#include "server.h" /* ============================================================================= Delta encode a client frame onto the network channel A normal server packet will look like: 4 sequence number (high bit set if an oversize fragment) 1 svc_snapshot 4 last client reliable command 4 serverTime 1 lastframe for delta compression 1 snapFlags 1 areaBytes ============================================================================= */ /* ============= SV_EmitPacketEntities Writes a delta update of an entityState_t list to the message. ============= */ static void SV_EmitPacketEntities( clientSnapshot_t *from, clientSnapshot_t *to, msg_t *msg ) { entityState_t *oldent, *newent; int oldindex, newindex; int oldnum, newnum; int from_num_entities; // generate the delta update if ( !from ) { from_num_entities = 0; } else { from_num_entities = from->num_entities; } newent = NULL; oldent = NULL; newindex = 0; oldindex = 0; while ( newindex < to->num_entities || oldindex < from_num_entities ) { if ( newindex >= to->num_entities ) { newnum = 9999; } else { newent = &svs.snapshotEntities[(to->first_entity+newindex) % svs.numSnapshotEntities]; newnum = newent->number; } if ( oldindex >= from_num_entities ) { oldnum = 9999; } else { oldent = &svs.snapshotEntities[(from->first_entity+oldindex) % svs.numSnapshotEntities]; oldnum = oldent->number; } if ( newnum == oldnum ) { // delta update from old position // because the force parm is qfalse, this will not result // in any bytes being emited if the entity has not changed at all MSG_WriteDeltaEntity (msg, oldent, newent, qfalse ); oldindex++; newindex++; continue; } if ( newnum < oldnum ) { // this is a new entity, send it from the baseline MSG_WriteDeltaEntity (msg, &sv.svEntities[newnum].baseline, newent, qtrue ); newindex++; continue; } if ( newnum > oldnum ) { // the old entity isn't present in the new message MSG_WriteDeltaEntity (msg, oldent, NULL, qtrue ); oldindex++; continue; } } MSG_WriteBits( msg, (MAX_GENTITIES-1), GENTITYNUM_BITS ); // end of packetentities } /* ================== SV_WriteSnapshotToClient ================== */ static void SV_WriteSnapshotToClient( client_t *client, msg_t *msg ) { clientSnapshot_t *frame, *oldframe; int lastframe; int i; int snapFlags; // this is the snapshot we are creating frame = &client->frames[ client->netchan.outgoingSequence & PACKET_MASK ]; // try to use a previous frame as the source for delta compressing the snapshot if ( client->deltaMessage <= 0 || client->state != CS_ACTIVE ) { // client is asking for a retransmit oldframe = NULL; lastframe = 0; } else if ( client->netchan.outgoingSequence - client->deltaMessage >= (PACKET_BACKUP - 3) ) { // client hasn't gotten a good message through in a long time Com_DPrintf ("%s: Delta request from out of date packet.\n", client->name); oldframe = NULL; lastframe = 0; } else { // we have a valid snapshot to delta from oldframe = &client->frames[ client->deltaMessage & PACKET_MASK ]; lastframe = client->netchan.outgoingSequence - client->deltaMessage; // the snapshot's entities may still have rolled off the buffer, though if ( oldframe->first_entity <= svs.nextSnapshotEntities - svs.numSnapshotEntities ) { Com_DPrintf ("%s: Delta request from out of date entities.\n", client->name); oldframe = NULL; lastframe = 0; } } MSG_WriteByte (msg, svc_snapshot); // NOTE, MRE: now sent at the start of every message from server to client // let the client know which reliable clientCommands we have received //MSG_WriteLong( msg, client->lastClientCommand ); // send over the current server time so the client can drift // its view of time to try to match MSG_WriteLong (msg, svs.time); // what we are delta'ing from MSG_WriteByte (msg, lastframe); snapFlags = svs.snapFlagServerBit; if ( client->rateDelayed ) { snapFlags |= SNAPFLAG_RATE_DELAYED; } if ( client->state != CS_ACTIVE ) { snapFlags |= SNAPFLAG_NOT_ACTIVE; } MSG_WriteByte (msg, snapFlags); // send over the areabits MSG_WriteByte (msg, frame->areabytes); MSG_WriteData (msg, frame->areabits, frame->areabytes); // delta encode the playerstate if ( oldframe ) { MSG_WriteDeltaPlayerstate( msg, &oldframe->ps, &frame->ps ); } else { MSG_WriteDeltaPlayerstate( msg, NULL, &frame->ps ); } // delta encode the entities SV_EmitPacketEntities (oldframe, frame, msg); // padding for rate debugging if ( sv_padPackets->integer ) { for ( i = 0 ; i < sv_padPackets->integer ; i++ ) { MSG_WriteByte (msg, svc_nop); } } } /* ================== SV_UpdateServerCommandsToClient (re)send all server commands the client hasn't acknowledged yet ================== */ void SV_UpdateServerCommandsToClient( client_t *client, msg_t *msg ) { int i; // write any unacknowledged serverCommands for ( i = client->reliableAcknowledge + 1 ; i <= client->reliableSequence ; i++ ) { MSG_WriteByte( msg, svc_serverCommand ); MSG_WriteLong( msg, i ); MSG_WriteString( msg, client->reliableCommands[ i & (MAX_RELIABLE_COMMANDS-1) ] ); } client->reliableSent = client->reliableSequence; } /* ============================================================================= Build a client snapshot structure ============================================================================= */ #define MAX_SNAPSHOT_ENTITIES 1024 typedef struct { int numSnapshotEntities; int snapshotEntities[MAX_SNAPSHOT_ENTITIES]; } snapshotEntityNumbers_t; /* ======================= SV_QsortEntityNumbers ======================= */ static int QDECL SV_QsortEntityNumbers( const void *a, const void *b ) { int *ea, *eb; ea = (int *)a; eb = (int *)b; if ( *ea == *eb ) { Com_Error( ERR_DROP, "SV_QsortEntityStates: duplicated entity" ); } if ( *ea < *eb ) { return -1; } return 1; } /* =============== SV_AddEntToSnapshot =============== */ static void SV_AddEntToSnapshot( svEntity_t *svEnt, sharedEntity_t *gEnt, snapshotEntityNumbers_t *eNums ) { // if we have already added this entity to this snapshot, don't add again if ( svEnt->snapshotCounter == sv.snapshotCounter ) { return; } svEnt->snapshotCounter = sv.snapshotCounter; // if we are full, silently discard entities if ( eNums->numSnapshotEntities == MAX_SNAPSHOT_ENTITIES ) { return; } eNums->snapshotEntities[ eNums->numSnapshotEntities ] = gEnt->s.number; eNums->numSnapshotEntities++; } /* =============== SV_AddEntitiesVisibleFromPoint =============== */ static void SV_AddEntitiesVisibleFromPoint( vec3_t origin, clientSnapshot_t *frame, snapshotEntityNumbers_t *eNums, qboolean portal ) { int e, i; sharedEntity_t *ent; svEntity_t *svEnt; int l; int clientarea, clientcluster; int leafnum; int c_fullsend; byte *clientpvs; byte *bitvector; // during an error shutdown message we may need to transmit // the shutdown message after the server has shutdown, so // specfically check for it if ( !sv.state ) { return; } leafnum = CM_PointLeafnum (origin); clientarea = CM_LeafArea (leafnum); clientcluster = CM_LeafCluster (leafnum); // calculate the visible areas frame->areabytes = CM_WriteAreaBits( frame->areabits, clientarea ); clientpvs = CM_ClusterPVS (clientcluster); c_fullsend = 0; for ( e = 0 ; e < sv.num_entities ; e++ ) { ent = SV_GentityNum(e); // never send entities that aren't linked in if ( !ent->r.linked ) { continue; } if (ent->s.number != e) { Com_DPrintf ("FIXING ENT->S.NUMBER!!!\n"); ent->s.number = e; } // entities can be flagged to explicitly not be sent to the client if ( ent->r.svFlags & SVF_NOCLIENT ) { continue; } // entities can be flagged to be sent to only one client if ( ent->r.svFlags & SVF_SINGLECLIENT ) { if ( ent->r.singleClient != frame->ps.clientNum ) { continue; } } // entities can be flagged to be sent to everyone but one client if ( ent->r.svFlags & SVF_NOTSINGLECLIENT ) { if ( ent->r.singleClient == frame->ps.clientNum ) { continue; } } svEnt = SV_SvEntityForGentity( ent ); // don't double add an entity through portals if ( svEnt->snapshotCounter == sv.snapshotCounter ) { continue; } // broadcast entities are always sent, and so is the main player so we don't see noclip weirdness if ( ent->r.svFlags & SVF_BROADCAST || (e == frame->ps.clientNum) || (ent->r.broadcastClients[frame->ps.clientNum/32] & (1<<(frame->ps.clientNum%32)))) { SV_AddEntToSnapshot( svEnt, ent, eNums ); continue; } // ignore if not touching a PV leaf // check area if ( !CM_AreasConnected( clientarea, svEnt->areanum ) ) { // doors can legally straddle two areas, so // we may need to check another one if ( !CM_AreasConnected( clientarea, svEnt->areanum2 ) ) { continue; // blocked by a door } } bitvector = clientpvs; // check individual leafs if ( !svEnt->numClusters ) { continue; } l = 0; for ( i=0 ; i < svEnt->numClusters ; i++ ) { l = svEnt->clusternums[i]; if ( bitvector[l >> 3] & (1 << (l&7) ) ) { break; } } // if we haven't found it to be visible, // check overflow clusters that coudln't be stored if ( i == svEnt->numClusters ) { if ( svEnt->lastCluster ) { for ( ; l <= svEnt->lastCluster ; l++ ) { if ( bitvector[l >> 3] & (1 << (l&7) ) ) { break; } } if ( l == svEnt->lastCluster ) { continue; // not visible } } else { continue; } } // add it SV_AddEntToSnapshot( svEnt, ent, eNums ); // if its a portal entity, add everything visible from its camera position if ( ent->r.svFlags & SVF_PORTAL ) { if ( ent->s.generic1 ) { vec3_t dir; VectorSubtract(ent->s.origin, origin, dir); if ( VectorLengthSquared(dir) > (float) ent->s.generic1 * ent->s.generic1 ) { continue; } } SV_AddEntitiesVisibleFromPoint( ent->s.origin2, frame, eNums, qtrue ); } } } /* ============= SV_BuildClientSnapshot Decides which entities are going to be visible to the client, and copies off the playerstate and areabits. This properly handles multiple recursive portals, but the render currently doesn't. For viewing through other player's eyes, clent can be something other than client->gentity ============= */ static void SV_BuildClientSnapshot( client_t *client ) { vec3_t org; clientSnapshot_t *frame; snapshotEntityNumbers_t entityNumbers; int i; sharedEntity_t *ent; entityState_t *state; svEntity_t *svEnt; sharedEntity_t *clent; playerState_t *ps; // bump the counter used to prevent double adding sv.snapshotCounter++; // this is the frame we are creating frame = &client->frames[ client->netchan.outgoingSequence & PACKET_MASK ]; // clear everything in this snapshot entityNumbers.numSnapshotEntities = 0; Com_Memset( frame->areabits, 0, sizeof( frame->areabits ) ); frame->num_entities = 0; clent = client->gentity; if ( !clent || client->state == CS_ZOMBIE ) { return; } // grab the current playerState_t ps = SV_GameClientNum( client - svs.clients ); frame->ps = *ps; int clientNum; // never send client's own entity, because it can // be regenerated from the playerstate clientNum = frame->ps.clientNum; if ( clientNum < 0 || clientNum >= MAX_GENTITIES ) { Com_Error( ERR_DROP, "SV_SvEntityForGentity: bad gEnt" ); } svEnt = &sv.svEntities[ clientNum ]; svEnt->snapshotCounter = sv.snapshotCounter; // find the client's viewpoint VectorCopy( ps->origin, org ); org[2] += ps->viewheight; // add all the entities directly visible to the eye, which // may include portal entities that merge other viewpoints SV_AddEntitiesVisibleFromPoint( org, frame, &entityNumbers, qfalse ); // if there were portals visible, there may be out of order entities // in the list which will need to be resorted for the delta compression // to work correctly. This also catches the error condition // of an entity being included twice. qsort( entityNumbers.snapshotEntities, entityNumbers.numSnapshotEntities, sizeof( entityNumbers.snapshotEntities[0] ), SV_QsortEntityNumbers ); // now that all viewpoint's areabits have been OR'd together, invert // all of them to make it a mask vector, which is what the renderer wants for ( i = 0 ; i < MAX_MAP_AREA_BYTES/4 ; i++ ) { ((int *)frame->areabits)[i] = ((int *)frame->areabits)[i] ^ -1; } // copy the entity states out frame->num_entities = 0; frame->first_entity = svs.nextSnapshotEntities; for ( i = 0 ; i < entityNumbers.numSnapshotEntities ; i++ ) { ent = SV_GentityNum(entityNumbers.snapshotEntities[i]); state = &svs.snapshotEntities[svs.nextSnapshotEntities % svs.numSnapshotEntities]; *state = ent->s; svs.nextSnapshotEntities++; // this should never hit, map should always be restarted first in SV_Frame if ( svs.nextSnapshotEntities >= 0x7FFFFFFE ) { Com_Error(ERR_FATAL, "svs.nextSnapshotEntities wrapped"); } frame->num_entities++; } } /* ==================== SV_RateMsec Return the number of msec a given size message is supposed to take to clear, based on the current rate ==================== */ #define HEADER_RATE_BYTES 48 // include our header, IP header, and some overhead static int SV_RateMsec( client_t *client, int messageSize ) { int rate; int rateMsec; // individual messages will never be larger than fragment size if ( messageSize > 1500 ) { messageSize = 1500; } rate = client->rate; if ( sv_maxRate->integer ) { if ( sv_maxRate->integer < 1000 ) { Cvar_Set( "sv_MaxRate", "1000" ); } if ( sv_maxRate->integer < rate ) { rate = sv_maxRate->integer; } } rateMsec = ( messageSize + HEADER_RATE_BYTES ) * 1000 / rate; return rateMsec; } /* ======================= SV_SendMessageToClient Called by SV_SendClientSnapshot and SV_SendClientGameState ======================= */ void SV_SendMessageToClient( msg_t *msg, client_t *client ) { int rateMsec; // MW - my attempt to fix illegible server message errors caused by // packet fragmentation of initial snapshot. while(client->state&&client->netchan.unsentFragments) { // send additional message fragments if the last message // was too large to send at once Com_Printf ("[ISM]SV_SendClientGameState() [1] for %s, writing out old fragments\n", client->name); SV_Netchan_TransmitNextFragment(&client->netchan); } // record information about the message client->frames[client->netchan.outgoingSequence & PACKET_MASK].messageSize = msg->cursize; client->frames[client->netchan.outgoingSequence & PACKET_MASK].messageSent = svs.time; client->frames[client->netchan.outgoingSequence & PACKET_MASK].messageAcked = -1; // send the datagram SV_Netchan_Transmit( client, msg ); //msg->cursize, msg->data ); // set nextSnapshotTime based on rate and requested number of updates // local clients get snapshots every frame if ( client->netchan.remoteAddress.type == NA_LOOPBACK || Sys_IsLANAddress (client->netchan.remoteAddress) ) { client->nextSnapshotTime = svs.time - 1; return; } // normal rate / snapshotMsec calculation rateMsec = SV_RateMsec( client, msg->cursize ); if ( rateMsec < client->snapshotMsec ) { // never send more packets than this, no matter what the rate is at rateMsec = client->snapshotMsec; client->rateDelayed = qfalse; } else { client->rateDelayed = qtrue; } client->nextSnapshotTime = svs.time + rateMsec; // don't pile up empty snapshots while connecting if ( client->state != CS_ACTIVE ) { // a gigantic connection message may have already put the nextSnapshotTime // more than a second away, so don't shorten it // do shorten if client is downloading if ( !*client->downloadName && client->nextSnapshotTime < svs.time + 1000 ) { client->nextSnapshotTime = svs.time + 1000; } } } /* ======================= SV_SendClientSnapshot Also called by SV_FinalMessage ======================= */ void SV_SendClientSnapshot( client_t *client ) { byte msg_buf[MAX_MSGLEN]; msg_t msg; // build the snapshot SV_BuildClientSnapshot( client ); // bots need to have their snapshots build, but // the query them directly without needing to be sent if ( client->gentity && client->gentity->r.svFlags & SVF_BOT ) { return; } MSG_Init (&msg, msg_buf, sizeof(msg_buf)); msg.allowoverflow = qtrue; // NOTE, MRE: all server->client messages now acknowledge // let the client know which reliable clientCommands we have received MSG_WriteLong( &msg, client->lastClientCommand ); // (re)send any reliable server commands SV_UpdateServerCommandsToClient( client, &msg ); // send over all the relevant entityState_t // and the playerState_t SV_WriteSnapshotToClient( client, &msg ); // Add any download data if the client is downloading SV_WriteDownloadToClient( client, &msg ); // check for overflow if ( msg.overflowed ) { Com_Printf ("WARNING: msg overflowed for %s\n", client->name); MSG_Clear (&msg); } SV_SendMessageToClient( &msg, client ); } /* ======================= SV_SendClientMessages ======================= */ void SV_SendClientMessages( void ) { int i; client_t *c; // send a message to each connected client for (i=0, c = svs.clients ; i < sv_maxclients->integer ; i++, c++) { if (!c->state) { continue; // not connected } if ( svs.time < c->nextSnapshotTime ) { continue; // not time yet } // send additional message fragments if the last message // was too large to send at once if ( c->netchan.unsentFragments ) { c->nextSnapshotTime = svs.time + SV_RateMsec( c, c->netchan.unsentLength - c->netchan.unsentFragmentStart ); SV_Netchan_TransmitNextFragment( &c->netchan ); continue; } // generate and send a new message SV_SendClientSnapshot( c ); } }