examples/androidapp/src/org/appspot/apprtc/AppRTCBluetoothManager.java - src.git - Git at Google

 /*
  *  Copyright 2016 The WebRTC Project Authors. All rights reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 package org.appspot.apprtc;

 import android.annotation.SuppressLint;
 import android.bluetooth.BluetoothAdapter;
 import android.bluetooth.BluetoothDevice;
 import android.bluetooth.BluetoothHeadset;
 import android.bluetooth.BluetoothProfile;
 import android.content.BroadcastReceiver;
 import android.content.Context;
 import android.content.Intent;
 import android.content.IntentFilter;
 import android.content.pm.PackageManager;
 import android.media.AudioManager;
 import android.os.Handler;
 import android.os.Looper;
 import android.os.Process;
 import javax.annotation.Nullable;
 import android.util.Log;
 import java.util.List;
 import java.util.Set;
 import org.appspot.apprtc.util.AppRTCUtils;
 import org.webrtc.ThreadUtils;

 /**
  * AppRTCProximitySensor manages functions related to Bluetoth devices in the
  * AppRTC demo.
  */
 public class AppRTCBluetoothManager {
   private static final String TAG = "AppRTCBluetoothManager";

   // Timeout interval for starting or stopping audio to a Bluetooth SCO device.
   private static final int BLUETOOTH_SCO_TIMEOUT_MS = 4000;
   // Maximum number of SCO connection attempts.
   private static final int MAX_SCO_CONNECTION_ATTEMPTS = 2;

   // Bluetooth connection state.
   public enum State {
     // Bluetooth is not available; no adapter or Bluetooth is off.
     UNINITIALIZED,
     // Bluetooth error happened when trying to start Bluetooth.
     ERROR,
     // Bluetooth proxy object for the Headset profile exists, but no connected headset devices,
     // SCO is not started or disconnected.
     HEADSET_UNAVAILABLE,
     // Bluetooth proxy object for the Headset profile connected, connected Bluetooth headset
     // present, but SCO is not started or disconnected.
     HEADSET_AVAILABLE,
     // Bluetooth audio SCO connection with remote device is closing.
     SCO_DISCONNECTING,
     // Bluetooth audio SCO connection with remote device is initiated.
     SCO_CONNECTING,
     // Bluetooth audio SCO connection with remote device is established.
     SCO_CONNECTED
   }

   private final Context apprtcContext;
   private final AppRTCAudioManager apprtcAudioManager;
   @Nullable
   private final AudioManager audioManager;
   private final Handler handler;

   int scoConnectionAttempts;
   private State bluetoothState;
   private final BluetoothProfile.ServiceListener bluetoothServiceListener;
   @Nullable
   private BluetoothAdapter bluetoothAdapter;
   @Nullable
   private BluetoothHeadset bluetoothHeadset;
   @Nullable
   private BluetoothDevice bluetoothDevice;
   private final BroadcastReceiver bluetoothHeadsetReceiver;

   // Runs when the Bluetooth timeout expires. We use that timeout after calling
   // startScoAudio() or stopScoAudio() because we're not guaranteed to get a
   // callback after those calls.
   private final Runnable bluetoothTimeoutRunnable = new Runnable() {
     @Override
     public void run() {
       bluetoothTimeout();
     }
   };

   /**
    * Implementation of an interface that notifies BluetoothProfile IPC clients when they have been
    * connected to or disconnected from the service.
    */
   private class BluetoothServiceListener implements BluetoothProfile.ServiceListener {
     @Override
     // Called to notify the client when the proxy object has been connected to the service.
     // Once we have the profile proxy object, we can use it to monitor the state of the
     // connection and perform other operations that are relevant to the headset profile.
     public void onServiceConnected(int profile, BluetoothProfile proxy) {
       if (profile != BluetoothProfile.HEADSET || bluetoothState == State.UNINITIALIZED) {
         return;
       }
       Log.d(TAG, "BluetoothServiceListener.onServiceConnected: BT state=" + bluetoothState);
       // Android only supports one connected Bluetooth Headset at a time.
       bluetoothHeadset = (BluetoothHeadset) proxy;
       updateAudioDeviceState();
       Log.d(TAG, "onServiceConnected done: BT state=" + bluetoothState);
     }

     @Override
     /** Notifies the client when the proxy object has been disconnected from the service. */
     public void onServiceDisconnected(int profile) {
       if (profile != BluetoothProfile.HEADSET || bluetoothState == State.UNINITIALIZED) {
         return;
       }
       Log.d(TAG, "BluetoothServiceListener.onServiceDisconnected: BT state=" + bluetoothState);
       stopScoAudio();
       bluetoothHeadset = null;
       bluetoothDevice = null;
       bluetoothState = State.HEADSET_UNAVAILABLE;
       updateAudioDeviceState();
       Log.d(TAG, "onServiceDisconnected done: BT state=" + bluetoothState);
     }
   }

   // Intent broadcast receiver which handles changes in Bluetooth device availability.
   // Detects headset changes and Bluetooth SCO state changes.
   private class BluetoothHeadsetBroadcastReceiver extends BroadcastReceiver {
     @Override
     public void onReceive(Context context, Intent intent) {
       if (bluetoothState == State.UNINITIALIZED) {
         return;
       }
       final String action = intent.getAction();
       // Change in connection state of the Headset profile. Note that the
       // change does not tell us anything about whether we're streaming
       // audio to BT over SCO. Typically received when user turns on a BT
       // headset while audio is active using another audio device.
       if (action.equals(BluetoothHeadset.ACTION_CONNECTION_STATE_CHANGED)) {
         final int state =
             intent.getIntExtra(BluetoothHeadset.EXTRA_STATE, BluetoothHeadset.STATE_DISCONNECTED);
         Log.d(TAG, "BluetoothHeadsetBroadcastReceiver.onReceive: "
                 + "a=ACTION_CONNECTION_STATE_CHANGED, "
                 + "s=" + stateToString(state) + ", "
                 + "sb=" + isInitialStickyBroadcast() + ", "
                 + "BT state: " + bluetoothState);
         if (state == BluetoothHeadset.STATE_CONNECTED) {
           scoConnectionAttempts = 0;
           updateAudioDeviceState();
         } else if (state == BluetoothHeadset.STATE_CONNECTING) {
           // No action needed.
         } else if (state == BluetoothHeadset.STATE_DISCONNECTING) {
           // No action needed.
         } else if (state == BluetoothHeadset.STATE_DISCONNECTED) {
           // Bluetooth is probably powered off during the call.
           stopScoAudio();
           updateAudioDeviceState();
         }
         // Change in the audio (SCO) connection state of the Headset profile.
         // Typically received after call to startScoAudio() has finalized.
       } else if (action.equals(BluetoothHeadset.ACTION_AUDIO_STATE_CHANGED)) {
         final int state = intent.getIntExtra(
             BluetoothHeadset.EXTRA_STATE, BluetoothHeadset.STATE_AUDIO_DISCONNECTED);
         Log.d(TAG, "BluetoothHeadsetBroadcastReceiver.onReceive: "
                 + "a=ACTION_AUDIO_STATE_CHANGED, "
                 + "s=" + stateToString(state) + ", "
                 + "sb=" + isInitialStickyBroadcast() + ", "
                 + "BT state: " + bluetoothState);
         if (state == BluetoothHeadset.STATE_AUDIO_CONNECTED) {
           cancelTimer();
           if (bluetoothState == State.SCO_CONNECTING) {
             Log.d(TAG, "+++ Bluetooth audio SCO is now connected");
             bluetoothState = State.SCO_CONNECTED;
             scoConnectionAttempts = 0;
             updateAudioDeviceState();
           } else {
             Log.w(TAG, "Unexpected state BluetoothHeadset.STATE_AUDIO_CONNECTED");
           }
         } else if (state == BluetoothHeadset.STATE_AUDIO_CONNECTING) {
           Log.d(TAG, "+++ Bluetooth audio SCO is now connecting...");
         } else if (state == BluetoothHeadset.STATE_AUDIO_DISCONNECTED) {
           Log.d(TAG, "+++ Bluetooth audio SCO is now disconnected");
           if (isInitialStickyBroadcast()) {
             Log.d(TAG, "Ignore STATE_AUDIO_DISCONNECTED initial sticky broadcast.");
             return;
           }
           updateAudioDeviceState();
         }
       }
       Log.d(TAG, "onReceive done: BT state=" + bluetoothState);
     }
   }

   /** Construction. */
   static AppRTCBluetoothManager create(Context context, AppRTCAudioManager audioManager) {
     Log.d(TAG, "create" + AppRTCUtils.getThreadInfo());
     return new AppRTCBluetoothManager(context, audioManager);
   }

   protected AppRTCBluetoothManager(Context context, AppRTCAudioManager audioManager) {
     Log.d(TAG, "ctor");
     ThreadUtils.checkIsOnMainThread();
     apprtcContext = context;
     apprtcAudioManager = audioManager;
     this.audioManager = getAudioManager(context);
     bluetoothState = State.UNINITIALIZED;
     bluetoothServiceListener = new BluetoothServiceListener();
     bluetoothHeadsetReceiver = new BluetoothHeadsetBroadcastReceiver();
     handler = new Handler(Looper.getMainLooper());
   }

   /** Returns the internal state. */
   public State getState() {
     ThreadUtils.checkIsOnMainThread();
     return bluetoothState;
   }

   /**
    * Activates components required to detect Bluetooth devices and to enable
    * BT SCO (audio is routed via BT SCO) for the headset profile. The end
    * state will be HEADSET_UNAVAILABLE but a state machine has started which
    * will start a state change sequence where the final outcome depends on
    * if/when the BT headset is enabled.
    * Example of state change sequence when start() is called while BT device
    * is connected and enabled:
    *   UNINITIALIZED --> HEADSET_UNAVAILABLE --> HEADSET_AVAILABLE -->
    *   SCO_CONNECTING --> SCO_CONNECTED <==> audio is now routed via BT SCO.
    * Note that the AppRTCAudioManager is also involved in driving this state
    * change.
    */
   public void start() {
     ThreadUtils.checkIsOnMainThread();
     Log.d(TAG, "start");
     if (!hasPermission(apprtcContext, android.Manifest.permission.BLUETOOTH)) {
       Log.w(TAG, "Process (pid=" + Process.myPid() + ") lacks BLUETOOTH permission");
       return;
     }
     if (bluetoothState != State.UNINITIALIZED) {
       Log.w(TAG, "Invalid BT state");
       return;
     }
     bluetoothHeadset = null;
     bluetoothDevice = null;
     scoConnectionAttempts = 0;
     // Get a handle to the default local Bluetooth adapter.
     bluetoothAdapter = BluetoothAdapter.getDefaultAdapter();
     if (bluetoothAdapter == null) {
       Log.w(TAG, "Device does not support Bluetooth");
       return;
     }
     // Ensure that the device supports use of BT SCO audio for off call use cases.
     if (!audioManager.isBluetoothScoAvailableOffCall()) {
       Log.e(TAG, "Bluetooth SCO audio is not available off call");
       return;
     }
     logBluetoothAdapterInfo(bluetoothAdapter);
     // Establish a connection to the HEADSET profile (includes both Bluetooth Headset and
     // Hands-Free) proxy object and install a listener.
     if (!getBluetoothProfileProxy(
             apprtcContext, bluetoothServiceListener, BluetoothProfile.HEADSET)) {
       Log.e(TAG, "BluetoothAdapter.getProfileProxy(HEADSET) failed");
       return;
     }
     // Register receivers for BluetoothHeadset change notifications.
     IntentFilter bluetoothHeadsetFilter = new IntentFilter();
     // Register receiver for change in connection state of the Headset profile.
     bluetoothHeadsetFilter.addAction(BluetoothHeadset.ACTION_CONNECTION_STATE_CHANGED);
     // Register receiver for change in audio connection state of the Headset profile.
     bluetoothHeadsetFilter.addAction(BluetoothHeadset.ACTION_AUDIO_STATE_CHANGED);
     registerReceiver(bluetoothHeadsetReceiver, bluetoothHeadsetFilter);
     Log.d(TAG, "HEADSET profile state: "
             + stateToString(bluetoothAdapter.getProfileConnectionState(BluetoothProfile.HEADSET)));
     Log.d(TAG, "Bluetooth proxy for headset profile has started");
     bluetoothState = State.HEADSET_UNAVAILABLE;
     Log.d(TAG, "start done: BT state=" + bluetoothState);
   }

   /** Stops and closes all components related to Bluetooth audio. */
   public void stop() {
     ThreadUtils.checkIsOnMainThread();
     Log.d(TAG, "stop: BT state=" + bluetoothState);
     if (bluetoothAdapter == null) {
       return;
     }
     // Stop BT SCO connection with remote device if needed.
     stopScoAudio();
     // Close down remaining BT resources.
     if (bluetoothState == State.UNINITIALIZED) {
       return;
     }
     unregisterReceiver(bluetoothHeadsetReceiver);
     cancelTimer();
     if (bluetoothHeadset != null) {
       bluetoothAdapter.closeProfileProxy(BluetoothProfile.HEADSET, bluetoothHeadset);
       bluetoothHeadset = null;
     }
     bluetoothAdapter = null;
     bluetoothDevice = null;
     bluetoothState = State.UNINITIALIZED;
     Log.d(TAG, "stop done: BT state=" + bluetoothState);
   }

   /**
    * Starts Bluetooth SCO connection with remote device.
    * Note that the phone application always has the priority on the usage of the SCO connection
    * for telephony. If this method is called while the phone is in call it will be ignored.
    * Similarly, if a call is received or sent while an application is using the SCO connection,
    * the connection will be lost for the application and NOT returned automatically when the call
    * ends. Also note that: up to and including API version JELLY_BEAN_MR1, this method initiates a
    * virtual voice call to the Bluetooth headset. After API version JELLY_BEAN_MR2 only a raw SCO
    * audio connection is established.
    * TODO(henrika): should we add support for virtual voice call to BT headset also for JBMR2 and
    * higher. It might be required to initiates a virtual voice call since many devices do not
    * accept SCO audio without a "call".
    */
   public boolean startScoAudio() {
     ThreadUtils.checkIsOnMainThread();
     Log.d(TAG, "startSco: BT state=" + bluetoothState + ", "
             + "attempts: " + scoConnectionAttempts + ", "
             + "SCO is on: " + isScoOn());
     if (scoConnectionAttempts >= MAX_SCO_CONNECTION_ATTEMPTS) {
       Log.e(TAG, "BT SCO connection fails - no more attempts");
       return false;
     }
     if (bluetoothState != State.HEADSET_AVAILABLE) {
       Log.e(TAG, "BT SCO connection fails - no headset available");
       return false;
     }
     // Start BT SCO channel and wait for ACTION_AUDIO_STATE_CHANGED.
     Log.d(TAG, "Starting Bluetooth SCO and waits for ACTION_AUDIO_STATE_CHANGED...");
     // The SCO connection establishment can take several seconds, hence we cannot rely on the
     // connection to be available when the method returns but instead register to receive the
     // intent ACTION_SCO_AUDIO_STATE_UPDATED and wait for the state to be SCO_AUDIO_STATE_CONNECTED.
     bluetoothState = State.SCO_CONNECTING;
     audioManager.startBluetoothSco();
     audioManager.setBluetoothScoOn(true);
     scoConnectionAttempts++;
     startTimer();
     Log.d(TAG, "startScoAudio done: BT state=" + bluetoothState + ", "
             + "SCO is on: " + isScoOn());
     return true;
   }

   /** Stops Bluetooth SCO connection with remote device. */
   public void stopScoAudio() {
     ThreadUtils.checkIsOnMainThread();
     Log.d(TAG, "stopScoAudio: BT state=" + bluetoothState + ", "
             + "SCO is on: " + isScoOn());
     if (bluetoothState != State.SCO_CONNECTING && bluetoothState != State.SCO_CONNECTED) {
       return;
     }
     cancelTimer();
     audioManager.stopBluetoothSco();
     audioManager.setBluetoothScoOn(false);
     bluetoothState = State.SCO_DISCONNECTING;
     Log.d(TAG, "stopScoAudio done: BT state=" + bluetoothState + ", "
             + "SCO is on: " + isScoOn());
   }

   /**
    * Use the BluetoothHeadset proxy object (controls the Bluetooth Headset
    * Service via IPC) to update the list of connected devices for the HEADSET
    * profile. The internal state will change to HEADSET_UNAVAILABLE or to
    * HEADSET_AVAILABLE and |bluetoothDevice| will be mapped to the connected
    * device if available.
    */
   public void updateDevice() {
     if (bluetoothState == State.UNINITIALIZED || bluetoothHeadset == null) {
       return;
     }
     Log.d(TAG, "updateDevice");
     // Get connected devices for the headset profile. Returns the set of
     // devices which are in state STATE_CONNECTED. The BluetoothDevice class
     // is just a thin wrapper for a Bluetooth hardware address.
     List<BluetoothDevice> devices = bluetoothHeadset.getConnectedDevices();
     if (devices.isEmpty()) {
       bluetoothDevice = null;
       bluetoothState = State.HEADSET_UNAVAILABLE;
       Log.d(TAG, "No connected bluetooth headset");
     } else {
       // Always use first device in list. Android only supports one device.
       bluetoothDevice = devices.get(0);
       bluetoothState = State.HEADSET_AVAILABLE;
       Log.d(TAG, "Connected bluetooth headset: "
               + "name=" + bluetoothDevice.getName() + ", "
               + "state=" + stateToString(bluetoothHeadset.getConnectionState(bluetoothDevice))
               + ", SCO audio=" + bluetoothHeadset.isAudioConnected(bluetoothDevice));
     }
     Log.d(TAG, "updateDevice done: BT state=" + bluetoothState);
   }

   /**
    * Stubs for test mocks.
    */
   @Nullable
   protected AudioManager getAudioManager(Context context) {
     return (AudioManager) context.getSystemService(Context.AUDIO_SERVICE);
   }

   protected void registerReceiver(BroadcastReceiver receiver, IntentFilter filter) {
     apprtcContext.registerReceiver(receiver, filter);
   }

   protected void unregisterReceiver(BroadcastReceiver receiver) {
     apprtcContext.unregisterReceiver(receiver);
   }

   protected boolean getBluetoothProfileProxy(
       Context context, BluetoothProfile.ServiceListener listener, int profile) {
     return bluetoothAdapter.getProfileProxy(context, listener, profile);
   }

   protected boolean hasPermission(Context context, String permission) {
     return apprtcContext.checkPermission(permission, Process.myPid(), Process.myUid())
         == PackageManager.PERMISSION_GRANTED;
   }

   /** Logs the state of the local Bluetooth adapter. */
   @SuppressLint("HardwareIds")
   protected void logBluetoothAdapterInfo(BluetoothAdapter localAdapter) {
     Log.d(TAG, "BluetoothAdapter: "
             + "enabled=" + localAdapter.isEnabled() + ", "
             + "state=" + stateToString(localAdapter.getState()) + ", "
             + "name=" + localAdapter.getName() + ", "
             + "address=" + localAdapter.getAddress());
     // Log the set of BluetoothDevice objects that are bonded (paired) to the local adapter.
     Set<BluetoothDevice> pairedDevices = localAdapter.getBondedDevices();
     if (!pairedDevices.isEmpty()) {
       Log.d(TAG, "paired devices:");
       for (BluetoothDevice device : pairedDevices) {
         Log.d(TAG, " name=" + device.getName() + ", address=" + device.getAddress());
       }
     }
   }

   /** Ensures that the audio manager updates its list of available audio devices. */
   private void updateAudioDeviceState() {
     ThreadUtils.checkIsOnMainThread();
     Log.d(TAG, "updateAudioDeviceState");
     apprtcAudioManager.updateAudioDeviceState();
   }

   /** Starts timer which times out after BLUETOOTH_SCO_TIMEOUT_MS milliseconds. */
   private void startTimer() {
     ThreadUtils.checkIsOnMainThread();
     Log.d(TAG, "startTimer");
     handler.postDelayed(bluetoothTimeoutRunnable, BLUETOOTH_SCO_TIMEOUT_MS);
   }

   /** Cancels any outstanding timer tasks. */
   private void cancelTimer() {
     ThreadUtils.checkIsOnMainThread();
     Log.d(TAG, "cancelTimer");
     handler.removeCallbacks(bluetoothTimeoutRunnable);
   }

   /**
    * Called when start of the BT SCO channel takes too long time. Usually
    * happens when the BT device has been turned on during an ongoing call.
    */
   private void bluetoothTimeout() {
     ThreadUtils.checkIsOnMainThread();
     if (bluetoothState == State.UNINITIALIZED || bluetoothHeadset == null) {
       return;
     }
     Log.d(TAG, "bluetoothTimeout: BT state=" + bluetoothState + ", "
             + "attempts: " + scoConnectionAttempts + ", "
             + "SCO is on: " + isScoOn());
     if (bluetoothState != State.SCO_CONNECTING) {
       return;
     }
     // Bluetooth SCO should be connecting; check the latest result.
     boolean scoConnected = false;
     List<BluetoothDevice> devices = bluetoothHeadset.getConnectedDevices();
     if (devices.size() > 0) {
       bluetoothDevice = devices.get(0);
       if (bluetoothHeadset.isAudioConnected(bluetoothDevice)) {
         Log.d(TAG, "SCO connected with " + bluetoothDevice.getName());
         scoConnected = true;
       } else {
         Log.d(TAG, "SCO is not connected with " + bluetoothDevice.getName());
       }
     }
     if (scoConnected) {
       // We thought BT had timed out, but it's actually on; updating state.
       bluetoothState = State.SCO_CONNECTED;
       scoConnectionAttempts = 0;
     } else {
       // Give up and "cancel" our request by calling stopBluetoothSco().
       Log.w(TAG, "BT failed to connect after timeout");
       stopScoAudio();
     }
     updateAudioDeviceState();
     Log.d(TAG, "bluetoothTimeout done: BT state=" + bluetoothState);
   }

   /** Checks whether audio uses Bluetooth SCO. */
   private boolean isScoOn() {
     return audioManager.isBluetoothScoOn();
   }

   /** Converts BluetoothAdapter states into local string representations. */
   private String stateToString(int state) {
     switch (state) {
       case BluetoothAdapter.STATE_DISCONNECTED:
         return "DISCONNECTED";
       case BluetoothAdapter.STATE_CONNECTED:
         return "CONNECTED";
       case BluetoothAdapter.STATE_CONNECTING:
         return "CONNECTING";
       case BluetoothAdapter.STATE_DISCONNECTING:
         return "DISCONNECTING";
       case BluetoothAdapter.STATE_OFF:
         return "OFF";
       case BluetoothAdapter.STATE_ON:
         return "ON";
       case BluetoothAdapter.STATE_TURNING_OFF:
         // Indicates the local Bluetooth adapter is turning off. Local clients should immediately
         // attempt graceful disconnection of any remote links.
         return "TURNING_OFF";
       case BluetoothAdapter.STATE_TURNING_ON:
         // Indicates the local Bluetooth adapter is turning on. However local clients should wait
         // for STATE_ON before attempting to use the adapter.
         return  "TURNING_ON";
       default:
         return "INVALID";
     }
   }
 }
	/*
	* Copyright 2016 The WebRTC Project Authors. All rights reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	package org.appspot.apprtc;

	import android.annotation.SuppressLint;
	import android.bluetooth.BluetoothAdapter;
	import android.bluetooth.BluetoothDevice;
	import android.bluetooth.BluetoothHeadset;
	import android.bluetooth.BluetoothProfile;
	import android.content.BroadcastReceiver;
	import android.content.Context;
	import android.content.Intent;
	import android.content.IntentFilter;
	import android.content.pm.PackageManager;
	import android.media.AudioManager;
	import android.os.Handler;
	import android.os.Looper;
	import android.os.Process;
	import javax.annotation.Nullable;
	import android.util.Log;
	import java.util.List;
	import java.util.Set;
	import org.appspot.apprtc.util.AppRTCUtils;
	import org.webrtc.ThreadUtils;

	/**
	* AppRTCProximitySensor manages functions related to Bluetoth devices in the
	* AppRTC demo.
	*/
	public class AppRTCBluetoothManager {
	private static final String TAG = "AppRTCBluetoothManager";

	// Timeout interval for starting or stopping audio to a Bluetooth SCO device.
	private static final int BLUETOOTH_SCO_TIMEOUT_MS = 4000;
	// Maximum number of SCO connection attempts.
	private static final int MAX_SCO_CONNECTION_ATTEMPTS = 2;

	// Bluetooth connection state.
	public enum State {
	// Bluetooth is not available; no adapter or Bluetooth is off.
	UNINITIALIZED,
	// Bluetooth error happened when trying to start Bluetooth.
	ERROR,
	// Bluetooth proxy object for the Headset profile exists, but no connected headset devices,
	// SCO is not started or disconnected.
	HEADSET_UNAVAILABLE,
	// Bluetooth proxy object for the Headset profile connected, connected Bluetooth headset
	// present, but SCO is not started or disconnected.
	HEADSET_AVAILABLE,
	// Bluetooth audio SCO connection with remote device is closing.
	SCO_DISCONNECTING,
	// Bluetooth audio SCO connection with remote device is initiated.
	SCO_CONNECTING,
	// Bluetooth audio SCO connection with remote device is established.
	SCO_CONNECTED
	}

	private final Context apprtcContext;
	private final AppRTCAudioManager apprtcAudioManager;
	@Nullable
	private final AudioManager audioManager;
	private final Handler handler;

	int scoConnectionAttempts;
	private State bluetoothState;
	private final BluetoothProfile.ServiceListener bluetoothServiceListener;
	@Nullable
	private BluetoothAdapter bluetoothAdapter;
	@Nullable
	private BluetoothHeadset bluetoothHeadset;
	@Nullable
	private BluetoothDevice bluetoothDevice;
	private final BroadcastReceiver bluetoothHeadsetReceiver;

	// Runs when the Bluetooth timeout expires. We use that timeout after calling
	// startScoAudio() or stopScoAudio() because we're not guaranteed to get a
	// callback after those calls.
	private final Runnable bluetoothTimeoutRunnable = new Runnable() {
	@Override
	public void run() {
	bluetoothTimeout();
	}
	};

	/**
	* Implementation of an interface that notifies BluetoothProfile IPC clients when they have been
	* connected to or disconnected from the service.
	*/
	private class BluetoothServiceListener implements BluetoothProfile.ServiceListener {
	@Override
	// Called to notify the client when the proxy object has been connected to the service.
	// Once we have the profile proxy object, we can use it to monitor the state of the
	// connection and perform other operations that are relevant to the headset profile.
	public void onServiceConnected(int profile, BluetoothProfile proxy) {
	if (profile != BluetoothProfile.HEADSET \|\| bluetoothState == State.UNINITIALIZED) {
	return;
	}
	Log.d(TAG, "BluetoothServiceListener.onServiceConnected: BT state=" + bluetoothState);
	// Android only supports one connected Bluetooth Headset at a time.
	bluetoothHeadset = (BluetoothHeadset) proxy;
	updateAudioDeviceState();
	Log.d(TAG, "onServiceConnected done: BT state=" + bluetoothState);
	}

	@Override
	/** Notifies the client when the proxy object has been disconnected from the service. */
	public void onServiceDisconnected(int profile) {
	if (profile != BluetoothProfile.HEADSET \|\| bluetoothState == State.UNINITIALIZED) {
	return;
	}
	Log.d(TAG, "BluetoothServiceListener.onServiceDisconnected: BT state=" + bluetoothState);
	stopScoAudio();
	bluetoothHeadset = null;
	bluetoothDevice = null;
	bluetoothState = State.HEADSET_UNAVAILABLE;
	updateAudioDeviceState();
	Log.d(TAG, "onServiceDisconnected done: BT state=" + bluetoothState);
	}
	}

	// Intent broadcast receiver which handles changes in Bluetooth device availability.
	// Detects headset changes and Bluetooth SCO state changes.
	private class BluetoothHeadsetBroadcastReceiver extends BroadcastReceiver {
	@Override
	public void onReceive(Context context, Intent intent) {
	if (bluetoothState == State.UNINITIALIZED) {
	return;
	}
	final String action = intent.getAction();
	// Change in connection state of the Headset profile. Note that the
	// change does not tell us anything about whether we're streaming
	// audio to BT over SCO. Typically received when user turns on a BT
	// headset while audio is active using another audio device.
	if (action.equals(BluetoothHeadset.ACTION_CONNECTION_STATE_CHANGED)) {
	final int state =
	intent.getIntExtra(BluetoothHeadset.EXTRA_STATE, BluetoothHeadset.STATE_DISCONNECTED);
	Log.d(TAG, "BluetoothHeadsetBroadcastReceiver.onReceive: "
	+ "a=ACTION_CONNECTION_STATE_CHANGED, "
	+ "s=" + stateToString(state) + ", "
	+ "sb=" + isInitialStickyBroadcast() + ", "
	+ "BT state: " + bluetoothState);
	if (state == BluetoothHeadset.STATE_CONNECTED) {
	scoConnectionAttempts = 0;
	updateAudioDeviceState();
	} else if (state == BluetoothHeadset.STATE_CONNECTING) {
	// No action needed.
	} else if (state == BluetoothHeadset.STATE_DISCONNECTING) {
	// No action needed.
	} else if (state == BluetoothHeadset.STATE_DISCONNECTED) {
	// Bluetooth is probably powered off during the call.
	stopScoAudio();
	updateAudioDeviceState();
	}
	// Change in the audio (SCO) connection state of the Headset profile.
	// Typically received after call to startScoAudio() has finalized.
	} else if (action.equals(BluetoothHeadset.ACTION_AUDIO_STATE_CHANGED)) {
	final int state = intent.getIntExtra(
	BluetoothHeadset.EXTRA_STATE, BluetoothHeadset.STATE_AUDIO_DISCONNECTED);
	Log.d(TAG, "BluetoothHeadsetBroadcastReceiver.onReceive: "
	+ "a=ACTION_AUDIO_STATE_CHANGED, "
	+ "s=" + stateToString(state) + ", "
	+ "sb=" + isInitialStickyBroadcast() + ", "
	+ "BT state: " + bluetoothState);
	if (state == BluetoothHeadset.STATE_AUDIO_CONNECTED) {
	cancelTimer();
	if (bluetoothState == State.SCO_CONNECTING) {
	Log.d(TAG, "+++ Bluetooth audio SCO is now connected");
	bluetoothState = State.SCO_CONNECTED;
	scoConnectionAttempts = 0;
	updateAudioDeviceState();
	} else {
	Log.w(TAG, "Unexpected state BluetoothHeadset.STATE_AUDIO_CONNECTED");
	}
	} else if (state == BluetoothHeadset.STATE_AUDIO_CONNECTING) {
	Log.d(TAG, "+++ Bluetooth audio SCO is now connecting...");
	} else if (state == BluetoothHeadset.STATE_AUDIO_DISCONNECTED) {
	Log.d(TAG, "+++ Bluetooth audio SCO is now disconnected");
	if (isInitialStickyBroadcast()) {
	Log.d(TAG, "Ignore STATE_AUDIO_DISCONNECTED initial sticky broadcast.");
	return;
	}
	updateAudioDeviceState();
	}
	}
	Log.d(TAG, "onReceive done: BT state=" + bluetoothState);
	}
	}

	/** Construction. */
	static AppRTCBluetoothManager create(Context context, AppRTCAudioManager audioManager) {
	Log.d(TAG, "create" + AppRTCUtils.getThreadInfo());
	return new AppRTCBluetoothManager(context, audioManager);
	}

	protected AppRTCBluetoothManager(Context context, AppRTCAudioManager audioManager) {
	Log.d(TAG, "ctor");
	ThreadUtils.checkIsOnMainThread();
	apprtcContext = context;
	apprtcAudioManager = audioManager;
	this.audioManager = getAudioManager(context);
	bluetoothState = State.UNINITIALIZED;
	bluetoothServiceListener = new BluetoothServiceListener();
	bluetoothHeadsetReceiver = new BluetoothHeadsetBroadcastReceiver();
	handler = new Handler(Looper.getMainLooper());
	}

	/** Returns the internal state. */
	public State getState() {
	ThreadUtils.checkIsOnMainThread();
	return bluetoothState;
	}

	/**
	* Activates components required to detect Bluetooth devices and to enable
	* BT SCO (audio is routed via BT SCO) for the headset profile. The end
	* state will be HEADSET_UNAVAILABLE but a state machine has started which
	* will start a state change sequence where the final outcome depends on
	* if/when the BT headset is enabled.
	* Example of state change sequence when start() is called while BT device
	* is connected and enabled:
	* UNINITIALIZED --> HEADSET_UNAVAILABLE --> HEADSET_AVAILABLE -->
	* SCO_CONNECTING --> SCO_CONNECTED <==> audio is now routed via BT SCO.
	* Note that the AppRTCAudioManager is also involved in driving this state
	* change.
	*/
	public void start() {
	ThreadUtils.checkIsOnMainThread();
	Log.d(TAG, "start");
	if (!hasPermission(apprtcContext, android.Manifest.permission.BLUETOOTH)) {
	Log.w(TAG, "Process (pid=" + Process.myPid() + ") lacks BLUETOOTH permission");
	return;
	}
	if (bluetoothState != State.UNINITIALIZED) {
	Log.w(TAG, "Invalid BT state");
	return;
	}
	bluetoothHeadset = null;
	bluetoothDevice = null;
	scoConnectionAttempts = 0;
	// Get a handle to the default local Bluetooth adapter.
	bluetoothAdapter = BluetoothAdapter.getDefaultAdapter();
	if (bluetoothAdapter == null) {
	Log.w(TAG, "Device does not support Bluetooth");
	return;
	}
	// Ensure that the device supports use of BT SCO audio for off call use cases.
	if (!audioManager.isBluetoothScoAvailableOffCall()) {
	Log.e(TAG, "Bluetooth SCO audio is not available off call");
	return;
	}
	logBluetoothAdapterInfo(bluetoothAdapter);
	// Establish a connection to the HEADSET profile (includes both Bluetooth Headset and
	// Hands-Free) proxy object and install a listener.
	if (!getBluetoothProfileProxy(
	apprtcContext, bluetoothServiceListener, BluetoothProfile.HEADSET)) {
	Log.e(TAG, "BluetoothAdapter.getProfileProxy(HEADSET) failed");
	return;
	}
	// Register receivers for BluetoothHeadset change notifications.
	IntentFilter bluetoothHeadsetFilter = new IntentFilter();
	// Register receiver for change in connection state of the Headset profile.
	bluetoothHeadsetFilter.addAction(BluetoothHeadset.ACTION_CONNECTION_STATE_CHANGED);
	// Register receiver for change in audio connection state of the Headset profile.
	bluetoothHeadsetFilter.addAction(BluetoothHeadset.ACTION_AUDIO_STATE_CHANGED);
	registerReceiver(bluetoothHeadsetReceiver, bluetoothHeadsetFilter);
	Log.d(TAG, "HEADSET profile state: "
	+ stateToString(bluetoothAdapter.getProfileConnectionState(BluetoothProfile.HEADSET)));
	Log.d(TAG, "Bluetooth proxy for headset profile has started");
	bluetoothState = State.HEADSET_UNAVAILABLE;
	Log.d(TAG, "start done: BT state=" + bluetoothState);
	}

	/** Stops and closes all components related to Bluetooth audio. */
	public void stop() {
	ThreadUtils.checkIsOnMainThread();
	Log.d(TAG, "stop: BT state=" + bluetoothState);
	if (bluetoothAdapter == null) {
	return;
	}
	// Stop BT SCO connection with remote device if needed.
	stopScoAudio();
	// Close down remaining BT resources.
	if (bluetoothState == State.UNINITIALIZED) {
	return;
	}
	unregisterReceiver(bluetoothHeadsetReceiver);
	cancelTimer();
	if (bluetoothHeadset != null) {
	bluetoothAdapter.closeProfileProxy(BluetoothProfile.HEADSET, bluetoothHeadset);
	bluetoothHeadset = null;
	}
	bluetoothAdapter = null;
	bluetoothDevice = null;
	bluetoothState = State.UNINITIALIZED;
	Log.d(TAG, "stop done: BT state=" + bluetoothState);
	}

	/**
	* Starts Bluetooth SCO connection with remote device.
	* Note that the phone application always has the priority on the usage of the SCO connection
	* for telephony. If this method is called while the phone is in call it will be ignored.
	* Similarly, if a call is received or sent while an application is using the SCO connection,
	* the connection will be lost for the application and NOT returned automatically when the call
	* ends. Also note that: up to and including API version JELLY_BEAN_MR1, this method initiates a
	* virtual voice call to the Bluetooth headset. After API version JELLY_BEAN_MR2 only a raw SCO
	* audio connection is established.
	* TODO(henrika): should we add support for virtual voice call to BT headset also for JBMR2 and
	* higher. It might be required to initiates a virtual voice call since many devices do not
	* accept SCO audio without a "call".
	*/
	public boolean startScoAudio() {
	ThreadUtils.checkIsOnMainThread();
	Log.d(TAG, "startSco: BT state=" + bluetoothState + ", "
	+ "attempts: " + scoConnectionAttempts + ", "
	+ "SCO is on: " + isScoOn());
	if (scoConnectionAttempts >= MAX_SCO_CONNECTION_ATTEMPTS) {
	Log.e(TAG, "BT SCO connection fails - no more attempts");
	return false;
	}
	if (bluetoothState != State.HEADSET_AVAILABLE) {
	Log.e(TAG, "BT SCO connection fails - no headset available");
	return false;
	}
	// Start BT SCO channel and wait for ACTION_AUDIO_STATE_CHANGED.
	Log.d(TAG, "Starting Bluetooth SCO and waits for ACTION_AUDIO_STATE_CHANGED...");
	// The SCO connection establishment can take several seconds, hence we cannot rely on the
	// connection to be available when the method returns but instead register to receive the
	// intent ACTION_SCO_AUDIO_STATE_UPDATED and wait for the state to be SCO_AUDIO_STATE_CONNECTED.
	bluetoothState = State.SCO_CONNECTING;
	audioManager.startBluetoothSco();
	audioManager.setBluetoothScoOn(true);
	scoConnectionAttempts++;
	startTimer();
	Log.d(TAG, "startScoAudio done: BT state=" + bluetoothState + ", "
	+ "SCO is on: " + isScoOn());
	return true;
	}

	/** Stops Bluetooth SCO connection with remote device. */
	public void stopScoAudio() {
	ThreadUtils.checkIsOnMainThread();
	Log.d(TAG, "stopScoAudio: BT state=" + bluetoothState + ", "
	+ "SCO is on: " + isScoOn());
	if (bluetoothState != State.SCO_CONNECTING && bluetoothState != State.SCO_CONNECTED) {
	return;
	}
	cancelTimer();
	audioManager.stopBluetoothSco();
	audioManager.setBluetoothScoOn(false);
	bluetoothState = State.SCO_DISCONNECTING;
	Log.d(TAG, "stopScoAudio done: BT state=" + bluetoothState + ", "
	+ "SCO is on: " + isScoOn());
	}

	/**
	* Use the BluetoothHeadset proxy object (controls the Bluetooth Headset
	* Service via IPC) to update the list of connected devices for the HEADSET
	* profile. The internal state will change to HEADSET_UNAVAILABLE or to
	* HEADSET_AVAILABLE and \|bluetoothDevice\| will be mapped to the connected
	* device if available.
	*/
	public void updateDevice() {
	if (bluetoothState == State.UNINITIALIZED \|\| bluetoothHeadset == null) {
	return;
	}
	Log.d(TAG, "updateDevice");
	// Get connected devices for the headset profile. Returns the set of
	// devices which are in state STATE_CONNECTED. The BluetoothDevice class
	// is just a thin wrapper for a Bluetooth hardware address.
	List<BluetoothDevice> devices = bluetoothHeadset.getConnectedDevices();
	if (devices.isEmpty()) {
	bluetoothDevice = null;
	bluetoothState = State.HEADSET_UNAVAILABLE;
	Log.d(TAG, "No connected bluetooth headset");
	} else {
	// Always use first device in list. Android only supports one device.
	bluetoothDevice = devices.get(0);
	bluetoothState = State.HEADSET_AVAILABLE;
	Log.d(TAG, "Connected bluetooth headset: "
	+ "name=" + bluetoothDevice.getName() + ", "
	+ "state=" + stateToString(bluetoothHeadset.getConnectionState(bluetoothDevice))
	+ ", SCO audio=" + bluetoothHeadset.isAudioConnected(bluetoothDevice));
	}
	Log.d(TAG, "updateDevice done: BT state=" + bluetoothState);
	}

	/**
	* Stubs for test mocks.
	*/
	@Nullable
	protected AudioManager getAudioManager(Context context) {
	return (AudioManager) context.getSystemService(Context.AUDIO_SERVICE);
	}

	protected void registerReceiver(BroadcastReceiver receiver, IntentFilter filter) {
	apprtcContext.registerReceiver(receiver, filter);
	}

	protected void unregisterReceiver(BroadcastReceiver receiver) {
	apprtcContext.unregisterReceiver(receiver);
	}

	protected boolean getBluetoothProfileProxy(
	Context context, BluetoothProfile.ServiceListener listener, int profile) {
	return bluetoothAdapter.getProfileProxy(context, listener, profile);
	}

	protected boolean hasPermission(Context context, String permission) {
	return apprtcContext.checkPermission(permission, Process.myPid(), Process.myUid())
	== PackageManager.PERMISSION_GRANTED;
	}

	/** Logs the state of the local Bluetooth adapter. */
	@SuppressLint("HardwareIds")
	protected void logBluetoothAdapterInfo(BluetoothAdapter localAdapter) {
	Log.d(TAG, "BluetoothAdapter: "
	+ "enabled=" + localAdapter.isEnabled() + ", "
	+ "state=" + stateToString(localAdapter.getState()) + ", "
	+ "name=" + localAdapter.getName() + ", "
	+ "address=" + localAdapter.getAddress());
	// Log the set of BluetoothDevice objects that are bonded (paired) to the local adapter.
	Set<BluetoothDevice> pairedDevices = localAdapter.getBondedDevices();
	if (!pairedDevices.isEmpty()) {
	Log.d(TAG, "paired devices:");
	for (BluetoothDevice device : pairedDevices) {
	Log.d(TAG, " name=" + device.getName() + ", address=" + device.getAddress());
	}
	}
	}

	/** Ensures that the audio manager updates its list of available audio devices. */
	private void updateAudioDeviceState() {
	ThreadUtils.checkIsOnMainThread();
	Log.d(TAG, "updateAudioDeviceState");
	apprtcAudioManager.updateAudioDeviceState();
	}

	/** Starts timer which times out after BLUETOOTH_SCO_TIMEOUT_MS milliseconds. */
	private void startTimer() {
	ThreadUtils.checkIsOnMainThread();
	Log.d(TAG, "startTimer");
	handler.postDelayed(bluetoothTimeoutRunnable, BLUETOOTH_SCO_TIMEOUT_MS);
	}

	/** Cancels any outstanding timer tasks. */
	private void cancelTimer() {
	ThreadUtils.checkIsOnMainThread();
	Log.d(TAG, "cancelTimer");
	handler.removeCallbacks(bluetoothTimeoutRunnable);
	}

	/**
	* Called when start of the BT SCO channel takes too long time. Usually
	* happens when the BT device has been turned on during an ongoing call.
	*/
	private void bluetoothTimeout() {
	ThreadUtils.checkIsOnMainThread();
	if (bluetoothState == State.UNINITIALIZED \|\| bluetoothHeadset == null) {
	return;
	}
	Log.d(TAG, "bluetoothTimeout: BT state=" + bluetoothState + ", "
	+ "attempts: " + scoConnectionAttempts + ", "
	+ "SCO is on: " + isScoOn());
	if (bluetoothState != State.SCO_CONNECTING) {
	return;
	}
	// Bluetooth SCO should be connecting; check the latest result.
	boolean scoConnected = false;
	List<BluetoothDevice> devices = bluetoothHeadset.getConnectedDevices();
	if (devices.size() > 0) {
	bluetoothDevice = devices.get(0);
	if (bluetoothHeadset.isAudioConnected(bluetoothDevice)) {
	Log.d(TAG, "SCO connected with " + bluetoothDevice.getName());
	scoConnected = true;
	} else {
	Log.d(TAG, "SCO is not connected with " + bluetoothDevice.getName());
	}
	}
	if (scoConnected) {
	// We thought BT had timed out, but it's actually on; updating state.
	bluetoothState = State.SCO_CONNECTED;
	scoConnectionAttempts = 0;
	} else {
	// Give up and "cancel" our request by calling stopBluetoothSco().
	Log.w(TAG, "BT failed to connect after timeout");
	stopScoAudio();
	}
	updateAudioDeviceState();
	Log.d(TAG, "bluetoothTimeout done: BT state=" + bluetoothState);
	}

	/** Checks whether audio uses Bluetooth SCO. */
	private boolean isScoOn() {
	return audioManager.isBluetoothScoOn();
	}

	/** Converts BluetoothAdapter states into local string representations. */
	private String stateToString(int state) {
	switch (state) {
	case BluetoothAdapter.STATE_DISCONNECTED:
	return "DISCONNECTED";
	case BluetoothAdapter.STATE_CONNECTED:
	return "CONNECTED";
	case BluetoothAdapter.STATE_CONNECTING:
	return "CONNECTING";
	case BluetoothAdapter.STATE_DISCONNECTING:
	return "DISCONNECTING";
	case BluetoothAdapter.STATE_OFF:
	return "OFF";
	case BluetoothAdapter.STATE_ON:
	return "ON";
	case BluetoothAdapter.STATE_TURNING_OFF:
	// Indicates the local Bluetooth adapter is turning off. Local clients should immediately
	// attempt graceful disconnection of any remote links.
	return "TURNING_OFF";
	case BluetoothAdapter.STATE_TURNING_ON:
	// Indicates the local Bluetooth adapter is turning on. However local clients should wait
	// for STATE_ON before attempting to use the adapter.
	return "TURNING_ON";
	default:
	return "INVALID";
	}
	}
	}