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/*
* Copyright (C) 2013 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package android.telecom;
import android.annotation.CallbackExecutor;
import android.annotation.NonNull;
import android.annotation.SdkConstant;
import android.annotation.SystemApi;
import android.app.Service;
import android.app.UiModeManager;
import android.bluetooth.BluetoothDevice;
import android.content.ComponentName;
import android.content.Intent;
import android.hardware.camera2.CameraManager;
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.view.Surface;
import com.android.internal.os.SomeArgs;
import com.android.internal.telecom.IInCallAdapter;
import com.android.internal.telecom.IInCallService;
import java.util.Collections;
import java.util.List;
import java.util.Objects;
import java.util.concurrent.Executor;
/**
* This service is implemented by an app that wishes to provide functionality for managing
* phone calls.
* <h2>Becoming the Default Phone App</h2>
* The default dialer/phone app is one which provides the in-call user interface while the device is
* in a call. It also provides the user with a means to initiate calls and see a history of calls
* on their device. A device is bundled with a system provided default dialer/phone app. The user
* may choose a single app to take over this role from the system app. An app which wishes to
* fulfill this role uses the {@link android.app.role.RoleManager} to request that they fill the
* {@link android.app.role.RoleManager#ROLE_DIALER} role.
* <p>
* The default phone app provides a user interface while the device is in a call, and the device is
* not in car mode (i.e. {@link UiModeManager#getCurrentModeType()} is not
* {@link android.content.res.Configuration#UI_MODE_TYPE_CAR}).
* <p>
* In order to fill the {@link android.app.role.RoleManager#ROLE_DIALER} role, an app must meet a
* number of requirements:
* <ul>
* <li>It must handle the {@link Intent#ACTION_DIAL} intent. This means the app must provide
* a dial pad UI for the user to initiate outgoing calls.</li>
* <li>It must fully implement the {@link InCallService} API and provide both an incoming call
* UI, as well as an ongoing call UI.</li>
* </ul>
* <p>
* Note: If the app filling the {@link android.app.role.RoleManager#ROLE_DIALER} returns a
* {@code null} {@link InCallService} during binding, the Telecom framework will automatically fall
* back to using the dialer app preloaded on the device. The system will display a notification to
* the user to let them know that their call was continued using the preloaded dialer app. Your
* app should never return a {@code null} binding; doing so means it does not fulfil the
* requirements of {@link android.app.role.RoleManager#ROLE_DIALER}.
* <p>
* Note: If your app fills {@link android.app.role.RoleManager#ROLE_DIALER} and makes changes at
* runtime which cause it to no longer fulfil the requirements of this role,
* {@link android.app.role.RoleManager} will automatically remove your app from the role and close
* your app. For example, if you use
* {@link android.content.pm.PackageManager#setComponentEnabledSetting(ComponentName, int, int)} to
* programmatically disable the {@link InCallService} your app declares in its manifest, your app
* will no longer fulfil the requirements expected of
* {@link android.app.role.RoleManager#ROLE_DIALER}.
* <p>
* The preloaded dialer will ALWAYS be used when the user places an emergency call, even if your
* app fills the {@link android.app.role.RoleManager#ROLE_DIALER} role. To ensure an optimal
* experience when placing an emergency call, the default dialer should ALWAYS use
* {@link android.telecom.TelecomManager#placeCall(Uri, Bundle)} to place calls (including
* emergency calls). This ensures that the platform is able to verify that the request came from
* the default dialer. If a non-preloaded dialer app uses {@link Intent#ACTION_CALL} to place an
* emergency call, it will be raised to the preloaded dialer app using {@link Intent#ACTION_DIAL}
* for confirmation; this is a suboptimal user experience.
* <p>
* Below is an example manifest registration for an {@code InCallService}. The meta-data
* {@link TelecomManager#METADATA_IN_CALL_SERVICE_UI} indicates that this particular
* {@code InCallService} implementation intends to replace the built-in in-call UI.
* The meta-data {@link TelecomManager#METADATA_IN_CALL_SERVICE_RINGING} indicates that this
* {@link InCallService} will play the ringtone for incoming calls. See
* <a href="#incomingCallNotification">below</a> for more information on showing the incoming call
* UI and playing the ringtone in your app.
* <pre>
* {@code
* <service android:name="your.package.YourInCallServiceImplementation"
* android:permission="android.permission.BIND_INCALL_SERVICE"
* android:exported="true">
* <meta-data android:name="android.telecom.IN_CALL_SERVICE_UI" android:value="true" />
* <meta-data android:name="android.telecom.IN_CALL_SERVICE_RINGING"
* android:value="true" />
* <intent-filter>
* <action android:name="android.telecom.InCallService"/>
* </intent-filter>
* </service>
* }
* </pre>
*
* <em>Note: You should NOT mark your {@link InCallService} with the attribute
* {@code android:exported="false"}; doing so can result in a failure to bind to your implementation
* during calls.</em>
* <p>
* In addition to implementing the {@link InCallService} API, you must also declare an activity in
* your manifest which handles the {@link Intent#ACTION_DIAL} intent. The example below illustrates
* how this is done:
* <pre>
* {@code
* <activity android:name="your.package.YourDialerActivity"
* android:label="@string/yourDialerActivityLabel">
* <intent-filter>
* <action android:name="android.intent.action.DIAL" />
* <category android:name="android.intent.category.DEFAULT" />
* </intent-filter>
* <intent-filter>
* <action android:name="android.intent.action.DIAL" />
* <category android:name="android.intent.category.DEFAULT" />
* <data android:scheme="tel" />
* </intent-filter>
* </activity>
* }
* </pre>
* <p>
* When a user installs your application and runs it for the first time, you should use the
* {@link android.app.role.RoleManager} to prompt the user to see if they would like your app to
* be the new default phone app.
* <p id="requestRole">
* The code below shows how your app can request to become the default phone/dialer app:
* <pre>
* {@code
* private static final int REQUEST_ID = 1;
*
* public void requestRole() {
* RoleManager roleManager = (RoleManager) getSystemService(ROLE_SERVICE);
* Intent intent = roleManager.createRequestRoleIntent(RoleManager.ROLE_DIALER);
* startActivityForResult(intent, REQUEST_ID);
* }
*
* &#64;Override
* public void onActivityResult(int requestCode, int resultCode, Intent data) {
* if (requestCode == REQUEST_ID) {
* if (resultCode == android.app.Activity.RESULT_OK) {
* // Your app is now the default dialer app
* } else {
* // Your app is not the default dialer app
* }
* }
* }
* }
*
* </pre>
* <p id="companionInCallService">
* <h3>Access to InCallService for Wearable Devices</h3>
* <ol>
* If your app is a third-party companion app and wants to access InCallService APIs, what your
* app could do are:
* <p>
* <ol>
* <li> Declare MANAGE_ONGOING_CALLS permission in your manifest
* <li> Associate with a physical wearable device via the
* {@link android.companion.CompanionDeviceManager} API as a companion app. See:
* https://developer.android.com/guide/topics/connectivity/companion-device-pairing
* <li> Implement this InCallService with BIND_INCALL_SERVICE permission
* </ol>
* </ol>
* <p>
*
* </pre>
* <p id="incomingCallNotification">
* <h3>Showing the Incoming Call Notification</h3>
* When your app receives a new incoming call via {@link InCallService#onCallAdded(Call)}, it is
* responsible for displaying an incoming call UI for the incoming call. It should do this using
* {@link android.app.NotificationManager} APIs to post a new incoming call notification.
* <p>
* Where your app declares the meta-data {@link TelecomManager#METADATA_IN_CALL_SERVICE_RINGING}, it
* is responsible for playing the ringtone for incoming calls. Your app should create a
* {@link android.app.NotificationChannel} which specifies the desired ringtone. For example:
* <pre><code>
* NotificationChannel channel = new NotificationChannel(YOUR_CHANNEL_ID, "Incoming Calls",
* NotificationManager.IMPORTANCE_MAX);
* // other channel setup stuff goes here.
*
* // We'll use the default system ringtone for our incoming call notification channel. You can
* // use your own audio resource here.
* Uri ringtoneUri = RingtoneManager.getDefaultUri(RingtoneManager.TYPE_RINGTONE);
* channel.setSound(ringtoneUri, new AudioAttributes.Builder()
* // Setting the AudioAttributes is important as it identifies the purpose of your
* // notification sound.
* .setUsage(AudioAttributes.USAGE_NOTIFICATION_RINGTONE)
* .setContentType(AudioAttributes.CONTENT_TYPE_SONIFICATION)
* .build());
*
* NotificationManager mgr = getSystemService(NotificationManager.class);
* mgr.createNotificationChannel(channel);
* </code></pre>
* <p>
* When your app receives a new incoming call, it creates a {@link android.app.Notification} for the
* incoming call and associates it with your incoming call notification channel. You can specify a
* {@link android.app.PendingIntent} on the notification which will launch your full screen
* incoming call UI. The notification manager framework will display your notification as a
* heads-up notification if the user is actively using the phone. When the user is not using the
* phone, your full-screen incoming call UI is used instead.
* For example:
* <pre><code>{@code
* // Create an intent which triggers your fullscreen incoming call user interface.
* Intent intent = new Intent(Intent.ACTION_MAIN, null);
* intent.setFlags(Intent.FLAG_ACTIVITY_NO_USER_ACTION | Intent.FLAG_ACTIVITY_NEW_TASK);
* intent.setClass(context, YourIncomingCallActivity.class);
* PendingIntent pendingIntent = PendingIntent.getActivity(context, 1, intent, PendingIntent.FLAG_MUTABLE_UNAUDITED);
*
* // Build the notification as an ongoing high priority item; this ensures it will show as
* // a heads up notification which slides down over top of the current content.
* final Notification.Builder builder = new Notification.Builder(context);
* builder.setOngoing(true);
* builder.setPriority(Notification.PRIORITY_HIGH);
*
* // Set notification content intent to take user to the fullscreen UI if user taps on the
* // notification body.
* builder.setContentIntent(pendingIntent);
* // Set full screen intent to trigger display of the fullscreen UI when the notification
* // manager deems it appropriate.
* builder.setFullScreenIntent(pendingIntent, true);
*
* // Setup notification content.
* builder.setSmallIcon( yourIconResourceId );
* builder.setContentTitle("Your notification title");
* builder.setContentText("Your notification content.");
*
* // Use builder.addAction(..) to add buttons to answer or reject the call.
*
* NotificationManager notificationManager = mContext.getSystemService(
* NotificationManager.class);
* notificationManager.notify(YOUR_CHANNEL_ID, YOUR_TAG, YOUR_ID, builder.build());
* }</pre>
* <p>
*/
public abstract class InCallService 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.InCallService";
private static final int MSG_SET_IN_CALL_ADAPTER = 1;
private static final int MSG_ADD_CALL = 2;
private static final int MSG_UPDATE_CALL = 3;
private static final int MSG_SET_POST_DIAL_WAIT = 4;
private static final int MSG_ON_CALL_AUDIO_STATE_CHANGED = 5;
private static final int MSG_BRING_TO_FOREGROUND = 6;
private static final int MSG_ON_CAN_ADD_CALL_CHANGED = 7;
private static final int MSG_SILENCE_RINGER = 8;
private static final int MSG_ON_CONNECTION_EVENT = 9;
private static final int MSG_ON_RTT_UPGRADE_REQUEST = 10;
private static final int MSG_ON_RTT_INITIATION_FAILURE = 11;
private static final int MSG_ON_HANDOVER_FAILED = 12;
private static final int MSG_ON_HANDOVER_COMPLETE = 13;
private static final int MSG_ON_CALL_ENDPOINT_CHANGED = 14;
private static final int MSG_ON_AVAILABLE_CALL_ENDPOINTS_CHANGED = 15;
private static final int MSG_ON_MUTE_STATE_CHANGED = 16;
private CallEndpoint mCallEndpoint;
/** Default Handler used to consolidate binder method calls onto a single thread. */
private final Handler mHandler = new Handler(Looper.getMainLooper()) {
@Override
public void handleMessage(Message msg) {
if (mPhone == null && msg.what != MSG_SET_IN_CALL_ADAPTER) {
return;
}
switch (msg.what) {
case MSG_SET_IN_CALL_ADAPTER:
if (mPhone != null) {
Log.i(this, "mPhone is already instantiated, ignoring "
+ "request to reset adapter.");
break;
}
String callingPackage = getApplicationContext().getOpPackageName();
mPhone = new Phone(new InCallAdapter((IInCallAdapter) msg.obj), callingPackage,
getApplicationContext().getApplicationInfo().targetSdkVersion);
mPhone.addListener(mPhoneListener);
onPhoneCreated(mPhone);
break;
case MSG_ADD_CALL:
mPhone.internalAddCall((ParcelableCall) msg.obj);
break;
case MSG_UPDATE_CALL:
mPhone.internalUpdateCall((ParcelableCall) msg.obj);
break;
case MSG_SET_POST_DIAL_WAIT: {
SomeArgs args = (SomeArgs) msg.obj;
try {
String callId = (String) args.arg1;
String remaining = (String) args.arg2;
mPhone.internalSetPostDialWait(callId, remaining);
} finally {
args.recycle();
}
break;
}
case MSG_ON_CALL_AUDIO_STATE_CHANGED:
mPhone.internalCallAudioStateChanged((CallAudioState) msg.obj);
break;
case MSG_BRING_TO_FOREGROUND:
mPhone.internalBringToForeground(msg.arg1 == 1);
break;
case MSG_ON_CAN_ADD_CALL_CHANGED:
mPhone.internalSetCanAddCall(msg.arg1 == 1);
break;
case MSG_SILENCE_RINGER:
mPhone.internalSilenceRinger();
break;
case MSG_ON_CONNECTION_EVENT: {
SomeArgs args = (SomeArgs) msg.obj;
try {
String callId = (String) args.arg1;
String event = (String) args.arg2;
Bundle extras = (Bundle) args.arg3;
mPhone.internalOnConnectionEvent(callId, event, extras);
} finally {
args.recycle();
}
break;
}
case MSG_ON_RTT_UPGRADE_REQUEST: {
String callId = (String) msg.obj;
int requestId = msg.arg1;
mPhone.internalOnRttUpgradeRequest(callId, requestId);
break;
}
case MSG_ON_RTT_INITIATION_FAILURE: {
String callId = (String) msg.obj;
int reason = msg.arg1;
mPhone.internalOnRttInitiationFailure(callId, reason);
break;
}
case MSG_ON_HANDOVER_FAILED: {
String callId = (String) msg.obj;
int error = msg.arg1;
mPhone.internalOnHandoverFailed(callId, error);
break;
}
case MSG_ON_HANDOVER_COMPLETE: {
String callId = (String) msg.obj;
mPhone.internalOnHandoverComplete(callId);
break;
}
case MSG_ON_CALL_ENDPOINT_CHANGED: {
CallEndpoint endpoint = (CallEndpoint) msg.obj;
if (!Objects.equals(mCallEndpoint, endpoint)) {
mCallEndpoint = endpoint;
InCallService.this.onCallEndpointChanged(mCallEndpoint);
}
break;
}
case MSG_ON_AVAILABLE_CALL_ENDPOINTS_CHANGED: {
InCallService.this.onAvailableCallEndpointsChanged(
(List<CallEndpoint>) msg.obj);
break;
}
case MSG_ON_MUTE_STATE_CHANGED: {
InCallService.this.onMuteStateChanged((boolean) msg.obj);
break;
}
default:
break;
}
}
};
/** Manages the binder calls so that the implementor does not need to deal with it. */
private final class InCallServiceBinder extends IInCallService.Stub {
@Override
public void setInCallAdapter(IInCallAdapter inCallAdapter) {
mHandler.obtainMessage(MSG_SET_IN_CALL_ADAPTER, inCallAdapter).sendToTarget();
}
@Override
public void addCall(ParcelableCall call) {
mHandler.obtainMessage(MSG_ADD_CALL, call).sendToTarget();
}
@Override
public void updateCall(ParcelableCall call) {
mHandler.obtainMessage(MSG_UPDATE_CALL, call).sendToTarget();
}
@Override
public void setPostDial(String callId, String remaining) {
// TODO: Unused
}
@Override
public void setPostDialWait(String callId, String remaining) {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.arg2 = remaining;
mHandler.obtainMessage(MSG_SET_POST_DIAL_WAIT, args).sendToTarget();
}
@Override
public void onCallAudioStateChanged(CallAudioState callAudioState) {
mHandler.obtainMessage(MSG_ON_CALL_AUDIO_STATE_CHANGED, callAudioState).sendToTarget();
}
@Override
public void onCallEndpointChanged(CallEndpoint callEndpoint) {
mHandler.obtainMessage(MSG_ON_CALL_ENDPOINT_CHANGED, callEndpoint).sendToTarget();
}
@Override
public void onAvailableCallEndpointsChanged(List<CallEndpoint> availableEndpoints) {
mHandler.obtainMessage(MSG_ON_AVAILABLE_CALL_ENDPOINTS_CHANGED, availableEndpoints)
.sendToTarget();
}
@Override
public void onMuteStateChanged(boolean isMuted) {
mHandler.obtainMessage(MSG_ON_MUTE_STATE_CHANGED, isMuted).sendToTarget();
}
@Override
public void bringToForeground(boolean showDialpad) {
mHandler.obtainMessage(MSG_BRING_TO_FOREGROUND, showDialpad ? 1 : 0, 0).sendToTarget();
}
@Override
public void onCanAddCallChanged(boolean canAddCall) {
mHandler.obtainMessage(MSG_ON_CAN_ADD_CALL_CHANGED, canAddCall ? 1 : 0, 0)
.sendToTarget();
}
@Override
public void silenceRinger() {
mHandler.obtainMessage(MSG_SILENCE_RINGER).sendToTarget();
}
@Override
public void onConnectionEvent(String callId, String event, Bundle extras) {
SomeArgs args = SomeArgs.obtain();
args.arg1 = callId;
args.arg2 = event;
args.arg3 = extras;
mHandler.obtainMessage(MSG_ON_CONNECTION_EVENT, args).sendToTarget();
}
@Override
public void onRttUpgradeRequest(String callId, int id) {
mHandler.obtainMessage(MSG_ON_RTT_UPGRADE_REQUEST, id, 0, callId).sendToTarget();
}
@Override
public void onRttInitiationFailure(String callId, int reason) {
mHandler.obtainMessage(MSG_ON_RTT_INITIATION_FAILURE, reason, 0, callId).sendToTarget();
}
@Override
public void onHandoverFailed(String callId, int error) {
mHandler.obtainMessage(MSG_ON_HANDOVER_FAILED, error, 0, callId).sendToTarget();
}
@Override
public void onHandoverComplete(String callId) {
mHandler.obtainMessage(MSG_ON_HANDOVER_COMPLETE, callId).sendToTarget();
}
}
private Phone.Listener mPhoneListener = new Phone.Listener() {
/** ${inheritDoc} */
@Override
public void onAudioStateChanged(Phone phone, AudioState audioState) {
InCallService.this.onAudioStateChanged(audioState);
}
public void onCallAudioStateChanged(Phone phone, CallAudioState callAudioState) {
InCallService.this.onCallAudioStateChanged(callAudioState);
};
/** ${inheritDoc} */
@Override
public void onBringToForeground(Phone phone, boolean showDialpad) {
InCallService.this.onBringToForeground(showDialpad);
}
/** ${inheritDoc} */
@Override
public void onCallAdded(Phone phone, Call call) {
InCallService.this.onCallAdded(call);
}
/** ${inheritDoc} */
@Override
public void onCallRemoved(Phone phone, Call call) {
InCallService.this.onCallRemoved(call);
}
/** ${inheritDoc} */
@Override
public void onCanAddCallChanged(Phone phone, boolean canAddCall) {
InCallService.this.onCanAddCallChanged(canAddCall);
}
/** ${inheritDoc} */
@Override
public void onSilenceRinger(Phone phone) {
InCallService.this.onSilenceRinger();
}
};
private Phone mPhone;
public InCallService() {
}
@Override
public IBinder onBind(Intent intent) {
return new InCallServiceBinder();
}
@Override
public boolean onUnbind(Intent intent) {
if (mPhone != null) {
Phone oldPhone = mPhone;
mPhone = null;
oldPhone.destroy();
// destroy sets all the calls to disconnected if any live ones still exist. Therefore,
// it is important to remove the Listener *after* the call to destroy so that
// InCallService.on* callbacks are appropriately called.
oldPhone.removeListener(mPhoneListener);
onPhoneDestroyed(oldPhone);
}
return false;
}
/**
* Obtain the {@code Phone} associated with this {@code InCallService}.
*
* @return The {@code Phone} object associated with this {@code InCallService}, or {@code null}
* if the {@code InCallService} is not in a state where it has an associated
* {@code Phone}.
* @hide
* @deprecated Use direct methods on InCallService instead of {@link Phone}.
*/
@SystemApi
@Deprecated
public Phone getPhone() {
return mPhone;
}
/**
* Obtains the current list of {@code Call}s to be displayed by this in-call service.
*
* @return A list of the relevant {@code Call}s.
*/
public final List<Call> getCalls() {
return mPhone == null ? Collections.<Call>emptyList() : mPhone.getCalls();
}
/**
* Returns if the device can support additional calls.
*
* @return Whether the phone supports adding more calls.
*/
public final boolean canAddCall() {
return mPhone == null ? false : mPhone.canAddCall();
}
/**
* Obtains the current phone call audio state.
*
* @return An object encapsulating the audio state. Returns null if the service is not
* fully initialized.
* @deprecated Use {@link #getCallAudioState()} instead.
* @hide
*/
@Deprecated
public final AudioState getAudioState() {
return mPhone == null ? null : mPhone.getAudioState();
}
/**
* Obtains the current phone call audio state.
*
* @return An object encapsulating the audio state. Returns null if the service is not
* fully initialized.
* @deprecated Use {@link #getCurrentCallEndpoint()},
* {@link #onAvailableCallEndpointsChanged(List)} and
* {@link #onMuteStateChanged(boolean)} instead.
*/
@Deprecated
public final CallAudioState getCallAudioState() {
return mPhone == null ? null : mPhone.getCallAudioState();
}
/**
* Sets the microphone mute state. When this request is honored, there will be change to
* the {@link #getCallAudioState()}.
*
* @param state {@code true} if the microphone should be muted; {@code false} otherwise.
*/
public final void setMuted(boolean state) {
if (mPhone != null) {
mPhone.setMuted(state);
}
}
/**
* Sets the audio route (speaker, bluetooth, etc...). When this request is honored, there will
* be change to the {@link #getCallAudioState()}.
*
* @param route The audio route to use.
* @deprecated Use {@link #requestCallEndpointChange(CallEndpoint, Executor, OutcomeReceiver)}
* instead.
*/
@Deprecated
public final void setAudioRoute(int route) {
if (mPhone != null) {
mPhone.setAudioRoute(route);
}
}
/**
* Request audio routing to a specific bluetooth device. Calling this method may result in
* the device routing audio to a different bluetooth device than the one specified if the
* bluetooth stack is unable to route audio to the requested device.
* A list of available devices can be obtained via
* {@link CallAudioState#getSupportedBluetoothDevices()}
*
* @param bluetoothDevice The bluetooth device to connect to.
* @deprecated Use {@link #requestCallEndpointChange(CallEndpoint, Executor, OutcomeReceiver)}
* instead.
*/
@Deprecated
public final void requestBluetoothAudio(@NonNull BluetoothDevice bluetoothDevice) {
if (mPhone != null) {
mPhone.requestBluetoothAudio(bluetoothDevice.getAddress());
}
}
/**
* Request audio routing to a specific CallEndpoint. Clients should not define their own
* CallEndpoint when requesting a change. Instead, the new endpoint should be one of the valid
* endpoints provided by {@link #onAvailableCallEndpointsChanged(List)}.
* When this request is honored, there will be change to the {@link #getCurrentCallEndpoint()}.
*
* @param endpoint The call endpoint to use.
* @param executor The executor of where the callback will execute.
* @param callback The callback to notify the result of the endpoint change.
*/
public final void requestCallEndpointChange(@NonNull CallEndpoint endpoint,
@NonNull @CallbackExecutor Executor executor,
@NonNull OutcomeReceiver<Void, CallEndpointException> callback) {
if (mPhone != null) {
mPhone.requestCallEndpointChange(endpoint, executor, callback);
}
}
/**
* Obtains the current CallEndpoint.
*
* @return An object encapsulating the CallEndpoint.
*/
@NonNull
public final CallEndpoint getCurrentCallEndpoint() {
return mCallEndpoint;
}
/**
* Invoked when the {@code Phone} has been created. This is a signal to the in-call experience
* to start displaying in-call information to the user. Each instance of {@code InCallService}
* will have only one {@code Phone}, and this method will be called exactly once in the lifetime
* of the {@code InCallService}.
*
* @param phone The {@code Phone} object associated with this {@code InCallService}.
* @hide
* @deprecated Use direct methods on InCallService instead of {@link Phone}.
*/
@SystemApi
@Deprecated
public void onPhoneCreated(Phone phone) {
}
/**
* Invoked when a {@code Phone} has been destroyed. This is a signal to the in-call experience
* to stop displaying in-call information to the user. This method will be called exactly once
* in the lifetime of the {@code InCallService}, and it will always be called after a previous
* call to {@link #onPhoneCreated(Phone)}.
*
* @param phone The {@code Phone} object associated with this {@code InCallService}.
* @hide
* @deprecated Use direct methods on InCallService instead of {@link Phone}.
*/
@SystemApi
@Deprecated
public void onPhoneDestroyed(Phone phone) {
}
/**
* Called when the audio state changes.
*
* @param audioState The new {@link AudioState}.
* @deprecated Use {@link #onCallAudioStateChanged(CallAudioState) instead}.
* @hide
*/
@Deprecated
public void onAudioStateChanged(AudioState audioState) {
}
/**
* Called when the audio state changes.
*
* @param audioState The new {@link CallAudioState}.
* @deprecated Use {@link #onCallEndpointChanged(CallEndpoint)},
* {@link #onAvailableCallEndpointsChanged(List)} and
* {@link #onMuteStateChanged(boolean)} instead.
*/
@Deprecated
public void onCallAudioStateChanged(CallAudioState audioState) {
}
/**
* Called when the current CallEndpoint changes.
*
* @param callEndpoint The current CallEndpoint {@link CallEndpoint}.
*/
public void onCallEndpointChanged(@NonNull CallEndpoint callEndpoint) {
}
/**
* Called when the available CallEndpoint changes.
*
* @param availableEndpoints The set of available CallEndpoint {@link CallEndpoint}.
*/
public void onAvailableCallEndpointsChanged(@NonNull List<CallEndpoint> availableEndpoints) {
}
/**
* Called when the mute state changes.
*
* @param isMuted The current mute state.
*/
public void onMuteStateChanged(boolean isMuted) {
}
/**
* Called to bring the in-call screen to the foreground. The in-call experience should
* respond immediately by coming to the foreground to inform the user of the state of
* ongoing {@code Call}s.
*
* @param showDialpad If true, put up the dialpad when the screen is shown.
*/
public void onBringToForeground(boolean showDialpad) {
}
/**
* Called when a {@code Call} has been added to this in-call session. The in-call user
* experience should add necessary state listeners to the specified {@code Call} and
* immediately start to show the user information about the existence
* and nature of this {@code Call}. Subsequent invocations of {@link #getCalls()} will
* include this {@code Call}.
*
* @param call A newly added {@code Call}.
*/
public void onCallAdded(Call call) {
}
/**
* Called when a {@code Call} has been removed from this in-call session. The in-call user
* experience should remove any state listeners from the specified {@code Call} and
* immediately stop displaying any information about this {@code Call}.
* Subsequent invocations of {@link #getCalls()} will no longer include this {@code Call}.
*
* @param call A newly removed {@code Call}.
*/
public void onCallRemoved(Call call) {
}
/**
* Called when the ability to add more calls changes. If the phone cannot
* support more calls then {@code canAddCall} is set to {@code false}. If it can, then it
* is set to {@code true}. This can be used to control the visibility of UI to add more calls.
*
* @param canAddCall Indicates whether an additional call can be added.
*/
public void onCanAddCallChanged(boolean canAddCall) {
}
/**
* Called to silence the ringer if a ringing call exists.
*/
public void onSilenceRinger() {
}
/**
* Unused; to handle connection events issued by a {@link ConnectionService}, implement the
* {@link android.telecom.Call.Callback#onConnectionEvent(Call, String, Bundle)} callback.
* <p>
* See {@link Connection#sendConnectionEvent(String, Bundle)}.
*
* @param call The call the event is associated with.
* @param event The event.
* @param extras Any associated extras.
*/
public void onConnectionEvent(Call call, String event, Bundle extras) {
}
/**
* Used to issue commands to the {@link Connection.VideoProvider} associated with a
* {@link Call}.
*/
public static abstract class VideoCall {
/** @hide */
@SuppressWarnings("HiddenAbstractMethod")
public abstract void destroy();
/**
* Registers a callback to receive commands and state changes for video calls.
*
* @param callback The video call callback.
*/
public abstract void registerCallback(VideoCall.Callback callback);
/**
* Registers a callback to receive commands and state changes for video calls.
*
* @param callback The video call callback.
* @param handler A handler which commands and status changes will be delivered to.
*/
public abstract void registerCallback(VideoCall.Callback callback, Handler handler);
/**
* Clears the video call callback set via {@link #registerCallback}.
*
* @param callback The video call callback to clear.
*/
public abstract void unregisterCallback(VideoCall.Callback callback);
/**
* Sets the camera to be used for the outgoing video.
* <p>
* Handled by {@link Connection.VideoProvider#onSetCamera(String)}.
*
* @param cameraId The id of the camera (use ids as reported by
* {@link CameraManager#getCameraIdList()}).
*/
public abstract void setCamera(String cameraId);
/**
* Sets the surface to be used for displaying a preview of what the user's camera is
* currently capturing. When video transmission is enabled, this is the video signal which
* is sent to the remote device.
* <p>
* Handled by {@link Connection.VideoProvider#onSetPreviewSurface(Surface)}.
*
* @param surface The {@link Surface}.
*/
public abstract void setPreviewSurface(Surface surface);
/**
* Sets the surface to be used for displaying the video received from the remote device.
* <p>
* Handled by {@link Connection.VideoProvider#onSetDisplaySurface(Surface)}.
*
* @param surface The {@link Surface}.
*/
public abstract void setDisplaySurface(Surface surface);
/**
* Sets the device orientation, in degrees. Assumes that a standard portrait orientation of
* the device is 0 degrees.
* <p>
* Handled by {@link Connection.VideoProvider#onSetDeviceOrientation(int)}.
*
* @param rotation The device orientation, in degrees.
*/
public abstract void setDeviceOrientation(int rotation);
/**
* Sets the camera zoom ratio.
* <p>
* Handled by {@link Connection.VideoProvider#onSetZoom(float)}.
*
* @param value The camera zoom ratio; for the current camera, should be a value in the
* range defined by
* {@link android.hardware.camera2.CameraCharacteristics#CONTROL_ZOOM_RATIO_RANGE}.
*/
public abstract void setZoom(float value);
/**
* Issues a request to modify the properties of the current video session.
* <p>
* Example scenarios include: requesting an audio-only call to be upgraded to a
* bi-directional video call, turning on or off the user's camera, sending a pause signal
* when the {@link InCallService} is no longer the foreground application.
* <p>
* Handled by
* {@link Connection.VideoProvider#onSendSessionModifyRequest(VideoProfile, VideoProfile)}.
*
* @param requestProfile The requested call video properties.
*/
public abstract void sendSessionModifyRequest(VideoProfile requestProfile);
/**
* Provides a response to a request to change the current call video session
* properties. This should be called in response to a request the {@link InCallService} has
* received via {@link VideoCall.Callback#onSessionModifyRequestReceived}.
* <p>
* Handled by
* {@link Connection.VideoProvider#onSendSessionModifyResponse(VideoProfile)}.
*
* @param responseProfile The response call video properties.
*/
public abstract void sendSessionModifyResponse(VideoProfile responseProfile);
/**
* Issues a request to the {@link Connection.VideoProvider} to retrieve the capabilities
* of the current camera. The current camera is selected using
* {@link VideoCall#setCamera(String)}.
* <p>
* Camera capabilities are reported to the caller via
* {@link VideoCall.Callback#onCameraCapabilitiesChanged(VideoProfile.CameraCapabilities)}.
* <p>
* Handled by {@link Connection.VideoProvider#onRequestCameraCapabilities()}.
*/
public abstract void requestCameraCapabilities();
/**
* Issues a request to the {@link Connection.VideoProvider} to retrieve the cumulative data
* usage for the video component of the current call (in bytes). Data usage is reported
* to the caller via {@link VideoCall.Callback#onCallDataUsageChanged}.
* <p>
* Handled by {@link Connection.VideoProvider#onRequestConnectionDataUsage()}.
*/
public abstract void requestCallDataUsage();
/**
* Provides the {@link Connection.VideoProvider} with the {@link Uri} of an image to be
* displayed to the peer device when the video signal is paused.
* <p>
* Handled by {@link Connection.VideoProvider#onSetPauseImage(Uri)}.
*
* @param uri URI of image to display.
*/
public abstract void setPauseImage(Uri uri);
/**
* The {@link InCallService} extends this class to provide a means of receiving callbacks
* from the {@link Connection.VideoProvider}.
* <p>
* When the {@link InCallService} receives the
* {@link Call.Callback#onVideoCallChanged(Call, VideoCall)} callback, it should create an
* instance its {@link VideoCall.Callback} implementation and set it on the
* {@link VideoCall} using {@link VideoCall#registerCallback(Callback)}.
*/
public static abstract class Callback {
/**
* Called when the {@link Connection.VideoProvider} receives a session modification
* request from the peer device.
* <p>
* The {@link InCallService} may potentially prompt the user to confirm whether they
* wish to accept the request, or decide to automatically accept the request. In either
* case the {@link InCallService} should call
* {@link VideoCall#sendSessionModifyResponse(VideoProfile)} to indicate the video
* profile agreed upon.
* <p>
* Callback originates from
* {@link Connection.VideoProvider#receiveSessionModifyRequest(VideoProfile)}.
*
* @param videoProfile The requested video profile.
*/
public abstract void onSessionModifyRequestReceived(VideoProfile videoProfile);
/**
* Called when the {@link Connection.VideoProvider} receives a response to a session
* modification request previously sent to the peer device.
* <p>
* The new video state should not be considered active by the {@link InCallService}
* until the {@link Call} video state changes (the
* {@link Call.Callback#onDetailsChanged(Call, Call.Details)} callback is triggered
* when the video state changes).
* <p>
* Callback originates from
* {@link Connection.VideoProvider#receiveSessionModifyResponse(int, VideoProfile,
* VideoProfile)}.
*
* @param status Status of the session modify request. Valid values are
* {@link Connection.VideoProvider#SESSION_MODIFY_REQUEST_SUCCESS},
* {@link Connection.VideoProvider#SESSION_MODIFY_REQUEST_FAIL},
* {@link Connection.VideoProvider#SESSION_MODIFY_REQUEST_INVALID},
* {@link Connection.VideoProvider#SESSION_MODIFY_REQUEST_TIMED_OUT},
* {@link Connection.VideoProvider#SESSION_MODIFY_REQUEST_REJECTED_BY_REMOTE}.
* @param requestedProfile The original request which was sent to the peer device.
* @param responseProfile The actual profile changes made by the peer device.
*/
public abstract void onSessionModifyResponseReceived(int status,
VideoProfile requestedProfile, VideoProfile responseProfile);
/**
* Handles events related to the current video session which the {@link InCallService}
* may wish to handle. These are separate from requested changes to the session due to
* the underlying protocol or connection.
* <p>
* Callback originates from
* {@link Connection.VideoProvider#handleCallSessionEvent(int)}.
*
* @param event The event. Valid values are:
* {@link Connection.VideoProvider#SESSION_EVENT_RX_PAUSE},
* {@link Connection.VideoProvider#SESSION_EVENT_RX_RESUME},
* {@link Connection.VideoProvider#SESSION_EVENT_TX_START},
* {@link Connection.VideoProvider#SESSION_EVENT_TX_STOP},
* {@link Connection.VideoProvider#SESSION_EVENT_CAMERA_FAILURE},
* {@link Connection.VideoProvider#SESSION_EVENT_CAMERA_READY},
* {@link Connection.VideoProvider#SESSION_EVENT_CAMERA_PERMISSION_ERROR}.
*/
public abstract void onCallSessionEvent(int event);
/**
* Handles a change to the video dimensions from the peer device. This could happen if,
* for example, the peer changes orientation of their device, or switches cameras.
* <p>
* Callback originates from
* {@link Connection.VideoProvider#changePeerDimensions(int, int)}.
*
* @param width The updated peer video width.
* @param height The updated peer video height.
*/
public abstract void onPeerDimensionsChanged(int width, int height);
/**
* Handles a change to the video quality.
* <p>
* Callback originates from {@link Connection.VideoProvider#changeVideoQuality(int)}.
*
* @param videoQuality The updated peer video quality. Valid values:
* {@link VideoProfile#QUALITY_HIGH},
* {@link VideoProfile#QUALITY_MEDIUM},
* {@link VideoProfile#QUALITY_LOW},
* {@link VideoProfile#QUALITY_DEFAULT}.
*/
public abstract void onVideoQualityChanged(int videoQuality);
/**
* Handles an update to the total data used for the current video session.
* <p>
* Used by the {@link Connection.VideoProvider} in response to
* {@link VideoCall#requestCallDataUsage()}. May also be called periodically by the
* {@link Connection.VideoProvider}.
* <p>
* Callback originates from {@link Connection.VideoProvider#setCallDataUsage(long)}.
*
* @param dataUsage The updated data usage (in bytes).
*/
public abstract void onCallDataUsageChanged(long dataUsage);
/**
* Handles a change in the capabilities of the currently selected camera.
* <p>
* Used by the {@link Connection.VideoProvider} in response to
* {@link VideoCall#requestCameraCapabilities()}. The {@link Connection.VideoProvider}
* may also report the camera capabilities after a call to
* {@link VideoCall#setCamera(String)}.
* <p>
* Callback originates from
* {@link Connection.VideoProvider#changeCameraCapabilities(
* VideoProfile.CameraCapabilities)}.
*
* @param cameraCapabilities The changed camera capabilities.
*/
public abstract void onCameraCapabilitiesChanged(
VideoProfile.CameraCapabilities cameraCapabilities);
}
}
}