/* * 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.test; import android.os.AsyncResult; import android.os.HandlerThread; import android.os.Looper; import android.os.Message; import android.util.Log; import com.android.internal.telephony.BaseCommands; import com.android.internal.telephony.CommandException; import com.android.internal.telephony.CommandsInterface; import com.android.internal.telephony.DataCallState; import com.android.internal.telephony.Phone; import com.android.internal.telephony.UUSInfo; import com.android.internal.telephony.gsm.CallFailCause; import com.android.internal.telephony.gsm.SmsBroadcastConfigInfo; import com.android.internal.telephony.gsm.SuppServiceNotification; import java.util.ArrayList; public final class SimulatedCommands extends BaseCommands implements CommandsInterface, SimulatedRadioControl { private final static String LOG_TAG = "SIM"; private enum SimLockState { NONE, REQUIRE_PIN, REQUIRE_PUK, SIM_PERM_LOCKED } private enum SimFdnState { NONE, REQUIRE_PIN2, REQUIRE_PUK2, SIM_PERM_LOCKED } private final static SimLockState INITIAL_LOCK_STATE = SimLockState.NONE; private final static String DEFAULT_SIM_PIN_CODE = "1234"; private final static String SIM_PUK_CODE = "12345678"; private final static SimFdnState INITIAL_FDN_STATE = SimFdnState.NONE; private final static String DEFAULT_SIM_PIN2_CODE = "5678"; private final static String SIM_PUK2_CODE = "87654321"; //***** Instance Variables SimulatedGsmCallState simulatedCallState; HandlerThread mHandlerThread; SimLockState mSimLockedState; boolean mSimLockEnabled; int mPinUnlockAttempts; int mPukUnlockAttempts; String mPinCode; SimFdnState mSimFdnEnabledState; boolean mSimFdnEnabled; int mPin2UnlockAttempts; int mPuk2UnlockAttempts; int mNetworkType; String mPin2Code; boolean mSsnNotifyOn = false; int pausedResponseCount; ArrayList pausedResponses = new ArrayList(); int nextCallFailCause = CallFailCause.NORMAL_CLEARING; //***** Constructor public SimulatedCommands() { super(null); // Don't log statistics mHandlerThread = new HandlerThread("SimulatedCommands"); mHandlerThread.start(); Looper looper = mHandlerThread.getLooper(); simulatedCallState = new SimulatedGsmCallState(looper); setRadioState(RadioState.RADIO_OFF); mSimLockedState = INITIAL_LOCK_STATE; mSimLockEnabled = (mSimLockedState != SimLockState.NONE); mPinCode = DEFAULT_SIM_PIN_CODE; mSimFdnEnabledState = INITIAL_FDN_STATE; mSimFdnEnabled = (mSimFdnEnabledState != SimFdnState.NONE); mPin2Code = DEFAULT_SIM_PIN2_CODE; } //***** CommandsInterface implementation public void getIccCardStatus(Message result) { unimplemented(result); } public void supplyIccPin(String pin, Message result) { if (mSimLockedState != SimLockState.REQUIRE_PIN) { Log.i(LOG_TAG, "[SimCmd] supplyIccPin: wrong state, state=" + mSimLockedState); CommandException ex = new CommandException( CommandException.Error.PASSWORD_INCORRECT); AsyncResult.forMessage(result, null, ex); result.sendToTarget(); return; } if (pin != null && pin.equals(mPinCode)) { Log.i(LOG_TAG, "[SimCmd] supplyIccPin: success!"); mPinUnlockAttempts = 0; mSimLockedState = SimLockState.NONE; mIccStatusChangedRegistrants.notifyRegistrants(); if (result != null) { AsyncResult.forMessage(result, null, null); result.sendToTarget(); } return; } if (result != null) { mPinUnlockAttempts ++; Log.i(LOG_TAG, "[SimCmd] supplyIccPin: failed! attempt=" + mPinUnlockAttempts); if (mPinUnlockAttempts >= 3) { Log.i(LOG_TAG, "[SimCmd] supplyIccPin: set state to REQUIRE_PUK"); mSimLockedState = SimLockState.REQUIRE_PUK; } CommandException ex = new CommandException( CommandException.Error.PASSWORD_INCORRECT); AsyncResult.forMessage(result, null, ex); result.sendToTarget(); } } public void supplyIccPuk(String puk, String newPin, Message result) { if (mSimLockedState != SimLockState.REQUIRE_PUK) { Log.i(LOG_TAG, "[SimCmd] supplyIccPuk: wrong state, state=" + mSimLockedState); CommandException ex = new CommandException( CommandException.Error.PASSWORD_INCORRECT); AsyncResult.forMessage(result, null, ex); result.sendToTarget(); return; } if (puk != null && puk.equals(SIM_PUK_CODE)) { Log.i(LOG_TAG, "[SimCmd] supplyIccPuk: success!"); mSimLockedState = SimLockState.NONE; mPukUnlockAttempts = 0; mIccStatusChangedRegistrants.notifyRegistrants(); if (result != null) { AsyncResult.forMessage(result, null, null); result.sendToTarget(); } return; } if (result != null) { mPukUnlockAttempts ++; Log.i(LOG_TAG, "[SimCmd] supplyIccPuk: failed! attempt=" + mPukUnlockAttempts); if (mPukUnlockAttempts >= 10) { Log.i(LOG_TAG, "[SimCmd] supplyIccPuk: set state to SIM_PERM_LOCKED"); mSimLockedState = SimLockState.SIM_PERM_LOCKED; } CommandException ex = new CommandException( CommandException.Error.PASSWORD_INCORRECT); AsyncResult.forMessage(result, null, ex); result.sendToTarget(); } } public void supplyIccPin2(String pin2, Message result) { if (mSimFdnEnabledState != SimFdnState.REQUIRE_PIN2) { Log.i(LOG_TAG, "[SimCmd] supplyIccPin2: wrong state, state=" + mSimFdnEnabledState); CommandException ex = new CommandException( CommandException.Error.PASSWORD_INCORRECT); AsyncResult.forMessage(result, null, ex); result.sendToTarget(); return; } if (pin2 != null && pin2.equals(mPin2Code)) { Log.i(LOG_TAG, "[SimCmd] supplyIccPin2: success!"); mPin2UnlockAttempts = 0; mSimFdnEnabledState = SimFdnState.NONE; if (result != null) { AsyncResult.forMessage(result, null, null); result.sendToTarget(); } return; } if (result != null) { mPin2UnlockAttempts ++; Log.i(LOG_TAG, "[SimCmd] supplyIccPin2: failed! attempt=" + mPin2UnlockAttempts); if (mPin2UnlockAttempts >= 3) { Log.i(LOG_TAG, "[SimCmd] supplyIccPin2: set state to REQUIRE_PUK2"); mSimFdnEnabledState = SimFdnState.REQUIRE_PUK2; } CommandException ex = new CommandException( CommandException.Error.PASSWORD_INCORRECT); AsyncResult.forMessage(result, null, ex); result.sendToTarget(); } } public void supplyIccPuk2(String puk2, String newPin2, Message result) { if (mSimFdnEnabledState != SimFdnState.REQUIRE_PUK2) { Log.i(LOG_TAG, "[SimCmd] supplyIccPuk2: wrong state, state=" + mSimLockedState); CommandException ex = new CommandException( CommandException.Error.PASSWORD_INCORRECT); AsyncResult.forMessage(result, null, ex); result.sendToTarget(); return; } if (puk2 != null && puk2.equals(SIM_PUK2_CODE)) { Log.i(LOG_TAG, "[SimCmd] supplyIccPuk2: success!"); mSimFdnEnabledState = SimFdnState.NONE; mPuk2UnlockAttempts = 0; if (result != null) { AsyncResult.forMessage(result, null, null); result.sendToTarget(); } return; } if (result != null) { mPuk2UnlockAttempts ++; Log.i(LOG_TAG, "[SimCmd] supplyIccPuk2: failed! attempt=" + mPuk2UnlockAttempts); if (mPuk2UnlockAttempts >= 10) { Log.i(LOG_TAG, "[SimCmd] supplyIccPuk2: set state to SIM_PERM_LOCKED"); mSimFdnEnabledState = SimFdnState.SIM_PERM_LOCKED; } CommandException ex = new CommandException( CommandException.Error.PASSWORD_INCORRECT); AsyncResult.forMessage(result, null, ex); result.sendToTarget(); } } public void changeIccPin(String oldPin, String newPin, Message result) { if (oldPin != null && oldPin.equals(mPinCode)) { mPinCode = newPin; if (result != null) { AsyncResult.forMessage(result, null, null); result.sendToTarget(); } return; } if (result != null) { Log.i(LOG_TAG, "[SimCmd] changeIccPin: pin failed!"); CommandException ex = new CommandException( CommandException.Error.PASSWORD_INCORRECT); AsyncResult.forMessage(result, null, ex); result.sendToTarget(); } } public void changeIccPin2(String oldPin2, String newPin2, Message result) { if (oldPin2 != null && oldPin2.equals(mPin2Code)) { mPin2Code = newPin2; if (result != null) { AsyncResult.forMessage(result, null, null); result.sendToTarget(); } return; } if (result != null) { Log.i(LOG_TAG, "[SimCmd] changeIccPin2: pin2 failed!"); CommandException ex = new CommandException( CommandException.Error.PASSWORD_INCORRECT); AsyncResult.forMessage(result, null, ex); result.sendToTarget(); } } public void changeBarringPassword(String facility, String oldPwd, String newPwd, Message result) { unimplemented(result); } public void setSuppServiceNotifications(boolean enable, Message result) { resultSuccess(result, null); if (enable && mSsnNotifyOn) { Log.w(LOG_TAG, "Supp Service Notifications already enabled!"); } mSsnNotifyOn = enable; } @Override public void queryFacilityLock(String facility, String pin, int serviceClass, Message result) { queryFacilityLockForApp(facility, pin, serviceClass, null, result); } @Override public void queryFacilityLockForApp(String facility, String pin, int serviceClass, String appId, Message result) { if (facility != null && facility.equals(CommandsInterface.CB_FACILITY_BA_SIM)) { if (result != null) { int[] r = new int[1]; r[0] = (mSimLockEnabled ? 1 : 0); Log.i(LOG_TAG, "[SimCmd] queryFacilityLock: SIM is " + (r[0] == 0 ? "unlocked" : "locked")); AsyncResult.forMessage(result, r, null); result.sendToTarget(); } return; } else if (facility != null && facility.equals(CommandsInterface.CB_FACILITY_BA_FD)) { if (result != null) { int[] r = new int[1]; r[0] = (mSimFdnEnabled ? 1 : 0); Log.i(LOG_TAG, "[SimCmd] queryFacilityLock: FDN is " + (r[0] == 0 ? "disabled" : "enabled")); AsyncResult.forMessage(result, r, null); result.sendToTarget(); } return; } unimplemented(result); } @Override public void setFacilityLock(String facility, boolean lockEnabled, String pin, int serviceClass, Message result) { setFacilityLockForApp(facility, lockEnabled, pin, serviceClass, null, result); } @Override public void setFacilityLockForApp(String facility, boolean lockEnabled, String pin, int serviceClass, String appId, Message result) { if (facility != null && facility.equals(CommandsInterface.CB_FACILITY_BA_SIM)) { if (pin != null && pin.equals(mPinCode)) { Log.i(LOG_TAG, "[SimCmd] setFacilityLock: pin is valid"); mSimLockEnabled = lockEnabled; if (result != null) { AsyncResult.forMessage(result, null, null); result.sendToTarget(); } return; } if (result != null) { Log.i(LOG_TAG, "[SimCmd] setFacilityLock: pin failed!"); CommandException ex = new CommandException( CommandException.Error.GENERIC_FAILURE); AsyncResult.forMessage(result, null, ex); result.sendToTarget(); } return; } else if (facility != null && facility.equals(CommandsInterface.CB_FACILITY_BA_FD)) { if (pin != null && pin.equals(mPin2Code)) { Log.i(LOG_TAG, "[SimCmd] setFacilityLock: pin2 is valid"); mSimFdnEnabled = lockEnabled; if (result != null) { AsyncResult.forMessage(result, null, null); result.sendToTarget(); } return; } if (result != null) { Log.i(LOG_TAG, "[SimCmd] setFacilityLock: pin2 failed!"); CommandException ex = new CommandException( CommandException.Error.GENERIC_FAILURE); AsyncResult.forMessage(result, null, ex); result.sendToTarget(); } return; } unimplemented(result); } public void supplyNetworkDepersonalization(String netpin, Message result) { unimplemented(result); } /** * returned message * retMsg.obj = AsyncResult ar * ar.exception carries exception on failure * ar.userObject contains the original value of result.obj * ar.result contains a List of DriverCall * The ar.result List is sorted by DriverCall.index */ public void getCurrentCalls (Message result) { if ((mState == RadioState.RADIO_ON) && !isSimLocked()) { //Log.i("GSM", "[SimCmds] getCurrentCalls"); resultSuccess(result, simulatedCallState.getDriverCalls()); } else { //Log.i("GSM", "[SimCmds] getCurrentCalls: RADIO_OFF or SIM not ready!"); resultFail(result, new CommandException( CommandException.Error.RADIO_NOT_AVAILABLE)); } } /** * @deprecated */ public void getPDPContextList(Message result) { getDataCallList(result); } /** * returned message * retMsg.obj = AsyncResult ar * ar.exception carries exception on failure * ar.userObject contains the original value of result.obj * ar.result contains a List of DataCallState */ public void getDataCallList(Message result) { resultSuccess(result, new ArrayList(0)); } /** * returned message * retMsg.obj = AsyncResult ar * ar.exception carries exception on failure * ar.userObject contains the original value of result.obj * ar.result is null on success and failure * * CLIR_DEFAULT == on "use subscription default value" * CLIR_SUPPRESSION == on "CLIR suppression" (allow CLI presentation) * CLIR_INVOCATION == on "CLIR invocation" (restrict CLI presentation) */ public void dial (String address, int clirMode, Message result) { simulatedCallState.onDial(address); resultSuccess(result, null); } /** * returned message * retMsg.obj = AsyncResult ar * ar.exception carries exception on failure * ar.userObject contains the original value of result.obj * ar.result is null on success and failure * * CLIR_DEFAULT == on "use subscription default value" * CLIR_SUPPRESSION == on "CLIR suppression" (allow CLI presentation) * CLIR_INVOCATION == on "CLIR invocation" (restrict CLI presentation) */ public void dial(String address, int clirMode, UUSInfo uusInfo, Message result) { simulatedCallState.onDial(address); resultSuccess(result, null); } public void getIMSI(Message result) { getIMSIForApp(null, result); } /** * returned message * retMsg.obj = AsyncResult ar * ar.exception carries exception on failure * ar.userObject contains the original value of result.obj * ar.result is String containing IMSI on success */ public void getIMSIForApp(String aid, Message result) { resultSuccess(result, "012345678901234"); } /** * returned message * retMsg.obj = AsyncResult ar * ar.exception carries exception on failure * ar.userObject contains the original value of result.obj * ar.result is String containing IMEI on success */ public void getIMEI(Message result) { resultSuccess(result, "012345678901234"); } /** * returned message * retMsg.obj = AsyncResult ar * ar.exception carries exception on failure * ar.userObject contains the original value of result.obj * ar.result is String containing IMEISV on success */ public void getIMEISV(Message result) { resultSuccess(result, "99"); } /** * Hang up one individual connection. * returned message * retMsg.obj = AsyncResult ar * ar.exception carries exception on failure * ar.userObject contains the original value of result.obj * ar.result is null on success and failure * * 3GPP 22.030 6.5.5 * "Releases a specific active call X" */ public void hangupConnection (int gsmIndex, Message result) { boolean success; success = simulatedCallState.onChld('1', (char)('0'+gsmIndex)); if (!success){ Log.i("GSM", "[SimCmd] hangupConnection: resultFail"); resultFail(result, new RuntimeException("Hangup Error")); } else { Log.i("GSM", "[SimCmd] hangupConnection: resultSuccess"); resultSuccess(result, null); } } /** * 3GPP 22.030 6.5.5 * "Releases all held calls or sets User Determined User Busy (UDUB) * for a waiting call." * ar.exception carries exception on failure * ar.userObject contains the original value of result.obj * ar.result is null on success and failure */ public void hangupWaitingOrBackground (Message result) { boolean success; success = simulatedCallState.onChld('0', '\0'); if (!success){ resultFail(result, new RuntimeException("Hangup Error")); } else { resultSuccess(result, null); } } /** * 3GPP 22.030 6.5.5 * "Releases all active calls (if any exist) and accepts * the other (held or waiting) call." * * ar.exception carries exception on failure * ar.userObject contains the original value of result.obj * ar.result is null on success and failure */ public void hangupForegroundResumeBackground (Message result) { boolean success; success = simulatedCallState.onChld('1', '\0'); if (!success){ resultFail(result, new RuntimeException("Hangup Error")); } else { resultSuccess(result, null); } } /** * 3GPP 22.030 6.5.5 * "Places all active calls (if any exist) on hold and accepts * the other (held or waiting) call." * * ar.exception carries exception on failure * ar.userObject contains the original value of result.obj * ar.result is null on success and failure */ public void switchWaitingOrHoldingAndActive (Message result) { boolean success; success = simulatedCallState.onChld('2', '\0'); if (!success){ resultFail(result, new RuntimeException("Hangup Error")); } else { resultSuccess(result, null); } } /** * 3GPP 22.030 6.5.5 * "Adds a held call to the conversation" * * ar.exception carries exception on failure * ar.userObject contains the original value of result.obj * ar.result is null on success and failure */ public void conference (Message result) { boolean success; success = simulatedCallState.onChld('3', '\0'); if (!success){ resultFail(result, new RuntimeException("Hangup Error")); } else { resultSuccess(result, null); } } /** * 3GPP 22.030 6.5.5 * "Connects the two calls and disconnects the subscriber from both calls" * * ar.exception carries exception on failure * ar.userObject contains the original value of result.obj * ar.result is null on success and failure */ public void explicitCallTransfer (Message result) { boolean success; success = simulatedCallState.onChld('4', '\0'); if (!success){ resultFail(result, new RuntimeException("Hangup Error")); } else { resultSuccess(result, null); } } /** * 3GPP 22.030 6.5.5 * "Places all active calls on hold except call X with which * communication shall be supported." */ public void separateConnection (int gsmIndex, Message result) { boolean success; char ch = (char)(gsmIndex + '0'); success = simulatedCallState.onChld('2', ch); if (!success){ resultFail(result, new RuntimeException("Hangup Error")); } else { resultSuccess(result, null); } } /** * * ar.exception carries exception on failure * ar.userObject contains the original value of result.obj * ar.result is null on success and failure */ public void acceptCall (Message result) { boolean success; success = simulatedCallState.onAnswer(); if (!success){ resultFail(result, new RuntimeException("Hangup Error")); } else { resultSuccess(result, null); } } /** * also known as UDUB * ar.exception carries exception on failure * ar.userObject contains the original value of result.obj * ar.result is null on success and failure */ public void rejectCall (Message result) { boolean success; success = simulatedCallState.onChld('0', '\0'); if (!success){ resultFail(result, new RuntimeException("Hangup Error")); } else { resultSuccess(result, null); } } /** * cause code returned as Integer in Message.obj.response * Returns integer cause code defined in TS 24.008 * Annex H or closest approximation. * Most significant codes: * - Any defined in 22.001 F.4 (for generating busy/congestion) * - Cause 68: ACM >= ACMMax */ public void getLastCallFailCause (Message result) { int[] ret = new int[1]; ret[0] = nextCallFailCause; resultSuccess(result, ret); } /** * @deprecated */ public void getLastPdpFailCause (Message result) { unimplemented(result); } public void getLastDataCallFailCause(Message result) { // unimplemented(result); } public void setMute (boolean enableMute, Message result) {unimplemented(result);} public void getMute (Message result) {unimplemented(result);} /** * response.obj is an AsyncResult * response.obj.result is an int[2] * response.obj.result[0] is received signal strength (0-31, 99) * response.obj.result[1] is bit error rate (0-7, 99) * as defined in TS 27.007 8.5 */ public void getSignalStrength (Message result) { int ret[] = new int[2]; ret[0] = 23; ret[1] = 0; resultSuccess(result, ret); } /** * Assign a specified band for RF configuration. * * @param bandMode one of BM_*_BAND * @param result is callback message */ public void setBandMode (int bandMode, Message result) { resultSuccess(result, null); } /** * Query the list of band mode supported by RF. * * @param result is callback message * ((AsyncResult)response.obj).result is an int[] with every * element representing one available BM_*_BAND */ public void queryAvailableBandMode (Message result) { int ret[] = new int [4]; ret[0] = 4; ret[1] = Phone.BM_US_BAND; ret[2] = Phone.BM_JPN_BAND; ret[3] = Phone.BM_AUS_BAND; resultSuccess(result, ret); } /** * {@inheritDoc} */ public void sendTerminalResponse(String contents, Message response) { resultSuccess(response, null); } /** * {@inheritDoc} */ public void sendEnvelope(String contents, Message response) { resultSuccess(response, null); } /** * {@inheritDoc} */ public void sendEnvelopeWithStatus(String contents, Message response) { resultSuccess(response, null); } /** * {@inheritDoc} */ public void handleCallSetupRequestFromSim( boolean accept, Message response) { resultSuccess(response, null); } /** * response.obj.result is an String[14] * See ril.h for details * * Please note that registration state 4 ("unknown") is treated * as "out of service" above */ public void getVoiceRegistrationState (Message result) { String ret[] = new String[14]; ret[0] = "5"; // registered roam ret[1] = null; ret[2] = null; ret[3] = null; ret[4] = null; ret[5] = null; ret[6] = null; ret[7] = null; ret[8] = null; ret[9] = null; ret[10] = null; ret[11] = null; ret[12] = null; ret[13] = null; resultSuccess(result, ret); } /** * response.obj.result is an String[4] * response.obj.result[0] is registration state 0-5 from TS 27.007 7.2 * response.obj.result[1] is LAC if registered or NULL if not * response.obj.result[2] is CID if registered or NULL if not * response.obj.result[3] indicates the available radio technology, where: * 0 == unknown * 1 == GPRS only * 2 == EDGE * 3 == UMTS * * valid LAC are 0x0000 - 0xffff * valid CID are 0x00000000 - 0xffffffff * * Please note that registration state 4 ("unknown") is treated * as "out of service" in the Android telephony system */ public void getDataRegistrationState (Message result) { String ret[] = new String[4]; ret[0] = "5"; // registered roam ret[1] = null; ret[2] = null; ret[3] = "2"; resultSuccess(result, ret); } /** * response.obj.result is a String[3] * response.obj.result[0] is long alpha or null if unregistered * response.obj.result[1] is short alpha or null if unregistered * response.obj.result[2] is numeric or null if unregistered */ public void getOperator(Message result) { String[] ret = new String[3]; ret[0] = "El Telco Loco"; ret[1] = "Telco Loco"; ret[2] = "001001"; resultSuccess(result, ret); } /** * ar.exception carries exception on failure * ar.userObject contains the original value of result.obj * ar.result is null on success and failure */ public void sendDtmf(char c, Message result) { resultSuccess(result, null); } /** * ar.exception carries exception on failure * ar.userObject contains the original value of result.obj * ar.result is null on success and failure */ public void startDtmf(char c, Message result) { resultSuccess(result, null); } /** * ar.exception carries exception on failure * ar.userObject contains the original value of result.obj * ar.result is null on success and failure */ public void stopDtmf(Message result) { resultSuccess(result, null); } /** * ar.exception carries exception on failure * ar.userObject contains the original value of result.obj * ar.result is null on success and failure */ public void sendBurstDtmf(String dtmfString, int on, int off, Message result) { resultSuccess(result, null); } /** * smscPDU is smsc address in PDU form GSM BCD format prefixed * by a length byte (as expected by TS 27.005) or NULL for default SMSC * pdu is SMS in PDU format as an ASCII hex string * less the SMSC address */ public void sendSMS (String smscPDU, String pdu, Message result) {unimplemented(result);} public void deleteSmsOnSim(int index, Message response) { Log.d(LOG_TAG, "Delete message at index " + index); unimplemented(response); } public void deleteSmsOnRuim(int index, Message response) { Log.d(LOG_TAG, "Delete RUIM message at index " + index); unimplemented(response); } public void writeSmsToSim(int status, String smsc, String pdu, Message response) { Log.d(LOG_TAG, "Write SMS to SIM with status " + status); unimplemented(response); } public void writeSmsToRuim(int status, String pdu, Message response) { Log.d(LOG_TAG, "Write SMS to RUIM with status " + status); unimplemented(response); } public void setupDataCall(String radioTechnology, String profile, String apn, String user, String password, String authType, String protocol, Message result) { unimplemented(result); } public void deactivateDataCall(int cid, int reason, Message result) {unimplemented(result);} public void setPreferredNetworkType(int networkType , Message result) { mNetworkType = networkType; resultSuccess(result, null); } public void getPreferredNetworkType(Message result) { int ret[] = new int[1]; ret[0] = mNetworkType; resultSuccess(result, ret); } public void getNeighboringCids(Message result) { int ret[] = new int[7]; ret[0] = 6; for (int i = 1; i<7; i++) { ret[i] = i; } resultSuccess(result, ret); } public void setLocationUpdates(boolean enable, Message response) { unimplemented(response); } public void getSmscAddress(Message result) { unimplemented(result); } public void setSmscAddress(String address, Message result) { unimplemented(result); } public void reportSmsMemoryStatus(boolean available, Message result) { unimplemented(result); } public void reportStkServiceIsRunning(Message result) { resultSuccess(result, null); } @Override public void getCdmaSubscriptionSource(Message result) { unimplemented(result); } private boolean isSimLocked() { if (mSimLockedState != SimLockState.NONE) { return true; } return false; } public void setRadioPower(boolean on, Message result) { if(on) { setRadioState(RadioState.RADIO_ON); } else { setRadioState(RadioState.RADIO_OFF); } } public void acknowledgeLastIncomingGsmSms(boolean success, int cause, Message result) { unimplemented(result); } public void acknowledgeLastIncomingCdmaSms(boolean success, int cause, Message result) { unimplemented(result); } public void acknowledgeIncomingGsmSmsWithPdu(boolean success, String ackPdu, Message result) { unimplemented(result); } public void iccIO(int command, int fileid, String path, int p1, int p2, int p3, String data, String pin2, Message response) { iccIOForApp(command, fileid, path, p1, p2, p3, data,pin2, null, response); } /** * parameters equivalent to 27.007 AT+CRSM command * response.obj will be an AsyncResult * response.obj.userObj will be a SimIoResult on success */ public void iccIOForApp (int command, int fileid, String path, int p1, int p2, int p3, String data, String pin2, String aid, Message result) { unimplemented(result); } /** * (AsyncResult)response.obj).result is an int[] with element [0] set to * 1 for "CLIP is provisioned", and 0 for "CLIP is not provisioned". * * @param response is callback message */ public void queryCLIP(Message response) { unimplemented(response); } /** * response.obj will be a an int[2] * * response.obj[0] will be TS 27.007 +CLIR parameter 'n' * 0 presentation indicator is used according to the subscription of the CLIR service * 1 CLIR invocation * 2 CLIR suppression * * response.obj[1] will be TS 27.007 +CLIR parameter 'm' * 0 CLIR not provisioned * 1 CLIR provisioned in permanent mode * 2 unknown (e.g. no network, etc.) * 3 CLIR temporary mode presentation restricted * 4 CLIR temporary mode presentation allowed */ public void getCLIR(Message result) {unimplemented(result);} /** * clirMode is one of the CLIR_* constants above * * response.obj is null */ public void setCLIR(int clirMode, Message result) {unimplemented(result);} /** * (AsyncResult)response.obj).result is an int[] with element [0] set to * 0 for disabled, 1 for enabled. * * @param serviceClass is a sum of SERVICE_CLASS_* * @param response is callback message */ public void queryCallWaiting(int serviceClass, Message response) { unimplemented(response); } /** * @param enable is true to enable, false to disable * @param serviceClass is a sum of SERVICE_CLASS_* * @param response is callback message */ public void setCallWaiting(boolean enable, int serviceClass, Message response) { unimplemented(response); } /** * @param action is one of CF_ACTION_* * @param cfReason is one of CF_REASON_* * @param serviceClass is a sum of SERVICE_CLASSS_* */ public void setCallForward(int action, int cfReason, int serviceClass, String number, int timeSeconds, Message result) {unimplemented(result);} /** * cfReason is one of CF_REASON_* * * ((AsyncResult)response.obj).result will be an array of * CallForwardInfo's * * An array of length 0 means "disabled for all codes" */ public void queryCallForwardStatus(int cfReason, int serviceClass, String number, Message result) {unimplemented(result);} public void setNetworkSelectionModeAutomatic(Message result) {unimplemented(result);} public void exitEmergencyCallbackMode(Message result) {unimplemented(result);} public void setNetworkSelectionModeManual( String operatorNumeric, Message result) {unimplemented(result);} /** * Queries whether the current network selection mode is automatic * or manual * * ((AsyncResult)response.obj).result is an int[] with element [0] being * a 0 for automatic selection and a 1 for manual selection */ public void getNetworkSelectionMode(Message result) { int ret[] = new int[1]; ret[0] = 0; resultSuccess(result, ret); } /** * Queries the currently available networks * * ((AsyncResult)response.obj).result is a List of NetworkInfo objects */ public void getAvailableNetworks(Message result) {unimplemented(result);} public void getBasebandVersion (Message result) { resultSuccess(result, "SimulatedCommands"); } /** * Simulates an incoming USSD message * @param statusCode Status code string. See setOnUSSD * in CommandsInterface.java * @param message Message text to send or null if none */ public void triggerIncomingUssd(String statusCode, String message) { if (mUSSDRegistrant != null) { String[] result = {statusCode, message}; mUSSDRegistrant.notifyResult(result); } } public void sendUSSD (String ussdString, Message result) { // We simulate this particular sequence if (ussdString.equals("#646#")) { resultSuccess(result, null); // 0 == USSD-Notify triggerIncomingUssd("0", "You have NNN minutes remaining."); } else { resultSuccess(result, null); triggerIncomingUssd("0", "All Done"); } } // inherited javadoc suffices public void cancelPendingUssd (Message response) { resultSuccess(response, null); } public void resetRadio(Message result) { unimplemented(result); } public void invokeOemRilRequestRaw(byte[] data, Message response) { // Just echo back data if (response != null) { AsyncResult.forMessage(response).result = data; response.sendToTarget(); } } public void invokeOemRilRequestStrings(String[] strings, Message response) { // Just echo back data if (response != null) { AsyncResult.forMessage(response).result = strings; response.sendToTarget(); } } //***** SimulatedRadioControl /** Start the simulated phone ringing */ public void triggerRing(String number) { simulatedCallState.triggerRing(number); mCallStateRegistrants.notifyRegistrants(); } public void progressConnectingCallState() { simulatedCallState.progressConnectingCallState(); mCallStateRegistrants.notifyRegistrants(); } /** If a call is DIALING or ALERTING, progress it all the way to ACTIVE */ public void progressConnectingToActive() { simulatedCallState.progressConnectingToActive(); mCallStateRegistrants.notifyRegistrants(); } /** automatically progress mobile originated calls to ACTIVE. * default to true */ public void setAutoProgressConnectingCall(boolean b) { simulatedCallState.setAutoProgressConnectingCall(b); } public void setNextDialFailImmediately(boolean b) { simulatedCallState.setNextDialFailImmediately(b); } public void setNextCallFailCause(int gsmCause) { nextCallFailCause = gsmCause; } public void triggerHangupForeground() { simulatedCallState.triggerHangupForeground(); mCallStateRegistrants.notifyRegistrants(); } /** hangup holding calls */ public void triggerHangupBackground() { simulatedCallState.triggerHangupBackground(); mCallStateRegistrants.notifyRegistrants(); } public void triggerSsn(int type, int code) { SuppServiceNotification not = new SuppServiceNotification(); not.notificationType = type; not.code = code; mSsnRegistrant.notifyRegistrant(new AsyncResult(null, not, null)); } public void shutdown() { setRadioState(RadioState.RADIO_UNAVAILABLE); Looper looper = mHandlerThread.getLooper(); if (looper != null) { looper.quit(); } } /** hangup all */ public void triggerHangupAll() { simulatedCallState.triggerHangupAll(); mCallStateRegistrants.notifyRegistrants(); } public void triggerIncomingSMS(String message) { //TODO } public void pauseResponses() { pausedResponseCount++; } public void resumeResponses() { pausedResponseCount--; if (pausedResponseCount == 0) { for (int i = 0, s = pausedResponses.size(); i < s ; i++) { pausedResponses.get(i).sendToTarget(); } pausedResponses.clear(); } else { Log.e("GSM", "SimulatedCommands.resumeResponses < 0"); } } //***** Private Methods private void unimplemented(Message result) { if (result != null) { AsyncResult.forMessage(result).exception = new RuntimeException("Unimplemented"); if (pausedResponseCount > 0) { pausedResponses.add(result); } else { result.sendToTarget(); } } } private void resultSuccess(Message result, Object ret) { if (result != null) { AsyncResult.forMessage(result).result = ret; if (pausedResponseCount > 0) { pausedResponses.add(result); } else { result.sendToTarget(); } } } private void resultFail(Message result, Throwable tr) { if (result != null) { AsyncResult.forMessage(result).exception = tr; if (pausedResponseCount > 0) { pausedResponses.add(result); } else { result.sendToTarget(); } } } // ***** Methods for CDMA support public void getDeviceIdentity(Message response) { Log.w(LOG_TAG, "CDMA not implemented in SimulatedCommands"); unimplemented(response); } public void getCDMASubscription(Message response) { Log.w(LOG_TAG, "CDMA not implemented in SimulatedCommands"); unimplemented(response); } public void setCdmaSubscriptionSource(int cdmaSubscriptionType, Message response) { Log.w(LOG_TAG, "CDMA not implemented in SimulatedCommands"); unimplemented(response); } public void queryCdmaRoamingPreference(Message response) { Log.w(LOG_TAG, "CDMA not implemented in SimulatedCommands"); unimplemented(response); } public void setCdmaRoamingPreference(int cdmaRoamingType, Message response) { Log.w(LOG_TAG, "CDMA not implemented in SimulatedCommands"); unimplemented(response); } public void setPhoneType(int phoneType) { Log.w(LOG_TAG, "CDMA not implemented in SimulatedCommands"); } public void getPreferredVoicePrivacy(Message result) { Log.w(LOG_TAG, "CDMA not implemented in SimulatedCommands"); unimplemented(result); } public void setPreferredVoicePrivacy(boolean enable, Message result) { Log.w(LOG_TAG, "CDMA not implemented in SimulatedCommands"); unimplemented(result); } /** * Set the TTY mode * * @param ttyMode is one of the following: * - {@link com.android.internal.telephony.Phone#TTY_MODE_OFF} * - {@link com.android.internal.telephony.Phone#TTY_MODE_FULL} * - {@link com.android.internal.telephony.Phone#TTY_MODE_HCO} * - {@link com.android.internal.telephony.Phone#TTY_MODE_VCO} * @param response is callback message */ public void setTTYMode(int ttyMode, Message response) { Log.w(LOG_TAG, "Not implemented in SimulatedCommands"); unimplemented(response); } /** * Query the TTY mode * (AsyncResult)response.obj).result is an int[] with element [0] set to * tty mode: * - {@link com.android.internal.telephony.Phone#TTY_MODE_OFF} * - {@link com.android.internal.telephony.Phone#TTY_MODE_FULL} * - {@link com.android.internal.telephony.Phone#TTY_MODE_HCO} * - {@link com.android.internal.telephony.Phone#TTY_MODE_VCO} * @param response is callback message */ public void queryTTYMode(Message response) { Log.w(LOG_TAG, "CDMA not implemented in SimulatedCommands"); unimplemented(response); } /** * {@inheritDoc} */ public void sendCDMAFeatureCode(String FeatureCode, Message response) { Log.w(LOG_TAG, "CDMA not implemented in SimulatedCommands"); unimplemented(response); } /** * {@inheritDoc} */ public void sendCdmaSms(byte[] pdu, Message response){ Log.w(LOG_TAG, "CDMA not implemented in SimulatedCommands"); } public void setCdmaBroadcastActivation(boolean activate, Message response) { unimplemented(response); } public void getCdmaBroadcastConfig(Message response) { unimplemented(response); } public void setCdmaBroadcastConfig(int[] configValuesArray, Message response) { unimplemented(response); } public void forceDataDormancy(Message response) { unimplemented(response); } public void setGsmBroadcastActivation(boolean activate, Message response) { unimplemented(response); } public void setGsmBroadcastConfig(SmsBroadcastConfigInfo[] config, Message response) { unimplemented(response); } public void getGsmBroadcastConfig(Message response) { unimplemented(response); } @Override public void supplyIccPinForApp(String pin, String aid, Message response) { unimplemented(response); } @Override public void supplyIccPukForApp(String puk, String newPin, String aid, Message response) { unimplemented(response); } @Override public void supplyIccPin2ForApp(String pin2, String aid, Message response) { unimplemented(response); } @Override public void supplyIccPuk2ForApp(String puk2, String newPin2, String aid, Message response) { unimplemented(response); } @Override public void changeIccPinForApp(String oldPin, String newPin, String aidPtr, Message response) { unimplemented(response); } @Override public void changeIccPin2ForApp(String oldPin2, String newPin2, String aidPtr, Message response) { unimplemented(response); } public void requestIsimAuthentication(String nonce, Message response) { unimplemented(response); } public void getVoiceRadioTechnology(Message response) { unimplemented(response); } }