Container Images ================ This repo has several jobs which can form the basis of a system supporting a full gating process for continuously deployed container images. They can be used to build or test images which rely on other images using the full power of Zuul's speculative execution. In order to use these jobs to their full potential, the Zuul site administrator will need to run a simple but dedicated container image registry, and define local versions of the jobs to use it. The following sections describe how to define those jobs and how the system is intended to work once the jobs are defined. .. contents:: :local: Run an Intermediate Container Registry -------------------------------------- A dedicated container registry is required for the use of these jobs. It is merely used to temporarily hold images so that they can be transferred between jobs running in different projects at different times. It does not need to be publicly accessible or particularly robust. If its backing storage fails and needs to be replaced, the only result is that some jobs running in Zuul may fail and may need to be re-run. In this system, it is called the "intermediate registry" to distinguish it from other registry services. You may run the registry in whatever manner is appropriate for your site. The following docker-compose file may be used as an example of a working deployment suitable for production: .. code-block:: yaml services: registry: restart: always image: registry:2 network_mode: host environment: REGISTRY_HTTP_TLS_CERTIFICATE: /certs/domain.crt REGISTRY_HTTP_TLS_KEY: /certs/domain.key REGISTRY_AUTH: htpasswd REGISTRY_AUTH_HTPASSWD_PATH: /auth/htpasswd REGISTRY_AUTH_HTPASSWD_REALM: Registry Realm volumes: - /var/registry/data:/var/lib/registry - /var/registry/certs:/certs - /var/registry/auth:/auth You will need to provide the SSL certificate and key values, as well as the htpassword file with a user and password already present. Once that service is running, create the following four jobs in a Zuul config-project: Create Parent Jobs ------------------ .. _yoursite-buildset-registry: yoursite-buildset-registry ~~~~~~~~~~~~~~~~~~~~~~~~~~ This job is used to provide a temporary "buildset registry" to jobs running in your system; it communicates with the "intermediate" registry described above. .. code-block:: yaml :caption: zuul.yaml - secret: name: yoursite-intermediate-registry data: host: insecure-ci-registry.example.org port: 5000 username: zuul password: !encrypted/pkcs1-oaep - ... - job: name: yoursite-buildset-registry pre-run: playbooks/buildset-registry/pre.yaml run: playbooks/buildset-registry/run.yaml post-run: playbooks/buildset-registry/post.yaml secrets: - secret: yoursite-intermediate-registry name: intermediate_registry requires: docker-image The credentials in the secret should match those you supplied when creating the intermediate registry. The ``requires: docker-image`` attribute means that whenever this job (or any jobs which inherit from it) run, Zuul will search ahead of the change in the dependency graph to find any jobs which produce docker-images and tell this job about them. This allows the job to pull images from the intermediate registry into the buildset registry. .. code-block:: yaml :caption: playbooks/buildset-registry/pre.yaml - hosts: all tasks: - name: Install docker include_role: name: ensure-docker - name: Run buildset registry (if not already running) when: buildset_registry is not defined include_role: name: run-buildset-registry - name: Use buildset registry include_role: name: use-buildset-registry - hosts: localhost roles: - pull-from-intermediate-registry This playbook runs a buildset registry if one isn't already running. It returns the connection information back to Zuul in a variable called ``buildset_registry``. Other jobs will use that to learn how to connect to the registry, and we can use that here to find out if one was already started in a previous job. We will use that facility in the :ref:`yoursite-build-docker-image` job below. .. code-block:: yaml :caption: playbooks/buildset-registry/run.yaml - hosts: localhost tasks: - name: Pause the job zuul_return: data: zuul: pause: true The ``pause`` causes the job to wait until all jobs which depend on this one are completed. .. code-block:: yaml :caption: playbooks/buildset-registry/post.yaml - hosts: localhost roles: - push-to-intermediate-registry .. _yoursite-build-docker-image: yoursite-build-docker-image ~~~~~~~~~~~~~~~~~~~~~~~~~~~ This job builds one or more docker images and interacts with the buildset and intermediate registries. .. code-block:: yaml :caption: zuul.yaml - job: name: yoursite-build-docker-image parent: yoursite-buildset-registry run: playbooks/docker-image/run.yaml provides: docker-image Note that the parent of this job is :ref:`yoursite-buildset-registry`. This means that a simple repo that only needs to support one image building job and doesn't have any other jobs which require a buildset registry can just add this job alone and it will run a buildset registry on the build host. More complex scenarios would run the :ref:`yoursite-buildset-registry` job on its own and construct a job graph that depends on it. Because the pre-run playbook in the buildset-registry job only runs a buildset registry if one isn't already running, it can be used for both cases. And because the run playbook which pauses the job is overridden in this job, this job will not pause. .. code-block:: yaml :caption: playbooks/docker-image/run.yaml - hosts: all roles: - build-docker-image .. _yoursite-upload-docker-image: yoursite-upload-docker-image ~~~~~~~~~~~~~~~~~~~~~~~~~~~~ This job further builds on the :ref:`yoursite-build-docker-image` job and additionally uploads the image to Docker Hub. Depending on the situation, you could encode the Docker Hub credentials into this job as a secret, or you could allow other users to provide them via the `pass-to-parent `_ feature of secrets. .. code-block:: yaml :caption: zuul.yaml - job: name: yoursite-upload-docker-image parent: yoursite-build-docker-image post-run: playbooks/docker-image/upload.yaml .. code-block:: yaml :caption: playbooks/docker-image/upload.yaml - hosts: all roles: - upload-docker-image .. _yoursite-promote-docker-image: yoursite-promote-docker-image ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ This job does nothing that the :zuul:job:`promote-docker-image` job in this repo doesn't already do, but since you created local versions of the other two jobs, you should make one of this as well for consistency. If you chose to add Docker Hub credentials to the :ref:`yoursite-upload-docker-image` job, you should do that here as well. .. code-block:: yaml :caption: zuul.yaml - job: name: yoursite-promote-docker-image parent: promote-docker-image System Architecture ------------------- Now that those jobs are defined, this section describes how they work together. There are a few key concepts to keep in mind: A *buildset* is a group of jobs all running on the same change. A *buildset registry* is a container image registry which is used to store speculatively built images for the use of jobs in a single buildset. It holds the differences between the current state of the world and the future state if the change in question (and all of its dependent changes) were to merge. It must be started by one of the jobs in a buildset, and it ceases to exist once that job is complete. An *intermediate registry* is a long-running registry that is used to store images created for unmerged changes for use by other unmerged changes. It is not publicly accessible and is intended only to be used by Zuul in order to transfer artifacts from one buildset to another. With these concepts in mind, the jobs described above implement the following workflow for a single change: .. _buildset_image_transfer: .. seqdiag:: :caption: Buildset registry image transfer seqdiag image_transfer { Ireg [label="Intermediate\nRegistry"]; Breg [label="Buildset\nRegistry"]; Bjob [label="Image Build Job"]; Djob [label="Deployment Test Job"]; Ireg -> Breg [label='Images from previous changes']; Breg -> Bjob [label='Images from previous changes']; Breg <- Bjob [label='Current image']; Ireg <- Breg [noactivate, label='Current image']; Breg -> Djob [label='Current and previous images']; Breg <- Djob [style=none]; Ireg <- Breg [style=none]; } The intermediate registry is always running and the buildset registry is started by a job running on a change. The "Image Build" and "Deployment Test" jobs are example jobs which might be running on a change. Essentially, these are image producer or consumer jobs respectively. Using the Jobs -------------- There are two ways to use the jobs described above: A Repository with Producers and Consumers ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ The first is in a repository where images are both produced and consumed. In this case, we can expect that there will be at least one image build job, and at least one job which uses that image (for example, by performing a test deployment of the image). In this case we need to construct a job graph with dependencies as follows: .. blockdiag:: blockdiag dependencies { obr [label='yoursite-\nbuildset-registry']; bi [label='build-image']; ti [label='test-image']; obr <- bi <- ti; } The :ref:`yoursite-buildset-registry` job will run first and automatically start a buildset registry populated with images built from any changes which appear ahead of the current change. It will then return its connection information to Zuul and pause and continue running until the completion of the build and test jobs. The build-image job should inherit from :ref:`yoursite-build-docker-image`, which will ensure that it is automatically configured to use the buildset registry. The test-image job is something that you will create yourself. There is no standard way to test or deploy an image, that depends on your application. However, there is one thing you will need to do in your job to take advantage of the buildset registry. In a pre-run playbook, use the `use-buildset-registry `_ role: .. code-block:: yaml - hosts: all roles: - use-buildset-registry That will configure the docker daemon on the host to use the buildset registry so that it will use the newly built version of any required images. A Repository with Only Producers ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ The second way to use these jobs is in a repository where an image is merely built, but not deployed. In this case, there are no consumers of the buildset registry other than the image build job, and so the registry can be run on the job itself. In this case, you may omit the :ref:`yoursite-buildset-registry` job and run only the :ref:`yoursite-build-docker-image` job. Publishing an Image ~~~~~~~~~~~~~~~~~~~ So far we've covered the image building process. This system also provides two more jobs that are used in publishing images to Docker Hub. The :ref:`yoursite-upload-docker-image` job does everything the :ref:`yoursite-build-docker-image` job does, but it also uploads the built image to Docker Hub using an automatically-generated and temporary tag. The "build" job is designed to be used in the *check* pipeline, while the "upload" job is designed to take its place in the *gate* pipeline. By front-loading the upload to Docker Hub, we reduce the chance that a credential or network error will prevent us from publishing an image after a change lands. The :ref:`yoursite-promote-docker-image` job is designed to be used in the *promote* pipeline and simply re-tags the image on Docker Hub after the change lands. Keeping in mind that everything described above in :ref:`buildset_image_transfer` applies to the :ref:`yoursite-upload-docker-image` job, the following illustrates the additional tasks performed by the "upload" and "promote" jobs: .. seqdiag:: seqdiag image_transfer { DH [activated, label="Docker Hub"]; Ujob [label="upload-image"]; Pjob [label="promote-image"]; DH -> Ujob [style=none]; DH <- Ujob [label='Current image with temporary tag']; DH -> Pjob [label='Current image manifest with temporary tag', note='Only the manifest is transferred, not the actual image layers.']; DH <- Pjob [label='Current image manifest with final tag']; }