package com.dy.common.mw.protocol.p206V202404.parse; import com.dy.common.mw.protocol.*; import com.dy.common.mw.protocol.p206V202404.*; import com.dy.common.mw.protocol.p206V202404.parse.global.GlParse; import com.dy.common.mw.protocol.p206V202404.upVos.DataCd02Vo; import com.dy.common.mw.protocol.p206V202404.upVos.DataCdC2Vo; import com.dy.common.util.ByteUtil; import org.apache.logging.log4j.LogManager; import org.apache.logging.log4j.Logger; @AnnotationCodeUp(ifAny={ CodeV202404.cd_C2 }) @SuppressWarnings("unused") public class Cd_C2_Up implements CodeParse{ private static final Logger log = LogManager.getLogger(Cd_C2_Up.class); /** * 分析上行数据 */ @Override public MidResult[] parse(Boolean isLowPower, CodeParseParams params, CodeParseCallback callback)throws Exception { ParseParamsForUpV202404 para = (ParseParamsForUpV202404)params ; int bsLen = new CommonV202404().parseDataLen(para.upBuffer) ; if(bsLen > 0){ this.doParse(para.upBuffer, bsLen, para.upCode, para.data) ; } log.info("分析上行数据<" + CodeV202404.getCodeName(para.upCode) + " RTU地址=" + para.rtuAddr + ">:\n" + para.data.toString()); MidResultFromRtu midRs = new MidResultFromRtu() ; midRs.protocolName = para.protocolName ;//协议名称 midRs.rtuAddr = para.rtuAddr ;//Rtu地址 midRs.upCode = para.upCode ;//上行数据中的功能码 midRs.upHex = para.upHex ;//上行数据十六进制形式 midRs.upBuffer = para.upBuffer ;//上行数据字节数组 midRs.data = para.data ;//解析后的数据 midRs.reportOrResponse_trueOrFalse = true ; String confirmComCode = para.upCode ; ParseParamsForDownV202404 downCpParams = new ParseParamsForDownV202404() ; downCpParams.setValue( null, ProtocolConstantV206V202404.protocolName, para.rtuAddr, Command.defaultId, confirmComCode, para.data.subData==null?null:(((DataV202404)para.data.subData).subData), null); //构造应答 byte[] data = new Cd_C2_Down().doParse(downCpParams) ; MidResultToRtu confirmCommand = new MidResultToRtu() ; confirmCommand.protocolName = para.protocolName ;//协议名称 confirmCommand.rtuAddr = para.rtuAddr ;//Rtu地址 confirmCommand.commandId = Command.defaultId ;//命令ID,发起命令的客户端(web端)生成,以匹配命令结果 confirmCommand.downCode = confirmComCode ;//下行命令功能码; confirmCommand.downBuffer = data ;//下行命令数据 confirmCommand.downBufHex = ByteUtil.bytes2Hex(data, true) ;//下行命令数据十六进制形式 confirmCommand.hasResponse = false ;//是否有应答 confirmCommand.maxSendTimes = 1 ;//命令最大发送次数(当收不到应答时,将重发2次),如果不设置,命令缓存器进行补充设置 confirmCommand.isCachForOffLine = false ;//RTU不在线,命令是否缓存 confirmCommand.isSendFirst = true ;//确认命令,优先发送 if(isLowPower != null && isLowPower.booleanValue()){ //低功耗时,尽快发送 confirmCommand.isQuickSend = true ; } callback.callback(midRs.reportOrResponse_trueOrFalse); return new MidResult[]{midRs, confirmCommand} ; } /** * 执行分析 * @param bs 字节数组 * @param bsLen 字节长度(总包长,包括包头和包尾) * @param dataCode 功能码 * @param data 数据 * @throws Exception 异常 */ protected void doParse(byte[] bs, int bsLen, String dataCode, Data data) throws Exception { DataV202404 dV1 = (DataV202404)data.getSubData() ; DataCdC2Vo cdData = new DataCdC2Vo() ; dV1.subData = cdData ; int index = ProtocolConstantV206V202404.dataIndex ; cdData.controllerType = ByteUtil.bytes2Hex(bs, false, index, 1) ; index ++ ; cdData.projectNo = 0 + bs[index]; index ++ ;//0xf0阀门0x00水泵 index ++ ; cdData.opType1 = bs[index]; index ++ ; cdData.opType2 = bs[index]; index++ ; byte result = bs[index]; if(result == 1){ cdData.success = true ; }else{ cdData.success = false ; } index++ ; GlParse.parseRtuDt(bs, index); index+= 6 ; GlParse.parseAlarmAndState(bs, index, cdData); } }