.TH "LVMLOCKD" "8" "LVM TOOLS #VERSION#" "Red Hat, Inc" "\"" .SH NAME lvmlockd \(em LVM locking daemon .SH DESCRIPTION LVM commands use lvmlockd to coordinate access to shared storage. .br When LVM is used on devices shared by multiple hosts, locks will: .IP \[bu] 2 coordinate reading and writing of LVM metadata .IP \[bu] 2 validate caching of LVM metadata .IP \[bu] 2 prevent concurrent activation of logical volumes .P lvmlockd uses an external lock manager to perform basic locking. .br Lock manager (lock type) options are: .IP \[bu] 2 sanlock: places locks on disk within LVM storage. .IP \[bu] 2 dlm: uses network communication and a cluster manager. .P .SH OPTIONS lvmlockd [options] For default settings, see lvmlockd -h. .B --help | -h Show this help information. .B --version | -V Show version of lvmlockd. .B --test | -T Test mode, do not call lock manager. .B --foreground | -f Don't fork. .B --daemon-debug | -D Don't fork and print debugging to stdout. .B --pid-file | -p .I path Set path to the pid file. .B --socket-path | -s .I path Set path to the socket to listen on. .B --syslog-priority | -S err|warning|debug Write log messages from this level up to syslog. .B --gl-type | -g .I str Set global lock type to be sanlock|dlm. .B --host-id | -i .I num Set the local sanlock host id. .B --host-id-file | -F .I path A file containing the local sanlock host_id. .B --sanlock-timeout | -o .I seconds Override the default sanlock I/O timeout. .B --adopt | A 0|1 Adopt locks from a previous instance of lvmlockd. .SH USAGE .SS Initial set up Using LVM with lvmlockd for the first time includes some one-time set up steps: .SS 1. choose a lock manager .I dlm .br If dlm (or corosync) are already being used by other cluster software, then select dlm. dlm uses corosync which requires additional configuration beyond the scope of this document. See corosync and dlm documentation for instructions on configuration, setup and usage. .I sanlock .br Choose sanlock if dlm/corosync are not otherwise required. sanlock does not depend on any clustering software or configuration. .SS 2. configure hosts to use lvmlockd On all hosts running lvmlockd, configure lvm.conf: .nf locking_type = 1 use_lvmlockd = 1 use_lvmetad = 1 .fi .I sanlock .br Assign each host a unique host_id in the range 1-2000 by setting .br /etc/lvm/lvmlocal.conf local/host_id = .SS 3. start lvmlockd Use a service/init file if available, or just run "lvmlockd". .SS 4. start lock manager .I sanlock .br systemctl start wdmd sanlock .I dlm .br Follow external clustering documentation when applicable, otherwise: .br systemctl start corosync dlm .SS 5. create VGs on shared devices vgcreate --shared The vgcreate --shared option sets the VG lock type to sanlock or dlm depending on which lock manager is running. LVM commands will perform locking for the VG using lvmlockd. .SS 6. start VGs on all hosts vgchange --lock-start lvmlockd requires shared VGs to be "started" before they are used. This is a lock manager operation to start/join the VG lockspace, and it may take some time. Until the start completes, locks for the VG are not available. LVM commands are allowed to read the VG while start is in progress. (A service/init file can be used to start VGs.) .SS 7. create and activate LVs Standard lvcreate and lvchange commands are used to create and activate LVs in a lockd VG. An LV activated exclusively on one host cannot be activated on another. When multiple hosts need to use the same LV concurrently, the LV can be activated with a shared lock (see lvchange options -aey vs -asy.) (Shared locks are disallowed for certain LV types that cannot be used from multiple hosts.) .SS Normal start up and shut down After initial set up, start up and shut down include the following general steps. They can be performed manually or using the system init/service manager. .IP \[bu] 2 start lvmetad .IP \[bu] 2 start lvmlockd .IP \[bu] 2 start lock manager .IP \[bu] 2 vgchange --lock-start .IP \[bu] 2 activate LVs in shared VGs .P The shut down sequence is the reverse: .IP \[bu] 2 deactivate LVs in shared VGs .IP \[bu] 2 vgchange --lock-stop .IP \[bu] 2 stop lock manager .IP \[bu] 2 stop lvmlockd .IP \[bu] 2 stop lvmetad .P .SH TOPICS .SS locking terms The following terms are used to distinguish VGs that require locking from those that do not. .I "lockd VG" A "lockd VG" is a shared VG that has a "lock type" of dlm or sanlock. Using it requires lvmlockd. These VGs exist on shared storage that is visible to multiple hosts. LVM commands use lvmlockd to perform locking for these VGs when they are used. If the lock manager for a lock type is not available (e.g. not started or failed), lvmlockd is not able to acquire locks from it, and LVM commands are unable to fully use VGs with the given lock type. Commands generally allow reading VGs in this condition, but changes and activation are not allowed. Maintaining a properly running lock manager can require background not covered here. .I "local VG" A "local VG" is meant to be used by a single host. It has no lock type or lock type "none". LVM commands and lvmlockd do not perform locking for these VGs. A local VG typically exists on local (non-shared) devices and cannot be used concurrently from different hosts. If a local VG does exist on shared devices, it should be owned by a single host by having its system ID set, see .BR lvmsystemid (7). Only the host with a matching system ID can use the local VG. A VG with no lock type and no system ID should be excluded from all but one host using lvm.conf filters. Without any of these protections, a local VG on shared devices can be easily damaged or destroyed. .I "clvm VG" A "clvm VG" is a VG on shared storage (like a lockd VG) that requires clvmd for clustering. See below for converting a clvm VG to a lockd VG. .SS lockd VGs from hosts not using lvmlockd Only hosts that will use lockd VGs should be configured to run lvmlockd. However, devices with lockd VGs may be visible from hosts not using lvmlockd. From a host not using lvmlockd, visible lockd VGs are ignored in the same way as foreign VGs, i.e. those with a foreign system ID, see .BR lvmsystemid (7). The --shared option displays lockd VGs on a host not using lvmlockd, like the --foreign option does for foreign VGs. .SS vgcreate differences Forms of the vgcreate command: .B vgcreate .IP \[bu] 2 Creates a local VG with the local system ID when neither lvmlockd nor clvm are configured. .IP \[bu] 2 Creates a local VG with the local system ID when lvmlockd is configured. .IP \[bu] 2 Creates a clvm VG when clvm is configured. .P .B vgcreate --shared .IP \[bu] 2 Requires lvmlockd to be configured (use_lvmlockd=1). .IP \[bu] 2 Creates a lockd VG with lock type sanlock|dlm depending on which is running. .IP \[bu] 2 LVM commands request locks from lvmlockd to use the VG. .IP \[bu] 2 lvmlockd obtains locks from the selected lock manager. .P .B vgcreate -c|--clustered y .IP \[bu] 2 Requires clvm to be configured (locking_type=3). .IP \[bu] 2 Creates a clvm VG with the "clustered" flag. .IP \[bu] 2 LVM commands request locks from clvmd to use the VG. .P .SS using lockd VGs When use_lvmlockd is first enabled, and before the first lockd VG is created, no global lock will exist, and LVM commands will try and fail to acquire it. LVM commands will report a warning until the first lockd VG is created which will create the global lock. Before the global lock exists, VGs can still be read, but commands that require the global lock exclusively will fail. When a new lockd VG is created, its lockspace is automatically started on the host that creates the VG. Other hosts will need to run 'vgchange --lock-start' to start the new VG before they can use it. From the 'vgs' command, lockd VGs are indicated by "s" (for shared) in the sixth attr field. The specific lock type and lock args for a lockd VG can be displayed with 'vgs -o+locktype,lockargs'. .SS starting and stopping VGs Starting a lockd VG (vgchange --lock-start) causes the lock manager to start or join the lockspace for the VG. This makes locks for the VG accessible to the host. Stopping the VG leaves the lockspace and makes locks for the VG inaccessible to the host. Lockspaces should be started as early as possible because starting (joining) a lockspace can take a long time (potentially minutes after a host failure when using sanlock.) A VG can be started after all the following are true: .nf - lvmlockd is running - lock manager is running - VG is visible to the system .fi All lockd VGs can be started/stopped using: .br vgchange --lock-start .br vgchange --lock-stop Individual VGs can be started/stopped using: .br vgchange --lock-start ... .br vgchange --lock-stop ... To make vgchange not wait for start to complete: .br vgchange --lock-start --lock-opt nowait .br vgchange --lock-start --lock-opt nowait To stop all lockspaces and wait for all to complete: .br lvmlockctl --stop-lockspaces --wait To start only selected lockd VGs, use the lvm.conf activation/lock_start_list. When defined, only VG names in this list are started by vgchange. If the list is not defined (the default), all visible lockd VGs are started. To start only "vg1", use the following lvm.conf configuration: .nf activation { lock_start_list = [ "vg1" ] ... } .fi .SS automatic starting and automatic activation Scripts or programs on a host that automatically start VGs will use the "auto" option to indicate that the command is being run automatically by the system: vgchange --lock-start --lock-opt auto [vg_name ...] Without any additional configuration, including the "auto" option has no effect; all VGs are started unless restricted by lock_start_list. However, when the lvm.conf activation/auto_lock_start_list is defined, the auto start command performs an additional filtering phase to all VGs being started, testing each VG name against the auto_lock_start_list. The auto_lock_start_list defines lockd VGs that will be started by the auto start command. Visible lockd VGs not included in the list are ignored by the auto start command. If the list is undefined, all VG names pass this filter. (The lock_start_list is also still used to filter all VGs.) The auto_lock_start_list allows a user to select certain lockd VGs that should be automatically started by the system (or indirectly, those that should not). To use auto activation of lockd LVs (see auto_activation_volume_list), auto starting of the corresponding lockd VGs is necessary. .SS locking activity To optimize the use of LVM with lvmlockd, consider the three kinds of locks in lvmlockd and when they are used: .I GL lock The global lock (GL lock) is associated with global information, which is information not isolated to a single VG. This includes: - The global VG namespace. .br - The set of orphan PVs and unused devices. .br - The properties of orphan PVs, e.g. PV size. The global lock is used in shared mode by commands that read this information, or in exclusive mode by commands that change it. The command 'vgs' acquires the global lock in shared mode because it reports the list of all VG names. The vgcreate command acquires the global lock in exclusive mode because it creates a new VG name, and it takes a PV from the list of unused PVs. When an LVM command is given a tag argument, or uses select, it must read all VGs to match the tag or selection, which causes the global lock to be acquired. To avoid use of the global lock, avoid using tags and select, and specify VG name arguments. When use_lvmlockd is enabled, LVM commands attempt to acquire the global lock even if no lockd VGs exist. For this reason, lvmlockd should not be enabled unless lockd VGs will be used. .I VG lock A VG lock is associated with each VG. The VG lock is acquired in shared mode to read the VG and in exclusive mode to change the VG (modify the VG metadata). This lock serializes modifications to a VG with all other LVM commands accessing the VG from all hosts. The command 'vgs' will not only acquire the GL lock to read the list of all VG names, but will acquire the VG lock for each VG prior to reading it. The command 'vgs ' does not acquire the GL lock (it does not need the list of all VG names), but will acquire the VG lock on each VG name argument. .I LV lock An LV lock is acquired before the LV is activated, and is released after the LV is deactivated. If the LV lock cannot be acquired, the LV is not activated. LV locks are persistent and remain in place after the activation command is done. GL and VG locks are transient, and are held only while an LVM command is running. .I retries If a request for a GL or VG lock fails due to a lock conflict with another host, lvmlockd automatically retries for a short time before returning a failure to the LVM command. The LVM command will then retry the entire lock request a number of times specified by global/lvmlockd_lock_retries before failing. If a request for an LV lock fails due to a lock conflict, the command fails immediately. .SS sanlock global lock There are some special cases related to the global lock in sanlock VGs. The global lock exists in one of the sanlock VGs. The first sanlock VG created will contain the global lock. Subsequent sanlock VGs will each contain disabled global locks that can be enabled later if necessary. The VG containing the global lock must be visible to all hosts using sanlock VGs. This can be a reason to create a small sanlock VG, visible to all hosts, and dedicated to just holding the global lock. While not required, this strategy can help to avoid difficulty in the future if VGs are moved or removed. The vgcreate command typically acquires the global lock, but in the case of the first sanlock VG, there will be no global lock to acquire until the initial vgcreate is complete. So, creating the first sanlock VG is a special case that skips the global lock. vgcreate for a sanlock VG determines it is the first one to exist if no other sanlock VGs are visible. It is possible that other sanlock VGs do exist but are not visible or started on the host running vgcreate. This raises the possibility of more than one global lock existing. If this happens, commands will warn of the condition, and it should be manually corrected. If the situation arises where more than one sanlock VG contains a global lock, the global lock should be manually disabled in all but one of them with the command: lvmlockctl --gl-disable (The one VG with the global lock enabled must be visible to all hosts.) An opposite problem can occur if the VG holding the global lock is removed. In this case, no global lock will exist following the vgremove, and subsequent LVM commands will fail to acquire it. In this case, the global lock needs to be manually enabled in one of the remaining sanlock VGs with the command: lvmlockctl --gl-enable A small sanlock VG dedicated to holding the global lock can avoid the case where the GL lock must be manually enabled after a vgremove. .SS changing a local VG to a lockd VG All LVs must be inactive to change the lock type. lvmlockd must be configured and running as described in USAGE. Change a local VG to a lockd VG with the command: .br vgchange \-\-lock\-type sanlock|dlm Start the VG on any hosts that need to use it: .br vgchange \-\-lock\-start .SS changing a clvm VG to a lockd VG All LVs must be inactive to change the lock type. 1. Change the clvm VG to a local VG. Within a running clvm cluster, change a clvm VG to a local VG with the command: vgchange \-cn If the clvm cluster is no longer running on any nodes, then extra options can be used forcibly make the VG local. Caution: this is only safe if all nodes have stopped using the VG: vgchange \-\-config 'global/locking_type=0 global/use_lvmlockd=0' .RS \-cn .RE 2. After the VG is local, follow the steps described in "changing a local VG to a lockd VG". .SS vgremove and vgreduce with sanlock VGs vgremove of a sanlock VG will fail if other hosts have the VG started. Run vgchange --lock-stop on all other hosts before vgremove. (It may take several seconds before vgremove recognizes that all hosts have stopped.) A sanlock VG contains a hidden LV called "lvmlock" that holds the sanlock locks. vgreduce cannot yet remove the PV holding the lvmlockd LV. .SS shared LVs When an LV is used concurrently from multiple hosts (e.g. by a multi-host/cluster application or file system), the LV can be activated on multiple hosts concurrently using a shared lock. To activate the LV with a shared lock: lvchange -asy vg/lv. With lvmlockd, an unspecified activation mode is always exclusive, i.e. -ay defaults to -aey. If the LV type does not allow the LV to be used concurrently from multiple hosts, then a shared activation lock is not allowed and the lvchange command will report an error. LV types that cannot be used concurrently from multiple hosts include thin, cache, raid, mirror, and snapshot. lvextend on LV with shared locks is not yet allowed. The LV must be deactivated, or activated exclusively to run lvextend. .SS recover from lost PV holding sanlock locks A number of special manual steps must be performed to restore sanlock locks if the PV holding the locks is lost. Contact the LVM group for help with this process. .\" This is not clean or safe enough to suggest using without help. .\" .\" .SS recover from lost PV holding sanlock locks .\" .\" In a sanlock VG, the locks are stored on a PV within the VG. If this PV .\" is lost, the locks need to be reconstructed as follows: .\" .\" 1. Enable the unsafe lock modes option in lvm.conf so that default locking requirements can be overriden. .\" .\" .nf .\" allow_override_lock_modes = 1 .\" .fi .\" .\" 2. Remove missing PVs and partial LVs from the VG. .\" .\" Warning: this is a dangerous operation. Read the man page .\" for vgreduce first, and try running with the test option. .\" Verify that the only missing PV is the PV holding the sanlock locks. .\" .\" .nf .\" vgreduce --removemissing --force --lock-gl na --lock-vg na .\" .fi .\" .\" 3. If step 2 does not remove the internal/hidden "lvmlock" lv, it should be removed. .\" .\" .nf .\" lvremove --lock-vg na --lock-lv na /lvmlock .\" .fi .\" .\" 4. Change the lock type to none. .\" .\" .nf .\" vgchange --lock-type none --force --lock-gl na --lock-vg na .\" .fi .\" .\" 5. VG space is needed to recreate the locks. If there is not enough space, vgextend the vg. .\" .\" 6. Change the lock type back to sanlock. This creates a new internal .\" lvmlock lv, and recreates locks. .\" .\" .nf .\" vgchange --lock-type sanlock .\" .fi .SS locking system failures .B lvmlockd failure If lvmlockd fails or is killed while holding locks, the locks are orphaned in the lock manager. lvmlockd can be restarted, and it will adopt the locks from the lock manager that had been held by the previous instance. .B dlm/corosync failure If dlm or corosync fail, the clustering system will fence the host using a method configured within the dlm/corosync clustering environment. LVM commands on other hosts will be blocked from acquiring any locks until the dlm/corosync recovery process is complete. .B sanlock lock storage failure If access to the device containing the VG's locks is lost, sanlock cannot renew its leases for locked LVs. This means that the host could soon lose the lease to another host which could activate the LV exclusively. sanlock is designed to never reach the point where two hosts hold the same lease exclusively at once, so the same LV should never be active on two hosts at once when activated exclusively. The current method of handling this involves no action from lvmlockd, which allows sanlock to protect the leases itself. This produces a safe but potentially inconvenient result. Doing nothing from lvmlockd leads to the host's LV locks not being released, which leads to sanlock using the local watchdog to reset the host before another host can acquire any locks held by the local host. LVM commands on other hosts will be blocked from acquiring locks held by the failed/reset host until the sanlock recovery time expires (2-4 minutes). This includes activation of any LVs that were locked by the failed host. It also includes GL/VG locks held by any LVM commands that happened to be running on the failed host at the time of the failure. (In the future, lvmlockd may have the option to suspend locked LVs in response the sanlock leases expiring. This would avoid the need for sanlock to reset the host.) .B sanlock daemon failure If the sanlock daemon fails or exits while a lockspace is started, the local watchdog will reset the host. See previous section for the impact on other hosts. .SS changing dlm cluster name When a dlm VG is created, the cluster name is saved in the VG metadata for the new VG. To use the VG, a host must be in the named cluster. If the cluster name is changed, or the VG is moved to a different cluster, the cluster name for the dlm VG must be changed. To do this: 1. Ensure the VG is not being used by any hosts. 2. The new cluster must be active on the node making the change. .br The current dlm cluster name can be seen by: .br cat /sys/kernel/config/dlm/cluster/cluster_name 3. Change the VG lock type to none: .br vgchange --lock-type none --force 4. Change the VG lock type back to dlm which sets the new cluster name: .br vgchange --lock-type dlm .SS limitations of lvmlockd and lockd VGs lvmlockd currently requires using lvmetad and lvmpolld. If a lockd VG becomes visible after the initial system startup, it is not automatically started through the system service/init manager, and LVs in it are not autoactivated. Things that do not yet work in lockd VGs: .br - creating a new thin pool and a new thin LV in a single command .br - using lvcreate to create cache pools or cache LVs (use lvconvert) .br - using external origins for thin LVs .br - splitting mirrors and snapshots from LVs .br - vgsplit .br - vgmerge .br - resizing an LV that is active in the shared mode on multiple hosts .SS clvmd to lvmlockd transition (See above for converting an existing clvm VG to a lockd VG.) While lvmlockd and clvmd are entirely different systems, LVM usage remains largely the same. Differences are more notable when using lvmlockd's sanlock option. Visible usage differences between lockd VGs with lvmlockd and clvm VGs with clvmd: .IP \[bu] 2 lvm.conf must be configured to use either lvmlockd (use_lvmlockd=1) or clvmd (locking_type=3), but not both. .IP \[bu] 2 vgcreate --shared creates a lockd VG, and vgcreate --clustered y creates a clvm VG. .IP \[bu] 2 lvmlockd adds the option of using sanlock for locking, avoiding the need for network clustering. .IP \[bu] 2 lvmlockd does not require all hosts to see all the same shared devices. .IP \[bu] 2 lvmlockd defaults to the exclusive activation mode whenever the activation mode is unspecified, i.e. -ay means -aey, not -asy. .IP \[bu] 2 lvmlockd commands always apply to the local host, and never have an effect on a remote host. (The activation option 'l' is not used.) .IP \[bu] 2 lvmlockd works with thin and cache pools and LVs. .IP \[bu] 2 lvmlockd saves the cluster name for a lockd VG using dlm. Only hosts in the matching cluster can use the VG. .IP \[bu] 2 lvmlockd requires starting/stopping lockd VGs with vgchange --lock-start and --lock-stop. .IP \[bu] 2 vgremove of a sanlock VG may fail indicating that all hosts have not stopped the lockspace for the VG. Stop the VG lockspace on all uses using vgchange --lock-stop. .IP \[bu] 2 vgreduce of a PV in a sanlock VG may fail if it holds the internal "lvmlock" LV that holds the sanlock locks. .IP \[bu] 2 lvmlockd uses lock retries instead of lock queueing, so high lock contention may require increasing global/lvmlockd_lock_retries to avoid transient lock contention failures. .IP \[bu] 2 The reporting options locktype and lockargs can be used to view lockd VG and LV lock_type and lock_args fields, i.g. vgs -o+locktype,lockargs. In the sixth VG attr field, "s" for "shared" is displayed for lockd VGs. .IP \[bu] 2 If lvmlockd fails or is killed while in use, locks it held remain but are orphaned in the lock manager. lvmlockd can be restarted with an option to adopt the orphan locks from the previous instance of lvmlockd. .P