hxsm.cpp

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/* ***** BEGIN LICENSE BLOCK *****
 * Source last modified: $Id: hxsm.cpp,v 1.17.2.1 2004/07/09 02:05:30 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 ***** */

/*
 *  
 *  ASM Manager for all streams in all Players.
 *
 *  This class will manage the bandwidth requirements
 *  of multiple streams.
 */

#include "hlxclib/stdio.h"      /* printf */
#include "hlxclib/stdlib.h"     /* atoi on Mac */
#include "hxtypes.h"    /* Basic Types */
#include "hxcom.h"      /* IUnknown */
#include "hxslist.h"
#include "hxerror.h"
#include "hxsmbw.h"
#include "hxsm.h"      /* HXSM */
#include "hxsmutil.h"
#include "hxpref.h"
#include "ihxpckts.h"
#include "hxcore.h"
#include "asmrulep.h"
#include "hxbuffer.h"
#include "chxpckts.h"
#include "hxbsrc.h"
#include "hxsrc.h"
#include "errdbg.h"
#include "rtspif.h"
#include "hxurl.h"
#include "hxtick.h"
#include "hxstrutl.h"
#include "hxbufctl.h"

#include "hxheap.h"

#ifdef _DEBUG
#undef HX_THIS_FILE
static const char HX_THIS_FILE[] = __FILE__;
#endif

#ifndef MIN
#define MIN(x, y) (((x) < (y)) ? (x) : (y))
#endif
#ifndef MAX
#define MAX(x, y) (((x) > (y)) ? (x) : (y))
#endif

HXSM::HXSM()
    : m_State(HX_NONE)
    , m_lRefCount(0)
    , m_pSubscriptionVariables(0)
    , m_ulOriginalHighestBandwidthAvail(0)
    , m_ulHighestBandwidthAvail(0)
    , m_ulPeakUsedBandwidth(0)
    , m_ulUpShiftRingPos(0)
    , m_ulUpShiftBandwidthAvail(0)
    , m_ulNumSources(0)
    , m_ulMaxAccelBitRate(0xffffffff)
    , m_ulNumReportsSinceUpShift(2)
    , m_ulLastStableBandwidth(0)
    , m_ulUpShiftTestPointScaleFactor(4000)
    , m_ulOfferToRecalc(0)
    , m_ulNextPacketWindow(0)
    , m_lPacketCounter(0)
    , m_ulUpShiftPastResistanceCount(0)
    , m_lLoss(0)
    , m_bInitialHighBwAvail(TRUE)
    , m_bPipeFull(FALSE)
    , m_bUpShiftInfoReady(FALSE)
    , m_bDidOfferUpShiftToRecalc(FALSE)
    , m_bLoadTest(FALSE)
    , m_bDoAccel(TRUE)
    , m_bDoDecel(TRUE)
    , m_bDisableBothAccelDecel(FALSE)
    , m_fAccelerationFactor(4.0)
    , m_bEnableSDB(TRUE)
#ifndef GOLD
    , m_pEM(0)
#endif
{
    m_pASMSourceInfo = new CHXSimpleList;
    m_pASMStreamInfo = new CHXSimpleList;
}

HXSM::~HXSM()
{
#ifndef GOLD
    HX_RELEASE(m_pEM);
#endif
    CHXSimpleList::Iterator     i;
    ASMSourceInfo*                 pASMSourceInfo;
    ASMStreamInfo*                 pASMStreamInfo;

    for (i = m_pASMSourceInfo->Begin(); i != m_pASMSourceInfo->End(); ++i)
    {
	pASMSourceInfo = (ASMSourceInfo*)(*i);
	pASMSourceInfo->Release();
    }

    for (i = m_pASMStreamInfo->Begin(); i != m_pASMStreamInfo->End(); ++i)
    {
	pASMStreamInfo = (ASMStreamInfo*)(*i);
	delete pASMStreamInfo;
    }

    delete m_pASMSourceInfo;
    delete m_pASMStreamInfo;
    HX_RELEASE(m_pSubscriptionVariables);
}

STDMETHODIMP_(UINT32)
HXSM::AddRef(void)
{
    return InterlockedIncrement(&m_lRefCount);
}

STDMETHODIMP_(UINT32)
HXSM::Release(void)
{
    if (InterlockedDecrement(&m_lRefCount) > 0)
    {
	return m_lRefCount;
    }

    delete this;
    return 0;
}

STDMETHODIMP
HXSM::QueryInterface
(
    REFIID interfaceID,
    void** ppInterfaceObj
)
{
    QInterfaceList qiList[] =
        {
            { GET_IIDHANDLE(IID_IUnknown), (IUnknown*)this },
            { GET_IIDHANDLE(IID_IHXBandwidthManager), (IHXBandwidthManager*)this },
        };
    
    return ::QIFind(qiList, QILISTSIZE(qiList), interfaceID, ppInterfaceObj);
}

STDMETHODIMP
HXSM::RegisterSource(HXSource* pSource, IUnknown* pUnknown)
{
    IHXSourceBandwidthInfo* pSBI;
    IHXPreferences* pPreferences = NULL;
    ASMSourceInfo* pASMSourceInfo = NULL;
    UINT16 i;

#ifndef GOLD
    HX_RELEASE(m_pEM);
    pUnknown->QueryInterface(IID_IHXErrorMessages, (void **)&m_pEM);
#endif

    DEBUG_OUT(m_pEM, DOL_BWMGR, (s,	"Register Source %p %s", pSource, pSource->GetURL()));

    if (HXR_OK == pSource->QueryInterface(IID_IHXSourceBandwidthInfo, 
	    (void **)&pSBI))
    {
	pASMSourceInfo = new ASMSourceInfo(pSource, this);
	pASMSourceInfo->AddRef();

	pASMSourceInfo->m_pSBI = pSBI;
	/* Local source is always considered in perfect play mode UNLESS we are
	 * in simulated network playback mode (used Preview mode in the Encoder)
	 */
	pASMSourceInfo->m_bPerfectPlay = pSource->IsPerfectPlay() && !pSource->IsSimulatedNetworkPlayback();

	m_ulNumSources++;
	m_pASMSourceInfo->AddTail((void *)pASMSourceInfo);
	pSBI->InitBw(pASMSourceInfo);
    }
    else
    {
	return HXR_OK;
    }

    /*
     * This variable tells us the highest amount of bandwidth that we
     * believe is useable.  If we stream thin, then the highest value
     * that the pipe can support would be the aggregate bandwidth of
     * the sources.  Barring any thinning, this would be the bandwidth
     * from prefs (unless we can determine it through fast buffering or
     * another transport feature).  This value is used when starting sources
     * as a initial guess for bandwidth (to set subscriptions).
     */
    if (m_ulHighestBandwidthAvail == 0)
    {
	pUnknown->QueryInterface(IID_IHXPreferences, (void **)&pPreferences);

        UINT32 ulTemp = 0;
	/* Get initial bandwidth guess from Prefs */
        if (HXR_OK == ReadPrefINT32(pPreferences, "Bandwidth", ulTemp))
        {
	    m_bInitialHighBwAvail = TRUE;

	    /* Translate the bandwidth from prefs into a starting point */
	         if (ulTemp == 14400)    m_ulHighestBandwidthAvail = 11000;
	    else if (ulTemp == 19200)    m_ulHighestBandwidthAvail = 14400;
	    else if (ulTemp == 28800)    m_ulHighestBandwidthAvail = 21600;
	    else if (ulTemp == 33600)    m_ulHighestBandwidthAvail = 25000;
	    else if (ulTemp == 34400)    m_ulHighestBandwidthAvail = 34400;
	    else if (ulTemp == 57600)    m_ulHighestBandwidthAvail = 50000;
	    else if (ulTemp == 65536)	 m_ulHighestBandwidthAvail = 56360;
	    else if (ulTemp == 115200)   m_ulHighestBandwidthAvail = 100000;
	    else if (ulTemp >  150000)   m_ulHighestBandwidthAvail = (UINT32)(ulTemp * 0.90);
	    else
	    {
		m_ulHighestBandwidthAvail = (UINT32)(ulTemp * 0.85);
	    }

	    /* Translate the bandwidth from prefs into a starting point */
	         if (ulTemp == 14400)    m_ulPeakUsedBandwidth = 12240;
	    else if (ulTemp == 19200)    m_ulPeakUsedBandwidth = 16320;
	    else if (ulTemp == 28800)    m_ulPeakUsedBandwidth = 24480;
	    else if (ulTemp == 33600)    m_ulPeakUsedBandwidth = 28560;
	    else if (ulTemp == 34400)    m_ulPeakUsedBandwidth = 34400;
	    else if (ulTemp == 57600)    m_ulPeakUsedBandwidth = 51840;
	    else if (ulTemp == 65536)	 m_ulPeakUsedBandwidth = 58980;
	    else if (ulTemp == 115200)   m_ulPeakUsedBandwidth = 104000;
	    else if (ulTemp >  150000)   m_ulPeakUsedBandwidth = (UINT32)(ulTemp * 0.91);
	    else
	    {
		m_ulPeakUsedBandwidth = (UINT32)(ulTemp * 0.90);
	    }

	    /*
	     * Figure out the resistance bitrate for upshifting.
	     * Modems get 65k.
	     * DSL / Low BW LANs get their pref value.
	     * High bandwidth devices cap at 600k
	     *    (unless the presentation is more)
	     */
	    if (ulTemp < 65000)
	    {
		m_ulResistanceBitRate = 65000;
	    }
	    else if (ulTemp < 600000)
	    {
		m_ulResistanceBitRate = m_ulPeakUsedBandwidth;
	    }
	    else
	    {
		m_ulResistanceBitRate = 600000;
	    }

	    m_ulOriginalResistanceBitRate = m_ulResistanceBitRate;
	}
	else
	{
	    /* Wild Guess */
	    m_ulHighestBandwidthAvail = 40000;
	    m_ulPeakUsedBandwidth = 40000;
	}



	//	       LOAD TEST ONLY OPTIONS
	// Read in the preferences for enabling/disabling Accel and 
	// Decel for load tests.
	//
        ReadPrefBOOL(pPreferences, "LoadTest", m_bLoadTest);
        ReadPrefBOOL(pPreferences, "DoAccel", m_bDoAccel);
        ReadPrefBOOL(pPreferences, "DoDecel", m_bDoDecel);
        ReadPrefBOOL(pPreferences, "DisableBothAccelDecel", m_bDisableBothAccelDecel);
        ReadPrefFLOAT(pPreferences, "AccelerationFactor", m_fAccelerationFactor);

	// DisableBothAccelDecel override all other preferences.
	// If it is true, set both DoAccel and DoDecel to false.
	// If DisableBothAccelDecel is FALSE do nothing at all.
	if (TRUE == m_bDisableBothAccelDecel)
	{
	    m_bDoAccel = FALSE;
	    m_bDoDecel = FALSE;
	}
	
	/////////////// END LOAD TEST ONLY SECTION

	/* Get MaxBandwidth from Prefs */
        ReadPrefINT32(pPreferences, "MaxBandwidth", m_ulMaxAccelBitRate); 

	HX_RELEASE(pPreferences);
	m_ulOriginalHighestBandwidthAvail = m_ulHighestBandwidthAvail;
    }

    /* This is ONLY used for load testing */
    if (m_bLoadTest)
    {
	const char* pSourceURL	       = NULL;
	CHXURL*	    pURL	       = NULL;
	UINT32	    ulTemp	       = 0;
	IHXValues*  pOptions	       = NULL;

	pSourceURL = pSource->GetURL();
	HX_ASSERT(pSourceURL);
	pURL = new CHXURL(pSourceURL);
	HX_ASSERT(pURL);
	pOptions = pURL->GetOptions();
	
	// Check for the DoAccel and DoDecel URL options. If they are
	// there set the sources properties to reflect them.  Also,
	// each option is overriden, in the 'off' state by the global
	// preferences DoAccel and DoDecel. Remember, both the
	// preferences values can be made false by setting the global
	// preference DisableBothAccelDecel to TRUE. Truth Table:
	//
	// Resulting ASM functionality = Option ^ Preference
	//
	// or,
	//
	// m_bSourceAccelAllowed = m_bSourceAccelAllowed^m_bDoAccel
	// m_bSourceDecelAllowed = m_bSourceDecelAllowed^m_bDoDecel
	//
	//                                           Resulting
	//   Preferences     URL Option String   ASM Functionality
	// DoAccel  DoDecel   DoAccel  DoDecel    Accel   Decel
	//   0        0         0        0          0       0
	//   0        0         0        1          0       0
	//   0        0         1        0          0       0
	//   0        0         1        1          0       0
	//   ...      ...       ...      ...        ...     ...
	//   0        1         0        0          0       0
	//   1        1         1        1          1       1
	// You get the idea. :-)
	
	//First, get any option strings. They default to FALSE in
	//the constructors.
	if( NULL != pOptions )
	{
	    if( pOptions->GetPropertyULONG32("DoAccel", ulTemp) == HXR_OK)
	    {
		pASMSourceInfo->m_bSourceAccelAllowed = (ulTemp == 1);
	    }
	    if( pOptions->GetPropertyULONG32("DoDecel", ulTemp) == HXR_OK)
	    {
		pASMSourceInfo->m_bSourceDecelAllowed = (ulTemp == 1);
	    }
	}//NULL != pOptions

	//Now, do the global preference overrides.
	pASMSourceInfo->m_bSourceAccelAllowed =
	    pASMSourceInfo->m_bSourceAccelAllowed && m_bDoAccel;
	pASMSourceInfo->m_bSourceDecelAllowed =
	    pASMSourceInfo->m_bSourceDecelAllowed && m_bDoDecel;


	HX_RELEASE(pOptions);
	HX_DELETE(pURL);


    }//m_bLoadTest

    //Report status of load test vars.
//      DEBUG_OUT( m_pEM, DOL_ASM, (s, "LoadTest %d", m_bLoadTest));
//      DEBUG_OUT( m_pEM, DOL_ASM, (s, "    DoAccel %u",  (UINT16)m_bDoAccel));
//      DEBUG_OUT( m_pEM, DOL_ASM, (s, "    DoDecel %u", (UINT16)m_bDoDecel));
//      DEBUG_OUT( m_pEM, DOL_ASM, (s, "    DisableBothAccelDecel %d",
//  				m_bDisableBothAccelDecel));
//      DEBUG_OUT( m_pEM, DOL_ASM, (s, "    m_bSourceAccelAllowed %d",
//  		    pASMSourceInfo->m_bSourceAccelAllowed));
//      DEBUG_OUT( m_pEM, DOL_ASM, (s, "    m_bSourceDecelAllowed %d",
//  		pASMSourceInfo->m_bSourceDecelAllowed));
    

    UINT32 unStreamCount = pSource->GetStreamCount();     
    pASMSourceInfo->m_pStreams = new ASMStreamInfo*[unStreamCount];;

    BOOL bEnableSDB = FALSE;
    bEnableSDB = (unStreamCount == 0);

    pASMSourceInfo->m_ulLowestBandwidthBeforeTimeStamp = 0;
    for (i = 0; i < unStreamCount; i++)
    {
	IUnknown* pStream = 0;
        IHXStream* pHXStream = NULL;
	ASMStreamInfo* pInfo = new ASMStreamInfo;

	HX_VERIFY(HXR_OK == pSource->GetStream(i, pStream));
	HX_VERIFY(HXR_OK == pStream->QueryInterface
	    (IID_IHXStreamBandwidthNegotiator,
	    (void **)&pInfo->m_pNegotiator));
	HX_VERIFY(HXR_OK == pStream->QueryInterface
	    (IID_IHXStreamBandwidthBias,
	    (void **)&pInfo->m_pBias));
	HX_VERIFY(HXR_OK == pStream->QueryInterface
	    (IID_IHXAtomicRuleGather,
	    (void **)&pInfo->m_pRuleGather));