Weston test suite¶
Weston test suite aims to test features of the Weston compositor and libweston.
The automatic tests are executed as part of meson test
and in the Gitlab CI.
In addition to automatic tests, there are few manual tests that have not been
automated, but being manual means they are also not routinely (or ever)
executed.
Test execution¶
The test execution hierarchy is:
meson test
a test program
a fixture setup
a test
a sub-test from a data array
When meson test
is executed, it will run all defined test programs
potentially in parallel and collect their exit status. Therefore it is
important to design each test program to be executable in parallel with every
other test program.
A test program is essentially one .c
source code file that is built into
one executable file (not a library, module, or plugin). Each test program is
possible to run manually without Meson straight from the build directory
without any environment or command line setup, e.g. with GDB or Valgrind.
A test program may define one fixture setup function. The function may be defined alone or with a data array of an arbitrary data type. If an array is defined, the fixture setup will be called and all the tests in the program executed for each element in the array serially. Fixture setups are used for setting up the Weston compositor for the tests that need it. The array is useful for running the compositor with different settings for the same tests, e.g. with Pixman-renderer and GL-renderer.
A test in a test program is defined with one of the macros TEST()
,
TEST_P()
, or PLUGIN_TEST()
. TEST()
defines a single
test with no sub-tests. TEST_P()
defines a data-driven array of tests:
a set of sub-tests. PLUGIN_TEST()
is used specifically by plugin
tests that require access to weston_compositor
.
All tests and sub-tests are executed serially in a test program. The test
harness does not fork()
which means that any test that crashes or hits an
assert failure will quit the whole test program on the spot, leaving following
tests in that program not executed.
The test suite has no tests that are expected to fail in general. All tests that test for a failure must check the exact error condition expected and succeed if it is met or fail for any other or no error.
Types of tests¶
Aside from manual vs. automatic, there are three types of tests:
- Standalone tests
Standalone tests do not launch the full compositor.
- Plugin tests
Plugin tests launch the Weston compositor and execute the list of tests from an idle callback handler in the compositor context, blocking the compositor while they run.
- Client tests
Client tests launch the Weston compositor and execute the list of tests in a new thread that is created from an idle callback handler. This means the compositor runs independently from the tests and one can write a test like as a normal Wayland client.
The type of all the tests in a test program is defined by the fixture setup
function. A fixture setup function is any defined function with a specific
signature and registered with either DECLARE_FIXTURE_SETUP()
or
DECLARE_FIXTURE_SETUP_WITH_ARG()
.
Standalone tests¶
Standalone tests do not have a fixture setup function defined in the test
program or the fixture setup function calls
weston_test_harness_execute_standalone()
explicitly. All test cases must
be defined with TEST()
or TEST_P()
.
This is the simplest possible test example:
TEST(always_success)
{
/* true */
}
Plugin tests¶
Plugin tests must have a fixture setup function that calls
weston_test_harness_execute_as_plugin()
. All test cases must be defined
with PLUGIN_TEST()
which declares an implicit function argument
weston_compositor
*compositor
.
The compositor fixture manufactures the necessary environment variables and the
command line argument array to launch Weston, and calls wet_main()
directly. An idle task handler is registered, which gets invoked when
initialization is done. All tests are executed from that idle handler, and then
the compositor exits.
This is an example of a plugin test that just logs a line:
static enum test_result_code
fixture_setup(struct weston_test_harness *harness)
{
struct compositor_setup setup;
compositor_setup_defaults(&setup);
return weston_test_harness_execute_as_plugin(harness, &setup);
}
DECLARE_FIXTURE_SETUP(fixture_setup);
PLUGIN_TEST(plugin_registry_test)
{
/* struct weston_compositor *compositor; */
testlog("Got compositor %p\n", compositor);
}
Client tests¶
Plugin tests must have a fixture setup function that calls
weston_test_harness_execute_as_client()
. All test cases must be
defined with TEST()
or TEST_P()
.
The compositor fixture manufactures the necessary environment variables and the
command line argument array to launch Weston, and calls wet_main()
directly. An idle task handler is registered, which gets invoked when
initialization is done. The idle handler creates a new thread and returns. The
new thread will execute all tests and then signal the compositor to exit.
This is an incomplete example of an array of sub-tests and another test as clients:
static enum test_result_code
fixture_setup(struct weston_test_harness *harness)
{
struct compositor_setup setup;
compositor_setup_defaults(&setup);
return weston_test_harness_execute_as_client(harness, &setup);
}
DECLARE_FIXTURE_SETUP(fixture_setup);
struct bad_source_rect_args {
int x, y, w, h;
};
static const struct bad_source_rect_args bad_source_rect_args[] = {
{ -5, 0, 20, 10 },
{ 0, -5, 20, 10 },
{ 5, 6, 0, 10 },
{ 5, 6, 20, 0 },
{ 5, 6, -20, 10 },
{ 5, 6, 20, -10 },
{ -1, -1, 20, 10 },
{ 5, 6, -1, -1 },
};
TEST_P(test_viewporter_bad_source_rect, bad_source_rect_args)
{
const struct bad_source_rect_args *args = data;
struct client *client;
struct wp_viewport *vp;
client = create_client_and_test_surface(100, 50, 123, 77);
vp = create_viewport(client);
testlog("wp_viewport.set_source x=%d, y=%d, w=%d, h=%d\n",
args->x, args->y, args->w, args->h);
set_source(vp, args->x, args->y, args->w, args->h);
expect_protocol_error(client, &wp_viewport_interface,
WP_VIEWPORT_ERROR_BAD_VALUE);
}
TEST(test_roundtrip)
{
struct client *client;
client = create_client_and_test_surface(100, 50, 123, 77);
client_roundtrip(client);
}
Writing tests¶
Test programs do not have a main()
of their own. They all share the
main()
from the test harness and only define test cases and a fixture
setup.
It is recommended to have one test program (one .c
file) contain only one
type of tests to keep the fixture setup simple. See
Standalone tests, Plugin tests and
Client tests how to set up each type in a test program.
Note
TODO: Currently it is not possible to gracefully skip or fail a test.
You can skip with exit(RESULT_SKIP)
but that will quit the whole test
program and all defined tests that were not ran yet will be counted as
failed. You can fail a test by any means, e.g. exit(RESULT_FAIL)
, but
the same caveat applies. Succeeded tests must simply return and not call any
exit function.