/* * Copyright 2013 - 2023 Anton Tananaev (anton@traccar.org) * * 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 org.traccar.protocol; import io.netty.buffer.ByteBuf; import io.netty.buffer.ByteBufUtil; import io.netty.buffer.Unpooled; import io.netty.channel.Channel; import org.traccar.BaseProtocolDecoder; import org.traccar.helper.BufferUtil; import org.traccar.session.DeviceSession; import org.traccar.NetworkMessage; import org.traccar.Protocol; import org.traccar.config.Keys; import org.traccar.helper.BitUtil; import org.traccar.helper.Checksum; import org.traccar.helper.UnitsConverter; import org.traccar.model.CellTower; import org.traccar.model.Network; import org.traccar.model.Position; import java.net.SocketAddress; import java.nio.ByteBuffer; import java.nio.charset.StandardCharsets; import java.util.Date; import java.util.HashMap; import java.util.LinkedList; import java.util.List; import java.util.Map; import java.util.Set; import java.util.function.BiConsumer; public class TeltonikaProtocolDecoder extends BaseProtocolDecoder { private static final int IMAGE_PACKET_MAX = 2048; private static final Map, BiConsumer>> PARAMETERS = new HashMap<>(); private final boolean connectionless; private boolean extended; private final Map photos = new HashMap<>(); public void setExtended(boolean extended) { this.extended = extended; } public TeltonikaProtocolDecoder(Protocol protocol, boolean connectionless) { super(protocol); this.connectionless = connectionless; } @Override protected void init() { this.extended = getConfig().getBoolean(Keys.PROTOCOL_EXTENDED.withPrefix(getProtocolName())); } private void parseIdentification(Channel channel, SocketAddress remoteAddress, ByteBuf buf) { int length = buf.readUnsignedShort(); String imei = buf.toString(buf.readerIndex(), length, StandardCharsets.US_ASCII); DeviceSession deviceSession = getDeviceSession(channel, remoteAddress, imei); if (channel != null) { ByteBuf response = Unpooled.buffer(1); if (deviceSession != null) { response.writeByte(1); } else { response.writeByte(0); } channel.writeAndFlush(new NetworkMessage(response, remoteAddress)); } } public static final int CODEC_GH3000 = 0x07; public static final int CODEC_8 = 0x08; public static final int CODEC_8_EXT = 0x8E; public static final int CODEC_12 = 0x0C; public static final int CODEC_13 = 0x0D; public static final int CODEC_16 = 0x10; private void sendImageRequest(Channel channel, SocketAddress remoteAddress, long id, int offset, int size) { if (channel != null) { ByteBuf response = Unpooled.buffer(); response.writeInt(0); response.writeShort(0); response.writeShort(19); // length response.writeByte(CODEC_12); response.writeByte(1); // nod response.writeByte(0x0D); // camera response.writeInt(11); // payload length response.writeByte(2); // command response.writeInt((int) id); response.writeInt(offset); response.writeShort(size); response.writeByte(1); // nod response.writeShort(0); response.writeShort(Checksum.crc16( Checksum.CRC16_IBM, response.nioBuffer(8, response.readableBytes() - 10))); channel.writeAndFlush(new NetworkMessage(response, remoteAddress)); } } private void decodeSerial( Channel channel, SocketAddress remoteAddress, DeviceSession deviceSession, Position position, ByteBuf buf) { getLastLocation(position, null); int type = buf.readUnsignedByte(); if (type == 0x0D) { buf.readInt(); // length int subtype = buf.readUnsignedByte(); if (subtype == 0x01) { long photoId = buf.readUnsignedInt(); ByteBuf photo = Unpooled.buffer(buf.readInt()); photos.put(photoId, photo); sendImageRequest( channel, remoteAddress, photoId, 0, Math.min(IMAGE_PACKET_MAX, photo.capacity())); } else if (subtype == 0x02) { long photoId = buf.readUnsignedInt(); buf.readInt(); // offset ByteBuf photo = photos.get(photoId); photo.writeBytes(buf, buf.readUnsignedShort()); if (photo.writableBytes() > 0) { sendImageRequest( channel, remoteAddress, photoId, photo.writerIndex(), Math.min(IMAGE_PACKET_MAX, photo.writableBytes())); } else { photos.remove(photoId); try { position.set(Position.KEY_IMAGE, writeMediaFile(deviceSession.getUniqueId(), photo, "jpg")); } finally { photo.release(); } } } } else { position.set(Position.KEY_TYPE, type); int length = buf.readInt(); if (BufferUtil.isPrintable(buf, length)) { String data = buf.readSlice(length).toString(StandardCharsets.US_ASCII).trim(); if (data.startsWith("UUUUww") && data.endsWith("SSS")) { String[] values = data.substring(6, data.length() - 4).split(";"); for (int i = 0; i < 8; i++) { position.set("axle" + (i + 1), Double.parseDouble(values[i])); } position.set("loadTruck", Double.parseDouble(values[8])); position.set("loadTrailer", Double.parseDouble(values[9])); position.set("totalTruck", Double.parseDouble(values[10])); position.set("totalTrailer", Double.parseDouble(values[11])); } else { position.set(Position.KEY_RESULT, data); } } else { position.set(Position.KEY_RESULT, ByteBufUtil.hexDump(buf.readSlice(length))); } } } private long readValue(ByteBuf buf, int length) { switch (length) { case 1: return buf.readUnsignedByte(); case 2: return buf.readUnsignedShort(); case 4: return buf.readUnsignedInt(); default: return buf.readLong(); } } private static void register(int id, Set models, BiConsumer handler) { PARAMETERS.computeIfAbsent(id, key -> new HashMap<>()).put(models, handler); } static { var fmbXXX = Set.of( "FMB001", "FMB010", "FMB002", "FMB020", "FMB003", "FMB110", "FMB120", "FMB122", "FMB125", "FMB130", "FMB140", "FMU125", "FMB900", "FMB920", "FMB962", "FMB964", "FM3001", "FMB202", "FMB204", "FMB206", "FMT100", "MTB100", "FMP100", "MSP500", "FMC125", "FMM125", "FMU130", "FMC130", "FMM130", "FMB150", "FMC150", "FMM150"); register(1, null, (p, b) -> p.set(Position.PREFIX_IN + 1, b.readUnsignedByte() > 0)); register(2, null, (p, b) -> p.set(Position.PREFIX_IN + 2, b.readUnsignedByte() > 0)); register(3, null, (p, b) -> p.set(Position.PREFIX_IN + 3, b.readUnsignedByte() > 0)); register(4, null, (p, b) -> p.set(Position.PREFIX_IN + 4, b.readUnsignedByte() > 0)); register(9, fmbXXX, (p, b) -> p.set(Position.PREFIX_ADC + 1, b.readUnsignedShort() * 0.001)); register(10, fmbXXX, (p, b) -> p.set(Position.PREFIX_ADC + 2, b.readUnsignedShort() * 0.001)); register(11, fmbXXX, (p, b) -> p.set(Position.KEY_ICCID, String.valueOf(b.readLong()))); register(12, fmbXXX, (p, b) -> p.set(Position.KEY_FUEL_USED, b.readUnsignedInt() * 0.001)); register(13, fmbXXX, (p, b) -> p.set(Position.KEY_FUEL_CONSUMPTION, b.readUnsignedShort() * 0.01)); register(16, null, (p, b) -> p.set(Position.KEY_ODOMETER, b.readUnsignedInt())); register(17, null, (p, b) -> p.set("axisX", b.readShort())); register(18, null, (p, b) -> p.set("axisY", b.readShort())); register(19, null, (p, b) -> p.set("axisZ", b.readShort())); register(21, null, (p, b) -> p.set(Position.KEY_RSSI, b.readUnsignedByte())); register(24, fmbXXX, (p, b) -> p.setSpeed(UnitsConverter.knotsFromKph(b.readUnsignedShort()))); register(25, null, (p, b) -> p.set("bleTemp1", b.readShort() * 0.01)); register(26, null, (p, b) -> p.set("bleTemp2", b.readShort() * 0.01)); register(27, null, (p, b) -> p.set("bleTemp3", b.readShort() * 0.01)); register(28, null, (p, b) -> p.set("bleTemp4", b.readShort() * 0.01)); register(30, fmbXXX, (p, b) -> p.set("faultCount", b.readUnsignedByte())); register(32, fmbXXX, (p, b) -> p.set(Position.KEY_COOLANT_TEMP, b.readByte())); register(66, null, (p, b) -> p.set(Position.KEY_POWER, b.readUnsignedShort() * 0.001)); register(67, null, (p, b) -> p.set(Position.KEY_BATTERY, b.readUnsignedShort() * 0.001)); register(68, fmbXXX, (p, b) -> p.set("batteryCurrent", b.readUnsignedShort() * 0.001)); register(72, fmbXXX, (p, b) -> p.set(Position.PREFIX_TEMP + 1, b.readInt() * 0.1)); register(73, fmbXXX, (p, b) -> p.set(Position.PREFIX_TEMP + 2, b.readInt() * 0.1)); register(74, fmbXXX, (p, b) -> p.set(Position.PREFIX_TEMP + 3, b.readInt() * 0.1)); register(75, fmbXXX, (p, b) -> p.set(Position.PREFIX_TEMP + 4, b.readInt() * 0.1)); register(78, null, (p, b) -> { long driverUniqueId = b.readLongLE(); if (driverUniqueId != 0) { p.set(Position.KEY_DRIVER_UNIQUE_ID, String.format("%016X", driverUniqueId)); } }); register(80, fmbXXX, (p, b) -> p.set("dataMode", b.readUnsignedByte())); register(81, fmbXXX, (p, b) -> p.set(Position.KEY_OBD_SPEED, b.readUnsignedByte())); register(82, fmbXXX, (p, b) -> p.set(Position.KEY_THROTTLE, b.readUnsignedByte())); register(83, fmbXXX, (p, b) -> p.set(Position.KEY_FUEL_USED, b.readUnsignedInt() * 0.1)); register(84, fmbXXX, (p, b) -> p.set(Position.KEY_FUEL_LEVEL, b.readUnsignedShort() * 0.1)); register(85, fmbXXX, (p, b) -> p.set(Position.KEY_RPM, b.readUnsignedShort())); register(87, fmbXXX, (p, b) -> p.set(Position.KEY_OBD_ODOMETER, b.readUnsignedInt())); register(89, fmbXXX, (p, b) -> p.set("fuelLevelPercentage", b.readUnsignedByte())); register(110, fmbXXX, (p, b) -> p.set(Position.KEY_FUEL_CONSUMPTION, b.readUnsignedShort() * 0.1)); register(113, fmbXXX, (p, b) -> p.set(Position.KEY_BATTERY_LEVEL, b.readUnsignedByte())); register(115, fmbXXX, (p, b) -> p.set("engineTemp", b.readShort() * 0.1)); register(179, null, (p, b) -> p.set(Position.PREFIX_OUT + 1, b.readUnsignedByte() > 0)); register(180, null, (p, b) -> p.set(Position.PREFIX_OUT + 2, b.readUnsignedByte() > 0)); register(181, null, (p, b) -> p.set(Position.KEY_PDOP, b.readUnsignedShort() * 0.1)); register(182, null, (p, b) -> p.set(Position.KEY_HDOP, b.readUnsignedShort() * 0.1)); register(199, null, (p, b) -> p.set(Position.KEY_ODOMETER_TRIP, b.readUnsignedInt())); register(200, fmbXXX, (p, b) -> p.set("sleepMode", b.readUnsignedByte())); register(205, fmbXXX, (p, b) -> p.set("cid2g", b.readUnsignedShort())); register(206, fmbXXX, (p, b) -> p.set("lac", b.readUnsignedShort())); register(232, fmbXXX, (p, b) -> p.set("cngStatus", b.readUnsignedByte() > 0)); register(233, fmbXXX, (p, b) -> p.set("cngUsed", b.readUnsignedInt() * 0.1)); register(234, fmbXXX, (p, b) -> p.set("cngLevel", b.readUnsignedShort())); register(235, fmbXXX, (p, b) -> p.set("oilLevel", b.readUnsignedByte())); register(236, null, (p, b) -> { p.set(Position.KEY_ALARM, b.readUnsignedByte() > 0 ? Position.ALARM_GENERAL : null); }); register(239, null, (p, b) -> p.set(Position.KEY_IGNITION, b.readUnsignedByte() > 0)); register(240, null, (p, b) -> p.set(Position.KEY_MOTION, b.readUnsignedByte() > 0)); register(241, null, (p, b) -> p.set(Position.KEY_OPERATOR, b.readUnsignedInt())); register(246, fmbXXX, (p, b) -> { p.set(Position.KEY_ALARM, b.readUnsignedByte() > 0 ? Position.ALARM_TOW : null); }); register(247, fmbXXX, (p, b) -> { p.set(Position.KEY_ALARM, b.readUnsignedByte() > 0 ? Position.ALARM_ACCIDENT : null); }); register(249, fmbXXX, (p, b) -> { p.set(Position.KEY_ALARM, b.readUnsignedByte() > 0 ? Position.ALARM_JAMMING : null); }); register(252, fmbXXX, (p, b) -> { p.set(Position.KEY_ALARM, b.readUnsignedByte() > 0 ? Position.ALARM_POWER_CUT : null); }); register(253, null, (p, b) -> { switch (b.readUnsignedByte()) { case 1: p.set(Position.KEY_ALARM, Position.ALARM_ACCELERATION); break; case 2: p.set(Position.KEY_ALARM, Position.ALARM_BRAKING); break; case 3: p.set(Position.KEY_ALARM, Position.ALARM_CORNERING); break; default: break; } }); register(636, fmbXXX, (p, b) -> p.set("cid4g", b.readUnsignedInt())); register(662, fmbXXX, (p, b) -> p.set(Position.KEY_DOOR, b.readUnsignedByte() > 0)); } private void decodeGh3000Parameter(Position position, int id, ByteBuf buf, int length) { switch (id) { case 1: position.set(Position.KEY_BATTERY_LEVEL, readValue(buf, length)); break; case 2: position.set("usbConnected", readValue(buf, length) == 1); break; case 5: position.set("uptime", readValue(buf, length)); break; case 20: position.set(Position.KEY_HDOP, readValue(buf, length) * 0.1); break; case 21: position.set(Position.KEY_VDOP, readValue(buf, length) * 0.1); break; case 22: position.set(Position.KEY_PDOP, readValue(buf, length) * 0.1); break; case 67: position.set(Position.KEY_BATTERY, readValue(buf, length) * 0.001); break; case 221: position.set("button", readValue(buf, length)); break; case 222: if (readValue(buf, length) == 1) { position.set(Position.KEY_ALARM, Position.ALARM_SOS); } break; case 240: position.set(Position.KEY_MOTION, readValue(buf, length) == 1); break; case 244: position.set(Position.KEY_ROAMING, readValue(buf, length) == 1); break; default: position.set(Position.PREFIX_IO + id, readValue(buf, length)); break; } } private void decodeParameter(Position position, int id, ByteBuf buf, int length, int codec, String model) { if (codec == CODEC_GH3000) { decodeGh3000Parameter(position, id, buf, length); } else { int index = buf.readerIndex(); boolean decoded = false; for (var entry : PARAMETERS.getOrDefault(id, new HashMap<>()).entrySet()) { if (entry.getKey() == null || model != null && entry.getKey().contains(model)) { entry.getValue().accept(position, buf); decoded = true; break; } } if (decoded) { buf.readerIndex(index + length); } else { position.set(Position.PREFIX_IO + id, readValue(buf, length)); } } } private void decodeCell( Position position, Network network, String mncKey, String lacKey, String cidKey, String rssiKey) { if (position.hasAttribute(mncKey) && position.hasAttribute(lacKey) && position.hasAttribute(cidKey)) { CellTower cellTower = CellTower.from( getConfig().getInteger(Keys.GEOLOCATION_MCC), ((Number) position.getAttributes().remove(mncKey)).intValue(), ((Number) position.getAttributes().remove(lacKey)).intValue(), ((Number) position.getAttributes().remove(cidKey)).longValue()); cellTower.setSignalStrength(((Number) position.getAttributes().remove(rssiKey)).intValue()); network.addCellTower(cellTower); } } private void decodeNetwork(Position position, String model) { if ("TAT100".equals(model)) { Network network = new Network(); decodeCell(position, network, "io1200", "io287", "io288", "io289"); decodeCell(position, network, "io1201", "io290", "io291", "io292"); decodeCell(position, network, "io1202", "io293", "io294", "io295"); decodeCell(position, network, "io1203", "io296", "io297", "io298"); if (network.getCellTowers() != null) { position.setNetwork(network); } } else { Integer cid2g = (Integer) position.getAttributes().remove("cid2g"); Long cid4g = (Long) position.getAttributes().remove("cid4g"); Integer lac = (Integer) position.getAttributes().remove("lac"); if (lac != null && (cid2g != null || cid4g != null)) { Network network = new Network(); CellTower cellTower; if (cid2g != null) { cellTower = CellTower.fromLacCid(getConfig(), lac, cid2g); } else { cellTower = CellTower.fromLacCid(getConfig(), lac, cid4g); network.setRadioType("lte"); } long operator = position.getInteger(Position.KEY_OPERATOR); if (operator >= 1000) { cellTower.setOperator(operator); } network.addCellTower(cellTower); position.setNetwork(new Network(cellTower)); } } } private int readExtByte(ByteBuf buf, int codec, int... codecs) { boolean ext = false; for (int c : codecs) { if (codec == c) { ext = true; break; } } if (ext) { return buf.readUnsignedShort(); } else { return buf.readUnsignedByte(); } } private void decodeLocation(Position position, ByteBuf buf, int codec, String model) { int globalMask = 0x0f; if (codec == CODEC_GH3000) { long time = buf.readUnsignedInt() & 0x3fffffff; time += 1167609600; // 2007-01-01 00:00:00 globalMask = buf.readUnsignedByte(); if (BitUtil.check(globalMask, 0)) { position.setTime(new Date(time * 1000)); int locationMask = buf.readUnsignedByte(); if (BitUtil.check(locationMask, 0)) { position.setLatitude(buf.readFloat()); position.setLongitude(buf.readFloat()); } if (BitUtil.check(locationMask, 1)) { position.setAltitude(buf.readUnsignedShort()); } if (BitUtil.check(locationMask, 2)) { position.setCourse(buf.readUnsignedByte() * 360.0 / 256); } if (BitUtil.check(locationMask, 3)) { position.setSpeed(UnitsConverter.knotsFromKph(buf.readUnsignedByte())); } if (BitUtil.check(locationMask, 4)) { position.set(Position.KEY_SATELLITES, buf.readUnsignedByte()); } if (BitUtil.check(locationMask, 5)) { CellTower cellTower = CellTower.fromLacCid( getConfig(), buf.readUnsignedShort(), buf.readUnsignedShort()); if (BitUtil.check(locationMask, 6)) { cellTower.setSignalStrength((int) buf.readUnsignedByte()); } if (BitUtil.check(locationMask, 7)) { cellTower.setOperator(buf.readUnsignedInt()); } position.setNetwork(new Network(cellTower)); } else { if (BitUtil.check(locationMask, 6)) { position.set(Position.KEY_RSSI, buf.readUnsignedByte()); } if (BitUtil.check(locationMask, 7)) { position.set(Position.KEY_OPERATOR, buf.readUnsignedInt()); } } } else { getLastLocation(position, new Date(time * 1000)); } } else { position.setTime(new Date(buf.readLong())); position.set("priority", buf.readUnsignedByte()); position.setLongitude(buf.readInt() / 10000000.0); position.setLatitude(buf.readInt() / 10000000.0); position.setAltitude(buf.readShort()); position.setCourse(buf.readUnsignedShort()); int satellites = buf.readUnsignedByte(); position.set(Position.KEY_SATELLITES, satellites); position.setValid(satellites != 0); position.setSpeed(UnitsConverter.knotsFromKph(buf.readUnsignedShort())); position.set(Position.KEY_EVENT, readExtByte(buf, codec, CODEC_8_EXT, CODEC_16)); if (codec == CODEC_16) { buf.readUnsignedByte(); // generation type } readExtByte(buf, codec, CODEC_8_EXT); // total IO data records } // Read 1 byte data if (BitUtil.check(globalMask, 1)) { int cnt = readExtByte(buf, codec, CODEC_8_EXT); for (int j = 0; j < cnt; j++) { decodeParameter(position, readExtByte(buf, codec, CODEC_8_EXT, CODEC_16), buf, 1, codec, model); } } // Read 2 byte data if (BitUtil.check(globalMask, 2)) { int cnt = readExtByte(buf, codec, CODEC_8_EXT); for (int j = 0; j < cnt; j++) { decodeParameter(position, readExtByte(buf, codec, CODEC_8_EXT, CODEC_16), buf, 2, codec, model); } } // Read 4 byte data if (BitUtil.check(globalMask, 3)) { int cnt = readExtByte(buf, codec, CODEC_8_EXT); for (int j = 0; j < cnt; j++) { decodeParameter(position, readExtByte(buf, codec, CODEC_8_EXT, CODEC_16), buf, 4, codec, model); } } // Read 8 byte data if (codec == CODEC_8 || codec == CODEC_8_EXT || codec == CODEC_16) { int cnt = readExtByte(buf, codec, CODEC_8_EXT); for (int j = 0; j < cnt; j++) { decodeParameter(position, readExtByte(buf, codec, CODEC_8_EXT, CODEC_16), buf, 8, codec, model); } } // Read 16 byte data if (extended) { int cnt = readExtByte(buf, codec, CODEC_8_EXT); for (int j = 0; j < cnt; j++) { int id = readExtByte(buf, codec, CODEC_8_EXT, CODEC_16); position.set(Position.PREFIX_IO + id, ByteBufUtil.hexDump(buf.readSlice(16))); } } // Read X byte data if (codec == CODEC_8_EXT) { int cnt = buf.readUnsignedShort(); for (int j = 0; j < cnt; j++) { int id = buf.readUnsignedShort(); int length = buf.readUnsignedShort(); if (id == 256) { position.set(Position.KEY_VIN, buf.readSlice(length).toString(StandardCharsets.US_ASCII)); } else if (id == 281) { position.set(Position.KEY_DTCS, buf.readSlice(length).toString(StandardCharsets.US_ASCII).replace(',', ' ')); } else if (id == 385) { ByteBuf data = buf.readSlice(length); data.readUnsignedByte(); // data part int index = 1; while (data.isReadable()) { int flags = data.readUnsignedByte(); if (BitUtil.from(flags, 4) > 0) { position.set("beacon" + index + "Uuid", ByteBufUtil.hexDump(data.readSlice(16))); position.set("beacon" + index + "Major", data.readUnsignedShort()); position.set("beacon" + index + "Minor", data.readUnsignedShort()); } else { position.set("beacon" + index + "Namespace", ByteBufUtil.hexDump(data.readSlice(10))); position.set("beacon" + index + "Instance", ByteBufUtil.hexDump(data.readSlice(6))); } position.set("beacon" + index + "Rssi", (int) data.readByte()); if (BitUtil.check(flags, 1)) { position.set("beacon" + index + "Battery", data.readUnsignedShort() * 0.01); } if (BitUtil.check(flags, 2)) { position.set("beacon" + index + "Temp", data.readUnsignedShort()); } index += 1; } } else if (id == 548 || id == 10829 || id == 10831) { ByteBuf data = buf.readSlice(length); data.readUnsignedByte(); // header for (int i = 1; data.isReadable(); i++) { ByteBuf beacon = data.readSlice(data.readUnsignedByte()); while (beacon.isReadable()) { int parameterId = beacon.readUnsignedByte(); int parameterLength = beacon.readUnsignedByte(); switch (parameterId) { case 0: position.set("tag" + i + "Rssi", (int) beacon.readByte()); break; case 1: String beaconId = ByteBufUtil.hexDump(beacon.readSlice(parameterLength)); position.set("tag" + i + "Id", beaconId); break; case 2: ByteBuf beaconData = beacon.readSlice(parameterLength); int flag = beaconData.readUnsignedByte(); if (BitUtil.check(flag, 6)) { position.set("tag" + i + "LowBattery", true); } if (BitUtil.check(flag, 7)) { position.set("tag" + i + "Voltage", beaconData.readUnsignedByte() * 10 + 2000); } break; case 13: position.set("tag" + i + "LowBattery", beacon.readUnsignedByte()); break; case 14: position.set("tag" + i + "Battery", beacon.readUnsignedShort()); break; default: beacon.skipBytes(parameterLength); break; } } } } else { position.set(Position.PREFIX_IO + id, ByteBufUtil.hexDump(buf.readSlice(length))); } } } decodeNetwork(position, model); if (model != null && model.matches("FM.6..")) { Long driverMsb = (Long) position.getAttributes().get("io195"); Long driverLsb = (Long) position.getAttributes().get("io196"); if (driverMsb != null && driverLsb != null) { String driver = new String(ByteBuffer.allocate(16).putLong(driverMsb).putLong(driverLsb).array()); position.set(Position.KEY_DRIVER_UNIQUE_ID, driver); } } } private List parseData( Channel channel, SocketAddress remoteAddress, ByteBuf buf, int locationPacketId, String... imei) { List positions = new LinkedList<>(); if (!connectionless) { buf.readUnsignedInt(); // data length } int codec = buf.readUnsignedByte(); int count = buf.readUnsignedByte(); DeviceSession deviceSession = getDeviceSession(channel, remoteAddress, imei); if (deviceSession == null) { return null; } for (int i = 0; i < count; i++) { Position position = new Position(getProtocolName()); position.setDeviceId(deviceSession.getDeviceId()); position.setValid(true); if (codec == CODEC_13) { buf.readUnsignedByte(); // type int length = buf.readInt() - 4; getLastLocation(position, new Date(buf.readUnsignedInt() * 1000)); if (BufferUtil.isPrintable(buf, length)) { String data = buf.readCharSequence(length, StandardCharsets.US_ASCII).toString().trim(); if (data.startsWith("GTSL")) { position.set(Position.KEY_DRIVER_UNIQUE_ID, data.split("\\|")[4]); } else { position.set(Position.KEY_RESULT, data); } } else { position.set(Position.KEY_RESULT, ByteBufUtil.hexDump(buf.readSlice(length))); } } else if (codec == CODEC_12) { decodeSerial(channel, remoteAddress, deviceSession, position, buf); } else { decodeLocation(position, buf, codec, getDeviceModel(deviceSession)); } if (!position.getOutdated() || !position.getAttributes().isEmpty()) { positions.add(position); } } if (channel != null && codec != CODEC_12 && codec != CODEC_13) { ByteBuf response = Unpooled.buffer(); if (connectionless) { response.writeShort(5); response.writeShort(0); response.writeByte(0x01); response.writeByte(locationPacketId); response.writeByte(count); } else { response.writeInt(count); } channel.writeAndFlush(new NetworkMessage(response, remoteAddress)); } return positions.isEmpty() ? null : positions; } @Override protected Object decode(Channel channel, SocketAddress remoteAddress, Object msg) throws Exception { ByteBuf buf = (ByteBuf) msg; if (connectionless) { return decodeUdp(channel, remoteAddress, buf); } else { return decodeTcp(channel, remoteAddress, buf); } } private Object decodeTcp(Channel channel, SocketAddress remoteAddress, ByteBuf buf) { if (buf.readableBytes() == 1 && buf.readUnsignedByte() == 0xff) { return null; } else if (buf.getUnsignedShort(0) > 0) { parseIdentification(channel, remoteAddress, buf); } else { buf.skipBytes(4); return parseData(channel, remoteAddress, buf, 0); } return null; } private Object decodeUdp(Channel channel, SocketAddress remoteAddress, ByteBuf buf) { buf.readUnsignedShort(); // length buf.readUnsignedShort(); // packet id buf.readUnsignedByte(); // packet type int locationPacketId = buf.readUnsignedByte(); String imei = buf.readSlice(buf.readUnsignedShort()).toString(StandardCharsets.US_ASCII); return parseData(channel, remoteAddress, buf, locationPacketId, imei); } }