GTest ===== GTest (googletest) is Google's framework for writing C++ tests on a variety of platforms (Linux, Mac OS X, Windows, ...). Based on the xUnit architecture, it supports automatic test discovery, a rich set of assertions, user-defined assertions, death tests, fatal and non-fatal failures, value- and type-parameterized tests, various options for running the tests, and XML test report generation. Integration ----------- GTest is run as a standard test task on Win/Mac/Linux and Android, under treeherder symbol 'GTest'. Running tests ------------- The Firefox build process will build GTest on supported platforms as long as you don't disable tests in your mozconfig. However xul-gtest will only be built when tests are required to save an expensive second linking process. To run the unit tests use 'mach gtest' when invoking Gecko. Running selected tests ~~~~~~~~~~~~~~~~~~~~~~ Tests can be selected using mach. You can also use environment variables support by GTest. See `Running Test Programs: Running a Subset of the Tests `__ for more details. :: mach gtest Moz2D.* Configuring GTest ~~~~~~~~~~~~~~~~~ GTest can be controlled from other environment variables. See `Running Test Programs: Advanced Options `__ for more details. Debugging a GTest Unit Test --------------------------- To debug a gtest, pass --debug to the normal command. .. code-block:: shell ./mach gtest --debug [ Prefix.Test ] If that doesn't work, you can try running the firefox binary under the debugger with the MOZ_RUN_GTEST environment variable set to 1. .. code-block:: shell MOZ_RUN_GTEST=1 ./mach run --debug [--debugger gdb] .. warning:: Don't forget to build + run 'mach gtest' to relink when using MOZ_RUN_GTEST since it's not part of a top level build. Note that this will load an alternate libxul - the one which has the test code built in, which resides in a gtest/subdirectory of your objdir. This gtest-enabled libxul is not built as part of the regular build, so you must ensure that it is built before running the above command. A simple way to do this is to just run "mach gtest" which will rebuild libxul and run the tests. You can also extract the commands needed to just rebuild that libxul `from mach `__ and run those directly. Finally, note that you may have to run through the tests once for gdb to load all the relevant libraries and for breakpoint symbols to resolve properly. Note that you can debug a subset of the tests (including a single test) by using the GTEST_FILTER environment variable: .. code-block:: shell GTEST_FILTER='AsyncPanZoom*' MOZ_RUN_GTEST=1 ./mach run --debug [--debugger gdb] Debugging with Xcode ~~~~~~~~~~~~~~~~~~~~ See `Debugging on Mac OS X `__ for initial setup. You'll likely want to create a separate scheme for running GTest ("Product" > "Scheme" > "New Scheme…"). In addition to GTEST_FILTER, Set the following environment variables: :: MOZ_XRE_DIR=/path-to-object-directory/obj-ff-dbg/dist/bin MOZ_RUN_GTEST=True and under the "Options" tab for the scheme, set the working directory to: :: ☑️ Use custom working directory: /path-to-object-directory/obj-ff-dbg/_tests/gtest Debugging with Visual Studio Code ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Add a configuration like this to your launch.json file (you can edit it via Run / Open Configurations): :: { "name": "(gdb) Launch gtest", "type": "cppdbg", "request": "launch", "program": "${workspaceFolder}/obj-x86_64-pc-linux-gnu/dist/bin/firefox", "args": [], "stopAtEntry": false, "cwd": "${workspaceFolder}/obj-x86_64-pc-linux-gnu/_tests/gtest", "environment": [{"name": "MOZ_RUN_GTEST", "value": "True"}, {"name": "GTEST_FILTER", "value": "AsyncPanZoom*"}], "externalConsole": false, "MIMode": "gdb", "setupCommands": [ { "description": "Enable pretty-printing for gdb", "text": "-enable-pretty-printing", "ignoreFailures": true } ] }, Writing a GTest Unit Test ------------------------- Most of the `GTest documentation `__ will apply here. The `GTest primer `__ is a recommended read. .. warning:: GTest will run tests in parallel. Don't add unit tests that are not threadsafe, such as tests that require focus or use specific sockets. .. warning:: GTest will run without initializing mozilla services. Initialize and tear down any dependencies you have in your test fixtures. Avoid writing integration tests and focus on testing individual units. See https://hg.mozilla.org/mozilla-central/rev/ed612eec41a44867a for an example of how to add a simple test. If you're converting an existing C++ unit test to a GTest, `this commit `__ may serve as a useful reference. Setting prefs for a test ~~~~~~~~~~~~~~~~~~~~~~~~ If tests cover functionality that is disabled by default, you'll have to change the relevant preferences either in the individual test: :: bool oldPref = Preferences::GetBool(prefKey); Preferences::SetBool(prefKey, true); … // test code Preferences::SetBool(prefKey, oldPref); or, if it applies more broadly, the change can be applied to the whole fixture (see `the GTest docs `__, or `AutoInitializeImageLib `__ as an example). Adding a test to the build system ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Find a gtest directory appropriate for the module. If none exist create a directory using the following convention: '/tests/gtest'. Create a moz.build file (in the newly created directory) with a module declaration, replacing gfxtest with a unique name, and set UNIFIED_SOURCES to contain all of the test file names. What we're doing here is creating a list of source files that will be compiled and linked only against the gtest version of libxul. This will let these source files call internal xul symbols without making them part of the binary we ship to users. .. code-block:: # -*- Mode: python; c-basic-offset: 4; indent-tabs-mode: nil; tab-width: 40 -*- # vim: set filetype=python: # This Source Code Form is subject to the terms of the Mozilla Public # License, v. 2.0. If a copy of the MPL was not distributed with this # file, you can obtain one at https://mozilla.org/MPL/2.0/. Library('gfxtest') UNIFIED_SOURCES = [ , ] FINAL_LIBRARY = 'xul-gtest' Update '/moz.build' in the parent directory to build your new subdirectory in: .. code-block:: python TEST_DIRS += [ "gtest", ] When adding tests to an existing moz.build file (it has FINAL_LIBRARY = 'xul-gtest'), add the following. That's it--there is no test manifest required. Your tests will be automatically registered using a static constructor. .. code-block:: python UNIFIED_SOURCES = [ 'TestFoo.cpp', ] Notes ~~~~~ The include file for the class you are testing may not need to be globally exported, but it does need to be made available to the unit test you are writing. In that case, add something like this to the Makefile.in inside of the testing directory. .. code-block:: python LOCAL_INCLUDES += [ '/gfx/2d', '/gfx/2d/unittest', '/gfx/layers', ] Gtests currently run from the test package under the **GTest** symbol on `Treeherder `__ if you want to verify that your test is working. Formerly they were run under the **B** symbol, during \`make check`. MozGTestBench ------------- A Mozilla GTest Microbench is just a GTest that reports the test duration to perfherder. It's an easy way to add low level performance test. Keep in mind that there's a non-zero cost to monitoring performance test so use them sparingly. You can still perform test assertions. Writing a Microbench GTest ~~~~~~~~~~~~~~~~~~~~~~~~~~ Use 'MOZ_GTEST_BENCH' instead of 'TEST' to time the execution of your test. Example: .. code-block:: cpp #include "gtest/MozGTestBench.h" // For MOZ_GTEST_BENCH ... MOZ_GTEST_BENCH(GfxBench, TEST_NAME, []{ // Test to time the execution }); Make sure this file is registered with the file system using the instructions above. If everything worked correctly you should see this in the GTest log for your corresponding test: .. code-block:: js PERFHERDER_DATA: {"framework": {"name": "platform_microbench"}, "suites": [{"name": "GfxBench", "subtests": [{"name": "CompositorSimpleTree", "value": 252674, "lowerIsBetter": true}]}]} Sheriffing policy ~~~~~~~~~~~~~~~~~ Microbench tests measure the speed of a very specific operation. A regression in a micro-benchmark may not lead to a user visible regression and should not be treated as strictly as a Talos regression. Large changes in microbench scores will also be expected when the code is directly modified and should be accepted if the developer intended to change that code. Micro-benchmarks however provide a framework for adding performance tests for platform code and regression tests for performance fixes. They will catch unintended regressions in code and when correlated with a Talos regression might indicate the source of the regression.