source-engine-2018-hl2_src/networksystem/networkclient.cpp
FluorescentCIAAfricanAmerican 3bf9df6b27 1
2020-04-22 12:56:21 -04:00

178 lines
3.8 KiB
C++

//========= Copyright Valve Corporation, All rights reserved. ============//
//
// Purpose:
//
//===========================================================================//
#include "networkclient.h"
#include "UDP_Socket.h"
#include "NetChannel.h"
#include "UDP_Process.h"
#include <winsock.h>
#include "tier1/bitbuf.h"
#include "networksystem.h"
#include "sm_protocol.h"
//-----------------------------------------------------------------------------
// Construction/Destruction
//-----------------------------------------------------------------------------
CNetworkClient::CNetworkClient() : m_bConnected( false )
{
m_pSocket = new CUDPSocket;
}
CNetworkClient::~CNetworkClient()
{
delete m_pSocket;
}
//-----------------------------------------------------------------------------
// Init/Shutdown
//-----------------------------------------------------------------------------
bool CNetworkClient::Init( int nListenPort )
{
if ( !m_pSocket->Init( nListenPort ) )
{
Warning( "CNetworkClient: Unable to create socket!!!\n" );
return false;
}
return true;
}
void CNetworkClient::Shutdown()
{
m_pSocket->Shutdown();
}
#define SPEW_MESSAGES
#if defined( SPEW_MESSAGES )
#define SM_SPEW_MESSAGE( code, remote ) \
Warning( "Message: %s from '%s'\n", #code, remote );
#else
#define SM_SPEW_MESSAGE( code, remote )
#endif
// process a connectionless packet
bool CNetworkClient::ProcessConnectionlessPacket( CNetPacket *packet )
{
int code = packet->m_Message.ReadByte();
switch ( code )
{
case s2c_connect_accept:
{
SM_SPEW_MESSAGE( s2c_connect_accept, packet->m_From.ToString() );
m_NetChan.Setup( false, &packet->m_From, m_pSocket, "client", this );
m_bConnected = true;
}
break;
default:
{
Warning( "CSmServer::ProcessConnectionlessPacket: Unknown code '%i' from '%s'\n",
code, packet->m_From.ToString() );
}
break;
}
return true;
}
INetChannel *CNetworkClient::FindNetChannel( const netadr_t& from )
{
if ( from.CompareAdr( m_NetChan.GetRemoteAddress() ) )
return &m_NetChan;
return NULL;
}
void CNetworkClient::ReadPackets( void )
{
UDP_ProcessSocket( m_pSocket, this, this );
}
void CNetworkClient::SendUpdate()
{
if ( m_bConnected )
{
m_NetChan.SendDatagram( NULL );
}
}
void CNetworkClient::Disconnect()
{
if ( !m_bConnected )
return;
byte data[ 512 ];
bf_write buf( "CNetworkClient::Connect", data, sizeof( data ) );
WriteSystemNetworkMessage( buf, net_disconnect );
buf.WriteString( "client disconnected" );
m_NetChan.SendDatagram( &buf );
m_NetChan.SendDatagram( &buf );
m_NetChan.SendDatagram( &buf );
}
bool CNetworkClient::Connect( char const *server, int port /*=SM_SERVER_PORT*/ )
{
byte data[ 512 ];
bf_write buf( "CNetworkClient::Connect", data, sizeof( data ) );
buf.WriteLong( -1 );
buf.WriteByte( c2s_connect );
netadr_t remote;
remote.type = NA_IP;
remote.port = htons( (unsigned short)port );
// Resolve remote name
sockaddr sa;
if ( !Q_stricmp( server, "localhost" ) )
{
remote.ip[ 0 ] = 127;
remote.ip[ 1 ] = 0;
remote.ip[ 2 ] = 0;
remote.ip[ 3 ] = 1;
}
else
{
if ( !g_pNetworkSystemImp->StringToSockaddr( server, &sa ) )
{
Msg( "Unable to resolve '%s'\n", server );
return false;
}
remote.SetFromSockadr( &sa );
}
m_NetChan.SetConnectionState( CONNECTION_STATE_CONNECTING );
return m_pSocket->SendTo( remote, buf.GetData(), buf.GetNumBytesWritten() );
}
void CNetworkClient::OnConnectionClosing( INetChannel *channel, char const *reason )
{
Warning( "OnConnectionClosing '%s'\n", reason );
if ( channel == &m_NetChan )
{
m_NetChan.Shutdown( "received disconnect\n" );
m_bConnected = false;
}
}
void CNetworkClient::OnConnectionStarted( INetChannel *channel )
{
Warning( "OnConnectionStarted\n" );
}
void CNetworkClient::OnPacketStarted( int inseq, int outseq )
{
}
void CNetworkClient::OnPacketFinished()
{
}