// // Copyright (C) 2015 Google, Inc. // // 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. // #pragma once #include <memory> #include <base/macros.h> #include "service/common/bluetooth/adapter_state.h" namespace bluetooth { class GattClientFactory; class GattServerFactory; class LowEnergyAdvertiserFactory; class LowEnergyScannerFactory; class LowEnergyClientFactory; // Represents the local Bluetooth adapter. class Adapter { public: // The default values returned before the Adapter is fully initialized and // powered. The complete values for these fields are obtained following a // successful call to "Enable". static const char kDefaultAddress[]; static const char kDefaultName[]; // Observer interface allows other classes to receive notifications from us. // All of the methods in this interface are declared as optional to allow // different layers to process only those events that they are interested in. // // All methods take in an |adapter| argument which points to the Adapter // object that the Observer instance was added to. class Observer { public: virtual ~Observer() = default; // Called when there is a change in the state of the local Bluetooth // |adapter| from |prev_state| to |new_state|. virtual void OnAdapterStateChanged(Adapter* adapter, AdapterState prev_state, AdapterState new_state); // Called when there is a change in the connection state between the local // |adapter| and a remote device with address |device_address|. If the ACL // state changes from disconnected to connected, then |connected| will be // true and vice versa. virtual void OnDeviceConnectionStateChanged( Adapter* adapter, const std::string& device_address, bool connected); }; // Returns an Adapter implementation to be used in production. Don't use these // in tests; use MockAdapter instead. static std::unique_ptr<Adapter> Create(); virtual ~Adapter() = default; // Add or remove an observer. virtual void AddObserver(Observer* observer) = 0; virtual void RemoveObserver(Observer* observer) = 0; // Returns the current Adapter state. virtual AdapterState GetState() const = 0; // Returns true, if the adapter radio is current powered. virtual bool IsEnabled() const = 0; // Enables Bluetooth. This method will send a request to the Bluetooth adapter // to power up its radio. Returns true, if the request was successfully sent // to the controller, otherwise returns false. A successful call to this // method only means that the enable request has been sent to the Bluetooth // controller and does not imply that the operation itself succeeded. // The |start_restricted| flag enables the adapter in restricted mode. In // restricted mode, bonds that are created are marked as restricted in the // config file. These devices are deleted upon leaving restricted mode. virtual bool Enable(bool start_restricted) = 0; // Powers off the Bluetooth radio. Returns true, if the disable request was // successfully sent to the Bluetooth controller. virtual bool Disable() = 0; // Returns the name currently assigned to the local adapter. virtual std::string GetName() const = 0; // Sets the name assigned to the local Bluetooth adapter. This is the name // that the local controller will present to remote devices. virtual bool SetName(const std::string& name) = 0; // Returns the local adapter addess in string form (XX:XX:XX:XX:XX:XX). virtual std::string GetAddress() const = 0; // Returns true if the local adapter supports the Low-Energy // multi-advertisement feature. virtual bool IsMultiAdvertisementSupported() = 0; // Returns true if the remote device with address |device_address| is // currently connected. This is not a const method as it modifies the state of // the associated internal mutex. virtual bool IsDeviceConnected(const std::string& device_address) = 0; // Returns the total number of trackable advertisements as supported by the // underlying hardware. virtual int GetTotalNumberOfTrackableAdvertisements() = 0; // Returns true if hardware-backed scan filtering is supported. virtual bool IsOffloadedFilteringSupported() = 0; // Returns true if hardware-backed batch scanning is supported. virtual bool IsOffloadedScanBatchingSupported() = 0; // Returns a pointer to the LowEnergyClientFactory. This can be used to // register per-application LowEnergyClient instances to perform BLE GAP // operations. virtual LowEnergyClientFactory* GetLowEnergyClientFactory() const = 0; // Returns a pointer to the LowEnergyScannerFactory. This can be used to // register per-application LowEnergyScanner instances to perform scanning. virtual LowEnergyScannerFactory* GetLeScannerFactory() const = 0; // Returns a pointer to the LowEnergyAdvertiserFactory. This can be used to // register per-application LowEnergyAdvertiser instances to perform // advertising. virtual LowEnergyAdvertiserFactory* GetLeAdvertiserFactory() const = 0; // Returns a pointer to the GattClientFactory. This can be used to register // per-application GATT server instances. virtual GattClientFactory* GetGattClientFactory() const = 0; // Returns a pointer to the GattServerFactory. This can be used to register // per-application GATT server instances. virtual GattServerFactory* GetGattServerFactory() const = 0; protected: Adapter() = default; private: DISALLOW_COPY_AND_ASSIGN(Adapter); }; } // namespace bluetooth