ModbusAccessor finished and checked
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@ -4,6 +4,7 @@ import com.serotonin.modbus4j.ModbusFactory;
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import com.serotonin.modbus4j.ModbusMaster;
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import com.serotonin.modbus4j.code.DataType;
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import com.serotonin.modbus4j.exception.ErrorResponseException;
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import com.serotonin.modbus4j.exception.ModbusInitException;
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import com.serotonin.modbus4j.exception.ModbusTransportException;
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import com.serotonin.modbus4j.ip.IpParameters;
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import com.serotonin.modbus4j.ip.tcp.TcpMaster;
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@ -11,8 +12,8 @@ import com.serotonin.modbus4j.locator.BaseLocator;
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public class ModbusAccessor {
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private static ModbusAccessor mySelf = null;
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private ModbusMaster master = null;
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private static ModbusAccessor mySelf = null; //instance of the class
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private ModbusMaster master = null; //instance of the modbus master
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/**
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* private constructor
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@ -28,80 +29,131 @@ public class ModbusAccessor {
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* @return instance of ModbusAccessor
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*/
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public static ModbusAccessor getMySelf(){
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if (mySelf == null){
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mySelf = new ModbusAccessor();
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if (mySelf == null){ //if no instance is created
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mySelf = new ModbusAccessor(); //create a new instance of the class
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}
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return mySelf;
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return mySelf; //if there is already an instance, return the existing instance
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}
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/**
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* this method creates a ModbusFactory and a TCPMaster
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* it also initialize the Master
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* @param ipAddress IP-address of the server
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* @param port port of the server
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*/
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public void connect(String ipAddress, int port){
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ModbusFactory MF = new ModbusFactory();
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IpParameters IpParams = new IpParameters();
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ModbusFactory MF = new ModbusFactory(); //create a modbus factory
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IpParameters IpParams = new IpParameters(); //create the ip parameters
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IpParams.setHost(ipAddress); //set the server ip-address
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IpParams.setPort(port); //set the server port
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//create the TCPMaster with the correct IP parameters and keep it alive
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this.master = MF.createTcpMaster(IpParams, true);
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try {
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this.master.init(); //initialize the master
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}
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catch(ModbusInitException e)
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{
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e.printStackTrace();
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}
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}
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//methods to write
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/**
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* TODO finish connect()
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* method to write a boolean value in the correct modbus register
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* @param register address of the register
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* @param value the desired boolean value
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* @throws ModbusTransportException
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* @throws ErrorResponseException
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*/
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public void writeBoolean (int register, boolean value) throws ModbusTransportException, ErrorResponseException{
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//first parameter = slaveID = always 1 because we only have one
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//second parameter = register address ==> it is named offset because it starts with 0 and goes to the desired address
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this.master.setValue(BaseLocator.coilStatus(1,register), value); //set the desired value in the correct register
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}
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/**
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* methods to write in the modbus registers
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*/
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/**
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* method to write a boolean value on the modbus address
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* @param address the address of the modbus register
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* @param value the value to write in the register
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*/
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public void writeBoolean (int address, boolean value){
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/**
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* TODO writeBoolean()
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* method to write a float value in the correct modbus register
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* @param register address of the register
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* @param value the desired float value
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* @throws ModbusTransportException
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* @throws ErrorResponseException
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*/
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public void writeFloat (int register, float value) throws ModbusTransportException, ErrorResponseException{
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//first parameter = slaveID = always 1 because we only have one
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//second parameter = register address ==> it is named offset because it starts with 0 and goes to the desired address
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//third parameter = DataType of the value. The max value is 3 Byte Float, but the class DataType has only 2 or 4 byte
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this.master.setValue(BaseLocator.holdingRegister(1,register,DataType.FOUR_BYTE_FLOAT), value);
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}
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/**
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* method to write a float value on the modbus address
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* @param address the address of the modbus register
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* @param value the value to write in the register
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*/
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public void writeFloat (int address, float value){
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/**
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* TODO writeFloat()
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*/
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}
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/**
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* methods to read from the modbus registers
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*/
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//methods to read
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/**
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* method to read a boolean value in the correct modbus register
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* get the coil status of the register.
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* @param register address of register
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* @return boolean value of the desired register
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* @throws ModbusTransportException
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* @throws ErrorResponseException
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*/
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public boolean readBoolean(int register) throws ModbusTransportException, ErrorResponseException {
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/**
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* first parameter = slaveID = always 1 because we only have one
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* second parameter = register address ==> it is named offset because it starts with 0 and goes to the desired address
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*/
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//first parameter = slaveID = always 1 because we only have one
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//second parameter = register address ==> it is named offset because it starts with 0 and goes to the desired address
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boolean booleanValue = this.master.getValue(BaseLocator.coilStatus(1,register));
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return booleanValue;
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}
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/**
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* method to read a boolean value in the correct modbus register
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* get the value from the holding register
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* @param register address of the register
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* @return float value of the desired register
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* @throws ModbusTransportException
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* @throws ErrorResponseException
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*/
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public float readFloat(int register){
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/**
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* first parameter = slaveID = always 1 because we only have one
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* second parameter = register address ==> it is named offset because it starts with 0 and goes to the desired address
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* thrid parameter = DataType of the value. The max value is 3 Byte Float, but the class DataType has only 2 or 4 byte
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*/
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float floatValue = this.master.getValue(BaseLocator.holdingRegister(1,register, DataType.FOUR_BYTE_FLOAT);
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public float readFloat(int register)throws ModbusTransportException, ErrorResponseException{
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//first parameter = slaveID = always 1 because we only have one
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//second parameter = register address ==> it is named offset because it starts with 0 and goes to the desired address
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//third parameter = DataType of the value. The max value is 3 Byte Float, but the class DataType has only 2 or 4 byte
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float floatValue = (float) this.master.getValue(BaseLocator.holdingRegister(1,register, DataType.FOUR_BYTE_FLOAT));
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return floatValue;
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}
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/**
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* this main method is only for testing the ModbusAccessor class
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* @param args
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*/
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public static void main(String[] args) {
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//create an instance of ModbusAccessor and connect it with the server
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ModbusAccessor test = ModbusAccessor.getMySelf();
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test.connect("LocalHost", 1502);
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//do this all the time
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while(true){
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try{
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//get a boolean value => solar SetPoint
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boolean solar_connect_st = test.readBoolean(609); //SOLAR_CONNECT_ST
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//get a float value => factory SetPoint
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float factory_st = test.readFloat(605); //FACTORY_ST
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//write a float value to the Remote_Factory_SP
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test.writeFloat(205,0.56F); //REMOTE_FACTORY_SP
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//write a boolean value to the Remote_Solar_SW
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test.writeBoolean(401,false); //REMOTE_SOLAR_SW
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//check the factory SetPoint
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System.out.println("Factory Setpoint is: " + factory_st);
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//check the solar SetPoint
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if(solar_connect_st){
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System.out.println("Solar is connected");
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}else{
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System.out.println("Solar is disconnected");
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}
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}catch (ModbusTransportException e){
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}catch (ErrorResponseException e){
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}
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}
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}
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}
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