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Build Status

dcos-images (OS Qualification Testing)

Repository is used to qualify DC/OS releases against CentOS, RHEL and Flatcar Linux operating systems.

Find which DC/OS image to use

Look for the dcos_images.yaml file in the directory path that matches your requirements.
Example: centos/7.4/aws/DCOS-1.11.3/docker-1.13.1/dcos_images.yaml.

See a high-level view of what is supported

  1. git clone https://github.com/dcos/dcos-images.git ~/dcos-images
  2. brew install tree or apt install tree
  3. cd ~/dcos-images
  4. tree

There's also a DC/OS Platform Version Compatibility Matrix

Build and qualify new DC/OS images

Creating a pull request that either modifies or adds an install_dcos_prerequisites.sh or a packer.json file will trigger a DC/OS image build. However, to have the entire pipeline succeed (image build + cluster creation + integration tests), three more files are required (for a total of five). As seen in the yellow-colored boxes in the flowchart below, those files are: publish_and_test_config.yaml, packer.json, install_dcos_prerequisites.sh, base_images.json, desired_cluster_profile.tfvars and setup.sh.
More details on those files here.
You must place those files inside the appropriate directory in line with the specs of the DC/OS images you are going to build e.g. "centos/7.4/aws/DCOS-1.11.3/docker-1.13.1".

flow-chart
To modify the following chart, go to draw.io and import flowchart_draw_io.xml (located at the root level of this repo)
See flowchart footnotes for help

Required files to build and qualify new DC/OS images

  • base_images.json
    Contains images published directly by the OS providers (CoreOS, CentOS, etc.). You can usually find them on the provider's website. For example, you can find CoreOS AMIs here

  • install_dcos_prerequisites.sh
    Script that will run and be baked on top base images, which will form new images called a DC/OS images.

  • packer.json
    Packer configuration to build DC/OS images. Base images and install_dcos_prerequisites.sh are some of its inputs.

  • desired_cluster_profile.tfvars
    Configuration for the terraform cluster that will be created using new DC/OS images. This cluster will be used to install and test DC/OS with the new images.

  • publish_and_test_config.yaml
    Determines what is required for newly-built images to be commited back to a pull request by jenkins. Also determines what tests are ran on a pull request. See this example. You can specify the field 'publish_dcos_images_after' with possible values: 'packer_build', 'dcos_installation', 'integration_tests' and 'never'. For example, if you want jenkins to push the newly-built DC/OS AMIs to my pull request as soon as they are built by packer, you would specify 'packer_build'. If you want more confidence and want to make sure a cluster can successfully spin up and install DC/OS by using this new image, you would specify 'dcos_installation'. That is the default option. The 'never' is a bit different in the way that not only does it never commit the images back to the pull request, but it also skips building them at all. This would be to only install DC/OS and run tests against the current images. The 'tests_to_run' field allows you to run only specific integration tests. If you omit this field, they will all run.

  • setup.sh (deprecated, no longer required) This script used to be ran on every cluster launch before DC/OS installation. Instead, now we configure systemd services in the AMIs for commands that need to be ran on every boot.

Flowchart footnotes

*1: In the case where we just want to test the image without rebuilding a new one, we can configure publish_and_test_config.yaml to skip the packer build by specifying the field 'publish_dcos_images_after: never' as seen here. This can be especially useful when a new pull request is created, several images are built, but some flaky integration tests fail. In that scenario, we might want to rerun the tests against those new images, in which case we would want to avoid rebuilding identical images to test against.

*2: install_dcos_prerequisites.sh is directly referenced inside of packer.json

*3: base_images.json is NOT directly referenced in packer.json. The source_image field inside of packer.json matches one of the images inside the base_image.json that existed at the time of the last packer build for that packer.json. That base_images.json may or may not be the same as the current one.
Before running a packer build, build_test_publish_images.py will replace whatever source_image the packer.json specifies with the current us-west-2 image in base_images.json

*4: By default, if the terraform cluster launches successfully with the newly built images, those images will be committed back to the repo. However, this is configurable. You can decide that the images should be committed to the repo right after they are built, after they successfully pass the tests, or never committed at all. This can be configured in publish_and_test_config.yaml with the field 'publish_dcos_images_after' as seen here.
IMPORTANT: this new commit will trigger a new build for the pull request and make the status check go green immediately (auto-success when mesosphere_jenkins commit is detected). This does not mean the cluster created successfully or the tests successfully passed. It depends on publish_dcos_images_after field inside the publish_and_test_config.yaml. You will need to follow the link to the initial build that gets posted on the pull request as a comment. See *7.

*5: The contents of setup.sh will not be baked into the resulting DC/OS images. Instead, terraform will run that script only when a cluster is created with those DC/OS images.

*6: More test suites will be added in the future, such as framework tests. Only minor modifications will need to be made in build_test_publish_images.py. Which integration tests are ran can be configured in publish_and_test_config.yaml by specifying the field 'tests_to_run' and a list of values as seen here. If you want to run all the tests, simply remove that field.

*7: The link to the initial jenkins build will be posted as a comment on the pull request so that it can be found easily after mesosphere_jenkins causes the pull request to trigger a new build by pushing a commit. Before merging a pull request that creates new DC/OS images, you should always follow the initial link and check the status of the terraform cluster creation and integration tests run. Typically, users would want mesosphere_jenkins to commit dcos_images.yaml after the terraform cluster creates, then follow the link to the initial jenkins build, decide if enough tests pass to qualify the new operating system, then either merge the pull request, retrigger the tests or update the pull request with bug fixes. If they just want to retrigger the tests due to potential test flakiness, they should push a new commit to do so, which would include a change to publish_and_test_config.yaml with the field 'publish_dcos_images_after: never' to avoid rebuilding identical new images.

Running Locally

This code can be executed locally by following these steps:

  1. Add a your ssh public key to your AWS account
  2. Change ssh_key_name (of the ssh key used in step 1) https://github.com/dcos/dcos-images/blob/master/flatcar-linux/2303.3.1/aws/DCOS-2.0.2/docker-18.06.3/cluster_profile.tfvars#L8
  3. Add your ssh private key to your terminal session via ssh-add yourkey
  4. Installing Terraform tfenv install 0.11.14
  5. Execution of intgeration tests can be disabled in: https://github.com/dcos/dcos-images/blob/master/flatcar-linux/2303.3.1/aws/DCOS-2.0.2/docker-18.06.3/publish_and_test_config.yaml#L7
  6. Cluster destroy at the end of the testrun is configured by: https://github.com/dcos/dcos-images/blob/master/build_test_publish_images.py#L365-L368 and https://github.com/dcos/dcos-images/blob/master/build_test_publish_images.py#L399
  7. Provisioning of a cluster is done by: python3 -u build_test_publish_images.py flatcar-linux/2411.1.1/aws/DCOS-2.0.2/docker-18.06.3