Two-Node High Availability Cluster
|Note: This is a work in progress, stay tuned!|
|Note: Article about Proxmox VE 2.0 beta|
This article explores how to build a two-node cluster with HA enabled under Proxmox. HA is generally recommended to be deployed on at least three nodes to prevent strange behaviours and potentially lethal data incoherences (for further info look for "Quorum". Nevertheless, with some tweaking, it is also possible to successfully use Proxmox to run on a two-node cluster.
Although in the case of two-node clusters it is recommended to use a third, shared quorum disk partition, Proxmox allows to build the cluster without it. Let's see how.
If you run HA, only high end server hardware with no single point of failure should be used. This includes redundant disks (Hardware Raid), redundant power supply, UPS systems, network bonding.
- Fully configured Proxmox_VE_2.0_Cluster, with 2 nodes.
- Shared storage (SAN for Virtual Disk Image Store for HA KVM). In this case, no external storage was used. Instead, a cheaper alternative (DRBD) was tested.
- Reliable network, suitable configured
- Fencing device(s) - reliable and TESTED!. We will use HP's iLO for this example.
What is DRBD used for?
For this testing configuration, two DRBD resources were created, one for VM images an another one for VMs users data. Thanks to DRBD (if properly configured), a mirror raid is created through the network (be aware that, although possible, using WANs would mean high latencies). As VMs and data is replicated synchronously in both nodes, if one of them fails, it will be possible to restart "dead" machines on the other node without data loss.
Fencing is vital for Proxmox to manage a node loss and thus provide effective HA. Fencing is the mechanism used to prevent data inconsistences between nodes in a cluster by ensuring that a node reported as "dead" is really down. If it isn't a reboot or power-off signal is sent to force it to go to a safe state.
Problems and workarounds
Under some cirumstances, data consistence between both nodes on DRBD partitions can be lost. In this case, the only efficient way to solve this is by manually intervention. The cluster administrator must decide which node data must be preserved and which one is discarded to gain data coherence again. Under DRBD, split-brain situations will probably occur when data connection is lost for longer than a few seconds.
Lets consider a failure scenario where node A is the node where we had the most machines running and thus the one we want to conserve data. Therefore, node B changes made to DRBD partition while the split-brain situation lasted, must be discarded. We consider a Primary/Primary configuration for DRBD. The procedure to follow would be :
- Go to a node B terminal (repeat for each DRBD resource where quorum is lost):
drbdadm secondary [resource name] drbdadm disconnect [resource name] drbdadm -- --discard-my-data connect [resource name]
- Go to a node A terminal (repeat for each DRBD resource where quorum is lost):
drbdadm connect [resource name]
- Go back to node B terminal (repeat for each DRBD resource where quorum is lost):
drbdadm primary [resource name]