lorax/test
Jiri Kortus dc18200b6f [tests] Use rel-eng/nightly repo in test_repos_sanity.sh and vm.install
The same change has been made in the live ISO test, so keep this change uniform
also in the test_repos_sanity.sh test and vm.install script.

Related: rhbz#1828808
2020-05-04 16:45:17 +03:00
..
check-api tests: update skip message for TestApi 2020-04-20 09:28:11 -07:00
check-cli Add test for running composer with --no-system-repos option 2020-04-27 11:19:38 -07:00
check-cloud tests: unskip Azure scenario 2019-10-21 19:46:40 +02:00
composertest.py tests: Boot the test images with graphics=True 2019-12-11 15:23:19 -08:00
README.md Remove all repo files & install composer-cli from host repos 2019-11-28 10:30:08 +02:00
run Add test for running composer with --no-system-repos option 2020-04-27 11:19:38 -07:00
vm.install [tests] Use rel-eng/nightly repo in test_repos_sanity.sh and vm.install 2020-05-04 16:45:17 +03:00

Integration Tests

lorax uses Cockpit's integration test framework and infrastructure. To do this, we're checking out cockpit-project/bots/ repository. It contains links to test images and tools to manipulate and start virtual machines from them.

Each test is run on a new instance of a virtual machine. Branch/test scenario matrix is configured in testmap.py.

Dependencies

These dependencies are needed on Fedora to run tests locally:

$ sudo dnf install curl expect \
    libvirt libvirt-client libvirt-daemon libvirt-python \
    python python-libguestfs python-lxml libguestfs-xfs \
    python3 libvirt-python3 \
    libguestfs-tools qemu qemu-kvm rpm-build rsync xz

Building a test VM

To build a test VM, run

$ make vm

This downloads a base image from Cockpit's infrastructure. You can control which image is downloaded with the TEST_OS environment variable. Cockpit's documentation lists accepted values. It then creates a new image based on that (a qemu snapshot) in test/images, which contain the current test/ and tests/ directories and have newly built rpms from the current checkout installed.

To delete the generated image, run

$ make vm-reset

Base images are stored in bots/images. Set TEST_DATA to override this directory.

To configure the image with all repositories found on the host system use

$ make vm-local-repos

You may also define REPOS_DIR variable to point to another directory containing yum .repo files. By default the value is /etc/yum.repos.d! This is mostly useful when running tests by hand on a downstream snapshot!

Running tests

After building a test image, run

$ ./test/check-cli [TESTNAME]

or any of the other check-* scripts. To debug a test failure, pass --sit. This will keep the test machine running after the first failure and print an ssh line to connect to it.

Run make vm after changing tests or lorax source to recreate the test machine. It is usually not necessary to reset the VM.

Updating images

The bots/ directory is checked out from Cockpit when make vm is first run. To get the latest images you need to update it manually (in order not to poll GitHub every time):

$ make -B bots

GitHub integration

Tests are automatically triggered for every pull request. To disable tests for a pull request, add the no-test label when opening it.

To interact with GitHub from scripts in bots/, generate a token with at least repo:status, public_repo, and read:org permissions, and put it into ~/.config/github-token.

You can retry a failed test with:

$ bots/tests-trigger --repo weldr/lorax <PR> <test>

If no test is given, all failed tests will be retried. Pass --allow to trigger tests on a pull request by an outside contributor.

Azure setup

To authenticate Ansible (used in tests) with Azure you need to set the following environment variables: AZURE_SUBSCRIPTION_ID, AZURE_TENANT, AZURE_CLIENT_ID and AZURE_SECRET.

From the left-hand side menu at https://portal.azure.com select Resource groups >> Click on composer RG. Above the resulting list of resources you can see Subscription ID -> AZURE_SUBSCRIPTION_ID.

From the left-hand side menu at https://portal.azure.com select Azure Active Directory >> App registrations >> New registration. Give it a name and leave the rest with default values. Once the AD application has been created you can click on its name to view its properties. There you have:

  • Directory (tenant) ID -> AZURE_TENANT
  • Application (client) ID -> AZURE_CLIENT_ID
  • Certificates & secrets (on the left) >> New client secret -> AZURE_SECRET

Next make sure the newly created AD App has access to the storage account. From the left-hand side menu at https://portal.azure.com select Storage accounts >> composerredhat >> Access control (IAM) >> Role assignments >> Add >> Add role assignment. Then make sure to select

  • Role == Contributor
  • Scope == Resource group (Inherited)
  • AD app name (not the user owning the application)

Storage account itself must be of type StorageV2 so tests can upload blobs to it!