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/* Copyright (c) 2002-2012 Croteam Ltd.
This program is free software ; you can redistribute it and / or modify
it under the terms of version 2 of the GNU General Public License as published by
the Free Software Foundation
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 General Public License for more details .
You should have received a copy of the GNU General Public License along
with this program ; if not , write to the Free Software Foundation , Inc . ,
51 Franklin Street , Fifth Floor , Boston , MA 02110 - 1301 USA . */
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# include <Engine/StdH.h>
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# include <Engine/Base/Console.h>
# include <Engine/Base/CTString.h>
# include <Engine/Base/ErrorReporting.h>
# include <Engine/Base/ErrorTable.h>
# include <Engine/Base/ProgressHook.h>
# include <Engine/Base/Synchronization.h>
# include <Engine/Base/Translation.h>
# include <Engine/Network/ClientInterface.h>
# include <Engine/Network/CommunicationInterface.h>
# include <Engine/Network/CPacket.h>
# include <Engine/Network/Network.h>
# include <Engine/Network/Server.h>
# include <Engine/GameAgent/GameAgent.h>
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# ifdef PLATFORM_WIN32
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# pragma comment(lib, "wsock32.lib")
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# endif
# define SLASHSLASH 0x2F2F // looks like "//" in ASCII.
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# define SERVER_LOCAL_CLIENT 0
extern INDEX net_iPort ;
extern CTString net_strLocalHost ;
extern INDEX net_bLookupHostNames ;
extern INDEX net_bReportICMPErrors ;
extern FLOAT net_fDropPackets ;
extern FLOAT net_tmConnectionTimeout ;
extern INDEX net_bReportPackets ;
static struct ErrorCode ErrorCodes [ ] = {
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# ifdef PLATFORM_WIN32
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ERRORCODE ( WSAEINTR , " WSAEINTR " ) ,
ERRORCODE ( WSAEBADF , " WSAEBADF " ) ,
ERRORCODE ( WSAEACCES , " WSAEACCES " ) ,
ERRORCODE ( WSAEFAULT , " WSAEFAULT " ) ,
ERRORCODE ( WSAEINVAL , " WSAEINVAL " ) ,
ERRORCODE ( WSAEMFILE , " WSAEMFILE " ) ,
ERRORCODE ( WSAEWOULDBLOCK , " WSAEWOULDBLOCK " ) ,
ERRORCODE ( WSAEINPROGRESS , " WSAEINPROGRESS " ) ,
ERRORCODE ( WSAEALREADY , " WSAEALREADY " ) ,
ERRORCODE ( WSAENOTSOCK , " WSAENOTSOCK " ) ,
ERRORCODE ( WSAEDESTADDRREQ , " WSAEDESTADDRREQ " ) ,
ERRORCODE ( WSAEMSGSIZE , " WSAEMSGSIZE " ) ,
ERRORCODE ( WSAEPROTOTYPE , " WSAEPROTOTYPE " ) ,
ERRORCODE ( WSAENOPROTOOPT , " WSAENOPROTOOPT " ) ,
ERRORCODE ( WSAEPROTONOSUPPORT , " WSAEPROTONOSUPPORT " ) ,
ERRORCODE ( WSAESOCKTNOSUPPORT , " WSAESOCKTNOSUPPORT " ) ,
ERRORCODE ( WSAEOPNOTSUPP , " WSAEOPNOTSUPP " ) ,
ERRORCODE ( WSAEPFNOSUPPORT , " WSAEPFNOSUPPORT " ) ,
ERRORCODE ( WSAEAFNOSUPPORT , " WSAEAFNOSUPPORT " ) ,
ERRORCODE ( WSAEADDRINUSE , " WSAEADDRINUSE " ) ,
ERRORCODE ( WSAEADDRNOTAVAIL , " WSAEADDRNOTAVAIL " ) ,
ERRORCODE ( WSAENETDOWN , " WSAENETDOWN " ) ,
ERRORCODE ( WSAENETUNREACH , " WSAENETUNREACH " ) ,
ERRORCODE ( WSAENETRESET , " WSAENETRESET " ) ,
ERRORCODE ( WSAECONNABORTED , " WSAECONNABORTED " ) ,
ERRORCODE ( WSAECONNRESET , " WSAECONNRESET " ) ,
ERRORCODE ( WSAENOBUFS , " WSAENOBUFS " ) ,
ERRORCODE ( WSAEISCONN , " WSAEISCONN " ) ,
ERRORCODE ( WSAENOTCONN , " WSAENOTCONN " ) ,
ERRORCODE ( WSAESHUTDOWN , " WSAESHUTDOWN " ) ,
ERRORCODE ( WSAETOOMANYREFS , " WSAETOOMANYREFS " ) ,
ERRORCODE ( WSAETIMEDOUT , " WSAETIMEDOUT " ) ,
ERRORCODE ( WSAECONNREFUSED , " WSAECONNREFUSED " ) ,
ERRORCODE ( WSAELOOP , " WSAELOOP " ) ,
ERRORCODE ( WSAENAMETOOLONG , " WSAENAMETOOLONG " ) ,
ERRORCODE ( WSAEHOSTDOWN , " WSAEHOSTDOWN " ) ,
ERRORCODE ( WSAEHOSTUNREACH , " WSAEHOSTUNREACH " ) ,
ERRORCODE ( WSASYSNOTREADY , " WSASYSNOTREADY " ) ,
ERRORCODE ( WSAVERNOTSUPPORTED , " WSAVERNOTSUPPORTED " ) ,
ERRORCODE ( WSANOTINITIALISED , " WSANOTINITIALISED " ) ,
ERRORCODE ( WSAEDISCON , " WSAEDISCON " ) ,
ERRORCODE ( WSAHOST_NOT_FOUND , " WSAHOST_NOT_FOUND " ) ,
ERRORCODE ( WSATRY_AGAIN , " WSATRY_AGAIN " ) ,
ERRORCODE ( WSANO_RECOVERY , " WSANO_RECOVERY " ) ,
ERRORCODE ( WSANO_DATA , " WSANO_DATA " ) ,
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# else
// these were gleaned from the manpages for various BSD socket calls.
// On linux, start with "man ip" for most of these.
ERRORCODE ( EINTR , " EINTR " ) ,
ERRORCODE ( EAGAIN , " EAGAIN " ) ,
ERRORCODE ( EIO , " EIO " ) ,
ERRORCODE ( EISDIR , " EISDIR " ) ,
ERRORCODE ( EBADF , " EBADF " ) ,
ERRORCODE ( EINVAL , " EINVAL " ) ,
ERRORCODE ( EFAULT , " EFAULT " ) ,
ERRORCODE ( EPROTONOSUPPORT , " EPROTONOSUPPORT " ) ,
ERRORCODE ( ENFILE , " ENFILE " ) ,
ERRORCODE ( EACCES , " EACCES " ) ,
ERRORCODE ( ENOBUFS , " ENOBUFS " ) ,
ERRORCODE ( ENOMEM , " ENOMEM " ) ,
ERRORCODE ( ENOTSOCK , " ENOTSOCK " ) ,
ERRORCODE ( EOPNOTSUPP , " EOPNOTSUPP " ) ,
ERRORCODE ( EPERM , " EPERM " ) ,
ERRORCODE ( ECONNABORTED , " ECONNABORTED " ) ,
ERRORCODE ( ECONNREFUSED , " ECONNREFUSED " ) ,
ERRORCODE ( ENETUNREACH , " ENETUNREACH " ) ,
ERRORCODE ( EADDRINUSE , " EADDRINUSE " ) ,
ERRORCODE ( EINPROGRESS , " EINPROGRESS " ) ,
ERRORCODE ( EALREADY , " EALREADY " ) ,
ERRORCODE ( EAGAIN , " EAGAIN " ) ,
ERRORCODE ( EAFNOSUPPORT , " EAFNOSUPPORT " ) ,
ERRORCODE ( EADDRNOTAVAIL , " EADDRNOTAVAIL " ) ,
ERRORCODE ( ETIMEDOUT , " ETIMEDOUT " ) ,
ERRORCODE ( ESOCKTNOSUPPORT , " ESOCKTNOSUPPORT " ) ,
ERRORCODE ( ENAMETOOLONG , " ENAMETOOLONG " ) ,
ERRORCODE ( ENOTDIR , " ENOTDIR " ) ,
ERRORCODE ( ELOOP , " ELOOP " ) ,
ERRORCODE ( EROFS , " EROFS " ) ,
ERRORCODE ( EISCONN , " EISCONN " ) ,
ERRORCODE ( EMSGSIZE , " EMSGSIZE " ) ,
ERRORCODE ( ENODEV , " ENODEV " ) ,
ERRORCODE ( ECONNRESET , " ECONNRESET " ) ,
ERRORCODE ( ENOTCONN , " ENOTCONN " ) ,
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# ifdef ENOSR
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ERRORCODE ( ENOSR , " ENOSR " ) ,
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# endif
# ifdef ENOPKG
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ERRORCODE ( ENOPKG , " ENOPKG " ) ,
# endif
# endif
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} ;
static struct ErrorTable SocketErrors = ERRORTABLE ( ErrorCodes ) ;
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// rcg10122001
# ifdef PLATFORM_WIN32
# define isWouldBlockError(x) (x == WSAEWOULDBLOCK)
# else
# define isWouldBlockError(x) ((x == EAGAIN) || (x == EWOULDBLOCK))
# define WSAECONNRESET ECONNRESET
# endif
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//structures used to emulate bandwidth and latency parameters - shared by all client interfaces
CPacketBufferStats _pbsSend ;
CPacketBufferStats _pbsRecv ;
ULONG cm_ulLocalHost ; // configured local host address
CTString cm_strAddress ; // local address
CTString cm_strName ; // local address
CTCriticalSection cm_csComm ; // critical section for access to communication data
BOOL cm_bNetworkInitialized ;
// index 0 is the server's local client, this is an array used by server only
CClientInterface cm_aciClients [ SERVER_CLIENTS ] ;
// Broadcast interface - i.e. interface for 'nonconnected' communication
CClientInterface cm_ciBroadcast ;
// this is used by client only
CClientInterface cm_ciLocalClient ;
// global communication interface object (there is only one for the entire engine)
CCommunicationInterface _cmiComm ;
/*
*
* Two helper functions - conversion from IP to words
*
*/
// convert address to a printable string
CTString AddressToString ( ULONG ulHost )
{
ULONG ulHostNet = htonl ( ulHost ) ;
// initially not converted
struct hostent * hostentry = NULL ;
// if DNS lookup is allowed
if ( net_bLookupHostNames ) {
// lookup the host
hostentry = gethostbyaddr ( ( char * ) & ulHostNet , sizeof ( ulHostNet ) , AF_INET ) ;
}
// if DNS lookup succeeded
if ( hostentry ! = NULL ) {
// return its ascii name
return ( char * ) hostentry - > h_name ;
// if DNS lookup failed
} else {
// just convert to dotted number format
return inet_ntoa ( ( const in_addr & ) ulHostNet ) ;
}
} ;
// convert string address to a number
ULONG StringToAddress ( const CTString & strAddress )
{
// first try to convert numeric address
ULONG ulAddress = ntohl ( inet_addr ( strAddress ) ) ;
// if not a valid numeric address
if ( ulAddress = = INADDR_NONE ) {
// lookup the host
HOSTENT * phe = gethostbyname ( strAddress ) ;
// if succeeded
if ( phe ! = NULL ) {
// get that address
ulAddress = ntohl ( * ( ULONG * ) phe - > h_addr_list [ 0 ] ) ;
}
}
// return what we got
return ulAddress ;
} ;
CCommunicationInterface : : CCommunicationInterface ( void )
{
cm_csComm . cs_iIndex = - 1 ;
CTSingleLock slComm ( & cm_csComm , TRUE ) ;
cci_bInitialized = FALSE ;
cci_bWinSockOpen = FALSE ;
cci_bServerInitialized = FALSE ;
cci_bClientInitialized = FALSE ;
cm_ciLocalClient . ci_bClientLocal = FALSE ;
cci_hSocket = INVALID_SOCKET ;
} ;
// initialize
void CCommunicationInterface : : Init ( void )
{
CTSingleLock slComm ( & cm_csComm , TRUE ) ;
cci_bWinSockOpen = FALSE ;
cci_bInitialized = TRUE ;
// mark as initialized
cm_bNetworkInitialized = FALSE ;
cci_pbMasterInput . Clear ( ) ;
cci_pbMasterOutput . Clear ( ) ;
} ;
// close
void CCommunicationInterface : : Close ( void )
{
CTSingleLock slComm ( & cm_csComm , TRUE ) ;
ASSERT ( cci_bInitialized ) ;
ASSERT ( ! cci_bServerInitialized ) ;
ASSERT ( ! cci_bClientInitialized ) ;
// mark as closed
cm_bNetworkInitialized = FALSE ;
cci_bInitialized = FALSE ;
cm_ciLocalClient . ci_bClientLocal = FALSE ;
cci_pbMasterInput . Clear ( ) ;
cci_pbMasterOutput . Clear ( ) ;
} ;
void CCommunicationInterface : : InitWinsock ( void )
{
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# ifdef PLATFORM_WIN32
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if ( cci_bWinSockOpen ) {
return ;
}
// start winsock
WSADATA winsockdata ;
WORD wVersionRequested ;
wVersionRequested = MAKEWORD ( 1 , 1 ) ;
int iResult = WSAStartup ( wVersionRequested , & winsockdata ) ;
// if winsock open ok
if ( iResult = = 0 ) {
// remember that
cci_bWinSockOpen = TRUE ;
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CPrintF ( TRANSV ( " winsock opened ok \n " ) ) ;
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}
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# else
cci_bWinSockOpen = TRUE ;
# endif
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} ;
void CCommunicationInterface : : EndWinsock ( void )
{
if ( ! cci_bWinSockOpen ) {
return ;
}
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# ifdef PLATFORM_WIN32
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int iResult = WSACleanup ( ) ;
ASSERT ( iResult = = 0 ) ;
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# endif
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cci_bWinSockOpen = FALSE ;
} ;
// prepares the comm interface for use - MUST be invoked before any data can be sent/received
void CCommunicationInterface : : PrepareForUse ( BOOL bUseNetwork , BOOL bClient )
{
// clear the network conditions emulation data
_pbsSend . Clear ( ) ;
_pbsRecv . Clear ( ) ;
// if the network is already initialized, shut it down before proceeding
if ( cm_bNetworkInitialized ) {
Unprepare ( ) ;
}
// make sure winsock is off (could be on if enumeration was triggered)
GameAgent_EnumCancel ( ) ;
EndWinsock ( ) ;
if ( bUseNetwork ) {
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CPrintF ( TRANSV ( " Initializing TCP/IP... \n " ) ) ;
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if ( bClient ) {
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CPrintF ( TRANSV ( " opening as client \n " ) ) ;
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} else {
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CPrintF ( TRANSV ( " opening as server \n " ) ) ;
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}
// make sure winsock is on
InitWinsock ( ) ;
// no address by default
cm_ulLocalHost = 0 ;
// if there is a desired local address
if ( net_strLocalHost ! = " " ) {
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CPrintF ( TRANSV ( " user forced local address: %s \n " ) , ( const char * ) net_strLocalHost ) ;
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// use that address
cm_strName = net_strLocalHost ;
cm_ulLocalHost = StringToAddress ( cm_strName ) ;
// if invalid
if ( cm_ulLocalHost = = 0 | | cm_ulLocalHost = = - 1 ) {
cm_ulLocalHost = 0 ;
// report it
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CPrintF ( TRANSV ( " requested local address is invalid \n " ) ) ;
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}
}
// if no valid desired local address
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CPrintF ( TRANSV ( " getting local addresses \n " ) ) ;
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// get default
char hostname [ 256 ] ;
gethostname ( hostname , sizeof ( hostname ) - 1 ) ;
cm_strName = hostname ;
// lookup the host
HOSTENT * phe = gethostbyname ( cm_strName ) ;
// if succeeded
if ( phe ! = NULL ) {
// get the addresses
cm_strAddress = " " ;
for ( INDEX i = 0 ; phe - > h_addr_list [ i ] ! = NULL ; i + + ) {
if ( i > 0 ) {
cm_strAddress + = " , " ;
}
cm_strAddress + = inet_ntoa ( * ( const in_addr * ) phe - > h_addr_list [ i ] ) ;
}
}
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CPrintF ( TRANSV ( " local addresses: %s (%s) \n " ) , ( const char * ) cm_strName , ( const char * ) cm_strAddress ) ;
CPrintF ( TRANSV ( " port: %d \n " ) , net_iPort ) ;
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// try to open master UDP socket
try {
OpenSocket_t ( cm_ulLocalHost , bClient ? 0 : net_iPort ) ;
cci_pbMasterInput . pb_ppbsStats = NULL ;
cci_pbMasterOutput . pb_ppbsStats = NULL ;
cm_ciBroadcast . SetLocal ( NULL ) ;
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CPrintF ( TRANSV ( " opened socket: \n " ) ) ;
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} catch ( char * strError ) {
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CPrintF ( TRANSV ( " cannot open UDP socket: %s \n " ) , strError ) ;
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}
}
cm_bNetworkInitialized = cci_bWinSockOpen ;
} ;
// shut down the communication interface
void CCommunicationInterface : : Unprepare ( void )
{
// close winsock
if ( cci_bWinSockOpen ) {
// if socket is open
if ( cci_hSocket ! = INVALID_SOCKET ) {
// close it
closesocket ( cci_hSocket ) ;
cci_hSocket = INVALID_SOCKET ;
}
cm_ciBroadcast . Clear ( ) ;
EndWinsock ( ) ;
cci_bBound = FALSE ;
}
cci_pbMasterInput . Clear ( ) ;
cci_pbMasterOutput . Clear ( ) ;
cm_bNetworkInitialized = cci_bWinSockOpen ;
} ;
BOOL CCommunicationInterface : : IsNetworkEnabled ( void )
{
return cm_bNetworkInitialized ;
} ;
// get address of local machine
void CCommunicationInterface : : GetHostName ( CTString & strName , CTString & strAddress )
{
strName = cm_strName ;
strAddress = cm_strAddress ;
} ;
/*
*
*
* Socket functions - creating , binding . . .
*
*
*/
// create an inet-family socket
void CCommunicationInterface : : CreateSocket_t ( )
{
ASSERT ( cci_hSocket = = INVALID_SOCKET ) ;
// open the socket
cci_hSocket = socket ( AF_INET , SOCK_DGRAM , IPPROTO_UDP ) ;
cci_bBound = FALSE ;
if ( cci_hSocket = = INVALID_SOCKET ) {
ThrowF_t ( TRANS ( " Cannot open socket. %s " ) , ( const char * ) GetSocketError ( WSAGetLastError ( ) ) ) ;
}
} ;
// bind socket to the given address
void CCommunicationInterface : : Bind_t ( ULONG ulLocalHost , ULONG ulLocalPort )
{
if ( cci_hSocket = = INVALID_SOCKET ) {
ASSERT ( FALSE ) ;
return ;
}
sockaddr_in sin ;
sin . sin_family = AF_INET ;
sin . sin_port = htons ( ulLocalPort ) ;
sin . sin_addr . s_addr = htonl ( ulLocalHost ) ;
// bind socket to server address/port
if ( bind ( cci_hSocket , ( sockaddr * ) & sin , sizeof ( sin ) ) = = SOCKET_ERROR ) {
ThrowF_t ( TRANS ( " Cannot bind socket. %s " ) , ( const char * ) GetSocketError ( WSAGetLastError ( ) ) ) ;
}
cci_bBound = TRUE ;
} ;
// set socket to non-blocking mode
void CCommunicationInterface : : SetNonBlocking_t ( void )
{
if ( cci_hSocket = = INVALID_SOCKET ) {
ASSERT ( FALSE ) ;
return ;
}
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# ifdef PLATFORM_WIN32
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ULONG ulArgNonBlocking = 1 ;
if ( ioctlsocket ( cci_hSocket , FIONBIO , & ulArgNonBlocking ) = = SOCKET_ERROR ) {
ThrowF_t ( TRANS ( " Cannot set socket to non-blocking mode. %s " ) ,
( const char * ) GetSocketError ( WSAGetLastError ( ) ) ) ;
}
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# else
int flags = fcntl ( cci_hSocket , F_GETFL ) ;
int failed = flags ;
if ( failed ! = - 1 ) {
flags | = O_NONBLOCK ;
failed = fcntl ( cci_hSocket , F_SETFL , flags ) ;
}
if ( failed = = - 1 ) {
ThrowF_t ( TRANS ( " Cannot set socket to non-blocking mode. %s " ) ,
( const char * ) GetSocketError ( WSAGetLastError ( ) ) ) ;
}
# endif
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} ;
// get generic socket error info string about last error
CTString CCommunicationInterface : : GetSocketError ( INDEX iError )
{
CTString strError ;
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strError . PrintF ( TRANSV ( " Socket %d, Error %d (%s) " ) ,
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cci_hSocket , iError , ErrorDescription ( & SocketErrors , iError ) ) ;
return strError ;
} ;
// open an UDP socket at given port
void CCommunicationInterface : : OpenSocket_t ( ULONG ulLocalHost , ULONG ulLocalPort )
{
// create the socket as UDP
CreateSocket_t ( ) ;
// bind it to that address/port
if ( ulLocalPort ! = 0 ) {
Bind_t ( ulLocalHost , ulLocalPort ) ;
}
// go non-blocking
SetNonBlocking_t ( ) ;
// mark as open
cci_bSocketOpen = TRUE ;
} ;
// get address of this host
void CCommunicationInterface : : GetLocalAddress_t ( ULONG & ulHost , ULONG & ulPort )
{
ulHost = 0 ;
ulPort = 0 ;
if ( cci_hSocket = = INVALID_SOCKET ) {
ASSERT ( FALSE ) ;
return ;
}
// get socket local port and address
sockaddr_in sin ;
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socklen_t iSize = sizeof ( sin ) ;
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if ( getsockname ( cci_hSocket , ( sockaddr * ) & sin , & iSize ) = = SOCKET_ERROR ) {
ThrowF_t ( TRANS ( " Cannot get local address on socket. %s " ) ,
( const char * ) GetSocketError ( WSAGetLastError ( ) ) ) ;
}
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# ifdef PLATFORM_WIN32
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ulHost = ntohl ( sin . sin_addr . S_un . S_addr ) ;
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# else
ulHost = ntohl ( sin . sin_addr . s_addr ) ;
# endif
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ulPort = ntohs ( sin . sin_port ) ;
}
// get address of the peer host connected to this socket
void CCommunicationInterface : : GetRemoteAddress_t ( ULONG & ulHost , ULONG & ulPort )
{
ulHost = 0 ;
ulPort = 0 ;
if ( cci_hSocket = = INVALID_SOCKET ) {
ASSERT ( FALSE ) ;
return ;
}
// get socket local port
sockaddr_in sin ;
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socklen_t iSize = sizeof ( sin ) ;
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if ( getpeername ( cci_hSocket , ( sockaddr * ) & sin , & iSize ) = = SOCKET_ERROR ) {
ThrowF_t ( TRANS ( " Cannot get remote address on socket. %s " ) ,
( const char * ) GetSocketError ( WSAGetLastError ( ) ) ) ;
}
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# ifdef PLATFORM_WIN32
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ulHost = ntohl ( sin . sin_addr . S_un . S_addr ) ;
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# else
ulHost = ntohl ( sin . sin_addr . s_addr ) ;
# endif
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ulPort = ntohs ( sin . sin_port ) ;
}
/*
* - - - - > > > > BROADCAST INTERFACE < < < < - - - -
*/
// broadcast communication
void CCommunicationInterface : : Broadcast_Send ( const void * pvSend , SLONG slSendSize , CAddress & adrDestination )
{
CTSingleLock slComm ( & cm_csComm , TRUE ) ;
cm_ciBroadcast . ci_adrAddress . adr_ulAddress = adrDestination . adr_ulAddress ;
cm_ciBroadcast . ci_adrAddress . adr_uwPort = adrDestination . adr_uwPort ;
cm_ciBroadcast . ci_adrAddress . adr_uwID = adrDestination . adr_uwID ;
cm_ciBroadcast . Send ( pvSend , slSendSize , FALSE ) ;
}
BOOL CCommunicationInterface : : Broadcast_Receive ( void * pvReceive , SLONG & slReceiveSize , CAddress & adrAddress )
{
CTSingleLock slComm ( & cm_csComm , TRUE ) ;
return cm_ciBroadcast . ReceiveFrom ( pvReceive , slReceiveSize , & adrAddress , FALSE ) ;
}
// update the broadcast input buffer - handle any incoming connection requests
void CCommunicationInterface : : Broadcast_Update_t ( ) {
CPacket * ppaConnectionRequest ;
BOOL bIsAlready ;
BOOL bFoundEmpty ;
ULONG iClient ;
UBYTE ubDummy = 65 ;
// while there is a connection request packet in the input buffer
while ( ( ppaConnectionRequest = cm_ciBroadcast . ci_pbReliableInputBuffer . GetConnectRequestPacket ( ) ) ! = NULL ) {
// see if there is a client already connected at that address and port
bIsAlready = FALSE ;
for ( iClient = 1 ; iClient < SERVER_CLIENTS ; iClient + + ) {
if ( cm_aciClients [ iClient ] . ci_adrAddress . adr_ulAddress = = ppaConnectionRequest - > pa_adrAddress . adr_ulAddress & &
cm_aciClients [ iClient ] . ci_adrAddress . adr_uwPort = = ppaConnectionRequest - > pa_adrAddress . adr_uwPort ) {
bIsAlready = TRUE ;
break ;
}
}
// if the client is already connected then just ignore the packet - else, connect it
if ( ! bIsAlready ) {
// find an empty client structure
bFoundEmpty = FALSE ;
for ( iClient = 1 ; iClient < SERVER_CLIENTS ; iClient + + ) {
if ( cm_aciClients [ iClient ] . ci_bUsed = = FALSE ) {
bFoundEmpty = TRUE ;
// we have an empty slot, so fill it for the client
cm_aciClients [ iClient ] . ci_adrAddress . adr_ulAddress = ppaConnectionRequest - > pa_adrAddress . adr_ulAddress ;
cm_aciClients [ iClient ] . ci_adrAddress . adr_uwPort = ppaConnectionRequest - > pa_adrAddress . adr_uwPort ;
// generate the ID
UWORD uwID = _pTimer - > GetHighPrecisionTimer ( ) . tv_llValue & 0x0FFF ;
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if ( uwID = = 0 | | uwID = = SLASHSLASH ) {
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uwID + = 1 ;
}
cm_aciClients [ iClient ] . ci_adrAddress . adr_uwID = ( uwID < < 4 ) + iClient ;
// form the connection response packet
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ppaConnectionRequest - > pa_adrAddress . adr_uwID = SLASHSLASH ;
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ppaConnectionRequest - > pa_ubReliable = UDP_PACKET_RELIABLE | UDP_PACKET_RELIABLE_HEAD | UDP_PACKET_RELIABLE_TAIL | UDP_PACKET_CONNECT_RESPONSE ;
// return it to the client
ppaConnectionRequest - > WriteToPacket ( & ( cm_aciClients [ iClient ] . ci_adrAddress . adr_uwID ) , sizeof ( cm_aciClients [ iClient ] . ci_adrAddress . adr_uwID ) , ppaConnectionRequest - > pa_ubReliable , cm_ciBroadcast . ci_ulSequence + + , ppaConnectionRequest - > pa_adrAddress . adr_uwID , sizeof ( cm_aciClients [ iClient ] . ci_adrAddress . adr_uwID ) ) ;
cm_ciBroadcast . ci_pbOutputBuffer . AppendPacket ( * ppaConnectionRequest , TRUE ) ;
cm_aciClients [ iClient ] . ci_bUsed = TRUE ;
return ;
}
}
// if none found
if ( ! bFoundEmpty ) {
// error
ThrowF_t ( TRANS ( " Server: Cannot accept new clients, all slots used! \n " ) ) ;
}
}
}
} ;
/*
* - - - - > > > > SERVER < < < < - - - -
*/
/*
* Initialize server
*/
void CCommunicationInterface : : Server_Init_t ( void )
{
CTSingleLock slComm ( & cm_csComm , TRUE ) ;
ASSERT ( cci_bInitialized ) ;
ASSERT ( ! cci_bServerInitialized ) ;
// for each client
for ( INDEX iClient = 0 ; iClient < SERVER_CLIENTS ; iClient + + ) {
// clear its status
cm_aciClients [ iClient ] . Clear ( ) ;
cm_aciClients [ iClient ] . ci_pbOutputBuffer . pb_ppbsStats = & _pbsSend ;
cm_aciClients [ iClient ] . ci_pbInputBuffer . pb_ppbsStats = & _pbsRecv ;
}
// mark the server's instance of the local client as such
cm_aciClients [ SERVER_LOCAL_CLIENT ] . ci_bClientLocal = TRUE ;
cm_aciClients [ SERVER_LOCAL_CLIENT ] . ci_bUsed = TRUE ;
// prepare the client part of the local client
cm_ciLocalClient . Clear ( ) ;
cm_ciLocalClient . ci_bUsed = TRUE ;
cm_ciLocalClient . ci_bClientLocal = TRUE ;
cm_ciLocalClient . ci_pbOutputBuffer . pb_ppbsStats = & _pbsSend ;
cm_ciLocalClient . ci_pbInputBuffer . pb_ppbsStats = & _pbsRecv ;
// mark that the server was initialized
cci_bServerInitialized = TRUE ;
} ;
/*
* Close server
*/
void CCommunicationInterface : : Server_Close ( void )
{
CTSingleLock slComm ( & cm_csComm , TRUE ) ;
// close all clients
for ( INDEX iClient = 0 ; iClient < SERVER_CLIENTS ; iClient + + ) {
cm_aciClients [ iClient ] . Clear ( ) ;
}
// mark that the server is uninitialized
cci_bServerInitialized = FALSE ;
} ;
/*
* Server clear client and prepare for new connection
*/
void CCommunicationInterface : : Server_ClearClient ( INDEX iClient )
{
// synchronize access to communication data
CTSingleLock slComm ( & cm_csComm , TRUE ) ;
ASSERT ( iClient > = 0 & & iClient < SERVER_CLIENTS ) ;
cm_aciClients [ iClient ] . Clear ( ) ;
} ;
BOOL CCommunicationInterface : : Server_IsClientLocal ( INDEX iClient )
{
CTSingleLock slComm ( & cm_csComm , TRUE ) ;
ASSERT ( iClient > = 0 & & iClient < SERVER_CLIENTS ) ;
return iClient = = SERVER_LOCAL_CLIENT ;
} ;
BOOL CCommunicationInterface : : Server_IsClientUsed ( INDEX iClient )
{
CTSingleLock slComm ( & cm_csComm , TRUE ) ;
ASSERT ( iClient > = 0 & & iClient < SERVER_CLIENTS ) ;
return cm_aciClients [ iClient ] . ci_bUsed ;
} ;
CTString CCommunicationInterface : : Server_GetClientName ( INDEX iClient )
{
CTSingleLock slComm ( & cm_csComm , TRUE ) ;
ASSERT ( iClient > = 0 & & iClient < SERVER_CLIENTS ) ;
if ( iClient = = SERVER_LOCAL_CLIENT ) {
return TRANS ( " Local machine " ) ;
}
cm_aciClients [ iClient ] . ci_strAddress = AddressToString ( cm_aciClients [ iClient ] . ci_adrAddress . adr_ulAddress ) ;
return cm_aciClients [ iClient ] . ci_strAddress ;
} ;
/*
* Server Send / Receive Reliable
*/
void CCommunicationInterface : : Server_Send_Reliable ( INDEX iClient , const void * pvSend , SLONG slSendSize )
{
CTSingleLock slComm ( & cm_csComm , TRUE ) ;
ASSERT ( iClient > = 0 & & iClient < SERVER_CLIENTS ) ;
cm_aciClients [ iClient ] . Send ( pvSend , slSendSize , TRUE ) ;
} ;
BOOL CCommunicationInterface : : Server_Receive_Reliable ( INDEX iClient , void * pvReceive , SLONG & slReceiveSize )
{
CTSingleLock slComm ( & cm_csComm , TRUE ) ;
ASSERT ( iClient > = 0 & & iClient < SERVER_CLIENTS ) ;
return cm_aciClients [ iClient ] . Receive ( pvReceive , slReceiveSize , TRUE ) ;
} ;
/*
* Server Send / Receive Unreliable
*/
void CCommunicationInterface : : Server_Send_Unreliable ( INDEX iClient , const void * pvSend , SLONG slSendSize )
{
CTSingleLock slComm ( & cm_csComm , TRUE ) ;
ASSERT ( iClient > = 0 & & iClient < SERVER_CLIENTS ) ;
cm_aciClients [ iClient ] . Send ( pvSend , slSendSize , FALSE ) ;
} ;
BOOL CCommunicationInterface : : Server_Receive_Unreliable ( INDEX iClient , void * pvReceive , SLONG & slReceiveSize )
{
CTSingleLock slComm ( & cm_csComm , TRUE ) ;
ASSERT ( iClient > = 0 & & iClient < SERVER_CLIENTS ) ;
return cm_aciClients [ iClient ] . Receive ( pvReceive , slReceiveSize , FALSE ) ;
} ;
BOOL CCommunicationInterface : : Server_Update ( )
{
CTSingleLock slComm ( & cm_csComm , TRUE ) ;
CPacket * ppaPacket ;
CPacket * ppaPacketCopy ;
CTimerValue tvNow = _pTimer - > GetHighPrecisionTimer ( ) ;
INDEX iClient ;
// transfer packets for the local client
if ( cm_ciLocalClient . ci_bUsed & & cm_ciLocalClient . ci_pciOther ! = NULL ) {
cm_ciLocalClient . ExchangeBuffers ( ) ;
} ;
cm_aciClients [ 0 ] . UpdateOutputBuffers ( ) ;
// if not just playing single player
if ( cci_bServerInitialized ) {
Broadcast_Update_t ( ) ;
// for each client transfer packets from the output buffer to the master output buffer
for ( iClient = 1 ; iClient < SERVER_CLIENTS ; iClient + + ) {
CClientInterface & ci = cm_aciClients [ iClient ] ;
// if not connected
if ( ! ci . ci_bUsed ) {
// skip it
continue ;
}
// update its buffers, if a reliable packet is overdue (has not been delivered too long)
// disconnect the client
if ( ci . UpdateOutputBuffers ( ) ! = FALSE ) {
// transfer packets ready to be sent out to the master output buffer
while ( ci . ci_pbOutputBuffer . pb_ulNumOfPackets > 0 ) {
ppaPacket = ci . ci_pbOutputBuffer . PeekFirstPacket ( ) ;
if ( ppaPacket - > pa_tvSendWhen < tvNow ) {
ci . ci_pbOutputBuffer . RemoveFirstPacket ( FALSE ) ;
if ( ppaPacket - > pa_ubReliable & UDP_PACKET_RELIABLE ) {
ppaPacketCopy = new CPacket ;
* ppaPacketCopy = * ppaPacket ;
ci . ci_pbWaitAckBuffer . AppendPacket ( * ppaPacketCopy , FALSE ) ;
}
cci_pbMasterOutput . AppendPacket ( * ppaPacket , FALSE ) ;
} else {
break ;
}
}
} else {
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CPrintF ( TRANSV ( " Unable to deliver data to client '%s', disconnecting. \n " ) , ( const char * ) AddressToString ( cm_aciClients [ iClient ] . ci_adrAddress . adr_ulAddress ) ) ;
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Server_ClearClient ( iClient ) ;
_pNetwork - > ga_srvServer . HandleClientDisconected ( iClient ) ;
}
}
// update broadcast output buffers
// update its buffers
cm_ciBroadcast . UpdateOutputBuffers ( ) ;
// transfer packets ready to be sent out to the master output buffer
while ( cm_ciBroadcast . ci_pbOutputBuffer . pb_ulNumOfPackets > 0 ) {
ppaPacket = cm_ciBroadcast . ci_pbOutputBuffer . PeekFirstPacket ( ) ;
if ( ppaPacket - > pa_tvSendWhen < tvNow ) {
cm_ciBroadcast . ci_pbOutputBuffer . RemoveFirstPacket ( FALSE ) ;
cci_pbMasterOutput . AppendPacket ( * ppaPacket , FALSE ) ;
} else {
break ;
}
}
// send/receive packets over the TCP/IP stack
UpdateMasterBuffers ( ) ;
// dispatch all packets from the master input buffer to the clients' input buffers
while ( cci_pbMasterInput . pb_ulNumOfPackets > 0 ) {
BOOL bClientFound ;
ppaPacket = cci_pbMasterInput . GetFirstPacket ( ) ;
bClientFound = FALSE ;
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if ( ppaPacket - > pa_adrAddress . adr_uwID = = SLASHSLASH | | ppaPacket - > pa_adrAddress . adr_uwID = = 0 ) {
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cm_ciBroadcast . ci_pbInputBuffer . AppendPacket ( * ppaPacket , FALSE ) ;
bClientFound = TRUE ;
} else {
for ( iClient = 0 ; iClient < SERVER_CLIENTS ; iClient + + ) {
if ( ppaPacket - > pa_adrAddress . adr_uwID = = cm_aciClients [ iClient ] . ci_adrAddress . adr_uwID ) {
cm_aciClients [ iClient ] . ci_pbInputBuffer . AppendPacket ( * ppaPacket , FALSE ) ;
bClientFound = TRUE ;
break ;
}
}
}
if ( ! bClientFound ) {
// warn about possible attack
extern INDEX net_bReportMiscErrors ;
if ( net_bReportMiscErrors ) {
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CPrintF ( TRANSV ( " WARNING: Invalid message from: %s \n " ) , ( const char * ) AddressToString ( ppaPacket - > pa_adrAddress . adr_ulAddress ) ) ;
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}
}
}
for ( iClient = 1 ; iClient < SERVER_CLIENTS ; iClient + + ) {
cm_aciClients [ iClient ] . UpdateInputBuffers ( ) ;
}
}
cm_aciClients [ 0 ] . UpdateInputBuffers ( ) ;
cm_ciLocalClient . UpdateInputBuffers ( ) ;
cm_ciBroadcast . UpdateInputBuffersBroadcast ( ) ;
Broadcast_Update_t ( ) ;
return TRUE ;
} ;
/*
* - - - - > > > > CLIENT < < < < - - - -
*/
/*
* Initialize client
*/
void CCommunicationInterface : : Client_Init_t ( char * strServerName )
{
CTSingleLock slComm ( & cm_csComm , TRUE ) ;
ASSERT ( cci_bInitialized ) ;
ASSERT ( ! cci_bClientInitialized ) ;
// retrieve server address from server name
ULONG ulServerAddress = StringToAddress ( strServerName ) ;
// if lookup failed
if ( ulServerAddress = = INADDR_NONE ) {
ThrowF_t ( TRANS ( " Host '%s' not found! \n " ) , strServerName ) ;
}
// call client init with server address
Client_Init_t ( ulServerAddress ) ;
} ;
void CCommunicationInterface : : Client_Init_t ( ULONG ulServerAddress )
{
CTSingleLock slComm ( & cm_csComm , TRUE ) ;
ASSERT ( cci_bInitialized ) ;
ASSERT ( ! cci_bClientInitialized ) ;
cm_ciLocalClient . Clear ( ) ;
cm_ciLocalClient . ci_pbOutputBuffer . pb_ppbsStats = & _pbsSend ;
cm_ciLocalClient . ci_pbInputBuffer . pb_ppbsStats = & _pbsRecv ;
// if this computer is not the server
if ( ! cci_bServerInitialized ) {
// open with connecting to remote server
cm_ciLocalClient . ci_bClientLocal = FALSE ;
Client_OpenNet_t ( ulServerAddress ) ;
// if this computer is server
} else {
// open local client
cm_ciLocalClient . ci_bClientLocal = TRUE ;
Client_OpenLocal ( ) ;
}
cci_bClientInitialized = TRUE ;
} ;
/*
* Close client
*/
void CCommunicationInterface : : Client_Close ( void )
{
CTSingleLock slComm ( & cm_csComm , TRUE ) ;
ASSERT ( cci_bInitialized ) ;
// dispatch remaining packets (keep trying for half a second - 10 attempts)
for ( TIME tmWait = 0 ; tmWait < 500 ;
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_pTimer - > Sleep ( NET_WAITMESSAGE_DELAY ) , tmWait + = NET_WAITMESSAGE_DELAY ) {
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// if all packets are successfully sent, exit loop
if ( ( cm_ciLocalClient . ci_pbOutputBuffer . pb_ulNumOfPackets = = 0 )
& & ( cm_ciLocalClient . ci_pbWaitAckBuffer . pb_ulNumOfPackets = = 0 ) ) {
break ;
}
if ( Client_Update ( ) = = FALSE ) {
break ;
}
}
cm_ciLocalClient . Clear ( ) ;
cm_ciLocalClient . ci_bClientLocal = FALSE ;
cci_bClientInitialized = FALSE ;
} ;
/*
* Open client local
*/
void CCommunicationInterface : : Client_OpenLocal ( void )
{
CTSingleLock slComm ( & cm_csComm , TRUE ) ;
CClientInterface & ci0 = cm_ciLocalClient ;
CClientInterface & ci1 = cm_aciClients [ SERVER_LOCAL_CLIENT ] ;
ci0 . ci_bUsed = TRUE ;
ci0 . SetLocal ( & ci1 ) ;
ci1 . ci_bUsed = TRUE ;
ci1 . SetLocal ( & ci0 ) ;
} ;
/*
* Open client remote
*/
void CCommunicationInterface : : Client_OpenNet_t ( ULONG ulServerAddress )
{
CTSingleLock slComm ( & cm_csComm , TRUE ) ;
CPacket * ppaInfoPacket ;
CPacket * ppaReadPacket ;
UBYTE ubDummy = 65 ;
UBYTE ubReliable ;
// check for reconnection
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static ULONG ulLastServerAddress = ( ULONG ) - 1 ;
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BOOL bReconnecting = ulServerAddress = = ulLastServerAddress ;
ulLastServerAddress = ulServerAddress ;
const INDEX iRefresh = 100 ; // (in miliseconds)
// determine connection timeout
INDEX ctRetries = bReconnecting ? ( 180 * 1000 / iRefresh ) : 3 ;
// start waiting for server's response
if ( ctRetries > 1 ) {
SetProgressDescription ( TRANS ( " waiting for server " ) ) ;
CallProgressHook_t ( 0.0f ) ;
}
// form the connection request packet
ppaInfoPacket = new CPacket ;
ubReliable = UDP_PACKET_RELIABLE | UDP_PACKET_RELIABLE_HEAD | UDP_PACKET_RELIABLE_TAIL | UDP_PACKET_CONNECT_REQUEST ;
ppaInfoPacket - > pa_adrAddress . adr_ulAddress = ulServerAddress ;
ppaInfoPacket - > pa_adrAddress . adr_uwPort = net_iPort ;
ppaInfoPacket - > pa_ubRetryNumber = 0 ;
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ppaInfoPacket - > WriteToPacket ( & ubDummy , 1 , ubReliable , cm_ciLocalClient . ci_ulSequence + + , SLASHSLASH , 1 ) ;
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cm_ciLocalClient . ci_pbOutputBuffer . AppendPacket ( * ppaInfoPacket , TRUE ) ;
// set client destination address to server address
cm_ciLocalClient . ci_adrAddress . adr_ulAddress = ulServerAddress ;
cm_ciLocalClient . ci_adrAddress . adr_uwPort = net_iPort ;
// for each retry
for ( INDEX iRetry = 0 ; iRetry < ctRetries ; iRetry + + ) {
// send/receive and juggle the buffers
if ( Client_Update ( ) = = FALSE ) {
break ;
}
// if there is something in the input buffer
if ( cm_ciLocalClient . ci_pbReliableInputBuffer . pb_ulNumOfPackets > 0 ) {
ppaReadPacket = cm_ciLocalClient . ci_pbReliableInputBuffer . GetFirstPacket ( ) ;
// and it is a connection confirmation
if ( ppaReadPacket - > pa_ubReliable & & UDP_PACKET_CONNECT_RESPONSE ) {
// the client has succedeed to connect, so read the uwID from the packet
cm_ciLocalClient . ci_adrAddress . adr_ulAddress = ulServerAddress ;
cm_ciLocalClient . ci_adrAddress . adr_uwPort = net_iPort ;
cm_ciLocalClient . ci_adrAddress . adr_uwID = * ( ( UWORD * ) ( ppaReadPacket - > pa_pubPacketData + MAX_HEADER_SIZE ) ) ;
cm_ciLocalClient . ci_bUsed = TRUE ;
cm_ciLocalClient . ci_bClientLocal = FALSE ;
cm_ciLocalClient . ci_pciOther = NULL ;
cm_ciLocalClient . ci_pbReliableInputBuffer . RemoveConnectResponsePackets ( ) ;
delete ppaReadPacket ;
// finish waiting
CallProgressHook_t ( 1.0f ) ;
return ;
}
}
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_pTimer - > Sleep ( iRefresh ) ;
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CallProgressHook_t ( FLOAT ( iRetry % 10 ) / 10 ) ;
}
cci_bBound = FALSE ;
ThrowF_t ( TRANS ( " Client: Timeout receiving UDP port " ) ) ;
} ;
/*
* Clear local client
*/
void CCommunicationInterface : : Client_Clear ( void )
{
// synchronize access to communication data
CTSingleLock slComm ( & cm_csComm , TRUE ) ;
cm_ciLocalClient . Clear ( ) ;
} ;
/*
* Client get status
*/
BOOL CCommunicationInterface : : Client_IsConnected ( void )
{
// synchronize access to communication data
CTSingleLock slComm ( & cm_csComm , TRUE ) ;
return cm_ciLocalClient . ci_bUsed ;
} ;
/*
* Client Send / Receive Reliable
*/
void CCommunicationInterface : : Client_Send_Reliable ( const void * pvSend , SLONG slSendSize )
{
CTSingleLock slComm ( & cm_csComm , TRUE ) ;
cm_ciLocalClient . Send ( pvSend , slSendSize , TRUE ) ;
} ;
BOOL CCommunicationInterface : : Client_Receive_Reliable ( void * pvReceive , SLONG & slReceiveSize )
{
CTSingleLock slComm ( & cm_csComm , TRUE ) ;
return cm_ciLocalClient . Receive ( pvReceive , slReceiveSize , TRUE ) ;
} ;
BOOL CCommunicationInterface : : Client_Receive_Reliable ( CTStream & strmReceive )
{
CTSingleLock slComm ( & cm_csComm , TRUE ) ;
return cm_ciLocalClient . Receive ( strmReceive , TRUE ) ;
} ;
void CCommunicationInterface : : Client_PeekSize_Reliable ( SLONG & slExpectedSize , SLONG & slReceivedSize )
{
slExpectedSize = cm_ciLocalClient . GetExpectedReliableSize ( ) ;
slReceivedSize = cm_ciLocalClient . GetCurrentReliableSize ( ) ;
}
/*
* Client Send / Receive Unreliable
*/
void CCommunicationInterface : : Client_Send_Unreliable ( const void * pvSend , SLONG slSendSize )
{
CTSingleLock slComm ( & cm_csComm , TRUE ) ;
cm_ciLocalClient . Send ( pvSend , slSendSize , FALSE ) ;
} ;
BOOL CCommunicationInterface : : Client_Receive_Unreliable ( void * pvReceive , SLONG & slReceiveSize )
{
CTSingleLock slComm ( & cm_csComm , TRUE ) ;
return cm_ciLocalClient . Receive ( pvReceive , slReceiveSize , FALSE ) ;
} ;
BOOL CCommunicationInterface : : Client_Update ( void )
{
CTSingleLock slComm ( & cm_csComm , TRUE ) ;
CPacket * ppaPacket ;
CPacket * ppaPacketCopy ;
CTimerValue tvNow = _pTimer - > GetHighPrecisionTimer ( ) ;
// update local client's output buffers
if ( cm_ciLocalClient . UpdateOutputBuffers ( ) = = FALSE ) {
return FALSE ;
}
// if not playing on the server (i.e. connectet to a remote server)
if ( ! cci_bServerInitialized ) {
// put all pending packets in the master output buffer
while ( cm_ciLocalClient . ci_pbOutputBuffer . pb_ulNumOfPackets > 0 ) {
ppaPacket = cm_ciLocalClient . ci_pbOutputBuffer . PeekFirstPacket ( ) ;
if ( ppaPacket - > pa_tvSendWhen < tvNow ) {
cm_ciLocalClient . ci_pbOutputBuffer . RemoveFirstPacket ( FALSE ) ;
if ( ppaPacket - > pa_ubReliable & UDP_PACKET_RELIABLE ) {
ppaPacketCopy = new CPacket ;
* ppaPacketCopy = * ppaPacket ;
cm_ciLocalClient . ci_pbWaitAckBuffer . AppendPacket ( * ppaPacketCopy , FALSE ) ;
}
cci_pbMasterOutput . AppendPacket ( * ppaPacket , FALSE ) ;
} else {
break ;
}
}
// update broadcast output buffers
// update its buffers
cm_ciBroadcast . UpdateOutputBuffers ( ) ;
// transfer packets ready to be sent out to the master output buffer
while ( cm_ciBroadcast . ci_pbOutputBuffer . pb_ulNumOfPackets > 0 ) {
ppaPacket = cm_ciBroadcast . ci_pbOutputBuffer . PeekFirstPacket ( ) ;
if ( ppaPacket - > pa_tvSendWhen < tvNow ) {
cm_ciBroadcast . ci_pbOutputBuffer . RemoveFirstPacket ( FALSE ) ;
cci_pbMasterOutput . AppendPacket ( * ppaPacket , FALSE ) ;
} else {
break ;
}
}
// send/receive packets over the TCP/IP stack
UpdateMasterBuffers ( ) ;
// dispatch all packets from the master input buffer to the clients' input buffers
while ( cci_pbMasterInput . pb_ulNumOfPackets > 0 ) {
BOOL bClientFound ;
ppaPacket = cci_pbMasterInput . GetFirstPacket ( ) ;
bClientFound = FALSE ;
// if the packet address is broadcast and it's an unreliable transfer, put it in the broadcast buffer
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if ( ( ppaPacket - > pa_adrAddress . adr_uwID = = SLASHSLASH | | ppaPacket - > pa_adrAddress . adr_uwID = = 0 ) & &
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ppaPacket - > pa_ubReliable = = UDP_PACKET_UNRELIABLE ) {
cm_ciBroadcast . ci_pbInputBuffer . AppendPacket ( * ppaPacket , FALSE ) ;
bClientFound = TRUE ;
// if the packet is for this client, accept it
} else if ( ( ppaPacket - > pa_adrAddress . adr_uwID = = cm_ciLocalClient . ci_adrAddress . adr_uwID ) | |
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ppaPacket - > pa_adrAddress . adr_uwID = = SLASHSLASH | | ppaPacket - > pa_adrAddress . adr_uwID = = 0 ) {
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cm_ciLocalClient . ci_pbInputBuffer . AppendPacket ( * ppaPacket , FALSE ) ;
bClientFound = TRUE ;
}
if ( ! bClientFound ) {
// warn about possible attack
extern INDEX net_bReportMiscErrors ;
if ( net_bReportMiscErrors ) {
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CPrintF ( TRANSV ( " WARNING: Invalid message from: %s \n " ) , ( const char * ) AddressToString ( ppaPacket - > pa_adrAddress . adr_ulAddress ) ) ;
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}
}
}
}
cm_ciLocalClient . UpdateInputBuffers ( ) ;
cm_ciBroadcast . UpdateInputBuffersBroadcast ( ) ;
return TRUE ;
} ;
// update master UDP socket and route its messages
void CCommunicationInterface : : UpdateMasterBuffers ( )
{
UBYTE aub [ MAX_PACKET_SIZE ] ;
CAddress adrIncomingAddress ;
SOCKADDR_IN sa ;
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socklen_t size = sizeof ( sa ) ;
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SLONG slSizeReceived ;
SLONG slSizeSent ;
BOOL bSomethingDone ;
CPacket * ppaNewPacket ;
CTimerValue tvNow ;
if ( cci_bBound ) {
// read from the socket while there is incoming data
do {
// initially, nothing is done
bSomethingDone = FALSE ;
slSizeReceived = recvfrom ( cci_hSocket , ( char * ) aub , MAX_PACKET_SIZE , 0 , ( SOCKADDR * ) & sa , & size ) ;
tvNow = _pTimer - > GetHighPrecisionTimer ( ) ;
adrIncomingAddress . adr_ulAddress = ntohl ( sa . sin_addr . s_addr ) ;
adrIncomingAddress . adr_uwPort = ntohs ( sa . sin_port ) ;
//On error, report it to the console (if error is not a no data to read message)
if ( slSizeReceived = = SOCKET_ERROR ) {
int iResult = WSAGetLastError ( ) ;
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if ( ! isWouldBlockError ( iResult ) ) {
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// report it
if ( iResult ! = WSAECONNRESET | | net_bReportICMPErrors ) {
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CPrintF ( TRANSV ( " Socket error during UDP receive. %s \n " ) ,
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( const char * ) GetSocketError ( iResult ) ) ;
return ;
}
}
// if block received
} else {
// if there is not at least one byte more in the packet than the header size
if ( slSizeReceived < = MAX_HEADER_SIZE ) {
// the packet is in error
extern INDEX net_bReportMiscErrors ;
if ( net_bReportMiscErrors ) {
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CPrintF ( TRANSV ( " WARNING: Bad UDP packet from '%s' \n " ) , ( const char * ) AddressToString ( adrIncomingAddress . adr_ulAddress ) ) ;
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}
// there might be more to do
bSomethingDone = TRUE ;
} else if ( net_fDropPackets < = 0 | | ( FLOAT ( rand ( ) ) / RAND_MAX ) > net_fDropPackets ) {
// if no packet drop emulation (or the packet is not dropped), form the packet
// and add it to the end of the UDP Master's input buffer
ppaNewPacket = new CPacket ;
ppaNewPacket - > WriteToPacketRaw ( aub , slSizeReceived ) ;
ppaNewPacket - > pa_adrAddress . adr_ulAddress = adrIncomingAddress . adr_ulAddress ;
ppaNewPacket - > pa_adrAddress . adr_uwPort = adrIncomingAddress . adr_uwPort ;
if ( net_bReportPackets = = TRUE ) {
CPrintF ( " %lu: Received sequence: %d from ID: %d, reliable flag: %d \n " , ( ULONG ) tvNow . GetMilliseconds ( ) , ppaNewPacket - > pa_ulSequence , ppaNewPacket - > pa_adrAddress . adr_uwID , ppaNewPacket - > pa_ubReliable ) ;
}
cci_pbMasterInput . AppendPacket ( * ppaNewPacket , FALSE ) ;
// there might be more to do
bSomethingDone = TRUE ;
}
}
} while ( bSomethingDone ) ;
}
// write from the output buffer to the socket
while ( cci_pbMasterOutput . pb_ulNumOfPackets > 0 ) {
ppaNewPacket = cci_pbMasterOutput . PeekFirstPacket ( ) ;
sa . sin_family = AF_INET ;
sa . sin_addr . s_addr = htonl ( ppaNewPacket - > pa_adrAddress . adr_ulAddress ) ;
sa . sin_port = htons ( ppaNewPacket - > pa_adrAddress . adr_uwPort ) ;
slSizeSent = sendto ( cci_hSocket , ( char * ) ppaNewPacket - > pa_pubPacketData , ( int ) ppaNewPacket - > pa_slSize , 0 , ( SOCKADDR * ) & sa , sizeof ( sa ) ) ;
cci_bBound = TRUE ; // UDP socket that did a send is considered bound
tvNow = _pTimer - > GetHighPrecisionTimer ( ) ;
// if some error
if ( slSizeSent = = SOCKET_ERROR ) {
int iResult = WSAGetLastError ( ) ;
// if output UDP buffer full, stop sending
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if ( isWouldBlockError ( iResult ) ) {
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return ;
// report it
} else if ( iResult ! = WSAECONNRESET | | net_bReportICMPErrors ) {
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CPrintF ( TRANSV ( " Socket error during UDP send. %s \n " ) ,
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( const char * ) GetSocketError ( iResult ) ) ;
}
return ;
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} else if ( slSizeSent < ppaNewPacket - > pa_slSize ) {
STUBBED ( " LOST OUTGOING PACKET DATA! " ) ;
ASSERT ( 0 ) ;
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// if all sent ok
} else {
if ( net_bReportPackets = = TRUE ) {
CPrintF ( " %lu: Sent sequence: %d to ID: %d, reliable flag: %d \n " , ( ULONG ) tvNow . GetMilliseconds ( ) , ppaNewPacket - > pa_ulSequence , ppaNewPacket - > pa_adrAddress . adr_uwID , ppaNewPacket - > pa_ubReliable ) ;
}
cci_pbMasterOutput . RemoveFirstPacket ( TRUE ) ;
bSomethingDone = TRUE ;
}
}
} ;