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- :py:mod:`qubes.tests` -- Writing tests for qubes
- ================================================
- Writing tests is very important for ensuring quality of code that is delivered.
- Given test case may check for variety of conditions, but they generally fall
- inside those two categories of conformance tests:
- * Unit tests: these test smallest units of code, probably methods of functions,
- or even combination of arguments for one specific method.
- * Integration tests: these test interworking of units.
- We are interested in both categories.
- There is also distinguished category of regression tests (both unit- and
- integration-level), which are included because they check for specific bugs that
- were fixed in the past and should not happen in the future. Those should be
- accompanied with reference to closed ticked that describes the bug.
- Qubes' tests are written using :py:mod:`unittest` module from Python Standard
- Library for both unit test and integration tests.
- Test case organisation
- ----------------------
- Every module (like :py:mod:`qubes.vm.qubesvm`) should have its companion (like
- ``qubes.tests.vm.qubesvm``). Packages ``__init__.py`` files should be
- accompanied by ``init.py`` inside respective directory under :file:`tests/`.
- Inside tests module there should be one :py:class:`qubes.tests.QubesTestCase`
- class for each class in main module plus one class for functions and global
- variables. :py:class:`qubes.tests.QubesTestCase` classes should be named
- ``TC_xx_ClassName``, where ``xx`` is two-digit number. Test functions should be
- named ``test_xxx_test_name``, where ``xxx`` is three-digit number. You may
- introduce some structure of your choice in this number.
- FIXME: where are placed integration tests?
- Writing tests
- -------------
- First of all, testing is art, not science. Testing is not panaceum and won't
- solve all of your problems. Rules given in this guide and elsewhere should be
- followed, but shouldn't be worshipped.
- When writing test, you should think about order of execution. Tests should be
- written bottom-to-top, that is, tests that are ran later may depend on features
- that are tested after but not the other way around. This is important, because
- when encountering failure we expect the reason happen *before*, and not after
- failure occured. Therefore, when encountering multiple errors, we may instantly
- focus on fixing the first one and not wondering if any later problems may be
- relevant or not. This is the reason of numbers in names of the classes and test
- methods.
- You may, when it makes sense, manipulate private members of classes under tests.
- This violates one of the founding principles of object-oriented programming, but
- may be required to write tests in correct order if your class provides public
- methods with circular dependencies. For example containers may check if added
- item is already in container, but you can't test ``__contains__`` method without
- something already inside. Don't forget to test the other method later.
- Special Qubes-specific considerations
- -------------------------------------
- Events
- ^^^^^^
- :py:class:`qubes.tests.QubesTestCase` provides convenient methods for checking
- if event fired or not: :py:meth:`qubes.tests.QubesTestCase.assertEventFired` and
- :py:meth:`qubes.tests.QubesTestCase.assertEventNotFired`. These require that
- emitter is subclass of :py:class:`qubes.tests.TestEmitter`. You may instantiate
- it directly::
- import qubes.tests
- class TC_10_SomeClass(qubes.tests.QubesTestCase):
- def test_000_event(self):
- emitter = qubes.tests.TestEmitter()
- emitter.fire_event('did-fire')
- self.assertEventFired(emitter, 'did-fire')
- If you need to snoop specific class (which already is a child of
- :py:class:`qubes.events.Emitter`, possibly indirect), you can define derivative
- class which uses :py:class:`qubes.tests.TestEmitter` as mix-in::
- import qubes
- import qubes.tests
- class TestHolder(qubes.tests.TestEmitter, qubes.PropertyHolder):
- pass
- class TC_20_PropertyHolder(qubes.tests.QubesTestCase):
- def test_000_event(self):
- emitter = TestHolder()
- self.assertEventNotFired(emitter, 'did-not-fire')
- Dom0
- ^^^^
- Qubes is a complex piece of software and depends on number other complex pieces,
- notably VM hypervisor or some other isolation provider. Not everything may be
- testable under all conditions. Some tests (mainly unit tests) are expected to
- run during compilation, but many tests (probably all of the integration tests
- and more) can run only inside already deployed Qubes installation. There is
- special decorator, :py:func:`qubes.tests.skipUnlessDom0` which causes test (or
- even entire class) to be skipped outside dom0. Use it freely::
- import qubes.tests
- class TC_30_SomeClass(qubes.tests.QubesTestCase):
- @qubes.tests.skipUnlessDom0
- def test_000_inside_dom0(self):
- # this is skipped outside dom0
- pass
- @qubes.tests.skipUnlessDom0
- class TC_31_SomeOtherClass(qubes.tests.QubesTestCase):
- # all tests in this class are skipped
- pass
- Module contents
- ---------------
- .. automodule:: qubes.tests
- :members:
- :show-inheritance:
- .. vim: ts=3 sw=3 et tw=80
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