// Copyright (c) 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 "chromeos/dbus/cras_audio_client.h" #include "base/bind.h" #include "base/format_macros.h" #include "base/strings/stringprintf.h" #include "dbus/bus.h" #include "dbus/message.h" #include "dbus/object_path.h" #include "dbus/object_proxy.h" #include "third_party/cros_system_api/dbus/service_constants.h" namespace chromeos { // Error name if cras dbus call fails with empty ErrorResponse. const char kNoResponseError[] = "org.chromium.cras.Error.NoResponse"; // The CrasAudioClient implementation used in production. class CrasAudioClientImpl : public CrasAudioClient { public: CrasAudioClientImpl() : cras_proxy_(NULL), weak_ptr_factory_(this) {} ~CrasAudioClientImpl() override {} // CrasAudioClient overrides: void AddObserver(Observer* observer) override { observers_.AddObserver(observer); } void RemoveObserver(Observer* observer) override { observers_.RemoveObserver(observer); } bool HasObserver(const Observer* observer) const override { return observers_.HasObserver(observer); } void GetVolumeState(const GetVolumeStateCallback& callback) override { dbus::MethodCall method_call(cras::kCrasControlInterface, cras::kGetVolumeState); cras_proxy_->CallMethod( &method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT, base::Bind(&CrasAudioClientImpl::OnGetVolumeState, weak_ptr_factory_.GetWeakPtr(), callback)); } void GetNodes(const GetNodesCallback& callback, const ErrorCallback& error_callback) override { dbus::MethodCall method_call(cras::kCrasControlInterface, cras::kGetNodes); cras_proxy_->CallMethodWithErrorCallback( &method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT, base::Bind(&CrasAudioClientImpl::OnGetNodes, weak_ptr_factory_.GetWeakPtr(), callback), base::Bind(&CrasAudioClientImpl::OnError, weak_ptr_factory_.GetWeakPtr(), error_callback)); } void SetOutputNodeVolume(uint64 node_id, int32 volume) override { dbus::MethodCall method_call(cras::kCrasControlInterface, cras::kSetOutputNodeVolume); dbus::MessageWriter writer(&method_call); writer.AppendUint64(node_id); writer.AppendInt32(volume); cras_proxy_->CallMethod( &method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT, dbus::ObjectProxy::EmptyResponseCallback()); } void SetOutputUserMute(bool mute_on) override { dbus::MethodCall method_call(cras::kCrasControlInterface, cras::kSetOutputUserMute); dbus::MessageWriter writer(&method_call); writer.AppendBool(mute_on); cras_proxy_->CallMethod( &method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT, dbus::ObjectProxy::EmptyResponseCallback()); } void SetInputNodeGain(uint64 node_id, int32 input_gain) override { dbus::MethodCall method_call(cras::kCrasControlInterface, cras::kSetInputNodeGain); dbus::MessageWriter writer(&method_call); writer.AppendUint64(node_id); writer.AppendInt32(input_gain); cras_proxy_->CallMethod( &method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT, dbus::ObjectProxy::EmptyResponseCallback()); } void SetInputMute(bool mute_on) override { dbus::MethodCall method_call(cras::kCrasControlInterface, cras::kSetInputMute); dbus::MessageWriter writer(&method_call); writer.AppendBool(mute_on); cras_proxy_->CallMethod( &method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT, dbus::ObjectProxy::EmptyResponseCallback()); } void SetActiveOutputNode(uint64 node_id) override { dbus::MethodCall method_call(cras::kCrasControlInterface, cras::kSetActiveOutputNode); dbus::MessageWriter writer(&method_call); writer.AppendUint64(node_id); cras_proxy_->CallMethod( &method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT, dbus::ObjectProxy::EmptyResponseCallback()); } void SetActiveInputNode(uint64 node_id) override { dbus::MethodCall method_call(cras::kCrasControlInterface, cras::kSetActiveInputNode); dbus::MessageWriter writer(&method_call); writer.AppendUint64(node_id); cras_proxy_->CallMethod( &method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT, dbus::ObjectProxy::EmptyResponseCallback()); } void AddActiveInputNode(uint64 node_id) override { dbus::MethodCall method_call(cras::kCrasControlInterface, cras::kAddActiveInputNode); dbus::MessageWriter writer(&method_call); writer.AppendUint64(node_id); cras_proxy_->CallMethod( &method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT, dbus::ObjectProxy::EmptyResponseCallback()); } void RemoveActiveInputNode(uint64 node_id) override { dbus::MethodCall method_call(cras::kCrasControlInterface, cras::kRemoveActiveInputNode); dbus::MessageWriter writer(&method_call); writer.AppendUint64(node_id); cras_proxy_->CallMethod( &method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT, dbus::ObjectProxy::EmptyResponseCallback()); } void AddActiveOutputNode(uint64 node_id) override { dbus::MethodCall method_call(cras::kCrasControlInterface, cras::kAddActiveOutputNode); dbus::MessageWriter writer(&method_call); writer.AppendUint64(node_id); cras_proxy_->CallMethod(&method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT, dbus::ObjectProxy::EmptyResponseCallback()); } void RemoveActiveOutputNode(uint64 node_id) override { dbus::MethodCall method_call(cras::kCrasControlInterface, cras::kRemoveActiveOutputNode); dbus::MessageWriter writer(&method_call); writer.AppendUint64(node_id); cras_proxy_->CallMethod(&method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT, dbus::ObjectProxy::EmptyResponseCallback()); } void SwapLeftRight(uint64 node_id, bool swap) override { dbus::MethodCall method_call(cras::kCrasControlInterface, cras::kSwapLeftRight); dbus::MessageWriter writer(&method_call); writer.AppendUint64(node_id); writer.AppendBool(swap); cras_proxy_->CallMethod(&method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT, dbus::ObjectProxy::EmptyResponseCallback()); } protected: void Init(dbus::Bus* bus) override { cras_proxy_ = bus->GetObjectProxy(cras::kCrasServiceName, dbus::ObjectPath(cras::kCrasServicePath)); // Monitor NameOwnerChanged signal. cras_proxy_->SetNameOwnerChangedCallback( base::Bind(&CrasAudioClientImpl::NameOwnerChangedReceived, weak_ptr_factory_.GetWeakPtr())); // Monitor the D-Bus signal for output mute change. cras_proxy_->ConnectToSignal( cras::kCrasControlInterface, cras::kOutputMuteChanged, base::Bind(&CrasAudioClientImpl::OutputMuteChangedReceived, weak_ptr_factory_.GetWeakPtr()), base::Bind(&CrasAudioClientImpl::SignalConnected, weak_ptr_factory_.GetWeakPtr())); // Monitor the D-Bus signal for input mute change. cras_proxy_->ConnectToSignal( cras::kCrasControlInterface, cras::kInputMuteChanged, base::Bind(&CrasAudioClientImpl::InputMuteChangedReceived, weak_ptr_factory_.GetWeakPtr()), base::Bind(&CrasAudioClientImpl::SignalConnected, weak_ptr_factory_.GetWeakPtr())); // Monitor the D-Bus signal for nodes change. cras_proxy_->ConnectToSignal( cras::kCrasControlInterface, cras::kNodesChanged, base::Bind(&CrasAudioClientImpl::NodesChangedReceived, weak_ptr_factory_.GetWeakPtr()), base::Bind(&CrasAudioClientImpl::SignalConnected, weak_ptr_factory_.GetWeakPtr())); // Monitor the D-Bus signal for active output node change. cras_proxy_->ConnectToSignal( cras::kCrasControlInterface, cras::kActiveOutputNodeChanged, base::Bind(&CrasAudioClientImpl::ActiveOutputNodeChangedReceived, weak_ptr_factory_.GetWeakPtr()), base::Bind(&CrasAudioClientImpl::SignalConnected, weak_ptr_factory_.GetWeakPtr())); // Monitor the D-Bus signal for active input node change. cras_proxy_->ConnectToSignal( cras::kCrasControlInterface, cras::kActiveInputNodeChanged, base::Bind(&CrasAudioClientImpl::ActiveInputNodeChangedReceived, weak_ptr_factory_.GetWeakPtr()), base::Bind(&CrasAudioClientImpl::SignalConnected, weak_ptr_factory_.GetWeakPtr())); } private: // Called when the cras signal is initially connected. void SignalConnected(const std::string& interface_name, const std::string& signal_name, bool success) { LOG_IF(ERROR, !success) << "Failed to connect to cras signal:" << signal_name; } void NameOwnerChangedReceived(const std::string& old_owner, const std::string& new_owner) { FOR_EACH_OBSERVER(Observer, observers_, AudioClientRestarted()); } // Called when a OutputMuteChanged signal is received. void OutputMuteChangedReceived(dbus::Signal* signal) { // Chrome should always call SetOutputUserMute api to set the output // mute state and monitor user_mute state from OutputMuteChanged signal. dbus::MessageReader reader(signal); bool system_mute, user_mute; if (!reader.PopBool(&system_mute) || !reader.PopBool(&user_mute)) { LOG(ERROR) << "Error reading signal from cras:" << signal->ToString(); } FOR_EACH_OBSERVER(Observer, observers_, OutputMuteChanged(user_mute)); } // Called when a InputMuteChanged signal is received. void InputMuteChangedReceived(dbus::Signal* signal) { dbus::MessageReader reader(signal); bool mute; if (!reader.PopBool(&mute)) { LOG(ERROR) << "Error reading signal from cras:" << signal->ToString(); } FOR_EACH_OBSERVER(Observer, observers_, InputMuteChanged(mute)); } void NodesChangedReceived(dbus::Signal* signal) { FOR_EACH_OBSERVER(Observer, observers_, NodesChanged()); } void ActiveOutputNodeChangedReceived(dbus::Signal* signal) { dbus::MessageReader reader(signal); uint64 node_id; if (!reader.PopUint64(&node_id)) { LOG(ERROR) << "Error reading signal from cras:" << signal->ToString(); } FOR_EACH_OBSERVER(Observer, observers_, ActiveOutputNodeChanged(node_id)); } void ActiveInputNodeChangedReceived(dbus::Signal* signal) { dbus::MessageReader reader(signal); uint64 node_id; if (!reader.PopUint64(&node_id)) { LOG(ERROR) << "Error reading signal from cras:" << signal->ToString(); } FOR_EACH_OBSERVER(Observer, observers_, ActiveInputNodeChanged(node_id)); } void OnGetVolumeState(const GetVolumeStateCallback& callback, dbus::Response* response) { bool success = true; VolumeState volume_state; if (response) { dbus::MessageReader reader(response); if (!reader.PopInt32(&volume_state.output_volume) || !reader.PopBool(&volume_state.output_system_mute) || !reader.PopInt32(&volume_state.input_gain) || !reader.PopBool(&volume_state.input_mute) || !reader.PopBool(&volume_state.output_user_mute)) { success = false; LOG(ERROR) << "Error reading response from cras: " << response->ToString(); } } else { success = false; LOG(ERROR) << "Error calling " << cras::kGetVolumeState; } callback.Run(volume_state, success); } void OnGetNodes(const GetNodesCallback& callback, dbus::Response* response) { bool success = true; AudioNodeList node_list; if (response) { dbus::MessageReader response_reader(response); dbus::MessageReader array_reader(response); while (response_reader.HasMoreData()) { if (!response_reader.PopArray(&array_reader)) { success = false; LOG(ERROR) << "Error reading response from cras: " << response->ToString(); break; } AudioNode node; if (!GetAudioNode(response, &array_reader, &node)) { success = false; LOG(WARNING) << "Error reading audio node data from cras: " << response->ToString(); break; } // Filter out the "UNKNOWN" type of audio devices. if (node.type != "UNKNOWN") node_list.push_back(node); } } if (node_list.empty()) return; callback.Run(node_list, success); } void OnError(const ErrorCallback& error_callback, dbus::ErrorResponse* response) { // Error response has optional error message argument. std::string error_name; std::string error_message; if (response) { dbus::MessageReader reader(response); error_name = response->GetErrorName(); reader.PopString(&error_message); } else { error_name = kNoResponseError; error_message = ""; } error_callback.Run(error_name, error_message); } bool GetAudioNode(dbus::Response* response, dbus::MessageReader* array_reader, AudioNode *node) { while (array_reader->HasMoreData()) { dbus::MessageReader dict_entry_reader(response); dbus::MessageReader value_reader(response); std::string key; if (!array_reader->PopDictEntry(&dict_entry_reader) || !dict_entry_reader.PopString(&key) || !dict_entry_reader.PopVariant(&value_reader)) { return false; } if (key == cras::kIsInputProperty) { if (!value_reader.PopBool(&node->is_input)) return false; } else if (key == cras::kIdProperty) { if (!value_reader.PopUint64(&node->id)) return false; } else if (key == cras::kDeviceNameProperty) { if (!value_reader.PopString(&node->device_name)) return false; } else if (key == cras::kTypeProperty) { if (!value_reader.PopString(&node->type)) return false; } else if (key == cras::kNameProperty) { if (!value_reader.PopString(&node->name)) return false; } else if (key == cras::kActiveProperty) { if (!value_reader.PopBool(&node->active)) return false; } else if (key == cras::kPluggedTimeProperty) { if (!value_reader.PopUint64(&node->plugged_time)) return false; } else if (key == cras::kMicPositionsProperty) { if (!value_reader.PopString(&node->mic_positions)) return false; } } return true; } dbus::ObjectProxy* cras_proxy_; base::ObserverList observers_; // Note: This should remain the last member so it'll be destroyed and // invalidate its weak pointers before any other members are destroyed. base::WeakPtrFactory weak_ptr_factory_; DISALLOW_COPY_AND_ASSIGN(CrasAudioClientImpl); }; CrasAudioClient::Observer::~Observer() { } void CrasAudioClient::Observer::AudioClientRestarted() { } void CrasAudioClient::Observer::OutputMuteChanged(bool mute_on) { } void CrasAudioClient::Observer::InputMuteChanged(bool mute_on) { } void CrasAudioClient::Observer::NodesChanged() { } void CrasAudioClient::Observer::ActiveOutputNodeChanged(uint64 node_id){ } void CrasAudioClient::Observer::ActiveInputNodeChanged(uint64 node_id) { } CrasAudioClient::CrasAudioClient() { } CrasAudioClient::~CrasAudioClient() { } // static CrasAudioClient* CrasAudioClient::Create() { return new CrasAudioClientImpl(); } } // namespace chromeos