/* 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 "quakedef.h" #include "fs.h" void CL_FinishTimeDemo (void); float demtime; float recdemostart; //keyed to Sys_DoubleTime int demoframe; int cls_lastto; int cls_lasttype; void CL_PlayDemo(char *demoname, qboolean usesystempath); char lastdemoname[256]; static qboolean lastdemowassystempath; extern cvar_t qtvcl_forceversion1; extern cvar_t qtvcl_eztvextensions; extern cvar_t record_flush; static unsigned char demobuffer[1024*66]; //input buffer static int demooffset; //start offset of demo buffer static int demobuffersize; //number of valid bytes within the buffer static int demopreparsedbytes; //number of bytes within the valid buffer that has already been pre-parsed. qboolean disablepreparse; qboolean endofdemo; #define BUFFERTIME 0.5 /* ============================================================================== DEMO CODE When a demo is playing back, all NET_SendMessages are skipped, and NET_GetMessages are read from the demo file. Whenever cl.time gets past the last received message, another message is read from the demo file. ============================================================================== */ /* ============== CL_StopPlayback Called when a demo file runs out, or the user starts a game ============== */ void CL_StopPlayback (void) { if (!cls.demoplayback) return; Media_CaptureDemoEnd(); VFS_CLOSE (cls.demoinfile); cls.demoinfile = NULL; cls.state = ca_disconnected; cls.demoplayback = DPB_NONE; cls.demoseeking = false; //just in case if (cls.demoindownload) cls.demoindownload->status = DL_FAILED; cls.demoindownload = NULL; if (cls.timedemo) CL_FinishTimeDemo (); TP_ExecTrigger("f_demoend", true); } /* ==================== CL_WriteDemoCmd Writes the player0 user cmd (demos don't support split screen) ==================== */ void CL_WriteDemoCmd (usercmd_t *pcmd) { int i; float fl; qbyte c; q1usercmd_t cmd; //nq doesn't have this info if (cls.demorecording != DPB_QUAKEWORLD) return; //Con_Printf("write: %ld bytes, %4.4f\n", msg->cursize, demtime); fl = LittleFloat(Sys_DoubleTime()-recdemostart); VFS_WRITE (cls.demooutfile, &fl, sizeof(fl)); c = dem_cmd; VFS_WRITE (cls.demooutfile, &c, sizeof(c)); // correct for byte order, bytes don't matter cmd.buttons = pcmd->buttons; cmd.impulse = pcmd->impulse; cmd.msec = pcmd->msec; for (i = 0; i < 3; i++) cmd.angles[i] = LittleShort((pcmd->angles[i]*360.0)/65535); cmd.forwardmove = LittleShort(pcmd->forwardmove); cmd.sidemove = LittleShort(pcmd->sidemove); cmd.upmove = LittleShort(pcmd->upmove); VFS_WRITE (cls.demooutfile, &cmd, sizeof(cmd)); for (i=0 ; i<3 ; i++) { fl = LittleFloat (cl.playerview[0].viewangles[i]); VFS_WRITE (cls.demooutfile, &fl, 4); } if (record_flush.ival) VFS_FLUSH (cls.demooutfile); } /* ==================== CL_WriteDemoMessage Dumps the current net message, prefixed by the length and view angles ==================== */ void CL_WriteDemoMessage (sizebuf_t *msg, int payloadoffset) { int len; int i; float fl; qbyte c; //Con_Printf("write: %ld bytes, %4.4f\n", msg->cursize, demtime); switch (cls.demorecording) { default: return; case DPB_QUAKEWORLD: //QW fl = LittleFloat(Sys_DoubleTime()-recdemostart); VFS_WRITE (cls.demooutfile, &fl, sizeof(fl)); c = dem_read; VFS_WRITE (cls.demooutfile, &c, sizeof(c)); if (*(int*)msg->data == -1) { //connectionless packet. len = LittleLong (msg->cursize); VFS_WRITE (cls.demooutfile, &len, 4); VFS_WRITE (cls.demooutfile, msg->data + msg_readcount, msg->cursize - msg_readcount); } else { //regenerate a legacy netchan. no fragmentation support, but whatever. this ain't udp. //the length len = LittleLong (msg->cursize - msg_readcount + 8); VFS_WRITE (cls.demooutfile, &len, 4); //hack the netchan here. i = cls.netchan.incoming_sequence; VFS_WRITE (cls.demooutfile, &i, 4); i = cls.netchan.incoming_acknowledged; VFS_WRITE (cls.demooutfile, &i, 4); //and the data VFS_WRITE (cls.demooutfile, msg->data + msg_readcount, msg->cursize - msg_readcount); } break; #ifdef Q2CLIENT case DPB_QUAKE2: len = LittleLong (net_message.cursize - payloadoffset); VFS_WRITE(cls.demooutfile, &len, sizeof(len)); VFS_WRITE(cls.demooutfile, net_message.data + payloadoffset, net_message.cursize - payloadoffset); break; #endif #ifdef NQPROT case DPB_NETQUAKE: //NQ len = LittleLong (net_message.cursize - payloadoffset); VFS_WRITE(cls.demooutfile, &len, sizeof(len)); for (i=0 ; i<3 ; i++) { float f = LittleFloat (cl.playerview[0].viewangles[i]); VFS_WRITE(cls.demooutfile, &f, sizeof(f)); } VFS_WRITE(cls.demooutfile, net_message.data + payloadoffset, net_message.cursize - payloadoffset); break; #endif } if (record_flush.ival) VFS_FLUSH (cls.demooutfile); } int demo_preparsedemo(unsigned char *buffer, int bytes) { int parsed = 0; int ofs; unsigned int length; #define dem_mask 7 if (cls.demoplayback != DPB_MVD && cls.demoplayback != DPB_EZTV) return bytes; //no need if its not an mvd (this simplifies it a little) while (bytes>2) { switch(buffer[1]&dem_mask) { case dem_cmd: ofs = -(int)(sizeof(q1usercmd_t)); ofs = 0; break; case dem_set: ofs = -(8); break; case dem_multiple: ofs = 6; break; default: ofs = 2; break; } if (ofs > 0) { if (ofs+4 > bytes) break; length = (buffer[ofs+0]<<0) + (buffer[ofs+1]<<8) + (buffer[ofs+2]<<16) + (buffer[ofs+3]<<24); if (length > MAX_OVERALLMSGLEN) { disablepreparse = true; Con_Printf("Error looking ahead at demo\n"); return parsed; } ofs+=4; } else { length = -ofs; ofs = 2; } //ofs is now the offset of the data if (ofs+length > bytes) { return parsed; //not got it all } if ((buffer[1]&dem_mask) == dem_all && (buffer[1] & ~dem_mask) && length < MAX_OVERALLMSGLEN) { net_message.cursize = length; memcpy(net_message.data, buffer+ofs, length); MSG_BeginReading(cls.netchan.netprim); CLQW_ParseServerMessage(); } parsed += ofs+length; buffer += ofs+length; bytes -= ofs+length; } return parsed; } int readdemobytes(int *readpos, void *data, int len) { int i; int trybytes; if (len < 0) Host_EndGame("Corrupt demo"); //if there's not enough space in the buffer, flush it now and allow grabbing a new chunk //try to ensure it happens periodically enough for the preparsing stuff to happen early. if (demooffset+*readpos+len > demobuffersize || demooffset > sizeof(demobuffer)/2) { memmove(demobuffer, demobuffer+demooffset, demobuffersize); demooffset = 0; } if (demopreparsedbytes < 0) //won't happen in normal running, but can still happen on corrupt data... if we don't disconnect first. { Con_Printf("reset preparsed (underflow)\n"); demopreparsedbytes = 0; } if (demopreparsedbytes > demobuffersize) { Con_Printf("reset preparsed (overflow)\n"); demopreparsedbytes = 0; } trybytes = sizeof(demobuffer)-demooffset-demobuffersize; if (trybytes > 4096) i = VFS_READ(cls.demoinfile, demobuffer+demooffset+demobuffersize, trybytes); else i = 0; if (i > 0) { demobuffersize += i; if (disablepreparse) demopreparsedbytes = demobuffersize; else demopreparsedbytes += demo_preparsedemo(demobuffer+demooffset+demopreparsedbytes, demobuffersize-demopreparsedbytes); } if (*readpos+len > demobuffersize) { if (i < 0 || (i == 0 && len && !cls.demoinfile->seekingisabadplan)) { //0 means no data available yet, don't error on that (unless we can seek, in which case its not a stream and we won't get any more data later on). endofdemo = true; return 0; } // len = demobuffersize; return 0; } memcpy(data, demobuffer+demooffset+*readpos, len); *readpos += len; return len; } void demo_flushbytes(int bytes) { if (demooffset+bytes > demobuffersize) Sys_Error("demo_flushbytes: flushed too much!\n"); demooffset += bytes; demobuffersize -= bytes; if (demopreparsedbytes < bytes) demopreparsedbytes = 0; else demopreparsedbytes -= bytes; } void demo_flushcache(void) { demooffset = 0; demobuffersize = 0; demopreparsedbytes = 0; //no errors yet disablepreparse = false; } void demo_resetcache(int bytes, void *data) { endofdemo = false; demo_flushcache(); demooffset = 0; demobuffersize = bytes; demopreparsedbytes = 0; memcpy(demobuffer, data, bytes); //preparse it now bytes = 0; readdemobytes(&bytes, NULL, 0); } void CL_ProgressDemoTime(void) { extern cvar_t cl_demospeed; if (cl.parsecount && Media_PausedDemo(true)) { //console visible whilst democapturing cls.netchan.last_received = realtime; return; } if (cl_demospeed.value >= 0 && cls.state == ca_active) demtime += host_frametime*cl_demospeed.value; else demtime += host_frametime; } void CL_DemoJump_f(void) { float newtime; char *s = Cmd_Argv(1); char *colon = strchr(s, ':'); if (!cls.demoplayback) { Con_Printf("not playing a demo, cannot jump.\n"); return; } if (Cmd_Argc() < 2) { Con_Printf("current time %.1f.\n", demtime); return; } if (*s == '+' || *s == '-') { if (colon) { colon++; newtime = demtime + atoi(colon) + atoi(s)*60; } else newtime = demtime + atoi(s); } else { //absolute seek time if (colon) { colon++; newtime = atoi(colon); newtime += atoi(s)*60; } else newtime = atoi(s); } if (newtime < 0) newtime = 0; if (newtime >= demtime) cls.demoseektime = newtime; else { Con_Printf("Rewinding demo\n"); CL_PlayDemo(lastdemoname, lastdemowassystempath); //now fastparse it. cls.demoseektime = newtime; } cls.demoseeking = true; } /* ==================== CL_GetDemoMessage FIXME... ==================== */ vec3_t demoangles; float olddemotime = 0; float nextdemotime = 0; qboolean CL_GetDemoMessage (void) { int r, i, j, tracknum; float f; float demotime; qbyte c, msecsadded=0; usercmd_t *pcmd; q1usercmd_t q1cmd; int demopos = 0; int msglength; if (endofdemo) { endofdemo = false; CL_StopPlayback (); return 0; } #ifdef NQPROT if (cls.demoplayback == DPB_NETQUAKE #ifdef Q2CLIENT || cls.demoplayback == DPB_QUAKE2 #endif ) { //read the nq demo //if we've finished reading the connection part of the demo, but not finished loading, pause the demo if (cls.signon == 1 && !cl.worldmodel) { demtime = cl.gametime; return 0; } //if this is the starting frame of a timedemo if (cls.timedemo) if (cls.td_startframe == -1 && cls.state == ca_active) { //start the timer only once we are connected. //make sure everything is loaded, to avoid stalls if (Key_Dest_Has(kdm_gmenu)) MP_Toggle(0); COM_WorkerFullSync(); cls.td_starttime = Sys_DoubleTime(); cls.td_startframe = host_framecount; //force the console up, we're done loading. Key_Dest_Remove(kdm_console); Key_Dest_Remove(kdm_emenu); scr_con_current = 0; } #ifdef Q2CLIENT //q2 uses a fixed 10fps packet rate, even demos enforce it. if (cls.demoplayback == DPB_QUAKE2) { if (cls.timedemo) { if (demoframe == host_framecount) return 0; demoframe = host_framecount; } #if 1 else if (demtime < cl.gametime && cl.gametime) { if (demtime <= cl.gametime-1) demtime = cl.gametime; return 0; } #else else if (cls.netchan.last_received == realtime || cls.netchan.last_received > realtime-0.1) return 0; #endif } else #endif if (cls.demoplayback == DPB_NETQUAKE && cls.signon == 4/*SIGNONS*/) { if (!demtime) { cl.gametime = 0; cl.gametimemark = demtime; olddemotime = 0; return 0; } cls.netchan.last_received = realtime; if (cls.demoseeking) { if (cl.gametime > cls.demoseektime) { cls.demoseeking = false; return 0; } } else if ((cls.timedemo && host_framecount == demoframe) || (!cls.timedemo && demtime < cl.gametime && cl.gametime))// > dem_lasttime+demtime) { if (demtime <= cl.gametime-1) demtime = cl.gametime; return 0; } demoframe = host_framecount; } else if (cls.signon < 4) demtime = 0; if (readdemobytes(&demopos, &msglength, 4) != 4) { return 0; } msglength = LittleLong (msglength); if (msglength == -1) { int tmppos = demopos; //q2 writes a length of -1 to mark eof. if this peek fails then it really is eof and we shouldn't fail from weird message length checks. if (readdemobytes(&tmppos, &msglength, 4) != 4) { endofdemo = true; return 0; } } if (cls.demoplayback == DPB_NETQUAKE) { for (i=0 ; i<3 ; i++) { readdemobytes(&demopos, &f, 4); demoangles[i] = LittleFloat (f); } } olddemotime = demtime; if (msglength > MAX_NQMSGLEN) { Con_Printf ("Demo message > MAX_MSGLEN"); CL_StopPlayback (); return 0; } if (readdemobytes(&demopos, net_message.data, msglength) != msglength) { return 0; } demo_flushbytes(demopos); NET_UpdateRates(cls.sockets, true, msglength); //keep any rate calcs sane net_message.cursize = msglength; return 1; } #endif readnext: if (demopos) { demo_flushbytes(demopos); demopos = 0; } // read the time from the packet if (cls.demoplayback == DPB_MVD || cls.demoplayback == DPB_EZTV) { if (demtime < 0) { readdemobytes(&demopos, NULL, 0); //keep it feeding through return 0; } if (olddemotime > demtime) olddemotime = demtime; if (demtime + 1.0 < olddemotime) demtime = olddemotime - 1.0; if (readdemobytes(&demopos, &msecsadded, sizeof(msecsadded)) != sizeof(msecsadded)) { Con_DPrintf("Not enough buffered\n"); demotime = olddemotime; nextdemotime = demotime; return 0; } else { demotime = olddemotime + msecsadded*(1.0f/1000); nextdemotime = demotime; } } else { if (readdemobytes(&demopos, &demotime, sizeof(demotime)) != sizeof(demotime)) { Con_DPrintf("Not enough buffered\n"); olddemotime = demtime; //if we ran out of buffered demo, delay the demo parsing a little return 0; } demotime = LittleFloat(demotime); } if (cl.sendprespawn) { CL_RequestNextDownload(); if (!cls.timedemo) return 0; } // decide if it is time to grab the next message if (cls.demoseeking) { demtime = demotime; //warp if (demtime >= cls.demoseektime) cls.demoseeking = false; } else if (cls.timedemo) { if (cls.td_lastframe < 0) cls.td_lastframe = demotime; else if (demotime > cls.td_lastframe) { cls.td_lastframe = demotime; return 0; // next packet starts after the previous one. draw something before parsing it. } if (cls.td_startframe == -1 && cls.state == ca_active) { //start the timer only once we are connected. cls.td_starttime = Sys_DoubleTime(); cls.td_startframe = host_framecount; //force the console up, we're done loading. Key_Dest_Remove(kdm_console); scr_con_current = 0; } if (cls.td_startframe == host_framecount+1) cls.td_starttime = Sys_DoubleTime(); demtime = demotime; // warp } else if (!cl.paused && cls.state >= ca_onserver) { // always grab until fully connected if (demtime + 1.0 < demotime) { // too far back demtime = demotime - 1.0; return 0; } else if (demtime < demotime) { return 0; // don't need another message yet } } else demtime = demotime; // we're warping if (cls.demoplayback == DPB_MVD || cls.demoplayback == DPB_EZTV) { if ((msecsadded || cls.netchan.incoming_sequence < 2) && olddemotime != demotime) { if (!(cls.fteprotocolextensions2 & PEXT2_REPLACEMENTDELTAS)) { cls.netchan.incoming_sequence++; cls.netchan.incoming_acknowledged++; } cls.netchan.frame_latency = 0; cls.netchan.last_received = realtime; // just to happy timeout check } } if (cls.state < ca_demostart) Host_Error ("CL_GetDemoMessage: cls.state != ca_active"); // get the msg type if (readdemobytes (&demopos, &c, sizeof(c)) != sizeof(c)) { Con_DPrintf("Not enough buffered\n"); olddemotime = demtime+1; return 0; } switch (c&7) { case dem_cmd : if (cls.demoplayback == DPB_MVD) { Con_Printf("mvd demos/qtv streams should not contain dem_cmd\n"); olddemotime = demtime+1; CL_StopPlayback (); return 0; } else { // user sent input i = cl.movesequence & UPDATE_MASK; pcmd = &cl.outframes[i].cmd[0]; r = readdemobytes (&demopos, &q1cmd, sizeof(q1cmd)); if (r != sizeof(q1cmd)) { Con_DPrintf("Not enough buffered\n"); olddemotime = demtime+1; CL_StopPlayback (); return 0; } // byte order stuff for (j = 0; j < 3; j++) { q1cmd.angles[j] = LittleFloat(q1cmd.angles[j]); pcmd->angles[j] = ((int)(q1cmd.angles[j]*65536.0/360)&65535); } pcmd->forwardmove = q1cmd.forwardmove = LittleShort(q1cmd.forwardmove); pcmd->sidemove = q1cmd.sidemove = LittleShort(q1cmd.sidemove); pcmd->upmove = q1cmd.upmove = LittleShort(q1cmd.upmove); pcmd->msec = q1cmd.msec; pcmd->buttons = q1cmd.buttons; cl.outframes[i].senttime = realtime; cl.outframes[i].server_message_num = cl.validsequence; cl.outframes[i].cmd_sequence = cl.movesequence; cls.netchan.outgoing_sequence++; cl.movesequence = cls.netchan.outgoing_sequence; for (i=0 ; i<3 ; i++) { readdemobytes (&demopos, &f, 4); demoangles[i] = LittleFloat (f); cl.playerview[0].viewangles[i] = LittleFloat (f); } goto readnext; } break; case dem_read: readit: // get the next message if (readdemobytes (&demopos, &msglength, 4) != 4) { Con_DPrintf("Not enough buffered\n"); olddemotime = demtime+1; return 0; } msglength = LittleLong (msglength); //Con_Printf("read: %ld bytes\n", msglength); if ((unsigned int)msglength > MAX_OVERALLMSGLEN) { Con_Printf ("Demo message > MAX_OVERALLMSGLEN\n"); CL_StopPlayback (); return 0; } if (readdemobytes (&demopos, net_message.data, msglength) != msglength) { Con_DPrintf("Not enough buffered\n"); olddemotime = demtime+1; return 0; } NET_UpdateRates(cls.sockets, true, msglength); //keep any rate calcs sane net_message.cursize = msglength; if (cls.demoplayback == DPB_MVD || cls.demoplayback == DPB_EZTV) { int seat; cl.defaultnetsplit = 0; switch(cls_lasttype) { case dem_multiple: for (seat = 0; seat < cl.splitclients; seat++) { tracknum = cl.playerview[seat].cam_spec_track; if (cl.playerview[seat].cam_state == CAM_FREECAM) tracknum = -1; if (tracknum == -1 || !(cls_lastto & (1 << tracknum))) continue; } if (seat == cl.splitclients) { olddemotime = demotime; goto readnext; } cl.defaultnetsplit = seat; break; case dem_single: { int maxseat = cl.splitclients; //only accept single messages that are directed to the first player view. //this is too problematic otherwise (apparently mvdsv doesn't use dem_multiple for team says any more). if (1) maxseat = 1; for (seat = 0; seat < maxseat; seat++) { tracknum = cl.playerview[seat].cam_spec_track; if (cl.playerview[seat].cam_state == CAM_FREECAM) tracknum = -1; if (tracknum == -1 || (cls_lastto != tracknum)) continue; break; } if (seat == maxseat) { olddemotime = demotime; goto readnext; } cl.defaultnetsplit = seat; } break; case dem_all: if (c & ~dem_mask) { olddemotime = demotime; goto readnext; } break; } } break; case dem_set: if (readdemobytes (&demopos, &j, 4) != 4) { olddemotime = demtime; return 0; } if (readdemobytes (&demopos, &i, 4) != 4) { olddemotime = demtime; return 0; } cls.demostarttime = demtime; cls.netchan.outgoing_sequence = LittleLong(j); cls.netchan.incoming_sequence = LittleLong(i); cl.movesequence = cls.netchan.outgoing_sequence; NET_UpdateRates(cls.sockets, false, demopos); //keep any rate calcs sane if (cls.demoplayback == DPB_MVD || cls.demoplayback == DPB_EZTV) cls.netchan.incoming_acknowledged = cls.netchan.incoming_sequence; goto readnext; case dem_multiple: if (readdemobytes (&demopos, &i, sizeof(i)) != sizeof(i)) { olddemotime = demtime; return 0; } cls_lastto = LittleLong(i); cls_lasttype = dem_multiple; goto readit; case dem_single: cls_lastto = c >> 3; cls_lasttype = dem_single; goto readit; case dem_stats: cls_lastto = c >> 3; cls_lasttype = dem_stats; goto readit; case dem_all: cls_lastto = 0; cls_lasttype = dem_all; goto readit; default : Con_Printf("Corrupted demo.\n"); CL_StopPlayback (); return 0; } demo_flushbytes(demopos); olddemotime = demotime; net_from.type = NA_INVALID; return 1; } /* ==================== CL_GetMessage Handles recording and playback of demos, on top of NET_ code ==================== */ qboolean CL_GetMessage (void) { if (cls.demoplayback != DPB_NONE) return CL_GetDemoMessage (); if (NET_GetPacket (NS_CLIENT, 0) < 0) return false; return true; } /* ==================== CL_Stop_f stop recording a demo ==================== */ void CL_Stop_f (void) { if (!cls.demorecording) { #ifndef CLIENTONLY SV_MVDStop_f(); #else Con_Printf ("Not recording a demo.\n"); #endif return; } // write a disconnect message to the demo file #ifdef Q2CLIENT if (cls.demorecording == DPB_QUAKE2) { //q2 demos signify eof with a -1 size int len = ~0; VFS_WRITE(cls.demooutfile, &len, sizeof(len)); } else #endif { SZ_Clear (&net_message); msg_readcount = 0; MSG_WriteLong (&net_message, -1); // -1 sequence means out of band MSG_WriteByte (&net_message, svc_disconnect); MSG_WriteString (&net_message, "EndOfDemo"); CL_WriteDemoMessage (&net_message, sizeof(int)); } // finish up VFS_CLOSE (cls.demooutfile); cls.demooutfile = NULL; cls.demorecording = false; Con_Printf ("Completed demo\n"); FS_FlushFSHash(); } void CL_WriteRecordQ2DemoMessage(sizebuf_t *msg) { //q2 is really simple, and doesn't have timings in its demo format. int len = LittleLong (msg->cursize); VFS_WRITE (cls.demooutfile, &len, 4); VFS_WRITE (cls.demooutfile, msg->data, msg->cursize); } /* ==================== CL_WriteDemoMessage Dumps the current net message, prefixed by the length and view angles ==================== */ void CL_WriteRecordDemoMessage (sizebuf_t *msg, int seq) { int len; int i; float fl; qbyte c; //Con_Printf("write: %ld bytes, %4.4f\n", msg->cursize, demtime); if (!cls.demorecording) return; fl = LittleFloat(Sys_DoubleTime()-recdemostart); VFS_WRITE (cls.demooutfile, &fl, sizeof(fl)); c = dem_read; VFS_WRITE (cls.demooutfile, &c, sizeof(c)); len = LittleLong (msg->cursize + 8); VFS_WRITE (cls.demooutfile, &len, 4); i = LittleLong(seq); VFS_WRITE (cls.demooutfile, &i, 4); VFS_WRITE (cls.demooutfile, &i, 4); VFS_WRITE (cls.demooutfile, msg->data, msg->cursize); if (record_flush.ival) VFS_FLUSH (cls.demooutfile); } void CL_WriteSetDemoMessage (void) { int len; float fl; qbyte c; //Con_Printf("write: %ld bytes, %4.4f\n", msg->cursize, demtime); if (cls.demorecording != DPB_QUAKEWORLD) return; fl = LittleFloat(Sys_DoubleTime()-recdemostart); VFS_WRITE (cls.demooutfile, &fl, sizeof(fl)); c = dem_set; VFS_WRITE (cls.demooutfile, &c, sizeof(c)); len = LittleLong(cls.netchan.outgoing_sequence); VFS_WRITE (cls.demooutfile, &len, 4); len = LittleLong(cls.netchan.incoming_sequence); VFS_WRITE (cls.demooutfile, &len, 4); if (record_flush.ival) VFS_FLUSH (cls.demooutfile); } /* record a single player game. */ #ifndef CLIENTONLY mvddest_t *SV_MVD_InitRecordFile (char *name); qboolean SV_MVD_Record (mvddest_t *dest); void CL_RecordMap_f (void) { char demoname[MAX_QPATH]; char mapname[MAX_QPATH]; char demoext[8]; if (Cmd_Argc() < 3) { Con_Printf("%s: demoname mapname\n", Cmd_Argv(0)); return; } Q_strncpyz(demoname, Cmd_Argv(1), sizeof(demoname)); Q_strncpyz(mapname, Cmd_Argv(2), sizeof(mapname)); CL_Disconnect_f(); SV_SpawnServer (mapname, NULL, false, false); COM_DefaultExtension(demoname, ".mvd", sizeof(demoname)); COM_FileExtension(demoname, demoext, sizeof(demoext)); if (!strcmp(demoext, "mvd")) { if (!SV_MVD_Record (SV_MVD_InitRecordFile(demoname))) CL_Disconnect_f(); // char buf[512]; // Cbuf_AddText(va("mvdrecord %s\n", COM_QuotedString(demoname, buf, sizeof(buf))), RESTRICT_LOCAL); } else { cls.demooutfile = FS_OpenVFS (demoname, "wb", FS_GAME); if (!cls.demooutfile) { CL_Disconnect_f(); return; } #ifdef NQPROT if (!strcmp(demoext, "dem")) { cls.demorecording = DPB_NETQUAKE; VFS_PUTS(cls.demooutfile, "-1\n"); } else #endif cls.demorecording = DPB_QUAKEWORLD; CL_WriteSetDemoMessage(); } } #endif const char *Get_Q2ConfigString(int i); /* ==================== CL_Record_f record ==================== */ void CL_Record_f (void) { int c; char name[MAX_OSPATH]; sizebuf_t buf; char buf_data[MAX_QWMSGLEN]; int n, i, j, seat; char *s, *p, *fname; entity_t *ent; entity_state_t *es; player_info_t *player; extern char gamedirfile[]; int seq = 1; const char *defaultext; c = Cmd_Argc(); if (c > 2) { #ifndef CLIENTONLY CL_RecordMap_f(); #else Con_Printf ("record \n"); #endif return; } if (cls.state != ca_active) { Con_Printf ("You must be connected to record.\n"); return; } if (cls.protocol == CP_QUAKE2) defaultext = ".dm2"; // else if (cls.protocol == CP_NETQUAKE) // defaultext = ".dem"; else if (cls.protocol == CP_QUAKEWORLD) defaultext = ".qwd"; else { Con_Printf("Unable to record mid-map - try a different network protocol\n"); return; } if (cls.demorecording) CL_Stop_f(); if (c == 2) //user supplied a name { fname = Cmd_Argv(1); } else { //automagically generate a name if (cl.spectator) { // FIXME: if tracking a player, use his name fname = va ("spec_%s_%s", TP_PlayerName(), TP_MapName()); } else { // guess game type and write demo name i = TP_CountPlayers(); if (cl.teamplay && i >= 3) { // Teamplay fname = va ("%s_%s_vs_%s_%s", TP_PlayerName(), TP_PlayerTeam(), TP_EnemyTeam(), TP_MapName()); } else { if (i == 2) { // Duel fname = va ("%s_vs_%s_%s", TP_PlayerName(), TP_EnemyName(), TP_MapName()); } else if (i > 2) { // FFA fname = va ("%s_ffa_%s", TP_PlayerName(), TP_MapName()); } else { // one player fname = va ("%s_%s", TP_PlayerName(), TP_MapName()); } } } } while((p = strstr(fname, ".."))) { p[0] = '_'; p[1] = '_'; } // Make sure the filename doesn't contain illegal characters for (p=fname ; *p ; p++) { char c; *p &= 0x7F; // strip high bit c = *p; if (c<=' ' || c=='?' || c=='*' || (c!=2&&(c=='\\' || c=='/')) || c==':' || c=='<' || c=='>' || c=='"' || c=='.') *p = '_'; } strncpy(name, fname, sizeof(name)-1-8); name[sizeof(name)-1-8] = '\0'; //make a unique name (unless the user specified it). strcat (name, defaultext); //we have the space if (c != 2) { vfsfile_t *f; f = FS_OpenVFS (name, "rb", FS_GAME); if (f) { COM_StripExtension(name, name, sizeof(name)); p = name + strlen(name); strcat(p, "_XX.qwd"); p++; i = 0; do { VFS_CLOSE (f); p[0] = i%100 + '0'; p[1] = i%10 + '0'; f = FS_OpenVFS (name, "rb", FS_GAME); i++; } while (f && i < 100); } } // // open the demo file // cls.demooutfile = FS_OpenVFS (name, "wb", FS_GAME); if (!cls.demooutfile) { Con_Printf ("ERROR: couldn't open.\n"); return; } cls.demohadkeyframe = false; Con_Printf ("recording to %s.\n", name); recdemostart = Sys_DoubleTime(); /*-------------------------------------------------*/ memset(&buf, 0, sizeof(buf)); buf.data = buf_data; buf.maxsize = sizeof(buf_data); buf.prim = cls.netchan.netprim; switch(cls.protocol) { case CP_QUAKEWORLD: cls.demorecording = DPB_QUAKEWORLD; // serverdata // send the info about the new client to all connected clients // send the serverdata MSG_WriteByte (&buf, svc_serverdata); #ifdef PROTOCOL_VERSION_FTE if (cls.fteprotocolextensions) //maintain demo compatability { MSG_WriteLong (&buf, PROTOCOL_VERSION_FTE); MSG_WriteLong (&buf, cls.fteprotocolextensions); } if (cls.fteprotocolextensions2) //maintain demo compatability { MSG_WriteLong (&buf, PROTOCOL_VERSION_FTE2); MSG_WriteLong (&buf, cls.fteprotocolextensions2); } #endif MSG_WriteLong (&buf, PROTOCOL_VERSION_QW); MSG_WriteLong (&buf, cl.servercount); MSG_WriteString (&buf, gamedirfile); if (cls.fteprotocolextensions2 & PEXT2_MAXPLAYERS) { MSG_WriteByte (&buf, cl.allocated_client_slots); MSG_WriteByte (&buf, cl.splitclients | (cl.spectator?128:0)); for (i = 0; i < cl.splitclients; i++) MSG_WriteByte (&buf, cl.playerview[i].playernum); } else { for (i = 0; i < cl.splitclients; i++) { if (cl.spectator) MSG_WriteByte (&buf, cl.playerview[i].playernum | 128); else MSG_WriteByte (&buf, cl.playerview[i].playernum); } if (cls.fteprotocolextensions & PEXT_SPLITSCREEN) MSG_WriteByte (&buf, 128); } // send full levelname MSG_WriteString (&buf, cl.levelname); // 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 server info string MSG_WriteByte (&buf, svc_stufftext); MSG_WriteString (&buf, va("fullserverinfo \"%s\"\n", cl.serverinfo) ); // send music Media_WriteCurrentTrack(&buf); //paknames { char buffer[1024]; FS_GetPackNames(buffer, sizeof(buffer), 2, true); /*retain extensions, or we'd have to assume pk3*/ if (*buffer) { MSG_WriteByte(&buf, svc_stufftext); SZ_Write(&buf, "//paknames ", 11); SZ_Write(&buf, buffer, strlen(buffer)); MSG_WriteString(&buf, "\n"); } } //Paks { char buffer[1024]; FS_GetPackHashes(buffer, sizeof(buffer), false); if (*buffer) { MSG_WriteByte(&buf, svc_stufftext); SZ_Write(&buf, "//paks ", 7); SZ_Write(&buf, buffer, strlen(buffer)); MSG_WriteString(&buf, "\n"); } } //FIXME: //at //FIXME: //wps //FIXME: //it MSG_WriteByte (&buf, svc_setpause); MSG_WriteByte (&buf, cl.paused); #ifdef PEXT_SETVIEW if (cl.playerview[0].viewentity != cl.playerview[0].playernum+1) //tell the player if we have a different view entity { MSG_WriteByte (&buf, svc_setview); MSG_WriteEntity (&buf, cl.playerview[0].viewentity); } #endif // flush packet CL_WriteRecordDemoMessage (&buf, seq++); SZ_Clear (&buf); // soundlist MSG_WriteByte (&buf, svc_soundlist); MSG_WriteByte (&buf, 0); n = 0; s = cl.sound_name[n+1]; while (*s) { MSG_WriteString (&buf, s); if (buf.cursize > buf.maxsize/2 && (n&0xff)) { MSG_WriteByte (&buf, 0); MSG_WriteByte (&buf, n); CL_WriteRecordDemoMessage (&buf, seq++); SZ_Clear (&buf); if (n + 1 > 0xff) { MSG_WriteByte (&buf, svcfte_soundlistshort); MSG_WriteShort (&buf, n + 1); } else { MSG_WriteByte (&buf, svc_soundlist); MSG_WriteByte (&buf, n + 1); } } n++; s = cl.sound_name[n+1]; } if (buf.cursize) { MSG_WriteByte (&buf, 0); MSG_WriteByte (&buf, 0); CL_WriteRecordDemoMessage (&buf, seq++); SZ_Clear (&buf); } //FIXME: vweps // modellist MSG_WriteByte (&buf, svc_modellist); MSG_WriteByte (&buf, 0); n = 0; s = cl.model_name[n+1]; while (*s) { MSG_WriteString (&buf, s); if (buf.cursize > buf.maxsize/2 && (n&0xff)) { MSG_WriteByte (&buf, 0); MSG_WriteByte (&buf, n); CL_WriteRecordDemoMessage (&buf, seq++); SZ_Clear (&buf); if (n + 1 > 0xff) { MSG_WriteByte (&buf, svcfte_modellistshort); MSG_WriteShort (&buf, n + 1); } else { MSG_WriteByte (&buf, svc_modellist); MSG_WriteByte (&buf, n + 1); } } n++; s = cl.model_name[n+1]; } if (buf.cursize) { MSG_WriteByte (&buf, 0); MSG_WriteByte (&buf, 0); CL_WriteRecordDemoMessage (&buf, seq++); SZ_Clear (&buf); } //particleeffectnum stuff for (i = 1; i < MAX_SSPARTICLESPRE; i++) { if (!cl.particle_ssname[i]) break; MSG_WriteByte(&buf, svcfte_precache); MSG_WriteShort(&buf, PC_PARTICLE | i); MSG_WriteString(&buf, cl.particle_ssname[i]); if (buf.cursize > buf.maxsize/2) { CL_WriteRecordDemoMessage (&buf, seq++); SZ_Clear (&buf); } } //custom tents (needed for hexen2, if nothing else) for (i = 0; ; i++) { if (!CL_WriteCustomTEnt(&buf, i)) break; if (buf.cursize > buf.maxsize/2) { CL_WriteRecordDemoMessage (&buf, seq++); SZ_Clear (&buf); } } // spawnstatic for (i = 0; i < cl.num_statics; i++) { ent = &cl_static_entities[i].ent; #ifndef CLIENTONLY //FIXME if (cls.fteprotocolextensions2 & PEXT2_REPLACEMENTDELTAS) { MSG_WriteByte(&buf, svcfte_spawnstatic2); SVFTE_EmitBaseline(&cl_static_entities[i].state, false, &buf, cls.fteprotocolextensions2); } //else if (cls.fteprotocolextensions & PEXT_SPAWNSTATIC2) //qw deltas else #endif { MSG_WriteByte (&buf, svc_spawnstatic); for (j = 1; j < MAX_PRECACHE_MODELS; j++) if (ent->model == cl.model_precache[j]) break; if (j == MAX_PRECACHE_MODELS) MSG_WriteByte (&buf, 0); else MSG_WriteByte (&buf, j); MSG_WriteByte (&buf, ent->framestate.g[FS_REG].frame[0]); MSG_WriteByte (&buf, 0); MSG_WriteByte (&buf, ent->skinnum); for (j=0 ; j<3 ; j++) { MSG_WriteCoord (&buf, ent->origin[j]); MSG_WriteAngle (&buf, ent->angles[j]); } } if (buf.cursize > buf.maxsize/2) { CL_WriteRecordDemoMessage (&buf, seq++); SZ_Clear (&buf); } } // FIXME: static sounds // static sounds are skipped in demos, life is hard // baselines for (i = 0; i < cl_baselines_count; i++) { es = cl_baselines + i; if (memcmp(es, &nullentitystate, sizeof(nullentitystate))) { #ifndef CLIENTONLY //FIXME if (cls.fteprotocolextensions2 & PEXT2_REPLACEMENTDELTAS) { MSG_WriteByte(&buf, svcfte_spawnbaseline2); SVFTE_EmitBaseline(es, true, &buf, cls.fteprotocolextensions2); } //else if (cls.fteprotocolextensions & PEXT_SPAWNSTATIC2) //qw deltas else #endif { MSG_WriteByte (&buf,svc_spawnbaseline); MSG_WriteEntity (&buf, i); MSG_WriteByte (&buf, es->modelindex); MSG_WriteByte (&buf, es->frame); MSG_WriteByte (&buf, es->colormap); MSG_WriteByte (&buf, es->skinnum); for (j=0 ; j<3 ; j++) { MSG_WriteCoord(&buf, es->origin[j]); MSG_WriteAngle(&buf, es->angles[j]); } } if (buf.cursize > buf.maxsize/2) { CL_WriteRecordDemoMessage (&buf, seq++); SZ_Clear (&buf); } } } MSG_WriteByte (&buf, svc_stufftext); MSG_WriteString (&buf, va("cmd spawn %i\n", cl.servercount) ); if (buf.cursize) { CL_WriteRecordDemoMessage (&buf, seq++); SZ_Clear (&buf); } // send current status of all other players for (i = 0; i < cl.allocated_client_slots; i++) { player = cl.players + i; if (player->frags != 0) { MSG_WriteByte (&buf, svc_updatefrags); MSG_WriteByte (&buf, i); MSG_WriteShort (&buf, player->frags); } if (player->ping != 0) { MSG_WriteByte (&buf, svc_updateping); MSG_WriteByte (&buf, i); MSG_WriteShort (&buf, player->ping); } if (player->pl != 0) { MSG_WriteByte (&buf, svc_updatepl); MSG_WriteByte (&buf, i); MSG_WriteByte (&buf, player->pl); } if (*player->userinfo) { MSG_WriteByte (&buf, svc_updateentertime); MSG_WriteByte (&buf, i); MSG_WriteFloat (&buf, realtime - player->realentertime); //seconds since } if (*player->userinfo) { MSG_WriteByte (&buf, svc_updateuserinfo); MSG_WriteByte (&buf, i); MSG_WriteLong (&buf, player->userid); MSG_WriteString (&buf, player->userinfo); } if (buf.cursize > buf.maxsize/2) { CL_WriteRecordDemoMessage (&buf, seq++); SZ_Clear (&buf); } } // send all current light styles for (i=0 ; i= MAX_STANDARDLIGHTSTYLES) if (!*cl_lightstyle[i].map) continue; #ifdef PEXT_LIGHTSTYLECOL if ((cls.fteprotocolextensions & PEXT_LIGHTSTYLECOL) && (cl_lightstyle[i].colours[0]!=1||cl_lightstyle[i].colours[1]!=1||cl_lightstyle[i].colours[2]!=1) && *cl_lightstyle[i].map) { MSG_WriteByte (&buf, svcfte_lightstylecol); MSG_WriteByte (&buf, (unsigned char)i); MSG_WriteByte (&buf, 0x87); MSG_WriteShort (&buf, cl_lightstyle[i].colours[0]*1024); MSG_WriteShort (&buf, cl_lightstyle[i].colours[1]*1024); MSG_WriteShort (&buf, cl_lightstyle[i].colours[2]*1024); MSG_WriteString (&buf, cl_lightstyle[i].map); } else #endif { MSG_WriteByte (&buf, svc_lightstyle); MSG_WriteByte (&buf, (unsigned char)i); MSG_WriteString (&buf, cl_lightstyle[i].map); } if (buf.cursize > buf.maxsize/2) { CL_WriteRecordDemoMessage (&buf, seq++); SZ_Clear (&buf); } } for (seat = 0; seat < cl.splitclients; seat++) { //higher stats should be 0 and thus not be sent, if not valid. for (i = 0; i < MAX_CL_STATS; i++) { if (cl.playerview[seat].stats[i] || cl.playerview[seat].statsf[i]) { double fs = cl.playerview[seat].statsf[i]; double is = cl.playerview[seat].stats[i]; if (seat) { MSG_WriteByte (&buf, svcfte_choosesplitclient); MSG_WriteByte (&buf, seat); } if ((int)fs == is) { MSG_WriteByte (&buf, svcqw_updatestatlong); MSG_WriteByte (&buf, i); MSG_WriteLong (&buf, is); } else { MSG_WriteByte (&buf, svcfte_updatestatfloat); MSG_WriteByte (&buf, i); MSG_WriteLong (&buf, fs); } } if (cl.playerview[seat].statsstr[i]) { if (seat) { MSG_WriteByte (&buf, svcfte_choosesplitclient); MSG_WriteByte (&buf, seat); } MSG_WriteByte (&buf, svcfte_updatestatstring); MSG_WriteByte (&buf, i); MSG_WriteString (&buf, cl.playerview[seat].statsstr[i]); } if (buf.cursize > buf.maxsize/2) { CL_WriteRecordDemoMessage (&buf, seq++); SZ_Clear (&buf); } } } // get the client to check and download skins // when that is completed, a begin command will be issued MSG_WriteByte (&buf, svc_stufftext); MSG_WriteString (&buf, "skins\n"); CL_WriteRecordDemoMessage (&buf, seq++); CL_WriteSetDemoMessage(); //FIXME: make sure the deltas are reset // done break; #ifdef Q2CLIENT case CP_QUAKE2: cls.demorecording = DPB_QUAKE2; MSG_WriteByte (&buf, svcq2_serverdata); if (cls.fteprotocolextensions) //maintain demo compatability { MSG_WriteLong (&buf, PROTOCOL_VERSION_FTE); MSG_WriteLong (&buf, cls.fteprotocolextensions); } if (cls.fteprotocolextensions2) //maintain demo compatability { MSG_WriteLong (&buf, PROTOCOL_VERSION_FTE2); MSG_WriteLong (&buf, cls.fteprotocolextensions2); } MSG_WriteLong (&buf, cls.protocol_q2); MSG_WriteLong (&buf, 0x80000000 + cl.servercount); MSG_WriteByte (&buf, 1); MSG_WriteString (&buf, gamedirfile); MSG_WriteShort (&buf, cl.playerview[0].playernum); MSG_WriteString (&buf, cl.levelname); for (i = 0; i < Q2MAX_CONFIGSTRINGS; i++) { const char *cs = Get_Q2ConfigString(i); if (buf.cursize + 4 + strlen(cs) > buf.maxsize) { CL_WriteRecordQ2DemoMessage (&buf); SZ_Clear (&buf); } MSG_WriteByte (&buf, svcq2_configstring); MSG_WriteShort (&buf, i); MSG_WriteString (&buf, cs); } CLQ2_WriteDemoBaselines(&buf); MSG_WriteByte (&buf, svcq2_stufftext); MSG_WriteString (&buf, "precache\n"); CL_WriteRecordQ2DemoMessage (&buf); break; #endif case CP_NETQUAKE: //FIXME default: Con_Printf("Unable to begin demo recording with this network protocol\n"); CL_Stop_f(); break; } } /* ==================== CL_ReRecord_f record ==================== */ void CL_ReRecord_f (void) { int c; char name[MAX_OSPATH]; char *s; c = Cmd_Argc(); if (c != 2) { Con_Printf ("rerecord \n"); return; } if (!*cls.servername) { Con_Printf("No server to reconnect to...\n"); return; } if (cls.demorecording) CL_Stop_f(); s = Cmd_Argv(1); if (strstr(s, "..")) { Con_Printf ("Relative paths not allowed.\n"); return; } Q_snprintfz (name, sizeof(name), "%s", s); // // open the demo file // switch (cls.protocol) { default: case CP_QUAKEWORLD: cls.demorecording = DPB_QUAKEWORLD; COM_RequireExtension (name, ".qwd", sizeof(name)); break; #ifdef NQPROT case CP_NETQUAKE: cls.demorecording = DPB_NETQUAKE; COM_RequireExtension (name, ".dem", sizeof(name)); break; #endif #ifdef Q2CLIENT case CP_QUAKE2: cls.demorecording = DPB_QUAKE2; COM_RequireExtension (name, ".dm2", sizeof(name)); break; #endif } cls.demooutfile = FS_OpenVFS (name, "wb", FS_GAME); if (!cls.demooutfile) { Con_Printf ("ERROR: couldn't open.\n"); cls.demorecording = DPB_NONE; return; } Con_Printf ("recording to %s.\n", name); CL_Disconnect(); CL_BeginServerReconnect(); } /* ==================== CL_PlayDemo_f play [demoname] ==================== */ void CL_PlayDownloadedDemo(struct dl_download *dl); void CL_PlayDemo_f (void) { char *demoname; if (Cmd_Argc() != 2) { Con_Printf ("playdemo : plays a demo\n"); return; } if (cls.state == ca_demostart) cls.state = ca_disconnected; #ifdef WEBCLIENT #if 1 if (!strncmp(Cmd_Argv(1), "ftp://", 6) || !strncmp(Cmd_Argv(1), "http://", 7)) { if (Cmd_ExecLevel == RESTRICT_LOCAL) HTTP_CL_Get(Cmd_Argv(1), COM_SkipPath(Cmd_Argv(1)), CL_PlayDownloadedDemo); return; } #endif #endif demoname = Cmd_Argv(1); if (*demoname == '#') { if (Cmd_FromGamecode()) return; CL_PlayDemo(demoname+1, true); } else CL_PlayDemo(demoname, false); } void CL_DemoStreamFullyDownloaded(struct dl_download *dl) { //let the file get closed by the demo playback code. dl->file = NULL; //kill the reference now that its done. if (cls.demoindownload == dl) cls.demoindownload = NULL; } //dl is provided so that we can receive files via chunked/gziped http downloads and on systems that don't provide sockets etc. its tracked so we can cancel the download if the client aborts playback early. void CL_PlayDemoStream(vfsfile_t *file, struct dl_download *dl, char *filename, qboolean issyspath, int demotype, float bufferdelay) { int protocol = CP_UNKNOWN; if (demotype == DPB_NONE) { //peek etc? } switch(demotype) { case DPB_EZTV: case DPB_MVD: case DPB_QUAKEWORLD: protocol = CP_QUAKEWORLD; break; #ifdef Q2CLIENT case DPB_QUAKE2: protocol = CP_QUAKE2; break; #endif #ifdef NQPROT case DPB_NETQUAKE: protocol = CP_NETQUAKE; break; #endif default: break; } if (protocol == CP_UNKNOWN) { Con_Printf ("ERROR: demo format not supported: \"%s\".\n", filename); return; } if (dl) dl->notifycomplete = CL_DemoStreamFullyDownloaded; // // disconnect from server // CL_Disconnect_f (); demo_flushcache(); NET_InitClient(true); // // open the demo file // cls.demoindownload = dl; cls.demoinfile = file; if (!cls.demoinfile) { Con_Printf ("ERROR: couldn't open \"%s\".\n", filename); cls.demonum = -1; // stop demo loop return; } if (filename) { Q_strncpyz (lastdemoname, filename, sizeof(lastdemoname)); lastdemowassystempath = issyspath; Con_Printf ("Playing demo from %s.\n", filename); } cls.findtrack = (demotype == DPB_MVD || demotype == DPB_EZTV); cls.demoplayback = demotype; cls.protocol = protocol; cls.state = ca_demostart; net_message.packing = SZ_RAWBYTES; Netchan_Setup (NS_CLIENT, &cls.netchan, &net_from, 0); demtime = -bufferdelay; cls.demostarttime = 0; cl.gametime = -bufferdelay; cl.gametimemark = realtime;//demtime; if (demtime < -0.5) Con_Printf("Buffering for %g seconds\n", bufferdelay); cls.netchan.last_received=demtime; TP_ExecTrigger ("f_demostart", true); } vfsfile_t *CL_OpenFileInZipOrSys(char *name, qboolean usesystempath) { if (usesystempath) return VFSOS_Open(name, "rb"); else return CL_OpenFileInPackage(NULL, name); } //tries to determine the demo type void CL_PlayDemoFile(vfsfile_t *f, char *demoname, qboolean issyspath) { #if defined(Q2CLIENT) || defined(NQPROT) //figure out where we started qofs_t start = VFS_TELL(f); #endif if (!VFS_GETLEN (f)) { VFS_CLOSE(f); Con_Printf ("demo \"%s\" is empty.\n", demoname); return; } #ifdef Q2CLIENT { int len; char type; int protocol; //check if its a quake2 demo. VFS_READ(f, &len, sizeof(len)); VFS_READ(f, &type, sizeof(type)); VFS_READ(f, &protocol, sizeof(protocol)); VFS_SEEK(f, start); len = LittleLong(len); protocol = LittleLong(protocol); if (len > 5 && type == svcq2_serverdata && protocol != 0) { CL_PlayDemoStream(f, NULL, demoname, issyspath, DPB_QUAKE2, 0); return; } VFS_SEEK(f, start); } #endif #ifdef NQPROT { int ft = 0, neg = false; char chr; //not quake2, check if its NQ //work out if the first line is a int for the track number. while ((VFS_READ(f, &chr, 1)==1) && (chr != '\n')) { if (chr == ' ') ; else if (chr == '-') neg = true; else if (chr < '0' || chr > '9') break; else ft = ft * 10 + ((int)chr - '0'); } if (neg) ft *= -1; if (chr == '\n') { CL_PlayDemoStream(f, NULL, demoname, issyspath, DPB_NETQUAKE, 0); return; } VFS_SEEK(f, start); } #endif //its not NQ then. must be QuakeWorld, either .qwd or .mvd //could also be .qwz or .dmz or whatever that nq extension is. we don't support either. //mvd and qwd have no identifying markers, other than the extension. if (!Q_strcasecmp(demoname + strlen(demoname) - 3, "mvd") || !Q_strcasecmp(demoname + strlen(demoname) - 6, "mvd.gz")) CL_PlayDemoStream(f, NULL, demoname, issyspath, DPB_MVD, 0); else CL_PlayDemoStream(f, NULL, demoname, issyspath, DPB_QUAKEWORLD, 0); } #ifdef WEBCLIENT void CL_PlayDownloadedDemo(struct dl_download *dl) { if (dl->status != DL_FINISHED || !dl->file) Con_Printf("Failed to download %s\n", dl->url); else { CL_PlayDemoFile(dl->file, dl->url, false); dl->file = NULL; } } #endif void CL_PlayDemo(char *demoname, qboolean usesystempath) { char name[256]; vfsfile_t *f; // // open the demo file // Q_strncpyz (name, demoname, sizeof(name)); COM_DefaultExtension (name, ".qwd", sizeof(name)); f = CL_OpenFileInZipOrSys(name, usesystempath); if (!f) { Q_strncpyz (name, demoname, sizeof(name)); COM_DefaultExtension (name, ".dem", sizeof(name)); if (usesystempath) f = VFSOS_Open(name, "rb"); else f = FS_OpenVFS(name, "rb", FS_GAME); } if (!f) { Q_strncpyz (name, demoname, sizeof(name)); COM_DefaultExtension (name, ".mvd", sizeof(name)); if (usesystempath) f = VFSOS_Open(name, "rb"); else f = FS_OpenVFS(name, "rb", FS_GAME); } if (!f) { Q_strncpyz (name, demoname, sizeof(name)); COM_DefaultExtension (name, ".dm2", sizeof(name)); if (usesystempath) f = VFSOS_Open(name, "rb"); else f = FS_OpenVFS(name, "rb", FS_GAME); } if (!f) { Con_Printf ("ERROR: couldn't open \"%s\".\n", demoname); cls.demonum = -1; // stop demo loop TP_ExecTrigger ("f_demoend", true); return; } Q_strncpyz (lastdemoname, demoname, sizeof(lastdemoname)); CL_PlayDemoFile(f, name, usesystempath); } /*used with qtv*/ void CL_Demo_ClientCommand(char *commandtext) { unsigned char b = 1; unsigned short len = LittleShort((unsigned short)(strlen(commandtext) + 4)); #ifdef warningmsg #pragma warningmsg("this needs buffering safely") #endif if (cls.demoplayback == DPB_EZTV) { VFS_WRITE(cls.demoinfile, &len, sizeof(len)); VFS_WRITE(cls.demoinfile, &b, sizeof(b)); VFS_WRITE(cls.demoinfile, commandtext, strlen(commandtext)+1); } } char qtvhostname[1024]; char qtvrequestbuffer[4096]; int qtvrequestsize; char qtvrequestcmdbuffer[4096]; int qtvrequestcmdsize; vfsfile_t *qtvrequest; void CL_QTVPoll (void) { char *s, *e, *colon; char *tail = NULL; int len; qboolean streamavailable = false; qboolean saidheader = false; #ifndef NOBUILTINMENUS menu_t *sourcesmenu = NULL; #endif int sourcenum = 0; int streamid; int numplayers = 0; int numviewers = 0; qboolean init_numplayers = false; qboolean init_numviewers = false; qboolean iseztv = false; char srchost[256]; if (!qtvrequest) return; if (qtvrequestcmdsize) { len = VFS_WRITE(qtvrequest, qtvrequestcmdbuffer, qtvrequestcmdsize); if (len > 0) { memmove(qtvrequestcmdbuffer, qtvrequestcmdbuffer+len, qtvrequestcmdsize-len); qtvrequestcmdsize -= len; } } for(;;) { len = VFS_READ(qtvrequest, qtvrequestbuffer+qtvrequestsize, (sizeof(qtvrequestbuffer) - qtvrequestsize -1 > 0)?1:0); if (len <= 0) break; qtvrequestsize += len; } qtvrequestbuffer[qtvrequestsize] = '\0'; if (qtvrequestsize >= sizeof(qtvrequestbuffer) - 1) { //flag it as an error if the response is larger than we can handle. //this error gets ignored if the header is okay (any actual errors will get reported again by the demo code anyway), and only counts if the end of the reply header was not found. len = -1; } if (!qtvrequestsize && len == 0) return; //make sure it's a compleate chunk. for (s = qtvrequestbuffer; *s; s++) { if (s[0] == '\n' && s[1] == '\n') { tail = s+2; break; } if (s[0] == '\r' && s[1] == '\n' && s[2] == '\r' && s[3] == '\n') { tail = s+4; break; } if (s[0] == '\r' && s[1] == '\n' && s[2] == '\n') { tail = s+3; break; } if (s[0] == '\n' && s[1] == '\r' && s[2] == '\n') { tail = s+3; break; } } if (!tail) { if (len < 0) { if (!qtvrequestsize) Con_Printf("Connection to QTV server closed without any reply.\n"); else Con_Printf("invalid QTV handshake\n"); SCR_SetLoadingStage(LS_NONE); VFS_CLOSE(qtvrequest); qtvrequest = NULL; qtvrequestsize = 0; } return; } s[1] = '\0'; //make sure its null terminated before the data payload s = qtvrequestbuffer; for (e = s; *e; ) { if (*e == '\r') *e = '\0'; else if (*e == '\n') { *e = '\0'; colon = strchr(s, ':'); if (colon) *colon++ = '\0'; else colon = ""; if (!strcmp(s, "PERROR")) { //permanent printable error Con_Printf("QTV Error:\n%s\n", colon); } else if (!strcmp(s, "PRINT")) { //printable error Con_Printf("QTV:\n%s\n", colon); } else if (!strcmp(s, "TERROR")) { //temporary printable error Con_Printf("QTV Error:\n%s\n", colon); } else if (!strcmp(s, "ADEMO")) { //printable error Con_Printf("Demo%s is available\n", colon); } //generic sourcelist responce else if (!strcmp(s, "ASOURCE")) { //printable source if (!saidheader) { saidheader=true; Con_Printf("Available Sources:\n"); } Con_Printf("%s\n", colon); //we're too lazy to even try and parse this } else if (!strcmp(s, "BEGIN")) { while (*colon && *(unsigned char*)colon <= ' ') colon++; if (*colon) Con_Printf("streaming \"%s\" from qtv\n", colon); else Con_Printf("qtv connection established to %s\n", qtvhostname); streamavailable = true; } //eztv extensions to v1.0 else if (!strcmp(s, "QTV_EZQUAKE_EXT")) { iseztv = true; Con_Printf("Warning: eztv extensions %s\n", colon); } //v1.1 sourcelist response includes SRCSRV, SRCHOST, SRCPLYRS, SRCVIEWS, SRCID else if (!strcmp(s, "SRCSRV")) { //the proxy's source string (beware of file:blah without file:blah@blah) } else if (!strcmp(s, "SRCHOST")) { //the hostname from the server the stream came from Q_strncpyz(srchost, colon, sizeof(srchost)); } else if (!strcmp(s, "SRCPLYRS")) { //number of active players actually playing on that stream numplayers = atoi(colon); init_numplayers = true; } else if (!strcmp(s, "SRCVIEWS")) { //number of people watching this stream on the proxy itself numviewers = atoi(colon); init_numviewers = true; } else if (!strcmp(s, "SRCID")) { streamid = atoi(colon); #ifndef NOBUILTINMENUS //now put it on a menu if (!sourcesmenu) { m_state = m_complex; Key_Dest_Add(kdm_emenu); sourcesmenu = M_CreateMenu(0); MC_AddPicture(sourcesmenu, 16, 4, 32, 144, "gfx/qplaque.lmp"); MC_AddCenterPicture(sourcesmenu, 4, 24, "gfx/p_option.lmp"); } if (init_numplayers == true && init_numviewers == true) MC_AddConsoleCommand(sourcesmenu, 42, 170, (sourcenum++)*8 + 32, va("%s (p%i, v%i)", srchost, numplayers, numviewers), va("qtvplay %i@%s\n", streamid, qtvhostname)); //else // FIXME: add error message here #endif } //end of sourcelist entry //from e to s, we have a line s = e+1; } e++; } if (streamavailable) { CL_PlayDemoStream(qtvrequest, NULL, NULL, false, iseztv?DPB_EZTV:DPB_MVD, BUFFERTIME); qtvrequest = NULL; demo_resetcache(qtvrequestsize - (tail-qtvrequestbuffer), tail); return; } SCR_SetLoadingStage(LS_NONE); VFS_CLOSE(qtvrequest); qtvrequest = NULL; qtvrequestsize = 0; } char *strchrrev(char *str, char chr) { char *firstchar = str; for (str = str + strlen(str)-1; str>=firstchar; str--) if (*str == chr) return str; return NULL; } void CL_ParseQTVFile(vfsfile_t *f, const char *fname, qtvfile_t *result) { char buffer[2048]; char *s; memset(result, 0, sizeof(*result)); if (!f) { Con_Printf("Couldn't open QTV file: %s\n", fname); return; } if (!VFS_GETS(f, buffer, sizeof(buffer)-1)) { Con_Printf("Empty QTV file: %s\n", fname); VFS_CLOSE(f); return; } s = buffer; while (*s == ' ' || *s == '\t') s++; if (*s != '[') { Con_Printf("Bad QTV file: %s\n", fname); VFS_CLOSE(f); return; } s++; while (*s == ' ' || *s == '\t') s++; if (strnicmp(s, "QTV", 3)) { Con_Printf("Bad QTV file: %s\n", fname); VFS_CLOSE(f); return; } s+=3; while (*s == ' ' || *s == '\t') s++; if (*s != ']') { Con_Printf("Bad QTV file: %s\n", fname); VFS_CLOSE(f); return; } s++; while (*s == ' ' || *s == '\t' || *s == '\r') s++; if (*s) { Con_Printf("Bad QTV file: %s\n", fname); VFS_CLOSE(f); return; } while (VFS_GETS(f, buffer, sizeof(buffer)-1)) { s = COM_ParseToken(buffer, ":="); if (*s != '=' && *s != ':') s = ""; else s++; if (!stricmp(com_token, "stream")) { result->connectiontype = QTVCT_STREAM; s = COM_ParseOut(s, result->server, sizeof(result->server)); } else if (!stricmp(com_token, "connect")) { result->connectiontype = QTVCT_CONNECT; s = COM_ParseOut(s, result->server, sizeof(result->server)); } else if (!stricmp(com_token, "join")) { result->connectiontype = QTVCT_JOIN; s = COM_ParseOut(s, result->server, sizeof(result->server)); } else if (!stricmp(com_token, "observe")) { result->connectiontype = QTVCT_OBSERVE; s = COM_ParseOut(s, result->server, sizeof(result->server)); } else if (!stricmp(com_token, "splash")) { s = COM_ParseOut(s, result->splashscreen, sizeof(result->server)); } } VFS_CLOSE(f); } void CL_ParseQTVDescriptor(vfsfile_t *f, const char *name) { char buffer[1024]; char *s; if (!f) { Con_Printf("Couldn't open QTV file: %s\n", name); return; } while (VFS_GETS(f, buffer, sizeof(buffer)-1)) { if (!strncmp(buffer, "Stream=", 7) || !strncmp(buffer, "Stream:", 7)) { for (s = buffer + strlen(buffer)-1; s >= buffer; s--) { if (*s == '\r' || *s == '\n' || *s == ';') *s = 0; else break; } s = buffer+7; while(*s && *s <= ' ') s++; Cbuf_AddText(va("qtvplay \"%s\"\n", s), Cmd_ExecLevel); break; } if (!strncmp(buffer, "Connect=", 8) || !strncmp(buffer, "Connect:", 8)) { for (s = buffer + strlen(buffer)-1; s >= buffer; s--) { if (*s == '\r' || *s == '\n' || *s == ';') *s = 0; else break; } s = buffer+8; while(*s && *s <= ' ') s++; Cbuf_AddText(va("connect \"%s\"\n", s), Cmd_ExecLevel); break; } if (!strncmp(buffer, "Join=", 5) || !strncmp(buffer, "Join:", 5)) { for (s = buffer + strlen(buffer)-1; s >= buffer; s--) { if (*s == '\r' || *s == '\n' || *s == ';') *s = 0; else break; } s = buffer+5; while(*s && *s <= ' ') s++; Cbuf_AddText(va("join \"%s\"\n", s), Cmd_ExecLevel); break; } if (!strncmp(buffer, "Observe=", 8) || !strncmp(buffer, "Observe:", 8)) { for (s = buffer + strlen(buffer)-1; s >= buffer; s--) { if (*s == '\r' || *s == '\n' || *s == ';') *s = 0; else break; } s = buffer+8; while(*s && *s <= ' ') s++; Cbuf_AddText(va("observe \"%s\"\n", s), Cmd_ExecLevel); break; } } VFS_CLOSE(f); } void CL_QTVPlay_f (void) { qboolean raw=0; char *connrequest; vfsfile_t *newf; char *host; char msg[4096]; int msglen=0; if (Cmd_Argc() < 2) { Con_Printf("Usage: qtvplay [stream@]hostname[:port] [password]\n"); return; } connrequest = Cmd_Argv(1); if (*connrequest == '#') { //#FILENAME is a local system path CL_ParseQTVDescriptor(VFSOS_Open(connrequest+1, "rt"), connrequest+1); return; } strcpy(cls.servername, "qtv:"); Q_strncpyz(cls.servername+4, connrequest, sizeof(cls.servername)-4); SCR_SetLoadingStage(LS_CONNECTION); host = connrequest; connrequest = strchrrev(connrequest, '@'); if (connrequest) host = connrequest+1; Q_strncpyz(qtvhostname, host, sizeof(qtvhostname)); newf = FS_OpenTCP(qtvhostname, 27599); if (!newf) { SCR_SetLoadingStage(LS_NONE); Con_Printf("Couldn't connect to proxy\n"); return; } host = Cmd_Argv(1); if (connrequest) *connrequest = '\0'; else host = NULL; if (qtvcl_forceversion1.ival) { Q_snprintfz(msg+msglen, sizeof(msg)-msglen, "QTV\n" "VERSION: 1.0\n"); } else { Q_snprintfz(msg+msglen, sizeof(msg)-msglen, "QTV\n" "VERSION: 1.1\n"); } msglen += strlen(msg+msglen); if (qtvcl_eztvextensions.ival) { raw = 0; Q_snprintfz(msg+msglen, sizeof(msg)-msglen, "QTV_EZQUAKE_EXT: 3\n" "USERINFO: %s\n", cls.userinfo[0]); msglen += strlen(msg+msglen); } else if (raw) { Q_snprintfz(msg+msglen, sizeof(msg)-msglen, "RAW: 1\n"); msglen += strlen(msg+msglen); } if (host) { Q_snprintfz(msg+msglen, sizeof(msg)-msglen, "SOURCE: %s\n", host); msglen += strlen(msg+msglen); } else { Q_snprintfz(msg+msglen, sizeof(msg)-msglen, "SOURCELIST\n"); msglen += strlen(msg+msglen); } Q_snprintfz(msg+msglen, sizeof(msg)-msglen, "\n"); msglen += strlen(msg+msglen); if (raw) { VFS_WRITE(newf, msg, msglen); CL_PlayDemoStream(qtvrequest, NULL, qtvhostname, false, DPB_MVD, BUFFERTIME); } else { if (qtvrequest) VFS_CLOSE(qtvrequest); memcpy(qtvrequestcmdbuffer, msg, msglen); qtvrequestcmdsize = msglen; qtvrequest = newf; qtvrequestsize = 0; } } void CL_QTVList_f (void) { char *connrequest; vfsfile_t *newf; newf = FS_OpenTCP(qtvhostname, 27599); if (!newf) { Con_Printf("Couldn't connect to proxy\n"); return; } if (qtvcl_forceversion1.ival) { connrequest = "QTV\n" "VERSION: 1.0\n"; } else { connrequest = "QTV\n" "VERSION: 1.1\n"; } VFS_WRITE(newf, connrequest, strlen(connrequest)); connrequest = "SOURCELIST\n"; VFS_WRITE(newf, connrequest, strlen(connrequest)); connrequest = "\n"; VFS_WRITE(newf, connrequest, strlen(connrequest)); if (qtvrequest) VFS_CLOSE(qtvrequest); qtvrequest = newf; qtvrequestsize = 0; } void CL_QTVDemos_f (void) { char *connrequest; vfsfile_t *newf; newf = FS_OpenTCP(Cmd_Argv(1), 27599); if (!newf) { Con_Printf("Couldn't connect to proxy\n"); return; } connrequest = "QTV\n" "VERSION: 1\n"; VFS_WRITE(newf, connrequest, strlen(connrequest)); connrequest = "DEMOLIST\n"; VFS_WRITE(newf, connrequest, strlen(connrequest)); connrequest = "\n"; VFS_WRITE(newf, connrequest, strlen(connrequest)); if (qtvrequest) VFS_CLOSE(qtvrequest); qtvrequest = newf; qtvrequestsize = 0; } /* ==================== CL_FinishTimeDemo ==================== */ void CL_FinishTimeDemo (void) { int frames; float time; cvar_t *vw; cls.timedemo = false; // loading frames don't count if (cls.td_startframe == -1) { Con_Printf ("demo didn't finish loading\n"); frames = 0; } else frames = (host_framecount - cls.td_startframe) - 1; time = Sys_DoubleTime() - cls.td_starttime; if (!time) time = 1; Con_Printf ("%i frames %5.1f seconds %5.1f fps\n", frames, time, frames/time); cls.td_startframe = 0; TP_ExecTrigger ("f_timedemoend", true); vw = Cvar_FindVar("vid_wait"); Cvar_Set(vw, vw->string); } /* ==================== CL_TimeDemo_f timedemo [demoname] ==================== */ void CL_TimeDemo_f (void) { cvar_t *vw; if (Cmd_Argc() != 2) { Con_Printf ("timedemo : gets demo speeds\n"); return; } CL_PlayDemo_f (); if (cls.state != ca_demostart) return; vw = Cvar_FindVar("vid_wait"); if (vw) { char *t = vw->string; vw->string = "0"; vw->value = 0; Cvar_ForceCallback(vw); vw->string = t; } //read the initial frame so load times don't count as part of the time // CL_ReadPackets(); // cls.td_starttime will be grabbed at the second frame of the demo, so // all the loading time doesn't get counted cls.timedemo = true; cls.td_starttime = Sys_DoubleTime(); cls.td_startframe = -1; cls.td_lastframe = -1; // get a new message this frame }