--- stage: Verify group: Pipeline Authoring info: To determine the technical writer assigned to the Stage/Group associated with this page, see https://about.gitlab.com/handbook/engineering/ux/technical-writing/#assignments --- # Choose when to run jobs **(FREE)** When a new pipeline starts, GitLab checks the pipeline configuration to determine which jobs should run in that pipeline. You can configure jobs to run depending on the status of variables, the pipeline type, and so on. To configure a job to be included or excluded from certain pipelines, you can use: - [`rules`](../yaml/index.md#rules) - [`only`](../yaml/index.md#only--except) - [`except`](../yaml/index.md#only--except) Use [`needs`](../yaml/index.md#needs) to configure a job to run as soon as the earlier jobs it depends on finish running. ## Specify when jobs run with `rules` > [Introduced](https://gitlab.com/gitlab-org/gitlab/-/issues/27863) in GitLab 12.3. Use [`rules`](../yaml/index.md#rules) to include or exclude jobs in pipelines. Rules are evaluated in order until the first match. When a match is found, the job is either included or excluded from the pipeline, depending on the configuration. See the [`rules`](../yaml/index.md#rules) reference for more details. Future keyword improvements are being discussed in our [epic for improving `rules`](https://gitlab.com/groups/gitlab-org/-/epics/2783), where anyone can add suggestions or requests. ### `rules` examples The following example uses `if` to define that the job runs in only two specific cases: ```yaml job: script: echo "Hello, Rules!" rules: - if: $CI_PIPELINE_SOURCE == "merge_request_event" when: manual allow_failure: true - if: $CI_PIPELINE_SOURCE == "schedule" ``` - If the pipeline is for a merge request, the first rule matches, and the job is added to the [merge request pipeline](../pipelines/merge_request_pipelines.md) with attributes of: - `when: manual` (manual job) - `allow_failure: true` (the pipeline continues running even if the manual job is not run) - If the pipeline is **not** for a merge request, the first rule doesn't match, and the second rule is evaluated. - If the pipeline is a scheduled pipeline, the second rule matches, and the job is added to the scheduled pipeline. No attributes were defined, so it is added with: - `when: on_success` (default) - `allow_failure: false` (default) - In **all other cases**, no rules match, so the job is **not** added to any other pipeline. Alternatively, you can define a set of rules to exclude jobs in a few cases, but run them in all other cases: ```yaml job: script: echo "Hello, Rules!" rules: - if: $CI_PIPELINE_SOURCE == "merge_request_event" when: never - if: $CI_PIPELINE_SOURCE == "schedule" when: never - when: on_success ``` - If the pipeline is for a merge request, the job is **not** added to the pipeline. - If the pipeline is a scheduled pipeline, the job is **not** added to the pipeline. - In **all other cases**, the job is added to the pipeline, with `when: on_success`. WARNING: If you use a `when` clause as the final rule (not including `when: never`), two simultaneous pipelines may start. Both push pipelines and merge request pipelines can be triggered by the same event (a push to the source branch for an open merge request). See how to [prevent duplicate pipelines](#avoid-duplicate-pipelines) for more details. #### Run jobs for scheduled pipelines To configure a job to be executed only when the pipeline has been scheduled, use the [`rules`](../yaml/index.md#rules) keyword. In this example, `make world` runs in scheduled pipelines, and `make build` runs in branch and tag pipelines: ```yaml job:on-schedule: rules: - if: $CI_PIPELINE_SOURCE == "schedule" script: - make world job: rules: - if: $CI_PIPELINE_SOURCE == "push" script: - make build ``` ### Complex rules You can use all `rules` keywords, like `if`, `changes`, and `exists`, in the same rule. The rule evaluates to true only when all included keywords evaluate to true. For example: ```yaml docker build: script: docker build -t my-image:$CI_COMMIT_REF_SLUG . rules: - if: $VAR == "string value" changes: # Include the job and set to when:manual if any of the follow paths match a modified file. - Dockerfile - docker/scripts/* when: manual allow_failure: true ``` If the `Dockerfile` file or any file in `/docker/scripts` has changed **and** `$VAR` == "string value", then the job runs manually and is allowed to fail. You can use [parentheses](#group-variable-expressions-together-with-parentheses) with `&&` and `||` to build more complicated variable expressions. [Introduced](https://gitlab.com/gitlab-org/gitlab/-/issues/230938) in GitLab 13.3: ```yaml job1: script: - echo This rule uses parentheses. rules: - if: ($CI_COMMIT_BRANCH == $CI_DEFAULT_BRANCH || $CI_COMMIT_BRANCH == "develop") && $MY_VARIABLE ``` WARNING: [Before GitLab 13.3](https://gitlab.com/gitlab-org/gitlab/-/issues/230938), rules that use both `||` and `&&` may evaluate with an unexpected order of operations. ### Avoid duplicate pipelines If a job uses `rules`, a single action, like pushing a commit to a branch, can trigger multiple pipelines. You don't have to explicitly configure rules for multiple types of pipeline to trigger them accidentally. Some configurations that have the potential to cause duplicate pipelines cause a [pipeline warning](../troubleshooting.md#pipeline-warnings) to be displayed. [Introduced](https://gitlab.com/gitlab-org/gitlab/-/issues/219431) in GitLab 13.3. For example: ```yaml job: script: echo "This job creates double pipelines!" rules: - if: $CUSTOM_VARIABLE == "false" when: never - when: always ``` This job does not run when `$CUSTOM_VARIABLE` is false, but it *does* run in **all** other pipelines, including **both** push (branch) and merge request pipelines. With this configuration, every push to an open merge request's source branch causes duplicated pipelines. To avoid duplicate pipelines, you can: - Use [`workflow`](../yaml/index.md#workflow) to specify which types of pipelines can run. - Rewrite the rules to run the job only in very specific cases, and avoid a final `when` rule: ```yaml job: script: echo "This job does NOT create double pipelines!" rules: - if: $CUSTOM_VARIABLE == "true" && $CI_PIPELINE_SOURCE == "merge_request_event" ``` You can also avoid duplicate pipelines by changing the job rules to avoid either push (branch) pipelines or merge request pipelines. However, if you use a `- when: always` rule without `workflow: rules`, GitLab still displays a [pipeline warning](../troubleshooting.md#pipeline-warnings). For example, the following does not trigger double pipelines, but is not recommended without `workflow: rules`: ```yaml job: script: echo "This job does NOT create double pipelines!" rules: - if: $CI_PIPELINE_SOURCE == "push" when: never - when: always ``` You should not include both push and merge request pipelines in the same job without [`workflow:rules` that prevent duplicate pipelines](../yaml/workflow.md#switch-between-branch-pipelines-and-merge-request-pipelines): ```yaml job: script: echo "This job creates double pipelines!" rules: - if: $CI_PIPELINE_SOURCE == "push" - if: $CI_PIPELINE_SOURCE == "merge_request_event" ``` Also, do not mix `only/except` jobs with `rules` jobs in the same pipeline. It may not cause YAML errors, but the different default behaviors of `only/except` and `rules` can cause issues that are difficult to troubleshoot: ```yaml job-with-no-rules: script: echo "This job runs in branch pipelines." job-with-rules: script: echo "This job runs in merge request pipelines." rules: - if: $CI_PIPELINE_SOURCE == "merge_request_event" ``` For every change pushed to the branch, duplicate pipelines run. One branch pipeline runs a single job (`job-with-no-rules`), and one merge request pipeline runs the other job (`job-with-rules`). Jobs with no rules default to [`except: merge_requests`](../yaml/index.md#only--except), so `job-with-no-rules` runs in all cases except merge requests. ### Common `if` clauses for `rules` For behavior similar to the [`only`/`except` keywords](../yaml/index.md#only--except), you can check the value of the `$CI_PIPELINE_SOURCE` variable: | Value | Description | |-------------------------------|----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------| | `api` | For pipelines triggered by the [pipelines API](../../api/pipelines.md#create-a-new-pipeline). | | `chat` | For pipelines created by using a [GitLab ChatOps](../chatops/index.md) command. | | `external` | When you use CI services other than GitLab. | | `external_pull_request_event` | When an external pull request on GitHub is created or updated. See [Pipelines for external pull requests](../ci_cd_for_external_repos/index.md#pipelines-for-external-pull-requests). | | `merge_request_event` | For pipelines created when a merge request is created or updated. Required to enable [merge request pipelines](../pipelines/merge_request_pipelines.md), [merged results pipelines](../pipelines/merged_results_pipelines.md), and [merge trains](../pipelines/merge_trains.md). | | `parent_pipeline` | For pipelines triggered by a [parent/child pipeline](../pipelines/parent_child_pipelines.md) with `rules`. Use this pipeline source in the child pipeline configuration so that it can be triggered by the parent pipeline. | | `pipeline` | For [multi-project pipelines](../pipelines/multi_project_pipelines.md) created by [using the API with `CI_JOB_TOKEN`](../pipelines/multi_project_pipelines.md#create-multi-project-pipelines-by-using-the-api), or the [`trigger`](../yaml/index.md#trigger) keyword. | | `push` | For pipelines triggered by a `git push` event, including for branches and tags. | | `schedule` | For [scheduled pipelines](../pipelines/schedules.md). | | `trigger` | For pipelines created by using a [trigger token](../triggers/index.md#configure-cicd-jobs-to-run-in-triggered-pipelines). | | `web` | For pipelines created by using **Run pipeline** button in the GitLab UI, from the project's **CI/CD > Pipelines** section. | | `webide` | For pipelines created by using the [WebIDE](../../user/project/web_ide/index.md). | The following example runs the job as a manual job in scheduled pipelines or in push pipelines (to branches or tags), with `when: on_success` (default). It does not add the job to any other pipeline type. ```yaml job: script: echo "Hello, Rules!" rules: - if: $CI_PIPELINE_SOURCE == "schedule" when: manual allow_failure: true - if: $CI_PIPELINE_SOURCE == "push" ``` The following example runs the job as a `when: on_success` job in [merge request pipelines](../pipelines/merge_request_pipelines.md) and scheduled pipelines. It does not run in any other pipeline type. ```yaml job: script: echo "Hello, Rules!" rules: - if: $CI_PIPELINE_SOURCE == "merge_request_event" - if: $CI_PIPELINE_SOURCE == "schedule" ``` Other commonly used variables for `if` clauses: - `if: $CI_COMMIT_TAG`: If changes are pushed for a tag. - `if: $CI_COMMIT_BRANCH`: If changes are pushed to any branch. - `if: $CI_COMMIT_BRANCH == "main"`: If changes are pushed to `main`. - `if: $CI_COMMIT_BRANCH == $CI_DEFAULT_BRANCH`: If changes are pushed to the default branch. Use when you want to have the same configuration in multiple projects with different default branches. - `if: $CI_COMMIT_BRANCH =~ /regex-expression/`: If the commit branch matches a regular expression. - `if: $CI_COMMIT_BRANCH == $CI_DEFAULT_BRANCH && $CI_COMMIT_TITLE =~ /Merge branch.*/`: If the commit branch is the default branch and the commit message title matches a regular expression. For example, the default commit message for a merge commit starts with `Merge branch`. - `if: $CUSTOM_VARIABLE !~ /regex-expression/`: If the [custom variable](../variables/index.md#custom-cicd-variables) `CUSTOM_VARIABLE` does **not** match a regular expression. - `if: $CUSTOM_VARIABLE == "value1"`: If the custom variable `CUSTOM_VARIABLE` is exactly `value1`. ### Variables in `rules:changes` > - [Introduced](https://gitlab.com/gitlab-org/gitlab/-/issues/34272) in GitLab 13.6. > - [Feature flag removed](https://gitlab.com/gitlab-org/gitlab/-/issues/267192) in GitLab 13.7. You can use CI/CD variables in `rules:changes` expressions to determine when to add jobs to a pipeline: ```yaml docker build: variables: DOCKERFILES_DIR: 'path/to/files' script: docker build -t my-image:$CI_COMMIT_REF_SLUG . rules: - changes: - $DOCKERFILES_DIR/* ``` You can use the `$` character for both variables and paths. For example, if the `$DOCKERFILES_DIR` variable exists, its value is used. If it does not exist, the `$` is interpreted as being part of a path. ## Reuse rules in different jobs > [Introduced](https://gitlab.com/gitlab-org/gitlab/-/issues/322992) in GitLab 14.3. Use [`!reference` tags](../yaml/yaml_optimization.md#reference-tags) to reuse rules in different jobs. You can combine `!reference` rules with regular job-defined rules: ```yaml .default_rules: rules: - if: $CI_PIPELINE_SOURCE == "schedule" when: never - if: $CI_COMMIT_BRANCH == $CI_DEFAULT_BRANCH job1: rules: - !reference [.default_rules, rules] script: - echo "This job runs for the default branch, but not schedules." job2: rules: - !reference [.default_rules, rules] - if: $CI_PIPELINE_SOURCE == "merge_request_event" script: - echo "This job runs for the default branch, but not schedules." - echo "It also runs for merge requests." ``` ## Specify when jobs run with `only` and `except` You can use [`only`](../yaml/index.md#only--except) and [`except`](../yaml/index.md#only--except) to control when to add jobs to pipelines. - Use `only` to define when a job runs. - Use `except` to define when a job **does not** run. ### `only:refs` / `except:refs` examples `only` or `except` used without `refs` is the same as [`only:refs` / `except/refs`](../yaml/index.md#onlyrefs--exceptrefs) In the following example, `job` runs only for: - Git tags - [Triggers](../triggers/index.md#configure-cicd-jobs-to-run-in-triggered-pipelines) - [Scheduled pipelines](../pipelines/schedules.md) ```yaml job: # use special keywords only: - tags - triggers - schedules ``` To execute jobs only for the parent repository and not forks: ```yaml job: only: - branches@gitlab-org/gitlab except: - main@gitlab-org/gitlab - /^release/.*$/@gitlab-org/gitlab ``` This example runs `job` for all branches on `gitlab-org/gitlab`, except `main` and branches that start with `release/`. ### `only: variables` / `except: variables` examples You can use [`except:variables`](../yaml/index.md#onlyvariables--exceptvariables) to exclude jobs based on a commit message: ```yaml end-to-end: script: rake test:end-to-end except: variables: - $CI_COMMIT_MESSAGE =~ /skip-end-to-end-tests/ ``` You can use [parentheses](#group-variable-expressions-together-with-parentheses) with `&&` and `||` to build more complicated variable expressions: ```yaml job1: script: - echo This rule uses parentheses. only: variables: - ($CI_COMMIT_BRANCH == "main" || $CI_COMMIT_BRANCH == "develop") && $MY_VARIABLE ``` When multiple entries are specified in `only:variables`, the job runs when at least one of them evaluates to `true`. You can use `&&` in a single entry when multiple conditions must be satisfied at the same time. ### `only:changes` / `except:changes` examples You can skip a job if a change is detected in any file with a `.md` extension in the root directory of the repository: ```yaml build: script: npm run build except: changes: - "*.md" ``` If you change multiple files, but only one file ends in `.md`, the `build` job is still skipped. The job does not run for any of the files. With some configurations that use `changes`, [jobs or pipelines might run unexpectedly](#jobs-or-pipelines-run-unexpectedly-when-using-changes) #### Use `only:changes` with merge request pipelines With [merge request pipelines](../pipelines/merge_request_pipelines.md), it's possible to define a job to be created based on files modified in a merge request. Use this keyword with `only: [merge_requests]` so GitLab can find the correct base SHA of the source branch. File differences are correctly calculated from any further commits, and all changes in the merge requests are properly tested in pipelines. For example: ```yaml docker build service one: script: docker build -t my-service-one-image:$CI_COMMIT_REF_SLUG . only: refs: - merge_requests changes: - Dockerfile - service-one/**/* ``` In this scenario, if a merge request changes files in the `service-one` directory or the `Dockerfile`, GitLab creates the `docker build service one` job. For example: ```yaml docker build service one: script: docker build -t my-service-one-image:$CI_COMMIT_REF_SLUG . only: changes: - Dockerfile - service-one/**/* ``` In this example, the pipeline might fail because of changes to a file in `service-one/**/*`. A later commit that doesn't have changes in `service-one/**/*` but does have changes to the `Dockerfile` can pass. The job only tests the changes to the `Dockerfile`. GitLab checks the **most recent pipeline** that **passed**. If the merge request is mergeable, it doesn't matter that an earlier pipeline failed because of a change that has not been corrected. When you use this configuration, ensure that the most recent pipeline properly corrects any failures from previous pipelines. ### Combine multiple keywords with `only` or `except` If you use multiple keywords with `only` or `except`, the keywords are evaluated as a single conjoined expression. That is: - `only` includes the job if **all** of the keys have at least one condition that matches. - `except` excludes the job if **any** of the keys have at least one condition that matches. With `only`, individual keys are logically joined by an `AND`. A job is added to the pipeline if the following is true: - `(any listed refs are true) AND (any listed variables are true) AND (any listed changes are true) AND (any chosen Kubernetes status matches)` In the following example, the `test` job is only created when **all** of the following are true: - The pipeline is [scheduled](../pipelines/schedules.md) **or** runs for `main`. - The `variables` keyword matches. - The `kubernetes` service is active on the project. ```yaml test: script: npm run test only: refs: - main - schedules variables: - $CI_COMMIT_MESSAGE =~ /run-end-to-end-tests/ kubernetes: active ``` With `except`, individual keys are logically joined by an `OR`. A job is **not** added if the following is true: - `(any listed refs are true) OR (any listed variables are true) OR (any listed changes are true) OR (a chosen Kubernetes status matches)` In the following example, the `test` job is **not** created when **any** of the following are true: - The pipeline runs for the `main` branch. - There are changes to the `README.md` file in the root directory of the repository. ```yaml test: script: npm run test except: refs: - main changes: - "README.md" ``` ## Create a job that must be run manually You can require that a job doesn't run unless a user starts it. This is called a **manual job**. You might want to use a manual job for something like deploying to production. To specify a job as manual, add [`when: manual`](../yaml/index.md#when) to the job in the `.gitlab-ci.yml` file. By default, manual jobs display as skipped when the pipeline starts. You can use [protected branches](../../user/project/protected_branches.md) to more strictly [protect manual deployments](#protect-manual-jobs) from being run by unauthorized users. ### Types of manual jobs Manual jobs can be either optional or blocking. In optional manual jobs: - [`allow_failure`](../yaml/index.md#allow_failure) is `true`, which is the default setting for jobs that have `when: manual` and no [`rules`](../yaml/index.md#rules), or `when: manual` defined outside of `rules`. - The status does not contribute to the overall pipeline status. A pipeline can succeed even if all of its manual jobs fail. In blocking manual jobs: - `allow_failure` is `false`, which is the default setting for jobs that have `when: manual` defined inside [`rules`](../yaml/index.md#rules). - The pipeline stops at the stage where the job is defined. To let the pipeline continue running, [run the manual job](#run-a-manual-job). - Merge requests in projects with [merge when pipeline succeeds](../../user/project/merge_requests/merge_when_pipeline_succeeds.md) enabled can't be merged with a blocked pipeline. - The pipeline shows a status of **blocked**. ### Run a manual job To run a manual job, you must have permission to merge to the assigned branch: 1. Go to the pipeline, job, [environment](../environments/index.md#configure-manual-deployments), or deployment view. 1. Next to the manual job, select **Play** (**{play}**). ### Protect manual jobs **(PREMIUM)** Use [protected environments](../environments/protected_environments.md) to define a list of users authorized to run a manual job. You can authorize only the users associated with a protected environment to trigger manual jobs, which can: - More precisely limit who can deploy to an environment. - Block a pipeline until an approved user "approves" it. To protect a manual job: 1. Add an `environment` to the job. For example: ```yaml deploy_prod: stage: deploy script: - echo "Deploy to production server" environment: name: production url: https://example.com when: manual rules: - if: $CI_COMMIT_BRANCH == $CI_DEFAULT_BRANCH ``` 1. In the [protected environments settings](../environments/protected_environments.md#protecting-environments), select the environment (`production` in this example) and add the users, roles or groups that are authorized to trigger the manual job to the **Allowed to Deploy** list. Only those in this list can trigger this manual job, as well as GitLab administrators who are always able to use protected environments. You can use protected environments with blocking manual jobs to have a list of users allowed to approve later pipeline stages. Add `allow_failure: false` to the protected manual job and the pipeline's next stages only run after the manual job is triggered by authorized users. ## Run a job after a delay > [Introduced](https://gitlab.com/gitlab-org/gitlab-foss/-/issues/51352) in GitLab 11.4. Use [`when: delayed`](../yaml/index.md#when) to execute scripts after a waiting period, or if you want to avoid jobs immediately entering the `pending` state. You can set the period with `start_in` keyword. The value of `start_in` is an elapsed time in seconds, unless a unit is provided. `start_in` must be less than or equal to one week. Examples of valid values include: - `'5'` (a value with no unit must be surrounded by single quotes) - `5 seconds` - `30 minutes` - `1 day` - `1 week` When a stage includes a delayed job, the pipeline doesn't progress until the delayed job finishes. You can use this keyword to insert delays between different stages. The timer of a delayed job starts immediately after the previous stage completes. Similar to other types of jobs, a delayed job's timer doesn't start unless the previous stage passes. The following example creates a job named `timed rollout 10%` that is executed 30 minutes after the previous stage completes: ```yaml timed rollout 10%: stage: deploy script: echo 'Rolling out 10% ...' when: delayed start_in: 30 minutes ``` To stop the active timer of a delayed job, select **Unschedule** (**{time-out}**). This job can no longer be scheduled to run automatically. You can, however, execute the job manually. To start a delayed job manually, select **Unschedule** (**{time-out}**) to stop the delay timer and then select **Play** (**{play}**). Soon GitLab Runner starts the job. ## Parallelize large jobs To split a large job into multiple smaller jobs that run in parallel, use the [`parallel`](../yaml/index.md#parallel) keyword in your `.gitlab-ci.yml` file. Different languages and test suites have different methods to enable parallelization. For example, use [Semaphore Test Boosters](https://github.com/renderedtext/test-boosters) and RSpec to run Ruby tests in parallel: ```ruby # Gemfile source 'https://rubygems.org' gem 'rspec' gem 'semaphore_test_boosters' ``` ```yaml test: parallel: 3 script: - bundle - bundle exec rspec_booster --job $CI_NODE_INDEX/$CI_NODE_TOTAL ``` You can then navigate to the **Jobs** tab of a new pipeline build and see your RSpec job split into three separate jobs. WARNING: Test Boosters reports usage statistics to the author. ### Run a one-dimensional matrix of parallel jobs > [Introduced](https://gitlab.com/gitlab-org/gitlab/-/issues/26362) in GitLab 13.5. You can create a one-dimensional matrix of parallel jobs: ```yaml deploystacks: stage: deploy script: - bin/deploy parallel: matrix: - PROVIDER: [aws, ovh, gcp, vultr] ``` You can also [create a multi-dimensional matrix](../yaml/index.md#parallelmatrix). ### Run a matrix of parallel trigger jobs > [Introduced](https://gitlab.com/gitlab-org/gitlab/-/issues/270957) in GitLab 13.10. You can run a [trigger](../yaml/index.md#trigger) job multiple times in parallel in a single pipeline, but with different variable values for each instance of the job. ```yaml deploystacks: stage: deploy trigger: include: path/to/child-pipeline.yml parallel: matrix: - PROVIDER: aws STACK: [monitoring, app1] - PROVIDER: ovh STACK: [monitoring, backup] - PROVIDER: [gcp, vultr] STACK: [data] ``` This example generates 6 parallel `deploystacks` trigger jobs, each with different values for `PROVIDER` and `STACK`, and they create 6 different child pipelines with those variables. ```plaintext deploystacks: [aws, monitoring] deploystacks: [aws, app1] deploystacks: [ovh, monitoring] deploystacks: [ovh, backup] deploystacks: [gcp, data] deploystacks: [vultr, data] ``` ### Select different runner tags for each parallel matrix job > [Introduced](https://gitlab.com/gitlab-org/gitlab/-/issues/239737) in GitLab 14.1. You can use variables defined in `parallel: matrix` with the [`tags`](../yaml/index.md#tags) keyword for dynamic runner selection: ```yaml deploystacks: stage: deploy parallel: matrix: - PROVIDER: aws STACK: [monitoring, app1] - PROVIDER: gcp STACK: [data] tags: - ${PROVIDER}-${STACK} ``` #### Fetch artifacts from a `parallel:matrix` job You can fetch artifacts from a job created with [`parallel:matrix`](../yaml/index.md#parallelmatrix) by using the [`dependencies`](../yaml/index.md#dependencies) keyword. Use the job name as the value for `dependencies` as a string in the form: ```plaintext [, , ... ] ``` For example, to fetch the artifacts from the job with a `RUBY_VERSION` of `2.7` and a `PROVIDER` of `aws`: ```yaml ruby: image: ruby:${RUBY_VERSION} parallel: matrix: - RUBY_VERSION: ["2.5", "2.6", "2.7", "3.0", "3.1"] PROVIDER: [aws, gcp] script: bundle install deploy: image: ruby:2.7 stage: deploy dependencies: - "ruby: [2.7, aws]" script: echo hello ``` Quotes around the `dependencies` entry are required. ## Use predefined CI/CD variables to run jobs only in specific pipeline types You can use [predefined CI/CD variables](../variables/predefined_variables.md) to choose which pipeline types jobs run in, with: - [`rules`](../yaml/index.md#rules) - [`only:variables`](../yaml/index.md#onlyvariables--exceptvariables) - [`except:variables`](../yaml/index.md#onlyvariables--exceptvariables) The following table lists some of the variables that you can use, and the pipeline types the variables can control for: - Branch pipelines that run for Git `push` events to a branch, like new commits or tags. - Tag pipelines that run only when a new Git tag is pushed to a branch. - [Merge request pipelines](../pipelines/merge_request_pipelines.md) that run for changes to a merge request, like new commits or selecting the **Run pipeline** button in a merge request's pipelines tab. - [Scheduled pipelines](../pipelines/schedules.md). | Variables | Branch | Tag | Merge request | Scheduled | |--------------------------------------------|--------|-----|---------------|-----------| | `CI_COMMIT_BRANCH` | Yes | | | Yes | | `CI_COMMIT_TAG` | | Yes | | Yes, if the scheduled pipeline is configured to run on a tag. | | `CI_PIPELINE_SOURCE = push` | Yes | Yes | | | | `CI_PIPELINE_SOURCE = scheduled` | | | | Yes | | `CI_PIPELINE_SOURCE = merge_request_event` | | | Yes | | | `CI_MERGE_REQUEST_IID` | | | Yes | | For example, to configure a job to run for merge request pipelines and scheduled pipelines, but not branch or tag pipelines: ```yaml job1: script: - echo rules: - if: $CI_PIPELINE_SOURCE == "merge_request_event" - if: $CI_PIPELINE_SOURCE == "schedule" - if: $CI_PIPELINE_SOURCE == "push" when: never ``` ## Regular expressions The `@` symbol denotes the beginning of a ref's repository path. To match a ref name that contains the `@` character in a regular expression, you must use the hex character code match `\x40`. Only the tag or branch name can be matched by a regular expression. The repository path, if given, is always matched literally. To match the tag or branch name, the entire ref name part of the pattern must be a regular expression surrounded by `/`. For example, you can't use `issue-/.*/` to match all tag names or branch names that begin with `issue-`, but you can use `/issue-.*/`. Regular expression flags must be appended after the closing `/`. Pattern matching is case-sensitive by default. Use the `i` flag modifier, like `/pattern/i`, to make a pattern case-insensitive: ```yaml job: # use regexp only: - /^issue-.*$/i # use special keyword except: - branches ``` Use anchors `^` and `$` to avoid the regular expression matching only a substring of the tag name or branch name. For example, `/^issue-.*$/` is equivalent to `/^issue-/`, while just `/issue/` would also match a branch called `severe-issues`. ### `only` / `except` regex syntax In GitLab 11.9.4, GitLab began internally converting the regexp used in `only` and `except` keywords to [RE2](https://github.com/google/re2/wiki/Syntax). [RE2](https://github.com/google/re2/wiki/Syntax) limits the set of available features due to computational complexity, and some features, like negative lookaheads, became unavailable. Only a subset of features provided by [Ruby Regexp](https://ruby-doc.org/core/Regexp.html) are now supported. From GitLab 11.9.7 to GitLab 14.9, GitLab provided a feature flag to let you use unsafe regexp syntax. We've fully migrated to RE2 now, and that feature flag is no longer available. ## CI/CD variable expressions > - [Introduced](https://gitlab.com/gitlab-org/gitlab-foss/-/issues/37397) in GitLab 10.7 for [the `only` and `except` CI keywords](../yaml/index.md#onlyvariables--exceptvariables) > - [Expanded](https://gitlab.com/gitlab-org/gitlab/-/issues/27863) in GitLab 12.3 with [the `rules` keyword](../yaml/index.md#rules) Use variable expressions to control which jobs are created in a pipeline after changes are pushed to GitLab. You can use variable expressions with: - [`rules:if`](../yaml/index.md#rules). - [`only:variables` and `except:variables`](../yaml/index.md#onlyvariables--exceptvariables). For example, with `rules:if`: ```yaml job1: variables: VAR1: "variable1" script: - echo "Test variable comparison rules: - if: $VAR1 == "variable1" ``` ### Compare a variable to a string You can use the equality operators `==` and `!=` to compare a variable with a string. Both single quotes and double quotes are valid. The order doesn't matter, so the variable can be first, or the string can be first. For example: - `if: $VARIABLE == "some value"` - `if: $VARIABLE != "some value"` - `if: "some value" == $VARIABLE` ### Compare two variables You can compare the values of two variables. For example: - `if: $VARIABLE_1 == $VARIABLE_2` - `if: $VARIABLE_1 != $VARIABLE_2` ### Check if a variable is undefined You can compare a variable to the `null` keyword to see if it is defined. For example: - `if: $VARIABLE == null` - `if: $VARIABLE != null` ### Check if a variable is empty You can check if a variable is defined but empty. For example: - `if: $VARIABLE == ""` - `if: $VARIABLE != ""` ### Check if a variable exists You can check for the existence of a variable by using just the variable name in the expression. The variable must not be empty. For example: - `if: $VARIABLE` ### Compare a variable to a regex pattern You can do regex pattern matching on variable values with the `=~` and `!~` operators. Variable pattern matching with regular expressions uses the [RE2 regular expression syntax](https://github.com/google/re2/wiki/Syntax). Expressions evaluate as `true` if: - Matches are found when using `=~`. - Matches are *not* found when using `!~`. For example: - `$VARIABLE =~ /^content.*/` - `$VARIABLE_1 !~ /^content.*/` Pattern matching is case-sensitive by default. Use the `i` flag modifier to make a pattern case-insensitive. For example: `/pattern/i`. ### Join variable expressions together with `&&` or `||` > [Introduced](https://gitlab.com/gitlab-org/gitlab-foss/-/issues/62867) in GitLab 12.0 You can join multiple expressions using `&&` (and) or `||` (or), for example: - `$VARIABLE1 =~ /^content.*/ && $VARIABLE2 == "something"` - `$VARIABLE1 =~ /^content.*/ && $VARIABLE2 =~ /thing$/ && $VARIABLE3` - `$VARIABLE1 =~ /^content.*/ || $VARIABLE2 =~ /thing$/ && $VARIABLE3` The precedence of operators follows the [Ruby 2.5 standard](https://ruby-doc.org/core-2.5.0/doc/syntax/precedence_rdoc.html), so `&&` is evaluated before `||`. #### Group variable expressions together with parentheses > - [Introduced](https://gitlab.com/gitlab-org/gitlab/-/issues/230938) in GitLab 13.3. > - [Feature flag removed](https://gitlab.com/gitlab-org/gitlab/-/issues/238174) in GitLab 13.5. You can use parentheses to group expressions together. Parentheses take precedence over `&&` and `||`, so expressions enclosed in parentheses are evaluated first, and the result is used for the rest of the expression. You can nest parentheses to create complex conditions, and the inner-most expressions in parentheses are evaluated first. For example: - `($VARIABLE1 =~ /^content.*/ || $VARIABLE2) && ($VARIABLE3 =~ /thing$/ || $VARIABLE4)` - `($VARIABLE1 =~ /^content.*/ || $VARIABLE2 =~ /thing$/) && $VARIABLE3` - `$CI_COMMIT_BRANCH == "my-branch" || (($VARIABLE1 == "thing" || $VARIABLE2 == "thing") && $VARIABLE3)` ## Troubleshooting ### Jobs or pipelines run unexpectedly when using `changes:` You might have jobs or pipelines that run unexpectedly when using [`rules: changes`](../yaml/index.md#ruleschanges) or [`only: changes`](../yaml/index.md#onlychanges--exceptchanges) without [merge request pipelines](../pipelines/merge_request_pipelines.md). Pipelines on branches or tags that don't have an explicit association with a merge request use a previous SHA to calculate the diff. This calculation is equivalent to `git diff HEAD~` and can cause unexpected behavior, including: - The `changes` rule always evaluates to true when pushing a new branch or a new tag to GitLab. - When pushing a new commit, the changed files are calculated by using the previous commit as the base SHA. Additionally, rules with `changes` always evaluate as true in [scheduled pipelines](../pipelines/schedules.md). All files are considered to have changed when a scheduled pipeline runs, so jobs might always be added to scheduled pipelines that use `changes`. ### File paths in CI/CD variables Be careful when using file paths in CI/CD variables. A trailing slash can appear correct in the variable definition, but can become invalid when expanded in `script:`, `changes:`, or other keywords. For example: ```yaml docker_build: variables: DOCKERFILES_DIR: 'path/to/files/' # This variable should not have a trailing '/' character script: echo "A docker job" rules: - changes: - $DOCKERFILES_DIR/* ``` When the `DOCKERFILES_DIR` variable is expanded in the `changes:` section, the full path becomes `path/to/files//*`. The double slashes might cause unexpected behavior depending on the keyword used, shell and OS of the runner, and so on. ### `You are not allowed to download code from this project.` error message You might see pipelines fail when a GitLab administrator runs a protected manual job in a private project. CI/CD jobs usually clone the project when the job starts, and this uses [the permissions](../../user/permissions.md#job-permissions) of the user that runs the job. All users, including administrators, must be direct members of a private project to clone the source of that project. [An issue exists](https://gitlab.com/gitlab-org/gitlab/-/issues/23130) to change this behavior. To run protected manual jobs: - Add the administrator as a direct member of the private project (any role) - [Impersonate a user](../../user/admin_area/index.md#user-impersonation) who is a direct member of the project.