/* * Copyright (C) 2016 Freie Universität Berlin * * 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 xtimer_msg test application * * @author Hauke Petersen * @} */ #include #include #include "xtimer.h" #include "thread.h" #include "msg.h" /* some internally used msg types */ #define MSG_LONG (0xcafe) #define MSG_MID (0xe5e1) #define MSG_TICK (0xaffe) /* define sleep and timeout intervals */ #define MIN_TO_USEC(min) (60UL * min * US_PER_SEC) #define INT_LONG_MSG (MIN_TO_USEC(14)) #define INT_LONG_SLEEP (MIN_TO_USEC(18)) #define INT_MID_MSG (MIN_TO_USEC(3)) #define INT_MID_SLEEP (MIN_TO_USEC(5)) #define INT_SHORT (50UL * US_PER_MS) /* and some timeout conditions */ #define SHORT_MIN_REACHED (60 * 20) /* 60 * 20 * 50ms = 1min */ /* configure the print threads message queue */ #define MSG_Q_SIZE (8U) static msg_t mq[MSG_Q_SIZE]; /* allocate some stacks */ static char long_stack[THREAD_STACKSIZE_MAIN]; static char mid_stack[THREAD_STACKSIZE_MAIN]; static char short_stack[THREAD_STACKSIZE_MAIN]; /* the main threads PID */ static kernel_pid_t print_pid; /* allocate timer structs for mid- and long-term timers */ static xtimer_t long_timer; static xtimer_t mid_timer; /* and some software counters */ static int long_msg_ticks = 0; static int long_sleep_ticks = 0; static int mid_msg_ticks = 0; static int mid_sleep_ticks = 0; static int short_ticks = 0; void *long_sleep(void *arg) { (void) arg; while (1) { printf("sleep -- 18min -- %i ticks since\n", long_sleep_ticks); long_sleep_ticks = 0; xtimer_usleep(INT_LONG_SLEEP); } return NULL; } void *mid_sleep(void *arg) { (void) arg; while (1) { printf("sleep -- 5min -- %i ticks since\n", mid_sleep_ticks); mid_sleep_ticks = 0; xtimer_usleep(INT_MID_SLEEP); } return NULL; } void *ticker(void *arg) { (void)arg; xtimer_ticks32_t base = xtimer_now(); while (1) { ++short_ticks; if (short_ticks == SHORT_MIN_REACHED) { short_ticks = 0; ++long_msg_ticks; ++long_sleep_ticks; ++mid_msg_ticks; ++mid_sleep_ticks; msg_t msg; msg.type = MSG_TICK; msg_send(&msg, print_pid); } xtimer_periodic_wakeup(&base, INT_SHORT); } return NULL; } int main(void) { msg_t msg_mid, msg_long, msg; puts("xtimer long-term test"); puts("Refer to the README to get information on the expected output."); /* save the main threads PID */ print_pid = thread_getpid(); /* initialize the message queue */ msg_init_queue(mq, MSG_Q_SIZE); /* create the other threads */ thread_create(long_stack, sizeof(long_stack), THREAD_PRIORITY_MAIN - 1, 0, long_sleep, NULL, "long_sleep"); thread_create(mid_stack, sizeof(mid_stack), THREAD_PRIORITY_MAIN - 2, 0, mid_sleep, NULL, "mid_sleep"); thread_create(short_stack, sizeof(short_stack), THREAD_PRIORITY_MAIN - 3, 0, ticker, NULL, "ticks"); /* initiate the mid- and long-term messages */ msg_long.type = MSG_LONG; xtimer_set_msg(&long_timer, INT_LONG_MSG, &msg_long, print_pid); msg_mid.type = MSG_MID; xtimer_set_msg(&mid_timer, INT_MID_MSG, &msg_mid, print_pid); /* watch for incoming messages */ while (1) { msg_receive(&msg); switch (msg.type) { case MSG_LONG: printf("msg -- 14min -- %i ticks since\n", long_msg_ticks); long_msg_ticks = 0; xtimer_set_msg(&long_timer, INT_LONG_MSG, &msg_long, print_pid); break; case MSG_MID: printf("msg -- 3min -- %i ticks since\n", mid_msg_ticks); mid_msg_ticks = 0; xtimer_set_msg(&mid_timer, INT_MID_MSG, &msg_mid, print_pid); break; case MSG_TICK: puts("TICK -- 1min"); break; default: break; } } return 0; }