// testing cancellation points #include #include #include #include #include #include #include #include "test.h" #define TESTC(c, m) ( (c) || (t_error(#c " failed (%s, " m ")\n", cdescr), 0) ) #define TESTR(f, m) do {int r; \ if ((r = (f))) t_error(#f " failed: %s (%s, " m ")\n", strerror(r), cdescr); } while (0) #define TESTE(f, m) do { \ if ((f)==-1) t_error(#f " failed: %s (%s, " m ")\n", strerror(errno), cdescr); } while (0) static sem_t sem_seq, sem_test; static int seqno; static const char *cdescr = "global initialization"; static void prepare_sem(void *arg) { TESTR(sem_init(&sem_test, 0, (long)arg), "creating semaphore"); } static void cleanup_sem(void *arg) { TESTR(sem_destroy(&sem_test), "destroying semaphore"); } static void execute_sem_wait(void *arg) { TESTR(sem_wait(&sem_test), "waiting on semaphore in the canceled thread"); } static void execute_sem_timedwait(void *arg) { struct timespec ts; clock_gettime(CLOCK_REALTIME, &ts); ts.tv_sec += 1; TESTR(sem_timedwait(&sem_test, &ts), "timed-waiting on semaphore in the canceled thread"); } static pthread_t td_test; static void *run_test(void *arg) { while (sem_wait(&sem_test)); return 0; } static void prepare_thread(void *arg) { prepare_sem(arg); TESTR(pthread_create(&td_test, 0, run_test, 0), "creating auxiliary thread"); } static void cleanup_thread(void *arg) { void *res; if (td_test) { TESTR(sem_post(&sem_test), "posting semaphore"); TESTR(pthread_join(td_test, &res), "joining auxiliary thread"); TESTC(res == 0, "auxiliary thread exit status"); } cleanup_sem(arg); } static void execute_thread_join(void *arg) { TESTR(pthread_join(td_test, 0), "joining in the canceled thread"); td_test = 0; } static void prepare_dummy(void *arg) { } static void execute_shm_open(void *arg) { int *fd = arg; TESTE(*fd = shm_open("/testshm", O_RDWR|O_CREAT, 0666), ""); } static void cleanup_shm(void *arg) { int *fd = arg; if (*fd > 0) { TESTE(close(*fd), "shm fd"); TESTE(shm_unlink("/testshm"), ""); } } static struct { int want_cancel; void (*prepare)(void *); void (*execute)(void *); void (*cleanup)(void *); void *arg; const char *descr; } scenarios[] = { {1, prepare_sem, execute_sem_wait, cleanup_sem, 0, "blocking sem_wait"}, {1, prepare_sem, execute_sem_wait, cleanup_sem, (void*)1, "non-blocking sem_wait"}, {1, prepare_sem, execute_sem_timedwait, cleanup_sem, 0, "blocking sem_timedwait"}, {1, prepare_sem, execute_sem_timedwait, cleanup_sem, (void*)1, "non-blocking sem_timedwait"}, {1, prepare_thread, execute_thread_join, cleanup_thread, 0, "blocking pthread_join"}, {1, prepare_thread, execute_thread_join, cleanup_thread, (void*)1, "non-blocking pthread_join"}, {0, prepare_dummy, execute_shm_open, cleanup_shm, &(int){0}, "shm_open"}, { 0 } }, *cur_sc = scenarios; static void *run_execute(void *arg) { pthread_setcancelstate(PTHREAD_CANCEL_DISABLE, 0); while (sem_wait(&sem_seq)); pthread_setcancelstate(PTHREAD_CANCEL_ENABLE, 0); seqno = 1; cur_sc->execute(cur_sc->arg); seqno = 2; return 0; } int main(void) { TESTR(sem_init(&sem_seq, 0, 0), "creating semaphore"); for (; cur_sc->prepare; cur_sc++) { pthread_t td; void *res; cdescr = cur_sc->descr; cur_sc->prepare(cur_sc->arg); seqno = 0; TESTR(pthread_create(&td, 0, run_execute, 0), "creating thread to be canceled"); TESTR(pthread_cancel(td), "canceling"); TESTR(sem_post(&sem_seq), "unblocking canceled thread"); TESTR(pthread_join(td, &res), "joining canceled thread"); if (cur_sc->want_cancel) { TESTC(res == PTHREAD_CANCELED, "canceled thread exit status") && TESTC(seqno == 1, "seqno"); } else { TESTC(res != PTHREAD_CANCELED, "canceled thread exit status") && TESTC(seqno == 2, "seqno"); } cur_sc->cleanup(cur_sc->arg); } return t_status; }