pw_unit_test/docs.rst - platform/external/pigweed - Gitiles

 .. _module-pw_unit_test:

 ------------
 pw_unit_test
 ------------
 ``pw_unit_test`` unit testing library with a `Google Test`_-compatible API,
 built on top of embedded-friendly primitives.

 .. _Google Test: https://github.com/google/googletest/blob/HEAD/docs/primer.md

 ``pw_unit_test`` is a portable library which can run on almost any system from
 bare metal to a full-fledged desktop OS. It does this by offloading the
 responsibility of test reporting and output to the underlying system,
 communicating its results through a common interface. Unit tests can be written
 once and run under many different environments, empowering developers to write
 robust, high quality code.

 ``pw_unit_test`` is still under development and lacks many features expected in
 a complete testing framework; nevertheless, it is already used heavily within
 Pigweed.

 .. note::

   This documentation is currently incomplete.

 Writing unit tests
 ==================

 ``pw_unit_test``'s interface is largely compatible with `Google Test`_. Refer to
 the Google Test documentation for examples of to define unit test cases.

 .. note::

   A lot of Google Test's more advanced features are not yet implemented. To
   request a feature addition, please
   `let us know <mailto:pigweed@googlegroups.com>`_.

 Using the test framework
 ========================

 The EventHandler interface
 ^^^^^^^^^^^^^^^^^^^^^^^^^^
 The ``EventHandler`` class in ``public/pw_unit_test/event_handler.h`` defines
 the interface through which ``pw_unit_test`` communicates the results of its
 test runs. A platform using ``pw_unit_test`` must register an event handler with
 the unit testing framework to receive test output.

 As the framework runs tests, it calls the event handler's callback functions to
 notify the system of various test events. The system can then choose to perform
 any necessary handling or aggregation of these events, and report them back to
 the developer.

 Predefined event handlers
 -------------------------
 Pigweed provides some standard event handlers upstream to simplify the process
 of getting started using ``pw_unit_test``.

 * ``SimplePrintingEventHandler``: An event handler that writes Google Test-style
   output to a specified sink.

   .. code::

     [==========] Running all tests.
     [ RUN      ] Status.Default
     [       OK ] Status.Default
     [ RUN      ] Status.ConstructWithStatusCode
     [       OK ] Status.ConstructWithStatusCode
     [ RUN      ] Status.AssignFromStatusCode
     [       OK ] Status.AssignFromStatusCode
     [ RUN      ] Status.CompareToStatusCode
     [       OK ] Status.CompareToStatusCode
     [ RUN      ] Status.Ok_OkIsTrue
     [       OK ] Status.Ok_OkIsTrue
     [ RUN      ] Status.NotOk_OkIsFalse
     [       OK ] Status.NotOk_OkIsFalse
     [ RUN      ] Status.KnownString
     [       OK ] Status.KnownString
     [ RUN      ] Status.UnknownString
     [       OK ] Status.UnknownString
     [==========] Done running all tests.
     [  PASSED  ] 8 test(s).


 * ``LoggingEventHandler``: An event handler which uses the ``pw_log`` module to
   output test results, to integrate with the system's existing logging setup.

 .. _running-tests:

 Running tests
 ^^^^^^^^^^^^^
 To run unit tests, link the tests into a single binary with the unit testing
 framework, register an event handler, and call the ``RUN_ALL_TESTS`` macro.

 .. code:: cpp

   #include "pw_unit_test/framework.h"
   #include "pw_unit_test/simple_printing_event_handler.h"

   void WriteString(const std::string_view& string, bool newline) {
     printf("%s", string.data());
     if (newline) {
       printf("\n");
     }
   }

   int main() {
     pw::unit_test::SimplePrintingEventHandler handler(WriteString);
     pw::unit_test::RegisterEventHandler(&handler);
     return RUN_ALL_TESTS();
   }

 Test filtering
 ^^^^^^^^^^^^^^
 If using C++17, filters can be set on the test framework to run only a subset of
 the registered unit tests. This is useful when many tests are bundled into a
 single application image.

 Currently, only a test suite filter is supported. This is set by calling
 ``pw::unit_test::SetTestSuitesToRun`` with a list of suite names.

 .. note::
   Test filtering is only supported in C++17.

 Build system integration
 ^^^^^^^^^^^^^^^^^^^^^^^^
 ``pw_unit_test`` integrates directly into Pigweed's GN build system. To define
 simple unit tests, set the ``pw_unit_test_MAIN`` build variable to a target
 which configures the test framework as described in the :ref:`running-tests`
 section, and use the ``pw_test`` template to register your test code.

 .. code::

   import("$dir_pw_unit_test/test.gni")

   pw_test("foo_test") {
     sources = [ "foo_test.cc" ]
   }

 The ``pw_unit_test`` module provides a few optional libraries to simplify setup:

  - ``simple_printing_event_handler``: When running tests, output test results
    as plain text over ``pw_sys_io``.
  - ``simple_printing_main``: Implements a ``main()`` function that simply runs
    tests using the ``simple_printing_event_handler``.
  - ``logging_event_handler``: When running tests, log test results as
    plain text using pw_log (ensure your target has set a ``pw_log`` backend).
  - ``logging_main``: Implements a ``main()`` function that simply runs tests
    using the ``logging_event_handler``.


 pw_test template
 ----------------
 ``pw_test`` defines a single unit test suite. It creates several sub-targets.

 * ``<target_name>``: The test suite within a single binary. The test code is
   linked against the target set in the build arg ``pw_unit_test_MAIN``.
 * ``<target_name>.run``: If ``pw_unit_test_AUTOMATIC_RUNNER`` is set, this
   target runs the test as part of the build.
 * ``<target_name>.lib``: The test sources without ``pw_unit_test_MAIN``.

 **Arguments**

 * All GN executable arguments are accepted and forwarded to the underlying
   ``pw_executable``.
 * ``enable_if``: Boolean indicating whether the test should be built. If false,
   replaces the test with an empty target. Default true.
 * ``test_main``: Target label to add to the tests's dependencies to provide the
   ``main()`` function. Defaults to ``pw_unit_test_MAIN``. Set to ``""`` if
   ``main()`` is implemented in the test's ``sources``.

 **Example**

 .. code::

   import("$dir_pw_unit_test/test.gni")

   pw_test("large_test") {
     sources = [ "large_test.cc" ]
     enable_if = device_has_1m_flash
   }


 pw_test_group template
 ----------------------
 ``pw_test_group`` defines a collection of tests or other test groups. It creates
 several sub-targets:

 * ``<target_name>``: The test group itself.
 * ``<target_name>.run``: If ``pw_unit_test_AUTOMATIC_RUNNER`` is set, this
   target runs all of the tests in the group and all of its group dependencies
   individually.
 * ``<target_name>.lib``: The sources of all of the tests in this group and its
   dependencies.
 * ``<target_name>.bundle``: All of the tests in the group and its dependencies
   bundled into a single binary.
 * ``<target_name>.bundle.run``: Automatic runner for the test bundle.

 **Arguments**

 * ``tests``: List of the ``pw_test`` targets in the group.
 * ``group_deps``: List of other ``pw_test_group`` targets on which this one
   depends.
 * ``enable_if``: Boolean indicating whether the group target should be created.
   If false, an empty GN group is created instead. Default true.

 **Example**

 .. code::

   import("$dir_pw_unit_test/test.gni")

   pw_test_group("tests") {
     tests = [
       ":bar_test",
       ":foo_test",
     ]
   }

   pw_test("foo_test") {
     # ...
   }

   pw_test("bar_test") {
     # ...
   }

 pw_facade_test template
 -----------------------
 Pigweed facade test templates allow individual unit tests to build under the
 current device target configuration while overriding specific build arguments.
 This allows these tests to replace a facade's backend for the purpose of testing
 the facade layer.

 .. warning::
    Facade tests are costly because each facade test will trigger a re-build of
    every dependency of the test. While this sounds excessive, it's the only
    technically correct way to handle this type of test.

 .. warning::
    Some facade test configurations may not be compatible with your target. Be
    careful when running a facade test on a system that heavily depends on the
    facade being tested.

 RPC service
 ===========
 ``pw_unit_test`` provides an RPC service which runs unit tests on demand and
 streams the results back to the client. The service is defined in
 ``pw_unit_test_proto/unit_test.proto``, and implemented by the GN target
 ``$dir_pw_unit_test:rpc_service``.

 To set up RPC-based unit tests in your application, instantiate a
 ``pw::unit_test::UnitTestService`` and register it with your RPC server.

 .. code:: c++

   #include "pw_rpc/server.h"
   #include "pw_unit_test/unit_test_service.h"

   // Server setup; refer to pw_rpc docs for more information.
   pw::rpc::Channel channels[] = {
    pw::rpc::Channel::Create<1>(&my_output),
   };
   pw::rpc::Server server(channels);

   pw::unit_test::UnitTestService unit_test_service;

   void RegisterServices() {
     server.RegisterService(unit_test_services);
   }

 All tests flashed to an attached device can be run via python by calling
 ``pw_unit_test.rpc.run_tests()`` with a RPC client services object that has
 the unit testing RPC service enabled. By default, the results will output via
 logging.

 .. code:: python

   from pw_hdlc.rpc import HdlcRpcClient
   from pw_unit_test.rpc import run_tests

   PROTO = Path(os.environ['PW_ROOT'],
                'pw_unit_test/pw_unit_test_proto/unit_test.proto')

   client = HdlcRpcClient(serial.Serial(device, baud), PROTO)
   run_tests(client.rpcs())

 pw_unit_test.rpc
 ^^^^^^^^^^^^^^^^
 .. automodule:: pw_unit_test.rpc
   :members: EventHandler, run_tests

 Module Configuration Options
 ============================
 The following configurations can be adjusted via compile-time configuration of
 this module.

 .. c:macro:: PW_UNIT_TEST_CONFIG_MEMORY_POOL_SIZE

   The size of the memory pool to use for test fixture instances. By default this
   is set to 16K.
	.. _module-pw_unit_test:

	------------
	pw_unit_test
	------------
	``pw_unit_test`` unit testing library with a `Google Test`_-compatible API,
	built on top of embedded-friendly primitives.

	.. _Google Test: https://github.com/google/googletest/blob/HEAD/docs/primer.md

	``pw_unit_test`` is a portable library which can run on almost any system from
	bare metal to a full-fledged desktop OS. It does this by offloading the
	responsibility of test reporting and output to the underlying system,
	communicating its results through a common interface. Unit tests can be written
	once and run under many different environments, empowering developers to write
	robust, high quality code.

	``pw_unit_test`` is still under development and lacks many features expected in
	a complete testing framework; nevertheless, it is already used heavily within
	Pigweed.

	.. note::

	This documentation is currently incomplete.

	Writing unit tests
	==================

	``pw_unit_test``'s interface is largely compatible with `Google Test`_. Refer to
	the Google Test documentation for examples of to define unit test cases.

	.. note::

	A lot of Google Test's more advanced features are not yet implemented. To
	request a feature addition, please
	`let us know <mailto:pigweed@googlegroups.com>`_.

	Using the test framework
	========================

	The EventHandler interface
	^^^^^^^^^^^^^^^^^^^^^^^^^^
	The ``EventHandler`` class in ``public/pw_unit_test/event_handler.h`` defines
	the interface through which ``pw_unit_test`` communicates the results of its
	test runs. A platform using ``pw_unit_test`` must register an event handler with
	the unit testing framework to receive test output.

	As the framework runs tests, it calls the event handler's callback functions to
	notify the system of various test events. The system can then choose to perform
	any necessary handling or aggregation of these events, and report them back to
	the developer.

	Predefined event handlers
	-------------------------
	Pigweed provides some standard event handlers upstream to simplify the process
	of getting started using ``pw_unit_test``.

	* ``SimplePrintingEventHandler``: An event handler that writes Google Test-style
	output to a specified sink.

	.. code::

	[==========] Running all tests.
	[ RUN ] Status.Default
	[ OK ] Status.Default
	[ RUN ] Status.ConstructWithStatusCode
	[ OK ] Status.ConstructWithStatusCode
	[ RUN ] Status.AssignFromStatusCode
	[ OK ] Status.AssignFromStatusCode
	[ RUN ] Status.CompareToStatusCode
	[ OK ] Status.CompareToStatusCode
	[ RUN ] Status.Ok_OkIsTrue
	[ OK ] Status.Ok_OkIsTrue
	[ RUN ] Status.NotOk_OkIsFalse
	[ OK ] Status.NotOk_OkIsFalse
	[ RUN ] Status.KnownString
	[ OK ] Status.KnownString
	[ RUN ] Status.UnknownString
	[ OK ] Status.UnknownString
	[==========] Done running all tests.
	[ PASSED ] 8 test(s).


	* ``LoggingEventHandler``: An event handler which uses the ``pw_log`` module to
	output test results, to integrate with the system's existing logging setup.

	.. _running-tests:

	Running tests
	^^^^^^^^^^^^^
	To run unit tests, link the tests into a single binary with the unit testing
	framework, register an event handler, and call the ``RUN_ALL_TESTS`` macro.

	.. code:: cpp

	#include "pw_unit_test/framework.h"
	#include "pw_unit_test/simple_printing_event_handler.h"

	void WriteString(const std::string_view& string, bool newline) {
	printf("%s", string.data());
	if (newline) {
	printf("\n");
	}
	}

	int main() {
	pw::unit_test::SimplePrintingEventHandler handler(WriteString);
	pw::unit_test::RegisterEventHandler(&handler);
	return RUN_ALL_TESTS();
	}

	Test filtering
	^^^^^^^^^^^^^^
	If using C++17, filters can be set on the test framework to run only a subset of
	the registered unit tests. This is useful when many tests are bundled into a
	single application image.

	Currently, only a test suite filter is supported. This is set by calling
	``pw::unit_test::SetTestSuitesToRun`` with a list of suite names.

	.. note::
	Test filtering is only supported in C++17.

	Build system integration
	^^^^^^^^^^^^^^^^^^^^^^^^
	``pw_unit_test`` integrates directly into Pigweed's GN build system. To define
	simple unit tests, set the ``pw_unit_test_MAIN`` build variable to a target
	which configures the test framework as described in the :ref:`running-tests`
	section, and use the ``pw_test`` template to register your test code.

	.. code::

	import("$dir_pw_unit_test/test.gni")

	pw_test("foo_test") {
	sources = [ "foo_test.cc" ]
	}

	The ``pw_unit_test`` module provides a few optional libraries to simplify setup:

	- ``simple_printing_event_handler``: When running tests, output test results
	as plain text over ``pw_sys_io``.
	- ``simple_printing_main``: Implements a ``main()`` function that simply runs
	tests using the ``simple_printing_event_handler``.
	- ``logging_event_handler``: When running tests, log test results as
	plain text using pw_log (ensure your target has set a ``pw_log`` backend).
	- ``logging_main``: Implements a ``main()`` function that simply runs tests
	using the ``logging_event_handler``.


	pw_test template
	----------------
	``pw_test`` defines a single unit test suite. It creates several sub-targets.

	* ``<target_name>``: The test suite within a single binary. The test code is
	linked against the target set in the build arg ``pw_unit_test_MAIN``.
	* ``<target_name>.run``: If ``pw_unit_test_AUTOMATIC_RUNNER`` is set, this
	target runs the test as part of the build.
	* ``<target_name>.lib``: The test sources without ``pw_unit_test_MAIN``.

	Arguments

	* All GN executable arguments are accepted and forwarded to the underlying
	``pw_executable``.
	* ``enable_if``: Boolean indicating whether the test should be built. If false,
	replaces the test with an empty target. Default true.
	* ``test_main``: Target label to add to the tests's dependencies to provide the
	``main()`` function. Defaults to ``pw_unit_test_MAIN``. Set to ``""`` if
	``main()`` is implemented in the test's ``sources``.

	Example

	.. code::

	import("$dir_pw_unit_test/test.gni")

	pw_test("large_test") {
	sources = [ "large_test.cc" ]
	enable_if = device_has_1m_flash
	}


	pw_test_group template
	----------------------
	``pw_test_group`` defines a collection of tests or other test groups. It creates
	several sub-targets:

	* ``<target_name>``: The test group itself.
	* ``<target_name>.run``: If ``pw_unit_test_AUTOMATIC_RUNNER`` is set, this
	target runs all of the tests in the group and all of its group dependencies
	individually.
	* ``<target_name>.lib``: The sources of all of the tests in this group and its
	dependencies.
	* ``<target_name>.bundle``: All of the tests in the group and its dependencies
	bundled into a single binary.
	* ``<target_name>.bundle.run``: Automatic runner for the test bundle.

	Arguments

	* ``tests``: List of the ``pw_test`` targets in the group.
	* ``group_deps``: List of other ``pw_test_group`` targets on which this one
	depends.
	* ``enable_if``: Boolean indicating whether the group target should be created.
	If false, an empty GN group is created instead. Default true.

	Example

	.. code::

	import("$dir_pw_unit_test/test.gni")

	pw_test_group("tests") {
	tests = [
	":bar_test",
	":foo_test",
	]
	}

	pw_test("foo_test") {
	# ...
	}

	pw_test("bar_test") {
	# ...
	}

	pw_facade_test template
	-----------------------
	Pigweed facade test templates allow individual unit tests to build under the
	current device target configuration while overriding specific build arguments.
	This allows these tests to replace a facade's backend for the purpose of testing
	the facade layer.

	.. warning::
	Facade tests are costly because each facade test will trigger a re-build of
	every dependency of the test. While this sounds excessive, it's the only
	technically correct way to handle this type of test.

	.. warning::
	Some facade test configurations may not be compatible with your target. Be
	careful when running a facade test on a system that heavily depends on the
	facade being tested.

	RPC service
	===========
	``pw_unit_test`` provides an RPC service which runs unit tests on demand and
	streams the results back to the client. The service is defined in
	``pw_unit_test_proto/unit_test.proto``, and implemented by the GN target
	``$dir_pw_unit_test:rpc_service``.

	To set up RPC-based unit tests in your application, instantiate a
	``pw::unit_test::UnitTestService`` and register it with your RPC server.

	.. code:: c++

	#include "pw_rpc/server.h"
	#include "pw_unit_test/unit_test_service.h"

	// Server setup; refer to pw_rpc docs for more information.
	pw::rpc::Channel channels[] = {
	pw::rpc::Channel::Create<1>(&my_output),
	};
	pw::rpc::Server server(channels);

	pw::unit_test::UnitTestService unit_test_service;

	void RegisterServices() {
	server.RegisterService(unit_test_services);
	}

	All tests flashed to an attached device can be run via python by calling
	``pw_unit_test.rpc.run_tests()`` with a RPC client services object that has
	the unit testing RPC service enabled. By default, the results will output via
	logging.

	.. code:: python

	from pw_hdlc.rpc import HdlcRpcClient
	from pw_unit_test.rpc import run_tests

	PROTO = Path(os.environ['PW_ROOT'],
	'pw_unit_test/pw_unit_test_proto/unit_test.proto')

	client = HdlcRpcClient(serial.Serial(device, baud), PROTO)
	run_tests(client.rpcs())

	pw_unit_test.rpc
	^^^^^^^^^^^^^^^^
	.. automodule:: pw_unit_test.rpc
	:members: EventHandler, run_tests

	Module Configuration Options
	============================
	The following configurations can be adjusted via compile-time configuration of
	this module.

	.. c:macro:: PW_UNIT_TEST_CONFIG_MEMORY_POOL_SIZE

	The size of the memory pool to use for test fixture instances. By default this
	is set to 16K.