// Copyright (c) 2011 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 "net/dns/serial_worker.h" #include "base/bind.h" #include "base/message_loop.h" #include "base/synchronization/lock.h" #include "base/synchronization/waitable_event.h" #include "testing/gtest/include/gtest/gtest.h" namespace net { namespace { class SerialWorkerTest : public testing::Test { public: // The class under test class TestSerialWorker : public SerialWorker { public: explicit TestSerialWorker(SerialWorkerTest* t) : test_(t) {} virtual void DoWork() OVERRIDE { ASSERT_TRUE(test_); test_->OnWork(); } virtual void OnWorkFinished() OVERRIDE { ASSERT_TRUE(test_); test_->OnWorkFinished(); } private: virtual ~TestSerialWorker() {} SerialWorkerTest* test_; }; // Mocks void OnWork() { { // Check that OnWork is executed serially. base::AutoLock lock(work_lock_); EXPECT_FALSE(work_running_) << "DoRead is not called serially!"; work_running_ = true; } BreakNow("OnWork"); work_allowed_.Wait(); // Calling from WorkerPool, but protected by work_allowed_/work_called_. output_value_ = input_value_; { // This lock might be destroyed after work_called_ is signalled. base::AutoLock lock(work_lock_); work_running_ = false; } work_called_.Signal(); } void OnWorkFinished() { EXPECT_TRUE(message_loop_ == MessageLoop::current()); EXPECT_EQ(output_value_, input_value_); BreakNow("OnWorkFinished"); } protected: void BreakCallback(std::string breakpoint) { breakpoint_ = breakpoint; MessageLoop::current()->QuitNow(); } void BreakNow(std::string b) { message_loop_->PostTask(FROM_HERE, base::Bind(&SerialWorkerTest::BreakCallback, base::Unretained(this), b)); } void RunUntilBreak(std::string b) { message_loop_->Run(); ASSERT_EQ(breakpoint_, b); } SerialWorkerTest() : input_value_(0), output_value_(-1), work_allowed_(false, false), work_called_(false, false), work_running_(false) { } // Helpers for tests. // Lets OnWork run and waits for it to complete. Can only return if OnWork is // executed on a concurrent thread. void WaitForWork() { RunUntilBreak("OnWork"); work_allowed_.Signal(); work_called_.Wait(); } // test::Test methods virtual void SetUp() OVERRIDE { message_loop_ = MessageLoop::current(); worker_ = new TestSerialWorker(this); } virtual void TearDown() OVERRIDE { // Cancel the worker to catch if it makes a late DoWork call. worker_->Cancel(); // Check if OnWork is stalled. EXPECT_FALSE(work_running_) << "OnWork should be done by TearDown"; // Release it for cleanliness. if (work_running_) { WaitForWork(); } } // Input value read on WorkerPool. int input_value_; // Output value written on WorkerPool. int output_value_; // read is called on WorkerPool so we need to synchronize with it. base::WaitableEvent work_allowed_; base::WaitableEvent work_called_; // Protected by read_lock_. Used to verify that read calls are serialized. bool work_running_; base::Lock work_lock_; // Loop for this thread. MessageLoop* message_loop_; // WatcherDelegate under test. scoped_refptr worker_; std::string breakpoint_; }; TEST_F(SerialWorkerTest, ExecuteAndSerializeReads) { for (int i = 0; i < 3; ++i) { ++input_value_; worker_->WorkNow(); WaitForWork(); RunUntilBreak("OnWorkFinished"); message_loop_->AssertIdle(); } // Schedule two calls. OnWork checks if it is called serially. ++input_value_; worker_->WorkNow(); // read is blocked, so this will have to induce re-work worker_->WorkNow(); WaitForWork(); WaitForWork(); RunUntilBreak("OnWorkFinished"); // No more tasks should remain. message_loop_->AssertIdle(); } } // namespace } // namespace net