/* Checks that when the alarm clock wakes up threads, the higher-priority threads run first. */ #include #include "tests/threads/tests.h" #include "threads/init.h" #include "threads/malloc.h" #include "threads/synch.h" #include "threads/thread.h" #include "devices/timer.h" static thread_func alarm_priority_thread; static int64_t wake_time; static struct semaphore wait_sema; void test_alarm_priority (void) { int i; /* This test does not work with the MLFQS. */ ASSERT (!thread_mlfqs); wake_time = timer_ticks () + 5 * TIMER_FREQ; sema_init (&wait_sema, 0); for (i = 0; i < 10; i++) { int priority = PRI_DEFAULT - (i + 5) % 10 - 1; char name[16]; snprintf (name, sizeof name, "priority %d", priority); thread_create (name, priority, alarm_priority_thread, NULL); } thread_set_priority (PRI_MIN); for (i = 0; i < 10; i++) sema_down (&wait_sema); } static void alarm_priority_thread (void *aux UNUSED) { /* Busy-wait until the current time changes. */ int64_t start_time = timer_ticks (); while (timer_elapsed (start_time) == 0) continue; /* Now we know we're at the very beginning of a timer tick, so we can call timer_sleep() without worrying about races between checking the time and a timer interrupt. */ timer_sleep (wake_time - timer_ticks ()); /* Print a message on wake-up. */ msg ("Thread %s woke up.", thread_name ()); sema_up (&wait_sema); }