// // C++ Interface: ClientConnection // // Description: The Class ClientConnection manages the servers conenctions to the clients. // each connection is provided by a new process. communication between master process and // connection processes is provided by ... // // // Author: Oliver Scheuss // #include "ClientConnection.h" namespace network{ boost::thread_group network_threads; ClientConnection::ClientConnection(int port, std::string address){ quit=false; server=NULL; enet_address_set_host(&serverAddress, address.c_str()); serverAddress.port = NETWORK_PORT; established=false; } ClientConnection::ClientConnection(int port, const char *address){ quit=false; server=NULL; enet_address_set_host(&serverAddress, address); serverAddress.port = NETWORK_PORT; established=false; } bool ClientConnection::waitEstablished(int milisec){ for(int i=0; i<=milisec && !established; i++) usleep(1000); return established; } ENetPacket *ClientConnection::getPacket(ENetAddress &address){ if(!buffer.isEmpty()) return buffer.pop(address); else return NULL; } bool ClientConnection::queueEmpty(){ return buffer.isEmpty(); } bool ClientConnection::createConnection(){ network_threads.create_thread(boost::bind(boost::mem_fn(&ClientConnection::receiverThread), this)); // wait 10 seconds for the connection to be established return waitEstablished(10000); } bool ClientConnection::closeConnection(){ quit=true; network_threads.join_all(); established=false; return true; } bool ClientConnection::addPacket(ENetPacket *packet){ if(server==NULL) return false; if(enet_peer_send(server, 1, packet)!=0) return false; else return true; } bool ClientConnection::sendPackets(ENetEvent *event){ if(server==NULL) return false; if(enet_host_service(client, event, NETWORK_SEND_WAIT)>=0) return true; else return false; } bool ClientConnection::sendPackets(){ ENetEvent event; if(server==NULL) return false; if(enet_host_service(client, &event, NETWORK_SEND_WAIT)>=0) return true; else return false; } void ClientConnection::receiverThread(){ // what about some error-handling here ? enet_initialize(); atexit(enet_deinitialize); ENetEvent event; client = enet_host_create(NULL, NETWORK_CLIENT_MAX_CONNECTIONS, 0, 0); if(client==NULL) // add some error handling here ========================== quit=true; //connect to the server if(!establishConnection()) quit=true; //main loop while(!quit){ if(enet_host_service(client, &event, NETWORK_WAIT_TIMEOUT)<0){ // we should never reach this point quit=true; // add some error handling here ======================== } switch(event.type){ // log handling ================ case ENET_EVENT_TYPE_RECEIVE: processData(&event); break; case ENET_EVENT_TYPE_DISCONNECT: // add some error/log handling here // extend ===================== break; } } // now disconnect if(!disconnectConnection()) // if disconnecting failed destroy conn. enet_peer_reset(server); return; } bool ClientConnection::disconnectConnection(){ ENetEvent event; enet_peer_disconnect(server, 0); while(enet_host_service(client, &event, NETWORK_WAIT_TIMEOUT) > 0){ switch (event.type) { case ENET_EVENT_TYPE_RECEIVE: enet_packet_destroy(event.packet); break; case ENET_EVENT_TYPE_DISCONNECT: return true; } } enet_peer_reset(server); } bool ClientConnection::establishConnection(){ ENetEvent event; // connect to peer server = enet_host_connect(client, &serverAddress, NETWORK_CLIENT_CHANNELS); if(server==NULL) // error handling return false; // handshake if(enet_host_service(client, &event, NETWORK_WAIT_TIMEOUT)>0 && event.type == ENET_EVENT_TYPE_CONNECT){ established=true; return true; } else return false; } bool ClientConnection::processData(ENetEvent *event){ // just add packet to the buffer // this can be extended with some preprocessing return buffer.push(event); } }