/* * Copyright 2012 - 2015 Anton Tananaev (anton.tananaev@gmail.com) * * 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 java.net.InetSocketAddress; import java.net.SocketAddress; import java.nio.charset.Charset; import java.util.Calendar; import java.util.TimeZone; import java.util.regex.Matcher; import java.util.regex.Pattern; import org.jboss.netty.buffer.ChannelBuffer; import org.jboss.netty.buffer.ChannelBuffers; import org.jboss.netty.channel.Channel; import org.traccar.BaseProtocolDecoder; import org.traccar.Context; import org.traccar.helper.Checksum; import org.traccar.model.Event; import org.traccar.model.Position; public class MeiligaoProtocolDecoder extends BaseProtocolDecoder { public MeiligaoProtocolDecoder(MeiligaoProtocol protocol) { super(protocol); } private static final Pattern pattern = Pattern.compile( "(\\d{2})(\\d{2})(\\d{2})\\.?(\\d+)?," + // Time (HHMMSS.SSS) "([AV])," + // Validity "(\\d+)(\\d{2}\\.\\d+)," + // Latitude (DDMM.MMMM) "([NS])," + "(\\d+)(\\d{2}\\.\\d+)," + // Longitude (DDDMM.MMMM) "([EW])," + "(\\d+\\.?\\d*)?," + // Speed "(\\d+\\.?\\d*)?," + // Course "(\\d{2})(\\d{2})(\\d{2})" + // Date (DDMMYY) "[^\\|]*" + "(?:\\|(\\d+\\.\\d+)?" + // HDOP "\\|(-?\\d+\\.?\\d*)?" + // Altitude "\\|(\\p{XDigit}{4})?" + // State "(?:\\|(\\p{XDigit}{4}),(\\p{XDigit}{4})" + // ADC "(?:,(\\p{XDigit}{4}),(\\p{XDigit}{4}),(\\p{XDigit}{4}),(\\p{XDigit}{4}),(\\p{XDigit}{4}),(\\p{XDigit}{4}))?" + "(?:\\|" + "(?:(\\p{XDigit}{16})" + // Cell "\\|(\\p{XDigit}{2})" + // GSM "\\|(\\p{XDigit}{8})|" + // Odometer "(\\p{XDigit}{9})" + // Odometer "(?:\\|(\\p{XDigit}{5,}))?)?)?)?)?" + // RFID ".*"); private static final Pattern rfidPattern = Pattern.compile( "\\|(\\d{2})(\\d{2})(\\d{2})," + // Time (HHMMSS) "(\\d{2})(\\d{2})(\\d{2})," + // Date (DDMMYY) "(\\d+)(\\d{2}\\.\\d+)," + // Latitude (DDMM.MMMM) "([NS])," + "(\\d+)(\\d{2}\\.\\d+)," + // Longitude (DDDMM.MMMM) "([EW])"); private static final int MSG_HEARTBEAT = 0x0001; private static final int MSG_SERVER = 0x0002; private static final int MSG_LOGIN = 0x5000; private static final int MSG_LOGIN_RESPONSE = 0x4000; private static final int MSG_POSITION = 0x9955; private static final int MSG_POSITION_LOGGED = 0x9016; private static final int MSG_ALARM = 0x9999; private static final int MSG_RFID = 0x9966; private boolean identify(ChannelBuffer buf, Channel channel) { String id = ""; for (int i = 0; i < 7; i++) { int b = buf.readUnsignedByte(); // First digit int d1 = (b & 0xf0) >> 4; if (d1 == 0xf) break; id += d1; // Second digit int d2 = (b & 0x0f); if (d2 == 0xf) break; id += d2; } if (id.length() == 14) { // Try to recreate full IMEI number // Sometimes first digit is cut, so this won't work if (identify(id + Checksum.luhn(Long.parseLong(id)), channel, null, false)) { return true; } } return identify(id, channel); } private static void sendResponse( Channel channel, ChannelBuffer id, int type, ChannelBuffer msg) { if (channel != null) { ChannelBuffer buf = ChannelBuffers.buffer( 2 + 2 + id.readableBytes() + 2 + msg.readableBytes() + 2 + 2); buf.writeByte('@'); buf.writeByte('@'); buf.writeShort(buf.capacity()); buf.writeBytes(id); buf.writeShort(type); buf.writeBytes(msg); buf.writeShort(Checksum.crc16(Checksum.CRC16_CCITT_FALSE, buf.toByteBuffer())); buf.writeByte('\r'); buf.writeByte('\n'); channel.write(buf); } } private String getMeiligaoServer(Channel channel) { String server = Context.getConfig().getString(getProtocolName() + ".server"); if (server == null) { InetSocketAddress address = (InetSocketAddress) channel.getLocalAddress(); server = address.getAddress().getHostAddress() + ":" + address.getPort(); } return server; } @Override protected Object decode( Channel channel, SocketAddress remoteAddress, Object msg) throws Exception { ChannelBuffer buf = (ChannelBuffer) msg; buf.skipBytes(2); // header buf.readShort(); // length ChannelBuffer id = buf.readBytes(7); int command = buf.readUnsignedShort(); ChannelBuffer response; switch (command) { case MSG_LOGIN: if (channel != null) { response = ChannelBuffers.wrappedBuffer(new byte[] {0x01}); sendResponse(channel, id, MSG_LOGIN_RESPONSE, response); } return null; case MSG_HEARTBEAT: if (channel != null) { response = ChannelBuffers.wrappedBuffer(new byte[] {0x01}); sendResponse(channel, id, MSG_HEARTBEAT, response); } return null; case MSG_SERVER: if (channel != null) { response = ChannelBuffers.copiedBuffer( getMeiligaoServer(channel), Charset.defaultCharset()); sendResponse(channel, id, MSG_SERVER, response); } return null; case MSG_POSITION: case MSG_POSITION_LOGGED: case MSG_ALARM: case MSG_RFID: break; default: return null; } // Create new position Position position = new Position(); position.setProtocol(getProtocolName()); // Custom data if (command == MSG_ALARM) { position.set(Event.KEY_ALARM, buf.readUnsignedByte()); } else if (command == MSG_POSITION_LOGGED) { buf.skipBytes(6); } // Get device by id if (!identify(id, channel)) { return null; } position.setDeviceId(getDeviceId()); // RFID if (command == MSG_RFID) { for (int i = 0; i < 15; i++) { long rfid = buf.readUnsignedInt(); if (rfid != 0) { String card = String.format("%010d", rfid); position.set("card" + (i + 1), card); position.set(Event.KEY_RFID, card); } } } // Parse message String sentence = buf.toString(buf.readerIndex(), buf.readableBytes() - 4, Charset.defaultCharset()); Matcher parser = (command == MSG_RFID ? rfidPattern : pattern).matcher(sentence); if (!parser.matches()) { return null; } Integer index = 1; if (command == MSG_RFID) { // Time and date Calendar time = Calendar.getInstance(TimeZone.getTimeZone("UTC")); time.clear(); time.set(Calendar.HOUR_OF_DAY, Integer.parseInt(parser.group(index++))); time.set(Calendar.MINUTE, Integer.parseInt(parser.group(index++))); time.set(Calendar.SECOND, Integer.parseInt(parser.group(index++))); time.set(Calendar.DAY_OF_MONTH, Integer.parseInt(parser.group(index++))); time.set(Calendar.MONTH, Integer.parseInt(parser.group(index++)) - 1); time.set(Calendar.YEAR, 2000 + Integer.parseInt(parser.group(index++))); position.setTime(time.getTime()); // Latitude Double latitude = Double.valueOf(parser.group(index++)); latitude += Double.valueOf(parser.group(index++)) / 60; if (parser.group(index++).compareTo("S") == 0) latitude = -latitude; position.setLatitude(latitude); // Longitude Double longitude = Double.valueOf(parser.group(index++)); longitude += Double.valueOf(parser.group(index++)) / 60; if (parser.group(index++).compareTo("W") == 0) longitude = -longitude; position.setLongitude(longitude); } else { // Time Calendar time = Calendar.getInstance(TimeZone.getTimeZone("UTC")); time.clear(); time.set(Calendar.HOUR_OF_DAY, Integer.parseInt(parser.group(index++))); time.set(Calendar.MINUTE, Integer.parseInt(parser.group(index++))); time.set(Calendar.SECOND, Integer.parseInt(parser.group(index++))); String mseconds = parser.group(index++); if (mseconds != null) { time.set(Calendar.MILLISECOND, Integer.parseInt(mseconds)); } // Validity position.setValid(parser.group(index++).compareTo("A") == 0); // Latitude Double latitude = Double.valueOf(parser.group(index++)); latitude += Double.valueOf(parser.group(index++)) / 60; if (parser.group(index++).compareTo("S") == 0) latitude = -latitude; position.setLatitude(latitude); // Longitude Double longitude = Double.valueOf(parser.group(index++)); longitude += Double.valueOf(parser.group(index++)) / 60; if (parser.group(index++).compareTo("W") == 0) longitude = -longitude; position.setLongitude(longitude); // Speed String speed = parser.group(index++); if (speed != null) { position.setSpeed(Double.valueOf(speed)); } // Course String course = parser.group(index++); if (course != null) { position.setCourse(Double.valueOf(course)); } // Date time.set(Calendar.DAY_OF_MONTH, Integer.parseInt(parser.group(index++))); time.set(Calendar.MONTH, Integer.parseInt(parser.group(index++)) - 1); time.set(Calendar.YEAR, 2000 + Integer.parseInt(parser.group(index++))); position.setTime(time.getTime()); // HDOP position.set(Event.KEY_HDOP, parser.group(index++)); // Altitude String altitude = parser.group(index++); if (altitude != null) { position.setAltitude(Double.valueOf(altitude)); } // State String state = parser.group(index++); if (state != null) { position.set(Event.KEY_STATUS, state); } // ADC for (int i = 1; i <= 8; i++) { String adc = parser.group(index++); if (adc != null) { position.set(Event.PREFIX_ADC + i, Integer.parseInt(adc, 16)); } } // Cell identifier position.set(Event.KEY_CELL, parser.group(index++)); // GSM signal String gsm = parser.group(index++); if (gsm != null) { position.set(Event.KEY_GSM, Integer.parseInt(gsm, 16)); } // Odometer String odometer = parser.group(index++); if (odometer == null) { odometer = parser.group(index++); } if (odometer != null) { position.set(Event.KEY_ODOMETER, Integer.parseInt(odometer, 16)); } // RFID String rfid = parser.group(index++); if (rfid != null) { position.set(Event.KEY_RFID, Integer.parseInt(rfid, 16)); } } return position; } }