device/bluetooth/bluetooth_adapter.h - platform/external/chromium_org - Git at Google

 // 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.

 #ifndef DEVICE_BLUETOOTH_BLUETOOTH_ADAPTER_H_
 #define DEVICE_BLUETOOTH_BLUETOOTH_ADAPTER_H_

 #include <list>
 #include <map>
 #include <set>
 #include <string>
 #include <utility>

 #include "base/callback.h"
 #include "base/memory/ref_counted.h"
 #include "base/memory/weak_ptr.h"
 #include "device/bluetooth/bluetooth_device.h"

 namespace device {

 class BluetoothDiscoverySession;
 class BluetoothGattCharacteristic;
 class BluetoothGattDescriptor;
 class BluetoothGattService;
 class BluetoothSocket;
 class BluetoothUUID;

 // BluetoothAdapter represents a local Bluetooth adapter which may be used to
 // interact with remote Bluetooth devices. As well as providing support for
 // determining whether an adapter is present and whether the radio is powered,
 // this class also provides support for obtaining the list of remote devices
 // known to the adapter, discovering new devices, and providing notification of
 // updates to device information.
 class BluetoothAdapter : public base::RefCounted<BluetoothAdapter> {
  public:
   // Interface for observing changes from bluetooth adapters.
   class Observer {
    public:
     virtual ~Observer() {}

     // Called when the presence of the adapter |adapter| changes. When |present|
     // is true the adapter is now present, false means the adapter has been
     // removed from the system.
     virtual void AdapterPresentChanged(BluetoothAdapter* adapter,
                                        bool present) {}

     // Called when the radio power state of the adapter |adapter| changes. When
     // |powered| is true the adapter radio is powered, false means the adapter
     // radio is off.
     virtual void AdapterPoweredChanged(BluetoothAdapter* adapter,
                                        bool powered) {}

     // Called when the discoverability state of the  adapter |adapter| changes.
     // When |discoverable| is true the adapter is discoverable by other devices,
     // false means the adapter is not discoverable.
     virtual void AdapterDiscoverableChanged(BluetoothAdapter* adapter,
                                            bool discoverable) {}

     // Called when the discovering state of the adapter |adapter| changes. When
     // |discovering| is true the adapter is seeking new devices, false means it
     // is not.
     virtual void AdapterDiscoveringChanged(BluetoothAdapter* adapter,
                                            bool discovering) {}

     // Called when a new device |device| is added to the adapter |adapter|,
     // either because it has been discovered or a connection made. |device|
     // should not be cached. Instead, copy its Bluetooth address.
     virtual void DeviceAdded(BluetoothAdapter* adapter,
                              BluetoothDevice* device) {}

     // Called when properties of the device |device| known to the adapter
     // |adapter| change. |device| should not be cached. Instead, copy its
     // Bluetooth address.
     virtual void DeviceChanged(BluetoothAdapter* adapter,
                                BluetoothDevice* device) {}

     // Called when the device |device| is removed from the adapter |adapter|,
     // either as a result of a discovered device being lost between discovering
     // phases or pairing information deleted. |device| should not be
     // cached. Instead, copy its Bluetooth address.
     virtual void DeviceRemoved(BluetoothAdapter* adapter,
                                BluetoothDevice* device) {}

     // Called when a new GATT service |service| is added to the device |device|,
     // as the service is received from the device. Don't cache |service|. Store
     // its identifier instead (i.e. BluetoothGattService::GetIdentifier).
     virtual void GattServiceAdded(BluetoothAdapter* adapter,
                                   BluetoothDevice* device,
                                   BluetoothGattService* service) {}

     // Called when the GATT service |service| is removed from the device
     // |device|. This can happen if the attribute database of the remote device
     // changes or when |device| gets removed.
     virtual void GattServiceRemoved(BluetoothAdapter* adapter,
                                     BluetoothDevice* device,
                                     BluetoothGattService* service) {}

     // Called when all characteristic and descriptor discovery procedures are
     // known to be completed for the GATT service |service|. This method will be
     // called after the initial discovery of a GATT service and will usually be
     // preceded by calls to GattCharacteristicAdded and GattDescriptorAdded.
     virtual void GattDiscoveryCompleteForService(
         BluetoothAdapter* adapter,
         BluetoothGattService* service) {}

     // Called when properties of the remote GATT service |service| have changed.
     // This will get called for properties such as UUID, as well as for changes
     // to the list of known characteristics and included services. Observers
     // should read all GATT characteristic and descriptors objects and do any
     // necessary set up required for a changed service.
     virtual void GattServiceChanged(BluetoothAdapter* adapter,
                                     BluetoothGattService* service) {}

     // Called when the remote GATT characteristic |characteristic| has been
     // discovered. Use this to issue any initial read/write requests to the
     // characteristic but don't cache the pointer as it may become invalid.
     // Instead, use the specially assigned identifier to obtain a characteristic
     // and cache that identifier as necessary, as it can be used to retrieve the
     // characteristic from its GATT service. The number of characteristics with
     // the same UUID belonging to a service depends on the particular profile
     // the remote device implements, hence the client of a GATT based profile
     // will usually operate on the whole set of characteristics and not just
     // one.
     virtual void GattCharacteristicAdded(
         BluetoothAdapter* adapter,
         BluetoothGattCharacteristic* characteristic) {}

     // Called when a GATT characteristic |characteristic| has been removed from
     // the system.
     virtual void GattCharacteristicRemoved(
         BluetoothAdapter* adapter,
         BluetoothGattCharacteristic* characteristic) {}

     // Called when the remote GATT characteristic descriptor |descriptor| has
     // been discovered. Don't cache the arguments as the pointers may become
     // invalid. Instead, use the specially assigned identifier to obtain a
     // descriptor and cache that identifier as necessary.
     virtual void GattDescriptorAdded(BluetoothAdapter* adapter,
                                      BluetoothGattDescriptor* descriptor) {}

     // Called when a GATT characteristic descriptor |descriptor| has been
     // removed from the system.
     virtual void GattDescriptorRemoved(BluetoothAdapter* adapter,
                                        BluetoothGattDescriptor* descriptor) {}

     // Called when the value of a characteristic has changed. This might be a
     // result of a read/write request to, or a notification/indication from, a
     // remote GATT characteristic.
     virtual void GattCharacteristicValueChanged(
         BluetoothAdapter* adapter,
         BluetoothGattCharacteristic* characteristic,
         const std::vector<uint8>& value) {}

     // Called when the value of a characteristic descriptor has been updated.
     virtual void GattDescriptorValueChanged(BluetoothAdapter* adapter,
                                             BluetoothGattDescriptor* descriptor,
                                             const std::vector<uint8>& value) {}
   };

   // Used to configure a listening servie.
   struct ServiceOptions {
     ServiceOptions();
     ~ServiceOptions();

     scoped_ptr<int> channel;
     scoped_ptr<int> psm;
     scoped_ptr<std::string> name;
   };

   // The ErrorCallback is used for methods that can fail in which case it is
   // called, in the success case the callback is simply not called.
   typedef base::Closure ErrorCallback;

   // The InitCallback is used to trigger a callback after asynchronous
   // initialization, if initialization is asynchronous on the platform.
   typedef base::Callback<void()> InitCallback;

   // Returns a weak pointer to a new adapter.  For platforms with asynchronous
   // initialization, the returned adapter will run the |init_callback| once
   // asynchronous initialization is complete.
   // Caution: The returned pointer also transfers ownership of the adapter.  The
   // caller is expected to call |AddRef()| on the returned pointer, typically by
   // storing it into a |scoped_refptr|.
   static base::WeakPtr<BluetoothAdapter> CreateAdapter(
       const InitCallback& init_callback);

   // Returns a weak pointer to an existing adapter for testing purposes only.
   base::WeakPtr<BluetoothAdapter> GetWeakPtrForTesting();

   // Adds and removes observers for events on this bluetooth adapter. If
   // monitoring multiple adapters, check the |adapter| parameter of observer
   // methods to determine which adapter is issuing the event.
   virtual void AddObserver(BluetoothAdapter::Observer* observer) = 0;
   virtual void RemoveObserver(
       BluetoothAdapter::Observer* observer) = 0;

   // The address of this adapter. The address format is "XX:XX:XX:XX:XX:XX",
   // where each XX is a hexadecimal number.
   virtual std::string GetAddress() const = 0;

   // The name of the adapter.
   virtual std::string GetName() const = 0;

   // Set the human-readable name of the adapter to |name|. On success,
   // |callback| will be called. On failure, |error_callback| will be called.
   virtual void SetName(const std::string& name,
                        const base::Closure& callback,
                        const ErrorCallback& error_callback) = 0;

   // Indicates whether the adapter is initialized and ready to use.
   virtual bool IsInitialized() const = 0;

   // Indicates whether the adapter is actually present on the system. For the
   // default adapter, this indicates whether any adapter is present. An adapter
   // is only considered present if the address has been obtained.
   virtual bool IsPresent() const = 0;

   // Indicates whether the adapter radio is powered.
   virtual bool IsPowered() const = 0;

   // Requests a change to the adapter radio power. Setting |powered| to true
   // will turn on the radio and false will turn it off. On success, |callback|
   // will be called. On failure, |error_callback| will be called.
   virtual void SetPowered(bool powered,
                           const base::Closure& callback,
                           const ErrorCallback& error_callback) = 0;

   // Indicates whether the adapter radio is discoverable.
   virtual bool IsDiscoverable() const = 0;

   // Requests that the adapter change its discoverability state. If
   // |discoverable| is true, then it will be discoverable by other Bluetooth
   // devices. On successly changing the adapter's discoverability, |callback|
   // will be called. On failure, |error_callback| will be called.
   virtual void SetDiscoverable(bool discoverable,
                                const base::Closure& callback,
                                const ErrorCallback& error_callback) = 0;

   // Indicates whether the adapter is currently discovering new devices.
   virtual bool IsDiscovering() const = 0;

   // Requests the adapter to start a new discovery session. On success, a new
   // instance of BluetoothDiscoverySession will be returned to the caller via
   // |callback| and the adapter will be discovering nearby Bluetooth devices.
   // The returned BluetoothDiscoverySession is owned by the caller and it's the
   // owner's responsibility to properly clean it up and stop the session when
   // device discovery is no longer needed.
   //
   // If clients desire device discovery to run, they should always call this
   // method and never make it conditional on the value of IsDiscovering(), as
   // another client might cause discovery to stop unexpectedly. Hence, clients
   // should always obtain a BluetoothDiscoverySession and call
   // BluetoothDiscoverySession::Stop when done. When this method gets called,
   // device discovery may actually be in progress. Clients can call GetDevices()
   // and check for those with IsPaired() as false to obtain the list of devices
   // that have been discovered so far. Otherwise, clients can be notified of all
   // new and lost devices by implementing the Observer methods "DeviceAdded" and
   // "DeviceRemoved".
   typedef base::Callback<void(scoped_ptr<BluetoothDiscoverySession>)>
       DiscoverySessionCallback;
   virtual void StartDiscoverySession(const DiscoverySessionCallback& callback,
                                      const ErrorCallback& error_callback);

   // Requests the list of devices from the adapter. All devices are returned,
   // including those currently connected and those paired. Use the returned
   // device pointers to determine which they are.
   typedef std::vector<BluetoothDevice*> DeviceList;
   virtual DeviceList GetDevices();
   typedef std::vector<const BluetoothDevice*> ConstDeviceList;
   virtual ConstDeviceList GetDevices() const;

   // Returns a pointer to the device with the given address |address| or NULL if
   // no such device is known.
   virtual BluetoothDevice* GetDevice(const std::string& address);
   virtual const BluetoothDevice* GetDevice(const std::string& address) const;

   // Possible priorities for AddPairingDelegate(), low is intended for
   // permanent UI and high is intended for interactive UI or applications.
   enum PairingDelegatePriority {
     PAIRING_DELEGATE_PRIORITY_LOW,
     PAIRING_DELEGATE_PRIORITY_HIGH
   };

   // Adds a default pairing delegate with priority |priority|. Method calls
   // will be made on |pairing_delegate| for incoming pairing requests if the
   // priority is higher than any other registered; or for those of the same
   // priority, the first registered.
   //
   // |pairing_delegate| must not be freed without first calling
   // RemovePairingDelegate().
   virtual void AddPairingDelegate(
       BluetoothDevice::PairingDelegate* pairing_delegate,
       PairingDelegatePriority priority);

   // Removes a previously added pairing delegate.
   virtual void RemovePairingDelegate(
       BluetoothDevice::PairingDelegate* pairing_delegate);

   // Returns the first registered pairing delegate with the highest priority,
   // or NULL if no delegate is registered. Used to select the delegate for
   // incoming pairing requests.
   virtual BluetoothDevice::PairingDelegate* DefaultPairingDelegate();

   // Creates an RFCOMM service on this adapter advertised with UUID |uuid|,
   // listening on channel |options.channel|, which may be left null to
   // automatically allocate one. The service will be advertised with
   // |options.name| as the English name of the service. |callback| will be
   // called on success with a BluetoothSocket instance that is to be owned by
   // the received.  |error_callback| will be called on failure with a message
   // indicating the cause.
   typedef base::Callback<void(scoped_refptr<BluetoothSocket>)>
       CreateServiceCallback;
   typedef base::Callback<void(const std::string& message)>
       CreateServiceErrorCallback;
   virtual void CreateRfcommService(
       const BluetoothUUID& uuid,
       const ServiceOptions& options,
       const CreateServiceCallback& callback,
       const CreateServiceErrorCallback& error_callback) = 0;

   // Creates an L2CAP service on this adapter advertised with UUID |uuid|,
   // listening on PSM |options.psm|, which may be left null to automatically
   // allocate one. The service will be advertised with |options.name| as the
   // English name of the service. |callback| will be called on success with a
   // BluetoothSocket instance that is to be owned by the received.
   // |error_callback| will be called on failure with a message indicating the
   // cause.
   virtual void CreateL2capService(
       const BluetoothUUID& uuid,
       const ServiceOptions& options,
       const CreateServiceCallback& callback,
       const CreateServiceErrorCallback& error_callback) = 0;

  protected:
   friend class base::RefCounted<BluetoothAdapter>;
   friend class BluetoothDiscoverySession;
   BluetoothAdapter();
   virtual ~BluetoothAdapter();

   // Internal methods for initiating and terminating device discovery sessions.
   // An implementation of BluetoothAdapter keeps an internal reference count to
   // make sure that the underlying controller is constantly searching for nearby
   // devices and retrieving information from them as long as there are clients
   // who have requested discovery. These methods behave in the following way:
   //
   // On a call to AddDiscoverySession:
   //    - If there is a pending request to the subsystem, queue this request to
   //      execute once the pending requests are done.
   //    - If the count is 0, issue a request to the subsystem to start
   //      device discovery. On success, increment the count to 1.
   //    - If the count is greater than 0, increment the count and return
   //      success.
   //    As long as the count is non-zero, the underlying controller will be
   //    discovering for devices. This means that Chrome will restart device
   //    scan and inquiry sessions if they ever end, unless these sessions
   //    terminate due to an unexpected reason.
   //
   // On a call to RemoveDiscoverySession:
   //    - If there is a pending request to the subsystem, queue this request to
   //      execute once the pending requests are done.
   //    - If the count is 0, return failure, as there is no active discovery
   //      session.
   //    - If the count is 1, issue a request to the subsystem to stop device
   //      discovery and decrement the count to 0 on success.
   //    - If the count is greater than 1, decrement the count and return
   //      success.
   //
   // These methods invoke |callback| for success and |error_callback| for
   // failures.
   virtual void AddDiscoverySession(const base::Closure& callback,
                                    const ErrorCallback& error_callback) = 0;
   virtual void RemoveDiscoverySession(const base::Closure& callback,
                                       const ErrorCallback& error_callback) = 0;

   // Called by RemovePairingDelegate() in order to perform any class-specific
   // internal functionality necessary to remove the pairing delegate, such as
   // cleaning up ongoing pairings using it.
   virtual void RemovePairingDelegateInternal(
       BluetoothDevice::PairingDelegate* pairing_delegate) = 0;

   // Success callback passed to AddDiscoverySession by StartDiscoverySession.
   void OnStartDiscoverySession(const DiscoverySessionCallback& callback);

   // Marks all known DiscoverySession instances as inactive. Called by
   // BluetoothAdapter in the event that the adapter unexpectedly stops
   // discovering. This should be called by all platform implementations.
   void MarkDiscoverySessionsAsInactive();

   // Removes |discovery_session| from |discovery_sessions_|, if its in there.
   // Called by DiscoverySession when an instance is destroyed or becomes
   // inactive.
   void DiscoverySessionBecameInactive(
       BluetoothDiscoverySession* discovery_session);

   // Devices paired with, connected to, discovered by, or visible to the
   // adapter. The key is the Bluetooth address of the device and the value is
   // the BluetoothDevice object whose lifetime is managed by the adapter
   // instance.
   typedef std::map<const std::string, BluetoothDevice*> DevicesMap;
   DevicesMap devices_;

   // Default pairing delegates registered with the adapter.
   typedef std::pair<BluetoothDevice::PairingDelegate*,
                     PairingDelegatePriority> PairingDelegatePair;
   std::list<PairingDelegatePair> pairing_delegates_;

  private:
   // List of active DiscoverySession objects. This is used to notify sessions to
   // become inactive in case of an unexpected change to the adapter discovery
   // state. We keep raw pointers, with the invariant that a DiscoverySession
   // will remove itself from this list when it gets destroyed or becomes
   // inactive by calling DiscoverySessionBecameInactive(), hence no pointers to
   // deallocated sessions are kept.
   std::set<BluetoothDiscoverySession*> discovery_sessions_;

   // 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<BluetoothAdapter> weak_ptr_factory_;
 };

 }  // namespace device

 #endif  // DEVICE_BLUETOOTH_BLUETOOTH_ADAPTER_H_
	// 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.

	#ifndef DEVICE_BLUETOOTH_BLUETOOTH_ADAPTER_H_
	#define DEVICE_BLUETOOTH_BLUETOOTH_ADAPTER_H_

	#include <list>
	#include <map>
	#include <set>
	#include <string>
	#include <utility>

	#include "base/callback.h"
	#include "base/memory/ref_counted.h"
	#include "base/memory/weak_ptr.h"
	#include "device/bluetooth/bluetooth_device.h"

	namespace device {

	class BluetoothDiscoverySession;
	class BluetoothGattCharacteristic;
	class BluetoothGattDescriptor;
	class BluetoothGattService;
	class BluetoothSocket;
	class BluetoothUUID;

	// BluetoothAdapter represents a local Bluetooth adapter which may be used to
	// interact with remote Bluetooth devices. As well as providing support for
	// determining whether an adapter is present and whether the radio is powered,
	// this class also provides support for obtaining the list of remote devices
	// known to the adapter, discovering new devices, and providing notification of
	// updates to device information.
	class BluetoothAdapter : public base::RefCounted<BluetoothAdapter> {
	public:
	// Interface for observing changes from bluetooth adapters.
	class Observer {
	public:
	virtual ~Observer() {}

	// Called when the presence of the adapter \|adapter\| changes. When \|present\|
	// is true the adapter is now present, false means the adapter has been
	// removed from the system.
	virtual void AdapterPresentChanged(BluetoothAdapter* adapter,
	bool present) {}

	// Called when the radio power state of the adapter \|adapter\| changes. When
	// \|powered\| is true the adapter radio is powered, false means the adapter
	// radio is off.
	virtual void AdapterPoweredChanged(BluetoothAdapter* adapter,
	bool powered) {}

	// Called when the discoverability state of the adapter \|adapter\| changes.
	// When \|discoverable\| is true the adapter is discoverable by other devices,
	// false means the adapter is not discoverable.
	virtual void AdapterDiscoverableChanged(BluetoothAdapter* adapter,
	bool discoverable) {}

	// Called when the discovering state of the adapter \|adapter\| changes. When
	// \|discovering\| is true the adapter is seeking new devices, false means it
	// is not.
	virtual void AdapterDiscoveringChanged(BluetoothAdapter* adapter,
	bool discovering) {}

	// Called when a new device \|device\| is added to the adapter \|adapter\|,
	// either because it has been discovered or a connection made. \|device\|
	// should not be cached. Instead, copy its Bluetooth address.
	virtual void DeviceAdded(BluetoothAdapter* adapter,
	BluetoothDevice* device) {}

	// Called when properties of the device \|device\| known to the adapter
	// \|adapter\| change. \|device\| should not be cached. Instead, copy its
	// Bluetooth address.
	virtual void DeviceChanged(BluetoothAdapter* adapter,
	BluetoothDevice* device) {}

	// Called when the device \|device\| is removed from the adapter \|adapter\|,
	// either as a result of a discovered device being lost between discovering
	// phases or pairing information deleted. \|device\| should not be
	// cached. Instead, copy its Bluetooth address.
	virtual void DeviceRemoved(BluetoothAdapter* adapter,
	BluetoothDevice* device) {}

	// Called when a new GATT service \|service\| is added to the device \|device\|,
	// as the service is received from the device. Don't cache \|service\|. Store
	// its identifier instead (i.e. BluetoothGattService::GetIdentifier).
	virtual void GattServiceAdded(BluetoothAdapter* adapter,
	BluetoothDevice* device,
	BluetoothGattService* service) {}

	// Called when the GATT service \|service\| is removed from the device
	// \|device\|. This can happen if the attribute database of the remote device
	// changes or when \|device\| gets removed.
	virtual void GattServiceRemoved(BluetoothAdapter* adapter,
	BluetoothDevice* device,
	BluetoothGattService* service) {}

	// Called when all characteristic and descriptor discovery procedures are
	// known to be completed for the GATT service \|service\|. This method will be
	// called after the initial discovery of a GATT service and will usually be
	// preceded by calls to GattCharacteristicAdded and GattDescriptorAdded.
	virtual void GattDiscoveryCompleteForService(
	BluetoothAdapter* adapter,
	BluetoothGattService* service) {}

	// Called when properties of the remote GATT service \|service\| have changed.
	// This will get called for properties such as UUID, as well as for changes
	// to the list of known characteristics and included services. Observers
	// should read all GATT characteristic and descriptors objects and do any
	// necessary set up required for a changed service.
	virtual void GattServiceChanged(BluetoothAdapter* adapter,
	BluetoothGattService* service) {}

	// Called when the remote GATT characteristic \|characteristic\| has been
	// discovered. Use this to issue any initial read/write requests to the
	// characteristic but don't cache the pointer as it may become invalid.
	// Instead, use the specially assigned identifier to obtain a characteristic
	// and cache that identifier as necessary, as it can be used to retrieve the
	// characteristic from its GATT service. The number of characteristics with
	// the same UUID belonging to a service depends on the particular profile
	// the remote device implements, hence the client of a GATT based profile
	// will usually operate on the whole set of characteristics and not just
	// one.
	virtual void GattCharacteristicAdded(
	BluetoothAdapter* adapter,
	BluetoothGattCharacteristic* characteristic) {}

	// Called when a GATT characteristic \|characteristic\| has been removed from
	// the system.
	virtual void GattCharacteristicRemoved(
	BluetoothAdapter* adapter,
	BluetoothGattCharacteristic* characteristic) {}

	// Called when the remote GATT characteristic descriptor \|descriptor\| has
	// been discovered. Don't cache the arguments as the pointers may become
	// invalid. Instead, use the specially assigned identifier to obtain a
	// descriptor and cache that identifier as necessary.
	virtual void GattDescriptorAdded(BluetoothAdapter* adapter,
	BluetoothGattDescriptor* descriptor) {}

	// Called when a GATT characteristic descriptor \|descriptor\| has been
	// removed from the system.
	virtual void GattDescriptorRemoved(BluetoothAdapter* adapter,
	BluetoothGattDescriptor* descriptor) {}

	// Called when the value of a characteristic has changed. This might be a
	// result of a read/write request to, or a notification/indication from, a
	// remote GATT characteristic.
	virtual void GattCharacteristicValueChanged(
	BluetoothAdapter* adapter,
	BluetoothGattCharacteristic* characteristic,
	const std::vector<uint8>& value) {}

	// Called when the value of a characteristic descriptor has been updated.
	virtual void GattDescriptorValueChanged(BluetoothAdapter* adapter,
	BluetoothGattDescriptor* descriptor,
	const std::vector<uint8>& value) {}
	};

	// Used to configure a listening servie.
	struct ServiceOptions {
	ServiceOptions();
	~ServiceOptions();

	scoped_ptr<int> channel;
	scoped_ptr<int> psm;
	scoped_ptr<std::string> name;
	};

	// The ErrorCallback is used for methods that can fail in which case it is
	// called, in the success case the callback is simply not called.
	typedef base::Closure ErrorCallback;

	// The InitCallback is used to trigger a callback after asynchronous
	// initialization, if initialization is asynchronous on the platform.
	typedef base::Callback<void()> InitCallback;

	// Returns a weak pointer to a new adapter. For platforms with asynchronous
	// initialization, the returned adapter will run the \|init_callback\| once
	// asynchronous initialization is complete.
	// Caution: The returned pointer also transfers ownership of the adapter. The
	// caller is expected to call \|AddRef()\| on the returned pointer, typically by
	// storing it into a \|scoped_refptr\|.
	static base::WeakPtr<BluetoothAdapter> CreateAdapter(
	const InitCallback& init_callback);

	// Returns a weak pointer to an existing adapter for testing purposes only.
	base::WeakPtr<BluetoothAdapter> GetWeakPtrForTesting();

	// Adds and removes observers for events on this bluetooth adapter. If
	// monitoring multiple adapters, check the \|adapter\| parameter of observer
	// methods to determine which adapter is issuing the event.
	virtual void AddObserver(BluetoothAdapter::Observer* observer) = 0;
	virtual void RemoveObserver(
	BluetoothAdapter::Observer* observer) = 0;

	// The address of this adapter. The address format is "XX:XX:XX:XX:XX:XX",
	// where each XX is a hexadecimal number.
	virtual std::string GetAddress() const = 0;

	// The name of the adapter.
	virtual std::string GetName() const = 0;

	// Set the human-readable name of the adapter to \|name\|. On success,
	// \|callback\| will be called. On failure, \|error_callback\| will be called.
	virtual void SetName(const std::string& name,
	const base::Closure& callback,
	const ErrorCallback& error_callback) = 0;

	// Indicates whether the adapter is initialized and ready to use.
	virtual bool IsInitialized() const = 0;

	// Indicates whether the adapter is actually present on the system. For the
	// default adapter, this indicates whether any adapter is present. An adapter
	// is only considered present if the address has been obtained.
	virtual bool IsPresent() const = 0;

	// Indicates whether the adapter radio is powered.
	virtual bool IsPowered() const = 0;

	// Requests a change to the adapter radio power. Setting \|powered\| to true
	// will turn on the radio and false will turn it off. On success, \|callback\|
	// will be called. On failure, \|error_callback\| will be called.
	virtual void SetPowered(bool powered,
	const base::Closure& callback,
	const ErrorCallback& error_callback) = 0;

	// Indicates whether the adapter radio is discoverable.
	virtual bool IsDiscoverable() const = 0;

	// Requests that the adapter change its discoverability state. If
	// \|discoverable\| is true, then it will be discoverable by other Bluetooth
	// devices. On successly changing the adapter's discoverability, \|callback\|
	// will be called. On failure, \|error_callback\| will be called.
	virtual void SetDiscoverable(bool discoverable,
	const base::Closure& callback,
	const ErrorCallback& error_callback) = 0;

	// Indicates whether the adapter is currently discovering new devices.
	virtual bool IsDiscovering() const = 0;

	// Requests the adapter to start a new discovery session. On success, a new
	// instance of BluetoothDiscoverySession will be returned to the caller via
	// \|callback\| and the adapter will be discovering nearby Bluetooth devices.
	// The returned BluetoothDiscoverySession is owned by the caller and it's the
	// owner's responsibility to properly clean it up and stop the session when
	// device discovery is no longer needed.
	//
	// If clients desire device discovery to run, they should always call this
	// method and never make it conditional on the value of IsDiscovering(), as
	// another client might cause discovery to stop unexpectedly. Hence, clients
	// should always obtain a BluetoothDiscoverySession and call
	// BluetoothDiscoverySession::Stop when done. When this method gets called,
	// device discovery may actually be in progress. Clients can call GetDevices()
	// and check for those with IsPaired() as false to obtain the list of devices
	// that have been discovered so far. Otherwise, clients can be notified of all
	// new and lost devices by implementing the Observer methods "DeviceAdded" and
	// "DeviceRemoved".
	typedef base::Callback<void(scoped_ptr<BluetoothDiscoverySession>)>
	DiscoverySessionCallback;
	virtual void StartDiscoverySession(const DiscoverySessionCallback& callback,
	const ErrorCallback& error_callback);

	// Requests the list of devices from the adapter. All devices are returned,
	// including those currently connected and those paired. Use the returned
	// device pointers to determine which they are.
	typedef std::vector<BluetoothDevice*> DeviceList;
	virtual DeviceList GetDevices();
	typedef std::vector<const BluetoothDevice*> ConstDeviceList;
	virtual ConstDeviceList GetDevices() const;

	// Returns a pointer to the device with the given address \|address\| or NULL if
	// no such device is known.
	virtual BluetoothDevice* GetDevice(const std::string& address);
	virtual const BluetoothDevice* GetDevice(const std::string& address) const;

	// Possible priorities for AddPairingDelegate(), low is intended for
	// permanent UI and high is intended for interactive UI or applications.
	enum PairingDelegatePriority {
	PAIRING_DELEGATE_PRIORITY_LOW,
	PAIRING_DELEGATE_PRIORITY_HIGH
	};

	// Adds a default pairing delegate with priority \|priority\|. Method calls
	// will be made on \|pairing_delegate\| for incoming pairing requests if the
	// priority is higher than any other registered; or for those of the same
	// priority, the first registered.
	//
	// \|pairing_delegate\| must not be freed without first calling
	// RemovePairingDelegate().
	virtual void AddPairingDelegate(
	BluetoothDevice::PairingDelegate* pairing_delegate,
	PairingDelegatePriority priority);

	// Removes a previously added pairing delegate.
	virtual void RemovePairingDelegate(
	BluetoothDevice::PairingDelegate* pairing_delegate);

	// Returns the first registered pairing delegate with the highest priority,
	// or NULL if no delegate is registered. Used to select the delegate for
	// incoming pairing requests.
	virtual BluetoothDevice::PairingDelegate* DefaultPairingDelegate();

	// Creates an RFCOMM service on this adapter advertised with UUID \|uuid\|,
	// listening on channel \|options.channel\|, which may be left null to
	// automatically allocate one. The service will be advertised with
	// \|options.name\| as the English name of the service. \|callback\| will be
	// called on success with a BluetoothSocket instance that is to be owned by
	// the received. \|error_callback\| will be called on failure with a message
	// indicating the cause.
	typedef base::Callback<void(scoped_refptr<BluetoothSocket>)>
	CreateServiceCallback;
	typedef base::Callback<void(const std::string& message)>
	CreateServiceErrorCallback;
	virtual void CreateRfcommService(
	const BluetoothUUID& uuid,
	const ServiceOptions& options,
	const CreateServiceCallback& callback,
	const CreateServiceErrorCallback& error_callback) = 0;

	// Creates an L2CAP service on this adapter advertised with UUID \|uuid\|,
	// listening on PSM \|options.psm\|, which may be left null to automatically
	// allocate one. The service will be advertised with \|options.name\| as the
	// English name of the service. \|callback\| will be called on success with a
	// BluetoothSocket instance that is to be owned by the received.
	// \|error_callback\| will be called on failure with a message indicating the
	// cause.
	virtual void CreateL2capService(
	const BluetoothUUID& uuid,
	const ServiceOptions& options,
	const CreateServiceCallback& callback,
	const CreateServiceErrorCallback& error_callback) = 0;

	protected:
	friend class base::RefCounted<BluetoothAdapter>;
	friend class BluetoothDiscoverySession;
	BluetoothAdapter();
	virtual ~BluetoothAdapter();

	// Internal methods for initiating and terminating device discovery sessions.
	// An implementation of BluetoothAdapter keeps an internal reference count to
	// make sure that the underlying controller is constantly searching for nearby
	// devices and retrieving information from them as long as there are clients
	// who have requested discovery. These methods behave in the following way:
	//
	// On a call to AddDiscoverySession:
	// - If there is a pending request to the subsystem, queue this request to
	// execute once the pending requests are done.
	// - If the count is 0, issue a request to the subsystem to start
	// device discovery. On success, increment the count to 1.
	// - If the count is greater than 0, increment the count and return
	// success.
	// As long as the count is non-zero, the underlying controller will be
	// discovering for devices. This means that Chrome will restart device
	// scan and inquiry sessions if they ever end, unless these sessions
	// terminate due to an unexpected reason.
	//
	// On a call to RemoveDiscoverySession:
	// - If there is a pending request to the subsystem, queue this request to
	// execute once the pending requests are done.
	// - If the count is 0, return failure, as there is no active discovery
	// session.
	// - If the count is 1, issue a request to the subsystem to stop device
	// discovery and decrement the count to 0 on success.
	// - If the count is greater than 1, decrement the count and return
	// success.
	//
	// These methods invoke \|callback\| for success and \|error_callback\| for
	// failures.
	virtual void AddDiscoverySession(const base::Closure& callback,
	const ErrorCallback& error_callback) = 0;
	virtual void RemoveDiscoverySession(const base::Closure& callback,
	const ErrorCallback& error_callback) = 0;

	// Called by RemovePairingDelegate() in order to perform any class-specific
	// internal functionality necessary to remove the pairing delegate, such as
	// cleaning up ongoing pairings using it.
	virtual void RemovePairingDelegateInternal(
	BluetoothDevice::PairingDelegate* pairing_delegate) = 0;

	// Success callback passed to AddDiscoverySession by StartDiscoverySession.
	void OnStartDiscoverySession(const DiscoverySessionCallback& callback);

	// Marks all known DiscoverySession instances as inactive. Called by
	// BluetoothAdapter in the event that the adapter unexpectedly stops
	// discovering. This should be called by all platform implementations.
	void MarkDiscoverySessionsAsInactive();

	// Removes \|discovery_session\| from \|discovery_sessions_\|, if its in there.
	// Called by DiscoverySession when an instance is destroyed or becomes
	// inactive.
	void DiscoverySessionBecameInactive(
	BluetoothDiscoverySession* discovery_session);

	// Devices paired with, connected to, discovered by, or visible to the
	// adapter. The key is the Bluetooth address of the device and the value is
	// the BluetoothDevice object whose lifetime is managed by the adapter
	// instance.
	typedef std::map<const std::string, BluetoothDevice*> DevicesMap;
	DevicesMap devices_;

	// Default pairing delegates registered with the adapter.
	typedef std::pair<BluetoothDevice::PairingDelegate*,
	PairingDelegatePriority> PairingDelegatePair;
	std::list<PairingDelegatePair> pairing_delegates_;

	private:
	// List of active DiscoverySession objects. This is used to notify sessions to
	// become inactive in case of an unexpected change to the adapter discovery
	// state. We keep raw pointers, with the invariant that a DiscoverySession
	// will remove itself from this list when it gets destroyed or becomes
	// inactive by calling DiscoverySessionBecameInactive(), hence no pointers to
	// deallocated sessions are kept.
	std::set<BluetoothDiscoverySession*> discovery_sessions_;

	// 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<BluetoothAdapter> weak_ptr_factory_;
	};

	} // namespace device

	#endif // DEVICE_BLUETOOTH_BLUETOOTH_ADAPTER_H_