Пример #1
0
void 
NetServer::onLeaveUdpGroup( const NetGroupOp& op )
{
	NetGroupMap::iterator i = m_groups.find( op.groupId );

	if ( i == m_groups.end() )
	{
		LOG( FT_WARN, _T("NetServer::onLeaveUdpGroup> %d not found"), op.groupId );

		return;
	}

	TcpConnection* c = m_tcp.FindById( op.connectionId );
	
	if ( c != 0 )
	{
		c->SetGroup( 0 );
	}

	NetGroup* group = i->second;
	K_ASSERT( group != 0 );

	group->Leave( op.connectionId );

	LOG( FT_DEBUG, 
		 _T("NetServer::onLeaveUdpGroup> %d left from %d"), 
		 op.connectionId, group->GetId() );
}
Пример #2
0
TcpConnection* TcpConnector::connect(const TcpSockAddr& addr, int &ret, long timeout) {
    int sockfd;

    ret = -1;
    sockfd = socket(addr.ai_family, SOCK_STREAM, 0);
    if (sockfd < 0) return 0L;

    if (timeout < 0)
        ret = ::connect(sockfd, (struct sockaddr*)&addr.ai_addr, addr.ai_addrlen);
    else
        ret = timeout_connect(sockfd, (struct sockaddr*)&addr.ai_addr, addr.ai_addrlen, timeout);

    if (ret < 0) {
        close(sockfd);
        return 0L;
    } else {
        TcpConnection *tcon;
        tcon = new TcpConnection;
        if (tcon->set_fd(sockfd) < 0) {
            delete tcon;
            return 0L;
        } else {
            return tcon;
        }
    }
}
Пример #3
0
void
SocketConnList::drain()
{
  // First, let all the Connection prepare for drain
  ConnectionList::drain();

  // this will block until draining is complete
  KernelBufferDrainer::instance().monitorSockets(DRAINER_CHECK_FREQ);

  // handle disconnected sockets
  const map<ConnectionIdentifier, vector<char> > &discn =
    KernelBufferDrainer::instance().getDisconnectedSockets();

  map<ConnectionIdentifier, vector<char> >::const_iterator it;
  for (it = discn.begin(); it != discn.end(); it++) {
    const ConnectionIdentifier &id = it->first;
    TcpConnection *con =
      (TcpConnection *)SocketConnList::instance().getConnection(id);
    JTRACE("recreating disconnected socket") (id);

    // reading from the socket, and taking the error, resulted in an
    // implicit close().
    // we will create a new, broken socket that is not closed
    con->onError();
  }
}
Пример #4
0
void NetWork::event_loop()
{
	TRACE(__PRETTY_FUNCTION__);

	//最大时间间隔是1s
	int timeout = 1000;
	IOEvent events[128];
	while (!_stop) {
		memset(events, 0, sizeof(events));
		int n = _sock_event->get_events(timeout, events, 128);
		for (int i = 0; i < n; i++) {
			IOEvent &ev = events[i];
			TcpConnection *conn = ev.conn;
			conn->add_ref();
			if (ev._read_ocurr)
				conn->on_read_event();
			if (ev._write_ocurr) {
				conn->on_write_event();
			}
			conn->release();
		}
		//定时处理
		time_process(time(NULL));
	}

}
Пример #5
0
TcpConnection* TcpAcceptor::accept(const TcpSockAddr& expect, int &ret, long timeout) {
    TcpConnection* conn;
    TcpSockAddr peer_sock;

    conn = accept(ret, timeout);
    if (!conn) return 0L;

    conn->get_remote_addr(peer_sock);

    if (peer_sock.ai_family == expect.ai_family) {
        if (peer_sock.ai_family == AF_INET) {
            // so dirty ~_~
            if (!memcmp(&(((struct sockaddr_in*)&(peer_sock.ai_addr))->sin_addr),
                        &(((struct sockaddr_in*)&(expect.ai_addr))->sin_addr),
                        sizeof(struct in_addr)))
                return conn;
        } else if (peer_sock.ai_family == AF_INET6) {
            // so dirty ~_~
            if (!memcmp(&(((struct sockaddr_in6*)&(peer_sock.ai_addr))->sin6_addr),
                        &(((struct sockaddr_in6*)&(expect.ai_addr))->sin6_addr),
                        sizeof(struct in6_addr)))
                return conn;
        }
    }

    delete conn;

    return 0L;
}
    void runTest() {
        m_strategy = new OpenConnectionStrategy(this);

        m_client_listener = new ClientTcpListener(this);
        m_server_listener = new ServerTcpListener(this);

        m_evmanager = new EventManager();
        m_client = new TcpConnection(IpAddress("127.0.0.1", 9999));
        m_listener = new TcpListener();

        m_listener->listen(9999);
        m_listener->setListener(this);

        m_client->setEventManager(m_evmanager);
        m_client->setListener(m_client_listener);
        m_client->open();

        m_evmanager->registerClient(m_listener);
        m_evmanager->registerClient(m_client);

        m_evmanager->execute();

        delete m_strategy;

        delete m_client_listener;
        delete m_server_listener;

        delete m_client;
        delete m_server;
        delete m_listener;
        delete m_evmanager;
    }
Пример #7
0
int NetWork::getStatus(int handle)
{
	TRACE(__PRETTY_FUNCTION__);

	int status = NET_STATE_INVALID_HANDLE;
	TcpConnection *conn = _online_user.getconn(handle);
	if (conn != NULL) {
		switch (conn->getstate()) {
		case WAIT_CLOSE:

		case CLOSED:
			status = NET_STATE_CLOSED;
			break;
			//connecting 和 CRYPTREGING都认为是正在连接状态
		case CONNECTING:
		case CRYPTREGING:
			status = NET_STATE_CONNECTING;
			break;
		case CONNECTED:
			status = NET_STATE_CONNECTED;
			break;
		default:
			break;
		}
		conn->release();
	}

	return status;
}
Пример #8
0
TcpConnection* TcpConnector::connect(const Address& addr, int& ret, long timeout) {
    int sockfd;
    struct addrinfo *res;

    res = addr.addr;
    ret = -1;
    if (res == NULL) return 0L;

    do {
        sockfd = socket(res->ai_family, res->ai_socktype, res->ai_protocol);
        if (sockfd < 0)
            continue;
        if (timeout < 0) {
            if ((ret=::connect(sockfd, res->ai_addr, res->ai_addrlen)) == 0)
                break;
        } else {
            if ((ret=timeout_connect(sockfd, res->ai_addr, res->ai_addrlen, timeout)) == 0)
                break;
        }
        close(sockfd);
    } while ((res = res->ai_next) != NULL);

    if (res) {
        TcpConnection *tcon;
        tcon = new TcpConnection;
        if (tcon->set_fd(sockfd) < 0) {
            delete tcon;
            return 0L;
        } else {
            return tcon;
        }
    } else {
        return 0L;
    }
}
Пример #9
0
void SocketConnList::scanForPreExisting()
{
  // FIXME: Detect stdin/out/err fds to detect duplicates.
  vector<int> fds = jalib::Filesystem::ListOpenFds();
  for (size_t i = 0; i < fds.size(); ++i) {
    int fd = fds[i];
    if (!Util::isValidFd(fd)) continue;
    if (dmtcp_is_protected_fd(fd)) continue;

    string device = jalib::Filesystem::GetDeviceName(fd);

    JTRACE("scanning pre-existing device") (fd) (device);
    if (device == jalib::Filesystem::GetControllingTerm()) {
    } else if(dmtcp_is_bq_file && dmtcp_is_bq_file(device.c_str())) {
    } else if( fd <= 2 ){
    } else if (Util::strStartsWith(device, "/")) {
    } else {
      JNOTE("found pre-existing socket... will not be restored")
        (fd) (device);
      TcpConnection* con = new TcpConnection(0, 0, 0);
      con->markPreExisting();
      add(fd, con);
    }
  }
}
Пример #10
0
void *thread_fun(void *arg)
{
	TcpConnection *server = (TcpConnection*)arg;
	server->event_loop();

	return NULL;
}
Пример #11
0
err_t TcpServer::onAccept(tcp_pcb *clientTcp, err_t err)
{
	// Anti DDoS :-)
	if (system_get_free_heap_size() < 6500)
	{
		debugf("\r\n\r\nCONNECTION DROPPED\r\n\t(%d)\r\n\r\n", system_get_free_heap_size());
		return ERR_MEM;
	}

	#ifdef NETWORK_DEBUG
	debugf("onAccept state: %d K=%d", err, totalConnections);
	list_mem();
	#endif

	if (err != ERR_OK)
	{
		//closeTcpConnection(clientTcp, NULL);
		return err;
	}

	TcpConnection* client = createClient(clientTcp);
	if (client == NULL) return ERR_MEM;
	client->setTimeOut(timeOut);
	onClient((TcpClient*)client);

	return ERR_OK;
}
Пример #12
0
bool 
ListenerWorker::onUpdateTimer(void* args)
{
    UInt32 currTime = TimeUtil::getTimeSec();

	if (currTime - mLastSecurityCheckTime >= 300000)
	{
		mLastSecurityCheckTime = currTime;

		for (Set<TcpConnection*>::Iter* iter = mMainConnectionSet.begin(); iter != NULL;)
		{
			TcpConnection* conn = iter->mValue;
			if (conn)
			{
				if (currTime - conn->getRecvTimeStamp() >= 
					CLIENT_CONNECTION_SECURITY_CHECK_INTERVAL)
				{
					LOG_WARN("Connection [%s:%u] was closed for timeout.", 
						conn->getFromIp().c_str(), conn->getFromPort());
					LYNX_DEREGISTER_RECEIVED(conn, this, &ListenerWorker::onMainReceived);
					LYNX_DEREGISTER_CONNECT_BROKEN(conn, this, &ListenerWorker::onMainDisconnected);
					conn->close();
					iter = mMainConnectionSet.erase(iter);
					XDELETE(conn);
				}
				else
				{
					iter = mMainConnectionSet.next(iter);
				}
			}
		}

        for (Set<TcpConnection*>::Iter* iter = mGMConnectionSet.begin(); iter != NULL;)
		{
			TcpConnection* conn = iter->mValue;
			if (conn)
			{
				if (currTime - conn->getRecvTimeStamp() >= 
					CLIENT_CONNECTION_SECURITY_CHECK_INTERVAL)
				{
					LOG_WARN("Connection [%s:%u] was closed for timeout.", 
						conn->getFromIp().c_str(), conn->getFromPort());
					LYNX_DEREGISTER_RECEIVED(conn, this, &ListenerWorker::onGMReceived);
					LYNX_DEREGISTER_CONNECT_BROKEN(conn, this, &ListenerWorker::onGMDisconnected);
					conn->close();
					iter = mGMConnectionSet.erase(iter);
					XDELETE(conn);
				}
				else
				{
					iter = mGMConnectionSet.next(iter);
				}
			}
		}
	}
    return true;
}
Пример #13
0
err_t TcpConnection::staticOnReceive(void *arg, tcp_pcb *tcp, pbuf *p, err_t err)
{
//	debugf("Static OnReceive buf = %d", tcp_sndbuf(tcp));
	TcpConnection* con = (TcpConnection*)arg;
	err_t ret_err;
	//Serial.println("echo_recv!");

	if (con == NULL)
	{
		if (p != NULL)
		{
		  /* Inform TCP that we have taken the data. */
		  tcp_recved(tcp, p->tot_len);
		  pbuf_free(p);
		}
		closeTcpConnection(tcp);
		return ERR_OK;
	}
	else
		con->sleep = 0;

	if (err != ERR_OK /*&& err != ERR_CLSD && err != ERR_RST*/)
	{
		debugf("Received ERROR %d", err);
		/* exit and free resources, for unkown reason */
		if (p != NULL)
		{
		  /* Inform TCP that we have taken the data. */
		  tcp_recved(tcp, p->tot_len);
		  pbuf_free(p);
		}
		closeTcpConnection(tcp); // ??
		con->tcp = NULL;
		con->onError(err);
		//con->close();
		return err == ERR_ABRT ? ERR_ABRT : ERR_OK;
	}

	//if (tcp != NULL && tcp->state == ESTABLISHED) // If active
	/* We have taken the data. */
	if (p != NULL)
		tcp_recved(tcp, p->tot_len);

	err_t res = con->onReceive(p);

	if (p != NULL)
		pbuf_free(p);
	else
	{
		con->close();
		closeTcpConnection(tcp);
	}

	con->checkSelfFree();
	//debugf("<staticOnReceive");
	return res;
}
Пример #14
0
void 
NetClient::onGroupPrepare( MessagePtr m )
{
	K_ASSERT( m_groupId == 0 );
	K_ASSERT( m_selfTag == 0 );

	m_groupId = 0;
	m_selfTag = 0;

	NmGroupPrepare* gp = static_cast<NmGroupPrepare*>( m.Get() );

	TcpConnection* c = m_tcp.FindById( gp->remote );

	if ( c == 0 )
	{
		LOG( FT_WARN, 
			 _T("NetClient::onGroupPrepare> Connection %d not found"), 
			 gp->remote );

		return;
	}
	
	m_udp.Fini();

	m_groupId = gp->groupId;
	m_selfTag = gp->connectionId;

	// init udp with c as a relay connection 
	// use same ip:port as TCP connection
	bool rc = m_udp.Init( this, 
						  &m_ios, 
						  c->GetSocket()->GetAddress(), 
						  m_selfTag, 
						  gp->sl, 
						  gp->challenge, 
						  c );

	if ( !rc )
	{
		LOG( FT_WARN, _T("NetClient::onGroupPrepare> Failed to init udp") );

		return;
	}

	NmGroupPrepared* p = new NmGroupPrepared;

	p->remote 		= gp->remote;
	p->groupId 		= gp->groupId;
	p->connectionId = gp->connectionId;
	p->in 			= c->GetSocket()->GetAddress();

	m_tcp.Send( m->remote, MessagePtr( p ) );

	LOG( FT_DEBUG, _T("NetClient::onGroupPrepare> Prepared group %d connection %d"), 
		 gp->groupId, 
		 gp->connectionId );
}
Пример #15
0
void NetWork::OnlineUser::clear()
{
	Guard g(_mutex);
	//将closing的数据清除掉
	while (!_recycles.empty()) {
		TcpConnection *conn = _recycles.front();
		_recycles.pop_front();
		conn->release();
	}
}
Пример #16
0
void TcpConnection::staticOnError(void *arg, err_t err)
{
	TcpConnection* con = (TcpConnection*)arg;
	if (con == NULL) return;

	con->tcp = NULL; // IMPORTANT. No available connection after error!
	con->onError(err);
	con->checkSelfFree();
	//debugf("<staticOnError");
}
Пример #17
0
//数据发送,只是投递到发送缓冲区,return 0:表示投递成功
bool NetWork::send(int handle, const char *buffer, int len)
{
	bool ret = false;
	TcpConnection *conn = _online_user.getconn(handle);
	if (conn != NULL) {
		ret = conn->deliver_data(buffer, len);
		conn->release();
	}

	return ret;
}
Пример #18
0
void
SocketConnList::scanForPreExisting()
{
  // TODO: This is a hack when SLURM + MPI are used:
  // when we use command
  // srun/ibrun dmtcp_launch a.out
  // inside the SLURM submission script, the MPI launching
  // process will not run under the control of DMTCP. Instead,
  // only the computing processes are. The launching process
  // will create some sockets, and then create the computing
  // processes. Hence the sockets are shared among the created
  // processes at the time when dmtcp_launch is launched. DMTCP
  // will treat these sockets as pre-existing sockets instead of
  // shared sockets.
  //
  // In the future, we should generalize the processing of
  // pre-existing fds. For example, at checkpoint time, determine
  // which sockets are shared, regardless of whether they are
  // pre-existing or not. This can be done by adding an extra round
  // of leader election.

  if (getenv("SLURM_JOBID") || (getenv("SLURM_JOB_ID"))) {
    return;
  }

  // FIXME: Detect stdin/out/err fds to detect duplicates.
  vector<int>fds = jalib::Filesystem::ListOpenFds();
  for (size_t i = 0; i < fds.size(); ++i) {
    int fd = fds[i];
    if (!Util::isValidFd(fd)) {
      continue;
    }
    if (dmtcp_is_protected_fd(fd)) {
      continue;
    }

    string device = jalib::Filesystem::GetDeviceName(fd);

    JTRACE("scanning pre-existing device") (fd) (device);
    if (device ==
        jalib::Filesystem::GetControllingTerm()) {} else if (dmtcp_is_bq_file &&
                                                             dmtcp_is_bq_file(
                                                               device.c_str()))
    {} else if (fd <=
                2)
    {} else if (Util::strStartsWith(device.c_str(), "/")) {} else {
      JNOTE("found pre-existing socket... will not be restored")
        (fd) (device);
      TcpConnection *con = new TcpConnection(0, 0, 0);
      con->markPreExisting();
      add(fd, con);
    }
  }
}
Пример #19
0
TcpServer::~TcpServer() {
	this->cleanupClosedConnections();

	std::vector<TcpConnection*>::iterator it = currentConnections.begin();
	while (it != currentConnections.end()) {
		TcpConnection* connection = *it;
		connection->stop();
		delete connection;
		currentConnections.erase(it++);
	}
}
Пример #20
0
TcpConnection *NetWork::OnlineUser::getconn(int handle)
{
	Guard g(_mutex);
	TcpConnection *conn = NULL;
	ONLINE_USER_ITER iter = _conns.find(handle);
	if (iter != _conns.end()) {
		conn = iter->second;
		conn->add_ref();
	}

	return conn;
}
Пример #21
0
static inline
void on_write(uv_write_t* req, int status)
{
	TcpConnection::UvWriteData* write_data = static_cast<TcpConnection::UvWriteData*>(req->data);
	TcpConnection* connection = write_data->connection;

	// Delete the UvWriteData struct (which includes the uv_req_t and the store char[]).
	std::free(write_data);

	// Just notify the TcpConnection when error.
	if (status)
		connection->onUvWriteError(status);
}
Пример #22
0
err_t TcpConnection::staticOnSent(void *arg, tcp_pcb *tcp, uint16_t len)
{
	TcpConnection* con = (TcpConnection*)arg;

	if (con == NULL)
		return ERR_OK;
	else
		con->sleep = 0;

	err_t res = con->onSent(len);
	con->checkSelfFree();
	//debugf("<staticOnSent");
	return res;
}
Пример #23
0
AP_MSG_HANDLER_METHOD(ServerModule, TcpServer_SendSrpc)
{
  String sMsg = pMsg->srpc.toString();

  if (apLog_IsVerbose) {
    apLog_Verbose((LOG_CHANNEL, LOG_CONTEXT, "conn=" ApHandleFormat " send: %s", ApHandlePrintf(pMsg->hConnection), _sz(sMsg)));
  }

  sMsg += "\n";

  TcpConnection* pConnection = findTcpConnection(pMsg->hConnection);
  if (pConnection == 0) { throw ApException(LOG_CONTEXT, "findTcpConnection(" ApHandleFormat ") failed", ApHandlePrintf(pMsg->hConnection)); }
  if (! pConnection->DataOut((unsigned char*) sMsg.c_str(), sMsg.bytes()) ) { throw ApException(LOG_CONTEXT, "Connection " ApHandleFormat " DataOut() failed", ApHandlePrintf(pMsg->hConnection)); }

  pMsg->apStatus = ApMessage::Ok;
}
Пример #24
0
TcpConnection* TcpAcceptor::accept(int &ret, long timeout) {
    struct timeval *ptimeout;
    struct timeval time;
    fd_set r_fdset;
    int conn_fd;
    TcpConnection *conn;

    if (timeout < 0) {  // block
        ptimeout = NULL;
    } else {
        time.tv_sec = timeout;
        time.tv_usec = 0;
        ptimeout = &time;
    }

    while (1) {
        FD_ZERO(&r_fdset);
        FD_SET(listen_fd, &r_fdset);
        switch (select(listen_fd + 1, &r_fdset, NULL, NULL, ptimeout)) {
        case 0:
            ret = E_TIMEOUT;
            return 0L;
        case -1:
            ret = -1;
            return 0L;
        default:
            if (FD_ISSET(listen_fd, &r_fdset))
                break;
            else
                continue;
        }
        break;
    }

    if ((conn_fd=::accept(listen_fd, NULL, NULL)) < 0) {
        ret = -1;
        return 0L;
    }

    conn = new TcpConnection;
    if (conn->set_fd(conn_fd) < 0) {
        delete conn;
        return 0L;
    } else {
        return conn;
    }
}
Пример #25
0
//主动关闭连接
void NetWork::close(int handle)
{
	TRACE(__PRETTY_FUNCTION__);

	TcpConnection *conn = _online_user.getconn(handle);
	if (conn != NULL) {
		//从kqueue/epoll中线拿出来,防止再触发事件,导致各种复杂耦合
		_sock_event->remove_event(conn);
		//判断removeconn的返回值,主线程和业务线程同时调用close时,产生conn->close重复调用
		if (_online_user.removeconn(handle)) {
			conn->close();
		}
		conn->release();
	}

	return;
}
Пример #26
0
int NetWork::make_handle()
{
	static int h = 0;

	TcpConnection *conn = NULL;

	h++;
	while ((conn = _online_user.getconn(h)) != NULL) {
		h++;
		if (h >= MAX_INT) {
			h = 0;
		}
		conn->release();
	}

	return h;
}
Пример #27
0
err_t TcpConnection::staticOnConnected(void *arg, tcp_pcb *tcp, err_t err)
{
	TcpConnection* con = (TcpConnection*)arg;
	if (con == NULL)
	{
		debugf("OnConnected ABORT");
		//closeTcpConnection(tcp);
		tcp_abort(tcp);
		return ERR_ABRT;
	}
	else
		debugf("OnConnected");

	err_t res = con->onConnected(err);
	con->checkSelfFree();
	//debugf("<staticOnConnected");
	return res;
}
Пример #28
0
err_t TcpConnection::staticOnPoll(void *arg, tcp_pcb *tcp)
{
	TcpConnection* con = (TcpConnection*)arg;

	if (con == NULL)
	{
		closeTcpConnection(tcp);
		return ERR_OK;
	}

	//if (tcp->state != ESTABLISHED)
	//	return ERR_OK;

	con->sleep++;
	err_t res = con->onPoll();
	con->checkSelfFree();
	//debugf("<staticOnPoll");
	return res;
}
Пример #29
0
int NetWork::connect(const char *ip, unsigned short port, bool encrypt)
{
	int handle = -1;
	TcpConnection *conn = new TcpConnection(this);

//	if(encrypt) conn->set_encrypt();
	if (conn->connect(ip, port)) {
		if (_online_user.addconn(conn)) {
			_sock_event->add_event(conn, true, true);
			handle = conn->gethandle();
		}
	} else {
		LOGI("NetWork::connect connect fail : %s", strerror(errno));
		//如果连接失败,将底层的网络错误码的负值返回回去;
		handle = (conn->last_sys_errno() * (-1));
		delete conn;
	}

	return handle;
}
Пример #30
0
void 
NetServer::onDestroyUdpGroup( const NetGroupOp& op )
{
	NetGroupMap::iterator i = m_groups.find( op.groupId );

	if ( i == m_groups.end() )
	{
		LOG( FT_WARN, _T("NetServer::onDestroyUdpGroup> %d not found"), op.groupId );

		return;
	}

	NetGroup* group = i->second;
	K_ASSERT( group != 0 );

	// make TcpConnection to forget about group
	const std::vector<uint>& remotes = group->GetRemotes();

	std::vector<uint>::const_iterator ci( remotes.begin() );
	std::vector<uint>::const_iterator ciEnd( remotes.end() );

	for ( ; ci != ciEnd; ++ci )
	{
		TcpConnection* c = m_tcp.FindById( *ci );

		if ( c != 0 )
		{
			c->SetGroup( 0 );
		}
	}

	group->Fini();

	LOG( FT_DEBUG, 
		 _T("NetServer::onDestroyUdpGroup> %d destroyed"), 
		 group->GetId() );

	delete group;

	m_groups.erase( i );
}