transbuf.cpp
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CPP
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/* ***** BEGIN LICENSE BLOCK *****
* Source last modified: $Id: transbuf.cpp,v 1.14.2.2 2004/07/09 02:04:41 hubbe Exp $
*
* Portions Copyright (c) 1995-2004 RealNetworks, Inc. All Rights Reserved.
*
* The contents of this file, and the files included with this file,
* are subject to the current version of the RealNetworks Public
* Source License (the "RPSL") available at
* http://www.helixcommunity.org/content/rpsl unless you have licensed
* the file under the current version of the RealNetworks Community
* Source License (the "RCSL") available at
* http://www.helixcommunity.org/content/rcsl, in which case the RCSL
* will apply. You may also obtain the license terms directly from
* RealNetworks. You may not use this file except in compliance with
* the RPSL or, if you have a valid RCSL with RealNetworks applicable
* to this file, the RCSL. Please see the applicable RPSL or RCSL for
* the rights, obligations and limitations governing use of the
* contents of the file.
*
* Alternatively, the contents of this file may be used under the
* terms of the GNU General Public License Version 2 or later (the
* "GPL") in which case the provisions of the GPL are applicable
* instead of those above. If you wish to allow use of your version of
* this file only under the terms of the GPL, and not to allow others
* to use your version of this file under the terms of either the RPSL
* or RCSL, indicate your decision by deleting the provisions above
* and replace them with the notice and other provisions required by
* the GPL. If you do not delete the provisions above, a recipient may
* use your version of this file under the terms of any one of the
* RPSL, the RCSL or the GPL.
*
* This file is part of the Helix DNA Technology. RealNetworks is the
* developer of the Original Code and owns the copyrights in the
* portions it created.
*
* This file, and the files included with this file, is distributed
* and made available on an 'AS IS' basis, WITHOUT WARRANTY OF ANY
* KIND, EITHER EXPRESS OR IMPLIED, AND REALNETWORKS HEREBY DISCLAIMS
* ALL SUCH WARRANTIES, INCLUDING WITHOUT LIMITATION, ANY WARRANTIES
* OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, QUIET
* ENJOYMENT OR NON-INFRINGEMENT.
*
* Technology Compatibility Kit Test Suite(s) Location:
* http://www.helixcommunity.org/content/tck
*
* Contributor(s):
*
* ***** END LICENSE BLOCK ***** */
#include "debug.h"
#include "hxcom.h"
#include "hxtypes.h"
#include "hxstring.h"
#include "hxslist.h"
#include "hxdeque.h"
#include "hxbitset.h"
#include "hxmap.h"
#include "hxengin.h"
#include "ihxpckts.h"
#include "basepkt.h"
#include "mimehead.h"
#include "rtspmsg.h"
#include "servrsnd.h"
#include "transbuf.h"
#include "rtspif.h"
#include "rtsptran.h"
#include "hxtick.h"
#include "hxheap.h"
#ifdef _DEBUG
#undef HX_THIS_FILE
static const char HX_THIS_FILE[] = __FILE__;
#endif
//These defines control when we stop waiting for an out of order
//packet and just send a NAK for it. The two conditions are a timeout
//and the number of packets, with higher sequence numbers, that come
//after it. For the timeout we have choosen 500ms for now. This
//number should be based off of the RTT but we currently do not have
//that information.
#define NAK_TIMEOUT 500
#define REORDER_TOLERANCE 3
//This is how often to check to see if we have exceeded our NAK_TIMEOUT
//for the packets in our pending queue.
#define NAK_CHECK_INTERVAL 100
// Pending Packet Methods
PendingPacket::PendingPacket(UINT32 ulSeqNo, UINT32 arrivalTime)
: m_ulSequenceNumber(ulSeqNo),
m_ulNumPktsBehind(0),
m_ulArrivalTime(arrivalTime)
{
}
PendingPacket::~PendingPacket()
{};
/*
* Keep the deque under 16k
*/
const UINT16 MAX_BITSET_SIZE = 384;
const UINT16 MIN_NETWORK_JITTER_MSECS = 2000;
const UINT16 MAX_QUEUED_PACKETS = 500;
RTSPTransportBuffer::RTSPTransportBuffer(
RTSPTransport* owner,
UINT16 streamNumber,
UINT32 bufferDuration,
UINT32 maxBufferDuration,
UINT32 growthRate,
UINT32 wrapSequenceNumber
) : m_pOwner(owner),
m_uStreamNumber(streamNumber),
m_bufferDuration(bufferDuration),
m_maxBufferDuration(maxBufferDuration),
m_growthRate(growthRate),
m_wrapSequenceNumber(wrapSequenceNumber),
m_status(TRANSBUF_INITIALIZING),
m_bIsInitialized(FALSE),
m_bWaitingForSeekFlush(FALSE),
m_bWaitingForLiveSeekFlush(FALSE),
m_bFlushHolding(FALSE),
m_bIsEnded(FALSE),
m_bQueueIsEmpty(TRUE),
m_bCacheIsEmpty(TRUE),
m_bStreamBegin(FALSE),
m_bStreamDone(FALSE),
m_bStreamDoneSent(FALSE),
m_bSourceStopped(FALSE),
m_bExpectedTSRangeSet(FALSE),
m_uStartTimestamp(0),
m_uEndTimestamp(0),
m_ulEndDelayTolerance(0),
m_bACKDone(FALSE),
m_bPaused(FALSE),
m_bPausedHack(FALSE),
m_uReliableSeqNo(0),
m_uEndReliableSeqNo(0),
m_uFirstSequenceNumber(0),
m_uLastSequenceNumber(0),
m_uEndSequenceNumber(0),
m_uSeekSequenceNumber(0),
m_uSeekCount(0),
m_uNormal(0),
m_ulDuplicate(0),
m_ulOutOfOrder(0),
m_uLost(0),
m_uLate(0),
m_uResendRequested(0),
m_uResendReceived(0),
m_uByteCount(0),
m_uLastByteCount(0),
m_uAvgBandwidth(0),
m_uCurBandwidth(0),
m_ulLastLost30(0),
m_ulLastTotal30(0),
m_ulTSRollOver(0),
m_bPacketsStarted(FALSE),
m_ulIndex30(0),
m_uLastTimestamp(0),
m_ulCurrentQueueByteCount(0),
m_ulCurrentCacheByteCount(0),
m_bAtLeastOnePacketReceived(FALSE),
m_bAtLeastOneResetHandled(FALSE),
m_ulFirstTimestampReceived(0),
m_ulLastTimestampReceived(0),
m_ulBufferingStartTime(0),
m_ulLastGrowTime(HX_GET_TICKCOUNT()),
m_bMulticast(FALSE),
m_bMulticastReset(TRUE),
m_bIsLive(FALSE),
m_bSparseStream(FALSE),
m_pScheduler(NULL),
m_bMulticastReliableSeqNoSet(FALSE),
m_bPrefetch(FALSE),
m_bFastStart(FALSE),
m_pFIFOCache(NULL),
m_ulFrontTimeStampCached(0),
m_ulRearTimeStampCached(0),
m_ulByteLimit(0)
,m_CallbackHandle(0)
,m_pCallBack(NULL)
{
InitTimer();
int j = 0;
for (j = 0; j < 30; j++)
{
m_ulTotal30[j] = 0;
m_ulLost30[j] = 0;
}
m_pPacketDeque = new HX_deque(INITIAL_DEQUE_SIZE);
m_pCallBack = new RTSPTransportBufferCallback(this);
m_pCallBack->AddRef();
#ifdef THREADS_SUPPORTED
HXMutex::MakeMutex(m_pPendingLock);
#else
HXMutex::MakeStubMutex(m_pPendingLock);
#endif
}
RTSPTransportBuffer::~RTSPTransportBuffer()
{
CHXSimpleList::Iterator i;
ClientPacket* pPacket;
//Clean up our pending packet que.
m_pPendingLock->Lock();
while( !m_PendingPackets.IsEmpty() )
{
PendingPacket* pPend = (PendingPacket*)m_PendingPackets.RemoveHead();
HX_DELETE(pPend);
}
//Get rid of any scheduler events...
if (m_pScheduler && m_CallbackHandle)
{
m_pScheduler->Remove(m_CallbackHandle);
}
m_CallbackHandle = 0;
if( m_pCallBack )
m_pCallBack->Clear();
HX_RELEASE( m_pCallBack );
m_pPendingLock->Unlock();
for (i = m_pHoldList.Begin(); i != m_pHoldList.End(); ++i)
{
pPacket = (ClientPacket*)(*i);
HX_RELEASE(pPacket);
}
m_pHoldList.RemoveAll();
while(!m_pPacketDeque->empty())
{
pPacket = (ClientPacket*)m_pPacketDeque->pop_front();
HX_RELEASE(pPacket);
}
HX_RELEASE(m_pScheduler);
HX_DELETE(m_pPendingLock);
HX_DELETE(m_pPacketDeque);
#if defined(HELIX_FEATURE_FIFOCACHE)
HX_RELEASE(m_pFIFOCache);
#endif
}
void
RTSPTransportBuffer::Reset()
{
m_status = TRANSBUF_INITIALIZING;
if (m_bAtLeastOneResetHandled)
{
m_uSeekCount++;
m_bIsEnded = FALSE;
m_bStreamDone = FALSE;
m_bStreamDoneSent = FALSE;
m_bSourceStopped = FALSE;
}
else
{
m_bAtLeastOneResetHandled = TRUE;
m_ulBufferingStartTime = HX_GET_TICKCOUNT();
}
m_ulTSRollOver = 0;
m_bAtLeastOnePacketReceived = FALSE;
m_uLastTimestamp = 0;
m_bExpectedTSRangeSet = FALSE;
m_uStartTimestamp = 0;
m_uEndTimestamp = 0;
m_ulEndDelayTolerance = 0;
}
void
RTSPTransportBuffer::Grow()
{
UINT32 ulCurrentTime = HX_GET_TICKCOUNT();
/* Check to not grow fast in case we get multiple late
* packets at around the same time.
*/
if (CALCULATE_ELAPSED_TICKS(m_ulLastGrowTime, ulCurrentTime) >=
m_growthRate)
{
m_ulLastGrowTime = HX_GET_TICKCOUNT();
if (m_bufferDuration + m_growthRate <= m_maxBufferDuration)
{
m_bufferDuration += m_growthRate;
}
}
}
HX_RESULT
RTSPTransportBuffer::Init(UINT16 uSeqNo)
{
/*
* The server side of an encoding session will initialize the scheduler
* here
*/
if (!m_pScheduler)
{
InitTimer();
}
HX_ASSERT(m_pScheduler != NULL);
if (!m_bIsInitialized)
{
m_bIsInitialized = TRUE;
m_uACKSequenceNumber =
m_uFirstSequenceNumber =
m_uLastSequenceNumber = uSeqNo;
if (m_uSeekCount > 0)
{
return HXR_OK;
}
}
else if (m_uSeekCount)
{
m_uSeekCount--;
if (m_uSeekCount > 0)
{
return HXR_OK;
}
m_uSeekSequenceNumber = uSeqNo;
m_bWaitingForSeekFlush = TRUE;
}
m_status = TRANSBUF_READY;
/*
* Now add any packets that arrived before initialization
*/
m_bStreamBegin = TRUE;
CHXSimpleList::Iterator i;
for (i = m_pHoldList.Begin(); i != m_pHoldList.End(); ++i)
{
ClientPacket* pPacket = (ClientPacket*)(*i);
Add(pPacket);
}
m_pHoldList.RemoveAll();
m_bStreamBegin = FALSE;
return HXR_OK;
}
HX_RESULT
RTSPTransportBuffer::Add(ClientPacket* pPacket)
{
if (!m_pPacketDeque)
{
HX_RELEASE(pPacket);
return HXR_FAIL;
}
else if (m_pPacketDeque->size() >= MAX_DEQUE_SIZE)
{
m_pOwner->HandleBufferError();
HX_RELEASE(pPacket);
return HXR_FAIL;
}
else if (m_bStreamDone)
{
/*
* If we have already returned the last packet, then don't bother
* trying to add anymore
*/
HX_RELEASE(pPacket);
return HXR_OK;
}
else if (!m_bIsInitialized || m_uSeekCount)
{
/*
* Until the first sequence number is set, just hold the packets
* as they arrive
*/
#if defined(HELIX_FEATURE_TRANSPORT_MULTICAST)
if (m_bMulticast && m_bMulticastReset)
{
//We are going to destroy all our place holders so clean up the
//pending queue as well.
m_pPendingLock->Lock();
while( !m_PendingPackets.IsEmpty() )
{
PendingPacket* pPend = (PendingPacket*)m_PendingPackets.RemoveHead();
HX_DELETE(pPend);
}
//Get rid of any scheduler events...
if (m_pScheduler && m_CallbackHandle)
{
m_pScheduler->Remove(m_CallbackHandle);
}
m_CallbackHandle = 0;
if( m_pCallBack )
m_pCallBack->Clear();
HX_RELEASE( m_pCallBack );
m_pPendingLock->Unlock();
/* Destruct and recreate the packet queue */
/* XXXSMP ...but it works */
ClientPacket *pTmpPacket = NULL;
while(!m_pPacketDeque->empty())
{
pTmpPacket = (ClientPacket*)m_pPacketDeque->pop_front();
HX_RELEASE(pTmpPacket);
}
HX_DELETE(m_pPacketDeque);
m_pPacketDeque = new HX_deque(INITIAL_DEQUE_SIZE);
m_bMulticastReset = FALSE;
m_bIsInitialized = FALSE;
m_bWaitingForSeekFlush = FALSE;
m_bWaitingForLiveSeekFlush = FALSE;
m_bFlushHolding = FALSE;
m_bIsEnded = FALSE;
m_bQueueIsEmpty = TRUE;
m_bCacheIsEmpty = TRUE;
m_bStreamBegin = FALSE;
m_bStreamDone = FALSE;
m_bStreamDoneSent = FALSE;
m_bSourceStopped = FALSE;
m_bExpectedTSRangeSet = FALSE;
m_uStartTimestamp = 0;
m_uEndTimestamp = 0;
m_ulEndDelayTolerance = 0;
m_bACKDone = FALSE;
m_bPaused = FALSE;
m_bPausedHack = FALSE;
m_uReliableSeqNo = 0;
m_uEndReliableSeqNo = 0;
m_uFirstSequenceNumber = 0;
m_uLastSequenceNumber = 0;
m_uEndSequenceNumber = 0;
m_uSeekSequenceNumber = 0;
m_uSeekCount = 0;
m_bAtLeastOnePacketReceived = FALSE;
m_bAtLeastOneResetHandled = FALSE;
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