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fteqw/engine/server/net_preparse.c
Spoike 6d36834f8e Reworked client support for DPP5+. less code now, its much more graceful.
added waterfog command. waterfog overrides regular fog only when the view is in water.
fixed 64bit printf format specifiers. should work better on winxp64.
fixed some spec angle weirdness.
fixed viewsize 99.99 weirdness with ezhud.
fixed extra offset on the console (exhibited in 64bit builds, but not limited to).
fixed .avi playback, can now actually display frames again.
reimplemented line sparks.
fixed r_editlights_save flipping the light's pitch.
fixed issue with oggs failing to load.
fixed condump to cope with unicode properly.
made sv_bigcoords default except in quake. hexen2 kinda needs it for bsp angle precision.
fixed nq server to not stall weirdly on map changes.
fixed qwprogs svc_cdtrack not bugging out with nq clients on the server.
fixed restart command to load the last map run by the server, instead of start.bsp (when idle)
optimised d3d9 renderer a little. now uses less draw calls, especially with complex scenes. seems to get higher framerates than opengl now.
fixed d3d9 renderer to not bug out quite so much when run fullscreen (shader subsystem is now correctly initialised).
fixed a couple of bugs from font change. also now supports utf-8 in a few more places.
r_editlights_reload no longer generates rtlights inside the void. this resolves a few glitches (but should also help framerates a little).
fixed so corona-only lights won't generate shadowmaps and waste lots of time.
removed lots of #defines from qclib. I should never have made them in the first place, but I was lazy. obviously there's more left that I cba to remove yet.
fixed nested calls with variant-vectors. this fixes csaddon's light editor.
fixed qcc hc calling conventions using redundant stores.
disabled keywords can still be used by using __keyword instead.
fixed ftegccgui grep feature.
fixed motionless-dog qcc bug.
tweaked qcc warnings a little. -Wall is now a viable setting. you should be able to fix all those warnings.
fixed qw svc_intermission + dpp5+ clients bug.
fixed annoying spam about disconnecting in hexen2.
rewrote status command a little to cope with ipv6 addresses more gracefully
fixed significant stall when hibernating/debugging a server with a player sitting on it.
fixed truelightning.
fixed rocketlight overriding pflags.
fixed torches vanishing on vid_restart.
fixed issue with decal scaling.
fixed findentityfield builtin.
fixed fteqcc issue with ptr+1
fixed use of arrays inside class functions.
fixed/implemented fteqcc emulation of pointer opcodes.
added __inout keyword to fteqcc, so that it doesn't feel so horrendous.
fixed sizeof(*foo)
fixed *struct = struct;
fixed recursive structs.
fixed fteqcc warning report.
fixed sdl2 controller support, hopefully.
attempted to implement xinput, including per-player audio playback.
slightly fixed relaxed attitude to mouse focus when running fullscreen.
fixed weird warnings/errors with 'ent.arrayhead' terms. now generates sane errors.
implemented bindmaps (for csqc).
fixed crashing bug with eprint builtin.
implemented subset of music_playlist_* functionality. significant changes to music playback.
fixed some more dpcsqc compat.
fixed binds menu. now displays and accepts modifiers.
fixed issues with huge lightmaps.
fixed protocol determinism with dp clients connecting to fte servers. the initial getchallenge request now inhibits vanilla nq connection requests.
implemented support for 'dupe' userinfo key, allowing clients to request client->server packet duplication. should probably queue them tbh.
implemented sv_saveentfile command.
fixed resume after breaking inside a stepped-over function.
fixed erroneous footer after debugging.
(I wonder just how many things I broke with these fixes)

git-svn-id: https://svn.code.sf.net/p/fteqw/code/trunk@4946 fc73d0e0-1445-4013-8a0c-d673dee63da5
2015-07-26 10:56:18 +00:00

3196 lines
69 KiB
C

#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 = NULL;
break;
case MULTICAST_PHS_R:
reliable = true; // intentional fallthrough
case MULTICAST_PHS:
if (!sv.phs)
mask = NULL;
else
{
cluster = sv.world.worldmodel->funcs.LeafnumForPoint(sv.world.worldmodel, origin);
if (cluster >= 0)
mask = sv.phs + cluster * 4*((sv.world.worldmodel->numclusters+31)>>5);
else
mask = NULL;
}
break;
case MULTICAST_PVS_R:
reliable = true; // intentional fallthrough
case MULTICAST_PVS:
cluster = sv.world.worldmodel->funcs.LeafnumForPoint(sv.world.worldmodel, origin);
if (cluster >= 0)
mask = sv.pvs + cluster * 4*((sv.world.worldmodel->numclusters+31)>>5);
else
mask = NULL;
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;
}
if (mask)
{
cluster = sv.world.worldmodel->funcs.ClusterForPoint (sv.world.worldmodel, client->edict->v->origin);
if (cluster >= 0 && !(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, int 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;
qboolean ssqc_deprecated_warned;
#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))
{
#ifdef HEXEN2
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
#endif
{
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:
if (progstype == PROG_UNKNOWN)
{
bufferlen = 0;
break;
}
requireextension = PEXT_SHOWPIC;
buffer[0] = svcfte_hidepic;
break;
case svcdp_showlmp:
if (progstype == PROG_UNKNOWN)
{
bufferlen = 0;
break;
}
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)
{
if (sv.csqcdebug)
{
/*shift the data up by two bytes, but don't care about the first byte*/
memmove(buffer+3, buffer+1, bufferlen-1);
/*add a length in the 2nd/3rd bytes, if needed*/
buffer[1] = (bufferlen-1) & 0xff;
buffer[2] = (bufferlen-1) >> 8;
bufferlen += 2;
}
/*replace the svc itself*/
buffer[0] = svcfte_cgamepacket;
}
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(const 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
{
majortype = data;
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;
case svcfte_cgamepacket:
protocollen = sizeof(buffer);
break;
default:
if (data & 128)
{
majortype = 128; //nq 'fast update'
ignoreprotocol = true;
//this handling is explicitly for hipnotic.
//hipnotic sends a camera entity this way so that svc_setview knows where to position itself.
//we emulate this with quakeworld protocols, so we don't necessarily need to support it other than to strip it.
//we're probably screwed if we're acting as an nq server, but few people will use that.
}
else
{
Con_DPrintf("NQWriteByte: bad protocol %i\n", (int)data);
protocollen = sizeof(buffer);
}
break;
}
}
if (bufferlen == 1 && !protocollen) //some of them depend on the following bytes for size.
{
switch(majortype)
{
case 128:
{
unsigned int bits = buffer[0];
protocollen = 1;
if (bits & NQU_MOREBITS)
{
bits |= data<<8;
protocollen+=1;
}
if (bits != (NQU_SIGNAL|NQU_MOREBITS|NQU_ORIGIN1|NQU_ORIGIN2|NQU_ORIGIN3|NQU_LONGENTITY))
{ //this mask is what hipnotic uses. warn if anyone else tries it.
Con_Printf("fast update will be stripped\n");
PR_StackTrace(svprogfuncs, false);
}
if (bits & NQU_ORIGIN1)
protocollen+=2;
if (bits & NQU_ORIGIN2)
protocollen+=2;
if (bits & NQU_ORIGIN3)
protocollen+=2;
if (bits & NQU_ANGLE2)
protocollen+=1;
//nolerp no data
if (bits & NQU_FRAME)
protocollen+=1;
if (bits & NQU_ANGLE1)
protocollen+=1;
if (bits & NQU_ANGLE3)
protocollen+=1;
if (bits & NQU_MODEL)
protocollen+=1;
if (bits & NQU_COLORMAP)
protocollen+=1;
if (bits & NQU_SKIN)
protocollen+=1;
if (bits & NQU_EFFECTS)
protocollen+=1;
if (bits & NQU_LONGENTITY)
protocollen+=2;
else
protocollen+=1;
if (bits & DPU_EXTEND1)
Con_DPrintf("NQWriteByte: fast update with extension bits is not supported\n");
}
break;
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;
if (!ssqc_deprecated_warned)
{
ssqc_deprecated_warned = true;
Con_Printf("NQWriteByte: invalid tempentity %i. Future errors will be dprinted. You may need to enable sv_csqcdebug.\n", data);
PR_StackTrace(svprogfuncs, false);
}
else
Con_DPrintf("NQWriteByte: unknown tempentity %i\n", data);
}
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 svc_stufftext:
case svc_centerprint:
case svc_cutscene:
if (!data)
protocollen = bufferlen;
break;
case svcdp_hidelmp:
//tenebrae compat:
if (progstype == PROG_UNKNOWN)
{
//svc, coord6, byte, long, long, effectname
if (bufferlen >= sizeof(qbyte)*2+destprim->coordsize*6+sizeof(int)*2 && !data)
protocollen = bufferlen;
break;
}
//nehahra/dp compat
if (!data)
protocollen = bufferlen;
break;
case svcdp_showlmp:
//tenebrae compat:
if (progstype == PROG_UNKNOWN)
{
//svc, coord3, byte, effectname
if (bufferlen >= sizeof(qbyte)*2+destprim->coordsize*3 && !data)
protocollen = bufferlen;
break;
}
// [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);
#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 (!bufferlen)
Con_Printf("NQWriteAngle: Messages should start with WriteByte\n");
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)
{
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)
{
float dataf = in;
dataf = LittleFloat(dataf);
NPP_AddData(&dataf, sizeof(float));
}
else
{
short datas = (int)(in*8)&0xffff;
datas = LittleShort(datas);
NPP_AddData(&datas, sizeof(short));
}
NPP_NQCheckFlush();
}
void NPP_NQWriteString(int dest, const 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:
case svc_cutscene:
protocollen = bufferlen;
break;
}
}
if (nullterms)
nullterms--;
NPP_NQCheckFlush();
}
void NPP_NQWriteEntity(int dest, int 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
float NPP_ReadFloat(qbyte *buf)
{
union
{
float f;
qbyte b[4];
} u;
memcpy(u.b, buf, sizeof(u.f));
return LittleFloat(u.f);
}
short NPP_ReadShort(qbyte *buf)
{
union
{
short s;
qbyte b[2];
} u;
memcpy(u.b, buf, sizeof(u.s));
return LittleShort(u.s);
}
unsigned short NPP_ReadUShort(qbyte *buf)
{
union
{
unsigned short s;
qbyte b[2];
} u;
memcpy(u.b, buf, sizeof(u.s));
return LittleShort(u.s);
}
//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
{
//qw cdtracks have only a loop byte.
//nq has initial+loop values.
b = (bufferlen==2)?buffer[1]: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);
i = 1;
if (destprim->coordsize == 4)
{
org[0] = NPP_ReadFloat(buffer+i+0);
org[1] = NPP_ReadFloat(buffer+i+4);
org[2] = NPP_ReadFloat(buffer+i+8);
i += 12;
}
else
{
org[0] = NPP_ReadShort(buffer+i+0) / 8.0;
org[1] = NPP_ReadShort(buffer+i+2) / 8.0;
org[2] = NPP_ReadShort(buffer+i+4) / 8.0;
i += 6;
}
if (destprim->anglesize == 2)
{
ang[0] = NPP_ReadUShort(buffer+i+0)*360.0/0xffff;
ang[1] = NPP_ReadUShort(buffer+i+2)*360.0/0xffff;
ang[2] = NPP_ReadUShort(buffer+i+4)*360.0/0xffff;
i += 6;
}
else
{
ang[0] = (*(qbyte*)&buffer[i+0])*360.0/0xff;
ang[1] = (*(qbyte*)&buffer[i+1])*360.0/0xff;
ang[2] = (*(qbyte*)&buffer[i+2])*360.0/0xff;
i += 3;
}
//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 = bound(0, buffer[2]*20, 255);
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 = 1 + destprim->coordsize*3 + destprim->anglesize*3;
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:
nullterms = 1;
protocollen = 6+nullterms;
break;
case svcqw_updatestatlong:
protocollen = 6;
break;
case svc_setpause:
protocollen = 2;
break;
case svcfte_cgamepacket:
protocollen = sizeof(buffer);
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, const 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, int 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<<i) )
protocollen+=2;
if (pflags & PF_MODEL)
protocollen+=1;
if (pflags & PF_SKINNUM)
protocollen+=1;
if (pflags & PF_EFFECTS)
protocollen+=1;
if (pflags & PF_WEAPONFRAME)
protocollen+=1;
*/
}
break;
case svc_packetentities:
case svc_deltapacketentities:
if (!data) //two last bytes are 0.
{
unsigned short s;
i = majortype-svc_packetentities+1;
buffer[bufferlen] = data;
bufferlen++;
while (1)
{
s = buffer[i] + buffer[i+1]*256;
i+=2;
if (i > 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_QW)
NPP_NQFlush();
#ifdef NQPROT
else
NPP_QWFlush();
#endif
}
#endif
#endif