Deploy boards (deprecated)

Tier: Free, Premium, Ultimate
Offering: GitLab.com, Self-managed, GitLab Dedicated
History
  • Introduced in GitLab 9.0.
  • Moved from GitLab Premium to GitLab Free in 13.8.
  • In GitLab 13.5 and earlier, apps that consist of multiple deployments are shown as duplicates on the deploy board. This is fixed in GitLab 13.6.
  • In GitLab 13.11 and earlier, environments in folders do not show deploy boards. This is fixed in GitLab 13.12.
  • Deprecated in GitLab 14.5.
  • Disabled on self-managed in GitLab 15.0.
caution
This feature was deprecated in GitLab 14.5. An epic exists to add this functionality to the agent.
On self-managed GitLab, by default this feature is not available. To make it available, an administrator can enable the feature flag named certificate_based_clusters.

GitLab deploy boards offer a consolidated view of the current health and status of each CI environment 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.

note
If you have a Kubernetes cluster, you can Auto Deploy applications to production environments by using Auto DevOps.

Overview

With deploy boards you can gain more insight into deploys with benefits such as:

  • Following a deploy from the start, not just when it’s done
  • Watching the rollout of a build across multiple servers
  • Finer state detail (Succeeded, Running, Failed, Pending, Unknown)
  • See Canary Deployments

Here’s an example of a deploy board of the production environment.

deploy boards landing page

The squares represent pods in your Kubernetes cluster that are associated with the given environment. Hovering above each square you can see the state of a deploy rolling out. The percentage is the percent of the pods that are updated to the latest release.

Since deploy boards are tightly coupled with Kubernetes, there is some required knowledge. In particular, you should be familiar with:

Use cases

Since the deploy board is a visual representation of the Kubernetes pods for a specific environment, there are a lot of use cases. To name a few:

  • You want to promote what’s running in staging, to production. You go to the environments list, verify that what’s running in staging is what you think is running, then select the manual job to deploy to production.
  • You trigger a deploy, and you have many containers to upgrade so you know this takes a while (you’ve also throttled your deploy to only take down X containers at a time). But you need to tell someone when it’s deployed, so you go to the environments list, look at the production environment to see what the progress is in real-time as each pod is rolled.
  • You get a report that something is weird in production, so you look at the production environment to see what is running, and if a deploy is ongoing or stuck or failed.
  • You’ve got an MR that looks good, but you want to run it on staging because staging is set up in some way closer to production. You go to the environment list, find the Review App you’re interested in, and select the manual action to deploy it to staging.

Enabling deploy boards

To display the deploy boards for a specific environment you should:

  1. Have defined an environment with a deploy stage.

  2. Have a Kubernetes cluster up and running.

    note
    If you’re using OpenShift, ensure that you’re using the Deployment resource instead of DeploymentConfiguration. Otherwise, the deploy boards don’t render correctly. For more information, read the OpenShift docs and GitLab issue #4584.
  3. Configure GitLab Runner with the docker or kubernetes executor.
  4. Configure the Kubernetes integration in your project for the cluster. The Kubernetes namespace is of particular note as you need it for your deployment scripts (exposed by the KUBE_NAMESPACE deployment variable).
  5. Ensure Kubernetes annotations of app.gitlab.com/env: $CI_ENVIRONMENT_SLUG and app.gitlab.com/app: $CI_PROJECT_PATH_SLUG are applied to the deployments, replica sets, and pods, where $CI_ENVIRONMENT_SLUG and $CI_PROJECT_PATH_SLUG are the values of the CI/CD variables. This is so we can lookup the proper environment in a cluster/namespace which may have more than one. These resources should be contained in the namespace defined in the Kubernetes service setting. You can use an Auto deploy .gitlab-ci.yml template which has predefined stages and commands to use, and automatically applies the annotations. Each project must have a unique namespace in Kubernetes as well. The image below demonstrates how this is shown inside Kubernetes.

    note
    Matching based on the Kubernetes app label was removed in GitLab 12.1. To migrate, apply the required annotations (see above) and re-deploy your application. If you are using Auto DevOps, this will be done automatically and no action is necessary.

    If you use GCP to manage clusters, you can see the deployment details in GCP itself by navigating to Workloads > deployment name > Details:

    deploy boards Kubernetes Label

Once all of the above are set up and the pipeline has run at least once, go to the environments page under Operate > Environments.

Deploy boards are visible by default. You can explicitly select the triangle next to their respective environment name to hide them.

Example manifest file

The following example is an extract of a Kubernetes manifest deployment file, using the two annotations app.gitlab.com/env and app.gitlab.com/app to enable the deploy boards:

apiVersion: apps/v1
kind: Deployment
metadata:
  name: "APPLICATION_NAME"
  annotations:
    app.gitlab.com/app: ${CI_PROJECT_PATH_SLUG}
    app.gitlab.com/env: ${CI_ENVIRONMENT_SLUG}
spec:
  replicas: 1
  selector:
    matchLabels:
      app: "APPLICATION_NAME"
  template:
    metadata:
      labels:
        app: "APPLICATION_NAME"
      annotations:
        app.gitlab.com/app: ${CI_PROJECT_PATH_SLUG}
        app.gitlab.com/env: ${CI_ENVIRONMENT_SLUG}

The annotations are applied to the deployments, replica sets, and pods. By changing the number of replicas, like kubectl scale --replicas=3 deploy APPLICATION_NAME -n ${KUBE_NAMESPACE}, you can follow the instances’ pods from the board.

note
The YAML file is static. If you apply it using kubectl apply, you must manually provide the project and environment slugs, or create a script to replace the variables in the YAML before applying.

Canary Deployments

A popular CI strategy, where a small portion of the fleet is updated to the new version of your application.

Read more about Canary Deployments.

Further reading