aps/apsClient.git

			@@ -4,180 +4,266 @@
			"apsClient/conf"
			"apsClient/constvar"
			"apsClient/model"
			"apsClient/model/common"
			"apsClient/pkg/logx"
			"apsClient/pkg/plc"
			"apsClient/pkg/plc/apacheplc4x"
			"apsClient/pkg/plc/modbusx"
			"apsClient/pkg/plccom"
			"encoding/binary"
			"errors"
			"fmt"
			"github.com/spf13/cast"
			"sync"
			)

			func PlcRead(plcConfig *model.DevicePlc, fieldType constvar.PlcStartAddressType, position int) (val interface{}, err error) {
			var (
			startAddress int
			valueType constvar.PlcStartAddressValueType
			dataLength int
			ipAddr string
			)
			// 串口不支持并行读写，所以需要加个锁，防止timeout和资源不可用报错
			var lock sync.Mutex

			for _, pc := range plcConfig.Details {
			if pc.FieldName == fieldType && pc.Position == position {
			startAddress = pc.StartAddress
			valueType = pc.Type
			dataLength = pc.Length
			}
			}

			if plcConfig.Method == constvar.PlcMethodModbusTCP {
			ipAddr = fmt.Sprintf("%s:%v", plcConfig.Address, plcConfig.Port)

			conn, err := plc.GetModbusConnection(ipAddr)
			if err != nil {
			logx.Errorf("PlcRead 连接plc失败: %v", err.Error())
			return nil, err
			}

			rawData, err := plc.ReadHoldingRegister(conn, startAddress, dataLength)
			if err != nil {
			logx.Errorf("PlcRead 获取plc数据失败: %v", err.Error())
			return nil, err
			}
			switch valueType {
			case constvar.PlcStartAddressValueTypeString:
			return string(rawData), nil
			case constvar.PlcStartAddressValueTypeInt:
			if len(rawData) == 2 {
			return int(binary.BigEndian.Uint16(rawData)), nil
			} else {
			logx.Errorf("plc read get an unknown int value: %v, address:%v", rawData, startAddress)
			return nil, errors.New(fmt.Sprintf("unknown int value：%v", rawData))
			}
			}
			return nil, errors.New("undefined value type")
			} else if plcConfig.Method == constvar.PlcMethodSerial {
			ipAddr = conf.Conf.Services.Serial
			if ipAddr == "" {
			return nil, errors.New("conf.Conf.Services.Serial config not set yet")
			}
			label := fmt.Sprintf("D%d", startAddress)
			return plccom.ReadPLC(plccom.DeviceTypeMitsubishi, ipAddr, label)
			}
			return nil, errors.New("interface type not support")
			}

			func PlcWrite(plcConfig *model.DevicePlc, fieldType constvar.PlcStartAddressType, position int, value interface{}) (err error) {
			var (
			startAddress int
			ipAddr string
			)

			func PlcWrite(plcConfig *model.DevicePlc, fieldType constvar.PlcStartAddressType, channel int32, value interface{}) (err error) {
			if plcConfig.CurrentTryTimes > plcConfig.MaxTryTimes {
			return plcConfig.CurrentErr
			}
			plcConfig.CurrentTryTimes++

			var targetConfig *model.DevicePlcAddress
			for _, pc := range plcConfig.Details {
			if pc.FieldName == fieldType && pc.Position == position {
			startAddress = pc.StartAddress
			if pc.FieldName == fieldType && pc.Channel == channel {
			targetConfig = pc
			}
			}

			if plcConfig.Method == constvar.PlcMethodModbusTCP {
			ipAddr = fmt.Sprintf("%s:%v", plcConfig.Address, plcConfig.Port)
			//conn, err := plc.GetModbusConnection(ipAddr)
			//if err != nil {
			// logx.Errorf("plc write failed, 连接plc失败: %v", err.Error())
			// plcConfig.CurrentErr = err
			// return PlcWrite(plcConfig, fieldType, position, value)
			//}
			//
			//result, err := plc.WriteHoldingRegister(conn, startAddress, value)
			err = modbusx.Write(ipAddr, uint16(startAddress), value)
			if err != nil {
			logx.Errorf("plc write failed, address: %v, value: %v, err: %v", startAddress, value, err.Error())
			plcConfig.CurrentErr = err
			return PlcWrite(plcConfig, fieldType, position, value)
			}
			logx.Infof("plc write ok, address: %v, value: %v", startAddress, value)
			} else if plcConfig.Method == constvar.PlcMethodSerial {
			ipAddr = conf.Conf.Services.Serial
			if ipAddr == "" {
			return errors.New("conf.Conf.Services.Serial config not set yet")
			}
			label := fmt.Sprintf("D%d", startAddress)
			return plccom.WritePLC(plccom.DeviceTypeMitsubishi, ipAddr, label, cast.ToInt(value))
			}
			return
			return PlcWriteDirect(plcConfig, value, targetConfig)
			}

			func PlcWriteDirect(plcConfig *model.DevicePlc, address int, value interface{}) (err error) {
			func PlcWriteDirect(plcConfig model.DevicePlc, value interface{}, c model.DevicePlcAddress) (err error) {
			lock.Lock()
			defer lock.Unlock()
			var (
			ipAddr string
			)
			defer func() {
			dealErr(err)
			}()
			if plcConfig.Method == constvar.PlcMethodModbusTCP {
			ipAddr = fmt.Sprintf("%s:%v", plcConfig.Address, plcConfig.Port)
			//conn, err := plc.GetModbusConnection(ipAddr)
			//if err != nil {
			// logx.Errorf("plc write failed, 连接plc失败: %v", err.Error())
			// plcConfig.CurrentErr = err
			// return PlcWriteDirect(plcConfig, address, value)
			//}
			//result, err := plc.WriteHoldingRegister(conn, address, value)
			err = WriteByModbusTCP(ipAddr, c.StartAddress, value, c.Endian, c.Length)

			err = modbusx.Write(ipAddr, uint16(address), value)
			if err != nil {
			logx.Errorf("plc write failed, address: %v, value: %v, err: %v", address, value, err.Error())
			logx.Errorf("plc write failed, address: %v, value: %v, err: %v", c.StartAddress, value, err.Error())
			return err
			}
			logx.Infof("plc write ok, address: %v, value: %v", address, value)
			logx.Infof("plc write ok, address: %v, value: %v", c.StartAddress, value)
			} else if plcConfig.Method == constvar.PlcMethodModbusRTU {
			ipAddr = fmt.Sprintf("%s:%v", plcConfig.Address, plcConfig.Port)
			err = WriteByModbusRTU(plcConfig, c.StartAddress, value, c.Endian, c.Length)

			if err != nil {
			logx.Errorf("plc write failed, address: %v, value: %v, err: %v", c.StartAddress, value, err.Error())
			return err
			}
			logx.Infof("plc write ok, address: %v, value: %v", c.StartAddress, value)
			} else if plcConfig.Method == constvar.PlcMethodSerial {
			ipAddr = conf.Conf.Services.Serial
			if ipAddr == "" {
			return errors.New("conf.Conf.Services.Serial config not set yet")
			}
			label := fmt.Sprintf("D%d", address)
			label := fmt.Sprintf("D%d", c.StartAddress)
			return plccom.WritePLC(plccom.DeviceTypeMitsubishi, ipAddr, label, cast.ToInt(value))
			}
			return
			}

			func PlcReadDirect(plcConfig *model.DevicePlc, address int, dataLength int, valueType constvar.PlcStartAddressValueType) (val interface{}, err error) {
			func PlcReadDirect(plcConfig model.DevicePlc, addressConfig model.DevicePlcAddress) (val interface{}, err error) {
			address, dataLength, endian := addressConfig.StartAddress, addressConfig.Length, addressConfig.Endian
			lock.Lock()
			defer lock.Unlock()
			var (
			ipAddr string
			)
			if plcConfig.Method == constvar.PlcMethodModbusTCP {
			ipAddr = fmt.Sprintf("%s:%v", plcConfig.Address, plcConfig.Port)
			//conn, err := plc.GetModbusConnection(ipAddr)
			//if err != nil {
			// plcConfig.CurrentErr = err
			// return PlcReadDirect(plcConfig, address, dataLength, valueType)
			//}
			//value, err := plc.ReadHoldingRegister(conn, address, dataLength)
			value, err := modbusx.Read(ipAddr, uint16(address), uint16(dataLength))
			if err != nil {
			return nil, err
			}
			switch valueType {
			case constvar.PlcStartAddressValueTypeString:
			return string(value), nil
			case constvar.PlcStartAddressValueTypeInt:
			if len(value) == 2 {
			return int(binary.BigEndian.Uint16(value)), nil
			} else {
			logx.Errorf("plc read get an unknown int value: %v, address:%v", value, address)
			return nil, errors.New(fmt.Sprintf("unknown int value：%v", value))
			defer func() {
			dealErr(err)
			}()
			if plcConfig.Method == constvar.PlcMethodModbusTCP \|\| plcConfig.Method == constvar.PlcMethodModbusRTU {
			var value []byte
			if plcConfig.Method == constvar.PlcMethodModbusTCP {
			ipAddr = fmt.Sprintf("%s:%v", plcConfig.Address, plcConfig.Port)
			value, err = ReadByModbusTCP(ipAddr, address, dataLength, endian)
			if err != nil {
			return nil, err
			}
			} else {
			value, err = ReadByModbusRTU(plcConfig, address, dataLength)
			if err != nil {
			return nil, err
			}
			}
			logx.Infof("plc read ok, address: %v, result: %v", address, value)
			return Convert(value, addressConfig)
			} else if plcConfig.Method == constvar.PlcMethodSerial {
			ipAddr = conf.Conf.Services.Serial
			if ipAddr == "" {
			return nil, errors.New("conf.Conf.Services.Serial config not set yet")
			}
			label := fmt.Sprintf("D%d", address)
			return plccom.ReadPLC(plccom.DeviceTypeMitsubishi, ipAddr, label)
			return plccom.ReadPLC(plccom.DeviceTypeMitsubishi, ipAddr, label, dataLength)
			}
			return
			}

			func ReadByModbusTCP(ipAddr string, address, length int, endian constvar.EndianType) ([]byte, error) {
			if conf.Conf.PLC.Package == constvar.PlcPackageApache {
			var intType string
			if endian == constvar.EndianTypeMix {
			intType = "UINT"
			} else {
			intType = "DINT"
			}
			return apacheplc4x.ReadHoldingRegister(ipAddr, address, length, intType)
			} else if conf.Conf.PLC.Package == constvar.PlcPackageApacheLongConnection {
			conn, err := plc.GetModbusConnection(ipAddr)
			if err != nil {
			return nil, err
			}
			return plc.ReadHoldingRegister(conn, address, length)
			} else {
			return modbusx.Read(ipAddr, uint16(address), uint16(length))
			}
			}

			func WriteByModbusTCP(ipAddr string, address int, value any, endian constvar.EndianType, length int) (err error) {
			if conf.Conf.PLC.Package == constvar.PlcPackageApache {
			var intType string
			if endian == constvar.EndianTypeMix {
			intType = "UINT"
			int32Value := cast.ToInt32(value)
			highVal := int32Value / (1 << 16)
			lowValue := int32Value % (1 << 16)
			_, err = apacheplc4x.WriteHoldingRegister(ipAddr, address, lowValue, intType)
			if err != nil {
			return err
			}
			_, err = apacheplc4x.WriteHoldingRegister(ipAddr, address+1, highVal, intType)
			} else {
			intType = "DINT"
			_, err = apacheplc4x.WriteHoldingRegister(ipAddr, address, value, intType)
			}
			return err
			} else if conf.Conf.PLC.Package == constvar.PlcPackageApacheLongConnection {
			conn, err := plc.GetModbusConnection(ipAddr)
			if err != nil {
			return err
			}
			_, err = plc.WriteHoldingRegister(conn, address, value)
			return err
			} else {
			return modbusx.Write(ipAddr, uint16(address), cast.ToInt(value), string(endian), length)
			}
			}

			func ReadByModbusRTU(plcConfig *model.DevicePlc, address, length int) ([]byte, error) {
			rtuConfig := &common.RTUConfig{
			BaudRate: plcConfig.BaudRate,
			SerialName: plcConfig.SerialName,
			DataBit: plcConfig.DataBit,
			StopBit: plcConfig.StopBit,
			Parity: plcConfig.Parity,
			}
			return modbusx.ReadByRTU(rtuConfig, uint16(address), uint16(length))
			}

			func WriteByModbusRTU(plcConfig *model.DevicePlc, address int, value any, endian constvar.EndianType, length int) (err error) {
			rtuConfig := &common.RTUConfig{
			BaudRate: plcConfig.BaudRate,
			SerialName: plcConfig.SerialName,
			DataBit: plcConfig.DataBit,
			StopBit: plcConfig.StopBit,
			Parity: plcConfig.Parity,
			}
			return modbusx.WriteByRTU(rtuConfig, uint16(address), cast.ToInt(value), string(endian), length)
			}

			func PlcIsConnect() bool {
			return IsConnect()
			}

			func dealErr(err error) {
			if err != nil {
			FailureRemainingOpportunitiesDecr() //减少失败剩余机会
			} else {
			FailureRemainingOpportunitiesReset() //重置失败剩余机会
			}
			}

			var connectionStatus sync.Map

			const (
			defaultFailureRemainingOpportunities = 20
			)

			func IsConnect() bool {
			val, ok := connectionStatus.Load(conf.Conf.CurrentDeviceID)
			if !ok {
			return false
			}
			failureRemainingOpportunities := val.(int)
			return failureRemainingOpportunities > 0
			}

			func FailureRemainingOpportunitiesDecr() {
			val, ok := connectionStatus.Load(conf.Conf.CurrentDeviceID)
			if !ok {
			return
			}
			failureRemainingOpportunities := val.(int)
			if failureRemainingOpportunities > 0 {
			failureRemainingOpportunities--
			}
			connectionStatus.Store(conf.Conf.CurrentDeviceID, failureRemainingOpportunities)
			return
			}

			func FailureRemainingOpportunitiesReset() {
			val, ok := connectionStatus.Load(conf.Conf.CurrentDeviceID)
			if !ok \|\| val.(int) < defaultFailureRemainingOpportunities {
			connectionStatus.Store(conf.Conf.CurrentDeviceID, defaultFailureRemainingOpportunities)
			return
			}
			return
			}

			func Convert(rawValue []byte, c *model.DevicePlcAddress) (value interface{}, err error) {
			switch c.Type {
			case constvar.PlcStartAddressValueTypeString:
			return string(rawValue), nil
			case constvar.PlcStartAddressValueTypeInt16:
			if c.Endian == constvar.EndianTypeLittle {
			value = binary.LittleEndian.Uint16(rawValue)
			} else {
			value = binary.BigEndian.Uint16(rawValue)
			}
			default:
			if len(rawValue) == 2 {
			if c.Endian == constvar.EndianTypeLittle {
			value = binary.LittleEndian.Uint16(rawValue)
			} else {
			value = binary.BigEndian.Uint16(rawValue)
			}
			} else if len(rawValue) == 4 {
			if c.Endian == constvar.EndianTypeBig {
			value = binary.BigEndian.Uint32(rawValue)
			} else if c.Endian == constvar.EndianTypeLittle {
			value = binary.LittleEndian.Uint32(rawValue)
			} else {
			highBts := rawValue[2:]
			lowBts := rawValue[:2]
			highVal := uint32(binary.BigEndian.Uint16(highBts)) << 16
			lowVal := uint32(binary.BigEndian.Uint16(lowBts))
			value = highVal + lowVal
			}
			} else {
			logx.Errorf("plc read get an unknown int value: %v, address:%v", rawValue, c.StartAddress)
			return nil, errors.New(fmt.Sprintf("unknown value：%v", rawValue))
			}
			}

			logx.Infof("plc read ok, address: %v, result: %v, value: %v, c:%+v", c.StartAddress, rawValue, value, c)
			return
			}