salt/doc/topics/development/tests/unit.rst
2014-02-26 13:31:11 -07:00

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==================
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.
Preparing to Write a Unit Test
==============================
Unit tests live in: `tests/unit/`__.
.. __: https://github.com/saltstack/salt/tree/develop/tests/unit
Most commonly, the following imports are necessary to create a unit test:
.. code-block:: python
# Import Salt Testing libs
from salttesting import skipIf, TestCase
from salttesting.helpers import ensure_in_syspath
If you need mock support to your tests, please also import:
.. code-block:: python
from salttesting.mock import NO_MOCK, NO_MOCK_REASON, MagicMock, patch, call
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/fib_test.py``. The convention is to place unit tests for
Salt execution modules in ``test/unit/modules/`` and to name the tests module
suffixed 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 salttesting import TestCase
# Import Salt execution module to test
from salt.modules import fib
# Create test case class and inherit from Salt's customized TestCase
class FibTestCase(TestCase):
'''
If we want to set up variables common to all unit tests, we can do so
by defining a setUp method, which will be run automatically before
tests begin.
'''
def setUp(self):
# Declare a simple set of five Fibonacci numbers starting at zero that we know are correct.
self.fib_five = [0, 1, 1, 2, 3]
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.
'''
self.assertEqual(fib.calculate(5), self.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 -n unit.modules.fib_test
This will produce output indicating the success or failure of the tests in
given test case. For more detailed results, one can also include a flag to
increase verbosity:
.. code-block:: bash
tests/runtests.py -n unit.modules.fib_test -v
To review the results of a particular run, take a note of the log location
given in the output for each test:
**Logging tests on /var/folders/nl/d809xbq577l3qrbj3ymtpbq80000gn/T/salt-runtests.log**
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 very 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 many other examples. 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 salttesting import TestCase
# Import Salt execution module to test
from salt.modules import db
# NEW! -- Import Mock libraries
from salttesting.mock import NO_MOCK, NO_MOCK_REASON, MagicMock, patch, call
# Create test case class and inherit from Salt's customized TestCase
@skipIf(NO_MOCK, NO_MOCK_REASON) # 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
db.execute_query = MagicMock()
# 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.execute_query.mock_calls
'''
We want to test to ensure that the correct query was formed.
This is a contrived example, just designed to illustrate the concepts at hand.
We're going to first contruct a call() object that represents the way we expect
our mocked execute_query() function to have been called.
Then, we'll examine the list of calls that were actually made to to execute_function().
By comparing our expected call to execute_query() with create_user()'s call to
execute_query(), we can determine the success or failure of our unit test.
'''
expected_call = call('CREATE USER testuser')
# Do the comparison! Will assert False if execute_query() was not called with the given call
db.execute_query.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__!