// 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. #include "base/logging.h" #include "base/threading/simple_thread.h" #include "base/threading/thread_local.h" #include "base/synchronization/waitable_event.h" #include "testing/gtest/include/gtest/gtest.h" namespace base { namespace { class ThreadLocalTesterBase : public base::DelegateSimpleThreadPool::Delegate { public: typedef base::ThreadLocalPointer TLPType; ThreadLocalTesterBase(TLPType* tlp, base::WaitableEvent* done) : tlp_(tlp), done_(done) { } ~ThreadLocalTesterBase() override {} protected: TLPType* tlp_; base::WaitableEvent* done_; }; class SetThreadLocal : public ThreadLocalTesterBase { public: SetThreadLocal(TLPType* tlp, base::WaitableEvent* done) : ThreadLocalTesterBase(tlp, done), val_(NULL) { } ~SetThreadLocal() override {} void set_value(ThreadLocalTesterBase* val) { val_ = val; } void Run() override { DCHECK(!done_->IsSignaled()); tlp_->Set(val_); done_->Signal(); } private: ThreadLocalTesterBase* val_; }; class GetThreadLocal : public ThreadLocalTesterBase { public: GetThreadLocal(TLPType* tlp, base::WaitableEvent* done) : ThreadLocalTesterBase(tlp, done), ptr_(NULL) { } ~GetThreadLocal() override {} void set_ptr(ThreadLocalTesterBase** ptr) { ptr_ = ptr; } void Run() override { DCHECK(!done_->IsSignaled()); *ptr_ = tlp_->Get(); done_->Signal(); } private: ThreadLocalTesterBase** ptr_; }; } // namespace // In this test, we start 2 threads which will access a ThreadLocalPointer. We // make sure the default is NULL, and the pointers are unique to the threads. TEST(ThreadLocalTest, Pointer) { base::DelegateSimpleThreadPool tp1("ThreadLocalTest tp1", 1); base::DelegateSimpleThreadPool tp2("ThreadLocalTest tp1", 1); tp1.Start(); tp2.Start(); base::ThreadLocalPointer tlp; static ThreadLocalTesterBase* const kBogusPointer = reinterpret_cast(0x1234); ThreadLocalTesterBase* tls_val; base::WaitableEvent done(true, false); GetThreadLocal getter(&tlp, &done); getter.set_ptr(&tls_val); // Check that both threads defaulted to NULL. tls_val = kBogusPointer; done.Reset(); tp1.AddWork(&getter); done.Wait(); EXPECT_EQ(static_cast(NULL), tls_val); tls_val = kBogusPointer; done.Reset(); tp2.AddWork(&getter); done.Wait(); EXPECT_EQ(static_cast(NULL), tls_val); SetThreadLocal setter(&tlp, &done); setter.set_value(kBogusPointer); // Have thread 1 set their pointer value to kBogusPointer. done.Reset(); tp1.AddWork(&setter); done.Wait(); tls_val = NULL; done.Reset(); tp1.AddWork(&getter); done.Wait(); EXPECT_EQ(kBogusPointer, tls_val); // Make sure thread 2 is still NULL tls_val = kBogusPointer; done.Reset(); tp2.AddWork(&getter); done.Wait(); EXPECT_EQ(static_cast(NULL), tls_val); // Set thread 2 to kBogusPointer + 1. setter.set_value(kBogusPointer + 1); done.Reset(); tp2.AddWork(&setter); done.Wait(); tls_val = NULL; done.Reset(); tp2.AddWork(&getter); done.Wait(); EXPECT_EQ(kBogusPointer + 1, tls_val); // Make sure thread 1 is still kBogusPointer. tls_val = NULL; done.Reset(); tp1.AddWork(&getter); done.Wait(); EXPECT_EQ(kBogusPointer, tls_val); tp1.JoinAll(); tp2.JoinAll(); } TEST(ThreadLocalTest, Boolean) { { base::ThreadLocalBoolean tlb; EXPECT_FALSE(tlb.Get()); tlb.Set(false); EXPECT_FALSE(tlb.Get()); tlb.Set(true); EXPECT_TRUE(tlb.Get()); } // Our slot should have been freed, we're all reset. { base::ThreadLocalBoolean tlb; EXPECT_FALSE(tlb.Get()); } } } // namespace base