/* * Copyright (c) 2013-2019 Huawei Technologies Co., Ltd. All rights reserved. * Copyright (c) 2020-2021 Huawei Device Co., Ltd. All rights reserved. * * Redistribution and use in source and binary forms, with or without modification, * are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, this list of * conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright notice, this list * of conditions and the following disclaimer in the documentation and/or other materials * provided with the distribution. * * 3. Neither the name of the copyright holder nor the names of its contributors may be used * to endorse or promote products derived from this software without specific prior written * permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "it_pthread_test.h" static int g_currThreadPri, g_currThreadPolicy; static volatile int g_pthreadTestCount = 0; static volatile int g_threadTestCount1 = 0; static pthread_spinlock_t g_spinTestLock; static void *ThreadFunc8(void *arg) { pthread_t pthread = pthread_self(); int ret; ret = pthread_detach(pthread); ICUNIT_GOTO_EQUAL(ret, 0, ret, EXIT); ret = pthread_spin_lock(&g_spinTestLock); ICUNIT_GOTO_EQUAL(ret, 0, ret, EXIT); g_threadTestCount1++; ret = pthread_spin_unlock(&g_spinTestLock); ICUNIT_GOTO_EQUAL(ret, 0, ret, EXIT); EXIT: return NULL; } static void *ThreadFunc7(void *arg) { pthread_t pthread = pthread_self(); int ret; pthread_attr_t a = { 0 }; struct sched_param param = { 0 }; pthread_t newPthread; int curThreadPri, curThreadPolicy; ret = pthread_detach(pthread); ICUNIT_GOTO_EQUAL(ret, 0, ret, EXIT); ret = pthread_getschedparam(pthread_self(), &curThreadPolicy, ¶m); ICUNIT_GOTO_EQUAL(ret, 0, -ret, EXIT); curThreadPri = param.sched_priority; ret = pthread_attr_init(&a); pthread_attr_setinheritsched(&a, PTHREAD_EXPLICIT_SCHED); param.sched_priority = curThreadPri; pthread_attr_setschedparam(&a, ¶m); ret = pthread_create(&newPthread, &a, ThreadFunc8, 0); ICUNIT_GOTO_EQUAL(ret, 0, ret, EXIT); ret = pthread_spin_lock(&g_spinTestLock); ICUNIT_GOTO_EQUAL(ret, 0, ret, EXIT); g_threadTestCount1++; ret = pthread_spin_unlock(&g_spinTestLock); ICUNIT_GOTO_EQUAL(ret, 0, ret, EXIT); sleep(2); // 2, delay EXIT: return NULL; } static void *ThreadFunc5(void *arg) { pthread_attr_t a = { 0 }; struct sched_param param = { 0 }; int ret; void *res = NULL; pthread_t newPthread; int curThreadPri, curThreadPolicy; ret = pthread_detach(pthread_self()); ICUNIT_GOTO_EQUAL(ret, EINVAL, ret, EXIT); ret = pthread_getschedparam(pthread_self(), &curThreadPolicy, ¶m); ICUNIT_GOTO_EQUAL(ret, 0, -ret, EXIT); curThreadPri = param.sched_priority; ret = pthread_attr_init(&a); pthread_attr_setinheritsched(&a, PTHREAD_EXPLICIT_SCHED); param.sched_priority = curThreadPri + 1; pthread_attr_setschedparam(&a, ¶m); ret = pthread_create(&newPthread, &a, ThreadFunc7, 0); ICUNIT_GOTO_EQUAL(ret, 0, ret, EXIT); ret = pthread_join(newPthread, &res); ICUNIT_GOTO_EQUAL(ret, 0, ret, EXIT); ret = pthread_spin_lock(&g_spinTestLock); ICUNIT_GOTO_EQUAL(ret, 0, ret, EXIT); g_threadTestCount1++; ret = pthread_spin_unlock(&g_spinTestLock); ICUNIT_GOTO_EQUAL(ret, 0, ret, EXIT); EXIT: return NULL; } static void *ThreadFunc6(void *arg) { pthread_t pthread = pthread_self(); ICUNIT_GOTO_EQUAL(g_pthreadTestCount, 12, g_pthreadTestCount, EXIT); // 12, here assert the result. g_pthreadTestCount++; // 13 return (void *)(uintptr_t)pthread; EXIT: return NULL; } static void *ThreadFunc4(void *arg) { pthread_t pthread = pthread_self(); int i = 0; unsigned int ret; ret = pthread_spin_lock(&g_spinTestLock); ICUNIT_GOTO_EQUAL(ret, 0, ret, EXIT); ICUNIT_GOTO_EQUAL(g_pthreadTestCount, 9, g_pthreadTestCount, EXIT); // 9, here assert the result. g_pthreadTestCount++; // 10 ret = pthread_spin_unlock(&g_spinTestLock); ICUNIT_GOTO_EQUAL(ret, 0, ret, EXIT); pthread_setcancelstate(PTHREAD_CANCEL_ENABLE, NULL); while (1) { pthread_testcancel(); if (++i == 5) { // 5, in loop 5, set cancel state. pthread_setcanceltype(PTHREAD_CANCEL_ASYNCHRONOUS, NULL); } if (i == 10) { // 10, in loop 10, cancel pthread. ret = pthread_cancel(pthread); } } return (void *)i; EXIT: return NULL; } static void *ThreadFunc3(void *arg) { pthread_t pthread = pthread_self(); int i = 0; unsigned int ret; ret = pthread_spin_lock(&g_spinTestLock); ICUNIT_GOTO_EQUAL(ret, 0, ret, EXIT); ICUNIT_GOTO_EQUAL(g_pthreadTestCount, 6, g_pthreadTestCount, EXIT); // 6, here assert the result. g_pthreadTestCount++; // 7 ret = pthread_spin_unlock(&g_spinTestLock); ICUNIT_GOTO_EQUAL(ret, 0, ret, EXIT); pthread_setcancelstate(PTHREAD_CANCEL_DISABLE, NULL); while (1) { pthread_testcancel(); if (++i == 5) { // 5, in loop 5, set cancel state. pthread_setcancelstate(PTHREAD_CANCEL_ENABLE, NULL); } if (i == 10) { // 10, in loop 10, cancel pthread. ret = pthread_cancel(pthread); } } ICUNIT_GOTO_EQUAL(i, 10, i, EXIT); // 10, here assert the result. return (void *)i; EXIT: return NULL; } static void *threadFunc2(void *arg) { unsigned int ret; ret = pthread_spin_lock(&g_spinTestLock); ICUNIT_GOTO_EQUAL(ret, 0, ret, EXIT); ICUNIT_GOTO_EQUAL(g_pthreadTestCount, 3, g_pthreadTestCount, EXIT); // 3, here assert the result. g_pthreadTestCount++; ret = pthread_spin_unlock(&g_spinTestLock); ICUNIT_GOTO_EQUAL(ret, 0, ret, EXIT); ret = pthread_join(pthread_self(), 0); ICUNIT_GOTO_EQUAL(ret, EINVAL, ret, EXIT); ret = pthread_detach(pthread_self()); ICUNIT_GOTO_EQUAL(ret, 0, ret, EXIT); EXIT: return NULL; } static void *threadFunc(void *arg) { unsigned int ret; void *res = NULL; pthread_attr_t a = { 0 }; pthread_t newPthread; struct sched_param param = { 0 }; ret = pthread_spin_lock(&g_spinTestLock); ICUNIT_GOTO_EQUAL(ret, 0, ret, EXIT); ICUNIT_GOTO_EQUAL(g_pthreadTestCount, 2, g_pthreadTestCount, EXIT); // 2, here assert the result. g_pthreadTestCount++; ret = pthread_spin_unlock(&g_spinTestLock); ICUNIT_GOTO_EQUAL(ret, 0, ret, EXIT); ret = pthread_attr_init(&a); pthread_attr_setinheritsched(&a, PTHREAD_EXPLICIT_SCHED); param.sched_priority = g_currThreadPri; pthread_attr_setschedparam(&a, ¶m); ret = pthread_create(&newPthread, &a, threadFunc2, 0); ICUNIT_GOTO_EQUAL(ret, 0, ret, EXIT); #ifdef LOSCFG_USER_TEST_SMP sleep(1); #endif ret = pthread_spin_lock(&g_spinTestLock); ICUNIT_GOTO_EQUAL(ret, 0, ret, EXIT); ICUNIT_GOTO_EQUAL(g_pthreadTestCount, 4, g_pthreadTestCount, EXIT); // 4, here assert the result. g_pthreadTestCount++; // 5 ret = pthread_spin_unlock(&g_spinTestLock); ICUNIT_GOTO_EQUAL(ret, 0, ret, EXIT); ret = pthread_attr_init(&a); pthread_attr_setinheritsched(&a, PTHREAD_EXPLICIT_SCHED); param.sched_priority = g_currThreadPri + 2; // 2, adjust priority. pthread_attr_setschedparam(&a, ¶m); ret = pthread_create(&newPthread, &a, ThreadFunc3, 0); ICUNIT_GOTO_EQUAL(ret, 0, ret, EXIT); ret = pthread_spin_lock(&g_spinTestLock); ICUNIT_GOTO_EQUAL(ret, 0, ret, EXIT); ICUNIT_GOTO_EQUAL(g_pthreadTestCount, 5, g_pthreadTestCount, EXIT); // 5, here assert the result. g_pthreadTestCount++; // 6 ret = pthread_spin_unlock(&g_spinTestLock); ICUNIT_GOTO_EQUAL(ret, 0, ret, EXIT); ret = pthread_join(newPthread, &res); ICUNIT_GOTO_EQUAL(ret, 0, ret, EXIT); ret = pthread_spin_lock(&g_spinTestLock); ICUNIT_GOTO_EQUAL(ret, 0, ret, EXIT); ICUNIT_GOTO_EQUAL(g_pthreadTestCount, 7, g_pthreadTestCount, EXIT); // 7, here assert the result. g_pthreadTestCount++; // 8 ret = pthread_spin_unlock(&g_spinTestLock); ICUNIT_GOTO_EQUAL(ret, 0, ret, EXIT); ret = pthread_attr_init(&a); pthread_attr_setinheritsched(&a, PTHREAD_EXPLICIT_SCHED); param.sched_priority = g_currThreadPri + 3; // 3, adjust priority. pthread_attr_setschedparam(&a, ¶m); ret = pthread_create(&newPthread, &a, ThreadFunc4, 0); ICUNIT_GOTO_EQUAL(ret, 0, ret, EXIT); ret = pthread_spin_lock(&g_spinTestLock); ICUNIT_GOTO_EQUAL(ret, 0, ret, EXIT); ICUNIT_GOTO_EQUAL(g_pthreadTestCount, 8, g_pthreadTestCount, EXIT); // 8, here assert the result. g_pthreadTestCount++; // 9 ret = pthread_spin_unlock(&g_spinTestLock); ICUNIT_GOTO_EQUAL(ret, 0, ret, EXIT); ret = pthread_join(newPthread, &res); ICUNIT_GOTO_EQUAL(ret, 0, ret, EXIT); ret = pthread_spin_lock(&g_spinTestLock); ICUNIT_GOTO_EQUAL(ret, 0, ret, EXIT); ICUNIT_GOTO_EQUAL(g_pthreadTestCount, 10, g_pthreadTestCount, EXIT); // 10, here assert the result. g_pthreadTestCount++; // 11 ret = pthread_spin_unlock(&g_spinTestLock); ICUNIT_GOTO_EQUAL(ret, 0, ret, EXIT); EXIT: return NULL; } int PthreadTest004() { int exitCount = 0; struct sched_param param = { 0 }; int ret; void *res = NULL; pthread_attr_t a = { 0 }; pthread_t newPthread, newPthread1; const int testCount = 5; int count = 5; pthread_spin_init(&g_spinTestLock, 0); g_threadTestCount1 = 0; g_pthreadTestCount = 0; ret = pthread_getschedparam(pthread_self(), &g_currThreadPolicy, ¶m); ICUNIT_ASSERT_EQUAL(ret, 0, -ret); g_currThreadPri = param.sched_priority; g_pthreadTestCount++; ret = pthread_attr_init(&a); pthread_attr_setinheritsched(&a, PTHREAD_EXPLICIT_SCHED); param.sched_priority = g_currThreadPri + 1; pthread_attr_setschedparam(&a, ¶m); ret = pthread_create(&newPthread, &a, threadFunc, 0); ICUNIT_ASSERT_EQUAL(ret, 0, ret); ICUNIT_ASSERT_EQUAL(g_pthreadTestCount, 1, g_pthreadTestCount); g_pthreadTestCount++; while (count > 0) { ret = pthread_create(&newPthread1, &a, ThreadFunc5, 0); ICUNIT_ASSERT_EQUAL(ret, 0, ret); ret = pthread_detach(newPthread1); ICUNIT_ASSERT_EQUAL(ret, 0, ret); count--; } g_threadTestCount1++; ICUNIT_ASSERT_EQUAL(g_threadTestCount1, 1, g_threadTestCount1); ret = pthread_join(newPthread, &res); ICUNIT_ASSERT_EQUAL(ret, 0, ret); while (g_threadTestCount1 != (1 + (testCount * 3))) { // 3 sleep(2); // 2, delay printf("Wait for the concurrent thread to end \n"); exitCount++; if (exitCount > 10) { // wait time > 10 * 2s, cancel wait. break; } } ICUNIT_ASSERT_EQUAL(g_pthreadTestCount, 11, g_pthreadTestCount); // 11, here assert the result. g_pthreadTestCount++; // 12 param.sched_priority = g_currThreadPri - 1; pthread_attr_setschedparam(&a, ¶m); ret = pthread_create(&newPthread1, &a, ThreadFunc6, 0); ICUNIT_ASSERT_EQUAL(ret, 0, ret); ret = pthread_join(newPthread1, &res); ICUNIT_ASSERT_EQUAL(ret, 0, ret); ICUNIT_ASSERT_EQUAL(g_pthreadTestCount, 13, g_pthreadTestCount); // 13, here assert the result. g_pthreadTestCount++; // 14 ICUNIT_ASSERT_EQUAL(g_pthreadTestCount, 14, g_pthreadTestCount); // 14, here assert the result. pthread_spin_destroy(&g_spinTestLock); return 0; } void ItTestPthread004(void) { TEST_ADD_CASE("IT_POSIX_PTHREAD_004", PthreadTest004, TEST_POSIX, TEST_MEM, TEST_LEVEL0, TEST_FUNCTION); }