/* * Copyright (C) 2008 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 android.telephony; import android.os.Binder; import android.os.Parcel; import android.content.res.Resources; import android.text.TextUtils; import com.android.internal.telephony.GsmAlphabet; import com.android.internal.telephony.GsmAlphabet.TextEncodingDetails; import com.android.internal.telephony.SmsConstants; import com.android.internal.telephony.SmsMessageBase; import com.android.internal.telephony.SmsMessageBase.SubmitPduBase; import com.android.internal.telephony.Sms7BitEncodingTranslator; import java.lang.Math; import java.util.ArrayList; import java.util.Arrays; import static android.telephony.TelephonyManager.PHONE_TYPE_CDMA; /** * A Short Message Service message. * @see android.provider.Telephony.Sms.Intents#getMessagesFromIntent */ public class SmsMessage { private static final String LOG_TAG = "SmsMessage"; /** * SMS Class enumeration. * See TS 23.038. * */ public enum MessageClass{ UNKNOWN, CLASS_0, CLASS_1, CLASS_2, CLASS_3; } /** User data text encoding code unit size */ public static final int ENCODING_UNKNOWN = 0; public static final int ENCODING_7BIT = 1; public static final int ENCODING_8BIT = 2; public static final int ENCODING_16BIT = 3; /** * @hide This value is not defined in global standard. Only in Korea, this is used. */ public static final int ENCODING_KSC5601 = 4; /** The maximum number of payload bytes per message */ public static final int MAX_USER_DATA_BYTES = 140; /** * The maximum number of payload bytes per message if a user data header * is present. This assumes the header only contains the * CONCATENATED_8_BIT_REFERENCE element. */ public static final int MAX_USER_DATA_BYTES_WITH_HEADER = 134; /** The maximum number of payload septets per message */ public static final int MAX_USER_DATA_SEPTETS = 160; /** * The maximum number of payload septets per message if a user data header * is present. This assumes the header only contains the * CONCATENATED_8_BIT_REFERENCE element. */ public static final int MAX_USER_DATA_SEPTETS_WITH_HEADER = 153; /** * Indicates a 3GPP format SMS message. * @hide pending API council approval */ public static final String FORMAT_3GPP = "3gpp"; /** * Indicates a 3GPP2 format SMS message. * @hide pending API council approval */ public static final String FORMAT_3GPP2 = "3gpp2"; /** Contains actual SmsMessage. Only public for debugging and for framework layer. * * @hide */ public SmsMessageBase mWrappedSmsMessage; /** Indicates the subId * * @hide */ private int mSubId = 0; /** set Subscription information * * @hide */ public void setSubId(int subId) { mSubId = subId; } /** get Subscription information * * @hide */ public int getSubId() { return mSubId; } public static class SubmitPdu { public byte[] encodedScAddress; // Null if not applicable. public byte[] encodedMessage; @Override public String toString() { return "SubmitPdu: encodedScAddress = " + Arrays.toString(encodedScAddress) + ", encodedMessage = " + Arrays.toString(encodedMessage); } /** * @hide */ protected SubmitPdu(SubmitPduBase spb) { this.encodedMessage = spb.encodedMessage; this.encodedScAddress = spb.encodedScAddress; } } private SmsMessage(SmsMessageBase smb) { mWrappedSmsMessage = smb; } /** * Create an SmsMessage from a raw PDU. Guess format based on Voice * technology first, if it fails use other format. * All applications which handle * incoming SMS messages by processing the {@code SMS_RECEIVED_ACTION} broadcast * intent <b>must</b> now pass the new {@code format} String extra from the intent * into the new method {@code createFromPdu(byte[], String)} which takes an * extra format parameter. This is required in order to correctly decode the PDU on * devices that require support for both 3GPP and 3GPP2 formats at the same time, * such as dual-mode GSM/CDMA and CDMA/LTE phones. * @deprecated Use {@link #createFromPdu(byte[], String)} instead. */ @Deprecated public static SmsMessage createFromPdu(byte[] pdu) { SmsMessage message = null; // cdma(3gpp2) vs gsm(3gpp) format info was not given, // guess from active voice phone type int activePhone = TelephonyManager.getDefault().getCurrentPhoneType(); String format = (PHONE_TYPE_CDMA == activePhone) ? SmsConstants.FORMAT_3GPP2 : SmsConstants.FORMAT_3GPP; message = createFromPdu(pdu, format); if (null == message || null == message.mWrappedSmsMessage) { // decoding pdu failed based on activePhone type, must be other format format = (PHONE_TYPE_CDMA == activePhone) ? SmsConstants.FORMAT_3GPP : SmsConstants.FORMAT_3GPP2; message = createFromPdu(pdu, format); } return message; } /** * Create an SmsMessage from a raw PDU with the specified message format. The * message format is passed in the * {@link android.provider.Telephony.Sms.Intents#SMS_RECEIVED_ACTION} as the {@code format} * String extra, and will be either "3gpp" for GSM/UMTS/LTE messages in 3GPP format * or "3gpp2" for CDMA/LTE messages in 3GPP2 format. * * @param pdu the message PDU from the * {@link android.provider.Telephony.Sms.Intents#SMS_RECEIVED_ACTION} intent * @param format the format extra from the * {@link android.provider.Telephony.Sms.Intents#SMS_RECEIVED_ACTION} intent */ public static SmsMessage createFromPdu(byte[] pdu, String format) { SmsMessageBase wrappedMessage; if (SmsConstants.FORMAT_3GPP2.equals(format)) { wrappedMessage = com.android.internal.telephony.cdma.SmsMessage.createFromPdu(pdu); } else if (SmsConstants.FORMAT_3GPP.equals(format)) { wrappedMessage = com.android.internal.telephony.gsm.SmsMessage.createFromPdu(pdu); } else { Rlog.e(LOG_TAG, "createFromPdu(): unsupported message format " + format); return null; } return new SmsMessage(wrappedMessage); } /** * TS 27.005 3.4.1 lines[0] and lines[1] are the two lines read from the * +CMT unsolicited response (PDU mode, of course) * +CMT: [<alpha>],<length><CR><LF><pdu> * * Only public for debugging and for RIL * * {@hide} */ public static SmsMessage newFromCMT(String[] lines) { // received SMS in 3GPP format SmsMessageBase wrappedMessage = com.android.internal.telephony.gsm.SmsMessage.newFromCMT(lines); return new SmsMessage(wrappedMessage); } /** @hide */ public static SmsMessage newFromParcel(Parcel p) { // received SMS in 3GPP2 format SmsMessageBase wrappedMessage = com.android.internal.telephony.cdma.SmsMessage.newFromParcel(p); return new SmsMessage(wrappedMessage); } /** * Create an SmsMessage from an SMS EF record. * * @param index Index of SMS record. This should be index in ArrayList * returned by SmsManager.getAllMessagesFromSim + 1. * @param data Record data. * @return An SmsMessage representing the record. * * @hide */ public static SmsMessage createFromEfRecord(int index, byte[] data) { SmsMessageBase wrappedMessage; if (isCdmaVoice()) { wrappedMessage = com.android.internal.telephony.cdma.SmsMessage.createFromEfRecord( index, data); } else { wrappedMessage = com.android.internal.telephony.gsm.SmsMessage.createFromEfRecord( index, data); } return wrappedMessage != null ? new SmsMessage(wrappedMessage) : null; } /** * Get the TP-Layer-Length for the given SMS-SUBMIT PDU Basically, the * length in bytes (not hex chars) less the SMSC header * * FIXME: This method is only used by a CTS test case that isn't run on CDMA devices. * We should probably deprecate it and remove the obsolete test case. */ public static int getTPLayerLengthForPDU(String pdu) { if (isCdmaVoice()) { return com.android.internal.telephony.cdma.SmsMessage.getTPLayerLengthForPDU(pdu); } else { return com.android.internal.telephony.gsm.SmsMessage.getTPLayerLengthForPDU(pdu); } } /* * TODO(cleanup): It would make some sense if the result of * preprocessing a message to determine the proper encoding (i.e. * the resulting data structure from calculateLength) could be * passed as an argument to the actual final encoding function. * This would better ensure that the logic behind size calculation * actually matched the encoding. */ /** * Calculates the number of SMS's required to encode the message body and * the number of characters remaining until the next message. * * @param msgBody the message to encode * @param use7bitOnly if true, characters that are not part of the * radio-specific 7-bit encoding are counted as single * space chars. If false, and if the messageBody contains * non-7-bit encodable characters, length is calculated * using a 16-bit encoding. * @return an int[4] with int[0] being the number of SMS's * required, int[1] the number of code units used, and * int[2] is the number of code units remaining until the * next message. int[3] is an indicator of the encoding * code unit size (see the ENCODING_* definitions in SmsConstants) */ public static int[] calculateLength(CharSequence msgBody, boolean use7bitOnly) { // this function is for MO SMS TextEncodingDetails ted = (useCdmaFormatForMoSms()) ? com.android.internal.telephony.cdma.SmsMessage.calculateLength(msgBody, use7bitOnly, true) : com.android.internal.telephony.gsm.SmsMessage.calculateLength(msgBody, use7bitOnly); int ret[] = new int[4]; ret[0] = ted.msgCount; ret[1] = ted.codeUnitCount; ret[2] = ted.codeUnitsRemaining; ret[3] = ted.codeUnitSize; return ret; } /** * Divide a message text into several fragments, none bigger than * the maximum SMS message text size. * * @param text text, must not be null. * @return an <code>ArrayList</code> of strings that, in order, * comprise the original msg text * * @hide */ public static ArrayList<String> fragmentText(String text) { // This function is for MO SMS TextEncodingDetails ted = (useCdmaFormatForMoSms()) ? com.android.internal.telephony.cdma.SmsMessage.calculateLength(text, false, true) : com.android.internal.telephony.gsm.SmsMessage.calculateLength(text, false); // TODO(cleanup): The code here could be rolled into the logic // below cleanly if these MAX_* constants were defined more // flexibly... int limit; if (ted.codeUnitSize == SmsConstants.ENCODING_7BIT) { int udhLength; if (ted.languageTable != 0 && ted.languageShiftTable != 0) { udhLength = GsmAlphabet.UDH_SEPTET_COST_TWO_SHIFT_TABLES; } else if (ted.languageTable != 0 || ted.languageShiftTable != 0) { udhLength = GsmAlphabet.UDH_SEPTET_COST_ONE_SHIFT_TABLE; } else { udhLength = 0; } if (ted.msgCount > 1) { udhLength += GsmAlphabet.UDH_SEPTET_COST_CONCATENATED_MESSAGE; } if (udhLength != 0) { udhLength += GsmAlphabet.UDH_SEPTET_COST_LENGTH; } limit = SmsConstants.MAX_USER_DATA_SEPTETS - udhLength; } else { if (ted.msgCount > 1) { limit = SmsConstants.MAX_USER_DATA_BYTES_WITH_HEADER; // If EMS is not supported, break down EMS into single segment SMS // and add page info " x/y". // In the case of UCS2 encoding, we need 8 bytes for this, // but we only have 6 bytes from UDH, so truncate the limit for // each segment by 2 bytes (1 char). // Make sure total number of segments is less than 10. if (!hasEmsSupport() && ted.msgCount < 10) { limit -= 2; } } else { limit = SmsConstants.MAX_USER_DATA_BYTES; } } String newMsgBody = null; Resources r = Resources.getSystem(); if (r.getBoolean(com.android.internal.R.bool.config_sms_force_7bit_encoding)) { newMsgBody = Sms7BitEncodingTranslator.translate(text); } if (TextUtils.isEmpty(newMsgBody)) { newMsgBody = text; } int pos = 0; // Index in code units. int textLen = newMsgBody.length(); ArrayList<String> result = new ArrayList<String>(ted.msgCount); while (pos < textLen) { int nextPos = 0; // Counts code units. if (ted.codeUnitSize == SmsConstants.ENCODING_7BIT) { if (useCdmaFormatForMoSms() && ted.msgCount == 1) { // For a singleton CDMA message, the encoding must be ASCII... nextPos = pos + Math.min(limit, textLen - pos); } else { // For multi-segment messages, CDMA 7bit equals GSM 7bit encoding (EMS mode). nextPos = GsmAlphabet.findGsmSeptetLimitIndex(newMsgBody, pos, limit, ted.languageTable, ted.languageShiftTable); } } else { // Assume unicode. nextPos = SmsMessageBase.findNextUnicodePosition(pos, limit, newMsgBody); } if ((nextPos <= pos) || (nextPos > textLen)) { Rlog.e(LOG_TAG, "fragmentText failed (" + pos + " >= " + nextPos + " or " + nextPos + " >= " + textLen + ")"); break; } result.add(newMsgBody.substring(pos, nextPos)); pos = nextPos; } return result; } /** * Calculates the number of SMS's required to encode the message body and * the number of characters remaining until the next message, given the * current encoding. * * @param messageBody the message to encode * @param use7bitOnly if true, characters that are not part of the radio * specific (GSM / CDMA) alphabet encoding are converted to as a * single space characters. If false, a messageBody containing * non-GSM or non-CDMA alphabet characters are encoded using * 16-bit encoding. * @return an int[4] with int[0] being the number of SMS's required, int[1] * the number of code units used, and int[2] is the number of code * units remaining until the next message. int[3] is the encoding * type that should be used for the message. */ public static int[] calculateLength(String messageBody, boolean use7bitOnly) { return calculateLength((CharSequence)messageBody, use7bitOnly); } /* * TODO(cleanup): It looks like there is now no useful reason why * apps should generate pdus themselves using these routines, * instead of handing the raw data to SMSDispatcher (and thereby * have the phone process do the encoding). Moreover, CDMA now * has shared state (in the form of the msgId system property) * which can only be modified by the phone process, and hence * makes the output of these routines incorrect. Since they now * serve no purpose, they should probably just return null * directly, and be deprecated. Going further in that direction, * the above parsers of serialized pdu data should probably also * be gotten rid of, hiding all but the necessarily visible * structured data from client apps. A possible concern with * doing this is that apps may be using these routines to generate * pdus that are then sent elsewhere, some network server, for * example, and that always returning null would thereby break * otherwise useful apps. */ /** * Get an SMS-SUBMIT PDU for a destination address and a message. * This method will not attempt to use any GSM national language 7 bit encodings. * * @param scAddress Service Centre address. Null means use default. * @return a <code>SubmitPdu</code> containing the encoded SC * address, if applicable, and the encoded message. * Returns null on encode error. */ public static SubmitPdu getSubmitPdu(String scAddress, String destinationAddress, String message, boolean statusReportRequested) { SubmitPduBase spb; if (useCdmaFormatForMoSms()) { spb = com.android.internal.telephony.cdma.SmsMessage.getSubmitPdu(scAddress, destinationAddress, message, statusReportRequested, null); } else { spb = com.android.internal.telephony.gsm.SmsMessage.getSubmitPdu(scAddress, destinationAddress, message, statusReportRequested); } return new SubmitPdu(spb); } /** * Get an SMS-SUBMIT PDU for a data message to a destination address & port. * This method will not attempt to use any GSM national language 7 bit encodings. * * @param scAddress Service Centre address. null == use default * @param destinationAddress the address of the destination for the message * @param destinationPort the port to deliver the message to at the * destination * @param data the data for the message * @return a <code>SubmitPdu</code> containing the encoded SC * address, if applicable, and the encoded message. * Returns null on encode error. */ public static SubmitPdu getSubmitPdu(String scAddress, String destinationAddress, short destinationPort, byte[] data, boolean statusReportRequested) { SubmitPduBase spb; if (useCdmaFormatForMoSms()) { spb = com.android.internal.telephony.cdma.SmsMessage.getSubmitPdu(scAddress, destinationAddress, destinationPort, data, statusReportRequested); } else { spb = com.android.internal.telephony.gsm.SmsMessage.getSubmitPdu(scAddress, destinationAddress, destinationPort, data, statusReportRequested); } return new SubmitPdu(spb); } /** * Returns the address of the SMS service center that relayed this message * or null if there is none. */ public String getServiceCenterAddress() { return mWrappedSmsMessage.getServiceCenterAddress(); } /** * Returns the originating address (sender) of this SMS message in String * form or null if unavailable */ public String getOriginatingAddress() { return mWrappedSmsMessage.getOriginatingAddress(); } /** * Returns the originating address, or email from address if this message * was from an email gateway. Returns null if originating address * unavailable. */ public String getDisplayOriginatingAddress() { return mWrappedSmsMessage.getDisplayOriginatingAddress(); } /** * Returns the message body as a String, if it exists and is text based. * @return message body is there is one, otherwise null */ public String getMessageBody() { return mWrappedSmsMessage.getMessageBody(); } /** * Returns the class of this message. */ public MessageClass getMessageClass() { switch(mWrappedSmsMessage.getMessageClass()) { case CLASS_0: return MessageClass.CLASS_0; case CLASS_1: return MessageClass.CLASS_1; case CLASS_2: return MessageClass.CLASS_2; case CLASS_3: return MessageClass.CLASS_3; default: return MessageClass.UNKNOWN; } } /** * Returns the message body, or email message body if this message was from * an email gateway. Returns null if message body unavailable. */ public String getDisplayMessageBody() { return mWrappedSmsMessage.getDisplayMessageBody(); } /** * Unofficial convention of a subject line enclosed in parens empty string * if not present */ public String getPseudoSubject() { return mWrappedSmsMessage.getPseudoSubject(); } /** * Returns the service centre timestamp in currentTimeMillis() format */ public long getTimestampMillis() { return mWrappedSmsMessage.getTimestampMillis(); } /** * Returns true if message is an email. * * @return true if this message came through an email gateway and email * sender / subject / parsed body are available */ public boolean isEmail() { return mWrappedSmsMessage.isEmail(); } /** * @return if isEmail() is true, body of the email sent through the gateway. * null otherwise */ public String getEmailBody() { return mWrappedSmsMessage.getEmailBody(); } /** * @return if isEmail() is true, email from address of email sent through * the gateway. null otherwise */ public String getEmailFrom() { return mWrappedSmsMessage.getEmailFrom(); } /** * Get protocol identifier. */ public int getProtocolIdentifier() { return mWrappedSmsMessage.getProtocolIdentifier(); } /** * See TS 23.040 9.2.3.9 returns true if this is a "replace short message" * SMS */ public boolean isReplace() { return mWrappedSmsMessage.isReplace(); } /** * Returns true for CPHS MWI toggle message. * * @return true if this is a CPHS MWI toggle message See CPHS 4.2 section * B.4.2 */ public boolean isCphsMwiMessage() { return mWrappedSmsMessage.isCphsMwiMessage(); } /** * returns true if this message is a CPHS voicemail / message waiting * indicator (MWI) clear message */ public boolean isMWIClearMessage() { return mWrappedSmsMessage.isMWIClearMessage(); } /** * returns true if this message is a CPHS voicemail / message waiting * indicator (MWI) set message */ public boolean isMWISetMessage() { return mWrappedSmsMessage.isMWISetMessage(); } /** * returns true if this message is a "Message Waiting Indication Group: * Discard Message" notification and should not be stored. */ public boolean isMwiDontStore() { return mWrappedSmsMessage.isMwiDontStore(); } /** * returns the user data section minus the user data header if one was * present. */ public byte[] getUserData() { return mWrappedSmsMessage.getUserData(); } /** * Returns the raw PDU for the message. * * @return the raw PDU for the message. */ public byte[] getPdu() { return mWrappedSmsMessage.getPdu(); } /** * Returns the status of the message on the SIM (read, unread, sent, unsent). * * @return the status of the message on the SIM. These are: * SmsManager.STATUS_ON_SIM_FREE * SmsManager.STATUS_ON_SIM_READ * SmsManager.STATUS_ON_SIM_UNREAD * SmsManager.STATUS_ON_SIM_SEND * SmsManager.STATUS_ON_SIM_UNSENT * @deprecated Use getStatusOnIcc instead. */ @Deprecated public int getStatusOnSim() { return mWrappedSmsMessage.getStatusOnIcc(); } /** * Returns the status of the message on the ICC (read, unread, sent, unsent). * * @return the status of the message on the ICC. These are: * SmsManager.STATUS_ON_ICC_FREE * SmsManager.STATUS_ON_ICC_READ * SmsManager.STATUS_ON_ICC_UNREAD * SmsManager.STATUS_ON_ICC_SEND * SmsManager.STATUS_ON_ICC_UNSENT */ public int getStatusOnIcc() { return mWrappedSmsMessage.getStatusOnIcc(); } /** * Returns the record index of the message on the SIM (1-based index). * @return the record index of the message on the SIM, or -1 if this * SmsMessage was not created from a SIM SMS EF record. * @deprecated Use getIndexOnIcc instead. */ @Deprecated public int getIndexOnSim() { return mWrappedSmsMessage.getIndexOnIcc(); } /** * Returns the record index of the message on the ICC (1-based index). * @return the record index of the message on the ICC, or -1 if this * SmsMessage was not created from a ICC SMS EF record. */ public int getIndexOnIcc() { return mWrappedSmsMessage.getIndexOnIcc(); } /** * GSM: * For an SMS-STATUS-REPORT message, this returns the status field from * the status report. This field indicates the status of a previously * submitted SMS, if requested. See TS 23.040, 9.2.3.15 TP-Status for a * description of values. * CDMA: * For not interfering with status codes from GSM, the value is * shifted to the bits 31-16. * The value is composed of an error class (bits 25-24) and a status code (bits 23-16). * Possible codes are described in C.S0015-B, v2.0, 4.5.21. * * @return 0 indicates the previously sent message was received. * See TS 23.040, 9.9.2.3.15 and C.S0015-B, v2.0, 4.5.21 * for a description of other possible values. */ public int getStatus() { return mWrappedSmsMessage.getStatus(); } /** * Return true iff the message is a SMS-STATUS-REPORT message. */ public boolean isStatusReportMessage() { return mWrappedSmsMessage.isStatusReportMessage(); } /** * Returns true iff the <code>TP-Reply-Path</code> bit is set in * this message. */ public boolean isReplyPathPresent() { return mWrappedSmsMessage.isReplyPathPresent(); } /** * Determines whether or not to use CDMA format for MO SMS. * If SMS over IMS is supported, then format is based on IMS SMS format, * otherwise format is based on current phone type. * * @return true if Cdma format should be used for MO SMS, false otherwise. */ private static boolean useCdmaFormatForMoSms() { if (!SmsManager.getDefault().isImsSmsSupported()) { // use Voice technology to determine SMS format. return isCdmaVoice(); } // IMS is registered with SMS support, check the SMS format supported return (SmsConstants.FORMAT_3GPP2.equals(SmsManager.getDefault().getImsSmsFormat())); } /** * Determines whether or not to current phone type is cdma. * * @return true if current phone type is cdma, false otherwise. */ private static boolean isCdmaVoice() { int activePhone = TelephonyManager.getDefault().getCurrentPhoneType(); return (PHONE_TYPE_CDMA == activePhone); } /** * Decide if the carrier supports long SMS. * {@hide} */ public static boolean hasEmsSupport() { if (!isNoEmsSupportConfigListExisted()) { return true; } String simOperator; String gid; final long identity = Binder.clearCallingIdentity(); try { simOperator = TelephonyManager.getDefault().getSimOperatorNumeric(); gid = TelephonyManager.getDefault().getGroupIdLevel1(); } finally { Binder.restoreCallingIdentity(identity); } for (NoEmsSupportConfig currentConfig : mNoEmsSupportConfigList) { if (simOperator.startsWith(currentConfig.mOperatorNumber) && (TextUtils.isEmpty(currentConfig.mGid1) || (!TextUtils.isEmpty(currentConfig.mGid1) && currentConfig.mGid1.equalsIgnoreCase(gid)))) { return false; } } return true; } /** * Check where to add " x/y" in each SMS segment, begin or end. * {@hide} */ public static boolean shouldAppendPageNumberAsPrefix() { if (!isNoEmsSupportConfigListExisted()) { return false; } String simOperator; String gid; final long identity = Binder.clearCallingIdentity(); try { simOperator = TelephonyManager.getDefault().getSimOperatorNumeric(); gid = TelephonyManager.getDefault().getGroupIdLevel1(); } finally { Binder.restoreCallingIdentity(identity); } for (NoEmsSupportConfig currentConfig : mNoEmsSupportConfigList) { if (simOperator.startsWith(currentConfig.mOperatorNumber) && (TextUtils.isEmpty(currentConfig.mGid1) || (!TextUtils.isEmpty(currentConfig.mGid1) && currentConfig.mGid1.equalsIgnoreCase(gid)))) { return currentConfig.mIsPrefix; } } return false; } private static class NoEmsSupportConfig { String mOperatorNumber; String mGid1; boolean mIsPrefix; public NoEmsSupportConfig(String[] config) { mOperatorNumber = config[0]; mIsPrefix = "prefix".equals(config[1]); mGid1 = config.length > 2 ? config[2] : null; } @Override public String toString() { return "NoEmsSupportConfig { mOperatorNumber = " + mOperatorNumber + ", mIsPrefix = " + mIsPrefix + ", mGid1 = " + mGid1 + " }"; } } private static NoEmsSupportConfig[] mNoEmsSupportConfigList = null; private static boolean mIsNoEmsSupportConfigListLoaded = false; private static boolean isNoEmsSupportConfigListExisted() { if (!mIsNoEmsSupportConfigListLoaded) { Resources r = Resources.getSystem(); if (r != null) { String[] listArray = r.getStringArray( com.android.internal.R.array.no_ems_support_sim_operators); if ((listArray != null) && (listArray.length > 0)) { mNoEmsSupportConfigList = new NoEmsSupportConfig[listArray.length]; for (int i=0; i<listArray.length; i++) { mNoEmsSupportConfigList[i] = new NoEmsSupportConfig(listArray[i].split(";")); } } mIsNoEmsSupportConfigListLoaded = true; } } if (mNoEmsSupportConfigList != null && mNoEmsSupportConfigList.length != 0) { return true; } return false; } }