cvar_t sv_clmovement_minping = {CF_SERVER, "sv_clmovement_minping", "0", "if client ping is below this time in milliseconds, then their ability to use cl_movement prediction is disabled for a while (as they don't need it)"};
cvar_t sv_clmovement_minping_disabletime = {CF_SERVER, "sv_clmovement_minping_disabletime", "1000", "when client falls below minping, disable their prediction for this many milliseconds (should be at least 1000 or else their prediction may turn on/off frequently)"};
cvar_t sv_clmovement_inputtimeout = {CF_SERVER, "sv_clmovement_inputtimeout", "0.1", "when a client does not send input for this many seconds (max 0.1), force them to move anyway (unlike QuakeWorld)"};
+cvar_t sv_clmovement_inputtimeout_correct = {CF_SERVER, "sv_clmovement_inputtimeout_correct", "1", "FOO"};
+cvar_t sv_clmovement_inputtimeout_strict = {CF_SERVER, "sv_clmovement_inputtimeout_strict", "0", "TEST"};
+cvar_t sv_clmovement_alwayscopy = {CF_SERVER, "sv_clmovement_alwayscopy", "1", "bar"};
+cvar_t sv_clmovement_buffer = {CF_SERVER, "sv_clmovement_buffer", "1", "bar"};
+cvar_t sv_clmovement_buffer_split = {CF_SERVER, "sv_clmovement_buffer_split", "0", "bar"};
+cvar_t sv_clmovement_noisy = {CF_SERVER, "sv_clmovement_noisy", "1", "TEST"};
cvar_t sv_cullentities_nevercullbmodels = {CF_SERVER, "sv_cullentities_nevercullbmodels", "0", "if enabled the clients are always notified of moving doors and lifts and other submodels of world (warning: eats a lot of network bandwidth on some levels!)"};
cvar_t sv_cullentities_pvs = {CF_SERVER, "sv_cullentities_pvs", "1", "fast but loose culling of hidden entities"};
cvar_t sv_cullentities_stats = {CF_SERVER, "sv_cullentities_stats", "0", "displays stats on network entities culled by various methods for each client"};
Cvar_RegisterVariable (&sv_clmovement_minping);
Cvar_RegisterVariable (&sv_clmovement_minping_disabletime);
Cvar_RegisterVariable (&sv_clmovement_inputtimeout);
+ Cvar_RegisterVariable (&sv_clmovement_inputtimeout_correct);
+ Cvar_RegisterVariable (&sv_clmovement_inputtimeout_strict);
+ Cvar_RegisterVariable (&sv_clmovement_alwayscopy);
+ Cvar_RegisterVariable (&sv_clmovement_buffer);
+ Cvar_RegisterVariable (&sv_clmovement_buffer_split);
+ Cvar_RegisterVariable (&sv_clmovement_noisy);
Cvar_RegisterVariable (&sv_cullentities_nevercullbmodels);
Cvar_RegisterVariable (&sv_cullentities_pvs);
Cvar_RegisterVariable (&sv_cullentities_stats);
// clear movement info until client enters the new level properly
memset(&client->cmd, 0, sizeof(client->cmd));
+ memset(&client->mbuf, 0, sizeof(client->mbuf)); // is this still necessary?
+ client->mbuf_r = client->mbuf_w = client->mbuf_s = client->mbuf_s_max = 0;
+ client->clmovement_inputtimeout_accum = 0.0f;
client->movesequence = 0;
client->movement_highestsequence_seen = 0;
memset(&client->movement_count, 0, sizeof(client->movement_count));
// Look for clients who have spawned
for (i = 0, host_client = svs.clients; i < svs.maxclients; i++, host_client++)
if(host_client->begun && host_client->netconnection)
+ {
playing = true;
+ if(svs.perf_acc_realtime > 5)
+ {
+ host_client->mbuf_s = host_client->mbuf_s_max;
+ host_client->mbuf_s_max = 0;
+ }
+ }
if(svs.perf_acc_realtime > 5)
{
if (sv.active)
{
NetConn_ServerFrame();
- SV_CheckTimeouts();
}
}
float offset;
prvm_prog_t *prog = SVVM_prog;
+ SV_CheckTimeouts();
+
// run the world state
// don't allow simulation to run too fast or too slow or logic glitches can occur
// send all messages to the clients
SV_SendClientMessages();
+ // execute moves that were deferred to the "next" frame
+ // sv.time advanced and client updates were sent, since these moves were saved
+ if (sv_clmovement_buffer.integer)
+ SV_ExecuteBufferedAsyncMoves();
+
if (sv.paused == 1 && host.realtime > sv.pausedstart && sv.pausedstart > 0) {
prog->globals.fp[OFS_PARM0] = host.realtime - sv.pausedstart;
PRVM_serverglobalfloat(time) = sv.time;
}
}
+static void SV_ExecuteAsyncMove(usercmd_t *move)
+{
+ prvm_prog_t *prog = SVVM_prog;
+
+ double qcframetime = PRVM_serverglobalfloat(frametime);
+ double svframetime = sv.frametime;
+
+ float timeout = min(0.1, sys_ticrate.value > 0.0 && sv.frametime > 0.0 ? sv.frametime * ceil(sv_clmovement_inputtimeout.value / sv.frametime) : sv_clmovement_inputtimeout.value);
+
+ float newping = (sv_clmovement_buffer.integer ? sv.time : host_client->cmd.receivetime) - move->time; // include buffering latency if applicable
+
+ float latencydelta = max(0.0f, newping - host_client->ping);
+
+ if (sv_clmovement_inputtimeout_strict.integer && host_client->clmovement_inputtimeout_accum)
+ {
+ // latency comp for strict mode
+ host_client->cmd.time -= latencydelta;
+ host_client->clmovement_inputtimeout_accum = 0.0f;
+ }
+
+ // support splitting by not resetting frametime when some remains to be executed
+ if (move->frametime <= 0.0)
+ move->frametime = move->time - host_client->cmd.time;
+
+ //Con_Printf("^2newping: %f\toldping: %f\tframetime: %f\n", newping, host_client->ping, move->frametime);
+ // TODO should we check sv.frametime > 0.0 ?
+ if (sv_clmovement_inputtimeout_correct.integer && host_client->clmovement_inputtimeout_accum)
+ {
+ Con_Printf("inputtimeout_accum: %f\n", host_client->clmovement_inputtimeout_accum);
+ // this condition is WIP lol
+ // no condition at all works well for ping spikes and big fps changes, but regresses the improvements for 60fps inputtimeout 0.015625 ticrate 0.0078125
+ //if (move->frametime - host_client->clmovement_inputtimeout_accum < 0.0005) // only if we will drop a move, might let accumulator get larger than would be ideal
+ //if (host_client->clmovement_inputtimeout_accum > timeout)
+ //if (host_client->clmovement_inputtimeout_accum > sv.frametime) // seems about as good as no condition, for fps and ping spikes :)
+ if ((sv_clmovement_inputtimeout_correct.integer == 1 && host_client->clmovement_inputtimeout_accum > sv.frametime && sv.frametime > 0.0) || (sv_clmovement_inputtimeout_correct.integer == 2 && host_client->clmovement_inputtimeout_accum > timeout) || (sv_clmovement_inputtimeout_correct.integer == 3 && move->frametime - host_client->clmovement_inputtimeout_accum < 0.0005) || sv_clmovement_inputtimeout_correct.integer == 4)
+ {
+ //Con_Printf("latencydelta: %f\taccum: %f\n", latencydelta, host_client->clmovement_inputtimeout_accum);
+ // this seems very well behaved in the sudden latency increase case (eg cl_maxidlefps)
+ host_client->clmovement_inputtimeout_accum = max(0.0f, host_client->clmovement_inputtimeout_accum - latencydelta);
+ }
+
+ //if (move->frametime > host_client->clmovement_inputtimeout_accum || (sv_clmovement_inputtimeout_correct.integer & 2 && move->frametime > timeout) || (sv_clmovement_inputtimeout_correct.integer & 4 && sv.frametime && move->frametime > sv.frametime) || sv_clmovement_inputtimeout_correct.integer & 8)
+ //anything more aggressive than (move->frametime > host_client->clmovement_inputtimeout_accum) requires move splitting to prevent some discards after frametimes jump well past inputtimeout
+// if (host_client->clmovement_inputtimeout_accum > 0.0f)
+// {
+ // FIXME sys_ticrate 0.0078125 inputtimeout 0.0078125 125fps = a few moves dropped (frametimes between 0 and 0.0005)
+ // FIXME sys_ticrate 0.0078125 inputtimeout 0.015625 63fps = choppy but nothign is dropped, and its perfectly smooth at 60fps
+ double ft = move->frametime;
+ move->frametime -= host_client->clmovement_inputtimeout_accum;
+ //Con_Printf("Shortening a move after %f inputtimeout, was %f, now %f\n", host_client->clmovement_inputtimeout_accum, ft, move->frametime);
+ host_client->clmovement_inputtimeout_accum = max(0.0f, host_client->clmovement_inputtimeout_accum - ft);
+// }
+// else
+// {
+// Con_Printf("^1Bad stuff!\n");
+ //Con_Printf("Discarding a SHORT move after %f inputtimeout, was %f, now 0.0\n", host_client->clmovement_inputtimeout_accum, move->frametime);
+ //host_client->clmovement_inputtimeout_accum -= move->frametime;
+ //move->frametime = 0.0;
+// host_client->clmovement_inputtimeout_accum = 0.0f;
+// }
+
+ //Con_Printf("Final frametime: %f\tLatency delta: %f\n", move->frametime, latencydelta);
+ }
+
+ // bones_was_here: limit moveframetime to a multiple of sv.frametime to match inputtimeout behaviour
+ // very short inputtimeout requires NOT limiting to inputtimeout (as that could be shorter than client's frametime),
+ // and ideally buffered mode's move splitting (to prevent inputtimeouts and sync physics)
+ // but, just using _correct mode is a big improvement for that case
+ // TODO: correct mode: since we already truncated, we could bound tighter here, but should we? probably smoother not to...
+ if (!sv_clmovement_inputtimeout_correct.integer && !sv_clmovement_buffer_split.integer)
+ move->frametime = min(move->frametime, timeout);
+
+ // FIXME code duplication; would only work with sv_clmovement_alwayscopy >= 1
+ // if the previous move has not been applied yet, we need to accumulate
+ // the impulse/buttons from it
+ if (!host_client->cmd.applied)
+ {
+ if (!move->impulse)
+ move->impulse = host_client->cmd.impulse;
+ move->buttons |= host_client->cmd.buttons;
+ }
+
+ // discard (treat like lost) moves with too low distance from
+ // the previous one to prevent hacks using float inaccuracy
+ // clients will see this as packet loss in the netgraph
+ // this should also apply if a move cannot get
+ // executed because it came too late and
+ // already was performed serverside
+ if(move->frametime < 0.0005)
+ {
+ // count the move as LOST if we don't
+ // execute it but it has higher
+ // sequence count
+ if(host_client->movesequence && sv_clmovement_noisy.integer && (move->time - host_client->cmd.time > 0.0005 || sv_clmovement_noisy.integer & 2))
+ if(move->sequence > host_client->movesequence)
+ host_client->movement_count[(move->sequence) % NETGRAPH_PACKETS] = -1;
+
+ // bones_was_here: reliability improved by copying the move even when we don't execute it asynchronously
+ // (legit DP clients often hit frametime < 0.0005 due to time synchronisation)
+ // if we hit the inputtimeout, this move will be executed synchronously (so player can still move even with 100% move discard rate)
+ // if we don't hit the inputtimeout, this move will not be marked as applied,
+ // so the impulse and buttons will be accumulated into the next move parsed by SV_ReadClientMove
+ // or into the next move in the buffer after this one (see above)
+ // (previously this only happened in synchronous movement)
+ if (sv_clmovement_alwayscopy.integer)
+ {
+ // latencydelta will need to know this move's latency if there's still some inputtimeout_accum
+ //if (sv_clmovement_inputtimeout_correct.integer)
+ host_client->ping = (sv_clmovement_buffer.integer ? sv.time : move->receivetime) - move->time; // include buffering latency if applicable
+
+ //if (move->time < host_client->cmd.time)
+ //Con_Printf("^3Time could step back by %f\n", host_client->cmd.time - move->time);
+
+ // should move frametimes increase after discards (similar to PL) ? NO !
+ // problem with that in _correct mode: we discard x ms of frametime, but add that many to the next move, and since we already decremented the accumulator, client can lagaport
+ if (sv_clmovement_inputtimeout_correct.integer)
+ {
+ // allow small backsteps ONLY, to prevent corner cases where we discard far too many moves
+ // one sv.frametime is plenty for _correct mode and makes it much more robust with big ping spikes
+ move->time = max(move->time, host_client->cmd.time - sv.frametime); // prevent backstepping of time
+ }
+ else if (sv_clmovement_inputtimeout_strict.integer)
+ {
+ // prevent updating of time (HUGE frametimes! like PL, old behaviour, breaks burst discards after inputtimeout)
+ // strict mode needs this to work properly
+ move->time = host_client->cmd.time;
+ }
+
+ //if (move->time < host_client->cmd.time)
+ //Con_Printf("^1 Time did step back by %f\n", host_client->cmd.time - move->time);
+
+ host_client->cmd = *move;
+ }
+
+ // TODO move this out of this block if removing buffer_split
+ if (sv_clmovement_buffer.integer)
+ host_client->mbuf_r++;
+
+ //Con_Printf("Discarding move with frametime %f\n", move->frametime);
+ return;
+ }
+
+ host_client->cmd = *move;
+ host_client->movesequence = move->sequence;
+
+ if (sv_clmovement_buffer.integer)
+ {
+ // TODO can this break when paused? should we use sys_ticrate.value instead or just check sv.frametime?
+ // FIXME if the client has exactly half the server's framerate and never fluctuates at all
+ // the number of buffered moves never decreases
+ // happens when enabling buffer during a match with a client already running exactly half hz
+ // hack: could do a small offset so its running slightly more frametime on the first one ?
+ // or just use a small buffer (4) lol, should be -ok- since long moves are split without using additional buffer slots
+ if ((sv_clmovement_buffer_split.integer == 1 && sv.frametime > 0.0 && move->frametime >= 2.0 * sv.frametime) || (sv_clmovement_buffer_split.integer == 2 && move->frametime > timeout))
+ {
+ //Con_Printf("Splitting a move in %d! ", (int)floor(move->frametime / sv.frametime));
+ host_client->cmd.frametime /= floor(move->frametime / sv.frametime);
+ move->frametime -= host_client->cmd.frametime;
+ move->msec = 1;
+ //Con_Printf("shortened frametime: %f stored remainder: %f\n", host_client->cmd.frametime, move->frametime);
+ }
+ else
+ {
+ host_client->mbuf_r++;
+ move->msec = 0;
+ move->frametime = 0.0; // when reusing this buffer slot, frametime is only calculated if not already set
+ }
+
+ host_client->frametime_accum += host_client->cmd.frametime;
+ }
+
+ // if using prediction, we need to perform moves when packets are
+ // received, even if multiple occur in one frame
+ // (they can't go beyond the current time so there is no cheat issue
+ // with this approach, and if they don't send input for a while they
+ // start moving anyway, so the longest 'lagaport' possible is
+ // determined by the sv_clmovement_inputtimeout cvar)
+
+ // update ping time for qc to see while executing this move
+ host_client->ping = (sv_clmovement_buffer.integer ? sv.time : host_client->cmd.receivetime) - host_client->cmd.time; // include buffering latency if applicable
+ //FIXME why do need to keep receivetime? to support listen servers running multiple physics frames per frame? no, because no move processing happens between physics frames
+ // the server and qc frametime values must be changed temporarily
+ PRVM_serverglobalfloat(frametime) = sv.frametime = host_client->cmd.frametime;
+ // if move is more than 50ms, split it into two moves (this matches QWSV behavior and the client prediction)
+ if (sv.frametime > 0.05)
+ {
+ PRVM_serverglobalfloat(frametime) = sv.frametime = host_client->cmd.frametime * 0.5;
+ SV_Physics_ClientMove();
+ }
+ SV_Physics_ClientMove();
+ sv.frametime = svframetime;
+ PRVM_serverglobalfloat(frametime) = qcframetime;
+ host_client->clmovement_inputtimeout = min(0.1, sv_clmovement_inputtimeout.value);
+}
+
+inline void SV_ExecuteBufferedAsyncMoves(void)
+{
+ unsigned char i = 0;
+ for (host_client = &svs.clients[0]; i < svs.maxclients; i++, host_client++)
+ {
+ if (host_client->begun)
+ host_client->mbuf_s_max = max(host_client->mbuf_s_max, host_client->mbuf_w - host_client->mbuf_r); // the implicit cast to unsigned char is part of the calculation
+ //Con_Printf("Buffered moves: %d\n", (unsigned char)(host_client->mvbuf_w - host_client->mvbuf_r));
+
+ host_client->frametime_accum = 0.0;
+ while (host_client->frametime_accum < sv.frametime && host_client->mbuf_w != host_client->mbuf_r)
+ SV_ExecuteAsyncMove(&host_client->mbuf[MBUF_MASK(host_client->mbuf_r)]);
+ }
+}
+
static void SV_ExecuteClientMoves(void)
{
prvm_prog_t *prog = SVVM_prog;
int moveindex;
- double moveframetime;
- double oldframetime;
- double oldframetime2;
+ //double moveframetime;
+ //double oldframetime;
+ //double oldframetime2;
if (sv_numreadmoves < 1)
return;
#if DEBUGMOVES
Con_Printf("SV_ExecuteClientMoves: read %i moves at sv.time %f\n", sv_numreadmoves, (float)sv.time);
#endif
+
// disable clientside movement prediction in some cases
- if (ceil(max(sv_readmoves[sv_numreadmoves-1].receivetime - sv_readmoves[sv_numreadmoves-1].time, 0) * 1000.0) < sv_clmovement_minping.integer)
+ if (host_client->ping * 1000.0 < sv_clmovement_minping.value || host_client->ping > 1)
host_client->clmovement_disabletimeout = host.realtime + sv_clmovement_minping_disabletime.value / 1000.0;
// several conditions govern whether clientside movement prediction is allowed
if (sv_readmoves[sv_numreadmoves-1].sequence && sv_clmovement_enable.integer && sv_clmovement_inputtimeout.value > 0 && host_client->clmovement_disabletimeout <= host.realtime && (PRVM_serveredictfloat(host_client->edict, disableclientprediction) == -1 || (PRVM_serveredictfloat(host_client->edict, movetype) == MOVETYPE_WALK && (!PRVM_serveredictfloat(host_client->edict, disableclientprediction)))))
for (moveindex = 0;moveindex < sv_numreadmoves;moveindex++)
{
usercmd_t *move = sv_readmoves + moveindex;
- if (host_client->movesequence < move->sequence || moveindex == sv_numreadmoves - 1)
+ if (max(host_client->movesequence, host_client->mbuf[MBUF_MASK(host_client->mbuf_w - 1)].sequence) < move->sequence || moveindex == sv_numreadmoves - 1)
{
#if DEBUGMOVES
Con_Printf("%smove #%u %ims (%ims) %i %i '%i %i %i' '%i %i %i'\n", (move->time - host_client->cmd.time) > sv.frametime * 1.01 ? "^1" : "^2", move->sequence, (int)floor((move->time - host_client->cmd.time) * 1000.0 + 0.5), (int)floor(move->time * 1000.0 + 0.5), move->impulse, move->buttons, (int)move->viewangles[0], (int)move->viewangles[1], (int)move->viewangles[2], (int)move->forwardmove, (int)move->sidemove, (int)move->upmove);
#endif
+/*
+ usercmd_t *prevmove;
+ if (sv_clmovement_buffer.integer && host_client->movesequence && host_client->movesequence < host_client->mbuf[MBUF_MASK(host_client->mbuf_w - 1)].sequence)
+ prevmove = &host_client->mbuf[MBUF_MASK(host_client->mbuf_w - 1)];
+ else
+ prevmove = &host_client->cmd;
+ if (move->time > sv.time)
+ Con_Printf("move->time exceeded sv.time by %f\n", move->time - sv.time);
+ if (move->time < prevmove->time)
+ Con_Printf("time stepped back by %f\n", prevmove->time - move->time);
+*/
+
// this is a new move
+/*
+ // we limit to sv.time + sv.frametime in SV_ReadClientMove and fall back to sync phys if too old
+ // prevent backstepping of time also not required: move->frametime will be < 0 and the move will be discarded
move->time = bound(sv.time - 1, move->time, sv.time); // prevent slowhack/speedhack combos
move->time = max(move->time, host_client->cmd.time); // prevent backstepping of time
+*/
+/*
+ move->frametime = move->time - max(host_client->cmd.time, host_client->mvbuf[MVBUF_MASK(host_client->mvbuf_w - 1)].time);
+
+ //if (move->frametime > 0.05)
+ //Con_Printf("Long move frametime: %f\n", move->frametime);
+
+ if (sv_clmovement_inputtimeout_correct.integer && host_client->clmovement_inputtimeout_accum)
+ {
+ if (move->frametime > host_client->clmovement_inputtimeout_accum)
+ {
+ //Con_Printf("Shortening move frametime after %f inputtimeout, was %f, now %f\n", host_client->clmovement_inputtimeout_accum, move->frametime, move->frametime - host_client->clmovement_inputtimeout_accum);
+ move->frametime -= host_client->clmovement_inputtimeout_accum;
+ host_client->clmovement_inputtimeout_accum = 0.0f;
+ }
+ else
+ {
+ //Con_Printf("Shortening move frametime after %f inputtimeout, was %f, now 0.0\n", host_client->clmovement_inputtimeout_accum, move->frametime);
+ host_client->clmovement_inputtimeout_accum -= move->frametime;
+ move->frametime = 0.0;
+ }
+ }
+
// bones_was_here: limit moveframetime to a multiple of sv.frametime to match inputtimeout behaviour
- moveframetime = min(move->time - host_client->cmd.time, min(0.1, sys_ticrate.value > 0.0 && sv.frametime > 0.0 ? sv.frametime * ceil(sv_clmovement_inputtimeout.value / sv.frametime) : sv_clmovement_inputtimeout.value));
+ // very short inputtimeout requires NOT limiting to inputtimeout (as that could be shorter than client's frametime),
+ // and ideally buffered mode's move splitting (to prevent inputtimeouts and sync physics)
+ // but, just using _correct mode is a big improvement for that case
+ if (sv_clmovement_inputtimeout_correct.integer || sv_clmovement_buffer_split.integer)
+ move->frametime = min(move->frametime, 0.1);
+ else
+ move->frametime = min(move->frametime, min(0.1, sys_ticrate.value > 0.0 && sv.frametime > 0.0 ? sv.frametime * ceil(sv_clmovement_inputtimeout.value / sv.frametime) : sv_clmovement_inputtimeout.value));
+*/
+ if (sv_clmovement_buffer.integer)
+ {
+ // if the buffer is full we are about to overwrite the oldest move
+ // log it as lost and increment the read index
+ if ((unsigned char)(host_client->mbuf_w - host_client->mbuf_r) >= MBUF_SIZE)
+ host_client->movement_count[(host_client->mbuf[MBUF_MASK(host_client->mbuf_r++)].sequence) % NETGRAPH_PACKETS] = -1;
+ // store the move and increment the write index
+ host_client->mbuf[MBUF_MASK(host_client->mbuf_w++)] = *move;
+ // if possible, execute the move now
+ if (host_client->frametime_accum < sv.frametime)
+ SV_ExecuteAsyncMove(&host_client->mbuf[MBUF_MASK(host_client->mbuf_r)]);
+ }
+ else
+ SV_ExecuteAsyncMove(move);
+
+/*
// discard (treat like lost) moves with too low distance from
// the previous one to prevent hacks using float inaccuracy
// clients will see this as packet loss in the netgraph
sv.frametime = oldframetime2;
PRVM_serverglobalfloat(frametime) = oldframetime;
host_client->clmovement_inputtimeout = min(0.1, sv_clmovement_inputtimeout.value);
+*/
}
}
}
}
// now copy the new move
host_client->cmd = sv_readmoves[sv_numreadmoves-1];
- host_client->cmd.time = max(host_client->cmd.time, sv.time);
+ //host_client->cmd.time = max(host_client->cmd.time, sv.time);
// physics will run up to sv.time, so allow no predicted moves
// before that otherwise, there is a speedhack by turning
// prediction on and off repeatedly on client side because the
host_client->movesequence = 0;
// make sure that normal physics takes over immediately
host_client->clmovement_inputtimeout = 0;
+ // clear the async move buffer
+ host_client->mbuf_r = host_client->mbuf_w = 0;
// update ping time
host_client->ping = host_client->cmd.receivetime - sv_readmoves[sv_numreadmoves-1].time;
}