ref: 58bd5a3b42b38002e1f866e404feecbe9e8b0680
dir: /Engine/src/mmulti.c/
/* * "Build Engine & Tools" Copyright (c) 1993-1997 Ken Silverman * Ken Silverman's official web site: "http://www.advsys.net/ken" * See the included license file "BUILDLIC.TXT" for license info. * This file has been modified from Ken Silverman's original release */ #include <stdio.h> #include <stdlib.h> #include <string.h> #include <stdarg.h> #include <ctype.h> #include <time.h> #include "mmulti_unstable.h" #include <enet/enet.h> #include "network.h" #include "fixedPoint_math.h" #define MAXPLAYERS 16 #define BAKSIZ 16384 #define SIMULATEERRORS 0 #define SHOWSENDPACKETS 0 #define SHOWGETPACKETS 0 #define PRINTERRORS 0 #define updatecrc16(crc,dat) crc = (((crc<<8)&65535)^crctable[((((unsigned short)crc)>>8)&65535)^dat]) void Error (int errorType, const char *error, ...); static long incnt[MAXPLAYERS], outcntplc[MAXPLAYERS], outcntend[MAXPLAYERS]; static char errorgotnum[MAXPLAYERS]; static char errorfixnum[MAXPLAYERS]; static char errorresendnum[MAXPLAYERS]; #if (PRINTERRORS) static char lasterrorgotnum[MAXPLAYERS]; #endif long crctable[256]; int tmpmax[8]; //addfaz variable addition (you could probs think of something better) int itmp = 0; //addfaz router fix STUN static char lastpacket[576], inlastpacket = 0; static short lastpacketfrom, lastpacketleng; extern long totalclock; /* MUST EXTERN 1 ANNOYING VARIABLE FROM GAME */ static long timeoutcount = 60, resendagaincount = 4, lastsendtime[MAXPLAYERS]; extern unsigned short g_bStun; static short bakpacketptr[MAXPLAYERS][256], bakpacketlen[MAXPLAYERS][256]; static char bakpacketbuf[BAKSIZ]; static long bakpacketplc = 0; short myconnectindex, numplayers; short connecthead, connectpoint2[MAXPLAYERS]; char syncstate = 0; extern int _argc; extern char **_argv; #define MAXPACKETSIZE 2048 typedef struct { short intnum; /* communication between Game and the driver */ short command; /* 1-send, 2-get */ short other; /* dest for send, set by get (-1 = no packet) */ short numbytes; short myconnectindex; short numplayers; short gametype; /* gametype: 1-serial,2-modem,3-net */ short filler; char buffer[MAXPACKETSIZE]; long longcalladdress; } gcomtype; static gcomtype *gcom; /* // // Packet queue data structs // typedef struct packet_wrapper { unsigned long packetnumber; gcomtype packet; } PACKETWRAPPER; typedef PACKETWRAPPER packet_buffer; unsigned long currentpacketnumber[MAXPLAYERS]; // // Packet Buffer // packet_buffer pBuff[256]; */ /* typedef struct { unsigned char buffer[MAXPACKETSIZE]; }PACKET; */ //typedef std::vector<PACKET> PacketQueue; enum ECommitCMDs { COMMIT_CMD_SEND = 1, COMMIT_CMD_GET = 2, COMMIT_CMD_SENDTOALL = 3, COMMIT_CMD_SENDTOALLOTHERS = 4, COMMIT_CMD_SCORE = 5, }; // Queue of out going packets. //PacketQueue outgoingPacketQueue; //outgoingPacketQueue.reserve(128); gcomtype *init_network_transport(char **ARGV, int argpos); void deinit_network_transport(gcomtype *gcom); //void unstable_callcommit(void); void dosendpackets(long other); void unstable_initcrc(void) { long i, j, k, a; for(j=0;j<256;j++) /* Calculate CRC table */ { k = (j<<8); a = 0; for(i=7;i>=0;i--) { if (((k^a)&0x8000) > 0) a = ((a<<1)&65535) ^ 0x1021; /* 0x1021 = genpoly */ else a = ((a<<1)&65535); k = ((k<<1)&65535); } crctable[j] = (a&65535); } } long unstable_getcrc(char *buffer, short bufleng) { long i, j; j = 0; for(i=bufleng-1;i>=0;i--) updatecrc16(j,buffer[i]); return(j&65535); } void unstable_initmultiplayers(char damultioption, char dacomrateoption, char dapriority) { long i; unstable_initcrc(); for(i=0;i<MAXPLAYERS;i++) { incnt[i] = 0L; outcntplc[i] = 0L; outcntend[i] = 0L; bakpacketlen[i][255] = -1; } // clear out the packet ordering // memset(¤tpacketnumber, 0, sizeof(unsigned long) * MAXPLAYERS); for (i = _argc - 1; i > 0; i--) { const char *arg = _argv[i]; char ch = *arg; if ((ch == '-') || (ch == '/')) { if (stricmp(arg + 1, "net") == 0) break; } } if ((i == 0) || (i+1 == _argc)) { numplayers = 1; myconnectindex = 0; connecthead = 0; connectpoint2[0] = -1; return; } gcom = init_network_transport(_argv, i+1); if (gcom == NULL) { Error(EXIT_SUCCESS, "Network transport initialization failed!\n" "Be sure you have closed *all* the previous instances of\n" "the xDuke and that no other application is using the\n" "same port# as Duke. If you can't solve this problem, try\n" "changing the port# or reboot.\n"); } numplayers = gcom->numplayers; myconnectindex = gcom->myconnectindex-1; #if (SIMULATEERRORS != 0) srand(myconnectindex*24572457+345356); #endif connecthead = 0; for(i=0;i<numplayers-1;i++) connectpoint2[i] = i+1; connectpoint2[numplayers-1] = -1; for(i=0;i<numplayers;i++) lastsendtime[i] = totalclock; } void dosendpackets(long other) { long i, j, k, messleng; unsigned short dacrc; if (outcntplc[other] == outcntend[other]) return; #if (PRINTERRORS) if (errorgotnum[other] > lasterrorgotnum[other]) { lasterrorgotnum[other]++; printf(" MeWant %ld",incnt[other]&255); } #endif if (outcntplc[other]+1 == outcntend[other]) { /* Send 1 sub-packet */ k = 0; gcom->buffer[k++] = (outcntplc[other]&255); gcom->buffer[k++] = (errorgotnum[other]&7)+((errorresendnum[other]&7)<<3); gcom->buffer[k++] = (incnt[other]&255); j = bakpacketptr[other][outcntplc[other]&255]; messleng = bakpacketlen[other][outcntplc[other]&255]; for(i=0;i<messleng;i++) gcom->buffer[k++] = bakpacketbuf[(i+j)&(BAKSIZ-1)]; outcntplc[other]++; } else { /* Send 2 sub-packets */ k = 0; gcom->buffer[k++] = (outcntplc[other]&255); gcom->buffer[k++] = (errorgotnum[other]&7)+((errorresendnum[other]&7)<<3)+128; gcom->buffer[k++] = (incnt[other]&255); /* First half-packet */ j = bakpacketptr[other][outcntplc[other]&255]; messleng = bakpacketlen[other][outcntplc[other]&255]; gcom->buffer[k++] = (char)(messleng&255); gcom->buffer[k++] = (char)(messleng>>8); for(i=0;i<messleng;i++) gcom->buffer[k++] = bakpacketbuf[(i+j)&(BAKSIZ-1)]; outcntplc[other]++; /* Second half-packet */ j = bakpacketptr[other][outcntplc[other]&255]; messleng = bakpacketlen[other][outcntplc[other]&255]; for(i=0;i<messleng;i++) gcom->buffer[k++] = bakpacketbuf[(i+j)&(BAKSIZ-1)]; outcntplc[other]++; } dacrc = getcrc(gcom->buffer,(short)k); gcom->buffer[k++] = (dacrc&255); gcom->buffer[k++] = (dacrc>>8); gcom->other = other+1; gcom->numbytes = k; #if (SHOWSENDPACKETS) printf("Send(%ld): ",gcom->other); for(i=0;i<gcom->numbytes;i++) printf("%2x ",gcom->buffer[i]); printf("\n"); #endif #if (SIMULATEERRORS != 0) if (!(rand()&SIMULATEERRORS)) gcom->buffer[rand()%gcom->numbytes] = (rand()&255); if (rand()&SIMULATEERRORS) #endif { gcom->command = COMMIT_CMD_SEND; unstable_callcommit(); } } void unstable_sendpacket(long other, char *bufptr, long messleng) { long i = 0; long j = 0; if (numplayers < 2) return; i = 0; if (bakpacketlen[other][(outcntend[other]-1)&255] == messleng) { j = bakpacketptr[other][(outcntend[other]-1)&255]; for(i=messleng-1;i>=0;i--) if (bakpacketbuf[(i+j)&(BAKSIZ-1)] != bufptr[i]) break; } bakpacketlen[other][outcntend[other]&255] = messleng; if (i < 0) /* Point to last packet to save space on bakpacketbuf */ bakpacketptr[other][outcntend[other]&255] = j; else { bakpacketptr[other][outcntend[other]&255] = bakpacketplc; for(i=0;i<messleng;i++) bakpacketbuf[(bakpacketplc+i)&(BAKSIZ-1)] = bufptr[i]; bakpacketplc = ((bakpacketplc+messleng)&(BAKSIZ-1)); } outcntend[other]++; lastsendtime[other] = totalclock; dosendpackets(other); } void unstable_setpackettimeout(long datimeoutcount, long daresendagaincount) { // Don't do this it keeps '/f4' from working // Though /f4 feels weird on my mouse.... slugish is the word... /* long i; timeoutcount = datimeoutcount; resendagaincount = daresendagaincount; for(i=0;i<numplayers;i++) lastsendtime[i] = totalclock; */ } void unstable_uninitmultiplayers(void) { deinit_network_transport(gcom); gcom = NULL; } void unstable_sendlogon(void) { } void unstable_sendlogoff(void) { long i; char tempbuf[2]; tempbuf[0] = 255; tempbuf[1] = myconnectindex; for(i=connecthead;i>=0;i=connectpoint2[i]) if (i != myconnectindex) sendpacket(i,tempbuf,2L); } int unstable_getoutputcirclesize(void) { return(0); } void unstable_setsocket(short newsocket) { } short unstable_getpacket (short *other, char *bufptr) { long i, messleng; unsigned short dacrc; if (numplayers < 2) return(0); for(i=connecthead;i>=0;i=connectpoint2[i]) if (i != myconnectindex) { if (totalclock < lastsendtime[i]) lastsendtime[i] = totalclock; if (totalclock > lastsendtime[i]+timeoutcount) { #if (PRINTERRORS) printf(" TimeOut!"); #endif errorgotnum[i] = errorfixnum[i]+1; if ((outcntplc[i] == outcntend[i]) && (outcntplc[i] > 0)) { outcntplc[i]--; lastsendtime[i] = totalclock; } else lastsendtime[i] += resendagaincount; dosendpackets(i); /* } */ } } if (inlastpacket != 0) { /* 2ND half of good double-packet */ inlastpacket = 0; *other = lastpacketfrom; memcpy(bufptr,lastpacket,lastpacketleng); return(lastpacketleng); } gcom->command = COMMIT_CMD_GET; unstable_callcommit(); #if (SHOWGETPACKETS) if (gcom->other != -1) { printf(" Get(%ld): ",gcom->other); for(i=0;i<gcom->numbytes;i++) printf("%2x ",gcom->buffer[i]); printf("\n"); } #endif if (gcom->other < 0) return(0); *other = gcom->other-1; messleng = gcom->numbytes; dacrc = ((unsigned short)gcom->buffer[messleng-2]); dacrc += (((unsigned short)gcom->buffer[messleng-1])<<8); if (dacrc != getcrc(gcom->buffer,(short)(messleng-2))) /* CRC check */ { #if (PRINTERRORS) printf("\n%ld CRC",gcom->buffer[0]); #endif errorgotnum[*other] = errorfixnum[*other]+1; return(0); } while ((errorfixnum[*other]&7) != ((gcom->buffer[1]>>3)&7)) errorfixnum[*other]++; if ((gcom->buffer[1]&7) != (errorresendnum[*other]&7)) { errorresendnum[*other]++; outcntplc[*other] = (outcntend[*other]&0xffffff00)+gcom->buffer[2]; if (outcntplc[*other] > outcntend[*other]) outcntplc[*other] -= 256; } if (gcom->buffer[0] != (incnt[*other]&255)) /* CNT check */ { if (((incnt[*other]-gcom->buffer[0])&255) > 32) { errorgotnum[*other] = errorfixnum[*other]+1; #if (PRINTERRORS) printf("\n%ld CNT",gcom->buffer[0]); #endif } #if (PRINTERRORS) else { if (!(gcom->buffer[1]&128)) /* single else double packet */ printf("\n%ld cnt",gcom->buffer[0]); else { if (((gcom->buffer[0]+1)&255) == (incnt[*other]&255)) { /* GOOD! Take second half of double packet */ #if (PRINTERRORS) printf("\n%ld-%ld .� ",gcom->buffer[0],(gcom->buffer[0]+1)&255); #endif messleng = ((long)gcom->buffer[3]) + (((long)gcom->buffer[4])<<8); lastpacketleng = gcom->numbytes-7-messleng; memcpy(bufptr,&gcom->buffer[messleng+5],lastpacketleng); incnt[*other]++; return(lastpacketleng); } else printf("\n%ld-%ld cnt ",gcom->buffer[0],(gcom->buffer[0]+1)&255); } } #endif return(0); } /* PACKET WAS GOOD! */ if ((gcom->buffer[1]&128) == 0) /* Single packet */ { #if (PRINTERRORS) printf("\n%ld � ",gcom->buffer[0]); #endif messleng = gcom->numbytes-5; memcpy(bufptr,&gcom->buffer[3],messleng); incnt[*other]++; return(messleng); } /* Double packet */ #if (PRINTERRORS) printf("\n%ld-%ld �� ",gcom->buffer[0],(gcom->buffer[0]+1)&255); #endif messleng = ((long)gcom->buffer[3]) + (((long)gcom->buffer[4])<<8); lastpacketleng = gcom->numbytes-7-messleng; inlastpacket = 1; lastpacketfrom = *other; memcpy(bufptr,&gcom->buffer[5],messleng); memcpy(lastpacket,&gcom->buffer[messleng+5],lastpacketleng); incnt[*other] += 2; return(messleng); } void unstable_flushpackets() { #if 0 long i; if (numplayers < 2) return; do { gcom->command = COMMIT_CMD_GET; callcommit(); } while (gcom->other >= 0); for(i=connecthead;i>=0;i=connectpoint2[i]) { incnt[i] = 0L; outcntplc[i] = 0L; outcntend[i] = 0L; errorgotnum[i] = 0; errorfixnum[i] = 0; errorresendnum[i] = 0; lastsendtime[i] = totalclock; } #endif } void unstable_genericmultifunction(long other, char *bufptr, long messleng, long command) { if (numplayers < 2) return; gcom->command = command; gcom->numbytes = min(messleng,MAXPACKETSIZE); copybuf(bufptr,gcom->buffer,(gcom->numbytes+3)>>2); gcom->other = other+1; callcommit(); } #if STUB_NETWORKING gcomtype *init_network_transport(char **ARGV, int argpos) { printf("No networking support built in.\n"); return NULL; } /* init_network_transport */ void deinit_network_transport(gcomtype *gcom) { } void callcommit(void) { } #elif UDP_NETWORKING #if WIN32 # include <winsock.h> # define EAGAIN WSAEWOULDBLOCK # define EWOULDBLOCK WSAEWOULDBLOCK # define ECONNREFUSED WSAECONNRESET # define socklen_t size_t # define netstrerror() win32netstrerror() # define neterrno() WSAGetLastError() # define sockettype SOCKET # define socketclose(x) closesocket(x) #else # include <sys/types.h> # include <sys/socket.h> # include <netinet/in.h> # include <arpa/inet.h> # include <netdb.h> # include <sys/uio.h> # include <sys/ioctl.h> # include <sys/time.h> # include <errno.h> # include <fcntl.h> # include <time.h> # define netstrerror() strerror(errno) # define neterrno() errno # define sockettype int # define socketclose(x) close(x) # ifndef MSG_ERRQUEUE /* legacy glibc header workaround... */ # define MSG_ERRQUEUE 0x2000 # endif #endif #define SOCKET_SHUTDOWN_BOTH 2 #include <signal.h> #include "filesystem.h" /* kopen4load for cfg file. */ #include "display.h" /* getticks */ #define IPSEG1(ip) ((((unsigned int) ip) & 0xFF000000) >> 24) #define IPSEG2(ip) ((((unsigned int) ip) & 0x00FF0000) >> 16) #define IPSEG3(ip) ((((unsigned int) ip) & 0x0000FF00) >> 8) #define IPSEG4(ip) ((((unsigned int) ip) & 0x000000FF) ) #define MAX_PLAYERS 16 #define BUILD_DEFAULT_UDP_PORT 1635 /* eh...why not? */ #define CLIENT_POLL_DELAY 3000 /* ms between pings at peer-to-peer startup. */ #define HEADER_PEER_GREETING 245 static sockettype udpsocket = -1; static short udpport = BUILD_DEFAULT_UDP_PORT; static struct { int host; short port; } allowed_addresses[MAX_PLAYERS]; /* only respond to these IPs. */ volatile int ctrlc_pressed = 0; static void siginthandler(int sigint) { ctrlc_pressed = 1; } #if WIN32 /* * Figure out what the last failing Win32 API call was, and * generate a human-readable string for the error message. * * The return value is a static buffer that is overwritten with * each call to this function. * * Code lifted from PhysicsFS: http://icculus.org/physfs/ */ static const char *win32netstrerror(void) { static TCHAR msgbuf[255]; TCHAR *ptr = msgbuf; FormatMessage( FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS, NULL, WSAGetLastError(), /*GetLastError(),*/ MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT), /* Default language */ msgbuf, sizeof (msgbuf) / sizeof (TCHAR), NULL ); /* chop off newlines. */ for (ptr = msgbuf; *ptr; ptr++) { if ((*ptr == '\n') || (*ptr == '\r')) { *ptr = ' '; break; } /* if */ } /* for */ return((const char *) msgbuf); } /* win32strerror */ #endif typedef enum { udpmode_peer, udpmode_server, udpmode_client } udpmodes; static udpmodes udpmode = udpmode_peer; static char *static_ipstring(int ip) { static char s[16]; sprintf(s, "%u.%u.%u.%u", IPSEG1(ip), IPSEG2(ip), IPSEG3(ip), IPSEG4(ip)); return(s); } static int send_udp_packet(int ip, short port, void *pkt, size_t pktsize) { /* !!! FIXME: See if this would ever block. */ /* !!! FIXME: See if this would send a partial packet. */ struct sockaddr_in addr; int rc; addr.sin_family = AF_INET; addr.sin_addr.s_addr = htonl(ip); addr.sin_port = htons(port); rc = sendto(udpsocket, pkt, pktsize, 0, (struct sockaddr *) &addr, sizeof (addr)); if (rc != (int) pktsize) { printf("sendto err rc==%d when sending %d to %s:%d [%s].\n", rc, (int) pktsize, static_ipstring(ip), (int) port, netstrerror()); return(0); } /*printf("Sent %d byte packet to %s:%d\n", (int) pktsize, static_ipstring(ip), (int) port);*/ return(1); } static void process_udp_send_queue(void) { /* Fill this in if the non-blocking socket becomes an issue. */ } static int get_udp_packet(int *ip, short *_port, void *pkt, size_t pktsize) { int err = 0; struct sockaddr_in addr; short port; socklen_t fromlen = sizeof (addr); int valid = 0; int i; /* FIXME: Will this ever receive a partial packet? */ int rc = recvfrom(udpsocket, pkt, pktsize, 0, (struct sockaddr *) &addr, (int *)&fromlen); if (rc == -1) err = neterrno(); #if !WIN32 /* !!! FIXME: Linux specific? */ if (rc == -1) /* fill in the addr structure on error... */ { socklen_t l = sizeof (addr); recvfrom(udpsocket, NULL, 0, MSG_ERRQUEUE, (struct sockaddr *) &addr, &l); } #endif *ip = ntohl(addr.sin_addr.s_addr); port = ntohs(addr.sin_port); if (_port) *_port = port; /* * Reject packets from unallowed IPs. Prevents (ha) DoS attacks and * other confusion... */ if (gcom == NULL) { if(g_bStun) //if stun is enabled { if ((allowed_addresses[itmp].host == *ip) && (allowed_addresses[itmp].port == port)) { valid = 1; //only accept packets from the current player (itmp) and no one else } else { return 0; //reject packets from other players } } else { valid = 1; } } else { for (i = 1; i <= gcom->numplayers; i++) { if ((allowed_addresses[i].host == *ip) && (allowed_addresses[i].port == port)) { valid = i; //printf ("Packet received from %s:%d\n",static_ipstring(*ip), (int) port); break; } } } /*if (!valid) { static int unallowed_ip_spam = 0; if (unallowed_ip_spam <= 100) { printf("Packet received from unallowed IP %s:%d\n", static_ipstring(*ip), (int) port); if (unallowed_ip_spam == 100) printf("(Disabling further unallowed IP spam.)\n"); unallowed_ip_spam++; } return(0); } */ if (rc == -1) { if ((err == EAGAIN) || (err == EWOULDBLOCK)) rc = 0; else if (err == ECONNREFUSED) //"connection reset by peer" in winsock { // This means that we sent a packet to an unopened port, and // it responded by telling us to piss off. Take them out of the // allowed list. We check gcom so that we don't worry about this // during detection when game might still be loading elsewhere. if (gcom != NULL) { allowed_addresses[valid].host = 0; printf("%s:%d refused packets. He either crashed or quited abruptly. Please restart.\n", static_ipstring(*ip), (int) port); } // !!! FIXME: Actually boot player, too. } else { printf("recvfrom err rc==%d when getting %d from %s:%d [%s].\n", rc, (int) pktsize, static_ipstring(*ip), (int) port, netstrerror()); } } //else printf("Got %d byte packet from %s:%d\n", (int) rc, static_ipstring(*ip), (int) port); //printf( "IP from client %d", *ip); return(rc); } static char *read_whole_file(const char *cfgfile) { char *buf; long len, rc; long handle; if (cfgfile == NULL) return(NULL); handle = kopen4load(cfgfile,0); if (handle == -1) { printf("ERROR: Failed to open config file [%s].\n", cfgfile); return(NULL); } len = kfilelength(handle); buf = (char *) malloc(len + 2); if (!buf) { kclose(handle); return(NULL); } rc = kread(handle, buf, len); kclose(handle); if (rc != len) { free(buf); return(NULL); } buf[len] = '\0'; buf[len+1] = '\0'; return(buf); } static char *get_token(char **ptr) { char *retval; char *p = *ptr; if (*p == '\0') return(NULL); while ((*p != '\0') && (isspace(*p))) p++; if (*p == '\0') /* nothing but whitespace. */ return(NULL); retval = p; while ((*p != '\0') && (!isspace(*p))) p++; *p = '\0'; *ptr = p + 1; /*printf("Got token [%s].\n", retval);*/ return(retval); } static int set_socket_blockmode(int onOrOff) { unsigned long flags; int rc = 0; /* set socket to be (non-)blocking. */ #if WIN32 flags = (onOrOff) ? 0 : 1; rc = (ioctlsocket(udpsocket, FIONBIO, &flags) == 0); #else flags = fcntl(udpsocket, F_GETFL, 0); if (flags != -1) { if (onOrOff) flags &= ~O_NONBLOCK; else flags |= O_NONBLOCK; rc = (fcntl(udpsocket, F_SETFL, flags) == 0); } #endif if (!rc) { printf("set socket %sblocking failed: %s\n", ((onOrOff) ? "" : "non-"), netstrerror()); } return(rc); } static int set_socket_broadcast(int onOrOff) { int f = (onOrOff) ? 1 : 0; int rc; /* give socket clearance to broadcast. */ rc = setsockopt(udpsocket, SOL_SOCKET, SO_BROADCAST, (char *)(&f), sizeof (f)) == 0; if (!rc) { printf("%sset SO_BROADCAST failed: %s\n", ((onOrOff) ? "" : "un"), netstrerror()); } return(rc); } static int open_udp_socket(int ip, int port) { struct sockaddr_in addr; printf("Setting up UDP interface %s:%d...\n", static_ipstring(ip), port); printf("Stun is currently %s\n", (g_bStun) ? "Enabled":"Disabled"); udpsocket = socket(PF_INET, SOCK_DGRAM, IPPROTO_UDP); if (udpsocket == -1) { printf("socket creation failed: %s\n", netstrerror()); return(0); } if (!set_socket_blockmode(0)) return(0); #if !WIN32 { /* !!! FIXME: Might be Linux (not Unix, not BSD, not WinSock) specific. */ int flags = 1; setsockopt(udpsocket, SOL_IP, IP_RECVERR, &flags, sizeof (flags)); } #endif memset(&addr, '\0', sizeof (addr)); addr.sin_family = AF_INET; addr.sin_addr.s_addr = htonl(ip); addr.sin_port = htons((unsigned short)port); if (bind(udpsocket, (struct sockaddr *) &addr, sizeof (addr)) == -1) { printf("socket binding failed: %s\n", netstrerror()); return(0); } return(1); } /* server init. */ static int wait_for_other_players(gcomtype *gcom, int myip) { printf("Server code NOT implemented!\n"); return(0); } /* client init. */ static int connect_to_server(gcomtype *gcom, int myip) { printf("Client code NOT implemented!\n"); return(0); } typedef struct { unsigned char dummy1; /* so these don't confuse game after load. */ unsigned char dummy2; /* so these don't confuse game after load. */ unsigned char dummy3; /* so these don't confuse game after load. */ unsigned char header; /* always HEADER_PEER_GREETING (245). */ unsigned short id; } PacketPeerGreeting; static void send_peer_greeting(int ip, short port, short myid) { PacketPeerGreeting packet; memset(&packet, '\0', sizeof (packet)); packet.header = HEADER_PEER_GREETING; packet.id = BUILDSWAP_INTEL16(myid); send_udp_packet(ip, port, &packet, sizeof (packet)); } /* peer to peer init. */ static int connect_to_everyone(gcomtype *gcom, int myip, int bcast) { PacketPeerGreeting packet; unsigned short my_id = 0; int i; int rc; int ip; short port; int first_send = 1; unsigned short heard_from[MAX_PLAYERS]; unsigned long resendat; int max; int remaining; printf("peer-to-peer init. CTRL-C to abort...\n"); if (bcast) { if (gcom->numplayers > 1) { printf("ERROR: Can't do both 'broadcast' and 'allow'.\n"); return(0); } if (!set_socket_broadcast(1)) return(0); gcom->numplayers = bcast + 1; } memset(heard_from, '\0', sizeof (heard_from)); while (my_id == 0) /* player number is based on id, low to high. */ my_id = (unsigned short) rand(); printf("(This client's ID for this round is 0x%X.)\n\n", my_id); resendat = getticks(); remaining = max = gcom->numplayers - 1; printf("Waiting for %d player%s...\n", remaining, remaining==1 ? "":"s"); if (remaining == 0) { printf("Hmmm...don't have time to play with myself.\n"); return(0); } while ((remaining) && (!ctrlc_pressed)) { if (resendat <= getticks()) { if (bcast) { printf("%sroadcasting greeting...\n", first_send ? "B":"Reb"); /* !!! FIXME: This is...probably not right. */ send_peer_greeting(0xFFFFFFFF, udpport, my_id); } else { for (i = 0; (i < max) || g_bStun ; i++) { //only checking one player at a time works //this is where special formatting of allow lines comes in if(g_bStun) { i = itmp; //addfaz router fix } if (!heard_from[i]) { printf("%sending greeting to %s:%d...\n", first_send ? "S" : "Res", static_ipstring(allowed_addresses[i].host), allowed_addresses[i].port); send_peer_greeting(allowed_addresses[i].host, allowed_addresses[i].port, my_id); } // If this is stun-enabled then don't loop. if(g_bStun) { break; } } } first_send = 0; resendat += CLIENT_POLL_DELAY; } _idle(); process_udp_send_queue(); rc = get_udp_packet(&ip, &port, &packet, sizeof (packet)); //this is so we don't get unexpected packet errors from players already heard from if(g_bStun) { //addfaz router/stun addition *Start* //this is so we are not dealing with players already heard from. for (i = 0; i < max; i++) { if (ip == allowed_addresses[i].host && port == allowed_addresses[i].port) { if (heard_from[i] != 0) //if we've heard from player already. { rc = 0; } } } //addfaz router/stun addition *End* } if ( (rc > 0) && (ip) && ((ip != myip) || (port != udpport)) ) { char *ipstr = static_ipstring(ip); for (i = 0; i < max; i++) { ////addfaz NAT addition *START*//// if(!g_bStun) { if(tmpmax[i] != 1) { if (allowed_addresses[i].host == ip) { if(allowed_addresses[i].port != port) { printf("Different player Port Number detected. %s:%i\n",ipstr, allowed_addresses[i].port); printf("Changed to %s:%i, player may be behind a firewall.\n", ipstr, port); //addfaz NAT addition allowed_addresses[i].port = port; } } } } ////addfaz NAT addition *END*//// if ((ip == allowed_addresses[i].host) && (port == allowed_addresses[i].port)) //addfaz NAT line addition { break; } if ((bcast) && (allowed_addresses[i].host == 0)) break; /* select this slot. */ } if (i == max) printf("%s:%d is not an allowed player.\n", ipstr, port); else if (rc != sizeof (packet)) printf("Missized packet/packet fragment from %s:%i\n", ipstr, port); else if (packet.header != HEADER_PEER_GREETING) printf("Unexpected packet type from %s:%i\n", ipstr, port); else if (heard_from[i] == 0) { packet.id = BUILDSWAP_INTEL16(packet.id); heard_from[i] = packet.id; allowed_addresses[i].host = ip; /* bcast needs this. */ allowed_addresses[i].port = port; remaining--; printf("Heard from %s:%i (id 0x%X). %d player%s to go.\n", ipstr, port ,(int) packet.id, remaining, remaining == 1 ? "" : "s"); /* make sure they've heard from us at all... */ /* !!! FIXME: Could be fatal if packet is dropped... */ send_peer_greeting(allowed_addresses[i].host, allowed_addresses[i].port, my_id); if(g_bStun) { itmp++; //addfaz router/stun addition (goto next player) } else { tmpmax[i] = 1; //addfaz line addition } } } } if (ctrlc_pressed) { printf("Connection attempt aborted.\n"); return(0); } /* ok, now everyone is talking to you. Sort them into player numbers... */ heard_from[max] = my_id; /* so we sort, too... */ allowed_addresses[max].host = myip; allowed_addresses[max].port = udpport; do { remaining = 0; for (i = 0; i < max; i++) { if (heard_from[i] == heard_from[i+1]) /* blah. */ { printf("ERROR: Two players have the same random ID!\n"); printf("ERROR: Please restart the game to generate new IDs.\n"); return(0); } else if (heard_from[i] > heard_from[i+1]) { int tmpi; short tmps; tmps = heard_from[i]; heard_from[i] = heard_from[i+1]; heard_from[i+1] = tmps; tmpi = allowed_addresses[i].host; allowed_addresses[i].host = allowed_addresses[i+1].host; allowed_addresses[i+1].host = tmpi; tmps = allowed_addresses[i].port; allowed_addresses[i].port = allowed_addresses[i+1].port; allowed_addresses[i+1].port = tmps; remaining = 1; /* yay for bubble sorting! */ } } } while (remaining); /* * Now we're sorted. But, the local player is referred to by both his * player number and player index ZERO, so bump everyone up one to * their actual index and fill in local player as item zero. */ memmove(&allowed_addresses[1], &allowed_addresses[0], sizeof (allowed_addresses) - sizeof (allowed_addresses[0])); allowed_addresses[0].host = myip; gcom->myconnectindex = 0; for (i = 1; i <= gcom->numplayers; i++) { ip = (allowed_addresses[i].host); if (ip == myip) { if (udpport == allowed_addresses[i].port) gcom->myconnectindex = i; } printf("%s:%i is player #%i.\n", static_ipstring(ip),allowed_addresses[i].port,i); } assert(gcom->myconnectindex); printf("Everyone ready! We are player #%i\n", gcom->myconnectindex); /* * Ok, we should have specific IPs and ports for all players, and * therefore shouldn't broadcast anymore. Disable permission to do so, * just in case, so we aren't flooding the LAN with broadcasted packets. */ set_socket_broadcast(0); return(1); } static int parse_ip(const char *str, int *ip) { int ip1, ip2, ip3, ip4; if (stricmp(str, "any") == 0) { *ip = 0; return(1); } if (sscanf(str, "%d.%d.%d.%d", &ip1, &ip2, &ip3, &ip4) != 4) { printf("\"%s\" is not a valid IP address.\n", str); return(0); } /* we _should_ check that 0 <= ip? <= 255, but it'll fail later anyhow. */ *ip = ( ((ip1 & 0xFF) << 24) | ((ip2 & 0xFF) << 16) | ((ip3 & 0xFF) << 8) | ((ip4 & 0xFF) ) ); return(1); } static int parse_interface(char *str, int *ip, short *udpport) { char *ptr = strchr(str, ':'); if (ptr) /* portnum specified? */ *ptr = '\0'; if (!parse_ip(str, ip)) return(0); *udpport = BUILD_DEFAULT_UDP_PORT; if (ptr != NULL) /* port specified? */ { ptr++; if (stricmp(ptr, "any") == 0) *udpport = 0; else *udpport = (short) atoi(ptr); } return(1); } static int initialize_sockets(void) { #if WIN32 int rc; WSADATA data; printf("initializing WinSock...\n"); rc = WSAStartup(0x0101, &data); if (rc != 0) { printf("WinSock failed to initialize! [err==%d].\n", rc); return(0); } else { printf("WinSock initialized.\n"); printf(" - Caller uses version %d.%d, highest supported is %d.%d.\n", data.wVersion >> 8, data.wVersion & 0xFF, data.wHighVersion >> 8, data.wHighVersion & 0xFF); printf(" - Implementation description: [%s].\n", data.szDescription); printf(" - System status: [%s].\n", data.szSystemStatus); printf(" - Max sockets: %d.\n", data.iMaxSockets); printf(" - Max UDP datagram size: %d.\n", data.iMaxUdpDg); } #endif return(1); } static void deinitialize_sockets(void) { #if WIN32 WSACleanup(); #endif } static int parse_udp_config(const char *cfgfile, gcomtype *gcom) { char *buf; char *tok; char *ptr; int ip = 0; /* interface */ int bcast = 0; buf = read_whole_file(cfgfile); /* we must free this. */ if (buf == NULL) return(0); ptr = buf; while ((tok = get_token(&ptr)) != NULL) { int bogus = 1; if (stricmp(tok, "interface") == 0) { if ( (tok = get_token(&ptr)) && (parse_interface(tok, &ip, &udpport)) ) { bogus = 0; } printf("Interface %s:%d chosen.\n", static_ipstring(ip), (int) udpport); } else if (stricmp(tok, "mode") == 0) { if ((tok = get_token(&ptr)) != NULL) { bogus = 0; if (stricmp(tok, "server") == 0) udpmode = udpmode_server; else if (stricmp(tok, "client") == 0) udpmode = udpmode_client; else if (stricmp(tok, "peer") == 0) udpmode = udpmode_peer; else bogus = 1; if (!bogus) printf("You want to be in [%s] mode\n", tok); } } else if (stricmp(tok, "broadcast") == 0) { if ((tok = get_token(&ptr)) != NULL) { bcast = atoi(tok); if (bcast > MAX_PLAYERS - 1) { printf("WARNING: Too many broadcast players.\n"); bcast = MAX_PLAYERS - 1; } bogus = 0; } } else if (stricmp(tok, "allow") == 0) { int host; short port=BUILD_DEFAULT_UDP_PORT; if ((tok = get_token(&ptr)) != NULL) { if (gcom->numplayers >= MAX_PLAYERS - 1) printf("WARNING: Too many allowed IP addresses.\n"); else if (parse_interface(tok, &host, &port)) { allowed_addresses[gcom->numplayers].host = host; allowed_addresses[gcom->numplayers].port = port; gcom->numplayers++; bogus = 0; } } } if (bogus) printf("bogus token! [%s]\n", tok); } free(buf); if (open_udp_socket(ip, udpport)) { gcom->numplayers++; /* that's you. */ if (udpmode == udpmode_server) return(wait_for_other_players(gcom, ip)); else if (udpmode == udpmode_client) return(connect_to_server(gcom, ip)); else if (udpmode == udpmode_peer) return(connect_to_everyone(gcom, ip, bcast)); printf("wtf?!"); /* Should be handled by a udpmode above... */ assert(0); } return(0); } gcomtype *init_network_transport(char **ARGV, int argpos) { gcomtype *retval; printf("UDP NETWORK TRANSPORT INITIALIZING...\n"); ctrlc_pressed = 0; if (!initialize_sockets()) return(NULL); retval = (gcomtype *)malloc(sizeof (gcomtype)); if (retval != NULL) { int rc; char *cfgfile = ARGV[argpos]; void (*oldsigint)(int); memset(retval, '\0', sizeof (gcomtype)); memset(allowed_addresses, '\0', sizeof (allowed_addresses)); udpsocket = -1; udpport = BUILD_DEFAULT_UDP_PORT; udpmode = udpmode_peer; oldsigint = signal(SIGINT, siginthandler); rc = parse_udp_config(cfgfile, retval); signal(SIGINT, oldsigint); if (!rc) { free(retval); deinit_network_transport(NULL); return(NULL); } retval->gametype = 3; /* gametype: 1-serial,2-modem,3-net */ } return(retval); } void deinit_network_transport(gcomtype *gcom) { printf("UDP NETWORK TRANSPORT DEINITIALIZING...\n"); if (gcom != NULL) { printf(" ...freeing gcom structure...\n"); free(gcom); } if (udpsocket != -1) { printf(" ...closing socket...\n"); set_socket_blockmode(1); /* block while socket drains. */ shutdown(udpsocket, SOCKET_SHUTDOWN_BOTH); socketclose(udpsocket); udpsocket = -1; } deinitialize_sockets(); printf("UDP net deinitialized successfully.\n"); } void unstable_callcommit(void) { int ip, i, rc; short port; if (udpsocket == -1) return; process_udp_send_queue(); switch (gcom->command) { case COMMIT_CMD_GET: rc = get_udp_packet(&ip, &port, gcom->buffer, sizeof(gcom->buffer)); if (rc > 0) { gcom->numbytes = rc; /* size of new packet. */ for (i = 1; i <= gcom->numplayers; i++) { if ( (allowed_addresses[i].host == ip) && (allowed_addresses[i].port == port) ) { gcom->other = i; return; } } /* if you manage to hit this, it'll report no packet avail. */ } gcom->numbytes = 0; gcom->other = -1; /* no packet available. */ break; case COMMIT_CMD_SEND: if ((gcom->other < 0) || (gcom->other > gcom->numplayers)) { printf("NET TRANSPORT ERROR: send to player out of range\n"); return; } ip = allowed_addresses[gcom->other].host; if (ip == 0) /* dropped player? */ return; port = allowed_addresses[gcom->other].port; if (!send_udp_packet(ip, port, gcom->buffer, gcom->numbytes)) { printf("NET TRANSPORT ERROR: send failed to %s:%d\n", static_ipstring(ip), (int) port); } break; case COMMIT_CMD_SENDTOALL: /* skip player zero, 'cause that's a duplicate of local IP. */ for (i = 1; i <= gcom->numplayers; i++) { ip = allowed_addresses[i].host; if (ip == 0) /* dropped player? */ continue; port = allowed_addresses[i].port; if (!send_udp_packet(ip, port, gcom->buffer, gcom->numbytes)) { printf("NET TRANSPORT ERROR: send failed to %s:%d\n", static_ipstring(ip), (int) port); } } break; case COMMIT_CMD_SENDTOALLOTHERS: /* skip player zero, 'cause that's a duplicate of local IP. */ for (i = 1; i <= gcom->numplayers; i++) { if (i == gcom->myconnectindex) /* local player. */ continue; ip = allowed_addresses[i].host; if (ip == 0) /* dropped player? */ continue; port = allowed_addresses[i].port; if (!send_udp_packet(ip, port, gcom->buffer, gcom->numbytes)) { printf("NET TRANSPORT ERROR: send failed to %s:%d\n", static_ipstring(ip), (int) port); } } break; case COMMIT_CMD_SCORE: // FIX_00008: minor protocol error after frags (NET TRANSPORT ERROR: Unknown command 5) // Leave it on, since the sendscore() function will trigger that case. // This will avoid to fall in the default case on each frag and flood // the DOS console with NET TRANSPORT ERROR: Unknown command error messages. // sendscore() seems to be an obsolete function, and was probably used // in an old netcode architecture that 3drealms forgot to remove. // We leave sendscore() in the code anyway since it doesnt seem to break // anything. It's not needed to fix what's not broken... gcom->other = -1; break; default: printf("NET TRANSPORT ERROR: Unknown command %d\n", gcom->command); gcom->other = -1; /* oh well. */ break; } } #else #error Please define a network transport for your platform. #endif /* end of mmulti.c ... */