void cNetworkPortController::ReleasePort(const UINT nPort, const int iFlags)
{
CAsyncSocket *pSocket = NULL;
if ( iFlags & UDP )
{
m_mOpenUdpPorts.Lookup( nPort, (CObject*&)pSocket );
if ( pSocket > 0 )
{
pSocket->Close();
delete pSocket;
m_mOpenUdpPorts.RemoveKey( nPort );
}
}
pSocket = NULL;
if ( iFlags & TCP )
{
m_mOpenTcpPorts.Lookup( nPort, (CObject*&)pSocket );
if ( pSocket > 0 )
{
pSocket->Close();
delete pSocket;
m_mOpenTcpPorts.RemoveKey( nPort );
}
}
}
/*................无用...............*/
BOOL CWorkThread::Accept(CListenSocket& ListenSocket)
{
CAsyncSocket asAccept;
if(!ListenSocket.Accept(asAccept))
return FALSE;
CString strOut;
strOut.Format(_T("CPoolThread::Accept() socket :%d Accept!\n"),asAccept.m_hSocket);
TRACE(strOut);
//线程池是否已满
if(!WorkItem::IsPoolFull())
{
if(fpQueueUserWorkItem != NULL)
{
//
fpQueueUserWorkItem(WorkItem::ClientWorkItemThread, (LPVOID)asAccept.Detach(), WT_EXECUTELONGFUNCTION);
}
else
{
//启动WorkItem类的ClientWorkThread线程
AfxBeginThread(WorkItem::ClientWorkThread, (LPVOID)asAccept.Detach());
}
}
else
{
// refuse request,close socket!拒绝客户端请求,关闭socket
asAccept.Close();
}
return TRUE;
}
void CWySock :: OnAccept(int nErrorCode)
{
CWysApp* pApp = (CWysApp*)AfxGetApp();
CWysWnd* pWnd = (CWysWnd*)pApp->m_pMainWnd;
SCREENLINE sl;
INT i;
// make sure socket is listening
if (this->State != LISTENING)
return;
if (nErrorCode == WSAENETDOWN) {
sl.uColor = COLOR_RED;
sl.szText.LoadString(GetLastError());
pWnd->AddListItem(&sl);
return;
}
// find a free socket
if ((i = pApp->GetSocket()) == NOTFOUND) {
// no space to accept this connection. however will accept
// just using simple socket variable and close. Otherwise
// client program will think it is connected.
CAsyncSocket sdTemp;
Accept(sdTemp, NULL,NULL);
sdTemp.Close();
sl.uColor = COLOR_RED;
sl.szText.LoadString(IDS_NOMORESOCKETS);
pWnd->AddListItem(&sl);
return;
}
// accept the incoming connection
SOCKADDR_IN acc_sin;
INT acc_sin_len;
CWySock* pSock = pApp->pSockets[i];
acc_sin_len = sizeof(acc_sin);
this->Accept(*pSock, (LPSOCKADDR)&acc_sin,
(LPINT)&acc_sin_len);
if (pSock->m_hSocket == INVALID_SOCKET) {
sl.uColor = COLOR_RED;
sl.szText.LoadString(IDS_ACCEPTERR);
pWnd->AddListItem(&sl);
return;
}
CString szTemp;
sl.uColor = COLOR_BLUE;
szTemp.LoadString(IDS_ACCEPTCONNECT);
strcpy(pSock->IPAddress, inet_ntoa(acc_sin.sin_addr));
pSock->State = CONNECTED;
sl.szText.Format(szTemp, pSock->IPAddress);
pWnd->AddListItem(&sl);
return;
}
void cNetworkPortController::ReleaseAllPorts(const int iFlags)
{
POSITION Pos;
CAsyncSocket *pSocket = NULL;
unsigned short nPort = 0;
if ( iFlags & UDP )
{
Pos = m_mOpenUdpPorts.GetStartPosition();
while ( Pos )
{
m_mOpenUdpPorts.GetNextAssoc( Pos, nPort, (CObject*&)pSocket );
if ( pSocket > 0 )
{
pSocket->Close();
delete pSocket;
}
}
m_mOpenUdpPorts.RemoveAll();
}
if ( iFlags & TCP )
{
Pos = m_mOpenTcpPorts.GetStartPosition();
while ( Pos )
{
m_mOpenTcpPorts.GetNextAssoc( Pos, nPort, (CObject*&)pSocket );
if ( pSocket > 0 )
{
pSocket->Close();
delete pSocket;
}
}
m_mOpenTcpPorts.RemoveAll();
}
}
void CLANConnection::Run()
{
VERIFY(AfxSocketInit());
// Socket erzeugen, falls noch nicht geschehen
int nError;
if (!CreateSocket(nError))
{
if (m_pListener)
{
m_pListener->OnSocketError(nError, this);
m_pListener->OnConnectionLost(this);
}
return;
}
CAsyncSocket socket;
ASSERT(m_hSocket != INVALID_SOCKET);
socket.Attach(m_hSocket);
// IP-Adresse und tatsächlichen Port ermitteln
SOCKADDR_IN sockaddr;
memset(&sockaddr, 0, sizeof(sockaddr));
int nSockAddrLen = sizeof(SOCKADDR_IN);
if (!socket.GetSockName((SOCKADDR *)&sockaddr, &nSockAddrLen)) goto error;
m_nPort = ntohs(sockaddr.sin_port);
m_dwIP = ntohl(sockaddr.sin_addr.S_un.S_addr);
// main thread loop
BYTE buf[LAN_BUFSIZE];
while (!IsInterrupted())
{
// Senden
{
CReference<CLANMessage> message;
if (message = GetNextMessage())
{
// Magic Number
memcpy(buf, "BotE", 4);
// Nachricht serialisieren
CMemFile memFile(&buf[4], LAN_BUFSIZE - 4);
CArchive ar(&memFile, CArchive::store);
message->Serialize(ar);
ar.Close();
UINT nSize = memFile.GetPosition() + 4;
memFile.Detach();
// Empfänger setzen
memset(&sockaddr, 0, sizeof(sockaddr));
sockaddr.sin_family = AF_INET;
sockaddr.sin_addr.S_un.S_addr = htonl(message->GetReceiverIP());
sockaddr.sin_port = htons(message->GetReceiverPort());
// Nachricht versenden, setzt bei Fehler m_bInterrupted
if (!SendMessageTo(socket, message, buf, nSize, &sockaddr)) break;
// Broadcast-Nachricht auch an den lokalen Host senden
if (message->GetReceiverIP() == INADDR_BROADCAST)
{
sockaddr.sin_addr.S_un.S_addr = htonl(INADDR_LOOPBACK);
if (!SendMessageTo(socket, message, buf, nSize, &sockaddr))
break;
}
}
}
// Empfangen
memset(&sockaddr, 0, sizeof(sockaddr));
int nSockAddrLen = sizeof(sockaddr);
int nCount = socket.ReceiveFrom(&buf, LAN_BUFSIZE, (SOCKADDR *)&sockaddr, &nSockAddrLen);
if (nCount > 0)
{
// Magic Number prüfen
if (memcmp(&buf, "BotE", 4) != 0) continue;
// Nachricht deserialisieren
CMemFile memFile(&buf[4], nCount - 4);
CArchive ar(&memFile, CArchive::load);
CReference<CLANMessage> message(new CLANMessage());
message->Serialize(ar);
ar.Close();
memFile.Detach();
// IP und Port des Absenders
DWORD dwIP = ntohl(sockaddr.sin_addr.S_un.S_addr);
UINT nPort = ntohs(sockaddr.sin_port);
message->SetSenderIP(dwIP);
message->SetSenderPort(nPort);
// Ankunft einer Nachricht melden
if (m_pListener) m_pListener->OnMessageReceived(message, this);
}
else if (nCount == 0)
{
// "Verbindung" wurde getrennt
ASSERT(FALSE);
break;
}
else if (nCount == SOCKET_ERROR)
{
int nError = socket.GetLastError();
if (nError != WSAEWOULDBLOCK)
{
if (m_pListener) m_pListener->OnSocketError(nError, this);
// WSAECONNRESET tritt auf, wenn wir zuvor eine Nachricht an eine Adresse gesendet
// haben, an der kein Server läuft; Thread dann nicht abbrechen
if (nError != WSAECONNRESET)
{
__super::Interrupt();
break;
}
}
}
Sleep(50);
}
// verbleibende Nachrichten löschen
{
CReference<CLANMessage> message;
while (message = GetNextMessage())
{
if (m_pListener) m_pListener->OnMessageDiscarded(message, this);
}
}
// socket schließen, Thread beenden
socket.Close();
m_hSocket = INVALID_SOCKET;
if (m_bSendLost && m_pListener) m_pListener->OnConnectionLost(this);
return;
error:
if (m_pListener) m_pListener->OnSocketError(socket.GetLastError(), this);
m_hSocket = INVALID_SOCKET;
if (m_pListener) m_pListener->OnConnectionLost(this);
}
