = DM_PERCENT_INVALID ;
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status - > data_usage = DM_PERCENT_INVALID ;
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if ( ! ( dm_name = dm_build_dm_name ( mem , vdo_pool_lv - > vg - > name ,
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vdo_pool_lv - > name , lv_layer ( vdo_pool_lv ) ) ) ) {
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log_error ( " Failed to build VDO DM name %s. " ,
display_lvname ( vdo_pool_lv ) ) ;
return 0 ;
}
if ( ! dm_vdo_status_parse ( mem , params , & result ) ) {
log_error ( " Cannot parse %s VDO pool status %s. " ,
display_lvname ( vdo_pool_lv ) , result . error ) ;
return 0 ;
}
status - > vdo = result . status ;
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if ( ( result . status - > operating_mode = = DM_VDO_MODE_NORMAL ) & &
_sysfs_get_kvdo_value ( dm_name , dminfo , " statistics/data_blocks_used " ,
& status - > data_blocks_used ) & &
_sysfs_get_kvdo_value ( dm_name , dminfo , " statistics/logical_blocks_used " ,
& status - > logical_blocks_used ) ) {
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status - > usage = dm_make_percent ( result . status - > used_blocks ,
result . status - > total_blocks ) ;
status - > saving = dm_make_percent ( status - > logical_blocks_used - status - > data_blocks_used ,
status - > logical_blocks_used ) ;
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status - > data_usage = dm_make_percent ( status - > data_blocks_used * DM_VDO_BLOCK_SIZE ,
first_seg ( vdo_pool_lv ) - > vdo_pool_virtual_extents *
( uint64_t ) vdo_pool_lv - > vg - > extent_size ) ;
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}
return 1 ;
}
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/*
* Formats data LV for a use as a VDO pool LV .
*
* Calls tool ' vdoformat ' on the already active volume .
*/
static int _format_vdo_pool_data_lv ( struct logical_volume * data_lv ,
const struct dm_vdo_target_params * vtp ,
uint64_t * logical_size )
{
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char * dpath , * c ;
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struct pipe_data pdata ;
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uint64_t logical_size_aligned = 1 ;
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FILE * f ;
uint64_t lb ;
unsigned slabbits ;
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unsigned reformatting = 0 ;
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int args = 0 ;
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char buf [ 256 ] ; /* buffer for short disk header (64B) */
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char * buf_pos = buf ;
const char * argv [ DEFAULT_MAX_EXEC_ARGS + 9 ] = { /* Max supported args */
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find_config_tree_str_allow_empty ( data_lv - > vg - > cmd , global_vdo_format_executable_CFG , NULL )
} ;
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if ( ! prepare_exec_args ( data_lv - > vg - > cmd , argv , & args , global_vdo_format_options_CFG ) )
return_0 ;
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if ( ! ( dpath = lv_path_dup ( data_lv - > vg - > cmd - > mem , data_lv ) ) ) {
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log_error ( " Failed to build device path for VDO formatting of data volume %s. " ,
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display_lvname ( data_lv ) ) ;
return 0 ;
}
if ( * logical_size ) {
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logical_size_aligned = 0 ;
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argv [ + + args ] = buf_pos ;
buf_pos + = 1 + dm_snprintf ( buf_pos , 30 , " --logical-size= " FMTu64 " K " ,
( * logical_size / 2 ) ) ;
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}
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slabbits = 31 - clz ( vtp - > slab_size_mb / DM_VDO_BLOCK_SIZE * 2 * 1024 ) ; /* to KiB / block_size */
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log_debug ( " Slab size %s converted to %u bits. " ,
display_size ( data_lv - > vg - > cmd , vtp - > slab_size_mb * UINT64_C ( 2 * 1024 ) ) , slabbits ) ;
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argv [ + + args ] = buf_pos ;
buf_pos + = 1 + dm_snprintf ( buf_pos , 30 , " --slab-bits=%u " , slabbits ) ;
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/* Convert size to GiB units or one of these strings: 0.25, 0.50, 0.75 */
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argv [ + + args ] = buf_pos ;
if ( vtp - > index_memory_size_mb > = 1024 )
buf_pos + = 1 + dm_snprintf ( buf_pos , 30 , " --uds-memory-size=%u " ,
vtp - > index_memory_size_mb / 1024 ) ;
else
buf_pos + = 1 + dm_snprintf ( buf_pos , 30 , " --uds-memory-size=0.%2u " ,
( vtp - > index_memory_size_mb < 512 ) ? 25 :
( vtp - > index_memory_size_mb < 768 ) ? 50 : 75 ) ;
if ( vtp - > use_sparse_index )
argv [ + + args ] = " --uds-sparse " ;
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/* Only unused VDO data LV could be activated and wiped */
if ( ! dm_list_empty ( & data_lv - > segs_using_this_lv ) ) {
log_error ( INTERNAL_ERROR " Failed to wipe logical VDO data for volume %s. " ,
display_lvname ( data_lv ) ) ;
return 0 ;
}
argv [ args ] = dpath ;
if ( ! ( f = pipe_open ( data_lv - > vg - > cmd , argv , 0 , & pdata ) ) ) {
log_error ( " WARNING: Cannot read output from %s. " , argv [ 0 ] ) ;
return 0 ;
}
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while ( ! feof ( f ) & & fgets ( buf , sizeof ( buf ) , f ) ) {
/* TODO: Watch out for locales */
if ( ! * logical_size )
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if ( sscanf ( buf , " Logical blocks defaulted to " FMTu64 " blocks " , & lb ) = = 1 ) {
* logical_size = lb * DM_VDO_BLOCK_SIZE ;
log_verbose ( " Available VDO logical blocks " FMTu64 " (%s). " ,
lb , display_size ( data_lv - > vg - > cmd , * logical_size ) ) ;
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}
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if ( ( c = strchr ( buf , ' \n ' ) ) )
* c = 0 ; /* cut last '\n' away */
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if ( buf [ 0 ] ) {
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if ( reformatting )
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log_verbose ( " %s " , buf ) ; /* Print vdo_format messages */
else
log_print_unless_silent ( " %s " , buf ) ; /* Print vdo_format messages */
}
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}
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if ( ! pipe_close ( & pdata ) ) {
log_error ( " Command %s failed. " , argv [ 0 ] ) ;
return 0 ;
}
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if ( ! * logical_size ) {
log_error ( " Number of VDO logical blocks was not provided by vdo_format output. " ) ;
return 0 ;
}
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if ( logical_size_aligned ) {
// align obtained size to extent size
logical_size_aligned = * logical_size / data_lv - > vg - > extent_size * data_lv - > vg - > extent_size ;
if ( * logical_size ! = logical_size_aligned ) {
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log_debug ( " Using bigger VDO virtual size unaligned on extent size by %s. " ,
display_size ( data_lv - > vg - > cmd , * logical_size - logical_size_aligned ) ) ;
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}
}
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return 1 ;
}
/*
* convert_vdo_pool_lv
* @ data_lv
* @ vtp
* @ virtual_extents
*
* Convert given data LV and its target parameters into a VDO LV with VDO pool .
*
* Returns : old data LV on success ( passed data LV becomes VDO LV ) , NULL on failure
*/
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int convert_vdo_pool_lv ( struct logical_volume * data_lv ,
const struct dm_vdo_target_params * vtp ,
uint32_t * virtual_extents ,
int format ,
uint64_t vdo_pool_header_size )
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{
const uint32_t extent_size = data_lv - > vg - > extent_size ;
struct cmd_context * cmd = data_lv - > vg - > cmd ;
struct logical_volume * vdo_pool_lv = data_lv ;
const struct segment_type * vdo_pool_segtype ;
struct lv_segment * vdo_pool_seg ;
uint64_t vdo_logical_size = 0 ;
uint64_t adjust ;
if ( ! ( vdo_pool_segtype = get_segtype_from_string ( cmd , SEG_TYPE_NAME_VDO_POOL ) ) )
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return_0 ;
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adjust = ( * virtual_extents * ( uint64_t ) extent_size ) % DM_VDO_BLOCK_SIZE ;
if ( adjust ) {
* virtual_extents + = ( DM_VDO_BLOCK_SIZE - adjust ) / extent_size ;
log_print_unless_silent ( " Rounding size up to 4,00 KiB VDO logical extent boundary: %s. " ,
display_size ( data_lv - > vg - > cmd , * virtual_extents * ( uint64_t ) extent_size ) ) ;
}
if ( * virtual_extents )
vdo_logical_size =
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_get_virtual_size ( * virtual_extents , extent_size , vdo_pool_header_size ) ;
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if ( ! dm_vdo_validate_target_params ( vtp , vdo_logical_size ) )
return_0 ;
/* Format data LV as VDO volume */
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if ( format ) {
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if ( test_mode ( ) ) {
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log_verbose ( " Test mode: Skipping formatting of VDO pool volume. " ) ;
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} else if ( ! _format_vdo_pool_data_lv ( data_lv , vtp , & vdo_logical_size ) ) {
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log_error ( " Cannot format VDO pool volume %s. " , display_lvname ( data_lv ) ) ;
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return 0 ;
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}
} else {
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log_verbose ( " Skipping VDO formatting %s. " , display_lvname ( data_lv ) ) ;
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/* TODO: parse existing VDO data and retrieve vdo_logical_size */
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if ( ! * virtual_extents )
vdo_logical_size = data_lv - > size ;
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}
if ( ! deactivate_lv ( data_lv - > vg - > cmd , data_lv ) ) {
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log_error ( " Cannot deactivate formatted VDO pool volume %s. " ,
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display_lvname ( data_lv ) ) ;
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return 0 ;
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}
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vdo_logical_size - = 2 * vdo_pool_header_size ;
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if ( vdo_logical_size < extent_size ) {
if ( ! * virtual_extents )
/* User has not specified size and at least 1 extent is necessary */
log_error ( " Cannot create fully fitting VDO volume, "
" --virtualsize has to be specified. " ) ;
log_error ( " Size %s for VDO volume cannot be smaller then extent size %s. " ,
display_size ( data_lv - > vg - > cmd , vdo_logical_size ) ,
display_size ( data_lv - > vg - > cmd , extent_size ) ) ;
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return 0 ;
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}
* virtual_extents = vdo_logical_size / extent_size ;
/* Move segments from existing data_lv into LV_vdata */
if ( ! ( data_lv = insert_layer_for_lv ( cmd , vdo_pool_lv , 0 , " _vdata " ) ) )
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return_0 ;
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vdo_pool_seg = first_seg ( vdo_pool_lv ) ;
vdo_pool_seg - > segtype = vdo_pool_segtype ;
vdo_pool_seg - > vdo_params = * vtp ;
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vdo_pool_seg - > vdo_pool_header_size = vdo_pool_header_size ;
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vdo_pool_seg - > vdo_pool_virtual_extents = * virtual_extents ;
vdo_pool_lv - > status | = LV_VDO_POOL ;
data_lv - > status | = LV_VDO_POOL_DATA ;
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return 1 ;
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}
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int set_vdo_write_policy ( enum dm_vdo_write_policy * vwp , const char * policy )
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{
if ( strcasecmp ( policy , " sync " ) = = 0 )
* vwp = DM_VDO_WRITE_POLICY_SYNC ;
else if ( strcasecmp ( policy , " async " ) = = 0 )
* vwp = DM_VDO_WRITE_POLICY_ASYNC ;
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else if ( strcasecmp ( policy , " async-unsafe " ) = = 0 )
* vwp = DM_VDO_WRITE_POLICY_ASYNC_UNSAFE ;
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else if ( strcasecmp ( policy , " auto " ) = = 0 )
* vwp = DM_VDO_WRITE_POLICY_AUTO ;
else {
log_error ( " Unknown VDO write policy %s. " , policy ) ;
return 0 ;
}
return 1 ;
}
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int fill_vdo_target_params ( struct cmd_context * cmd ,
struct dm_vdo_target_params * vtp ,
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uint64_t * vdo_pool_header_size ,
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struct profile * profile )
{
const char * policy ;
// TODO: Postpone filling data to the moment when VG is known with profile.
// TODO: Maybe add more lvm cmdline switches to set profile settings.
vtp - > use_compression =
find_config_tree_int ( cmd , allocation_vdo_use_compression_CFG , profile ) ;
vtp - > use_deduplication =
find_config_tree_int ( cmd , allocation_vdo_use_deduplication_CFG , profile ) ;
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vtp - > use_metadata_hints =
find_config_tree_int ( cmd , allocation_vdo_use_metadata_hints_CFG , profile ) ;
vtp - > minimum_io_size =
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find_config_tree_int ( cmd , allocation_vdo_minimum_io_size_CFG , profile ) > > SECTOR_SHIFT ;
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vtp - > block_map_cache_size_mb =
find_config_tree_int64 ( cmd , allocation_vdo_block_map_cache_size_mb_CFG , profile ) ;
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vtp - > block_map_era_length =
find_config_tree_int ( cmd , allocation_vdo_block_map_era_length_CFG , profile ) ;
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vtp - > use_sparse_index =
find_config_tree_int ( cmd , allocation_vdo_use_sparse_index_CFG , profile ) ;
vtp - > index_memory_size_mb =
find_config_tree_int64 ( cmd , allocation_vdo_index_memory_size_mb_CFG , profile ) ;
vtp - > slab_size_mb =
find_config_tree_int ( cmd , allocation_vdo_slab_size_mb_CFG , profile ) ;
vtp - > ack_threads =
find_config_tree_int ( cmd , allocation_vdo_ack_threads_CFG , profile ) ;
vtp - > bio_threads =
find_config_tree_int ( cmd , allocation_vdo_bio_threads_CFG , profile ) ;
vtp - > bio_rotation =
find_config_tree_int ( cmd , allocation_vdo_bio_rotation_CFG , profile ) ;
vtp - > cpu_threads =
find_config_tree_int ( cmd , allocation_vdo_cpu_threads_CFG , profile ) ;
vtp - > hash_zone_threads =
find_config_tree_int ( cmd , allocation_vdo_hash_zone_threads_CFG , profile ) ;
vtp - > logical_threads =
find_config_tree_int ( cmd , allocation_vdo_logical_threads_CFG , profile ) ;
vtp - > physical_threads =
find_config_tree_int ( cmd , allocation_vdo_physical_threads_CFG , profile ) ;
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vtp - > max_discard =
find_config_tree_int ( cmd , allocation_vdo_max_discard_CFG , profile ) ;
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policy = find_config_tree_str ( cmd , allocation_vdo_write_policy_CFG , profile ) ;
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if ( ! set_vdo_write_policy ( & vtp - > write_policy , policy ) )
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return_0 ;
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* vdo_pool_header_size = 2 * find_config_tree_int64 ( cmd , allocation_vdo_pool_header_size_CFG , profile ) ;
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return 1 ;
}
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static int _get_sysinfo_memory ( uint64_t * total_mb , uint64_t * available_mb )
{
struct sysinfo si = { 0 } ;
* total_mb = * available_mb = UINT64_MAX ;
if ( sysinfo ( & si ) ! = 0 )
return 0 ;
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log_debug ( " Sysinfo free:%llu bufferram:%llu sharedram:%llu freehigh:%llu unit:%u. " ,
( unsigned long long ) si . freeram > > 20 , ( unsigned long long ) si . bufferram > > 20 , ( unsigned long long ) si . sharedram > > 20 ,
( unsigned long long ) si . freehigh > > 20 , si . mem_unit ) ;
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* available_mb = ( ( uint64_t ) ( si . freeram + si . bufferram ) * si . mem_unit ) > > 30 ;
* total_mb = si . totalram > > 30 ;
return 1 ;
}
typedef struct mem_table_s {
const char * name ;
uint64_t * value ;
} mem_table_t ;
static int _compare_mem_table_s ( const void * a , const void * b ) {
return strcmp ( ( ( const mem_table_t * ) a ) - > name , ( ( const mem_table_t * ) b ) - > name ) ;
}
static int _get_memory_info ( uint64_t * total_mb , uint64_t * available_mb )
{
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uint64_t anon_pages = 0 , mem_available = 0 , mem_free = 0 , mem_total = 0 , shmem = 0 , swap_free = 0 ;
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uint64_t can_swap ;
mem_table_t mt [ ] = {
{ " AnonPages " , & anon_pages } ,
{ " MemAvailable " , & mem_available } ,
{ " MemFree " , & mem_free } ,
{ " MemTotal " , & mem_total } ,
{ " Shmem " , & shmem } ,
{ " SwapFree " , & swap_free } ,
} ;
char line [ 128 ] , namebuf [ 32 ] , * e , * tail ;
FILE * fp ;
mem_table_t findme = { namebuf , NULL } ;
mem_table_t * found ;
if ( ! ( fp = fopen ( " /proc/meminfo " , " r " ) ) )
return _get_sysinfo_memory ( total_mb , available_mb ) ;
while ( fgets ( line , sizeof ( line ) , fp ) ) {
if ( ! ( e = strchr ( line , ' : ' ) ) )
break ;
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if ( ( unsigned ) ( + + e - line ) > sizeof ( namebuf ) )
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continue ; // something too long
( void ) dm_strncpy ( ( char * ) findme . name , line , e - line ) ;
found = bsearch ( & findme , mt , DM_ARRAY_SIZE ( mt ) , sizeof ( mem_table_t ) ,
_compare_mem_table_s ) ;
if ( ! found )
continue ; // not interesting
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errno = 0 ;
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* ( found - > value ) = ( uint64_t ) strtoull ( e , & tail , 10 ) ;
if ( ( e = = tail ) | | errno )
log_debug ( " Failing to parse value from %s. " , line ) ;
else
log_debug ( " Parsed %s = " FMTu64 " KiB. " , found - > name , * ( found - > value ) ) ;
}
( void ) fclose ( fp ) ;
// use at most 2/3 of swap space to keep machine usable
can_swap = ( anon_pages + shmem ) * 2 / 3 ;
swap_free = swap_free * 2 / 3 ;
if ( can_swap > swap_free )
can_swap = swap_free ;
// TODO: add more constrains, i.e. 3/4 of physical RAM...
* total_mb = mem_total > > 10 ;
* available_mb = ( mem_available + can_swap ) > > 10 ;
return 1 ;
}
static uint64_t _round_1024 ( uint64_t s )
{
return ( s + ( ( 1 < < 10 ) - 1 ) ) > > 10 ;
}
static uint64_t _round_sectors_to_tib ( uint64_t s )
{
return ( s + ( ( UINT64_C ( 1 ) < < ( 40 - SECTOR_SHIFT ) ) - 1 ) ) > > ( 40 - SECTOR_SHIFT ) ;
}
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__attribute__ ( ( format ( printf , 3 , 4 ) ) )
static int _vdo_snprintf ( char * * buf , size_t * bufsize , const char * format , . . . )
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{
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int n ;
va_list ap ;
va_start ( ap , format ) ;
n = vsnprintf ( * buf , * bufsize , format , ap ) ;
va_end ( ap ) ;
if ( n < 0 | | ( ( unsigned ) n > = * bufsize ) )
return - 1 ;
* buf + = n ;
* bufsize - = n ;
return n ;
}
int check_vdo_constrains ( struct cmd_context * cmd , const struct vdo_pool_size_config * cfg )
{
static const char * _split [ ] = { " " , " and " , " , " , " , " } ;
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uint64_t req_mb , total_mb , available_mb ;
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uint64_t phy_mb = _round_sectors_to_tib ( UINT64_C ( 268 ) * cfg - > physical_size ) ; // 268 MiB per 1 TiB of physical size
uint64_t virt_mb = _round_1024 ( UINT64_C ( 1638 ) * _round_sectors_to_tib ( cfg - > virtual_size ) ) ; // 1.6 MiB per 1 TiB
uint64_t cache_mb = _round_1024 ( UINT64_C ( 1177 ) * cfg - > block_map_cache_size_mb ) ; // 1.15 MiB per 1 MiB cache size
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char msg [ 512 ] ;
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size_t mlen = sizeof ( msg ) ;
char * pmsg = msg ;
int cnt , has_cnt ;
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if ( cfg - > block_map_cache_size_mb & & ( cache_mb < 150 ) )
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cache_mb = 150 ; // always at least 150 MiB for block map
// total required memory for VDO target
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req_mb = 38 + cfg - > index_memory_size_mb + virt_mb + phy_mb + cache_mb ;
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_get_memory_info ( & total_mb , & available_mb ) ;
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has_cnt = cnt = ( phy_mb ? 1 : 0 ) +
( virt_mb ? 1 : 0 ) +
( cfg - > block_map_cache_size_mb ? 1 : 0 ) +
( cfg - > index_memory_size_mb ? 1 : 0 ) ;
if ( phy_mb )
( void ) _vdo_snprintf ( & pmsg , & mlen , " %s RAM for physical volume size %s%s " ,
display_size ( cmd , phy_mb < < ( 20 - SECTOR_SHIFT ) ) ,
display_size ( cmd , cfg - > physical_size ) , _split [ - - cnt ] ) ;
if ( virt_mb )
( void ) _vdo_snprintf ( & pmsg , & mlen , " %s RAM for virtual volume size %s%s " ,
display_size ( cmd , virt_mb < < ( 20 - SECTOR_SHIFT ) ) ,
display_size ( cmd , cfg - > virtual_size ) , _split [ - - cnt ] ) ;
if ( cfg - > block_map_cache_size_mb )
( void ) _vdo_snprintf ( & pmsg , & mlen , " %s RAM for block map cache size %s%s " ,
display_size ( cmd , cache_mb < < ( 20 - SECTOR_SHIFT ) ) ,
display_size ( cmd , ( ( uint64_t ) cfg - > block_map_cache_size_mb ) < < ( 20 - SECTOR_SHIFT ) ) ,
_split [ - - cnt ] ) ;
if ( cfg - > index_memory_size_mb )
( void ) _vdo_snprintf ( & pmsg , & mlen , " %s RAM for index memory " ,
display_size ( cmd , ( ( uint64_t ) cfg - > index_memory_size_mb ) < < ( 20 - SECTOR_SHIFT ) ) ) ;
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if ( req_mb > available_mb ) {
log_error ( " Not enough free memory for VDO target. %s RAM is required, but only %s RAM is available. " ,
display_size ( cmd , req_mb < < ( 20 - SECTOR_SHIFT ) ) ,
display_size ( cmd , available_mb < < ( 20 - SECTOR_SHIFT ) ) ) ;
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if ( has_cnt )
log_print_unless_silent ( " VDO configuration needs%s. " , msg ) ;
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return 0 ;
}
log_debug ( " VDO requires %s RAM, currently available %s RAM. " ,
display_size ( cmd , req_mb < < ( 20 - SECTOR_SHIFT ) ) ,
display_size ( cmd , available_mb < < ( 20 - SECTOR_SHIFT ) ) ) ;
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if ( has_cnt )
log_verbose ( " VDO configuration needs%s. " , msg ) ;
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return 1 ;
}