Standard Discovery, Packaging, Invocation of Integration Tests
Summary
What follows is a standard way to discover, package and invoke integration tests for a package stored in a Fedora dist-git repo.
Many Fedora packages have unit tests. These tests are typically run during a %check
RPM build step and run in a build root. On the other hand, integration testing should happen against a composed system. Upstream projects have integration tests, both Fedora QA and the Atomic Host team would like to create more integration tests, Red Hat would like to bring integration tests upstream.
Goals:
- A standard way to to discover, stage and invoke integration tests.
- Implementation details of the test suite or its framework should not leak into or rely on the CI system invoking it.
- CI system implementation details should not leak into the test suite or its metadata.
- It should be possible to change the CI system that runs a test suite.
- It should be possible for a dist-git packager to run a test suite locally.
- It must be possible to package upstream tests.
- Both in-situ tests, and more rigorous outside-in tests must be possible.
Owner
- Name: Stef Walter
- Email: stefw@fedoraproject.org
- Name: Martin Pitt
- Email: martin@piware.de
Terminology
- Test Subject: The items that are to be tested. Typically this is a set of RPMs (updating a package to a new version), a container, or a distribution install ISO/VM image.
- Test: A callable/runnable piece of code and corresponding test data and mocks which exercises and evaluates a subject.
- Test Suite: The collection of all tests that apply to a subject. It's common to split the testing of different aspects into different tests for easier result evaluation, code maintenance, or parallelization.
- Test Framework: A library or component that the test suite and tests use to accomplish their job.
- Examples: Avocado, GNOME Installed Tests, Modularity Testing Framework, Ansible tests in Atomic Host, Tunir tests, docker test images, ...
- Test Result: A boolean output of a test which decides whether the test passed. This is being used for automatic result processing (gating in Continuous Integration).
- Test Artifact: Any additional output of the test such as the stdout/err output, log files, screen shots, core dumps, or TAP/Junit/subunit streams. These are mostly for human consumption (evaluating test failures by developers), but in case of machine readable files like JUnit they can also be used in result browsers for presenting test results.
- Testing System: A continuous integration or other testing system that would like to discover, stage and invoke tests for a test subject.
Detailed Description
This standard interface describes how to discover, stage and invoke tests. It is important to cleanly separate implementation details of the testing system from the test suite and its framework. It is also important to allow packagers to locally and manually invoke a test suite.
Testing System responsibilities:
- Builds or otherwise acquires a test subject, such as a package, container image, OSTree ...
- Schedules and orchestrates a test job on appropriate compute, storage, etc.
- Stages the test suite (using standard interface)
- Invokes the test suite (using standard interface)
- Gathers the test results and test artifacts (using standard interface)
- Announces and relays those results for gating, archival, etc.
Testsuite responsibilities:
- Includes the test framework' (declared as a dependency for staging)
- May provision necessary container or VM based on the test subject
- Provide test results and test artifacts (as described by standard interface)
The format of the textual logs and test artifacts that come out of a test suite is not prescribed by this document. Nor is it envisioned to be standardized across all possible test suites.
Packaging
The integration tests are packaged and delivered through Fedora as packages.
Each dist-git repo that has integration tests should package those tests in one or more subpackages
like %{name}-tests
. This is similar to the
%{name}-debuginfo
or %{name}-docs
subpackages we have
today.
The spec file for a dist-git repo may install upstream integration tests as files in
its %{name}-tests
package. The spec file may also include tests
directly from files in tests/
subdirectory of the dist-git repo itself.
The tests package should use Requires:
to require any other package, testing framework, or dependency necessary to run the tests. In in-situ testing cases, the tests package will directly Requires:
the package of the test subject.
Invocation
To invoke the test suite, the test package that contains it is installed. Each test of the suite
installs an executable in the path /usr/tests/
sourcepackage/
(this will avoid name collisions between packages).
To invoke the test suite, one would:
- Create a temporary directory, referred to as:
$TESTDIR
- Place the test subject(s) being tested in
$TESTDIR/subjects/
- Execute all executable files in
/usr/tests/*/
directories one at a time.- Each executable test is invoked with a working directory of
$TESTDIR
- Each executable test is invoked as root, and may drop privileges as desired.
- Treat the stdout/stderr of the test process as the test log. This is a standard test artifact and written to
$TESTDIR/artifacts/testname.log
. - Examine the exit code of each test process. Zero exit code is a successful test result, non-zero is failure.
- Each executable test is invoked with a working directory of
- Tests can put any additional test artifacts like screenshots into
$TESTDIR/artifacts/
.
This ensures that tests can be run on a production system without accidentally clobbering permanent directories, don't require root privileges (simplifies test development), and that CI systems have one unique place from where to collect artifacts. It also avoids collecting temporary files such as downloaded container or VM images as artifacts, as these would usually get stored for a longer time period.
These steps would usually be done through a standard test driver tool (particularly for sensible stdout/stderr teeing and log capturing), but its usage is not mandatory for developing and calling tests manually.
Staging
The %{name}-test
package should Requires:
all other packages
that the testsuite executable needs in order to run. This includes libraries or frameworks,
or subsystems like libvirt
.
Some integration tests may choose to test in-situ, on the system on which the test suite
is installed. In these cases the %{name}-tests
package should directly
depend on the package being tested.
More rigorous integration tests are outside-in. They test an integrated system without affecting its contents. It is the responsibility of the %{name}-tests
packages to provision virtual machines or containers necessary to do such testing. In almost all cases this will happen by way of a provisioning framework such as Avocado, Ansible, Module Testing Framework, linch-pin, etc.
Multiple tests packages may be installed as long as their dependencies do not conflict.
Discovery
A testing system needs to be able to efficiently answer the question "does this subject have any tests packages, and if so, what are their names". This should be automatically discoverable to the extent possible.
For any RPM test subject this process requires no additional metadata and can be fully automatic:
- It is possible to map a RPM to its SRPM source package (
<rpm:sourcerpm>
in the package index*-primary.xml.gz
). - One can map an SRPM to all the RPMs that it builds (from the same index), and using the
*-filelists.xml.gz
index one can mechanically tell which of the RPMs are of this test package kind described here.
TODO: For other types of test subject cases such as docker images or distribution ISO files this discovery still needs to be discussed.
- E. g. a
Dockerfile
might grow a reference to a test package RPM, or at least initially there is a manually maintained map of subject to test package in the testing system.
Scope
This change requires no initial changes to Fedora infrastructure itself. The change only affects contents spec files in dist-git repos.
TODO: However certain key infrastructure changes could mitigate usability or side-effects of this change. In particular, once this grows beyond the experimental phase, these test packages need to be put into a separate archive, similar to -debuginfo
.
- How much effort is that to set up?
- Does this require any additional tags, keywords, or other explicit declaration in the spec file, other than "this RPM ships something in
/usr/tests/*
"?
Benefit to Fedora
Developers benefit by having a consistent target for how to describe tests, while also being able to execute them locally while debugging issues or iterating on tests.
By packaging, staging and invoking tests consistently in Fedora we create an eco-system for the tests that allows varied test frameworks as well as CI system infrastructure to interoperate. The integration tests outlast the implementation details of either the frameworks they're written in or the CI systems running them.
User Experience
A standard way to package tests benefits Fedora stability, and makes Fedora better for users.
Users could also benefit by having tests that they can reproduce on their own systems. They could install the similar to how they consume %{name}-doc
or %{name}-debuginfo
subpackages today.
We may choose to avoid having such packages available in the standard repositories. We may choose to only have them in updates-testing
or an arrangement similar to debuginfo
. These choices will require some
markup and/or change to infrastructure.
Upgrade/compatibility impact
Although there may already be packages that are named %{name}-tests
this is merely a convention, and such packages will not affect the behavior of this proposal.
Examples
What follows are examples of writing and/or packaging existing tests to this standard.
There is a mock test system' which is a simple shell script: run-installed-test. It runs all /usr/tests/*
, can pass arbitrary subjects to them, and report/capture the results/logs. This is purely to study what a CI system would do and whether the standard interface works.
Example: Simple autotestpkg test
Add simple downstream integration test for gzip:
- Package: gzip-tests
- dist-git: https://github.com/martinpitt/fedora-gzip-test
- Reference: https://patches.ubuntu.com/g/gzip/
With this you can install test RPM from above gzip repo:
$ sudo rpm -i results_gzip/1.8/2.fc27/gzip-tests-1.8-2.fc25.x86_64.rpm
and run the gzip tests on the already installed package (as user) with
$ ~/run-installed-test Subjects/artifacts directory: /tmp/fedtest.vsR ----------------------------------------- Running /usr/tests/gzip/test-simple ----------------------------------------- ++ ls 'subjects/*.rpm' + echo Bla + cp bla.file bla.file.orig + gzip bla.file + gunzip bla.file.gz + cmp bla.file bla.file.orig + rm bla.file bla.file.orig PASS: /usr/tests/gzip/test-simple
$ ls -l /tmp/fedtest.vsR/artifacts/ -rw-r--r-- 1 martin martin 156 Mar 28 16:49 test-simple.log
or run them as root (as officially specified) with a subject (locally built gzip RPM):
$ sudo ~/run-installed-test results_gzip/1.8/2.fc27/gzip-1.8-2.fc25.x86_64.rpm Installing subject results_gzip/1.8/2.fc27/gzip-1.8-2.fc25.x86_64.rpm Subjects/artifacts directory: /tmp/fedtest.Cck ----------------------------------------- Running /usr/tests/gzip/test-simple ----------------------------------------- ++ ls subjects/gzip-1.8-2.fc25.x86_64.rpm + '[' -w / ']' + rpm --verbose --force -U subjects/gzip-1.8-2.fc25.x86_64.rpm Preparing packages... gzip-1.8-2.fc25.x86_64 + echo Bla + cp bla.file bla.file.orig + gzip bla.file + gunzip bla.file.gz + cmp bla.file bla.file.orig + rm bla.file bla.file.orig PASS: /usr/tests/gzip/test-simple
Example: GNOME style "Installed Tests"
Add downstream integration test running in gnome installed tests.
- Package: glib2-tests
- dist-git: https://github.com/martinpitt/fedora-glib2-test
- Reference: https://wiki.gnome.org/Initiatives/GnomeGoals/InstalledTests
Example: Tests run in Docker Container
Package: glib2-container-tests
Add downstream integration test running in docker for glib2 (based on Debian/Ubuntu's autopkgtest)
Example: Modularity testing Framework
TODO: Port an example
Example: Ansible with Atomic Host
TODO: Port an existing test
= Example: Beakerlib based test
TODO: Port and shim a beakerlib test
Notes
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