Environments and deployments

Introduced in GitLab 8.9.

Environments describe where code is deployed.

Each time GitLab CI/CD deploys a version of code to an environment, a deployment is created.


  • Provides a full history of deployments to each environment.
  • Tracks your deployments, so you always know what is deployed on your servers.

If you have a deployment service like Kubernetes associated with your project, you can use it to assist with your deployments. You can even access a web terminal for your environment from within GitLab.

View environments and deployments


To view a list of environments and deployments:

  1. Go to the project's Operations > Environments page. The environments are displayed.

    Environments list

  2. To view a list of deployments for an environment, select the environment name, for example, staging.

    Deployments list

Deployments show up in this list only after a deployment job has created them.

Types of environments

There are two types of environments:

  • Static environments have static names, like staging or production.
  • Dynamic environments have dynamic names. Dynamic environments are a fundamental part of Review apps.

Create a static environment

You can create an environment and deployment in the UI or in your .gitlab-ci.yml file.

In the UI:

  1. Go to the project's Operations > Environments page.
  2. Select New environment.
  3. Enter a name and external URL.
  4. Select Save.

In your .gitlab-ci.yml file:

  1. Specify a name for the environment and optionally, a URL, which determines the deployment URL. For example:

      stage: deploy
        - echo "Deploy to staging server"
        name: staging
        url: https://staging.example.com
  2. Trigger a deployment. (For example, by creating and pushing a commit.)

When the job runs, the environment and deployment are created.

NOTE: Some characters cannot be used in environment names. For more information about the environment keywords, see the .gitlab-ci.yml keyword reference.

Create a dynamic environment

To create a dynamic name and URL for an environment, you can use predefined CI/CD variables. For example:

  stage: deploy
    - echo "Deploy a review app"
    name: review/$CI_COMMIT_REF_NAME
    url: https://$CI_ENVIRONMENT_SLUG.example.com
    - branches
    - master

In this example:

  • The name is review/$CI_COMMIT_REF_NAME. Because the environment name can contain slashes (/), you can use this pattern to distinguish between dynamic and static environments.
  • For the url, you could use $CI_COMMIT_REF_NAME, but because this value may contain a / or other characters that would not be valid in a domain name or URL, use $CI_ENVIRONMENT_SLUG instead. The $CI_ENVIRONMENT_SLUG variable is guaranteed to be unique.

You do not have to use the same prefix or only slashes (/) in the dynamic environment name. However, when you use this format, you can group similar environments.

NOTE: Some variables cannot be used as environment names or URLs. For more information about the environment keywords, see the .gitlab-ci.yml keyword reference.

Deployment tier of environments (FREE)

Introduced in GitLab 13.10.

There are cases where you might want to use a code name as an environment name instead of using an industry standard. For example, your environment might be called customer-portal instead of production. This is perfectly fine, however, it loses information that the specific environment is used as production.

To keep information that a specific environment is for production or some other use, you can set one of the following tiers to each environment:

Environment tier Environment names examples
production Production, Live
staging Staging, Model, Pre, Demo
testing Test, QC
development Dev, Review apps, Trunk

By default, an approximate tier is automatically guessed and set from the environment name. Alternatively, you can specify a specific tier with deployment_tier keyword, see the .gitlab-ci.yml syntax reference for more details.

Configure manual deployments

You can create a job that requires someone to manually start the deployment. For example:

  stage: deploy
    - echo "Deploy to production server"
    name: production
    url: https://example.com
  when: manual
    - master

The when: manual action:

  • Exposes a play button for the job in the GitLab UI.
  • Means the deploy_prod job is only triggered when the play button is clicked.

You can find the play button in the pipelines, environments, deployments, and jobs views.

Configure Kubernetes deployments

Introduced in GitLab 12.6.

If you are deploying to a Kubernetes cluster associated with your project, you can configure these deployments from your gitlab-ci.yml file.

NOTE: Kubernetes configuration isn't supported for Kubernetes clusters that are managed by GitLab. To follow progress on support for GitLab-managed clusters, see the relevant issue.

The following configuration options are supported:

In the following example, the job deploys your application to the production Kubernetes namespace.

  stage: deploy
    - echo "Deploy to production server"
    name: production
    url: https://example.com
      namespace: production
    - master

When you use the GitLab Kubernetes integration to deploy to a Kubernetes cluster, cluster and namespace information is displayed above the job trace on the deployment job page:

Deployment cluster information

Configure incremental rollouts

Learn how to release production changes to only a portion of your Kubernetes pods with incremental rollouts.

CI/CD variables for environments and deployments

When you create an environment, you specify the name and URL.

If you want to use the name or URL in another job, you can use:

  • $CI_ENVIRONMENT_NAME. The name defined in the .gitlab-ci.yml file.
  • $CI_ENVIRONMENT_SLUG. A "cleaned-up" version of the name, suitable for use in URL and DNS, for example. This variable is guaranteed to be unique.
  • $CI_ENVIRONMENT_URL. The environment's URL, which was specified in the .gitlab-ci.yml file or automatically assigned.

If you change the name of an existing environment, the:

  • $CI_ENVIRONMENT_NAME variable is updated with the new environment name.
  • $CI_ENVIRONMENT_SLUG variable remains unchanged to prevent unintended side effects.

Set dynamic environment URLs after a job finishes

Introduced in GitLab 12.9.

In a job script, you can specify a static environment URL. However, there may be times when you want a dynamic URL. For example, if you deploy a Review App to an external hosting service that generates a random URL per deployment, like https://94dd65b.amazonaws.com/qa-lambda-1234567. In this case, you don't know the URL before the deployment script finishes. If you want to use the environment URL in GitLab, you would have to update it manually.

To address this problem, you can configure a deployment job to report back a set of variables. These variables include the URL that was dynamically-generated by the external service. GitLab supports the dotenv (.env) file format, and expands the environment:url value with variables defined in the .env file.

To use this feature, specify the artifacts:reports:dotenv keyword in .gitlab-ci.yml.

For an overview, see Set dynamic URLs after a job finished.

Example of setting dynamic environment URLs

The following example shows a Review App that creates a new environment per merge request. The review job is triggered by every push, and creates or updates an environment named review/your-branch-name. The environment URL is set to $DYNAMIC_ENVIRONMENT_URL:

    - DYNAMIC_ENVIRONMENT_URL=$(deploy-script)                                 # In script, get the environment URL.
    - echo "DYNAMIC_ENVIRONMENT_URL=$DYNAMIC_ENVIRONMENT_URL" >> deploy.env    # Add the value to a dotenv file.
      dotenv: deploy.env                                                       # Report back dotenv file to rails.
    name: review/$CI_COMMIT_REF_SLUG
    url: $DYNAMIC_ENVIRONMENT_URL                                              # and set the variable produced in script to `environment:url`
    on_stop: stop_review

    - ./teardown-environment
  when: manual
    name: review/$CI_COMMIT_REF_SLUG
    action: stop

As soon as the review job finishes, GitLab updates the review/your-branch-name environment's URL. It parses the deploy.env report artifact, registers a list of variables as runtime-created, uses it for expanding environment:url: $DYNAMIC_ENVIRONMENT_URL and sets it to the environment URL. You can also specify a static part of the URL at environment:url:, such as https://$DYNAMIC_ENVIRONMENT_URL. If the value of DYNAMIC_ENVIRONMENT_URL is example.com, the final result is https://example.com.

The assigned URL for the review/your-branch-name environment is visible in the UI.

Note the following:

  • stop_review doesn't generate a dotenv report artifact, so it doesn't recognize the DYNAMIC_ENVIRONMENT_URL environment variable. Therefore you shouldn't set environment:url: in the stop_review job.
  • If the environment URL isn't valid (for example, the URL is malformed), the system doesn't update the environment URL.
  • If the script that runs in stop_review exists only in your repository and therefore can't use GIT_STRATEGY: none, configure pipelines for merge requests for these jobs. This ensures that runners can fetch the repository even after a feature branch is deleted. For more information, see Ref Specs for Runners.

Working with environments

Once environments are configured, GitLab provides many features for working with them, as documented below.

Environment rollback

When you roll back a deployment on a specific commit, a new deployment is created. This deployment has its own unique job ID. It points to the commit you're rolling back to.

For the rollback to succeed, the deployment process must be defined in the job's script.

Retry or roll back a deployment

If there is a problem with a deployment, you can retry it or roll it back.

To retry or rollback a deployment:

  1. Go to the project's Operations > Environments.
  2. Select the environment.
  3. To the right of the deployment name:
    • To retry a deployment, select Re-deploy to environment.
    • To roll back to a deployment, next to a previously successful deployment, select Rollback environment.

Environment URL

The environment URL is displayed in a few places in GitLab:

  • In a merge request as a link: Environment URL in merge request
  • In the Environments view as a button: Environment URL in environments
  • In the Deployments view as a button: Environment URL in deployments

You can see this information in a merge request if:

  • The merge request is eventually merged to the default branch (usually master).
  • That branch also deploys to an environment (for example, staging or production).

For example:

Environment URLs in merge request

Going from source files to public pages

With GitLab Route Maps, you can go directly from source files to public pages in the environment set for Review Apps.

Stopping an environment

When you stop an environment:

  • On the Environments page, it moves from the list of Available environments to the list of Stopped environments.
  • An on_stop action, if defined, is executed.

Dynamic environments stop automatically when their associated branch is deleted.

Stop an environment when a branch is deleted

You can configure environments to stop when a branch is deleted.

The following example shows a deploy_review job that calls a stop_review job to clean up and stop the environment. The stop_review job must be in the same stage as the deploy_review job.

Both jobs must have the same rules or only/except configuration. Otherwise, the stop_review job might not be included in all pipelines that include the deploy_review job, and you cannot trigger action: stop to stop the environment automatically.

  stage: deploy
    - echo "Deploy a review app"
    name: review/$CI_COMMIT_REF_NAME
    url: https://$CI_ENVIRONMENT_SLUG.example.com
    on_stop: stop_review

  stage: deploy
    - echo "Remove review app"
    name: review/$CI_COMMIT_REF_NAME
    action: stop
      when: manual

If you can't use pipelines for merge requests, set the GIT_STRATEGY to none in the stop_review job. Then the runner doesn't try to check out the code after the branch is deleted.

Read more in the .gitlab-ci.yml reference.

Stop an environment after a certain time period

Introduced in GitLab 12.8.

You can set environments to stop automatically after a certain time period.

In your .gitlab-ci.yml file, specify the environment:auto_stop_in keyword. You can specify a human-friendly date as the value, such as 1 hour and 30 minutes or 1 day. After the time period passes, GitLab automatically triggers a job to stop the environment.

Due to resource limitations, a background worker for stopping environments only runs once every hour. This means that environments aren't stopped at the exact timestamp specified, but are instead stopped when the hourly cron worker detects expired environments.

In the following example, each merge request creates a new Review App environment. Each push triggers the review_app job and an environment named review/your-branch-name is created or updated. The environment runs until stop_review_app is executed:

  script: deploy-review-app
    name: review/$CI_COMMIT_REF_NAME
    on_stop: stop_review_app
    auto_stop_in: 1 week

  script: stop-review-app
    name: review/$CI_COMMIT_REF_NAME
    action: stop
      when: manual

As long as the merge request is active and keeps getting new commits, the Review App doesn't stop. Developers don't need to worry about re-initiating Review App.

Because stop_review_app is set to auto_stop_in: 1 week, if a merge request is inactive for more than a week, GitLab automatically triggers the stop_review_app job to stop the environment.

View a deployment's scheduled stop time

You can view a deployment's expiration date in the GitLab UI.

  1. Go to the project's Operations > Environments page.
  2. Select the name of the deployment.

In the top left, next to the environment name, the expiration date is displayed.

Override a deployment's scheduled stop time

You can manually override a deployment's expiration date.

  1. Go to the project's Operations > Environments page.
  2. Select the deployment name.
  3. In the top right, select the thumbtack ({thumbtack}).

Environment auto stop

The auto_stop_in setting is overwritten and the environment remains active until it's stopped manually.

Delete a stopped environment

Introduced in GitLab 12.10.

You can delete stopped environments in the GitLab UI or by using the API.

To delete a stopped environment in the GitLab UI:

  1. Go to the project's Operations > Environments page.
  2. Select the Stopped tab.
  3. Next to the environment you want to delete, select Delete environment.
  4. On the confirmation dialog box, select Delete environment.

Prepare an environment

Introduced in GitLab 13.2.

By default, GitLab creates a deployment every time a build with the specified environment runs. Newer deployments can also cancel older ones.

You may want to specify an environment keyword to protect builds from unauthorized access, or to get access to environment-scoped variables. In these cases, you can use the action: prepare keyword to ensure deployments aren't created, and no builds are canceled:

  stage: build
    - echo "Building the app"
    name: staging
    action: prepare
    url: https://staging.example.com

Group similar environments

Introduced in GitLab 8.14.

You can group environments into collapsible sections in the UI.

For example, if all of your environments start with the name review, then in the UI, the environments are grouped under that heading:

Environment groups

The following example shows how to start your environment names with review. The $CI_COMMIT_REF_NAME variable is populated with the branch name at runtime:

  stage: deploy
    - echo "Deploy a review app"
    name: review/$CI_COMMIT_REF_NAME

Environment incident management

You have successfully setup a Continuous Delivery/Deployment workflow in your project. Production environments can go down unexpectedly, including for reasons outside of your own control. For example, issues with external dependencies, infrastructure, or human error can cause major issues with an environment. This could include:

  • A dependent cloud service goes down.
  • A 3rd party library is updated and it's not compatible with your application.
  • Someone performs a DDoS attack to a vulnerable endpoint in your server.
  • An operator misconfigures infrastructure.
  • A bug is introduced into the production application code.

You can use incident management to get alerts when there are critical issues that need immediate attention.

View the latest alerts for environments (ULTIMATE)

Introduced in GitLab Ultimate 13.4.

If you set up alerts for Prometheus metrics, alerts for environments are shown on the environments page. The alert with the highest severity is shown, so you can identify which environments need immediate attention.

Environment alert

When the issue that triggered the alert is resolved, it is removed and is no longer visible on the environment page.

If the alert requires a rollback, you can select the deployment tab from the environment page and select which deployment to roll back to.

Auto Rollback (ULTIMATE)

Introduced in GitLab Ultimate 13.7.

In a typical Continuous Deployment workflow, the CI pipeline tests every commit before deploying to production. However, problematic code can still make it to production. For example, inefficient code that is logically correct can pass tests even though it causes severe performance degradation. Operators and SREs monitor the system to catch such problems as soon as possible. If they find a problematic deployment, they can roll back to a previous stable version.

GitLab Auto Rollback eases this workflow by automatically triggering a rollback when a critical alert is detected. GitLab selects and redeploys the most recent successful deployment.

Limitations of GitLab Auto Rollback:

  • The rollback is skipped if a deployment is running when the alert is detected.
  • A rollback can happen only once in three minutes. If multiple alerts are detected at once, only one rollback is performed.

GitLab Auto Rollback is turned off by default. To turn it on:

  1. Visit Project > Settings > CI/CD > Automatic deployment rollbacks.
  2. Select the checkbox for Enable automatic rollbacks.
  3. Click Save changes.

Monitoring environments

If you have enabled Prometheus for monitoring system and response metrics, you can monitor the behavior of your app running in each environment. For the monitoring dashboard to appear, you need to Configure Prometheus to collect at least one supported metric.

In GitLab 9.2 and later, all deployments to an environment are shown directly on the monitoring dashboard.

Once configured, GitLab attempts to retrieve supported performance metrics for any environment that has had a successful deployment. If monitoring data was successfully retrieved, a Monitoring button appears for each environment.

Clicking the Monitoring button displays a new page showing up to the last 8 hours of performance data. It may take a minute or two for data to appear after initial deployment.

All deployments to an environment are shown directly on the monitoring dashboard, which allows easy correlation between any changes in performance and new versions of the app, all without leaving GitLab.

Monitoring dashboard

Embedding metrics in GitLab Flavored Markdown

Metric charts can be embedded within GitLab Flavored Markdown. See Embedding Metrics within GitLab Flavored Markdown for more details.

Web terminals

Web terminals were added in GitLab 8.15 and are only available to project Maintainers and Owners.

If you deploy to your environments with the help of a deployment service (for example, the Kubernetes integration), GitLab can open a terminal session to your environment.

This is a powerful feature that allows you to debug issues without leaving the comfort of your web browser. To enable it, follow the instructions given in the service integration documentation.

Note that container-based deployments often lack basic tools (like an editor), and may be stopped or restarted at any time. If this happens, you lose all your changes. Treat this as a debugging tool, not a comprehensive online IDE.

Once enabled, your environments display a Terminal button:

Terminal button on environment index

You can also access the terminal button from the page for a specific environment:

Terminal button for an environment

Wherever you find it, clicking the button takes you to a separate page to establish the terminal session:

Terminal page

This works like any other terminal. You're in the container created by your deployment so you can:

  • Run shell commands and get responses in real time.
  • Check the logs.
  • Try out configuration or code tweaks etc.

You can open multiple terminals to the same environment, they each get their own shell session and even a multiplexer like screen or tmux.

Check out deployments locally

In GitLab 8.13 and later, a reference in the Git repository is saved for each deployment, so knowing the state of your current environments is only a git fetch away.

In your Git configuration, append the [remote "<your-remote>"] block with an extra fetch line:

fetch = +refs/environments/*:refs/remotes/origin/environments/*

Scoping environments with specs

You can limit the environment scope of a CI/CD variable by defining which environments it can be available for.

Wildcards can be used and the default environment scope is *. This means that any jobs can have this variable regardless of whether an environment is defined.

For example, if the environment scope is production, then only the jobs having the environment production defined would have this specific variable. Wildcards (*) can be used along with the environment name, therefore if the environment scope is review/* then any jobs with environment names starting with review/ would have that particular variable.

Some GitLab features can behave differently for each environment. For example, you can create a secret variable to be injected only into a production environment.

In most cases, these features use the environment specs mechanism, which offers an efficient way to implement scoping within each environment group.

Let's say there are four environments:

  • production
  • staging
  • review/feature-1
  • review/feature-2

Each environment can be matched with the following environment spec:

Environment Spec production staging review/feature-1 review/feature-2
* Matched Matched Matched Matched
production Matched
staging Matched
review/* Matched Matched
review/feature-1 Matched

As you can see, you can use specific matching for selecting a particular environment, and also use wildcard matching (*) for selecting a particular environment group, such as Review Apps (review/*).

Note that the most specific spec takes precedence over the other wildcard matching. In this case, the review/feature-1 spec takes precedence over review/* and * specs.

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