package jiexi;
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import java.nio.ByteBuffer;
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import java.nio.ByteOrder;
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import java.nio.charset.StandardCharsets;
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import java.util.Arrays;
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import java.util.HashMap;
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import java.util.Map;
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import java.util.Vector;
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import java.util.regex.Pattern;
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public class DellS2 {
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static String s2_mac="";
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static Vector<S2data> row=new Vector<>();
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public static byte[] serch() {
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String data="FF010102";
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byte[] byt=hexStrToBinaryStr(data);
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return byt;
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}
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/**处理搜索命令返回的结果*/
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public static void serch_fanhui(String hex) {
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String[] hexs=gethex(hex);
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String s2_ip=gi(hexs[5])+"."+gi(hexs[6])+"."+gi(hexs[7])+"."+gi(hexs[8]);;
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s2_mac=hexs[9]+hexs[10]+hexs[11]+hexs[12]+hexs[13]+hexs[14];
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String s2_version1=hexs[18]+hexs[17]+hexs[16]+hexs[15];
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String s2_version=gi(s2_version1)+"";
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StringBuffer name=new StringBuffer();
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for(int i=19;i<35;i++) {
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name.append(hexs[i]);
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}
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String s2_name=toStringHex2(name.toString());
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if(gets2(s2_mac) ==null) {
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Vector<String> rowData=new Vector<>();
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S2data s2=new S2data();
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s2.setIp(s2_ip);
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s2.setName(s2_name);
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s2.setMac(s2_mac);
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s2.setVersion(s2_version);
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row.add(s2);
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}else {
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gets2(s2_mac).setIp(s2_ip);
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gets2(s2_mac).setName(s2_name);
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gets2(s2_mac).setVersion(s2_version);
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}
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name=null;
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hexs=null;
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}
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/**通过MAC地址找到S2*/
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public static S2data gets2(String mac) {
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S2data s2=null;
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if(row.size() !=0) {
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for(int i=0;i<row.size();i++) {
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S2data news2=row.get(i);
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if(news2.getMac().equals(mac)) {
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s2=news2;
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break;
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}
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}
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}
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return s2;
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}
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public static String[] gethex(String hex) {
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int lenth=hex.length()/2;
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String[] hexs=new String[lenth];
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for(int i=0;i<lenth;i++) {
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hexs[i]=hex.substring(i*2, 2+i*2);
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}
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return hexs;
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}
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/**转化十六进制编码为字符串*/
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public static String toStringHex2(String s) {
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byte[] baKeyword = new byte[s.length() / 2];
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for (int i = 0; i < baKeyword.length; i++) {
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try {
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baKeyword[i] = (byte) (0xff & Integer.parseInt(s.substring(
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i * 2, i * 2 + 2), 16));
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} catch (Exception e) {
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e.printStackTrace();
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}
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}
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try {
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s = new String(baKeyword, "gb2312");// UTF-16le:Not
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} catch (Exception e1) {
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e1.printStackTrace();
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}
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return s;
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}
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/**读取配置信息
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* 发送(22 字节 FF 13 03 D8 B0 4C 46 35 CA 61 64 6D 69 6E 00 61 64 6D 69 6E 00 41 ,
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* 和校验 41 =13 + 03 + ... + 6E + 00 ,第 4 位到第 9 位是 S2 的 MAC 地址,
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* 校验位前的最后的 12 个字节为 S2 的用户名与密码,均为 6 字节,不足,补 0 。*/
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public static byte[] reads2peizhi(byte type,String mac) {
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byte[] buf =new byte[22];
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byte[] buf1 =new byte[20];
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//包头
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buf[0]=(byte) 0xFF;
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//数据长度
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buf1[0]=(byte) 0x13;
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//命令类型1字节
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buf1[1]=type;
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//mac地址6字节
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byte[] bytmac=hexStrToBinaryStr(mac);
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for(int i=0;i<6;i++) {
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buf1[i+2]=bytmac[i];
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}
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//用户名和密码12字节admin,admin
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byte[] bytnp=hexStrToBinaryStr("61 64 6D 69 6E 00 61 64 6D 69 6E 00");
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for(int i=0;i<12;i++) {
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buf1[i+8]=bytnp[i];
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}
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for(int i=0;i<buf1.length;i++) {
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buf[i+1]=buf1[i];
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}
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//校验码
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buf[21]=Jiaoyan.checkqiuhe(buf1)[0];
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return buf;
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}
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/**将16进制转为10进制*/
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public static int gi(String hex){
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int a1=Integer.parseInt(hex, 16);
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return a1;
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}
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public static Vector<S2data> getRow() {
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return row;
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}
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public static Map<String, Object> parseDeviceConfig(String hexData) {
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Map<String, Object> result = new HashMap<>();
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byte[] data = hexStringToByteArray(hexData);
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ByteBuffer buffer = ByteBuffer.wrap(data).order(ByteOrder.LITTLE_ENDIAN);
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// 解析第一部分数据 (0-63字节)
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parseFirstPart(buffer, result);
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// 解析第二部分数据 (64-127字节)
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parseSecondPart(buffer, result);
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return result;
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}
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private static void parseFirstPart(ByteBuffer buffer, Map<String, Object> result) {
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// ucSequenceNum (1字节)
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result.put("ucSequenceNum", String.format("%02X", buffer.get()));
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// ucCRC (1字节)
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result.put("ucCRC", String.format("%02X", buffer.get()));
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// ucVersion (1字节)
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result.put("ucVersion", String.format("%02X", buffer.get()));
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// ucFlags (1字节) - 需要按位解析
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byte ucFlags = buffer.get();
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result.put("ucFlags", String.format("%02X", ucFlags));
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result.put("IP类型", (ucFlags & 0x80) != 0 ? "静态IP" : "DHCP");
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result.put("连接类型", (ucFlags & 0x40) != 0 ? "短连接" : "长连接");
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result.put("缓存清理", (ucFlags & 0x20) != 0 ? "清理缓存" : "不清理缓存");
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// usLocationURLPort (2字节) - 预留
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result.put("usLocationURLPort", String.format("%04X", buffer.getShort()));
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// usHTTPServerPort (2字节)
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result.put("usHTTPServerPort", buffer.getShort() & 0xFFFF);
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// ucUserFlag (1字节) - 预留
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result.put("ucUserFlag", String.format("%02X", buffer.get()));
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// ulStaticIP (4字节) - 静态IP地址
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byte[] ipBytes = new byte[4];
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buffer.get(ipBytes);
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result.put("ulStaticIP", bytesToIp(ipBytes));
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// ulGatewayIP (4字节) - 网关
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buffer.get(ipBytes);
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result.put("ulGatewayIP", bytesToIp(ipBytes));
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// ulSubnetMask (4字节) - 子网掩码
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buffer.get(ipBytes);
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result.put("ulSubnetMask", bytesToIp(ipBytes));
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// ucModName (14字节) - 模块名称
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byte[] nameBytes = new byte[14];
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buffer.get(nameBytes);
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result.put("ucModName", new String(nameBytes).trim());
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// 协议预留 (2字节)
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result.put("协议预留", String.format("%04X", buffer.getShort()));
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// username (6字节) - 用户名
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byte[] userBytes = new byte[6];
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buffer.get(userBytes);
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result.put("username", new String(userBytes).trim());
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// password (6字节) - 密码
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byte[] pwdBytes = new byte[6];
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buffer.get(pwdBytes);
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result.put("password", new String(pwdBytes).trim());
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// ucNetSendTime (1字节) - 预留
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result.put("ucNetSendTime", String.format("%02X", buffer.get()));
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// ulid (2字节) - 设备ID
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result.put("ulid", buffer.getShort() & 0xFFFF);
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// 解析ulid的标志位
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short ulid = (short) (result.get("ulid"));
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result.put("RFC2217", (ulid & 0x80) != 0 ? "开启" : "关闭");
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result.put("index功能", (ulid & 0x40) != 0 ? "开启" : "关闭");
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result.put("link功能", (ulid & 0x20) != 0 ? "开启" : "关闭");
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result.put("reset功能", (ulid & 0x10) != 0 ? "开启" : "关闭");
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result.put("发送数据带ID", (ulid & 0x04) != 0 ? "开启" : "关闭");
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result.put("建立连接发送ID", (ulid & 0x02) != 0 ? "开启" : "关闭");
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// mac_addrs (6字节) - MAC地址
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byte[] macBytes = new byte[6];
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buffer.get(macBytes);
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result.put("mac_addrs", bytesToMac(macBytes));
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// DNSGatewayIP (4字节) - DNS服务器地址
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buffer.get(ipBytes);
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result.put("DNSGatewayIP", bytesToIp(ipBytes));
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// TC_sh_time (1字节) - 短连接断开时间
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result.put("TC_sh_time", buffer.get() & 0xFF);
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// ucReserved (3字节) - 预留
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byte[] reserved = new byte[3];
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buffer.get(reserved);
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result.put("ucReserved", bytesToHex(reserved));
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}
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private static void parseSecondPart(ByteBuffer buffer, Map<String, Object> result) {
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// uIBaudRate (4字节) - 串口波特率
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result.put("uIBaudRate", buffer.getInt());
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// ucDataSize (1字节) - 串口数据位
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byte dataSize = buffer.get();
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result.put("ucDataSize", dataSize & 0xFF);
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result.put("数据位", getDataSizeDesc(dataSize));
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// ucParity (1字节) - 串口校验位
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byte parity = buffer.get();
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result.put("ucParity", parity & 0xFF);
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result.put("校验位", getParityDesc(parity));
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// ucStopBits (1字节) - 串口停止位
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byte stopBits = buffer.get();
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result.put("ucStopBits", stopBits & 0xFF);
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result.put("停止位", getStopBitsDesc(stopBits));
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// ucFlowControl (1字节) - 预留
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result.put("ucFlowControl", String.format("%02X", buffer.get()));
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// uITelnetTimeout (4字节) - 预留
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result.put("uITelnetTimeout", buffer.getInt());
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// usTelnetLocalPort (2字节) - 本地端口
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result.put("usTelnetLocalPort", buffer.getShort() & 0xFFFF);
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// usTelnetRemotePort (2字节) - 远程端口
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result.put("usTelnetRemotePort", buffer.getShort() & 0xFFFF);
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// uITelnetURL (30字节) - IP地址或域名
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byte[] urlBytes = new byte[30];
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buffer.get(urlBytes);
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String url = new String(urlBytes).trim();
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result.put("uITelnetURL", url);
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// uITelnetIPAddr (4字节) - 目标IP设置
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byte[] ipBytes = new byte[4];
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buffer.get(ipBytes);
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result.put("uITelnetIPAddr", bytesToIp(ipBytes));
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// ucFlags (1字节) - 标志位
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byte ucFlags2 = buffer.get();
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result.put("ucFlags2", String.format("%02X", ucFlags2));
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result.put("通信云", (ucFlags2 & 0x10) != 0 ? "开启" : "关闭");
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result.put("TCP Server跳回连接", (ucFlags2 & 0x40) != 0 ? "开启" : "关闭");
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result.put("MAC注册包", (ucFlags2 & 0x80) != 0 ? "开启" : "关闭");
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// ucWorkMode (1字节) - 工作方式
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byte workMode = buffer.get();
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result.put("ucWorkMode", workMode & 0xFF);
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result.put("工作方式", getWorkModeDesc(workMode));
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// HTTPucFlags (1字节) - HTTP模式
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byte httpFlags = buffer.get();
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result.put("HTTPucFlags", httpFlags & 0xFF);
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result.put("HTTP模式", httpFlags == 0 ? "HTTPD GET" : "HTTPD POST");
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// tc_number (1字节) - TCP Server可连接的Client数量
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result.put("tc_number", buffer.get() & 0xFF);
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// Timeout_restart (2字节) - 超时重启时间
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result.put("Timeout_restart", buffer.getShort() & 0xFFFF);
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// cos_register_flag (1字节) - 自定义注册包
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result.put("cos_register_flag", String.format("%02X", buffer.get()));
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// ucTimeCount (1字节) - 时间计数
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result.put("ucTimeCount", String.format("%02X", buffer.get()));
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// uiPackLen (2字节) - 包长度
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result.put("uiPackLen", buffer.getShort() & 0xFFFF);
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// ucReserved2 (3字节) - 预留
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byte[] reserved2 = new byte[3];
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buffer.get(reserved2);
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result.put("ucReserved2", bytesToHex(reserved2));
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}
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// 辅助方法
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private static byte[] hexStringToByteArray(String s) {
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int len = s.length();
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byte[] data = new byte[len / 2];
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for (int i = 0; i < len; i += 2) {
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data[i / 2] = (byte) ((Character.digit(s.charAt(i), 16) << 4)
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+ Character.digit(s.charAt(i+1), 16));
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}
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return data;
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}
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private static String bytesToIp(byte[] bytes) {
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return String.format("%d.%d.%d.%d",
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bytes[0] & 0xFF, bytes[1] & 0xFF, bytes[2] & 0xFF, bytes[3] & 0xFF);
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}
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private static String bytesToMac(byte[] bytes) {
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StringBuilder sb = new StringBuilder();
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for (int i = 0; i < bytes.length; i++) {
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sb.append(String.format("%02X", bytes[i]));
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if (i < bytes.length - 1) {
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sb.append(":");
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}
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}
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return sb.toString();
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}
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private static String bytesToHex(byte[] bytes) {
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StringBuilder sb = new StringBuilder();
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for (byte b : bytes) {
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sb.append(String.format("%02X", b));
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}
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return sb.toString();
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}
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private static String getDataSizeDesc(byte dataSize) {
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switch (dataSize) {
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case 0x05: return "5位";
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case 0x06: return "6位";
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case 0x07: return "7位";
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case 0x08: return "8位";
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default: return "未知";
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}
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}
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private static String getParityDesc(byte parity) {
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switch (parity) {
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case 1: return "无校验";
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case 2: return "奇校验";
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case 3: return "偶校验";
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case 4: return "标记校验";
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case 5: return "空格校验";
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default: return "未知";
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}
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}
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private static String getStopBitsDesc(byte stopBits) {
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switch (stopBits) {
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case 0x01: return "1位";
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case 0x02: return "2位";
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default: return "未知";
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}
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}
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private static String getWorkModeDesc(byte workMode) {
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switch (workMode) {
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case 0: return "UDP";
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case 1: return "TCP Client";
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case 2: return "UDP Server";
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case 3: return "TCP Server";
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case 4: return "HTTPD Client";
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default: return "未知";
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}
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}
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private static final byte[] ADMIN_CREDENTIALS = hexStrToBinaryStr("61 64 6D 69 6E 00 61 64 6D 69 6E 00");
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private static final byte[] DNS_SERVER = hexStrToBinaryStr("DE DE 43 D0 03 00 00 00");
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private static final byte HEADER = (byte) 0xFF;
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private static final byte DATA_LENGTH = (byte) 0x56;
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private static final byte COMMAND_TYPE = (byte) 0x05;
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private static final byte RESERVED_HEADER1 = (byte) 0x95;
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private static final byte RESERVED_HEADER2 = (byte) 0x63;
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private static final byte RESERVED_HEADER3 = (byte) 0x03;
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private static final byte UC_FLAGS = (byte) 0x90;
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private static final byte UC_USER_FLAG = (byte) 0x00;
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private static final byte UC_NET_SEND_TIME = (byte) 0x00;
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private static final byte UC_TYPE = (byte) 0x80;
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public static byte[] alert_s2(String ips, String wangguan, String ziwang, String mokuaiid, String macid) {
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// 使用常量定义固定值
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byte[] buf = new byte[89];
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byte[] buf1 = new byte[87];
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// 设置包头和数据长度
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buf[0] = HEADER;
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buf1[0] = DATA_LENGTH;
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buf1[1] = COMMAND_TYPE;
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// MAC地址处理
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byte[] bytmac = hexStrToBinaryStr(s2_mac);
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System.arraycopy(bytmac, 0, buf1, 2, 6);
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// 用户名和密码
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System.arraycopy(ADMIN_CREDENTIALS, 0, buf1, 8, 12);
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// 预留包头和标志位
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buf1[20] = RESERVED_HEADER1;
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buf1[21] = RESERVED_HEADER2;
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buf1[22] = RESERVED_HEADER3;
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buf1[23] = UC_FLAGS;
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// 端口设置
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buf1[24] = (byte) 0x00; // usLocationURLport low
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buf1[25] = (byte) 0x00; // usLocationURLport high
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buf1[26] = (byte) 0x50; // usHTTPServerPort low (80端口)
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buf1[27] = (byte) 0x00; // usHTTPServerPort high
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buf1[28] = UC_USER_FLAG;
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// IP地址设置
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System.arraycopy(getip(ips), 0, buf1, 29, 4); // 静态IP
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System.arraycopy(getip(wangguan), 0, buf1, 33, 4); // 网关
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System.arraycopy(getip(ziwang), 0, buf1, 37, 4); // 子网掩码
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// 模块名称
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byte[] moduleName = idname(mokuaiid);
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System.arraycopy(moduleName, 0, buf1, 41, Math.min(moduleName.length, 14));
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// 预留和用户信息
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buf1[55] = (byte) 0x00;
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buf1[56] = (byte) 0x00;
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System.arraycopy(ADMIN_CREDENTIALS, 0, buf1, 57, 12);
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// 其他字段
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buf1[69] = UC_NET_SEND_TIME;
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buf1[70] = (byte) 0x01; // uiId low
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buf1[71] = (byte) 0x00; // uiId high
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buf1[72] = UC_TYPE;
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// MAC地址再次设置
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byte[] macBytes = hexStrToBinaryStr(macid);
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System.arraycopy(macBytes, 0, buf1, 73, 6);
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// DNS服务器
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System.arraycopy(DNS_SERVER, 0, buf1, 79, 8);
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// 复制数据到主缓冲区
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System.arraycopy(buf1, 0, buf, 1, buf1.length);
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// 计算校验码
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buf[88] = Jiaoyan.checkqiuhe(buf1)[0];
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return buf;
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}
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private static final byte[] ADMIN_CREDENTIALS1 = hexStrToBinaryStr("61 64 6D 69 6E 00 61 64 6D 69 6E 00");
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private static final byte HEADER1 = (byte) 0xFF;
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private static final byte DATA_LENGTH1 = (byte) 0x52;
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private static final byte COMMAND_TYPE1 = (byte) 0x06;
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// 波特率配置映射
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private static final Map<String, String> BAUDRATE_CONFIG = Map.of(
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"921600", "00 10 0E 00",
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"default", "00 C2 01 00"
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);
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// 服务器后固定字节
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private static final String SERVER_SUFFIX_TEMPLATE = "64 01 A8 C0 20 %s 00 04 10 0E 00 00 00 00 00 00 00";
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/**
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* 串口参数配置
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* 用来配置网口及串口的众多参数,共有63个字节
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*/
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public static byte[] alert_s2_chuankou(String address, String macid, String model, String mbport, String botelv) {
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// 定义常量
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byte[] buf = new byte[85];
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byte[] buf1 = new byte[83];
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// 设置包头和数据长度
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buf[0] = HEADER1;
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buf1[0] = DATA_LENGTH1;
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buf1[1] = COMMAND_TYPE1;
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// MAC地址
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byte[] bytmac = hexStrToBinaryStr(macid);
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System.arraycopy(bytmac, 0, buf1, 2, 6);
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// 用户名和密码
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System.arraycopy(ADMIN_CREDENTIALS1, 0, buf1, 8, 12);
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// 波特率相关参数配置
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String baudrateConfig = BAUDRATE_CONFIG.getOrDefault(botelv, BAUDRATE_CONFIG.get("default"));
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String serialParams = String.format("%s 08 01 01 01 00 00 00 00 29 20", baudrateConfig);
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byte[] serialData = hexStrToBinaryStr(serialParams);
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System.arraycopy(serialData, 0, buf1, 20, serialData.length);
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// 远程端口设置
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int port = Integer.parseInt(mbport);
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byte[] portBytes = intToRegisters(port);
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buf1[34] = portBytes[3];
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buf1[35] = portBytes[2];
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// 服务器IP地址设置
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byte[] addressBytes = formatAddress(address);
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System.arraycopy(addressBytes, 0, buf1, 36, addressBytes.length);
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// 服务器后字节设置
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String serverSuffix = String.format(SERVER_SUFFIX_TEMPLATE, model);
|
byte[] suffixData = hexStrToBinaryStr(serverSuffix);
|
System.arraycopy(suffixData, 0, buf1, 66, suffixData.length);
|
|
// 复制到主缓冲区
|
System.arraycopy(buf1, 0, buf, 1, buf1.length);
|
|
// 计算校验码
|
buf[84] = Jiaoyan.checkqiuhe(buf1)[0];
|
|
return buf;
|
}
|
|
/**
|
* 格式化地址信息为字节数组
|
*/
|
private static byte[] formatAddress(String address) {
|
// 根据实际需求实现地址格式化逻辑
|
// 这里假设需要将地址转换为30字节的格式
|
byte[] result = new byte[30];
|
try {
|
byte[] addressBytes = address.getBytes(StandardCharsets.US_ASCII);
|
System.arraycopy(addressBytes, 0, result, 0, Math.min(addressBytes.length, 30));
|
} catch (Exception e) {
|
// 处理编码异常,填充默认值
|
Arrays.fill(result, (byte) 0x00);
|
}
|
return result;
|
}
|
|
/**
|
* 将整数转换为寄存器字节数组(假设实现)
|
*/
|
private static byte[] intToRegisters(int value) {
|
byte[] result = new byte[4];
|
result[0] = (byte) ((value >> 24) & 0xFF);
|
result[1] = (byte) ((value >> 16) & 0xFF);
|
result[2] = (byte) ((value >> 8) & 0xFF);
|
result[3] = (byte) (value & 0xFF);
|
return result;
|
}
|
|
/**模块名称转为字节数组*/
|
public static byte[] idname(String name) {
|
StringBuffer hexstr=new StringBuffer(asciiToHex(name));
|
int size=hexstr.length();
|
if(size<28) {
|
for(int i=0;i<(28-size);i++) {
|
hexstr.append("0");
|
}
|
}
|
byte[] byt=hexStrToBinaryStr(hexstr.toString());
|
|
return byt;
|
}
|
|
|
/**ASCLL转为HEX*/
|
private static String asciiToHex(String asciiStr) {
|
char[] chars = asciiStr.toCharArray();
|
StringBuilder hex = new StringBuilder();
|
for (char ch : chars) {
|
hex.append(Integer.toHexString((int) ch));
|
}
|
return hex.toString();
|
}
|
|
public static byte[] hexStrToBinaryStr(String hexString) {
|
|
|
if (hexString==null) {
|
return null;
|
}
|
|
hexString = hexString.replaceAll(" ", "");
|
|
int len = hexString.length();
|
int index = 0;
|
|
|
byte[] bytes = new byte[len / 2];
|
|
while (index < len) {
|
|
String sub = hexString.substring(index, index + 2);
|
bytes[index/2] = (byte)Integer.parseInt(sub,16);
|
index += 2;
|
}
|
|
|
return bytes;
|
}
|
|
/**将IP地址转为字节数组*/
|
public static byte[] getip(String ipss) {
|
byte[] byt=null;
|
if(ipss !=null) {
|
byt=new byte[4];
|
String[] ips=ipss.split("\\.");
|
String hex3= Integer.toHexString(Integer.parseInt(ips[3]));
|
if(hex3.length()<2) {
|
hex3="0"+hex3;
|
}
|
String hex2= Integer.toHexString(Integer.parseInt(ips[2]));
|
if(hex2.length()<2) {
|
hex2="0"+hex2;
|
}
|
String hex1= Integer.toHexString(Integer.parseInt(ips[1]));
|
if(hex1.length()<2) {
|
hex1="0"+hex1;
|
}
|
String hex0= Integer.toHexString(Integer.parseInt(ips[0]));
|
if(hex0.length()<2) {
|
hex0="0"+hex0;
|
}
|
String hex=hex3+hex2+hex1+hex0;
|
byt=hexStrToBinaryStr(hex);
|
|
}
|
return byt;
|
}
|
|
}
|
