Travis CI

Travis is set to run one every push to a branch or PR. The results of the builds can be found here for branches and here for PRs.

Test Workflow

In Travis CI, 4 jobs are run to test the sdk:

Before Install for Go, Ansible, and Helm

For the Go, Ansible, and Helm tests, the before_install and install stages are the same:

  1. Check if non documentation files have been updated.
    • If only documentation has been updated, skip these tests.
  2. Run make tidy to ensure go.mod and go.sum are up-to-date.
  3. Build and install the sdk using make install.
  4. Install ansible using sudo pip install ansible.
  5. Run the hack/ci/setup-k8s.sh script, which spins up a kind Kubernetes cluster of a particular version by configuring docker, and downloads the kubectl of the same version.

The Go, Ansible, and Helm tests then differ in what tests they run.

Go Tests

  1. Run some basic sanity checks.
    1. Run go vet.
    2. Check that all source files have a license.
    3. Check that all error messages start with a lower case alphabetical character and do not end with punctuation, and log messages start with an upper case alphabetical character.
    4. Make sure the repo is in a clean state (this is particularly useful for making sure go.mod and go.sum are up-to-date after running make tidy).
  2. Run unit tests.
    1. Run make test.
  3. Run subcommand tests.
    1. Run test local with no flags enabled.
    2. Run test local with most configuration flags enabled.
    3. Run test local in single namespace mode.
    4. Run test local with --up-local flag.
    5. Run test local with both --up-local and --kubeconfig flags.
    6. Create all test resources with kubectl and run test local with --no-setup flag.
    7. Run scorecard subcommand and check that expected score matches actual score.
    8. Run scorecard subcommand with json output enabled and verify the output.
  4. Run go e2e tests.
    1. Scaffold a project using hack/tests/scaffolding/e2e-go-scaffold.sh
    2. Build memcached-operator image to be used in tests
    3. Run scaffolded project e2e tests using operator-sdk run local
      1. Run cluster test (namespace is auto-generated and deleted by test framework).
        1. Deploy operator and required resources to the cluster.
        2. Run the leader election test.
          1. Verify that operator deployment is ready.
          2. Verify that leader configmap specifies 1 leader and that the memcached operator has 2 pods (configuration for this is done in step 4.1).
          3. Delete current leader and wait for memcached-operator deployment to become ready again.
          4. Verify that leader configmap specifies 1 leader and that the memcached-operator has 2 pods.
          5. Verify that the name of the new leader is different from the name of the old leader.
        3. Run the memcached scale test.
          1. Create memcached CR specifying a desired cluster size of 3 and wait until memcached cluster is of size 3.
          2. Increase desired cluster size to 4 and wait until memcached cluster is of size 4.
        4. Run the memcached metrics test.
          1. Make sure the metrics Service was created.
          2. Get metrics via proxy pod and make sure they are present.
          3. Perform linting of the existing metrics.
        5. Run the memcached custom resource metrics test.
          1. Make sure the metrics Service was created.
          2. Get metrics via proxy pod and make sure they are present.
          3. Perform linting of the existing metrics.
          4. Perform checks on each custom resource generated metric and makes sure the name, type, value, labels and metric are correct.
      2. Run local test (namespace is auto-generated and deleted by test framework).
        1. Start operator using the run local subcommand.
        2. Run memcached scale test (described in step 4.3.1.3)
    4. Run TLS library tests.
      1. This test runs multiple simple tests of the operator-sdk’s TLS library. The tests run in parallel and each tests runs in its own namespace.

Ansible tests

  1. Run ansible molecule tests. (`make test-e2e-ansible-molecule)
    1. Create and configure a new ansible type memcached-operator.
    2. Create cluster resources.
    3. Run operator-sdk test local to run ansible molecule tests
    4. Change directory to test/ansible and run operator-sdk test local

NOTE: All created resources, including the namespace, are deleted using a bash trap when the test finishes

Helm Tests

  1. Run helm e2e tests.
    1. Create base helm operator project by running hack/image/helm/scaffold-helm-image.go.
    2. Build base helm operator image.
    3. Create and configure a new helm type nginx-operator.
    4. Create cluster resources.
    5. Wait for operator to be ready.
    6. Create nginx CR and wait for it to be ready.
    7. Scale up the dependent deployment and verify the operator reconciles it back down.
    8. Scale up the CR and verify the dependent deployment scales up accordingly.
    9. Delete nginx CR and verify that finalizer (which writes a message in the operator logs) ran.
    10. Run operator-sdk migrate to add go source to the operator (see this note on dependency management first).
    11. Run operator-sdk build to compile the new binary and build a new image.
    12. Re-run steps 4-9 to test the migrated operator.

NOTE: All created resources, including the namespace, are deleted using a bash trap when the test finishes

Last modified June 17, 2020: Nest legacy Go docs under new ones (#3248) (87a7a6f3)