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Signed-off-by: Charles Smith <charles.smith@docker.com>
265 lines
12 KiB
Markdown
265 lines
12 KiB
Markdown
<!--[metadata]>
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+++
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aliases = [
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"/engine/swarm/manager-administration-guide/"
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]
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title = "Swarm administration guide"
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description = "Manager administration guide"
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keywords = ["docker, container, swarm, manager, raft"]
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[menu.main]
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identifier="manager_admin_guide"
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parent="engine_swarm"
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weight="20"
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+++
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<![end-metadata]-->
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# Administer and maintain a swarm of Docker Engines
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When you run a swarm of Docker Engines, **manager nodes** are the key components
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for managing the swarm and storing the swarm state. It is important to
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understand some key features of manager nodes in order to properly deploy and
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maintain the swarm.
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This article covers the following swarm administration tasks:
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* [Using a static IP for manager node advertise address](#use-a-static-ip-for-manager-node-advertise-address)
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* [Adding manager nodes for fault tolerance](#add-manager-nodes-for-fault-tolerance)
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* [Distributing manager nodes](#distribute-manager-nodes)
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* [Running manager-only nodes](#run-manager-only-nodes)
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* [Backing up the swarm state](#back-up-the-swarm-state)
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* [Monitoring the swarm health](#monitor-swarm-health)
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* [Troubleshooting a manager node](#troubleshoot-a-manager-node)
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* [Forcefully removing a node](#force-remove-a-node)
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* [Recovering from disaster](#recover-from-disaster)
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Refer to [How swarm mode nodes work](how-swarm-mode-works/nodes.md)
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for a brief overview of Docker Swarm mode and the difference between manager and
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worker nodes.
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## Operating manager nodes in a swarm
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Swarm manager nodes use the [Raft Consensus Algorithm](raft.md) to manage the
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swarm state. You only need to understand some general concepts of Raft in
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order to manage a swarm.
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There is no limit on the number of manager nodes. The decision about how many
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manager nodes to implement is a trade-off between performance and
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fault-tolerance. Adding manager nodes to a swarm makes the swarm more
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fault-tolerant. However, additional manager nodes reduce write performance
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because more nodes must acknowledge proposals to update the swarm state.
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This means more network round-trip traffic.
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Raft requires a majority of managers, also called a quorum, to agree on proposed
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updates to the swarm. A quorum of managers must also agree on node additions
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and removals. Membership operations are subject to the same constraints as state
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replication.
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## Use a static IP for manager node advertise address
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When initiating a swarm, you have to specify the `--advertise-addr` flag to
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advertise your address to other manager nodes in the swarm. For more
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information, see [Run Docker Engine in swarm mode](swarm-mode.md#configure-the-advertise-address). Because manager nodes are
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meant to be a stable component of the infrastructure, you should use a *fixed
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IP address* for the advertise address to prevent the swarm from becoming
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unstable on machine reboot.
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If the whole swarm restarts and every manager node subsequently gets a new IP
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address, there is no way for any node to contact an existing manager. Therefore
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the swarm is hung while nodes to contact one another at their old IP addresses.
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Dynamic IP addresses are OK for worker nodes.
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## Add manager nodes for fault tolerance
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You should maintain an odd number of managers in the swarm to support manager
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node failures. Having an odd number of managers ensures that during a network
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partition, there is a higher chance that a quorum remains available to process
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requests if the network is partitioned into two sets. Keeping a quorum is not
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guaranteed if you encounter more than two network partitions.
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| Swarm Size | Majority | Fault Tolerance |
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|:------------:|:----------:|:-----------------:|
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| 1 | 1 | 0 |
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| 2 | 2 | 0 |
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| **3** | 2 | **1** |
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| 4 | 3 | 1 |
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| **5** | 3 | **2** |
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| 6 | 4 | 2 |
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| **7** | 4 | **3** |
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| 8 | 5 | 3 |
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| **9** | 5 | **4** |
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For example, in a swarm with *5 nodes*, if you lose *3 nodes*, you don't have a
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quorum. Therefore you can't add or remove nodes until you recover one of the
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unavailable manager nodes or recover the swarm with disaster recovery
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commands. See [Recover from disaster](#recover-from-disaster).
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While it is possible to scale a swarm down to a single manager node, it is
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impossible to demote the last manager node. This ensures you maintain access to
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the swarm and that the swarm can still process requests. Scaling down to a
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single manager is an unsafe operation and is not recommended. If
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the last node leaves the swarm unexpetedly during the demote operation, the
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swarm will become unavailable until you reboot the node or restart with
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`--force-new-cluster`.
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You manage swarm membership with the `docker swarm` and `docker node`
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subsystems. Refer to [Add nodes to a swarm](join-nodes.md) for more information
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on how to add worker nodes and promote a worker node to be a manager.
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## Distribute manager nodes
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In addition to maintaining an odd number of manager nodes, pay attention to
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datacenter topology when placing managers. For optimal fault-tolerance, distribute
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manager nodes across a minimum of 3 availability-zones to support failures of an
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entire set of machines or common maintenance scenarios. If you suffer a failure
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in any of those zones, the swarm should maintain a quorum of manager nodes
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available to process requests and rebalance workloads.
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| Swarm manager nodes | Repartition (on 3 Availability zones) |
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|:-------------------:|:--------------------------------------:|
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| 3 | 1-1-1 |
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| 5 | 2-2-1 |
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| 7 | 3-2-2 |
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| 9 | 3-3-3 |
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## Run manager-only nodes
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By default manager nodes also act as a worker nodes. This means the scheduler
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can assign tasks to a manager node. For small and non-critical swarms
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assigning tasks to managers is relatively low-risk as long as you schedule
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services using **resource constraints** for *cpu* and *memory*.
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However, because manager nodes use the Raft consensus algorithm to replicate data
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in a consistent way, they are sensitive to resource starvation. You should
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isolate managers in your swarm from processes that might block swarm
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operations like swarm heartbeat or leader elections.
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To avoid interference with manager node operation, you can drain manager nodes
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to make them unavailable as worker nodes:
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```bash
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docker node update --availability drain <NODE>
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```
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When you drain a node, the scheduler reassigns any tasks running on the node to
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other available worker nodes in the swarm. It also prevents the scheduler from
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assigning tasks to the node.
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## Back up the swarm state
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Docker manager nodes store the swarm state and manager logs in the following
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directory:
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```bash
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/var/lib/docker/swarm/raft
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```
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Back up the `raft` data directory often so that you can use it in case of
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[disaster recovery](#recover-from-disaster). Then you can take the `raft`
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directory of one of the manager nodes to restore to a new swarm.
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## Monitor swarm health
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You can monitor the health of manager nodes by querying the docker `nodes` API
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in JSON format through the `/nodes` HTTP endpoint. Refer to the [nodes API documentation](../reference/api/docker_remote_api_v1.24.md#36-nodes)
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for more information.
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From the command line, run `docker node inspect <id-node>` to query the nodes.
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For instance, to query the reachability of the node as a manager:
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```bash
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docker node inspect manager1 --format "{{ .ManagerStatus.Reachability }}"
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reachable
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```
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To query the status of the node as a worker that accept tasks:
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```bash
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docker node inspect manager1 --format "{{ .Status.State }}"
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ready
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```
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From those commands, we can see that `manager1` is both at the status
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`reachable` as a manager and `ready` as a worker.
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An `unreachable` health status means that this particular manager node is unreachable
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from other manager nodes. In this case you need to take action to restore the unreachable
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manager:
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- Restart the daemon and see if the manager comes back as reachable.
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- Reboot the machine.
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- If neither restarting or rebooting work, you should add another manager node or promote a worker to be a manager node. You also need to cleanly remove the failed node entry from the manager set with `docker node demote <NODE>` and `docker node rm <id-node>`.
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Alternatively you can also get an overview of the swarm health from a manager
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node with `docker node ls`:
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```bash
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docker node ls
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ID HOSTNAME MEMBERSHIP STATUS AVAILABILITY MANAGER STATUS
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1mhtdwhvsgr3c26xxbnzdc3yp node05 Accepted Ready Active
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516pacagkqp2xc3fk9t1dhjor node02 Accepted Ready Active Reachable
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9ifojw8of78kkusuc4a6c23fx * node01 Accepted Ready Active Leader
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ax11wdpwrrb6db3mfjydscgk7 node04 Accepted Ready Active
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bb1nrq2cswhtbg4mrsqnlx1ck node03 Accepted Ready Active Reachable
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di9wxgz8dtuh9d2hn089ecqkf node06 Accepted Ready Active
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```
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## Troubleshoot a manager node
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You should never restart a manager node by copying the `raft` directory from another node. The data directory is unique to a node ID. A node can only use a node ID once to join the swarm. The node ID space should be globally unique.
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To cleanly re-join a manager node to a cluster:
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1. To demote the node to a worker, run `docker node demote <NODE>`.
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2. To remove the node from the swarm, run `docker node rm <NODE>`.
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3. Re-join the node to the swarm with a fresh state using `docker swarm join`.
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For more information on joining a manager node to a swarm, refer to
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[Join nodes to a swarm](join-nodes.md).
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## Force remove a node
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In most cases, you should shut down a node before removing it from a swarm with the `docker node rm` command. If a node becomes unreachable, unresponsive, or compromised you can forcefully remove the node without shutting it down by passing the `--force` flag. For instance, if `node9` becomes compromised:
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<!-- bash hint breaks block quote -->
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```
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$ docker node rm node9
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Error response from daemon: rpc error: code = 9 desc = node node9 is not down and can't be removed
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$ docker node rm --force node9
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Node node9 removed from swarm
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```
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Before you forcefully remove a manager node, you must first demote it to the
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worker role. Make sure that you always have an odd number of manager nodes if
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you demote or remove a manager
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## Recover from disaster
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Swarm is resilient to failures and the swarm can recover from any number
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of temporary node failures (machine reboots or crash with restart).
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In a swarm of `N` managers, there must be a quorum of manager nodes greater than
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50% of the total number of managers (or `(N/2)+1`) in order for the swarm to
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process requests and remain available. This means the swarm can tolerate up to
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`(N-1)/2` permanent failures beyond which requests involving swarm management
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cannot be processed. These types of failures include data corruption or hardware
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failures.
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Even if you follow the guidelines here, it is possible that you can lose a
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quorum of manager nodes. If you can't recover the quorum by conventional
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means such as restarting faulty nodes, you can recover the swarm by running
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`docker swarm init --force-new-cluster` on a manager node.
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```bash
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# From the node to recover
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docker swarm init --force-new-cluster --advertise-addr node01:2377
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```
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The `--force-new-cluster` flag puts the Docker Engine into swarm mode as a
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manager node of a single-node swarm. It discards swarm membership information
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that existed before the loss of the quorum but it retains data necessary to the
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Swarm such as services, tasks and the list of worker nodes.
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