// Copyright (c) 2012 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/bluetooth_device_client.h" #include #include #include "base/bind.h" #include "base/logging.h" #include "base/stl_util.h" #include "chromeos/dbus/bluetooth_adapter_client.h" #include "chromeos/dbus/bluetooth_property.h" #include "chromeos/dbus/fake_old_bluetooth_device_client.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 { BluetoothDeviceClient::Properties::Properties( dbus::ObjectProxy* object_proxy, const PropertyChangedCallback& callback) : BluetoothPropertySet(object_proxy, bluetooth_device::kBluetoothDeviceInterface, callback) { RegisterProperty(bluetooth_device::kAddressProperty, &address); RegisterProperty(bluetooth_device::kNameProperty, &name); RegisterProperty(bluetooth_device::kVendorProperty, &vendor); RegisterProperty(bluetooth_device::kProductProperty, &product); RegisterProperty(bluetooth_device::kVersionProperty, &version); RegisterProperty(bluetooth_device::kIconProperty, &icon); RegisterProperty(bluetooth_device::kClassProperty, &bluetooth_class); RegisterProperty(bluetooth_device::kUUIDsProperty, &uuids); RegisterProperty(bluetooth_device::kServicesProperty, &services); RegisterProperty(bluetooth_device::kPairedProperty, &paired); RegisterProperty(bluetooth_device::kConnectedProperty, &connected); RegisterProperty(bluetooth_device::kTrustedProperty, &trusted); RegisterProperty(bluetooth_device::kBlockedProperty, &blocked); RegisterProperty(bluetooth_device::kAliasProperty, &alias); RegisterProperty(bluetooth_device::kNodesProperty, &nodes); RegisterProperty(bluetooth_device::kAdapterProperty, &adapter); RegisterProperty(bluetooth_device::kLegacyPairingProperty, &legacy_pairing); } BluetoothDeviceClient::Properties::~Properties() { } // The BluetoothDeviceClient implementation used in production. class BluetoothDeviceClientImpl: public BluetoothDeviceClient, private BluetoothAdapterClient::Observer { public: BluetoothDeviceClientImpl(dbus::Bus* bus, BluetoothAdapterClient* adapter_client) : bus_(bus), weak_ptr_factory_(this) { VLOG(1) << "Creating BluetoothDeviceClientImpl"; DCHECK(adapter_client); adapter_client->AddObserver(this); } virtual ~BluetoothDeviceClientImpl() { // Clean up Properties structures for (ObjectMap::iterator iter = object_map_.begin(); iter != object_map_.end(); ++iter) { Object object = iter->second; Properties* properties = object.second; delete properties; } } // BluetoothDeviceClient override. virtual void AddObserver(BluetoothDeviceClient::Observer* observer) OVERRIDE { DCHECK(observer); observers_.AddObserver(observer); } // BluetoothDeviceClient override. virtual void RemoveObserver(BluetoothDeviceClient::Observer* observer) OVERRIDE { DCHECK(observer); observers_.RemoveObserver(observer); } // BluetoothDeviceClient override. virtual Properties* GetProperties(const dbus::ObjectPath& object_path) OVERRIDE { return GetObject(object_path).second; } // BluetoothDeviceClient override. virtual void DiscoverServices(const dbus::ObjectPath& object_path, const std::string& pattern, const ServicesCallback& callback) OVERRIDE { dbus::MethodCall method_call( bluetooth_device::kBluetoothDeviceInterface, bluetooth_device::kDiscoverServices); dbus::MessageWriter writer(&method_call); writer.AppendString(pattern); dbus::ObjectProxy* object_proxy = GetObjectProxy(object_path); object_proxy->CallMethod( &method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT, base::Bind(&BluetoothDeviceClientImpl::OnDiscoverServices, weak_ptr_factory_.GetWeakPtr(), object_path, callback)); } // BluetoothDeviceClient override. virtual void CancelDiscovery(const dbus::ObjectPath& object_path, const DeviceCallback& callback) OVERRIDE { dbus::MethodCall method_call( bluetooth_device::kBluetoothDeviceInterface, bluetooth_device::kCancelDiscovery); dbus::ObjectProxy* object_proxy = GetObjectProxy(object_path); object_proxy->CallMethod( &method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT, base::Bind(&BluetoothDeviceClientImpl::OnCancelDiscovery, weak_ptr_factory_.GetWeakPtr(), object_path, callback)); } // BluetoothDeviceClient override. virtual void Disconnect(const dbus::ObjectPath& object_path, const DeviceCallback& callback) OVERRIDE { dbus::MethodCall method_call( bluetooth_device::kBluetoothDeviceInterface, bluetooth_device::kDisconnect); dbus::ObjectProxy* object_proxy = GetObjectProxy(object_path); object_proxy->CallMethod( &method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT, base::Bind(&BluetoothDeviceClientImpl::OnDisconnect, weak_ptr_factory_.GetWeakPtr(), object_path, callback)); } // BluetoothDeviceClient override. virtual void CreateNode(const dbus::ObjectPath& object_path, const std::string& uuid, const NodeCallback& callback) OVERRIDE { dbus::MethodCall method_call( bluetooth_device::kBluetoothDeviceInterface, bluetooth_device::kCreateNode); dbus::MessageWriter writer(&method_call); writer.AppendString(uuid); dbus::ObjectProxy* object_proxy = GetObjectProxy(object_path); object_proxy->CallMethod( &method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT, base::Bind(&BluetoothDeviceClientImpl::OnCreateNode, weak_ptr_factory_.GetWeakPtr(), object_path, callback)); } // BluetoothDeviceClient override. virtual void RemoveNode(const dbus::ObjectPath& object_path, const dbus::ObjectPath& node_path, const DeviceCallback& callback) OVERRIDE { dbus::MethodCall method_call( bluetooth_device::kBluetoothDeviceInterface, bluetooth_device::kRemoveNode); dbus::MessageWriter writer(&method_call); writer.AppendObjectPath(node_path); dbus::ObjectProxy* object_proxy = GetObjectProxy(object_path); object_proxy->CallMethod( &method_call, dbus::ObjectProxy::TIMEOUT_USE_DEFAULT, base::Bind(&BluetoothDeviceClientImpl::OnRemoveNode, weak_ptr_factory_.GetWeakPtr(), object_path, callback)); } private: // We maintain a collection of dbus object proxies and properties structures // for each device. typedef std::pair Object; typedef std::map ObjectMap; ObjectMap object_map_; // BluetoothAdapterClient::Observer override. virtual void DeviceCreated(const dbus::ObjectPath& adapter_path, const dbus::ObjectPath& object_path) OVERRIDE { } // BluetoothAdapterClient::Observer override. virtual void DeviceRemoved(const dbus::ObjectPath& adapter_path, const dbus::ObjectPath& object_path) OVERRIDE { RemoveObject(object_path); } // Ensures that we have an object proxy and properties structure for // a device with object path |object_path|, creating it if not and // storing it in our |object_map_| map. Object GetObject(const dbus::ObjectPath& object_path) { ObjectMap::iterator iter = object_map_.find(object_path); if (iter != object_map_.end()) return iter->second; // Create the object proxy. DCHECK(bus_); dbus::ObjectProxy* object_proxy = bus_->GetObjectProxy( bluetooth_device::kBluetoothDeviceServiceName, object_path); object_proxy->ConnectToSignal( bluetooth_device::kBluetoothDeviceInterface, bluetooth_device::kDisconnectRequestedSignal, base::Bind(&BluetoothDeviceClientImpl::DisconnectRequestedReceived, weak_ptr_factory_.GetWeakPtr(), object_path), base::Bind(&BluetoothDeviceClientImpl::DisconnectRequestedConnected, weak_ptr_factory_.GetWeakPtr(), object_path)); object_proxy->ConnectToSignal( bluetooth_device::kBluetoothDeviceInterface, bluetooth_device::kNodeCreatedSignal, base::Bind(&BluetoothDeviceClientImpl::NodeCreatedReceived, weak_ptr_factory_.GetWeakPtr(), object_path), base::Bind(&BluetoothDeviceClientImpl::NodeCreatedConnected, weak_ptr_factory_.GetWeakPtr(), object_path)); object_proxy->ConnectToSignal( bluetooth_device::kBluetoothDeviceInterface, bluetooth_device::kNodeRemovedSignal, base::Bind(&BluetoothDeviceClientImpl::NodeRemovedReceived, weak_ptr_factory_.GetWeakPtr(), object_path), base::Bind(&BluetoothDeviceClientImpl::NodeRemovedConnected, weak_ptr_factory_.GetWeakPtr(), object_path)); // Create the properties structure. Properties* properties = new Properties( object_proxy, base::Bind(&BluetoothDeviceClientImpl::OnPropertyChanged, weak_ptr_factory_.GetWeakPtr(), object_path)); properties->ConnectSignals(); properties->GetAll(); Object object = std::make_pair(object_proxy, properties); object_map_[object_path] = object; return object; } // Removes the dbus object proxy and properties for the device with // dbus object path |object_path| from our |object_map_| map. void RemoveObject(const dbus::ObjectPath& object_path) { ObjectMap::iterator iter = object_map_.find(object_path); if (iter != object_map_.end()) { // Clean up the Properties structure. Object object = iter->second; Properties* properties = object.second; delete properties; object_map_.erase(iter); } } // Returns a pointer to the object proxy for |object_path|, creating // it if necessary. dbus::ObjectProxy* GetObjectProxy(const dbus::ObjectPath& object_path) { return GetObject(object_path).first; } // Called by BluetoothPropertySet when a property value is changed, // either by result of a signal or response to a GetAll() or Get() // call. Informs observers. void OnPropertyChanged(const dbus::ObjectPath& object_path, const std::string& property_name) { FOR_EACH_OBSERVER(BluetoothDeviceClient::Observer, observers_, DevicePropertyChanged(object_path, property_name)); } // Called by dbus:: when a DisconnectRequested signal is received. void DisconnectRequestedReceived(const dbus::ObjectPath& object_path, dbus::Signal* signal) { DCHECK(signal); VLOG(1) << object_path.value() << ": Disconnect requested."; FOR_EACH_OBSERVER(BluetoothDeviceClient::Observer, observers_, DisconnectRequested(object_path)); } // Called by dbus:: when the DisconnectRequested signal is initially // connected. void DisconnectRequestedConnected(const dbus::ObjectPath& object_path, const std::string& interface_name, const std::string& signal_name, bool success) { LOG_IF(WARNING, !success) << object_path.value() << ": Failed to connect to " "DisconnectRequested signal."; } // Called by dbus:: when a NodeCreated signal is received. void NodeCreatedReceived(const dbus::ObjectPath& object_path, dbus::Signal* signal) { DCHECK(signal); dbus::MessageReader reader(signal); dbus::ObjectPath node_path; if (!reader.PopObjectPath(&node_path)) { LOG(WARNING) << object_path.value() << ": NodeCreated signal has incorrect parameters: " << signal->ToString(); return; } VLOG(1) << object_path.value() << ": Node created: " << node_path.value(); FOR_EACH_OBSERVER(BluetoothDeviceClient::Observer, observers_, NodeCreated(object_path, node_path)); } // Called by dbus:: when the NodeCreated signal is initially connected. void NodeCreatedConnected(const dbus::ObjectPath& object_path, const std::string& interface_name, const std::string& signal_name, bool success) { LOG_IF(WARNING, !success) << object_path.value() << ": Failed to connect to NodeCreated signal."; } // Called by dbus:: when a NodeRemoved signal is received. void NodeRemovedReceived(const dbus::ObjectPath& object_path, dbus::Signal* signal) { DCHECK(signal); dbus::MessageReader reader(signal); dbus::ObjectPath node_path; if (!reader.PopObjectPath(&node_path)) { LOG(WARNING) << object_path.value() << ": NodeRemoved signal has incorrect parameters: " << signal->ToString(); return; } VLOG(1) << object_path.value() << ": Node removed: " << node_path.value(); FOR_EACH_OBSERVER(BluetoothDeviceClient::Observer, observers_, NodeRemoved(object_path, node_path)); } // Called by dbus:: when the NodeRemoved signal is initially connected. void NodeRemovedConnected(const dbus::ObjectPath& object_path, const std::string& interface_name, const std::string& signal_name, bool success) { LOG_IF(WARNING, !success) << object_path.value() << ": Failed to connect to NodeRemoved signal."; } // Called when a response for DiscoverServices() is received. void OnDiscoverServices(const dbus::ObjectPath& object_path, const ServicesCallback& callback, dbus::Response* response) { // Parse response. bool success = false; ServiceMap services; if (response != NULL) { dbus::MessageReader reader(response); dbus::MessageReader array_reader(NULL); if (!reader.PopArray(&array_reader)) { LOG(WARNING) << "DiscoverServices response has incorrect parameters: " << response->ToString(); } else { while (array_reader.HasMoreData()) { dbus::MessageReader dict_entry_reader(NULL); uint32 key = 0; std::string value; if (!array_reader.PopDictEntry(&dict_entry_reader) || !dict_entry_reader.PopUint32(&key) || !dict_entry_reader.PopString(&value)) { LOG(WARNING) << "DiscoverServices response has " "incorrect parameters: " << response->ToString(); } else { services[key] = value; } } success = true; } } else { LOG(WARNING) << "Failed to discover services."; } // Notify client. callback.Run(object_path, services, success); } // Called when a response for CancelDiscovery() is received. void OnCancelDiscovery(const dbus::ObjectPath& object_path, const DeviceCallback& callback, dbus::Response* response) { LOG_IF(WARNING, !response) << object_path.value() << ": OnCancelDiscovery: failed."; callback.Run(object_path, response); } // Called when a response for Disconnect() is received. void OnDisconnect(const dbus::ObjectPath& object_path, const DeviceCallback& callback, dbus::Response* response) { LOG_IF(WARNING, !response) << object_path.value() << ": OnDisconnect: failed."; callback.Run(object_path, response); } // Called when a response for CreateNode() is received. void OnCreateNode(const dbus::ObjectPath& object_path, const NodeCallback& callback, dbus::Response* response) { // Parse response. bool success = false; dbus::ObjectPath node_path; if (response != NULL) { dbus::MessageReader reader(response); if (!reader.PopObjectPath(&node_path)) { LOG(WARNING) << "CreateNode response has incorrect parameters: " << response->ToString(); } else { success = true; } } else { LOG(WARNING) << "Failed to create node."; } // Notify client. callback.Run(node_path, success); } // Called when a response for RemoveNode() is received. void OnRemoveNode(const dbus::ObjectPath& object_path, const DeviceCallback& callback, dbus::Response* response) { LOG_IF(WARNING, !response) << object_path.value() << ": OnRemoveNode: failed."; callback.Run(object_path, response); } dbus::Bus* bus_; // List of observers interested in event notifications from us. ObserverList observers_; // Weak pointer factory for generating 'this' pointers that might live longer // than we do. // 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(BluetoothDeviceClientImpl); }; BluetoothDeviceClient::BluetoothDeviceClient() { } BluetoothDeviceClient::~BluetoothDeviceClient() { } BluetoothDeviceClient* BluetoothDeviceClient::Create( DBusClientImplementationType type, dbus::Bus* bus, BluetoothAdapterClient* adapter_client) { if (type == REAL_DBUS_CLIENT_IMPLEMENTATION) return new BluetoothDeviceClientImpl(bus, adapter_client); DCHECK_EQ(STUB_DBUS_CLIENT_IMPLEMENTATION, type); return new FakeOldBluetoothDeviceClient(); } } // namespace chromeos