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mirror of https://gitlab.com/libvirt/libvirt.git synced 2024-12-23 21:34:54 +03:00
libvirt/docs/testtck.rst
Erik Skultety 25685ebe7c docs: testtck: Expand the 'Run TCK' section on making use of ci/jobs.sh
Ever since commit 6e9bd600d7 added a new
GitLab job description function handling the integration test suite
process to ci/jobs.sh it should be mentioned in the docs.

This patch splits the 'Run TCK' section in two, giving user the option
to run the integration test suite in their VM environment the same way
as we do in GitLab CI or execute everything manually.
This patch takes the opportunity to also link to the virtiofs kbase
article to give users a different option to get the local libvirt
repositories to be used in testing inside a VM.

Signed-off-by: Erik Skultety <eskultet@redhat.com>
Reviewed-by: Pavel Hrdina <phrdina@redhat.com>
2023-10-11 09:43:09 +02:00

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==========================================
libvirt TCK : Technology Compatibility Kit
==========================================
.. contents::
The libvirt TCK provides a framework for performing testing of the integration
between libvirt drivers, the underlying virt hypervisor technology, related
operating system services and system configuration. The idea (and name) is
motivated by the Java TCK.
In particular the libvirt TCK is intended to address the following scenarios:
- Validate that a new libvirt driver is in compliance with the (possibly
undocumented!) driver API semantics
- Validate that an update to an existing driver does not change the API
semantics in a non-compliant manner
- Validate that a new hypervisor release is still providing compatibility with
the corresponding libvirt driver usage
- Validate that an OS distro deployment consisting of a hypervisor and libvirt
release is configured correctly
Thus the libvirt TCK will allow developers, administrators and users to
determine the level of compatibility of their platform, and evaluate whether it
will meet their needs, and get awareness of any regressions that may have
occurred since a previous test run.
Libvirt-TCK is maintained using `a GIT
repository <https://gitlab.com/libvirt/libvirt-tck>`__. GitLab is also the place
where the whole TCK development workflow (issues, merge requests, comments)
happens.
Using TCK
---------
TCK can be used independently of the environment, i.e. both on your local host
or in a VM. We strongly recommend using a VM for the tests as TCK might affect
your current host setup, see `Running TCK`_.
Installing dependencies
~~~~~~~~~~~~~~~~~~~~~~~
Since TCK is based on libvirt Perl bindings, you'll need to have the proper
version of the bindings installed for the version of libvirt you wish to test
in order to be able execute the TCK test suite successfully. Additionally, a
number of Perl dependencies will need to be installed as well, some will be
available through the system package manager and some will likely need to be
installed from CPAN (Perl's equivalent of Python's PyPI). Here's where
`libvirt-ci's <https://gitlab.com/libvirt/libvirt-ci.git>`__ lcitool can help
with preparing a test environment in a fresh VM, taking care of the
dependencies along the way. A simple example of getting a machine from lcitool
would be:
::
$ lcitool install --target fedora-38 tck-fedora38 --wait
would get you a new Fedora 38 VM named ``tck-fedora38``. There are different
ways of getting a fresh local VM with ``lcitool``, so please refer to
`Installing local VMs <https://gitlab.com/libvirt/libvirt-ci/-/blob/master/docs/vms.rst>`__
for further details, especially to utilize vendor cloud images for this
purpose.
Once you have a fresh virtual machine, you need to pre-install it with all
necessary build dependencies to be able to build libvirt, libvirt Perl bindings
and run the TCK test suite inside it. You'd do that by running
::
$ lcitool update tck-fedora38 libvirt,libvirt-perl,libvirt-tck+runtime
Again, for further details on how to update ``lcitool`` virtual machines,
please refer to
`Updating VMs with a given project dependencies <https://gitlab.com/libvirt/libvirt-ci/-/blob/master/docs/vms.rst>`__
Note that lcitool only installs build dependencies, so as mentioned above you'll
need both libvirt **and** libvirt Perl bindings installed in order to be able
to run TCK. You can (depending on use case) either build both inside the VM and
install manually or install the corresponding RPMs from GitLab CI build
artifacts.
We also recommend executing TCK using the Avocado framework as the test harness
engine which means that you'll have to install Avocado in the test environment
as well. You can get it either from
`PyPI <https://pypi.org/project/avocado-framework/>`__ (recommended), or if
you're on Fedora you can make use of the Avocado `module <https://avocado-framework.readthedocs.io/en/latest/guides/user/chapters/installing.html#installing-from-packages>`__.
Using Avocado is not mandatory for the time being and you can skip it, but
in the future we plan on making the TCK internal coupling with Avocado tighter.
Running TCK
~~~~~~~~~~~
Once you have all the dependencies installed, you can then proceed with either
of the following procedures to execute the test suite as root.
Replicating upstream CI test suite execution locally
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Similarly to how local container builds utilize the standalone ``ci/jobs.sh``
script containing functions describing GitLab job definitions it can be
utilized to run integration test suite as well. In this case, one needs to
get a copy of their libvirt repository containing the changes to be tested
inside the VM (either by cloning it manually or sharing the repo e.g. via
`virtiofs <https://libvirt.org/kbase/virtiofs.html>`__). Make sure that the
user which is going to execute the following has passwordless "sudo" permissions
(lcitool's default "test" user does). Then it's just a matter of running
::
$ source ci/jobs.sh
$ run_integration
Manual invocation
^^^^^^^^^^^^^^^^^
If you want to have more control over the whole procedure or simply don't want
to run the exact same steps as libvirt's upstream CI pipeline does in context
of integration tests then start by cloning the
`TCK <https://gitlab.com/libvirt/libvirt-tck.git>`__ repository and run
::
# avocado --config avocado.config run
from the TCK's git root.
If you don't want to install Avocado you can execute tests using the
``libvirt-tck`` binary directly (again, from the git root). You'll need to pass
a few options that Avocado takes care of:
::
# PERL5LIB=./lib perl bin/libvirt-tck -c <path_to_config> --force ./scripts
Running with the ``--force`` argument is not necessary and you can safely omit
it, but it becomes useful if you need to interrupt a test run for some
reason. In such case using ``--force`` ensures the first thing TCK does before
running any tests is that it will clean up all resources from the previous test
run which may have been left behind if you had interrupted the previous TCK's
execution.
Note that running with root privileges is necessary since some tests need
access to system resources or configs. This, along with the fact that some
tests might affect the host system are good reasons to consider using a test VM
as described above.
Contributing a test
-------------------
We'd appreciate if you provided a functional test case whenever you're adding a
new feature or fixing a bug in libvirt with the only complication being that
in case you're adding a new public API then a Perl binding will have to be
introduced first. After that, the best way to start is looking at some existing
tests, copy-pasting one that fits your scenario the best and tweak the
remaining bits.