Provides Logical Resource Management (LVM) features for Puppet.
This module provides four resource types (and associated providers):
volume_group
, logical_volume
, physical_volume
, and filesystem
.
The basic dependency graph needed to define a working logical volume looks something like:
filesystem -> logical_volume -> volume_group -> physical_volume(s)
Here's a simple working example:
physical_volume { '/dev/hdc':
ensure => present,
}
volume_group { 'myvg':
ensure => present,
physical_volumes => '/dev/hdc',
}
logical_volume { 'mylv':
ensure => present,
volume_group => 'myvg',
size => '20G',
}
filesystem { '/dev/myvg/mylv':
ensure => present,
fs_type => 'ext3',
options => '-b 4096 -E stride=32,stripe-width=64',
}
This simple 1 physical volume, 1 volume group, 1 logical volume case
is provided as a simple volume
definition, as well. The above could
be shortened to be:
lvm::volume { 'mylv':
ensure => present,
vg => 'myvg',
pv => '/dev/hdc',
fstype => 'ext3',
size => '20G',
}
You can also describe your Volume Group like this:
class { 'lvm':
volume_groups => {
'myvg' => {
physical_volumes => [ '/dev/sda2', '/dev/sda3', ],
logical_volumes => {
'opt' => {'size' => '20G'},
'tmp' => {'size' => '1G' },
'usr' => {'size' => '3G' },
'var' => {'size' => '15G'},
'home' => {'size' => '5G' },
'backup' => {
'size' => '5G',
'mountpath' => '/var/backups',
'mountpath_require' => true,
},
},
},
},
}
This could be really convenient when used with hiera:
include lvm
and
---
lvm::volume_groups:
myvg:
physical_volumes:
- /dev/sda2
- /dev/sda3
logical_volumes:
opt:
size: 20G
tmp:
size: 1G
usr:
size: 3G
var:
size: 15G
home:
size: 5G
backup:
size: 5G
mountpath: /var/backups
mountpath_require: true
or to just build the VG if it does not exist
---
lvm::volume_groups:
myvg:
createonly: true
physical_volumes:
/dev/sda2:
unless_vg: 'myvg'
/dev/sda3:
unless_vg: 'myvg'
logical_volumes:
opt:
size: 20G
tmp:
size: 1G
usr:
size: 3G
var:
size: 15G
home:
size: 5G
backup:
size: 5G
mountpath: /var/backups
mountpath_require: true
Except that in the latter case you cannot specify create options. If you want to omit the file system type, but still specify the size of the logical volume, i.e. in the case if you are planning on using this logical volume as a swap partition or a block device for a virtual machine image, you need to use a hash to pass the parameters to the definition.
If you need a more complex configuration, you'll need to build the resources out yourself.
The unless_vg
(physical_volume) and createonly
(volume_group) will check
to see if "myvg" exists. If "myvg" does exist then they will not modify
the physical volume or volume_group. This is useful if your environment
is built with certain disks but they change while the server grows, shrinks
or moves.
Example:
physical_volume { "/dev/hdc":
ensure => present,
unless_vg => "myvg",
}
volume_group { "myvg":
ensure => present,
physical_volumes => "/dev/hdc",
createonly => true,
}
See tasks reference
See plans reference
Due to puppet's lack of composite keys for resources, you currently
cannot define two logical_volume
resources with the same name but
a different volume_group
.
You should not remove a physical_volume
from a volume_group
without ensuring the physical volume is no longer in use by a logical
volume (and possibly doing a data migration with the pvmove
executable).
Removing a physical_volume
from a volume_group
resource will cause the
pvreduce
to be executed -- no attempt is made to ensure pvreduce
does not attempt to remove a physical volume in-use.
Logical volume size can be extended, but not reduced -- this is for safety, as manual intervention is probably required for data migration, etc.
Some facts reported by this module are being deprecated in favor of upcoming structured facts. The following facts are being deprecated:
lvm_vg_*
lvm_vg_*_pvs
lvm_pv_*
This codebase is licensed under the GPL 2.0, however due to the nature of the codebase the open source dependencies may also use a combination of AGPL, BSD-2, BSD-3, GPL2.0, LGPL, MIT and MPL.
Bruce Williams [email protected]
Daniel Kerwin [email protected]
Luke Kanies [email protected]
Matthaus Litteken [email protected]
Michael Stahnke [email protected]
Mikael Fridh [email protected]
Tim Hawes [email protected]
Yury V. Zaytsev [email protected]
csschwe [email protected]
windowsrefund [email protected]
Adam Gibbins [email protected]
Steffen Zieger [email protected]
Jason A. Smith [email protected]
Mathieu Bornoz [email protected]
Cédric Jeanneret [email protected]
Raphaël Pinson [email protected]
Garrett Honeycutt [email protected]