/* * Copyright (C) 2012 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "mutex-inl.h" #include "common_runtime_test.h" #include "thread-current-inl.h" namespace art { class MutexTest : public CommonRuntimeTest {}; struct MutexTester { static void AssertDepth(Mutex& mu, uint32_t expected_depth) { ASSERT_EQ(expected_depth, mu.GetDepth()); // This test is single-threaded, so we also know _who_ should hold the lock. if (expected_depth == 0) { mu.AssertNotHeld(Thread::Current()); } else { mu.AssertHeld(Thread::Current()); } } }; TEST_F(MutexTest, LockUnlock) { Mutex mu("test mutex"); MutexTester::AssertDepth(mu, 0U); mu.Lock(Thread::Current()); MutexTester::AssertDepth(mu, 1U); mu.Unlock(Thread::Current()); MutexTester::AssertDepth(mu, 0U); } // GCC has trouble with our mutex tests, so we have to turn off thread safety analysis. static void TryLockUnlockTest() NO_THREAD_SAFETY_ANALYSIS { Mutex mu("test mutex"); MutexTester::AssertDepth(mu, 0U); ASSERT_TRUE(mu.TryLock(Thread::Current())); MutexTester::AssertDepth(mu, 1U); mu.Unlock(Thread::Current()); MutexTester::AssertDepth(mu, 0U); } TEST_F(MutexTest, TryLockUnlock) { TryLockUnlockTest(); } // GCC has trouble with our mutex tests, so we have to turn off thread safety analysis. static void RecursiveLockUnlockTest() NO_THREAD_SAFETY_ANALYSIS { Mutex mu("test mutex", kDefaultMutexLevel, true); MutexTester::AssertDepth(mu, 0U); mu.Lock(Thread::Current()); MutexTester::AssertDepth(mu, 1U); mu.Lock(Thread::Current()); MutexTester::AssertDepth(mu, 2U); mu.Unlock(Thread::Current()); MutexTester::AssertDepth(mu, 1U); mu.Unlock(Thread::Current()); MutexTester::AssertDepth(mu, 0U); } TEST_F(MutexTest, RecursiveLockUnlock) { RecursiveLockUnlockTest(); } // GCC has trouble with our mutex tests, so we have to turn off thread safety analysis. static void RecursiveTryLockUnlockTest() NO_THREAD_SAFETY_ANALYSIS { Mutex mu("test mutex", kDefaultMutexLevel, true); MutexTester::AssertDepth(mu, 0U); ASSERT_TRUE(mu.TryLock(Thread::Current())); MutexTester::AssertDepth(mu, 1U); ASSERT_TRUE(mu.TryLock(Thread::Current())); MutexTester::AssertDepth(mu, 2U); mu.Unlock(Thread::Current()); MutexTester::AssertDepth(mu, 1U); mu.Unlock(Thread::Current()); MutexTester::AssertDepth(mu, 0U); } TEST_F(MutexTest, RecursiveTryLockUnlock) { RecursiveTryLockUnlockTest(); } struct RecursiveLockWait { RecursiveLockWait() : mu("test mutex", kDefaultMutexLevel, true), cv("test condition variable", mu) { } Mutex mu; ConditionVariable cv; }; static void* RecursiveLockWaitCallback(void* arg) { RecursiveLockWait* state = reinterpret_cast<RecursiveLockWait*>(arg); state->mu.Lock(Thread::Current()); state->cv.Signal(Thread::Current()); state->mu.Unlock(Thread::Current()); return nullptr; } // GCC has trouble with our mutex tests, so we have to turn off thread safety analysis. static void RecursiveLockWaitTest() NO_THREAD_SAFETY_ANALYSIS { RecursiveLockWait state; state.mu.Lock(Thread::Current()); state.mu.Lock(Thread::Current()); pthread_t pthread; int pthread_create_result = pthread_create(&pthread, nullptr, RecursiveLockWaitCallback, &state); ASSERT_EQ(0, pthread_create_result); state.cv.Wait(Thread::Current()); state.mu.Unlock(Thread::Current()); state.mu.Unlock(Thread::Current()); EXPECT_EQ(pthread_join(pthread, nullptr), 0); } // This ensures we don't hang when waiting on a recursively locked mutex, // which is not supported with bare pthread_mutex_t. TEST_F(MutexTest, RecursiveLockWait) { RecursiveLockWaitTest(); } TEST_F(MutexTest, SharedLockUnlock) { ReaderWriterMutex mu("test rwmutex"); mu.AssertNotHeld(Thread::Current()); mu.AssertNotExclusiveHeld(Thread::Current()); mu.SharedLock(Thread::Current()); mu.AssertSharedHeld(Thread::Current()); mu.AssertNotExclusiveHeld(Thread::Current()); mu.SharedUnlock(Thread::Current()); mu.AssertNotHeld(Thread::Current()); } TEST_F(MutexTest, ExclusiveLockUnlock) { ReaderWriterMutex mu("test rwmutex"); mu.AssertNotHeld(Thread::Current()); mu.ExclusiveLock(Thread::Current()); mu.AssertSharedHeld(Thread::Current()); mu.AssertExclusiveHeld(Thread::Current()); mu.ExclusiveUnlock(Thread::Current()); mu.AssertNotHeld(Thread::Current()); } // GCC has trouble with our mutex tests, so we have to turn off thread safety analysis. static void SharedTryLockUnlockTest() NO_THREAD_SAFETY_ANALYSIS { ReaderWriterMutex mu("test rwmutex"); mu.AssertNotHeld(Thread::Current()); ASSERT_TRUE(mu.SharedTryLock(Thread::Current())); mu.AssertSharedHeld(Thread::Current()); mu.SharedUnlock(Thread::Current()); mu.AssertNotHeld(Thread::Current()); } TEST_F(MutexTest, SharedTryLockUnlock) { SharedTryLockUnlockTest(); } } // namespace art