| .. _twister_script: |
| |
| Test Runner (Twister) |
| ##################### |
| |
| Twister scans for the set of test applications in the git repository |
| and attempts to execute them. By default, it tries to build each test |
| application on boards marked as default in the board definition file. |
| |
| The default options will build the majority of the test applications on a |
| defined set of boards and will run in an emulated environment if available for |
| the architecture or configuration being tested. |
| |
| Because of the limited test execution coverage, twister |
| cannot guarantee local changes will succeed in the full build |
| environment, but it does sufficient testing by building samples and |
| tests for different boards and different configurations to help keep the |
| complete code tree buildable. |
| |
| When using (at least) one ``-v`` option, twister's console output |
| shows for every test application how the test is run (qemu, native_sim, etc.) or |
| whether the binary was just built. The resultant |
| :ref:`status <twister_statuses>` |
| of a test is likewise reported in the ``twister.json`` and other report files. |
| There are a few reasons why twister only builds a test and doesn't run it: |
| |
| - The test is marked as ``build_only: true`` in its ``.yaml`` |
| configuration file. |
| - The test configuration has defined a ``harness`` but you don't have |
| it or haven't set it up. |
| - The target device is not connected and not available for flashing |
| - You or some higher level automation invoked twister with |
| ``--build-only``. |
| |
| To run the script in the local tree, follow the steps below: |
| |
| .. tabs:: |
| |
| .. group-tab:: Linux |
| |
| .. code-block:: bash |
| |
| $ source zephyr-env.sh |
| $ ./scripts/twister |
| |
| .. group-tab:: Windows |
| |
| .. code-block:: bat |
| |
| zephyr-env.cmd |
| python .\scripts\twister |
| |
| |
| If you have a system with a large number of cores and plenty of free storage space, |
| you can build and run all possible tests using the following options: |
| |
| .. tabs:: |
| |
| .. group-tab:: Linux |
| |
| .. code-block:: bash |
| |
| $ ./scripts/twister --all --enable-slow |
| |
| .. group-tab:: Windows |
| |
| .. code-block:: bat |
| |
| python .\scripts\twister --all --enable-slow |
| |
| This will build for all available boards and run all applicable tests in |
| a simulated (for example QEMU) environment. |
| |
| If you want to run tests on one or more specific platforms, you can use |
| the ``--platform`` option, it is a platform filter for testing, with this |
| option, test suites will only be built/run on the platforms specified. |
| This option also supports different revisions of one same board, |
| you can use ``--platform board@revision`` to test on a specific revision. |
| |
| The list of command line options supported by twister can be viewed using: |
| |
| .. tabs:: |
| |
| .. group-tab:: Linux |
| |
| .. code-block:: bash |
| |
| $ ./scripts/twister --help |
| |
| .. group-tab:: Windows |
| |
| .. code-block:: bat |
| |
| python .\scripts\twister --help |
| |
| |
| Board Configuration |
| ******************* |
| |
| To build tests for a specific board and to execute some of the tests on real |
| hardware or in an emulation environment such as QEMU a board configuration file |
| is required which is generic enough to be used for other tasks that require a |
| board inventory with details about the board and its configuration that is only |
| available during build time otherwise. |
| |
| The board metadata file is located in the board directory and is structured |
| using the YAML markup language. The example below shows a board with a data |
| required for best test coverage for this specific board: |
| |
| .. code-block:: yaml |
| |
| identifier: frdm_k64f |
| name: NXP FRDM-K64F |
| type: mcu |
| arch: arm |
| toolchain: |
| - zephyr |
| - gnuarmemb |
| - xtools |
| supported: |
| - arduino_gpio |
| - arduino_i2c |
| - netif:eth |
| - adc |
| - i2c |
| - nvs |
| - spi |
| - gpio |
| - usb_device |
| - watchdog |
| - can |
| - pwm |
| testing: |
| default: true |
| |
| |
| identifier: |
| A string that matches how the board is defined in the build system. This same |
| string is used when building, for example when calling ``west build`` or |
| ``cmake``: |
| |
| .. code-block:: console |
| |
| # with west |
| west build -b reel_board |
| # with cmake |
| cmake -DBOARD=reel_board .. |
| |
| name: |
| The actual name of the board as it appears in marketing material. |
| type: |
| Type of the board or configuration, currently we support 2 types: mcu, qemu |
| simulation: |
| Simulator used to simulate the platform, e.g. qemu. |
| arch: |
| Architecture of the board |
| toolchain: |
| The list of supported toolchains that can build this board. This should match |
| one of the values used for :envvar:`ZEPHYR_TOOLCHAIN_VARIANT` when building on the command line |
| ram: |
| Available RAM on the board (specified in KB). This is used to match test scenario |
| requirements. If not specified we default to 128KB. |
| flash: |
| Available FLASH on the board (specified in KB). This is used to match test scenario |
| requirements. If not specified we default to 512KB. |
| supported: |
| A list of features this board supports. This can be specified as a single word |
| feature or as a variant of a feature class. For example: |
| |
| .. code-block:: yaml |
| |
| supported: |
| - pci |
| |
| This indicates the board does support PCI. You can make a test scenario build or |
| run only on such boards, or: |
| |
| .. code-block:: yaml |
| |
| supported: |
| - netif:eth |
| - sensor:bmi16 |
| |
| A test scenario can depend on 'eth' to only test ethernet or on 'netif' to run |
| on any board with a networking interface. |
| |
| testing: |
| testing relating keywords to provide best coverage for the features of this |
| board. |
| |
| .. _twister_default_testing_board: |
| |
| binaries: |
| A list of custom binaries to be kept for device testing. |
| default: [True|False]: |
| This is a default board, it will tested with the highest priority and is |
| covered when invoking the simplified twister without any additional |
| arguments. |
| ignore_tags: |
| Do not attempt to build (and therefore run) tests marked with this list of |
| tags. |
| only_tags: |
| Only execute tests with this list of tags on a specific platform. |
| |
| .. _twister_board_timeout_multiplier: |
| |
| timeout_multiplier: <float> (default 1) |
| Multiply each test scenario timeout by specified ratio. This option allows to tune timeouts only |
| for required platform. It can be useful in case naturally slow platform I.e.: HW board with |
| power-efficient but slow CPU or simulation platform which can perform instruction accurate |
| simulation but does it slowly. |
| |
| env: |
| A list of environment variables. Twister will check if all these environment variables are set, |
| and otherwise skip this platform. This allows the user to define a platform which should be |
| used, for example, only if some required software or hardware is present, and to signal that |
| presence to twister using these environment variables. |
| |
| .. _twister_tests_long_version: |
| |
| Tests |
| ****** |
| |
| Tests are detected by the presence of a ``testcase.yaml`` or a ``sample.yaml`` |
| files in the application's project directory. This test application |
| configuration file may contain one or more entries in the tests section each |
| identifying a test scenario. |
| |
| .. _twister_test_project_diagram: |
| |
| .. figure:: figures/twister_test_project.svg |
| :alt: Twister and a Test applications' project. |
| :figclass: align-center |
| |
| Twister and a Test applications' project. |
| |
| |
| Test application configurations are written using the YAML syntax and share the |
| same structure as samples. |
| |
| A test scenario is a set of conditions or variables, defined in test scenario |
| entry, under which a set of test suites will be executed. Can be used |
| interchangeably with test scenario entry. |
| |
| A test suite is a collection of test cases that are intended to be used to test |
| a software program to ensure it meets certain requirements. The test cases in a |
| test suite are often related or meant to be executed together. |
| |
| The name of each test scenario needs to be unique in the context of the overall |
| test application and has to follow basic rules: |
| |
| #. The format of the test scenario identifier shall be a string without any spaces or |
| special characters (allowed characters: alphanumeric and [\_=]) consisting |
| of multiple sections delimited with a dot (.). |
| |
| #. Each test scenario identifier shall start with a section followed by a |
| subsection separated by a dot. For example, a test scenario that covers |
| semaphores in the kernel shall start with ``kernel.semaphore``. |
| |
| #. All test scenario identifiers within a ``testcase.yaml`` file need to be unique. For |
| example a ``testcase.yaml`` file covering semaphores in the kernel can have: |
| |
| * ``kernel.semaphore``: For general semaphore tests |
| * ``kernel.semaphore.stress``: Stress testing semaphores in the kernel. |
| |
| #. Depending on the nature of the test, an identifier can consist of at least |
| two sections: |
| |
| * Ztest tests: The individual test cases in the ztest testsuite will be |
| concatenated by dot (``.``) to the identifier in the ``testcase.yaml`` file |
| generating unique identifiers for every test case in the suite. |
| |
| * Standalone tests and samples: This type of test should at least have 3 |
| sections concatnated by dot (``.``) in the test scenario identifier in the |
| ``testcase.yaml`` (or ``sample.yaml``) file. |
| The last section of the name shall signify the test case itself. |
| |
| |
| The following is an example test configuration with a few options that are |
| explained in this document. |
| |
| |
| .. code-block:: yaml |
| |
| tests: |
| bluetooth.gatt: |
| build_only: true |
| platform_allow: qemu_cortex_m3 qemu_x86 |
| tags: bluetooth |
| bluetooth.gatt.br: |
| build_only: true |
| extra_args: CONF_FILE="prj_br.conf" |
| filter: not CONFIG_DEBUG |
| platform_exclude: up_squared |
| platform_allow: qemu_cortex_m3 qemu_x86 |
| tags: bluetooth |
| |
| |
| A sample with tests will have the same structure with additional information |
| related to the sample and what is being demonstrated: |
| |
| .. code-block:: yaml |
| |
| sample: |
| name: hello world |
| description: Hello World sample, the simplest Zephyr application |
| tests: |
| sample.basic.hello_world: |
| build_only: true |
| tags: tests |
| min_ram: 16 |
| sample.basic.hello_world.singlethread: |
| build_only: true |
| extra_args: CONF_FILE=prj_single.conf |
| filter: not CONFIG_BT |
| tags: tests |
| min_ram: 16 |
| |
| The full canonical name for each test scenario is:``<path to test application>/<test scenario identifier>`` |
| |
| A test scenario entry is a a block or entry starting with test scenario |
| identifier in the YAML files. |
| |
| Each test scenario entry in the test application configuration can define the |
| following key/value pairs: |
| |
| .. _test_config_args: |
| |
| tags: <list of tags> (required) |
| A set of string tags for the test scenario. Usually pertains to |
| functional domains but can be anything. Command line invocations |
| of this script can filter the set of tests to run based on tag. |
| |
| skip: <True|False> (default False) |
| skip test scenario unconditionally. This can be used for broken tests for |
| example. |
| |
| slow: <True|False> (default False) |
| Don't run this test scenario unless ``--enable-slow`` or ``--enable-slow-only`` was |
| passed in on the command line. Intended for time-consuming test scenarios that |
| are only run under certain circumstances, like daily builds. These test |
| scenarios are still compiled. |
| |
| extra_args: <list of extra arguments> |
| Extra arguments to pass to build tool when building or running the |
| test scenario. |
| |
| Using namespacing, it is possible to apply extra_args only to some |
| hardware. Currently architectures/platforms/simulation are supported: |
| |
| .. code-block:: yaml |
| |
| common: |
| tags: drivers adc |
| tests: |
| test: |
| depends_on: adc |
| test_async: |
| extra_args: |
| - arch:x86:CONFIG_ADC_ASYNC=y |
| - platform:qemu_x86:CONFIG_DEBUG=y |
| - platform:mimxrt1060_evk:SHIELD=rk043fn66hs_ctg |
| - simulation:qemu:CONFIG_MPU=y |
| |
| extra_configs: <list of extra configurations> |
| Extra configuration options to be merged with a main prj.conf |
| when building or running the test scenario. For example: |
| |
| .. code-block:: yaml |
| |
| common: |
| tags: drivers adc |
| tests: |
| test: |
| depends_on: adc |
| test_async: |
| extra_configs: |
| - CONFIG_ADC_ASYNC=y |
| |
| Using namespacing, it is possible to apply a configuration only to some |
| hardware. Currently both architectures and platforms are supported: |
| |
| .. code-block:: yaml |
| |
| common: |
| tags: drivers adc |
| tests: |
| test: |
| depends_on: adc |
| test_async: |
| extra_configs: |
| - arch:x86:CONFIG_ADC_ASYNC=y |
| - platform:qemu_x86:CONFIG_DEBUG=y |
| |
| |
| build_only: <True|False> (default False) |
| If true, twister will not try to run the test even if the test is runnable |
| on the platform. |
| |
| This keyword is reserved for tests that are used to test if some code |
| actually builds. A ``build_only`` test is not designed to be run in any |
| environment and should not be testing any functionality, it only verifies |
| that the code builds. |
| |
| This option is often used to test drivers and the fact that they are correctly |
| enabled in Zephyr and that the code builds, for example sensor drivers. Such |
| test shall not be used to verify the functionality of the driver. |
| |
| build_on_all: <True|False> (default False) |
| If true, attempt to build test scenario on all available platforms. This is mostly |
| used in CI for increased coverage. Do not use this flag in new tests. |
| |
| depends_on: <list of features> |
| A board or platform can announce what features it supports, this option |
| will enable the test only those platforms that provide this feature. |
| |
| levels: <list of levels> |
| Test levels this test should be part of. If a level is present, this |
| test will be selectable using the command line option ``--level <level name>`` |
| |
| min_ram: <integer> |
| estimated minimum amount of RAM in KB needed for this test to build and run. This is |
| compared with information provided by the board metadata. |
| |
| min_flash: <integer> |
| estimated minimum amount of ROM in KB needed for this test to build and run. This is |
| compared with information provided by the board metadata. |
| |
| .. _twister_test_case_timeout: |
| |
| timeout: <number of seconds> |
| Length of time to run test before automatically killing it. |
| Default to 60 seconds. |
| |
| arch_allow: <list of arches, such as x86, arm, arc> |
| Set of architectures that this test scenario should only be run for. |
| |
| arch_exclude: <list of arches, such as x86, arm, arc> |
| Set of architectures that this test scenario should not run on. |
| |
| platform_allow: <list of platforms> |
| Set of platforms that this test scenario should only be run for. Do not use |
| this option to limit testing or building in CI due to time or resource |
| constraints, this option should only be used if the test or sample can |
| only be run on the allowed platform and nothing else. |
| |
| integration_platforms: <YML list of platforms/boards> |
| This option limits the scope to the listed platforms when twister is |
| invoked with the ``--integration`` option. Use this instead of |
| platform_allow if the goal is to limit scope due to timing or |
| resource constraints. |
| |
| platform_exclude: <list of platforms> |
| Set of platforms that this test scenario should not run on. |
| |
| extra_sections: <list of extra binary sections> |
| When computing sizes, twister will report errors if it finds |
| extra, unexpected sections in the Zephyr binary unless they are named |
| here. They will not be included in the size calculation. |
| |
| sysbuild: <True|False> (default False) |
| Build the project using sysbuild infrastructure. Only the main project's |
| generated devicetree and Kconfig will be used for filtering tests. |
| on device testing must use the hardware map, or west flash to load |
| the images onto the target. The ``--erase`` option of west flash is |
| not supported with this option. Usage of unsupported options will result |
| in tests requiring sysbuild support being skipped. |
| |
| harness: <string> |
| A harness keyword in the ``testcase.yaml`` file identifies a Twister |
| harness needed to run a test successfully. A harness is a feature of |
| Twister and implemented by Twister, some harnesses are defined as |
| placeholders and have no implementation yet. |
| |
| A harness can be seen as the handler that needs to be implemented in |
| Twister to be able to evaluate if a test passes criteria. For example, a |
| keyboard harness is set on tests that require keyboard interaction to reach |
| verdict on whether a test has passed or failed, however, Twister lack this |
| harness implementation at the moment. |
| |
| Supported harnesses: |
| |
| - ztest |
| - test |
| - console |
| - pytest |
| - gtest |
| - robot |
| |
| Harnesses ``ztest``, ``gtest`` and ``console`` are based on parsing of the |
| output and matching certain phrases. ``ztest`` and ``gtest`` harnesses look |
| for pass/fail/etc. frames defined in those frameworks. Use ``gtest`` |
| harness if you've already got tests written in the gTest framework and do |
| not wish to update them to zTest. The ``console`` harness tells Twister to |
| parse a test's text output for a regex defined in the test's YAML file. |
| The ``robot`` harness is used to execute Robot Framework test suites |
| in the Renode simulation framework. |
| |
| Some widely used harnesses that are not supported yet: |
| |
| - keyboard |
| - net |
| - bluetooth |
| |
| Harness ``bsim`` is implemented in limited way - it helps only to copy the |
| final executable (``zephyr.exe``) from build directory to BabbleSim's |
| ``bin`` directory (``${BSIM_OUT_PATH}/bin``). This action is useful to allow |
| BabbleSim's tests to directly run after. By default, the executable file |
| name is (with dots and slashes replaced by underscores): |
| ``bs_<platform_name>_<test_path>_<test_scenario_name>``. |
| This name can be overridden with the ``bsim_exe_name`` option in |
| ``harness_config`` section. |
| |
| platform_key: <list of platform attributes> |
| Often a test needs to only be built and run once to qualify as passing. |
| Imagine a library of code that depends on the platform architecture where |
| passing the test on a single platform for each arch is enough to qualify the |
| tests and code as passing. The platform_key attribute enables doing just |
| that. |
| |
| For example to key on (arch, simulation) to ensure a test is run once |
| per arch and simulation (as would be most common): |
| |
| .. code-block:: yaml |
| |
| platform_key: |
| - arch |
| - simulation |
| |
| Adding platform (board) attributes to include things such as soc name, |
| soc family, and perhaps sets of IP blocks implementing each peripheral |
| interface would enable other interesting uses. For example, this could enable |
| building and running SPI tests once for each unique IP block. |
| |
| harness_config: <harness configuration options> |
| Extra harness configuration options to be used to select a board and/or |
| for handling generic Console with regex matching. Config can announce |
| what features it supports. This option will enable the test to run on |
| only those platforms that fulfill this external dependency. |
| |
| The following options are currently supported: |
| |
| type: <one_line|multi_line> (required) |
| Depends on the regex string to be matched |
| |
| regex: <list of regular expressions> (required) |
| Strings with regular expressions to match with the test's output |
| to confirm the test runs as expected. |
| |
| ordered: <True|False> (default False) |
| Check the regular expression strings in orderly or randomly fashion |
| |
| record: <recording options> (optional) |
| regex: <regular expression> (required) |
| The regular expression with named subgroups to match data fields |
| at the test's output lines where the test provides some custom data |
| for further analysis. These records will be written into the build |
| directory ``recording.csv`` file as well as ``recording`` property |
| of the test suite object in ``twister.json``. |
| |
| For example, to extract three data fields ``metric``, ``cycles``, |
| ``nanoseconds``: |
| |
| .. code-block:: yaml |
| |
| record: |
| regex: "(?P<metric>.*):(?P<cycles>.*) cycles, (?P<nanoseconds>.*) ns" |
| |
| as_json: <list of regex subgroup names> (optional) |
| Data fields, extracted by the regular expression into named subgroups, |
| which will be additionally parsed as JSON encoded strings and written |
| into ``twister.json`` as nested ``recording`` object properties. |
| The corresponding ``recording.csv`` columns will contain strings as-is. |
| |
| Using this option, a test log can convey layered data structures |
| passed from the test image for further analysis with summary results, |
| traces, statistics, etc. |
| |
| For example, this configuration: |
| |
| .. code-block:: yaml |
| |
| record: |
| regex: "RECORD:(?P<type>.*):DATA:(?P<metrics>.*)" |
| as_json: [metrics] |
| |
| when matched to a test log string: |
| |
| .. code-block:: none |
| |
| RECORD:jitter_drift:DATA:{"rollovers":0, "mean_us":1000.0} |
| |
| will be reported in ``twister.json`` as: |
| |
| .. code-block:: json |
| |
| "recording":[ |
| { |
| "type":"jitter_drift", |
| "metrics":{ |
| "rollovers":0, |
| "mean_us":1000.0 |
| } |
| } |
| ] |
| |
| fixture: <expression> |
| Specify a test scenario dependency on an external device(e.g., sensor), |
| and identify setups that fulfill this dependency. It depends on |
| specific test setup and board selection logic to pick the particular |
| board(s) out of multiple boards that fulfill the dependency in an |
| automation setup based on ``fixture`` keyword. Some sample fixture names |
| are i2c_hts221, i2c_bme280, i2c_FRAM, ble_fw and gpio_loop. |
| |
| Only one fixture can be defined per test scenario and the fixture name has to |
| be unique across all tests in the test suite. |
| |
| .. _pytest_root: |
| |
| pytest_root: <list of pytest testpaths> (default pytest) |
| Specify a list of pytest directories, files or subtests that need to be |
| executed when a test scenario begins to run. The default pytest directory is |
| ``pytest``. After the pytest run is finished, Twister will check if |
| the test scenario passed or failed according to the pytest report. |
| As an example, a list of valid pytest roots is presented below: |
| |
| .. code-block:: yaml |
| |
| harness_config: |
| pytest_root: |
| - "pytest/test_shell_help.py" |
| - "../shell/pytest/test_shell.py" |
| - "/tmp/test_shell.py" |
| - "~/tmp/test_shell.py" |
| - "$ZEPHYR_BASE/samples/subsys/testsuite/pytest/shell/pytest/test_shell.py" |
| - "pytest/test_shell_help.py::test_shell2_sample" # select pytest subtest |
| - "pytest/test_shell_help.py::test_shell2_sample[param_a]" # select pytest parametrized subtest |
| |
| .. _pytest_args: |
| |
| pytest_args: <list of arguments> (default empty) |
| Specify a list of additional arguments to pass to ``pytest`` e.g.: |
| ``pytest_args: [‘-k=test_method’, ‘--log-level=DEBUG’]``. Note that |
| ``--pytest-args`` can be passed multiple times to pass several arguments |
| to the pytest. |
| |
| .. _pytest_dut_scope: |
| |
| pytest_dut_scope: <function|class|module|package|session> (default function) |
| The scope for which ``dut`` and ``shell`` pytest fixtures are shared. |
| If the scope is set to ``function``, DUT is launched for every test case |
| in python script. For ``session`` scope, DUT is launched only once. |
| |
| robot_testsuite: <robot file path> (default empty) |
| Specify one or more paths to a file containing a Robot Framework test suite to be run. |
| |
| robot_option: <robot option> (default empty) |
| One or more options to be send to robotframework. |
| |
| bsim_exe_name: <string> |
| If provided, the executable filename when copying to BabbleSim's bin |
| directory, will be ``bs_<platform_name>_<bsim_exe_name>`` instead of the |
| default based on the test path and scenario name. |
| |
| The following is an example yaml file with a few harness_config options. |
| |
| .. code-block:: yaml |
| |
| sample: |
| name: HTS221 Temperature and Humidity Monitor |
| common: |
| tags: sensor |
| harness: console |
| harness_config: |
| type: multi_line |
| ordered: false |
| regex: |
| - "Temperature:(.*)C" |
| - "Relative Humidity:(.*)%" |
| fixture: i2c_hts221 |
| tests: |
| test: |
| tags: sensors |
| depends_on: i2c |
| |
| The following is an example yaml file with pytest harness_config options, |
| default pytest_root name "pytest" will be used if pytest_root not specified. |
| please refer the examples in samples/subsys/testsuite/pytest/. |
| |
| .. code-block:: yaml |
| |
| common: |
| harness: pytest |
| tests: |
| pytest.example.directories: |
| harness_config: |
| pytest_root: |
| - pytest_dir1 |
| - $ENV_VAR/samples/test/pytest_dir2 |
| pytest.example.files_and_subtests: |
| harness_config: |
| pytest_root: |
| - pytest/test_file_1.py |
| - test_file_2.py::test_A |
| - test_file_2.py::test_B[param_a] |
| |
| The following is an example yaml file with robot harness_config options. |
| |
| .. code-block:: yaml |
| |
| tests: |
| robot.example: |
| harness: robot |
| harness_config: |
| robot_testsuite: [robot file path] |
| |
| It can be more than one test suite using a list. |
| |
| .. code-block:: yaml |
| |
| tests: |
| robot.example: |
| harness: robot |
| harness_config: |
| robot_testsuite: |
| - [robot file path 1] |
| - [robot file path 2] |
| - [robot file path n] |
| |
| One or more options can be passed to robotframework. |
| |
| .. code-block:: yaml |
| |
| tests: |
| robot.example: |
| harness: robot |
| harness_config: |
| robot_testsuite: [robot file path] |
| robot_option: |
| - --exclude tag |
| - --stop-on-error |
| |
| filter: <expression> |
| Filter whether the test scenario should be run by evaluating an expression |
| against an environment containing the following values: |
| |
| .. code-block:: none |
| |
| { ARCH : <architecture>, |
| PLATFORM : <platform>, |
| <all CONFIG_* key/value pairs in the test's generated defconfig>, |
| *<env>: any environment variable available |
| } |
| |
| Twister will first evaluate the expression to find if a "limited" cmake call, i.e. using package_helper cmake script, |
| can be done. Existence of "dt_*" entries indicates devicetree is needed. |
| Existence of "CONFIG*" entries indicates kconfig is needed. |
| If there are no other types of entries in the expression a filtration can be done without creating a complete build system. |
| If there are entries of other types a full cmake is required. |
| |
| The grammar for the expression language is as follows: |
| |
| .. code-block:: antlr |
| |
| expression : expression 'and' expression |
| | expression 'or' expression |
| | 'not' expression |
| | '(' expression ')' |
| | symbol '==' constant |
| | symbol '!=' constant |
| | symbol '<' NUMBER |
| | symbol '>' NUMBER |
| | symbol '>=' NUMBER |
| | symbol '<=' NUMBER |
| | symbol 'in' list |
| | symbol ':' STRING |
| | symbol |
| ; |
| |
| list : '[' list_contents ']'; |
| |
| list_contents : constant (',' constant)*; |
| |
| constant : NUMBER | STRING; |
| |
| For the case where ``expression ::= symbol``, it evaluates to ``true`` |
| if the symbol is defined to a non-empty string. |
| |
| Operator precedence, starting from lowest to highest: |
| |
| * or (left associative) |
| * and (left associative) |
| * not (right associative) |
| * all comparison operators (non-associative) |
| |
| ``arch_allow``, ``arch_exclude``, ``platform_allow``, ``platform_exclude`` |
| are all syntactic sugar for these expressions. For instance: |
| |
| .. code-block:: none |
| |
| arch_exclude = x86 arc |
| |
| Is the same as: |
| |
| .. code-block:: none |
| |
| filter = not ARCH in ["x86", "arc"] |
| |
| The ``:`` operator compiles the string argument as a regular expression, |
| and then returns a true value only if the symbol's value in the environment |
| matches. For example, if ``CONFIG_SOC="stm32f107xc"`` then |
| |
| .. code-block:: none |
| |
| filter = CONFIG_SOC : "stm.*" |
| |
| Would match it. |
| |
| required_snippets: <list of needed snippets> |
| :ref:`Snippets <snippets>` are supported in twister for test scenarios that |
| require them. As with normal applications, twister supports using the base |
| zephyr snippet directory and test application directory for finding |
| snippets. Listed snippets will filter supported tests for boards (snippets |
| must be compatible with a board for the test to run on them, they are not |
| optional). |
| |
| The following is an example yaml file with 2 required snippets. |
| |
| .. code-block:: yaml |
| |
| tests: |
| snippet.example: |
| required_snippets: |
| - cdc-acm-console |
| - user-snippet-example |
| |
| The set of test scenarios that actually run depends on directives in the test scenario |
| filed and options passed in on the command line. If there is any confusion, |
| running with ``-v`` or examining the discard report |
| (:file:`twister_discard.csv`) can help show why particular test scenarios were |
| skipped. |
| |
| Metrics (such as pass/fail state and binary size) for the last code |
| release are stored in ``scripts/release/twister_last_release.csv``. |
| To update this, pass the ``--all --release`` options. |
| |
| To load arguments from a file, add ``+`` before the file name, e.g., |
| ``+file_name``. File content must be one or more valid arguments separated by |
| line break instead of white spaces. |
| |
| Most everyday users will run with no arguments. |
| |
| Selecting platform scope |
| ************************ |
| |
| One of the key features of Twister is its ability to decide on which platforms a given |
| test scenario should run. This behavior has its roots in Twister being developed as |
| a test runner for Zephyr's CI. With hundreds of available platforms and thousands of |
| tests, the testing tools should be able to adapt the scope and select/filter out what |
| is relevant and what is not. |
| |
| Twister always prepares an initial list of platforms in scope for a given test, |
| based on command line arguments and the :ref:`test's configuration <test_config_args>`. Then, |
| platforms that don't fulfill the conditions required in the configuration yaml |
| (e.g. minimum ram) are filtered out from the scope. |
| Using ``--force-platform`` allows to override filtering caused by ``platform_allow``, |
| ``platform_exclude``, ``arch_allow`` and ``arch_exclude`` keys in test configuration |
| files. |
| |
| Command line arguments define the initial scope in the following way: |
| |
| * ``-p/--platform <platform_name>`` (can be used multiple times): only platforms |
| passed with this argument; |
| * ``-l/--all``: all available platforms; |
| * ``-G/--integration``: all platforms from an ``integration_platforms`` list in |
| a given test configuration file. If a test has no ``integration_platforms`` |
| *"scope presumption"* will happen; |
| * No scope argument: *"scope presumption"* will happen. |
| |
| *"Scope presumption"*: A list of Twister's :ref:`default platforms <twister_default_testing_board>` |
| is used as the initial list. If nothing is left after the filtration, the ``platform_allow`` list |
| is used as the initial scope. |
| |
| Managing tests timeouts |
| *********************** |
| |
| There are several parameters which control tests timeouts on various levels: |
| |
| * ``timeout`` option in each test scenario. See :ref:`here <twister_test_case_timeout>` for more |
| details. |
| * ``timeout_multiplier`` option in board configuration. See |
| :ref:`here <twister_board_timeout_multiplier>` for more details. |
| * ``--timeout-multiplier`` twister option which can be used to adjust timeouts in exact twister run. |
| It can be useful in case of simulation platform as simulation time may depend on the host |
| speed & load or we may select different simulation method (i.e. cycle accurate but slower |
| one), etc... |
| |
| Overall test scenario timeout is a multiplication of these three parameters. |
| |
| Running in Integration Mode |
| *************************** |
| |
| This mode is used in continuous integration (CI) and other automated |
| environments used to give developers fast feedback on changes. The mode can |
| be activated using the ``--integration`` option of twister and narrows down |
| the scope of builds and tests if applicable to platforms defined under the |
| integration keyword in the test configuration file (``testcase.yaml`` and |
| ``sample.yaml``). |
| |
| |
| Running tests on custom emulator |
| ******************************** |
| |
| Apart from the already supported QEMU and other simulated environments, Twister |
| supports running any out-of-tree custom emulator defined in the board's :file:`board.cmake`. |
| To use this type of simulation, add the following properties to |
| :file:`custom_board/custom_board.yaml`: |
| |
| .. code-block:: yaml |
| |
| simulation: custom |
| simulation_exec: <name_of_emu_binary> |
| |
| This tells Twister that the board is using a custom emulator called ``<name_of_emu_binary>``, |
| make sure this binary exists in the PATH. |
| |
| Then, in :file:`custom_board/board.cmake`, set the supported emulation platforms to ``custom``: |
| |
| .. code-block:: cmake |
| |
| set(SUPPORTED_EMU_PLATFORMS custom) |
| |
| Finally, implement the ``run_custom`` target in :file:`custom_board/board.cmake`. |
| It should look something like this: |
| |
| .. code-block:: cmake |
| |
| add_custom_target(run_custom |
| COMMAND |
| <name_of_emu_binary to invoke during 'run'> |
| <any args to be passed to the command, i.e. ${BOARD}, ${APPLICATION_BINARY_DIR}/zephyr/zephyr.elf> |
| WORKING_DIRECTORY ${APPLICATION_BINARY_DIR} |
| DEPENDS ${logical_target_for_zephyr_elf} |
| USES_TERMINAL |
| ) |
| |
| Running Tests on Hardware |
| ************************* |
| |
| Beside being able to run tests in QEMU and other simulated environments, |
| twister supports running most of the tests on real devices and produces |
| reports for each run with detailed FAIL/PASS results. |
| |
| |
| Executing tests on a single device |
| =================================== |
| |
| To use this feature on a single connected device, run twister with |
| the following new options: |
| |
| .. tabs:: |
| |
| .. group-tab:: Linux |
| |
| .. code-block:: bash |
| |
| scripts/twister --device-testing --device-serial /dev/ttyACM0 \ |
| --device-serial-baud 115200 -p frdm_k64f -T tests/kernel |
| |
| .. group-tab:: Windows |
| |
| .. code-block:: bat |
| |
| python .\scripts\twister --device-testing --device-serial COM1 \ |
| --device-serial-baud 115200 -p frdm_k64f -T tests/kernel |
| |
| The ``--device-serial`` option denotes the serial device the board is connected to. |
| This needs to be accessible by the user running twister. You can run this on |
| only one board at a time, specified using the ``--platform`` option. |
| |
| The ``--device-serial-baud`` option is only needed if your device does not run at |
| 115200 baud. |
| |
| To support devices without a physical serial port, use the ``--device-serial-pty`` |
| option. In this cases, log messages are captured for example using a script. |
| In this case you can run twister with the following options: |
| |
| .. tabs:: |
| |
| .. group-tab:: Linux |
| |
| .. code-block:: bash |
| |
| scripts/twister --device-testing --device-serial-pty "script.py" \ |
| -p intel_adsp/cavs25 -T tests/kernel |
| |
| .. group-tab:: Windows |
| |
| .. note:: |
| |
| Not supported on Windows OS |
| |
| The script is user-defined and handles delivering the messages which can be |
| used by twister to determine the test execution status. |
| |
| The ``--device-flash-timeout`` option allows to set explicit timeout on the |
| device flash operation, for example when device flashing takes significantly |
| large time. |
| |
| The ``--device-flash-with-test`` option indicates that on the platform |
| the flash operation also executes a test scenario, so the flash timeout is |
| increased by a test scenario timeout. |
| |
| Executing tests on multiple devices |
| =================================== |
| |
| To build and execute tests on multiple devices connected to the host PC, a |
| hardware map needs to be created with all connected devices and their |
| details such as the serial device, baud and their IDs if available. |
| Run the following command to produce the hardware map: |
| |
| .. tabs:: |
| |
| .. group-tab:: Linux |
| |
| .. code-block:: bash |
| |
| ./scripts/twister --generate-hardware-map map.yml |
| |
| .. group-tab:: Windows |
| |
| .. code-block:: bat |
| |
| python .\scripts\twister --generate-hardware-map map.yml |
| |
| The generated hardware map file (map.yml) will have the list of connected |
| devices, for example: |
| |
| .. tabs:: |
| |
| .. group-tab:: Linux |
| |
| .. code-block:: yaml |
| |
| - connected: true |
| id: OSHW000032254e4500128002ab98002784d1000097969900 |
| platform: unknown |
| product: DAPLink CMSIS-DAP |
| runner: pyocd |
| serial: /dev/cu.usbmodem146114202 |
| - connected: true |
| id: 000683759358 |
| platform: unknown |
| product: J-Link |
| runner: unknown |
| serial: /dev/cu.usbmodem0006837593581 |
| |
| .. group-tab:: Windows |
| |
| .. code-block:: yaml |
| |
| - connected: true |
| id: OSHW000032254e4500128002ab98002784d1000097969900 |
| platform: unknown |
| product: unknown |
| runner: unknown |
| serial: COM1 |
| - connected: true |
| id: 000683759358 |
| platform: unknown |
| product: unknown |
| runner: unknown |
| serial: COM2 |
| |
| |
| Any options marked as ``unknown`` need to be changed and set with the correct |
| values, in the above example the platform names, the products and the runners need |
| to be replaced with the correct values corresponding to the connected hardware. |
| In this example we are using a reel_board and an nrf52840dk/nrf52840: |
| |
| .. tabs:: |
| |
| .. group-tab:: Linux |
| |
| .. code-block:: yaml |
| |
| - connected: true |
| id: OSHW000032254e4500128002ab98002784d1000097969900 |
| platform: reel_board |
| product: DAPLink CMSIS-DAP |
| runner: pyocd |
| serial: /dev/cu.usbmodem146114202 |
| baud: 9600 |
| - connected: true |
| id: 000683759358 |
| platform: nrf52840dk/nrf52840 |
| product: J-Link |
| runner: nrfjprog |
| serial: /dev/cu.usbmodem0006837593581 |
| baud: 9600 |
| |
| .. group-tab:: Windows |
| |
| .. code-block:: yaml |
| |
| - connected: true |
| id: OSHW000032254e4500128002ab98002784d1000097969900 |
| platform: reel_board |
| product: DAPLink CMSIS-DAP |
| runner: pyocd |
| serial: COM1 |
| baud: 9600 |
| - connected: true |
| id: 000683759358 |
| platform: nrf52840dk/nrf52840 |
| product: J-Link |
| runner: nrfjprog |
| serial: COM2 |
| baud: 9600 |
| |
| The baud entry is only needed if not running at 115200. |
| |
| If the map file already exists, then new entries are added and existing entries |
| will be updated. This way you can use one single master hardware map and update |
| it for every run to get the correct serial devices and status of the devices. |
| |
| With the hardware map ready, you can run any tests by pointing to the map |
| |
| .. tabs:: |
| |
| .. group-tab:: Linux |
| |
| .. code-block:: bash |
| |
| ./scripts/twister --device-testing --hardware-map map.yml -T samples/hello_world/ |
| |
| .. group-tab:: Windows |
| |
| .. code-block:: bat |
| |
| python .\scripts\twister --device-testing --hardware-map map.yml -T samples\hello_world |
| |
| The above command will result in twister building tests for the platforms |
| defined in the hardware map and subsequently flashing and running the tests |
| on those platforms. |
| |
| .. note:: |
| |
| Currently only boards with support for pyocd, nrfjprog, jlink, openocd, or dediprog |
| are supported with the hardware map features. Boards that require other runners to flash the |
| Zephyr binary are still work in progress. |
| |
| Hardware map allows to set ``--device-flash-timeout`` and ``--device-flash-with-test`` |
| command line options as ``flash-timeout`` and ``flash-with-test`` fields respectively. |
| These hardware map values override command line options for the particular platform. |
| |
| Serial PTY support using ``--device-serial-pty`` can also be used in the |
| hardware map: |
| |
| .. code-block:: yaml |
| |
| - connected: true |
| id: None |
| platform: intel_adsp/cavs25 |
| product: None |
| runner: intel_adsp |
| serial_pty: path/to/script.py |
| runner_params: |
| - --remote-host=remote_host_ip_addr |
| - --key=/path/to/key.pem |
| |
| |
| The runner_params field indicates the parameters you want to pass to the |
| west runner. For some boards the west runner needs some extra parameters to |
| work. It is equivalent to following west and twister commands. |
| |
| .. tabs:: |
| |
| .. group-tab:: Linux |
| |
| .. code-block:: bash |
| |
| west flash --remote-host remote_host_ip_addr --key /path/to/key.pem |
| |
| twister -p intel_adsp/cavs25 --device-testing --device-serial-pty script.py |
| --west-flash="--remote-host=remote_host_ip_addr,--key=/path/to/key.pem" |
| |
| .. group-tab:: Windows |
| |
| .. note:: |
| |
| Not supported on Windows OS |
| |
| .. note:: |
| |
| For serial PTY, the "--generate-hardware-map" option cannot scan it out |
| and generate a correct hardware map automatically. You have to edit it |
| manually according to above example. This is because the serial port |
| of the PTY is not fixed and being allocated in the system at runtime. |
| |
| Fixtures |
| +++++++++ |
| |
| Some tests require additional setup or special wiring specific to the test. |
| Running the tests without this setup or test fixture may fail. A test scenario can |
| specify the fixture it needs which can then be matched with hardware capability |
| of a board and the fixtures it supports via the command line or using the hardware |
| map file. |
| |
| Fixtures are defined in the hardware map file as a list: |
| |
| .. code-block:: yaml |
| |
| - connected: true |
| fixtures: |
| - gpio_loopback |
| id: 0240000026334e450015400f5e0e000b4eb1000097969900 |
| platform: frdm_k64f |
| product: DAPLink CMSIS-DAP |
| runner: pyocd |
| serial: /dev/ttyACM9 |
| |
| When running ``twister`` with ``--device-testing``, the configured fixture |
| in the hardware map file will be matched to test scenarios requesting the same fixtures |
| and these tests will be executed on the boards that provide this fixture. |
| |
| .. figure:: figures/fixtures.svg |
| :figclass: align-center |
| |
| Fixtures can also be provided via twister command option ``--fixture``, this option |
| can be used multiple times and all given fixtures will be appended as a list. And the |
| given fixtures will be assigned to all boards, this means that all boards set by |
| current twister command can run those test scenarios which request the same fixtures. |
| |
| Some fixtures allow for configuration strings to be appended, separated from the |
| fixture name by a ``:``. Only the fixture name is matched against the fixtures |
| requested by test scenarios. |
| |
| Notes |
| +++++ |
| |
| It may be useful to annotate board descriptions in the hardware map file |
| with additional information. Use the ``notes`` keyword to do this. For |
| example: |
| |
| .. code-block:: yaml |
| |
| - connected: false |
| fixtures: |
| - gpio_loopback |
| id: 000683290670 |
| notes: An nrf5340dk/nrf5340 is detected as an nrf52840dk/nrf52840 with no serial |
| port, and three serial ports with an unknown platform. The board id of the serial |
| ports is not the same as the board id of the development kit. If you regenerate |
| this file you will need to update serial to reference the third port, and platform |
| to nrf5340dk/nrf5340/cpuapp or another supported board target. |
| platform: nrf52840dk/nrf52840 |
| product: J-Link |
| runner: jlink |
| serial: null |
| |
| Overriding Board Identifier |
| +++++++++++++++++++++++++++ |
| |
| When (re-)generated the hardware map file will contain an ``id`` keyword |
| that serves as the argument to ``--board-id`` when flashing. In some |
| cases the detected ID is not the correct one to use, for example when |
| using an external J-Link probe. The ``probe_id`` keyword overrides the |
| ``id`` keyword for this purpose. For example: |
| |
| .. code-block:: yaml |
| |
| - connected: false |
| id: 0229000005d9ebc600000000000000000000000097969905 |
| platform: mimxrt1060_evk |
| probe_id: 000609301751 |
| product: DAPLink CMSIS-DAP |
| runner: jlink |
| serial: null |
| |
| Quarantine |
| ++++++++++ |
| |
| Twister allows user to provide configuration files defining a list of tests or |
| platforms to be put under quarantine. Such tests will be skipped and marked |
| accordingly in the output reports. This feature is especially useful when |
| running larger test suits, where a failure of one test can affect the execution |
| of other tests (e.g. putting the physical board in a corrupted state). |
| |
| To use the quarantine feature one has to add the argument |
| ``--quarantine-list <PATH_TO_QUARANTINE_YAML>`` to a twister call. |
| Multiple quarantine files can be used. |
| The current status of tests on the quarantine list can also be verified by adding |
| ``--quarantine-verify`` to the above argument. This will make twister skip all tests |
| which are not on the given list. |
| |
| A quarantine yaml has to be a sequence of dictionaries. Each dictionary has to have |
| ``scenarios`` and ``platforms`` entries listing combinations of scenarios and platforms |
| to put under quarantine. In addition, an optional entry ``comment`` can be used, where |
| some more details can be given (e.g. link to a reported issue). These comments will also |
| be added to the output reports. |
| |
| When quarantining a class of tests or many scenarios in a single testsuite or |
| when dealing with multiple issues within a subsystem, it is possible to use |
| regular expressions, for example, **kernel.*** would quarantine |
| all kernel tests. |
| |
| An example of entries in a quarantine yaml: |
| |
| .. code-block:: yaml |
| |
| - scenarios: |
| - sample.basic.helloworld |
| comment: "Link to the issue: https://github.com/zephyrproject-rtos/zephyr/pull/33287" |
| |
| - scenarios: |
| - kernel.common |
| - kernel.common.(misra|tls) |
| - kernel.common.nano64 |
| platforms: |
| - .*_cortex_.* |
| - native_sim |
| |
| To exclude a platform, use the following syntax: |
| |
| .. code-block:: yaml |
| |
| - platforms: |
| - qemu_x86 |
| comment: "broken qemu" |
| |
| Additionally you can quarantine entire architectures or a specific simulator for executing tests. |
| |
| Test Configuration |
| ****************** |
| |
| A test configuration can be used to customize various aspects of twister |
| and the default enabled options and features. This allows tweaking the filtering |
| capabilities depending on the environment and makes it possible to adapt and |
| improve coverage when targeting different sets of platforms. |
| |
| The test configuration also adds support for test levels and the ability to |
| assign a specific test to one or more levels. Using command line options of |
| twister it is then possible to select a level and just execute the tests |
| included in this level. |
| |
| Additionally, the test configuration allows defining level |
| dependencies and additional inclusion of tests into a specific level if |
| the test itself does not have this information already. |
| |
| In the configuration file you can include complete components using |
| regular expressions and you can specify which test level to import from |
| the same file, making management of levels easier. |
| |
| To help with testing outside of upstream CI infrastructure, additional |
| options are available in the configuration file, which can be hosted |
| locally. As of now, those options are available: |
| |
| - Ability to ignore default platforms as defined in board definitions |
| (Those are mostly emulation platforms used to run tests in upstream |
| CI) |
| - Option to specify your own list of default platforms overriding what |
| upstream defines. |
| - Ability to override ``build_on_all`` options used in some test scenarios. |
| This will treat tests or sample as any other just build for default |
| platforms you specify in the configuration file or on the command line. |
| - Ignore some logic in twister to expand platform coverage in cases where |
| default platforms are not in scope. |
| |
| |
| Platform Configuration |
| ====================== |
| |
| The following options control platform filtering in twister: |
| |
| - ``override_default_platforms``: override default key a platform sets in board |
| configuration and instead use the list of platforms provided in the |
| configuration file as the list of default platforms. This option is set to |
| False by default. |
| - ``increased_platform_scope``: This option is set to True by default, when |
| disabled, twister will not increase platform coverage automatically and will |
| only build and run tests on the specified platforms. |
| - ``default_platforms``: A list of additional default platforms to add. This list |
| can either be used to replace the existing default platforms or can extend it |
| depending on the value of ``override_default_platforms``. |
| |
| And example platforms configuration: |
| |
| .. code-block:: yaml |
| |
| platforms: |
| override_default_platforms: true |
| increased_platform_scope: false |
| default_platforms: |
| - qemu_x86 |
| |
| |
| Test Level Configuration |
| ======================== |
| |
| The test configuration allows defining test levels, level dependencies and |
| additional inclusion of tests into a specific test level if the test itself |
| does not have this information already. |
| |
| In the configuration file you can include complete components using |
| regular expressions and you can specify which test level to import from |
| the same file, making management of levels simple. |
| |
| And example test level configuration: |
| |
| .. code-block:: yaml |
| |
| levels: |
| - name: my-test-level |
| description: > |
| my custom test level |
| adds: |
| - kernel.threads.* |
| - kernel.timer.behavior |
| - arch.interrupt |
| - boards.* |
| |
| |
| Combined configuration |
| ====================== |
| |
| To mix the Platform and level configuration, you can take an example as below: |
| |
| An example platforms plus level configuration: |
| |
| .. code-block:: yaml |
| |
| platforms: |
| override_default_platforms: true |
| default_platforms: |
| - frdm_k64f |
| levels: |
| - name: smoke |
| description: > |
| A plan to be used verifying basic zephyr features. |
| - name: unit |
| description: > |
| A plan to be used verifying unit test. |
| - name: integration |
| description: > |
| A plan to be used verifying integration. |
| - name: acceptance |
| description: > |
| A plan to be used verifying acceptance. |
| - name: system |
| description: > |
| A plan to be used verifying system. |
| - name: regression |
| description: > |
| A plan to be used verifying regression. |
| |
| |
| To run with above test_config.yaml file, only default_platforms with given test level |
| test scenarios will run. |
| |
| .. tabs:: |
| |
| .. group-tab:: Linux |
| |
| .. code-block:: bash |
| |
| scripts/twister --test-config=<path to>/test_config.yaml |
| -T tests --level="smoke" |
| |
| |
| |
| Running in Tests in Random Order |
| ******************************** |
| Enable ZTEST framework's :kconfig:option:`CONFIG_ZTEST_SHUFFLE` config option to |
| run your tests in random order. This can be beneficial for identifying |
| dependencies between test cases. For native_sim platforms, you can provide |
| the seed to the random number generator by providing ``-seed=value`` as an |
| argument to twister. See :ref:`Shuffling Test Sequence <ztest_shuffle>` for more |
| details. |
| |
| Robot Framework Tests |
| ********************* |
| Zephyr supports `Robot Framework <https://robotframework.org/>`_ as one of solutions for automated testing. |
| |
| Robot files allow you to express interactive test scenarios in human-readable text format and execute them in simulation or against hardware. |
| At this moment Zephyr integration supports running Robot tests in the `Renode <https://renode.io/>`_ simulation framework. |
| |
| To execute a Robot test suite with twister, run the following command: |
| |
| .. tabs:: |
| |
| .. group-tab:: Linux |
| |
| .. code-block:: bash |
| |
| $ ./scripts/twister --platform hifive1 --test samples/subsys/shell/shell_module/sample.shell.shell_module.robot |
| |
| .. group-tab:: Windows |
| |
| .. code-block:: bat |
| |
| python .\scripts\twister --platform hifive1 --test samples/subsys/shell/shell_module/sample.shell.shell_module.robot |
| |
| Writing Robot tests |
| =================== |
| |
| For the list of keywords provided by the Robot Framework itself, refer to `the official Robot documentation <https://robotframework.org/robotframework/>`_. |
| |
| Information on writing and running Robot Framework tests in Renode can be found in `the testing section <https://renode.readthedocs.io/en/latest/introduction/testing.html>`_ of Renode documentation. |
| It provides a list of the most commonly used keywords together with links to the source code where those are defined. |
| |
| It's possible to extend the framework by adding new keywords expressed directly in Robot test suite files, as an external Python library or, like Renode does it, dynamically via XML-RPC. |
| For details see the `extending Robot Framework <https://robotframework.org/robotframework/latest/RobotFrameworkUserGuide.html#extending-robot-framework>`_ section in the official Robot documentation. |
| |
| Running a single testsuite |
| ========================== |
| |
| To run a single testsuite instead of a whole group of test you can run: |
| |
| .. code-block:: bash |
| |
| $ twister -p qemu_riscv32 -s tests/kernel/interrupt/arch.shared_interrupt |