/* Copyright (C) 1996-1997 Id Software, Inc. Copyright (C) 2002 Mathieu Olivier Copyright (C) 2003 Forest Hale 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. */ #include "quakedef.h" #include "lhnet.h" #define MASTER_PORT 27950 cvar_t sv_public = {0, "sv_public", "0"}; static cvar_t sv_heartbeatperiod = {CVAR_SAVE, "sv_heartbeatperiod", "180"}; static cvar_t sv_masters [] = { {CVAR_SAVE, "sv_master1", ""}, {CVAR_SAVE, "sv_master2", ""}, {CVAR_SAVE, "sv_master3", ""}, {CVAR_SAVE, "sv_master4", ""}, {0, "sv_masterextra1", "198.88.152.4"}, {0, "sv_masterextra2", "68.102.242.12"}, {0, NULL, NULL} }; static double nextheartbeattime = 0; sizebuf_t net_message; cvar_t net_messagetimeout = {0, "net_messagetimeout","300"}; cvar_t net_messagerejointimeout = {0, "net_messagerejointimeout","10"}; cvar_t net_connecttimeout = {0, "net_connecttimeout","10"}; cvar_t hostname = {CVAR_SAVE, "hostname", "UNNAMED"}; cvar_t developer_networking = {0, "developer_networking", "0"}; cvar_t cl_fakelocalping_min = {0, "cl_fakelocalping_min","0"}; cvar_t cl_fakelocalping_max = {0, "cl_fakelocalping_max","0"}; static cvar_t cl_fakepacketloss_receive = {0, "cl_fakepacketloss_receive","0"}; static cvar_t cl_fakepacketloss_send = {0, "cl_fakepacketloss_send","0"}; static cvar_t sv_fakepacketloss_receive = {0, "sv_fakepacketloss_receive","0"}; static cvar_t sv_fakepacketloss_send = {0, "sv_fakepacketloss_send","0"}; /* statistic counters */ static int packetsSent = 0; static int packetsReSent = 0; static int packetsReceived = 0; static int receivedDuplicateCount = 0; static int droppedDatagrams = 0; static int unreliableMessagesSent = 0; static int unreliableMessagesReceived = 0; static int reliableMessagesSent = 0; static int reliableMessagesReceived = 0; int hostCacheCount = 0; hostcache_t hostcache[HOSTCACHESIZE]; static qbyte sendbuffer[NET_MAXMESSAGE]; static qbyte readbuffer[NET_MAXMESSAGE]; int cl_numsockets; lhnetsocket_t *cl_sockets[16]; int sv_numsockets; lhnetsocket_t *sv_sockets[16]; netconn_t *netconn_list = NULL; mempool_t *netconn_mempool = NULL; cvar_t cl_netport = {0, "cl_port", "0"}; cvar_t cl_netaddress = {0, "cl_netaddress", "0.0.0.0"}; cvar_t cl_netaddress_ipv6 = {0, "cl_netaddress_ipv6", "[0:0:0:0:0:0:0:0]:0"}; cvar_t sv_netport = {0, "port", "26000"}; cvar_t sv_netaddress = {0, "sv_netaddress", "0.0.0.0"}; cvar_t sv_netaddress_ipv6 = {0, "sv_netaddress_ipv6", "[0:0:0:0:0:0:0:0]:26000"}; int NetConn_Read(lhnetsocket_t *mysocket, void *data, int maxlength, lhnetaddress_t *peeraddress) { int length = LHNET_Read(mysocket, data, maxlength, peeraddress); int i; if (cl_fakepacketloss_receive.integer) for (i = 0;i < cl_numsockets;i++) if (cl_sockets[i] == mysocket && (rand() % 100) < cl_fakepacketloss_receive.integer) return 0; if (sv_fakepacketloss_receive.integer) for (i = 0;i < cl_numsockets;i++) if (sv_sockets[i] == mysocket && (rand() % 100) < sv_fakepacketloss_receive.integer) return 0; if (developer_networking.integer && length != 0) { char addressstring[128], addressstring2[128]; LHNETADDRESS_ToString(LHNET_AddressFromSocket(mysocket), addressstring, sizeof(addressstring), true); if (length > 0) { LHNETADDRESS_ToString(peeraddress, addressstring2, sizeof(addressstring2), true); Con_Printf("LHNET_Read(%p (%s), %p, %i, %p) = %i from %s:\n", mysocket, addressstring, data, maxlength, peeraddress, length, addressstring2); Com_HexDumpToConsole(data, length); } else Con_Printf("LHNET_Read(%p (%s), %p, %i, %p) = %i\n", mysocket, addressstring, data, maxlength, peeraddress, length); } return length; } int NetConn_Write(lhnetsocket_t *mysocket, const void *data, int length, const lhnetaddress_t *peeraddress) { int ret; int i; if (cl_fakepacketloss_send.integer) for (i = 0;i < cl_numsockets;i++) if (cl_sockets[i] == mysocket && (rand() % 100) < cl_fakepacketloss_send.integer) return length; if (sv_fakepacketloss_send.integer) for (i = 0;i < cl_numsockets;i++) if (sv_sockets[i] == mysocket && (rand() % 100) < sv_fakepacketloss_send.integer) return length; ret = LHNET_Write(mysocket, data, length, peeraddress); if (developer_networking.integer) { char addressstring[128], addressstring2[128]; LHNETADDRESS_ToString(LHNET_AddressFromSocket(mysocket), addressstring, sizeof(addressstring), true); LHNETADDRESS_ToString(peeraddress, addressstring2, sizeof(addressstring2), true); Con_Printf("LHNET_Write(%p (%s), %p, %i, %p (%s)) = %i%s\n", mysocket, addressstring, data, length, peeraddress, addressstring2, length, ret == length ? "" : " (ERROR)"); Com_HexDumpToConsole(data, length); } return ret; } int NetConn_WriteString(lhnetsocket_t *mysocket, const char *string, const lhnetaddress_t *peeraddress) { // note this does not include the trailing NULL because we add that in the parser return NetConn_Write(mysocket, string, strlen(string), peeraddress); } int NetConn_SendReliableMessage(netconn_t *conn, sizebuf_t *data) { unsigned int packetLen; unsigned int dataLen; unsigned int eom; unsigned int *header; //#ifdef DEBUG if (data->cursize == 0) Sys_Error("Datagram_SendMessage: zero length message\n"); if (data->cursize > NET_MAXMESSAGE) Sys_Error("Datagram_SendMessage: message too big %u\n", data->cursize); if (conn->canSend == false) Sys_Error("SendMessage: called with canSend == false\n"); //#endif memcpy(conn->sendMessage, data->data, data->cursize); conn->sendMessageLength = data->cursize; if (conn->sendMessageLength <= MAX_PACKETFRAGMENT) { dataLen = conn->sendMessageLength; eom = NETFLAG_EOM; } else { dataLen = MAX_PACKETFRAGMENT; eom = 0; } packetLen = NET_HEADERSIZE + dataLen; header = (void *)sendbuffer; header[0] = BigLong(packetLen | (NETFLAG_DATA | eom)); header[1] = BigLong(conn->sendSequence); memcpy(sendbuffer + 8, conn->sendMessage, dataLen); conn->sendSequence++; conn->canSend = false; if (NetConn_Write(conn->mysocket, (void *)&sendbuffer, packetLen, &conn->peeraddress) != (int)packetLen) return -1; conn->lastSendTime = realtime; packetsSent++; reliableMessagesSent++; return 1; } static void NetConn_SendMessageNext(netconn_t *conn) { unsigned int packetLen; unsigned int dataLen; unsigned int eom; unsigned int *header; if (conn->sendMessageLength && !conn->canSend && conn->sendNext) { if (conn->sendMessageLength <= MAX_PACKETFRAGMENT) { dataLen = conn->sendMessageLength; eom = NETFLAG_EOM; } else { dataLen = MAX_PACKETFRAGMENT; eom = 0; } packetLen = NET_HEADERSIZE + dataLen; header = (void *)sendbuffer; header[0] = BigLong(packetLen | (NETFLAG_DATA | eom)); header[1] = BigLong(conn->sendSequence); memcpy(sendbuffer + 8, conn->sendMessage, dataLen); conn->sendSequence++; conn->sendNext = false; if (NetConn_Write(conn->mysocket, (void *)&sendbuffer, packetLen, &conn->peeraddress) != (int)packetLen) return; conn->lastSendTime = realtime; packetsSent++; } } static void NetConn_ReSendMessage(netconn_t *conn) { unsigned int packetLen; unsigned int dataLen; unsigned int eom; unsigned int *header; if (conn->sendMessageLength && !conn->canSend && (realtime - conn->lastSendTime) > 1.0) { if (conn->sendMessageLength <= MAX_PACKETFRAGMENT) { dataLen = conn->sendMessageLength; eom = NETFLAG_EOM; } else { dataLen = MAX_PACKETFRAGMENT; eom = 0; } packetLen = NET_HEADERSIZE + dataLen; header = (void *)sendbuffer; header[0] = BigLong(packetLen | (NETFLAG_DATA | eom)); header[1] = BigLong(conn->sendSequence - 1); memcpy(sendbuffer + 8, conn->sendMessage, dataLen); conn->sendNext = false; if (NetConn_Write(conn->mysocket, (void *)&sendbuffer, packetLen, &conn->peeraddress) != (int)packetLen) return; conn->lastSendTime = realtime; packetsReSent++; } } qboolean NetConn_CanSendMessage(netconn_t *conn) { return conn->canSend; } int NetConn_SendUnreliableMessage(netconn_t *conn, sizebuf_t *data) { int packetLen; int *header; #ifdef DEBUG if (data->cursize == 0) Sys_Error("Datagram_SendUnreliableMessage: zero length message\n"); if (data->cursize > MAX_DATAGRAM) Sys_Error("Datagram_SendUnreliableMessage: message too big %u\n", data->cursize); #endif packetLen = NET_HEADERSIZE + data->cursize; header = (void *)sendbuffer; header[0] = BigLong(packetLen | NETFLAG_UNRELIABLE); header[1] = BigLong(conn->unreliableSendSequence); memcpy(sendbuffer + 8, data->data, data->cursize); conn->unreliableSendSequence++; if (NetConn_Write(conn->mysocket, (void *)&sendbuffer, packetLen, &conn->peeraddress) != (int)packetLen) return -1; packetsSent++; unreliableMessagesSent++; return 1; } void NetConn_CloseClientPorts(void) { for (;cl_numsockets > 0;cl_numsockets--) if (cl_sockets[cl_numsockets - 1]) LHNET_CloseSocket(cl_sockets[cl_numsockets - 1]); } void NetConn_OpenClientPort(const char *addressstring, int defaultport) { lhnetaddress_t address; lhnetsocket_t *s; char addressstring2[1024]; if (LHNETADDRESS_FromString(&address, addressstring, defaultport)) { if ((s = LHNET_OpenSocket_Connectionless(&address))) { cl_sockets[cl_numsockets++] = s; LHNETADDRESS_ToString(LHNET_AddressFromSocket(s), addressstring2, sizeof(addressstring2), true); Con_Printf("Client opened a socket on address %s\n", addressstring2); } else { LHNETADDRESS_ToString(&address, addressstring2, sizeof(addressstring2), true); Con_Printf("Client failed to open a socket on address %s\n", addressstring2); } } else Con_Printf("Client unable to parse address %s\n", addressstring); } void NetConn_OpenClientPorts(void) { int port; NetConn_CloseClientPorts(); port = bound(0, cl_netport.integer, 65535); if (cl_netport.integer != port) Cvar_SetValueQuick(&cl_netport, port); Con_Printf("Client using port %i\n", port); NetConn_OpenClientPort("local", port); NetConn_OpenClientPort(cl_netaddress.string, port); NetConn_OpenClientPort(cl_netaddress_ipv6.string, port); } void NetConn_CloseServerPorts(void) { for (;sv_numsockets > 0;sv_numsockets--) if (sv_sockets[sv_numsockets - 1]) LHNET_CloseSocket(sv_sockets[sv_numsockets - 1]); } void NetConn_OpenServerPort(const char *addressstring, int defaultport) { lhnetaddress_t address; lhnetsocket_t *s; char addressstring2[1024]; if (LHNETADDRESS_FromString(&address, addressstring, defaultport)) { if ((s = LHNET_OpenSocket_Connectionless(&address))) { sv_sockets[sv_numsockets++] = s; LHNETADDRESS_ToString(LHNET_AddressFromSocket(s), addressstring2, sizeof(addressstring2), true); Con_Printf("Server listening on address %s\n", addressstring2); } else { LHNETADDRESS_ToString(&address, addressstring2, sizeof(addressstring2), true); Con_Printf("Server failed to open socket on address %s\n", addressstring2); } } else Con_Printf("Server unable to parse address %s\n", addressstring); } void NetConn_OpenServerPorts(int opennetports) { int port; NetConn_CloseServerPorts(); port = bound(0, sv_netport.integer, 65535); if (port == 0) port = 26000; Con_Printf("Server using port %i\n", port); if (sv_netport.integer != port) Cvar_SetValueQuick(&sv_netport, port); if (cls.state != ca_dedicated) NetConn_OpenServerPort("local", port); if (opennetports) { NetConn_OpenServerPort(sv_netaddress.string, port); NetConn_OpenServerPort(sv_netaddress_ipv6.string, port); } if (sv_numsockets == 0) Host_Error("NetConn_OpenServerPorts: unable to open any ports!\n"); } lhnetsocket_t *NetConn_ChooseClientSocketForAddress(lhnetaddress_t *address) { int i, a = LHNETADDRESS_GetAddressType(address); for (i = 0;i < cl_numsockets;i++) if (cl_sockets[i] && LHNETADDRESS_GetAddressType(LHNET_AddressFromSocket(cl_sockets[i])) == a) return cl_sockets[i]; return NULL; } lhnetsocket_t *NetConn_ChooseServerSocketForAddress(lhnetaddress_t *address) { int i, a = LHNETADDRESS_GetAddressType(address); for (i = 0;i < sv_numsockets;i++) if (sv_sockets[i] && LHNETADDRESS_GetAddressType(LHNET_AddressFromSocket(sv_sockets[i])) == a) return sv_sockets[i]; return NULL; } netconn_t *NetConn_Open(lhnetsocket_t *mysocket, lhnetaddress_t *peeraddress) { netconn_t *conn; conn = Mem_Alloc(netconn_mempool, sizeof(*conn)); conn->mysocket = mysocket; conn->peeraddress = *peeraddress; conn->canSend = true; conn->connecttime = realtime; conn->lastMessageTime = realtime; // LordHavoc: (inspired by ProQuake) use a short connect timeout to // reduce effectiveness of connection request floods conn->timeout = realtime + net_connecttimeout.value; LHNETADDRESS_ToString(&conn->peeraddress, conn->address, sizeof(conn->address), true); conn->next = netconn_list; netconn_list = conn; return conn; } void NetConn_Close(netconn_t *conn) { netconn_t *c; // remove connection from list if (conn == netconn_list) netconn_list = conn->next; else { for (c = netconn_list;c;c = c->next) { if (c->next == conn) { c->next = conn->next; break; } } // not found in list, we'll avoid crashing here... if (!c) return; } // free connection Mem_Free(conn); } static int clientport = -1; static int clientport2 = -1; static int hostport = -1; static void NetConn_UpdateServerStuff(void) { if (clientport2 != cl_netport.integer) { clientport2 = cl_netport.integer; if (cls.state == ca_connected) Con_Printf("Changing \"cl_port\" will not take effect until you reconnect.\n"); } if (cls.state != ca_dedicated) { if (cls.state == ca_disconnected && clientport != cl_netport.integer) { clientport = cl_netport.integer; NetConn_CloseClientPorts(); } if (cl_numsockets == 0) NetConn_OpenClientPorts(); } if (hostport != sv_netport.integer) { hostport = sv_netport.integer; if (sv.active) Con_Printf("Changing \"port\" will not take effect until \"map\" command is executed.\n"); } } int NetConn_ReceivedMessage(netconn_t *conn, qbyte *data, int length) { unsigned int count; unsigned int flags; unsigned int sequence; if (length >= 8) { length = BigLong(((int *)data)[0]); flags = length & ~NETFLAG_LENGTH_MASK; length &= NETFLAG_LENGTH_MASK; // control packets were already handled if (!(flags & NETFLAG_CTL)) { sequence = BigLong(((int *)data)[1]); packetsReceived++; data += 8; length -= 8; if (flags & NETFLAG_UNRELIABLE) { if (sequence >= conn->unreliableReceiveSequence) { if (sequence > conn->unreliableReceiveSequence) { count = sequence - conn->unreliableReceiveSequence; droppedDatagrams += count; Con_DPrintf("Dropped %u datagram(s)\n", count); } conn->unreliableReceiveSequence = sequence + 1; conn->lastMessageTime = realtime; conn->timeout = realtime + net_messagetimeout.value; unreliableMessagesReceived++; if (length > 0) { SZ_Clear(&net_message); SZ_Write(&net_message, data, length); MSG_BeginReading(); return 2; } } else Con_DPrintf("Got a stale datagram\n"); return 1; } else if (flags & NETFLAG_ACK) { if (sequence == (conn->sendSequence - 1)) { if (sequence == conn->ackSequence) { conn->ackSequence++; if (conn->ackSequence != conn->sendSequence) Con_DPrintf("ack sequencing error\n"); conn->lastMessageTime = realtime; conn->timeout = realtime + net_messagetimeout.value; conn->sendMessageLength -= MAX_PACKETFRAGMENT; if (conn->sendMessageLength > 0) { memcpy(conn->sendMessage, conn->sendMessage+MAX_PACKETFRAGMENT, conn->sendMessageLength); conn->sendNext = true; NetConn_SendMessageNext(conn); } else { conn->sendMessageLength = 0; conn->canSend = true; } } else Con_DPrintf("Duplicate ACK received\n"); } else Con_DPrintf("Stale ACK received\n"); return 1; } else if (flags & NETFLAG_DATA) { unsigned int temppacket[2]; temppacket[0] = BigLong(8 | NETFLAG_ACK); temppacket[1] = BigLong(sequence); NetConn_Write(conn->mysocket, (qbyte *)temppacket, 8, &conn->peeraddress); if (sequence == conn->receiveSequence) { conn->lastMessageTime = realtime; conn->timeout = realtime + net_messagetimeout.value; conn->receiveSequence++; memcpy(conn->receiveMessage + conn->receiveMessageLength, data, length); conn->receiveMessageLength += length; if (flags & NETFLAG_EOM) { reliableMessagesReceived++; length = conn->receiveMessageLength; conn->receiveMessageLength = 0; if (length > 0) { SZ_Clear(&net_message); SZ_Write(&net_message, conn->receiveMessage, length); MSG_BeginReading(); return 2; } } } else receivedDuplicateCount++; return 1; } } } return 0; } void NetConn_ConnectionEstablished(lhnetsocket_t *mysocket, lhnetaddress_t *peeraddress) { cls.netcon = NetConn_Open(mysocket, peeraddress); Con_Printf("Connection accepted to %s\n", cls.netcon->address); key_dest = key_game; m_state = m_none; cls.connect_trying = false; cls.demonum = -1; // not in the demo loop now cls.state = ca_connected; cls.signon = 0; // need all the signon messages before playing CL_ClearState(); Host_Reconnect_f(); } int NetConn_IsLocalGame(void) { int i; if (cls.state == ca_connected && sv.active/* && LHNETADDRESS_GetAddressType(cl.netcon->peeraddress) == LHNETADDRESSTYPE_LOOP*/) { // make sure there are no other connected clients for (i = 1;i < MAX_SCOREBOARD;i++) if (svs.connectedclients[i]) return false; return true; } return false; } static struct { double senttime; lhnetaddress_t peeraddress; } pingcache[HOSTCACHESIZE]; int NetConn_ClientParsePacket(lhnetsocket_t *mysocket, qbyte *data, int length, lhnetaddress_t *peeraddress) { int ret, c, control; lhnetaddress_t svaddress; const char *s; char *string, addressstring2[128], cname[128], ipstring[32]; char stringbuf[16384]; if (length >= 5 && data[0] == 255 && data[1] == 255 && data[2] == 255 && data[3] == 255) { // received a command string - strip off the packaging and put it // into our string buffer with NULL termination data += 4; length -= 4; length = min(length, (int)sizeof(stringbuf) - 1); memcpy(stringbuf, data, length); stringbuf[length] = 0; string = stringbuf; if (developer.integer) { LHNETADDRESS_ToString(peeraddress, addressstring2, sizeof(addressstring2), true); Con_Printf("NetConn_ClientParsePacket: %s sent us a command:\n", addressstring2); Com_HexDumpToConsole(data, length); } if (length > 10 && !memcmp(string, "challenge ", 10) && cls.connect_trying) { LHNETADDRESS_ToString(peeraddress, addressstring2, sizeof(addressstring2), true); Con_Printf("\"%s\" received, sending connect request back to %s\n", string, addressstring2); NetConn_WriteString(mysocket, va("\377\377\377\377connect\\protocol\\darkplaces 3\\challenge\\%s", string + 10), peeraddress); return true; } if (length == 6 && !memcmp(string, "accept", 6) && cls.connect_trying) { NetConn_ConnectionEstablished(mysocket, peeraddress); return true; } if (length > 7 && !memcmp(string, "reject ", 7) && cls.connect_trying) { cls.connect_trying = false; string += 7; length = max(length - 7, (int)sizeof(m_return_reason) - 1); memcpy(m_return_reason, string, length); m_return_reason[length] = 0; Con_Printf("%s\n", m_return_reason); return true; } if (length >= 13 && !memcmp(string, "infoResponse\x0A", 13)) { int i, j, c, n, users, maxusers; char game[32], mod[32], map[32], name[128]; double pingtime; hostcache_t temp; string += 13; // hostcache only uses text addresses LHNETADDRESS_ToString(peeraddress, cname, sizeof(cname), true); // search the cache for this server for (n = 0; n < hostCacheCount; n++) if (!strcmp(cname, hostcache[n].cname)) break; // add it or update it if (n == hostCacheCount) { // if cache is full replace highest ping server (the list is // kept sorted so this is always the last, and if this server // is good it will be sorted into an early part of the list) if (hostCacheCount >= HOSTCACHESIZE) n = hostCacheCount - 1; else hostCacheCount++; } if ((s = SearchInfostring(string, "gamename" )) != NULL) strncpy(game, s, sizeof(game) - 1);else game[0] = 0; if ((s = SearchInfostring(string, "modname" )) != NULL) strncpy(mod , s, sizeof(mod ) - 1);else mod[0] = 0; if ((s = SearchInfostring(string, "mapname" )) != NULL) strncpy(map , s, sizeof(map ) - 1);else map[0] = 0; if ((s = SearchInfostring(string, "hostname" )) != NULL) strncpy(name, s, sizeof(name) - 1);else name[0] = 0; if ((s = SearchInfostring(string, "protocol" )) != NULL) c = atoi(s);else c = -1; if ((s = SearchInfostring(string, "clients" )) != NULL) users = atoi(s);else users = 0; if ((s = SearchInfostring(string, "sv_maxclients")) != NULL) maxusers = atoi(s);else maxusers = 0; pingtime = 9999; for (i = 0;i < HOSTCACHESIZE;i++) if (!LHNETADDRESS_Compare(peeraddress, &pingcache[i].peeraddress)) pingtime = (int)(realtime - pingcache[i].senttime); pingtime = bound(0, pingtime, 9999); memset(&hostcache[n], 0, sizeof(hostcache[n])); // store the data the engine cares about (address and ping) strcpy(hostcache[n].cname, cname); hostcache[n].ping = pingtime; // build description strings for the things users care about snprintf(hostcache[n].line1, sizeof(hostcache[n].line1), "%5d%c%3u/%3u %-65.65s", (int)pingtime, c != NET_PROTOCOL_VERSION ? '*' : ' ', users, maxusers, name); snprintf(hostcache[n].line2, sizeof(hostcache[n].line2), "%-21.21s %-19.19s %-17.17s %-20.20s", cname, game, mod, map); // if ping is especially high, display it as such if (pingtime >= 300) { // orange numbers (lower block) for (i = 0;i < 5;i++) if (hostcache[n].line1[i] != ' ') hostcache[n].line1[i] += 128; } else if (pingtime >= 200) { // yellow numbers (in upper block) for (i = 0;i < 5;i++) if (hostcache[n].line1[i] != ' ') hostcache[n].line1[i] -= 30; } // if not in the slist menu we should print the server to console if (m_state != m_slist) Con_Printf("%s\n%s\n", hostcache[n].line1, hostcache[n].line2); // and finally, re-sort the list for (i = 0;i < hostCacheCount;i++) { for (j = i + 1;j < hostCacheCount;j++) { //if (strcmp(hostcache[j].name, hostcache[i].name) < 0) if (hostcache[i].ping > hostcache[j].ping) { memcpy(&temp, &hostcache[j], sizeof(hostcache_t)); memcpy(&hostcache[j], &hostcache[i], sizeof(hostcache_t)); memcpy(&hostcache[i], &temp, sizeof(hostcache_t)); } } } return true; } if (!strncmp(string, "getserversResponse\\", 19) && hostCacheCount < HOSTCACHESIZE) { int i, best; double besttime; // Extract the IP addresses data += 18; length -= 18; while (length >= 7 && data[0] == '\\' && (data[1] != 0xFF || data[2] != 0xFF || data[3] != 0xFF || data[4] != 0xFF) && data[5] * 256 + data[6] != 0) { sprintf(ipstring, "%u.%u.%u.%u:%u", data[1], data[2], data[3], data[4], (data[5] << 8) | data[6]); if (developer.integer) Con_Printf("Requesting info from server %s\n", ipstring); LHNETADDRESS_FromString(&svaddress, ipstring, 0); NetConn_WriteString(mysocket, "\377\377\377\377getinfo", &svaddress); // replace oldest or matching entry in ping cache // we scan this later when getting a reply to see how long it took besttime = realtime; best = 0; for (i = 0;i < HOSTCACHESIZE;i++) { if (!LHNETADDRESS_Compare(&svaddress, &pingcache[i].peeraddress)) { best = i; break; } if (besttime > pingcache[i].senttime) { besttime = pingcache[i].senttime; best = i; // if ping cache isn't full yet we can skip out early if (!besttime) break; } } pingcache[best].peeraddress = svaddress; pingcache[best].senttime = realtime; // move on to next address in packet data += 7; length -= 7; } return true; } /* if (!strncmp(string, "ping", 4)) { if (developer.integer) Con_Printf("Received ping from %s, sending ack\n", UDP_AddrToString(readaddr)); NetConn_WriteString(mysocket, "\377\377\377\377ack", peeraddress); return true; } if (!strncmp(string, "ack", 3)) return true; */ // we may not have liked the packet, but it was a command packet, so // we're done processing this packet now return true; } // netquake control packets, supported for compatibility only if (length >= 5 && (control = BigLong(*((int *)data))) && (control & (~NETFLAG_LENGTH_MASK)) == (int)NETFLAG_CTL && (control & NETFLAG_LENGTH_MASK) == length) { c = data[4]; data += 5; length -= 5; LHNETADDRESS_ToString(peeraddress, addressstring2, sizeof(addressstring2), true); switch (c) { case CCREP_ACCEPT: if (developer.integer) Con_Printf("Datagram_ParseConnectionless: received CCREP_ACCEPT from %s.\n", addressstring2); if (cls.connect_trying) { lhnetaddress_t clientportaddress; clientportaddress = *peeraddress; if (length >= 4) { unsigned int port = (data[0] << 0) | (data[1] << 8) | (data[2] << 16) | (data[3] << 24); data += 4; length -= 4; LHNETADDRESS_SetPort(&clientportaddress, port); } NetConn_ConnectionEstablished(mysocket, &clientportaddress); } break; case CCREP_REJECT: if (developer.integer) Con_Printf("Datagram_ParseConnectionless: received CCREP_REJECT from %s.\n", addressstring2); Con_Printf("%s\n", data); strncpy(m_return_reason, data, sizeof(m_return_reason) - 1); break; #if 0 case CCREP_SERVER_INFO: if (developer.integer) Con_Printf("Datagram_ParseConnectionless: received CCREP_SERVER_INFO from %s.\n", addressstring2); if (cls.state != ca_dedicated) { // LordHavoc: because the UDP driver reports 0.0.0.0:26000 as the address // string we just ignore it and keep the real address MSG_ReadString(); // hostcache only uses text addresses cname = UDP_AddrToString(readaddr); // search the cache for this server for (n = 0; n < hostCacheCount; n++) if (!strcmp(cname, hostcache[n].cname)) break; // add it if (n == hostCacheCount && hostCacheCount < HOSTCACHESIZE) { hostCacheCount++; memset(&hostcache[n], 0, sizeof(hostcache[n])); strcpy(hostcache[n].name, MSG_ReadString()); strcpy(hostcache[n].map, MSG_ReadString()); hostcache[n].users = MSG_ReadByte(); hostcache[n].maxusers = MSG_ReadByte(); c = MSG_ReadByte(); if (c != NET_PROTOCOL_VERSION) { strncpy(hostcache[n].cname, hostcache[n].name, sizeof(hostcache[n].cname) - 1); hostcache[n].cname[sizeof(hostcache[n].cname) - 1] = 0; strcpy(hostcache[n].name, "*"); strncat(hostcache[n].name, hostcache[n].cname, sizeof(hostcache[n].name) - 1); hostcache[n].name[sizeof(hostcache[n].name) - 1] = 0; } strcpy(hostcache[n].cname, cname); } } break; case CCREP_PLAYER_INFO: // we got a CCREP_PLAYER_INFO?? //if (developer.integer) Con_Printf("Datagram_ParseConnectionless: received CCREP_PLAYER_INFO from %s.\n", addressstring2); break; case CCREP_RULE_INFO: // we got a CCREP_RULE_INFO?? //if (developer.integer) Con_Printf("Datagram_ParseConnectionless: received CCREP_RULE_INFO from %s.\n", addressstring2); break; #endif default: break; } // we may not have liked the packet, but it was a valid control // packet, so we're done processing this packet now return true; } ret = 0; if (length >= (int)NET_HEADERSIZE && cls.netcon && mysocket == cls.netcon->mysocket && !LHNETADDRESS_Compare(&cls.netcon->peeraddress, peeraddress) && (ret = NetConn_ReceivedMessage(cls.netcon, data, length)) == 2) CL_ParseServerMessage(); return ret; } void NetConn_ClientFrame(void) { int i, length; lhnetaddress_t peeraddress; netconn_t *conn; NetConn_UpdateServerStuff(); if (cls.connect_trying && cls.connect_nextsendtime < realtime) { if (cls.connect_remainingtries == 0) { cls.connect_trying = false; Host_Error("Connect failed\n"); return; } if (cls.connect_nextsendtime) Con_Printf("Still trying...\n"); else Con_Printf("Trying...\n"); cls.connect_nextsendtime = realtime + 1; cls.connect_remainingtries--; // try challenge first (newer server) NetConn_WriteString(cls.connect_mysocket, "\377\377\377\377getchallenge", &cls.connect_address); // then try netquake as a fallback (old server, or netquake) SZ_Clear(&net_message); // save space for the header, filled in later MSG_WriteLong(&net_message, 0); MSG_WriteByte(&net_message, CCREQ_CONNECT); MSG_WriteString(&net_message, "QUAKE"); MSG_WriteByte(&net_message, NET_PROTOCOL_VERSION); *((int *)net_message.data) = BigLong(NETFLAG_CTL | (net_message.cursize & NETFLAG_LENGTH_MASK)); NetConn_Write(cls.connect_mysocket, net_message.data, net_message.cursize, &cls.connect_address); SZ_Clear(&net_message); } for (i = 0;i < cl_numsockets;i++) while (cl_sockets[i] && (length = NetConn_Read(cl_sockets[i], readbuffer, sizeof(readbuffer), &peeraddress)) > 0) NetConn_ClientParsePacket(cl_sockets[i], readbuffer, length, &peeraddress); if (cls.netcon && realtime > cls.netcon->timeout) { Con_Printf("Connection timed out\n"); CL_Disconnect(); } for (conn = netconn_list;conn;conn = conn->next) NetConn_ReSendMessage(conn); } #define MAX_CHALLENGES 128 struct { lhnetaddress_t address; double time; char string[12]; } challenge[MAX_CHALLENGES]; static void NetConn_BuildChallengeString(char *buffer, int bufferlength) { int i; char c; for (i = 0;i < bufferlength - 1;i++) { do { c = rand () % (127 - 33) + 33; } while (c == '\\' || c == ';' || c == '"' || c == '%' || c == '/'); buffer[i] = c; } buffer[i] = 0; } extern void SV_ConnectClient(int clientnum, netconn_t *netconnection); int NetConn_ServerParsePacket(lhnetsocket_t *mysocket, qbyte *data, int length, lhnetaddress_t *peeraddress) { int i, n, ret, clientnum, responselength, best, clientcount; double besttime; client_t *client; netconn_t *conn; char *s, *string, response[512], addressstring2[128], stringbuf[16384]; if (sv.active) { if (length >= 5 && data[0] == 255 && data[1] == 255 && data[2] == 255 && data[3] == 255) { // received a command string - strip off the packaging and put it // into our string buffer with NULL termination data += 4; length -= 4; length = min(length, (int)sizeof(stringbuf) - 1); memcpy(stringbuf, data, length); stringbuf[length] = 0; string = stringbuf; if (developer.integer) { LHNETADDRESS_ToString(peeraddress, addressstring2, sizeof(addressstring2), true); Con_Printf("NetConn_ServerParsePacket: %s sent us a command:\n", addressstring2); Com_HexDumpToConsole(data, length); } if (length >= 12 && !memcmp(string, "getchallenge", 12)) { for (i = 0, best = 0, besttime = realtime;i < MAX_CHALLENGES;i++) { if (!LHNETADDRESS_Compare(peeraddress, &challenge[i].address)) break; if (besttime > challenge[i].time) besttime = challenge[best = i].time; } // if we did not find an exact match, choose the oldest and // update address and string if (i == MAX_CHALLENGES) { i = best; challenge[i].address = *peeraddress; NetConn_BuildChallengeString(challenge[i].string, sizeof(challenge[i].string)); } challenge[i].time = realtime; // send the challenge NetConn_WriteString(mysocket, va("\377\377\377\377challenge %s", challenge[i].string), peeraddress); return true; } if (length > 8 && !memcmp(string, "connect\\", 8)) { string += 7; length -= 7; if ((s = SearchInfostring(string, "challenge"))) { // validate the challenge for (i = 0;i < MAX_CHALLENGES;i++) if (!LHNETADDRESS_Compare(peeraddress, &challenge[i].address) && !strcmp(challenge[i].string, s)) break; if (i < MAX_CHALLENGES) { // check engine protocol if (strcmp(SearchInfostring(string, "protocol"), "darkplaces 3")) { if (developer.integer) Con_Printf("Datagram_ParseConnectionless: sending \"reject Wrong game protocol.\" to %s.\n", addressstring2); NetConn_WriteString(mysocket, "\377\377\377\377reject Wrong game protocol.", peeraddress); } else { // see if this is a duplicate connection request for (clientnum = 0;clientnum < MAX_SCOREBOARD;clientnum++) if ((client = svs.connectedclients[clientnum]) && LHNETADDRESS_Compare(peeraddress, &client->netconnection->peeraddress) == 0) break; if (clientnum < MAX_SCOREBOARD) { // duplicate connection request if (realtime - client->netconnection->connecttime < 2.0) { // client is still trying to connect, // so we send a duplicate reply if (developer.integer) Con_Printf("Datagram_ParseConnectionless: sending duplicate accept to %s.\n", addressstring2); NetConn_WriteString(mysocket, "\377\377\377\377accept", peeraddress); } // only kick if old connection seems dead if (realtime - client->netconnection->lastMessageTime >= net_messagerejointimeout.value) { // kick off connection and await retry client->deadsocket = true; } } else { // this is a new client, find a slot for (clientcount = 0, clientnum = 0;clientnum < MAX_SCOREBOARD;clientnum++) if (svs.connectedclients[clientnum]) clientcount++; for (clientnum = 0;clientnum < MAX_SCOREBOARD;clientnum++) if (!svs.connectedclients[clientnum]) break; if (clientcount < max(1, sv_maxplayers.integer) && clientnum < MAX_SCOREBOARD) { // allocate and prepare the client struct if ((client = Mem_Alloc(sv_clients_mempool, sizeof(client_t)))) { if ((client->entitydatabase4 = EntityFrame4_AllocDatabase(sv_clients_mempool))) { if ((conn = NetConn_Open(mysocket, peeraddress))) { // allocated connection LHNETADDRESS_ToString(peeraddress, conn->address, sizeof(conn->address), true); if (developer.integer) Con_Printf("Datagram_ParseConnectionless: sending \"accept\" to %s.\n", conn->address); NetConn_WriteString(mysocket, "\377\377\377\377accept", peeraddress); // now set up the client struct svs.connectedclients[clientnum] = client; SV_ConnectClient(clientnum, conn); NetConn_Heartbeat(1); } else { EntityFrame4_FreeDatabase(client->entitydatabase4); Mem_Free(client); } } else Mem_Free(client); } } else { // server is full if (developer.integer) Con_Printf("Datagram_ParseConnectionless: sending \"reject Server is full.\" to %s.\n", addressstring2); NetConn_WriteString(mysocket, "\377\377\377\377reject Server is full.", peeraddress); } } } } } return true; } if (length >= 7 && !memcmp(string, "getinfo", 7)) { const char *challenge = NULL; // If there was a challenge in the getinfo message if (length > 8 && string[7] == ' ') challenge = string + 8; for (i = 0, n = 0;i < MAX_SCOREBOARD;i++) if (svs.connectedclients[i]) n++; responselength = snprintf(response, sizeof(response), "\377\377\377\377infoResponse\x0A" "\\gamename\\%s\\modname\\%s\\sv_maxclients\\%d" "\\clients\\%d\\mapname\\%s\\hostname\\%s\\protocol\\%d%s%s", gamename, com_modname, min(sv_maxplayers.integer, MAX_SCOREBOARD), n, sv.name, hostname.string, NET_PROTOCOL_VERSION, challenge ? "\\challenge\\" : "", challenge ? challenge : ""); // does it fit in the buffer? if (responselength < (int)sizeof(response)) { if (developer.integer) Con_Printf("Sending reply to master %s - %s\n", addressstring2, response); NetConn_WriteString(mysocket, response, peeraddress); } return true; } /* if (!strncmp(string, "ping", 4)) { if (developer.integer) Con_Printf("Received ping from %s, sending ack\n", UDP_AddrToString(readaddr)); NetConn_WriteString(mysocket, "\377\377\377\377ack", peeraddress); return true; } if (!strncmp(string, "ack", 3)) return true; */ // we may not have liked the packet, but it was a command packet, so // we're done processing this packet now return true; } // LordHavoc: disabled netquake control packet support in server #if 0 { int c, control; // netquake control packets, supported for compatibility only if (length >= 5 && (control = BigLong(*((int *)data))) && (control & (~NETFLAG_LENGTH_MASK)) == (int)NETFLAG_CTL && (control & NETFLAG_LENGTH_MASK) == length) { c = data[4]; data += 5; length -= 5; LHNETADDRESS_ToString(peeraddress, addressstring2, sizeof(addressstring2), true); switch (c) { case CCREQ_CONNECT: //if (developer.integer) Con_Printf("Datagram_ParseConnectionless: received CCREQ_CONNECT from %s.\n", addressstring2); if (length >= (int)strlen("QUAKE") + 1 + 1) { if (memcmp(data, "QUAKE", strlen("QUAKE") + 1) != 0 || (int)data[strlen("QUAKE") + 1] != NET_PROTOCOL_VERSION) { if (developer.integer) Con_Printf("Datagram_ParseConnectionless: sending CCREP_REJECT \"Incompatible version.\" to %s.\n", addressstring2); SZ_Clear(&net_message); // save space for the header, filled in later MSG_WriteLong(&net_message, 0); MSG_WriteByte(&net_message, CCREP_REJECT); MSG_WriteString(&net_message, "Incompatible version.\n"); *((int *)net_message.data) = BigLong(NETFLAG_CTL | (net_message.cursize & NETFLAG_LENGTH_MASK)); NetConn_Write(mysocket, net_message.data, net_message.cursize, peeraddress); SZ_Clear(&net_message); } else { // see if this is a duplicate connection request for (clientnum = 0;clientnum < MAX_SCOREBOARD;clientnum++) if ((client = svs.connectedclients[clientnum]) && LHNETADDRESS_Compare(peeraddress, &client->netconnection->peeraddress) == 0) break; if (clientnum < MAX_SCOREBOARD) { // duplicate connection request if (realtime - client->netconnection->connecttime < 2.0) { // client is still trying to connect, // so we send a duplicate reply if (developer.integer) Con_Printf("Datagram_ParseConnectionless: sending duplicate CCREP_ACCEPT to %s.\n", addressstring2); SZ_Clear(&net_message); // save space for the header, filled in later MSG_WriteLong(&net_message, 0); MSG_WriteByte(&net_message, CCREP_ACCEPT); MSG_WriteLong(&net_message, LHNETADDRESS_GetPort(LHNET_AddressFromSocket(client->netconnection->mysocket))); *((int *)net_message.data) = BigLong(NETFLAG_CTL | (net_message.cursize & NETFLAG_LENGTH_MASK)); NetConn_Write(mysocket, net_message.data, net_message.cursize, peeraddress); SZ_Clear(&net_message); } else if (realtime - client->netconnection->lastMessageTime >= net_messagerejointimeout.value) { // the old client hasn't sent us anything // in quite a while, so kick off and let // the retry take care of it... client->deadsocket = true; } } else { // this is a new client, find a slot for (clientnum = 0;clientnum < MAX_SCOREBOARD;clientnum++) if (!(client = svs.connectedclients[clientnum])) break; // WARNING: this is broken code if (clientnum < MAX_SCOREBOARD && (client->netconnection = conn = NetConn_Open(mysocket, peeraddress)) != NULL) { // connect to the client // everything is allocated, just fill in the details strcpy(conn->address, addressstring2); if (developer.integer) Con_Printf("Datagram_ParseConnectionless: sending CCREP_ACCEPT to %s.\n", addressstring2); // send back the info about the server connection SZ_Clear(&net_message); // save space for the header, filled in later MSG_WriteLong(&net_message, 0); MSG_WriteByte(&net_message, CCREP_ACCEPT); MSG_WriteLong(&net_message, LHNETADDRESS_GetPort(LHNET_AddressFromSocket(conn->mysocket))); *((int *)net_message.data) = BigLong(NETFLAG_CTL | (net_message.cursize & NETFLAG_LENGTH_MASK)); NetConn_Write(mysocket, net_message.data, net_message.cursize, peeraddress); SZ_Clear(&net_message); // now set up the client struct SV_ConnectClient(clientnum, conn); NetConn_Heartbeat(1); } else { //if (developer.integer) Con_Printf("Datagram_ParseConnectionless: sending CCREP_REJECT \"Server is full.\" to %s.\n", addressstring2); // no room; try to let player know SZ_Clear(&net_message); // save space for the header, filled in later MSG_WriteLong(&net_message, 0); MSG_WriteByte(&net_message, CCREP_REJECT); MSG_WriteString(&net_message, "Server is full.\n"); *((int *)net_message.data) = BigLong(NETFLAG_CTL | (net_message.cursize & NETFLAG_LENGTH_MASK)); NetConn_Write(mysocket, net_message.data, net_message.cursize, peeraddress); SZ_Clear(&net_message); } } } } break; #if 0 case CCREQ_SERVER_INFO: if (developer.integer) Con_Printf("Datagram_ParseConnectionless: received CCREQ_SERVER_INFO from %s.\n", addressstring2); if (sv.active && !strcmp(MSG_ReadString(), "QUAKE")) { if (developer.integer) Con_Printf("Datagram_ParseConnectionless: sending CCREP_SERVER_INFO to %s.\n", addressstring2); SZ_Clear(&net_message); // save space for the header, filled in later MSG_WriteLong(&net_message, 0); MSG_WriteByte(&net_message, CCREP_SERVER_INFO); UDP_GetSocketAddr(UDP_acceptSock, &newaddr); MSG_WriteString(&net_message, UDP_AddrToString(&newaddr)); MSG_WriteString(&net_message, hostname.string); MSG_WriteString(&net_message, sv.name); MSG_WriteByte(&net_message, net_activeconnections); MSG_WriteByte(&net_message, min(sv_maxplayers.integer, MAX_SCOREBOARD)); MSG_WriteByte(&net_message, NET_PROTOCOL_VERSION); *((int *)net_message.data) = BigLong(NETFLAG_CTL | (net_message.cursize & NETFLAG_LENGTH_MASK)); NetConn_Write(mysocket, net_message.data, net_message.cursize, peeraddress); SZ_Clear(&net_message); } break; case CCREQ_PLAYER_INFO: if (developer.integer) Con_Printf("Datagram_ParseConnectionless: received CCREQ_PLAYER_INFO from %s.\n", addressstring2); if (sv.active) { int playerNumber, activeNumber, clientNumber; client_t *client; playerNumber = MSG_ReadByte(); activeNumber = -1; for (clientNumber = 0, client = svs.clients; clientNumber < svs.maxclients; clientNumber++, client++) if (client->active && ++activeNumber == playerNumber) break; if (clientNumber != svs.maxclients) { SZ_Clear(&net_message); // save space for the header, filled in later MSG_WriteLong(&net_message, 0); MSG_WriteByte(&net_message, CCREP_PLAYER_INFO); MSG_WriteByte(&net_message, playerNumber); MSG_WriteString(&net_message, client->name); MSG_WriteLong(&net_message, client->colors); MSG_WriteLong(&net_message, (int)client->edict->v->frags); MSG_WriteLong(&net_message, (int)(realtime - client->netconnection->connecttime)); MSG_WriteString(&net_message, client->netconnection->address); *((int *)net_message.data) = BigLong(NETFLAG_CTL | (net_message.cursize & NETFLAG_LENGTH_MASK)); NetConn_Write(mysocket, net_message.data, net_message.cursize, peeraddress); SZ_Clear(&net_message); } } break; case CCREQ_RULE_INFO: if (developer.integer) Con_Printf("Datagram_ParseConnectionless: received CCREQ_RULE_INFO from %s.\n", addressstring2); if (sv.active) { char *prevCvarName; cvar_t *var; // find the search start location prevCvarName = MSG_ReadString(); var = Cvar_FindVarAfter(prevCvarName, CVAR_NOTIFY); // send the response SZ_Clear(&net_message); // save space for the header, filled in later MSG_WriteLong(&net_message, 0); MSG_WriteByte(&net_message, CCREP_RULE_INFO); if (var) { MSG_WriteString(&net_message, var->name); MSG_WriteString(&net_message, var->string); } *((int *)net_message.data) = BigLong(NETFLAG_CTL | (net_message.cursize & NETFLAG_LENGTH_MASK)); NetConn_Write(mysocket, net_message.data, net_message.cursize, peeraddress); SZ_Clear(&net_message); } break; #endif default: break; } // we may not have liked the packet, but it was a valid control // packet, so we're done processing this packet now return true; } } #endif for (i = 0;i < MAX_SCOREBOARD;i++) { if ((host_client = svs.connectedclients[i])) { if (host_client->netconnection) { if (host_client->netconnection->mysocket == mysocket && !LHNETADDRESS_Compare(&host_client->netconnection->peeraddress, peeraddress)) { sv_player = host_client->edict; if ((ret = NetConn_ReceivedMessage(host_client->netconnection, data, length)) == 2) SV_ReadClientMessage(); return ret; } } else { Con_Printf("Removing client with no netconnection!\n"); SV_DropClient(true); } } } } return 0; } void NetConn_ServerFrame(void) { int i, length; lhnetaddress_t peeraddress; netconn_t *conn; NetConn_UpdateServerStuff(); for (i = 0;i < sv_numsockets;i++) while (sv_sockets[i] && (length = NetConn_Read(sv_sockets[i], readbuffer, sizeof(readbuffer), &peeraddress)) > 0) NetConn_ServerParsePacket(sv_sockets[i], readbuffer, length, &peeraddress); for (i = 0;i < MAX_SCOREBOARD;i++) { if ((host_client = svs.connectedclients[i]) && realtime > host_client->netconnection->timeout) { Con_Printf("Client \"%s\" connection timed out\n", host_client->name); sv_player = host_client->edict; SV_DropClient(false); } } for (conn = netconn_list;conn;conn = conn->next) NetConn_ReSendMessage(conn); } void NetConn_QueryMasters(void) { int i; int masternum; lhnetaddress_t masteraddress; char request[256]; if (hostCacheCount >= HOSTCACHESIZE) return; for (i = 0;i < cl_numsockets;i++) { if (cl_sockets[i]) { #if 0 // search LAN #if 1 UDP_Broadcast(UDP_controlSock, "\377\377\377\377getinfo", 11); #else SZ_Clear(&net_message); // save space for the header, filled in later MSG_WriteLong(&net_message, 0); MSG_WriteByte(&net_message, CCREQ_SERVER_INFO); MSG_WriteString(&net_message, "QUAKE"); MSG_WriteByte(&net_message, NET_PROTOCOL_VERSION); *((int *)net_message.data) = BigLong(NETFLAG_CTL | (net_message.cursize & NETFLAG_LENGTH_MASK)); UDP_Broadcast(UDP_controlSock, net_message.data, net_message.cursize); SZ_Clear(&net_message); #endif #endif // build the getservers snprintf(request, sizeof(request), "\377\377\377\377getservers %s %u empty full\x0A", gamename, NET_PROTOCOL_VERSION); // search internet for (masternum = 0;sv_masters[masternum].name;masternum++) if (sv_masters[masternum].string && LHNETADDRESS_FromString(&masteraddress, sv_masters[masternum].string, MASTER_PORT) && LHNETADDRESS_GetAddressType(&masteraddress) == LHNETADDRESS_GetAddressType(LHNET_AddressFromSocket(cl_sockets[i]))) NetConn_WriteString(cl_sockets[i], request, &masteraddress); } } } void NetConn_Heartbeat(int priority) { lhnetaddress_t masteraddress; int masternum; lhnetsocket_t *mysocket; // if it's a state change (client connected), limit next heartbeat to no // more than 30 sec in the future if (priority == 1 && nextheartbeattime > realtime + 30.0) nextheartbeattime = realtime + 30.0; // limit heartbeatperiod to 30 to 270 second range, // lower limit is to avoid abusing master servers with excess traffic, // upper limit is to avoid timing out on the master server (which uses // 300 sec timeout) if (sv_heartbeatperiod.value < 30) Cvar_SetValueQuick(&sv_heartbeatperiod, 30); if (sv_heartbeatperiod.value > 270) Cvar_SetValueQuick(&sv_heartbeatperiod, 270); // make advertising optional and don't advertise singleplayer games, and // only send a heartbeat as often as the admin wants if (sv.active && sv_public.integer && (!cl.islocalgame || sv_maxplayers.integer >= 2) && (priority > 1 || realtime > nextheartbeattime)) { nextheartbeattime = realtime + sv_heartbeatperiod.value; for (masternum = 0;sv_masters[masternum].name;masternum++) if (sv_masters[masternum].string && LHNETADDRESS_FromString(&masteraddress, sv_masters[masternum].string, MASTER_PORT) && (mysocket = NetConn_ChooseServerSocketForAddress(&masteraddress))) NetConn_WriteString(mysocket, "\377\377\377\377heartbeat DarkPlaces\x0A", &masteraddress); } } int NetConn_SendToAll(sizebuf_t *data, double blocktime) { int i, count = 0; qbyte sent[MAX_SCOREBOARD]; memset(sent, 0, sizeof(sent)); // simultaneously wait for the first CanSendMessage and send the message, // then wait for a second CanSendMessage (verifying it was received), or // the client drops and is no longer counted // the loop aborts when either it runs out of clients to send to, or a // timeout expires blocktime += Sys_DoubleTime(); do { count = 0; NetConn_ClientFrame(); NetConn_ServerFrame(); for (i = 0;i < MAX_SCOREBOARD;i++) { if ((host_client = svs.connectedclients[i])) { if (NetConn_CanSendMessage(host_client->netconnection)) { if (!sent[i]) NetConn_SendReliableMessage(host_client->netconnection, data); sent[i] = true; } if (!NetConn_CanSendMessage(host_client->netconnection)) count++; } } } while (count && Sys_DoubleTime() < blocktime); return count; } static void Net_Heartbeat_f(void) { NetConn_Heartbeat(2); } void PrintStats(netconn_t *conn) { Con_Printf("address=%21s canSend=%u sendSeq=%6u recvSeq=%6u\n", conn->address, conn->canSend, conn->sendSequence, conn->receiveSequence); } void Net_Stats_f(void) { netconn_t *conn; Con_Printf("unreliable messages sent = %i\n", unreliableMessagesSent); Con_Printf("unreliable messages recv = %i\n", unreliableMessagesReceived); Con_Printf("reliable messages sent = %i\n", reliableMessagesSent); Con_Printf("reliable messages received = %i\n", reliableMessagesReceived); Con_Printf("packetsSent = %i\n", packetsSent); Con_Printf("packetsReSent = %i\n", packetsReSent); Con_Printf("packetsReceived = %i\n", packetsReceived); Con_Printf("receivedDuplicateCount = %i\n", receivedDuplicateCount); Con_Printf("droppedDatagrams = %i\n", droppedDatagrams); Con_Printf("connections =\n"); for (conn = netconn_list;conn;conn = conn->next) PrintStats(conn); } void Net_Slist_f(void) { hostCacheCount = 0; memset(&pingcache, 0, sizeof(pingcache)); if (m_state != m_slist) Con_Printf("Sending requests to master servers\n"); NetConn_QueryMasters(); if (m_state != m_slist) Con_Printf("Listening for replies...\n"); } void NetConn_Init(void) { int i; lhnetaddress_t tempaddress; netconn_mempool = Mem_AllocPool("Networking"); Cmd_AddCommand("net_stats", Net_Stats_f); Cmd_AddCommand("net_slist", Net_Slist_f); Cmd_AddCommand("heartbeat", Net_Heartbeat_f); Cvar_RegisterVariable(&net_messagetimeout); Cvar_RegisterVariable(&net_messagerejointimeout); Cvar_RegisterVariable(&net_connecttimeout); Cvar_RegisterVariable(&cl_fakelocalping_min); Cvar_RegisterVariable(&cl_fakelocalping_max); Cvar_RegisterVariable(&cl_fakepacketloss_receive); Cvar_RegisterVariable(&cl_fakepacketloss_send); Cvar_RegisterVariable(&sv_fakepacketloss_receive); Cvar_RegisterVariable(&sv_fakepacketloss_send); Cvar_RegisterVariable(&hostname); Cvar_RegisterVariable(&developer_networking); Cvar_RegisterVariable(&cl_netport); Cvar_RegisterVariable(&cl_netaddress); Cvar_RegisterVariable(&cl_netaddress_ipv6); Cvar_RegisterVariable(&sv_netport); Cvar_RegisterVariable(&sv_netaddress); Cvar_RegisterVariable(&sv_netaddress_ipv6); Cvar_RegisterVariable(&sv_public); Cvar_RegisterVariable(&sv_heartbeatperiod); for (i = 0;sv_masters[i].name;i++) Cvar_RegisterVariable(&sv_masters[i]); if ((i = COM_CheckParm("-ip")) && i + 1 < com_argc) { if (LHNETADDRESS_FromString(&tempaddress, com_argv[i + 1], 0) == 1) { Con_Printf("-ip option used, setting cl_netaddress and sv_netaddress to address \"%s\"\n"); Cvar_SetQuick(&cl_netaddress, com_argv[i + 1]); Cvar_SetQuick(&sv_netaddress, com_argv[i + 1]); } else Con_Printf("-ip option used, but unable to parse the address \"%s\"\n", com_argv[i + 1]); } if (((i = COM_CheckParm("-port")) || (i = COM_CheckParm("-ipport")) || (i = COM_CheckParm("-udpport"))) && i + 1 < com_argc) { i = atoi(com_argv[i + 1]); if (i >= 0 && i < 65536) { Con_Printf("-port option used, setting port cvar to %i\n", i); Cvar_SetValueQuick(&sv_netport, i); } else Con_Printf("-port option used, but %i is not a valid port number\n", i); } cl_numsockets = 0; sv_numsockets = 0; memset(&pingcache, 0, sizeof(pingcache)); SZ_Alloc(&net_message, NET_MAXMESSAGE, "net_message"); LHNET_Init(); } void NetConn_Shutdown(void) { NetConn_CloseClientPorts(); NetConn_CloseServerPorts(); LHNET_Shutdown(); }