/* Copyright (C) 1996-1997 Id Software, Inc. 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 2 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. 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ // net_wins.c struct sockaddr; #include "quakedef.h" #include "netinc.h" #ifdef _WIN32 #define USE_GETHOSTNAME_LOCALLISTING #endif netadr_t net_local_cl_ipadr; //still used to match local ui requests (quake/gamespy), and to generate ip reports for q3 servers (which is probably pointless). netadr_t net_from; sizebuf_t net_message; //#define MAX_UDP_PACKET (MAX_MSGLEN*2) // one more than msg + header #define MAX_UDP_PACKET 8192 // one more than msg + header qbyte net_message_buffer[MAX_OVERALLMSGLEN]; #ifdef _WIN32 WSADATA winsockdata; #endif #ifdef IPPROTO_IPV6 #ifdef _WIN32 int (WINAPI *pgetaddrinfo) ( const char* nodename, const char* servname, const struct addrinfo* hints, struct addrinfo** res ); void (WSAAPI *pfreeaddrinfo) (struct addrinfo*); #else #define pgetaddrinfo getaddrinfo #define pfreeaddrinfo freeaddrinfo /*int (*pgetaddrinfo) ( const char* nodename, const char* servname, const struct addrinfo* hints, struct addrinfo** res ); void (*pfreeaddrinfo) (struct addrinfo*); */ #endif #endif #if defined(HAVE_IPV4) && !defined(CLIENTONLY) #define HAVE_NATPMP #endif void NET_GetLocalAddress (int socket, netadr_t *out); //int TCP_OpenListenSocket (const char *localip, int port); #ifdef IPPROTO_IPV6 int UDP6_OpenSocket (int port, qboolean bcast); #endif #ifdef USEIPX void IPX_CloseSocket (int socket); #endif cvar_t net_hybriddualstack = CVAR("net_hybriddualstack", "1"); cvar_t net_fakeloss = CVARFD("net_fakeloss", "0", CVAR_CHEAT, "Simulates packetloss in both receiving and sending, on a scale from 0 to 1."); extern cvar_t sv_public, sv_listen_qw, sv_listen_nq, sv_listen_dp, sv_listen_q3; static qboolean allowconnects = false; #define MAX_LOOPBACK 8 typedef struct { qbyte data[MAX_OVERALLMSGLEN]; int datalen; } loopmsg_t; typedef struct { qboolean inited; loopmsg_t msgs[MAX_LOOPBACK]; int get, send; } loopback_t; loopback_t loopbacks[2]; //============================================================================= int NetadrToSockadr (netadr_t *a, struct sockaddr_qstorage *s) { switch(a->type) { #ifdef HAVE_WEBSOCKCL case NA_WEBSOCKET: memset (s, 0, sizeof(struct sockaddr_websocket)); ((struct sockaddr_websocket*)s)->sws_family = AF_WEBSOCK; memcpy(((struct sockaddr_websocket*)s)->url, a->address.websocketurl, sizeof(((struct sockaddr_websocket*)s)->url)); return sizeof(struct sockaddr_websocket); #endif #ifdef HAVE_IPV4 case NA_BROADCAST_IP: memset (s, 0, sizeof(struct sockaddr_in)); ((struct sockaddr_in*)s)->sin_family = AF_INET; *(int *)&((struct sockaddr_in*)s)->sin_addr = 0xffffffff;//INADDR_BROADCAST; ((struct sockaddr_in*)s)->sin_port = a->port; return sizeof(struct sockaddr_in); case NA_TCP: case NA_IP: memset (s, 0, sizeof(struct sockaddr_in)); ((struct sockaddr_in*)s)->sin_family = AF_INET; *(int *)&((struct sockaddr_in*)s)->sin_addr = *(int *)&a->address.ip; ((struct sockaddr_in*)s)->sin_port = a->port; return sizeof(struct sockaddr_in); #endif #ifdef IPPROTO_IPV6 case NA_BROADCAST_IP6: memset (s, 0, sizeof(struct sockaddr_in)); ((struct sockaddr_in6*)s)->sin6_family = AF_INET6; memset((int *)&((struct sockaddr_in6*)s)->sin6_addr, 0, sizeof(*(int *)&((struct sockaddr_in6*)s)->sin6_addr)); ((struct sockaddr_in6*)s)->sin6_addr.s6_addr[0] = 0xff; ((struct sockaddr_in6*)s)->sin6_addr.s6_addr[1] = 0x02; ((struct sockaddr_in6*)s)->sin6_addr.s6_addr[15] = 0x01; ((struct sockaddr_in6*)s)->sin6_port = a->port; return sizeof(struct sockaddr_in6); case NA_TCPV6: case NA_IPV6: memset (s, 0, sizeof(struct sockaddr_in6)); ((struct sockaddr_in6*)s)->sin6_family = AF_INET6; memcpy(&((struct sockaddr_in6*)s)->sin6_addr, a->address.ip6, sizeof(struct in6_addr)); ((struct sockaddr_in6*)s)->sin6_port = a->port; return sizeof(struct sockaddr_in6); #endif #ifdef USEIPX case NA_IPX: ((struct sockaddr_ipx *)s)->sa_family = AF_IPX; memcpy(((struct sockaddr_ipx *)s)->sa_netnum, &a->address.ipx[0], 4); memcpy(((struct sockaddr_ipx *)s)->sa_nodenum, &a->address.ipx[4], 6); ((struct sockaddr_ipx *)s)->sa_socket = a->port; return sizeof(struct sockaddr_ipx); case NA_BROADCAST_IPX: memset (s, 0, sizeof(struct sockaddr_ipx)); ((struct sockaddr_ipx*)s)->sa_family = AF_IPX; memset(&((struct sockaddr_ipx*)s)->sa_netnum, 0, 4); memset(&((struct sockaddr_ipx*)s)->sa_nodenum, 0xff, 6); ((struct sockaddr_ipx*)s)->sa_socket = a->port; return sizeof(struct sockaddr_ipx); #endif default: Sys_Error("Bad type - needs fixing"); return 0; } } void SockadrToNetadr (struct sockaddr_qstorage *s, netadr_t *a) { a->connum = 0; switch (((struct sockaddr*)s)->sa_family) { #ifdef HAVE_WEBSOCKCL case AF_WEBSOCK: a->type = NA_WEBSOCKET; memcpy(a->address.websocketurl, ((struct sockaddr_websocket*)s)->url, sizeof(a->address.websocketurl)); a->port = 0; break; #endif #ifdef HAVE_IPV4 case AF_INET: a->type = NA_IP; *(int *)&a->address.ip = ((struct sockaddr_in *)s)->sin_addr.s_addr; a->port = ((struct sockaddr_in *)s)->sin_port; break; #endif #ifdef IPPROTO_IPV6 case AF_INET6: a->type = NA_IPV6; memcpy(&a->address.ip6, &((struct sockaddr_in6 *)s)->sin6_addr, sizeof(a->address.ip6)); a->port = ((struct sockaddr_in6 *)s)->sin6_port; break; #endif #ifdef USEIPX case AF_IPX: a->type = NA_IPX; *(int *)a->address.ip = 0xffffffff; memcpy(&a->address.ipx[0], ((struct sockaddr_ipx *)s)->sa_netnum, 4); memcpy(&a->address.ipx[4], ((struct sockaddr_ipx *)s)->sa_nodenum, 6); a->port = ((struct sockaddr_ipx *)s)->sa_socket; break; #endif default: Con_Printf("SockadrToNetadr: bad socket family - %i", ((struct sockaddr*)s)->sa_family); case AF_UNSPEC: memset(a, 0, sizeof(*a)); a->type = NA_INVALID; break; } } qboolean NET_CompareAdr (netadr_t *a, netadr_t *b) { if (a->type != b->type) { int i; if (a->type == NA_IP && b->type == NA_IPV6) { for (i = 0; i < 10; i++) if (b->address.ip6[i] != 0) return false; //only matches if they're 0s, otherwise its not an ipv4 address there for (; i < 12; i++) if (b->address.ip6[i] != 0xff && b->address.ip6[i] != 0x00) //0x00 is depricated return false; //only matches if they're 0s or ffs, otherwise its not an ipv4 address there for (i = 0; i < 4; i++) { if (a->address.ip[i] != b->address.ip6[12+i]) return false; //mask doesn't match } return true; //its an ipv4 address in there, the mask matched the whole way through } if (a->type == NA_IPV6 && b->type == NA_IP) { for (i = 0; i < 10; i++) if (a->address.ip6[i] != 0) return false; //only matches if they're 0s, otherwise its not an ipv4 address there for (; i < 12; i++) if (a->address.ip6[i] != 0xff && a->address.ip6[i] != 0x00) //0x00 is depricated return false; //only matches if they're 0s or ffs, otherwise its not an ipv4 address there for (i = 0; i < 4; i++) { if (a->address.ip6[12+i] != b->address.ip[i]) return false; //mask doesn't match } return true; //its an ipv4 address in there, the mask matched the whole way through } return false; } if (a->type == NA_LOOPBACK) return true; #ifdef HAVE_WEBSOCKCL if (a->type == NA_WEBSOCKET) { if (!strcmp(a->address.websocketurl, a->address.websocketurl) && a->port == b->port) return true; return false; } #endif #ifdef HAVE_IPV4 if (a->type == NA_IP || a->type == NA_BROADCAST_IP || a->type == NA_TCP) { if ((memcmp(a->address.ip, b->address.ip, sizeof(a->address.ip)) == 0) && a->port == b->port) return true; return false; } #endif #ifdef IPPROTO_IPV6 if (a->type == NA_IPV6 || a->type == NA_BROADCAST_IP6 || a->type == NA_TCPV6) { if ((memcmp(a->address.ip6, b->address.ip6, sizeof(a->address.ip6)) == 0) && a->port == b->port) return true; return false; } #endif #ifdef USEIPX if (a->type == NA_IPX || a->type == NA_BROADCAST_IPX) { if ((memcmp(a->address.ipx, b->address.ipx, sizeof(a->address.ipx)) == 0) && a->port == b->port) return true; return false; } #endif #ifdef IRCCONNECT if (a->type == NA_IRC) { if (!strcmp(a->address.irc.user, b->address.irc.user)) return true; return false; } #endif Sys_Error("NET_CompareAdr: Bad address type"); return false; } /* =================== NET_CompareBaseAdr Compares without the port =================== */ qboolean NET_CompareBaseAdr (netadr_t *a, netadr_t *b) { if (a->type != b->type) return false; if (a->type == NA_LOOPBACK) return true; #ifdef HAVE_IPV4 if (a->type == NA_IP || a->type == NA_TCP) { if ((memcmp(a->address.ip, b->address.ip, sizeof(a->address.ip)) == 0)) return true; return false; } #endif #ifdef IPPROTO_IPV6 if (a->type == NA_IPV6 || a->type == NA_BROADCAST_IP6) { if ((memcmp(a->address.ip6, b->address.ip6, 16) == 0)) return true; return false; } #endif #ifdef USEIPX if (a->type == NA_IPX) { if ((memcmp(a->address.ipx, b->address.ipx, 10) == 0)) return true; return false; } #endif #ifdef IRCCONNECT if (a->type == NA_IRC) { if (!strcmp(a->address.irc.user, b->address.irc.user)) return true; return false; } #endif Sys_Error("NET_CompareBaseAdr: Bad address type"); return false; } qboolean NET_AddressSmellsFunny(netadr_t *a) { #ifdef IPPROTO_IPV6 int i; #endif //rejects certain blacklisted addresses switch(a->type) { #ifdef HAVE_IPV4 case NA_BROADCAST_IP: case NA_IP: //reject localhost if (a->address.ip[0] == 127)// && a->address.ip[1] == 0 && a->address.ip[2] == 0 && a->address.ip[3] == 1 ) return true; //'this' network (not an issue, but lets reject it anyway) if (a->address.ip[0] == 0 && a->address.ip[1] == 0 && a->address.ip[2] == 0 && a->address.ip[3] == 0 ) return true; //reject any broadcasts if (a->address.ip[0] == 255 && a->address.ip[1] == 255 && a->address.ip[2] == 255 && a->address.ip[3] == 0 ) return true; //not much else I can reject return false; #endif #ifdef IPPROTO_IPV6 case NA_BROADCAST_IP6: case NA_IPV6: //reject [::XXXX] (this includes obsolete ipv4-compatible (not ipv4 mapped), and localhost) for (i = 0; i < 12; i++) if (a->address.ip6[i]) break; if (i == 12) return true; return false; #endif #ifdef USEIPX //no idea how this protocol's addresses work case NA_BROADCAST_IPX: case NA_IPX: return false; #endif case NA_LOOPBACK: return false; default: return true; } } char *NET_AdrToString (char *s, int len, netadr_t *a) { char *rs = s; char *p; int i; #ifdef IPPROTO_IPV6 qboolean doneblank; #endif switch(a->type) { #ifdef HAVE_WEBSOCKCL case NA_WEBSOCKET: Q_strncpyz(s, a->address.websocketurl, len); break; #endif #ifdef TCPCONNECT case NA_TCP: if (len < 7) return "?"; snprintf (s, len, "tcp://"); s += 6; len -= 6; //fallthrough #endif #ifdef HAVE_IPV4 case NA_BROADCAST_IP: case NA_IP: if (a->port) { snprintf (s, len, "%i.%i.%i.%i:%i", a->address.ip[0], a->address.ip[1], a->address.ip[2], a->address.ip[3], ntohs(a->port)); } else { snprintf (s, len, "%i.%i.%i.%i", a->address.ip[0], a->address.ip[1], a->address.ip[2], a->address.ip[3]); } break; #endif #ifdef TCPCONNECT case NA_TCPV6: if (len < 7) return "?"; snprintf (s, len, "tcp://"); s += 6; len -= 6; //fallthrough #endif #ifdef IPPROTO_IPV6 case NA_BROADCAST_IP6: case NA_IPV6: if (!*(int*)&a->address.ip6[0] && !*(int*)&a->address.ip6[4] && !*(short*)&a->address.ip6[8] && *(short*)&a->address.ip6[10] == (short)0xffff) { if (a->port) snprintf (s, len, "%i.%i.%i.%i:%i", a->address.ip6[12], a->address.ip6[13], a->address.ip6[14], a->address.ip6[15], ntohs(a->port)); else snprintf (s, len, "%i.%i.%i.%i", a->address.ip6[12], a->address.ip6[13], a->address.ip6[14], a->address.ip6[15]); break; } *s = 0; doneblank = false; p = s; if (a->port) { snprintf (s, len-strlen(s), "["); p += strlen(p); } for (i = 0; i < 16; i+=2) { if (doneblank!=true && a->address.ip6[i] == 0 && a->address.ip6[i+1] == 0) { if (!doneblank) { snprintf (p, len-strlen(s), "::"); p += strlen(p); doneblank = 2; } } else { if (doneblank==2) doneblank = true; else if (i != 0) { snprintf (p, len-strlen(s), ":"); p += strlen(p); } if (a->address.ip6[i+0]) { snprintf (p, len-strlen(s), "%x%02x", a->address.ip6[i+0], a->address.ip6[i+1]); } else { snprintf (p, len-strlen(s), "%x", a->address.ip6[i+1]); } p += strlen(p); } } if (a->port) snprintf (p, len-strlen(s), "]:%i", ntohs(a->port)); break; #endif #ifdef USEIPX case NA_BROADCAST_IPX: case NA_IPX: snprintf (s, len, "%02x%02x%02x%02x:%02x%02x%02x%02x%02x%02x:%i", a->address.ipx[0], a->address.ipx[1], a->address.ipx[2], a->address.ipx[3], a->address.ipx[4], a->address.ipx[5], a->address.ipx[6], a->address.ipx[7], a->address.ipx[8], a->address.ipx[9], ntohs(a->port)); break; #endif case NA_LOOPBACK: snprintf (s, len, "QLoopBack"); break; #ifdef IRCCONNECT case NA_IRC: if (*a->address.irc.channel) snprintf (s, len, "irc://%s@%s", a->address.irc.user, a->address.irc.channel); else snprintf (s, len, "irc://%s", a->address.irc.user); break; #endif default: snprintf (s, len, "invalid netadr_t type"); // Sys_Error("NET_AdrToString: Bad netadr_t type"); } return rs; } char *NET_BaseAdrToString (char *s, int len, netadr_t *a) { int i, doneblank; char *p; switch(a->type) { case NA_BROADCAST_IP: case NA_IP: snprintf (s, len, "%i.%i.%i.%i", a->address.ip[0], a->address.ip[1], a->address.ip[2], a->address.ip[3]); break; case NA_TCP: snprintf (s, len, "tcp://%i.%i.%i.%i", a->address.ip[0], a->address.ip[1], a->address.ip[2], a->address.ip[3]); break; #ifdef IPPROTO_IPV6 case NA_BROADCAST_IP6: case NA_IPV6: if (!*(int*)&a->address.ip6[0] && !*(int*)&a->address.ip6[4] && !*(short*)&a->address.ip6[8] && *(short*)&a->address.ip6[10] == (short)0xffff) { snprintf (s, len, "%i.%i.%i.%i", a->address.ip6[12], a->address.ip6[13], a->address.ip6[14], a->address.ip6[15]); break; } *s = 0; doneblank = false; p = s; for (i = 0; i < 16; i+=2) { if (doneblank!=true && a->address.ip6[i] == 0 && a->address.ip6[i+1] == 0) { if (!doneblank) { snprintf (p, len-strlen(s), "::"); p += strlen(p); doneblank = 2; } } else { if (doneblank==2) doneblank = true; else if (i != 0) { snprintf (p, len-strlen(s), ":"); p += strlen(p); } if (a->address.ip6[i+0]) { snprintf (p, len-strlen(s), "%x%02x", a->address.ip6[i+0], a->address.ip6[i+1]); } else { snprintf (p, len-strlen(s), "%x", a->address.ip6[i+1]); } p += strlen(p); } } break; #endif #ifdef USEIPX case NA_BROADCAST_IPX: case NA_IPX: snprintf (s, len, "%02x%02x%02x%02x:%02x%02x%02x%02x%02x%02x", a->address.ipx[0], a->address.ipx[1], a->address.ipx[2], a->address.ipx[3], a->address.ipx[4], a->address.ipx[5], a->address.ipx[6], a->address.ipx[7], a->address.ipx[8], a->address.ipx[9]); break; #endif case NA_LOOPBACK: snprintf (s, len, "QLoopBack"); break; #ifdef IRCCONNECT case NA_IRC: NET_AdrToString(s, len, a); break; #endif default: Sys_Error("NET_BaseAdrToString: Bad netadr_t type"); } return s; } /* ============= NET_StringToAdr idnewt idnewt:28000 192.246.40.70 192.246.40.70:28000 any form of ipv6, including port number. ============= */ qboolean NET_StringToSockaddr (const char *s, int defaultport, struct sockaddr_qstorage *sadr, int *addrfamily, int *addrsize) { struct hostent *h; char *colon; char copy[128]; if (!(*s)) return false; memset (sadr, 0, sizeof(*sadr)); #ifdef USEIPX if ((strlen(s) >= 23) && (s[8] == ':') && (s[21] == ':')) // check for an IPX address { unsigned int val; ((struct sockaddr_ipx *)sadr)->sa_family = AF_IPX; #define DO(src,dest) \ copy[0] = s[src]; \ copy[1] = s[src + 1]; \ sscanf (copy, "%x", &val); \ ((struct sockaddr_ipx *)sadr)->dest = val copy[2] = 0; DO(0, sa_netnum[0]); DO(2, sa_netnum[1]); DO(4, sa_netnum[2]); DO(6, sa_netnum[3]); DO(9, sa_nodenum[0]); DO(11, sa_nodenum[1]); DO(13, sa_nodenum[2]); DO(15, sa_nodenum[3]); DO(17, sa_nodenum[4]); DO(19, sa_nodenum[5]); sscanf (&s[22], "%u", &val); #undef DO ((struct sockaddr_ipx *)sadr)->sa_socket = htons((unsigned short)val); if (addrfamily) *addrfamily = AF_IPX; if (addrsize) *addrsize = sizeof(struct sockaddr_ipx); } else #endif #ifdef IPPROTO_IPV6 #ifdef pgetaddrinfo if (1) #else if (pgetaddrinfo) #endif { struct addrinfo *addrinfo = NULL; struct addrinfo *pos; struct addrinfo udp6hint; int error; char *port; char dupbase[256]; int len; memset(&udp6hint, 0, sizeof(udp6hint)); udp6hint.ai_family = 0;//Any... we check for AF_INET6 or 4 udp6hint.ai_socktype = SOCK_DGRAM; udp6hint.ai_protocol = IPPROTO_UDP; if (*s == '[') { port = strstr(s, "]"); if (!port) error = EAI_NONAME; else { len = port - (s+1); if (len >= sizeof(dupbase)) len = sizeof(dupbase)-1; strncpy(dupbase, s+1, len); dupbase[len] = '\0'; error = pgetaddrinfo(dupbase, (port[1] == ':')?port+2:NULL, &udp6hint, &addrinfo); } } else { port = strrchr(s, ':'); if (port) { len = port - s; if (len >= sizeof(dupbase)) len = sizeof(dupbase)-1; strncpy(dupbase, s, len); dupbase[len] = '\0'; error = pgetaddrinfo(dupbase, port+1, &udp6hint, &addrinfo); } else error = EAI_NONAME; if (error) //failed, try string with no port. error = pgetaddrinfo(s, NULL, &udp6hint, &addrinfo); //remember, this func will return any address family that could be using the udp protocol... (ip4 or ip6) } if (error) { return false; } ((struct sockaddr*)sadr)->sa_family = 0; for (pos = addrinfo; pos; pos = pos->ai_next) { switch(pos->ai_family) { case AF_INET6: if (((struct sockaddr_in *)sadr)->sin_family == AF_INET6) break; //first one should be best... //fallthrough #ifdef HAVE_IPV4 case AF_INET: memcpy(sadr, pos->ai_addr, pos->ai_addrlen); if (pos->ai_family == AF_INET) goto dblbreak; //don't try finding any more, this is quake, they probably prefer ip4... break; #else memcpy(sadr, pos->ai_addr, pos->ai_addrlen); goto dblbreak; #endif } } dblbreak: pfreeaddrinfo (addrinfo); if (!((struct sockaddr*)sadr)->sa_family) //none suitablefound return false; if (addrfamily) *addrfamily = ((struct sockaddr*)sadr)->sa_family; if (((struct sockaddr*)sadr)->sa_family == AF_INET) { if (!((struct sockaddr_in *)sadr)->sin_port) ((struct sockaddr_in *)sadr)->sin_port = htons(defaultport); if (addrsize) *addrsize = sizeof(struct sockaddr_in); } else { if (!((struct sockaddr_in6 *)sadr)->sin6_port) ((struct sockaddr_in6 *)sadr)->sin6_port = htons(defaultport); if (addrsize) *addrsize = sizeof(struct sockaddr_in6); } } else #endif { #ifdef HAVE_IPV4 ((struct sockaddr_in *)sadr)->sin_family = AF_INET; ((struct sockaddr_in *)sadr)->sin_port = 0; if (strlen(s) >= sizeof(copy)-1) return false; ((struct sockaddr_in *)sadr)->sin_port = htons(defaultport); strcpy (copy, s); // strip off a trailing :port if present for (colon = copy ; *colon ; colon++) if (*colon == ':') { *colon = 0; ((struct sockaddr_in *)sadr)->sin_port = htons((short)atoi(colon+1)); } if (copy[0] >= '0' && copy[0] <= '9') //this is the wrong way to test. a server name may start with a number. { *(int *)&((struct sockaddr_in *)sadr)->sin_addr = inet_addr(copy); } else { if (! (h = gethostbyname(copy)) ) return false; if (h->h_addrtype != AF_INET) return false; *(int *)&((struct sockaddr_in *)sadr)->sin_addr = *(int *)h->h_addr_list[0]; } if (addrfamily) *addrfamily = AF_INET; if (addrsize) *addrsize = sizeof(struct sockaddr_in); #else return false; #endif } return true; } /* accepts anything that NET_StringToSockaddr accepts plus certain url schemes including: tcp, irc */ qboolean NET_StringToAdr (const char *s, int defaultport, netadr_t *a) { struct sockaddr_qstorage sadr; Con_DPrintf("Resolving address: %s\n", s); if (!strcmp (s, "internalserver")) { memset (a, 0, sizeof(*a)); a->type = NA_LOOPBACK; return true; } #ifdef HAVE_WEBSOCKCL if (!strncmp (s, "ws://", 5) || !strncmp (s, "wss://", 6)) { memset (a, 0, sizeof(*a)); a->type = NA_WEBSOCKET; Q_strncpyz(a->address.websocketurl, s, sizeof(a->address.websocketurl)); return true; } else { /*code for convienience - no other protocols work anyway*/ static float warned; if (warned < realtime) { Con_Printf("Note: Assuming ws:// prefix\n"); warned = realtime + 1; } memset (a, 0, sizeof(*a)); a->type = NA_WEBSOCKET; memcpy(a->address.websocketurl, "ws://", 5); Q_strncpyz(a->address.websocketurl+5, s, sizeof(a->address.websocketurl)-5); return true; } #endif #ifdef TCPCONNECT if (!strncmp (s, "tcp://", 6)) { //make sure that the rest of the address is a valid ip address (4 or 6) if (!NET_StringToSockaddr (s+6, defaultport, &sadr, NULL, NULL)) { a->type = NA_INVALID; return false; } SockadrToNetadr (&sadr, a); if (a->type == NA_IP) { a->type = NA_TCP; return true; } if (a->type == NA_IPV6) { a->type = NA_TCPV6; return true; } return false; } #endif #ifdef IRCCONNECT if (!strncmp (s, "irc://", 6)) { char *at; char *slash; memset (a, 0, sizeof(*a)); a->type = NA_IRC; s+=6; slash = strchr(s, '/'); if (!slash) return false; if (slash - s+1 >= sizeof(a->address.irc.host)) return false; memcpy(a->address.irc.host, s, slash - s); a->address.irc.host[slash - s] = 0; s = slash+1; at = strchr(s, '@'); if (at) { if (at-s+1 >= sizeof(a->address.irc.user)) return false; Q_strncpyz(a->address.irc.user, s, at-s+1); Q_strncpyz(a->address.irc.channel, at+1, sizeof(a->address.irc.channel)); } else { //just a user. Q_strncpyz(a->address.irc.user, s, sizeof(a->address.irc.user)); } return true; } #endif #ifdef HAVE_NATPMP if (!strncmp (s, "natpmp://", 9)) { NET_PortToAdr(NA_NATPMP, s+9, a); if (a->type == NA_IP) a->type = NA_NATPMP; if (a->type != NA_NATPMP) return false; return true; } #endif if (!NET_StringToSockaddr (s, defaultport, &sadr, NULL, NULL)) { a->type = NA_INVALID; return false; } SockadrToNetadr (&sadr, a); #if !defined(HAVE_PACKET) && defined(HAVE_TCP) //bump over protocols that cannot work in the first place. if (a->type == NA_IP) a->type = NA_TCP; if (a->type == NA_IPV6) a->type = NA_TCPV6; #endif return true; } // NET_IntegerToMask: given a source address pointer, a mask address pointer, and // desired number of bits, fills the mask pointer with given bits // (bits < 0 will always fill all bits) void NET_IntegerToMask (netadr_t *a, netadr_t *amask, int bits) { unsigned int i; qbyte *n; memset (amask, 0, sizeof(*amask)); amask->type = a->type; if (bits < 0) i = 8000; // fill all bits else i = bits; switch (amask->type) { case NA_INVALID: break; case NA_IP: case NA_BROADCAST_IP: n = amask->address.ip; if (i > 32) i = 32; for (; i >= 8; i -= 8) { *n = 0xFF; n++; } // fill last bit if (i) { i = 8 - i; i = 255 - ((1 << i) - 1); *n = i; } break; case NA_IPV6: case NA_BROADCAST_IP6: #ifdef IPPROTO_IPV6 n = amask->address.ip6; if (i > 128) i = 128; for (; i >= 8; i -= 8) { *n = 0xFF; n++; } // fill last bit if (i) { i = 8 - i; i = 255 - ((1 << i) - 1); *n = i; } #endif break; case NA_IPX: case NA_BROADCAST_IPX: #ifdef USEIPX n = amask->address.ipx; if (i > 80) i = 80; for (; i >= 8; i -= 8) { *n = 0xFF; n++; } // fill last bit if (i) { i = 8 - i; i = 255 - ((1 << i) - 1); *n = i; } #endif break; case NA_LOOPBACK: break; // warning: enumeration value âNA_*â not handled in switch case NA_NATPMP: case NA_WEBSOCKET: case NA_TCP: case NA_TCPV6: case NA_IRC: break; } } // ParsePartialIPv4: check string to see if it is a partial IPv4 address and // return bits to mask and set netadr_t or 0 if not an address int ParsePartialIPv4(const char *s, netadr_t *a) { const char *colon = NULL; char *address = a->address.ip; int bits = 8; if (!*s) return 0; memset (a, 0, sizeof(*a)); while (*s) { if (*s == ':') { if (colon) // only 1 colon return 0; colon = s + 1; } else if (*s == '.') { if (colon) // no colons before periods (probably invalid anyway) return 0; else if (bits >= 32) // only 32 bits in ipv4 return 0; else if (*(s+1) == '.') return 0; else if (*(s+1) == '\0') break; // don't add more bits to the mask for x.x., etc bits += 8; address++; } else if (*s >= '0' && *s <= '9') *address = ((*address)*10) + (*s-'0'); else return 0; // invalid character s++; } a->type = NA_IP; if (colon) a->port = atoi(colon); return bits; } // NET_StringToAdrMasked: extension to NET_StringToAdr to handle IP addresses // with masks or integers representing the bit masks qboolean NET_StringToAdrMasked (const char *s, netadr_t *a, netadr_t *amask) { char t[64]; char *spoint; int i; spoint = strchr(s, '/'); if (spoint) { // we have a slash in the address so split and resolve separately char *c; i = (int)(spoint - s) + 1; if (i > sizeof(t)) i = sizeof(t); Q_strncpyz(t, s, i); if (!ParsePartialIPv4(t, a) && !NET_StringToAdr(t, 0, a)) return false; spoint++; c = spoint; if (!*c) return false; while (*c) // check for non-numeric characters { if (*c < '0' || *c > '9') { c = NULL; break; } c++; } if (c == NULL) // we have an address so resolve it and return return ParsePartialIPv4(spoint, amask) || NET_StringToAdr(spoint, 0, amask); // otherwise generate mask for given bits i = atoi(spoint); NET_IntegerToMask(a, amask, i); } else { // we don't have a slash, resolve and fill with a full mask i = ParsePartialIPv4(s, a); if (!i && !NET_StringToAdr(s, 0, a)) return false; memset (amask, 0, sizeof(*amask)); amask->type = a->type; if (i) NET_IntegerToMask(a, amask, i); else NET_IntegerToMask(a, amask, -1); } return true; } // NET_CompareAdrMasked: given 3 addresses, 2 to compare with a complimentary mask, // returns true or false if they match qboolean NET_CompareAdrMasked(netadr_t *a, netadr_t *b, netadr_t *mask) { int i; //make sure the address being checked against matches the mask if (b->type != mask->type) return false; // check port if both are non-zero if (a->port && b->port && a->port != b->port) return false; // check to make sure all types match if (a->type != b->type) { if (a->type == NA_IP && b->type == NA_IPV6 && mask->type == NA_IP) { for (i = 0; i < 10; i++) if (b->address.ip6[i] != 0) return false; //only matches if they're 0s, otherwise its not an ipv4 address there for (; i < 12; i++) if (b->address.ip6[i] != 0xff && b->address.ip6[i] != 0x00) //0x00 is depricated return false; //only matches if they're 0s or ffs, otherwise its not an ipv4 address there for (i = 0; i < 4; i++) { if ((a->address.ip[i] & mask->address.ip[i]) != (b->address.ip6[12+i] & mask->address.ip[i])) return false; //mask doesn't match } return true; //its an ipv4 address in there, the mask matched the whole way through } if (a->type == NA_IPV6 && b->type == NA_IP && mask->type == NA_IP) { for (i = 0; i < 10; i++) if (a->address.ip6[i] != 0) return false; //only matches if they're 0s, otherwise its not an ipv4 address there for (; i < 12; i++) if (a->address.ip6[i] != 0xff && a->address.ip6[i] != 0x00) //0x00 is depricated return false; //only matches if they're 0s or ffs, otherwise its not an ipv4 address there for (i = 0; i < 4; i++) { if ((a->address.ip6[12+i] & mask->address.ip[i]) != (b->address.ip[i] & mask->address.ip[i])) return false; //mask doesn't match } return true; //its an ipv4 address in there, the mask matched the whole way through } return false; } // match on protocol type and compare address switch (a->type) { case NA_LOOPBACK: return true; case NA_BROADCAST_IP: case NA_IP: for (i = 0; i < 4; i++) { if ((a->address.ip[i] & mask->address.ip[i]) != (b->address.ip[i] & mask->address.ip[i])) return false; } break; #ifdef IPPROTO_IPV6 case NA_BROADCAST_IP6: case NA_IPV6: for (i = 0; i < 16; i++) { if ((a->address.ip6[i] & mask->address.ip6[i]) != (b->address.ip6[i] & mask->address.ip6[i])) return false; } break; #endif #ifdef USEIPX case NA_BROADCAST_IPX: case NA_IPX: for (i = 0; i < 10; i++) { if ((a->address.ipx[i] & mask->address.ipx[i]) != (b->address.ipx[i] & mask->address.ipx[i])) return false; } break; #endif #ifdef IRCCONNECT case NA_IRC: //masks are not supported, match explicitly if (strcmp(a->address.irc.user, b->address.irc.user)) return false; break; #endif default: return false; // invalid protocol } return true; // all checks passed } // UniformMaskedBits: counts number of bits in an assumed uniform mask, returns // -1 if not uniform int UniformMaskedBits(netadr_t *mask) { int bits; int b; unsigned int bs; qboolean bitenc = false; switch (mask->type) { case NA_BROADCAST_IP: case NA_IP: bits = 32; for (b = 3; b >= 0; b--) { if (mask->address.ip[b] == 0xFF) bitenc = true; else if (mask->address.ip[b]) { bs = (~mask->address.ip[b]) & 0xFF; while (bs) { if (bs & 1) { bits -= 1; if (bitenc) return -1; } else bitenc = true; bs >>= 1; } } else if (bitenc) return -1; else bits -= 8; } break; #ifdef IPPROTO_IPV6 case NA_BROADCAST_IP6: case NA_IPV6: bits = 128; for (b = 15; b >= 0; b--) { if (mask->address.ip6[b] == 0xFF) bitenc = true; else if (mask->address.ip6[b]) { bs = (~mask->address.ip6[b]) & 0xFF; while (bs) { if (bs & 1) { bits -= 1; if (bitenc) return -1; } else bitenc = true; bs >>= 1; } } else if (bitenc) return -1; else bits -= 8; } break; #endif #ifdef USEIPX case NA_BROADCAST_IPX: case NA_IPX: bits = 80; for (b = 9; b >= 0; b--) { if (mask->address.ipx[b] == 0xFF) bitenc = true; else if (mask->address.ipx[b]) { bs = (~mask->address.ipx[b]) & 0xFF; while (bs) { if (bs & 1) { bits -= 1; if (bitenc) return -1; } else bitenc = true; bs >>= 1; } } else if (bitenc) return -1; else bits -= 8; } break; #endif default: return -1; // invalid protocol } return bits; // all checks passed } char *NET_AdrToStringMasked (char *s, int len, netadr_t *a, netadr_t *amask) { int i; char adr[MAX_ADR_SIZE], mask[MAX_ADR_SIZE]; i = UniformMaskedBits(amask); if (i >= 0) snprintf(s, len, "%s/%i", NET_AdrToString(adr, sizeof(adr), a), i); else snprintf(s, len, "%s/%s", NET_AdrToString(adr, sizeof(adr), a), NET_AdrToString(mask, sizeof(mask), amask)); return s; } // Returns true if we can't bind the address locally--in other words, // the IP is NOT one of our interfaces. qboolean NET_IsClientLegal(netadr_t *adr) { #if 0 struct sockaddr_in sadr; int newsocket; if (adr->ip[0] == 127) return false; // no local connections period NetadrToSockadr (adr, &sadr); if ((newsocket = socket (PF_INET, SOCK_DGRAM, IPPROTO_UDP)) == INVALID_SOCKET) Sys_Error ("NET_IsClientLegal: socket:", strerror(qerrno)); sadr.sin_port = 0; if( bind (newsocket, (void *)&sadr, sizeof(sadr)) == -1) { // It is not a local address close(newsocket); return true; } close(newsocket); return false; #else return true; #endif } qboolean NET_IsLoopBackAddress (netadr_t *adr) { // return (!strcmp(cls.servername, NET_AdrToString(net_local_adr)) || !strcmp(cls.servername, "local"); return adr->type == NA_LOOPBACK; } ///////////////////////////////////////////// //loopback stuff #if !defined(CLIENTONLY) && !defined(SERVERONLY) qboolean NET_GetLoopPacket (int sock, netadr_t *from, sizebuf_t *message) { int i; loopback_t *loop; sock &= 1; loop = &loopbacks[sock]; if (loop->send - loop->get > MAX_LOOPBACK) { extern cvar_t showdrop; if (showdrop.ival) Con_Printf("loopback dropping %i packets\n", (loop->send - MAX_LOOPBACK) - loop->get); loop->get = loop->send - MAX_LOOPBACK; } if (loop->get >= loop->send) return false; i = loop->get & (MAX_LOOPBACK-1); loop->get++; if (message->maxsize < loop->msgs[i].datalen) Sys_Error("NET_SendLoopPacket: Loopback buffer was too big"); memcpy (message->data, loop->msgs[i].data, loop->msgs[i].datalen); message->cursize = loop->msgs[i].datalen; memset (from, 0, sizeof(*from)); from->type = NA_LOOPBACK; message->packing = SZ_RAWBYTES; message->currentbit = 0; return true; } void NET_SendLoopPacket (int sock, int length, void *data, netadr_t *to) { int i; loopback_t *loop; sock &= 1; loop = &loopbacks[sock^1]; if (length > sizeof(loop->msgs[i].data)) { Con_Printf("NET_SendLoopPacket: Loopback buffer is too small"); return; } i = loop->send & (MAX_LOOPBACK-1); loop->send++; memcpy (loop->msgs[i].data, data, length); loop->msgs[i].datalen = length; } int FTENET_Loop_GetLocalAddresses(struct ftenet_generic_connection_s *con, unsigned int *adrflags, netadr_t *addresses, int maxaddresses) { if (maxaddresses) { addresses->type = NA_LOOPBACK; addresses->port = con->thesocket+1; *adrflags = 0; return 1; } return 0; } qboolean FTENET_Loop_GetPacket(ftenet_generic_connection_t *con) { return NET_GetLoopPacket(con->thesocket, &net_from, &net_message); } #ifdef HAVE_PACKET //just a null function so we don't pass bad things to select. int FTENET_Loop_SetReceiveFDSet(ftenet_generic_connection_t *gcon, fd_set *fdset) { return 0; } #endif qboolean FTENET_Loop_SendPacket(ftenet_generic_connection_t *con, int length, void *data, netadr_t *to) { if (to->type == NA_LOOPBACK) { NET_SendLoopPacket(con->thesocket, length, data, to); return true; } return false; } void FTENET_Loop_Close(ftenet_generic_connection_t *con) { int sock = con->thesocket; sock &= 1; loopbacks[sock].inited = false; Z_Free(con); } static ftenet_generic_connection_t *FTENET_Loop_EstablishConnection(qboolean isserver, const char *address) { ftenet_generic_connection_t *newcon; int sock; for (sock = 0; sock < 2; sock++) if (!loopbacks[sock].inited) break; if (sock == 2) return NULL; newcon = Z_Malloc(sizeof(*newcon)); if (newcon) { loopbacks[sock].inited = true; newcon->GetLocalAddresses = FTENET_Loop_GetLocalAddresses; newcon->GetPacket = FTENET_Loop_GetPacket; newcon->SendPacket = FTENET_Loop_SendPacket; newcon->Close = FTENET_Loop_Close; #ifdef HAVE_PACKET newcon->SetReceiveFDSet = FTENET_Loop_SetReceiveFDSet; #endif newcon->islisten = isserver; newcon->addrtype[0] = NA_LOOPBACK; newcon->addrtype[1] = NA_INVALID; newcon->thesocket = sock; } return newcon; } #endif //============================================================================= ftenet_connections_t *FTENET_CreateCollection(qboolean listen) { ftenet_connections_t *col; col = Z_Malloc(sizeof(*col)); col->islisten = listen; return col; } static ftenet_generic_connection_t *FTENET_Loop_EstablishConnection(qboolean isserver, const char *address); static ftenet_generic_connection_t *FTENET_UDP4_EstablishConnection(qboolean isserver, const char *address); static ftenet_generic_connection_t *FTENET_UDP6_EstablishConnection(qboolean isserver, const char *address); static ftenet_generic_connection_t *FTENET_TCP4Connect_EstablishConnection(qboolean isserver, const char *address); static ftenet_generic_connection_t *FTENET_TCP6Connect_EstablishConnection(qboolean isserver, const char *address); #ifdef USEIPX static ftenet_generic_connection_t *FTENET_IPX_EstablishConnection(qboolean isserver, const char *address); #endif #ifdef HAVE_WEBSOCKCL static ftenet_generic_connection_t *FTENET_WebSocket_EstablishConnection(qboolean isserver, const char *address); #endif static ftenet_generic_connection_t *FTENET_IRCConnect_EstablishConnection(qboolean isserver, const char *address); static ftenet_generic_connection_t *FTENET_NATPMP_EstablishConnection(qboolean isserver, const char *address); #ifdef HAVE_NATPMP typedef struct { ftenet_generic_connection_t pub; ftenet_connections_t *col; netadr_t reqpmpaddr; netadr_t pmpaddr; netadr_t natadr; unsigned int refreshtime; } pmpcon_t; int FTENET_NATPMP_GetLocalAddresses(struct ftenet_generic_connection_s *con, unsigned int *adrflags, netadr_t *addresses, int maxaddresses); static qboolean NET_Was_NATPMP(ftenet_connections_t *collection) { pmpcon_t *pmp; struct { qbyte ver; qbyte op; short resultcode; int age; union { struct { short privport; short pubport; int mapping_expectancy; }; qbyte ipv4[4]; }; } *pmpreqrep; int i; for (i = 0; i < MAX_CONNECTIONS; i++) { if (!collection->conn[i]) continue; if (collection->conn[i]->GetLocalAddresses == FTENET_NATPMP_GetLocalAddresses) { pmp = (pmpcon_t*)collection->conn[i]; if (NET_CompareAdr(&pmp->pmpaddr, &net_from)) { pmpreqrep = (void*)net_message.data; if (pmpreqrep->ver != 0) return false; if (net_message.cursize == 12 && pmpreqrep->op == 128) { char adrbuf[256]; pmp->natadr.type = NA_IP; pmp->natadr.port = 0; memcpy(pmp->natadr.address.ip, pmpreqrep->ipv4, sizeof(pmp->natadr.address.ip)); NET_AdrToString(adrbuf, sizeof(adrbuf), &pmp->natadr); pmp->natadr.connum = i+1; Con_DPrintf("NAT-PMP: Public ip is %s\n", adrbuf); if (pmp->natadr.type && pmp->natadr.port) ICE_AddLCandidateConn(collection, &pmp->natadr, ICE_SRFLX); //let ICE connections know about it return true; } if (net_message.cursize == 16 && pmpreqrep->op == 129) { switch(BigShort(pmpreqrep->resultcode)) { case 0: break; case 1: Con_Printf("NAT-PMP: unsupported version\n"); return true; case 2: Con_Printf("NAT-PMP: refused - please reconfigure router\n"); return true; case 3: Con_Printf("NAT-PMP: network failure\n"); return true; case 4: Con_Printf("NAT-PMP: out of resources\n"); return true; case 5: Con_Printf("NAT-PMP: unsupported opcode\n"); return true; default: return false; } Con_DPrintf("NAT-PMP: Local port %u publically available on port %u\n", (unsigned short)BigShort(pmpreqrep->privport), (unsigned short)BigShort(pmpreqrep->pubport)); pmp->natadr.port = pmpreqrep->pubport; if (pmp->natadr.type && pmp->natadr.port) ICE_AddLCandidateConn(collection, &pmp->natadr, ICE_SRFLX); return true; } return false; } } } return false; } static void FTENET_NATPMP_Refresh(pmpcon_t *pmp, short oldport, ftenet_connections_t *collection) { int i, m; netadr_t adr; netadr_t addr[64]; struct ftenet_generic_connection_s *con[sizeof(addr)/sizeof(addr[0])]; int flags[sizeof(addr)/sizeof(addr[0])]; struct { qbyte ver; qbyte op; short reserved1; short privport; short pubport; int mapping_expectancy; } pmpreqmsg; pmpreqmsg.ver = 0; pmpreqmsg.op = 1; pmpreqmsg.reserved1 = BigShort(0); pmpreqmsg.privport = BigShort(0); pmpreqmsg.pubport = BigShort(0); pmpreqmsg.mapping_expectancy = BigLong(60*5); if (!collection) return; m = NET_EnumerateAddresses(collection, con, flags, addr, sizeof(addr)/sizeof(addr[0])); for (i = 0; i < m; i++) { //ignore any ips which are proxied by other people. that would be too weird. if (flags[i] & (ADDR_NATPMP|ADDR_UPNPIGP)) continue; adr = addr[i]; //unipv6ify it if its a hybrid socket. if (adr.type == NA_IPV6 && !*(int*)&adr.address.ip6[0] && !*(int*)&adr.address.ip6[4] && !*(short*)&adr.address.ip6[8] && *(short*)&adr.address.ip6[10]==(short)0xffff && !*(int*)&adr.address.ip6[12]) { *(int*)adr.address.ip = *(int*)&adr.address.ip6[12]; adr.type = NA_IP; } if (adr.type == NA_IP) { if (adr.address.ip[0] == 127) //yes. loopback has a lot of ip addresses. wasteful but whatever. continue; //assume a netmask of 255.255.255.0 adr.address.ip[3] = 1; } // else if (adr.type == NA_IPV6) // { // } else continue; pmpreqmsg.privport = adr.port; pmpreqmsg.pubport = oldport?oldport:adr.port; if (*(int*)pmp->reqpmpaddr.address.ip == INADDR_ANY) { pmp->pmpaddr = adr; pmp->pmpaddr.port = pmp->reqpmpaddr.port; } else pmp->pmpaddr = pmp->reqpmpaddr; if (*(int*)pmp->pmpaddr.address.ip == INADDR_ANY) continue; //get the public ip. pmpreqmsg.op = 0; NET_SendPacket(NS_SERVER, 2, &pmpreqmsg, &pmp->pmpaddr); //open the firewall/nat. pmpreqmsg.op = 1; NET_SendPacket(NS_SERVER, sizeof(pmpreqmsg), &pmpreqmsg, &pmp->pmpaddr); break; } } #define PMP_POLL_TIME (1000*30)//every 30 seconds qboolean Net_OpenUDPPort(char *privateip, int privateport, char *publicip, size_t publiciplen, int *publicport); int FTENET_NATPMP_GetLocalAddresses(struct ftenet_generic_connection_s *con, unsigned int *adrflags, netadr_t *addresses, int maxaddresses) { pmpcon_t *pmp = (pmpcon_t*)con; /* char pubip[256]; int pubport; if (Net_OpenUDPPort("192.168.1.4", 27500, pubip, sizeof(pubip), &pubport)) { *adrflags = ADDR_UPNPIGP; NET_StringToAdr(pubip, pubport, addresses); return 1; } */ if (maxaddresses) { *adrflags = ADDR_NATPMP; *addresses = pmp->natadr; return (pmp->natadr.type != NA_INVALID) && (pmp->natadr.port != 0); } return 0; } qboolean FTENET_NATPMP_GetPacket(struct ftenet_generic_connection_s *con) { pmpcon_t *pmp = (pmpcon_t*)con; unsigned int now = Sys_Milliseconds(); if (now - pmp->refreshtime > PMP_POLL_TIME) //weird logic to cope with wrapping { pmp->refreshtime = now; FTENET_NATPMP_Refresh(pmp, pmp->natadr.port, pmp->col); } return false; } qboolean FTENET_NATPMP_SendPacket(struct ftenet_generic_connection_s *con, int length, void *data, netadr_t *to) { return false; } void FTENET_NATPMP_Close(struct ftenet_generic_connection_s *con) { //FIXME: we should send a packet to close the port Z_Free(con); } //qboolean Net_OpenUDPPort(char *privateip, int privateport, char *publicip, size_t publiciplen, int *publicport); ftenet_generic_connection_t *FTENET_NATPMP_EstablishConnection(qboolean isserver, const char *address) { pmpcon_t *pmp; netadr_t pmpadr; NET_PortToAdr(NA_IP, address, &pmpadr); if (pmpadr.type == NA_NATPMP) pmpadr.type = NA_IP; if (pmpadr.type != NA_IP) return NULL; pmp = Z_Malloc(sizeof(*pmp)); pmp->col = svs.sockets; Q_strncpyz(pmp->pub.name, "natpmp", sizeof(pmp->pub.name)); pmp->reqpmpaddr = pmpadr; pmp->pub.GetLocalAddresses = FTENET_NATPMP_GetLocalAddresses; pmp->pub.GetPacket = FTENET_NATPMP_GetPacket; //qboolean (*ChangeLocalAddress)(struct ftenet_generic_connection_s *con, const char *newaddress); pmp->pub.SendPacket = FTENET_NATPMP_SendPacket; pmp->pub.Close = FTENET_NATPMP_Close; pmp->pub.thesocket = INVALID_SOCKET; pmp->refreshtime = Sys_Milliseconds() + PMP_POLL_TIME*64; // Net_OpenUDPPort(); return &pmp->pub; } #endif qboolean FTENET_AddToCollection_Ptr(ftenet_connections_t *col, const char *name, const char *address, ftenet_generic_connection_t *(*establish)(qboolean isserver, const char *address), qboolean islisten) { int count = 0; int i; if (!col) return false; if (name) { for (i = 0; i < MAX_CONNECTIONS; i++) { if (col->conn[i]) if (col->conn[i]->name && !strcmp(col->conn[i]->name, name)) { if (address && *address) if (col->conn[i]->ChangeLocalAddress) { if (col->conn[i]->ChangeLocalAddress(col->conn[i], address)) return true; } col->conn[i]->Close(col->conn[i]); col->conn[i] = NULL; } } } if (address && *address && establish) { for (i = 0; i < MAX_CONNECTIONS; i++) { if (!col->conn[i]) { address = COM_Parse(address); col->conn[i] = establish(islisten, com_token); if (!col->conn[i]) break; if (name) Q_strncpyz(col->conn[i]->name, name, sizeof(col->conn[i]->name)); count++; if (address && *address) continue; break; } } } return count > 0; } qboolean FTENET_AddToCollection(ftenet_connections_t *col, const char *name, const char *address, netadrtype_t addrtype, qboolean islisten) { ftenet_generic_connection_t *(*establish)(qboolean isserver, const char *address) = NULL; netadr_t adr; //resolve the address to something sane so we can determine the address type and thus the connection type to use if (!address || !*address) adr.type = NA_INVALID; else if (islisten) NET_PortToAdr(addrtype, address, &adr); else NET_StringToAdr(address, 0, &adr); switch(adr.type) { default: establish = NULL; break; #ifdef HAVE_NATPMP case NA_NATPMP: establish = FTENET_NATPMP_EstablishConnection; break; #endif #if !defined(CLIENTONLY) && !defined(SERVERONLY) case NA_LOOPBACK: establish = FTENET_Loop_EstablishConnection; break; #endif #ifdef HAVE_IPV4 case NA_IP: establish = FTENET_UDP4_EstablishConnection; break; #endif #ifdef IPPROTO_IPV6 case NA_IPV6: establish = FTENET_UDP6_EstablishConnection; break; #endif #ifdef USEIPX case NA_IPX: establish = FTENET_IPX_EstablishConnection; break; #endif case NA_WEBSOCKET: #ifdef HAVE_WEBSOCKCL if (!islisten) establish = FTENET_WebSocket_EstablishConnection; #endif #ifdef TCPCONNECT establish = FTENET_TCP4Connect_EstablishConnection; #endif break; #ifdef IRCCONNECT case NA_IRC: establish = FTENET_IRCConnect_EstablishConnection; break; #endif #ifdef TCPCONNECT case NA_TCP: establish = FTENET_TCP4Connect_EstablishConnection; break; #endif #if defined(TCPCONNECT) && defined(IPPROTO_IPV6) case NA_TCPV6: establish = FTENET_TCP6Connect_EstablishConnection; break; #endif } return FTENET_AddToCollection_Ptr(col, name, address, establish, islisten); } void FTENET_CloseCollection(ftenet_connections_t *col) { int i; if (!col) return; for (i = 0; i < MAX_CONNECTIONS; i++) { if (col->conn[i]) { col->conn[i]->Close(col->conn[i]); } } Z_Free(col); } void FTENET_Generic_Close(ftenet_generic_connection_t *con) { #ifdef HAVE_PACKET if (con->thesocket != INVALID_SOCKET) closesocket(con->thesocket); #endif Z_Free(con); } #ifdef _WIN32 int FTENET_GetLocalAddress(int port, qboolean ipx, qboolean ipv4, qboolean ipv6, unsigned int *adrflags, netadr_t *addresses, int maxaddresses) { //in win32, we can look up our own hostname to retrieve a list of local interface addresses. #ifdef USE_GETHOSTNAME_LOCALLISTING char adrs[MAX_ADR_SIZE]; int b; #endif int found = 0; gethostname(adrs, sizeof(adrs)); #ifdef IPPROTO_IPV6 if (pgetaddrinfo) { struct addrinfo hints, *result, *itr; memset(&hints, 0, sizeof(struct addrinfo)); hints.ai_family = 0; /* Allow IPv4 or IPv6 */ hints.ai_socktype = SOCK_DGRAM; /* Datagram socket */ hints.ai_flags = 0; hints.ai_protocol = 0; /* Any protocol */ if (pgetaddrinfo(adrs, NULL, &hints, &result) == 0) { for (itr = result; itr; itr = itr->ai_next) { if ((itr->ai_addr->sa_family == AF_INET && ipv4) || (itr->ai_addr->sa_family == AF_INET6 && ipv6) #ifdef USEIPX || (itr->ai_addr->sa_family == AF_IPX && ipx) #endif ) if (maxaddresses) { SockadrToNetadr((struct sockaddr_qstorage*)itr->ai_addr, addresses); addresses->port = port; *adrflags++ = 0; addresses++; maxaddresses--; found++; } } pfreeaddrinfo(result); /*if none found, fill in the 0.0.0.0 or whatever*/ if (!found && maxaddresses) { memset(addresses, 0, sizeof(*addresses)); addresses->port = port; if (ipv6) addresses->type = NA_IPV6; else if (ipv4) addresses->type = NA_IP; else if (ipx) addresses->type = NA_IPX; else addresses->type = NA_INVALID; *adrflags++ = 0; addresses++; maxaddresses--; found++; } } } else #endif { struct hostent *h; h = gethostbyname(adrs); b = 0; #ifdef HAVE_IPV4 if(h && h->h_addrtype == AF_INET) { for (b = 0; h->h_addr_list[b] && maxaddresses; b++) { struct sockaddr_in from; from.sin_family = AF_INET; from.sin_port = port; memcpy(&from.sin_addr, h->h_addr_list[b], sizeof(&from.sin_addr)); SockadrToNetadr((struct sockaddr_qstorage*)&from, addresses); *adrflags++ = 0; addresses++; maxaddresses--; found++; } } #endif #ifdef IPPROTO_IPV6 if(h && h->h_addrtype == AF_INET6) { for (b = 0; h->h_addr_list[b] && maxaddresses; b++) { struct sockaddr_in6 from; from.sin6_family = AF_INET6; from.sin6_port = port; memcpy(&from.sin6_addr, h->h_addr_list[b], sizeof(((struct sockaddr_in6*)&from)->sin6_addr)); SockadrToNetadr((struct sockaddr_qstorage*)&from, addresses); *adrflags++ = 0; addresses++; maxaddresses--; found++; } } #endif } return found; } #elif defined(__linux__) && !defined(ANDROID) //in linux, looking up our own hostname to retrieve a list of local interface addresses will give no indication that other systems are able to do the same thing and is thus not supported. //there's some special api instead //glibc 2.3. //also available with certain bsds. #include static struct ifaddrs *iflist; unsigned int iftime; //requery sometimes. int FTENET_GetLocalAddress(int port, qboolean ipx, qboolean ipv4, qboolean ipv6, unsigned int *adrflags, netadr_t *addresses, int maxaddresses) { struct ifaddrs *ifa; int fam; int idx = 0; unsigned int time = Sys_Milliseconds(); if (time - iftime > 1000 && iflist) { freeifaddrs(iflist); iflist = NULL; } if (!iflist) { iftime = time; getifaddrs(&iflist); } for (ifa = iflist; ifa && idx < maxaddresses; ifa = ifa->ifa_next) { //can happen if the interface is not bound. if (ifa->ifa_addr == NULL) continue; //filter out families that we're not interested in. fam = ifa->ifa_addr->sa_family; if ( #ifdef HAVE_IPV4 (fam == AF_INET && ipv4) || #endif #ifdef HAVE_IPV6 (fam == AF_INET6 && ipv6) || #endif #ifdef USEIPX (fam == AF_IPX && ipx) || #endif 0) { SockadrToNetadr((struct sockaddr_qstorage*)&ifa->ifa_addr, &addresses[idx]); addresses[idx].port = port; adrflags[idx] = 0; idx++; } } return idx; } #else int FTENET_GetLocalAddress(int port, qboolean ipx, qboolean ipv4, qboolean ipv6, unsigned int *adrflags, netadr_t *addresses, int maxaddresses) { return 0; } #endif int FTENET_Generic_GetLocalAddresses(struct ftenet_generic_connection_s *con, unsigned int *adrflags, netadr_t *addresses, int maxaddresses) { #ifndef HAVE_PACKET return 0; #else struct sockaddr_qstorage from; int fromsize = sizeof(from); netadr_t adr; int found = 0; if (getsockname (con->thesocket, (struct sockaddr*)&from, &fromsize) != -1) { memset(&adr, 0, sizeof(adr)); SockadrToNetadr(&from, &adr); #ifdef USE_GETHOSTNAME_LOCALLISTING //if its bound to 'any' address, ask the system what addresses it actually accepts. if (adr.type == NA_IPV6 && !*(int*)&adr.address.ip6[0] && !*(int*)&adr.address.ip6[4] && !*(short*)&adr.address.ip6[8] && *(short*)&adr.address.ip6[10]==(short)0xffff && !*(int*)&adr.address.ip6[12]) { //ipv6 socket bound to the ipv4-any address is a bit weird, but oh well. //FIXME: should we first validate that we support hybrid sockets? found = FTENET_GetLocalAddress(adr.port, false, true, false, adrflags, addresses, maxaddresses); } else { int b; for (b = 0; b < sizeof(adr.address); b++) if (((unsigned char*)&adr.address)[b] != 0) break; if (b == sizeof(adr.address)) { qboolean ipx=false, ipv4=false, ipv6=false; if (adr.type == NA_IP) ipv4 = true; else if (adr.type == NA_IPX) ipx = true; else if (adr.type == NA_IPV6) { #ifdef IPV6_V6ONLY int ipv6only = true; int optlen = sizeof(ipv6only); getsockopt(con->thesocket, IPPROTO_IPV6, IPV6_V6ONLY, (char *)&ipv6only, &optlen); if (!ipv6only) ipv4 = true; #endif ipv6 = true; } found = FTENET_GetLocalAddress(adr.port, ipx, ipv4, ipv6, adrflags, addresses, maxaddresses); } } #endif //and use the bound address (even if its 0.0.0.0) if we didn't grab a list from the system. if (!found) { if (maxaddresses && adr.type == NA_IPV6 && !*(int*)&adr.address.ip6[0] && !*(int*)&adr.address.ip6[4] && !*(int*)&adr.address.ip6[8] && !*(int*)&adr.address.ip6[12]) { *addresses = adr; addresses->type = NA_IP; *adrflags++ = 0; addresses++; maxaddresses--; found++; } if (maxaddresses) { *addresses = adr; *adrflags++ = 0; addresses++; maxaddresses--; found++; } } } return found; #endif } qboolean FTENET_Generic_GetPacket(ftenet_generic_connection_t *con) { #ifndef HAVE_PACKET return false; #else struct sockaddr_qstorage from; int fromlen; int ret; int err; char adr[MAX_ADR_SIZE]; if (con->thesocket == INVALID_SOCKET) return false; fromlen = sizeof(from); ret = recvfrom (con->thesocket, (char *)net_message_buffer, sizeof(net_message_buffer), 0, (struct sockaddr*)&from, &fromlen); if (ret == -1) { err = neterrno(); if (err == NET_EWOULDBLOCK) return false; if (err == NET_EMSGSIZE) { SockadrToNetadr (&from, &net_from); Con_TPrintf ("Warning: Oversize packet from %s\n", NET_AdrToString (adr, sizeof(adr), &net_from)); return false; } if (err == NET_ECONNABORTED || err == NET_ECONNRESET) { Con_TPrintf ("Connection lost or aborted\n"); //server died/connection lost. #ifndef SERVERONLY if (cls.state != ca_disconnected && !con->islisten) { if (cls.lastarbiatarypackettime+5 < Sys_DoubleTime()) //too many mvdsv Cbuf_AddText("disconnect\nreconnect\n", RESTRICT_LOCAL); //retry connecting. else Con_Printf("Packet was not delivered - server might be badly configured\n"); return false; } #endif return false; } Con_Printf ("NET_GetPacket: Error (%i): %s\n", err, strerror(err)); return false; } SockadrToNetadr (&from, &net_from); net_message.packing = SZ_RAWBYTES; net_message.currentbit = 0; net_message.cursize = ret; if (net_message.cursize == sizeof(net_message_buffer) ) { Con_TPrintf ("Warning: Oversize packet from %s\n", NET_AdrToString (adr, sizeof(adr), &net_from)); return false; } return true; #endif } qboolean FTENET_Generic_SendPacket(ftenet_generic_connection_t *con, int length, void *data, netadr_t *to) { #ifndef HAVE_PACKET return false; #else struct sockaddr_qstorage addr; int size; int ret; for (size = 0; size < FTENET_ADDRTYPES; size++) if (to->type == con->addrtype[size]) break; if (size == FTENET_ADDRTYPES) return false; #ifdef IPPROTO_IPV6 /*special code to handle sending to hybrid sockets*/ if (con->addrtype[1] == NA_IPV6 && to->type == NA_IP) { memset(&addr, 0, sizeof(struct sockaddr_in6)); ((struct sockaddr_in6*)&addr)->sin6_family = AF_INET6; *(short*)&((struct sockaddr_in6*)&addr)->sin6_addr.s6_addr[10] = 0xffff; *(int*)&((struct sockaddr_in6*)&addr)->sin6_addr.s6_addr[12] = *(int*)&to->address.ip; ((struct sockaddr_in6*)&addr)->sin6_port = to->port; size = sizeof(struct sockaddr_in6); } else #endif { NetadrToSockadr (to, &addr); switch(to->type) { default: Con_Printf("Bad address type\n"); break; #ifdef USEIPX //who uses ipx nowadays anyway? case NA_BROADCAST_IPX: case NA_IPX: size = sizeof(struct sockaddr_ipx); break; #endif case NA_BROADCAST_IP: case NA_IP: size = sizeof(struct sockaddr_in); break; #ifdef IPPROTO_IPV6 case NA_BROADCAST_IP6: case NA_IPV6: size = sizeof(struct sockaddr_in6); break; #endif } } ret = sendto (con->thesocket, data, length, 0, (struct sockaddr*)&addr, size ); if (ret == -1) { int ecode = neterrno(); // wouldblock is silent if (ecode == NET_EWOULDBLOCK) return true; if (ecode == NET_ECONNREFUSED) return true; if (ecode == NET_EACCES) { Con_Printf("Access denied: check firewall\n"); return true; } #ifndef SERVERONLY if (ecode == NET_EADDRNOTAVAIL) Con_DPrintf("NET_SendPacket Warning: %i\n", ecode); else #endif Con_TPrintf ("NET_SendPacket ERROR: %i\n", ecode); } return true; #endif } qboolean NET_PortToAdr (int adrfamily, const char *s, netadr_t *a) { char *e; int port; port = strtoul(s, &e, 10); if (*e) //if *e then its not just a single number in there, so treat it as a proper address. return NET_StringToAdr(s, 0, a); else if (port) { memset(a, 0, sizeof(*a)); a->port = htons((unsigned short)port); a->type = adrfamily; return a->type != NA_INVALID; } a->type = NA_INVALID; return false; } ftenet_generic_connection_t *FTENET_Generic_EstablishConnection(int adrfamily, int protocol, qboolean isserver, const char *address) { #ifndef HAVE_PACKET return NULL; #else //this is written to support either ipv4 or ipv6, depending on the remote addr. ftenet_generic_connection_t *newcon; unsigned long _true = true; SOCKET newsocket = INVALID_SOCKET; int temp; netadr_t adr; struct sockaddr_qstorage qs; int family; int port; int bindtries; int bufsz; qboolean hybrid = false; if (!NET_PortToAdr(adrfamily, address, &adr)) { Con_Printf("unable to resolve local address %s\n", address); return NULL; //couldn't resolve the name } temp = NetadrToSockadr(&adr, &qs); family = ((struct sockaddr*)&qs)->sa_family; #if defined(IPPROTO_IPV6) && defined(IPV6_V6ONLY) if (isserver && family == AF_INET && net_hybriddualstack.ival && !((struct sockaddr_in*)&qs)->sin_addr.s_addr) { unsigned long _false = false; if ((newsocket = socket (AF_INET6, SOCK_DGRAM, protocol)) != INVALID_SOCKET) { if (0 == setsockopt(newsocket, IPPROTO_IPV6, IPV6_V6ONLY, (char *)&_false, sizeof(_false))) { // int ip = ((struct sockaddr_in*)&qs)->sin_addr.s_addr; int port = ((struct sockaddr_in*)&qs)->sin_port; // ip = ((struct sockaddr_in*)&qs)->sin_addr.s_addr; memset(&qs, 0, sizeof(struct sockaddr_in6)); ((struct sockaddr_in6*)&qs)->sin6_family = AF_INET6; /* if (((struct sockaddr_in*)&qs)->sin_addr.s_addr) { ((struct sockaddr_in6*)&qs)->sin6_addr.s6_addr[10] = 0xff; ((struct sockaddr_in6*)&qs)->sin6_addr.s6_addr[11] = 0xff; ((struct sockaddr_in6*)&qs)->sin6_addr.s6_addr[12] = ((qbyte*)&ip)[0]; ((struct sockaddr_in6*)&qs)->sin6_addr.s6_addr[13] = ((qbyte*)&ip)[1]; ((struct sockaddr_in6*)&qs)->sin6_addr.s6_addr[14] = ((qbyte*)&ip)[2]; ((struct sockaddr_in6*)&qs)->sin6_addr.s6_addr[15] = ((qbyte*)&ip)[3]; } */ ((struct sockaddr_in6*)&qs)->sin6_port = port; temp = sizeof(struct sockaddr_in6); hybrid = true; } else { /*v6only failed... if the option doesn't exist, chances are this is a hybrid system which doesn't support both simultaneously anyway*/ closesocket(newsocket); newsocket = INVALID_SOCKET; } } } #endif if (newsocket == INVALID_SOCKET) if ((newsocket = socket (family, SOCK_DGRAM, protocol)) == INVALID_SOCKET) { return NULL; } #if defined(IPPROTO_IPV6) && defined(IPV6_V6ONLY) if (family == AF_INET6) setsockopt(newsocket, IPPROTO_IPV6, IPV6_V6ONLY, (char *)&_true, sizeof(_true)); #endif #ifdef _WIN32 //win32 is so fucked up setsockopt(newsocket, SOL_SOCKET, SO_EXCLUSIVEADDRUSE, (char *)&_true, sizeof(_true)); #endif bufsz = 1<<18; setsockopt(newsocket, SOL_SOCKET, SO_RCVBUF, (void*)&bufsz, sizeof(bufsz)); //try and find an unused port. port = ntohs(((struct sockaddr_in*)&qs)->sin_port); for (bindtries = 100; bindtries > 0; bindtries--) { ((struct sockaddr_in*)&qs)->sin_port = htons((unsigned short)(port+100-bindtries)); if ((bind(newsocket, (struct sockaddr *)&qs, temp) == INVALID_SOCKET)) { continue; } break; } if (!bindtries) { SockadrToNetadr(&qs, &adr); //mneh, reuse qs. NET_AdrToString((char*)&qs, sizeof(qs), &adr); Con_Printf("Unable to listen at %s\n", (char*)&qs); closesocket(newsocket); return NULL; } if (ioctlsocket (newsocket, FIONBIO, &_true) == -1) Sys_Error ("UDP_OpenSocket: ioctl FIONBIO: %s", strerror(neterrno())); // // determine my name & address if we don't already know it // if (net_local_cl_ipadr.type == NA_INVALID) NET_GetLocalAddress (newsocket, &net_local_cl_ipadr); newcon = Z_Malloc(sizeof(*newcon)); if (newcon) { newcon->GetLocalAddresses = FTENET_Generic_GetLocalAddresses; newcon->GetPacket = FTENET_Generic_GetPacket; newcon->SendPacket = FTENET_Generic_SendPacket; newcon->Close = FTENET_Generic_Close; newcon->islisten = isserver; if (hybrid) { newcon->addrtype[0] = NA_IP; newcon->addrtype[1] = NA_IPV6; } else { newcon->addrtype[0] = adr.type; newcon->addrtype[1] = NA_INVALID; } newcon->thesocket = newsocket; return newcon; } else { closesocket(newsocket); return NULL; } #endif } #ifdef IPPROTO_IPV6 ftenet_generic_connection_t *FTENET_UDP6_EstablishConnection(qboolean isserver, const char *address) { return FTENET_Generic_EstablishConnection(NA_IPV6, IPPROTO_UDP, isserver, address); } #endif #ifdef HAVE_IPV4 ftenet_generic_connection_t *FTENET_UDP4_EstablishConnection(qboolean isserver, const char *address) { return FTENET_Generic_EstablishConnection(NA_IP, IPPROTO_UDP, isserver, address); } #endif #ifdef USEIPX ftenet_generic_connection_t *FTENET_IPX_EstablishConnection(qboolean isserver, const char *address) { return FTENET_Generic_EstablishConnection(NA_IPX, NSPROTO_IPX, isserver, address); } #endif #ifdef TCPCONNECT typedef struct ftenet_tcpconnect_stream_s { SOCKET socketnum; int inlen; int outlen; enum { TCPC_UNKNOWN, //waiting to see what they send us. TCPC_UNFRAMED, //something else is doing the framing (ie: we're running in emscripten and over some hidden websocket connection) TCPC_HTTPCLIENT, //we're sending a file to this victim. TCPC_QIZMO, //'qizmo\n' handshake, followed by packets prefixed with a 16bit packet length. TCPC_WEBSOCKETU, //utf-8 encoded data. TCPC_WEBSOCKETB, //binary encoded data (subprotocol = 'binary') TCPC_WEBSOCKETNQ, //raw nq msg buffers with no encapsulation or handshake } clienttype; char inbuffer[3000]; char outbuffer[3000]; vfsfile_t *file; float timeouttime; netadr_t remoteaddr; struct ftenet_tcpconnect_stream_s *next; int fakesequence; //TCPC_WEBSOCKETNQ } ftenet_tcpconnect_stream_t; typedef struct { ftenet_generic_connection_t generic; int active; ftenet_tcpconnect_stream_t *tcpstreams; } ftenet_tcpconnect_connection_t; void tobase64(unsigned char *out, int outlen, unsigned char *in, int inlen) { static unsigned char tab[64] = { 'A','B','C','D','E','F','G','H','I','J','K','L','M','N','O','P', 'Q','R','S','T','U','V','W','X','Y','Z','a','b','c','d','e','f', 'g','h','i','j','k','l','m','n','o','p','q','r','s','t','u','v', 'w','x','y','z','0','1','2','3','4','5','6','7','8','9','+','/' }; unsigned int usedbits = 0; unsigned int val = 0; outlen--; while(inlen) { while(usedbits < 24 && inlen) { val <<= 8; val |= (*in++); inlen--; usedbits += 8; } if (outlen < 4) return; val <<= 24 - usedbits; *out++ = (usedbits > 0)?tab[(val>>18)&0x3f]:'='; *out++ = (usedbits > 6)?tab[(val>>12)&0x3f]:'='; *out++ = (usedbits > 12)?tab[(val>>6)&0x3f]:'='; *out++ = (usedbits > 18)?tab[(val>>0)&0x3f]:'='; val=0; usedbits = 0; } *out = 0; } #include "fs.h" qboolean FTENET_TCPConnect_GetPacket(ftenet_generic_connection_t *gcon) { ftenet_tcpconnect_connection_t *con = (ftenet_tcpconnect_connection_t*)gcon; int ret; int err; char adr[MAX_ADR_SIZE]; struct sockaddr_qstorage from; int fromlen; float timeval = Sys_DoubleTime(); ftenet_tcpconnect_stream_t *st; st = con->tcpstreams; //remove any stale ones while (con->tcpstreams && con->tcpstreams->socketnum == INVALID_SOCKET) { st = con->tcpstreams; con->tcpstreams = con->tcpstreams->next; BZ_Free(st); } for (st = con->tcpstreams; st; st = st->next) {//client receiving only via tcp while (st->next && st->next->socketnum == INVALID_SOCKET) { ftenet_tcpconnect_stream_t *temp; temp = st->next; st->next = st->next->next; BZ_Free(temp); con->active--; } //due to the above checks about invalid sockets, the socket is always open for st below. if (st->timeouttime < timeval) { Con_Printf ("tcp peer %s timed out\n", NET_AdrToString (adr, sizeof(adr), &st->remoteaddr)); goto closesvstream; } ret = recv(st->socketnum, st->inbuffer+st->inlen, sizeof(st->inbuffer)-st->inlen, 0); if (ret == 0) { Con_Printf ("tcp peer %s closed connection\n", NET_AdrToString (adr, sizeof(adr), &st->remoteaddr)); goto closesvstream; } else if (ret == -1) { err = neterrno(); if (err == NET_EWOULDBLOCK) ret = 0; else { if (err == NET_ECONNABORTED || err == NET_ECONNRESET) { Con_TPrintf ("Connection lost or aborted\n"); //server died/connection lost. } else if (err == NET_ENOTCONN) Con_Printf ("TCPConnect_GetPacket: connection failed\n"); else Con_Printf ("TCPConnect_GetPacket: Error (%i): %s\n", err, strerror(err)); closesvstream: closesocket(st->socketnum); st->socketnum = INVALID_SOCKET; continue; } } st->inlen += ret; switch(st->clienttype) { case TCPC_UNKNOWN: if (st->inlen < 6) continue; if (!strncmp(st->inbuffer, "qizmo\n", 6)) { memmove(st->inbuffer, st->inbuffer+6, st->inlen - (6)); st->inlen -= 6; st->clienttype = TCPC_QIZMO; if (con->generic.islisten) { //send the qizmo handshake response. send(st->socketnum, "qizmo\n", 6, 0); } } else if (con->generic.islisten && !strncmp(st->inbuffer, "GET ", 4)) { int i, j; int attr = 0; int alen = 0; qboolean headerscomplete = false; enum { WCATTR_METHOD, WCATTR_URL, WCATTR_HTTP, WCATTR_HOST, WCATTR_UPGRADE, WCATTR_CONNECTION, WCATTR_WSKEY, WCATTR_WSVER, //WCATTR_ORIGIN, WCATTR_WSPROTO, //WCATTR_WSEXT, WCATTR_COUNT }; char arg[WCATTR_COUNT][64]; for (i = 0; i < WCATTR_COUNT; i++) arg[i][0] = 0; for (i = 0; i < st->inlen; i++) { if (alen == 63) goto handshakeerror; if (st->inbuffer[i] == ' ' || st->inbuffer[i] == '\t') { arg[attr][alen++] = 0; alen=0; if (attr++ == WCATTR_HTTP) break; for (; i < st->inlen && (st->inbuffer[i] == ' ' || st->inbuffer[i] == '\t'); i++) ; if (i == st->inlen) break; } arg[attr][alen++] = st->inbuffer[i]; if (st->inbuffer[i] == '\n') { arg[attr][alen++] = 0; alen=0; break; } } i++; attr = 0; j = i; for (; i < st->inlen; i++) { if ((i+1 < st->inlen && st->inbuffer[i] == '\r' && st->inbuffer[i+1] == '\n') || (i < st->inlen && st->inbuffer[i] == '\n')) { i+=2; headerscomplete = true; break; } for (; i < st->inlen && (st->inbuffer[i] == ' ' || st->inbuffer[i] == '\t'); i++) ; if (i == st->inlen) break; for (j = i; j < st->inlen; j++) { if (st->inbuffer[j] == ':' || st->inbuffer[j] == '\n') { /*set j to the end of the word, going back past whitespace*/ while (j > i && (st->inbuffer[j-1] == ' ' || st->inbuffer[i-1] == '\t')) j--; break; } } if (!strnicmp(&st->inbuffer[i], "Host", j-i)) attr = WCATTR_HOST; else if (!strnicmp(&st->inbuffer[i], "Upgrade", j-i)) attr = WCATTR_UPGRADE; else if (!strnicmp(&st->inbuffer[i], "Connection", j-i)) attr = WCATTR_CONNECTION; else if (!strnicmp(&st->inbuffer[i], "Sec-WebSocket-Key", j-i)) attr = WCATTR_WSKEY; else if (!strnicmp(&st->inbuffer[i], "Sec-WebSocket-Version", j-i)) attr = WCATTR_WSVER; // else if (!strnicmp(&st->inbuffer[i], "Origin", j-i)) // attr = WCATTR_ORIGIN; else if (!strnicmp(&st->inbuffer[i], "Sec-WebSocket-Protocol", j-i)) attr = WCATTR_WSPROTO; // else if (!strnicmp(&st->inbuffer[i], "Sec-WebSocket-Extensions", j-i)) // attr = WCATTR_WSEXT; else attr = 0; i = j; /*skip over the whitespace at the end*/ for (; i < st->inlen && (st->inbuffer[i] == ' ' || st->inbuffer[i] == '\t'); i++) ; if (i < st->inlen && st->inbuffer[i] == ':') { i++; for (; i < st->inlen && (st->inbuffer[i] == ' ' || st->inbuffer[i] == '\t'); i++) ; j = i; for (; i < st->inlen && st->inbuffer[i] != '\n'; i++) ; if (i > j && st->inbuffer[i-1] == '\r') i--; if (attr) Q_strncpyz(arg[attr], &st->inbuffer[j], (i-j > 63)?64:(i - j + 1)); if (i < st->inlen && st->inbuffer[i] == '\r') i++; } else { /*just a word on the line on its own*/ goto handshakeerror; } } if (headerscomplete) { char *resp; //must be a Host, Upgrade=websocket, Connection=Upgrade, Sec-WebSocket-Key=base64(randbytes(16)), Sec-WebSocket-Version=13 //optionally will be Origin=url, Sec-WebSocket-Protocol=FTEWebSocket, Sec-WebSocket-Extensions //other fields will be ignored. if (!stricmp(arg[WCATTR_UPGRADE], "websocket") && (!stricmp(arg[WCATTR_CONNECTION], "Upgrade") || !stricmp(arg[WCATTR_CONNECTION], "keep-alive, Upgrade"))) { if (atoi(arg[WCATTR_WSVER]) != 13) { Con_Printf("Outdated websocket request for \"%s\" from \"%s\". got version %i, expected version 13\n", arg[WCATTR_URL], NET_AdrToString (adr, sizeof(adr), &st->remoteaddr), atoi(arg[WCATTR_WSVER])); memmove(st->inbuffer, st->inbuffer+i, st->inlen - (i)); st->inlen -= i; resp = va( "HTTP/1.1 426 Upgrade Required\r\n" "Sec-WebSocket-Version: 13\r\n" "\r\n"); //send the websocket handshake rejection. send(st->socketnum, resp, strlen(resp), 0); goto closesvstream; } else { char acceptkey[20*2]; unsigned char sha1digest[20]; char *blurgh; char *protoname = ""; memmove(st->inbuffer, st->inbuffer+i, st->inlen - (i)); st->inlen -= i; blurgh = va("%s258EAFA5-E914-47DA-95CA-C5AB0DC85B11", arg[WCATTR_WSKEY]); tobase64(acceptkey, sizeof(acceptkey), sha1digest, SHA1(sha1digest, sizeof(sha1digest), blurgh, strlen(blurgh))); Con_Printf("Websocket request for %s from %s (%s)\n", arg[WCATTR_URL], NET_AdrToString (adr, sizeof(adr), &st->remoteaddr), arg[WCATTR_WSPROTO]); if (!strcmp(arg[WCATTR_WSPROTO], "quake")) { st->clienttype = TCPC_WEBSOCKETNQ; //emscripten doesn't give us a choice, but its compact. protoname = "Sec-WebSocket-Protocol: quake\r\n"; } else if (!strcmp(arg[WCATTR_WSPROTO], "binary")) { st->clienttype = TCPC_WEBSOCKETB; //emscripten doesn't give us a choice, but its compact. protoname = "Sec-WebSocket-Protocol: binary\r\n"; //emscripten is a bit limited } else { st->clienttype = TCPC_WEBSOCKETU; //nacl supports only utf-8 encoded data, at least at the time I implemented it. protoname = va("Sec-WebSocket-Protocol: %s\r\n", arg[WCATTR_WSPROTO]); //emscripten is a bit limited } resp = va( "HTTP/1.1 101 WebSocket Protocol Handshake\r\n" "Upgrade: websocket\r\n" "Connection: Upgrade\r\n" "Access-Control-Allow-Origin: *\r\n" //allow cross-origin requests. this means you can use any domain to play on any public server. "Sec-WebSocket-Accept: %s\r\n" "%s" "\r\n", acceptkey, protoname); //send the websocket handshake response. send(st->socketnum, resp, strlen(resp), 0); //and the connection is okay if (st->clienttype == TCPC_WEBSOCKETNQ) { //hide a connection request in there... net_message.cursize = 0; net_message.packing = SZ_RAWBYTES; net_message.currentbit = 0; net_from = st->remoteaddr; MSG_WriteLong(&net_message, LongSwap(NETFLAG_CTL | (strlen(NET_GAMENAME_NQ)+7))); MSG_WriteByte(&net_message, CCREQ_CONNECT); MSG_WriteString(&net_message, NET_GAMENAME_NQ); MSG_WriteByte(&net_message, NET_PROTOCOL_VERSION); return true; } } } else { memmove(st->inbuffer, st->inbuffer+i, st->inlen - (i)); st->inlen -= i; if (!strcmp(arg[WCATTR_URL], "/live.html")) { resp = va( "HTTP/1.1 200 Ok\r\n" "Connection: Close\r\n" "Content-Type: text/html\r\n" "\r\n" "" "" "" "
" "" "" "" "" "Please install a plugin first.
" "
" "
" "
" "" ); } /* else if ((!strcmp(arg[WCATTR_URL], "/ftewebgl.html") || !strcmp(arg[WCATTR_URL], "/ftewebgl.html.fmf") || !strcmp(arg[WCATTR_URL], "/pak0.pak")) && ((st->file = VFSOS_Open(va("C:/Incoming/vm%s", arg[WCATTR_URL]), "rb")))) { Con_Printf("Downloading %s to %s\n", arg[WCATTR_URL], NET_AdrToString (adr, sizeof(adr), st->remoteaddr)); resp = va( "HTTP/1.1 200 Ok\r\n" "Content-Type: text/html\r\n" "Content-Length: %i\r\n" "\r\n", VFS_GETLEN(st->file) ); send(st->socketnum, resp, strlen(resp), 0); st->clienttype = TCPC_HTTPCLIENT; continue; } */ else { Con_Printf("Invalid download request %s to %s\n", arg[WCATTR_URL], NET_AdrToString (adr, sizeof(adr), &st->remoteaddr)); resp = va( "HTTP/1.1 404 Ok\r\n" "Connection: Close\r\n" "Content-Type: text/html\r\n" "\r\n" "This is a Quake WebSocket server, not an http server.
\r\n" ""FULLENGINENAME"" ); } //send the websocket handshake rejection. send(st->socketnum, resp, strlen(resp), 0); goto closesvstream; } } } else { handshakeerror: Con_Printf ("Unknown TCP handshake from %s\n", NET_AdrToString (adr, sizeof(adr), &net_from)); goto closesvstream; } break; case TCPC_HTTPCLIENT: if (st->outlen) { /*try and flush the old data*/ int done; done = send(st->socketnum, st->outbuffer, st->outlen, 0); if (done > 0) { memmove(st->outbuffer, st->outbuffer + done, st->outlen - done); st->outlen -= done; st->timeouttime = timeval + 30; } } if (!st->outlen) { st->outlen = VFS_READ(st->file, st->outbuffer, sizeof(st->outbuffer)); if (st->outlen <= 0) { VFS_CLOSE(st->file); st->file = NULL; st->clienttype = TCPC_UNKNOWN; Con_Printf ("Outgoing file transfer complete\n"); } } continue; case TCPC_QIZMO: if (st->inlen < 2) continue; net_message.cursize = BigShort(*(short*)st->inbuffer); if (net_message.cursize >= sizeof(net_message_buffer) ) { Con_TPrintf ("Warning: Oversize packet from %s\n", NET_AdrToString (adr, sizeof(adr), &st->remoteaddr)); goto closesvstream; } if (net_message.cursize+2 > st->inlen) { //not enough buffered to read a packet out of it. continue; } memcpy(net_message_buffer, st->inbuffer+2, net_message.cursize); memmove(st->inbuffer, st->inbuffer+net_message.cursize+2, st->inlen - (net_message.cursize+2)); st->inlen -= net_message.cursize+2; net_message.packing = SZ_RAWBYTES; net_message.currentbit = 0; net_from = st->remoteaddr; return true; case TCPC_UNFRAMED: if (!st->inlen) continue; net_message.cursize = st->inlen; memcpy(net_message_buffer, st->inbuffer, net_message.cursize); st->inlen = 0; net_message.packing = SZ_RAWBYTES; net_message.currentbit = 0; net_from = st->remoteaddr; return true; case TCPC_WEBSOCKETU: case TCPC_WEBSOCKETB: case TCPC_WEBSOCKETNQ: while (st->inlen >= 2) { unsigned short ctrl = ((unsigned char*)st->inbuffer)[0]<<8 | ((unsigned char*)st->inbuffer)[1]; unsigned long paylen; unsigned int payoffs = 2; unsigned int mask = 0; st->inbuffer[st->inlen]=0; if ((ctrl & 0x7f) == 127) { //as a payload is not allowed to be encoded as too large a type, and quakeworld never used packets larger than 1450 bytes anyway, this code isn't needed (65k is the max even without this) // if (sizeof(paylen) < 8) { Con_Printf ("%s: payload frame too large\n", NET_AdrToString (adr, sizeof(adr), &st->remoteaddr)); goto closesvstream; } /* else { if (payoffs + 8 > st->inlen) break; paylen = ((unsigned char*)st->inbuffer)[payoffs+0]<<56 | ((unsigned char*)st->inbuffer)[payoffs+1]<<48 | ((unsigned char*)st->inbuffer)[payoffs+2]<<40 | ((unsigned char*)st->inbuffer)[payoffs+3]<<32 | ((unsigned char*)st->inbuffer)[payoffs+4]<<24 | ((unsigned char*)st->inbuffer)[payoffs+5]<<16 | ((unsigned char*)st->inbuffer)[payoffs+6]<<8 | ((unsigned char*)st->inbuffer)[payoffs+7]<<0; if (paylen < 0x10000) { Con_Printf ("%s: payload size encoded badly\n", NET_AdrToString (st->remoteaddr, sizeof(st->remoteaddr), net_from)); goto closesvstream; } payoffs += 8; } */ } else if ((ctrl & 0x7f) == 126) { if (payoffs + 2 > st->inlen) break; paylen = ((unsigned char*)st->inbuffer)[payoffs+0]<<8 | ((unsigned char*)st->inbuffer)[payoffs+1]<<0; if (paylen < 126) { Con_Printf ("%s: payload size encoded badly\n", NET_AdrToString (adr, sizeof(adr), &st->remoteaddr)); goto closesvstream; } payoffs += 2; } else { paylen = ctrl & 0x7f; } if (ctrl & 0x80) { if (payoffs + 4 > st->inlen) break; /*this might read data that isn't set yet, but should be safe*/ ((unsigned char*)&mask)[0] = ((unsigned char*)st->inbuffer)[payoffs+0]; ((unsigned char*)&mask)[1] = ((unsigned char*)st->inbuffer)[payoffs+1]; ((unsigned char*)&mask)[2] = ((unsigned char*)st->inbuffer)[payoffs+2]; ((unsigned char*)&mask)[3] = ((unsigned char*)st->inbuffer)[payoffs+3]; payoffs += 4; } /*if there isn't space, try again next time around*/ if (payoffs + paylen > st->inlen) break; if (mask) { int i; for (i = 0; i < paylen; i++) { ((unsigned char*)st->inbuffer)[i + payoffs] ^= ((unsigned char*)&mask)[i&3]; } } net_message.cursize = 0; switch((ctrl>>8) & 0xf) { case 0: /*continuation*/ Con_Printf ("websocket continuation frame from %s\n", NET_AdrToString (adr, sizeof(adr), &st->remoteaddr)); goto closesvstream; case 1: /*text frame*/ // Con_Printf ("websocket text frame from %s\n", NET_AdrToString (adr, sizeof(adr), st->remoteaddr)); { /*text frames are pure utf-8 chars, no dodgy encodings or anything, all pre-checked... except we're trying to send binary data. so we need to unmask things (char 0 is encoded as 0x100 - truncate it) */ unsigned char *in = st->inbuffer+payoffs, *out = net_message_buffer; int len = paylen; while(len && out < net_message_buffer + sizeof(net_message_buffer)) { if ((*in & 0xe0)==0xc0 && len > 1) { *out = ((in[0] & 0x1f)<<6) | ((in[1] & 0x3f)<<0); in+=2; len -= 2; } else if (*in & 0x80) { *out = '?'; in++; len -= 1; } else { *out = in[0]; in++; len -= 1; } out++; } net_message.cursize = out - net_message_buffer; } break; case 2: /*binary frame*/ // Con_Printf ("websocket binary frame from %s\n", NET_AdrToString (adr, sizeof(adr), st->remoteaddr)); net_message.cursize = paylen; if (net_message.cursize+8 >= sizeof(net_message_buffer) ) { Con_TPrintf ("Warning: Oversize packet from %s\n", NET_AdrToString (adr, sizeof(adr), &net_from)); goto closesvstream; } if (st->clienttype == TCPC_WEBSOCKETNQ) { payoffs+=1; paylen-=1; memcpy(net_message_buffer+8, st->inbuffer+payoffs, paylen); net_message.cursize=paylen+8; ((int*)net_message_buffer)[0] = BigLong(NETFLAG_UNRELIABLE | net_message.cursize); ((int*)net_message_buffer)[1] = LongSwap(++st->fakesequence); } else memcpy(net_message_buffer, st->inbuffer+payoffs, paylen); break; case 8: /*connection close*/ Con_Printf ("websocket closure %s\n", NET_AdrToString (adr, sizeof(adr), &st->remoteaddr)); goto closesvstream; case 9: /*ping*/ Con_Printf ("websocket ping from %s\n", NET_AdrToString (adr, sizeof(adr), &st->remoteaddr)); goto closesvstream; case 10: /*pong*/ Con_Printf ("websocket pong from %s\n", NET_AdrToString (adr, sizeof(adr), &st->remoteaddr)); goto closesvstream; default: Con_Printf ("Unsupported websocket opcode (%i) from %s\n", (ctrl>>8) & 0xf, NET_AdrToString (adr, sizeof(adr), &st->remoteaddr)); goto closesvstream; } // memcpy(net_message_buffer, st->inbuffer+2, net_message.cursize); memmove(st->inbuffer, st->inbuffer+payoffs + paylen, st->inlen - (payoffs + paylen)); st->inlen -= payoffs + paylen; if (net_message.cursize) { net_message.packing = SZ_RAWBYTES; net_message.currentbit = 0; net_from = st->remoteaddr; return true; } } break; } } if (con->generic.thesocket != INVALID_SOCKET && con->active < 256) { int newsock; fromlen = sizeof(from); newsock = accept(con->generic.thesocket, (struct sockaddr*)&from, &fromlen); if (newsock != INVALID_SOCKET) { int _true = true; ioctlsocket(newsock, FIONBIO, (u_long *)&_true); setsockopt(newsock, IPPROTO_TCP, TCP_NODELAY, (char *)&_true, sizeof(_true)); con->active++; st = Z_Malloc(sizeof(*con->tcpstreams)); st->clienttype = TCPC_UNKNOWN; st->next = con->tcpstreams; con->tcpstreams = st; st->socketnum = newsock; st->inlen = 0; /*grab the net address*/ SockadrToNetadr(&from, &st->remoteaddr); /*sockadr doesn't contain transport info, so fix that up here*/ if (st->remoteaddr.type == NA_IP) st->remoteaddr.type = NA_TCP; else if (st->remoteaddr.type == NA_IPV6) st->remoteaddr.type = NA_TCPV6; st->timeouttime = timeval + 30; } } return false; } qboolean FTENET_TCPConnect_SendPacket(ftenet_generic_connection_t *gcon, int length, void *data, netadr_t *to) { ftenet_tcpconnect_connection_t *con = (ftenet_tcpconnect_connection_t*)gcon; ftenet_tcpconnect_stream_t *st; for (st = con->tcpstreams; st; st = st->next) { if (st->socketnum == INVALID_SOCKET) continue; if (NET_CompareAdr(to, &st->remoteaddr)) { if (!st->outlen) { switch(st->clienttype) { case TCPC_QIZMO: { unsigned short slen = BigShort((unsigned short)length); if (st->outlen + sizeof(slen) + length > sizeof(st->outbuffer)) { Con_DPrintf("FTENET_TCPConnect_SendPacket: outgoing overflow\n"); } else { memcpy(st->outbuffer + st->outlen, &slen, sizeof(slen)); memcpy(st->outbuffer + st->outlen + sizeof(slen), data, length); st->outlen += sizeof(slen) + length; } } break; case TCPC_UNFRAMED: if (length > sizeof(st->outbuffer)) { Con_DPrintf("FTENET_TCPConnect_SendPacket: outgoing overflow\n"); } memcpy(st->outbuffer, data, length); st->outlen = length; break; case TCPC_WEBSOCKETNQ: if (length < 8 || ((char*)data)[0] & 0x80) break; // length = 2; // data = "\1\1"; length-=7; data=(char*)data + 7; *(char*)data = 1; //for compat with webquake, we add an extra byte at the start. 1 for reliable, 2 for unreliable. //fallthrough case TCPC_WEBSOCKETU: case TCPC_WEBSOCKETB: { /*as a server, we don't need the mask stuff*/ unsigned short ctrl = (st->clienttype==TCPC_WEBSOCKETU)?0x8100:0x8200; unsigned int paylen = 0; unsigned int payoffs = 2; int i; switch((ctrl>>8) & 0xf) { case 1: for (i = 0; i < length; i++) { paylen += (((char*)data)[i] == 0 || ((unsigned char*)data)[i] >= 0x80)?2:1; } break; default: paylen = length; break; } if (paylen >= 126) { ctrl |= 126; payoffs += 2; } else ctrl |= paylen; st->outbuffer[0] = ctrl>>8; st->outbuffer[1] = ctrl&0xff; if (paylen >= 126) { st->outbuffer[2] = paylen>>8; st->outbuffer[3] = paylen&0xff; } switch((ctrl>>8) & 0xf) { case 1:/*utf8ify the data*/ for (i = 0; i < length; i++) { if (!((unsigned char*)data)[i]) { /*0 is encoded as 0x100 to avoid safety checks*/ st->outbuffer[payoffs++] = 0xc0 | (0x100>>6); st->outbuffer[payoffs++] = 0x80 | (0x100&0x3f); } else if (((unsigned char*)data)[i] >= 0x80) { /*larger bytes require markup*/ st->outbuffer[payoffs++] = 0xc0 | (((unsigned char*)data)[i]>>6); st->outbuffer[payoffs++] = 0x80 | (((unsigned char*)data)[i]&0x3f); } else { /*lower 7 bits are as-is*/ st->outbuffer[payoffs++] = ((char*)data)[i]; } } break; default: //raw data memcpy(st->outbuffer+payoffs, data, length); payoffs += length; break; } st->outlen = payoffs; } break; default: break; } } if (st->outlen) { /*try and flush the old data*/ int done; done = send(st->socketnum, st->outbuffer, st->outlen, 0); if (done > 0) { memmove(st->outbuffer, st->outbuffer + done, st->outlen - done); st->outlen -= done; } } st->timeouttime = Sys_DoubleTime() + 20; return true; } } return false; } void FTENET_TCPConnect_Close(ftenet_generic_connection_t *gcon) { ftenet_tcpconnect_connection_t *con = (ftenet_tcpconnect_connection_t*)gcon; ftenet_tcpconnect_stream_t *st; st = con->tcpstreams; while (con->tcpstreams) { st = con->tcpstreams; con->tcpstreams = st->next; if (st->socketnum != INVALID_SOCKET) closesocket(st->socketnum); BZ_Free(st); } FTENET_Generic_Close(gcon); } #ifdef HAVE_PACKET int FTENET_TCPConnect_SetReceiveFDSet(ftenet_generic_connection_t *gcon, fd_set *fdset) { int maxfd = 0; ftenet_tcpconnect_connection_t *con = (ftenet_tcpconnect_connection_t*)gcon; ftenet_tcpconnect_stream_t *st; for (st = con->tcpstreams; st; st = st->next) { if (st->socketnum == INVALID_SOCKET) continue; FD_SET(st->socketnum, fdset); // network socket if (maxfd < st->socketnum) maxfd = st->socketnum; } if (con->generic.thesocket != INVALID_SOCKET) { FD_SET(con->generic.thesocket, fdset); // network socket if (maxfd < con->generic.thesocket) maxfd = con->generic.thesocket; } return maxfd; } #endif ftenet_generic_connection_t *FTENET_TCPConnect_EstablishConnection(int affamily, qboolean isserver, const char *address) { //this is written to support either ipv4 or ipv6, depending on the remote addr. ftenet_tcpconnect_connection_t *newcon; unsigned long _true = true; int newsocket; int temp; netadr_t adr; struct sockaddr_qstorage qs; int family; if (!strncmp(address, "tcp://", 6)) address += 6; if (!strncmp(address, "ws://", 5)) address += 5; if (!strncmp(address, "wss://", 6)) address += 6; if (isserver) { #ifndef HAVE_PACKET //unable to listen on tcp if we have no packet interface return NULL; #else if (!NET_PortToAdr(affamily, address, &adr)) return NULL; //couldn't resolve the name if (adr.type == NA_IP) adr.type = NA_TCP; temp = NetadrToSockadr(&adr, &qs); family = ((struct sockaddr_in*)&qs)->sin_family; if ((newsocket = socket (family, SOCK_STREAM, IPPROTO_TCP)) == INVALID_SOCKET) { Con_Printf("operating system doesn't support that\n"); return NULL; } if ((bind(newsocket, (struct sockaddr *)&qs, temp) == INVALID_SOCKET) || (listen(newsocket, 2) == INVALID_SOCKET)) { SockadrToNetadr(&qs, &adr); //mneh, reuse qs. NET_AdrToString((char*)&qs, sizeof(qs), &adr); Con_Printf("Unable to listen at %s\n", (char*)&qs); closesocket(newsocket); return NULL; } if (ioctlsocket (newsocket, FIONBIO, &_true) == -1) Sys_Error ("UDP_OpenSocket: ioctl FIONBIO: %s", strerror(neterrno())); #endif } else { if (!NET_StringToAdr(address, 0, &adr)) return NULL; //couldn't resolve the name if (adr.type == NA_IP) adr.type = NA_TCP; newsocket = TCP_OpenStream(&adr); if (newsocket == INVALID_SOCKET) return NULL; } //this isn't fatal setsockopt(newsocket, IPPROTO_TCP, TCP_NODELAY, (char *)&_true, sizeof(_true)); newcon = Z_Malloc(sizeof(*newcon)); if (newcon) { if (isserver) newcon->generic.GetLocalAddresses = FTENET_Generic_GetLocalAddresses; newcon->generic.GetPacket = FTENET_TCPConnect_GetPacket; newcon->generic.SendPacket = FTENET_TCPConnect_SendPacket; newcon->generic.Close = FTENET_TCPConnect_Close; #ifdef HAVE_PACKET newcon->generic.SetReceiveFDSet = FTENET_TCPConnect_SetReceiveFDSet; #endif newcon->generic.islisten = isserver; newcon->generic.addrtype[0] = adr.type; newcon->generic.addrtype[1] = NA_INVALID; newcon->active = 0; if (!isserver) { newcon->generic.thesocket = INVALID_SOCKET; newcon->active++; newcon->tcpstreams = Z_Malloc(sizeof(*newcon->tcpstreams)); newcon->tcpstreams->next = NULL; newcon->tcpstreams->socketnum = newsocket; newcon->tcpstreams->inlen = 0; newcon->tcpstreams->remoteaddr = adr; #ifdef FTE_TARGET_WEB newcon->tcpstreams->clienttype = TCPC_UNFRAMED; #else //send the qizmo greeting. newcon->tcpstreams->clienttype = TCPC_UNKNOWN; send(newsocket, "qizmo\n", 6, 0); #endif newcon->tcpstreams->timeouttime = Sys_DoubleTime() + 30; } else { newcon->tcpstreams = NULL; newcon->generic.thesocket = newsocket; } return &newcon->generic; } else { closesocket(newsocket); return NULL; } } #ifdef IPPROTO_IPV6 ftenet_generic_connection_t *FTENET_TCP6Connect_EstablishConnection(qboolean isserver, const char *address) { return FTENET_TCPConnect_EstablishConnection(NA_TCPV6, isserver, address); } #endif ftenet_generic_connection_t *FTENET_TCP4Connect_EstablishConnection(qboolean isserver, const char *address) { return FTENET_TCPConnect_EstablishConnection(NA_TCP, isserver, address); } #endif #ifdef IRCCONNECT typedef struct ftenet_ircconnect_stream_s { char theiruser[16]; int inlen; char inbuffer[1500]; float timeouttime; netadr_t remoteaddr; struct ftenet_ircconnect_stream_s *next; } ftenet_ircconnect_stream_t; typedef struct { ftenet_generic_connection_t generic; netadr_t ircserver; char incoming[512+1]; int income; char ourusername[16]; char usechannel[16]; char outbuf[8192]; unsigned int outbufcount; ftenet_ircconnect_stream_t *streams; } ftenet_ircconnect_connection_t; qboolean FTENET_IRCConnect_GetPacket(ftenet_generic_connection_t *gcon) { unsigned char *s, *start, *end, *endl; int read; unsigned char *from; int fromlen; int code; char adr[128]; ftenet_ircconnect_connection_t *con = (ftenet_ircconnect_connection_t*)gcon; if (con->generic.thesocket == INVALID_SOCKET) { if (con->income == 0) { netadr_t ip; cvar_t *ircuser = Cvar_Get("ircuser", "none", 0, "IRC Connect"); cvar_t *ircnick = Cvar_Get("ircnick", "", 0, "IRC Connect"); cvar_t *ircsomething = Cvar_Get("ircsomething", "moo", 0, "IRC Connect"); cvar_t *ircclientaddr = Cvar_Get("ircclientaddr", "127.0.0.1", 0, "IRC Connect"); NET_StringToAdr(con->ircserver.address.irc.host, 6667, &ip); con->generic.thesocket = TCP_OpenStream(&ip); //when hosting, the specified nick is the name we're using. //when connecting, the specified nick is the name we're trying to send to, and our own name is inconsequential. if (con->generic.islisten && *con->ircserver.address.irc.user) Q_strncpyz(con->ourusername, con->ircserver.address.irc.user, sizeof(con->ourusername)); else Q_strncpyz(con->ourusername, ircnick->string, sizeof(con->ourusername)); if (!*con->ourusername) { Q_snprintfz(con->ourusername, sizeof(con->ourusername), "fte%x\n", rand()); } send(con->generic.thesocket, "USER ", 5, 0); send(con->generic.thesocket, ircuser->string, strlen(ircuser->string), 0); send(con->generic.thesocket, " ", 1, 0); send(con->generic.thesocket, con->ircserver.address.irc.host, strlen(con->ircserver.address.irc.host), 0); send(con->generic.thesocket, " ", 1, 0); send(con->generic.thesocket, ircclientaddr->string, strlen(ircclientaddr->string), 0); send(con->generic.thesocket, " :", 2, 0); send(con->generic.thesocket, ircsomething->string, strlen(ircsomething->string), 0); send(con->generic.thesocket, "\r\n", 2, 0); send(con->generic.thesocket, "NICK ", 5, 0); send(con->generic.thesocket, con->ourusername, strlen(con->ourusername), 0); send(con->generic.thesocket, "\r\n", 2, 0); } } else { read = recv(con->generic.thesocket, con->incoming+con->income, sizeof(con->incoming)-1 - con->income, 0); if (read < 0) { read = neterrno(); switch(read) { case NET_ECONNABORTED: case NET_ECONNRESET: closesocket(con->generic.thesocket); con->generic.thesocket = INVALID_SOCKET; break; default: break; } read = 0;//return false; } else if (read == 0) //they disconnected. { closesocket(con->generic.thesocket); con->generic.thesocket = INVALID_SOCKET; } con->income += read; con->incoming[con->income] = 0; } start = con->incoming; end = start+con->income; while (start < end) { endl = NULL; for (s = start; s < end; s++) { if (*s == '\n') { endl = s; break; } } if (endl == NULL) //not got a complete command. break; s = start; while(*s == ' ') s++; if (*s == ':') { s++; from = s; while(s sizeof(net_from.address.irc.user)-1) fromlen = sizeof(net_from.address.irc.user)-1; for (code = 0; code < fromlen; code++) if (from[code] == '!') { fromlen = code; break; } net_from.type = NA_IRC; memcpy(net_from.address.irc.user, from, fromlen); net_from.address.irc.user[fromlen] = 0; dest = s; //discard the destination name while(s= sizeof(net_from.address.irc.channel)) { //no space, just pretend it was direct. net_from.address.irc.channel[0] = 0; } else { memcpy(net_from.address.irc.channel, dest, s-dest); net_from.address.irc.channel[s-dest] = 0; if (!strcmp(net_from.address.irc.channel, con->ourusername)) { //this was aimed at us. clear the channel. net_from.address.irc.channel[0] = 0; } } while(*s == ' ') s++; if (*s == ':') { s++; if (*s == '!') { s++; /*interpret as a connectionless packet*/ net_message.cursize = 4 + endl - s; if (net_message.cursize >= sizeof(net_message_buffer) ) { Con_TPrintf ("Warning: Oversize packet from %s\n", NET_AdrToString (adr, sizeof(adr), &net_from)); break; } *(unsigned int*)net_message_buffer = ~0; memcpy(net_message_buffer+4, s, net_message.cursize); net_message.packing = SZ_RAWBYTES; net_message.currentbit = 0; //clean up the incoming data memmove(con->incoming, start, end - (endl+1)); con->income = end - (endl+1); con->incoming[con->income] = 0; return true; } if (*s == '$') { unsigned char *nstart = s; while (*s != '\r' && *s != '\n' && *s != '#' && *s != ' ' && *s != ':') s++; if (*s == '#') { if (strncmp(nstart, con->ourusername, strlen(con->ourusername)) || strlen(con->ourusername) != s - nstart) while(*s == '#') s++; } } if (*s == '#') { ftenet_ircconnect_stream_t *st; int psize; for (st = con->streams; st; st = st->next) { if (!strncmp(st->remoteaddr.address.irc.user, from, fromlen) && st->remoteaddr.address.irc.user[fromlen] == 0) break; } if (!st) { st = Z_Malloc(sizeof(*st)); st->remoteaddr = net_from; st->next = con->streams; con->streams = st; } //skip over the hash s++; psize = 0; if (*s >= 'a' && *s <= 'f') psize += *s - 'a' + 10; else if (*s >= '0' && *s <= '9') psize += *s - '0'; s++; psize*=16; if (*s >= 'a' && *s <= 'f') psize += *s - 'a' + 10; else if (*s >= '0' && *s <= '9') psize += *s - '0'; s++; psize*=16; if (*s >= 'a' && *s <= 'f') psize += *s - 'a' + 10; else if (*s >= '0' && *s <= '9') psize += *s - '0'; s++; while (s < endl && st->inlen < sizeof(st->inbuffer)) { switch (*s) { //handle markup case '\\': s++; if (s < endl) { switch(*s) { case '\\': st->inbuffer[st->inlen++] = *s; break; case 'n': st->inbuffer[st->inlen++] = '\n'; break; case 'r': st->inbuffer[st->inlen++] = '\r'; break; case '0': st->inbuffer[st->inlen++] = 0; break; default: st->inbuffer[st->inlen++] = '?'; break; } } break; //ignore these case '\n': case '\r': case '\0': //this one doesn't have to be ignored. break; //handle normal char default: st->inbuffer[st->inlen++] = *s; break; } s++; } if (st->inlen > psize || psize >= sizeof(net_message_buffer) ) { st->inlen = 0; Con_Printf ("Corrupt packet from %s\n", NET_AdrToString (adr, sizeof(adr), &net_from)); } else if (st->inlen == psize) { /*interpret as a connectionless packet*/ net_message.cursize = st->inlen; if (net_message.cursize >= sizeof(net_message_buffer) ) { Con_TPrintf ("Warning: Oversize packet from %s\n", NET_AdrToString (adr, sizeof(adr), &net_from)); break; } memcpy(net_message_buffer, st->inbuffer, net_message.cursize); net_message.packing = SZ_RAWBYTES; net_message.currentbit = 0; st->inlen = 0; //clean up the incoming data memmove(con->incoming, start, end - (endl+1)); con->income = end - (endl+1); con->incoming[con->income] = 0; return true; } } } } else if (!strncmp(s, "PING ", 5)) { send(con->generic.thesocket, "PONG ", 5, 0); send(con->generic.thesocket, s+5, endl - s - 5, 0); send(con->generic.thesocket, "\r\n", 2, 0); } else { code = strtoul(s, (char **)&s, 10); switch (code) { case 1: { if (con->ircserver.address.irc.channel) { send(con->generic.thesocket, "JOIN ", 5, 0); send(con->generic.thesocket, con->ircserver.address.irc.channel, strlen(con->ircserver.address.irc.channel), 0); send(con->generic.thesocket, "\r\n", 2, 0); } } break; case 433: //nick already in use send(con->generic.thesocket, "NICK ", 5, 0); { cvar_t *ircnick2 = Cvar_Get("ircnick2", "YIBBLE", 0, "IRC Connect"); Q_strncpyz(con->ourusername, ircnick2->string, sizeof(con->ourusername)); send(con->generic.thesocket, con->ourusername, strlen(con->ourusername), 0); } send(con->generic.thesocket, "\r\n", 2, 0); break; case 0: //non-numerical event. break; } } while(*s == ' ') s++; start = s = endl+1; } memmove(con->incoming, start, end - start); con->income = end - start; con->incoming[con->income] = 0; if (con->generic.thesocket == INVALID_SOCKET) con->income = 0; return false; } qboolean FTENET_IRCConnect_SendPacket(ftenet_generic_connection_t *gcon, int length, void *data, netadr_t *to) { ftenet_ircconnect_connection_t *con = (ftenet_ircconnect_connection_t*)gcon; unsigned char *buffer; unsigned char *lenofs; int packed; int fulllen = length; int newoutcount; for (packed = 0; packed < FTENET_ADDRTYPES; packed++) if (to->type == con->generic.addrtype[packed]) break; if (packed == FTENET_ADDRTYPES) return false; packed = 0; if (con->generic.thesocket == INVALID_SOCKET) return true; /* if (*(unsigned int *)data == ~0 && !strchr(data, '\n') && !strchr(data, '\r') && strlen(data) == length) { if (send(con->generic.thesocket, va("PRIVMSG %s :!", to.address.irc.user), 15, 0) != 15) Con_Printf("bad send\n"); else if (send(con->generic.thesocket, (char*)data+4, length - 4, 0) != length-4) Con_Printf("bad send\n"); else if (send(con->generic.thesocket, "\r\n", 2, 0) != 2) Con_Printf("bad send\n"); return true; } */ newoutcount = con->outbufcount; if (!con->outbufcount) while(length) { buffer = con->outbuf + newoutcount; if (*to->address.irc.channel) { int unamelen; int chanlen; unamelen = strlen(to->address.irc.user); chanlen = strlen(to->address.irc.channel); packed = 8+chanlen+3+unamelen+1 + 3; if (packed+1 + newoutcount > sizeof(con->outbuf)) break; memcpy(buffer, "PRIVMSG ", 8); memcpy(buffer+8, to->address.irc.channel, chanlen); memcpy(buffer+8+chanlen, " :$", 3); memcpy(buffer+8+chanlen+3, to->address.irc.user, unamelen); memcpy(buffer+8+chanlen+3+unamelen, "#", 1); lenofs = buffer+8+chanlen+3+unamelen+1; sprintf(lenofs, "%03x", fulllen); } else { int unamelen; unamelen = strlen(to->address.irc.user); packed = 8 + unamelen + 3 + 3; if (packed+1 + newoutcount > sizeof(con->outbuf)) break; memcpy(buffer, "PRIVMSG ", 8); memcpy(buffer+8, to->address.irc.user, unamelen); memcpy(buffer+8+unamelen, " :#", 3); lenofs = buffer+8+unamelen+3; sprintf(lenofs, "%03x", fulllen); } while(length && packed < 400 && packed+newoutcount < sizeof(con->outbuf)-2) //make sure there's always space { switch(*(unsigned char*)data) { case '\\': buffer[packed++] = '\\'; buffer[packed++] = '\\'; break; case '\n': buffer[packed++] = '\\'; buffer[packed++] = 'n'; break; case '\r': buffer[packed++] = '\\'; buffer[packed++] = 'r'; break; case '\0': buffer[packed++] = '\\'; buffer[packed++] = '0'; break; default: buffer[packed++] = *(unsigned char*)data; break; } length--; data = (char*)data + 1; } buffer[packed++] = '\r'; buffer[packed++] = '\n'; newoutcount += packed; packed = 0; } if (!length) { //only if we flushed all con->outbufcount = newoutcount; } //try and flush it length = send(con->generic.thesocket, con->outbuf, con->outbufcount, 0); if (length > 0) { memmove(con->outbuf, con->outbuf+length, con->outbufcount-length); con->outbufcount -= length; } return true; } void FTENET_IRCConnect_Close(ftenet_generic_connection_t *gcon) { ftenet_ircconnect_connection_t *con = (ftenet_ircconnect_connection_t *)gcon; ftenet_ircconnect_stream_t *st; while(con->streams) { st = con->streams; con->streams = st->next; Z_Free(st); } FTENET_Generic_Close(gcon); } struct ftenet_generic_connection_s *FTENET_IRCConnect_EstablishConnection(qboolean isserver, const char *address) { //this is written to support either ipv4 or ipv6, depending on the remote addr. ftenet_ircconnect_connection_t *newcon; netadr_t adr; if (!NET_StringToAdr(address, 6667, &adr)) return NULL; //couldn't resolve the name newcon = Z_Malloc(sizeof(*newcon)); if (newcon) { newcon->generic.GetPacket = FTENET_IRCConnect_GetPacket; newcon->generic.SendPacket = FTENET_IRCConnect_SendPacket; newcon->generic.Close = FTENET_IRCConnect_Close; newcon->generic.islisten = isserver; newcon->generic.addrtype[0] = NA_IRC; newcon->generic.addrtype[1] = NA_INVALID; newcon->generic.thesocket = INVALID_SOCKET; newcon->ircserver = adr; return &newcon->generic; } else { return NULL; } } #endif #ifdef FTE_TARGET_WEB #include "web/ftejslib.h" typedef struct { ftenet_generic_connection_t generic; int sock; netadr_t remoteadr; qboolean failed; } ftenet_websocket_connection_t; static void FTENET_WebSocket_Close(ftenet_generic_connection_t *gcon) { ftenet_websocket_connection_t *wsc = (void*)gcon; emscriptenfte_ws_close(wsc->sock); } static qboolean FTENET_WebSocket_GetPacket(ftenet_generic_connection_t *gcon) { ftenet_websocket_connection_t *wsc = (void*)gcon; net_message.cursize = emscriptenfte_ws_recv(wsc->sock, net_message_buffer, sizeof(net_message_buffer)); if (net_message.cursize > 0) { net_from = wsc->remoteadr; return true; } net_message.cursize = 0;//just incase return false; } static qboolean FTENET_WebSocket_SendPacket(ftenet_generic_connection_t *gcon, int length, void *data, netadr_t *to) { ftenet_websocket_connection_t *wsc = (void*)gcon; if (NET_CompareAdr(to, &wsc->remoteadr)) { emscriptenfte_ws_send(wsc->sock, data, length); return true; } return false; } static ftenet_generic_connection_t *FTENET_WebSocket_EstablishConnection(qboolean isserver, const char *address) { ftenet_websocket_connection_t *newcon; netadr_t adr; int newsocket; if (isserver) { return NULL; } if (!NET_StringToAdr(address, 80, &adr)) return NULL; //couldn't resolve the name newsocket = emscriptenfte_ws_connect(address); if (newsocket < 0) return NULL; newcon = Z_Malloc(sizeof(*newcon)); if (newcon) { Q_strncpyz(newcon->generic.name, "WebSocket", sizeof(newcon->generic.name)); newcon->generic.GetPacket = FTENET_WebSocket_GetPacket; newcon->generic.SendPacket = FTENET_WebSocket_SendPacket; newcon->generic.Close = FTENET_WebSocket_Close; newcon->generic.islisten = isserver; newcon->generic.addrtype[0] = NA_WEBSOCKET; newcon->generic.addrtype[1] = NA_INVALID; newcon->generic.thesocket = INVALID_SOCKET; newcon->sock = newsocket; newcon->remoteadr = adr; return &newcon->generic; } return NULL; } #endif #ifdef NACL #include #include #include #include #include #include #include extern PPB_Core *ppb_core; extern PPB_WebSocket *ppb_websocket_interface; extern PPB_Var *ppb_var_interface; extern PPB_VarArrayBuffer *ppb_vararraybuffer_interface; extern PP_Instance pp_instance; typedef struct { ftenet_generic_connection_t generic; PP_Resource sock; netadr_t remoteadr; struct PP_Var incomingpacket; qboolean havepacket; qboolean failed; int showerror; } ftenet_websocket_connection_t; static void websocketgot(void *user_data, int32_t result) { ftenet_websocket_connection_t *wsc = user_data; if (result == PP_OK) { wsc->havepacket = true; } else { Sys_Printf("%s: %i\n", __func__, result); wsc->failed = true; wsc->showerror = result; } } static void websocketconnected(void *user_data, int32_t result) { ftenet_websocket_connection_t *wsc = user_data; if (result == PP_OK) { int res; //we got a successful connection, enable reception. struct PP_CompletionCallback ccb = {websocketgot, wsc, PP_COMPLETIONCALLBACK_FLAG_OPTIONAL}; res = ppb_websocket_interface->ReceiveMessage(wsc->sock, &wsc->incomingpacket, ccb); if (res != PP_OK_COMPLETIONPENDING) websocketgot(wsc, res); } else { Sys_Printf("%s: %i\n", __func__, result); //some sort of error connecting, make it timeout now wsc->failed = true; wsc->showerror = result; } } static void websocketclosed(void *user_data, int32_t result) { ftenet_websocket_connection_t *wsc = user_data; if (wsc->havepacket) { wsc->havepacket = false; ppb_var_interface->Release(wsc->incomingpacket); } ppb_core->ReleaseResource(wsc->sock); // Z_Free(wsc); } static void FTENET_NaClWebSocket_Close(ftenet_generic_connection_t *gcon) { int res; /*meant to free the memory too, in this case we get the callback to do it*/ ftenet_websocket_connection_t *wsc = (void*)gcon; struct PP_CompletionCallback ccb = {websocketclosed, wsc, PP_COMPLETIONCALLBACK_FLAG_NONE}; ppb_websocket_interface->Close(wsc->sock, PP_WEBSOCKETSTATUSCODE_NORMAL_CLOSURE, PP_MakeUndefined(), ccb); } static qboolean FTENET_NaClWebSocket_GetPacket(ftenet_generic_connection_t *gcon) { ftenet_websocket_connection_t *wsc = (void*)gcon; int res; int len = 0; if (wsc->havepacket) { if (wsc->incomingpacket.type == PP_VARTYPE_ARRAY_BUFFER) { uint32_t length; void *buf = ppb_vararraybuffer_interface->Map(wsc->incomingpacket); if (buf && ppb_vararraybuffer_interface->ByteLength(wsc->incomingpacket, &length)) { net_message.cursize = length; memcpy(net_message_buffer, buf, length); ppb_vararraybuffer_interface->Unmap(wsc->incomingpacket); } else net_message.cursize = 0; } else { unsigned char *utf8 = (unsigned char *)ppb_var_interface->VarToUtf8(wsc->incomingpacket, &len); unsigned char *out = (unsigned char *)net_message_buffer; while(len && out < net_message_buffer + sizeof(net_message_buffer)) { if ((*utf8 & 0xe0)==0xc0 && len > 1) { *out = ((utf8[0] & 0x1f)<<6) | ((utf8[1] & 0x3f)<<0); utf8+=2; len -= 2; } else if (*utf8 & 0x80) { *out = '?'; utf8++; len -= 1; } else { *out = utf8[0]; utf8++; len -= 1; } out++; } net_message.cursize = out - net_message_buffer; } memcpy(&net_from, &wsc->remoteadr, sizeof(net_from)); wsc->havepacket = false; ppb_var_interface->Release(wsc->incomingpacket); if (!wsc->failed) { //get the next one struct PP_CompletionCallback ccb = {websocketgot, wsc, PP_COMPLETIONCALLBACK_FLAG_OPTIONAL}; res = ppb_websocket_interface->ReceiveMessage(wsc->sock, &wsc->incomingpacket, ccb); if (res != PP_OK_COMPLETIONPENDING) websocketgot(wsc, res); } if (len) { char adr[64]; Con_TPrintf ("Warning: Oversize packet from %s\n", NET_AdrToString (adr, sizeof(adr), &net_from)); return false; } return true; } if (wsc->showerror != PP_OK) { switch(wsc->showerror) { case PP_ERROR_FAILED: Con_TPrintf ("FTENET_NaClWebSocket_GetPacket: PP_ERROR_FAILED\n"); break; case PP_ERROR_ABORTED: Con_TPrintf ("FTENET_NaClWebSocket_GetPacket: PP_ERROR_ABORTED\n"); break; case PP_ERROR_NOTSUPPORTED: Con_TPrintf ("FTENET_NaClWebSocket_GetPacket: PP_ERROR_NOTSUPPORTED\n"); break; case PP_ERROR_CONNECTION_CLOSED: Con_TPrintf ("FTENET_NaClWebSocket_GetPacket: PP_ERROR_CONNECTION_CLOSED\n"); break; case PP_ERROR_CONNECTION_RESET: Con_TPrintf ("FTENET_NaClWebSocket_GetPacket: PP_ERROR_CONNECTION_RESET\n"); break; case PP_ERROR_CONNECTION_REFUSED: Con_TPrintf ("FTENET_NaClWebSocket_GetPacket: PP_ERROR_CONNECTION_REFUSED\n"); break; case PP_ERROR_CONNECTION_ABORTED: Con_TPrintf ("FTENET_NaClWebSocket_GetPacket: PP_ERROR_CONNECTION_ABORTED\n"); break; case PP_ERROR_CONNECTION_FAILED: Con_TPrintf ("FTENET_NaClWebSocket_GetPacket: PP_ERROR_CONNECTION_FAILED\n"); break; case PP_ERROR_CONNECTION_TIMEDOUT: Con_TPrintf ("FTENET_NaClWebSocket_GetPacket: PP_ERROR_CONNECTION_TIMEDOUT\n"); break; case PP_ERROR_ADDRESS_INVALID: Con_TPrintf ("FTENET_NaClWebSocket_GetPacket: PP_ERROR_ADDRESS_INVALID\n"); break; case PP_ERROR_ADDRESS_UNREACHABLE: Con_TPrintf ("FTENET_NaClWebSocket_GetPacket: PP_ERROR_ADDRESS_UNREACHABLE\n"); break; case PP_ERROR_ADDRESS_IN_USE: Con_TPrintf ("FTENET_NaClWebSocket_GetPacket: PP_ERROR_ADDRESS_IN_USE\n"); break; default: Con_TPrintf ("FTENET_NaClWebSocket_GetPacket: error %i\n", wsc->showerror); break; } wsc->showerror = PP_OK; } return false; } static qboolean FTENET_NaClWebSocket_SendPacket(ftenet_generic_connection_t *gcon, int length, void *data, netadr_t *to) { ftenet_websocket_connection_t *wsc = (void*)gcon; int res; if (wsc->failed) return false; #if 0 struct PP_Var str = ppb_vararraybuffer_interface->Create(length); void *out = ppb_vararraybuffer_interface->Map(wsc->incomingpacket); if (!out) return false; memcpy(out, data, length); ppb_vararraybuffer_interface->Unmap(wsc->incomingpacket); #else int outchars = 0; unsigned char outdata[length*2+1]; unsigned char *out=outdata, *in=data; while(length-->0) { if (!*in) { //sends 256 instead of 0 *out++ = 0xc0 | (0x100 >> 6); *out++ = 0x80 | (0x100 & 0x3f); } else if (*in >= 0x80) { *out++ = 0xc0 | (*in >> 6); *out++ = 0x80 | (*in & 0x3f); } else *out++ = *in; in++; outchars++; } *out = 0; struct PP_Var str = ppb_var_interface->VarFromUtf8(outdata, out - outdata); #endif res = ppb_websocket_interface->SendMessage(wsc->sock, str); // Sys_Printf("FTENET_WebSocket_SendPacket: result %i\n", res); ppb_var_interface->Release(str); return true; } /*nacl websockets implementation...*/ static ftenet_generic_connection_t *FTENET_WebSocket_EstablishConnection(qboolean isserver, const char *address) { ftenet_websocket_connection_t *newcon; netadr_t adr; PP_Resource newsocket; if (isserver || !ppb_websocket_interface) { return NULL; } if (!NET_StringToAdr(address, 80, &adr)) return NULL; //couldn't resolve the name newcon = Z_Malloc(sizeof(*newcon)); if (newcon) { struct PP_CompletionCallback ccb = {websocketconnected, newcon, PP_COMPLETIONCALLBACK_FLAG_NONE}; newsocket = ppb_websocket_interface->Create(pp_instance); struct PP_Var str = ppb_var_interface->VarFromUtf8(adr.address.websocketurl, strlen(adr.address.websocketurl)); ppb_websocket_interface->Connect(newsocket, str, NULL, 0, ccb); ppb_var_interface->Release(str); Q_strncpyz(newcon->generic.name, "WebSocket", sizeof(newcon->generic.name)); newcon->generic.GetPacket = FTENET_NaClWebSocket_GetPacket; newcon->generic.SendPacket = FTENET_NaClWebSocket_SendPacket; newcon->generic.Close = FTENET_NaClWebSocket_Close; newcon->generic.islisten = isserver; newcon->generic.addrtype[0] = NA_WEBSOCKET; newcon->generic.addrtype[1] = NA_INVALID; newcon->generic.thesocket = INVALID_SOCKET; newcon->sock = newsocket; newcon->remoteadr = adr; return &newcon->generic; } return NULL; } #endif /*firstsock is a cookie*/ int NET_GetPacket (netsrc_t netsrc, int firstsock) { ftenet_connections_t *collection; if (netsrc == NS_SERVER) { #ifdef CLIENTONLY Sys_Error("NET_GetPacket: Bad netsrc"); collection = NULL; #else collection = svs.sockets; #endif } else { #ifdef SERVERONLY Sys_Error("NET_GetPacket: Bad netsrc"); collection = NULL; #else collection = cls.sockets; #endif } if (!collection) return -1; while (firstsock < MAX_CONNECTIONS) { if (!collection->conn[firstsock]) break; if (collection->conn[firstsock]->GetPacket(collection->conn[firstsock])) { if (net_fakeloss.value) { if (frandom () < net_fakeloss.value) continue; } net_from.connum = firstsock+1; return firstsock; } firstsock += 1; } return -1; } int NET_LocalAddressForRemote(ftenet_connections_t *collection, netadr_t *remote, netadr_t *local, int idx) { int adrflags; if (!remote->connum) return 0; if (!collection->conn[remote->connum-1]) return 0; if (!collection->conn[remote->connum-1]->GetLocalAddresses) return 0; return collection->conn[remote->connum-1]->GetLocalAddresses(collection->conn[remote->connum-1], &adrflags, local, 1); } qboolean NET_SendPacket (netsrc_t netsrc, int length, void *data, netadr_t *to) { // char buffer[64]; ftenet_connections_t *collection; int i; if (netsrc == NS_SERVER) { #ifdef CLIENTONLY Sys_Error("NET_GetPacket: Bad netsrc"); return false; #else collection = svs.sockets; #endif } else { #ifdef SERVERONLY Sys_Error("NET_GetPacket: Bad netsrc"); return false; #else collection = cls.sockets; #endif } if (!collection) return false; if (net_fakeloss.value) { if (frandom () < net_fakeloss.value) return true; } if (to->connum) { if (collection->conn[to->connum-1]) if (collection->conn[to->connum-1]->SendPacket(collection->conn[to->connum-1], length, data, to)) return true; } for (i = 0; i < MAX_CONNECTIONS; i++) { if (!collection->conn[i]) continue; if (collection->conn[i]->SendPacket(collection->conn[i], length, data, to)) return true; } // Con_Printf("No route to %s - try reconnecting\n", NET_AdrToString(buffer, sizeof(buffer), to)); return false; } qboolean NET_EnsureRoute(ftenet_connections_t *collection, char *routename, char *host, qboolean islisten) { netadr_t adr; NET_StringToAdr(host, 0, &adr); switch(adr.type) { case NA_WEBSOCKET: case NA_TCP: case NA_TCPV6: case NA_IRC: if (!FTENET_AddToCollection(collection, routename, host, adr.type, islisten)) return false; Con_Printf("Establishing connection to %s\n", host); break; default: //not recognised, or not needed break; } return true; } int NET_EnumerateAddresses(ftenet_connections_t *collection, struct ftenet_generic_connection_s **con, int *adrflags, netadr_t *addresses, int maxaddresses) { unsigned int found = 0, c, i, j; for (i = 0; i < MAX_CONNECTIONS; i++) { if (!collection->conn[i]) continue; c = collection->conn[i]->GetLocalAddresses(collection->conn[i], adrflags, addresses, maxaddresses); if (maxaddresses && !c) { *adrflags = 0; addresses->type = NA_INVALID; c = 1; } //fill in connection info for (j = 0; j < c; j++) { con[j] = collection->conn[i]; addresses[j].connum = i+1; } con += c; adrflags += c; addresses += c; maxaddresses -= c; found += c; } return found; } #define MAXADDRESSES 64 void NET_PrintAddresses(ftenet_connections_t *collection) { int i; char adrbuf[MAX_ADR_SIZE]; int m; netadr_t addr[64]; struct ftenet_generic_connection_s *con[sizeof(addr)/sizeof(addr[0])]; int flags[sizeof(addr)/sizeof(addr[0])]; if (!collection) return; m = NET_EnumerateAddresses(collection, con, flags, addr, sizeof(addr)/sizeof(addr[0])); for (i = 0; i < m; i++) { if (addr[i].type == NA_INVALID) Con_Printf("net address (%s): no addresses\n", con[i]->name); else Con_Printf("net address (%s): %s\n", con[i]->name, NET_AdrToString(adrbuf, sizeof(adrbuf), &addr[i])); } } //============================================================================= int TCP_OpenStream (netadr_t *remoteaddr) { #ifndef HAVE_TCP return INVALID_SOCKET; #else unsigned long _true = true; int newsocket; int temp; struct sockaddr_qstorage qs; // struct sockaddr_qstorage loc; int recvbufsize = (1<<19);//512kb temp = NetadrToSockadr(remoteaddr, &qs); if ((newsocket = socket (((struct sockaddr_in*)&qs)->sin_family, SOCK_STREAM, IPPROTO_TCP)) == INVALID_SOCKET) return (int)INVALID_SOCKET; setsockopt(newsocket, SOL_SOCKET, SO_RCVBUF, (void*)&recvbufsize, sizeof(recvbufsize)); if (ioctlsocket (newsocket, FIONBIO, &_true) == -1) Sys_Error ("UDP_OpenSocket: ioctl FIONBIO: %s", strerror(neterrno())); // memset(&loc, 0, sizeof(loc)); // ((struct sockaddr*)&loc)->sa_family = ((struct sockaddr*)&loc)->sa_family; // bind(newsocket, (struct sockaddr *)&loc, ((struct sockaddr_in*)&qs)->sin_family == AF_INET?sizeof(struct sockaddr_in):sizeof(struct sockaddr_in6)); if (connect(newsocket, (struct sockaddr *)&qs, temp) == INVALID_SOCKET) { int err = neterrno(); if (err != NET_EWOULDBLOCK && err != NET_EINPROGRESS) { char buf[256]; NET_AdrToString(buf, sizeof(buf), remoteaddr); if (err == NET_EADDRNOTAVAIL) { if (remoteaddr->port == 0 && (remoteaddr->type == NA_IP || remoteaddr->type == NA_IPV6)) Con_Printf ("TCP_OpenStream: no port specified (%s)\n", buf); else Con_Printf ("TCP_OpenStream: invalid address trying to connect to %s\n", buf); } else if (err == NET_EACCES) Con_Printf ("TCP_OpenStream: access denied: check firewall (%s)\n", buf); else Con_Printf ("TCP_OpenStream: connect: error %i (%s)\n", err, buf); closesocket(newsocket); return (int)INVALID_SOCKET; } } return newsocket; #endif } /*int TCP_OpenListenSocket (const char *localip, int port) { #ifndef HAVE_TCP return INVALID_SOCKET; #else int newsocket; struct sockaddr_qstorage address; int pf; unsigned long _true = true; int i; int maxport = port + 100; if (localip && *localip) { if (!NET_StringToSockaddr(localip, port, &address, &pf, &adrsize)) return INVALID_SOCKET; } else { adrsize = sizeof(struct sockaddr_in); pf = ((struct sockaddr_in*)&address)->sin_family = AF_INET; ((struct sockaddr_in*)&address)->sin_port = htons(port); //ZOID -- check for interface binding option if ((i = COM_CheckParm("-ip")) != 0 && i < com_argc) { ((struct sockaddr_in*)&address)->sin_addr.s_addr = inet_addr(com_argv[i+1]); Con_TPrintf("Binding to IP Interface Address of %s\n", inet_ntoa(address.sin_addr)); } else ((struct sockaddr_in*)&address)->sin_addr.s_addr = INADDR_ANY; } if ((newsocket = socket (pf, SOCK_STREAM, IPPROTO_TCP)) == INVALID_SOCKET) return INVALID_SOCKET; if (ioctlsocket (newsocket, FIONBIO, &_true) == -1) Sys_Error ("TCP_OpenListenSocket: ioctl FIONBIO: %s", strerror(qerrno)); for(;;) { if (port == PORT_ANY) address.sin_port = 0; else address.sin_port = htons((short)port); if( bind (newsocket, (void *)&address, sizeof(address)) == -1) { if (!port) { Con_Printf("Cannot bind tcp socket\n"); closesocket(newsocket); return INVALID_SOCKET; } port++; if (port > maxport) { Con_Printf("Cannot bind tcp socket\n"); closesocket(newsocket); return INVALID_SOCKET; } } else break; } if (listen(newsocket, 1) == INVALID_SOCKET) { Con_Printf("Cannot listen on tcp socket\n"); closesocket(newsocket); return INVALID_SOCKET; } return newsocket; #endif } */ #if defined(SV_MASTER) || defined(CL_MASTER) int UDP_OpenSocket (int port, qboolean bcast) { SOCKET newsocket; struct sockaddr_in address; unsigned long _true = true; int i; int maxport = port + 100; if ((newsocket = socket (PF_INET, SOCK_DGRAM, IPPROTO_UDP)) == INVALID_SOCKET) return (int)INVALID_SOCKET; if (ioctlsocket (newsocket, FIONBIO, &_true) == -1) Sys_Error ("UDP_OpenSocket: ioctl FIONBIO: %s", strerror(neterrno())); if (bcast) { _true = true; if (setsockopt(newsocket, SOL_SOCKET, SO_BROADCAST, (char *)&_true, sizeof(_true)) == -1) { Con_Printf("Cannot create broadcast socket\n"); return (int)INVALID_SOCKET; } } address.sin_family = AF_INET; //ZOID -- check for interface binding option if ((i = COM_CheckParm("-ip")) != 0 && i < com_argc) { address.sin_addr.s_addr = inet_addr(com_argv[i+1]); Con_TPrintf("Binding to IP Interface Address of %s\n", inet_ntoa(address.sin_addr)); } else address.sin_addr.s_addr = INADDR_ANY; for(;;) { if (port == PORT_ANY) address.sin_port = 0; else address.sin_port = htons((short)port); if( bind (newsocket, (void *)&address, sizeof(address)) == -1) { if (!port) Sys_Error ("UDP_OpenSocket: bind: %s", strerror(neterrno())); port++; if (port > maxport) Sys_Error ("UDP_OpenSocket: bind: %s", strerror(neterrno())); } else break; } return newsocket; } #ifdef IPPROTO_IPV6 int UDP6_OpenSocket (int port, qboolean bcast) { int err; SOCKET newsocket; struct sockaddr_in6 address; unsigned long _true = true; // int i; int maxport = port + 100; memset(&address, 0, sizeof(address)); if ((newsocket = socket (PF_INET6, SOCK_DGRAM, 0)) == INVALID_SOCKET) { Con_Printf("IPV6 is not supported: %s\n", strerror(neterrno())); return (int)INVALID_SOCKET; } if (ioctlsocket (newsocket, FIONBIO, &_true) == -1) Sys_Error ("UDP_OpenSocket: ioctl FIONBIO: %s", strerror(neterrno())); if (bcast) { // address.sin6_addr // _true = true; // if (setsockopt(newsocket, SOL_SOCKET, IP_ADD_MEMBERSHIP, (char *)&_true, sizeof(_true)) == -1) // { Con_Printf("Cannot create broadcast socket\n"); closesocket(newsocket); return (int)INVALID_SOCKET; // } } #ifdef IPV6_V6ONLY setsockopt(newsocket, IPPROTO_IPV6, IPV6_V6ONLY, (char *)&_true, sizeof(_true)); #endif address.sin6_family = AF_INET6; //ZOID -- check for interface binding option // if ((i = COM_CheckParm("-ip6")) != 0 && i < com_argc) { // address.sin6_addr = inet_addr(com_argv[i+1]); /// Con_TPrintf("Binding to IP Interface Address of %s\n", // inet_ntoa(address.sin6_addr)); // } else memset(&address.sin6_addr, 0, sizeof(struct in6_addr)); for(;;) { if (port == PORT_ANY) address.sin6_port = 0; else address.sin6_port = htons((short)port); if( bind (newsocket, (void *)&address, sizeof(address)) == -1) { if (!port) { err = neterrno(); Con_Printf ("UDP6_OpenSocket: bind: (%i) %s", err, strerror(err)); closesocket(newsocket); return (int)INVALID_SOCKET; } port++; if (port > maxport) { err = neterrno(); Con_Printf ("UDP6_OpenSocket: bind: (%i) %s", err, strerror(err)); closesocket(newsocket); return (int)INVALID_SOCKET; } } else break; } return newsocket; } #endif void UDP_CloseSocket (int socket) { closesocket(socket); } int IPX_OpenSocket (int port, qboolean bcast) { #ifndef USEIPX return 0; #else SOCKET newsocket; struct sockaddr_ipx address; u_long _true = 1; if ((newsocket = socket (PF_IPX, SOCK_DGRAM, NSPROTO_IPX)) == INVALID_SOCKET) { int e = neterrno(); if (e != NET_EAFNOSUPPORT) Con_Printf ("WARNING: IPX_Socket: socket: %i\n", e); return INVALID_SOCKET; } // make it non-blocking if (ioctlsocket (newsocket, FIONBIO, &_true) == -1) { Con_Printf ("WARNING: IPX_Socket: ioctl FIONBIO: %i\n", neterrno()); return INVALID_SOCKET; } if (bcast) { // make it broadcast capable if (setsockopt(newsocket, SOL_SOCKET, SO_BROADCAST, (char *)&_true, sizeof(_true)) == -1) { Con_Printf ("WARNING: IPX_Socket: setsockopt SO_BROADCAST: %i\n", neterrno()); return INVALID_SOCKET; } } address.sa_family = AF_IPX; memset (address.sa_netnum, 0, 4); memset (address.sa_nodenum, 0, 6); if (port == PORT_ANY) address.sa_socket = 0; else address.sa_socket = htons((short)port); if( bind (newsocket, (void *)&address, sizeof(address)) == -1) { Con_Printf ("WARNING: IPX_Socket: bind: %i\n", neterrno()); closesocket (newsocket); return INVALID_SOCKET; } return newsocket; #endif } void IPX_CloseSocket (int socket) { #ifdef USEIPX closesocket(socket); #endif } #endif // sleeps msec or until net socket is ready //stdin can sometimes be a socket. As a result, //we give the option to select it for nice console imput with timeouts. #ifndef CLIENTONLY qboolean NET_Sleep(int msec, qboolean stdinissocket) { #ifdef HAVE_PACKET struct timeval timeout; fd_set fdset; int maxfd; int con, sock; FD_ZERO(&fdset); if (stdinissocket) FD_SET(0, &fdset); //stdin tends to be socket 0 maxfd = 0; if (svs.sockets) for (con = 0; con < MAX_CONNECTIONS; con++) { if (!svs.sockets->conn[con]) continue; if (svs.sockets->conn[con]->SetReceiveFDSet) { sock = svs.sockets->conn[con]->SetReceiveFDSet(svs.sockets->conn[con], &fdset); if (sock > maxfd) maxfd = sock; } else { sock = svs.sockets->conn[con]->thesocket; if (sock != INVALID_SOCKET) { FD_SET(sock, &fdset); // network socket if (sock > maxfd) maxfd = sock; } } } timeout.tv_sec = msec/1000; timeout.tv_usec = (msec%1000)*1000; if (!maxfd) Sys_Sleep(msec/1000.0); else select(maxfd+1, &fdset, NULL, NULL, &timeout); if (stdinissocket) return FD_ISSET(0, &fdset); #endif return true; } #endif //this function is used to determine the 'default' local address. //this is used for compat with gamespy which insists on sending us a packet via that interface and not something more sensible like 127.0.0.1 //thus its only needed on windows and with ipv4. void NET_GetLocalAddress (int socket, netadr_t *out) { #ifdef _WIN32 char buff[512]; char adrbuf[MAX_ADR_SIZE]; struct sockaddr_qstorage address; int namelen; netadr_t adr = {0}; qboolean notvalid = false; strcpy(buff, "localhost"); gethostname(buff, 512); buff[512-1] = 0; if (!NET_StringToAdr (buff, 0, &adr)) //urm NET_StringToAdr ("127.0.0.1", 0, &adr); namelen = sizeof(address); if (getsockname (socket, (struct sockaddr *)&address, &namelen) == -1) { notvalid = true; NET_StringToSockaddr("0.0.0.0", 0, (struct sockaddr_qstorage *)&address, NULL, NULL); // Sys_Error ("NET_Init: getsockname:", strerror(qerrno)); } SockadrToNetadr(&address, out); if (out->type == NA_IP) { if (!*(int*)out->address.ip) //socket was set to auto { if (adr.type == NA_IP) *(int *)out->address.ip = *(int *)adr.address.ip; //change it to what the machine says it is, rather than the socket. } } if (out->type == NA_IPV6) { if (!((int*)out->address.ip6)[0] && !((int*)out->address.ip6)[1] && !((short*)out->address.ip6)[4] && (!((short*)out->address.ip6)[5] || ((unsigned short*)out->address.ip6)[5]==0xffffu) && !((int*)out->address.ip6)[3]) //ipv6 any or ipv4-mapped any. { if (adr.type == NA_IP) { memset(out->address.ip6, 0, sizeof(out->address.ip6)); ((short *)out->address.ip6)[5] = 0xffff; ((int *)out->address.ip6)[3] = *(int *)adr.address.ip; } else if (adr.type == NA_IPV6) memcpy(out->address.ip6, adr.address.ip6, sizeof(out->address.ip6)); } } if (!notvalid) { Con_TPrintf("IP address %s\n", NET_AdrToString (adrbuf, sizeof(adrbuf), out) ); return; } Con_Printf("Couldn't detect local ip\n"); #endif out->type = NA_INVALID; } #ifndef CLIENTONLY void SVNET_AddPort_f(void) { char *s = Cmd_Argv(1); char *conname = Cmd_Argv(2); if (!*s && !*conname) { Con_Printf("Active Server ports:\n"); NET_PrintAddresses(svs.sockets); Con_Printf("end of list\n"); return; } if (!*conname) conname = NULL; //just in case if (!svs.sockets) { svs.sockets = FTENET_CreateCollection(true); #ifndef SERVERONLY FTENET_AddToCollection(svs.sockets, "SVLoopback", "27500", NA_LOOPBACK, true); #endif } FTENET_AddToCollection(svs.sockets, conname, *s?s:NULL, *s?NA_IP:NA_INVALID, true); } #endif #ifndef SERVERONLY void NET_ClientPort_f(void) { Con_Printf("Active Client ports:\n"); NET_PrintAddresses(cls.sockets); Con_Printf("end of list\n"); } #endif qboolean NET_WasSpecialPacket(netsrc_t netsrc) { ftenet_connections_t *collection = NULL; if (netsrc == NS_SERVER) { #ifndef CLIENTONLY collection = svs.sockets; #endif } else { #ifndef SERVERONLY collection = cls.sockets; #endif } #ifdef SUPPORT_ICE if (ICE_WasStun(netsrc)) return true; #endif #ifdef HAVE_NATPMP if (NET_Was_NATPMP(collection)) return true; #endif return false; } void NET_UPNPIGP_Callback(cvar_t *var, char *oldval) { } cvar_t net_upnpigp = CVARCD("net_upnpigp", "0", NET_UPNPIGP_Callback, "If set, enables the use of the upnp-igd protocol to punch holes in your local NAT box."); /* ==================== NET_Init ==================== */ void NET_Init (void) { #ifdef _WIN32 int r; #ifdef IPPROTO_IPV6 HMODULE ws2_32dll; ws2_32dll = LoadLibrary("ws2_32.dll"); if (ws2_32dll) { pfreeaddrinfo = (void *)GetProcAddress(ws2_32dll, "freeaddrinfo"); pgetaddrinfo = (void *)GetProcAddress(ws2_32dll, "getaddrinfo"); if (!pgetaddrinfo || !pfreeaddrinfo) { pgetaddrinfo = NULL; pfreeaddrinfo = NULL; FreeLibrary(ws2_32dll); } } else pgetaddrinfo = NULL; #endif r = WSAStartup (MAKEWORD(1, 1), &winsockdata); if (r) Sys_Error ("Winsock initialization failed."); #endif Cvar_Register(&net_hybriddualstack, "networking"); Cvar_Register(&net_fakeloss, "networking"); #ifndef CLIENTONLY Cmd_AddCommand("sv_addport", SVNET_AddPort_f); #endif #ifndef SERVERONLY Cmd_AddCommand("cl_addport", NET_ClientPort_f); #endif Cvar_Register (&net_upnpigp, "networking"); net_upnpigp.restriction = RESTRICT_MAX; } #ifndef SERVERONLY void NET_InitClient(void) { const char *port; int p; port = STRINGIFY(PORT_QWCLIENT); p = COM_CheckParm ("-clport"); if (p && p < com_argc) { port = com_argv[p+1]; } cls.sockets = FTENET_CreateCollection(false); #ifndef CLIENTONLY FTENET_AddToCollection(cls.sockets, "CLLoopback", "1", NA_LOOPBACK, true); #endif #ifdef HAVE_IPV4 FTENET_AddToCollection(cls.sockets, "CLUDP4", port, NA_IP, true); #endif #ifdef IPPROTO_IPV6 FTENET_AddToCollection(cls.sockets, "CLUDP6", port, NA_IPV6, true); #endif #ifdef USEIPX FTENET_AddToCollection(cls.sockets, "CLIPX", port, NA_IPX, true); #endif // // init the message buffer // net_message.maxsize = sizeof(net_message_buffer); net_message.data = net_message_buffer; Con_TPrintf("Client port Initialized\n"); } #endif #ifndef CLIENTONLY #ifdef HAVE_IPV4 void SV_Tcpport_Callback(struct cvar_s *var, char *oldvalue) { FTENET_AddToCollection(svs.sockets, var->name, var->string, NA_TCP, true); } cvar_t sv_port_tcp = CVARC("sv_port_tcp", "", SV_Tcpport_Callback); #endif #ifdef IPPROTO_IPV6 void SV_Tcpport6_Callback(struct cvar_s *var, char *oldvalue) { FTENET_AddToCollection(svs.sockets, var->name, var->string, NA_TCPV6, true); } cvar_t sv_port_tcp6 = CVARC("sv_port_tcp6", "", SV_Tcpport6_Callback); #endif #ifdef HAVE_IPV4 void SV_Port_Callback(struct cvar_s *var, char *oldvalue) { FTENET_AddToCollection(svs.sockets, var->name, var->string, NA_IP, true); } cvar_t sv_port_ipv4 = CVARC("sv_port", "27500", SV_Port_Callback); #endif #ifdef IPPROTO_IPV6 void SV_PortIPv6_Callback(struct cvar_s *var, char *oldvalue) { FTENET_AddToCollection(svs.sockets, var->name, var->string, NA_IPV6, true); } cvar_t sv_port_ipv6 = CVARC("sv_port_ipv6", "", SV_PortIPv6_Callback); #endif #ifdef USEIPX void SV_PortIPX_Callback(struct cvar_s *var, char *oldvalue) { FTENET_AddToCollection(svs.sockets, var->name, var->string, NA_IPX, true); } cvar_t sv_port_ipx = CVARC("sv_port_ipx", "", SV_PortIPX_Callback); #endif #ifdef HAVE_NATPMP void SV_Port_NatPMP_Callback(struct cvar_s *var, char *oldvalue) { FTENET_AddToCollection(svs.sockets, var->name, va("natpmp://%s", var->string), NA_NATPMP, true); } #if 1//def SERVERONLY #define NATPMP_DEFAULT_PORT "" //don't fuck with dedicated servers #else #define NATPMP_DEFAULT_PORT "5351" //home users, yay, lucky people. #endif cvar_t sv_port_natpmp = CVARCD("sv_port_natpmp", NATPMP_DEFAULT_PORT, SV_Port_NatPMP_Callback, "If set (typically to 5351), automatically configures your router's port forwarding. You can instead specify the full ip address of your router (192.168.1.1:5351 for example). Your router must have NAT-PMP supported and enabled."); #endif void SVNET_RegisterCvars(void) { int p; #if defined(TCPCONNECT) && defined(HAVE_IPV4) Cvar_Register (&sv_port_tcp, "networking"); sv_port_tcp.restriction = RESTRICT_MAX; #endif #if defined(TCPCONNECT) && defined(IPPROTO_IPV6) Cvar_Register (&sv_port_tcp6, "networking"); sv_port_tcp6.restriction = RESTRICT_MAX; #endif #ifdef IPPROTO_IPV6 Cvar_Register (&sv_port_ipv6, "networking"); sv_port_ipv6.restriction = RESTRICT_MAX; #endif #ifdef USEIPX Cvar_Register (&sv_port_ipx, "networking"); sv_port_ipx.restriction = RESTRICT_MAX; #endif #ifdef HAVE_IPV4 Cvar_Register (&sv_port_ipv4, "networking"); sv_port_ipv4.restriction = RESTRICT_MAX; #endif #ifdef HAVE_NATPMP Cvar_Register (&sv_port_natpmp, "networking"); sv_port_natpmp.restriction = RESTRICT_MAX; #endif // parse params for cvars p = COM_CheckParm ("-port"); if (!p) p = COM_CheckParm ("-svport"); if (p && p < com_argc) { int port = atoi(com_argv[p+1]); if (!port) port = PORT_QWSERVER; #ifdef HAVE_IPV4 if (*sv_port_ipv4.string) Cvar_SetValue(&sv_port_ipv4, port); #endif #ifdef IPPROTO_IPV6 if (*sv_port_ipv6.string) Cvar_SetValue(&sv_port_ipv6, port); #endif #ifdef USEIPX if (*sv_port_ipx.string) Cvar_SetValue(&sv_port_ipx, port); #endif } } void NET_CloseServer(void) { allowconnects = false; FTENET_CloseCollection(svs.sockets); svs.sockets = NULL; } void NET_InitServer(void) { if (sv_listen_nq.value || sv_listen_dp.value || sv_listen_qw.value || sv_listen_q3.value) { if (!svs.sockets) { svs.sockets = FTENET_CreateCollection(true); #ifndef SERVERONLY FTENET_AddToCollection(svs.sockets, "SVLoopback", STRINGIFY(PORT_QWSERVER), NA_LOOPBACK, true); #endif } allowconnects = true; #ifdef HAVE_IPV4 Cvar_ForceCallback(&sv_port_ipv4); #endif #ifdef IPPROTO_IPV6 Cvar_ForceCallback(&sv_port_ipv6); #endif #ifdef USEIPX Cvar_ForceCallback(&sv_port_ipx); #endif #if defined(TCPCONNECT) && defined(HAVE_TCP) Cvar_ForceCallback(&sv_port_tcp); #ifdef IPPROTO_IPV6 Cvar_ForceCallback(&sv_port_tcp6); #endif #endif #ifdef HAVE_NATPMP Cvar_ForceCallback(&sv_port_natpmp); #endif } else { NET_CloseServer(); #ifndef SERVERONLY svs.sockets = FTENET_CreateCollection(true); FTENET_AddToCollection(svs.sockets, "SVLoopback", STRINGIFY(PORT_QWSERVER), NA_LOOPBACK, true); #endif } // // init the message buffer // net_message.maxsize = sizeof(net_message_buffer); net_message.data = net_message_buffer; } #endif void NET_Tick(void) { #ifdef SUPPORT_ICE ICE_Tick(); #endif } /* ==================== NET_Shutdown ==================== */ void NET_Shutdown (void) { #ifndef CLIENTONLY NET_CloseServer(); #endif #ifndef SERVERONLY FTENET_CloseCollection(cls.sockets); cls.sockets = NULL; #endif #ifdef _WIN32 #ifdef SERVERTONLY if (!serverthreadID) //running as subsystem of client. Don't close all of it's sockets too. #endif WSACleanup (); #endif } #ifdef HAVE_TCP typedef struct { vfsfile_t funcs; SOCKET sock; qboolean conpending; char readbuffer[65536]; int readbuffered; char peer[1]; } tcpfile_t; void VFSTCP_Error(tcpfile_t *f) { if (f->sock != INVALID_SOCKET) { closesocket(f->sock); f->sock = INVALID_SOCKET; } } int QDECL VFSTCP_ReadBytes (struct vfsfile_s *file, void *buffer, int bytestoread) { tcpfile_t *tf = (tcpfile_t*)file; int len; int trying; if (tf->conpending) { fd_set wr; fd_set ex; struct timeval timeout; timeout.tv_sec = 0; timeout.tv_usec = 0; FD_ZERO(&wr); FD_SET(tf->sock, &wr); FD_ZERO(&ex); FD_SET(tf->sock, &ex); if (!select((int)tf->sock+1, NULL, &wr, &ex, &timeout)) return 0; tf->conpending = false; } if (tf->sock != INVALID_SOCKET) { trying = sizeof(tf->readbuffer) - tf->readbuffered; if (trying > 1500) trying = 1500; len = recv(tf->sock, tf->readbuffer + tf->readbuffered, trying, 0); if (len == -1) { int e = neterrno(); if (e != NET_EWOULDBLOCK) { switch(e) { case NET_ENOTCONN: Con_Printf("connection to \"%s\" failed\n", tf->peer); break; case NET_ECONNABORTED: Con_DPrintf("connection to \"%s\" aborted\n", tf->peer); break; case NET_ECONNREFUSED: Con_DPrintf("connection to \"%s\" refused\n", tf->peer); break; case NET_ECONNRESET: Con_DPrintf("connection to \"%s\" reset\n", tf->peer); break; default: Con_Printf("tcp socket error %i (%s)\n", e, tf->peer); } VFSTCP_Error(tf); } //fixme: figure out wouldblock or error } else if (len == 0 && trying != 0) { //peer disconnected VFSTCP_Error(tf); } else { tf->readbuffered += len; } } //return a partially filled buffer. if (bytestoread > tf->readbuffered) bytestoread = tf->readbuffered; if (bytestoread < 0) VFSTCP_Error(tf); if (bytestoread > 0) { memcpy(buffer, tf->readbuffer, bytestoread); tf->readbuffered -= bytestoread; memmove(tf->readbuffer, tf->readbuffer+bytestoread, tf->readbuffered); return bytestoread; } else { if (tf->sock == INVALID_SOCKET) { return -1; //signal an error } return 0; //signal nothing available } } int QDECL VFSTCP_WriteBytes (struct vfsfile_s *file, const void *buffer, int bytestoread) { tcpfile_t *tf = (tcpfile_t*)file; int len; if (tf->sock == INVALID_SOCKET) return 0; if (tf->conpending) { fd_set fd; struct timeval timeout; timeout.tv_sec = 0; timeout.tv_usec = 0; FD_ZERO(&fd); FD_SET(tf->sock, &fd); if (!select((int)tf->sock+1, NULL, &fd, NULL, &timeout)) return 0; tf->conpending = false; } len = send(tf->sock, buffer, bytestoread, 0); if (len == -1 || len == 0) { int e = neterrno(); switch(e) { case NET_EWOULDBLOCK: return 0; //nothing available yet. case NET_ENOTCONN: Con_Printf("connection to \"%s\" failed\n", tf->peer); break; default: Sys_Printf("tcp socket error %i (%s)\n", e, tf->peer); break; } // don't destroy it on write errors, because that prevents us from reading anything that was sent to us afterwards. // instead let the read handling kill it if there's nothing new to be read VFSTCP_ReadBytes(file, NULL, 0); return -1; } return len; } qboolean QDECL VFSTCP_Seek (struct vfsfile_s *file, qofs_t pos) { VFSTCP_Error((tcpfile_t*)file); return false; } qofs_t QDECL VFSTCP_Tell (struct vfsfile_s *file) { VFSTCP_Error((tcpfile_t*)file); return 0; } qofs_t QDECL VFSTCP_GetLen (struct vfsfile_s *file) { return 0; } void QDECL VFSTCP_Close (struct vfsfile_s *file) { VFSTCP_Error((tcpfile_t*)file); Z_Free(file); } vfsfile_t *FS_OpenTCP(const char *name, int defaultport) { tcpfile_t *newf; int sock; netadr_t adr = {0}; if (NET_StringToAdr(name, defaultport, &adr)) { sock = TCP_OpenStream(&adr); if (sock == INVALID_SOCKET) return NULL; newf = Z_Malloc(sizeof(*newf) + strlen(name)); strcpy(newf->peer, name); newf->conpending = true; newf->sock = sock; newf->funcs.Close = VFSTCP_Close; newf->funcs.Flush = NULL; newf->funcs.GetLen = VFSTCP_GetLen; newf->funcs.ReadBytes = VFSTCP_ReadBytes; newf->funcs.Seek = VFSTCP_Seek; newf->funcs.Tell = VFSTCP_Tell; newf->funcs.WriteBytes = VFSTCP_WriteBytes; newf->funcs.seekingisabadplan = true; return &newf->funcs; } else return NULL; } #elif 0 //defined(HAVE_WEBSOCKCL) This code is disabled. I cannot provide a reliable mechanism over chrome/nacls websockets at this time. Some module within the ppapi/nacl/chrome stack refuses to forward the data when stressed. All I can determine is that the connection has a gap. Hopefully this should be fixed by pepper_19. As far as Im aware, this and the relevent code in QTV should be functionally complete. typedef struct { vfsfile_t funcs; PP_Resource sock; unsigned char readbuffer[65536]; int readbuffered; qboolean havepacket; struct PP_Var incomingpacket; qboolean failed; } tcpfile_t; static void tcp_websocketgot(void *user_data, int32_t result) { tcpfile_t *wsc = user_data; if (result == PP_OK) { if (wsc->incomingpacket.type == PP_VARTYPE_UNDEFINED) { Con_Printf("ERROR: %s: var was not set by PPAPI. Data has been lost.\n", __func__); wsc->failed = true; } wsc->havepacket = true; } else { Sys_Printf("%s: %i\n", __func__, result); wsc->failed = true; } } static void tcp_websocketconnected(void *user_data, int32_t result) { tcpfile_t *wsc = user_data; if (result == PP_OK) { int res; //we got a successful connection, enable reception. struct PP_CompletionCallback ccb = {tcp_websocketgot, wsc, PP_COMPLETIONCALLBACK_FLAG_NONE}; res = ppb_websocket_interface->ReceiveMessage(wsc->sock, &wsc->incomingpacket, ccb); if (res != PP_OK_COMPLETIONPENDING) tcp_websocketgot(wsc, res); } else { Sys_Printf("%s: %i\n", __func__, result); //some sort of error connecting, make it timeout now wsc->failed = true; } } static void tcp_websocketclosed(void *user_data, int32_t result) { tcpfile_t *wsc = user_data; wsc->failed = true; if (wsc->havepacket) { wsc->havepacket = false; ppb_var_interface->Release(wsc->incomingpacket); } ppb_core->ReleaseResource(wsc->sock); wsc->sock = 0; // Z_Free(wsc); } void VFSTCP_Close (struct vfsfile_s *file) { /*meant to free the memory too, in this case we get the callback to do it*/ tcpfile_t *wsc = (void*)file; struct PP_CompletionCallback ccb = {tcp_websocketclosed, wsc, PP_COMPLETIONCALLBACK_FLAG_NONE}; ppb_websocket_interface->Close(wsc->sock, PP_WEBSOCKETSTATUSCODE_NORMAL_CLOSURE, PP_MakeUndefined(), ccb); } int VFSTCP_ReadBytes (struct vfsfile_s *file, void *buffer, int bytestoread) { tcpfile_t *wsc = (void*)file; int res; if (wsc->havepacket && wsc->readbuffered < bytestoread + 1024) { if (wsc->incomingpacket.type == PP_VARTYPE_UNDEFINED) Con_Printf("PPAPI bug: var is still undefined after being received\n"); else { int len = 0; unsigned char *utf8 = (unsigned char *)ppb_var_interface->VarToUtf8(wsc->incomingpacket, &len); unsigned char *out = (unsigned char *)wsc->readbuffer + wsc->readbuffered; wsc->havepacket = false; Con_Printf("Len: %i\n", len); while(len && out < wsc->readbuffer + sizeof(wsc->readbuffer)) { if ((*utf8 & 0xe0)==0xc0 && len > 1) { *out = ((utf8[0] & 0x1f)<<6) | ((utf8[1] & 0x3f)<<0); utf8+=2; len -= 2; } else if (*utf8 & 0x80) { *out = '?'; utf8++; len -= 1; } else { *out = utf8[0]; utf8++; len -= 1; } out++; } if (len) { Con_Printf("oh noes! buffer not big enough!\n"); wsc->failed = true; } Con_Printf("Old: %i\n", wsc->readbuffered); wsc->readbuffered = out - wsc->readbuffer; Con_Printf("New: %i\n", wsc->readbuffered); ppb_var_interface->Release(wsc->incomingpacket); wsc->incomingpacket = PP_MakeUndefined(); } if (!wsc->failed) { //get the next one struct PP_CompletionCallback ccb = {tcp_websocketgot, wsc, PP_COMPLETIONCALLBACK_FLAG_NONE}; res = ppb_websocket_interface->ReceiveMessage(wsc->sock, &wsc->incomingpacket, ccb); if (res != PP_OK_COMPLETIONPENDING) tcp_websocketgot(wsc, res); } } if (wsc->readbuffered) { // Con_Printf("Reading %i bytes of %i\n", bytestoread, wsc->readbuffered); if (bytestoread > wsc->readbuffered) bytestoread = wsc->readbuffered; memcpy(buffer, wsc->readbuffer, bytestoread); memmove(wsc->readbuffer, wsc->readbuffer+bytestoread, wsc->readbuffered-bytestoread); wsc->readbuffered -= bytestoread; } else if (wsc->failed) bytestoread = -1; /*signal eof*/ else bytestoread = 0; return bytestoread; } int VFSTCP_WriteBytes (struct vfsfile_s *file, const void *buffer, int bytestowrite) { tcpfile_t *wsc = (void*)file; int res; int outchars = 0; unsigned char outdata[bytestowrite*2+1]; unsigned char *out=outdata; const unsigned char *in=buffer; if (wsc->failed) return 0; for(res = 0; res < bytestowrite; res++) { /*FIXME: do we need this code?*/ if (!*in) { *out++ = 0xc0 | (0x100 >> 6); *out++ = 0x80 | (0x100 & 0x3f); } else if (*in >= 0x80) { *out++ = 0xc0 | (*in >> 6); *out++ = 0x80 | (*in & 0x3f); } else *out++ = *in; in++; outchars++; } *out = 0; struct PP_Var str = ppb_var_interface->VarFromUtf8(outdata, out - outdata); res = ppb_websocket_interface->SendMessage(wsc->sock, str); // Sys_Printf("FTENET_WebSocket_SendPacket: result %i\n", res); ppb_var_interface->Release(str); if (res == PP_OK) return bytestowrite; return 0; } qboolean VFSTCP_Seek (struct vfsfile_s *file, unsigned long pos) { //no seeking allowed tcpfile_t *wsc = (void*)file; Con_Printf("tcp seek?\n"); wsc->failed = true; return false; } unsigned long VFSTCP_Tell (struct vfsfile_s *file) { //no telling allowed tcpfile_t *wsc = (void*)file; Con_Printf("tcp tell?\n"); wsc->failed = true; return 0; } unsigned long VFSTCP_GetLen (struct vfsfile_s *file) { return 0; } /*nacl websockets implementation...*/ vfsfile_t *FS_OpenTCP(const char *name, int defaultport) { tcpfile_t *newf; netadr_t adr; if (!ppb_websocket_interface) { return NULL; } if (!NET_StringToAdr(name, defaultport, &adr)) return NULL; //couldn't resolve the name newf = Z_Malloc(sizeof(*newf)); if (newf) { struct PP_CompletionCallback ccb = {tcp_websocketconnected, newf, PP_COMPLETIONCALLBACK_FLAG_NONE}; newf->sock = ppb_websocket_interface->Create(pp_instance); struct PP_Var str = ppb_var_interface->VarFromUtf8(adr.address.websocketurl, strlen(adr.address.websocketurl)); ppb_websocket_interface->Connect(newf->sock, str, NULL, 0, ccb); ppb_var_interface->Release(str); newf->funcs.Close = VFSTCP_Close; newf->funcs.Flush = NULL; newf->funcs.GetLen = VFSTCP_GetLen; newf->funcs.ReadBytes = VFSTCP_ReadBytes; newf->funcs.Seek = VFSTCP_Seek; newf->funcs.Tell = VFSTCP_Tell; newf->funcs.WriteBytes = VFSTCP_WriteBytes; newf->funcs.seekingisabadplan = true; return &newf->funcs; } return NULL; } #else vfsfile_t *FS_OpenTCP(const char *name, int defaultport) { return NULL; } #endif