/* * Copyright (C) 2019 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.cellbroadcastservice; import android.content.Context; import android.telephony.SmsCbCmasInfo; import android.telephony.cdma.CdmaSmsCbProgramData; import android.util.Log; /** * An object to decode CDMA SMS bearer data. */ public final class BearerData { private final static String LOG_TAG = "BearerData"; /** * Bearer Data Subparameter Identifiers * (See 3GPP2 C.S0015-B, v2.0, table 4.5-1) * NOTE: Unneeded subparameter types are not included */ private static final byte SUBPARAM_MESSAGE_IDENTIFIER = 0x00; private static final byte SUBPARAM_USER_DATA = 0x01; private static final byte SUBPARAM_PRIORITY_INDICATOR = 0x08; private static final byte SUBPARAM_LANGUAGE_INDICATOR = 0x0D; // All other values after this are reserved. private static final byte SUBPARAM_ID_LAST_DEFINED = 0x17; /** * Supported priority modes for CDMA SMS messages * (See 3GPP2 C.S0015-B, v2.0, table 4.5.9-1) */ public static final int PRIORITY_NORMAL = 0x0; public static final int PRIORITY_INTERACTIVE = 0x1; public static final int PRIORITY_URGENT = 0x2; public static final int PRIORITY_EMERGENCY = 0x3; /** * Language Indicator values. NOTE: the spec (3GPP2 C.S0015-B, * v2, 4.5.14) is ambiguous as to the meaning of this field, as it * refers to C.R1001-D but that reference has been crossed out. * It would seem reasonable to assume the values from C.R1001-F * (table 9.2-1) are to be used instead. */ public static final int LANGUAGE_UNKNOWN = 0x00; public static final int LANGUAGE_ENGLISH = 0x01; public static final int LANGUAGE_FRENCH = 0x02; public static final int LANGUAGE_SPANISH = 0x03; public static final int LANGUAGE_JAPANESE = 0x04; public static final int LANGUAGE_KOREAN = 0x05; public static final int LANGUAGE_CHINESE = 0x06; public static final int LANGUAGE_HEBREW = 0x07; /** * Supported message types for CDMA SMS messages * (See 3GPP2 C.S0015-B, v2.0, table 4.5.1-1) * Used for CdmaSmsCbTest. */ public static final int MESSAGE_TYPE_DELIVER = 0x01; /** * 16-bit value indicating the message ID, which increments modulo 65536. * (Special rules apply for WAP-messages.) * (See 3GPP2 C.S0015-B, v2, 4.5.1) */ public int messageId; /** * Priority modes for CDMA SMS message (See 3GPP2 C.S0015-B, v2.0, table 4.5.9-1) */ public int priority = PRIORITY_NORMAL; /** * Language indicator for CDMA SMS message. */ public int language = LANGUAGE_UNKNOWN; /** * 1-bit value that indicates whether a User Data Header (UDH) is present. * (See 3GPP2 C.S0015-B, v2, 4.5.1) * * NOTE: during encoding, this value will be set based on the * presence of a UDH in the structured data, any existing setting * will be overwritten. */ public boolean hasUserDataHeader; /** * Information on the user data * (e.g. padding bits, user data, user data header, etc) * (See 3GPP2 C.S.0015-B, v2, 4.5.2) */ public UserData userData; /** * CMAS warning notification information. * * @see #decodeCmasUserData(BearerData, int) */ public SmsCbCmasInfo cmasWarningInfo; /** * Construct an empty BearerData. */ private BearerData() { } private static class CodingException extends Exception { public CodingException(String s) { super(s); } } /** * Returns the language indicator as a two-character ISO 639 string. * * @return a two character ISO 639 language code */ public String getLanguage() { return getLanguageCodeForValue(language); } /** * Converts a CDMA language indicator value to an ISO 639 two character language code. * * @param languageValue the CDMA language value to convert * @return the two character ISO 639 language code for the specified value, or null if unknown */ private static String getLanguageCodeForValue(int languageValue) { switch (languageValue) { case LANGUAGE_ENGLISH: return "en"; case LANGUAGE_FRENCH: return "fr"; case LANGUAGE_SPANISH: return "es"; case LANGUAGE_JAPANESE: return "ja"; case LANGUAGE_KOREAN: return "ko"; case LANGUAGE_CHINESE: return "zh"; case LANGUAGE_HEBREW: return "he"; default: return null; } } @Override public String toString() { StringBuilder builder = new StringBuilder(); builder.append("BearerData "); builder.append(", messageId=" + messageId); builder.append(", hasUserDataHeader=" + hasUserDataHeader); builder.append(", userData=" + userData); builder.append(" }"); return builder.toString(); } private static boolean decodeMessageId(BearerData bData, BitwiseInputStream inStream) throws BitwiseInputStream.AccessException { final int EXPECTED_PARAM_SIZE = 3 * 8; boolean decodeSuccess = false; int paramBits = inStream.read(8) * 8; if (paramBits >= EXPECTED_PARAM_SIZE) { paramBits -= EXPECTED_PARAM_SIZE; decodeSuccess = true; inStream.skip(4); // skip messageType bData.messageId = inStream.read(8) << 8; bData.messageId |= inStream.read(8); bData.hasUserDataHeader = (inStream.read(1) == 1); inStream.skip(3); } if ((!decodeSuccess) || (paramBits > 0)) { Log.d(LOG_TAG, "MESSAGE_IDENTIFIER decode " + (decodeSuccess ? "succeeded" : "failed") + " (extra bits = " + paramBits + ")"); } inStream.skip(paramBits); return decodeSuccess; } private static boolean decodeReserved(BitwiseInputStream inStream, int subparamId) throws BitwiseInputStream.AccessException, CodingException { boolean decodeSuccess = false; int subparamLen = inStream.read(8); // SUBPARAM_LEN int paramBits = subparamLen * 8; if (paramBits <= inStream.available()) { decodeSuccess = true; inStream.skip(paramBits); } Log.d(LOG_TAG, "RESERVED bearer data subparameter " + subparamId + " decode " + (decodeSuccess ? "succeeded" : "failed") + " (param bits = " + paramBits + ")"); if (!decodeSuccess) { throw new CodingException("RESERVED bearer data subparameter " + subparamId + " had invalid SUBPARAM_LEN " + subparamLen); } return decodeSuccess; } private static boolean decodeUserData(BearerData bData, BitwiseInputStream inStream) throws BitwiseInputStream.AccessException { int paramBits = inStream.read(8) * 8; bData.userData = new UserData(); bData.userData.msgEncoding = inStream.read(5); bData.userData.msgEncodingSet = true; bData.userData.msgType = 0; int consumedBits = 5; if ((bData.userData.msgEncoding == UserData.ENCODING_IS91_EXTENDED_PROTOCOL) || (bData.userData.msgEncoding == UserData.ENCODING_GSM_DCS)) { bData.userData.msgType = inStream.read(8); consumedBits += 8; } bData.userData.numFields = inStream.read(8); consumedBits += 8; int dataBits = paramBits - consumedBits; bData.userData.payload = inStream.readByteArray(dataBits); return true; } private static String decodeUtf8(byte[] data, int offset, int numFields) throws CodingException { return decodeCharset(data, offset, numFields, 1, "UTF-8"); } private static String decodeUtf16(byte[] data, int offset, int numFields) throws CodingException { // Subtract header and possible padding byte (at end) from num fields. int padding = offset % 2; numFields -= (offset + padding) / 2; return decodeCharset(data, offset, numFields, 2, "utf-16be"); } private static String decodeCharset(byte[] data, int offset, int numFields, int width, String charset) throws CodingException { if (numFields < 0 || (numFields * width + offset) > data.length) { // Try to decode the max number of characters in payload int padding = offset % width; int maxNumFields = (data.length - offset - padding) / width; if (maxNumFields < 0) { throw new CodingException(charset + " decode failed: offset out of range"); } Log.e(LOG_TAG, charset + " decode error: offset = " + offset + " numFields = " + numFields + " data.length = " + data.length + " maxNumFields = " + maxNumFields); numFields = maxNumFields; } try { return new String(data, offset, numFields * width, charset); } catch (java.io.UnsupportedEncodingException ex) { throw new CodingException(charset + " decode failed: " + ex); } } private static String decode7bitAscii(byte[] data, int offset, int numFields) throws CodingException { try { int offsetBits = offset * 8; int offsetSeptets = (offsetBits + 6) / 7; numFields -= offsetSeptets; StringBuffer strBuf = new StringBuffer(numFields); BitwiseInputStream inStream = new BitwiseInputStream(data); int wantedBits = (offsetSeptets * 7) + (numFields * 7); if (inStream.available() < wantedBits) { throw new CodingException("insufficient data (wanted " + wantedBits + " bits, but only have " + inStream.available() + ")"); } inStream.skip(offsetSeptets * 7); for (int i = 0; i < numFields; i++) { int charCode = inStream.read(7); if ((charCode >= UserData.ASCII_MAP_BASE_INDEX) && (charCode <= UserData.ASCII_MAP_MAX_INDEX)) { strBuf.append(UserData.ASCII_MAP[charCode - UserData.ASCII_MAP_BASE_INDEX]); } else if (charCode == UserData.ASCII_NL_INDEX) { strBuf.append('\n'); } else if (charCode == UserData.ASCII_CR_INDEX) { strBuf.append('\r'); } else { /* For other charCodes, they are unprintable, and so simply use SPACE. */ strBuf.append(' '); } } return strBuf.toString(); } catch (BitwiseInputStream.AccessException ex) { throw new CodingException("7bit ASCII decode failed: " + ex); } } private static String decode7bitGsm(byte[] data, int offset, int numFields) throws CodingException { // Start reading from the next 7-bit aligned boundary after offset. int offsetBits = offset * 8; int offsetSeptets = (offsetBits + 6) / 7; numFields -= offsetSeptets; int paddingBits = (offsetSeptets * 7) - offsetBits; String result = GsmAlphabet.gsm7BitPackedToString(data, offset, numFields, paddingBits, 0, 0); if (result == null) { throw new CodingException("7bit GSM decoding failed"); } return result; } private static String decodeLatin(byte[] data, int offset, int numFields) throws CodingException { return decodeCharset(data, offset, numFields, 1, "ISO-8859-1"); } private static String decodeShiftJis(byte[] data, int offset, int numFields) throws CodingException { return decodeCharset(data, offset, numFields, 1, "Shift_JIS"); } private static String decodeGsmDcs(byte[] data, int offset, int numFields, int msgType) throws CodingException { if ((msgType & 0xC0) != 0) { throw new CodingException("unsupported coding group (" + msgType + ")"); } switch ((msgType >> 2) & 0x3) { case UserData.ENCODING_GSM_DCS_7BIT: return decode7bitGsm(data, offset, numFields); case UserData.ENCODING_GSM_DCS_8BIT: return decodeUtf8(data, offset, numFields); case UserData.ENCODING_GSM_DCS_16BIT: return decodeUtf16(data, offset, numFields); default: throw new CodingException("unsupported user msgType encoding (" + msgType + ")"); } } private static void decodeUserDataPayload(Context context, UserData userData, boolean hasUserDataHeader) throws CodingException { int offset = 0; if (hasUserDataHeader) { int udhLen = userData.payload[0] & 0x00FF; offset += udhLen + 1; byte[] headerData = new byte[udhLen]; System.arraycopy(userData.payload, 1, headerData, 0, udhLen); userData.userDataHeader = SmsHeader.fromByteArray(headerData); } switch (userData.msgEncoding) { case UserData.ENCODING_OCTET: /* * Octet decoding depends on the carrier service. */ boolean decodingtypeUTF8 = context.getResources() .getBoolean(R.bool.config_sms_utf8_support); // Strip off any padding bytes, meaning any differences between the length of the // array and the target length specified by numFields. This is to avoid any // confusion by code elsewhere that only considers the payload array length. byte[] payload = new byte[userData.numFields]; int copyLen = userData.numFields < userData.payload.length ? userData.numFields : userData.payload.length; System.arraycopy(userData.payload, 0, payload, 0, copyLen); userData.payload = payload; if (!decodingtypeUTF8) { // There are many devices in the market that send 8bit text sms (latin // encoded) as // octet encoded. userData.payloadStr = decodeLatin(userData.payload, offset, userData.numFields); } else { userData.payloadStr = decodeUtf8(userData.payload, offset, userData.numFields); } break; case UserData.ENCODING_IA5: case UserData.ENCODING_7BIT_ASCII: userData.payloadStr = decode7bitAscii(userData.payload, offset, userData.numFields); break; case UserData.ENCODING_UNICODE_16: userData.payloadStr = decodeUtf16(userData.payload, offset, userData.numFields); break; case UserData.ENCODING_GSM_7BIT_ALPHABET: userData.payloadStr = decode7bitGsm(userData.payload, offset, userData.numFields); break; case UserData.ENCODING_LATIN: userData.payloadStr = decodeLatin(userData.payload, offset, userData.numFields); break; case UserData.ENCODING_SHIFT_JIS: userData.payloadStr = decodeShiftJis(userData.payload, offset, userData.numFields); break; case UserData.ENCODING_GSM_DCS: userData.payloadStr = decodeGsmDcs(userData.payload, offset, userData.numFields, userData.msgType); break; default: throw new CodingException("unsupported user data encoding (" + userData.msgEncoding + ")"); } } private static boolean decodeLanguageIndicator(BearerData bData, BitwiseInputStream inStream) throws BitwiseInputStream.AccessException { final int EXPECTED_PARAM_SIZE = 1 * 8; boolean decodeSuccess = false; int paramBits = inStream.read(8) * 8; if (paramBits >= EXPECTED_PARAM_SIZE) { paramBits -= EXPECTED_PARAM_SIZE; decodeSuccess = true; bData.language = inStream.read(8); } if ((!decodeSuccess) || (paramBits > 0)) { Log.d(LOG_TAG, "LANGUAGE_INDICATOR decode " + (decodeSuccess ? "succeeded" : "failed") + " (extra bits = " + paramBits + ")"); } inStream.skip(paramBits); return decodeSuccess; } private static boolean decodePriorityIndicator(BearerData bData, BitwiseInputStream inStream) throws BitwiseInputStream.AccessException { final int EXPECTED_PARAM_SIZE = 1 * 8; boolean decodeSuccess = false; int paramBits = inStream.read(8) * 8; if (paramBits >= EXPECTED_PARAM_SIZE) { paramBits -= EXPECTED_PARAM_SIZE; decodeSuccess = true; bData.priority = inStream.read(2); inStream.skip(6); } if ((!decodeSuccess) || (paramBits > 0)) { Log.d(LOG_TAG, "PRIORITY_INDICATOR decode " + (decodeSuccess ? "succeeded" : "failed") + " (extra bits = " + paramBits + ")"); } inStream.skip(paramBits); return decodeSuccess; } private static int serviceCategoryToCmasMessageClass(int serviceCategory) { switch (serviceCategory) { case CdmaSmsCbProgramData.CATEGORY_CMAS_PRESIDENTIAL_LEVEL_ALERT: return SmsCbCmasInfo.CMAS_CLASS_PRESIDENTIAL_LEVEL_ALERT; case CdmaSmsCbProgramData.CATEGORY_CMAS_EXTREME_THREAT: return SmsCbCmasInfo.CMAS_CLASS_EXTREME_THREAT; case CdmaSmsCbProgramData.CATEGORY_CMAS_SEVERE_THREAT: return SmsCbCmasInfo.CMAS_CLASS_SEVERE_THREAT; case CdmaSmsCbProgramData.CATEGORY_CMAS_CHILD_ABDUCTION_EMERGENCY: return SmsCbCmasInfo.CMAS_CLASS_CHILD_ABDUCTION_EMERGENCY; case CdmaSmsCbProgramData.CATEGORY_CMAS_TEST_MESSAGE: return SmsCbCmasInfo.CMAS_CLASS_REQUIRED_MONTHLY_TEST; default: return SmsCbCmasInfo.CMAS_CLASS_UNKNOWN; } } /** * CMAS message decoding. * (See TIA-1149-0-1, CMAS over CDMA) * * @param serviceCategory is the service category from the SMS envelope */ private static void decodeCmasUserData(Context context, BearerData bData, int serviceCategory) throws BitwiseInputStream.AccessException, CodingException { BitwiseInputStream inStream = new BitwiseInputStream(bData.userData.payload); if (inStream.available() < 8) { throw new CodingException("emergency CB with no CMAE_protocol_version"); } int protocolVersion = inStream.read(8); if (protocolVersion != 0) { throw new CodingException("unsupported CMAE_protocol_version " + protocolVersion); } int messageClass = serviceCategoryToCmasMessageClass(serviceCategory); int category = SmsCbCmasInfo.CMAS_CATEGORY_UNKNOWN; int responseType = SmsCbCmasInfo.CMAS_RESPONSE_TYPE_UNKNOWN; int severity = SmsCbCmasInfo.CMAS_SEVERITY_UNKNOWN; int urgency = SmsCbCmasInfo.CMAS_URGENCY_UNKNOWN; int certainty = SmsCbCmasInfo.CMAS_CERTAINTY_UNKNOWN; while (inStream.available() >= 16) { int recordType = inStream.read(8); int recordLen = inStream.read(8); switch (recordType) { case 0: // Type 0 elements (Alert text) UserData alertUserData = new UserData(); alertUserData.msgEncoding = inStream.read(5); alertUserData.msgEncodingSet = true; alertUserData.msgType = 0; int numFields; // number of chars to decode switch (alertUserData.msgEncoding) { case UserData.ENCODING_OCTET: case UserData.ENCODING_LATIN: numFields = recordLen - 1; // subtract 1 byte for encoding break; case UserData.ENCODING_IA5: case UserData.ENCODING_7BIT_ASCII: case UserData.ENCODING_GSM_7BIT_ALPHABET: numFields = ((recordLen * 8) - 5) / 7; // subtract 5 bits for encoding break; case UserData.ENCODING_UNICODE_16: numFields = (recordLen - 1) / 2; break; default: numFields = 0; // unsupported encoding } alertUserData.numFields = numFields; alertUserData.payload = inStream.readByteArray(recordLen * 8 - 5); decodeUserDataPayload(context, alertUserData, false); bData.userData = alertUserData; break; case 1: // Type 1 elements category = inStream.read(8); responseType = inStream.read(8); severity = inStream.read(4); urgency = inStream.read(4); certainty = inStream.read(4); inStream.skip(recordLen * 8 - 28); break; default: Log.w(LOG_TAG, "skipping unsupported CMAS record type " + recordType); inStream.skip(recordLen * 8); break; } } bData.cmasWarningInfo = new SmsCbCmasInfo(messageClass, category, responseType, severity, urgency, certainty); } private static boolean isCmasAlertCategory(int category) { return category >= CdmaSmsCbProgramData.CATEGORY_CMAS_PRESIDENTIAL_LEVEL_ALERT && category <= CdmaSmsCbProgramData.CATEGORY_CMAS_LAST_RESERVED_VALUE; } /** * Create BearerData object from serialized representation. * (See 3GPP2 C.R1001-F, v1.0, section 4.5 for layout details) * * @param smsData byte array of raw encoded SMS bearer data. * @param serviceCategory the envelope service category (for CMAS alert handling) * @return an instance of BearerData. */ public static BearerData decode(Context context, byte[] smsData, int serviceCategory) { try { BitwiseInputStream inStream = new BitwiseInputStream(smsData); BearerData bData = new BearerData(); int foundSubparamMask = 0; while (inStream.available() > 0) { int subparamId = inStream.read(8); int subparamIdBit = 1 << subparamId; // int is 4 bytes. This duplicate check has a limit to Id number up to 32 (4*8) // as 32th bit is the max bit in int. // Per 3GPP2 C.S0015-B Table 4.5-1 Bearer Data Subparameter Identifiers: // last defined subparam ID is 23 (00010111 = 0x17 = 23). // Only do duplicate subparam ID check if subparam is within defined value as // reserved subparams are just skipped. if ((foundSubparamMask & subparamIdBit) != 0 && (subparamId >= SUBPARAM_MESSAGE_IDENTIFIER && subparamId <= SUBPARAM_ID_LAST_DEFINED)) { throw new CodingException("illegal duplicate subparameter (" + subparamId + ")"); } boolean decodeSuccess; switch (subparamId) { case SUBPARAM_MESSAGE_IDENTIFIER: decodeSuccess = decodeMessageId(bData, inStream); break; case SUBPARAM_USER_DATA: decodeSuccess = decodeUserData(bData, inStream); break; case SUBPARAM_LANGUAGE_INDICATOR: decodeSuccess = decodeLanguageIndicator(bData, inStream); break; case SUBPARAM_PRIORITY_INDICATOR: decodeSuccess = decodePriorityIndicator(bData, inStream); break; default: decodeSuccess = decodeReserved(inStream, subparamId); } if (decodeSuccess && (subparamId >= SUBPARAM_MESSAGE_IDENTIFIER && subparamId <= SUBPARAM_ID_LAST_DEFINED)) { foundSubparamMask |= subparamIdBit; } } if ((foundSubparamMask & (1 << SUBPARAM_MESSAGE_IDENTIFIER)) == 0) { throw new CodingException("missing MESSAGE_IDENTIFIER subparam"); } if (bData.userData != null) { if (isCmasAlertCategory(serviceCategory)) { decodeCmasUserData(context, bData, serviceCategory); } else { decodeUserDataPayload(context, bData.userData, bData.hasUserDataHeader); } } return bData; } catch (BitwiseInputStream.AccessException ex) { Log.e(LOG_TAG, "BearerData decode failed: " + ex); } catch (CodingException ex) { Log.e(LOG_TAG, "BearerData decode failed: " + ex); } return null; } }