| .. _coverage: |
| |
| Generating coverage reports |
| ########################### |
| |
| With Zephyr, you can generate code coverage reports to analyze which parts of |
| the code are covered by a given test or application. |
| |
| You can do this in two ways: |
| |
| * In a real embedded target or QEMU, using Zephyr's gcov integration |
| * Directly in your host computer, by compiling your application targeting |
| the POSIX architecture |
| |
| Test coverage reports in embedded devices or QEMU |
| ************************************************* |
| |
| Overview |
| ======== |
| `GCC GCOV <gcov_>`_ is a test coverage program |
| used together with the GCC compiler to analyze and create test coverage reports |
| for your programs, helping you create more efficient, faster running code and |
| discovering untested code paths |
| |
| In Zephyr, gcov collects coverage profiling data in RAM (and not to a file |
| system) while your application is running. Support for gcov collection and |
| reporting is limited by available RAM size and so is currently enabled only |
| for QEMU emulation of embedded targets. |
| |
| Details |
| ======= |
| There are 2 parts to enable this feature. The first is to enable the coverage for the |
| device and the second to enable in the test application. As explained earlier the |
| code coverage with gcov is a function of RAM available. Therefore ensure that the |
| device has enough RAM when enabling the coverage for it. For example a small device |
| like frdm_k64f can run a simple test application but the more complex test |
| cases which consume more RAM will crash when coverage is enabled. |
| |
| To enable the device for coverage, select :kconfig:`CONFIG_HAS_COVERAGE_SUPPORT` |
| in the Kconfig.board file. |
| |
| To report the coverage for the particular test application set :kconfig:`CONFIG_COVERAGE`. |
| |
| Steps to generate code coverage reports |
| ======================================= |
| |
| These steps will produce an HTML coverage report for a single application. |
| |
| 1. Build the code with CONFIG_COVERAGE=y. |
| |
| .. zephyr-app-commands:: |
| :board: mps2_an385 |
| :gen-args: -DCONFIG_COVERAGE=y |
| :goals: build |
| :compact: |
| |
| #. Capture the emulator output into a log file. You may need to terminate |
| the emulator with :kbd:`Ctrl-A X` for this to complete after the coverage dump |
| has been printed: |
| |
| .. code-block:: console |
| |
| ninja -Cbuild run | tee log.log |
| |
| or |
| |
| .. code-block:: console |
| |
| ninja -Cbuild run | tee log.log |
| |
| #. Generate the gcov ``.gcda`` and ``.gcno`` files from the log file that was |
| saved:: |
| |
| $ python3 scripts/gen_gcov_files.py -i log.log |
| |
| #. Find the gcov binary placed in the SDK. You will need to pass the path to |
| the gcov binary for the appropriate architecture when you later invoke |
| ``gcovr``:: |
| |
| $ find $ZEPHYR_SDK_INSTALL_DIR -iregex ".*gcov" |
| |
| #. Create an output directory for the reports:: |
| |
| $ mkdir -p gcov_report |
| |
| #. Run ``gcovr`` to get the reports:: |
| |
| $ gcovr -r $ZEPHYR_BASE . --html -o gcov_report/coverage.html --html-details --gcov-executable <gcov_path_in_SDK> |
| |
| .. _coverage_posix: |
| |
| Coverage reports using the POSIX architecture |
| ********************************************* |
| |
| When compiling for the POSIX architecture, you utilize your host native tooling |
| to build a native executable which contains your application, the Zephyr OS, |
| and some basic HW emulation. |
| |
| That means you can use the same tools you would while developing any |
| other desktop application. |
| |
| To build your application with ``gcc``'s `gcov`_, simply set |
| :kconfig:`CONFIG_COVERAGE` before compiling it. |
| When you run your application, ``gcov`` coverage data will be dumped into the |
| respective ``gcda`` and ``gcno`` files. |
| You may postprocess these with your preferred tools. For example: |
| |
| .. zephyr-app-commands:: |
| :zephyr-app: samples/hello_world |
| :gen-args: -DCONFIG_COVERAGE=y |
| :host-os: unix |
| :board: native_posix |
| :goals: build |
| :compact: |
| |
| .. code-block:: console |
| |
| $ ./build/zephyr/zephyr.exe |
| # Press Ctrl+C to exit |
| lcov --capture --directory ./ --output-file lcov.info -q --rc lcov_branch_coverage=1 |
| genhtml lcov.info --output-directory lcov_html -q --ignore-errors source --branch-coverage --highlight --legend |
| |
| .. note:: |
| |
| You need a recent version of lcov (at least 1.14) with support for |
| intermediate text format. Such packages exist in recent Linux distributions. |
| |
| Alternatively, you can use gcovr (at least version 4.2). |
| |
| Coverage reports using Twister |
| ****************************** |
| |
| Zephyr's :ref:`twister script <twister_script>` can automatically |
| generate a coverage report from the tests which were executed. |
| You just need to invoke it with the ``--coverage`` command line option. |
| |
| For example, you may invoke:: |
| |
| $ twister --coverage -p qemu_x86 -T tests/kernel |
| |
| or:: |
| |
| $ twister --coverage -p native_posix -T tests/bluetooth |
| |
| which will produce ``twister-out/coverage/index.html`` with the report. |
| |
| The process differs for unit tests, which are built with the host |
| toolchain and require a different board:: |
| |
| $ twister --coverage -p unit_testing -T tests/unit |
| |
| which produces a report in the same location as non-unit testing. |
| |
| .. _gcov: |
| https://gcc.gnu.org/onlinedocs/gcc/Gcov.html |