/* * Copyright (C) 2012 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.cdma; import android.content.Intent; import com.android.internal.telephony.TelephonyProperties; import com.android.internal.telephony.MccTable; import com.android.internal.telephony.EventLogTags; import com.android.internal.telephony.uicc.RuimRecords; import com.android.internal.telephony.uicc.IccCardApplicationStatus.AppState; import com.android.internal.telephony.TelephonyIntents; import com.android.internal.telephony.Phone; import com.android.internal.telephony.PhoneFactory; import android.telephony.CellInfo; import android.telephony.CellInfoLte; import android.telephony.CellSignalStrengthLte; import android.telephony.CellIdentityLte; import android.telephony.SignalStrength; import android.telephony.ServiceState; import android.telephony.cdma.CdmaCellLocation; import android.telephony.TelephonyManager; import android.text.TextUtils; import android.os.AsyncResult; import android.os.Message; import android.os.UserHandle; import android.os.SystemClock; import android.os.SystemProperties; import android.telephony.Rlog; import android.util.EventLog; import com.android.internal.telephony.dataconnection.DcTrackerBase; import com.android.internal.telephony.ProxyController; import android.telephony.SubscriptionManager; import com.android.internal.telephony.uicc.UiccCardApplication; import com.android.internal.telephony.uicc.UiccController; import java.io.FileDescriptor; import java.io.PrintWriter; import java.util.ArrayList; import java.util.List; public class CdmaLteServiceStateTracker extends CdmaServiceStateTracker { private CDMALTEPhone mCdmaLtePhone; private final CellInfoLte mCellInfoLte; private static final int EVENT_ALL_DATA_DISCONNECTED = 1001; private CellIdentityLte mNewCellIdentityLte = new CellIdentityLte(); private CellIdentityLte mLasteCellIdentityLte = new CellIdentityLte(); public CdmaLteServiceStateTracker(CDMALTEPhone phone) { super(phone, new CellInfoLte()); mCdmaLtePhone = phone; mCellInfoLte = (CellInfoLte) mCellInfo; ((CellInfoLte)mCellInfo).setCellSignalStrength(new CellSignalStrengthLte()); ((CellInfoLte)mCellInfo).setCellIdentity(new CellIdentityLte()); if (DBG) log("CdmaLteServiceStateTracker Constructors"); } @Override public void handleMessage(Message msg) { AsyncResult ar; int[] ints; String[] strings; if (!mPhone.mIsTheCurrentActivePhone) { loge("Received message " + msg + "[" + msg.what + "]" + " while being destroyed. Ignoring."); return; } if (DBG) log("handleMessage: " + msg.what); switch (msg.what) { case EVENT_POLL_STATE_GPRS: if (DBG) log("handleMessage EVENT_POLL_STATE_GPRS"); ar = (AsyncResult)msg.obj; handlePollStateResult(msg.what, ar); break; case EVENT_RUIM_RECORDS_LOADED: updatePhoneObject(); RuimRecords ruim = (RuimRecords)mIccRecords; if (ruim != null) { if (ruim.isProvisioned()) { mMdn = ruim.getMdn(); mMin = ruim.getMin(); parseSidNid(ruim.getSid(), ruim.getNid()); mPrlVersion = ruim.getPrlVersion(); mIsMinInfoReady = true; } updateOtaspState(); } // reload eri in case of IMSI changed // eri.xml can be defined by mcc mnc mPhone.prepareEri(); // SID/NID/PRL is loaded. Poll service state // again to update to the roaming state with // the latest variables. pollState(); break; case EVENT_ALL_DATA_DISCONNECTED: long dds = SubscriptionManager.getDefaultDataSubId(); ProxyController.getInstance().unregisterForAllDataDisconnected(dds, this); synchronized(this) { if (mPendingRadioPowerOffAfterDataOff) { if (DBG) log("EVENT_ALL_DATA_DISCONNECTED, turn radio off now."); hangupAndPowerOff(); mPendingRadioPowerOffAfterDataOff = false; } else { log("EVENT_ALL_DATA_DISCONNECTED is stale"); } } break; default: super.handleMessage(msg); } } /** * Handle the result of one of the pollState()-related requests */ @Override protected void handlePollStateResultMessage(int what, AsyncResult ar) { if (what == EVENT_POLL_STATE_GPRS) { String states[] = (String[])ar.result; if (DBG) { log("handlePollStateResultMessage: EVENT_POLL_STATE_GPRS states.length=" + states.length + " states=" + states); } int type = 0; int regState = -1; if (states.length > 0) { try { regState = Integer.parseInt(states[0]); // states[3] (if present) is the current radio technology if (states.length >= 4 && states[3] != null) { type = Integer.parseInt(states[3]); } } catch (NumberFormatException ex) { loge("handlePollStateResultMessage: error parsing GprsRegistrationState: " + ex); } if (states.length >= 10) { int mcc; int mnc; int tac; int pci; int eci; int csgid; String operatorNumeric = null; try { operatorNumeric = mNewSS.getOperatorNumeric(); mcc = Integer.parseInt(operatorNumeric.substring(0,3)); } catch (Exception e) { try { operatorNumeric = mSS.getOperatorNumeric(); mcc = Integer.parseInt(operatorNumeric.substring(0,3)); } catch (Exception ex) { loge("handlePollStateResultMessage: bad mcc operatorNumeric=" + operatorNumeric + " ex=" + ex); operatorNumeric = ""; mcc = Integer.MAX_VALUE; } } try { mnc = Integer.parseInt(operatorNumeric.substring(3)); } catch (Exception e) { loge("handlePollStateResultMessage: bad mnc operatorNumeric=" + operatorNumeric + " e=" + e); mnc = Integer.MAX_VALUE; } // Use Integer#decode to be generous in what we receive and allow // decimal, hex or octal values. try { tac = Integer.decode(states[6]); } catch (Exception e) { loge("handlePollStateResultMessage: bad tac states[6]=" + states[6] + " e=" + e); tac = Integer.MAX_VALUE; } try { pci = Integer.decode(states[7]); } catch (Exception e) { loge("handlePollStateResultMessage: bad pci states[7]=" + states[7] + " e=" + e); pci = Integer.MAX_VALUE; } try { eci = Integer.decode(states[8]); } catch (Exception e) { loge("handlePollStateResultMessage: bad eci states[8]=" + states[8] + " e=" + e); eci = Integer.MAX_VALUE; } try { csgid = Integer.decode(states[9]); } catch (Exception e) { // FIX: Always bad so don't pollute the logs // loge("handlePollStateResultMessage: bad csgid states[9]=" + // states[9] + " e=" + e); csgid = Integer.MAX_VALUE; } mNewCellIdentityLte = new CellIdentityLte(mcc, mnc, eci, pci, tac); if (DBG) { log("handlePollStateResultMessage: mNewLteCellIdentity=" + mNewCellIdentityLte); } } } mNewSS.setRilDataRadioTechnology(type); int dataRegState = regCodeToServiceState(regState); mNewSS.setDataRegState(dataRegState); if (DBG) { log("handlPollStateResultMessage: CdmaLteSST setDataRegState=" + dataRegState + " regState=" + regState + " dataRadioTechnology=" + type); } } else { super.handlePollStateResultMessage(what, ar); } } @Override public void pollState() { mPollingContext = new int[1]; mPollingContext[0] = 0; switch (mCi.getRadioState()) { case RADIO_UNAVAILABLE: mNewSS.setStateOutOfService(); mNewCellLoc.setStateInvalid(); setSignalStrengthDefaultValues(); mGotCountryCode = false; pollStateDone(); break; case RADIO_OFF: mNewSS.setStateOff(); mNewCellLoc.setStateInvalid(); setSignalStrengthDefaultValues(); mGotCountryCode = false; pollStateDone(); break; default: // Issue all poll-related commands at once, then count // down the responses which are allowed to arrive // out-of-order. mPollingContext[0]++; // RIL_REQUEST_OPERATOR is necessary for CDMA mCi.getOperator(obtainMessage(EVENT_POLL_STATE_OPERATOR_CDMA, mPollingContext)); mPollingContext[0]++; // RIL_REQUEST_VOICE_REGISTRATION_STATE is necessary for CDMA mCi.getVoiceRegistrationState(obtainMessage(EVENT_POLL_STATE_REGISTRATION_CDMA, mPollingContext)); mPollingContext[0]++; // RIL_REQUEST_DATA_REGISTRATION_STATE mCi.getDataRegistrationState(obtainMessage(EVENT_POLL_STATE_GPRS, mPollingContext)); break; } } @Override protected void pollStateDone() { log("pollStateDone: lte 1 ss=[" + mSS + "] newSS=[" + mNewSS + "]"); useDataRegStateForDataOnlyDevices(); boolean hasRegistered = mSS.getVoiceRegState() != ServiceState.STATE_IN_SERVICE && mNewSS.getVoiceRegState() == ServiceState.STATE_IN_SERVICE; boolean hasDeregistered = mSS.getVoiceRegState() == ServiceState.STATE_IN_SERVICE && mNewSS.getVoiceRegState() != ServiceState.STATE_IN_SERVICE; boolean hasCdmaDataConnectionAttached = mSS.getDataRegState() != ServiceState.STATE_IN_SERVICE && mNewSS.getDataRegState() == ServiceState.STATE_IN_SERVICE; boolean hasCdmaDataConnectionDetached = mSS.getDataRegState() == ServiceState.STATE_IN_SERVICE && mNewSS.getDataRegState() != ServiceState.STATE_IN_SERVICE; boolean hasCdmaDataConnectionChanged = mSS.getDataRegState() != mNewSS.getDataRegState(); boolean hasVoiceRadioTechnologyChanged = mSS.getRilVoiceRadioTechnology() != mNewSS.getRilVoiceRadioTechnology(); boolean hasDataRadioTechnologyChanged = mSS.getRilDataRadioTechnology() != mNewSS.getRilDataRadioTechnology(); boolean hasChanged = !mNewSS.equals(mSS); boolean hasRoamingOn = !mSS.getRoaming() && mNewSS.getRoaming(); boolean hasRoamingOff = mSS.getRoaming() && !mNewSS.getRoaming(); boolean hasLocationChanged = !mNewCellLoc.equals(mCellLoc); boolean has4gHandoff = mNewSS.getDataRegState() == ServiceState.STATE_IN_SERVICE && (((mSS.getRilDataRadioTechnology() == ServiceState.RIL_RADIO_TECHNOLOGY_LTE) && (mNewSS.getRilDataRadioTechnology() == ServiceState.RIL_RADIO_TECHNOLOGY_EHRPD)) || ((mSS.getRilDataRadioTechnology() == ServiceState.RIL_RADIO_TECHNOLOGY_EHRPD) && (mNewSS.getRilDataRadioTechnology() == ServiceState.RIL_RADIO_TECHNOLOGY_LTE))); boolean hasMultiApnSupport = (((mNewSS.getRilDataRadioTechnology() == ServiceState.RIL_RADIO_TECHNOLOGY_LTE) || (mNewSS.getRilDataRadioTechnology() == ServiceState.RIL_RADIO_TECHNOLOGY_EHRPD)) && ((mSS.getRilDataRadioTechnology() != ServiceState.RIL_RADIO_TECHNOLOGY_LTE) && (mSS.getRilDataRadioTechnology() != ServiceState.RIL_RADIO_TECHNOLOGY_EHRPD))); boolean hasLostMultiApnSupport = ((mNewSS.getRilDataRadioTechnology() >= ServiceState.RIL_RADIO_TECHNOLOGY_IS95A) && (mNewSS.getRilDataRadioTechnology() <= ServiceState.RIL_RADIO_TECHNOLOGY_EVDO_A)); if (DBG) { log("pollStateDone:" + " hasRegistered=" + hasRegistered + " hasDeegistered=" + hasDeregistered + " hasCdmaDataConnectionAttached=" + hasCdmaDataConnectionAttached + " hasCdmaDataConnectionDetached=" + hasCdmaDataConnectionDetached + " hasCdmaDataConnectionChanged=" + hasCdmaDataConnectionChanged + " hasVoiceRadioTechnologyChanged= " + hasVoiceRadioTechnologyChanged + " hasDataRadioTechnologyChanged=" + hasDataRadioTechnologyChanged + " hasChanged=" + hasChanged + " hasRoamingOn=" + hasRoamingOn + " hasRoamingOff=" + hasRoamingOff + " hasLocationChanged=" + hasLocationChanged + " has4gHandoff = " + has4gHandoff + " hasMultiApnSupport=" + hasMultiApnSupport + " hasLostMultiApnSupport=" + hasLostMultiApnSupport); } // Add an event log when connection state changes if (mSS.getVoiceRegState() != mNewSS.getVoiceRegState() || mSS.getDataRegState() != mNewSS.getDataRegState()) { EventLog.writeEvent(EventLogTags.CDMA_SERVICE_STATE_CHANGE, mSS.getVoiceRegState(), mSS.getDataRegState(), mNewSS.getVoiceRegState(), mNewSS.getDataRegState()); } ServiceState tss; tss = mSS; mSS = mNewSS; mNewSS = tss; // clean slate for next time mNewSS.setStateOutOfService(); CdmaCellLocation tcl = mCellLoc; mCellLoc = mNewCellLoc; mNewCellLoc = tcl; mNewSS.setStateOutOfService(); // clean slate for next time if (hasVoiceRadioTechnologyChanged) { updatePhoneObject(); } if (hasDataRadioTechnologyChanged) { mPhone.setSystemProperty(TelephonyProperties.PROPERTY_DATA_NETWORK_TYPE, ServiceState.rilRadioTechnologyToString(mSS.getRilDataRadioTechnology())); } if (hasRegistered) { mNetworkAttachedRegistrants.notifyRegistrants(); } if (hasChanged) { boolean hasBrandOverride = mUiccController.getUiccCard() == null ? false : (mUiccController.getUiccCard().getOperatorBrandOverride() != null); if (!hasBrandOverride && (mCi.getRadioState().isOn()) && (mPhone.isEriFileLoaded())) { String eriText; // Now the CDMAPhone sees the new ServiceState so it can get the // new ERI text if (mSS.getVoiceRegState() == ServiceState.STATE_IN_SERVICE) { eriText = mPhone.getCdmaEriText(); } else if (mSS.getVoiceRegState() == ServiceState.STATE_POWER_OFF) { eriText = (mIccRecords != null) ? mIccRecords.getServiceProviderName() : null; if (TextUtils.isEmpty(eriText)) { // Sets operator alpha property by retrieving from // build-time system property eriText = SystemProperties.get("ro.cdma.home.operator.alpha"); } } else { // Note that ServiceState.STATE_OUT_OF_SERVICE is valid used // for mRegistrationState 0,2,3 and 4 eriText = mPhone.getContext() .getText(com.android.internal.R.string.roamingTextSearching).toString(); } mSS.setOperatorAlphaLong(eriText); } if (mUiccApplcation != null && mUiccApplcation.getState() == AppState.APPSTATE_READY && mIccRecords != null) { // SIM is found on the device. If ERI roaming is OFF, and SID/NID matches // one configured in SIM, use operator name from CSIM record. boolean showSpn = ((RuimRecords)mIccRecords).getCsimSpnDisplayCondition(); int iconIndex = mSS.getCdmaEriIconIndex(); if (showSpn && (iconIndex == EriInfo.ROAMING_INDICATOR_OFF) && isInHomeSidNid(mSS.getSystemId(), mSS.getNetworkId()) && mIccRecords != null) { mSS.setOperatorAlphaLong(mIccRecords.getServiceProviderName()); } } String operatorNumeric; mPhone.setSystemProperty(TelephonyProperties.PROPERTY_OPERATOR_ALPHA, mSS.getOperatorAlphaLong()); String prevOperatorNumeric = SystemProperties.get(TelephonyProperties.PROPERTY_OPERATOR_NUMERIC, ""); operatorNumeric = mSS.getOperatorNumeric(); // try to fix the invalid Operator Numeric if (isInvalidOperatorNumeric(operatorNumeric)) { int sid = mSS.getSystemId(); operatorNumeric = fixUnknownMcc(operatorNumeric, sid); } mPhone.setSystemProperty(TelephonyProperties.PROPERTY_OPERATOR_NUMERIC, operatorNumeric); updateCarrierMccMncConfiguration(operatorNumeric, prevOperatorNumeric, mPhone.getContext()); if (isInvalidOperatorNumeric(operatorNumeric)) { if (DBG) log("operatorNumeric is null"); mPhone.setSystemProperty(TelephonyProperties.PROPERTY_OPERATOR_ISO_COUNTRY, ""); mGotCountryCode = false; } else { String isoCountryCode = ""; String mcc = operatorNumeric.substring(0, 3); try { isoCountryCode = MccTable.countryCodeForMcc(Integer.parseInt(operatorNumeric .substring(0, 3))); } catch (NumberFormatException ex) { loge("countryCodeForMcc error" + ex); } catch (StringIndexOutOfBoundsException ex) { loge("countryCodeForMcc error" + ex); } mPhone.setSystemProperty(TelephonyProperties.PROPERTY_OPERATOR_ISO_COUNTRY, isoCountryCode); mGotCountryCode = true; setOperatorIdd(operatorNumeric); if (shouldFixTimeZoneNow(mPhone, operatorNumeric, prevOperatorNumeric, mNeedFixZone)) { fixTimeZone(isoCountryCode); } } mPhone.setSystemProperty(TelephonyProperties.PROPERTY_OPERATOR_ISROAMING, mSS.getRoaming() ? "true" : "false"); updateSpnDisplay(); mPhone.notifyServiceStateChanged(mSS); } if (hasCdmaDataConnectionAttached || has4gHandoff) { mAttachedRegistrants.notifyRegistrants(); } if (hasCdmaDataConnectionDetached) { mDetachedRegistrants.notifyRegistrants(); } if ((hasCdmaDataConnectionChanged || hasDataRadioTechnologyChanged)) { notifyDataRegStateRilRadioTechnologyChanged(); mPhone.notifyDataConnection(null); } if (hasRoamingOn) { mRoamingOnRegistrants.notifyRegistrants(); } if (hasRoamingOff) { mRoamingOffRegistrants.notifyRegistrants(); } if (hasLocationChanged) { mPhone.notifyLocationChanged(); } ArrayList arrayCi = new ArrayList(); synchronized(mCellInfo) { CellInfoLte cil = (CellInfoLte)mCellInfo; boolean cidChanged = ! mNewCellIdentityLte.equals(mLasteCellIdentityLte); if (hasRegistered || hasDeregistered || cidChanged) { // TODO: Handle the absence of LteCellIdentity long timeStamp = SystemClock.elapsedRealtime() * 1000; boolean registered = mSS.getVoiceRegState() == ServiceState.STATE_IN_SERVICE; mLasteCellIdentityLte = mNewCellIdentityLte; cil.setRegistered(registered); cil.setCellIdentity(mLasteCellIdentityLte); if (DBG) { log("pollStateDone: hasRegistered=" + hasRegistered + " hasDeregistered=" + hasDeregistered + " cidChanged=" + cidChanged + " mCellInfo=" + mCellInfo); } arrayCi.add(mCellInfo); } mPhoneBase.notifyCellInfo(arrayCi); } } @Override protected boolean onSignalStrengthResult(AsyncResult ar, boolean isGsm) { if (mSS.getRilDataRadioTechnology() == ServiceState.RIL_RADIO_TECHNOLOGY_LTE) { isGsm = true; } boolean ssChanged = super.onSignalStrengthResult(ar, isGsm); synchronized (mCellInfo) { if (mSS.getRilDataRadioTechnology() == ServiceState.RIL_RADIO_TECHNOLOGY_LTE) { mCellInfoLte.setTimeStamp(SystemClock.elapsedRealtime() * 1000); mCellInfoLte.setTimeStampType(CellInfo.TIMESTAMP_TYPE_JAVA_RIL); mCellInfoLte.getCellSignalStrength() .initialize(mSignalStrength,SignalStrength.INVALID); } if (mCellInfoLte.getCellIdentity() != null) { ArrayList arrayCi = new ArrayList(); arrayCi.add(mCellInfoLte); mPhoneBase.notifyCellInfo(arrayCi); } } return ssChanged; } @Override public boolean isConcurrentVoiceAndDataAllowed() { // Using the Conncurrent Service Supported flag for CdmaLte devices. return mSS.getCssIndicator() == 1; } /** * Check whether the specified SID and NID pair appears in the HOME SID/NID list * read from NV or SIM. * * @return true if provided sid/nid pair belongs to operator's home network. */ private boolean isInHomeSidNid(int sid, int nid) { // if SID/NID is not available, assume this is home network. if (isSidsAllZeros()) return true; // length of SID/NID shold be same if (mHomeSystemId.length != mHomeNetworkId.length) return true; if (sid == 0) return true; for (int i = 0; i < mHomeSystemId.length; i++) { // Use SID only if NID is a reserved value. // SID 0 and NID 0 and 65535 are reserved. (C.0005 2.6.5.2) if ((mHomeSystemId[i] == sid) && ((mHomeNetworkId[i] == 0) || (mHomeNetworkId[i] == 65535) || (nid == 0) || (nid == 65535) || (mHomeNetworkId[i] == nid))) { return true; } } // SID/NID are not in the list. So device is not in home network return false; } /** * TODO: Remove when we get new ril/modem for Galaxy Nexus. * * @return all available cell information, the returned List maybe empty but never null. */ @Override public List getAllCellInfo() { if (mCi.getRilVersion() >= 8) { return super.getAllCellInfo(); } else { ArrayList arrayList = new ArrayList(); CellInfo ci; synchronized(mCellInfo) { arrayList.add(mCellInfoLte); } if (DBG) log ("getAllCellInfo: arrayList=" + arrayList); return arrayList; } } @Override protected UiccCardApplication getUiccCardApplication() { return mUiccController.getUiccCardApplication(((CDMALTEPhone)mPhone). getPhoneId(), UiccController.APP_FAM_3GPP2); } protected void updateCdmaSubscription() { mCi.getCDMASubscription(obtainMessage(EVENT_POLL_STATE_CDMA_SUBSCRIPTION)); } /** * Clean up existing voice and data connection then turn off radio power. * * Hang up the existing voice calls to decrease call drop rate. */ @Override public void powerOffRadioSafely(DcTrackerBase dcTracker) { synchronized (this) { if (!mPendingRadioPowerOffAfterDataOff) { long dds = SubscriptionManager.getDefaultDataSubId(); // To minimize race conditions we call cleanUpAllConnections on // both if else paths instead of before this isDisconnected test. if (dcTracker.isDisconnected() && (dds == mPhone.getSubId() || (dds != mPhone.getSubId() && ProxyController.getInstance().isDataDisconnected(dds)))) { // To minimize race conditions we do this after isDisconnected dcTracker.cleanUpAllConnections(Phone.REASON_RADIO_TURNED_OFF); if (DBG) log("Data disconnected, turn off radio right away."); hangupAndPowerOff(); } else { dcTracker.cleanUpAllConnections(Phone.REASON_RADIO_TURNED_OFF); if (dds != mPhone.getSubId() && !ProxyController.getInstance().isDataDisconnected(dds)) { if (DBG) log("Data is active on DDS. Wait for all data disconnect"); // Data is not disconnected on DDS. Wait for the data disconnect complete // before sending the RADIO_POWER off. ProxyController.getInstance().registerForAllDataDisconnected(dds, this, EVENT_ALL_DATA_DISCONNECTED, null); mPendingRadioPowerOffAfterDataOff = true; } Message msg = Message.obtain(this); msg.what = EVENT_SET_RADIO_POWER_OFF; msg.arg1 = ++mPendingRadioPowerOffAfterDataOffTag; if (sendMessageDelayed(msg, 30000)) { if (DBG) log("Wait upto 30s for data to disconnect, then turn off radio."); mPendingRadioPowerOffAfterDataOff = true; } else { log("Cannot send delayed Msg, turn off radio right away."); hangupAndPowerOff(); mPendingRadioPowerOffAfterDataOff = false; } } } } } @Override protected void updatePhoneObject() { int voiceRat = mSS.getRilVoiceRadioTechnology(); if (mPhone.getContext().getResources(). getBoolean(com.android.internal.R.bool.config_switch_phone_on_voice_reg_state_change)) { // For CDMA-LTE phone don't update phone to GSM // if replacement RAT is unknown // If there is a real need to switch to LTE, then it will be done via // RIL_UNSOL_VOICE_RADIO_TECH_CHANGED from RIL. int volteReplacementRat = mPhoneBase.getContext().getResources().getInteger( com.android.internal.R.integer.config_volte_replacement_rat); Rlog.d(LOG_TAG, "updatePhoneObject: volteReplacementRat=" + volteReplacementRat); if (voiceRat == ServiceState.RIL_RADIO_TECHNOLOGY_LTE && volteReplacementRat == ServiceState.RIL_RADIO_TECHNOLOGY_UNKNOWN) { voiceRat = ServiceState.RIL_RADIO_TECHNOLOGY_1xRTT; } mPhoneBase.updatePhoneObject(voiceRat); } } @Override protected void log(String s) { Rlog.d(LOG_TAG, "[CdmaLteSST] " + s); } @Override protected void loge(String s) { Rlog.e(LOG_TAG, "[CdmaLteSST] " + s); } @Override public void dump(FileDescriptor fd, PrintWriter pw, String[] args) { pw.println("CdmaLteServiceStateTracker extends:"); super.dump(fd, pw, args); pw.println(" mCdmaLtePhone=" + mCdmaLtePhone); } }