// Copyright 2013 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 "mojo/common/handle_watcher.h"
#include <string>
#include "base/at_exit.h"
#include "base/auto_reset.h"
#include "base/bind.h"
#include "base/memory/scoped_vector.h"
#include "base/run_loop.h"
#include "base/test/simple_test_tick_clock.h"
#include "base/threading/thread.h"
#include "mojo/common/message_pump_mojo.h"
#include "mojo/common/time_helper.h"
#include "mojo/public/cpp/system/core.h"
#include "mojo/public/cpp/test_support/test_utils.h"
#include "testing/gtest/include/gtest/gtest.h"
namespace mojo {
namespace common {
namespace test {
enum MessageLoopConfig {
MESSAGE_LOOP_CONFIG_DEFAULT = 0,
MESSAGE_LOOP_CONFIG_MOJO = 1
};
void ObserveCallback(bool* was_signaled,
MojoResult* result_observed,
MojoResult result) {
*was_signaled = true;
*result_observed = result;
}
void RunUntilIdle() {
base::RunLoop run_loop;
run_loop.RunUntilIdle();
}
void DeleteWatcherAndForwardResult(
HandleWatcher* watcher,
base::Callback<void(MojoResult)> next_callback,
MojoResult result) {
delete watcher;
next_callback.Run(result);
}
scoped_ptr<base::MessageLoop> CreateMessageLoop(MessageLoopConfig config) {
scoped_ptr<base::MessageLoop> loop;
if (config == MESSAGE_LOOP_CONFIG_DEFAULT)
loop.reset(new base::MessageLoop());
else
loop.reset(new base::MessageLoop(MessagePumpMojo::Create()));
return loop.Pass();
}
// Helper class to manage the callback and running the message loop waiting for
// message to be received. Typical usage is something like:
// Schedule callback returned from GetCallback().
// RunUntilGotCallback();
// EXPECT_TRUE(got_callback());
// clear_callback();
class CallbackHelper {
public:
CallbackHelper()
: got_callback_(false),
run_loop_(NULL),
weak_factory_(this) {}
~CallbackHelper() {}
// See description above |got_callback_|.
bool got_callback() const { return got_callback_; }
void clear_callback() { got_callback_ = false; }
// Runs the current MessageLoop until the callback returned from GetCallback()
// is notified.
void RunUntilGotCallback() {
ASSERT_TRUE(run_loop_ == NULL);
base::RunLoop run_loop;
base::AutoReset<base::RunLoop*> reseter(&run_loop_, &run_loop);
run_loop.Run();
}
base::Callback<void(MojoResult)> GetCallback() {
return base::Bind(&CallbackHelper::OnCallback, weak_factory_.GetWeakPtr());
}
void Start(HandleWatcher* watcher, const MessagePipeHandle& handle) {
StartWithCallback(watcher, handle, GetCallback());
}
void StartWithCallback(HandleWatcher* watcher,
const MessagePipeHandle& handle,
const base::Callback<void(MojoResult)>& callback) {
watcher->Start(handle, MOJO_HANDLE_SIGNAL_READABLE,
MOJO_DEADLINE_INDEFINITE, callback);
}
private:
void OnCallback(MojoResult result) {
got_callback_ = true;
if (run_loop_)
run_loop_->Quit();
}
// Set to true when the callback is called.
bool got_callback_;
// If non-NULL we're in RunUntilGotCallback().
base::RunLoop* run_loop_;
base::WeakPtrFactory<CallbackHelper> weak_factory_;
private:
DISALLOW_COPY_AND_ASSIGN(CallbackHelper);
};
class HandleWatcherTest : public testing::TestWithParam<MessageLoopConfig> {
public:
HandleWatcherTest() : message_loop_(CreateMessageLoop(GetParam())) {}
virtual ~HandleWatcherTest() {
test::SetTickClockForTest(NULL);
}
protected:
void TearDownMessageLoop() {
message_loop_.reset();
}
void InstallTickClock() {
test::SetTickClockForTest(&tick_clock_);
}
base::SimpleTestTickClock tick_clock_;
private:
base::ShadowingAtExitManager at_exit_;
scoped_ptr<base::MessageLoop> message_loop_;
DISALLOW_COPY_AND_ASSIGN(HandleWatcherTest);
};
INSTANTIATE_TEST_CASE_P(
MultipleMessageLoopConfigs, HandleWatcherTest,
testing::Values(MESSAGE_LOOP_CONFIG_DEFAULT, MESSAGE_LOOP_CONFIG_MOJO));
// Trivial test case with a single handle to watch.
TEST_P(HandleWatcherTest, SingleHandler) {
MessagePipe test_pipe;
ASSERT_TRUE(test_pipe.handle0.is_valid());
CallbackHelper callback_helper;
HandleWatcher watcher;
callback_helper.Start(&watcher, test_pipe.handle0.get());
RunUntilIdle();
EXPECT_FALSE(callback_helper.got_callback());
EXPECT_TRUE(mojo::test::WriteTextMessage(test_pipe.handle1.get(),
std::string()));
callback_helper.RunUntilGotCallback();
EXPECT_TRUE(callback_helper.got_callback());
}
// Creates three handles and notfies them in reverse order ensuring each one is
// notified appropriately.
TEST_P(HandleWatcherTest, ThreeHandles) {
MessagePipe test_pipe1;
MessagePipe test_pipe2;
MessagePipe test_pipe3;
CallbackHelper callback_helper1;
CallbackHelper callback_helper2;
CallbackHelper callback_helper3;
ASSERT_TRUE(test_pipe1.handle0.is_valid());
ASSERT_TRUE(test_pipe2.handle0.is_valid());
ASSERT_TRUE(test_pipe3.handle0.is_valid());
HandleWatcher watcher1;
callback_helper1.Start(&watcher1, test_pipe1.handle0.get());
RunUntilIdle();
EXPECT_FALSE(callback_helper1.got_callback());
EXPECT_FALSE(callback_helper2.got_callback());
EXPECT_FALSE(callback_helper3.got_callback());
HandleWatcher watcher2;
callback_helper2.Start(&watcher2, test_pipe2.handle0.get());
RunUntilIdle();
EXPECT_FALSE(callback_helper1.got_callback());
EXPECT_FALSE(callback_helper2.got_callback());
EXPECT_FALSE(callback_helper3.got_callback());
HandleWatcher watcher3;
callback_helper3.Start(&watcher3, test_pipe3.handle0.get());
RunUntilIdle();
EXPECT_FALSE(callback_helper1.got_callback());
EXPECT_FALSE(callback_helper2.got_callback());
EXPECT_FALSE(callback_helper3.got_callback());
// Write to 3 and make sure it's notified.
EXPECT_TRUE(mojo::test::WriteTextMessage(test_pipe3.handle1.get(),
std::string()));
callback_helper3.RunUntilGotCallback();
EXPECT_FALSE(callback_helper1.got_callback());
EXPECT_FALSE(callback_helper2.got_callback());
EXPECT_TRUE(callback_helper3.got_callback());
callback_helper3.clear_callback();
// Write to 1 and 3. Only 1 should be notified since 3 was is no longer
// running.
EXPECT_TRUE(mojo::test::WriteTextMessage(test_pipe1.handle1.get(),
std::string()));
EXPECT_TRUE(mojo::test::WriteTextMessage(test_pipe3.handle1.get(),
std::string()));
callback_helper1.RunUntilGotCallback();
EXPECT_TRUE(callback_helper1.got_callback());
EXPECT_FALSE(callback_helper2.got_callback());
EXPECT_FALSE(callback_helper3.got_callback());
callback_helper1.clear_callback();
// Write to 1 and 2. Only 2 should be notified (since 1 was already notified).
EXPECT_TRUE(mojo::test::WriteTextMessage(test_pipe1.handle1.get(),
std::string()));
EXPECT_TRUE(mojo::test::WriteTextMessage(test_pipe2.handle1.get(),
std::string()));
callback_helper2.RunUntilGotCallback();
EXPECT_FALSE(callback_helper1.got_callback());
EXPECT_TRUE(callback_helper2.got_callback());
EXPECT_FALSE(callback_helper3.got_callback());
}
// Verifies Start() invoked a second time works.
TEST_P(HandleWatcherTest, Restart) {
MessagePipe test_pipe1;
MessagePipe test_pipe2;
CallbackHelper callback_helper1;
CallbackHelper callback_helper2;
ASSERT_TRUE(test_pipe1.handle0.is_valid());
ASSERT_TRUE(test_pipe2.handle0.is_valid());
HandleWatcher watcher1;
callback_helper1.Start(&watcher1, test_pipe1.handle0.get());
RunUntilIdle();
EXPECT_FALSE(callback_helper1.got_callback());
EXPECT_FALSE(callback_helper2.got_callback());
HandleWatcher watcher2;
callback_helper2.Start(&watcher2, test_pipe2.handle0.get());
RunUntilIdle();
EXPECT_FALSE(callback_helper1.got_callback());
EXPECT_FALSE(callback_helper2.got_callback());
// Write to 1 and make sure it's notified.
EXPECT_TRUE(mojo::test::WriteTextMessage(test_pipe1.handle1.get(),
std::string()));
callback_helper1.RunUntilGotCallback();
EXPECT_TRUE(callback_helper1.got_callback());
EXPECT_FALSE(callback_helper2.got_callback());
callback_helper1.clear_callback();
EXPECT_TRUE(mojo::test::DiscardMessage(test_pipe1.handle0.get()));
// Write to 2 and make sure it's notified.
EXPECT_TRUE(mojo::test::WriteTextMessage(test_pipe2.handle1.get(),
std::string()));
callback_helper2.RunUntilGotCallback();
EXPECT_FALSE(callback_helper1.got_callback());
EXPECT_TRUE(callback_helper2.got_callback());
callback_helper2.clear_callback();
// Listen on 1 again.
callback_helper1.Start(&watcher1, test_pipe1.handle0.get());
RunUntilIdle();
EXPECT_FALSE(callback_helper1.got_callback());
EXPECT_FALSE(callback_helper2.got_callback());
// Write to 1 and make sure it's notified.
EXPECT_TRUE(mojo::test::WriteTextMessage(test_pipe1.handle1.get(),
std::string()));
callback_helper1.RunUntilGotCallback();
EXPECT_TRUE(callback_helper1.got_callback());
EXPECT_FALSE(callback_helper2.got_callback());
}
// Verifies deadline is honored.
TEST_P(HandleWatcherTest, Deadline) {
InstallTickClock();
MessagePipe test_pipe1;
MessagePipe test_pipe2;
MessagePipe test_pipe3;
CallbackHelper callback_helper1;
CallbackHelper callback_helper2;
CallbackHelper callback_helper3;
ASSERT_TRUE(test_pipe1.handle0.is_valid());
ASSERT_TRUE(test_pipe2.handle0.is_valid());
ASSERT_TRUE(test_pipe3.handle0.is_valid());
// Add a watcher with an infinite timeout.
HandleWatcher watcher1;
callback_helper1.Start(&watcher1, test_pipe1.handle0.get());
RunUntilIdle();
EXPECT_FALSE(callback_helper1.got_callback());
EXPECT_FALSE(callback_helper2.got_callback());
EXPECT_FALSE(callback_helper3.got_callback());
// Add another watcher wth a timeout of 500 microseconds.
HandleWatcher watcher2;
watcher2.Start(test_pipe2.handle0.get(), MOJO_HANDLE_SIGNAL_READABLE, 500,
callback_helper2.GetCallback());
RunUntilIdle();
EXPECT_FALSE(callback_helper1.got_callback());
EXPECT_FALSE(callback_helper2.got_callback());
EXPECT_FALSE(callback_helper3.got_callback());
// Advance the clock passed the deadline. We also have to start another
// watcher to wake up the background thread.
tick_clock_.Advance(base::TimeDelta::FromMicroseconds(501));
HandleWatcher watcher3;
callback_helper3.Start(&watcher3, test_pipe3.handle0.get());
callback_helper2.RunUntilGotCallback();
EXPECT_FALSE(callback_helper1.got_callback());
EXPECT_TRUE(callback_helper2.got_callback());
EXPECT_FALSE(callback_helper3.got_callback());
}
TEST_P(HandleWatcherTest, DeleteInCallback) {
MessagePipe test_pipe;
CallbackHelper callback_helper;
HandleWatcher* watcher = new HandleWatcher();
callback_helper.StartWithCallback(watcher, test_pipe.handle1.get(),
base::Bind(&DeleteWatcherAndForwardResult,
watcher,
callback_helper.GetCallback()));
EXPECT_TRUE(mojo::test::WriteTextMessage(test_pipe.handle0.get(),
std::string()));
callback_helper.RunUntilGotCallback();
EXPECT_TRUE(callback_helper.got_callback());
}
TEST_P(HandleWatcherTest, AbortedOnMessageLoopDestruction) {
bool was_signaled = false;
MojoResult result = MOJO_RESULT_OK;
MessagePipe pipe;
HandleWatcher watcher;
watcher.Start(pipe.handle0.get(),
MOJO_HANDLE_SIGNAL_READABLE,
MOJO_DEADLINE_INDEFINITE,
base::Bind(&ObserveCallback, &was_signaled, &result));
// Now, let the MessageLoop get torn down. We expect our callback to run.
TearDownMessageLoop();
EXPECT_TRUE(was_signaled);
EXPECT_EQ(MOJO_RESULT_ABORTED, result);
}
void NeverReached(MojoResult result) {
FAIL() << "Callback should never be invoked " << result;
}
// Called on the main thread when a thread is done. Decrements |active_count|
// and if |active_count| is zero quits |run_loop|.
void StressThreadDone(base::RunLoop* run_loop, int* active_count) {
(*active_count)--;
EXPECT_GE(*active_count, 0);
if (*active_count == 0)
run_loop->Quit();
}
// See description of StressTest. This is called on the background thread.
// |count| is the number of HandleWatchers to create. |active_count| is the
// number of outstanding threads, |task_runner| the task runner for the main
// thread and |run_loop| the run loop that should be quit when there are no more
// threads running. When done StressThreadDone() is invoked on the main thread.
// |active_count| and |run_loop| should only be used on the main thread.
void RunStressTest(int count,
scoped_refptr<base::TaskRunner> task_runner,
base::RunLoop* run_loop,
int* active_count) {
struct TestData {
MessagePipe pipe;
HandleWatcher watcher;
};
ScopedVector<TestData> data_vector;
for (int i = 0; i < count; ++i) {
if (i % 20 == 0) {
// Every so often we wait. This results in some level of thread balancing
// as well as making sure HandleWatcher has time to actually start some
// watches.
MessagePipe test_pipe;
ASSERT_TRUE(test_pipe.handle0.is_valid());
CallbackHelper callback_helper;
HandleWatcher watcher;
callback_helper.Start(&watcher, test_pipe.handle0.get());
RunUntilIdle();
EXPECT_FALSE(callback_helper.got_callback());
EXPECT_TRUE(mojo::test::WriteTextMessage(test_pipe.handle1.get(),
std::string()));
base::MessageLoop::ScopedNestableTaskAllower scoper(
base::MessageLoop::current());
callback_helper.RunUntilGotCallback();
EXPECT_TRUE(callback_helper.got_callback());
} else {
scoped_ptr<TestData> test_data(new TestData);
ASSERT_TRUE(test_data->pipe.handle0.is_valid());
test_data->watcher.Start(test_data->pipe.handle0.get(),
MOJO_HANDLE_SIGNAL_READABLE,
MOJO_DEADLINE_INDEFINITE,
base::Bind(&NeverReached));
data_vector.push_back(test_data.release());
}
if (i % 15 == 0)
data_vector.clear();
}
task_runner->PostTask(FROM_HERE,
base::Bind(&StressThreadDone, run_loop,
active_count));
}
// This test is meant to stress HandleWatcher. It uses from various threads
// repeatedly starting and stopping watches. It spins up kThreadCount
// threads. Each thread creates kWatchCount watches. Every so often each thread
// writes to a pipe and waits for the response.
TEST(HandleWatcherCleanEnvironmentTest, StressTest) {
#if defined(NDEBUG)
const int kThreadCount = 15;
const int kWatchCount = 400;
#else
const int kThreadCount = 10;
const int kWatchCount = 250;
#endif
base::ShadowingAtExitManager at_exit;
base::MessageLoop message_loop;
base::RunLoop run_loop;
ScopedVector<base::Thread> threads;
int threads_active_counter = kThreadCount;
// Starts the threads first and then post the task in hopes of having more
// threads running at once.
for (int i = 0; i < kThreadCount; ++i) {
scoped_ptr<base::Thread> thread(new base::Thread("test thread"));
if (i % 2) {
base::Thread::Options thread_options;
thread_options.message_pump_factory =
base::Bind(&MessagePumpMojo::Create);
thread->StartWithOptions(thread_options);
} else {
thread->Start();
}
threads.push_back(thread.release());
}
for (int i = 0; i < kThreadCount; ++i) {
threads[i]->task_runner()->PostTask(
FROM_HERE, base::Bind(&RunStressTest, kWatchCount,
message_loop.task_runner(),
&run_loop, &threads_active_counter));
}
run_loop.Run();
ASSERT_EQ(0, threads_active_counter);
}
} // namespace test
} // namespace common
} // namespace mojo