// Copyright (c) 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #if defined(OS_WIN) #include #include #endif #include "base/threading/simple_thread.h" #include "base/threading/thread_local_storage.h" #include "testing/gtest/include/gtest/gtest.h" #if defined(OS_WIN) // Ignore warnings about ptr->int conversions that we use when // storing ints into ThreadLocalStorage. #pragma warning(disable : 4311 4312) #endif namespace base { namespace { const int kInitialTlsValue = 0x5555; const int kFinalTlsValue = 0x7777; // How many times must a destructor be called before we really are done. const int kNumberDestructorCallRepetitions = 3; static ThreadLocalStorage::StaticSlot tls_slot = TLS_INITIALIZER; class ThreadLocalStorageRunner : public DelegateSimpleThread::Delegate { public: explicit ThreadLocalStorageRunner(int* tls_value_ptr) : tls_value_ptr_(tls_value_ptr) {} virtual ~ThreadLocalStorageRunner() {} virtual void Run() OVERRIDE { *tls_value_ptr_ = kInitialTlsValue; tls_slot.Set(tls_value_ptr_); int *ptr = static_cast(tls_slot.Get()); EXPECT_EQ(ptr, tls_value_ptr_); EXPECT_EQ(*ptr, kInitialTlsValue); *tls_value_ptr_ = 0; ptr = static_cast(tls_slot.Get()); EXPECT_EQ(ptr, tls_value_ptr_); EXPECT_EQ(*ptr, 0); *ptr = kFinalTlsValue + kNumberDestructorCallRepetitions; } private: int* tls_value_ptr_; DISALLOW_COPY_AND_ASSIGN(ThreadLocalStorageRunner); }; void ThreadLocalStorageCleanup(void *value) { int *ptr = reinterpret_cast(value); // Destructors should never be called with a NULL. ASSERT_NE(reinterpret_cast(NULL), ptr); if (*ptr == kFinalTlsValue) return; // We've been called enough times. ASSERT_LT(kFinalTlsValue, *ptr); ASSERT_GE(kFinalTlsValue + kNumberDestructorCallRepetitions, *ptr); --*ptr; // Move closer to our target. // Tell tls that we're not done with this thread, and still need destruction. tls_slot.Set(value); } } // namespace TEST(ThreadLocalStorageTest, Basics) { ThreadLocalStorage::Slot slot; slot.Set(reinterpret_cast(123)); int value = reinterpret_cast(slot.Get()); EXPECT_EQ(value, 123); } #if defined(THREAD_SANITIZER) // Do not run the test under ThreadSanitizer. Because this test iterates its // own TSD destructor for the maximum possible number of times, TSan can't jump // in after the last destructor invocation, therefore the destructor remains // unsynchronized with the following users of the same TSD slot. This results // in race reports between the destructor and functions in other tests. #define MAYBE_TLSDestructors DISABLED_TLSDestructors #else #define MAYBE_TLSDestructors TLSDestructors #endif TEST(ThreadLocalStorageTest, MAYBE_TLSDestructors) { // Create a TLS index with a destructor. Create a set of // threads that set the TLS, while the destructor cleans it up. // After the threads finish, verify that the value is cleaned up. const int kNumThreads = 5; int values[kNumThreads]; ThreadLocalStorageRunner* thread_delegates[kNumThreads]; DelegateSimpleThread* threads[kNumThreads]; tls_slot.Initialize(ThreadLocalStorageCleanup); // Spawn the threads. for (int index = 0; index < kNumThreads; index++) { values[index] = kInitialTlsValue; thread_delegates[index] = new ThreadLocalStorageRunner(&values[index]); threads[index] = new DelegateSimpleThread(thread_delegates[index], "tls thread"); threads[index]->Start(); } // Wait for the threads to finish. for (int index = 0; index < kNumThreads; index++) { threads[index]->Join(); delete threads[index]; delete thread_delegates[index]; // Verify that the destructor was called and that we reset. EXPECT_EQ(values[index], kFinalTlsValue); } tls_slot.Free(); // Stop doing callbacks to cleanup threads. } } // namespace base