599 lines
31 KiB
Markdown
599 lines
31 KiB
Markdown
# Connecting GitLab with a Kubernetes cluster
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> [Introduced](https://gitlab.com/gitlab-org/gitlab-ce/issues/35954) in GitLab 10.1.
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Connect your project to Google Kubernetes Engine (GKE) or an existing Kubernetes
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cluster in a few steps.
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## Overview
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With one or more Kubernetes clusters associated to your project, you can use
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[Review Apps](../../../ci/review_apps/index.md), deploy your applications, run
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your pipelines, use it with [Auto DevOps](../../../topics/autodevops/index.md),
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and much more, all from within GitLab.
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There are two options when adding a new cluster to your project; either associate
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your account with Google Kubernetes Engine (GKE) so that you can [create new
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clusters](#adding-and-creating-a-new-gke-cluster-via-gitlab) from within GitLab,
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or provide the credentials to an [existing Kubernetes cluster](#adding-an-existing-kubernetes-cluster).
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NOTE: **Note:**
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From [GitLab 11.6](https://gitlab.com/gitlab-org/gitlab-ce/issues/34758) you
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can also associate a Kubernetes cluster to your groups. Learn more about
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[group Kubernetes clusters](../../group/clusters/index.md).
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## Adding and creating a new GKE cluster via GitLab
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TIP: **Tip:**
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Every new Google Cloud Platform (GCP) account receives [$300 in credit upon sign up](https://console.cloud.google.com/freetrial),
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and in partnership with Google, GitLab is able to offer an additional $200 for new GCP accounts to get started with GitLab's
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Google Kubernetes Engine Integration. All you have to do is [follow this link](https://goo.gl/AaJzRW) and apply for credit.
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NOTE: **Note:**
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The [Google authentication integration](../../../integration/google.md) must
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be enabled in GitLab at the instance level. If that's not the case, ask your
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GitLab administrator to enable it. On GitLab.com, this is enabled.
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### Requirements
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Before creating your first cluster on Google Kubernetes Engine with GitLab's
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integration, make sure the following requirements are met:
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- A [billing account](https://cloud.google.com/billing/docs/how-to/manage-billing-account)
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is set up and you have permissions to access it.
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- The Kubernetes Engine API is enabled. Follow the steps as outlined in the
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["Before you begin" section of the Kubernetes Engine docs](https://cloud.google.com/kubernetes-engine/docs/quickstart#before-you-begin).
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### Creating the cluster
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If all of the above requirements are met, you can proceed to create and add a
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new Kubernetes cluster to your project:
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1. Navigate to your project's **Operations > Kubernetes** page.
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NOTE: **Note:**
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You need Maintainer [permissions] and above to access the Kubernetes page.
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1. Click **Add Kubernetes cluster**.
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1. Click **Create with Google Kubernetes Engine**.
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1. Connect your Google account if you haven't done already by clicking the
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**Sign in with Google** button.
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1. From there on, choose your cluster's settings:
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- **Kubernetes cluster name** - The name you wish to give the cluster.
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- **Environment scope** - The [associated environment](#setting-the-environment-scope-premium) to this cluster.
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- **Google Cloud Platform project** - Choose the project you created in your GCP
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console that will host the Kubernetes cluster. Learn more about
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[Google Cloud Platform projects](https://cloud.google.com/resource-manager/docs/creating-managing-projects).
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- **Zone** - Choose the [region zone](https://cloud.google.com/compute/docs/regions-zones/)
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under which the cluster will be created.
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- **Number of nodes** - Enter the number of nodes you wish the cluster to have.
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- **Machine type** - The [machine type](https://cloud.google.com/compute/docs/machine-types)
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of the Virtual Machine instance that the cluster will be based on.
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1. Finally, click the **Create Kubernetes cluster** button.
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After a couple of minutes, your cluster will be ready to go. You can now proceed
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to install some [pre-defined applications](#installing-applications).
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## Adding an existing Kubernetes cluster
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To add an existing Kubernetes cluster to your project:
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1. Navigate to your project's **Operations > Kubernetes** page.
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NOTE: **Note:**
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You need Maintainer [permissions] and above to access the Kubernetes page.
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1. Click **Add Kubernetes cluster**.
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1. Click **Add an existing Kubernetes cluster** and fill in the details:
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- **Kubernetes cluster name** (required) - The name you wish to give the cluster.
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- **Environment scope** (required)- The
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[associated environment](#setting-the-environment-scope) to this cluster.
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- **API URL** (required) -
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It's the URL that GitLab uses to access the Kubernetes API. Kubernetes
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exposes several APIs, we want the "base" URL that is common to all of them,
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e.g., `https://kubernetes.example.com` rather than `https://kubernetes.example.com/api/v1`.
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- **CA certificate** (optional) -
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If the API is using a self-signed TLS certificate, you'll also need to include
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the `ca.crt` contents here.
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- **Token** -
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GitLab authenticates against Kubernetes using service tokens, which are
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scoped to a particular `namespace`.
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**The token used should belong to a service account with
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[`cluster-admin`](https://kubernetes.io/docs/reference/access-authn-authz/rbac/#user-facing-roles)
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privileges.** To create this service account:
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1. Create a `gitlab` service account in the `default` namespace:
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```bash
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kubectl create -f - <<EOF
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apiVersion: v1
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kind: ServiceAccount
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metadata:
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name: gitlab
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namespace: default
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EOF
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```
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1. Create a cluster role binding to give the `gitlab` service account
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`cluster-admin` privileges:
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```bash
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kubectl create -f - <<EOF
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kind: ClusterRoleBinding
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apiVersion: rbac.authorization.k8s.io/v1
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metadata:
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name: gitlab-cluster-admin
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subjects:
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- kind: ServiceAccount
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name: gitlab
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namespace: default
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roleRef:
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kind: ClusterRole
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name: cluster-admin
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apiGroup: rbac.authorization.k8s.io
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EOF
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```
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NOTE: **Note:**
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For GKE clusters, you will need the
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`container.clusterRoleBindings.create` permission to create a cluster
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role binding. You can follow the [Google Cloud
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documentation](https://cloud.google.com/iam/docs/granting-changing-revoking-access)
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to grant access.
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- **Project namespace** (optional) - You don't have to fill it in; by leaving
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it blank, GitLab will create one for you. Also:
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- Each project should have a unique namespace.
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- The project namespace is not necessarily the namespace of the secret, if
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you're using a secret with broader permissions, like the secret from `default`.
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- You should **not** use `default` as the project namespace.
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- If you or someone created a secret specifically for the project, usually
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with limited permissions, the secret's namespace and project namespace may
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be the same.
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1. Finally, click the **Create Kubernetes cluster** button.
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After a couple of minutes, your cluster will be ready to go. You can now proceed
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to install some [pre-defined applications](#installing-applications).
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To determine the:
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- API URL, run `kubectl cluster-info | grep 'Kubernetes master' | awk '/http/ {print $NF}'`.
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- Token:
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1. List the secrets by running: `kubectl get secrets`. Note the name of the secret you need the token for.
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1. Get the token for the appropriate secret by running: `kubectl get secret <SECRET_NAME> -o jsonpath="{['data']['token']}" | base64 --decode`.
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- CA certificate, run `kubectl get secret <secret name> -o jsonpath="{['data']['ca\.crt']}" | base64 --decode`.
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## Security implications
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CAUTION: **Important:**
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The whole cluster security is based on a model where [developers](../../permissions.md)
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are trusted, so **only trusted users should be allowed to control your clusters**.
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The default cluster configuration grants access to a wide set of
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functionalities needed to successfully build and deploy a containerized
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application. Bear in mind that the same credentials are used for all the
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applications running on the cluster.
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## Base domain
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> [Introduced](https://gitlab.com/gitlab-org/gitlab-ce/merge_requests/24580) in GitLab 11.8.
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Domains at the cluster level permit support for multiple domains
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per [multiple Kubernetes clusters](#multiple-kubernetes-clusters-premium). When specifying a domain,
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this will be automatically set as an environment variable (`KUBE_INGRESS_BASE_DOMAIN`) during
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the [Auto DevOps](../../../topics/autodevops/index.md) stages.
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The domain should have a wildcard DNS configured to the Ingress IP address.
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## Access controls
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When creating a cluster in GitLab, you will be asked if you would like to create an
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[Attribute-based access control (ABAC)](https://kubernetes.io/docs/admin/authorization/abac/) cluster, or
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a [Role-based access control (RBAC)](https://kubernetes.io/docs/admin/authorization/rbac/) one.
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NOTE: **Note:**
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[RBAC](#role-based-access-control-rbac) is recommended and the GitLab default.
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Whether [ABAC](#attribute-based-access-control-abac) or [RBAC](#role-based-access-control-rbac) is enabled,
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GitLab will create the necessary service accounts and privileges in order to install and run
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[GitLab managed applications](#installing-applications):
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- If GitLab is creating the cluster, a `gitlab` service account with
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`cluster-admin` privileges will be created in the `default` namespace,
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which will be used by GitLab to manage the newly created cluster.
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- A project service account with [`edit`
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privileges](https://kubernetes.io/docs/reference/access-authn-authz/rbac/#user-facing-roles)
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will be created in the project namespace (also created by GitLab), which will
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be used in [deployment jobs](#deployment-variables).
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NOTE: **Note:**
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Restricted service account for deployment was [introduced](https://gitlab.com/gitlab-org/gitlab-ce/issues/51716) in GitLab 11.5.
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- When you install Helm Tiller into your cluster, the `tiller` service account
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will be created with `cluster-admin` privileges in the `gitlab-managed-apps`
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namespace. This service account will be added to the installed Helm Tiller and will
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be used by Helm to install and run [GitLab managed applications](#installing-applications).
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Helm Tiller will also create additional service accounts and other resources for each
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installed application. Consult the documentation of the Helm charts for each application
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for details.
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If you are [adding an existing Kubernetes cluster](#adding-an-existing-kubernetes-cluster),
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ensure the token of the account has administrator privileges for the cluster.
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The following sections summarize which resources will be created on ABAC/RBAC clusters.
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### Attribute-based access control (ABAC)
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| Name | Kind | Details | Created when |
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| --- | --- | --- | --- |
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| `gitlab` | `ServiceAccount` | `default` namespace | Creating a new GKE Cluster |
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| `gitlab-token` | `Secret` | Token for `gitlab` ServiceAccount | Creating a new GKE Cluster |
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| `tiller` | `ServiceAccount` | `gitlab-managed-apps` namespace | Installing Helm Tiller |
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| `tiller-admin` | `ClusterRoleBinding` | `cluster-admin` roleRef | Installing Helm Tiller |
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| Project namespace | `ServiceAccount` | Uses namespace of Project | Creating/Adding a new GKE Cluster |
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| Project namespace | `Secret` | Token for project ServiceAccount | Creating/Adding a new GKE Cluster |
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### Role-based access control (RBAC)
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| Name | Kind | Details | Created when |
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| --- | --- | --- | --- |
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| `gitlab` | `ServiceAccount` | `default` namespace | Creating a new GKE Cluster |
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| `gitlab-admin` | `ClusterRoleBinding` | [`cluster-admin`](https://kubernetes.io/docs/reference/access-authn-authz/rbac/#user-facing-roles) roleRef | Creating a new GKE Cluster |
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| `gitlab-token` | `Secret` | Token for `gitlab` ServiceAccount | Creating a new GKE Cluster |
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| `tiller` | `ServiceAccount` | `gitlab-managed-apps` namespace | Installing Helm Tiller |
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| `tiller-admin` | `ClusterRoleBinding` | `cluster-admin` roleRef | Installing Helm Tiller |
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| Project namespace | `ServiceAccount` | Uses namespace of Project | Creating/Adding a new GKE Cluster |
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| Project namespace | `Secret` | Token for project ServiceAccount | Creating/Adding a new GKE Cluster |
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| Project namespace | `RoleBinding` | [`edit`](https://kubernetes.io/docs/reference/access-authn-authz/rbac/#user-facing-roles) roleRef | Creating/Adding a new GKE Cluster |
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### Security of GitLab Runners
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GitLab Runners have the [privileged mode](https://docs.gitlab.com/runner/executors/docker.html#the-privileged-mode)
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enabled by default, which allows them to execute special commands and running
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Docker in Docker. This functionality is needed to run some of the [Auto DevOps]
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jobs. This implies the containers are running in privileged mode and you should,
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therefore, be aware of some important details.
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The privileged flag gives all capabilities to the running container, which in
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turn can do almost everything that the host can do. Be aware of the
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inherent security risk associated with performing `docker run` operations on
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arbitrary images as they effectively have root access.
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If you don't want to use GitLab Runner in privileged mode, first make sure that
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you don't have it installed via the applications, and then use the
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[Runner's Helm chart](../../../install/kubernetes/gitlab_runner_chart.md) to
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install it manually.
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## Installing applications
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NOTE: **Note:**
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Before starting the installation of applications, make sure that time is synchronized
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between your GitLab server and your Kubernetes cluster. Otherwise, installation could fail
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and you may get errors like `Error: remote error: tls: bad certificate`
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in the `stdout` of pods created by GitLab in your Kubernetes cluster.
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GitLab provides a one-click install for various applications which can
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be added directly to your configured cluster. Those applications are
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needed for [Review Apps](../../../ci/review_apps/index.md) and
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[deployments](../../../ci/environments.md). You can install them after you
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[create a cluster](#adding-and-creating-a-new-gke-cluster-via-gitlab).
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To see a list of available applications to install:
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1. Navigate to your project's **Operations > Kubernetes**.
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1. Select your cluster.
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Install Helm Tiller first because it's used to install other applications.
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NOTE: **Note:**
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As of GitLab 11.6, Helm Tiller will be upgraded to the latest version supported
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by GitLab before installing any of the applications.
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| Application | GitLab version | Description | Helm Chart |
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| ----------- | :------------: | ----------- | --------------- |
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| [Helm Tiller](https://docs.helm.sh/) | 10.2+ | Helm is a package manager for Kubernetes and is required to install all the other applications. It is installed in its own pod inside the cluster which can run the `helm` CLI in a safe environment. | n/a |
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| [Ingress](https://kubernetes.io/docs/concepts/services-networking/ingress/) | 10.2+ | Ingress can provide load balancing, SSL termination, and name-based virtual hosting. It acts as a web proxy for your applications and is useful if you want to use [Auto DevOps] or deploy your own web apps. | [stable/nginx-ingress](https://github.com/helm/charts/tree/master/stable/nginx-ingress) |
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| [Cert Manager](http://docs.cert-manager.io/en/latest/) | 11.6+ | Cert Manager is a native Kubernetes certificate management controller that helps with issuing certificates. Installing Cert Manager on your cluster will issue a certificate by [Let's Encrypt](https://letsencrypt.org/) and ensure that certificates are valid and up-to-date. | [stable/cert-manager](https://github.com/helm/charts/tree/master/stable/cert-manager) |
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| [Prometheus](https://prometheus.io/docs/introduction/overview/) | 10.4+ | Prometheus is an open-source monitoring and alerting system useful to supervise your deployed applications. | [stable/prometheus](https://github.com/helm/charts/tree/master/stable/prometheus) |
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| [GitLab Runner](https://docs.gitlab.com/runner/) | 10.6+ | GitLab Runner is the open source project that is used to run your jobs and send the results back to GitLab. It is used in conjunction with [GitLab CI/CD](https://about.gitlab.com/features/gitlab-ci-cd/), the open-source continuous integration service included with GitLab that coordinates the jobs. When installing the GitLab Runner via the applications, it will run in **privileged mode** by default. Make sure you read the [security implications](#security-implications) before doing so. | [runner/gitlab-runner](https://gitlab.com/charts/gitlab-runner) |
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| [JupyterHub](http://jupyter.org/) | 11.0+ | [JupyterHub](https://jupyterhub.readthedocs.io/en/stable/) is a multi-user service for managing notebooks across a team. [Jupyter Notebooks](https://jupyter-notebook.readthedocs.io/en/latest/) provide a web-based interactive programming environment used for data analysis, visualization, and machine learning. We use a [custom Jupyter image](https://gitlab.com/gitlab-org/jupyterhub-user-image/blob/master/Dockerfile) that installs additional useful packages on top of the base Jupyter. You will also see ready-to-use DevOps Runbooks built with Nurtch's [Rubix library](https://github.com/amit1rrr/rubix). More information on creating executable runbooks can be found in [our Nurtch documentation](runbooks/index.md#nurtch-executable-runbooks). **Note**: Authentication will be enabled for any user of the GitLab server via OAuth2. HTTPS will be supported in a future release. | [jupyter/jupyterhub](https://jupyterhub.github.io/helm-chart/) |
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| [Knative](https://cloud.google.com/knative) | 11.5+ | Knative provides a platform to create, deploy, and manage serverless workloads from a Kubernetes cluster. It is used in conjunction with, and includes [Istio](https://istio.io) to provide an external IP address for all programs hosted by Knative. You will be prompted to enter a wildcard domain where your applications will be exposed. Configure your DNS server to use the external IP address for that domain. For any application created and installed, they will be accessible as `<program_name>.<kubernetes_namespace>.<domain_name>`. This will require your kubernetes cluster to have [RBAC enabled](#role-based-access-control-rbac). | [knative/knative](https://storage.googleapis.com/triggermesh-charts)
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With the exception of Knative, the applications will be installed in a dedicated
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namespace called `gitlab-managed-apps`.
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CAUTION: **Caution:**
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If you have an existing Kubernetes cluster with Tiller already installed,
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you should be careful as GitLab cannot detect it. In this case, installing
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Tiller via the applications will result in the cluster having it twice, which
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can lead to confusion during deployments.
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## Getting the external IP address
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NOTE: **Note:**
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With the following procedure, a load balancer must be installed in your cluster
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to obtain the external IP address. You can use either
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[Ingress](#installing-applications), or Knative's own load balancer
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([Istio](https://istio.io)) if using [Knative](#installing-applications).
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In order to publish your web application, you first need to find the external IP
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address associated to your load balancer.
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### Let GitLab fetch the IP address
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> [Introduced](https://gitlab.com/gitlab-org/gitlab-ce/merge_requests/17052) in GitLab 10.6.
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If you [installed Ingress or Knative](#installing-applications),
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you should see the Ingress IP address on this same page within a few minutes.
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If you don't see this, GitLab might not be able to determine the IP address of
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your ingress application in which case you should manually determine it.
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### Manually determining the IP address
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If the cluster is on GKE, click the **Google Kubernetes Engine** link in the
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**Advanced settings**, or go directly to the
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[Google Kubernetes Engine dashboard](https://console.cloud.google.com/kubernetes/)
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and select the proper project and cluster. Then click **Connect** and execute
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the `gcloud` command in a local terminal or using the **Cloud Shell**.
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If the cluster is not on GKE, follow the specific instructions for your
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Kubernetes provider to configure `kubectl` with the right credentials.
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The output of the following examples will show the external IP address of your
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cluster. This information can then be used to set up DNS entries and forwarding
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rules that allow external access to your deployed applications.
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If you installed the Ingress [via the **Applications**](#installing-applications),
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run the following command:
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```bash
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kubectl get svc --namespace=gitlab-managed-apps ingress-nginx-ingress-controller -o jsonpath='{.status.loadBalancer.ingress[0].ip} '
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```
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For Istio/Knative, the command will be different:
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```bash
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kubectl get svc --namespace=istio-system knative-ingressgateway -o jsonpath='{.status.loadBalancer.ingress[0].ip} '
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```
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Some Kubernetes clusters return a hostname instead, like [Amazon EKS](https://aws.amazon.com/eks/). For these platforms, run:
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```bash
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kubectl get service ingress-nginx-ingress-controller -n gitlab-managed-apps -o jsonpath="{.status.loadBalancer.ingress[0].hostname}".
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```
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Otherwise, you can list the IP addresses of all load balancers:
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```bash
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kubectl get svc --all-namespaces -o jsonpath='{range.items[?(@.status.loadBalancer.ingress)]}{.status.loadBalancer.ingress[*].ip} '
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```
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### Using a static IP
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By default, an ephemeral external IP address is associated to the cluster's load
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balancer. If you associate the ephemeral IP with your DNS and the IP changes,
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your apps will not be able to be reached, and you'd have to change the DNS
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record again. In order to avoid that, you should change it into a static
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reserved IP.
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Read how to [promote an ephemeral external IP address in GKE](https://cloud.google.com/compute/docs/ip-addresses/reserve-static-external-ip-address#promote_ephemeral_ip).
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|
||
### Pointing your DNS at the cluster IP
|
||
|
||
Once you've set up the static IP, you should associate it to a [wildcard DNS
|
||
record](https://en.wikipedia.org/wiki/Wildcard_DNS_record), in order to be able
|
||
to reach your apps. This heavily depends on your domain provider, but in case
|
||
you aren't sure, just create an A record with a wildcard host like
|
||
`*.example.com.`.
|
||
|
||
## Multiple Kubernetes clusters **[PREMIUM]**
|
||
|
||
> Introduced in [GitLab Premium][ee] 10.3.
|
||
|
||
With GitLab Premium, you can associate more than one Kubernetes clusters to your
|
||
project. That way you can have different clusters for different environments,
|
||
like dev, staging, production, etc.
|
||
|
||
Simply add another cluster, like you did the first time, and make sure to
|
||
[set an environment scope](#setting-the-environment-scope) that will
|
||
differentiate the new cluster with the rest.
|
||
|
||
## Setting the environment scope **[PREMIUM]**
|
||
|
||
When adding more than one Kubernetes clusters to your project, you need
|
||
to differentiate them with an environment scope. The environment scope
|
||
associates clusters with [environments](../../../ci/environments.md)
|
||
similar to how the [environment-specific
|
||
variables](../../../ci/variables/README.md#limiting-environment-scopes-of-variables)
|
||
work.
|
||
|
||
The default environment scope is `*`, which means all jobs, regardless of their
|
||
environment, will use that cluster. Each scope can only be used by a single
|
||
cluster in a project, and a validation error will occur if otherwise.
|
||
Also, jobs that don't have an environment keyword set will not be able to access any cluster.
|
||
|
||
---
|
||
|
||
For example, let's say the following Kubernetes clusters exist in a project:
|
||
|
||
| Cluster | Environment scope |
|
||
| ----------- | ----------------- |
|
||
| Development | `*` |
|
||
| Staging | `staging` |
|
||
| Production | `production` |
|
||
|
||
And the following environments are set in [`.gitlab-ci.yml`](../../../ci/yaml/README.md):
|
||
|
||
```yaml
|
||
stages:
|
||
- test
|
||
- deploy
|
||
|
||
test:
|
||
stage: test
|
||
script: sh test
|
||
|
||
deploy to staging:
|
||
stage: deploy
|
||
script: make deploy
|
||
environment:
|
||
name: staging
|
||
url: https://staging.example.com/
|
||
|
||
deploy to production:
|
||
stage: deploy
|
||
script: make deploy
|
||
environment:
|
||
name: production
|
||
url: https://example.com/
|
||
```
|
||
|
||
The result will then be:
|
||
|
||
- The development cluster will be used for the "test" job.
|
||
- The staging cluster will be used for the "deploy to staging" job.
|
||
- The production cluster will be used for the "deploy to production" job.
|
||
|
||
## Deployment variables
|
||
|
||
The Kubernetes cluster integration exposes the following
|
||
[deployment variables](../../../ci/variables/README.md#deployment-variables) in the
|
||
GitLab CI/CD build environment.
|
||
|
||
| Variable | Description |
|
||
| -------- | ----------- |
|
||
| `KUBE_URL` | Equal to the API URL. |
|
||
| `KUBE_TOKEN` | The Kubernetes token of the [project service account](#access-controls). |
|
||
| `KUBE_NAMESPACE` | The Kubernetes namespace is auto-generated if not specified. The default value is `<project_name>-<project_id>`. You can overwrite it to use different one if needed, otherwise the `KUBE_NAMESPACE` variable will receive the default value. |
|
||
| `KUBE_CA_PEM_FILE` | Path to a file containing PEM data. Only present if a custom CA bundle was specified. |
|
||
| `KUBE_CA_PEM` | (**deprecated**) Raw PEM data. Only if a custom CA bundle was specified. |
|
||
| `KUBECONFIG` | Path to a file containing `kubeconfig` for this deployment. CA bundle would be embedded if specified. This config also embeds the same token defined in `KUBE_TOKEN` so you likely will only need this variable. This variable name is also automatically picked up by `kubectl` so you won't actually need to reference it explicitly if using `kubectl`. |
|
||
| `KUBE_INGRESS_BASE_DOMAIN` | From GitLab 11.8, this variable can be used to set a domain per cluster. See [cluster domains](#base-domain) for more information. |
|
||
|
||
NOTE: **NOTE:**
|
||
Prior to GitLab 11.5, `KUBE_TOKEN` was the Kubernetes token of the main
|
||
service account of the cluster integration.
|
||
|
||
### Troubleshooting missing `KUBECONFIG` or `KUBE_TOKEN`
|
||
|
||
GitLab will create a new service account specifically for your CI builds. The
|
||
new service account is created when the cluster is added to the project.
|
||
Sometimes there may be errors that cause the service account creation to fail.
|
||
|
||
In such instances, your build will not be passed the `KUBECONFIG` or
|
||
`KUBE_TOKEN` variables and, if you are using Auto DevOps, your Auto DevOps
|
||
pipelines will no longer trigger a `production` deploy build. You will need to
|
||
check the [logs](../../../administration/logs.md) to debug why the service
|
||
account creation failed.
|
||
|
||
A common reason for failure is that the token you gave GitLab did not have
|
||
[`cluster-admin`](https://kubernetes.io/docs/reference/access-authn-authz/rbac/#user-facing-roles)
|
||
privileges as GitLab expects.
|
||
|
||
Another common problem for why these variables are not being passed to your
|
||
builds is that they must have a matching
|
||
[`environment:name`](../../../ci/environments.md#defining-environments). If
|
||
your build has no `environment:name` set, it will not be passed the Kubernetes
|
||
credentials.
|
||
|
||
## Monitoring your Kubernetes cluster **[ULTIMATE]**
|
||
|
||
> [Introduced](https://gitlab.com/gitlab-org/gitlab-ee/merge_requests/4701) in [GitLab Ultimate][ee] 10.6.
|
||
|
||
When [Prometheus is deployed](#installing-applications), GitLab will automatically monitor the cluster's health. At the top of the cluster settings page, CPU and Memory utilization is displayed, along with the total amount available. Keeping an eye on cluster resources can be important, if the cluster runs out of memory pods may be shutdown or fail to start.
|
||
|
||
![Cluster Monitoring](https://docs.gitlab.com/ee/user/project/clusters/img/k8s_cluster_monitoring.png)
|
||
|
||
## Enabling or disabling the Kubernetes cluster integration
|
||
|
||
After you have successfully added your cluster information, you can enable the
|
||
Kubernetes cluster integration:
|
||
|
||
1. Click the **Enabled/Disabled** switch
|
||
1. Hit **Save** for the changes to take effect
|
||
|
||
You can now start using your Kubernetes cluster for your deployments.
|
||
|
||
To disable the Kubernetes cluster integration, follow the same procedure.
|
||
|
||
## Removing the Kubernetes cluster integration
|
||
|
||
NOTE: **Note:**
|
||
You need Maintainer [permissions] and above to remove a Kubernetes cluster integration.
|
||
|
||
NOTE: **Note:**
|
||
When you remove a cluster, you only remove its relation to GitLab, not the
|
||
cluster itself. To remove the cluster, you can do so by visiting the GKE
|
||
dashboard or using `kubectl`.
|
||
|
||
To remove the Kubernetes cluster integration from your project, simply click the
|
||
**Remove integration** button. You will then be able to follow the procedure
|
||
and add a Kubernetes cluster again.
|
||
|
||
## View Kubernetes pod logs from GitLab **[ULTIMATE]**
|
||
|
||
Learn how to easily
|
||
[view the logs of running pods in connected Kubernetes clusters](https://docs.gitlab.com/ee/user/project/clusters/kubernetes_pod_logs.html).
|
||
|
||
## What you can get with the Kubernetes integration
|
||
|
||
Here's what you can do with GitLab if you enable the Kubernetes integration.
|
||
|
||
### Deploy Boards **[PREMIUM]**
|
||
|
||
GitLab's Deploy Boards offer a consolidated view of the current health and
|
||
status of each CI [environment](../../../ci/environments.md) running on Kubernetes,
|
||
displaying the status of the pods in the deployment. Developers and other
|
||
teammates can view the progress and status of a rollout, pod by pod, in the
|
||
workflow they already use without any need to access Kubernetes.
|
||
|
||
[Read more about Deploy Boards](https://docs.gitlab.com/ee/user/project/deploy_boards.html)
|
||
|
||
### Canary Deployments **[PREMIUM]**
|
||
|
||
Leverage [Kubernetes' Canary deployments](https://kubernetes.io/docs/concepts/cluster-administration/manage-deployment/#canary-deployments)
|
||
and visualize your canary deployments right inside the Deploy Board, without
|
||
the need to leave GitLab.
|
||
|
||
[Read more about Canary Deployments](https://docs.gitlab.com/ee/user/project/canary_deployments.html)
|
||
|
||
### Kubernetes monitoring
|
||
|
||
Automatically detect and monitor Kubernetes metrics. Automatic monitoring of
|
||
[NGINX ingress](../integrations/prometheus_library/nginx.md) is also supported.
|
||
|
||
[Read more about Kubernetes monitoring](../integrations/prometheus_library/kubernetes.md)
|
||
|
||
### Auto DevOps
|
||
|
||
Auto DevOps automatically detects, builds, tests, deploys, and monitors your
|
||
applications.
|
||
|
||
To make full use of Auto DevOps(Auto Deploy, Auto Review Apps, and Auto Monitoring)
|
||
you will need the Kubernetes project integration enabled.
|
||
|
||
[Read more about Auto DevOps](../../../topics/autodevops/index.md)
|
||
|
||
### Web terminals
|
||
|
||
NOTE: **Note:**
|
||
Introduced in GitLab 8.15. You must be the project owner or have `maintainer` permissions
|
||
to use terminals. Support is limited to the first container in the
|
||
first pod of your environment.
|
||
|
||
When enabled, the Kubernetes service adds [web terminal](../../../ci/environments.md#web-terminals)
|
||
support to your [environments](../../../ci/environments.md). This is based on the `exec` functionality found in
|
||
Docker and Kubernetes, so you get a new shell session within your existing
|
||
containers. To use this integration, you should deploy to Kubernetes using
|
||
the deployment variables above, ensuring any pods you create are labelled with
|
||
`app=$CI_ENVIRONMENT_SLUG`. GitLab will do the rest!
|
||
|
||
### Integrating Amazon EKS cluster with GitLab
|
||
|
||
- Learn how to [connect and deploy to an Amazon EKS cluster](eks_and_gitlab/index.md).
|
||
|
||
### Serverless
|
||
|
||
- [Run serverless workloads on Kubernetes with Knative.](serverless/index.md)
|
||
|
||
[permissions]: ../../permissions.md
|
||
[ee]: https://about.gitlab.com/pricing/
|
||
[Auto DevOps]: ../../../topics/autodevops/index.md
|