This documentation is a guide that introduces the following aspects:
- The basic idea of different test types in ESP-IDF
- How to apply the pytest framework to the test python scripts to make sure the apps are working as expected.
- ESP-IDF CI target test process
- Run ESP-IDF tests with pytest locally
- Tips and tricks on pytest
In ESP-IDF, we use the following plugins by default:
- pytest-embedded with default services
esp,idf
- pytest-rerunfailures
All the introduced concepts and usages are based on the default behavior in ESP-IDF. Not all of them are available in vanilla pytest.
All dependencies could be installed by running the install script with the --enable-pytest
argument, e.g. $ install.sh --enable-pytest
.
Component-based unit tests are our recommended way to test your component. All the test apps should be located under ${IDF_PATH}/components/<COMPONENT_NAME>/test_apps
.
For example:
components/
└── my_component/
├── include/
│ └── ...
├── test_apps/
│ ├── test_app_1
│ │ ├── main/
│ │ │ └── ...
│ │ ├── CMakeLists.txt
│ │ └── pytest_my_component_app_1.py
│ ├── test_app_2
│ │ ├── ...
│ │ └── pytest_my_component_app_2.py
│ └── parent_folder
│ ├── test_app_3
│ │ ├── ...
│ │ └── pytest_my_component_app_3.py
│ └── ...
├── my_component.c
└── CMakeLists.txt
Example Tests are tests for examples that are intended to demonstrate parts of the ESP-IDF functionality to our customers.
All the test apps should be located under ${IDF_PATH}/examples
. For more information please refer to the :idf_file:`Examples Readme <examples/README.md>`.
For example:
examples/
└── parent_folder/
└── example_1/
├── main/
│ └── ...
├── CMakeLists.txt
└── pytest_example_1.py
Custom Tests are tests that aim to run some arbitrary test internally. They are not intended to demonstrate the ESP-IDF functionality to our customers in any way.
All the test apps should be located under ${IDF_PATH}/tools/test_apps
. For more information please refer to the :idf_file:`Custom Test Readme <tools/test_apps/README.md>`.
Bootstrapping Phase
Create session-scoped caches:
- port-target cache
- port-app cache
Collection Phase
Test Running Phase
Construct the fixtures. In ESP-IDF, the common fixtures are initialized in this order:
pexpect_proc
: pexpect instanceapp
: IdfApp instanceThe information of the app, like sdkconfig, flash_files, partition_table, etc., would be parsed at this phase.
serial
: IdfSerial instanceThe port of the host which connected to the target type parsed from the app would be auto-detected. The flash files would be auto flashed.
dut
: IdfDut instance
Run the real test function
Deconstruct the fixtures in this order:
dut
- close the
serial
port - (Only for apps with unity test framework) generate junit report of the unity test cases
- close the
serial
app
pexpect_proc
: Close the file descriptor
(Only for apps with unity test framework)
Raise
AssertionError
when detected unity test failed if you calldut.expect_from_unity_output()
in the test function.
Reporting Phase
- Generate junit report of the test functions
- Modify the junit report test case name into ESP-IDF test case ID format:
<target>.<config>.<test function name>
Finalizing Phase (Only for apps with unity test framework)
Combine the junit reports if the junit reports of the unity test cases are generated.
This code example is taken from :idf_file:`pytest_console_basic.py <examples/system/console/basic/pytest_console_basic.py>`.
@pytest.mark.esp32
@pytest.mark.esp32c3
@pytest.mark.generic
@pytest.mark.parametrize('config', [
'history',
'nohistory',
], indirect=True)
def test_console_advanced(config: str, dut: Dut) -> None:
if config == 'history':
dut.expect('Command history enabled')
elif config == 'nohistory':
dut.expect('Command history disabled')
Note
Using expect_exact
is better here. For further reading about the different types of expect
functions, please refer to the pytest-embedded Expecting documentation.
You can use markers to specify the supported targets and the test env in CI. You can run pytest --markers
to get more details about different markers.
@pytest.mark.esp32 # <-- support esp32
@pytest.mark.esp32c3 # <-- support esp32c3
@pytest.mark.generic # <-- test env `generic, would assign to runner with tag `generic`
Besides, if the test case supports all officially ESP-IDF-supported targets, like esp32, esp32s2, esp32s3, esp32c3 for now (2022.2), you can use a special marker supported_targets
to apply them all in one line.
This code example is taken from :idf_file:`pytest_gptimer_example.py <examples/peripherals/timer_group/gptimer/pytest_gptimer_example.py>`.
@pytest.mark.supported_targets
@pytest.mark.generic
def test_gptimer_example(dut: Dut) -> None:
...
You can use pytest.mark.parametrize
with “config” to apply the same test to different apps with different sdkconfig files. For more information about sdkconfig.ci.xxx
files, please refer to the Configuration Files section under :idf_file:`this readme <tools/test_apps/README.md>`.
@pytest.mark.parametrize('config', [
'history', # <-- run with app built by sdkconfig.ci.history
'nohistory', # <-- run with app built by sdkconfig.ci.nohistory
], indirect=True) # <-- `indirect=True` is required
Overall, this test function would be replicated to 4 test cases:
- esp32.history.test_console_advanced
- esp32.nohistory.test_console_advanced
- esp32c3.history.test_console_advanced
- esp32c3.nohistory.test_console_advanced
This code example is taken from :idf_file:`pytest_usb_host.py <tools/test_apps/peripherals/usb/pytest_usb_host.py>`.
@pytest.mark.esp32s2
@pytest.mark.esp32s3
@pytest.mark.usb_host
@pytest.mark.parametrize('count', [
2,
], indirect=True)
def test_usb_host(dut: Tuple[IdfDut, IdfDut]) -> None:
device = dut[0] # <-- assume the first dut is the device
host = dut[1] # <-- and the second dut is the host
...
After setting the param count
to 2, all these fixtures are changed into tuples.
This code example is taken from :idf_file:`pytest_wifi_getting_started.py <examples/wifi/getting_started/pytest_wifi_getting_started.py>`.
@pytest.mark.esp32
@pytest.mark.multi_dut_generic
@pytest.mark.parametrize(
'count, app_path', [
(2,
f'{os.path.join(os.path.dirname(__file__), "softAP")}|{os.path.join(os.path.dirname(__file__), "station")}'),
], indirect=True
)
def test_wifi_getting_started(dut: Tuple[IdfDut, IdfDut]) -> None:
softap = dut[0]
station = dut[1]
...
Here the first dut was flashed with the app :idf_file:`softap <examples/wifi/getting_started/softAP/main/softap_example_main.c>`, and the second dut was flashed with the app :idf_file:`station <examples/wifi/getting_started/station/main/station_example_main.c>`.
Note
Here the app_path
should be set with absolute path. the __file__
macro in python would return the absolute path of the test script itself.
This code example is taken from :idf_file:`pytest_wifi_getting_started.py <examples/wifi/getting_started/pytest_wifi_getting_started.py>`. As the comment says, for now it's not running in the ESP-IDF CI.
@pytest.mark.parametrize(
'count, app_path, target', [
(2,
f'{os.path.join(os.path.dirname(__file__), "softAP")}|{os.path.join(os.path.dirname(__file__), "station")}',
'esp32|esp32s2'),
(2,
f'{os.path.join(os.path.dirname(__file__), "softAP")}|{os.path.join(os.path.dirname(__file__), "station")}',
'esp32s2|esp32'),
],
indirect=True,
)
def test_wifi_getting_started(dut: Tuple[IdfDut, IdfDut]) -> None:
softap = dut[0]
station = dut[1]
...
Overall, this test function would be replicated to 2 test cases:
- softap with esp32 target, and station with esp32s2 target
- softap with esp32s2 target, and station with esp32 target
This code example is taken from :idf_file:`pytest_panic.py <tools/test_apps/system/panic/pytest_panic.py>` as an advanced example.
CONFIGS = [
pytest.param('coredump_flash_bin_crc', marks=[pytest.mark.esp32, pytest.mark.esp32s2]),
pytest.param('coredump_flash_elf_sha', marks=[pytest.mark.esp32]), # sha256 only supported on esp32
pytest.param('coredump_uart_bin_crc', marks=[pytest.mark.esp32, pytest.mark.esp32s2]),
pytest.param('coredump_uart_elf_crc', marks=[pytest.mark.esp32, pytest.mark.esp32s2]),
pytest.param('gdbstub', marks=[pytest.mark.esp32, pytest.mark.esp32s2]),
pytest.param('panic', marks=[pytest.mark.esp32, pytest.mark.esp32s2]),
]
@pytest.mark.parametrize('config', CONFIGS, indirect=True)
...
Usually, you can write a custom class in these conditions:
- Add more reusable functions for a certain number of DUTs
- Add custom setup and teardown functions in different phases described here
This code example is taken from :idf_file:`panic/conftest.py <tools/test_apps/system/panic/conftest.py>`
class PanicTestDut(IdfDut):
...
@pytest.fixture(scope='module')
def monkeypatch_module(request: FixtureRequest) -> MonkeyPatch:
mp = MonkeyPatch()
request.addfinalizer(mp.undo)
return mp
@pytest.fixture(scope='module', autouse=True)
def replace_dut_class(monkeypatch_module: MonkeyPatch) -> None:
monkeypatch_module.setattr('pytest_embedded_idf.dut.IdfDut', PanicTestDut)
monkeypatch_module
provide a module-scoped monkeypatch fixture.
replace_dut_class
is a module-scoped autouse fixture. This function replaces the IdfDut
class with your custom class.
Sometimes, our test is based on ethernet or wifi. The network may cause the test flaky. We could mark the single test case within the code repo.
This code example is taken from :idf_file:`pytest_esp_eth.py <components/esp_eth/test_apps/pytest_esp_eth.py>`
@pytest.mark.flaky(reruns=3, reruns_delay=5)
def test_esp_eth_ip101(dut: Dut) -> None:
...
This flaky marker means that if the test function failed, the test case would rerun for a maximum of 3 times with 5 seconds delay.
Sometimes a test couldn't pass for the following reasons:
- Has a bug
- The success ratio is too low because of environment issue, such as network issue. Retry couldn't help
Now you may mark this test case with marker xfail with a user-friendly readable reason.
This code example is taken from :idf_file:`pytest_panic.py <tools/test_apps/system/panic/pytest_panic.py>`
@pytest.mark.xfail('config.getvalue("target") == "esp32s2"', reason='raised IllegalInstruction instead')
def test_cache_error(dut: PanicTestDut, config: str, test_func_name: str) -> None:
This marker means that if the test would be a known failure one on esp32s2.
The workflow in CI is simple, build jobs -> target test jobs.
- Component-based Unit Tests:
build_pytest_components_<target>
- Example Tests:
build_pytest_examples_<target>
- Custom Tests:
build_pytest_test_apps_<target>
The command used by CI to build all the relevant tests is: python $IDF_PATH/tools/ci/build_pytest_apps.py <parent_dir> --target <target> -vv
All apps which supported the specified target would be built with all supported sdkconfig files under build_<target>_<config>
.
For example, If you run python $IDF_PATH/tools/ci/build_pytest_apps.py $IDF_PATH/examples/system/console/basic --target esp32
, the folder structure would be like this:
basic
├── build_esp32_history/
│ └── ...
├── build_esp32_nohistory/
│ └── ...
├── main/
├── CMakeLists.txt
├── pytest_console_basic.py
└── ...
All the binaries folders would be uploaded as artifacts under the same directories.
- Component-based Unit Tests:
component_ut_pytest_<target>_<test_env>
- Example Tests:
example_test_pytest_<target>_<test_env>
- Custom Tests:
test_app_test_pytest_<target>_<test_env>
The command used by CI to run all the relevant tests is: pytest <parent_dir> --target <target> -m <test_env_marker>
All test cases with the specified target marker and the test env marker under the parent folder would be executed.
The binaries in the target test jobs are downloaded from build jobs, the artifacts would be placed under the same directories.
The local executing process is the same as the CI process.
For example, if you want to run all the esp32 tests under the $IDF_PATH/examples/system/console/basic
folder, you may:
$ pip install pytest-embedded-serial-esp pytest-embedded-idf
$ cd $IDF_PATH
$ . ./export.sh
$ cd examples/system/console/basic
$ python $IDF_PATH/tools/ci/build_pytest_apps.py . --target esp32 -vv
$ pytest --target esp32
filter by target with
pytest --target <target>
pytest would run all the test cases that support specified target.
filter by sdkconfig file with
pytest --sdkconfig <sdkconfig>
if
<sdkconfig>
isdefault
, pytest would run all the test cases with the sdkconfig filesdkconfig.defaults
.In other cases, pytest would run all the test cases with sdkconfig file
sdkconfig.ci.<sdkconfig>
.
We’re using two types of custom markers, target markers which indicate that the test cases should support this target, and env markers which indicate that the test case should be assigned to runners with these tags in CI.
You can add new markers by adding one line under the ${IDF_PATH}/pytest.ini
markers =
section. The grammar should be: <marker_name>: <marker_description>
You can call pytest with --junitxml <filepath>
to generate the JUnit report. In ESP-IDF, the test case name would be unified as "<target>.<config>.<function_name>".
Skipping auto-flash binary every time would be useful when you're debugging your test script.
You can call pytest with --skip-autoflash y
to achieve it.
Sometimes you may need to record some statistics while running the tests, like the performance test statistics.
You can use record_xml_attribute fixture in your test script, and the statistics would be recorded as attributes in the JUnit report.
Sometimes you may need to add some extra logging lines while running the test cases.
You can use python logging module to achieve this.
pytest-embedded
is using some threads internally to help gather all stdout to the pexpect process. Due to the limitation of Global Interpreter Lock, if you're using threads to do performance tests, these threads would block each other and there would be great performance loss.
workaround
Use Process instead, the APIs should be almost the same as Thread
.
- pytest documentation: https://docs.pytest.org/en/latest/contents.html
- pytest-embedded documentation: https://docs.espressif.com/projects/pytest-embedded/en/latest/