/* * Copyright (C) 2013 Christian Mehlis * Copyright (C) 2013 René Kijewski * Copyright (C) 2015 Martine Lenders * * This file is subject to the terms and conditions of the GNU Lesser * General Public License v2.1. See the file LICENSE in the top level * directory for more details. */ /** * @ingroup tests * @{ * * @file * @brief Semaphore test application * * @author Christian Mehlis * @author René Kijewski * @author Martine Lenders * * @} */ #include #include #include #include "fmt.h" #include "msg.h" #include "timex.h" #include "thread.h" #include "xtimer.h" #define SEMAPHORE_MSG_QUEUE_SIZE (8) #define SEMAPHORE_TEST_THREADS (5) static char test1_thread_stack[THREAD_STACKSIZE_MAIN]; static char test2_thread_stack[SEMAPHORE_TEST_THREADS][THREAD_STACKSIZE_MAIN]; static msg_t main_msg_queue[SEMAPHORE_MSG_QUEUE_SIZE]; static msg_t test1_msg_queue[SEMAPHORE_MSG_QUEUE_SIZE]; static sem_t s1; static sem_t s2; static void *test1_second_thread(void *arg) { (void) arg; msg_init_queue(test1_msg_queue, SEMAPHORE_MSG_QUEUE_SIZE); puts("second: sem_trywait"); if (sem_trywait(&s1) < 0) { puts("second: sem_trywait failed"); } puts("second: sem_trywait done with == 0"); puts("second: wait for post"); if (sem_wait(&s1) < 0) { puts("second: sem_wait failed"); } puts("second: sem was posted"); puts("second: end"); return NULL; } static void test1(void) { puts("first: sem_init"); if (sem_init(&s1, 0, 0) < 0) { puts("first: sem_init failed"); } puts("first: thread create"); kernel_pid_t pid = thread_create(test1_thread_stack, sizeof(test1_thread_stack), THREAD_PRIORITY_MAIN - 1, THREAD_CREATE_STACKTEST | THREAD_CREATE_WOUT_YIELD, test1_second_thread, NULL, "second"); if (pid == KERNEL_PID_UNDEF) { puts("first: thread create failed"); } puts("first: thread created"); puts("first: sem_getvalue"); int val; if (sem_getvalue(&s1, &val) < 0 || val != 0) { puts("first: sem_getvalue FAILED"); } puts("first: sem_getvalue != 0"); puts("first: do yield"); thread_yield(); puts("first: done yield"); /*****************************************************************************/ puts("first: sem_trywait"); if (sem_trywait(&s1) < 0) { puts("first: sem_trywait FAILED"); } puts("first: sem_trywait done"); puts("first: sem_post"); if (sem_post(&s1) < 0) { puts("first: sem_post FAILED"); } puts("first: sem_post done"); /*****************************************************************************/ puts("first: sem_destroy"); if (sem_destroy(&s1) < 0) { puts("first: sem_destroy FAILED"); } puts("first: end"); } static void *priority_sema_thread(void *name) { msg_t msg_queue[SEMAPHORE_MSG_QUEUE_SIZE]; msg_init_queue(msg_queue, SEMAPHORE_MSG_QUEUE_SIZE); sem_wait(&s1); printf("Thread '%s' woke up.\n", (const char *) name); return NULL; } char names[SEMAPHORE_TEST_THREADS][16]; void test2(void) { puts("first: sem_init"); if (sem_init(&s1, 0, 0) < 0) { puts("first: sem_init FAILED"); } for (int i = 0; i < SEMAPHORE_TEST_THREADS; i++) { int priority = THREAD_PRIORITY_MAIN - (i + 3) % 10 + 1; snprintf(names[i], sizeof(names[i]), "priority %d", priority); printf("first: thread create: %d\n", priority); kernel_pid_t pid = thread_create(test2_thread_stack[i], sizeof(test2_thread_stack[i]), priority, THREAD_CREATE_STACKTEST, priority_sema_thread, names[i], names[i]); if (pid == KERNEL_PID_UNDEF) { puts("first: thread create FAILED"); } printf("first: thread created: %s (%d/%d)\n", names[i], i + 1, SEMAPHORE_TEST_THREADS); } puts("------------------------------------------"); for (int i = 0; i < SEMAPHORE_TEST_THREADS; i++) { printf("post no. %d\n", i); sem_post(&s1); puts("Back in main thread."); } } static void *test3_one_two_thread(void *arg) { msg_t msg_queue[SEMAPHORE_MSG_QUEUE_SIZE]; (void)arg; msg_init_queue(msg_queue, SEMAPHORE_MSG_QUEUE_SIZE); sem_wait(&s1); puts("Thread 1 woke up after waiting for s1."); sem_wait(&s2); puts("Thread 1 woke up after waiting for s2."); return NULL; } static void *test3_two_one_thread(void *arg) { msg_t msg_queue[SEMAPHORE_MSG_QUEUE_SIZE]; (void)arg; msg_init_queue(msg_queue, SEMAPHORE_MSG_QUEUE_SIZE); sem_wait(&s2); puts("Thread 2 woke up after waiting for s2."); sem_wait(&s1); puts("Thread 2 woke up after waiting for s1."); return NULL; } void test3(void) { puts("first: sem_init s1"); if (sem_init(&s1, 0, 0) < 0) { puts("first: sem_init FAILED"); } puts("first: sem_init s2"); if (sem_init(&s2, 0, 0) < 0) { puts("first: sem_init FAILED"); } puts("first: create thread 1"); if (thread_create(test2_thread_stack[0], sizeof(test2_thread_stack[0]), THREAD_PRIORITY_MAIN - 1, THREAD_CREATE_STACKTEST, test3_one_two_thread, NULL, "thread 1") < 0) { puts("first: thread create FAILED"); return; } puts("first: create thread 2"); if (thread_create(test2_thread_stack[1], sizeof(test2_thread_stack[1]), THREAD_PRIORITY_MAIN - 1, THREAD_CREATE_STACKTEST, test3_two_one_thread, NULL, "thread 2") < 0) { puts("first: thread create FAILED"); return; } puts("------------------------------------------"); puts("post s1"); sem_post(&s1); puts("post s2"); sem_post(&s2); puts("post s2"); sem_post(&s2); puts("post s1"); sem_post(&s1); } void test4(void) { char uint64_str[20]; struct timespec abs; uint64_t now, start, stop; const uint64_t exp = 1000000; now = xtimer_now_usec64(); abs.tv_sec = (time_t)((now / SEC_IN_USEC) + 1); abs.tv_nsec = (long)((now % SEC_IN_USEC) * 1000); puts("first: sem_init s1"); if (sem_init(&s1, 0, 0) < 0) { puts("first: sem_init FAILED"); } start = xtimer_now_usec64(); puts("first: wait 1 sec for s1"); if (sem_timedwait(&s1, &abs) != 0) { if (errno != ETIMEDOUT) { printf("error waiting: %d\n", errno); return; } else { puts("first: timed out"); } } stop = xtimer_now_usec64() - start; if ((stop < (exp - 100)) || (stop > (exp + 100))) { fmt_u64_dec(uint64_str, stop); printf("first: waited only %s usec => FAILED\n", uint64_str); } else { fmt_u64_dec(uint64_str, stop); printf("first: waited %s usec\n", uint64_str); } } int main(void) { msg_init_queue(main_msg_queue, SEMAPHORE_MSG_QUEUE_SIZE); xtimer_init(); puts("######################### TEST1:"); test1(); puts("######################### TEST2:"); test2(); puts("######################### TEST3:"); test3(); puts("######################### TEST4:"); test4(); puts("######################### DONE"); return 0; }