// 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. #ifndef DEVICE_BLUETOOTH_BLUETOOTH_GATT_SERVICE_H_ #define DEVICE_BLUETOOTH_BLUETOOTH_GATT_SERVICE_H_ #include #include "base/basictypes.h" #include "base/callback.h" #include "device/bluetooth/bluetooth_export.h" #include "device/bluetooth/bluetooth_uuid.h" namespace device { class BluetoothDevice; class BluetoothGattCharacteristic; class BluetoothGattDescriptor; // BluetoothGattService represents a local or remote GATT service. A GATT // service is hosted by a peripheral and represents a collection of data in // the form of GATT characteristics and a set of included GATT services if this // service is what is called "a primary service". // // Instances of the BluetoothGattService class are used for two functions: // 1. To represent GATT attribute hierarchies that have been received from a // remote Bluetooth GATT peripheral. Such BluetoothGattService instances // are constructed and owned by a BluetoothDevice. // // 2. To represent a locally hosted GATT attribute hierarchy when the local // adapter is used in the "peripheral" role. Such instances are meant to be // constructed directly and registered. Once registered, a GATT attribute // hierarchy will be visible to remote devices in the "central" role. class DEVICE_BLUETOOTH_EXPORT BluetoothGattService { public: // The Delegate class is used to send certain events that need to be handled // when the device is in peripheral mode. The delegate handles read and write // requests that are issued from remote clients. class Delegate { public: // Callbacks used for communicating GATT request responses. typedef base::Callback)> ValueCallback; typedef base::Closure ErrorCallback; // Called when a remote device in the central role requests to read the // value of the characteristic |characteristic| starting at offset |offset|. // This method is only called if the characteristic was specified as // readable and any authentication and authorization challenges were // satisfied by the remote device. // // To respond to the request with success and return the requested value, // the delegate must invoke |callback| with the value. Doing so will // automatically update the value property of |characteristic|. To respond // to the request with failure (e.g. if an invalid offset was given), // delegates must invoke |error_callback|. If neither callback parameter is // invoked, the request will time out and result in an error. Therefore, // delegates MUST invoke either |callback| or |error_callback|. virtual void OnCharacteristicReadRequest( const BluetoothGattService* service, const BluetoothGattCharacteristic* characteristic, int offset, const ValueCallback& callback, const ErrorCallback& error_callback) = 0; // Called when a remote device in the central role requests to write the // value of the characteristic |characteristic| starting at offset |offset|. // This method is only called if the characteristic was specified as // writable and any authentication and authorization challenges were // satisfied by the remote device. // // To respond to the request with success the delegate must invoke // |callback| with the new value of the characteristic. Doing so will // automatically update the value property of |characteristic|. To respond // to the request with failure (e.g. if an invalid offset was given), // delegates must invoke |error_callback|. If neither callback parameter is // invoked, the request will time out and result in an error. Therefore, // delegates MUST invoke either |callback| or |error_callback|. virtual void OnCharacteristicWriteRequest( const BluetoothGattService* service, const BluetoothGattCharacteristic* characteristic, const std::vector& value, int offset, const ValueCallback& callback, const ErrorCallback& error_callback) = 0; // Called when a remote device in the central role requests to read the // value of the descriptor |descriptor| starting at offset |offset|. // This method is only called if the characteristic was specified as // readable and any authentication and authorization challenges were // satisfied by the remote device. // // To respond to the request with success and return the requested value, // the delegate must invoke |callback| with the value. Doing so will // automatically update the value property of |descriptor|. To respond // to the request with failure (e.g. if an invalid offset was given), // delegates must invoke |error_callback|. If neither callback parameter is // invoked, the request will time out and result in an error. Therefore, // delegates MUST invoke either |callback| or |error_callback|. virtual void OnDescriptorReadRequest( const BluetoothGattService* service, const BluetoothGattDescriptor* descriptor, int offset, const ValueCallback& callback, const ErrorCallback& error_callback) = 0; // Called when a remote device in the central role requests to write the // value of the descriptor |descriptor| starting at offset |offset|. // This method is only called if the characteristic was specified as // writable and any authentication and authorization challenges were // satisfied by the remote device. // // To respond to the request with success the delegate must invoke // |callback| with the new value of the descriptor. Doing so will // automatically update the value property of |descriptor|. To respond // to the request with failure (e.g. if an invalid offset was given), // delegates must invoke |error_callback|. If neither callback parameter is // invoked, the request will time out and result in an error. Therefore, // delegates MUST invoke either |callback| or |error_callback|. virtual void OnDescriptorWriteRequest( const BluetoothGattService* service, const BluetoothGattDescriptor* descriptor, const std::vector& value, int offset, const ValueCallback& callback, const ErrorCallback& error_callback) = 0; }; // Interacting with Characteristics and Descriptors can produce // this set of errors. enum GattErrorCode { GATT_ERROR_UNKNOWN = 0, GATT_ERROR_FAILED, GATT_ERROR_IN_PROGRESS, GATT_ERROR_INVALID_LENGTH, GATT_ERROR_NOT_PERMITTED, GATT_ERROR_NOT_AUTHORIZED, GATT_ERROR_NOT_PAIRED, GATT_ERROR_NOT_SUPPORTED }; // The ErrorCallback is used by methods to asynchronously report errors. typedef base::Closure ErrorCallback; virtual ~BluetoothGattService(); // Constructs a BluetoothGattService that can be locally hosted when the local // adapter is in the peripheral role. The resulting object can then be made // available by calling the "Register" method. This method constructs a // service with UUID |uuid|. Whether the constructed service is primary or // secondary is determined by |is_primary|. |delegate| is used to send certain // peripheral role events. If |delegate| is NULL, then this service will // employ a default behavior when responding to read and write requests based // on the cached value of its characteristics and descriptors at a given time. static BluetoothGattService* Create(const BluetoothUUID& uuid, bool is_primary, Delegate* delegate); // Identifier used to uniquely identify a GATT service object. This is // different from the service UUID: while multiple services with the same UUID // can exist on a Bluetooth device, the identifier returned from this method // is unique among all services on the adapter. The contents of the identifier // are platform specific. virtual std::string GetIdentifier() const = 0; // The Bluetooth-specific UUID of the service. virtual BluetoothUUID GetUUID() const = 0; // Returns true, if this service hosted locally. If false, then this service // represents a remote GATT service. virtual bool IsLocal() const = 0; // Indicates whether the type of this service is primary or secondary. A // primary service describes the primary function of the peripheral that // hosts it, while a secondary service only makes sense in the presence of a // primary service. A primary service may include other primary or secondary // services. virtual bool IsPrimary() const = 0; // Returns the BluetoothDevice that this GATT service was received from, which // also owns this service. Local services always return NULL. virtual BluetoothDevice* GetDevice() const = 0; // List of characteristics that belong to this service. virtual std::vector GetCharacteristics() const = 0; // List of GATT services that are included by this service. virtual std::vector GetIncludedServices() const = 0; // Returns the GATT characteristic with identifier |identifier| if it belongs // to this GATT service. virtual BluetoothGattCharacteristic* GetCharacteristic( const std::string& identifier) const = 0; // Adds characteristics and included services to the local attribute hierarchy // represented by this service. These methods only make sense for local // services and won't have an effect if this instance represents a remote // GATT service and will return false. While ownership of added // characteristics are taken over by the service, ownership of an included // service is not taken. virtual bool AddCharacteristic( BluetoothGattCharacteristic* characteristic) = 0; virtual bool AddIncludedService(BluetoothGattService* service) = 0; // Registers this GATT service. Calling Register will make this service and // all of its associated attributes available on the local adapters GATT // database and the service UUID will be advertised to nearby devices if the // local adapter is discoverable. Call Unregister to make this service no // longer available. // // These methods only make sense for services that are local and will hence // fail if this instance represents a remote GATT service. |callback| is // called to denote success and |error_callback| to denote failure. virtual void Register(const base::Closure& callback, const ErrorCallback& error_callback) = 0; virtual void Unregister(const base::Closure& callback, const ErrorCallback& error_callback) = 0; protected: BluetoothGattService(); private: DISALLOW_COPY_AND_ASSIGN(BluetoothGattService); }; } // namespace device #endif // DEVICE_BLUETOOTH_BLUETOOTH_GATT_SERVICE_H_