/* Copyright (C) 1996-1997 Id Software, Inc. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the included (GNU.txt) 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 "qwsvdef.h" #ifndef CLIENTONLY #include "winquake.h" #include "netinc.h" void SV_MVDStop_f (void); #define demo_size_padding 0x1000 mvddest_t *singledest; mvddest_t *SV_InitStream(int socket); static qboolean SV_MVD_Record (mvddest_t *dest); char *SV_MVDName2Txt(char *name); extern cvar_t qtv_password; void DestClose(mvddest_t *d, qboolean destroyfiles) { char path[MAX_OSPATH]; if (d->cache) BZ_Free(d->cache); if (d->file) VFS_CLOSE(d->file); if (d->socket) UDP_CloseSocket(d->socket); if (destroyfiles) { snprintf(path, MAX_OSPATH, "%s/%s", d->path, d->name); FS_Remove(path, FS_GAMEONLY); FS_Remove(SV_MVDName2Txt(path), FS_GAMEONLY); } Z_Free(d); } void DestFlush(qboolean compleate) { int len; mvddest_t *d, *t; if (!demo.dest) return; while (demo.dest->error) { d = demo.dest; demo.dest = d->nextdest; DestClose(d, false); if (!demo.dest) { SV_MVDStop(3, false); return; } } for (d = demo.dest; d; d = d->nextdest) { switch(d->desttype) { case DEST_FILE: VFS_FLUSH (d->file); break; case DEST_BUFFEREDFILE: if (d->cacheused+demo_size_padding > d->maxcachesize || compleate) { len = VFS_WRITE(d->file, d->cache, d->cacheused); if (len < d->cacheused) d->error = true; VFS_FLUSH(d->file); d->cacheused = 0; } break; case DEST_STREAM: if (d->cacheused && !d->error) { len = send(d->socket, d->cache, d->cacheused, 0); if (len == 0) //client died d->error = true; else if (len > 0) //we put some data through { //move up the buffer d->cacheused -= len; memmove(d->cache, d->cache+len, d->cacheused); } else { //error of some kind. would block or something int e; e = qerrno; if (e != EWOULDBLOCK) d->error = true; } } break; case DEST_NONE: Sys_Error("DestFlush encoundered bad dest."); } if (sv_demoMaxSize.value && d->totalsize > sv_demoMaxSize.value*1024) d->error = 2; //abort, but don't kill it. while (d->nextdest && d->nextdest->error) { t = d->nextdest; d->nextdest = t->nextdest; DestClose(t, false); } } } void SV_MVD_RunPendingConnections(void) { unsigned short ushort_result; char *e; int len; mvdpendingdest_t *p; mvdpendingdest_t *np; if (!demo.pendingdest) return; while (demo.pendingdest && demo.pendingdest->error) { np = demo.pendingdest->nextdest; if (demo.pendingdest->socket != INVALID_SOCKET) closesocket(demo.pendingdest->socket); Z_Free(demo.pendingdest); demo.pendingdest = np; } for (p = demo.pendingdest; p && p->nextdest; p = p->nextdest) { if (p->nextdest->error) { np = p->nextdest->nextdest; if (p->nextdest->socket != INVALID_SOCKET) closesocket(p->nextdest->socket); Z_Free(p->nextdest); p->nextdest = np; } } for (p = demo.pendingdest; p; p = p->nextdest) { if (p->outsize && !p->error) { len = send(p->socket, p->outbuffer, p->outsize, 0); if (len == 0) //client died p->error = true; else if (len > 0) //we put some data through { //move up the buffer p->outsize -= len; memmove(p->outbuffer, p->outbuffer+len, p->outsize ); } else { //error of some kind. would block or something int e; e = qerrno; if (e != EWOULDBLOCK) p->error = true; } } if (!p->error) { len = recv(p->socket, p->inbuffer + p->insize, sizeof(p->inbuffer) - p->insize - 1, 0); if (len > 0) {//fixme: cope with extra \rs char *end; p->insize += len; p->inbuffer[p->insize] = 0; for (end = p->inbuffer; ; end++) { if (*end == '\0') { end = NULL; break; //not enough data } if (end[0] == '\n') { if (end[1] == '\n') { end[1] = '\0'; break; } } } if (end) { //we found the end of the header qboolean server = false; char *start, *lineend; int versiontouse = 0; int raw = 0; char password[256] = ""; enum { QTVAM_NONE, QTVAM_PLAIN, QTVAM_CCITT, QTVAM_MD4, QTVAM_MD5, } authmethod = QTVAM_NONE; start = p->inbuffer; lineend = strchr(start, '\n'); if (!lineend) { // char *e; // e = "This is a QTV server."; // send(p->socket, e, strlen(e), 0); p->error = true; continue; } *lineend = '\0'; COM_ParseToken(start, NULL); start = lineend+1; if (strcmp(com_token, "QTV")) { //it's an error if it's not qtv. if (!strcmp(com_token, "QTVSV")) server = true; else { p->error = true; lineend = strchr(start, '\n'); continue; } } if (server != p->isreverse) { //just a small check p->error = true; return; } for(;;) { lineend = strchr(start, '\n'); if (!lineend) break; *lineend = '\0'; start = COM_ParseToken(start, NULL); if (*start == ':') { //VERSION: a list of the different qtv protocols supported. Multiple versions can be specified. The first is assumed to be the prefered version. //RAW: if non-zero, send only a raw mvd with no additional markup anywhere (for telnet use). Doesn't work with challenge-based auth, so will only be accepted when proxy passwords are not required. //AUTH: specifies an auth method, the exact specs varies based on the method // PLAIN: the password is sent as a PASSWORD line // MD4: the server responds with an "AUTH: MD4\n" line as well as a "CHALLENGE: somerandomchallengestring\n" line, the client sends a new 'initial' request with CHALLENGE: MD4\nRESPONSE: hexbasedmd4checksumhere\n" // MD5: same as md4 // CCITT: same as md4, but using the CRC stuff common to all quake engines. // if the supported/allowed auth methods don't match, the connection is silently dropped. //SOURCE: which stream to play from, DEFAULT is special. Without qualifiers, it's assumed to be a tcp address. //COMPRESSION: Suggests a compression method (multiple are allowed). You'll get a COMPRESSION response, and compression will begin with the binary data. start = start+1; Con_Printf("qtv, got (%s) (%s)\n", com_token, start); if (!strcmp(com_token, "VERSION")) { start = COM_ParseToken(start, NULL); if (atoi(com_token) == 1) versiontouse = 1; } else if (!strcmp(com_token, "RAW")) { start = COM_ParseToken(start, NULL); raw = atoi(com_token); } else if (!strcmp(com_token, "PASSWORD")) { start = COM_ParseToken(start, NULL); Q_strncpyz(password, com_token, sizeof(password)); } else if (!strcmp(com_token, "AUTH")) { int thisauth; start = COM_ParseToken(start, NULL); if (!strcmp(com_token, "NONE")) thisauth = QTVAM_PLAIN; else if (!strcmp(com_token, "PLAIN")) thisauth = QTVAM_PLAIN; else if (!strcmp(com_token, "CCIT")) thisauth = QTVAM_CCITT; else if (!strcmp(com_token, "MD4")) thisauth = QTVAM_MD4; // else if (!strcmp(com_token, "MD5")) // thisauth = QTVAM_MD5; else { thisauth = QTVAM_NONE; Con_DPrintf("qtv: received unrecognised auth method (%s)\n", com_token); } if (authmethod < thisauth) authmethod = thisauth; } else if (!strcmp(com_token, "SOURCE")) { //servers don't support source, and ignore it. //source is only useful for qtv proxy servers. } else if (!strcmp(com_token, "COMPRESSION")) { //compression not supported yet } else { //not recognised. } } start = lineend+1; } len = (end - p->inbuffer)+2; p->insize -= len; memmove(p->inbuffer, p->inbuffer + len, p->insize); p->inbuffer[p->insize] = 0; e = NULL; if (p->hasauthed) { } else if (p->isreverse) p->hasauthed = true; //reverse connections do not need to auth. else if (!*qtv_password.string) p->hasauthed = true; //no password, no need to auth. else if (*password) { switch (authmethod) { case QTVAM_NONE: e = ("QTVSV 1\n" "PERROR: You need to provide a common auth method.\n\n"); break; case QTVAM_PLAIN: p->hasauthed = !strcmp(qtv_password.string, password); break; case QTVAM_CCITT: QCRC_Init(&ushort_result); QCRC_AddBlock(&ushort_result, p->challenge, strlen(p->challenge)); QCRC_AddBlock(&ushort_result, qtv_password.string, strlen(qtv_password.string)); p->hasauthed = (ushort_result == strtoul(password, NULL, 0)); break; case QTVAM_MD4: { char hash[512]; int md4sum[4]; snprintf(hash, sizeof(hash), "%s%s", p->challenge, qtv_password.string); Com_BlockFullChecksum (hash, strlen(hash), (unsigned char*)md4sum); sprintf(hash, "%X%X%X%X", md4sum[0], md4sum[1], md4sum[2], md4sum[3]); p->hasauthed = !strcmp(password, hash); } break; case QTVAM_MD5: default: e = ("QTVSV 1\n" "PERROR: FTEQWSV bug detected.\n\n"); break; } if (!p->hasauthed && !e) { if (raw) e = ""; else e = ("QTVSV 1\n" "PERROR: Bad password.\n\n"); } } else { //no password, and not automagically authed switch (authmethod) { case QTVAM_NONE: if (raw) e = ""; else e = ("QTVSV 1\n" "PERROR: You need to provide a common auth method.\n\n"); break; case QTVAM_PLAIN: p->hasauthed = !strcmp(qtv_password.string, password); break; if (0) { case QTVAM_CCITT: e = ("QTVSV 1\n" "AUTH: CCITT\n" "CHALLENGE: "); } else if (0) { case QTVAM_MD4: e = ("QTVSV 1\n" "AUTH: MD4\n" "CHALLENGE: "); } else { case QTVAM_MD5: e = ("QTVSV 1\n" "AUTH: MD5\n" "CHALLENGE: "); } send(p->socket, e, strlen(e), 0); send(p->socket, p->challenge, strlen(p->challenge), 0); e = "\n\n"; send(p->socket, e, strlen(e), 0); continue; default: e = ("QTVSV 1\n" "PERROR: FTEQWSV bug detected.\n\n"); break; } } if (e) { } else if (!versiontouse) { e = ("QTVSV 1\n" "PERROR: Incompatible version (valid version is v1)\n\n"); } else if (raw) { if (p->hasauthed == false) { e = ""; } else { SV_MVD_Record(SV_InitStream(p->socket)); p->socket = INVALID_SOCKET; //so it's not cleared wrongly. } p->error = true; } else { if (p->hasauthed == true) { mvddest_t *dst; e = ("QTVSV 1\n" "BEGIN\n" "\n"); send(p->socket, e, strlen(e), 0); e = NULL; dst = SV_InitStream(p->socket); dst->droponmapchange = p->isreverse; SV_MVD_Record(dst); p->socket = INVALID_SOCKET; //so it's not cleared wrongly. } else { e = ("QTVSV 1\n" "PERROR: You need to provide a password.\n\n"); } p->error = true; } if (e) { send(p->socket, e, strlen(e), 0); p->error = true; } } } else if (len == 0) p->error = true; else { //error of some kind. would block or something int e; e = qerrno; if (e != EWOULDBLOCK) p->error = true; } } } } int DestCloseAllFlush(qboolean destroyfiles, qboolean mvdonly) { int numclosed = 0; mvddest_t *d, **prev, *next; DestFlush(true); //make sure it's all written. prev = &demo.dest; d = demo.dest; while(d) { next = d->nextdest; if (!mvdonly || d->droponmapchange) { *prev = d->nextdest; DestClose(d, destroyfiles); numclosed++; } else prev = &d->nextdest; d = next; } return numclosed; } int DemoWriteDest(void *data, int len, mvddest_t *d) { if (d->error) return 0; d->totalsize += len; switch(d->desttype) { case DEST_FILE: VFS_WRITE(d->file, data, len); break; case DEST_BUFFEREDFILE: //these write to a cache, which is flushed later case DEST_STREAM: if (d->cacheused+len > d->maxcachesize) { d->error = true; return 0; } memcpy(d->cache+d->cacheused, data, len); d->cacheused += len; break; case DEST_NONE: Sys_Error("DemoWriteDest encoundered bad dest."); } return len; } int DemoWrite(void *data, int len) //broadcast to all proxies/mvds { mvddest_t *d; for (d = demo.dest; d; d = d->nextdest) { if (singledest && singledest != d) continue; DemoWriteDest(data, len, d); } return len; } void DemoWriteQTVTimePad(int msecs) //broadcast to all proxies { mvddest_t *d; unsigned char buffer[6]; while (msecs > 0) { //duration if (msecs > 255) buffer[0] = 255; else buffer[0] = msecs; msecs -= buffer[0]; //message type buffer[1] = dem_read; //length buffer[2] = 0; buffer[3] = 0; buffer[4] = 0; buffer[5] = 0; for (d = demo.dest; d; d = d->nextdest) { if (d->desttype == DEST_STREAM) { DemoWriteDest(buffer, sizeof(buffer), d); } } } } void SV_TimeOfDay(date_t *date) { struct tm *newtime; time_t long_time; time( &long_time ); newtime = localtime( &long_time ); date->day = newtime->tm_mday; date->mon = newtime->tm_mon; date->year = newtime->tm_year + 1900; date->hour = newtime->tm_hour; date->min = newtime->tm_min; date->sec = newtime->tm_sec; strftime( date->str, 128, "%a %b %d, %H:%M:%S %Y", newtime); } // returns the file size // return -1 if file is not present // the file should be in BINARY mode for stupid OSs that care #define MAX_DIRFILES 1000 #define MAX_MVD_NAME 64 typedef struct { char name[MAX_MVD_NAME]; int size; } file_t; typedef struct { file_t *files; int size; int numfiles; int numdirs; int maxfiles; } dir_t; #define SORT_NO 0 #define SORT_BY_DATE 1 int Sys_listdirFound(const char *fname, int fsize, void *uptr) { file_t *f; dir_t *dir = uptr; fname = COM_SkipPath(fname); if (!*fname) { dir->numdirs++; return true; } if (dir->numfiles == dir->maxfiles) return true; f = &dir->files[dir->numfiles++]; Q_strncpyz(f->name, fname, sizeof(f->name)); f->size = fsize; dir->size += fsize; return true; } dir_t *Sys_listdir (char *path, char *ext, qboolean usesorting) { char searchterm[MAX_QPATH]; unsigned int maxfiles = MAX_DIRFILES; dir_t *dir = malloc(sizeof(*dir) + sizeof(*dir->files)*maxfiles); memset(dir, 0, sizeof(*dir)); dir->files = (file_t*)(dir+1); dir->maxfiles = maxfiles; Q_strncpyz(searchterm, va("%s/*%s", path, ext), sizeof(searchterm)); COM_EnumerateFiles(searchterm, Sys_listdirFound, dir); return dir; } void Sys_freedir(dir_t *dir) { free(dir); } #define MIN_MVD_MEMORY 0x100000 #define MAXSIZE (demobuffer->end < demobuffer->last ? \ demobuffer->start - demobuffer->end : \ demobuffer->maxsize - demobuffer->end) static void SV_DemoDir_Callback(struct cvar_s *var, char *oldvalue); cvar_t sv_demoUseCache = CVAR("sv_demoUseCache", ""); cvar_t sv_demoCacheSize = CVAR("sv_demoCacheSize", ""); cvar_t sv_demoMaxDirSize = CVAR("sv_demoMaxDirSize", "102400"); //so ktpro autorecords. cvar_t sv_demoDir = CVARC("sv_demoDir", "demos", SV_DemoDir_Callback); cvar_t sv_demofps = CVAR("sv_demofps", ""); cvar_t sv_demoPings = CVAR("sv_demoPings", ""); cvar_t sv_demoNoVis = CVAR("sv_demoNoVis", ""); cvar_t sv_demoMaxSize = CVAR("sv_demoMaxSize", ""); cvar_t sv_demoExtraNames = CVAR("sv_demoExtraNames", ""); cvar_t qtv_password = CVAR( "qtv_password", ""); cvar_t qtv_streamport = CVARAF( "qtv_streamport", "0", "mvd_streamport", 0); cvar_t qtv_maxstreams = CVARAF( "qtv_maxstreams", "1", "mvd_maxstreams", 0); cvar_t sv_demoPrefix = CVAR("sv_demoPrefix", ""); cvar_t sv_demoSuffix = CVAR("sv_demoSuffix", ""); cvar_t sv_demotxt = CVAR("sv_demotxt", "1"); void SV_WriteMVDMessage (sizebuf_t *msg, int type, int to, float time); demo_t demo; static dbuffer_t *demobuffer; static int header = (char *)&((header_t*)0)->data - (char *)NULL; entity_state_t demo_entities[UPDATE_MASK+1][MAX_MVDPACKET_ENTITIES]; client_frame_t demo_frames[UPDATE_MASK+1]; // only one .. is allowed (so we can get to the same dir as the quake exe) static void SV_DemoDir_Callback(struct cvar_s *var, char *oldvalue) { char *value; value = var->string; if (!value[0] || value[0] == '/' || (value[0] == '\\' && value[1] == '\\')) { Cvar_ForceSet(&sv_demoDir, "demos"); return; } if (value[0] == '.' && value[1] == '.') value += 2; if (strstr(value,"..")) { Cvar_ForceSet(&sv_demoDir, "demos"); return; } } void SV_MVDPings (void) { client_t *client; int j; for (j = 0, client = svs.clients; j < MAX_CLIENTS; j++, client++) { if (client->state != cs_spawned) continue; MVDWrite_Begin (dem_all, 0, 7); MSG_WriteByte(&demo.dbuf->sb, svc_updateping); MSG_WriteByte(&demo.dbuf->sb, j); MSG_WriteShort(&demo.dbuf->sb, SV_CalcPing(client, false)); MSG_WriteByte(&demo.dbuf->sb, svc_updatepl); MSG_WriteByte (&demo.dbuf->sb, j); MSG_WriteByte (&demo.dbuf->sb, client->lossage); } } void SV_MVD_FullClientUpdate(sizebuf_t *msg, client_t *player) { char info[MAX_INFO_STRING]; qboolean dosizes; if (!sv.mvdrecording) return; if (msg) dosizes = false; else { dosizes = true; msg = &demo.dbuf->sb; } if (dosizes) MVDWrite_Begin (dem_all, 0, 4); MSG_WriteByte (msg, svc_updatefrags); MSG_WriteByte (msg, player - svs.clients); MSG_WriteShort (msg, player->old_frags); if (dosizes) MVDWrite_Begin (dem_all, 0, 4); MSG_WriteByte (msg, svc_updateping); MSG_WriteByte (msg, player - svs.clients); MSG_WriteShort (msg, SV_CalcPing(player, false)); if (dosizes) MVDWrite_Begin (dem_all, 0, 3); MSG_WriteByte (msg, svc_updatepl); MSG_WriteByte (msg, player - svs.clients); MSG_WriteByte (msg, player->lossage); if (dosizes) MVDWrite_Begin (dem_all, 0, 6); MSG_WriteByte (msg, svc_updateentertime); MSG_WriteByte (msg, player - svs.clients); MSG_WriteFloat (msg, realtime - player->connection_started); Q_strncpyz (info, player->userinfo, MAX_INFO_STRING); Info_RemovePrefixedKeys (info, '_'); // server passwords, etc Info_RemoveKey(info, "password"); Info_RemoveKey(info, "*ip"); if (dosizes) MVDWrite_Begin (dem_all, 0, 7 + strlen(info)); MSG_WriteByte (msg, svc_updateuserinfo); MSG_WriteByte (msg, player - svs.clients); MSG_WriteLong (msg, player->userid); MSG_WriteString (msg, info); } void MVDBuffer_Init(dbuffer_t *dbuffer, qbyte *buf, size_t size) { demobuffer = dbuffer; demobuffer->data = buf; demobuffer->maxsize = size; demobuffer->start = 0; demobuffer->end = 0; demobuffer->last = 0; } /* ============== MVD_SetMsgBuf Sets the frame message buffer ============== */ void MVDSetMsgBuf(demobuf_t *prev,demobuf_t *cur) { // fix the maxsize of previous msg buffer, // we won't be able to write there anymore if (prev != NULL) prev->sb.maxsize = prev->bufsize; demo.dbuf = cur; memset(demo.dbuf, 0, sizeof(*demo.dbuf)); demo.dbuf->sb.data = demobuffer->data + demobuffer->end; demo.dbuf->sb.maxsize = MAXSIZE; demo.dbuf->sb.prim = demo.recorder.netchan.netprim; } /* ============== DemoWriteToDisk Writes to disk a message meant for specifc client or all messages if type == 0 Message is cleared from demobuf after that ============== */ void SV_MVDWriteToDisk(int type, int to, float time) { int pos = 0, oldm, oldd; header_t *p; int size; sizebuf_t msg; p = (header_t *)demo.dbuf->sb.data; demo.dbuf->h = NULL; oldm = demo.dbuf->bufsize; oldd = demobuffer->start; while (pos < demo.dbuf->bufsize) { size = p->size; pos += header + size; // no type means we are writing to disk everything if (!type || (p->type == type && p->to == to)) { if (size) { msg.data = p->data; msg.cursize = size; SV_WriteMVDMessage(&msg, p->type, p->to, time); } // data is written so it need to be cleard from demobuf if (demo.dbuf->sb.data != (qbyte*)p) memmove(demo.dbuf->sb.data + size + header, demo.dbuf->sb.data, (qbyte*)p - demo.dbuf->sb.data); demo.dbuf->bufsize -= size + header; demo.dbuf->sb.data += size + header; pos -= size + header; demo.dbuf->sb.maxsize -= size + header; demobuffer->start += size + header; } // move along p = (header_t *)(p->data + size); } if (demobuffer->start == demobuffer->last) { if (demobuffer->start == demobuffer->end) { demobuffer->end = 0; // demobuffer is empty demo.dbuf->sb.data = demobuffer->data; } // go back to begining of the buffer demobuffer->last = demobuffer->end; demobuffer->start = 0; } } /* ============== MVDSetBuf Sets position in the buf for writing to specific client ============== */ static void MVDSetBuf(qbyte type, int to) { header_t *p; int pos = 0; p = (header_t *)demo.dbuf->sb.data; while (pos < demo.dbuf->bufsize) { pos += header + p->size; if (type == p->type && to == p->to && !p->full) { demo.dbuf->sb.cursize = pos; demo.dbuf->h = p; return; } p = (header_t *)(p->data + p->size); } // type&&to not exist in the buf, so add it p->type = type; p->to = to; p->size = 0; p->full = 0; demo.dbuf->bufsize += header; demo.dbuf->sb.cursize = demo.dbuf->bufsize; demobuffer->end += header; demo.dbuf->h = p; } void MVDMoveBuf(void) { // set the last message mark to the previous frame (i/e begining of this one) demobuffer->last = demobuffer->end - demo.dbuf->bufsize; // move buffer to the begining of demo buffer memmove(demobuffer->data, demo.dbuf->sb.data, demo.dbuf->bufsize); demo.dbuf->sb.data = demobuffer->data; demobuffer->end = demo.dbuf->bufsize; demo.dbuf->h = NULL; // it will be setup again demo.dbuf->sb.maxsize = MAXSIZE + demo.dbuf->bufsize; } qboolean MVDWrite_Begin(qbyte type, int to, int size) { qbyte *p; qboolean move = false; // will it fit? while (demo.dbuf->bufsize + size + header > demo.dbuf->sb.maxsize) { // if we reached the end of buffer move msgbuf to the begining if (!move && demobuffer->end > demobuffer->start) move = true; if (!SV_MVDWritePackets(1)) return false; if (move && demobuffer->start > demo.dbuf->bufsize + header + size) MVDMoveBuf(); } if (demo.dbuf->h == NULL || demo.dbuf->h->type != type || demo.dbuf->h->to != to || demo.dbuf->h->full) { MVDSetBuf(type, to); } if (demo.dbuf->h->size + size > MAX_QWMSGLEN) { demo.dbuf->h->full = 1; MVDSetBuf(type, to); } // we have to make room for new data if (demo.dbuf->sb.cursize != demo.dbuf->bufsize) { p = demo.dbuf->sb.data + demo.dbuf->sb.cursize; memmove(p+size, p, demo.dbuf->bufsize - demo.dbuf->sb.cursize); } demo.dbuf->bufsize += size; demo.dbuf->h->size += size; if ((demobuffer->end += size) > demobuffer->last) demobuffer->last = demobuffer->end; return true; } /* ==================== SV_WriteMVDMessage Dumps the current net message, prefixed by the length and view angles ==================== */ void SV_WriteMVDMessage (sizebuf_t *msg, int type, int to, float time) { int len, i, msec; qbyte c; static double prevtime; if (!sv.mvdrecording) return; msec = (time - prevtime)*1000; prevtime += msec*0.001; if (msec > 255) msec = 255; if (msec < 2) msec = 0; c = msec; DemoWrite(&c, sizeof(c)); if (demo.lasttype != type || demo.lastto != to) { demo.lasttype = type; demo.lastto = to; switch (demo.lasttype) { case dem_all: c = dem_all; DemoWrite (&c, sizeof(c)); break; case dem_multiple: c = dem_multiple; DemoWrite (&c, sizeof(c)); i = LittleLong(demo.lastto); DemoWrite (&i, sizeof(i)); break; case dem_single: case dem_stats: c = demo.lasttype + (demo.lastto << 3); DemoWrite (&c, sizeof(c)); break; default: SV_MVDStop_f (); Con_Printf("bad demo message type:%d", type); return; } } else { c = dem_read; DemoWrite (&c, sizeof(c)); } len = LittleLong (msg->cursize); DemoWrite (&len, 4); DemoWrite (msg->data, msg->cursize); DestFlush(false); } /* ==================== SV_MVDWritePackets Interpolates to get exact players position for current frame and writes packets to the disk/memory ==================== */ float adjustangle(float current, float ideal, float fraction) { float move; move = ideal - current; if (ideal > current) { if (move >= 180) move = move - 360; } else { if (move <= -180) move = move + 360; } move *= fraction; return (current + move); } #define DF_ORIGIN 1 #define DF_ANGLES (1<<3) #define DF_EFFECTS (1<<6) #define DF_SKINNUM (1<<7) #define DF_DEAD (1<<8) #define DF_GIB (1<<9) #define DF_WEAPONFRAME (1<<10) #define DF_MODEL (1<<11) qboolean SV_MVDWritePackets (int num) { demo_frame_t *frame, *nextframe; demo_client_t *cl, *nextcl = NULL; int i, j, flags; qboolean valid; double time, playertime, nexttime; float f; vec3_t origin, angles; sizebuf_t msg; qbyte msg_buf[MAX_QWMSGLEN]; demoinfo_t *demoinfo; if (!sv.mvdrecording) return false; msg.prim = svs.netprim; msg.data = msg_buf; msg.maxsize = sizeof(msg_buf); if (num > demo.parsecount - demo.lastwritten + 1) num = demo.parsecount - demo.lastwritten + 1; // 'num' frames to write for ( ; num; num--, demo.lastwritten++) { frame = &demo.frames[demo.lastwritten&DEMO_FRAMES_MASK]; time = frame->time; nextframe = frame; msg.cursize = 0; demo.dbuf = &frame->buf; // find two frames // one before the exact time (time - msec) and one after, // then we can interpolte exact position for current frame for (i = 0, cl = frame->clients, demoinfo = demo.info; i < MAX_CLIENTS; i++, cl++, demoinfo++) { if (cl->parsecount != demo.lastwritten) continue; // not valid nexttime = playertime = time - cl->sec; for (j = demo.lastwritten+1, valid = false; nexttime < time && j < demo.parsecount; j++) { nextframe = &demo.frames[j&DEMO_FRAMES_MASK]; nextcl = &nextframe->clients[i]; if (nextcl->parsecount != j) break; // disconnected? if (nextcl->fixangle) break; // respawned, or walked into teleport, do not interpolate! if (!(nextcl->flags & DF_DEAD) && (cl->flags & DF_DEAD)) break; // respawned, do not interpolate nexttime = nextframe->time - nextcl->sec; if (nexttime >= time) { // good, found what we were looking for valid = true; break; } } if (valid) { f = (time - nexttime)/(nexttime - playertime); for (j=0;j<3;j++) { angles[j] = adjustangle(cl->info.angles[j], nextcl->info.angles[j],1.0+f); origin[j] = nextcl->info.origin[j] + f*(nextcl->info.origin[j]-cl->info.origin[j]); } } else { VectorCopy(cl->info.origin, origin); VectorCopy(cl->info.angles, angles); } // now write it to buf flags = cl->flags; if (cl->fixangle) { demo.fixangletime[i] = cl->cmdtime; } for (j=0; j < 3; j++) if (origin[j] != demoinfo->origin[i]) flags |= DF_ORIGIN << j; if (cl->fixangle || demo.fixangletime[i] != cl->cmdtime) { for (j=0; j < 3; j++) if (angles[j] != demoinfo->angles[j]) flags |= DF_ANGLES << j; } if (cl->info.model != demoinfo->model) flags |= DF_MODEL; if (cl->info.effects != demoinfo->effects) flags |= DF_EFFECTS; if (cl->info.skinnum != demoinfo->skinnum) flags |= DF_SKINNUM; if (cl->info.weaponframe != demoinfo->weaponframe) flags |= DF_WEAPONFRAME; MSG_WriteByte (&msg, svc_playerinfo); MSG_WriteByte (&msg, i); MSG_WriteShort (&msg, flags); MSG_WriteByte (&msg, cl->frame); for (j=0 ; j<3 ; j++) if (flags & (DF_ORIGIN << j)) MSG_WriteCoord (&msg, origin[j]); for (j=0 ; j<3 ; j++) if (flags & (DF_ANGLES << j)) MSG_WriteAngle16 (&msg, angles[j]); if (flags & DF_MODEL) MSG_WriteByte (&msg, cl->info.model); if (flags & DF_SKINNUM) MSG_WriteByte (&msg, cl->info.skinnum); if (flags & DF_EFFECTS) MSG_WriteByte (&msg, cl->info.effects); if (flags & DF_WEAPONFRAME) MSG_WriteByte (&msg, cl->info.weaponframe); VectorCopy(cl->info.origin, demoinfo->origin); VectorCopy(cl->info.angles, demoinfo->angles); demoinfo->skinnum = cl->info.skinnum; demoinfo->effects = cl->info.effects; demoinfo->weaponframe = cl->info.weaponframe; demoinfo->model = cl->info.model; } SV_MVDWriteToDisk(demo.lasttype,demo.lastto, (float)time); // this goes first to reduce demo size a bit SV_MVDWriteToDisk(0,0, (float)time); // now goes the rest if (msg.cursize) SV_WriteMVDMessage(&msg, dem_all, 0, (float)time); /* The above functions can set this variable to false, but that's a really bad thing. Let's try to fix it. */ if (!sv.mvdrecording) return false; } if (demo.lastwritten > demo.parsecount) demo.lastwritten = demo.parsecount; demo.dbuf = &demo.frames[demo.parsecount&DEMO_FRAMES_MASK].buf; demo.dbuf->sb.maxsize = MAXSIZE + demo.dbuf->bufsize; return true; } extern char readable[256]; #define chartbl readable void MVD_Init (void) { #define MVDVARGROUP "Server MVD cvars" Cvar_Register (&sv_demofps, MVDVARGROUP); Cvar_Register (&sv_demoPings, MVDVARGROUP); Cvar_Register (&sv_demoNoVis, MVDVARGROUP); Cvar_Register (&sv_demoUseCache, MVDVARGROUP); Cvar_Register (&sv_demoCacheSize, MVDVARGROUP); Cvar_Register (&sv_demoMaxSize, MVDVARGROUP); Cvar_Register (&sv_demoMaxDirSize, MVDVARGROUP); Cvar_Register (&sv_demoDir, MVDVARGROUP); Cvar_Register (&sv_demoPrefix, MVDVARGROUP); Cvar_Register (&sv_demoSuffix, MVDVARGROUP); Cvar_Register (&sv_demotxt, MVDVARGROUP); Cvar_Register (&sv_demoExtraNames, MVDVARGROUP); } static char *SV_PrintTeams(void) { char *teams[MAX_CLIENTS]; // char *p; int i, j, numcl = 0, numt = 0; client_t *clients[MAX_CLIENTS]; char buf[2048] = {0}; extern cvar_t teamplay; // extern char chartbl2[]; // count teams and players for (i=0; i < MAX_CLIENTS; i++) { if (svs.clients[i].state != cs_spawned) continue; if (svs.clients[i].spectator) continue; clients[numcl++] = &svs.clients[i]; for (j = 0; j < numt; j++) if (!strcmp(Info_ValueForKey(svs.clients[i].userinfo, "team"), teams[j])) break; if (j != numt) continue; teams[numt++] = Info_ValueForKey(svs.clients[i].userinfo, "team"); } // create output if (numcl == 2) // duel { snprintf(buf, sizeof(buf), "team1 %s\nteam2 %s\n", clients[0]->name, clients[1]->name); } else if (!teamplay.value) // ffa { snprintf(buf, sizeof(buf), "players:\n"); for (i = 0; i < numcl; i++) snprintf(buf + strlen(buf), sizeof(buf) - strlen(buf), " %s\n", clients[i]->name); } else { // teamplay for (j = 0; j < numt; j++) { snprintf(buf + strlen(buf), sizeof(buf) - strlen(buf), "team %s:\n", teams[j]); for (i = 0; i < numcl; i++) if (!strcmp(Info_ValueForKey(clients[i]->userinfo, "team"), teams[j])) snprintf(buf + strlen(buf), sizeof(buf) - strlen(buf), " %s\n", clients[i]->name); } } if (!numcl) return "\n"; // for (p = buf; *p; p++) *p = chartbl2[(qbyte)*p]; return va("%s",buf); } /* ==================== SV_InitRecord ==================== */ mvddest_t *SV_InitRecordFile (char *name) { char *s; mvddest_t *dst; vfsfile_t *file; char path[MAX_OSPATH]; file = FS_OpenVFS (name, "wb", FS_GAMEONLY); if (!file) { Con_Printf ("ERROR: couldn't open \"%s\"\n", name); return NULL; } dst = Z_Malloc(sizeof(mvddest_t)); if (!sv_demoUseCache.value) { dst->desttype = DEST_FILE; dst->file = file; dst->maxcachesize = 0; } else { dst->desttype = DEST_BUFFEREDFILE; dst->file = file; dst->maxcachesize = 0x81000; dst->cache = BZ_Malloc(dst->maxcachesize); } dst->droponmapchange = true; s = name + strlen(name); while (*s != '/') s--; Q_strncpyz(dst->name, s+1, sizeof(dst->name)); Q_strncpyz(dst->path, sv_demoDir.string, sizeof(dst->path)); if (!*demo.path) Q_strncpyz(demo.path, ".", MAX_OSPATH); SV_BroadcastPrintf (PRINT_CHAT, "Server starts recording (%s):\n%s\n", (dst->desttype == DEST_BUFFEREDFILE) ? "memory" : "disk", name); Cvar_ForceSet(Cvar_Get("serverdemo", "", CVAR_NOSET, ""), demo.name); Q_strncpyz(path, name, MAX_OSPATH); Q_strncpyz(path + strlen(path) - 3, "txt", MAX_OSPATH - strlen(path) + 3); if (sv_demotxt.value) { vfsfile_t *f; f = FS_OpenVFS (path, "wt", FS_GAMEONLY); if (f != NULL) { char buf[2000]; date_t date; SV_TimeOfDay(&date); snprintf(buf, sizeof(buf), "date %s\nmap %s\nteamplay %d\ndeathmatch %d\ntimelimit %d\n%s",date.str, sv.name, (int)teamplay.value, (int)deathmatch.value, (int)timelimit.value, SV_PrintTeams()); VFS_WRITE(f, buf, strlen(buf)); VFS_FLUSH(f); VFS_CLOSE(f); } } else FS_Remove(path, FS_GAMEONLY); FS_FlushFSHash(); return dst; } mvddest_t *SV_InitStream(int socket) { mvddest_t *dst; dst = Z_Malloc(sizeof(mvddest_t)); dst->desttype = DEST_STREAM; dst->socket = socket; dst->maxcachesize = 0x8000; //is this too small? dst->cache = BZ_Malloc(dst->maxcachesize); dst->droponmapchange = false; SV_BroadcastPrintf (PRINT_CHAT, "Smile, you're on QTV!\n"); return dst; } mvdpendingdest_t *SV_MVD_InitPendingStream(int socket, char *ip) { mvdpendingdest_t *dst; int i; dst = Z_Malloc(sizeof(mvdpendingdest_t)); dst->socket = socket; Q_strncpyz(dst->challenge, ip, sizeof(dst->challenge)); for (i = strlen(dst->challenge); i < sizeof(dst->challenge)-1; i++) dst->challenge[i] = rand()%(127-33) + 33; //generate a random challenge dst->nextdest = demo.pendingdest; demo.pendingdest = dst; return dst; } /* ==================== SV_Stop stop recording a demo ==================== */ void SV_MVDStop (int reason, qboolean mvdonly) { int numclosed; if (!sv.mvdrecording) { Con_Printf ("Not recording a demo.\n"); return; } if (reason == 2 || reason == 3) { DestCloseAllFlush(true, mvdonly); // stop and remove if (!demo.dest) sv.mvdrecording = false; if (reason == 3) SV_BroadcastPrintf (PRINT_CHAT, "QTV disconnected\n"); else SV_BroadcastPrintf (PRINT_CHAT, "Server recording canceled, demo removed\n"); Cvar_ForceSet(Cvar_Get("serverdemo", "", CVAR_NOSET, ""), ""); return; } // write a disconnect message to the demo file // clearup to be sure message will fit demo.dbuf->sb.cursize = 0; demo.dbuf->h = NULL; demo.dbuf->bufsize = 0; MVDWrite_Begin(dem_all, 0, 2+strlen("EndOfDemo")); MSG_WriteByte (&demo.dbuf->sb, svc_disconnect); MSG_WriteString (&demo.dbuf->sb, "EndOfDemo"); SV_MVDWritePackets(demo.parsecount - demo.lastwritten + 1); // finish up numclosed = DestCloseAllFlush(false, mvdonly); if (!demo.dest) sv.mvdrecording = false; if (numclosed) { if (!reason) SV_BroadcastPrintf (PRINT_CHAT, "Server recording completed\n"); else SV_BroadcastPrintf (PRINT_CHAT, "Server recording stoped\nMax demo size exceeded\n"); } Cvar_ForceSet(Cvar_Get("serverdemo", "", CVAR_NOSET, ""), ""); } /* ==================== SV_Stop_f ==================== */ void SV_MVDStop_f (void) { SV_MVDStop(0, true); } /* ==================== SV_Cancel_f Stops recording, and removes the demo ==================== */ void SV_MVD_Cancel_f (void) { SV_MVDStop(2, true); } /* ==================== SV_WriteMVDMessage Dumps the current net message, prefixed by the length and view angles ==================== */ void SV_WriteRecordMVDMessage (sizebuf_t *msg, int seq) { int len; qbyte c; if (!sv.mvdrecording) return; if (!msg->cursize) return; c = 0; DemoWrite (&c, sizeof(c)); c = dem_read; DemoWrite (&c, sizeof(c)); len = LittleLong (msg->cursize); DemoWrite (&len, 4); DemoWrite (msg->data, msg->cursize); DestFlush(false); } void SV_WriteSetMVDMessage (void) { int len; qbyte c; //Con_Printf("write: %ld bytes, %4.4f\n", msg->cursize, realtime); if (!sv.mvdrecording) return; c = 0; DemoWrite (&c, sizeof(c)); c = dem_set; DemoWrite (&c, sizeof(c)); len = LittleLong(0); DemoWrite (&len, 4); len = LittleLong(0); DemoWrite (&len, 4); DestFlush(false); } void SV_MVD_SendInitialGamestate(mvddest_t *dest); static qboolean SV_MVD_Record (mvddest_t *dest) { /* sizebuf_t buf; char buf_data[MAX_QWMSGLEN]; int n, i; char *s, info[MAX_INFO_STRING]; client_t *player; char *gamedir; int seq = 1; */ int i; if (!dest) return false; DestFlush(true); if (!sv.mvdrecording) { memset(&demo, 0, sizeof(demo)); demo.recorder.frameunion.frames = demo_frames; demo.recorder.protocol = SCP_QUAKEWORLD; demo.recorder.netchan.netprim = sv.datagram.prim; for (i = 0; i < UPDATE_BACKUP; i++) { demo.recorder.frameunion.frames[i].entities.max_entities = MAX_MVDPACKET_ENTITIES; demo.recorder.frameunion.frames[i].entities.entities = demo_entities[i]; } demo.recorder.max_net_ents = MAX_MVDPACKET_ENTITIES; MVDBuffer_Init(&demo.dbuffer, demo.buffer, sizeof(demo.buffer)); MVDSetMsgBuf(NULL, &demo.frames[0].buf); demo.datagram.maxsize = sizeof(demo.datagram_data); demo.datagram.data = demo.datagram_data; demo.datagram.prim = demo.recorder.netchan.netprim; } // else // SV_WriteRecordMVDMessage(&buf, dem_read); dest->nextdest = demo.dest; demo.dest = dest; SV_MVD_SendInitialGamestate(dest); return true; } void SV_MVD_SendInitialGamestate(mvddest_t *dest) { sizebuf_t buf; char buf_data[MAX_QWMSGLEN]; int n, i; char *s; client_t *player; char *gamedir; int seq = 1; if (!demo.dest) return; sv.mvdrecording = true; demo.pingtime = demo.time = sv.time; singledest = dest; /*-------------------------------------------------*/ // serverdata // send the info about the new client to all connected clients memset(&buf, 0, sizeof(buf)); buf.data = buf_data; buf.maxsize = sizeof(buf_data); buf.prim = svs.netprim; // send the serverdata gamedir = Info_ValueForKey (svs.info, "*gamedir"); if (!gamedir[0]) gamedir = "qw"; MSG_WriteByte (&buf, svc_serverdata); if (buf.prim.coordsize == 4) //sorry. { MSG_WriteLong (&buf, PROTOCOL_VERSION_FTE); MSG_WriteLong (&buf, PEXT_FLOATCOORDS); } MSG_WriteLong (&buf, PROTOCOL_VERSION_QW); MSG_WriteLong (&buf, svs.spawncount); MSG_WriteString (&buf, gamedir); MSG_WriteFloat (&buf, sv.time); // send full levelname MSG_WriteString (&buf, sv.mapname); // send the movevars MSG_WriteFloat(&buf, movevars.gravity); MSG_WriteFloat(&buf, movevars.stopspeed); MSG_WriteFloat(&buf, movevars.maxspeed); MSG_WriteFloat(&buf, movevars.spectatormaxspeed); MSG_WriteFloat(&buf, movevars.accelerate); MSG_WriteFloat(&buf, movevars.airaccelerate); MSG_WriteFloat(&buf, movevars.wateraccelerate); MSG_WriteFloat(&buf, movevars.friction); MSG_WriteFloat(&buf, movevars.waterfriction); MSG_WriteFloat(&buf, movevars.entgravity); // send music MSG_WriteByte (&buf, svc_cdtrack); MSG_WriteByte (&buf, 0); // none in demos // send server info string MSG_WriteByte (&buf, svc_stufftext); MSG_WriteString (&buf, va("fullserverinfo \"%s\"\n", svs.info) ); // flush packet SV_WriteRecordMVDMessage (&buf, seq++); SZ_Clear (&buf); // soundlist MSG_WriteByte (&buf, svc_soundlist); MSG_WriteByte (&buf, 0); n = 0; s = sv.strings.sound_precache[n+1]; while (*s) { MSG_WriteString (&buf, s); if (buf.cursize > MAX_QWMSGLEN/2) { MSG_WriteByte (&buf, 0); MSG_WriteByte (&buf, n); SV_WriteRecordMVDMessage (&buf, seq++); SZ_Clear (&buf); MSG_WriteByte (&buf, svc_soundlist); MSG_WriteByte (&buf, n + 1); } n++; s = sv.strings.sound_precache[n+1]; } if (buf.cursize) { MSG_WriteByte (&buf, 0); MSG_WriteByte (&buf, 0); SV_WriteRecordMVDMessage (&buf, seq++); SZ_Clear (&buf); } // modellist MSG_WriteByte (&buf, svc_modellist); MSG_WriteByte (&buf, 0); n = 0; s = sv.strings.model_precache[n+1]; while (s) { MSG_WriteString (&buf, s); if (buf.cursize > MAX_QWMSGLEN/2) { MSG_WriteByte (&buf, 0); MSG_WriteByte (&buf, n); SV_WriteRecordMVDMessage (&buf, seq++); SZ_Clear (&buf); MSG_WriteByte (&buf, svc_modellist); MSG_WriteByte (&buf, n + 1); } n++; s = sv.strings.model_precache[n+1]; } if (buf.cursize) { MSG_WriteByte (&buf, 0); MSG_WriteByte (&buf, 0); SV_WriteRecordMVDMessage (&buf, seq++); SZ_Clear (&buf); } // baselines { entity_state_t from; edict_t *ent; entity_state_t *state; memset(&from, 0, sizeof(from)); for (n = 0; n < sv.world.num_edicts; n++) { ent = EDICT_NUM(svprogfuncs, n); state = &ent->baseline; if (!state->number || !state->modelindex) { //ent doesn't have a baseline continue; } if (!ent) { MSG_WriteByte(&buf, svc_spawnbaseline); MSG_WriteShort (&buf, n); MSG_WriteByte (&buf, 0); MSG_WriteByte (&buf, 0); MSG_WriteByte (&buf, 0); MSG_WriteByte (&buf, 0); for (i=0 ; i<3 ; i++) { MSG_WriteCoord(&buf, 0); MSG_WriteAngle(&buf, 0); } } /* else if (host_client->fteprotocolextensions & PEXT_SPAWNSTATIC2) { MSG_WriteByte(&buf, svc_spawnbaseline2); SV_WriteDelta(&from, state, &buf, true, host_client->fteprotocolextensions); }*/ else { MSG_WriteByte(&buf, svc_spawnbaseline); MSG_WriteShort (&buf, n); MSG_WriteByte (&buf, state->modelindex&255); MSG_WriteByte (&buf, state->frame); MSG_WriteByte (&buf, (int)state->colormap); MSG_WriteByte (&buf, (int)state->skinnum); for (i=0 ; i<3 ; i++) { MSG_WriteCoord(&buf, state->origin[i]); MSG_WriteAngle(&buf, state->angles[i]); } } if (buf.cursize > MAX_QWMSGLEN/2) { SV_WriteRecordMVDMessage (&buf, seq++); SZ_Clear (&buf); } } } //prespawn for (n = 0; n < sv.num_signon_buffers; n++) { if (buf.cursize+sv.signon_buffer_size[n] > MAX_QWMSGLEN/2) { SV_WriteRecordMVDMessage (&buf, seq++); SZ_Clear (&buf); } SZ_Write (&buf, sv.signon_buffers[n], sv.signon_buffer_size[n]); } if (buf.cursize > MAX_QWMSGLEN/2) { SV_WriteRecordMVDMessage (&buf, seq++); SZ_Clear (&buf); } MSG_WriteByte (&buf, svc_stufftext); MSG_WriteString (&buf, va("cmd spawn %i\n",svs.spawncount) ); if (buf.cursize) { SV_WriteRecordMVDMessage (&buf, seq++); SZ_Clear (&buf); } // send current status of all other players for (i = 0; i < MAX_CLIENTS; i++) { player = svs.clients + i; SV_MVD_FullClientUpdate(&buf, player); if (buf.cursize > MAX_QWMSGLEN/2) { SV_WriteRecordMVDMessage (&buf, seq++); SZ_Clear (&buf); } } // send all current light styles for (i=0 ; i ==================== */ void SV_MVD_Record_f (void) { int c; char name[MAX_OSPATH+MAX_MVD_NAME]; char newname[MAX_MVD_NAME]; dir_t *dir; c = Cmd_Argc(); if (c != 2) { Con_Printf ("mvdrecord \n"); return; } if (sv.state != ss_active){ Con_Printf ("Not active yet.\n"); return; } dir = Sys_listdir(sv_demoDir.string, ".*", SORT_NO); if (sv_demoMaxDirSize.value && dir->size > sv_demoMaxDirSize.value*1024) { Con_Printf("insufficient directory space, increase sv_demoMaxDirSize\n"); Sys_freedir(dir); return; } Sys_freedir(dir); dir = NULL; Q_strncpyz(newname, va("%s%s", sv_demoPrefix.string, SV_CleanName(Cmd_Argv(1))), sizeof(newname) - strlen(sv_demoSuffix.string) - 5); Q_strncatz(newname, sv_demoSuffix.string, MAX_MVD_NAME); snprintf (name, MAX_OSPATH+MAX_MVD_NAME, "%s/%s", sv_demoDir.string, newname); COM_StripExtension(name, name, sizeof(name)); COM_DefaultExtension(name, ".mvd", sizeof(name)); FS_CreatePath (name, FS_GAMEONLY); // // open the demo file and start recording // SV_MVD_Record (SV_InitRecordFile(name)); } void SV_MVD_QTVReverse_f (void) { char *ip; if (sv.state != ss_active) { Con_Printf ("Server is not running\n"); return; } if (Cmd_Argc() != 2) { Con_Printf ("%s ip:port\n", Cmd_Argv(0)); return; } ip = Cmd_Argv(1); { char *data; int sock; struct sockaddr_in local; struct sockaddr_qstorage remote; // int fromlen; unsigned int nonblocking = true; if (!NET_StringToSockaddr(ip, &remote)) { Con_Printf ("qtvreverse: failed to resolve address\n"); return; } local.sin_family = AF_INET; local.sin_addr.s_addr = INADDR_ANY; local.sin_port = 0; if ((sock = socket (PF_INET, SOCK_STREAM, IPPROTO_TCP)) == INVALID_SOCKET) { Con_Printf ("qtvreverse: socket: %s\n", strerror(qerrno)); return; } if( bind (sock, (void *)&local, sizeof(local)) == INVALID_SOCKET) { closesocket(sock); Con_Printf ("qtvreverse: bind: %s\n", strerror(qerrno)); return; } if (connect(sock, (void*)&remote, sizeof(remote)) == INVALID_SOCKET) { closesocket(sock); Con_Printf ("qtvreverse: connect: %s\n", strerror(qerrno)); return; } if (ioctlsocket (sock, FIONBIO, (u_long *)&nonblocking) == INVALID_SOCKET) { closesocket(sock); Con_Printf ("qtvreverse: ioctl FIONBIO: %s\n", strerror(qerrno)); return; } data = "QTV\n" "REVERSE\n" "\n"; if (send(sock, data, strlen(data), 0) == INVALID_SOCKET) { closesocket(sock); Con_Printf ("qtvreverse: send: %s\n", strerror(qerrno)); return; } SV_MVD_InitPendingStream(sock, ip)->isreverse = true; } //SV_MVD_Record (dest); } /* ==================== SV_EasyRecord_f easyrecord [demoname] ==================== */ int Dem_CountPlayers () { int i, count; count = 0; for (i = 0; i < MAX_CLIENTS ; i++) { if (svs.clients[i].name[0] && !svs.clients[i].spectator) count++; } return count; } char *Dem_Team(int num) { int i; static char *lastteam[2]; qboolean first = true; client_t *client; static int index = 0; index = 1 - index; for (i = 0, client = svs.clients; num && i < MAX_CLIENTS; i++, client++) { if (!client->name[0] || client->spectator) continue; if (first || strcmp(lastteam[index], Info_ValueForKey(client->userinfo, "team"))) { first = false; num--; lastteam[index] = Info_ValueForKey(client->userinfo, "team"); } } if (num) return ""; return lastteam[index]; } char *Dem_PlayerName(int num) { int i; client_t *client; for (i = 0, client = svs.clients; i < MAX_CLIENTS; i++, client++) { if (!client->name[0] || client->spectator) continue; if (!--num) return client->name; } return ""; } // -> scream char *Dem_PlayerNameTeam(char *t) { int i; client_t *client; static char n[1024]; int sep; n[0] = 0; sep = 0; for (i = 0, client = svs.clients; i < MAX_CLIENTS; i++, client++) { if (!client->name[0] || client->spectator) continue; if (strcmp(t, Info_ValueForKey(client->userinfo, "team"))==0) { if (sep >= 1) Q_strncatz (n, "_", sizeof(n)); // snprintf (n, sizeof(n), "%s_", n); Q_strncatz (n, client->name, sizeof(n)); // snprintf (n, sizeof(n),"%s%s", n, client->name); sep++; } } return n; } int Dem_CountTeamPlayers (char *t) { int i, count; count = 0; for (i = 0; i < MAX_CLIENTS ; i++) { if (svs.clients[i].name[0] && !svs.clients[i].spectator) if (strcmp(Info_ValueForKey(svs.clients[i].userinfo, "team"), t)==0) count++; } return count; } // <- void SV_MVDEasyRecord_f (void) { int c; dir_t *dir; char name[1024]; char name2[MAX_OSPATH*7]; // scream //char name2[MAX_OSPATH*2]; int i; vfsfile_t *f; c = Cmd_Argc(); if (c > 2) { Con_Printf ("easyrecord [demoname]\n"); return; } if (sv.state < ss_active) { Con_Printf("Server isn't running or is still loading\n"); return; } dir = Sys_listdir(sv_demoDir.string, ".*", SORT_NO); if (sv_demoMaxDirSize.value && dir->size > sv_demoMaxDirSize.value*1024) { Con_Printf("insufficient directory space, increase sv_demoMaxDirSize\n"); Sys_freedir(dir); return; } Sys_freedir(dir); if (c == 2) Q_strncpyz (name, Cmd_Argv(1), sizeof(name)); else { i = Dem_CountPlayers(); if (teamplay.value >= 1 && i > 2) { // Teamplay snprintf (name, sizeof(name), "%don%d_", Dem_CountTeamPlayers(Dem_Team(1)), Dem_CountTeamPlayers(Dem_Team(2))); if (sv_demoExtraNames.value > 0) { Q_strncatz (name, va("[%s]_%s_vs_[%s]_%s_%s", Dem_Team(1), Dem_PlayerNameTeam(Dem_Team(1)), Dem_Team(2), Dem_PlayerNameTeam(Dem_Team(2)), sv.name), sizeof(name)); } else Q_strncatz (name, va("%s_vs_%s_%s", Dem_Team(1), Dem_Team(2), sv.name), sizeof(name)); } else { if (i == 2) { // Duel snprintf (name, sizeof(name), "duel_%s_vs_%s_%s", Dem_PlayerName(1), Dem_PlayerName(2), sv.name); } else { // FFA snprintf (name, sizeof(name), "ffa_%s(%d)", sv.name, i); } } } // <- // Make sure the filename doesn't contain illegal characters Q_strncpyz(name, va("%s%s", sv_demoPrefix.string, SV_CleanName(name)), MAX_MVD_NAME - strlen(sv_demoSuffix.string) - 7); Q_strncatz(name, sv_demoSuffix.string, sizeof(name)); Q_strncpyz(name, va("%s/%s", sv_demoDir.string, name), sizeof(name)); // find a filename that doesn't exist yet Q_strncpyz(name2, name, sizeof(name2)); // COM_StripExtension(name2, name2); FS_CreatePath (name2, FS_GAMEONLY); strcat (name2, ".mvd"); if ((f = FS_OpenVFS(name2, "rb", FS_GAMEONLY)) == 0) f = FS_OpenVFS(va("%s.gz", name2), "rb", FS_GAMEONLY); if (f) { i = 1; do { VFS_CLOSE (f); snprintf(name2, sizeof(name2), "%s_%02i", name, i); // COM_StripExtension(name2, name2); strcat (name2, ".mvd"); if ((f = FS_OpenVFS (name2, "rb", FS_GAMEONLY)) == 0) f = FS_OpenVFS(va("%s.gz", name2), "rb", FS_GAMEONLY); i++; } while (f); } SV_MVD_Record (SV_InitRecordFile(name2)); } int MVD_StreamStartListening(int port) { int sock; struct sockaddr_in address; // int fromlen; unsigned int nonblocking = true; address.sin_family = AF_INET; address.sin_addr.s_addr = INADDR_ANY; address.sin_port = htons((u_short)port); if ((sock = socket (PF_INET, SOCK_STREAM, IPPROTO_TCP)) == INVALID_SOCKET) { Sys_Error ("MVD_StreamStartListening: socket: %s", strerror(qerrno)); } if (ioctlsocket (sock, FIONBIO, (u_long *)&nonblocking) == INVALID_SOCKET) { Sys_Error ("FTP_TCP_OpenSocket: ioctl FIONBIO: %s", strerror(qerrno)); } if( bind (sock, (void *)&address, sizeof(address)) == INVALID_SOCKET) { closesocket(sock); return INVALID_SOCKET; } listen(sock, 2); return sock; } void SV_MVDStream_Poll(void) { static int listensocket=INVALID_SOCKET; static int listenport; int _true = true; int client; netadr_t na; struct sockaddr_qstorage addr; int addrlen; int count; qboolean wanted; mvddest_t *dest; char *ip; char adrbuf[MAX_ADR_SIZE]; if (!sv.state || !qtv_streamport.ival) wanted = false; else if (listenport && qtv_streamport.ival != listenport) //easy way to switch... disable for a frame. :) { listenport = qtv_streamport.ival; wanted = false; } else { listenport = qtv_streamport.ival; wanted = true; } if (wanted && listensocket==INVALID_SOCKET) { listensocket = MVD_StreamStartListening(listenport); if (listensocket==INVALID_SOCKET && qtv_streamport.modified) { Con_Printf("Cannot open TCP port %i for QTV\n", listenport); qtv_streamport.modified = false; } } else if (!wanted && listensocket!=INVALID_SOCKET) { closesocket(listensocket); listensocket = INVALID_SOCKET; return; } if (listensocket==INVALID_SOCKET) return; addrlen = sizeof(addr); client = accept(listensocket, (struct sockaddr *)&addr, &addrlen); if (client == INVALID_SOCKET) return; ioctlsocket(client, FIONBIO, (u_long *)&_true); if (qtv_maxstreams.value > 0) { count = 0; for (dest = demo.dest; dest; dest = dest->nextdest) { if (dest->desttype == DEST_STREAM) { count++; } } if (count > qtv_maxstreams.value) { //sorry char *goawaymessage = "QTVSV 1\nTERROR: This server enforces a limit on the number of proxies connected at any one time. Please try again later\n\n"; send(client, goawaymessage, strlen(goawaymessage), 0); closesocket(client); return; } } SockadrToNetadr(&addr, &na); ip = NET_AdrToString(adrbuf, sizeof(adrbuf), na); Con_Printf("MVD streaming client attempting to connect from %s\n", ip); SV_MVD_InitPendingStream(client, ip); // SV_MVD_Record (SV_InitStream(client)); } void SV_MVDList_f (void) { mvddest_t *d; dir_t *dir; file_t *list; float f; int i,j,show; Con_Printf("content of %s/*.mvd\n", sv_demoDir.string); dir = Sys_listdir(sv_demoDir.string, ".mvd", SORT_BY_DATE); list = dir->files; if (!list->name[0]) { Con_Printf("no demos\n"); } for (i = 1; i <= dir->numfiles; i++, list++) { for (j = 1; j < Cmd_Argc(); j++) if (strstr(list->name, Cmd_Argv(j)) == NULL) break; show = Cmd_Argc() == j; if (show) { for (d = demo.dest; d; d = d->nextdest) { if (!strcmp(list->name, d->name)) Con_Printf("*%d: %s %dk\n", i, list->name, d->totalsize/1024); } if (!d) Con_Printf("%d: %s %dk\n", i, list->name, list->size/1024); } } for (d = demo.dest; d; d = d->nextdest) dir->size += d->totalsize; Con_Printf("\ndirectory size: %.1fMB\n",(float)dir->size/(1024*1024)); if (sv_demoMaxDirSize.value) { f = (sv_demoMaxDirSize.value*1024 - dir->size)/(1024*1024); if ( f < 0) f = 0; Con_Printf("space available: %.1fMB\n", f); } Sys_freedir(dir); } void SV_UserCmdMVDList_f (void) { mvddest_t *d; dir_t *dir; file_t *list; float f; int i,j,show; SV_ClientPrintf(host_client, PRINT_HIGH, "available demos:\n"); dir = Sys_listdir(sv_demoDir.string, ".mvd", SORT_BY_DATE); list = dir->files; if (!list->name[0]) { SV_ClientPrintf(host_client, PRINT_HIGH, "no demos\n"); } for (i = 1; i <= dir->numfiles; i++, list++) { for (j = 1; j < Cmd_Argc(); j++) if (strstr(list->name, Cmd_Argv(j)) == NULL) break; show = Cmd_Argc() == j; if (show) { for (d = demo.dest; d; d = d->nextdest) { if (!strcmp(list->name, d->name)) SV_ClientPrintf(host_client, PRINT_HIGH, "*%d: %s %dk\n", i, list->name, d->totalsize/1024); } if (!d) SV_ClientPrintf(host_client, PRINT_HIGH, "%d: %s %dk\n", i, list->name, list->size/1024); } } for (d = demo.dest; d; d = d->nextdest) dir->size += d->totalsize; SV_ClientPrintf(host_client, PRINT_HIGH, "\ndirectory size: %.1fMB\n",(float)dir->size/(1024*1024)); if (sv_demoMaxDirSize.value) { f = (sv_demoMaxDirSize.value*1024 - dir->size)/(1024*1024); if ( f < 0) f = 0; SV_ClientPrintf(host_client, PRINT_HIGH, "space available: %.1fMB\n", f); } Sys_freedir(dir); } char *SV_MVDNum(char *buffer, int bufferlen, int num) { file_t *list; dir_t *dir; dir = Sys_listdir(sv_demoDir.string, ".mvd", SORT_BY_DATE); list = dir->files; if (num > dir->numfiles || num <= 0) { Sys_freedir(dir); return NULL; } num--; list += num; Q_strncpyz(buffer, list->name, bufferlen); Sys_freedir(dir); return buffer; } char *SV_MVDName2Txt(char *name) { char s[MAX_OSPATH]; if (!name) return NULL; Q_strncpyz(s, name, MAX_OSPATH); if (strstr(s, ".mvd.gz") != NULL) Q_strncpyz(s + strlen(s) - 6, "txt", MAX_OSPATH - strlen(s) + 6); else Q_strncpyz(s + strlen(s) - 3, "txt", MAX_OSPATH - strlen(s) + 3); return va("%s", s); } char *SV_MVDTxTNum(char *buffer, int bufferlen, int num) { return SV_MVDName2Txt(SV_MVDNum(buffer, bufferlen, num)); } void SV_MVDRemove_f (void) { char name[MAX_MVD_NAME], *ptr; char path[MAX_OSPATH]; int i; if (Cmd_Argc() != 2) { Con_Printf("rmdemo - removes the demo\nrmdemo * - removes demo with in the name\nrmdemo * - removes all demos\n"); return; } ptr = Cmd_Argv(1); if (*ptr == '*') { dir_t *dir; file_t *list; // remove all demos with specified token ptr++; dir = Sys_listdir(sv_demoDir.string, ".mvd", SORT_BY_DATE); list = dir->files; for (i = 0;i < dir->numfiles; list++) { if (strstr(list->name, ptr)) { if (sv.mvdrecording && !strcmp(list->name, demo.name)) SV_MVDStop_f(); // stop recording first; snprintf(path, MAX_OSPATH, "%s/%s", sv_demoDir.string, list->name); if (!FS_Remove(path, FS_GAMEONLY)) { Con_Printf("removing %s...\n", list->name); i++; } FS_Remove(SV_MVDName2Txt(path), FS_GAMEONLY); } } Sys_freedir(dir); if (i) { Con_Printf("%d demos removed\n", i); } else { Con_Printf("no matching found\n"); } return; } Q_strncpyz(name, Cmd_Argv(1), MAX_MVD_NAME); COM_DefaultExtension(name, ".mvd", sizeof(name)); snprintf(path, MAX_OSPATH, "%s/%s", sv_demoDir.string, name); if (sv.mvdrecording && !strcmp(name, demo.name)) SV_MVDStop_f(); if (!FS_Remove(path, FS_GAMEONLY)) { Con_Printf("demo %s successfully removed\n", name); } else Con_Printf("unable to remove demo %s\n", name); FS_Remove(SV_MVDName2Txt(path), FS_GAMEONLY); } void SV_MVDRemoveNum_f (void) { int num; char namebuf[MAX_QPATH]; char *val, *name; char path[MAX_OSPATH]; if (Cmd_Argc() != 2) { Con_Printf("rmdemonum <#>\n"); return; } val = Cmd_Argv(1); if ((num = atoi(val)) == 0 && val[0] != '0') { Con_Printf("rmdemonum <#>\n"); return; } name = SV_MVDNum(namebuf, sizeof(namebuf), num); if (name != NULL) { if (sv.mvdrecording && !strcmp(name, demo.name)) SV_MVDStop_f(); snprintf(path, MAX_OSPATH, "%s/%s", sv_demoDir.string, name); if (!FS_Remove(path, FS_GAMEONLY)) { Con_Printf("demo %s succesfully removed\n", name); } else Con_Printf("unable to remove demo %s\n", name); FS_Remove(SV_MVDName2Txt(path), FS_GAMEONLY); } else Con_Printf("invalid demo num\n"); } void SV_MVDInfoAdd_f (void) { char namebuf[MAX_QPATH]; char *name, *args, path[MAX_OSPATH]; vfsfile_t *f; if (Cmd_Argc() < 3) { Con_Printf("usage:MVDInfoAdd \n = * for currently recorded demo\n"); return; } if (!strcmp(Cmd_Argv(1), "*")) { if (!sv.mvdrecording) { Con_Printf("Not recording demo!\n"); return; } snprintf(path, MAX_OSPATH, "%s/%s", demo.path, SV_MVDName2Txt(demo.name)); } else { name = SV_MVDTxTNum(namebuf, sizeof(namebuf), atoi(Cmd_Argv(1))); if (!name) { Con_Printf("invalid demo num\n"); return; } snprintf(path, MAX_OSPATH, "%s/%s", sv_demoDir.string, name); } if ((f = FS_OpenVFS(path, "a+t", FS_GAMEONLY)) == NULL) { Con_Printf("failed to open the file\n"); return; } // skip demonum args = Cmd_Args(); while (*args > 32) args++; while (*args && *args <= 32) args++; VFS_WRITE(f, args, strlen(args)); VFS_WRITE(f, "\n", 1); VFS_FLUSH(f); VFS_CLOSE(f); } void SV_MVDInfoRemove_f (void) { char namebuf[MAX_QPATH]; char *name, path[MAX_OSPATH]; if (Cmd_Argc() < 2) { Con_Printf("usage:demoInfoRemove \n = * for currently recorded demo\n"); return; } if (!strcmp(Cmd_Argv(1), "*")) { if (!sv.mvdrecording) { Con_Printf("Not recording demo!\n"); return; } snprintf(path, MAX_OSPATH, "%s/%s", demo.path, SV_MVDName2Txt(demo.name)); } else { name = SV_MVDTxTNum(namebuf, sizeof(namebuf), atoi(Cmd_Argv(1))); if (!name) { Con_Printf("invalid demo num\n"); return; } snprintf(path, MAX_OSPATH, "%s/%s", sv_demoDir.string, name); } if (FS_Remove(path, FS_GAMEONLY)) Con_Printf("failed to remove the file\n"); else Con_Printf("file removed\n"); } void SV_MVDInfo_f (void) { int len; char buf[64]; vfsfile_t *f = NULL; char *name, path[MAX_OSPATH]; if (Cmd_Argc() < 2) { Con_Printf("usage:demoinfo \n = * for currently recorded demo\n"); return; } if (!strcmp(Cmd_Argv(1), "*")) { if (!sv.mvdrecording) { Con_Printf("Not recording demo!\n"); return; } snprintf(path, MAX_OSPATH, "%s/%s", demo.path, SV_MVDName2Txt(demo.name)); } else { name = SV_MVDTxTNum(buf, sizeof(buf), atoi(Cmd_Argv(1))); if (!name) { Con_Printf("invalid demo num\n"); return; } snprintf(path, MAX_OSPATH, "%s/%s", sv_demoDir.string, name); } if ((f = FS_OpenVFS(path, "rt", FS_GAMEONLY)) == NULL) { Con_Printf("(empty)\n"); return; } for(;;) { len = VFS_READ (f, buf, sizeof(buf)-1); if (len < 0) break; buf[len] = 0; Con_Printf("%s", buf); } VFS_CLOSE(f); } void SV_MVDPlayNum_f(void) { char namebuf[MAX_QPATH]; char *name; int num; char *val; if (Cmd_Argc() != 2) { Con_Printf("mvdplaynum <#>\n"); return; } val = Cmd_Argv(1); if ((num = atoi(val)) == 0 && val[0] != '0') { Con_Printf("mvdplaynum <#>\n"); return; } name = SV_MVDNum(namebuf, sizeof(namebuf), atoi(val)); if (name) Cbuf_AddText(va("mvdplay %s\n", name), Cmd_ExecLevel); else Con_Printf("invalid demo num\n"); } void SV_MVDInit(void) { MVD_Init(); #ifdef SERVERONLY //client command would conflict otherwise. Cmd_AddCommand ("record", SV_MVD_Record_f); Cmd_AddCommand ("stop", SV_MVDStop_f); Cmd_AddCommand ("cancel", SV_MVD_Cancel_f); #endif Cmd_AddCommand ("qtvreverse", SV_MVD_QTVReverse_f); Cmd_AddCommand ("mvdrecord", SV_MVD_Record_f); Cmd_AddCommand ("easyrecord", SV_MVDEasyRecord_f); Cmd_AddCommand ("mvdstop", SV_MVDStop_f); Cmd_AddCommand ("mvdcancel", SV_MVD_Cancel_f); //Cmd_AddCommand ("mvdplaynum", SV_MVDPlayNum_f); Cmd_AddCommand ("mvdlist", SV_MVDList_f); Cmd_AddCommand ("demolist", SV_MVDList_f); Cmd_AddCommand ("rmdemo", SV_MVDRemove_f); Cmd_AddCommand ("rmdemonum", SV_MVDRemoveNum_f); Cvar_Register(&qtv_streamport, "MVD Streaming"); Cvar_Register(&qtv_maxstreams, "MVD Streaming"); Cvar_Register(&qtv_password, "MVD Streaming"); } #endif