/// <summary>
/// Removes any acked or expired outgoing events.
/// </summary>
private void CleanOutgoingEvents(
SequenceId ackedEventId)
{
if (ackedEventId.IsValid == false)
{
return;
}
while (this.outgoingEvents.Count > 0)
{
RailEvent top = this.outgoingEvents.Peek();
// Stop if we hit an un-acked reliable event
if (top.IsReliable)
{
if (top.EventId > ackedEventId)
{
break;
}
}
// Stop if we hit an unreliable event with remaining attempts
else
{
if (top.Attempts > 0)
{
break;
}
}
RailPool.Free(this.outgoingEvents.Dequeue());
}
}
public RailPacket()
{
this.senderTick = Tick.INVALID;
this.ackTick = Tick.INVALID;
this.ackEventId = SequenceId.INVALID;
this.pendingEvents = new List <RailEvent>();
this.events = new List <RailEvent>();
this.eventsWritten = 0;
}
internal virtual void Reset()
{
this.senderTick = Tick.INVALID;
this.ackTick = Tick.INVALID;
this.ackEventId = SequenceId.INVALID;
this.pendingEvents.Clear();
this.events.Clear();
this.eventsWritten = 0;
}
private void DecodeHeader(RailBitBuffer buffer)
{
// Read: [LocalTick]
this.senderTick = buffer.ReadTick();
// Read: [AckTick]
this.ackTick = buffer.ReadTick();
// Read: [AckReliableEventId]
this.ackEventId = buffer.ReadSequenceId();
}
private static int GetDifference(SequenceId a, SequenceId b)
{
RailDebug.Assert(a.IsValid);
RailDebug.Assert(b.IsValid);
int difference =
(int)((a.rawValue << SequenceId.BIT_SHIFT) -
(b.rawValue << SequenceId.BIT_SHIFT));
return(difference);
}
internal void Initialize(
Tick senderTick,
Tick ackTick,
SequenceId ackEventId,
IEnumerable <RailEvent> events)
{
this.senderTick = senderTick;
this.ackTick = ackTick;
this.ackEventId = ackEventId;
this.pendingEvents.AddRange(events);
this.eventsWritten = 0;
}
/// <summary>
/// Queues an event to send directly to this peer.
/// </summary>
public void QueueEvent(RailEvent evnt, int attempts)
{
// TODO: Event scoping
// All global events are sent reliably
RailEvent clone = evnt.Clone();
clone.EventId = this.lastQueuedEventId;
clone.Attempts = attempts;
this.outgoingEvents.Enqueue(clone);
this.lastQueuedEventId = this.lastQueuedEventId.Next;
}
/// <summary>
/// Selects outgoing events to send.
/// </summary>
private IEnumerable <RailEvent> FilterOutgoingEvents()
{
// The receiving client can only store SequenceWindow.HISTORY_LENGTH
// events in its received buffer, and will skip any events older than
// its latest received minus that history length, including reliable
// events. In order to make sure we don't force the client to skip a
// reliable event, we will throttle the outgoing events if we've been
// sending them too fast. For example, if we have a reliable event
// with ID 3 pending, the highest ID we can send would be ID 67. If we
// send an event with ID 68, then the client may ignore ID 3 when it
// comes in for being too old, even though it's reliable.
//
// In practice this shouldn't be a problem unless we're sending way
// more events than is reasonable(/possible) in a single packet, or
// something is wrong with reliable event acking.
SequenceId firstReliable = SequenceId.INVALID;
foreach (RailEvent evnt in this.outgoingEvents)
{
if (evnt.IsReliable)
{
if (firstReliable.IsValid == false)
{
firstReliable = evnt.EventId;
}
RailDebug.Assert(firstReliable <= evnt.EventId);
}
if (firstReliable.IsValid)
{
if (SequenceWindow.AreInRange(firstReliable, evnt.EventId) == false)
{
string current = "Throttling events due to unacked reliable\n";
foreach (RailEvent evnt2 in this.outgoingEvents)
{
current += evnt2.EventId + " ";
}
RailDebug.LogWarning(current);
break;
}
}
if (evnt.CanSend)
{
yield return(evnt);
}
}
}
protected RailPeer(
IRailNetPeer netPeer,
RailInterpreter interpreter,
RailPacket reusableIncoming,
RailPacket reusableOutgoing)
{
this.netPeer = netPeer;
this.interpreter = interpreter;
this.controlledEntities = new HashSet <RailEntity>();
this.remoteClock = new RailClock();
this.outgoingEvents = new Queue <RailEvent>();
this.reusableIncoming = reusableIncoming;
this.reusableOutgoing = reusableOutgoing;
this.lastQueuedEventId = SequenceId.START.Next;
this.processedEventHistory = new SequenceWindow(SequenceId.START);
this.netPeer.PayloadReceived += this.OnPayloadReceived;
}
public static int operator -(SequenceId a, SequenceId b)
{
int difference = SequenceId.GetDifference(a, b) >> SequenceId.BIT_SHIFT;
// We need to skip 0 since it's not a valid number
if (a.rawValue < b.rawValue)
{
if (difference > 0)
{
difference--;
}
}
else
{
if (difference < 0)
{
difference++;
}
}
return(difference);
}
public static SequenceId PeekSequenceId(this RailBitBuffer buffer)
{
return(SequenceId.Peek(buffer));
}
public static SequenceId ReadSequenceId(this RailBitBuffer buffer)
{
return(SequenceId.Read(buffer));
}
public static void WriteSequenceId(
this RailBitBuffer buffer,
SequenceId sequenceId)
{
sequenceId.Write(buffer);
}
public static bool operator <=(SequenceId a, SequenceId b)
{
int difference = SequenceId.GetDifference(a, b);
return(difference <= 0);
}
public static SequenceId operator -(SequenceId a, int b)
{
RailDebug.Assert(a.IsValid);
return(new SequenceId((uint)SequenceId.WrapValue((int)a.rawValue - b)));
}
