| .. _test-framework: |
| |
| Test Framework |
| ############### |
| |
| The Zephyr Test Framework (Ztest) provides a simple testing framework intended |
| to be used during development. It provides basic assertion macros and a generic |
| test structure. |
| |
| The framework can be used in two ways, either as a generic framework for |
| integration testing, or for unit testing specific modules. |
| |
| To enable support for the latest Ztest API, set |
| :kconfig:option:`CONFIG_ZTEST_NEW_API` to ``y``. There is also a legacy API |
| that is deprecated and will eventually be removed. |
| |
| Creating a test suite |
| ********************* |
| |
| Using Ztest to create a test suite is as easy as calling the :c:macro:`ZTEST_SUITE`. The macro |
| accepts the following arguments: |
| |
| * ``suite_name`` - The name of the suite. This name must be unique within a single binary. |
| * :c:type:`ztest_suite_predicate_t` - An optional predicate function to allow choosing when the |
| test will run. The predicate will get a pointer to the global state passed in through |
| :c:func:`ztest_run_all` and should return a boolean to decide if the suite should run. |
| * :c:type:`ztest_suite_setup_t` - An optional setup function which returns a test fixture. This |
| will be called and run once per test suite run. |
| * :c:type:`ztest_suite_before_t` - An optional before function which will run before every single |
| test in this suite. |
| * :c:type:`ztest_suite_after_t` - An optional after function which will run after every single |
| test in this suite. |
| * :c:type:`ztest_suite_teardown_t` - An optional teardown function which will run at the end of |
| all the tests in the suite. |
| |
| Below is an example of a test suite using a predicate: |
| |
| .. code-block:: C |
| |
| #include <zephyr/ztest.h> |
| #include "test_state.h" |
| |
| static bool predicate(const void *global_state) |
| { |
| return ((const struct test_state*)global_state)->x == 5; |
| } |
| |
| ZTEST_SUITE(alternating_suite, predicate, NULL, NULL, NULL, NULL); |
| |
| Adding tests to a suite |
| *********************** |
| |
| There are 4 macros used to add a test to a suite, they are: |
| |
| * :c:macro:`ZTEST` ``(suite_name, test_name)`` - Which can be used to add a test by ``test_name`` to a |
| given suite by ``suite_name``. |
| * :c:macro:`ZTEST_USER` ``(suite_name, test_name)`` - Which behaves the same as :c:macro:`ZTEST`, only |
| that when :kconfig:option:`CONFIG_USERSPACE` is enabled, then the test will be run in a userspace |
| thread. |
| * :c:macro:`ZTEST_F` ``(suite_name, test_name)`` - Which behaves the same as :c:macro:`ZTEST`, only |
| that the test function will already include a variable named ``fixture`` with the type |
| ``<suite_name>_fixture``. |
| * :c:macro:`ZTEST_USER_F` ``(suite_name, test_name)`` - Which combines the fixture feature of |
| :c:macro:`ZTEST_F` with the userspace threading for the test. |
| |
| Test fixtures |
| ============= |
| |
| Test fixtures can be used to help simplify repeated test setup operations. In many cases, tests in |
| the same suite will require some initial setup followed by some form of reset between each test. |
| This is achieved via fixtures in the following way: |
| |
| .. code-block:: C |
| |
| #include <zephyr/ztest.h> |
| |
| struct my_suite_fixture { |
| size_t max_size; |
| size_t size; |
| uint8_t buff[1]; |
| }; |
| |
| static void *my_suite_setup(void) |
| { |
| /* Allocate the fixture with 256 byte buffer */ |
| struct my_suite_fixture *fixture = malloc(sizeof(struct my_suite_fixture) + 255); |
| |
| zassume_not_null(fixture, NULL); |
| fixture->max_size = 256; |
| |
| return fixture; |
| } |
| |
| static void my_suite_before(void *f) |
| { |
| struct my_suite_fixture *fixture = (struct my_suite_fixture *)f; |
| memset(fixture->buff, 0, fixture->max_size); |
| fixture->size = 0; |
| } |
| |
| static void my_suite_teardown(void *f) |
| { |
| free(f); |
| } |
| |
| ZTEST_SUITE(my_suite, NULL, my_suite_setup, my_suite_before, NULL, my_suite_teardown); |
| |
| ZTEST_F(my_suite, test_feature_x) |
| { |
| zassert_equal(0, fixture->size); |
| zassert_equal(256, fixture->max_size); |
| } |
| |
| Using memory allocated by a test fixture in a userspace thread, such as during execution of |
| :c:macro:`ZTEST_USER` or :c:macro:`ZTEST_USER_F`, requires that memory to be declared userspace |
| accessible. This is because the fixture memory is owned and initialized by kernel space. The Ztest |
| framework provides the :c:macro:`ZTEST_DMEM` and :c:macro:`ZTEST_BMEM` macros for use of such |
| user/kernel space shared memory. |
| |
| Advanced features |
| ***************** |
| |
| Test result expectations |
| ======================== |
| |
| Some tests were made to be broken. In cases where the test is expected to fail or skip due to the |
| nature of the code, it's possible to annotate the test as such. For example: |
| |
| .. code-block:: C |
| |
| #include <zephyr/ztest.h> |
| |
| ZTEST_SUITE(my_suite, NULL, NULL, NULL, NULL, NULL); |
| |
| ZTEST_EXPECT_FAIL(my_suite, test_fail); |
| ZTEST(my_suite, test_fail) |
| { |
| /** This will fail the test */ |
| zassert_true(false, NULL); |
| } |
| |
| ZTEST_EXPECT_SKIP(my_suite, test_skip); |
| ZTEST(my_suite, test_skip) |
| { |
| /** This will skip the test */ |
| zassume_true(false, NULL); |
| } |
| |
| In this example, the above tests should be marked as failed and skipped respectively. Instead, |
| Ztest will mark both as passed due to the expectation. |
| |
| Test rules |
| ========== |
| |
| Test rules are a way to run the same logic for every test and every suite. There are a lot of cases |
| where you might want to reset some state for every test in the binary (regardless of which suite is |
| currently running). As an example, this could be to reset mocks, reset emulators, flush the UART, |
| etc.: |
| |
| .. code-block:: C |
| |
| #include <zephyr/fff.h> |
| #include <zephyr/ztest.h> |
| |
| #include "test_mocks.h" |
| |
| DEFINE_FFF_GLOBALS; |
| |
| DEFINE_FAKE_VOID_FUN(my_weak_func); |
| |
| static void fff_reset_rule_before(const struct ztest_unit_test *test, void *fixture) |
| { |
| ARG_UNUSED(test); |
| ARG_UNUSED(fixture); |
| |
| RESET_FAKE(my_weak_func); |
| } |
| |
| ZTEST_RULE(fff_reset_rule, fff_reset_rule_before, NULL); |
| |
| A custom ``test_main`` |
| ====================== |
| |
| While the Ztest framework provides a default :c:func:`test_main` function, it's possible that some |
| applications will want to provide custom behavior. This is particularly true if there's some global |
| state that the tests depend on and that state either cannot be replicated or is difficult to |
| replicate without starting the process over. For example, one such state could be a power sequence. |
| Assuming there's a board with several steps in the power-on sequence a test suite can be written |
| using the ``predicate`` to control when it would run. In that case, the :c:func:`test_main` |
| function can be written as follows: |
| |
| .. code-block:: C |
| |
| #include <zephyr/ztest.h> |
| |
| #include "my_test.h" |
| |
| void test_main(void) |
| { |
| struct power_sequence_state state; |
| |
| /* Only suites that use a predicate checking for phase == PWR_PHASE_0 will run. */ |
| state.phase = PWR_PHASE_0; |
| ztest_run_all(&state); |
| |
| /* Only suites that use a predicate checking for phase == PWR_PHASE_1 will run. */ |
| state.phase = PWR_PHASE_1; |
| ztest_run_all(&state); |
| |
| /* Only suites that use a predicate checking for phase == PWR_PHASE_2 will run. */ |
| state.phase = PWR_PHASE_2; |
| ztest_run_all(&state); |
| |
| /* Check that all the suites in this binary ran at least once. */ |
| ztest_verify_all_test_suites_ran(); |
| } |
| |
| |
| Quick start - Integration testing |
| ********************************* |
| |
| A simple working base is located at :zephyr_file:`samples/subsys/testsuite/integration`. Just |
| copy the files to ``tests/`` and edit them for your needs. The test will then |
| be automatically built and run by the twister script. If you are testing |
| the **bar** component of **foo**, you should copy the sample folder to |
| ``tests/foo/bar``. It can then be tested with: |
| |
| .. code-block:: console |
| |
| ./scripts/twister -s tests/foo/bar/test-identifier |
| |
| In the example above ``tests/foo/bar`` signifies the path to the test and the |
| ``test-identifier`` references a test defined in the :file:`testcase.yaml` file. |
| |
| To run all tests defined in a test project, run: |
| |
| .. code-block:: console |
| |
| ./scripts/twister -T tests/foo/bar/ |
| |
| The sample contains the following files: |
| |
| CMakeLists.txt |
| |
| .. literalinclude:: ../../../samples/subsys/testsuite/integration/CMakeLists.txt |
| :language: CMake |
| :linenos: |
| |
| testcase.yaml |
| |
| .. literalinclude:: ../../../samples/subsys/testsuite/integration/testcase.yaml |
| :language: yaml |
| :linenos: |
| |
| prj.conf |
| |
| .. literalinclude:: ../../../samples/subsys/testsuite/integration/prj.conf |
| :language: text |
| :linenos: |
| |
| src/main.c (see :ref:`best practices <main_c_bp>`) |
| |
| .. literalinclude:: ../../../samples/subsys/testsuite/integration/src/main.c |
| :language: c |
| :linenos: |
| |
| .. contents:: |
| :depth: 1 |
| :local: |
| :backlinks: top |
| |
| |
| |
| A test case project may consist of multiple sub-tests or smaller tests that |
| either can be testing functionality or APIs. Functions implementing a test |
| should follow the guidelines below: |
| |
| * Test cases function names should be prefix with **test_** |
| * Test cases should be documented using doxygen |
| * Test function names should be unique within the section or component being |
| tested |
| |
| For example: |
| |
| .. code-block:: C |
| |
| /** |
| * @brief Test Asserts |
| * |
| * This test verifies the zassert_true macro. |
| */ |
| ZTEST(my_suite, test_assert) |
| { |
| zassert_true(1, "1 was false"); |
| } |
| |
| Listing Tests |
| ============= |
| |
| Tests (test projects) in the Zephyr tree consist of many testcases that run as |
| part of a project and test similar functionality, for example an API or a |
| feature. The ``twister`` script can parse the testcases in all |
| test projects or a subset of them, and can generate reports on a granular |
| level, i.e. if cases have passed or failed or if they were blocked or skipped. |
| |
| Twister parses the source files looking for test case names, so you |
| can list all kernel test cases, for example, by running: |
| |
| .. code-block:: console |
| |
| twister --list-tests -T tests/kernel |
| |
| Skipping Tests |
| ============== |
| |
| Special- or architecture-specific tests cannot run on all |
| platforms and architectures, however we still want to count those and |
| report them as being skipped. Because the test inventory and |
| the list of tests is extracted from the code, adding |
| conditionals inside the test suite is sub-optimal. Tests that need |
| to be skipped for a certain platform or feature need to explicitly |
| report a skip using :c:func:`ztest_test_skip` or :c:macro:`Z_TEST_SKIP_IFDEF`. If the test runs, |
| it needs to report either a pass or fail. For example: |
| |
| .. code-block:: C |
| |
| #ifdef CONFIG_TEST1 |
| ZTEST(common, test_test1) |
| { |
| zassert_true(1, "true"); |
| } |
| #else |
| ZTEST(common, test_test1) |
| { |
| ztest_test_skip(); |
| } |
| #endif |
| |
| ZTEST(common, test_test2) |
| { |
| Z_TEST_SKIP_IFDEF(CONFIG_BUGxxxxx); |
| zassert_equal(1, 0, NULL); |
| } |
| |
| ZTEST_SUITE(common, NULL, NULL, NULL, NULL, NULL); |
| |
| Quick start - Unit testing |
| ************************** |
| |
| Ztest can be used for unit testing. This means that rather than including the |
| entire Zephyr OS for testing a single function, you can focus the testing |
| efforts into the specific module in question. This will speed up testing since |
| only the module will have to be compiled in, and the tested functions will be |
| called directly. |
| |
| Since you won't be including basic kernel data structures that most code |
| depends on, you have to provide function stubs in the test. Ztest provides |
| some helpers for mocking functions, as demonstrated below. |
| |
| In a unit test, mock objects can simulate the behavior of complex real objects |
| and are used to decide whether a test failed or passed by verifying whether an |
| interaction with an object occurred, and if required, to assert the order of |
| that interaction. |
| |
| Best practices for declaring the test suite |
| =========================================== |
| |
| *twister* and other validation tools need to obtain the list of |
| subcases that a Zephyr *ztest* test image will expose. |
| |
| .. admonition:: Rationale |
| |
| This all is for the purpose of traceability. It's not enough to |
| have only a semaphore test project. We also need to show that we |
| have testpoints for all APIs and functionality, and we trace back |
| to documentation of the API, and functional requirements. |
| |
| The idea is that test reports show results for every sub-testcase |
| as passed, failed, blocked, or skipped. Reporting on only the |
| high-level test project level, particularly when tests do too |
| many things, is too vague. |
| |
| Other questions: |
| |
| - Why not pre-scan with CPP and then parse? or post scan the ELF file? |
| |
| If C pre-processing or building fails because of any issue, then we |
| won't be able to tell the subcases. |
| |
| - Why not declare them in the YAML testcase description? |
| |
| A separate testcase description file would be harder to maintain |
| than just keeping the information in the test source files |
| themselves -- only one file to update when changes are made |
| eliminates duplication. |
| |
| Stress test framework |
| ********************* |
| |
| Zephyr stress test framework (Ztress) provides an environment for executing user |
| functions in multiple priority contexts. It can be used to validate that code is |
| resilient to preemptions. The framework tracks the number of executions and preemptions |
| for each context. Execution can have various completion conditions like timeout, |
| number of executions or number of preemptions. |
| |
| The framework is setting up the environment by creating the requested number of threads |
| (each on different priority), optionally starting a timer. For each context, a user |
| function (different for each context) is called and then the context sleeps for |
| a randomized amount of system ticks. The framework is tracking CPU load and adjusts sleeping |
| periods to achieve higher CPU load. In order to increase the probability of preemptions, |
| the system clock frequency should be relatively high. The default 100 Hz on QEMU x86 |
| is much too low and it is recommended to increase it to 100 kHz. |
| |
| The stress test environment is setup and executed using :c:macro:`ZTRESS_EXECUTE` which |
| accepts a variable number of arguments. Each argument is a context that is |
| specified by :c:macro:`ZTRESS_TIMER` or :c:macro:`ZTRESS_THREAD` macros. Contexts |
| are specified in priority descending order. Each context specifies completion |
| conditions by providing the minimum number of executions and preemptions. When all |
| conditions are met and the execution has completed, an execution report is printed |
| and the macro returns. Note that while the test is executing, a progress report is |
| periodically printed. |
| |
| Execution can be prematurely completed by specifying a test timeout (:c:func:`ztress_set_timeout`) |
| or an explicit abort (:c:func:`ztress_abort`). |
| |
| User function parameters contains an execution counter and a flag indicating if it is |
| the last execution. |
| |
| The example below presents how to setup and run 3 contexts (one of which is k_timer |
| interrupt handler context). Completion criteria is set to at least 10000 executions |
| of each context and 1000 preemptions of the lowest priority context. Additionally, |
| the timeout is configured to complete after 10 seconds if those conditions are not met. |
| The last argument of each context is the initial sleep time which will be adjusted throughout |
| the test to achieve the highest CPU load. |
| |
| .. code-block:: C |
| |
| ztress_set_timeout(K_MSEC(10000)); |
| ZTRESS_EXECUTE(ZTRESS_TIMER(foo_0, user_data_0, 10000, Z_TIMEOUT_TICKS(20)), |
| ZTRESS_THREAD(foo_1, user_data_1, 10000, 0, Z_TIMEOUT_TICKS(20)), |
| ZTRESS_THREAD(foo_2, user_data_2, 10000, 1000, Z_TIMEOUT_TICKS(20))); |
| |
| Configuration |
| ============= |
| |
| Static configuration of Ztress contains: |
| |
| - :c:macro:`ZTRESS_MAX_THREADS` - number of supported threads. |
| - :c:macro:`ZTRESS_STACK_SIZE` - Stack size of created threads. |
| - :c:macro:`ZTRESS_REPORT_PROGRESS_MS` - Test progress report interval. |
| |
| API reference |
| ************* |
| |
| Running tests |
| ============= |
| |
| .. doxygengroup:: ztest_test |
| |
| Assertions |
| ========== |
| |
| These macros will instantly fail the test if the related assertion fails. |
| When an assertion fails, it will print the current file, line and function, |
| alongside a reason for the failure and an optional message. If the config |
| :kconfig:option:`CONFIG_ZTEST_ASSERT_VERBOSE` is 0, the assertions will only print the |
| file and line numbers, reducing the binary size of the test. |
| |
| Example output for a failed macro from |
| ``zassert_equal(buf->ref, 2, "Invalid refcount")``: |
| |
| .. code-block:: none |
| |
| Assertion failed at main.c:62: test_get_single_buffer: Invalid refcount (buf->ref not equal to 2) |
| Aborted at unit test function |
| |
| .. doxygengroup:: ztest_assert |
| |
| |
| Expectations |
| ============ |
| |
| These macros will continue test execution if the related expectation fails and subsequently fail the |
| test at the end of its execution. When an expectation fails, it will print the current file, line, |
| and function, alongside a reason for the failure and an optional message but continue executing the |
| test. If the config :kconfig:option:`CONFIG_ZTEST_ASSERT_VERBOSE` is 0, the expectations will only print the |
| file and line numbers, reducing the binary size of the test. |
| |
| For example, if the following expectations fail: |
| |
| .. code-block:: C |
| |
| zexpect_equal(buf->ref, 2, "Invalid refcount"); |
| zexpect_equal(buf->ref, 1337, "Invalid refcount"); |
| |
| The output will look something like: |
| |
| .. code-block:: none |
| |
| START - test_get_single_buffer |
| Expectation failed at main.c:62: test_get_single_buffer: Invalid refcount (buf->ref not equal to 2) |
| Expectation failed at main.c:63: test_get_single_buffer: Invalid refcount (buf->ref not equal to 1337) |
| FAIL - test_get_single_buffer in 0.0 seconds |
| |
| .. doxygengroup:: ztest_expect |
| |
| Assumptions |
| =========== |
| |
| These macros will instantly skip the test or suite if the related assumption fails. |
| When an assumption fails, it will print the current file, line, and function, |
| alongside a reason for the failure and an optional message. If the config |
| :kconfig:option:`CONFIG_ZTEST_ASSERT_VERBOSE` is 0, the assumptions will only print the |
| file and line numbers, reducing the binary size of the test. |
| |
| Example output for a failed macro from |
| ``zassume_equal(buf->ref, 2, "Invalid refcount")``: |
| |
| .. code-block::none |
| |
| START - test_get_single_buffer |
| Assumption failed at main.c:62: test_get_single_buffer: Invalid refcount (buf->ref not equal to 2) |
| SKIP - test_get_single_buffer in 0.0 seconds |
| |
| .. doxygengroup:: ztest_assume |
| |
| |
| Ztress |
| ====== |
| |
| .. doxygengroup:: ztest_ztress |
| |
| |
| .. _mocking-fff: |
| |
| Mocking via FFF |
| =============== |
| |
| Zephyr has integrated with FFF for mocking. See `FFF`_ for documentation. To use it, |
| include the relevant header: |
| |
| .. code-block:: C |
| |
| #include <zephyr/fff.h> |
| |
| Zephyr provides several FFF-based fake drivers which can be used as either stubs or mocks. Fake |
| driver instances are configured via :ref:`devicetree` and :ref:`kconfig`. See the following |
| devicetree bindings for more information: |
| |
| - :dtcompatible:`zephyr,fake-can` |
| - :dtcompatible:`zephyr,fake-eeprom` |
| |
| Zephyr also has defined extensions to FFF for simplified declarations of fake functions. |
| See :ref:`FFF Extensions <fff-extensions>`. |
| |
| Customizing Test Output |
| *********************** |
| The way output is presented when running tests can be customized. |
| An example can be found in :zephyr_file:`tests/ztest/custom_output`. |
| |
| Customization is enabled by setting :kconfig:option:`CONFIG_ZTEST_TC_UTIL_USER_OVERRIDE` to "y" |
| and adding a file :file:`tc_util_user_override.h` with your overrides. |
| |
| Add the line ``zephyr_include_directories(my_folder)`` to |
| your project's :file:`CMakeLists.txt` to let Zephyr find your header file during builds. |
| |
| See the file :zephyr_file:`subsys/testsuite/include/zephyr/tc_util.h` to see |
| which macros and/or defines can be overridden. |
| These will be surrounded by blocks such as: |
| |
| .. code-block:: C |
| |
| #ifndef SOMETHING |
| #define SOMETHING <default implementation> |
| #endif /* SOMETHING */ |
| |
| .. _ztest_shuffle: |
| |
| Shuffling Test Sequence |
| *********************** |
| By default the tests are sorted and ran in alphanumerical order. Test cases may |
| be dependent on this sequence. Enable :kconfig:option:`CONFIG_ZTEST_SHUFFLE` to |
| randomize the order. The output from the test will display the seed for failed |
| tests. For native posix builds you can provide the seed as an argument to |
| twister with `--seed` |
| |
| Static configuration of ZTEST_SHUFFLE contains: |
| |
| - :kconfig:option:`CONFIG_ZTEST_SHUFFLE_SUITE_REPEAT_COUNT` - Number of iterations the test suite will run. |
| - :kconfig:option:`CONFIG_ZTEST_SHUFFLE_TEST_REPEAT_COUNT` - Number of iterations the test will run. |
| |
| |
| Test Selection |
| ************** |
| For POSIX enabled builds with ZTEST_NEW_API use command line arguments to list |
| or select tests to run. The test argument expects a comma separated list |
| of ``suite::test`` . You can substitute the test name with an ``*`` to run all |
| tests within a suite. |
| |
| For example |
| |
| .. code-block:: bash |
| |
| $ zephyr.exe -list |
| $ zephyr.exe -test="fixture_tests::test_fixture_pointer,framework_tests::test_assert_mem_equal" |
| $ zephyr.exe -test="framework_tests::*" |
| |
| |
| .. _fff-extensions: |
| |
| FFF Extensions |
| ************** |
| |
| .. doxygengroup:: fff_extensions |
| |
| |
| .. _FFF: https://github.com/meekrosoft/fff |