/*
* Copyright (C) 2006 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package android.media;
import android.app.ActivityManagerNative;
import android.content.BroadcastReceiver;
import android.content.ComponentName;
import android.content.ContentResolver;
import android.content.Context;
import android.content.Intent;
import android.content.IntentFilter;
import android.bluetooth.BluetoothA2dp;
import android.bluetooth.BluetoothClass;
import android.bluetooth.BluetoothDevice;
import android.bluetooth.BluetoothHeadset;
import android.content.pm.PackageManager;
import android.database.ContentObserver;
import android.media.MediaPlayer.OnCompletionListener;
import android.media.MediaPlayer.OnErrorListener;
import android.os.Binder;
import android.os.Environment;
import android.os.Handler;
import android.os.IBinder;
import android.os.Looper;
import android.os.Message;
import android.os.RemoteException;
import android.os.ServiceManager;
import android.provider.Settings;
import android.provider.Settings.System;
import android.telephony.PhoneStateListener;
import android.telephony.TelephonyManager;
import android.util.Log;
import android.view.KeyEvent;
import android.view.VolumePanel;
import android.os.SystemProperties;
import com.android.internal.telephony.ITelephony;
import java.io.FileDescriptor;
import java.io.IOException;
import java.io.PrintWriter;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.Iterator;
import java.util.Map;
import java.util.Set;
import java.util.Stack;
/**
* The implementation of the volume manager service.
* <p>
* This implementation focuses on delivering a responsive UI. Most methods are
* asynchronous to external calls. For example, the task of setting a volume
* will update our internal state, but in a separate thread will set the system
* volume and later persist to the database. Similarly, setting the ringer mode
* will update the state and broadcast a change and in a separate thread later
* persist the ringer mode.
*
* @hide
*/
public class AudioService extends IAudioService.Stub {
private static final String TAG = "AudioService";
/** How long to delay before persisting a change in volume/ringer mode. */
private static final int PERSIST_DELAY = 3000;
private Context mContext;
private ContentResolver mContentResolver;
/** The UI */
private VolumePanel mVolumePanel;
// sendMsg() flags
/** Used when a message should be shared across all stream types. */
private static final int SHARED_MSG = -1;
/** If the msg is already queued, replace it with this one. */
private static final int SENDMSG_REPLACE = 0;
/** If the msg is already queued, ignore this one and leave the old. */
private static final int SENDMSG_NOOP = 1;
/** If the msg is already queued, queue this one and leave the old. */
private static final int SENDMSG_QUEUE = 2;
// AudioHandler message.whats
private static final int MSG_SET_SYSTEM_VOLUME = 0;
private static final int MSG_PERSIST_VOLUME = 1;
private static final int MSG_PERSIST_RINGER_MODE = 3;
private static final int MSG_PERSIST_VIBRATE_SETTING = 4;
private static final int MSG_MEDIA_SERVER_DIED = 5;
private static final int MSG_MEDIA_SERVER_STARTED = 6;
private static final int MSG_PLAY_SOUND_EFFECT = 7;
private static final int MSG_BTA2DP_DOCK_TIMEOUT = 8;
private static final int BTA2DP_DOCK_TIMEOUT_MILLIS = 8000;
/** @see AudioSystemThread */
private AudioSystemThread mAudioSystemThread;
/** @see AudioHandler */
private AudioHandler mAudioHandler;
/** @see VolumeStreamState */
private VolumeStreamState[] mStreamStates;
private SettingsObserver mSettingsObserver;
private int mMode;
private Object mSettingsLock = new Object();
private boolean mMediaServerOk;
private SoundPool mSoundPool;
private Object mSoundEffectsLock = new Object();
private static final int NUM_SOUNDPOOL_CHANNELS = 4;
private static final int SOUND_EFFECT_VOLUME = 1000;
/* Sound effect file names */
private static final String SOUND_EFFECTS_PATH = "/media/audio/ui/";
private static final String[] SOUND_EFFECT_FILES = new String[] {
"Effect_Tick.ogg",
"KeypressStandard.ogg",
"KeypressSpacebar.ogg",
"KeypressDelete.ogg",
"KeypressReturn.ogg"
};
/* Sound effect file name mapping sound effect id (AudioManager.FX_xxx) to
* file index in SOUND_EFFECT_FILES[] (first column) and indicating if effect
* uses soundpool (second column) */
private int[][] SOUND_EFFECT_FILES_MAP = new int[][] {
{0, -1}, // FX_KEY_CLICK
{0, -1}, // FX_FOCUS_NAVIGATION_UP
{0, -1}, // FX_FOCUS_NAVIGATION_DOWN
{0, -1}, // FX_FOCUS_NAVIGATION_LEFT
{0, -1}, // FX_FOCUS_NAVIGATION_RIGHT
{1, -1}, // FX_KEYPRESS_STANDARD
{2, -1}, // FX_KEYPRESS_SPACEBAR
{3, -1}, // FX_FOCUS_DELETE
{4, -1} // FX_FOCUS_RETURN
};
/** @hide Maximum volume index values for audio streams */
private int[] MAX_STREAM_VOLUME = new int[] {
5, // STREAM_VOICE_CALL
7, // STREAM_SYSTEM
7, // STREAM_RING
15, // STREAM_MUSIC
7, // STREAM_ALARM
7, // STREAM_NOTIFICATION
15, // STREAM_BLUETOOTH_SCO
7, // STREAM_SYSTEM_ENFORCED
15, // STREAM_DTMF
15 // STREAM_TTS
};
/* STREAM_VOLUME_ALIAS[] indicates for each stream if it uses the volume settings
* of another stream: This avoids multiplying the volume settings for hidden
* stream types that follow other stream behavior for volume settings
* NOTE: do not create loops in aliases! */
private int[] STREAM_VOLUME_ALIAS = new int[] {
AudioSystem.STREAM_VOICE_CALL, // STREAM_VOICE_CALL
AudioSystem.STREAM_SYSTEM, // STREAM_SYSTEM
AudioSystem.STREAM_RING, // STREAM_RING
AudioSystem.STREAM_MUSIC, // STREAM_MUSIC
AudioSystem.STREAM_ALARM, // STREAM_ALARM
AudioSystem.STREAM_NOTIFICATION, // STREAM_NOTIFICATION
AudioSystem.STREAM_BLUETOOTH_SCO, // STREAM_BLUETOOTH_SCO
AudioSystem.STREAM_SYSTEM, // STREAM_SYSTEM_ENFORCED
AudioSystem.STREAM_VOICE_CALL, // STREAM_DTMF
AudioSystem.STREAM_MUSIC // STREAM_TTS
};
private AudioSystem.ErrorCallback mAudioSystemCallback = new AudioSystem.ErrorCallback() {
public void onError(int error) {
switch (error) {
case AudioSystem.AUDIO_STATUS_SERVER_DIED:
if (mMediaServerOk) {
sendMsg(mAudioHandler, MSG_MEDIA_SERVER_DIED, SHARED_MSG, SENDMSG_NOOP, 0, 0,
null, 1500);
mMediaServerOk = false;
}
break;
case AudioSystem.AUDIO_STATUS_OK:
if (!mMediaServerOk) {
sendMsg(mAudioHandler, MSG_MEDIA_SERVER_STARTED, SHARED_MSG, SENDMSG_NOOP, 0, 0,
null, 0);
mMediaServerOk = true;
}
break;
default:
break;
}
}
};
/**
* Current ringer mode from one of {@link AudioManager#RINGER_MODE_NORMAL},
* {@link AudioManager#RINGER_MODE_SILENT}, or
* {@link AudioManager#RINGER_MODE_VIBRATE}.
*/
private int mRingerMode;
/** @see System#MODE_RINGER_STREAMS_AFFECTED */
private int mRingerModeAffectedStreams;
// Streams currently muted by ringer mode
private int mRingerModeMutedStreams;
/** @see System#MUTE_STREAMS_AFFECTED */
private int mMuteAffectedStreams;
/**
* Has multiple bits per vibrate type to indicate the type's vibrate
* setting. See {@link #setVibrateSetting(int, int)}.
* <p>
* NOTE: This is not the final decision of whether vibrate is on/off for the
* type since it depends on the ringer mode. See {@link #shouldVibrate(int)}.
*/
private int mVibrateSetting;
/** @see System#NOTIFICATIONS_USE_RING_VOLUME */
private int mNotificationsUseRingVolume;
// Broadcast receiver for device connections intent broadcasts
private final BroadcastReceiver mReceiver = new AudioServiceBroadcastReceiver();
// Broadcast receiver for media button broadcasts (separate from mReceiver to
// independently change its priority)
private final BroadcastReceiver mMediaButtonReceiver = new MediaButtonBroadcastReceiver();
// Devices currently connected
private HashMap <Integer, String> mConnectedDevices = new HashMap <Integer, String>();
// Forced device usage for communications
private int mForcedUseForComm;
// List of binder death handlers for setMode() client processes.
// The last process to have called setMode() is at the top of the list.
private ArrayList <SetModeDeathHandler> mSetModeDeathHandlers = new ArrayList <SetModeDeathHandler>();
// List of clients having issued a SCO start request
private ArrayList <ScoClient> mScoClients = new ArrayList <ScoClient>();
// BluetoothHeadset API to control SCO connection
private BluetoothHeadset mBluetoothHeadset;
// Bluetooth headset connection state
private boolean mBluetoothHeadsetConnected;
///////////////////////////////////////////////////////////////////////////
// Construction
///////////////////////////////////////////////////////////////////////////
/** @hide */
public AudioService(Context context) {
mContext = context;
mContentResolver = context.getContentResolver();
// Intialized volume
MAX_STREAM_VOLUME[AudioSystem.STREAM_VOICE_CALL] = SystemProperties.getInt(
"ro.config.vc_call_vol_steps",
MAX_STREAM_VOLUME[AudioSystem.STREAM_VOICE_CALL]);
mVolumePanel = new VolumePanel(context, this);
mSettingsObserver = new SettingsObserver();
mForcedUseForComm = AudioSystem.FORCE_NONE;
createAudioSystemThread();
readPersistedSettings();
createStreamStates();
// Call setMode() to initialize mSetModeDeathHandlers
mMode = AudioSystem.MODE_INVALID;
setMode(AudioSystem.MODE_NORMAL, null);
mMediaServerOk = true;
// Call setRingerModeInt() to apply correct mute
// state on streams affected by ringer mode.
mRingerModeMutedStreams = 0;
setRingerModeInt(getRingerMode(), false);
AudioSystem.setErrorCallback(mAudioSystemCallback);
loadSoundEffects();
mBluetoothHeadsetConnected = false;
mBluetoothHeadset = new BluetoothHeadset(context,
mBluetoothHeadsetServiceListener);
// Register for device connection intent broadcasts.
IntentFilter intentFilter =
new IntentFilter(Intent.ACTION_HEADSET_PLUG);
intentFilter.addAction(BluetoothA2dp.ACTION_SINK_STATE_CHANGED);
intentFilter.addAction(BluetoothHeadset.ACTION_STATE_CHANGED);
intentFilter.addAction(Intent.ACTION_DOCK_EVENT);
intentFilter.addAction(BluetoothHeadset.ACTION_AUDIO_STATE_CHANGED);
context.registerReceiver(mReceiver, intentFilter);
// Register for media button intent broadcasts.
intentFilter = new IntentFilter(Intent.ACTION_MEDIA_BUTTON);
intentFilter.setPriority(IntentFilter.SYSTEM_HIGH_PRIORITY);
context.registerReceiver(mMediaButtonReceiver, intentFilter);
// Register for phone state monitoring
TelephonyManager tmgr = (TelephonyManager)
context.getSystemService(Context.TELEPHONY_SERVICE);
tmgr.listen(mPhoneStateListener, PhoneStateListener.LISTEN_CALL_STATE);
}
private void createAudioSystemThread() {
mAudioSystemThread = new AudioSystemThread();
mAudioSystemThread.start();
waitForAudioHandlerCreation();
}
/** Waits for the volume handler to be created by the other thread. */
private void waitForAudioHandlerCreation() {
synchronized(this) {
while (mAudioHandler == null) {
try {
// Wait for mAudioHandler to be set by the other thread
wait();
} catch (InterruptedException e) {
Log.e(TAG, "Interrupted while waiting on volume handler.");
}
}
}
}
private void createStreamStates() {
int numStreamTypes = AudioSystem.getNumStreamTypes();
VolumeStreamState[] streams = mStreamStates = new VolumeStreamState[numStreamTypes];
for (int i = 0; i < numStreamTypes; i++) {
streams[i] = new VolumeStreamState(System.VOLUME_SETTINGS[STREAM_VOLUME_ALIAS[i]], i);
}
// Correct stream index values for streams with aliases
for (int i = 0; i < numStreamTypes; i++) {
if (STREAM_VOLUME_ALIAS[i] != i) {
int index = rescaleIndex(streams[i].mIndex, STREAM_VOLUME_ALIAS[i], i);
streams[i].mIndex = streams[i].getValidIndex(index);
setStreamVolumeIndex(i, index);
index = rescaleIndex(streams[i].mLastAudibleIndex, STREAM_VOLUME_ALIAS[i], i);
streams[i].mLastAudibleIndex = streams[i].getValidIndex(index);
}
}
}
private void readPersistedSettings() {
final ContentResolver cr = mContentResolver;
mRingerMode = System.getInt(cr, System.MODE_RINGER, AudioManager.RINGER_MODE_NORMAL);
mVibrateSetting = System.getInt(cr, System.VIBRATE_ON, 0);
mRingerModeAffectedStreams = Settings.System.getInt(cr,
Settings.System.MODE_RINGER_STREAMS_AFFECTED,
((1 << AudioSystem.STREAM_RING)|(1 << AudioSystem.STREAM_NOTIFICATION)|
(1 << AudioSystem.STREAM_SYSTEM)|(1 << AudioSystem.STREAM_SYSTEM_ENFORCED)));
mMuteAffectedStreams = System.getInt(cr,
System.MUTE_STREAMS_AFFECTED,
((1 << AudioSystem.STREAM_MUSIC)|(1 << AudioSystem.STREAM_RING)|(1 << AudioSystem.STREAM_SYSTEM)));
mNotificationsUseRingVolume = System.getInt(cr,
Settings.System.NOTIFICATIONS_USE_RING_VOLUME, 1);
if (mNotificationsUseRingVolume == 1) {
STREAM_VOLUME_ALIAS[AudioSystem.STREAM_NOTIFICATION] = AudioSystem.STREAM_RING;
}
// Each stream will read its own persisted settings
// Broadcast the sticky intent
broadcastRingerMode();
// Broadcast vibrate settings
broadcastVibrateSetting(AudioManager.VIBRATE_TYPE_RINGER);
broadcastVibrateSetting(AudioManager.VIBRATE_TYPE_NOTIFICATION);
}
private void setStreamVolumeIndex(int stream, int index) {
AudioSystem.setStreamVolumeIndex(stream, (index + 5)/10);
}
private int rescaleIndex(int index, int srcStream, int dstStream) {
return (index * mStreamStates[dstStream].getMaxIndex() + mStreamStates[srcStream].getMaxIndex() / 2) / mStreamStates[srcStream].getMaxIndex();
}
///////////////////////////////////////////////////////////////////////////
// IPC methods
///////////////////////////////////////////////////////////////////////////
/** @see AudioManager#adjustVolume(int, int) */
public void adjustVolume(int direction, int flags) {
adjustSuggestedStreamVolume(direction, AudioManager.USE_DEFAULT_STREAM_TYPE, flags);
}
/** @see AudioManager#adjustVolume(int, int, int) */
public void adjustSuggestedStreamVolume(int direction, int suggestedStreamType, int flags) {
int streamType = getActiveStreamType(suggestedStreamType);
// Don't play sound on other streams
if (streamType != AudioSystem.STREAM_RING && (flags & AudioManager.FLAG_PLAY_SOUND) != 0) {
flags &= ~AudioManager.FLAG_PLAY_SOUND;
}
adjustStreamVolume(streamType, direction, flags);
}
/** @see AudioManager#adjustStreamVolume(int, int, int) */
public void adjustStreamVolume(int streamType, int direction, int flags) {
ensureValidDirection(direction);
ensureValidStreamType(streamType);
VolumeStreamState streamState = mStreamStates[STREAM_VOLUME_ALIAS[streamType]];
final int oldIndex = (streamState.muteCount() != 0) ? streamState.mLastAudibleIndex : streamState.mIndex;
boolean adjustVolume = true;
// If either the client forces allowing ringer modes for this adjustment,
// or the stream type is one that is affected by ringer modes
if ((flags & AudioManager.FLAG_ALLOW_RINGER_MODES) != 0
|| streamType == AudioSystem.STREAM_RING) {
// Check if the ringer mode changes with this volume adjustment. If
// it does, it will handle adjusting the volume, so we won't below
adjustVolume = checkForRingerModeChange(oldIndex, direction);
}
// If stream is muted, adjust last audible index only
int index;
if (streamState.muteCount() != 0) {
if (adjustVolume) {
streamState.adjustLastAudibleIndex(direction);
// Post a persist volume msg
sendMsg(mAudioHandler, MSG_PERSIST_VOLUME, streamType,
SENDMSG_REPLACE, 0, 1, streamState, PERSIST_DELAY);
}
index = streamState.mLastAudibleIndex;
} else {
if (adjustVolume && streamState.adjustIndex(direction)) {
// Post message to set system volume (it in turn will post a message
// to persist). Do not change volume if stream is muted.
sendMsg(mAudioHandler, MSG_SET_SYSTEM_VOLUME, STREAM_VOLUME_ALIAS[streamType], SENDMSG_NOOP, 0, 0,
streamState, 0);
}
index = streamState.mIndex;
}
// UI
mVolumePanel.postVolumeChanged(streamType, flags);
// Broadcast Intent
sendVolumeUpdate(streamType, oldIndex, index);
}
/** @see AudioManager#setStreamVolume(int, int, int) */
public void setStreamVolume(int streamType, int index, int flags) {
ensureValidStreamType(streamType);
VolumeStreamState streamState = mStreamStates[STREAM_VOLUME_ALIAS[streamType]];
final int oldIndex = (streamState.muteCount() != 0) ? streamState.mLastAudibleIndex : streamState.mIndex;
index = rescaleIndex(index * 10, streamType, STREAM_VOLUME_ALIAS[streamType]);
setStreamVolumeInt(STREAM_VOLUME_ALIAS[streamType], index, false, true);
index = (streamState.muteCount() != 0) ? streamState.mLastAudibleIndex : streamState.mIndex;
// UI, etc.
mVolumePanel.postVolumeChanged(streamType, flags);
// Broadcast Intent
sendVolumeUpdate(streamType, oldIndex, index);
}
private void sendVolumeUpdate(int streamType, int oldIndex, int index) {
oldIndex = (oldIndex + 5) / 10;
index = (index + 5) / 10;
Intent intent = new Intent(AudioManager.VOLUME_CHANGED_ACTION);
intent.putExtra(AudioManager.EXTRA_VOLUME_STREAM_TYPE, streamType);
intent.putExtra(AudioManager.EXTRA_VOLUME_STREAM_VALUE, index);
intent.putExtra(AudioManager.EXTRA_PREV_VOLUME_STREAM_VALUE, oldIndex);
mContext.sendBroadcast(intent);
}
/**
* Sets the stream state's index, and posts a message to set system volume.
* This will not call out to the UI. Assumes a valid stream type.
*
* @param streamType Type of the stream
* @param index Desired volume index of the stream
* @param force If true, set the volume even if the desired volume is same
* as the current volume.
* @param lastAudible If true, stores new index as last audible one
*/
private void setStreamVolumeInt(int streamType, int index, boolean force, boolean lastAudible) {
VolumeStreamState streamState = mStreamStates[streamType];
// If stream is muted, set last audible index only
if (streamState.muteCount() != 0) {
// Do not allow last audible index to be 0
if (index != 0) {
streamState.setLastAudibleIndex(index);
// Post a persist volume msg
sendMsg(mAudioHandler, MSG_PERSIST_VOLUME, streamType,
SENDMSG_REPLACE, 0, 1, streamState, PERSIST_DELAY);
}
} else {
if (streamState.setIndex(index, lastAudible) || force) {
// Post message to set system volume (it in turn will post a message
// to persist).
sendMsg(mAudioHandler, MSG_SET_SYSTEM_VOLUME, streamType, SENDMSG_NOOP, 0, 0,
streamState, 0);
}
}
}
/** @see AudioManager#setStreamSolo(int, boolean) */
public void setStreamSolo(int streamType, boolean state, IBinder cb) {
for (int stream = 0; stream < mStreamStates.length; stream++) {
if (!isStreamAffectedByMute(stream) || stream == streamType) continue;
// Bring back last audible volume
mStreamStates[stream].mute(cb, state);
}
}
/** @see AudioManager#setStreamMute(int, boolean) */
public void setStreamMute(int streamType, boolean state, IBinder cb) {
if (isStreamAffectedByMute(streamType)) {
mStreamStates[streamType].mute(cb, state);
}
}
/** @see AudioManager#getStreamVolume(int) */
public int getStreamVolume(int streamType) {
ensureValidStreamType(streamType);
return (mStreamStates[streamType].mIndex + 5) / 10;
}
/** @see AudioManager#getStreamMaxVolume(int) */
public int getStreamMaxVolume(int streamType) {
ensureValidStreamType(streamType);
return (mStreamStates[streamType].getMaxIndex() + 5) / 10;
}
/** @see AudioManager#getRingerMode() */
public int getRingerMode() {
return mRingerMode;
}
/** @see AudioManager#setRingerMode(int) */
public void setRingerMode(int ringerMode) {
synchronized (mSettingsLock) {
if (ringerMode != mRingerMode) {
setRingerModeInt(ringerMode, true);
// Send sticky broadcast
broadcastRingerMode();
}
}
}
private void setRingerModeInt(int ringerMode, boolean persist) {
mRingerMode = ringerMode;
// Mute stream if not previously muted by ringer mode and ringer mode
// is not RINGER_MODE_NORMAL and stream is affected by ringer mode.
// Unmute stream if previously muted by ringer mode and ringer mode
// is RINGER_MODE_NORMAL or stream is not affected by ringer mode.
int numStreamTypes = AudioSystem.getNumStreamTypes();
for (int streamType = numStreamTypes - 1; streamType >= 0; streamType--) {
if (isStreamMutedByRingerMode(streamType)) {
if (!isStreamAffectedByRingerMode(streamType) ||
mRingerMode == AudioManager.RINGER_MODE_NORMAL) {
mStreamStates[streamType].mute(null, false);
mRingerModeMutedStreams &= ~(1 << streamType);
}
} else {
if (isStreamAffectedByRingerMode(streamType) &&
mRingerMode != AudioManager.RINGER_MODE_NORMAL) {
mStreamStates[streamType].mute(null, true);
mRingerModeMutedStreams |= (1 << streamType);
}
}
}
// Post a persist ringer mode msg
if (persist) {
sendMsg(mAudioHandler, MSG_PERSIST_RINGER_MODE, SHARED_MSG,
SENDMSG_REPLACE, 0, 0, null, PERSIST_DELAY);
}
}
/** @see AudioManager#shouldVibrate(int) */
public boolean shouldVibrate(int vibrateType) {
switch (getVibrateSetting(vibrateType)) {
case AudioManager.VIBRATE_SETTING_ON:
return mRingerMode != AudioManager.RINGER_MODE_SILENT;
case AudioManager.VIBRATE_SETTING_ONLY_SILENT:
return mRingerMode == AudioManager.RINGER_MODE_VIBRATE;
case AudioManager.VIBRATE_SETTING_OFF:
// return false, even for incoming calls
return false;
default:
return false;
}
}
/** @see AudioManager#getVibrateSetting(int) */
public int getVibrateSetting(int vibrateType) {
return (mVibrateSetting >> (vibrateType * 2)) & 3;
}
/** @see AudioManager#setVibrateSetting(int, int) */
public void setVibrateSetting(int vibrateType, int vibrateSetting) {
mVibrateSetting = getValueForVibrateSetting(mVibrateSetting, vibrateType, vibrateSetting);
// Broadcast change
broadcastVibrateSetting(vibrateType);
// Post message to set ringer mode (it in turn will post a message
// to persist)
sendMsg(mAudioHandler, MSG_PERSIST_VIBRATE_SETTING, SHARED_MSG, SENDMSG_NOOP, 0, 0,
null, 0);
}
/**
* @see #setVibrateSetting(int, int)
*/
public static int getValueForVibrateSetting(int existingValue, int vibrateType,
int vibrateSetting) {
// First clear the existing setting. Each vibrate type has two bits in
// the value. Note '3' is '11' in binary.
existingValue &= ~(3 << (vibrateType * 2));
// Set into the old value
existingValue |= (vibrateSetting & 3) << (vibrateType * 2);
return existingValue;
}
private class SetModeDeathHandler implements IBinder.DeathRecipient {
private IBinder mCb; // To be notified of client's death
private int mMode = AudioSystem.MODE_NORMAL; // Current mode set by this client
SetModeDeathHandler(IBinder cb) {
mCb = cb;
}
public void binderDied() {
synchronized(mSetModeDeathHandlers) {
Log.w(TAG, "setMode() client died");
int index = mSetModeDeathHandlers.indexOf(this);
if (index < 0) {
Log.w(TAG, "unregistered setMode() client died");
} else {
mSetModeDeathHandlers.remove(this);
// If dead client was a the top of client list,
// apply next mode in the stack
if (index == 0) {
// mSetModeDeathHandlers is never empty as the initial entry
// created when AudioService starts is never removed
SetModeDeathHandler hdlr = mSetModeDeathHandlers.get(0);
int mode = hdlr.getMode();
if (AudioService.this.mMode != mode) {
if (AudioSystem.setPhoneState(mode) == AudioSystem.AUDIO_STATUS_OK) {
AudioService.this.mMode = mode;
}
}
}
}
}
}
public void setMode(int mode) {
mMode = mode;
}
public int getMode() {
return mMode;
}
public IBinder getBinder() {
return mCb;
}
}
/** @see AudioManager#setMode(int) */
public void setMode(int mode, IBinder cb) {
if (!checkAudioSettingsPermission("setMode()")) {
return;
}
if (mode < AudioSystem.MODE_CURRENT || mode > AudioSystem.MODE_IN_CALL) {
return;
}
synchronized (mSettingsLock) {
if (mode == AudioSystem.MODE_CURRENT) {
mode = mMode;
}
if (mode != mMode) {
if (AudioSystem.setPhoneState(mode) == AudioSystem.AUDIO_STATUS_OK) {
mMode = mode;
synchronized(mSetModeDeathHandlers) {
SetModeDeathHandler hdlr = null;
Iterator iter = mSetModeDeathHandlers.iterator();
while (iter.hasNext()) {
SetModeDeathHandler h = (SetModeDeathHandler)iter.next();
if (h.getBinder() == cb) {
hdlr = h;
// Remove from client list so that it is re-inserted at top of list
iter.remove();
break;
}
}
if (hdlr == null) {
hdlr = new SetModeDeathHandler(cb);
// cb is null when setMode() is called by AudioService constructor
if (cb != null) {
// Register for client death notification
try {
cb.linkToDeath(hdlr, 0);
} catch (RemoteException e) {
// Client has died!
Log.w(TAG, "setMode() could not link to "+cb+" binder death");
}
}
}
// Last client to call setMode() is always at top of client list
// as required by SetModeDeathHandler.binderDied()
mSetModeDeathHandlers.add(0, hdlr);
hdlr.setMode(mode);
}
if (mode != AudioSystem.MODE_NORMAL) {
clearAllScoClients();
}
}
}
int streamType = getActiveStreamType(AudioManager.USE_DEFAULT_STREAM_TYPE);
int index = mStreamStates[STREAM_VOLUME_ALIAS[streamType]].mIndex;
setStreamVolumeInt(STREAM_VOLUME_ALIAS[streamType], index, true, false);
}
}
/** @see AudioManager#getMode() */
public int getMode() {
return mMode;
}
/** @see AudioManager#playSoundEffect(int) */
public void playSoundEffect(int effectType) {
sendMsg(mAudioHandler, MSG_PLAY_SOUND_EFFECT, SHARED_MSG, SENDMSG_NOOP,
effectType, -1, null, 0);
}
/** @see AudioManager#playSoundEffect(int, float) */
public void playSoundEffectVolume(int effectType, float volume) {
loadSoundEffects();
sendMsg(mAudioHandler, MSG_PLAY_SOUND_EFFECT, SHARED_MSG, SENDMSG_NOOP,
effectType, (int) (volume * 1000), null, 0);
}
/**
* Loads samples into the soundpool.
* This method must be called at when sound effects are enabled
*/
public boolean loadSoundEffects() {
synchronized (mSoundEffectsLock) {
if (mSoundPool != null) {
return true;
}
mSoundPool = new SoundPool(NUM_SOUNDPOOL_CHANNELS, AudioSystem.STREAM_SYSTEM, 0);
if (mSoundPool == null) {
return false;
}
/*
* poolId table: The value -1 in this table indicates that corresponding
* file (same index in SOUND_EFFECT_FILES[] has not been loaded.
* Once loaded, the value in poolId is the sample ID and the same
* sample can be reused for another effect using the same file.
*/
int[] poolId = new int[SOUND_EFFECT_FILES.length];
for (int fileIdx = 0; fileIdx < SOUND_EFFECT_FILES.length; fileIdx++) {
poolId[fileIdx] = -1;
}
/*
* Effects whose value in SOUND_EFFECT_FILES_MAP[effect][1] is -1 must be loaded.
* If load succeeds, value in SOUND_EFFECT_FILES_MAP[effect][1] is > 0:
* this indicates we have a valid sample loaded for this effect.
*/
for (int effect = 0; effect < AudioManager.NUM_SOUND_EFFECTS; effect++) {
// Do not load sample if this effect uses the MediaPlayer
if (SOUND_EFFECT_FILES_MAP[effect][1] == 0) {
continue;
}
if (poolId[SOUND_EFFECT_FILES_MAP[effect][0]] == -1) {
String filePath = Environment.getRootDirectory() + SOUND_EFFECTS_PATH + SOUND_EFFECT_FILES[SOUND_EFFECT_FILES_MAP[effect][0]];
int sampleId = mSoundPool.load(filePath, 0);
SOUND_EFFECT_FILES_MAP[effect][1] = sampleId;
poolId[SOUND_EFFECT_FILES_MAP[effect][0]] = sampleId;
if (sampleId <= 0) {
Log.w(TAG, "Soundpool could not load file: "+filePath);
}
} else {
SOUND_EFFECT_FILES_MAP[effect][1] = poolId[SOUND_EFFECT_FILES_MAP[effect][0]];
}
}
}
return true;
}
/**
* Unloads samples from the sound pool.
* This method can be called to free some memory when
* sound effects are disabled.
*/
public void unloadSoundEffects() {
synchronized (mSoundEffectsLock) {
if (mSoundPool == null) {
return;
}
int[] poolId = new int[SOUND_EFFECT_FILES.length];
for (int fileIdx = 0; fileIdx < SOUND_EFFECT_FILES.length; fileIdx++) {
poolId[fileIdx] = 0;
}
for (int effect = 0; effect < AudioManager.NUM_SOUND_EFFECTS; effect++) {
if (SOUND_EFFECT_FILES_MAP[effect][1] <= 0) {
continue;
}
if (poolId[SOUND_EFFECT_FILES_MAP[effect][0]] == 0) {
mSoundPool.unload(SOUND_EFFECT_FILES_MAP[effect][1]);
SOUND_EFFECT_FILES_MAP[effect][1] = -1;
poolId[SOUND_EFFECT_FILES_MAP[effect][0]] = -1;
}
}
mSoundPool = null;
}
}
/** @see AudioManager#reloadAudioSettings() */
public void reloadAudioSettings() {
// restore ringer mode, ringer mode affected streams, mute affected streams and vibrate settings
readPersistedSettings();
// restore volume settings
int numStreamTypes = AudioSystem.getNumStreamTypes();
for (int streamType = 0; streamType < numStreamTypes; streamType++) {
VolumeStreamState streamState = mStreamStates[streamType];
String settingName = System.VOLUME_SETTINGS[STREAM_VOLUME_ALIAS[streamType]];
String lastAudibleSettingName = settingName + System.APPEND_FOR_LAST_AUDIBLE;
int index = Settings.System.getInt(mContentResolver,
settingName,
AudioManager.DEFAULT_STREAM_VOLUME[streamType]);
if (STREAM_VOLUME_ALIAS[streamType] != streamType) {
index = rescaleIndex(index * 10, STREAM_VOLUME_ALIAS[streamType], streamType);
} else {
index *= 10;
}
streamState.mIndex = streamState.getValidIndex(index);
index = (index + 5) / 10;
index = Settings.System.getInt(mContentResolver,
lastAudibleSettingName,
(index > 0) ? index : AudioManager.DEFAULT_STREAM_VOLUME[streamType]);
if (STREAM_VOLUME_ALIAS[streamType] != streamType) {
index = rescaleIndex(index * 10, STREAM_VOLUME_ALIAS[streamType], streamType);
} else {
index *= 10;
}
streamState.mLastAudibleIndex = streamState.getValidIndex(index);
// unmute stream that was muted but is not affect by mute anymore
if (streamState.muteCount() != 0 && !isStreamAffectedByMute(streamType)) {
int size = streamState.mDeathHandlers.size();
for (int i = 0; i < size; i++) {
streamState.mDeathHandlers.get(i).mMuteCount = 1;
streamState.mDeathHandlers.get(i).mute(false);
}
}
// apply stream volume
if (streamState.muteCount() == 0) {
setStreamVolumeIndex(streamType, streamState.mIndex);
}
}
// apply new ringer mode
setRingerModeInt(getRingerMode(), false);
}
/** @see AudioManager#setSpeakerphoneOn() */
public void setSpeakerphoneOn(boolean on){
if (!checkAudioSettingsPermission("setSpeakerphoneOn()")) {
return;
}
if (on) {
AudioSystem.setForceUse(AudioSystem.FOR_COMMUNICATION, AudioSystem.FORCE_SPEAKER);
mForcedUseForComm = AudioSystem.FORCE_SPEAKER;
} else {
AudioSystem.setForceUse(AudioSystem.FOR_COMMUNICATION, AudioSystem.FORCE_NONE);
mForcedUseForComm = AudioSystem.FORCE_NONE;
}
}
/** @see AudioManager#isSpeakerphoneOn() */
public boolean isSpeakerphoneOn() {
if (mForcedUseForComm == AudioSystem.FORCE_SPEAKER) {
return true;
} else {
return false;
}
}
/** @see AudioManager#setBluetoothScoOn() */
public void setBluetoothScoOn(boolean on){
if (!checkAudioSettingsPermission("setBluetoothScoOn()")) {
return;
}
if (on) {
AudioSystem.setForceUse(AudioSystem.FOR_COMMUNICATION, AudioSystem.FORCE_BT_SCO);
AudioSystem.setForceUse(AudioSystem.FOR_RECORD, AudioSystem.FORCE_BT_SCO);
mForcedUseForComm = AudioSystem.FORCE_BT_SCO;
} else {
AudioSystem.setForceUse(AudioSystem.FOR_COMMUNICATION, AudioSystem.FORCE_NONE);
AudioSystem.setForceUse(AudioSystem.FOR_RECORD, AudioSystem.FORCE_NONE);
mForcedUseForComm = AudioSystem.FORCE_NONE;
}
}
/** @see AudioManager#isBluetoothScoOn() */
public boolean isBluetoothScoOn() {
if (mForcedUseForComm == AudioSystem.FORCE_BT_SCO) {
return true;
} else {
return false;
}
}
/** @see AudioManager#startBluetoothSco() */
public void startBluetoothSco(IBinder cb){
if (!checkAudioSettingsPermission("startBluetoothSco()")) {
return;
}
ScoClient client = getScoClient(cb);
client.incCount();
}
/** @see AudioManager#stopBluetoothSco() */
public void stopBluetoothSco(IBinder cb){
if (!checkAudioSettingsPermission("stopBluetoothSco()")) {
return;
}
ScoClient client = getScoClient(cb);
client.decCount();
}
private class ScoClient implements IBinder.DeathRecipient {
private IBinder mCb; // To be notified of client's death
private int mStartcount; // number of SCO connections started by this client
ScoClient(IBinder cb) {
mCb = cb;
mStartcount = 0;
}
public void binderDied() {
synchronized(mScoClients) {
Log.w(TAG, "SCO client died");
int index = mScoClients.indexOf(this);
if (index < 0) {
Log.w(TAG, "unregistered SCO client died");
} else {
clearCount(true);
mScoClients.remove(this);
}
}
}
public void incCount() {
synchronized(mScoClients) {
requestScoState(BluetoothHeadset.AUDIO_STATE_CONNECTED);
if (mStartcount == 0) {
try {
mCb.linkToDeath(this, 0);
} catch (RemoteException e) {
// client has already died!
Log.w(TAG, "ScoClient incCount() could not link to "+mCb+" binder death");
}
}
mStartcount++;
}
}
public void decCount() {
synchronized(mScoClients) {
if (mStartcount == 0) {
Log.w(TAG, "ScoClient.decCount() already 0");
} else {
mStartcount--;
if (mStartcount == 0) {
mCb.unlinkToDeath(this, 0);
}
requestScoState(BluetoothHeadset.AUDIO_STATE_DISCONNECTED);
}
}
}
public void clearCount(boolean stopSco) {
synchronized(mScoClients) {
mStartcount = 0;
mCb.unlinkToDeath(this, 0);
if (stopSco) {
requestScoState(BluetoothHeadset.AUDIO_STATE_DISCONNECTED);
}
}
}
public int getCount() {
return mStartcount;
}
public IBinder getBinder() {
return mCb;
}
public int totalCount() {
synchronized(mScoClients) {
int count = 0;
int size = mScoClients.size();
for (int i = 0; i < size; i++) {
count += mScoClients.get(i).getCount();
}
return count;
}
}
private void requestScoState(int state) {
if (totalCount() == 0 &&
mBluetoothHeadsetConnected &&
AudioService.this.mMode == AudioSystem.MODE_NORMAL) {
if (state == BluetoothHeadset.AUDIO_STATE_CONNECTED) {
mBluetoothHeadset.startVoiceRecognition();
} else {
mBluetoothHeadset.stopVoiceRecognition();
}
}
}
}
public ScoClient getScoClient(IBinder cb) {
synchronized(mScoClients) {
ScoClient client;
int size = mScoClients.size();
for (int i = 0; i < size; i++) {
client = mScoClients.get(i);
if (client.getBinder() == cb)
return client;
}
client = new ScoClient(cb);
mScoClients.add(client);
return client;
}
}
public void clearAllScoClients() {
synchronized(mScoClients) {
int size = mScoClients.size();
for (int i = 0; i < size; i++) {
mScoClients.get(i).clearCount(false);
}
}
}
private BluetoothHeadset.ServiceListener mBluetoothHeadsetServiceListener =
new BluetoothHeadset.ServiceListener() {
public void onServiceConnected() {
if (mBluetoothHeadset != null &&
mBluetoothHeadset.getState() == BluetoothHeadset.STATE_CONNECTED) {
mBluetoothHeadsetConnected = true;
}
}
public void onServiceDisconnected() {
if (mBluetoothHeadset != null &&
mBluetoothHeadset.getState() == BluetoothHeadset.STATE_DISCONNECTED) {
mBluetoothHeadsetConnected = false;
clearAllScoClients();
}
}
};
///////////////////////////////////////////////////////////////////////////
// Internal methods
///////////////////////////////////////////////////////////////////////////
/**
* Checks if the adjustment should change ringer mode instead of just
* adjusting volume. If so, this will set the proper ringer mode and volume
* indices on the stream states.
*/
private boolean checkForRingerModeChange(int oldIndex, int direction) {
boolean adjustVolumeIndex = true;
int newRingerMode = mRingerMode;
if (mRingerMode == AudioManager.RINGER_MODE_NORMAL) {
// audible mode, at the bottom of the scale
if (direction == AudioManager.ADJUST_LOWER
&& (oldIndex + 5) / 10 == 1) {
// "silent mode", but which one?
newRingerMode = System.getInt(mContentResolver, System.VIBRATE_IN_SILENT, 1) == 1
? AudioManager.RINGER_MODE_VIBRATE
: AudioManager.RINGER_MODE_SILENT;
}
} else {
if (direction == AudioManager.ADJUST_RAISE) {
// exiting silent mode
newRingerMode = AudioManager.RINGER_MODE_NORMAL;
} else {
// prevent last audible index to reach 0
adjustVolumeIndex = false;
}
}
if (newRingerMode != mRingerMode) {
setRingerMode(newRingerMode);
/*
* If we are changing ringer modes, do not increment/decrement the
* volume index. Instead, the handler for the message above will
* take care of changing the index.
*/
adjustVolumeIndex = false;
}
return adjustVolumeIndex;
}
public boolean isStreamAffectedByRingerMode(int streamType) {
return (mRingerModeAffectedStreams & (1 << streamType)) != 0;
}
private boolean isStreamMutedByRingerMode(int streamType) {
return (mRingerModeMutedStreams & (1 << streamType)) != 0;
}
public boolean isStreamAffectedByMute(int streamType) {
return (mMuteAffectedStreams & (1 << streamType)) != 0;
}
private void ensureValidDirection(int direction) {
if (direction < AudioManager.ADJUST_LOWER || direction > AudioManager.ADJUST_RAISE) {
throw new IllegalArgumentException("Bad direction " + direction);
}
}
private void ensureValidStreamType(int streamType) {
if (streamType < 0 || streamType >= mStreamStates.length) {
throw new IllegalArgumentException("Bad stream type " + streamType);
}
}
private int getActiveStreamType(int suggestedStreamType) {
boolean isOffhook = false;
try {
ITelephony phone = ITelephony.Stub.asInterface(ServiceManager.checkService("phone"));
if (phone != null) isOffhook = phone.isOffhook();
} catch (RemoteException e) {
Log.w(TAG, "Couldn't connect to phone service", e);
}
if (AudioSystem.getForceUse(AudioSystem.FOR_COMMUNICATION) == AudioSystem.FORCE_BT_SCO) {
// Log.v(TAG, "getActiveStreamType: Forcing STREAM_BLUETOOTH_SCO...");
return AudioSystem.STREAM_BLUETOOTH_SCO;
} else if (isOffhook || AudioSystem.isStreamActive(AudioSystem.STREAM_VOICE_CALL)) {
// Log.v(TAG, "getActiveStreamType: Forcing STREAM_VOICE_CALL...");
return AudioSystem.STREAM_VOICE_CALL;
} else if (AudioSystem.isStreamActive(AudioSystem.STREAM_MUSIC)) {
// Log.v(TAG, "getActiveStreamType: Forcing STREAM_MUSIC...");
return AudioSystem.STREAM_MUSIC;
} else if (suggestedStreamType == AudioManager.USE_DEFAULT_STREAM_TYPE) {
// Log.v(TAG, "getActiveStreamType: Forcing STREAM_RING...");
return AudioSystem.STREAM_RING;
} else {
// Log.v(TAG, "getActiveStreamType: Returning suggested type " + suggestedStreamType);
return suggestedStreamType;
}
}
private void broadcastRingerMode() {
// Send sticky broadcast
Intent broadcast = new Intent(AudioManager.RINGER_MODE_CHANGED_ACTION);
broadcast.putExtra(AudioManager.EXTRA_RINGER_MODE, mRingerMode);
broadcast.addFlags(Intent.FLAG_RECEIVER_REGISTERED_ONLY_BEFORE_BOOT
| Intent.FLAG_RECEIVER_REPLACE_PENDING);
long origCallerIdentityToken = Binder.clearCallingIdentity();
mContext.sendStickyBroadcast(broadcast);
Binder.restoreCallingIdentity(origCallerIdentityToken);
}
private void broadcastVibrateSetting(int vibrateType) {
// Send broadcast
if (ActivityManagerNative.isSystemReady()) {
Intent broadcast = new Intent(AudioManager.VIBRATE_SETTING_CHANGED_ACTION);
broadcast.putExtra(AudioManager.EXTRA_VIBRATE_TYPE, vibrateType);
broadcast.putExtra(AudioManager.EXTRA_VIBRATE_SETTING, getVibrateSetting(vibrateType));
mContext.sendBroadcast(broadcast);
}
}
// Message helper methods
private static int getMsg(int baseMsg, int streamType) {
return (baseMsg & 0xffff) | streamType << 16;
}
private static int getMsgBase(int msg) {
return msg & 0xffff;
}
private static void sendMsg(Handler handler, int baseMsg, int streamType,
int existingMsgPolicy, int arg1, int arg2, Object obj, int delay) {
int msg = (streamType == SHARED_MSG) ? baseMsg : getMsg(baseMsg, streamType);
if (existingMsgPolicy == SENDMSG_REPLACE) {
handler.removeMessages(msg);
} else if (existingMsgPolicy == SENDMSG_NOOP && handler.hasMessages(msg)) {
return;
}
handler
.sendMessageDelayed(handler.obtainMessage(msg, arg1, arg2, obj), delay);
}
boolean checkAudioSettingsPermission(String method) {
if (mContext.checkCallingOrSelfPermission("android.permission.MODIFY_AUDIO_SETTINGS")
== PackageManager.PERMISSION_GRANTED) {
return true;
}
String msg = "Audio Settings Permission Denial: " + method + " from pid="
+ Binder.getCallingPid()
+ ", uid=" + Binder.getCallingUid();
Log.w(TAG, msg);
return false;
}
///////////////////////////////////////////////////////////////////////////
// Inner classes
///////////////////////////////////////////////////////////////////////////
public class VolumeStreamState {
private final int mStreamType;
private String mVolumeIndexSettingName;
private String mLastAudibleVolumeIndexSettingName;
private int mIndexMax;
private int mIndex;
private int mLastAudibleIndex;
private ArrayList<VolumeDeathHandler> mDeathHandlers; //handles mute/solo requests client death
private VolumeStreamState(String settingName, int streamType) {
setVolumeIndexSettingName(settingName);
mStreamType = streamType;
final ContentResolver cr = mContentResolver;
mIndexMax = MAX_STREAM_VOLUME[streamType];
mIndex = Settings.System.getInt(cr,
mVolumeIndexSettingName,
AudioManager.DEFAULT_STREAM_VOLUME[streamType]);
mLastAudibleIndex = Settings.System.getInt(cr,
mLastAudibleVolumeIndexSettingName,
(mIndex > 0) ? mIndex : AudioManager.DEFAULT_STREAM_VOLUME[streamType]);
AudioSystem.initStreamVolume(streamType, 0, mIndexMax);
mIndexMax *= 10;
mIndex = getValidIndex(10 * mIndex);
mLastAudibleIndex = getValidIndex(10 * mLastAudibleIndex);
setStreamVolumeIndex(streamType, mIndex);
mDeathHandlers = new ArrayList<VolumeDeathHandler>();
}
public void setVolumeIndexSettingName(String settingName) {
mVolumeIndexSettingName = settingName;
mLastAudibleVolumeIndexSettingName = settingName + System.APPEND_FOR_LAST_AUDIBLE;
}
public boolean adjustIndex(int deltaIndex) {
return setIndex(mIndex + deltaIndex * 10, true);
}
public boolean setIndex(int index, boolean lastAudible) {
int oldIndex = mIndex;
mIndex = getValidIndex(index);
if (oldIndex != mIndex) {
if (lastAudible) {
mLastAudibleIndex = mIndex;
}
// Apply change to all streams using this one as alias
int numStreamTypes = AudioSystem.getNumStreamTypes();
for (int streamType = numStreamTypes - 1; streamType >= 0; streamType--) {
if (streamType != mStreamType && STREAM_VOLUME_ALIAS[streamType] == mStreamType) {
mStreamStates[streamType].setIndex(rescaleIndex(mIndex, mStreamType, streamType), lastAudible);
}
}
return true;
} else {
return false;
}
}
public void setLastAudibleIndex(int index) {
mLastAudibleIndex = getValidIndex(index);
}
public void adjustLastAudibleIndex(int deltaIndex) {
setLastAudibleIndex(mLastAudibleIndex + deltaIndex * 10);
}
public int getMaxIndex() {
return mIndexMax;
}
public void mute(IBinder cb, boolean state) {
VolumeDeathHandler handler = getDeathHandler(cb, state);
if (handler == null) {
Log.e(TAG, "Could not get client death handler for stream: "+mStreamType);
return;
}
handler.mute(state);
}
private int getValidIndex(int index) {
if (index < 0) {
return 0;
} else if (index > mIndexMax) {
return mIndexMax;
}
return index;
}
private class VolumeDeathHandler implements IBinder.DeathRecipient {
private IBinder mICallback; // To be notified of client's death
private int mMuteCount; // Number of active mutes for this client
VolumeDeathHandler(IBinder cb) {
mICallback = cb;
}
public void mute(boolean state) {
synchronized(mDeathHandlers) {
if (state) {
if (mMuteCount == 0) {
// Register for client death notification
try {
// mICallback can be 0 if muted by AudioService
if (mICallback != null) {
mICallback.linkToDeath(this, 0);
}
mDeathHandlers.add(this);
// If the stream is not yet muted by any client, set lvel to 0
if (muteCount() == 0) {
setIndex(0, false);
sendMsg(mAudioHandler, MSG_SET_SYSTEM_VOLUME, mStreamType, SENDMSG_NOOP, 0, 0,
VolumeStreamState.this, 0);
}
} catch (RemoteException e) {
// Client has died!
binderDied();
mDeathHandlers.notify();
return;
}
} else {
Log.w(TAG, "stream: "+mStreamType+" was already muted by this client");
}
mMuteCount++;
} else {
if (mMuteCount == 0) {
Log.e(TAG, "unexpected unmute for stream: "+mStreamType);
} else {
mMuteCount--;
if (mMuteCount == 0) {
// Unregistr from client death notification
mDeathHandlers.remove(this);
// mICallback can be 0 if muted by AudioService
if (mICallback != null) {
mICallback.unlinkToDeath(this, 0);
}
if (muteCount() == 0) {
// If the stream is not muted any more, restore it's volume if
// ringer mode allows it
if (!isStreamAffectedByRingerMode(mStreamType) || mRingerMode == AudioManager.RINGER_MODE_NORMAL) {
setIndex(mLastAudibleIndex, false);
sendMsg(mAudioHandler, MSG_SET_SYSTEM_VOLUME, mStreamType, SENDMSG_NOOP, 0, 0,
VolumeStreamState.this, 0);
}
}
}
}
}
mDeathHandlers.notify();
}
}
public void binderDied() {
Log.w(TAG, "Volume service client died for stream: "+mStreamType);
if (mMuteCount != 0) {
// Reset all active mute requests from this client.
mMuteCount = 1;
mute(false);
}
}
}
private int muteCount() {
int count = 0;
int size = mDeathHandlers.size();
for (int i = 0; i < size; i++) {
count += mDeathHandlers.get(i).mMuteCount;
}
return count;
}
private VolumeDeathHandler getDeathHandler(IBinder cb, boolean state) {
synchronized(mDeathHandlers) {
VolumeDeathHandler handler;
int size = mDeathHandlers.size();
for (int i = 0; i < size; i++) {
handler = mDeathHandlers.get(i);
if (cb == handler.mICallback) {
return handler;
}
}
// If this is the first mute request for this client, create a new
// client death handler. Otherwise, it is an out of sequence unmute request.
if (state) {
handler = new VolumeDeathHandler(cb);
} else {
Log.w(TAG, "stream was not muted by this client");
handler = null;
}
return handler;
}
}
}
/** Thread that handles native AudioSystem control. */
private class AudioSystemThread extends Thread {
AudioSystemThread() {
super("AudioService");
}
@Override
public void run() {
// Set this thread up so the handler will work on it
Looper.prepare();
synchronized(AudioService.this) {
mAudioHandler = new AudioHandler();
// Notify that the handler has been created
AudioService.this.notify();
}
// Listen for volume change requests that are set by VolumePanel
Looper.loop();
}
}
/** Handles internal volume messages in separate volume thread. */
private class AudioHandler extends Handler {
private void setSystemVolume(VolumeStreamState streamState) {
// Adjust volume
setStreamVolumeIndex(streamState.mStreamType, streamState.mIndex);
// Apply change to all streams using this one as alias
int numStreamTypes = AudioSystem.getNumStreamTypes();
for (int streamType = numStreamTypes - 1; streamType >= 0; streamType--) {
if (streamType != streamState.mStreamType &&
STREAM_VOLUME_ALIAS[streamType] == streamState.mStreamType) {
setStreamVolumeIndex(streamType, mStreamStates[streamType].mIndex);
}
}
// Post a persist volume msg
sendMsg(mAudioHandler, MSG_PERSIST_VOLUME, streamState.mStreamType,
SENDMSG_REPLACE, 1, 1, streamState, PERSIST_DELAY);
}
private void persistVolume(VolumeStreamState streamState, boolean current, boolean lastAudible) {
if (current) {
System.putInt(mContentResolver, streamState.mVolumeIndexSettingName,
(streamState.mIndex + 5)/ 10);
}
if (lastAudible) {
System.putInt(mContentResolver, streamState.mLastAudibleVolumeIndexSettingName,
(streamState.mLastAudibleIndex + 5) / 10);
}
}
private void persistRingerMode() {
System.putInt(mContentResolver, System.MODE_RINGER, mRingerMode);
}
private void persistVibrateSetting() {
System.putInt(mContentResolver, System.VIBRATE_ON, mVibrateSetting);
}
private void playSoundEffect(int effectType, int volume) {
synchronized (mSoundEffectsLock) {
if (mSoundPool == null) {
return;
}
float volFloat;
// use STREAM_MUSIC volume attenuated by 3 dB if volume is not specified by caller
if (volume < 0) {
// Same linear to log conversion as in native AudioSystem::linearToLog() (AudioSystem.cpp)
float dBPerStep = (float)((0.5 * 100) / MAX_STREAM_VOLUME[AudioSystem.STREAM_MUSIC]);
int musicVolIndex = (mStreamStates[AudioSystem.STREAM_MUSIC].mIndex + 5) / 10;
float musicVoldB = dBPerStep * (musicVolIndex - MAX_STREAM_VOLUME[AudioSystem.STREAM_MUSIC]);
volFloat = (float)Math.pow(10, (musicVoldB - 3)/20);
} else {
volFloat = (float) volume / 1000.0f;
}
if (SOUND_EFFECT_FILES_MAP[effectType][1] > 0) {
mSoundPool.play(SOUND_EFFECT_FILES_MAP[effectType][1], volFloat, volFloat, 0, 0, 1.0f);
} else {
MediaPlayer mediaPlayer = new MediaPlayer();
if (mediaPlayer != null) {
try {
String filePath = Environment.getRootDirectory() + SOUND_EFFECTS_PATH + SOUND_EFFECT_FILES[SOUND_EFFECT_FILES_MAP[effectType][0]];
mediaPlayer.setDataSource(filePath);
mediaPlayer.setAudioStreamType(AudioSystem.STREAM_SYSTEM);
mediaPlayer.prepare();
mediaPlayer.setVolume(volFloat, volFloat);
mediaPlayer.setOnCompletionListener(new OnCompletionListener() {
public void onCompletion(MediaPlayer mp) {
cleanupPlayer(mp);
}
});
mediaPlayer.setOnErrorListener(new OnErrorListener() {
public boolean onError(MediaPlayer mp, int what, int extra) {
cleanupPlayer(mp);
return true;
}
});
mediaPlayer.start();
} catch (IOException ex) {
Log.w(TAG, "MediaPlayer IOException: "+ex);
} catch (IllegalArgumentException ex) {
Log.w(TAG, "MediaPlayer IllegalArgumentException: "+ex);
} catch (IllegalStateException ex) {
Log.w(TAG, "MediaPlayer IllegalStateException: "+ex);
}
}
}
}
}
private void cleanupPlayer(MediaPlayer mp) {
if (mp != null) {
try {
mp.stop();
mp.release();
} catch (IllegalStateException ex) {
Log.w(TAG, "MediaPlayer IllegalStateException: "+ex);
}
}
}
@Override
public void handleMessage(Message msg) {
int baseMsgWhat = getMsgBase(msg.what);
switch (baseMsgWhat) {
case MSG_SET_SYSTEM_VOLUME:
setSystemVolume((VolumeStreamState) msg.obj);
break;
case MSG_PERSIST_VOLUME:
persistVolume((VolumeStreamState) msg.obj, (msg.arg1 != 0), (msg.arg2 != 0));
break;
case MSG_PERSIST_RINGER_MODE:
persistRingerMode();
break;
case MSG_PERSIST_VIBRATE_SETTING:
persistVibrateSetting();
break;
case MSG_MEDIA_SERVER_DIED:
// Force creation of new IAudioflinger interface
if (!mMediaServerOk) {
Log.e(TAG, "Media server died.");
AudioSystem.isStreamActive(AudioSystem.STREAM_MUSIC);
sendMsg(mAudioHandler, MSG_MEDIA_SERVER_DIED, SHARED_MSG, SENDMSG_NOOP, 0, 0,
null, 500);
}
break;
case MSG_MEDIA_SERVER_STARTED:
Log.e(TAG, "Media server started.");
// Restore device connection states
Set set = mConnectedDevices.entrySet();
Iterator i = set.iterator();
while(i.hasNext()){
Map.Entry device = (Map.Entry)i.next();
AudioSystem.setDeviceConnectionState(((Integer)device.getKey()).intValue(),
AudioSystem.DEVICE_STATE_AVAILABLE,
(String)device.getValue());
}
// Restore call state
AudioSystem.setPhoneState(mMode);
// Restore forced usage for communcations and record
AudioSystem.setForceUse(AudioSystem.FOR_COMMUNICATION, mForcedUseForComm);
AudioSystem.setForceUse(AudioSystem.FOR_RECORD, mForcedUseForComm);
// Restore stream volumes
int numStreamTypes = AudioSystem.getNumStreamTypes();
for (int streamType = numStreamTypes - 1; streamType >= 0; streamType--) {
int index;
VolumeStreamState streamState = mStreamStates[streamType];
AudioSystem.initStreamVolume(streamType, 0, (streamState.mIndexMax + 5) / 10);
if (streamState.muteCount() == 0) {
index = streamState.mIndex;
} else {
index = 0;
}
setStreamVolumeIndex(streamType, index);
}
// Restore ringer mode
setRingerModeInt(getRingerMode(), false);
break;
case MSG_PLAY_SOUND_EFFECT:
playSoundEffect(msg.arg1, msg.arg2);
break;
case MSG_BTA2DP_DOCK_TIMEOUT:
// msg.obj == address of BTA2DP device
makeA2dpDeviceUnavailableNow( (String) msg.obj );
break;
}
}
}
private class SettingsObserver extends ContentObserver {
SettingsObserver() {
super(new Handler());
mContentResolver.registerContentObserver(Settings.System.getUriFor(
Settings.System.MODE_RINGER_STREAMS_AFFECTED), false, this);
mContentResolver.registerContentObserver(Settings.System.getUriFor(
Settings.System.NOTIFICATIONS_USE_RING_VOLUME), false, this);
}
@Override
public void onChange(boolean selfChange) {
super.onChange(selfChange);
synchronized (mSettingsLock) {
int ringerModeAffectedStreams = Settings.System.getInt(mContentResolver,
Settings.System.MODE_RINGER_STREAMS_AFFECTED,
0);
if (ringerModeAffectedStreams != mRingerModeAffectedStreams) {
/*
* Ensure all stream types that should be affected by ringer mode
* are in the proper state.
*/
mRingerModeAffectedStreams = ringerModeAffectedStreams;
setRingerModeInt(getRingerMode(), false);
}
int notificationsUseRingVolume = Settings.System.getInt(mContentResolver,
Settings.System.NOTIFICATIONS_USE_RING_VOLUME,
1);
if (notificationsUseRingVolume != mNotificationsUseRingVolume) {
mNotificationsUseRingVolume = notificationsUseRingVolume;
if (mNotificationsUseRingVolume == 1) {
STREAM_VOLUME_ALIAS[AudioSystem.STREAM_NOTIFICATION] = AudioSystem.STREAM_RING;
mStreamStates[AudioSystem.STREAM_NOTIFICATION].setVolumeIndexSettingName(
System.VOLUME_SETTINGS[AudioSystem.STREAM_RING]);
} else {
STREAM_VOLUME_ALIAS[AudioSystem.STREAM_NOTIFICATION] = AudioSystem.STREAM_NOTIFICATION;
mStreamStates[AudioSystem.STREAM_NOTIFICATION].setVolumeIndexSettingName(
System.VOLUME_SETTINGS[AudioSystem.STREAM_NOTIFICATION]);
// Persist notification volume volume as it was not persisted while aliased to ring volume
// and persist with no delay as there might be registered observers of the persisted
// notification volume.
sendMsg(mAudioHandler, MSG_PERSIST_VOLUME, AudioSystem.STREAM_NOTIFICATION,
SENDMSG_REPLACE, 1, 1, mStreamStates[AudioSystem.STREAM_NOTIFICATION], 0);
}
}
}
}
}
private void makeA2dpDeviceAvailable(String address) {
AudioSystem.setDeviceConnectionState(AudioSystem.DEVICE_OUT_BLUETOOTH_A2DP,
AudioSystem.DEVICE_STATE_AVAILABLE,
address);
// Reset A2DP suspend state each time a new sink is connected
AudioSystem.setParameters("A2dpSuspended=false");
mConnectedDevices.put( new Integer(AudioSystem.DEVICE_OUT_BLUETOOTH_A2DP),
address);
}
private void makeA2dpDeviceUnavailableNow(String address) {
Intent noisyIntent = new Intent(AudioManager.ACTION_AUDIO_BECOMING_NOISY);
mContext.sendBroadcast(noisyIntent);
AudioSystem.setDeviceConnectionState(AudioSystem.DEVICE_OUT_BLUETOOTH_A2DP,
AudioSystem.DEVICE_STATE_UNAVAILABLE,
address);
mConnectedDevices.remove(AudioSystem.DEVICE_OUT_BLUETOOTH_A2DP);
}
private void makeA2dpDeviceUnavailableLater(String address) {
// prevent any activity on the A2DP audio output to avoid unwanted
// reconnection of the sink.
AudioSystem.setParameters("A2dpSuspended=true");
// the device will be made unavailable later, so consider it disconnected right away
mConnectedDevices.remove(AudioSystem.DEVICE_OUT_BLUETOOTH_A2DP);
// send the delayed message to make the device unavailable later
Message msg = mAudioHandler.obtainMessage(MSG_BTA2DP_DOCK_TIMEOUT, address);
mAudioHandler.sendMessageDelayed(msg, BTA2DP_DOCK_TIMEOUT_MILLIS);
}
private void cancelA2dpDeviceTimeout() {
mAudioHandler.removeMessages(MSG_BTA2DP_DOCK_TIMEOUT);
}
private boolean hasScheduledA2dpDockTimeout() {
return mAudioHandler.hasMessages(MSG_BTA2DP_DOCK_TIMEOUT);
}
/* cache of the address of the last dock the device was connected to */
private String mDockAddress;
/**
* Receiver for misc intent broadcasts the Phone app cares about.
*/
private class AudioServiceBroadcastReceiver extends BroadcastReceiver {
@Override
public void onReceive(Context context, Intent intent) {
String action = intent.getAction();
if (action.equals(Intent.ACTION_DOCK_EVENT)) {
int dockState = intent.getIntExtra(Intent.EXTRA_DOCK_STATE,
Intent.EXTRA_DOCK_STATE_UNDOCKED);
int config;
switch (dockState) {
case Intent.EXTRA_DOCK_STATE_DESK:
config = AudioSystem.FORCE_BT_DESK_DOCK;
break;
case Intent.EXTRA_DOCK_STATE_CAR:
config = AudioSystem.FORCE_BT_CAR_DOCK;
break;
case Intent.EXTRA_DOCK_STATE_UNDOCKED:
default:
config = AudioSystem.FORCE_NONE;
}
AudioSystem.setForceUse(AudioSystem.FOR_DOCK, config);
} else if (action.equals(BluetoothA2dp.ACTION_SINK_STATE_CHANGED)) {
int state = intent.getIntExtra(BluetoothA2dp.EXTRA_SINK_STATE,
BluetoothA2dp.STATE_DISCONNECTED);
BluetoothDevice btDevice = intent.getParcelableExtra(BluetoothDevice.EXTRA_DEVICE);
String address = btDevice.getAddress();
boolean isConnected = (mConnectedDevices.containsKey(AudioSystem.DEVICE_OUT_BLUETOOTH_A2DP) &&
((String)mConnectedDevices.get(AudioSystem.DEVICE_OUT_BLUETOOTH_A2DP)).equals(address));
if (isConnected &&
state != BluetoothA2dp.STATE_CONNECTED && state != BluetoothA2dp.STATE_PLAYING) {
if (btDevice.isBluetoothDock()) {
if (state == BluetoothA2dp.STATE_DISCONNECTED) {
// introduction of a delay for transient disconnections of docks when
// power is rapidly turned off/on, this message will be canceled if
// we reconnect the dock under a preset delay
makeA2dpDeviceUnavailableLater(address);
// the next time isConnected is evaluated, it will be false for the dock
}
} else {
makeA2dpDeviceUnavailableNow(address);
}
} else if (!isConnected &&
(state == BluetoothA2dp.STATE_CONNECTED ||
state == BluetoothA2dp.STATE_PLAYING)) {
if (btDevice.isBluetoothDock()) {
// this could be a reconnection after a transient disconnection
cancelA2dpDeviceTimeout();
mDockAddress = address;
} else {
// this could be a connection of another A2DP device before the timeout of
// a dock: cancel the dock timeout, and make the dock unavailable now
if(hasScheduledA2dpDockTimeout()) {
cancelA2dpDeviceTimeout();
makeA2dpDeviceUnavailableNow(mDockAddress);
}
}
makeA2dpDeviceAvailable(address);
}
} else if (action.equals(BluetoothHeadset.ACTION_STATE_CHANGED)) {
int state = intent.getIntExtra(BluetoothHeadset.EXTRA_STATE,
BluetoothHeadset.STATE_ERROR);
int device = AudioSystem.DEVICE_OUT_BLUETOOTH_SCO;
BluetoothDevice btDevice = intent.getParcelableExtra(BluetoothDevice.EXTRA_DEVICE);
String address = null;
if (btDevice != null) {
address = btDevice.getAddress();
BluetoothClass btClass = btDevice.getBluetoothClass();
if (btClass != null) {
switch (btClass.getDeviceClass()) {
case BluetoothClass.Device.AUDIO_VIDEO_WEARABLE_HEADSET:
case BluetoothClass.Device.AUDIO_VIDEO_HANDSFREE:
device = AudioSystem.DEVICE_OUT_BLUETOOTH_SCO_HEADSET;
break;
case BluetoothClass.Device.AUDIO_VIDEO_CAR_AUDIO:
device = AudioSystem.DEVICE_OUT_BLUETOOTH_SCO_CARKIT;
break;
}
}
}
boolean isConnected = (mConnectedDevices.containsKey(device) &&
((String)mConnectedDevices.get(device)).equals(address));
if (isConnected && state != BluetoothHeadset.STATE_CONNECTED) {
AudioSystem.setDeviceConnectionState(device,
AudioSystem.DEVICE_STATE_UNAVAILABLE,
address);
mConnectedDevices.remove(device);
mBluetoothHeadsetConnected = false;
clearAllScoClients();
} else if (!isConnected && state == BluetoothHeadset.STATE_CONNECTED) {
AudioSystem.setDeviceConnectionState(device,
AudioSystem.DEVICE_STATE_AVAILABLE,
address);
mConnectedDevices.put(new Integer(device), address);
mBluetoothHeadsetConnected = true;
}
} else if (action.equals(Intent.ACTION_HEADSET_PLUG)) {
int state = intent.getIntExtra("state", 0);
int microphone = intent.getIntExtra("microphone", 0);
if (microphone != 0) {
boolean isConnected = mConnectedDevices.containsKey(AudioSystem.DEVICE_OUT_WIRED_HEADSET);
if (state == 0 && isConnected) {
AudioSystem.setDeviceConnectionState(AudioSystem.DEVICE_OUT_WIRED_HEADSET,
AudioSystem.DEVICE_STATE_UNAVAILABLE,
"");
mConnectedDevices.remove(AudioSystem.DEVICE_OUT_WIRED_HEADSET);
} else if (state == 1 && !isConnected) {
AudioSystem.setDeviceConnectionState(AudioSystem.DEVICE_OUT_WIRED_HEADSET,
AudioSystem.DEVICE_STATE_AVAILABLE,
"");
mConnectedDevices.put( new Integer(AudioSystem.DEVICE_OUT_WIRED_HEADSET), "");
}
} else {
boolean isConnected = mConnectedDevices.containsKey(AudioSystem.DEVICE_OUT_WIRED_HEADPHONE);
if (state == 0 && isConnected) {
AudioSystem.setDeviceConnectionState(AudioSystem.DEVICE_OUT_WIRED_HEADPHONE,
AudioSystem.DEVICE_STATE_UNAVAILABLE,
"");
mConnectedDevices.remove(AudioSystem.DEVICE_OUT_WIRED_HEADPHONE);
} else if (state == 1 && !isConnected) {
AudioSystem.setDeviceConnectionState(AudioSystem.DEVICE_OUT_WIRED_HEADPHONE,
AudioSystem.DEVICE_STATE_AVAILABLE,
"");
mConnectedDevices.put( new Integer(AudioSystem.DEVICE_OUT_WIRED_HEADPHONE), "");
}
}
} else if (action.equals(BluetoothHeadset.ACTION_AUDIO_STATE_CHANGED)) {
int state = intent.getIntExtra(BluetoothHeadset.EXTRA_AUDIO_STATE,
BluetoothHeadset.STATE_ERROR);
synchronized (mScoClients) {
if (!mScoClients.isEmpty()) {
switch (state) {
case BluetoothHeadset.AUDIO_STATE_CONNECTED:
state = AudioManager.SCO_AUDIO_STATE_CONNECTED;
break;
case BluetoothHeadset.AUDIO_STATE_DISCONNECTED:
state = AudioManager.SCO_AUDIO_STATE_DISCONNECTED;
break;
default:
state = AudioManager.SCO_AUDIO_STATE_ERROR;
break;
}
if (state != AudioManager.SCO_AUDIO_STATE_ERROR) {
Intent newIntent = new Intent(AudioManager.ACTION_SCO_AUDIO_STATE_CHANGED);
newIntent.putExtra(AudioManager.EXTRA_SCO_AUDIO_STATE, state);
mContext.sendStickyBroadcast(newIntent);
}
}
}
}
}
}
//==========================================================================================
// AudioFocus
//==========================================================================================
/* constant to identify focus stack entry that is used to hold the focus while the phone
* is ringing or during a call
*/
private final static String IN_VOICE_COMM_FOCUS_ID = "AudioFocus_For_Phone_Ring_And_Calls";
private final static Object mAudioFocusLock = new Object();
private PhoneStateListener mPhoneStateListener = new PhoneStateListener() {
@Override
public void onCallStateChanged(int state, String incomingNumber) {
if (state == TelephonyManager.CALL_STATE_RINGING) {
//Log.v(TAG, " CALL_STATE_RINGING");
int ringVolume = AudioService.this.getStreamVolume(AudioManager.STREAM_RING);
if (ringVolume > 0) {
requestAudioFocus(AudioManager.STREAM_RING,
AudioManager.AUDIOFOCUS_GAIN_TRANSIENT,
null, null /* both allowed to be null only for this clientId */,
IN_VOICE_COMM_FOCUS_ID /*clientId*/);
}
} else if (state == TelephonyManager.CALL_STATE_OFFHOOK) {
//Log.v(TAG, " CALL_STATE_OFFHOOK");
requestAudioFocus(AudioManager.STREAM_RING,
AudioManager.AUDIOFOCUS_GAIN_TRANSIENT,
null, null /* both allowed to be null only for this clientId */,
IN_VOICE_COMM_FOCUS_ID /*clientId*/);
} else if (state == TelephonyManager.CALL_STATE_IDLE) {
//Log.v(TAG, " CALL_STATE_IDLE");
abandonAudioFocus(null, IN_VOICE_COMM_FOCUS_ID);
}
}
};
private void notifyTopOfAudioFocusStack() {
// notify the top of the stack it gained focus
if (!mFocusStack.empty() && (mFocusStack.peek().mFocusDispatcher != null)) {
if (canReassignAudioFocus()) {
try {
mFocusStack.peek().mFocusDispatcher.dispatchAudioFocusChange(
AudioManager.AUDIOFOCUS_GAIN, mFocusStack.peek().mClientId);
} catch (RemoteException e) {
Log.e(TAG, "Failure to signal gain of audio control focus due to "+ e);
e.printStackTrace();
}
}
}
}
private static class FocusStackEntry {
public int mStreamType = -1;// no stream type
public boolean mIsTransportControlReceiver = false;
public IAudioFocusDispatcher mFocusDispatcher = null;
public IBinder mSourceRef = null;
public String mClientId;
public int mFocusChangeType;
public FocusStackEntry() {
}
public FocusStackEntry(int streamType, int duration, boolean isTransportControlReceiver,
IAudioFocusDispatcher afl, IBinder source, String id) {
mStreamType = streamType;
mIsTransportControlReceiver = isTransportControlReceiver;
mFocusDispatcher = afl;
mSourceRef = source;
mClientId = id;
mFocusChangeType = duration;
}
}
private Stack<FocusStackEntry> mFocusStack = new Stack<FocusStackEntry>();
/**
* Helper function:
* Display in the log the current entries in the audio focus stack
*/
private void dumpFocusStack(PrintWriter pw) {
pw.println("\nAudio Focus stack entries:");
synchronized(mAudioFocusLock) {
Iterator<FocusStackEntry> stackIterator = mFocusStack.iterator();
while(stackIterator.hasNext()) {
FocusStackEntry fse = stackIterator.next();
pw.println(" source:" + fse.mSourceRef + " -- client: " + fse.mClientId
+ " -- duration: " +fse.mFocusChangeType);
}
}
}
/**
* Helper function:
* Remove a focus listener from the focus stack.
* @param focusListenerToRemove the focus listener
* @param signal if true and the listener was at the top of the focus stack, i.e. it was holding
* focus, notify the next item in the stack it gained focus.
*/
private void removeFocusStackEntry(String clientToRemove, boolean signal) {
// is the current top of the focus stack abandoning focus? (because of death or request)
if (!mFocusStack.empty() && mFocusStack.peek().mClientId.equals(clientToRemove))
{
//Log.i(TAG, " removeFocusStackEntry() removing top of stack");
mFocusStack.pop();
if (signal) {
// notify the new top of the stack it gained focus
notifyTopOfAudioFocusStack();
}
} else {
// focus is abandoned by a client that's not at the top of the stack,
// no need to update focus.
Iterator<FocusStackEntry> stackIterator = mFocusStack.iterator();
while(stackIterator.hasNext()) {
FocusStackEntry fse = (FocusStackEntry)stackIterator.next();
if(fse.mClientId.equals(clientToRemove)) {
Log.i(TAG, " AudioFocus abandonAudioFocus(): removing entry for "
+ fse.mClientId);
mFocusStack.remove(fse);
}
}
}
}
/**
* Helper function:
* Remove focus listeners from the focus stack for a particular client.
*/
private void removeFocusStackEntryForClient(IBinder cb) {
// is the owner of the audio focus part of the client to remove?
boolean isTopOfStackForClientToRemove = !mFocusStack.isEmpty() &&
mFocusStack.peek().mSourceRef.equals(cb);
Iterator<FocusStackEntry> stackIterator = mFocusStack.iterator();
while(stackIterator.hasNext()) {
FocusStackEntry fse = (FocusStackEntry)stackIterator.next();
if(fse.mSourceRef.equals(cb)) {
Log.i(TAG, " AudioFocus abandonAudioFocus(): removing entry for "
+ fse.mClientId);
mFocusStack.remove(fse);
}
}
if (isTopOfStackForClientToRemove) {
// we removed an entry at the top of the stack:
// notify the new top of the stack it gained focus.
notifyTopOfAudioFocusStack();
}
}
/**
* Helper function:
* Returns true if the system is in a state where the focus can be reevaluated, false otherwise.
*/
private boolean canReassignAudioFocus() {
// focus requests are rejected during a phone call or when the phone is ringing
// this is equivalent to IN_VOICE_COMM_FOCUS_ID having the focus
if (!mFocusStack.isEmpty() && IN_VOICE_COMM_FOCUS_ID.equals(mFocusStack.peek().mClientId)) {
return false;
}
return true;
}
/**
* Inner class to monitor audio focus client deaths, and remove them from the audio focus
* stack if necessary.
*/
private class AudioFocusDeathHandler implements IBinder.DeathRecipient {
private IBinder mCb; // To be notified of client's death
AudioFocusDeathHandler(IBinder cb) {
mCb = cb;
}
public void binderDied() {
synchronized(mAudioFocusLock) {
Log.w(TAG, " AudioFocus audio focus client died");
removeFocusStackEntryForClient(mCb);
}
}
public IBinder getBinder() {
return mCb;
}
}
/** @see AudioManager#requestAudioFocus(IAudioFocusDispatcher, int, int) */
public int requestAudioFocus(int mainStreamType, int focusChangeHint, IBinder cb,
IAudioFocusDispatcher fd, String clientId) {
Log.i(TAG, " AudioFocus requestAudioFocus() from " + clientId);
// the main stream type for the audio focus request is currently not used. It may
// potentially be used to handle multiple stream type-dependent audio focuses.
// we need a valid binder callback for clients other than the AudioService's phone
// state listener
if (!IN_VOICE_COMM_FOCUS_ID.equals(clientId) && ((cb == null) || !cb.pingBinder())) {
Log.i(TAG, " AudioFocus DOA client for requestAudioFocus(), exiting");
return AudioManager.AUDIOFOCUS_REQUEST_FAILED;
}
synchronized(mAudioFocusLock) {
if (!canReassignAudioFocus()) {
return AudioManager.AUDIOFOCUS_REQUEST_FAILED;
}
if (!mFocusStack.empty() && mFocusStack.peek().mClientId.equals(clientId)) {
// if focus is already owned by this client and the reason for acquiring the focus
// hasn't changed, don't do anything
if (mFocusStack.peek().mFocusChangeType == focusChangeHint) {
return AudioManager.AUDIOFOCUS_REQUEST_GRANTED;
}
// the reason for the audio focus request has changed: remove the current top of
// stack and respond as if we had a new focus owner
mFocusStack.pop();
}
// notify current top of stack it is losing focus
if (!mFocusStack.empty() && (mFocusStack.peek().mFocusDispatcher != null)) {
try {
mFocusStack.peek().mFocusDispatcher.dispatchAudioFocusChange(
-1 * focusChangeHint, // loss and gain codes are inverse of each other
mFocusStack.peek().mClientId);
} catch (RemoteException e) {
Log.e(TAG, " Failure to signal loss of focus due to "+ e);
e.printStackTrace();
}
}
// focus requester might already be somewhere below in the stack, remove it
removeFocusStackEntry(clientId, false);
// push focus requester at the top of the audio focus stack
mFocusStack.push(new FocusStackEntry(mainStreamType, focusChangeHint, false, fd, cb,
clientId));
}//synchronized(mAudioFocusLock)
// handle the potential premature death of the new holder of the focus
// (premature death == death before abandoning focus) for a client which is not the
// AudioService's phone state listener
if (!IN_VOICE_COMM_FOCUS_ID.equals(clientId)) {
// Register for client death notification
AudioFocusDeathHandler afdh = new AudioFocusDeathHandler(cb);
try {
cb.linkToDeath(afdh, 0);
} catch (RemoteException e) {
// client has already died!
Log.w(TAG, "AudioFocus requestAudioFocus() could not link to "+cb+" binder death");
}
}
return AudioManager.AUDIOFOCUS_REQUEST_GRANTED;
}
/** @see AudioManager#abandonAudioFocus(IAudioFocusDispatcher) */
public int abandonAudioFocus(IAudioFocusDispatcher fl, String clientId) {
Log.i(TAG, " AudioFocus abandonAudioFocus() from " + clientId);
try {
// this will take care of notifying the new focus owner if needed
synchronized(mAudioFocusLock) {
removeFocusStackEntry(clientId, true);
}
} catch (java.util.ConcurrentModificationException cme) {
// Catching this exception here is temporary. It is here just to prevent
// a crash seen when the "Silent" notification is played. This is believed to be fixed
// but this try catch block is left just to be safe.
Log.e(TAG, "FATAL EXCEPTION AudioFocus abandonAudioFocus() caused " + cme);
cme.printStackTrace();
}
return AudioManager.AUDIOFOCUS_REQUEST_GRANTED;
}
public void unregisterAudioFocusClient(String clientId) {
synchronized(mAudioFocusLock) {
removeFocusStackEntry(clientId, false);
}
}
//==========================================================================================
// RemoteControl
//==========================================================================================
/**
* Receiver for media button intents. Handles the dispatching of the media button event
* to one of the registered listeners, or if there was none, resumes the intent broadcast
* to the rest of the system.
*/
private class MediaButtonBroadcastReceiver extends BroadcastReceiver {
@Override
public void onReceive(Context context, Intent intent) {
String action = intent.getAction();
if (!Intent.ACTION_MEDIA_BUTTON.equals(action)) {
return;
}
KeyEvent event = (KeyEvent) intent.getParcelableExtra(Intent.EXTRA_KEY_EVENT);
if (event != null) {
// if in a call or ringing, do not break the current phone app behavior
// TODO modify this to let the phone app specifically get the RC focus
// add modify the phone app to take advantage of the new API
if ((getMode() == AudioSystem.MODE_IN_CALL) ||
(getMode() == AudioSystem.MODE_RINGTONE)) {
return;
}
synchronized(mRCStack) {
if (!mRCStack.empty()) {
// create a new intent specifically aimed at the current registered listener
Intent targetedIntent = new Intent(Intent.ACTION_MEDIA_BUTTON);
targetedIntent.putExtras(intent.getExtras());
targetedIntent.setComponent(mRCStack.peek().mReceiverComponent);
// trap the current broadcast
abortBroadcast();
//Log.v(TAG, " Sending intent" + targetedIntent);
context.sendBroadcast(targetedIntent, null);
}
}
}
}
}
private static class RemoteControlStackEntry {
public ComponentName mReceiverComponent;// always non null
// TODO implement registration expiration?
//public int mRegistrationTime;
public RemoteControlStackEntry() {
}
public RemoteControlStackEntry(ComponentName r) {
mReceiverComponent = r;
}
}
private Stack<RemoteControlStackEntry> mRCStack = new Stack<RemoteControlStackEntry>();
/**
* Helper function:
* Display in the log the current entries in the remote control focus stack
*/
private void dumpRCStack(PrintWriter pw) {
pw.println("\nRemote Control stack entries:");
synchronized(mRCStack) {
Iterator<RemoteControlStackEntry> stackIterator = mRCStack.iterator();
while(stackIterator.hasNext()) {
RemoteControlStackEntry fse = stackIterator.next();
pw.println(" receiver:" + fse.mReceiverComponent);
}
}
}
/**
* Helper function:
* Set the new remote control receiver at the top of the RC focus stack
*/
private void pushMediaButtonReceiver(ComponentName newReceiver) {
// already at top of stack?
if (!mRCStack.empty() && mRCStack.peek().mReceiverComponent.equals(newReceiver)) {
return;
}
Iterator<RemoteControlStackEntry> stackIterator = mRCStack.iterator();
while(stackIterator.hasNext()) {
RemoteControlStackEntry rcse = (RemoteControlStackEntry)stackIterator.next();
if(rcse.mReceiverComponent.equals(newReceiver)) {
mRCStack.remove(rcse);
break;
}
}
mRCStack.push(new RemoteControlStackEntry(newReceiver));
}
/**
* Helper function:
* Remove the remote control receiver from the RC focus stack
*/
private void removeMediaButtonReceiver(ComponentName newReceiver) {
Iterator<RemoteControlStackEntry> stackIterator = mRCStack.iterator();
while(stackIterator.hasNext()) {
RemoteControlStackEntry rcse = (RemoteControlStackEntry)stackIterator.next();
if(rcse.mReceiverComponent.equals(newReceiver)) {
mRCStack.remove(rcse);
break;
}
}
}
/** see AudioManager.registerMediaButtonEventReceiver(ComponentName eventReceiver) */
public void registerMediaButtonEventReceiver(ComponentName eventReceiver) {
Log.i(TAG, " Remote Control registerMediaButtonEventReceiver() for " + eventReceiver);
synchronized(mRCStack) {
pushMediaButtonReceiver(eventReceiver);
}
}
/** see AudioManager.unregisterMediaButtonEventReceiver(ComponentName eventReceiver) */
public void unregisterMediaButtonEventReceiver(ComponentName eventReceiver) {
Log.i(TAG, " Remote Control unregisterMediaButtonEventReceiver() for " + eventReceiver);
synchronized(mRCStack) {
removeMediaButtonReceiver(eventReceiver);
}
}
@Override
protected void dump(FileDescriptor fd, PrintWriter pw, String[] args) {
// TODO probably a lot more to do here than just the audio focus and remote control stacks
dumpFocusStack(pw);
dumpRCStack(pw);
}
}