public override void enqueue(DataChunk d)
{
// todo - this worries me - 2 nested synchronized
//logger.LogDebug(" Aspiring to enqueue " + d.ToString());
lock (this)
{
long now = TimeExtension.CurrentTimeMillis();
d.setTsn(_nearTSN++);
d.setGapAck(false);
d.setRetryTime(now + getT3() - 1);
d.setSentTime(now);
SimpleSCTPTimer.setRunnable(run, getT3());
reduceRwnd(d.getDataSize());
//_outbound.put(new Long(d.getTsn()), d);
//logger.LogDebug(" DataChunk enqueued " + d.ToString());
// all sorts of things wrong here - being in a synchronized not the least of them
Chunk[] toSend = addSackIfNeeded(d);
try
{
send(toSend);
//logger.LogDebug("sent, syncing on inFlight... " + d.getTsn());
lock (_inFlight)
{
_inFlight.Add(d.getTsn(), d);
}
//logger.LogDebug("added to inFlight... " + d.getTsn());
}
catch (SctpPacketFormatException ex)
{
logger.LogError("badly formatted chunk " + d.ToString());
logger.LogError(ex.ToString());
}
catch (EndOfStreamException end)
{
unexpectedClose(end);
logger.LogError(end.ToString());
}
catch (IOException ex)
{
logger.LogError("Can not send chunk " + d.ToString());
logger.LogError(ex.ToString());
}
}
//logger.LogDebug("leaving enqueue" + d.getTsn());
}
public void run()
{
///logger.LogDebug("T1 init timer expired in state " + ta._state.ToString());
if ((ta._state == State.COOKIEECHOED) || (ta._state == State.COOKIEWAIT))
{
try
{
if (ta._state == State.COOKIEWAIT)
{
ta.sendInit();
}
else
{
// COOKIEECHOED
ta.send(ta._stashCookieEcho);
}
}
catch (EndOfStreamException end)
{
ta.unexpectedClose(end);
logger.LogError(end.ToString());
}
catch (Exception ex)
{
logger.LogError("Cant send Init/cookie retry " + retries + " because " + ex.ToString());
}
retries++;
if (retries < MAX_INIT_RETRANS)
{
SimpleSCTPTimer.setRunnable(run, ta.getT1());
}
}
else
{
//logger.LogDebug("T1 init timer expired with nothing to do");
}
}
/*
* In instances where its peer endpoint is multi-homed, if an endpoint
* receives a SACK that advances its Cumulative TSN Ack Point, then it
* should update its cwnd (or cwnds) apportioned to the destination
* addresses to which it transmitted the acknowledged data. However, if
*
*
*
* Stewart Standards Track [Page 96]
*
* RFC 4960 Stream Control Transmission Protocol September 2007
*
*
* the received SACK does not advance the Cumulative TSN Ack Point, the
* endpoint MUST NOT adjust the cwnd of any of the destination
* addresses.
*
* Because an endpoint's cwnd is not tied to its Cumulative TSN Ack
* Point, as duplicate SACKs come in, even though they may not advance
* the Cumulative TSN Ack Point an endpoint can still use them to clock
* out new data. That is, the data newly acknowledged by the SACK
* diminishes the amount of data now in flight to less than cwnd, and so
* the current, unchanged value of cwnd now allows new data to be sent.
* On the other hand, the increase of cwnd must be tied to the
* Cumulative TSN Ack Point advancement as specified above. Otherwise,
* the duplicate SACKs will not only clock out new data, but also will
* adversely clock out more new data than what has just left the
* network, during a time of possible congestion.
*
* o When the endpoint does not transmit data on a given transport
* address, the cwnd of the transport address should be adjusted to
* max(cwnd/2, 4*MTU) per RTO.
*
*/
// timer goes off,
public void run()
{
if (canSend())
{
long now = TimeExtension.CurrentTimeMillis();
//logger.LogDebug("retry timer went off at " + now);
List <DataChunk> dcs = new List <DataChunk>();
int space = _transpMTU - 12;// room for packet header
bool resetTimer = false;
lock (_inFlight)
{
foreach (var kvp in _inFlight)
{
DataChunk d = kvp.Value;
long k = kvp.Key;
if (d.getGapAck())
{
//logger.LogDebug("skipping gap-acked tsn " + d.getTsn());
continue;
}
if (d.getRetryTime() <= now)
{
space -= d.getLength();
//logger.LogDebug("available space in pkt is " + space);
if (space <= 0)
{
resetTimer = true;
break;
}
else
{
dcs.Add(d);
d.setRetryTime(now + getT3() - 1);
}
}
else
{
//logger.LogDebug("retry not yet due for " + d.ToString());
resetTimer = true;
}
}
}
if (dcs.Count != 0)
{
dcs.Sort();
DataChunk[] da = new DataChunk[dcs.Count];
int i = 0;
foreach (DataChunk d in dcs)
{
da[i++] = d;
}
resetTimer = true;
try
{
//logger.LogDebug("Sending retry for " + da.Length + " data chunks");
this.send(da);
}
catch (EndOfStreamException end)
{
logger.LogWarning("Retry send failed " + end.ToString());
unexpectedClose(end);
resetTimer = false;
}
catch (Exception ex)
{
logger.LogError("Cant send retry - eek " + ex.ToString());
}
}
else
{
//logger.LogDebug("Nothing to do ");
}
if (resetTimer)
{
SimpleSCTPTimer.setRunnable(run, getT3());
//logger.LogDebug("Try again in a while " + getT3());
}
}
}
public override void associate()
{
sendInit();
SimpleSCTPTimer.setRunnable(new AssocRun(this).run, getT1());
}
