mirror of
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171 lines
7.8 KiB
Markdown
171 lines
7.8 KiB
Markdown
# Testing Ladybird
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Tests are locates in `Tests/`, with a directory for each library.
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Every feature or bug fix added to LibWeb should have a corresponding test in `Tests/LibWeb`.
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The test should be either a Text, Layout, Ref, or Screenshot test depending on the feature.
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Tests of internal C++ code go in their own `TestFoo.cpp` file in `Tests/LibWeb`.
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## Running Tests
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> [!NOTE]
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> To reproduce a CI failure, see the section on [Running with Sanitizers](#running-with-sanitizers).
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The easiest way to run tests is to use the `ladybird.sh` script. The LibWeb tests are registered with CMake as a test in
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`UI/CMakeLists.txt`. Using the built-in test filtering, you can run all tests with `Meta/ladybird.sh test` or run
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just the LibWeb tests with `Meta/ladybird.sh test LibWeb`. The second way is to invoke the headless browser test runner
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directly. See the invocation in `UI/CMakeLists.txt` for the expected command line arguments.
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A third way is to invoke `ctest` directly. The simplest method is to use the `default` preset from ``CMakePresets.json``:
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```sh
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cmake --preset default
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cmake --build --preset default
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ctest --preset default
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```
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If you want to avoid building and running LibWeb tests, you can use a Lagom-only build.
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```sh
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cmake -GNinja -S Meta/Lagom -B Build/lagom
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```
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The tests can be run via ninja after doing a build. Note that `test-js` requires the `LADYBIRD_SOURCE_DIR` environment variable to be set
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to the root of the ladybird source tree.
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```sh
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# /path/to/ladybird repository
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export LADYBIRD_SOURCE_DIR=${PWD}
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cd Build/lagom
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ninja
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ninja test
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```
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To see the stdout/stderr output of failing tests, the recommended way is to set the environment variable [`CTEST_OUTPUT_ON_FAILURE`](https://cmake.org/cmake/help/latest/manual/ctest.1.html#options) to 1.
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```sh
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CTEST_OUTPUT_ON_FAILURE=1 ninja test
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# or, using ctest directly...
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ctest --output-on-failure
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```
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### Running with Sanitizers
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CI runs host tests with Address Sanitizer and Undefined Sanitizer instrumentation enabled. These tools catch many
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classes of common C++ errors, including memory leaks, out of bounds access to stack and heap allocations, and
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signed integer overflow. For more info on the sanitizers, check out the Address Sanitizer [wiki page](https://github.com/google/sanitizers/wiki),
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or the Undefined Sanitizer [documentation](https://clang.llvm.org/docs/UndefinedBehaviorSanitizer.html) from clang.
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Note that a sanitizer build will take significantly longer than a non-sanitizer build, and will mess with caches in tools such as `ccache`.
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The sanitizers can be enabled with the `-DENABLE_FOO_SANITIZER` set of flags.
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The simplest way to enable sanitizers is to use the `Sanitizer` preset.
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```sh
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cmake --preset Sanitizer
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cmake --build --preset Sanitizer
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ctest --preset Sanitizer
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```
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Or from a Lagom build:
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To ensure that the test behaves the same way as CI, make sure to set the ASAN_OPTIONS and UBSAN_OPTIONS appropriately.
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The Sanitizer test preset already sets these environment variables.
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```sh
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export ASAN_OPTIONS='strict_string_checks=1:check_initialization_order=1:strict_init_order=1:detect_stack_use_after_return=1:allocator_may_return_null=1'
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export UBSAN_OPTIONS='print_stacktrace=1:print_summary=1:halt_on_error=1'
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cmake -GNinja -S Meta/Lagom -B Build/lagom -DENABLE_ADDRESS_SANITIZER=ON -DENABLE_UNDEFINED_SANITIZER=ON
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cd Build/lagom
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ninja
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CTEST_OUTPUT_ON_FAILURE=1 LADYBIRD_SOURCE_DIR=${PWD}/../.. ninja test
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```
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### Running the Web Platform Tests
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The Web Platform Tests can be run with the `WPT.sh` script. This script can also be used to compare the results of two
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test runs.
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Enabling the Qt chrome is recommended when running the Web Platform Tests on MacOS. This can be done by running the
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following command:
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```sh
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cmake -GNinja Build/release -DENABLE_QT=ON
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```
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Example usage:
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```sh
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# Run the WPT tests then run them again, comparing the results from the two runs
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./Meta/WPT.sh run --log expectations.log css
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git checkout my-css-change
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./Meta/WPT.sh compare --log results.log expectations.log css
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```
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```sh
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# Pull the latest changes from the upstream WPT repository
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./Meta/WPT.sh update
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# Run all of the Web Platform Tests, outputting the results to results.log
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./Meta/WPT.sh run --log results.log
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```
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### Importing Web Platform Tests
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You can import certain Web Platform Tests (WPT) tests into your Ladybird clone (if they’re tests of type that can be imported — and especially if any code changes you’re making cause Ladybird to pass any WPT tests it hasn’t yet been passing). Here’s how:
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```sh
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./Meta/WPT.sh import html/dom/aria-attribute-reflection.html
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```
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That is, you give `./Meta/WPT.sh import` the path part of any `http://wpt.live/` URL for a WPT test you want to import. It will then download both that test and any of its JavaScript scripts, copy those to the `Tests/LibWeb/<test-type>/input/wpt-import` directory, run the test, and then in the `Tests/LibWeb/<test-type>/expected/wpt-import` directory, it will create a file with the expected results from the test.
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## Writing tests
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Running `Tests/LibWeb/add_libweb_test.py your-new-test-name` will create a new test HTML file in
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`Tests/LibWeb/Text/input/your-new-test-name.html` with the correct boilerplate code for a Text test — along with
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a corresponding expectations file in `Tests/LibWeb/Text/expected/your-new-test-name.txt`.
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After you update/replace the generated boilerplate in your `your-new-test-name.html` test file with your actual test,
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running `./Meta/ladybird.sh run headless-browser --run-tests "${LADYBIRD_SOURCE_DIR}/Tests/LibWeb" --rebaseline -f Text/input/foobar.html` will
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regenerate the corresponding expectations file — to match the actual output from your updated test (where
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`/opt/ladybird` should be replaced with the absolute path your ladybird clone in your local environment).
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Future versions of the `add_libweb_test.py` script will support other test types.
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### Text tests
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Text tests are intended to test Web APIs that don't have a visual representation. They are written in JavaScript and
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run in a headless browser. Each test has a test function in a script tag that exercises the API and prints expected
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results using the `println` function. `println` calls are accumulated into an output test file, which is then
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compared to the expected output file by the test runner.
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Text tests can be either sync or async. Async tests should use the `done` callback to signal completion.
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Async tests are not necessarily run in an async context, they simply require the test function to signal completion
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when it is done. If an async context is needed to test the API, the lambda passed to `test` can be async.
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### Layout
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Layout tests compare the layout tree of a page with an expected one. They are best suited for testing layout code, but
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are also used for testing some other features that have an observable effect on the layout. No JavaScript is needed —
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once the page loads, the layout tree will be dumped automatically.
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### Ref
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Reference or "ref" tests compare a screenshot of the test page with one of a reference page. The test passes if the two
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are identical. These are ideal for testing visual effects such as background images or shadows. If you're finding it
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difficult to recreate the effect in the reference page, (such as for SVG or canvas,) consider using a Screenshot test
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instead.
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Each Ref test includes a special `<link rel="match" href="../expected/my-test-ref.html" />` tag, which the test runner
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uses to locate the reference page. In this way, multiple tests can use the same reference.
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### Screenshot
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Screenshot tests can be thought of as a subtype of Ref tests, where the reference page is a single `<img>` tag linking
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to a screenshot of the expected output. In general, try to avoid using them if a regular Ref test would do, as they are
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sensitive to small rendering changes, and won't work on all platforms.
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Like Ref tests, they require a `<link rel="match" href="../expected/my-test-ref.html" />` tag to indicate the reference
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page to use.
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