145 lines
4.7 KiB
ReStructuredText
145 lines
4.7 KiB
ReStructuredText
.. _coverage:
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Generating coverage reports
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###########################
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With Zephyr, you can generate code coverage reports to analyze which parts of
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the code are covered by a given test or application.
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You can do this in two ways:
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* In a real embedded target or QEMU, using Zephyr's gcov integration
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* Directly in your host computer, by compiling your application targeting
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the POSIX architecture
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Test coverage reports in embedded devices or QEMU
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*************************************************
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Overview
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========
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`GCC GCOV <gcov_>`_ is a test coverage program
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used together with the GCC compiler to analyze and create test coverage reports
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for your programs, helping you create more efficient, faster running code and
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discovering untested code paths
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In Zephyr, gcov collects coverage profiling data in RAM (and not to a file
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system) while your application is running. Support for gcov collection and
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reporting is limited by available RAM size and so is currently enabled only
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for QEMU emulation of embedded targets.
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Details
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=======
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There are 2 parts to enable this feature. The first is to enable the coverage for the
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device and the second to enable in the test application. As explained earlier the
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code coverage with gcov is a function of RAM available. Therefore ensure that the
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device has enough RAM when enabling the coverage for it. For example a small device
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like frdm_k64f can run a simple test application but the more complex test
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cases which consume more RAM will crash when coverage is enabled.
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To enable the device for coverage, select :option:`CONFIG_HAS_COVERAGE_SUPPORT`
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in the Kconfig.board file.
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To report the coverage for the particular test application set :option:`CONFIG_COVERAGE`.
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Steps to generate code coverage reports
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=======================================
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These steps will produce an HTML coverage report for a single application.
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1. Build the code with CONFIG_COVERAGE=y. Some boards like qemu_x86_coverage
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automatically enable this, but for boards that do not you will need to
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enable the configuration manually:
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.. zephyr-app-commands::
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:board: mps2_an385
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:gen-args: -DCONFIG_COVERAGE=y
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:goals: build
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:compact:
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#. Capture the emulator output into a log file. You may need to terminate
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the emulator with :kbd:`Ctrl-A X` for this to complete after the coverage dump
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has been printed:
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.. code-block:: console
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ninja -Cbuild run | tee log.log
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or
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.. code-block:: console
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ninja -Cbuild run | tee log.log
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#. Generate the gcov ``.gcda`` and ``.gcno`` files from the log file that was
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saved::
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$ python3 scripts/gen_gcov_files.py -i log.log
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#. Find the gcov binary placed in the SDK. You will need to pass the path to
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the gcov binary for the appropriate architecture when you later invoke
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``gcovr``::
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$ find $ZEPHYR_SDK_INSTALL_DIR -iregex ".*gcov"
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#. Create an output directory for the reports::
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$ mkdir -p gcov_report
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#. Run ``gcovr`` to get the reports::
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$ gcovr -r $ZEPHYR_BASE . --html -o gcov_report/coverage.html --html-details --gcov-executable <gcov_path_in_SDK>
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.. _coverage_posix:
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Coverage reports using the POSIX architecture
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*********************************************
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When compiling for the POSIX architecture, you utilize your host native tooling
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to build a native executable which contains your application, the Zephyr OS,
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and some basic HW emulation.
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That means you can use the same tools you would while developing any
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other desktop application.
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To build your application with ``gcc``'s `gcov`_, simply set
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:option:`CONFIG_COVERAGE` before compiling it.
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When you run your application, ``gcov`` coverage data will be dumped into the
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respective ``gcda`` and ``gcno`` files.
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You may postprocess these with your preferred tools. For example:
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.. zephyr-app-commands::
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:zephyr-app: samples/hello_world
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:gen-args: -DCONFIG_COVERAGE=y
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:host-os: unix
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:board: native_posix
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:goals: build
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:compact:
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.. code-block:: console
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$ ./build/zephyr/zephyr.exe
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# Press Ctrl+C to exit
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lcov --capture --directory ./ --output-file lcov.info -q --rc lcov_branch_coverage=1
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genhtml lcov.info --output-directory lcov_html -q --ignore-errors source --branch-coverage --highlight --legend
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Sanitycheck coverage reports
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****************************
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Zephyr's :ref:`sanitycheck script <sanitycheck_script>` can automatically
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generate a coverage report from the tests which were executed.
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You just need to invoke it with the ``--coverage`` command line option.
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For example, you may invoke::
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$ sanitycheck --coverage -p qemu_x86 -T tests/kernel
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or::
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$ sanitycheck --coverage -p native_posix -T tests/bluetooth
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which will produce ``sanity-out/coverage/index.html`` with the report.
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.. _gcov:
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https://gcc.gnu.org/onlinedocs/gcc/Gcov.html
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