/* * 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 that pthread_rwlock_timedrdlock(pthread_rwlock_t *rwlock) * * Under no circumstances shall the function fail with a timeout if the lock can be * acquired immediately. The abs_timeout parameter need not be checked if the lock * can be immediately acquired. * * Steps:n * 1. Main thread create a thread. * 2. Child thread lock 'rwlock' for reading with pthread_rwlock_timedrdlock(), * should not fail with timeout * 3. The child thread unlocks the 'rwlock' and exits. * 4. Main thread create another thread. * 4. The child thread lock 'rwlock' for reading, with pthread_rwlock_timedrdlock(), * specifying a 'abs_timeout'. The thread sleeps until 'abs_timeout' expires. * 5. The thread call pthread_rwlock_timedrdlock(). Should _NOT_ get ETIMEDOUT. */ #define _XOPEN_SOURCE 600 #include #include #include #include #include #include "posixtest.h" #define NOT_CREATED_THREAD 1 #define ENTERED_THREAD 2 #define EXITING_THREAD 3 #define TIMEOUT 1 static int thread_state; static int currsec1; static int expired; static void* fn_rd_1(void *arg) { thread_state = ENTERED_THREAD; struct timespec abs_timeout; int rc; pthread_rwlock_t rwlock; if(pthread_rwlock_init(&rwlock, NULL) != 0) { printf("thread1: Error at pthread_rwlock_init\n"); exit(PTS_UNRESOLVED); } currsec1 = time(NULL); /* Absolute time, not relative. */ abs_timeout.tv_sec = currsec1 + TIMEOUT; abs_timeout.tv_nsec = 0; printf("thread1: attempt timed read-lock\n"); rc = pthread_rwlock_timedrdlock(&rwlock, &abs_timeout); if(rc == ETIMEDOUT) { printf("thread1: timed read-lock expired\n"); expired = 1; } else if(rc == 0) { printf("thread1: acquired read lock\n"); expired = 0; printf("thread1: unlock read lock\n"); if(pthread_rwlock_unlock(&rwlock) != 0) { printf("thread1: failed to release read lock\n"); exit(PTS_UNRESOLVED); } } else { printf("thread1: Error in pthread_rwlock_timedrdlock().\n"); exit(PTS_UNRESOLVED); } if(pthread_rwlock_destroy(&rwlock) != 0) { printf("thread1: Error at pthread_rwlockattr_destroy()"); exit(PTS_UNRESOLVED); } thread_state = EXITING_THREAD; pthread_exit(0); return NULL; } static void* fn_rd_2(void *arg) { thread_state = ENTERED_THREAD; struct timespec abs_timeout; int rc; pthread_rwlock_t rwlock; if(pthread_rwlock_init(&rwlock, NULL) != 0) { printf("thread2: Error at pthread_rwlock_init\n"); exit(PTS_UNRESOLVED); } currsec1 = time(NULL); /* Ensure that the abs_timeout has passed by _subtracting_ the timeout value of 1 * from the current time. */ abs_timeout.tv_sec = currsec1 - TIMEOUT; abs_timeout.tv_nsec = 0; printf("thread2: attempt timed read-lock\n"); rc = pthread_rwlock_timedrdlock(&rwlock, &abs_timeout); if(rc == ETIMEDOUT) { printf("thread2: timed read-lock expired\n"); expired = 1; } else if(rc == 0) { printf("thread2: acquired read lock\n"); expired = 0; printf("thread2: unlock read lock\n"); if(pthread_rwlock_unlock(&rwlock) != 0) { printf("thread2: failed to release read lock\n"); exit(PTS_UNRESOLVED); } } else { printf("thread2: Error in pthread_rwlock_timedrdlock().\n"); exit(PTS_UNRESOLVED); } if(pthread_rwlock_destroy(&rwlock) != 0) { printf("thread2: Error at pthread_rwlockattr_destroy()\n"); exit(PTS_UNRESOLVED); } thread_state = EXITING_THREAD; pthread_exit(0); return NULL; } int main() { int cnt = 0; pthread_t thread1, thread2; thread_state = NOT_CREATED_THREAD; printf("main: create thread1\n"); if(pthread_create(&thread1, NULL, fn_rd_1, NULL) != 0) { printf("Error when creating thread1\n"); return PTS_UNRESOLVED; } /* If the shared data is not altered by child after 5 seconds, we regard it as blocked */ /* we expect thread1 NOT to block, but rather for the timed read-lock to expire */ cnt = 0; do{ sleep(1); }while (thread_state !=EXITING_THREAD && cnt++ < 5); if(thread_state == EXITING_THREAD) { /* the child thread does not block, check the time expired or not */ if(expired == 1) { printf("Test FAILED: thread1 incorrectly received ETIMEDOUT\n"); return PTS_FAIL; } } else if(thread_state == ENTERED_THREAD) { printf("Test FAILED: thread1 incorrectly blocked for reading rwlock\n"); return PTS_FAIL; } else { printf("Unexpected state for thread1 %d\n", thread_state); return PTS_UNRESOLVED; } if(pthread_join(thread1, NULL) != 0) { printf("Error when joining thread1\n"); return PTS_UNRESOLVED; } printf("main: create thread2\n"); thread_state = NOT_CREATED_THREAD; if(pthread_create(&thread2, NULL, fn_rd_2, NULL) != 0) { printf("Error when creating thread2\n"); return PTS_UNRESOLVED; } /* If the shared data is not altered by child after 5 seconds, we regard it as blocked */ /* we expect thread2 NOT to block */ cnt = 0; do{ sleep(1); }while (thread_state !=EXITING_THREAD && cnt++ < 5); if(thread_state == EXITING_THREAD) { /* the child thread does not block, check the time expired or not */ if(expired == 1) { printf("Test FAILED: thread2 incorrectly received ETIMEDOUT\n"); return PTS_FAIL; } } else if(thread_state == ENTERED_THREAD) { printf("Test FAILED: thread2 incorrectly blocked for reading rwlock\n"); return PTS_FAIL; } else { printf("Unexpected state for thread2 %d\n", thread_state); return PTS_UNRESOLVED; } if(pthread_join(thread2, NULL) != 0) { printf("Error when join thread2\n"); return PTS_UNRESOLVED; } printf("Test PASSED\n"); return PTS_PASS; }