167 lines
6.1 KiB
Plaintext
167 lines
6.1 KiB
Plaintext
---
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layout: docs
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page_title: Join Kubernetes Clusters to external Consul Servers
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description: >-
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Kubernetes clusters can be joined to existing Consul clusters in a much simpler way with the introduction of Consul Dataplane. Learn how to add Kubernetes Clusters into an existing Consul cluster and bootstrap ACLs by configuring the Helm chart.
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---
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# Join Kubernetes Clusters to external Consul Servers
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If you have a Consul cluster already running, you can configure your
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Consul on Kubernetes installation to join this existing cluster.
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The below `values.yaml` file shows how to configure the Helm chart to install
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Consul so that it joins an existing Consul server cluster.
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The `global.enabled` value first disables all chart components by default
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so that each component is opt-in.
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Next, configure `externalServers` to point it to Consul servers.
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The `externalServers.hosts` value must be provided and should be set to a DNS, an IP,
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or an `exec=` string with a command returning Consul IPs. Please see [this documentation](https://github.com/hashicorp/go-netaddrs)
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on how the `exec=` string works.
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Other values in the `externalServers` section are optional. Please refer to
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[Helm Chart configuration](/consul/docs/k8s/helm#h-externalservers) for more details.
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<CodeBlockConfig filename="values.yaml">
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```yaml
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global:
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enabled: false
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externalServers:
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hosts: [<consul server DNS, IP or exec= string>]
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```
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</CodeBlockConfig>
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With the introduction of [Consul Dataplane](/consul/docs/connect/dataplane#what-is-consul-dataplane), Consul installation on Kubernetes is simplified by removing the Consul Client agents.
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This requires the Helm installation and rest of the consul-k8s components installed on Kubernetes to talk to Consul Servers directly on various ports.
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Before starting the installation, ensure that the Consul Servers are configured to have the gRPC port enabled `8502/tcp` using the [`ports.grpc = 8502`](/consul/docs/agent/config/config-files#grpc) configuration option.
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## Configuring TLS
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-> **Note:** Consul on Kubernetes currently does not support external servers that require mutual authentication
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for the HTTPS clients of the Consul servers, that is when servers have either
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`tls.defaults.verify_incoming` or `tls.https.verify_incoming` set to `true`.
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As noted in the [Security Model](/consul/docs/security#secure-configuration),
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that setting isn't strictly necessary to support Consul's threat model as it is recommended that
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all requests contain a valid ACL token.
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If the Consul server has TLS enabled, you need to provide the CA certificate so that Consul on Kubernetes can communicate with the server. Save the certificate in a Kubernetes secret and then provide it in your Helm values, as demonstrated in the following example:
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<CodeBlockConfig filename="values.yaml" highlight="2-8">
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```yaml
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global:
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tls:
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enabled: true
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caCert:
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secretName: <CA certificate secret name>
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secretKey: <CA Certificate secret key>
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externalServers:
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enabled: true
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hosts: [<consul server DNS, IP or exec= string>]
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```
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</CodeBlockConfig>
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If your HTTPS port is different from Consul's default `8501`, you must also set
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`externalServers.httpsPort`. If the Consul servers are not running TLS enabled, use this config to set the HTTP port the servers are configured with (default `8500`).
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## Configuring ACLs
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If you are running external servers with ACLs enabled, there are a couple of ways to configure the Helm chart
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to help initialize ACL tokens for Consul clients and consul-k8s components for you.
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### Manually Bootstrapping ACLs
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If you would like to call the [ACL bootstrapping API](/consul/api-docs/acl#bootstrap-acls) yourself or if your cluster has already been bootstrapped with ACLs,
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you can provide the bootstrap token to the Helm chart. The Helm chart will then use this token to configure ACLs
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for Consul clients and any consul-k8s components you are enabling.
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First, create a Kubernetes secret containing your bootstrap token:
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```shell
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kubectl create secret generic bootstrap-token --from-literal='token=<your bootstrap token>'
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```
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Then provide that secret to the Helm chart:
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<CodeBlockConfig filename="values.yaml" highlight="4-6">
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```yaml
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global:
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acls:
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manageSystemACLs: true
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bootstrapToken:
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secretName: bootstrap-token
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secretKey: token
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```
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</CodeBlockConfig>
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The bootstrap token requires the following minimal permissions:
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- `acl:write`
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- `operator:write` if enabling Consul namespaces
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- `agent:read` if using WAN federation over mesh gateways
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Next, configure external servers. The Helm chart will use this configuration to talk to the Consul server's API
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to create policies, tokens, and an auth method. If you are [enabling Consul Connect](/consul/docs/k8s/connect),
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`k8sAuthMethodHost` should be set to the address of your Kubernetes API server
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so that the Consul servers can validate a Kubernetes service account token when using the [Kubernetes auth method](/consul/docs/security/acl/auth-methods/kubernetes)
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with `consul login`.
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<CodeBlockConfig filename="values.yaml">
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```yaml
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externalServers:
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enabled: true
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hosts: [<consul server DNS, IP or exec= string>]
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k8sAuthMethodHost: 'https://kubernetes.example.com:443'
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```
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</CodeBlockConfig>
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Your resulting Helm configuration will end up looking similar to this:
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<CodeBlockConfig filename="values.yaml">
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```yaml
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global:
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enabled: false
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acls:
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manageSystemACLs: true
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bootstrapToken:
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secretName: bootstrap-token
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secretKey: token
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externalServers:
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enabled: true
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hosts: [<consul server DNS, IP or exec= string>]
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k8sAuthMethodHost: 'https://kubernetes.example.com:443'
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```
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</CodeBlockConfig>
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### Bootstrapping ACLs via the Helm chart
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If you would like the Helm chart to call the bootstrapping API and set the server tokens for you, then the steps are similar.
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The only difference is that you don't need to set the bootstrap token. The Helm chart will save the bootstrap token as a Kubernetes secret.
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<CodeBlockConfig filename="values.yaml">
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```yaml
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global:
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enabled: false
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acls:
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manageSystemACLs: true
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externalServers:
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enabled: true
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hosts: [<consul server DNS, IP or exec= string>]
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k8sAuthMethodHost: 'https://kubernetes.example.com:443'
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```
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</CodeBlockConfig>
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