/* PipeWire * * Copyright © 2021 Red Hat, Inc. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice (including the next * paragraph) shall be included in all copies or substantial portions of the * Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER * DEALINGS IN THE SOFTWARE. */ #include "config.h" #ifndef PWTEST_H #define PWTEST_H #ifdef __cplusplus extern "C" { #endif #include #include #include #include #include #include #include "spa/support/plugin.h" /** * \defgroup pwtest Test Suite * \brief `pwtest` is a test runner framework for PipeWire. * * It's modelled after other * test suites like [check](https://libcheck.github.io/check/) * and draws a lot of inspiration from the [libinput test * suite](https://wayland.freedesktop.org/libinput/doc/latest/). * * `pwtest` captures logs from the tests (and the pipewire daemon, if * applicable) and collects the output into YAML files printed to `stderr`. * * ## Tests * * A `pwtest` test is declared with the `PWTEST()` macro and must return one of * the `pwtest` status codes. Those codes are: * - \ref PWTEST_PASS for a successful test * - \ref PWTEST_FAIL for a test case failure. Usually you should not return this * value but rely on the `pwtest` macros to handle this case. * - \ref PWTEST_SKIP to skip the current test * - \ref PWTEST_SYSTEM_ERROR in case of an error that would cause the test to not run properly. This is not a test case failure but some required precondition not being met. * * ```c * #include "pwtest.h" * * PWTEST(some_test) * { * int var = 10; * const char *str = "foo"; * * if (access("/", R_OK)) * pwtest_error_with_message("Oh dear, no root directory?"); * * if (today_is_monday) * return PWTEST_SKIP; * * pwtest_int_lt(var, 20); * pwtest_ptr_notnull(&var); * pwtest_str_ne(str, "bar"); * * return PWTEST_PASS; * } * ... * ``` * * `pwtest` provides comparison macros for most basic data types with the `lt`, * `le`, `eq`, `gt`, `ge` suffixes (`<, <=, ==, >, >=`). Tests usually should not * return `PWTEST_FAIL` directly, use the `pwtest_fail()` macros if . * * By default, a test runs in a forked process, any changes to the * process'environment, etc. are discarded in the next test. * * ## Suites * * Tests are grouped into suites and declared with the PWTEST_SUITE() macro. * Each test must be added with the required arguments, it is acceptable to * add the same test multiple times with different arguments. * * ```c * ... * PWTEST_SUITE(misc) * { * if (today_is_monday) * return PWTEST_SKIP; * * // simple test * pwtest_add(some_test, PWTEST_NOARG); * // starts with its own pipewire daemon instance * pwtest_add(some_test, PWTEST_ARG_DAEMON); * * return PWTEST_SUCCESS; * } * ``` * For a list of potential arguments, see \ref pwtest_arg and the * `test-examples.c` file in the source directory. * * Suites are auto-discovered, they do not have to be manually added to a test run. * * ## Running tests * * The `pwtest` framework is built into each test binary, so just execute the * matching binary. See the `--help` output for the full argument list. * * The most useful arguments when running the test suite: * - `--verbose` to enable logs even when tests pass or are skipped * - `--filter-test=glob`, `--filter-suite=glob` uses an `fnmatch()` glob to limit which tests or suites are run * - `--no-fork` - see "Debugging test-case failures" * * ## Debugging test-case failures * * To debug a single test, disable forking and run the test through gdb: * * ``` * $ gdb path/to/test * (gdb) break test_function_name * Breakpoint 1 at 0xfffffffffffff: file ../test/test-file.c, line 123 * (gdb) r --no-fork --filter-test=test_function_name * ``` * Disabling forking makes it easy to debug but should always be used with * `--filter-test`. Any test that modifies its environment will affect * subsequent tests and may invalidate the test results. * * Where a test has multiple iterations, use `--filter-iteration` to only run * one single iteration. */ /** * \addtogroup pwtest * \{ */ /** \struct pwtest_context */ struct pwtest_context; /** \struct pwtest_suite */ struct pwtest_suite; /** \struct pwtest_test */ struct pwtest_test; #include "pwtest-implementation.h" /** * Result returned from tests or suites. */ enum pwtest_result { PWTEST_PASS = 75, /**< test successful */ PWTEST_FAIL = 76, /**< test failed. Should not be returned directly, Use the pwtest_ macros instead */ PWTEST_SKIP = 77, /**< test was skipped */ PWTEST_TIMEOUT = 78, /**< test aborted after timeout */ PWTEST_SYSTEM_ERROR = 79, /**< unrelated error occurred */ }; /** * If the test was added with a range (see \ref PWTEST_ARG_RANGE), this * function returns the current iteration within that range. Otherwise, this * function returns zero. */ int pwtest_get_iteration(struct pwtest_test *t); /** * If the test had properties set (see \ref PWTEST_ARG_PROP), this function * returns the \ref pw_properties. Otherwise, this function returns NULL. */ struct pw_properties *pwtest_get_props(struct pwtest_test *t); struct pwtest_context *pwtest_get_context(struct pwtest_test *t); /** Fail the current test */ #define pwtest_fail() \ _pwtest_fail_condition(PWTEST_FAIL, __FILE__, __LINE__, __func__, "aborting", "") /** Same as above but more expressive in the code */ #define pwtest_fail_if_reached() \ _pwtest_fail_condition(PWTEST_FAIL, __FILE__, __LINE__, __func__, "This line is supposed to be unreachable", "") /** Fail the current test with the given message */ #define pwtest_fail_with_msg(...) \ _pwtest_fail_condition(PWTEST_FAIL, __FILE__, __LINE__, __func__, \ "aborting", __VA_ARGS__) /** Error out of the current test with the given message */ #define pwtest_error_with_msg(...) \ _pwtest_fail_condition(PWTEST_SYSTEM_ERROR, __FILE__, __LINE__, __func__, \ "error", __VA_ARGS__) /** Assert r is not -1 and if it is, print the errno */ #define pwtest_errno_ok(r_) \ pwtest_errno_check(r_, 0); /** Assert r is -1 and the errno is the given one */ #define pwtest_errno(r_, errno_) \ pwtest_errno_check(r_, errno_); /** Assert r is not < 0 and if it is assume it's a negative errno */ #define pwtest_neg_errno_ok(r_) \ pwtest_neg_errno_check(r_, 0); /** Assert r is < 0 and the given negative errno */ #define pwtest_neg_errno(r_, errno_) \ pwtest_neg_errno_check(r_, errno_); /** Assert boolean (a == b) */ #define pwtest_bool_eq(a_, b_) \ pwtest_comparison_bool_(a_, ==, b_) /** Assert boolean (a != b) */ #define pwtest_bool_ne(a_, b_) \ pwtest_comparison_bool_(a_, !=, b_) /** Assert cond to be true. Convenience wrapper for readability */ #define pwtest_bool_true(cond_) \ pwtest_comparison_bool_(cond_, ==, true) /** Assert cond to be false. Convenience wrapper for readability */ #define pwtest_bool_false(cond_) \ pwtest_comparison_bool_(cond_, ==, false) /** Assert a == b */ #define pwtest_int_eq(a_, b_) \ pwtest_comparison_int_(a_, ==, b_) /** Assert a != b */ #define pwtest_int_ne(a_, b_) \ pwtest_comparison_int_(a_, !=, b_) /** Assert a < b */ #define pwtest_int_lt(a_, b_) \ pwtest_comparison_int_(a_, <, b_) /** Assert a <= b */ #define pwtest_int_le(a_, b_) \ pwtest_comparison_int_(a_, <=, b_) /** Assert a >= b */ #define pwtest_int_ge(a_, b_) \ pwtest_comparison_int_(a_, >=, b_) /** Assert a > b */ #define pwtest_int_gt(a_, b_) \ pwtest_comparison_int_(a_, >, b_) /** Assert ptr1 == ptr2 */ #define pwtest_ptr_eq(a_, b_) \ pwtest_comparison_ptr_(a_, ==, b_) /** Assert ptr1 != ptr2 */ #define pwtest_ptr_ne(a_, b_) \ pwtest_comparison_ptr_(a_, !=, b_) /** Assert ptr == NULL */ #define pwtest_ptr_null(a_) \ pwtest_comparison_ptr_(a_, ==, NULL) /** Assert ptr != NULL */ #define pwtest_ptr_notnull(a_) \ pwtest_comparison_ptr_(a_, !=, NULL) /** Assert a == b for a (hardcoded) epsilon */ #define pwtest_double_eq(a_, b_)\ pwtest_comparison_double_((a_), ==, (b_)) /** Assert a != b for a (hardcoded) epsilon */ #define pwtest_double_ne(a_, b_)\ pwtest_comparison_double_((a_), !=, (b_)) /** Assert a < b for a (hardcoded) epsilon */ #define pwtest_double_lt(a_, b_)\ pwtest_comparison_double_((a_), <, (b_)) /** Assert a <= b for a (hardcoded) epsilon */ #define pwtest_double_le(a_, b_)\ pwtest_comparison_double_((a_), <=, (b_)) /** Assert a >= b for a (hardcoded) epsilon */ #define pwtest_double_ge(a_, b_)\ pwtest_comparison_double_((a_), >=, (b_)) /** Assert a > b for a (hardcoded) epsilon */ #define pwtest_double_gt(a_, b_)\ pwtest_comparison_double_((a_), >, (b_)) #define pwtest_int(a_, op_, b_) \ pwtest_comparison_int_(a_, op_, b_) /** Assert str1 is equal to str2 */ #define pwtest_str_eq(a_, b_) \ do { \ const char *_a = a_; \ const char *_b = b_; \ if (!spa_streq(_a, _b)) \ _pwtest_fail_comparison_str(__FILE__, __LINE__, __func__, \ #a_ " equals " #b_, _a, _b); \ } while(0) /** Assert str1 is equal to str2 for l characters */ #define pwtest_str_eq_n(a_, b_, l_) \ do { \ const char *_a = a_; \ const char *_b = b_; \ if (!spa_strneq(_a, _b, l_)) \ _pwtest_fail_comparison_str(__FILE__, __LINE__, __func__, \ #a_ " equals " #b_ ", len: " #l_, _a, _b); \ } while(0) /** Assert str1 is not equal to str2 */ #define pwtest_str_ne(a_, b_) \ do { \ const char *_a = a_; \ const char *_b = b_; \ if (spa_streq(_a, _b)) \ _pwtest_fail_comparison_str(__FILE__, __LINE__, __func__, \ #a_ " not equal to " #b_, _a, _b); \ } while(0) /** Assert str1 is not equal to str2 for l characters */ #define pwtest_str_ne_n(a_, b_, l_) \ do { \ __typeof__(a_) _a = a_; \ __typeof__(b_) _b = b_; \ if (spa_strneq(_a, _b, l_)) \ _pwtest_fail_comparison_str(__FILE__, __LINE__, __func__, \ #a_ " not equal to " #b_ ", len: " #l_, _a, _b); \ } while(0) /** Assert haystack contains needle */ #define pwtest_str_contains(haystack_, needle_) \ do { \ const char *_h = haystack_; \ const char *_n = needle_; \ if (!strstr(_h, _n)) \ _pwtest_fail_comparison_str(__FILE__, __LINE__, __func__, \ #haystack_ " contains " #needle_, _h, _n); \ } while(0) /* Needs to be a #define NULL for SPA_SENTINEL */ enum pwtest_arg { PWTEST_NOARG = 0, /** * The next argument is an int specifying the numerical signal number. * The test is expected to raise that signal. The test fails if none * or any other signal is raised. * * Example: * ```c * pwtest_add(mytest, PWTEST_ARG_SIGNAL, SIGABRT); * ``` */ PWTEST_ARG_SIGNAL, /** * The next two int arguments are the minimum (inclusive) and * maximum (exclusive) range for this test. * * Example: * ```c * pwtest_add(mytest, PWTEST_ARG_RANGE, -50, 50); * ``` * Use pwtest_get_iteration() in the test function to obtain the current iteration. */ PWTEST_ARG_RANGE, /** * The next two const char * arguments are the key and value * for a property entry. This argument may be specified multiple times * to add multiple properties. * * Use pwtest_get_props() to get the properties within the test function. * * Example: * ```c * pwtest_add(mytest, * PWTEST_ARG_PROP, "key1", "value1", * PWTEST_ARG_PROP, "key2", "value2"); * ``` */ PWTEST_ARG_PROP, /** * The next two const char * arguments are the key and value * for the environment variable to be set in the test. This argument * may be specified multiple times to add multiple environment * variables. * * Example: * ```c * pwtest_add(mytest, * PWTEST_ARG_ENV, "env1", "value1", * PWTEST_ARG_ENV, "env2", "value2"); * ``` * * These environment variables are only set for the test itself, a * a pipewire daemon started with \ref PWTEST_ARG_DAEMON does not share * those variables. * */ PWTEST_ARG_ENV, /** * Takes no extra arguments. If provided, the test case will start a * pipewire daemon and stop the daemon when finished. * * The `PIPEWIRE_REMOTE` environment variable will be set in the * test to point to this daemon. * * Example: * ```c * pwtest_add(mytest, PWTEST_ARG_DAEMON); * ``` * * Environment variables specified with \ref PWTEST_ARG_ENV are * **not** available to the daemon, only to the test itself. */ PWTEST_ARG_DAEMON, }; /** * Add function \a func_ to the current test suite. * * This macro should be used within PWTEST_SUITE() to register the test in that suite, for example: * * ```c * PWTEST_SUITE(mysuite) * { * pwtest_add(test1, PWTEST_NOARG); * pwtest_add(test2, PWTEST_ARG_DAEMON); * pwtest_add(test3, PWTEST_ARG_RANGE, 0, 100, PWTEST_ARG_DAEMON); * } * * ``` * * If the test matches the given filters and the suite is executed, the test * will be executed with the parameters given to pwtest_add(). * * Arguments take a argument-dependent number of extra parameters, see * see the \ref pwtest_arg documentation for details. */ #define pwtest_add(func_, ...) \ _pwtest_add(ctx, suite, #func_, func_, __VA_ARGS__, NULL) /** * Declare a test case. To execute the test, add the test case name with pwtest_add(). * * This macro expands so each test has a struct \ref pwtest_test variable * named `current_test` available. * * ```c * PWTEST(mytest) * { * struct pwtest_test *t = current_test; * * ... do stuff ... * * return PWTEST_PASS; * } * * PWTEST_SUITE(mysuite) * { * pwtest_add(mytest); * * return PWTEST_PASS; * } * ``` */ #define PWTEST(tname) \ static enum pwtest_result tname(struct pwtest_test *current_test) /** * Initialize a test suite. A test suite is a group of related * tests that filters and other conditions may apply to. * * Test suites are automatically discovered at build-time. */ #define PWTEST_SUITE(cname) \ static enum pwtest_result (cname##__setup)(struct pwtest_context *ctx, struct pwtest_suite *suite); \ __attribute__((used)) \ __attribute__((retain)) \ __attribute__((section("pwtest_suite_section"))) \ __attribute__((aligned(__alignof__(struct pwtest_suite_decl)))) \ static const struct pwtest_suite_decl _test_suite = { \ .name = #cname, \ .setup = cname##__setup, \ }; \ static enum pwtest_result (cname##__setup)(struct pwtest_context *ctx, struct pwtest_suite *suite) struct pwtest_spa_plugin { #define PWTEST_PLUGIN_MAX 32 size_t nsupport; struct spa_support support[PWTEST_PLUGIN_MAX]; size_t ndlls; void *dlls[PWTEST_PLUGIN_MAX]; size_t nhandles; struct spa_handle *handles[PWTEST_PLUGIN_MAX]; }; struct pwtest_spa_plugin* pwtest_spa_plugin_new(void); void pwtest_spa_plugin_destroy(struct pwtest_spa_plugin *plugin); /** * Identical to pwtest_spa_plugin_try_load_interface() but returns the * interface and fails if the interface is NULL. */ void* pwtest_spa_plugin_load_interface(struct pwtest_spa_plugin *plugin, const char *libname, const char *factory_name, const char *interface_name, const struct spa_dict *info); /** * Load \a interface_name from the factory in \a libname. * If successful, the interface is returned and added to \a plugin's * support items, i.e. subsequent loads of an interface will be able to * make use of previously loaded ones. * * \return 0 on success or a negative errno on error * \retval -ENOENT \a libname does not exist * \retval -EINVAL \a factory_name does not exist in \a libname * \retval -ENOSYS \a interface_name does not exist in \a factory_name */ int pwtest_spa_plugin_try_load_interface(struct pwtest_spa_plugin *plugin, void **iface_return, const char *libname, const char *factory_name, const char *interface_name, const struct spa_dict *info); /** * Create a temporary file and copy its full path to \a path. Fails the test * with \ref PWTEST_SYSTEM_ERROR on error. * * This file does not need to be removed by the test, the pwtest framework * will take care of it on exit. */ void pwtest_mkstemp(char path[PATH_MAX]); /** * Run a command and wait for it to return. */ int pwtest_spawn(const char *file, char *const argv[]); /** * \} */ #ifdef __cplusplus } #endif #endif /* PWTEST_H */