/* * Copyright (C) 2006 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package com.android.internal.telephony; import static com.android.internal.telephony.RILConstants.*; import static com.android.internal.util.Preconditions.checkNotNull; import android.content.Context; import android.hardware.radio.V1_0.Carrier; import android.hardware.radio.V1_0.CarrierRestrictions; import android.hardware.radio.V1_0.CdmaBroadcastSmsConfigInfo; import android.hardware.radio.V1_0.CdmaSmsAck; import android.hardware.radio.V1_0.CdmaSmsMessage; import android.hardware.radio.V1_0.CdmaSmsWriteArgs; import android.hardware.radio.V1_0.CellInfoCdma; import android.hardware.radio.V1_0.CellInfoGsm; import android.hardware.radio.V1_0.CellInfoLte; import android.hardware.radio.V1_0.CellInfoType; import android.hardware.radio.V1_0.CellInfoWcdma; import android.hardware.radio.V1_0.DataProfileInfo; import android.hardware.radio.V1_0.Dial; import android.hardware.radio.V1_0.GsmBroadcastSmsConfigInfo; import android.hardware.radio.V1_0.GsmSmsMessage; import android.hardware.radio.V1_0.HardwareConfigModem; import android.hardware.radio.V1_0.IRadio; import android.hardware.radio.V1_0.IccIo; import android.hardware.radio.V1_0.ImsSmsMessage; import android.hardware.radio.V1_0.LceDataInfo; import android.hardware.radio.V1_0.MvnoType; import android.hardware.radio.V1_0.NvWriteItem; import android.hardware.radio.V1_0.RadioError; import android.hardware.radio.V1_0.RadioIndicationType; import android.hardware.radio.V1_0.RadioResponseInfo; import android.hardware.radio.V1_0.RadioResponseType; import android.hardware.radio.V1_0.ResetNvType; import android.hardware.radio.V1_0.SelectUiccSub; import android.hardware.radio.V1_0.SetupDataCallResult; import android.hardware.radio.V1_0.SimApdu; import android.hardware.radio.V1_0.SmsWriteArgs; import android.hardware.radio.V1_0.UusInfo; import android.hardware.radio.deprecated.V1_0.IOemHook; import android.net.ConnectivityManager; import android.os.AsyncResult; import android.os.Handler; import android.os.HwBinder; import android.os.Message; import android.os.Parcel; import android.os.PowerManager; import android.os.PowerManager.WakeLock; import android.os.RemoteException; import android.os.SystemClock; import android.os.SystemProperties; import android.os.WorkSource; import android.service.carrier.CarrierIdentifier; import android.telephony.CellInfo; import android.telephony.ClientRequestStats; import android.telephony.ModemActivityInfo; import android.telephony.NeighboringCellInfo; import android.telephony.PhoneNumberUtils; import android.telephony.RadioAccessFamily; import android.telephony.Rlog; import android.telephony.SignalStrength; import android.telephony.SmsManager; import android.telephony.TelephonyHistogram; import android.text.TextUtils; import android.util.SparseArray; import com.android.internal.telephony.cdma.CdmaInformationRecords; import com.android.internal.telephony.cdma.CdmaSmsBroadcastConfigInfo; import com.android.internal.telephony.dataconnection.DataCallResponse; import com.android.internal.telephony.dataconnection.DataProfile; import com.android.internal.telephony.gsm.SmsBroadcastConfigInfo; import com.android.internal.telephony.metrics.TelephonyMetrics; import com.android.internal.telephony.nano.TelephonyProto.SmsSession; import com.android.internal.telephony.uicc.IccUtils; import java.io.ByteArrayInputStream; import java.io.DataInputStream; import java.io.FileDescriptor; import java.io.IOException; import java.io.PrintWriter; import java.util.ArrayList; import java.util.Arrays; import java.util.List; import java.util.Random; import java.util.concurrent.atomic.AtomicBoolean; import java.util.concurrent.atomic.AtomicInteger; import java.util.concurrent.atomic.AtomicLong; /** * {@hide} */ class RILRequest { static final String LOG_TAG = "RilRequest"; //***** Class Variables static Random sRandom = new Random(); static AtomicInteger sNextSerial = new AtomicInteger(0); private static Object sPoolSync = new Object(); private static RILRequest sPool = null; private static int sPoolSize = 0; private static final int MAX_POOL_SIZE = 4; //***** Instance Variables int mSerial; int mRequest; Message mResult; RILRequest mNext; int mWakeLockType; WorkSource mWorkSource; String mClientId; // time in ms when RIL request was made long mStartTimeMs; /** * Retrieves a new RILRequest instance from the pool. * * @param request RIL_REQUEST_* * @param result sent when operation completes * @return a RILRequest instance from the pool. */ private static RILRequest obtain(int request, Message result) { RILRequest rr = null; synchronized(sPoolSync) { if (sPool != null) { rr = sPool; sPool = rr.mNext; rr.mNext = null; sPoolSize--; } } if (rr == null) { rr = new RILRequest(); } rr.mSerial = sNextSerial.getAndIncrement(); rr.mRequest = request; rr.mResult = result; rr.mWakeLockType = RIL.INVALID_WAKELOCK; rr.mWorkSource = null; rr.mStartTimeMs = SystemClock.elapsedRealtime(); if (result != null && result.getTarget() == null) { throw new NullPointerException("Message target must not be null"); } return rr; } /** * Retrieves a new RILRequest instance from the pool and sets the clientId * * @param request RIL_REQUEST_* * @param result sent when operation completes * @param workSource WorkSource to track the client * @return a RILRequest instance from the pool. */ static RILRequest obtain(int request, Message result, WorkSource workSource) { RILRequest rr = null; rr = obtain(request, result); if(workSource != null) { rr.mWorkSource = workSource; rr.mClientId = String.valueOf(workSource.get(0)) + ":" + workSource.getName(0); } else { Rlog.e(LOG_TAG, "null workSource " + request); } return rr; } /** * Returns a RILRequest instance to the pool. * * Note: This should only be called once per use. */ void release() { synchronized (sPoolSync) { if (sPoolSize < MAX_POOL_SIZE) { mNext = sPool; sPool = this; sPoolSize++; mResult = null; if(mWakeLockType != RIL.INVALID_WAKELOCK) { //This is OK for some wakelock types and not others if(mWakeLockType == RIL.FOR_WAKELOCK) { Rlog.e(LOG_TAG, "RILRequest releasing with held wake lock: " + serialString()); } } } } } private RILRequest() { } static void resetSerial() { // use a random so that on recovery we probably don't mix old requests // with new. sNextSerial.set(sRandom.nextInt()); } String serialString() { //Cheesy way to do %04d StringBuilder sb = new StringBuilder(8); String sn; long adjustedSerial = (((long)mSerial) - Integer.MIN_VALUE)%10000; sn = Long.toString(adjustedSerial); //sb.append("J["); sb.append('['); for (int i = 0, s = sn.length() ; i < 4 - s; i++) { sb.append('0'); } sb.append(sn); sb.append(']'); return sb.toString(); } void onError(int error, Object ret) { CommandException ex; ex = CommandException.fromRilErrno(error); if (RIL.RILJ_LOGD) Rlog.d(LOG_TAG, serialString() + "< " + RIL.requestToString(mRequest) + " error: " + ex + " ret=" + RIL.retToString(mRequest, ret)); if (mResult != null) { AsyncResult.forMessage(mResult, ret, ex); mResult.sendToTarget(); } } } /** * RIL implementation of the CommandsInterface. * * {@hide} */ public final class RIL extends BaseCommands implements CommandsInterface { static final String RILJ_LOG_TAG = "RILJ"; // Have a separate wakelock instance for Ack static final String RILJ_ACK_WAKELOCK_NAME = "RILJ_ACK_WL"; static final boolean RILJ_LOGD = true; static final boolean RILJ_LOGV = false; // STOPSHIP if true static final int RIL_HISTOGRAM_BUCKET_COUNT = 5; /** * Wake lock timeout should be longer than the longest timeout in * the vendor ril. */ private static final int DEFAULT_WAKE_LOCK_TIMEOUT_MS = 60000; // Wake lock default timeout associated with ack private static final int DEFAULT_ACK_WAKE_LOCK_TIMEOUT_MS = 200; private static final int DEFAULT_BLOCKING_MESSAGE_RESPONSE_TIMEOUT_MS = 2000; // Variables used to differentiate ack messages from request while calling clearWakeLock() public static final int INVALID_WAKELOCK = -1; public static final int FOR_WAKELOCK = 0; public static final int FOR_ACK_WAKELOCK = 1; private final ClientWakelockTracker mClientWakelockTracker = new ClientWakelockTracker(); //***** Instance Variables final WakeLock mWakeLock; // Wake lock associated with request/response final WakeLock mAckWakeLock; // Wake lock associated with ack sent final int mWakeLockTimeout; // Timeout associated with request/response final int mAckWakeLockTimeout; // Timeout associated with ack sent // The number of wakelock requests currently active. Don't release the lock // until dec'd to 0 int mWakeLockCount; // Variables used to identify releasing of WL on wakelock timeouts volatile int mWlSequenceNum = 0; volatile int mAckWlSequenceNum = 0; SparseArray mRequestList = new SparseArray(); static SparseArray mRilTimeHistograms = new SparseArray(); Object[] mLastNITZTimeInfo; // When we are testing emergency calls AtomicBoolean mTestingEmergencyCall = new AtomicBoolean(false); final Integer mPhoneId; /* default work source which will blame phone process */ private WorkSource mRILDefaultWorkSource; /* Worksource containing all applications causing wakelock to be held */ private WorkSource mActiveWakelockWorkSource; /** Telephony metrics instance for logging metrics event */ private TelephonyMetrics mMetrics = TelephonyMetrics.getInstance(); boolean mIsMobileNetworkSupported; RadioResponse mRadioResponse; RadioIndication mRadioIndication; volatile IRadio mRadioProxy = null; OemHookResponse mOemHookResponse; OemHookIndication mOemHookIndication; volatile IOemHook mOemHookProxy = null; final AtomicLong mRadioProxyCookie = new AtomicLong(0); final RadioProxyDeathRecipient mRadioProxyDeathRecipient; final RilHandler mRilHandler; //***** Events static final int EVENT_WAKE_LOCK_TIMEOUT = 2; static final int EVENT_ACK_WAKE_LOCK_TIMEOUT = 4; static final int EVENT_BLOCKING_RESPONSE_TIMEOUT = 5; static final int EVENT_RADIO_PROXY_DEAD = 6; //***** Constants static final String[] HIDL_SERVICE_NAME = {"slot1", "slot2", "slot3"}; static final int IRADIO_GET_SERVICE_DELAY_MILLIS = 4 * 1000; public static List getTelephonyRILTimingHistograms() { List list; synchronized (mRilTimeHistograms) { list = new ArrayList<>(mRilTimeHistograms.size()); for (int i = 0; i < mRilTimeHistograms.size(); i++) { TelephonyHistogram entry = new TelephonyHistogram(mRilTimeHistograms.valueAt(i)); list.add(entry); } } return list; } class RilHandler extends Handler { //***** Handler implementation @Override public void handleMessage(Message msg) { RILRequest rr; switch (msg.what) { case EVENT_WAKE_LOCK_TIMEOUT: // Haven't heard back from the last request. Assume we're // not getting a response and release the wake lock. // The timer of WAKE_LOCK_TIMEOUT is reset with each // new send request. So when WAKE_LOCK_TIMEOUT occurs // all requests in mRequestList already waited at // least DEFAULT_WAKE_LOCK_TIMEOUT_MS but no response. // // Note: Keep mRequestList so that delayed response // can still be handled when response finally comes. synchronized (mRequestList) { if (msg.arg1 == mWlSequenceNum && clearWakeLock(FOR_WAKELOCK)) { if (RILJ_LOGD) { int count = mRequestList.size(); Rlog.d(RILJ_LOG_TAG, "WAKE_LOCK_TIMEOUT " + " mRequestList=" + count); for (int i = 0; i < count; i++) { rr = mRequestList.valueAt(i); Rlog.d(RILJ_LOG_TAG, i + ": [" + rr.mSerial + "] " + requestToString(rr.mRequest)); } } } } break; case EVENT_ACK_WAKE_LOCK_TIMEOUT: if (msg.arg1 == mAckWlSequenceNum && clearWakeLock(FOR_ACK_WAKELOCK)) { if (RILJ_LOGV) { Rlog.d(RILJ_LOG_TAG, "ACK_WAKE_LOCK_TIMEOUT"); } } break; case EVENT_BLOCKING_RESPONSE_TIMEOUT: int serial = msg.arg1; rr = findAndRemoveRequestFromList(serial); // If the request has already been processed, do nothing if(rr == null) { break; } //build a response if expected if (rr.mResult != null) { Object timeoutResponse = getResponseForTimedOutRILRequest(rr); AsyncResult.forMessage( rr.mResult, timeoutResponse, null); rr.mResult.sendToTarget(); mMetrics.writeOnRilTimeoutResponse(mPhoneId, rr.mSerial, rr.mRequest); } decrementWakeLock(rr); rr.release(); break; case EVENT_RADIO_PROXY_DEAD: riljLog("handleMessage: EVENT_RADIO_PROXY_DEAD cookie = " + msg.obj + " mRadioProxyCookie = " + mRadioProxyCookie.get()); if ((long) msg.obj == mRadioProxyCookie.get()) { resetProxyAndRequestList(); // todo: rild should be back up since message was sent with a delay. this is // a hack. getRadioProxy(null); getOemHookProxy(null); } break; } } } /** * In order to prevent calls to Telephony from waiting indefinitely * low-latency blocking calls will eventually time out. In the event of * a timeout, this function generates a response that is returned to the * higher layers to unblock the call. This is in lieu of a meaningful * response. * @param rr The RIL Request that has timed out. * @return A default object, such as the one generated by a normal response * that is returned to the higher layers. **/ private static Object getResponseForTimedOutRILRequest(RILRequest rr) { if (rr == null ) return null; Object timeoutResponse = null; switch(rr.mRequest) { case RIL_REQUEST_GET_ACTIVITY_INFO: timeoutResponse = new ModemActivityInfo( 0, 0, 0, new int [ModemActivityInfo.TX_POWER_LEVELS], 0, 0); break; }; return timeoutResponse; } final class RadioProxyDeathRecipient implements HwBinder.DeathRecipient { @Override public void serviceDied(long cookie) { // Deal with service going away riljLog("serviceDied"); // todo: temp hack to send delayed message so that rild is back up by then //mRilHandler.sendMessage(mRilHandler.obtainMessage(EVENT_RADIO_PROXY_DEAD, cookie)); mRilHandler.sendMessageDelayed( mRilHandler.obtainMessage(EVENT_RADIO_PROXY_DEAD, cookie), IRADIO_GET_SERVICE_DELAY_MILLIS); } } private void resetProxyAndRequestList() { mRadioProxy = null; mOemHookProxy = null; // increment the cookie so that death notification can be ignored mRadioProxyCookie.incrementAndGet(); setRadioState(RadioState.RADIO_UNAVAILABLE); RILRequest.resetSerial(); // Clear request list on close clearRequestList(RADIO_NOT_AVAILABLE, false); // todo: need to get service right away so setResponseFunctions() can be called for // unsolicited indications. getService() is not a blocking call, so it doesn't help to call // it here. Current hack is to call getService() on death notification after a delay. } private IRadio getRadioProxy(Message result) { if (!mIsMobileNetworkSupported) { if (RILJ_LOGV) riljLog("getRadioProxy: Not calling getService(): wifi-only"); if (result != null) { AsyncResult.forMessage(result, null, CommandException.fromRilErrno(RADIO_NOT_AVAILABLE)); result.sendToTarget(); } return null; } if (mRadioProxy != null) { return mRadioProxy; } try { mRadioProxy = IRadio.getService(HIDL_SERVICE_NAME[mPhoneId == null ? 0 : mPhoneId]); if (mRadioProxy != null) { mRadioProxy.linkToDeath(mRadioProxyDeathRecipient, mRadioProxyCookie.incrementAndGet()); mRadioProxy.setResponseFunctions(mRadioResponse, mRadioIndication); } else { riljLoge("getRadioProxy: mRadioProxy == null"); } } catch (RemoteException | RuntimeException e) { mRadioProxy = null; riljLoge("RadioProxy getService/setResponseFunctions: " + e); } if (mRadioProxy == null) { if (result != null) { AsyncResult.forMessage(result, null, CommandException.fromRilErrno(RADIO_NOT_AVAILABLE)); result.sendToTarget(); } // if service is not up, treat it like death notification to try to get service again mRilHandler.sendMessageDelayed( mRilHandler.obtainMessage(EVENT_RADIO_PROXY_DEAD, mRadioProxyCookie.incrementAndGet()), IRADIO_GET_SERVICE_DELAY_MILLIS); } return mRadioProxy; } private IOemHook getOemHookProxy(Message result) { if (!mIsMobileNetworkSupported) { if (RILJ_LOGV) riljLog("getOemHookProxy: Not calling getService(): wifi-only"); if (result != null) { AsyncResult.forMessage(result, null, CommandException.fromRilErrno(RADIO_NOT_AVAILABLE)); result.sendToTarget(); } return null; } if (mOemHookProxy != null) { return mOemHookProxy; } try { mOemHookProxy = IOemHook.getService( HIDL_SERVICE_NAME[mPhoneId == null ? 0 : mPhoneId]); if (mOemHookProxy != null) { // not calling linkToDeath() as ril service runs in the same process and death // notification for that should be sufficient mOemHookProxy.setResponseFunctions(mOemHookResponse, mOemHookIndication); } else { riljLoge("getOemHookProxy: mOemHookProxy == null"); } } catch (RemoteException | RuntimeException e) { mOemHookProxy = null; riljLoge("OemHookProxy getService/setResponseFunctions: " + e); } if (mOemHookProxy == null) { if (result != null) { AsyncResult.forMessage(result, null, CommandException.fromRilErrno(RADIO_NOT_AVAILABLE)); result.sendToTarget(); } // if service is not up, treat it like death notification to try to get service again mRilHandler.sendMessageDelayed( mRilHandler.obtainMessage(EVENT_RADIO_PROXY_DEAD, mRadioProxyCookie.incrementAndGet()), IRADIO_GET_SERVICE_DELAY_MILLIS); } return mOemHookProxy; } //***** Constructors public RIL(Context context, int preferredNetworkType, int cdmaSubscription) { this(context, preferredNetworkType, cdmaSubscription, null); } public RIL(Context context, int preferredNetworkType, int cdmaSubscription, Integer instanceId) { super(context); if (RILJ_LOGD) { riljLog("RIL: init preferredNetworkType=" + preferredNetworkType + " cdmaSubscription=" + cdmaSubscription + ")"); } mContext = context; mCdmaSubscription = cdmaSubscription; mPreferredNetworkType = preferredNetworkType; mPhoneType = RILConstants.NO_PHONE; mPhoneId = instanceId; ConnectivityManager cm = (ConnectivityManager)context.getSystemService( Context.CONNECTIVITY_SERVICE); mIsMobileNetworkSupported = cm.isNetworkSupported(ConnectivityManager.TYPE_MOBILE); mRadioResponse = new RadioResponse(this); mRadioIndication = new RadioIndication(this); mOemHookResponse = new OemHookResponse(this); mOemHookIndication = new OemHookIndication(this); mRilHandler = new RilHandler(); mRadioProxyDeathRecipient = new RadioProxyDeathRecipient(); PowerManager pm = (PowerManager)context.getSystemService(Context.POWER_SERVICE); mWakeLock = pm.newWakeLock(PowerManager.PARTIAL_WAKE_LOCK, RILJ_LOG_TAG); mWakeLock.setReferenceCounted(false); mAckWakeLock = pm.newWakeLock(PowerManager.PARTIAL_WAKE_LOCK, RILJ_ACK_WAKELOCK_NAME); mAckWakeLock.setReferenceCounted(false); mWakeLockTimeout = SystemProperties.getInt(TelephonyProperties.PROPERTY_WAKE_LOCK_TIMEOUT, DEFAULT_WAKE_LOCK_TIMEOUT_MS); mAckWakeLockTimeout = SystemProperties.getInt( TelephonyProperties.PROPERTY_WAKE_LOCK_TIMEOUT, DEFAULT_ACK_WAKE_LOCK_TIMEOUT_MS); mWakeLockCount = 0; mRILDefaultWorkSource = new WorkSource(context.getApplicationInfo().uid, context.getPackageName()); TelephonyDevController tdc = TelephonyDevController.getInstance(); tdc.registerRIL(this); // set radio callback; needed to set RadioIndication callback (should be done after // wakelock stuff is initialized above as callbacks are received on separate binder threads) getRadioProxy(null); getOemHookProxy(null); } @Override public void setOnNITZTime(Handler h, int what, Object obj) { super.setOnNITZTime(h, what, obj); // Send the last NITZ time if we have it if (mLastNITZTimeInfo != null) { mNITZTimeRegistrant .notifyRegistrant( new AsyncResult (null, mLastNITZTimeInfo, null)); } } private void addRequest(RILRequest rr) { acquireWakeLock(rr, FOR_WAKELOCK); synchronized (mRequestList) { rr.mStartTimeMs = SystemClock.elapsedRealtime(); mRequestList.append(rr.mSerial, rr); } } private RILRequest obtainRequest(int request, Message result, WorkSource workSource) { RILRequest rr = RILRequest.obtain(request, result, workSource); addRequest(rr); return rr; } private void handleRadioProxyExceptionForRR(RILRequest rr, String caller, Exception e) { riljLoge(caller + ": " + e); resetProxyAndRequestList(); // service most likely died, handle exception like death notification to try to get service // again mRilHandler.sendMessageDelayed( mRilHandler.obtainMessage(EVENT_RADIO_PROXY_DEAD, mRadioProxyCookie.incrementAndGet()), IRADIO_GET_SERVICE_DELAY_MILLIS); } private String convertNullToEmptyString(String string) { return string != null ? string : ""; } @Override public void getIccCardStatus(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_GET_SIM_STATUS, result, mRILDefaultWorkSource); if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.getIccCardStatus(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "getIccCardStatus", e); } } } @Override public void supplyIccPin(String pin, Message result) { supplyIccPinForApp(pin, null, result); } @Override public void supplyIccPinForApp(String pin, String aid, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_ENTER_SIM_PIN, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " aid = " + aid); } try { radioProxy.supplyIccPinForApp(rr.mSerial, convertNullToEmptyString(pin), convertNullToEmptyString(aid)); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "supplyIccPinForApp", e); } } } @Override public void supplyIccPuk(String puk, String newPin, Message result) { supplyIccPukForApp(puk, newPin, null, result); } @Override public void supplyIccPukForApp(String puk, String newPin, String aid, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_ENTER_SIM_PUK, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " aid = " + aid); } try { radioProxy.supplyIccPukForApp(rr.mSerial, convertNullToEmptyString(puk), convertNullToEmptyString(newPin), convertNullToEmptyString(aid)); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "supplyIccPukForApp", e); } } } @Override public void supplyIccPin2(String pin, Message result) { supplyIccPin2ForApp(pin, null, result); } @Override public void supplyIccPin2ForApp(String pin, String aid, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_ENTER_SIM_PIN2, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " aid = " + aid); } try { radioProxy.supplyIccPin2ForApp(rr.mSerial, convertNullToEmptyString(pin), convertNullToEmptyString(aid)); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "supplyIccPin2ForApp", e); } } } @Override public void supplyIccPuk2(String puk2, String newPin2, Message result) { supplyIccPuk2ForApp(puk2, newPin2, null, result); } @Override public void supplyIccPuk2ForApp(String puk, String newPin2, String aid, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_ENTER_SIM_PUK2, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " aid = " + aid); } try { radioProxy.supplyIccPuk2ForApp(rr.mSerial, convertNullToEmptyString(puk), convertNullToEmptyString(newPin2), convertNullToEmptyString(aid)); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "supplyIccPuk2ForApp", e); } } } @Override public void changeIccPin(String oldPin, String newPin, Message result) { changeIccPinForApp(oldPin, newPin, null, result); } @Override public void changeIccPinForApp(String oldPin, String newPin, String aid, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_CHANGE_SIM_PIN, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " oldPin = " + oldPin + " newPin = " + newPin + " aid = " + aid); } try { radioProxy.changeIccPinForApp(rr.mSerial, convertNullToEmptyString(oldPin), convertNullToEmptyString(newPin), convertNullToEmptyString(aid)); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "changeIccPinForApp", e); } } } @Override public void changeIccPin2(String oldPin2, String newPin2, Message result) { changeIccPin2ForApp(oldPin2, newPin2, null, result); } @Override public void changeIccPin2ForApp(String oldPin2, String newPin2, String aid, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_CHANGE_SIM_PIN2, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " oldPin = " + oldPin2 + " newPin = " + newPin2 + " aid = " + aid); } try { radioProxy.changeIccPin2ForApp(rr.mSerial, convertNullToEmptyString(oldPin2), convertNullToEmptyString(newPin2), convertNullToEmptyString(aid)); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "changeIccPin2ForApp", e); } } } @Override public void supplyNetworkDepersonalization(String netpin, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_ENTER_NETWORK_DEPERSONALIZATION, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " netpin = " + netpin); } try { radioProxy.supplyNetworkDepersonalization(rr.mSerial, convertNullToEmptyString(netpin)); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "supplyNetworkDepersonalization", e); } } } @Override public void getCurrentCalls(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_GET_CURRENT_CALLS, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); } try { radioProxy.getCurrentCalls(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "getCurrentCalls", e); } } } @Override public void dial(String address, int clirMode, Message result) { dial(address, clirMode, null, result); } @Override public void dial(String address, int clirMode, UUSInfo uusInfo, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_DIAL, result, mRILDefaultWorkSource); Dial dialInfo = new Dial(); dialInfo.address = convertNullToEmptyString(address); dialInfo.clir = clirMode; if (uusInfo != null) { UusInfo info = new UusInfo(); info.uusType = uusInfo.getType(); info.uusDcs = uusInfo.getDcs(); info.uusData = new String(uusInfo.getUserData()); dialInfo.uusInfo.add(info); } if (RILJ_LOGD) { // Do not log function arg for privacy riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); } try { radioProxy.dial(rr.mSerial, dialInfo); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "dial", e); } } } @Override public void getIMSI(Message result) { getIMSIForApp(null, result); } @Override public void getIMSIForApp(String aid, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_GET_IMSI, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " aid = " + aid); } try { radioProxy.getImsiForApp(rr.mSerial, convertNullToEmptyString(aid)); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "getIMSIForApp", e); } } } @Override public void hangupConnection(int gsmIndex, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_HANGUP, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " gsmIndex = " + gsmIndex); } try { radioProxy.hangup(rr.mSerial, gsmIndex); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "hangupConnection", e); } } } @Override public void hangupWaitingOrBackground(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_HANGUP_WAITING_OR_BACKGROUND, result, mRILDefaultWorkSource); if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.hangupWaitingOrBackground(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "hangupWaitingOrBackground", e); } } } @Override public void hangupForegroundResumeBackground(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_HANGUP_FOREGROUND_RESUME_BACKGROUND, result, mRILDefaultWorkSource); if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.hangupForegroundResumeBackground(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "hangupForegroundResumeBackground", e); } } } @Override public void switchWaitingOrHoldingAndActive(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SWITCH_WAITING_OR_HOLDING_AND_ACTIVE, result, mRILDefaultWorkSource); if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.switchWaitingOrHoldingAndActive(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "switchWaitingOrHoldingAndActive", e); } } } @Override public void conference(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_CONFERENCE, result, mRILDefaultWorkSource); if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.conference(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "conference", e); } } } @Override public void rejectCall(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_UDUB, result, mRILDefaultWorkSource); if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.rejectCall(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "rejectCall", e); } } } @Override public void getLastCallFailCause(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_LAST_CALL_FAIL_CAUSE, result, mRILDefaultWorkSource); if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.getLastCallFailCause(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "getLastCallFailCause", e); } } } @Override public void getSignalStrength(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SIGNAL_STRENGTH, result, mRILDefaultWorkSource); if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.getSignalStrength(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "getSignalStrength", e); } } } @Override public void getVoiceRegistrationState(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_VOICE_REGISTRATION_STATE, result, mRILDefaultWorkSource); if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.getVoiceRegistrationState(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "getVoiceRegistrationState", e); } } } @Override public void getDataRegistrationState(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_DATA_REGISTRATION_STATE, result, mRILDefaultWorkSource); if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.getDataRegistrationState(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "getDataRegistrationState", e); } } } @Override public void getOperator(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_OPERATOR, result, mRILDefaultWorkSource); if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.getOperator(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "getOperator", e); } } } @Override public void setRadioPower(boolean on, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_RADIO_POWER, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " on = " + on); } try { radioProxy.setRadioPower(rr.mSerial, on); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "setRadioPower", e); } } } @Override public void sendDtmf(char c, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_DTMF, result, mRILDefaultWorkSource); if (RILJ_LOGD) { // Do not log function arg for privacy riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); } try { radioProxy.sendDtmf(rr.mSerial, c + ""); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "sendDtmf", e); } } } private GsmSmsMessage constructGsmSendSmsRilRequest(String smscPdu, String pdu) { GsmSmsMessage msg = new GsmSmsMessage(); msg.smscPdu = smscPdu == null ? "" : smscPdu; msg.pdu = pdu == null ? "" : pdu; return msg; } @Override public void sendSMS(String smscPdu, String pdu, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SEND_SMS, result, mRILDefaultWorkSource); // Do not log function args for privacy if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); GsmSmsMessage msg = constructGsmSendSmsRilRequest(smscPdu, pdu); try { radioProxy.sendSms(rr.mSerial, msg); mMetrics.writeRilSendSms(mPhoneId, rr.mSerial, SmsSession.Event.Tech.SMS_GSM, SmsSession.Event.Format.SMS_FORMAT_3GPP); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "sendSMS", e); } } } @Override public void sendSMSExpectMore(String smscPdu, String pdu, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SEND_SMS_EXPECT_MORE, result, mRILDefaultWorkSource); // Do not log function arg for privacy if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); GsmSmsMessage msg = constructGsmSendSmsRilRequest(smscPdu, pdu); try { radioProxy.sendSMSExpectMore(rr.mSerial, msg); mMetrics.writeRilSendSms(mPhoneId, rr.mSerial, SmsSession.Event.Tech.SMS_GSM, SmsSession.Event.Format.SMS_FORMAT_3GPP); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "sendSMSExpectMore", e); } } } /** * Convert MVNO type string into MvnoType defined in types.hal. * @param mvnoType MVNO type * @return MVNO type in integer */ private static int convertToHalMvnoType(String mvnoType) { switch (mvnoType) { case "imsi" : return MvnoType.IMSI; case "gid" : return MvnoType.GID; case "spn" : return MvnoType.SPN; default: return MvnoType.NONE; } } /** * Convert to DataProfileInfo defined in types.hal * @param dp Data profile * @return A converted data profile */ private static DataProfileInfo convertToHalDataProfile(DataProfile dp) { DataProfileInfo dpi = new DataProfileInfo(); dpi.profileId = dp.profileId; dpi.apn = dp.apn; dpi.protocol = dp.protocol; dpi.roamingProtocol = dp.roamingProtocol; dpi.authType = dp.authType; dpi.user = dp.user; dpi.password = dp.password; dpi.type = dp.type; dpi.maxConnsTime = dp.maxConnsTime; dpi.maxConns = dp.maxConns; dpi.waitTime = dp.waitTime; dpi.enabled = dp.enabled; dpi.supportedApnTypesBitmap = dp.supportedApnTypesBitmap; dpi.bearerBitmap = dp.bearerBitmap; dpi.mtu = dp.mtu; dpi.mvnoType = convertToHalMvnoType(dp.mvnoType); dpi.mvnoMatchData = dp.mvnoMatchData; return dpi; } /** * Convert NV reset type into ResetNvType defined in types.hal. * @param resetType NV reset type. * @return Converted reset type in integer or -1 if param is invalid. */ private static int convertToHalResetNvType(int resetType) { /** * resetType values * 1 - reload all NV items * 2 - erase NV reset (SCRTN) * 3 - factory reset (RTN) */ switch (resetType) { case 1: return ResetNvType.RELOAD; case 2: return ResetNvType.ERASE; case 3: return ResetNvType.FACTORY_RESET; } return -1; } /** * Convert SetupDataCallResult defined in types.hal into DataCallResponse * @param dcResult setup data call result * @return converted DataCallResponse object */ static DataCallResponse convertDataCallResult(SetupDataCallResult dcResult) { return new DataCallResponse(dcResult.status, dcResult.suggestedRetryTime, dcResult.cid, dcResult.active, dcResult.type, dcResult.ifname, dcResult.addresses, dcResult.dnses, dcResult.gateways, dcResult.pcscf, dcResult.mtu ); } @Override public void setupDataCall(int radioTechnology, DataProfile dataProfile, boolean isRoaming, boolean allowRoaming, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SETUP_DATA_CALL, result, mRILDefaultWorkSource); // Convert to HAL data profile DataProfileInfo dpi = convertToHalDataProfile(dataProfile); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + ",radioTechnology=" + radioTechnology + ",isRoaming=" + isRoaming + ",allowRoaming=" + allowRoaming + "," + dataProfile); } try { radioProxy.setupDataCall(rr.mSerial, radioTechnology, dpi, dataProfile.modemCognitive, allowRoaming, isRoaming); mMetrics.writeRilSetupDataCall(mPhoneId, rr.mSerial, radioTechnology, dpi.profileId, dpi.apn, dpi.authType, dpi.protocol); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "setupDataCall", e); } } } @Override public void iccIO(int command, int fileId, String path, int p1, int p2, int p3, String data, String pin2, Message result) { iccIOForApp(command, fileId, path, p1, p2, p3, data, pin2, null, result); } @Override public void iccIOForApp(int command, int fileId, String path, int p1, int p2, int p3, String data, String pin2, String aid, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SIM_IO, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> iccIO: " + requestToString(rr.mRequest) + " command = 0x" + Integer.toHexString(command) + " fileId = 0x" + Integer.toHexString(fileId) + " path = " + path + " p1 = " + p1 + " p2 = " + p2 + " p3 = " + " data = " + data + " aid = " + aid); } IccIo iccIo = new IccIo(); iccIo.command = command; iccIo.fileId = fileId; iccIo.path = convertNullToEmptyString(path); iccIo.p1 = p1; iccIo.p2 = p2; iccIo.p3 = p3; iccIo.data = convertNullToEmptyString(data); iccIo.pin2 = convertNullToEmptyString(pin2); iccIo.aid = convertNullToEmptyString(aid); try { radioProxy.iccIOForApp(rr.mSerial, iccIo); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "iccIOForApp", e); } } } @Override public void sendUSSD(String ussd, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SEND_USSD, result, mRILDefaultWorkSource); if (RILJ_LOGD) { String logUssd = "*******"; if (RILJ_LOGV) logUssd = ussd; riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " ussd = " + logUssd); } try { radioProxy.sendUssd(rr.mSerial, convertNullToEmptyString(ussd)); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "sendUSSD", e); } } } @Override public void cancelPendingUssd(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_CANCEL_USSD, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); } try { radioProxy.cancelPendingUssd(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "cancelPendingUssd", e); } } } @Override public void getCLIR(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_GET_CLIR, result, mRILDefaultWorkSource); if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.getClir(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "getCLIR", e); } } } @Override public void setCLIR(int clirMode, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SET_CLIR, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " clirMode = " + clirMode); } try { radioProxy.setClir(rr.mSerial, clirMode); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "setCLIR", e); } } } @Override public void queryCallForwardStatus(int cfReason, int serviceClass, String number, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_QUERY_CALL_FORWARD_STATUS, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " cfreason = " + cfReason + " serviceClass = " + serviceClass); } android.hardware.radio.V1_0.CallForwardInfo cfInfo = new android.hardware.radio.V1_0.CallForwardInfo(); cfInfo.reason = cfReason; cfInfo.serviceClass = serviceClass; cfInfo.toa = PhoneNumberUtils.toaFromString(number); cfInfo.number = convertNullToEmptyString(number); cfInfo.timeSeconds = 0; try { radioProxy.getCallForwardStatus(rr.mSerial, cfInfo); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "queryCallForwardStatus", e); } } } @Override public void setCallForward(int action, int cfReason, int serviceClass, String number, int timeSeconds, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SET_CALL_FORWARD, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " action = " + action + " cfReason = " + cfReason + " serviceClass = " + serviceClass + " timeSeconds = " + timeSeconds); } android.hardware.radio.V1_0.CallForwardInfo cfInfo = new android.hardware.radio.V1_0.CallForwardInfo(); cfInfo.status = action; cfInfo.reason = cfReason; cfInfo.serviceClass = serviceClass; cfInfo.toa = PhoneNumberUtils.toaFromString(number); cfInfo.number = convertNullToEmptyString(number); cfInfo.timeSeconds = timeSeconds; try { radioProxy.setCallForward(rr.mSerial, cfInfo); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "setCallForward", e); } } } @Override public void queryCallWaiting(int serviceClass, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_QUERY_CALL_WAITING, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " serviceClass = " + serviceClass); } try { radioProxy.getCallWaiting(rr.mSerial, serviceClass); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "queryCallWaiting", e); } } } @Override public void setCallWaiting(boolean enable, int serviceClass, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SET_CALL_WAITING, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " enable = " + enable + " serviceClass = " + serviceClass); } try { radioProxy.setCallWaiting(rr.mSerial, enable, serviceClass); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "setCallWaiting", e); } } } @Override public void acknowledgeLastIncomingGsmSms(boolean success, int cause, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SMS_ACKNOWLEDGE, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " success = " + success + " cause = " + cause); } try { radioProxy.acknowledgeLastIncomingGsmSms(rr.mSerial, success, cause); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "acknowledgeLastIncomingGsmSms", e); } } } @Override public void acceptCall(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_ANSWER, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); } try { radioProxy.acceptCall(rr.mSerial); mMetrics.writeRilAnswer(mPhoneId, rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "acceptCall", e); } } } @Override public void deactivateDataCall(int cid, int reason, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_DEACTIVATE_DATA_CALL, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " cid = " + cid + " reason = " + reason); } try { radioProxy.deactivateDataCall(rr.mSerial, cid, (reason == 0) ? false : true); mMetrics.writeRilDeactivateDataCall(mPhoneId, rr.mSerial, cid, reason); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "deactivateDataCall", e); } } } @Override public void queryFacilityLock(String facility, String password, int serviceClass, Message result) { queryFacilityLockForApp(facility, password, serviceClass, null, result); } @Override public void queryFacilityLockForApp(String facility, String password, int serviceClass, String appId, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_QUERY_FACILITY_LOCK, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " facility = " + facility + " serviceClass = " + serviceClass + " appId = " + appId); } try { radioProxy.getFacilityLockForApp(rr.mSerial, convertNullToEmptyString(facility), convertNullToEmptyString(password), serviceClass, convertNullToEmptyString(appId)); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "getFacilityLockForApp", e); } } } @Override public void setFacilityLock(String facility, boolean lockState, String password, int serviceClass, Message result) { setFacilityLockForApp(facility, lockState, password, serviceClass, null, result); } @Override public void setFacilityLockForApp(String facility, boolean lockState, String password, int serviceClass, String appId, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SET_FACILITY_LOCK, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " facility = " + facility + " lockstate = " + lockState + " serviceClass = " + serviceClass + " appId = " + appId); } try { radioProxy.setFacilityLockForApp(rr.mSerial, convertNullToEmptyString(facility), lockState, convertNullToEmptyString(password), serviceClass, convertNullToEmptyString(appId)); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "setFacilityLockForApp", e); } } } @Override public void changeBarringPassword(String facility, String oldPwd, String newPwd, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_CHANGE_BARRING_PASSWORD, result, mRILDefaultWorkSource); // Do not log all function args for privacy if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + "facility = " + facility); } try { radioProxy.setBarringPassword(rr.mSerial, convertNullToEmptyString(facility), convertNullToEmptyString(oldPwd), convertNullToEmptyString(newPwd)); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "changeBarringPassword", e); } } } @Override public void getNetworkSelectionMode(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_QUERY_NETWORK_SELECTION_MODE, result, mRILDefaultWorkSource); if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.getNetworkSelectionMode(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "getNetworkSelectionMode", e); } } } @Override public void setNetworkSelectionModeAutomatic(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SET_NETWORK_SELECTION_AUTOMATIC, result, mRILDefaultWorkSource); if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.setNetworkSelectionModeAutomatic(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "setNetworkSelectionModeAutomatic", e); } } } @Override public void setNetworkSelectionModeManual(String operatorNumeric, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SET_NETWORK_SELECTION_MANUAL, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " operatorNumeric = " + operatorNumeric); } try { radioProxy.setNetworkSelectionModeManual(rr.mSerial, convertNullToEmptyString(operatorNumeric)); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "setNetworkSelectionModeManual", e); } } } @Override public void getAvailableNetworks(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_QUERY_AVAILABLE_NETWORKS, result, mRILDefaultWorkSource); if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.getAvailableNetworks(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "getAvailableNetworks", e); } } } @Override public void startDtmf(char c, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_DTMF_START, result, mRILDefaultWorkSource); // Do not log function arg for privacy if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.startDtmf(rr.mSerial, c + ""); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "startDtmf", e); } } } @Override public void stopDtmf(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_DTMF_STOP, result, mRILDefaultWorkSource); if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.stopDtmf(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "stopDtmf", e); } } } @Override public void separateConnection(int gsmIndex, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SEPARATE_CONNECTION, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " gsmIndex = " + gsmIndex); } try { radioProxy.separateConnection(rr.mSerial, gsmIndex); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "separateConnection", e); } } } @Override public void getBasebandVersion(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_BASEBAND_VERSION, result, mRILDefaultWorkSource); if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.getBasebandVersion(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "getBasebandVersion", e); } } } @Override public void setMute(boolean enableMute, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SET_MUTE, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " enableMute = " + enableMute); } try { radioProxy.setMute(rr.mSerial, enableMute); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "setMute", e); } } } @Override public void getMute(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_GET_MUTE, result, mRILDefaultWorkSource); if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.getMute(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "getMute", e); } } } @Override public void queryCLIP(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_QUERY_CLIP, result, mRILDefaultWorkSource); if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.getClip(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "queryCLIP", e); } } } /** * @deprecated */ @Override @Deprecated public void getPDPContextList(Message result) { getDataCallList(result); } @Override public void getDataCallList(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_DATA_CALL_LIST, result, mRILDefaultWorkSource); if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.getDataCallList(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "getDataCallList", e); } } } @Override public void invokeOemRilRequestRaw(byte[] data, Message response) { IOemHook oemHookProxy = getOemHookProxy(response); if (oemHookProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_OEM_HOOK_RAW, response, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + "[" + IccUtils.bytesToHexString(data) + "]"); } try { oemHookProxy.sendRequestRaw(rr.mSerial, primitiveArrayToArrayList(data)); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "invokeOemRilRequestStrings", e); } } } @Override public void invokeOemRilRequestStrings(String[] strings, Message result) { IOemHook oemHookProxy = getOemHookProxy(result); if (oemHookProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_OEM_HOOK_STRINGS, result, mRILDefaultWorkSource); String logStr = ""; for (int i = 0; i < strings.length; i++) { logStr = logStr + strings[i] + " "; } if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " strings = " + logStr); } try { oemHookProxy.sendRequestStrings(rr.mSerial, new ArrayList(Arrays.asList(strings))); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "invokeOemRilRequestStrings", e); } } } @Override public void setSuppServiceNotifications(boolean enable, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SET_SUPP_SVC_NOTIFICATION, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " enable = " + enable); } try { radioProxy.setSuppServiceNotifications(rr.mSerial, enable); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "setSuppServiceNotifications", e); } } } @Override public void writeSmsToSim(int status, String smsc, String pdu, Message result) { status = translateStatus(status); IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_WRITE_SMS_TO_SIM, result, mRILDefaultWorkSource); if (RILJ_LOGV) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " " + status); } SmsWriteArgs args = new SmsWriteArgs(); args.status = status; args.smsc = convertNullToEmptyString(smsc); args.pdu = convertNullToEmptyString(pdu); try { radioProxy.writeSmsToSim(rr.mSerial, args); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "writeSmsToSim", e); } } } @Override public void deleteSmsOnSim(int index, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_DELETE_SMS_ON_SIM, result, mRILDefaultWorkSource); if (RILJ_LOGV) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " index = " + index); } try { radioProxy.deleteSmsOnSim(rr.mSerial, index); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "deleteSmsOnSim", e); } } } @Override public void setBandMode(int bandMode, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SET_BAND_MODE, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " bandMode = " + bandMode); } try { radioProxy.setBandMode(rr.mSerial, bandMode); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "setBandMode", e); } } } @Override public void queryAvailableBandMode(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_QUERY_AVAILABLE_BAND_MODE, result, mRILDefaultWorkSource); if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.getAvailableBandModes(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "queryAvailableBandMode", e); } } } @Override public void sendEnvelope(String contents, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_STK_SEND_ENVELOPE_COMMAND, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " contents = " + contents); } try { radioProxy.sendEnvelope(rr.mSerial, convertNullToEmptyString(contents)); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "sendEnvelope", e); } } } @Override public void sendTerminalResponse(String contents, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_STK_SEND_TERMINAL_RESPONSE, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " contents = " + contents); } try { radioProxy.sendTerminalResponseToSim(rr.mSerial, convertNullToEmptyString(contents)); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "sendTerminalResponse", e); } } } @Override public void sendEnvelopeWithStatus(String contents, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_STK_SEND_ENVELOPE_WITH_STATUS, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " contents = " + contents); } try { radioProxy.sendEnvelopeWithStatus(rr.mSerial, convertNullToEmptyString(contents)); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "sendEnvelopeWithStatus", e); } } } @Override public void explicitCallTransfer(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_EXPLICIT_CALL_TRANSFER, result, mRILDefaultWorkSource); if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.explicitCallTransfer(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "explicitCallTransfer", e); } } } @Override public void setPreferredNetworkType(int networkType , Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SET_PREFERRED_NETWORK_TYPE, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " networkType = " + networkType); } mPreferredNetworkType = networkType; mMetrics.writeSetPreferredNetworkType(mPhoneId, networkType); try { radioProxy.setPreferredNetworkType(rr.mSerial, networkType); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "setPreferredNetworkType", e); } } } @Override public void getPreferredNetworkType(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_GET_PREFERRED_NETWORK_TYPE, result, mRILDefaultWorkSource); if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.getPreferredNetworkType(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "getPreferredNetworkType", e); } } } @Override public void getNeighboringCids(Message result, WorkSource workSource) { workSource = getDeafultWorkSourceIfInvalid(workSource); IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_GET_NEIGHBORING_CELL_IDS, result, workSource); if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.getNeighboringCids(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "getNeighboringCids", e); } } } @Override public void setLocationUpdates(boolean enable, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SET_LOCATION_UPDATES, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " enable = " + enable); } try { radioProxy.setLocationUpdates(rr.mSerial, enable); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "setLocationUpdates", e); } } } @Override public void setCdmaSubscriptionSource(int cdmaSubscription , Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_CDMA_SET_SUBSCRIPTION_SOURCE, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " cdmaSubscription = " + cdmaSubscription); } try { radioProxy.setCdmaSubscriptionSource(rr.mSerial, cdmaSubscription); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "setCdmaSubscriptionSource", e); } } } @Override public void queryCdmaRoamingPreference(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_CDMA_QUERY_ROAMING_PREFERENCE, result, mRILDefaultWorkSource); if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.getCdmaRoamingPreference(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "queryCdmaRoamingPreference", e); } } } @Override public void setCdmaRoamingPreference(int cdmaRoamingType, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_CDMA_SET_ROAMING_PREFERENCE, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " cdmaRoamingType = " + cdmaRoamingType); } try { radioProxy.setCdmaRoamingPreference(rr.mSerial, cdmaRoamingType); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "setCdmaRoamingPreference", e); } } } @Override public void queryTTYMode(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_QUERY_TTY_MODE, result, mRILDefaultWorkSource); if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.getTTYMode(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "queryTTYMode", e); } } } @Override public void setTTYMode(int ttyMode, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SET_TTY_MODE, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " ttyMode = " + ttyMode); } try { radioProxy.setTTYMode(rr.mSerial, ttyMode); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "setTTYMode", e); } } } @Override public void setPreferredVoicePrivacy(boolean enable, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_CDMA_SET_PREFERRED_VOICE_PRIVACY_MODE, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " enable = " + enable); } try { radioProxy.setPreferredVoicePrivacy(rr.mSerial, enable); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "setPreferredVoicePrivacy", e); } } } @Override public void getPreferredVoicePrivacy(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_CDMA_QUERY_PREFERRED_VOICE_PRIVACY_MODE, result, mRILDefaultWorkSource); if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.getPreferredVoicePrivacy(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "getPreferredVoicePrivacy", e); } } } @Override public void sendCDMAFeatureCode(String featureCode, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_CDMA_FLASH, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " featureCode = " + featureCode); } try { radioProxy.sendCDMAFeatureCode(rr.mSerial, convertNullToEmptyString(featureCode)); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "sendCDMAFeatureCode", e); } } } @Override public void sendBurstDtmf(String dtmfString, int on, int off, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_CDMA_BURST_DTMF, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " dtmfString = " + dtmfString + " on = " + on + " off = " + off); } try { radioProxy.sendBurstDtmf(rr.mSerial, convertNullToEmptyString(dtmfString), on, off); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "sendBurstDtmf", e); } } } private void constructCdmaSendSmsRilRequest(CdmaSmsMessage msg, byte[] pdu) { int addrNbrOfDigits; int subaddrNbrOfDigits; int bearerDataLength; ByteArrayInputStream bais = new ByteArrayInputStream(pdu); DataInputStream dis = new DataInputStream(bais); try { msg.teleserviceId = dis.readInt(); // teleServiceId msg.isServicePresent = (byte) dis.readInt() == 1 ? true : false; // servicePresent msg.serviceCategory = dis.readInt(); // serviceCategory msg.address.digitMode = dis.read(); // address digit mode msg.address.numberMode = dis.read(); // address number mode msg.address.numberType = dis.read(); // address number type msg.address.numberPlan = dis.read(); // address number plan addrNbrOfDigits = (byte) dis.read(); for (int i = 0; i < addrNbrOfDigits; i++) { msg.address.digits.add(dis.readByte()); // address_orig_bytes[i] } msg.subAddress.subaddressType = dis.read(); //subaddressType msg.subAddress.odd = (byte) dis.read() == 1 ? true : false; //subaddr odd subaddrNbrOfDigits = (byte) dis.read(); for (int i = 0; i < subaddrNbrOfDigits; i++) { msg.subAddress.digits.add(dis.readByte()); //subaddr_orig_bytes[i] } bearerDataLength = dis.read(); for (int i = 0; i < bearerDataLength; i++) { msg.bearerData.add(dis.readByte()); //bearerData[i] } } catch (IOException ex) { if (RILJ_LOGD) { riljLog("sendSmsCdma: conversion from input stream to object failed: " + ex); } } } @Override public void sendCdmaSms(byte[] pdu, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_CDMA_SEND_SMS, result, mRILDefaultWorkSource); // Do not log function arg for privacy if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); CdmaSmsMessage msg = new CdmaSmsMessage(); constructCdmaSendSmsRilRequest(msg, pdu); try { radioProxy.sendCdmaSms(rr.mSerial, msg); mMetrics.writeRilSendSms(mPhoneId, rr.mSerial, SmsSession.Event.Tech.SMS_CDMA, SmsSession.Event.Format.SMS_FORMAT_3GPP2); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "sendCdmaSms", e); } } } @Override public void acknowledgeLastIncomingCdmaSms(boolean success, int cause, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_CDMA_SMS_ACKNOWLEDGE, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " success = " + success + " cause = " + cause); } CdmaSmsAck msg = new CdmaSmsAck(); msg.errorClass = success ? 0 : 1; msg.smsCauseCode = cause; try { radioProxy.acknowledgeLastIncomingCdmaSms(rr.mSerial, msg); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "acknowledgeLastIncomingCdmaSms", e); } } } @Override public void getGsmBroadcastConfig(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_GSM_GET_BROADCAST_CONFIG, result, mRILDefaultWorkSource); if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.getGsmBroadcastConfig(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "getGsmBroadcastConfig", e); } } } @Override public void setGsmBroadcastConfig(SmsBroadcastConfigInfo[] config, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_GSM_SET_BROADCAST_CONFIG, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " with " + config.length + " configs : "); for (int i = 0; i < config.length; i++) { riljLog(config[i].toString()); } } ArrayList configs = new ArrayList<>(); int numOfConfig = config.length; GsmBroadcastSmsConfigInfo info; for (int i = 0; i < numOfConfig; i++) { info = new GsmBroadcastSmsConfigInfo(); info.fromServiceId = config[i].getFromServiceId(); info.toServiceId = config[i].getToServiceId(); info.fromCodeScheme = config[i].getFromCodeScheme(); info.toCodeScheme = config[i].getToCodeScheme(); info.selected = config[i].isSelected(); configs.add(info); } try { radioProxy.setGsmBroadcastConfig(rr.mSerial, configs); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "setGsmBroadcastConfig", e); } } } @Override public void setGsmBroadcastActivation(boolean activate, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_GSM_BROADCAST_ACTIVATION, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " activate = " + activate); } try { radioProxy.setGsmBroadcastActivation(rr.mSerial, activate); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "setGsmBroadcastActivation", e); } } } @Override public void getCdmaBroadcastConfig(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_CDMA_GET_BROADCAST_CONFIG, result, mRILDefaultWorkSource); if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.getCdmaBroadcastConfig(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "getCdmaBroadcastConfig", e); } } } @Override public void setCdmaBroadcastConfig(CdmaSmsBroadcastConfigInfo[] configs, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_CDMA_SET_BROADCAST_CONFIG, result, mRILDefaultWorkSource); ArrayList halConfigs = new ArrayList<>(); for (CdmaSmsBroadcastConfigInfo config: configs) { for (int i = config.getFromServiceCategory(); i <= config.getToServiceCategory(); i++) { CdmaBroadcastSmsConfigInfo info = new CdmaBroadcastSmsConfigInfo(); info.serviceCategory = i; info.language = config.getLanguage(); info.selected = config.isSelected(); halConfigs.add(info); } } if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " with " + halConfigs.size() + " configs : "); for (CdmaBroadcastSmsConfigInfo config : halConfigs) { riljLog(config.toString()); } } try { radioProxy.setCdmaBroadcastConfig(rr.mSerial, halConfigs); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "setCdmaBroadcastConfig", e); } } } @Override public void setCdmaBroadcastActivation(boolean activate, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_CDMA_BROADCAST_ACTIVATION, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " activate = " + activate); } try { radioProxy.setCdmaBroadcastActivation(rr.mSerial, activate); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "setCdmaBroadcastActivation", e); } } } @Override public void getCDMASubscription(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_CDMA_SUBSCRIPTION, result, mRILDefaultWorkSource); if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.getCDMASubscription(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "getCDMASubscription", e); } } } @Override public void writeSmsToRuim(int status, String pdu, Message result) { status = translateStatus(status); IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_CDMA_WRITE_SMS_TO_RUIM, result, mRILDefaultWorkSource); if (RILJ_LOGV) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " status = " + status); } CdmaSmsWriteArgs args = new CdmaSmsWriteArgs(); args.status = status; constructCdmaSendSmsRilRequest(args.message, pdu.getBytes()); try { radioProxy.writeSmsToRuim(rr.mSerial, args); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "writeSmsToRuim", e); } } } @Override public void deleteSmsOnRuim(int index, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_CDMA_DELETE_SMS_ON_RUIM, result, mRILDefaultWorkSource); if (RILJ_LOGV) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " index = " + index); } try { radioProxy.deleteSmsOnRuim(rr.mSerial, index); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "deleteSmsOnRuim", e); } } } @Override public void getDeviceIdentity(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_DEVICE_IDENTITY, result, mRILDefaultWorkSource); if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.getDeviceIdentity(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "getDeviceIdentity", e); } } } @Override public void exitEmergencyCallbackMode(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_EXIT_EMERGENCY_CALLBACK_MODE, result, mRILDefaultWorkSource); if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.exitEmergencyCallbackMode(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "exitEmergencyCallbackMode", e); } } } @Override public void getSmscAddress(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_GET_SMSC_ADDRESS, result, mRILDefaultWorkSource); if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.getSmscAddress(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "getSmscAddress", e); } } } @Override public void setSmscAddress(String address, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SET_SMSC_ADDRESS, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " address = " + address); } try { radioProxy.setSmscAddress(rr.mSerial, convertNullToEmptyString(address)); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "setSmscAddress", e); } } } @Override public void reportSmsMemoryStatus(boolean available, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_REPORT_SMS_MEMORY_STATUS, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " available = " + available); } try { radioProxy.reportSmsMemoryStatus(rr.mSerial, available); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "reportSmsMemoryStatus", e); } } } @Override public void reportStkServiceIsRunning(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_REPORT_STK_SERVICE_IS_RUNNING, result, mRILDefaultWorkSource); if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.reportStkServiceIsRunning(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "reportStkServiceIsRunning", e); } } } @Override public void getCdmaSubscriptionSource(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_CDMA_GET_SUBSCRIPTION_SOURCE, result, mRILDefaultWorkSource); if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.getCdmaSubscriptionSource(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "getCdmaSubscriptionSource", e); } } } @Override public void requestIsimAuthentication(String nonce, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_ISIM_AUTHENTICATION, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " nonce = " + nonce); } try { radioProxy.requestIsimAuthentication(rr.mSerial, convertNullToEmptyString(nonce)); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "requestIsimAuthentication", e); } } } @Override public void acknowledgeIncomingGsmSmsWithPdu(boolean success, String ackPdu, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_ACKNOWLEDGE_INCOMING_GSM_SMS_WITH_PDU, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " success = " + success); } try { radioProxy.acknowledgeIncomingGsmSmsWithPdu(rr.mSerial, success, convertNullToEmptyString(ackPdu)); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "acknowledgeIncomingGsmSmsWithPdu", e); } } } @Override public void getVoiceRadioTechnology(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_VOICE_RADIO_TECH, result, mRILDefaultWorkSource); if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.getVoiceRadioTechnology(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "getVoiceRadioTechnology", e); } } } @Override public void getCellInfoList(Message result, WorkSource workSource) { workSource = getDeafultWorkSourceIfInvalid(workSource); IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_GET_CELL_INFO_LIST, result, workSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); } try { radioProxy.getCellInfoList(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "getCellInfoList", e); } } } @Override public void setCellInfoListRate(int rateInMillis, Message result, WorkSource workSource) { workSource = getDeafultWorkSourceIfInvalid(workSource); IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SET_UNSOL_CELL_INFO_LIST_RATE, result, workSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " rateInMillis = " + rateInMillis); } try { radioProxy.setCellInfoListRate(rr.mSerial, rateInMillis); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "setCellInfoListRate", e); } } } void setCellInfoListRate() { setCellInfoListRate(Integer.MAX_VALUE, null, mRILDefaultWorkSource); } @Override public void setInitialAttachApn(DataProfile dataProfile, boolean isRoaming, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SET_INITIAL_ATTACH_APN, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + dataProfile); } try { radioProxy.setInitialAttachApn(rr.mSerial, convertToHalDataProfile(dataProfile), dataProfile.modemCognitive, isRoaming); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "setInitialAttachApn", e); } } } @Override public void getImsRegistrationState(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_IMS_REGISTRATION_STATE, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); } try { radioProxy.getImsRegistrationState(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "getImsRegistrationState", e); } } } @Override public void sendImsGsmSms(String smscPdu, String pdu, int retry, int messageRef, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_IMS_SEND_SMS, result, mRILDefaultWorkSource); // Do not log function args for privacy if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); ImsSmsMessage msg = new ImsSmsMessage(); msg.tech = RILConstants.GSM_PHONE; msg.retry = (byte) retry == 1 ? true : false; msg.messageRef = messageRef; GsmSmsMessage gsmMsg = constructGsmSendSmsRilRequest(smscPdu, pdu); msg.gsmMessage.add(gsmMsg); try { radioProxy.sendImsSms(rr.mSerial, msg); mMetrics.writeRilSendSms(mPhoneId, rr.mSerial, SmsSession.Event.Tech.SMS_IMS, SmsSession.Event.Format.SMS_FORMAT_3GPP); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "sendImsGsmSms", e); } } } @Override public void sendImsCdmaSms(byte[] pdu, int retry, int messageRef, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_IMS_SEND_SMS, result, mRILDefaultWorkSource); // Do not log function args for privacy if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); ImsSmsMessage msg = new ImsSmsMessage(); msg.tech = RILConstants.CDMA_PHONE; msg.retry = (byte) retry == 1 ? true : false; msg.messageRef = messageRef; CdmaSmsMessage cdmaMsg = new CdmaSmsMessage(); constructCdmaSendSmsRilRequest(cdmaMsg, pdu); msg.cdmaMessage.add(cdmaMsg); try { radioProxy.sendImsSms(rr.mSerial, msg); mMetrics.writeRilSendSms(mPhoneId, rr.mSerial, SmsSession.Event.Tech.SMS_IMS, SmsSession.Event.Format.SMS_FORMAT_3GPP); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "sendImsCdmaSms", e); } } } private SimApdu createSimApdu(int channel, int cla, int instruction, int p1, int p2, int p3, String data) { SimApdu msg = new SimApdu(); msg.sessionId = channel; msg.cla = cla; msg.instruction = instruction; msg.p1 = p1; msg.p2 = p2; msg.p3 = p3; msg.data = convertNullToEmptyString(data); return msg; } @Override public void iccTransmitApduBasicChannel(int cla, int instruction, int p1, int p2, int p3, String data, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SIM_TRANSMIT_APDU_BASIC, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " cla = " + cla + " instruction = " + instruction + " p1 = " + p1 + " p2 = " + " p3 = " + p3 + " data = " + data); } SimApdu msg = createSimApdu(0, cla, instruction, p1, p2, p3, data); try { radioProxy.iccTransmitApduBasicChannel(rr.mSerial, msg); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "iccTransmitApduBasicChannel", e); } } } @Override public void iccOpenLogicalChannel(String aid, int p2, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SIM_OPEN_CHANNEL, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " aid = " + aid + " p2 = " + p2); } try { radioProxy.iccOpenLogicalChannel(rr.mSerial, convertNullToEmptyString(aid), p2); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "iccOpenLogicalChannel", e); } } } @Override public void iccCloseLogicalChannel(int channel, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SIM_CLOSE_CHANNEL, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " channel = " + channel); } try { radioProxy.iccCloseLogicalChannel(rr.mSerial, channel); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "iccCloseLogicalChannel", e); } } } @Override public void iccTransmitApduLogicalChannel(int channel, int cla, int instruction, int p1, int p2, int p3, String data, Message result) { if (channel <= 0) { throw new RuntimeException( "Invalid channel in iccTransmitApduLogicalChannel: " + channel); } IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SIM_TRANSMIT_APDU_CHANNEL, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " channel = " + channel + " cla = " + cla + " instruction = " + instruction + " p1 = " + p1 + " p2 = " + " p3 = " + p3 + " data = " + data); } SimApdu msg = createSimApdu(channel, cla, instruction, p1, p2, p3, data); try { radioProxy.iccTransmitApduLogicalChannel(rr.mSerial, msg); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "iccTransmitApduLogicalChannel", e); } } } @Override public void nvReadItem(int itemID, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_NV_READ_ITEM, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " itemId = " + itemID); } try { radioProxy.nvReadItem(rr.mSerial, itemID); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "nvReadItem", e); } } } @Override public void nvWriteItem(int itemId, String itemValue, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_NV_WRITE_ITEM, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " itemId = " + itemId + " itemValue = " + itemValue); } NvWriteItem item = new NvWriteItem(); item.itemId = itemId; item.value = convertNullToEmptyString(itemValue); try { radioProxy.nvWriteItem(rr.mSerial, item); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "nvWriteItem", e); } } } @Override public void nvWriteCdmaPrl(byte[] preferredRoamingList, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_NV_WRITE_CDMA_PRL, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " PreferredRoamingList = 0x" + IccUtils.bytesToHexString(preferredRoamingList)); } ArrayList arrList = new ArrayList<>(); for (int i = 0; i < preferredRoamingList.length; i++) { arrList.add(preferredRoamingList[i]); } try { radioProxy.nvWriteCdmaPrl(rr.mSerial, arrList); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "nvWriteCdmaPrl", e); } } } @Override public void nvResetConfig(int resetType, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_NV_RESET_CONFIG, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " resetType = " + resetType); } try { radioProxy.nvResetConfig(rr.mSerial, convertToHalResetNvType(resetType)); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "nvResetConfig", e); } } } @Override public void setUiccSubscription(int slotId, int appIndex, int subId, int subStatus, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SET_UICC_SUBSCRIPTION, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " slot = " + slotId + " appIndex = " + appIndex + " subId = " + subId + " subStatus = " + subStatus); } SelectUiccSub info = new SelectUiccSub(); info.slot = slotId; info.appIndex = appIndex; info.subType = subId; info.actStatus = subStatus; try { radioProxy.setUiccSubscription(rr.mSerial, info); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "setUiccSubscription", e); } } } @Override public void setDataAllowed(boolean allowed, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_ALLOW_DATA, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " allowed = " + allowed); } try { radioProxy.setDataAllowed(rr.mSerial, allowed); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "setDataAllowed", e); } } } @Override public void getHardwareConfig (Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_GET_HARDWARE_CONFIG, result, mRILDefaultWorkSource); // Do not log function args for privacy if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.getHardwareConfig(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "getHardwareConfig", e); } } } @Override public void requestIccSimAuthentication(int authContext, String data, String aid, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SIM_AUTHENTICATION, result, mRILDefaultWorkSource); // Do not log function args for privacy if (RILJ_LOGD) riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); try { radioProxy.requestIccSimAuthentication(rr.mSerial, authContext, convertNullToEmptyString(data), convertNullToEmptyString(aid)); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "requestIccSimAuthentication", e); } } } @Override public void setDataProfile(DataProfile[] dps, boolean isRoaming, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SET_DATA_PROFILE, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " with data profiles : "); for (DataProfile profile : dps) { riljLog(profile.toString()); } } ArrayList dpis = new ArrayList<>(); for (DataProfile dp : dps) { dpis.add(convertToHalDataProfile(dp)); } try { radioProxy.setDataProfile(rr.mSerial, dpis, isRoaming); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "setDataProfile", e); } } } @Override public void requestShutdown(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SHUTDOWN, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); } try { radioProxy.requestShutdown(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "requestShutdown", e); } } } @Override public void getRadioCapability(Message response) { IRadio radioProxy = getRadioProxy(response); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_GET_RADIO_CAPABILITY, response, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); } try { radioProxy.getRadioCapability(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "getRadioCapability", e); } } } @Override public void setRadioCapability(RadioCapability rc, Message response) { IRadio radioProxy = getRadioProxy(response); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SET_RADIO_CAPABILITY, response, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " RadioCapability = " + rc.toString()); } android.hardware.radio.V1_0.RadioCapability halRc = new android.hardware.radio.V1_0.RadioCapability(); halRc.session = rc.getSession(); halRc.phase = rc.getPhase(); halRc.raf = rc.getRadioAccessFamily(); halRc.logicalModemUuid = convertNullToEmptyString(rc.getLogicalModemUuid()); halRc.status = rc.getStatus(); try { radioProxy.setRadioCapability(rr.mSerial, halRc); } catch (Exception e) { handleRadioProxyExceptionForRR(rr, "setRadioCapability", e); } } } @Override public void startLceService(int reportIntervalMs, boolean pullMode, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_START_LCE, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " reportIntervalMs = " + reportIntervalMs + " pullMode = " + pullMode); } try { radioProxy.startLceService(rr.mSerial, reportIntervalMs, pullMode); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "startLceService", e); } } } @Override public void stopLceService(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_STOP_LCE, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); } try { radioProxy.stopLceService(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "stopLceService", e); } } } @Override public void pullLceData(Message response) { IRadio radioProxy = getRadioProxy(response); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_PULL_LCEDATA, response, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); } try { radioProxy.pullLceData(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "pullLceData", e); } } } @Override public void getModemActivityInfo(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_GET_ACTIVITY_INFO, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); } try { radioProxy.getModemActivityInfo(rr.mSerial); Message msg = mRilHandler.obtainMessage(EVENT_BLOCKING_RESPONSE_TIMEOUT); msg.obj = null; msg.arg1 = rr.mSerial; mRilHandler.sendMessageDelayed(msg, DEFAULT_BLOCKING_MESSAGE_RESPONSE_TIMEOUT_MS); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "getModemActivityInfo", e); } } } @Override public void setAllowedCarriers(List carriers, Message result) { checkNotNull(carriers, "Allowed carriers list cannot be null."); IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SET_ALLOWED_CARRIERS, result, mRILDefaultWorkSource); if (RILJ_LOGD) { String logStr = ""; for (int i = 0; i < carriers.size(); i++) { logStr = logStr + carriers.get(i) + " "; } riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + "carriers = " + logStr); } boolean allAllowed; if (carriers.size() == 0) { allAllowed = true; } else { allAllowed = false; } CarrierRestrictions carrierList = new CarrierRestrictions(); for (CarrierIdentifier ci : carriers) { /* allowed carriers */ Carrier c = new Carrier(); c.mcc = convertNullToEmptyString(ci.getMcc()); c.mnc = convertNullToEmptyString(ci.getMnc()); int matchType = CarrierIdentifier.MatchType.ALL; String matchData = null; if (!TextUtils.isEmpty(ci.getSpn())) { matchType = CarrierIdentifier.MatchType.SPN; matchData = ci.getSpn(); } else if (!TextUtils.isEmpty(ci.getImsi())) { matchType = CarrierIdentifier.MatchType.IMSI_PREFIX; matchData = ci.getImsi(); } else if (!TextUtils.isEmpty(ci.getGid1())) { matchType = CarrierIdentifier.MatchType.GID1; matchData = ci.getGid1(); } else if (!TextUtils.isEmpty(ci.getGid2())) { matchType = CarrierIdentifier.MatchType.GID2; matchData = ci.getGid2(); } c.matchType = matchType; c.matchData = convertNullToEmptyString(matchData); carrierList.allowedCarriers.add(c); } /* TODO: add excluded carriers */ try { radioProxy.setAllowedCarriers(rr.mSerial, allAllowed, carrierList); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "setAllowedCarriers", e); } } } @Override public void getAllowedCarriers(Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_GET_ALLOWED_CARRIERS, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); } try { radioProxy.getAllowedCarriers(rr.mSerial); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "getAllowedCarriers", e); } } } @Override public void sendDeviceState(int stateType, boolean state, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SEND_DEVICE_STATE, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " " + stateType + ":" + state); } try { radioProxy.sendDeviceState(rr.mSerial, stateType, state); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "sendDeviceState", e); } } } @Override public void setUnsolResponseFilter(int filter, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SET_UNSOLICITED_RESPONSE_FILTER, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " " + filter); } try { radioProxy.setIndicationFilter(rr.mSerial, filter); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "setIndicationFilter", e); } } } @Override public void setSimCardPower(boolean powerUp, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_SET_SIM_CARD_POWER, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest) + " " + powerUp); } try { radioProxy.setSimCardPower(rr.mSerial, powerUp); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "setSimCardPower", e); } } } @Override public void getIMEI(Message result) { throw new RuntimeException("getIMEI not expected to be called"); } @Override public void getIMEISV(Message result) { throw new RuntimeException("getIMEISV not expected to be called"); } /** * @deprecated */ @Deprecated @Override public void getLastPdpFailCause(Message result) { throw new RuntimeException("getLastPdpFailCause not expected to be called"); } /** * The preferred new alternative to getLastPdpFailCause */ @Override public void getLastDataCallFailCause(Message result) { throw new RuntimeException("getLastDataCallFailCause not expected to be called"); } /** * Translates EF_SMS status bits to a status value compatible with * SMS AT commands. See TS 27.005 3.1. */ private int translateStatus(int status) { switch(status & 0x7) { case SmsManager.STATUS_ON_ICC_READ: return 1; case SmsManager.STATUS_ON_ICC_UNREAD: return 0; case SmsManager.STATUS_ON_ICC_SENT: return 3; case SmsManager.STATUS_ON_ICC_UNSENT: return 2; } // Default to READ. return 1; } @Override public void resetRadio(Message result) { throw new RuntimeException("resetRadio not expected to be called"); } /** * {@inheritDoc} */ @Override public void handleCallSetupRequestFromSim(boolean accept, Message result) { IRadio radioProxy = getRadioProxy(result); if (radioProxy != null) { RILRequest rr = obtainRequest(RIL_REQUEST_STK_HANDLE_CALL_SETUP_REQUESTED_FROM_SIM, result, mRILDefaultWorkSource); if (RILJ_LOGD) { riljLog(rr.serialString() + "> " + requestToString(rr.mRequest)); } try { radioProxy.handleStkCallSetupRequestFromSim(rr.mSerial, accept); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "getAllowedCarriers", e); } } } //***** Private Methods /** * This is a helper function to be called when a RadioIndication callback is called. * It takes care of acquiring wakelock and sending ack if needed. * @param indicationType RadioIndicationType received */ void processIndication(int indicationType) { if (indicationType == RadioIndicationType.UNSOLICITED_ACK_EXP) { sendAck(); if (RILJ_LOGD) riljLog("Unsol response received; Sending ack to ril.cpp"); } else { // ack is not expected to be sent back. Nothing is required to be done here. } } void processRequestAck(int serial) { RILRequest rr; synchronized (mRequestList) { rr = mRequestList.get(serial); } if (rr == null) { Rlog.w(RIL.RILJ_LOG_TAG, "processRequestAck: Unexpected solicited ack response! " + "serial: " + serial); } else { decrementWakeLock(rr); if (RIL.RILJ_LOGD) { riljLog(rr.serialString() + " Ack < " + RIL.requestToString(rr.mRequest)); } } } /** * This is a helper function to be called when a RadioResponse callback is called. * It takes care of acks, wakelocks, and finds and returns RILRequest corresponding to the * response if one is found. * @param responseInfo RadioResponseInfo received in response callback * @return RILRequest corresponding to the response */ RILRequest processResponse(RadioResponseInfo responseInfo) { int serial = responseInfo.serial; int error = responseInfo.error; int type = responseInfo.type; RILRequest rr = null; if (type == RadioResponseType.SOLICITED_ACK) { synchronized (mRequestList) { rr = mRequestList.get(serial); } if (rr == null) { Rlog.w(RILJ_LOG_TAG, "Unexpected solicited ack response! sn: " + serial); } else { decrementWakeLock(rr); if (RILJ_LOGD) { riljLog(rr.serialString() + " Ack < " + requestToString(rr.mRequest)); } } return rr; } rr = findAndRemoveRequestFromList(serial); if (rr == null) { Rlog.e(RIL.RILJ_LOG_TAG, "processResponse: Unexpected response! serial: " + serial + " error: " + error); return null; } // Time logging for RIL command and storing it in TelephonyHistogram. addToRilHistogram(rr); if (type == RadioResponseType.SOLICITED_ACK_EXP) { sendAck(); if (RIL.RILJ_LOGD) { riljLog("Response received for " + rr.serialString() + " " + RIL.requestToString(rr.mRequest) + " Sending ack to ril.cpp"); } } else { // ack sent for SOLICITED_ACK_EXP above; nothing to do for SOLICITED response } // Here and below fake RIL_UNSOL_RESPONSE_SIM_STATUS_CHANGED, see b/7255789. // This is needed otherwise we don't automatically transition to the main lock // screen when the pin or puk is entered incorrectly. switch (rr.mRequest) { case RIL_REQUEST_ENTER_SIM_PUK: case RIL_REQUEST_ENTER_SIM_PUK2: if (mIccStatusChangedRegistrants != null) { if (RILJ_LOGD) { riljLog("ON enter sim puk fakeSimStatusChanged: reg count=" + mIccStatusChangedRegistrants.size()); } mIccStatusChangedRegistrants.notifyRegistrants(); } break; case RIL_REQUEST_SHUTDOWN: setRadioState(RadioState.RADIO_UNAVAILABLE); break; } if (error != RadioError.NONE) { switch (rr.mRequest) { case RIL_REQUEST_ENTER_SIM_PIN: case RIL_REQUEST_ENTER_SIM_PIN2: case RIL_REQUEST_CHANGE_SIM_PIN: case RIL_REQUEST_CHANGE_SIM_PIN2: case RIL_REQUEST_SET_FACILITY_LOCK: if (mIccStatusChangedRegistrants != null) { if (RILJ_LOGD) { riljLog("ON some errors fakeSimStatusChanged: reg count=" + mIccStatusChangedRegistrants.size()); } mIccStatusChangedRegistrants.notifyRegistrants(); } break; } } else { switch (rr.mRequest) { case RIL_REQUEST_HANGUP_FOREGROUND_RESUME_BACKGROUND: if (mTestingEmergencyCall.getAndSet(false)) { if (mEmergencyCallbackModeRegistrant != null) { riljLog("testing emergency call, notify ECM Registrants"); mEmergencyCallbackModeRegistrant.notifyRegistrant(); } } } } return rr; } /** * This is a helper function to be called at the end of all RadioResponse callbacks. * It takes care of sending error response, logging, decrementing wakelock if needed, and * releases the request from memory pool. * @param rr RILRequest for which response callback was called * @param responseInfo RadioResponseInfo received in the callback * @param ret object to be returned to request sender */ void processResponseDone(RILRequest rr, RadioResponseInfo responseInfo, Object ret) { if (responseInfo.error == 0) { if (RILJ_LOGD) { riljLog(rr.serialString() + "< " + requestToString(rr.mRequest) + " " + retToString(rr.mRequest, ret)); } } else { if (RILJ_LOGD) { riljLog(rr.serialString() + "< " + requestToString(rr.mRequest) + " error " + responseInfo.error); } rr.onError(responseInfo.error, ret); } mMetrics.writeOnRilSolicitedResponse(mPhoneId, rr.mSerial, responseInfo.error, rr.mRequest, ret); if (rr != null) { if (responseInfo.type == RadioResponseType.SOLICITED) { decrementWakeLock(rr); } rr.release(); } } /** * Function to send ack and acquire related wakelock */ private void sendAck() { // TODO: Remove rr and clean up acquireWakelock for response and ack RILRequest rr = RILRequest.obtain(RIL_RESPONSE_ACKNOWLEDGEMENT, null, mRILDefaultWorkSource); acquireWakeLock(rr, RIL.FOR_ACK_WAKELOCK); IRadio radioProxy = getRadioProxy(null); if (radioProxy != null) { try { radioProxy.responseAcknowledgement(); } catch (RemoteException | RuntimeException e) { handleRadioProxyExceptionForRR(rr, "sendAck", e); riljLoge("sendAck: " + e); } } else { Rlog.e(RILJ_LOG_TAG, "Error trying to send ack, radioProxy = null"); } rr.release(); } private WorkSource getDeafultWorkSourceIfInvalid(WorkSource workSource) { if (workSource == null) { workSource = mRILDefaultWorkSource; } return workSource; } private String getWorkSourceClientId(WorkSource workSource) { if (workSource != null) { return String.valueOf(workSource.get(0)) + ":" + workSource.getName(0); } return null; } /** * Holds a PARTIAL_WAKE_LOCK whenever * a) There is outstanding RIL request sent to RIL deamon and no replied * b) There is a request pending to be sent out. * * There is a WAKE_LOCK_TIMEOUT to release the lock, though it shouldn't * happen often. */ private void acquireWakeLock(RILRequest rr, int wakeLockType) { synchronized (rr) { if (rr.mWakeLockType != INVALID_WAKELOCK) { Rlog.d(RILJ_LOG_TAG, "Failed to aquire wakelock for " + rr.serialString()); return; } switch(wakeLockType) { case FOR_WAKELOCK: synchronized (mWakeLock) { mWakeLock.acquire(); mWakeLockCount++; mWlSequenceNum++; String clientId = getWorkSourceClientId(rr.mWorkSource); if (!mClientWakelockTracker.isClientActive(clientId)) { if (mActiveWakelockWorkSource != null) { mActiveWakelockWorkSource.add(rr.mWorkSource); } else { mActiveWakelockWorkSource = rr.mWorkSource; } mWakeLock.setWorkSource(mActiveWakelockWorkSource); } mClientWakelockTracker.startTracking(rr.mClientId, rr.mRequest, rr.mSerial, mWakeLockCount); Message msg = mRilHandler.obtainMessage(EVENT_WAKE_LOCK_TIMEOUT); msg.arg1 = mWlSequenceNum; mRilHandler.sendMessageDelayed(msg, mWakeLockTimeout); } break; case FOR_ACK_WAKELOCK: synchronized (mAckWakeLock) { mAckWakeLock.acquire(); mAckWlSequenceNum++; Message msg = mRilHandler.obtainMessage(EVENT_ACK_WAKE_LOCK_TIMEOUT); msg.arg1 = mAckWlSequenceNum; mRilHandler.sendMessageDelayed(msg, mAckWakeLockTimeout); } break; default: //WTF Rlog.w(RILJ_LOG_TAG, "Acquiring Invalid Wakelock type " + wakeLockType); return; } rr.mWakeLockType = wakeLockType; } } private void decrementWakeLock(RILRequest rr) { synchronized (rr) { switch(rr.mWakeLockType) { case FOR_WAKELOCK: synchronized (mWakeLock) { mClientWakelockTracker.stopTracking(rr.mClientId, rr.mRequest, rr.mSerial, (mWakeLockCount > 1) ? mWakeLockCount - 1 : 0); String clientId = getWorkSourceClientId(rr.mWorkSource);; if (!mClientWakelockTracker.isClientActive(clientId) && (mActiveWakelockWorkSource != null)) { mActiveWakelockWorkSource.remove(rr.mWorkSource); if (mActiveWakelockWorkSource.size() == 0) { mActiveWakelockWorkSource = null; } mWakeLock.setWorkSource(mActiveWakelockWorkSource); } if (mWakeLockCount > 1) { mWakeLockCount--; } else { mWakeLockCount = 0; mWakeLock.release(); } } break; case FOR_ACK_WAKELOCK: //We do not decrement the ACK wakelock break; case INVALID_WAKELOCK: break; default: Rlog.w(RILJ_LOG_TAG, "Decrementing Invalid Wakelock type " + rr.mWakeLockType); } rr.mWakeLockType = INVALID_WAKELOCK; } } private boolean clearWakeLock(int wakeLockType) { if (wakeLockType == FOR_WAKELOCK) { synchronized (mWakeLock) { if (mWakeLockCount == 0 && !mWakeLock.isHeld()) return false; Rlog.d(RILJ_LOG_TAG, "NOTE: mWakeLockCount is " + mWakeLockCount + "at time of clearing"); mWakeLockCount = 0; mWakeLock.release(); mClientWakelockTracker.stopTrackingAll(); mActiveWakelockWorkSource = null; return true; } } else { synchronized (mAckWakeLock) { if (!mAckWakeLock.isHeld()) return false; mAckWakeLock.release(); return true; } } } /** * Release each request in mRequestList then clear the list * @param error is the RIL_Errno sent back * @param loggable true means to print all requests in mRequestList */ private void clearRequestList(int error, boolean loggable) { RILRequest rr; synchronized (mRequestList) { int count = mRequestList.size(); if (RILJ_LOGD && loggable) { Rlog.d(RILJ_LOG_TAG, "clearRequestList " + " mWakeLockCount=" + mWakeLockCount + " mRequestList=" + count); } for (int i = 0; i < count; i++) { rr = mRequestList.valueAt(i); if (RILJ_LOGD && loggable) { Rlog.d(RILJ_LOG_TAG, i + ": [" + rr.mSerial + "] " + requestToString(rr.mRequest)); } rr.onError(error, null); decrementWakeLock(rr); rr.release(); } mRequestList.clear(); } } private RILRequest findAndRemoveRequestFromList(int serial) { RILRequest rr = null; synchronized (mRequestList) { rr = mRequestList.get(serial); if (rr != null) { mRequestList.remove(serial); } } return rr; } private void addToRilHistogram(RILRequest rr) { long endTime = SystemClock.elapsedRealtime(); int totalTime = (int) (endTime - rr.mStartTimeMs); synchronized (mRilTimeHistograms) { TelephonyHistogram entry = mRilTimeHistograms.get(rr.mRequest); if (entry == null) { // We would have total #RIL_HISTOGRAM_BUCKET_COUNT range buckets for RIL commands entry = new TelephonyHistogram(TelephonyHistogram.TELEPHONY_CATEGORY_RIL, rr.mRequest, RIL_HISTOGRAM_BUCKET_COUNT); mRilTimeHistograms.put(rr.mRequest, entry); } entry.addTimeTaken(totalTime); } } RadioCapability makeStaticRadioCapability() { // default to UNKNOWN so we fail fast. int raf = RadioAccessFamily.RAF_UNKNOWN; String rafString = mContext.getResources().getString( com.android.internal.R.string.config_radio_access_family); if (!TextUtils.isEmpty(rafString)) { raf = RadioAccessFamily.rafTypeFromString(rafString); } RadioCapability rc = new RadioCapability(mPhoneId.intValue(), 0, 0, raf, "", RadioCapability.RC_STATUS_SUCCESS); if (RILJ_LOGD) riljLog("Faking RIL_REQUEST_GET_RADIO_CAPABILITY response using " + raf); return rc; } static String retToString(int req, Object ret) { if (ret == null) return ""; switch (req) { // Don't log these return values, for privacy's sake. case RIL_REQUEST_GET_IMSI: case RIL_REQUEST_GET_IMEI: case RIL_REQUEST_GET_IMEISV: case RIL_REQUEST_SIM_OPEN_CHANNEL: case RIL_REQUEST_SIM_TRANSMIT_APDU_CHANNEL: if (!RILJ_LOGV) { // If not versbose logging just return and don't display IMSI and IMEI, IMEISV return ""; } } StringBuilder sb; String s; int length; if (ret instanceof int[]) { int[] intArray = (int[]) ret; length = intArray.length; sb = new StringBuilder("{"); if (length > 0) { int i = 0; sb.append(intArray[i++]); while (i < length) { sb.append(", ").append(intArray[i++]); } } sb.append("}"); s = sb.toString(); } else if (ret instanceof String[]) { String[] strings = (String[]) ret; length = strings.length; sb = new StringBuilder("{"); if (length > 0) { int i = 0; sb.append(strings[i++]); while (i < length) { sb.append(", ").append(strings[i++]); } } sb.append("}"); s = sb.toString(); } else if (req == RIL_REQUEST_GET_CURRENT_CALLS) { ArrayList calls = (ArrayList) ret; sb = new StringBuilder("{"); for (DriverCall dc : calls) { sb.append("[").append(dc).append("] "); } sb.append("}"); s = sb.toString(); } else if (req == RIL_REQUEST_GET_NEIGHBORING_CELL_IDS) { ArrayList cells = (ArrayList) ret; sb = new StringBuilder("{"); for (NeighboringCellInfo cell : cells) { sb.append("[").append(cell).append("] "); } sb.append("}"); s = sb.toString(); } else if (req == RIL_REQUEST_QUERY_CALL_FORWARD_STATUS) { CallForwardInfo[] cinfo = (CallForwardInfo[]) ret; length = cinfo.length; sb = new StringBuilder("{"); for (int i = 0; i < length; i++) { sb.append("[").append(cinfo[i]).append("] "); } sb.append("}"); s = sb.toString(); } else if (req == RIL_REQUEST_GET_HARDWARE_CONFIG) { ArrayList hwcfgs = (ArrayList) ret; sb = new StringBuilder(" "); for (HardwareConfig hwcfg : hwcfgs) { sb.append("[").append(hwcfg).append("] "); } s = sb.toString(); } else { s = ret.toString(); } return s; } void writeMetricsNewSms(int tech, int format) { mMetrics.writeRilNewSms(mPhoneId, tech, format); } void writeMetricsCallRing(char[] response) { mMetrics.writeRilCallRing(mPhoneId, response); } void writeMetricsSrvcc(int state) { mMetrics.writeRilSrvcc(mPhoneId, state); } void writeMetricsModemRestartEvent(String reason) { mMetrics.writeModemRestartEvent(mPhoneId, reason); } /** * Notify all registrants that the ril has connected or disconnected. * * @param rilVer is the version of the ril or -1 if disconnected. */ void notifyRegistrantsRilConnectionChanged(int rilVer) { mRilVersion = rilVer; if (mRilConnectedRegistrants != null) { mRilConnectedRegistrants.notifyRegistrants( new AsyncResult(null, new Integer(rilVer), null)); } } void notifyRegistrantsCdmaInfoRec(CdmaInformationRecords infoRec) { int response = RIL_UNSOL_CDMA_INFO_REC; if (infoRec.record instanceof CdmaInformationRecords.CdmaDisplayInfoRec) { if (mDisplayInfoRegistrants != null) { if (RILJ_LOGD) unsljLogRet(response, infoRec.record); mDisplayInfoRegistrants.notifyRegistrants( new AsyncResult(null, infoRec.record, null)); } } else if (infoRec.record instanceof CdmaInformationRecords.CdmaSignalInfoRec) { if (mSignalInfoRegistrants != null) { if (RILJ_LOGD) unsljLogRet(response, infoRec.record); mSignalInfoRegistrants.notifyRegistrants( new AsyncResult(null, infoRec.record, null)); } } else if (infoRec.record instanceof CdmaInformationRecords.CdmaNumberInfoRec) { if (mNumberInfoRegistrants != null) { if (RILJ_LOGD) unsljLogRet(response, infoRec.record); mNumberInfoRegistrants.notifyRegistrants( new AsyncResult(null, infoRec.record, null)); } } else if (infoRec.record instanceof CdmaInformationRecords.CdmaRedirectingNumberInfoRec) { if (mRedirNumInfoRegistrants != null) { if (RILJ_LOGD) unsljLogRet(response, infoRec.record); mRedirNumInfoRegistrants.notifyRegistrants( new AsyncResult(null, infoRec.record, null)); } } else if (infoRec.record instanceof CdmaInformationRecords.CdmaLineControlInfoRec) { if (mLineControlInfoRegistrants != null) { if (RILJ_LOGD) unsljLogRet(response, infoRec.record); mLineControlInfoRegistrants.notifyRegistrants( new AsyncResult(null, infoRec.record, null)); } } else if (infoRec.record instanceof CdmaInformationRecords.CdmaT53ClirInfoRec) { if (mT53ClirInfoRegistrants != null) { if (RILJ_LOGD) unsljLogRet(response, infoRec.record); mT53ClirInfoRegistrants.notifyRegistrants( new AsyncResult(null, infoRec.record, null)); } } else if (infoRec.record instanceof CdmaInformationRecords.CdmaT53AudioControlInfoRec) { if (mT53AudCntrlInfoRegistrants != null) { if (RILJ_LOGD) { unsljLogRet(response, infoRec.record); } mT53AudCntrlInfoRegistrants.notifyRegistrants( new AsyncResult(null, infoRec.record, null)); } } } static String requestToString(int request) { switch(request) { case RIL_REQUEST_GET_SIM_STATUS: return "GET_SIM_STATUS"; case RIL_REQUEST_ENTER_SIM_PIN: return "ENTER_SIM_PIN"; case RIL_REQUEST_ENTER_SIM_PUK: return "ENTER_SIM_PUK"; case RIL_REQUEST_ENTER_SIM_PIN2: return "ENTER_SIM_PIN2"; case RIL_REQUEST_ENTER_SIM_PUK2: return "ENTER_SIM_PUK2"; case RIL_REQUEST_CHANGE_SIM_PIN: return "CHANGE_SIM_PIN"; case RIL_REQUEST_CHANGE_SIM_PIN2: return "CHANGE_SIM_PIN2"; case RIL_REQUEST_ENTER_NETWORK_DEPERSONALIZATION: return "ENTER_NETWORK_DEPERSONALIZATION"; case RIL_REQUEST_GET_CURRENT_CALLS: return "GET_CURRENT_CALLS"; case RIL_REQUEST_DIAL: return "DIAL"; case RIL_REQUEST_GET_IMSI: return "GET_IMSI"; case RIL_REQUEST_HANGUP: return "HANGUP"; case RIL_REQUEST_HANGUP_WAITING_OR_BACKGROUND: return "HANGUP_WAITING_OR_BACKGROUND"; case RIL_REQUEST_HANGUP_FOREGROUND_RESUME_BACKGROUND: return "HANGUP_FOREGROUND_RESUME_BACKGROUND"; case RIL_REQUEST_SWITCH_WAITING_OR_HOLDING_AND_ACTIVE: return "REQUEST_SWITCH_WAITING_OR_HOLDING_AND_ACTIVE"; case RIL_REQUEST_CONFERENCE: return "CONFERENCE"; case RIL_REQUEST_UDUB: return "UDUB"; case RIL_REQUEST_LAST_CALL_FAIL_CAUSE: return "LAST_CALL_FAIL_CAUSE"; case RIL_REQUEST_SIGNAL_STRENGTH: return "SIGNAL_STRENGTH"; case RIL_REQUEST_VOICE_REGISTRATION_STATE: return "VOICE_REGISTRATION_STATE"; case RIL_REQUEST_DATA_REGISTRATION_STATE: return "DATA_REGISTRATION_STATE"; case RIL_REQUEST_OPERATOR: return "OPERATOR"; case RIL_REQUEST_RADIO_POWER: return "RADIO_POWER"; case RIL_REQUEST_DTMF: return "DTMF"; case RIL_REQUEST_SEND_SMS: return "SEND_SMS"; case RIL_REQUEST_SEND_SMS_EXPECT_MORE: return "SEND_SMS_EXPECT_MORE"; case RIL_REQUEST_SETUP_DATA_CALL: return "SETUP_DATA_CALL"; case RIL_REQUEST_SIM_IO: return "SIM_IO"; case RIL_REQUEST_SEND_USSD: return "SEND_USSD"; case RIL_REQUEST_CANCEL_USSD: return "CANCEL_USSD"; case RIL_REQUEST_GET_CLIR: return "GET_CLIR"; case RIL_REQUEST_SET_CLIR: return "SET_CLIR"; case RIL_REQUEST_QUERY_CALL_FORWARD_STATUS: return "QUERY_CALL_FORWARD_STATUS"; case RIL_REQUEST_SET_CALL_FORWARD: return "SET_CALL_FORWARD"; case RIL_REQUEST_QUERY_CALL_WAITING: return "QUERY_CALL_WAITING"; case RIL_REQUEST_SET_CALL_WAITING: return "SET_CALL_WAITING"; case RIL_REQUEST_SMS_ACKNOWLEDGE: return "SMS_ACKNOWLEDGE"; case RIL_REQUEST_GET_IMEI: return "GET_IMEI"; case RIL_REQUEST_GET_IMEISV: return "GET_IMEISV"; case RIL_REQUEST_ANSWER: return "ANSWER"; case RIL_REQUEST_DEACTIVATE_DATA_CALL: return "DEACTIVATE_DATA_CALL"; case RIL_REQUEST_QUERY_FACILITY_LOCK: return "QUERY_FACILITY_LOCK"; case RIL_REQUEST_SET_FACILITY_LOCK: return "SET_FACILITY_LOCK"; case RIL_REQUEST_CHANGE_BARRING_PASSWORD: return "CHANGE_BARRING_PASSWORD"; case RIL_REQUEST_QUERY_NETWORK_SELECTION_MODE: return "QUERY_NETWORK_SELECTION_MODE"; case RIL_REQUEST_SET_NETWORK_SELECTION_AUTOMATIC: return "SET_NETWORK_SELECTION_AUTOMATIC"; case RIL_REQUEST_SET_NETWORK_SELECTION_MANUAL: return "SET_NETWORK_SELECTION_MANUAL"; case RIL_REQUEST_QUERY_AVAILABLE_NETWORKS : return "QUERY_AVAILABLE_NETWORKS "; case RIL_REQUEST_DTMF_START: return "DTMF_START"; case RIL_REQUEST_DTMF_STOP: return "DTMF_STOP"; case RIL_REQUEST_BASEBAND_VERSION: return "BASEBAND_VERSION"; case RIL_REQUEST_SEPARATE_CONNECTION: return "SEPARATE_CONNECTION"; case RIL_REQUEST_SET_MUTE: return "SET_MUTE"; case RIL_REQUEST_GET_MUTE: return "GET_MUTE"; case RIL_REQUEST_QUERY_CLIP: return "QUERY_CLIP"; case RIL_REQUEST_LAST_DATA_CALL_FAIL_CAUSE: return "LAST_DATA_CALL_FAIL_CAUSE"; case RIL_REQUEST_DATA_CALL_LIST: return "DATA_CALL_LIST"; case RIL_REQUEST_RESET_RADIO: return "RESET_RADIO"; case RIL_REQUEST_OEM_HOOK_RAW: return "OEM_HOOK_RAW"; case RIL_REQUEST_OEM_HOOK_STRINGS: return "OEM_HOOK_STRINGS"; case RIL_REQUEST_SCREEN_STATE: return "SCREEN_STATE"; case RIL_REQUEST_SET_SUPP_SVC_NOTIFICATION: return "SET_SUPP_SVC_NOTIFICATION"; case RIL_REQUEST_WRITE_SMS_TO_SIM: return "WRITE_SMS_TO_SIM"; case RIL_REQUEST_DELETE_SMS_ON_SIM: return "DELETE_SMS_ON_SIM"; case RIL_REQUEST_SET_BAND_MODE: return "SET_BAND_MODE"; case RIL_REQUEST_QUERY_AVAILABLE_BAND_MODE: return "QUERY_AVAILABLE_BAND_MODE"; case RIL_REQUEST_STK_GET_PROFILE: return "REQUEST_STK_GET_PROFILE"; case RIL_REQUEST_STK_SET_PROFILE: return "REQUEST_STK_SET_PROFILE"; case RIL_REQUEST_STK_SEND_ENVELOPE_COMMAND: return "REQUEST_STK_SEND_ENVELOPE_COMMAND"; case RIL_REQUEST_STK_SEND_TERMINAL_RESPONSE: return "REQUEST_STK_SEND_TERMINAL_RESPONSE"; case RIL_REQUEST_STK_HANDLE_CALL_SETUP_REQUESTED_FROM_SIM: return "REQUEST_STK_HANDLE_CALL_SETUP_REQUESTED_FROM_SIM"; case RIL_REQUEST_EXPLICIT_CALL_TRANSFER: return "REQUEST_EXPLICIT_CALL_TRANSFER"; case RIL_REQUEST_SET_PREFERRED_NETWORK_TYPE: return "REQUEST_SET_PREFERRED_NETWORK_TYPE"; case RIL_REQUEST_GET_PREFERRED_NETWORK_TYPE: return "REQUEST_GET_PREFERRED_NETWORK_TYPE"; case RIL_REQUEST_GET_NEIGHBORING_CELL_IDS: return "REQUEST_GET_NEIGHBORING_CELL_IDS"; case RIL_REQUEST_SET_LOCATION_UPDATES: return "REQUEST_SET_LOCATION_UPDATES"; case RIL_REQUEST_CDMA_SET_SUBSCRIPTION_SOURCE: return "RIL_REQUEST_CDMA_SET_SUBSCRIPTION_SOURCE"; case RIL_REQUEST_CDMA_SET_ROAMING_PREFERENCE: return "RIL_REQUEST_CDMA_SET_ROAMING_PREFERENCE"; case RIL_REQUEST_CDMA_QUERY_ROAMING_PREFERENCE: return "RIL_REQUEST_CDMA_QUERY_ROAMING_PREFERENCE"; case RIL_REQUEST_SET_TTY_MODE: return "RIL_REQUEST_SET_TTY_MODE"; case RIL_REQUEST_QUERY_TTY_MODE: return "RIL_REQUEST_QUERY_TTY_MODE"; case RIL_REQUEST_CDMA_SET_PREFERRED_VOICE_PRIVACY_MODE: return "RIL_REQUEST_CDMA_SET_PREFERRED_VOICE_PRIVACY_MODE"; case RIL_REQUEST_CDMA_QUERY_PREFERRED_VOICE_PRIVACY_MODE: return "RIL_REQUEST_CDMA_QUERY_PREFERRED_VOICE_PRIVACY_MODE"; case RIL_REQUEST_CDMA_FLASH: return "RIL_REQUEST_CDMA_FLASH"; case RIL_REQUEST_CDMA_BURST_DTMF: return "RIL_REQUEST_CDMA_BURST_DTMF"; case RIL_REQUEST_CDMA_SEND_SMS: return "RIL_REQUEST_CDMA_SEND_SMS"; case RIL_REQUEST_CDMA_SMS_ACKNOWLEDGE: return "RIL_REQUEST_CDMA_SMS_ACKNOWLEDGE"; case RIL_REQUEST_GSM_GET_BROADCAST_CONFIG: return "RIL_REQUEST_GSM_GET_BROADCAST_CONFIG"; case RIL_REQUEST_GSM_SET_BROADCAST_CONFIG: return "RIL_REQUEST_GSM_SET_BROADCAST_CONFIG"; case RIL_REQUEST_CDMA_GET_BROADCAST_CONFIG: return "RIL_REQUEST_CDMA_GET_BROADCAST_CONFIG"; case RIL_REQUEST_CDMA_SET_BROADCAST_CONFIG: return "RIL_REQUEST_CDMA_SET_BROADCAST_CONFIG"; case RIL_REQUEST_GSM_BROADCAST_ACTIVATION: return "RIL_REQUEST_GSM_BROADCAST_ACTIVATION"; case RIL_REQUEST_CDMA_VALIDATE_AND_WRITE_AKEY: return "RIL_REQUEST_CDMA_VALIDATE_AND_WRITE_AKEY"; case RIL_REQUEST_CDMA_BROADCAST_ACTIVATION: return "RIL_REQUEST_CDMA_BROADCAST_ACTIVATION"; case RIL_REQUEST_CDMA_SUBSCRIPTION: return "RIL_REQUEST_CDMA_SUBSCRIPTION"; case RIL_REQUEST_CDMA_WRITE_SMS_TO_RUIM: return "RIL_REQUEST_CDMA_WRITE_SMS_TO_RUIM"; case RIL_REQUEST_CDMA_DELETE_SMS_ON_RUIM: return "RIL_REQUEST_CDMA_DELETE_SMS_ON_RUIM"; case RIL_REQUEST_DEVICE_IDENTITY: return "RIL_REQUEST_DEVICE_IDENTITY"; case RIL_REQUEST_GET_SMSC_ADDRESS: return "RIL_REQUEST_GET_SMSC_ADDRESS"; case RIL_REQUEST_SET_SMSC_ADDRESS: return "RIL_REQUEST_SET_SMSC_ADDRESS"; case RIL_REQUEST_EXIT_EMERGENCY_CALLBACK_MODE: return "REQUEST_EXIT_EMERGENCY_CALLBACK_MODE"; case RIL_REQUEST_REPORT_SMS_MEMORY_STATUS: return "RIL_REQUEST_REPORT_SMS_MEMORY_STATUS"; case RIL_REQUEST_REPORT_STK_SERVICE_IS_RUNNING: return "RIL_REQUEST_REPORT_STK_SERVICE_IS_RUNNING"; case RIL_REQUEST_CDMA_GET_SUBSCRIPTION_SOURCE: return "RIL_REQUEST_CDMA_GET_SUBSCRIPTION_SOURCE"; case RIL_REQUEST_ISIM_AUTHENTICATION: return "RIL_REQUEST_ISIM_AUTHENTICATION"; case RIL_REQUEST_ACKNOWLEDGE_INCOMING_GSM_SMS_WITH_PDU: return "RIL_REQUEST_ACKNOWLEDGE_INCOMING_GSM_SMS_WITH_PDU"; case RIL_REQUEST_STK_SEND_ENVELOPE_WITH_STATUS: return "RIL_REQUEST_STK_SEND_ENVELOPE_WITH_STATUS"; case RIL_REQUEST_VOICE_RADIO_TECH: return "RIL_REQUEST_VOICE_RADIO_TECH"; case RIL_REQUEST_GET_CELL_INFO_LIST: return "RIL_REQUEST_GET_CELL_INFO_LIST"; case RIL_REQUEST_SET_UNSOL_CELL_INFO_LIST_RATE: return "RIL_REQUEST_SET_CELL_INFO_LIST_RATE"; case RIL_REQUEST_SET_INITIAL_ATTACH_APN: return "RIL_REQUEST_SET_INITIAL_ATTACH_APN"; case RIL_REQUEST_SET_DATA_PROFILE: return "RIL_REQUEST_SET_DATA_PROFILE"; case RIL_REQUEST_IMS_REGISTRATION_STATE: return "RIL_REQUEST_IMS_REGISTRATION_STATE"; case RIL_REQUEST_IMS_SEND_SMS: return "RIL_REQUEST_IMS_SEND_SMS"; case RIL_REQUEST_SIM_TRANSMIT_APDU_BASIC: return "RIL_REQUEST_SIM_TRANSMIT_APDU_BASIC"; case RIL_REQUEST_SIM_OPEN_CHANNEL: return "RIL_REQUEST_SIM_OPEN_CHANNEL"; case RIL_REQUEST_SIM_CLOSE_CHANNEL: return "RIL_REQUEST_SIM_CLOSE_CHANNEL"; case RIL_REQUEST_SIM_TRANSMIT_APDU_CHANNEL: return "RIL_REQUEST_SIM_TRANSMIT_APDU_CHANNEL"; case RIL_REQUEST_NV_READ_ITEM: return "RIL_REQUEST_NV_READ_ITEM"; case RIL_REQUEST_NV_WRITE_ITEM: return "RIL_REQUEST_NV_WRITE_ITEM"; case RIL_REQUEST_NV_WRITE_CDMA_PRL: return "RIL_REQUEST_NV_WRITE_CDMA_PRL"; case RIL_REQUEST_NV_RESET_CONFIG: return "RIL_REQUEST_NV_RESET_CONFIG"; case RIL_REQUEST_SET_UICC_SUBSCRIPTION: return "RIL_REQUEST_SET_UICC_SUBSCRIPTION"; case RIL_REQUEST_ALLOW_DATA: return "RIL_REQUEST_ALLOW_DATA"; case RIL_REQUEST_GET_HARDWARE_CONFIG: return "GET_HARDWARE_CONFIG"; case RIL_REQUEST_SIM_AUTHENTICATION: return "RIL_REQUEST_SIM_AUTHENTICATION"; case RIL_REQUEST_SHUTDOWN: return "RIL_REQUEST_SHUTDOWN"; case RIL_REQUEST_SET_RADIO_CAPABILITY: return "RIL_REQUEST_SET_RADIO_CAPABILITY"; case RIL_REQUEST_GET_RADIO_CAPABILITY: return "RIL_REQUEST_GET_RADIO_CAPABILITY"; case RIL_REQUEST_START_LCE: return "RIL_REQUEST_START_LCE"; case RIL_REQUEST_STOP_LCE: return "RIL_REQUEST_STOP_LCE"; case RIL_REQUEST_PULL_LCEDATA: return "RIL_REQUEST_PULL_LCEDATA"; case RIL_REQUEST_GET_ACTIVITY_INFO: return "RIL_REQUEST_GET_ACTIVITY_INFO"; case RIL_REQUEST_SET_ALLOWED_CARRIERS: return "RIL_REQUEST_SET_ALLOWED_CARRIERS"; case RIL_REQUEST_GET_ALLOWED_CARRIERS: return "RIL_REQUEST_GET_ALLOWED_CARRIERS"; case RIL_REQUEST_SET_SIM_CARD_POWER: return "RIL_REQUEST_SET_SIM_CARD_POWER"; case RIL_REQUEST_SEND_DEVICE_STATE: return "RIL_REQUEST_SEND_DEVICE_STATE"; case RIL_REQUEST_SET_UNSOLICITED_RESPONSE_FILTER: return "RIL_REQUEST_SET_UNSOLICITED_RESPONSE_FILTER"; case RIL_RESPONSE_ACKNOWLEDGEMENT: return "RIL_RESPONSE_ACKNOWLEDGEMENT"; default: return ""; } } static String responseToString(int request) { switch(request) { case RIL_UNSOL_RESPONSE_RADIO_STATE_CHANGED: return "UNSOL_RESPONSE_RADIO_STATE_CHANGED"; case RIL_UNSOL_RESPONSE_CALL_STATE_CHANGED: return "UNSOL_RESPONSE_CALL_STATE_CHANGED"; case RIL_UNSOL_RESPONSE_NETWORK_STATE_CHANGED: return "UNSOL_RESPONSE_NETWORK_STATE_CHANGED"; case RIL_UNSOL_RESPONSE_NEW_SMS: return "UNSOL_RESPONSE_NEW_SMS"; case RIL_UNSOL_RESPONSE_NEW_SMS_STATUS_REPORT: return "UNSOL_RESPONSE_NEW_SMS_STATUS_REPORT"; case RIL_UNSOL_RESPONSE_NEW_SMS_ON_SIM: return "UNSOL_RESPONSE_NEW_SMS_ON_SIM"; case RIL_UNSOL_ON_USSD: return "UNSOL_ON_USSD"; case RIL_UNSOL_ON_USSD_REQUEST: return "UNSOL_ON_USSD_REQUEST"; case RIL_UNSOL_NITZ_TIME_RECEIVED: return "UNSOL_NITZ_TIME_RECEIVED"; case RIL_UNSOL_SIGNAL_STRENGTH: return "UNSOL_SIGNAL_STRENGTH"; case RIL_UNSOL_DATA_CALL_LIST_CHANGED: return "UNSOL_DATA_CALL_LIST_CHANGED"; case RIL_UNSOL_SUPP_SVC_NOTIFICATION: return "UNSOL_SUPP_SVC_NOTIFICATION"; case RIL_UNSOL_STK_SESSION_END: return "UNSOL_STK_SESSION_END"; case RIL_UNSOL_STK_PROACTIVE_COMMAND: return "UNSOL_STK_PROACTIVE_COMMAND"; case RIL_UNSOL_STK_EVENT_NOTIFY: return "UNSOL_STK_EVENT_NOTIFY"; case RIL_UNSOL_STK_CALL_SETUP: return "UNSOL_STK_CALL_SETUP"; case RIL_UNSOL_SIM_SMS_STORAGE_FULL: return "UNSOL_SIM_SMS_STORAGE_FULL"; case RIL_UNSOL_SIM_REFRESH: return "UNSOL_SIM_REFRESH"; case RIL_UNSOL_CALL_RING: return "UNSOL_CALL_RING"; case RIL_UNSOL_RESPONSE_SIM_STATUS_CHANGED: return "UNSOL_RESPONSE_SIM_STATUS_CHANGED"; case RIL_UNSOL_RESPONSE_CDMA_NEW_SMS: return "UNSOL_RESPONSE_CDMA_NEW_SMS"; case RIL_UNSOL_RESPONSE_NEW_BROADCAST_SMS: return "UNSOL_RESPONSE_NEW_BROADCAST_SMS"; case RIL_UNSOL_CDMA_RUIM_SMS_STORAGE_FULL: return "UNSOL_CDMA_RUIM_SMS_STORAGE_FULL"; case RIL_UNSOL_RESTRICTED_STATE_CHANGED: return "UNSOL_RESTRICTED_STATE_CHANGED"; case RIL_UNSOL_ENTER_EMERGENCY_CALLBACK_MODE: return "UNSOL_ENTER_EMERGENCY_CALLBACK_MODE"; case RIL_UNSOL_CDMA_CALL_WAITING: return "UNSOL_CDMA_CALL_WAITING"; case RIL_UNSOL_CDMA_OTA_PROVISION_STATUS: return "UNSOL_CDMA_OTA_PROVISION_STATUS"; case RIL_UNSOL_CDMA_INFO_REC: return "UNSOL_CDMA_INFO_REC"; case RIL_UNSOL_OEM_HOOK_RAW: return "UNSOL_OEM_HOOK_RAW"; case RIL_UNSOL_RINGBACK_TONE: return "UNSOL_RINGBACK_TONE"; case RIL_UNSOL_RESEND_INCALL_MUTE: return "UNSOL_RESEND_INCALL_MUTE"; case RIL_UNSOL_CDMA_SUBSCRIPTION_SOURCE_CHANGED: return "CDMA_SUBSCRIPTION_SOURCE_CHANGED"; case RIL_UNSOl_CDMA_PRL_CHANGED: return "UNSOL_CDMA_PRL_CHANGED"; case RIL_UNSOL_EXIT_EMERGENCY_CALLBACK_MODE: return "UNSOL_EXIT_EMERGENCY_CALLBACK_MODE"; case RIL_UNSOL_RIL_CONNECTED: return "UNSOL_RIL_CONNECTED"; case RIL_UNSOL_VOICE_RADIO_TECH_CHANGED: return "UNSOL_VOICE_RADIO_TECH_CHANGED"; case RIL_UNSOL_CELL_INFO_LIST: return "UNSOL_CELL_INFO_LIST"; case RIL_UNSOL_RESPONSE_IMS_NETWORK_STATE_CHANGED: return "UNSOL_RESPONSE_IMS_NETWORK_STATE_CHANGED"; case RIL_UNSOL_UICC_SUBSCRIPTION_STATUS_CHANGED: return "RIL_UNSOL_UICC_SUBSCRIPTION_STATUS_CHANGED"; case RIL_UNSOL_SRVCC_STATE_NOTIFY: return "UNSOL_SRVCC_STATE_NOTIFY"; case RIL_UNSOL_HARDWARE_CONFIG_CHANGED: return "RIL_UNSOL_HARDWARE_CONFIG_CHANGED"; case RIL_UNSOL_RADIO_CAPABILITY: return "RIL_UNSOL_RADIO_CAPABILITY"; case RIL_UNSOL_ON_SS: return "UNSOL_ON_SS"; case RIL_UNSOL_STK_CC_ALPHA_NOTIFY: return "UNSOL_STK_CC_ALPHA_NOTIFY"; case RIL_UNSOL_LCEDATA_RECV: return "UNSOL_LCE_INFO_RECV"; case RIL_UNSOL_PCO_DATA: return "UNSOL_PCO_DATA"; case RIL_UNSOL_MODEM_RESTART: return "UNSOL_MODEM_RESTART"; default: return ""; } } void riljLog(String msg) { Rlog.d(RILJ_LOG_TAG, msg + (mPhoneId != null ? (" [SUB" + mPhoneId + "]") : "")); } void riljLoge(String msg) { Rlog.e(RILJ_LOG_TAG, msg + (mPhoneId != null ? (" [SUB" + mPhoneId + "]") : "")); } void riljLoge(String msg, Exception e) { Rlog.e(RILJ_LOG_TAG, msg + (mPhoneId != null ? (" [SUB" + mPhoneId + "]") : ""), e); } void riljLogv(String msg) { Rlog.v(RILJ_LOG_TAG, msg + (mPhoneId != null ? (" [SUB" + mPhoneId + "]") : "")); } void unsljLog(int response) { riljLog("[UNSL]< " + responseToString(response)); } void unsljLogMore(int response, String more) { riljLog("[UNSL]< " + responseToString(response) + " " + more); } void unsljLogRet(int response, Object ret) { riljLog("[UNSL]< " + responseToString(response) + " " + retToString(response, ret)); } void unsljLogvRet(int response, Object ret) { riljLogv("[UNSL]< " + responseToString(response) + " " + retToString(response, ret)); } @Override public void setPhoneType(int phoneType) { // Called by GsmCdmaPhone if (RILJ_LOGD) riljLog("setPhoneType=" + phoneType + " old value=" + mPhoneType); mPhoneType = phoneType; } /* (non-Javadoc) * @see com.android.internal.telephony.BaseCommands#testingEmergencyCall() */ @Override public void testingEmergencyCall() { if (RILJ_LOGD) riljLog("testingEmergencyCall"); mTestingEmergencyCall.set(true); } public void dump(FileDescriptor fd, PrintWriter pw, String[] args) { pw.println("RIL: " + this); pw.println(" mWakeLock=" + mWakeLock); pw.println(" mWakeLockTimeout=" + mWakeLockTimeout); synchronized (mRequestList) { synchronized (mWakeLock) { pw.println(" mWakeLockCount=" + mWakeLockCount); } int count = mRequestList.size(); pw.println(" mRequestList count=" + count); for (int i = 0; i < count; i++) { RILRequest rr = mRequestList.valueAt(i); pw.println(" [" + rr.mSerial + "] " + requestToString(rr.mRequest)); } } pw.println(" mLastNITZTimeInfo=" + Arrays.toString(mLastNITZTimeInfo)); pw.println(" mTestingEmergencyCall=" + mTestingEmergencyCall.get()); mClientWakelockTracker.dumpClientRequestTracker(); } public List getClientRequestStats() { return mClientWakelockTracker.getClientRequestStats(); } public static ArrayList primitiveArrayToArrayList(byte[] arr) { ArrayList arrayList = new ArrayList<>(arr.length); for (byte b : arr) { arrayList.add(b); } return arrayList; } public static byte[] arrayListToPrimitiveArray(ArrayList bytes) { byte[] ret = new byte[bytes.size()]; for (int i = 0; i < ret.length; i++) { ret[i] = bytes.get(i); } return ret; } static ArrayList convertHalHwConfigList( ArrayList hwListRil, RIL ril) { int num; ArrayList response; HardwareConfig hw; num = hwListRil.size(); response = new ArrayList(num); if (RILJ_LOGV) { ril.riljLog("convertHalHwConfigList: num=" + num); } for (android.hardware.radio.V1_0.HardwareConfig hwRil : hwListRil) { int type = hwRil.type; switch(type) { case HardwareConfig.DEV_HARDWARE_TYPE_MODEM: { hw = new HardwareConfig(type); HardwareConfigModem hwModem = hwRil.modem.get(0); hw.assignModem(hwRil.uuid, hwRil.state, hwModem.rilModel, hwModem.rat, hwModem.maxVoice, hwModem.maxData, hwModem.maxStandby); break; } case HardwareConfig.DEV_HARDWARE_TYPE_SIM: { hw = new HardwareConfig(type); hw.assignSim(hwRil.uuid, hwRil.state, hwRil.sim.get(0).modemUuid); break; } default: { throw new RuntimeException( "RIL_REQUEST_GET_HARDWARE_CONFIG invalid hardward type:" + type); } } response.add(hw); } return response; } static RadioCapability convertHalRadioCapability( android.hardware.radio.V1_0.RadioCapability rcRil, RIL ril) { int session = rcRil.session; int phase = rcRil.phase; int rat = rcRil.raf; String logicModemUuid = rcRil.logicalModemUuid; int status = rcRil.status; ril.riljLog("convertHalRadioCapability: session=" + session + ", phase=" + phase + ", rat=" + rat + ", logicModemUuid=" + logicModemUuid + ", status=" + status); RadioCapability rc = new RadioCapability( ril.mPhoneId, session, phase, rat, logicModemUuid, status); return rc; } static ArrayList convertHalLceData(LceDataInfo lce, RIL ril) { final ArrayList capacityResponse = new ArrayList(); final int capacityDownKbps = lce.lastHopCapacityKbps; final int confidenceLevel = Byte.toUnsignedInt(lce.confidenceLevel); final int lceSuspended = lce.lceSuspended ? 1 : 0; ril.riljLog("LCE capacity information received:" + " capacity=" + capacityDownKbps + " confidence=" + confidenceLevel + " lceSuspended=" + lceSuspended); capacityResponse.add(capacityDownKbps); capacityResponse.add(confidenceLevel); capacityResponse.add(lceSuspended); return capacityResponse; } static ArrayList convertHalCellInfoList( ArrayList records) { ArrayList response = new ArrayList(records.size()); for (android.hardware.radio.V1_0.CellInfo record : records) { // first convert RIL CellInfo to Parcel Parcel p = Parcel.obtain(); p.writeInt(record.cellInfoType); p.writeInt(record.registered ? 1 : 0); p.writeInt(record.timeStampType); p.writeLong(record.timeStamp); switch (record.cellInfoType) { case CellInfoType.GSM: { CellInfoGsm cellInfoGsm = record.gsm.get(0); p.writeInt(Integer.parseInt(cellInfoGsm.cellIdentityGsm.mcc)); p.writeInt(Integer.parseInt(cellInfoGsm.cellIdentityGsm.mnc)); p.writeInt(cellInfoGsm.cellIdentityGsm.lac); p.writeInt(cellInfoGsm.cellIdentityGsm.cid); p.writeInt(cellInfoGsm.cellIdentityGsm.arfcn); p.writeInt(Byte.toUnsignedInt(cellInfoGsm.cellIdentityGsm.bsic)); p.writeInt(cellInfoGsm.signalStrengthGsm.signalStrength); p.writeInt(cellInfoGsm.signalStrengthGsm.bitErrorRate); p.writeInt(cellInfoGsm.signalStrengthGsm.timingAdvance); break; } case CellInfoType.CDMA: { CellInfoCdma cellInfoCdma = record.cdma.get(0); p.writeInt(cellInfoCdma.cellIdentityCdma.networkId); p.writeInt(cellInfoCdma.cellIdentityCdma.systemId); p.writeInt(cellInfoCdma.cellIdentityCdma.baseStationId); p.writeInt(cellInfoCdma.cellIdentityCdma.longitude); p.writeInt(cellInfoCdma.cellIdentityCdma.latitude); p.writeInt(cellInfoCdma.signalStrengthCdma.dbm); p.writeInt(cellInfoCdma.signalStrengthCdma.ecio); p.writeInt(cellInfoCdma.signalStrengthEvdo.dbm); p.writeInt(cellInfoCdma.signalStrengthEvdo.ecio); p.writeInt(cellInfoCdma.signalStrengthEvdo.signalNoiseRatio); break; } case CellInfoType.LTE: { CellInfoLte cellInfoLte = record.lte.get(0); p.writeInt(Integer.parseInt(cellInfoLte.cellIdentityLte.mcc)); p.writeInt(Integer.parseInt(cellInfoLte.cellIdentityLte.mnc)); p.writeInt(cellInfoLte.cellIdentityLte.ci); p.writeInt(cellInfoLte.cellIdentityLte.pci); p.writeInt(cellInfoLte.cellIdentityLte.tac); p.writeInt(cellInfoLte.cellIdentityLte.earfcn); p.writeInt(cellInfoLte.signalStrengthLte.signalStrength); p.writeInt(cellInfoLte.signalStrengthLte.rsrp); p.writeInt(cellInfoLte.signalStrengthLte.rsrq); p.writeInt(cellInfoLte.signalStrengthLte.rssnr); p.writeInt(cellInfoLte.signalStrengthLte.cqi); p.writeInt(cellInfoLte.signalStrengthLte.timingAdvance); break; } case CellInfoType.WCDMA: { CellInfoWcdma cellInfoWcdma = record.wcdma.get(0); p.writeInt(Integer.parseInt(cellInfoWcdma.cellIdentityWcdma.mcc)); p.writeInt(Integer.parseInt(cellInfoWcdma.cellIdentityWcdma.mnc)); p.writeInt(cellInfoWcdma.cellIdentityWcdma.lac); p.writeInt(cellInfoWcdma.cellIdentityWcdma.cid); p.writeInt(cellInfoWcdma.cellIdentityWcdma.psc); p.writeInt(cellInfoWcdma.cellIdentityWcdma.uarfcn); p.writeInt(cellInfoWcdma.signalStrengthWcdma.signalStrength); p.writeInt(cellInfoWcdma.signalStrengthWcdma.bitErrorRate); break; } default: throw new RuntimeException("unexpected cellinfotype: " + record.cellInfoType); } p.setDataPosition(0); CellInfo InfoRec = CellInfo.CREATOR.createFromParcel(p); p.recycle(); response.add(InfoRec); } return response; } static SignalStrength convertHalSignalStrength( android.hardware.radio.V1_0.SignalStrength signalStrength) { return new SignalStrength(signalStrength.gw.signalStrength, signalStrength.gw.bitErrorRate, signalStrength.cdma.dbm, signalStrength.cdma.ecio, signalStrength.evdo.dbm, signalStrength.evdo.ecio, signalStrength.evdo.signalNoiseRatio, signalStrength.lte.signalStrength, signalStrength.lte.rsrp, signalStrength.lte.rsrq, signalStrength.lte.rssnr, signalStrength.lte.cqi, signalStrength.tdScdma.rscp, false /* gsmFlag - don't care; will be changed by SST */); } }