PVCREATE(8) manual page
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pvcreate -- initialize a disk or partition for use by LVM
pvcreate
[--commandprofile ProfileName] [-d|--debug] [-h|--help] [-t|--test] [-v|--verbose] [--version]
[-f[f]|--force [--force]] [-y|--yes] [--labelsector] [--bootloaderareasize size] [-M|--metadatatype
type] [--[pv]metadatacopies NumberOfCopies] [--metadatasize size] [--metadataignore
{y|n}] [--dataalignment alignment] [--dataalignmentoffset alignment_offset]
[--restorefile file] [--norestorefile] [--setphysicalvolumesize size] [-u|--uuid
uuid] [-Z|--zero {y|n}] PhysicalVolume [PhysicalVolume...]
pvcreate
initializes PhysicalVolume for later use by the Logical Volume Manager
(LVM). Each PhysicalVolume can be a disk partition, whole disk, meta device,
or loopback file. For DOS disk partitions, the partition id should be set
to 0x8e using fdisk(8)
, cfdisk(8)
, or a equivalent. For whole disk devices
only the partition table must be erased, which will effectively destroy
all data on that disk. This can be done by zeroing the first sector with:
dd if=/dev/zero of=PhysicalVolume bs=512 count=1
Continue with vgcreate(8)
to create a new volume group on PhysicalVolume, or vgextend(8)
to add PhysicalVolume
to an existing volume group.
See lvm(8)
for common options.
- -f, --force
- Force the creation without any confirmation. You can not recreate (reinitialize)
a physical volume belonging to an existing volume group. In an emergency
you can override this behaviour with -ff.
- -u, --uuid uuid
- Specify the uuid for
the device. Without this option, pvcreate(8)
generates a random uuid. All
of your physical volumes must have unique uuids. You need to use this option
before restoring a backup of LVM metadata onto a replacement device - see
vgcfgrestore(8)
. As such, use of --restorefile is compulsory unless the --norestorefile
is used.
- -y, --yes
- Answer yes to all questions.
- -Z, --zero {y|n}
- Whether or not
the first 4 sectors (2048 bytes) of the device should be wiped. If this
option is not given, the default is to wipe these sectors unless either
or both of the --restorefile or --uuid options were specified.
LVM2 introduces a new format for storing metadata on disk. This new
format is more efficient and resilient than the format the original version
of LVM used and offers the advanced user greater flexibility and control.
The new format may be selected on the command line with -M2 or by setting
format = "lvm2" in the global section of lvm.conf(5)
. Each physical volume
in the same volume group must use the same format, but different volume
groups on a machine may use different formats simultaneously: the tools
can handle both formats. Additional formats can be added as shared libraries.
Additional tools for manipulating the locations and sizes of metadata areas
will be written in due course. Use the verbose/debug options on the tools
to see where the metadata areas are placed.
- --metadatasize size
- The approximate
amount of space to be set aside for each metadata area. (The size you specify
may get rounded.)
- --dataalignment alignment
- Align the start of the data to
a multiple of this number. You should also specify an appropriate PhysicalExtentSize
when creating the Volume Group with vgcreate.
To see the location of the
first Physical Extent of an existing Physical Volume use pvs -o +pe_start
. It will be a multiple of the requested alignment. In addition it may
be shifted by alignment_offset from data_alignment_offset_detection (if
enabled in lvm.conf(5)
) or --dataalignmentoffset.
- --dataalignmentoffset alignment_offset
- Shift the start of the data area by this additional alignment_offset.
- --[pv]metadatacopies
NumberOfCopies
- The number of metadata areas to set aside on each PV. Currently
this can be 0, 1 or 2. If set to 2, two copies of the volume group metadata
are held on the PV, one at the front of the PV and one at the end. If set
to 1 (the default), one copy is kept at the front of the PV (starting in
the 5th sector). If set to 0, no copies are kept on this PV - you might wish
to use this with VGs containing large numbers of PVs. But if you do this
and then later use vgsplit(8)
you must ensure that each VG is still going
to have a suitable number of copies of the metadata after the split!
- --metadataignore
{y|n}
- Ignore or un-ignore metadata areas on this physical volume. The default
is "n". This setting can be changed with pvchange. If metadata areas on
a physical volume are ignored, LVM will not store metadata in the metadata
areas present on this Physical Volume. Metadata areas cannot be created
or extended after Logical Volumes have been allocated on the device. If
you do not want to store metadata on this device, it is still wise always
to allocate a metadata area in case you need it in the future and to use
this option to instruct LVM2 to ignore it.
- --restorefile file
- In conjunction
with --uuid, this extracts the location and size of the data on the PV from
the file (produced by vgcfgbackup) and ensures that the metadata that the
program produces is consistent with the contents of the file i.e. the physical
extents will be in the same place and not get overwritten by new metadata.
This provides a mechanism to upgrade the metadata format or to add/remove
metadata areas. Use with care. See also vgconvert(8)
.
- --norestorefile
- In conjunction
with --uuid, this allows a uuid to be specified without also requiring that
a backup of the metadata be provided.
- --labelsector sector
- By default the
PV is labelled with an LVM2 identifier in its second sector (sector 1).
This lets you use a different sector near the start of the disk (between
0 and 3 inclusive - see LABEL_SCAN_SECTORS in the source). Use with care.
- --bootloaderareasize size
- Create a separate bootloader area of specified
size besides PV’s data area. The bootloader area is an area of reserved space
on the PV from which LVM2 will not allocate any extents and it’s kept untouched.
This is primarily aimed for use with bootloaders to embed their own data
or metadata. The start of the bootloader area is always aligned, see also
--dataalignment and --dataalignmentoffset. The bootloader area size may eventually
end up increased due to the alignment, but it’s never less than the size
that is requested. To see the bootloader area start and size of an existing
Physical Volume use pvs -o +pv_ba_start,pv_ba_size.
- --setphysicalvolumesize
size
- Overrides the automatically-detected size of the PV. Use with care.
Initialize partition #4 on the third SCSI disk and the entire fifth
SCSI disk for later use by LVM:
pvcreate /dev/sdc4 /dev/sde
If the 2nd
SCSI disk is a 4KiB sector drive that compensates for windows partitioning
(sector 7 is the lowest aligned logical block, the 4KiB sectors start at
LBA -1, and consequently sector 63 is aligned on a 4KiB boundary) manually
account for this when initializing for use by LVM:
pvcreate --dataalignmentoffset
7s /dev/sdb
lvm.conf(5)
, lvm(8)
, vgcreate(8)
, vgextend(8)
, lvcreate(8)
,
cfdisk(8)
, fdisk(8)
, losetup(8)
, mdadm(8)
, vgcfgrestore(8)
, vgconvert(8)
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