/* * Copyright (c) 2002, Intel Corporation. All rights reserved. * This file is licensed under the GPL license. For the full content * of this license, see the COPYING file at the top level of this * source tree. * Test pthread_rwlock_timedwrlock(pthread_rwlock_t * rwlock) * * If a signal that causes a signal handler to be executed is delivered to * a thread blocked on a read-write lock via a call to pthread_rwlock_timedwrlock(), * upon return from the signal handler the thread shall resume waiting for the lock * as if it was not interrupted. * * Steps: * 1. main thread create read-write lock 'rwlock', and lock it for writing * 2. main thread create a thread sig_thread, the thread is set to handle SIGUSR1 * 3. sig_thread timed lock 'rwlock' for writing, but blocked * 4. While the sig_thread is waiting(not expried yet), main thread send SIGUSR1 * to sig_thread via pthread_kill * 5. test that thread handler is called, inside the handler, make the thread sleep * for a period that the specified 'timeout' for pthread_rwlock_timedwrlock() * should have expired (timeout * 2) * 6. While sig_thread sleeping in signal handler, main thread unlock 'rwlock' * 7. check that when thread handler returns, sig_thread get the read lock without * getting ETIMEDOUT. */ #include #include #include #include #include #include #include #include #include "posixtest.h" /* thread_state indicates child thread state: 1: not in child thread yet; 2: just enter child thread ; 3: just before child thread exit; */ #define NOT_CREATED_THREAD 1 #define ENTERED_THREAD 2 #define EXITING_THREAD 3 #define TIMEOUT 2 static pthread_t sig_thread; static pthread_rwlock_t rwlock; static int thread_state; static int handler_state; static int expired; static struct timeval before_wait, after_wait; static void sig_handler() { struct timespec sleep_time_req; sleep_time_req.tv_sec = TIMEOUT * 2; sleep_time_req.tv_nsec = 0; if (pthread_equal(pthread_self(), sig_thread)) { printf("sig_handler: signal is handled by thread\n"); /* sig_handler will not sleep 2 times more than the timeout for the * pthread_rwlock_timerdlock is waiting for */ printf("sig_handler: sleeping for %d seconds\n", (int)sleep_time_req.tv_sec); handler_state = 2; sleep((int)sleep_time_req.tv_sec); } else { printf("sig_handler: signal is not handled by thread\n"); exit(PTS_UNRESOLVED); } handler_state = 3; } static void *th_fn(void *arg PTS_ATTRIBUTE_UNUSED) { struct sigaction act; struct timespec abs_timeout; int rc; handler_state = 2; expired = 0; /* Set up handler for SIGUSR1 */ act.sa_flags = 0; act.sa_handler = sig_handler; /* block all the signal when hanlding SIGUSR1 */ sigfillset(&act.sa_mask); sigaction(SIGUSR1, &act, 0); gettimeofday(&before_wait, NULL); abs_timeout.tv_sec = before_wait.tv_sec + TIMEOUT; abs_timeout.tv_nsec = before_wait.tv_usec * 1000; thread_state = ENTERED_THREAD; printf("thread: attempt timed write lock, %d seconds\n", TIMEOUT); rc = pthread_rwlock_timedwrlock(&rwlock, &abs_timeout); if (rc == 0) { printf("thread: correctly acquired write lock\n"); expired = 0; } else if (rc == ETIMEDOUT) { printf("thread: timer expired, did not acquire write lock\n"); expired = 1; } else { printf("Error %d at pthread_rwlock_timedwrlock()\n", rc); exit(PTS_UNRESOLVED); } gettimeofday(&after_wait, NULL); thread_state = EXITING_THREAD; pthread_exit(0); return NULL; } int main(void) { int cnt; if (pthread_rwlock_init(&rwlock, NULL) != 0) { printf("Error at pthread_rwlock_init()\n"); return PTS_UNRESOLVED; } printf("main: attempt write lock\n"); if (pthread_rwlock_wrlock(&rwlock) != 0) { printf("pthread_rwlock_wrlock()\n"); return PTS_UNRESOLVED; } printf("main: acquired write lock\n"); thread_state = NOT_CREATED_THREAD; if (pthread_create(&sig_thread, NULL, th_fn, NULL) != 0) { printf("Error at pthread_create()\n"); return PTS_UNRESOLVED; } /* wait for the thread to get ready for handling signal */ cnt = 0; do { sleep(1); } while (thread_state != ENTERED_THREAD && cnt++ < TIMEOUT); if (thread_state != ENTERED_THREAD) { printf("Error: thread did not block when getting write lock\n"); exit(PTS_UNRESOLVED); } printf("main: fire SIGUSR1 to thread\n"); if (pthread_kill(sig_thread, SIGUSR1) != 0) { printf("Error in pthread_kill()\n"); exit(PTS_UNRESOLVED); } /* Wait for signal handler to sleep so that main can unlock the rwlock while * it is sleeping. (this way, the rwlock will be unlocked when the signal handler * returns, and control is given back to the thread) */ cnt = 0; do { sleep(TIMEOUT); } while (handler_state != 2 && cnt++ < 2); if (handler_state == 1) { printf("Error: signal handler did not get called\n"); exit(PTS_UNRESOLVED); } else if (handler_state == 3) { printf("Error: signal handler incorrectly exited\n"); exit(PTS_UNRESOLVED); } if (expired == 1) { printf("Error: thread timeout in sig_handler\n"); exit(PTS_UNRESOLVED); } printf("main: unlock write lock\n"); if (pthread_rwlock_unlock(&rwlock) != 0) { printf("Error at pthread_rwlock_unlock()\n"); exit(PTS_UNRESOLVED); } /* wait at most 4*TIMEOUT seconds for thread to exit */ cnt = 0; do { sleep(1); } while (thread_state != EXITING_THREAD && cnt++ < 4 * TIMEOUT); if (cnt >= 4 * TIMEOUT) { /* thread blocked */ printf ("Test FAILED: thread blocked even afer the abs_timeout expires\n"); exit(PTS_FAIL); } if (expired == 1) { printf("Test FAILED: thread should get the write lock\n"); exit(PTS_FAIL); } if (pthread_join(sig_thread, NULL) != 0) { printf("Error at pthread_join()\n"); return PTS_UNRESOLVED; } if (pthread_rwlock_destroy(&rwlock) != 0) { printf("Error at pthread_destroy()\n"); exit(PTS_UNRESOLVED); } printf("Test PASSED\n"); return PTS_PASS; }