Ejemplo n.º 1
0
bool SINQHMListener::connect(const Poco::Net::SocketAddress &address) {
  std::string host = address.toString();
  std::string::size_type i = host.find(':');
  if (i != std::string::npos) {
    host.erase(i);
  }
  httpcon.setHost(host);
  httpcon.setPort(address.port());
  httpcon.setKeepAlive(true);
  connected = true;
  return true;
}
Ejemplo n.º 2
0
 PothosPacketSocketEndpointInterfaceUdt(const Poco::Net::SocketAddress &addr, const bool server):
     server(server),
     connected(false),
     sess(getUDTSession())
 {
     if (server)
     {
         this->serverSock = makeSocket();
         if (UDT::ERROR == UDT::bind(this->serverSock, addr.addr(), addr.length()))
         {
             throw Pothos::RuntimeException("UDT::bind("+addr.toString()+")", UDT::getlasterror().getErrorMessage());
         }
         UDT::listen(this->serverSock, 1/*only one client expected*/);
     }
     else
     {
         this->clientSock = makeSocket();
         if (UDT::ERROR == UDT::connect(this->clientSock, addr.addr(), addr.length()))
         {
             throw Pothos::RuntimeException("UDT::connect("+addr.toString()+")", UDT::getlasterror().getErrorMessage());
         }
         this->connected = true;
     }
 }
Ejemplo n.º 3
0
bool UDPSocket::bind(const Poco::Net::SocketAddress & address) {
	_bound = false;
	_error.clear();
	if(_connected) {
		_error = "Impossible to bind a connected UDPSocket, close the socket before";
		return false;
	}
	try {
		_socket.bind(address);
		_manager.add(_socket,*this);
		_bound = true;
	} catch(Exception& ex) {
		_error = format("Impossible to bind to %s, %s",address.toString(),ex.displayText());
	}
	return _bound;
}
Ejemplo n.º 4
0
/** Connect to the specified address and checks that is valid
  *  @param address   The IP address and port to contact (port is ignored).
  *  @return True if the connection was successfully established
  */
bool ISISHistoDataListener::connect(const Poco::Net::SocketAddress &address) {

  m_daeName = address.toString();
  // remove the port part
  auto i = m_daeName.find(':');
  if (i != std::string::npos) {
    m_daeName.erase(i);
  }

  // set IDC reporter function for errors
  IDCsetreportfunc(&ISISHistoDataListener::IDCReporter);

  if (IDCopen(m_daeName.c_str(), 0, 0, &m_daeHandle, address.port()) != 0) {
    m_daeHandle = NULL;
    return false;
  }

  m_numberOfPeriods = getInt("NPER");
  g_log.information() << "Number of periods " << m_numberOfPeriods << std::endl;

  // Set the spectra list to load
  std::vector<specid_t> spectra = getProperty("SpectraList");
  if (!spectra.empty()) {
    setSpectra(spectra);
  }

  // Set the period list to load
  std::vector<int> periodList = getProperty("PeriodList");
  if (!periodList.empty()) {
    setPeriods(periodList);
  }

  loadSpectraMap();

  loadTimeRegimes();

  return true;
}
Ejemplo n.º 5
0
void Broadcaster::OnReadable(const Poco::AutoPtr<Poco::Net::ReadableNotification>&)
{
	char *buffer = new char[512];
	Poco::Net::SocketAddress socketAddress;
	//Put the packet into the buffer
	int length = socket.receiveFrom(buffer, 512, socketAddress);
	
	printf("Packet from %s\n", socketAddress.toString().c_str());
	if (strcmp(buffer, "\xff\xff\xff\xffTSource Engine Query\0") == 0){
		char *buffer = "\xff\xff\xff\xffI\aThis is fake\0maps/ns2_dm.level\0ns2\0Practice\0\x38\x13\0\x10\0lw\0\0\x31.0.0.0\0\x91\xa0\x69\5\xec\xdb\x09\x4c\6\x40\1\x38\x13\0\0\0\0\0\0";
		socket.sendTo(buffer, 111, socketAddress);
	}else{
		int pos = 6;
		ServerInfo info;
		info.ServerName = std::string(buffer+pos);
		pos += info.ServerName.length()+1;
		info.CurrentLevel = std::string(buffer+pos);
		pos += info.CurrentLevel.length()+1;
		info.Game = std::string(buffer+pos);
		pos += info.Game.length()+1;
		info.Mod = std::string(buffer+pos);
		printf("Server %s on map %s from %s\n", info.ServerName.c_str(), info.CurrentLevel.c_str(), socketAddress.toString().c_str());
	}
}
Ejemplo n.º 6
0
int main(int argc, char **argv)
{

        if (argc != 2)
        {
                printf("usage: hsWorkServ <Port>\n");
                exit(1);
        }

    int port = atoi(argv[1]);

    Poco::Net::SocketAddress socketAddress(Poco::Net::IPAddress(), port);
    Poco::Net::DatagramSocket datagramSocket(socketAddress);
	
    MySQL::Connector::registerConnector();
    try
    {
        _pSession = new Session(SessionFactory::instance().create(MySQL::Connector::KEY, _dbConnString));
    }catch (ConnectionException& ex)
    {
        std::cout << "!!! WARNING: Connection failed. MySQL tests will fail !!!" << std::endl;
        std::cout << ex.displayText() << std::endl;
		exit(1);
    }

    if (_pSession && _pSession->isConnected()) 
        std::cout << "*** Connected to " << '(' << _dbConnString << ')' << std::endl;
    else {
		MySQL::Connector::unregisterConnector();
		exit(1);
	}
	
    char buffer[1024];

    while (true)
    {
		memset(buffer,0x00,sizeof(buffer));
		
	Poco::Net::SocketAddress sender;
        int n = datagramSocket.receiveFrom(buffer, sizeof(buffer) - 1, sender);
        buffer[n] = '\0';
        std::cout << sender.toString() << ": " << buffer << std::endl;
				
		try 
		{ 
			string sql="";

                        if(8888 == port)
				writeToDB(buffer,sql);
			else if(8889 == port)
				writeToDB2(buffer,sql);
		 	else
			{
				std::cout << "Error param" << std::endl;
				break;
			}		

			Statement stmt(*_pSession);

			stmt << sql;
			stmt.execute();
		}
		catch(ConnectionException& ce){ std::cout << ce.displayText() << std::endl; break; }
		catch(StatementException& se){ std::cout << se.displayText() << std::endl; break; }	
		catch(Exception& e){ std::cout << e.displayText() << std::endl; break; }	
    }
    
	MySQL::Connector::unregisterConnector();
	
    return 0;
}
	void NetworkListenTask::run()
	{
		Poco::Net::SocketAddress incomingAddress;
		TaskState lState;
		char* buffer;
		int receivedSize;

		// Create the receive buffer
		buffer = new char[Constants::NETWORK_RECEIVE_BUFFER_SIZE];

		// A loop that receives network messages. The loop checks the state of this task in
		// a thread safe manner, and terminates if the the state is TS_KILLED. If the state is TS_SUSPEND
		// the loop does not receive any messages.
		for (lState = getState(); lState != TS_KILLED; lState = getState())
		{
			if (lState == TS_SUSPENDED)
			{
				this->sleep(1);

				// Immediately continue to the next iteration if the the task is suspended
				continue;
			}

			try
			{
				// Listen for incoming messages
				receivedSize = mListenSocket.receiveFrom(buffer, Constants::NETWORK_RECEIVE_BUFFER_SIZE, incomingAddress);

				// If we received a message, send it to our NetworkListenBehaviour instance for processing
				if (receivedSize > 0)
				{
					LOG_DEBUG(EngineLog::LM_INFO_ENGINE, "NetworkListenTask::run(): Received message from: " << incomingAddress.toString());

					// Lock for reading mListenBehaviour
					Poco::ScopedRWLock lock(rwLock, false);

					if (mListenBehaviour != NULL)
					{
						mListenBehaviour->processReceivedMessage(incomingAddress.host(), buffer, receivedSize);
					}
					else
					{
						LOG(EngineLog::LM_WARNING, "NetworkListenTask::run(): Received message dropped: there is no NetworkListenBehaviour instance available to process the message.");
					}
				}
			}
			catch (Exception& e)
			{
				LOG(EngineLog::LM_ERROR, "NetworkListenTask::run(): caught Exception: " << e.getMsg());
			}
			catch (Poco::TimeoutException& e)
			{
				// ignore the TimeoutException, it is thrown often in non-blocking mode
			}
			catch (Poco::Exception& e)
			{
				LOG(EngineLog::LM_ERROR, "NetworkListenTask::run(): caught Poco::Exception: " << e.displayText());
			}

			this->sleep(1);
		}

		// Free the receive buffer
		delete[] buffer;
	}