/* * Copyright © 2014, 2015 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: * Daniel Vetter * */ #ifndef IGT_AUX_H #define IGT_AUX_H #include #include #include #include #include #include #ifdef __linux__ # include #endif #include #include "igt_core.h" #include "igt_os.h" /* signal interrupt helpers */ #ifdef __linux__ # ifndef HAVE_GETTID # define gettid() (pid_t)(syscall(__NR_gettid)) # endif #endif #define sigev_notify_thread_id _sigev_un._tid /* auxialiary igt helpers from igt_aux.c */ /* generally useful helpers */ void igt_fork_signal_helper(void); void igt_stop_signal_helper(void); void igt_suspend_signal_helper(void); void igt_resume_signal_helper(void); void igt_fork_shrink_helper(int fd); void igt_stop_shrink_helper(void); void igt_fork_hang_detector(int fd); void igt_stop_hang_detector(void); struct __igt_sigiter { unsigned pass; }; bool __igt_sigiter_continue(struct __igt_sigiter *iter, bool interrupt); /** * igt_while_interruptible: * @enable: enable igt_ioctl interrupting or not * * Provides control flow such that all drmIoctl() (strictly igt_ioctl()) * within the loop are forcibly injected with signals (SIGRTMIN). * * This is useful to exercise ioctl error paths, at least where those can be * exercises by interrupting blocking waits, like stalling for the gpu. * * The code block attached to this macro is run in a loop with doubling the * interrupt timeout on each ioctl for every run, until no ioctl gets * interrupted any more. The starting timeout is taken to be the signal delivery * latency, measured at runtime. This way the any ioctls called from this code * block should be exhaustively tested for all signal interruption paths. * * Note that since this overloads the igt_ioctl(), this method is not useful * for widespread signal injection, for example providing coverage of * pagefaults. To interrupt everything, see igt_fork_signal_helper(). */ #define igt_while_interruptible(enable) \ for (struct __igt_sigiter iter__={}; __igt_sigiter_continue(&iter__, (enable)); ) /** * igt_until_timeout: * @timeout: timeout in seconds * * Convenience macro loop to run the provided code block in a loop until the * timeout has expired. Of course when an individual execution takes too long, * the actual execution time could be a lot longer. * * The code block will be executed at least once. */ #define igt_until_timeout(timeout) \ for (struct timespec t__={}; igt_seconds_elapsed(&t__) < (timeout); ) /** * igt_for_milliseconds: * @time: how long to run the loop in milliseconds * * Convenience macro loop to run the provided code block in a loop until the * target interval has expired. Of course when an individual execution takes * too long, the actual execution time could be a lot longer. * * The code block will be executed at least once. */ #define igt_for_milliseconds(t) \ for (struct timespec t__={}; igt_nsec_elapsed(&t__)>>20 < (t); ) void igt_exchange_int(void *array, unsigned i, unsigned j); void igt_exchange_int64(void *array, unsigned i, unsigned j); void igt_permute_array(void *array, unsigned size, void (*exchange_func)(void *array, unsigned i, unsigned j)); void igt_progress(const char *header, uint64_t i, uint64_t total); void igt_print_activity(void); bool igt_check_boolean_env_var(const char *env_var, bool default_value); bool igt_aub_dump_enabled(void); /* suspend/hibernate and auto-resume system */ /** * igt_suspend_state: * @SUSPEND_STATE_FREEZE: suspend-to-idle target state, aka S0ix or freeze, * first non-hibernation state * @SUSPEND_STATE_STANDBY: standby target state, aka S1, second * non-hibernation state * @SUSPEND_STATE_MEM: suspend-to-mem target state aka S3, third * non-hibernation state * @SUSPEND_STATE_DISK: suspend-to-disk target state, aka S4 or hibernation * * Target suspend states used with igt_system_suspend_autoresume(). * See /sys/power/state for the available states on a given machine. */ enum igt_suspend_state { SUSPEND_STATE_FREEZE, SUSPEND_STATE_STANDBY, SUSPEND_STATE_MEM, SUSPEND_STATE_DISK, /*< private >*/ SUSPEND_STATE_NUM, }; /** * igt_suspend_test: * @SUSPEND_TEST_NONE: no testing, perform a full suspend/resume cycle * @SUSPEND_TEST_FREEZER: complete cycle after freezing all freezable threads * @SUSPEND_TEST_DEVICES: complete cycle after the above step and suspending * devices (before calling the drivers' suspend late and * no_irq hooks). Platform and system devices are not * suspended here, see #SUSPEND_TEST_CORE. * @SUSPEND_TEST_PLATFORM: complete cycle after all the above steps and calling * the ACPI platform global control methods (applies * only with /sys/power/disk set to platform) * @SUSPEND_TEST_PROCESSORS: complete cycle after all the above steps and * disabling non-boot CPUs * @SUSPEND_TEST_CORE: complete cycle after all the above steps and suspending * platform and system devices * * Test points used with igt_system_suspend_autoresume(). Specifies if and where * the suspend sequence is to be terminated. */ enum igt_suspend_test { SUSPEND_TEST_NONE, SUSPEND_TEST_FREEZER, SUSPEND_TEST_DEVICES, SUSPEND_TEST_PLATFORM, SUSPEND_TEST_PROCESSORS, SUSPEND_TEST_CORE, /*< private >*/ SUSPEND_TEST_NUM, }; /** * igt_mem_sleep: * @MEM_SLEEP_NONE: no support * @MEM_SLEEP_FREEZE: suspend-to-idle target state, aka S0ix or freeze, * @MEM_SLEEP_STANDBY: standby target state, aka S1 * @MEM_SLEEP_MEM: suspend-to-mem target state aka S3 */ enum igt_mem_sleep { MEM_SLEEP_NONE, MEM_SLEEP_FREEZE, MEM_SLEEP_STANDBY, MEM_SLEEP_MEM, /**/ MEM_SLEEP_NUM, }; void igt_system_suspend_autoresume(enum igt_suspend_state state, enum igt_suspend_test test); void igt_set_autoresume_delay(int delay_secs); int igt_get_autoresume_delay(enum igt_suspend_state state); int igt_get_memsleep_state(void); /* dropping priviledges */ void igt_drop_root(void); void igt_debug_wait_for_keypress(const char *var); void igt_debug_interactive_mode_check(const char *var, const char *expected); #define __typecheck(x, y) \ (!!(sizeof((typeof(x) *)1 == (typeof(y) *)1))) #define __cmp(x, y, op) ((x) op (y) ? (x) : (y)) #define __cmp_once(x, y, unique_x, unique_y, op) ({ \ typeof(x) unique_x = (x); \ typeof(y) unique_y = (y); \ __cmp(unique_x, unique_y, op); \ }) #define __is_constexpr(x) \ (sizeof(int) == sizeof(*(8 ? ((void *)((long)(x) * 0l)) : (int *)8))) #define __no_side_effects(x, y) \ (__is_constexpr(x) && __is_constexpr(y)) #define __safe_cmp(x, y) \ (__typecheck(x, y) && __no_side_effects(x, y)) #define __careful_cmp(x, y, op, prefix) \ __builtin_choose_expr(__safe_cmp(x, y), \ __cmp(x, y, op), \ __cmp_once(x, y, igt_unique(igt_tokencat(prefix, __x)), igt_unique(igt_tokencat(prefix, __y)), op)) #define min(x, y) __careful_cmp(x, y, <, min) #define max(x, y) __careful_cmp(x, y, >, max) #define clamp(val, lo, hi) min(max(val, lo), hi) #define min_t(t, x, y) __careful_cmp((typeof(t))x, (typeof(t))y, <, min_t) #define max_t(t, x, y) __careful_cmp((typeof(t))x, (typeof(t))y, >, max_t) #define igt_swap(a, b) do { \ typeof(a) _tmp = (a); \ _Static_assert(__typecheck(a, b), "type mismatch for swap"); \ (a) = (b); \ (b) = _tmp; \ } while (0) void igt_lock_mem(size_t size); void igt_unlock_mem(void); /** * igt_wait: * @COND: condition to wait * @timeout_ms: timeout in milliseconds * @interval_ms: amount of time we try to sleep between COND checks * * Waits until COND evaluates to true or the timeout passes. * * It is safe to call this macro if the signal helper is active. The only * problem is that the usleep() calls will return early, making us evaluate COND * too often, possibly eating valuable CPU cycles. * * Returns: * True of COND evaluated to true, false otherwise. */ #define igt_wait(COND, timeout_ms, interval_ms) ({ \ const unsigned long interval_us__ = 1000 * (interval_ms); \ const unsigned long timeout_ms__ = (timeout_ms); \ struct timespec tv__ = {}; \ bool ret__; \ \ do { \ uint64_t elapsed__ = igt_nsec_elapsed(&tv__) >> 20; \ \ if (COND) { \ igt_debug("%s took %"PRIu64"ms\n", #COND, elapsed__); \ ret__ = true; \ break; \ } \ if (elapsed__ > timeout_ms__) { \ ret__ = false; \ break; \ } \ \ usleep(interval_us__); \ } while (1); \ \ ret__; \ }) struct igt_mean; void igt_start_siglatency(int sig); /* 0 => SIGRTMIN (default) */ double igt_stop_siglatency(struct igt_mean *result); bool igt_allow_unlimited_files(void); int igt_is_process_running(const char *comm); int igt_terminate_process(int sig, const char *comm); void igt_lsof(const char *dpath); int igt_lsof_kill_audio_processes(void); int pipewire_pulse_start_reserve(void); void pipewire_pulse_stop_reserve(void); #define igt_hweight(x) \ __builtin_choose_expr(sizeof(x) == 8, \ __builtin_popcountll(x), \ __builtin_popcount(x)) #define is_power_of_two(x) (((x) & ((x)-1)) == 0) #define igt_fls(x) ((x) ? __builtin_choose_expr(sizeof(x) == 8, \ 64 - __builtin_clzll(x), \ 32 - __builtin_clz(x)) : 0) #define roundup_power_of_two(x) ((x) != 0 ? 1 << igt_fls((x) - 1) : 0) #define DIV_ROUND_UP(n, d) (((n) + (d) - 1) / (d)) uint64_t vfs_file_max(void); void *igt_memdup(const void *ptr, size_t len); #endif /* IGT_AUX_H */