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128 lines
5.8 KiB
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128 lines
5.8 KiB
Plaintext
---
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layout: docs
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page_title: Integrated Storage Autopilot
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description: Learn about the autopilot subsystem of integrated raft storage in Vault.
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---
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# Autopilot
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Autopilot enables automated workflows for managing Raft clusters. The current
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feature set includes 3 main features: Server Stabilization, Dead Server Cleanup
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and State API. These three features were introduced in Vault 1.7. The Enterprise
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feature set includes 2 main features: Automated Upgrades and Redundancy Zones.
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These two features were introduced in Vault 1.11.
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## Server Stabilization
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Server stabilization helps to retain the stability of the Raft cluster by safely
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joining new voting nodes to the cluster. When a new voter node is joined to an
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existing cluster, autopilot adds it as a non-voter instead, and waits for a
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pre-configured amount of time to monitor it's health. If the node remains to be
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healthy for the entire duration of stabilization, then that node will be
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promoted as a voter. The server stabilization period can be tuned using
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`server_stabilization_time` (see below).
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## Dead Server Cleanup
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Dead server cleanup automatically removes nodes deemed unhealthy from the
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Raft cluster, avoiding the manual operator intervention. This feature can be
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tuned using the `cleanup_dead_servers`, `dead_server_last_contact_threshold`,
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and `min_quorum` (see below).
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## State API
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State API provides detailed information about all the nodes in the Raft cluster
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in a single call. This API can be used for monitoring for cluster health.
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### Follower Health
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Follower node health is determined by 2 factors.
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- Its ability to heartbeat to leader node at regular intervals. Tuned using
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`last_contact_threshold` (see below).
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- Its ability to keep up with data replication from the leader node. Tuned using
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`max_trailing_logs` (see below).
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### Default Configuration
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By default, Autopilot will be enabled with clusters using Vault 1.7+,
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although dead server cleanup is not enabled by default. Upgrade of
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Raft clusters deployed with older versions of Vault will also transition to use
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Autopilot automatically.
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Autopilot exposes a [configuration
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API](/api-docs/system/storage/raftautopilot#set-configuration) to manage its
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behavior. Autopilot gets initialized with the following default values.
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- `cleanup_dead_servers` - `false`
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- This controls whether to remove dead servers from
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the Raft peer list periodically or when a new server joins. This requires that
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`min-quorum` is also set.
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- `dead_server_last_contact_threshold` - `24h`
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- Limit on the amount of time
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a server can go without leader contact before being considered failed. This
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takes effect only when `cleanup_dead_servers` is set.
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- `min_quorum` - This doesn't default to anything and should be set to the expected
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number of voters in your cluster when `cleanup_dead_servers` is set as `true`.
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- Minimum number of servers that should always be present in a cluster.
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Autopilot will not prune servers below this number.
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- `max_trailing_logs` - `1000`
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- Amount of entries in the Raft Log that a server
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can be behind before being considered unhealthy.
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- `last_contact_threshold` - `10s`
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- Limit on the amount of time a server can go without leader contact before being considered unhealthy.
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- `server_stabilization_time` - `10s`
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- Minimum amount of time a server must be in a healthy state before it can become a voter. Until that happens,
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it will be visible as a peer in the cluster, but as a non-voter, meaning it won't contribute to quorum.
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- `disable-upgrade-migration` - `false`
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- Controls whether to disable automated upgrade migrations, an Enterprise-only feature.
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~> **Note**: Autopilot in Vault does similar things to what autopilot does in
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[Consul](https://www.consul.io/). However, the configuration in these 2 systems
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differ in terms of default values and thresholds; some additional parameters
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might also show up in Vault in comparison to Consul as well. Autopilot in Vault
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and Consul use different technical underpinnings requiring these differences, to
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provide the autopilot functionality.
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## Automated Upgrades
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Automated Upgrades lets you automatically upgrade a cluster of Vault nodes to a new version as
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updated server nodes join the cluster. Once the number of nodes on the new version is
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equal to or greater than the number of nodes on the old version, Autopilot will promote
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the newer versioned nodes to voters, demote the older versioned nodes to non-voters,
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and initiate a leadership transfer from the older version leader to one of the newer
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versioned nodes. After the leadership transfer completes, the older versioned non-voting
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nodes can be removed from the cluster.
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## Redundancy Zones
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Redundancy Zones provide both scaling and resiliency benefits by deploying non-voting
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nodes alongside voting nodes on a per availability zone basis. When using redundancy zones,
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each zone will have exactly one voting node and as many additional non-voting nodes as desired.
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If the voting node in a zone fails, a non-voting node will be automatically promoted to
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voter. If an entire zone is lost, a non-voting node from another zone will be promoted to voter,
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maintaining quorum. These non-voting nodes function not only as hot standbys, but also
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increase read scalability.
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## Replication
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DR secondary and Performance secondary clusters have their own Autopilot configurations, managed
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independently of their primary.
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The [Autopilot API](/api-docs/system/storage/raftautopilot) uses DR operation tokens for
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authorization when executed against a DR secondary cluster.
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## Tutorial
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Refer to the following tutorials to learn more.
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- [Integrated Storage Autopilot](https://learn.hashicorp.com/tutorials/vault/raft-autopilot)
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- [Fault Tolerance with Redundancy Zones](https://learn.hashicorp.com/tutorials/vault/raft-redundancy-zones)
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- [Automate Upgrades with Vault Enterprise](https://learn.hashicorp.com/tutorials/vault/raft-upgrade-automation)
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