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---
layout: docs
page_title: Consul Servers Outside of Kubernetes - Kubernetes
sidebar_title: Consul Servers Outside Kubernetes
description: Running Consul servers outside of Kubernetes
---
# Consul Servers Outside of Kubernetes
If you have a Consul cluster already running, you can configure your
Consul clients inside Kubernetes to join this existing cluster.
The below `config.yaml` file shows how to configure the Helm chart to install
Consul clients that will join an existing cluster.
The `global.enabled` value first disables all chart components by default
so that each component is opt-in. This allows us to _only_ setup the client
agents. We then opt-in to the client agents by setting `client.enabled` to
`true`.
Next, `client.exposeGossipPorts` can be set to `true` or `false` depending on if
you want the clients to be exposed on the Kubernetes internal node IPs (`true`) or
their pod IPs (`false`).
Finally, `client.join` is set to an array of valid
[`-retry-join` values](/docs/agent/options#retry-join). In the
example above, a fake [cloud auto-join](/docs/agent/cloud-auto-join)
value is specified. This should be set to resolve to the proper addresses of
your existing Consul cluster.
```yaml
# config.yaml
global:
enabled: false
client:
enabled: true
# Set this to true to expose the Consul clients using the Kubernetes node
# IPs. If false, the pod IPs must be routable from the external servers.
exposeGossipPorts: true
join:
- 'provider=my-cloud config=val ...'
```
-> **Networking:** Note that for the Kubernetes nodes to join an existing
cluster, the nodes (and specifically the agent pods) must be able to connect
to all other server and client agents inside and _outside_ of Kubernetes over [LAN](/docs/glossary#lan-gossip).
If this isn't possible, consider running a separate Consul cluster inside Kubernetes
and federating it with your cluster outside Kubernetes.
You may also consider adopting Consul Enterprise for
[network segments](/docs/enterprise/network-segments).
## Configuring TLS with Auto-encrypt
Consul's auto-encrypt feature allows clients to automatically provision their certificates by making a request to the servers at startup.
If you would like to use this feature with external Consul servers, you need to configure the Helm chart with information about the servers
so that it can retrieve the clients' CA to use for securing the rest of the cluster.
To do that, you must add the following values, in addition to the values mentioned above:
```yaml
global:
tls:
enabled: true
enableAutoEncrypt: true
externalServers:
enabled: true
hosts:
- "provider=my-cloud config=val ..."
```
In most cases, `externalServers.hosts` will be the same as `client.join`, however, both keys must be set because
they are used for different purposes: one for Serf LAN and the other for HTTPS connections.
Please see the [reference documentation](https://www.consul.io/docs/platform/k8s/helm.html#v-externalservers-hosts)
for more info. If your HTTPS port is different from Consul's default `8501`, you must also set
`externalServers.httpsPort`.
## Configuring ACLs
If you are running external servers with ACLs enabled, there are a couple of ways to configure the Helm chart
to help initialize ACL tokens for Consul clients and consul-k8s components for you.
### Manually Bootstrapping ACLs
If you would like to call the [ACL bootstrapping API](/api/acl/acl.html#bootstrap-acls) yourself or if your cluster has already been bootstrapped with ACLs,
you can provide the bootstrap token to the Helm chart. The Helm chart will then use this token to configure ACLs
for Consul clients and any consul-k8s components you are enabling.
First, create a Kubernetes secret containing your bootstrap token:
```shell
kubectl create secret generic bootstrap-token --from-literal='token=<your bootstrap token>'
```
Then provide that secret to the Helm chart:
```yaml
global:
acls:
manageSystemACLs: true
bootstrapToken:
secretName: bootstrap-token
secretKey: token
```
The bootstrap token requires the following minimal permissions:
* `acl:write`
* `operator:write` if enabling Consul namespaces
* `agent:read` if using WAN federation over mesh gateways
Next, configure external servers. The Helm chart will use this configuration to talk to the Consul server's API
to create policies, tokens, and an auth method. If you are [enabling Consul Connect](/docs/platform/k8s/connect.html),
`k8sAuthMethodHost` should be set to the address of your Kubernetes API server
so that the Consul servers can validate a Kubernetes service account token when using the [Kubernetes auth method](https://www.consul.io/docs/acl/auth-methods/kubernetes.html)
with `consul login`.
```yaml
externalServers:
enabled: true
hosts:
- "provider=my-cloud config=val ..."
k8sAuthMethodHost: "https://kubernetes.example.com:443"
```
Your resulting Helm configuration will end up looking similar to this:
```yaml
global:
enabled: false
acls:
manageSystemACLs: true
bootstrapToken:
secretName: bootstrap-token
secretKey: token
client:
enabled: true
# Set this to true to expose the Consul clients using the Kubernetes node
# IPs. If false, the pod IPs must be routable from the external servers.
exposeGossipPorts: true
join:
- "provider=my-cloud config=val ..."
externalServers:
enabled: true
hosts:
- "provider=my-cloud config=val ..."
k8sAuthMethodHost: "https://kubernetes.example.com:443"
```
### Bootstrapping ACLs via the Helm chart
If you would like the Helm chart to call the bootstrapping API and set the server tokens for you, then the steps are similar.
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.
```yaml
global:
enabled: false
acls:
manageSystemACLs: true
client:
enabled: true
# Set this to true to expose the Consul clients using the Kubernetes node
# IPs. If false, the pod IPs must be routable from the external servers.
exposeGossipPorts: true
join:
- "provider=my-cloud config=val ..."
externalServers:
enabled: true
hosts:
- "provider=my-cloud config=val ..."
k8sAuthMethodHost: "https://kubernetes.example.com:443"
```