Decommission Nodes

This page shows you how to decommission and permanently remove one or more nodes from a CockroachDB cluster. You might do this, for example, when downsizing a cluster or reacting to hardware failures.

For information about temporarily stopping a node (e.g., for planned maintenance), see Stop a Node.

Overview

How it works

When you decommission a node, CockroachDB lets the node finish in-flight requests, rejects any new requests, and transfers all range replicas and range leases off the node so that it can be safely shut down.

Basic terms:

  • Range: CockroachDB stores all user data and almost all system data in a giant sorted map of key value pairs. This keyspace is divided into "ranges", contiguous chunks of the keyspace, so that every key can always be found in a single range.
  • Range Replica: CockroachDB replicates each range (3 times by default) and stores each replica on a different node.
  • Range Lease: For each range, one of the replicas holds the "range lease". This replica, referred to as the "leaseholder", is the one that receives and coordinates all read and write requests for the range.

Considerations

Before decommissioning a node, make sure other nodes are available to take over the range replicas from the node. If no other nodes are available, the decommission process will hang indefinitely. See the Examples below for more details.

Examples

3-node cluster with 3-way replication

In this scenario, each range is replicated 3 times, with each replica on a different node:

Decommission Scenario 1

If you try to decommission a node, the process will hang indefinitely because the cluster cannot move the decommissioned node's replicas to the other 2 nodes, which already have a replica of each range:

Decommission Scenario 1

To successfully decommission a node, you need to first add a 4th node:

Decommission Scenario 1

5-node cluster with 3-way replication

In this scenario, like in the scenario above, each range is replicated 3 times, with each replica on a different node:

Decommission Scenario 1

If you decommission a node, the process will run successfully because the cluster will be able to move the node's replicas to other nodes without doubling up any range replicas:

Decommission Scenario 1

5-node cluster with 5-way replication for a specific table

In this scenario, a custom replication zone has been set to replicate a specific table 5 times (range 6), while all other data is replicated 3 times:

Decommission Scenario 1

If you try to decommission a node, the cluster will successfully rebalance all ranges but range 6. Since range 6 requires 5 replicas (based on the table-specific replication zone), and since CockroachDB will not allow more than a single replica of any range on a single node, the decommission process will hang indefinitely:

Decommission Scenario 1

To successfully decommission a node, you need to first add a 6th node:

Decommission Scenario 1

Remove a single node (live)

Before you begin

To ensure your cluster can adequately handle decommissioning nodes:

If possible, keep the node running instead of killing it, because a stuck decommissioning process might be a symptom of a problem that could result in data loss.

  • Confirm that there are enough nodes to take over the replicas from the node you want to remove. See some Example scenarios above.

Step 1. Check the node before decommissioning

Open the Admin UI, click Metrics on the left, select the Replication dashboard, and hover over the Replicas per Store and Leaseholders per Store graphs:

Decommission a single live node

Decommission a single live node

Step 2. Decommission and remove the node

SSH to the machine where the node is running and execute the cockroach quit command with the —decommission flag and other required flags:

  1. $ cockroach quit --decommission --certs-dir=certs --host=<address of node to remove>
  1. $ cockroach quit --decommission --insecure --host=<address of node to remove>

You'll then see the decommissioning status print to stderr as it changes:

  1. id | is_live | replicas | is_decommissioning | is_draining
  2. +---+---------+----------+--------------------+-------------+
  3. 4 | true | 73 | true | false
  4. (1 row)

Once the node has been fully decommissioned and stopped, you'll see a confirmation:

  1. id | is_live | replicas | is_decommissioning | is_draining
  2. +---+---------+----------+--------------------+-------------+
  3. 4 | true | 0 | true | false
  4. (1 row)
  5. No more data reported on target nodes. Please verify cluster health before removing the nodes.
  6. ok

Step 3. Check the node and cluster after decommissioning

In the Admin UI Replication dashboard, again hover over the Replicas per Store and Leaseholders per Store graphs. For the node that you decommissioned, the counts should be 0:

Decommission a single live node

Decommission a single live node

Then view Node List on the Overview page and make sure all nodes but the one you removed are healthy (green):

Decommission a single live node

In about 5 minutes, you'll see the removed node listed under Decommissioned Nodes:

Decommission a single live node

At this point, the node will no longer appear in timeseries graphs unless you are viewing a time range during which the node was live. However, it will never disappear from the Decommissioned Nodes list.

Also, if the node is restarted, it will not accept any client connections, and the cluster will not rebalance any data to it; to make the cluster utilize the node again, you'd have to recommission it.

Remove a single node (dead)

Once a node has been dead for 5 minutes, CockroachDB automatically transfers the range replicas and range leases on the node to available live nodes. However, if it is restarted, the cluster will rebalance replicas and leases to it.

To prevent the cluster from rebalancing data to a dead node if it comes back online, do the following:

Step 1. Identify the ID of the dead node

Open the Admin UI and select the Node List view. Note the ID of the node listed under Dead Nodes:

Decommission a single dead node

Step 2. Mark the dead node as decommissioned

SSH to any live node in the cluster and run the cockroach node decommission command with the ID of the node to officially decommission:

  1. $ cockroach node decommission 4 --certs-dir=certs --host=<address of live node>
  1. $ cockroach node decommission 4 --insecure --host=<address of live node>
  1. id | is_live | replicas | is_decommissioning | is_draining
  2. +---+---------+----------+--------------------+-------------+
  3. 4 | false | 0 | true | true
  4. (1 row)
  5. No more data reported on target nodes. Please verify cluster health before removing the nodes.

If you go back to the Nodes List page, in about 5 minutes, you'll see the node move from the Dead Nodes to Decommissioned Nodes list. At this point, the node will no longer appear in timeseries graphs unless you are viewing a time range during which the node was live. However, it will never disappear from the Decommissioned Nodes list.

Decommission a single live node

Also, if the node is ever restarted, it will not accept any client connections, and the cluster will not rebalance any data to it; to make the cluster utilize the node again, you'd have to recommission it.

Remove multiple nodes

Before you begin

Confirm that there are enough nodes to take over the replicas from the nodes you want to remove. See some Example scenarios above.

Step 1. Identify the IDs of the nodes to decommission

Open the Admin UI and select the Node List view, or go to Metrics on the left and click View nodes list in the Summary area. Note the IDs of the nodes that you want to decommission:

Decommission multiple nodes

Step 2. Check the nodes before decommissioning

Select the Replication dashboard, and hover over the Replicas per Store and Leaseholders per Store graphs:

Decommission multiple nodes

Decommission multiple nodes

Step 3. Decommission the nodes

SSH to any live node in the cluster and run the cockroach node decommission command with the IDs of the nodes to officially decommission:

  1. $ cockroach node decommission 4 5 --certs-dir=certs --host=<address of live node>
  1. $ cockroach node decommission 4 5 --insecure --host=<address of live node>

You'll then see the decommissioning status print to stderr as it changes:

  1. id | is_live | replicas | is_decommissioning | is_draining
  2. +---+---------+----------+--------------------+-------------+
  3. 4 | true | 18 | true | false
  4. 5 | true | 16 | true | false
  5. (2 rows)

Once the nodes have been fully decommissioned, you'll see a confirmation:

  1. id | is_live | replicas | is_decommissioning | is_draining
  2. +---+---------+----------+--------------------+-------------+
  3. 4 | true | 0 | true | false
  4. 5 | true | 0 | true | false
  5. (2 rows)
  6. No more data reported on target nodes. Please verify cluster health before removing the nodes.

Step 4. Check the nodes and cluster after decommissioning

In the Admin UI Replication dashboard, again hover over the Replicas per Store and Leaseholders per Store graphs. For the nodes that you decommissioned, the counts should be 0:

Decommission multiple nodes

Decommission multiple nodes

Then click View nodes list in the Summary area and make sure all nodes are healthy (green) and the decommissioned nodes have 0 replicas:

Decommission multiple nodes

In about 5 minutes, you'll see the node move to the Decommissioned Nodes list, and the node will no longer appear in timeseries graphs unless you are viewing a time range during which the node was live. However, it will never disappear from the Decommissioned Nodes list.

Decommission multiple nodes

Step 5. Remove the decommissioned nodes

At this point, although the decommissioned nodes are live, the cluster will not rebalance any data to them, and the nodes will not accept any client connections. However, to officially remove the nodes from the cluster, you still need to stop them.

For each decommissioned node, SSH to the machine running the node and execute the cockroach quit command:

  1. $ cockroach quit --certs-dir=certs --host=<address of decommissioned node>
  1. $ cockroach quit --insecure --host=<address of decommissioned node>

Recommission nodes

If you accidentally decommissioned any nodes, or otherwise want decommissioned nodes to rejoin a cluster as active members, do the following:

Step 1. Identify the IDs of the decommissioned nodes

Open the Admin UI and select the Node List view. Note the IDs of the nodes listed under Decommissioned Nodes:

Decommission a single dead node

Step 2. Recommission the nodes

SSH to one of the live nodes and execute the cockroach node recommission command with the IDs of the nodes to recommission:

  1. $ cockroach node recommission 4 --certs-dir=certs --host=<address of live node>
  1. $ cockroach node recommission 4 --insecure --host=<address of live node>
  1. id | is_live | replicas | is_decommissioning | is_draining
  2. +---+---------+----------+--------------------+-------------+
  3. 4 | false | 0 | false | true
  4. (1 row)
  5. The affected nodes must be restarted for the change to take effect.

Step 3. Restart the recommissioned nodes

SSH to each machine with a recommissioned node and run the same cockroach start command that you used to initially start the node, for example:

  1. $ cockroach start --certs-dir=certs --advertise-addr=<address of node to restart> --join=<address of node 1> --background
  1. $ cockroach start --insecure --advertise-addr=<address of node to restart> --join=<address of node 1> --background

On the Nodes List page, you should very soon see the recommissioned nodes listed under Live Nodes and, after a few minutes, you should see replicas rebalanced to it.

Check the status of decommissioning nodes

To check the progress of decommissioning nodes, you can run the cockroach node status command with the —decommission flag:

  1. $ cockroach node status --decommission --certs-dir=certs --host=<address of any live node>
  1. $ cockroach node status --decommission --insecure --host=<address of any live node>
  1. id | address | build | started_at | updated_at | is_available | is_live | gossiped_replicas | is_decommissioning | is_draining
  2. +---+------------------------+---------+----------------------------------+----------------------------------+--------------+---------+-------------------+--------------------+-------------+
  3. 1 | 165.227.60.76:26257 | 91a299d | 2018-10-01 16:53:10.946245+00:00 | 2018-10-02 14:04:39.280249+00:00 | true | true | 26 | false | false
  4. 2 | 192.241.239.201:26257 | 91a299d | 2018-10-01 16:53:24.22346+00:00 | 2018-10-02 14:04:39.415235+00:00 | true | true | 26 | false | false
  5. 3 | 67.207.91.36:26257 | 91a299d | 2018-10-01 17:34:21.041926+00:00 | 2018-10-02 14:04:39.233882+00:00 | true | true | 25 | false | false
  6. 4 | 138.197.12.74:26257 | 91a299d | 2018-10-01 17:09:11.734093+00:00 | 2018-10-02 14:04:37.558204+00:00 | true | true | 25 | false | false
  7. 5 | 174.138.50.192:26257 | 91a299d | 2018-10-01 17:14:01.480725+00:00 | 2018-10-02 14:04:39.293121+00:00 | true | true | 0 | true | false
  8. (5 rows)

See also

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