ref: 7d681dd51f2f119c8b05eb6d89221d897aed93e5
dir: /net_main.c/
#include <u.h> #include <libc.h> #include "dat.h" #include "quakedef.h" #include "fns.h" qsocket_t *net_activeSockets = nil; qsocket_t *net_freeSockets = nil; int net_numsockets = 0; qboolean serialAvailable = false; qboolean ipxAvailable = false; qboolean tcpipAvailable = false; int net_hostport; int DEFAULTnet_hostport = 26000; char my_ipx_address[NET_NAMELEN]; char my_tcpip_address[NET_NAMELEN]; void (*GetComPortConfig) (int portNumber, int *port, int *irq, int *baud, qboolean *useModem); void (*SetComPortConfig) (int portNumber, int port, int irq, int baud, qboolean useModem); void (*GetModemConfig) (int portNumber, char *dialType, char *clear, char *init, char *hangup); void (*SetModemConfig) (int portNumber, char *dialType, char *clear, char *init, char *hangup); static qboolean listening = false; qboolean slistInProgress = false; qboolean slistSilent = false; qboolean slistLocal = true; static double slistStartTime; static int slistLastShown; static void Slist_Send(void *); static void Slist_Poll(void *); PollProcedure slistSendProcedure = {nil, 0.0, Slist_Send}; PollProcedure slistPollProcedure = {nil, 0.0, Slist_Poll}; sizebuf_t net_message; int net_activeconnections = 0; int messagesSent = 0; int messagesReceived = 0; int unreliableMessagesSent = 0; int unreliableMessagesReceived = 0; cvar_t net_messagetimeout = {"net_messagetimeout","300"}; cvar_t hostname = {"hostname", "UNNAMED"}; qboolean configRestored = false; cvar_t config_com_port = {"_config_com_port", "0x3f8", true}; cvar_t config_com_irq = {"_config_com_irq", "4", true}; cvar_t config_com_baud = {"_config_com_baud", "57600", true}; cvar_t config_com_modem = {"_config_com_modem", "1", true}; cvar_t config_modem_dialtype = {"_config_modem_dialtype", "T", true}; cvar_t config_modem_clear = {"_config_modem_clear", "ATZ", true}; cvar_t config_modem_init = {"_config_modem_init", "", true}; cvar_t config_modem_hangup = {"_config_modem_hangup", "AT H", true}; #ifdef IDGODS cvar_t idgods = {"idgods", "0"}; #endif // these two macros are to make the code more readable #define sfunc net_drivers[sock->driver] #define dfunc net_drivers[net_driverlevel] int net_driverlevel; double net_time; double SetNetTime(void) { net_time = dtime(); return net_time; } /* =================== NET_NewQSocket Called by drivers when a new communications endpoint is required The sequence and buffer fields will be filled in properly =================== */ qsocket_t *NET_NewQSocket (void) { qsocket_t *sock; if (net_freeSockets == nil) return nil; if (net_activeconnections >= svs.maxclients) return nil; // get one from free list sock = net_freeSockets; net_freeSockets = sock->next; // add it to active list sock->next = net_activeSockets; net_activeSockets = sock; sock->disconnected = false; sock->connecttime = net_time; strcpy(sock->address,"UNSET ADDRESS"); sock->driver = net_driverlevel; sock->socket = 0; sock->driverdata = nil; sock->canSend = true; sock->sendNext = false; sock->lastMessageTime = net_time; sock->ackSequence = 0; sock->sendSequence = 0; sock->unreliableSendSequence = 0; sock->sendMessageLength = 0; sock->receiveSequence = 0; sock->unreliableReceiveSequence = 0; sock->receiveMessageLength = 0; return sock; } void NET_FreeQSocket(qsocket_t *sock) { qsocket_t *s; // remove it from active list if (sock == net_activeSockets) net_activeSockets = net_activeSockets->next; else { for (s = net_activeSockets; s; s = s->next) if (s->next == sock) { s->next = sock->next; break; } if (!s) fatal ("NET_FreeQSocket: not active\n"); } // add it to free list sock->next = net_freeSockets; net_freeSockets = sock; sock->disconnected = true; } static void NET_Listen_f (void) { if (Cmd_Argc () != 2) { Con_Printf ("\"listen\" is \"%ud\"\n", listening ? 1 : 0); return; } listening = atoi(Cmd_Argv(1)) ? true : false; for (net_driverlevel=0 ; net_driverlevel<net_numdrivers; net_driverlevel++) { if (net_drivers[net_driverlevel].initialized == false) continue; dfunc.Listen (listening); } } static void MaxPlayers_f (void) { int n; if (Cmd_Argc () != 2) { Con_Printf ("\"maxplayers\" is \"%ud\"\n", svs.maxclients); return; } if (sv.active) { Con_Printf ("maxplayers can not be changed while a server is running.\n"); return; } n = atoi(Cmd_Argv(1)); if (n < 1) n = 1; if (n > svs.maxclientslimit) { n = svs.maxclientslimit; Con_Printf ("\"maxplayers\" set to \"%ud\"\n", n); } if ((n == 1) && listening) Cbuf_AddText ("listen 0\n"); if ((n > 1) && (!listening)) Cbuf_AddText ("listen 1\n"); svs.maxclients = n; if (n == 1) setcvar ("deathmatch", "0"); else setcvar ("deathmatch", "1"); } static void NET_Port_f (void) { int n; if (Cmd_Argc () != 2) { Con_Printf ("\"port\" is \"%ud\"\n", net_hostport); return; } n = atoi(Cmd_Argv(1)); if (n < 1 || n > 65534) { Con_Printf ("Bad value, must be between 1 and 65534\n"); return; } DEFAULTnet_hostport = n; net_hostport = n; if (listening) { // force a change to the new port Cbuf_AddText ("listen 0\n"); Cbuf_AddText ("listen 1\n"); } } static void PrintSlistHeader(void) { Con_Printf("Server Map Users\n"); Con_Printf("--------------- --------------- -----\n"); slistLastShown = 0; } static void PrintSlist(void) { int n; for (n = slistLastShown; n < hostCacheCount; n++) { if (hostcache[n].maxusers) Con_Printf("%-15.15s %-15.15s %2ud/%2ud\n", hostcache[n].name, hostcache[n].map, hostcache[n].users, hostcache[n].maxusers); else Con_Printf("%-15.15s %-15.15s\n", hostcache[n].name, hostcache[n].map); } slistLastShown = n; } static void PrintSlistTrailer(void) { if (hostCacheCount) Con_Printf("== end list ==\n\n"); else Con_Printf("No Quake servers found.\n\n"); } void NET_Slist_f (void) { if (slistInProgress) return; if (! slistSilent) { Con_Printf("Looking for Quake servers...\n"); PrintSlistHeader(); } slistInProgress = true; slistStartTime = dtime(); SchedulePollProcedure(&slistSendProcedure, 0.0); SchedulePollProcedure(&slistPollProcedure, 0.1); hostCacheCount = 0; } static void Slist_Send(void *) { for (net_driverlevel=0; net_driverlevel < net_numdrivers; net_driverlevel++) { if (!slistLocal && net_driverlevel == 0) continue; if (net_drivers[net_driverlevel].initialized == false) continue; dfunc.SearchForHosts (true); } if ((dtime() - slistStartTime) < 0.5) SchedulePollProcedure(&slistSendProcedure, 0.75); } static void Slist_Poll(void *) { for (net_driverlevel=0; net_driverlevel < net_numdrivers; net_driverlevel++) { if (!slistLocal && net_driverlevel == 0) continue; if (net_drivers[net_driverlevel].initialized == false) continue; dfunc.SearchForHosts (false); } if (! slistSilent) PrintSlist(); if ((dtime() - slistStartTime) < 1.5) { SchedulePollProcedure(&slistPollProcedure, 0.1); return; } if (! slistSilent) PrintSlistTrailer(); slistInProgress = false; slistSilent = false; slistLocal = true; } /* =================== NET_Connect =================== */ int hostCacheCount = 0; hostcache_t hostcache[HOSTCACHESIZE]; qsocket_t *NET_Connect (char *host) { qsocket_t *ret; int n; int numdrivers = net_numdrivers; SetNetTime(); if (host && *host == 0) host = nil; if (host) { if(cistrcmp(host, "local") == 0) { numdrivers = 1; goto JustDoIt; } if (hostCacheCount) { for (n = 0; n < hostCacheCount; n++) if(cistrcmp(host, hostcache[n].name) == 0) { host = hostcache[n].cname; break; } if (n < hostCacheCount) goto JustDoIt; } } slistSilent = host ? true : false; NET_Slist_f (); while(slistInProgress) NET_Poll(); if (host == nil) { if (hostCacheCount != 1) return nil; host = hostcache[0].cname; Con_Printf("Connecting to...\n%s @ %s\n\n", hostcache[0].name, host); } if (hostCacheCount) for (n = 0; n < hostCacheCount; n++) if(cistrcmp(host, hostcache[n].name) == 0) { host = hostcache[n].cname; break; } JustDoIt: for (net_driverlevel=0 ; net_driverlevel<numdrivers; net_driverlevel++) { if (net_drivers[net_driverlevel].initialized == false) continue; ret = dfunc.Connect (host); if (ret) return ret; } if (host) { Con_Printf("\n"); PrintSlistHeader(); PrintSlist(); PrintSlistTrailer(); } return nil; } qsocket_t *NET_CheckNewConnections (void) { qsocket_t *ret; SetNetTime(); for (net_driverlevel=0 ; net_driverlevel<net_numdrivers; net_driverlevel++) { if (net_drivers[net_driverlevel].initialized == false) continue; if (net_driverlevel && listening == false) continue; ret = dfunc.CheckNewConnections (); if(ret) return ret; } return nil; } /* =================== NET_Close =================== */ void NET_Close (qsocket_t *sock) { if (!sock) return; if (sock->disconnected) return; SetNetTime(); // call the driver_Close function sfunc.Close (sock); NET_FreeQSocket(sock); } /* ================= NET_GetMessage If there is a complete message, return it in net_message returns 0 if no data is waiting returns 1 if a message was received returns -1 if connection is invalid ================= */ extern void PrintStats(qsocket_t *s); int NET_GetMessage (qsocket_t *sock) { int ret; if (!sock) return -1; if (sock->disconnected) { Con_Printf("NET_GetMessage: disconnected socket\n"); return -1; } SetNetTime(); ret = sfunc.QGetMessage(sock); // see if this connection has timed out if (ret == 0 && sock->driver) { if (net_time - sock->lastMessageTime > net_messagetimeout.value) { NET_Close(sock); return -1; } } if (ret > 0) { if (sock->driver) { sock->lastMessageTime = net_time; if (ret == 1) messagesReceived++; else if (ret == 2) unreliableMessagesReceived++; } } return ret; } /* ================== NET_SendMessage Try to send a complete length+message unit over the reliable stream. returns 0 if the message cannot be delivered reliably, but the connection is still considered valid returns 1 if the message was sent properly returns -1 if the connection died ================== */ int NET_SendMessage (qsocket_t *sock, sizebuf_t *data) { int r; if (!sock) return -1; if (sock->disconnected) { Con_Printf("NET_SendMessage: disconnected socket\n"); return -1; } SetNetTime(); r = sfunc.QSendMessage(sock, data); if (r == 1 && sock->driver) messagesSent++; return r; } int NET_SendUnreliableMessage (qsocket_t *sock, sizebuf_t *data) { int r; if (!sock) return -1; if (sock->disconnected) { Con_Printf("NET_SendMessage: disconnected socket\n"); return -1; } SetNetTime(); r = sfunc.SendUnreliableMessage(sock, data); if (r == 1 && sock->driver) unreliableMessagesSent++; return r; } /* ================== NET_CanSendMessage Returns true or false if the given qsocket can currently accept a message to be transmitted. ================== */ qboolean NET_CanSendMessage (qsocket_t *sock) { int r; if (!sock) return false; if (sock->disconnected) return false; SetNetTime(); r = sfunc.CanSendMessage(sock); return r; } int NET_SendToAll(sizebuf_t *data, int blocktime) { double start; int i; int count = 0; qboolean state1 [MAX_SCOREBOARD]; qboolean state2 [MAX_SCOREBOARD]; for (i=0, host_client = svs.clients ; i<svs.maxclients ; i++, host_client++) { if (!host_client->netconnection) continue; if (host_client->active) { if (host_client->netconnection->driver == 0) { NET_SendMessage(host_client->netconnection, data); state1[i] = true; state2[i] = true; continue; } count++; state1[i] = false; state2[i] = false; } else { state1[i] = true; state2[i] = true; } } start = dtime(); while (count) { count = 0; for (i=0, host_client = svs.clients ; i<svs.maxclients ; i++, host_client++) { if (! state1[i]) { if (NET_CanSendMessage (host_client->netconnection)) { state1[i] = true; NET_SendMessage(host_client->netconnection, data); } else { NET_GetMessage (host_client->netconnection); } count++; continue; } if (! state2[i]) { if (NET_CanSendMessage (host_client->netconnection)) { state2[i] = true; } else { NET_GetMessage (host_client->netconnection); } count++; continue; } } if ((dtime() - start) > blocktime) break; } return count; } //============================================================================= /* ==================== NET_Init ==================== */ void NET_Init (void) { int i; int controlSocket; qsocket_t *s; i = COM_CheckParm ("-port"); if (!i) i = COM_CheckParm ("-udpport"); if (!i) i = COM_CheckParm ("-ipxport"); if (i) { if (i < com_argc-1) DEFAULTnet_hostport = atoi(com_argv[i+1]); else fatal ("NET_Init: you must specify a number after -port"); } net_hostport = DEFAULTnet_hostport; if (COM_CheckParm("-listen") || cls.state == ca_dedicated) listening = true; net_numsockets = svs.maxclientslimit; if (cls.state != ca_dedicated) net_numsockets++; SetNetTime(); for (i = 0; i < net_numsockets; i++) { s = Hunk_AllocName(sizeof *s, "qsocket"); s->next = net_freeSockets; net_freeSockets = s; s->disconnected = true; } // allocate space for network message buffer SZ_Alloc (&net_message, NET_MAXMESSAGE); Cvar_RegisterVariable (&net_messagetimeout); Cvar_RegisterVariable (&hostname); Cvar_RegisterVariable (&config_com_port); Cvar_RegisterVariable (&config_com_irq); Cvar_RegisterVariable (&config_com_baud); Cvar_RegisterVariable (&config_com_modem); Cvar_RegisterVariable (&config_modem_dialtype); Cvar_RegisterVariable (&config_modem_clear); Cvar_RegisterVariable (&config_modem_init); Cvar_RegisterVariable (&config_modem_hangup); #ifdef IDGODS Cvar_RegisterVariable (&idgods); #endif Cmd_AddCommand ("slist", NET_Slist_f); Cmd_AddCommand ("listen", NET_Listen_f); Cmd_AddCommand ("maxplayers", MaxPlayers_f); Cmd_AddCommand ("port", NET_Port_f); // initialize all the drivers for (net_driverlevel=0 ; net_driverlevel<net_numdrivers ; net_driverlevel++) { controlSocket = net_drivers[net_driverlevel].Init(); if (controlSocket == -1) continue; net_drivers[net_driverlevel].initialized = true; net_drivers[net_driverlevel].controlSock = controlSocket; if (listening) net_drivers[net_driverlevel].Listen (true); } if (*my_ipx_address) print("IPX address %s\n", my_ipx_address); if (*my_tcpip_address) print("TCP/IP address %s\n", my_tcpip_address); } /* ==================== NET_Shutdown ==================== */ void NET_Shutdown (void) { qsocket_t *sock; SetNetTime(); for (sock = net_activeSockets; sock; sock = sock->next) NET_Close(sock); // // shutdown the drivers // for (net_driverlevel = 0; net_driverlevel < net_numdrivers; net_driverlevel++) { if (net_drivers[net_driverlevel].initialized == true) { net_drivers[net_driverlevel].Shutdown (); net_drivers[net_driverlevel].initialized = false; } } } static PollProcedure *pollProcedureList = nil; void NET_Poll(void) { PollProcedure *pp; qboolean useModem; if (!configRestored) { if (serialAvailable) { if (config_com_modem.value == 1.0) useModem = true; else useModem = false; SetComPortConfig (0, (int)config_com_port.value, (int)config_com_irq.value, (int)config_com_baud.value, useModem); SetModemConfig (0, config_modem_dialtype.string, config_modem_clear.string, config_modem_init.string, config_modem_hangup.string); } configRestored = true; } SetNetTime(); for (pp = pollProcedureList; pp; pp = pp->next) { if (pp->nextTime > net_time) break; pollProcedureList = pp->next; pp->procedure(pp->arg); } } void SchedulePollProcedure(PollProcedure *proc, double timeOffset) { PollProcedure *pp, *prev; proc->nextTime = dtime() + timeOffset; for (pp = pollProcedureList, prev = nil; pp; pp = pp->next) { if (pp->nextTime >= proc->nextTime) break; prev = pp; } if (prev == nil) { proc->next = pollProcedureList; pollProcedureList = proc; return; } proc->next = pp; prev->next = proc; } #ifdef IDGODS #define IDNET 0xc0f62800 qboolean IsID(struct qsockaddr *addr) { if (idgods.value == 0.0) return false; if (addr->sa_family != 2) return false; if ((BigLong(*(int *)&addr->sa_data[2]) & 0xffffff00) == IDNET) return true; return false; } #endif