/// \file /// \brief A simple TCP based server allowing sends and receives. Can be connected to by a telnet client. /// /// This file is part of RakNet Copyright 2003 Kevin Jenkins. /// /// Usage of RakNet is subject to the appropriate license agreement. /// Creative Commons Licensees are subject to the /// license found at /// http://creativecommons.org/licenses/by-nc/2.5/ /// Single application licensees are subject to the license found at /// http://www.jenkinssoftware.com/SingleApplicationLicense.html /// Custom license users are subject to the terms therein. /// GPL license users are subject to the GNU General Public /// License as published by the Free /// Software Foundation; either version 2 of the License, or (at your /// option) any later version. #include "TCPInterface.h" #ifdef _WIN32 #else #include #include #include #endif #include #include #include #include "RakAssert.h" #include "RakSleep.h" #ifdef _DO_PRINTF #endif #ifdef _WIN32 #elif defined(_PS3) #define closesocket socketclose #else #define closesocket close #include #endif RAK_THREAD_DECLARATION(UpdateTCPInterfaceLoop); RAK_THREAD_DECLARATION(ConnectionAttemptLoop); #ifdef _MSC_VER #pragma warning( push ) #endif TCPInterface::TCPInterface() { isStarted=false; threadRunning=false; listenSocket=(SOCKET) -1; #if defined(OPEN_SSL_CLIENT_SUPPORT) ctx=0; meth=0; #endif #ifdef _WIN32 WSADATA winsockInfo; if ( WSAStartup( MAKEWORD( 2, 2 ), &winsockInfo ) != 0 ) { #if defined(_WIN32) && !defined(_XBOX360) && defined(_DEBUG) DWORD dwIOError = GetLastError(); LPVOID messageBuffer; FormatMessage( FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS, NULL, dwIOError, MAKELANGID( LANG_NEUTRAL, SUBLANG_DEFAULT ), // Default language ( LPTSTR ) & messageBuffer, 0, NULL ); // something has gone wrong here... printf( "WSAStartup failed:Error code - %d\n%s", dwIOError, messageBuffer ); //Free the buffer. LocalFree( messageBuffer ); #endif } #endif } TCPInterface::~TCPInterface() { Stop(); } bool TCPInterface::Start(unsigned short port, unsigned short maxIncomingConnections) { if (isStarted) return false; isStarted=true; if (maxIncomingConnections>0) { listenSocket = socket(AF_INET, SOCK_STREAM, 0); if ((int)listenSocket ==-1) return false; struct sockaddr_in serverAddress; serverAddress.sin_family = AF_INET; serverAddress.sin_addr.s_addr = htonl(INADDR_ANY); serverAddress.sin_port = htons(port); if (bind(listenSocket,(struct sockaddr *) &serverAddress,sizeof(serverAddress)) < 0) return false; listen(listenSocket, maxIncomingConnections); } // Start the update thread int errorCode = RakNet::RakThread::Create(UpdateTCPInterfaceLoop, this); if (errorCode!=0) return false; return true; } void TCPInterface::Stop(void) { if (isStarted==false) return; unsigned i; #if defined(OPEN_SSL_CLIENT_SUPPORT) for (i=0; i < remoteClients.Size(); i++) remoteClients[i]->DisconnectSSL(); #endif isStarted=false; if (listenSocket!=(SOCKET) -1) { #ifdef _WIN32 shutdown(listenSocket, SD_BOTH); #else shutdown(listenSocket, SHUT_RDWR); #endif closesocket(listenSocket); listenSocket=(SOCKET) -1; } // Abort waiting connect calls blockingSocketListMutex.Lock(); for (i=0; i < blockingSocketList.Size(); i++) { closesocket(blockingSocketList[i]); } blockingSocketListMutex.Unlock(); // Wait for the thread to stop while ( threadRunning ) RakSleep(15); RakSleep(100); // Stuff from here on to the end of the function is not threadsafe for (i=0; i < remoteClients.Size(); i++) { closesocket(remoteClients[i]->socket); #if defined(OPEN_SSL_CLIENT_SUPPORT) remoteClients[i]->FreeSSL(); #endif delete remoteClients[i]; } remoteClients.Clear(); for (i=0; i < remoteClientsInsertionQueue.Size(); i++) { closesocket(remoteClientsInsertionQueue[i]->socket); delete remoteClientsInsertionQueue[i]; } remoteClientsInsertionQueue.Clear(); outgoingMessages.Clear(); incomingMessages.Clear(); newConnections.Clear(); newRemoteClients.Clear(); lostConnections.Clear(); requestedCloseConnections.Clear(); failedConnectionAttempts.Clear(); completedConnectionAttempts.Clear(); failedConnectionAttempts.Clear(); #if defined(OPEN_SSL_CLIENT_SUPPORT) SSL_CTX_free (ctx); startSSL.Clear(); activeSSLConnections.Clear(); #endif } SystemAddress TCPInterface::Connect(const char* host, unsigned short remotePort, bool block) { if (block) { SOCKET sockfd = SocketConnect(host, remotePort); if (sockfd==(SOCKET)-1) return UNASSIGNED_SYSTEM_ADDRESS; RemoteClient *remoteClient; remoteClient = new RemoteClient; remoteClient->socket=sockfd; remoteClient->systemAddress.binaryAddress=inet_addr(host); remoteClient->systemAddress.port=remotePort; InsertRemoteClient(remoteClient); return remoteClient->systemAddress; } else { ThisPtrPlusSysAddr *s = new ThisPtrPlusSysAddr; s->systemAddress.SetBinaryAddress(host); s->systemAddress.port=remotePort; s->tcpInterface=this; // Start the connection thread int errorCode = RakNet::RakThread::Create(ConnectionAttemptLoop, s); if (errorCode!=0) { delete s; failedConnectionAttempts.Push(s->systemAddress); } return UNASSIGNED_SYSTEM_ADDRESS; } } #if defined(OPEN_SSL_CLIENT_SUPPORT) void TCPInterface::StartSSLClient(SystemAddress systemAddress) { if (ctx==0) { SSLeay_add_ssl_algorithms(); meth = SSLv2_client_method(); SSL_load_error_strings(); ctx = SSL_CTX_new (meth); RakAssert(ctx!=0); } SystemAddress *id = startSSL.WriteLock(); *id=systemAddress; startSSL.WriteUnlock(); unsigned index = activeSSLConnections.GetIndexOf(systemAddress); if (index==(unsigned)-1) activeSSLConnections.Insert(systemAddress); } bool TCPInterface::IsSSLActive(SystemAddress systemAddress) { return activeSSLConnections.GetIndexOf(systemAddress)!=-1; } #endif void TCPInterface::Send( const char *data, unsigned length, SystemAddress systemAddress ) { if (isStarted==false) return; if (remoteClients.Size()==0) return; if (data==0) return; Packet *p=outgoingMessages.WriteLock(); p->length=length; p->data = (unsigned char*) rakMalloc( p->length ); memcpy(p->data, data, p->length); p->systemAddress=systemAddress; outgoingMessages.WriteUnlock(); } Packet* TCPInterface::Receive( void ) { if (isStarted==false) return 0; return incomingMessages.ReadLock(); } void TCPInterface::CloseConnection( SystemAddress systemAddress ) { if (isStarted==false) return; if (systemAddress==UNASSIGNED_SYSTEM_ADDRESS) return; SystemAddress *id = requestedCloseConnections.WriteLock(); *id=systemAddress; requestedCloseConnections.WriteUnlock(); #if defined(OPEN_SSL_CLIENT_SUPPORT) unsigned index = activeSSLConnections.GetIndexOf(systemAddress); if (index!=(unsigned)-1) activeSSLConnections.RemoveAtIndex(index); #endif } void TCPInterface::DeallocatePacket( Packet *packet ) { if (packet==0) return; assert(incomingMessages.CheckReadUnlockOrder(packet)); rakFree(packet->data); incomingMessages.ReadUnlock(); } SystemAddress TCPInterface::HasCompletedConnectionAttempt(void) { SystemAddress sysAddr=UNASSIGNED_SYSTEM_ADDRESS; completedConnectionAttemptMutex.Lock(); if (completedConnectionAttempts.IsEmpty()==false) sysAddr=completedConnectionAttempts.Pop(); completedConnectionAttemptMutex.Unlock(); return sysAddr; } SystemAddress TCPInterface::HasFailedConnectionAttempt(void) { SystemAddress sysAddr=UNASSIGNED_SYSTEM_ADDRESS; failedConnectionAttemptMutex.Lock(); if (failedConnectionAttempts.IsEmpty()==false) sysAddr=failedConnectionAttempts.Pop(); failedConnectionAttemptMutex.Unlock(); return sysAddr; } SystemAddress TCPInterface::HasNewConnection(void) { SystemAddress *out; out = newConnections.ReadLock(); if (out) { newConnections.ReadUnlock(); return *out; } else { return UNASSIGNED_SYSTEM_ADDRESS; } } SystemAddress TCPInterface::HasLostConnection(void) { SystemAddress *out; out = lostConnections.ReadLock(); if (out) { lostConnections.ReadUnlock(); return *out; } else { return UNASSIGNED_SYSTEM_ADDRESS; } } void TCPInterface::DeleteRemoteClient(RemoteClient *remoteClient, fd_set *exceptionFD) { (void) exceptionFD; #if defined(OPEN_SSL_CLIENT_SUPPORT) remoteClient->DisconnectSSL(); remoteClient->FreeSSL(); #endif // FD_CLR(remoteClient->socket, exceptionFD); closesocket(remoteClient->socket); //shutdown(remoteClient->socket, SD_SEND); delete remoteClient; } void TCPInterface::InsertRemoteClient(RemoteClient* remoteClient) { remoteClientsInsertionQueueMutex.Lock(); remoteClientsInsertionQueue.Push(remoteClient); remoteClientsInsertionQueueMutex.Unlock(); } SOCKET TCPInterface::SocketConnect(const char* host, unsigned short remotePort) { sockaddr_in serverAddress; #if !defined(_XBOX360) struct hostent * server; server = gethostbyname(host); if (server == NULL) return (SOCKET) -1; #endif SOCKET sockfd = socket(AF_INET, SOCK_STREAM, 0); if (sockfd < 0) return (SOCKET) -1; memset(&serverAddress, 0, sizeof(serverAddress)); serverAddress.sin_family = AF_INET; serverAddress.sin_port = htons( remotePort ); #if !defined(_XBOX360) memcpy((char *)&serverAddress.sin_addr.s_addr, (char *)server->h_addr, server->h_length); #else serverAddress.sin_addr.s_addr = inet_addr( host ); #endif blockingSocketListMutex.Lock(); blockingSocketList.Insert(sockfd); blockingSocketListMutex.Unlock(); // This is blocking int connectResult = connect( sockfd, ( struct sockaddr * ) &serverAddress, sizeof( struct sockaddr ) ); unsigned sockfdIndex; blockingSocketListMutex.Lock(); sockfdIndex=blockingSocketList.GetIndexOf(sockfd); if (sockfdIndex!=(unsigned)-1) blockingSocketList.RemoveAtIndexFast(sockfdIndex); blockingSocketListMutex.Unlock(); if (connectResult==-1) { closesocket(sockfd); return (SOCKET) -1; } return sockfd; } RAK_THREAD_DECLARATION(ConnectionAttemptLoop) { TCPInterface::ThisPtrPlusSysAddr *s = (TCPInterface::ThisPtrPlusSysAddr *) arguments; SystemAddress systemAddress = s->systemAddress; TCPInterface *tcpInterface = s->tcpInterface; delete s; SOCKET sockfd = tcpInterface->SocketConnect(systemAddress.ToString(false), systemAddress.port); if (sockfd==(SOCKET)-1) { tcpInterface->failedConnectionAttemptMutex.Lock(); tcpInterface->failedConnectionAttempts.Push(systemAddress); tcpInterface->failedConnectionAttemptMutex.Unlock(); return 0; } RemoteClient *remoteClient; remoteClient = new RemoteClient; remoteClient->socket=sockfd; remoteClient->systemAddress=systemAddress; tcpInterface->InsertRemoteClient(remoteClient); // Wait for the other thread to pick up the remote client bool isEmpty; do { RakSleep(30); tcpInterface->remoteClientsInsertionQueueMutex.Lock(); isEmpty=tcpInterface->remoteClientsInsertionQueue.IsEmpty(); tcpInterface->remoteClientsInsertionQueueMutex.Unlock(); } while(isEmpty==false && tcpInterface->threadRunning); // Notify user that the connection attempt has completed. if (tcpInterface->threadRunning) { tcpInterface->completedConnectionAttemptMutex.Lock(); tcpInterface->completedConnectionAttempts.Push(systemAddress); tcpInterface->completedConnectionAttemptMutex.Unlock(); } return 0; } RAK_THREAD_DECLARATION(UpdateTCPInterfaceLoop) { TCPInterface * sts = ( TCPInterface * ) arguments; RemoteClient *remoteClient; const int BUFF_SIZE=8096; char data[ BUFF_SIZE ]; Packet *p; SystemAddress *systemAddress; fd_set readFD, exceptionFD; sts->threadRunning=true; sockaddr_in sockAddr; int sockAddrSize = sizeof(sockAddr); unsigned i; int len; SOCKET newSock; timeval tv; int selectResult; tv.tv_sec=0; tv.tv_usec=25000; while (sts->isStarted) { #if defined(OPEN_SSL_CLIENT_SUPPORT) systemAddress = sts->startSSL.ReadLock(); if (systemAddress) { for (i=0; i < sts->remoteClients.Size(); i++) { if (sts->remoteClients[i]->systemAddress==*systemAddress) { if (sts->remoteClients[i]->ssl==0) sts->remoteClients[i]->InitSSL(sts->ctx,sts->meth); } } sts->startSSL.ReadUnlock(); } #endif p=sts->outgoingMessages.ReadLock(); while (p) { if (p->systemAddress==UNASSIGNED_SYSTEM_ADDRESS) { // Send to all for (i=0; i < sts->remoteClients.Size(); i++) sts->remoteClients[i]->Send((const char*)p->data, p->length); } else { // Send to this player for (i=0; i < sts->remoteClients.Size(); i++) if (sts->remoteClients[i]->systemAddress==p->systemAddress ) sts->remoteClients[i]->Send((const char*)p->data, p->length); } rakFree(p->data); sts->outgoingMessages.ReadUnlock(); p=sts->outgoingMessages.ReadLock(); } if (sts->remoteClientsInsertionQueue.IsEmpty()==false) { sts->remoteClientsInsertionQueueMutex.Lock(); if (sts->remoteClientsInsertionQueue.IsEmpty()==false) sts->remoteClients.Insert(sts->remoteClientsInsertionQueue.Pop()); sts->remoteClientsInsertionQueueMutex.Unlock(); } systemAddress=sts->requestedCloseConnections.ReadLock(); if (systemAddress) { for (i=0; i < sts->remoteClients.Size(); i++) { if (sts->remoteClients[i]->systemAddress==*systemAddress ) { systemAddress=sts->lostConnections.WriteLock(); *systemAddress=sts->remoteClients[i]->systemAddress; sts->lostConnections.WriteUnlock(); sts->DeleteRemoteClient(sts->remoteClients[i], &exceptionFD); sts->remoteClients.RemoveAtIndex(i); /* systemAddress=sts->lostConnections.WriteLock(); *systemAddress=sts->remoteClients[i]->systemAddress; sts->lostConnections.WriteUnlock(); sts->remoteClients.Del(i); */ break; } } sts->requestedCloseConnections.ReadUnlock(); } SOCKET largestDescriptor=0; // see select()'s first parameter's documentation under linux // Reset readFD and exceptionFD since select seems to clear it FD_ZERO(&readFD); FD_ZERO(&exceptionFD); #ifdef _MSC_VER #pragma warning( disable : 4127 ) // warning C4127: conditional expression is constant #endif if (sts->listenSocket!=(SOCKET) -1) { FD_SET(sts->listenSocket, &readFD); FD_SET(sts->listenSocket, &exceptionFD); largestDescriptor = sts->listenSocket; // @see largestDescriptor def } for (i=0; i < sts->remoteClients.Size(); i++) { FD_SET(sts->remoteClients[i]->socket, &readFD); FD_SET(sts->remoteClients[i]->socket, &exceptionFD); if(sts->remoteClients[i]->socket > largestDescriptor) // @see largestDescriptorDef largestDescriptor = sts->remoteClients[i]->socket; } // Linux' select() implementation changes the timeout tv.tv_sec=0; tv.tv_usec=25000; #ifdef _MSC_VER #pragma warning( disable : 4244 ) // warning C4127: conditional expression is constant #endif #if defined(_PS3) selectResult=socketselect(largestDescriptor+1, &readFD, 0, &exceptionFD, &tv); #else selectResult=(int) select(largestDescriptor+1, &readFD, 0, &exceptionFD, &tv); #endif //selectResult=select(largestDescriptor+1, &readFD, 0, &exceptionFD, &tv); //selectResult=select(0, &readFD, 0, &exceptionFD, &tv); if (selectResult > 0) { if (sts->listenSocket!=(SOCKET) -1 && FD_ISSET(sts->listenSocket, &readFD)) { newSock = accept(sts->listenSocket, (sockaddr*)&sockAddr, (socklen_t*)&sockAddrSize); if (newSock != (SOCKET) -1) { remoteClient = new RemoteClient; remoteClient->socket=newSock; remoteClient->systemAddress.binaryAddress=sockAddr.sin_addr.s_addr; remoteClient->systemAddress.port=ntohs( sockAddr.sin_port); sts->remoteClients.Insert(remoteClient); systemAddress=sts->newConnections.WriteLock(); *systemAddress=remoteClient->systemAddress; sts->newConnections.WriteUnlock(); FD_SET(newSock, &readFD); FD_SET(newSock, &exceptionFD); } else { #ifdef _DO_PRINTF printf("Error: connection failed\n"); #endif } } else if (sts->listenSocket!=(SOCKET) -1 && FD_ISSET(sts->listenSocket, &exceptionFD)) { #ifdef _DO_PRINTF int err; int errlen = sizeof(err); getsockopt(sts->listenSocket, SOL_SOCKET, SO_ERROR,(char*)&err, &errlen); printf("Socket error %s on listening socket\n", err); #endif } else { i=0; while (i < sts->remoteClients.Size()) { if (FD_ISSET(sts->remoteClients[i]->socket, &exceptionFD)) { #ifdef _DO_PRINTF if (sts->listenSocket!=-1) { int err; int errlen = sizeof(err); getsockopt(sts->listenSocket, SOL_SOCKET, SO_ERROR,(char*)&err, &errlen); in_addr in; in.s_addr = sts->remoteClients[i]->systemAddress.binaryAddress; printf("Socket error %i on %s:%i\n", err,inet_ntoa( in ), sts->remoteClients[i]->systemAddress.port ); } #endif // Connection lost abruptly systemAddress=sts->lostConnections.WriteLock(); *systemAddress=sts->remoteClients[i]->systemAddress; sts->lostConnections.WriteUnlock(); sts->DeleteRemoteClient(sts->remoteClients[i], &exceptionFD); sts->remoteClients.RemoveAtIndex(i); } else { if (FD_ISSET(sts->remoteClients[i]->socket, &readFD)) { // if recv returns 0 this was a graceful close len = sts->remoteClients[i]->Recv(data,BUFF_SIZE); if (len>0) { p=sts->incomingMessages.WriteLock(); p->data = (unsigned char*) rakMalloc( len+1 ); memcpy(p->data, data, len); p->data[len]=0; // Null terminate this so we can print it out as regular strings. This is different from RakNet which does not do this. p->length=len; p->systemAddress=sts->remoteClients[i]->systemAddress; sts->incomingMessages.WriteUnlock(); i++; // Nothing deleted so increment the index } else { // Connection lost gracefully systemAddress=sts->lostConnections.WriteLock(); *systemAddress=sts->remoteClients[i]->systemAddress; sts->lostConnections.WriteUnlock(); sts->DeleteRemoteClient(sts->remoteClients[i], &exceptionFD); sts->remoteClients.RemoveAtIndex(i); } } else i++; // Nothing deleted so increment the index } } } } else if (selectResult==0) { // No input - sleep for a while RakSleep(50); } else { // FD_CLOSE? closesocket(remoteClient->socket); #if defined(_DO_PRINTF) && defined(_WIN32) DWORD dwIOError = WSAGetLastError(); printf("Socket error %i\n", dwIOError); #endif } } sts->threadRunning=false; return 0; } #if defined(OPEN_SSL_CLIENT_SUPPORT) void RemoteClient::InitSSL(SSL_CTX* ctx, SSL_METHOD *meth) { (void) meth; ssl = SSL_new (ctx); RakAssert(ssl); SSL_set_fd (ssl, socket); SSL_connect (ssl); } void RemoteClient::DisconnectSSL(void) { if (ssl) SSL_shutdown (ssl); /* send SSL/TLS close_notify */ } void RemoteClient::FreeSSL(void) { if (ssl) SSL_free (ssl); } void RemoteClient::Send(const char *data, unsigned int length) { int err; if (ssl) { err = SSL_write (ssl, data, length); RakAssert(err>0); } else send(socket, data, length, 0); } int RemoteClient::Recv(char *data, const int dataSize) { if (ssl) { return SSL_read (ssl, data, dataSize); } else return recv(socket, data, dataSize, 0); } #else void RemoteClient::Send(const char *data, unsigned int length) { send(socket, data, length, 0); } int RemoteClient::Recv(char *data, const int dataSize) { return recv(socket, data, dataSize, 0); } #endif #ifdef _MSC_VER #pragma warning( pop ) #endif