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- .. _unit-tests:
- ==================
- Writing Unit Tests
- ==================
- Introduction
- ============
- Like many software projects, Salt has two broad-based testing approaches --
- integration testing and unit testing. While integration testing focuses on the
- interaction between components in a sandboxed environment, unit testing focuses
- on the singular implementation of individual functions.
- Unit tests should be used specifically to test a function's logic. Unit tests
- rely on mocking external resources.
- While unit tests are good for ensuring consistent results, they are most
- useful when they do not require more than a few mocks. Effort should be
- made to mock as many external resources as possible. This effort is encouraged,
- but not required. Sometimes the isolation provided by completely mocking the
- external dependencies is not worth the effort of mocking those dependencies.
- In these cases, requiring an external library to be installed on the
- system before running the test file is a useful way to strike this balance.
- For example, the unit tests for the MySQL execution module require the
- presence of the MySQL python bindings on the system running the test file
- before proceeding to run the tests.
- Overly detailed mocking can also result in decreased test readability and
- brittleness as the tests are more likely to fail when the code or its
- dependencies legitimately change. In these cases, it is better to add
- dependencies to the test runner dependency state.
- Preparing to Write a Unit Test
- ==============================
- This guide assumes that your Salt development environment is already configured
- and that you have a basic understanding of contributing to the Salt codebase.
- If you're unfamiliar with either of these topics, please refer to the
- :ref:`Installing Salt for Development<installing-for-development>` and the
- :ref:`Contributing<contributing>` pages, respectively.
- This documentation also assumes that you have an understanding of how to
- :ref:`run Salt's test suite<running-the-tests>`, including running the
- :ref:`unit test subsection<running-test-subsections>`, running the unit tests
- :ref:`without testing daemons<running-unit-tests-no-daemons>` to speed up
- development wait times, and running a unit test file, class, or individual test.
- Best Practices
- ==============
- Unit tests should be written to the following specifications.
- What to Test?
- -------------
- Since unit testing focuses on the singular implementation of individual functions,
- unit tests should be used specifically to test a function's logic. The following
- guidelines should be followed when writing unit tests for Salt's test suite:
- - Each ``raise`` and ``return`` statement needs to be independently tested.
- - Isolate testing functionality. Don't rely on the pass or failure of other,
- separate tests.
- - Test functions should contain only one assertion.
- - Many Salt execution modules are merely wrappers for distribution-specific
- functionality. If there isn't any logic present in a simple execution module,
- consider writing an :ref:`integration test<integration-tests>` instead of
- heavily mocking a call to an external dependency.
- Mocking Test Data
- -----------------
- A reasonable effort needs to be made to mock external resources used in the
- code being tested, such as APIs, function calls, external data either
- globally available or passed in through function arguments, file data, etc.
- - Test functions should contain only one assertion and all necessary mock code
- and data for that assertion.
- - External resources should be mocked in order to "block all of the exits". If a
- test function fails because something in an external library wasn't mocked
- properly (or at all), this test is not addressing all of the "exits" a function
- may experience. We want the Salt code and logic to be tested, specifically.
- - Consider the fragility and longevity of a test. If the test is so tightly coupled
- to the code being tested, this makes a test unnecessarily fragile.
- - Make sure you are not mocking the function to be tested so vigorously that the
- test return merely tests the mocked output. The test should always be testing
- a function's logic.
- Mocking Loader Modules
- ----------------------
- Salt loader modules use a series of globally available dunder variables,
- ``__salt__``, ``__opts__``, ``__pillar__``, etc. To facilitate testing these
- modules a mixin class was created, ``LoaderModuleMockMixin`` which can be found
- in ``tests/support/mixins.py``. The reason for the existence of this class is
- because historically one would add these dunder
- variables directly on the imported module. This, however, introduces unexpected
- behavior when running the full test suite since those attributes would not be
- removed once we were done testing the module and would therefore leak to other
- modules being tested with unpredictable results. This is the kind of work that
- should be deferred to mock, and that's exactly what this mixin class does.
- As an example, if one needs to specify some options which should be available
- to the module being tested one should do:
- .. code-block:: python
- import salt.modules.somemodule as somemodule
- class SomeModuleTest(TestCase, LoaderModuleMockMixin):
- def setup_loader_modules(self):
- return {
- somemodule: {
- '__opts__': {'test': True}
- }
- }
- Consider this more extensive example from
- ``tests/unit/modules/test_libcloud_dns.py``:
- .. code-block:: python
- # Import Python Libs
- from __future__ import absolute_import
- # Import Salt Testing Libs
- from tests.support.mixins import LoaderModuleMockMixin
- from tests.support.unit import TestCase
- from tests.support.mock import (
- patch,
- MagicMock,
- )
- import salt.modules.libcloud_dns as libcloud_dns
- class MockDNSDriver(object):
- def __init__(self):
- pass
- def get_mock_driver():
- return MockDNSDriver()
- @patch('salt.modules.libcloud_dns._get_driver',
- MagicMock(return_value=MockDNSDriver()))
- class LibcloudDnsModuleTestCase(TestCase, LoaderModuleMockMixin):
- def setup_loader_modules(self):
- module_globals = {
- '__salt__': {
- 'config.option': MagicMock(return_value={
- 'test': {
- 'driver': 'test',
- 'key': '2orgk34kgk34g'
- }
- })
- }
- }
- if libcloud_dns.HAS_LIBCLOUD is False:
- module_globals['sys.modules'] = {'libcloud': MagicMock()}
- return {libcloud_dns: module_globals}
- What happens in the above example is we mock a call to
- `__salt__['config.option']` to return the configuration needed for the
- execution of the tests. Additionally, if the ``libcloud`` library is not
- available, since that's not actually part of what's being tested, we mocked that
- import by patching ``sys.modules`` when tests are running.
- Mocking Filehandles
- -------------------
- .. note::
- This documentation applies to the 2018.3 release cycle and newer. The
- extended functionality for ``mock_open`` described below does not exist in
- the 2017.7 and older release branches.
- Opening files in Salt is done using ``salt.utils.files.fopen()``. When testing
- code that reads from files, the ``mock_open`` helper can be used to mock
- filehandles. Note that is not the same ``mock_open`` as
- :py:func:`unittest.mock.mock_open` from the Python standard library, but rather
- a separate implementation which has additional functionality.
- .. code-block:: python
- from tests.support.unit import TestCase
- from tests.support.mock import (
- patch
- mock_open,
- )
- import salt.modules.mymod as mymod
- class MyAwesomeTestCase(TestCase):
- def test_something(self):
- fopen_mock = mock_open(read_data='foo\nbar\nbaz\n')
- with patch('salt.utils.files.fopen', fopen_mock):
- result = mymod.myfunc()
- assert result is True
- This will force any filehandle opened to mimic a filehandle which, when read,
- produces the specified contents.
- .. important::
- **String Types**
- When running tests on Python 2, ``mock_open`` will convert any ``unicode``
- types to ``str`` types to more closely reproduce Python 2 behavior (file
- reads are always ``str`` types in Python 2, irrespective of mode).
- However, when configuring your read_data, make sure that you are using
- bytestrings (e.g. ``b'foo\nbar\nbaz\n'``) when the code you are testing is
- opening a file for binary reading, otherwise the tests will fail on Python
- 3. The mocked filehandles produced by ``mock_open`` will raise a
- :py:obj:`TypeError` if you attempt to read a bytestring when opening for
- non-binary reading, and similarly will not let you read a string when
- opening a file for binary reading. They will also not permit bytestrings to
- be "written" if the mocked filehandle was opened for non-binary writing,
- and vice-versa when opened for non-binary writing. These enhancements force
- test writers to write more accurate tests.
- More Complex Scenarios
- **********************
- .. _unit-tests-multiple-file-paths:
- Multiple File Paths
- +++++++++++++++++++
- What happens when the code being tested reads from more than one file? For
- those cases, you can pass ``read_data`` as a dictionary:
- .. code-block:: python
- import textwrap
- from tests.support.unit import TestCase
- from tests.support.mock import (
- patch
- mock_open,
- )
- import salt.modules.mymod as mymod
- class MyAwesomeTestCase(TestCase):
- def test_something(self):
- contents = {
- '/etc/foo.conf': textwrap.dedent('''\
- foo
- bar
- baz
- '''),
- '/etc/b*.conf': textwrap.dedent('''\
- one
- two
- three
- '''),
- }
- fopen_mock = mock_open(read_data=contents)
- with patch('salt.utils.files.fopen', fopen_mock):
- result = mymod.myfunc()
- assert result is True
- This would make ``salt.utils.files.fopen()`` produce filehandles with different
- contents depending on which file was being opened by the code being tested.
- ``/etc/foo.conf`` and any file matching the pattern ``/etc/b*.conf`` would
- work, while opening any other path would result in a
- :py:obj:`FileNotFoundError` being raised (in Python 2, an ``IOError``).
- Since file patterns are supported, it is possible to use a pattern of ``'*'``
- to define a fallback if no other patterns match the filename being opened. The
- below two ``mock_open`` calls would produce identical results:
- .. code-block:: python
- mock_open(read_data='foo\n')
- mock_open(read_data={'*': 'foo\n'})
- .. note::
- Take care when specifying the ``read_data`` as a dictionary, in cases where
- the patterns overlap (e.g. when both ``/etc/b*.conf`` and ``/etc/bar.conf``
- are in the ``read_data``). Dictionary iteration order will determine which
- pattern is attempted first, second, etc., with the exception of ``*`` which
- is used when no other pattern matches. If your test case calls for
- specifying overlapping patterns, and you are not running Python 3.6 or
- newer, then an ``OrderedDict`` can be used to ensure matching is handled in
- the desired way:
- .. code-block:: python
- contents = OrderedDict()
- contents['/etc/bar.conf'] = 'foo\nbar\nbaz\n'
- contents['/etc/b*.conf'] = IOError(errno.EACCES, 'Permission denied')
- contents['*'] = 'This is a fallback for files not beginning with "/etc/b"\n'
- fopen_mock = mock_open(read_data=contents)
- Raising Exceptions
- ++++++++++++++++++
- Instead of a string, an exception can also be used as the ``read_data``:
- .. code-block:: python
- import errno
- from tests.support.unit import TestCase
- from tests.support.mock import (
- patch
- mock_open,
- )
- import salt.modules.mymod as mymod
- class MyAwesomeTestCase(TestCase):
- def test_something(self):
- exc = IOError(errno.EACCES, 'Permission denied')
- fopen_mock = mock_open(read_data=exc)
- with patch('salt.utils.files.fopen', fopen_mock):
- mymod.myfunc()
- The above example would raise the specified exception when any file is opened.
- The expectation would be that ``mymod.myfunc()`` would gracefully handle the
- IOError, so a failure to do that would result in it being raised and causing
- the test to fail.
- Multiple File Contents
- ++++++++++++++++++++++
- For cases in which a file is being read more than once, and it is necessary to
- test a function's behavior based on what the file looks like the second (or
- third, etc.) time it is read, just specify the the contents for that file as a
- list. Each time the file is opened, ``mock_open`` will cycle through the list
- and produce a mocked filehandle with the specified contents. For example:
- .. code-block:: python
- import errno
- import textwrap
- from tests.support.unit import TestCase
- from tests.support.mock import (
- patch
- mock_open,
- )
- import salt.modules.mymod as mymod
- class MyAwesomeTestCase(TestCase):
- def test_something(self):
- contents = {
- '/etc/foo.conf': [
- textwrap.dedent('''\
- foo
- bar
- '''),
- textwrap.dedent('''\
- foo
- bar
- baz
- '''),
- ],
- '/etc/b*.conf': [
- IOError(errno.ENOENT, 'No such file or directory'),
- textwrap.dedent('''\
- one
- two
- three
- '''),
- ],
- }
- fopen_mock = mock_open(read_data=contents)
- with patch('salt.utils.files.fopen', fopen_mock):
- result = mymod.myfunc()
- assert result is True
- Using this example, the first time ``/etc/foo.conf`` is opened, it will
- simulate a file with the first string in the list as its contents, while the
- second time it is opened, the simulated file's contents will be the second
- string in the list.
- If no more items remain in the list, then attempting to open the file will
- raise a :py:obj:`RuntimeError`. In the example above, if ``/etc/foo.conf`` were
- to be opened a third time, a :py:obj:`RuntimeError` would be raised.
- Note that exceptions can also be mixed in with strings when using this
- technique. In the above example, if ``/etc/bar.conf`` were to be opened twice,
- the first time would simulate the file not existing, while the second time
- would simulate a file with string defined in the second element of the list.
- .. note::
- Notice that the second path in the ``contents`` dictionary above
- (``/etc/b*.conf``) contains an asterisk. The items in the list are cycled
- through for each match of a given pattern (*not* separately for each
- individual file path), so this means that only two files matching that
- pattern could be opened before the next one would raise a
- :py:obj:`RuntimeError`.
- Accessing the Mocked Filehandles in a Test
- ******************************************
- .. note::
- The code for the ``MockOpen``, ``MockCall``, and ``MockFH`` classes
- (referenced below) can be found in ``tests/support/mock.py``. There are
- extensive unit tests for them located in ``tests/unit/test_mock.py``.
- The above examples simply show how to mock ``salt.utils.files.fopen()`` to
- simulate files with the contents you desire, but you can also access the mocked
- filehandles (and more), and use them to craft assertions in your tests. To do
- so, just add an ``as`` clause to the end of the ``patch`` statement:
- .. code-block:: python
- fopen_mock = mock_open(read_data='foo\nbar\nbaz\n')
- with patch('salt.utils.files.fopen', fopen_mock) as m_open:
- # do testing here
- ...
- ...
- When doing this, ``m_open`` will be a ``MockOpen`` instance. It will contain
- several useful attributes:
- - **read_data** - A dictionary containing the ``read_data`` passed when
- ``mock_open`` was invoked. In the event that :ref:`multiple file paths
- <unit-tests-multiple-file-paths>` are not used, then this will be a
- dictionary mapping ``*`` to the ``read_data`` passed to ``mock_open``.
- - **call_count** - An integer representing how many times
- ``salt.utils.files.fopen()`` was called to open a file.
- - **calls** - A list of ``MockCall`` objects. A ``MockCall`` object is a simple
- class which stores the arguments passed to it, making the positional
- arguments available via its ``args`` attribute, and the keyword arguments
- available via its ``kwargs`` attribute.
- .. code-block:: python
- from tests.support.unit import TestCase
- from tests.support.mock import (
- patch
- mock_open,
- MockCall,
- )
- import salt.modules.mymod as mymod
- class MyAwesomeTestCase(TestCase):
- def test_something(self):
- with patch('salt.utils.files.fopen', mock_open(read_data=b'foo\n')) as m_open:
- mymod.myfunc()
- # Assert that only two opens attempted
- assert m_open.call_count == 2
- # Assert that only /etc/foo.conf was opened
- assert all(call.args[0] == '/etc/foo.conf' for call in m_open.calls)
- # Asser that the first open was for binary read, and the
- # second was for binary write.
- assert m_open.calls == [
- MockCall('/etc/foo.conf', 'rb'),
- MockCall('/etc/foo.conf', 'wb'),
- ]
- Note that ``MockCall`` is imported from ``tests.support.mock`` in the above
- example. Also, the second assert above is redundant since it is covered in
- the final assert, but both are included simply as an example.
- - **filehandles** - A dictionary mapping the unique file paths opened, to lists
- of ``MockFH`` objects. Each open creates a unique ``MockFH`` object. Each
- ``MockFH`` object itself has a number of useful attributes:
- - **filename** - The path to the file which was opened using
- ``salt.utils.files.fopen()``
- - **call** - A ``MockCall`` object representing the arguments passed to
- ``salt.utils.files.fopen()``. Note that this ``MockCall`` is also available
- in the parent ``MockOpen`` instance's **calls** list.
- - The following methods are mocked using :py:class:`unittest.mock.Mock`
- objects, and Mock's built-in asserts (as well as the call data) can be used
- as you would with any other Mock object:
- - **.read()**
- - **.readlines()**
- - **.readline()**
- - **.close()**
- - **.write()**
- - **.writelines()**
- - **.seek()**
- - The read functions (**.read()**, **.readlines()**, **.readline()**) all
- work as expected, as does iterating through the file line by line (i.e.
- ``for line in fh:``).
- - The **.tell()** method is also implemented in such a way that it updates
- after each time the mocked filehandle is read, and will report the correct
- position. The one caveat here is that **.seek()** doesn't actually work
- (it's simply mocked), and will not change the position. Additionally,
- neither **.write()** or **.writelines()** will modify the mocked
- filehandle's contents.
- - The attributes **.write_calls** and **.writelines_calls** (no parenthesis)
- are available as shorthands and correspond to lists containing the contents
- passed for all calls to **.write()** and **.writelines()**, respectively.
- Examples
- ++++++++
- .. code-block:: python
- with patch('salt.utils.files.fopen', mock_open(read_data=contents)) as m_open:
- # Run the code you are unit testing
- mymod.myfunc()
- # Check that only the expected file was opened, and that it was opened
- # only once.
- assert m_open.call_count == 1
- assert list(m_open.filehandles) == ['/etc/foo.conf']
- # "opens" will be a list of all the mocked filehandles opened
- opens = m_open.filehandles['/etc/foo.conf']
- # Check that we wrote the expected lines ("expected" here is assumed to
- # be a list of strings)
- assert opens[0].write_calls == expected
- .. code-block:: python
- with patch('salt.utils.files.fopen', mock_open(read_data=contents)) as m_open:
- # Run the code you are unit testing
- mymod.myfunc()
- # Check that .readlines() was called (remember, it's a Mock)
- m_open.filehandles['/etc/foo.conf'][0].readlines.assert_called()
- .. code-block:: python
- with patch('salt.utils.files.fopen', mock_open(read_data=contents)) as m_open:
- # Run the code you are unit testing
- mymod.myfunc()
- # Check that we read the file and also wrote to it
- m_open.filehandles['/etc/foo.conf'][0].read.assert_called_once()
- m_open.filehandles['/etc/foo.conf'][1].writelines.assert_called_once()
- .. _`Mock()`: https://github.com/testing-cabal/mock
- Naming Conventions
- ------------------
- Test names and docstrings should indicate what functionality is being tested.
- Test functions are named ``test_<fcn>_<test-name>`` where ``<fcn>`` is the function
- being tested and ``<test-name>`` describes the ``raise`` or ``return`` being tested.
- Unit tests for ``salt/.../<module>.py`` are contained in a file called
- ``tests/unit/.../test_<module>.py``, e.g. the tests for ``salt/modules/fib.py``
- are in ``tests/unit/modules/test_fib.py``.
- In order for unit tests to get picked up during a run of the unit test suite, each
- unit test file must be prefixed with ``test_`` and each individual test must be
- prepended with the ``test_`` naming syntax, as described above.
- If a function does not start with ``test_``, then the function acts as a "normal"
- function and is not considered a testing function. It will not be included in the
- test run or testing output. The same principle applies to unit test files that
- do not have the ``test_*.py`` naming syntax. This test file naming convention
- is how the test runner recognizes that a test file contains unit tests.
- Imports
- -------
- Most commonly, the following imports are necessary to create a unit test:
- .. code-block:: python
- from tests.support.unit import TestCase
- If you need mock support to your tests, please also import:
- .. code-block:: python
- from tests.support.mock import MagicMock, patch, call
- Evaluating Truth
- ================
- A longer discussion on the types of assertions one can make can be found by
- reading `Python's documentation on unit testing`__.
- .. __: http://docs.python.org/2/library/unittest.html#unittest.TestCase
- Tests Using Mock Objects
- ========================
- In many cases, the purpose of a Salt module is to interact with some external
- system, whether it be to control a database, manipulate files on a filesystem
- or something else. In these varied cases, it's necessary to design a unit test
- which can test the function whilst replacing functions which might actually
- call out to external systems. One might think of this as "blocking the exits"
- for code under tests and redirecting the calls to external systems with our own
- code which produces known results during the duration of the test.
- To achieve this behavior, Salt makes heavy use of the `MagicMock package`__.
- To understand how one might integrate Mock into writing a unit test for Salt,
- let's imagine a scenario in which we're testing an execution module that's
- designed to operate on a database. Furthermore, let's imagine two separate
- methods, here presented in pseduo-code in an imaginary execution module called
- 'db.py'.
- .. code-block:: python
- def create_user(username):
- qry = 'CREATE USER {0}'.format(username)
- execute_query(qry)
- def execute_query(qry):
- # Connect to a database and actually do the query...
- Here, let's imagine that we want to create a unit test for the `create_user`
- function. In doing so, we want to avoid any calls out to an external system and
- so while we are running our unit tests, we want to replace the actual
- interaction with a database with a function that can capture the parameters
- sent to it and return pre-defined values. Therefore, our task is clear -- to
- write a unit test which tests the functionality of `create_user` while also
- replacing 'execute_query' with a mocked function.
- To begin, we set up the skeleton of our class much like we did before, but with
- additional imports for MagicMock:
- .. code-block:: python
- # Import Salt Testing libs
- from tests.support.unit import TestCase
- # Import Salt execution module to test
- from salt.modules import db
- # Import Mock libraries
- from tests.support.mock import MagicMock, patch, call
- # Create test case class and inherit from Salt's customized TestCase
- # Skip this test case if we don't have access to mock!
- class DbTestCase(TestCase):
- def test_create_user(self):
- # First, we replace 'execute_query' with our own mock function
- with patch.object(db, 'execute_query', MagicMock()) as db_exq:
- # Now that the exits are blocked, we can run the function under test.
- db.create_user('testuser')
- # We could now query our mock object to see which calls were made
- # to it.
- ## print db_exq.mock_calls
- # Construct a call object that simulates the way we expected
- # execute_query to have been called.
- expected_call = call('CREATE USER testuser')
- # Compare the expected call with the list of actual calls. The
- # test will succeed or fail depending on the output of this
- # assertion.
- db_exq.assert_has_calls(expected_call)
- .. __: http://www.voidspace.org.uk/python/mock/index.html
- Modifying ``__salt__`` In Place
- ===============================
- At times, it becomes necessary to make modifications to a module's view of
- functions in its own ``__salt__`` dictionary. Luckily, this process is quite
- easy.
- Below is an example that uses MagicMock's ``patch`` functionality to insert a
- function into ``__salt__`` that's actually a MagicMock instance.
- .. code-block:: python
- def show_patch(self):
- with patch.dict(my_module.__salt__,
- {'function.to_replace': MagicMock()}):
- # From this scope, carry on with testing, with a modified __salt__!
- .. _simple-unit-example:
- A Simple Example
- ================
- Let's assume that we're testing a very basic function in an imaginary Salt
- execution module. Given a module called ``fib.py`` that has a function called
- ``calculate(num_of_results)``, which given a ``num_of_results``, produces a list of
- sequential Fibonacci numbers of that length.
- A unit test to test this function might be commonly placed in a file called
- ``tests/unit/modules/test_fib.py``. The convention is to place unit tests for
- Salt execution modules in ``test/unit/modules/`` and to name the tests module
- prefixed with ``test_*.py``.
- Tests are grouped around test cases, which are logically grouped sets of tests
- against a piece of functionality in the tested software. Test cases are created
- as Python classes in the unit test module. To return to our example, here's how
- we might write the skeleton for testing ``fib.py``:
- .. code-block:: python
- # Import Salt Testing libs
- from tests.support.unit import TestCase
- # Import Salt execution module to test
- import salt.modules.fib as fib
- # Create test case class and inherit from Salt's customized TestCase
- class FibTestCase(TestCase):
- '''
- This class contains a set of functions that test salt.modules.fib.
- '''
- def test_fib(self):
- '''
- To create a unit test, we should prefix the name with `test_' so
- that it's recognized by the test runner.
- '''
- fib_five = (0, 1, 1, 2, 3)
- self.assertEqual(fib.calculate(5), fib_five)
- At this point, the test can now be run, either individually or as a part of a
- full run of the test runner. To ease development, a single test can be
- executed:
- .. code-block:: bash
- tests/runtests.py -v -n unit.modules.test_fib
- This will report the status of the test: success, failure, or error. The
- ``-v`` flag increases output verbosity.
- .. code-block:: bash
- tests/runtests.py -n unit.modules.test_fib -v
- To review the results of a particular run, take a note of the log location
- given in the output for each test:
- .. code-block:: text
- Logging tests on /var/folders/nl/d809xbq577l3qrbj3ymtpbq80000gn/T/salt-runtests.log
- .. _complete-unit-example:
- A More Complete Example
- =======================
- Consider the following function from salt/modules/linux_sysctl.py.
- .. code-block:: python
- def get(name):
- '''
- Return a single sysctl parameter for this minion
- CLI Example:
- .. code-block:: bash
- salt '*' sysctl.get net.ipv4.ip_forward
- '''
- cmd = 'sysctl -n {0}'.format(name)
- out = __salt__['cmd.run'](cmd)
- return out
- This function is very simple, comprising only four source lines of code and
- having only one return statement, so we know only one test is needed. There
- are also two inputs to the function, the ``name`` function argument and the call
- to ``__salt__['cmd.run']()``, both of which need to be appropriately mocked.
- Mocking a function parameter is straightforward, whereas mocking a function
- call will require, in this case, the use of MagicMock. For added isolation, we
- will also redefine the ``__salt__`` dictionary such that it only contains
- ``'cmd.run'``.
- .. code-block:: python
- # Import Salt Libs
- import salt.modules.linux_sysictl as linux_sysctl
- # Import Salt Testing Libs
- from tests.support.mixins import LoaderModuleMockMixin
- from tests.support.unit import TestCase
- from tests.support.mock import (
- MagicMock,
- patch,
- )
- class LinuxSysctlTestCase(TestCase, LoaderModuleMockMixin):
- '''
- TestCase for salt.modules.linux_sysctl module
- '''
- def test_get(self):
- '''
- Tests the return of get function
- '''
- mock_cmd = MagicMock(return_value=1)
- with patch.dict(linux_sysctl.__salt__, {'cmd.run': mock_cmd}):
- self.assertEqual(linux_sysctl.get('net.ipv4.ip_forward'), 1)
- Since ``get()`` has only one raise or return statement and that statement is a
- success condition, the test function is simply named ``test_get()``. As
- described, the single function call parameter, ``name`` is mocked with
- ``net.ipv4.ip_forward`` and ``__salt__['cmd.run']`` is replaced by a MagicMock
- function object. We are only interested in the return value of
- ``__salt__['cmd.run']``, which MagicMock allows us by specifying via
- ``return_value=1``. Finally, the test itself tests for equality between the
- return value of ``get()`` and the expected return of ``1``. This assertion is
- expected to succeed because ``get()`` will determine its return value from
- ``__salt__['cmd.run']``, which we have mocked to return ``1``.
- .. _complex-unit-example:
- A Complex Example
- =================
- Now consider the ``assign()`` function from the same
- salt/modules/linux_sysctl.py source file.
- .. code-block:: python
- def assign(name, value):
- '''
- Assign a single sysctl parameter for this minion
- CLI Example:
- .. code-block:: bash
- salt '*' sysctl.assign net.ipv4.ip_forward 1
- '''
- value = str(value)
- sysctl_file = '/proc/sys/{0}'.format(name.replace('.', '/'))
- if not os.path.exists(sysctl_file):
- raise CommandExecutionError('sysctl {0} does not exist'.format(name))
- ret = {}
- cmd = 'sysctl -w {0}="{1}"'.format(name, value)
- data = __salt__['cmd.run_all'](cmd)
- out = data['stdout']
- err = data['stderr']
- # Example:
- # # sysctl -w net.ipv4.tcp_rmem="4096 87380 16777216"
- # net.ipv4.tcp_rmem = 4096 87380 16777216
- regex = re.compile(r'^{0}\s+=\s+{1}$'.format(re.escape(name),
- re.escape(value)))
- if not regex.match(out) or 'Invalid argument' in str(err):
- if data['retcode'] != 0 and err:
- error = err
- else:
- error = out
- raise CommandExecutionError('sysctl -w failed: {0}'.format(error))
- new_name, new_value = out.split(' = ', 1)
- ret[new_name] = new_value
- return ret
- This function contains two raise statements and one return statement, so we
- know that we will need (at least) three tests. It has two function arguments
- and many references to non-builtin functions. In the tests below you will see
- that MagicMock's ``patch()`` method may be used as a context manager or as a
- decorator. When patching the salt dunders however, please use the context
- manager approach.
- There are three test functions, one for each raise and return statement in the
- source function. Each function is self-contained and contains all and only the
- mocks and data needed to test the raise or return statement it is concerned
- with.
- .. code-block:: python
- # Import Salt Libs
- import salt.modules.linux_sysctl as linux_sysctl
- from salt.exceptions import CommandExecutionError
- # Import Salt Testing Libs
- from tests.support.mixins import LoaderModuleMockMixin
- from tests.support.unit import TestCase
- from tests.support.mock import (
- MagicMock,
- patch,
- )
- class LinuxSysctlTestCase(TestCase, LoaderModuleMockMixin):
- '''
- TestCase for salt.modules.linux_sysctl module
- '''
- @patch('os.path.exists', MagicMock(return_value=False))
- def test_assign_proc_sys_failed(self):
- '''
- Tests if /proc/sys/<kernel-subsystem> exists or not
- '''
- cmd = {'pid': 1337, 'retcode': 0, 'stderr': '',
- 'stdout': 'net.ipv4.ip_forward = 1'}
- mock_cmd = MagicMock(return_value=cmd)
- with patch.dict(linux_sysctl.__salt__, {'cmd.run_all': mock_cmd}):
- self.assertRaises(CommandExecutionError,
- linux_sysctl.assign,
- 'net.ipv4.ip_forward', 1)
- @patch('os.path.exists', MagicMock(return_value=True))
- def test_assign_cmd_failed(self):
- '''
- Tests if the assignment was successful or not
- '''
- cmd = {'pid': 1337, 'retcode': 0, 'stderr':
- 'sysctl: setting key "net.ipv4.ip_forward": Invalid argument',
- 'stdout': 'net.ipv4.ip_forward = backward'}
- mock_cmd = MagicMock(return_value=cmd)
- with patch.dict(linux_sysctl.__salt__, {'cmd.run_all': mock_cmd}):
- self.assertRaises(CommandExecutionError,
- linux_sysctl.assign,
- 'net.ipv4.ip_forward', 'backward')
- @patch('os.path.exists', MagicMock(return_value=True))
- def test_assign_success(self):
- '''
- Tests the return of successful assign function
- '''
- cmd = {'pid': 1337, 'retcode': 0, 'stderr': '',
- 'stdout': 'net.ipv4.ip_forward = 1'}
- ret = {'net.ipv4.ip_forward': '1'}
- mock_cmd = MagicMock(return_value=cmd)
- with patch.dict(linux_sysctl.__salt__, {'cmd.run_all': mock_cmd}):
- self.assertEqual(linux_sysctl.assign(
- 'net.ipv4.ip_forward', 1), ret)
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