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/*
* Copyright ( C ) 2013 - 2016 Red Hat , Inc . All rights reserved .
*
* 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 "base/memory/zalloc.h"
# include "lib/misc/lib.h"
# include "lib/commands/toolcontext.h"
# include "lib/metadata/segtype.h"
# include "lib/display/display.h"
# include "lib/format_text/text_export.h"
# include "lib/config/config.h"
# include "lib/datastruct/str_list.h"
# include "lib/misc/lvm-string.h"
# include "lib/activate/activate.h"
# include "lib/metadata/metadata.h"
# include "lib/metadata/lv_alloc.h"
# include "lib/config/defaults.h"
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static int _writecache_cleaner_supported ;
static int _writecache_max_age_supported ;
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# define SEG_LOG_ERROR(t, p...) \
log_error ( t " segment %s of logical volume %s. " , # # p , \
dm_config_parent_name ( sn ) , seg - > lv - > name ) , 0 ;
static void _writecache_display ( const struct lv_segment * seg )
{
/* TODO: lvdisplay segments */
}
static int _writecache_text_import ( struct lv_segment * seg ,
const struct dm_config_node * sn ,
struct dm_hash_table * pv_hash __attribute__ ( ( unused ) ) )
{
struct logical_volume * origin_lv = NULL ;
struct logical_volume * fast_lv ;
const char * origin_name = NULL ;
const char * fast_name = NULL ;
if ( ! dm_config_has_node ( sn , " origin " ) )
return SEG_LOG_ERROR ( " origin not specified in " ) ;
if ( ! dm_config_get_str ( sn , " origin " , & origin_name ) )
return SEG_LOG_ERROR ( " origin must be a string in " ) ;
if ( ! ( origin_lv = find_lv ( seg - > lv - > vg , origin_name ) ) )
return SEG_LOG_ERROR ( " Unknown LV specified for writecache origin %s in " , origin_name ) ;
if ( ! set_lv_segment_area_lv ( seg , 0 , origin_lv , 0 , 0 ) )
return_0 ;
if ( ! dm_config_has_node ( sn , " writecache " ) )
return SEG_LOG_ERROR ( " writecache not specified in " ) ;
if ( ! dm_config_get_str ( sn , " writecache " , & fast_name ) )
return SEG_LOG_ERROR ( " writecache must be a string in " ) ;
if ( ! ( fast_lv = find_lv ( seg - > lv - > vg , fast_name ) ) )
return SEG_LOG_ERROR ( " Unknown logical volume %s specified for writecache in " ,
fast_name ) ;
if ( ! dm_config_get_uint32 ( sn , " writecache_block_size " , & seg - > writecache_block_size ) )
return SEG_LOG_ERROR ( " writecache block_size must be set in " ) ;
seg - > origin = origin_lv ;
seg - > writecache = fast_lv ;
seg - > lv - > status | = WRITECACHE ;
if ( ! add_seg_to_segs_using_this_lv ( fast_lv , seg ) )
return_0 ;
memset ( & seg - > writecache_settings , 0 , sizeof ( struct writecache_settings ) ) ;
if ( dm_config_has_node ( sn , " high_watermark " ) ) {
if ( ! dm_config_get_uint64 ( sn , " high_watermark " , & seg - > writecache_settings . high_watermark ) )
return SEG_LOG_ERROR ( " Unknown writecache_setting in " ) ;
seg - > writecache_settings . high_watermark_set = 1 ;
}
if ( dm_config_has_node ( sn , " low_watermark " ) ) {
if ( ! dm_config_get_uint64 ( sn , " low_watermark " , & seg - > writecache_settings . low_watermark ) )
return SEG_LOG_ERROR ( " Unknown writecache_setting in " ) ;
seg - > writecache_settings . low_watermark_set = 1 ;
}
if ( dm_config_has_node ( sn , " writeback_jobs " ) ) {
if ( ! dm_config_get_uint64 ( sn , " writeback_jobs " , & seg - > writecache_settings . writeback_jobs ) )
return SEG_LOG_ERROR ( " Unknown writecache_setting in " ) ;
seg - > writecache_settings . writeback_jobs_set = 1 ;
}
if ( dm_config_has_node ( sn , " autocommit_blocks " ) ) {
if ( ! dm_config_get_uint64 ( sn , " autocommit_blocks " , & seg - > writecache_settings . autocommit_blocks ) )
return SEG_LOG_ERROR ( " Unknown writecache_setting in " ) ;
seg - > writecache_settings . autocommit_blocks_set = 1 ;
}
if ( dm_config_has_node ( sn , " autocommit_time " ) ) {
if ( ! dm_config_get_uint64 ( sn , " autocommit_time " , & seg - > writecache_settings . autocommit_time ) )
return SEG_LOG_ERROR ( " Unknown writecache_setting in " ) ;
seg - > writecache_settings . autocommit_time_set = 1 ;
}
if ( dm_config_has_node ( sn , " fua " ) ) {
if ( ! dm_config_get_uint32 ( sn , " fua " , & seg - > writecache_settings . fua ) )
return SEG_LOG_ERROR ( " Unknown writecache_setting in " ) ;
seg - > writecache_settings . fua_set = 1 ;
}
if ( dm_config_has_node ( sn , " nofua " ) ) {
if ( ! dm_config_get_uint32 ( sn , " nofua " , & seg - > writecache_settings . nofua ) )
return SEG_LOG_ERROR ( " Unknown writecache_setting in " ) ;
seg - > writecache_settings . nofua_set = 1 ;
}
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if ( dm_config_has_node ( sn , " cleaner " ) ) {
if ( ! dm_config_get_uint32 ( sn , " cleaner " , & seg - > writecache_settings . cleaner ) )
return SEG_LOG_ERROR ( " Unknown writecache_setting in " ) ;
seg - > writecache_settings . cleaner_set = 1 ;
}
if ( dm_config_has_node ( sn , " max_age " ) ) {
if ( ! dm_config_get_uint32 ( sn , " max_age " , & seg - > writecache_settings . max_age ) )
return SEG_LOG_ERROR ( " Unknown writecache_setting in " ) ;
seg - > writecache_settings . max_age_set = 1 ;
}
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if ( dm_config_has_node ( sn , " writecache_setting_key " ) ) {
const char * key ;
const char * val ;
if ( ! dm_config_get_str ( sn , " writecache_setting_key " , & key ) )
return SEG_LOG_ERROR ( " Unknown writecache_setting in " ) ;
if ( ! dm_config_get_str ( sn , " writecache_setting_val " , & val ) )
return SEG_LOG_ERROR ( " Unknown writecache_setting in " ) ;
seg - > writecache_settings . new_key = dm_pool_strdup ( seg - > lv - > vg - > vgmem , key ) ;
seg - > writecache_settings . new_val = dm_pool_strdup ( seg - > lv - > vg - > vgmem , val ) ;
}
return 1 ;
}
static int _writecache_text_import_area_count ( const struct dm_config_node * sn ,
uint32_t * area_count )
{
* area_count = 1 ;
return 1 ;
}
static int _writecache_text_export ( const struct lv_segment * seg ,
struct formatter * f )
{
outf ( f , " writecache = \" %s \" " , seg - > writecache - > name ) ;
outf ( f , " origin = \" %s \" " , seg_lv ( seg , 0 ) - > name ) ;
outf ( f , " writecache_block_size = %u " , seg - > writecache_block_size ) ;
if ( seg - > writecache_settings . high_watermark_set ) {
outf ( f , " high_watermark = %llu " ,
( unsigned long long ) seg - > writecache_settings . high_watermark ) ;
}
if ( seg - > writecache_settings . low_watermark_set ) {
outf ( f , " low_watermark = %llu " ,
( unsigned long long ) seg - > writecache_settings . low_watermark ) ;
}
if ( seg - > writecache_settings . writeback_jobs_set ) {
outf ( f , " writeback_jobs = %llu " ,
( unsigned long long ) seg - > writecache_settings . writeback_jobs ) ;
}
if ( seg - > writecache_settings . autocommit_blocks_set ) {
outf ( f , " autocommit_blocks = %llu " ,
( unsigned long long ) seg - > writecache_settings . autocommit_blocks ) ;
}
if ( seg - > writecache_settings . autocommit_time_set ) {
outf ( f , " autocommit_time = %llu " ,
( unsigned long long ) seg - > writecache_settings . autocommit_time ) ;
}
if ( seg - > writecache_settings . fua_set ) {
outf ( f , " fua = %u " , seg - > writecache_settings . fua ) ;
}
if ( seg - > writecache_settings . nofua_set ) {
outf ( f , " nofua = %u " , seg - > writecache_settings . nofua ) ;
}
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if ( seg - > writecache_settings . cleaner_set & & seg - > writecache_settings . cleaner ) {
outf ( f , " cleaner = %u " , seg - > writecache_settings . cleaner ) ;
}
if ( seg - > writecache_settings . max_age_set ) {
outf ( f , " max_age = %u " , seg - > writecache_settings . max_age ) ;
}
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if ( seg - > writecache_settings . new_key & & seg - > writecache_settings . new_val ) {
outf ( f , " writecache_setting_key = \" %s \" " ,
seg - > writecache_settings . new_key ) ;
outf ( f , " writecache_setting_val = \" %s \" " ,
seg - > writecache_settings . new_val ) ;
}
return 1 ;
}
static void _destroy ( struct segment_type * segtype )
{
free ( ( void * ) segtype ) ;
}
# ifdef DEVMAPPER_SUPPORT
static int _target_present ( struct cmd_context * cmd ,
const struct lv_segment * seg __attribute__ ( ( unused ) ) ,
unsigned * attributes __attribute__ ( ( unused ) ) )
{
static int _writecache_checked = 0 ;
static int _writecache_present = 0 ;
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uint32_t maj , min , patchlevel ;
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if ( ! activation ( ) )
return 0 ;
if ( ! _writecache_checked ) {
_writecache_checked = 1 ;
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if ( ! ( _writecache_present = target_present_version ( cmd , TARGET_NAME_WRITECACHE , 1 ,
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& maj , & min , & patchlevel ) ) )
writecache: use two step detach
When detaching a writecache, use the cleaner setting
by default to writeback data prior to suspending the
lv to detach the writecache. This avoids potentially
blocking for a long period with the device suspended.
Detaching a writecache first sets the cleaner option, waits
for a short period of time (less than a second), and checks
if the writecache has quickly become clean. If so, the
writecache is detached immediately. This optimizes the case
where little writeback is needed.
If the writecache does not quickly become clean, then the
detach command leaves the writecache attached with the
cleaner option set. This leaves the LV in the same state
as if the user had set the cleaner option directly with
lvchange --cachesettings cleaner=1 LV.
After leaving the LV with the cleaner option set, the
detach command will wait and watch the writeback progress,
and will finally detach the writecache when the writeback
is finished. The detach command does not need to wait
during the writeback phase, and can be canceled, in which
case the LV will remain with the writecache attached and
the cleaner option set. When the user runs the detach
command again it will complete the detach.
To detach a writecache directly, without using the cleaner
step (which has been the approach previously), add the
option --cachesettings cleaner=0 to the detach command.
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return 0 ;
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if ( maj < 1 ) {
writecache: use two step detach
When detaching a writecache, use the cleaner setting
by default to writeback data prior to suspending the
lv to detach the writecache. This avoids potentially
blocking for a long period with the device suspended.
Detaching a writecache first sets the cleaner option, waits
for a short period of time (less than a second), and checks
if the writecache has quickly become clean. If so, the
writecache is detached immediately. This optimizes the case
where little writeback is needed.
If the writecache does not quickly become clean, then the
detach command leaves the writecache attached with the
cleaner option set. This leaves the LV in the same state
as if the user had set the cleaner option directly with
lvchange --cachesettings cleaner=1 LV.
After leaving the LV with the cleaner option set, the
detach command will wait and watch the writeback progress,
and will finally detach the writecache when the writeback
is finished. The detach command does not need to wait
during the writeback phase, and can be canceled, in which
case the LV will remain with the writecache attached and
the cleaner option set. When the user runs the detach
command again it will complete the detach.
To detach a writecache directly, without using the cleaner
step (which has been the approach previously), add the
option --cachesettings cleaner=0 to the detach command.
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log_error ( " dm-writecache module version older than minimum 1.0.0 " ) ;
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return 0 ;
}
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if ( min > = 3 ) {
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_writecache_cleaner_supported = 1 ;
_writecache_max_age_supported = 1 ;
}
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}
return _writecache_present ;
}
writecache: use two step detach
When detaching a writecache, use the cleaner setting
by default to writeback data prior to suspending the
lv to detach the writecache. This avoids potentially
blocking for a long period with the device suspended.
Detaching a writecache first sets the cleaner option, waits
for a short period of time (less than a second), and checks
if the writecache has quickly become clean. If so, the
writecache is detached immediately. This optimizes the case
where little writeback is needed.
If the writecache does not quickly become clean, then the
detach command leaves the writecache attached with the
cleaner option set. This leaves the LV in the same state
as if the user had set the cleaner option directly with
lvchange --cachesettings cleaner=1 LV.
After leaving the LV with the cleaner option set, the
detach command will wait and watch the writeback progress,
and will finally detach the writecache when the writeback
is finished. The detach command does not need to wait
during the writeback phase, and can be canceled, in which
case the LV will remain with the writecache attached and
the cleaner option set. When the user runs the detach
command again it will complete the detach.
To detach a writecache directly, without using the cleaner
step (which has been the approach previously), add the
option --cachesettings cleaner=0 to the detach command.
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bool writecache_cleaner_supported ( struct cmd_context * cmd )
{
_target_present ( cmd , NULL , NULL ) ;
return _writecache_cleaner_supported ? true : false ;
}
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static int _modules_needed ( struct dm_pool * mem ,
const struct lv_segment * seg __attribute__ ( ( unused ) ) ,
struct dm_list * modules )
{
if ( ! str_list_add ( mem , modules , MODULE_NAME_WRITECACHE ) ) {
log_error ( " String list allocation failed for writecache module. " ) ;
return 0 ;
}
return 1 ;
}
writecache: use two step detach
When detaching a writecache, use the cleaner setting
by default to writeback data prior to suspending the
lv to detach the writecache. This avoids potentially
blocking for a long period with the device suspended.
Detaching a writecache first sets the cleaner option, waits
for a short period of time (less than a second), and checks
if the writecache has quickly become clean. If so, the
writecache is detached immediately. This optimizes the case
where little writeback is needed.
If the writecache does not quickly become clean, then the
detach command leaves the writecache attached with the
cleaner option set. This leaves the LV in the same state
as if the user had set the cleaner option directly with
lvchange --cachesettings cleaner=1 LV.
After leaving the LV with the cleaner option set, the
detach command will wait and watch the writeback progress,
and will finally detach the writecache when the writeback
is finished. The detach command does not need to wait
during the writeback phase, and can be canceled, in which
case the LV will remain with the writecache attached and
the cleaner option set. When the user runs the detach
command again it will complete the detach.
To detach a writecache directly, without using the cleaner
step (which has been the approach previously), add the
option --cachesettings cleaner=0 to the detach command.
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# else
bool writecache_cleaner_supported ( struct cmd_context * cmd )
{
return 0 ;
}
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# endif /* DEVMAPPER_SUPPORT */
# ifdef DEVMAPPER_SUPPORT
static int _writecache_add_target_line ( struct dev_manager * dm ,
struct dm_pool * mem ,
struct cmd_context * cmd __attribute__ ( ( unused ) ) ,
void * * target_state __attribute__ ( ( unused ) ) ,
struct lv_segment * seg ,
const struct lv_activate_opts * laopts __attribute__ ( ( unused ) ) ,
struct dm_tree_node * node , uint64_t len ,
uint32_t * pvmove_mirror_count __attribute__ ( ( unused ) ) )
{
char * origin_uuid ;
char * fast_uuid ;
int pmem ;
if ( ! seg_is_writecache ( seg ) ) {
log_error ( INTERNAL_ERROR " Passed segment is not writecache. " ) ;
return 0 ;
}
if ( ! seg - > writecache ) {
log_error ( INTERNAL_ERROR " Passed segment has no writecache. " ) ;
return 0 ;
}
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if ( ! _writecache_cleaner_supported & & seg - > writecache_settings . cleaner_set & & seg - > writecache_settings . cleaner ) {
log_warn ( " WARNING: ignoring writecache setting \" cleaner \" which is not supported by kernel for LV %s. " , seg - > lv - > name ) ;
seg - > writecache_settings . cleaner = 0 ;
seg - > writecache_settings . cleaner_set = 0 ;
}
if ( ! _writecache_max_age_supported & & seg - > writecache_settings . max_age_set ) {
log_warn ( " WARNING: ignoring writecache setting \" max_age \" which is not supported by kernel for LV %s. " , seg - > lv - > name ) ;
seg - > writecache_settings . max_age = 0 ;
seg - > writecache_settings . max_age_set = 0 ;
}
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if ( ( pmem = lv_on_pmem ( seg - > writecache ) ) < 0 )
return_0 ;
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if ( ! ( origin_uuid = build_dm_uuid ( mem , seg_lv ( seg , 0 ) , " real " ) ) )
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return_0 ;
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if ( ! ( fast_uuid = build_dm_uuid ( mem , seg - > writecache , " cvol " ) ) )
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return_0 ;
if ( ! dm_tree_node_add_writecache_target ( node , len ,
origin_uuid , fast_uuid ,
pmem ,
seg - > writecache_block_size ,
& seg - > writecache_settings ) )
return_0 ;
return 1 ;
}
# endif /* DEVMAPPER_SUPPORT */
static struct segtype_handler _writecache_ops = {
. display = _writecache_display ,
. text_import = _writecache_text_import ,
. text_import_area_count = _writecache_text_import_area_count ,
. text_export = _writecache_text_export ,
# ifdef DEVMAPPER_SUPPORT
. add_target_line = _writecache_add_target_line ,
. target_present = _target_present ,
. modules_needed = _modules_needed ,
# endif
. destroy = _destroy ,
} ;
int init_writecache_segtypes ( struct cmd_context * cmd ,
struct segtype_library * seglib )
{
struct segment_type * segtype = zalloc ( sizeof ( * segtype ) ) ;
if ( ! segtype ) {
log_error ( " Failed to allocate memory for writecache segtype " ) ;
return 0 ;
}
segtype - > name = SEG_TYPE_NAME_WRITECACHE ;
segtype - > flags = SEG_WRITECACHE ;
segtype - > ops = & _writecache_ops ;
if ( ! lvm_register_segtype ( seglib , segtype ) )
return_0 ;
log_very_verbose ( " Initialised segtype: %s " , segtype - > name ) ;
return 1 ;
}