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Add tutorial on integration testing (#4881)
* tutorial/integration_testing: first draft Signed-off-by: Arne Baeyens <mail@arnebaeyens.com> Co-authored-by: Chris Lalancette <clalancette@gmail.com> Co-authored-by: Tomoya Fujita <Tomoya.Fujita@sony.com> Co-authored-by: Katherine Scott <katherineAScott@gmail.com> (cherry picked from commit 3d4b2ef)
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Writing Basic Integration Tests with launch_testing | ||
=================================================== | ||
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**Goal:** Create and run integration tests on the ROS 2 turtlesim node. | ||
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**Tutorial level:** Intermediate | ||
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**Time:** 20 minutes | ||
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.. contents:: Contents | ||
:depth: 2 | ||
:local: | ||
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Prerequisites | ||
------------- | ||
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Before starting this tutorial, it is recommended to have completed the following tutorials on launching nodes: | ||
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* :doc:`Launching Multiple Nodes <../../Beginner-CLI-Tools/Launching-Multiple-Nodes/Launching-Multiple-Nodes>` | ||
* :doc:`Creating Launch files <../../Intermediate/Launch/Creating-Launch-Files>` | ||
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Background | ||
---------- | ||
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Where unit tests focus on validating a very specific piece of functionality, integration tests focus on validating the interaction between pieces of code. | ||
In ROS 2 this is often accomplished by launching a system of one or several nodes, for example the `Gazebo simulator <https://gazebosim.org/home>`__ and the `Nav2 navigation <https://github.com/ros-planning/navigation2.git>`__ stack. | ||
As a result, these tests are more complex both to set up and to run. | ||
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A key aspect of ROS 2 integration testing is that nodes that are part of different tests shouldn't communicate with each other, even when run in parallel. | ||
This will be achieved here using a specific test runner that picks unique :doc:`ROS domain IDs <../../../Concepts/Intermediate/About-Domain-ID>`. | ||
In addition, integration tests have to fit in the overall testing workflow. | ||
A standardized approach is to ensure each test outputs an XUnit file, which are easily parsed using common test tooling. | ||
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Overview | ||
-------- | ||
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The main tool in use here is the `launch_testing <https://docs.ros.org/en/{DISTRO}/p/launch_testing/index.html>`_ package | ||
(`launch_testing repository <https://github.com/ros2/launch/tree/{REPOS_FILE_BRANCH}/launch_testing>`_). | ||
This ROS-agnostic functionality can extend a Python launch file with both active tests (that run while the nodes are also running) and post-shutdown tests (which run once after all nodes have exited). | ||
``launch_testing`` relies on the Python standard module `unittest <https://docs.python.org/3/library/unittest.html>`_ for the actual testing. | ||
To get our integration tests run as part of ``colcon test``, we register the launch file in the ``CMakeLists.txt``. | ||
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Steps | ||
----- | ||
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1 Describe the test in the test launch file | ||
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ | ||
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Both the nodes under test and the tests themselves are launched using a Python launch file, which resembles a ROS 2 Python launch file. | ||
It is customary to make the integration test launch file names follow the pattern ``test/test_*.py``. | ||
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There are two common types of tests in integration testing: active tests, which run while the nodes under test are running, and post-shutdown tests, which are run after exiting the nodes. | ||
We will cover both in this tutorial. | ||
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1.1 Imports | ||
~~~~~~~~~~~ | ||
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We first start by importing the Python modules we will be using. | ||
Only two modules are specific to testing: the general-purpose ``unittest``, and ``launch_testing``. | ||
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.. code-block:: python | ||
import os | ||
import sys | ||
import time | ||
import unittest | ||
import launch | ||
import launch_ros | ||
import launch_testing.actions | ||
import rclpy | ||
from turtlesim.msg import Pose | ||
1.2 Generate the test description | ||
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ | ||
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The function ``generate_test_description`` describes what to launch, similar to ``generate_launch_description`` in a ROS 2 Python launch file. | ||
In the example below, we launch the turtlesim node and half a second later our tests. | ||
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In more complex integration test setups, you will probably want to launch a system of several nodes, together with additional nodes that perform mocking or must otherwise interact with the nodes under test. | ||
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.. code-block:: python | ||
def generate_test_description(): | ||
return ( | ||
launch.LaunchDescription( | ||
[ | ||
# Nodes under test | ||
launch_ros.actions.Node( | ||
package='turtlesim', | ||
namespace='', | ||
executable='turtlesim_node', | ||
name='turtle1', | ||
), | ||
# Launch tests 0.5 s later | ||
launch.actions.TimerAction( | ||
period=0.5, actions=[launch_testing.actions.ReadyToTest()]), | ||
] | ||
), {}, | ||
) | ||
1.3 Active tests | ||
~~~~~~~~~~~~~~~~ | ||
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The active tests interact with the running nodes. | ||
In this tutorial, we will check whether the turtlesim node publishes pose messages (by listening to the node's 'turtle1/pose' topic) and whether it logs that it spawned the turtle (by listening to stderr). | ||
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The active tests are defined as methods of a class inheriting from `unittest.TestCase <https://docs.python.org/3/library/unittest.html#unittest.TestCase>`_. | ||
The child class, here ``TestTurtleSim``, contains the following methods: | ||
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- ``test_*``: the test methods, each performing some ROS communication with the nodes under test and/or listening to the process output (passed in through ``proc_output``). | ||
They are executed sequentially. | ||
- ``setUp``, ``tearDown``: respectively run before (to prepare the test fixture) and after executing each test method. | ||
By creating the node in the ``setUp`` method, we use a different node instance for each test to reduce the risk of tests communicating with each other. | ||
- ``setUpClass``, ``tearDownClass``: these class methods respectively run once before and after executing all the test methods. | ||
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It's highly recommended to go through `launch_testing's detailed documentation on this topic <https://docs.ros.org/en/{DISTRO}/p/launch_testing/index.html>`_. | ||
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.. code-block:: python | ||
# Active tests | ||
class TestTurtleSim(unittest.TestCase): | ||
@classmethod | ||
def setUpClass(cls): | ||
rclpy.init() | ||
@classmethod | ||
def tearDownClass(cls): | ||
rclpy.shutdown() | ||
def setUp(self): | ||
self.node = rclpy.create_node('test_turtlesim') | ||
def tearDown(self): | ||
self.node.destroy_node() | ||
def test_publishes_pose(self, proc_output): | ||
"""Check whether pose messages published""" | ||
msgs_rx = [] | ||
sub = self.node.create_subscription( | ||
Pose, 'turtle1/pose', | ||
lambda msg: msgs_rx.append(msg), 100) | ||
try: | ||
# Listen to the pose topic for 10 s | ||
end_time = time.time() + 10 | ||
while time.time() < end_time: | ||
# spin to get subscriber callback executed | ||
rclpy.spin_once(self.node, timeout_sec=1) | ||
# There should have been 100 messages received | ||
assert len(msgs_rx) > 100 | ||
finally: | ||
self.node.destroy_subscription(sub) | ||
def test_logs_spawning(self, proc_output): | ||
"""Check whether logging properly""" | ||
proc_output.assertWaitFor( | ||
'Spawning turtle [turtle1] at x=', | ||
timeout=5, stream='stderr') | ||
Note that the way we listen to the 'turtle1/pose' topic in ``test_publishes_pose`` differs from :doc:`the usual approach <../../Beginner-Client-Libraries/Writing-A-Simple-Py-Publisher-And-Subscriber>`. | ||
Instead of calling the blocking ``rclpy.spin``, we trigger the ``spin_once`` method - which executes the first available callback (our subscriber callback if a message arrived within 1 second) - until we have gathered all messages published over the last 10 seconds. | ||
The package `launch_testing_ros <https://docs.ros.org/en/{DISTRO}/p/launch_testing_ros/index.html>`_ provides some convenience functions to achieve similar behavior, | ||
such as `WaitForTopics <https://docs.ros.org/en/{DISTRO}/p/launch_testing_ros/launch_testing_ros.wait_for_topics.html>`_. | ||
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If you want to go further, you can implement a third test that publishes a twist message, asking the turtle to move, and subsequently checks that it moved by asserting that the pose message changed. | ||
This effectively automates part of the `Turtlesim introduction tutorial <../../Beginner-CLI-Tools/Introducing-Turtlesim/Introducing-Turtlesim>`. | ||
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1.4 Post-shutdown tests | ||
~~~~~~~~~~~~~~~~~~~~~~~ | ||
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The classes marked with the ``launch_testing.post_shutdown_test`` decorator are run after letting the nodes under test exit. | ||
A typical test here is whether the nodes exited cleanly, for which ``launch_testing`` provides the method | ||
`asserts.assertExitCodes <https://docs.ros.org/en/{DISTRO}/p/launch_testing/launch_testing.asserts.html#launch_testing.asserts.assertExitCodes>`_. | ||
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.. code-block:: python | ||
# Post-shutdown tests | ||
@launch_testing.post_shutdown_test() | ||
class TestTurtleSimShutdown(unittest.TestCase): | ||
def test_exit_codes(self, proc_info): | ||
"""Check if the processes exited normally.""" | ||
launch_testing.asserts.assertExitCodes(proc_info) | ||
2 Register the test in the CMakeLists.txt | ||
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ | ||
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Registering the test in the ``CMakeLists.txt`` fulfills two functions: | ||
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- it integrates it in the ``CTest`` framework ROS 2 CMake-based packages rely on | ||
(and hence it will be called when running ``colcon test``). | ||
- it allows to specify *how* the test is to be run - | ||
in this case, with a unique domain id to ensure test isolation. | ||
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This latter aspect is realized using the special test runner `run_test_isolated.py <https://github.com/ros2/ament_cmake_ros/blob/{REPOS_FILE_BRANCH}/ament_cmake_ros/cmake/run_test_isolated.py>`_. | ||
To ease adding several integration tests, we define the CMake function ``add_ros_isolated_launch_test`` such that each additional test requires only a single line. | ||
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.. code-block:: cmake | ||
cmake_minimum_required(VERSION 3.8) | ||
project(app) | ||
######## | ||
# test # | ||
######## | ||
if(BUILD_TESTING) | ||
# Integration tests | ||
find_package(ament_cmake_ros REQUIRED) | ||
find_package(launch_testing_ament_cmake REQUIRED) | ||
function(add_ros_isolated_launch_test path) | ||
set(RUNNER "${ament_cmake_ros_DIR}/run_test_isolated.py") | ||
add_launch_test("${path}" RUNNER "${RUNNER}" ${ARGN}) | ||
endfunction() | ||
add_ros_isolated_launch_test(test/test_integration.py) | ||
endif() | ||
3 Dependencies and package organization | ||
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ | ||
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Finally, add the following dependencies to your ``package.xml``: | ||
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.. code-block:: XML | ||
<test_depend>ament_cmake_ros</test_depend> | ||
<test_depend>launch</test_depend> | ||
<test_depend>launch_ros</test_depend> | ||
<test_depend>launch_testing</test_depend> | ||
<test_depend>launch_testing_ament_cmake</test_depend> | ||
<test_depend>rclpy</test_depend> | ||
<test_depend>turtlesim</test_depend> | ||
After following the above steps, your package (here named 'app') ought to look as follows: | ||
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.. code-block:: | ||
app/ | ||
CMakeLists.txt | ||
package.xml | ||
tests/ | ||
test_integration.py | ||
Integration tests can be part of any ROS package. | ||
One can dedicate one or more packages to just integration testing, or alternatively add them to the package of which they test the functionality. | ||
In this tutorial, we go with the first option as we will test the existing turtlesim node. | ||
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4 Running tests and report generation | ||
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ | ||
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For running the integration test and examining the results, see the tutorial :doc:`Running Tests in ROS 2 from the Command Line<../../Intermediate/Testing/CLI>`. | ||
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Summary | ||
------- | ||
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In this tutorial, we explored the process of creating and running integration tests on the ROS 2 turtlesim node. | ||
We discussed the integration test launch file and covered writing active tests and post-shutdown tests. | ||
To recap, the four key elements of the integration test launch file are: | ||
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* The function ``generate_test_description``: This launches our nodes under tests as well as our tests. | ||
* ``launch_testing.actions.ReadyToTest()``: This alerts the test framework that the tests should be run, and ensures that the active tests and the nodes are run together. | ||
* An undecorated class inheriting from ``unittest.TestCase``: This houses the active tests, including set up and teardown, and gives access to ROS logging through ``proc_output``. | ||
* A second class inheriting from ``unittest.TestCase`` decorated with ``@launch_testing.post_shutdown_test()``: These are tests that run after all nodes have shutdown; it is common to assert that the nodes exited cleanly. | ||
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The launch test is subsequently registered in the ``CMakeLists.txt`` using the custom cmake macro ``add_ros_isolated_launch_test`` which ensures that each launch test runs with a unique ``ROS_DOMAIN_ID``, | ||
avoiding undesired cross communication. | ||
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Related content | ||
--------------- | ||
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* :doc:`Why automatic tests? <../../Intermediate/Testing/Testing-Main>` | ||
* :doc:`C++ unit testing with GTest <../../Intermediate/Testing/Cpp>` | ||
and :doc:`Python unit testing with Pytest <../../Intermediate/Testing/Python>` | ||
* `launch_pytest documentation <https://docs.ros.org/en/{DISTRO}/p/launch_pytest/index.html>`_, | ||
an alternative launch integration testing package to ``launch_testing`` |
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CLI | ||
Cpp | ||
Python | ||
Integration | ||
BuildFarmTesting |