package com.dy.common.mw.protocol.p206V202404.parse.global; import com.dy.common.mw.protocol.p206V202404.ProtocolConstantV206V202404; import com.dy.common.mw.protocol.p206V202404.upVos.DataCd80Vo; import com.dy.common.mw.protocol.p206V202404.upVos.DataCd81Vo; import com.dy.common.util.ByteUtil; import com.dy.common.util.ByteUtilUnsigned; import org.apache.logging.log4j.LogManager; import org.apache.logging.log4j.Logger; public class GlParse { private static final Logger log = LogManager.getLogger(GlParse.class); /** * 分析上行数据中的时钟 * @param bs 上行字节数组 * @param index 启始位 * @return 控制器地址 * @throws Exception 异常 */ public static String parseRtuDt(byte[] bs, int index)throws Exception{ String ss = ByteUtil.BCD2String_BE(bs, index, index) ; index++ ; String MM = ByteUtil.BCD2String_BE(bs, index, index) ; index++ ; String HH = ByteUtil.BCD2String_BE(bs, index, index) ; index++ ; String dd = ByteUtil.BCD2String_BE(bs, index, index) ; index++ ; String mm = ByteUtil.BCD2String_BE(bs, index, index) ; index++ ; String yy = ByteUtil.BCD2String_BE(bs, index, index) ; return yy + "-" + mm + "-" + dd + " " + HH + ":" + MM + ":" + ss ; } /** * 分析IC卡编号 * @param bs 上行字节数组 * @param index 启始位 * @param len1 第一部分字节数 * @param len2 第二部分字节数 * @return 控制器地址 * @throws Exception 异常 */ public static String parseIcCardNo(byte[] bs, int index, int len1, int len2)throws Exception{ String rtuAddrBCD = "" + ByteUtil.BCD2Long_BE(bs, index, index + len1 - 1) ; String rtuAddrStr = "" + ByteUtilUnsigned.bytes2Short_LE(bs, index + len1 + len2 -1 ) ; while(rtuAddrStr.length() < 5){ rtuAddrStr = "0" + rtuAddrStr ; } return rtuAddrBCD + rtuAddrStr ; } /** * 分析状态与报警 * @param bs * @param index * @return */ public static void parseAlarmAndState(byte[] bs, int index, DataCd80Vo vo){ byte b = bs[index] ; vo.statePump = (byte)(b & 0x1) ; vo.alarmWaterRemain = (byte)(b & 0x2) ; vo.alarm0WaterRemain = (byte)(b & 0x4) ; vo.alarmExceedYear = (byte)(b & 0x8) ; vo.alarmWaterMeterFault = (byte)(b & 0x10) ; vo.alarmSteal = (byte)(b & 0x20) ; vo.alarmWaterMeterBreak = (byte)(b & 0x40) ; vo.alarmEleMeterFault = (byte)(b & 0x80) ; index++ ; b = bs[index] ; vo.alarm0MoneyRemain = (byte)(b & 0x1) ; vo.alarmInnerDoor = (byte)(b & 0x2) ; vo.alarmOuterDoor = (byte)(b & 0x4) ; vo.alarmEleMiss = (byte)(b & 0x8) ; vo.alarmEleExceed = (byte)(b & 0x10) ; vo.alarmEleLowVolt = (byte)(b & 0x20) ; vo.stateIcEnable = (byte)(b & 0x40) ; } /** * 分析状态与报警 * @param bs * @param index * @return */ public static void parseAlarmAndState(byte[] bs, int index, DataCd81Vo vo){ byte b = bs[index] ; vo.statePump = (byte)(b & 0x1) ; vo.alarmWaterRemain = (byte)(b & 0x2) ; vo.alarm0WaterRemain = (byte)(b & 0x4) ; vo.alarmExceedYear = (byte)(b & 0x8) ; vo.alarmWaterMeterFault = (byte)(b & 0x10) ; vo.alarmSteal = (byte)(b & 0x20) ; vo.alarmWaterMeterBreak = (byte)(b & 0x40) ; vo.alarmEleMeterFault = (byte)(b & 0x80) ; index++ ; b = bs[index] ; vo.alarm0MoneyRemain = (byte)(b & 0x1) ; vo.alarmInnerDoor = (byte)(b & 0x2) ; vo.alarmOuterDoor = (byte)(b & 0x4) ; vo.alarmEleMiss = (byte)(b & 0x8) ; vo.alarmEleExceed = (byte)(b & 0x10) ; vo.alarmEleLowVolt = (byte)(b & 0x20) ; vo.stateIcEnable = (byte)(b & 0x40) ; } public static String parseTp(byte[] bs, short index){ String dt = "" ; try{ dt = dt + ByteUtil.BCD2String_BE(bs, index, index) ;//秒 index++ ; dt = ByteUtil.BCD2String_BE(bs, index, index) + ":" + dt ;//分 index++ ; dt = ByteUtil.BCD2String_BE(bs, index, index) + ":" + dt ;//时 index++ ; dt = ByteUtil.BCD2String_BE(bs, index, index) + " " + dt ;//日 index++ ; //bs[index] = (byte)(bs[index] & 0x10); dt = ByteUtil.BCD2String_BE(bs, index, index) + "-" + dt ;//月 index++ ; dt = "20" + ByteUtil.BCD2String_BE(bs, index, index) + "-" + dt ;//年 }catch (Exception e){ log.error("解析控制器时钟时异常:" + e.getMessage(), e); } return dt ; } /** * 分析功能80和5B数据 * @param bs * @param cdData * @throws Exception */ public static void parseCd80And5B(byte[] bs, DataCd80Vo cdData) throws Exception{ int index = ProtocolConstantV206V202404.dataIndex ; cdData.controllerType = ByteUtil.bytes2Hex(bs, false, index, 1) ; index++ ; cdData.projectNo = 0 + bs[index]; index++ ; cdData.useWaterType = bs[index]; index++ ; cdData.orderNo = ByteUtil.BCD2String_BE(bs, index, index + 4) ; index += 8 ; cdData.icCardAddr = ByteUtil.bytes2Hex(bs, false, index, 4) ; index += 4 ; cdData.icCardNo = GlParse.parseIcCardNo(bs, index, 6, 2) ; index += 8 ; cdData.rtuDt = GlParse.parseRtuDt(bs, index) ; index += 6 ; int waterLevel = ByteUtil.BCD2Int_BE(bs, index, index + 3) ; cdData.waterLevel = waterLevel/1000.0D; index += 4 ; int waterPress = ByteUtil.BCD2Int_BE(bs, index, index + 2) ; cdData.waterPress = waterPress/100.0D; index += 3 ; int waterInstant = ByteUtil.BCD2Int_BE(bs, index, index + 3) ; cdData.waterInstant = waterInstant/100.0D; index += 4 ; int waterTotal = ByteUtil.BCD2Int_BE(bs, index, index + 4) ; cdData.waterTotal = waterTotal/100.0D; index += 5 ; int eleTotal = ByteUtil.BCD2Int_BE(bs, index, index + 4) ; cdData.eleTotal = eleTotal/100.0D; index += 5 ; int moneyRemain = ByteUtil.BCD2Int_BE(bs, index, index + 4) ; cdData.moneyRemain = moneyRemain/100.0D; index += 5 ; int waterRemain = ByteUtil.BCD2Int_BE(bs, index, index + 4) ; cdData.waterRemain = waterRemain/100.0D; index += 5 ; int thisEle = ByteUtil.BCD2Int_BE(bs, index, index + 3) ; cdData.thisEle = thisEle/100.0D; index += 4 ; int thisWater = ByteUtil.BCD2Int_BE(bs, index, index + 3) ; cdData.thisWater = thisWater/100.0D; index += 4 ; int thisMoney = ByteUtil.BCD2Int_BE(bs, index, index + 3) ; cdData.thisMoney = thisMoney/100.0D; index += 4 ; cdData.thisDuration = ByteUtil.BCD2Int_BE(bs, index, index + 1) ; index += 2 ; int waterPrice = ByteUtil.BCD2Int_BE(bs, index, index + 1) ; cdData.waterPrice = waterPrice/100.0D; index += 2 ; int elePrice = ByteUtil.BCD2Int_BE(bs, index, index + 1) ; cdData.elePrice = elePrice/100.0D; index += 2 ; GlParse.parseAlarmAndState(bs, index, cdData) ; index += 2 ; int aVolt = ByteUtil.BCD2Int_BE(bs, index, index + 1) ; cdData.aVolt = aVolt/10.0D; index += 2 ; int bVolt = ByteUtil.BCD2Int_BE(bs, index, index + 1) ; cdData.bVolt = bVolt/10.0D; index += 2 ; int cVolt = ByteUtil.BCD2Int_BE(bs, index, index + 1) ; cdData.cVolt = cVolt/10.0D; index += 2 ; int aCurrent = ByteUtil.BCD2Int_BE(bs, index, index + 1) ; cdData.aCurrent = aCurrent/10.0D; index += 2 ; int bCurrent = ByteUtil.BCD2Int_BE(bs, index, index + 1) ; cdData.bCurrent = bCurrent/10.0D; index += 2 ; int cCurrent = ByteUtil.BCD2Int_BE(bs, index, index + 1) ; cdData.cCurrent = cCurrent/10.0D; index += 2 ; int batteryVolt = ByteUtil.BCD2Int_BE(bs, index, index + 1) ; cdData.batteryVolt = batteryVolt/100.0D; index += 2 ; int waterMeterTransVolt = ByteUtil.BCD2Int_BE(bs, index, index + 1) ; cdData.waterMeterTransVolt = waterMeterTransVolt/100.0D; index += 2 ; int waterMeterWorkVolt = ByteUtil.BCD2Int_BE(bs, index, index + 1) ; cdData.waterMeterWorkVolt = waterMeterWorkVolt/100.0D; index += 2 ; cdData.csq = ByteUtil.BCD2Int_BE(bs, index, index) ; } }