void *student_tests(int arg1, void *arg2) {
kmutex_init(&mutex);
kmutex_init(&reader_mutex);
kmutex_init(&writer_mutex);
/* Student Test 1 */
int rv = 0;
int i = 0;
dbg_print("broadcast order test");
race2 = 0;
for (i = 0; i < 10; i++ )
start_proc("broadcast order test", broadcast_order, 0);
stop_until_queued(10, &wake_me_len2);
race2 = 0;
sched_broadcast_on(&wake_me_q);
wait_for_all();
KASSERT(wake_me_len2 == 0 && "Error on wakeme bookkeeping");
/* Student Test 2 */
int checkVal = 0;
dbg_print("reader writer test");
start_proc("reader writer test", reader, 0);
start_proc("reader writer test", reader, 0);
start_proc("reader writer test", writer, 0);
checkVal++;
start_proc("reader writer test", reader, 1);
start_proc("reader writer test", reader, 1);
start_proc("reader writer test", reader, 1);
start_proc("reader writer test", writer, 0);
checkVal++;
start_proc("reader writer test", writer, 0);
checkVal++;
start_proc("reader writer test", reader, 3);
start_proc("reader writer test", reader, 3);
wait_for_all();
KASSERT(checkVal == rwval && "Error in Reader Writer!");
return NULL;
}
/* The core testproc code */
void *testproc(int arg1, void *arg2) {
proc_thread_t pt;
pid_t pid = -1;
int rv = 0;
int i = 0;
#if CS402TESTS > 0
dbg_print("waitpid any test");
start_proc(&pt, "waitpid any test", waitpid_test, 23);
wait_for_any();
dbg_print("waitpid test");
start_proc(&pt, "waitpid test", waitpid_test, 32);
pid = do_waitpid(2323, 0, &rv);
if ( pid != -ECHILD ) dbg_print("Allowed wait on non-existent pid\n");
wait_for_proc(pt.p);
/*
dbg_print("kthread exit test");
start_proc(&pt, "kthread exit test", kthread_exit_test, 0);
wait_for_proc(pt.p);
*/
/*
dbg_print("many test");
for (i = 0; i < 10; i++)
start_proc(NULL, "many test", waitpid_test, i);
wait_for_all();a
*/
#endif
#if CS402TESTS > 1
dbg_print("Context switch test");
start_proc(&pt, "Context switch", racer_test, 0);
wait_for_proc(pt.p);
#endif
#if CS402TESTS > 2
sched_queue_init(&wake_me_q);
dbg_print("wake me test");
wake_me_len = 0;
start_proc(&pt, "wake me test", wakeme_test, 0);
/* Make sure p has blocked */
stop_until_queued(1, &wake_me_len);
sched_wakeup_on(&wake_me_q);
wait_for_proc(pt.p);
KASSERT(wake_me_len == 0 && "Error on wakeme bookkeeping");
dbg_print("broadcast me test");
for (i = 0; i < 10; i++ )
start_proc(NULL, "broadcast me test", wakeme_test, 0);
stop_until_queued(10, &wake_me_len);
/* Make sure the processes have blocked */
sched_broadcast_on(&wake_me_q);
wait_for_all();
KASSERT(wake_me_len == 0 && "Error on wakeme bookkeeping");
#endif
#if CS402TESTS > 3
dbg_print("wake me uncancellable test");
start_proc(&pt, "wake me uncancellable test",
wakeme_uncancellable_test, 0);
/* Make sure p has blocked */
stop_until_queued(1, &wake_me_len);
sched_wakeup_on(&wake_me_q);
wait_for_proc(pt.p);
KASSERT(wake_me_len == 0 && "Error on wakeme bookkeeping");
dbg_print("broadcast me uncancellable test");
for (i = 0; i < 10; i++ )
start_proc(NULL, "broadcast me uncancellable test",
wakeme_uncancellable_test, 0);
/* Make sure the processes have blocked */
stop_until_queued(10, &wake_me_len);
sched_broadcast_on(&wake_me_q);
wait_for_all();
KASSERT(wake_me_len == 0 && "Error on wakeme bookkeeping");
#endif
#if CS402TESTS > 4
dbg_print("cancel me test");
start_proc(&pt, "cancel me test", cancelme_test, 0);
/* Make sure p has blocked */
stop_until_queued(1, &wake_me_len);
sched_cancel(pt.t);
wait_for_proc(pt.p);
KASSERT(wake_me_len == 0 && "Error on wakeme bookkeeping");
dbg_print("prior cancel me test");
start_proc(&pt, "prior cancel me test", cancelme_test, 0);
/* Cancel before sleep */
sched_cancel(pt.t);
wait_for_proc(pt.p);
KASSERT(wake_me_len == 0 && "Error on wakeme bookkeeping");
dbg_print("cancel me head test");
start_proc(&pt, "cancel me head test", cancelme_test, 0);
start_proc(NULL, "cancel me head test", wakeme_test, 0);
stop_until_queued(2, &wake_me_len);
sched_cancel(pt.t);
sched_wakeup_on(&wake_me_q);
wait_for_all();
KASSERT(wake_me_len == 0 && "Error on wakeme bookkeeping");
dbg_print("cancel me tail test");
start_proc(NULL, "cancel me tail test", wakeme_test, 0);
start_proc(&pt, "cancel me tail test", cancelme_test, 0);
stop_until_queued(2, &wake_me_len);
sched_cancel(pt.t);
sched_wakeup_on(&wake_me_q);
wait_for_all();
KASSERT(wake_me_len == 0 && "Error on wakeme bookkeeping");
#endif
#if CS402TESTS > 5
dbg_print("Reparenting test");
start_proc(NULL, "Reparenting test", reparent_test, 1);
stop_until_queued(1, &wake_me_len);
sched_wakeup_on(&wake_me_q);
wait_for_all();
stop_until_zero(&wake_me_len);
dbg_print("Reparenting stress test");
start_proc(NULL, "Reparenting stress test", reparent_test, 10);
stop_until_queued(10, &wake_me_len);
sched_broadcast_on(&wake_me_q);
wait_for_all();
stop_until_zero(&wake_me_len);
KASSERT(wake_me_len == 0 && "Error on wakeme bookkeeping");
#endif
#if CS402TESTS > 6
kmutex_init(&mutex);
dbg_print("show race test");
race = 0;
for (i = 0; i < 10; i++ )
start_proc(NULL, "show race test", racer_test, 0);
wait_for_all();
dbg_print("fix race test");
race = 0;
for (i = 0; i < 10; i++ )
start_proc(NULL, "fix race test", mutex_uncancellable_test, 0);
wait_for_all();
dbg_print("fix race test w/cancel");
race = 0;
for (i = 0; i < 10; i++ ) {
if ( i % 2 == 0) {
start_proc(NULL, "fix race test w/cancel", mutex_test, 0);
} else {
start_proc(&pt, "fix race test w/cancel", mutex_test_cancelme, 0);
sched_cancel(pt.t);
}
}
wait_for_all();
#endif
#if CS402TESTS > 7
dbg_print("kill all test");
for ( i=0 ; i < 10; i++ )
start_proc(NULL, "kill all test", cancelme_test, 0);
stop_until_queued(10, &wake_me_len);
proc_kill_all();
wait_for_all();
KASSERT(wake_me_len == 0 && "Error on wakeme bookkeeping");
#endif
#if CS402TESTS > 8
student_tests(arg1, arg2);
#endif
dbg_print("All tests completed\n\n");
return NULL;
}
