use of net.wimpi.modbus.io.ModbusTCPTransaction in project openhab1-addons by openhab.
the class AIAOTest method main.
public static void main(String[] args) {
InetAddress addr = null;
TCPMasterConnection con = null;
ModbusRequest ai_req = null;
WriteSingleRegisterRequest ao_req = null;
ModbusTransaction ai_trans = null;
ModbusTransaction ao_trans = null;
int ai_ref = 0;
int ao_ref = 0;
int port = Modbus.DEFAULT_PORT;
try {
// 1. Setup the parameters
if (args.length < 3) {
printUsage();
System.exit(1);
} else {
try {
String astr = args[0];
int idx = astr.indexOf(':');
if (idx > 0) {
port = Integer.parseInt(astr.substring(idx + 1));
astr = astr.substring(0, idx);
}
addr = InetAddress.getByName(astr);
ai_ref = Integer.parseInt(args[1]);
ao_ref = Integer.parseInt(args[2]);
} catch (Exception ex) {
ex.printStackTrace();
printUsage();
System.exit(1);
}
}
// 2. Open the connection
con = new TCPMasterConnection(addr);
con.setPort(port);
con.connect();
if (Modbus.debug) {
System.out.println("Connected to " + addr.toString() + ":" + con.getPort());
}
// 3. Prepare the requests
ai_req = new ReadInputRegistersRequest(ai_ref, 1);
ao_req = new WriteSingleRegisterRequest();
ao_req.setReference(ao_ref);
ai_req.setUnitID(0);
ao_req.setUnitID(0);
// 4. Prepare the transactions
ai_trans = new ModbusTCPTransaction(con);
ai_trans.setRequest(ai_req);
ao_trans = new ModbusTCPTransaction(con);
ao_trans.setRequest(ao_req);
// 5. Prepare holders to update only on change
SimpleRegister new_out = new SimpleRegister(0);
ao_req.setRegister(new_out);
int last_out = Integer.MIN_VALUE;
// 5. Execute the transaction repeatedly
do {
ai_trans.execute();
int new_in = ((ReadInputRegistersResponse) ai_trans.getResponse()).getRegister(0).getValue();
// write only if differ
if (new_in != last_out) {
// update register
new_out.setValue(new_in);
ao_trans.execute();
last_out = new_in;
if (Modbus.debug) {
System.out.println("Updated Register with value from Input Register.");
}
}
} while (true);
} catch (Exception ex) {
ex.printStackTrace();
} finally {
// 6. Close the connection
con.close();
}
}
use of net.wimpi.modbus.io.ModbusTCPTransaction in project openhab1-addons by openhab.
the class AOTest method main.
public static void main(String[] args) {
InetAddress addr = null;
TCPMasterConnection con = null;
ModbusRequest req = null;
ModbusTransaction trans = null;
int ref = 0;
int count = 0;
int repeat = 1;
int port = Modbus.DEFAULT_PORT;
try {
// 1. Setup parameters
if (args.length < 3) {
printUsage();
System.exit(1);
} else {
try {
String astr = args[0];
int idx = astr.indexOf(':');
if (idx > 0) {
port = Integer.parseInt(astr.substring(idx + 1));
astr = astr.substring(0, idx);
}
addr = InetAddress.getByName(astr);
ref = Integer.parseInt(args[1]);
count = Integer.parseInt(args[2]);
if (args.length == 4) {
repeat = Integer.parseInt(args[3]);
}
} catch (Exception ex) {
ex.printStackTrace();
printUsage();
System.exit(1);
}
}
// 2. Open the connection
con = new TCPMasterConnection(addr);
con.setPort(port);
con.connect();
if (Modbus.debug) {
System.out.println("Connected to " + addr.toString() + ":" + con.getPort());
}
req = new WriteSingleRegisterRequest(ref, new SimpleRegister(count));
req.setUnitID(0);
if (Modbus.debug) {
System.out.println("Request: " + req.getHexMessage());
}
// 3. Prepare the transaction
trans = new ModbusTCPTransaction(con);
trans.setRequest(req);
// 4. Execute the transaction repeat times
int k = 0;
do {
trans.execute();
if (Modbus.debug) {
System.out.println("Response: " + trans.getResponse().getHexMessage());
}
k++;
} while (k < repeat);
// 5. Close the connection
con.close();
} catch (Exception ex) {
ex.printStackTrace();
}
}
use of net.wimpi.modbus.io.ModbusTCPTransaction in project openhab1-addons by openhab.
the class DIDOTest method main.
public static void main(String[] args) {
InetAddress addr = null;
TCPMasterConnection con = null;
ModbusRequest di_req = null;
WriteCoilRequest do_req = null;
ModbusTCPTransaction di_trans = null;
ModbusTCPTransaction do_trans = null;
int di_ref = 0;
int do_ref = 0;
int port = Modbus.DEFAULT_PORT;
try {
// 1. Setup the parameters
if (args.length < 3) {
printUsage();
System.exit(1);
} else {
try {
String astr = args[0];
int idx = astr.indexOf(':');
if (idx > 0) {
port = Integer.parseInt(astr.substring(idx + 1));
astr = astr.substring(0, idx);
}
addr = InetAddress.getByName(astr);
di_ref = Integer.parseInt(args[1]);
do_ref = Integer.parseInt(args[2]);
} catch (Exception ex) {
ex.printStackTrace();
printUsage();
System.exit(1);
}
}
// 2. Open the connection
con = new TCPMasterConnection(addr);
con.setPort(port);
con.connect();
if (Modbus.debug) {
System.out.println("Connected to " + addr.toString() + ":" + con.getPort());
}
// 3. Prepare the requests
di_req = new ReadInputDiscretesRequest(di_ref, 1);
do_req = new WriteCoilRequest();
do_req.setReference(do_ref);
di_req.setUnitID(0);
do_req.setUnitID(0);
// 4. Prepare the transactions
di_trans = new ModbusTCPTransaction(con);
di_trans.setRequest(di_req);
di_trans.setReconnecting(false);
do_trans = new ModbusTCPTransaction(con);
do_trans.setRequest(do_req);
do_trans.setReconnecting(false);
// 5. Holders for last states
boolean last_out = false;
boolean new_in = false;
// 6. Execute the transactions repeatedly
do {
di_trans.execute();
new_in = ((ReadInputDiscretesResponse) di_trans.getResponse()).getDiscreteStatus(0);
// write only if differ
if (new_in != last_out) {
do_req.setCoil(new_in);
do_trans.execute();
last_out = new_in;
if (Modbus.debug) {
System.out.println("Updated coil with state from DI.");
}
}
} while (true);
} catch (Exception ex) {
ex.printStackTrace();
} finally {
// 7. Close the connection
con.close();
}
}
use of net.wimpi.modbus.io.ModbusTCPTransaction in project openhab1-addons by openhab.
the class DITest method main.
public static void main(String[] args) {
TCPMasterConnection con = null;
ModbusTCPTransaction trans = null;
ReadInputDiscretesRequest req = null;
ReadInputDiscretesResponse res = null;
InetAddress addr = null;
int ref = 0;
int count = 0;
int repeat = 1;
int port = Modbus.DEFAULT_PORT;
try {
// 1. Setup the parameters
if (args.length < 3) {
printUsage();
System.exit(1);
} else {
try {
String astr = args[0];
int idx = astr.indexOf(':');
if (idx > 0) {
port = Integer.parseInt(astr.substring(idx + 1));
astr = astr.substring(0, idx);
}
addr = InetAddress.getByName(astr);
ref = Integer.parseInt(args[1]);
count = Integer.parseInt(args[2]);
if (args.length == 4) {
repeat = Integer.parseInt(args[3]);
}
} catch (Exception ex) {
ex.printStackTrace();
printUsage();
System.exit(1);
}
}
// 2. Open the connection
con = new TCPMasterConnection(addr);
con.setPort(port);
con.connect();
if (Modbus.debug) {
System.out.println("Connected to " + addr.toString() + ":" + con.getPort());
}
// 3. Prepare the request
req = new ReadInputDiscretesRequest(ref, count);
// ReadCoilsRequest req = new ReadCoilsRequest(ref, count);
req.setUnitID(0);
if (Modbus.debug) {
System.out.println("Request: " + req.getHexMessage());
}
// 4. Prepare the transaction
trans = new ModbusTCPTransaction(con);
trans.setRequest(req);
trans.setReconnecting(false);
// 5. Execute the transaction repeat times
int k = 0;
do {
trans.execute();
res = (ReadInputDiscretesResponse) trans.getResponse();
if (Modbus.debug) {
System.out.println("Response: " + res.getHexMessage());
}
System.out.println("Digital Inputs Status=" + res.getDiscretes().toString());
// System.out.println("Coils Status=" + res.getCoils().toString());
k++;
} while (k < repeat);
// 6. Close the connection
con.close();
} catch (Exception ex) {
ex.printStackTrace();
}
}
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