telecomm/java/android/telecom/CallControl.java - LeafOS-Project/android_frameworks_base - Gitiles

 /*
  * Copyright (C) 2022 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 static android.telecom.CallException.TRANSACTION_EXCEPTION_KEY;

 import android.annotation.CallbackExecutor;
 import android.annotation.FlaggedApi;
 import android.annotation.NonNull;
 import android.annotation.SuppressLint;
 import android.os.Binder;
 import android.os.Bundle;
 import android.os.OutcomeReceiver;
 import android.os.ParcelUuid;
 import android.os.RemoteException;
 import android.os.ResultReceiver;
 import android.text.TextUtils;

 import com.android.internal.telecom.ICallControl;
 import com.android.server.telecom.flags.Flags;

 import java.util.List;
 import java.util.Objects;
 import java.util.concurrent.Executor;

 /**
  * CallControl provides client side control of a call.  Each Call will get an individual CallControl
  * instance in which the client can alter the state of the associated call.
  *
  * <p>
  * Each method is Transactional meaning that it can succeed or fail. If a transaction succeeds,
  * the {@link OutcomeReceiver#onResult} will be called by Telecom.  Otherwise, the
  * {@link OutcomeReceiver#onError} is called and provides a {@link CallException} that details why
  * the operation failed.
  */
 @SuppressLint("NotCloseable")
 public final class CallControl {
     private static final String TAG = CallControl.class.getSimpleName();
     private final String mCallId;
     private final ICallControl mServerInterface;

     /** @hide */
     public CallControl(@NonNull String callId, @NonNull ICallControl serverInterface) {
         mCallId = callId;
         mServerInterface = serverInterface;
     }

     /**
      * @return the callId Telecom assigned to this CallControl object which should be attached to
      * an individual call.
      */
     @NonNull
     public ParcelUuid getCallId() {
         return ParcelUuid.fromString(mCallId);
     }

     /**
      * Request Telecom set the call state to active. This method should be called when either an
      * outgoing call is ready to go active or a held call is ready to go active again. For incoming
      * calls that are ready to be answered, use
      * {@link CallControl#answer(int, Executor, OutcomeReceiver)}.
      *
      * @param executor The {@link Executor} on which the {@link OutcomeReceiver} callback
      *                 will be called on.
      * @param callback that will be completed on the Telecom side that details success or failure
      *                 of the requested operation.
      *
      *                 {@link OutcomeReceiver#onResult} will be called if Telecom has successfully
      *                 switched the call state to active
      *
      *                 {@link OutcomeReceiver#onError} will be called if Telecom has failed to set
      *                 the call state to active.  A {@link CallException} will be passed
      *                 that details why the operation failed.
      */
     public void setActive(@CallbackExecutor @NonNull Executor executor,
             @NonNull OutcomeReceiver<Void, CallException> callback) {
         Objects.requireNonNull(executor);
         Objects.requireNonNull(callback);
         try {
             mServerInterface.setActive(mCallId,
                     new CallControlResultReceiver("setActive", executor, callback));

         } catch (RemoteException e) {
             throw e.rethrowAsRuntimeException();
         }
     }

     /**
      * Request Telecom answer an incoming call.  For outgoing calls and calls that have been placed
      * on hold, use {@link CallControl#setActive(Executor, OutcomeReceiver)}.
      *
      * @param videoState to report to Telecom. Telecom will store VideoState in the event another
      *                   service/device requests it in order to continue the call on another screen.
      * @param executor   The {@link Executor} on which the {@link OutcomeReceiver} callback
      *                   will be called on.
      * @param callback   that will be completed on the Telecom side that details success or failure
      *                   of the requested operation.
      *
      *                   {@link OutcomeReceiver#onResult} will be called if Telecom has successfully
      *                   switched the call state to active
      *
      *                   {@link OutcomeReceiver#onError} will be called if Telecom has failed to set
      *                   the call state to active.  A {@link CallException} will be passed
      *                   that details why the operation failed.
      */
     public void answer(@android.telecom.CallAttributes.CallType int videoState,
             @CallbackExecutor @NonNull Executor executor,
             @NonNull OutcomeReceiver<Void, CallException> callback) {
         validateVideoState(videoState);
         Objects.requireNonNull(executor);
         Objects.requireNonNull(callback);
         try {
             mServerInterface.answer(videoState, mCallId,
                     new CallControlResultReceiver("answer", executor, callback));

         } catch (RemoteException e) {
             throw e.rethrowAsRuntimeException();
         }
     }

     /**
      * Request Telecom set the call state to inactive. This the same as hold for two call endpoints
      * but can be extended to setting a meeting to inactive.
      *
      * @param executor The {@link Executor} on which the {@link OutcomeReceiver} callback
      *                 will be called on.
      * @param callback that will be completed on the Telecom side that details success or failure
      *                 of the requested operation.
      *
      *                 {@link OutcomeReceiver#onResult} will be called if Telecom has successfully
      *                 switched the call state to inactive
      *
      *                 {@link OutcomeReceiver#onError} will be called if Telecom has failed to set
      *                 the call state to inactive.  A {@link CallException} will be passed
      *                 that details why the operation failed.
      */
     public void setInactive(@CallbackExecutor @NonNull Executor executor,
             @NonNull OutcomeReceiver<Void, CallException> callback) {
         Objects.requireNonNull(executor);
         Objects.requireNonNull(callback);
         try {
             mServerInterface.setInactive(mCallId,
                     new CallControlResultReceiver("setInactive", executor, callback));

         } catch (RemoteException e) {
             throw e.rethrowAsRuntimeException();
         }
     }

     /**
      * Request Telecom disconnect the call and remove the call from telecom tracking.
      *
      * @param disconnectCause represents the cause for disconnecting the call.  The only valid
      *                        codes for the {@link  android.telecom.DisconnectCause} passed in are:
      *                        <ul>
      *                        <li>{@link DisconnectCause#LOCAL}</li>
      *                        <li>{@link DisconnectCause#REMOTE}</li>
      *                        <li>{@link DisconnectCause#REJECTED}</li>
      *                        <li>{@link DisconnectCause#MISSED}</li>
      *                        </ul>
      * @param executor        The {@link Executor} on which the {@link OutcomeReceiver} callback
      *                        will be called on.
      * @param callback        That will be completed on the Telecom side that details success or
      *                        failure of the requested operation.
      *
      *                        {@link OutcomeReceiver#onResult} will be called if Telecom has
      *                        successfully disconnected the call.
      *
      *                        {@link OutcomeReceiver#onError} will be called if Telecom has failed
      *                        to disconnect the call.  A {@link CallException} will be passed
      *                        that details why the operation failed.
      *
      * <p>
      * Note: After the call has been successfully disconnected, calling any CallControl API will
      * result in the {@link OutcomeReceiver#onError} with
      * {@link CallException#CODE_CALL_IS_NOT_BEING_TRACKED}.
      */
     public void disconnect(@NonNull DisconnectCause disconnectCause,
             @CallbackExecutor @NonNull Executor executor,
             @NonNull OutcomeReceiver<Void, CallException> callback) {
         Objects.requireNonNull(disconnectCause);
         Objects.requireNonNull(executor);
         Objects.requireNonNull(callback);
         validateDisconnectCause(disconnectCause);
         try {
             mServerInterface.disconnect(mCallId, disconnectCause,
                     new CallControlResultReceiver("disconnect", executor, callback));
         } catch (RemoteException e) {
             throw e.rethrowAsRuntimeException();
         }
     }

     /**
      * Request start a call streaming session. On receiving valid request, telecom will bind to
      * the {@code CallStreamingService} implemented by a general call streaming sender. So that the
      * call streaming sender can perform streaming local device audio to another remote device and
      * control the call during streaming.
      *
      * @param executor The {@link Executor} on which the {@link OutcomeReceiver} callback
      *                 will be called on.
      * @param callback that will be completed on the Telecom side that details success or failure
      *                 of the requested operation.
      *
      *                 {@link OutcomeReceiver#onResult} will be called if Telecom has successfully
      *                 started the call streaming.
      *
      *                 {@link OutcomeReceiver#onError} will be called if Telecom has failed to
      *                 start the call streaming. A {@link CallException} will be passed that
      *                 details why the operation failed.
      */
     public void startCallStreaming(@CallbackExecutor @NonNull Executor executor,
             @NonNull OutcomeReceiver<Void, CallException> callback) {
         Objects.requireNonNull(executor);
         Objects.requireNonNull(callback);
         try {
             mServerInterface.startCallStreaming(mCallId,
                     new CallControlResultReceiver("startCallStreaming", executor, callback));
         } catch (RemoteException e) {
             throw e.rethrowAsRuntimeException();
         }
     }

     /**
      * Request a CallEndpoint change. 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 CallEventCallback#onAvailableCallEndpointsChanged(List)}.
      *
      * @param callEndpoint The {@link CallEndpoint} to change to.
      * @param executor     The {@link Executor} on which the {@link OutcomeReceiver} callback
      *                     will be called on.
      * @param callback     The {@link OutcomeReceiver} that will be completed on the Telecom side
      *                     that details success or failure of the requested operation.
      *
      *                     {@link OutcomeReceiver#onResult} will be called if Telecom has
      *                     successfully changed the CallEndpoint that was requested.
      *
      *                     {@link OutcomeReceiver#onError} will be called if Telecom has failed to
      *                     switch to the requested CallEndpoint.  A {@link CallException} will be
      *                     passed that details why the operation failed.
      */
     public void requestCallEndpointChange(@NonNull CallEndpoint callEndpoint,
             @CallbackExecutor @NonNull Executor executor,
             @NonNull OutcomeReceiver<Void, CallException> callback) {
         Objects.requireNonNull(callEndpoint);
         Objects.requireNonNull(executor);
         Objects.requireNonNull(callback);
         try {
             mServerInterface.requestCallEndpointChange(callEndpoint,
                     new CallControlResultReceiver("requestCallEndpointChange", executor, callback));
         } catch (RemoteException e) {
             throw e.rethrowAsRuntimeException();
         }
     }

     /**
      * Request a new mute state.  Note: {@link CallEventCallback#onMuteStateChanged(boolean)}
      * will be called every time the mute state is changed and can be used to track the current
      * mute state.
      *
      * @param isMuted  The new mute state.  Passing in a {@link Boolean#TRUE} for the isMuted
      *                 parameter will mute the call.  {@link Boolean#FALSE} will unmute the call.
      * @param executor The {@link Executor} on which the {@link OutcomeReceiver} callback
      *                 will be called on.
      * @param callback The {@link OutcomeReceiver} that will be completed on the Telecom side
      *                 that details success or failure of the requested operation.
      *
      *                 {@link OutcomeReceiver#onResult} will be called if Telecom has
      *                 successfully changed the mute state.
      *
      *                 {@link OutcomeReceiver#onError} will be called if Telecom has failed to
      *                 switch to the mute state.  A {@link CallException} will be
      *                 passed that details why the operation failed.
      */
     @FlaggedApi(Flags.FLAG_SET_MUTE_STATE)
     public void requestMuteState(boolean isMuted, @CallbackExecutor @NonNull Executor executor,
             @NonNull OutcomeReceiver<Void, CallException> callback) {
         Objects.requireNonNull(executor);
         Objects.requireNonNull(callback);
         try {
             mServerInterface.setMuteState(isMuted,
                     new CallControlResultReceiver("requestMuteState", executor, callback));
         } catch (RemoteException e) {
             throw e.rethrowAsRuntimeException();
         }
     }

      /**
      * Request a new video state for the ongoing call. This can only be changed if the application
      * has registered a {@link PhoneAccount} with the
      * {@link PhoneAccount#CAPABILITY_SUPPORTS_VIDEO_CALLING} and set the
      * {@link CallAttributes#SUPPORTS_VIDEO_CALLING} when adding the call via
      * {@link TelecomManager#addCall(CallAttributes, Executor, OutcomeReceiver,
      *                                                      CallControlCallback, CallEventCallback)}
      *
      * @param videoState to report to Telecom. To see the valid argument to pass,
       *                   see {@link CallAttributes.CallType}.
      * @param executor   The {@link Executor} on which the {@link OutcomeReceiver} callback
      *                   will be called on.
      * @param callback   that will be completed on the Telecom side that details success or failure
      *                   of the requested operation.
      *
      *                   {@link OutcomeReceiver#onResult} will be called if Telecom has successfully
      *                   switched the video state.
      *
      *                   {@link OutcomeReceiver#onError} will be called if Telecom has failed to set
      *                   the new video state.  A {@link CallException} will be passed
      *                   that details why the operation failed.
      * @throws IllegalArgumentException if the argument passed for videoState is invalid.  To see a
      * list of valid states, see {@link CallAttributes.CallType}.
      */
      @FlaggedApi(Flags.FLAG_TRANSACTIONAL_VIDEO_STATE)
      public void requestVideoState(@CallAttributes.CallType int videoState,
              @CallbackExecutor @NonNull Executor executor,
              @NonNull OutcomeReceiver<Void, CallException> callback) {
          validateVideoState(videoState);
          Objects.requireNonNull(executor);
          Objects.requireNonNull(callback);
          try {
              mServerInterface.requestVideoState(videoState, mCallId,
                      new CallControlResultReceiver("requestVideoState", executor, callback));
          } catch (RemoteException e) {
              throw e.rethrowAsRuntimeException();
          }
      }

     /**
      * Raises an event to the {@link android.telecom.InCallService} implementations tracking this
      * call via {@link android.telecom.Call.Callback#onConnectionEvent(Call, String, Bundle)}.
      * These events and the associated extra keys for the {@code Bundle} parameter are mutually
      * defined by a VoIP application and {@link android.telecom.InCallService}. This API is used to
      * relay additional information about a call other than what is specified in the
      * {@link android.telecom.CallAttributes} to {@link android.telecom.InCallService}s. This might
      * include, for example, a change to the list of participants in a meeting, or the name of the
      * speakers who have their hand raised. Where appropriate, the {@link InCallService}s tracking
      * this call may choose to render this additional information about the call. An automotive
      * calling UX, for example may have enough screen real estate to indicate the number of
      * participants in a meeting, but to prevent distractions could suppress the list of
      * participants.
      *
      * @param event a string event identifier agreed upon between a VoIP application and an
      *              {@link android.telecom.InCallService}
      * @param extras a {@link android.os.Bundle} containing information about the event, as agreed
      *              upon between a VoIP application and {@link android.telecom.InCallService}.
      */
     public void sendEvent(@NonNull String event, @NonNull Bundle extras) {
         Objects.requireNonNull(event);
         Objects.requireNonNull(extras);
         try {
             mServerInterface.sendEvent(mCallId, event, extras);
         } catch (RemoteException e) {
             throw e.rethrowAsRuntimeException();
         }
     }

     /**
      * Since {@link OutcomeReceiver}s cannot be passed via AIDL, a ResultReceiver (which can) must
      * wrap the Clients {@link OutcomeReceiver} passed in and await for the Telecom Server side
      * response in {@link ResultReceiver#onReceiveResult(int, Bundle)}.
      *
      * @hide
      */
     private class CallControlResultReceiver extends ResultReceiver {
         private final String mCallingMethod;
         private final Executor mExecutor;
         private final OutcomeReceiver<Void, CallException> mClientCallback;

         CallControlResultReceiver(String method, Executor executor,
                 OutcomeReceiver<Void, CallException> clientCallback) {
             super(null);
             mCallingMethod = method;
             mExecutor = executor;
             mClientCallback = clientCallback;
         }

         @Override
         protected void onReceiveResult(int resultCode, Bundle resultData) {
             Log.d(CallControl.TAG, "%s: oRR: resultCode=[%s]", mCallingMethod, resultCode);
             super.onReceiveResult(resultCode, resultData);
             final long identity = Binder.clearCallingIdentity();
             try {
                 if (resultCode == TelecomManager.TELECOM_TRANSACTION_SUCCESS) {
                     mExecutor.execute(() -> mClientCallback.onResult(null));
                 } else {
                     mExecutor.execute(() ->
                             mClientCallback.onError(getTransactionException(resultData)));
                 }
             } finally {
                 Binder.restoreCallingIdentity(identity);
             }
         }

     }

     /** @hide */
     private CallException getTransactionException(Bundle resultData) {
         String message = "unknown error";
         if (resultData != null && resultData.containsKey(TRANSACTION_EXCEPTION_KEY)) {
             return resultData.getParcelable(TRANSACTION_EXCEPTION_KEY,
                     CallException.class);
         }
         return new CallException(message, CallException.CODE_ERROR_UNKNOWN);
     }

     /** @hide */
     private void validateDisconnectCause(DisconnectCause disconnectCause) {
         final int code = disconnectCause.getCode();
         if (code != DisconnectCause.LOCAL && code != DisconnectCause.REMOTE
                 && code != DisconnectCause.MISSED && code != DisconnectCause.REJECTED) {
             throw new IllegalArgumentException(TextUtils.formatSimple(
                     "The DisconnectCause code provided, %d , is not a valid Disconnect code. Valid "
                             + "DisconnectCause codes are limited to [DisconnectCause.LOCAL, "
                             + "DisconnectCause.REMOTE, DisconnectCause.MISSED, or "
                             + "DisconnectCause.REJECTED]", disconnectCause.getCode()));
         }
     }

     /** @hide */
     private void validateVideoState(@android.telecom.CallAttributes.CallType int videoState) {
         if (videoState != CallAttributes.AUDIO_CALL && videoState != CallAttributes.VIDEO_CALL) {
             throw new IllegalArgumentException(TextUtils.formatSimple(
                     "The VideoState argument passed in, %d , is not a valid VideoState. The "
                             + "VideoState choices are limited to CallAttributes.AUDIO_CALL or"
                             + "CallAttributes.VIDEO_CALL", videoState));
         }
     }
 }
	/*
	* Copyright (C) 2022 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 static android.telecom.CallException.TRANSACTION_EXCEPTION_KEY;

	import android.annotation.CallbackExecutor;
	import android.annotation.FlaggedApi;
	import android.annotation.NonNull;
	import android.annotation.SuppressLint;
	import android.os.Binder;
	import android.os.Bundle;
	import android.os.OutcomeReceiver;
	import android.os.ParcelUuid;
	import android.os.RemoteException;
	import android.os.ResultReceiver;
	import android.text.TextUtils;

	import com.android.internal.telecom.ICallControl;
	import com.android.server.telecom.flags.Flags;

	import java.util.List;
	import java.util.Objects;
	import java.util.concurrent.Executor;

	/**
	* CallControl provides client side control of a call. Each Call will get an individual CallControl
	* instance in which the client can alter the state of the associated call.
	*
	* <p>
	* Each method is Transactional meaning that it can succeed or fail. If a transaction succeeds,
	* the {@link OutcomeReceiver#onResult} will be called by Telecom. Otherwise, the
	* {@link OutcomeReceiver#onError} is called and provides a {@link CallException} that details why
	* the operation failed.
	*/
	@SuppressLint("NotCloseable")
	public final class CallControl {
	private static final String TAG = CallControl.class.getSimpleName();
	private final String mCallId;
	private final ICallControl mServerInterface;

	/** @hide */
	public CallControl(@NonNull String callId, @NonNull ICallControl serverInterface) {
	mCallId = callId;
	mServerInterface = serverInterface;
	}

	/**
	* @return the callId Telecom assigned to this CallControl object which should be attached to
	* an individual call.
	*/
	@NonNull
	public ParcelUuid getCallId() {
	return ParcelUuid.fromString(mCallId);
	}

	/**
	* Request Telecom set the call state to active. This method should be called when either an
	* outgoing call is ready to go active or a held call is ready to go active again. For incoming
	* calls that are ready to be answered, use
	* {@link CallControl#answer(int, Executor, OutcomeReceiver)}.
	*
	* @param executor The {@link Executor} on which the {@link OutcomeReceiver} callback
	* will be called on.
	* @param callback that will be completed on the Telecom side that details success or failure
	* of the requested operation.
	*
	* {@link OutcomeReceiver#onResult} will be called if Telecom has successfully
	* switched the call state to active
	*
	* {@link OutcomeReceiver#onError} will be called if Telecom has failed to set
	* the call state to active. A {@link CallException} will be passed
	* that details why the operation failed.
	*/
	public void setActive(@CallbackExecutor @NonNull Executor executor,
	@NonNull OutcomeReceiver<Void, CallException> callback) {
	Objects.requireNonNull(executor);
	Objects.requireNonNull(callback);
	try {
	mServerInterface.setActive(mCallId,
	new CallControlResultReceiver("setActive", executor, callback));

	} catch (RemoteException e) {
	throw e.rethrowAsRuntimeException();
	}
	}

	/**
	* Request Telecom answer an incoming call. For outgoing calls and calls that have been placed
	* on hold, use {@link CallControl#setActive(Executor, OutcomeReceiver)}.
	*
	* @param videoState to report to Telecom. Telecom will store VideoState in the event another
	* service/device requests it in order to continue the call on another screen.
	* @param executor The {@link Executor} on which the {@link OutcomeReceiver} callback
	* will be called on.
	* @param callback that will be completed on the Telecom side that details success or failure
	* of the requested operation.
	*
	* {@link OutcomeReceiver#onResult} will be called if Telecom has successfully
	* switched the call state to active
	*
	* {@link OutcomeReceiver#onError} will be called if Telecom has failed to set
	* the call state to active. A {@link CallException} will be passed
	* that details why the operation failed.
	*/
	public void answer(@android.telecom.CallAttributes.CallType int videoState,
	@CallbackExecutor @NonNull Executor executor,
	@NonNull OutcomeReceiver<Void, CallException> callback) {
	validateVideoState(videoState);
	Objects.requireNonNull(executor);
	Objects.requireNonNull(callback);
	try {
	mServerInterface.answer(videoState, mCallId,
	new CallControlResultReceiver("answer", executor, callback));

	} catch (RemoteException e) {
	throw e.rethrowAsRuntimeException();
	}
	}

	/**
	* Request Telecom set the call state to inactive. This the same as hold for two call endpoints
	* but can be extended to setting a meeting to inactive.
	*
	* @param executor The {@link Executor} on which the {@link OutcomeReceiver} callback
	* will be called on.
	* @param callback that will be completed on the Telecom side that details success or failure
	* of the requested operation.
	*
	* {@link OutcomeReceiver#onResult} will be called if Telecom has successfully
	* switched the call state to inactive
	*
	* {@link OutcomeReceiver#onError} will be called if Telecom has failed to set
	* the call state to inactive. A {@link CallException} will be passed
	* that details why the operation failed.
	*/
	public void setInactive(@CallbackExecutor @NonNull Executor executor,
	@NonNull OutcomeReceiver<Void, CallException> callback) {
	Objects.requireNonNull(executor);
	Objects.requireNonNull(callback);
	try {
	mServerInterface.setInactive(mCallId,
	new CallControlResultReceiver("setInactive", executor, callback));

	} catch (RemoteException e) {
	throw e.rethrowAsRuntimeException();
	}
	}

	/**
	* Request Telecom disconnect the call and remove the call from telecom tracking.
	*
	* @param disconnectCause represents the cause for disconnecting the call. The only valid
	* codes for the {@link android.telecom.DisconnectCause} passed in are:
	* <ul>
	* <li>{@link DisconnectCause#LOCAL}</li>
	* <li>{@link DisconnectCause#REMOTE}</li>
	* <li>{@link DisconnectCause#REJECTED}</li>
	* <li>{@link DisconnectCause#MISSED}</li>
	* </ul>
	* @param executor The {@link Executor} on which the {@link OutcomeReceiver} callback
	* will be called on.
	* @param callback That will be completed on the Telecom side that details success or
	* failure of the requested operation.
	*
	* {@link OutcomeReceiver#onResult} will be called if Telecom has
	* successfully disconnected the call.
	*
	* {@link OutcomeReceiver#onError} will be called if Telecom has failed
	* to disconnect the call. A {@link CallException} will be passed
	* that details why the operation failed.
	*
	* <p>
	* Note: After the call has been successfully disconnected, calling any CallControl API will
	* result in the {@link OutcomeReceiver#onError} with
	* {@link CallException#CODE_CALL_IS_NOT_BEING_TRACKED}.
	*/
	public void disconnect(@NonNull DisconnectCause disconnectCause,
	@CallbackExecutor @NonNull Executor executor,
	@NonNull OutcomeReceiver<Void, CallException> callback) {
	Objects.requireNonNull(disconnectCause);
	Objects.requireNonNull(executor);
	Objects.requireNonNull(callback);
	validateDisconnectCause(disconnectCause);
	try {
	mServerInterface.disconnect(mCallId, disconnectCause,
	new CallControlResultReceiver("disconnect", executor, callback));
	} catch (RemoteException e) {
	throw e.rethrowAsRuntimeException();
	}
	}

	/**
	* Request start a call streaming session. On receiving valid request, telecom will bind to
	* the {@code CallStreamingService} implemented by a general call streaming sender. So that the
	* call streaming sender can perform streaming local device audio to another remote device and
	* control the call during streaming.
	*
	* @param executor The {@link Executor} on which the {@link OutcomeReceiver} callback
	* will be called on.
	* @param callback that will be completed on the Telecom side that details success or failure
	* of the requested operation.
	*
	* {@link OutcomeReceiver#onResult} will be called if Telecom has successfully
	* started the call streaming.
	*
	* {@link OutcomeReceiver#onError} will be called if Telecom has failed to
	* start the call streaming. A {@link CallException} will be passed that
	* details why the operation failed.
	*/
	public void startCallStreaming(@CallbackExecutor @NonNull Executor executor,
	@NonNull OutcomeReceiver<Void, CallException> callback) {
	Objects.requireNonNull(executor);
	Objects.requireNonNull(callback);
	try {
	mServerInterface.startCallStreaming(mCallId,
	new CallControlResultReceiver("startCallStreaming", executor, callback));
	} catch (RemoteException e) {
	throw e.rethrowAsRuntimeException();
	}
	}

	/**
	* Request a CallEndpoint change. 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 CallEventCallback#onAvailableCallEndpointsChanged(List)}.
	*
	* @param callEndpoint The {@link CallEndpoint} to change to.
	* @param executor The {@link Executor} on which the {@link OutcomeReceiver} callback
	* will be called on.
	* @param callback The {@link OutcomeReceiver} that will be completed on the Telecom side
	* that details success or failure of the requested operation.
	*
	* {@link OutcomeReceiver#onResult} will be called if Telecom has
	* successfully changed the CallEndpoint that was requested.
	*
	* {@link OutcomeReceiver#onError} will be called if Telecom has failed to
	* switch to the requested CallEndpoint. A {@link CallException} will be
	* passed that details why the operation failed.
	*/
	public void requestCallEndpointChange(@NonNull CallEndpoint callEndpoint,
	@CallbackExecutor @NonNull Executor executor,
	@NonNull OutcomeReceiver<Void, CallException> callback) {
	Objects.requireNonNull(callEndpoint);
	Objects.requireNonNull(executor);
	Objects.requireNonNull(callback);
	try {
	mServerInterface.requestCallEndpointChange(callEndpoint,
	new CallControlResultReceiver("requestCallEndpointChange", executor, callback));
	} catch (RemoteException e) {
	throw e.rethrowAsRuntimeException();
	}
	}

	/**
	* Request a new mute state. Note: {@link CallEventCallback#onMuteStateChanged(boolean)}
	* will be called every time the mute state is changed and can be used to track the current
	* mute state.
	*
	* @param isMuted The new mute state. Passing in a {@link Boolean#TRUE} for the isMuted
	* parameter will mute the call. {@link Boolean#FALSE} will unmute the call.
	* @param executor The {@link Executor} on which the {@link OutcomeReceiver} callback
	* will be called on.
	* @param callback The {@link OutcomeReceiver} that will be completed on the Telecom side
	* that details success or failure of the requested operation.
	*
	* {@link OutcomeReceiver#onResult} will be called if Telecom has
	* successfully changed the mute state.
	*
	* {@link OutcomeReceiver#onError} will be called if Telecom has failed to
	* switch to the mute state. A {@link CallException} will be
	* passed that details why the operation failed.
	*/
	@FlaggedApi(Flags.FLAG_SET_MUTE_STATE)
	public void requestMuteState(boolean isMuted, @CallbackExecutor @NonNull Executor executor,
	@NonNull OutcomeReceiver<Void, CallException> callback) {
	Objects.requireNonNull(executor);
	Objects.requireNonNull(callback);
	try {
	mServerInterface.setMuteState(isMuted,
	new CallControlResultReceiver("requestMuteState", executor, callback));
	} catch (RemoteException e) {
	throw e.rethrowAsRuntimeException();
	}
	}

	/**
	* Request a new video state for the ongoing call. This can only be changed if the application
	* has registered a {@link PhoneAccount} with the
	* {@link PhoneAccount#CAPABILITY_SUPPORTS_VIDEO_CALLING} and set the
	* {@link CallAttributes#SUPPORTS_VIDEO_CALLING} when adding the call via
	* {@link TelecomManager#addCall(CallAttributes, Executor, OutcomeReceiver,
	* CallControlCallback, CallEventCallback)}
	*
	* @param videoState to report to Telecom. To see the valid argument to pass,
	* see {@link CallAttributes.CallType}.
	* @param executor The {@link Executor} on which the {@link OutcomeReceiver} callback
	* will be called on.
	* @param callback that will be completed on the Telecom side that details success or failure
	* of the requested operation.
	*
	* {@link OutcomeReceiver#onResult} will be called if Telecom has successfully
	* switched the video state.
	*
	* {@link OutcomeReceiver#onError} will be called if Telecom has failed to set
	* the new video state. A {@link CallException} will be passed
	* that details why the operation failed.
	* @throws IllegalArgumentException if the argument passed for videoState is invalid. To see a
	* list of valid states, see {@link CallAttributes.CallType}.
	*/
	@FlaggedApi(Flags.FLAG_TRANSACTIONAL_VIDEO_STATE)
	public void requestVideoState(@CallAttributes.CallType int videoState,
	@CallbackExecutor @NonNull Executor executor,
	@NonNull OutcomeReceiver<Void, CallException> callback) {
	validateVideoState(videoState);
	Objects.requireNonNull(executor);
	Objects.requireNonNull(callback);
	try {
	mServerInterface.requestVideoState(videoState, mCallId,
	new CallControlResultReceiver("requestVideoState", executor, callback));
	} catch (RemoteException e) {
	throw e.rethrowAsRuntimeException();
	}
	}

	/**
	* Raises an event to the {@link android.telecom.InCallService} implementations tracking this
	* call via {@link android.telecom.Call.Callback#onConnectionEvent(Call, String, Bundle)}.
	* These events and the associated extra keys for the {@code Bundle} parameter are mutually
	* defined by a VoIP application and {@link android.telecom.InCallService}. This API is used to
	* relay additional information about a call other than what is specified in the
	* {@link android.telecom.CallAttributes} to {@link android.telecom.InCallService}s. This might
	* include, for example, a change to the list of participants in a meeting, or the name of the
	* speakers who have their hand raised. Where appropriate, the {@link InCallService}s tracking
	* this call may choose to render this additional information about the call. An automotive
	* calling UX, for example may have enough screen real estate to indicate the number of
	* participants in a meeting, but to prevent distractions could suppress the list of
	* participants.
	*
	* @param event a string event identifier agreed upon between a VoIP application and an
	* {@link android.telecom.InCallService}
	* @param extras a {@link android.os.Bundle} containing information about the event, as agreed
	* upon between a VoIP application and {@link android.telecom.InCallService}.
	*/
	public void sendEvent(@NonNull String event, @NonNull Bundle extras) {
	Objects.requireNonNull(event);
	Objects.requireNonNull(extras);
	try {
	mServerInterface.sendEvent(mCallId, event, extras);
	} catch (RemoteException e) {
	throw e.rethrowAsRuntimeException();
	}
	}

	/**
	* Since {@link OutcomeReceiver}s cannot be passed via AIDL, a ResultReceiver (which can) must
	* wrap the Clients {@link OutcomeReceiver} passed in and await for the Telecom Server side
	* response in {@link ResultReceiver#onReceiveResult(int, Bundle)}.
	*
	* @hide
	*/
	private class CallControlResultReceiver extends ResultReceiver {
	private final String mCallingMethod;
	private final Executor mExecutor;
	private final OutcomeReceiver<Void, CallException> mClientCallback;

	CallControlResultReceiver(String method, Executor executor,
	OutcomeReceiver<Void, CallException> clientCallback) {
	super(null);
	mCallingMethod = method;
	mExecutor = executor;
	mClientCallback = clientCallback;
	}

	@Override
	protected void onReceiveResult(int resultCode, Bundle resultData) {
	Log.d(CallControl.TAG, "%s: oRR: resultCode=[%s]", mCallingMethod, resultCode);
	super.onReceiveResult(resultCode, resultData);
	final long identity = Binder.clearCallingIdentity();
	try {
	if (resultCode == TelecomManager.TELECOM_TRANSACTION_SUCCESS) {
	mExecutor.execute(() -> mClientCallback.onResult(null));
	} else {
	mExecutor.execute(() ->
	mClientCallback.onError(getTransactionException(resultData)));
	}
	} finally {
	Binder.restoreCallingIdentity(identity);
	}
	}

	}

	/** @hide */
	private CallException getTransactionException(Bundle resultData) {
	String message = "unknown error";
	if (resultData != null && resultData.containsKey(TRANSACTION_EXCEPTION_KEY)) {
	return resultData.getParcelable(TRANSACTION_EXCEPTION_KEY,
	CallException.class);
	}
	return new CallException(message, CallException.CODE_ERROR_UNKNOWN);
	}

	/** @hide */
	private void validateDisconnectCause(DisconnectCause disconnectCause) {
	final int code = disconnectCause.getCode();
	if (code != DisconnectCause.LOCAL && code != DisconnectCause.REMOTE
	&& code != DisconnectCause.MISSED && code != DisconnectCause.REJECTED) {
	throw new IllegalArgumentException(TextUtils.formatSimple(
	"The DisconnectCause code provided, %d , is not a valid Disconnect code. Valid "
	+ "DisconnectCause codes are limited to [DisconnectCause.LOCAL, "
	+ "DisconnectCause.REMOTE, DisconnectCause.MISSED, or "
	+ "DisconnectCause.REJECTED]", disconnectCause.getCode()));
	}
	}

	/** @hide */
	private void validateVideoState(@android.telecom.CallAttributes.CallType int videoState) {
	if (videoState != CallAttributes.AUDIO_CALL && videoState != CallAttributes.VIDEO_CALL) {
	throw new IllegalArgumentException(TextUtils.formatSimple(
	"The VideoState argument passed in, %d , is not a valid VideoState. The "
	+ "VideoState choices are limited to CallAttributes.AUDIO_CALL or"
	+ "CallAttributes.VIDEO_CALL", videoState));
	}
	}
	}