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WaferLineCommLib는 클래스 라이브러리(.NET Framework)입니다.
WaferLineCommLib.zip
0.05MB
1. MsgType.cs
namespace WaferLineCommLib
{
public enum MsgType
{
MSG_CF_ADDSI,
MSG_CF_ADDWF,
MSG_CF_ADDPR,
MSG_CF_SETSP,
MSG_CF_SETDR,
MSG_FC_ADDLN,
MSG_FC_ADDWF,
MSG_FC_ADDPR,
MSG_FC_SETSP,
MSG_FC_SETDR,
MSG_FC_ENDPR,
MSG_FC_ENDCO
}
}
2. MyNetwork.cs
using System.Collections.Generic;
using System.Net;
using System.Net.Sockets;
namespace WaferLineCommLib
{
public class MyNetwork
{
public static List<IPAddress> Addresses
{
get
{
List<IPAddress> addresses = new List<IPAddress>();
string name = Dns.GetHostName();
IPHostEntry iphe = Dns.GetHostEntry(name);
foreach(IPAddress addr in iphe.AddressList)
{
if(addr.AddressFamily == AddressFamily.InterNetwork)
{
addresses.Add(addr);
}
}
return addresses;
}
}
}
}
3. RecvStsEndPtEventArgs.cs
using System;
using System.Net;
namespace WaferLineCommLib
{
public delegate void RecvStsEndPtEventHandler(object sender, RecvStsEndPtEventArgs e);
public class RecvStsEndPtEventArgs:EventArgs
{
public IPAddress IPAddress { get; }
public int Port { get; }
public RecvStsEndPtEventArgs(IPAddress ipaddr, int port)
{
IPAddress = ipaddr;
Port = port;
}
}
}
4. AddLineEventArgs.cs
using System;
namespace WaferLineCommLib
{
public delegate void AddLineEventHandler(object sender, AddLineEventArgs e);
public class AddLineEventArgs:EventArgs
{
public int No { get; }
public AddLineEventArgs(int no)
{
No = no;
}
}
}
5. FactoryClient.cs
using System.IO;
using System.Net;
using System.Net.Sockets;
namespace WaferLineCommLib
{
public class FactoryClient
{
string fip;
int fport;
public FactoryClient(string fip, int fport)
{
this.fip = fip;
this.fport = fport;
}
public void SendMyInfo(string ip, int port)
{
byte[] packet = new byte[128];
MemoryStream ms = new MemoryStream(packet);
BinaryWriter bw = new BinaryWriter(ms);
bw.Write((int)MsgType.MSG_CF_ADDSI);
bw.Write(ip);
bw.Write(port);
bw.Close();
ms.Close();
SendPacket(packet);
}
private void SendPacket(byte[] packet)
{
Socket sock = new Socket(AddressFamily.InterNetwork,
SocketType.Stream, ProtocolType.Tcp);
IPAddress addr = IPAddress.Parse(fip);
IPEndPoint ep = new IPEndPoint(addr, fport);
sock.Connect(ep);
sock.Send(packet);
sock.Close();
}
public void SendAddWafer(int no, int wcnt)
{
byte[] packet = new byte[128];
MemoryStream ms = new MemoryStream(packet);
BinaryWriter bw = new BinaryWriter(ms);
bw.Write((int)MsgType.MSG_CF_ADDWF);
bw.Write(no);
bw.Write(wcnt);
bw.Close();
ms.Close();
SendPacket(packet);
}
public void SendAddPr(int no, int pcnt)
{
byte[] packet = new byte[128];
MemoryStream ms = new MemoryStream(packet);
BinaryWriter bw = new BinaryWriter(ms);
bw.Write((int)MsgType.MSG_CF_ADDPR);
bw.Write(no);
bw.Write(pcnt);
bw.Close();
ms.Close();
SendPacket(packet);
}
public void SendSetSpin(int no, int spin)
{
byte[] packet = new byte[128];
MemoryStream ms = new MemoryStream(packet);
BinaryWriter bw = new BinaryWriter(ms);
bw.Write((int)MsgType.MSG_CF_SETSP);
bw.Write(no);
bw.Write(spin);
bw.Close();
ms.Close();
SendPacket(packet);
}
public void SendSetDrop(int no, int drop)
{
byte[] packet = new byte[128];
MemoryStream ms = new MemoryStream(packet);
BinaryWriter bw = new BinaryWriter(ms);
bw.Write((int)MsgType.MSG_CF_SETDR);
bw.Write(no);
bw.Write(drop);
bw.Close();
ms.Close();
SendPacket(packet);
}
}
}
6. FactoryServer.cs
using System.IO;
using System.Net;
using System.Net.Sockets;
using WaferLineLib;
namespace WaferLineCommLib
{
public class FactoryServer
{
public event RecvStsEndPtEventHandler RecvStsEndPoint;
public event AddWaferEventHandler AddedWafer;
public event AddPREventHandler AddedPR;
public event SetSpeedEventHandler SettedSpeed;
public event SetDropEventHandler SettedDrop;
public string IP { get; }
public int Port { get; }
public FactoryServer(string ip,int port)
{
IP = ip;
Port = port;
}
delegate void StartDele();
public void StartAsync()
{
StartDele dele = Start;
dele.BeginInvoke(null, null);
}
Socket sock;
public void Start()
{
sock = new Socket(AddressFamily.InterNetwork,
SocketType.Stream, ProtocolType.Tcp);
IPAddress addr = IPAddress.Parse(IP);
IPEndPoint endp = new IPEndPoint(addr, Port);
sock.Bind(endp);
sock.Listen(5);
AcceptLoop();
}
private void AcceptLoop()
{
while(true)
{
Socket dosock = sock.Accept();
DoIt(dosock);
}
}
private void DoIt(Socket dosock)
{
byte[] packet = new byte[128];
dosock.Receive(packet);
MemoryStream ms = new MemoryStream(packet);
BinaryReader br = new BinaryReader(ms);
MsgType msgtype = (MsgType)br.ReadInt32();
switch(msgtype)
{
case MsgType.MSG_CF_ADDSI: SetAddressProc(br); break;
case MsgType.MSG_CF_ADDPR: AddPRProc(br); break;
case MsgType.MSG_CF_ADDWF: AddWaferProc(br); break;
case MsgType.MSG_CF_SETDR: SetDropProc(br); break;
case MsgType.MSG_CF_SETSP: SetSpeedProc(br); break;
}
br.Close();
ms.Close();
dosock.Close();
}
private void SetSpeedProc(BinaryReader br)
{
int no = br.ReadInt32();
int speed = br.ReadInt32();
if (SettedSpeed != null)
{
SettedSpeed(this, new SetSpeedEventArgs(no, speed));
}
}
private void SetDropProc(BinaryReader br)
{
int no = br.ReadInt32();
int drop = br.ReadInt32();
if (SettedDrop != null)
{
SettedDrop(this, new SetDropEventArgs(no, drop));
}
}
private void AddPRProc(BinaryReader br)
{
int no = br.ReadInt32();
int pcnt = br.ReadInt32();
if (AddedPR != null)
{
AddedPR(this, new AddPREventArgs(no, pcnt));
}
}
private void AddWaferProc(BinaryReader br)
{
int no = br.ReadInt32();
int bwcnt = br.ReadInt32();
if (AddedWafer != null)
{
AddedWafer(this, new AddWaferEventArgs(no, bwcnt));
}
}
private void SetAddressProc(BinaryReader br)
{
IPAddress ipaddr = IPAddress.Parse(br.ReadString());
int port = br.ReadInt32();
if(RecvStsEndPoint != null)
{
RecvStsEndPoint(this, new RecvStsEndPtEventArgs(ipaddr, port));
}
}
}
}
7. ControlClient.cs
using System.IO;
using System.Net;
using System.Net.Sockets;
namespace WaferLineCommLib
{
public class ControlClient
{
IPAddress cip;
int cport;
public ControlClient(IPAddress cip,int cport)
{
this.cip = cip;
this.cport = cport;
}
public bool SendAddWafer(int no,int bwcnt)
{
byte[] packet = new byte[128];
MemoryStream ms = new MemoryStream(packet);
BinaryWriter bw = new BinaryWriter(ms);
bw.Write((int)MsgType.MSG_FC_ADDWF);
bw.Write(no);
bw.Write(bwcnt);
bw.Close();
ms.Close();
return SendPacket(packet);
}
public bool SendAddLine(int no)
{
byte[] packet = new byte[128];
MemoryStream ms = new MemoryStream(packet);
BinaryWriter bw = new BinaryWriter(ms);
bw.Write((int)MsgType.MSG_FC_ADDLN);
bw.Write(no);
bw.Close();
ms.Close();
return SendPacket(packet);
}
bool SendPacket(byte[] packet)
{
try
{
Socket sock = new Socket(AddressFamily.InterNetwork,
SocketType.Stream, ProtocolType.Tcp);
IPEndPoint ep = new IPEndPoint(cip, cport);
sock.Connect(ep);
sock.Send(packet);
sock.Close();
return true;
}
catch
{
return false;
}
}
public bool SendAddPR(int no,int pcnt)
{
byte[] packet = new byte[128];
MemoryStream ms = new MemoryStream(packet);
BinaryWriter bw = new BinaryWriter(ms);
bw.Write((int)MsgType.MSG_FC_ADDPR);
bw.Write(no);
bw.Write(pcnt);
bw.Close();
ms.Close();
return SendPacket(packet);
}
public bool SendSetSpeed(int no, int speed)
{
byte[] packet = new byte[128];
MemoryStream ms = new MemoryStream(packet);
BinaryWriter bw = new BinaryWriter(ms);
bw.Write((int)MsgType.MSG_FC_SETSP);
bw.Write(no);
bw.Write(speed);
bw.Close();
ms.Close();
return SendPacket(packet);
}
public bool SendSetDrop(int no, int drop)
{
byte[] packet = new byte[128];
MemoryStream ms = new MemoryStream(packet);
BinaryWriter bw = new BinaryWriter(ms);
bw.Write((int)MsgType.MSG_FC_SETDR);
bw.Write(no);
bw.Write(drop);
bw.Close();
ms.Close();
return SendPacket(packet);
}
public bool SendEndPR(int no)
{
byte[] packet = new byte[128];
MemoryStream ms = new MemoryStream(packet);
BinaryWriter bw = new BinaryWriter(ms);
bw.Write((int)MsgType.MSG_FC_ENDPR);
bw.Write(no);
bw.Close();
ms.Close();
return SendPacket(packet);
}
public bool SendEndedCoating(int no,int bwcnt,int awcnt)
{
byte[] packet = new byte[128];
MemoryStream ms = new MemoryStream(packet);
BinaryWriter bw = new BinaryWriter(ms);
bw.Write((int)MsgType.MSG_FC_ENDCO);
bw.Write(no);
bw.Write(bwcnt);
bw.Write(awcnt);
bw.Close();
ms.Close();
return SendPacket(packet);
}
}
}
8. ControlServer.cs
using System.IO;
using System.Net;
using System.Net.Sockets;
using WaferLineLib;
namespace WaferLineCommLib
{
public class ControlServer
{
public event AddLineEventHandler AddedLine;
public event AddWaferEventHandler AddedWafer;
public event AddPREventHandler AddedPR;
public event SetSpeedEventHandler SettedSpeed;
public event SetDropEventHandler SettedDrop;
public event EndPREventHandler EndedPR;
public event EndCoatingEventHandler EndedCoating;
string ip;
int port;
public ControlServer(string ip,int port)
{
this.ip = ip;
this.port = port;
}
delegate void StartDele();
public void AsyncStart()
{
StartDele dele = Start;
dele.BeginInvoke(null, null);
}
public void Start()
{
//소켓 생성
Socket sock = new Socket(AddressFamily.InterNetwork,
SocketType.Stream, ProtocolType.Tcp);
//소켓을 네트워크 인터페이스와 결합
IPAddress addr = IPAddress.Parse(ip);
IPEndPoint ep = new IPEndPoint(addr, port);
sock.Bind(ep);
//백로그 큐 크기 설정
sock.Listen(5);
//클라이언트 연결 요청 대기 및 수락 Loop
while(true)
{
Socket dosock = sock.Accept();
DoIt(dosock);
}
}
private void DoIt(Socket dosock)
{
byte[] packet = new byte[128];
dosock.Receive(packet);
MemoryStream ms = new MemoryStream(packet);
BinaryReader br = new BinaryReader(ms);
MsgType msgtype = (MsgType)br.ReadInt32();
switch(msgtype)
{
case MsgType.MSG_FC_ADDLN: AddLineProc(br); break;
case MsgType.MSG_FC_ADDWF: AddWaferProc(br); break;
case MsgType.MSG_FC_ADDPR: AddPrProc(br); break;
case MsgType.MSG_FC_SETSP: SetSpeedProc(br); break;
case MsgType.MSG_FC_SETDR: SetDropProc(br); break;
case MsgType.MSG_FC_ENDPR: EndPrProc(br); break;
case MsgType.MSG_FC_ENDCO: EndCoatingProc(br); break;
}
br.Close();
ms.Close();
dosock.Close();
}
private void EndCoatingProc(BinaryReader br)
{
int no = br.ReadInt32();
int bwcnt = br.ReadInt32();
int awcnt = br.ReadInt32();
if (EndedCoating != null)
{
EndedCoating(this, new EndCoatingEventArgs(no, bwcnt,awcnt));
}
}
private void EndPrProc(BinaryReader br)
{
int no = br.ReadInt32();
if (EndedPR != null)
{
EndedPR(this, new EndPREventArgs(no));
}
}
private void SetDropProc(BinaryReader br)
{
int no = br.ReadInt32();
int drop = br.ReadInt32();
if (SettedDrop != null)
{
SettedDrop(this, new SetDropEventArgs(no,drop));
}
}
private void SetSpeedProc(BinaryReader br)
{
int no = br.ReadInt32();
int speed = br.ReadInt32();
if (SettedSpeed != null)
{
SettedSpeed(this, new SetSpeedEventArgs(no, speed));
}
}
private void AddPrProc(BinaryReader br)
{
int no = br.ReadInt32();
int pcnt = br.ReadInt32();
if (AddedPR != null)
{
AddedPR(this, new AddPREventArgs(no, pcnt));
}
}
private void AddWaferProc(BinaryReader br)
{
int no = br.ReadInt32();
int bwcnt = br.ReadInt32();
if(AddedWafer != null)
{
AddedWafer(this, new AddWaferEventArgs(no, bwcnt));
}
}
private void AddLineProc(BinaryReader br)
{
int no = br.ReadInt32();
if(AddedLine != null)
{
AddedLine(this, new AddLineEventArgs(no));
}
}
}
}
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