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active-active.rst
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.. index::
single: storage; active/active
Convert Storage to Active/Active
--------------------------------
The primary requirement for an active/active cluster is that the data
required for your services is available, simultaneously, on both
machines. Pacemaker makes no requirement on how this is achieved; you
could use a Storage Area Network (SAN) if you had one available, but
since DRBD supports multiple Primaries, we can continue to use it here.
.. index::
single: GFS2
single: DLM
single: filesystem; GFS2
Install Cluster Filesystem Software
###################################
The only hitch is that we need to use a cluster-aware filesystem. The
one we used earlier with DRBD, xfs, is not one of those. Both OCFS2
and GFS2 are supported; here, we will use GFS2.
On both nodes, install Distributed Lock Manager (DLM) and the GFS2 command-
line utilities required by cluster filesystems:
.. code-block:: console
# dnf config-manager --set-enabled resilientstorage
# dnf install -y dlm gfs2-utils
Configure the Cluster for the DLM
#################################
The DLM control daemon needs to run on both nodes, so we'll start by creating a
resource for it (using the ``ocf:pacemaker:controld`` resource agent), and
clone it:
.. code-block:: console
[root@pcmk-1 ~]# pcs cluster cib dlm_cfg
[root@pcmk-1 ~]# pcs -f dlm_cfg resource create dlm \
ocf:pacemaker:controld op monitor interval=60s
[root@pcmk-1 ~]# pcs -f dlm_cfg resource clone dlm clone-max=2 clone-node-max=1
[root@pcmk-1 ~]# pcs resource status
* ClusterIP (ocf:heartbeat:IPaddr2): Started pcmk-1
* WebSite (ocf:heartbeat:apache): Started pcmk-1
* Clone Set: WebData-clone [WebData] (promotable):
* Promoted: [ pcmk-1 ]
* Unpromoted: [ pcmk-2 ]
* WebFS (ocf:heartbeat:Filesystem): Started pcmk-1
Activate our new configuration, and see how the cluster responds:
.. code-block:: console
[root@pcmk-1 ~]# pcs cluster cib-push dlm_cfg --config
CIB updated
[root@pcmk-1 ~]# pcs resource status
* ClusterIP (ocf:heartbeat:IPaddr2): Started pcmk-1
* WebSite (ocf:heartbeat:apache): Started pcmk-1
* Clone Set: WebData-clone [WebData] (promotable):
* Promoted: [ pcmk-1 ]
* Unpromoted: [ pcmk-2 ]
* WebFS (ocf:heartbeat:Filesystem): Started pcmk-1
* Clone Set: dlm-clone [dlm]:
* Started: [ pcmk-1 pcmk-2 ]
[root@pcmk-1 ~]# pcs resource config
Resource: ClusterIP (class=ocf provider=heartbeat type=IPaddr2)
Attributes: cidr_netmask=24 ip=192.168.122.120
Operations: monitor interval=30s (ClusterIP-monitor-interval-30s)
start interval=0s timeout=20s (ClusterIP-start-interval-0s)
stop interval=0s timeout=20s (ClusterIP-stop-interval-0s)
Resource: WebSite (class=ocf provider=heartbeat type=apache)
Attributes: configfile=/etc/httpd/conf/httpd.conf statusurl=http://localhost/server-status
Operations: monitor interval=1min (WebSite-monitor-interval-1min)
start interval=0s timeout=40s (WebSite-start-interval-0s)
stop interval=0s timeout=60s (WebSite-stop-interval-0s)
Clone: WebData-clone
Meta Attrs: clone-max=2 clone-node-max=1 notify=true promotable=true promoted-max=1 promoted-node-max=1
Resource: WebData (class=ocf provider=linbit type=drbd)
Attributes: drbd_resource=wwwdata
Operations: demote interval=0s timeout=90 (WebData-demote-interval-0s)
monitor interval=29s role=Promoted (WebData-monitor-interval-29s)
monitor interval=31s role=Unpromoted (WebData-monitor-interval-31s)
notify interval=0s timeout=90 (WebData-notify-interval-0s)
promote interval=0s timeout=90 (WebData-promote-interval-0s)
reload interval=0s timeout=30 (WebData-reload-interval-0s)
start interval=0s timeout=240 (WebData-start-interval-0s)
stop interval=0s timeout=100 (WebData-stop-interval-0s)
Resource: WebFS (class=ocf provider=heartbeat type=Filesystem)
Attributes: device=/dev/drbd1 directory=/var/www/html fstype=xfs
Operations: monitor interval=20s timeout=40s (WebFS-monitor-interval-20s)
start interval=0s timeout=60s (WebFS-start-interval-0s)
stop interval=0s timeout=60s (WebFS-stop-interval-0s)
Clone: dlm-clone
Meta Attrs: interleave=true ordered=true
Resource: dlm (class=ocf provider=pacemaker type=controld)
Operations: monitor interval=60s (dlm-monitor-interval-60s)
start interval=0s timeout=90s (dlm-start-interval-0s)
stop interval=0s timeout=100s (dlm-stop-interval-0s)
Create and Populate GFS2 Filesystem
###################################
Before we do anything to the existing partition, we need to make sure it
is unmounted. We do this by telling the cluster to stop the ``WebFS`` resource.
This will ensure that other resources (in our case, ``WebSite``) using
``WebFS`` are not only stopped, but stopped in the correct order.
.. code-block:: console
[root@pcmk-1 ~]# pcs resource disable WebFS
[root@pcmk-1 ~]# pcs resource
* ClusterIP (ocf:heartbeat:IPaddr2): Started pcmk-1
* WebSite (ocf:heartbeat:apache): Stopped
* Clone Set: WebData-clone [WebData] (promotable):
* Promoted: [ pcmk-1 ]
* Unpromoted: [ pcmk-2 ]
* WebFS (ocf:heartbeat:Filesystem): Stopped (disabled)
* Clone Set: dlm-clone [dlm]:
* Started: [ pcmk-1 pcmk-2 ]
You can see that both ``WebSite`` and ``WebFS`` have been stopped, and that
``pcmk-1`` is currently running the promoted instance for the DRBD device.
Now we can create a new GFS2 filesystem on the DRBD device.
.. WARNING::
This will erase all previous content stored on the DRBD device. Ensure
you have a copy of any important data.
.. IMPORTANT::
Run the next command on whichever node has the DRBD Primary role.
Otherwise, you will receive the message:
.. code-block:: console
/dev/drbd1: Read-only file system
.. code-block:: console
[root@pcmk-1 ~]# mkfs.gfs2 -p lock_dlm -j 2 -t mycluster:web /dev/drbd1
It appears to contain an existing filesystem (xfs)
This will destroy any data on /dev/drbd1
Are you sure you want to proceed? [y/n] y
Discarding device contents (may take a while on large devices): Done
Adding journals: Done
Building resource groups: Done
Creating quota file: Done
Writing superblock and syncing: Done
Device: /dev/drbd1
Block size: 4096
Device size: 0.50 GB (131059 blocks)
Filesystem size: 0.50 GB (131055 blocks)
Journals: 2
Journal size: 8MB
Resource groups: 4
Locking protocol: "lock_dlm"
Lock table: "mycluster:web"
UUID: 19712677-7206-4660-a079-5d17341dd720
The ``mkfs.gfs2`` command required a number of additional parameters:
* ``-p lock_dlm`` specifies that we want to use DLM-based locking.
* ``-j 2`` indicates that the filesystem should reserve enough
space for two journals (one for each node that will access the filesystem).
* ``-t mycluster:web`` specifies the lock table name. The format for this
field is ``<CLUSTERNAME>:<FSNAME>``. For ``CLUSTERNAME``, we need to use the
same value we specified originally with ``pcs cluster setup --name`` (which is
also the value of ``cluster_name`` in ``/etc/corosync/corosync.conf``). If
you are unsure what your cluster name is, you can look in
``/etc/corosync/corosync.conf`` or execute the command
``pcs cluster corosync | grep cluster_name``.
Now we can (re-)populate the new filesystem with data
(web pages). We'll create yet another variation on our home page.
.. code-block:: console
[root@pcmk-1 ~]# mount /dev/drbd1 /mnt
[root@pcmk-1 ~]# cat <<-END >/mnt/index.html
<html>
<body>My Test Site - GFS2</body>
</html>
END
[root@pcmk-1 ~]# chcon -R --reference=/var/www/html /mnt
[root@pcmk-1 ~]# umount /dev/drbd1
[root@pcmk-1 ~]# drbdadm verify wwwdata
Reconfigure the Cluster for GFS2
################################
With the ``WebFS`` resource stopped, let's update the configuration.
.. code-block:: console
[root@pcmk-1 ~]# pcs resource config WebFS
Resource: WebFS (class=ocf provider=heartbeat type=Filesystem)
Attributes: device=/dev/drbd1 directory=/var/www/html fstype=xfs
Meta Attrs: target-role=Stopped
Operations: monitor interval=20s timeout=40s (WebFS-monitor-interval-20s)
start interval=0s timeout=60s (WebFS-start-interval-0s)
stop interval=0s timeout=60s (WebFS-stop-interval-0s)
The fstype option needs to be updated to ``gfs2`` instead of ``xfs``.
.. code-block:: console
[root@pcmk-1 ~]# pcs resource update WebFS fstype=gfs2
[root@pcmk-1 ~]# pcs resource config WebFS
Resource: WebFS (class=ocf provider=heartbeat type=Filesystem)
Attributes: device=/dev/drbd1 directory=/var/www/html fstype=gfs2
Meta Attrs: target-role=Stopped
Operations: monitor interval=20s timeout=40s (WebFS-monitor-interval-20s)
start interval=0s timeout=60s (WebFS-start-interval-0s)
stop interval=0s timeout=60s (WebFS-stop-interval-0s)
GFS2 requires that DLM be running, so we also need to set up new colocation
and ordering constraints for it:
.. code-block:: console
[root@pcmk-1 ~]# pcs constraint colocation add WebFS with dlm-clone
[root@pcmk-1 ~]# pcs constraint order dlm-clone then WebFS
Adding dlm-clone WebFS (kind: Mandatory) (Options: first-action=start then-action=start)
[root@pcmk-1 ~]# pcs constraint
Location Constraints:
Resource: WebSite
Enabled on:
Node: pcmk-2 (score:50)
Ordering Constraints:
start ClusterIP then start WebSite (kind:Mandatory)
promote WebData-clone then start WebFS (kind:Mandatory)
start WebFS then start WebSite (kind:Mandatory)
start dlm-clone then start WebFS (kind:Mandatory)
Colocation Constraints:
WebSite with ClusterIP (score:INFINITY)
WebFS with WebData-clone (score:INFINITY) (rsc-role:Started) (with-rsc-role:Promoted)
WebSite with WebFS (score:INFINITY)
WebFS with dlm-clone (score:INFINITY)
Ticket Constraints:
We also need to update the ``no-quorum-policy`` property to ``freeze``. By
default, the value of ``no-quorum-policy`` is set to ``stop`` indicating that
once quorum is lost, all the resources on the remaining partition will
immediately be stopped. Typically this default is the safest and most optimal
option, but unlike most resources, GFS2 requires quorum to function. When
quorum is lost both the applications using the GFS2 mounts and the GFS2 mount
itself cannot be correctly stopped. Any attempts to stop these resources
without quorum will fail, which will ultimately result in the entire cluster
being fenced every time quorum is lost.
To address this situation, set ``no-quorum-policy`` to ``freeze`` when GFS2 is
in use. This means that when quorum is lost, the remaining partition will do
nothing until quorum is regained.
.. code-block:: console
[root@pcmk-1 ~]# pcs property set no-quorum-policy=freeze
.. index::
pair: filesystem; clone
Clone the Filesystem Resource
#############################
Now that we have a cluster filesystem ready to go, we can configure the cluster
so both nodes mount the filesystem.
Clone the ``Filesystem`` resource in a new configuration.
Notice how ``pcs`` automatically updates the relevant constraints again.
.. code-block:: console
[root@pcmk-1 ~]# pcs cluster cib active_cfg
[root@pcmk-1 ~]# pcs -f active_cfg resource clone WebFS
[root@pcmk-1 ~]# pcs -f active_cfg constraint
Location Constraints:
Resource: WebSite
Enabled on:
Node: pcmk-2 (score:50)
Ordering Constraints:
start ClusterIP then start WebSite (kind:Mandatory)
promote WebData-clone then start WebFS-clone (kind:Mandatory)
start WebFS-clone then start WebSite (kind:Mandatory)
start dlm-clone then start WebFS-clone (kind:Mandatory)
Colocation Constraints:
WebSite with ClusterIP (score:INFINITY)
WebFS-clone with WebData-clone (score:INFINITY) (rsc-role:Started) (with-rsc-role:Promoted)
WebSite with WebFS-clone (score:INFINITY)
WebFS-clone with dlm-clone (score:INFINITY)
Ticket Constraints:
Tell the cluster that it is now allowed to promote both instances to be DRBD
Primary.
.. code-block:: console
[root@pcmk-1 ~]# pcs -f active_cfg resource update WebData-clone promoted-max=2
Finally, load our configuration to the cluster, and re-enable the ``WebFS``
resource (which we disabled earlier).
.. code-block:: console
[root@pcmk-1 ~]# pcs cluster cib-push active_cfg --config
CIB updated
[root@pcmk-1 ~]# pcs resource enable WebFS
After all the processes are started, the status should look similar to this.
.. code-block:: console
[root@pcmk-1 ~]# pcs resource
* ClusterIP (ocf:heartbeat:IPaddr2): Started pcmk-1
* WebSite (ocf:heartbeat:apache): Started pcmk-1
* Clone Set: WebData-clone [WebData] (promotable):
* Promoted: [ pcmk-1 pcmk-2 ]
* Clone Set: dlm-clone [dlm]:
* Started: [ pcmk-1 pcmk-2 ]
* Clone Set: WebFS-clone [WebFS]:
* Started: [ pcmk-1 pcmk-2 ]
Test Failover
#############
Testing failover is left as an exercise for the reader.
With this configuration, the data is now active/active. The website
administrator could change HTML files on either node, and the live website will
show the changes even if it is running on the opposite node.
If the web server is configured to listen on all IP addresses, it is possible
to remove the constraints between the ``WebSite`` and ``ClusterIP`` resources,
and clone the ``WebSite`` resource. The web server would always be ready to
serve web pages, and only the IP address would need to be moved in a failover.
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