Xash3D FWGS engine.
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/*
net_ws.c - win network interface
Copyright (C) 2007 Uncle Mike
This program 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 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 General Public License for more details.
*/
#include "common.h"
#include "client.h" // ConnectionProgress
#include "netchan.h"
#include "xash3d_mathlib.h"
#include "ipv6text.h"
#if XASH_WIN32
#include "platform/win32/net.h"
#elif defined XASH_NO_NETWORK
#include "platform/stub/net_stub.h"
#else
#include "platform/posix/net.h"
#endif
#if XASH_PSVITA
#include "platform/psvita/net_psvita.h"
static const struct in6_addr in6addr_any;
#endif
#define NET_USE_FRAGMENTS
#define PORT_ANY -1
#define MAX_LOOPBACK 4
#define MASK_LOOPBACK (MAX_LOOPBACK - 1)
#define MAX_ROUTEABLE_PACKET 1400
#define SPLITPACKET_MIN_SIZE 508 // RFC 791: 576(min ip packet) - 60 (ip header) - 8 (udp header)
#define SPLITPACKET_MAX_SIZE 64000
#define NET_MAX_FRAGMENTS ( NET_MAX_FRAGMENT / (SPLITPACKET_MIN_SIZE - sizeof( SPLITPACKET )))
// ff02:1
static const uint8_t k_ipv6Bytes_LinkLocalAllNodes[16] =
{ 0xff, 0x02, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x01 };
typedef struct
{
byte data[NET_MAX_MESSAGE];
int datalen;
} net_loopmsg_t;
typedef struct
{
net_loopmsg_t msgs[MAX_LOOPBACK];
int get, send;
} net_loopback_t;
typedef struct packetlag_s
{
byte *data; // Raw stream data is stored.
int size;
netadr_t from;
float receivedtime;
struct packetlag_s *next;
struct packetlag_s *prev;
} packetlag_t;
// split long packets. Anything over 1460 is failing on some routers.
typedef struct
{
int current_sequence;
int split_count;
int total_size;
char buffer[NET_MAX_FRAGMENT];
} LONGPACKET;
// use this to pick apart the network stream, must be packed
#pragma pack(push, 1)
typedef struct
{
int net_id;
int sequence_number;
short packet_id;
} SPLITPACKET;
#pragma pack(pop)
typedef struct
{
net_loopback_t loopbacks[NS_COUNT];
packetlag_t lagdata[NS_COUNT];
int losscount[NS_COUNT];
float fakelag; // cached fakelag value
LONGPACKET split;
int split_flags[NET_MAX_FRAGMENTS];
int sequence_number;
int ip_sockets[NS_COUNT];
int ip6_sockets[NS_COUNT];
qboolean initialized;
qboolean threads_initialized;
qboolean configured;
qboolean allow_ip;
qboolean allow_ip6;
#if XASH_WIN32
WSADATA winsockdata;
#endif
} net_state_t;
static net_state_t net;
static CVAR_DEFINE_AUTO( net_address, "0", FCVAR_PRIVILEGED|FCVAR_READ_ONLY, "contain local address of current client" );
static CVAR_DEFINE( net_ipname, "ip", "localhost", FCVAR_PRIVILEGED, "network ip address" );
static CVAR_DEFINE( net_iphostport, "ip_hostport", "0", FCVAR_READ_ONLY, "network ip host port" );
static CVAR_DEFINE( net_hostport, "hostport", "0", FCVAR_READ_ONLY, "network default host port" );
static CVAR_DEFINE( net_ipclientport, "ip_clientport", "0", FCVAR_READ_ONLY, "network ip client port" );
static CVAR_DEFINE( net_clientport, "clientport", "0", FCVAR_READ_ONLY, "network default client port" );
static CVAR_DEFINE( net_fakelag, "fakelag", "0", FCVAR_PRIVILEGED, "lag all incoming network data (including loopback) by xxx ms." );
static CVAR_DEFINE( net_fakeloss, "fakeloss", "0", FCVAR_PRIVILEGED, "act like we dropped the packet this % of the time." );
CVAR_DEFINE( net_clockwindow, "clockwindow", "0.5", FCVAR_PRIVILEGED, "timewindow to execute client moves" );
netadr_t net_local;
netadr_t net6_local;
// cvars equivalents for IPv6
static CVAR_DEFINE( net_ip6name, "ip6", "localhost", FCVAR_PRIVILEGED, "network ip6 address" );
static CVAR_DEFINE( net_ip6hostport, "ip6_hostport", "0", FCVAR_READ_ONLY, "network ip6 host port" );
static CVAR_DEFINE( net_ip6clientport, "ip6_clientport", "0", FCVAR_READ_ONLY, "network ip6 client port" );
static CVAR_DEFINE_AUTO( net6_address, "0", FCVAR_PRIVILEGED|FCVAR_READ_ONLY, "contain local IPv6 address of current client" );
/*
====================
NET_ErrorString
====================
*/
char *NET_ErrorString( void )
{
#if XASH_WIN32
int err = WSANOTINITIALISED;
if( net.initialized )
err = WSAGetLastError();
switch( err )
{
case WSAEINTR: return "WSAEINTR";
case WSAEBADF: return "WSAEBADF";
case WSAEACCES: return "WSAEACCES";
case WSAEFAULT: return "WSAEFAULT";
case WSAEINVAL: return "WSAEINVAL";
case WSAEMFILE: return "WSAEMFILE";
case WSAEWOULDBLOCK: return "WSAEWOULDBLOCK";
case WSAEINPROGRESS: return "WSAEINPROGRESS";
case WSAEALREADY: return "WSAEALREADY";
case WSAENOTSOCK: return "WSAENOTSOCK";
case WSAEDESTADDRREQ: return "WSAEDESTADDRREQ";
case WSAEMSGSIZE: return "WSAEMSGSIZE";
case WSAEPROTOTYPE: return "WSAEPROTOTYPE";
case WSAENOPROTOOPT: return "WSAENOPROTOOPT";
case WSAEPROTONOSUPPORT: return "WSAEPROTONOSUPPORT";
case WSAESOCKTNOSUPPORT: return "WSAESOCKTNOSUPPORT";
case WSAEOPNOTSUPP: return "WSAEOPNOTSUPP";
case WSAEPFNOSUPPORT: return "WSAEPFNOSUPPORT";
case WSAEAFNOSUPPORT: return "WSAEAFNOSUPPORT";
case WSAEADDRINUSE: return "WSAEADDRINUSE";
case WSAEADDRNOTAVAIL: return "WSAEADDRNOTAVAIL";
case WSAENETDOWN: return "WSAENETDOWN";
case WSAENETUNREACH: return "WSAENETUNREACH";
case WSAENETRESET: return "WSAENETRESET";
case WSAECONNABORTED: return "WSWSAECONNABORTEDAEINTR";
case WSAECONNRESET: return "WSAECONNRESET";
case WSAENOBUFS: return "WSAENOBUFS";
case WSAEISCONN: return "WSAEISCONN";
case WSAENOTCONN: return "WSAENOTCONN";
case WSAESHUTDOWN: return "WSAESHUTDOWN";
case WSAETOOMANYREFS: return "WSAETOOMANYREFS";
case WSAETIMEDOUT: return "WSAETIMEDOUT";
case WSAECONNREFUSED: return "WSAECONNREFUSED";
case WSAELOOP: return "WSAELOOP";
case WSAENAMETOOLONG: return "WSAENAMETOOLONG";
case WSAEHOSTDOWN: return "WSAEHOSTDOWN";
case WSAEDISCON: return "WSAEDISCON";
case WSASYSNOTREADY: return "WSASYSNOTREADY";
case WSAVERNOTSUPPORTED: return "WSAVERNOTSUPPORTED";
case WSANOTINITIALISED: return "WSANOTINITIALISED";
case WSAHOST_NOT_FOUND: return "WSAHOST_NOT_FOUND";
case WSATRY_AGAIN: return "WSATRY_AGAIN";
case WSANO_RECOVERY: return "WSANO_RECOVERY";
case WSANO_DATA: return "WSANO_DATA";
default: return "NO ERROR";
}
#else
return strerror( errno );
#endif
}
_inline socklen_t NET_SockAddrLen( const struct sockaddr_storage *addr )
{
switch ( addr->ss_family )
{
case AF_INET:
return sizeof( struct sockaddr_in );
case AF_INET6:
return sizeof( struct sockaddr_in6 );
default:
return sizeof( *addr ); // what the fuck is this?
}
}
_inline qboolean NET_IsSocketError( int retval )
{
#if XASH_WIN32 || XASH_DOS4GW
return retval == SOCKET_ERROR ? true : false;
#else
return retval < 0 ? true : false;
#endif
}
_inline qboolean NET_IsSocketValid( int socket )
{
#if XASH_WIN32 || XASH_DOS4GW
return socket != INVALID_SOCKET;
#else
return socket >= 0;
#endif
}
void NET_NetadrToIP6Bytes( uint8_t *ip6, const netadr_t *adr )
{
#if XASH_LITTLE_ENDIAN
memcpy( ip6, adr->ip6, sizeof( adr->ip6 ));
#elif XASH_BIG_ENDIAN
memcpy( ip6, adr->ip6_0, sizeof( adr->ip6_0 ));
memcpy( ip6 + sizeof( adr->ip6_0 ), adr->ip6_2, sizeof( adr->ip6_2 ));
#endif
}
void NET_IP6BytesToNetadr( netadr_t *adr, const uint8_t *ip6 )
{
#if XASH_LITTLE_ENDIAN
memcpy( adr->ip6, ip6, sizeof( adr->ip6 ));
#elif XASH_BIG_ENDIAN
memcpy( adr->ip6_0, ip6, sizeof( adr->ip6_0 ));
memcpy( adr->ip6_2, ip6 + sizeof( adr->ip6_0 ), sizeof( adr->ip6_2 ));
#endif
}
_inline int NET_NetadrIP6Compare( const netadr_t *a, const netadr_t *b )
{
#if XASH_LITTLE_ENDIAN
return memcmp( a->ip6, b->ip6, sizeof( a->ip6 ));
#elif XASH_BIG_ENDIAN
int ret = memcmp( a->ip6_0, b->ip6_0, sizeof( a->ip6_0 ));
if( !ret )
return memcmp( a->ip6_2, b->ip6_2, sizeof( a->ip6_2 ));
return ret;
#endif
}
/*
====================
NET_NetadrToSockadr
====================
*/
static void NET_NetadrToSockadr( netadr_t *a, struct sockaddr_storage *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 = *(uint32_t *)&a->ip;
((struct sockaddr_in *)s)->sin_port = a->port;
}
else if( a->type6 == NA_IP6 )
{
struct in6_addr ip6;
NET_NetadrToIP6Bytes( ip6.s6_addr, a );
if( IN6_IS_ADDR_V4MAPPED( &ip6 ))
{
((struct sockaddr_in *)s)->sin_family = AF_INET;
((struct sockaddr_in *)s)->sin_addr.s_addr = *(uint32_t *)(ip6.s6_addr + 12);
((struct sockaddr_in *)s)->sin_port = a->port;
}
else
{
((struct sockaddr_in6 *)s)->sin6_family = AF_INET6;
memcpy( &((struct sockaddr_in6 *)s)->sin6_addr, &ip6, sizeof( struct in6_addr ));
((struct sockaddr_in6 *)s)->sin6_port = a->port;
}
}
else if( a->type6 == NA_MULTICAST_IP6 )
{
((struct sockaddr_in6 *)s)->sin6_family = AF_INET6;
memcpy(((struct sockaddr_in6 *)s)->sin6_addr.s6_addr, k_ipv6Bytes_LinkLocalAllNodes, sizeof( struct in6_addr ));
((struct sockaddr_in6 *)s)->sin6_port = a->port;
}
}
/*
====================
NET_SockadrToNetAdr
====================
*/
static void NET_SockadrToNetadr( const struct sockaddr_storage *s, netadr_t *a )
{
if( s->ss_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;
}
else if( s->ss_family == AF_INET6 )
{
NET_IP6BytesToNetadr( a, ((struct sockaddr_in6 *)s)->sin6_addr.s6_addr );
if( IN6_IS_ADDR_V4MAPPED( &((struct sockaddr_in6 *)s)->sin6_addr ))
a->type = NA_IP;
else
a->type6 = NA_IP6;
a->port = ((struct sockaddr_in6 *)s)->sin6_port;
}
}
/*
============
NET_GetHostByName
============
*/
qboolean NET_GetHostByName( const char *hostname, int family, struct sockaddr_storage *addr )
{
#if defined HAVE_GETADDRINFO
struct addrinfo *ai = NULL, *cur;
struct addrinfo hints;
qboolean ret = false;
memset( &hints, 0, sizeof( hints ));
hints.ai_family = family;
if( !getaddrinfo( hostname, NULL, &hints, &ai ))
{
for( cur = ai; cur; cur = cur->ai_next )
{
if( family == AF_UNSPEC || cur->ai_family == family )
{
memcpy( addr, cur->ai_addr, cur->ai_addrlen );
ret = true;
break;
}
}
if( ai )
freeaddrinfo( ai );
}
return ret;
#else
struct hostent *h;
if(!( h = gethostbyname( hostname )))
return false;
((struct sockaddr_in *)addr)->sin_family = AF_INET;
((struct sockaddr_in *)addr)->sin_addr = *(struct in_addr *)h->h_addr_list[0];
return true;
#endif
}
#if !XASH_EMSCRIPTEN && !XASH_DOS4GW && !defined XASH_NO_ASYNC_NS_RESOLVE
#define CAN_ASYNC_NS_RESOLVE
#endif // !XASH_EMSCRIPTEN && !XASH_DOS4GW && !defined XASH_NO_ASYNC_NS_RESOLVE
#ifdef CAN_ASYNC_NS_RESOLVE
static void NET_ResolveThread( void );
#if !XASH_WIN32
#include <pthread.h>
#define mutex_lock pthread_mutex_lock
#define mutex_unlock pthread_mutex_unlock
#define exit_thread( x ) pthread_exit(x)
#define create_thread( pfn ) !pthread_create( &nsthread.thread, NULL, (pfn), NULL )
#define detach_thread( x ) pthread_detach(x)
#define mutex_t pthread_mutex_t
#define thread_t pthread_t
void *NET_ThreadStart( void *unused )
{
NET_ResolveThread();
return NULL;
}
#else // WIN32
#define mutex_lock EnterCriticalSection
#define mutex_unlock LeaveCriticalSection
#define detach_thread( x ) CloseHandle(x)
#define create_thread( pfn ) ( nsthread.thread = CreateThread( NULL, 0, pfn, NULL, 0, NULL ))
#define mutex_t CRITICAL_SECTION
#define thread_t HANDLE
DWORD WINAPI NET_ThreadStart( LPVOID unused )
{
NET_ResolveThread();
ExitThread( 0 );
return 0;
}
#endif // !_WIN32
#ifdef DEBUG_RESOLVE
#define RESOLVE_DBG(x) Sys_PrintLog(x)
#else
#define RESOLVE_DBG(x)
#endif // DEBUG_RESOLVE
static struct nsthread_s
{
mutex_t mutexns;
mutex_t mutexres;
thread_t thread;
int result;
string hostname;
int family;
struct sockaddr_storage addr;
qboolean busy;
} nsthread
#if !XASH_WIN32
= { PTHREAD_MUTEX_INITIALIZER, PTHREAD_MUTEX_INITIALIZER }
#endif
;
static void NET_InitializeCriticalSections( void )
{
net.threads_initialized = true;
#if XASH_WIN32
InitializeCriticalSection( &nsthread.mutexns );
InitializeCriticalSection( &nsthread.mutexres );
#endif
}
void NET_ResolveThread( void )
{
struct sockaddr_storage addr;
RESOLVE_DBG( "[resolve thread] starting resolve for " );
RESOLVE_DBG( nsthread.hostname );
#ifdef HAVE_GETADDRINFO
RESOLVE_DBG( " with getaddrinfo\n" );
#else
RESOLVE_DBG( " with gethostbyname\n" );
#endif
if( NET_GetHostByName( nsthread.hostname, nsthread.family, &addr ))
RESOLVE_DBG( "[resolve thread] success\n" );
else
RESOLVE_DBG( "[resolve thread] failed\n" );
mutex_lock( &nsthread.mutexres );
nsthread.addr = addr;
nsthread.busy = false;
RESOLVE_DBG( "[resolve thread] returning result\n" );
mutex_unlock( &nsthread.mutexres );
RESOLVE_DBG( "[resolve thread] exiting thread\n" );
}
#endif // CAN_ASYNC_NS_RESOLVE
/*
=============
NET_StringToAdr
localhost
idnewt
idnewt:28000
192.246.40.70
192.246.40.70:28000
=============
*/
static net_gai_state_t NET_StringToSockaddr( const char *s, struct sockaddr_storage *sadr, qboolean nonblocking, int family )
{
int ret = 0, port;
char *colon;
char copy[128];
byte ip6[16];
struct sockaddr_storage temp;
if( !net.initialized )
return NET_EAI_NONAME;
memset( sadr, 0, sizeof( *sadr ));
// try to parse it as IPv6 first
if(( family == AF_UNSPEC || family == AF_INET6 ) && ParseIPv6Addr( s, ip6, &port, NULL ))
{
((struct sockaddr_in6 *)sadr)->sin6_family = AF_INET6;
((struct sockaddr_in6 *)sadr)->sin6_port = htons((short)port);
memcpy(((struct sockaddr_in6 *)sadr)->sin6_addr.s6_addr, ip6, sizeof( struct in6_addr ));
return NET_EAI_OK;
}
Q_strncpy( copy, s, sizeof( copy ));
// strip off a trailing :port if present
((struct sockaddr_in *)sadr)->sin_port = 0;
for( colon = copy; *colon; colon++ )
{
if( *colon == ':' )
{
*colon = 0;
((struct sockaddr_in *)sadr)->sin_port = htons((short)Q_atoi( colon + 1 ));
}
}
if( copy[0] >= '0' && copy[0] <= '9' )
{
((struct sockaddr_in *)sadr)->sin_family = AF_INET;
((struct sockaddr_in *)sadr)->sin_addr.s_addr = inet_addr( copy );
}
else
{
qboolean asyncfailed = true;
#ifdef CAN_ASYNC_NS_RESOLVE
if( net.threads_initialized && nonblocking )
{
mutex_lock( &nsthread.mutexres );
if( nsthread.busy )
{
mutex_unlock( &nsthread.mutexres );
return NET_EAI_AGAIN;
}
if( !Q_strcmp( copy, nsthread.hostname ))
{
ret = nsthread.result;
nsthread.hostname[0] = '\0';
nsthread.family = AF_UNSPEC;
temp = nsthread.addr;
memset( &nsthread.addr, 0, sizeof( nsthread.addr ));
detach_thread( nsthread.thread );
}
else
{
Q_strncpy( nsthread.hostname, copy, sizeof( nsthread.hostname ));
nsthread.family = family;
nsthread.busy = true;
mutex_unlock( &nsthread.mutexres );
if( create_thread( NET_ThreadStart ))
{
asyncfailed = false;
return NET_EAI_AGAIN;
}
else // failed to create thread
{
Con_Reportf( S_ERROR "NET_StringToSockaddr: failed to create thread!\n");
nsthread.busy = false;
}
}
mutex_unlock( &nsthread.mutexres );
}
#endif // CAN_ASYNC_NS_RESOLVE
if( asyncfailed )
{
ret = NET_GetHostByName( copy, family, &temp );
}
if( !ret )
{
if( family == AF_INET6 )
sadr->ss_family = AF_INET6;
else sadr->ss_family = AF_INET;
return NET_EAI_NONAME;
}
sadr->ss_family = temp.ss_family;
if( temp.ss_family == AF_INET )
{
((struct sockaddr_in *)sadr)->sin_addr =
((struct sockaddr_in*)&temp)->sin_addr;
}
else if( temp.ss_family == AF_INET6 )
{
memcpy(&((struct sockaddr_in6 *)sadr)->sin6_addr,
&((struct sockaddr_in6*)&temp)->sin6_addr,
sizeof( struct in6_addr ));
}
}
return NET_EAI_OK;
}
/*
====================
NET_StringToFilterAdr
====================
*/
qboolean NET_StringToFilterAdr( const char *s, netadr_t *adr, uint *prefixlen )
{
char copy[128], *temp;
qboolean hasCIDR = false;
byte ip6[16];
uint len;
if( !COM_CheckStringEmpty( s ))
return false;
memset( adr, 0, sizeof( *adr ));
// copy the string and remove CIDR prefix
Q_strncpy( copy, s, sizeof( copy ));
temp = Q_strrchr( copy, '/' );
if( temp )
{
*temp = 0;
if( Q_isdigit( temp + 1 ))
{
len = Q_atoi( temp + 1 );
hasCIDR = len != 0;
}
}
// try to parse as IPv6 first
if( ParseIPv6Addr( copy, ip6, NULL, NULL ))
{
NET_IP6BytesToNetadr( adr, ip6 );
adr->type6 = NA_IP6;
if( !hasCIDR )
*prefixlen = 128;
else
*prefixlen = len;
}
else
{
int num = 0;
int octet = 0;
// parse as ipv4 but we don't need to allow all forms here
for( temp = copy; *temp; temp++ )
{
char c = *temp;
if( c >= '0' && c <= '9' )
{
num *= 10;
num += c - '0';
}
else if( c == '.' )
{
if( num > 255 )
return false;
adr->ip[octet++] = num;
num = 0;
if( octet > 3 )
return false;
}
else
{
return false;
}
}
if( num > 255 )
return false;
adr->ip[octet++] = num;
if( !hasCIDR )
{
int i;
*prefixlen = 32;
for( i = 3; i >= 0; i-- )
{
if( !adr->ip[i] )
*prefixlen -= 8;
else
break;
}
}
else
{
uint32_t mask;
len = bound( 0, len, 32 );
*prefixlen = len;
// drop unneeded bits
mask = htonl( adr->ip4 ) & ( 0xFFFFFFFF << ( 32 - len ));
adr->ip4 = ntohl( mask );
}
adr->type = NA_IP;
}
return true;
}
/*
====================
NET_AdrToString
====================
*/
const char *NET_AdrToString( const netadr_t a )
{
static char s[64];
if( a.type == NA_LOOPBACK )
return "loopback";
if( a.type6 == NA_IP6 || a.type6 == NA_MULTICAST_IP6 )
{
uint8_t ip6[16];
NET_NetadrToIP6Bytes( ip6, &a );
IPv6AddrToString( s, ip6, ntohs( a.port ), 0 );
return s;
}
Q_snprintf( s, sizeof( s ),
"%i.%i.%i.%i:%i", a.ip[0], a.ip[1], a.ip[2], a.ip[3], ntohs( a.port ));
return s;
}
/*
====================
NET_BaseAdrToString
====================
*/
const char *NET_BaseAdrToString( const netadr_t a )
{
static char s[64];
if( a.type == NA_LOOPBACK )
return "loopback";
if( a.type6 == NA_IP6 || a.type6 == NA_MULTICAST_IP6 )
{
uint8_t ip6[16];
NET_NetadrToIP6Bytes( ip6, &a );
IPv6IPToString( s, ip6 );
return s;
}
Q_snprintf( s, sizeof( s ),
"%i.%i.%i.%i", a.ip[0], a.ip[1], a.ip[2], a.ip[3] );
return s;
}
/*
===================
NET_CompareBaseAdr
Compares without the port
===================
*/
qboolean NET_CompareBaseAdr( const netadr_t a, const netadr_t b )
{
if( a.type6 != b.type6 )
return false;
if( a.type == NA_LOOPBACK )
return true;
if( a.type == NA_IP )
return a.ip4 == b.ip4;
if( a.type6 == NA_IP6 )
{
if( !NET_NetadrIP6Compare( &a, &b ))
return true;
}
return false;
}
/*
====================
NET_CompareClassBAdr
Compare local masks
====================
*/
qboolean NET_CompareClassBAdr( const netadr_t a, const netadr_t b )
{
if( a.type6 != b.type6 )
return false;
if( a.type == NA_LOOPBACK )
return true;
if( a.type == NA_IP )
{
if( a.ip[0] == b.ip[0] && a.ip[1] == b.ip[1] )
return true;
}
// NOTE: we don't check for IPv6 here
// this check is very dumb and only used for LAN restriction
// Actual check is in IsReservedAdr
// for real mask compare use NET_CompareAdrByMask
return false;
}
/*
====================
NET_CompareAdrByMask
Checks if adr is a part of subnet
====================
*/
qboolean NET_CompareAdrByMask( const netadr_t a, const netadr_t b, uint prefixlen )
{
if( a.type6 != b.type6 || a.type == NA_LOOPBACK )
return false;
if( a.type == NA_IP )
{
uint32_t ipa = htonl( a.ip4 );
uint32_t ipb = htonl( b.ip4 );
if(( ipa & (( 0xFFFFFFFFU ) << ( 32 - prefixlen ))) == ipb )
return true;
}
else if( a.type6 == NA_IP6 )
{
uint16_t a_[8], b_[8];
size_t check = prefixlen / 16;
size_t remaining = prefixlen % 16;
// convert to 16-bit pieces first
NET_NetadrToIP6Bytes( (uint8_t*)a_, &a );
NET_NetadrToIP6Bytes( (uint8_t*)b_, &b );
// check complete hextets first, if not equal, then it's different subnets
if( check && memcmp( a_, b_, check * sizeof( uint16_t )))
return false;
// check by bits now, similar to v4 check but with 16-bit type
if( remaining )
{
uint16_t hexa, hexb, mask = 0xFFFFU << ( 16 - remaining );
hexa = htons( a_[check] );
hexb = htons( b_[check] );
if(( hexa & mask ) == ( hexb & mask ))
return true;
}
else
return true;
}
return false;
}
/*
====================
NET_IsReservedAdr
Check for reserved ip's
====================
*/
qboolean NET_IsReservedAdr( netadr_t a )
{
if( a.type == NA_LOOPBACK )
return true;
// Following checks was imported from GameNetworkingSockets library
if( a.type == NA_IP )
{
if(( a.ip[0] == 10 ) || // 10.x.x.x is reserved
( a.ip[0] == 127 ) || // 127.x.x.x
( a.ip[0] == 169 && a.ip[1] == 254 ) || // 169.254.x.x is link-local ipv4
( a.ip[0] == 172 && a.ip[1] >= 16 && a.ip[1] <= 31 ) || // 172.16.x.x - 172.31.x.x
( a.ip[0] == 192 && a.ip[1] >= 168 )) // 192.168.x.x
{
return true;
}
}
if( a.type6 == NA_IP6 )
{
uint8_t ip6[16];
NET_NetadrToIP6Bytes( ip6, &a );
// Private addresses, fc00::/7
// Range is fc00:: to fdff:ffff:etc
if( ip6[0] >= 0xFC && ip6[1] <= 0xFD )
{
return true;
}
// Link-local fe80::/10
// Range is fe80:: to febf::
if( ip6[0] == 0xFE && ( ip6[1] >= 0x80 && ip6[1] <= 0xBF ))
{
return true;
}
}
return false;
}
/*
====================
NET_CompareAdr
Compare full address
====================
*/
qboolean NET_CompareAdr( const netadr_t a, const netadr_t b )
{
if( a.type6 != b.type6 )
return false;
if( a.type == NA_LOOPBACK )
return true;
if( a.type == NA_IP )
{
if( a.ip4 == b.ip4 && a.port == b.port )
return true;
return false;
}
if( a.type6 == NA_IP6 )
{
if( a.port == b.port && !NET_NetadrIP6Compare( &a, &b ))
return true;
}
Con_DPrintf( S_ERROR "NET_CompareAdr: bad address type\n" );
return false;
}
/*
====================
NET_CompareAdrSort
Network address sorting comparator
guaranteed to return -1, 0 or 1
====================
*/
int NET_CompareAdrSort( const void *_a, const void *_b )
{
const netadr_t *a = _a, *b = _b;
int porta, portb, portdiff, addrdiff;
if( a->type6 != b->type6 )
return bound( -1, (int)a->type6 - (int)b->type6, 1 );
porta = ntohs( a->port );
portb = ntohs( b->port );
if( porta < portb )
portdiff = -1;
else if( porta > portb )
portdiff = 1;
else
portdiff = 0;
switch( a->type6 )
{
case NA_IP6:
if(( addrdiff = NET_NetadrIP6Compare( a, b )))
return addrdiff;
// fallthrough
case NA_MULTICAST_IP6:
return portdiff;
}
// don't check for full type earlier, as it's value depends on v6 address
if( a->type != b->type )
return bound( -1, (int)a->type - (int)b->type, 1 );
switch( a->type )
{
case NA_IP:
if(( addrdiff = memcmp( a->ip, b->ip, sizeof( a->ipx ))))
return addrdiff;
// fallthrough
case NA_BROADCAST:
return portdiff;
case NA_IPX:
if(( addrdiff = memcmp( a->ipx, b->ipx, sizeof( a->ipx ))))
return addrdiff;
// fallthrough
case NA_BROADCAST_IPX:
return portdiff;
}
return 0;
}
/*
====================
NET_IsLocalAddress
====================
*/
qboolean NET_IsLocalAddress( netadr_t adr )
{
return (adr.type == NA_LOOPBACK) ? true : false;
}
/*
=============
NET_StringToAdr
idnewt
192.246.40.70
=============
*/
qboolean NET_StringToAdrEx( const char *string, netadr_t *adr, int family )
{
struct sockaddr_storage s;
memset( adr, 0, sizeof( netadr_t ));
if( !Q_stricmp( string, "localhost" ) || !Q_stricmp( string, "loopback" ))
{
adr->type = NA_LOOPBACK;
return true;
}
if( NET_StringToSockaddr( string, &s, false, family ) != NET_EAI_OK )
return false;
NET_SockadrToNetadr( &s, adr );
return true;
}
qboolean NET_StringToAdr( const char *string, netadr_t *adr )
{
return NET_StringToAdrEx( string, adr, AF_UNSPEC );
}
net_gai_state_t NET_StringToAdrNB( const char *string, netadr_t *adr )
{
struct sockaddr_storage s;
net_gai_state_t res;
memset( adr, 0, sizeof( netadr_t ));
if( !Q_stricmp( string, "localhost" ) || !Q_stricmp( string, "loopback" ))
{
adr->type = NA_LOOPBACK;
return NET_EAI_OK;
}
res = NET_StringToSockaddr( string, &s, true, AF_UNSPEC );
if( res == NET_EAI_OK )
NET_SockadrToNetadr( &s, adr );
return res;
}
/*
=============================================================================
LOOPBACK BUFFERS FOR LOCAL PLAYER
=============================================================================
*/
/*
====================
NET_GetLoopPacket
====================
*/
static qboolean NET_GetLoopPacket( netsrc_t sock, netadr_t *from, byte *data, size_t *length )
{
net_loopback_t *loop;
int i;
if( !data || !length )
return false;
loop = &net.loopbacks[sock];
if( loop->send - loop->get > MAX_LOOPBACK )
loop->get = loop->send - MAX_LOOPBACK;
if( loop->get >= loop->send )
return false;
i = loop->get & MASK_LOOPBACK;
loop->get++;
memcpy( data, loop->msgs[i].data, loop->msgs[i].datalen );
*length = loop->msgs[i].datalen;
memset( from, 0, sizeof( *from ));
from->type = NA_LOOPBACK;
return true;
}
/*
====================
NET_SendLoopPacket
====================
*/
static void NET_SendLoopPacket( netsrc_t sock, size_t length, const void *data, netadr_t to )
{
net_loopback_t *loop;
int i;
loop = &net.loopbacks[sock^1];
i = loop->send & MASK_LOOPBACK;
loop->send++;
memcpy( loop->msgs[i].data, data, length );
loop->msgs[i].datalen = length;
}
/*
====================
NET_ClearLoopback
====================
*/
static void NET_ClearLoopback( void )
{
net.loopbacks[0].send = net.loopbacks[0].get = 0;
net.loopbacks[1].send = net.loopbacks[1].get = 0;
}
/*
=============================================================================
LAG & LOSS SIMULATION SYSTEM (network debugging)
=============================================================================
*/
/*
==================
NET_RemoveFromPacketList
double linked list remove entry
==================
*/
static void NET_RemoveFromPacketList( packetlag_t *p )
{
p->prev->next = p->next;
p->next->prev = p->prev;
p->prev = NULL;
p->next = NULL;
}
/*
==================
NET_ClearLaggedList
double linked list remove queue
==================
*/
static void NET_ClearLaggedList( packetlag_t *list )
{
packetlag_t *p, *n;
p = list->next;
while( p && p != list )
{
n = p->next;
NET_RemoveFromPacketList( p );
if( p->data )
{
Mem_Free( p->data );
p->data = NULL;
}
Mem_Free( p );
p = n;
}
list->prev = list;
list->next = list;
}
/*
==================
NET_AddToLagged
add lagged packet to stream
==================
*/
static void NET_AddToLagged( netsrc_t sock, packetlag_t *list, packetlag_t *packet, netadr_t *from, size_t length, const void *data, float timestamp )
{
byte *pStart;
if( packet->prev || packet->next )
return;
packet->prev = list->prev;
list->prev->next = packet;
list->prev = packet;
packet->next = list;
pStart = (byte *)Z_Malloc( length );
memcpy( pStart, data, length );
packet->data = pStart;
packet->size = length;
packet->receivedtime = timestamp;
memcpy( &packet->from, from, sizeof( netadr_t ));
}
/*
==================
NET_AdjustLag
adjust time to next fake lag
==================
*/
static void NET_AdjustLag( void )
{
static double lasttime = 0.0;
float diff, converge;
double dt;
dt = host.realtime - lasttime;
dt = bound( 0.0, dt, 0.1 );
lasttime = host.realtime;
if( host_developer.value || !net_fakelag.value )
{
if( net_fakelag.value != net.fakelag )
{
diff = net_fakelag.value - net.fakelag;
converge = dt * 200.0f;
if( fabs( diff ) < converge )
converge = fabs( diff );
if( diff < 0.0f )
converge = -converge;
net.fakelag += converge;
}
}
else
{
Con_Printf( "Server must enable dev-mode to activate fakelag\n" );
Cvar_SetValue( "fakelag", 0.0 );
net.fakelag = 0.0f;
}
}
/*
==================
NET_LagPacket
add fake lagged packet into rececived message
==================
*/
static qboolean NET_LagPacket( qboolean newdata, netsrc_t sock, netadr_t *from, size_t *length, void *data )
{
packetlag_t *pNewPacketLag;
packetlag_t *pPacket;
int ninterval;
float curtime;
if( net.fakelag <= 0.0f )
{
NET_ClearLagData( true, true );
return newdata;
}
curtime = host.realtime;
if( newdata )
{
if( net_fakeloss.value != 0.0f )
{
if( host_developer.value )
{
net.losscount[sock]++;
if( net_fakeloss.value <= 0.0f )
{
ninterval = fabs( net_fakeloss.value );
if( ninterval < 2 ) ninterval = 2;
if(( net.losscount[sock] % ninterval ) == 0 )
return false;
}
else
{
if( COM_RandomLong( 0, 100 ) <= net_fakeloss.value )
return false;
}
}
else
{
Cvar_SetValue( "fakeloss", 0.0 );
}
}
pNewPacketLag = (packetlag_t *)Z_Malloc( sizeof( packetlag_t ));
// queue packet to simulate fake lag
NET_AddToLagged( sock, &net.lagdata[sock], pNewPacketLag, from, *length, data, curtime );
}
pPacket = net.lagdata[sock].next;
while( pPacket != &net.lagdata[sock] )
{
if( pPacket->receivedtime <= curtime - ( net.fakelag / 1000.0f ))
break;
pPacket = pPacket->next;
}
if( pPacket == &net.lagdata[sock] )
return false;
NET_RemoveFromPacketList( pPacket );
// delivery packet from fake lag queue
memcpy( data, pPacket->data, pPacket->size );
memcpy( &net_from, &pPacket->from, sizeof( netadr_t ));
*length = pPacket->size;
if( pPacket->data )
Mem_Free( pPacket->data );
Mem_Free( pPacket );
return true;
}
/*
==================
NET_GetLong
receive long packet from network
==================
*/
qboolean NET_GetLong( byte *pData, int size, size_t *outSize, int splitsize )
{
int i, sequence_number, offset;
SPLITPACKET *pHeader = (SPLITPACKET *)pData;
int packet_number;
int packet_count;
short packet_id;
int body_size = splitsize - sizeof( SPLITPACKET );
if( body_size < 0 )
return false;
if( size < sizeof( SPLITPACKET ))
{
Con_Printf( S_ERROR "invalid split packet length %i\n", size );
return false;
}
sequence_number = pHeader->sequence_number;
packet_id = pHeader->packet_id;
packet_count = ( packet_id & 0xFF );
packet_number = ( packet_id >> 8 );
if( packet_number >= NET_MAX_FRAGMENTS || packet_count > NET_MAX_FRAGMENTS )
{
Con_Printf( S_ERROR "malformed packet number (%i/%i)\n", packet_number + 1, packet_count );
return false;
}
if( net.split.current_sequence == -1 || sequence_number != net.split.current_sequence )
{
net.split.current_sequence = sequence_number;
net.split.split_count = packet_count;
net.split.total_size = 0;
// clear part's sequence
for( i = 0; i < NET_MAX_FRAGMENTS; i++ )
net.split_flags[i] = -1;
if( net_showpackets.value == 4.0f )
Con_Printf( "<-- Split packet restart %i count %i seq\n", net.split.split_count, sequence_number );
}
size -= sizeof( SPLITPACKET );
if( net.split_flags[packet_number] != sequence_number )
{
if( packet_number == ( packet_count - 1 ))
net.split.total_size = size + body_size * ( packet_count - 1 );
net.split.split_count--;
net.split_flags[packet_number] = sequence_number;
if( net_showpackets.value == 4.0f )
Con_Printf( "<-- Split packet %i of %i, %i bytes %i seq\n", packet_number + 1, packet_count, size, sequence_number );
}
else
{
Con_DPrintf( "NET_GetLong: Ignoring duplicated split packet %i of %i ( %i bytes )\n", packet_number + 1, packet_count, size );
}
offset = (packet_number * body_size);
memcpy( net.split.buffer + offset, pData + sizeof( SPLITPACKET ), size );
// have we received all of the pieces to the packet?
if( net.split.split_count <= 0 )
{
net.split.current_sequence = -1; // Clear packet
if( net.split.total_size > sizeof( net.split.buffer ))
{
Con_Printf( "Split packet too large! %d bytes\n", net.split.total_size );
return false;
}
memcpy( pData, net.split.buffer, net.split.total_size );
*outSize = net.split.total_size;
return true;
}
return false;
}
/*
==================
NET_QueuePacket
queue normal and lagged packets
==================
*/
static qboolean NET_QueuePacket( netsrc_t sock, netadr_t *from, byte *data, size_t *length )
{
byte buf[NET_MAX_FRAGMENT];
int ret, protocol;
int net_socket;
WSAsize_t addr_len;
struct sockaddr_storage addr = { 0 };
*length = 0;
for( protocol = 0; protocol < 2; protocol++ )
{
switch( protocol )
{
case 0: net_socket = net.ip_sockets[sock]; break;
case 1: net_socket = net.ip6_sockets[sock]; break;
}
if( !NET_IsSocketValid( net_socket ))
continue;
addr_len = sizeof( addr );
ret = recvfrom( net_socket, buf, sizeof( buf ), 0, (struct sockaddr *)&addr, &addr_len );
NET_SockadrToNetadr( &addr, from );
if( !NET_IsSocketError( ret ))
{
if( ret < NET_MAX_FRAGMENT )
{
// Transfer data
memcpy( data, buf, ret );
*length = ret;
#if !XASH_DEDICATED
if( CL_LegacyMode( ))
return NET_LagPacket( true, sock, from, length, data );
// check for split message
if( sock == NS_CLIENT && *(int *)data == NET_HEADER_SPLITPACKET )
{
return NET_GetLong( data, ret, length, CL_GetSplitSize( ));
}
#endif
// lag the packet, if needed
return NET_LagPacket( true, sock, from, length, data );
}
else
{
Con_Reportf( "NET_QueuePacket: oversize packet from %s\n", NET_AdrToString( *from ));
}
}
else
{
int err = WSAGetLastError();
switch( err )
{
case WSAEWOULDBLOCK:
case WSAECONNRESET:
case WSAECONNREFUSED:
case WSAEMSGSIZE:
case WSAETIMEDOUT:
break;
default: // let's continue even after errors
Con_DPrintf( S_ERROR "NET_QueuePacket: %s from %s\n", NET_ErrorString(), NET_AdrToString( *from ));
break;
}
}
}
return NET_LagPacket( false, sock, from, length, data );
}
/*
==================
NET_GetPacket
Never called by the game logic, just the system event queing
==================
*/
qboolean NET_GetPacket( netsrc_t sock, netadr_t *from, byte *data, size_t *length )
{
if( !data || !length )
return false;
NET_AdjustLag();
if( NET_GetLoopPacket( sock, from, data, length ))
{
return NET_LagPacket( true, sock, from, length, data );
}
else
{
return NET_QueuePacket( sock, from, data, length );
}
}
/*
==================
NET_SendLong
Fragment long packets, send short directly
==================
*/
int NET_SendLong( netsrc_t sock, int net_socket, const char *buf, size_t len, int flags, const struct sockaddr_storage *to, size_t tolen, size_t splitsize )
{
#ifdef NET_USE_FRAGMENTS
// do we need to break this packet up?
if( splitsize > sizeof( SPLITPACKET ) && sock == NS_SERVER && len > splitsize )
{
char packet[SPLITPACKET_MAX_SIZE];
int total_sent, size, packet_count;
int ret, packet_number;
int body_size = splitsize - sizeof( SPLITPACKET );
SPLITPACKET *pPacket;
net.sequence_number++;
if( net.sequence_number <= 0 )
net.sequence_number = 1;
pPacket = (SPLITPACKET *)packet;
pPacket->sequence_number = net.sequence_number;
pPacket->net_id = NET_HEADER_SPLITPACKET;
packet_number = 0;
total_sent = 0;
packet_count = (len + body_size - 1) / body_size;
while( len > 0 )
{
size = Q_min( body_size, len );
pPacket->packet_id = (packet_number << 8) + packet_count;
memcpy( packet + sizeof( SPLITPACKET ), buf + ( packet_number * body_size ), size );
if( net_showpackets.value == 3.0f )
{
netadr_t adr;
memset( &adr, 0, sizeof( adr ));
NET_SockadrToNetadr( to, &adr );
Con_Printf( "Sending split %i of %i with %i bytes and seq %i to %s\n",
packet_number + 1, packet_count, size, net.sequence_number, NET_AdrToString( adr ));
}
ret = sendto( net_socket, packet, size + sizeof( SPLITPACKET ), flags, (const struct sockaddr *)to, tolen );
if( ret < 0 ) return ret; // error
if( ret >= size )
total_sent += size;
len -= size;
packet_number++;
Sys_Sleep( 1 );
}
return total_sent;
}
else
#endif
{
// no fragmenantion for client connection
return sendto( net_socket, buf, len, flags, (const struct sockaddr *)to, tolen );
}
}
/*
==================
NET_SendPacketEx
==================
*/
void NET_SendPacketEx( netsrc_t sock, size_t length, const void *data, netadr_t to, size_t splitsize )
{
int ret;
struct sockaddr_storage addr = { 0 };
SOCKET net_socket = 0;
if( !net.initialized || to.type == NA_LOOPBACK )
{
NET_SendLoopPacket( sock, length, data, to );
return;
}
else if( to.type == NA_BROADCAST || to.type == NA_IP )
{
net_socket = net.ip_sockets[sock];
if( !NET_IsSocketValid( net_socket ))
return;
}
else if( to.type6 == NA_MULTICAST_IP6 || to.type6 == NA_IP6 )
{
net_socket = net.ip6_sockets[sock];
if( !NET_IsSocketValid( net_socket ))
return;
}
else
{
Host_Error( "NET_SendPacket: bad address type %i (%i)\n", to.type, to.type6 );
}
NET_NetadrToSockadr( &to, &addr );
ret = NET_SendLong( sock, net_socket, data, length, 0, &addr, NET_SockAddrLen( &addr ), splitsize );
if( NET_IsSocketError( ret ))
{
int err = WSAGetLastError();
// WSAEWOULDBLOCK is silent
if( err == WSAEWOULDBLOCK )
return;
// some PPP links don't allow broadcasts
if( err == WSAEADDRNOTAVAIL && ( to.type == NA_BROADCAST || to.type6 == NA_MULTICAST_IP6 ))
return;
if( Host_IsDedicated( ))
{
Con_DPrintf( S_ERROR "NET_SendPacket: %s to %s\n", NET_ErrorString(), NET_AdrToString( to ));
}
else if( err == WSAEADDRNOTAVAIL || err == WSAENOBUFS )
{
Con_DPrintf( S_ERROR "NET_SendPacket: %s to %s\n", NET_ErrorString(), NET_AdrToString( to ));
}
else
{
Con_Printf( S_ERROR "NET_SendPacket: %s to %s\n", NET_ErrorString(), NET_AdrToString( to ));
}
}
}
/*
==================
NET_SendPacket
==================
*/
void NET_SendPacket( netsrc_t sock, size_t length, const void *data, netadr_t to )
{
NET_SendPacketEx( sock, length, data, to, 0 );
}
/*
====================
NET_IPSocket
====================
*/
static int NET_IPSocket( const char *net_iface, int port, int family )
{
struct sockaddr_storage addr = { 0 };
int err, net_socket;
uint optval = 1;
dword _true = 1;
int pfamily = PF_INET;
if( family == AF_INET6 )
pfamily = PF_INET6;
if( NET_IsSocketError(( net_socket = socket( pfamily, SOCK_DGRAM, IPPROTO_UDP ))))
{
err = WSAGetLastError();
if( err != WSAEAFNOSUPPORT )
Con_DPrintf( S_WARN "NET_UDPSocket: port: %d socket: %s\n", port, NET_ErrorString( ));
return INVALID_SOCKET;
}
if( NET_IsSocketError( ioctlsocket( net_socket, FIONBIO, (void*)&_true )))
{
struct timeval timeout;
Con_DPrintf( S_WARN "NET_UDPSocket: port: %d ioctl FIONBIO: %s\n", port, NET_ErrorString( ));
// try timeout instead of NBIO
timeout.tv_sec = timeout.tv_usec = 0;
setsockopt( net_socket, SOL_SOCKET, SO_RCVTIMEO, (char *)&timeout, sizeof(timeout));
}
// make it broadcast capable
if( NET_IsSocketError( setsockopt( net_socket, SOL_SOCKET, SO_BROADCAST, (char *)&_true, sizeof( _true ))))
{
Con_DPrintf( S_WARN "NET_UDPSocket: port: %d setsockopt SO_BROADCAST: %s\n", port, NET_ErrorString( ));
}
if( NET_IsSocketError( setsockopt( net_socket, SOL_SOCKET, SO_REUSEADDR, (const char *)&optval, sizeof( optval ))))
{
Con_DPrintf( S_WARN "NET_UDPSocket: port: %d setsockopt SO_REUSEADDR: %s\n", port, NET_ErrorString( ));
closesocket( net_socket );
return INVALID_SOCKET;
}
addr.ss_family = family;
if( family == AF_INET6 )
{
if( NET_IsSocketError( setsockopt( net_socket, IPPROTO_IPV6, IPV6_V6ONLY, (char *)&_true, sizeof( _true ))))
{
Con_DPrintf( S_WARN "NET_UDPSocket: port: %d setsockopt IPV6_V6ONLY: %s\n", port, NET_ErrorString( ));
closesocket( net_socket );
return INVALID_SOCKET;
}
if( Sys_CheckParm( "-loopback" ))
{
if( NET_IsSocketError( setsockopt( net_socket, IPPROTO_IPV6, IPV6_MULTICAST_LOOP, (char *)&_true, sizeof( _true ))))
Con_DPrintf( S_WARN "NET_UDPSocket: port %d setsockopt IPV6_MULTICAST_LOOP: %s\n", port, NET_ErrorString( ));
}
if( COM_CheckStringEmpty( net_iface ) && Q_stricmp( net_iface, "localhost" ))
NET_StringToSockaddr( net_iface, &addr, false, AF_INET6 );
else memcpy(((struct sockaddr_in6 *)&addr)->sin6_addr.s6_addr, &in6addr_any, sizeof( struct in6_addr ));
if( port == PORT_ANY ) ((struct sockaddr_in6 *)&addr)->sin6_port = 0;
else ((struct sockaddr_in6 *)&addr)->sin6_port = htons((short)port);
if( NET_IsSocketError( bind( net_socket, (struct sockaddr *)&addr, sizeof( struct sockaddr_in6 ))))
{
Con_DPrintf( S_WARN "NET_UDPSocket: port: %d bind6: %s\n", port, NET_ErrorString( ));
closesocket( net_socket );
return INVALID_SOCKET;
}
}
else if( family == AF_INET )
{
if( Sys_CheckParm( "-tos" ))
{
optval = 0x10; // IPTOS_LOWDELAY
Con_Printf( "Enabling LOWDELAY TOS option\n" );
if( NET_IsSocketError( setsockopt( net_socket, IPPROTO_IP, IP_TOS, (const char *)&optval, sizeof( optval ))))
{
err = WSAGetLastError();
if( err != WSAENOPROTOOPT )
Con_Printf( S_WARN "NET_UDPSocket: port: %d setsockopt IP_TOS: %s\n", port, NET_ErrorString( ));
closesocket( net_socket );
return INVALID_SOCKET;
}
}
if( Sys_CheckParm( "-loopback" ))
{
if( NET_IsSocketError( setsockopt( net_socket, IPPROTO_IP, IP_MULTICAST_LOOP, (char *)&_true, sizeof( _true ))))
Con_DPrintf( S_WARN "NET_UDPSocket: port %d setsockopt IP_MULTICAST_LOOP: %s\n", port, NET_ErrorString( ));
}
if( COM_CheckStringEmpty( net_iface ) && Q_stricmp( net_iface, "localhost" ))
NET_StringToSockaddr( net_iface, &addr, false, AF_INET );
else ((struct sockaddr_in *)&addr)->sin_addr.s_addr = INADDR_ANY;
if( port == PORT_ANY ) ((struct sockaddr_in *)&addr)->sin_port = 0;
else ((struct sockaddr_in *)&addr)->sin_port = htons((short)port);
if( NET_IsSocketError( bind( net_socket, (struct sockaddr *)&addr, sizeof( struct sockaddr_in ))))
{
Con_DPrintf( S_WARN "NET_UDPSocket: port: %d bind: %s\n", port, NET_ErrorString( ));
closesocket( net_socket );
return INVALID_SOCKET;
}
}
return net_socket;
}
/*
====================
NET_OpenIP
====================
*/
static void NET_OpenIP( qboolean change_port, int *sockets, const char *net_iface, int hostport, int clientport, int family )
{
int port;
qboolean sv_nat = Cvar_VariableInteger("sv_nat");
qboolean cl_nat = Cvar_VariableInteger("cl_nat");
if( change_port && ( FBitSet( net_hostport.flags, FCVAR_CHANGED ) || sv_nat ))
{
// reopen socket to set random port
if( NET_IsSocketValid( sockets[NS_SERVER] ))
closesocket( sockets[NS_SERVER] );
sockets[NS_SERVER] = INVALID_SOCKET;
ClearBits( net_hostport.flags, FCVAR_CHANGED );
}
if( !NET_IsSocketValid( sockets[NS_SERVER] ))
{
port = hostport;
if( !port )
{
port = sv_nat ? PORT_ANY : net_hostport.value;
if( !port )
port = PORT_SERVER; // forcing to default
}
sockets[NS_SERVER] = NET_IPSocket( net_iface, port, family );
if( !NET_IsSocketValid( sockets[NS_SERVER] ) && Host_IsDedicated( ))
return;
}
// dedicated servers don't need client ports
if( Host_IsDedicated( )) return;
if( change_port && ( FBitSet( net_clientport.flags, FCVAR_CHANGED ) || cl_nat ))
{
// reopen socket to set random port
if( NET_IsSocketValid( sockets[NS_CLIENT] ))
closesocket( sockets[NS_CLIENT] );
sockets[NS_CLIENT] = INVALID_SOCKET;
ClearBits( net_clientport.flags, FCVAR_CHANGED );
}
if( !NET_IsSocketValid( sockets[NS_CLIENT] ))
{
port = clientport;
if( !port )
{
port = cl_nat ? PORT_ANY : net_clientport.value;
if( !port )
port = PORT_ANY; // forcing to default
}
sockets[NS_CLIENT] = NET_IPSocket( net_iface, port, family );
if( !NET_IsSocketValid( sockets[NS_CLIENT] ))
sockets[NS_CLIENT] = NET_IPSocket( net_ipname.string, PORT_ANY, family );
}
return;
}
/*
================
NET_GetLocalAddress
Returns the servers' ip address as a string.
================
*/
void NET_GetLocalAddress( void )
{
char hostname[512];
char buff[512];
struct sockaddr_storage address;
WSAsize_t namelen;
const char *net_addr_string;
memset( &net_local, 0, sizeof( netadr_t ));
memset( &net6_local, 0, sizeof( netadr_t ));
if( !net.allow_ip && !net.allow_ip6 )
{
Con_Printf( "TCP/IP Disabled.\n" );
return;
}
gethostname( hostname, sizeof( hostname ));
hostname[sizeof(hostname) - 1] = 0;
if( net.allow_ip )
{
// If we have changed the ip var from the command line, use that instead.
if( Q_stricmp( net_ipname.string, "localhost" ))
Q_strncpy( buff, net_ipname.string, sizeof( buff ));
else Q_strncpy( buff, hostname, sizeof( buff ));
if( NET_StringToAdrEx( buff, &net_local, AF_INET ))
{
namelen = sizeof( struct sockaddr_in );
if( !NET_IsSocketError( getsockname( net.ip_sockets[NS_SERVER], (struct sockaddr *)&address, &namelen )))
{
net_local.port = ((struct sockaddr_in *)&address)->sin_port;
net_addr_string = NET_AdrToString( net_local );
Con_Printf( "Server IPv4 address %s\n", net_addr_string );
Cvar_FullSet( "net_address", net_addr_string, net_address.flags );
}
else Con_DPrintf( S_ERROR "Could not get TCP/IPv4 address. Reason: %s\n", NET_ErrorString( ));
}
else Con_DPrintf( S_ERROR "Could not get TCP/IPv4 address, Invalid hostname: '%s'\n", buff );
}
if( net.allow_ip6 )
{
// If we have changed the ip var from the command line, use that instead.
if( Q_stricmp( net_ip6name.string, "localhost" ))
Q_strncpy( buff, net_ip6name.string, sizeof( buff ));
else Q_strncpy( buff, hostname, sizeof( buff ));
if( NET_StringToAdrEx( buff, &net6_local, AF_INET6 ))
{
namelen = sizeof( struct sockaddr_in6 );
if( !NET_IsSocketError( getsockname( net.ip6_sockets[NS_SERVER], (struct sockaddr *)&address, &namelen )))
{
net6_local.port = ((struct sockaddr_in6 *)&address)->sin6_port;
net_addr_string = NET_AdrToString( net6_local );
Con_Printf( "Server IPv6 address %s\n", net_addr_string );
Cvar_FullSet( "net6_address", net_addr_string, net6_address.flags );
}
else Con_DPrintf( S_ERROR "Could not get TCP/IPv6 address. Reason: %s\n", NET_ErrorString( ));
}
else Con_DPrintf( S_ERROR "Could not get TCP/IPv6 address, Invalid hostname: '%s'\n", buff );
}
}
/*
====================
NET_Config
A single player game will only use the loopback code
====================
*/
void NET_Config( qboolean multiplayer, qboolean changeport )
{
static qboolean bFirst = true;
static qboolean old_config;
if( !net.initialized )
return;
if( old_config == multiplayer )
return;
old_config = multiplayer;
if( multiplayer )
{
// open sockets
if( net.allow_ip )
NET_OpenIP( changeport, net.ip_sockets, net_ipname.string, net_iphostport.value, net_ipclientport.value, AF_INET );
if( net.allow_ip6 )
NET_OpenIP( changeport, net.ip6_sockets, net_ip6name.string, net_ip6hostport.value, net_ip6clientport.value, AF_INET6 );
// validate sockets for dedicated
if( Host_IsDedicated( ))
{
qboolean nov4, nov6;
nov4 = net.allow_ip && NET_IsSocketError( net.ip_sockets[NS_SERVER] );
nov6 = net.allow_ip6 && NET_IsSocketError( net.ip6_sockets[NS_SERVER] );
if( nov4 && nov6 )
Host_Error( "Couldn't allocate IPv4 and IPv6 server ports.\n" );
else if( nov4 && !nov6 )
Con_Printf( S_ERROR "Couldn't allocate IPv4 server port\n" );
else if( !nov4 && nov6 )
Con_Printf( S_ERROR "Couldn't allocate IPv6 server_port\n" );
}
// get our local address, if possible
if( bFirst )
{
NET_GetLocalAddress();
bFirst = false;
}
}
else
{
int i;
// shut down any existing sockets
for( i = 0; i < NS_COUNT; i++ )
{
if( NET_IsSocketValid( net.ip_sockets[i] ))
{
closesocket( net.ip_sockets[i] );
net.ip_sockets[i] = INVALID_SOCKET;
}
if( NET_IsSocketValid( net.ip6_sockets[i] ))
{
closesocket( net.ip6_sockets[i] );
net.ip6_sockets[i] = INVALID_SOCKET;
}
}
}
NET_ClearLoopback ();
net.configured = multiplayer ? true : false;
}
/*
====================
NET_IsConfigured
Is winsock ip initialized?
====================
*/
qboolean NET_IsConfigured( void )
{
return net.configured;
}
/*
====================
NET_IsActive
====================
*/
qboolean NET_IsActive( void )
{
return net.initialized;
}
/*
====================
NET_Sleep
sleeps msec or until net socket is ready
====================
*/
void NET_Sleep( int msec )
{
#ifndef XASH_NO_NETWORK
struct timeval timeout;
fd_set fdset;
int i = 0;
if( !net.initialized || host.type == HOST_NORMAL )
return; // we're not a dedicated server, just run full speed
FD_ZERO( &fdset );
if( net.ip_sockets[NS_SERVER] != INVALID_SOCKET )
{
FD_SET( net.ip_sockets[NS_SERVER], &fdset ); // network socket
i = net.ip_sockets[NS_SERVER];
}
timeout.tv_sec = msec / 1000;
timeout.tv_usec = (msec % 1000) * 1000;
select( i+1, &fdset, NULL, NULL, &timeout );
#endif
}
/*
====================
NET_ClearLagData
clear fakelag list
====================
*/
void NET_ClearLagData( qboolean bClient, qboolean bServer )
{
if( bClient ) NET_ClearLaggedList( &net.lagdata[NS_CLIENT] );
if( bServer ) NET_ClearLaggedList( &net.lagdata[NS_SERVER] );
}
/*
====================
NET_Init
====================
*/
void NET_Init( void )
{
char cmd[64];
int i = 1;
if( net.initialized ) return;
Cvar_RegisterVariable( &net_address );
Cvar_RegisterVariable( &net_ipname );
Cvar_RegisterVariable( &net_iphostport );
Cvar_RegisterVariable( &net_hostport );
Cvar_RegisterVariable( &net_ipclientport );
Cvar_RegisterVariable( &net_clientport );
Cvar_RegisterVariable( &net_fakelag );
Cvar_RegisterVariable( &net_fakeloss );
Q_snprintf( cmd, sizeof( cmd ), "%i", PORT_SERVER );
Cvar_FullSet( "hostport", cmd, FCVAR_READ_ONLY );
Q_snprintf( cmd, sizeof( cmd ), "%i", PORT_CLIENT );
Cvar_FullSet( "clientport", cmd, FCVAR_READ_ONLY );
// cvar equivalents for IPv6
Cvar_RegisterVariable( &net_ip6name );
Cvar_RegisterVariable( &net_ip6hostport );
Cvar_RegisterVariable( &net_ip6clientport );
Cvar_RegisterVariable( &net6_address );
// prepare some network data
for( i = 0; i < NS_COUNT; i++ )
{
net.lagdata[i].prev = &net.lagdata[i];
net.lagdata[i].next = &net.lagdata[i];
net.ip_sockets[i] = INVALID_SOCKET;
net.ip6_sockets[i] = INVALID_SOCKET;
}
#if XASH_WIN32
if( WSAStartup( MAKEWORD( 1, 1 ), &net.winsockdata ))
{
Con_DPrintf( S_ERROR "network initialization failed.\n" );
return;
}
#endif
#ifdef CAN_ASYNC_NS_RESOLVE
NET_InitializeCriticalSections();
#endif
net.allow_ip = !Sys_CheckParm( "-noip" );
net.allow_ip6 = !Sys_CheckParm( "-noip6" );
// specify custom host port
if( Sys_GetParmFromCmdLine( "-port", cmd ) && Q_isdigit( cmd ))
Cvar_FullSet( "hostport", cmd, FCVAR_READ_ONLY );
// specify custom IPv6 host port
if( Sys_GetParmFromCmdLine( "-port6", cmd ) && Q_isdigit( cmd ))
Cvar_FullSet( "ip6_hostport", cmd, FCVAR_READ_ONLY );
// specify custom ip
if( Sys_GetParmFromCmdLine( "-ip", cmd ))
Cvar_FullSet( "ip", cmd, net_ipname.flags );
// specify custom ip6
if( Sys_GetParmFromCmdLine( "-ip6", cmd ))
Cvar_FullSet( "ip6", cmd, net_ip6name.flags );
// adjust clockwindow
if( Sys_GetParmFromCmdLine( "-clockwindow", cmd ))
Cvar_SetValue( "clockwindow", Q_atof( cmd ));
net.sequence_number = 1;
net.initialized = true;
Con_Reportf( "Base networking initialized.\n" );
}
/*
====================
NET_Shutdown
====================
*/
void NET_Shutdown( void )
{
if( !net.initialized )
return;
NET_ClearLagData( true, true );
NET_Config( false, false );
#if XASH_WIN32
WSACleanup();
#endif
net.initialized = false;
}
/*
=================================================
HTTP downloader
=================================================
*/
typedef struct httpserver_s
{
char host[256];
int port;
char path[MAX_SYSPATH];
qboolean needfree;
struct httpserver_s *next;
} httpserver_t;
enum connectionstate
{
HTTP_QUEUE = 0,
HTTP_OPENED,
HTTP_SOCKET,
HTTP_NS_RESOLVED,
HTTP_CONNECTED,
HTTP_REQUEST,
HTTP_REQUEST_SENT,
HTTP_RESPONSE_RECEIVED,
HTTP_FREE
};
typedef struct httpfile_s
{
struct httpfile_s *next;
httpserver_t *server;
char path[MAX_SYSPATH];
file_t *file;
int socket;
int size;
int downloaded;
int lastchecksize;
float checktime;
float blocktime;
int id;
enum connectionstate state;
qboolean process;
// query or response
char buf[BUFSIZ+1];
int header_size, query_length, bytes_sent;
} httpfile_t;
static struct http_static_s
{
// file and server lists
httpfile_t *first_file, *last_file;
httpserver_t *first_server, *last_server;
} http;
static CVAR_DEFINE_AUTO( http_useragent, "", FCVAR_ARCHIVE | FCVAR_PRIVILEGED, "User-Agent string" );
static CVAR_DEFINE_AUTO( http_autoremove, "1", FCVAR_ARCHIVE | FCVAR_PRIVILEGED, "remove broken files" );
static CVAR_DEFINE_AUTO( http_timeout, "45", FCVAR_ARCHIVE | FCVAR_PRIVILEGED, "timeout for http downloader" );
static CVAR_DEFINE_AUTO( http_maxconnections, "4", FCVAR_ARCHIVE | FCVAR_PRIVILEGED, "maximum http connection number" );
/*
========================
HTTP_ClearCustomServers
========================
*/
void HTTP_ClearCustomServers( void )
{
if( http.first_file )
return; // may be referenced
while( http.first_server && http.first_server->needfree )
{
httpserver_t *tmp = http.first_server;
http.first_server = http.first_server->next;
Mem_Free( tmp );
}
}
/*
==============
HTTP_FreeFile
Skip to next server/file
==============
*/
static void HTTP_FreeFile( httpfile_t *file, qboolean error )
{
char incname[256];
// Allways close file and socket
if( file->file )
FS_Close( file->file );
file->file = NULL;
if( file->socket != -1 )
closesocket( file->socket );
file->socket = -1;
Q_snprintf( incname, 256, "downloaded/%s.incomplete", file->path );
if( error )
{
// Switch to next fastdl server if present
if( file->server && ( file->state > HTTP_QUEUE ) && ( file->state != HTTP_FREE ))
{
file->server = file->server->next;
file->state = HTTP_QUEUE; // Reset download state, HTTP_Run() will open file again
return;
}
// Called because there was no servers to download, free file now
if( http_autoremove.value == 1 ) // remove broken file
FS_Delete( incname );
else // autoremove disabled, keep file
Con_Printf( "cannot download %s from any server. "
"You may remove %s now\n", file->path, incname ); // Warn about trash file
if( file->process )
CL_ProcessFile( false, file->path ); // Process file, increase counter
}
else
{
// Success, rename and process file
char name[256];
Q_snprintf( name, 256, "downloaded/%s", file->path );
FS_Rename( incname, name );
if( file->process )
CL_ProcessFile( true, name );
else
Con_Printf( "successfully downloaded %s, processing disabled!\n", name );
}
file->state = HTTP_FREE;
}
/*
===================
HTTP_AutoClean
remove files with HTTP_FREE state from list
===================
*/
static void HTTP_AutoClean( void )
{
httpfile_t *curfile, *prevfile = 0;
// clean all files marked to free
for( curfile = http.first_file; curfile; curfile = curfile->next )
{
if( curfile->state != HTTP_FREE )
{
prevfile = curfile;
continue;
}
if( curfile == http.first_file )
{
http.first_file = http.first_file->next;
Mem_Free( curfile );
curfile = http.first_file;
if( !curfile )
break;
continue;
}
if( prevfile )
prevfile->next = curfile->next;
Mem_Free( curfile );
curfile = prevfile;
if( !curfile )
break;
}
http.last_file = prevfile;
}
/*
===================
HTTP_ProcessStream
process incoming data
===================
*/
static qboolean HTTP_ProcessStream( httpfile_t *curfile )
{
char buf[BUFSIZ+1];
char *begin = 0;
int res;
if( curfile->header_size >= BUFSIZ )
{
Con_Reportf( S_ERROR "Header to big\n");
HTTP_FreeFile( curfile, true );
return false;
}
while( ( res = recv( curfile->socket, buf, BUFSIZ - curfile->header_size, 0 )) > 0) // if we got there, we are receiving data
{
curfile->blocktime = 0;
if( curfile->state < HTTP_RESPONSE_RECEIVED ) // Response still not received
{
memcpy( curfile->buf + curfile->header_size, buf, res );
curfile->buf[curfile->header_size + res] = 0;
begin = Q_strstr( curfile->buf, "\r\n\r\n" );
if( begin ) // Got full header
{
int cutheadersize = begin - curfile->buf + 4; // after that begin of data
char *length;
Con_Reportf( "HTTP: Got response!\n" );
if( !Q_strstr( curfile->buf, "200 OK" ))
{
*begin = 0; // cut string to print out response
begin = Q_strchr( curfile->buf, '\r' );
if( !begin ) begin = Q_strchr( curfile->buf, '\n' );
if( begin )
*begin = 0;
Con_Printf( S_ERROR "%s: bad response: %s\n", curfile->path, curfile->buf );
HTTP_FreeFile( curfile, true );
return false;
}
// print size
length = Q_stristr( curfile->buf, "Content-Length: " );
if( length )
{
int size = Q_atoi( length += 16 );
Con_Reportf( "HTTP: File size is %d\n", size );
if( ( curfile->size != -1 ) && ( curfile->size != size )) // check size if specified, not used
Con_Reportf( S_WARN "Server reports wrong file size!\n" );
curfile->size = size;
curfile->header_size = 0;
}
if( curfile->size == -1 )
{
// Usually fastdl's reports file size if link is correct
Con_Printf( S_ERROR "file size is unknown, refusing download!\n" );
HTTP_FreeFile( curfile, true );
return false;
}
curfile->state = HTTP_RESPONSE_RECEIVED; // got response, let's start download
begin += 4;
// Write remaining message part
if( res - cutheadersize - curfile->header_size > 0 )
{
int ret = FS_Write( curfile->file, begin, res - cutheadersize - curfile->header_size );
if( ret != res - cutheadersize - curfile->header_size ) // could not write file
{
// close it and go to next
Con_Printf( S_ERROR "write failed for %s!\n", curfile->path );
HTTP_FreeFile( curfile, true );
return false;
}
curfile->downloaded += ret;
}
}
else
curfile->header_size += res;
}
else if( res > 0 )
{
// data download
int ret = FS_Write( curfile->file, buf, res );
if ( ret != res )
{
// close it and go to next
Con_Printf( S_ERROR "write failed for %s!\n", curfile->path );
curfile->state = HTTP_FREE;
HTTP_FreeFile( curfile, true );
return false;
}
curfile->downloaded += ret;
curfile->lastchecksize += ret;
// as after it will run in same frame
if( curfile->checktime > 5 )
{
float speed = (float)curfile->lastchecksize / ( 5.0f * 1024 );
curfile->checktime = 0;
Con_Reportf( "download speed %f KB/s\n", speed );
curfile->lastchecksize = 0;
}
}
}
curfile->checktime += host.frametime;
return true;
}
/*
==============
HTTP_Run
Download next file block of each active file
Call every frame
==============
*/
void HTTP_Run( void )
{
httpfile_t *curfile;
int iActiveCount = 0;
int iProgressCount = 0;
float flProgress = 0;
qboolean fResolving = false;
for( curfile = http.first_file; curfile; curfile = curfile->next )
{
struct sockaddr_storage addr;
if( curfile->state == HTTP_FREE )
continue;
if( curfile->state == HTTP_QUEUE )
{
char name[MAX_SYSPATH];
if( iActiveCount > http_maxconnections.value )
continue;
if( !curfile->server )
{
Con_Printf( S_ERROR "no servers to download %s!\n", curfile->path );
HTTP_FreeFile( curfile, true );
break;
}
Con_Reportf( "HTTP: Starting download %s from %s\n", curfile->path, curfile->server->host );
Q_snprintf( name, sizeof( name ), "downloaded/%s.incomplete", curfile->path );
curfile->file = FS_Open( name, "wb", true );
if( !curfile->file )
{
Con_Printf( S_ERROR "cannot open %s!\n", name );
HTTP_FreeFile( curfile, true );
break;
}
curfile->state = HTTP_OPENED;
curfile->blocktime = 0;
curfile->downloaded = 0;
curfile->lastchecksize = 0;
curfile->checktime = 0;
}
iActiveCount++;
if( curfile->state < HTTP_SOCKET ) // Socket is not created
{
dword mode;
curfile->socket = socket( AF_INET, SOCK_STREAM, IPPROTO_TCP );
// Now set non-blocking mode
// You may skip this if not supported by system,
// but download will lock engine, maybe you will need to add manual returns
mode = 1;
ioctlsocket( curfile->socket, FIONBIO, (void*)&mode );
#if XASH_LINUX
// SOCK_NONBLOCK is not portable, so use fcntl
fcntl( curfile->socket, F_SETFL, fcntl( curfile->socket, F_GETFL, 0 ) | O_NONBLOCK );
#endif
curfile->state = HTTP_SOCKET;
}
if( curfile->state < HTTP_NS_RESOLVED )
{
net_gai_state_t res;
char hostport[MAX_VA_STRING];
if( fResolving )
continue;
Q_snprintf( hostport, sizeof( hostport ), "%s:%d", curfile->server->host, curfile->server->port );
res = NET_StringToSockaddr( hostport, &addr, true, AF_INET );
if( res == NET_EAI_AGAIN )
{
fResolving = true;
continue;
}
if( res == NET_EAI_NONAME )
{
Con_Printf( S_ERROR "failed to resolve server address for %s!\n", curfile->server->host );
HTTP_FreeFile( curfile, true ); // Cannot connect
break;
}
curfile->state = HTTP_NS_RESOLVED;
}
if( curfile->state < HTTP_CONNECTED ) // Connection not enstabilished
{
int res = connect( curfile->socket, (struct sockaddr*)&addr, NET_SockAddrLen( &addr ) );
if( res )
{
if( WSAGetLastError() == WSAEINPROGRESS || WSAGetLastError() == WSAEWOULDBLOCK ) // Should give EWOOLDBLOCK if try recv too soon
curfile->state = HTTP_CONNECTED;
else
{
Con_Printf( S_ERROR "cannot connect to server: %s\n", NET_ErrorString( ));
HTTP_FreeFile( curfile, true ); // Cannot connect
break;
}
continue; // skip to next file
}
curfile->state = HTTP_CONNECTED;
}
if( curfile->state < HTTP_REQUEST ) // Request not formatted
{
string useragent;
if( !COM_CheckStringEmpty( http_useragent.string ) || !Q_strcmp( http_useragent.string, "xash3d" ))
{
Q_snprintf( useragent, sizeof( useragent ), "%s/%s (%s-%s; build %d; %s)",
XASH_ENGINE_NAME, XASH_VERSION, Q_buildos( ), Q_buildarch( ), Q_buildnum( ), Q_buildcommit( ));
}
else
{
Q_strncpy( useragent, http_useragent.string, sizeof( useragent ));
}
curfile->query_length = Q_snprintf( curfile->buf, sizeof( curfile->buf ),
"GET %s%s HTTP/1.0\r\n"
"Host: %s\r\n"
"User-Agent: %s\r\n\r\n", curfile->server->path,
curfile->path, curfile->server->host, useragent );
curfile->header_size = 0;
curfile->bytes_sent = 0;
curfile->state = HTTP_REQUEST;
}
if( curfile->state < HTTP_REQUEST_SENT ) // Request not sent
{
qboolean wait = false;
while( curfile->bytes_sent < curfile->query_length )
{
int res = send( curfile->socket, curfile->buf + curfile->bytes_sent, curfile->query_length - curfile->bytes_sent, 0 );
if( res < 0 )
{
if( WSAGetLastError() != WSAEWOULDBLOCK && WSAGetLastError() != WSAENOTCONN )
{
Con_Printf( S_ERROR "failed to send request: %s\n", NET_ErrorString( ));
HTTP_FreeFile( curfile, true );
wait = true;
break;
}
// blocking while waiting connection
// increase counter when blocking
curfile->blocktime += host.frametime;
wait = true;
if( curfile->blocktime > http_timeout.value )
{
Con_Printf( S_ERROR "timeout on request send:\n%s\n", curfile->buf );
HTTP_FreeFile( curfile, true );
break;
}
break;
}
else
{
curfile->bytes_sent += res;
curfile->blocktime = 0;
}
}
if( wait )
continue;
Con_Reportf( "HTTP: Request sent!\n");
memset( curfile->buf, 0, sizeof( curfile->buf ));
curfile->state = HTTP_REQUEST_SENT;
}
if( !HTTP_ProcessStream( curfile ))
break;
if( curfile->size > 0 )
{
flProgress += (float)curfile->downloaded / curfile->size;
iProgressCount++;
}
if( curfile->size > 0 && curfile->downloaded >= curfile->size )
{
HTTP_FreeFile( curfile, false ); // success
break;
}
else if(( WSAGetLastError( ) != WSAEWOULDBLOCK ) && ( WSAGetLastError( ) != WSAEINPROGRESS ))
Con_Reportf( "problem downloading %s:\n%s\n", curfile->path, NET_ErrorString( ));
else
curfile->blocktime += host.frametime;
if( curfile->blocktime > http_timeout.value )
{
Con_Printf( S_ERROR "timeout on receiving data!\n");
HTTP_FreeFile( curfile, true );
break;
}
}
// update progress
if( !Host_IsDedicated() && iProgressCount != 0 )
Cvar_SetValue( "scr_download", flProgress/iProgressCount * 100 );
HTTP_AutoClean();
}
/*
===================
HTTP_AddDownload
Add new download to end of queue
===================
*/
void HTTP_AddDownload( const char *path, int size, qboolean process )
{
httpfile_t *httpfile = Z_Calloc( sizeof( httpfile_t ));
Con_Reportf( "File %s queued to download\n", path );
httpfile->size = size;
httpfile->downloaded = 0;
httpfile->socket = -1;
Q_strncpy ( httpfile->path, path, sizeof( httpfile->path ));
if( http.last_file )
{
// Add next to last download
httpfile->id = http.last_file->id + 1;
http.last_file->next= httpfile;
http.last_file = httpfile;
}
else
{
// It will be the only download
httpfile->id = 0;
http.last_file = http.first_file = httpfile;
}
httpfile->file = NULL;
httpfile->next = NULL;
httpfile->state = HTTP_QUEUE;
httpfile->server = http.first_server;
httpfile->process = process;
}
/*
===============
HTTP_Download_f
Console wrapper
===============
*/
static void HTTP_Download_f( void )
{
if( Cmd_Argc() < 2 )
{
Con_Printf( S_USAGE "download <gamedir_path>\n");
return;
}
HTTP_AddDownload( Cmd_Argv( 1 ), -1, false );
}
/*
==============
HTTP_ParseURL
==============
*/
static httpserver_t *HTTP_ParseURL( const char *url )
{
httpserver_t *server;
int i;
url = Q_strstr( url, "http://" );
if( !url )
return NULL;
url += 7;
server = Z_Calloc( sizeof( httpserver_t ));
i = 0;
while( *url && ( *url != ':' ) && ( *url != '/' ) && ( *url != '\r' ) && ( *url != '\n' ))
{
if( i > sizeof( server->host ))
return NULL;
server->host[i++] = *url++;
}
server->host[i] = 0;
if( *url == ':' )
{
server->port = Q_atoi( ++url );
while( *url && ( *url != '/' ) && ( *url != '\r' ) && ( *url != '\n' ))
url++;
}
else
server->port = 80;
i = 0;
while( *url && ( *url != '\r' ) && ( *url != '\n' ))
{
if( i > sizeof( server->path ))
return NULL;
server->path[i++] = *url++;
}
server->path[i] = 0;
server->next = NULL;
server->needfree = false;
return server;
}
/*
=======================
HTTP_AddCustomServer
=======================
*/
void HTTP_AddCustomServer( const char *url )
{
httpserver_t *server = HTTP_ParseURL( url );
if( !server )
{
Con_Printf( S_ERROR "\"%s\" is not valid url!\n", url );
return;
}
server->needfree = true;
server->next = http.first_server;
http.first_server = server;
}
/*
=======================
HTTP_AddCustomServer_f
=======================
*/
static void HTTP_AddCustomServer_f( void )
{
if( Cmd_Argc() == 2 )
{
HTTP_AddCustomServer( Cmd_Argv( 1 ));
}
}
/*
============
HTTP_Clear_f
Clear all queue
============
*/
static void HTTP_Clear_f( void )
{
http.last_file = NULL;
while( http.first_file )
{
httpfile_t *file = http.first_file;
http.first_file = http.first_file->next;
if( file->file )
FS_Close( file->file );
if( file->socket != -1 )
closesocket( file->socket );
Mem_Free( file );
}
}
/*
==============
HTTP_Cancel_f
Stop current download, skip to next file
==============
*/
static void HTTP_Cancel_f( void )
{
if( !http.first_file )
return;
http.first_file->state = HTTP_FREE;
HTTP_FreeFile( http.first_file, true );
}
/*
=============
HTTP_Skip_f
Stop current download, skip to next server
=============
*/
static void HTTP_Skip_f( void )
{
if( http.first_file )
HTTP_FreeFile( http.first_file, true );
}
/*
=============
HTTP_List_f
Print all pending downloads to console
=============
*/
static void HTTP_List_f( void )
{
httpfile_t *file = http.first_file;
while( file )
{
if ( file->server )
Con_Printf ( "\t%d %d http://%s:%d/%s%s %d\n", file->id, file->state,
file->server->host, file->server->port, file->server->path,
file->path, file->downloaded );
else
Con_Printf ( "\t%d %d (no server) %s\n", file->id, file->state, file->path );
file = file->next;
}
}
/*
================
HTTP_ResetProcessState
When connected to new server, all old files should not increase counter
================
*/
void HTTP_ResetProcessState( void )
{
httpfile_t *file = http.first_file;
while( file )
{
file->process = false;
file = file->next;
}
}
/*
=============
HTTP_Init
=============
*/
void HTTP_Init( void )
{
char *serverfile, *line, token[1024];
http.last_server = NULL;
http.first_file = http.last_file = NULL;
Cmd_AddRestrictedCommand( "http_download", HTTP_Download_f, "add file to download queue" );
Cmd_AddRestrictedCommand( "http_skip", HTTP_Skip_f, "skip current download server" );
Cmd_AddRestrictedCommand( "http_cancel", HTTP_Cancel_f, "cancel current download" );
Cmd_AddRestrictedCommand( "http_clear", HTTP_Clear_f, "cancel all downloads" );
Cmd_AddRestrictedCommand( "http_list", HTTP_List_f, "list all queued downloads" );
Cmd_AddCommand( "http_addcustomserver", HTTP_AddCustomServer_f, "add custom fastdl server");
Cvar_RegisterVariable( &http_useragent );
Cvar_RegisterVariable( &http_autoremove );
Cvar_RegisterVariable( &http_timeout );
Cvar_RegisterVariable( &http_maxconnections );
// Read servers from fastdl.txt
line = serverfile = (char *)FS_LoadFile( "fastdl.txt", 0, false );
if( serverfile )
{
while(( line = COM_ParseFile( line, token, sizeof( token ))))
{
httpserver_t *server = HTTP_ParseURL( token );
if( !server )
continue;
if( !http.last_server )
http.last_server = http.first_server = server;
else
{
http.last_server->next = server;
http.last_server = server;
}
}
Mem_Free( serverfile );
}
}
/*
====================
HTTP_Shutdown
====================
*/
void HTTP_Shutdown( void )
{
HTTP_Clear_f();
while( http.first_server )
{
httpserver_t *tmp = http.first_server;
http.first_server = http.first_server->next;
Mem_Free( tmp );
}
http.last_server = NULL;
}