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/*
* Copyright (C) 2006 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package com.android.phone;
import android.app.Activity;
import android.app.ActivityOptions;
import android.app.AlertDialog;
import android.app.Dialog;
import android.app.ProgressDialog;
import android.bluetooth.BluetoothAdapter;
import android.bluetooth.BluetoothDevice;
import android.bluetooth.BluetoothHeadset;
import android.bluetooth.BluetoothProfile;
import android.bluetooth.IBluetoothHeadsetPhone;
import android.content.ActivityNotFoundException;
import android.content.BroadcastReceiver;
import android.content.Context;
import android.content.DialogInterface;
import android.content.DialogInterface.OnCancelListener;
import android.content.Intent;
import android.content.IntentFilter;
import android.content.res.Configuration;
import android.content.res.Resources;
import android.graphics.Typeface;
import android.media.AudioManager;
import android.os.AsyncResult;
import android.os.Bundle;
import android.os.Handler;
import android.os.Message;
import android.os.PowerManager;
import android.os.RemoteException;
import android.os.SystemClock;
import android.os.SystemProperties;
import android.telephony.ServiceState;
import android.text.TextUtils;
import android.text.method.DialerKeyListener;
import android.util.EventLog;
import android.util.Log;
import android.view.KeyEvent;
import android.view.View;
import android.view.ViewGroup;
import android.view.ViewStub;
import android.view.Window;
import android.view.WindowManager;
import android.view.accessibility.AccessibilityEvent;
import android.widget.EditText;
import android.widget.ImageView;
import android.widget.LinearLayout;
import android.widget.TextView;
import android.widget.Toast;
import com.android.internal.telephony.Call;
import com.android.internal.telephony.CallManager;
import com.android.internal.telephony.Connection;
import com.android.internal.telephony.MmiCode;
import com.android.internal.telephony.Phone;
import com.android.internal.telephony.PhoneConstants;
import com.android.internal.telephony.TelephonyCapabilities;
import com.android.phone.Constants.CallStatusCode;
import com.android.phone.InCallUiState.InCallScreenMode;
import com.android.phone.OtaUtils.CdmaOtaScreenState;
import java.util.List;
/**
* Phone app "in call" screen.
*/
public class InCallScreen extends Activity
implements View.OnClickListener {
private static final String LOG_TAG = "InCallScreen";
private static final boolean DBG =
(PhoneGlobals.DBG_LEVEL >= 1) && (SystemProperties.getInt("ro.debuggable", 0) == 1);
private static final boolean VDBG = (PhoneGlobals.DBG_LEVEL >= 2);
/**
* Intent extra used to specify whether the DTMF dialpad should be
* initially visible when bringing up the InCallScreen. (If this
* extra is present, the dialpad will be initially shown if the extra
* has the boolean value true, and initially hidden otherwise.)
*/
// TODO: Should be EXTRA_SHOW_DIALPAD for consistency.
static final String SHOW_DIALPAD_EXTRA = "com.android.phone.ShowDialpad";
/**
* Intent extra to specify the package name of the gateway
* provider. Used to get the name displayed in the in-call screen
* during the call setup. The value is a string.
*/
// TODO: This extra is currently set by the gateway application as
// a temporary measure. Ultimately, the framework will securely
// set it.
/* package */ static final String EXTRA_GATEWAY_PROVIDER_PACKAGE =
"com.android.phone.extra.GATEWAY_PROVIDER_PACKAGE";
/**
* Intent extra to specify the URI of the provider to place the
* call. The value is a string. It holds the gateway address
* (phone gateway URL should start with the 'tel:' scheme) that
* will actually be contacted to call the number passed in the
* intent URL or in the EXTRA_PHONE_NUMBER extra.
*/
// TODO: Should the value be a Uri (Parcelable)? Need to make sure
// MMI code '#' don't get confused as URI fragments.
/* package */ static final String EXTRA_GATEWAY_URI =
"com.android.phone.extra.GATEWAY_URI";
// Amount of time (in msec) that we display the "Call ended" state.
// The "short" value is for calls ended by the local user, and the
// "long" value is for calls ended by the remote caller.
private static final int CALL_ENDED_SHORT_DELAY = 200; // msec
private static final int CALL_ENDED_LONG_DELAY = 2000; // msec
private static final int CALL_ENDED_EXTRA_LONG_DELAY = 5000; // msec
// Amount of time that we display the PAUSE alert Dialog showing the
// post dial string yet to be send out to the n/w
private static final int PAUSE_PROMPT_DIALOG_TIMEOUT = 2000; //msec
// Amount of time that we display the provider info if applicable.
private static final int PROVIDER_INFO_TIMEOUT = 5000; // msec
// These are values for the settings of the auto retry mode:
// 0 = disabled
// 1 = enabled
// TODO (Moto):These constants don't really belong here,
// they should be moved to Settings where the value is being looked up in the first place
static final int AUTO_RETRY_OFF = 0;
static final int AUTO_RETRY_ON = 1;
// Message codes; see mHandler below.
// Note message codes < 100 are reserved for the PhoneApp.
private static final int PHONE_STATE_CHANGED = 101;
private static final int PHONE_DISCONNECT = 102;
private static final int EVENT_HEADSET_PLUG_STATE_CHANGED = 103;
private static final int POST_ON_DIAL_CHARS = 104;
private static final int WILD_PROMPT_CHAR_ENTERED = 105;
private static final int ADD_VOICEMAIL_NUMBER = 106;
private static final int DONT_ADD_VOICEMAIL_NUMBER = 107;
private static final int DELAYED_CLEANUP_AFTER_DISCONNECT = 108;
private static final int SUPP_SERVICE_FAILED = 110;
private static final int REQUEST_UPDATE_BLUETOOTH_INDICATION = 114;
private static final int PHONE_CDMA_CALL_WAITING = 115;
private static final int REQUEST_CLOSE_SPC_ERROR_NOTICE = 118;
private static final int REQUEST_CLOSE_OTA_FAILURE_NOTICE = 119;
private static final int EVENT_PAUSE_DIALOG_COMPLETE = 120;
private static final int EVENT_HIDE_PROVIDER_INFO = 121; // Time to remove the info.
private static final int REQUEST_UPDATE_SCREEN = 122;
private static final int PHONE_INCOMING_RING = 123;
private static final int PHONE_NEW_RINGING_CONNECTION = 124;
// When InCallScreenMode is UNDEFINED set the default action
// to ACTION_UNDEFINED so if we are resumed the activity will
// know its undefined. In particular checkIsOtaCall will return
// false.
public static final String ACTION_UNDEFINED = "com.android.phone.InCallScreen.UNDEFINED";
/** Status codes returned from syncWithPhoneState(). */
private enum SyncWithPhoneStateStatus {
/**
* Successfully updated our internal state based on the telephony state.
*/
SUCCESS,
/**
* There was no phone state to sync with (i.e. the phone was
* completely idle). In most cases this means that the
* in-call UI shouldn't be visible in the first place, unless
* we need to remain in the foreground while displaying an
* error message.
*/
PHONE_NOT_IN_USE
}
private boolean mRegisteredForPhoneStates;
private PhoneGlobals mApp;
private CallManager mCM;
// TODO: need to clean up all remaining uses of mPhone.
// (There may be more than one Phone instance on the device, so it's wrong
// to just keep a single mPhone field. Instead, any time we need a Phone
// reference we should get it dynamically from the CallManager, probably
// based on the current foreground Call.)
private Phone mPhone;
private BluetoothHeadset mBluetoothHeadset;
private BluetoothAdapter mBluetoothAdapter;
private boolean mBluetoothConnectionPending;
private long mBluetoothConnectionRequestTime;
/** Main in-call UI elements. */
private CallCard mCallCard;
// UI controls:
private InCallControlState mInCallControlState;
private InCallTouchUi mInCallTouchUi;
private RespondViaSmsManager mRespondViaSmsManager; // see internalRespondViaSms()
private ManageConferenceUtils mManageConferenceUtils;
// DTMF Dialer controller and its view:
private DTMFTwelveKeyDialer mDialer;
private EditText mWildPromptText;
// Various dialogs we bring up (see dismissAllDialogs()).
// TODO: convert these all to use the "managed dialogs" framework.
//
// The MMI started dialog can actually be one of 2 items:
// 1. An alert dialog if the MMI code is a normal MMI
// 2. A progress dialog if the user requested a USSD
private Dialog mMmiStartedDialog;
private AlertDialog mMissingVoicemailDialog;
private AlertDialog mGenericErrorDialog;
private AlertDialog mSuppServiceFailureDialog;
private AlertDialog mWaitPromptDialog;
private AlertDialog mWildPromptDialog;
private AlertDialog mCallLostDialog;
private AlertDialog mPausePromptDialog;
private AlertDialog mExitingECMDialog;
// NOTE: if you add a new dialog here, be sure to add it to dismissAllDialogs() also.
// ProgressDialog created by showProgressIndication()
private ProgressDialog mProgressDialog;
// TODO: If the Activity class ever provides an easy way to get the
// current "activity lifecycle" state, we can remove these flags.
private boolean mIsDestroyed = false;
private boolean mIsForegroundActivity = false;
private boolean mIsForegroundActivityForProximity = false;
private PowerManager mPowerManager;
// For use with Pause/Wait dialogs
private String mPostDialStrAfterPause;
private boolean mPauseInProgress = false;
// Info about the most-recently-disconnected Connection, which is used
// to determine what should happen when exiting the InCallScreen after a
// call. (This info is set by onDisconnect(), and used by
// delayedCleanupAfterDisconnect().)
private Connection.DisconnectCause mLastDisconnectCause;
/** In-call audio routing options; see switchInCallAudio(). */
public enum InCallAudioMode {
SPEAKER, // Speakerphone
BLUETOOTH, // Bluetooth headset (if available)
EARPIECE, // Handset earpiece (or wired headset, if connected)
}
private Handler mHandler = new Handler() {
@Override
public void handleMessage(Message msg) {
if (mIsDestroyed) {
if (DBG) log("Handler: ignoring message " + msg + "; we're destroyed!");
return;
}
if (!mIsForegroundActivity) {
if (DBG) log("Handler: handling message " + msg + " while not in foreground");
// Continue anyway; some of the messages below *want* to
// be handled even if we're not the foreground activity
// (like DELAYED_CLEANUP_AFTER_DISCONNECT), and they all
// should at least be safe to handle if we're not in the
// foreground...
}
switch (msg.what) {
case SUPP_SERVICE_FAILED:
onSuppServiceFailed((AsyncResult) msg.obj);
break;
case PHONE_STATE_CHANGED:
onPhoneStateChanged((AsyncResult) msg.obj);
break;
case PHONE_DISCONNECT:
onDisconnect((AsyncResult) msg.obj);
break;
case EVENT_HEADSET_PLUG_STATE_CHANGED:
// Update the in-call UI, since some UI elements (such
// as the "Speaker" button) may change state depending on
// whether a headset is plugged in.
// TODO: A full updateScreen() is overkill here, since
// the value of PhoneApp.isHeadsetPlugged() only affects a
// single onscreen UI element. (But even a full updateScreen()
// is still pretty cheap, so let's keep this simple
// for now.)
updateScreen();
// Also, force the "audio mode" popup to refresh itself if
// it's visible, since one of its items is either "Wired
// headset" or "Handset earpiece" depending on whether the
// headset is plugged in or not.
mInCallTouchUi.refreshAudioModePopup(); // safe even if the popup's not active
break;
// TODO: sort out MMI code (probably we should remove this method entirely).
// See also MMI handling code in onResume()
// case PhoneApp.MMI_INITIATE:
// onMMIInitiate((AsyncResult) msg.obj);
// break;
case PhoneGlobals.MMI_CANCEL:
onMMICancel();
break;
// handle the mmi complete message.
// since the message display class has been replaced with
// a system dialog in PhoneUtils.displayMMIComplete(), we
// should finish the activity here to close the window.
case PhoneGlobals.MMI_COMPLETE:
onMMIComplete((MmiCode) ((AsyncResult) msg.obj).result);
break;
case POST_ON_DIAL_CHARS:
handlePostOnDialChars((AsyncResult) msg.obj, (char) msg.arg1);
break;
case ADD_VOICEMAIL_NUMBER:
addVoiceMailNumberPanel();
break;
case DONT_ADD_VOICEMAIL_NUMBER:
dontAddVoiceMailNumber();
break;
case DELAYED_CLEANUP_AFTER_DISCONNECT:
delayedCleanupAfterDisconnect();
break;
case REQUEST_UPDATE_BLUETOOTH_INDICATION:
if (VDBG) log("REQUEST_UPDATE_BLUETOOTH_INDICATION...");
// The bluetooth headset state changed, so some UI
// elements may need to update. (There's no need to
// look up the current state here, since any UI
// elements that care about the bluetooth state get it
// directly from PhoneApp.showBluetoothIndication().)
updateScreen();
break;
case PHONE_CDMA_CALL_WAITING:
if (DBG) log("Received PHONE_CDMA_CALL_WAITING event ...");
Connection cn = mCM.getFirstActiveRingingCall().getLatestConnection();
// Only proceed if we get a valid connection object
if (cn != null) {
// Finally update screen with Call waiting info and request
// screen to wake up
updateScreen();
mApp.updateWakeState();
}
break;
case REQUEST_CLOSE_SPC_ERROR_NOTICE:
if (mApp.otaUtils != null) {
mApp.otaUtils.onOtaCloseSpcNotice();
}
break;
case REQUEST_CLOSE_OTA_FAILURE_NOTICE:
if (mApp.otaUtils != null) {
mApp.otaUtils.onOtaCloseFailureNotice();
}
break;
case EVENT_PAUSE_DIALOG_COMPLETE:
if (mPausePromptDialog != null) {
if (DBG) log("- DISMISSING mPausePromptDialog.");
mPausePromptDialog.dismiss(); // safe even if already dismissed
mPausePromptDialog = null;
}
break;
case EVENT_HIDE_PROVIDER_INFO:
mApp.inCallUiState.providerInfoVisible = false;
if (mCallCard != null) {
mCallCard.updateState(mCM);
}
break;
case REQUEST_UPDATE_SCREEN:
updateScreen();
break;
case PHONE_INCOMING_RING:
onIncomingRing();
break;
case PHONE_NEW_RINGING_CONNECTION:
onNewRingingConnection();
break;
default:
Log.wtf(LOG_TAG, "mHandler: unexpected message: " + msg);
break;
}
}
};
private final BroadcastReceiver mReceiver = new BroadcastReceiver() {
@Override
public void onReceive(Context context, Intent intent) {
String action = intent.getAction();
if (action.equals(Intent.ACTION_HEADSET_PLUG)) {
// Listen for ACTION_HEADSET_PLUG broadcasts so that we
// can update the onscreen UI when the headset state changes.
// if (DBG) log("mReceiver: ACTION_HEADSET_PLUG");
// if (DBG) log("==> intent: " + intent);
// if (DBG) log(" state: " + intent.getIntExtra("state", 0));
// if (DBG) log(" name: " + intent.getStringExtra("name"));
// send the event and add the state as an argument.
Message message = Message.obtain(mHandler, EVENT_HEADSET_PLUG_STATE_CHANGED,
intent.getIntExtra("state", 0), 0);
mHandler.sendMessage(message);
}
}
};
@Override
protected void onCreate(Bundle icicle) {
Log.i(LOG_TAG, "onCreate()... this = " + this);
Profiler.callScreenOnCreate();
super.onCreate(icicle);
// Make sure this is a voice-capable device.
if (!PhoneGlobals.sVoiceCapable) {
// There should be no way to ever reach the InCallScreen on a
// non-voice-capable device, since this activity is not exported by
// our manifest, and we explicitly disable any other external APIs
// like the CALL intent and ITelephony.showCallScreen().
// So the fact that we got here indicates a phone app bug.
Log.wtf(LOG_TAG, "onCreate() reached on non-voice-capable device");
finish();
return;
}
mApp = PhoneGlobals.getInstance();
mApp.setInCallScreenInstance(this);
// set this flag so this activity will stay in front of the keyguard
int flags = WindowManager.LayoutParams.FLAG_SHOW_WHEN_LOCKED
| WindowManager.LayoutParams.FLAG_TURN_SCREEN_ON;
if (mApp.getPhoneState() == PhoneConstants.State.OFFHOOK) {
// While we are in call, the in-call screen should dismiss the keyguard.
// This allows the user to press Home to go directly home without going through
// an insecure lock screen.
// But we do not want to do this if there is no active call so we do not
// bypass the keyguard if the call is not answered or declined.
flags |= WindowManager.LayoutParams.FLAG_DISMISS_KEYGUARD;
}
WindowManager.LayoutParams lp = getWindow().getAttributes();
lp.flags |= flags;
if (!mApp.proximitySensorModeEnabled()) {
// If we don't have a proximity sensor, then the in-call screen explicitly
// controls user activity. This is to prevent spurious touches from waking
// the display.
lp.inputFeatures |= WindowManager.LayoutParams.INPUT_FEATURE_DISABLE_USER_ACTIVITY;
}
getWindow().setAttributes(lp);
setPhone(mApp.phone); // Sets mPhone
mCM = mApp.mCM;
log("- onCreate: phone state = " + mCM.getState());
mBluetoothAdapter = BluetoothAdapter.getDefaultAdapter();
if (mBluetoothAdapter != null) {
mBluetoothAdapter.getProfileProxy(getApplicationContext(), mBluetoothProfileServiceListener,
BluetoothProfile.HEADSET);
}
requestWindowFeature(Window.FEATURE_NO_TITLE);
// Inflate everything in incall_screen.xml and add it to the screen.
setContentView(R.layout.incall_screen);
// If in landscape, then one of the ViewStubs (instead of <include>) is used for the
// incall_touch_ui, because CDMA and GSM button layouts are noticeably different.
final ViewStub touchUiStub = (ViewStub) findViewById(
mPhone.getPhoneType() == PhoneConstants.PHONE_TYPE_CDMA
? R.id.inCallTouchUiCdmaStub : R.id.inCallTouchUiStub);
if (touchUiStub != null) touchUiStub.inflate();
initInCallScreen();
registerForPhoneStates();
// No need to change wake state here; that happens in onResume() when we
// are actually displayed.
// Handle the Intent we were launched with, but only if this is the
// the very first time we're being launched (ie. NOT if we're being
// re-initialized after previously being shut down.)
// Once we're up and running, any future Intents we need
// to handle will come in via the onNewIntent() method.
if (icicle == null) {
if (DBG) log("onCreate(): this is our very first launch, checking intent...");
internalResolveIntent(getIntent());
}
Profiler.callScreenCreated();
if (DBG) log("onCreate(): exit");
}
private BluetoothProfile.ServiceListener mBluetoothProfileServiceListener =
new BluetoothProfile.ServiceListener() {
@Override
public void onServiceConnected(int profile, BluetoothProfile proxy) {
mBluetoothHeadset = (BluetoothHeadset) proxy;
if (VDBG) log("- Got BluetoothHeadset: " + mBluetoothHeadset);
}
@Override
public void onServiceDisconnected(int profile) {
mBluetoothHeadset = null;
}
};
/**
* Sets the Phone object used internally by the InCallScreen.
*
* In normal operation this is called from onCreate(), and the
* passed-in Phone object comes from the PhoneApp.
* For testing, test classes can use this method to
* inject a test Phone instance.
*/
/* package */ void setPhone(Phone phone) {
mPhone = phone;
}
@Override
protected void onResume() {
if (DBG) log("onResume()...");
super.onResume();
mIsForegroundActivity = true;
mIsForegroundActivityForProximity = true;
// The flag shouldn't be turned on when there are actual phone calls.
if (mCM.hasActiveFgCall() || mCM.hasActiveBgCall() || mCM.hasActiveRingingCall()) {
mApp.inCallUiState.showAlreadyDisconnectedState = false;
}
final InCallUiState inCallUiState = mApp.inCallUiState;
if (VDBG) inCallUiState.dumpState();
updateExpandedViewState();
// ...and update the in-call notification too, since the status bar
// icon needs to be hidden while we're the foreground activity:
mApp.notificationMgr.updateInCallNotification();
// Listen for broadcast intents that might affect the onscreen UI.
registerReceiver(mReceiver, new IntentFilter(Intent.ACTION_HEADSET_PLUG));
// Keep a "dialer session" active when we're in the foreground.
// (This is needed to play DTMF tones.)
mDialer.startDialerSession();
// Restore various other state from the InCallUiState object:
// Update the onscreen dialpad state to match the InCallUiState.
if (inCallUiState.showDialpad) {
openDialpadInternal(false); // no "opening" animation
} else {
closeDialpadInternal(false); // no "closing" animation
}
// Reset the dialpad context
// TODO: Dialpad digits should be set here as well (once they are saved)
mDialer.setDialpadContext(inCallUiState.dialpadContextText);
// If there's a "Respond via SMS" popup still around since the
// last time we were the foreground activity, make sure it's not
// still active!
// (The popup should *never* be visible initially when we first
// come to the foreground; it only ever comes up in response to
// the user selecting the "SMS" option from the incoming call
// widget.)
mRespondViaSmsManager.dismissPopup(); // safe even if already dismissed
// Display an error / diagnostic indication if necessary.
//
// When the InCallScreen comes to the foreground, we normally we
// display the in-call UI in whatever state is appropriate based on
// the state of the telephony framework (e.g. an outgoing call in
// DIALING state, an incoming call, etc.)
//
// But if the InCallUiState has a "pending call status code" set,
// that means we need to display some kind of status or error
// indication to the user instead of the regular in-call UI. (The
// most common example of this is when there's some kind of
// failure while initiating an outgoing call; see
// CallController.placeCall().)
//
boolean handledStartupError = false;
if (inCallUiState.hasPendingCallStatusCode()) {
if (DBG) log("- onResume: need to show status indication!");
showStatusIndication(inCallUiState.getPendingCallStatusCode());
// Set handledStartupError to ensure that we won't bail out below.
// (We need to stay here in the InCallScreen so that the user
// is able to see the error dialog!)
handledStartupError = true;
}
// Set the volume control handler while we are in the foreground.
final boolean bluetoothConnected = isBluetoothAudioConnected();
if (bluetoothConnected) {
setVolumeControlStream(AudioManager.STREAM_BLUETOOTH_SCO);
} else {
setVolumeControlStream(AudioManager.STREAM_VOICE_CALL);
}
takeKeyEvents(true);
// If an OTASP call is in progress, use the special OTASP-specific UI.
boolean inOtaCall = false;
if (TelephonyCapabilities.supportsOtasp(mPhone)) {
inOtaCall = checkOtaspStateOnResume();
}
if (!inOtaCall) {
// Always start off in NORMAL mode
setInCallScreenMode(InCallScreenMode.NORMAL);
}
// Before checking the state of the CallManager, clean up any
// connections in the DISCONNECTED state.
// (The DISCONNECTED state is used only to drive the "call ended"
// UI; it's totally useless when *entering* the InCallScreen.)
mCM.clearDisconnected();
// Update the onscreen UI to reflect the current telephony state.
SyncWithPhoneStateStatus status = syncWithPhoneState();
// Note there's no need to call updateScreen() here;
// syncWithPhoneState() already did that if necessary.
if (status != SyncWithPhoneStateStatus.SUCCESS) {
if (DBG) log("- onResume: syncWithPhoneState failed! status = " + status);
// Couldn't update the UI, presumably because the phone is totally
// idle.
// Even though the phone is idle, though, we do still need to
// stay here on the InCallScreen if we're displaying an
// error dialog (see "showStatusIndication()" above).
if (handledStartupError) {
// Stay here for now. We'll eventually leave the
// InCallScreen when the user presses the dialog's OK
// button (see bailOutAfterErrorDialog()), or when the
// progress indicator goes away.
Log.i(LOG_TAG, " ==> syncWithPhoneState failed, but staying here anyway.");
} else {
// The phone is idle, and we did NOT handle a
// startup error during this pass thru onResume.
//
// This basically means that we're being resumed because of
// some action *other* than a new intent. (For example,
// the user pressing POWER to wake up the device, causing
// the InCallScreen to come back to the foreground.)
//
// In this scenario we do NOT want to stay here on the
// InCallScreen: we're not showing any useful info to the
// user (like a dialog), and the in-call UI itself is
// useless if there's no active call. So bail out.
Log.i(LOG_TAG, " ==> syncWithPhoneState failed; bailing out!");
dismissAllDialogs();
// Force the InCallScreen to truly finish(), rather than just
// moving it to the back of the activity stack (which is what
// our finish() method usually does.)
// This is necessary to avoid an obscure scenario where the
// InCallScreen can get stuck in an inconsistent state, somehow
// causing a *subsequent* outgoing call to fail (bug 4172599).
endInCallScreenSession(true /* force a real finish() call */);
return;
}
} else if (TelephonyCapabilities.supportsOtasp(mPhone)) {
if (inCallUiState.inCallScreenMode == InCallScreenMode.OTA_NORMAL ||
inCallUiState.inCallScreenMode == InCallScreenMode.OTA_ENDED) {
if (mCallCard != null) mCallCard.setVisibility(View.GONE);
updateScreen();
return;
}
}
// InCallScreen is now active.
EventLog.writeEvent(EventLogTags.PHONE_UI_ENTER);
// Update the poke lock and wake lock when we move to the foreground.
// This will be no-op when prox sensor is effective.
mApp.updateWakeState();
// Restore the mute state if the last mute state change was NOT
// done by the user.
if (mApp.getRestoreMuteOnInCallResume()) {
// Mute state is based on the foreground call
PhoneUtils.restoreMuteState();
mApp.setRestoreMuteOnInCallResume(false);
}
Profiler.profileViewCreate(getWindow(), InCallScreen.class.getName());
// If there's a pending MMI code, we'll show a dialog here.
//
// Note: previously we had shown the dialog when MMI_INITIATE event's coming
// from telephony layer, while right now we don't because the event comes
// too early (before in-call screen is prepared).
// Now we instead check pending MMI code and show the dialog here.
//
// This *may* cause some problem, e.g. when the user really quickly starts
// MMI sequence and calls an actual phone number before the MMI request
// being completed, which is rather rare.
//
// TODO: streamline this logic and have a UX in a better manner.
// Right now syncWithPhoneState() above will return SUCCESS based on
// mPhone.getPendingMmiCodes().isEmpty(), while we check it again here.
// Also we show pre-populated in-call UI under the dialog, which looks
// not great. (issue 5210375, 5545506)
// After cleaning them, remove commented-out MMI handling code elsewhere.
if (!mPhone.getPendingMmiCodes().isEmpty()) {
if (mMmiStartedDialog == null) {
MmiCode mmiCode = mPhone.getPendingMmiCodes().get(0);
Message message = Message.obtain(mHandler, PhoneGlobals.MMI_CANCEL);
mMmiStartedDialog = PhoneUtils.displayMMIInitiate(this, mmiCode,
message, mMmiStartedDialog);
// mInCallScreen needs to receive MMI_COMPLETE/MMI_CANCEL event from telephony,
// which will dismiss the entire screen.
}
}
// This means the screen is shown even though there's no connection, which only happens
// when the phone call has hung up while the screen is turned off at that moment.
// We want to show "disconnected" state with photos with appropriate elapsed time for
// the finished phone call.
if (mApp.inCallUiState.showAlreadyDisconnectedState) {
// if (DBG) {
log("onResume(): detected \"show already disconnected state\" situation."
+ " set up DELAYED_CLEANUP_AFTER_DISCONNECT message with "
+ CALL_ENDED_LONG_DELAY + " msec delay.");
//}
mHandler.removeMessages(DELAYED_CLEANUP_AFTER_DISCONNECT);
mHandler.sendEmptyMessageDelayed(DELAYED_CLEANUP_AFTER_DISCONNECT,
CALL_ENDED_LONG_DELAY);
}
if (VDBG) log("onResume() done.");
}
// onPause is guaranteed to be called when the InCallScreen goes
// in the background.
@Override
protected void onPause() {
if (DBG) log("onPause()...");
super.onPause();
if (mPowerManager.isScreenOn()) {
// Set to false when the screen went background *not* by screen turned off. Probably
// the user bailed out of the in-call screen (by pressing BACK, HOME, etc.)
mIsForegroundActivityForProximity = false;
}
mIsForegroundActivity = false;
// Force a clear of the provider info frame. Since the
// frame is removed using a timed message, it is
// possible we missed it if the prev call was interrupted.
mApp.inCallUiState.providerInfoVisible = false;
// "show-already-disconnected-state" should be effective just during the first wake-up.
// We should never allow it to stay true after that.
mApp.inCallUiState.showAlreadyDisconnectedState = false;
// A safety measure to disable proximity sensor in case call failed
// and the telephony state did not change.
mApp.setBeginningCall(false);
// Make sure the "Manage conference" chronometer is stopped when
// we move away from the foreground.
mManageConferenceUtils.stopConferenceTime();
// as a catch-all, make sure that any dtmf tones are stopped
// when the UI is no longer in the foreground.
mDialer.onDialerKeyUp(null);
// Release any "dialer session" resources, now that we're no
// longer in the foreground.
mDialer.stopDialerSession();
// If the device is put to sleep as the phone call is ending,
// we may see cases where the DELAYED_CLEANUP_AFTER_DISCONNECT
// event gets handled AFTER the device goes to sleep and wakes
// up again.
// This is because it is possible for a sleep command
// (executed with the End Call key) to come during the 2
// seconds that the "Call Ended" screen is up. Sleep then
// pauses the device (including the cleanup event) and
// resumes the event when it wakes up.
// To fix this, we introduce a bit of code that pushes the UI
// to the background if we pause and see a request to
// DELAYED_CLEANUP_AFTER_DISCONNECT.
// Note: We can try to finish directly, by:
// 1. Removing the DELAYED_CLEANUP_AFTER_DISCONNECT messages
// 2. Calling delayedCleanupAfterDisconnect directly
// However, doing so can cause problems between the phone
// app and the keyguard - the keyguard is trying to sleep at
// the same time that the phone state is changing. This can
// end up causing the sleep request to be ignored.
if (mHandler.hasMessages(DELAYED_CLEANUP_AFTER_DISCONNECT)
&& mCM.getState() != PhoneConstants.State.RINGING) {
if (DBG) log("DELAYED_CLEANUP_AFTER_DISCONNECT detected, moving UI to background.");
endInCallScreenSession();
}
EventLog.writeEvent(EventLogTags.PHONE_UI_EXIT);
// Dismiss any dialogs we may have brought up, just to be 100%
// sure they won't still be around when we get back here.
dismissAllDialogs();
updateExpandedViewState();
// ...and the in-call notification too:
mApp.notificationMgr.updateInCallNotification();
// ...and *always* reset the system bar back to its normal state
// when leaving the in-call UI.
// (While we're the foreground activity, we disable navigation in
// some call states; see InCallTouchUi.updateState().)
mApp.notificationMgr.statusBarHelper.enableSystemBarNavigation(true);
// Unregister for broadcast intents. (These affect the visible UI
// of the InCallScreen, so we only care about them while we're in the
// foreground.)
unregisterReceiver(mReceiver);
// Make sure we revert the poke lock and wake lock when we move to
// the background.
mApp.updateWakeState();
// clear the dismiss keyguard flag so we are back to the default state
// when we next resume
updateKeyguardPolicy(false);
// See also PhoneApp#updatePhoneState(), which takes care of all the other release() calls.
if (mApp.getUpdateLock().isHeld() && mApp.getPhoneState() == PhoneConstants.State.IDLE) {
if (DBG) {
log("Release UpdateLock on onPause() because there's no active phone call.");
}
mApp.getUpdateLock().release();
}
}
@Override
protected void onStop() {
if (DBG) log("onStop()...");
super.onStop();
stopTimer();
PhoneConstants.State state = mCM.getState();
if (DBG) log("onStop: state = " + state);
if (state == PhoneConstants.State.IDLE) {
if (mRespondViaSmsManager.isShowingPopup()) {
// This means that the user has been opening the "Respond via SMS" dialog even
// after the incoming call hanging up, and the screen finally went background.
// In that case we just close the dialog and exit the whole in-call screen.
mRespondViaSmsManager.dismissPopup();
}
// when OTA Activation, OTA Success/Failure dialog or OTA SPC
// failure dialog is running, do not destroy inCallScreen. Because call
// is already ended and dialog will not get redrawn on slider event.
if ((mApp.cdmaOtaProvisionData != null) && (mApp.cdmaOtaScreenState != null)
&& ((mApp.cdmaOtaScreenState.otaScreenState !=
CdmaOtaScreenState.OtaScreenState.OTA_STATUS_ACTIVATION)
&& (mApp.cdmaOtaScreenState.otaScreenState !=
CdmaOtaScreenState.OtaScreenState.OTA_STATUS_SUCCESS_FAILURE_DLG)
&& (!mApp.cdmaOtaProvisionData.inOtaSpcState))) {
// we don't want the call screen to remain in the activity history
// if there are not active or ringing calls.
if (DBG) log("- onStop: calling finish() to clear activity history...");
moveTaskToBack(true);
if (mApp.otaUtils != null) {
mApp.otaUtils.cleanOtaScreen(true);
}
}
}
}
@Override
protected void onDestroy() {
Log.i(LOG_TAG, "onDestroy()... this = " + this);
super.onDestroy();
// Set the magic flag that tells us NOT to handle any handler
// messages that come in asynchronously after we get destroyed.
mIsDestroyed = true;
mApp.setInCallScreenInstance(null);
// Clear out the InCallScreen references in various helper objects
// (to let them know we've been destroyed).
if (mCallCard != null) {
mCallCard.setInCallScreenInstance(null);
}
if (mInCallTouchUi != null) {
mInCallTouchUi.setInCallScreenInstance(null);
}
mRespondViaSmsManager.setInCallScreenInstance(null);
mDialer.clearInCallScreenReference();
mDialer = null;
unregisterForPhoneStates();
// No need to change wake state here; that happens in onPause() when we
// are moving out of the foreground.
if (mBluetoothHeadset != null) {
mBluetoothAdapter.closeProfileProxy(BluetoothProfile.HEADSET, mBluetoothHeadset);
mBluetoothHeadset = null;
}
// Dismiss all dialogs, to be absolutely sure we won't leak any of
// them while changing orientation.
dismissAllDialogs();
// If there's an OtaUtils instance around, clear out its
// references to our internal widgets.
if (mApp.otaUtils != null) {
mApp.otaUtils.clearUiWidgets();
}
}
/**
* Dismisses the in-call screen.
*
* We never *really* finish() the InCallScreen, since we don't want to
* get destroyed and then have to be re-created from scratch for the
* next call. Instead, we just move ourselves to the back of the
* activity stack.
*
* This also means that we'll no longer be reachable via the BACK
* button (since moveTaskToBack() puts us behind the Home app, but the
* home app doesn't allow the BACK key to move you any farther down in
* the history stack.)
*
* (Since the Phone app itself is never killed, this basically means
* that we'll keep a single InCallScreen instance around for the
* entire uptime of the device. This noticeably improves the UI
* responsiveness for incoming calls.)
*/
@Override
public void finish() {
if (DBG) log("finish()...");
moveTaskToBack(true);
}
/**
* End the current in call screen session.
*
* This must be called when an InCallScreen session has
* complete so that the next invocation via an onResume will
* not be in an old state.
*/
public void endInCallScreenSession() {
if (DBG) log("endInCallScreenSession()... phone state = " + mCM.getState());
endInCallScreenSession(false);
}
/**
* Internal version of endInCallScreenSession().
*
* @param forceFinish If true, force the InCallScreen to
* truly finish() rather than just calling moveTaskToBack().
* @see finish()
*/
private void endInCallScreenSession(boolean forceFinish) {
if (DBG) {
log("endInCallScreenSession(" + forceFinish + ")... phone state = " + mCM.getState());
}
if (forceFinish) {
Log.i(LOG_TAG, "endInCallScreenSession(): FORCING a call to super.finish()!");
super.finish(); // Call super.finish() rather than our own finish() method,
// which actually just calls moveTaskToBack().
} else {
moveTaskToBack(true);
}
setInCallScreenMode(InCallScreenMode.UNDEFINED);
// Call update screen so that the in-call screen goes back to a normal state.
// This avoids bugs where a previous state will filcker the next time phone is
// opened.
updateScreen();
if (mCallCard != null) {
mCallCard.clear();
}
}
/**
* True when this Activity is in foreground (between onResume() and onPause()).
*/
/* package */ boolean isForegroundActivity() {
return mIsForegroundActivity;
}
/**
* Returns true when the Activity is in foreground (between onResume() and onPause()),
* or, is in background due to user's bailing out of the screen, not by screen turning off.
*
* @see #isForegroundActivity()
*/
/* package */ boolean isForegroundActivityForProximity() {
return mIsForegroundActivityForProximity;
}
/* package */ void updateKeyguardPolicy(boolean dismissKeyguard) {
if (dismissKeyguard) {
getWindow().addFlags(WindowManager.LayoutParams.FLAG_DISMISS_KEYGUARD);
} else {
getWindow().clearFlags(WindowManager.LayoutParams.FLAG_DISMISS_KEYGUARD);
}
}
private void registerForPhoneStates() {
if (!mRegisteredForPhoneStates) {
mCM.registerForPreciseCallStateChanged(mHandler, PHONE_STATE_CHANGED, null);
mCM.registerForDisconnect(mHandler, PHONE_DISCONNECT, null);
// TODO: sort out MMI code (probably we should remove this method entirely).
// See also MMI handling code in onResume()
// mCM.registerForMmiInitiate(mHandler, PhoneApp.MMI_INITIATE, null);
// register for the MMI complete message. Upon completion,
// PhoneUtils will bring up a system dialog instead of the
// message display class in PhoneUtils.displayMMIComplete().
// We'll listen for that message too, so that we can finish
// the activity at the same time.
mCM.registerForMmiComplete(mHandler, PhoneGlobals.MMI_COMPLETE, null);
mCM.registerForCallWaiting(mHandler, PHONE_CDMA_CALL_WAITING, null);
mCM.registerForPostDialCharacter(mHandler, POST_ON_DIAL_CHARS, null);
mCM.registerForSuppServiceFailed(mHandler, SUPP_SERVICE_FAILED, null);
mCM.registerForIncomingRing(mHandler, PHONE_INCOMING_RING, null);
mCM.registerForNewRingingConnection(mHandler, PHONE_NEW_RINGING_CONNECTION, null);
mRegisteredForPhoneStates = true;
}
}
private void unregisterForPhoneStates() {
mCM.unregisterForPreciseCallStateChanged(mHandler);
mCM.unregisterForDisconnect(mHandler);
mCM.unregisterForMmiInitiate(mHandler);
mCM.unregisterForMmiComplete(mHandler);
mCM.unregisterForCallWaiting(mHandler);
mCM.unregisterForPostDialCharacter(mHandler);
mCM.unregisterForSuppServiceFailed(mHandler);
mCM.unregisterForIncomingRing(mHandler);
mCM.unregisterForNewRingingConnection(mHandler);
mRegisteredForPhoneStates = false;
}
/* package */ void updateAfterRadioTechnologyChange() {
if (DBG) Log.d(LOG_TAG, "updateAfterRadioTechnologyChange()...");
// Reset the call screen since the calls cannot be transferred
// across radio technologies.
resetInCallScreenMode();
// Unregister for all events from the old obsolete phone
unregisterForPhoneStates();
// (Re)register for all events relevant to the new active phone
registerForPhoneStates();
// And finally, refresh the onscreen UI. (Note that it's safe
// to call requestUpdateScreen() even if the radio change ended up
// causing us to exit the InCallScreen.)
requestUpdateScreen();
}
@Override
protected void onNewIntent(Intent intent) {
log("onNewIntent: intent = " + intent + ", phone state = " + mCM.getState());
// We're being re-launched with a new Intent. Since it's possible for a
// single InCallScreen instance to persist indefinitely (even if we
// finish() ourselves), this sequence can potentially happen any time
// the InCallScreen needs to be displayed.
// Stash away the new intent so that we can get it in the future
// by calling getIntent(). (Otherwise getIntent() will return the
// original Intent from when we first got created!)
setIntent(intent);
// Activities are always paused before receiving a new intent, so
// we can count on our onResume() method being called next.
// Just like in onCreate(), handle the intent.
internalResolveIntent(intent);
}
private void internalResolveIntent(Intent intent) {
if (intent == null || intent.getAction() == null) {
return;
}
String action = intent.getAction();
if (DBG) log("internalResolveIntent: action=" + action);
// In gingerbread and earlier releases, the InCallScreen used to
// directly handle certain intent actions that could initiate phone
// calls, namely ACTION_CALL and ACTION_CALL_EMERGENCY, and also
// OtaUtils.ACTION_PERFORM_CDMA_PROVISIONING.
//
// But it doesn't make sense to tie those actions to the InCallScreen
// (or especially to the *activity lifecycle* of the InCallScreen).
// Instead, the InCallScreen should only be concerned with running the
// onscreen UI while in a call. So we've now offloaded the call-control
// functionality to a new module called CallController, and OTASP calls
// are now launched from the OtaUtils startInteractiveOtasp() or
// startNonInteractiveOtasp() methods.
//
// So now, the InCallScreen is only ever launched using the ACTION_MAIN
// action, and (upon launch) performs no functionality other than
// displaying the UI in a state that matches the current telephony
// state.
if (action.equals(intent.ACTION_MAIN)) {
// This action is the normal way to bring up the in-call UI.
//
// Most of the interesting work of updating the onscreen UI (to
// match the current telephony state) happens in the
// syncWithPhoneState() => updateScreen() sequence that happens in
// onResume().
//
// But we do check here for one extra that can come along with the
// ACTION_MAIN intent:
if (intent.hasExtra(SHOW_DIALPAD_EXTRA)) {
// SHOW_DIALPAD_EXTRA can be used here to specify whether the DTMF
// dialpad should be initially visible. If the extra isn't
// present at all, we just leave the dialpad in its previous state.
boolean showDialpad = intent.getBooleanExtra(SHOW_DIALPAD_EXTRA, false);
if (VDBG) log("- internalResolveIntent: SHOW_DIALPAD_EXTRA: " + showDialpad);
// If SHOW_DIALPAD_EXTRA is specified, that overrides whatever
// the previous state of inCallUiState.showDialpad was.
mApp.inCallUiState.showDialpad = showDialpad;
final boolean hasActiveCall = mCM.hasActiveFgCall();
final boolean hasHoldingCall = mCM.hasActiveBgCall();
// There's only one line in use, AND it's on hold, at which we're sure the user
// wants to use the dialpad toward the exact line, so un-hold the holding line.
if (showDialpad && !hasActiveCall && hasHoldingCall) {
PhoneUtils.switchHoldingAndActive(mCM.getFirstActiveBgCall());
}
}
// ...and in onResume() we'll update the onscreen dialpad state to
// match the InCallUiState.
return;
}
if (action.equals(OtaUtils.ACTION_DISPLAY_ACTIVATION_SCREEN)) {
// Bring up the in-call UI in the OTASP-specific "activate" state;
// see OtaUtils.startInteractiveOtasp(). Note that at this point
// the OTASP call has not been started yet; we won't actually make
// the call until the user presses the "Activate" button.
if (!TelephonyCapabilities.supportsOtasp(mPhone)) {
throw new IllegalStateException(
"Received ACTION_DISPLAY_ACTIVATION_SCREEN intent on non-OTASP-capable device: "
+ intent);
}
setInCallScreenMode(InCallScreenMode.OTA_NORMAL);
if ((mApp.cdmaOtaProvisionData != null)
&& (!mApp.cdmaOtaProvisionData.isOtaCallIntentProcessed)) {
mApp.cdmaOtaProvisionData.isOtaCallIntentProcessed = true;
mApp.cdmaOtaScreenState.otaScreenState =
CdmaOtaScreenState.OtaScreenState.OTA_STATUS_ACTIVATION;
}
return;
}
// Various intent actions that should no longer come here directly:
if (action.equals(OtaUtils.ACTION_PERFORM_CDMA_PROVISIONING)) {
// This intent is now handled by the InCallScreenShowActivation
// activity, which translates it into a call to
// OtaUtils.startInteractiveOtasp().
throw new IllegalStateException(
"Unexpected ACTION_PERFORM_CDMA_PROVISIONING received by InCallScreen: "
+ intent);
} else if (action.equals(Intent.ACTION_CALL)
|| action.equals(Intent.ACTION_CALL_EMERGENCY)) {
// ACTION_CALL* intents go to the OutgoingCallBroadcaster, which now
// translates them into CallController.placeCall() calls rather than
// launching the InCallScreen directly.
throw new IllegalStateException("Unexpected CALL action received by InCallScreen: "
+ intent);
} else if (action.equals(ACTION_UNDEFINED)) {
// This action is only used for internal bookkeeping; we should
// never actually get launched with it.
Log.wtf(LOG_TAG, "internalResolveIntent: got launched with ACTION_UNDEFINED");
return;
} else {
Log.wtf(LOG_TAG, "internalResolveIntent: unexpected intent action: " + action);
// But continue the best we can (basically treating this case
// like ACTION_MAIN...)
return;
}
}
private void stopTimer() {
if (mCallCard != null) mCallCard.stopTimer();
}
private void initInCallScreen() {
if (VDBG) log("initInCallScreen()...");
// Have the WindowManager filter out touch events that are "too fat".
getWindow().addFlags(WindowManager.LayoutParams.FLAG_IGNORE_CHEEK_PRESSES);
// Initialize the CallCard.
mCallCard = (CallCard) findViewById(R.id.callCard);
if (VDBG) log(" - mCallCard = " + mCallCard);
mCallCard.setInCallScreenInstance(this);
// Initialize the onscreen UI elements.
initInCallTouchUi();
// Helper class to keep track of enabledness/state of UI controls
mInCallControlState = new InCallControlState(this, mCM);
// Helper class to run the "Manage conference" UI
mManageConferenceUtils = new ManageConferenceUtils(this, mCM);
// The DTMF Dialpad.
ViewStub stub = (ViewStub) findViewById(R.id.dtmf_twelve_key_dialer_stub);
mDialer = new DTMFTwelveKeyDialer(this, stub);
mPowerManager = (PowerManager) getSystemService(Context.POWER_SERVICE);
}
/**
* Returns true if the phone is "in use", meaning that at least one line
* is active (ie. off hook or ringing or dialing). Conversely, a return
* value of false means there's currently no phone activity at all.
*/
private boolean phoneIsInUse() {
return mCM.getState() != PhoneConstants.State.IDLE;
}
private boolean handleDialerKeyDown(int keyCode, KeyEvent event) {
if (VDBG) log("handleDialerKeyDown: keyCode " + keyCode + ", event " + event + "...");
// As soon as the user starts typing valid dialable keys on the
// keyboard (presumably to type DTMF tones) we start passing the
// key events to the DTMFDialer's onDialerKeyDown. We do so
// only if the okToDialDTMFTones() conditions pass.
if (okToDialDTMFTones()) {
return mDialer.onDialerKeyDown(event);
// TODO: If the dialpad isn't currently visible, maybe
// consider automatically bringing it up right now?
// (Just to make sure the user sees the digits widget...)
// But this probably isn't too critical since it's awkward to
// use the hard keyboard while in-call in the first place,
// especially now that the in-call UI is portrait-only...
}
return false;
}
@Override
public void onBackPressed() {
if (DBG) log("onBackPressed()...");
// To consume this BACK press, the code here should just do
// something and return. Otherwise, call super.onBackPressed() to
// get the default implementation (which simply finishes the
// current activity.)
if (mCM.hasActiveRingingCall()) {
// The Back key, just like the Home key, is always disabled
// while an incoming call is ringing. (The user *must* either
// answer or reject the call before leaving the incoming-call
// screen.)
if (DBG) log("BACK key while ringing: ignored");
// And consume this event; *don't* call super.onBackPressed().
return;
}
// BACK is also used to exit out of any "special modes" of the
// in-call UI:
if (mDialer.isOpened()) {
closeDialpadInternal(true); // do the "closing" animation
return;
}
if (mApp.inCallUiState.inCallScreenMode == InCallScreenMode.MANAGE_CONFERENCE) {
// Hide the Manage Conference panel, return to NORMAL mode.
setInCallScreenMode(InCallScreenMode.NORMAL);
requestUpdateScreen();
return;
}
// Nothing special to do. Fall back to the default behavior.
super.onBackPressed();
}
/**
* Handles the green CALL key while in-call.
* @return true if we consumed the event.
*/
private boolean handleCallKey() {
// The green CALL button means either "Answer", "Unhold", or
// "Swap calls", or can be a no-op, depending on the current state
// of the Phone.
final boolean hasRingingCall = mCM.hasActiveRingingCall();
final boolean hasActiveCall = mCM.hasActiveFgCall();
final boolean hasHoldingCall = mCM.hasActiveBgCall();
int phoneType = mPhone.getPhoneType();
if (phoneType == PhoneConstants.PHONE_TYPE_CDMA) {
// The green CALL button means either "Answer", "Swap calls/On Hold", or
// "Add to 3WC", depending on the current state of the Phone.
CdmaPhoneCallState.PhoneCallState currCallState =
mApp.cdmaPhoneCallState.getCurrentCallState();
if (hasRingingCall) {
//Scenario 1: Accepting the First Incoming and Call Waiting call
if (DBG) log("answerCall: First Incoming and Call Waiting scenario");
internalAnswerCall(); // Automatically holds the current active call,
// if there is one
} else if ((currCallState == CdmaPhoneCallState.PhoneCallState.THRWAY_ACTIVE)
&& (hasActiveCall)) {
//Scenario 2: Merging 3Way calls
if (DBG) log("answerCall: Merge 3-way call scenario");
// Merge calls
PhoneUtils.mergeCalls(mCM);
} else if (currCallState == CdmaPhoneCallState.PhoneCallState.CONF_CALL) {
//Scenario 3: Switching between two Call waiting calls or drop the latest
// connection if in a 3Way merge scenario
if (DBG) log("answerCall: Switch btwn 2 calls scenario");
internalSwapCalls();
}
} else if ((phoneType == PhoneConstants.PHONE_TYPE_GSM)
|| (phoneType == PhoneConstants.PHONE_TYPE_SIP)) {
if (hasRingingCall) {
// If an incoming call is ringing, the CALL button is actually
// handled by the PhoneWindowManager. (We do this to make
// sure that we'll respond to the key even if the InCallScreen
// hasn't come to the foreground yet.)
//
// We'd only ever get here in the extremely rare case that the
// incoming call started ringing *after*
// PhoneWindowManager.interceptKeyTq() but before the event
// got here, or else if the PhoneWindowManager had some
// problem connecting to the ITelephony service.
Log.w(LOG_TAG, "handleCallKey: incoming call is ringing!"
+ " (PhoneWindowManager should have handled this key.)");
// But go ahead and handle the key as normal, since the
// PhoneWindowManager presumably did NOT handle it:
// There's an incoming ringing call: CALL means "Answer".
internalAnswerCall();
} else if (hasActiveCall && hasHoldingCall) {
// Two lines are in use: CALL means "Swap calls".
if (DBG) log("handleCallKey: both lines in use ==> swap calls.");
internalSwapCalls();
} else if (hasHoldingCall) {
// There's only one line in use, AND it's on hold.
// In this case CALL is a shortcut for "unhold".
if (DBG) log("handleCallKey: call on hold ==> unhold.");
PhoneUtils.switchHoldingAndActive(
mCM.getFirstActiveBgCall()); // Really means "unhold" in this state
} else {
// The most common case: there's only one line in use, and
// it's an active call (i.e. it's not on hold.)
// In this case CALL is a no-op.
// (This used to be a shortcut for "add call", but that was a
// bad idea because "Add call" is so infrequently-used, and
// because the user experience is pretty confusing if you
// inadvertently trigger it.)
if (VDBG) log("handleCallKey: call in foregound ==> ignoring.");
// But note we still consume this key event; see below.
}
} else {
throw new IllegalStateException("Unexpected phone type: " + phoneType);
}
// We *always* consume the CALL key, since the system-wide default
// action ("go to the in-call screen") is useless here.
return true;
}
boolean isKeyEventAcceptableDTMF (KeyEvent event) {
return (mDialer != null && mDialer.isKeyEventAcceptable(event));
}
/**
* Overriden to track relevant focus changes.
*
* If a key is down and some time later the focus changes, we may
* NOT recieve the keyup event; logically the keyup event has not
* occured in this window. This issue is fixed by treating a focus
* changed event as an interruption to the keydown, making sure
* that any code that needs to be run in onKeyUp is ALSO run here.
*/
@Override
public void onWindowFocusChanged(boolean hasFocus) {
// the dtmf tones should no longer be played
if (VDBG) log("onWindowFocusChanged(" + hasFocus + ")...");
if (!hasFocus && mDialer != null) {
if (VDBG) log("- onWindowFocusChanged: faking onDialerKeyUp()...");
mDialer.onDialerKeyUp(null);
}
}
@Override
public boolean onKeyUp(int keyCode, KeyEvent event) {
// if (DBG) log("onKeyUp(keycode " + keyCode + ")...");
// push input to the dialer.
if ((mDialer != null) && (mDialer.onDialerKeyUp(event))){
return true;
} else if (keyCode == KeyEvent.KEYCODE_CALL) {
// Always consume CALL to be sure the PhoneWindow won't do anything with it
return true;
}
return super.onKeyUp(keyCode, event);
}
@Override
public boolean onKeyDown(int keyCode, KeyEvent event) {
// if (DBG) log("onKeyDown(keycode " + keyCode + ")...");
switch (keyCode) {
case KeyEvent.KEYCODE_CALL:
boolean handled = handleCallKey();
if (!handled) {
Log.w(LOG_TAG, "InCallScreen should always handle KEYCODE_CALL in onKeyDown");
}
// Always consume CALL to be sure the PhoneWindow won't do anything with it
return true;
// Note there's no KeyEvent.KEYCODE_ENDCALL case here.
// The standard system-wide handling of the ENDCALL key
// (see PhoneWindowManager's handling of KEYCODE_ENDCALL)
// already implements exactly what the UI spec wants,
// namely (1) "hang up" if there's a current active call,
// or (2) "don't answer" if there's a current ringing call.
case KeyEvent.KEYCODE_CAMERA:
// Disable the CAMERA button while in-call since it's too
// easy to press accidentally.
return true;
case KeyEvent.KEYCODE_VOLUME_UP:
case KeyEvent.KEYCODE_VOLUME_DOWN:
case KeyEvent.KEYCODE_VOLUME_MUTE:
if (mCM.getState() == PhoneConstants.State.RINGING) {
// If an incoming call is ringing, the VOLUME buttons are
// actually handled by the PhoneWindowManager. (We do
// this to make sure that we'll respond to them even if
// the InCallScreen hasn't come to the foreground yet.)
//
// We'd only ever get here in the extremely rare case that the
// incoming call started ringing *after*
// PhoneWindowManager.interceptKeyTq() but before the event
// got here, or else if the PhoneWindowManager had some
// problem connecting to the ITelephony service.
Log.w(LOG_TAG, "VOLUME key: incoming call is ringing!"
+ " (PhoneWindowManager should have handled this key.)");
// But go ahead and handle the key as normal, since the
// PhoneWindowManager presumably did NOT handle it:
internalSilenceRinger();
// As long as an incoming call is ringing, we always
// consume the VOLUME keys.
return true;
}
break;
case KeyEvent.KEYCODE_MUTE:
onMuteClick();
return true;
// Various testing/debugging features, enabled ONLY when VDBG == true.
case KeyEvent.KEYCODE_SLASH:
if (VDBG) {
log("----------- InCallScreen View dump --------------");
// Dump starting from the top-level view of the entire activity:
Window w = this.getWindow();
View decorView = w.getDecorView();
decorView.debug();
return true;
}
break;
case KeyEvent.KEYCODE_EQUALS:
if (VDBG) {
log("----------- InCallScreen call state dump --------------");
PhoneUtils.dumpCallState(mPhone);
PhoneUtils.dumpCallManager();
return true;
}
break;
case KeyEvent.KEYCODE_GRAVE:
if (VDBG) {
// Placeholder for other misc temp testing
log("------------ Temp testing -----------------");
return true;
}
break;
}
if (event.getRepeatCount() == 0 && handleDialerKeyDown(keyCode, event)) {
return true;
}
return super.onKeyDown(keyCode, event);
}
/**
* Handle a failure notification for a supplementary service
* (i.e. conference, switch, separate, transfer, etc.).
*/
void onSuppServiceFailed(AsyncResult r) {
Phone.SuppService service = (Phone.SuppService) r.result;
if (DBG) log("onSuppServiceFailed: " + service);
int errorMessageResId;
switch (service) {
case SWITCH:
// Attempt to switch foreground and background/incoming calls failed
// ("Failed to switch calls")
errorMessageResId = R.string.incall_error_supp_service_switch;
break;
case SEPARATE:
// Attempt to separate a call from a conference call
// failed ("Failed to separate out call")
errorMessageResId = R.string.incall_error_supp_service_separate;
break;
case TRANSFER:
// Attempt to connect foreground and background calls to
// each other (and hanging up user's line) failed ("Call
// transfer failed")
errorMessageResId = R.string.incall_error_supp_service_transfer;
break;
case CONFERENCE:
// Attempt to add a call to conference call failed
// ("Conference call failed")
errorMessageResId = R.string.incall_error_supp_service_conference;
break;
case REJECT:
// Attempt to reject an incoming call failed
// ("Call rejection failed")
errorMessageResId = R.string.incall_error_supp_service_reject;
break;
case HANGUP:
// Attempt to release a call failed ("Failed to release call(s)")
errorMessageResId = R.string.incall_error_supp_service_hangup;
break;
case UNKNOWN:
default:
// Attempt to use a service we don't recognize or support
// ("Unsupported service" or "Selected service failed")
errorMessageResId = R.string.incall_error_supp_service_unknown;
break;
}
// mSuppServiceFailureDialog is a generic dialog used for any
// supp service failure, and there's only ever have one
// instance at a time. So just in case a previous dialog is
// still around, dismiss it.
if (mSuppServiceFailureDialog != null) {
if (DBG) log("- DISMISSING mSuppServiceFailureDialog.");
mSuppServiceFailureDialog.dismiss(); // It's safe to dismiss() a dialog
// that's already dismissed.
mSuppServiceFailureDialog = null;
}
mSuppServiceFailureDialog = new AlertDialog.Builder(this)
.setMessage(errorMessageResId)
.setPositiveButton(R.string.ok, null)
.create();
mSuppServiceFailureDialog.getWindow().addFlags(
WindowManager.LayoutParams.FLAG_BLUR_BEHIND);
mSuppServiceFailureDialog.show();
}
/**
* Something has changed in the phone's state. Update the UI.
*/
private void onPhoneStateChanged(AsyncResult r) {
PhoneConstants.State state = mCM.getState();
if (DBG) log("onPhoneStateChanged: current state = " + state);
// There's nothing to do here if we're not the foreground activity.
// (When we *do* eventually come to the foreground, we'll do a
// full update then.)
if (!mIsForegroundActivity) {
if (DBG) log("onPhoneStateChanged: Activity not in foreground! Bailing out...");
return;
}
updateExpandedViewState();
// Update the onscreen UI.
// We use requestUpdateScreen() here (which posts a handler message)
// instead of calling updateScreen() directly, which allows us to avoid
// unnecessary work if multiple onPhoneStateChanged() events come in all
// at the same time.
requestUpdateScreen();
// Make sure we update the poke lock and wake lock when certain
// phone state changes occur.
mApp.updateWakeState();
}
/**
* Updates the UI after a phone connection is disconnected, as follows:
*
* - If this was a missed or rejected incoming call, and no other
* calls are active, dismiss the in-call UI immediately. (The
* CallNotifier will still create a "missed call" notification if
* necessary.)
*
* - With any other disconnect cause, if the phone is now totally
* idle, display the "Call ended" state for a couple of seconds.
*
* - Or, if the phone is still in use, stay on the in-call screen
* (and update the UI to reflect the current state of the Phone.)
*
* @param r r.result contains the connection that just ended
*/
private void onDisconnect(AsyncResult r) {
Connection c = (Connection) r.result;
Connection.DisconnectCause cause = c.getDisconnectCause();
if (DBG) log("onDisconnect: connection '" + c + "', cause = " + cause
+ ", showing screen: " + mApp.isShowingCallScreen());
boolean currentlyIdle = !phoneIsInUse();
int autoretrySetting = AUTO_RETRY_OFF;
boolean phoneIsCdma = (mPhone.getPhoneType() == PhoneConstants.PHONE_TYPE_CDMA);
if (phoneIsCdma) {
// Get the Auto-retry setting only if Phone State is IDLE,
// else let it stay as AUTO_RETRY_OFF
if (currentlyIdle) {
autoretrySetting = android.provider.Settings.Global.getInt(mPhone.getContext().
getContentResolver(), android.provider.Settings.Global.CALL_AUTO_RETRY, 0);
}
}
// for OTA Call, only if in OTA NORMAL mode, handle OTA END scenario
if ((mApp.inCallUiState.inCallScreenMode == InCallScreenMode.OTA_NORMAL)
&& ((mApp.cdmaOtaProvisionData != null)
&& (!mApp.cdmaOtaProvisionData.inOtaSpcState))) {
setInCallScreenMode(InCallScreenMode.OTA_ENDED);
updateScreen();
return;
} else if ((mApp.inCallUiState.inCallScreenMode == InCallScreenMode.OTA_ENDED)
|| ((mApp.cdmaOtaProvisionData != null)
&& mApp.cdmaOtaProvisionData.inOtaSpcState)) {
if (DBG) log("onDisconnect: OTA Call end already handled");
return;
}
// Any time a call disconnects, clear out the "history" of DTMF
// digits you typed (to make sure it doesn't persist from one call
// to the next.)
mDialer.clearDigits();
// Under certain call disconnected states, we want to alert the user
// with a dialog instead of going through the normal disconnect
// routine.
if (cause == Connection.DisconnectCause.CALL_BARRED) {
showGenericErrorDialog(R.string.callFailed_cb_enabled, false);
return;
} else if (cause == Connection.DisconnectCause.FDN_BLOCKED) {
showGenericErrorDialog(R.string.callFailed_fdn_only, false);
return;
} else if (cause == Connection.DisconnectCause.CS_RESTRICTED) {
showGenericErrorDialog(R.string.callFailed_dsac_restricted, false);
return;
} else if (cause == Connection.DisconnectCause.CS_RESTRICTED_EMERGENCY) {
showGenericErrorDialog(R.string.callFailed_dsac_restricted_emergency, false);
return;
} else if (cause == Connection.DisconnectCause.CS_RESTRICTED_NORMAL) {
showGenericErrorDialog(R.string.callFailed_dsac_restricted_normal, false);
return;
}
if (phoneIsCdma) {
Call.State callState = mApp.notifier.getPreviousCdmaCallState();
if ((callState == Call.State.ACTIVE)
&& (cause != Connection.DisconnectCause.INCOMING_MISSED)
&& (cause != Connection.DisconnectCause.NORMAL)
&& (cause != Connection.DisconnectCause.LOCAL)
&& (cause != Connection.DisconnectCause.INCOMING_REJECTED)) {
showCallLostDialog();
} else if ((callState == Call.State.DIALING || callState == Call.State.ALERTING)
&& (cause != Connection.DisconnectCause.INCOMING_MISSED)
&& (cause != Connection.DisconnectCause.NORMAL)
&& (cause != Connection.DisconnectCause.LOCAL)
&& (cause != Connection.DisconnectCause.INCOMING_REJECTED)) {
if (mApp.inCallUiState.needToShowCallLostDialog) {
// Show the dialog now since the call that just failed was a retry.
showCallLostDialog();
mApp.inCallUiState.needToShowCallLostDialog = false;
} else {
if (autoretrySetting == AUTO_RETRY_OFF) {
// Show the dialog for failed call if Auto Retry is OFF in Settings.
showCallLostDialog();
mApp.inCallUiState.needToShowCallLostDialog = false;
} else {
// Set the needToShowCallLostDialog flag now, so we'll know to show
// the dialog if *this* call fails.
mApp.inCallUiState.needToShowCallLostDialog = true;
}
}
}
}
// Explicitly clean up up any DISCONNECTED connections
// in a conference call.
// [Background: Even after a connection gets disconnected, its
// Connection object still stays around for a few seconds, in the
// DISCONNECTED state. With regular calls, this state drives the
// "call ended" UI. But when a single person disconnects from a
// conference call there's no "call ended" state at all; in that
// case we blow away any DISCONNECTED connections right now to make sure
// the UI updates instantly to reflect the current state.]
final Call call = c.getCall();
if (call != null) {
// We only care about situation of a single caller
// disconnecting from a conference call. In that case, the
// call will have more than one Connection (including the one
// that just disconnected, which will be in the DISCONNECTED
// state) *and* at least one ACTIVE connection. (If the Call
// has *no* ACTIVE connections, that means that the entire
// conference call just ended, so we *do* want to show the
// "Call ended" state.)
List<Connection> connections = call.getConnections();
if (connections != null && connections.size() > 1) {
for (Connection conn : connections) {
if (conn.getState() == Call.State.ACTIVE) {
// This call still has at least one ACTIVE connection!
// So blow away any DISCONNECTED connections
// (including, presumably, the one that just
// disconnected from this conference call.)
// We also force the wake state to refresh, just in
// case the disconnected connections are removed
// before the phone state change.
if (VDBG) log("- Still-active conf call; clearing DISCONNECTED...");
mApp.updateWakeState();
mCM.clearDisconnected(); // This happens synchronously.
break;
}
}
}
}
// Note: see CallNotifier.onDisconnect() for some other behavior
// that might be triggered by a disconnect event, like playing the
// busy/congestion tone.
// Stash away some info about the call that just disconnected.
// (This might affect what happens after we exit the InCallScreen; see
// delayedCleanupAfterDisconnect().)
// TODO: rather than stashing this away now and then reading it in
// delayedCleanupAfterDisconnect(), it would be cleaner to just pass
// this as an argument to delayedCleanupAfterDisconnect() (if we call
// it directly) or else pass it as a Message argument when we post the
// DELAYED_CLEANUP_AFTER_DISCONNECT message.
mLastDisconnectCause = cause;
// We bail out immediately (and *don't* display the "call ended"
// state at all) if this was an incoming call.
boolean bailOutImmediately =
((cause == Connection.DisconnectCause.INCOMING_MISSED)
|| (cause == Connection.DisconnectCause.INCOMING_REJECTED))
&& currentlyIdle;
boolean showingQuickResponseDialog =
mRespondViaSmsManager != null && mRespondViaSmsManager.isShowingPopup();
// Note: we also do some special handling for the case when a call
// disconnects with cause==OUT_OF_SERVICE while making an
// emergency call from airplane mode. That's handled by
// EmergencyCallHelper.onDisconnect().
if (bailOutImmediately && showingQuickResponseDialog) {
if (DBG) log("- onDisconnect: Respond-via-SMS dialog is still being displayed...");
// Do *not* exit the in-call UI yet!
// If the call was an incoming call that was missed *and* the user is using
// quick response screen, we keep showing the screen for a moment, assuming the
// user wants to reply the call anyway.
//
// For this case, we will exit the screen when:
// - the message is sent (RespondViaSmsManager)
// - the message is canceled (RespondViaSmsManager), or
// - when the whole in-call UI becomes background (onPause())
} else if (bailOutImmediately) {
if (DBG) log("- onDisconnect: bailOutImmediately...");
// Exit the in-call UI!
// (This is basically the same "delayed cleanup" we do below,
// just with zero delay. Since the Phone is currently idle,
// this call is guaranteed to immediately finish this activity.)
delayedCleanupAfterDisconnect();
} else {
if (DBG) log("- onDisconnect: delayed bailout...");
// Stay on the in-call screen for now. (Either the phone is
// still in use, or the phone is idle but we want to display
// the "call ended" state for a couple of seconds.)
// Switch to the special "Call ended" state when the phone is idle
// but there's still a call in the DISCONNECTED state:
if (currentlyIdle
&& (mCM.hasDisconnectedFgCall() || mCM.hasDisconnectedBgCall())) {
if (DBG) log("- onDisconnect: switching to 'Call ended' state...");
setInCallScreenMode(InCallScreenMode.CALL_ENDED);
}
// Force a UI update in case we need to display anything
// special based on this connection's DisconnectCause
// (see CallCard.getCallFailedString()).
updateScreen();
// Some other misc cleanup that we do if the call that just
// disconnected was the foreground call.
final boolean hasActiveCall = mCM.hasActiveFgCall();
if (!hasActiveCall) {
if (DBG) log("- onDisconnect: cleaning up after FG call disconnect...");
// Dismiss any dialogs which are only meaningful for an
// active call *and* which become moot if the call ends.
if (mWaitPromptDialog != null) {
if (VDBG) log("- DISMISSING mWaitPromptDialog.");
mWaitPromptDialog.dismiss(); // safe even if already dismissed
mWaitPromptDialog = null;
}
if (mWildPromptDialog != null) {
if (VDBG) log("- DISMISSING mWildPromptDialog.");
mWildPromptDialog.dismiss(); // safe even if already dismissed
mWildPromptDialog = null;
}
if (mPausePromptDialog != null) {
if (DBG) log("- DISMISSING mPausePromptDialog.");
mPausePromptDialog.dismiss(); // safe even if already dismissed
mPausePromptDialog = null;
}
}
// Updating the screen wake state is done in onPhoneStateChanged().
// CDMA: We only clean up if the Phone state is IDLE as we might receive an
// onDisconnect for a Call Collision case (rare but possible).
// For Call collision cases i.e. when the user makes an out going call
// and at the same time receives an Incoming Call, the Incoming Call is given
// higher preference. At this time framework sends a disconnect for the Out going
// call connection hence we should *not* bring down the InCallScreen as the Phone
// State would be RINGING
if (mPhone.getPhoneType() == PhoneConstants.PHONE_TYPE_CDMA) {
if (!currentlyIdle) {
// Clean up any connections in the DISCONNECTED state.
// This is necessary cause in CallCollision the foreground call might have
// connections in DISCONNECTED state which needs to be cleared.
mCM.clearDisconnected();
// The phone is still in use. Stay here in this activity.
// But we don't need to keep the screen on.
if (DBG) log("onDisconnect: Call Collision case - staying on InCallScreen.");
if (DBG) PhoneUtils.dumpCallState(mPhone);
return;
}
}
// This is onDisconnect() request from the last phone call; no available call anymore.
//
// When the in-call UI is in background *because* the screen is turned off (unlike the
// other case where the other activity is being shown), we wake up the screen and
// show "DISCONNECTED" state once, with appropriate elapsed time. After showing that
// we *must* bail out of the screen again, showing screen lock if needed.
//
// See also comments for isForegroundActivityForProximity()
//
// TODO: Consider moving this to CallNotifier. This code assumes the InCallScreen
// never gets destroyed. For this exact case, it works (since InCallScreen won't be
// destroyed), while technically this isn't right; Activity may be destroyed when
// in background.
if (currentlyIdle && !isForegroundActivity() && isForegroundActivityForProximity()) {
log("Force waking up the screen to let users see \"disconnected\" state");
if (call != null) {
mCallCard.updateElapsedTimeWidget(call);
}
// This variable will be kept true until the next InCallScreen#onPause(), which
// forcibly turns it off regardless of the situation (for avoiding unnecessary
// confusion around this special case).
mApp.inCallUiState.showAlreadyDisconnectedState = true;
// Finally request wake-up..
mApp.wakeUpScreen();
// InCallScreen#onResume() will set DELAYED_CLEANUP_AFTER_DISCONNECT message,
// so skip the following section.
return;
}
// Finally, arrange for delayedCleanupAfterDisconnect() to get
// called after a short interval (during which we display the
// "call ended" state.) At that point, if the
// Phone is idle, we'll finish out of this activity.
final int callEndedDisplayDelay;
switch (cause) {
// When the local user hanged up the ongoing call, it is ok to dismiss the screen
// soon. In other cases, we show the "hung up" screen longer.
//
// - For expected reasons we will use CALL_ENDED_LONG_DELAY.
// -- when the peer hanged up the call
// -- when the local user rejects the incoming call during the other ongoing call
// (TODO: there may be other cases which should be in this category)
//
// - For other unexpected reasons, we will use CALL_ENDED_EXTRA_LONG_DELAY,
// assuming the local user wants to confirm the disconnect reason.
case LOCAL:
callEndedDisplayDelay = CALL_ENDED_SHORT_DELAY;
break;
case NORMAL:
case INCOMING_REJECTED:
callEndedDisplayDelay = CALL_ENDED_LONG_DELAY;
break;
default:
callEndedDisplayDelay = CALL_ENDED_EXTRA_LONG_DELAY;
break;
}
mHandler.removeMessages(DELAYED_CLEANUP_AFTER_DISCONNECT);
mHandler.sendEmptyMessageDelayed(DELAYED_CLEANUP_AFTER_DISCONNECT,
callEndedDisplayDelay);
}
// Remove 3way timer (only meaningful for CDMA)
// TODO: this call needs to happen in the CallController, not here.
// (It should probably be triggered by the CallNotifier's onDisconnect method.)
// mHandler.removeMessages(THREEWAY_CALLERINFO_DISPLAY_DONE);
}
/**
* Brings up the "MMI Started" dialog.
*/
/* TODO: sort out MMI code (probably we should remove this method entirely). See also
MMI handling code in onResume()
private void onMMIInitiate(AsyncResult r) {
if (VDBG) log("onMMIInitiate()... AsyncResult r = " + r);
// Watch out: don't do this if we're not the foreground activity,
// mainly since in the Dialog.show() might fail if we don't have a
// valid window token any more...
// (Note that this exact sequence can happen if you try to start
// an MMI code while the radio is off or out of service.)
if (!mIsForegroundActivity) {
if (VDBG) log("Activity not in foreground! Bailing out...");
return;
}
// Also, if any other dialog is up right now (presumably the
// generic error dialog displaying the "Starting MMI..." message)
// take it down before bringing up the real "MMI Started" dialog
// in its place.
dismissAllDialogs();
MmiCode mmiCode = (MmiCode) r.result;
if (VDBG) log(" - MmiCode: " + mmiCode);
Message message = Message.obtain(mHandler, PhoneApp.MMI_CANCEL);
mMmiStartedDialog = PhoneUtils.displayMMIInitiate(this, mmiCode,
message, mMmiStartedDialog);
}*/
/**
* Handles an MMI_CANCEL event, which is triggered by the button
* (labeled either "OK" or "Cancel") on the "MMI Started" dialog.
* @see PhoneUtils#cancelMmiCode(Phone)
*/
private void onMMICancel() {
if (VDBG) log("onMMICancel()...");
// First of all, cancel the outstanding MMI code (if possible.)
PhoneUtils.cancelMmiCode(mPhone);
// Regardless of whether the current MMI code was cancelable, the
// PhoneApp will get an MMI_COMPLETE event very soon, which will
// take us to the MMI Complete dialog (see
// PhoneUtils.displayMMIComplete().)
//
// But until that event comes in, we *don't* want to stay here on
// the in-call screen, since we'll be visible in a
// partially-constructed state as soon as the "MMI Started" dialog
// gets dismissed. So let's forcibly bail out right now.
if (DBG) log("onMMICancel: finishing InCallScreen...");
dismissAllDialogs();
endInCallScreenSession();
}
/**
* Handles an MMI_COMPLETE event, which is triggered by telephony,
* implying MMI
*/
private void onMMIComplete(MmiCode mmiCode) {
// Check the code to see if the request is ready to
// finish, this includes any MMI state that is not
// PENDING.
// if phone is a CDMA phone display feature code completed message
int phoneType = mPhone.getPhoneType();
if (phoneType == PhoneConstants.PHONE_TYPE_CDMA) {
PhoneUtils.displayMMIComplete(mPhone, mApp, mmiCode, null, null);
} else if (phoneType == PhoneConstants.PHONE_TYPE_GSM) {
if (mmiCode.getState() != MmiCode.State.PENDING) {
if (DBG) log("Got MMI_COMPLETE, finishing InCallScreen...");
dismissAllDialogs();
endInCallScreenSession();
}
}
}
/**
* Handles the POST_ON_DIAL_CHARS message from the Phone
* (see our call to mPhone.setOnPostDialCharacter() above.)
*
* TODO: NEED TO TEST THIS SEQUENCE now that we no longer handle
* "dialable" key events here in the InCallScreen: we do directly to the
* Dialer UI instead. Similarly, we may now need to go directly to the
* Dialer to handle POST_ON_DIAL_CHARS too.
*/
private void handlePostOnDialChars(AsyncResult r, char ch) {
Connection c = (Connection) r.result;
if (c != null) {
Connection.PostDialState state =
(Connection.PostDialState) r.userObj;
if (VDBG) log("handlePostOnDialChar: state = " +
state + ", ch = " + ch);
switch (state) {
case STARTED:
mDialer.stopLocalToneIfNeeded();
if (mPauseInProgress) {
/**
* Note that on some devices, this will never happen,
* because we will not ever enter the PAUSE state.
*/
showPausePromptDialog(c, mPostDialStrAfterPause);
}
mPauseInProgress = false;
mDialer.startLocalToneIfNeeded(ch);
// TODO: is this needed, now that you can't actually
// type DTMF chars or dial directly from here?
// If so, we'd need to yank you out of the in-call screen
// here too (and take you to the 12-key dialer in "in-call" mode.)
// displayPostDialedChar(ch);
break;
case WAIT:
// wait shows a prompt.
if (DBG) log("handlePostOnDialChars: show WAIT prompt...");
mDialer.stopLocalToneIfNeeded();
String postDialStr = c.getRemainingPostDialString();
showWaitPromptDialog(c, postDialStr);
break;
case WILD:
if (DBG) log("handlePostOnDialChars: show WILD prompt");
mDialer.stopLocalToneIfNeeded();
showWildPromptDialog(c);
break;
case COMPLETE:
mDialer.stopLocalToneIfNeeded();
break;
case PAUSE:
// pauses for a brief period of time then continue dialing.
mDialer.stopLocalToneIfNeeded();
mPostDialStrAfterPause = c.getRemainingPostDialString();
mPauseInProgress = true;
break;
default:
break;
}
}
}
/**
* Pop up an alert dialog with OK and Cancel buttons to allow user to
* Accept or Reject the WAIT inserted as part of the Dial string.
*/
private void showWaitPromptDialog(final Connection c, String postDialStr) {
if (DBG) log("showWaitPromptDialogChoice: '" + postDialStr + "'...");
Resources r = getResources();
StringBuilder buf = new StringBuilder();
buf.append(r.getText(R.string.wait_prompt_str));
buf.append(postDialStr);
// if (DBG) log("- mWaitPromptDialog = " + mWaitPromptDialog);
if (mWaitPromptDialog != null) {
if (DBG) log("- DISMISSING mWaitPromptDialog.");
mWaitPromptDialog.dismiss(); // safe even if already dismissed
mWaitPromptDialog = null;
}
mWaitPromptDialog = new AlertDialog.Builder(this)
.setMessage(buf.toString())
.setPositiveButton(R.string.pause_prompt_yes,
new DialogInterface.OnClickListener() {
@Override
public void onClick(DialogInterface dialog, int whichButton) {
if (DBG) log("handle WAIT_PROMPT_CONFIRMED, proceed...");
c.proceedAfterWaitChar();
}
})
.setNegativeButton(R.string.pause_prompt_no,
new DialogInterface.OnClickListener() {
@Override
public void onClick(DialogInterface dialog, int whichButton) {
if (DBG) log("handle POST_DIAL_CANCELED!");
c.cancelPostDial();
}
})
.create();
mWaitPromptDialog.getWindow().addFlags(
WindowManager.LayoutParams.FLAG_BLUR_BEHIND);
mWaitPromptDialog.show();
}
/**
* Pop up an alert dialog which waits for 2 seconds for each P (Pause) Character entered
* as part of the Dial String.
*/
private void showPausePromptDialog(final Connection c, String postDialStrAfterPause) {
Resources r = getResources();
StringBuilder buf = new StringBuilder();
buf.append(r.getText(R.string.pause_prompt_str));
buf.append(postDialStrAfterPause);
if (mPausePromptDialog != null) {
if (DBG) log("- DISMISSING mPausePromptDialog.");
mPausePromptDialog.dismiss(); // safe even if already dismissed
mPausePromptDialog = null;
}
mPausePromptDialog = new AlertDialog.Builder(this)
.setMessage(buf.toString())
.create();
mPausePromptDialog.show();
// 2 second timer
Message msg = Message.obtain(mHandler, EVENT_PAUSE_DIALOG_COMPLETE);
mHandler.sendMessageDelayed(msg, PAUSE_PROMPT_DIALOG_TIMEOUT);
}
private View createWildPromptView() {
LinearLayout result = new LinearLayout(this);
result.setOrientation(LinearLayout.VERTICAL);
result.setPadding(5, 5, 5, 5);
LinearLayout.LayoutParams lp = new LinearLayout.LayoutParams(
ViewGroup.LayoutParams.MATCH_PARENT,
ViewGroup.LayoutParams.WRAP_CONTENT);
TextView promptMsg = new TextView(this);
promptMsg.setTextSize(14);
promptMsg.setTypeface(Typeface.DEFAULT_BOLD);
promptMsg.setText(getResources().getText(R.string.wild_prompt_str));
result.addView(promptMsg, lp);
mWildPromptText = new EditText(this);
mWildPromptText.setKeyListener(DialerKeyListener.getInstance());
mWildPromptText.setMovementMethod(null);
mWildPromptText.setTextSize(14);
mWildPromptText.setMaxLines(1);
mWildPromptText.setHorizontallyScrolling(true);
mWildPromptText.setBackgroundResource(android.R.drawable.editbox_background);
LinearLayout.LayoutParams lp2 = new LinearLayout.LayoutParams(
ViewGroup.LayoutParams.MATCH_PARENT,
ViewGroup.LayoutParams.WRAP_CONTENT);
lp2.setMargins(0, 3, 0, 0);
result.addView(mWildPromptText, lp2);
return result;
}
private void showWildPromptDialog(final Connection c) {
View v = createWildPromptView();
if (mWildPromptDialog != null) {
if (VDBG) log("- DISMISSING mWildPromptDialog.");
mWildPromptDialog.dismiss(); // safe even if already dismissed
mWildPromptDialog = null;
}
mWildPromptDialog = new AlertDialog.Builder(this)
.setView(v)
.setPositiveButton(
R.string.send_button,
new DialogInterface.OnClickListener() {
@Override
public void onClick(DialogInterface dialog, int whichButton) {
if (VDBG) log("handle WILD_PROMPT_CHAR_ENTERED, proceed...");
String replacement = null;
if (mWildPromptText != null) {
replacement = mWildPromptText.getText().toString();
mWildPromptText = null;
}
c.proceedAfterWildChar(replacement);
mApp.pokeUserActivity();
}
})
.setOnCancelListener(
new DialogInterface.OnCancelListener() {
@Override
public void onCancel(DialogInterface dialog) {
if (VDBG) log("handle POST_DIAL_CANCELED!");
c.cancelPostDial();
mApp.pokeUserActivity();
}
})
.create();
mWildPromptDialog.getWindow().addFlags(
WindowManager.LayoutParams.FLAG_BLUR_BEHIND);
mWildPromptDialog.show();
mWildPromptText.requestFocus();
}
/**
* Updates the state of the in-call UI based on the current state of
* the Phone. This call has no effect if we're not currently the
* foreground activity.
*
* This method is only allowed to be called from the UI thread (since it
* manipulates our View hierarchy). If you need to update the screen from
* some other thread, or if you just want to "post a request" for the screen
* to be updated (rather than doing it synchronously), call
* requestUpdateScreen() instead.
*
* Right now this method will update UI visibility immediately, with no animation.
* TODO: have animate flag here and use it anywhere possible.
*/
private void updateScreen() {
if (DBG) log("updateScreen()...");
final InCallScreenMode inCallScreenMode = mApp.inCallUiState.inCallScreenMode;
if (VDBG) {
PhoneConstants.State state = mCM.getState();
log(" - phone state = " + state);
log(" - inCallScreenMode = " + inCallScreenMode);
}
// Don't update anything if we're not in the foreground (there's
// no point updating our UI widgets since we're not visible!)
// Also note this check also ensures we won't update while we're
// in the middle of pausing, which could cause a visible glitch in
// the "activity ending" transition.
if (!mIsForegroundActivity) {
if (DBG) log("- updateScreen: not the foreground Activity! Bailing out...");
return;
}
if (inCallScreenMode == InCallScreenMode.OTA_NORMAL) {
if (DBG) log("- updateScreen: OTA call state NORMAL (NOT updating in-call UI)...");
mCallCard.setVisibility(View.GONE);
if (mApp.otaUtils != null) {
mApp.otaUtils.otaShowProperScreen();
} else {
Log.w(LOG_TAG, "OtaUtils object is null, not showing any screen for that.");
}
return; // Return without updating in-call UI.
} else if (inCallScreenMode == InCallScreenMode.OTA_ENDED) {
if (DBG) log("- updateScreen: OTA call ended state (NOT updating in-call UI)...");
mCallCard.setVisibility(View.GONE);
// Wake up the screen when we get notification, good or bad.
mApp.wakeUpScreen();
if (mApp.cdmaOtaScreenState.otaScreenState
== CdmaOtaScreenState.OtaScreenState.OTA_STATUS_ACTIVATION) {
if (DBG) log("- updateScreen: OTA_STATUS_ACTIVATION");
if (mApp.otaUtils != null) {
if (DBG) log("- updateScreen: mApp.otaUtils is not null, "
+ "call otaShowActivationScreen");
mApp.otaUtils.otaShowActivateScreen();
}
} else {
if (DBG) log("- updateScreen: OTA Call end state for Dialogs");
if (mApp.otaUtils != null) {
if (DBG) log("- updateScreen: Show OTA Success Failure dialog");
mApp.otaUtils.otaShowSuccessFailure();
}
}
return; // Return without updating in-call UI.
} else if (inCallScreenMode == InCallScreenMode.MANAGE_CONFERENCE) {
if (DBG) log("- updateScreen: manage conference mode (NOT updating in-call UI)...");
mCallCard.setVisibility(View.GONE);
updateManageConferencePanelIfNecessary();
return; // Return without updating in-call UI.
} else if (inCallScreenMode == InCallScreenMode.CALL_ENDED) {
if (DBG) log("- updateScreen: call ended state...");
// Continue with the rest of updateScreen() as usual, since we do
// need to update the background (to the special "call ended" color)
// and the CallCard (to show the "Call ended" label.)
}
if (DBG) log("- updateScreen: updating the in-call UI...");
// Note we update the InCallTouchUi widget before the CallCard,
// since the CallCard adjusts its size based on how much vertical
// space the InCallTouchUi widget needs.
updateInCallTouchUi();
mCallCard.updateState(mCM);
// If an incoming call is ringing, make sure the dialpad is
// closed. (We do this to make sure we're not covering up the
// "incoming call" UI.)
if (mCM.getState() == PhoneConstants.State.RINGING) {
if (mDialer.isOpened()) {
Log.i(LOG_TAG, "During RINGING state we force hiding dialpad.");
closeDialpadInternal(false); // don't do the "closing" animation
}
// At this point, we are guranteed that the dialer is closed.
// This means that it is safe to clear out the "history" of DTMF digits
// you may have typed into the previous call (so you don't see the
// previous call's digits if you answer this call and then bring up the
// dialpad.)
//
// TODO: it would be more precise to do this when you *answer* the
// incoming call, rather than as soon as it starts ringing, but
// the InCallScreen doesn't keep enough state right now to notice
// that specific transition in onPhoneStateChanged().
// TODO: This clears out the dialpad context as well so when a second
// call comes in while a voicemail call is happening, the voicemail
// dialpad will no longer have the "Voice Mail" context. It's a small
// case so not terribly bad, but we need to maintain a better
// call-to-callstate mapping before we can fix this.
mDialer.clearDigits();
}
// Now that we're sure DTMF dialpad is in an appropriate state, reflect
// the dialpad state into CallCard
updateCallCardVisibilityPerDialerState(false);
updateProgressIndication();
// Forcibly take down all dialog if an incoming call is ringing.
if (mCM.hasActiveRingingCall()) {
dismissAllDialogs();
} else {
// Wait prompt dialog is not currently up. But it *should* be
// up if the FG call has a connection in the WAIT state and
// the phone isn't ringing.
String postDialStr = null;
List<Connection> fgConnections = mCM.getFgCallConnections();
int phoneType = mCM.getFgPhone().getPhoneType();
if (phoneType == PhoneConstants.PHONE_TYPE_CDMA) {
Connection fgLatestConnection = mCM.getFgCallLatestConnection();
if (mApp.cdmaPhoneCallState.getCurrentCallState() ==
CdmaPhoneCallState.PhoneCallState.CONF_CALL) {
for (Connection cn : fgConnections) {
if ((cn != null) && (cn.getPostDialState() ==
Connection.PostDialState.WAIT)) {
cn.cancelPostDial();
}
}
} else if ((fgLatestConnection != null)
&& (fgLatestConnection.getPostDialState() == Connection.PostDialState.WAIT)) {
if(DBG) log("show the Wait dialog for CDMA");
postDialStr = fgLatestConnection.getRemainingPostDialString();
showWaitPromptDialog(fgLatestConnection, postDialStr);
}
} else if ((phoneType == PhoneConstants.PHONE_TYPE_GSM)
|| (phoneType == PhoneConstants.PHONE_TYPE_SIP)) {
for (Connection cn : fgConnections) {
if ((cn != null) && (cn.getPostDialState() == Connection.PostDialState.WAIT)) {
postDialStr = cn.getRemainingPostDialString();
showWaitPromptDialog(cn, postDialStr);
}
}
} else {
throw new IllegalStateException("Unexpected phone type: " + phoneType);
}
}
}
/**
* (Re)synchronizes the onscreen UI with the current state of the
* telephony framework.
*
* @return SyncWithPhoneStateStatus.SUCCESS if we successfully updated the UI, or
* SyncWithPhoneStateStatus.PHONE_NOT_IN_USE if there was no phone state to sync
* with (ie. the phone was completely idle). In the latter case, we
* shouldn't even be in the in-call UI in the first place, and it's
* the caller's responsibility to bail out of this activity by
* calling endInCallScreenSession if appropriate.
*
* This method directly calls updateScreen() in the normal "phone is
* in use" case, so there's no need for the caller to do so.
*/
private SyncWithPhoneStateStatus syncWithPhoneState() {
boolean updateSuccessful = false;
if (DBG) log("syncWithPhoneState()...");
if (DBG) PhoneUtils.dumpCallState(mPhone);
if (VDBG) dumpBluetoothState();
// Make sure the Phone is "in use". (If not, we shouldn't be on
// this screen in the first place.)
// An active or just-ended OTA call counts as "in use".
if (TelephonyCapabilities.supportsOtasp(mCM.getFgPhone())
&& ((mApp.inCallUiState.inCallScreenMode == InCallScreenMode.OTA_NORMAL)
|| (mApp.inCallUiState.inCallScreenMode == InCallScreenMode.OTA_ENDED))) {
// Even when OTA Call ends, need to show OTA End UI,
// so return Success to allow UI update.
return SyncWithPhoneStateStatus.SUCCESS;
}
// If an MMI code is running that also counts as "in use".
//
// TODO: We currently only call getPendingMmiCodes() for GSM
// phones. (The code's been that way all along.) But CDMAPhone
// does in fact implement getPendingMmiCodes(), so should we
// check that here regardless of the phone type?
boolean hasPendingMmiCodes =
(mPhone.getPhoneType() == PhoneConstants.PHONE_TYPE_GSM)
&& !mPhone.getPendingMmiCodes().isEmpty();
// Finally, it's also OK to stay here on the InCallScreen if we
// need to display a progress indicator while something's
// happening in the background.
boolean showProgressIndication = mApp.inCallUiState.isProgressIndicationActive();
boolean showScreenEvenAfterDisconnect = mApp.inCallUiState.showAlreadyDisconnectedState;
if (mCM.hasActiveFgCall() || mCM.hasActiveBgCall() || mCM.hasActiveRingingCall()
|| hasPendingMmiCodes || showProgressIndication || showScreenEvenAfterDisconnect) {
if (VDBG) log("syncWithPhoneState: it's ok to be here; update the screen...");
updateScreen();
return SyncWithPhoneStateStatus.SUCCESS;
}
Log.i(LOG_TAG, "syncWithPhoneState: phone is idle (shouldn't be here)");
return SyncWithPhoneStateStatus.PHONE_NOT_IN_USE;
}
private void handleMissingVoiceMailNumber() {
if (DBG) log("handleMissingVoiceMailNumber");
final Message msg = Message.obtain(mHandler);
msg.what = DONT_ADD_VOICEMAIL_NUMBER;
final Message msg2 = Message.obtain(mHandler);
msg2.what = ADD_VOICEMAIL_NUMBER;
mMissingVoicemailDialog = new AlertDialog.Builder(this)
.setTitle(R.string.no_vm_number)
.setMessage(R.string.no_vm_number_msg)
.setPositiveButton(R.string.ok, new DialogInterface.OnClickListener() {
public void onClick(DialogInterface dialog, int which) {
if (VDBG) log("Missing voicemail AlertDialog: POSITIVE click...");
msg.sendToTarget(); // see dontAddVoiceMailNumber()
mApp.pokeUserActivity();
}})
.setNegativeButton(R.string.add_vm_number_str,
new DialogInterface.OnClickListener() {
public void onClick(DialogInterface dialog, int which) {
if (VDBG) log("Missing voicemail AlertDialog: NEGATIVE click...");
msg2.sendToTarget(); // see addVoiceMailNumber()
mApp.pokeUserActivity();
}})
.setOnCancelListener(new OnCancelListener() {
public void onCancel(DialogInterface dialog) {
if (VDBG) log("Missing voicemail AlertDialog: CANCEL handler...");
msg.sendToTarget(); // see dontAddVoiceMailNumber()
mApp.pokeUserActivity();
}})
.create();
// When the dialog is up, completely hide the in-call UI
// underneath (which is in a partially-constructed state).
mMissingVoicemailDialog.getWindow().addFlags(
WindowManager.LayoutParams.FLAG_DIM_BEHIND);
mMissingVoicemailDialog.show();
}
private void addVoiceMailNumberPanel() {
if (mMissingVoicemailDialog != null) {
mMissingVoicemailDialog.dismiss();
mMissingVoicemailDialog = null;
}
if (DBG) log("addVoiceMailNumberPanel: finishing InCallScreen...");
endInCallScreenSession();
if (DBG) log("show vm setting");
// navigate to the Voicemail setting in the Call Settings activity.
Intent intent = new Intent(CallFeaturesSetting.ACTION_ADD_VOICEMAIL);
intent.setClass(this, CallFeaturesSetting.class);
startActivity(intent);
}
private void dontAddVoiceMailNumber() {
if (mMissingVoicemailDialog != null) {
mMissingVoicemailDialog.dismiss();
mMissingVoicemailDialog = null;
}
if (DBG) log("dontAddVoiceMailNumber: finishing InCallScreen...");
endInCallScreenSession();
}
/**
* Do some delayed cleanup after a Phone call gets disconnected.
*
* This method gets called a couple of seconds after any DISCONNECT
* event from the Phone; it's triggered by the
* DELAYED_CLEANUP_AFTER_DISCONNECT message we send in onDisconnect().
*
* If the Phone is totally idle right now, that means we've already
* shown the "call ended" state for a couple of seconds, and it's now
* time to endInCallScreenSession this activity.
*
* If the Phone is *not* idle right now, that probably means that one
* call ended but the other line is still in use. In that case, do
* nothing, and instead stay here on the InCallScreen.
*/
private void delayedCleanupAfterDisconnect() {
if (VDBG) log("delayedCleanupAfterDisconnect()... Phone state = " + mCM.getState());
// Clean up any connections in the DISCONNECTED state.
//
// [Background: Even after a connection gets disconnected, its
// Connection object still stays around, in the special
// DISCONNECTED state. This is necessary because we we need the
// caller-id information from that Connection to properly draw the
// "Call ended" state of the CallCard.
// But at this point we truly don't need that connection any
// more, so tell the Phone that it's now OK to to clean up any
// connections still in that state.]
mCM.clearDisconnected();
// There are two cases where we should *not* exit the InCallScreen:
// (1) Phone is still in use
// or
// (2) There's an active progress indication (i.e. the "Retrying..."
// progress dialog) that we need to continue to display.
boolean stayHere = phoneIsInUse() || mApp.inCallUiState.isProgressIndicationActive();
if (stayHere) {
if (DBG) log("- delayedCleanupAfterDisconnect: staying on the InCallScreen...");
} else {
// Phone is idle! We should exit the in-call UI now.
if (DBG) log("- delayedCleanupAfterDisconnect: phone is idle...");
// And (finally!) exit from the in-call screen
// (but not if we're already in the process of pausing...)
if (mIsForegroundActivity) {
if (DBG) log("- delayedCleanupAfterDisconnect: finishing InCallScreen...");
// In some cases we finish the call by taking the user to the
// Call Log. Otherwise, we simply call endInCallScreenSession,
// which will take us back to wherever we came from.
//
// UI note: In eclair and earlier, we went to the Call Log
// after outgoing calls initiated on the device, but never for
// incoming calls. Now we do it for incoming calls too, as
// long as the call was answered by the user. (We always go
// back where you came from after a rejected or missed incoming
// call.)
//
// And in any case, *never* go to the call log if we're in
// emergency mode (i.e. if the screen is locked and a lock
// pattern or PIN/password is set), or if we somehow got here
// on a non-voice-capable device.
if (VDBG) log("- Post-call behavior:");
if (VDBG) log(" - mLastDisconnectCause = " + mLastDisconnectCause);
if (VDBG) log(" - isPhoneStateRestricted() = " + isPhoneStateRestricted());
// DisconnectCause values in the most common scenarios:
// - INCOMING_MISSED: incoming ringing call times out, or the
// other end hangs up while still ringing
// - INCOMING_REJECTED: user rejects the call while ringing
// - LOCAL: user hung up while a call was active (after
// answering an incoming call, or after making an
// outgoing call)
// - NORMAL: the other end hung up (after answering an incoming
// call, or after making an outgoing call)
if ((mLastDisconnectCause != Connection.DisconnectCause.INCOMING_MISSED)
&& (mLastDisconnectCause != Connection.DisconnectCause.INCOMING_REJECTED)
&& !isPhoneStateRestricted()
&& PhoneGlobals.sVoiceCapable) {
final Intent intent = mApp.createPhoneEndIntentUsingCallOrigin();
ActivityOptions opts = ActivityOptions.makeCustomAnimation(this,
R.anim.activity_close_enter, R.anim.activity_close_exit);
if (VDBG) {
log("- Show Call Log (or Dialtacts) after disconnect. Current intent: "
+ intent);
}
try {
startActivity(intent, opts.toBundle());
} catch (ActivityNotFoundException e) {
// Don't crash if there's somehow no "Call log" at
// all on this device.
// (This should never happen, though, since we already
// checked PhoneApp.sVoiceCapable above, and any
// voice-capable device surely *should* have a call
// log activity....)
Log.w(LOG_TAG, "delayedCleanupAfterDisconnect: "
+ "transition to call log failed; intent = " + intent);
// ...so just return back where we came from....
}
// Even if we did go to the call log, note that we still
// call endInCallScreenSession (below) to make sure we don't
// stay in the activity history.
}
}
endInCallScreenSession();
// Reset the call origin when the session ends and this in-call UI is being finished.
mApp.setLatestActiveCallOrigin(null);
}
}
/**
* View.OnClickListener implementation.
*
* This method handles clicks from UI elements that use the
* InCallScreen itself as their OnClickListener.
*
* Note: Currently this method is used only for a few special buttons:
* - the mButtonManageConferenceDone "Back to call" button
* - the "dim" effect for the secondary call photo in CallCard as the second "swap" button
* - other OTASP-specific buttons managed by OtaUtils.java.
*
* *Most* in-call controls are handled by the handleOnscreenButtonClick() method, via the
* InCallTouchUi widget.
*/
@Override
public void onClick(View view) {
int id = view.getId();
if (VDBG) log("onClick(View " + view + ", id " + id + ")...");
switch (id) {
case R.id.manage_done: // mButtonManageConferenceDone
if (VDBG) log("onClick: mButtonManageConferenceDone...");
// Hide the Manage Conference panel, return to NORMAL mode.
setInCallScreenMode(InCallScreenMode.NORMAL);
requestUpdateScreen();
break;
case R.id.dim_effect_for_secondary_photo:
if (mInCallControlState.canSwap) {
internalSwapCalls();
}
break;
default:
// Presumably one of the OTASP-specific buttons managed by
// OtaUtils.java.
// (TODO: It would be cleaner for the OtaUtils instance itself to
// be the OnClickListener for its own buttons.)
if ((mApp.inCallUiState.inCallScreenMode == InCallScreenMode.OTA_NORMAL
|| mApp.inCallUiState.inCallScreenMode == InCallScreenMode.OTA_ENDED)
&& mApp.otaUtils != null) {
mApp.otaUtils.onClickHandler(id);
} else {
// Uh oh: we *should* only receive clicks here from the
// buttons managed by OtaUtils.java, but if we're not in one
// of the special OTASP modes, those buttons shouldn't have
// been visible in the first place.
Log.w(LOG_TAG,
"onClick: unexpected click from ID " + id + " (View = " + view + ")");
}
break;
}
EventLog.writeEvent(EventLogTags.PHONE_UI_BUTTON_CLICK,
(view instanceof TextView) ? ((TextView) view).getText() : "");
// Clicking any onscreen UI element counts as explicit "user activity".
mApp.pokeUserActivity();
}
private void onHoldClick() {
final boolean hasActiveCall = mCM.hasActiveFgCall();
final boolean hasHoldingCall = mCM.hasActiveBgCall();
log("onHoldClick: hasActiveCall = " + hasActiveCall
+ ", hasHoldingCall = " + hasHoldingCall);
boolean newHoldState;
boolean holdButtonEnabled;
if (hasActiveCall && !hasHoldingCall) {
// There's only one line in use, and that line is active.
PhoneUtils.switchHoldingAndActive(
mCM.getFirstActiveBgCall()); // Really means "hold" in this state
newHoldState = true;
holdButtonEnabled = true;
} else if (!hasActiveCall && hasHoldingCall) {
// There's only one line in use, and that line is on hold.
PhoneUtils.switchHoldingAndActive(
mCM.getFirstActiveBgCall()); // Really means "unhold" in this state
newHoldState = false;
holdButtonEnabled = true;
} else {
// Either zero or 2 lines are in use; "hold/unhold" is meaningless.
newHoldState = false;
holdButtonEnabled = false;
}
// No need to forcibly update the onscreen UI; just wait for the
// onPhoneStateChanged() callback. (This seems to be responsive
// enough.)
// Also, any time we hold or unhold, force the DTMF dialpad to close.
closeDialpadInternal(true); // do the "closing" animation
}
/**
* Toggles in-call audio between speaker and the built-in earpiece (or
* wired headset.)
*/
public void toggleSpeaker() {
// TODO: Turning on the speaker seems to enable the mic
// whether or not the "mute" feature is active!
// Not sure if this is an feature of the telephony API
// that I need to handle specially, or just a bug.
boolean newSpeakerState = !PhoneUtils.isSpeakerOn(this);
log("toggleSpeaker(): newSpeakerState = " + newSpeakerState);
if (newSpeakerState && isBluetoothAvailable() && isBluetoothAudioConnected()) {
disconnectBluetoothAudio();
}
PhoneUtils.turnOnSpeaker(this, newSpeakerState, true);
// And update the InCallTouchUi widget (since the "audio mode"
// button might need to change its appearance based on the new
// audio state.)
updateInCallTouchUi();
}
/*
* onMuteClick is called only when there is a foreground call
*/
private void onMuteClick() {
boolean newMuteState = !PhoneUtils.getMute();
log("onMuteClick(): newMuteState = " + newMuteState);
PhoneUtils.setMute(newMuteState);
}
/**
* Toggles whether or not to route in-call audio to the bluetooth
* headset, or do nothing (but log a warning) if no bluetooth device
* is actually connected.
*
* TODO: this method is currently unused, but the "audio mode" UI
* design is still in flux so let's keep it around for now.
* (But if we ultimately end up *not* providing any way for the UI to
* simply "toggle bluetooth", we can get rid of this method.)
*/
public void toggleBluetooth() {
if (VDBG) log("toggleBluetooth()...");
if (isBluetoothAvailable()) {
// Toggle the bluetooth audio connection state:
if (isBluetoothAudioConnected()) {
disconnectBluetoothAudio();
} else {
// Manually turn the speaker phone off, instead of allowing the
// Bluetooth audio routing to handle it, since there's other
// important state-updating that needs to happen in the
// PhoneUtils.turnOnSpeaker() method.
// (Similarly, whenever the user turns *on* the speaker, we
// manually disconnect the active bluetooth headset;
// see toggleSpeaker() and/or switchInCallAudio().)
if (PhoneUtils.isSpeakerOn(this)) {
PhoneUtils.turnOnSpeaker(this, false, true);
}
connectBluetoothAudio();
}
} else {
// Bluetooth isn't available; the onscreen UI shouldn't have
// allowed this request in the first place!
Log.w(LOG_TAG, "toggleBluetooth(): bluetooth is unavailable");
}
// And update the InCallTouchUi widget (since the "audio mode"
// button might need to change its appearance based on the new
// audio state.)
updateInCallTouchUi();
}
/**
* Switches the current routing of in-call audio between speaker,
* bluetooth, and the built-in earpiece (or wired headset.)
*
* This method is used on devices that provide a single 3-way switch
* for audio routing. For devices that provide separate toggles for
* Speaker and Bluetooth, see toggleBluetooth() and toggleSpeaker().
*
* TODO: UI design is still in flux. If we end up totally
* eliminating the concept of Speaker and Bluetooth toggle buttons,
* we can get rid of toggleBluetooth() and toggleSpeaker().
*/
public void switchInCallAudio(InCallAudioMode newMode) {
log("switchInCallAudio: new mode = " + newMode);
switch (newMode) {
case SPEAKER:
if (!PhoneUtils.isSpeakerOn(this)) {
// Switch away from Bluetooth, if it was active.
if (isBluetoothAvailable() && isBluetoothAudioConnected()) {
disconnectBluetoothAudio();
}
PhoneUtils.turnOnSpeaker(this, true, true);
}
break;
case BLUETOOTH:
// If already connected to BT, there's nothing to do here.
if (isBluetoothAvailable() && !isBluetoothAudioConnected()) {
// Manually turn the speaker phone off, instead of allowing the
// Bluetooth audio routing to handle it, since there's other
// important state-updating that needs to happen in the
// PhoneUtils.turnOnSpeaker() method.
// (Similarly, whenever the user turns *on* the speaker, we
// manually disconnect the active bluetooth headset;
// see toggleSpeaker() and/or switchInCallAudio().)
if (PhoneUtils.isSpeakerOn(this)) {
PhoneUtils.turnOnSpeaker(this, false, true);
}
connectBluetoothAudio();
}
break;
case EARPIECE:
// Switch to either the handset earpiece, or the wired headset (if connected.)
// (Do this by simply making sure both speaker and bluetooth are off.)
if (isBluetoothAvailable() && isBluetoothAudioConnected()) {
disconnectBluetoothAudio();
}
if (PhoneUtils.isSpeakerOn(this)) {
PhoneUtils.turnOnSpeaker(this, false, true);
}
break;
default:
Log.wtf(LOG_TAG, "switchInCallAudio: unexpected mode " + newMode);
break;
}
// And finally, update the InCallTouchUi widget (since the "audio
// mode" button might need to change its appearance based on the
// new audio state.)
updateInCallTouchUi();
}
/**
* Handle a click on the "Open/Close dialpad" button.
*
* @see DTMFTwelveKeyDialer#openDialer(boolean)
* @see DTMFTwelveKeyDialer#closeDialer(boolean)
*/
private void onOpenCloseDialpad() {
if (VDBG) log("onOpenCloseDialpad()...");
if (mDialer.isOpened()) {
closeDialpadInternal(true); // do the "closing" animation
} else {
openDialpadInternal(true); // do the "opening" animation
}
mApp.updateProximitySensorMode(mCM.getState());
}
/** Internal wrapper around {@link DTMFTwelveKeyDialer#openDialer(boolean)} */
private void openDialpadInternal(boolean animate) {
mDialer.openDialer(animate);
// And update the InCallUiState (so that we'll restore the dialpad
// to the correct state if we get paused/resumed).
mApp.inCallUiState.showDialpad = true;
}
// Internal wrapper around DTMFTwelveKeyDialer.closeDialer()
private void closeDialpadInternal(boolean animate) {
mDialer.closeDialer(animate);
// And update the InCallUiState (so that we'll restore the dialpad
// to the correct state if we get paused/resumed).
mApp.inCallUiState.showDialpad = false;
}
/**
* Handles button clicks from the InCallTouchUi widget.
*/
/* package */ void handleOnscreenButtonClick(int id) {
if (DBG) log("handleOnscreenButtonClick(id " + id + ")...");
switch (id) {
// Actions while an incoming call is ringing:
case R.id.incomingCallAnswer:
internalAnswerCall();
break;
case R.id.incomingCallReject:
hangupRingingCall();
break;
case R.id.incomingCallRespondViaSms:
internalRespondViaSms();
break;
// The other regular (single-tap) buttons used while in-call:
case R.id.holdButton:
onHoldClick();
break;
case R.id.swapButton:
internalSwapCalls();
break;
case R.id.endButton:
internalHangup();
break;
case R.id.dialpadButton:
onOpenCloseDialpad();
break;
case R.id.muteButton:
onMuteClick();
break;
case R.id.addButton:
PhoneUtils.startNewCall(mCM); // Fires off an ACTION_DIAL intent
break;
case R.id.mergeButton:
case R.id.cdmaMergeButton:
PhoneUtils.mergeCalls(mCM);
break;
case R.id.manageConferenceButton:
// Show the Manage Conference panel.
setInCallScreenMode(InCallScreenMode.MANAGE_CONFERENCE);
requestUpdateScreen();
break;
default:
Log.w(LOG_TAG, "handleOnscreenButtonClick: unexpected ID " + id);
break;
}
// Clicking any onscreen UI element counts as explicit "user activity".
mApp.pokeUserActivity();
// Just in case the user clicked a "stateful" UI element (like one
// of the toggle buttons), we force the in-call buttons to update,
// to make sure the user sees the *new* current state.
//
// Note that some in-call buttons will *not* immediately change the
// state of the UI, namely those that send a request to the telephony
// layer (like "Hold" or "End call".) For those buttons, the
// updateInCallTouchUi() call here won't have any visible effect.
// Instead, the UI will be updated eventually when the next
// onPhoneStateChanged() event comes in and triggers an updateScreen()
// call.
//
// TODO: updateInCallTouchUi() is overkill here; it would be
// more efficient to update *only* the affected button(s).
// (But this isn't a big deal since updateInCallTouchUi() is pretty
// cheap anyway...)
updateInCallTouchUi();
}
/**
* Display a status or error indication to the user according to the
* specified InCallUiState.CallStatusCode value.
*/
private void showStatusIndication(CallStatusCode status) {
switch (status) {
case SUCCESS:
// The InCallScreen does not need to display any kind of error indication,
// so we shouldn't have gotten here in the first place.
Log.wtf(LOG_TAG, "showStatusIndication: nothing to display");
break;
case POWER_OFF:
// Radio is explictly powered off, presumably because the
// device is in airplane mode.
//
// TODO: For now this UI is ultra-simple: we simply display
// a message telling the user to turn off airplane mode.
// But it might be nicer for the dialog to offer the option
// to turn the radio on right there (and automatically retry
// the call once network registration is complete.)
showGenericErrorDialog(R.string.incall_error_power_off,
true /* isStartupError */);
break;
case EMERGENCY_ONLY:
// Only emergency numbers are allowed, but we tried to dial
// a non-emergency number.
// (This state is currently unused; see comments above.)
showGenericErrorDialog(R.string.incall_error_emergency_only,
true /* isStartupError */);
break;
case OUT_OF_SERVICE:
// No network connection.
showGenericErrorDialog(R.string.incall_error_out_of_service,
true /* isStartupError */);
break;
case NO_PHONE_NUMBER_SUPPLIED:
// The supplied Intent didn't contain a valid phone number.
// (This is rare and should only ever happen with broken
// 3rd-party apps.) For now just show a generic error.
showGenericErrorDialog(R.string.incall_error_no_phone_number_supplied,
true /* isStartupError */);
break;
case DIALED_MMI:
// Our initial phone number was actually an MMI sequence.
// There's no real "error" here, but we do bring up the
// a Toast (as requested of the New UI paradigm).
//
// In-call MMIs do not trigger the normal MMI Initiate
// Notifications, so we should notify the user here.
// Otherwise, the code in PhoneUtils.java should handle
// user notifications in the form of Toasts or Dialogs.
if (mCM.getState() == PhoneConstants.State.OFFHOOK) {
Toast.makeText(mApp, R.string.incall_status_dialed_mmi, Toast.LENGTH_SHORT)
.show();
}
break;
case CALL_FAILED:
// We couldn't successfully place the call; there was some
// failure in the telephony layer.
// TODO: Need UI spec for this failure case; for now just
// show a generic error.
showGenericErrorDialog(R.string.incall_error_call_failed,
true /* isStartupError */);
break;
case VOICEMAIL_NUMBER_MISSING:
// We tried to call a voicemail: URI but the device has no
// voicemail number configured.
handleMissingVoiceMailNumber();
break;
case CDMA_CALL_LOST:
// This status indicates that InCallScreen should display the
// CDMA-specific "call lost" dialog. (If an outgoing call fails,
// and the CDMA "auto-retry" feature is enabled, *and* the retried
// call fails too, we display this specific dialog.)
//
// TODO: currently unused; see InCallUiState.needToShowCallLostDialog
break;
case EXITED_ECM:
// This status indicates that InCallScreen needs to display a
// warning that we're exiting ECM (emergency callback mode).
showExitingECMDialog();
break;
default:
throw new IllegalStateException(
"showStatusIndication: unexpected status code: " + status);
}
// TODO: still need to make sure that pressing OK or BACK from
// *any* of the dialogs we launch here ends up calling
// inCallUiState.clearPendingCallStatusCode()
// *and*
// make sure the Dialog handles both OK *and* cancel by calling
// endInCallScreenSession. (See showGenericErrorDialog() for an
// example.)
//
// (showGenericErrorDialog() currently does this correctly,
// but handleMissingVoiceMailNumber() probably needs to be fixed too.)
//
// Also need to make sure that bailing out of any of these dialogs by
// pressing Home clears out the pending status code too. (If you do
// that, neither the dialog's clickListener *or* cancelListener seems
// to run...)
}
/**
* Utility function to bring up a generic "error" dialog, and then bail
* out of the in-call UI when the user hits OK (or the BACK button.)
*/
private void showGenericErrorDialog(int resid, boolean isStartupError) {
CharSequence msg = getResources().getText(resid);
if (DBG) log("showGenericErrorDialog('" + msg + "')...");
// create the clicklistener and cancel listener as needed.
DialogInterface.OnClickListener clickListener;
OnCancelListener cancelListener;
if (isStartupError) {
clickListener = new DialogInterface.OnClickListener() {
public void onClick(DialogInterface dialog, int which) {
bailOutAfterErrorDialog();
}};
cancelListener = new OnCancelListener() {
public void onCancel(DialogInterface dialog) {
bailOutAfterErrorDialog();
}};
} else {
clickListener = new DialogInterface.OnClickListener() {
public void onClick(DialogInterface dialog, int which) {
delayedCleanupAfterDisconnect();
}};
cancelListener = new OnCancelListener() {
public void onCancel(DialogInterface dialog) {
delayedCleanupAfterDisconnect();
}};
}
// TODO: Consider adding a setTitle() call here (with some generic
// "failure" title?)
mGenericErrorDialog = new AlertDialog.Builder(this)
.setMessage(msg)
.setPositiveButton(R.string.ok, clickListener)
.setOnCancelListener(cancelListener)
.create();
// When the dialog is up, completely hide the in-call UI
// underneath (which is in a partially-constructed state).
mGenericErrorDialog.getWindow().addFlags(
WindowManager.LayoutParams.FLAG_DIM_BEHIND);
mGenericErrorDialog.show();
}
private void showCallLostDialog() {
if (DBG) log("showCallLostDialog()...");
// Don't need to show the dialog if InCallScreen isn't in the forgeround
if (!mIsForegroundActivity) {
if (DBG) log("showCallLostDialog: not the foreground Activity! Bailing out...");
return;
}
// Don't need to show the dialog again, if there is one already.
if (mCallLostDialog != null) {
if (DBG) log("showCallLostDialog: There is a mCallLostDialog already.");
return;
}
mCallLostDialog = new AlertDialog.Builder(this)
.setMessage(R.string.call_lost)
.setIconAttribute(android.R.attr.alertDialogIcon)
.create();
mCallLostDialog.show();
}
/**
* Displays the "Exiting ECM" warning dialog.
*
* Background: If the phone is currently in ECM (Emergency callback
* mode) and we dial a non-emergency number, that automatically
* *cancels* ECM. (That behavior comes from CdmaCallTracker.dial().)
* When that happens, we need to warn the user that they're no longer
* in ECM (bug 4207607.)
*
* So bring up a dialog explaining what's happening. There's nothing
* for the user to do, by the way; we're simply providing an
* indication that they're exiting ECM. We *could* use a Toast for
* this, but toasts are pretty easy to miss, so instead use a dialog
* with a single "OK" button.
*
* TODO: it's ugly that the code here has to make assumptions about
* the behavior of the telephony layer (namely that dialing a
* non-emergency number while in ECM causes us to exit ECM.)
*
* Instead, this warning dialog should really be triggered by our
* handler for the
* TelephonyIntents.ACTION_EMERGENCY_CALLBACK_MODE_CHANGED intent in
* PhoneApp.java. But that won't work until that intent also
* includes a *reason* why we're exiting ECM, since we need to
* display this dialog when exiting ECM because of an outgoing call,
* but NOT if we're exiting ECM because the user manually turned it
* off via the EmergencyCallbackModeExitDialog.
*
* Or, it might be simpler to just have outgoing non-emergency calls
* *not* cancel ECM. That way the UI wouldn't have to do anything
* special here.
*/
private void showExitingECMDialog() {
Log.i(LOG_TAG, "showExitingECMDialog()...");
if (mExitingECMDialog != null) {
if (DBG) log("- DISMISSING mExitingECMDialog.");
mExitingECMDialog.dismiss(); // safe even if already dismissed
mExitingECMDialog = null;
}
// When the user dismisses the "Exiting ECM" dialog, we clear out
// the pending call status code field (since we're done with this
// dialog), but do *not* bail out of the InCallScreen.
final InCallUiState inCallUiState = mApp.inCallUiState;
DialogInterface.OnClickListener clickListener = new DialogInterface.OnClickListener() {
public void onClick(DialogInterface dialog, int which) {
inCallUiState.clearPendingCallStatusCode();
}};
OnCancelListener cancelListener = new OnCancelListener() {
public void onCancel(DialogInterface dialog) {
inCallUiState.clearPendingCallStatusCode();
}};
// Ultra-simple AlertDialog with only an OK button:
mExitingECMDialog = new AlertDialog.Builder(this)
.setMessage(R.string.progress_dialog_exiting_ecm)
.setPositiveButton(R.string.ok, clickListener)
.setOnCancelListener(cancelListener)
.create();
mExitingECMDialog.getWindow().addFlags(
WindowManager.LayoutParams.FLAG_BLUR_BEHIND);
mExitingECMDialog.show();
}
private void bailOutAfterErrorDialog() {
if (mGenericErrorDialog != null) {
if (DBG) log("bailOutAfterErrorDialog: DISMISSING mGenericErrorDialog.");
mGenericErrorDialog.dismiss();
mGenericErrorDialog = null;
}
if (DBG) log("bailOutAfterErrorDialog(): end InCallScreen session...");
// Now that the user has dismissed the error dialog (presumably by
// either hitting the OK button or pressing Back, we can now reset
// the pending call status code field.
//
// (Note that the pending call status is NOT cleared simply
// by the InCallScreen being paused or finished, since the resulting
// dialog is supposed to persist across orientation changes or if the
// screen turns off.)
//
// See the "Error / diagnostic indications" section of
// InCallUiState.java for more detailed info about the
// pending call status code field.
final InCallUiState inCallUiState = mApp.inCallUiState;
inCallUiState.clearPendingCallStatusCode();
// Force the InCallScreen to truly finish(), rather than just
// moving it to the back of the activity stack (which is what
// our finish() method usually does.)
// This is necessary to avoid an obscure scenario where the
// InCallScreen can get stuck in an inconsistent state, somehow
// causing a *subsequent* outgoing call to fail (bug 4172599).
endInCallScreenSession(true /* force a real finish() call */);
}
/**
* Dismisses (and nulls out) all persistent Dialogs managed
* by the InCallScreen. Useful if (a) we're about to bring up
* a dialog and want to pre-empt any currently visible dialogs,
* or (b) as a cleanup step when the Activity is going away.
*/
private void dismissAllDialogs() {
if (DBG) log("dismissAllDialogs()...");
// Note it's safe to dismiss() a dialog that's already dismissed.
// (Even if the AlertDialog object(s) below are still around, it's
// possible that the actual dialog(s) may have already been
// dismissed by the user.)
if (mMissingVoicemailDialog != null) {
if (VDBG) log("- DISMISSING mMissingVoicemailDialog.");
mMissingVoicemailDialog.dismiss();
mMissingVoicemailDialog = null;
}
if (mMmiStartedDialog != null) {
if (VDBG) log("- DISMISSING mMmiStartedDialog.");
mMmiStartedDialog.dismiss();
mMmiStartedDialog = null;
}
if (mGenericErrorDialog != null) {
if (VDBG) log("- DISMISSING mGenericErrorDialog.");
mGenericErrorDialog.dismiss();
mGenericErrorDialog = null;
}
if (mSuppServiceFailureDialog != null) {
if (VDBG) log("- DISMISSING mSuppServiceFailureDialog.");
mSuppServiceFailureDialog.dismiss();
mSuppServiceFailureDialog = null;
}
if (mWaitPromptDialog != null) {
if (VDBG) log("- DISMISSING mWaitPromptDialog.");
mWaitPromptDialog.dismiss();
mWaitPromptDialog = null;
}
if (mWildPromptDialog != null) {
if (VDBG) log("- DISMISSING mWildPromptDialog.");
mWildPromptDialog.dismiss();
mWildPromptDialog = null;
}
if (mCallLostDialog != null) {
if (VDBG) log("- DISMISSING mCallLostDialog.");
mCallLostDialog.dismiss();
mCallLostDialog = null;
}
if ((mApp.inCallUiState.inCallScreenMode == InCallScreenMode.OTA_NORMAL
|| mApp.inCallUiState.inCallScreenMode == InCallScreenMode.OTA_ENDED)
&& mApp.otaUtils != null) {
mApp.otaUtils.dismissAllOtaDialogs();
}
if (mPausePromptDialog != null) {
if (DBG) log("- DISMISSING mPausePromptDialog.");
mPausePromptDialog.dismiss();
mPausePromptDialog = null;
}
if (mExitingECMDialog != null) {
if (DBG) log("- DISMISSING mExitingECMDialog.");
mExitingECMDialog.dismiss();
mExitingECMDialog = null;
}
}
/**
* Updates the state of the onscreen "progress indication" used in
* some (relatively rare) scenarios where we need to wait for
* something to happen before enabling the in-call UI.
*
* If necessary, this method will cause a ProgressDialog (i.e. a
* spinning wait cursor) to be drawn *on top of* whatever the current
* state of the in-call UI is.
*
* @see InCallUiState.ProgressIndicationType
*/
private void updateProgressIndication() {
// If an incoming call is ringing, that takes priority over any
// possible value of inCallUiState.progressIndication.
if (mCM.hasActiveRingingCall()) {
dismissProgressIndication();
return;
}
// Otherwise, put up a progress indication if indicated by the
// inCallUiState.progressIndication field.
final InCallUiState inCallUiState = mApp.inCallUiState;
switch (inCallUiState.getProgressIndication()) {
case NONE:
// No progress indication necessary, so make sure it's dismissed.
dismissProgressIndication();
break;
case TURNING_ON_RADIO:
showProgressIndication(
R.string.emergency_enable_radio_dialog_title,
R.string.emergency_enable_radio_dialog_message);
break;
case RETRYING:
showProgressIndication(
R.string.emergency_enable_radio_dialog_title,
R.string.emergency_enable_radio_dialog_retry);
break;
default:
Log.wtf(LOG_TAG, "updateProgressIndication: unexpected value: "
+ inCallUiState.getProgressIndication());
dismissProgressIndication();
break;
}
}
/**
* Show an onscreen "progress indication" with the specified title and message.
*/
private void showProgressIndication(int titleResId, int messageResId) {
if (DBG) log("showProgressIndication(message " + messageResId + ")...");
// TODO: make this be a no-op if the progress indication is
// already visible with the exact same title and message.
dismissProgressIndication(); // Clean up any prior progress indication
mProgressDialog = new ProgressDialog(this);
mProgressDialog.setTitle(getText(titleResId));
mProgressDialog.setMessage(getText(messageResId));
mProgressDialog.setIndeterminate(true);
mProgressDialog.setCancelable(false);
mProgressDialog.getWindow().setType(WindowManager.LayoutParams.TYPE_SYSTEM_DIALOG);
mProgressDialog.getWindow().addFlags(WindowManager.LayoutParams.FLAG_BLUR_BEHIND);
mProgressDialog.show();
}
/**
* Dismiss the onscreen "progress indication" (if present).
*/
private void dismissProgressIndication() {
if (DBG) log("dismissProgressIndication()...");
if (mProgressDialog != null) {
mProgressDialog.dismiss(); // safe even if already dismissed
mProgressDialog = null;
}
}
//
// Helper functions for answering incoming calls.
//
/**
* Answer a ringing call. This method does nothing if there's no
* ringing or waiting call.
*/
private void internalAnswerCall() {
if (DBG) log("internalAnswerCall()...");
// if (DBG) PhoneUtils.dumpCallState(mPhone);
final boolean hasRingingCall = mCM.hasActiveRingingCall();
if (hasRingingCall) {
Phone phone = mCM.getRingingPhone();
Call ringing = mCM.getFirstActiveRingingCall();
int phoneType = phone.getPhoneType();
if (phoneType == PhoneConstants.PHONE_TYPE_CDMA) {
if (DBG) log("internalAnswerCall: answering (CDMA)...");
if (mCM.hasActiveFgCall()
&& mCM.getFgPhone().getPhoneType() == PhoneConstants.PHONE_TYPE_SIP) {
// The incoming call is CDMA call and the ongoing
// call is a SIP call. The CDMA network does not
// support holding an active call, so there's no
// way to swap between a CDMA call and a SIP call.
// So for now, we just don't allow a CDMA call and
// a SIP call to be active at the same time.We'll
// "answer incoming, end ongoing" in this case.
if (DBG) log("internalAnswerCall: answer "
+ "CDMA incoming and end SIP ongoing");
PhoneUtils.answerAndEndActive(mCM, ringing);
} else {
PhoneUtils.answerCall(ringing);
}
} else if (phoneType == PhoneConstants.PHONE_TYPE_SIP) {
if (DBG) log("internalAnswerCall: answering (SIP)...");
if (mCM.hasActiveFgCall()
&& mCM.getFgPhone().getPhoneType() == PhoneConstants.PHONE_TYPE_CDMA) {
// Similar to the PHONE_TYPE_CDMA handling.
// The incoming call is SIP call and the ongoing
// call is a CDMA call. The CDMA network does not
// support holding an active call, so there's no
// way to swap between a CDMA call and a SIP call.
// So for now, we just don't allow a CDMA call and
// a SIP call to be active at the same time.We'll
// "answer incoming, end ongoing" in this case.
if (DBG) log("internalAnswerCall: answer "
+ "SIP incoming and end CDMA ongoing");
PhoneUtils.answerAndEndActive(mCM, ringing);
} else {
PhoneUtils.answerCall(ringing);
}
} else if (phoneType == PhoneConstants.PHONE_TYPE_GSM) {
if (DBG) log("internalAnswerCall: answering (GSM)...");
// GSM: this is usually just a wrapper around
// PhoneUtils.answerCall(), *but* we also need to do
// something special for the "both lines in use" case.
final boolean hasActiveCall = mCM.hasActiveFgCall();
final boolean hasHoldingCall = mCM.hasActiveBgCall();
if (hasActiveCall && hasHoldingCall) {
if (DBG) log("internalAnswerCall: answering (both lines in use!)...");
// The relatively rare case where both lines are
// already in use. We "answer incoming, end ongoing"
// in this case, according to the current UI spec.
PhoneUtils.answerAndEndActive(mCM, ringing);
// Alternatively, we could use
// PhoneUtils.answerAndEndHolding(mPhone);
// here to end the on-hold call instead.
} else {
if (DBG) log("internalAnswerCall: answering...");
PhoneUtils.answerCall(ringing); // Automatically holds the current active call,
// if there is one
}
} else {
throw new IllegalStateException("Unexpected phone type: " + phoneType);
}
// Call origin is valid only with outgoing calls. Disable it on incoming calls.
mApp.setLatestActiveCallOrigin(null);
}
}
/**
* Hang up the ringing call (aka "Don't answer").
*/
/* package */ void hangupRingingCall() {
if (DBG) log("hangupRingingCall()...");
if (VDBG) PhoneUtils.dumpCallManager();
// In the rare case when multiple calls are ringing, the UI policy
// it to always act on the first ringing call.
PhoneUtils.hangupRingingCall(mCM.getFirstActiveRingingCall());
}
/**
* Silence the ringer (if an incoming call is ringing.)
*/
private void internalSilenceRinger() {
if (DBG) log("internalSilenceRinger()...");
final CallNotifier notifier = mApp.notifier;
if (notifier.isRinging()) {
// ringer is actually playing, so silence it.
notifier.silenceRinger();
}
}
/**
* Respond via SMS to the ringing call.
* @see RespondViaSmsManager
*/
private void internalRespondViaSms() {
log("internalRespondViaSms()...");
if (VDBG) PhoneUtils.dumpCallManager();
// In the rare case when multiple calls are ringing, the UI policy
// it to always act on the first ringing call.
Call ringingCall = mCM.getFirstActiveRingingCall();
mRespondViaSmsManager.showRespondViaSmsPopup(ringingCall);
// Silence the ringer, since it would be distracting while you're trying
// to pick a response. (Note that we'll restart the ringer if you bail
// out of the popup, though; see RespondViaSmsCancelListener.)
internalSilenceRinger();
}
/**
* Hang up the current active call.
*/
private void internalHangup() {
PhoneConstants.State state = mCM.getState();
log("internalHangup()... phone state = " + state);
// Regardless of the phone state, issue a hangup request.
// (If the phone is already idle, this call will presumably have no
// effect (but also see the note below.))
PhoneUtils.hangup(mCM);
// If the user just hung up the only active call, we'll eventually exit
// the in-call UI after the following sequence:
// - When the hangup() succeeds, we'll get a DISCONNECT event from
// the telephony layer (see onDisconnect()).
// - We immediately switch to the "Call ended" state (see the "delayed
// bailout" code path in onDisconnect()) and also post a delayed
// DELAYED_CLEANUP_AFTER_DISCONNECT message.
// - When the DELAYED_CLEANUP_AFTER_DISCONNECT message comes in (see
// delayedCleanupAfterDisconnect()) we do some final cleanup, and exit
// this activity unless the phone is still in use (i.e. if there's
// another call, or something else going on like an active MMI
// sequence.)
if (state == PhoneConstants.State.IDLE) {
// The user asked us to hang up, but the phone was (already) idle!
Log.w(LOG_TAG, "internalHangup(): phone is already IDLE!");
// This is rare, but can happen in a few cases:
// (a) If the user quickly double-taps the "End" button. In this case
// we'll see that 2nd press event during the brief "Call ended"
// state (where the phone is IDLE), or possibly even before the
// radio has been able to respond to the initial hangup request.
// (b) More rarely, this can happen if the user presses "End" at the
// exact moment that the call ends on its own (like because of the
// other person hanging up.)
// (c) Finally, this could also happen if we somehow get stuck here on
// the InCallScreen with the phone truly idle, perhaps due to a
// bug where we somehow *didn't* exit when the phone became idle
// in the first place.
// TODO: as a "safety valve" for case (c), consider immediately
// bailing out of the in-call UI right here. (The user can always
// bail out by pressing Home, of course, but they'll probably try
// pressing End first.)
//
// Log.i(LOG_TAG, "internalHangup(): phone is already IDLE! Bailing out...");
// endInCallScreenSession();
}
}
/**
* InCallScreen-specific wrapper around PhoneUtils.switchHoldingAndActive().
*/
private void internalSwapCalls() {
if (DBG) log("internalSwapCalls()...");
// Any time we swap calls, force the DTMF dialpad to close.
// (We want the regular in-call UI to be visible right now, so the
// user can clearly see which call is now in the foreground.)
closeDialpadInternal(true); // do the "closing" animation
// Also, clear out the "history" of DTMF digits you typed, to make
// sure you don't see digits from call #1 while call #2 is active.
// (Yes, this does mean that swapping calls twice will cause you
// to lose any previous digits from the current call; see the TODO
// comment on DTMFTwelvKeyDialer.clearDigits() for more info.)
mDialer.clearDigits();
// Swap the fg and bg calls.
// In the future we may provides some way for user to choose among
// multiple background calls, for now, always act on the first background calll.
PhoneUtils.switchHoldingAndActive(mCM.getFirstActiveBgCall());
// If we have a valid BluetoothPhoneService then since CDMA network or
// Telephony FW does not send us information on which caller got swapped
// we need to update the second call active state in BluetoothPhoneService internally
if (mCM.getBgPhone().getPhoneType() == PhoneConstants.PHONE_TYPE_CDMA) {
IBluetoothHeadsetPhone btPhone = mApp.getBluetoothPhoneService();
if (btPhone != null) {
try {
btPhone.cdmaSwapSecondCallState();
} catch (RemoteException e) {
Log.e(LOG_TAG, Log.getStackTraceString(new Throwable()));
}
}
}
}
/**
* Sets the current high-level "mode" of the in-call UI.
*
* NOTE: if newMode is CALL_ENDED, the caller is responsible for
* posting a delayed DELAYED_CLEANUP_AFTER_DISCONNECT message, to make
* sure the "call ended" state goes away after a couple of seconds.
*
* Note this method does NOT refresh of the onscreen UI; the caller is
* responsible for calling updateScreen() or requestUpdateScreen() if
* necessary.
*/
private void setInCallScreenMode(InCallScreenMode newMode) {
if (DBG) log("setInCallScreenMode: " + newMode);
mApp.inCallUiState.inCallScreenMode = newMode;
switch (newMode) {
case MANAGE_CONFERENCE:
if (!PhoneUtils.isConferenceCall(mCM.getActiveFgCall())) {
Log.w(LOG_TAG, "MANAGE_CONFERENCE: no active conference call!");
// Hide the Manage Conference panel, return to NORMAL mode.
setInCallScreenMode(InCallScreenMode.NORMAL);
return;
}
List<Connection> connections = mCM.getFgCallConnections();
// There almost certainly will be > 1 connection,
// since isConferenceCall() just returned true.
if ((connections == null) || (connections.size() <= 1)) {
Log.w(LOG_TAG,
"MANAGE_CONFERENCE: Bogus TRUE from isConferenceCall(); connections = "
+ connections);
// Hide the Manage Conference panel, return to NORMAL mode.
setInCallScreenMode(InCallScreenMode.NORMAL);
return;
}
// TODO: Don't do this here. The call to
// initManageConferencePanel() should instead happen
// automagically in ManageConferenceUtils the very first
// time you call updateManageConferencePanel() or
// setPanelVisible(true).
mManageConferenceUtils.initManageConferencePanel(); // if necessary
mManageConferenceUtils.updateManageConferencePanel(connections);
// The "Manage conference" UI takes up the full main frame,
// replacing the CallCard PopupWindow.
mManageConferenceUtils.setPanelVisible(true);
// Start the chronometer.
// TODO: Similarly, we shouldn't expose startConferenceTime()
// and stopConferenceTime(); the ManageConferenceUtils
// class ought to manage the conferenceTime widget itself
// based on setPanelVisible() calls.
// Note: there is active Fg call since we are in conference call
long callDuration =
mCM.getActiveFgCall().getEarliestConnection().getDurationMillis();
mManageConferenceUtils.startConferenceTime(
SystemClock.elapsedRealtime() - callDuration);
// No need to close the dialer here, since the Manage
// Conference UI will just cover it up anyway.
break;
case CALL_ENDED:
case NORMAL:
mManageConferenceUtils.setPanelVisible(false);
mManageConferenceUtils.stopConferenceTime();
break;
case OTA_NORMAL:
mApp.otaUtils.setCdmaOtaInCallScreenUiState(
OtaUtils.CdmaOtaInCallScreenUiState.State.NORMAL);
break;
case OTA_ENDED:
mApp.otaUtils.setCdmaOtaInCallScreenUiState(
OtaUtils.CdmaOtaInCallScreenUiState.State.ENDED);
break;
case UNDEFINED:
// Set our Activities intent to ACTION_UNDEFINED so
// that if we get resumed after we've completed a call
// the next call will not cause checkIsOtaCall to
// return true.
//
// TODO(OTASP): update these comments
//
// With the framework as of October 2009 the sequence below
// causes the framework to call onResume, onPause, onNewIntent,
// onResume. If we don't call setIntent below then when the
// first onResume calls checkIsOtaCall via checkOtaspStateOnResume it will
// return true and the Activity will be confused.
//
// 1) Power up Phone A
// 2) Place *22899 call and activate Phone A
// 3) Press the power key on Phone A to turn off the display
// 4) Call Phone A from Phone B answering Phone A
// 5) The screen will be blank (Should be normal InCallScreen)
// 6) Hang up the Phone B
// 7) Phone A displays the activation screen.
//
// Step 3 is the critical step to cause the onResume, onPause
// onNewIntent, onResume sequence. If step 3 is skipped the
// sequence will be onNewIntent, onResume and all will be well.
setIntent(new Intent(ACTION_UNDEFINED));
// Cleanup Ota Screen if necessary and set the panel
// to VISIBLE.
if (mCM.getState() != PhoneConstants.State.OFFHOOK) {
if (mApp.otaUtils != null) {
mApp.otaUtils.cleanOtaScreen(true);
}
} else {
log("WARNING: Setting mode to UNDEFINED but phone is OFFHOOK,"
+ " skip cleanOtaScreen.");
}
break;
}
}
/**
* @return true if the "Manage conference" UI is currently visible.
*/
/* package */ boolean isManageConferenceMode() {
return (mApp.inCallUiState.inCallScreenMode == InCallScreenMode.MANAGE_CONFERENCE);
}
/**
* Checks if the "Manage conference" UI needs to be updated.
* If the state of the current conference call has changed
* since our previous call to updateManageConferencePanel()),
* do a fresh update. Also, if the current call is no longer a
* conference call at all, bail out of the "Manage conference" UI and
* return to InCallScreenMode.NORMAL mode.
*/
private void updateManageConferencePanelIfNecessary() {
if (VDBG) log("updateManageConferencePanelIfNecessary: " + mCM.getActiveFgCall() + "...");
List<Connection> connections = mCM.getFgCallConnections();
if (connections == null) {
if (VDBG) log("==> no connections on foreground call!");
// Hide the Manage Conference panel, return to NORMAL mode.
setInCallScreenMode(InCallScreenMode.NORMAL);
SyncWithPhoneStateStatus status = syncWithPhoneState();
if (status != SyncWithPhoneStateStatus.SUCCESS) {
Log.w(LOG_TAG, "- syncWithPhoneState failed! status = " + status);
// We shouldn't even be in the in-call UI in the first
// place, so bail out:
if (DBG) log("updateManageConferencePanelIfNecessary: endInCallScreenSession... 1");
endInCallScreenSession();
return;
}
return;
}
int numConnections = connections.size();
if (numConnections <= 1) {
if (VDBG) log("==> foreground call no longer a conference!");
// Hide the Manage Conference panel, return to NORMAL mode.
setInCallScreenMode(InCallScreenMode.NORMAL);
SyncWithPhoneStateStatus status = syncWithPhoneState();
if (status != SyncWithPhoneStateStatus.SUCCESS) {
Log.w(LOG_TAG, "- syncWithPhoneState failed! status = " + status);
// We shouldn't even be in the in-call UI in the first
// place, so bail out:
if (DBG) log("updateManageConferencePanelIfNecessary: endInCallScreenSession... 2");
endInCallScreenSession();
return;
}
return;
}
// TODO: the test to see if numConnections has changed can go in
// updateManageConferencePanel(), rather than here.
if (numConnections != mManageConferenceUtils.getNumCallersInConference()) {
if (VDBG) log("==> Conference size has changed; need to rebuild UI!");
mManageConferenceUtils.updateManageConferencePanel(connections);
}
}
/**
* Updates {@link #mCallCard}'s visibility state per DTMF dialpad visibility. They
* cannot be shown simultaneously and thus we should reflect DTMF dialpad visibility into
* another.
*
* Note: During OTA calls or users' managing conference calls, we should *not* call this method
* but manually manage both visibility.
*
* @see #updateScreen()
*/
private void updateCallCardVisibilityPerDialerState(boolean animate) {
// We need to hide the CallCard while the dialpad is visible.
if (isDialerOpened()) {
if (VDBG) {
log("- updateCallCardVisibilityPerDialerState(animate="
+ animate + "): dialpad open, hide mCallCard...");
}
if (animate) {
AnimationUtils.Fade.hide(mCallCard, View.GONE);
} else {
mCallCard.setVisibility(View.GONE);
}
} else {
// Dialpad is dismissed; bring back the CallCard if it's supposed to be visible.
if ((mApp.inCallUiState.inCallScreenMode == InCallScreenMode.NORMAL)
|| (mApp.inCallUiState.inCallScreenMode == InCallScreenMode.CALL_ENDED)) {
if (VDBG) {
log("- updateCallCardVisibilityPerDialerState(animate="
+ animate + "): dialpad dismissed, show mCallCard...");
}
if (animate) {
AnimationUtils.Fade.show(mCallCard);
} else {
mCallCard.setVisibility(View.VISIBLE);
}
}
}
}
/**
* @see DTMFTwelveKeyDialer#isOpened()
*/
/* package */ boolean isDialerOpened() {
return (mDialer != null && mDialer.isOpened());
}
/**
* Called any time the DTMF dialpad is opened.
* @see DTMFTwelveKeyDialer#openDialer(boolean)
*/
/* package */ void onDialerOpen(boolean animate) {
if (DBG) log("onDialerOpen()...");
// Update the in-call touch UI.
updateInCallTouchUi();
// Update CallCard UI, which depends on the dialpad.
updateCallCardVisibilityPerDialerState(animate);
// This counts as explicit "user activity".
mApp.pokeUserActivity();
//If on OTA Call, hide OTA Screen
// TODO: This may not be necessary, now that the dialpad is
// always visible in OTA mode.
if ((mApp.inCallUiState.inCallScreenMode == InCallScreenMode.OTA_NORMAL
|| mApp.inCallUiState.inCallScreenMode == InCallScreenMode.OTA_ENDED)
&& mApp.otaUtils != null) {
mApp.otaUtils.hideOtaScreen();
}
}
/**
* Called any time the DTMF dialpad is closed.
* @see DTMFTwelveKeyDialer#closeDialer(boolean)
*/
/* package */ void onDialerClose(boolean animate) {
if (DBG) log("onDialerClose()...");
// OTA-specific cleanup upon closing the dialpad.
if ((mApp.inCallUiState.inCallScreenMode == InCallScreenMode.OTA_NORMAL)
|| (mApp.inCallUiState.inCallScreenMode == InCallScreenMode.OTA_ENDED)
|| ((mApp.cdmaOtaScreenState != null)
&& (mApp.cdmaOtaScreenState.otaScreenState ==
CdmaOtaScreenState.OtaScreenState.OTA_STATUS_ACTIVATION))) {
if (mApp.otaUtils != null) {
mApp.otaUtils.otaShowProperScreen();
}
}
// Update the in-call touch UI.
updateInCallTouchUi();
// Update CallCard UI, which depends on the dialpad.
updateCallCardVisibilityPerDialerState(animate);
// This counts as explicit "user activity".
mApp.pokeUserActivity();
}
/**
* Determines when we can dial DTMF tones.
*/
/* package */ boolean okToDialDTMFTones() {
final boolean hasRingingCall = mCM.hasActiveRingingCall();
final Call.State fgCallState = mCM.getActiveFgCallState();
// We're allowed to send DTMF tones when there's an ACTIVE
// foreground call, and not when an incoming call is ringing
// (since DTMF tones are useless in that state), or if the
// Manage Conference UI is visible (since the tab interferes
// with the "Back to call" button.)
// We can also dial while in ALERTING state because there are
// some connections that never update to an ACTIVE state (no
// indication from the network).
boolean canDial =
(fgCallState == Call.State.ACTIVE || fgCallState == Call.State.ALERTING)
&& !hasRingingCall
&& (mApp.inCallUiState.inCallScreenMode != InCallScreenMode.MANAGE_CONFERENCE);
if (VDBG) log ("[okToDialDTMFTones] foreground state: " + fgCallState +
", ringing state: " + hasRingingCall +
", call screen mode: " + mApp.inCallUiState.inCallScreenMode +
", result: " + canDial);
return canDial;
}
/**
* @return true if the in-call DTMF dialpad should be available to the
* user, given the current state of the phone and the in-call UI.
* (This is used to control the enabledness of the "Show
* dialpad" onscreen button; see InCallControlState.dialpadEnabled.)
*/
/* package */ boolean okToShowDialpad() {
// Very similar to okToDialDTMFTones(), but allow DIALING here.
final Call.State fgCallState = mCM.getActiveFgCallState();
return okToDialDTMFTones() || (fgCallState == Call.State.DIALING);
}
/**
* Initializes the in-call touch UI on devices that need it.
*/
private void initInCallTouchUi() {
if (DBG) log("initInCallTouchUi()...");
// TODO: we currently use the InCallTouchUi widget in at least
// some states on ALL platforms. But if some devices ultimately
// end up not using *any* onscreen touch UI, we should make sure
// to not even inflate the InCallTouchUi widget on those devices.
mInCallTouchUi = (InCallTouchUi) findViewById(R.id.inCallTouchUi);
mInCallTouchUi.setInCallScreenInstance(this);
// RespondViaSmsManager implements the "Respond via SMS"
// feature that's triggered from the incoming call widget.
mRespondViaSmsManager = new RespondViaSmsManager();
mRespondViaSmsManager.setInCallScreenInstance(this);
}
/**
* Updates the state of the in-call touch UI.
*/
private void updateInCallTouchUi() {
if (mInCallTouchUi != null) {
mInCallTouchUi.updateState(mCM);
}
}
/**
* @return the InCallTouchUi widget
*/
/* package */ InCallTouchUi getInCallTouchUi() {
return mInCallTouchUi;
}
/**
* Posts a handler message telling the InCallScreen to refresh the
* onscreen in-call UI.
*
* This is just a wrapper around updateScreen(), for use by the
* rest of the phone app or from a thread other than the UI thread.
*
* updateScreen() is a no-op if the InCallScreen is not the foreground
* activity, so it's safe to call this whether or not the InCallScreen
* is currently visible.
*/
/* package */ void requestUpdateScreen() {
if (DBG) log("requestUpdateScreen()...");
mHandler.removeMessages(REQUEST_UPDATE_SCREEN);
mHandler.sendEmptyMessage(REQUEST_UPDATE_SCREEN);
}
/**
* @return true if we're in restricted / emergency dialing only mode.
*/
public boolean isPhoneStateRestricted() {
// TODO: This needs to work IN TANDEM with the KeyGuardViewMediator Code.
// Right now, it looks like the mInputRestricted flag is INTERNAL to the
// KeyGuardViewMediator and SPECIFICALLY set to be FALSE while the emergency
// phone call is being made, to allow for input into the InCallScreen.
// Having the InCallScreen judge the state of the device from this flag
// becomes meaningless since it is always false for us. The mediator should
// have an additional API to let this app know that it should be restricted.
int serviceState = mCM.getServiceState();
return ((serviceState == ServiceState.STATE_EMERGENCY_ONLY) ||
(serviceState == ServiceState.STATE_OUT_OF_SERVICE) ||
(mApp.getKeyguardManager().inKeyguardRestrictedInputMode()));
}
//
// Bluetooth helper methods.
//
// - BluetoothAdapter is the Bluetooth system service. If
// getDefaultAdapter() returns null
// then the device is not BT capable. Use BluetoothDevice.isEnabled()
// to see if BT is enabled on the device.
//
// - BluetoothHeadset is the API for the control connection to a
// Bluetooth Headset. This lets you completely connect/disconnect a
// headset (which we don't do from the Phone UI!) but also lets you
// get the address of the currently active headset and see whether
// it's currently connected.
/**
* @return true if the Bluetooth on/off switch in the UI should be
* available to the user (i.e. if the device is BT-capable
* and a headset is connected.)
*/
/* package */ boolean isBluetoothAvailable() {
if (VDBG) log("isBluetoothAvailable()...");
// There's no need to ask the Bluetooth system service if BT is enabled:
//
// BluetoothAdapter adapter = BluetoothAdapter.getDefaultAdapter();
// if ((adapter == null) || !adapter.isEnabled()) {
// if (DBG) log(" ==> FALSE (BT not enabled)");
// return false;
// }
// if (DBG) log(" - BT enabled! device name " + adapter.getName()
// + ", address " + adapter.getAddress());
//
// ...since we already have a BluetoothHeadset instance. We can just
// call isConnected() on that, and assume it'll be false if BT isn't
// enabled at all.
// Check if there's a connected headset, using the BluetoothHeadset API.
boolean isConnected = false;
if (mBluetoothHeadset != null) {
List<BluetoothDevice> deviceList = mBluetoothHeadset.getConnectedDevices();
if (deviceList.size() > 0) {
BluetoothDevice device = deviceList.get(0);
isConnected = true;
if (VDBG) log(" - headset state = " +
mBluetoothHeadset.getConnectionState(device));
if (VDBG) log(" - headset address: " + device);
if (VDBG) log(" - isConnected: " + isConnected);
}
}
if (VDBG) log(" ==> " + isConnected);
return isConnected;
}
/**
* @return true if a BT Headset is available, and its audio is currently connected.
*/
/* package */ boolean isBluetoothAudioConnected() {
if (mBluetoothHeadset == null) {
if (VDBG) log("isBluetoothAudioConnected: ==> FALSE (null mBluetoothHeadset)");
return false;
}
List<BluetoothDevice> deviceList = mBluetoothHeadset.getConnectedDevices();
if (deviceList.isEmpty()) {
return false;
}
BluetoothDevice device = deviceList.get(0);
boolean isAudioOn = mBluetoothHeadset.isAudioConnected(device);
if (VDBG) log("isBluetoothAudioConnected: ==> isAudioOn = " + isAudioOn);
return isAudioOn;
}
/**
* Helper method used to control the onscreen "Bluetooth" indication;
* see InCallControlState.bluetoothIndicatorOn.
*
* @return true if a BT device is available and its audio is currently connected,
* <b>or</b> if we issued a BluetoothHeadset.connectAudio()
* call within the last 5 seconds (which presumably means
* that the BT audio connection is currently being set
* up, and will be connected soon.)
*/
/* package */ boolean isBluetoothAudioConnectedOrPending() {
if (isBluetoothAudioConnected()) {
if (VDBG) log("isBluetoothAudioConnectedOrPending: ==> TRUE (really connected)");
return true;
}
// If we issued a connectAudio() call "recently enough", even
// if BT isn't actually connected yet, let's still pretend BT is
// on. This makes the onscreen indication more responsive.
if (mBluetoothConnectionPending) {
long timeSinceRequest =
SystemClock.elapsedRealtime() - mBluetoothConnectionRequestTime;
if (timeSinceRequest < 5000 /* 5 seconds */) {
if (VDBG) log("isBluetoothAudioConnectedOrPending: ==> TRUE (requested "
+ timeSinceRequest + " msec ago)");
return true;
} else {
if (VDBG) log("isBluetoothAudioConnectedOrPending: ==> FALSE (request too old: "
+ timeSinceRequest + " msec ago)");
mBluetoothConnectionPending = false;
return false;
}
}
if (VDBG) log("isBluetoothAudioConnectedOrPending: ==> FALSE");
return false;
}
/**
* Posts a message to our handler saying to update the onscreen UI
* based on a bluetooth headset state change.
*/
/* package */ void requestUpdateBluetoothIndication() {
if (VDBG) log("requestUpdateBluetoothIndication()...");
// No need to look at the current state here; any UI elements that
// care about the bluetooth state (i.e. the CallCard) get
// the necessary state directly from PhoneApp.showBluetoothIndication().
mHandler.removeMessages(REQUEST_UPDATE_BLUETOOTH_INDICATION);
mHandler.sendEmptyMessage(REQUEST_UPDATE_BLUETOOTH_INDICATION);
}
private void dumpBluetoothState() {
log("============== dumpBluetoothState() =============");
log("= isBluetoothAvailable: " + isBluetoothAvailable());
log("= isBluetoothAudioConnected: " + isBluetoothAudioConnected());
log("= isBluetoothAudioConnectedOrPending: " + isBluetoothAudioConnectedOrPending());
log("= PhoneApp.showBluetoothIndication: "
+ mApp.showBluetoothIndication());
log("=");
if (mBluetoothAdapter != null) {
if (mBluetoothHeadset != null) {
List<BluetoothDevice> deviceList = mBluetoothHeadset.getConnectedDevices();
if (deviceList.size() > 0) {
BluetoothDevice device = deviceList.get(0);
log("= BluetoothHeadset.getCurrentDevice: " + device);
log("= BluetoothHeadset.State: "
+ mBluetoothHeadset.getConnectionState(device));
log("= BluetoothHeadset audio connected: " +
mBluetoothHeadset.isAudioConnected(device));
}
} else {
log("= mBluetoothHeadset is null");
}
} else {
log("= mBluetoothAdapter is null; device is not BT capable");
}
}
/* package */ void connectBluetoothAudio() {
if (VDBG) log("connectBluetoothAudio()...");
if (mBluetoothHeadset != null) {
// TODO(BT) check return
mBluetoothHeadset.connectAudio();
}
// Watch out: The bluetooth connection doesn't happen instantly;
// the connectAudio() call returns instantly but does its real
// work in another thread. The mBluetoothConnectionPending flag
// is just a little trickery to ensure that the onscreen UI updates
// instantly. (See isBluetoothAudioConnectedOrPending() above.)
mBluetoothConnectionPending = true;
mBluetoothConnectionRequestTime = SystemClock.elapsedRealtime();
}
/* package */ void disconnectBluetoothAudio() {
if (VDBG) log("disconnectBluetoothAudio()...");
if (mBluetoothHeadset != null) {
mBluetoothHeadset.disconnectAudio();
}
mBluetoothConnectionPending = false;
}
/**
* Posts a handler message telling the InCallScreen to close
* the OTA failure notice after the specified delay.
* @see OtaUtils.otaShowProgramFailureNotice
*/
/* package */ void requestCloseOtaFailureNotice(long timeout) {
if (DBG) log("requestCloseOtaFailureNotice() with timeout: " + timeout);
mHandler.sendEmptyMessageDelayed(REQUEST_CLOSE_OTA_FAILURE_NOTICE, timeout);
// TODO: we probably ought to call removeMessages() for this
// message code in either onPause or onResume, just to be 100%
// sure that the message we just posted has no way to affect a
// *different* call if the user quickly backs out and restarts.
// (This is also true for requestCloseSpcErrorNotice() below, and
// probably anywhere else we use mHandler.sendEmptyMessageDelayed().)
}
/**
* Posts a handler message telling the InCallScreen to close
* the SPC error notice after the specified delay.
* @see OtaUtils.otaShowSpcErrorNotice
*/
/* package */ void requestCloseSpcErrorNotice(long timeout) {
if (DBG) log("requestCloseSpcErrorNotice() with timeout: " + timeout);
mHandler.sendEmptyMessageDelayed(REQUEST_CLOSE_SPC_ERROR_NOTICE, timeout);
}
public boolean isOtaCallInActiveState() {
if ((mApp.inCallUiState.inCallScreenMode == InCallScreenMode.OTA_NORMAL)
|| ((mApp.cdmaOtaScreenState != null)
&& (mApp.cdmaOtaScreenState.otaScreenState ==
CdmaOtaScreenState.OtaScreenState.OTA_STATUS_ACTIVATION))) {
return true;
} else {
return false;
}
}
/**
* Handle OTA Call End scenario when display becomes dark during OTA Call
* and InCallScreen is in pause mode. CallNotifier will listen for call
* end indication and call this api to handle OTA Call end scenario
*/
public void handleOtaCallEnd() {
if (DBG) log("handleOtaCallEnd entering");
if (((mApp.inCallUiState.inCallScreenMode == InCallScreenMode.OTA_NORMAL)
|| ((mApp.cdmaOtaScreenState != null)
&& (mApp.cdmaOtaScreenState.otaScreenState !=
CdmaOtaScreenState.OtaScreenState.OTA_STATUS_UNDEFINED)))
&& ((mApp.cdmaOtaProvisionData != null)
&& (!mApp.cdmaOtaProvisionData.inOtaSpcState))) {
if (DBG) log("handleOtaCallEnd - Set OTA Call End stater");
setInCallScreenMode(InCallScreenMode.OTA_ENDED);
updateScreen();
}
}
public boolean isOtaCallInEndState() {
return (mApp.inCallUiState.inCallScreenMode == InCallScreenMode.OTA_ENDED);
}
/**
* Upon resuming the in-call UI, check to see if an OTASP call is in
* progress, and if so enable the special OTASP-specific UI.
*
* TODO: have a simple single flag in InCallUiState for this rather than
* needing to know about all those mApp.cdma*State objects.
*
* @return true if any OTASP-related UI is active
*/
private boolean checkOtaspStateOnResume() {
// If there's no OtaUtils instance, that means we haven't even tried
// to start an OTASP call (yet), so there's definitely nothing to do here.
if (mApp.otaUtils == null) {
if (DBG) log("checkOtaspStateOnResume: no OtaUtils instance; nothing to do.");
return false;
}
if ((mApp.cdmaOtaScreenState == null) || (mApp.cdmaOtaProvisionData == null)) {
// Uh oh -- something wrong with our internal OTASP state.
// (Since this is an OTASP-capable device, these objects
// *should* have already been created by PhoneApp.onCreate().)
throw new IllegalStateException("checkOtaspStateOnResume: "
+ "app.cdmaOta* objects(s) not initialized");
}
// The PhoneApp.cdmaOtaInCallScreenUiState instance is the
// authoritative source saying whether or not the in-call UI should
// show its OTASP-related UI.
OtaUtils.CdmaOtaInCallScreenUiState.State cdmaOtaInCallScreenState =
mApp.otaUtils.getCdmaOtaInCallScreenUiState();
// These states are:
// - UNDEFINED: no OTASP-related UI is visible
// - NORMAL: OTASP call in progress, so show in-progress OTASP UI
// - ENDED: OTASP call just ended, so show success/failure indication
boolean otaspUiActive =
(cdmaOtaInCallScreenState == OtaUtils.CdmaOtaInCallScreenUiState.State.NORMAL)
|| (cdmaOtaInCallScreenState == OtaUtils.CdmaOtaInCallScreenUiState.State.ENDED);
if (otaspUiActive) {
// Make sure the OtaUtils instance knows about the InCallScreen's
// OTASP-related UI widgets.
//
// (This call has no effect if the UI widgets have already been set up.
// It only really matters the very first time that the InCallScreen instance
// is onResume()d after starting an OTASP call.)
mApp.otaUtils.updateUiWidgets(this, mInCallTouchUi, mCallCard);
// Also update the InCallScreenMode based on the cdmaOtaInCallScreenState.
if (cdmaOtaInCallScreenState == OtaUtils.CdmaOtaInCallScreenUiState.State.NORMAL) {
if (DBG) log("checkOtaspStateOnResume - in OTA Normal mode");
setInCallScreenMode(InCallScreenMode.OTA_NORMAL);
} else if (cdmaOtaInCallScreenState ==
OtaUtils.CdmaOtaInCallScreenUiState.State.ENDED) {
if (DBG) log("checkOtaspStateOnResume - in OTA END mode");
setInCallScreenMode(InCallScreenMode.OTA_ENDED);
}
// TODO(OTASP): we might also need to go into OTA_ENDED mode
// in one extra case:
//
// else if (mApp.cdmaOtaScreenState.otaScreenState ==
// CdmaOtaScreenState.OtaScreenState.OTA_STATUS_SUCCESS_FAILURE_DLG) {
// if (DBG) log("checkOtaspStateOnResume - set OTA END Mode");
// setInCallScreenMode(InCallScreenMode.OTA_ENDED);
// }
} else {
// OTASP is not active; reset to regular in-call UI.
if (DBG) log("checkOtaspStateOnResume - Set OTA NORMAL Mode");
setInCallScreenMode(InCallScreenMode.OTA_NORMAL);
if (mApp.otaUtils != null) {
mApp.otaUtils.cleanOtaScreen(false);
}
}
// TODO(OTASP):
// The original check from checkIsOtaCall() when handling ACTION_MAIN was this:
//
// [ . . . ]
// else if (action.equals(intent.ACTION_MAIN)) {
// if (DBG) log("checkIsOtaCall action ACTION_MAIN");
// boolean isRingingCall = mCM.hasActiveRingingCall();
// if (isRingingCall) {
// if (DBG) log("checkIsOtaCall isRingingCall: " + isRingingCall);
// return false;
// } else if ((mApp.cdmaOtaInCallScreenUiState.state
// == CdmaOtaInCallScreenUiState.State.NORMAL)
// || (mApp.cdmaOtaInCallScreenUiState.state
// == CdmaOtaInCallScreenUiState.State.ENDED)) {
// if (DBG) log("action ACTION_MAIN, OTA call already in progress");
// isOtaCall = true;
// } else {
// if (mApp.cdmaOtaScreenState.otaScreenState !=
// CdmaOtaScreenState.OtaScreenState.OTA_STATUS_UNDEFINED) {
// if (DBG) log("checkIsOtaCall action ACTION_MAIN, "
// + "OTA call in progress with UNDEFINED");
// isOtaCall = true;
// }
// }
// }
//
// Also, in internalResolveIntent() we used to do this:
//
// if ((mApp.inCallUiState.inCallScreenMode == InCallScreenMode.OTA_NORMAL)
// || (mApp.inCallUiState.inCallScreenMode == InCallScreenMode.OTA_ENDED)) {
// // If in OTA Call, update the OTA UI
// updateScreen();
// return;
// }
//
// We still need more cleanup to simplify the mApp.cdma*State objects.
return otaspUiActive;
}
/**
* Updates and returns the InCallControlState instance.
*/
public InCallControlState getUpdatedInCallControlState() {
if (VDBG) log("getUpdatedInCallControlState()...");
mInCallControlState.update();
return mInCallControlState;
}
public void resetInCallScreenMode() {
if (DBG) log("resetInCallScreenMode: setting mode to UNDEFINED...");
setInCallScreenMode(InCallScreenMode.UNDEFINED);
}
/**
* Updates the onscreen hint displayed while the user is dragging one
* of the handles of the RotarySelector widget used for incoming
* calls.
*
* @param hintTextResId resource ID of the hint text to display,
* or 0 if no hint should be visible.
* @param hintColorResId resource ID for the color of the hint text
*/
/* package */ void updateIncomingCallWidgetHint(int hintTextResId, int hintColorResId) {
if (VDBG) log("updateIncomingCallWidgetHint(" + hintTextResId + ")...");
if (mCallCard != null) {
mCallCard.setIncomingCallWidgetHint(hintTextResId, hintColorResId);
mCallCard.updateState(mCM);
// TODO: if hintTextResId == 0, consider NOT clearing the onscreen
// hint right away, but instead post a delayed handler message to
// keep it onscreen for an extra second or two. (This might make
// the hint more helpful if the user quickly taps one of the
// handles without dragging at all...)
// (Or, maybe this should happen completely within the RotarySelector
// widget, since the widget itself probably wants to keep the colored
// arrow visible for some extra time also...)
}
}
/**
* Used when we need to update buttons outside InCallTouchUi's updateInCallControls() along
* with that method being called. CallCard may call this too because it doesn't have
* enough information to update buttons inside itself (more specifically, the class cannot
* obtain mInCallControllState without some side effect. See also
* {@link #getUpdatedInCallControlState()}. We probably don't want a method like
* getRawCallControlState() which returns raw intance with no side effect just for this
* corner case scenario)
*
* TODO: need better design for buttons outside InCallTouchUi.
*/
/* package */ void updateButtonStateOutsideInCallTouchUi() {
if (mCallCard != null) {
mCallCard.setSecondaryCallClickable(mInCallControlState.canSwap);
}
}
@Override
public boolean dispatchPopulateAccessibilityEvent(AccessibilityEvent event) {
super.dispatchPopulateAccessibilityEvent(event);
mCallCard.dispatchPopulateAccessibilityEvent(event);
return true;
}
/**
* Manually handle configuration changes.
*
* Originally android:configChanges was set to "orientation|keyboardHidden|uiMode"
* in order "to make sure the system doesn't destroy and re-create us due to the
* above config changes". However it is currently set to "keyboardHidden" since
* the system needs to handle rotation when inserted into a compatible cardock.
* Even without explicitly handling orientation and uiMode, the app still runs
* and does not drop the call when rotated.
*
*/
public void onConfigurationChanged(Configuration newConfig) {
if (DBG) log("onConfigurationChanged: newConfig = " + newConfig);
// Note: At the time this function is called, our Resources object
// will have already been updated to return resource values matching
// the new configuration.
// Watch out: we *can* still get destroyed and recreated if a
// configuration change occurs that is *not* listed in the
// android:configChanges attribute. TODO: Any others we need to list?
super.onConfigurationChanged(newConfig);
// Nothing else to do here, since (currently) the InCallScreen looks
// exactly the same regardless of configuration.
// (Specifically, we'll never be in landscape mode because we set
// android:screenOrientation="portrait" in our manifest, and we don't
// change our UI at all based on newConfig.keyboardHidden or
// newConfig.uiMode.)
// TODO: we do eventually want to handle at least some config changes, such as:
boolean isKeyboardOpen = (newConfig.keyboardHidden == Configuration.KEYBOARDHIDDEN_NO);
if (DBG) log(" - isKeyboardOpen = " + isKeyboardOpen);
boolean isLandscape = (newConfig.orientation == Configuration.ORIENTATION_LANDSCAPE);
if (DBG) log(" - isLandscape = " + isLandscape);
if (DBG) log(" - uiMode = " + newConfig.uiMode);
// See bug 2089513.
}
/**
* Handles an incoming RING event from the telephony layer.
*/
private void onIncomingRing() {
if (DBG) log("onIncomingRing()...");
// IFF we're visible, forward this event to the InCallTouchUi
// instance (which uses this event to drive the animation of the
// incoming-call UI.)
if (mIsForegroundActivity && (mInCallTouchUi != null)) {
mInCallTouchUi.onIncomingRing();
}
}
/**
* Handles a "new ringing connection" event from the telephony layer.
*
* This event comes in right at the start of the incoming-call sequence,
* exactly once per incoming call.
*
* Watch out: this won't be called if InCallScreen isn't ready yet,
* which typically happens for the first incoming phone call (even before
* the possible first outgoing call).
*/
private void onNewRingingConnection() {
if (DBG) log("onNewRingingConnection()...");
// We use this event to reset any incoming-call-related UI elements
// that might have been left in an inconsistent state after a prior
// incoming call.
// (Note we do this whether or not we're the foreground activity,
// since this event comes in *before* we actually get launched to
// display the incoming-call UI.)
// If there's a "Respond via SMS" popup still around since the
// last time we were the foreground activity, make sure it's not
// still active(!) since that would interfere with *this* incoming
// call.
// (Note that we also do this same check in onResume(). But we
// need it here too, to make sure the popup gets reset in the case
// where a call-waiting call comes in while the InCallScreen is
// already in the foreground.)
mRespondViaSmsManager.dismissPopup(); // safe even if already dismissed
}
/**
* Enables or disables the status bar "window shade" based on the current situation.
*/
private void updateExpandedViewState() {
if (mIsForegroundActivity) {
if (mApp.proximitySensorModeEnabled()) {
// We should not enable notification's expanded view on RINGING state.
mApp.notificationMgr.statusBarHelper.enableExpandedView(
mCM.getState() != PhoneConstants.State.RINGING);
} else {
// If proximity sensor is unavailable on the device, disable it to avoid false
// touches toward notifications.
mApp.notificationMgr.statusBarHelper.enableExpandedView(false);
}
} else {
mApp.notificationMgr.statusBarHelper.enableExpandedView(true);
}
}
private void log(String msg) {
Log.d(LOG_TAG, msg);
}
/**
* Requests to remove provider info frame after having
* {@link #PROVIDER_INFO_TIMEOUT}) msec delay.
*/
/* package */ void requestRemoveProviderInfoWithDelay() {
// Remove any zombie messages and then send a message to
// self to remove the provider info after some time.
mHandler.removeMessages(EVENT_HIDE_PROVIDER_INFO);
Message msg = Message.obtain(mHandler, EVENT_HIDE_PROVIDER_INFO);
mHandler.sendMessageDelayed(msg, PROVIDER_INFO_TIMEOUT);
if (DBG) {
log("Requested to remove provider info after " + PROVIDER_INFO_TIMEOUT + " msec.");
}
}
/**
* Indicates whether or not the QuickResponseDialog is currently showing in the call screen
*/
public boolean isQuickResponseDialogShowing() {
return mRespondViaSmsManager != null && mRespondViaSmsManager.isShowingPopup();
}
}