// Copyright 2014 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 "build/build_config.h" #include #include #include "base/pickle.h" #include "base/threading/thread.h" #include "ipc/ipc_message.h" #include "ipc/ipc_test_base.h" #include "ipc/message_filter.h" // Get basic type definitions. #define IPC_MESSAGE_IMPL #include "ipc/ipc_channel_proxy_unittest_messages.h" // Generate constructors. #include "ipc/struct_constructor_macros.h" #include "ipc/ipc_channel_proxy_unittest_messages.h" // Generate destructors. #include "ipc/struct_destructor_macros.h" #include "ipc/ipc_channel_proxy_unittest_messages.h" // Generate param traits write methods. #include "ipc/param_traits_write_macros.h" namespace IPC { #include "ipc/ipc_channel_proxy_unittest_messages.h" } // namespace IPC // Generate param traits read methods. #include "ipc/param_traits_read_macros.h" namespace IPC { #include "ipc/ipc_channel_proxy_unittest_messages.h" } // namespace IPC // Generate param traits log methods. #include "ipc/param_traits_log_macros.h" namespace IPC { #include "ipc/ipc_channel_proxy_unittest_messages.h" } // namespace IPC namespace { class QuitListener : public IPC::Listener { public: QuitListener() : bad_message_received_(false) {} bool OnMessageReceived(const IPC::Message& message) override { IPC_BEGIN_MESSAGE_MAP(QuitListener, message) IPC_MESSAGE_HANDLER(WorkerMsg_Quit, OnQuit) IPC_MESSAGE_HANDLER(TestMsg_BadMessage, OnBadMessage) IPC_END_MESSAGE_MAP() return true; } void OnBadMessageReceived(const IPC::Message& message) override { bad_message_received_ = true; } void OnQuit() { base::MessageLoop::current()->QuitWhenIdle(); } void OnBadMessage(const BadType& bad_type) { // Should never be called since IPC wouldn't be deserialized correctly. CHECK(false); } bool bad_message_received_; }; class ChannelReflectorListener : public IPC::Listener { public: ChannelReflectorListener() : channel_(NULL) {} void Init(IPC::Channel* channel) { DCHECK(!channel_); channel_ = channel; } bool OnMessageReceived(const IPC::Message& message) override { IPC_BEGIN_MESSAGE_MAP(ChannelReflectorListener, message) IPC_MESSAGE_HANDLER(TestMsg_Bounce, OnTestBounce) IPC_MESSAGE_HANDLER(TestMsg_SendBadMessage, OnSendBadMessage) IPC_MESSAGE_HANDLER(UtilityMsg_Bounce, OnUtilityBounce) IPC_MESSAGE_HANDLER(WorkerMsg_Bounce, OnBounce) IPC_MESSAGE_HANDLER(WorkerMsg_Quit, OnQuit) IPC_END_MESSAGE_MAP() return true; } void OnTestBounce() { channel_->Send(new TestMsg_Bounce()); } void OnSendBadMessage() { channel_->Send(new TestMsg_BadMessage(BadType())); } void OnUtilityBounce() { channel_->Send(new UtilityMsg_Bounce()); } void OnBounce() { channel_->Send(new WorkerMsg_Bounce()); } void OnQuit() { channel_->Send(new WorkerMsg_Quit()); base::MessageLoop::current()->QuitWhenIdle(); } private: IPC::Channel* channel_; }; class MessageCountFilter : public IPC::MessageFilter { public: enum FilterEvent { NONE, FILTER_ADDED, CHANNEL_CONNECTED, CHANNEL_ERROR, CHANNEL_CLOSING, FILTER_REMOVED }; MessageCountFilter() : messages_received_(0), supported_message_class_(0), is_global_filter_(true), last_filter_event_(NONE), message_filtering_enabled_(false) {} MessageCountFilter(uint32_t supported_message_class) : messages_received_(0), supported_message_class_(supported_message_class), is_global_filter_(false), last_filter_event_(NONE), message_filtering_enabled_(false) {} void OnFilterAdded(IPC::Sender* sender) override { EXPECT_TRUE(sender); EXPECT_EQ(NONE, last_filter_event_); last_filter_event_ = FILTER_ADDED; } void OnChannelConnected(int32_t peer_pid) override { EXPECT_EQ(FILTER_ADDED, last_filter_event_); EXPECT_NE(static_cast(base::kNullProcessId), peer_pid); last_filter_event_ = CHANNEL_CONNECTED; } void OnChannelError() override { EXPECT_EQ(CHANNEL_CONNECTED, last_filter_event_); last_filter_event_ = CHANNEL_ERROR; } void OnChannelClosing() override { // We may or may not have gotten OnChannelError; if not, the last event has // to be OnChannelConnected. if (last_filter_event_ != CHANNEL_ERROR) EXPECT_EQ(CHANNEL_CONNECTED, last_filter_event_); last_filter_event_ = CHANNEL_CLOSING; } void OnFilterRemoved() override { // If the channel didn't get a chance to connect, we might see the // OnFilterRemoved event with no other events preceding it. We still want // OnFilterRemoved to be called to allow for deleting the Filter. if (last_filter_event_ != NONE) EXPECT_EQ(CHANNEL_CLOSING, last_filter_event_); last_filter_event_ = FILTER_REMOVED; } bool OnMessageReceived(const IPC::Message& message) override { // We should always get the OnFilterAdded and OnChannelConnected events // prior to any messages. EXPECT_EQ(CHANNEL_CONNECTED, last_filter_event_); if (!is_global_filter_) { EXPECT_EQ(supported_message_class_, IPC_MESSAGE_CLASS(message)); } ++messages_received_; if (!message_filtering_enabled_) return false; bool handled = true; IPC_BEGIN_MESSAGE_MAP(MessageCountFilter, message) IPC_MESSAGE_HANDLER(TestMsg_BadMessage, OnBadMessage) IPC_MESSAGE_UNHANDLED(handled = false) IPC_END_MESSAGE_MAP() return handled; } void OnBadMessage(const BadType& bad_type) { // Should never be called since IPC wouldn't be deserialized correctly. CHECK(false); } bool GetSupportedMessageClasses( std::vector* supported_message_classes) const override { if (is_global_filter_) return false; supported_message_classes->push_back(supported_message_class_); return true; } void set_message_filtering_enabled(bool enabled) { message_filtering_enabled_ = enabled; } size_t messages_received() const { return messages_received_; } FilterEvent last_filter_event() const { return last_filter_event_; } private: ~MessageCountFilter() override {} size_t messages_received_; uint32_t supported_message_class_; bool is_global_filter_; FilterEvent last_filter_event_; bool message_filtering_enabled_; }; class IPCChannelProxyTest : public IPCTestBase { public: IPCChannelProxyTest() {} ~IPCChannelProxyTest() override {} void SetUp() override { IPCTestBase::SetUp(); Init("ChannelProxyClient"); thread_.reset(new base::Thread("ChannelProxyTestServerThread")); base::Thread::Options options; options.message_loop_type = base::MessageLoop::TYPE_IO; thread_->StartWithOptions(options); listener_.reset(new QuitListener()); CreateChannelProxy(listener_.get(), thread_->task_runner().get()); ASSERT_TRUE(StartClient()); } void TearDown() override { DestroyChannelProxy(); thread_.reset(); listener_.reset(); IPCTestBase::TearDown(); } void SendQuitMessageAndWaitForIdle() { sender()->Send(new WorkerMsg_Quit); base::MessageLoop::current()->Run(); EXPECT_TRUE(WaitForClientShutdown()); } bool DidListenerGetBadMessage() { return listener_->bad_message_received_; } private: scoped_ptr thread_; scoped_ptr listener_; }; #if defined(OS_ANDROID) #define MAYBE_MessageClassFilters DISABLED_MessageClassFilters #else #define MAYBE_MessageClassFilters MessageClassFilters #endif TEST_F(IPCChannelProxyTest, MAYBE_MessageClassFilters) { // Construct a filter per message class. std::vector > class_filters; class_filters.push_back(make_scoped_refptr( new MessageCountFilter(TestMsgStart))); class_filters.push_back(make_scoped_refptr( new MessageCountFilter(UtilityMsgStart))); for (size_t i = 0; i < class_filters.size(); ++i) channel_proxy()->AddFilter(class_filters[i].get()); // Send a message for each class; each filter should receive just one message. sender()->Send(new TestMsg_Bounce()); sender()->Send(new UtilityMsg_Bounce()); // Send some messages not assigned to a specific or valid message class. sender()->Send(new WorkerMsg_Bounce); // Each filter should have received just the one sent message of the // corresponding class. SendQuitMessageAndWaitForIdle(); for (size_t i = 0; i < class_filters.size(); ++i) EXPECT_EQ(1U, class_filters[i]->messages_received()); } #if defined(OS_ANDROID) #define MAYBE_GlobalAndMessageClassFilters DISABLED_GlobalAndMessageClassFilters #else #define MAYBE_GlobalAndMessageClassFilters GlobalAndMessageClassFilters #endif TEST_F(IPCChannelProxyTest, MAYBE_GlobalAndMessageClassFilters) { // Add a class and global filter. scoped_refptr class_filter( new MessageCountFilter(TestMsgStart)); class_filter->set_message_filtering_enabled(false); channel_proxy()->AddFilter(class_filter.get()); scoped_refptr global_filter(new MessageCountFilter()); global_filter->set_message_filtering_enabled(false); channel_proxy()->AddFilter(global_filter.get()); // A message of class Test should be seen by both the global filter and // Test-specific filter. sender()->Send(new TestMsg_Bounce); // A message of a different class should be seen only by the global filter. sender()->Send(new UtilityMsg_Bounce); // Flush all messages. SendQuitMessageAndWaitForIdle(); // The class filter should have received only the class-specific message. EXPECT_EQ(1U, class_filter->messages_received()); // The global filter should have received both messages, as well as the final // QUIT message. EXPECT_EQ(3U, global_filter->messages_received()); } #if defined(OS_ANDROID) #define MAYBE_FilterRemoval DISABLED_FilterRemoval #else #define MAYBE_FilterRemoval FilterRemoval #endif TEST_F(IPCChannelProxyTest, MAYBE_FilterRemoval) { // Add a class and global filter. scoped_refptr class_filter( new MessageCountFilter(TestMsgStart)); scoped_refptr global_filter(new MessageCountFilter()); // Add and remove both types of filters. channel_proxy()->AddFilter(class_filter.get()); channel_proxy()->AddFilter(global_filter.get()); channel_proxy()->RemoveFilter(global_filter.get()); channel_proxy()->RemoveFilter(class_filter.get()); // Send some messages; they should not be seen by either filter. sender()->Send(new TestMsg_Bounce); sender()->Send(new UtilityMsg_Bounce); // Ensure that the filters were removed and did not receive any messages. SendQuitMessageAndWaitForIdle(); EXPECT_EQ(MessageCountFilter::FILTER_REMOVED, global_filter->last_filter_event()); EXPECT_EQ(MessageCountFilter::FILTER_REMOVED, class_filter->last_filter_event()); EXPECT_EQ(0U, class_filter->messages_received()); EXPECT_EQ(0U, global_filter->messages_received()); } // The test that follow trigger DCHECKS in debug build. #if defined(NDEBUG) && !defined(DCHECK_ALWAYS_ON) TEST_F(IPCChannelProxyTest, BadMessageOnListenerThread) { scoped_refptr class_filter( new MessageCountFilter(TestMsgStart)); class_filter->set_message_filtering_enabled(false); channel_proxy()->AddFilter(class_filter.get()); sender()->Send(new TestMsg_SendBadMessage()); SendQuitMessageAndWaitForIdle(); EXPECT_TRUE(DidListenerGetBadMessage()); } TEST_F(IPCChannelProxyTest, BadMessageOnIPCThread) { scoped_refptr class_filter( new MessageCountFilter(TestMsgStart)); class_filter->set_message_filtering_enabled(true); channel_proxy()->AddFilter(class_filter.get()); sender()->Send(new TestMsg_SendBadMessage()); SendQuitMessageAndWaitForIdle(); EXPECT_TRUE(DidListenerGetBadMessage()); } class IPCChannelBadMessageTest : public IPCTestBase { public: void SetUp() override { IPCTestBase::SetUp(); Init("ChannelProxyClient"); listener_.reset(new QuitListener()); CreateChannel(listener_.get()); ASSERT_TRUE(ConnectChannel()); ASSERT_TRUE(StartClient()); } void TearDown() override { listener_.reset(); IPCTestBase::TearDown(); } void SendQuitMessageAndWaitForIdle() { sender()->Send(new WorkerMsg_Quit); base::MessageLoop::current()->Run(); EXPECT_TRUE(WaitForClientShutdown()); } bool DidListenerGetBadMessage() { return listener_->bad_message_received_; } private: scoped_ptr listener_; }; #if !defined(OS_WIN) // TODO(jam): for some reason this is flaky on win buildbots. TEST_F(IPCChannelBadMessageTest, BadMessage) { sender()->Send(new TestMsg_SendBadMessage()); SendQuitMessageAndWaitForIdle(); EXPECT_TRUE(DidListenerGetBadMessage()); } #endif #endif MULTIPROCESS_IPC_TEST_CLIENT_MAIN(ChannelProxyClient) { base::MessageLoopForIO main_message_loop; ChannelReflectorListener listener; scoped_ptr channel(IPC::Channel::CreateClient( IPCTestBase::GetChannelName("ChannelProxyClient"), &listener)); CHECK(channel->Connect()); listener.Init(channel.get()); base::MessageLoop::current()->Run(); return 0; } } // namespace