khanat-code-old/code/nel/include/nel/net/net_manager.h

190 lines
7.4 KiB
C++

// NeL - MMORPG Framework <http://dev.ryzom.com/projects/nel/>
// Copyright (C) 2010 Winch Gate Property Limited
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License as
// published by the Free Software Foundation, either version 3 of the
// License, or (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
/**************************************************************************
********************* THIS CLASS IS DEPRECATED ****************************
**************************************************************************/
#ifdef NL_OS_WINDOWS
# pragma message(NL_LOC_WRN "You are using a deprecated feature of NeL, consider rewriting your code with replacement feature")
#else // NL_OS_UNIX
# warning "You are using a deprecated feature of NeL, consider rewriting your code with replacement feature"
#endif
#ifndef NL_NET_MANAGER_H
#define NL_NET_MANAGER_H
#include "nel/misc/types_nl.h"
#include <string>
#include <map>
#include <vector>
#include "nel/misc/time_nl.h"
#include "nel/misc/string_id_array.h"
#include "callback_net_base.h"
#include "naming_client.h"
namespace NLNET {
/// Callback function type for message processing
typedef void (*TNetManagerCallback) (const std::string &serviceName, TSockId from, void *arg);
/** Structure used in the second part of the map
* If you add a client with his service name, the Name is the service name and ServiceNames is empty.
* If you add a client with his ip, Name is the fake service name and ServiceNames[0] is the ip.
* If you add a group (of client), Name is the name of the group and ServiceNames is names of all services in the group.
* If you add a server, Name is the service name of the server and ServiceNames is empty.
*/
struct CBaseStruct
{
CBaseStruct (const std::string &sn) :
Name(sn), ConnectionCallback(NULL), ConnectionCbArg(NULL),
DisconnectionCallback(NULL), DisconnectionCbArg(NULL), Type(Unknown)
{ }
/// the name used by all function to retrieve a service (in the case of group or ip, this name is a virtual
/// name used only to find it to perform action on it
std::string Name;
enum TBaseStructType { Unknown, Client, ClientWithAddr, Group, Server };
std::vector<std::string> ServiceNames;
/// It could have more than one connection, in this case, the vector contains all connections
std::vector<CCallbackNetBase*> NetBase;
TNetManagerCallback ConnectionCallback;
void *ConnectionCbArg;
TNetManagerCallback DisconnectionCallback;
void *DisconnectionCbArg;
// autoretry is used only when Type is ClientWithAddr. If true, the CNetManager will retry to reconnect if it lost the connection
bool AutoRetry;
TBaseStructType Type;
};
/**
* Layer 4
*
* In case of addGroup(), messages are *not* associate with id, so the message type is always sent with string.
*
* \author Vianney Lecroart
* \author Nevrax France
* \date 2001
*/
class CNetManager
{
public:
/** Creates the connection to the Naming Service.
* If the connection failed, ESocketConnectionFailed exception is generated.
*/
static void init (const CInetAddress *addr, CCallbackNetBase::TRecordingState rec );
static void release ();
/** Sets up a server on a specific port with a specific service name (create a listen socket, register to naming service and so on)
* If servicePort is 0, it will be dynamically determinated by the Naming Service.
* If sid id 0, the service id will be dynamically determinated by the Naming Service.
*/
static void addServer (const std::string &serviceName, uint16 servicePort = 0, bool external = false);
static void addServer (const std::string &serviceName, uint16 servicePort, NLNET::TServiceId &sid, bool external = false);
/// Creates a connection to a specific IP and associate it this a "fake" serviceName (to enable you to send data for example)
static void addClient (const std::string &serviceName, const std::string &addr, bool autoRetry = true);
/// Creates a connection to a service using the naming service and the serviceName
static void addClient (const std::string &serviceName);
/// Creates connections to a group of service
static void addGroup (const std::string &groupName, const std::string &serviceName);
/// Adds a callback array to a specific service connection. You can add callback only *after* adding the server, the client or the group
static void addCallbackArray (const std::string &serviceName, const TCallbackItem *callbackarray, NLMISC::CStringIdArray::TStringId arraysize);
/** Call it evenly. the parameter select the timeout value in milliseconds for each update. You are absolutely certain that this
* function will not be returns before this amount of time you set.
* If you set the update timeout value higher than 0, all messages in queues will be process until the time is greater than the timeout user update().
* If you set the update timeout value to 0, all messages in queues will be process one time before calling the user update(). In this case, we don't nlSleep(1).
*/
static void update (NLMISC::TTime timeout = 0);
/// Sends a message to a specific serviceName
static void send (const std::string &serviceName, const CMessage &buffer, TSockId hostid = InvalidSockId);
/** Sets callback for incoming connections (or NULL to disable callback)
* On a client, the callback will be call when the connection to the server is established (the first connection or after the server shutdown and started)
* On a server, the callback is called each time a new client is connected to him
*/
static void setConnectionCallback (const std::string &serviceName, TNetManagerCallback cb, void *arg);
/** Sets callback for disconnections (or NULL to disable callback)
On a client, the callback will be call each time the connection to the server is lost
On a server, the callback is called each time a client is disconnected
*/
static void setDisconnectionCallback (const std::string &serviceName, TNetManagerCallback cb, void *arg);
/// Returns the connection if you want to do specific calls
static CCallbackNetBase *getNetBase (const std::string &serviceName);
static void setUpdateTimeout (uint32 timeout);
static void createConnection(CBaseStruct &Base, const CInetAddress &Addr, const std::string& name);
static uint64 getBytesSent ();
static uint64 getBytesReceived ();
static uint64 getReceiveQueueSize ();
static uint64 getSendQueueSize ();
private:
typedef std::map<std::string, CBaseStruct> TBaseMap;
typedef TBaseMap::iterator ItBaseMap;
// Contains all the connections (client and server)
static TBaseMap _BaseMap;
static CCallbackNetBase::TRecordingState _RecordingState;
// used to synchonize the timeout in the update function
static NLMISC::TTime _NextUpdateTime;
// Finds the service or add it if not found
static ItBaseMap find (const std::string &serviceName);
friend void RegistrationBroadcast (const std::string &name, TServiceId sid, const std::vector<CInetAddress> &addr);
// It's a static class, you can't instanciate it
CNetManager() { }
};
} // NLNET
#endif // NL_NET_MANAGER_H
/* End of net_manager.h */