/* * Copyright (C) 2007 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.internal.telephony; import android.content.BroadcastReceiver; import android.content.Context; import android.content.Intent; import android.content.IntentFilter; import android.content.SharedPreferences; import android.net.LinkProperties; import android.net.NetworkCapabilities; import android.net.wifi.WifiManager; import android.os.AsyncResult; import android.os.Build; import android.os.Bundle; import android.os.Handler; import android.os.Looper; import android.os.Message; import android.os.Registrant; import android.os.RegistrantList; import android.os.SystemProperties; import android.preference.PreferenceManager; import android.provider.Settings; import android.telecom.VideoProfile; import android.telephony.CellIdentityCdma; import android.telephony.CellInfo; import android.telephony.CellInfoCdma; import android.telephony.DataConnectionRealTimeInfo; import android.telephony.RadioAccessFamily; import android.telephony.Rlog; import android.telephony.ServiceState; import android.telephony.SignalStrength; import android.telephony.SubscriptionManager; import android.telephony.VoLteServiceState; import android.telephony.ModemActivityInfo; import android.text.TextUtils; import com.android.ims.ImsManager; import com.android.internal.R; import com.android.internal.telephony.dataconnection.DcTrackerBase; import com.android.internal.telephony.imsphone.ImsPhone; import com.android.internal.telephony.imsphone.ImsPhoneConnection; import com.android.internal.telephony.test.SimulatedRadioControl; import com.android.internal.telephony.uicc.IccCardApplicationStatus.AppType; import com.android.internal.telephony.uicc.IccFileHandler; import com.android.internal.telephony.uicc.IccRecords; import com.android.internal.telephony.uicc.IsimRecords; import com.android.internal.telephony.uicc.UiccCard; import com.android.internal.telephony.uicc.UiccCardApplication; import com.android.internal.telephony.uicc.UiccController; import com.android.internal.telephony.uicc.UsimServiceTable; import java.io.FileDescriptor; import java.io.PrintWriter; import java.util.ArrayList; import java.util.HashSet; import java.util.List; import java.util.Locale; import java.util.Set; import java.util.concurrent.atomic.AtomicReference; /** * (Not for SDK use) * A base implementation for the com.android.internal.telephony.Phone interface. * * Note that implementations of Phone.java are expected to be used * from a single application thread. This should be the same thread that * originally called PhoneFactory to obtain the interface. * * {@hide} * */ public abstract class PhoneBase extends Handler implements Phone { private static final String LOG_TAG = "PhoneBase"; private boolean mImsIntentReceiverRegistered = false; private BroadcastReceiver mImsIntentReceiver = new BroadcastReceiver() { @Override public void onReceive(Context context, Intent intent) { Rlog.d(LOG_TAG, "mImsIntentReceiver: action " + intent.getAction()); if (intent.hasExtra(ImsManager.EXTRA_PHONE_ID)) { int extraPhoneId = intent.getIntExtra(ImsManager.EXTRA_PHONE_ID, SubscriptionManager.INVALID_PHONE_INDEX); Rlog.d(LOG_TAG, "mImsIntentReceiver: extraPhoneId = " + extraPhoneId); if (extraPhoneId == SubscriptionManager.INVALID_PHONE_INDEX || extraPhoneId != getPhoneId()) { return; } } synchronized (PhoneProxy.lockForRadioTechnologyChange) { if (intent.getAction().equals(ImsManager.ACTION_IMS_SERVICE_UP)) { mImsServiceReady = true; updateImsPhone(); } else if (intent.getAction().equals(ImsManager.ACTION_IMS_SERVICE_DOWN)) { mImsServiceReady = false; updateImsPhone(); } } } }; // Key used to read and write the saved network selection numeric value public static final String NETWORK_SELECTION_KEY = "network_selection_key"; // Key used to read and write the saved network selection operator name public static final String NETWORK_SELECTION_NAME_KEY = "network_selection_name_key"; // Key used to read and write the saved network selection operator short name public static final String NETWORK_SELECTION_SHORT_KEY = "network_selection_short_key"; // Key used to read/write "disable data connection on boot" pref (used for testing) public static final String DATA_DISABLED_ON_BOOT_KEY = "disabled_on_boot_key"; /* Event Constants */ protected static final int EVENT_RADIO_AVAILABLE = 1; /** Supplementary Service Notification received. */ protected static final int EVENT_SSN = 2; protected static final int EVENT_SIM_RECORDS_LOADED = 3; protected static final int EVENT_MMI_DONE = 4; protected static final int EVENT_RADIO_ON = 5; protected static final int EVENT_GET_BASEBAND_VERSION_DONE = 6; protected static final int EVENT_USSD = 7; protected static final int EVENT_RADIO_OFF_OR_NOT_AVAILABLE = 8; protected static final int EVENT_GET_IMEI_DONE = 9; protected static final int EVENT_GET_IMEISV_DONE = 10; protected static final int EVENT_GET_SIM_STATUS_DONE = 11; protected static final int EVENT_SET_CALL_FORWARD_DONE = 12; protected static final int EVENT_GET_CALL_FORWARD_DONE = 13; protected static final int EVENT_CALL_RING = 14; protected static final int EVENT_CALL_RING_CONTINUE = 15; // Used to intercept the carrier selection calls so that // we can save the values. protected static final int EVENT_SET_NETWORK_MANUAL_COMPLETE = 16; protected static final int EVENT_SET_NETWORK_AUTOMATIC_COMPLETE = 17; protected static final int EVENT_SET_CLIR_COMPLETE = 18; protected static final int EVENT_REGISTERED_TO_NETWORK = 19; protected static final int EVENT_SET_VM_NUMBER_DONE = 20; // Events for CDMA support protected static final int EVENT_GET_DEVICE_IDENTITY_DONE = 21; protected static final int EVENT_RUIM_RECORDS_LOADED = 22; protected static final int EVENT_NV_READY = 23; protected static final int EVENT_SET_ENHANCED_VP = 24; protected static final int EVENT_EMERGENCY_CALLBACK_MODE_ENTER = 25; protected static final int EVENT_EXIT_EMERGENCY_CALLBACK_RESPONSE = 26; protected static final int EVENT_CDMA_SUBSCRIPTION_SOURCE_CHANGED = 27; // other protected static final int EVENT_SET_NETWORK_AUTOMATIC = 28; protected static final int EVENT_ICC_RECORD_EVENTS = 29; protected static final int EVENT_ICC_CHANGED = 30; // Single Radio Voice Call Continuity protected static final int EVENT_SRVCC_STATE_CHANGED = 31; protected static final int EVENT_INITIATE_SILENT_REDIAL = 32; protected static final int EVENT_RADIO_NOT_AVAILABLE = 33; protected static final int EVENT_UNSOL_OEM_HOOK_RAW = 34; protected static final int EVENT_GET_RADIO_CAPABILITY = 35; protected static final int EVENT_SS = 36; protected static final int EVENT_CONFIG_LCE = 37; private static final int EVENT_CHECK_FOR_NETWORK_AUTOMATIC = 38; protected static final int EVENT_LAST = EVENT_CHECK_FOR_NETWORK_AUTOMATIC; // For shared prefs. private static final String GSM_ROAMING_LIST_OVERRIDE_PREFIX = "gsm_roaming_list_"; private static final String GSM_NON_ROAMING_LIST_OVERRIDE_PREFIX = "gsm_non_roaming_list_"; private static final String CDMA_ROAMING_LIST_OVERRIDE_PREFIX = "cdma_roaming_list_"; private static final String CDMA_NON_ROAMING_LIST_OVERRIDE_PREFIX = "cdma_non_roaming_list_"; // Key used to read/write current CLIR setting public static final String CLIR_KEY = "clir_key"; // Key used for storing voice mail count public static final String VM_COUNT = "vm_count_key"; // Key used to read/write the ID for storing the voice mail public static final String VM_ID = "vm_id_key"; // Key used to read/write "disable DNS server check" pref (used for testing) public static final String DNS_SERVER_CHECK_DISABLED_KEY = "dns_server_check_disabled_key"; /** * Small container class used to hold information relevant to * the carrier selection process. operatorNumeric can be "" * if we are looking for automatic selection. operatorAlphaLong is the * corresponding operator name. */ protected static class NetworkSelectMessage { public Message message; public String operatorNumeric; public String operatorAlphaLong; public String operatorAlphaShort; } /* Instance Variables */ public CommandsInterface mCi; private int mVmCount = 0; boolean mDnsCheckDisabled; public DcTrackerBase mDcTracker; boolean mDoesRilSendMultipleCallRing; int mCallRingContinueToken; int mCallRingDelay; public boolean mIsTheCurrentActivePhone = true; boolean mIsVoiceCapable = true; // Variable to cache the video capability. When RAT changes, we lose this info and are unable // to recover from the state. We cache it and notify listeners when they register. protected boolean mIsVideoCapable = false; protected UiccController mUiccController = null; public final AtomicReference mIccRecords = new AtomicReference(); public SmsStorageMonitor mSmsStorageMonitor; public SmsUsageMonitor mSmsUsageMonitor; protected AtomicReference mUiccApplication = new AtomicReference(); private TelephonyTester mTelephonyTester; private final String mName; private final String mActionDetached; private final String mActionAttached; protected int mPhoneId; private boolean mImsServiceReady = false; protected ImsPhone mImsPhone = null; private final AtomicReference mRadioCapability = new AtomicReference(); protected static final int DEFAULT_REPORT_INTERVAL_MS = 200; protected static final boolean LCE_PULL_MODE = true; protected int mReportInterval = 0; // ms protected int mLceStatus = RILConstants.LCE_NOT_AVAILABLE; @Override public String getPhoneName() { return mName; } public String getNai(){ return null; } /** * Return the ActionDetached string. When this action is received by components * they are to simulate detaching from the network. * * @return com.android.internal.telephony.{mName}.action_detached * {mName} is GSM, CDMA ... */ public String getActionDetached() { return mActionDetached; } /** * Return the ActionAttached string. When this action is received by components * they are to simulate attaching to the network. * * @return com.android.internal.telephony.{mName}.action_detached * {mName} is GSM, CDMA ... */ public String getActionAttached() { return mActionAttached; } /** * Set a system property, unless we're in unit test mode */ // CAF_MSIM TODO this need to be replated with TelephonyManager API ? public void setSystemProperty(String property, String value) { if(getUnitTestMode()) { return; } SystemProperties.set(property, value); } /** * Set a system property, unless we're in unit test mode */ // CAF_MSIM TODO this need to be replated with TelephonyManager API ? public String getSystemProperty(String property, String defValue) { if(getUnitTestMode()) { return null; } return SystemProperties.get(property, defValue); } protected final RegistrantList mPreciseCallStateRegistrants = new RegistrantList(); protected final RegistrantList mHandoverRegistrants = new RegistrantList(); protected final RegistrantList mNewRingingConnectionRegistrants = new RegistrantList(); protected final RegistrantList mIncomingRingRegistrants = new RegistrantList(); protected final RegistrantList mDisconnectRegistrants = new RegistrantList(); protected final RegistrantList mServiceStateRegistrants = new RegistrantList(); protected final RegistrantList mMmiCompleteRegistrants = new RegistrantList(); protected final RegistrantList mMmiRegistrants = new RegistrantList(); protected final RegistrantList mUnknownConnectionRegistrants = new RegistrantList(); protected final RegistrantList mSuppServiceFailedRegistrants = new RegistrantList(); protected final RegistrantList mRadioOffOrNotAvailableRegistrants = new RegistrantList(); protected final RegistrantList mSimRecordsLoadedRegistrants = new RegistrantList(); protected final RegistrantList mVideoCapabilityChangedRegistrants = new RegistrantList(); protected final RegistrantList mEmergencyCallToggledRegistrants = new RegistrantList(); protected Looper mLooper; /* to insure registrants are in correct thread*/ protected final Context mContext; /** * PhoneNotifier is an abstraction for all system-wide * state change notification. DefaultPhoneNotifier is * used here unless running we're inside a unit test. */ protected PhoneNotifier mNotifier; protected SimulatedRadioControl mSimulatedRadioControl; boolean mUnitTestMode; /** * Constructs a PhoneBase in normal (non-unit test) mode. * * @param notifier An instance of DefaultPhoneNotifier, * @param context Context object from hosting application * unless unit testing. * @param ci the CommandsInterface */ protected PhoneBase(String name, PhoneNotifier notifier, Context context, CommandsInterface ci) { this(name, notifier, context, ci, false); } /** * Constructs a PhoneBase in normal (non-unit test) mode. * * @param notifier An instance of DefaultPhoneNotifier, * @param context Context object from hosting application * unless unit testing. * @param ci is CommandsInterface * @param unitTestMode when true, prevents notifications * of state change events */ protected PhoneBase(String name, PhoneNotifier notifier, Context context, CommandsInterface ci, boolean unitTestMode) { this(name, notifier, context, ci, unitTestMode, SubscriptionManager.DEFAULT_PHONE_INDEX); } /** * Constructs a PhoneBase in normal (non-unit test) mode. * * @param notifier An instance of DefaultPhoneNotifier, * @param context Context object from hosting application * unless unit testing. * @param ci is CommandsInterface * @param unitTestMode when true, prevents notifications * of state change events * @param phoneId the phone-id of this phone. */ protected PhoneBase(String name, PhoneNotifier notifier, Context context, CommandsInterface ci, boolean unitTestMode, int phoneId) { mPhoneId = phoneId; mName = name; mNotifier = notifier; mContext = context; mLooper = Looper.myLooper(); mCi = ci; mActionDetached = this.getClass().getPackage().getName() + ".action_detached"; mActionAttached = this.getClass().getPackage().getName() + ".action_attached"; if (Build.IS_DEBUGGABLE) { mTelephonyTester = new TelephonyTester(this); } setUnitTestMode(unitTestMode); SharedPreferences sp = PreferenceManager.getDefaultSharedPreferences(context); mDnsCheckDisabled = sp.getBoolean(DNS_SERVER_CHECK_DISABLED_KEY, false); mCi.setOnCallRing(this, EVENT_CALL_RING, null); /* "Voice capable" means that this device supports circuit-switched * (i.e. voice) phone calls over the telephony network, and is allowed * to display the in-call UI while a cellular voice call is active. * This will be false on "data only" devices which can't make voice * calls and don't support any in-call UI. */ mIsVoiceCapable = mContext.getResources().getBoolean( com.android.internal.R.bool.config_voice_capable); /** * Some RIL's don't always send RIL_UNSOL_CALL_RING so it needs * to be generated locally. Ideally all ring tones should be loops * and this wouldn't be necessary. But to minimize changes to upper * layers it is requested that it be generated by lower layers. * * By default old phones won't have the property set but do generate * the RIL_UNSOL_CALL_RING so the default if there is no property is * true. */ mDoesRilSendMultipleCallRing = SystemProperties.getBoolean( TelephonyProperties.PROPERTY_RIL_SENDS_MULTIPLE_CALL_RING, true); Rlog.d(LOG_TAG, "mDoesRilSendMultipleCallRing=" + mDoesRilSendMultipleCallRing); mCallRingDelay = SystemProperties.getInt( TelephonyProperties.PROPERTY_CALL_RING_DELAY, 3000); Rlog.d(LOG_TAG, "mCallRingDelay=" + mCallRingDelay); if (getPhoneType() == PhoneConstants.PHONE_TYPE_IMS) { return; } // The locale from the "ro.carrier" system property or R.array.carrier_properties. // This will be overwritten by the Locale from the SIM language settings (EF-PL, EF-LI) // if applicable. final Locale carrierLocale = getLocaleFromCarrierProperties(mContext); if (carrierLocale != null && !TextUtils.isEmpty(carrierLocale.getCountry())) { final String country = carrierLocale.getCountry(); try { Settings.Global.getInt(mContext.getContentResolver(), Settings.Global.WIFI_COUNTRY_CODE); } catch (Settings.SettingNotFoundException e) { // note this is not persisting WifiManager wM = (WifiManager) mContext.getSystemService(Context.WIFI_SERVICE); wM.setCountryCode(country, false); } } // Initialize device storage and outgoing SMS usage monitors for SMSDispatchers. mSmsStorageMonitor = new SmsStorageMonitor(this); mSmsUsageMonitor = new SmsUsageMonitor(context); mUiccController = UiccController.getInstance(); mUiccController.registerForIccChanged(this, EVENT_ICC_CHANGED, null); if (getPhoneType() != PhoneConstants.PHONE_TYPE_SIP) { mCi.registerForSrvccStateChanged(this, EVENT_SRVCC_STATE_CHANGED, null); } mCi.setOnUnsolOemHookRaw(this, EVENT_UNSOL_OEM_HOOK_RAW, null); mCi.startLceService(DEFAULT_REPORT_INTERVAL_MS, LCE_PULL_MODE, obtainMessage(EVENT_CONFIG_LCE)); } @Override public void startMonitoringImsService() { if (getPhoneType() == PhoneConstants.PHONE_TYPE_SIP) { return; } synchronized(PhoneProxy.lockForRadioTechnologyChange) { IntentFilter filter = new IntentFilter(); filter.addAction(ImsManager.ACTION_IMS_SERVICE_UP); filter.addAction(ImsManager.ACTION_IMS_SERVICE_DOWN); mContext.registerReceiver(mImsIntentReceiver, filter); mImsIntentReceiverRegistered = true; // Monitor IMS service - but first poll to see if already up (could miss // intent) ImsManager imsManager = ImsManager.getInstance(mContext, getPhoneId()); if (imsManager != null && imsManager.isServiceAvailable()) { mImsServiceReady = true; updateImsPhone(); } } } @Override public void dispose() { synchronized(PhoneProxy.lockForRadioTechnologyChange) { if (mImsIntentReceiverRegistered) { mContext.unregisterReceiver(mImsIntentReceiver); mImsIntentReceiverRegistered = false; } mCi.unSetOnCallRing(this); // Must cleanup all connectionS and needs to use sendMessage! mDcTracker.cleanUpAllConnections(null); mIsTheCurrentActivePhone = false; // Dispose the SMS usage and storage monitors mSmsStorageMonitor.dispose(); mSmsUsageMonitor.dispose(); mUiccController.unregisterForIccChanged(this); mCi.unregisterForSrvccStateChanged(this); mCi.unSetOnUnsolOemHookRaw(this); mCi.stopLceService(obtainMessage(EVENT_CONFIG_LCE)); if (mTelephonyTester != null) { mTelephonyTester.dispose(); } ImsPhone imsPhone = mImsPhone; if (imsPhone != null) { imsPhone.unregisterForSilentRedial(this); imsPhone.dispose(); } } } @Override public void removeReferences() { mSmsStorageMonitor = null; mSmsUsageMonitor = null; mIccRecords.set(null); mUiccApplication.set(null); mDcTracker = null; mUiccController = null; ImsPhone imsPhone = mImsPhone; if (imsPhone != null) { imsPhone.removeReferences(); mImsPhone = null; } } /** * When overridden the derived class needs to call * super.handleMessage(msg) so this method has a * a chance to process the message. * * @param msg */ @Override public void handleMessage(Message msg) { AsyncResult ar; // messages to be handled whether or not the phone is being destroyed // should only include messages which are being re-directed and do not use // resources of the phone being destroyed // Note: make sure to add code in GSMPhone/CDMAPhone to re-direct here before // they check if phone destroyed. switch (msg.what) { // handle the select network completion callbacks. case EVENT_SET_NETWORK_MANUAL_COMPLETE: case EVENT_SET_NETWORK_AUTOMATIC_COMPLETE: handleSetSelectNetwork((AsyncResult) msg.obj); return; } if (!mIsTheCurrentActivePhone) { Rlog.e(LOG_TAG, "Received message " + msg + "[" + msg.what + "] while being destroyed. Ignoring."); return; } switch(msg.what) { case EVENT_CALL_RING: Rlog.d(LOG_TAG, "Event EVENT_CALL_RING Received state=" + getState()); ar = (AsyncResult)msg.obj; if (ar.exception == null) { PhoneConstants.State state = getState(); if ((!mDoesRilSendMultipleCallRing) && ((state == PhoneConstants.State.RINGING) || (state == PhoneConstants.State.IDLE))) { mCallRingContinueToken += 1; sendIncomingCallRingNotification(mCallRingContinueToken); } else { notifyIncomingRing(); } } break; case EVENT_CALL_RING_CONTINUE: Rlog.d(LOG_TAG, "Event EVENT_CALL_RING_CONTINUE Received stat=" + getState()); if (getState() == PhoneConstants.State.RINGING) { sendIncomingCallRingNotification(msg.arg1); } break; case EVENT_ICC_CHANGED: onUpdateIccAvailability(); break; case EVENT_INITIATE_SILENT_REDIAL: Rlog.d(LOG_TAG, "Event EVENT_INITIATE_SILENT_REDIAL Received"); ar = (AsyncResult) msg.obj; if ((ar.exception == null) && (ar.result != null)) { String dialString = (String) ar.result; if (TextUtils.isEmpty(dialString)) return; try { dialInternal(dialString, null, VideoProfile.STATE_AUDIO_ONLY, null); } catch (CallStateException e) { Rlog.e(LOG_TAG, "silent redial failed: " + e); } } break; case EVENT_SRVCC_STATE_CHANGED: ar = (AsyncResult)msg.obj; if (ar.exception == null) { handleSrvccStateChanged((int[]) ar.result); } else { Rlog.e(LOG_TAG, "Srvcc exception: " + ar.exception); } break; case EVENT_UNSOL_OEM_HOOK_RAW: ar = (AsyncResult)msg.obj; if (ar.exception == null) { byte[] data = (byte[])ar.result; Rlog.d(LOG_TAG, "EVENT_UNSOL_OEM_HOOK_RAW data=" + IccUtils.bytesToHexString(data)); mNotifier.notifyOemHookRawEventForSubscriber(getSubId(), data); } else { Rlog.e(LOG_TAG, "OEM hook raw exception: " + ar.exception); } break; case EVENT_GET_RADIO_CAPABILITY: ar = (AsyncResult) msg.obj; RadioCapability rc = (RadioCapability) ar.result; if (ar.exception != null) { Rlog.d(LOG_TAG, "get phone radio capability fail," + "no need to change mRadioCapability"); } else { radioCapabilityUpdated(rc); } Rlog.d(LOG_TAG, "EVENT_GET_RADIO_CAPABILITY :" + "phone rc : " + rc); break; case EVENT_CONFIG_LCE: ar = (AsyncResult) msg.obj; if (ar.exception != null) { Rlog.d(LOG_TAG, "config LCE service failed: " + ar.exception); } else { final ArrayList statusInfo = (ArrayList)ar.result; mLceStatus = statusInfo.get(0); mReportInterval = statusInfo.get(1); } break; case EVENT_CHECK_FOR_NETWORK_AUTOMATIC: { onCheckForNetworkSelectionModeAutomatic(msg); break; } default: throw new RuntimeException("unexpected event not handled"); } } private void handleSrvccStateChanged(int[] ret) { Rlog.d(LOG_TAG, "handleSrvccStateChanged"); ArrayList conn = null; ImsPhone imsPhone = mImsPhone; Call.SrvccState srvccState = Call.SrvccState.NONE; if (ret != null && ret.length != 0) { int state = ret[0]; switch(state) { case VoLteServiceState.HANDOVER_STARTED: srvccState = Call.SrvccState.STARTED; if (imsPhone != null) { conn = imsPhone.getHandoverConnection(); migrateFrom(imsPhone); } else { Rlog.d(LOG_TAG, "HANDOVER_STARTED: mImsPhone null"); } break; case VoLteServiceState.HANDOVER_COMPLETED: srvccState = Call.SrvccState.COMPLETED; if (imsPhone != null) { imsPhone.notifySrvccState(srvccState); } else { Rlog.d(LOG_TAG, "HANDOVER_COMPLETED: mImsPhone null"); } break; case VoLteServiceState.HANDOVER_FAILED: case VoLteServiceState.HANDOVER_CANCELED: srvccState = Call.SrvccState.FAILED; break; default: //ignore invalid state return; } getCallTracker().notifySrvccState(srvccState, conn); VoLteServiceState lteState = new VoLteServiceState(state); notifyVoLteServiceStateChanged(lteState); } } // Inherited documentation suffices. @Override public Context getContext() { return mContext; } // Will be called when icc changed protected abstract void onUpdateIccAvailability(); /** * Disables the DNS check (i.e., allows "0.0.0.0"). * Useful for lab testing environment. * @param b true disables the check, false enables. */ @Override public void disableDnsCheck(boolean b) { mDnsCheckDisabled = b; SharedPreferences sp = PreferenceManager.getDefaultSharedPreferences(getContext()); SharedPreferences.Editor editor = sp.edit(); editor.putBoolean(DNS_SERVER_CHECK_DISABLED_KEY, b); editor.apply(); } /** * Returns true if the DNS check is currently disabled. */ @Override public boolean isDnsCheckDisabled() { return mDnsCheckDisabled; } // Inherited documentation suffices. @Override public void registerForPreciseCallStateChanged(Handler h, int what, Object obj) { checkCorrectThread(h); mPreciseCallStateRegistrants.addUnique(h, what, obj); } // Inherited documentation suffices. @Override public void unregisterForPreciseCallStateChanged(Handler h) { mPreciseCallStateRegistrants.remove(h); } /** * Subclasses of Phone probably want to replace this with a * version scoped to their packages */ protected void notifyPreciseCallStateChangedP() { AsyncResult ar = new AsyncResult(null, this, null); mPreciseCallStateRegistrants.notifyRegistrants(ar); mNotifier.notifyPreciseCallState(this); } @Override public void registerForHandoverStateChanged(Handler h, int what, Object obj) { checkCorrectThread(h); mHandoverRegistrants.addUnique(h, what, obj); } @Override public void unregisterForHandoverStateChanged(Handler h) { mHandoverRegistrants.remove(h); } /** * Subclasses of Phone probably want to replace this with a * version scoped to their packages */ public void notifyHandoverStateChanged(Connection cn) { AsyncResult ar = new AsyncResult(null, cn, null); mHandoverRegistrants.notifyRegistrants(ar); } public void migrateFrom(PhoneBase from) { migrate(mHandoverRegistrants, from.mHandoverRegistrants); migrate(mPreciseCallStateRegistrants, from.mPreciseCallStateRegistrants); migrate(mNewRingingConnectionRegistrants, from.mNewRingingConnectionRegistrants); migrate(mIncomingRingRegistrants, from.mIncomingRingRegistrants); migrate(mDisconnectRegistrants, from.mDisconnectRegistrants); migrate(mServiceStateRegistrants, from.mServiceStateRegistrants); migrate(mMmiCompleteRegistrants, from.mMmiCompleteRegistrants); migrate(mMmiRegistrants, from.mMmiRegistrants); migrate(mUnknownConnectionRegistrants, from.mUnknownConnectionRegistrants); migrate(mSuppServiceFailedRegistrants, from.mSuppServiceFailedRegistrants); } public void migrate(RegistrantList to, RegistrantList from) { from.removeCleared(); for (int i = 0, n = from.size(); i < n; i++) { to.add((Registrant) from.get(i)); } } // Inherited documentation suffices. @Override public void registerForUnknownConnection(Handler h, int what, Object obj) { checkCorrectThread(h); mUnknownConnectionRegistrants.addUnique(h, what, obj); } // Inherited documentation suffices. @Override public void unregisterForUnknownConnection(Handler h) { mUnknownConnectionRegistrants.remove(h); } // Inherited documentation suffices. @Override public void registerForNewRingingConnection( Handler h, int what, Object obj) { checkCorrectThread(h); mNewRingingConnectionRegistrants.addUnique(h, what, obj); } // Inherited documentation suffices. @Override public void unregisterForNewRingingConnection(Handler h) { mNewRingingConnectionRegistrants.remove(h); } // Inherited documentation suffices. @Override public void registerForVideoCapabilityChanged( Handler h, int what, Object obj) { checkCorrectThread(h); mVideoCapabilityChangedRegistrants.addUnique(h, what, obj); // Notify any registrants of the cached video capability as soon as they register. notifyForVideoCapabilityChanged(mIsVideoCapable); } // Inherited documentation suffices. @Override public void unregisterForVideoCapabilityChanged(Handler h) { mVideoCapabilityChangedRegistrants.remove(h); } // Inherited documentation suffices. @Override public void registerForInCallVoicePrivacyOn(Handler h, int what, Object obj){ mCi.registerForInCallVoicePrivacyOn(h, what, obj); } // Inherited documentation suffices. @Override public void unregisterForInCallVoicePrivacyOn(Handler h){ mCi.unregisterForInCallVoicePrivacyOn(h); } // Inherited documentation suffices. @Override public void registerForInCallVoicePrivacyOff(Handler h, int what, Object obj){ mCi.registerForInCallVoicePrivacyOff(h, what, obj); } // Inherited documentation suffices. @Override public void unregisterForInCallVoicePrivacyOff(Handler h){ mCi.unregisterForInCallVoicePrivacyOff(h); } // Inherited documentation suffices. @Override public void registerForIncomingRing( Handler h, int what, Object obj) { checkCorrectThread(h); mIncomingRingRegistrants.addUnique(h, what, obj); } // Inherited documentation suffices. @Override public void unregisterForIncomingRing(Handler h) { mIncomingRingRegistrants.remove(h); } // Inherited documentation suffices. @Override public void registerForDisconnect(Handler h, int what, Object obj) { checkCorrectThread(h); mDisconnectRegistrants.addUnique(h, what, obj); } // Inherited documentation suffices. @Override public void unregisterForDisconnect(Handler h) { mDisconnectRegistrants.remove(h); } // Inherited documentation suffices. @Override public void registerForSuppServiceFailed(Handler h, int what, Object obj) { checkCorrectThread(h); mSuppServiceFailedRegistrants.addUnique(h, what, obj); } // Inherited documentation suffices. @Override public void unregisterForSuppServiceFailed(Handler h) { mSuppServiceFailedRegistrants.remove(h); } // Inherited documentation suffices. @Override public void registerForMmiInitiate(Handler h, int what, Object obj) { checkCorrectThread(h); mMmiRegistrants.addUnique(h, what, obj); } // Inherited documentation suffices. @Override public void unregisterForMmiInitiate(Handler h) { mMmiRegistrants.remove(h); } // Inherited documentation suffices. @Override public void registerForMmiComplete(Handler h, int what, Object obj) { checkCorrectThread(h); mMmiCompleteRegistrants.addUnique(h, what, obj); } // Inherited documentation suffices. @Override public void unregisterForMmiComplete(Handler h) { checkCorrectThread(h); mMmiCompleteRegistrants.remove(h); } public void registerForSimRecordsLoaded(Handler h, int what, Object obj) { logUnexpectedCdmaMethodCall("registerForSimRecordsLoaded"); } public void unregisterForSimRecordsLoaded(Handler h) { logUnexpectedCdmaMethodCall("unregisterForSimRecordsLoaded"); } @Override public void registerForTtyModeReceived(Handler h, int what, Object obj) { } @Override public void unregisterForTtyModeReceived(Handler h) { } @Override public void setNetworkSelectionModeAutomatic(Message response) { Rlog.d(LOG_TAG, "setNetworkSelectionModeAutomatic, querying current mode"); // we don't want to do this unecesarily - it acutally causes // the radio to repeate network selection and is costly // first check if we're already in automatic mode Message msg = obtainMessage(EVENT_CHECK_FOR_NETWORK_AUTOMATIC); msg.obj = response; mCi.getNetworkSelectionMode(msg); } private void onCheckForNetworkSelectionModeAutomatic(Message fromRil) { AsyncResult ar = (AsyncResult)fromRil.obj; Message response = (Message)ar.userObj; boolean doAutomatic = true; if (ar.exception == null && ar.result != null) { try { int[] modes = (int[])ar.result; if (modes[0] == 0) { // already confirmed to be in automatic mode - don't resend doAutomatic = false; } } catch (Exception e) { // send the setting on error } } if (doAutomatic) { // wrap the response message in our own message along with // an empty string (to indicate automatic selection) for the // operator's id. NetworkSelectMessage nsm = new NetworkSelectMessage(); nsm.message = response; nsm.operatorNumeric = ""; nsm.operatorAlphaLong = ""; nsm.operatorAlphaShort = ""; Message msg = obtainMessage(EVENT_SET_NETWORK_AUTOMATIC_COMPLETE, nsm); mCi.setNetworkSelectionModeAutomatic(msg); updateSavedNetworkOperator(nsm); } else { Rlog.d(LOG_TAG, "setNetworkSelectionModeAutomatic - already auto, ignoring"); } } @Override public void getNetworkSelectionMode(Message message) { mCi.getNetworkSelectionMode(message); } @Override public void selectNetworkManually(OperatorInfo network, Message response) { // wrap the response message in our own message along with // the operator's id. NetworkSelectMessage nsm = new NetworkSelectMessage(); nsm.message = response; nsm.operatorNumeric = network.getOperatorNumeric(); nsm.operatorAlphaLong = network.getOperatorAlphaLong(); nsm.operatorAlphaShort = network.getOperatorAlphaShort(); Message msg = obtainMessage(EVENT_SET_NETWORK_MANUAL_COMPLETE, nsm); mCi.setNetworkSelectionModeManual(network.getOperatorNumeric(), msg); updateSavedNetworkOperator(nsm); } /** * Registration point for emergency call/callback mode start. Message.obj is AsyncResult and * Message.obj.result will be Integer indicating start of call by value 1 or end of call by * value 0 * @param h handler to notify * @param what what code of message when delivered * @param obj placed in Message.obj.userObj */ public void registerForEmergencyCallToggle(Handler h, int what, Object obj) { Registrant r = new Registrant(h, what, obj); mEmergencyCallToggledRegistrants.add(r); } public void unregisterForEmergencyCallToggle(Handler h) { mEmergencyCallToggledRegistrants.remove(h); } private void updateSavedNetworkOperator(NetworkSelectMessage nsm) { int subId = getSubId(); if (SubscriptionManager.isValidSubscriptionId(subId)) { // open the shared preferences editor, and write the value. // nsm.operatorNumeric is "" if we're in automatic.selection. SharedPreferences sp = PreferenceManager.getDefaultSharedPreferences(getContext()); SharedPreferences.Editor editor = sp.edit(); editor.putString(NETWORK_SELECTION_KEY + subId, nsm.operatorNumeric); editor.putString(NETWORK_SELECTION_NAME_KEY + subId, nsm.operatorAlphaLong); editor.putString(NETWORK_SELECTION_SHORT_KEY + subId, nsm.operatorAlphaShort); // commit and log the result. if (!editor.commit()) { Rlog.e(LOG_TAG, "failed to commit network selection preference"); } } else { Rlog.e(LOG_TAG, "Cannot update network selection preference due to invalid subId " + subId); } } /** * Used to track the settings upon completion of the network change. */ private void handleSetSelectNetwork(AsyncResult ar) { // look for our wrapper within the asyncresult, skip the rest if it // is null. if (!(ar.userObj instanceof NetworkSelectMessage)) { Rlog.e(LOG_TAG, "unexpected result from user object."); return; } NetworkSelectMessage nsm = (NetworkSelectMessage) ar.userObj; // found the object, now we send off the message we had originally // attached to the request. if (nsm.message != null) { AsyncResult.forMessage(nsm.message, ar.result, ar.exception); nsm.message.sendToTarget(); } } /** * Method to retrieve the saved operator from the Shared Preferences */ private OperatorInfo getSavedNetworkSelection() { // open the shared preferences and search with our key. SharedPreferences sp = PreferenceManager.getDefaultSharedPreferences(getContext()); String numeric = sp.getString(NETWORK_SELECTION_KEY + getSubId(), ""); String name = sp.getString(NETWORK_SELECTION_NAME_KEY + getSubId(), ""); String shrt = sp.getString(NETWORK_SELECTION_SHORT_KEY + getSubId(), ""); return new OperatorInfo(numeric, name, shrt); } /** * Method to restore the previously saved operator id, or reset to * automatic selection, all depending upon the value in the shared * preferences. */ public void restoreSavedNetworkSelection(Message response) { // retrieve the operator OperatorInfo networkSelection = getSavedNetworkSelection(); // set to auto if the id is empty, otherwise select the network. if (networkSelection == null || TextUtils.isEmpty(networkSelection.getOperatorNumeric())) { setNetworkSelectionModeAutomatic(response); } else { selectNetworkManually(networkSelection, response); } } // Inherited documentation suffices. @Override public void setUnitTestMode(boolean f) { mUnitTestMode = f; } // Inherited documentation suffices. @Override public boolean getUnitTestMode() { return mUnitTestMode; } /** * To be invoked when a voice call Connection disconnects. * * Subclasses of Phone probably want to replace this with a * version scoped to their packages */ protected void notifyDisconnectP(Connection cn) { AsyncResult ar = new AsyncResult(null, cn, null); mDisconnectRegistrants.notifyRegistrants(ar); } // Inherited documentation suffices. @Override public void registerForServiceStateChanged( Handler h, int what, Object obj) { checkCorrectThread(h); mServiceStateRegistrants.add(h, what, obj); } // Inherited documentation suffices. @Override public void unregisterForServiceStateChanged(Handler h) { mServiceStateRegistrants.remove(h); } // Inherited documentation suffices. @Override public void registerForRingbackTone(Handler h, int what, Object obj) { mCi.registerForRingbackTone(h, what, obj); } // Inherited documentation suffices. @Override public void unregisterForRingbackTone(Handler h) { mCi.unregisterForRingbackTone(h); } // Inherited documentation suffices. @Override public void registerForOnHoldTone(Handler h, int what, Object obj) { } // Inherited documentation suffices. @Override public void unregisterForOnHoldTone(Handler h) { } // Inherited documentation suffices. @Override public void registerForResendIncallMute(Handler h, int what, Object obj) { mCi.registerForResendIncallMute(h, what, obj); } // Inherited documentation suffices. @Override public void unregisterForResendIncallMute(Handler h) { mCi.unregisterForResendIncallMute(h); } @Override public void setEchoSuppressionEnabled() { // no need for regular phone } /** * Subclasses of Phone probably want to replace this with a * version scoped to their packages */ protected void notifyServiceStateChangedP(ServiceState ss) { AsyncResult ar = new AsyncResult(null, ss, null); mServiceStateRegistrants.notifyRegistrants(ar); mNotifier.notifyServiceState(this); } // Inherited documentation suffices. @Override public SimulatedRadioControl getSimulatedRadioControl() { return mSimulatedRadioControl; } /** * Verifies the current thread is the same as the thread originally * used in the initialization of this instance. Throws RuntimeException * if not. * * @exception RuntimeException if the current thread is not * the thread that originally obtained this PhoneBase instance. */ private void checkCorrectThread(Handler h) { if (h.getLooper() != mLooper) { throw new RuntimeException( "com.android.internal.telephony.Phone must be used from within one thread"); } } /** * Set the properties by matching the carrier string in * a string-array resource */ private static Locale getLocaleFromCarrierProperties(Context ctx) { String carrier = SystemProperties.get("ro.carrier"); if (null == carrier || 0 == carrier.length() || "unknown".equals(carrier)) { return null; } CharSequence[] carrierLocales = ctx.getResources().getTextArray(R.array.carrier_properties); for (int i = 0; i < carrierLocales.length; i+=3) { String c = carrierLocales[i].toString(); if (carrier.equals(c)) { return Locale.forLanguageTag(carrierLocales[i + 1].toString().replace('_', '-')); } } return null; } /** * Get state */ @Override public abstract PhoneConstants.State getState(); /** * Retrieves the IccFileHandler of the Phone instance */ public IccFileHandler getIccFileHandler(){ UiccCardApplication uiccApplication = mUiccApplication.get(); IccFileHandler fh; if (uiccApplication == null) { Rlog.d(LOG_TAG, "getIccFileHandler: uiccApplication == null, return null"); fh = null; } else { fh = uiccApplication.getIccFileHandler(); } Rlog.d(LOG_TAG, "getIccFileHandler: fh=" + fh); return fh; } /* * Retrieves the Handler of the Phone instance */ public Handler getHandler() { return this; } @Override public void updatePhoneObject(int voiceRadioTech) { // Only the PhoneProxy can update the phone object. PhoneFactory.getDefaultPhone().updatePhoneObject(voiceRadioTech); } /** * Retrieves the ServiceStateTracker of the phone instance. */ public ServiceStateTracker getServiceStateTracker() { return null; } /** * Get call tracker */ public CallTracker getCallTracker() { return null; } public AppType getCurrentUiccAppType() { UiccCardApplication currentApp = mUiccApplication.get(); if (currentApp != null) { return currentApp.getType(); } return AppType.APPTYPE_UNKNOWN; } @Override public IccCard getIccCard() { return null; //throw new Exception("getIccCard Shouldn't be called from PhoneBase"); } @Override public String getIccSerialNumber() { IccRecords r = mIccRecords.get(); return (r != null) ? r.getIccId() : null; } @Override public boolean getIccRecordsLoaded() { IccRecords r = mIccRecords.get(); return (r != null) ? r.getRecordsLoaded() : false; } /** * @return all available cell information or null if none. */ @Override public List getAllCellInfo() { List cellInfoList = getServiceStateTracker().getAllCellInfo(); return privatizeCellInfoList(cellInfoList); } /** * Clear CDMA base station lat/long values if location setting is disabled. * @param cellInfoList the original cell info list from the RIL * @return the original list with CDMA lat/long cleared if necessary */ private List privatizeCellInfoList(List cellInfoList) { if (cellInfoList == null) return null; int mode = Settings.Secure.getInt(getContext().getContentResolver(), Settings.Secure.LOCATION_MODE, Settings.Secure.LOCATION_MODE_OFF); if (mode == Settings.Secure.LOCATION_MODE_OFF) { ArrayList privateCellInfoList = new ArrayList(cellInfoList.size()); // clear lat/lon values for location privacy for (CellInfo c : cellInfoList) { if (c instanceof CellInfoCdma) { CellInfoCdma cellInfoCdma = (CellInfoCdma) c; CellIdentityCdma cellIdentity = cellInfoCdma.getCellIdentity(); CellIdentityCdma maskedCellIdentity = new CellIdentityCdma( cellIdentity.getNetworkId(), cellIdentity.getSystemId(), cellIdentity.getBasestationId(), Integer.MAX_VALUE, Integer.MAX_VALUE); CellInfoCdma privateCellInfoCdma = new CellInfoCdma(cellInfoCdma); privateCellInfoCdma.setCellIdentity(maskedCellIdentity); privateCellInfoList.add(privateCellInfoCdma); } else { privateCellInfoList.add(c); } } cellInfoList = privateCellInfoList; } return cellInfoList; } /** * {@inheritDoc} */ @Override public void setCellInfoListRate(int rateInMillis) { mCi.setCellInfoListRate(rateInMillis, null); } @Override /** @return true if there are messages waiting, false otherwise. */ public boolean getMessageWaitingIndicator() { return mVmCount != 0; } @Override public boolean getCallForwardingIndicator() { IccRecords r = mIccRecords.get(); return (r != null) ? r.getVoiceCallForwardingFlag() : false; } /** * Query the status of the CDMA roaming preference */ @Override public void queryCdmaRoamingPreference(Message response) { mCi.queryCdmaRoamingPreference(response); } /** * Get the signal strength */ @Override public SignalStrength getSignalStrength() { ServiceStateTracker sst = getServiceStateTracker(); if (sst == null) { return new SignalStrength(); } else { return sst.getSignalStrength(); } } /** * Set the status of the CDMA roaming preference */ @Override public void setCdmaRoamingPreference(int cdmaRoamingType, Message response) { mCi.setCdmaRoamingPreference(cdmaRoamingType, response); } /** * Set the status of the CDMA subscription mode */ @Override public void setCdmaSubscription(int cdmaSubscriptionType, Message response) { mCi.setCdmaSubscriptionSource(cdmaSubscriptionType, response); } /** * Set the preferred Network Type: Global, CDMA only or GSM/UMTS only */ @Override public void setPreferredNetworkType(int networkType, Message response) { // Only set preferred network types to that which the modem supports int modemRaf = getRadioAccessFamily(); int rafFromType = RadioAccessFamily.getRafFromNetworkType(networkType); if (modemRaf == RadioAccessFamily.RAF_UNKNOWN || rafFromType == RadioAccessFamily.RAF_UNKNOWN) { Rlog.d(LOG_TAG, "setPreferredNetworkType: Abort, unknown RAF: " + modemRaf + " " + rafFromType); if (response != null) { CommandException ex; ex = new CommandException(CommandException.Error.GENERIC_FAILURE); AsyncResult.forMessage(response, null, ex); response.sendToTarget(); } return; } int filteredRaf = (rafFromType & modemRaf); int filteredType = RadioAccessFamily.getNetworkTypeFromRaf(filteredRaf); Rlog.d(LOG_TAG, "setPreferredNetworkType: networkType = " + networkType + " modemRaf = " + modemRaf + " rafFromType = " + rafFromType + " filteredType = " + filteredType); mCi.setPreferredNetworkType(filteredType, response); } @Override public void getPreferredNetworkType(Message response) { mCi.getPreferredNetworkType(response); } @Override public void getSmscAddress(Message result) { mCi.getSmscAddress(result); } @Override public void setSmscAddress(String address, Message result) { mCi.setSmscAddress(address, result); } @Override public void setTTYMode(int ttyMode, Message onComplete) { mCi.setTTYMode(ttyMode, onComplete); } @Override public void setUiTTYMode(int uiTtyMode, Message onComplete) { Rlog.d(LOG_TAG, "unexpected setUiTTYMode method call"); } @Override public void queryTTYMode(Message onComplete) { mCi.queryTTYMode(onComplete); } @Override public void enableEnhancedVoicePrivacy(boolean enable, Message onComplete) { // This function should be overridden by the class CDMAPhone. Not implemented in GSMPhone. logUnexpectedCdmaMethodCall("enableEnhancedVoicePrivacy"); } @Override public void getEnhancedVoicePrivacy(Message onComplete) { // This function should be overridden by the class CDMAPhone. Not implemented in GSMPhone. logUnexpectedCdmaMethodCall("getEnhancedVoicePrivacy"); } @Override public void setBandMode(int bandMode, Message response) { mCi.setBandMode(bandMode, response); } @Override public void queryAvailableBandMode(Message response) { mCi.queryAvailableBandMode(response); } @Override public void invokeOemRilRequestRaw(byte[] data, Message response) { mCi.invokeOemRilRequestRaw(data, response); } @Override public void invokeOemRilRequestStrings(String[] strings, Message response) { mCi.invokeOemRilRequestStrings(strings, response); } @Override public void nvReadItem(int itemID, Message response) { mCi.nvReadItem(itemID, response); } @Override public void nvWriteItem(int itemID, String itemValue, Message response) { mCi.nvWriteItem(itemID, itemValue, response); } @Override public void nvWriteCdmaPrl(byte[] preferredRoamingList, Message response) { mCi.nvWriteCdmaPrl(preferredRoamingList, response); } @Override public void nvResetConfig(int resetType, Message response) { mCi.nvResetConfig(resetType, response); } @Override public void notifyDataActivity() { mNotifier.notifyDataActivity(this); } public void notifyMessageWaitingIndicator() { // Do not notify voice mail waiting if device doesn't support voice if (!mIsVoiceCapable) return; // This function is added to send the notification to DefaultPhoneNotifier. mNotifier.notifyMessageWaitingChanged(this); } public void notifyDataConnection(String reason, String apnType, PhoneConstants.DataState state) { mNotifier.notifyDataConnection(this, reason, apnType, state); } public void notifyDataConnection(String reason, String apnType) { mNotifier.notifyDataConnection(this, reason, apnType, getDataConnectionState(apnType)); } public void notifyDataConnection(String reason) { String types[] = getActiveApnTypes(); for (String apnType : types) { mNotifier.notifyDataConnection(this, reason, apnType, getDataConnectionState(apnType)); } } public void notifyOtaspChanged(int otaspMode) { mNotifier.notifyOtaspChanged(this, otaspMode); } public void notifySignalStrength() { mNotifier.notifySignalStrength(this); } public void notifyCellInfo(List cellInfo) { mNotifier.notifyCellInfo(this, privatizeCellInfoList(cellInfo)); } public void notifyDataConnectionRealTimeInfo(DataConnectionRealTimeInfo dcRtInfo) { mNotifier.notifyDataConnectionRealTimeInfo(this, dcRtInfo); } public void notifyVoLteServiceStateChanged(VoLteServiceState lteState) { mNotifier.notifyVoLteServiceStateChanged(this, lteState); } /** * @return true if a mobile originating emergency call is active */ public boolean isInEmergencyCall() { return false; } /** * @return {@code true} if we are in emergency call back mode. This is a period where the phone * should be using as little power as possible and be ready to receive an incoming call from the * emergency operator. */ public boolean isInEcm() { return false; } private static int getVideoState(Call call) { int videoState = VideoProfile.STATE_AUDIO_ONLY; ImsPhoneConnection conn = (ImsPhoneConnection) call.getEarliestConnection(); if (conn != null) { videoState = conn.getVideoState(); } return videoState; } private boolean isVideoCall(Call call) { int videoState = getVideoState(call); return (VideoProfile.isVideo(videoState)); } @Override public boolean isVideoCallPresent() { boolean isVideoCallActive = false; if (mImsPhone != null) { isVideoCallActive = isVideoCall(mImsPhone.getForegroundCall()) || isVideoCall(mImsPhone.getBackgroundCall()) || isVideoCall(mImsPhone.getRingingCall()); } Rlog.d(LOG_TAG, "isVideoCallActive: " + isVideoCallActive); return isVideoCallActive; } @Override public abstract int getPhoneType(); /** @hide */ /** @return number of voicemails */ @Override public int getVoiceMessageCount(){ return mVmCount; } /** sets the voice mail count of the phone and notifies listeners. */ public void setVoiceMessageCount(int countWaiting) { mVmCount = countWaiting; // notify listeners of voice mail notifyMessageWaitingIndicator(); } /** gets the voice mail count from preferences */ protected int getStoredVoiceMessageCount() { int countVoiceMessages = 0; SharedPreferences sp = PreferenceManager.getDefaultSharedPreferences(mContext); String subscriberId = sp.getString(VM_ID, null); String currentSubscriberId = getSubscriberId(); if ((subscriberId != null) && (currentSubscriberId != null) && (currentSubscriberId.equals(subscriberId))) { // get voice mail count from preferences countVoiceMessages = sp.getInt(VM_COUNT, 0); Rlog.d(LOG_TAG, "Voice Mail Count from preference = " + countVoiceMessages); } else { Rlog.d(LOG_TAG, "Voicemail count retrieval returning 0 as count for matching " + "subscriberId not found"); } return countVoiceMessages; } /** * Returns the CDMA ERI icon index to display */ @Override public int getCdmaEriIconIndex() { logUnexpectedCdmaMethodCall("getCdmaEriIconIndex"); return -1; } /** * Returns the CDMA ERI icon mode, * 0 - ON * 1 - FLASHING */ @Override public int getCdmaEriIconMode() { logUnexpectedCdmaMethodCall("getCdmaEriIconMode"); return -1; } /** * Returns the CDMA ERI text, */ @Override public String getCdmaEriText() { logUnexpectedCdmaMethodCall("getCdmaEriText"); return "GSM nw, no ERI"; } @Override public String getCdmaMin() { // This function should be overridden by the class CDMAPhone. Not implemented in GSMPhone. logUnexpectedCdmaMethodCall("getCdmaMin"); return null; } @Override public boolean isMinInfoReady() { // This function should be overridden by the class CDMAPhone. Not implemented in GSMPhone. logUnexpectedCdmaMethodCall("isMinInfoReady"); return false; } @Override public String getCdmaPrlVersion(){ // This function should be overridden by the class CDMAPhone. Not implemented in GSMPhone. logUnexpectedCdmaMethodCall("getCdmaPrlVersion"); return null; } @Override public void sendBurstDtmf(String dtmfString, int on, int off, Message onComplete) { // This function should be overridden by the class CDMAPhone. Not implemented in GSMPhone. logUnexpectedCdmaMethodCall("sendBurstDtmf"); } @Override public void exitEmergencyCallbackMode() { // This function should be overridden by the class CDMAPhone. Not implemented in GSMPhone. logUnexpectedCdmaMethodCall("exitEmergencyCallbackMode"); } @Override public void registerForCdmaOtaStatusChange(Handler h, int what, Object obj) { // This function should be overridden by the class CDMAPhone. Not implemented in GSMPhone. logUnexpectedCdmaMethodCall("registerForCdmaOtaStatusChange"); } @Override public void unregisterForCdmaOtaStatusChange(Handler h) { // This function should be overridden by the class CDMAPhone. Not implemented in GSMPhone. logUnexpectedCdmaMethodCall("unregisterForCdmaOtaStatusChange"); } @Override public void registerForSubscriptionInfoReady(Handler h, int what, Object obj) { // This function should be overridden by the class CDMAPhone. Not implemented in GSMPhone. logUnexpectedCdmaMethodCall("registerForSubscriptionInfoReady"); } @Override public void unregisterForSubscriptionInfoReady(Handler h) { // This function should be overridden by the class CDMAPhone. Not implemented in GSMPhone. logUnexpectedCdmaMethodCall("unregisterForSubscriptionInfoReady"); } /** * Returns true if OTA Service Provisioning needs to be performed. * If not overridden return false. */ @Override public boolean needsOtaServiceProvisioning() { return false; } /** * Return true if number is an OTASP number. * If not overridden return false. */ @Override public boolean isOtaSpNumber(String dialStr) { return false; } @Override public void registerForCallWaiting(Handler h, int what, Object obj){ // This function should be overridden by the class CDMAPhone. Not implemented in GSMPhone. logUnexpectedCdmaMethodCall("registerForCallWaiting"); } @Override public void unregisterForCallWaiting(Handler h){ // This function should be overridden by the class CDMAPhone. Not implemented in GSMPhone. logUnexpectedCdmaMethodCall("unregisterForCallWaiting"); } @Override public void registerForEcmTimerReset(Handler h, int what, Object obj) { // This function should be overridden by the class CDMAPhone. Not implemented in GSMPhone. logUnexpectedCdmaMethodCall("registerForEcmTimerReset"); } @Override public void unregisterForEcmTimerReset(Handler h) { // This function should be overridden by the class CDMAPhone. Not implemented in GSMPhone. logUnexpectedCdmaMethodCall("unregisterForEcmTimerReset"); } @Override public void registerForSignalInfo(Handler h, int what, Object obj) { mCi.registerForSignalInfo(h, what, obj); } @Override public void unregisterForSignalInfo(Handler h) { mCi.unregisterForSignalInfo(h); } @Override public void registerForDisplayInfo(Handler h, int what, Object obj) { mCi.registerForDisplayInfo(h, what, obj); } @Override public void unregisterForDisplayInfo(Handler h) { mCi.unregisterForDisplayInfo(h); } @Override public void registerForNumberInfo(Handler h, int what, Object obj) { mCi.registerForNumberInfo(h, what, obj); } @Override public void unregisterForNumberInfo(Handler h) { mCi.unregisterForNumberInfo(h); } @Override public void registerForRedirectedNumberInfo(Handler h, int what, Object obj) { mCi.registerForRedirectedNumberInfo(h, what, obj); } @Override public void unregisterForRedirectedNumberInfo(Handler h) { mCi.unregisterForRedirectedNumberInfo(h); } @Override public void registerForLineControlInfo(Handler h, int what, Object obj) { mCi.registerForLineControlInfo( h, what, obj); } @Override public void unregisterForLineControlInfo(Handler h) { mCi.unregisterForLineControlInfo(h); } @Override public void registerFoT53ClirlInfo(Handler h, int what, Object obj) { mCi.registerFoT53ClirlInfo(h, what, obj); } @Override public void unregisterForT53ClirInfo(Handler h) { mCi.unregisterForT53ClirInfo(h); } @Override public void registerForT53AudioControlInfo(Handler h, int what, Object obj) { mCi.registerForT53AudioControlInfo( h, what, obj); } @Override public void unregisterForT53AudioControlInfo(Handler h) { mCi.unregisterForT53AudioControlInfo(h); } @Override public void setOnEcbModeExitResponse(Handler h, int what, Object obj){ // This function should be overridden by the class CDMAPhone. Not implemented in GSMPhone. logUnexpectedCdmaMethodCall("setOnEcbModeExitResponse"); } @Override public void unsetOnEcbModeExitResponse(Handler h){ // This function should be overridden by the class CDMAPhone. Not implemented in GSMPhone. logUnexpectedCdmaMethodCall("unsetOnEcbModeExitResponse"); } @Override public void registerForRadioOffOrNotAvailable(Handler h, int what, Object obj) { mRadioOffOrNotAvailableRegistrants.addUnique(h, what, obj); } @Override public void unregisterForRadioOffOrNotAvailable(Handler h) { mRadioOffOrNotAvailableRegistrants.remove(h); } @Override public String[] getActiveApnTypes() { return mDcTracker.getActiveApnTypes(); } @Override public boolean hasMatchedTetherApnSetting() { return mDcTracker.hasMatchedTetherApnSetting(); } @Override public String getActiveApnHost(String apnType) { return mDcTracker.getActiveApnString(apnType); } @Override public LinkProperties getLinkProperties(String apnType) { return mDcTracker.getLinkProperties(apnType); } @Override public NetworkCapabilities getNetworkCapabilities(String apnType) { return mDcTracker.getNetworkCapabilities(apnType); } @Override public boolean isDataConnectivityPossible() { return isDataConnectivityPossible(PhoneConstants.APN_TYPE_DEFAULT); } @Override public boolean isDataConnectivityPossible(String apnType) { return ((mDcTracker != null) && (mDcTracker.isDataPossible(apnType))); } /** * Notify registrants of a new ringing Connection. * Subclasses of Phone probably want to replace this with a * version scoped to their packages */ public void notifyNewRingingConnectionP(Connection cn) { if (!mIsVoiceCapable) return; AsyncResult ar = new AsyncResult(null, cn, null); mNewRingingConnectionRegistrants.notifyRegistrants(ar); } /** * Notify registrants if phone is video capable. */ public void notifyForVideoCapabilityChanged(boolean isVideoCallCapable) { // Cache the current video capability so that we don't lose the information. mIsVideoCapable = isVideoCallCapable; AsyncResult ar = new AsyncResult(null, isVideoCallCapable, null); mVideoCapabilityChangedRegistrants.notifyRegistrants(ar); } /** * Notify registrants of a RING event. */ private void notifyIncomingRing() { if (!mIsVoiceCapable) return; AsyncResult ar = new AsyncResult(null, this, null); mIncomingRingRegistrants.notifyRegistrants(ar); } /** * Send the incoming call Ring notification if conditions are right. */ private void sendIncomingCallRingNotification(int token) { if (mIsVoiceCapable && !mDoesRilSendMultipleCallRing && (token == mCallRingContinueToken)) { Rlog.d(LOG_TAG, "Sending notifyIncomingRing"); notifyIncomingRing(); sendMessageDelayed( obtainMessage(EVENT_CALL_RING_CONTINUE, token, 0), mCallRingDelay); } else { Rlog.d(LOG_TAG, "Ignoring ring notification request," + " mDoesRilSendMultipleCallRing=" + mDoesRilSendMultipleCallRing + " token=" + token + " mCallRingContinueToken=" + mCallRingContinueToken + " mIsVoiceCapable=" + mIsVoiceCapable); } } @Override public boolean isCspPlmnEnabled() { // This function should be overridden by the class GSMPhone. // Not implemented in CDMAPhone. logUnexpectedGsmMethodCall("isCspPlmnEnabled"); return false; } @Override public IsimRecords getIsimRecords() { Rlog.e(LOG_TAG, "getIsimRecords() is only supported on LTE devices"); return null; } @Override public String getMsisdn() { logUnexpectedGsmMethodCall("getMsisdn"); return null; } /** * Common error logger method for unexpected calls to CDMA-only methods. */ private static void logUnexpectedCdmaMethodCall(String name) { Rlog.e(LOG_TAG, "Error! " + name + "() in PhoneBase should not be " + "called, CDMAPhone inactive."); } @Override public PhoneConstants.DataState getDataConnectionState() { return getDataConnectionState(PhoneConstants.APN_TYPE_DEFAULT); } /** * Common error logger method for unexpected calls to GSM/WCDMA-only methods. */ private static void logUnexpectedGsmMethodCall(String name) { Rlog.e(LOG_TAG, "Error! " + name + "() in PhoneBase should not be " + "called, GSMPhone inactive."); } // Called by SimRecords which is constructed with a PhoneBase instead of a GSMPhone. public void notifyCallForwardingIndicator() { // This function should be overridden by the class GSMPhone. Not implemented in CDMAPhone. Rlog.e(LOG_TAG, "Error! This function should never be executed, inactive CDMAPhone."); } public void notifyDataConnectionFailed(String reason, String apnType) { mNotifier.notifyDataConnectionFailed(this, reason, apnType); } public void notifyPreciseDataConnectionFailed(String reason, String apnType, String apn, String failCause) { mNotifier.notifyPreciseDataConnectionFailed(this, reason, apnType, apn, failCause); } /** * {@inheritDoc} */ @Override public int getLteOnCdmaMode() { return mCi.getLteOnCdmaMode(); } public void setVoiceMessageWaiting(int line, int countWaiting) { // This function should be overridden by class GSMPhone and CDMAPhone. Rlog.e(LOG_TAG, "Error! This function should never be executed, inactive Phone."); } /** * Gets the USIM service table from the UICC, if present and available. * @return an interface to the UsimServiceTable record, or null if not available */ @Override public UsimServiceTable getUsimServiceTable() { IccRecords r = mIccRecords.get(); return (r != null) ? r.getUsimServiceTable() : null; } /** * Gets the Uicc card corresponding to this phone. * @return the UiccCard object corresponding to the phone ID. */ @Override public UiccCard getUiccCard() { return mUiccController.getUiccCard(mPhoneId); } /** * Get P-CSCF address from PCO after data connection is established or modified. * @param apnType the apnType, "ims" for IMS APN, "emergency" for EMERGENCY APN */ @Override public String[] getPcscfAddress(String apnType) { return mDcTracker.getPcscfAddress(apnType); } /** * Set IMS registration state */ @Override public void setImsRegistrationState(boolean registered) { mDcTracker.setImsRegistrationState(registered); } /** * Return an instance of a IMS phone */ @Override public Phone getImsPhone() { return mImsPhone; } @Override public ImsPhone relinquishOwnershipOfImsPhone() { synchronized (PhoneProxy.lockForRadioTechnologyChange) { if (mImsPhone == null) return null; if (mImsIntentReceiverRegistered) { mContext.unregisterReceiver(mImsIntentReceiver); mImsIntentReceiverRegistered = false; } ImsPhone imsPhone = mImsPhone; mImsPhone = null; CallManager.getInstance().unregisterPhone(imsPhone); imsPhone.unregisterForSilentRedial(this); return imsPhone; } } @Override public void acquireOwnershipOfImsPhone(ImsPhone imsPhone) { synchronized (PhoneProxy.lockForRadioTechnologyChange) { if (imsPhone == null) return; if (mImsPhone != null) { Rlog.e(LOG_TAG, "acquireOwnershipOfImsPhone: non-null mImsPhone." + " Shouldn't happen - but disposing"); mImsPhone.dispose(); // Potential GC issue if someone keeps a reference to ImsPhone. // However: this change will make sure that such a reference does // not access functions through NULL pointer. //mImsPhone.removeReferences(); } mImsPhone = imsPhone; mImsServiceReady = true; mImsPhone.updateParentPhone(this); CallManager.getInstance().registerPhone(mImsPhone); mImsPhone.registerForSilentRedial( this, EVENT_INITIATE_SILENT_REDIAL, null); } } protected void updateImsPhone() { Rlog.d(LOG_TAG, "updateImsPhone" + " mImsServiceReady=" + mImsServiceReady); if (mImsServiceReady && (mImsPhone == null)) { mImsPhone = PhoneFactory.makeImsPhone(mNotifier, this); CallManager.getInstance().registerPhone(mImsPhone); mImsPhone.registerForSilentRedial( this, EVENT_INITIATE_SILENT_REDIAL, null); } else if (!mImsServiceReady && (mImsPhone != null)) { CallManager.getInstance().unregisterPhone(mImsPhone); mImsPhone.unregisterForSilentRedial(this); mImsPhone.dispose(); // Potential GC issue if someone keeps a reference to ImsPhone. // However: this change will make sure that such a reference does // not access functions through NULL pointer. //mImsPhone.removeReferences(); mImsPhone = null; } } /** * Dials a number. * * @param dialString The number to dial. * @param uusInfo The UUSInfo. * @param videoState The video state for the call. * @param intentExtras Extras from the original CALL intent. * @return The Connection. * @throws CallStateException */ protected Connection dialInternal( String dialString, UUSInfo uusInfo, int videoState, Bundle intentExtras) throws CallStateException { // dialInternal shall be overriden by GSMPhone and CDMAPhone return null; } /** * Returns the subscription id. */ public int getSubId() { return SubscriptionController.getInstance().getSubIdUsingPhoneId(mPhoneId); } /** * Returns the phone id. */ public int getPhoneId() { return mPhoneId; } /** * Return the service state of mImsPhone if it is STATE_IN_SERVICE * otherwise return the current voice service state */ @Override public int getVoicePhoneServiceState() { ImsPhone imsPhone = mImsPhone; if (imsPhone != null && imsPhone.getServiceState().getState() == ServiceState.STATE_IN_SERVICE) { return ServiceState.STATE_IN_SERVICE; } return getServiceState().getState(); } @Override public boolean setOperatorBrandOverride(String brand) { return false; } @Override public boolean setRoamingOverride(List gsmRoamingList, List gsmNonRoamingList, List cdmaRoamingList, List cdmaNonRoamingList) { String iccId = getIccSerialNumber(); if (TextUtils.isEmpty(iccId)) { return false; } setRoamingOverrideHelper(gsmRoamingList, GSM_ROAMING_LIST_OVERRIDE_PREFIX, iccId); setRoamingOverrideHelper(gsmNonRoamingList, GSM_NON_ROAMING_LIST_OVERRIDE_PREFIX, iccId); setRoamingOverrideHelper(cdmaRoamingList, CDMA_ROAMING_LIST_OVERRIDE_PREFIX, iccId); setRoamingOverrideHelper(cdmaNonRoamingList, CDMA_NON_ROAMING_LIST_OVERRIDE_PREFIX, iccId); // Refresh. ServiceStateTracker tracker = getServiceStateTracker(); if (tracker != null) { tracker.pollState(); } return true; } private void setRoamingOverrideHelper(List list, String prefix, String iccId) { SharedPreferences.Editor spEditor = PreferenceManager.getDefaultSharedPreferences(mContext).edit(); String key = prefix + iccId; if (list == null || list.isEmpty()) { spEditor.remove(key).commit(); } else { spEditor.putStringSet(key, new HashSet(list)).commit(); } } public boolean isMccMncMarkedAsRoaming(String mccMnc) { return getRoamingOverrideHelper(GSM_ROAMING_LIST_OVERRIDE_PREFIX, mccMnc); } public boolean isMccMncMarkedAsNonRoaming(String mccMnc) { return getRoamingOverrideHelper(GSM_NON_ROAMING_LIST_OVERRIDE_PREFIX, mccMnc); } public boolean isSidMarkedAsRoaming(int SID) { return getRoamingOverrideHelper(CDMA_ROAMING_LIST_OVERRIDE_PREFIX, Integer.toString(SID)); } public boolean isSidMarkedAsNonRoaming(int SID) { return getRoamingOverrideHelper(CDMA_NON_ROAMING_LIST_OVERRIDE_PREFIX, Integer.toString(SID)); } /** * Get IMS Registration Status */ @Override public boolean isImsRegistered() { ImsPhone imsPhone = mImsPhone; boolean isImsRegistered = false; if (imsPhone != null) { isImsRegistered = imsPhone.isImsRegistered(); } else { ServiceStateTracker sst = getServiceStateTracker(); if (sst != null) { isImsRegistered = sst.isImsRegistered(); } } Rlog.d(LOG_TAG, "isImsRegistered =" + isImsRegistered); return isImsRegistered; } /** * Get Wifi Calling Feature Availability */ @Override public boolean isWifiCallingEnabled() { ImsPhone imsPhone = mImsPhone; boolean isWifiCallingEnabled = false; if (imsPhone != null) { isWifiCallingEnabled = imsPhone.isVowifiEnabled(); } Rlog.d(LOG_TAG, "isWifiCallingEnabled =" + isWifiCallingEnabled); return isWifiCallingEnabled; } /** * Get Volte Feature Availability */ @Override public boolean isVolteEnabled() { ImsPhone imsPhone = mImsPhone; boolean isVolteEnabled = false; if (imsPhone != null) { isVolteEnabled = imsPhone.isVolteEnabled(); } Rlog.d(LOG_TAG, "isImsRegistered =" + isVolteEnabled); return isVolteEnabled; } private boolean getRoamingOverrideHelper(String prefix, String key) { String iccId = getIccSerialNumber(); if (TextUtils.isEmpty(iccId) || TextUtils.isEmpty(key)) { return false; } SharedPreferences sp = PreferenceManager.getDefaultSharedPreferences(mContext); Set value = sp.getStringSet(prefix + iccId, null); if (value == null) { return false; } return value.contains(key); } @Override public boolean isRadioAvailable() { return mCi.getRadioState().isAvailable(); } @Override public boolean isRadioOn() { return mCi.getRadioState().isOn(); } @Override public void shutdownRadio() { getServiceStateTracker().requestShutdown(); } @Override public void setRadioCapability(RadioCapability rc, Message response) { mCi.setRadioCapability(rc, response); } @Override public int getRadioAccessFamily() { final RadioCapability rc = getRadioCapability(); return (rc == null ? RadioAccessFamily.RAF_UNKNOWN : rc.getRadioAccessFamily()); } @Override public String getModemUuId() { final RadioCapability rc = getRadioCapability(); return (rc == null ? "" : rc.getLogicalModemUuid()); } @Override public RadioCapability getRadioCapability() { return mRadioCapability.get(); } @Override public void radioCapabilityUpdated(RadioCapability rc) { // Called when radios first become available or after a capability switch // Update the cached value mRadioCapability.set(rc); if (SubscriptionManager.isValidSubscriptionId(getSubId())) { sendSubscriptionSettings(true); } } public void sendSubscriptionSettings(boolean restoreNetworkSelection) { // Send settings down int type = PhoneFactory.calculatePreferredNetworkType(mContext, getSubId()); setPreferredNetworkType(type, null); if (restoreNetworkSelection) { restoreSavedNetworkSelection(null); } mDcTracker.setDataEnabled(getDataEnabled()); } protected void setPreferredNetworkTypeIfSimLoaded() { int subId = getSubId(); if (SubscriptionManager.isValidSubscriptionId(subId)) { int type = PhoneFactory.calculatePreferredNetworkType(mContext, getSubId()); setPreferredNetworkType(type, null); } } @Override public void registerForRadioCapabilityChanged(Handler h, int what, Object obj) { mCi.registerForRadioCapabilityChanged(h, what, obj); } @Override public void unregisterForRadioCapabilityChanged(Handler h) { mCi.unregisterForRadioCapabilityChanged(this); } /** * Determines if IMS is enabled for call. * * @return {@code true} if IMS calling is enabled. */ public boolean isImsUseEnabled() { boolean imsUseEnabled = ((ImsManager.isVolteEnabledByPlatform(mContext) && ImsManager.isEnhanced4gLteModeSettingEnabledByUser(mContext)) || (ImsManager.isWfcEnabledByPlatform(mContext) && ImsManager.isWfcEnabledByUser(mContext)) && ImsManager.isNonTtyOrTtyOnVolteEnabled(mContext)); return imsUseEnabled; } /** * Determines if video calling is enabled for the IMS phone. * * @return {@code true} if video calling is enabled. */ @Override public boolean isVideoEnabled() { ImsPhone imsPhone = mImsPhone; if ((imsPhone != null) && (imsPhone.getServiceState().getState() == ServiceState.STATE_IN_SERVICE)) { return imsPhone.isVideoEnabled(); } return false; } @Override public int getLceStatus() { return mLceStatus; } @Override public void getModemActivityInfo(Message response) { mCi.getModemActivityInfo(response); } /** * Starts LCE service after radio becomes available. * LCE service state may get destroyed on the modem when radio becomes unavailable. */ public void startLceAfterRadioIsAvailable() { if (mIsTheCurrentActivePhone) { mCi.startLceService(DEFAULT_REPORT_INTERVAL_MS, LCE_PULL_MODE, obtainMessage(EVENT_CONFIG_LCE)); } } @Override public Locale getLocaleFromSimAndCarrierPrefs() { final IccRecords records = mIccRecords.get(); if (records != null && records.getSimLanguage() != null) { return new Locale(records.getSimLanguage()); } return getLocaleFromCarrierProperties(mContext); } public void dump(FileDescriptor fd, PrintWriter pw, String[] args) { pw.println("PhoneBase: subId=" + getSubId()); pw.println(" mPhoneId=" + mPhoneId); pw.println(" mCi=" + mCi); pw.println(" mDnsCheckDisabled=" + mDnsCheckDisabled); pw.println(" mDcTracker=" + mDcTracker); pw.println(" mDoesRilSendMultipleCallRing=" + mDoesRilSendMultipleCallRing); pw.println(" mCallRingContinueToken=" + mCallRingContinueToken); pw.println(" mCallRingDelay=" + mCallRingDelay); pw.println(" mIsTheCurrentActivePhone=" + mIsTheCurrentActivePhone); pw.println(" mIsVoiceCapable=" + mIsVoiceCapable); pw.println(" mIccRecords=" + mIccRecords.get()); pw.println(" mUiccApplication=" + mUiccApplication.get()); pw.println(" mSmsStorageMonitor=" + mSmsStorageMonitor); pw.println(" mSmsUsageMonitor=" + mSmsUsageMonitor); pw.flush(); pw.println(" mLooper=" + mLooper); pw.println(" mContext=" + mContext); pw.println(" mNotifier=" + mNotifier); pw.println(" mSimulatedRadioControl=" + mSimulatedRadioControl); pw.println(" mUnitTestMode=" + mUnitTestMode); pw.println(" isDnsCheckDisabled()=" + isDnsCheckDisabled()); pw.println(" getUnitTestMode()=" + getUnitTestMode()); pw.println(" getState()=" + getState()); pw.println(" getIccSerialNumber()=" + getIccSerialNumber()); pw.println(" getIccRecordsLoaded()=" + getIccRecordsLoaded()); pw.println(" getMessageWaitingIndicator()=" + getMessageWaitingIndicator()); pw.println(" getCallForwardingIndicator()=" + getCallForwardingIndicator()); pw.println(" isInEmergencyCall()=" + isInEmergencyCall()); pw.flush(); pw.println(" isInEcm()=" + isInEcm()); pw.println(" getPhoneName()=" + getPhoneName()); pw.println(" getPhoneType()=" + getPhoneType()); pw.println(" getVoiceMessageCount()=" + getVoiceMessageCount()); pw.println(" getActiveApnTypes()=" + getActiveApnTypes()); pw.println(" isDataConnectivityPossible()=" + isDataConnectivityPossible()); pw.println(" needsOtaServiceProvisioning=" + needsOtaServiceProvisioning()); pw.flush(); pw.println("++++++++++++++++++++++++++++++++"); try { mDcTracker.dump(fd, pw, args); } catch (Exception e) { e.printStackTrace(); } pw.flush(); pw.println("++++++++++++++++++++++++++++++++"); try { getServiceStateTracker().dump(fd, pw, args); } catch (Exception e) { e.printStackTrace(); } pw.flush(); pw.println("++++++++++++++++++++++++++++++++"); try { getCallTracker().dump(fd, pw, args); } catch (Exception e) { e.printStackTrace(); } pw.flush(); pw.println("++++++++++++++++++++++++++++++++"); try { ((RIL)mCi).dump(fd, pw, args); } catch (Exception e) { e.printStackTrace(); } pw.flush(); pw.println("++++++++++++++++++++++++++++++++"); } }