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android / platform / packages / services / Telephony / 5ccda616708b298d6f71598b6ac23a94cd6033f8 / . / src / com / android / phone / OtaUtils.java
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/*
* Copyright (C) 2009 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 com.android.internal.telephony.Phone;
import com.android.internal.telephony.PhoneConstants;
import com.android.internal.telephony.TelephonyCapabilities;
import com.android.internal.telephony.TelephonyProperties;
import com.android.phone.OtaUtils.CdmaOtaInCallScreenUiState.State;
import android.app.Activity;
import android.app.ActivityManager;
import android.app.AlertDialog;
import android.app.PendingIntent;
import android.app.PendingIntent.CanceledException;
import android.content.ActivityNotFoundException;
import android.content.Context;
import android.content.DialogInterface;
import android.content.Intent;
import android.net.Uri;
import android.os.AsyncResult;
import android.os.Handler;
import android.os.SystemClock;
import android.os.SystemProperties;
import android.os.UserHandle;
import android.telecom.PhoneAccount;
import android.telephony.TelephonyManager;
import android.util.Log;
import android.view.KeyEvent;
import android.view.View;
import android.view.ViewGroup;
import android.view.WindowManager;
import android.widget.Button;
import android.widget.ProgressBar;
import android.widget.TextView;
import android.widget.ToggleButton;
/**
* Handles all OTASP Call related logic and UI functionality.
* The InCallScreen interacts with this class to perform an OTASP Call.
*
* OTASP is a CDMA-specific feature:
* OTA or OTASP == Over The Air service provisioning
* SPC == Service Programming Code
* TODO: Include pointer to more detailed documentation.
*
* TODO: This is Over The Air Service Provisioning (OTASP)
* A better name would be OtaspUtils.java.
*/
public class OtaUtils {
private static final String LOG_TAG = "OtaUtils";
private static final boolean DBG = false;
public static final int OTA_SHOW_ACTIVATION_SCREEN_OFF = 0;
public static final int OTA_SHOW_ACTIVATION_SCREEN_ON = 1;
public static final int OTA_SHOW_LISTENING_SCREEN_OFF =0;
public static final int OTA_SHOW_LISTENING_SCREEN_ON =1;
public static final int OTA_SHOW_ACTIVATE_FAIL_COUNT_OFF = 0;
public static final int OTA_SHOW_ACTIVATE_FAIL_COUNT_THREE = 3;
public static final int OTA_PLAY_SUCCESS_FAILURE_TONE_OFF = 0;
public static final int OTA_PLAY_SUCCESS_FAILURE_TONE_ON = 1;
// SPC Timeout is 60 seconds
public final int OTA_SPC_TIMEOUT = 60;
public final int OTA_FAILURE_DIALOG_TIMEOUT = 2;
// Constants for OTASP-related Intents and intent extras.
// Watch out: these must agree with the corresponding constants in
// apps/SetupWizard!
// Intent action to launch an OTASP call.
public static final String ACTION_PERFORM_CDMA_PROVISIONING =
"com.android.phone.PERFORM_CDMA_PROVISIONING";
// Intent action to launch activation on a non-voice capable device
public static final String ACTION_PERFORM_VOICELESS_CDMA_PROVISIONING =
"com.android.phone.PERFORM_VOICELESS_CDMA_PROVISIONING";
// Intent action to display the InCallScreen in the OTASP "activation" state.
public static final String ACTION_DISPLAY_ACTIVATION_SCREEN =
"com.android.phone.DISPLAY_ACTIVATION_SCREEN";
// boolean voiceless provisioning extra that enables a "don't show this again" checkbox
// the user can check to never see the activity upon bootup again
public static final String EXTRA_VOICELESS_PROVISIONING_OFFER_DONTSHOW =
"com.android.phone.VOICELESS_PROVISIONING_OFFER_DONTSHOW";
// Activity result codes for the ACTION_PERFORM_CDMA_PROVISIONING intent
// (see the InCallScreenShowActivation activity.)
//
// Note: currently, our caller won't ever actually receive the
// RESULT_INTERACTIVE_OTASP_STARTED result code; see comments in
// InCallScreenShowActivation.onCreate() for details.
public static final int RESULT_INTERACTIVE_OTASP_STARTED = Activity.RESULT_FIRST_USER;
public static final int RESULT_NONINTERACTIVE_OTASP_STARTED = Activity.RESULT_FIRST_USER + 1;
public static final int RESULT_NONINTERACTIVE_OTASP_FAILED = Activity.RESULT_FIRST_USER + 2;
// Testing: Extra for the ACTION_PERFORM_CDMA_PROVISIONING intent that
// allows the caller to manually enable/disable "interactive mode" for
// the OTASP call. Only available in userdebug or eng builds.
public static final String EXTRA_OVERRIDE_INTERACTIVE_MODE =
"ota_override_interactive_mode";
// Extra for the ACTION_PERFORM_CDMA_PROVISIONING intent, holding a
// PendingIntent which the phone app can use to send a result code
// back to the caller.
public static final String EXTRA_OTASP_RESULT_CODE_PENDING_INTENT =
"otasp_result_code_pending_intent";
// Extra attached to the above PendingIntent that indicates
// success or failure.
public static final String EXTRA_OTASP_RESULT_CODE = "otasp_result_code";
// Extra attached to the above PendingIntent that contains an error code.
public static final String EXTRA_OTASP_ERROR_CODE = "otasp_error_code";
public static final int OTASP_UNKNOWN = 0;
public static final int OTASP_USER_SKIPPED = 1; // Only meaningful with interactive OTASP
public static final int OTASP_SUCCESS = 2;
public static final int OTASP_FAILURE = 3;
// failed due to CDMA_OTA_PROVISION_STATUS_SPC_RETRIES_EXCEEDED
public static final int OTASP_FAILURE_SPC_RETRIES = 4;
// TODO: Distinguish between interactive and non-interactive success
// and failure. Then, have the PendingIntent be sent after
// interactive OTASP as well (so the caller can find out definitively
// when interactive OTASP completes.)
private static final String OTASP_NUMBER = "*228";
private static final String OTASP_NUMBER_NON_INTERACTIVE = "*22899";
private Context mContext;
private PhoneGlobals mApplication;
private OtaWidgetData mOtaWidgetData;
private static boolean sIsWizardMode = true;
// How many times do we retry maybeDoOtaCall() if the LTE state is not known yet,
// and how long do we wait between retries
private static final int OTA_CALL_LTE_RETRIES_MAX = 5;
private static final int OTA_CALL_LTE_RETRY_PERIOD = 3000;
private static int sOtaCallLteRetries = 0;
// In "interactive mode", the OtaUtils object is tied to an
// InCallScreen instance, where we display a bunch of UI specific to
// the OTASP call. But on devices that are not "voice capable", the
// OTASP call runs in a non-interactive mode, and we don't have
// an InCallScreen or CallCard or any OTASP UI elements at all.
private boolean mInteractive = true;
/**
* OtaWidgetData class represent all OTA UI elements
*
* TODO(OTASP): It's really ugly for the OtaUtils object to reach into the
* InCallScreen like this and directly manipulate its widgets.
*
* Instead, the model/view separation should be more clear: OtaUtils
* should only know about a higher-level abstraction of the
* OTASP-specific UI state (just like how the CallController uses the
* InCallUiState object), and the InCallScreen itself should translate
* that higher-level abstraction into actual onscreen views and widgets.
*/
private class OtaWidgetData {
public Button otaEndButton;
public Button otaActivateButton;
public Button otaSkipButton;
public Button otaNextButton;
public ToggleButton otaSpeakerButton;
public ViewGroup otaUpperWidgets;
public View callCardOtaButtonsFailSuccess;
public ProgressBar otaTextProgressBar;
public TextView otaTextSuccessFail;
public View callCardOtaButtonsActivate;
public View callCardOtaButtonsListenProgress;
public TextView otaTextActivate;
public TextView otaTextListenProgress;
public AlertDialog spcErrorDialog;
public AlertDialog otaFailureDialog;
public AlertDialog otaSkipConfirmationDialog;
public TextView otaTitle;
public Button otaTryAgainButton;
}
/**
* OtaUtils constructor.
*
* @param context the Context of the calling Activity or Application
* @param interactive if true, use the InCallScreen to display the progress
* and result of the OTASP call. In practice this is
* true IFF the current device is a voice-capable phone.
*
* Note if interactive is true, you must also call updateUiWidgets() as soon
* as the InCallScreen instance is ready.
*/
public OtaUtils(Context context, boolean interactive) {
if (DBG) log("OtaUtils constructor...");
mApplication = PhoneGlobals.getInstance();
mContext = context;
mInteractive = interactive;
}
/**
* Starts the OTA provisioning call. If the MIN isn't available yet, it returns false and adds
* an event to return the request to the calling app when it becomes available.
*
* @param context
* @param handler
* @param request
* @return true if we were able to launch Ota activity or it's not required; false otherwise
*/
public static boolean maybeDoOtaCall(Context context, Handler handler, int request) {
PhoneGlobals app = PhoneGlobals.getInstance();
Phone phone = PhoneGlobals.getPhone();
if (ActivityManager.isRunningInTestHarness()) {
Log.i(LOG_TAG, "Don't run provisioning when in test harness");
return true;
}
if (!TelephonyCapabilities.supportsOtasp(phone)) {
// Presumably not a CDMA phone.
if (DBG) log("maybeDoOtaCall: OTASP not supported on this device");
return true; // Nothing to do here.
}
if (!phone.isMinInfoReady()) {
if (DBG) log("MIN is not ready. Registering to receive notification.");
phone.registerForSubscriptionInfoReady(handler, request, null);
return false;
}
phone.unregisterForSubscriptionInfoReady(handler);
if (getLteOnCdmaMode(context) == PhoneConstants.LTE_ON_CDMA_UNKNOWN) {
if (sOtaCallLteRetries < OTA_CALL_LTE_RETRIES_MAX) {
if (DBG) log("maybeDoOtaCall: LTE state still unknown: retrying");
handler.sendEmptyMessageDelayed(request, OTA_CALL_LTE_RETRY_PERIOD);
sOtaCallLteRetries++;
return false;
} else {
Log.w(LOG_TAG, "maybeDoOtaCall: LTE state still unknown: giving up");
return true;
}
}
boolean phoneNeedsActivation = phone.needsOtaServiceProvisioning();
if (DBG) log("phoneNeedsActivation is set to " + phoneNeedsActivation);
int otaShowActivationScreen = context.getResources().getInteger(
R.integer.OtaShowActivationScreen);
if (DBG) log("otaShowActivationScreen: " + otaShowActivationScreen);
// Run the OTASP call in "interactive" mode only if
// this is a non-LTE "voice capable" device.
if (PhoneGlobals.sVoiceCapable && getLteOnCdmaMode(context) == PhoneConstants.LTE_ON_CDMA_FALSE) {
if (phoneNeedsActivation
&& (otaShowActivationScreen == OTA_SHOW_ACTIVATION_SCREEN_ON)) {
app.cdmaOtaProvisionData.isOtaCallIntentProcessed = false;
sIsWizardMode = false;
if (DBG) Log.d(LOG_TAG, "==> Starting interactive CDMA provisioning...");
OtaUtils.startInteractiveOtasp(context);
if (DBG) log("maybeDoOtaCall: voice capable; activation started.");
} else {
if (DBG) log("maybeDoOtaCall: voice capable; activation NOT started.");
}
} else {
if (phoneNeedsActivation) {
app.cdmaOtaProvisionData.isOtaCallIntentProcessed = false;
Intent newIntent = new Intent(ACTION_PERFORM_VOICELESS_CDMA_PROVISIONING);
newIntent.setFlags(Intent.FLAG_ACTIVITY_NEW_TASK);
newIntent.putExtra(EXTRA_VOICELESS_PROVISIONING_OFFER_DONTSHOW, true);
try {
context.startActivity(newIntent);
} catch (ActivityNotFoundException e) {
loge("No activity Handling PERFORM_VOICELESS_CDMA_PROVISIONING!");
return false;
}
if (DBG) log("maybeDoOtaCall: non-interactive; activation intent sent.");
} else {
if (DBG) log("maybeDoOtaCall: non-interactive, no need for OTASP.");
}
}
return true;
}
/**
* Starts a normal "interactive" OTASP call (i.e. CDMA activation
* for regular voice-capable phone devices.)
*
* This method is called from the InCallScreenShowActivation activity when
* handling the ACTION_PERFORM_CDMA_PROVISIONING intent.
*/
public static void startInteractiveOtasp(Context context) {
if (DBG) log("startInteractiveOtasp()...");
PhoneGlobals app = PhoneGlobals.getInstance();
// There are two ways to start OTASP on voice-capable devices:
//
// (1) via the PERFORM_CDMA_PROVISIONING intent
// - this is triggered by the "Activate device" button in settings,
// or can be launched automatically upon boot if the device
// thinks it needs to be provisioned.
// - the intent is handled by InCallScreenShowActivation.onCreate(),
// which calls this method
// - we prepare for OTASP by initializing the OtaUtils object
// - we bring up the InCallScreen in the ready-to-activate state
// - when the user presses the "Activate" button we launch the
// call by calling CallController.placeCall() via the
// otaPerformActivation() method.
//
// (2) by manually making an outgoing call to a special OTASP number
// like "*228" or "*22899".
// - That sequence does NOT involve this method (OtaUtils.startInteractiveOtasp()).
// Instead, the outgoing call request goes straight to CallController.placeCall().
// - CallController.placeCall() notices that it's an OTASP
// call, and initializes the OtaUtils object.
// - The InCallScreen is launched (as the last step of
// CallController.placeCall()). The InCallScreen notices that
// OTASP is active and shows the correct UI.
// Here, we start sequence (1):
// Do NOT immediately start the call. Instead, bring up the InCallScreen
// in the special "activate" state (see OtaUtils.otaShowActivateScreen()).
// We won't actually make the call until the user presses the "Activate"
// button.
Intent activationScreenIntent = new Intent().setClass(context, InCallScreen.class)
.setAction(ACTION_DISPLAY_ACTIVATION_SCREEN);
// Watch out: in the scenario where OTASP gets triggered from the
// BOOT_COMPLETED broadcast (see OtaStartupReceiver.java), we might be
// running in the PhoneApp's context right now.
// So the FLAG_ACTIVITY_NEW_TASK flag is required here.
activationScreenIntent.setFlags(Intent.FLAG_ACTIVITY_NEW_TASK);
// We're about to start the OTASP sequence, so create and initialize the
// OtaUtils instance. (This needs to happen before bringing up the
// InCallScreen.)
OtaUtils.setupOtaspCall(activationScreenIntent);
// And bring up the InCallScreen...
Log.i(LOG_TAG, "startInteractiveOtasp: launching InCallScreen in 'activate' state: "
+ activationScreenIntent);
context.startActivity(activationScreenIntent);
}
/**
* Starts the OTASP call *without* involving the InCallScreen or
* displaying any UI.
*
* This is used on data-only devices, which don't support any kind of
* in-call phone UI.
*
* @return PhoneUtils.CALL_STATUS_DIALED if we successfully
* dialed the OTASP number, or one of the other
* CALL_STATUS_* constants if there was a failure.
*/
public static int startNonInteractiveOtasp(Context context) {
if (DBG) log("startNonInteractiveOtasp()...");
PhoneGlobals app = PhoneGlobals.getInstance();
if (app.otaUtils != null) {
// An OtaUtils instance already exists, presumably from a previous OTASP call.
Log.i(LOG_TAG, "startNonInteractiveOtasp: "
+ "OtaUtils already exists; nuking the old one and starting again...");
}
// Create the OtaUtils instance.
app.otaUtils = new OtaUtils(context, false /* non-interactive mode */);
if (DBG) log("- created OtaUtils: " + app.otaUtils);
// ... and kick off the OTASP call.
// TODO(InCallScreen redesign): This should probably go through
// the CallController, rather than directly calling
// PhoneUtils.placeCall().
Phone phone = PhoneGlobals.getPhone();
String number = OTASP_NUMBER_NON_INTERACTIVE;
Log.i(LOG_TAG, "startNonInteractiveOtasp: placing call to '" + number + "'...");
int callStatus = PhoneUtils.placeCall(context,
phone,
number,
null, // contactRef
false); //isEmergencyCall
if (callStatus == PhoneUtils.CALL_STATUS_DIALED) {
if (DBG) log(" ==> successful return from placeCall(): callStatus = " + callStatus);
} else {
Log.w(LOG_TAG, "Failure from placeCall() for OTA number '"
+ number + "': code " + callStatus);
return callStatus;
}
// TODO: Any other special work to do here?
// Such as:
//
// - manually kick off progress updates, either using TelephonyRegistry
// or else by sending PendingIntents directly to our caller?
//
// - manually silence the in-call audio? (Probably unnecessary
// if Stingray truly has no audio path from phone baseband
// to the device's speakers.)
//
return callStatus;
}
/**
* @return true if the specified Intent is a CALL action that's an attempt
* to initate an OTASP call.
*
* OTASP is a CDMA-specific concept, so this method will always return false
* on GSM phones.
*
* This code was originally part of the InCallScreen.checkIsOtaCall() method.
*/
public static boolean isOtaspCallIntent(Intent intent) {
if (DBG) log("isOtaspCallIntent(" + intent + ")...");
PhoneGlobals app = PhoneGlobals.getInstance();
Phone phone = app.mCM.getDefaultPhone();
if (intent == null) {
return false;
}
if (!TelephonyCapabilities.supportsOtasp(phone)) {
return false;
}
String action = intent.getAction();
if (action == null) {
return false;
}
if (!action.equals(Intent.ACTION_CALL)) {
if (DBG) log("isOtaspCallIntent: not a CALL action: '" + action + "' ==> not OTASP");
return false;
}
if ((app.cdmaOtaScreenState == null) || (app.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("isOtaspCallIntent: "
+ "app.cdmaOta* objects(s) not initialized");
}
// This is an OTASP call iff the number we're trying to dial is one of
// the magic OTASP numbers.
String number;
try {
number = PhoneUtils.getInitialNumber(intent);
} catch (PhoneUtils.VoiceMailNumberMissingException ex) {
// This was presumably a "voicemail:" intent, so it's
// obviously not an OTASP number.
if (DBG) log("isOtaspCallIntent: VoiceMailNumberMissingException => not OTASP");
return false;
}
if (phone.isOtaSpNumber(number)) {
if (DBG) log("isOtaSpNumber: ACTION_CALL to '" + number + "' ==> OTASP call!");
return true;
}
return false;
}
/**
* Set up for an OTASP call.
*
* This method is called as part of the CallController placeCall() sequence
* before initiating an outgoing OTASP call.
*
* The purpose of this method is mainly to create and initialize the
* OtaUtils instance, along with some other misc pre-OTASP cleanup.
*/
public static void setupOtaspCall(Intent intent) {
if (DBG) log("setupOtaspCall(): preparing for OTASP call to " + intent);
PhoneGlobals app = PhoneGlobals.getInstance();
if (app.otaUtils != null) {
// An OtaUtils instance already exists, presumably from a prior OTASP call.
// Nuke the old one and start this call with a fresh instance.
Log.i(LOG_TAG, "setupOtaspCall: "
+ "OtaUtils already exists; replacing with new instance...");
}
// Create the OtaUtils instance.
app.otaUtils = new OtaUtils(app.getApplicationContext(), true /* interactive */);
if (DBG) log("- created OtaUtils: " + app.otaUtils);
// NOTE we still need to call OtaUtils.updateUiWidgets() once the
// InCallScreen instance is ready; see InCallScreen.checkOtaspStateOnResume()
// Make sure the InCallScreen knows that it needs to switch into OTASP mode.
//
// NOTE in gingerbread and earlier, we used to do
// setInCallScreenMode(InCallScreenMode.OTA_NORMAL);
// directly in the InCallScreen, back when this check happened inside the InCallScreen.
//
// But now, set the global CdmaOtaInCallScreenUiState object into
// NORMAL mode, which will then cause the InCallScreen (when it
// comes up) to realize that an OTA call is active.
app.otaUtils.setCdmaOtaInCallScreenUiState(
OtaUtils.CdmaOtaInCallScreenUiState.State.NORMAL);
// TODO(OTASP): note app.inCallUiState.inCallScreenMode and
// app.cdmaOtaInCallScreenUiState.state are mostly redundant. Combine them.
// app.inCallUiState.inCallScreenMode = InCallUiState.InCallScreenMode.OTA_NORMAL;
// TODO(OTASP / bug 5092031): we ideally should call
// otaShowListeningScreen() here to make sure that the DTMF dialpad
// becomes visible at the start of the "*228" call:
//
// // ...and get the OTASP-specific UI into the right state.
// app.otaUtils.otaShowListeningScreen();
// if (app.otaUtils.mInCallScreen != null) {
// app.otaUtils.mInCallScreen.requestUpdateScreen();
// }
//
// But this doesn't actually work; the call to otaShowListeningScreen()
// *doesn't* actually bring up the listening screen, since the
// cdmaOtaConfigData.otaShowListeningScreen config parameter hasn't been
// initialized (we haven't run readXmlSettings() yet at this point!)
// Also, since the OTA call is now just starting, clear out
// the "committed" flag in app.cdmaOtaProvisionData.
if (app.cdmaOtaProvisionData != null) {
app.cdmaOtaProvisionData.isOtaCallCommitted = false;
}
}
private void setSpeaker(boolean state) {
if (DBG) log("setSpeaker : " + state );
if (!mInteractive) {
if (DBG) log("non-interactive mode, ignoring setSpeaker.");
return;
}
if (state == PhoneUtils.isSpeakerOn(mContext)) {
if (DBG) log("no change. returning");
return;
}
PhoneUtils.turnOnSpeaker(mContext, state, true);
}
/**
* Handles OTA Provision events from the telephony layer.
* These events come in to this method whether or not
* the InCallScreen is visible.
*
* Possible events are:
* OTA Commit Event - OTA provisioning was successful
* SPC retries exceeded - SPC failure retries has exceeded, and Phone needs to
* power down.
*/
public void onOtaProvisionStatusChanged(AsyncResult r) {
int OtaStatus[] = (int[]) r.result;
if (DBG) log("Provision status event!");
if (DBG) log("onOtaProvisionStatusChanged(): status = "
+ OtaStatus[0] + " ==> " + otaProvisionStatusToString(OtaStatus[0]));
// In practice, in a normal successful OTASP call, events come in as follows:
// - SPL_UNLOCKED within a couple of seconds after the call starts
// - then a delay of around 45 seconds
// - then PRL_DOWNLOADED and MDN_DOWNLOADED and COMMITTED within a span of 2 seconds
switch(OtaStatus[0]) {
case Phone.CDMA_OTA_PROVISION_STATUS_SPC_RETRIES_EXCEEDED:
if (DBG) log("onOtaProvisionStatusChanged(): RETRIES EXCEEDED");
updateOtaspProgress();
mApplication.cdmaOtaProvisionData.otaSpcUptime = SystemClock.elapsedRealtime();
if (mInteractive) {
otaShowSpcErrorNotice(OTA_SPC_TIMEOUT);
} else {
sendOtaspResult(OTASP_FAILURE_SPC_RETRIES);
}
// Power.shutdown();
break;
case Phone.CDMA_OTA_PROVISION_STATUS_COMMITTED:
if (DBG) {
log("onOtaProvisionStatusChanged(): DONE, isOtaCallCommitted set to true");
}
mApplication.cdmaOtaProvisionData.isOtaCallCommitted = true;
if (mApplication.cdmaOtaScreenState.otaScreenState !=
CdmaOtaScreenState.OtaScreenState.OTA_STATUS_UNDEFINED) {
updateOtaspProgress();
}
break;
case Phone.CDMA_OTA_PROVISION_STATUS_SPL_UNLOCKED:
case Phone.CDMA_OTA_PROVISION_STATUS_A_KEY_EXCHANGED:
case Phone.CDMA_OTA_PROVISION_STATUS_SSD_UPDATED:
case Phone.CDMA_OTA_PROVISION_STATUS_NAM_DOWNLOADED:
case Phone.CDMA_OTA_PROVISION_STATUS_MDN_DOWNLOADED:
case Phone.CDMA_OTA_PROVISION_STATUS_IMSI_DOWNLOADED:
case Phone.CDMA_OTA_PROVISION_STATUS_PRL_DOWNLOADED:
case Phone.CDMA_OTA_PROVISION_STATUS_OTAPA_STARTED:
case Phone.CDMA_OTA_PROVISION_STATUS_OTAPA_STOPPED:
case Phone.CDMA_OTA_PROVISION_STATUS_OTAPA_ABORTED:
// Only update progress when OTA call is in normal state
if (getCdmaOtaInCallScreenUiState() == CdmaOtaInCallScreenUiState.State.NORMAL) {
if (DBG) log("onOtaProvisionStatusChanged(): change to ProgressScreen");
updateOtaspProgress();
}
break;
default:
if (DBG) log("onOtaProvisionStatusChanged(): Ignoring OtaStatus " + OtaStatus[0]);
break;
}
}
/**
* Handle a disconnect event from the OTASP call.
*/
public void onOtaspDisconnect() {
if (DBG) log("onOtaspDisconnect()...");
// We only handle this event explicitly in non-interactive mode.
// (In interactive mode, the InCallScreen does any post-disconnect
// cleanup.)
if (!mInteractive) {
// Send a success or failure indication back to our caller.
updateNonInteractiveOtaSuccessFailure();
}
}
private void otaShowHome() {
if (DBG) log("otaShowHome()...");
mApplication.cdmaOtaScreenState.otaScreenState =
CdmaOtaScreenState.OtaScreenState.OTA_STATUS_UNDEFINED;
// mInCallScreen.endInCallScreenSession();
Intent intent = new Intent(Intent.ACTION_MAIN);
intent.addCategory (Intent.CATEGORY_HOME);
intent.setFlags(Intent.FLAG_ACTIVITY_NEW_TASK);
mContext.startActivityAsUser(intent, UserHandle.CURRENT);
return;
}
private void otaSkipActivation() {
if (DBG) log("otaSkipActivation()...");
sendOtaspResult(OTASP_USER_SKIPPED);
// if (mInteractive) mInCallScreen.finish();
return;
}
/**
* Actually initiate the OTASP call. This method is triggered by the
* onscreen "Activate" button, and is only used in interactive mode.
*/
private void otaPerformActivation() {
if (DBG) log("otaPerformActivation()...");
if (!mInteractive) {
// We shouldn't ever get here in non-interactive mode!
Log.w(LOG_TAG, "otaPerformActivation: not interactive!");
return;
}
if (!mApplication.cdmaOtaProvisionData.inOtaSpcState) {
// Place an outgoing call to the special OTASP number:
Intent newIntent = new Intent(Intent.ACTION_CALL);
newIntent.setData(Uri.fromParts(PhoneAccount.SCHEME_TEL, OTASP_NUMBER, null));
// Initiate the outgoing call:
mApplication.callController.placeCall(newIntent);
// ...and get the OTASP-specific UI into the right state.
otaShowListeningScreen();
// mInCallScreen.requestUpdateScreen();
}
return;
}
/**
* Show Activation Screen when phone powers up and OTA provision is
* required. Also shown when activation fails and user needs
* to re-attempt it. Contains ACTIVATE and SKIP buttons
* which allow user to start OTA activation or skip the activation process.
*/
public void otaShowActivateScreen() {
if (DBG) log("otaShowActivateScreen()...");
if (mApplication.cdmaOtaConfigData.otaShowActivationScreen
== OTA_SHOW_ACTIVATION_SCREEN_ON) {
if (DBG) log("otaShowActivateScreen(): show activation screen");
if (!isDialerOpened()) {
otaScreenInitialize();
mOtaWidgetData.otaSkipButton.setVisibility(sIsWizardMode ?
View.VISIBLE : View.INVISIBLE);
mOtaWidgetData.otaTextActivate.setVisibility(View.VISIBLE);
mOtaWidgetData.callCardOtaButtonsActivate.setVisibility(View.VISIBLE);
}
mApplication.cdmaOtaScreenState.otaScreenState =
CdmaOtaScreenState.OtaScreenState.OTA_STATUS_ACTIVATION;
} else {
if (DBG) log("otaShowActivateScreen(): show home screen");
otaShowHome();
}
}
/**
* Show "Listen for Instruction" screen during OTA call. Shown when OTA Call
* is initiated and user needs to listen for network instructions and press
* appropriate DTMF digits to proceed to the "Programming in Progress" phase.
*/
private void otaShowListeningScreen() {
if (DBG) log("otaShowListeningScreen()...");
if (!mInteractive) {
// We shouldn't ever get here in non-interactive mode!
Log.w(LOG_TAG, "otaShowListeningScreen: not interactive!");
return;
}
if (mApplication.cdmaOtaConfigData.otaShowListeningScreen
== OTA_SHOW_LISTENING_SCREEN_ON) {
if (DBG) log("otaShowListeningScreen(): show listening screen");
if (!isDialerOpened()) {
otaScreenInitialize();
mOtaWidgetData.otaTextListenProgress.setVisibility(View.VISIBLE);
mOtaWidgetData.otaTextListenProgress.setText(R.string.ota_listen);
// mOtaWidgetData.otaDtmfDialerView.setVisibility(View.VISIBLE);
mOtaWidgetData.callCardOtaButtonsListenProgress.setVisibility(View.VISIBLE);
mOtaWidgetData.otaSpeakerButton.setVisibility(View.VISIBLE);
boolean speakerOn = PhoneUtils.isSpeakerOn(mContext);
mOtaWidgetData.otaSpeakerButton.setChecked(speakerOn);
}
mApplication.cdmaOtaScreenState.otaScreenState =
CdmaOtaScreenState.OtaScreenState.OTA_STATUS_LISTENING;
} else {
if (DBG) log("otaShowListeningScreen(): show progress screen");
otaShowInProgressScreen();
}
}
/**
* Do any necessary updates (of onscreen UI, for example)
* based on the latest status of the OTASP call.
*/
private void updateOtaspProgress() {
if (DBG) log("updateOtaspProgress()... mInteractive = " + mInteractive);
if (mInteractive) {
// On regular phones we just call through to
// otaShowInProgressScreen(), which updates the
// InCallScreen's onscreen UI.
otaShowInProgressScreen();
} else {
// We're not using the InCallScreen to show OTA progress.
// For now, at least, there's nothing to do here.
// The overall "success" or "failure" indication we send back
// (to our caller) is triggered by the DISCONNECT event;
// see updateNonInteractiveOtaSuccessFailure().
// But if we ever need to send *intermediate* progress updates back
// to our caller, we'd do that here, possbily using the same
// PendingIntent that we already use to indicate success or failure.
}
}
/**
* When a non-interactive OTASP call completes, send a success or
* failure indication back to our caller.
*
* This is basically the non-interactive equivalent of
* otaShowSuccessFailure().
*/
private void updateNonInteractiveOtaSuccessFailure() {
// This is basically the same logic as otaShowSuccessFailure(): we
// check the isOtaCallCommitted bit, and if that's true it means
// that activation was successful.
if (DBG) log("updateNonInteractiveOtaSuccessFailure(): isOtaCallCommitted = "
+ mApplication.cdmaOtaProvisionData.isOtaCallCommitted);
int resultCode =
mApplication.cdmaOtaProvisionData.isOtaCallCommitted
? OTASP_SUCCESS : OTASP_FAILURE;
sendOtaspResult(resultCode);
}
/**
* Sends the specified OTASP result code back to our caller (presumably
* SetupWizard) via the PendingIntent that they originally sent along with
* the ACTION_PERFORM_CDMA_PROVISIONING intent.
*/
private void sendOtaspResult(int resultCode) {
if (DBG) log("sendOtaspResult: resultCode = " + resultCode);
// Pass the success or failure indication back to our caller by
// adding an additional extra to the PendingIntent we already
// have.
// (NB: there's a PendingIntent send() method that takes a resultCode
// directly, but we can't use that here since that call is only
// meaningful for pending intents that are actually used as activity
// results.)
Intent extraStuff = new Intent();
extraStuff.putExtra(EXTRA_OTASP_RESULT_CODE, resultCode);
// When we call PendingIntent.send() below, the extras from this
// intent will get merged with any extras already present in
// cdmaOtaScreenState.otaspResultCodePendingIntent.
if (mApplication.cdmaOtaScreenState == null) {
Log.e(LOG_TAG, "updateNonInteractiveOtaSuccessFailure: no cdmaOtaScreenState object!");
return;
}
if (mApplication.cdmaOtaScreenState.otaspResultCodePendingIntent == null) {
Log.w(LOG_TAG, "updateNonInteractiveOtaSuccessFailure: "
+ "null otaspResultCodePendingIntent!");
return;
}
try {
if (DBG) log("- sendOtaspResult: SENDING PENDING INTENT: " +
mApplication.cdmaOtaScreenState.otaspResultCodePendingIntent);
mApplication.cdmaOtaScreenState.otaspResultCodePendingIntent.send(
mContext,
0, /* resultCode (unused) */
extraStuff);
} catch (CanceledException e) {
// should never happen because no code cancels the pending intent right now,
Log.e(LOG_TAG, "PendingIntent send() failed: " + e);
}
}
/**
* Show "Programming In Progress" screen during OTA call. Shown when OTA
* provisioning is in progress after user has selected an option.
*/
private void otaShowInProgressScreen() {
if (DBG) log("otaShowInProgressScreen()...");
if (!mInteractive) {
// We shouldn't ever get here in non-interactive mode!
Log.w(LOG_TAG, "otaShowInProgressScreen: not interactive!");
return;
}
mApplication.cdmaOtaScreenState.otaScreenState =
CdmaOtaScreenState.OtaScreenState.OTA_STATUS_PROGRESS;
if ((mOtaWidgetData == null) /* || (mInCallScreen == null) */) {
Log.w(LOG_TAG, "otaShowInProgressScreen: UI widgets not set up yet!");
// TODO(OTASP): our CdmaOtaScreenState is now correct; we just set
// it to OTA_STATUS_PROGRESS. But we still need to make sure that
// when the InCallScreen eventually comes to the foreground, it
// notices that state and does all the same UI updating we do below.
return;
}
if (!isDialerOpened()) {
otaScreenInitialize();
mOtaWidgetData.otaTextListenProgress.setVisibility(View.VISIBLE);
mOtaWidgetData.otaTextListenProgress.setText(R.string.ota_progress);
mOtaWidgetData.otaTextProgressBar.setVisibility(View.VISIBLE);
mOtaWidgetData.callCardOtaButtonsListenProgress.setVisibility(View.VISIBLE);
mOtaWidgetData.otaSpeakerButton.setVisibility(View.VISIBLE);
boolean speakerOn = PhoneUtils.isSpeakerOn(mContext);
mOtaWidgetData.otaSpeakerButton.setChecked(speakerOn);
}
}
/**
* Show programming failure dialog when OTA provisioning fails.
* If OTA provisioning attempts fail more than 3 times, then unsuccessful
* dialog is shown. Otherwise a two-second notice is shown with unsuccessful
* information. When notice expires, phone returns to activation screen.
*/
private void otaShowProgramFailure(int length) {
if (DBG) log("otaShowProgramFailure()...");
mApplication.cdmaOtaProvisionData.activationCount++;
if ((mApplication.cdmaOtaProvisionData.activationCount <
mApplication.cdmaOtaConfigData.otaShowActivateFailTimes)
&& (mApplication.cdmaOtaConfigData.otaShowActivationScreen ==
OTA_SHOW_ACTIVATION_SCREEN_ON)) {
if (DBG) log("otaShowProgramFailure(): activationCount"
+ mApplication.cdmaOtaProvisionData.activationCount);
if (DBG) log("otaShowProgramFailure(): show failure notice");
otaShowProgramFailureNotice(length);
} else {
if (DBG) log("otaShowProgramFailure(): show failure dialog");
otaShowProgramFailureDialog();
}
}
/**
* Show either programming success dialog when OTA provisioning succeeds, or
* programming failure dialog when it fails. See {@link #otaShowProgramFailure}
* for more details.
*/
public void otaShowSuccessFailure() {
if (DBG) log("otaShowSuccessFailure()...");
if (!mInteractive) {
// We shouldn't ever get here in non-interactive mode!
Log.w(LOG_TAG, "otaShowSuccessFailure: not interactive!");
return;
}
otaScreenInitialize();
if (DBG) log("otaShowSuccessFailure(): isOtaCallCommitted"
+ mApplication.cdmaOtaProvisionData.isOtaCallCommitted);
if (mApplication.cdmaOtaProvisionData.isOtaCallCommitted) {
if (DBG) log("otaShowSuccessFailure(), show success dialog");
otaShowProgramSuccessDialog();
} else {
if (DBG) log("otaShowSuccessFailure(), show failure dialog");
otaShowProgramFailure(OTA_FAILURE_DIALOG_TIMEOUT);
}
return;
}
/**
* Show programming failure dialog when OTA provisioning fails more than 3
* times.
*/
private void otaShowProgramFailureDialog() {
if (DBG) log("otaShowProgramFailureDialog()...");
mApplication.cdmaOtaScreenState.otaScreenState =
CdmaOtaScreenState.OtaScreenState.OTA_STATUS_SUCCESS_FAILURE_DLG;
mOtaWidgetData.otaTitle.setText(R.string.ota_title_problem_with_activation);
mOtaWidgetData.otaTextSuccessFail.setVisibility(View.VISIBLE);
mOtaWidgetData.otaTextSuccessFail.setText(R.string.ota_unsuccessful);
mOtaWidgetData.callCardOtaButtonsFailSuccess.setVisibility(View.VISIBLE);
mOtaWidgetData.otaTryAgainButton.setVisibility(View.VISIBLE);
//close the dialer if open
// if (isDialerOpened()) {
// mOtaCallCardDtmfDialer.closeDialer(false);
// }
}
/**
* Show programming success dialog when OTA provisioning succeeds.
*/
private void otaShowProgramSuccessDialog() {
if (DBG) log("otaShowProgramSuccessDialog()...");
mApplication.cdmaOtaScreenState.otaScreenState =
CdmaOtaScreenState.OtaScreenState.OTA_STATUS_SUCCESS_FAILURE_DLG;
mOtaWidgetData.otaTitle.setText(R.string.ota_title_activate_success);
mOtaWidgetData.otaTextSuccessFail.setVisibility(View.VISIBLE);
mOtaWidgetData.otaTextSuccessFail.setText(R.string.ota_successful);
mOtaWidgetData.callCardOtaButtonsFailSuccess.setVisibility(View.VISIBLE);
mOtaWidgetData.otaNextButton.setVisibility(View.VISIBLE);
//close the dialer if open
// if (isDialerOpened()) {
// mOtaCallCardDtmfDialer.closeDialer(false);
// }
}
/**
* Show SPC failure notice when SPC attempts exceed 15 times.
* During OTA provisioning, if SPC code is incorrect OTA provisioning will
* fail. When SPC attempts are over 15, it shows SPC failure notice for one minute and
* then phone will power down.
*/
private void otaShowSpcErrorNotice(int length) {
if (DBG) log("otaShowSpcErrorNotice()...");
if (mOtaWidgetData.spcErrorDialog == null) {
mApplication.cdmaOtaProvisionData.inOtaSpcState = true;
DialogInterface.OnKeyListener keyListener;
keyListener = new DialogInterface.OnKeyListener() {
public boolean onKey(DialogInterface dialog, int keyCode, KeyEvent event) {
log("Ignoring key events...");
return true;
}};
mOtaWidgetData.spcErrorDialog = new AlertDialog.Builder(null /* mInCallScreen */)
.setMessage(R.string.ota_spc_failure)
.setOnKeyListener(keyListener)
.create();
mOtaWidgetData.spcErrorDialog.getWindow().addFlags(
WindowManager.LayoutParams.FLAG_NOT_TOUCHABLE
| WindowManager.LayoutParams.FLAG_KEEP_SCREEN_ON);
mOtaWidgetData.spcErrorDialog.show();
//close the dialer if open
// if (isDialerOpened()) {
// mOtaCallCardDtmfDialer.closeDialer(false);
// }
long noticeTime = length*1000;
if (DBG) log("otaShowSpcErrorNotice(), remaining SPC noticeTime" + noticeTime);
// mInCallScreen.requestCloseSpcErrorNotice(noticeTime);
}
}
/**
* When SPC notice times out, force phone to power down.
*/
public void onOtaCloseSpcNotice() {
if (DBG) log("onOtaCloseSpcNotice(), send shutdown intent");
Intent shutdown = new Intent(Intent.ACTION_REQUEST_SHUTDOWN);
shutdown.putExtra(Intent.EXTRA_KEY_CONFIRM, false);
shutdown.setFlags(Intent.FLAG_ACTIVITY_NEW_TASK);
mContext.startActivity(shutdown);
}
/**
* Show two-second notice when OTA provisioning fails and number of failed attempts
* is less then 3.
*/
private void otaShowProgramFailureNotice(int length) {
if (DBG) log("otaShowProgramFailureNotice()...");
if (mOtaWidgetData.otaFailureDialog == null) {
mOtaWidgetData.otaFailureDialog = new AlertDialog.Builder(null /* mInCallScreen */)
.setMessage(R.string.ota_failure)
.create();
mOtaWidgetData.otaFailureDialog.getWindow().addFlags(
WindowManager.LayoutParams.FLAG_NOT_TOUCHABLE
| WindowManager.LayoutParams.FLAG_KEEP_SCREEN_ON);
mOtaWidgetData.otaFailureDialog.show();
long noticeTime = length*1000;
// mInCallScreen.requestCloseOtaFailureNotice(noticeTime);
}
}
/**
* Handle OTA unsuccessful notice expiry. Dismisses the
* two-second notice and shows the activation screen.
*/
public void onOtaCloseFailureNotice() {
if (DBG) log("onOtaCloseFailureNotice()...");
if (mOtaWidgetData.otaFailureDialog != null) {
mOtaWidgetData.otaFailureDialog.dismiss();
mOtaWidgetData.otaFailureDialog = null;
}
otaShowActivateScreen();
}
/**
* Initialize all OTA UI elements to be gone. Also set inCallPanel,
* callCard and the dialpad handle to be gone. This is called before any OTA screen
* gets drawn.
*/
private void otaScreenInitialize() {
if (DBG) log("otaScreenInitialize()...");
if (!mInteractive) {
// We should never be doing anything with UI elements in
// non-interactive mode.
Log.w(LOG_TAG, "otaScreenInitialize: not interactive!");
return;
}
// if (mInCallTouchUi != null) mInCallTouchUi.setVisibility(View.GONE);
// if (mCallCard != null) {
// mCallCard.setVisibility(View.GONE);
// // TODO: try removing this.
// mCallCard.hideCallCardElements();
// }
mOtaWidgetData.otaTitle.setText(R.string.ota_title_activate);
mOtaWidgetData.otaTextActivate.setVisibility(View.GONE);
mOtaWidgetData.otaTextListenProgress.setVisibility(View.GONE);
mOtaWidgetData.otaTextProgressBar.setVisibility(View.GONE);
mOtaWidgetData.otaTextSuccessFail.setVisibility(View.GONE);
mOtaWidgetData.callCardOtaButtonsActivate.setVisibility(View.GONE);
mOtaWidgetData.callCardOtaButtonsListenProgress.setVisibility(View.GONE);
mOtaWidgetData.callCardOtaButtonsFailSuccess.setVisibility(View.GONE);
// mOtaWidgetData.otaDtmfDialerView.setVisibility(View.GONE);
mOtaWidgetData.otaSpeakerButton.setVisibility(View.GONE);
mOtaWidgetData.otaTryAgainButton.setVisibility(View.GONE);
mOtaWidgetData.otaNextButton.setVisibility(View.GONE);
mOtaWidgetData.otaUpperWidgets.setVisibility(View.VISIBLE);
mOtaWidgetData.otaSkipButton.setVisibility(View.VISIBLE);
}
public void hideOtaScreen() {
if (DBG) log("hideOtaScreen()...");
mOtaWidgetData.callCardOtaButtonsActivate.setVisibility(View.GONE);
mOtaWidgetData.callCardOtaButtonsListenProgress.setVisibility(View.GONE);
mOtaWidgetData.callCardOtaButtonsFailSuccess.setVisibility(View.GONE);
mOtaWidgetData.otaUpperWidgets.setVisibility(View.GONE);
}
public boolean isDialerOpened() {
// boolean retval = (mOtaCallCardDtmfDialer != null && mOtaCallCardDtmfDialer.isOpened());
boolean retval = false;
if (DBG) log("- isDialerOpened() ==> " + retval);
return retval;
}
/**
* Show the appropriate OTA screen based on the current state of OTA call.
*
* This is called from the InCallScreen when the screen needs to be
* refreshed (and thus is only ever used in interactive mode.)
*
* Since this is called as part of the InCallScreen.updateScreen() sequence,
* this method does *not* post an mInCallScreen.requestUpdateScreen()
* request.
*/
public void otaShowProperScreen() {
if (DBG) log("otaShowProperScreen()...");
if (!mInteractive) {
// We shouldn't ever get here in non-interactive mode!
Log.w(LOG_TAG, "otaShowProperScreen: not interactive!");
return;
}
// if ((mInCallScreen != null) && mInCallScreen.isForegroundActivity()) {
// if (DBG) log("otaShowProperScreen(): InCallScreen in foreground, currentstate = "
// + mApplication.cdmaOtaScreenState.otaScreenState);
// if (mInCallTouchUi != null) {
// mInCallTouchUi.setVisibility(View.GONE);
// }
// if (mCallCard != null) {
// mCallCard.setVisibility(View.GONE);
// }
// if (mApplication.cdmaOtaScreenState.otaScreenState
// == CdmaOtaScreenState.OtaScreenState.OTA_STATUS_ACTIVATION) {
// otaShowActivateScreen();
// } else if (mApplication.cdmaOtaScreenState.otaScreenState
// == CdmaOtaScreenState.OtaScreenState.OTA_STATUS_LISTENING) {
// otaShowListeningScreen();
// } else if (mApplication.cdmaOtaScreenState.otaScreenState
// == CdmaOtaScreenState.OtaScreenState.OTA_STATUS_PROGRESS) {
// otaShowInProgressScreen();
// }
// if (mApplication.cdmaOtaProvisionData.inOtaSpcState) {
// otaShowSpcErrorNotice(getOtaSpcDisplayTime());
// }
// }
}
/**
* Read configuration values for each OTA screen from config.xml.
* These configuration values control visibility of each screen.
*/
private void readXmlSettings() {
if (DBG) log("readXmlSettings()...");
if (mApplication.cdmaOtaConfigData.configComplete) {
return;
}
mApplication.cdmaOtaConfigData.configComplete = true;
int tmpOtaShowActivationScreen =
mContext.getResources().getInteger(R.integer.OtaShowActivationScreen);
mApplication.cdmaOtaConfigData.otaShowActivationScreen = tmpOtaShowActivationScreen;
if (DBG) log("readXmlSettings(), otaShowActivationScreen = "
+ mApplication.cdmaOtaConfigData.otaShowActivationScreen);
int tmpOtaShowListeningScreen =
mContext.getResources().getInteger(R.integer.OtaShowListeningScreen);
mApplication.cdmaOtaConfigData.otaShowListeningScreen = tmpOtaShowListeningScreen;
if (DBG) log("readXmlSettings(), otaShowListeningScreen = "
+ mApplication.cdmaOtaConfigData.otaShowListeningScreen);
int tmpOtaShowActivateFailTimes =
mContext.getResources().getInteger(R.integer.OtaShowActivateFailTimes);
mApplication.cdmaOtaConfigData.otaShowActivateFailTimes = tmpOtaShowActivateFailTimes;
if (DBG) log("readXmlSettings(), otaShowActivateFailTimes = "
+ mApplication.cdmaOtaConfigData.otaShowActivateFailTimes);
int tmpOtaPlaySuccessFailureTone =
mContext.getResources().getInteger(R.integer.OtaPlaySuccessFailureTone);
mApplication.cdmaOtaConfigData.otaPlaySuccessFailureTone = tmpOtaPlaySuccessFailureTone;
if (DBG) log("readXmlSettings(), otaPlaySuccessFailureTone = "
+ mApplication.cdmaOtaConfigData.otaPlaySuccessFailureTone);
}
/**
* Handle the click events for OTA buttons.
*/
public void onClickHandler(int id) {
switch (id) {
case R.id.otaEndButton:
onClickOtaEndButton();
break;
case R.id.otaSpeakerButton:
onClickOtaSpeakerButton();
break;
case R.id.otaActivateButton:
onClickOtaActivateButton();
break;
case R.id.otaSkipButton:
onClickOtaActivateSkipButton();
break;
case R.id.otaNextButton:
onClickOtaActivateNextButton();
break;
case R.id.otaTryAgainButton:
onClickOtaTryAgainButton();
break;
default:
if (DBG) log ("onClickHandler: received a click event for unrecognized id");
break;
}
}
private void onClickOtaTryAgainButton() {
if (DBG) log("Activation Try Again Clicked!");
if (!mApplication.cdmaOtaProvisionData.inOtaSpcState) {
otaShowActivateScreen();
}
}
private void onClickOtaEndButton() {
if (DBG) log("Activation End Call Button Clicked!");
if (!mApplication.cdmaOtaProvisionData.inOtaSpcState) {
if (PhoneUtils.hangup(mApplication.mCM) == false) {
// If something went wrong when placing the OTA call,
// the screen is not updated by the call disconnect
// handler and we have to do it here
setSpeaker(false);
// mInCallScreen.handleOtaCallEnd();
}
}
}
private void onClickOtaSpeakerButton() {
if (DBG) log("OTA Speaker button Clicked!");
if (!mApplication.cdmaOtaProvisionData.inOtaSpcState) {
boolean isChecked = !PhoneUtils.isSpeakerOn(mContext);
setSpeaker(isChecked);
}
}
private void onClickOtaActivateButton() {
if (DBG) log("Call Activation Clicked!");
otaPerformActivation();
}
private void onClickOtaActivateSkipButton() {
if (DBG) log("Activation Skip Clicked!");
DialogInterface.OnKeyListener keyListener;
keyListener = new DialogInterface.OnKeyListener() {
public boolean onKey(DialogInterface dialog, int keyCode,
KeyEvent event) {
if (DBG) log("Ignoring key events...");
return true;
}
};
mOtaWidgetData.otaSkipConfirmationDialog = new AlertDialog.Builder(null /* mInCallScreen */)
.setTitle(R.string.ota_skip_activation_dialog_title)
.setMessage(R.string.ota_skip_activation_dialog_message)
.setPositiveButton(
android.R.string.ok,
// "OK" means "skip activation".
new AlertDialog.OnClickListener() {
public void onClick(DialogInterface dialog, int which) {
otaSkipActivation();
}
})
.setNegativeButton(
android.R.string.cancel,
// "Cancel" means just dismiss the dialog.
// Don't actually start an activation call.
null)
.setOnKeyListener(keyListener)
.create();
mOtaWidgetData.otaSkipConfirmationDialog.show();
}
private void onClickOtaActivateNextButton() {
if (DBG) log("Dialog Next Clicked!");
if (!mApplication.cdmaOtaProvisionData.inOtaSpcState) {
mApplication.cdmaOtaScreenState.otaScreenState =
CdmaOtaScreenState.OtaScreenState.OTA_STATUS_UNDEFINED;
otaShowHome();
}
}
public void dismissAllOtaDialogs() {
if (mOtaWidgetData != null) {
if (mOtaWidgetData.spcErrorDialog != null) {
if (DBG) log("- DISMISSING mSpcErrorDialog.");
mOtaWidgetData.spcErrorDialog.dismiss();
mOtaWidgetData.spcErrorDialog = null;
}
if (mOtaWidgetData.otaFailureDialog != null) {
if (DBG) log("- DISMISSING mOtaFailureDialog.");
mOtaWidgetData.otaFailureDialog.dismiss();
mOtaWidgetData.otaFailureDialog = null;
}
}
}
private int getOtaSpcDisplayTime() {
if (DBG) log("getOtaSpcDisplayTime()...");
int tmpSpcTime = 1;
if (mApplication.cdmaOtaProvisionData.inOtaSpcState) {
long tmpOtaSpcRunningTime = 0;
long tmpOtaSpcLeftTime = 0;
tmpOtaSpcRunningTime = SystemClock.elapsedRealtime();
tmpOtaSpcLeftTime =
tmpOtaSpcRunningTime - mApplication.cdmaOtaProvisionData.otaSpcUptime;
if (tmpOtaSpcLeftTime >= OTA_SPC_TIMEOUT*1000) {
tmpSpcTime = 1;
} else {
tmpSpcTime = OTA_SPC_TIMEOUT - (int)tmpOtaSpcLeftTime/1000;
}
}
if (DBG) log("getOtaSpcDisplayTime(), time for SPC error notice: " + tmpSpcTime);
return tmpSpcTime;
}
/**
* Initialize the OTA widgets for all OTA screens.
*/
private void initOtaInCallScreen() {
if (DBG) log("initOtaInCallScreen()...");
// mOtaWidgetData.otaTitle = (TextView) mInCallScreen.findViewById(R.id.otaTitle);
// mOtaWidgetData.otaTextActivate = (TextView) mInCallScreen.findViewById(R.id.otaActivate);
mOtaWidgetData.otaTextActivate.setVisibility(View.GONE);
// mOtaWidgetData.otaTextListenProgress =
// (TextView) mInCallScreen.findViewById(R.id.otaListenProgress);
// mOtaWidgetData.otaTextProgressBar =
// (ProgressBar) mInCallScreen.findViewById(R.id.progress_large);
mOtaWidgetData.otaTextProgressBar.setIndeterminate(true);
// mOtaWidgetData.otaTextSuccessFail =
// (TextView) mInCallScreen.findViewById(R.id.otaSuccessFailStatus);
// mOtaWidgetData.otaUpperWidgets =
// (ViewGroup) mInCallScreen.findViewById(R.id.otaUpperWidgets);
// mOtaWidgetData.callCardOtaButtonsListenProgress =
// (View) mInCallScreen.findViewById(R.id.callCardOtaListenProgress);
// mOtaWidgetData.callCardOtaButtonsActivate =
// (View) mInCallScreen.findViewById(R.id.callCardOtaActivate);
// mOtaWidgetData.callCardOtaButtonsFailSuccess =
// (View) mInCallScreen.findViewById(R.id.callCardOtaFailOrSuccessful);
// mOtaWidgetData.otaEndButton = (Button) mInCallScreen.findViewById(R.id.otaEndButton);
// mOtaWidgetData.otaEndButton.setOnClickListener(mInCallScreen);
// mOtaWidgetData.otaSpeakerButton =
// (ToggleButton) mInCallScreen.findViewById(R.id.otaSpeakerButton);
// mOtaWidgetData.otaSpeakerButton.setOnClickListener(mInCallScreen);
// mOtaWidgetData.otaActivateButton =
// (Button) mInCallScreen.findViewById(R.id.otaActivateButton);
// mOtaWidgetData.otaActivateButton.setOnClickListener(mInCallScreen);
// mOtaWidgetData.otaSkipButton = (Button) mInCallScreen.findViewById(R.id.otaSkipButton);
// mOtaWidgetData.otaSkipButton.setOnClickListener(mInCallScreen);
// mOtaWidgetData.otaNextButton = (Button) mInCallScreen.findViewById(R.id.otaNextButton);
// mOtaWidgetData.otaNextButton.setOnClickListener(mInCallScreen);
// mOtaWidgetData.otaTryAgainButton =
// (Button) mInCallScreen.findViewById(R.id.otaTryAgainButton);
// mOtaWidgetData.otaTryAgainButton.setOnClickListener(mInCallScreen);
// mOtaWidgetData.otaDtmfDialerView =
// (DTMFTwelveKeyDialerView) mInCallScreen.findViewById(R.id.otaDtmfDialerView);
// Sanity-check: the otaDtmfDialerView widget should *always* be present.
// if (mOtaWidgetData.otaDtmfDialerView == null) {
// throw new IllegalStateException("initOtaInCallScreen: couldn't find otaDtmfDialerView");
// }
// Create a new DTMFTwelveKeyDialer instance purely for use by the
// DTMFTwelveKeyDialerView ("otaDtmfDialerView") that comes from
// otacall_card.xml.
// mOtaCallCardDtmfDialer = new DTMFTwelveKeyDialer(mInCallScreen,
// mOtaWidgetData.otaDtmfDialerView);
// Initialize the new DTMFTwelveKeyDialer instance. This is
// needed to play local DTMF tones.
// mOtaCallCardDtmfDialer.startDialerSession();
// mOtaWidgetData.otaDtmfDialerView.setDialer(mOtaCallCardDtmfDialer);
}
/**
* Clear out all OTA UI widget elements. Needs to get called
* when OTA call ends or InCallScreen is destroyed.
* @param disableSpeaker parameter control whether Speaker should be turned off.
*/
public void cleanOtaScreen(boolean disableSpeaker) {
if (DBG) log("OTA ends, cleanOtaScreen!");
mApplication.cdmaOtaScreenState.otaScreenState =
CdmaOtaScreenState.OtaScreenState.OTA_STATUS_UNDEFINED;
mApplication.cdmaOtaProvisionData.isOtaCallCommitted = false;
mApplication.cdmaOtaProvisionData.isOtaCallIntentProcessed = false;
mApplication.cdmaOtaProvisionData.inOtaSpcState = false;
mApplication.cdmaOtaProvisionData.activationCount = 0;
mApplication.cdmaOtaProvisionData.otaSpcUptime = 0;
mApplication.cdmaOtaInCallScreenUiState.state = State.UNDEFINED;
if (mInteractive && (mOtaWidgetData != null)) {
// if (mInCallTouchUi != null) mInCallTouchUi.setVisibility(View.VISIBLE);
// if (mCallCard != null) {
// mCallCard.setVisibility(View.VISIBLE);
// mCallCard.hideCallCardElements();
// }
// Free resources from the DTMFTwelveKeyDialer instance we created
// in initOtaInCallScreen().
// if (mOtaCallCardDtmfDialer != null) {
// mOtaCallCardDtmfDialer.stopDialerSession();
// }
mOtaWidgetData.otaTextActivate.setVisibility(View.GONE);
mOtaWidgetData.otaTextListenProgress.setVisibility(View.GONE);
mOtaWidgetData.otaTextProgressBar.setVisibility(View.GONE);
mOtaWidgetData.otaTextSuccessFail.setVisibility(View.GONE);
mOtaWidgetData.callCardOtaButtonsActivate.setVisibility(View.GONE);
mOtaWidgetData.callCardOtaButtonsListenProgress.setVisibility(View.GONE);
mOtaWidgetData.callCardOtaButtonsFailSuccess.setVisibility(View.GONE);
mOtaWidgetData.otaUpperWidgets.setVisibility(View.GONE);
// mOtaWidgetData.otaDtmfDialerView.setVisibility(View.GONE);
mOtaWidgetData.otaNextButton.setVisibility(View.GONE);
mOtaWidgetData.otaTryAgainButton.setVisibility(View.GONE);
}
// turn off the speaker in case it was turned on
// but the OTA call could not be completed
if (disableSpeaker) {
setSpeaker(false);
}
}
/**
* Defines OTA information that needs to be maintained during
* an OTA call when display orientation changes.
*/
public static class CdmaOtaProvisionData {
public boolean isOtaCallCommitted;
public boolean isOtaCallIntentProcessed;
public boolean inOtaSpcState;
public int activationCount;
public long otaSpcUptime;
}
/**
* Defines OTA screen configuration items read from config.xml
* and used to control OTA display.
*/
public static class CdmaOtaConfigData {
public int otaShowActivationScreen;
public int otaShowListeningScreen;
public int otaShowActivateFailTimes;
public int otaPlaySuccessFailureTone;
public boolean configComplete;
public CdmaOtaConfigData() {
if (DBG) log("CdmaOtaConfigData constructor!");
otaShowActivationScreen = OTA_SHOW_ACTIVATION_SCREEN_OFF;
otaShowListeningScreen = OTA_SHOW_LISTENING_SCREEN_OFF;
otaShowActivateFailTimes = OTA_SHOW_ACTIVATE_FAIL_COUNT_OFF;
otaPlaySuccessFailureTone = OTA_PLAY_SUCCESS_FAILURE_TONE_OFF;
}
}
/**
* The state of the OTA InCallScreen UI.
*/
public static class CdmaOtaInCallScreenUiState {
public enum State {
UNDEFINED,
NORMAL,
ENDED
}
public State state;
public CdmaOtaInCallScreenUiState() {
if (DBG) log("CdmaOtaInCallScreenState: constructor init to UNDEFINED");
state = CdmaOtaInCallScreenUiState.State.UNDEFINED;
}
}
/**
* Save the Ota InCallScreen UI state
*/
public void setCdmaOtaInCallScreenUiState(CdmaOtaInCallScreenUiState.State state) {
if (DBG) log("setCdmaOtaInCallScreenState: " + state);
mApplication.cdmaOtaInCallScreenUiState.state = state;
}
/**
* Get the Ota InCallScreen UI state
*/
public CdmaOtaInCallScreenUiState.State getCdmaOtaInCallScreenUiState() {
if (DBG) log("getCdmaOtaInCallScreenState: "
+ mApplication.cdmaOtaInCallScreenUiState.state);
return mApplication.cdmaOtaInCallScreenUiState.state;
}
/**
* The OTA screen state machine.
*/
public static class CdmaOtaScreenState {
public enum OtaScreenState {
OTA_STATUS_UNDEFINED,
OTA_STATUS_ACTIVATION,
OTA_STATUS_LISTENING,
OTA_STATUS_PROGRESS,
OTA_STATUS_SUCCESS_FAILURE_DLG
}
public OtaScreenState otaScreenState;
public CdmaOtaScreenState() {
otaScreenState = OtaScreenState.OTA_STATUS_UNDEFINED;
}
/**
* {@link PendingIntent} used to report an OTASP result status code
* back to our caller. Can be null.
*
* Our caller (presumably SetupWizard) may create this PendingIntent,
* pointing back at itself, and passes it along as an extra with the
* ACTION_PERFORM_CDMA_PROVISIONING intent. Then, when there's an
* OTASP result to report, we send that PendingIntent back, adding an
* extra called EXTRA_OTASP_RESULT_CODE to indicate the result.
*
* Possible result values are the OTASP_RESULT_* constants.
*/
public PendingIntent otaspResultCodePendingIntent;
}
/** @see com.android.internal.telephony.Phone */
private static String otaProvisionStatusToString(int status) {
switch (status) {
case Phone.CDMA_OTA_PROVISION_STATUS_SPL_UNLOCKED:
return "SPL_UNLOCKED";
case Phone.CDMA_OTA_PROVISION_STATUS_SPC_RETRIES_EXCEEDED:
return "SPC_RETRIES_EXCEEDED";
case Phone.CDMA_OTA_PROVISION_STATUS_A_KEY_EXCHANGED:
return "A_KEY_EXCHANGED";
case Phone.CDMA_OTA_PROVISION_STATUS_SSD_UPDATED:
return "SSD_UPDATED";
case Phone.CDMA_OTA_PROVISION_STATUS_NAM_DOWNLOADED:
return "NAM_DOWNLOADED";
case Phone.CDMA_OTA_PROVISION_STATUS_MDN_DOWNLOADED:
return "MDN_DOWNLOADED";
case Phone.CDMA_OTA_PROVISION_STATUS_IMSI_DOWNLOADED:
return "IMSI_DOWNLOADED";
case Phone.CDMA_OTA_PROVISION_STATUS_PRL_DOWNLOADED:
return "PRL_DOWNLOADED";
case Phone.CDMA_OTA_PROVISION_STATUS_COMMITTED:
return "COMMITTED";
case Phone.CDMA_OTA_PROVISION_STATUS_OTAPA_STARTED:
return "OTAPA_STARTED";
case Phone.CDMA_OTA_PROVISION_STATUS_OTAPA_STOPPED:
return "OTAPA_STOPPED";
case Phone.CDMA_OTA_PROVISION_STATUS_OTAPA_ABORTED:
return "OTAPA_ABORTED";
default:
return "<unknown status" + status + ">";
}
}
private static int getLteOnCdmaMode(Context context) {
final TelephonyManager telephonyManager = (TelephonyManager) context.getSystemService(
Context.TELEPHONY_SERVICE);
// If the telephony manager is not available yet, or if it doesn't know the answer yet,
// try falling back on the system property that may or may not be there
if (telephonyManager == null
|| telephonyManager.getLteOnCdmaMode() == PhoneConstants.LTE_ON_CDMA_UNKNOWN) {
return SystemProperties.getInt(TelephonyProperties.PROPERTY_LTE_ON_CDMA_DEVICE,
PhoneConstants.LTE_ON_CDMA_UNKNOWN);
}
return telephonyManager.getLteOnCdmaMode();
}
private static void log(String msg) {
Log.d(LOG_TAG, msg);
}
private static void loge(String msg) {
Log.e(LOG_TAG, msg);
}
}