libvirt/docs/locking-lockd.html.in

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    <h1>Virtual machine lock manager, virtlockd plugin</h1>

    <ul id="toc"></ul>

    <p>
      This page describes use of the <code>virtlockd</code>
      service as a <a href="locking.html">lock driver</a>
      plugin for virtual machine disk mutual exclusion.
    </p>

    <h2><a id="background">virtlockd background</a></h2>

    <p>
      The virtlockd daemon is a single purpose binary which
      focuses exclusively on the task of acquiring and holding
      locks on behalf of running virtual machines. It is
      designed to offer a low overhead, portable locking
      scheme can be used out of the box on virtualization
      hosts with minimal configuration overheads. It makes
      use of the POSIX fcntl advisory locking capability
      to hold locks, which is supported by the majority of
      commonly used filesystems.
    </p>

    <h2><a id="sanlock">virtlockd daemon setup</a></h2>

    <p>
      In most OS, the virtlockd daemon itself will not require
      any upfront configuration work. It is installed by default
      when libvirtd is present, and a systemd socket unit is
      registered such that the daemon will be automatically
      started when first required. With OS that predate systemd
      though, it will be necessary to start it at boot time,
      prior to libvirtd being started. On RHEL/Fedora distros,
      this can be achieved as follows
    </p>

    <pre>
# chkconfig virtlockd on
# service virtlockd start
    </pre>

    <p>
      The above instructions apply to the instance of virtlockd
      that runs privileged, and is used by the libvirtd daemon
      that runs privileged. If running libvirtd as an unprivileged
      user, it will always automatically spawn an instance of
      the virtlockd daemon unprivileged too. This requires no
      setup at all.
    </p>

    <h2><a id="lockdplugin">libvirt lockd plugin configuration</a></h2>

    <p>
      Once the virtlockd daemon is running, or setup to autostart,
      the next step is to configure the libvirt lockd plugin.
      There is a separate configuration file for each libvirt
      driver that is using virtlockd. For QEMU, we will edit
      <code>/etc/libvirt/qemu-lockd.conf</code>
    </p>

    <p>
      The default behaviour of the lockd plugin is to acquire locks
      directly on the virtual disk images associated with the guest
      &lt;disk&gt; elements. This ensures it can run out of the box
      with no configuration, providing locking for disk images on
      shared filesystems such as NFS. It does not provide any cross
      host protection for storage that is backed by block devices,
      since locks acquired on device nodes in /dev only apply within
      the host. It may also be the case that the filesystem holding
      the disk images is not capable of supporting fcntl locks.
    </p>

    <p>
      To address these problems it is possible to tell lockd to
      acquire locks on an indirect file. Essentially lockd will
      calculate the SHA256 checksum of the fully qualified path,
      and create a zero length file in a given directory whose
      filename is the checksum. It will then acquire a lock on
      that file. Assuming the block devices assigned to the guest
      are using stable paths (eg /dev/disk/by-path/XXXXXXX) then
      this will allow for locks to apply across hosts. This
      feature can be enabled by setting a configuration setting
      that specifies the directory in which to create the lock
      files. The directory referred to should of course be
      placed on a shared filesystem (eg NFS) that is accessible
      to all hosts which can see the shared block devices.
    </p>

    <pre>
$ su - root
# augtool -s set \
  /files/etc/libvirt/qemu-lockd.conf/file_lockspace_dir \
  "/var/lib/libvirt/lockd/files"
    </pre>

    <p>
      If the guests are using either LVM and SCSI block devices
      for their virtual disks, there is a unique identifier
      associated with each device. It is possible to tell lockd
      to use this UUID as the basis for acquiring locks, rather
      than the SHA256 sum of the filename. The benefit of this
      is that the locking protection will work even if the file
      paths to the given block device are different on each
      host.
    </p>

    <pre>
$ su - root
# augtool -s set \
  /files/etc/libvirt/qemu-lockd.conf/scsi_lockspace_dir \
  "/var/lib/libvirt/lockd/scsi"
# augtool -s set \
  /files/etc/libvirt/qemu-lockd.conf/lvm_lockspace_dir \
  "/var/lib/libvirt/lockd/lvm"
    </pre>

    <p>
      It is important to remember that the changes made to the
      <code>/etc/libvirt/qemu-lockd.conf</code> file must be
      propagated to all hosts before any virtual machines are
      launched on them. This ensures that all hosts are using
      the same locking mechanism
    </p>

    <h2><a id="qemuconfig">QEMU/KVM driver configuration</a></h2>

    <p>
      The QEMU driver is capable of using the virtlockd plugin
      since the release <span>1.0.2</span>.
      The out of the box configuration, however, currently
      uses the <strong>nop</strong> lock manager plugin.
      To get protection for disks, it is thus necessary
      to reconfigure QEMU to activate the <strong>lockd</strong>
      driver. This is achieved by editing the QEMU driver
      configuration file (<code>/etc/libvirt/qemu.conf</code>)
      and changing the <code>lock_manager</code> configuration
      tunable.
    </p>

    <pre>
$ su - root
# augtool -s  set /files/etc/libvirt/qemu.conf/lock_manager lockd
# service libvirtd restart
    </pre>

    <p>
      Every time you start a guest, the virtlockd daemon will acquire
      locks on the disk files directly, or in one of the configured
      lookaside directories based on SHA256 sum. To check that locks
      are being acquired as expected, the <code>lslocks</code> tool
      can be run.
    </p>

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