// 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 "base/bind.h" #include "base/memory/ref_counted.h" #include "base/message_loop/message_loop.h" #include "device/bluetooth/bluetooth_adapter.h" #include "device/bluetooth/bluetooth_adapter_bluez.h" #include "device/bluetooth/bluetooth_adapter_factory.h" #include "device/bluetooth/bluetooth_device.h" #include "device/bluetooth/bluetooth_device_bluez.h" #include "device/bluetooth/bluetooth_socket.h" #include "device/bluetooth/bluetooth_socket_bluez.h" #include "device/bluetooth/bluetooth_socket_thread.h" #include "device/bluetooth/bluetooth_uuid.h" #include "device/bluetooth/dbus/bluez_dbus_manager.h" #include "device/bluetooth/dbus/fake_bluetooth_adapter_client.h" #include "device/bluetooth/dbus/fake_bluetooth_agent_manager_client.h" #include "device/bluetooth/dbus/fake_bluetooth_device_client.h" #include "device/bluetooth/dbus/fake_bluetooth_gatt_service_client.h" #include "device/bluetooth/dbus/fake_bluetooth_input_client.h" #include "device/bluetooth/dbus/fake_bluetooth_profile_manager_client.h" #include "device/bluetooth/dbus/fake_bluetooth_profile_service_provider.h" #include "net/base/io_buffer.h" #include "net/base/net_errors.h" #include "testing/gtest/include/gtest/gtest.h" using device::BluetoothAdapter; using device::BluetoothDevice; using device::BluetoothSocket; using device::BluetoothSocketThread; using device::BluetoothUUID; namespace { void DoNothingDBusErrorCallback(const std::string& error_name, const std::string& error_message) {} } // namespace namespace bluez { class BluetoothSocketBlueZTest : public testing::Test { public: BluetoothSocketBlueZTest() : success_callback_count_(0), error_callback_count_(0), last_bytes_sent_(0), last_bytes_received_(0), last_reason_(BluetoothSocket::kSystemError) {} void SetUp() override { scoped_ptr dbus_setter = bluez::BluezDBusManager::GetSetterForTesting(); dbus_setter->SetBluetoothAdapterClient( scoped_ptr( new bluez::FakeBluetoothAdapterClient)); dbus_setter->SetBluetoothAgentManagerClient( scoped_ptr( new bluez::FakeBluetoothAgentManagerClient)); dbus_setter->SetBluetoothDeviceClient( scoped_ptr( new bluez::FakeBluetoothDeviceClient)); dbus_setter->SetBluetoothGattServiceClient( scoped_ptr( new bluez::FakeBluetoothGattServiceClient)); dbus_setter->SetBluetoothInputClient( scoped_ptr( new bluez::FakeBluetoothInputClient)); dbus_setter->SetBluetoothProfileManagerClient( scoped_ptr( new bluez::FakeBluetoothProfileManagerClient)); BluetoothSocketThread::Get(); // Grab a pointer to the adapter. device::BluetoothAdapterFactory::GetAdapter(base::Bind( &BluetoothSocketBlueZTest::AdapterCallback, base::Unretained(this))); base::MessageLoop::current()->Run(); ASSERT_TRUE(adapter_.get() != nullptr); ASSERT_TRUE(adapter_->IsInitialized()); ASSERT_TRUE(adapter_->IsPresent()); // Turn on the adapter. adapter_->SetPowered(true, base::Bind(&base::DoNothing), base::Bind(&base::DoNothing)); ASSERT_TRUE(adapter_->IsPowered()); } void TearDown() override { adapter_ = nullptr; BluetoothSocketThread::CleanupForTesting(); bluez::BluezDBusManager::Shutdown(); } void AdapterCallback(scoped_refptr adapter) { adapter_ = adapter; if (base::MessageLoop::current() && base::MessageLoop::current()->is_running()) { base::MessageLoop::current()->QuitWhenIdle(); } } void SuccessCallback() { ++success_callback_count_; message_loop_.QuitWhenIdle(); } void ErrorCallback(const std::string& message) { ++error_callback_count_; last_message_ = message; if (message_loop_.is_running()) message_loop_.QuitWhenIdle(); } void ConnectToServiceSuccessCallback(scoped_refptr socket) { ++success_callback_count_; last_socket_ = socket; message_loop_.QuitWhenIdle(); } void SendSuccessCallback(int bytes_sent) { ++success_callback_count_; last_bytes_sent_ = bytes_sent; message_loop_.QuitWhenIdle(); } void ReceiveSuccessCallback(int bytes_received, scoped_refptr io_buffer) { ++success_callback_count_; last_bytes_received_ = bytes_received; last_io_buffer_ = io_buffer; message_loop_.QuitWhenIdle(); } void ReceiveErrorCallback(BluetoothSocket::ErrorReason reason, const std::string& error_message) { ++error_callback_count_; last_reason_ = reason; last_message_ = error_message; message_loop_.QuitWhenIdle(); } void CreateServiceSuccessCallback(scoped_refptr socket) { ++success_callback_count_; last_socket_ = socket; if (message_loop_.is_running()) message_loop_.QuitWhenIdle(); } void AcceptSuccessCallback(const BluetoothDevice* device, scoped_refptr socket) { ++success_callback_count_; last_device_ = device; last_socket_ = socket; message_loop_.QuitWhenIdle(); } void ImmediateSuccessCallback() { ++success_callback_count_; } protected: base::MessageLoop message_loop_; scoped_refptr adapter_; unsigned int success_callback_count_; unsigned int error_callback_count_; std::string last_message_; scoped_refptr last_socket_; int last_bytes_sent_; int last_bytes_received_; scoped_refptr last_io_buffer_; BluetoothSocket::ErrorReason last_reason_; const BluetoothDevice* last_device_; }; TEST_F(BluetoothSocketBlueZTest, Connect) { BluetoothDevice* device = adapter_->GetDevice( bluez::FakeBluetoothDeviceClient::kPairedDeviceAddress); ASSERT_TRUE(device != nullptr); device->ConnectToService( BluetoothUUID(bluez::FakeBluetoothProfileManagerClient::kRfcommUuid), base::Bind(&BluetoothSocketBlueZTest::ConnectToServiceSuccessCallback, base::Unretained(this)), base::Bind(&BluetoothSocketBlueZTest::ErrorCallback, base::Unretained(this))); message_loop_.Run(); EXPECT_EQ(1U, success_callback_count_); EXPECT_EQ(0U, error_callback_count_); EXPECT_TRUE(last_socket_.get() != nullptr); // Take ownership of the socket for the remainder of the test. scoped_refptr socket = last_socket_; last_socket_ = nullptr; success_callback_count_ = 0; error_callback_count_ = 0; // Send data to the socket, expect all of the data to be sent. scoped_refptr write_buffer( new net::StringIOBuffer("test")); socket->Send(write_buffer.get(), write_buffer->size(), base::Bind(&BluetoothSocketBlueZTest::SendSuccessCallback, base::Unretained(this)), base::Bind(&BluetoothSocketBlueZTest::ErrorCallback, base::Unretained(this))); message_loop_.Run(); EXPECT_EQ(1U, success_callback_count_); EXPECT_EQ(0U, error_callback_count_); EXPECT_EQ(last_bytes_sent_, write_buffer->size()); success_callback_count_ = 0; error_callback_count_ = 0; // Receive data from the socket, and fetch the buffer from the callback; since // the fake is an echo server, we expect to receive what we wrote. socket->Receive(4096, base::Bind(&BluetoothSocketBlueZTest::ReceiveSuccessCallback, base::Unretained(this)), base::Bind(&BluetoothSocketBlueZTest::ReceiveErrorCallback, base::Unretained(this))); message_loop_.Run(); EXPECT_EQ(1U, success_callback_count_); EXPECT_EQ(0U, error_callback_count_); EXPECT_EQ(4, last_bytes_received_); EXPECT_TRUE(last_io_buffer_.get() != nullptr); // Take ownership of the received buffer. scoped_refptr read_buffer = last_io_buffer_; last_io_buffer_ = nullptr; success_callback_count_ = 0; error_callback_count_ = 0; std::string data = std::string(read_buffer->data(), last_bytes_received_); EXPECT_EQ("test", data); read_buffer = nullptr; // Receive data again; the socket will have been closed, this should cause a // disconnected error to be returned via the error callback. socket->Receive(4096, base::Bind(&BluetoothSocketBlueZTest::ReceiveSuccessCallback, base::Unretained(this)), base::Bind(&BluetoothSocketBlueZTest::ReceiveErrorCallback, base::Unretained(this))); message_loop_.Run(); EXPECT_EQ(0U, success_callback_count_); EXPECT_EQ(1U, error_callback_count_); EXPECT_EQ(BluetoothSocket::kDisconnected, last_reason_); EXPECT_EQ(net::ErrorToString(net::OK), last_message_); success_callback_count_ = 0; error_callback_count_ = 0; // Send data again; since the socket is closed we should get a system error // equivalent to the connection reset error. write_buffer = new net::StringIOBuffer("second test"); socket->Send(write_buffer.get(), write_buffer->size(), base::Bind(&BluetoothSocketBlueZTest::SendSuccessCallback, base::Unretained(this)), base::Bind(&BluetoothSocketBlueZTest::ErrorCallback, base::Unretained(this))); message_loop_.Run(); EXPECT_EQ(0U, success_callback_count_); EXPECT_EQ(1U, error_callback_count_); EXPECT_EQ(net::ErrorToString(net::ERR_CONNECTION_RESET), last_message_); success_callback_count_ = 0; error_callback_count_ = 0; // Close our end of the socket. socket->Disconnect(base::Bind(&BluetoothSocketBlueZTest::SuccessCallback, base::Unretained(this))); message_loop_.Run(); EXPECT_EQ(1U, success_callback_count_); } TEST_F(BluetoothSocketBlueZTest, Listen) { adapter_->CreateRfcommService( BluetoothUUID(bluez::FakeBluetoothProfileManagerClient::kRfcommUuid), BluetoothAdapter::ServiceOptions(), base::Bind(&BluetoothSocketBlueZTest::CreateServiceSuccessCallback, base::Unretained(this)), base::Bind(&BluetoothSocketBlueZTest::ErrorCallback, base::Unretained(this))); message_loop_.Run(); EXPECT_EQ(1U, success_callback_count_); EXPECT_EQ(0U, error_callback_count_); EXPECT_TRUE(last_socket_.get() != nullptr); // Take ownership of the socket for the remainder of the test. scoped_refptr server_socket = last_socket_; last_socket_ = nullptr; success_callback_count_ = 0; error_callback_count_ = 0; // Simulate an incoming connection by just calling the ConnectProfile method // of the underlying fake device client (from the BlueZ point of view, // outgoing and incoming look the same). // // This is done before the Accept() call to simulate a pending call at the // point that Accept() is called. bluez::FakeBluetoothDeviceClient* fake_bluetooth_device_client = static_cast( bluez::BluezDBusManager::Get()->GetBluetoothDeviceClient()); BluetoothDevice* device = adapter_->GetDevice( bluez::FakeBluetoothDeviceClient::kPairedDeviceAddress); ASSERT_TRUE(device != nullptr); fake_bluetooth_device_client->ConnectProfile( static_cast(device)->object_path(), bluez::FakeBluetoothProfileManagerClient::kRfcommUuid, base::Bind(&base::DoNothing), base::Bind(&DoNothingDBusErrorCallback)); message_loop_.RunUntilIdle(); server_socket->Accept( base::Bind(&BluetoothSocketBlueZTest::AcceptSuccessCallback, base::Unretained(this)), base::Bind(&BluetoothSocketBlueZTest::ErrorCallback, base::Unretained(this))); message_loop_.Run(); EXPECT_EQ(1U, success_callback_count_); EXPECT_EQ(0U, error_callback_count_); EXPECT_TRUE(last_socket_.get() != nullptr); // Take ownership of the client socket for the remainder of the test. scoped_refptr client_socket = last_socket_; last_socket_ = nullptr; success_callback_count_ = 0; error_callback_count_ = 0; // Close our end of the client socket. client_socket->Disconnect(base::Bind( &BluetoothSocketBlueZTest::SuccessCallback, base::Unretained(this))); message_loop_.Run(); EXPECT_EQ(1U, success_callback_count_); client_socket = nullptr; success_callback_count_ = 0; error_callback_count_ = 0; // Run a second connection test, this time calling Accept() before the // incoming connection comes in. server_socket->Accept( base::Bind(&BluetoothSocketBlueZTest::AcceptSuccessCallback, base::Unretained(this)), base::Bind(&BluetoothSocketBlueZTest::ErrorCallback, base::Unretained(this))); message_loop_.RunUntilIdle(); fake_bluetooth_device_client->ConnectProfile( static_cast(device)->object_path(), bluez::FakeBluetoothProfileManagerClient::kRfcommUuid, base::Bind(&base::DoNothing), base::Bind(&DoNothingDBusErrorCallback)); message_loop_.Run(); EXPECT_EQ(1U, success_callback_count_); EXPECT_EQ(0U, error_callback_count_); EXPECT_TRUE(last_socket_.get() != nullptr); // Take ownership of the client socket for the remainder of the test. client_socket = last_socket_; last_socket_ = nullptr; success_callback_count_ = 0; error_callback_count_ = 0; // Close our end of the client socket. client_socket->Disconnect(base::Bind( &BluetoothSocketBlueZTest::SuccessCallback, base::Unretained(this))); message_loop_.Run(); EXPECT_EQ(1U, success_callback_count_); client_socket = nullptr; success_callback_count_ = 0; error_callback_count_ = 0; // Now close the server socket. server_socket->Disconnect( base::Bind(&BluetoothSocketBlueZTest::ImmediateSuccessCallback, base::Unretained(this))); message_loop_.RunUntilIdle(); EXPECT_EQ(1U, success_callback_count_); } TEST_F(BluetoothSocketBlueZTest, ListenBeforeAdapterStart) { // Start off with an invisible adapter, register the profile, then make // the adapter visible. bluez::FakeBluetoothAdapterClient* fake_bluetooth_adapter_client = static_cast( bluez::BluezDBusManager::Get()->GetBluetoothAdapterClient()); fake_bluetooth_adapter_client->SetVisible(false); adapter_->CreateRfcommService( BluetoothUUID(bluez::FakeBluetoothProfileManagerClient::kRfcommUuid), BluetoothAdapter::ServiceOptions(), base::Bind(&BluetoothSocketBlueZTest::CreateServiceSuccessCallback, base::Unretained(this)), base::Bind(&BluetoothSocketBlueZTest::ErrorCallback, base::Unretained(this))); message_loop_.Run(); EXPECT_EQ(1U, success_callback_count_); EXPECT_EQ(0U, error_callback_count_); EXPECT_TRUE(last_socket_.get() != nullptr); // Take ownership of the socket for the remainder of the test. scoped_refptr socket = last_socket_; last_socket_ = nullptr; success_callback_count_ = 0; error_callback_count_ = 0; // But there shouldn't be a profile registered yet. bluez::FakeBluetoothProfileManagerClient* fake_bluetooth_profile_manager_client = static_cast( bluez::BluezDBusManager::Get() ->GetBluetoothProfileManagerClient()); bluez::FakeBluetoothProfileServiceProvider* profile_service_provider = fake_bluetooth_profile_manager_client->GetProfileServiceProvider( bluez::FakeBluetoothProfileManagerClient::kRfcommUuid); EXPECT_TRUE(profile_service_provider == nullptr); // Make the adapter visible. This should register a profile. fake_bluetooth_adapter_client->SetVisible(true); message_loop_.RunUntilIdle(); profile_service_provider = fake_bluetooth_profile_manager_client->GetProfileServiceProvider( bluez::FakeBluetoothProfileManagerClient::kRfcommUuid); EXPECT_TRUE(profile_service_provider != nullptr); // Cleanup the socket. socket->Disconnect( base::Bind(&BluetoothSocketBlueZTest::ImmediateSuccessCallback, base::Unretained(this))); message_loop_.RunUntilIdle(); EXPECT_EQ(1U, success_callback_count_); } TEST_F(BluetoothSocketBlueZTest, ListenAcrossAdapterRestart) { // The fake adapter starts off visible by default. bluez::FakeBluetoothAdapterClient* fake_bluetooth_adapter_client = static_cast( bluez::BluezDBusManager::Get()->GetBluetoothAdapterClient()); adapter_->CreateRfcommService( BluetoothUUID(bluez::FakeBluetoothProfileManagerClient::kRfcommUuid), BluetoothAdapter::ServiceOptions(), base::Bind(&BluetoothSocketBlueZTest::CreateServiceSuccessCallback, base::Unretained(this)), base::Bind(&BluetoothSocketBlueZTest::ErrorCallback, base::Unretained(this))); message_loop_.Run(); EXPECT_EQ(1U, success_callback_count_); EXPECT_EQ(0U, error_callback_count_); EXPECT_TRUE(last_socket_.get() != nullptr); // Take ownership of the socket for the remainder of the test. scoped_refptr socket = last_socket_; last_socket_ = nullptr; success_callback_count_ = 0; error_callback_count_ = 0; // Make sure the profile was registered with the daemon. bluez::FakeBluetoothProfileManagerClient* fake_bluetooth_profile_manager_client = static_cast( bluez::BluezDBusManager::Get() ->GetBluetoothProfileManagerClient()); bluez::FakeBluetoothProfileServiceProvider* profile_service_provider = fake_bluetooth_profile_manager_client->GetProfileServiceProvider( bluez::FakeBluetoothProfileManagerClient::kRfcommUuid); EXPECT_TRUE(profile_service_provider != nullptr); // Make the adapter invisible, and fiddle with the profile fake to unregister // the profile since this doesn't happen automatically. fake_bluetooth_adapter_client->SetVisible(false); message_loop_.RunUntilIdle(); // Then make the adapter visible again. This should re-register the profile. fake_bluetooth_adapter_client->SetVisible(true); message_loop_.RunUntilIdle(); profile_service_provider = fake_bluetooth_profile_manager_client->GetProfileServiceProvider( bluez::FakeBluetoothProfileManagerClient::kRfcommUuid); EXPECT_TRUE(profile_service_provider != nullptr); // Cleanup the socket. socket->Disconnect( base::Bind(&BluetoothSocketBlueZTest::ImmediateSuccessCallback, base::Unretained(this))); message_loop_.RunUntilIdle(); EXPECT_EQ(1U, success_callback_count_); } TEST_F(BluetoothSocketBlueZTest, PairedConnectFails) { BluetoothDevice* device = adapter_->GetDevice( bluez::FakeBluetoothDeviceClient::kPairedUnconnectableDeviceAddress); ASSERT_TRUE(device != nullptr); device->ConnectToService( BluetoothUUID(bluez::FakeBluetoothProfileManagerClient::kRfcommUuid), base::Bind(&BluetoothSocketBlueZTest::ConnectToServiceSuccessCallback, base::Unretained(this)), base::Bind(&BluetoothSocketBlueZTest::ErrorCallback, base::Unretained(this))); message_loop_.Run(); EXPECT_EQ(0U, success_callback_count_); EXPECT_EQ(1U, error_callback_count_); EXPECT_TRUE(last_socket_.get() == nullptr); device->ConnectToService( BluetoothUUID(bluez::FakeBluetoothProfileManagerClient::kRfcommUuid), base::Bind(&BluetoothSocketBlueZTest::ConnectToServiceSuccessCallback, base::Unretained(this)), base::Bind(&BluetoothSocketBlueZTest::ErrorCallback, base::Unretained(this))); message_loop_.Run(); EXPECT_EQ(0U, success_callback_count_); EXPECT_EQ(2U, error_callback_count_); EXPECT_TRUE(last_socket_.get() == nullptr); } TEST_F(BluetoothSocketBlueZTest, SocketListenTwice) { adapter_->CreateRfcommService( BluetoothUUID(bluez::FakeBluetoothProfileManagerClient::kRfcommUuid), BluetoothAdapter::ServiceOptions(), base::Bind(&BluetoothSocketBlueZTest::CreateServiceSuccessCallback, base::Unretained(this)), base::Bind(&BluetoothSocketBlueZTest::ErrorCallback, base::Unretained(this))); message_loop_.Run(); EXPECT_EQ(1U, success_callback_count_); EXPECT_EQ(0U, error_callback_count_); EXPECT_TRUE(last_socket_.get() != nullptr); // Take control of this socket. scoped_refptr server_socket; server_socket.swap(last_socket_); server_socket->Accept( base::Bind(&BluetoothSocketBlueZTest::AcceptSuccessCallback, base::Unretained(this)), base::Bind(&BluetoothSocketBlueZTest::ErrorCallback, base::Unretained(this))); server_socket->Close(); server_socket = nullptr; message_loop_.RunUntilIdle(); EXPECT_EQ(1U, success_callback_count_); EXPECT_EQ(1U, error_callback_count_); adapter_->CreateRfcommService( BluetoothUUID(bluez::FakeBluetoothProfileManagerClient::kRfcommUuid), BluetoothAdapter::ServiceOptions(), base::Bind(&BluetoothSocketBlueZTest::CreateServiceSuccessCallback, base::Unretained(this)), base::Bind(&BluetoothSocketBlueZTest::ErrorCallback, base::Unretained(this))); message_loop_.Run(); EXPECT_EQ(2U, success_callback_count_); EXPECT_EQ(1U, error_callback_count_); EXPECT_TRUE(last_socket_.get() != nullptr); // Take control of this socket. server_socket.swap(last_socket_); server_socket->Accept( base::Bind(&BluetoothSocketBlueZTest::AcceptSuccessCallback, base::Unretained(this)), base::Bind(&BluetoothSocketBlueZTest::ErrorCallback, base::Unretained(this))); server_socket->Close(); server_socket = nullptr; message_loop_.RunUntilIdle(); EXPECT_EQ(2U, success_callback_count_); EXPECT_EQ(2U, error_callback_count_); } } // namespace bluez