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13 KiB
Groff
365 lines
13 KiB
Groff
.TH LVCREATE 8 "LVM TOOLS #VERSION#" "Sistina Software UK" \" -*- nroff -*-
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.SH NAME
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lvcreate \- create a logical volume in an existing volume group
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.SH SYNOPSIS
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.B lvcreate
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.RB [ \-\-addtag
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.IR Tag ]
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.RB [ \-\-alloc
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.IR AllocationPolicy ]
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.RB [ \-a | \-\-available
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.RI { y | n | ey | en | ly | ln }]
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.RB [ \-A | \-\-autobackup
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.RI { y | n }]
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.RB [ \-C | \-\-contiguous
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.RI { y | n }]
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.RB [ \-d | \-\-debug ]
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.RB [ \-h | \-? | \-\-help ]
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.RB [ \-\-noudevsync ]
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.RB [ \-\-ignoremonitoring ]
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.RB [ \-\-monitor
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.RI { y | n }]
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.RB [ \-i | \-\-stripes
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.IR Stripes
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.RB [ \-I | \-\-stripesize
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.IR StripeSize ]]
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.RB {[ \-l | \-\-extents
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.IR LogicalExtentsNumber [ % { VG | PVS | FREE }]
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.BR \-L | \-\-size
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.IR LogicalVolumeSize [ bBsSkKmMgGtTpPeE ]]
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.BR \-V | \-\-virtualsize
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.IR VirtualSize [ bBsSkKmMgGtTpPeE ]}
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.RB [ \-M | \-\-persistent
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.RI { y | n }]
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.RB [ \-\-minor
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.IR minor ]
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.RB [ \-m | \-\-mirrors
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.IR Mirrors
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.RB [ \-\-nosync ]
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.RB [ \-\-mirrorlog
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.RI { disk | core | mirrored }
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.BR \-\-corelog ]
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.RB [ \-R | \-\-regionsize
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.IR MirrorLogRegionSize ]]
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.RB [ \-n | \-\-name
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.IR LogicalVolume { Name | Path }]
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.RB [ \-p | \-\-permission
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.RI { r | rw }]
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.RB [ \-r | \-\-readahead
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.RI { ReadAheadSectors | auto | none }]
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.RB [ \-t | \-\-test ]
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.RB [ \-T | \-\-thin
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.RB [ \-c | \-\-chunksize
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.IR ChunkSize ]
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.RB [ \-\-poolmetadatasize
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.IR MetadataSize [ bBsSkKmMgG ]]]
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.RB [ \-\-thinpool
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.IR ThinPoolLogicalVolume { Name | Path }]
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.RB [ \-\-type
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.IR SegmentType ]
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.RB [ \-v | \-\-verbose ]
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.RB [ \-Z | \-\-zero
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.RI { y | n }]
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.IR VolumeGroup { Name | Path }[/ ThinPoolLogicalVolumeName ]
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.RI [ PhysicalVolumePath [ :PE [ -PE ]]...]
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.br
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.B lvcreate
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.RB [ \-l | \-\-extents
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.IR LogicalExtentsNumber [ % { VG | FREE | ORIGIN }]
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.BR \-L | \-\-size
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.IR LogicalVolumeSize [ bBsSkKmMgGtTpPeE ]]
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.RB [ \-c | \-\-chunksize
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.IR ChunkSize ]
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.RB [ \-\-noudevsync ]
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.RB [ \-\-ignoremonitoring ]
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.RB [ \-\-monitor " {" \fIy | \fIn }]
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.RB [ \-n | \-\-name
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.IR SnapshotLogicalVolume { Name | Path }]
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.BR \-s | \-\-snapshot
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.RI {[ VolumeGroup { Name | Path }/] OriginalLogicalVolumeName
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.BR \-V | \-\-virtualsize
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.IR VirtualSize [ bBsSkKmMgGtTpPeE ]}
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.br
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.SH DESCRIPTION
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lvcreate creates a new logical volume in a volume group ( see
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.BR vgcreate "(8), " vgchange (8)
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) by allocating logical extents from the free physical extent pool
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of that volume group. If there are not enough free physical extents then
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the volume group can be extended ( see
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.BR vgextend (8)
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) with other physical volumes or by reducing existing logical volumes
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of this volume group in size ( see
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.BR lvreduce (8)
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). If you specify one or more PhysicalVolumes, allocation of physical
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extents will be restricted to these volumes.
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.br
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.br
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The second form supports the creation of snapshot logical volumes which
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keep the contents of the original logical volume for backup purposes.
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.SH OPTIONS
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See
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.BR lvm (8)
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for common options.
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.TP
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.IR \fB\-a ", " \fB\-\-available " {" y | n | ey | en | ly | ln }
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Controls the availability of the Logical Volumes for immediate use after
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the command finishes running.
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By default, new Logical Volumes are activated automatically (\fB-a\fIy\fR).
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If it is possible technically, \fB-a\fIn\fR will leave the new Logical Volume inactive.
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But for example, snapshots can only be created
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in the active state so \fB-a\fIn\fR cannot be used with --snapshot.
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Normally the --zero n argument has to be supplied too because zeroing (the
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default behaviour) also requires activation.
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If clustered locking is enabled, \fB-a\fIey\fR will activate exclusively
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on one node and \fB-a\fIly\fR will activate only on the local node.
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.TP
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.BR \-c ", " \-\-chunksize " " \fIChunkSize
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Power of 2 chunk size in sector units (512b).
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For snapshot logical volume the value must be between 8 (4KB) and 1024 (512KB)
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and the default value is 8.
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For thin pool logical volume the value must be between 128 (64KB) and
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2097152 (1MB) and the default value is 128.
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.TP
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.BR \-C ", " \-\-contiguous " {" \fIy | \fIn }
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Sets or resets the contiguous allocation policy for
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logical volumes. Default is no contiguous allocation based
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on a next free principle.
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.TP
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.BR \-i ", " \-\-stripes " " \fIStripes
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Gives the number of stripes.
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This is equal to the number of physical volumes to scatter
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the logical volume.
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.TP
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.BR \-I ", " \-\-stripesize " " \fIStripeSize
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Gives the number of kilobytes for the granularity of the stripes.
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.br
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StripeSize must be 2^n (n = 2 to 9) for metadata in LVM1 format.
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For metadata in LVM2 format, the stripe size may be a larger
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power of 2 but must not exceed the physical extent size.
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.TP
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.IR \fB\-l ", " \fB\-\-extents " " LogicalExtentsNumber [ % { VG | PVS | FREE | ORIGIN }]
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Gives the number of logical extents to allocate for the new
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logical volume.
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The number can also be expressed as a percentage of the total space
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in the Volume Group with the suffix \fI%VG\fR, as a percentage of the
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remaining free space in the Volume Group with the suffix \fI%FREE\fR, as a
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percentage of the remaining free space for the specified
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PhysicalVolume(s) with the suffix \fI%PVS\fR, or (for a snapshot) as a
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percentage of the total space in the Origin Logical Volume with the
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suffix \fI%ORIGIN\fR.
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.TP
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.IR \fB\-L ", " \fB\-\-size " " LogicalVolumeSize [ bBsSkKmMgGtTpPeE ]
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Gives the size to allocate for the new logical volume.
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A size suffix of \fIK\fR for kilobytes, \fIM\fR for megabytes,
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\fIG\fR for gigabytes, \fIT\fR for terabytes, \fIP\fR for petabytes
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or \fIE\fR for exabytes is optional.
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.br
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Default unit is megabytes.
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.TP
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.B \-\-minor \fIminor
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Set the minor number.
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.TP
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.IR \fB\-M ", " \fB\-\-persistent " {" y | n }
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Set to y to make the minor number specified persistent.
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.TP
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.BR \-m ", " \-\-mirrors " " \fIMirrors
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Creates a mirrored logical volume with Mirrors copies. For example,
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specifying "-m 1" would result in a mirror with two-sides; that is, a
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linear volume plus one copy.
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Specifying the optional argument --nosync will cause the creation
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of the mirror to skip the initial resynchronization. Any data written
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afterwards will be mirrored, but the original contents will not be
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copied. This is useful for skipping a potentially long and resource
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intensive initial sync of an empty device.
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The optional argument --mirrorlog specifies the type of log to be used.
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The default is disk, which is persistent and requires
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a small amount of storage space, usually on a separate device from the
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data being mirrored. Using core means the mirror is regenerated
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by copying the data from the first device again each time the
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device is activated, for example, after every reboot. Using "mirrored"
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will create a persistent log that is itself mirrored.
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The optional argument --corelog is equivalent to --mirrorlog core.
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.TP
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.IR \fB\-n ", " \fB\-\-name " " LogicalVolume { Name | Path }
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The name for the new logical volume.
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.br
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Without this option a default names of "lvol#" will be generated where
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# is the LVM internal number of the logical volume.
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.TP
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.B \-\-noudevsync
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Disable udev synchronisation. The
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process will not wait for notification from udev.
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It will continue irrespective of any possible udev processing
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in the background. You should only use this if udev is not running
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or has rules that ignore the devices LVM2 creates.
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.TP
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.BR \-\-monitor " {" \fIy | \fIn }
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Start or avoid monitoring a mirrored or snapshot logical volume with
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dmeventd, if it is installed.
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If a device used by a monitored mirror reports an I/O error,
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the failure is handled according to
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\fBmirror_image_fault_policy\fP and \fBmirror_log_fault_policy\fP
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set in \fBlvm.conf\fP.
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.TP
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.B \-\-ignoremonitoring
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Make no attempt to interact with dmeventd unless \-\-monitor
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is specified.
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.TP
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.BR \-p ", " \-\-permission " {" \fIr | \fIrw }
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Set access permissions to read only or read and write.
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.br
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Default is read and write.
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.TP
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.IR \fB\-\-poolmetadatasize " " MetadataSize [ bBsSkKmMgG ]
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Set the size of thin pool's metadata logical volume.
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Supported value is in range between 2MiB and 16GiB.
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Default value is (Pool_LV_size / Pool_LV_chunk_size * 64b).
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Default unit is megabytes.
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.TP
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.IR \fB\-r ", " \fB\-\-readahead " {" ReadAheadSectors | auto | none }
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Set read ahead sector count of this logical volume.
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For volume groups with metadata in lvm1 format, this must
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be a value between 2 and 120.
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The default value is "auto" which allows the kernel to choose
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a suitable value automatically.
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"None" is equivalent to specifying zero.
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.TP
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.BR \-R ", " \-\-regionsize " " \fIMirrorLogRegionSize
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A mirror is divided into regions of this size (in MB), and the mirror log
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uses this granularity to track which regions are in sync.
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.TP
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.IR \fB\-s ", " \fB\-\-snapshot " " OriginalLogicalVolume { Name | Path }
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Create a snapshot logical volume (or snapshot) for an existing, so called
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original logical volume (or origin).
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Snapshots provide a 'frozen image' of the contents of the origin
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while the origin can still be updated. They enable consistent
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backups and online recovery of removed/overwritten data/files.
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Thin snapshot is created when the origin is a thin volume and
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the size is not specified. Thin snapshot shares same blocks within
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the thin pool volume.
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The snapshot with the specified size does not need the same amount of
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storage the origin has. In a typical scenario, 15-20% might be enough.
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In case the snapshot runs out of storage, use
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.BR lvextend (8)
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to grow it. Shrinking a snapshot is supported by
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.BR lvreduce (8)
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as well. Run
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.BR lvdisplay (8)
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on the snapshot in order to check how much data is allocated to it.
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Note that a small amount of the space you allocate to the snapshot is
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used to track the locations of the chunks of data, so you should
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allocate slightly more space than you actually need and monitor the
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rate at which the snapshot data is growing so you can avoid running out
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of space.
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.TP
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.IR \fB\-T ", " \fB\-\-thin ", " \fB\-\-thinpool " " ThinPoolLogicalVolume { Name | Path }
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Creates thin pool or thin logical volume or both.
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Specifying the optional argument --size will cause the creation of
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the thin pool logical volume.
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Specifying the optional argument --virtualsize will cause the creation of
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the thin logical volume from given thin pool volume.
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Specifying both arguments will cause the creation of both
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thin pool and thin volume using this pool.
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Requires device mapper kernel driver for thin provisioning
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from kernel 3.2 or newer.
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.TP
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.B \-\-type \fISegmentType
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Create a logical volume that uses the specified segment type
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(e.g. "raid5", "mirror", "snapshot", "thin", "thin-pool").
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Many segment types have a
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commandline switch alias that will enable their use (-s is an alias for
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--type snapshot). However, this argument must be used when no existing
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commandline switch alias is available for the desired type, as is the case
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with "error", "zero", "raid1", "raid4", "raid5", or "raid6".
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.TP
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.IR \fB\-V ", " \fB\-\-virtualsize " " VirtualSize [ bBsSkKmMgGtTpPeE ]
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Create a sparse device of the given size (in MB by default) using a snapshot
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or thinly provisioned device when thin pool is specified.
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Anything written to the device will be returned when reading from it.
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Reading from other areas of the device will return blocks of zeros.
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Virtual snapshot is implemented by creating a hidden virtual device of the
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requested size using the zero target. A suffix of _vorigin is used for
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this device.
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.TP
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.BR \-Z ", " \-\-zero " {" \fIy | \fIn }
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Controls zeroing of the first KB of data in the new logical volume.
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.br
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Default is yes.
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.br
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Volume will not be zeroed if read only flag is set.
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.br
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Snapshot volumes are zeroed always.
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.br
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Warning: trying to mount an unzeroed logical volume can cause the system to
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hang.
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.SH Examples
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Creates a striped logical volume with 3 stripes, a stripesize of 8KB
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and a size of 100MB in the volume group named vg00.
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The logical volume name will be chosen by lvcreate:
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.sp
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.B lvcreate -i 3 -I 8 -L 100M vg00
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Creates a mirror logical volume with 2 sides with a useable size of 500 MiB.
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This operation would require 3 devices (or option --alloc anywhere) - two
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for the mirror devices and one for the disk log.
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.sp
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.B lvcreate -m1 -L 500M vg00
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Creates a mirror logical volume with 2 sides with a useable size of 500 MiB.
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This operation would require 2 devices - the log is "in-memory".
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.sp
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.B lvcreate -m1 --mirrorlog core -L 500M vg00
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Creates a snapshot logical volume named /dev/vg00/snap which has access to the
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contents of the original logical volume named /dev/vg00/lvol1
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at snapshot logical volume creation time. If the original logical volume
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contains a file system, you can mount the snapshot logical volume on an
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arbitrary directory in order to access the contents of the filesystem to run
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a backup while the original filesystem continues to get updated.
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.sp
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.B lvcreate --size 100m --snapshot --name snap /dev/vg00/lvol1
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Creates a sparse device named /dev/vg1/sparse of size 1TB with space for just
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under 100MB of actual data on it.
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.sp
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.B lvcreate --virtualsize 1T --size 100M --snapshot --name sparse vg1
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Creates a linear logical volume "vg00/lvol1" using physical extents
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/dev/sda:0-7 and /dev/sdb:0-7 for allocation of extents.
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.sp
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.B lvcreate -L 64M -n lvol1 vg00 /dev/sda:0-7 /dev/sdb:0-7
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Creates a 5GiB RAID5 logical volume "vg00/my_lv", with 3 stripes (plus
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a parity drive for a total of 4 devices) and a stripesize of 64kiB.
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.sp
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.B lvcreate --type raid5 -L 5G -i 3 -I 64 -n my_lv vg00
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Creates 100MiB pool logical volume for thin provisioning
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build with 2 stripes 64KiB and chunk size 128KiB together with
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1TiB thin provisioned logical volume "vg00/thin_lv".
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.sp
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.B lvcreate -i 2 -I 64 -c 256 -L100M -T vg00/pool -V 1T --name thin_lv
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.SH SEE ALSO
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.BR lvm (8),
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.BR vgcreate (8),
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.BR lvremove (8),
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.BR lvrename (8)
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.BR lvextend (8),
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.BR lvreduce (8),
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.BR lvdisplay (8),
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.BR lvscan (8)
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