/* * 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 com.android.internal.telecom.IVideoCallback; import com.android.internal.telecom.IVideoProvider; import android.annotation.SystemApi; import android.net.Uri; import android.os.Handler; import android.os.IBinder; import android.os.Message; import android.os.RemoteException; import android.view.Surface; import java.util.ArrayList; import java.util.Collections; import java.util.List; import java.util.Set; import java.util.concurrent.ConcurrentHashMap; /** * Represents a connection to a remote endpoint that carries voice traffic. *

* Implementations create a custom subclass of {@code Connection} and return it to the framework * as the return value of * {@link ConnectionService#onCreateIncomingConnection(PhoneAccountHandle, ConnectionRequest)} * or * {@link ConnectionService#onCreateOutgoingConnection(PhoneAccountHandle, ConnectionRequest)}. * Implementations are then responsible for updating the state of the {@code Connection}, and * must call {@link #destroy()} to signal to the framework that the {@code Connection} is no * longer used and associated resources may be recovered. * @hide */ @SystemApi public abstract class Connection { public static final int STATE_INITIALIZING = 0; public static final int STATE_NEW = 1; public static final int STATE_RINGING = 2; public static final int STATE_DIALING = 3; public static final int STATE_ACTIVE = 4; public static final int STATE_HOLDING = 5; public static final int STATE_DISCONNECTED = 6; // Flag controlling whether PII is emitted into the logs private static final boolean PII_DEBUG = Log.isLoggable(android.util.Log.DEBUG); /** @hide */ public abstract static class Listener { public void onStateChanged(Connection c, int state) {} public void onAddressChanged(Connection c, Uri newAddress, int presentation) {} public void onCallerDisplayNameChanged( Connection c, String callerDisplayName, int presentation) {} public void onVideoStateChanged(Connection c, int videoState) {} public void onDisconnected(Connection c, DisconnectCause disconnectCause) {} public void onPostDialWait(Connection c, String remaining) {} public void onRingbackRequested(Connection c, boolean ringback) {} public void onDestroyed(Connection c) {} public void onCallCapabilitiesChanged(Connection c, int callCapabilities) {} public void onVideoProviderChanged( Connection c, VideoProvider videoProvider) {} public void onAudioModeIsVoipChanged(Connection c, boolean isVoip) {} public void onStatusHintsChanged(Connection c, StatusHints statusHints) {} public void onConferenceableConnectionsChanged( Connection c, List conferenceableConnections) {} public void onConferenceChanged(Connection c, Conference conference) {} } /** @hide */ public static abstract class VideoProvider { /** * Video is not being received (no protocol pause was issued). */ public static final int SESSION_EVENT_RX_PAUSE = 1; /** * Video reception has resumed after a SESSION_EVENT_RX_PAUSE. */ public static final int SESSION_EVENT_RX_RESUME = 2; /** * Video transmission has begun. This occurs after a negotiated start of video transmission * when the underlying protocol has actually begun transmitting video to the remote party. */ public static final int SESSION_EVENT_TX_START = 3; /** * Video transmission has stopped. This occurs after a negotiated stop of video transmission * when the underlying protocol has actually stopped transmitting video to the remote party. */ public static final int SESSION_EVENT_TX_STOP = 4; /** * A camera failure has occurred for the selected camera. The In-Call UI can use this as a * cue to inform the user the camera is not available. */ public static final int SESSION_EVENT_CAMERA_FAILURE = 5; /** * Issued after {@code SESSION_EVENT_CAMERA_FAILURE} when the camera is once again ready for * operation. The In-Call UI can use this as a cue to inform the user that the camera has * become available again. */ public static final int SESSION_EVENT_CAMERA_READY = 6; /** * Session modify request was successful. */ public static final int SESSION_MODIFY_REQUEST_SUCCESS = 1; /** * Session modify request failed. */ public static final int SESSION_MODIFY_REQUEST_FAIL = 2; /** * Session modify request ignored due to invalid parameters. */ public static final int SESSION_MODIFY_REQUEST_INVALID = 3; private static final int MSG_SET_VIDEO_CALLBACK = 1; private static final int MSG_SET_CAMERA = 2; private static final int MSG_SET_PREVIEW_SURFACE = 3; private static final int MSG_SET_DISPLAY_SURFACE = 4; private static final int MSG_SET_DEVICE_ORIENTATION = 5; private static final int MSG_SET_ZOOM = 6; private static final int MSG_SEND_SESSION_MODIFY_REQUEST = 7; private static final int MSG_SEND_SESSION_MODIFY_RESPONSE = 8; private static final int MSG_REQUEST_CAMERA_CAPABILITIES = 9; private static final int MSG_REQUEST_CALL_DATA_USAGE = 10; private static final int MSG_SET_PAUSE_IMAGE = 11; private final VideoProvider.VideoProviderHandler mMessageHandler = new VideoProvider.VideoProviderHandler(); private final VideoProvider.VideoProviderBinder mBinder; private IVideoCallback mVideoCallback; /** * Default handler used to consolidate binder method calls onto a single thread. */ private final class VideoProviderHandler extends Handler { @Override public void handleMessage(Message msg) { switch (msg.what) { case MSG_SET_VIDEO_CALLBACK: mVideoCallback = IVideoCallback.Stub.asInterface((IBinder) msg.obj); break; case MSG_SET_CAMERA: onSetCamera((String) msg.obj); break; case MSG_SET_PREVIEW_SURFACE: onSetPreviewSurface((Surface) msg.obj); break; case MSG_SET_DISPLAY_SURFACE: onSetDisplaySurface((Surface) msg.obj); break; case MSG_SET_DEVICE_ORIENTATION: onSetDeviceOrientation(msg.arg1); break; case MSG_SET_ZOOM: onSetZoom((Float) msg.obj); break; case MSG_SEND_SESSION_MODIFY_REQUEST: onSendSessionModifyRequest((VideoProfile) msg.obj); break; case MSG_SEND_SESSION_MODIFY_RESPONSE: onSendSessionModifyResponse((VideoProfile) msg.obj); break; case MSG_REQUEST_CAMERA_CAPABILITIES: onRequestCameraCapabilities(); break; case MSG_REQUEST_CALL_DATA_USAGE: onRequestCallDataUsage(); break; case MSG_SET_PAUSE_IMAGE: onSetPauseImage((String) msg.obj); break; default: break; } } } /** * IVideoProvider stub implementation. */ private final class VideoProviderBinder extends IVideoProvider.Stub { public void setVideoCallback(IBinder videoCallbackBinder) { mMessageHandler.obtainMessage( MSG_SET_VIDEO_CALLBACK, videoCallbackBinder).sendToTarget(); } public void setCamera(String cameraId) { mMessageHandler.obtainMessage(MSG_SET_CAMERA, cameraId).sendToTarget(); } public void setPreviewSurface(Surface surface) { mMessageHandler.obtainMessage(MSG_SET_PREVIEW_SURFACE, surface).sendToTarget(); } public void setDisplaySurface(Surface surface) { mMessageHandler.obtainMessage(MSG_SET_DISPLAY_SURFACE, surface).sendToTarget(); } public void setDeviceOrientation(int rotation) { mMessageHandler.obtainMessage(MSG_SET_DEVICE_ORIENTATION, rotation).sendToTarget(); } public void setZoom(float value) { mMessageHandler.obtainMessage(MSG_SET_ZOOM, value).sendToTarget(); } public void sendSessionModifyRequest(VideoProfile requestProfile) { mMessageHandler.obtainMessage( MSG_SEND_SESSION_MODIFY_REQUEST, requestProfile).sendToTarget(); } public void sendSessionModifyResponse(VideoProfile responseProfile) { mMessageHandler.obtainMessage( MSG_SEND_SESSION_MODIFY_RESPONSE, responseProfile).sendToTarget(); } public void requestCameraCapabilities() { mMessageHandler.obtainMessage(MSG_REQUEST_CAMERA_CAPABILITIES).sendToTarget(); } public void requestCallDataUsage() { mMessageHandler.obtainMessage(MSG_REQUEST_CALL_DATA_USAGE).sendToTarget(); } public void setPauseImage(String uri) { mMessageHandler.obtainMessage(MSG_SET_PAUSE_IMAGE, uri).sendToTarget(); } } public VideoProvider() { mBinder = new VideoProvider.VideoProviderBinder(); } /** * Returns binder object which can be used across IPC methods. * @hide */ public final IVideoProvider getInterface() { return mBinder; } /** * Sets the camera to be used for video recording in a video call. * * @param cameraId The id of the camera. */ public abstract void onSetCamera(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. * * @param surface The surface. */ public abstract void onSetPreviewSurface(Surface surface); /** * Sets the surface to be used for displaying the video received from the remote device. * * @param surface The surface. */ public abstract void onSetDisplaySurface(Surface surface); /** * Sets the device orientation, in degrees. Assumes that a standard portrait orientation of * the device is 0 degrees. * * @param rotation The device orientation, in degrees. */ public abstract void onSetDeviceOrientation(int rotation); /** * Sets camera zoom ratio. * * @param value The camera zoom ratio. */ public abstract void onSetZoom(float value); /** * Issues a request to modify the properties of the current session. The request is * sent to the remote device where it it handled by the In-Call UI. * Some examples of session modification requests: upgrade call from audio to video, * downgrade call from video to audio, pause video. * * @param requestProfile The requested call video properties. */ public abstract void onSendSessionModifyRequest(VideoProfile requestProfile); /**te * Provides a response to a request to change the current call session video * properties. * This is in response to a request the InCall UI has received via the InCall UI. * * @param responseProfile The response call video properties. */ public abstract void onSendSessionModifyResponse(VideoProfile responseProfile); /** * Issues a request to the video provider to retrieve the camera capabilities. * Camera capabilities are reported back to the caller via the In-Call UI. */ public abstract void onRequestCameraCapabilities(); /** * Issues a request to the video telephony framework to retrieve the cumulative data usage * for the current call. Data usage is reported back to the caller via the * InCall UI. */ public abstract void onRequestCallDataUsage(); /** * Provides the video telephony framework with the URI of an image to be displayed to remote * devices when the video signal is paused. * * @param uri URI of image to display. */ public abstract void onSetPauseImage(String uri); /** * Invokes callback method defined in In-Call UI. * * @param videoProfile The requested video call profile. */ public void receiveSessionModifyRequest(VideoProfile videoProfile) { if (mVideoCallback != null) { try { mVideoCallback.receiveSessionModifyRequest(videoProfile); } catch (RemoteException ignored) { } } } /** * Invokes callback method defined in In-Call UI. * * @param status Status of the session modify request. Valid values are * {@link VideoProvider#SESSION_MODIFY_REQUEST_SUCCESS}, * {@link VideoProvider#SESSION_MODIFY_REQUEST_FAIL}, * {@link VideoProvider#SESSION_MODIFY_REQUEST_INVALID} * @param requestedProfile The original request which was sent to the remote device. * @param responseProfile The actual profile changes made by the remote device. */ public void receiveSessionModifyResponse(int status, VideoProfile requestedProfile, VideoProfile responseProfile) { if (mVideoCallback != null) { try { mVideoCallback.receiveSessionModifyResponse( status, requestedProfile, responseProfile); } catch (RemoteException ignored) { } } } /** * Invokes callback method defined in In-Call UI. * * Valid values are: {@link VideoProvider#SESSION_EVENT_RX_PAUSE}, * {@link VideoProvider#SESSION_EVENT_RX_RESUME}, * {@link VideoProvider#SESSION_EVENT_TX_START}, * {@link VideoProvider#SESSION_EVENT_TX_STOP} * * @param event The event. */ public void handleCallSessionEvent(int event) { if (mVideoCallback != null) { try { mVideoCallback.handleCallSessionEvent(event); } catch (RemoteException ignored) { } } } /** * Invokes callback method defined in In-Call UI. * * @param width The updated peer video width. * @param height The updated peer video height. */ public void changePeerDimensions(int width, int height) { if (mVideoCallback != null) { try { mVideoCallback.changePeerDimensions(width, height); } catch (RemoteException ignored) { } } } /** * Invokes callback method defined in In-Call UI. * * @param dataUsage The updated data usage. */ public void changeCallDataUsage(int dataUsage) { if (mVideoCallback != null) { try { mVideoCallback.changeCallDataUsage(dataUsage); } catch (RemoteException ignored) { } } } /** * Invokes callback method defined in In-Call UI. * * @param cameraCapabilities The changed camera capabilities. */ public void changeCameraCapabilities(CameraCapabilities cameraCapabilities) { if (mVideoCallback != null) { try { mVideoCallback.changeCameraCapabilities(cameraCapabilities); } catch (RemoteException ignored) { } } } } private final Listener mConnectionDeathListener = new Listener() { @Override public void onDestroyed(Connection c) { if (mConferenceableConnections.remove(c)) { fireOnConferenceableConnectionsChanged(); } } }; /** * ConcurrentHashMap constructor params: 8 is initial table size, 0.9f is * load factor before resizing, 1 means we only expect a single thread to * access the map so make only a single shard */ private final Set mListeners = Collections.newSetFromMap( new ConcurrentHashMap(8, 0.9f, 1)); private final List mConferenceableConnections = new ArrayList<>(); private final List mUnmodifiableConferenceableConnections = Collections.unmodifiableList(mConferenceableConnections); private int mState = STATE_NEW; private AudioState mAudioState; private Uri mAddress; private int mAddressPresentation; private String mCallerDisplayName; private int mCallerDisplayNamePresentation; private boolean mRingbackRequested = false; private int mCallCapabilities; private VideoProvider mVideoProvider; private boolean mAudioModeIsVoip; private StatusHints mStatusHints; private int mVideoState; private DisconnectCause mDisconnectCause; private Conference mConference; private ConnectionService mConnectionService; /** * Create a new Connection. */ public Connection() {} /** * @return The address (e.g., phone number) to which this Connection is currently communicating. */ public final Uri getAddress() { return mAddress; } /** * @return The presentation requirements for the address. * See {@link TelecomManager} for valid values. */ public final int getAddressPresentation() { return mAddressPresentation; } /** * @return The caller display name (CNAP). */ public final String getCallerDisplayName() { return mCallerDisplayName; } /** * @return The presentation requirements for the handle. * See {@link TelecomManager} for valid values. */ public final int getCallerDisplayNamePresentation() { return mCallerDisplayNamePresentation; } /** * @return The state of this Connection. */ public final int getState() { return mState; } /** * Returns the video state of the call. * Valid values: {@link VideoProfile.VideoState#AUDIO_ONLY}, * {@link VideoProfile.VideoState#BIDIRECTIONAL}, * {@link VideoProfile.VideoState#TX_ENABLED}, * {@link VideoProfile.VideoState#RX_ENABLED}. * * @return The video state of the call. * @hide */ public final int getVideoState() { return mVideoState; } /** * @return The audio state of the call, describing how its audio is currently * being routed by the system. This is {@code null} if this Connection * does not directly know about its audio state. */ public final AudioState getAudioState() { return mAudioState; } /** * @return The conference that this connection is a part of. Null if it is not part of any * conference. */ public final Conference getConference() { return mConference; } /** * Returns whether this connection is requesting that the system play a ringback tone * on its behalf. */ public final boolean isRingbackRequested() { return mRingbackRequested; } /** * @return True if the connection's audio mode is VOIP. */ public final boolean getAudioModeIsVoip() { return mAudioModeIsVoip; } /** * @return The status hints for this connection. */ public final StatusHints getStatusHints() { return mStatusHints; } /** * Assign a listener to be notified of state changes. * * @param l A listener. * @return This Connection. * * @hide */ public final Connection addConnectionListener(Listener l) { mListeners.add(l); return this; } /** * Remove a previously assigned listener that was being notified of state changes. * * @param l A Listener. * @return This Connection. * * @hide */ public final Connection removeConnectionListener(Listener l) { if (l != null) { mListeners.remove(l); } return this; } /** * @return The {@link DisconnectCause} for this connection. */ public final DisconnectCause getDisconnectCause() { return mDisconnectCause; } /** * Inform this Connection that the state of its audio output has been changed externally. * * @param state The new audio state. * @hide */ final void setAudioState(AudioState state) { Log.d(this, "setAudioState %s", state); mAudioState = state; onAudioStateChanged(state); } /** * @param state An integer value of a {@code STATE_*} constant. * @return A string representation of the value. */ public static String stateToString(int state) { switch (state) { case STATE_INITIALIZING: return "STATE_INITIALIZING"; case STATE_NEW: return "STATE_NEW"; case STATE_RINGING: return "STATE_RINGING"; case STATE_DIALING: return "STATE_DIALING"; case STATE_ACTIVE: return "STATE_ACTIVE"; case STATE_HOLDING: return "STATE_HOLDING"; case STATE_DISCONNECTED: return "DISCONNECTED"; default: Log.wtf(Connection.class, "Unknown state %d", state); return "UNKNOWN"; } } /** * Returns the connection's {@link PhoneCapabilities} */ public final int getCallCapabilities() { return mCallCapabilities; } /** * Sets the value of the {@link #getAddress()} property. * * @param address The new address. * @param presentation The presentation requirements for the address. * See {@link TelecomManager} for valid values. */ public final void setAddress(Uri address, int presentation) { Log.d(this, "setAddress %s", address); mAddress = address; mAddressPresentation = presentation; for (Listener l : mListeners) { l.onAddressChanged(this, address, presentation); } } /** * Sets the caller display name (CNAP). * * @param callerDisplayName The new display name. * @param presentation The presentation requirements for the handle. * See {@link TelecomManager} for valid values. */ public final void setCallerDisplayName(String callerDisplayName, int presentation) { Log.d(this, "setCallerDisplayName %s", callerDisplayName); mCallerDisplayName = callerDisplayName; mCallerDisplayNamePresentation = presentation; for (Listener l : mListeners) { l.onCallerDisplayNameChanged(this, callerDisplayName, presentation); } } /** * Set the video state for the connection. * Valid values: {@link VideoProfile.VideoState#AUDIO_ONLY}, * {@link VideoProfile.VideoState#BIDIRECTIONAL}, * {@link VideoProfile.VideoState#TX_ENABLED}, * {@link VideoProfile.VideoState#RX_ENABLED}. * * @param videoState The new video state. * @hide */ public final void setVideoState(int videoState) { Log.d(this, "setVideoState %d", videoState); mVideoState = videoState; for (Listener l : mListeners) { l.onVideoStateChanged(this, mVideoState); } } /** * Sets state to active (e.g., an ongoing call where two or more parties can actively * communicate). */ public final void setActive() { setRingbackRequested(false); setState(STATE_ACTIVE); } /** * Sets state to ringing (e.g., an inbound ringing call). */ public final void setRinging() { setState(STATE_RINGING); } /** * Sets state to initializing (this Connection is not yet ready to be used). */ public final void setInitializing() { setState(STATE_INITIALIZING); } /** * Sets state to initialized (the Connection has been set up and is now ready to be used). */ public final void setInitialized() { setState(STATE_NEW); } /** * Sets state to dialing (e.g., dialing an outbound call). */ public final void setDialing() { setState(STATE_DIALING); } /** * Sets state to be on hold. */ public final void setOnHold() { setState(STATE_HOLDING); } /** * Sets the video call provider. * @param videoProvider The video provider. * @hide */ public final void setVideoProvider(VideoProvider videoProvider) { mVideoProvider = videoProvider; for (Listener l : mListeners) { l.onVideoProviderChanged(this, videoProvider); } } /** @hide */ public final VideoProvider getVideoProvider() { return mVideoProvider; } /** * Sets state to disconnected. * * @param disconnectCause The reason for the disconnection, as specified by * {@link DisconnectCause}. */ public final void setDisconnected(DisconnectCause disconnectCause) { mDisconnectCause = disconnectCause; setState(STATE_DISCONNECTED); Log.d(this, "Disconnected with cause %s", disconnectCause); for (Listener l : mListeners) { l.onDisconnected(this, disconnectCause); } } /** * TODO: Needs documentation. */ public final void setPostDialWait(String remaining) { for (Listener l : mListeners) { l.onPostDialWait(this, remaining); } } /** * Requests that the framework play a ringback tone. This is to be invoked by implementations * that do not play a ringback tone themselves in the call's audio stream. * * @param ringback Whether the ringback tone is to be played. */ public final void setRingbackRequested(boolean ringback) { if (mRingbackRequested != ringback) { mRingbackRequested = ringback; for (Listener l : mListeners) { l.onRingbackRequested(this, ringback); } } } /** * Sets the connection's {@link PhoneCapabilities}. * * @param callCapabilities The new call capabilities. */ public final void setCallCapabilities(int callCapabilities) { if (mCallCapabilities != callCapabilities) { mCallCapabilities = callCapabilities; for (Listener l : mListeners) { l.onCallCapabilitiesChanged(this, mCallCapabilities); } } } /** * Tears down the Connection object. */ public final void destroy() { for (Listener l : mListeners) { l.onDestroyed(this); } } /** * Requests that the framework use VOIP audio mode for this connection. * * @param isVoip True if the audio mode is VOIP. */ public final void setAudioModeIsVoip(boolean isVoip) { mAudioModeIsVoip = isVoip; for (Listener l : mListeners) { l.onAudioModeIsVoipChanged(this, isVoip); } } /** * Sets the label and icon status to display in the in-call UI. * * @param statusHints The status label and icon to set. */ public final void setStatusHints(StatusHints statusHints) { mStatusHints = statusHints; for (Listener l : mListeners) { l.onStatusHintsChanged(this, statusHints); } } /** * Sets the connections with which this connection can be conferenced. * * @param conferenceableConnections The set of connections this connection can conference with. */ public final void setConferenceableConnections(List conferenceableConnections) { clearConferenceableList(); for (Connection c : conferenceableConnections) { // If statement checks for duplicates in input. It makes it N^2 but we're dealing with a // small amount of items here. if (!mConferenceableConnections.contains(c)) { c.addConnectionListener(mConnectionDeathListener); mConferenceableConnections.add(c); } } fireOnConferenceableConnectionsChanged(); } /** * Returns the connections with which this connection can be conferenced. */ public final List getConferenceableConnections() { return mUnmodifiableConferenceableConnections; } /** * @hide */ public final void setConnectionService(ConnectionService connectionService) { if (mConnectionService != null) { Log.e(this, new Exception(), "Trying to set ConnectionService on a connection " + "which is already associated with another ConnectionService."); } else { mConnectionService = connectionService; } } /** * @hide */ public final void unsetConnectionService(ConnectionService connectionService) { if (mConnectionService != connectionService) { Log.e(this, new Exception(), "Trying to remove ConnectionService from a Connection " + "that does not belong to the ConnectionService."); } else { mConnectionService = null; } } /** * Sets the conference that this connection is a part of. This will fail if the connection is * already part of a conference call. {@link #resetConference} to un-set the conference first. * * @param conference The conference. * @return {@code true} if the conference was successfully set. * @hide */ public final boolean setConference(Conference conference) { // We check to see if it is already part of another conference. if (mConference == null) { mConference = conference; if (mConnectionService != null && mConnectionService.containsConference(conference)) { fireConferenceChanged(); } return true; } return false; } /** * Resets the conference that this connection is a part of. * @hide */ public final void resetConference() { if (mConference != null) { Log.d(this, "Conference reset"); mConference = null; fireConferenceChanged(); } } /** * Notifies this Connection that the {@link #getAudioState()} property has a new value. * * @param state The new call audio state. */ public void onAudioStateChanged(AudioState state) {} /** * Notifies this Connection of an internal state change. This method is called after the * state is changed. * * @param state The new state, one of the {@code STATE_*} constants. */ public void onStateChanged(int state) {} /** * Notifies this Connection of a request to play a DTMF tone. * * @param c A DTMF character. */ public void onPlayDtmfTone(char c) {} /** * Notifies this Connection of a request to stop any currently playing DTMF tones. */ public void onStopDtmfTone() {} /** * Notifies this Connection of a request to disconnect. */ public void onDisconnect() {} /** * Notifies this Connection of a request to separate from its parent conference. */ public void onSeparate() {} /** * Notifies this Connection of a request to abort. */ public void onAbort() {} /** * Notifies this Connection of a request to hold. */ public void onHold() {} /** * Notifies this Connection of a request to exit a hold state. */ public void onUnhold() {} /** * Notifies this Connection, which is in {@link #STATE_RINGING}, of * a request to accept. * * @param videoState The video state in which to answer the call. * @hide */ public void onAnswer(int videoState) {} /** * Notifies this Connection, which is in {@link #STATE_RINGING}, of * a request to accept. */ public void onAnswer() { onAnswer(VideoProfile.VideoState.AUDIO_ONLY); } /** * Notifies this Connection, which is in {@link #STATE_RINGING}, of * a request to reject. */ public void onReject() {} /** * Notifies this Connection whether the user wishes to proceed with the post-dial DTMF codes. */ public void onPostDialContinue(boolean proceed) {} /** * Merge this connection and the specified connection into a conference call. Once the * connections are merged, the calls should be added to the an existing or new * {@code Conference} instance. For new {@code Conference} instances, use * {@code ConnectionService#addConference}. * * @param otherConnection The connection with which this connection should be conferenced. */ public void onConferenceWith(Connection otherConnection) {} static String toLogSafePhoneNumber(String number) { // For unknown number, log empty string. if (number == null) { return ""; } if (PII_DEBUG) { // When PII_DEBUG is true we emit PII. return number; } // Do exactly same thing as Uri#toSafeString() does, which will enable us to compare // sanitized phone numbers. StringBuilder builder = new StringBuilder(); for (int i = 0; i < number.length(); i++) { char c = number.charAt(i); if (c == '-' || c == '@' || c == '.') { builder.append(c); } else { builder.append('x'); } } return builder.toString(); } private void setState(int state) { if (mState == STATE_DISCONNECTED && mState != state) { Log.d(this, "Connection already DISCONNECTED; cannot transition out of this state."); return; } if (mState != state) { Log.d(this, "setState: %s", stateToString(state)); mState = state; onStateChanged(state); for (Listener l : mListeners) { l.onStateChanged(this, state); } } } private static class FailureSignalingConnection extends Connection { public FailureSignalingConnection(DisconnectCause disconnectCause) { setDisconnected(disconnectCause); } } /** * Return a {@code Connection} which represents a failed connection attempt. The returned * {@code Connection} will have a {@link android.telecom.DisconnectCause} and as specified, * and a {@link #getState()} of {@link #STATE_DISCONNECTED}. *

* The returned {@code Connection} can be assumed to {@link #destroy()} itself when appropriate, * so users of this method need not maintain a reference to its return value to destroy it. * * @param disconnectCause The disconnect cause, ({@see android.telecomm.DisconnectCause}). * @return A {@code Connection} which indicates failure. */ public static Connection createFailedConnection(DisconnectCause disconnectCause) { return new FailureSignalingConnection(disconnectCause); } /** * Return a {@code Connection} which represents a canceled connection attempt. The returned * {@code Connection} will have state {@link #STATE_DISCONNECTED}, and cannot be moved out of * that state. This connection should not be used for anything, and no other * {@code Connection}s should be attempted. *

* The returned {@code Connection} can be assumed to {@link #destroy()} itself when appropriate, * so users of this method need not maintain a reference to its return value to destroy it. * * @return A {@code Connection} which indicates that the underlying call should be canceled. */ public static Connection createCanceledConnection() { return new FailureSignalingConnection(new DisconnectCause(DisconnectCause.CANCELED)); } private final void fireOnConferenceableConnectionsChanged() { for (Listener l : mListeners) { l.onConferenceableConnectionsChanged(this, getConferenceableConnections()); } } private final void fireConferenceChanged() { for (Listener l : mListeners) { l.onConferenceChanged(this, mConference); } } private final void clearConferenceableList() { for (Connection c : mConferenceableConnections) { c.removeConnectionListener(mConnectionDeathListener); } mConferenceableConnections.clear(); } }