// // Copyright (C) 2014 The Android Open Source Project // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // #include "update_engine/update_manager/real_shill_provider.h" #include #include #include #include #include #include using chromeos_update_engine::SystemState; using chromeos_update_engine::connection_utils::ParseConnectionType; using org::chromium::flimflam::ManagerProxyInterface; using org::chromium::flimflam::ServiceProxyInterface; using std::string; namespace chromeos_update_manager { bool RealShillProvider::Init() { ManagerProxyInterface* manager_proxy = shill_proxy_->GetManagerProxy(); if (!manager_proxy) return false; // Subscribe to the manager's PropertyChanged signal. manager_proxy->RegisterPropertyChangedSignalHandler( base::Bind(&RealShillProvider::OnManagerPropertyChanged, base::Unretained(this)), base::Bind(&RealShillProvider::OnSignalConnected, base::Unretained(this))); // Attempt to read initial connection status. Even if this fails because shill // is not responding (e.g. it is down) we'll be notified via "PropertyChanged" // signal as soon as it comes up, so this is not a critical step. brillo::VariantDictionary properties; brillo::ErrorPtr error; if (!manager_proxy->GetProperties(&properties, &error)) return true; const auto& prop_default_service = properties.find(shill::kDefaultServiceProperty); if (prop_default_service != properties.end()) { OnManagerPropertyChanged(prop_default_service->first, prop_default_service->second); } return true; } void RealShillProvider::OnManagerPropertyChanged(const string& name, const brillo::Any& value) { if (name == shill::kDefaultServiceProperty) { dbus::ObjectPath service_path = value.TryGet(); if (!service_path.IsValid()) { LOG(WARNING) << "Got an invalid DefaultService path. The property value " "contains a " << value.GetUndecoratedTypeName() << ", read as the object path: '" << service_path.value() << "'"; } ProcessDefaultService(service_path); } } void RealShillProvider::OnSignalConnected(const string& interface_name, const string& signal_name, bool successful) { if (!successful) { LOG(ERROR) << "Couldn't connect to the signal " << interface_name << "." << signal_name; } } bool RealShillProvider::ProcessDefaultService( const dbus::ObjectPath& default_service_path) { // We assume that if the service path didn't change, then the connection // type and the tethering status of it also didn't change. if (default_service_path_ == default_service_path) return true; // Update the connection status. default_service_path_ = default_service_path; bool is_connected = (default_service_path_.IsValid() && default_service_path_.value() != "/"); var_is_connected_.SetValue(is_connected); var_conn_last_changed_.SetValue( SystemState::Get()->clock()->GetWallclockTime()); if (!is_connected) { var_conn_type_.UnsetValue(); var_conn_tethering_.UnsetValue(); return true; } // We create and dispose the ServiceProxyInterface on every request. std::unique_ptr service = shill_proxy_->GetServiceForPath(default_service_path_); // Get the connection properties synchronously. brillo::VariantDictionary properties; brillo::ErrorPtr error; if (!service->GetProperties(&properties, &error)) { var_conn_type_.UnsetValue(); var_conn_tethering_.UnsetValue(); return false; } // Get the connection tethering mode. const auto& prop_tethering = properties.find(shill::kTetheringProperty); if (prop_tethering == properties.end()) { // Remove the value if not present on the service. This most likely means an // error in shill and the policy will handle it, but we will print a log // message as well for accessing an unused variable. var_conn_tethering_.UnsetValue(); LOG(ERROR) << "Could not find connection type (service: " << default_service_path_.value() << ")"; } else { // If the property doesn't contain a string value, the empty string will // become kUnknown. var_conn_tethering_.SetValue( chromeos_update_engine::connection_utils::ParseConnectionTethering( prop_tethering->second.TryGet())); } // Get the connection type. const auto& prop_type = properties.find(shill::kTypeProperty); if (prop_type == properties.end()) { var_conn_type_.UnsetValue(); LOG(ERROR) << "Could not find connection tethering mode (service: " << default_service_path_.value() << ")"; } else { string type_str = prop_type->second.TryGet(); if (type_str == shill::kTypeVPN) { const auto& prop_physical = properties.find(shill::kPhysicalTechnologyProperty); if (prop_physical == properties.end()) { LOG(ERROR) << "No PhysicalTechnology property found for a VPN" << " connection (service: " << default_service_path_.value() << "). Using default kUnknown value."; var_conn_type_.SetValue( chromeos_update_engine::ConnectionType::kUnknown); } else { var_conn_type_.SetValue( ParseConnectionType(prop_physical->second.TryGet())); } } else { var_conn_type_.SetValue(ParseConnectionType(type_str)); } } return true; } } // namespace chromeos_update_manager