cnq3/code/qcommon/net_ip.cpp

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2016-12-18 04:43:04 +00:00
/*
===========================================================================
Copyright (C) 1999-2005 Id Software, Inc.
This file is part of Quake III Arena source code.
Quake III Arena source code is free software; you can redistribute it
and/or modify it under the terms of the GNU General Public License as
published by the Free Software Foundation; either version 2 of the License,
or (at your option) any later version.
Quake III Arena source code 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 Quake III Arena source code; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
===========================================================================
*/
#include "../qcommon/q_shared.h"
#include "../qcommon/qcommon.h"
#ifdef _WIN32
#include <winsock.h>
typedef int socklen_t;
#ifndef EAGAIN
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#define EAGAIN WSAEWOULDBLOCK
#endif
#ifndef EADDRNOTAVAIL
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#define EADDRNOTAVAIL WSAEADDRNOTAVAIL
#endif
#ifndef EAFNOSUPPORT
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#define EAFNOSUPPORT WSAEAFNOSUPPORT
#endif
#ifndef ECONNRESET
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#define ECONNRESET WSAECONNRESET
#endif
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#define socketError WSAGetLastError()
static WSADATA winsockdata;
#else
#if MAC_OS_X_VERSION_MIN_REQUIRED == 1020
#define _BSD_SOCKLEN_T_ // needed for socklen_t on OSX 10.2
#endif
#include <arpa/inet.h>
#include <errno.h>
#include <netdb.h>
#include <netinet/in.h>
#include <sys/ioctl.h>
#include <sys/socket.h>
#include <sys/types.h>
#include <unistd.h>
#ifdef MACOS_X
#include <sys/sockio.h>
#include <net/if.h>
#include <net/if_types.h>
#include <net/if_dl.h> // for 'struct sockaddr_dl'
#endif
#ifdef __sun
#include <sys/filio.h>
#endif
typedef int SOCKET;
static const SOCKET INVALID_SOCKET = -1;
#define SOCKET_ERROR -1
#define closesocket close
#define ioctlsocket ioctl
#define socketError errno
#endif
static qboolean usingSocks = qfalse;
static qboolean networkingEnabled = qfalse;
static cvar_t* net_noudp;
static cvar_t* net_socksEnabled;
static cvar_t* net_socksServer;
static cvar_t* net_socksPort;
static cvar_t* net_socksUsername;
static cvar_t* net_socksPassword;
static struct sockaddr socksRelayAddr;
static SOCKET ip_socket = INVALID_SOCKET;
static SOCKET socks_socket = INVALID_SOCKET;
#define MAX_IPS 16
static int numIP;
static byte localIP[MAX_IPS][4];
///////////////////////////////////////////////////////////////
static const char* NET_ErrorString()
{
#ifdef _WIN32
//FIXME: replace with FormatMessage?
#define WSA_ERR2STR(x) case x: return #x;
switch ( socketError ) {
WSA_ERR2STR( WSAEINTR );
WSA_ERR2STR( WSAEBADF );
WSA_ERR2STR( WSAEACCES );
WSA_ERR2STR( WSAEDISCON );
WSA_ERR2STR( WSAEFAULT );
WSA_ERR2STR( WSAEINVAL );
WSA_ERR2STR( WSAEMFILE );
WSA_ERR2STR( WSAEWOULDBLOCK );
WSA_ERR2STR( WSAEINPROGRESS );
WSA_ERR2STR( WSAEALREADY );
WSA_ERR2STR( WSAENOTSOCK );
WSA_ERR2STR( WSAEDESTADDRREQ );
WSA_ERR2STR( WSAEMSGSIZE );
WSA_ERR2STR( WSAEPROTOTYPE );
WSA_ERR2STR( WSAENOPROTOOPT );
WSA_ERR2STR( WSAEPROTONOSUPPORT );
WSA_ERR2STR( WSAESOCKTNOSUPPORT );
WSA_ERR2STR( WSAEOPNOTSUPP );
WSA_ERR2STR( WSAEPFNOSUPPORT );
WSA_ERR2STR( WSAEAFNOSUPPORT );
WSA_ERR2STR( WSAEADDRINUSE );
WSA_ERR2STR( WSAEADDRNOTAVAIL );
WSA_ERR2STR( WSAENETDOWN );
WSA_ERR2STR( WSAENETUNREACH );
WSA_ERR2STR( WSAENETRESET );
WSA_ERR2STR( WSAECONNABORTED );
WSA_ERR2STR( WSAECONNRESET );
WSA_ERR2STR( WSAENOBUFS );
WSA_ERR2STR( WSAEISCONN );
WSA_ERR2STR( WSAENOTCONN );
WSA_ERR2STR( WSAESHUTDOWN );
WSA_ERR2STR( WSAETOOMANYREFS );
WSA_ERR2STR( WSAETIMEDOUT );
WSA_ERR2STR( WSAECONNREFUSED );
WSA_ERR2STR( WSAELOOP );
WSA_ERR2STR( WSAENAMETOOLONG );
WSA_ERR2STR( WSAEHOSTDOWN );
WSA_ERR2STR( WSASYSNOTREADY );
WSA_ERR2STR( WSAVERNOTSUPPORTED );
WSA_ERR2STR( WSANOTINITIALISED );
WSA_ERR2STR( WSAHOST_NOT_FOUND );
WSA_ERR2STR( WSATRY_AGAIN );
WSA_ERR2STR( WSANO_RECOVERY );
WSA_ERR2STR( WSANO_DATA );
default: return "UNKNOWN ERROR";
}
#undef WSA_ERR2STR
#else
return strerror( errno );
#endif
}
static void NetadrToSockadr( const netadr_t* a, struct sockaddr* s )
{
memset( s, 0, sizeof(*s) );
if( a->type == NA_BROADCAST ) {
((struct sockaddr_in *)s)->sin_family = AF_INET;
((struct sockaddr_in *)s)->sin_port = a->port;
((struct sockaddr_in *)s)->sin_addr.s_addr = INADDR_BROADCAST;
}
else if( a->type == NA_IP ) {
((struct sockaddr_in *)s)->sin_family = AF_INET;
((struct sockaddr_in *)s)->sin_addr.s_addr = *(int *)&a->ip;
((struct sockaddr_in *)s)->sin_port = a->port;
}
}
static void SockadrToNetadr( const struct sockaddr* s, netadr_t* a )
{
if (s->sa_family == AF_INET) {
a->type = NA_IP;
*(int *)&a->ip = ((struct sockaddr_in *)s)->sin_addr.s_addr;
a->port = ((struct sockaddr_in *)s)->sin_port;
}
}
static qbool Sys_StringToSockaddr( const char *s, struct sockaddr *sadr )
{
memset( sadr, 0, sizeof( *sadr ) );
((struct sockaddr_in *)sadr)->sin_family = AF_INET;
((struct sockaddr_in *)sadr)->sin_port = 0;
if( s[0] >= '0' && s[0] <= '9' ) {
*(int *)&((struct sockaddr_in *)sadr)->sin_addr = inet_addr(s);
} else {
struct hostent* h;
if( ( h = gethostbyname( s ) ) == 0 ) {
return 0;
}
*(int *)&((struct sockaddr_in *)sadr)->sin_addr = *(int *)h->h_addr_list[0];
}
return qtrue;
}
qbool Sys_StringToAdr( const char *s, netadr_t *a )
{
struct sockaddr sadr;
if ( !Sys_StringToSockaddr( s, &sadr ) ) {
return qfalse;
}
SockadrToNetadr( &sadr, a );
return qtrue;
}
///////////////////////////////////////////////////////////////
// never called by the game logic, just the system event queing
#ifdef _DEBUG
static int recvfromCount;
#endif
qbool Sys_GetPacket( netadr_t* net_from, msg_t* net_message )
{
if (ip_socket == INVALID_SOCKET)
return qfalse;
#ifdef _DEBUG
++recvfromCount;
#endif
struct sockaddr from;
socklen_t fromlen = sizeof(from);
int ret = recvfrom( ip_socket, (char*)net_message->data, net_message->maxsize, 0, (struct sockaddr *)&from, &fromlen );
if (ret == SOCKET_ERROR) {
int err = socketError;
#ifdef _WIN32
if (err == EAGAIN || err == ECONNRESET || err == WSAEWOULDBLOCK)
#else
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if (err == EAGAIN || err == ECONNRESET)
#endif
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return qfalse;
Com_Printf( "NET_GetPacket: %s\n", NET_ErrorString() );
return qfalse;
}
memset( ((struct sockaddr_in *)&from)->sin_zero, 0, 8 );
if ( usingSocks && memcmp( &from, &socksRelayAddr, fromlen ) == 0 ) {
if ( ret < 10 || net_message->data[0] != 0 || net_message->data[1] != 0 || net_message->data[2] != 0 || net_message->data[3] != 1 ) {
return qfalse;
}
net_from->type = NA_IP;
net_from->ip[0] = net_message->data[4];
net_from->ip[1] = net_message->data[5];
net_from->ip[2] = net_message->data[6];
net_from->ip[3] = net_message->data[7];
net_from->port = *(short *)&net_message->data[8];
net_message->readcount = 10;
}
else {
SockadrToNetadr( &from, net_from );
net_message->readcount = 0;
}
if( ret == net_message->maxsize ) {
Com_Printf( "Oversize packet from %s\n", NET_AdrToString (*net_from) );
return qfalse;
}
net_message->cursize = ret;
return qtrue;
}
void Sys_SendPacket( int length, const void* data, netadr_t to )
{
static char socksBuf[4096];
int ret;
if( to.type != NA_BROADCAST && to.type != NA_IP ) {
Com_Error( ERR_FATAL, "Sys_SendPacket: bad address type" );
return;
}
if (ip_socket == INVALID_SOCKET)
return;
struct sockaddr addr;
NetadrToSockadr( &to, &addr );
if( usingSocks && to.type == NA_IP ) {
socksBuf[0] = 0; // reserved
socksBuf[1] = 0;
socksBuf[2] = 0; // fragment (not fragmented)
socksBuf[3] = 1; // address type: IPV4
*(int *)&socksBuf[4] = ((struct sockaddr_in *)&addr)->sin_addr.s_addr;
*(short *)&socksBuf[8] = ((struct sockaddr_in *)&addr)->sin_port;
memcpy( &socksBuf[10], data, length );
ret = sendto( ip_socket, socksBuf, length+10, 0, &socksRelayAddr, sizeof(socksRelayAddr) );
}
else {
ret = sendto( ip_socket, (const char*)data, length, 0, &addr, sizeof(addr) );
}
if (ret == SOCKET_ERROR) {
int err = socketError;
// wouldblock is silent
if( err == EAGAIN ) {
return;
}
// some PPP links do not allow broadcasts and return an error
if( ( err == EADDRNOTAVAIL ) && ( ( to.type == NA_BROADCAST ) ) ) {
return;
}
Com_Printf( "NET_SendPacket: %s\n", NET_ErrorString() );
}
}
///////////////////////////////////////////////////////////////
// LAN clients will have their rate var ignored
qbool Sys_IsLANAddress( const netadr_t& adr )
{
int i;
if (adr.type == NA_LOOPBACK)
return qtrue;
if (adr.type != NA_IP)
return qfalse;
// RFC1918:
// 10.0.0.0 - 10.255.255.255 (10/8 prefix)
// 172.16.0.0 - 172.31.255.255 (172.16/12 prefix)
// 192.168.0.0 - 192.168.255.255 (192.168/16 prefix)
if(adr.ip[0] == 10)
return qtrue;
if(adr.ip[0] == 172 && (adr.ip[1]&0xf0) == 16)
return qtrue;
if(adr.ip[0] == 192 && adr.ip[1] == 168)
return qtrue;
// choose which comparison to use based on the class of the address being tested
// any local adresses of a different class than the address being tested will fail based on the first byte
// FIXME tma 28/08/07 Try and make this work for arbitrary subnet masks somehow
if( adr.ip[0] == 127 && adr.ip[1] == 0 && adr.ip[2] == 0 && adr.ip[3] == 1 ) {
return qtrue;
}
// Class A
if( (adr.ip[0] & 0x80) == 0x00 ) {
for ( i = 0 ; i < numIP ; i++ ) {
if( adr.ip[0] == localIP[i][0] ) {
return qtrue;
}
}
return qfalse;
}
// Class B
if( (adr.ip[0] & 0xc0) == 0x80 ) {
for ( i = 0 ; i < numIP ; i++ ) {
if( adr.ip[0] == localIP[i][0] && adr.ip[1] == localIP[i][1] ) {
return qtrue;
}
}
return qfalse;
}
// Class C
for ( i = 0 ; i < numIP ; i++ ) {
if( adr.ip[0] == localIP[i][0] && adr.ip[1] == localIP[i][1] && adr.ip[2] == localIP[i][2] ) {
return qtrue;
}
}
return qfalse;
}
void Sys_ShowIP()
{
for (int i = 0; i < numIP; ++i) {
Com_Printf( "IP: %i.%i.%i.%i\n", localIP[i][0], localIP[i][1], localIP[i][2], localIP[i][3] );
}
}
///////////////////////////////////////////////////////////////
static SOCKET NET_IPSocket( const char* net_interface, int port )
{
SOCKET newsocket;
struct sockaddr_in address;
Com_Printf( "Opening IP socket: %s:%i\n", net_interface ? net_interface : "localhost", port );
if( ( newsocket = socket( AF_INET, SOCK_DGRAM, IPPROTO_UDP ) ) == INVALID_SOCKET ) {
int err = socketError;
if (err != EAFNOSUPPORT) {
Com_Printf( "WARNING: NET_IPSocket: socket: %s\n", NET_ErrorString() );
}
return INVALID_SOCKET;
}
// make it non-blocking
qboolean uglyapi = qtrue;
if( ioctlsocket( newsocket, FIONBIO, (u_long*)&uglyapi ) == SOCKET_ERROR ) {
Com_Printf( "WARNING: NET_IPSocket: ioctl FIONBIO: %s\n", NET_ErrorString() );
return INVALID_SOCKET;
}
// make it broadcast capable (note: winsock has the wrong prototype for the
if( setsockopt( newsocket, SOL_SOCKET, SO_BROADCAST, (const char*)&uglyapi, sizeof(uglyapi) ) == SOCKET_ERROR ) {
Com_Printf( "WARNING: NET_IPSocket: setsockopt SO_BROADCAST: %s\n", NET_ErrorString() );
return INVALID_SOCKET;
}
if( !net_interface || !net_interface[0] || !Q_stricmp(net_interface, "localhost") ) {
address.sin_addr.s_addr = INADDR_ANY;
}
else {
Sys_StringToSockaddr( net_interface, (struct sockaddr *)&address );
}
address.sin_port = (port == PORT_ANY) ? 0 : htons( (unsigned short)port );
address.sin_family = AF_INET;
if( bind( newsocket, (const sockaddr*)&address, sizeof(address) ) == SOCKET_ERROR ) {
Com_Printf( "WARNING: NET_IPSocket: bind: %s\n", NET_ErrorString() );
closesocket( newsocket );
return INVALID_SOCKET;
}
return newsocket;
}
static void NET_OpenSocks( int port )
{
const int SOCKS_VERSION = 5;
struct sockaddr_in address;
int err;
struct hostent *h;
int len;
unsigned char buf[64];
usingSocks = qfalse;
Com_Printf( "Opening connection to SOCKS server.\n" );
if ( ( socks_socket = socket( AF_INET, SOCK_STREAM, IPPROTO_TCP ) ) == INVALID_SOCKET ) {
err = socketError;
Com_Printf( "WARNING: NET_OpenSocks: socket: %s\n", NET_ErrorString() );
return;
}
h = gethostbyname( net_socksServer->string );
if ( h == NULL ) {
err = socketError;
Com_Printf( "WARNING: NET_OpenSocks: gethostbyname: %s\n", NET_ErrorString() );
return;
}
if ( h->h_addrtype != AF_INET ) {
Com_Printf( "WARNING: NET_OpenSocks: gethostbyname: address type was not AF_INET\n" );
return;
}
address.sin_family = AF_INET;
address.sin_addr.s_addr = *(int *)h->h_addr_list[0];
address.sin_port = htons( (short)net_socksPort->integer );
if ( connect( socks_socket, (struct sockaddr *)&address, sizeof( address ) ) == SOCKET_ERROR ) {
err = socketError;
Com_Printf( "NET_OpenSocks: connect: %s\n", NET_ErrorString() );
return;
}
// send socks authentication handshake
qbool rfc1929 = (*net_socksUsername->string || *net_socksPassword->string);
buf[0] = SOCKS_VERSION;
// method count
if ( rfc1929 ) {
buf[1] = 2;
len = 4;
}
else {
buf[1] = 1;
len = 3;
}
buf[2] = 0; // method #1 - method id #00: no authentication
if ( rfc1929 ) {
buf[2] = 2; // method #2 - method id #02: username/password
}
if ( send( socks_socket, (const char*)buf, len, 0 ) == SOCKET_ERROR ) {
err = socketError;
Com_Printf( "NET_OpenSocks: send: %s\n", NET_ErrorString() );
return;
}
// get the response
len = recv( socks_socket, (char*)buf, 64, 0 );
if ( len == SOCKET_ERROR ) {
err = socketError;
Com_Printf( "NET_OpenSocks: recv: %s\n", NET_ErrorString() );
return;
}
if ( len != 2 || buf[0] != SOCKS_VERSION ) {
Com_Printf( "NET_OpenSocks: bad response\n" );
return;
}
switch( buf[1] ) {
case 0: // no authentication
break;
case 2: // username/password authentication
break;
default:
Com_Printf( "NET_OpenSocks: request denied\n" );
return;
}
// do username/password authentication if needed
if ( buf[1] == 2 ) {
// build the request
int ulen = strlen( net_socksUsername->string );
int plen = strlen( net_socksPassword->string );
buf[0] = 1; // username/password authentication version
buf[1] = ulen;
if ( ulen ) {
memcpy( &buf[2], net_socksUsername->string, ulen );
}
buf[2 + ulen] = plen;
if ( plen ) {
memcpy( &buf[3 + ulen], net_socksPassword->string, plen );
}
// send it
if ( send( socks_socket, (const char*)buf, 3 + ulen + plen, 0 ) == SOCKET_ERROR ) {
err = socketError;
Com_Printf( "NET_OpenSocks: send: %s\n", NET_ErrorString() );
return;
}
// get the response
len = recv( socks_socket, (char*)buf, 64, 0 );
if ( len == SOCKET_ERROR ) {
err = socketError;
Com_Printf( "NET_OpenSocks: recv: %s\n", NET_ErrorString() );
return;
}
if ( len != 2 || buf[0] != 1 ) {
Com_Printf( "NET_OpenSocks: bad response\n" );
return;
}
if ( buf[1] != 0 ) {
Com_Printf( "NET_OpenSocks: authentication failed\n" );
return;
}
}
// send the UDP associate request
buf[0] = SOCKS_VERSION;
buf[1] = 3; // command: UDP associate
buf[2] = 0; // reserved
buf[3] = 1; // address type: IPV4
*(int *)&buf[4] = INADDR_ANY;
*(short *)&buf[8] = htons( (short)port ); // port
if ( send( socks_socket, (const char*)buf, 10, 0 ) == SOCKET_ERROR ) {
err = socketError;
Com_Printf( "NET_OpenSocks: send: %s\n", NET_ErrorString() );
return;
}
// get the response
len = recv( socks_socket, (char*)buf, 64, 0 );
if( len == SOCKET_ERROR ) {
err = socketError;
Com_Printf( "NET_OpenSocks: recv: %s\n", NET_ErrorString() );
return;
}
if( len < 2 || buf[0] != SOCKS_VERSION ) {
Com_Printf( "NET_OpenSocks: bad response\n" );
return;
}
// check completion code
if( buf[1] != 0 ) {
Com_Printf( "NET_OpenSocks: request denied: %i\n", buf[1] );
return;
}
if( buf[3] != 1 ) {
Com_Printf( "NET_OpenSocks: relay address is not IPV4: %i\n", buf[3] );
return;
}
((struct sockaddr_in *)&socksRelayAddr)->sin_family = AF_INET;
((struct sockaddr_in *)&socksRelayAddr)->sin_addr.s_addr = *(int *)&buf[4];
((struct sockaddr_in *)&socksRelayAddr)->sin_port = *(short *)&buf[8];
memset( ((struct sockaddr_in *)&socksRelayAddr)->sin_zero, 0, 8 );
usingSocks = qtrue;
}
#ifdef MACOS_X
// Don't do a forward mapping from the hostname of the machine to the IP.
// The reason is that we might have obtained an IP address from DHCP and
// there might not be any name registered for the machine. On Mac OS X,
// the machine name defaults to 'localhost' and NetInfo has 127.0.0.1
// listed for this name. Instead, we want to get a list of all the IP
// network interfaces on the machine. This code adapted from OmniNetworking.
#ifdef _SIZEOF_ADDR_IFREQ
// tjw: OSX 10.4 does not have sa_len
#define IFR_NEXT(ifr) \
((struct ifreq *) ((char *) ifr + _SIZEOF_ADDR_IFREQ(*ifr)))
#else
// tjw: assume that once upon a time some version did have sa_len
#define IFR_NEXT(ifr) \
((struct ifreq *) ((char *) (ifr) + sizeof(*(ifr)) + \
MAX(0, (int) (ifr)->ifr_addr.sa_len - (int) sizeof((ifr)->ifr_addr))))
#endif
static void NET_GetLocalAddress()
{
struct ifreq requestBuffer[MAX_IPS], *linkInterface, *inetInterface;
struct ifconf ifc;
struct ifreq ifr;
struct sockaddr_dl *sdl;
int interfaceSocket;
int family;
// Set this early so we can just return if there is an error
numIP = 0;
ifc.ifc_len = sizeof(requestBuffer);
ifc.ifc_buf = (caddr_t)requestBuffer;
// Since we get at this info via an ioctl, we need a temporary little socket.
// This will only get AF_INET interfaces, but we probably don't care about
// anything else. If we do end up caring later, we should add a
// ONAddressFamily and at a -interfaces method to it.
family = AF_INET;
if ((interfaceSocket = socket(family, SOCK_DGRAM, 0)) < 0) {
Com_Printf("NET_GetLocalAddress: Unable to create temporary socket, errno = %d\n", errno);
return;
}
if (ioctl(interfaceSocket, SIOCGIFCONF, &ifc) != 0) {
Com_Printf("NET_GetLocalAddress: Unable to get list of network interfaces, errno = %d\n", errno);
return;
}
linkInterface = (struct ifreq *) ifc.ifc_buf;
while ((char *) linkInterface < &ifc.ifc_buf[ifc.ifc_len]) {
unsigned int nameLength;
// The ioctl returns both the entries having the address (AF_INET)
// and the link layer entries (AF_LINK). The AF_LINK entry has the
// link layer address which contains the interface type. This is the
// only way I can see to get this information. We cannot assume that
// we will get bot an AF_LINK and AF_INET entry since the interface
// may not be configured. For example, if you have a 10Mb port on
// the motherboard and a 100Mb card, you may not configure the
// motherboard port.
// For each AF_LINK entry...
if (linkInterface->ifr_addr.sa_family == AF_LINK) {
// if there is a matching AF_INET entry
inetInterface = (struct ifreq *) ifc.ifc_buf;
while ((char *) inetInterface < &ifc.ifc_buf[ifc.ifc_len]) {
if (inetInterface->ifr_addr.sa_family == AF_INET &&
!strncmp(inetInterface->ifr_name, linkInterface->ifr_name,
sizeof(linkInterface->ifr_name))) {
for (nameLength = 0; nameLength < IFNAMSIZ; nameLength++)
if (!linkInterface->ifr_name[nameLength])
break;
sdl = (struct sockaddr_dl *)&linkInterface->ifr_addr;
// Skip loopback interfaces
if (sdl->sdl_type != IFT_LOOP) {
// Get the local interface address
strncpy(ifr.ifr_name, inetInterface->ifr_name, sizeof(ifr.ifr_name));
if (ioctl(interfaceSocket, OSIOCGIFADDR, (caddr_t)&ifr) < 0) {
Com_Printf("NET_GetLocalAddress: Unable to get local address "
"for interface '%s', errno = %d\n", inetInterface->ifr_name, errno);
} else {
struct sockaddr_in *sin;
int ip;
sin = (struct sockaddr_in *)&ifr.ifr_addr;
ip = ntohl(sin->sin_addr.s_addr);
localIP[ numIP ][0] = (ip >> 24) & 0xff;
localIP[ numIP ][1] = (ip >> 16) & 0xff;
localIP[ numIP ][2] = (ip >> 8) & 0xff;
localIP[ numIP ][3] = (ip >> 0) & 0xff;
Com_Printf( "IP: %i.%i.%i.%i (%s)\n",
localIP[ numIP ][0], localIP[ numIP ][1],
localIP[ numIP ][2], localIP[ numIP ][3],
inetInterface->ifr_name);
numIP++;
}
}
// We will assume that there is only one AF_INET entry per AF_LINK entry.
// What happens when we have an interface that has multiple IP addresses, or
// can that even happen?
// break;
}
inetInterface = IFR_NEXT(inetInterface);
}
}
linkInterface = IFR_NEXT(linkInterface);
}
close(interfaceSocket);
}
#else
static void NET_GetLocalAddress()
{
int error;
const char* p;
char hostname[256];
if (gethostname( hostname, 256 ) == SOCKET_ERROR) {
error = socketError;
return;
}
const struct hostent* hostInfo = gethostbyname( hostname );
if (!hostInfo) {
error = socketError;
return;
}
Com_Printf( "Hostname: %s\n", hostInfo->h_name );
for (int n = 0; (p = hostInfo->h_aliases[n]); ++n) {
Com_Printf( "Alias: %s\n", p );
}
if (hostInfo->h_addrtype != AF_INET)
return;
numIP = 0;
while ((p = hostInfo->h_addr_list[numIP]) && (numIP < MAX_IPS)) {
int ip = ntohl( *(const int*)p );
localIP[ numIP ][0] = p[0];
localIP[ numIP ][1] = p[1];
localIP[ numIP ][2] = p[2];
localIP[ numIP ][3] = p[3];
Com_Printf( "IP: %i.%i.%i.%i\n", ( ip >> 24 ) & 0xff, ( ip >> 16 ) & 0xff, ( ip >> 8 ) & 0xff, ip & 0xff );
++numIP;
}
}
#endif
static void NET_OpenIP()
{
const cvar_t* ip = Cvar_Get( "net_ip", "localhost", CVAR_LATCH );
int port = Cvar_Get( "net_port", va( "%i", PORT_SERVER ), CVAR_LATCH )->integer;
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Cvar_SetRange( "net_port", CVART_INTEGER, "0", "65535" );
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// automatically scan for a valid port, so multiple
// dedicated servers can be started without requiring
// a different net_port for each one
for (int i = 0; i < 10; ++i) {
ip_socket = NET_IPSocket( ip->string, port + i );
if (ip_socket != INVALID_SOCKET) {
Cvar_SetValue( "net_port", port + i );
if ( net_socksEnabled->integer ) {
NET_OpenSocks( port + i );
}
NET_GetLocalAddress();
return;
}
}
Com_Printf( "WARNING: Couldn't allocate IP port\n");
}
///////////////////////////////////////////////////////////////
static qboolean NET_GetCvars()
{
qboolean modified = qfalse;
if (net_noudp && net_noudp->modified)
modified = qtrue;
net_noudp = Cvar_Get( "net_noudp", "0", CVAR_LATCH | CVAR_ARCHIVE );
Cvar_SetRange( "net_noudp", CVART_BOOL, NULL, NULL );
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if (net_socksEnabled && net_socksEnabled->modified)
modified = qtrue;
net_socksEnabled = Cvar_Get( "net_socksEnabled", "0", CVAR_LATCH | CVAR_ARCHIVE );
Cvar_SetRange( "net_socksEnabled", CVART_BOOL, NULL, NULL );
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if (net_socksEnabled->integer) {
if (net_socksServer && net_socksServer->modified)
modified = qtrue;
net_socksServer = Cvar_Get( "net_socksServer", "", CVAR_LATCH | CVAR_ARCHIVE );
if (net_socksPort && net_socksPort->modified)
modified = qtrue;
net_socksPort = Cvar_Get( "net_socksPort", "1080", CVAR_LATCH | CVAR_ARCHIVE );
Cvar_SetRange( "net_socksPort", CVART_INTEGER, "0", "65535" );
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if (net_socksUsername && net_socksUsername->modified)
modified = qtrue;
net_socksUsername = Cvar_Get( "net_socksUsername", "", CVAR_LATCH | CVAR_ARCHIVE );
if (net_socksPassword && net_socksPassword->modified)
modified = qtrue;
net_socksPassword = Cvar_Get( "net_socksPassword", "", CVAR_LATCH | CVAR_ARCHIVE );
}
return modified;
}
static void NET_Config( qboolean enableNetworking )
{
// get any latched changes to cvars
qboolean modified = NET_GetCvars();
if (net_noudp->integer)
enableNetworking = qfalse;
// if enable state is the same and no cvars were modified, we have nothing to do
if ((enableNetworking == networkingEnabled) && !modified)
return;
qboolean stop;
if (enableNetworking == networkingEnabled) {
stop = enableNetworking;
}
else {
stop = !enableNetworking;
networkingEnabled = enableNetworking;
}
if (stop) {
if (ip_socket != INVALID_SOCKET) {
closesocket( ip_socket );
ip_socket = INVALID_SOCKET;
}
if (socks_socket != INVALID_SOCKET) {
closesocket( socks_socket );
socks_socket = INVALID_SOCKET;
}
}
if (enableNetworking && !net_noudp->integer) {
NET_OpenIP();
}
}
void NET_Init()
{
QSUBSYSTEM_INIT_START( "Networking" );
#ifdef _WIN32
int r = WSAStartup( MAKEWORD( 1, 1 ), &winsockdata );
if (r) {
Com_Printf( "WARNING: Winsock initialization failed, returned %d\n", r );
return;
}
Com_Printf( "Winsock Initialized\n" );
#endif
// this is really just to get the cvars registered
NET_GetCvars();
NET_Config( qtrue );
QSUBSYSTEM_INIT_DONE( "Networking" );
}
void NET_Shutdown()
{
if (!networkingEnabled)
return;
NET_Config( qfalse );
#ifdef _WIN32
WSACleanup();
#endif
}
// sleeps msec or until something happens on the network
void NET_Sleep( int msec )
{
struct timeval timeout;
fd_set fdset;
if (!com_dedicated->integer)
return; // we're not a server, just run full speed
if (ip_socket == INVALID_SOCKET)
return;
if (msec < 0)
return;
FD_ZERO(&fdset);
FD_SET(ip_socket, &fdset);
timeout.tv_sec = msec/1000;
timeout.tv_usec = (msec%1000)*1000;
select(ip_socket+1, &fdset, NULL, NULL, &timeout);
}
void NET_Restart()
{
NET_Config( networkingEnabled );
}