#include "APRSPacketLib.h" namespace APRSPacketLib { String doubleToString(double n, int ndec) { String r = ""; if (n > -1 && n < 0) { r = "-"; } int v = n; r += v; r += '.'; for (int i = 0; i < ndec; i++) { n -= v; n = 10 * abs(n); v = n; r += v; } return r; } String gpsDecimalToDegreesLatitude(double lat) { String degrees = doubleToString(lat, 6); String north_south, latitude, convDeg3; float convDeg, convDeg2; if (abs(degrees.toFloat()) < 10) { latitude += "0"; } if (degrees.indexOf("-") == 0) { north_south = "S"; latitude += degrees.substring(1, degrees.indexOf(".")); } else { north_south = "N"; latitude += degrees.substring(0, degrees.indexOf(".")); } convDeg = abs(degrees.toFloat()) - abs(int(degrees.toFloat())); convDeg2 = (convDeg * 60)/100; convDeg3 = String(convDeg2,6); latitude += convDeg3.substring(convDeg3.indexOf(".") + 1, convDeg3.indexOf(".") + 3); latitude += "."; latitude += convDeg3.substring(convDeg3.indexOf(".") + 3, convDeg3.indexOf(".") + 5); latitude += north_south; return latitude; } String gpsDecimalToDegreesLongitude(double lon) { String degrees = doubleToString(lon,6); String east_west, longitude, convDeg3; float convDeg, convDeg2; if (abs(degrees.toFloat()) < 100) { longitude += "0"; } if (abs(degrees.toFloat()) < 10) { longitude += "0"; } if (degrees.indexOf("-") == 0) { east_west = "W"; longitude += degrees.substring(1, degrees.indexOf(".")); } else { east_west = "E"; longitude += degrees.substring(0, degrees.indexOf(".")); } convDeg = abs(degrees.toFloat()) - abs(int(degrees.toFloat())); convDeg2 = (convDeg * 60)/100; convDeg3 = String(convDeg2,6); longitude += convDeg3.substring(convDeg3.indexOf(".") + 1, convDeg3.indexOf(".") + 3); longitude += "."; longitude += convDeg3.substring(convDeg3.indexOf(".") + 3, convDeg3.indexOf(".") + 5); longitude += east_west; return longitude; } void encodeMiceAltitude(uint8_t *buf, uint32_t alt_m) { if (alt_m > 40000) { alt_m = 0; } uint32_t altoff; altoff = alt_m + 10000; buf[0] = (altoff/8281) + 33; altoff = altoff%8281; buf[1] = (altoff/91) + 33; buf[2] = (altoff%91) + 33; buf[3] = '}'; } void encodeMiceCourseSpeed(uint8_t *buf, uint32_t speed_kt, uint32_t course_deg) { uint32_t SP28, DC28, SE28; //three bytes are output uint32_t ten = speed_kt / 10; if (ten <= 19) { SP28 = ten + 108; } else if (ten <= 79) { SP28 = ten + 28; } else { SP28 = 107; } buf[0] = SP28; if (course_deg == 0) { course_deg = 360; } else if (course_deg >= 360) { course_deg = 0; } uint32_t course_hun = course_deg/100; DC28 = (speed_kt-ten * 10) * 10 + course_hun + 32; buf[1] = DC28; SE28 = (course_deg - course_hun * 100) + 28; buf[2] = SE28; } void encodeMiceLongitude(uint8_t *buf, gpsLongitudeStruct *lon) { uint32_t d28; // degrees uint32_t deg = lon->degrees; if (deg <= 9) { d28 = 118 + deg; } else if (deg <= 99) { d28 = 28 + deg; } else if (deg <= 109) { d28 = 8 + deg; } else { d28 = 28 + (deg - 100); } buf[0] = d28; uint32_t m28; // minutes uint32_t min = lon->minutes; if (min <= 9) { m28 = 88 + min; } else { m28 = 28 + min; } buf[1] = m28; uint32_t h28; h28 = 28 + lon->minuteHundredths; buf[2] = h28; } void encodeMiceDestinationField(const String& msgType, uint8_t *buf, const gpsLatitudeStruct *lat, const gpsLongitudeStruct *lon) { uint32_t temp; temp = lat->degrees / 10; // degrees buf[0] = (temp + 0x30); if (msgType[0] == '1') { buf[0] = buf[0] + 0x20; } buf[1] = (lat->degrees - temp * 10 + 0x30); if (msgType[1] == '1') { buf[1] = buf[1] + 0x20; } temp = lat->minutes/10; // minutes buf[2] = (temp + 0x30); if (msgType[2] == '1') { buf[2] = buf[2] + 0x20; } buf[3] = (lat->minutes - temp * 10 + 0x30) + (lat->north ? 0x20 : 0); // North validation temp = lat->minuteHundredths/10; // minute hundredths buf[4] = (temp + 0x30) + ((lon->degrees >= 100 || lon->degrees <= 9) ? 0x20 : 0); // Longitude Offset buf[5] = (lat->minuteHundredths - temp * 10 + 0x30) + (!lon->east ? 0x20 : 0); // West validation } gpsLatitudeStruct gpsDecimalToDegreesMiceLatitude(float latitude) { gpsLatitudeStruct miceLatitudeStruct; String lat = gpsDecimalToDegreesLatitude(latitude); char latitudeArray[10]; strncpy(latitudeArray, lat.c_str(), 8); miceLatitudeStruct.degrees = 10 * (latitudeArray[0] - '0') + latitudeArray[1] - '0'; miceLatitudeStruct.minutes = 10 * (latitudeArray[2] - '0') + latitudeArray[3] - '0'; miceLatitudeStruct.minuteHundredths = 10 * (latitudeArray[5] - '0') + latitudeArray[6] - '0'; if (latitudeArray[7] == 'N') { miceLatitudeStruct.north = 1; } else { miceLatitudeStruct.north = 0; } return miceLatitudeStruct; } gpsLongitudeStruct gpsDecimalToDegreesMiceLongitude(float longitude) { gpsLongitudeStruct miceLongitudeStruct; String lng = gpsDecimalToDegreesLongitude(longitude); char longitudeArray[10]; strncpy(longitudeArray,lng.c_str(), 9); miceLongitudeStruct.degrees = 100 * (longitudeArray[0] - '0') + 10 * (longitudeArray[1] - '0') + longitudeArray[2] - '0'; miceLongitudeStruct.minutes = 10 * (longitudeArray[3] - '0') + longitudeArray[4] - '0'; miceLongitudeStruct.minuteHundredths = 10 * (longitudeArray[6] - '0') + longitudeArray[7] - '0'; if (longitudeArray[8] == 'E') { miceLongitudeStruct.east = 1; } else { miceLongitudeStruct.east = 0; } return miceLongitudeStruct; } String generateMiceGPSBeacon(const String& miceMsgType, const String& callsign, const String& symbol, const String& overlay, const String& path, float latitude, float longitude, float course, float speed, int altitude) { gpsLatitudeStruct latitudeStruct = gpsDecimalToDegreesMiceLatitude(latitude); gpsLongitudeStruct longitudeStruct = gpsDecimalToDegreesMiceLongitude(longitude); uint8_t miceDestinationArray[7]; encodeMiceDestinationField(miceMsgType, &miceDestinationArray[0], &latitudeStruct, &longitudeStruct); miceDestinationArray[6] = 0x00; // por repetidor? String miceDestination = (char*)miceDestinationArray; uint8_t miceInfoFieldArray[14]; miceInfoFieldArray[0] = 0x60; // 0x60 for ` and 0x27 for ' encodeMiceLongitude(&miceInfoFieldArray[1], &longitudeStruct); encodeMiceCourseSpeed(&miceInfoFieldArray[4], (uint32_t)speed, (uint32_t)course); //speed= gps.speed.knots(), course = gps.course.deg()); char symbolOverlayArray[1]; strncpy(symbolOverlayArray,symbol.c_str(),1); miceInfoFieldArray[7] = symbolOverlayArray[0]; strncpy(symbolOverlayArray,overlay.c_str(),1); miceInfoFieldArray[8] = symbolOverlayArray[0]; encodeMiceAltitude(&miceInfoFieldArray[9], (uint32_t)altitude); // altitude = gps.altitude.meters() miceInfoFieldArray[13] = 0x00; // por repetidor? String miceInformationField = (char*)miceInfoFieldArray; String miceAPRSPacket = callsign; miceAPRSPacket += ">"; miceAPRSPacket += miceDestination; if (path != "") { miceAPRSPacket += ","; miceAPRSPacket += path; } miceAPRSPacket += ":"; miceAPRSPacket += miceInformationField; return miceAPRSPacket; } String generateBasePacket(const String& callsign, const String& tocall, const String& path) { String packet = callsign; packet += ">"; packet += tocall; if (path.indexOf("WIDE") == 0) { packet += ","; packet += path; } return packet; } String generateStatusPacket(const String& callsign, const String& tocall, const String& path, const String& status) { return generateBasePacket(callsign,tocall,path) + ":>" + status; } String generateMessagePacket(const String& callsign, const String& tocall, const String& path, const String& addressee, const String& message) { String processedAddressee = addressee; for(int i = addressee.length(); i < 9; i++) { processedAddressee += ' '; } String processedMessage = message; processedMessage.trim(); return generateBasePacket(callsign,tocall,path) + "::" + processedAddressee + ":" + processedMessage; } String buildDigiPacket(const String& packet, const String& callsign, const String& path, const String& fullPath, bool thirdParty) { String packetToRepeat = packet.substring(0, packet.indexOf(",") + 1); String tempPath = fullPath; tempPath.replace(path, callsign + "*"); packetToRepeat += tempPath; if (thirdParty) { packetToRepeat += packet.substring(packet.indexOf(":}")); } else { packetToRepeat += packet.substring(packet.indexOf(":")); } return packetToRepeat; } String generateDigipeatedPacket(const String& packet, const String &callsign, const String& path) { bool thirdParty = false; int firstColonIndex = packet.indexOf(":"); if (firstColonIndex > 5 && firstColonIndex < (packet.length() - 1) && packet[firstColonIndex + 1] == '}') thirdParty = true; String temp; if (thirdParty) { // only header is used const String& header = packet.substring(3, packet.indexOf(":}")); temp = header.substring(header.indexOf(">") + 1); } else { temp = packet.substring(packet.indexOf(">") + 1, packet.indexOf(":")); } if (temp.indexOf(",") > 2) { // checks for path const String& completePath = temp.substring(temp.indexOf(",") + 1); // after tocall if (completePath.indexOf(path) != -1) { return buildDigiPacket(packet.substring(3), callsign , path, completePath, thirdParty); } else { return "X"; } } else { return "X"; } } char *ax25_base91enc(char *s, uint8_t n, uint32_t v) { for(s += n, *s = '\0'; n; n--) { *(--s) = v % 91 + 33; v /= 91; } return(s); } String encodeGPS(float latitude, float longitude, float course, float speed, const String& symbol, bool sendAltitude, int altitude, bool sendStandingUpdate, const String& packetType) { String encodedData; uint32_t aprs_lat, aprs_lon; aprs_lat = 900000000 - latitude * 10000000; aprs_lat = aprs_lat / 26 - aprs_lat / 2710 + aprs_lat / 15384615; aprs_lon = 900000000 + longitude * 10000000 / 2; aprs_lon = aprs_lon / 26 - aprs_lon / 2710 + aprs_lon / 15384615; String Ns, Ew, helper; if(latitude < 0) { Ns = "S"; } else { Ns = "N"; } if(latitude < 0) { latitude= -latitude; } if(longitude < 0) { Ew = "W"; } else { Ew = "E"; } if(longitude < 0) { longitude= -longitude; } char helper_base91[] = {"0000\0"}; int i; ax25_base91enc(helper_base91, 4, aprs_lat); for (i=0; i < 4; i++) { encodedData += helper_base91[i]; } ax25_base91enc(helper_base91, 4, aprs_lon); for (i=0; i < 4; i++) { encodedData += helper_base91[i]; } if (packetType == "Wx") { encodedData += "_"; } else { encodedData += symbol; } if (sendAltitude) { // Send Altitude or... (APRS calculates Speed also) int Alt1, Alt2; if(altitude > 0) { double ALT = log(altitude)/log(1.002); Alt1 = int(ALT/91); Alt2 =(int)ALT%91; } else { Alt1 = 0; Alt2 = 0; } if (sendStandingUpdate) { encodedData += " "; } else { encodedData += char(Alt1 + 33); } encodedData += char(Alt2 + 33); encodedData += char(0x30 + 33); } else { // ... just send Course and Speed ax25_base91enc(helper_base91, 1, (uint32_t) course/4 ); if (sendStandingUpdate) { encodedData += " "; } else { encodedData += helper_base91[0]; } ax25_base91enc(helper_base91, 1, (uint32_t) (log1p(speed)/0.07696)); encodedData += helper_base91[0]; encodedData += "\x47"; } return encodedData; } String generateGPSBeaconPacket(const String& callsign, const String& tocall, const String& path, const String& overlay, const String& gps) { return generateBasePacket(callsign,tocall,path) + ":!" + overlay + gps; } float decodeEncodedLatitude(const String& encodedLatitude) { int Y1 = int(encodedLatitude[0]); int Y2 = int(encodedLatitude[1]); int Y3 = int(encodedLatitude[2]); int Y4 = int(encodedLatitude[3]); return (90.0 - ((((Y1-33) * pow(91,3)) + ((Y2-33) * pow(91,2)) + ((Y3-33) * 91) + Y4-33) / 380926.0)); } float decodeEncodedLongitude(const String& encodedLongitude) { int X1 = int(encodedLongitude[0]); int X2 = int(encodedLongitude[1]); int X3 = int(encodedLongitude[2]); int X4 = int(encodedLongitude[3]); return (-180.0 + ((((X1-33) * pow(91,3)) + ((X2-33) * pow(91,2)) + ((X3-33) * 91) + X4-33) / 190463.0)); } int decodeEncodedCourse(const String& course) { return (course.toInt() - 33) * 4; } int decodeEncodedSpeed(const String& speed) { return (pow(1.08,(speed.toInt() - 33)) - 1) * 1.852; } int decodeEncodedAltitude(const String& altitude) { char cLetter = altitude[0]; char sLetter = altitude[1]; int c = static_cast(cLetter); int s = static_cast(sLetter); return pow(1.002,((c - 33) * 91) + (s-33)) * 0.3048; } float decodeLatitude(const String& Latitude) { String firstLatPart = Latitude.substring(0,2); String secondLatPart = Latitude.substring(2,4); String thirdLatPart = Latitude.substring(Latitude.indexOf(".")+1,Latitude.indexOf(".")+3); float convertedLatitude = firstLatPart.toFloat() + (secondLatPart.toFloat()/60) + (thirdLatPart.toFloat()/(60*100)); String LatSign = String(Latitude[7]); if (LatSign == "S") { return -convertedLatitude;; } else { return convertedLatitude; } } float decodeLongitude(const String& Longitude) { String firstLngPart = Longitude.substring(0,3); String secondLngPart = Longitude.substring(3,5); String thirdLngPart = Longitude.substring(Longitude.indexOf(".") + 1, Longitude.indexOf(".") + 3); float convertedLongitude = firstLngPart.toFloat() + (secondLngPart.toFloat()/60) + (thirdLngPart.toFloat()/(60 * 100)); String LngSign = String(Longitude[8]); if (LngSign == "W") { return -convertedLongitude; } else { return convertedLongitude; } } int decodeCourse(const String& course) { if (course == "..." || course == "000") { return 0; } else { return course.toInt(); } } int decodeSpeed(const String& speed) { return speed.toInt() * 1.852; } int decodeAltitude(const String& altitude) { return altitude.toInt() * 0.3048; } String decodeMiceMsgType(const String& tocall) { String miceType; for (int i=0; i<3; i++) { if (int(tocall[i]) > 57) { miceType += "1"; } else { miceType += "0"; } } return miceType; } String decodeMiceSymbol(const String& informationField) { return informationField.substring(6,7); } String decodeMiceOverlay(const String& informationField) { return informationField.substring(7,8); } int decodeMiceSpeed(const String& informationField) { int temp = int(informationField[3]); if (temp > 107) { temp -= 80; } int SP28 = (temp - 28) * 10; int DC28 = (int(informationField[4]) - 28)/10; return (SP28 + DC28) * 1.852; } int decodeMiceCourse(const String& informationField) { int DC28 = (int(informationField[4]) - 28)/10; int temp = (int(informationField[4]) - 28) - (DC28 * 10); int SE28 = int(informationField[5]) - 28; int course = ((temp - 4) * 100) + SE28; return course; } int decodeMiceAltitude(const String& informationField) { int altitude; String temp; if (informationField.indexOf("`") == 8 && informationField.indexOf("}") == 12) { temp = informationField.substring(9, 12); } else if (informationField.indexOf("}") == 11) { temp = informationField.substring(8, 11); } else { temp = ""; } if (temp.length() != 0) { int a = int(temp[0]) - 33; int b = int(temp[1]) - 33; int c = int(temp[2]) - 33; altitude = (a*pow(91,2) + b*91 + c) - 10000; } else { altitude = 0; } return altitude; } float gpsDegreesToDecimalLatitude(const String& degreesLatitude) { int degrees = degreesLatitude.substring(0, 2).toInt(); int minute = degreesLatitude.substring(2, 4).toInt(); int minuteHundredths = degreesLatitude.substring(5, 7).toInt(); String northSouth = degreesLatitude.substring(7); float decimalLatitude = degrees + (minute/60.0) + (minuteHundredths/10000.0); if (northSouth == "N") { return decimalLatitude; } else { return -decimalLatitude; } } float gpsDegreesToDecimalLongitude(const String& degreesLongitude) { int degrees = degreesLongitude.substring(0, 3).toInt(); int minute = degreesLongitude.substring(3, 5).toInt(); int minuteHundredths = degreesLongitude.substring(6, 8).toInt(); String westEast = degreesLongitude.substring(8); float decimalLongitude = degrees + (minute/60.0) + (minuteHundredths/10000.0); if (westEast == "W") { return -decimalLongitude; } else { return decimalLongitude; } } float decodeMiceLatitude(const String& destinationField) { String gpsLat, northSouth; for (int i = 0; i <= 5; i++) { if (int(destinationField[i]) > 57) { gpsLat += char(int(destinationField[i]) - 32); } else { gpsLat += char(int(destinationField[i])); } if (i == 3) { gpsLat += "."; if (int(destinationField[i]) > 57) { northSouth = "N"; } else { northSouth = "S"; } } } gpsLat += northSouth; return gpsDegreesToDecimalLatitude(gpsLat); } float decodeMiceLongitude(const String& destinationField, const String& informationField) { bool offset = false; String westEast = "E"; if (int(destinationField[4]) > 57) { offset = true; } if (int(destinationField[5]) > 57) { westEast = "W"; } String longitudeString, temp; int d28 = (int)informationField[0] - 28; if (offset) { d28 += 100; } temp = String(d28); for(int i = temp.length(); i < 3; i++) { temp = '0' + temp; } longitudeString = temp; int m28 = (int)informationField[1] - 28; if (m28 >= 60) { m28 -= 60; } temp = String(m28); for(int i = temp.length(); i < 2; i++) { temp = '0' + temp; } longitudeString += temp + "."; int h28 = (int)informationField[2] - 28; temp = String(h28); for(int i = temp.length(); i < 2; i++) { temp = '0' + temp; } longitudeString += temp + westEast; return gpsDegreesToDecimalLongitude(longitudeString) ; } APRSPacket processReceivedPacket(const String& receivedPacket, int rssi, float snr, int freqError) { /* Packet type: gps = 0 message = 1 status = 2 telemetry = 3 mic-e = 4 object = 5 */ APRSPacket aprsPacket; String temp0; int firstColonIndex = receivedPacket.indexOf(":"); if (firstColonIndex > 0 && firstColonIndex < receivedPacket.length() && receivedPacket[firstColonIndex + 1] == '}') { // 3rd Party aprsPacket.header = receivedPacket.substring(receivedPacket.indexOf(":}")); temp0 = receivedPacket.substring(receivedPacket.indexOf(":}") + 2); } else { aprsPacket.header = ""; temp0 = receivedPacket; } aprsPacket.sender = temp0.substring(0, temp0.indexOf(">")); String temp1 = temp0.substring(temp0.indexOf(">") + 1, temp0.indexOf(":")); if (temp1.indexOf(",") > 2) { aprsPacket.tocall = temp1.substring(0, temp1.indexOf(",")); aprsPacket.path = temp1.substring(temp1.indexOf(",") + 1, temp1.indexOf(":")); } else { aprsPacket.tocall = temp1; aprsPacket.path = ""; } if (temp0.indexOf(":!") > 10 || temp0.indexOf(":=") > 10 ) { aprsPacket.type = 0; String gpsChar = ""; if (temp0.indexOf(":!") > 10) { gpsChar = ":!"; } else { gpsChar = ":="; } int encodedBytePosition = temp0.indexOf(gpsChar) + 14; aprsPacket.message = temp0.substring(temp0.indexOf(gpsChar) + 2); if (String(temp0[encodedBytePosition]) == "G" || String(temp0[encodedBytePosition]) == "Q" || String(temp0[encodedBytePosition]) == "[" || String(temp0[encodedBytePosition]) == "H") { aprsPacket.latitude = decodeEncodedLatitude(temp0.substring(temp0.indexOf(gpsChar) + 3, temp0.indexOf(gpsChar) + 7)); aprsPacket.longitude = decodeEncodedLongitude(temp0.substring(temp0.indexOf(gpsChar) + 7, temp0.indexOf(gpsChar) + 11)); aprsPacket.symbol = temp0.substring(temp0.indexOf(gpsChar) + 11, temp0.indexOf(gpsChar) + 12); aprsPacket.overlay = temp0.substring(temp0.indexOf(gpsChar) + 2, temp0.indexOf(gpsChar) + 3); if (temp0.substring(temp0.indexOf(gpsChar) + 12, temp0.indexOf(gpsChar) + 13) == " ") { aprsPacket.course = 0; aprsPacket.speed = 0; aprsPacket.altitude = 0; } else { if (String(temp0[encodedBytePosition]) == "Q") { // altitude csT aprsPacket.altitude = decodeEncodedAltitude(temp0.substring(temp0.indexOf(gpsChar)+12, temp0.indexOf(gpsChar)+14)); aprsPacket.course = 0; aprsPacket.speed = 0; } else { // normal csT aprsPacket.course = decodeEncodedCourse(temp0.substring(temp0.indexOf(gpsChar) + 12, temp0.indexOf(gpsChar) + 13)); aprsPacket.speed = decodeEncodedSpeed(temp0.substring(temp0.indexOf(gpsChar) + 13, temp0.indexOf(gpsChar) + 14)); aprsPacket.altitude = 0; } } } else { aprsPacket.latitude = decodeLatitude(temp0.substring(temp0.indexOf(gpsChar) + 2, temp0.indexOf(gpsChar) + 10)); aprsPacket.longitude = decodeLongitude(temp0.substring(temp0.indexOf(gpsChar) + 11, temp0.indexOf(gpsChar) + 20)); aprsPacket.symbol = temp0.substring(temp0.indexOf(gpsChar) + 20, temp0.indexOf(gpsChar) + 21); aprsPacket.overlay = temp0.substring(temp0.indexOf(gpsChar) + 10, temp0.indexOf(gpsChar) + 11); if (temp0.substring(temp0.indexOf(gpsChar) + 24, temp0.indexOf(gpsChar) + 25) == "/" && temp0.substring(temp0.indexOf(gpsChar) + 28, temp0.indexOf(gpsChar) + 31) == "/A=") { aprsPacket.course = decodeCourse(temp0.substring(temp0.indexOf(gpsChar) + 21, temp0.indexOf(gpsChar) + 24)); aprsPacket.speed = decodeSpeed(temp0.substring(temp0.indexOf(gpsChar) + 25, temp0.indexOf(gpsChar) + 28)); aprsPacket.altitude = decodeAltitude(temp0.substring(temp0.indexOf(gpsChar) + 31, temp0.indexOf(gpsChar) + 39)); } else { aprsPacket.course = 0; aprsPacket.speed = 0; aprsPacket.altitude = 0; } } } else if (temp0.indexOf("::") > 10) { aprsPacket.type = 1; String temp1 = temp0.substring(temp0.indexOf("::") + 2, temp0.indexOf("::") + 11); temp1.trim(); aprsPacket.addressee = temp1; aprsPacket.message = temp0.substring(temp0.indexOf("::") + 12); aprsPacket.latitude = 0; aprsPacket.longitude = 0; } else if (temp0.indexOf(":>") > 10) { aprsPacket.type = 2; aprsPacket.message = temp0.substring(temp0.indexOf(":>") + 2); } else if (temp0.indexOf(":T#") >= 10 && temp0.indexOf(":=/") == -1) { aprsPacket.type = 3; aprsPacket.message = temp0.substring(temp0.indexOf(":T#") + 3); } else if (temp0.indexOf(":`") > 10 || temp0.indexOf(":'") > 10) { aprsPacket.type = 4; if (temp0.indexOf(":`") > 10) { aprsPacket.message = temp0.substring(temp0.indexOf(":`") + 2); } else { aprsPacket.message = temp0.substring(temp0.indexOf(":'") + 2); } aprsPacket.miceType = decodeMiceMsgType(aprsPacket.tocall); aprsPacket.symbol = decodeMiceSymbol(aprsPacket.message); aprsPacket.overlay = decodeMiceOverlay(aprsPacket.message); aprsPacket.latitude = decodeMiceLatitude(aprsPacket.tocall); aprsPacket.longitude = decodeMiceLongitude(aprsPacket.tocall, aprsPacket.message); aprsPacket.speed = decodeMiceSpeed(aprsPacket.message); aprsPacket.course = decodeMiceCourse(aprsPacket.message); aprsPacket.altitude = decodeMiceAltitude(aprsPacket.message); } else if (temp0.indexOf(":;") > 10) { aprsPacket.type = 5; aprsPacket.message = temp0.substring(temp0.indexOf(":;") + 2); } if (aprsPacket.type != 1) { aprsPacket.addressee = ""; } if (aprsPacket.type != 0 && aprsPacket.type != 4) { aprsPacket.symbol = ""; aprsPacket.overlay = ""; aprsPacket.latitude = 0; aprsPacket.longitude = 0; aprsPacket.course = 0; aprsPacket.speed = 0; aprsPacket.altitude = 0; } if (aprsPacket.type != 4) { aprsPacket.miceType = ""; } aprsPacket.rssi = rssi; aprsPacket.snr = snr; aprsPacket.freqError = freqError; return aprsPacket; } }