khanat-opennel-code/code/nel/src/net/udp_sim_sock.cpp

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2014-02-09 02:39:39 +00:00
// 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/>.
#include "stdnet.h"
#include "nel/misc/config_file.h"
#include "nel/net/udp_sock.h"
#include "nel/net/udp_sim_sock.h"
using namespace std;
using namespace NLMISC;
namespace NLNET {
//
// Class
//
struct CBufferizedOutPacket
{
CBufferizedOutPacket (CUdpSock *client, const uint8 *packet, uint32 packetSize, uint32 delay, const CInetAddress *addr):
Client(client), PacketSize(packetSize), Time(CTime::getLocalTime()+delay)
{
nlassert (packetSize > 0);
nlassert (packet != NULL);
nlassert (client != NULL);
Packet = new uint8[packetSize];
memcpy (Packet, packet, packetSize);
if (addr != NULL)
{
Addr = new CInetAddress;
*Addr = *addr;
}
else
{
Addr = NULL;
}
}
~CBufferizedOutPacket ()
{
nlassert (Packet != NULL);
delete [] Packet;
Packet = NULL;
Client = NULL;
PacketSize = 0;
Time = 0;
if (Addr != NULL)
delete Addr;
}
CUdpSock *Client;
uint8 *Packet;
uint32 PacketSize;
TTime Time;
CInetAddress *Addr;
};
//
// Variables
//
//queue<CBufferizedOutPacket*> CUdpSimSock::BufferizedOutPackets;
//queue<CBufferizedOutPacket*> CUdpSimSock::BufferizedInPackets;
uint32 CUdpSimSock::_InLag = 0;
uint8 CUdpSimSock::_InPacketLoss = 0;
uint32 CUdpSimSock::_OutLag = 0;
uint8 CUdpSimSock::_OutPacketLoss = 0;
uint8 CUdpSimSock::_OutPacketDuplication = 0;
uint8 CUdpSimSock::_OutPacketDisordering = 0;
//
// Functions
//
void CUdpSimSock::sendUDPNow (const uint8 *buffer, uint32 len, const CInetAddress *addr)
{
if (addr == NULL)
UdpSock.send (buffer, len);
else
UdpSock.sendTo (buffer, len, *addr);
}
void CUdpSimSock::sendUDP (const uint8 *buffer, uint32& len, const CInetAddress *addr)
{
nlassert (buffer != NULL);
nlassert (len > 0);
if ((float)rand()/(float)(RAND_MAX)*100.0f >= _OutPacketLoss)
{
sint32 lag = _OutLag /*+ (rand()%40) - 20*/;// void disordering
if (lag > 100)
{
// send the packet later
CBufferizedOutPacket *bp = new CBufferizedOutPacket (&UdpSock, buffer, len, lag, addr);
// duplicate the packet
if ((float)rand()/(float)(RAND_MAX)*100.0f < _OutPacketDisordering && _BufferizedOutPackets.size() > 0)
{
CBufferizedOutPacket *bp2 = _BufferizedOutPackets.back();
// exange the time
TTime t = bp->Time;
bp->Time = bp2->Time;
bp2->Time = t;
// exange packet in the buffer
_BufferizedOutPackets.back() = bp;
bp = bp2;
}
_BufferizedOutPackets.push (bp);
// duplicate the packet
if ((float)rand()/(float)(RAND_MAX)*100.0f < _OutPacketDuplication)
{
CBufferizedOutPacket *bp = new CBufferizedOutPacket (&UdpSock, buffer, len, lag, addr);
_BufferizedOutPackets.push (bp);
}
}
else
{
// send the packet NOW
sendUDPNow (buffer, len, addr);
// duplicate the packet
if ((float)rand()/(float)(RAND_MAX)*100.0f < _OutPacketDuplication)
{
sendUDPNow (buffer, len, addr);
}
}
}
}
void CUdpSimSock::updateBufferizedPackets ()
{
TTime ct = CTime::getLocalTime ();
while (!_BufferizedOutPackets.empty())
{
CBufferizedOutPacket *bp = _BufferizedOutPackets.front ();
if (bp->Time <= ct)
{
// time to send the message
sendUDPNow (bp->Packet, bp->PacketSize, bp->Addr);
delete bp;
_BufferizedOutPackets.pop ();
}
else
{
break;
}
}
}
void cbSimVar (CConfigFile::CVar &var)
{
if (var.Name == "SimInLag") CUdpSimSock::_InLag = var.asInt ();
else if (var.Name == "SimInPacketLost") CUdpSimSock::_InPacketLoss = uint8(var.asInt ());
else if (var.Name == "SimOutLag") CUdpSimSock::_OutLag = var.asInt ();
else if (var.Name == "SimOutPacketLost") CUdpSimSock::_OutPacketLoss = uint8(var.asInt ());
else if (var.Name == "SimOutPacketDuplication") CUdpSimSock::_OutPacketDuplication = uint8(var.asInt ());
else if (var.Name == "SimOutPacketDisordering") CUdpSimSock::_OutPacketDisordering = uint8(var.asInt ());
else nlstop;
}
void CUdpSimSock::setSimValues (NLMISC::CConfigFile &cf)
{
cf.setCallback ("SimInLag", cbSimVar);
cf.setCallback ("SimInPacketLost", cbSimVar);
cf.setCallback ("SimOutLag", cbSimVar);
cf.setCallback ("SimOutPacketLost", cbSimVar);
cf.setCallback ("SimOutPacketDuplication", cbSimVar);
cf.setCallback ("SimOutPacketDisordering", cbSimVar);
CConfigFile::CVar *pv;
pv = cf.getVarPtr("SimInLag");
if( pv )
cbSimVar( *pv );
pv = cf.getVarPtr("SimInPacketLost");
if( pv )
cbSimVar( *pv );
pv = cf.getVarPtr("SimOutLag");
if( pv )
cbSimVar( *pv );
pv = cf.getVarPtr("SimOutPacketLost");
if( pv )
cbSimVar( *pv );
pv = cf.getVarPtr("SimOutPacketDuplication");
if( pv )
cbSimVar( *pv );
pv = cf.getVarPtr("SimOutPacketDisordering");
if( pv )
cbSimVar( *pv );
}
void CUdpSimSock::connect( const CInetAddress& addr )
{
UdpSock.connect (addr);
}
void CUdpSimSock::close()
{
UdpSock.close ();
}
uint8 buffer [10000];
bool CUdpSimSock::dataAvailable ()
{
updateBufferizedPackets ();
if (_InLag > 0)
{
while (UdpSock.dataAvailable ())
{
CInetAddress addr;
uint len = 10000;
UdpSock.receivedFrom (buffer, len, addr);
if ((float)rand()/(float)(RAND_MAX)*100.0f >= _InPacketLoss)
{
CBufferizedOutPacket *bp = new CBufferizedOutPacket (&UdpSock, buffer, len, _InLag, &addr);
_BufferizedInPackets.push (bp);
}
}
TTime ct = CTime::getLocalTime ();
if (!_BufferizedInPackets.empty() && _BufferizedInPackets.front ()->Time <= ct)
return true;
else
return false;
}
else
{
if ((float)rand()/(float)(RAND_MAX)*100.0f >= _InPacketLoss)
{
return UdpSock.dataAvailable ();
}
else
{
// consume data
if (UdpSock.dataAvailable ())
{
CInetAddress addr;
uint len = 10000;
UdpSock.receivedFrom (buffer, len, addr);
}
// packet lost
return false;
}
}
}
bool CUdpSimSock::receive (uint8 *buffer, uint32& len, bool throw_exception)
{
if (_InLag> 0)
{
if (_BufferizedInPackets.empty())
{
if (throw_exception)
throw Exception ("no data available");
return false;
}
CBufferizedOutPacket *bp = _BufferizedInPackets.front ();
uint32 s = min (len, bp->PacketSize);
memcpy (buffer, bp->Packet, s);
len = s;
delete bp;
_BufferizedInPackets.pop ();
return true;
}
else
{
return UdpSock.receive(buffer, len, throw_exception);
}
}
CSock::TSockResult CUdpSimSock::send (const uint8 *buffer, uint32& len, bool /* throw_exception */)
{
sendUDP (buffer, len);
return CSock::Ok;
}
void CUdpSimSock::sendTo (const uint8 *buffer, uint32& len, const CInetAddress& addr)
{
sendUDP (buffer, len, &addr);
}
bool CUdpSimSock::connected()
{
return UdpSock.connected ();
}
} // NLNET