blob: 01448c3bcd9e1fe9c73ed796e29dd5569480fd9f [file] [log] [blame]
/*
* Copyright (C) 2014 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.telecom;
import android.annotation.CallbackExecutor;
import android.annotation.FlaggedApi;
import android.annotation.NonNull;
import android.annotation.Nullable;
import android.annotation.RequiresPermission;
import android.annotation.SdkConstant;
import android.annotation.SystemApi;
import android.annotation.TestApi;
import android.app.Service;
import android.content.ComponentName;
import android.content.Intent;
import android.location.Location;
import android.net.Uri;
import android.os.Bundle;
import android.os.Handler;
import android.os.IBinder;
import android.os.Looper;
import android.os.Message;
import android.os.OutcomeReceiver;
import android.os.ParcelFileDescriptor;
import android.os.RemoteException;
import android.telecom.Logging.Session;
import com.android.internal.annotations.VisibleForTesting;
import com.android.internal.os.SomeArgs;
import com.android.internal.telecom.IConnectionService;
import com.android.internal.telecom.IConnectionServiceAdapter;
import com.android.internal.telecom.RemoteServiceCallback;
import com.android.server.telecom.flags.Flags;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Collections;
import java.util.List;
import java.util.Map;
import java.util.UUID;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.Executor;
/**
* An abstract service that should be implemented by any apps which either:
* <ol>
* <li>Can make phone calls (VoIP or otherwise) and want those calls to be integrated into the
* built-in phone app. Referred to as a <b>system managed</b> {@link ConnectionService}.</li>
* <li>Are a standalone calling app and don't want their calls to be integrated into the
* built-in phone app. Referred to as a <b>self managed</b> {@link ConnectionService}.</li>
* </ol>
* Once implemented, the {@link ConnectionService} needs to take the following steps so that Telecom
* will bind to it:
* <p>
* 1. <i>Registration in AndroidManifest.xml</i>
* <br/>
* <pre>
* &lt;service android:name="com.example.package.MyConnectionService"
* android:label="@string/some_label_for_my_connection_service"
* android:permission="android.permission.BIND_TELECOM_CONNECTION_SERVICE"&gt;
* &lt;intent-filter&gt;
* &lt;action android:name="android.telecom.ConnectionService" /&gt;
* &lt;/intent-filter&gt;
* &lt;/service&gt;
* </pre>
* <p>
* 2. <i> Registration of {@link PhoneAccount} with {@link TelecomManager}.</i>
* <br/>
* See {@link PhoneAccount} and {@link TelecomManager#registerPhoneAccount} for more information.
* <p>
* System managed {@link ConnectionService}s must be enabled by the user in the phone app settings
* before Telecom will bind to them. Self-managed {@link ConnectionService}s must declare the
* {@link android.Manifest.permission#MANAGE_OWN_CALLS} permission in their manifest before Telecom
* will bind to them.
* <p>
* Once registered and enabled by the user in the phone app settings or granted permission, telecom
* will bind to a {@link ConnectionService} implementation when it wants that
* {@link ConnectionService} to place a call or the service has indicated that is has an incoming
* call through {@link TelecomManager#addNewIncomingCall(PhoneAccountHandle, Bundle)}. The
* {@link ConnectionService} can then expect a call to
* {@link #onCreateIncomingConnection(PhoneAccountHandle, ConnectionRequest)} or
* {@link #onCreateOutgoingConnection(PhoneAccountHandle, ConnectionRequest)}
* wherein it should provide a new instance of a {@link Connection} object. It is through this
* {@link Connection} object that telecom receives state updates and the {@link ConnectionService}
* receives call-commands such as answer, reject, hold and disconnect.
* <p>
* When there are no more live calls, telecom will unbind from the {@link ConnectionService}.
* <p>
* <h1>Self-Managed Connection Services</h1>
* A VoIP app can implement a {@link ConnectionService} to ensure that its calls are integrated
* into the Android platform. There are numerous benefits to using the Telecom APIs for a VoIP app:
* <ul>
* <li>Call concurrency is handled - the user is able to swap between calls in different
* apps and on the mobile network.</li>
* <li>Simplified audio routing - the platform provides your app with a unified list of the
* audio routes which are available
* (e.g. {@link android.telecom.Connection#onAvailableCallEndpointsChanged(List)}) and a
* standardized way to switch audio routes
* (e.g. {@link android.telecom.Connection#requestCallEndpointChange(CallEndpoint, Executor,
* OutcomeReceiver)} ).</li>
* <li>Bluetooth integration - your calls will be visible on and controllable via
* bluetooth devices (e.g. car head units and headsets).</li>
* <li>Companion device integration - wearable devices such as watches which implement an
* {@link InCallService} can optionally subscribe to see self-managed calls. Similar to a
* bluetooth headunit, wearables will typically render your call using a generic call UX and
* provide the user with basic call controls such as hangup, answer, reject.</li>
* <li>Automotive calling experiences - Android supports automotive optimized experiences which
* provides a means for calls to be controlled and viewed in an automobile; these experiences
* are capable of leveraging call metadata provided by your app.</li>
* </ul>
* <h2>Registering a Phone Account</h2>
* Before your app can handle incoming or outgoing calls through Telecom it needs to register a
* {@link PhoneAccount} with Telecom indicating to the platform that your app is capable of calling.
* <p>
* Your app should create a new instance of {@link PhoneAccount} which meets the following
* requirements:
* <ul>
* <li>Has {@link PhoneAccount#CAPABILITY_SELF_MANAGED} (set using
* {@link PhoneAccount.Builder#setCapabilities(int)}). This indicates to Telecom that your
* app will report calls but that it provides a primary UI for the calls by itself.</li>
* <li>Provide a unique identifier for the {@link PhoneAccount} via the
* {@link PhoneAccountHandle#getId()} attribute. As per the {@link PhoneAccountHandle}
* documentation, you should NOT use an identifier which contains PII or other sensitive
* information. A typical choice is a UUID.</li>
* </ul>
* Your app should register the new {@link PhoneAccount} with Telecom using
* {@link TelecomManager#registerPhoneAccount(PhoneAccount)}. {@link PhoneAccount}s persist across
* reboot. You can use {@link TelecomManager#getOwnSelfManagedPhoneAccounts()} to confirm the
* {@link PhoneAccount} you registered. Your app should generally only register a single
* {@link PhoneAccount}.
*
* <h2>Implementing ConnectionService</h2>
* Your app uses {@link TelecomManager#placeCall(Uri, Bundle)} to start new outgoing calls and
* {@link TelecomManager#addNewIncomingCall(PhoneAccountHandle, Bundle)} to report new incoming
* calls. Calling these APIs causes the Telecom stack to bind to your app's
* {@link ConnectionService} implementation. Telecom will either inform your app that it cannot
* handle a call request at the current time (i.e. there could be an ongoing emergency call, which
* means your app is not allowed to handle calls at the current time), or it will ask your app to
* create a new instance of {@link Connection} to represent a call in your app.
*
* Your app should implement the following {@link ConnectionService} methods:
* <ul>
* <li>{@link ConnectionService#onCreateOutgoingConnection(PhoneAccountHandle,
* ConnectionRequest)} - called by Telecom to ask your app to make a new {@link Connection}
* to represent an outgoing call your app requested via
* {@link TelecomManager#placeCall(Uri, Bundle)}.</li>
* <li><{@link ConnectionService#onCreateOutgoingConnectionFailed(PhoneAccountHandle,
* ConnectionRequest)} - called by Telecom to inform your app that a call it reported via
* {@link TelecomManager#placeCall(Uri, Bundle)} cannot be handled at this time. Your app
* should NOT place a call at the current time.</li>
* <li>{@link ConnectionService#onCreateIncomingConnection(PhoneAccountHandle,
* ConnectionRequest)} - called by Telecom to ask your app to make a new {@link Connection}
* to represent an incoming call your app reported via
* {@link TelecomManager#addNewIncomingCall(PhoneAccountHandle, Bundle)}.</li>
* <li>{@link ConnectionService#onCreateIncomingConnectionFailed(PhoneAccountHandle,
* ConnectionRequest)} - called by Telecom to inform your app that an incoming call it reported
* via {@link TelecomManager#addNewIncomingCall(PhoneAccountHandle, Bundle)} cannot be handled
* at this time. Your app should NOT post a new incoming call notification and should silently
* reject the call.</li>
* </ul>
*
* <h2>Implementing a Connection</h2>
* Your app should extend the {@link Connection} class to represent calls in your app. When you
* create new instances of your {@link Connection}, you should ensure the following properties are
* set on the new {@link Connection} instance returned by your {@link ConnectionService}:
* <ul>
* <li>{@link Connection#setAddress(Uri, int)} - the identifier for the other party. For
* apps that user phone numbers the {@link Uri} can be a {@link PhoneAccount#SCHEME_TEL} URI
* representing the phone number.</li>
* <li>{@link Connection#setCallerDisplayName(String, int)} - the display name of the other
* party. This is what will be shown on Bluetooth devices and other calling surfaces such
* as wearable devices. This is particularly important for calls that do not use a phone
* number to identify the caller or called party.</li>
* <li>{@link Connection#setConnectionProperties(int)} - ensure you set
* {@link Connection#PROPERTY_SELF_MANAGED} to identify to the platform that the call is
* handled by your app.</li>
* <li>{@link Connection#setConnectionCapabilities(int)} - if your app supports making calls
* inactive (i.e. holding calls) you should get {@link Connection#CAPABILITY_SUPPORT_HOLD} and
* {@link Connection#CAPABILITY_HOLD} to indicate to the platform that you calls can potentially
* be held for concurrent calling scenarios.</li>
* <li>{@link Connection#setAudioModeIsVoip(boolean)} - set to {@code true} to ensure that the
* platform knows your call is a VoIP call.</li>
* <li>For newly created {@link Connection} instances, do NOT change the state of your call
* using {@link Connection#setActive()}, {@link Connection#setOnHold()} until the call is added
* to Telecom (ie you have returned it via
* {@link ConnectionService#onCreateOutgoingConnection(PhoneAccountHandle, ConnectionRequest)}
* or
* {@link ConnectionService#onCreateIncomingConnection(PhoneAccountHandle, ConnectionRequest)}).
* </li>
* </ul>
*
* <h2>How to Place Outgoing Calls</h2>
* When your app wants to place an outgoing call it calls
* {@link TelecomManager#placeCall(Uri, Bundle)}. You should specify a {@link Uri} to identify
* who the call is being placed to, and specify the {@link PhoneAccountHandle} associated with the
* {@link PhoneAccount} you registered for your app using
* {@link TelecomManager#EXTRA_PHONE_ACCOUNT_HANDLE} in the {@link Bundle} parameter.
* <p>
* Telecom will bind to your app's {@link ConnectionService} implementation and call either:
* <ul>
* <li>{@link ConnectionService#onCreateOutgoingConnection(PhoneAccountHandle,
* ConnectionRequest)} - the {@link ConnectionRequest#getAddress()} will match the address
* you specified when placing the call. You should return a new instance of your app's
* {@link Connection} class to represent the outgoing call.</li>
* <li>{@link ConnectionService#onCreateOutgoingConnectionFailed(PhoneAccountHandle,
* ConnectionRequest)} - your app should not place the call at this time; the call should be
* cancelled and the user informed that the call cannot be placed.</li>
* </ul>
* <p>
* New outgoing calls will start in a {@link Connection#STATE_DIALING} state. This state indicates
* that your app is in the process of connecting the call to the other party.
* <p>
* Once the other party answers the call (or it is set up successfully), your app should call
* {@link Connection#setActive()} to inform Telecom that the call is now active.
*
* <h2>How to Add Incoming Calls</h2>
* When your app receives an incoming call, it should call
* {@link TelecomManager#addNewIncomingCall(PhoneAccountHandle, Bundle)}. Set the
* {@link PhoneAccountHandle} parameter to the {@link PhoneAccountHandle} associated with your
* app's {@link PhoneAccount}.
* <p>
* Telecom will bind to your app's {@link ConnectionService} implementation and call either:
* <ul>
* <li>{@link ConnectionService#onCreateIncomingConnection(PhoneAccountHandle,
* ConnectionRequest)} - You should return a new instance of your app's
* {@link Connection} class to represent the incoming call.</li>
* <li>{@link ConnectionService#onCreateIncomingConnectionFailed(PhoneAccountHandle,
* ConnectionRequest)} - your app should not receive the call at this time; the call should be
* rejected silently; the user may be informed of a missed call.</li>
* </ul>
* <p>
* New incoming calls will start with a {@link Connection#STATE_RINGING} state. This state
* indicates that your app has a new incoming call pending. Telecom will NOT play a ringtone or
* post a notification for your app. It is up to your app to post an incoming call notification
* with an associated ringtone. Telecom will call {@link Connection#onShowIncomingCallUi()} on the
* {@link Connection} when your app can post its incoming call notification. See
* {@link Connection#onShowIncomingCallUi() the docs} for more information on how to post the
* notification.
* <p>
* Your incoming call notification (or full screen UI) will typically have an "answer" and "decline"
* action which the user chooses. When your app receives the "answer" or "decline"
* {@link android.app.PendingIntent}, you should must call either {@link Connection#setActive()} to
* inform Telecom that the call was answered, or
* {@link Connection#setDisconnected(DisconnectCause)} to inform Telecom that the call was rejected.
* If the call was rejected, supply an instance of {@link DisconnectCause} with
* {@link DisconnectCause#REJECTED}, and then call {@link Connection#destroy()}.
* <p>
* In addition to handling requests to answer or decline the call via notification actions, your
* app should also be implement the {@link Connection#onAnswer(int)} and
* {@link Connection#onAnswer()} methods on the {@link Connection}. These will be raised if the
* user answers your call via a Bluetooth device or another device like a wearable or automotive
* calling UX. In response, your app should call {@link Connection#setActive()} to inform Telecom
* that the call was answered.
* <p>
* Additionally, your app should implement {@link Connection#onReject()} to handle requests to
* reject the call which are raised via Bluetooth or other calling surfaces. Your app should call
* {@link Connection#setDisconnected(DisconnectCause)} and supply an instance of
* {@link DisconnectCause} with {@link DisconnectCause#REJECTED} in this case.
*
* <h2>Ending Calls</h2>
* When an ongoing active call (incoming or outgoing) has ended, your app is responsible for
* informing Telecom that the call ended.
* <p>
* Your app calls:
* <ul>
* <li>{@link Connection#setDisconnected(DisconnectCause)} - this informs Telecom that the
* call has terminated. You should provide a new instance of {@link DisconnectCause} with
* either {@link DisconnectCause#LOCAL} or {@link DisconnectCause#REMOTE} to indicate where the
* call disconnection took place. {@link DisconnectCause#LOCAL} indicates that the call
* terminated in your app on the current device (i.e. via user action), where
* {@link DisconnectCause#REMOTE} indicates that the call terminates on the remote device.</li>
* <li>{@link Connection#destroy()} - this informs Telecom that your call instance can be
* cleaned up. You should always call this when you are finished with a call.</li>
* </ul>
* <p>
* Similar to answering incoming calls, requests to disconnect your call may originate from outside
* your app. You can handle these by implementing {@link Connection#onDisconnect()}. Your app
* should call {@link Connection#setDisconnected(DisconnectCause)} with an instance of
* {@link DisconnectCause} and reason {@link DisconnectCause#LOCAL} to indicate to Telecom that your
* app has disconnected the call as requested based on the user's request.
*
* <h2>Holding and Unholding Calls</h2>
* When your app specifies {@link Connection#CAPABILITY_SUPPORT_HOLD} and
* {@link Connection#CAPABILITY_HOLD} on your {@link Connection} instance, it is telling Telecom
* that your calls can be placed into a suspended, or "held" state if required. If your app
* supports holding its calls, it will be possible for the user to switch between calls in your app
* and holdable calls in another app or on the mobile network. If your app does not support
* holding its calls, you may receive a request to disconnect the call from Telecom if the user
* opts to answer an incoming call in another app or on the mobile network; this ensures that the
* user can only be in one call at a time.
* <p>
* Your app is free to change a call between the held and active state using
* {@link Connection#setOnHold()} and {@link Connection#setActive()}.
* <p>
* Your app may receive a request from Telecom to hold or unhold a call via
* {@link Connection#onHold()} and {@link Connection#onUnhold()}. Telecom can ask your app to
* hold or unhold its {@link Connection} either if the user requests this action through another
* calling surface such as Bluetooth, or if the user answers or switches to a call in a different
* app or on the mobile network.
* <p>
* When your app receives an {@link Connection#onHold()} it must call {@link Connection#setOnHold()}
* to inform Telecom that the call has been held successfully.
* <p>
* When your app receives an {@link Connection#onUnhold()} it must call
* {@link Connection#setActive()} to inform Telecom that the call has been resumed successfully.
*/
public abstract class ConnectionService extends Service {
/**
* The {@link Intent} that must be declared as handled by the service.
*/
@SdkConstant(SdkConstant.SdkConstantType.SERVICE_ACTION)
public static final String SERVICE_INTERFACE = "android.telecom.ConnectionService";
/**
* Boolean extra used by Telecom to inform a {@link ConnectionService} that the purpose of it
* being asked to create a new outgoing {@link Connection} is to perform a handover of an
* ongoing call on the device from another {@link PhoneAccount}/{@link ConnectionService}. Will
* be specified in the {@link ConnectionRequest#getExtras()} passed by Telecom when
* {@link #onCreateOutgoingConnection(PhoneAccountHandle, ConnectionRequest)} is called.
* <p>
* When your {@link ConnectionService} receives this extra, it should communicate the fact that
* this is a handover to the other device's matching {@link ConnectionService}. That
* {@link ConnectionService} will continue the handover using
* {@link TelecomManager#addNewIncomingCall(PhoneAccountHandle, Bundle)}, specifying
* {@link TelecomManager#EXTRA_IS_HANDOVER}. Telecom will match the phone numbers of the
* handover call on the other device with ongoing calls for {@link ConnectionService}s which
* support {@link PhoneAccount#EXTRA_SUPPORTS_HANDOVER_FROM}.
* @hide
*/
public static final String EXTRA_IS_HANDOVER = TelecomManager.EXTRA_IS_HANDOVER;
// Flag controlling whether PII is emitted into the logs
private static final boolean PII_DEBUG = Log.isLoggable(android.util.Log.DEBUG);
// Session Definitions
private static final String SESSION_HANDLER = "H.";
private static final String SESSION_ADD_CS_ADAPTER = "CS.aCSA";
private static final String SESSION_REMOVE_CS_ADAPTER = "CS.rCSA";
private static final String SESSION_CREATE_CONN = "CS.crCo";
private static final String SESSION_CREATE_CONN_COMPLETE = "CS.crCoC";
private static final String SESSION_CREATE_CONN_FAILED = "CS.crCoF";
private static final String SESSION_ABORT = "CS.ab";
private static final String SESSION_ANSWER = "CS.an";
private static final String SESSION_ANSWER_VIDEO = "CS.anV";
private static final String SESSION_DEFLECT = "CS.def";
private static final String SESSION_TRANSFER = "CS.trans";
private static final String SESSION_CONSULTATIVE_TRANSFER = "CS.cTrans";
private static final String SESSION_REJECT = "CS.r";
private static final String SESSION_REJECT_MESSAGE = "CS.rWM";
private static final String SESSION_SILENCE = "CS.s";
private static final String SESSION_DISCONNECT = "CS.d";
private static final String SESSION_HOLD = "CS.h";
private static final String SESSION_UNHOLD = "CS.u";
private static final String SESSION_CALL_AUDIO_SC = "CS.cASC";
private static final String SESSION_USING_ALTERNATIVE_UI = "CS.uAU";
private static final String SESSION_TRACKED_BY_NON_UI_SERVICE = "CS.tBNUS";
private static final String SESSION_PLAY_DTMF = "CS.pDT";
private static final String SESSION_STOP_DTMF = "CS.sDT";
private static final String SESSION_CONFERENCE = "CS.c";
private static final String SESSION_SPLIT_CONFERENCE = "CS.sFC";
private static final String SESSION_MERGE_CONFERENCE = "CS.mC";
private static final String SESSION_SWAP_CONFERENCE = "CS.sC";
private static final String SESSION_ADD_PARTICIPANT = "CS.aP";
private static final String SESSION_POST_DIAL_CONT = "CS.oPDC";
private static final String SESSION_PULL_EXTERNAL_CALL = "CS.pEC";
private static final String SESSION_SEND_CALL_EVENT = "CS.sCE";
private static final String SESSION_CALL_FILTERING_COMPLETED = "CS.oCFC";
private static final String SESSION_HANDOVER_COMPLETE = "CS.hC";
private static final String SESSION_EXTRAS_CHANGED = "CS.oEC";
private static final String SESSION_START_RTT = "CS.+RTT";
private static final String SESSION_UPDATE_RTT_PIPES = "CS.uRTT";
private static final String SESSION_STOP_RTT = "CS.-RTT";
private static final String SESSION_RTT_UPGRADE_RESPONSE = "CS.rTRUR";
private static final String SESSION_CONNECTION_SERVICE_FOCUS_LOST = "CS.cSFL";
private static final String SESSION_CONNECTION_SERVICE_FOCUS_GAINED = "CS.cSFG";
private static final String SESSION_HANDOVER_FAILED = "CS.haF";
private static final String SESSION_CREATE_CONF = "CS.crConf";
private static final String SESSION_CREATE_CONF_COMPLETE = "CS.crConfC";
private static final String SESSION_CREATE_CONF_FAILED = "CS.crConfF";
private static final String SESSION_CALL_ENDPOINT_CHANGED = "CS.oCEC";
private static final String SESSION_AVAILABLE_CALL_ENDPOINTS_CHANGED = "CS.oACEC";
private static final String SESSION_MUTE_STATE_CHANGED = "CS.oMSC";
private static final int MSG_ADD_CONNECTION_SERVICE_ADAPTER = 1;
private static final int MSG_CREATE_CONNECTION = 2;
private static final int MSG_ABORT = 3;
private static final int MSG_ANSWER = 4;
private static final int MSG_REJECT = 5;
private static final int MSG_DISCONNECT = 6;
private static final int MSG_HOLD = 7;
private static final int MSG_UNHOLD = 8;
private static final int MSG_ON_CALL_AUDIO_STATE_CHANGED = 9;
private static final int MSG_PLAY_DTMF_TONE = 10;
private static final int MSG_STOP_DTMF_TONE = 11;
private static final int MSG_CONFERENCE = 12;
private static final int MSG_SPLIT_FROM_CONFERENCE = 13;
private static final int MSG_ON_POST_DIAL_CONTINUE = 14;
private static final int MSG_REMOVE_CONNECTION_SERVICE_ADAPTER = 16;
private static final int MSG_ANSWER_VIDEO = 17;
private static final int MSG_MERGE_CONFERENCE = 18;
private static final int MSG_SWAP_CONFERENCE = 19;
private static final int MSG_REJECT_WITH_MESSAGE = 20;
private static final int MSG_SILENCE = 21;
private static final int MSG_PULL_EXTERNAL_CALL = 22;
private static final int MSG_SEND_CALL_EVENT = 23;
private static final int MSG_ON_EXTRAS_CHANGED = 24;
private static final int MSG_CREATE_CONNECTION_FAILED = 25;
private static final int MSG_ON_START_RTT = 26;
private static final int MSG_ON_STOP_RTT = 27;
private static final int MSG_RTT_UPGRADE_RESPONSE = 28;
private static final int MSG_CREATE_CONNECTION_COMPLETE = 29;
private static final int MSG_CONNECTION_SERVICE_FOCUS_LOST = 30;
private static final int MSG_CONNECTION_SERVICE_FOCUS_GAINED = 31;
private static final int MSG_HANDOVER_FAILED = 32;
private static final int MSG_HANDOVER_COMPLETE = 33;
private static final int MSG_DEFLECT = 34;
private static final int MSG_CREATE_CONFERENCE = 35;
private static final int MSG_CREATE_CONFERENCE_COMPLETE = 36;
private static final int MSG_CREATE_CONFERENCE_FAILED = 37;
private static final int MSG_REJECT_WITH_REASON = 38;
private static final int MSG_ADD_PARTICIPANT = 39;
private static final int MSG_EXPLICIT_CALL_TRANSFER = 40;
private static final int MSG_EXPLICIT_CALL_TRANSFER_CONSULTATIVE = 41;
private static final int MSG_ON_CALL_FILTERING_COMPLETED = 42;
private static final int MSG_ON_USING_ALTERNATIVE_UI = 43;
private static final int MSG_ON_TRACKED_BY_NON_UI_SERVICE = 44;
private static final int MSG_ON_CALL_ENDPOINT_CHANGED = 45;
private static final int MSG_ON_AVAILABLE_CALL_ENDPOINTS_CHANGED = 46;
private static final int MSG_ON_MUTE_STATE_CHANGED = 47;
private static Connection sNullConnection;
private final Map<String, Connection> mConnectionById = new ConcurrentHashMap<>();
private final Map<Connection, String> mIdByConnection = new ConcurrentHashMap<>();
private final Map<String, Conference> mConferenceById = new ConcurrentHashMap<>();
private final Map<Conference, String> mIdByConference = new ConcurrentHashMap<>();
private final RemoteConnectionManager mRemoteConnectionManager =
new RemoteConnectionManager(this);
private final List<Runnable> mPreInitializationConnectionRequests = new ArrayList<>();
private final ConnectionServiceAdapter mAdapter = new ConnectionServiceAdapter();
private boolean mAreAccountsInitialized = false;
private Conference sNullConference;
private Object mIdSyncRoot = new Object();
private int mId = 0;
private final IBinder mBinder = new IConnectionService.Stub() {
@Override
public void addConnectionServiceAdapter(IConnectionServiceAdapter adapter,
Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_ADD_CS_ADAPTER);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = adapter;
args.arg2 = Log.createSubsession();
mHandler.obtainMessage(MSG_ADD_CONNECTION_SERVICE_ADAPTER, args).sendToTarget();
} finally {
Log.endSession();
}
}
public void removeConnectionServiceAdapter(IConnectionServiceAdapter adapter,
Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_REMOVE_CS_ADAPTER);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = adapter;
args.arg2 = Log.createSubsession();
mHandler.obtainMessage(MSG_REMOVE_CONNECTION_SERVICE_ADAPTER, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void createConnection(
PhoneAccountHandle connectionManagerPhoneAccount,
String id,
ConnectionRequest request,
boolean isIncoming,
boolean isUnknown,
Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_CREATE_CONN);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = connectionManagerPhoneAccount;
args.arg2 = id;
args.arg3 = request;
args.arg4 = Log.createSubsession();
args.argi1 = isIncoming ? 1 : 0;
args.argi2 = isUnknown ? 1 : 0;
mHandler.obtainMessage(MSG_CREATE_CONNECTION, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void createConnectionComplete(String id, Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_CREATE_CONN_COMPLETE);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = id;
args.arg2 = Log.createSubsession();
mHandler.obtainMessage(MSG_CREATE_CONNECTION_COMPLETE, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void createConnectionFailed(
PhoneAccountHandle connectionManagerPhoneAccount,
String callId,
ConnectionRequest request,
boolean isIncoming,
Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_CREATE_CONN_FAILED);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.arg2 = request;
args.arg3 = Log.createSubsession();
args.arg4 = connectionManagerPhoneAccount;
args.argi1 = isIncoming ? 1 : 0;
mHandler.obtainMessage(MSG_CREATE_CONNECTION_FAILED, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void createConference(
PhoneAccountHandle connectionManagerPhoneAccount,
String id,
ConnectionRequest request,
boolean isIncoming,
boolean isUnknown,
Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_CREATE_CONF);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = connectionManagerPhoneAccount;
args.arg2 = id;
args.arg3 = request;
args.arg4 = Log.createSubsession();
args.argi1 = isIncoming ? 1 : 0;
args.argi2 = isUnknown ? 1 : 0;
mHandler.obtainMessage(MSG_CREATE_CONFERENCE, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void createConferenceComplete(String id, Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_CREATE_CONF_COMPLETE);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = id;
args.arg2 = Log.createSubsession();
mHandler.obtainMessage(MSG_CREATE_CONFERENCE_COMPLETE, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void createConferenceFailed(
PhoneAccountHandle connectionManagerPhoneAccount,
String callId,
ConnectionRequest request,
boolean isIncoming,
Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_CREATE_CONF_FAILED);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.arg2 = request;
args.arg3 = Log.createSubsession();
args.arg4 = connectionManagerPhoneAccount;
args.argi1 = isIncoming ? 1 : 0;
mHandler.obtainMessage(MSG_CREATE_CONFERENCE_FAILED, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void handoverFailed(String callId, ConnectionRequest request, int reason,
Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_HANDOVER_FAILED);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.arg2 = request;
args.arg3 = Log.createSubsession();
args.arg4 = reason;
mHandler.obtainMessage(MSG_HANDOVER_FAILED, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void handoverComplete(String callId, Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_HANDOVER_COMPLETE);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.arg2 = Log.createSubsession();
mHandler.obtainMessage(MSG_HANDOVER_COMPLETE, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void abort(String callId, Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_ABORT);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.arg2 = Log.createSubsession();
mHandler.obtainMessage(MSG_ABORT, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void answerVideo(String callId, int videoState, Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_ANSWER_VIDEO);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.arg2 = Log.createSubsession();
args.argi1 = videoState;
mHandler.obtainMessage(MSG_ANSWER_VIDEO, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void answer(String callId, Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_ANSWER);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.arg2 = Log.createSubsession();
mHandler.obtainMessage(MSG_ANSWER, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void deflect(String callId, Uri address, Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_DEFLECT);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.arg2 = address;
args.arg3 = Log.createSubsession();
mHandler.obtainMessage(MSG_DEFLECT, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void reject(String callId, Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_REJECT);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.arg2 = Log.createSubsession();
mHandler.obtainMessage(MSG_REJECT, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void rejectWithReason(String callId,
@android.telecom.Call.RejectReason int rejectReason, Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_REJECT);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.argi1 = rejectReason;
args.arg2 = Log.createSubsession();
mHandler.obtainMessage(MSG_REJECT_WITH_REASON, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void rejectWithMessage(String callId, String message, Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_REJECT_MESSAGE);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.arg2 = message;
args.arg3 = Log.createSubsession();
mHandler.obtainMessage(MSG_REJECT_WITH_MESSAGE, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void transfer(@NonNull String callId, @NonNull Uri number,
boolean isConfirmationRequired, Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_TRANSFER);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.arg2 = number;
args.argi1 = isConfirmationRequired ? 1 : 0;
args.arg3 = Log.createSubsession();
mHandler.obtainMessage(MSG_EXPLICIT_CALL_TRANSFER, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void consultativeTransfer(@NonNull String callId, @NonNull String otherCallId,
Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_CONSULTATIVE_TRANSFER);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.arg2 = otherCallId;
args.arg3 = Log.createSubsession();
mHandler.obtainMessage(
MSG_EXPLICIT_CALL_TRANSFER_CONSULTATIVE, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void silence(String callId, Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_SILENCE);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.arg2 = Log.createSubsession();
mHandler.obtainMessage(MSG_SILENCE, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void disconnect(String callId, Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_DISCONNECT);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.arg2 = Log.createSubsession();
mHandler.obtainMessage(MSG_DISCONNECT, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void hold(String callId, Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_HOLD);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.arg2 = Log.createSubsession();
mHandler.obtainMessage(MSG_HOLD, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void unhold(String callId, Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_UNHOLD);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.arg2 = Log.createSubsession();
mHandler.obtainMessage(MSG_UNHOLD, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void onCallAudioStateChanged(String callId, CallAudioState callAudioState,
Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_CALL_AUDIO_SC);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.arg2 = callAudioState;
args.arg3 = Log.createSubsession();
mHandler.obtainMessage(MSG_ON_CALL_AUDIO_STATE_CHANGED, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void onCallEndpointChanged(String callId, CallEndpoint callEndpoint,
Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_CALL_ENDPOINT_CHANGED);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.arg2 = callEndpoint;
args.arg3 = Log.createSubsession();
mHandler.obtainMessage(MSG_ON_CALL_ENDPOINT_CHANGED, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void onAvailableCallEndpointsChanged(String callId,
List<CallEndpoint> availableCallEndpoints, Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_AVAILABLE_CALL_ENDPOINTS_CHANGED);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.arg2 = availableCallEndpoints;
args.arg3 = Log.createSubsession();
mHandler.obtainMessage(MSG_ON_AVAILABLE_CALL_ENDPOINTS_CHANGED, args)
.sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void onMuteStateChanged(String callId, boolean isMuted, Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_MUTE_STATE_CHANGED);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.arg2 = isMuted;
args.arg3 = Log.createSubsession();
mHandler.obtainMessage(MSG_ON_MUTE_STATE_CHANGED, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void onUsingAlternativeUi(String callId, boolean usingAlternativeUiShowing,
Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_USING_ALTERNATIVE_UI);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.arg2 = usingAlternativeUiShowing;
args.arg3 = Log.createSubsession();
mHandler.obtainMessage(MSG_ON_USING_ALTERNATIVE_UI, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void onTrackedByNonUiService(String callId, boolean isTracked,
Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_TRACKED_BY_NON_UI_SERVICE);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.arg2 = isTracked;
args.arg3 = Log.createSubsession();
mHandler.obtainMessage(MSG_ON_TRACKED_BY_NON_UI_SERVICE, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void playDtmfTone(String callId, char digit, Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_PLAY_DTMF);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = digit;
args.arg2 = callId;
args.arg3 = Log.createSubsession();
mHandler.obtainMessage(MSG_PLAY_DTMF_TONE, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void stopDtmfTone(String callId, Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_STOP_DTMF);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.arg2 = Log.createSubsession();
mHandler.obtainMessage(MSG_STOP_DTMF_TONE, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void conference(String callId1, String callId2, Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_CONFERENCE);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId1;
args.arg2 = callId2;
args.arg3 = Log.createSubsession();
mHandler.obtainMessage(MSG_CONFERENCE, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void splitFromConference(String callId, Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_SPLIT_CONFERENCE);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.arg2 = Log.createSubsession();
mHandler.obtainMessage(MSG_SPLIT_FROM_CONFERENCE, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void mergeConference(String callId, Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_MERGE_CONFERENCE);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.arg2 = Log.createSubsession();
mHandler.obtainMessage(MSG_MERGE_CONFERENCE, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void swapConference(String callId, Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_SWAP_CONFERENCE);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.arg2 = Log.createSubsession();
mHandler.obtainMessage(MSG_SWAP_CONFERENCE, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void addConferenceParticipants(String callId, List<Uri> participants,
Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_ADD_PARTICIPANT);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.arg2 = participants;
args.arg3 = Log.createSubsession();
mHandler.obtainMessage(MSG_ADD_PARTICIPANT, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void onPostDialContinue(String callId, boolean proceed, Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_POST_DIAL_CONT);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.arg2 = Log.createSubsession();
args.argi1 = proceed ? 1 : 0;
mHandler.obtainMessage(MSG_ON_POST_DIAL_CONTINUE, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void pullExternalCall(String callId, Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_PULL_EXTERNAL_CALL);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.arg2 = Log.createSubsession();
mHandler.obtainMessage(MSG_PULL_EXTERNAL_CALL, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void sendCallEvent(String callId, String event, Bundle extras,
Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_SEND_CALL_EVENT);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.arg2 = event;
args.arg3 = extras;
args.arg4 = Log.createSubsession();
mHandler.obtainMessage(MSG_SEND_CALL_EVENT, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void onCallFilteringCompleted(String callId,
Connection.CallFilteringCompletionInfo completionInfo,
Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_CALL_FILTERING_COMPLETED);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.arg2 = completionInfo;
args.arg3 = Log.createSubsession();
mHandler.obtainMessage(MSG_ON_CALL_FILTERING_COMPLETED, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void onExtrasChanged(String callId, Bundle extras, Session.Info sessionInfo) {
Log.startSession(sessionInfo, SESSION_EXTRAS_CHANGED);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.arg2 = extras;
args.arg3 = Log.createSubsession();
mHandler.obtainMessage(MSG_ON_EXTRAS_CHANGED, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void startRtt(String callId, ParcelFileDescriptor fromInCall,
ParcelFileDescriptor toInCall, Session.Info sessionInfo) throws RemoteException {
Log.startSession(sessionInfo, SESSION_START_RTT);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.arg2 = new Connection.RttTextStream(toInCall, fromInCall);
args.arg3 = Log.createSubsession();
mHandler.obtainMessage(MSG_ON_START_RTT, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void stopRtt(String callId, Session.Info sessionInfo) throws RemoteException {
Log.startSession(sessionInfo, SESSION_STOP_RTT);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.arg2 = Log.createSubsession();
mHandler.obtainMessage(MSG_ON_STOP_RTT, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void respondToRttUpgradeRequest(String callId, ParcelFileDescriptor fromInCall,
ParcelFileDescriptor toInCall, Session.Info sessionInfo) throws RemoteException {
Log.startSession(sessionInfo, SESSION_RTT_UPGRADE_RESPONSE);
try {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
if (toInCall == null || fromInCall == null) {
args.arg2 = null;
} else {
args.arg2 = new Connection.RttTextStream(toInCall, fromInCall);
}
args.arg3 = Log.createSubsession();
mHandler.obtainMessage(MSG_RTT_UPGRADE_RESPONSE, args).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void connectionServiceFocusLost(Session.Info sessionInfo) throws RemoteException {
Log.startSession(sessionInfo, SESSION_CONNECTION_SERVICE_FOCUS_LOST);
try {
mHandler.obtainMessage(MSG_CONNECTION_SERVICE_FOCUS_LOST).sendToTarget();
} finally {
Log.endSession();
}
}
@Override
public void connectionServiceFocusGained(Session.Info sessionInfo) throws RemoteException {
Log.startSession(sessionInfo, SESSION_CONNECTION_SERVICE_FOCUS_GAINED);
try {
mHandler.obtainMessage(MSG_CONNECTION_SERVICE_FOCUS_GAINED).sendToTarget();
} finally {
Log.endSession();
}
}
};
private final Handler mHandler = new Handler(Looper.getMainLooper()) {
@Override
public void handleMessage(Message msg) {
switch (msg.what) {
case MSG_ADD_CONNECTION_SERVICE_ADAPTER: {
SomeArgs args = (SomeArgs) msg.obj;
try {
IConnectionServiceAdapter adapter = (IConnectionServiceAdapter) args.arg1;
Log.continueSession((Session) args.arg2,
SESSION_HANDLER + SESSION_ADD_CS_ADAPTER);
mAdapter.addAdapter(adapter);
onAdapterAttached();
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_REMOVE_CONNECTION_SERVICE_ADAPTER: {
SomeArgs args = (SomeArgs) msg.obj;
try {
Log.continueSession((Session) args.arg2,
SESSION_HANDLER + SESSION_REMOVE_CS_ADAPTER);
mAdapter.removeAdapter((IConnectionServiceAdapter) args.arg1);
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_CREATE_CONNECTION: {
SomeArgs args = (SomeArgs) msg.obj;
Log.continueSession((Session) args.arg4, SESSION_HANDLER + SESSION_CREATE_CONN);
try {
final PhoneAccountHandle connectionManagerPhoneAccount =
(PhoneAccountHandle) args.arg1;
final String id = (String) args.arg2;
final ConnectionRequest request = (ConnectionRequest) args.arg3;
final boolean isIncoming = args.argi1 == 1;
final boolean isUnknown = args.argi2 == 1;
if (!mAreAccountsInitialized) {
Log.d(this, "Enqueueing pre-init request %s", id);
mPreInitializationConnectionRequests.add(
new android.telecom.Logging.Runnable(
SESSION_HANDLER + SESSION_CREATE_CONN + ".pICR",
null /*lock*/) {
@Override
public void loggedRun() {
createConnection(
connectionManagerPhoneAccount,
id,
request,
isIncoming,
isUnknown);
}
}.prepare());
} else {
createConnection(
connectionManagerPhoneAccount,
id,
request,
isIncoming,
isUnknown);
}
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_CREATE_CONNECTION_COMPLETE: {
SomeArgs args = (SomeArgs) msg.obj;
Log.continueSession((Session) args.arg2,
SESSION_HANDLER + SESSION_CREATE_CONN_COMPLETE);
try {
final String id = (String) args.arg1;
if (!mAreAccountsInitialized) {
Log.d(this, "Enqueueing pre-init request %s", id);
mPreInitializationConnectionRequests.add(
new android.telecom.Logging.Runnable(
SESSION_HANDLER + SESSION_CREATE_CONN_COMPLETE
+ ".pICR",
null /*lock*/) {
@Override
public void loggedRun() {
notifyCreateConnectionComplete(id);
}
}.prepare());
} else {
notifyCreateConnectionComplete(id);
}
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_CREATE_CONNECTION_FAILED: {
SomeArgs args = (SomeArgs) msg.obj;
Log.continueSession((Session) args.arg3, SESSION_HANDLER +
SESSION_CREATE_CONN_FAILED);
try {
final String id = (String) args.arg1;
final ConnectionRequest request = (ConnectionRequest) args.arg2;
final boolean isIncoming = args.argi1 == 1;
final PhoneAccountHandle connectionMgrPhoneAccount =
(PhoneAccountHandle) args.arg4;
if (!mAreAccountsInitialized) {
Log.d(this, "Enqueueing pre-init request %s", id);
mPreInitializationConnectionRequests.add(
new android.telecom.Logging.Runnable(
SESSION_HANDLER + SESSION_CREATE_CONN_FAILED + ".pICR",
null /*lock*/) {
@Override
public void loggedRun() {
createConnectionFailed(connectionMgrPhoneAccount, id,
request, isIncoming);
}
}.prepare());
} else {
Log.i(this, "createConnectionFailed %s", id);
createConnectionFailed(connectionMgrPhoneAccount, id, request,
isIncoming);
}
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_CREATE_CONFERENCE: {
SomeArgs args = (SomeArgs) msg.obj;
Log.continueSession((Session) args.arg4, SESSION_HANDLER + SESSION_CREATE_CONN);
try {
final PhoneAccountHandle connectionManagerPhoneAccount =
(PhoneAccountHandle) args.arg1;
final String id = (String) args.arg2;
final ConnectionRequest request = (ConnectionRequest) args.arg3;
final boolean isIncoming = args.argi1 == 1;
final boolean isUnknown = args.argi2 == 1;
if (!mAreAccountsInitialized) {
Log.d(this, "Enqueueing pre-initconference request %s", id);
mPreInitializationConnectionRequests.add(
new android.telecom.Logging.Runnable(
SESSION_HANDLER + SESSION_CREATE_CONF + ".pIConfR",
null /*lock*/) {
@Override
public void loggedRun() {
createConference(connectionManagerPhoneAccount,
id,
request,
isIncoming,
isUnknown);
}
}.prepare());
} else {
createConference(connectionManagerPhoneAccount,
id,
request,
isIncoming,
isUnknown);
}
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_CREATE_CONFERENCE_COMPLETE: {
SomeArgs args = (SomeArgs) msg.obj;
Log.continueSession((Session) args.arg2,
SESSION_HANDLER + SESSION_CREATE_CONN_COMPLETE);
try {
final String id = (String) args.arg1;
if (!mAreAccountsInitialized) {
Log.d(this, "Enqueueing pre-init conference request %s", id);
mPreInitializationConnectionRequests.add(
new android.telecom.Logging.Runnable(
SESSION_HANDLER + SESSION_CREATE_CONF_COMPLETE
+ ".pIConfR",
null /*lock*/) {
@Override
public void loggedRun() {
notifyCreateConferenceComplete(id);
}
}.prepare());
} else {
notifyCreateConferenceComplete(id);
}
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_CREATE_CONFERENCE_FAILED: {
SomeArgs args = (SomeArgs) msg.obj;
Log.continueSession((Session) args.arg3, SESSION_HANDLER +
SESSION_CREATE_CONN_FAILED);
try {
final String id = (String) args.arg1;
final ConnectionRequest request = (ConnectionRequest) args.arg2;
final boolean isIncoming = args.argi1 == 1;
final PhoneAccountHandle connectionMgrPhoneAccount =
(PhoneAccountHandle) args.arg4;
if (!mAreAccountsInitialized) {
Log.d(this, "Enqueueing pre-init conference request %s", id);
mPreInitializationConnectionRequests.add(
new android.telecom.Logging.Runnable(
SESSION_HANDLER + SESSION_CREATE_CONF_FAILED
+ ".pIConfR",
null /*lock*/) {
@Override
public void loggedRun() {
createConferenceFailed(connectionMgrPhoneAccount, id,
request, isIncoming);
}
}.prepare());
} else {
Log.i(this, "createConferenceFailed %s", id);
createConferenceFailed(connectionMgrPhoneAccount, id, request,
isIncoming);
}
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_HANDOVER_FAILED: {
SomeArgs args = (SomeArgs) msg.obj;
Log.continueSession((Session) args.arg3, SESSION_HANDLER +
SESSION_HANDOVER_FAILED);
try {
final String id = (String) args.arg1;
final ConnectionRequest request = (ConnectionRequest) args.arg2;
final int reason = (int) args.arg4;
if (!mAreAccountsInitialized) {
Log.d(this, "Enqueueing pre-init request %s", id);
mPreInitializationConnectionRequests.add(
new android.telecom.Logging.Runnable(
SESSION_HANDLER
+ SESSION_HANDOVER_FAILED + ".pICR",
null /*lock*/) {
@Override
public void loggedRun() {
handoverFailed(id, request, reason);
}
}.prepare());
} else {
Log.i(this, "createConnectionFailed %s", id);
handoverFailed(id, request, reason);
}
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_ABORT: {
SomeArgs args = (SomeArgs) msg.obj;
Log.continueSession((Session) args.arg2, SESSION_HANDLER + SESSION_ABORT);
try {
abort((String) args.arg1);
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_ANSWER: {
SomeArgs args = (SomeArgs) msg.obj;
Log.continueSession((Session) args.arg2, SESSION_HANDLER + SESSION_ANSWER);
try {
answer((String) args.arg1);
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_ANSWER_VIDEO: {
SomeArgs args = (SomeArgs) msg.obj;
Log.continueSession((Session) args.arg2,
SESSION_HANDLER + SESSION_ANSWER_VIDEO);
try {
String callId = (String) args.arg1;
int videoState = args.argi1;
answerVideo(callId, videoState);
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_DEFLECT: {
SomeArgs args = (SomeArgs) msg.obj;
Log.continueSession((Session) args.arg3, SESSION_HANDLER + SESSION_DEFLECT);
try {
deflect((String) args.arg1, (Uri) args.arg2);
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_REJECT: {
SomeArgs args = (SomeArgs) msg.obj;
Log.continueSession((Session) args.arg2, SESSION_HANDLER + SESSION_REJECT);
try {
reject((String) args.arg1);
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_REJECT_WITH_REASON: {
SomeArgs args = (SomeArgs) msg.obj;
Log.continueSession((Session) args.arg2, SESSION_HANDLER + SESSION_REJECT);
try {
reject((String) args.arg1, args.argi1);
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_REJECT_WITH_MESSAGE: {
SomeArgs args = (SomeArgs) msg.obj;
Log.continueSession((Session) args.arg3,
SESSION_HANDLER + SESSION_REJECT_MESSAGE);
try {
reject((String) args.arg1, (String) args.arg2);
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_EXPLICIT_CALL_TRANSFER: {
SomeArgs args = (SomeArgs) msg.obj;
Log.continueSession((Session) args.arg3, SESSION_HANDLER + SESSION_TRANSFER);
try {
final boolean isConfirmationRequired = args.argi1 == 1;
transfer((String) args.arg1, (Uri) args.arg2, isConfirmationRequired);
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_EXPLICIT_CALL_TRANSFER_CONSULTATIVE: {
SomeArgs args = (SomeArgs) msg.obj;
Log.continueSession(
(Session) args.arg3, SESSION_HANDLER + SESSION_CONSULTATIVE_TRANSFER);
try {
consultativeTransfer((String) args.arg1, (String) args.arg2);
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_DISCONNECT: {
SomeArgs args = (SomeArgs) msg.obj;
Log.continueSession((Session) args.arg2, SESSION_HANDLER + SESSION_DISCONNECT);
try {
disconnect((String) args.arg1);
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_SILENCE: {
SomeArgs args = (SomeArgs) msg.obj;
Log.continueSession((Session) args.arg2, SESSION_HANDLER + SESSION_SILENCE);
try {
silence((String) args.arg1);
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_HOLD: {
SomeArgs args = (SomeArgs) msg.obj;
Log.continueSession((Session) args.arg2, SESSION_HANDLER + SESSION_REJECT);
try {
hold((String) args.arg1);
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_UNHOLD: {
SomeArgs args = (SomeArgs) msg.obj;
Log.continueSession((Session) args.arg2, SESSION_HANDLER + SESSION_UNHOLD);
try {
unhold((String) args.arg1);
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_ON_CALL_AUDIO_STATE_CHANGED: {
SomeArgs args = (SomeArgs) msg.obj;
Log.continueSession((Session) args.arg3,
SESSION_HANDLER + SESSION_CALL_AUDIO_SC);
try {
String callId = (String) args.arg1;
CallAudioState audioState = (CallAudioState) args.arg2;
onCallAudioStateChanged(callId, new CallAudioState(audioState));
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_ON_USING_ALTERNATIVE_UI: {
SomeArgs args = (SomeArgs) msg.obj;
Log.continueSession((Session) args.arg3,
SESSION_HANDLER + SESSION_USING_ALTERNATIVE_UI);
try {
String callId = (String) args.arg1;
boolean isUsingAlternativeUi = (boolean) args.arg2;
onUsingAlternativeUi(callId, isUsingAlternativeUi);
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_ON_TRACKED_BY_NON_UI_SERVICE: {
SomeArgs args = (SomeArgs) msg.obj;
Log.continueSession((Session) args.arg3,
SESSION_HANDLER + SESSION_TRACKED_BY_NON_UI_SERVICE);
try {
String callId = (String) args.arg1;
boolean isTracked = (boolean) args.arg2;
onTrackedByNonUiService(callId, isTracked);
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_PLAY_DTMF_TONE: {
SomeArgs args = (SomeArgs) msg.obj;
try {
Log.continueSession((Session) args.arg3,
SESSION_HANDLER + SESSION_PLAY_DTMF);
playDtmfTone((String) args.arg2, (char) args.arg1);
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_STOP_DTMF_TONE: {
SomeArgs args = (SomeArgs) msg.obj;
try {
Log.continueSession((Session) args.arg2,
SESSION_HANDLER + SESSION_STOP_DTMF);
stopDtmfTone((String) args.arg1);
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_CONFERENCE: {
SomeArgs args = (SomeArgs) msg.obj;
try {
Log.continueSession((Session) args.arg3,
SESSION_HANDLER + SESSION_CONFERENCE);
String callId1 = (String) args.arg1;
String callId2 = (String) args.arg2;
conference(callId1, callId2);
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_SPLIT_FROM_CONFERENCE: {
SomeArgs args = (SomeArgs) msg.obj;
try {
Log.continueSession((Session) args.arg2,
SESSION_HANDLER + SESSION_SPLIT_CONFERENCE);
splitFromConference((String) args.arg1);
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_MERGE_CONFERENCE: {
SomeArgs args = (SomeArgs) msg.obj;
try {
Log.continueSession((Session) args.arg2,
SESSION_HANDLER + SESSION_MERGE_CONFERENCE);
mergeConference((String) args.arg1);
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_SWAP_CONFERENCE: {
SomeArgs args = (SomeArgs) msg.obj;
try {
Log.continueSession((Session) args.arg2,
SESSION_HANDLER + SESSION_SWAP_CONFERENCE);
swapConference((String) args.arg1);
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_ADD_PARTICIPANT: {
SomeArgs args = (SomeArgs) msg.obj;
try {
Log.continueSession((Session) args.arg3,
SESSION_HANDLER + SESSION_ADD_PARTICIPANT);
addConferenceParticipants((String) args.arg1, (List<Uri>)args.arg2);
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_ON_POST_DIAL_CONTINUE: {
SomeArgs args = (SomeArgs) msg.obj;
try {
Log.continueSession((Session) args.arg2,
SESSION_HANDLER + SESSION_POST_DIAL_CONT);
String callId = (String) args.arg1;
boolean proceed = (args.argi1 == 1);
onPostDialContinue(callId, proceed);
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_PULL_EXTERNAL_CALL: {
SomeArgs args = (SomeArgs) msg.obj;
try {
Log.continueSession((Session) args.arg2,
SESSION_HANDLER + SESSION_PULL_EXTERNAL_CALL);
pullExternalCall((String) args.arg1);
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_SEND_CALL_EVENT: {
SomeArgs args = (SomeArgs) msg.obj;
try {
Log.continueSession((Session) args.arg4,
SESSION_HANDLER + SESSION_SEND_CALL_EVENT);
String callId = (String) args.arg1;
String event = (String) args.arg2;
Bundle extras = (Bundle) args.arg3;
sendCallEvent(callId, event, extras);
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_ON_CALL_FILTERING_COMPLETED: {
SomeArgs args = (SomeArgs) msg.obj;
try {
Log.continueSession((Session) args.arg3,
SESSION_HANDLER + SESSION_CALL_FILTERING_COMPLETED);
String callId = (String) args.arg1;
Connection.CallFilteringCompletionInfo completionInfo =
(Connection.CallFilteringCompletionInfo) args.arg2;
onCallFilteringCompleted(callId, completionInfo);
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_HANDOVER_COMPLETE: {
SomeArgs args = (SomeArgs) msg.obj;
try {
Log.continueSession((Session) args.arg2,
SESSION_HANDLER + SESSION_HANDOVER_COMPLETE);
String callId = (String) args.arg1;
notifyHandoverComplete(callId);
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_ON_EXTRAS_CHANGED: {
SomeArgs args = (SomeArgs) msg.obj;
try {
Log.continueSession((Session) args.arg3,
SESSION_HANDLER + SESSION_EXTRAS_CHANGED);
String callId = (String) args.arg1;
Bundle extras = (Bundle) args.arg2;
handleExtrasChanged(callId, extras);
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_ON_START_RTT: {
SomeArgs args = (SomeArgs) msg.obj;
try {
Log.continueSession((Session) args.arg3,
SESSION_HANDLER + SESSION_START_RTT);
String callId = (String) args.arg1;
Connection.RttTextStream rttTextStream =
(Connection.RttTextStream) args.arg2;
startRtt(callId, rttTextStream);
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_ON_STOP_RTT: {
SomeArgs args = (SomeArgs) msg.obj;
try {
Log.continueSession((Session) args.arg2,
SESSION_HANDLER + SESSION_STOP_RTT);
String callId = (String) args.arg1;
stopRtt(callId);
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_RTT_UPGRADE_RESPONSE: {
SomeArgs args = (SomeArgs) msg.obj;
try {
Log.continueSession((Session) args.arg3,
SESSION_HANDLER + SESSION_RTT_UPGRADE_RESPONSE);
String callId = (String) args.arg1;
Connection.RttTextStream rttTextStream =
(Connection.RttTextStream) args.arg2;
handleRttUpgradeResponse(callId, rttTextStream);
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_CONNECTION_SERVICE_FOCUS_GAINED:
onConnectionServiceFocusGained();
break;
case MSG_CONNECTION_SERVICE_FOCUS_LOST:
onConnectionServiceFocusLost();
break;
case MSG_ON_CALL_ENDPOINT_CHANGED: {
SomeArgs args = (SomeArgs) msg.obj;
Log.continueSession((Session) args.arg3,
SESSION_HANDLER + SESSION_CALL_AUDIO_SC);
try {
String callId = (String) args.arg1;
CallEndpoint callEndpoint = (CallEndpoint) args.arg2;
onCallEndpointChanged(callId, callEndpoint);
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_ON_AVAILABLE_CALL_ENDPOINTS_CHANGED: {
SomeArgs args = (SomeArgs) msg.obj;
Log.continueSession((Session) args.arg3,
SESSION_HANDLER + SESSION_CALL_AUDIO_SC);
try {
String callId = (String) args.arg1;
List<CallEndpoint> availableCallEndpoints = (List<CallEndpoint>) args.arg2;
onAvailableCallEndpointsChanged(callId, availableCallEndpoints);
} finally {
args.recycle();
Log.endSession();
}
break;
}
case MSG_ON_MUTE_STATE_CHANGED: {
SomeArgs args = (SomeArgs) msg.obj;
Log.continueSession((Session) args.arg3,
SESSION_HANDLER + SESSION_CALL_AUDIO_SC);
try {
String callId = (String) args.arg1;
boolean isMuted = (boolean) args.arg2;
onMuteStateChanged(callId, isMuted);
} finally {
args.recycle();
Log.endSession();
}
break;
}
default:
break;
}
}
};
private final Conference.Listener mConferenceListener = new Conference.Listener() {
@Override
public void onStateChanged(Conference conference, int oldState, int newState) {
String id = mIdByConference.get(conference);
switch (newState) {
case Connection.STATE_RINGING:
mAdapter.setRinging(id);
break;
case Connection.STATE_DIALING:
mAdapter.setDialing(id);
break;
case Connection.STATE_ACTIVE:
mAdapter.setActive(id);
break;
case Connection.STATE_HOLDING:
mAdapter.setOnHold(id);
break;
case Connection.STATE_DISCONNECTED:
// handled by onDisconnected
break;
}
}
@Override
public void onDisconnected(Conference conference, DisconnectCause disconnectCause) {
String id = mIdByConference.get(conference);
mAdapter.setDisconnected(id, disconnectCause);
}
@Override
public void onConnectionAdded(Conference conference, Connection connection) {
}
@Override
public void onConnectionRemoved(Conference conference, Connection connection) {
}
@Override
public void onConferenceableConnectionsChanged(
Conference conference, List<Connection> conferenceableConnections) {
mAdapter.setConferenceableConnections(
mIdByConference.get(conference),
createConnectionIdList(conferenceableConnections));
}
@Override
public void onDestroyed(Conference conference) {
removeConference(conference);
}
@Override
public void onConnectionCapabilitiesChanged(
Conference conference,
int connectionCapabilities) {
String id = mIdByConference.get(conference);
Log.d(this, "call capabilities: conference: %s",
Connection.capabilitiesToString(connectionCapabilities));
mAdapter.setConnectionCapabilities(id, connectionCapabilities);
}
@Override
public void onConnectionPropertiesChanged(
Conference conference,
int connectionProperties) {
String id = mIdByConference.get(conference);
Log.d(this, "call capabilities: conference: %s",
Connection.propertiesToString(connectionProperties));
mAdapter.setConnectionProperties(id, connectionProperties);
}
@Override
public void onVideoStateChanged(Conference c, int videoState) {
String id = mIdByConference.get(c);
Log.d(this, "onVideoStateChanged set video state %d", videoState);
mAdapter.setVideoState(id, videoState);
}
@Override
public void onVideoProviderChanged(Conference c, Connection.VideoProvider videoProvider) {
String id = mIdByConference.get(c);
Log.d(this, "onVideoProviderChanged: Connection: %s, VideoProvider: %s", c,
videoProvider);
mAdapter.setVideoProvider(id, videoProvider);
}
@Override
public void onStatusHintsChanged(Conference conference, StatusHints statusHints) {
String id = mIdByConference.get(conference);
if (id != null) {
mAdapter.setStatusHints(id, statusHints);
}
}
@Override
public void onExtrasChanged(Conference c, Bundle extras) {
String id = mIdByConference.get(c);
if (id != null) {
mAdapter.putExtras(id, extras);
}
}
@Override
public void onExtrasRemoved(Conference c, List<String> keys) {
String id = mIdByConference.get(c);
if (id != null) {
mAdapter.removeExtras(id, keys);
}
}
@Override
public void onConferenceStateChanged(Conference c, boolean isConference) {
String id = mIdByConference.get(c);
if (id != null) {
mAdapter.setConferenceState(id, isConference);
}
}
@Override
public void onCallDirectionChanged(Conference c, int direction) {
String id = mIdByConference.get(c);
if (id != null) {
mAdapter.setCallDirection(id, direction);
}
}
@Override
public void onAddressChanged(Conference c, Uri newAddress, int presentation) {
String id = mIdByConference.get(c);
if (id != null) {
mAdapter.setAddress(id, newAddress, presentation);
}
}
@Override
public void onCallerDisplayNameChanged(Conference c, String callerDisplayName,
int presentation) {
String id = mIdByConference.get(c);
if (id != null) {
mAdapter.setCallerDisplayName(id, callerDisplayName, presentation);
}
}
@Override
public void onConnectionEvent(Conference c, String event, Bundle extras) {
String id = mIdByConference.get(c);
if (id != null) {
mAdapter.onConnectionEvent(id, event, extras);
}
}
@Override
public void onRingbackRequested(Conference c, boolean ringback) {
String id = mIdByConference.get(c);
Log.d(this, "Adapter conference onRingback %b", ringback);
mAdapter.setRingbackRequested(id, ringback);
}
};
private final Connection.Listener mConnectionListener = new Connection.Listener() {
@Override
public void onStateChanged(Connection c, int state) {
String id = mIdByConnection.get(c);
Log.d(this, "Adapter set state %s %s", id, Connection.stateToString(state));
switch (state) {
case Connection.STATE_ACTIVE:
mAdapter.setActive(id);
break;
case Connection.STATE_DIALING:
mAdapter.setDialing(id);
break;
case Connection.STATE_PULLING_CALL:
mAdapter.setPulling(id);
break;
case Connection.STATE_DISCONNECTED:
// Handled in onDisconnected()
break;
case Connection.STATE_HOLDING:
mAdapter.setOnHold(id);
break;
case Connection.STATE_NEW:
// Nothing to tell Telecom
break;
case Connection.STATE_RINGING:
mAdapter.setRinging(id);
break;
}
}
@Override
public void onDisconnected(Connection c, DisconnectCause disconnectCause) {
String id = mIdByConnection.get(c);
Log.d(this, "Adapter set disconnected %s", disconnectCause);
mAdapter.setDisconnected(id, disconnectCause);
}
@Override
public void onVideoStateChanged(Connection c, int videoState) {
String id = mIdByConnection.get(c);
Log.d(this, "Adapter set video state %d", videoState);
mAdapter.setVideoState(id, videoState);
}
@Override
public void onAddressChanged(Connection c, Uri address, int presentation) {
String id = mIdByConnection.get(c);
mAdapter.setAddress(id, address, presentation);
}
@Override
public void onCallerDisplayNameChanged(
Connection c, String callerDisplayName, int presentation) {
String id = mIdByConnection.get(c);
mAdapter.setCallerDisplayName(id, callerDisplayName, presentation);
}
@Override
public void onDestroyed(Connection c) {
removeConnection(c);
}
@Override
public void onPostDialWait(Connection c, String remaining) {
String id = mIdByConnection.get(c);
Log.d(this, "Adapter onPostDialWait %s, %s", c, remaining);
mAdapter.onPostDialWait(id, remaining);
}
@Override
public void onPostDialChar(Connection c, char nextChar) {
String id = mIdByConnection.get(c);
Log.d(this, "Adapter onPostDialChar %s, %s", c, nextChar);
mAdapter.onPostDialChar(id, nextChar);
}
@Override
public void onRingbackRequested(Connection c, boolean ringback) {
String id = mIdByConnection.get(c);
Log.d(this, "Adapter onRingback %b", ringback);
mAdapter.setRingbackRequested(id, ringback);
}
@Override
public void onConnectionCapabilitiesChanged(Connection c, int capabilities) {
String id = mIdByConnection.get(c);
Log.d(this, "capabilities: parcelableconnection: %s",
Connection.capabilitiesToString(capabilities));
mAdapter.setConnectionCapabilities(id, capabilities);
}
@Override
public void onConnectionPropertiesChanged(Connection c, int properties) {
String id = mIdByConnection.get(c);
Log.d(this, "properties: parcelableconnection: %s",
Connection.propertiesToString(properties));
mAdapter.setConnectionProperties(id, properties);
}
@Override
public void onVideoProviderChanged(Connection c, Connection.VideoProvider videoProvider) {
String id = mIdByConnection.get(c);
Log.d(this, "onVideoProviderChanged: Connection: %s, VideoProvider: %s", c,
videoProvider);
mAdapter.setVideoProvider(id, videoProvider);
}
@Override
public void onAudioModeIsVoipChanged(Connection c, boolean isVoip) {
String id = mIdByConnection.get(c);
mAdapter.setIsVoipAudioMode(id, isVoip);
}
@Override
public void onStatusHintsChanged(Connection c, StatusHints statusHints) {
String id = mIdByConnection.get(c);
mAdapter.setStatusHints(id, statusHints);
}
@Override
public void onConferenceablesChanged(
Connection connection, List<Conferenceable> conferenceables) {
mAdapter.setConferenceableConnections(
mIdByConnection.get(connection),
createIdList(conferenceables));
}
@Override
public void onConferenceChanged(Connection connection, Conference conference) {
String id = mIdByConnection.get(connection);
if (id != null) {
String conferenceId = null;
if (conference != null) {
conferenceId = mIdByConference.get(conference);
}
mAdapter.setIsConferenced(id, conferenceId);
}
}
@Override
public void onConferenceMergeFailed(Connection connection) {
String id = mIdByConnection.get(connection);
if (id != null) {
mAdapter.onConferenceMergeFailed(id);
}
}
@Override
public void onExtrasChanged(Connection c, Bundle extras) {
String id = mIdByConnection.get(c);
if (id != null) {
mAdapter.putExtras(id, extras);
}
}
@Override
public void onExtrasRemoved(Connection c, List<String> keys) {
String id = mIdByConnection.get(c);
if (id != null) {
mAdapter.removeExtras(id, keys);
}
}
@Override
public void onConnectionEvent(Connection connection, String event, Bundle extras) {
String id = mIdByConnection.get(connection);
if (id != null) {
mAdapter.onConnectionEvent(id, event, extras);
}
}
@Override
public void onAudioRouteChanged(Connection c, int audioRoute, String bluetoothAddress) {
String id = mIdByConnection.get(c);
if (id != null) {
mAdapter.setAudioRoute(id, audioRoute, bluetoothAddress);
}
}
@Override
public void onRttInitiationSuccess(Connection c) {
String id = mIdByConnection.get(c);
if (id != null) {
mAdapter.onRttInitiationSuccess(id);
}
}
@Override
public void onRttInitiationFailure(Connection c, int reason) {
String id = mIdByConnection.get(c);
if (id != null) {
mAdapter.onRttInitiationFailure(id, reason);
}
}
@Override
public void onRttSessionRemotelyTerminated(Connection c) {
String id = mIdByConnection.get(c);
if (id != null) {
mAdapter.onRttSessionRemotelyTerminated(id);
}
}
@Override
public void onRemoteRttRequest(Connection c) {
String id = mIdByConnection.get(c);
if (id != null) {
mAdapter.onRemoteRttRequest(id);
}
}
@Override
public void onPhoneAccountChanged(Connection c, PhoneAccountHandle pHandle) {
String id = mIdByConnection.get(c);
if (id != null) {
mAdapter.onPhoneAccountChanged(id, pHandle);
}
}
public void onConnectionTimeReset(Connection c) {
String id = mIdByConnection.get(c);
if (id != null) {
mAdapter.resetConnectionTime(id);
}
}
@Override
public void onEndpointChanged(Connection c, CallEndpoint endpoint, Executor executor,
OutcomeReceiver<Void, CallEndpointException> callback) {
String id = mIdByConnection.get(c);
if (id != null) {
mAdapter.requestCallEndpointChange(id, endpoint, executor, callback);
}
}
@Override
public void onQueryLocation(Connection c, long timeoutMillis, @NonNull String provider,
@NonNull @CallbackExecutor Executor executor,
@NonNull OutcomeReceiver<Location, QueryLocationException> callback) {
String id = mIdByConnection.get(c);
if (id != null) {
mAdapter.queryLocation(id, timeoutMillis, provider, executor, callback);
}
}
};
/** {@inheritDoc} */
@Override
public final IBinder onBind(Intent intent) {
onBindClient(intent);
return mBinder;
}
/** {@inheritDoc} */
@Override
public boolean onUnbind(Intent intent) {
endAllConnections();
return super.onUnbind(intent);
}
/**
* Used for testing to let the test suite know when the connection service has been bound.
* @hide
*/
@TestApi
public void onBindClient(@Nullable Intent intent) {
}
/**
* This can be used by telecom to either create a new outgoing conference call or attach
* to an existing incoming conference call. In either case, telecom will cycle through a
* set of services and call createConference until a connection service cancels the process
* or completes it successfully.
*/
private void createConference(
final PhoneAccountHandle callManagerAccount,
final String callId,
final ConnectionRequest request,
boolean isIncoming,
boolean isUnknown) {
Conference conference = null;
conference = isIncoming ? onCreateIncomingConference(callManagerAccount, request)
: onCreateOutgoingConference(callManagerAccount, request);
Log.d(this, "createConference, conference: %s", conference);
if (conference == null) {
Log.i(this, "createConference, implementation returned null conference.");
conference = Conference.createFailedConference(
new DisconnectCause(DisconnectCause.ERROR, "IMPL_RETURNED_NULL_CONFERENCE"),
request.getAccountHandle());
}
Bundle extras = request.getExtras();
Bundle newExtras = new Bundle();
newExtras.putString(Connection.EXTRA_ORIGINAL_CONNECTION_ID, callId);
if (extras != null) {
// If the request originated from a remote connection service, we will add some
// tracking information that Telecom can use to keep informed of which package
// made the remote request, and which remote connection service was used.
if (extras.containsKey(Connection.EXTRA_REMOTE_CONNECTION_ORIGINATING_PACKAGE_NAME)) {
newExtras.putString(
Connection.EXTRA_REMOTE_CONNECTION_ORIGINATING_PACKAGE_NAME,
extras.getString(
Connection.EXTRA_REMOTE_CONNECTION_ORIGINATING_PACKAGE_NAME));
newExtras.putParcelable(Connection.EXTRA_REMOTE_PHONE_ACCOUNT_HANDLE,
request.getAccountHandle());
}
}
conference.putExtras(newExtras);
mConferenceById.put(callId, conference);
mIdByConference.put(conference, callId);
conference.addListener(mConferenceListener);
ParcelableConference parcelableConference = new ParcelableConference.Builder(
request.getAccountHandle(), conference.getState())
.setConnectionCapabilities(conference.getConnectionCapabilities())
.setConnectionProperties(conference.getConnectionProperties())
.setVideoAttributes(conference.getVideoProvider() == null
? null : conference.getVideoProvider().getInterface(),
conference.getVideoState())
.setConnectTimeMillis(conference.getConnectTimeMillis(),
conference.getConnectionStartElapsedRealtimeMillis())
.setStatusHints(conference.getStatusHints())
.setExtras(conference.getExtras())
.setAddress(conference.getAddress(), conference.getAddressPresentation())
.setCallerDisplayName(conference.getCallerDisplayName(),
conference.getCallerDisplayNamePresentation())
.setDisconnectCause(conference.getDisconnectCause())
.setRingbackRequested(conference.isRingbackRequested())
.build();
if (conference.getState() != Connection.STATE_DISCONNECTED) {
conference.setTelecomCallId(callId);
mAdapter.setVideoProvider(callId, conference.getVideoProvider());
mAdapter.setVideoState(callId, conference.getVideoState());
onConferenceAdded(conference);
}
Log.d(this, "createConference, calling handleCreateConferenceSuccessful %s", callId);
mAdapter.handleCreateConferenceComplete(
callId,
request,
parcelableConference);
}
/**
* This can be used by telecom to either create a new outgoing call or attach to an existing
* incoming call. In either case, telecom will cycle through a set of services and call
* createConnection util a connection service cancels the process or completes it successfully.
*/
private void createConnection(
final PhoneAccountHandle callManagerAccount,
final String callId,
final ConnectionRequest request,
boolean isIncoming,
boolean isUnknown) {
boolean isLegacyHandover = request.getExtras() != null &&
request.getExtras().getBoolean(TelecomManager.EXTRA_IS_HANDOVER, false);
boolean isHandover = request.getExtras() != null && request.getExtras().getBoolean(
TelecomManager.EXTRA_IS_HANDOVER_CONNECTION, false);
boolean addSelfManaged = request.getExtras() != null && request.getExtras().getBoolean(
PhoneAccount.EXTRA_ADD_SELF_MANAGED_CALLS_TO_INCALLSERVICE, true);
Log.i(this, "createConnection, callManagerAccount: %s, callId: %s, request: %s, "
+ "isIncoming: %b, isUnknown: %b, isLegacyHandover: %b, isHandover: %b, "
+ " addSelfManaged: %b", callManagerAccount, callId, request, isIncoming,
isUnknown, isLegacyHandover, isHandover, addSelfManaged);
Connection connection = null;
if (isHandover) {
PhoneAccountHandle fromPhoneAccountHandle = request.getExtras() != null
? (PhoneAccountHandle) request.getExtras().getParcelable(
TelecomManager.EXTRA_HANDOVER_FROM_PHONE_ACCOUNT, android.telecom.PhoneAccountHandle.class) : null;
if (!isIncoming) {
connection = onCreateOutgoingHandoverConnection(fromPhoneAccountHandle, request);
} else {
connection = onCreateIncomingHandoverConnection(fromPhoneAccountHandle, request);
}
} else {
connection = isUnknown ? onCreateUnknownConnection(callManagerAccount, request)
: isIncoming ? onCreateIncomingConnection(callManagerAccount, request)
: onCreateOutgoingConnection(callManagerAccount, request);
}
Log.d(this, "createConnection, connection: %s", connection);
if (connection == null) {
Log.i(this, "createConnection, implementation returned null connection.");
connection = Connection.createFailedConnection(
new DisconnectCause(DisconnectCause.ERROR, "IMPL_RETURNED_NULL_CONNECTION"));
} else {
try {
Bundle extras = request.getExtras();
if (extras != null) {
// If the request originated from a remote connection service, we will add some
// tracking information that Telecom can use to keep informed of which package
// made the remote request, and which remote connection service was used.
if (extras.containsKey(
Connection.EXTRA_REMOTE_CONNECTION_ORIGINATING_PACKAGE_NAME)) {
Bundle newExtras = new Bundle();
newExtras.putString(
Connection.EXTRA_REMOTE_CONNECTION_ORIGINATING_PACKAGE_NAME,
extras.getString(
Connection.EXTRA_REMOTE_CONNECTION_ORIGINATING_PACKAGE_NAME
));
newExtras.putParcelable(Connection.EXTRA_REMOTE_PHONE_ACCOUNT_HANDLE,
request.getAccountHandle());
connection.putExtras(newExtras);
}
}
} catch (UnsupportedOperationException ose) {
// Do nothing; if the ConnectionService reported a failure it will be an instance
// of an immutable Connection which we cannot edit, so we're out of luck.
}
}
boolean isSelfManaged =
(connection.getConnectionProperties() & Connection.PROPERTY_SELF_MANAGED)
== Connection.PROPERTY_SELF_MANAGED;
// Self-managed Connections should always use voip audio mode; we default here so that the
// local state within the ConnectionService matches the default we assume in Telecom.
if (isSelfManaged) {
connection.setAudioModeIsVoip(true);
}
connection.setTelecomCallId(callId);
PhoneAccountHandle phoneAccountHandle = connection.getPhoneAccountHandle() == null
? request.getAccountHandle() : connection.getPhoneAccountHandle();
if (connection.getState() != Connection.STATE_DISCONNECTED) {
addConnection(phoneAccountHandle, callId, connection);
}
Uri address = connection.getAddress();
String number = address == null ? "null" : address.getSchemeSpecificPart();
Log.v(this, "createConnection, number: %s, state: %s, capabilities: %s, properties: %s",
Connection.toLogSafePhoneNumber(number),
Connection.stateToString(connection.getState()),
Connection.capabilitiesToString(connection.getConnectionCapabilities()),
Connection.propertiesToString(connection.getConnectionProperties()));
Log.d(this, "createConnection, calling handleCreateConnectionSuccessful %s", callId);
mAdapter.handleCreateConnectionComplete(
callId,
request,
new ParcelableConnection(
phoneAccountHandle,
connection.getState(),
connection.getConnectionCapabilities(),
connection.getConnectionProperties(),
connection.getSupportedAudioRoutes(),
connection.getAddress(),
connection.getAddressPresentation(),
connection.getCallerDisplayName(),
connection.getCallerDisplayNamePresentation(),
connection.getVideoProvider() == null ?
null : connection.getVideoProvider().getInterface(),
connection.getVideoState(),
connection.isRingbackRequested(),
connection.getAudioModeIsVoip(),
connection.getConnectTimeMillis(),
connection.getConnectionStartElapsedRealtimeMillis(),
connection.getStatusHints(),
connection.getDisconnectCause(),
createIdList(connection.getConferenceables()),
connection.getExtras(),
connection.getCallerNumberVerificationStatus()));
if (isIncoming && request.shouldShowIncomingCallUi() && isSelfManaged) {
// Tell ConnectionService to show its incoming call UX.
connection.onShowIncomingCallUi();
}
if (isUnknown) {
triggerConferenceRecalculate();
}
}
private void createConnectionFailed(final PhoneAccountHandle callManagerAccount,
final String callId, final ConnectionRequest request,
boolean isIncoming) {
Log.i(this, "createConnectionFailed %s", callId);
if (isIncoming) {
onCreateIncomingConnectionFailed(callManagerAccount, request);
} else {
onCreateOutgoingConnectionFailed(callManagerAccount, request);
}
}
private void createConferenceFailed(final PhoneAccountHandle callManagerAccount,
final String callId, final ConnectionRequest request,
boolean isIncoming) {
Log.i(this, "createConferenceFailed %s", callId);
if (isIncoming) {
onCreateIncomingConferenceFailed(callManagerAccount, request);
} else {
onCreateOutgoingConferenceFailed(callManagerAccount, request);
}
}
private void handoverFailed(final String callId, final ConnectionRequest request,
int reason) {
Log.i(this, "handoverFailed %s", callId);
onHandoverFailed(request, reason);
}
/**
* Called by Telecom when the creation of a new Connection has completed and it is now added
* to Telecom.
* @param callId The ID of the connection.
*/
private void notifyCreateConnectionComplete(final String callId) {
Log.i(this, "notifyCreateConnectionComplete %s", callId);
if (callId == null) {
// This could happen if the connection fails quickly and is removed from the
// ConnectionService before Telecom sends the create connection complete callback.
Log.w(this, "notifyCreateConnectionComplete: callId is null.");
return;
}
onCreateConnectionComplete(findConnectionForAction(callId,
"notifyCreateConnectionComplete"));
}
/**
* Called by Telecom when the creation of a new Conference has completed and it is now added
* to Telecom.
* @param callId The ID of the connection.
*/
private void notifyCreateConferenceComplete(final String callId) {
Log.i(this, "notifyCreateConferenceComplete %s", callId);
if (callId == null) {
// This could happen if the conference fails quickly and is removed from the
// ConnectionService before Telecom sends the create conference complete callback.
Log.w(this, "notifyCreateConferenceComplete: callId is null.");
return;
}
onCreateConferenceComplete(findConferenceForAction(callId,
"notifyCreateConferenceComplete"));
}
private void abort(String callId) {
Log.i(this, "abort %s", callId);
findConnectionForAction(callId, "abort").onAbort();
}
private void answerVideo(String callId, int videoState) {
Log.i(this, "answerVideo %s", callId);
if (mConnectionById.containsKey(callId)) {
findConnectionForAction(callId, "answer").onAnswer(videoState);
} else {
findConferenceForAction(callId, "answer").onAnswer(videoState);
}
}
private void answer(String callId) {
Log.i(this, "answer %s", callId);
if (mConnectionById.containsKey(callId)) {
findConnectionForAction(callId, "answer").onAnswer();
} else {
findConferenceForAction(callId, "answer").onAnswer();
}
}
private void deflect(String callId, Uri address) {
Log.i(this, "deflect %s", callId);
findConnectionForAction(callId, "deflect").onDeflect(address);
}
private void reject(String callId) {
Log.i(this, "reject %s", callId);
if (mConnectionById.containsKey(callId)) {
findConnectionForAction(callId, "reject").onReject();
} else {
findConferenceForAction(callId, "reject").onReject();
}
}
private void reject(String callId, String rejectWithMessage) {
Log.i(this, "reject %s with message", callId);
findConnectionForAction(callId, "reject").onReject(rejectWithMessage);
}
private void reject(String callId, @android.telecom.Call.RejectReason int rejectReason) {
Log.i(this, "reject %s with reason %d", callId, rejectReason);
findConnectionForAction(callId, "reject").onReject(rejectReason);
}
private void transfer(String callId, Uri number, boolean isConfirmationRequired) {
Log.i(this, "transfer %s", callId);
findConnectionForAction(callId, "transfer").onTransfer(number, isConfirmationRequired);
}
private void consultativeTransfer(String callId, String otherCallId) {
Log.i(this, "consultativeTransfer %s", callId);
Connection connection1 = findConnectionForAction(callId, "consultativeTransfer");
Connection connection2 = findConnectionForAction(otherCallId, " consultativeTransfer");
connection1.onTransfer(connection2);
}
private void silence(String callId) {
Log.i(this, "silence %s", callId);
findConnectionForAction(callId, "silence").onSilence();
}
private void disconnect(String callId) {
Log.i(this, "disconnect %s", callId);
if (mConnectionById.containsKey(callId)) {
findConnectionForAction(callId, "disconnect").onDisconnect();
} else {
findConferenceForAction(callId, "disconnect").onDisconnect();
}
}
private void hold(String callId) {
Log.i(this, "hold %s", callId);
if (mConnectionById.containsKey(callId)) {
findConnectionForAction(callId, "hold").onHold();
} else {
findConferenceForAction(callId, "hold").onHold();
}
}
private void unhold(String callId) {
Log.i(this, "unhold %s", callId);
if (mConnectionById.containsKey(callId)) {
findConnectionForAction(callId, "unhold").onUnhold();
} else {
findConferenceForAction(callId, "unhold").onUnhold();
}
}
private void onCallAudioStateChanged(String callId, CallAudioState callAudioState) {
Log.i(this, "onAudioStateChanged %s %s", callId, callAudioState);
if (mConnectionById.containsKey(callId)) {
findConnectionForAction(callId, "onCallAudioStateChanged").setCallAudioState(
callAudioState);
} else {
findConferenceForAction(callId, "onCallAudioStateChanged").setCallAudioState(
callAudioState);
}
}
private void onCallEndpointChanged(String callId, CallEndpoint callEndpoint) {
Log.i(this, "onCallEndpointChanged %s %s", callId, callEndpoint);
if (mConnectionById.containsKey(callId)) {
findConnectionForAction(callId, "onCallEndpointChanged").setCallEndpoint(callEndpoint);
} else {
findConferenceForAction(callId, "onCallEndpointChanged").setCallEndpoint(callEndpoint);
}
}
private void onAvailableCallEndpointsChanged(String callId,
List<CallEndpoint> availableCallEndpoints) {
Log.i(this, "onAvailableCallEndpointsChanged %s", callId);
if (mConnectionById.containsKey(callId)) {
findConnectionForAction(callId, "onAvailableCallEndpointsChanged")
.setAvailableCallEndpoints(availableCallEndpoints);
} else {
findConferenceForAction(callId, "onAvailableCallEndpointsChanged")
.setAvailableCallEndpoints(availableCallEndpoints);
}
}
private void onMuteStateChanged(String callId, boolean isMuted) {
Log.i(this, "onMuteStateChanged %s %s", callId, isMuted);
if (mConnectionById.containsKey(callId)) {
findConnectionForAction(callId, "onMuteStateChanged").setMuteState(isMuted);
} else {
findConferenceForAction(callId, "onMuteStateChanged").setMuteState(isMuted);
}
}
private void onUsingAlternativeUi(String callId, boolean isUsingAlternativeUi) {
Log.i(this, "onUsingAlternativeUi %s %s", callId, isUsingAlternativeUi);
if (mConnectionById.containsKey(callId)) {
findConnectionForAction(callId, "onUsingAlternativeUi")
.onUsingAlternativeUi(isUsingAlternativeUi);
}
}
private void onTrackedByNonUiService(String callId, boolean isTracked) {
Log.i(this, "onTrackedByNonUiService %s %s", callId, isTracked);
if (mConnectionById.containsKey(callId)) {
findConnectionForAction(callId, "onTrackedByNonUiService")
.onTrackedByNonUiService(isTracked);
}
}
private void playDtmfTone(String callId, char digit) {
Log.i(this, "playDtmfTone %s %s", callId, Log.pii(digit));
if (mConnectionById.containsKey(callId)) {
findConnectionForAction(callId, "playDtmfTone").onPlayDtmfTone(digit);
} else {
findConferenceForAction(callId, "playDtmfTone").onPlayDtmfTone(digit);
}
}
private void stopDtmfTone(String callId) {
Log.i(this, "stopDtmfTone %s", callId);
if (mConnectionById.containsKey(callId)) {
findConnectionForAction(callId, "stopDtmfTone").onStopDtmfTone();
} else {
findConferenceForAction(callId, "stopDtmfTone").onStopDtmfTone();
}
}
private void conference(String callId1, String callId2) {
Log.i(this, "conference %s, %s", callId1, callId2);
// Attempt to get second connection or conference.
Connection connection2 = findConnectionForAction(callId2, "conference");
Conference conference2 = getNullConference();
if (connection2 == getNullConnection()) {
conference2 = findConferenceForAction(callId2, "conference");
if (conference2 == getNullConference()) {
Log.w(this, "Connection2 or Conference2 missing in conference request %s.",
callId2);
return;
}
}
// Attempt to get first connection or conference and perform merge.
Connection connection1 = findConnectionForAction(callId1, "conference");
if (connection1 == getNullConnection()) {
Conference conference1 = findConferenceForAction(callId1, "addConnection");
if (conference1 == getNullConference()) {
Log.w(this,
"Connection1 or Conference1 missing in conference request %s.",
callId1);
} else {
// Call 1 is a conference.
if (connection2 != getNullConnection()) {
// Call 2 is a connection so merge via call 1 (conference).
conference1.onMerge(connection2);
} else {
// Call 2 is ALSO a conference; this should never happen.
Log.wtf(this, "There can only be one conference and an attempt was made to " +
"merge two conferences.");
return;
}
}
} else {
// Call 1 is a connection.
if (conference2 != getNullConference()) {
// Call 2 is a conference, so merge via call 2.
conference2.onMerge(connection1);
} else {
// Call 2 is a connection, so merge together.
onConference(connection1, connection2);
}
}
}
private void splitFromConference(String callId) {
Log.i(this, "splitFromConference(%s)", callId);
Connection connection = findConnectionForAction(callId, "splitFromConference");
if (connection == getNullConnection()) {
Log.w(this, "Connection missing in conference request %s.", callId);
return;
}
Conference conference = connection.getConference();
if (conference != null) {
conference.onSeparate(connection);
}
}
private void mergeConference(String callId) {
Log.i(this, "mergeConference(%s)", callId);
Conference conference = findConferenceForAction(callId, "mergeConference");
if (conference != null) {
conference.onMerge();
}
}
private void swapConference(String callId) {
Log.i(this, "swapConference(%s)", callId);
Conference conference = findConferenceForAction(callId, "swapConference");
if (conference != null) {
conference.onSwap();
}
}
private void addConferenceParticipants(String callId, List<Uri> participants) {
Log.i(this, "addConferenceParticipants(%s)", callId);
if (mConnectionById.containsKey(callId)) {
findConnectionForAction(callId, "addConferenceParticipants")
.onAddConferenceParticipants(participants);
} else {
findConferenceForAction(callId, "addConferenceParticipants")
.onAddConferenceParticipants(participants);
}
}
/**
* Notifies a {@link Connection} of a request to pull an external call.
*
* See {@link Call#pullExternalCall()}.
*
* @param callId The ID of the call to pull.
*/
private void pullExternalCall(String callId) {
Log.i(this, "pullExternalCall(%s)", callId);
Connection connection = findConnectionForAction(callId, "pullExternalCall");
if (connection != null) {
connection.onPullExternalCall();
}
}
/**
* Notifies a {@link Connection} of a call event.
*
* See {@link Call#sendCallEvent(String, Bundle)}.
*
* @param callId The ID of the call receiving the event.
* @param event The event.
* @param extras Extras associated with the event.
*/
private void sendCallEvent(String callId, String event, Bundle extras) {
Log.i(this, "sendCallEvent(%s, %s)", callId, event);
Connection connection = findConnectionForAction(callId, "sendCallEvent");
if (connection != null) {
connection.onCallEvent(event, extras);
}
}
private void onCallFilteringCompleted(String callId, Connection.CallFilteringCompletionInfo
callFilteringCompletionInfo) {
Log.i(this, "onCallFilteringCompleted(%s, %s)", callId, callFilteringCompletionInfo);
Connection connection = findConnectionForAction(callId, "onCallFilteringCompleted");
if (connection != null) {
connection.onCallFilteringCompleted(callFilteringCompletionInfo);
}
}
/**
* Notifies a {@link Connection} that a handover has completed.
*
* @param callId The ID of the call which completed handover.
*/
private void notifyHandoverComplete(String callId) {
Log.i(this, "notifyHandoverComplete(%s)", callId);
Connection connection = findConnectionForAction(callId, "notifyHandoverComplete");
if (connection != null) {
connection.onHandoverComplete();
}
}
/**
* Notifies a {@link Connection} or {@link Conference} of a change to the extras from Telecom.
* <p>
* These extra changes can originate from Telecom itself, or from an {@link InCallService} via
* the {@link android.telecom.Call#putExtra(String, boolean)},
* {@link android.telecom.Call#putExtra(String, int)},
* {@link android.telecom.Call#putExtra(String, String)},
* {@link Call#removeExtras(List)}.
*
* @param callId The ID of the call receiving the event.
* @param extras The new extras bundle.
*/
private void handleExtrasChanged(String callId, Bundle extras) {
Log.i(this, "handleExtrasChanged(%s, %s)", callId, extras);
if (mConnectionById.containsKey(callId)) {
findConnectionForAction(callId, "handleExtrasChanged").handleExtrasChanged(extras);
} else if (mConferenceById.containsKey(callId)) {
findConferenceForAction(callId, "handleExtrasChanged").handleExtrasChanged(extras);
}
}
private void startRtt(String callId, Connection.RttTextStream rttTextStream) {
Log.i(this, "startRtt(%s)", callId);
if (mConnectionById.containsKey(callId)) {
findConnectionForAction(callId, "startRtt").onStartRtt(rttTextStream);
} else if (mConferenceById.containsKey(callId)) {
Log.w(this, "startRtt called on a conference.");
}
}
private void stopRtt(String callId) {
Log.i(this, "stopRtt(%s)", callId);
if (mConnectionById.containsKey(callId)) {
findConnectionForAction(callId, "stopRtt").onStopRtt();
} else if (mConferenceById.containsKey(callId)) {
Log.w(this, "stopRtt called on a conference.");
}
}
private void handleRttUpgradeResponse(String callId, Connection.RttTextStream rttTextStream) {
Log.i(this, "handleRttUpgradeResponse(%s, %s)", callId, rttTextStream == null);
if (mConnectionById.containsKey(callId)) {
findConnectionForAction(callId, "handleRttUpgradeResponse")
.handleRttUpgradeResponse(rttTextStream);
} else if (mConferenceById.containsKey(callId)) {
Log.w(this, "handleRttUpgradeResponse called on a conference.");
}
}
private void onPostDialContinue(String callId, boolean proceed) {
Log.i(this, "onPostDialContinue(%s)", callId);
findConnectionForAction(callId, "stopDtmfTone").onPostDialContinue(proceed);
}
private void onAdapterAttached() {
if (mAreAccountsInitialized) {
// No need to query again if we already did it.
return;
}
String callingPackage = getOpPackageName();
mAdapter.queryRemoteConnectionServices(new RemoteServiceCallback.Stub() {
@Override
public void onResult(
final List<ComponentName> componentNames,
final List<IBinder> services) {
mHandler.post(new android.telecom.Logging.Runnable("oAA.qRCS.oR", null /*lock*/) {
@Override
public void loggedRun() {
for (int i = 0; i < componentNames.size() && i < services.size(); i++) {
mRemoteConnectionManager.addConnectionService(
componentNames.get(i),
IConnectionService.Stub.asInterface(services.get(i)));
}
onAccountsInitialized();
Log.d(this, "remote connection services found: " + services);
}
}.prepare());
}
@Override
public void onError() {
mHandler.post(new android.telecom.Logging.Runnable("oAA.qRCS.oE", null /*lock*/) {
@Override
public void loggedRun() {
mAreAccountsInitialized = true;
}
}.prepare());
}
}, callingPackage);
}
/**
* Ask some other {@code ConnectionService} to create a {@code RemoteConnection} given an
* incoming request. This is used by {@code ConnectionService}s that are registered with
* {@link PhoneAccount#CAPABILITY_CONNECTION_MANAGER} and want to be able to manage
* SIM-based incoming calls.
*
* @param connectionManagerPhoneAccount See description at
* {@link #onCreateOutgoingConnection(PhoneAccountHandle, ConnectionRequest)}.
* @param request Details about the incoming call.
* @return The {@code Connection} object to satisfy this call, or {@code null} to
* not handle the call.
*/
public final @Nullable RemoteConnection createRemoteIncomingConnection(
@NonNull PhoneAccountHandle connectionManagerPhoneAccount,
@NonNull ConnectionRequest request) {
return mRemoteConnectionManager.createRemoteConnection(
connectionManagerPhoneAccount, request, true);
}
/**
* Ask some other {@code ConnectionService} to create a {@code RemoteConnection} given an
* outgoing request. This is used by {@code ConnectionService}s that are registered with
* {@link PhoneAccount#CAPABILITY_CONNECTION_MANAGER} and want to be able to use the
* SIM-based {@code ConnectionService} to place its outgoing calls.
*
* @param connectionManagerPhoneAccount See description at
* {@link #onCreateOutgoingConnection(PhoneAccountHandle, ConnectionRequest)}.
* @param request Details about the outgoing call.
* @return The {@code Connection} object to satisfy this call, or {@code null} to
* not handle the call.
*/
public final @Nullable RemoteConnection createRemoteOutgoingConnection(
@NonNull PhoneAccountHandle connectionManagerPhoneAccount,
@NonNull ConnectionRequest request) {
return mRemoteConnectionManager.createRemoteConnection(
connectionManagerPhoneAccount, request, false);
}
/**
* Ask some other {@code ConnectionService} to create a {@code RemoteConference} given an
* incoming request. This is used by {@code ConnectionService}s that are registered with
* {@link PhoneAccount#CAPABILITY_ADHOC_CONFERENCE_CALLING}.
*
* @param connectionManagerPhoneAccount See description at
* {@link #onCreateOutgoingConnection(PhoneAccountHandle, ConnectionRequest)}.
* @param request Details about the incoming conference call.
* @return The {@code RemoteConference} object to satisfy this call, or {@code null} to not
* handle the call.
*/
public final @Nullable RemoteConference createRemoteIncomingConference(
@Nullable PhoneAccountHandle connectionManagerPhoneAccount,
@Nullable ConnectionRequest request) {
return mRemoteConnectionManager.createRemoteConference(connectionManagerPhoneAccount,
request, true);
}
/**
* Ask some other {@code ConnectionService} to create a {@code RemoteConference} given an
* outgoing request. This is used by {@code ConnectionService}s that are registered with
* {@link PhoneAccount#CAPABILITY_ADHOC_CONFERENCE_CALLING}.
*
* @param connectionManagerPhoneAccount See description at
* {@link #onCreateOutgoingConnection(PhoneAccountHandle, ConnectionRequest)}.
* @param request Details about the outgoing conference call.
* @return The {@code RemoteConference} object to satisfy this call, or {@code null} to not
* handle the call.
*/
public final @Nullable RemoteConference createRemoteOutgoingConference(
@Nullable PhoneAccountHandle connectionManagerPhoneAccount,
@Nullable ConnectionRequest request) {
return mRemoteConnectionManager.createRemoteConference(connectionManagerPhoneAccount,
request, false);
}
/**
* Indicates to the relevant {@code RemoteConnectionService} that the specified
* {@link RemoteConnection}s should be merged into a conference call.
* <p>
* If the conference request is successful, the method {@link #onRemoteConferenceAdded} will
* be invoked.
*
* @param remoteConnection1 The first of the remote connections to conference.
* @param remoteConnection2 The second of the remote connections to conference.
*/
public final void conferenceRemoteConnections(
RemoteConnection remoteConnection1,
RemoteConnection remoteConnection2) {
mRemoteConnectionManager.conferenceRemoteConnections(remoteConnection1, remoteConnection2);
}
/**
* Adds a new conference call. When a conference call is created either as a result of an
* explicit request via {@link #onConference} or otherwise, the connection service should supply
* an instance of {@link Conference} by invoking this method. A conference call provided by this
* method will persist until {@link Conference#destroy} is invoked on the conference instance.
*
* @param conference The new conference object.
*/
public final void addConference(Conference conference) {
Log.d(this, "addConference: conference=%s", conference);
String id = addConferenceInternal(conference);
if (id != null) {
List<String> connectionIds = new ArrayList<>(2);
for (Connection connection : conference.getConnections()) {
if (mIdByConnection.containsKey(connection)) {
connectionIds.add(mIdByConnection.get(connection));
}
}
conference.setTelecomCallId(id);
ParcelableConference parcelableConference = new ParcelableConference.Builder(
conference.getPhoneAccountHandle(), conference.getState())
.setConnectionCapabilities(conference.getConnectionCapabilities())
.setConnectionProperties(conference.getConnectionProperties())
.setConnectionIds(connectionIds)
.setVideoAttributes(conference.getVideoProvider() == null
? null : conference.getVideoProvider().getInterface(),
conference.getVideoState())
.setConnectTimeMillis(conference.getConnectTimeMillis(),
conference.getConnectionStartElapsedRealtimeMillis())
.setStatusHints(conference.getStatusHints())
.setExtras(conference.getExtras())
.setAddress(conference.getAddress(), conference.getAddressPresentation())
.setCallerDisplayName(conference.getCallerDisplayName(),
conference.getCallerDisplayNamePresentation())
.setDisconnectCause(conference.getDisconnectCause())
.setRingbackRequested(conference.isRingbackRequested())
.setCallDirection(conference.getCallDirection())
.build();
mAdapter.addConferenceCall(id, parcelableConference);
mAdapter.setVideoProvider(id, conference.getVideoProvider());
mAdapter.setVideoState(id, conference.getVideoState());
// In some instances a conference can start its life as a standalone call with just a
// single participant; ensure we signal to Telecom in this case.
if (!conference.isMultiparty()) {
mAdapter.setConferenceState(id, conference.isMultiparty());
}
// Go through any child calls and set the parent.
for (Connection connection : conference.getConnections()) {
String connectionId = mIdByConnection.get(connection);
if (connectionId != null) {
mAdapter.setIsConferenced(connectionId, id);
}
}
onConferenceAdded(conference);
}
}
/**
* Adds a connection created by the {@link ConnectionService} and informs telecom of the new
* connection.
*
* @param phoneAccountHandle The phone account handle for the connection.
* @param connection The connection to add.
*/
public final void addExistingConnection(PhoneAccountHandle phoneAccountHandle,
Connection connection) {
addExistingConnection(phoneAccountHandle, connection, null /* conference */);
}
/**
* Call to inform Telecom that your {@link ConnectionService} has released call resources (e.g
* microphone, camera).
*
* <p>
* The {@link ConnectionService} will be disconnected when it failed to call this method within
* 5 seconds after {@link #onConnectionServiceFocusLost()} is called.
*
* @see ConnectionService#onConnectionServiceFocusLost()
*/
public final void connectionServiceFocusReleased() {
mAdapter.onConnectionServiceFocusReleased();
}
/**
* Adds a connection created by the {@link ConnectionService} and informs telecom of the new
* connection, as well as adding that connection to the specified conference.
* <p>
* Note: This API is intended ONLY for use by the Telephony stack to provide an easy way to add
* IMS conference participants to be added to a conference in a single step; this helps ensure
* UI updates happen atomically, rather than adding the connection and then adding it to
* the conference in another step.
*
* @param phoneAccountHandle The phone account handle for the connection.
* @param connection The connection to add.
* @param conference The parent conference of the new connection.
* @hide
*/
@SystemApi
public final void addExistingConnection(@NonNull PhoneAccountHandle phoneAccountHandle,
@NonNull Connection connection, @NonNull Conference conference) {
String id = addExistingConnectionInternal(phoneAccountHandle, connection);
if (id != null) {
List<String> emptyList = new ArrayList<>(0);
String conferenceId = null;
if (conference != null) {
conferenceId = mIdByConference.get(conference);
}
ParcelableConnection parcelableConnection = new ParcelableConnection(
phoneAccountHandle,
connection.getState(),
connection.getConnectionCapabilities(),
connection.getConnectionProperties(),
connection.getSupportedAudioRoutes(),
connection.getAddress(),
connection.getAddressPresentation(),
connection.getCallerDisplayName(),
connection.getCallerDisplayNamePresentation(),
connection.getVideoProvider() == null ?
null : connection.getVideoProvider().getInterface(),
connection.getVideoState(),
connection.isRingbackRequested(),
connection.getAudioModeIsVoip(),
connection.getConnectTimeMillis(),
connection.getConnectionStartElapsedRealtimeMillis(),
connection.getStatusHints(),
connection.getDisconnectCause(),
emptyList,
connection.getExtras(),
conferenceId,
connection.getCallDirection(),
Connection.VERIFICATION_STATUS_NOT_VERIFIED);
mAdapter.addExistingConnection(id, parcelableConnection);
}
}
/**
* Returns all the active {@code Connection}s for which this {@code ConnectionService}
* has taken responsibility.
*
* @return A collection of {@code Connection}s created by this {@code ConnectionService}.
*/
public final Collection<Connection> getAllConnections() {
return mConnectionById.values();
}
/**
* Returns all the active {@code Conference}s for which this {@code ConnectionService}
* has taken responsibility.
*
* @return A collection of {@code Conference}s created by this {@code ConnectionService}.
*/
public final Collection<Conference> getAllConferences() {
return mConferenceById.values();
}
/**
* Create a {@code Connection} given an incoming request. This is used to attach to existing
* incoming calls.
*
* @param connectionManagerPhoneAccount See description at
* {@link #onCreateOutgoingConnection(PhoneAccountHandle, ConnectionRequest)}.
* @param request Details about the incoming call.
* @return The {@code Connection} object to satisfy this call, or {@code null} to
* not handle the call.
*/
public Connection onCreateIncomingConnection(
PhoneAccountHandle connectionManagerPhoneAccount,
ConnectionRequest request) {
return null;
}
/**
* Create a {@code Conference} given an incoming request. This is used to attach to an incoming
* conference call initiated via
* {@link TelecomManager#addNewIncomingConference(PhoneAccountHandle, Bundle)}.
*
* @param connectionManagerPhoneAccount See description at
* {@link #onCreateOutgoingConnection(PhoneAccountHandle, ConnectionRequest)}.
* @param request Details about the incoming conference call.
* @return The {@code Conference} object to satisfy this call. If the conference attempt is
* failed, the return value will be a result of an invocation of
* {@link Connection#createFailedConnection(DisconnectCause)}.
* Return {@code null} if the {@link ConnectionService} cannot handle the call.
*/
public @Nullable Conference onCreateIncomingConference(
@NonNull PhoneAccountHandle connectionManagerPhoneAccount,
@NonNull ConnectionRequest request) {
return null;
}
/**
* Called by Telecom after the {@link Connection} returned by
* {@link #onCreateIncomingConnection(PhoneAccountHandle, ConnectionRequest)}
* or {@link #onCreateOutgoingConnection(PhoneAccountHandle, ConnectionRequest)} has been
* added to the {@link ConnectionService} and sent to Telecom.
*
* @param connection the {@link Connection} which was added to Telecom.
*/
@FlaggedApi(Flags.FLAG_TELECOM_RESOLVE_HIDDEN_DEPENDENCIES)
public void onCreateConnectionComplete(@NonNull Connection connection) {
}
/**
* Called by Telecom after the {@link Conference} returned by
* {@link #onCreateIncomingConference(PhoneAccountHandle, ConnectionRequest)}
* or {@link #onCreateOutgoingConference(PhoneAccountHandle, ConnectionRequest)} has been
* added to the {@link ConnectionService} and sent to Telecom.
*
* @param conference the {@link Conference} which was added to Telecom.
*/
@FlaggedApi(Flags.FLAG_TELECOM_RESOLVE_HIDDEN_DEPENDENCIES)
public void onCreateConferenceComplete(@NonNull Conference conference) {
}
/**
* Called by Telecom to inform the {@link ConnectionService} that its request to create a new
* incoming {@link Connection} was denied.
* <p>
* Used when a self-managed {@link ConnectionService} attempts to create a new incoming
* {@link Connection}, but Telecom has determined that the call cannot be allowed at this time.
* The {@link ConnectionService} is responsible for silently rejecting the new incoming
* {@link Connection}.
* <p>
* See {@link TelecomManager#isIncomingCallPermitted(PhoneAccountHandle)} for more information.
*
* @param connectionManagerPhoneAccount See description at
* {@link #onCreateOutgoingConnection(PhoneAccountHandle, ConnectionRequest)}.
* @param request The incoming connection request.
*/
public void onCreateIncomingConnectionFailed(PhoneAccountHandle connectionManagerPhoneAccount,
ConnectionRequest request) {
}
/**
* Called by Telecom to inform the {@link ConnectionService} that its request to create a new
* outgoing {@link Connection} was denied.
* <p>
* Used when a self-managed {@link ConnectionService} attempts to create a new outgoing
* {@link Connection}, but Telecom has determined that the call cannot be placed at this time.
* The {@link ConnectionService} is responisible for informing the user that the
* {@link Connection} cannot be made at this time.
* <p>
* See {@link TelecomManager#isOutgoingCallPermitted(PhoneAccountHandle)} for more information.
*
* @param connectionManagerPhoneAccount See description at
* {@link #onCreateOutgoingConnection(PhoneAccountHandle, ConnectionRequest)}.
* @param request The outgoing connection request.
*/
public void onCreateOutgoingConnectionFailed(PhoneAccountHandle connectionManagerPhoneAccount,
ConnectionRequest request) {
}
/**
* Called by Telecom to inform the {@link ConnectionService} that its request to create a new
* incoming {@link Conference} was denied.
* <p>
* Used when a self-managed {@link ConnectionService} attempts to create a new incoming
* {@link Conference}, but Telecom has determined that the call cannot be allowed at this time.
* The {@link ConnectionService} is responsible for silently rejecting the new incoming
* {@link Conference}.
* <p>
* See {@link TelecomManager#isIncomingCallPermitted(PhoneAccountHandle)} for more information.
*
* @param connectionManagerPhoneAccount See description at
* {@link #onCreateOutgoingConnection(PhoneAccountHandle, ConnectionRequest)}.
* @param request The incoming connection request.
*/
public void onCreateIncomingConferenceFailed(
@Nullable PhoneAccountHandle connectionManagerPhoneAccount,
@Nullable ConnectionRequest request) {
}
/**
* Called by Telecom to inform the {@link ConnectionService} that its request to create a new
* outgoing {@link Conference} was denied.
* <p>
* Used when a self-managed {@link ConnectionService} attempts to create a new outgoing
* {@link Conference}, but Telecom has determined that the call cannot be placed at this time.
* The {@link ConnectionService} is responisible for informing the user that the
* {@link Conference} cannot be made at this time.
* <p>
* See {@link TelecomManager#isOutgoingCallPermitted(PhoneAccountHandle)} for more information.
*
* @param connectionManagerPhoneAccount See description at
* {@link #onCreateOutgoingConnection(PhoneAccountHandle, ConnectionRequest)}.
* @param request The outgoing connection request.
*/
public void onCreateOutgoingConferenceFailed(
@NonNull PhoneAccountHandle connectionManagerPhoneAccount,
@NonNull ConnectionRequest request) {
}
/**
* Trigger recalculate functinality for conference calls. This is used when a Telephony
* Connection is part of a conference controller but is not yet added to Connection
* Service and hence cannot be added to the conference call.
*
* @hide
*/
public void triggerConferenceRecalculate() {
}
/**
* Create a {@code Connection} given an outgoing request. This is used to initiate new
* outgoing calls.
*
* @param connectionManagerPhoneAccount The connection manager account to use for managing
* this call.
* <p>
* If this parameter is not {@code null}, it means that this {@code ConnectionService}
* has registered one or more {@code PhoneAccount}s having
* {@link PhoneAccount#CAPABILITY_CONNECTION_MANAGER}. This parameter will contain
* one of these {@code PhoneAccount}s, while the {@code request} will contain another
* (usually but not always distinct) {@code PhoneAccount} to be used for actually
* making the connection.
* <p>
* If this parameter is {@code null}, it means that this {@code ConnectionService} is
* being asked to make a direct connection. The
* {@link ConnectionRequest#getAccountHandle()} of parameter {@code request} will be
* a {@code PhoneAccount} registered by this {@code ConnectionService} to use for
* making the connection.
* @param request Details about the outgoing call.
* @return The {@code Connection} object to satisfy this call, or the result of an invocation
* of {@link Connection#createFailedConnection(DisconnectCause)} to not handle the call.
*/
public Connection onCreateOutgoingConnection(
PhoneAccountHandle connectionManagerPhoneAccount,
ConnectionRequest request) {
return null;
}
/**
* Create a {@code Conference} given an outgoing request. This is used to initiate new
* outgoing conference call requested via
* {@link TelecomManager#startConference(List, Bundle)}.
*
* @param connectionManagerPhoneAccount The connection manager account to use for managing
* this call.
* <p>
* If this parameter is not {@code null}, it means that this {@code ConnectionService}
* has registered one or more {@code PhoneAccount}s having
* {@link PhoneAccount#CAPABILITY_CONNECTION_MANAGER}. This parameter will contain
* one of these {@code PhoneAccount}s, while the {@code request} will contain another
* (usually but not always distinct) {@code PhoneAccount} to be used for actually
* making the connection.
* <p>
* If this parameter is {@code null}, it means that this {@code ConnectionService} is
* being asked to make a direct connection. The
* {@link ConnectionRequest#getAccountHandle()} of parameter {@code request} will be
* a {@code PhoneAccount} registered by this {@code ConnectionService} to use for
* making the connection.
* @param request Details about the outgoing call.
* @return The {@code Conference} object to satisfy this call. If the conference attempt is
* failed, the return value will be a result of an invocation of
* {@link Connection#createFailedConnection(DisconnectCause)}.
* Return {@code null} if the {@link ConnectionService} cannot handle the call.
*/
public @Nullable Conference onCreateOutgoingConference(
@NonNull PhoneAccountHandle connectionManagerPhoneAccount,
@NonNull ConnectionRequest request) {
return null;
}
/**
* Called by Telecom to request that a {@link ConnectionService} creates an instance of an
* outgoing handover {@link Connection}.
* <p>
* A call handover is the process where an ongoing call is transferred from one app (i.e.
* {@link ConnectionService} to another app. The user could, for example, choose to continue a
* mobile network call in a video calling app. The mobile network call via the Telephony stack
* is referred to as the source of the handover, and the video calling app is referred to as the
* destination.
* <p>
* When considering a handover scenario the <em>initiating</em> device is where a user initiated
* the handover process (e.g. by calling {@link android.telecom.Call#handoverTo(
* PhoneAccountHandle, int, Bundle)}, and the other device is considered the <em>receiving</em>
* device.
* <p>
* This method is called on the destination {@link ConnectionService} on <em>initiating</em>
* device when the user initiates a handover request from one app to another. The user request
* originates in the {@link InCallService} via
* {@link android.telecom.Call#handoverTo(PhoneAccountHandle, int, Bundle)}.
* <p>
* For a full discussion of the handover process and the APIs involved, see
* {@link android.telecom.Call#handoverTo(PhoneAccountHandle, int, Bundle)}.
* <p>
* Implementations of this method should return an instance of {@link Connection} which
* represents the handover. If your app does not wish to accept a handover to it at this time,
* you can return {@code null}. The code below shows an example of how this is done.
* <pre>
* {@code
* public Connection onCreateIncomingHandoverConnection(PhoneAccountHandle
* fromPhoneAccountHandle, ConnectionRequest request) {
* if (!isHandoverAvailable()) {
* return null;
* }
* MyConnection connection = new MyConnection();
* connection.setAddress(request.getAddress(), TelecomManager.PRESENTATION_ALLOWED);
* connection.setVideoState(request.getVideoState());
* return connection;
* }
* }
* </pre>
*
* @param fromPhoneAccountHandle {@link PhoneAccountHandle} associated with the
* ConnectionService which needs to handover the call.
* @param request Details about the call to handover.
* @return {@link Connection} instance corresponding to the handover call.
*/
public Connection onCreateOutgoingHandoverConnection(PhoneAccountHandle fromPhoneAccountHandle,
ConnectionRequest request) {
return null;
}
/**
* Called by Telecom to request that a {@link ConnectionService} creates an instance of an
* incoming handover {@link Connection}.
* <p>
* A call handover is the process where an ongoing call is transferred from one app (i.e.
* {@link ConnectionService} to another app. The user could, for example, choose to continue a
* mobile network call in a video calling app. The mobile network call via the Telephony stack
* is referred to as the source of the handover, and the video calling app is referred to as the
* destination.
* <p>
* When considering a handover scenario the <em>initiating</em> device is where a user initiated
* the handover process (e.g. by calling {@link android.telecom.Call#handoverTo(
* PhoneAccountHandle, int, Bundle)}, and the other device is considered the <em>receiving</em>
* device.
* <p>
* This method is called on the destination app on the <em>receiving</em> device when the
* destination app calls {@link TelecomManager#acceptHandover(Uri, int, PhoneAccountHandle)} to
* accept an incoming handover from the <em>initiating</em> device.
* <p>
* For a full discussion of the handover process and the APIs involved, see
* {@link android.telecom.Call#handoverTo(PhoneAccountHandle, int, Bundle)}.
* <p>
* Implementations of this method should return an instance of {@link Connection} which
* represents the handover. The code below shows an example of how this is done.
* <pre>
* {@code
* public Connection onCreateIncomingHandoverConnection(PhoneAccountHandle
* fromPhoneAccountHandle, ConnectionRequest request) {
* // Given that your app requested to accept the handover, you should not return null here.
* MyConnection connection = new MyConnection();
* connection.setAddress(request.getAddress(), TelecomManager.PRESENTATION_ALLOWED);
* connection.setVideoState(request.getVideoState());
* return connection;
* }
* }
* </pre>
*
* @param fromPhoneAccountHandle {@link PhoneAccountHandle} associated with the
* ConnectionService which needs to handover the call.
* @param request Details about the call which needs to be handover.
* @return {@link Connection} instance corresponding to the handover call.
*/
public Connection onCreateIncomingHandoverConnection(PhoneAccountHandle fromPhoneAccountHandle,
ConnectionRequest request) {
return null;
}
/**
* Called by Telecom in response to a {@code TelecomManager#acceptHandover()}
* invocation which failed.
* <p>
* For a full discussion of the handover process and the APIs involved, see
* {@link android.telecom.Call#handoverTo(PhoneAccountHandle, int, Bundle)}
*
* @param request Details about the call which failed to handover.
* @param error Reason for handover failure. Will be one of the
*/
public void onHandoverFailed(ConnectionRequest request,
@Call.Callback.HandoverFailureErrors int error) {
return;
}
/**
* Calls of this type are created using
* {@link TelecomManager#addNewUnknownCall(PhoneAccountHandle, Bundle)}. Unknown calls
* are used for representing calls which become known to the {@link ConnectionService}
* midway through the call.
*
* For example, a call transferred from one device to answer would surface as an active
* call in Telecom instead of going through a typical Ringing to Active transition, or
* Dialing to Active transition.
*
* A {@link ConnectionService} can return {@code null} (the default behavior)
* if it is not able to handle a request for the requested unknown connection.
*
* {@link TelecomManager#addNewIncomingCall(PhoneAccountHandle, android.os.Bundle)}.
*
* @param connectionManagerPhoneAccount The connection manager account to use for managing
* this call
* @param request Details about the outgoing call
* @return The {@code Connection} object to satisfy this call, or the result of an invocation
* of {@link Connection#createFailedConnection(DisconnectCause)} to not handle the call
* @hide
*/
@SystemApi(client = SystemApi.Client.MODULE_LIBRARIES)
@RequiresPermission(android.Manifest.permission.MODIFY_PHONE_STATE)
public @Nullable Connection onCreateUnknownConnection(
@NonNull PhoneAccountHandle connectionManagerPhoneAccount,
@NonNull ConnectionRequest request) {
return null;
}
/**
* Conference two specified connections. Invoked when the user has made a request to merge the
* specified connections into a conference call. In response, the connection service should
* create an instance of {@link Conference} and pass it into {@link #addConference}.
*
* @param connection1 A connection to merge into a conference call.
* @param connection2 A connection to merge into a conference call.
*/
public void onConference(Connection connection1, Connection connection2) {}
/**
* Called when a connection is added.
* @hide
*/
public void onConnectionAdded(Connection connection) {}
/**
* Called when a connection is removed.
* @hide
*/
public void onConnectionRemoved(Connection connection) {}
/**
* Called when a conference is added.
* @hide
*/
public void onConferenceAdded(Conference conference) {}
/**
* Called when a conference is removed.
* @hide
*/
public void onConferenceRemoved(Conference conference) {}
/**
* Indicates that a remote conference has been created for existing {@link RemoteConnection}s.
* When this method is invoked, this {@link ConnectionService} should create its own
* representation of the conference call and send it to telecom using {@link #addConference}.
* <p>
* This is only relevant to {@link ConnectionService}s which are registered with
* {@link PhoneAccount#CAPABILITY_CONNECTION_MANAGER}.
*
* @param conference The remote conference call.
*/
public void onRemoteConferenceAdded(RemoteConference conference) {}
/**
* Called when an existing connection is added remotely.
* @param connection The existing connection which was added.
*/
public void onRemoteExistingConnectionAdded(RemoteConnection connection) {}
/**
* Called when the {@link ConnectionService} has lost the call focus.
* The {@link ConnectionService} should release the call resources and invokes
* {@link ConnectionService#connectionServiceFocusReleased()} to inform telecom that it has
* released the call resources.
*/
public void onConnectionServiceFocusLost() {}
/**
* Called when the {@link ConnectionService} has gained the call focus. The
* {@link ConnectionService} can acquire the call resources at this time.
*/
public void onConnectionServiceFocusGained() {}
/**
* @hide
*/
public boolean containsConference(Conference conference) {
return mIdByConference.containsKey(conference);
}
/** {@hide} */
void addRemoteConference(RemoteConference remoteConference) {
onRemoteConferenceAdded(remoteConference);
}
/** {@hide} */
void addRemoteExistingConnection(RemoteConnection remoteConnection) {
onRemoteExistingConnectionAdded(remoteConnection);
}
private void onAccountsInitialized() {
mAreAccountsInitialized = true;
for (Runnable r : mPreInitializationConnectionRequests) {
r.run();
}
mPreInitializationConnectionRequests.clear();
}
/**
* Adds an existing connection to the list of connections, identified by a new call ID unique
* to this connection service.
*
* @param connection The connection.
* @return The ID of the connection (e.g. the call-id).
*/
private String addExistingConnectionInternal(PhoneAccountHandle handle, Connection connection) {
String id;
if (connection.getExtras() != null && connection.getExtras()
.containsKey(Connection.EXTRA_ORIGINAL_CONNECTION_ID)) {
id = connection.getExtras().getString(Connection.EXTRA_ORIGINAL_CONNECTION_ID);
Log.d(this, "addExistingConnectionInternal - conn %s reusing original id %s",
connection.getTelecomCallId(), id);
} else if (handle == null) {
// If no phone account handle was provided, we cannot be sure the call ID is unique,
// so just use a random UUID.
id = UUID.randomUUID().toString();
} else {
// Phone account handle was provided, so use the ConnectionService class name as a
// prefix for a unique incremental call ID.
id = handle.getComponentName().getClassName() + "@" + getNextCallId();
}
addConnection(handle, id, connection);
return id;
}
private void addConnection(PhoneAccountHandle handle, String callId, Connection connection) {
connection.setTelecomCallId(callId);
mConnectionById.put(callId, connection);
mIdByConnection.put(connection, callId);
connection.addConnectionListener(mConnectionListener);
connection.setConnectionService(this);
connection.setPhoneAccountHandle(handle);
onConnectionAdded(connection);
}
/** {@hide} */
protected void removeConnection(Connection connection) {
connection.unsetConnectionService(this);
connection.removeConnectionListener(mConnectionListener);
String id = mIdByConnection.get(connection);
if (id != null) {
mConnectionById.remove(id);
mIdByConnection.remove(connection);
mAdapter.removeCall(id);
onConnectionRemoved(connection);
}
}
private String addConferenceInternal(Conference conference) {
String originalId = null;
if (conference.getExtras() != null && conference.getExtras()
.containsKey(Connection.EXTRA_ORIGINAL_CONNECTION_ID)) {
originalId = conference.getExtras().getString(Connection.EXTRA_ORIGINAL_CONNECTION_ID);
Log.d(this, "addConferenceInternal: conf %s reusing original id %s",
conference.getTelecomCallId(),
originalId);
}
if (mIdByConference.containsKey(conference)) {
Log.w(this, "Re-adding an existing conference: %s.", conference);
} else if (conference != null) {
// Conferences do not (yet) have a PhoneAccountHandle associated with them, so we
// cannot determine a ConnectionService class name to associate with the ID, so use
// a unique UUID (for now).
String id = originalId == null ? UUID.randomUUID().toString() : originalId;
mConferenceById.put(id, conference);
mIdByConference.put(conference, id);
conference.addListener(mConferenceListener);
return id;
}
return null;
}
private void removeConference(Conference conference) {
if (mIdByConference.containsKey(conference)) {
conference.removeListener(mConferenceListener);
String id = mIdByConference.get(conference);
mConferenceById.remove(id);
mIdByConference.remove(conference);
mAdapter.removeCall(id);
onConferenceRemoved(conference);
}
}
private Connection findConnectionForAction(String callId, String action) {
if (callId != null && mConnectionById.containsKey(callId)) {
return mConnectionById.get(callId);
}
Log.w(this, "%s - Cannot find Connection %s", action, callId);
return getNullConnection();
}
static synchronized Connection getNullConnection() {
if (sNullConnection == null) {
sNullConnection = new Connection() {};
}
return sNullConnection;
}
private Conference findConferenceForAction(String conferenceId, String action) {
if (mConferenceById.containsKey(conferenceId)) {
return mConferenceById.get(conferenceId);
}
Log.w(this, "%s - Cannot find conference %s", action, conferenceId);
return getNullConference();
}
private List<String> createConnectionIdList(List<Connection> connections) {
List<String> ids = new ArrayList<>();
for (Connection c : connections) {
if (mIdByConnection.containsKey(c)) {
ids.add(mIdByConnection.get(c));
}
}
Collections.sort(ids);
return ids;
}
/**
* Builds a list of {@link Connection} and {@link Conference} IDs based on the list of
* {@link Conferenceable}s passed in.
*
* @param conferenceables The {@link Conferenceable} connections and conferences.
* @return List of string conference and call Ids.
*/
private List<String> createIdList(List<Conferenceable> conferenceables) {
List<String> ids = new ArrayList<>();
for (Conferenceable c : conferenceables) {
// Only allow Connection and Conference conferenceables.
if (c instanceof Connection) {
Connection connection = (Connection) c;
if (mIdByConnection.containsKey(connection)) {
ids.add(mIdByConnection.get(connection));
}
} else if (c instanceof Conference) {
Conference conference = (Conference) c;
if (mIdByConference.containsKey(conference)) {
ids.add(mIdByConference.get(conference));
}
}
}
Collections.sort(ids);
return ids;
}
private Conference getNullConference() {
if (sNullConference == null) {
sNullConference = new Conference(null) {};
}
return sNullConference;
}
private void endAllConnections() {
// Unbound from telecomm. We should end all connections and conferences.
for (Connection connection : mIdByConnection.keySet()) {
// only operate on top-level calls. Conference calls will be removed on their own.
if (connection.getConference() == null) {
connection.onDisconnect();
}
}
for (Conference conference : mIdByConference.keySet()) {
conference.onDisconnect();
}
}
/**
* Retrieves the next call ID as maintainted by the connection service.
*
* @return The call ID.
*/
private int getNextCallId() {
synchronized (mIdSyncRoot) {
return ++mId;
}
}
/**
* Returns this handler, ONLY FOR TESTING.
* @hide
*/
@VisibleForTesting
public Handler getHandler() {
return mHandler;
}
/**
* Sets this {@link ConnectionService} ready for testing purposes.
* @hide
*/
@VisibleForTesting
public void setReadyForTest() {
mAreAccountsInitialized = true;
}
}