.TH "LVMCACHE" "7" "LVM TOOLS 2.03.01(2) (2018-10-31)" "Red Hat, Inc" "\"" .SH NAME lvmcache \(em LVM caching .SH DESCRIPTION An \fBlvm\fP(8) \fBcache\fP Logical Volume (LV) uses a small and fast LV to improve the performance of a large and slow LV. It does this by storing the frequently used blocks on the faster LV. LVM refers to the small fast LV as a \fBcache pool LV\fP. The large slow LV is called the \fBorigin LV\fP. Due to requirements from dm-cache (the kernel driver), LVM further splits the cache pool LV into two devices \- the \fBcache data LV\fP and \fBcache metadata LV\fP. The cache data LV is where copies of data blocks are kept from the origin LV to increase speed. The cache metadata LV holds the accounting information that specifies where data blocks are stored (e.g. on the origin LV or on the cache data LV). Users should be familiar with these LVs if they wish to create the best and most robust cached LVs. All of these associated LVs must be in the same Volume Group (VG). .SH Cache Terms .nf origin LV OriginLV large slow LV cache data LV CacheDataLV small fast LV for cache pool data cache metadata LV CacheMetaLV small fast LV for cache pool metadata cache pool LV CachePoolLV CacheDataLV + CacheMetaLV cache LV CacheLV OriginLV + CachePoolLV .fi .SH Cache Usage The primary method for using a cache type LV: .SS 0. create OriginLV Create an LV or identify an existing LV to be the origin LV. .B lvcreate \-n OriginLV \-L LargeSize VG SlowPVs .I Example .br # lvcreate \-n lvol0 \-L 100G vg /dev/slow .SS 1. create CacheDataLV Create the cache data LV. This LV will hold data blocks from the OriginLV. The size of this LV is the size of the cache and will be reported as the size of the cache pool LV. .B lvcreate \-n CacheDataLV \-L CacheSize VG FastPVs .I Example .br # lvcreate \-n cache0 \-L 10G vg /dev/fast .SS 2. create CacheMetaLV Create the cache metadata LV. This LV will hold cache pool metadata. The size of this LV should be 1000 times smaller than the cache data LV, with a minimum size of 8MiB. .B lvcreate \-n CacheMetaLV \-L MetaSize VG FastPVs .I Example .br # lvcreate \-n cache0meta \-L 12M vg /dev/fast .nf # lvs \-a vg LV VG Attr LSize Pool Origin cache0 vg \-wi\-a\-\-\-\-\- 10.00g cache0meta vg \-wi\-a\-\-\-\-\- 12.00m lvol0 vg \-wi\-a\-\-\-\-\- 100.00g .fi .SS 3. create CachePoolLV Combine the data and metadata LVs into a cache pool LV. The behavior of the cache pool LV can be set in this step. .br CachePoolLV takes the name of CacheDataLV. .br CacheDataLV is renamed CachePoolLV_cdata and becomes hidden. .br CacheMetaLV is renamed CachePoolLV_cmeta and becomes hidden. .B lvconvert \-\-type cache\-pool \-\-poolmetadata VG/CacheMetaLV .RS .B VG/CacheDataLV .RE .I Example .br # lvconvert \-\-type cache\-pool \-\-poolmetadata vg/cache0meta vg/cache0 .nf # lvs \-a vg LV VG Attr LSize Pool Origin cache0 vg Cwi\-\-\-C\-\-\- 10.00g [cache0_cdata] vg Cwi\-\-\-\-\-\-\- 10.00g [cache0_cmeta] vg ewi\-\-\-\-\-\-\- 12.00m lvol0 vg \-wi\-a\-\-\-\-\- 100.00g .fi .SS 4. create CacheLV Create a cache LV by linking the cache pool LV to the origin LV. The user accessible cache LV takes the name of the origin LV, while the origin LV becomes a hidden LV with the name OriginLV_corig. This can be done while the origin LV is in use. .br CacheLV takes the name of OriginLV. .br OriginLV is renamed OriginLV_corig and becomes hidden. .B lvconvert \-\-type cache \-\-cachepool VG/CachePoolLV VG/OriginLV .I Example .br # lvconvert \-\-type cache \-\-cachepool vg/cache0 vg/lvol0 .nf # lvs \-a vg LV VG Attr LSize Pool Origin cache0 vg Cwi\-\-\-C\-\-\- 10.00g [cache0_cdata] vg Cwi-ao\-\-\-\- 10.00g [cache0_cmeta] vg ewi-ao\-\-\-\- 12.00m lvol0 vg Cwi\-a-C\-\-\- 100.00g cache0 [lvol0_corig] [lvol0_corig] vg \-wi-ao\-\-\-\- 100.00g .fi .SH Cache Removal .SS Split a cache pool LV off of a cache LV \& A cache pool LV can be disconnected from a cache LV, leaving an unused cache pool LV, and an uncached origin LV. This command writes back data from the cache pool to the origin LV when necessary. .B lvconvert \-\-splitcache VG/CacheLV .SS Removing a cache pool LV without removing its linked origin LV \& This writes back data from the cache pool to the origin LV when necessary, then removes the cache pool LV, leaving the uncached origin LV. .B lvremove VG/CachePoolLV An alternative command that also disconnects the cache pool from the cache LV, and deletes the cache pool: .B lvconvert \-\-uncache VG/CacheLV .I Example .nf # lvs vg LV VG Attr LSize Pool Origin cache0 vg Cwi\-\-\-C\-\-\- 10.00g lvol0 vg Cwi\-a-C\-\-\- 100.00g cache0 [lvol0_corig] # lvremove vg/cache0 # lvs vg LV VG Attr LSize Pool Origin lvol0 vg \-wi\-a\-\-\-\-\- 100.00g .fi .SS Removing a cache LV: both origin LV and the cache pool LV \& Removing a cache LV removes both the origin LV and the linked cache pool LV. .B lvremove VG/CacheLV .SH Cache Topics .SS Tolerate device failures in a cache pool LV \& Users who are concerned about the possibility of failures in their fast devices that could lead to data loss might consider making their cache pool sub-LVs redundant. .I Example .nf 0. Create an origin LV we wish to cache # lvcreate \-L 10G \-n lv1 vg /dev/slow 1. Create a 2\-way RAID1 cache data LV # lvcreate \-\-type raid1 \-m 1 \-L 1G \-n cache1 vg \\ /dev/fast1 /dev/fast2 2. Create a 2\-way RAID1 cache metadata LV # lvcreate \-\-type raid1 \-m 1 \-L 8M \-n cache1meta vg \\ /dev/fast1 /dev/fast2 3. Create a cache pool LV combining cache data LV and cache metadata LV # lvconvert \-\-type cache\-pool \-\-poolmetadata vg/cache1meta vg/cache1 4. Create a cached LV by combining the cache pool LV and origin LV # lvconvert \-\-type cache \-\-cachepool vg/cache1 vg/lv1 .fi .SS Cache mode \& The default cache mode is "writethrough". Writethrough ensures that any data written will be stored both in the cache pool LV and on the origin LV. The loss of a device associated with the cache pool LV in this case would not mean the loss of any data. A second cache mode is "writeback". Writeback delays writing data blocks from the cache pool back to the origin LV. This mode will increase performance, but the loss of a device associated with the cache pool LV can result in lost data. With the \-\-cachemode option, the cache mode can be set when creating a cache LV, or changed on an existing cache LV. The current cache mode of a cache LV can be displayed with the cache_mode reporting option: .B lvs \-o+cache_mode VG/CacheLV .BR lvm.conf (5) .B allocation/cache_mode .br defines the default cache mode. .I Example .nf 0. Create an origin LV we wish to cache (yours may already exist) # lvcreate \-L 10G \-n lv1 vg /dev/slow 1. Create a cache data LV # lvcreate \-L 1G \-n cache1 vg /dev/fast 2. Create a cache metadata LV # lvcreate \-L 8M \-n cache1meta vg /dev/fast 3. Create a cache pool LV # lvconvert \-\-type cache\-pool \-\-poolmetadata vg/cache1meta vg/cache1 4. Create a cache LV by combining the cache pool LV and origin LV, and use the writethrough cache mode. # lvconvert \-\-type cache \-\-cachepool vg/cache1 \\ -\-cachemode writethrough vg/lv1 .fi .SS Cache policy \& The cache subsystem has additional per-LV parameters: the cache policy to use, and possibly tunable parameters for the cache policy. Three policies are currently available: "smq" is the default policy, "mq" is an older implementation, and "cleaner" is used to force the cache to write back (flush) all cached writes to the origin LV. The "mq" policy has a number of tunable parameters. The defaults are chosen to be suitable for the majority of systems, but in special circumstances, changing the settings can improve performance. With the \-\-cachepolicy and \-\-cachesettings options, the cache policy and settings can be set when creating a cache LV, or changed on an existing cache LV (both options can be used together). The current cache policy and settings of a cache LV can be displayed with the cache_policy and cache_settings reporting options: .B lvs \-o+cache_policy,cache_settings VG/CacheLV .I Example .nf Change the cache policy and settings of an existing cache LV. # lvchange \-\-cachepolicy mq \-\-cachesettings \\ \(aqmigration_threshold=2048 random_threshold=4\(aq vg/lv1 .fi .BR lvm.conf (5) .B allocation/cache_policy .br defines the default cache policy. .BR lvm.conf (5) .B allocation/cache_settings .br defines the default cache settings. .SS Chunk size \& The size of data blocks managed by a cache pool can be specified with the -\-chunksize option when the cache LV is created. The default unit is KiB. The value must be a multiple of 32KiB between 32KiB and 1GiB. Using a chunk size that is too large can result in wasteful use of the cache, where small reads and writes can cause large sections of an LV to be mapped into the cache. However, choosing a chunk size that is too small can result in more overhead trying to manage the numerous chunks that become mapped into the cache. Overhead can include both excessive CPU time searching for chunks, and excessive memory tracking chunks. Command to display the cache pool LV chunk size: .br .B lvs \-o+chunksize VG/CacheLV .BR lvm.conf (5) .B cache_pool_chunk_size .br controls the default chunk size used when creating a cache LV. The default value is shown by: .br .B lvmconfig \-\-type default allocation/cache_pool_chunk_size .SS Spare metadata LV \& See .BR lvmthin (7) for a description of the "pool metadata spare" LV. The same concept is used for cache pools. .SS Automatic pool metadata LV \& A cache data LV can be converted to cache pool LV without specifying a cache pool metadata LV. LVM will automatically create a metadata LV from the same VG. .B lvcreate \-n CacheDataLV \-L CacheSize VG .br .B lvconvert \-\-type cache\-pool VG/CacheDataLV .SS Create a new cache LV without an existing origin LV \& A cache LV can be created using an existing cache pool without an existing origin LV. A new origin LV is created and linked to the cache pool in a single step. .B lvcreate \-\-type cache \-L LargeSize \-n CacheLV .RS .B \-\-cachepool VG/CachePoolLV VG SlowPVs .RE .SS Single step cache pool LV creation \& A cache pool LV can be created with a single lvcreate command, rather than using lvconvert on existing LVs. This one command creates a cache data LV, a cache metadata LV, and combines the two into a cache pool LV. .B lvcreate \-\-type cache\-pool \-L CacheSize \-n CachePoolLV VG FastPVs .SS Convert existing LVs to cache types \& When an existing origin LV is converted to a cache LV, the specified cache pool may be a normal LV, rather than a cache pool LV. In this case, lvm will first convert the normal LV to a cache pool LV. A pool metadata LV may optionally be specified. .B lvcreate \-n OriginLV \-L LargeSize VG .br .B lvcreate \-n CacheDataLV \-L CacheSize VG .br .B lvconvert \-\-type cache \-\-cachepool VG/CataDataLV VG/OriginLV This is equivalent to: .B lvcreate \-n OriginLV \-L LargeSize VG .br .B lvcreate \-n CacheDataLV \-L CacheSize VG .br .B lvconvert \-\-type cache\-pool VG/CacheDataLV .br .B lvconvert \-\-type cache \-\-cachepool VG/CachePoolLV VG/OriginLV .SS Cache metadata formats \& There are two disk formats for cache metadata. The metadata format can be specified when a cache pool is created, and cannot be changed. Format \fB2\fP has better performance; it is more compact, and stores dirty bits in a separate btree, which improves the speed of shutting down the cache. With \fBauto\fP, lvm selects the best option provided by the current dm-cache kernel target. .B lvconvert \-\-type cache\-pool \-\-cachemetadataformat auto|1|2 .RS .B VG/CacheDataLV .RE .SH SEE ALSO .BR lvm.conf (5), .BR lvchange (8), .BR lvcreate (8), .BR lvdisplay (8), .BR lvextend (8), .BR lvremove (8), .BR lvrename (8), .BR lvresize (8), .BR lvs (8), .BR vgchange (8), .BR vgmerge (8), .BR vgreduce (8), .BR vgsplit (8)