Beispiel #1
0
int ChatServer::handle_data(ACE_SOCK_Stream *client)
{
	if (DLOG)
	{
		printf("\n");
		Util::log("[ChatServer::handle_data] START\n");
	}

	// Place the connection into blocking mode since this
	// thread isn't doing anything except handling this client.
	client->disable(ACE_NONBLOCK);

	PacketHandler handler = PacketHandler(*client);
	ServerPacketListener spl = ServerPacketListener(handler);
		
	// Keep handling chat messages until client closes connection
	// or this thread is asked to cancel itself.
	ACE_Thread_Manager *mgr = ACE_Thread_Manager::instance();
	ACE_thread_t me = ACE_Thread::self();
	while (!mgr->testcancel(me) &&
		handler.processPacket(spl) != 0)
		continue;
	handler.close();

	if (DLOG) Util::log("[ChatServer::handle_data] END\n");
	return 0;
}
Beispiel #2
0
	void PacketManager::broadcastPacket(styx::ProtocolObject *protocolObject)
	{
		for ( std::list<PacketHandler*>::iterator ix = handlerList.begin(); ix != handlerList.end(); ix ++) {
			PacketHandler *handler = *ix;
			if ( handler->handlePacket(protocolObject) )
				break;
		}
	}
Beispiel #3
0
int main()
{
    // Initialize PortHandler instance
    // Set the port path
    // Get methods and members of PortHandlerLinux or PortHandlerWindows
    PortHandler *portHandler = PortHandler::GetPortHandler(DEVICENAME);

    // Initialize Packethandler instance
    // Set the protocol version
    // Get methods and members of Protocol1PacketHandler or Protocol2PacketHandler
    PacketHandler *packetHandler = PacketHandler::GetPacketHandler(PROTOCOL_VERSION);

    int dxl_comm_result = COMM_TX_FAIL;             // Communication result

    UINT8_T dxl_error = 0;                          // Dynamixel error
    UINT16_T dxl_model_number;                      // Dynamixel model number

    // Open port
    if( portHandler->OpenPort() )
    {
        printf( "Succeeded to open the port!\n" );
    }
    else
    {
        printf( "Failed to open the port!\n" );
        printf( "Press any key to terminate...\n" );
        _getch();
        return 0;
    }

    // Set port baudrate
    if( portHandler->SetBaudRate(BAUDRATE) )
    {
        printf( "Succeeded to change the baudrate!\n" );
    }
    else
    {
        printf( "Failed to change the baudrate!\n" );
        printf( "Press any key to terminate...\n" );
        _getch();
        return 0;
    }

    // Try to ping the Dynamixel
    // Get Dynamixel model number
    dxl_comm_result = packetHandler->Ping(portHandler, DXL_ID, &dxl_model_number, &dxl_error);
    if(dxl_comm_result != COMM_SUCCESS)
        packetHandler->PrintTxRxResult(dxl_comm_result);
    else if(dxl_error != 0)
        packetHandler->PrintRxPacketError(dxl_error);

    printf("[ID:%03d] Ping Succeeded. Dynamixel model number : %d\n", DXL_ID, dxl_model_number);

    // Close port
    portHandler->ClosePort();

    return 0;
}
Beispiel #4
0
int main()
{
    // Initialize PortHandler instance
    // Set the port path
    // Get methods and members of PortHandlerLinux or PortHandlerWindows
    PortHandler *portHandler = PortHandler::GetPortHandler(DEVICENAME);

    // Initialize Packethandler instance
    // Set the protocol version
    // Get methods and members of Protocol1PacketHandler or Protocol2PacketHandler
    PacketHandler *packetHandler = PacketHandler::GetPacketHandler(PROTOCOL_VERSION);

    int dxl_comm_result = COMM_TX_FAIL;             // Communication result

    std::vector<UINT8_T> vec;                       // Dynamixel data storages

    // Open port
    if( portHandler->OpenPort() )
    {
        printf( "Succeeded to open the port!\n" );
    }
    else
    {
        printf( "Failed to open the port!\n" );
        printf( "Press any key to terminate...\n" );
        _getch();
        return 0;
    }

    // Set port baudrate
    if( portHandler->SetBaudRate(BAUDRATE) )
    {
        printf( "Succeeded to change the baudrate!\n" );
    }
    else
    {
        printf( "Failed to change the baudrate!\n" );
        printf( "Press any key to terminate...\n" );
        _getch();
        return 0;
    }

    // Try to broadcast ping the Dynamixel
    dxl_comm_result = packetHandler->BroadcastPing(portHandler, vec);
    if(dxl_comm_result != COMM_SUCCESS)
        packetHandler->PrintTxRxResult(dxl_comm_result);

    printf("Detected Dynamixel : \n");
    for(int i = 0; i < (int)vec.size(); i++)
    {
        printf("[ID:%03d]\n", vec.at(i));
    }

    // Close port
    portHandler->ClosePort();

    return 0;
}
Beispiel #5
0
void NSPacketProc::RegisterPacketProc()
{
	PacketHandler* poPacketHandler = (PacketHandler*)g_poContext->GetPacketHandler();
	// 外部消息
	poPacketHandler->RegsterExterPacketProc(NSMsgType::eLuaCmdMsg, (void*)OnLuaCmdMsg);

	// 内部消息
	poPacketHandler->RegsterInnerPacketProc(NSMsgType::eLuaRpcMsg, (void*)OnLuaRpcMsg);
	poPacketHandler->RegsterInnerPacketProc(NSMsgType::eLuaCmdMsg, (void*)OnLuaCmdMsgInner);
	poPacketHandler->RegsterInnerPacketProc(NSSysCmd::ssRegServiceRet, (void*)OnRegisterRouterCallback);
}
Beispiel #6
0
void NSPacketProc::RegisterPacketProc()
{
	PacketHandler* poPacketHandler = g_poContext->GetPacketHandler();
	poPacketHandler->RegsterInnerPacketProc(NSMsgType::eLuaRpcMsg, (void*)OnLuaRpcMsg);
	poPacketHandler->RegsterInnerPacketProc(NSMsgType::eLuaCmdMsg, (void*)OnLuaCmdMsg);

	poPacketHandler->RegsterInnerPacketProc(NSSysCmd::ssRegServiceRet, (void*)OnRegisterRouterCallback);
	//poPacketHandler->RegsterInnerPacketProc(NSSysCmd::ssClientClose, (void*)OnClientClose);

	poPacketHandler->RegsterInnerPacketProc(NSCltSrvCmd::cRoleStartRunReq, (void*)OnRoleStartRun);
	poPacketHandler->RegsterInnerPacketProc(NSCltSrvCmd::cRoleStopRunReq, (void*)OnRoleStopRun);
}
Beispiel #7
0
int main(void) {

    char username[USERNAME_LEN];
    char password[PASSWORD_LEN];
   
    puts("**Login**");
    printf("Enter username: "******"Enter password: "******"Authing user: %s ..\n", username);

    PacketHandler pck;
    string login_string = pck.login_packet(username, password, 1.0);
    
    int auth_sock = connect_to("localhost", AUTH_PORT);
    send(auth_sock, login_string.data(), login_string.length(), 0);
    
    string auth_code = pck.auth_code_packet((char *)get_auth_code(auth_sock).c_str());
    int serv_sock;

    if (auth_code.length() > 0) {
        puts("Connecting to game server..");
        serv_sock =  connect_to("localhost", SERV_PORT);
        send(serv_sock, auth_code.data(), auth_code.length(), 0);
    } else {
        //prompt to login again
        exit(0);
    }

    for( ; ; ) {

        read_data(serv_sock);

    }
}
				inline ClientHandler(PacketHandler<ClientHandler>& mPacketHandler) : packetHandler(mPacketHandler)
				{
					onPacketReceived += [this](sf::Packet mPacket){ packetHandler.handle(*this, mPacket); refreshTimeout(); };
					timeoutFuture = std::async(std::launch::async, [this]
					{
						while(running)
						{
							std::this_thread::sleep_for(800ms);

							if(!isBusy() || --untilTimeout > 0) continue;

							HG_LO_VERBOSE("ClientHandler") << "Client (" << uid << ") timed out\n";
							onDisconnect(); disconnect();
						}
					});
				}
Beispiel #9
0
int main()
{
    // Initialize PortHandler instance
    // Set the port path
    // Get methods and members of PortHandlerLinux or PortHandlerWindows
    PortHandler *portHandler = PortHandler::GetPortHandler(DEVICENAME);

    // Initialize Packethandler instance
    // Set the protocol version
    // Get methods and members of Protocol1PacketHandler or Protocol2PacketHandler
    PacketHandler *packetHandler = PacketHandler::GetPacketHandler(PROTOCOL_VERSION);

    // Initialize Groupsyncwrite instance
    GroupSyncWrite groupSyncWrite(portHandler, packetHandler, ADDR_MX_GOAL_POSITION, LEN_MX_GOAL_POSITION);

    int index = 0;
    int dxl_comm_result = COMM_TX_FAIL;             // Communication result
    bool dxl_addparam_result = false;                // AddParam result
    int dxl_goal_position[2] = {DXL_MINIMUM_POSITION_VALUE, DXL_MAXIMUM_POSITION_VALUE};         // Goal position

    UINT8_T dxl_error = 0;                          // Dynamixel error
    UINT8_T param_goal_position[2];
    UINT16_T dxl1_present_position = 0, dxl2_present_position = 0;              // Present position

    // Open port
    if( portHandler->OpenPort() )
    {
        printf( "Succeeded to open the port!\n" );
    }
    else
    {
        printf( "Failed to open the port!\n" );
        printf( "Press any key to terminate...\n" );
        _getch();
        return 0;
    }

    // Set port baudrate
    if( portHandler->SetBaudRate(BAUDRATE) )
    {
        printf( "Succeeded to change the baudrate!\n" );
    }
    else
    {
        printf( "Failed to change the baudrate!\n" );
        printf( "Press any key to terminate...\n" );
        _getch();
        return 0;
    }

    // Enable Dynamixel#1 Torque
    dxl_comm_result = packetHandler->Write1ByteTxRx(portHandler, DXL1_ID, ADDR_MX_TORQUE_ENABLE, TORQUE_ENABLE, &dxl_error);
    if(dxl_comm_result != COMM_SUCCESS)
        packetHandler->PrintTxRxResult(dxl_comm_result);
    else if(dxl_error != 0)
        packetHandler->PrintRxPacketError(dxl_error);
    else
        printf("Dynamixel#%d has been successfully connected \n", DXL1_ID);

    // Enable Dynamixel#2 Torque
    dxl_comm_result = packetHandler->Write1ByteTxRx(portHandler, DXL2_ID, ADDR_MX_TORQUE_ENABLE, TORQUE_ENABLE, &dxl_error);
    if(dxl_comm_result != COMM_SUCCESS)
        packetHandler->PrintTxRxResult(dxl_comm_result);
    else if(dxl_error != 0)
        packetHandler->PrintRxPacketError(dxl_error);
    else
        printf("Dynamixel#%d has been successfully connected \n", DXL2_ID);

    while(1)
    {
        printf("Press any key to continue! (or press ESC to quit!)\n");
        if(_getch() == ESC_ASCII_VALUE)
            break;

        // Allocate goal position value into byte array
        param_goal_position[0] = DXL_LOBYTE(dxl_goal_position[index]);
        param_goal_position[1] = DXL_HIBYTE(dxl_goal_position[index]);

        // Add Dynamixel#1 goal position value to the Syncwrite storage
        dxl_addparam_result = groupSyncWrite.AddParam(DXL1_ID, param_goal_position);
        if( dxl_addparam_result != true )
        {
            fprintf(stderr, "[ID:%03d] groupSyncWrite addparam failed", DXL1_ID);
            return 0;
        }

        // Add Dynamixel#2 goal position value to the Syncwrite parameter storage
        dxl_addparam_result = groupSyncWrite.AddParam(DXL2_ID, param_goal_position);
        if( dxl_addparam_result != true )
        {
            fprintf(stderr, "[ID:%03d] groupSyncWrite addparam failed", DXL2_ID);
            return 0;
        }

        // Syncwrite goal position
        dxl_comm_result = groupSyncWrite.TxPacket();
        if(dxl_comm_result != COMM_SUCCESS)
            packetHandler->PrintTxRxResult(dxl_comm_result);

        // Clear syncwrite parameter storage
        groupSyncWrite.ClearParam();

        do
        {
            // Read Dynamixel#1 present position
            dxl_comm_result = packetHandler->Read2ByteTxRx(portHandler, DXL1_ID, ADDR_MX_PRESENT_POSITION, &dxl1_present_position, &dxl_error);
            if(dxl_comm_result != COMM_SUCCESS)
                packetHandler->PrintTxRxResult(dxl_comm_result);
            else if(dxl_error != 0)
                packetHandler->PrintRxPacketError(dxl_error);

            // Read Dynamixel#2 present position
            dxl_comm_result = packetHandler->Read2ByteTxRx(portHandler, DXL2_ID, ADDR_MX_PRESENT_POSITION, &dxl2_present_position, &dxl_error);
            if(dxl_comm_result != COMM_SUCCESS)
                packetHandler->PrintTxRxResult(dxl_comm_result);
            else if(dxl_error != 0)
                packetHandler->PrintRxPacketError(dxl_error);

            printf("[ID:%03d] GoalPos:%03d  PresPos:%03d\t[ID:%03d] GoalPos:%03d  PresPos:%03d\n", DXL1_ID, dxl_goal_position[index], dxl1_present_position, DXL2_ID, dxl_goal_position[index], dxl2_present_position);

        }while((abs(dxl_goal_position[index] - dxl1_present_position) > DXL_MOVING_STATUS_THRESHOLD) || (abs(dxl_goal_position[index] - dxl2_present_position) > DXL_MOVING_STATUS_THRESHOLD));

        // Change goal position
        if( index == 0 )
            index = 1;
        else
            index = 0;
    }

    // Disable Dynamixel#1 Torque
    dxl_comm_result = packetHandler->Write1ByteTxRx(portHandler, DXL1_ID, ADDR_MX_TORQUE_ENABLE, TORQUE_DISABLE, &dxl_error);
    if(dxl_comm_result != COMM_SUCCESS)
        packetHandler->PrintTxRxResult(dxl_comm_result);
    else if(dxl_error != 0)
        packetHandler->PrintRxPacketError(dxl_error);

    // Disable Dynamixel#2 Torque
    dxl_comm_result = packetHandler->Write1ByteTxRx(portHandler, DXL2_ID, ADDR_MX_TORQUE_ENABLE, TORQUE_DISABLE, &dxl_error);
    if(dxl_comm_result != COMM_SUCCESS)
        packetHandler->PrintTxRxResult(dxl_comm_result);
    else if(dxl_error != 0)
        packetHandler->PrintRxPacketError(dxl_error);


    // Close port
    portHandler->ClosePort();

    return 0;
}
Beispiel #10
0
void NSPacketProc::RegisterPacketProc()
{
	PacketHandler* poPacketHandler = g_poContext->GetPacketHandler();
	poPacketHandler->RegsterInnerPacketProc(NSMsgType::eLuaRpcMsg, (void*)OnLuaRpcMsg);
	poPacketHandler->RegsterInnerPacketProc(NSMsgType::eLuaCmdMsg, (void*)OnLuaCmdMsg);

	poPacketHandler->RegsterInnerPacketProc(NSSysCmd::ssRegServiceRet, (void*)OnRegisterRouterCallback);
	poPacketHandler->RegsterInnerPacketProc(NSSysCmd::ssServiceClose, (void*)OnServiceClose);
	poPacketHandler->RegsterInnerPacketProc(NSSysCmd::ssClientClose, (void*)OnClientClose);

	poPacketHandler->RegsterInnerPacketProc(NSCltSrvCmd::cPlayerRun, (void*)OnPlayerRun);
	poPacketHandler->RegsterInnerPacketProc(NSCltSrvCmd::cPlayerStopRun, (void*)OnPlayerStopRun);
	poPacketHandler->RegsterInnerPacketProc(NSCltSrvCmd::ppActorStartAttack, (void*)OnActorStartAttack);
	poPacketHandler->RegsterInnerPacketProc(NSCltSrvCmd::ppActorStopAttack, (void*)OnActorStopAttack);
	poPacketHandler->RegsterInnerPacketProc(NSCltSrvCmd::cActorHurted, (void*)OnActorHurted);
	poPacketHandler->RegsterInnerPacketProc(NSCltSrvCmd::cActorDamage, (void*)OnActorDamage);
	poPacketHandler->RegsterInnerPacketProc(NSCltSrvCmd::cEveHurted, (void*)OnEveHurted);
}
Beispiel #11
0
int main(int argc, char* argv[]) {
	/*
	 * Signals
	 */
	boost::asio::io_service signalService;
	boost::asio::signal_set signals(signalService, SIGINT, SIGTERM, SIGQUIT);
	signals.async_wait(handle_stop);
	boost::thread signalThread(
			boost::bind(&boost::asio::io_service::run, &signalService));

	/*
	 * Static Class initializations
	 */
	TriggerOptions::Load(argc, argv);
	MyOptions::Load(argc, argv);
	try {
		ZMQHandler::Initialize(Options::GetInt(OPTION_ZMQ_IO_THREADS));
	} catch (const zmq::error_t& ex) {
		LOG_ERROR("Failed to initialize ZMQ because: " << ex.what());
		exit(1);
	}
	HLTStruct HLTConfParams;
	HLTriggerManager::fillStructFromXMLFile(HLTConfParams);
	L1TriggerProcessor::initialize(HLTConfParams.l1);
	L2TriggerProcessor::initialize(HLTConfParams.l2);

	FarmStatistics::init();
	FarmStatistics farmstats;
	farmstats.startThread("StatisticsWriter");
	/*
	 * initialize NIC handler and start gratuitous ARP request sending thread
	 */
	NetworkHandler NetworkHandler(Options::GetString(OPTION_ETH_DEVICE_NAME));
	NetworkHandler.startThread("ArpSender");

	SourceIDManager::Initialize(Options::GetInt(OPTION_TS_SOURCEID),
			Options::GetIntPairList(OPTION_DATA_SOURCE_IDS),
			Options::GetIntPairList(OPTION_L1_DATA_SOURCE_IDS));

	BurstIdHandler::initialize(Options::GetInt(OPTION_FIRST_BURST_ID),
			&onBurstFinished);

	HandleFrameTask::initialize();

	EventSerializer::initialize();
	try {
		StorageHandler::initialize();
	}
	catch(const zmq::error_t& ex) {
		LOG_ERROR("Failed to initialize StorageHandler because: " << ex.what());
		exit(1);
	}
	StorageHandler sh;
	sh.startThread("StorageHandler");

		//StrawReceiver::initialize();

	L1Builder::initialize();
	L2Builder::initialize();

	Event::initialize(MyOptions::GetBool(OPTION_PRINT_MISSING_SOURCES));

//  Initialize Detector counts. L1=32 because 0=gtk, 1-30 Lkr, 31 MUV
//  20 should be changed with a proper dynamic definition of the number of L0 sources
	DetectorStatistics::init(20,32);
	DetectorStatistics::clearL0DetectorStatistics();
	DetectorStatistics::clearL1DetectorStatistics();

	// Get the list of farm nodes and find my position
	vector<std::string> nodes = Options::GetStringList(OPTION_FARM_HOST_NAMES);
	std::string myIP = EthernetUtils::ipToString(
			EthernetUtils::GetIPOfInterface(
					Options::GetString(OPTION_ETH_DEVICE_NAME)));
	uint logicalNodeID = 0xffffffff;
	for (size_t i = 0; i < nodes.size(); ++i) {
		if (myIP == nodes[i]) {
			logicalNodeID = i;
			break;
		}
	}
	if (logicalNodeID == 0xffffffff) {
		LOG_ERROR(
				"You must provide a list of farm nodes IP addresses containing the IP address of this node!");
		exit(1);
	}

	EventPool::initialize(
			Options::GetInt(OPTION_MAX_NUMBER_OF_EVENTS_PER_BURST),
			nodes.size(), logicalNodeID,
			Options::GetInt(OPTION_NUMBER_OF_FRAGS_PER_L0MEP));

	l1::L1DistributionHandler::Initialize(
			Options::GetInt(OPTION_MAX_TRIGGERS_PER_L1MRP),
			Options::GetInt(OPTION_MIN_USEC_BETWEEN_L1_REQUESTS),
			Options::GetStringList(OPTION_CREAM_MULTICAST_GROUP),
			Options::GetInt(OPTION_CREAM_RECEIVER_PORT),
			Options::GetInt(OPTION_CREAM_MULTICAST_PORT));

	/*
	 * Burst Handler
	 */
	LOG_INFO("Start burst handler thread.");
	BurstIdHandler bHandler;
	bHandler.startThread("BurstHandler");
	/*
	 * Monitor
	 */
	LOG_INFO("Starting Monitoring Services");
	monitoring::MonitorConnector monitor;
	monitoring::MonitorConnector::setState(INITIALIZING);
	monitor.startThread("MonitorConnector");

	/*
	 * L1 Distribution handler
	 */
	l1::L1DistributionHandler l1Handler;
	l1Handler.startThread("L1DistributionHandler");

	/*
	 * Packet Handler
	 */
	unsigned int numberOfPacketHandler = NetworkHandler::GetNumberOfQueues();
	LOG_INFO("Starting " << numberOfPacketHandler << " PacketHandler threads");

	for (unsigned int i = 0; i < numberOfPacketHandler; i++) {
		PacketHandler* handler = new PacketHandler(i);
		packetHandlers.push_back(handler);

		uint coresPerSocket = std::thread::hardware_concurrency()
				/ 2/*hyperthreading*/;
		uint cpuMask = i % 2 == 0 ? i / 2 : coresPerSocket + i / 2;
		handler->startThread(i, "PacketHandler", cpuMask, 25,
				MyOptions::GetInt(OPTION_PH_SCHEDULER));

	}

	//for (unsigned int i = 0; i < 4; i++) {
	for (unsigned int i = 0;
			i < std::thread::hardware_concurrency() - numberOfPacketHandler;
			i++) {
		TaskProcessor* tp = new TaskProcessor();
		taskProcessors.push_back(tp);
		tp->startThread(i, "TaskProcessor");

	}

	CommandConnector c;
	c.startThread(0, "Commandconnector", -1, 1);
	monitoring::MonitorConnector::setState(RUNNING);

	/*
	 * Join PacketHandler and other threads
	 */
	AExecutable::JoinAll();
	return 0;
}
Beispiel #12
0
int main(int argc, char* argv[]) {
	/*
	 * Signals
	 */
	boost::asio::io_service signalService;
	boost::asio::signal_set signals(signalService, SIGINT, SIGTERM, SIGQUIT);
	signals.async_wait(handle_stop);
	boost::thread signalThread(
			boost::bind(&boost::asio::io_service::run, &signalService));


	L1TriggerProcessor::registerDownscalingAlgorithms();

	L1TriggerProcessor::registerReductionAlgorithms();
	/*
	 * Static Class initializations
	 */
	TriggerOptions::Load(argc, argv);
	MyOptions::Load(argc, argv);

	ZMQHandler::Initialize(Options::GetInt(OPTION_ZMQ_IO_THREADS));

	L1TriggerProcessor::initialize(
			TriggerOptions::GetDouble(OPTION_L1_BYPASS_PROBABILITY));
	L2TriggerProcessor::initialize(
			TriggerOptions::GetDouble(OPTION_L2_BYPASS_PROBABILITY));

	/*
	 * initialize NIC handler and start gratuitous ARP request sending thread
	 */
	NetworkHandler NetworkHandler(Options::GetString(OPTION_ETH_DEVICE_NAME));
	NetworkHandler.startThread("ArpSender");

	SourceIDManager::Initialize(Options::GetInt(OPTION_TS_SOURCEID),
			Options::GetIntPairList(OPTION_DATA_SOURCE_IDS),
			Options::GetIntPairList(OPTION_CREAM_CRATES),
			Options::GetIntPairList(OPTION_INACTIVE_CREAM_CRATES),
			Options::GetInt(OPTION_MUV_CREAM_CRATE_ID));

	BurstIdHandler::initialize(Options::GetInt(OPTION_FIRST_BURST_ID));

	HandleFrameTask::initialize();

	EventSerializer::initialize();
	StorageHandler::initialize();
	StrawReceiver::initialize();

	L1Builder::initialize();
	L2Builder::initialize();

	Event::initialize(MyOptions::GetBool(OPTION_PRINT_MISSING_SOURCES),
			Options::GetBool(OPTION_WRITE_BROKEN_CREAM_INFO));

	EventPool::initialize(Options::GetInt(
	OPTION_MAX_NUMBER_OF_EVENTS_PER_BURST));

	cream::L1DistributionHandler::Initialize(
			Options::GetInt(OPTION_MAX_TRIGGERS_PER_L1MRP),
			Options::GetInt(OPTION_NUMBER_OF_EBS),
			Options::GetInt(OPTION_MIN_USEC_BETWEEN_L1_REQUESTS),
			Options::GetStringList(OPTION_CREAM_MULTICAST_GROUP),
			Options::GetInt(OPTION_CREAM_RECEIVER_PORT),
			Options::GetInt(OPTION_CREAM_MULTICAST_PORT));

	/*
	 * Monitor
	 */
	LOG_INFO<<"Starting Monitoring Services";
	monitoring::MonitorConnector monitor;
	monitoring::MonitorConnector::setState(INITIALIZING);
	monitor.startThread("MonitorConnector");

	/*
	 * L1 Distribution handler
	 */
	cream::L1DistributionHandler l1Handler;
	l1Handler.startThread("L1DistributionHandler");

	/*
	 * Packet Handler
	 */
	unsigned int numberOfPacketHandler = NetworkHandler::GetNumberOfQueues();
	LOG_INFO<< "Starting " << numberOfPacketHandler
	<< " PacketHandler threads" << ENDL;

	for (unsigned int i = 0; i < numberOfPacketHandler; i++) {
		PacketHandler* handler = new (tbb::task::allocate_root()) PacketHandler(
				i);
		packetHandlers.push_back(handler);

		uint coresPerSocket = std::thread::hardware_concurrency()
				/ 2/*hyperthreading*/;
		uint cpuMask = i % 2 == 0 ? i / 2 : coresPerSocket + i / 2;
		handler->startThread(i, "PacketHandler", cpuMask, 15,
				MyOptions::GetInt(OPTION_PH_SCHEDULER));
	}

	CommandConnector c;
	c.startThread(0, "Commandconnector", -1, 0);
	monitoring::MonitorConnector::setState(RUNNING);

	/*
	 * Join PacketHandler and other threads
	 */
	AExecutable::JoinAll();
	return 0;
}
Beispiel #13
0
/*
* This is a demo for using firewall emulator:
* enter the project directory:
* $g++ main.cpp -o main -lpcap
* $./main dump.pcap 5 filter.pcap > procedure.txt
*/
int main(int argc, char *argv[]) {
        PacketHandler ph;
        if(argc<4)
        {
                printf("please input test filename, max tcp connections and filter file name!\n");
                return 0;
        }
        ph.MAXTCPNUM = atoi(argv[2]);

        printf ("test filename = %s\n", argv[1]);
        printf("max tcp connections: %u\n", ph.MAXTCPNUM);
        printf ("filter filename = %s\n", argv[3]);

        //read the libpcap version
        static const char *version;
        version = pcap_lib_version();
        printf("version: %s\n\n", version);
        //show device
        ph.util.showLocalDev();
        //get local mac address
        ph.util.getLocalMacAddr();
        //open the dumped cap file
        char *dev, errBuff[PCAP_ERRBUF_SIZE];
        pcap_t *handle = NULL;

        handle = pcap_open_offline( argv[1] , errBuff);

        if (NULL == handle) {
            printf("error: %s\n", errBuff);
            return (EXIT_FAILURE);
        }

        // write legal packets to filter.pcap
        pcap_dumper_t *pd = pcap_dump_open(handle, argv[3]);

        PCAP_PKTHEADER *pktHeader;
        int status;
        const u_char *pktData;
        u_char * args = NULL;

        do {
            status = pcap_next_ex(handle, &pktHeader, &pktData );
            ph.handle_ethernet(args, pktData, pktHeader, pd);
        } while (status == 1);

        // conclusion
        cout<<"# of received packets: "<<ph.total_packets<<endl;
        cout<<"# of packets droped by firewall emulator: "<<ph.total_packets - ph.count<<endl;
        cout<<"drop ratio is: "<<(ph.total_packets - ph.count) / (double)ph.total_packets<<endl;
        /*
        cout<<"size: "<<buf.size()<<endl;
        for(vector<IP_PKT>::iterator it  = buf.begin(); it != buf.end(); it++) {
                IP_PKT tmp = *(it);
                cout<<tmp.srcPort<<endl<<tmp.destAddr<<endl;
                cout<<tmp.establish<<endl;
                cout<<tmp.close<<endl<<endl;
        }
        cout<<endl;
        cout<<"******************************"<<endl;
        cout<<"# of legal packet is: "<<count<<endl;
        //close the handle
        pcap_dump_close(pd);
        pcap_close(handle);
        return (EXIT_SUCCESS);
        */
}
Beispiel #14
0
int main()
{
    // Initialize PortHandler instance
    // Set the port path
    // Get methods and members of PortHandlerLinux or PortHandlerWindows
    PortHandler *portHandler = PortHandler::GetPortHandler(DEVICENAME);

    // Initialize Packethandler instance
    // Set the protocol version
    // Get methods and members of Protocol1PacketHandler or Protocol2PacketHandler
    PacketHandler *packetHandler = PacketHandler::GetPacketHandler(PROTOCOL_VERSION);

    int index = 0;
    int dxl_comm_result = COMM_TX_FAIL;             // Communication result
    int dxl_goal_position[2] = {DXL_MINIMUM_POSITION_VALUE, DXL_MAXIMUM_POSITION_VALUE};         // Goal position

    UINT8_T dxl_error = 0;                          // Dynamixel error
    UINT16_T dxl_present_position = 0;              // Present position

    // Open port
    if( portHandler->OpenPort() )
    {
        printf( "Succeeded to open the port!\n" );
    }
    else
    {
        printf( "Failed to open the port!\n" );
        printf( "Press any key to terminate...\n" );
        _getch();
        return 0;
    }

    // Set port baudrate
    if( portHandler->SetBaudRate(BAUDRATE) )
    {
        printf( "Succeeded to change the baudrate!\n" );
    }
    else
    {
        printf( "Failed to change the baudrate!\n" );
        printf( "Press any key to terminate...\n" );
        _getch();
        return 0;
    }

    // Enable DXL Torque
    dxl_comm_result = packetHandler->Write1ByteTxRx(portHandler, DXL_ID, ADDR_MX_TORQUE_ENABLE, TORQUE_ENABLE, &dxl_error);
    if(dxl_comm_result != COMM_SUCCESS)
        packetHandler->PrintTxRxResult(dxl_comm_result);
    else if(dxl_error != 0)
        packetHandler->PrintRxPacketError(dxl_error);
    else
        printf("Dynamixel has been successfully connected \n");

    while(1)
    {
        printf("Press any key to continue! (or press ESC to quit!)\n");
        if(_getch() == ESC_ASCII_VALUE)
            break;

        // Write goal position
        dxl_comm_result = packetHandler->Write2ByteTxRx(portHandler, DXL_ID, ADDR_MX_GOAL_POSITION, dxl_goal_position[index], &dxl_error);
        if(dxl_comm_result != COMM_SUCCESS)
            packetHandler->PrintTxRxResult(dxl_comm_result);
        else if(dxl_error != 0)
            packetHandler->PrintRxPacketError(dxl_error);

        do
        {
            // Read present position
            dxl_comm_result = packetHandler->Read2ByteTxRx(portHandler, DXL_ID, ADDR_MX_PRESENT_POSITION, &dxl_present_position, &dxl_error);
            if(dxl_comm_result != COMM_SUCCESS)
                packetHandler->PrintTxRxResult(dxl_comm_result);
            else if(dxl_error != 0)
                packetHandler->PrintRxPacketError(dxl_error);

            printf("[ID:%03d] GoalPos:%03d  PresPos:%03d\n", DXL_ID, dxl_goal_position[index], dxl_present_position);

        }while((abs(dxl_goal_position[index] - dxl_present_position) > DXL_MOVING_STATUS_THRESHOLD));

        // Change goal position
        if( index == 0 )
            index = 1;
        else
            index = 0;
    }

    // Disable Dynamixel Torque
    dxl_comm_result = packetHandler->Write1ByteTxRx(portHandler, DXL_ID, ADDR_MX_TORQUE_ENABLE, TORQUE_DISABLE, &dxl_error);
    if(dxl_comm_result != COMM_SUCCESS)
        packetHandler->PrintTxRxResult(dxl_comm_result);
    else if(dxl_error != 0)
        packetHandler->PrintRxPacketError(dxl_error);

    // Close port
    portHandler->ClosePort();

    return 0;
}