#include "quakedef.h" #ifndef CLIENTONLY /*Testing this code should typically be done with the three following mods: Prydon gate Nexuiz FrikBots (both NQ+QW). If those 3 mods work, then pretty much everything else will */ //#define NEWPREPARSE /*I want to rewrite this to use something like */ #ifdef NEWPREPARSE enum protocol_type { PPT_FLOAT, PPT_ENT, PPT_COORD, PPT_ANGLE, PPT_BYTE, PPT_SHORT, PPT_LONG, PPT_STRING }; #define PPT_POS PPT_COORD,PPT_COORD,PPT_COORD union protocol_data { float fd; int id; unsigned char *str; }; static union protocol_data pp_data[1024]; static enum protocol_type pp_temptypes[1024], *pp_types; static unsigned char pp_sdata[4096]; static unsigned int pp_sdata_offset; static int pp_dest; static qboolean pp_fault; static unsigned int pp_expectedelements; static unsigned int pp_receivedelements; static qboolean (*pp_curdecision) (enum protocol_type *pt, union protocol_data *pd); static enum protocol_type pp_root[] = {PPT_BYTE}; static qboolean pp_root_decide(enum protocol_type *pt, union protocol_data *pd); static void decide(enum protocol_type *types, unsigned int numtypes, qboolean (*newdecision) (enum protocol_type *pt, union protocol_data *pd)) { pp_types = types; pp_expectedelements = numtypes; pp_curdecision = newdecision; } static void pp_flush(multicast_t to, vec3_t origin, void (*flushfunc)(client_t *cl, sizebuf_t *msg, enum protocol_type *pt, union protocol_data *pd), enum protocol_type *pt, union protocol_data *pd) { client_t *client; qbyte *mask; int leafnum; int j; qboolean reliable; decide(pp_root, 1, pp_root_decide); { reliable = false; switch (to) { case MULTICAST_ALL_R: reliable = true; // intentional fallthrough case MULTICAST_ALL: mask = sv.pvs; // leaf 0 is everything; break; case MULTICAST_PHS_R: reliable = true; // intentional fallthrough case MULTICAST_PHS: if (!sv.phs) mask = sv.pvs; else { leafnum = sv.world.worldmodel->funcs.LeafnumForPoint(sv.world.worldmodel, origin); mask = sv.phs + leafnum * 4*((sv.world.worldmodel->numleafs+31)>>5); } break; case MULTICAST_PVS_R: reliable = true; // intentional fallthrough case MULTICAST_PVS: leafnum = sv.world.worldmodel->funcs.LeafnumForPoint(sv.world.worldmodel, origin); mask = sv.pvs + leafnum * 4*((sv.world.worldmodel->numleafs+31)>>5); break; default: return; } // send the data to all relevent clients for (j = 0, client = svs.clients; j < sv.allocated_client_slots; j++, client++) { if (client->state != cs_spawned) continue; if (client->controller) continue; //FIXME: send if at least one of the players is near enough. if (!((int)client->edict->xv->dimension_see & (int)pr_global_struct->dimension_send)) continue; if (to == MULTICAST_PHS_R || to == MULTICAST_PHS) { vec3_t delta; VectorSubtract(origin, client->edict->v->origin, delta); if (Length(delta) <= 1024) goto inrange; } // -1 is because pvs rows are 1 based, not 0 based like leafs if (mask != sv.pvs) { leafnum = sv.world.worldmodel->funcs.LeafnumForPoint (sv.world.worldmodel, client->edict->v->origin)-1; if ( !(mask[leafnum>>3] & (1<<(leafnum&7)) ) ) { continue; } } inrange: if (client->protocol == SCP_BAD) { /*bot*/ continue; } if (reliable) flushfunc(client, &client->netchan.message, pt, pd); else flushfunc(client, &client->datagram, pt, pd); } } /* if (sv.mvdrecording && !with) //mvds don't get the pext stuff { flushfunc(&dem.recorder, if (reliable) { MVDWrite_Begin(dem_all, 0, sv.multicast.cursize); SZ_Write(&demo.dbuf->sb, sv.multicast.data, sv.multicast.cursize); } else SZ_Write(&demo.datagram, sv.multicast.data, sv.multicast.cursize); }*/ pp_sdata_offset = 0; pp_receivedelements = 0; } #define DECIDE(t) decide(t, sizeof(t)/sizeof(*t), t##_decide) #define DECIDE2(t,f) decide(t, sizeof(t)/sizeof(*t), f) static void pp_identity_flush(client_t *cl, sizebuf_t *msg, enum protocol_type *pt, union protocol_data *pd) { unsigned int i; for (i = 0; i < pp_receivedelements; i++) { switch(pt[i]) { case PPT_BYTE: MSG_WriteByte(msg, pd[i].id); break; case PPT_ENT: MSG_WriteEntity(msg, pd[i].id); break; case PPT_SHORT: MSG_WriteShort(msg, pd[i].id); break; case PPT_COORD: MSG_WriteCoord(msg, pd[i].fd); break; case PPT_ANGLE: MSG_WriteAngle(msg, pd[i].fd); break; case PPT_STRING: MSG_WriteString(msg, pd[i].str); break; } } } /*flush is our last attempt to cope with unrecognised/invalid messages, it will send stuff though as it was, and most likely get things wrong*/ void NPP_Flush(void) { pp_fault = false; pp_flush(MULTICAST_ALL_R, NULL, pp_identity_flush, pp_types, pp_data); } static void pp_entry(int dest, enum protocol_type pt, union protocol_data pd) { if (pp_receivedelements) { if (pp_dest != dest) { if (!pp_fault) Con_Printf("Preparse: MSG destination changed in the middle of a packet 0x%x.\n", pp_data[0].id); NPP_Flush(); } } pp_dest = dest; if (pp_fault) { pp_types[pp_receivedelements] = pt; pp_data[pp_receivedelements] = pd; pp_receivedelements++; } else if (pp_types[pp_receivedelements] != pt) { Con_Printf("Preparse: Unmatched expectation at entry %i in svc 0x%x.\n", pp_receivedelements+1, pp_data[0].id); pp_types[pp_receivedelements] = pt; pp_data[pp_receivedelements] = pd; pp_receivedelements++; faulted: pp_fault = true; if (pp_temptypes != pp_types) { memcpy(pp_temptypes, pp_types, sizeof(*pp_temptypes)*pp_receivedelements); pp_types = pp_temptypes; } } else { pp_data[pp_receivedelements++] = pd; if (pp_expectedelements == pp_receivedelements) { if (!pp_curdecision(pp_types, pp_data)) { if (pp_types[pp_receivedelements-1] == PPT_BYTE) Con_Printf("Preparse: Unhandled byte %i@%i in svc%i.\n", pd.id, pp_receivedelements, pp_data[0].id); else Con_Printf("Preparse: Unhandled data @%i in svc%i.\n", pp_receivedelements, pp_data[0].id); goto faulted; } } } } void NPP_NQWriteByte(int dest, qbyte data) { union protocol_data pd; pd.id = data; pp_entry(dest, PPT_BYTE, pd); } void NPP_NQWriteChar(int dest, char data) { union protocol_data pd; pd.id = (unsigned char)data; pp_entry(dest, PPT_BYTE, pd); } void NPP_NQWriteShort(int dest, short data) { union protocol_data pd; pd.id = (unsigned char)data; pp_entry(dest, PPT_SHORT, pd); } void NPP_NQWriteLong(int dest, long data) { union protocol_data pd; pd.id = data; pp_entry(dest, PPT_LONG, pd); } void NPP_NQWriteAngle(int dest, float data) { union protocol_data pd; pd.fd = data; pp_entry(dest, PPT_ANGLE, pd); } void NPP_NQWriteCoord(int dest, float data) { union protocol_data pd; pd.fd = data; pp_entry(dest, PPT_COORD, pd); } void NPP_NQWriteString(int dest, char *data) { unsigned int l; union protocol_data pd; l = strlen(data)+1; if (pp_sdata_offset + l > sizeof(pp_sdata)) SV_Error("preparse string overflow\n"); pd.str = pp_sdata + pp_sdata_offset; memcpy(pd.str, data, l); pp_entry(dest, PPT_STRING, pd); } void NPP_NQWriteEntity(int dest, short data) { union protocol_data pd; pd.id = (unsigned short)data; pp_entry(dest, PPT_ENTITY, pd); } void NPP_QWWriteByte(int dest, qbyte data) { NPP_NQWriteByte(dest, data); } void NPP_QWWriteChar(int dest, char data) { NPP_NQWriteChar(dest, data); } void NPP_QWWriteShort(int dest, short data) { NPP_NQWriteShort(dest, data); } void NPP_QWWriteLong(int dest, long data) { NPP_NQWriteLong(dest, data); } void NPP_QWWriteAngle(int dest, float data) { NPP_NQWriteAngle(dest, data); } void NPP_QWWriteCoord(int dest, float data) { NPP_NQWriteCoord(dest, data); } void NPP_QWWriteString(int dest, char *data) { NPP_NQWriteString(dest, data); } void NPP_QWWriteEntity(int dest, short data) { NPP_NQWriteEntity(dest, data); } static enum protocol_type pp_svc_temp_entity_beam[] = {PPT_BYTE, PPT_BYTE, PPT_ENT, PPT_POS, PPT_POS}; static void pp_svc_temp_entity_beam_flush(client_t *cl, sizebuf_t *msg, enum protocol_type *pt, union protocol_data *pd) { MSG_WriteByte(msg, pd[0].id); MSG_WriteByte(msg, pd[1].id); MSG_WriteEntity(msg, pd[2].id); MSG_WriteCoord(msg, pd[3].fd); MSG_WriteCoord(msg, pd[4].fd); MSG_WriteCoord(msg, pd[5].fd); MSG_WriteCoord(msg, pd[6].fd); MSG_WriteCoord(msg, pd[7].fd); MSG_WriteCoord(msg, pd[8].fd); } static qboolean pp_svc_temp_entity_beam_decide(enum protocol_type *pt, union protocol_data *pd) { vec3_t org; org[0] = pd[3].fd; org[1] = pd[4].fd; org[2] = pd[5].fd; pp_flush(MULTICAST_PHS, org, pp_svc_temp_entity_beam_flush, pt, pd); return true; } static void pp_svc_temp_entity_gunshot_flush(client_t *cl, sizebuf_t *msg, enum protocol_type *pt, union protocol_data *pd) { int offset = (progstype == PROG_QW)?3:2; int count = (offset == 3)?pd[2].id:1; while (count > 0) { MSG_WriteByte(msg, pd[0].id); MSG_WriteByte(msg, pd[1].id); if (cl->protocol == SCP_QUAKEWORLD) { if (count > 255) { MSG_WriteByte(msg, 255); count-=255; } else { MSG_WriteByte(msg, count); count = 0; } } else count--; MSG_WriteCoord(msg, pd[offset+0].fd); MSG_WriteCoord(msg, pd[offset+1].fd); MSG_WriteCoord(msg, pd[offset+2].fd); } } static qboolean pp_svc_temp_entity_gunshot(enum protocol_type *pt, union protocol_data *pd) { vec3_t org; int offset = (progstype == PROG_QW)?3:2; org[0] = pd[offset+0].fd; org[1] = pd[offset+1].fd; org[2] = pd[offset+2].fd; pp_flush(MULTICAST_PHS, org, pp_svc_temp_entity_gunshot_flush, pt, pd); return true; } static qboolean pp_decide_pvs_2(enum protocol_type *pt, union protocol_data *pd) { vec3_t org; org[0] = pd[2].fd; org[1] = pd[3].fd; org[2] = pd[4].fd; pp_flush(MULTICAST_PVS, org, pp_identity_flush, pt, pd); return true; } static qboolean pp_decide_phs_2(enum protocol_type *pt, union protocol_data *pd) { vec3_t org; org[0] = pd[2].fd; org[1] = pd[3].fd; org[2] = pd[4].fd; pp_flush(MULTICAST_PHS, org, pp_identity_flush, pt, pd); return true; } static enum protocol_type pp_svc_temp_entity[] = {PPT_BYTE, PPT_BYTE}; static qboolean pp_svc_temp_entity_decide(enum protocol_type *pt, union protocol_data *pd) { switch(pd[1].id) { case TE_LIGHTNING1: case TE_LIGHTNING2: case TE_LIGHTNING3: DECIDE(pp_svc_temp_entity_beam); return true; case TE_EXPLOSION: case TEDP_EXPLOSIONQUAD: case TE_SPIKE: case TE_SUPERSPIKE: case TEDP_SPIKEQUAD: case TEDP_SUPERSPIKEQUAD: case TEDP_SMALLFLASH: { static enum protocol_type fmt[] = {PPT_BYTE, PPT_BYTE, PPT_POS}; DECIDE2(fmt, pp_decide_phs_2); } return true; case TEDP_GUNSHOTQUAD: case TE_TAREXPLOSION: case TE_WIZSPIKE: case TE_KNIGHTSPIKE: case TE_LAVASPLASH: case TE_TELEPORT: { static enum protocol_type fmt[] = {PPT_BYTE, PPT_BYTE, PPT_POS}; DECIDE2(fmt, pp_decide_pvs_2); } return true; case TE_GUNSHOT: if (progstype == PROG_QW) { static enum protocol_type fmt[] = {PPT_BYTE, PPT_BYTE, PPT_BYTE, PPT_POS}; DECIDE2(fmt, pp_svc_temp_entity_gunshot); } else { static enum protocol_type fmt[] = {PPT_BYTE, PPT_BYTE, PPT_POS}; DECIDE2(fmt, pp_svc_temp_entity_gunshot); } return true; case 12: if (progstype == PROG_QW) { /*TEQW_BLOOD*/ } else { /*TENQ_EXPLOSION2*/ } return false; case 13: if (progstype == PROG_QW) { /*TEQW_LIGHTNINGBLOOD*/ } else { /*TENQ_BEAM*/ } return false; case TEDP_BLOOD: case TEDP_SPARK: { static enum protocol_type fmt[] = {PPT_BYTE, PPT_BYTE, PPT_POS, PPT_BYTE,PPT_BYTE,PPT_BYTE, PPT_BYTE}; DECIDE2(fmt, pp_decide_pvs_2); } return true; case TE_BULLET: case TE_SUPERBULLET: case TE_RAILTRAIL: // hexen 2 case TEH2_STREAM_CHAIN: case TEH2_STREAM_SUNSTAFF1: case TEH2_STREAM_SUNSTAFF2: case TEH2_STREAM_LIGHTNING: case TEH2_STREAM_COLORBEAM: case TEH2_STREAM_ICECHUNKS: case TEH2_STREAM_GAZE: case TEH2_STREAM_FAMINE: case TEDP_BLOODSHOWER: case TEDP_EXPLOSIONRGB: case TEDP_PARTICLECUBE: case TEDP_PARTICLERAIN: // [vector] min [vector] max [vector] dir [short] count [byte] color case TEDP_PARTICLESNOW: // [vector] min [vector] max [vector] dir [short] count [byte] color case TEDP_CUSTOMFLASH: case TEDP_FLAMEJET: case TEDP_PLASMABURN: case TEDP_TEI_G3: case TEDP_SMOKE: case TEDP_TEI_BIGEXPLOSION: case TEDP_TEI_PLASMAHIT: default: return false; } } qboolean pp_root_decide(enum protocol_type *pt, union protocol_data *pd) { switch (pd[0].id) { case svc_temp_entity: DECIDE(pp_svc_temp_entity); return true; default: return false; } } #else static sizebuf_t *writedest; static client_t *cldest; struct netprim_s *destprim; static int majortype; static int minortype; static int protocollen; static qbyte buffer[MAX_QWMSGLEN]; static int bufferlen; static int nullterms; static int multicastpos; //writecoord*3 offset static int multicasttype; static int requireextension; static qboolean ignoreprotocol; static int te_515sevilhackworkaround; #define svc_setfrags 14 #define svc_updatecolors 17 #define svc_clearviewflags 41 //hexen2. //these are present in the darkplaces engine. //I wanna knick their mods. #define svcdp_skybox 37 #define svcdp_showlmp 35 // [string] slotname [string] lmpfilename [short] x [short] y #define svcdp_hidelmp 36 // [string] slotname #define TE_EXPLOSION3_NEH 16 // [vector] origin [coord] red [coord] green [coord] blue (fixme: ignored) #define TE_LIGHTNING4_NEH 17 // [string] model [entity] entity [vector] start [vector] end #define TE_EXPLOSIONSMALL2 20 // org. client_t *Write_GetClient(void); sizebuf_t *QWWriteDest (int dest); #ifdef NQPROT sizebuf_t *NQWriteDest (int dest); #endif void NPP_SetInfo(client_t *cl, char *key, char *value) { int i; Info_SetValueForKey (cl->userinfo, key, value, sizeof(cl->userinfo)); if (!*Info_ValueForKey (cl->userinfo, "name")) cl->name[0] = '\0'; else // process any changed values SV_ExtractFromUserinfo (cl, false); i = cl - svs.clients; MSG_WriteByte (&sv.reliable_datagram, svc_setinfo); MSG_WriteByte (&sv.reliable_datagram, i); MSG_WriteString (&sv.reliable_datagram, key); MSG_WriteString (&sv.reliable_datagram, Info_ValueForKey(cl->userinfo, key)); } void NPP_NQFlush(void) { if (!bufferlen) return; switch(majortype) { case svc_cdtrack: if (bufferlen!=protocollen) Con_Printf("NQFlush: svc_cdtrack wasn't the right length\n"); else bufferlen-=1; break; //ignore these. case svc_print: case svcdp_skybox: case svc_setfrags: bufferlen = 0; break; case svc_updatename: bufferlen = 0; NPP_SetInfo(&svs.clients[buffer[1]], "name", buffer+2); break; case svc_updatecolors: bufferlen = 0; NPP_SetInfo(&svs.clients[buffer[1]], "bottomcolor", va("%i", buffer[2]&15)); NPP_SetInfo(&svs.clients[buffer[1]], "topcolor", va("%i", buffer[2]/16)); break; case svc_intermission: // if (writedest == &sv.reliable_datagram) { client_t *cl; int i; for (i = 0, cl = svs.clients; i < sv.allocated_client_slots; i++, cl++) { if (cl->state == cs_spawned && ISQWCLIENT(cl)) { char *h2finale = NULL; char *h2title = NULL; if (cl->zquake_extensions & Z_EXT_SERVERTIME) { /* ClientReliableCheckBlock(cl, 6); ClientReliableWrite_Byte(cl, svc_updatestatlong); ClientReliableWrite_Byte(cl, STAT_TIME); ClientReliableWrite_Long(cl, (int)(sv.world.physicstime * 1000)); cl->nextservertimeupdate = sv.world.physicstime+10; */ } if (progstype == PROG_H2) { /*hexen2 does something like this in the client, but we don't support those protocols, so translate to something usable*/ char *title[13] = {"gfx/finale.lmp", "gfx/meso.lmp", "gfx/egypt.lmp", "gfx/roman.lmp", "gfx/castle.lmp", "gfx/castle.lmp", "gfx/end-1.lmp", "gfx/end-2.lmp", "gfx/end-3.lmp", "gfx/castle.lmp", "gfx/mpend.lmp", "gfx/mpmid.lmp", "gfx/end-3.lmp"}; int lookup[13] = {394, 395, 396, 397, 358, strcmp(T_GetString(400+5*2+1), "BAD STRING")?400+5*2+1:400+4*2, 386+6, 386+7, 386+8, 391, 538, 545, 561}; //5 is the demo sell screen, which changes depending on hexen2 vs portals. if (buffer[1] < 13) { h2title = title[buffer[1]]; h2finale = T_GetString(lookup[buffer[1]]); } } if (h2finale) { ClientReliableCheckBlock(cl, 3 + strlen(h2title) + 3 + strlen(h2finale) + 1); ClientReliableWrite_Byte(cl, svc_finale); ClientReliableWrite_Byte(cl, '/'); ClientReliableWrite_Byte(cl, 'I'); ClientReliableWrite_SZ(cl, h2title, strlen(h2title)); ClientReliableWrite_Byte(cl, ':'); ClientReliableWrite_Byte(cl, '/'); ClientReliableWrite_Byte(cl, 'P'); ClientReliableWrite_String(cl, h2finale); } else { ClientReliableCheckBlock(cl, 16); ClientReliableWrite_Byte(cl, svc_intermission); ClientReliableWrite_Coord(cl, cl->edict->v->origin[0]); ClientReliableWrite_Coord(cl, cl->edict->v->origin[1]); ClientReliableWrite_Coord(cl, cl->edict->v->origin[2]+cl->edict->v->view_ofs[2]); ClientReliableWrite_Angle(cl, cl->edict->v->angles[0]); ClientReliableWrite_Angle(cl, cl->edict->v->angles[1]); ClientReliableWrite_Angle(cl, cl->edict->v->angles[2]); } } } bufferlen = 0; protocollen=0; writedest = NULL; } break; // case svc_finale: // bufferlen = 0; // break; case svc_setview: // requireextension = PEXT_SETVIEW; if (cldest) //catch it to work with all clients { cldest->viewent = *(unsigned short*)&buffer[1]; // bufferlen = 0; if (cldest->viewent == (cldest - svs.clients)+1) cldest->viewent = 0; //self is the same as none } bufferlen = 0; break; case svcdp_hidelmp: requireextension = PEXT_SHOWPIC; buffer[0] = svcfte_hidepic; break; case svcdp_showlmp: requireextension = PEXT_SHOWPIC; memmove(buffer+2, buffer+1, bufferlen-1); bufferlen++; buffer[0] = svcfte_showpic; buffer[1] = 0; //top left //pad the bytes to shorts. buffer[bufferlen] = buffer[bufferlen-1]; buffer[bufferlen-1] = 0; buffer[bufferlen+1] = 0; bufferlen+=2; break; case svcfte_cgamepacket: if (sv.csqcdebug) { /*shift the data up by two bytes*/ memmove(buffer+3, buffer+1, bufferlen-1); /*add a length in the 2nd/3rd bytes*/ buffer[1] = (bufferlen-1); buffer[2] = (bufferlen-1) >> 8; bufferlen += 2; } break; case svc_temp_entity: switch (buffer[1]) { default: if (te_515sevilhackworkaround) { /*shift the data up by two bytes, but don't care about the first byte*/ memmove(buffer+3, buffer+1, bufferlen-1); /*replace the svc itself*/ buffer[0] = svcfte_cgamepacket; /*add a length in the 2nd/3rd bytes*/ buffer[1] = (bufferlen-1); buffer[2] = (bufferlen-1) >> 8; bufferlen += 2; } break; case TENQ_EXPLOSION2: //happens with rogue. bufferlen -= 2; //trim the colour buffer[1] = TE_EXPLOSION; break; } break; } if (ignoreprotocol) { ignoreprotocol=false; bufferlen = 0; } if (cldest) { if (!requireextension || cldest->fteprotocolextensions & requireextension) if (bufferlen && ISQWCLIENT(cldest)) { ClientReliableCheckBlock(cldest, bufferlen); ClientReliableWrite_SZ(cldest, buffer, bufferlen); } cldest = NULL; } else { if (multicastpos && (writedest == &sv.datagram || writedest == &sv.multicast)) writedest = &sv.multicast; else multicastpos = 0; if (bufferlen) { if (writedest->cursize + bufferlen > writedest->maxsize) { SV_FlushBroadcasts(); } SZ_Write(writedest, buffer, bufferlen); } if (multicastpos) { vec3_t org; coorddata cd; memcpy(&cd, &buffer[multicastpos+destprim->coordsize*0], destprim->coordsize); org[0] = MSG_FromCoord(cd, destprim->coordsize); memcpy(&cd, &buffer[multicastpos+destprim->coordsize*1], destprim->coordsize); org[1] = MSG_FromCoord(cd, destprim->coordsize); memcpy(&cd, &buffer[multicastpos+destprim->coordsize*2], destprim->coordsize); org[2] = MSG_FromCoord(cd, destprim->coordsize); SV_MulticastProtExt(org, multicasttype, pr_global_struct->dimension_send, requireextension, 0); } writedest = NULL; } bufferlen = 0; protocollen=0; nullterms = 0; multicastpos=0; requireextension=0; } void NPP_NQCheckFlush(void) { if (bufferlen >= protocollen && protocollen && !nullterms) NPP_NQFlush(); } void NPP_NQCheckDest(int dest) { if (dest == MSG_ONE) { client_t *cl = Write_GetClient(); if (!cl) { Con_Printf("Not a client\n"); return; } if (bufferlen && ((cldest && cldest != cl) || writedest)) { Con_Printf("MSG destination changed in the middle of a packet %i.\n", (int)*buffer); NPP_NQFlush(); } writedest = NULL; cldest = cl; destprim = &cldest->netchan.message.prim; } else { sizebuf_t *ndest = QWWriteDest(dest); if (bufferlen && (cldest || (writedest && writedest != ndest))) { Con_DPrintf("NQCheckDest: MSG destination changed in the middle of a packet %i.\n", (int)*buffer); NPP_NQFlush(); } cldest = NULL; writedest = ndest; destprim = &writedest->prim; } } void NPP_AddData(void *data, int len) { if (bufferlen+len > sizeof(buffer)) Sys_Error("Preparse buffer was filled\n"); memcpy(buffer+bufferlen, data, len); bufferlen+=len; } void NPP_NQWriteByte(int dest, qbyte data) //replacement write func (nq to qw) { NPP_NQCheckDest(dest); #ifdef NQPROT if (dest == MSG_ONE) { client_t *cl = Write_GetClient(); if (!cl) { Con_Printf("msg_entity: not a client\n"); return; } else { if (cl->protocol == SCP_BAD) // is a bot return; else if (!ISQWCLIENT(cl)) { ClientReliableCheckBlock(cl, sizeof(qbyte)); ClientReliableWrite_Byte(cl, data); return; } } } else MSG_WriteByte (NQWriteDest(dest), data); #endif if (!bufferlen) //new message section { switch(data) { case svcdp_showlmp: case svcdp_hidelmp: case svc_sound: break; case svc_temp_entity: te_515sevilhackworkaround = false; break; case svc_setangle: protocollen = sizeof(qbyte) + destprim->anglesize*3; break; case svc_setview: protocollen = sizeof(qbyte)*1 + sizeof(short); break; case svc_updatename: nullterms = 1; break; case svc_setfrags: protocollen = 4; break; case svc_updatecolors: protocollen = 3; break; case svc_print: protocollen = 3; nullterms = 1; break; case svc_cdtrack: if (progstype == PROG_QW) protocollen = 2; else protocollen = 3; break; case svc_killedmonster: protocollen = 1; break; case svc_foundsecret: protocollen = 1; break; case svc_intermission: if (progstype == PROG_H2) protocollen = 2; else protocollen = 1; break; case svc_finale: protocollen = 2; break; case svcdp_skybox: protocollen = 2;//it's just a string break; case svcnq_updatestatlong: //insta fixup data = svcqw_updatestatlong; //ho hum... let it through (should check size later.) protocollen = 6; break; case svc_stufftext: case svc_centerprint: nullterms = 1; break; case svc_clearviewflags: protocollen = 2; ignoreprotocol = true; break; case svc_cutscene: ignoreprotocol = true; break; case 51: protocollen = 3; ignoreprotocol = true; break; default: Con_DPrintf("NQWriteByte: bad protocol %i\n", (int)data); protocollen = sizeof(buffer); break; } majortype = data; } if (bufferlen == 1 && !protocollen) //some of them depend on the following bytes for size. { switch(majortype) { case svc_sound: protocollen = 5+destprim->coordsize*3; if (data & NQSND_VOLUME) protocollen++; if (data & NQSND_ATTENUATION) protocollen++; if (data & DPSND_LARGEENTITY) protocollen++; if (data & DPSND_LARGESOUND) protocollen++; #ifdef warningmsg #pragma warningmsg("NPP_NQWriteByte: this ignores SVC_SOUND from nq mods (nexuiz)") #endif ignoreprotocol = true; break; case svc_temp_entity: switch(data) { case TENQ_BEAM: data = TEQW_BEAM; //QW doesn't do te_beam. Replace with lightning1. //fallthrough case TE_LIGHTNING1: case TE_LIGHTNING2: case TE_LIGHTNING3: multicastpos=4; multicasttype=MULTICAST_PHS; protocollen = destprim->coordsize*6+sizeof(short)+sizeof(qbyte)*2; break; case TE_GUNSHOT: multicastpos=3; multicasttype=MULTICAST_PVS; //we need to emit annother qbyte here. QuakeWorld has a number of particles. //emit it here and we don't need to remember to play with temp_entity later NPP_AddData(&data, sizeof(qbyte)); data = 1; protocollen = destprim->coordsize*3+sizeof(qbyte)*3; break; case TE_EXPLOSION: case TE_SPIKE: case TE_SUPERSPIKE: multicastpos=2; multicasttype=MULTICAST_PHS_R; protocollen = destprim->coordsize*3+sizeof(qbyte)*2; break; case TE_LAVASPLASH: multicastpos=2; multicasttype=MULTICAST_ALL; protocollen = destprim->coordsize*3+sizeof(qbyte)*2; break; case TE_TAREXPLOSION: case TE_WIZSPIKE: case TE_KNIGHTSPIKE: case TE_TELEPORT: multicastpos=2; multicasttype=MULTICAST_PVS; protocollen = destprim->coordsize*3+sizeof(qbyte)*2; break; case TE_EXPLOSION3_NEH: protocollen = sizeof(qbyte) + destprim->coordsize*6; ignoreprotocol = true; break; case TENQ_EXPLOSION2: data = TEQW_EXPLOSION2; protocollen = sizeof(qbyte)*4 + destprim->coordsize*3; multicastpos=2; multicasttype=MULTICAST_PHS_R; break; case TE_EXPLOSIONSMALL2: data = TE_EXPLOSION; protocollen = sizeof(qbyte)*2 + destprim->coordsize*3; multicastpos=2; multicasttype=MULTICAST_PHS; break; case TE_RAILTRAIL: protocollen = destprim->coordsize*6+sizeof(qbyte)*1; multicastpos=2; multicasttype=MULTICAST_PHS; break; case TEH2_STREAM_LIGHTNING_SMALL: case TEH2_STREAM_CHAIN: case TEH2_STREAM_SUNSTAFF1: case TEH2_STREAM_SUNSTAFF2: case TEH2_STREAM_LIGHTNING: case TEH2_STREAM_ICECHUNKS: case TEH2_STREAM_GAZE: case TEH2_STREAM_FAMINE: protocollen = destprim->coordsize*6+sizeof(short)+sizeof(qbyte)*(2+2); multicastpos = 8; multicasttype=MULTICAST_PHS; break; case TEH2_STREAM_COLORBEAM: protocollen = destprim->coordsize*6+sizeof(short)+sizeof(qbyte)*(3+2); multicastpos = 8; multicasttype=MULTICAST_PHS; break; case TEDP_FLAMEJET: //TE_FLAMEJET protocollen = destprim->coordsize*6 +sizeof(qbyte)*3; multicastpos = 2; multicasttype=MULTICAST_PVS; break; case TEDP_TEI_G3: protocollen = destprim->coordsize*9+sizeof(qbyte)*2; multicastpos = 2; multicasttype=MULTICAST_PHS; break; case TEDP_SMOKE: protocollen = destprim->coordsize*6+sizeof(qbyte)*3; multicastpos = 2; multicasttype=MULTICAST_PHS; break; case TEDP_TEI_BIGEXPLOSION: protocollen = destprim->coordsize*3+sizeof(qbyte)*2; multicastpos = 2; multicasttype=MULTICAST_PHS; break; case TEDP_TEI_PLASMAHIT: protocollen = destprim->coordsize*6+sizeof(qbyte)*3; multicastpos = 2; multicasttype=MULTICAST_PHS; break; default: protocollen = sizeof(buffer); if (dest == MSG_MULTICAST) { Con_DPrintf("NQWriteByte: unknown tempentity %i\n", data); } else { te_515sevilhackworkaround = true; Con_Printf("NQWriteByte: unknown tempentity %i\n", data); PR_StackTrace(svprogfuncs); } break; } break; case svc_updatename: case svc_stufftext: case svc_centerprint: break; default: Con_Printf("NQWriteByte: Non-Implemented svc\n"); protocollen = sizeof(buffer); break; } } if (!protocollen) //these protocols take strings, and are thus dynamically sized. { switch(majortype) { case svc_updatename: if (bufferlen < 2) break; //don't truncate the name if the mod is sending the slot number case svcdp_hidelmp: case svc_stufftext: case svc_centerprint: if (!data) protocollen = bufferlen; break; case svcdp_showlmp: // [string] slotname [string] lmpfilename [byte] x [byte] y //note: nehara uses bytes! //and the rest of dp uses shorts. how nasty is that? if (!data) { //second string, plus 2 bytes. int i; for (i = 0; i < bufferlen; i++) if (!buffer[i]) protocollen = bufferlen+2; } break; } } NPP_AddData(&data, sizeof(qbyte)); if (!data && bufferlen>=protocollen) if (nullterms) nullterms--; NPP_NQCheckFlush(); } void NPP_NQWriteChar(int dest, char data) //replacement write func (nq to qw) { NPP_NQWriteByte(dest, (qbyte)data); return; /* NPP_NQCheckDest(dest); if (!bufferlen) { NPP_NQWriteByte(dest, (qbyte)data); return; } #ifdef NQPROT if (dest == MSG_ONE) { client_t *cl = Write_GetClient(); if (cl && cl->nqprot) { ClientReliableCheckBlock(cl, sizeof(char)); ClientReliableWrite_Char(cl, data); } } else MSG_WriteChar (NQWriteDest(dest), data); #endif NPP_AddData(&data, sizeof(char)); NPP_NQCheckFlush();*/ } void NPP_NQWriteShort(int dest, short data) //replacement write func (nq to qw) { union { qbyte b[2]; short s; } u; u.s = LittleShort(data); NPP_NQWriteByte(dest, u.b[0]); NPP_NQWriteByte(dest, u.b[1]); } void NPP_NQWriteLong(int dest, long data) //replacement write func (nq to qw) { union { qbyte b[4]; int l; } u; u.l = LittleLong(data); NPP_NQWriteByte(dest, u.b[0]); NPP_NQWriteByte(dest, u.b[1]); NPP_NQWriteByte(dest, u.b[2]); NPP_NQWriteByte(dest, u.b[3]); } void NPP_NQWriteFloat(int dest, float data) //replacement write func (nq to qw) { union { qbyte b[4]; float f; } u; u.f = LittleFloat(data); NPP_NQWriteByte(dest, u.b[0]); NPP_NQWriteByte(dest, u.b[1]); NPP_NQWriteByte(dest, u.b[2]); NPP_NQWriteByte(dest, u.b[3]); } void NPP_NQWriteAngle(int dest, float in) //replacement write func (nq to qw) { char data = (int)(in*256/360) & 255; NPP_NQCheckDest(dest); if (!bufferlen) Con_Printf("NQWriteAngle: Messages should start with WriteByte\n"); #ifdef NQPROT if (cldest) { if (cldest->protocol == SCP_BAD) return; else if (!ISQWCLIENT(cldest)) { ClientReliableCheckBlock(cldest, sizeof(char)); ClientReliableWrite_Angle(cldest, in); return; } } else MSG_WriteAngle (NQWriteDest(dest), in); #endif if (destprim->anglesize==2) { coorddata cd = MSG_ToAngle(in, destprim->anglesize); NPP_AddData(&cd.b2, sizeof(cd.b2)); } else NPP_AddData(&data, sizeof(char)); NPP_NQCheckFlush(); } void NPP_NQWriteCoord(int dest, float in) //replacement write func (nq to qw) { short datas = (int)(in*8); float dataf = in; NPP_NQCheckDest(dest); if (!bufferlen) Con_Printf("NQWriteCoord: Messages should start with WriteByte\n"); #ifdef NQPROT if (dest == MSG_ONE) { client_t *cl = Write_GetClient(); if (!cl) { Con_Printf("msg_entity: not a client\n"); return; } else { if (cl->protocol == SCP_BAD) return; else if (!ISQWCLIENT(cl)) { ClientReliableCheckBlock(cl, sizeof(float)); ClientReliableWrite_Coord(cl, in); return; } } } else MSG_WriteCoord (NQWriteDest(dest), in); #endif if (destprim->coordsize==4) { dataf = LittleFloat(dataf); NPP_AddData(&dataf, sizeof(float)); } else { datas = LittleShort(datas); NPP_AddData(&datas, sizeof(short)); } NPP_NQCheckFlush(); } void NPP_NQWriteString(int dest, char *data) //replacement write func (nq to qw) { NPP_NQCheckDest(dest); if (!bufferlen) { Con_Printf("NQWriteString: Messages should start with WriteByte\n"); } #ifdef NQPROT if (dest == MSG_ONE) { client_t *cl = Write_GetClient(); if (!cl) { Con_Printf("msg_entity: not a client\n"); return; } else { if (cl->protocol == SCP_BAD) return; else if (!ISQWCLIENT(cl)) { ClientReliableCheckBlock(cl, strlen(data)+1); ClientReliableWrite_String(cl, data); return; } } } else MSG_WriteString (NQWriteDest(dest), data); #endif NPP_AddData(data, strlen(data)+1); if (!protocollen) //these protocols take strings, and are thus dynamically sized. { switch(majortype) { case svc_updatename: case svc_stufftext: case svc_centerprint: protocollen = bufferlen; break; } } if (nullterms) nullterms--; NPP_NQCheckFlush(); } void NPP_NQWriteEntity(int dest, short data) //replacement write func (nq to qw) { NPP_NQCheckDest(dest); if (!bufferlen) Con_Printf("NQWriteEntity: Messages should start with WriteByte\n"); if (majortype == svc_temp_entity && data >= 0 && data <= sv.allocated_client_slots) if (svs.clients[data-1].viewent) data = svs.clients[data-1].viewent; #ifdef NQPROT if (dest == MSG_ONE) { client_t *cl = Write_GetClient(); if (!cl) { Con_Printf("msg_entity: not a client\n"); return; } else { if (cl->protocol == SCP_BAD) return; else if (!ISQWCLIENT(cl)) { ClientReliableCheckBlock(cl, sizeof(short)); ClientReliableWrite_Entity(cl, data); return; } } } else MSG_WriteEntity (NQWriteDest(dest), data); #endif NPP_AddData(&data, sizeof(short)); NPP_NQCheckFlush(); } #ifdef NQPROT //qw to nq translation is only useful if we allow nq clients to connect. void NPP_QWFlush(void) { qbyte b; if (!bufferlen) return; switch(majortype) { case svc_updatename: //not a standard feature, but hey, if a progs wants bots. bufferlen = 0; NPP_SetInfo(&svs.clients[buffer[1]], "name", buffer+2); break; case svc_updatecolors: bufferlen = 0; NPP_SetInfo(&svs.clients[buffer[1]], "bottomcolor", va("%i", buffer[2]&15)); NPP_SetInfo(&svs.clients[buffer[1]], "topcolor", va("%i", buffer[2]/16)); break; case svc_cdtrack: if (bufferlen!=protocollen) Con_Printf("QWFlush: svc_cdtrack wasn't the right length\n"); else { b = 0; NPP_AddData(&b, sizeof(qbyte)); } break; //ignore these. case svc_intermission: // if (writedest == &sv.reliable_datagram) { client_t *cl; int i; for (i = 0, cl = svs.clients; i < sv.allocated_client_slots; i++, cl++) { if (cl->state == cs_spawned && !ISQWCLIENT(cl)) { vec3_t org, ang; if (cl->zquake_extensions & Z_EXT_SERVERTIME) { ClientReliableCheckBlock(cl, 6); ClientReliableWrite_Byte(cl, svcqw_updatestatlong); ClientReliableWrite_Byte(cl, STAT_TIME); ClientReliableWrite_Long(cl, (int)(sv.world.physicstime * 1000)); cl->nextservertimeupdate = sv.world.physicstime+10; } ClientReliableCheckBlock(cl, 1); ClientReliableWrite_Byte(cl, svc_intermission); org[0] = (*(short*)&buffer[1])/8.0f; org[1] = (*(short*)&buffer[1+2])/8.0f; org[2] = (*(short*)&buffer[1+4])/8.0f; ang[0] = (*(qbyte*)&buffer[7])*360.0/255; ang[1] = (*(qbyte*)&buffer[7+1])*360.0/255; ang[2] = (*(qbyte*)&buffer[7+2])*360.0/255; //move nq players to origin + angle VectorCopy(org, cl->edict->v->origin); VectorCopy(ang, cl->edict->v->angles); cl->edict->v->angles[0]*=-1; } } } bufferlen = 0; protocollen=0; writedest = NULL; // case svc_finale: // bufferlen = 0; break; case svc_setview: requireextension = PEXT_SETVIEW; // bufferlen = 0; break; case svc_muzzleflash: if (bufferlen < 3) Con_Printf("Dodgy muzzleflash\n"); else { short data; float org[3]; edict_t *ent = EDICT_NUM(svprogfuncs, LittleShort((*(short*)&buffer[1]))); VectorCopy(ent->v->origin, org); //we need to make a fake muzzleflash position for multicast to work properly. multicastpos = 4; data = LittleShort((short)(org[0]*8)); NPP_AddData(&data, sizeof(short)); data = LittleShort((short)(org[1]*8)); NPP_AddData(&data, sizeof(short)); data = LittleShort((short)(org[2]*8)); NPP_AddData(&data, sizeof(short)); } bufferlen = 0; //can't send this to nq. :( break; case svc_smallkick: case svc_bigkick: bufferlen = 0; break; case svc_updateuserinfo: if (buffer[6]) { unsigned int j = buffer[1]; if (j < sv.allocated_client_slots) { Q_strncpyz(svs.clients[j].userinfo, (buffer+6), sizeof(svs.clients[j].userinfo)); if (*Info_ValueForKey(svs.clients[j].userinfo, "name")) SV_ExtractFromUserinfo(&svs.clients[j], false); else *svs.clients[j].name = '\0'; } } else { unsigned int j = buffer[1]; if (j < sv.allocated_client_slots) { *svs.clients[j].name = '\0'; *svs.clients[j].userinfo = '\0'; } } break; case svcfte_cgamepacket: if (sv.csqcdebug) { /*shift the data up by two bytes*/ memmove(buffer+3, buffer+1, bufferlen-1); /*add a length in the 2nd/3rd bytes*/ buffer[1] = (bufferlen-1); buffer[2] = (bufferlen-1) >> 8; bufferlen += 2; } break; case svc_temp_entity: switch(minortype) { default: if (te_515sevilhackworkaround) { if (sv.csqcdebug) { /*shift the data up by two bytes*/ memmove(buffer+3, buffer+1, bufferlen-1); /*add a length in the 2nd/3rd bytes*/ buffer[1] = (bufferlen-1); buffer[2] = (bufferlen-1) >> 8; bufferlen += 2; } /*replace the svc itself*/ buffer[0] = svcfte_cgamepacket; } break; case TEQW_LIGHTNINGBLOOD: case TEQW_BLOOD: //needs to be converted to a particle { vec3_t org; qbyte count; qbyte colour; char dir[3]; short s; int v; int i; qbyte svc; svc = svc_particle; org[0] = (*(short*)&buffer[multicastpos])/8.0f; org[1] = (*(short*)&buffer[multicastpos+2])/8.0f; org[2] = (*(short*)&buffer[multicastpos+4])/8.0f; count = buffer[2]*20; if (minortype == TEQW_LIGHTNINGBLOOD) colour = 225; else colour = 73; for (i=0 ; i<3 ; i++) { v = 0*16; if (v > 127) v = 127; else if (v < -128) v = -128; dir[i] = v; } bufferlen = 0; //restart protocollen = 1000; multicastpos = 1; NPP_AddData(&svc, sizeof(qbyte)); for (i = 0; i < 3; i++) { if (destprim->coordsize == 4) NPP_AddData(&org[i], sizeof(float)); else { s = org[i]*8; NPP_AddData(&s, sizeof(short)); } } NPP_AddData(&dir[0], sizeof(char)); NPP_AddData(&dir[1], sizeof(char)); NPP_AddData(&dir[2], sizeof(char)); NPP_AddData(&count, sizeof(qbyte)); NPP_AddData(&colour, sizeof(qbyte)); } break; case TE_GUNSHOT: //needs byte 3 removed if (bufferlen >= 3) { memmove(buffer+2, buffer+3, bufferlen-3); bufferlen--; } break; } } if (ignoreprotocol) { ignoreprotocol=false; bufferlen = 0; } if (cldest) { if (!requireextension || cldest->fteprotocolextensions & requireextension) if (bufferlen && !ISQWCLIENT(cldest)) { ClientReliableCheckBlock(cldest, bufferlen); ClientReliableWrite_SZ(cldest, buffer, bufferlen); } cldest = NULL; } else { if (multicastpos && (writedest == &sv.nqdatagram || writedest == &sv.nqmulticast)) writedest = &sv.nqmulticast; else multicastpos = 0; if (bufferlen) SZ_Write(writedest, buffer, bufferlen); if (multicastpos) { int qwsize; vec3_t org; coorddata cd; memcpy(&cd, &buffer[multicastpos+destprim->coordsize*0], destprim->coordsize); org[0] = MSG_FromCoord(cd, destprim->coordsize); memcpy(&cd, &buffer[multicastpos+destprim->coordsize*1], destprim->coordsize); org[1] = MSG_FromCoord(cd, destprim->coordsize); memcpy(&cd, &buffer[multicastpos+destprim->coordsize*2], destprim->coordsize); org[2] = MSG_FromCoord(cd, destprim->coordsize); qwsize = sv.multicast.cursize; sv.multicast.cursize = 0; SV_MulticastProtExt(org, multicasttype, pr_global_struct->dimension_send, requireextension, 0); sv.multicast.cursize = qwsize; } writedest = NULL; } bufferlen = 0; nullterms=0; protocollen=0; multicastpos=0; requireextension=0; } void NPP_QWCheckFlush(void) { if (bufferlen >= protocollen && protocollen && !nullterms) NPP_QWFlush(); } void NPP_QWCheckDest(int dest) { if (dest == MSG_ONE) { client_t *cl = Write_GetClient(); if (!cl) { Con_Printf("Not a client\n"); return; } if (bufferlen && ((cldest && cldest != cl) || writedest)) { Con_Printf("MSG destination changed in the middle of a packet %i.\n", (int)*buffer); NPP_QWFlush(); } writedest = NULL; cldest = cl; destprim = &cldest->netchan.message.prim; } else { sizebuf_t *ndest = NQWriteDest(dest); if (bufferlen && (cldest || (writedest && writedest != ndest))) { Con_DPrintf("QWCheckDest: MSG destination changed in the middle of a packet %i.\n", (int)*buffer); NPP_QWFlush(); } cldest = NULL; writedest = ndest; destprim = &writedest->prim; } } void NPP_QWWriteByte(int dest, qbyte data) //replacement write func (nq to qw) { NPP_QWCheckDest(dest); #ifdef NQPROT if (dest == MSG_ONE) { client_t *cl = Write_GetClient(); if (!cl) { Con_Printf("msg_entity: not a client\n"); return; } else { if (cl->protocol == SCP_BAD) // is a bot return; else if (ISQWCLIENT(cl)) { ClientReliableCheckBlock(cl, sizeof(qbyte)); ClientReliableWrite_Byte(cl, data); return; } } } else MSG_WriteByte (QWWriteDest(dest), data); #endif if (!bufferlen) //new message section { switch(data) { case svc_temp_entity: break; case svc_setangle: protocollen = sizeof(qbyte) + destprim->anglesize*3; break; case svc_setview: protocollen = sizeof(qbyte)*1 + sizeof(short); break; case svc_cdtrack: protocollen = sizeof(qbyte)*2; break; case svc_killedmonster: protocollen = 1; break; case svc_foundsecret: protocollen = 1; break; case svc_intermission: protocollen = 10; break; case svc_finale: protocollen = 2; break; case svc_updatepl: case svc_muzzleflash: protocollen = 3; break; case svc_smallkick: case svc_bigkick: protocollen = 1; break; case svc_print: protocollen = 2; nullterms=1; break; case svc_setinfo: protocollen = 2; nullterms = 2; break; case svc_centerprint: case svc_stufftext: protocollen = 1; nullterms=1; break; case svcqw_updatestatbyte: protocollen = 3; break; case svc_updateping: case svc_updatefrags: protocollen = 4; break; case svc_updateentertime: protocollen = 6; break; case svc_updateuserinfo: protocollen = 6; nullterms = 1; break; case svcqw_updatestatlong: protocollen = 6; break; case svc_setpause: protocollen = 2; break; default: Con_DPrintf("QWWriteByte: bad protocol %i\n", (int)data); protocollen = sizeof(buffer); break; } majortype = data; } if (bufferlen == 1 && !protocollen) //some of them depend on the following bytes for size. { switch(majortype) { case svc_temp_entity: minortype = data; switch(data) { case TE_LIGHTNING1: case TE_LIGHTNING2: case TE_LIGHTNING3: multicastpos=4; multicasttype=MULTICAST_PHS; protocollen = destprim->coordsize*6+sizeof(short)+sizeof(qbyte)*2; break; case TEQW_BLOOD: //needs to be converted to a particle case TE_GUNSHOT: //needs qbyte 2 removed multicastpos=3; multicasttype=MULTICAST_PVS; protocollen = destprim->coordsize*3+sizeof(qbyte)*3; break; case TEQW_LIGHTNINGBLOOD: case TE_EXPLOSION: case TE_SPIKE: case TE_SUPERSPIKE: multicastpos=2; multicasttype=MULTICAST_PHS_R; protocollen = destprim->coordsize*3+sizeof(qbyte)*2; break; case TE_TAREXPLOSION: case TE_WIZSPIKE: case TE_KNIGHTSPIKE: case TE_LAVASPLASH: case TE_TELEPORT: multicastpos=2; multicasttype=MULTICAST_PVS; protocollen = destprim->coordsize*3+sizeof(qbyte)*2; break; case TE_RAILTRAIL: multicastpos=1; multicasttype=MULTICAST_PVS; protocollen = destprim->coordsize*3+sizeof(qbyte)*1; break; default: protocollen = sizeof(buffer); Con_Printf("QWWriteByte: bad tempentity - %i\n", data); break; } break; default: Con_Printf("QWWriteByte: Non-Implemented svc\n"); protocollen = sizeof(buffer); break; } } NPP_AddData(&data, sizeof(qbyte)); if (!data && bufferlen>=protocollen) if (nullterms) nullterms--; NPP_QWCheckFlush(); } void NPP_QWWriteChar(int dest, char data) //replacement write func (nq to qw) { NPP_QWWriteByte(dest, (qbyte)data); } void NPP_QWWriteShort(int dest, short data) //replacement write func (nq to qw) { union { qbyte b[2]; short s; } u; if (bufferlen == 2 && majortype == svc_temp_entity && (minortype == TE_LIGHTNING1 || minortype == TE_LIGHTNING2 || minortype == TE_LIGHTNING3)) NPP_QWWriteEntity(dest, data); else { u.s = LittleShort(data); NPP_QWWriteByte(dest, u.b[0]); NPP_QWWriteByte(dest, u.b[1]); } } void NPP_QWWriteFloat(int dest, float data) //replacement write func (nq to qw) { union { qbyte b[4]; float f; } u; u.f = LittleFloat(data); NPP_QWWriteByte(dest, u.b[0]); NPP_QWWriteByte(dest, u.b[1]); NPP_QWWriteByte(dest, u.b[2]); NPP_QWWriteByte(dest, u.b[3]); } void NPP_QWWriteLong(int dest, long data) //replacement write func (nq to qw) { union { qbyte b[4]; int l; } u; u.l = LittleLong(data); NPP_QWWriteByte(dest, u.b[0]); NPP_QWWriteByte(dest, u.b[1]); NPP_QWWriteByte(dest, u.b[2]); NPP_QWWriteByte(dest, u.b[3]); } void NPP_QWWriteAngle(int dest, float in) //replacement write func (nq to qw) { if (destprim->anglesize==1) { char data = (int)(in*256/360) & 255; NPP_QWWriteChar(dest, data); } else { short data = (int)(in*0xffff/360) & 0xffff; NPP_QWWriteShort(dest, data); } } void NPP_QWWriteCoord(int dest, float in) //replacement write func (nq to qw) { if (destprim->coordsize==4) { NPP_QWWriteFloat(dest, in); } else { short datas = (int)(in*8); NPP_QWWriteShort(dest, datas); } } void NPP_QWWriteString(int dest, char *data) //replacement write func (nq to qw) { #if 0 //the slow but guarenteed routine while(*data) NPP_QWWriteByte(dest, *data++); NPP_QWWriteByte(dest, 0); //and the null terminator #else //the fast-track, less reliable routine NPP_QWCheckDest(dest); #ifdef NQPROT if (dest == MSG_ONE) { client_t *cl = Write_GetClient(); if (!cl) { Con_Printf("msg_entity: not a client\n"); return; } else { if (cl->protocol == SCP_BAD) return; else if (ISQWCLIENT(cl)) { ClientReliableCheckBlock(cl, strlen(data)+1); ClientReliableWrite_String(cl, data); return; } } } else MSG_WriteString (QWWriteDest(dest), data); #endif if (!bufferlen) Con_Printf("QWWriteString: Messages should start with WriteByte (last was %i)\n", majortype); NPP_AddData(data, strlen(data)+1); if (nullterms) nullterms--; NPP_QWCheckFlush(); #endif } void NPP_QWWriteEntity(int dest, short data) //replacement write func (nq to qw) { if (data >= 0x8000) { NPP_QWWriteByte(dest, ((data>> 0) & 0xff)); NPP_QWWriteByte(dest, ((data>> 8) & 0x7f) | 0x80); NPP_QWWriteByte(dest, ((data>>15) & 0xff)); } else { NPP_QWWriteByte(dest, (data>>0) & 0xff); NPP_QWWriteByte(dest, (data>>8) & 0x7f); } } #endif #ifdef SERVER_DEMO_PLAYBACK #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) #define PF_MSEC (1<<0) #define PF_COMMAND (1<<1) #define PF_VELOCITY1 (1<<2) #define PF_VELOCITY2 (1<<3) #define PF_VELOCITY3 (1<<4) #define PF_MODEL (1<<5) #define PF_SKINNUM (1<<6) #define PF_EFFECTS (1<<7) #define PF_WEAPONFRAME (1<<8) // only sent for view player #define PF_DEAD (1<<9) // don't block movement any more #define PF_GIB (1<<10) // offset the view height differently int sv_demo_spikeindex; void NPP_MVDFlush(void) { if (!bufferlen) return; switch(majortype) { case svc_spawnbaseline: SV_FlushDemoSignon(); cldest = NULL; writedest = &sv.demosignon; if (1) { int entnum, i; mvdentity_state_t *ent; if (!sv.demobaselines) { sv.demobaselines = (mvdentity_state_t*)BZ_Malloc(sizeof(mvdentity_state_t)*MAX_EDICTS); sv.demostatevalid = true; } entnum = buffer[1] + (buffer[2]<<8); // if (entnum < svs.allocated_client_slots) // break; ent = &sv.demobaselines[entnum]; ent->modelindex = buffer[3]; ent->frame = buffer[4]; ent->colormap = buffer[5]; ent->skinnum = buffer[6]; for (i=0 ; i<3 ; i++) { ent->origin[i] = (short)(buffer[7+i*3] + (buffer[8+i*3]<<8))/8.0f; ent->angles[i] = buffer[9+i*3]; } } break; case svc_spawnstatic: SV_FlushDemoSignon(); cldest = NULL; writedest = &sv.demosignon; break; case svc_modellist: ignoreprotocol=true; { int i; int rpos, s; i = buffer[1]; rpos = 2; while (1) { i++; s = rpos; while(buffer[rpos]) rpos++; if (rpos == s) //end break; strcpy(sv.demmodel_precache[i], buffer+s); if (!strcmp(sv.demmodel_precache[i], "progs/spike.mdl")) sv_demo_spikeindex = i; rpos++; } } break; case svc_soundlist: ignoreprotocol=true; { int i; int rpos, s; i = buffer[1]; rpos = 2; while (1) { i++; s = rpos; while(buffer[rpos]) rpos++; if (rpos == s) //end break; strcpy(sv.demsound_precache[i], buffer+s); rpos++; } } break; case svc_serverdata: { int i; sv_demo_spikeindex = 0; //new map, new precaches. i = 9; strcpy(sv.demgamedir, buffer+i); for(;i < bufferlen && buffer[i];i++) ; i++; i+=4; Q_strncpyz(sv.demfullmapname, buffer+i, sizeof(sv.demfullmapname)); for(;i < bufferlen && buffer[i];i++) ; i+=4*10; } ignoreprotocol=true; break; case svc_lightstyle: sv.demolightstyles[buffer[1]] = Hunk_Alloc(strlen(buffer+2)+1); strcpy(sv.demolightstyles[buffer[1]], buffer+2); break; case svc_updatestat: case svc_updatestatlong: //make sure we update the running players stats properly. { int v, s; if (majortype == svc_updatestat) v = buffer[2]; else v = buffer[2] | (buffer[3]<<8) | (buffer[4]<<16) | (buffer[5]<<24); s = buffer[1]; if (sv.lastto < 32) //dem_multicast could be used at the wrong time... sv.recordedplayer[sv.lastto].stats[s] = v; ignoreprotocol=true; } break; case svc_packetentities: case svc_deltapacketentities: //read the delta in to the array. ignoreprotocol=true; //a bug exists in that the delta MUST have been reliably recorded. { int i; int entnum; mvdentity_state_t *ents; unsigned short s; if (!sv.demostate) { sv.demostate = BZ_Malloc(sizeof(mvdentity_state_t)*MAX_EDICTS); sv.demostatevalid = true; } i = majortype-svc_packetentities+1; while (1) { s = buffer[i] + buffer[i+1]*256; i+=2; if (!s) { break; } else { entnum = s&511; s &= ~511; if (entnum > sv.demomaxents) sv.demomaxents = entnum; ents = &sv.demostate[entnum]; if (s & U_REMOVE) { //this entity went from the last packet ents->modelindex = 0; ents->effects = 0; continue; } if (!ents->modelindex && !ents->effects && sv.demobaselines) { //new entity, reset to baseline memcpy(ents, &sv.demobaselines[entnum], sizeof(mvdentity_state_t)); } if (s & U_MOREBITS) { s |= buffer[i]; i++; } if (s & U_MODEL) { ents->modelindex = buffer[i]; i++; } if (s & U_FRAME) { ents->frame = buffer[i]; i++; } if (s & U_COLORMAP) { ents->colormap = buffer[i]; i++; } if (s & U_SKIN) { ents->skinnum = buffer[i]; i++; } if (s & U_EFFECTS) { ents->effects = buffer[i]; i++; } if (s & U_ORIGIN1) { ents->origin[0] = (short)(buffer[i]+buffer[i+1]*256) /8.0f; i+=2; } if (s & U_ANGLE1) { ents->angles[0] = (unsigned char)(buffer[i]);// * (360.0/256); i++; } if (s & U_ORIGIN2) { ents->origin[1] = (short)(buffer[i]+buffer[i+1]*256) /8.0f; i+=2; } if (s & U_ANGLE2) { ents->angles[1] = (unsigned char)(buffer[i]);// * (360.0/256); i++; } if (s & U_ORIGIN3) { ents->origin[2] = (short)(buffer[i]+buffer[i+1]*256) /8.0f; i+=2; } if (s & U_ANGLE3) { ents->angles[2] = (unsigned char)(buffer[i]);// * (360.0/256); i++; } } } } break; case svc_playerinfo: ignoreprotocol=true; { int i, j; unsigned short flags; mvdentity_state_t *ents; int playernum; vec3_t oldang; if (!sv.demostate) sv.demostate = BZ_Malloc(sizeof(entity_state_t)*MAX_EDICTS); sv.demostatevalid = true; flags = buffer[2] + buffer[3]*256; playernum = buffer[1]; ents = &sv.demostate[playernum+1]; ents->frame = buffer[4]; // ents->colormap=playernum+1; VectorCopy(ents->origin, sv.recordedplayer[playernum].oldorg); VectorCopy(ents->angles, sv.recordedplayer[playernum].oldang); i = 5; for (j=0 ; j<3 ; j++) if (flags & (DF_ORIGIN << j)) { ents->origin[j] = (signed short)(buffer[i] + (buffer[i+1]<<8))/8.0f; i+=2; } VectorCopy(ents->angles, oldang); for (j=0 ; j<3 ; j++) if (flags & (DF_ANGLES << j)) { //FIXME: angle truncation here. ents->angles[j] = (char)((int)(buffer[i] + (buffer[i+1]<<8))/256.0f); i+=2; } if (flags & (DF_ANGLES << 0)) //'stupid quake bug' I believe is the correct quote... ents->angles[0] = ents->angles[0]*-1/3.0f; //also scale pitch down as well as invert if (flags & DF_MODEL) { ents->modelindex = buffer[i]; i+=1; } if (flags & DF_SKINNUM) { ents->skinnum = buffer[i]; i+=1; } if (flags & DF_EFFECTS) { ents->effects = buffer[i]; i+=1; } if (flags & DF_WEAPONFRAME) { //mvds are deltas remember, this is really the only place where that fact is all that important. sv.recordedplayer[playernum].weaponframe = buffer[i]; i+=1; } sv.recordedplayer[playernum].updatetime = realtime; ignoreprotocol=true; } break; case svc_nails: case svc_nails2: sv.numdemospikes = buffer[1]; { qboolean hasid = (majortype==svc_nails2); char *bits; int i; bits = buffer+2; for (i = 0; i < sv.numdemospikes; i++) { if (hasid) { sv.demospikes[i].id = *bits; bits++; } else sv.demospikes[i].id = 0; sv.demospikes[i].modelindex = sv_demo_spikeindex; sv.demospikes[i].org[0] = ( ( bits[0] + ((bits[1]&15)<<8) ) <<1) - 4096; sv.demospikes[i].org[1] = ( ( (bits[1]>>4) + (bits[2]<<4) ) <<1) - 4096; sv.demospikes[i].org[2] = ( ( bits[3] + ((bits[4]&15)<<8) ) <<1) - 4096; sv.demospikes[i].pitch = (bits[4]>>4); sv.demospikes[i].yaw = bits[5]; bits+=6; } } ignoreprotocol=true; break; case svc_stufftext: ignoreprotocol = true; Cmd_TokenizeString(buffer+1, false, false); if (!stricmp(Cmd_Argv(0), "fullserverinfo")) { Q_strncpyz(sv.demoinfo, Cmd_Argv(1), sizeof(sv.demoinfo)); break; } break; case svc_updateping: { int j; j = buffer[1]; sv.recordedplayer[j].ping = buffer[2] | (buffer[3]<<8); } break; case svc_updatepl: { int j; j = buffer[1]; sv.recordedplayer[j].pl = buffer[2] | (buffer[3]<<8); } break; case svc_updatefrags: { int j; j = buffer[1]; sv.recordedplayer[j].frags = buffer[2] | (buffer[3]<<8); } break; case svc_setinfo: // ignoreprotocol = true; { int j; j = buffer[1]; Info_SetValueForStarKey(sv.recordedplayer[j].userinfo, buffer+2, buffer+2+strlen(buffer+2)+1, sizeof(sv.recordedplayer[j].userinfo)); } break; case svc_updateuserinfo: // ignoreprotocol = true; { unsigned int j; j = buffer[1]; if (j < sv.allocated_client_slots) { sv.recordedplayer[j].userid = buffer[2] | (buffer[3]<<8) | (buffer[4]<<16) | (buffer[5]<<24); Q_strncpyz(sv.recordedplayer[j].userinfo, buffer+6, sizeof(sv.recordedplayer[j].userinfo)); } } break; case svc_setangle: //FIXME: forward on to trackers. ignoreprotocol = true; break; case svc_disconnect: svs.spawncount++; SV_BroadcastCommand("changing\n"); SV_BroadcastCommand ("reconnect\n"); ignoreprotocol = true; break; } if (ignoreprotocol) { ignoreprotocol=false; bufferlen = 0; } if (cldest) { if (!requireextension || cldest->fteprotocolextensions & requireextension) if (bufferlen) { ClientReliableCheckBlock(cldest, bufferlen); ClientReliableWrite_SZ(cldest, buffer, bufferlen); } cldest = NULL; } else { if (multicastpos && (writedest == &sv.datagram || writedest == &sv.multicast)) writedest = &sv.multicast; else multicastpos = 0; if (writedest == &sv.reliable_datagram) { writedest = &sv.multicast; multicasttype = MULTICAST_ALL_R; } if (bufferlen) SZ_Write(writedest, buffer, bufferlen); if (multicastpos) { vec3_t org; coorddata cd; memcpy(&cd, &buffer[multicastpos+sizeofcoord*0], sizeofcoord); org[0] = MSG_FromCoord(cd, sizeofcoord); memcpy(&cd, &buffer[multicastpos+sizeofcoord*1], sizeofcoord); org[1] = MSG_FromCoord(cd, sizeofcoord); memcpy(&cd, &buffer[multicastpos+sizeofcoord*2], sizeofcoord); org[2] = MSG_FromCoord(cd, sizeofcoord); SV_MulticastProtExt(org, multicasttype, FULLDIMENSIONMASK, requireextension, 0); } else if (writedest == &sv.multicast) SV_MulticastProtExt(vec3_origin, multicasttype, FULLDIMENSIONMASK, requireextension, 0); writedest = NULL; } bufferlen = 0; protocollen=0; multicastpos=0; requireextension=0; } void NPP_MVDForceFlush(void) { if (bufferlen) { Con_Printf("Forcing flush mvd->qw prot\n"); Con_Printf("(last was %i)\n", (int)majortype); NPP_MVDFlush(); } } void NPP_MVDCheckFlush(void) { if (bufferlen >= protocollen && protocollen) NPP_MVDFlush(); } void NPP_MVDCheckDest(client_t *cl, int broadcast) { if (!broadcast) { if (!cl) { Con_Printf("Not a client\n"); return; } if ((cldest && cldest != cl) || writedest) { Con_Printf("MSG destination changed in the middle of a packet.\n"); NPP_MVDFlush(); } cldest = cl; } else { sizebuf_t *ndest = &sv.reliable_datagram; if (cldest || (writedest && writedest != ndest)) { Con_Printf("MSG destination changed in the middle of a packet.\n"); NPP_MVDFlush(); } writedest = ndest; } } void NPP_MVDWriteByte(qbyte data, client_t *to, int broadcast) //replacement write func (nq to qw) { int i; NPP_MVDCheckDest(to, broadcast); if (!bufferlen) //new message section { switch(data) { case svc_temp_entity://depends on following bytes break; case svc_serverinfo: case svc_print: case svc_sound: case svc_serverdata: case svc_stufftext: case svc_modellist: case svc_soundlist: case svc_updateuserinfo: case svc_playerinfo: case svc_packetentities: case svc_deltapacketentities: case svc_lightstyle: case svc_nails: case svc_nails2: case svc_centerprint: case svc_setinfo: break; case svc_setangle: if (sv.mvdplayback) protocollen = sizeof(qbyte)*5; //MVDSV writes an extra client num too. else protocollen = sizeof(qbyte)*4; //MVDSV writes an extra client num too. break; case svc_setview: protocollen = sizeof(qbyte)*1 + sizeof(short); break; case svc_cdtrack: protocollen = sizeof(qbyte)*2; break; case svc_killedmonster: protocollen = 1; break; case svc_foundsecret: protocollen = 1; break; // case svc_intermission: // protocollen = 1; // break; // case svc_finale: // protocollen = 2; // break; case svc_muzzleflash: protocollen = 3; break; case svc_smallkick: case svc_bigkick: protocollen = 1; break; case svc_spawnstaticsound: protocollen = 10; break; case svc_spawnstatic: protocollen = 14; break; case svc_spawnbaseline: protocollen = 16; break; case svc_updateping: case svc_updatefrags: protocollen = 4; break; case svc_updatestat: case svc_updatepl: protocollen = 3; break; case svc_updatestatlong: protocollen = 6; break; case svc_updateentertime: protocollen = 6; break; case svc_intermission: protocollen = 10; break; case svc_disconnect: protocollen = 2+strlen("EndOfDemo"); break; case svc_chokecount: protocollen = 2; break; case svc_damage: protocollen = 9; break; default: Con_Printf("mvd: bad protocol %i\n", (int)data); Con_Printf("(last was %i)\n", (int)majortype); protocollen = sizeof(buffer); net_message.cursize=0; data = svc_nop; protocollen = 1; break; } majortype = data; } else if (!protocollen) { switch(majortype) { case svc_temp_entity: if (bufferlen == 1) { minortype = data; switch(data) { case TE_LIGHTNING1: case TE_LIGHTNING2: case TE_LIGHTNING3: multicastpos=4; multicasttype=MULTICAST_PHS; protocollen = sizeof(short)*6+sizeof(short)+sizeof(qbyte)*2; break; case TE_BLOOD: //needs to be converted to a particle case TE_GUNSHOT: //needs qbyte 2 removed multicastpos=3; multicasttype=MULTICAST_PVS; protocollen = sizeof(short)*3+sizeof(qbyte)*3; break; case TE_LIGHTNINGBLOOD: case TE_EXPLOSION: case TE_SPIKE: case TE_SUPERSPIKE: multicastpos=2; multicasttype=MULTICAST_PHS_R; protocollen = sizeof(short)*3+sizeof(qbyte)*2; break; case TE_TAREXPLOSION: case TE_WIZSPIKE: case TE_KNIGHTSPIKE: case TE_LAVASPLASH: case TE_TELEPORT: multicastpos=2; multicasttype=MULTICAST_PVS; protocollen = sizeof(short)*3+sizeof(qbyte)*2; break; default: protocollen = sizeof(buffer); Con_Printf("bad tempentity\n"); break; } } break; case svc_serverdata: if (bufferlen > 9) { i = 9; for(;i < bufferlen && buffer[i];i++) ; i++; i+=4; for(;i < bufferlen && buffer[i];i++) ; i+=4*10; if (i <= bufferlen) protocollen = i; } break; case svc_stufftext: if (!data) //terminated by a null term protocollen = bufferlen; break; case svc_modellist: case svc_soundlist: if (!data) if (!buffer[bufferlen-1]) //two null bytes marks the last string protocollen = bufferlen+2; break; case svc_updateuserinfo: //6 bytes then a string if (!data && bufferlen>=6) protocollen = bufferlen+1; break; case svc_playerinfo: if (bufferlen==4) { unsigned short pflags; int j; ignoreprotocol=true; pflags = buffer[2] + (buffer[3]*256); //little endian protocollen = 4+1; for (j=0 ; j<3 ; j++) if (pflags & (DF_ORIGIN << j)) protocollen += 2; for (j=0 ; j<3 ; j++) if (pflags & (DF_ANGLES << j)) protocollen += 2; if (pflags & DF_MODEL) protocollen += 1; if (pflags & DF_SKINNUM) protocollen += 1; if (pflags & DF_EFFECTS) protocollen += 1; if (pflags & DF_WEAPONFRAME) protocollen += 1; /* if (pflags & PF_MSEC) protocollen+=1; if (pflags & PF_COMMAND) { Con_Printf("svc_playerinfo PF_COMMAND not expected in mvd\n"); protocollen+=500; } for (i=0 ; i<3 ; i++) if (pflags & (PF_VELOCITY1< bufferlen) break; if (!s) { if (i <= bufferlen) protocollen = bufferlen; break; } else { s &= ~511; if (s & U_MOREBITS) { s |= buffer[i]; i++; } if (s & U_MODEL) i++; if (s & U_FRAME) i++; if (s & U_COLORMAP) i++; if (s & U_SKIN) i++; if (s & U_EFFECTS) i++; if (s & U_ORIGIN1) i+=2; if (s & U_ANGLE1) i++; if (s & U_ORIGIN2) i+=2; if (s & U_ANGLE2) i++; if (s & U_ORIGIN3) i+=2; if (s & U_ANGLE3) i++; } } bufferlen--; } break; case svc_lightstyle: if (!data && bufferlen>=2) protocollen = bufferlen+1; break; case svc_serverinfo: //looking for two null terminators if (!data) //gotta be the second. { for (i = 0; i < bufferlen; i++) { if (!buffer[i]) //we already wrote one. { protocollen = bufferlen+1; //so this is the last qbyte break; } } } break; case svc_sound: if (bufferlen == 3) //decide after 3 { unsigned short s; i = 10; s = buffer[1] + buffer[2]*256; if (s & SND_VOLUME) i++; if (s & SND_ATTENUATION) i++; protocollen = i; } break; case svc_setinfo: if (!data && bufferlen>2) { for (i = 2; i < bufferlen; i++) { if (!buffer[i]) { protocollen = bufferlen+1; break; } } } break; case svc_centerprint: if (!data && bufferlen>=1) protocollen = bufferlen+1; break; case svc_print: if (!data && bufferlen>=2) protocollen = bufferlen+1; break; case svc_nails: if (bufferlen == 1) { i = data; //first qbyte is id, second, (the current, about to be written) is number of nails. protocollen = (i * 6) + 2; } break; case svc_nails2: if (bufferlen == 1) { i = data; //first qbyte is id, second, (the current, about to be written) is number of nails. protocollen = (i * 7) + 2; } break; default: Con_Printf("mvd: bad protocol %i\n", (int)data); protocollen = sizeof(buffer); net_message.cursize=0; data = svc_nop; protocollen = 1; break; } } NPP_AddData(&data, sizeof(qbyte)); NPP_MVDCheckFlush(); } #endif //SERVER_DEMO_PLAYBACK void NPP_Flush(void) { if (progstype == PROG_NQ) NPP_NQFlush(); #ifdef NQPROT else NPP_QWFlush(); #endif } #endif #endif