- Merge request child pipelines
- Dynamic child pipelines
- Nested child pipelines
- Pass CI/CD variables to a child pipeline
- Retry or cancel child pipelines
Introduced in GitLab 12.7.
As pipelines grow more complex, a few related problems start to emerge:
- The staged structure, where all steps in a stage must be completed before the first job in next stage begins, causes arbitrary waits, slowing things down.
- Configuration for the single global pipeline becomes very long and complicated, making it hard to manage.
- Imports with
includeincrease the complexity of the configuration, and create the potential for namespace collisions where jobs are unintentionally duplicated.
- Pipeline UX can become unwieldy with so many jobs and stages to work with.
Additionally, sometimes the behavior of a pipeline needs to be more dynamic. The ability to choose to start sub-pipelines (or not) is a powerful ability, especially if the YAML is dynamically generated.
Similarly to multi-project pipelines, a pipeline can trigger a set of concurrently running child pipelines, but within the same project:
- Child pipelines still execute each of their jobs according to a stage sequence, but would be free to continue forward through their stages without waiting for unrelated jobs in the parent pipeline to finish.
- The configuration is split up into smaller child pipeline configurations. Each child pipeline contains only relevant steps which are easier to understand. This reduces the cognitive load to understand the overall configuration.
- Imports are done at the child pipeline level, reducing the likelihood of collisions.
Child pipelines work well with other GitLab CI/CD features:
rules: changesto trigger pipelines only when certain files change. This is useful for monorepos, for example.
- Since the parent pipeline in
.gitlab-ci.ymland the child pipeline run as normal pipelines, they can have their own behaviors and sequencing in relation to triggers.
trigger keyword documentation for full details on how to
include the child pipeline configuration.
For an overview, see Parent-Child Pipelines feature demo.
The simplest case is triggering a child pipeline using a local YAML file to define the pipeline configuration. In this case, the parent pipeline triggers the child pipeline, and continues without waiting:
microservice_a: trigger: include: path/to/microservice_a.yml
You can include multiple files when defining a child pipeline. The child pipeline’s configuration is composed of all configuration files merged together:
microservice_a: trigger: include: - local: path/to/microservice_a.yml - template: Security/SAST.gitlab-ci.yml
microservice_a: trigger: include: - project: 'my-group/my-pipeline-library' ref: 'main' file: '/path/to/child-pipeline.yml'
The maximum number of entries that are accepted for
trigger:include is three.
Similar to multi-project pipelines, we can set the parent pipeline to depend on the status of the child pipeline upon completion:
microservice_a: trigger: include: - local: path/to/microservice_a.yml - template: Security/SAST.gitlab-ci.yml strategy: depend
To trigger a child pipeline as a merge request pipeline we need to:
- Set the trigger job to run on merge requests:
# parent .gitlab-ci.yml microservice_a: trigger: include: path/to/microservice_a.yml rules: - if: $CI_MERGE_REQUEST_ID
Configure the child pipeline by either:
Setting all jobs in the child pipeline to evaluate in the context of a merge request:
# child path/to/microservice_a.yml workflow: rules: - if: $CI_MERGE_REQUEST_ID job1: script: ... job2: script: ...
Alternatively, setting the rule per job. For example, to create only
job1in the context of merge request pipelines:
# child path/to/microservice_a.yml job1: script: ... rules: - if: $CI_MERGE_REQUEST_ID job2: script: ...
Introduced in GitLab 12.9.
Instead of running a child pipeline from a static YAML file, you can define a job that runs your own script to generate a YAML file, which is then used to trigger a child pipeline.
This technique can be very powerful in generating pipelines targeting content that changed or to build a matrix of targets and architectures.
For an overview, see Create child pipelines using dynamically generated configurations.
We also have an example project using
Dynamic Child Pipelines with Jsonnet
which shows how to use a data templating language to generate your
.gitlab-ci.yml at runtime.
You could use a similar process for other templating languages like
Dhall or ytt.
The artifact path is parsed by GitLab, not the runner, so the path must match the
syntax for the OS running GitLab. If GitLab is running on Linux but using a Windows
runner for testing, the path separator for the trigger job would be
/. Other CI/CD
configuration for jobs, like scripts, that use the Windows runner would use
In GitLab 12.9, the child pipeline could fail to be created in certain cases, causing the parent pipeline to fail. This is resolved in GitLab 12.10.
Introduced in GitLab 12.9.
You can trigger a child pipeline from a dynamically generated configuration file:
generate-config: stage: build script: generate-ci-config > generated-config.yml artifacts: paths: - generated-config.yml child-pipeline: stage: test trigger: include: - artifact: generated-config.yml job: generate-config
generated-config.yml is extracted from the artifacts and used as the configuration
for triggering the child pipeline.
Parent and child pipelines were introduced with a maximum depth of one level of child pipelines, which was later increased to two. A parent pipeline can trigger many child pipelines, and these child pipelines can trigger their own child pipelines. It’s not possible to trigger another level of child pipelines.
For an overview, see Nested Dynamic Pipelines.
You can pass CI/CD variables to a downstream pipeline using the same methods as multi-project pipelines:
You can retry or cancel child pipelines:
- In the main graph view.
- In the child pipeline’s details page.