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/*
* Copyright 2015 - 2018 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.session.DeviceSession;
import org.traccar.NetworkMessage;
import org.traccar.Protocol;
import org.traccar.helper.BitUtil;
import org.traccar.helper.Checksum;
import org.traccar.helper.DateBuilder;
import org.traccar.helper.ObdDecoder;
import org.traccar.helper.Parser;
import org.traccar.helper.PatternBuilder;
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.charset.StandardCharsets;
import java.util.Date;
import java.util.regex.Pattern;
public class UlbotechProtocolDecoder extends BaseProtocolDecoder {
public UlbotechProtocolDecoder(Protocol protocol) {
super(protocol);
}
private static final short DATA_GPS = 0x01;
private static final short DATA_LBS = 0x02;
private static final short DATA_STATUS = 0x03;
private static final short DATA_ODOMETER = 0x04;
private static final short DATA_ADC = 0x05;
private static final short DATA_GEOFENCE = 0x06;
private static final short DATA_OBD2 = 0x07;
private static final short DATA_FUEL = 0x08;
private static final short DATA_OBD2_ALARM = 0x09;
private static final short DATA_HARSH_DRIVER = 0x0A;
private static final short DATA_CANBUS = 0x0B;
private static final short DATA_J1708 = 0x0C;
private static final short DATA_VIN = 0x0D;
private static final short DATA_RFID = 0x0E;
private static final short DATA_EVENT = 0x10;
private void decodeObd(Position position, ByteBuf buf, int length) {
int end = buf.readerIndex() + length;
while (buf.readerIndex() < end) {
int parameterLength = buf.getUnsignedByte(buf.readerIndex()) >> 4;
int mode = buf.readUnsignedByte() & 0x0F;
position.add(ObdDecoder.decode(mode, ByteBufUtil.hexDump(buf.readSlice(parameterLength - 1))));
}
}
private void decodeJ1708(Position position, ByteBuf buf, int length) {
int end = buf.readerIndex() + length;
while (buf.readerIndex() < end) {
int mark = buf.readUnsignedByte();
int len = BitUtil.between(mark, 0, 6);
int type = BitUtil.between(mark, 6, 8);
int id = buf.readUnsignedByte();
if (type == 3) {
id += 256;
}
String value = ByteBufUtil.hexDump(buf.readSlice(len - 1));
if (type == 2 || type == 3) {
position.set("pid" + id, value);
}
}
}
private void decodeDriverBehavior(Position position, ByteBuf buf) {
int value = buf.readUnsignedByte();
if (BitUtil.check(value, 0)) {
position.set("rapidAcceleration", true);
}
if (BitUtil.check(value, 1)) {
position.set("roughBraking", true);
}
if (BitUtil.check(value, 2)) {
position.set("harshCourse", true);
}
if (BitUtil.check(value, 3)) {
position.set("noWarmUp", true);
}
if (BitUtil.check(value, 4)) {
position.set("longIdle", true);
}
if (BitUtil.check(value, 5)) {
position.set("fatigueDriving", true);
}
if (BitUtil.check(value, 6)) {
position.set("roughTerrain", true);
}
if (BitUtil.check(value, 7)) {
position.set("highRpm", true);
}
}
private String decodeAlarm(int alarm) {
if (BitUtil.check(alarm, 0)) {
return Position.ALARM_POWER_OFF;
}
if (BitUtil.check(alarm, 1)) {
return Position.ALARM_MOVEMENT;
}
if (BitUtil.check(alarm, 2)) {
return Position.ALARM_OVERSPEED;
}
if (BitUtil.check(alarm, 4)) {
return Position.ALARM_GEOFENCE;
}
if (BitUtil.check(alarm, 10)) {
return Position.ALARM_SOS;
}
return null;
}
private void decodeAdc(Position position, ByteBuf buf, int length) {
for (int i = 0; i < length / 2; i++) {
int value = buf.readUnsignedShort();
int id = BitUtil.from(value, 12);
value = BitUtil.to(value, 12);
switch (id) {
case 0:
position.set(Position.KEY_POWER, value * (100 + 10) / 4096.0 - 10);
break;
case 1:
position.set(Position.PREFIX_TEMP + 1, value * (125 + 55) / 4096.0 - 55);
break;
case 2:
position.set(Position.KEY_BATTERY, value * (100 + 10) / 4096.0 - 10);
break;
case 3:
position.set(Position.PREFIX_ADC + 1, value * (100 + 10) / 4096.0 - 10);
break;
default:
position.set(Position.PREFIX_IO + id, value);
break;
}
}
}
private static final Pattern PATTERN = new PatternBuilder()
.text("*TS")
.number("dd,") // protocol version
.number("(d{15}),") // device id
.number("(dd)(dd)(dd)") // time
.number("(dd)(dd)(dd),") // date
.expression("([^#]+)") // command
.text("#")
.compile();
private Object decodeText(Channel channel, SocketAddress remoteAddress, String sentence) {
Parser parser = new Parser(PATTERN, sentence);
if (!parser.matches()) {
return null;
}
DeviceSession deviceSession = getDeviceSession(channel, remoteAddress, parser.next());
if (deviceSession == null) {
return null;
}
Position position = new Position(getProtocolName());
position.setDeviceId(deviceSession.getDeviceId());
DateBuilder dateBuilder = new DateBuilder()
.setTime(parser.nextInt(0), parser.nextInt(0), parser.nextInt(0))
.setDateReverse(parser.nextInt(0), parser.nextInt(0), parser.nextInt(0));
getLastLocation(position, dateBuilder.getDate());
position.set(Position.KEY_RESULT, parser.next());
return position;
}
private Object decodeBinary(Channel channel, SocketAddress remoteAddress, ByteBuf buf) {
buf.readUnsignedByte(); // header
buf.readUnsignedByte(); // version
buf.readUnsignedByte(); // type
String imei = ByteBufUtil.hexDump(buf.readSlice(8)).substring(1);
DeviceSession deviceSession = getDeviceSession(channel, remoteAddress, imei);
if (deviceSession == null) {
return null;
}
if (deviceSession.getTimeZone() == null) {
deviceSession.setTimeZone(getTimeZone(deviceSession.getDeviceId()));
}
Position position = new Position(getProtocolName());
position.setDeviceId(deviceSession.getDeviceId());
long seconds = buf.readUnsignedInt() & 0x7fffffffL;
seconds += 946684800L; // 2000-01-01 00:00
seconds -= deviceSession.getTimeZone().getRawOffset() / 1000;
Date time = new Date(seconds * 1000);
boolean hasLocation = false;
while (buf.readableBytes() > 3) {
int type = buf.readUnsignedByte();
int length = type == DATA_CANBUS ? buf.readUnsignedShort() : buf.readUnsignedByte();
switch (type) {
case DATA_GPS:
hasLocation = true;
position.setLatitude(buf.readInt() / 1000000.0);
position.setLongitude(buf.readInt() / 1000000.0);
position.setSpeed(UnitsConverter.knotsFromKph(buf.readUnsignedShort()));
position.setCourse(buf.readUnsignedShort());
int hdop = buf.readUnsignedShort();
position.setValid(hdop < 9999);
position.set(Position.KEY_HDOP, hdop * 0.01);
break;
case DATA_LBS:
if (length == 11) {
position.setNetwork(new Network(CellTower.from(
buf.readUnsignedShort(), buf.readUnsignedShort(),
buf.readUnsignedShort(), buf.readUnsignedInt(), -buf.readUnsignedByte())));
} else {
position.setNetwork(new Network(CellTower.from(
buf.readUnsignedShort(), buf.readUnsignedShort(),
buf.readUnsignedShort(), buf.readUnsignedShort(), -buf.readUnsignedByte())));
}
if (length > 9 && length != 11) {
buf.skipBytes(length - 9);
}
break;
case DATA_STATUS:
int status = buf.readUnsignedShort();
position.set(Position.KEY_IGNITION, BitUtil.check(status, 9));
position.set(Position.KEY_STATUS, status);
position.set(Position.KEY_ALARM, decodeAlarm(buf.readUnsignedShort()));
break;
case DATA_ODOMETER:
position.set(Position.KEY_ODOMETER, buf.readUnsignedInt());
break;
case DATA_ADC:
decodeAdc(position, buf, length);
break;
case DATA_GEOFENCE:
position.set("geofenceIn", buf.readUnsignedInt());
position.set("geofenceAlarm", buf.readUnsignedInt());
break;
case DATA_OBD2:
decodeObd(position, buf, length);
break;
case DATA_FUEL:
position.set(Position.KEY_FUEL_CONSUMPTION, buf.readUnsignedInt() / 10000.0);
break;
case DATA_OBD2_ALARM:
decodeObd(position, buf, length);
break;
case DATA_HARSH_DRIVER:
decodeDriverBehavior(position, buf);
break;
case DATA_CANBUS:
position.set("can", ByteBufUtil.hexDump(buf.readSlice(length)));
break;
case DATA_J1708:
decodeJ1708(position, buf, length);
break;
case DATA_VIN:
position.set(Position.KEY_VIN, buf.readSlice(length).toString(StandardCharsets.US_ASCII));
break;
case DATA_RFID:
position.set(Position.KEY_DRIVER_UNIQUE_ID,
buf.readSlice(length - 1).toString(StandardCharsets.US_ASCII));
position.set("authorized", buf.readUnsignedByte() != 0);
break;
case DATA_EVENT:
position.set(Position.KEY_EVENT, buf.readUnsignedByte());
if (length > 1) {
position.set("eventMask", buf.readUnsignedInt());
}
break;
default:
buf.skipBytes(length);
break;
}
}
if (!hasLocation) {
getLastLocation(position, time);
} else {
position.setTime(time);
}
return position;
}
@Override
protected Object decode(
Channel channel, SocketAddress remoteAddress, Object msg) throws Exception {
ByteBuf buf = (ByteBuf) msg;
if (buf.getUnsignedByte(buf.readerIndex()) == 0xF8) {
if (channel != null) {
ByteBuf response = Unpooled.buffer();
response.writeByte(0xF8);
response.writeByte(DATA_GPS);
response.writeByte(0xFE);
response.writeShort(buf.getShort(response.writerIndex() - 1 - 2));
response.writeShort(Checksum.crc16(Checksum.CRC16_XMODEM, response.nioBuffer(1, 4)));
response.writeByte(0xF8);
channel.writeAndFlush(new NetworkMessage(response, remoteAddress));
}
return decodeBinary(channel, remoteAddress, buf);
} else {
if (channel != null) {
channel.writeAndFlush(new NetworkMessage(Unpooled.copiedBuffer(String.format("*TS01,ACK:%04X#",
Checksum.crc16(Checksum.CRC16_XMODEM, buf.nioBuffer(1, buf.writerIndex() - 2))),
StandardCharsets.US_ASCII), remoteAddress));
}
return decodeText(channel, remoteAddress, buf.toString(StandardCharsets.US_ASCII));
}
}
}
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