Beispiel #1
0
//-------------------------------------------------------------------------------------
int	TelnetServer::handleInputNotification(int fd)
{
	KBE_ASSERT(listener_ == fd);

	int tickcount = 0;

	while(tickcount ++ < 1024)
	{
		Network::EndPoint* pNewEndPoint = listener_.accept();
		if(pNewEndPoint == NULL){

			if(tickcount == 1)
			{
				WARNING_MSG(fmt::format("TelnetServer::handleInputNotification: accept endpoint({}) {}!\n",
					 fd, kbe_strerror()));
			}

			break;
		}
		else
		{
			TelnetHandler* pTelnetHandler = new TelnetHandler(pNewEndPoint, this, pNetworkInterface_, passwd_.size() > 0 ? 
				TelnetHandler::TELNET_STATE_PASSWD : (TelnetHandler::TELNET_STATE)this->deflayer());

			if(!pDispatcher_->registerReadFileDescriptor((*pNewEndPoint), pTelnetHandler))
			{
				ERROR_MSG(fmt::format("TelnetServer::start:: registerReadFileDescriptor(pTelnetHandler) is failed! addr={}\n", 
					pNewEndPoint->c_str()));
				
				delete pTelnetHandler;
				continue;
			}

			INFO_MSG(fmt::format("TelnetServer::handleInputNotification: new handler({})!\n",
				pNewEndPoint->c_str()));

			handlers_[(*pNewEndPoint)].reset(pTelnetHandler);

			std::string s;

			if(passwd_.size() > 0)
			{
				s = "password:";
			}
			else
			{
				s = pTelnetHandler->getWelcome();
			}

			pNewEndPoint->send(s.c_str(), (int)s.size());
		}
	}

	return 0;
}
Beispiel #2
0
//-------------------------------------------------------------------------------------		
bool Components::updateComponentInfos(const Components::ComponentInfos* info)
{
	// 不对其他machine做处理
	if(info->componentType == MACHINE_TYPE)
	{
		return true;
	}

	if (!lookupLocalComponentRunning(info->pid))
		return false;

	Network::EndPoint epListen;
	epListen.socket(SOCK_STREAM);
	if (!epListen.good())
	{
		ERROR_MSG("Components::updateComponentInfos: couldn't create a socket\n");
		return true;
	}
	
	epListen.setnonblocking(true);

	while(true)
	{
		fd_set	frds, fwds;
		struct timeval tv = { 0, 300000 }; // 100ms

		FD_ZERO( &frds );
		FD_ZERO( &fwds );
		FD_SET((int)epListen, &frds);
		FD_SET((int)epListen, &fwds);

		if(epListen.connect(info->pIntAddr->port, info->pIntAddr->ip) == -1)
		{
			int selgot = select(epListen+1, &frds, &fwds, NULL, &tv);
			if(selgot > 0)
			{
				break;
			}

			WARNING_MSG(fmt::format("Components::updateComponentInfos: couldn't connect to:{}\n", 
				info->pIntAddr->c_str()));

			return false;
		}
	}
	
	epListen.setnodelay(true);

	Network::Bundle* pBundle = Network::Bundle::createPoolObject();

	// 由于COMMON_NETWORK_MESSAGE不包含client, 如果是bots, 我们需要单独处理
	if(info->componentType != BOTS_TYPE)
	{
		COMMON_NETWORK_MESSAGE(info->componentType, (*pBundle), lookApp);
	}
	else
	{
		(*pBundle).newMessage(BotsInterface::lookApp);
	}

	epListen.send(pBundle->pCurrPacket()->data(), pBundle->pCurrPacket()->wpos());
	Network::Bundle::reclaimPoolObject(pBundle);

	fd_set	fds;
	struct timeval tv = { 0, 300000 }; // 100ms

	FD_ZERO( &fds );
	FD_SET((int)epListen, &fds);

	int selgot = select(epListen+1, &fds, NULL, NULL, &tv);
	if(selgot == 0)
	{
		// 超时, 可能对方繁忙
		return true;	
	}
	else if(selgot == -1)
	{
		return true;
	}
	else
	{
		COMPONENT_TYPE ctype;
		COMPONENT_ID cid;
		int8 istate = 0;
		ArraySize entitySize = 0, cellSize = 0;
		int32 clientsSize = 0, proxicesSize = 0;
		uint32 telnet_port = 0;

		Network::TCPPacket packet;
		packet.resize(255);
		int recvsize = sizeof(ctype) + sizeof(cid) + sizeof(istate);

		if(info->componentType == CELLAPP_TYPE)
		{
			recvsize += sizeof(entitySize) + sizeof(cellSize) + sizeof(telnet_port);
		}

		if(info->componentType == BASEAPP_TYPE)
		{
			recvsize += sizeof(entitySize) + sizeof(clientsSize) + sizeof(proxicesSize) + sizeof(telnet_port);
		}

		int len = epListen.recv(packet.data(), recvsize);
		packet.wpos(len);
		
		if(recvsize != len)
		{
			WARNING_MSG(fmt::format("Components::updateComponentInfos: packet invalid(recvsize({}) != ctype_cid_len({}).\n" 
				, len, recvsize));
			
			if(len == 0)
				return false;

			return true;
		}

		packet >> ctype >> cid >> istate;
		
		if(ctype == CELLAPP_TYPE)
		{
			packet >> entitySize >> cellSize >> telnet_port;
		}

		if(ctype == BASEAPP_TYPE)
		{
			packet >> entitySize >> clientsSize >> proxicesSize >> telnet_port;
		}
Beispiel #3
0
//-------------------------------------------------------------------------------------
bool ClientObject::initLoginGateWay()
{
    Bots::getSingleton().networkInterface().dispatcher().deregisterReadFileDescriptor(*pTCPPacketReceiverEx_->pEndPoint());
    pServerChannel_->stopSend();
    pServerChannel_->pPacketSender(NULL);
    SAFE_RELEASE(pTCPPacketSenderEx_);
    SAFE_RELEASE(pTCPPacketReceiverEx_);

    Network::EndPoint* pEndpoint = Network::EndPoint::ObjPool().createObject();

    pEndpoint->socket(SOCK_STREAM);
    if (!pEndpoint->good())
    {
        ERROR_MSG("ClientObject::initLogin: couldn't create a socket\n");
        Network::EndPoint::ObjPool().reclaimObject(pEndpoint);
        error_ = C_ERROR_INIT_NETWORK_FAILED;
        return false;
    }

    u_int32_t address;

    Network::Address::string2ip(ip_.c_str(), address);
    if(pEndpoint->connect(htons(port_), address) == -1)
    {
        ERROR_MSG(fmt::format("ClientObject::initLogin({}): connect server is error({})!\n",
                              kbe_strerror(), name_));

        Network::EndPoint::ObjPool().reclaimObject(pEndpoint);
        // error_ = C_ERROR_INIT_NETWORK_FAILED;
        state_ = C_STATE_LOGIN_GATEWAY_CREATE;
        return false;
    }

    Network::Address addr(ip_.c_str(), port_);
    pEndpoint->addr(addr);
    pServerChannel_->pEndPoint(pEndpoint);
    pEndpoint->setnonblocking(true);
    pEndpoint->setnodelay(true);

    pTCPPacketSenderEx_ = new Network::TCPPacketSenderEx(*pEndpoint, this->networkInterface_, this);
    pTCPPacketReceiverEx_ = new Network::TCPPacketReceiverEx(*pEndpoint, this->networkInterface_, this);
    Bots::getSingleton().networkInterface().dispatcher().registerReadFileDescriptor((*pEndpoint), pTCPPacketReceiverEx_);

    //²»ÔÚÕâÀï×¢²á
    //Bots::getSingleton().networkInterface().dispatcher().registerWriteFileDescriptor((*pEndpoint), pTCPPacketSenderEx_);
    pServerChannel_->pPacketSender(pTCPPacketSenderEx_);

    connectedGateway_ = true;

    Network::Bundle* pBundle = Network::Bundle::ObjPool().createObject();
    (*pBundle).newMessage(BaseappInterface::hello);
    (*pBundle) << KBEVersion::versionString() << KBEVersion::scriptVersionString();

    if(Network::g_channelExternalEncryptType == 1)
    {
        pBlowfishFilter_ = new Network::BlowfishFilter();
        (*pBundle).appendBlob(pBlowfishFilter_->key());
        pServerChannel_->pFilter(NULL);
    }
    else
    {
        std::string key = "";
        (*pBundle).appendBlob(key);
    }

    pEndpoint->send(pBundle);
    Network::Bundle::ObjPool().reclaimObject(pBundle);
    return true;
}
Beispiel #4
0
//-------------------------------------------------------------------------------------
bool ClientObject::initCreate()
{
    Network::EndPoint* pEndpoint = Network::EndPoint::ObjPool().createObject();

    pEndpoint->socket(SOCK_STREAM);
    if (!pEndpoint->good())
    {
        ERROR_MSG("ClientObject::initNetwork: couldn't create a socket\n");
        Network::EndPoint::ObjPool().reclaimObject(pEndpoint);
        error_ = C_ERROR_INIT_NETWORK_FAILED;
        return false;
    }

    ENGINE_COMPONENT_INFO& infos = g_kbeSrvConfig.getBots();
    u_int32_t address;

    Network::Address::string2ip(infos.login_ip, address);
    if(pEndpoint->connect(htons(infos.login_port), address) == -1)
    {
        ERROR_MSG(fmt::format("ClientObject::initNetwork({1}): connect server({2}:{3}) is error({0})!\n",
                              kbe_strerror(), name_, infos.login_ip, infos.login_port));

        Network::EndPoint::ObjPool().reclaimObject(pEndpoint);
        // error_ = C_ERROR_INIT_NETWORK_FAILED;
        state_ = C_STATE_INIT;
        return false;
    }

    Network::Address addr(infos.login_ip, infos.login_port);
    pEndpoint->addr(addr);

    pServerChannel_->pEndPoint(pEndpoint);
    pEndpoint->setnonblocking(true);
    pEndpoint->setnodelay(true);

    pServerChannel_->pMsgHandlers(&ClientInterface::messageHandlers);

    pTCPPacketSenderEx_ = new Network::TCPPacketSenderEx(*pEndpoint, this->networkInterface_, this);
    pTCPPacketReceiverEx_ = new Network::TCPPacketReceiverEx(*pEndpoint, this->networkInterface_, this);
    Bots::getSingleton().networkInterface().dispatcher().registerReadFileDescriptor((*pEndpoint), pTCPPacketReceiverEx_);

    //²»ÔÚÕâÀï×¢²á
    //Bots::getSingleton().networkInterface().dispatcher().registerWriteFileDescriptor((*pEndpoint), pTCPPacketSenderEx_);
    pServerChannel_->pPacketSender(pTCPPacketSenderEx_);

    Network::Bundle* pBundle = Network::Bundle::ObjPool().createObject();
    (*pBundle).newMessage(LoginappInterface::hello);
    (*pBundle) << KBEVersion::versionString() << KBEVersion::scriptVersionString();

    if(Network::g_channelExternalEncryptType == 1)
    {
        pBlowfishFilter_ = new Network::BlowfishFilter();
        (*pBundle).appendBlob(pBlowfishFilter_->key());
    }
    else
    {
        std::string key = "";
        (*pBundle).appendBlob(key);
    }

    pEndpoint->send(pBundle);
    Network::Bundle::ObjPool().reclaimObject(pBundle);
    return true;
}
//-------------------------------------------------------------------------------------
int HTTPCBHandler::handleInputNotification(int fd)
{
	if(fd == *pEndPoint_)
	{
		u_int16_t port;
		u_int32_t addr;

		Network::EndPoint* newclient = pEndPoint_->accept(&port, &addr);

		if(newclient == NULL)
		{
			ERROR_MSG(fmt::format("HTTPCBHandler::handleInputNotification: accept is error:{}.\n", kbe_strerror()));
			return 0;
		}

		INFO_MSG(fmt::format("HTTPCBHandler:handleInputNotification: newclient = {}\n",
			newclient->c_str()));
		
		newclient->setnonblocking(true);
		CLIENT& client = clients_[*newclient];
		client.endpoint = KBEShared_ptr< Network::EndPoint >(newclient);
		client.state = 0;
		Loginapp::getSingleton().networkInterface().dispatcher().registerReadFileDescriptor(*newclient, this);
	}
	else
	{
		std::map< int, CLIENT >::iterator iter = clients_.find(fd);
		if(iter == clients_.end())
		{
			ERROR_MSG(fmt::format("HTTPCBHandler:handleInputNotification: fd({}) not found!\n",
				fd));
			return 0;
		}

		CLIENT& client = iter->second;
		Network::EndPoint* newclient = iter->second.endpoint.get();

		char buffer[1024];
		int len = newclient->recv(&buffer, 1024);

		if(len <= 0)
		{
			ERROR_MSG(fmt::format("HTTPCBHandler:handleInputNotification: recv error, newclient = {}, recv={}.\n",
				newclient->c_str(), len));
		
			if(len == 0)
			{
				Loginapp::getSingleton().networkInterface().dispatcher().deregisterReadFileDescriptor(*newclient);
				clients_.erase(iter);
			}
			return 0;
		}

		if(client.state == 1)
		{
			Loginapp::getSingleton().networkInterface().dispatcher().deregisterReadFileDescriptor(*newclient);
			clients_.erase(iter);
		}

		int type = 0;
		std::string s = buffer;
		
		std::string keys = "<policy-file-request/>";
		std::string::size_type fi0 = s.find(keys);
		if(fi0 != std::string::npos)
		{
			if(client.state != 1)
			{
				std::string response = "<?xml version='1.0'?><cross-domain-policy><allow-access-from domain=""*"" to-ports=""*"" /></cross-domain-policy>";
				iter->second.endpoint->send(response.c_str(), response.size());
				Loginapp::getSingleton().networkInterface().dispatcher().deregisterReadFileDescriptor(*newclient);
				clients_.erase(iter);
			}

			return 0;
		}

		keys = "accountactivate_";
		std::string::size_type fi1 = s.find(keys);
		if(fi1 == std::string::npos)
		{
			keys = "resetpassword_";
			fi1 = s.find(keys);
			if(fi1 == std::string::npos)
			{
				keys = "bindmail_";
				fi1 = s.find(keys);
				if(fi1 != std::string::npos)
				{
					type = 3;
				}
			}
			else
			{
				type = 2;
			}
		}
		else
		{
			type = 1;
		}

		std::string::size_type fi2 = s.find("?");
		std::string::size_type fi3 = s.find(" HTTP/");

		if(fi2 == std::string::npos || fi2 > fi3)
			fi2 = fi3;

		if(fi2 <= fi1)
		{
			return 0;
		}

		std::string code;
		if(fi1 != std::string::npos && fi2 != std::string::npos)
		{
			int ilen = keys.size();
			code.assign(s.c_str() + fi1 + ilen, fi2 - (fi1 + ilen));
		}

		client.state = 1;
		
		code = KBEngine::strutil::kbe_trim(code);

		if(code.size() > 0)
		{
			INFO_MSG(fmt::format("HTTPCBHandler:handleInputNotification: code = {}\n",
				code.c_str()));

			client.code = code;

			Components::COMPONENTS& cts = Components::getSingleton().getComponents(DBMGR_TYPE);
			Components::ComponentInfos* dbmgrinfos = NULL;

			if(cts.size() > 0)
				dbmgrinfos = &(*cts.begin());

			if(dbmgrinfos == NULL || dbmgrinfos->pChannel == NULL || dbmgrinfos->cid == 0)
			{
				return 0;
			}

			std::string hellomessage;

			if(type == 1)
			{
				// Ïòdbmgr¼¤»îÕ˺Å
				Network::Bundle* pBundle = Network::Bundle::ObjPool().createObject();
				(*pBundle).newMessage(DbmgrInterface::accountActivate);
				(*pBundle) << code;
				dbmgrinfos->pChannel->send(pBundle);

				hellomessage = g_kbeSrvConfig.emailAtivationInfo_.backlink_hello_message;
			}
			else if(type == 2)
			{
				std::string::size_type fi1 = s.find("password="******"&", fi1);

				std::string password;
				
				if(fi1 != std::string::npos && fi2 != std::string::npos)
				{
					client.state = 2;
					if(fi1 < fi2)
					{
						int ilen = strlen("password="******"username="******"&", fi1);

					std::string username;
					
					if(fi1 != std::string::npos && fi2 != std::string::npos)
					{
						if(fi1 < fi2)
						{
							int ilen = strlen("username="******"username="******" HTTP/");
				
				if(fi1 != std::string::npos && fi2 != std::string::npos)
				{
					if(fi1 < fi2)
					{
						int ilen = strlen("username="******"${backlink}", fmt::format("http://{}:{}/{}{}", 
					Loginapp::getSingleton().networkInterface().extaddr().ipAsString(),
					g_kbeSrvConfig.getLoginApp().http_cbport,
					keys,
					code));

				KBEngine::strutil::kbe_replace(hellomessage, "${code}", code);

				std::string response = fmt::format("HTTP/1.1 200 OK\r\nContent-Type: text/html\r\nContent-Length: {}\r\n\r\n{}", 
					hellomessage.size(), hellomessage);

				newclient->send(response.c_str(), response.size());
			}

			client.state = 2;
		}
		else
		{
			if(client.state != 2)
			{
				Loginapp::getSingleton().networkInterface().dispatcher().deregisterReadFileDescriptor(*newclient);
				clients_.erase(iter);
			}
		}
	}

	return 0;
}