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NAME | SYNOPSIS | DESCRIPTION | USAGE | OPTIONS | VARIABLES | ENVIRONMENT VARIABLES | ADVANCED USAGE | EXAMPLES | SEE ALSO | COLOPHON |
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LVCREATE(8) System Manager's Manual LVCREATE(8)
lvcreate — Create a logical volume
lvcreate option_args position_args
[ option_args ]
[ position_args ]
-a|--activate y|n|ay
--addtag Tag
--alloc contiguous|cling|cling_by_tags|normal|anywhere|inherit
-A|--autobackup y|n
-H|--cache
--cachedevice PV
--cachemetadataformat auto|1|2
--cachemode writethrough|writeback|passthrough
--cachepolicy String
--cachepool LV
--cachesettings String
--cachesize Size[m|UNIT]
--cachevol LV
-c|--chunksize Size[k|UNIT]
--commandprofile String
--compression y|n
--config String
-C|--contiguous y|n
-d|--debug
--deduplication y|n
--devices PV
--devicesfile String
--discards passdown|nopassdown|ignore
--driverloaded y|n
--errorwhenfull y|n
-l|--extents Number[PERCENT]
-h|--help
-K|--ignoreactivationskip
--ignoremonitoring
--journal String
--lockopt String
--longhelp
-j|--major Number
--[raid]maxrecoveryrate Size[k|UNIT]
--metadataprofile String
--minor Number
--[raid]minrecoveryrate Size[k|UNIT]
--mirrorlog core|disk
-m|--mirrors Number
--monitor y|n
-n|--name String
--nohints
--nolocking
--nosync
--noudevsync
-p|--permission rw|r
-M|--persistent y|n
--poolmetadatasize Size[m|UNIT]
--poolmetadataspare y|n
--profile String
-q|--quiet
--raidintegrity y|n
--raidintegrityblocksize Number
--raidintegritymode String
-r|--readahead auto|none|Number
-R|--regionsize Size[m|UNIT]
--reportformat basic|json
-k|--setactivationskip y|n
--setautoactivation y|n
-L|--size Size[m|UNIT]
-s|--snapshot
-i|--stripes Number
-I|--stripesize Size[k|UNIT]
-t|--test
-T|--thin
--thinpool LV
--type linear|striped|snapshot|raid|mirror|thin|thin-pool|vdo|
vdo-pool|cache|cache-pool|writecache
--vdo
--vdopool LV
-v|--verbose
--version
-V|--virtualsize Size[m|UNIT]
-W|--wipesignatures y|n
-y|--yes
-Z|--zero y|n
lvcreate creates a new LV in a VG. For standard LVs, this requires
allocating logical extents from the VG's free physical extents. If
there is not enough free space, the VG can be extended with other
PVs (vgextend(8)), or existing LVs can be reduced or removed (‐
lvremove(8), lvreduce(8)).
To control which PVs a new LV will use, specify one or more PVs as
position args at the end of the command line. lvcreate will allo‐
cate physical extents only from the specified PVs.
lvcreate can also create snapshots of existing LVs, e.g. for back‐
up purposes. The data in a new snapshot LV represents the content
of the original LV from the time the snapshot was created.
RAID LVs can be created by specifying an LV type when creating the
LV (see lvmraid(7)). Different RAID levels require different num‐
bers of unique PVs be available in the VG for allocation.
Thin pools (for thin provisioning) and cache pools (for caching)
are represented by special LVs with types thin-pool and cache-pool
(see lvmthin(7) and lvmcache(7)). The pool LVs are not usable as
standard block devices, but the LV names act as references to the
pools.
Thin LVs are thinly provisioned from a thin pool, and are created
with a virtual size rather than a physical size. A cache LV is the
combination of a standard LV with a cache pool, used to cache ac‐
tive portions of the LV to improve performance.
VDO LVs are also provisioned volumes from a VDO pool, and are cre‐
ated with a virtual size rather than a physical size (see
lvmvdo(7)).
Usage notes
In the usage section below, --size Size can be replaced with --ex‐
tents Number. See descriptions in the options section.
In the usage section below, --name is omitted from the required
options, even though it is typically used. When the name is not
specified, a new LV name is generated with the "lvol" prefix and a
unique numeric suffix.
In the usage section below, when creating a pool and the name is
omitted the new LV pool name is generated with the "vpool" prefix
for vdo-pools and a unique numeric suffix.
Pool name can be specified together with VG name i.e.: vg00/my‐
thinpool.
Create a linear LV.
lvcreate -L|--size Size[m|UNIT] VG
[ --type linear ] (implied)
[ -l|--extents Number[PERCENT] ]
[ COMMON_OPTIONS ]
[ PV ... ]
—
Create a striped LV.
lvcreate -i|--stripes Number -L|--size Size[m|UNIT] VG
[ --type striped ] (implied)
[ -l|--extents Number[PERCENT] ]
[ -I|--stripesize Size[k|UNIT] ]
[ COMMON_OPTIONS ]
[ PV ... ]
—
Create a raid1 or mirror LV.
lvcreate -m|--mirrors Number -L|--size Size[m|UNIT] VG
[ --type raid1|mirror ] (implied)
[ -l|--extents Number[PERCENT] ]
[ -I|--stripesize Size[k|UNIT] ]
[ -R|--regionsize Size[m|UNIT] ]
[ --mirrorlog core|disk ]
[ --[raid]minrecoveryrate Size[k|UNIT] ]
[ --[raid]maxrecoveryrate Size[k|UNIT] ]
[ COMMON_OPTIONS ]
[ PV ... ]
—
Create a raid LV (a specific raid level must be used, e.g. raid1).
lvcreate --type raid -L|--size Size[m|UNIT] VG
[ -l|--extents Number[PERCENT] ]
[ -i|--stripes Number ]
[ -I|--stripesize Size[k|UNIT] ]
[ -m|--mirrors Number ]
[ -R|--regionsize Size[m|UNIT] ]
[ --[raid]minrecoveryrate Size[k|UNIT] ]
[ --[raid]maxrecoveryrate Size[k|UNIT] ]
[ --raidintegrity y|n ]
[ --raidintegritymode String ]
[ --raidintegrityblocksize Number ]
[ COMMON_OPTIONS ]
[ PV ... ]
—
Create a raid10 LV.
lvcreate -m|--mirrors Number -i|--stripes Number
-L|--size Size[m|UNIT] VG
[ --type raid10 ] (implied)
[ -l|--extents Number[PERCENT] ]
[ -I|--stripesize Size[k|UNIT] ]
[ -R|--regionsize Size[m|UNIT] ]
[ --[raid]minrecoveryrate Size[k|UNIT] ]
[ --[raid]maxrecoveryrate Size[k|UNIT] ]
[ COMMON_OPTIONS ]
[ PV ... ]
—
Create a COW snapshot LV of an origin LV.
lvcreate -s|--snapshot -L|--size Size[m|UNIT] LV
[ --type snapshot ] (implied)
[ -l|--extents Number[PERCENT] ]
[ -i|--stripes Number ]
[ -I|--stripesize Size[k|UNIT] ]
[ -c|--chunksize Size[k|UNIT] ]
[ COMMON_OPTIONS ]
[ PV ... ]
—
Create a thin pool.
lvcreate --type thin-pool -L|--size Size[m|UNIT] VG
[ -l|--extents Number[PERCENT] ]
[ -i|--stripes Number ]
[ -I|--stripesize Size[k|UNIT] ]
[ -T|--thin ]
[ -c|--chunksize Size[k|UNIT] ]
[ --thinpool LV_new ]
[ --discards passdown|nopassdown|ignore ]
[ --errorwhenfull y|n ]
[ --poolmetadatasize Size[m|UNIT] ]
[ --poolmetadataspare y|n ]
[ COMMON_OPTIONS ]
[ PV ... ]
—
Create a cache pool.
lvcreate --type cache-pool -L|--size Size[m|UNIT] VG
[ -l|--extents Number[PERCENT] ]
[ -i|--stripes Number ]
[ -I|--stripesize Size[k|UNIT] ]
[ -H|--cache ]
[ -c|--chunksize Size[k|UNIT] ]
[ --cachemode writethrough|writeback|passthrough ]
[ --cachepolicy String ]
[ --cachesettings String ]
[ --cachemetadataformat auto|1|2 ]
[ --poolmetadatasize Size[m|UNIT] ]
[ --poolmetadataspare y|n ]
[ COMMON_OPTIONS ]
[ PV ... ]
—
Create a thin LV in a thin pool.
lvcreate -V|--virtualsize Size[m|UNIT] --thinpool LV VG
[ --type thin ] (implied)
[ -T|--thin ]
[ COMMON_OPTIONS ]
—
Create a thin LV that is a snapshot of an existing thin LV.
lvcreate -s|--snapshot LV1
[ --type thin ] (implied)
[ COMMON_OPTIONS ]
LV1 types: thin
—
Create a thin LV that is a snapshot of an external origin LV.
lvcreate --type thin --thinpool LV LV
[ -T|--thin ]
[ COMMON_OPTIONS ]
—
Create a LV that returns VDO when used.
lvcreate --type vdo -L|--size Size[m|UNIT] VG
[ -l|--extents Number[PERCENT] ]
[ -i|--stripes Number ]
[ -I|--stripesize Size[k|UNIT] ]
[ -V|--virtualsize Size[m|UNIT] ]
[ --vdo ]
[ --vdopool LV_new ]
[ --compression y|n ]
[ --deduplication y|n ]
[ COMMON_OPTIONS ]
[ PV ... ]
—
Create a new LV, then attach the specified cachepool
which converts the new LV to type cache.
lvcreate --type cache -L|--size Size[m|UNIT]
--cachepool LV VG
[ -l|--extents Number[PERCENT] ]
[ -i|--stripes Number ]
[ -I|--stripesize Size[k|UNIT] ]
[ -H|--cache ]
[ -c|--chunksize Size[k|UNIT] ]
[ --cachemode writethrough|writeback|passthrough ]
[ --cachepolicy String ]
[ --cachesettings String ]
[ --cachemetadataformat auto|1|2 ]
[ --poolmetadatasize Size[m|UNIT] ]
[ --poolmetadataspare y|n ]
[ COMMON_OPTIONS ]
[ PV ... ]
—
Create a new LV, then attach the specified cachevol
which converts the new LV to type cache.
lvcreate --type cache -L|--size Size[m|UNIT]
--cachevol LV VG
[ -l|--extents Number[PERCENT] ]
[ -i|--stripes Number ]
[ -I|--stripesize Size[k|UNIT] ]
[ -c|--chunksize Size[k|UNIT] ]
[ --cachemode writethrough|writeback|passthrough ]
[ --cachepolicy String ]
[ --cachesettings String ]
[ --cachemetadataformat auto|1|2 ]
[ COMMON_OPTIONS ]
[ PV ... ]
—
Create a new LV, then attach a cachevol created from
the specified cache device, which converts the
new LV to type cache.
lvcreate --type cache -L|--size Size[m|UNIT]
--cachedevice PV VG
[ -l|--extents Number[PERCENT] ]
[ -i|--stripes Number ]
[ -I|--stripesize Size[k|UNIT] ]
[ -c|--chunksize Size[k|UNIT] ]
[ --cachesize Size[m|UNIT] ]
[ --cachemode writethrough|writeback|passthrough ]
[ --cachepolicy String ]
[ --cachesettings String ]
[ --cachemetadataformat auto|1|2 ]
[ COMMON_OPTIONS ]
[ PV ... ]
—
Create a new LV, then attach the specified cachevol
which converts the new LV to type writecache.
lvcreate --type writecache -L|--size Size[m|UNIT]
--cachevol LV VG
[ -l|--extents Number[PERCENT] ]
[ -i|--stripes Number ]
[ -I|--stripesize Size[k|UNIT] ]
[ --cachesettings String ]
[ COMMON_OPTIONS ]
[ PV ... ]
—
Create a new LV, then attach a cachevol created from
the specified cache device, which converts the
new LV to type writecache.
lvcreate --type writecache -L|--size Size[m|UNIT]
--cachedevice PV VG
[ -l|--extents Number[PERCENT] ]
[ -i|--stripes Number ]
[ -I|--stripesize Size[k|UNIT] ]
[ --cachesize Size[m|UNIT] ]
[ --cachesettings String ]
[ COMMON_OPTIONS ]
[ PV ... ]
—
Common options for command:
[ -a|--activate y|n|ay ]
[ -A|--autobackup y|n ]
[ -C|--contiguous y|n ]
[ -K|--ignoreactivationskip ]
[ -j|--major Number ]
[ -n|--name String ]
[ -p|--permission rw|r ]
[ -M|--persistent y|n ]
[ -r|--readahead auto|none|Number ]
[ -k|--setactivationskip y|n ]
[ -W|--wipesignatures y|n ]
[ -Z|--zero y|n ]
[ --addtag Tag ]
[ --alloc contiguous|cling|cling_by_tags|normal|anywhere|
inherit ]
[ --ignoremonitoring ]
[ --metadataprofile String ]
[ --minor Number ]
[ --monitor y|n ]
[ --nosync ]
[ --noudevsync ]
[ --reportformat basic|json ]
[ --setautoactivation y|n ]
Common options for lvm:
[ -d|--debug ]
[ -h|--help ]
[ -q|--quiet ]
[ -t|--test ]
[ -v|--verbose ]
[ -y|--yes ]
[ --commandprofile String ]
[ --config String ]
[ --devices PV ]
[ --devicesfile String ]
[ --driverloaded y|n ]
[ --journal String ]
[ --lockopt String ]
[ --longhelp ]
[ --nohints ]
[ --nolocking ]
[ --profile String ]
[ --version ]
-a|--activate y|n|ay
Controls the active state of the new LV. y makes the LV
active, or available. New LVs are made active by default.
n makes the LV inactive, or unavailable, only when possi‐
ble. In some cases, creating an LV requires it to be ac‐
tive. For example, COW snapshots of an active origin LV
can only be created in the active state (this does not ap‐
ply to thin snapshots). The --zero option normally re‐
quires the LV to be active. If autoactivation ay is used,
the LV is only activated if it matches an item in
lvm.conf(5) activation/auto_activation_volume_list. ay im‐
plies --zero n and --wipesignatures n. See lvmlockd(8) for
more information about activation options for shared VGs.
--addtag Tag
Adds a tag to a PV, VG or LV. This option can be repeated
to add multiple tags at once. See lvm(8) for information
about tags.
--alloc contiguous|cling|cling_by_tags|normal|anywhere|inherit
Determines the allocation policy when a command needs to
allocate Physical Extents (PEs) from the VG. Each VG and LV
has an allocation policy which can be changed with
vgchange/lvchange, or overridden on the command line. nor‐
mal applies common sense rules such as not placing parallel
stripes on the same PV. inherit applies the VG policy to
an LV. contiguous requires new PEs be placed adjacent to
existing PEs. cling places new PEs on the same PV as ex‐
isting PEs in the same stripe of the LV. If there are suf‐
ficient PEs for an allocation, but normal does not use
them, anywhere will use them even if it reduces perfor‐
mance, e.g. by placing two stripes on the same PV. Option‐
al positional PV args on the command line can also be used
to limit which PVs the command will use for allocation.
See lvm(8) for more information about allocation.
-A|--autobackup y|n
Specifies if metadata should be backed up automatically af‐
ter a change. Enabling this is strongly advised! See
vgcfgbackup(8) for more information.
-H|--cache
Specifies the command is handling a cache LV or cache pool.
See --type cache and --type cache-pool. See lvmcache(7)
for more information about LVM caching.
--cachedevice PV
The name of a device to use for a cache.
--cachemetadataformat auto|1|2
Specifies the cache metadata format used by cache target.
--cachemode writethrough|writeback|passthrough
Specifies when writes to a cache LV should be considered
complete. writeback considers a write complete as soon as
it is stored in the cache pool. writethough considers a
write complete only when it has been stored in both the
cache pool and on the origin LV. While writethrough may be
slower for writes, it is more resilient if something should
happen to a device associated with the cache pool LV. With
passthrough, all reads are served from the origin LV (all
reads miss the cache) and all writes are forwarded to the
origin LV; additionally, write hits cause cache block in‐
validates. See lvmcache(7) for more information.
--cachepolicy String
Specifies the cache policy for a cache LV. See lvmcache(7)
for more information.
--cachepool LV
The name of a cache pool.
--cachesettings String
Specifies tunable values for a cache LV in "Key = Value"
form. Repeat this option to specify multiple values. (The
default values should usually be adequate.) The special
string value default switches settings back to their de‐
fault kernel values and removes them from the list of set‐
tings stored in LVM metadata. See lvmcache(7) for more in‐
formation.
--cachesize Size[m|UNIT]
The size of cache to use.
--cachevol LV
The name of a cache volume.
-c|--chunksize Size[k|UNIT]
The size of chunks in a snapshot, cache pool or thin pool.
For snapshots, the value must be a power of 2 between 4KiB
and 512KiB and the default value is 4. For a cache pool
the value must be between 32KiB and 1GiB and the default
value is 64. For a thin pool the value must be between
64KiB and 1GiB and the default value starts with 64 and
scales up to fit the pool metadata size within 128MiB, if
the pool metadata size is not specified. The value must be
a multiple of 64KiB. See lvmthin(7) and lvmcache(7) for
more information.
--commandprofile String
The command profile to use for command configuration. See
lvm.conf(5) for more information about profiles.
--compression y|n
Controls whether compression is enabled or disable for VDO
volume. See lvmvdo(7) for more information about VDO us‐
age.
--config String
Config settings for the command. These override lvm.conf(5)
settings. The String arg uses the same format as
lvm.conf(5), or may use section/field syntax. See
lvm.conf(5) for more information about config.
-C|--contiguous y|n
Sets or resets the contiguous allocation policy for LVs.
Default is no contiguous allocation based on a next free
principle. It is only possible to change a non-contiguous
allocation policy to contiguous if all of the allocated
physical extents in the LV are already contiguous.
-d|--debug ...
Set debug level. Repeat from 1 to 6 times to increase the
detail of messages sent to the log file and/or syslog (if
configured).
--deduplication y|n
Controls whether deduplication is enabled or disable for
VDO volume. See lvmvdo(7) for more information about VDO
usage.
--devices PV
Devices that the command can use. This option can be re‐
peated or accepts a comma separated list of devices. This
overrides the devices file.
--devicesfile String
A file listing devices that LVM should use. The file must
exist in /etc/lvm/devices/ and is managed with the
lvmdevices(8) command. This overrides the lvm.conf(5) de‐
vices/devicesfile and devices/use_devicesfile settings.
--discards passdown|nopassdown|ignore
Specifies how the device-mapper thin pool layer in the ker‐
nel should handle discards. ignore causes the thin pool to
ignore discards. nopassdown causes the thin pool to
process discards itself to allow reuse of unneeded extents
in the thin pool. passdown causes the thin pool to process
discards itself (like nopassdown) and pass the discards to
the underlying device. See lvmthin(7) for more informa‐
tion.
--driverloaded y|n
If set to no, the command will not attempt to use device-
mapper. For testing and debugging.
--errorwhenfull y|n
Specifies thin pool behavior when data space is exhausted.
When yes, device-mapper will immediately return an error
when a thin pool is full and an I/O request requires space.
When no, device-mapper will queue these I/O requests for a
period of time to allow the thin pool to be extended. Er‐
rors are returned if no space is available after the time‐
out. (Also see dm-thin-pool kernel module option
no_space_timeout.) See lvmthin(7) for more information.
-l|--extents Number[PERCENT]
Specifies the size of the new LV in logical extents. The
--size and --extents options are alternate methods of spec‐
ifying size. The total number of physical extents used
will be greater when redundant data is needed for RAID lev‐
els. An alternate syntax allows the size to be determined
indirectly as a percentage of the size of a related VG, LV,
or set of PVs. The suffix %VG denotes the total size of the
VG, the suffix %FREE the remaining free space in the VG,
and the suffix %PVS the free space in the specified PVs.
For a snapshot, the size can be expressed as a percentage
of the total size of the origin LV with the suffix %ORIGIN
(100%ORIGIN provides space for the whole origin). When ex‐
pressed as a percentage, the size defines an upper limit
for the number of logical extents in the new LV. The pre‐
cise number of logical extents in the new LV is not deter‐
mined until the command has completed.
-h|--help
Display help text.
-K|--ignoreactivationskip
Ignore the "activation skip" LV flag during activation to
allow LVs with the flag set to be activated.
--ignoremonitoring
Do not interact with dmeventd unless --monitor is speci‐
fied. Do not use this if dmeventd is already monitoring a
device.
--journal String
Record information in the systemd journal. This informa‐
tion is in addition to information enabled by the lvm.conf
log/journal setting. command: record information about the
command. output: record the default command output. de‐
bug: record full command debugging.
--lockopt String
Used to pass options for special cases to lvmlockd. See
lvmlockd(8) for more information.
--longhelp
Display long help text.
-j|--major Number
Sets the major number of an LV block device.
--[raid]maxrecoveryrate Size[k|UNIT]
Sets the maximum recovery rate for a RAID LV. The rate
value is an amount of data per second for each device in
the array. Setting the rate to 0 means it will be unbound‐
ed. See lvmraid(7) for more information.
--metadataprofile String
The metadata profile to use for command configuration. See
lvm.conf(5) for more information about profiles.
--minor Number
Sets the minor number of an LV block device.
--[raid]minrecoveryrate Size[k|UNIT]
Sets the minimum recovery rate for a RAID LV. The rate
value is an amount of data per second for each device in
the array. Setting the rate to 0 means it will be unbound‐
ed. See lvmraid(7) for more information.
--mirrorlog core|disk
Specifies the type of mirror log for LVs with the "mirror"
type (does not apply to the "raid1" type.) disk is a per‐
sistent log and requires a small amount of storage space,
usually on a separate device from the data being mirrored.
core is not persistent; the log is kept only in memory. In
this case, the mirror must be synchronized (by copying LV
data from the first device to others) each time the LV is
activated, e.g. after reboot. mirrored is a persistent log
that is itself mirrored, but should be avoided. Instead,
use the raid1 type for log redundancy.
-m|--mirrors Number
Specifies the number of mirror images in addition to the
original LV image, e.g. --mirrors 1 means there are two im‐
ages of the data, the original and one mirror image. Op‐
tional positional PV args on the command line can specify
the devices the images should be placed on. There are two
mirroring implementations: "raid1" and "mirror". These are
the names of the corresponding LV types, or "segment
types". Use the --type option to specify which to use
(raid1 is default, and mirror is legacy) Use lvm.conf(5)
global/mirror_segtype_default and global/raid10_segtype_de‐
fault to configure the default types. See the --nosync op‐
tion for avoiding initial image synchronization. See
lvmraid(7) for more information.
--monitor y|n
Start (yes) or stop (no) monitoring an LV with dmeventd.
dmeventd monitors kernel events for an LV, and performs au‐
tomated maintenance for the LV in reponse to specific
events. See dmeventd(8) for more information.
-n|--name String
Specifies the name of a new LV. When unspecified, a de‐
fault name of "lvol#" is generated, where # is a number
generated by LVM.
--nohints
Do not use the hints file to locate devices for PVs. A com‐
mand may read more devices to find PVs when hints are not
used. The command will still perform standard hint file in‐
validation where appropriate.
--nolocking
Disable locking.
--nosync
Causes the creation of mirror, raid1, raid4, raid5 and
raid10 to skip the initial synchronization. In case of mir‐
ror, raid1 and raid10, any data written afterwards will be
mirrored, but the original contents will not be copied. In
case of raid4 and raid5, no parity blocks will be written,
though any data written afterwards will cause parity blocks
to be stored. This is useful for skipping a potentially
long and resource intensive initial sync of an empty mir‐
ror/raid1/raid4/raid5 and raid10 LV. This option is not
valid for raid6, because raid6 relies on proper parity (P
and Q Syndromes) being created during initial synchroniza‐
tion in order to reconstruct proper user date in case of
device failures. raid0 and raid0_meta do not provide any
data copies or parity support and thus do not support ini‐
tial synchronization.
--noudevsync
Disables udev synchronisation. The process will not wait
for notification from udev. It will continue irrespective
of any possible udev processing in the background. Only use
this if udev is not running or has rules that ignore the
devices LVM creates.
-p|--permission rw|r
Set access permission to read only r or read and write rw.
-M|--persistent y|n
When yes, makes the specified minor number persistent.
--poolmetadatasize Size[m|UNIT]
Specifies the size of the new pool metadata LV.
--poolmetadataspare y|n
Enable or disable the automatic creation and management of
a spare pool metadata LV in the VG. A spare metadata LV is
reserved space that can be used when repairing a pool.
--profile String
An alias for --commandprofile or --metadataprofile, depend‐
ing on the command.
-q|--quiet ...
Suppress output and log messages. Overrides --debug and
--verbose. Repeat once to also suppress any prompts with
answer 'no'.
--raidintegrity y|n
Enable or disable data integrity checksums for raid images.
--raidintegrityblocksize Number
The block size to use for dm-integrity on raid images. The
integrity block size should usually match the device logi‐
cal block size, or the file system block size. It may be
less than the file system block size, but not less than the
device logical block size. Possible values: 512, 1024,
2048, 4096.
--raidintegritymode String
Use a journal (default) or bitmap for keeping integrity
checksums consistent in case of a crash. The bitmap areas
are recalculated after a crash, so corruption in those ar‐
eas would not be detected. A journal does not have this
problem. The journal mode doubles writes to storage, but
can improve performance for scattered writes packed into a
single journal write. bitmap mode can in theory achieve
full write throughput of the device, but would not benefit
from the potential scattered write optimization.
-r|--readahead auto|none|Number
Sets read ahead sector count of an LV. auto is the default
which allows the kernel to choose a suitable value automat‐
ically. none is equivalent to zero.
-R|--regionsize Size[m|UNIT]
Size of each raid or mirror synchronization region.
lvm.conf(5) activation/raid_region_size can be used to con‐
figure a default.
--reportformat basic|json
Overrides current output format for reports which is de‐
fined globally by the report/output_format setting in
lvm.conf(5). basic is the original format with columns and
rows. If there is more than one report per command, each
report is prefixed with the report name for identification.
json produces report output in JSON format. See
lvmreport(7) for more information.
-k|--setactivationskip y|n
Persistently sets (yes) or clears (no) the "activation
skip" flag on an LV. An LV with this flag set is not acti‐
vated unless the --ignoreactivationskip option is used by
the activation command. This flag is set by default on new
thin snapshot LVs. The flag is not applied to deactiva‐
tion. The current value of the flag is indicated in the
lvs lv_attr bits.
--setautoactivation y|n
Set the autoactivation property on a VG or LV. Display the
property with vgs or lvs "-o autoactivation". When the au‐
toactivation property is disabled, the VG or LV will not be
activated by a command doing autoactivation (vgchange,
lvchange, or pvscan using -aay.) If autoactivation is dis‐
abled on a VG, no LVs will be autoactivated in that VG, and
the LV autoactivation property has no effect. If autoacti‐
vation is enabled on a VG, autoactivation can be disabled
for individual LVs.
-L|--size Size[m|UNIT]
Specifies the size of the new LV. The --size and --extents
options are alternate methods of specifying size. The to‐
tal number of physical extents used will be greater when
redundant data is needed for RAID levels.
-s|--snapshot
Create a snapshot. Snapshots provide a "frozen image" of an
origin LV. The snapshot LV can be used, e.g. for backups,
while the origin LV continues to be used. This option can
create a COW (copy on write) snapshot, or a thin snapshot
(in a thin pool.) Thin snapshots are created when the ori‐
gin is a thin LV and the size option is NOT specified. Thin
snapshots share the same blocks in the thin pool, and do
not allocate new space from the VG. Thin snapshots are
created with the "activation skip" flag, see --setactiva‐
tionskip. A thin snapshot of a non-thin "external origin"
LV is created when a thin pool is specified. Unprovisioned
blocks in the thin snapshot LV are read from the external
origin LV. The external origin LV must be read-only. See
lvmthin(7) for more information about LVM thin provision‐
ing. COW snapshots are created when a size is specified.
The size is allocated from space in the VG, and is the
amount of space that can be used for saving COW blocks as
writes occur to the origin or snapshot. The size chosen
should depend upon the amount of writes that are expected;
often 20% of the origin LV is enough. If COW space runs
low, it can be extended with lvextend (shrinking is also
allowed with lvreduce.) A small amount of the COW snapshot
LV size is used to track COW block locations, so the full
size is not available for COW data blocks. Use lvs to
check how much space is used, and see --monitor to to auto‐
matically extend the size to avoid running out of space.
-i|--stripes Number
Specifies the number of stripes in a striped LV. This is
the number of PVs (devices) that a striped LV is spread
across. Data that appears sequential in the LV is spread
across multiple devices in units of the stripe size (see
--stripesize). This does not change existing allocated
space, but only applies to space being allocated by the
command. When creating a RAID 4/5/6 LV, this number does
not include the extra devices that are required for parity.
The largest number depends on the RAID type (raid0: 64,
raid10: 32, raid4/5: 63, raid6: 62), and when unspecified,
the default depends on the RAID type (raid0: 2, raid10: 2,
raid4/5: 3, raid6: 5.) To stripe a new raid LV across all
PVs by default, see lvm.conf(5) alloca‐
tion/raid_stripe_all_devices.
-I|--stripesize Size[k|UNIT]
The amount of data that is written to one device before
moving to the next in a striped LV.
-t|--test
Run in test mode. Commands will not update metadata. This
is implemented by disabling all metadata writing but never‐
theless returning success to the calling function. This may
lead to unusual error messages in multi-stage operations if
a tool relies on reading back metadata it believes has
changed but hasn't.
-T|--thin
Specifies the command is handling a thin LV or thin pool.
See --type thin, --type thin-pool, and --virtualsize. See
lvmthin(7) for more information about LVM thin provision‐
ing.
--thinpool LV
The name of a thin pool LV.
--type linear|striped|snapshot|raid|mirror|thin|thin-pool|vdo|
vdo-pool|cache|cache-pool|writecache
The LV type, also known as "segment type" or "segtype".
See usage descriptions for the specific ways to use these
types. For more information about redundancy and perfor‐
mance (raid<N>, mirror, striped, linear) see lvmraid(7).
For thin provisioning (thin, thin-pool) see lvmthin(7).
For performance caching (cache, cache-pool) see
lvmcache(7). For copy-on-write snapshots (snapshot) see
usage definitions. For VDO (vdo) see lvmvdo(7). Several
commands omit an explicit type option because the type is
inferred from other options or shortcuts (e.g. --stripes,
--mirrors, --snapshot, --virtualsize, --thin, --cache,
--vdo). Use inferred types with care because it can lead
to unexpected results.
--vdo
Specifies the command is handling VDO LV. See --type vdo.
See lvmvdo(7) for more information about VDO usage.
--vdopool LV
The name of a VDO pool LV. See lvmvdo(7) for more informa‐
tion about VDO usage.
-v|--verbose ...
Set verbose level. Repeat from 1 to 4 times to increase the
detail of messages sent to stdout and stderr.
--version
Display version information.
-V|--virtualsize Size[m|UNIT]
The virtual size of a new thin LV. See lvmthin(7) for more
information about LVM thin provisioning. Using virtual
size (-V) and actual size (-L) together creates a sparse
LV. lvm.conf(5) global/sparse_segtype_default determines
the default segment type used to create a sparse LV. Any‐
thing written to a sparse LV will be returned when reading
from it. Reading from other areas of the LV will return
blocks of zeros. When using a snapshot to create a sparse
LV, a hidden virtual device is created using the zero tar‐
get, and the LV has the suffix _vorigin. Snapshots are
less efficient than thin provisioning when creating large
sparse LVs (GiB).
-W|--wipesignatures y|n
Controls detection and subsequent wiping of signatures on
new LVs. There is a prompt for each signature detected to
confirm its wiping (unless --yes is used to override con‐
firmations.) When not specified, signatures are wiped
whenever zeroing is done (see --zero). This behaviour can
be configured with lvm.conf(5) allocation/wipe_signa‐
tures_when_zeroing_new_lvs. If blkid wiping is used (‐
lvm.conf(5) allocation/use_blkid_wiping) and LVM is com‐
piled with blkid wiping support, then the blkid(8) library
is used to detect the signatures (use blkid -k to list the
signatures that are recognized). Otherwise, native LVM
code is used to detect signatures (only MD RAID, swap and
LUKS signatures are detected in this case.) The LV is not
wiped if the read only flag is set.
-y|--yes
Do not prompt for confirmation interactively but always as‐
sume the answer yes. Use with extreme caution. (For auto‐
matic no, see -qq.)
-Z|--zero y|n
Controls zeroing of the first 4KiB of data in the new LV.
Default is y. Snapshot COW volumes are always zeroed. For
thin pools, this controls zeroing of provisioned blocks.
LV is not zeroed if the read only flag is set. Warning:
trying to mount an unzeroed LV can cause the system to
hang.
VG Volume Group name. See lvm(8) for valid names. For lvcre‐
ate, the required VG positional arg may be omitted when the
VG name is included in another option, e.g. --name VG/LV.
LV Logical Volume name. See lvm(8) for valid names. An LV
positional arg generally includes the VG name and LV name,
e.g. VG/LV. LV1 indicates the LV must have a specific
type, where the accepted LV types are listed. (raid repre‐
sents raid<N> type).
PV Physical Volume name, a device path under /dev. For com‐
mands managing physical extents, a PV positional arg gener‐
ally accepts a suffix indicating a range (or multiple
ranges) of physical extents (PEs). When the first PE is
omitted, it defaults to the start of the device, and when
the last PE is omitted it defaults to end. Start and end
range (inclusive): PV[:PE-PE]... Start and length range
(counting from 0): PV[:PE+PE]...
String See the option description for information about the string
content.
Size[UNIT]
Size is an input number that accepts an optional unit. In‐
put units are always treated as base two values, regardless
of capitalization, e.g. 'k' and 'K' both refer to 1024.
The default input unit is specified by letter, followed by
|UNIT. UNIT represents other possible input units: b|B is
bytes, s|S is sectors of 512 bytes, k|K is KiB, m|M is MiB,
g|G is GiB, t|T is TiB, p|P is PiB, e|E is EiB. (This
should not be confused with the output control --units,
where capital letters mean multiple of 1000.)
See lvm(8) for information about environment variables used by
lvm. For example, LVM_VG_NAME can generally be substituted for a
required VG parameter.
Alternate command forms, advanced command usage, and listing of
all valid syntax for completeness.
Create an LV that returns errors when used.
lvcreate --type error -L|--size Size[m|UNIT] VG
[ -l|--extents Number[PERCENT] ]
[ COMMON_OPTIONS ]
—
Create an LV that returns zeros when read.
lvcreate --type zero -L|--size Size[m|UNIT] VG
[ -l|--extents Number[PERCENT] ]
[ COMMON_OPTIONS ]
—
Create a linear LV.
lvcreate --type linear -L|--size Size[m|UNIT] VG
[ -l|--extents Number[PERCENT] ]
[ COMMON_OPTIONS ]
[ PV ... ]
—
Create a striped LV (also see lvcreate --stripes).
lvcreate --type striped -L|--size Size[m|UNIT] VG
[ -l|--extents Number[PERCENT] ]
[ -i|--stripes Number ]
[ -I|--stripesize Size[k|UNIT] ]
[ COMMON_OPTIONS ]
[ PV ... ]
—
Create a mirror LV (also see --type raid1).
lvcreate --type mirror -L|--size Size[m|UNIT] VG
[ -l|--extents Number[PERCENT] ]
[ -i|--stripes Number ]
[ -I|--stripesize Size[k|UNIT] ]
[ -m|--mirrors Number ]
[ -R|--regionsize Size[m|UNIT] ]
[ --mirrorlog core|disk ]
[ COMMON_OPTIONS ]
[ PV ... ]
—
Create a COW snapshot LV of an origin LV
(also see --snapshot).
lvcreate --type snapshot -L|--size Size[m|UNIT] LV
[ -l|--extents Number[PERCENT] ]
[ -s|--snapshot ]
[ -i|--stripes Number ]
[ -I|--stripesize Size[k|UNIT] ]
[ -c|--chunksize Size[k|UNIT] ]
[ COMMON_OPTIONS ]
[ PV ... ]
—
Create a sparse COW snapshot LV of a virtual origin LV
(also see --snapshot).
lvcreate --type snapshot -L|--size Size[m|UNIT]
-V|--virtualsize Size[m|UNIT] VG
[ -l|--extents Number[PERCENT] ]
[ -s|--snapshot ]
[ -c|--chunksize Size[k|UNIT] ]
[ COMMON_OPTIONS ]
[ PV ... ]
—
Create a thin pool.
lvcreate -T|--thin -L|--size Size[m|UNIT] VG
[ --type thin-pool ] (implied)
[ -l|--extents Number[PERCENT] ]
[ -i|--stripes Number ]
[ -I|--stripesize Size[k|UNIT] ]
[ -c|--chunksize Size[k|UNIT] ]
[ --discards passdown|nopassdown|ignore ]
[ --errorwhenfull y|n ]
[ --poolmetadatasize Size[m|UNIT] ]
[ --poolmetadataspare y|n ]
[ COMMON_OPTIONS ]
[ PV ... ]
—
Create a thin pool named in --thinpool.
lvcreate -L|--size Size[m|UNIT] --thinpool LV_new VG
[ --type thin-pool ] (implied)
[ -l|--extents Number[PERCENT] ]
[ -i|--stripes Number ]
[ -I|--stripesize Size[k|UNIT] ]
[ -T|--thin ]
[ -c|--chunksize Size[k|UNIT] ]
[ --discards passdown|nopassdown|ignore ]
[ --errorwhenfull y|n ]
[ --poolmetadatasize Size[m|UNIT] ]
[ --poolmetadataspare y|n ]
[ COMMON_OPTIONS ]
[ PV ... ]
—
Create a cache pool named by the --cachepool arg
(variant, uses --cachepool in place of --name).
lvcreate --type cache-pool -L|--size Size[m|UNIT]
--cachepool LV_new VG
[ -l|--extents Number[PERCENT] ]
[ -i|--stripes Number ]
[ -I|--stripesize Size[k|UNIT] ]
[ -H|--cache ]
[ -c|--chunksize Size[k|UNIT] ]
[ --cachemode writethrough|writeback|passthrough ]
[ --cachepolicy String ]
[ --cachesettings String ]
[ --cachemetadataformat auto|1|2 ]
[ --poolmetadatasize Size[m|UNIT] ]
[ --poolmetadataspare y|n ]
[ COMMON_OPTIONS ]
[ PV ... ]
—
Create a thin LV in a thin pool.
lvcreate --type thin -V|--virtualsize Size[m|UNIT]
--thinpool LV VG
[ -T|--thin ]
[ COMMON_OPTIONS ]
—
Create a thin LV in a thin pool named in the first arg
(variant, also see --thinpool for naming pool).
lvcreate --type thin -V|--virtualsize Size[m|UNIT] LV1
[ -T|--thin ]
[ COMMON_OPTIONS ]
LV1 types: thinpool
—
Create a thin LV in the thin pool named in the first arg
(also see --thinpool for naming pool.)
lvcreate -V|--virtualsize Size[m|UNIT] LV1
[ --type thin ] (implied)
[ -T|--thin ]
[ COMMON_OPTIONS ]
LV1 types: thinpool
—
Create a thin LV that is a snapshot of an existing thin LV.
lvcreate --type thin LV1
[ -T|--thin ]
[ COMMON_OPTIONS ]
LV1 types: thin
—
Create a thin LV that is a snapshot of an existing thin LV.
lvcreate -T|--thin LV1
[ --type thin ] (implied)
[ COMMON_OPTIONS ]
LV1 types: thin
—
Create a thin LV that is a snapshot of an external origin LV.
lvcreate -s|--snapshot --thinpool LV LV
[ --type thin ] (implied)
[ COMMON_OPTIONS ]
—
Create a VDO LV with VDO pool.
lvcreate --vdo -L|--size Size[m|UNIT] VG
[ --type vdo ] (implied)
[ -l|--extents Number[PERCENT] ]
[ -i|--stripes Number ]
[ -I|--stripesize Size[k|UNIT] ]
[ -V|--virtualsize Size[m|UNIT] ]
[ --vdopool LV_new ]
[ --compression y|n ]
[ --deduplication y|n ]
[ COMMON_OPTIONS ]
[ PV ... ]
—
Create a VDO LV with VDO pool.
lvcreate --vdopool LV_new -L|--size Size[m|UNIT] VG
[ --type vdo ] (implied)
[ -l|--extents Number[PERCENT] ]
[ -i|--stripes Number ]
[ -I|--stripesize Size[k|UNIT] ]
[ -V|--virtualsize Size[m|UNIT] ]
[ --compression y|n ]
[ --deduplication y|n ]
[ COMMON_OPTIONS ]
[ PV ... ]
—
Create a thin LV, first creating a thin pool for it,
where the new thin pool is named by the --thinpool arg.
lvcreate --type thin -V|--virtualsize Size[m|UNIT]
-L|--size Size[m|UNIT] --thinpool LV_new VG
[ -l|--extents Number[PERCENT] ]
[ -i|--stripes Number ]
[ -I|--stripesize Size[k|UNIT] ]
[ -T|--thin ]
[ -c|--chunksize Size[k|UNIT] ]
[ --discards passdown|nopassdown|ignore ]
[ --errorwhenfull y|n ]
[ --poolmetadatasize Size[m|UNIT] ]
[ --poolmetadataspare y|n ]
[ COMMON_OPTIONS ]
[ PV ... ]
—
Create a thin LV, first creating a thin pool for it,
where the new thin pool is named by --thinpool.
lvcreate -V|--virtualsize Size[m|UNIT] -L|--size Size[m|UNIT]
--thinpool LV_new VG
[ --type thin ] (implied)
[ -l|--extents Number[PERCENT] ]
[ -i|--stripes Number ]
[ -I|--stripesize Size[k|UNIT] ]
[ -T|--thin ]
[ -c|--chunksize Size[k|UNIT] ]
[ --discards passdown|nopassdown|ignore ]
[ --errorwhenfull y|n ]
[ --poolmetadatasize Size[m|UNIT] ]
[ --poolmetadataspare y|n ]
[ COMMON_OPTIONS ]
[ PV ... ]
—
Create a thin LV, first creating a thin pool for it,
where the new thin pool is named in the first arg,
or the new thin pool name is generated when the first
arg is a VG name.
lvcreate --type thin -V|--virtualsize Size[m|UNIT]
-L|--size Size[m|UNIT] VG|LV_new
[ -l|--extents Number[PERCENT] ]
[ -i|--stripes Number ]
[ -I|--stripesize Size[k|UNIT] ]
[ -T|--thin ]
[ -c|--chunksize Size[k|UNIT] ]
[ --discards passdown|nopassdown|ignore ]
[ --errorwhenfull y|n ]
[ --poolmetadatasize Size[m|UNIT] ]
[ --poolmetadataspare y|n ]
[ COMMON_OPTIONS ]
[ PV ... ]
—
Create a thin LV, first creating a thin pool for it,
where the new thin pool is named in the first arg,
or the new thin pool name is generated when the first
arg is a VG name.
lvcreate -T|--thin -V|--virtualsize Size[m|UNIT]
-L|--size Size[m|UNIT] VG|LV_new
[ --type thin ] (implied)
[ -l|--extents Number[PERCENT] ]
[ -i|--stripes Number ]
[ -I|--stripesize Size[k|UNIT] ]
[ -c|--chunksize Size[k|UNIT] ]
[ --discards passdown|nopassdown|ignore ]
[ --errorwhenfull y|n ]
[ --poolmetadatasize Size[m|UNIT] ]
[ --poolmetadataspare y|n ]
[ COMMON_OPTIONS ]
[ PV ... ]
—
Create a thin LV, first creating a thin pool for it.
Create a sparse snapshot of a virtual origin LV
Chooses type thin or snapshot according to
config setting sparse_segtype_default.
lvcreate -L|--size Size[m|UNIT] -V|--virtualsize Size[m|UNIT] VG
[ --type thin|snapshot ] (implied)
[ -l|--extents Number[PERCENT] ]
[ -i|--stripes Number ]
[ -I|--stripesize Size[k|UNIT] ]
[ -s|--snapshot ]
[ -T|--thin ]
[ -c|--chunksize Size[k|UNIT] ]
[ --discards passdown|nopassdown|ignore ]
[ --errorwhenfull y|n ]
[ --poolmetadatasize Size[m|UNIT] ]
[ --poolmetadataspare y|n ]
[ COMMON_OPTIONS ]
[ PV ... ]
—
Create a new LV, then attach the specified cachepool
which converts the new LV to type cache.
lvcreate -L|--size Size[m|UNIT] --cachepool LV VG
[ --type cache ] (implied)
[ -l|--extents Number[PERCENT] ]
[ -i|--stripes Number ]
[ -I|--stripesize Size[k|UNIT] ]
[ -H|--cache ]
[ -c|--chunksize Size[k|UNIT] ]
[ --cachemode writethrough|writeback|passthrough ]
[ --cachepolicy String ]
[ --cachesettings String ]
[ --cachemetadataformat auto|1|2 ]
[ COMMON_OPTIONS ]
[ PV ... ]
—
Create a new LV, then attach the specified cachepool
which converts the new LV to type cache.
(variant, also use --cachepool).
lvcreate --type cache -L|--size Size[m|UNIT] LV1
[ -l|--extents Number[PERCENT] ]
[ -i|--stripes Number ]
[ -I|--stripesize Size[k|UNIT] ]
[ -H|--cache ]
[ -c|--chunksize Size[k|UNIT] ]
[ --cachemode writethrough|writeback|passthrough ]
[ --cachepolicy String ]
[ --cachesettings String ]
[ --cachemetadataformat auto|1|2 ]
[ --poolmetadatasize Size[m|UNIT] ]
[ --poolmetadataspare y|n ]
[ COMMON_OPTIONS ]
[ PV ... ]
LV1 types: cachepool
—
When the LV arg is a cachepool, then create a new LV and
attach the cachepool arg to it.
(variant, use --type cache and --cachepool.)
When the LV arg is not a cachepool, then create a new cachepool
and attach it to the LV arg (alternative, use lvconvert.)
lvcreate -H|--cache -L|--size Size[m|UNIT] LV
[ --type cache ] (implied)
[ -l|--extents Number[PERCENT] ]
[ -c|--chunksize Size[k|UNIT] ]
[ -i|--stripes Number ]
[ -I|--stripesize Size[k|UNIT] ]
[ --cachemode writethrough|writeback|passthrough ]
[ --cachepolicy String ]
[ --cachesettings String ]
[ --cachemetadataformat auto|1|2 ]
[ --poolmetadatasize Size[m|UNIT] ]
[ --poolmetadataspare y|n ]
[ COMMON_OPTIONS ]
[ PV ... ]
—
Create a striped LV with 3 stripes, a stripe size of 8 KiB and a
size of 100 MiB. The LV name is chosen by lvcreate.
lvcreate -i 3 -I 8 -L 100m vg00
Create a raid1 LV with two images, and a usable size of 500 MiB.
This operation requires two devices, one for each mirror image.
RAID metadata (superblock and bitmap) is also included on the two
devices.
lvcreate --type raid1 -m1 -L 500m -n mylv vg00
Create a mirror LV with two images, and a usable size of 500 MiB.
This operation requires three devices: two for mirror images and
one for a disk log.
lvcreate --type mirror -m1 -L 500m -n mylv vg00
Create a mirror LV with 2 images, and a usable size of 500 MiB.
This operation requires 2 devices because the log is in memory.
lvcreate --type mirror -m1 --mirrorlog core -L 500m -n mylv vg00
Create a copy-on-write snapshot of an LV:
lvcreate --snapshot --size 100m --name mysnap vg00/mylv
Create a copy-on-write snapshot with a size sufficient for over‐
writing 20% of the size of the original LV.
lvcreate -s -l 20%ORIGIN -n mysnap vg00/mylv
Create a sparse LV with 1 TiB of virtual space, and actual space
just under 100 MiB.
lvcreate --snapshot --virtualsize 1t --size 100m --name mylv vg00
Create a linear LV with a usable size of 64 MiB on specific physi‐
cal extents.
lvcreate -L 64m -n mylv vg00 /dev/sda:0-7 /dev/sdb:0-7
Create a RAID5 LV with a usable size of 5 GiB, 3 stripes, a stripe
size of 64 KiB, using a total of 4 devices (including one for par‐
ity).
lvcreate --type raid5 -L 5G -i 3 -I 64 -n mylv vg00
Create a RAID5 LV using all of the free space in the VG and span‐
ning all the PVs in the VG (note that the command will fail if
there are more than 8 PVs in the VG, in which case -i 7 must be
used to get to the current maximum of 8 devices including parity
for RaidLVs).
lvcreate --config allocation/raid_stripe_all_devices=1 --type
raid5 -l 100%FREE -n mylv vg00
Create RAID10 LV with a usable size of 5 GiB, using 2 stripes,
each on a two-image mirror. (Note that the -i and -m arguments
behave differently: -i specifies the total number of stripes, but
-m specifies the number of images in addition to the first image).
lvcreate --type raid10 -L 5G -i 2 -m 1 -n mylv vg00
Create a 1 TiB thin LV mythin, with 256 GiB thinpool tpool0 in
vg00.
lvcreate -T -V 1T --size 256G --name mythin vg00/tpool0
Create a 1 TiB thin LV, first creating a new thin pool for it,
where the thin pool has 100 MiB of space, uses 2 stripes, has a
64 KiB stripe size, and 256 KiB chunk size.
lvcreate --type thin --name mylv --thinpool mypool -V 1t -L 100m
-i 2 -I 64 -c 256 vg00
Create a thin snapshot of a thin LV (the size option must not be
used, otherwise a copy-on-write snapshot would be created).
lvcreate --snapshot --name mysnap vg00/thinvol
Create a thin snapshot of the read-only inactive LV named "origin"
which becomes an external origin for the thin snapshot LV.
lvcreate --snapshot --name mysnap --thinpool mypool vg00/origin
Create a cache pool from a fast physical device. The cache pool
can then be used to cache an LV.
lvcreate --type cache-pool -L 1G -n my_cpool vg00 /dev/fast1
Create a cache LV, first creating a new origin LV on a slow physi‐
cal device, then combining the new origin LV with an existing
cache pool.
lvcreate --type cache --cachepool my_cpool -L 100G -n mylv vg00
/dev/slow1
Create a VDO LV vdo0 with VDOPoolLV size of 10 GiB and name
vpool1.
lvcreate --vdo --size 10G --name vdo0 vg00/vpool1
lvm(8), lvm.conf(5), lvmconfig(8), lvmdevices(8),
pvchange(8), pvck(8), pvcreate(8), pvdisplay(8), pvmove(8),
pvremove(8), pvresize(8), pvs(8), pvscan(8),
vgcfgbackup(8), vgcfgrestore(8), vgchange(8), vgck(8),
vgcreate(8), vgconvert(8), vgdisplay(8), vgexport(8), vgextend(8),
vgimport(8), vgimportclone(8), vgimportdevices(8), vgmerge(8),
vgmknodes(8), vgreduce(8), vgremove(8), vgrename(8), vgs(8),
vgscan(8), vgsplit(8),
lvcreate(8), lvchange(8), lvconvert(8), lvdisplay(8), lvextend(8),
lvreduce(8), lvremove(8), lvrename(8), lvresize(8), lvs(8),
lvscan(8),
lvm-fullreport(8), lvm-lvpoll(8), blkdeactivate(8), lvmdump(8),
dmeventd(8), lvmpolld(8), lvmlockd(8), lvmlockctl(8), cmirrord(8),
lvmdbusd(8), fsadm(8),
lvmsystemid(7), lvmreport(7), lvmcache(7), lvmraid(7), lvmthin(7),
lvmvdo(7), lvmautoactivation(7)
This page is part of the lvm2 (Logical Volume Manager 2) project.
Information about the project can be found at
⟨http://www.sourceware.org/lvm2/⟩. If you have a bug report for
this manual page, see ⟨https://github.com/lvmteam/lvm2/issues⟩.
This page was obtained from the project's upstream Git repository
⟨git://sourceware.org/git/lvm2.git⟩ on 2025-08-11. (At that time,
the date of the most recent commit that was found in the
repository was 2025-08-08.) If you discover any rendering
problems in this HTML version of the page, or you believe there is
a better or more up-to-date source for the page, or you have
corrections or improvements to the information in this COLOPHON
(which is not part of the original manual page), send a mail to
man-pages@man7.org
Red Hat, Inc. LVM TOOLS 2.03.35(2)-git (2025-07-30) LVCREATE(8)
Pages that refer to this page: lvmcache(7), lvmraid(7), lvmreport(7), lvmthin(7), lvmvdo(7), lvchange(8), lvconvert(8), lvcreate(8), lvdisplay(8), lvextend(8), lvm(8), lvmconfig(8), lvmdevices(8), lvmdiskscan(8), lvm-fullreport(8), lvm-lvpoll(8), lvreduce(8), lvremove(8), lvrename(8), lvresize(8), lvs(8), lvscan(8), pvchange(8), pvck(8), pvcreate(8), pvdisplay(8), pvmove(8), pvremove(8), pvresize(8), pvs(8), pvscan(8), vgcfgbackup(8), vgcfgrestore(8), vgchange(8), vgck(8), vgconvert(8), vgcreate(8), vgdisplay(8), vgexport(8), vgextend(8), vgimport(8), vgimportclone(8), vgimportdevices(8), vgmerge(8), vgmknodes(8), vgreduce(8), vgremove(8), vgrename(8), vgs(8), vgscan(8), vgsplit(8)
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