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gerrit-public.fairphone.software / fp2-dev / platform / packages / services / Telecomm / refs/heads/fp2-m-sibon / . / src / com / android / server / telecom / CallsManager.java
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/*
* Copyright (C) 2013 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 com.android.server.telecom;
import android.content.Context;
import android.net.Uri;
import android.os.Bundle;
import android.os.Handler;
import android.os.Looper;
import android.os.Message;
import android.os.SystemProperties;
import android.os.Trace;
import android.provider.CallLog.Calls;
import android.provider.Settings;
import android.telecom.CallAudioState;
import android.telecom.Conference;
import android.telecom.Connection;
import android.telecom.DisconnectCause;
import android.telecom.GatewayInfo;
import android.telecom.ParcelableConference;
import android.telecom.ParcelableConnection;
import android.telecom.PhoneAccount;
import android.telecom.PhoneAccountHandle;
import android.telecom.TelecomManager;
import android.telecom.VideoProfile;
import android.telephony.PhoneNumberUtils;
import android.telephony.TelephonyManager;
import android.text.TextUtils;
import com.android.internal.annotations.VisibleForTesting;
import com.android.internal.telephony.PhoneConstants;
import com.android.internal.telephony.TelephonyProperties;
import com.android.internal.util.IndentingPrintWriter;
import com.android.server.telecom.ui.ViceNotificationImpl;
import java.util.Collection;
import java.util.Collections;
import java.util.HashSet;
import java.util.List;
import java.util.Objects;
import java.util.Set;
import java.util.concurrent.ConcurrentHashMap;
/**
* Singleton.
*
* NOTE: by design most APIs are package private, use the relevant adapter/s to allow
* access from other packages specifically refraining from passing the CallsManager instance
* beyond the com.android.server.telecom package boundary.
*/
@VisibleForTesting
public class CallsManager extends Call.ListenerBase implements VideoProviderProxy.Listener {
// TODO: Consider renaming this CallsManagerPlugin.
interface CallsManagerListener {
void onCallAdded(Call call);
void onCallRemoved(Call call);
void onCallStateChanged(Call call, int oldState, int newState);
void onConnectionServiceChanged(
Call call,
ConnectionServiceWrapper oldService,
ConnectionServiceWrapper newService);
void onIncomingCallAnswered(Call call);
void onIncomingCallRejected(Call call, boolean rejectWithMessage, String textMessage);
void onForegroundCallChanged(Call oldForegroundCall, Call newForegroundCall);
void onCallAudioStateChanged(CallAudioState oldAudioState, CallAudioState newAudioState);
void onRingbackRequested(Call call, boolean ringback);
void onIsConferencedChanged(Call call);
void onIsVoipAudioModeChanged(Call call);
void onVideoStateChanged(Call call);
void onCanAddCallChanged(boolean canAddCall);
void onSessionModifyRequestReceived(Call call, VideoProfile videoProfile);
void onMergeFailed(Call call);
}
private static final String TAG = "CallsManager";
private static final int MAXIMUM_LIVE_CALLS = 1;
private static final int MAXIMUM_HOLD_CALLS = 1;
private static final int MAXIMUM_RINGING_CALLS = 1;
private static final int MAXIMUM_DIALING_CALLS = 1;
private static final int MAXIMUM_OUTGOING_CALLS = 1;
private static final int MAXIMUM_TOP_LEVEL_CALLS = 2;
private static final int MAXIMUM_DSDA_LIVE_CALLS = 2;
private static final int MAXIMUM_DSDA_HOLD_CALLS = 2;
private static final int MAXIMUM_DSDA_TOP_LEVEL_CALLS = 4;
private static final int[] OUTGOING_CALL_STATES =
{CallState.CONNECTING, CallState.SELECT_PHONE_ACCOUNT, CallState.DIALING};
private static final int[] LIVE_CALL_STATES =
{CallState.CONNECTING, CallState.SELECT_PHONE_ACCOUNT, CallState.DIALING,
CallState.ACTIVE};
/**
* The main call repository. Keeps an instance of all live calls. New incoming and outgoing
* calls are added to the map and removed when the calls move to the disconnected state.
*
* ConcurrentHashMap constructor params: 8 is initial table size, 0.9f is
* load factor before resizing, 1 means we only expect a single thread to
* access the map so make only a single shard
*/
private final Set<Call> mCalls = Collections.newSetFromMap(
new ConcurrentHashMap<Call, Boolean>(8, 0.9f, 1));
private final ConnectionServiceRepository mConnectionServiceRepository;
private final DtmfLocalTonePlayer mDtmfLocalTonePlayer;
private final InCallController mInCallController;
private final CallAudioManager mCallAudioManager;
private RespondViaSmsManager mRespondViaSmsManager;
private final Ringer mRinger;
private final InCallWakeLockController mInCallWakeLockController;
// For this set initial table size to 16 because we add 13 listeners in
// the CallsManager constructor.
private final Set<CallsManagerListener> mListeners = Collections.newSetFromMap(
new ConcurrentHashMap<CallsManagerListener, Boolean>(16, 0.9f, 1));
private final HeadsetMediaButton mHeadsetMediaButton;
private final WiredHeadsetManager mWiredHeadsetManager;
private final DockManager mDockManager;
private final TtyManager mTtyManager;
private final ProximitySensorManager mProximitySensorManager;
private final PhoneStateBroadcaster mPhoneStateBroadcaster;
private final CallLogManager mCallLogManager;
private final Context mContext;
private final TelecomSystem.SyncRoot mLock;
private final ContactsAsyncHelper mContactsAsyncHelper;
private final CallerInfoAsyncQueryFactory mCallerInfoAsyncQueryFactory;
private final PhoneAccountRegistrar mPhoneAccountRegistrar;
private final MissedCallNotifier mMissedCallNotifier;
private final ViceNotificationImpl mViceNotificationImpl;
private final Set<Call> mLocallyDisconnectingCalls = new HashSet<>();
private final Set<Call> mPendingCallsToDisconnect = new HashSet<>();
/* Handler tied to thread in which CallManager was initialized. */
private final Handler mHandler = new Handler(Looper.getMainLooper());
private boolean mCanAddCall = true;
/**
* The call the user is currently interacting with. This is the call that should have audio
* focus and be visible in the in-call UI.
*/
private Call mForegroundCall;
private static final int LCH_PLAY_DTMF = 100;
private static final int LCH_STOP_DTMF = 101;
private static final int PHONE_START_DSDA_INCALL_TONE = 102;
private static final int LCH_DTMF_PERIODICITY = 3000;
private static final int LCH_DTMF_PERIOD = 500;
private static final String sSupervisoryCallHoldToneConfig =
SystemProperties.get("persist.radio.sch_tone", "none");
private static InCallTonePlayer.Factory mPlayerFactory;
private String mLchSub = null;
private InCallTonePlayer mLocalCallReminderTonePlayer = null;
private InCallTonePlayer mSupervisoryCallHoldTonePlayer = null;
private String mSubInConversation = null;
private Runnable mStopTone;
/**
* Initializes the required Telecom components.
*/
CallsManager(
Context context,
TelecomSystem.SyncRoot lock,
ContactsAsyncHelper contactsAsyncHelper,
CallerInfoAsyncQueryFactory callerInfoAsyncQueryFactory,
MissedCallNotifier missedCallNotifier,
PhoneAccountRegistrar phoneAccountRegistrar,
HeadsetMediaButtonFactory headsetMediaButtonFactory,
ProximitySensorManagerFactory proximitySensorManagerFactory,
InCallWakeLockControllerFactory inCallWakeLockControllerFactory,
ViceNotifier viceNotifier) {
mContext = context;
mLock = lock;
mContactsAsyncHelper = contactsAsyncHelper;
mCallerInfoAsyncQueryFactory = callerInfoAsyncQueryFactory;
mPhoneAccountRegistrar = phoneAccountRegistrar;
mMissedCallNotifier = missedCallNotifier;
StatusBarNotifier statusBarNotifier = new StatusBarNotifier(context, this);
mWiredHeadsetManager = new WiredHeadsetManager(context);
mDockManager = new DockManager(context);
mCallAudioManager = new CallAudioManager(
context, mLock, statusBarNotifier, mWiredHeadsetManager, mDockManager, this);
InCallTonePlayer.Factory playerFactory = new InCallTonePlayer.Factory(mCallAudioManager, lock);
mPlayerFactory = playerFactory;
mRinger = new Ringer(mCallAudioManager, this, playerFactory, context);
mHeadsetMediaButton = headsetMediaButtonFactory.create(context, this, mLock);
mTtyManager = new TtyManager(context, mWiredHeadsetManager);
mProximitySensorManager = proximitySensorManagerFactory.create(context, this);
mPhoneStateBroadcaster = new PhoneStateBroadcaster(this);
mCallLogManager = new CallLogManager(context);
mInCallController = new InCallController(context, mLock, this);
mDtmfLocalTonePlayer = new DtmfLocalTonePlayer(context);
mConnectionServiceRepository =
new ConnectionServiceRepository(mPhoneAccountRegistrar, mContext, mLock, this);
mInCallWakeLockController = inCallWakeLockControllerFactory.create(context, this);
mViceNotificationImpl = viceNotifier.create(mContext, this);
mListeners.add(statusBarNotifier);
mListeners.add(mCallLogManager);
mListeners.add(mPhoneStateBroadcaster);
mListeners.add(mInCallController);
mListeners.add(mRinger);
mListeners.add(new RingbackPlayer(this, playerFactory));
mListeners.add(new InCallToneMonitor(playerFactory, this));
mListeners.add(mCallAudioManager);
mListeners.add(missedCallNotifier);
mListeners.add(mDtmfLocalTonePlayer);
mListeners.add(mHeadsetMediaButton);
mListeners.add(mProximitySensorManager);
mListeners.add(mViceNotificationImpl);
mMissedCallNotifier.updateOnStartup(
mLock, this, mContactsAsyncHelper, mCallerInfoAsyncQueryFactory);
}
ViceNotificationImpl getViceNotificationImpl() {
return mViceNotificationImpl;
}
public void setRespondViaSmsManager(RespondViaSmsManager respondViaSmsManager) {
if (mRespondViaSmsManager != null) {
mListeners.remove(mRespondViaSmsManager);
}
mRespondViaSmsManager = respondViaSmsManager;
mListeners.add(respondViaSmsManager);
}
public RespondViaSmsManager getRespondViaSmsManager() {
return mRespondViaSmsManager;
}
@Override
public void onSuccessfulOutgoingCall(Call call, int callState) {
Log.v(this, "onSuccessfulOutgoingCall, %s", call);
setCallState(call, callState, "successful outgoing call");
if (!mCalls.contains(call)) {
// Call was not added previously in startOutgoingCall due to it being a potential MMI
// code, so add it now.
addCall(call);
}
// The call's ConnectionService has been updated.
for (CallsManagerListener listener : mListeners) {
listener.onConnectionServiceChanged(call, null, call.getConnectionService());
}
markCallAsDialing(call);
}
@Override
public void onFailedOutgoingCall(Call call, DisconnectCause disconnectCause) {
Log.v(this, "onFailedOutgoingCall, call: %s", call);
markCallAsRemoved(call);
}
@Override
public void onSuccessfulIncomingCall(Call incomingCall) {
Log.d(this, "onSuccessfulIncomingCall");
setCallState(incomingCall, CallState.RINGING, "successful incoming call");
if (hasMaximumRingingCalls(incomingCall.getTargetPhoneAccount().getId()) || hasMaximumDialingCalls() ) {
incomingCall.reject(false, null);
// since the call was not added to the list of calls, we have to call the missed
// call notifier and the call logger manually.
mMissedCallNotifier.showMissedCallNotification(incomingCall);
mCallLogManager.logCall(incomingCall, Calls.MISSED_TYPE);
} else {
if (TelephonyManager.getDefault().getMultiSimConfiguration()
== TelephonyManager.MultiSimVariants.DSDA) {
incomingCall.mIsActiveSub = true;
}
addCall(incomingCall);
setActiveSubscription(incomingCall.getTargetPhoneAccount().getId());
}
}
@Override
public void onFailedIncomingCall(Call call) {
setCallState(call, CallState.DISCONNECTED, "failed incoming call");
call.removeListener(this);
}
@Override
public void onSuccessfulUnknownCall(Call call, int callState) {
setCallState(call, callState, "successful unknown call");
Log.i(this, "onSuccessfulUnknownCall for call %s", call);
addCall(call);
}
@Override
public void onFailedUnknownCall(Call call) {
Log.i(this, "onFailedUnknownCall for call %s", call);
setCallState(call, CallState.DISCONNECTED, "failed unknown call");
call.removeListener(this);
}
@Override
public void onRingbackRequested(Call call, boolean ringback) {
for (CallsManagerListener listener : mListeners) {
listener.onRingbackRequested(call, ringback);
}
}
@Override
public void onPostDialWait(Call call, String remaining) {
mInCallController.onPostDialWait(call, remaining);
}
@Override
public void onPostDialChar(final Call call, char nextChar) {
if (PhoneNumberUtils.is12Key(nextChar)) {
// Play tone if it is one of the dialpad digits, canceling out the previously queued
// up stopTone runnable since playing a new tone automatically stops the previous tone.
if (mStopTone != null) {
mHandler.removeCallbacks(mStopTone);
}
mDtmfLocalTonePlayer.playTone(call, nextChar);
// TODO: Create a LockedRunnable class that does the synchronization automatically.
mStopTone = new Runnable() {
@Override
public void run() {
synchronized (mLock) {
// Set a timeout to stop the tone in case there isn't another tone to follow.
mDtmfLocalTonePlayer.stopTone(call);
}
}
};
mHandler.postDelayed(
mStopTone,
Timeouts.getDelayBetweenDtmfTonesMillis(mContext.getContentResolver()));
} else if (nextChar == 0 || nextChar == TelecomManager.DTMF_CHARACTER_WAIT ||
nextChar == TelecomManager.DTMF_CHARACTER_PAUSE) {
// Stop the tone if a tone is playing, removing any other stopTone callbacks since
// the previous tone is being stopped anyway.
if (mStopTone != null) {
mHandler.removeCallbacks(mStopTone);
}
mDtmfLocalTonePlayer.stopTone(call);
} else {
Log.w(this, "onPostDialChar: invalid value %d", nextChar);
}
}
@Override
public void onParentChanged(Call call) {
// parent-child relationship affects which call should be foreground, so do an update.
updateCallsManagerState();
for (CallsManagerListener listener : mListeners) {
listener.onIsConferencedChanged(call);
}
}
@Override
public void onChildrenChanged(Call call) {
// parent-child relationship affects which call should be foreground, so do an update.
updateCallsManagerState();
for (CallsManagerListener listener : mListeners) {
listener.onIsConferencedChanged(call);
}
}
@Override
public void onIsVoipAudioModeChanged(Call call) {
for (CallsManagerListener listener : mListeners) {
listener.onIsVoipAudioModeChanged(call);
}
}
@Override
public void onVideoStateChanged(Call call) {
for (CallsManagerListener listener : mListeners) {
listener.onVideoStateChanged(call);
}
}
@Override
public boolean onCanceledViaNewOutgoingCallBroadcast(final Call call) {
mPendingCallsToDisconnect.add(call);
mHandler.postDelayed(new Runnable() {
@Override
public void run() {
synchronized (mLock) {
if (mPendingCallsToDisconnect.remove(call)) {
Log.i(this, "Delayed disconnection of call: %s", call);
call.disconnect();
}
}
}
}, Timeouts.getNewOutgoingCallCancelMillis(mContext.getContentResolver()));
return true;
}
/**
* Handles changes to the {@link Connection.VideoProvider} for a call. Adds the
* {@link CallsManager} as a listener for the {@link VideoProviderProxy} which is created
* in {@link Call#setVideoProvider(IVideoProvider)}. This allows the {@link CallsManager} to
* respond to callbacks from the {@link VideoProviderProxy}.
*
* @param call The call.
*/
@Override
public void onVideoCallProviderChanged(Call call) {
VideoProviderProxy videoProviderProxy = call.getVideoProviderProxy();
if (videoProviderProxy == null) {
return;
}
videoProviderProxy.addListener(this);
}
/**
* Handles session modification requests received via the {@link TelecomVideoCallCallback} for
* a call. Notifies listeners of the {@link CallsManager.CallsManagerListener} of the session
* modification request.
*
* @param call The call.
* @param videoProfile The {@link VideoProfile}.
*/
@Override
public void onSessionModifyRequestReceived(Call call, VideoProfile videoProfile) {
int videoState = videoProfile != null ? videoProfile.getVideoState() :
VideoProfile.STATE_AUDIO_ONLY;
Log.v(TAG, "onSessionModifyRequestReceived : videoProfile = " + VideoProfile
.videoStateToString(videoState));
for (CallsManagerListener listener : mListeners) {
listener.onSessionModifyRequestReceived(call, videoProfile);
}
}
Collection<Call> getCalls() {
return Collections.unmodifiableCollection(mCalls);
}
Call getForegroundCall() {
return mForegroundCall;
}
Ringer getRinger() {
return mRinger;
}
InCallController getInCallController() {
return mInCallController;
}
boolean hasEmergencyCall() {
for (Call call : mCalls) {
if (call.isEmergencyCall()) {
return true;
}
}
return false;
}
boolean hasOnlyDisconnectedCalls() {
for (Call call : mCalls) {
if (!call.isDisconnected()) {
return false;
}
}
return true;
}
boolean hasVideoCall() {
for (Call call : mCalls) {
if (VideoProfile.isVideo(call.getVideoState())) {
return true;
}
}
return false;
}
CallAudioState getAudioState() {
return mCallAudioManager.getCallAudioState();
}
boolean isTtySupported() {
return mTtyManager.isTtySupported();
}
int getCurrentTtyMode() {
return mTtyManager.getCurrentTtyMode();
}
void addListener(CallsManagerListener listener) {
mListeners.add(listener);
}
void removeListener(CallsManagerListener listener) {
mListeners.remove(listener);
}
/**
* Starts the process to attach the call to a connection service.
*
* @param phoneAccountHandle The phone account which contains the component name of the
* connection service to use for this call.
* @param extras The optional extras Bundle passed with the intent used for the incoming call.
*/
void processIncomingCallIntent(PhoneAccountHandle phoneAccountHandle, Bundle extras) {
Log.d(this, "processIncomingCallIntent");
Uri handle = extras.getParcelable(TelecomManager.EXTRA_INCOMING_CALL_ADDRESS);
if (handle == null) {
// Required for backwards compatibility
handle = extras.getParcelable(TelephonyManager.EXTRA_INCOMING_NUMBER);
}
Call call = new Call(
mContext,
this,
mLock,
mConnectionServiceRepository,
mContactsAsyncHelper,
mCallerInfoAsyncQueryFactory,
handle,
null /* gatewayInfo */,
null /* connectionManagerPhoneAccount */,
phoneAccountHandle,
true /* isIncoming */,
false /* isConference */);
call.setIntentExtras(extras);
// TODO: Move this to be a part of addCall()
call.addListener(this);
call.startCreateConnection(mPhoneAccountRegistrar);
}
void addNewUnknownCall(PhoneAccountHandle phoneAccountHandle, Bundle extras) {
Uri handle = extras.getParcelable(TelecomManager.EXTRA_UNKNOWN_CALL_HANDLE);
Log.i(this, "addNewUnknownCall with handle: %s", Log.pii(handle));
Call call = new Call(
mContext,
this,
mLock,
mConnectionServiceRepository,
mContactsAsyncHelper,
mCallerInfoAsyncQueryFactory,
handle,
null /* gatewayInfo */,
null /* connectionManagerPhoneAccount */,
phoneAccountHandle,
// Use onCreateIncomingConnection in TelephonyConnectionService, so that we attach
// to the existing connection instead of trying to create a new one.
true /* isIncoming */,
false /* isConference */);
call.setIsUnknown(true);
call.setIntentExtras(extras);
call.addListener(this);
call.startCreateConnection(mPhoneAccountRegistrar);
}
private boolean areHandlesEqual(Uri handle1, Uri handle2) {
if (handle1 == null || handle2 == null) {
return handle1 == handle2;
}
if (!TextUtils.equals(handle1.getScheme(), handle2.getScheme())) {
return false;
}
final String number1 = PhoneNumberUtils.normalizeNumber(handle1.getSchemeSpecificPart());
final String number2 = PhoneNumberUtils.normalizeNumber(handle2.getSchemeSpecificPart());
return TextUtils.equals(number1, number2);
}
private Call getNewOutgoingCall(Uri handle) {
// First check to see if we can reuse any of the calls that are waiting to disconnect.
// See {@link Call#abort} and {@link #onCanceledViaNewOutgoingCall} for more information.
Call reusedCall = null;
for (Call pendingCall : mPendingCallsToDisconnect) {
if (reusedCall == null && areHandlesEqual(pendingCall.getHandle(), handle)) {
mPendingCallsToDisconnect.remove(pendingCall);
Log.i(this, "Reusing disconnected call %s", pendingCall);
reusedCall = pendingCall;
} else {
Log.i(this, "Not reusing disconnected call %s", pendingCall);
pendingCall.disconnect();
}
}
if (reusedCall != null) {
return reusedCall;
}
// Create a call with original handle. The handle may be changed when the call is attached
// to a connection service, but in most cases will remain the same.
return new Call(
mContext,
this,
mLock,
mConnectionServiceRepository,
mContactsAsyncHelper,
mCallerInfoAsyncQueryFactory,
handle,
null /* gatewayInfo */,
null /* connectionManagerPhoneAccount */,
null /* phoneAccountHandle */,
false /* isIncoming */,
false /* isConference */);
}
/**
* Kicks off the first steps to creating an outgoing call so that InCallUI can launch.
*
* @param handle Handle to connect the call with.
* @param phoneAccountHandle The phone account which contains the component name of the
* connection service to use for this call.
* @param extras The optional extras Bundle passed with the intent used for the incoming call.
*/
Call startOutgoingCall(Uri handle, PhoneAccountHandle phoneAccountHandle, Bundle extras) {
Call call = getNewOutgoingCall(handle);
if (extras!=null) {
call.setVideoState(extras.getInt(TelecomManager.EXTRA_START_CALL_WITH_VIDEO_STATE,
VideoProfile.STATE_AUDIO_ONLY));
}
boolean isAddParticipant = ((extras != null) && (extras.getBoolean(
TelephonyProperties.ADD_PARTICIPANT_KEY, false)));
boolean isSkipSchemaOrConfUri = ((extras != null) && (extras.getBoolean(
TelephonyProperties.EXTRA_SKIP_SCHEMA_PARSING, false) ||
extras.getBoolean(TelephonyProperties.EXTRA_DIAL_CONFERENCE_URI, false)));
if (isAddParticipant) {
String number = handle.getSchemeSpecificPart();
if (!isSkipSchemaOrConfUri) {
number = PhoneNumberUtils.stripSeparators(number);
}
addParticipant(number);
mInCallController.bringToForeground(false);
return null;
}
// Force tel scheme for ims conf uri/skip schema calls to avoid selection of sip accounts
String scheme = (isSkipSchemaOrConfUri? PhoneAccount.SCHEME_TEL: handle.getScheme());
Log.d(this, "startOutgoingCall :: isAddParticipant=" + isAddParticipant
+ " isSkipSchemaOrConfUri=" + isSkipSchemaOrConfUri + " scheme=" + scheme);
List<PhoneAccountHandle> accounts =
mPhoneAccountRegistrar.getCallCapablePhoneAccounts(scheme, false);
Log.v(this, "startOutgoingCall found accounts = " + accounts);
if (mForegroundCall != null && TelephonyManager.getDefault().getMultiSimConfiguration()
!= TelephonyManager.MultiSimVariants.DSDA) {
Call ongoingCall = mForegroundCall;
// If there is an ongoing call, use the same phone account to place this new call.
// If the ongoing call is a conference call, we fetch the phone account from the
// child calls because we don't have targetPhoneAccount set on Conference calls.
// TODO: Set targetPhoneAccount for all conference calls (b/23035408).
if (ongoingCall.getTargetPhoneAccount() == null &&
!ongoingCall.getChildCalls().isEmpty()) {
ongoingCall = ongoingCall.getChildCalls().get(0);
}
if (ongoingCall.getTargetPhoneAccount() != null) {
phoneAccountHandle = ongoingCall.getTargetPhoneAccount();
}
}
// Only dial with the requested phoneAccount if it is still valid. Otherwise treat this call
// as if a phoneAccount was not specified (does the default behavior instead).
// Note: We will not attempt to dial with a requested phoneAccount if it is disabled.
if (phoneAccountHandle != null) {
if (!accounts.contains(phoneAccountHandle)) {
phoneAccountHandle = null;
}
}
if (phoneAccountHandle == null) {
// No preset account, check if default exists that supports the URI scheme for the
// handle.
phoneAccountHandle =
mPhoneAccountRegistrar.getOutgoingPhoneAccountForScheme(scheme);
}
call.setTargetPhoneAccount(phoneAccountHandle);
boolean isPotentialInCallMMICode = isPotentialInCallMMICode(handle);
// Do not support any more live calls. Our options are to move a call to hold, disconnect
// a call, or cancel this call altogether.
if (!isPotentialInCallMMICode && !makeRoomForOutgoingCall(call, call.isEmergencyCall())) {
// just cancel at this point.
Log.i(this, "No remaining room for outgoing call: %s", call);
if (mCalls.contains(call)) {
// This call can already exist if it is a reused call,
// See {@link #getNewOutgoingCall}.
call.disconnect();
}
return null;
}
boolean needsAccountSelection = phoneAccountHandle == null && accounts.size() > 1 &&
!call.isEmergencyCall();
if (needsAccountSelection) {
// This is the state where the user is expected to select an account
call.setState(CallState.SELECT_PHONE_ACCOUNT, "needs account selection");
// Create our own instance to modify (since extras may be Bundle.EMPTY)
extras = new Bundle(extras);
extras.putParcelableList(android.telecom.Call.AVAILABLE_PHONE_ACCOUNTS, accounts);
} else {
call.setState(
CallState.CONNECTING,
phoneAccountHandle == null ? "no-handle" : phoneAccountHandle.toString());
}
call.setIntentExtras(extras);
// Do not add the call if it is a potential MMI code.
if ((isPotentialMMICode(handle) || isPotentialInCallMMICode) && !needsAccountSelection) {
call.addListener(this);
} else if (!mCalls.contains(call)) {
// We check if mCalls already contains the call because we could potentially be reusing
// a call which was previously added (See {@link #getNewOutgoingCall}).
addCall(call);
}
return call;
}
/**
* Attempts to issue/connect the specified call.
*
* @param handle Handle to connect the call with.
* @param gatewayInfo Optional gateway information that can be used to route the call to the
* actual dialed handle via a gateway provider. May be null.
* @param speakerphoneOn Whether or not to turn the speakerphone on once the call connects.
* @param videoState The desired video state for the outgoing call.
*/
void placeOutgoingCall(Call call, Uri handle, GatewayInfo gatewayInfo, boolean speakerphoneOn,
int videoState) {
if (call == null) {
// don't do anything if the call no longer exists
Log.i(this, "Canceling unknown call.");
return;
}
final Uri uriHandle = (gatewayInfo == null) ? handle : gatewayInfo.getGatewayAddress();
if (gatewayInfo == null) {
Log.i(this, "Creating a new outgoing call with handle: %s", Log.piiHandle(uriHandle));
} else {
Log.i(this, "Creating a new outgoing call with gateway handle: %s, original handle: %s",
Log.pii(uriHandle), Log.pii(handle));
}
call.setHandle(uriHandle);
call.setGatewayInfo(gatewayInfo);
// Auto-enable speakerphone if the originating intent specified to do so, or if the call
// is a video call or if the phone is docked.
call.setStartWithSpeakerphoneOn(speakerphoneOn || isSpeakerphoneAutoEnabled(videoState)
|| mDockManager.isDocked());
call.setVideoState(videoState);
if (call.isEmergencyCall()) {
// Emergency -- CreateConnectionProcessor will choose accounts automatically
call.setTargetPhoneAccount(null);
}
if (call.getTargetPhoneAccount() != null || call.isEmergencyCall()) {
if (!call.isEmergencyCall()) {
updateLchStatus(call.getTargetPhoneAccount().getId());
}
// If the account has been set, proceed to place the outgoing call.
// Otherwise the connection will be initiated when the account is set by the user.
call.startCreateConnection(mPhoneAccountRegistrar);
}
}
/**
* Attempts to add participant in a call.
*
* @param number number to connect the call with.
*/
private void addParticipant(String number) {
Log.i(this, "addParticipant number ="+number);
if (getForegroundCall() == null) {
// don't do anything if the call no longer exists
Log.i(this, "Canceling unknown call.");
return;
} else {
getForegroundCall().addParticipantWithConference(number);
}
}
/**
* Attempts to start a conference call for the specified call.
*
* @param call The call to conference.
* @param otherCall The other call to conference with.
*/
void conference(Call call, Call otherCall) {
call.conferenceWith(otherCall);
}
/**
* Instructs Telecom to answer the specified call. Intended to be invoked by the in-call
* app through {@link InCallAdapter} after Telecom notifies it of an incoming call followed by
* the user opting to answer said call.
*
* @param call The call to answer.
* @param videoState The video state in which to answer the call.
*/
void answerCall(Call call, int videoState) {
if (!mCalls.contains(call)) {
Log.i(this, "Request to answer a non-existent call %s", call);
} else {
Call activeCall = getFirstCallWithState(call.getTargetPhoneAccount()
.getId(), CallState.ACTIVE, CallState.DIALING);
// If the foreground call is not the ringing call and it is currently isActive() or
// STATE_DIALING, put it on hold before answering the call.
if (activeCall != null && activeCall != call &&
(activeCall.isActive() ||
activeCall.getState() == CallState.DIALING)) {
if (0 == (mForegroundCall.getConnectionCapabilities()
& Connection.CAPABILITY_HOLD)) {
// This call does not support hold. If it is from a different connection
// service, then disconnect it, otherwise allow the connection service to
// figure out the right states.
if (activeCall.getConnectionService() != call.getConnectionService()) {
activeCall.disconnect();
}
} else {
Call heldCall = getHeldCall();
if (heldCall != null) {
Log.v(this, "Disconnecting held call %s before holding active call.",
heldCall);
heldCall.disconnect();
}
Log.v(this, "Holding active/dialing call %s before answering incoming call %s.",
mForegroundCall, call);
activeCall.hold();
}
// TODO: Wait until we get confirmation of the active call being
// on-hold before answering the new call.
// TODO: Import logic from CallManager.acceptCall()
}
for (CallsManagerListener listener : mListeners) {
listener.onIncomingCallAnswered(call);
}
updateLchStatus(call.getTargetPhoneAccount().getId());
// We do not update the UI until we get confirmation of the answer() through
// {@link #markCallAsActive}.
call.answer(videoState);
if (isSpeakerphoneAutoEnabled(videoState)) {
call.setStartWithSpeakerphoneOn(true);
}
}
}
/**
* Determines if the speakerphone should be automatically enabled for the call. Speakerphone
* should be enabled if the call is a video call and bluetooth or the wired headset are not in
* use.
*
* @param videoState The video state of the call.
* @return {@code true} if the speakerphone should be enabled.
*/
private boolean isSpeakerphoneAutoEnabled(int videoState) {
return VideoProfile.isVideo(videoState) &&
!mWiredHeadsetManager.isPluggedIn() &&
!mCallAudioManager.isBluetoothDeviceAvailable() &&
isSpeakerEnabledForVideoCalls();
}
/**
* Determines if the speakerphone should be automatically enabled for video calls.
*
* @return {@code true} if the speakerphone should automatically be enabled.
*/
private static boolean isSpeakerEnabledForVideoCalls() {
return (SystemProperties.getInt(TelephonyProperties.PROPERTY_VIDEOCALL_AUDIO_OUTPUT,
PhoneConstants.AUDIO_OUTPUT_DEFAULT) ==
PhoneConstants.AUDIO_OUTPUT_ENABLE_SPEAKER);
}
/**
* Instructs Telecom to reject the specified call. Intended to be invoked by the in-call
* app through {@link InCallAdapter} after Telecom notifies it of an incoming call followed by
* the user opting to reject said call.
*/
void rejectCall(Call call, boolean rejectWithMessage, String textMessage) {
if (!mCalls.contains(call)) {
Log.i(this, "Request to reject a non-existent call %s", call);
} else {
for (CallsManagerListener listener : mListeners) {
listener.onIncomingCallRejected(call, rejectWithMessage, textMessage);
}
setActiveSubscription(getConversationSub());
call.reject(rejectWithMessage, textMessage);
}
}
/**
* Instructs Telecom to play the specified DTMF tone within the specified call.
*
* @param digit The DTMF digit to play.
*/
void playDtmfTone(Call call, char digit) {
if (!mCalls.contains(call)) {
Log.i(this, "Request to play DTMF in a non-existent call %s", call);
} else {
call.playDtmfTone(digit);
mDtmfLocalTonePlayer.playTone(call, digit);
}
}
/**
* Instructs Telecom to stop the currently playing DTMF tone, if any.
*/
void stopDtmfTone(Call call) {
if (!mCalls.contains(call)) {
Log.i(this, "Request to stop DTMF in a non-existent call %s", call);
} else {
call.stopDtmfTone();
mDtmfLocalTonePlayer.stopTone(call);
}
}
/**
* Instructs Telecom to continue (or not) the current post-dial DTMF string, if any.
*/
void postDialContinue(Call call, boolean proceed) {
if (!mCalls.contains(call)) {
Log.i(this, "Request to continue post-dial string in a non-existent call %s", call);
} else {
call.postDialContinue(proceed);
}
}
/**
* Instructs Telecom to disconnect the specified call. Intended to be invoked by the
* in-call app through {@link InCallAdapter} for an ongoing call. This is usually triggered by
* the user hitting the end-call button.
*/
void disconnectCall(Call call) {
Log.v(this, "disconnectCall %s", call);
if (!mCalls.contains(call)) {
Log.w(this, "Unknown call (%s) asked to disconnect", call);
} else {
mLocallyDisconnectingCalls.add(call);
call.disconnect();
}
}
/**
* Instructs Telecom to disconnect all calls.
*/
void disconnectAllCalls() {
Log.v(this, "disconnectAllCalls");
for (Call call : mCalls) {
disconnectCall(call);
}
}
/**
* Instructs Telecom to put the specified call on hold. Intended to be invoked by the
* in-call app through {@link InCallAdapter} for an ongoing call. This is usually triggered by
* the user hitting the hold button during an active call.
*/
void holdCall(Call call) {
if (!mCalls.contains(call)) {
Log.w(this, "Unknown call (%s) asked to be put on hold", call);
} else {
Log.d(this, "Putting call on hold: (%s)", call);
call.hold();
}
}
/**
* Instructs Telecom to release the specified call from hold. Intended to be invoked by
* the in-call app through {@link InCallAdapter} for an ongoing call. This is usually triggered
* by the user hitting the hold button during a held call.
*/
void unholdCall(Call call) {
if (!mCalls.contains(call)) {
Log.w(this, "Unknown call (%s) asked to be removed from hold", call);
} else {
Log.d(this, "unholding call: (%s)", call);
for (Call c : mCalls) {
PhoneAccountHandle ph = call.getTargetPhoneAccount();
PhoneAccountHandle ph1 = c.getTargetPhoneAccount();
// Only attempt to hold parent calls and not the individual children.
// if 'c' is not for same subscription as call, then don't disturb 'c'
if (c != null && c.isAlive() && c != call && c.getParentCall() == null
&& (ph != null && ph1 != null &&
isSamePhAccIdOrSipId(ph.getId(), ph1.getId()))) {
c.hold();
}
}
call.unhold();
}
}
/**
* Returns true if the ids are same or one of the ids is sip id.
*/
private boolean isSamePhAccIdOrSipId(String id1, String id2) {
boolean ret = ((id1 != null && id2 != null) &&
(id1.equals(id2) || id1.contains("sip") || id2.contains("sip")));
Log.d(this, "isSamePhAccIdOrSipId: id1 = " + id1 + " id2 = " + id2 + " ret = " + ret);
return ret;
}
/** Called by the in-call UI to change the mute state. */
void mute(boolean shouldMute) {
mCallAudioManager.mute(shouldMute);
}
/**
* Called by the in-call UI to change the audio route, for example to change from earpiece to
* speaker phone.
*/
void setAudioRoute(int route) {
Log.d(this, "Audio routed by user");
mCallAudioManager.mUserSetAudioRoute = true;
mCallAudioManager.setAudioRoute(route);
mCallAudioManager.mUserSetAudioRoute = false;
}
/** Called by the in-call UI to turn the proximity sensor on. */
void turnOnProximitySensor() {
mProximitySensorManager.turnOn();
}
/**
* Called by the in-call UI to turn the proximity sensor off.
* @param screenOnImmediately If true, the screen will be turned on immediately. Otherwise,
* the screen will be kept off until the proximity sensor goes negative.
*/
void turnOffProximitySensor(boolean screenOnImmediately) {
mProximitySensorManager.turnOff(screenOnImmediately);
}
void phoneAccountSelected(Call call, PhoneAccountHandle account, boolean setDefault) {
if (!mCalls.contains(call)) {
Log.i(this, "Attempted to add account to unknown call %s", call);
} else {
// TODO: There is an odd race condition here. Since NewOutgoingCallIntentBroadcaster and
// the SELECT_PHONE_ACCOUNT sequence run in parallel, if the user selects an account before the
// NEW_OUTGOING_CALL sequence finishes, we'll start the call immediately without
// respecting a rewritten number or a canceled number. This is unlikely since
// NEW_OUTGOING_CALL sequence, in practice, runs a lot faster than the user selecting
// a phone account from the in-call UI.
Log.i(this, "phoneAccountSelected , id = %s", account.getId());
updateLchStatus(account.getId());
call.setTargetPhoneAccount(account);
// Note: emergency calls never go through account selection dialog so they never
// arrive here.
if (makeRoomForOutgoingCall(call, false /* isEmergencyCall */)) {
call.startCreateConnection(mPhoneAccountRegistrar);
} else {
call.disconnect();
}
if (setDefault) {
mPhoneAccountRegistrar.setUserSelectedOutgoingPhoneAccount(account);
}
}
}
/** Called when the audio state changes. */
void onCallAudioStateChanged(CallAudioState oldAudioState, CallAudioState newAudioState) {
Log.v(this, "onAudioStateChanged, audioState: %s -> %s", oldAudioState, newAudioState);
for (CallsManagerListener listener : mListeners) {
listener.onCallAudioStateChanged(oldAudioState, newAudioState);
}
}
void markCallAsRinging(Call call) {
setCallState(call, CallState.RINGING, "ringing set explicitly");
}
void markCallAsDialing(Call call) {
setCallState(call, CallState.DIALING, "dialing set explicitly");
maybeMoveToEarpiece(call);
maybeMoveToSpeakerPhone(call);
setActiveSubscription(call.getTargetPhoneAccount().getId());
}
void markCallAsActive(Call call) {
setCallState(call, CallState.ACTIVE, "active set explicitly");
maybeMoveToSpeakerPhone(call);
}
void markCallAsOnHold(Call call) {
setCallState(call, CallState.ON_HOLD, "on-hold set explicitly");
}
/**
* Marks the specified call as STATE_DISCONNECTED and notifies the in-call app. If this was the
* last live call, then also disconnect from the in-call controller.
*
* @param disconnectCause The disconnect cause, see {@link android.telecom.DisconnectCause}.
*/
void markCallAsDisconnected(Call call, DisconnectCause disconnectCause) {
// Show MT call in call log as a missed call if immediately disconnected
// before creating a connection.
if (!mCalls.contains(call) && (DisconnectCause.MISSED == disconnectCause.getCode())) {
addCall(call);
mMissedCallNotifier.showMissedCallNotification(call);
}
call.setDisconnectCause(disconnectCause);
int prevState = call.getState();
setCallState(call, CallState.DISCONNECTED, "disconnected set explicitly");
String activeSub = getActiveSubscription();
String conversationSub = getConversationSub();
String lchSub = IsAnySubInLch();
PhoneAccount phAcc =
getPhoneAccountRegistrar().getPhoneAccount(call.getTargetPhoneAccount());
if (activeSub != null && (call.getTargetPhoneAccount() != null &&
call.getTargetPhoneAccount().getId().equals(activeSub)) &&
(phAcc != null) && (phAcc.isSet(PhoneAccount.LCH)) &&
(conversationSub != null) &&
(!conversationSub.equals(activeSub))) {
Log.d(this,"Set active sub to conversation sub");
setActiveSubscription(conversationSub);
} else if ((conversationSub == null) && (lchSub != null) &&
((prevState == CallState.CONNECTING) || (prevState ==
CallState.SELECT_PHONE_ACCOUNT)) &&
(call.getState() == CallState.DISCONNECTED)) {
Log.d(this,"remove sub with call from LCH");
updateLchStatus(lchSub);
setActiveSubscription(lchSub);
manageDsdaInCallTones(false);
}
if ((call.getTargetPhoneAccount() != null) && (phAcc != null) &&
(phAcc.isSet(PhoneAccount.LCH))) {
Call activecall = getFirstCallWithState(call.getTargetPhoneAccount().getId(),
CallState.RINGING, CallState.DIALING, CallState.ACTIVE, CallState.ON_HOLD);
Log.d(this,"activecall: " + activecall);
if (activecall == null) {
phAcc.unSetBit(PhoneAccount.LCH);
manageDsdaInCallTones(false);
}
}
}
private String IsAnySubInLch() {
for (PhoneAccountHandle ph : getPhoneAccountRegistrar().getSimPhoneAccounts()) {
PhoneAccount phAcc = getPhoneAccountRegistrar().getPhoneAccount(ph);
if ((phAcc != null) && (phAcc.isSet(PhoneAccount.LCH))) {
Log.d(this, "Sub in LCH: " + ph.getId());
return ph.getId();
}
}
return null;
}
/**
* Removes an existing disconnected call, and notifies the in-call app.
*/
void markCallAsRemoved(Call call) {
removeCall(call);
if (!hasAnyCalls()) {
updateLchStatus(null);
setActiveSubscription(null);
manageDsdaInCallTones(false);
}
if (mLocallyDisconnectingCalls.contains(call)) {
mLocallyDisconnectingCalls.remove(call);
if (mForegroundCall != null && mForegroundCall.getState() == CallState.ON_HOLD) {
mForegroundCall.unhold();
}
}
}
/**
* Cleans up any calls currently associated with the specified connection service when the
* service binder disconnects unexpectedly.
*
* @param service The connection service that disconnected.
*/
void handleConnectionServiceDeath(ConnectionServiceWrapper service) {
if (service != null) {
for (Call call : mCalls) {
if (call.getConnectionService() == service) {
if (call.getState() != CallState.DISCONNECTED) {
markCallAsDisconnected(call, new DisconnectCause(DisconnectCause.ERROR));
}
markCallAsRemoved(call);
}
}
}
}
boolean hasAnyCalls() {
return !mCalls.isEmpty();
}
boolean hasActiveOrHoldingCall() {
return getFirstCallWithState(CallState.ACTIVE, CallState.ON_HOLD) != null;
}
boolean hasActiveOrHoldingCall(String sub) {
return (getFirstCallWithState(sub, CallState.ACTIVE, CallState.ON_HOLD) != null);
}
boolean hasRingingCall() {
return getFirstCallWithState(CallState.RINGING) != null;
}
boolean onMediaButton(int type) {
if (hasAnyCalls()) {
if (HeadsetMediaButton.SHORT_PRESS == type) {
Call ringingCall = getFirstCallWithState(CallState.RINGING);
if (ringingCall == null) {
mCallAudioManager.toggleMute();
return true;
} else {
ringingCall.answer(ringingCall.getVideoState());
return true;
}
} else if (HeadsetMediaButton.LONG_PRESS == type) {
Log.d(this, "handleHeadsetHook: longpress -> hangup");
Call callToHangup = getFirstCallWithState(
CallState.RINGING, CallState.DIALING, CallState.ACTIVE, CallState.ON_HOLD);
if (callToHangup != null) {
callToHangup.disconnect();
return true;
}
}
}
return false;
}
/**
* Returns true if telecom supports adding another top-level call.
*/
boolean canAddCall() {
boolean isDeviceProvisioned = Settings.Global.getInt(mContext.getContentResolver(),
Settings.Global.DEVICE_PROVISIONED, 0) != 0;
if (!isDeviceProvisioned) {
Log.d(TAG, "Device not provisioned, canAddCall is false.");
return false;
}
if (getFirstCallWithState(OUTGOING_CALL_STATES) != null) {
return false;
}
int count = 0;
for (Call call : mCalls) {
if (call.isEmergencyCall()) {
// We never support add call if one of the calls is an emergency call.
return false;
} else if (!call.getChildCalls().isEmpty() && !call.can(Connection.CAPABILITY_HOLD)) {
// This is to deal with CDMA conference calls. CDMA conference calls do not
// allow the addition of another call when it is already in a 3 way conference.
// So, we detect that it is a CDMA conference call by checking if the call has
// some children and it does not support the CAPABILILTY_HOLD
// TODO: This maybe cleaner if the lower layers can explicitly signal to telecom
// about this limitation (b/22880180).
return false;
} else if (call.getParentCall() == null) {
count++;
}
// We do not check states for canAddCall. We treat disconnected calls the same
// and wait until they are removed instead. If we didn't count disconnected calls,
// we could put InCallServices into a state where they are showing two calls but
// also support add-call. Technically it's right, but overall looks better (UI-wise)
// and acts better if we wait until the call is removed.
if (TelephonyManager.getDefault().getMultiSimConfiguration()
== TelephonyManager.MultiSimVariants.DSDA) {
if (count >= MAXIMUM_DSDA_TOP_LEVEL_CALLS) {
return false;
}
} else if (count >= MAXIMUM_TOP_LEVEL_CALLS) {
return false;
}
}
return true;
}
@VisibleForTesting
public Call getRingingCall() {
return getFirstCallWithState(CallState.RINGING);
}
Call getActiveCall() {
return getFirstCallWithState(CallState.ACTIVE);
}
Call getDialingCall() {
return getFirstCallWithState(CallState.DIALING);
}
Call getHeldCall() {
return getFirstCallWithState(CallState.ON_HOLD);
}
int getNumHeldCalls() {
int count = 0;
for (Call call : mCalls) {
if (call.getParentCall() == null && call.getState() == CallState.ON_HOLD) {
count++;
}
}
return count;
}
int getNumTopLevelCalls() {
int count = 0;
for (Call call : mCalls) {
if (call.getParentCall() == null) {
count++;
}
}
return count;
}
Call getOutgoingCall() {
return getFirstCallWithState(OUTGOING_CALL_STATES);
}
Call getFirstCallWithState(int... states) {
return getFirstCallWithState((Call) null, states);
}
/**
* Returns the first call that it finds with the given states. The states are treated as having
* priority order so that any call with the first state will be returned before any call with
* states listed later in the parameter list.
*
* @param callToSkip Call that this method should skip while searching
*/
Call getFirstCallWithState(Call callToSkip, int... states) {
for (int currentState : states) {
// check the foreground first
if (mForegroundCall != null && mForegroundCall.getState() == currentState) {
return mForegroundCall;
}
for (Call call : mCalls) {
if (Objects.equals(callToSkip, call)) {
continue;
}
// Only operate on top-level calls
if (call.getParentCall() != null) {
continue;
}
if (currentState == call.getState()) {
return call;
}
}
}
return null;
}
/**
* Returns the first call that it finds with the given states for given subscription.
* the states are treated as having priority order so that any call with the first
* state will be returned before any call with states listed later in the parameter list.
*
* @param subId check calls only on this subscription
* @param callToSkip Call that this method should skip while searching
*/
Call getFirstCallWithState(String subId, Call callToSkip, int... states) {
for (int currentState : states) {
// check the foreground first
if (mForegroundCall != null && mForegroundCall.getState() == currentState
&& mForegroundCall.getTargetPhoneAccount() != null
&& isSamePhAccIdOrSipId(mForegroundCall.getTargetPhoneAccount().getId(), subId)) {
return mForegroundCall;
}
for (Call call : mCalls) {
if (Objects.equals(callToSkip, call)) {
continue;
}
// Only operate on top-level calls
if (call.getParentCall() != null) {
continue;
}
if (currentState == call.getState() && call.getTargetPhoneAccount() != null
&& isSamePhAccIdOrSipId(call.getTargetPhoneAccount().getId(), subId)) {
return call;
}
}
}
return null;
}
Call createConferenceCall(
PhoneAccountHandle phoneAccount,
ParcelableConference parcelableConference) {
// If the parceled conference specifies a connect time, use it; otherwise default to 0,
// which is the default value for new Calls.
long connectTime =
parcelableConference.getConnectTimeMillis() ==
Conference.CONNECT_TIME_NOT_SPECIFIED ? 0 :
parcelableConference.getConnectTimeMillis();
Call call = new Call(
mContext,
this,
mLock,
mConnectionServiceRepository,
mContactsAsyncHelper,
mCallerInfoAsyncQueryFactory,
null /* handle */,
null /* gatewayInfo */,
null /* connectionManagerPhoneAccount */,
phoneAccount,
false /* isIncoming */,
true /* isConference */,
connectTime);
setCallState(call, Call.getStateFromConnectionState(parcelableConference.getState()),
"new conference call");
call.setConnectionCapabilities(parcelableConference.getConnectionCapabilities());
call.setVideoState(parcelableConference.getVideoState());
call.setVideoProvider(parcelableConference.getVideoProvider());
call.setStatusHints(parcelableConference.getStatusHints());
call.setExtras(parcelableConference.getExtras());
// TODO: Move this to be a part of addCall()
call.addListener(this);
addCall(call);
return call;
}
/**
* @return the call state currently tracked by {@link PhoneStateBroadcaster}
*/
int getCallState() {
return mPhoneStateBroadcaster.getCallState();
}
/**
* Retrieves the {@link PhoneAccountRegistrar}.
*
* @return The {@link PhoneAccountRegistrar}.
*/
PhoneAccountRegistrar getPhoneAccountRegistrar() {
return mPhoneAccountRegistrar;
}
/**
* Retrieves the {@link MissedCallNotifier}
* @return The {@link MissedCallNotifier}.
*/
MissedCallNotifier getMissedCallNotifier() {
return mMissedCallNotifier;
}
/**
* Adds the specified call to the main list of live calls.
*
* @param call The call to add.
*/
private void addCall(Call call) {
Trace.beginSection("addCall");
Log.v(this, "addCall(%s)", call);
call.addListener(this);
mCalls.add(call);
// TODO: Update mForegroundCall prior to invoking
// onCallAdded for calls which immediately take the foreground (like the first call).
for (CallsManagerListener listener : mListeners) {
if (Log.SYSTRACE_DEBUG) {
Trace.beginSection(listener.getClass().toString() + " addCall");
}
listener.onCallAdded(call);
if (Log.SYSTRACE_DEBUG) {
Trace.endSection();
}
}
updateCallsManagerState();
Trace.endSection();
}
private void removeCall(Call call) {
Trace.beginSection("removeCall");
Log.v(this, "removeCall(%s)", call);
call.setParentCall(null); // need to clean up parent relationship before destroying.
call.removeListener(this);
call.clearConnectionService();
boolean shouldNotify = false;
if (mCalls.contains(call)) {
mCalls.remove(call);
shouldNotify = true;
}
call.destroy();
// Only broadcast changes for calls that are being tracked.
if (shouldNotify) {
for (CallsManagerListener listener : mListeners) {
if (Log.SYSTRACE_DEBUG) {
Trace.beginSection(listener.getClass().toString() + " onCallRemoved");
}
listener.onCallRemoved(call);
if (Log.SYSTRACE_DEBUG) {
Trace.endSection();
}
}
updateCallsManagerState();
}
Trace.endSection();
}
/**
* Sets the specified state on the specified call.
*
* @param call The call.
* @param newState The new state of the call.
*/
private void setCallState(Call call, int newState, String tag) {
if (call == null) {
return;
}
int oldState = call.getState();
Log.i(this, "setCallState %s -> %s, call: %s", CallState.toString(oldState),
CallState.toString(newState), call);
if (newState != oldState) {
// Unfortunately, in the telephony world the radio is king. So if the call notifies
// us that the call is in a particular state, we allow it even if it doesn't make
// sense (e.g., STATE_ACTIVE -> STATE_RINGING).
// TODO: Consider putting a stop to the above and turning CallState
// into a well-defined state machine.
// TODO: Define expected state transitions here, and log when an
// unexpected transition occurs.
call.setState(newState, tag);
Trace.beginSection("onCallStateChanged");
// Only broadcast state change for calls that are being tracked.
if (mCalls.contains(call)) {
for (CallsManagerListener listener : mListeners) {
if (Log.SYSTRACE_DEBUG) {
Trace.beginSection(listener.getClass().toString() + " onCallStateChanged");
}
listener.onCallStateChanged(call, oldState, newState);
if (Log.SYSTRACE_DEBUG) {
Trace.endSection();
}
}
updateCallsManagerState();
}
Trace.endSection();
}
manageDsdaInCallTones(false);
}
/**
* Checks which call should be visible to the user and have audio focus.
*/
private void updateForegroundCall() {
Trace.beginSection("updateForegroundCall");
Call newForegroundCall = null;
// TODO: Foreground-ness needs to be explicitly set. No call, regardless
// of its state will be foreground by default and instead the connection service should
// be notified when its calls enter and exit foreground state. Foreground will mean that
// the call should play audio and listen to microphone if it wants.
if (TelephonyManager.getDefault().getMultiSimConfiguration()
== TelephonyManager.MultiSimVariants.DSDA) {
String lchSub = getLchSub();
for (Call call : mCalls) {
// Only top-level calls can be in foreground
if (call.getParentCall() != null) {
continue;
}
PhoneAccountHandle ph = call.getTargetPhoneAccount();
if (ph != null && ph.getId().equals(lchSub)) continue;
// Active calls have priority.
if (call.isActive()) {
newForegroundCall = call;
break;
}
// If only call in call list is held call it's also a foreground call
if (getNumTopLevelCalls() == 1 && call.getState() == CallState.ON_HOLD) {
newForegroundCall = call;
}
if ((call.isAlive() && call.getState() != CallState.ON_HOLD)
|| call.getState() == CallState.RINGING) {
newForegroundCall = call;
// Don't break in case there's an active call that has priority.
}
}
// if active sub doesn't have any calls, then consider calls on all subs,
// which ever call is active set that as foreground call. give more priority
// to ringing call on LCH sub over active call.
if (newForegroundCall == null) {
newForegroundCall = getFirstCallWithState(CallState.RINGING);
if (newForegroundCall == null) {
newForegroundCall = getFirstCallWithState(CallState.ACTIVE);
}
}
} else {
for (Call call : mCalls) {
// Only top-level calls can be in foreground
if (call.getParentCall() != null) {
continue;
}
// Active calls have priority.
if (call.isActive()) {
newForegroundCall = call;
break;
}
// If only call in call list is held call it's also a foreground call
if (getNumTopLevelCalls() == 1 && call.getState() == CallState.ON_HOLD) {
newForegroundCall = call;
}
if ((call.isAlive() && call.getState() != CallState.ON_HOLD)
|| call.getState() == CallState.RINGING) {
newForegroundCall = call;
// Don't break in case there's an active call that has priority.
}
}
}
/* In the case where there are 2 calls, when the Hold button is pressed for active
* call, as an intermediate state we would have both calls in held state before
* the background call is moved to active state. In such an intermediate stage
* updating the newForegroundCall to null causes issues with abandoning audio
* focus. Skip updating the foreground call with null in such cases. */
if (newForegroundCall == null && getFirstCallWithState(CallState.ON_HOLD) != null) {
Log.v(this, "Skip updating foreground call in intermediate stage");
newForegroundCall = mForegroundCall;
}
if (newForegroundCall != mForegroundCall) {
Log.v(this, "Updating foreground call, %s -> %s.", mForegroundCall, newForegroundCall);
Call oldForegroundCall = mForegroundCall;
mForegroundCall = newForegroundCall;
for (CallsManagerListener listener : mListeners) {
if (Log.SYSTRACE_DEBUG) {
Trace.beginSection(listener.getClass().toString() + " updateForegroundCall");
}
listener.onForegroundCallChanged(oldForegroundCall, mForegroundCall);
if (Log.SYSTRACE_DEBUG) {
Trace.endSection();
}
}
}
Trace.endSection();
}
private void updateCanAddCall() {
boolean newCanAddCall = canAddCall();
if (newCanAddCall != mCanAddCall) {
mCanAddCall = newCanAddCall;
for (CallsManagerListener listener : mListeners) {
if (Log.SYSTRACE_DEBUG) {
Trace.beginSection(listener.getClass().toString() + " updateCanAddCall");
}
listener.onCanAddCallChanged(mCanAddCall);
if (Log.SYSTRACE_DEBUG) {
Trace.endSection();
}
}
}
}
private void updateCallsManagerState() {
updateForegroundCall();
updateCanAddCall();
}
private boolean isPotentialMMICode(Uri handle) {
return (handle != null && handle.getSchemeSpecificPart() != null
&& handle.getSchemeSpecificPart().contains("#"));
}
/**
* Determines if a dialed number is potentially an In-Call MMI code. In-Call MMI codes are
* MMI codes which can be dialed when one or more calls are in progress.
* <P>
* Checks for numbers formatted similar to the MMI codes defined in:
* {@link com.android.internal.telephony.gsm.GSMPhone#handleInCallMmiCommands(String)}
* and
* {@link com.android.internal.telephony.imsphone.ImsPhone#handleInCallMmiCommands(String)}
*
* @param handle The URI to call.
* @return {@code True} if the URI represents a number which could be an in-call MMI code.
*/
private boolean isPotentialInCallMMICode(Uri handle) {
if (handle != null && handle.getSchemeSpecificPart() != null &&
handle.getScheme().equals(PhoneAccount.SCHEME_TEL)) {
String dialedNumber = handle.getSchemeSpecificPart();
return (dialedNumber.equals("0") ||
(dialedNumber.startsWith("1") && dialedNumber.length() <= 2) ||
(dialedNumber.startsWith("2") && dialedNumber.length() <= 2) ||
dialedNumber.equals("3") ||
dialedNumber.equals("4") ||
dialedNumber.equals("5"));
}
return false;
}
private int getNumCallsWithState(int... states) {
int count = 0;
for (int state : states) {
for (Call call : mCalls) {
if (call.getParentCall() == null && call.getState() == state) {
count++;
}
}
}
return count;
}
private int getNumCallsWithState(String subId, int... states) {
int count = 0;
for (int state : states) {
for (Call call : mCalls) {
if (call.getParentCall() == null && call.getState() == state
&& call.getTargetPhoneAccount() != null
&& isSamePhAccIdOrSipId(call.getTargetPhoneAccount().getId(), subId)) {
count++;
}
}
}
return count;
}
private boolean hasMaximumLiveCalls() {
return MAXIMUM_LIVE_CALLS <= getNumCallsWithState(LIVE_CALL_STATES);
}
private boolean hasMaximumLiveCalls(String subId) {
return MAXIMUM_LIVE_CALLS <= getNumCallsWithState(subId, LIVE_CALL_STATES);
}
private boolean hasMaximumHoldingCalls() {
return MAXIMUM_HOLD_CALLS <= getNumCallsWithState(CallState.ON_HOLD);
}
private boolean hasMaximumHoldingCalls(String subId) {
return MAXIMUM_HOLD_CALLS <= getNumCallsWithState(subId, CallState.ON_HOLD);
}
private boolean hasMaximumRingingCalls() {
return MAXIMUM_RINGING_CALLS <= getNumCallsWithState(CallState.RINGING);
}
private boolean hasMaximumRingingCalls(String subId) {
return MAXIMUM_RINGING_CALLS <= getNumCallsWithState(subId, CallState.RINGING);
}
private boolean hasMaximumOutgoingCalls() {
return MAXIMUM_OUTGOING_CALLS <= getNumCallsWithState(OUTGOING_CALL_STATES);
}
private boolean hasMaximumDialingCalls() {
return MAXIMUM_DIALING_CALLS <= getNumCallsWithState(CallState.DIALING);
}
private boolean makeRoomForOutgoingCall(Call call, boolean isEmergency) {
if (TelephonyManager.getDefault().getMultiSimConfiguration()
== TelephonyManager.MultiSimVariants.DSDA) {
return makeRoomForOutgoingCallForDsda(call, isEmergency);
}
if (hasMaximumLiveCalls()) {
// NOTE: If the amount of live calls changes beyond 1, this logic will probably
// have to change.
Call liveCall = getFirstCallWithState(call, LIVE_CALL_STATES);
Log.i(this, "makeRoomForOutgoingCall call = " + call + " livecall = " +
liveCall);
if (call == liveCall) {
// If the call is already the foreground call, then we are golden.
// This can happen after the user selects an account in the SELECT_PHONE_ACCOUNT
// state since the call was already populated into the list.
return true;
}
if (hasMaximumOutgoingCalls()) {
Call outgoingCall = getFirstCallWithState(OUTGOING_CALL_STATES);
if (isEmergency && !outgoingCall.isEmergencyCall()) {
// Disconnect the current outgoing call if it's not an emergency call. If the
// user tries to make two outgoing calls to different emergency call numbers,
// we will try to connect the first outgoing call.
outgoingCall.disconnect();
return true;
}
if (outgoingCall.getState() == CallState.SELECT_PHONE_ACCOUNT) {
// If there is an orphaned call in the {@link CallState#SELECT_PHONE_ACCOUNT}
// state, just disconnect it since the user has explicitly started a new call.
outgoingCall.disconnect();
return true;
}
return false;
}
if (hasMaximumHoldingCalls()) {
// There is no more room for any more calls, unless it's an emergency.
if (isEmergency) {
// Kill the current active call, this is easier then trying to disconnect a
// holding call and hold an active call.
liveCall.disconnect();
return true;
}
return false; // No more room!
}
// We have room for at least one more holding call at this point.
// TODO: Remove once b/23035408 has been corrected.
// If the live call is a conference, it will not have a target phone account set. This
// means the check to see if the live call has the same target phone account as the new
// call will not cause us to bail early. As a result, we'll end up holding the
// ongoing conference call. However, the ConnectionService is already doing that. This
// has caused problems with some carriers. As a workaround until b/23035408 is
// corrected, we will try and get the target phone account for one of the conference's
// children and use that instead.
PhoneAccountHandle liveCallPhoneAccount = liveCall.getTargetPhoneAccount();
if (liveCallPhoneAccount == null && liveCall.isConference() &&
!liveCall.getChildCalls().isEmpty()) {
liveCallPhoneAccount = getFirstChildPhoneAccount(liveCall);
Log.i(this, "makeRoomForOutgoingCall: using child call PhoneAccount = " +
liveCallPhoneAccount);
}
// First thing, if we are trying to make a call with the same phone account as the live
// call, then allow it so that the connection service can make its own decision about
// how to handle the new call relative to the current one.
if (Objects.equals(liveCallPhoneAccount, call.getTargetPhoneAccount())) {
Log.i(this, "makeRoomForOutgoingCall: phoneAccount matches.");
return true;
} else if (call.getTargetPhoneAccount() == null) {
// Without a phone account, we can't say reliably that the call will fail.
// If the user chooses the same phone account as the live call, then it's
// still possible that the call can be made (like with CDMA calls not supporting
// hold but they still support adding a call by going immediately into conference
// mode). Return true here and we'll run this code again after user chooses an
// account.
return true;
}
// Try to hold the live call before attempting the new outgoing call.
if (liveCall.can(Connection.CAPABILITY_HOLD)) {
Log.i(this, "makeRoomForOutgoingCall: holding live call.");
liveCall.hold();
return true;
}
// The live call cannot be held so we're out of luck here. There's no room.
return false;
}
return true;
}
private boolean makeRoomForOutgoingCallForDsda(Call call, boolean isEmergency) {
if (isEmergency || (call.getState() == CallState.SELECT_PHONE_ACCOUNT)) {
return true;
}
PhoneAccountHandle phAcc = call.getTargetPhoneAccount();
if (phAcc == null) {
if (getNumCallsWithState(LIVE_CALL_STATES) == MAXIMUM_DSDA_LIVE_CALLS
&& getNumCallsWithState(CallState.ON_HOLD) == MAXIMUM_DSDA_HOLD_CALLS) {
return false;
} else {
return true;
}
}
if (hasMaximumLiveCalls(phAcc.getId())) {
// NOTE: If the amount of live calls changes beyond 1, this logic will probably
// have to change.
Call liveCall = getFirstCallWithState(phAcc.getId(), call, LIVE_CALL_STATES);
if (hasMaximumHoldingCalls(phAcc.getId())) {
// There is no more room for any more calls, unless it's an emergency.
return false; // No more room!
}
if (Objects.equals(liveCall.getTargetPhoneAccount(), call.getTargetPhoneAccount())) {
return true;
}
// Try to hold the live call before attempting the new outgoing call.
if (liveCall.can(Connection.CAPABILITY_HOLD)) {
liveCall.hold();
return true;
}
// The live call cannot be held so we're out of luck here. There's no room.
return false;
}
return true;
}
/**
* Given a call, find the first non-null phone account handle of its children.
*
* @param parentCall The parent call.
* @return The first non-null phone account handle of the children, or {@code null} if none.
*/
private PhoneAccountHandle getFirstChildPhoneAccount(Call parentCall) {
for (Call childCall : parentCall.getChildCalls()) {
PhoneAccountHandle childPhoneAccount = childCall.getTargetPhoneAccount();
if (childPhoneAccount != null) {
return childPhoneAccount;
}
}
return null;
}
/**
* Checks to see if the call should be on speakerphone and if so, set it.
*/
private void maybeMoveToSpeakerPhone(Call call) {
if (call.getStartWithSpeakerphoneOn()) {
setAudioRoute(CallAudioState.ROUTE_SPEAKER);
call.setStartWithSpeakerphoneOn(false);
}
}
private void maybeMoveToEarpiece(Call call) {
if (!call.getStartWithSpeakerphoneOn() && !mWiredHeadsetManager.isPluggedIn() &&
!mCallAudioManager.isBluetoothDeviceAvailable()) {
setAudioRoute(CallAudioState.ROUTE_EARPIECE);
}
}
/**
* Creates a new call for an existing connection.
*
* @param callId The id of the new call.
* @param connection The connection information.
* @return The new call.
*/
Call createCallForExistingConnection(String callId, ParcelableConnection connection) {
Call call = new Call(
mContext,
this,
mLock,
mConnectionServiceRepository,
mContactsAsyncHelper,
mCallerInfoAsyncQueryFactory,
connection.getHandle() /* handle */,
null /* gatewayInfo */,
null /* connectionManagerPhoneAccount */,
connection.getPhoneAccount(), /* targetPhoneAccountHandle */
false /* isIncoming */,
false /* isConference */,
connection.getConnectTimeMillis() /* connectTimeMillis */);
setCallState(call, Call.getStateFromConnectionState(connection.getState()),
"existing connection");
call.setConnectionCapabilities(connection.getConnectionCapabilities());
call.setCallerDisplayName(connection.getCallerDisplayName(),
connection.getCallerDisplayNamePresentation());
call.addListener(this);
addCall(call);
return call;
}
/**
* Dumps the state of the {@link CallsManager}.
*
* @param pw The {@code IndentingPrintWriter} to write the state to.
*/
public void dump(IndentingPrintWriter pw) {
mContext.enforceCallingOrSelfPermission(android.Manifest.permission.DUMP, TAG);
if (mCalls != null) {
pw.println("mCalls: ");
pw.increaseIndent();
for (Call call : mCalls) {
pw.println(call);
}
pw.decreaseIndent();
}
pw.println("mForegroundCall: " + (mForegroundCall == null ? "none" : mForegroundCall));
if (mCallAudioManager != null) {
pw.println("mCallAudioManager:");
pw.increaseIndent();
mCallAudioManager.dump(pw);
pw.decreaseIndent();
}
if (mTtyManager != null) {
pw.println("mTtyManager:");
pw.increaseIndent();
mTtyManager.dump(pw);
pw.decreaseIndent();
}
if (mInCallController != null) {
pw.println("mInCallController:");
pw.increaseIndent();
mInCallController.dump(pw);
pw.decreaseIndent();
}
if (mConnectionServiceRepository != null) {
pw.println("mConnectionServiceRepository:");
pw.increaseIndent();
mConnectionServiceRepository.dump(pw);
pw.decreaseIndent();
}
}
private final Handler mLchHandler = new LchHandler();
private final class LchHandler extends Handler {
@Override
public void handleMessage(Message msg) {
switch (msg.what) {
case PHONE_START_DSDA_INCALL_TONE:
Log.d(this, "Start DSDA incall tones...");
startDsdaInCallTones();
break;
case LCH_PLAY_DTMF:
playLchDtmf();
break;
case LCH_STOP_DTMF:
stopLchDtmf();
break;
}
}
}
public void switchToOtherActiveSub(String subId) {
if (TelephonyManager.getDefault().getMultiSimConfiguration()
!= TelephonyManager.MultiSimVariants.DSDA) {
return;
}
Log.d(this, "switchToOtherActiveSub sub:" + subId);
setActiveSubscription(subId);
updateLchStatus(subId);
manageDsdaInCallTones(true);
updateForegroundCall();
}
public synchronized void setActiveSubscription(String subId) {
Log.d(this, "setActiveSubscription = " + subId);
if (TelephonyManager.getDefault().getMultiSimConfiguration()
!= TelephonyManager.MultiSimVariants.DSDA) {
return;
}
boolean changed = false;
for (PhoneAccountHandle ph : getPhoneAccountRegistrar().getSimPhoneAccounts()) {
PhoneAccount phAcc = getPhoneAccountRegistrar().getPhoneAccount(ph);
if (subId != null && subId.equals(ph.getId())
&& (phAcc != null) && !phAcc.isSet(PhoneAccount.ACTIVE)) {
changed = true;
phAcc.setBit(PhoneAccount.ACTIVE);
} else if (subId != null && !subId.equals(ph.getId())
&& (phAcc != null) && phAcc.isSet(PhoneAccount.ACTIVE)) {
changed = true;
phAcc.unSetBit(PhoneAccount.ACTIVE);
} else if ((subId == null) && (phAcc != null) && phAcc.isSet(PhoneAccount.ACTIVE)) {
phAcc.unSetBit(PhoneAccount.ACTIVE);
}
}
if (!changed) {
Log.d(this, "setActiveSubscription not changed ");
return;
} else {
Log.d(this, "setActiveSubscription changed " );
for (Call call : mCalls) {
PhoneAccountHandle ph = call.getTargetPhoneAccount();
if (ph != null) {
call.mIsActiveSub = ph.getId().equals(subId) ? true : false;
}
for (CallsManagerListener listener : mListeners) {
listener.onCallStateChanged(call, call.getState(), call.getState());
}
}
}
}
public String getActiveSubscription() {
for (PhoneAccountHandle ph : getPhoneAccountRegistrar().getSimPhoneAccounts()) {
if (getPhoneAccountRegistrar()
.getPhoneAccount(ph).isSet(PhoneAccount.ACTIVE)) {
Log.d(this, "getActiveSubscription: " + ph.getId());
return ph.getId();
}
}
return null;
}
private String getConversationSub() {
for (PhoneAccountHandle ph : getPhoneAccountRegistrar().getSimPhoneAccounts()) {
PhoneAccount phAcc = getPhoneAccountRegistrar().getPhoneAccount(ph);
if (phAcc != null && !phAcc.isSet(PhoneAccount.LCH) &&
(getFirstCallWithState(ph.getId(), CallState.ACTIVE, CallState.DIALING,
CallState.ON_HOLD) != null)) {
Log.d(this, "getConversationSub: " + ph.getId());
return ph.getId();
}
}
return null;
}
void manageDsdaInCallTones(boolean isSubSwitch) {
Log.d(this, " entered manageDsdaInCallTones ");
// If there is no background active subscription available, stop playing the tones.
// Do not start/stop LCH/SCH tones when phone is in RINGING state.
if (getLchSub() != null && !hasRingingCall()) {
//If sub switch happens re-start the tones with a delay of 100msec.
if (isSubSwitch) {
Log.d(this, " manageDsdaInCallTones: re-start playing tones, lch sub = "
+ getLchSub());
reStartDsdaInCallTones();
} else {
Log.d(this, " entered manageDsdaInCallTones ");
startDsdaInCallTones();
}
} else if (getLchSub() == null) {
// if there is no sub in Lch state, then stop playing the tones
stopMSimInCallTones();
}
}
private void reStartDsdaInCallTones() {
Log.d(this, " reStartDsdaInCallTones");
stopMSimInCallTones();
/* Remove any pending PHONE_START_DSDA_INCALL_TONE messages from queue */
mLchHandler.removeMessages(PHONE_START_DSDA_INCALL_TONE);
Message message = Message.obtain(mLchHandler, PHONE_START_DSDA_INCALL_TONE);
mLchHandler.sendMessageDelayed(message, 100);
}
/**
* Returns the first call that it finds with the given states for given subscription.
* The states are treated as having priority order so that any call with the first
* state will be returned before any call with states listed later in the parameter list.
*/
Call getFirstCallWithState(String sub, int... states) {
for (int currentState : states) {
// check the foreground first
if (mForegroundCall != null && mForegroundCall.getState() == currentState
&& (mForegroundCall.getTargetPhoneAccount() != null)
&& isSamePhAccIdOrSipId(mForegroundCall.getTargetPhoneAccount().getId(),
sub)) {
return mForegroundCall;
}
for (Call call : mCalls) {
if ((currentState == call.getState()) &&
(call.getTargetPhoneAccount() != null) &&
(isSamePhAccIdOrSipId(call.getTargetPhoneAccount().getId(), sub))) {
return call;
}
}
}
return null;
}
private String getLchSub() {
for (PhoneAccountHandle ph : getPhoneAccountRegistrar().getSimPhoneAccounts()) {
PhoneAccount phAcc = getPhoneAccountRegistrar().getPhoneAccount(ph);
if (phAcc != null && phAcc.isSet(PhoneAccount.LCH)) {
return ph.getId();
}
}
return null;
}
private void playLchDtmf() {
if (mLchSub != null || mLchHandler.hasMessages(LCH_PLAY_DTMF)) {
// Ignore any redundant requests to start playing tones
return;
}
mLchSub = getLchSub();
Log.d(this, " playLchDtmf... lch sub " + mLchSub);
if (mLchSub == null) return;
removeAnyPendingDtmfMsgs();
char c = mContext.getResources()
.getString(R.string.lch_dtmf_key).charAt(0);
Call call = getNonRingingLiveCall(mLchSub);
if (call == null) {
mLchSub = null;
return;
}
call.playDtmfTone(c);
// Keep playing LCH DTMF tone to remote party on LCH call, with periodicity
// "LCH_DTMF_PERIODICITY" until call moves out of LCH.
mLchHandler.sendMessageDelayed(Message.obtain(mLchHandler, LCH_PLAY_DTMF),
LCH_DTMF_PERIODICITY);
mLchHandler.sendMessageDelayed(Message.obtain(mLchHandler, LCH_STOP_DTMF), LCH_DTMF_PERIOD);
}
private Call getNonRingingLiveCall(String subId) {
return getFirstCallWithState(subId, CallState.DIALING,
CallState.ACTIVE, CallState.ON_HOLD);
}
private void stopLchDtmf() {
if (mLchSub != null) {
// Ignore any redundant requests to stop playing tones
Call call = getNonRingingLiveCall(mLchSub);
Log.d(this, " stopLchDtmf... call: " + call + " mLchSub:" + mLchSub);
if (call == null) {
mLchSub = null;
return;
}
call.stopDtmfTone();
}
mLchSub = null;
}
private void startDsdaInCallTones() {
if (mLocalCallReminderTonePlayer == null) {
Log.d(this, " Play local call hold reminder tone ");
mLocalCallReminderTonePlayer =
mPlayerFactory.createPlayer(InCallTonePlayer.TONE_HOLD_RECALL);
mLocalCallReminderTonePlayer.start();
}
if (sSupervisoryCallHoldToneConfig.equals("inband")) {
// if "persist.radio.sch_tone" is set to "inband", play inband supervisory
// call hold tone. if set to "dtmf", play the SCH tones
// over DTMF, don't play SCH tones for anyother value.
if (mSupervisoryCallHoldTonePlayer == null) {
Log.d(this, " startDsdaInCallTones: Supervisory call hold tone ");
mSupervisoryCallHoldTonePlayer =
mPlayerFactory.createPlayer(InCallTonePlayer.TONE_SUPERVISORY_CH);
mSupervisoryCallHoldTonePlayer.start();
}
} else if (sSupervisoryCallHoldToneConfig.equals("dtmf")) {
Log.d(this, " startDsdaInCallTones: Supervisory call hold tone over dtmf ");
playLchDtmf();
}
}
private void removeAnyPendingDtmfMsgs() {
mLchHandler.removeMessages(LCH_PLAY_DTMF);
mLchHandler.removeMessages(LCH_STOP_DTMF);
}
protected void stopMSimInCallTones() {
if (mLocalCallReminderTonePlayer != null) {
Log.d(this, " stopMSimInCallTones: local call hold reminder tone ");
mLocalCallReminderTonePlayer.stopTone();
mLocalCallReminderTonePlayer = null;
}
if (mSupervisoryCallHoldTonePlayer != null) {
Log.d(this, " stopMSimInCallTones: Supervisory call hold tone ");
mSupervisoryCallHoldTonePlayer.stopTone();
mSupervisoryCallHoldTonePlayer = null;
}
if (sSupervisoryCallHoldToneConfig.equals("dtmf")) {
Log.d(this, " stopMSimInCallTones: stop SCH Dtmf call hold tone ");
stopLchDtmf();
/* Remove any previous dtmf nssages from queue */
removeAnyPendingDtmfMsgs();
}
}
/**
* Update the local call hold state for all subscriptions
* 1 -- if call on local hold, 0 -- if call is not on local hold
*
* @param subInConversation is the sub user is currently active in subsription.
* so if this sub is in LCH, then bring that sub out of LCH.
*/
private void updateLchStatus(String subInConversation) {
Call removeFromLch = null;
Log.d(this, "updateLchStatus subInConversation: " + subInConversation);
if (subInConversation != null && subInConversation.contains("sip")) {
return;
}
for (PhoneAccountHandle ph : getPhoneAccountRegistrar().getSimPhoneAccounts()) {
String sub = ph.getId();
if (sub != null && sub.contains("sip")) {
Log.d(this, "update lch. Skipping account: " + sub);
continue;
}
PhoneAccount phAcc = getPhoneAccountRegistrar().getPhoneAccount(ph);
boolean lchState = false;
if (subInConversation != null && hasActiveOrHoldingCall(sub) &&
!sub.equals(subInConversation)) {
// if sub is not conversation sub and if it has an active
// voice call then update lchStatus as Active
lchState = true;
}
// Update state only if the new state is different
if ((phAcc != null) && (lchState != phAcc.isSet(PhoneAccount.LCH))) {
Call call = getNonRingingLiveCall(sub);
Log.d(this, " setLocal Call Hold to = " + lchState + " sub:" + sub);
if (call != null) {
if (call.getChildCalls().size() > 1) {
// Since for a conference call corresponding telephonyconnection doesn't
// exist, so send lch request on its child call
call = call.getChildCalls().get(0);
}
if (lchState) {
call.setLocalCallHold(true);
} else {
removeFromLch = call;
}
}
if (lchState) {
phAcc.setBit(PhoneAccount.LCH);
} else {
phAcc.unSetBit(PhoneAccount.LCH);
}
}
}
if (removeFromLch != null) {
// Ensure to send LCH disable request at last, to make sure that during switch
// subscription, both subscriptions not to be in active(non-LCH) at any moment.
removeFromLch.setLocalCallHold(false);
}
}
void resetCdmaConnectionTime(Call call) {
call.setConnectTimeMillis(System.currentTimeMillis());
if (mCalls.contains(call)) {
for (CallsManagerListener listener : mListeners) {
listener.onCallStateChanged(call, CallState.ACTIVE, CallState.ACTIVE);
}
updateForegroundCall();
}
}
void onMergeFailed(Call call) {
if (mCalls.contains(call)) {
for (CallsManagerListener listener : mListeners) {
listener.onMergeFailed(call);
}
}
}
}