/* * Copyright © 2007,2014 Intel Corporation * * 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. * * Authors: * Eric Anholt * Daniel Vetter * */ #ifndef IGT_CORE_H #define IGT_CORE_H #include #include #include #include #include #include #include #include #ifndef IGT_LOG_DOMAIN #define IGT_LOG_DOMAIN (NULL) #endif extern const char* __igt_test_description __attribute__((weak)); extern bool __igt_plain_output; /** * IGT_TEST_DESCRIPTION: * @str: description string * * Defines a description for a test. This is used as the output for the * "--help-description" option and is also included in the generated * documentation. */ #define IGT_TEST_DESCRIPTION(str) const char* __igt_test_description = str /** * IGT_EXIT_TIMEOUT: * * Exit status indicating a timeout occurred. */ #define IGT_EXIT_TIMEOUT 78 /** * IGT_EXIT_SKIP: * * Exit status indicating the test was skipped. */ #define IGT_EXIT_SKIP 77 /** * IGT_EXIT_SUCCESS * * Exit status indicating the test executed successfully. */ #define IGT_EXIT_SUCCESS 0 /** * IGT_EXIT_INVALID * * Exit status indicating an invalid option or subtest was specified */ #define IGT_EXIT_INVALID 79 /** * IGT_EXIT_FAILURE * * Exit status indicating a test failure */ #define IGT_EXIT_FAILURE 99 bool __igt_fixture(void); void __igt_fixture_complete(void); void __igt_fixture_end(void) __attribute__((noreturn)); /** * igt_fixture: * * Annotate global test fixture code * * Testcase with subtests often need to set up a bunch of global state as the * common test fixture. To avoid such code interfering with the subtest * enumeration (e.g. when enumerating on systems without an intel gpu) such * blocks should be annotated with igt_fixture. */ #define igt_fixture for (int igt_tokencat(__tmpint,__LINE__) = 0; \ igt_tokencat(__tmpint,__LINE__) < 1 && \ __igt_fixture() && \ (sigsetjmp(igt_subtest_jmpbuf, 1) == 0); \ igt_tokencat(__tmpint,__LINE__) ++, \ __igt_fixture_complete()) /* subtest infrastructure */ jmp_buf igt_subtest_jmpbuf; typedef int (*igt_opt_handler_t)(int opt, int opt_index, void *data); #ifndef __GTK_DOC_IGNORE__ /* gtkdoc wants to document this forward decl */ struct option; #endif int igt_subtest_init_parse_opts(int *argc, char **argv, const char *extra_short_opts, const struct option *extra_long_opts, const char *help_str, igt_opt_handler_t extra_opt_handler, void *handler_data); /** * igt_subtest_init: * @argc: argc from the test's main() * @argv: argv from the test's main() * * This initializes the for tests with subtests without the need for additional * command line options. It is just a simplified version of * igt_subtest_init_parse_opts(). * * If there's not a reason to the contrary it's less error prone to just use an * #igt_main block instead of stitching the test's main() function together * manually. */ #define igt_subtest_init(argc, argv) \ igt_subtest_init_parse_opts(&argc, argv, NULL, NULL, NULL, NULL, NULL); bool __igt_run_subtest(const char *subtest_name); #define __igt_tokencat2(x, y) x ## y /** * igt_tokencat: * @x: first variable * @y: second variable * * C preprocessor helper to concatenate two variables while properly expanding * them. */ #define igt_tokencat(x, y) __igt_tokencat2(x, y) /** * igt_subtest: * @name: name of the subtest * * This is a magic control flow block which denotes a subtest code block. Within * that code block igt_skip|success will only bail out of the subtest. The _f * variant accepts a printf format string, which is useful for constructing * combinatorial tests. * * This is a simpler version of igt_subtest_f() */ #define igt_subtest(name) for (; __igt_run_subtest((name)) && \ (sigsetjmp(igt_subtest_jmpbuf, 1) == 0); \ igt_success()) #define __igt_subtest_f(tmp, format...) \ for (char tmp [256]; \ snprintf( tmp , sizeof( tmp ), \ format), \ __igt_run_subtest( tmp ) && \ (sigsetjmp(igt_subtest_jmpbuf, 1) == 0); \ igt_success()) /** * igt_subtest_f: * @...: format string and optional arguments * * This is a magic control flow block which denotes a subtest code block. Within * that code block igt_skip|success will only bail out of the subtest. The _f * variant accepts a printf format string, which is useful for constructing * combinatorial tests. * * Like igt_subtest(), but also accepts a printf format string instead of a * static string. */ #define igt_subtest_f(f...) \ __igt_subtest_f(igt_tokencat(__tmpchar, __LINE__), f) const char *igt_subtest_name(void); bool igt_only_list_subtests(void); /** * igt_main: * * This is a magic control flow block used instead of a main() function for * tests with subtests. Open-coding the main() function is only recommended if * the test needs to parse additional command line arguments of its own. */ #define igt_main \ static void igt_tokencat(__real_main, __LINE__)(void); \ int main(int argc, char **argv) { \ igt_subtest_init_parse_opts(&argc, argv, NULL, NULL, NULL, \ NULL, NULL); \ igt_tokencat(__real_main, __LINE__)(); \ igt_exit(); \ } \ static void igt_tokencat(__real_main, __LINE__)(void) \ const char *igt_test_name(void); void igt_simple_init_parse_opts(int *argc, char **argv, const char *extra_short_opts, const struct option *extra_long_opts, const char *help_str, igt_opt_handler_t extra_opt_handler, void *handler_data); /** * igt_simple_init: * @argc: argc from the test's main() * @argv: argv from the test's main() * * This initializes a simple test without any support for subtests. * * If there's not a reason to the contrary it's less error prone to just use an * #igt_simple_main block instead of stitching the test's main() function together * manually. */ #define igt_simple_init(argc, argv) \ igt_simple_init_parse_opts(&argc, argv, NULL, NULL, NULL, NULL, NULL); /** * igt_simple_main: * * This is a magic control flow block used instead of a main() function for * simple tests. Open-coding the main() function is only recommended if * the test needs to parse additional command line arguments of its own. */ #define igt_simple_main \ static void igt_tokencat(__real_main, __LINE__)(void); \ int main(int argc, char **argv) { \ igt_simple_init_parse_opts(&argc, argv, NULL, NULL, NULL, \ NULL, NULL); \ igt_tokencat(__real_main, __LINE__)(); \ igt_exit(); \ } \ static void igt_tokencat(__real_main, __LINE__)(void) \ __attribute__((format(printf, 1, 2))) void igt_skip(const char *f, ...) __attribute__((noreturn)); __attribute__((format(printf, 5, 6))) void __igt_skip_check(const char *file, const int line, const char *func, const char *check, const char *format, ...) __attribute__((noreturn)); #define igt_skip_check(E, F...) \ __igt_skip_check(__FILE__, __LINE__, __func__, E, F) void igt_success(void); void igt_fail(int exitcode) __attribute__((noreturn)); __attribute__((format(printf, 6, 7))) void __igt_fail_assert(const char *domain, const char *file, const int line, const char *func, const char *assertion, const char *format, ...) __attribute__((noreturn)); void igt_exit(void) __attribute__((noreturn)); /** * igt_assert: * @expr: condition to test * * Fails (sub-)test if the condition is not met. * * Should be used everywhere where a test checks results. */ #define igt_assert(expr) \ do { if (!(expr)) \ __igt_fail_assert(IGT_LOG_DOMAIN, __FILE__, __LINE__, __func__, #expr , NULL); \ } while (0) /** * igt_assert_f: * @expr: condition to test * @...: format string and optional arguments * * Fails (sub-)test if the condition is not met. * * Should be used everywhere where a test checks results. * * In addition to the plain igt_assert() helper this allows to print additional * information to help debugging test failures. */ #define igt_assert_f(expr, f...) \ do { if (!(expr)) \ __igt_fail_assert(IGT_LOG_DOMAIN, __FILE__, __LINE__, __func__, #expr , f); \ } while (0) /** * igt_fail_on: * @expr: condition to test * * Fails (sub-)test if the condition is met. * * Should be used everywhere where a test checks results. */ #define igt_fail_on(expr) igt_assert(!(expr)) /** * igt_fail_on_f: * @expr: condition to test * @...: format string and optional arguments * * Fails (sub-)test if the condition is met. * * Should be used everywhere where a test checks results. * * In addition to the plain igt_assert() helper this allows to print additional * information to help debugging test failures. */ #define igt_fail_on_f(expr, f...) igt_assert_f(!(expr), f) /** * igt_assert_cmpint: * @n1: first value * @cmp: compare operator * @ncmp: negated version of @cmp * @n2: second value * * Fails (sub-)test if the condition is not met * * Should be used everywhere where a test compares two integer values. * * Like igt_assert(), but displays the values being compared on failure instead * of simply printing the stringified expression. */ #define igt_assert_cmpint(n1, cmp, ncmp, n2) \ do { \ int __n1 = (n1), __n2 = (n2); \ if (__n1 cmp __n2) ; else \ __igt_fail_assert(IGT_LOG_DOMAIN, __FILE__, __LINE__, __func__, \ #n1 " " #cmp " " #n2, \ "error: %d " #ncmp " %d\n", __n1, __n2); \ } while (0) /** * igt_assert_cmpuint: * @n1: first value * @cmp: compare operator * @ncmp: negated version of @cmp * @n2: second value * * Like igt_assert_cmpint(), but for unsigned ints. */ #define igt_assert_cmpuint(n1, cmp, ncmp, n2) \ do { \ uint32_t __n1 = (n1), __n2 = (n2); \ if (__n1 cmp __n2) ; else \ __igt_fail_assert(IGT_LOG_DOMAIN, __FILE__, __LINE__, __func__, \ #n1 " " #cmp " " #n2, \ "error: %#x " #ncmp " %#x\n", __n1, __n2); \ } while (0) /** * igt_assert_cmpu64: * @n1: first value * @cmp: compare operator * @ncmp: negated version of @cmp * @n2: second value * * Like igt_assert_cmpuint(), but for larger ints. */ #define igt_assert_cmpu64(n1, cmp, ncmp, n2) \ do { \ uint64_t __n1 = (n1), __n2 = (n2); \ if (__n1 cmp __n2) ; else \ __igt_fail_assert(IGT_LOG_DOMAIN, __FILE__, __LINE__, __func__, \ #n1 " " #cmp " " #n2, \ "error: %#llx " #ncmp " %#llx\n", (long long)__n1, (long long)__n2); \ } while (0) /** * igt_assert_cmpdouble: * @n1: first value * @cmp: compare operator * @ncmp: negated version of @cmp * @n2: second value * * Like igt_assert_cmpint(), but for doubles. */ #define igt_assert_cmpdouble(n1, cmp, ncmp, n2) \ do { \ double __n1 = (n1), __n2 = (n2); \ if (__n1 cmp __n2) ; else \ __igt_fail_assert(IGT_LOG_DOMAIN, __FILE__, __LINE__, __func__, \ #n1 " " #cmp " " #n2, \ "error: %#lf " #ncmp " %#lf\n", __n1, __n2); \ } while (0) /** * igt_assert_eq: * @n1: first integer * @n2: second integer * * Fails (sub-)test if the two integers are not equal. Beware that for now this * only works on integers. * * Like igt_assert(), but displays the values being compared on failure instead * of simply printing the stringified expression. */ #define igt_assert_eq(n1, n2) igt_assert_cmpint(n1, ==, !=, n2) /** * igt_assert_eq_u32: * @n1: first integer * @n2: second integer * * Like igt_assert_eq(), but for uint32_t. */ #define igt_assert_eq_u32(n1, n2) igt_assert_cmpuint(n1, ==, !=, n2) /** * igt_assert_eq_u64: * @n1: first integer * @n2: second integer * * Like igt_assert_eq_u32(), but for uint64_t. */ #define igt_assert_eq_u64(n1, n2) igt_assert_cmpu64(n1, ==, !=, n2) /** * igt_assert_eq_double: * @n1: first double * @n2: second double * * Like igt_assert_eq(), but for doubles. */ #define igt_assert_eq_double(n1, n2) igt_assert_cmpdouble(n1, ==, !=, n2) /** * igt_assert_neq: * @n1: first integer * @n2: second integer * * Fails (sub-)test if the two integers are equal. Beware that for now this * only works on integers. * * Like igt_assert(), but displays the values being compared on failure instead * of simply printing the stringified expression. */ #define igt_assert_neq(n1, n2) igt_assert_cmpint(n1, !=, ==, n2) /** * igt_assert_neq_u32: * @n1: first integer * @n2: second integer * * Like igt_assert_neq(), but for uint32_t. */ #define igt_assert_neq_u32(n1, n2) igt_assert_cmpuint(n1, !=, ==, n2) /** * igt_assert_neq_u64: * @n1: first integer * @n2: second integer * * Like igt_assert_neq_u32(), but for uint64_t. */ #define igt_assert_neq_u64(n1, n2) igt_assert_cmpu64(n1, !=, ==, n2) /** * igt_assert_neq_double: * @n1: first double * @n2: second double * * Like igt_assert_neq(), but for doubles. */ #define igt_assert_neq_double(n1, n2) igt_assert_cmpdouble(n1, !=, ==, n2) /** * igt_assert_lte: * @n1: first integer * @n2: second integer * * Fails (sub-)test if the second integer is strictly smaller than the first. * Beware that for now this only works on integers. * * Like igt_assert(), but displays the values being compared on failure instead * of simply printing the stringified expression. */ #define igt_assert_lte(n1, n2) igt_assert_cmpint(n1, <=, >, n2) /** * igt_assert_lt: * @n1: first integer * @n2: second integer * * Fails (sub-)test if the second integer is smaller than or equal to the first. * Beware that for now this only works on integers. * * Like igt_assert(), but displays the values being compared on failure instead * of simply printing the stringified expression. */ #define igt_assert_lt(n1, n2) igt_assert_cmpint(n1, <, >=, n2) /** * igt_assert_fd: * @fd: file descriptor * * Fails (sub-) test if the given file descriptor is invalid. * * Like igt_assert(), but displays the values being compared on failure instead * of simply printing the stringified expression. */ #define igt_assert_fd(fd) \ igt_assert_f(fd >= 0, "file descriptor " #fd " failed\n"); /** * igt_require: * @expr: condition to test * * Skip a (sub-)test if a condition is not met. * * Should be used everywhere where a test checks results to decide about * skipping. This is useful to streamline the skip logic since it allows for a more flat * code control flow, similar to igt_assert() */ #define igt_require(expr) do { \ if (!(expr)) igt_skip_check(#expr , NULL); \ else igt_debug("Test requirement passed: %s\n", #expr); \ } while (0) /** * igt_skip_on: * @expr: condition to test * * Skip a (sub-)test if a condition is met. * * Should be used everywhere where a test checks results to decide about * skipping. This is useful to streamline the skip logic since it allows for a more flat * code control flow, similar to igt_assert() */ #define igt_skip_on(expr) do { \ if ((expr)) igt_skip_check("!(" #expr ")" , NULL); \ else igt_debug("Test requirement passed: !(%s)\n", #expr); \ } while (0) /** * igt_require_f: * @expr: condition to test * @...: format string and optional arguments * * Skip a (sub-)test if a condition is not met. * * Should be used everywhere where a test checks results to decide about * skipping. This is useful to streamline the skip logic since it allows for a more flat * code control flow, similar to igt_assert() * * In addition to the plain igt_require() helper this allows to print additional * information to help debugging test failures. */ #define igt_require_f(expr, f...) do { \ if (!(expr)) igt_skip_check(#expr , f); \ else igt_debug("Test requirement passed: %s\n", #expr); \ } while (0) /** * igt_skip_on_f: * @expr: condition to test * @...: format string and optional arguments * * Skip a (sub-)test if a condition is met. * * Should be used everywhere where a test checks results to decide about * skipping. This is useful to streamline the skip logic since it allows for a more flat * code control flow, similar to igt_assert() * * In addition to the plain igt_skip_on() helper this allows to print additional * information to help debugging test failures. */ #define igt_skip_on_f(expr, f...) do { \ if ((expr)) igt_skip_check("!("#expr")", f); \ else igt_debug("Test requirement passed: !(%s)\n", #expr); \ } while (0) /* fork support code */ bool __igt_fork(void); /** * igt_fork: * @child: name of the int variable with the child number * @num_children: number of children to fork * * This is a magic control flow block which spawns parallel test threads with * fork(). * * The test children execute in parallel to the main test thread. Joining all * test threads should be done with igt_waitchildren to ensure that the exit * codes of all children are properly reflected in the test status. * * Note that igt_skip() will not be forwarded, feature tests need to be done * before spawning threads with igt_fork(). */ #define igt_fork(child, num_children) \ for (int child = 0; child < (num_children); child++) \ for (; __igt_fork(); exit(0)) void igt_waitchildren(void); void igt_waitchildren_timeout(int seconds, const char *reason); /** * igt_helper_process: * @running: indicates whether the process is currently running * @use_SIGKILL: whether the helper should be terminated with SIGKILL or SIGTERM * @pid: pid of the helper if @running is true * @id: internal id * * Tracking structure for helper processes. Users of the i-g-t library should * only set @use_SIGKILL directly. */ struct igt_helper_process { bool running; bool use_SIGKILL; pid_t pid; int id; }; bool __igt_fork_helper(struct igt_helper_process *proc); /** * igt_fork_helper: * @proc: #igt_helper_process structure * * This is a magic control flow block which denotes an asynchronous helper * process block. The difference compared to igt_fork() is that failures from * the child process will not be forwarded, making this construct more suitable * for background processes. Common use cases are regular interference of the * main test thread through e.g. sending signals or evicting objects through * debugfs. Through the explicit #igt_helper_process they can also be controlled * in a more fine-grained way than test children spawned through igt_fork(). * * For tests with subtest helper process can be started outside of a * #igt_subtest block. * * Calling igt_wait_helper() joins a helper process and igt_stop_helper() * forcefully terminates it. */ #define igt_fork_helper(proc) \ for (; __igt_fork_helper(proc); exit(0)) int igt_wait_helper(struct igt_helper_process *proc); void igt_stop_helper(struct igt_helper_process *proc); /* exit handler code */ /** * igt_exit_handler_t: * @sig: Signal number which caused the exit or 0. * * Exit handler type used by igt_install_exit_handler(). Note that exit handlers * can potentially be run from signal handling contexts, the @sig parameter can * be used to figure this out and act accordingly. */ typedef void (*igt_exit_handler_t)(int sig); /* reliable atexit helpers, also work when killed by a signal (if possible) */ void igt_install_exit_handler(igt_exit_handler_t fn); void igt_enable_exit_handler(void); void igt_disable_exit_handler(void); /* helpers to automatically reduce test runtime in simulation */ bool igt_run_in_simulation(void); /** * SLOW_QUICK: * @slow: value in simulation mode * @quick: value in normal mode * * Simple macro to select between two values (e.g. number of test rounds or test * buffer size) depending upon whether i-g-t is run in simulation mode or not. */ #define SLOW_QUICK(slow,quick) (igt_run_in_simulation() ? (quick) : (slow)) void igt_skip_on_simulation(void); extern const char *igt_interactive_debug; /* structured logging */ enum igt_log_level { IGT_LOG_DEBUG, IGT_LOG_INFO, IGT_LOG_WARN, IGT_LOG_CRITICAL, IGT_LOG_NONE, }; __attribute__((format(printf, 3, 4))) void igt_log(const char *domain, enum igt_log_level level, const char *format, ...); __attribute__((format(printf, 3, 0))) void igt_vlog(const char *domain, enum igt_log_level level, const char *format, va_list args); /** * igt_debug: * @...: format string and optional arguments * * Wrapper for igt_log() for message at the IGT_LOG_DEBUG level. */ #define igt_debug(f...) igt_log(IGT_LOG_DOMAIN, IGT_LOG_DEBUG, f) /** * igt_info: * @...: format string and optional arguments * * Wrapper for igt_log() for message at the IGT_LOG_INFO level. */ #define igt_info(f...) igt_log(IGT_LOG_DOMAIN, IGT_LOG_INFO, f) /** * igt_warn: * @...: format string and optional arguments * * Wrapper for igt_log() for message at the IGT_LOG_WARN level. */ #define igt_warn(f...) igt_log(IGT_LOG_DOMAIN, IGT_LOG_WARN, f) /** * igt_critical: * @...: format string and optional arguments * * Wrapper for igt_log() for message at the IGT_LOG_CRITICAL level. */ #define igt_critical(f...) igt_log(IGT_LOG_DOMAIN, IGT_LOG_CRITICAL, f) extern enum igt_log_level igt_log_level; /** * igt_warn_on: * @condition: condition to test * * Print a IGT_LOG_WARN level message if a condition is not met. * * Should be used everywhere where a test checks results to decide about * printing warnings. This is useful to streamline the test logic since it * allows for a more flat code control flow, similar to igt_assert() */ #define igt_warn_on(condition) do {\ if (condition) \ igt_warn("Warning on condition %s in fucntion %s, file %s:%i\n", \ #condition, __func__, __FILE__, __LINE__); \ } while (0) /** * igt_warn_on_f: * @condition: condition to test * @...: format string and optional arguments * * Skip a (sub-)test if a condition is not met. * * Print a IGT_LOG_WARN level message if a condition is not met. * * Should be used everywhere where a test checks results to decide about * printing warnings. This is useful to streamline the test logic since it * allows for a more flat code control flow, similar to igt_assert() * * In addition to the plain igt_warn_on_f() helper this allows to print * additional information (again as warnings) to help debugging test failures. */ #define igt_warn_on_f(condition, f...) do {\ if (condition) {\ igt_warn("Warning on condition %s in fucntion %s, file %s:%i\n", \ #condition, __func__, __FILE__, __LINE__); \ igt_warn(f); \ } \ } while (0) void igt_set_timeout(unsigned int seconds, const char *op); void igt_reset_timeout(void); FILE *__igt_fopen_data(const char* igt_srcdir, const char* igt_datadir, const char* filename); /** * igt_fopen_data: * @filename: filename to open. * * Open a datafile for test, first try from installation directory * then from build directory. */ #define igt_fopen_data(filename) \ __igt_fopen_data(IGT_SRCDIR, IGT_DATADIR, filename) #endif /* IGT_CORE_H */