Beispiel #1
0
//-------------------------------------------------------------------------------------
Mercury::Channel* ClientObjectBase::initLoginappChannel(std::string accountName, std::string passwd, std::string ip, KBEngine::uint32 port)
{
	Mercury::EndPoint* pEndpoint = new Mercury::EndPoint();
	
	pEndpoint->socket(SOCK_STREAM);
	if (!pEndpoint->good())
	{
		ERROR_MSG("ClientObjectBase::initLoginappChannel: couldn't create a socket\n");
		delete pEndpoint;
		return NULL;
	}
	

	u_int32_t address;
	pEndpoint->convertAddress(ip.c_str(), address);
	if(pEndpoint->connect(htons(port), address) == -1)
	{
		ERROR_MSG(boost::format("ClientObjectBase::initLoginappChannel: connect server is error(%1%)!\n") %
			kbe_strerror());

		delete pEndpoint;
		return NULL;
	}

	Mercury::Address addr(ip.c_str(), port);
	pEndpoint->addr(addr);

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

	password_ = passwd;
	name_ = accountName;
	return pServerChannel_;
}
Beispiel #2
0
//-------------------------------------------------------------------------------------
Mercury::Channel* ClientObjectBase::initBaseappChannel()
{
	Mercury::EndPoint* pEndpoint = new Mercury::EndPoint();
	
	pEndpoint->socket(SOCK_STREAM);
	if (!pEndpoint->good())
	{
		ERROR_MSG("ClientObjectBase::initBaseappChannel: couldn't create a socket\n");
		delete pEndpoint;
		return false;
	}
	
	u_int32_t address;

	pEndpoint->convertAddress(ip_.c_str(), address);
	if(pEndpoint->connect(htons(port_), address) == -1)
	{
		ERROR_MSG(boost::format("ClientObjectBase::initBaseappChannel: connect server is error(%1%)!\n") %
			kbe_strerror());

		delete pEndpoint;
		return NULL;
	}

	Mercury::Address addr(ip_.c_str(), port_);
	pEndpoint->addr(addr);

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

	connectedGateway_ = true;
	return pServerChannel_;
}
Beispiel #3
0
//-------------------------------------------------------------------------------------
bool ClientObject::initCreate()
{
	Mercury::EndPoint* pEndpoint = new Mercury::EndPoint();
	
	pEndpoint->socket(SOCK_STREAM);
	if (!pEndpoint->good())
	{
		ERROR_MSG("ClientObject::initNetwork: couldn't create a socket\n");
		delete pEndpoint;
		error_ = C_ERROR_INIT_NETWORK_FAILED;
		return false;
	}
	
	ENGINE_COMPONENT_INFO& infos = g_kbeSrvConfig.getBots();
	u_int32_t address;

	pEndpoint->convertAddress(infos.login_ip, address);
	if(pEndpoint->connect(htons(infos.login_port), address) == -1)
	{
		ERROR_MSG(boost::format("ClientObject::initNetwork(%2%): connect server(%3%:%4%) is error(%1%)!\n") %
			kbe_strerror() % name_ % infos.login_ip % infos.login_port);

		delete pEndpoint;
		// error_ = C_ERROR_INIT_NETWORK_FAILED;
		state_ = C_STATE_INIT;
		return false;
	}

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

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

	pServerChannel_->pMsgHandlers(&ClientInterface::messageHandlers);
	Bots::getSingleton().pEventPoller()->registerForRead((*pEndpoint), this);

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

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

	pServerChannel_->pushBundle(pBundle);

	this->pEndpoint_ = pEndpoint;
	return true;
}
Beispiel #4
0
//-------------------------------------------------------------------------------------
bool ClientObject::initLoginGateWay()
{
	Bots::getSingleton().pEventPoller()->deregisterForRead(*pServerChannel_->endpoint());
	Mercury::EndPoint* pEndpoint = new Mercury::EndPoint();
	
	pEndpoint->socket(SOCK_STREAM);
	if (!pEndpoint->good())
	{
		ERROR_MSG("ClientObject::initLogin: couldn't create a socket\n");
		delete pEndpoint;
		error_ = C_ERROR_INIT_NETWORK_FAILED;
		return false;
	}
	
	u_int32_t address;

	pEndpoint->convertAddress(ip_.c_str(), address);
	if(pEndpoint->connect(htons(port_), address) == -1)
	{
		ERROR_MSG(boost::format("ClientObject::initLogin(%2%): connect server is error(%1%)!\n") %
			kbe_strerror() % name_);

		delete pEndpoint;
		// error_ = C_ERROR_INIT_NETWORK_FAILED;
		state_ = C_STATE_LOGIN_GATEWAY_CREATE;
		return false;
	}

	Mercury::Address addr(ip_.c_str(), port_);
	pEndpoint->addr(addr);

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

	Bots::getSingleton().pEventPoller()->registerForRead((*pEndpoint), this);
	connectedGateway_ = true;

	Mercury::Bundle* pBundle = Mercury::Bundle::ObjPool().createObject();
	(*pBundle).newMessage(BaseappInterface::hello);
	(*pBundle) << KBEVersion::versionString() << KBEVersion::scriptVersionString();
	
	if(Mercury::g_channelExternalEncryptType == 1)
	{
		pBlowfishFilter_ = new Mercury::BlowfishFilter();
		(*pBundle).appendBlob(pBlowfishFilter_->key());
		pServerChannel_->pFilter(NULL);
	}
	else
	{
		std::string key = "";
		(*pBundle).appendBlob(key);
	}

	pServerChannel_->pushBundle(pBundle);
	return true;
}
Beispiel #5
0
//-------------------------------------------------------------------------------------
bool ClientObject::initCreate()
{
	Mercury::EndPoint* pEndpoint = new Mercury::EndPoint();
	
	pEndpoint->socket(SOCK_STREAM);
	if (!pEndpoint->good())
	{
		ERROR_MSG("ClientObject::initNetwork: couldn't create a socket\n");
		delete pEndpoint;
		error_ = C_ERROR_INIT_NETWORK_FAILED;
		return false;
	}
	
	ENGINE_COMPONENT_INFO& infos = g_kbeSrvConfig.getBots();
	u_int32_t address;

	pEndpoint->convertAddress(infos.login_ip, address);
	if(pEndpoint->connect(htons(infos.login_port), address) == -1)
	{
		ERROR_MSG(boost::format("ClientObject::initNetwork: connect server is error(%1%)!\n") %
			kbe_strerror());

		delete pEndpoint;
		error_ = C_ERROR_INIT_NETWORK_FAILED;
		return false;
	}

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

	pChannel_->endpoint(pEndpoint);
	pEndpoint->setnonblocking(true);
	pEndpoint->setnodelay(true);

	pChannel_->pMsgHandlers(&ClientInterface::messageHandlers);
	Bots::getSingleton().pEventPoller()->registerForRead((*pEndpoint), this);
	return true;
}
Beispiel #6
0
//-------------------------------------------------------------------------------------
bool ClientObject::initLoginGateWay()
{
	Bots::getSingleton().pEventPoller()->deregisterForRead(*pChannel_->endpoint());
	Mercury::EndPoint* pEndpoint = new Mercury::EndPoint();
	
	pEndpoint->socket(SOCK_STREAM);
	if (!pEndpoint->good())
	{
		ERROR_MSG("ClientObject::initLogin: couldn't create a socket\n");
		delete pEndpoint;
		error_ = C_ERROR_INIT_NETWORK_FAILED;
		return false;
	}
	
	u_int32_t address;

	pEndpoint->convertAddress(ip_.c_str(), address);
	if(pEndpoint->connect(htons(port_), address) == -1)
	{
		ERROR_MSG(boost::format("ClientObject::initLogin: connect server is error(%1%)!\n") %
			kbe_strerror());

		delete pEndpoint;
		error_ = C_ERROR_INIT_NETWORK_FAILED;
		return false;
	}

	Mercury::Address addr(ip_.c_str(), port_);
	pEndpoint->addr(addr);

	pChannel_->endpoint(pEndpoint);
	pEndpoint->setnonblocking(true);
	pEndpoint->setnodelay(true);

	Bots::getSingleton().pEventPoller()->registerForRead((*pEndpoint), this);
	connectedGateway_ = true;
	return true;
}
Beispiel #7
0
//-------------------------------------------------------------------------------------		
bool Components::checkComponentUsable(const Components::ComponentInfos* info)
{
	Mercury::EndPoint epListen;
	epListen.socket(SOCK_STREAM);
	if (!epListen.good())
	{
		ERROR_MSG("Components::checkComponentUsable: couldn't create a socket\n");
		return true;
	}
	
	int trycount = 0;

	while(true)
	{
		if(epListen.connect(info->pIntAddr->port, info->pIntAddr->ip) == -1)
		{
			KBEngine::sleep(30);
			trycount++;
			if(trycount > 3)
			{
				ERROR_MSG("Components::checkComponentUsable: couldn't connect to:%s\n", info->pIntAddr->c_str());
				return false;
			}
		}
		
		break;
	}
	
	Mercury::Bundle* pBundle = Mercury::Bundle::ObjPool().createObject();
	COMMON_MERCURY_MESSAGE(info->componentType, (*pBundle), lookApp);
	epListen.send(pBundle->pCurrPacket()->data(), pBundle->pCurrPacket()->wpos());
	Mercury::Bundle::ObjPool().reclaimObject(pBundle);

	epListen.setnodelay(true);
	epListen.setnonblocking(true);

	fd_set	fds;
	struct timeval tv = { 0, 100000 }; // 100ms

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

	int selgot = select(epListen+1, &fds, NULL, NULL, &tv);
	if(selgot == 0)
	{
		return true;	// 超时可能对方繁忙
	}
	else if(selgot == -1)
	{
		return true;
	}
	else
	{
		COMPONENT_TYPE ctype;
		COMPONENT_ID cid;

		Mercury::TCPPacket packet;
		packet.resize(255);
		int recvsize = sizeof(ctype) + sizeof(cid);
		int len = epListen.recv(packet.data(), recvsize);
		packet.wpos(len);
		
		if(recvsize != len)
		{
			ERROR_MSG("Components::checkComponentUsable: packet invalid.\n");
			return true;
		}

		packet >> ctype >> cid;

		if(ctype != info->componentType || cid != info->cid)
		{
			ERROR_MSG("Components::checkComponentUsable: invalid component.\n");
			return false;
		}
	}

	return true;
}
Beispiel #8
0
//-------------------------------------------------------------------------------------		
int Components::connectComponent(COMPONENT_TYPE componentType, int32 uid, COMPONENT_ID componentID)
{
	Components::ComponentInfos* pComponentInfos = findComponent(componentType, uid, componentID);
	KBE_ASSERT(pComponentInfos != NULL);

	Mercury::EndPoint * pEndpoint = new Mercury::EndPoint;
	pEndpoint->socket(SOCK_STREAM);
	if (!pEndpoint->good())
	{
		ERROR_MSG("Components::connectComponent: couldn't create a socket\n");
		delete pEndpoint;
		return -1;
	}

	pEndpoint->addr(*pComponentInfos->pIntAddr);
	int ret = pEndpoint->connect(pComponentInfos->pIntAddr->port, pComponentInfos->pIntAddr->ip);

	if(ret == 0)
	{
		pComponentInfos->pChannel = new Mercury::Channel(*_pNetworkInterface, pEndpoint, Mercury::Channel::INTERNAL);
		if(!_pNetworkInterface->registerChannel(pComponentInfos->pChannel))
		{
			ERROR_MSG("Components::connectComponent: registerChannel(%s) is failed!\n",
				pComponentInfos->pChannel->c_str());

			delete pComponentInfos->pChannel;
			pComponentInfos->pChannel = NULL;
			return -1;
		}
		else
		{
			Mercury::Bundle bundle(pComponentInfos->pChannel);
			if(componentType == BASEAPPMGR_TYPE)
			{
				bundle.newMessage(BaseappmgrInterface::onRegisterNewApp);
				
				BaseappmgrInterface::onRegisterNewAppArgs8::staticAddToBundle(bundle, getUserUID(), getUsername(), 
					Componentbridge::getSingleton().componentType(), Componentbridge::getSingleton().componentID(), 
					_pNetworkInterface->intaddr().ip, _pNetworkInterface->intaddr().port,
					_pNetworkInterface->extaddr().ip, _pNetworkInterface->extaddr().port);
			}
			else if(componentType == CELLAPPMGR_TYPE)
			{
				bundle.newMessage(CellappmgrInterface::onRegisterNewApp);
				
				CellappmgrInterface::onRegisterNewAppArgs8::staticAddToBundle(bundle, getUserUID(), getUsername(), 
					Componentbridge::getSingleton().componentType(), Componentbridge::getSingleton().componentID(), 
					_pNetworkInterface->intaddr().ip, _pNetworkInterface->intaddr().port,
					_pNetworkInterface->extaddr().ip, _pNetworkInterface->extaddr().port);
			}
			else if(componentType == CELLAPP_TYPE)
			{
				bundle.newMessage(CellappInterface::onRegisterNewApp);
				
				CellappInterface::onRegisterNewAppArgs8::staticAddToBundle(bundle, getUserUID(), getUsername(), 
					Componentbridge::getSingleton().componentType(), Componentbridge::getSingleton().componentID(), 
						_pNetworkInterface->intaddr().ip, _pNetworkInterface->intaddr().port,
					_pNetworkInterface->extaddr().ip, _pNetworkInterface->extaddr().port);
			}
			else if(componentType == BASEAPP_TYPE)
			{
				bundle.newMessage(BaseappInterface::onRegisterNewApp);
				
				BaseappInterface::onRegisterNewAppArgs8::staticAddToBundle(bundle, getUserUID(), getUsername(), 
					Componentbridge::getSingleton().componentType(), Componentbridge::getSingleton().componentID(), 
					_pNetworkInterface->intaddr().ip, _pNetworkInterface->intaddr().port,
					_pNetworkInterface->extaddr().ip, _pNetworkInterface->extaddr().port);
			}
			else if(componentType == DBMGR_TYPE)
			{
				bundle.newMessage(DbmgrInterface::onRegisterNewApp);
				
				DbmgrInterface::onRegisterNewAppArgs8::staticAddToBundle(bundle, getUserUID(), getUsername(), 
					Componentbridge::getSingleton().componentType(), Componentbridge::getSingleton().componentID(), 
					_pNetworkInterface->intaddr().ip, _pNetworkInterface->intaddr().port,
					_pNetworkInterface->extaddr().ip, _pNetworkInterface->extaddr().port);
			}
			else if(componentType == MESSAGELOG_TYPE)
			{
				bundle.newMessage(MessagelogInterface::onRegisterNewApp);
				
				MessagelogInterface::onRegisterNewAppArgs8::staticAddToBundle(bundle, getUserUID(), getUsername(), 
					Componentbridge::getSingleton().componentType(), Componentbridge::getSingleton().componentID(), 
					_pNetworkInterface->intaddr().ip, _pNetworkInterface->intaddr().port,
					_pNetworkInterface->extaddr().ip, _pNetworkInterface->extaddr().port);
			}
			else if(componentType == RESOURCEMGR_TYPE)
			{
				bundle.newMessage(ResourcemgrInterface::onRegisterNewApp);
				
				ResourcemgrInterface::onRegisterNewAppArgs8::staticAddToBundle(bundle, getUserUID(), getUsername(), 
					Componentbridge::getSingleton().componentType(), Componentbridge::getSingleton().componentID(), 
					_pNetworkInterface->intaddr().ip, _pNetworkInterface->intaddr().port,
					_pNetworkInterface->extaddr().ip, _pNetworkInterface->extaddr().port);
			}
			else
			{
				KBE_ASSERT(false && "invalid componentType.\n");
			}

			bundle.send(*_pNetworkInterface, pComponentInfos->pChannel);
		}
	}
	else
	{
		ERROR_MSG("Components::connectComponent: connect(%s) is failed! %s.\n",
			pComponentInfos->pIntAddr->c_str(), kbe_strerror());

		return -1;
	}

	return ret;
}
Beispiel #9
0
//-------------------------------------------------------------------------------------
bool CreateAccountTask::process()
{
	if(!enable)
	{
		return false;
	}

	// 如果没有设置第三方服务地址则我们默认为成功
	if(strlen(serviceAddr()) == 0)
	{
		success = true;
		getDatas = postDatas;
		return false;
	}

	Mercury::EndPoint endpoint;
	endpoint.socket(SOCK_STREAM);

	if (!endpoint.good())
	{
		ERROR_MSG("BillingTask::process: couldn't create a socket\n");
		return false;
	}

	if(postDatas.size() == 0)
	{
		ERROR_MSG(boost::format("BillingTask::process: %1% postData is NULL.\n") % commitName);
		return false;
	}

	u_int32_t addr;
	KBEngine::Mercury::EndPoint::convertAddress(serviceAddr(), addr);

	if(endpoint.connect(htons(servicePort()), addr) == -1)
	{
		ERROR_MSG(boost::format("BillingTask::process: connect billingserver(%1%:%2%) is error(%3%)!\n") % 
			serviceAddr() % servicePort() % kbe_strerror());

		endpoint.close();
		return false;
	}

	endpoint.setnonblocking(true);
	endpoint.setnodelay(true);

	Mercury::Bundle::SmartPoolObjectPtr bundle = Mercury::Bundle::createSmartPoolObj();
	(*(*bundle)).append(postDatas.data(), postDatas.size());
	(*(*bundle)).send(endpoint);

	Mercury::TCPPacket packet;
	packet.resize(1024);

	fd_set	frds;
	struct timeval tv = { 0, 5000000 }; // 5000ms

	FD_ZERO( &frds );
	FD_SET((int)endpoint, &frds);
	int selgot = select(endpoint+1, &frds, NULL, NULL, &tv);
	if(selgot <= 0)
	{
		ERROR_MSG(boost::format("BillingTask::process: %1% send(%2%).\n") % commitName % postDatas);
		ERROR_MSG(boost::format("BillingTask::process: %1% recv is error(%2%).\n") % commitName % KBEngine::kbe_strerror());
		endpoint.close();
		return false;
	}
	
	int len = endpoint.recv(packet.data(), 1024);

	if(len <= 0)
	{
		ERROR_MSG(boost::format("BillingTask::process: %1% recv is size<= 0.\n===>postdatas=%2%\n") % commitName % postDatas);
		endpoint.close();
		return false;
	}

	packet.wpos(len);

	getDatas.assign((const char *)(packet.data() + packet.rpos()), packet.opsize());

	try
	{
		std::string::size_type fi = getDatas.find("\r\n\r\n");
		if(fi != std::string::npos)
		{
			fi += 4;
			MemoryStream s;
			s.append(getDatas.data() + fi, getDatas.size() - fi);

			while(s.opsize() > 0)
			{
				int32 type, len;
				s >> type >> len;
				EndianConvertReverse<int32>(type);
				EndianConvertReverse<int32>(len);
				
				int32 error = 0;

				switch(type)
				{
				case 1:
					s >> error;
					EndianConvertReverse<int32>(error);

					if(error != 0)
					{
						success = false;
						endpoint.close();
						
						std::string err;
						if(s.opsize() >= (sizeof(int32) * 2))
						{
							s >> type >> len;
							
							if(len > 0 && len < 1024)
							{
								char* buf = new char[len + 1];
								memcpy(buf, s.data() + s.rpos(), len);
								buf[len] = 0;
								err = buf;
								delete[] buf;
							}

						}

						DEBUG_MSG(boost::format("BillingTask::process: (%1%)op is failed! err=%2%\n<==send(%3%)\n==>recv(%4%).\n") % commitName % err % postDatas % getDatas);
						return false;
					}
					else
					{
						success = true;
					}

					break;
				case 2:
					{
						s.read_skip(len);
					}
					break;
				case 3:
					{
						char* buf = new char[len + 1];
						memcpy(buf, s.data() + s.rpos(), len);
						buf[len] = 0;
						accountName = buf;
						delete[] buf;

						s.read_skip(len);
					}
					break;
				default:
					break;
				};
Beispiel #10
0
//-------------------------------------------------------------------------------------		
bool Components::checkComponentUsable(const Components::ComponentInfos* info)
{
	// 不对其他machine做处理
	if(info->componentType == MACHINE_TYPE)
	{
		return true;
	}

	bool islocal = _pNetworkInterface->intaddr().ip == info->pIntAddr->ip ||
			_pNetworkInterface->extaddr().ip == info->pIntAddr->ip;

	// 如果是本机应用则判断是否还在运行中
	if(islocal && info->pid > 0)
	{
		SystemInfo::PROCESS_INFOS sysinfos = SystemInfo::getSingleton().getProcessInfo(info->pid);
		if(sysinfos.error)
		{
			WARNING_MSG(boost::format("Components::checkComponentUsable: not found pid(%1%)\n") % info->pid);
			//return false;
		}
		else
		{
			Components::ComponentInfos* winfo = findComponent(info->cid);
			if(winfo)
			{
				winfo->cpu = sysinfos.cpu;
				winfo->usedmem = (uint32)sysinfos.memused;

				winfo->mem = float((winfo->usedmem * 1.0 / SystemInfo::getSingleton().totalmem()) * 100.0);
			}
		}
	}

	Mercury::EndPoint epListen;
	epListen.socket(SOCK_STREAM);
	if (!epListen.good())
	{
		ERROR_MSG("Components::checkComponentUsable: 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;
			}

			ERROR_MSG(boost::format("Components::checkComponentUsable: couldn't connect to:%1%\n") % info->pIntAddr->c_str());
			return false;
		}
	}
	
	epListen.setnodelay(true);

	Mercury::Bundle* pBundle = Mercury::Bundle::ObjPool().createObject();

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

	epListen.send(pBundle->pCurrPacket()->data(), pBundle->pCurrPacket()->wpos());
	Mercury::Bundle::ObjPool().reclaimObject(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)
	{
		return true;	// 超时可能对方繁忙
	}
	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;

		Mercury::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)
		{
			ERROR_MSG(boost::format("Components::checkComponentUsable: packet invalid(recvsize(%1%) != ctype_cid_len(%2%).\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 #11
0
//-------------------------------------------------------------------------------------		
int Components::connectComponent(COMPONENT_TYPE componentType, int32 uid, COMPONENT_ID componentID)
{
	Components::ComponentInfos* pComponentInfos = findComponent(componentType, uid, componentID);
	KBE_ASSERT(pComponentInfos != NULL);

	Mercury::EndPoint * pEndpoint = new Mercury::EndPoint;
	pEndpoint->socket(SOCK_STREAM);
	if (!pEndpoint->good())
	{
		ERROR_MSG("Components::connectComponent: couldn't create a socket\n");
		delete pEndpoint;
		return -1;
	}

	pEndpoint->addr(*pComponentInfos->pIntAddr);
	int ret = pEndpoint->connect(pComponentInfos->pIntAddr->port, pComponentInfos->pIntAddr->ip);

	if(ret == 0)
	{
		pComponentInfos->pChannel = new Mercury::Channel(*_pNetworkInterface, pEndpoint, Mercury::Channel::INTERNAL);
		pComponentInfos->pChannel->componentID(componentID);
		if(!_pNetworkInterface->registerChannel(pComponentInfos->pChannel))
		{
			ERROR_MSG(boost::format("Components::connectComponent: registerChannel(%1%) is failed!\n") %
				pComponentInfos->pChannel->c_str());

			pComponentInfos->pChannel->destroy();
			pComponentInfos->pChannel = NULL;
			return -1;
		}
		else
		{
			Mercury::Bundle* pBundle = Mercury::Bundle::ObjPool().createObject();
			if(componentType == BASEAPPMGR_TYPE)
			{
				(*pBundle).newMessage(BaseappmgrInterface::onRegisterNewApp);
				
				BaseappmgrInterface::onRegisterNewAppArgs11::staticAddToBundle((*pBundle), getUserUID(), getUsername(), 
					Componentbridge::getSingleton().componentType(), Componentbridge::getSingleton().componentID(), 
					g_componentGlobalOrder, g_componentGroupOrder,
					_pNetworkInterface->intaddr().ip, _pNetworkInterface->intaddr().port,
					_pNetworkInterface->extaddr().ip, _pNetworkInterface->extaddr().port, g_kbeSrvConfig.getConfig().externalAddress);
			}
			else if(componentType == CELLAPPMGR_TYPE)
			{
				(*pBundle).newMessage(CellappmgrInterface::onRegisterNewApp);
				
				CellappmgrInterface::onRegisterNewAppArgs11::staticAddToBundle((*pBundle), getUserUID(), getUsername(), 
					Componentbridge::getSingleton().componentType(), Componentbridge::getSingleton().componentID(), 
					g_componentGlobalOrder, g_componentGroupOrder,
					_pNetworkInterface->intaddr().ip, _pNetworkInterface->intaddr().port,
					_pNetworkInterface->extaddr().ip, _pNetworkInterface->extaddr().port, g_kbeSrvConfig.getConfig().externalAddress);
			}
			else if(componentType == CELLAPP_TYPE)
			{
				(*pBundle).newMessage(CellappInterface::onRegisterNewApp);
				
				CellappInterface::onRegisterNewAppArgs11::staticAddToBundle((*pBundle), getUserUID(), getUsername(), 
					Componentbridge::getSingleton().componentType(), Componentbridge::getSingleton().componentID(), 
					g_componentGlobalOrder, g_componentGroupOrder,
						_pNetworkInterface->intaddr().ip, _pNetworkInterface->intaddr().port,
					_pNetworkInterface->extaddr().ip, _pNetworkInterface->extaddr().port, g_kbeSrvConfig.getConfig().externalAddress);
			}
			else if(componentType == BASEAPP_TYPE)
			{
				(*pBundle).newMessage(BaseappInterface::onRegisterNewApp);
				
				BaseappInterface::onRegisterNewAppArgs11::staticAddToBundle((*pBundle), getUserUID(), getUsername(), 
					Componentbridge::getSingleton().componentType(), Componentbridge::getSingleton().componentID(), 
					g_componentGlobalOrder, g_componentGroupOrder,
					_pNetworkInterface->intaddr().ip, _pNetworkInterface->intaddr().port,
					_pNetworkInterface->extaddr().ip, _pNetworkInterface->extaddr().port, g_kbeSrvConfig.getConfig().externalAddress);
			}
			else if(componentType == DBMGR_TYPE)
			{
				(*pBundle).newMessage(DbmgrInterface::onRegisterNewApp);
				
				DbmgrInterface::onRegisterNewAppArgs11::staticAddToBundle((*pBundle), getUserUID(), getUsername(), 
					Componentbridge::getSingleton().componentType(), Componentbridge::getSingleton().componentID(), 
					g_componentGlobalOrder, g_componentGroupOrder,
					_pNetworkInterface->intaddr().ip, _pNetworkInterface->intaddr().port,
					_pNetworkInterface->extaddr().ip, _pNetworkInterface->extaddr().port, g_kbeSrvConfig.getConfig().externalAddress);
			}
			else if(componentType == MESSAGELOG_TYPE)
			{
				(*pBundle).newMessage(MessagelogInterface::onRegisterNewApp);
				
				MessagelogInterface::onRegisterNewAppArgs11::staticAddToBundle((*pBundle), getUserUID(), getUsername(), 
					Componentbridge::getSingleton().componentType(), Componentbridge::getSingleton().componentID(), 
					g_componentGlobalOrder, g_componentGroupOrder,
					_pNetworkInterface->intaddr().ip, _pNetworkInterface->intaddr().port,
					_pNetworkInterface->extaddr().ip, _pNetworkInterface->extaddr().port, g_kbeSrvConfig.getConfig().externalAddress);
			}
			else
			{
				KBE_ASSERT(false && "invalid componentType.\n");
			}

			(*pBundle).send(*_pNetworkInterface, pComponentInfos->pChannel);
			Mercury::Bundle::ObjPool().reclaimObject(pBundle);
		}
	}
	else
	{
		ERROR_MSG(boost::format("Components::connectComponent: connect(%1%) is failed! %2%.\n") %
			pComponentInfos->pIntAddr->c_str() % kbe_strerror());

		return -1;
	}

	return ret;
}