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Caution
You're viewing documentation for a previous version of ScyllaDB Open Source. Switch to the latest stable version.
ScyllaDB relies on the Raft consensus algorithm, which requires at least a quorum of nodes in a cluster to be available. If one or more nodes are down, but the quorum is live, reads, writes, schema updates, and topology changes proceed unaffected. When the node that was down is up again, it first contacts the cluster to fetch the latest schema and then starts serving queries.
The following examples show the recovery actions when one or more nodes or DCs are down, depending on the number of nodes and DCs in your cluster.
Failure |
Consequence |
Action to take |
---|---|---|
1 node |
Schema and topology updates are possible and safe. |
Try restarting the node. If the node is dead, replace it with a new node. |
2 nodes |
Data is available for reads and writes; schema and topology changes are impossible. |
Restart at least 1 of the 2 nodes that are down to regain quorum. If you can’t recover at least 1 of the 2 nodes, consult the manual recovery section. |
Failure |
Consequence |
Action to take |
---|---|---|
1-2 nodes |
Schema and topology updates are possible and safe. |
Try restarting the node(s). If the node is dead, replace it with a new node. |
3 nodes |
Data is available for reads and writes; schema and topology changes are impossible. |
Restart 1 of the 3 nodes that are down to regain quorum. If you can’t recover at least 1 of the 3 failed nodes, consult the manual recovery section. |
1DC |
Data is available for reads and writes; schema and topology changes are impossible. |
When the DCs come back online, restart the nodes. If the DC fails to come back online and the nodes are lost, consult the manual recovery section. |
Failure |
Consequence |
Action to take |
---|---|---|
1-4 nodes |
Schema and topology updates are possible and safe. |
Try restarting the nodes. If the nodes are dead, replace them with new nodes. |
1 DC |
Schema and topology updates are possible and safe. |
When the DC comes back online, try restarting the nodes in the cluster. If the nodes are dead, add 3 new nodes in a new region. |
2 DCs |
Data is available for reads and writes, schema and topology changes are impossible. |
When the DCs come back online, restart the nodes. If at least one DC fails to come back online and the nodes are lost, consult the manual recovery section. |
You can follow the manual recovery procedure when:
The majority of nodes (for example, 2 out of 3) failed and are irrecoverable.
The Raft upgrade procedure or the procedure for enabling consistent topology changes got stuck because one of the nodes failed in the middle of the procedure and is irrecoverable.
Warning
Perform the manual recovery procedure only if you’re dealing with irrecoverable nodes. If possible, restart your nodes, and use the manual recovery procedure as a last resort.
Warning
The manual recovery procedure is not supported if tablets are enabled on any of your keyspaces. In such a case, you need to restore from backup.
During the manual recovery procedure you’ll enter a special RECOVERY
mode, remove
all faulty nodes (using the standard node removal procedure),
delete the internal Raft data, and restart the cluster. This will cause the cluster to
perform the Raft upgrade procedure again, initializing the Raft algorithm from scratch.
The manual recovery procedure is applicable both to clusters that were not running Raft in the past and then had Raft enabled, and to clusters that were bootstrapped using Raft.
Prerequisites
Before proceeding, make sure that the irrecoverable nodes are truly dead, and not, for example, temporarily partitioned away due to a network failure. If it is possible for the ‘dead’ nodes to come back to life, they might communicate and interfere with the recovery procedure and cause unpredictable problems.
If you have no means of ensuring that these irrecoverable nodes won’t come back to life and communicate with the rest of the cluster, setup firewall rules or otherwise isolate your alive nodes to reject any communication attempts from these dead nodes.
Prepare your service for downtime before proceeding.
Entering RECOVERY
mode requires a node restart. Restarting an additional node while
some nodes are already dead may lead to unavailability of data queries (assuming that
you haven’t lost it already). For example, if you’re using the standard RF=3,
CL=QUORUM setup, and you’re recovering from a stuck upgrade procedure because one
of your nodes is dead, restarting another node will cause temporary data query
unavailability (until the node finishes restarting).
Procedure
Perform the following query on every alive node in the cluster, using e.g. cqlsh
:
cqlsh> UPDATE system.scylla_local SET value = 'recovery' WHERE key = 'group0_upgrade_state';
Perform a rolling restart of your alive nodes.
Verify that all the nodes have entered RECOVERY
mode when restarting; look for one of the following messages in their logs:
group0_client - RECOVERY mode. raft_group0 - setup_group0: Raft RECOVERY mode, skipping group 0 setup. raft_group0_upgrade - RECOVERY mode. Not attempting upgrade.
Remove all your dead nodes using the node removal procedure.
Remove existing Raft cluster data by performing the following queries on every alive node in the cluster, using e.g. cqlsh
:
cqlsh> TRUNCATE TABLE system.topology;
cqlsh> TRUNCATE TABLE system.discovery;
cqlsh> TRUNCATE TABLE system.group0_history;
cqlsh> DELETE value FROM system.scylla_local WHERE key = 'raft_group0_id';
Make sure that schema is synchronized in the cluster by executing nodetool describecluster on each node and verifying that the schema version is the same on all nodes.
We can now leave RECOVERY
mode. On every alive node, perform the following query:
cqlsh> DELETE FROM system.scylla_local WHERE key = 'group0_upgrade_state';
Perform a rolling restart of your alive nodes.
The Raft upgrade procedure will start anew. Verify that it finishes successfully.
Perform the procedure for enabling consistent topology changes.
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