1
0
mirror of git://sourceware.org/git/lvm2.git synced 2024-12-22 17:35:59 +03:00
lvm2/man/lvmsystemid.7_main

397 lines
12 KiB
Plaintext
Raw Normal View History

.TH "LVMSYSTEMID" "7" "LVM TOOLS #VERSION#" "Red Hat, Inc" "\""
.SH NAME
lvmsystemid \(em LVM system ID
.SH DESCRIPTION
The \fBlvm\fP(8) system ID restricts Volume Group (VG) access to one host.
This is useful when a VG is placed on shared storage devices, or when
local devices are visible to both host and guest operating systems. In
cases like these, a VG can be visible to multiple hosts at once, and some
mechanism is needed to protect it from being used by more than one host at
a time.
A VG's system ID identifies one host as the VG owner. The host with a
matching system ID can use the VG and its LVs, while LVM on other hosts
will ignore it. This protects the VG from being accidentally used from
other hosts.
The system ID is a string that uniquely identifies a host. It can be
configured as a custom value, or it can be assigned automatically by LVM
using some unique identifier already available on the host, e.g.
machine-id or uname.
When a new VG is created, the system ID of the local host is recorded in
the VG metadata. The creating host then owns the new VG, and LVM on other
hosts will ignore it. When an existing, exported VG is imported
(vgimport), the system ID of the local host is saved in the VG metadata,
and the importing host owns the VG.
A VG without a system ID can be used by LVM on any host where the VG's
devices are visible. When system IDs are not used, device filters should
be configured on all hosts to exclude the VG's devices from all but one
host.
A
.B foreign VG
is a VG seen by a host with an unmatching system ID, i.e. the system ID
in the VG metadata does not match the system ID configured on the host.
If the host has no system ID, and the VG does, the VG is foreign and LVM
will ignore it. If the VG has no system ID, access is unrestricted, and
LVM can access it from any host, whether the host has a system ID or not.
Changes to a host's system ID and a VG's system ID can be made in limited
circumstances (see vgexport and vgimport). Improper changes can result in
a host losing access to its VG, or a VG being accidentally damaged by
access from an unintended host. Even limited changes to the VG system ID
may not be perfectly reflected across hosts. A more coherent view of
shared storage requires an inter-host locking system to coordinate access
and update caches.
Valid system ID characters are the same as valid VG name characters. If a
system ID contains invalid characters, those characters are omitted and
remaining characters are used. If a system ID is longer than the maximum
name length, the characters up to the maximum length are used. The
maximum length of a system ID is 128 characters.
Print the system ID of a VG to check if it is set:
.B vgs -o systemid
.I VG
Print the system ID of the local host to check if it is configured:
.B lvm systemid
.SS Limitations and warnings
To benefit fully from system ID, all hosts should have a system ID
configured, and all VGs should have a system ID set. Without any method
to restrict access, e.g. system ID or device filters, a VG that is visible
to multiple hosts can be accidentally damaged or destroyed.
.IP \[bu] 2
A VG without a system ID can be used without restriction from any host
where it is visible, even from hosts that have a system ID.
.IP \[bu] 2
Many VGs will not have a system ID set because LVM has not enabled it by
default, and even when enabled, many VGs were created before the feature
was added to LVM or enabled. A system ID can be assigned to these VGs by
using vgchange --systemid (see below).
.IP \[bu] 2
Two hosts should not be assigned the same system ID. Doing so defeats
the purpose of distinguishing different hosts with this value.
.IP \[bu] 2
Orphan PVs (or unused devices) on shared storage are unprotected by the
system ID feature. Commands that use these PVs, such as vgcreate or
vgextend, are not prevented from performing conflicting operations and
corrupting the PVs. See the
.B orphans
section for more information.
.IP \[bu] 2
The system ID does not protect devices in VG from programs other than LVM.
.IP \[bu] 2
A host using an old version of LVM without the system ID feature will not
recognize a system ID in VGs from other hosts. Even though the old
version of LVM is not blocked from reading a VG with a system ID, it is
blocked from writing to the VG (or its LVs). The system ID feature
changes the write mode of a VG, making it appear read-only to previous
versions of LVM.
This also means that if a host downgrades its version of LVM, it would
lose access to any VGs it had created with a system ID. To avoid this,
the system ID should be removed from VGs before downgrading to an LVM
version without the system ID feature.
.SS Types of VG access
2015-03-05 23:00:44 +03:00
2015-10-08 21:14:28 +03:00
A local VG is meant to be used by a single host.
2015-03-05 23:00:44 +03:00
A shared or clustered VG is meant to be used by multiple hosts.
These can be further distinguished as:
.B Unrestricted:
A local VG that has no system ID. This VG type is unprotected and
accessible to any host.
.B Owned:
A local VG that has a system ID set, as viewed from the host with a
matching system ID (the owner). This VG type is acessible to the host.
.B Foreign:
A local VG that has a system ID set, as viewed from any host with an
unmatching system ID (or no system ID). It is owned by another host.
This VG type is not accessible to the host.
.B Exported:
A local VG that has been exported with vgexport and has no system ID.
This VG type can only be accessed by vgimport which will change it to
owned.
2015-03-05 23:00:44 +03:00
.B Shared:
A shared or "lockd" VG has the lock_type set and has no system ID.
2015-03-05 23:00:44 +03:00
A shared VG is meant to be used on shared storage from multiple hosts,
and is only accessible to hosts using lvmlockd. Applicable only if LVM
is compiled with lvmlockd support.
2015-03-05 23:00:44 +03:00
.B Clustered:
A clustered or "clvm" VG has the clustered flag set and has no system ID.
2015-03-05 23:00:44 +03:00
A clustered VG is meant to be used on shared storage from multiple hosts,
and is only accessible to hosts using clvmd. Applicable only if LVM
is compiled with clvm support.
.SS Host system ID configuration
A host's own system ID can be defined in a number of ways. lvm.conf
global/system_id_source defines the method LVM will use to find the local
system ID:
.TP
.B none
.br
LVM will not use a system ID. LVM is allowed to access VGs without a
system ID, and will create new VGs without a system ID. An undefined
system_id_source is equivalent to none.
.I lvm.conf
.nf
global {
system_id_source = "none"
}
.fi
.TP
.B machineid
.br
The content of /etc/machine-id is used as the system ID if available.
See
.BR machine-id (5)
and
.BR systemd-machine-id-setup (1)
to check if machine-id is available on the host.
.I lvm.conf
.nf
global {
system_id_source = "machineid"
}
.fi
.TP
.B uname
.br
The string utsname.nodename from
.BR uname (2)
is used as the system ID. A uname beginning with "localhost"
is ignored and equivalent to none.
.I lvm.conf
.nf
global {
system_id_source = "uname"
}
.fi
.TP
.B lvmlocal
.br
The system ID is defined in lvmlocal.conf local/system_id.
.I lvm.conf
.nf
global {
system_id_source = "lvmlocal"
}
.fi
.I lvmlocal.conf
.nf
local {
system_id = "example_name"
}
.fi
.TP
.B file
.br
The system ID is defined in a file specified by lvm.conf
global/system_id_file.
.I lvm.conf
.nf
global {
system_id_source = "file"
system_id_file = "/path/to/file"
}
.fi
.LP
Changing system_id_source will likely cause the system ID of the host to
change, which will prevent the host from using VGs that it previously used
(see extra_system_ids below to handle this.)
If a system_id_source other than none fails to produce a system ID value,
it is the equivalent of having none. The host will be allowed to access
VGs with no system ID, but will not be allowed to access VGs with a system
ID set.
.SS Overriding system ID
In some cases, it may be necessary for a host to access VGs with different
system IDs, e.g. if a host's system ID changes, and it wants to use VGs
that it created with its old system ID. To allow a host to access VGs
with other system IDs, those other system IDs can be listed in
lvmlocal.conf local/extra_system_ids.
.I lvmlocal.conf
.nf
local {
extra_system_ids = [ "my_other_name" ]
}
.fi
A safer option may be configuring the extra values as needed on the
command line as:
.br
\fB--config 'local/extra_system_ids=["\fP\fIid\fP\fB"]'\fP
.SS vgcreate
In vgcreate, the host running the command assigns its own system ID to the
new VG. To override this and set another system ID:
.B vgcreate --systemid
.I SystemID VG PVs
Overriding the host's system ID makes it possible for a host to create a
VG that it may not be able to use. Another host with a system ID matching
the one specified may not recognize the new VG without manually rescanning
devices.
If the --systemid argument is an empty string (""), the VG is created with
no system ID, making it accessible to other hosts (see warnings above.)
.SS report/display
The system ID of a VG is displayed with the "systemid" reporting option.
Report/display commands ignore foreign VGs by default. To report foreign
VGs, the --foreign option can be used. This causes the VGs to be read
from disk. Because lvmetad caching is not used, this option can cause
poor performance.
.B vgs --foreign -o +systemid
When a host with no system ID sees foreign VGs, it warns about them as
they are skipped. The host should be assigned a system ID, after which
standard reporting commands will silently ignore foreign VGs.
.SS vgexport/vgimport
vgexport clears the system ID.
Other hosts will continue to see a newly exported VG as foreign because of
local caching (when lvmetad is used). Manually updating the local lvmetad
cache with pvscan --cache will allow a host to recognize the newly
exported VG.
vgimport sets the VG system ID to the system ID of the host doing the
import. vgimport automatically scans storage for newly exported VGs.
After vgimport, the exporting host may continue to see the VG as exported,
and not owned by the new host. Manually updating the local cache with
pvscan --cache will allow a host to recognize the newly imported VG as
foreign.
.SS vgchange
A host can change the system ID of its own VGs, but the command requires
confirmation because the host may lose access to the VG being changed:
.B vgchange --systemid
.I SystemID VG
The system ID can be removed from a VG by specifying an empty string ("")
as the new system ID. This makes the VG accessible to other hosts (see
warnings above.)
A host cannot directly change the system ID of a foreign VG.
To move a VG from one host to another, vgexport and vgimport should be
used.
To forcibly gain ownership of a foreign VG, a host can temporarily add the
foreign system ID to its extra_system_ids list, and change the system ID
of the foreign VG to its own. See Overriding system ID above.
2015-03-05 23:00:44 +03:00
.SS shared VGs
A shared/lockd VG has no system ID set, allowing multiple hosts to use it
via lvmlockd. Changing a VG to a lockd type will clear the existing
system ID. Applicable only if LVM is compiled with lockd support.
2015-03-05 23:00:44 +03:00
.SS clustered VGs
A clustered/clvm VG has no system ID set, allowing multiple hosts to use
it via clvmd. Changing a VG to clustered will clear the existing system
ID. Changing a VG to not clustered will set the system ID to the host
running the vgchange command.
.SS creation_host
In vgcreate, the VG metadata field creation_host is set by default to the
host's uname. The creation_host cannot be changed, and is not used to
control access. When system_id_source is "uname", the system_id and
creation_host fields will be the same.
.SS orphans
Orphan PVs are unused devices; they are not currently used in any VG.
Because of this, they are not protected by a system ID, and any host can
2015-10-08 21:21:42 +03:00
use them. Coordination of changes to orphan PVs is beyond the scope of
system ID. The same is true of any block device that is not a PV.
The effects of this are especially evident when LVM uses lvmetad caching.
For example, if multiple hosts see an orphan PV, and one host creates a VG
using the orphan, the other hosts will continue to report the PV as an
orphan. Nothing would automatically prevent the other hosts from using
the newly allocated PV and corrupting it. If the other hosts run a
command to rescan devices, and update lvmetad, they would then recognize
2015-10-08 21:21:42 +03:00
that the PV has been used by another host. A command that rescans devices
could be pvscan --cache, or vgs --foreign.
.SH SEE ALSO
.BR vgcreate (8),
.BR vgchange (8),
.BR vgimport (8),
.BR vgexport (8),
.BR vgs (8),
.BR lvmlockd (8),
.BR lvm.conf (5),
.BR machine-id (5),
.BR uname (2)