Bachelorthesis/Modbus/TcpCommon.cin

/*@!Encoding:1252*/
includes
{
	#include "Common.cin"
	#include "TcpUdpCommon.cin"
}

variables
{
	TcpSocket gSocket;

	byte gRxBuffer[8192];
}


word TcpOpenSocket()
{
	char Local_IP[16];
	dword localIp;
	word localPort;
	dword i = 0;
	CHAR errorText[200];

	localIp = SetupIp(Local_IP);

	if (localIp == INVALID_IP)
		return INVALID_IP;

	// Try to open socket
	do
	{
		localPort = random(65536-10240)+10240;
		gSocket = TcpSocket::Open(localIp, localPort);
		if (gSocket.GetLastSocketError() != 0)
		{
			gSocket.GetLastSocketErrorAsString(errorText, elcount(errorText));
			writeLineEx(0, 1, "<%NODE_NAME%> Error: could not open Tcp socket on %s:%d, %s (%d)!", Local_IP, localPort, errorText, gSocket.GetLastSocketError());
		}
	}
	while (gSocket.GetLastSocketError() != 0 && i++ < 9);
	
	if (gSocket.GetLastSocketError() != 0)
	{
		writeLineEx(0, 1, "<%NODE_NAME%> Error: could not open Tcp socket!");
		return gSocket.GetLastSocketError();
	}
	else
	{
		writeLineEx(0, 1, "<%NODE_NAME%> Tcp socket opened on %s:%d.", Local_IP, localPort);
	}
	return 0;

}

word TcpConnectTo(char Remote_IP[], word remotePort)
{
	dword remoteIp;

	// Convert IP string to Number
	remoteIp = IpGetAddressAsNumber(Remote_IP);
	if (remoteIp == INVALID_IP)
	{
		writeLineEx(0, 1, "<%NODE_NAME%> Error: invalid server Ip address!");
		
		return 1;
	}

	return TcpConnectTo(remoteIp, remotePort);
}

word TcpConnectTo(dword remoteIp, word remotePort)
{
	long fehler;

	// Try to open a socket
	fehler = TcpOpenSocket();
	if (fehler != 0)
	{
		gSocketState = ERROR;
		return fehler;
	}

	gRemoteIP = remoteIp;
	gRemotePort = remotePort;


	// Connect to Server
	if (gSocket.Connect(remoteIp, remotePort) != 0)
	{
		fehler = gSocket.GetLastSocketError();

		if (fehler != WSAEWOULDBLOCK)		// OnTcpConnect will be called otherwise
		{
			write("<%NODE_NAME%> No Port-Connection: %d", fehler);
			gSocketState = ERROR;
			return fehler;
		}
		return 0;
	}
	else
	{
		writeLineEx(0, 1, "<%NODE_NAME%> Successfully connected to server");
		gSocketState = OK;
		return 0;
	}
}

void OnTcpConnect(dword socket, long result)
{
	if (result != 0)
	{
		gSocket.GetLastSocketErrorAsString(gIpLastErrStr, elcount(gIpLastErrStr));
		writeLineEx(0, 2, "<%NODE_NAME%> OnTcpConnect error (%d): %s", gSocket.GetLastSocketError(), gIpLastErrStr);
		gSocketState = ERROR;
		return;
	}
	else
	{
		writeLineEx(0, 1, "<%NODE_NAME%> Successfully connected to server");
		gSocketState = OK;
	}
}

void TcpRecv()
{
	int result;

	if (gSocketState != OK)
	{
		writeLineEx(0, 2, "TcpRecv: Socket status is not OK!");
		return;
	}
	
	result = gSocket.Receive(gRxBuffer, elcount(gRxBuffer));

	if (result != 0)	// Calling OnTcpReceive otherwise
	{
		gIpLastErr = gSocket.GetLastSocketError();

		if (gIpLastErr != WSA_IO_PENDING)	// Calling OnTcpReceive otherwise
		{
			gSocket.GetLastSocketErrorAsString(gIpLastErrStr, elcount(gIpLastErrStr));
			writeLineEx(0, 2, "<%NODE_NAME%> TcpReceive error (%d): %s", gIpLastErr, gIpLastErrStr);
			gSocket.Close();
			gSocketState = CLOSED;
		}
	}

	return;
}

void TcpSnd(byte buffer[], word length)
{
	char str[20*3];

	switch (gSocketState)
	{
		case CLOSED:
			TcpConnectTo(gRemoteIP, gRemotePort);
			if (gSocketState != OK)
			{
				writeLineEx(0, 2, "TcpSnd: Reconnecting failed!");
				return;
			}
		case OK:
			break;
		default:
			writeLineEx(0, 2, "TcpSnd: Socket status is not OK!");
			return;
	}

	bin_to_strhex(buffer, str);
	writeLineEx(0, 1, "<%NODE_NAME%> TcpSnd: %s (L<>nge: %d)", str, length);
	
	if (gSocket.Send(buffer, length) != 0)
	{
		gIpLastErr = gSocket.GetLastSocketError();

		if (gIpLastErr != WSA_IO_PENDING)
		{
			gSocket.GetLastSocketErrorAsString(gIpLastErrStr, elcount(gIpLastErrStr));
			writeLineEx(0, 2, "<%NODE_NAME%> TcpSnd error (%d): %s", gIpLastErr, gIpLastErrStr);
			gSocket.Close();
			gSocketState = CLOSED;
		}
	}
}