FCL/sf/os/osrndtools: comparison memspy/Driver/Kernel/Source/MemSpyDriverHeapWalker.cpp

equal deleted inserted replaced

--1:000000000000
+:a03f92240627
+/*
+* Copyright (c) 2009 Nokia Corporation and/or its subsidiary(-ies).
+* All rights reserved.
+* This component and the accompanying materials are made available
+* under the terms of "Eclipse Public License v1.0"
+* which accompanies this distribution, and is available
+* at the URL "http://www.eclipse.org/legal/epl-v10.html".
+*
+* Initial Contributors:
+* Nokia Corporation - initial contribution.
+*
+* Contributors:
+*
+* Description:
+*
+*/
+#include "MemSpyDriverHeapWalker.h"
+// User includes
+#include "MemSpyDriverUtils.h"
+// Defines
+#define __NEXT_CELL(p)				((RMemSpyDriverRHeapBase::SCell*)(((TUint8*)p)+p->len))
+#define PRINTDEBUG( a ) { if ( PrintDebug() ) a; }
+RMemSpyDriverHeapWalker::RMemSpyDriverHeapWalker( RMemSpyDriverRHeapBase& aHeap, TBool aDebugAllocator )
+:   iHeap( aHeap ), iIsDebugAllocator( aDebugAllocator ), iPrintDebug( EFalse ), iObserver( NULL )
+{
+InitialiseStats();
+}
+RMemSpyDriverHeapWalker::RMemSpyDriverHeapWalker( RMemSpyDriverRHeapBase& aHeap, TBool aDebugAllocator, MMemSpyHeapWalkerObserver& aObserver )
+:   iHeap( aHeap ), iIsDebugAllocator( aDebugAllocator ), iPrintDebug( EFalse ), iObserver( &aObserver )
+{
+InitialiseStats();
+}
+TInt RMemSpyDriverHeapWalker::Traverse()
+//
+// Walk the heap calling the info function.
+//
+	{
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::Traverse() - START - delta: 0x%08x", iHeap.ClientToKernelDelta() ));
+InitialiseStats();
+if  ( iObserver )
+{
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::Traverse() - heap walk init..." ));
+iObserver->HandleHeapWalkInit();
+}
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::Traverse() - heap walk init complete" ));
+TAny* heapBase = KernelAddress( iHeap.iBase );
+TAny* heapTop = KernelAddress( iHeap.iTop );
+	PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::Traverse() - kernel-side chunk address: 0x%08x, chunkBase: 0x%08x, heapBase: 0x%08x, heapTop: 0x%08x", iHeap.ChunkKernelAddress(), iHeap.Chunk().iBase, heapBase, heapTop));
+TRACE_DATA( MemSpyDriverUtils::DataDump("%lS", (TUint8*) iHeap.ChunkKernelAddress(), iHeap.Chunk().iSize, iHeap.Chunk().iSize ) );
+	TInt nestingLevel = 0;
+	TInt allocationNumber = 0;
+	//
+	RMemSpyDriverRHeapBase::SCell* pC = (RMemSpyDriverRHeapBase::SCell*) heapBase;		// allocated cells
+	RMemSpyDriverRHeapBase::SCell* pF = &iHeap.iFree;				            // free cells
+	PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::Traverse() - before while loop entry - pC: 0x%08x, pF: 0x%08x, heapBase: 0x%08x, heapTop: 0x%08x", pC, pF, heapBase, heapTop));
+//
+while( ( pF == &iHeap.iFree ) || ( pF >= heapBase && pF < heapTop ) )
+		{
+pF = (RMemSpyDriverRHeapBase::SCell*) KernelAddress( pF->next );				// next free cell
+	    PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::Traverse() - pC: 0x%08x, pF: 0x%08x, heapBase: 0x%08x, heapTop: 0x%08x", pC, pF, heapBase, heapTop));
+if  ( pF )
+	{
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::Traverse() - freeCell:       0x%08x", pF ));
+if  ( pF >= heapBase && pF < heapTop )
+{
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::Traverse() - freeCell->next: 0x%08x", pF->next ));
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::Traverse() - freeCell->len:  0x%08x", pF->len ));
+}
+else
+{
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::Traverse() - FATAL ERROR - freeCell:  0x%08x is outside heap bounds!", pF ));
+}
+PRINTDEBUG( Kern::Printf(" "));
+}
+if  (!pF)
+{
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::Traverse() - next free cell address is NULL"));
+			pF = (RMemSpyDriverRHeapBase::SCell*) heapTop;		// to make size checking work
+}
+		else if (  (TUint8*) pF < heapBase || (TUint8*) pF >= heapTop || (KernelAddress( pF->next ) && KernelAddress( pF->next ) <= pF ) )
+			{
+			// free cell pointer off the end or going backwards
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::Traverse() - EBadFreeCellAddress: 0x%08x", pF ));
+NotifyCell( EMemSpyDriverBadFreeCellAddress, UserAddress(pF), 0 );
+			return KErrAbort;
+			}
+		else
+			{
+			TInt l = pF->len;
+			if ( l< iHeap.iMinCell || (l & (iHeap.iAlign-1)))
+				{
+				// free cell length invalid
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::Traverse() - EBadFreeCellSize: 0x%08x", pF ));
+		        NotifyCell( EMemSpyDriverBadFreeCellSize, UserAddress(pF), l );
+			    return KErrAbort;
+				}
+			}
+while ( pC != pF )				// walk allocated cells up to next free cell
+			{
+	    if  ( pC )
+	    {
+// The 'next' cell field is only applicable if the cell is a 'free' cell, hence we only print the cell's
+// address, its length, and its _calculated_ next cell (based upon address + length). Calc length is done
+// a bit later on...
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::Traverse() - allocCell:       0x%08x", pC ));
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::Traverse() - allocCell->len:  0x%08x", pC->len ));
+PRINTDEBUG( Kern::Printf(" "));
+}
+TInt l = pC->len;
+			if (l<iHeap.iMinCell || (l & (iHeap.iAlign-1)))
+				{
+				// allocated cell length invalid
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::Traverse() - EBadAllocatedCellSize: 0x%08x", pC ));
+		        NotifyCell( EMemSpyDriverBadAllocatedCellSize, UserAddress(pC), l );
+			    return KErrAbort;
+				}
+// ALLOCATED CELL
+if  ( iIsDebugAllocator )
+{
+RMemSpyDriverRHeapBase::SDebugCell* debugCell = (RMemSpyDriverRHeapBase::SDebugCell*) pC;
+nestingLevel = debugCell->nestingLevel;
+allocationNumber = debugCell->allocCount;
+}
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::Traverse() - EGoodAllocatedCell: 0x%08x", pC ));
+	        if  ( NotifyCell( EMemSpyDriverGoodAllocatedCell, UserAddress(pC), l, nestingLevel, allocationNumber ) == EFalse )
+{
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::Traverse() - END1 - KErrAbort on NotifyCell..."));
+			    return KErrAbort;
+}
+			RMemSpyDriverRHeapBase::SCell* pN = (RMemSpyDriverRHeapBase::SCell*) __NEXT_CELL( pC );
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::Traverse() - allocCell next:  0x%08x", pN ));
+			if (pN > pF)
+				{
+				// cell overlaps next free cell
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::Traverse() - EBadAllocatedCellAddress: 0x%08x", pC ));
+		        NotifyCell( EMemSpyDriverBadAllocatedCellAddress, UserAddress(pC), l );
+			    return KErrAbort;
+				}
+pC = pN;
+			}
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::Traverse() - freeCell before exit check is: 0x%08x", pF ));
+if  ((TUint8*) pF >= heapTop )
+{
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::Traverse() - freeCell reached top of heap -> done"));
+			break;		// reached end of heap
+}
+pC = (RMemSpyDriverRHeapBase::SCell*) __NEXT_CELL(pF);	// step to next allocated cell
+// FREE CELL
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::Traverse() - EGoodFreeCell: 0x%08x", pF ));
+if  ( NotifyCell( EMemSpyDriverGoodFreeCell, UserAddress(pF), pF->len ) == EFalse )
+{
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::Traverse() - END2 - KErrAbort on NotifyCell..."));
+			return KErrAbort;
+}
+		}
+FinaliseStats();
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::Traverse() - END - pF: 0x%08x, pC: 0x%08x, heapBase: 0x%08x, heapTop: 0x%08x", pF, pC, heapBase, heapTop));
+return KErrNone;
+	}
+void RMemSpyDriverHeapWalker::CopyStatsTo( TMemSpyHeapStatisticsRHeap& aStats )
+{
+	PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::CopyStatsTo() - START"));
+// Copy free cell info
+TMemSpyHeapStatisticsRHeapFree& free = aStats.StatsFree();
+free.SetTypeCount( iStats.iFreeCellCount );
+free.SetTypeSize( iStats.iTotalFreeSpace );
+// If the last cell was a free cell, and it was also the largest cell
+// then we use the prior largest free cell instead. This is because
+// slack space is already reported separately.
+TAny* largestFreeCellAddress = (TAny*) iStats.iLargestCellAddressFree;
+TUint largestFreeCellSize = iStats.iLargestCellSizeFree;
+if ( iStats.iLastCellWasFreeCell && iStats.iLargestCellSizeFree == iStats.iSlackSpace && iStats.iSpackSpaceCellAddress == iStats.iLargestCellAddressFree )
+{
+	    PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::CopyStatsTo() - using previous max free cell stats, since largest free cell is slack cell at end of heap..."));
+largestFreeCellAddress = (TAny*) iStats.iLargestCellAddressFreePrevious;
+largestFreeCellSize = iStats.iLargestCellSizeFreePrevious;
+}
+free.SetLargestCellAddress( largestFreeCellAddress );
+free.SetLargestCellSize( largestFreeCellSize );
+free.SetSlackSpaceCellSize( iStats.iSlackSpace );
+free.SetSlackSpaceCellAddress( (TAny*) iStats.iSpackSpaceCellAddress );
+free.SetChecksum( iStats.iFreeCellCRC );
+// Copy allocated cell info
+TMemSpyHeapStatisticsRHeapAllocated& alloc = aStats.StatsAllocated();
+alloc.SetTypeCount( iStats.iAllocCellCount );
+alloc.SetTypeSize( iStats.iTotalAllocSpace );
+alloc.SetLargestCellAddress( (TAny*) iStats.iLargestCellAddressAlloc );
+alloc.SetLargestCellSize( iStats.iLargestCellSizeAlloc );
+// Copy common info
+TMemSpyHeapStatisticsRHeapCommon& common = aStats.StatsCommon();
+common.SetTotalCellCount( iStats.iNumberOfWalkedCells );
+	PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::CopyStatsTo() - END"));
+}
+void RMemSpyDriverHeapWalker::SetObserver( MMemSpyHeapWalkerObserver* aObserver )
+{
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::SetObserver() - aObserver: 0x%08x", aObserver ));
+iObserver = aObserver;
+}
+TAny* RMemSpyDriverHeapWalker::KernelAddress( TAny* aUserAddress, TUint aDelta )
+{
+TAny* ret = NULL;
+//
+if  ( aUserAddress )
+{
+	    TRACE_HEAP( Kern::Printf("RMemSpyDriverHeapWalker::KernelAddress() - aUserAddress: 0x%08x", aUserAddress));
+ret = (TUint8*) aUserAddress + aDelta;
+}
+//
+	TRACE_HEAP( Kern::Printf("RMemSpyDriverHeapWalker::KernelAddress() - ret: 0x%08x", ret));
+return ret;
+}
+TAny* RMemSpyDriverHeapWalker::UserAddress( TAny* aKernelAddress, TUint aDelta )
+{
+TAny* ret = NULL;
+//
+if  ( aKernelAddress )
+{
+	    TRACE_HEAP( Kern::Printf("RMemSpyDriverHeapWalker::UserAddress() - aKernelAddress: 0x%08x", aKernelAddress));
+ret = (TUint8*) aKernelAddress - aDelta;
+}
+//
+	TRACE_HEAP( Kern::Printf("RMemSpyDriverHeapWalker::UserAddress() - ret: 0x%08x", ret));
+return ret;
+}
+TAny* RMemSpyDriverHeapWalker::KernelAddress( TAny* aUserAddress) const
+{
+return KernelAddress( aUserAddress, iHeap.ClientToKernelDelta() );
+}
+TAny* RMemSpyDriverHeapWalker::UserAddress( TAny* aKernelAddress ) const
+{
+return UserAddress( aKernelAddress, iHeap.ClientToKernelDelta() );
+}
+RMemSpyDriverRHeapBase::SCell* RMemSpyDriverHeapWalker::CellByUserAddress( TAny* aAddress, TUint aDelta )
+{
+RMemSpyDriverRHeapBase::SCell* ret = (RMemSpyDriverRHeapBase::SCell*) KernelAddress( aAddress, aDelta );
+return ret;
+}
+TBool RMemSpyDriverHeapWalker::NotifyCell( TMemSpyDriverCellType aType, TAny* aCellAddress, TInt aLength, TInt aNestingLevel, TInt aAllocNumber )
+{
+// Update stats first
+UpdateStats( aType, aCellAddress, aLength, aNestingLevel, aAllocNumber );
+// Notify observer
+TBool continueTraversal = ETrue;
+if  ( iObserver )
+{
+continueTraversal = iObserver->HandleHeapCell( aType, aCellAddress, aLength, aNestingLevel, aAllocNumber );
+}
+//
+return continueTraversal;
+}
+void RMemSpyDriverHeapWalker::UpdateStats( TMemSpyDriverCellType aCellType, TAny* aCellAddress, TInt aLength, TInt aNestingLevel, TInt aAllocNumber )
+{
+switch( aCellType )
+{
+case EMemSpyDriverGoodAllocatedCell:
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::UpdateStats - EGoodAllocatedCell       - 0x%08x, len: %8d, nestingLev: %8d, allocNum: %8d", aCellAddress, aLength, aNestingLevel, aAllocNumber ));
+break;
+case EMemSpyDriverGoodFreeCell:
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::UpdateStats - EGoodFreeCell            - 0x%08x, len: %8d, nestingLev: %8d, allocNum: %8d", aCellAddress, aLength, aNestingLevel, aAllocNumber ));
+break;
+case EMemSpyDriverBadAllocatedCellSize:
+Kern::Printf("RMemSpyDriverHeapWalker::UpdateStats - EBadAllocatedCellSize    - 0x%08x, len: %8d, nestingLev: %8d, allocNum: %8d", aCellAddress, aLength, aNestingLevel, aAllocNumber );
+break;
+case EMemSpyDriverBadAllocatedCellAddress:
+Kern::Printf("RMemSpyDriverHeapWalker::UpdateStats - EBadAllocatedCellAddress - 0x%08x, len: %8d, nestingLev: %8d, allocNum: %8d", aCellAddress, aLength, aNestingLevel, aAllocNumber );
+break;
+case EMemSpyDriverBadFreeCellAddress:
+Kern::Printf("RMemSpyDriverHeapWalker::UpdateStats - EBadFreeCellAddress      - 0x%08x, len: %8d, nestingLev: %8d, allocNum: %8d", aCellAddress, aLength, aNestingLevel, aAllocNumber );
+break;
+case EMemSpyDriverBadFreeCellSize:
+Kern::Printf("RMemSpyDriverHeapWalker::UpdateStats - EBadFreeCellSize         - 0x%08x, len: %8d, nestingLev: %8d, allocNum: %8d", aCellAddress, aLength, aNestingLevel, aAllocNumber );
+break;
+default:
+Kern::Printf("RMemSpyDriverHeapWalker::UpdateStats - UHANDLED TYPE!           - 0x%08x, len: %8d, nestingLev: %8d, allocNum: %8d, type: %d", aCellAddress, aLength, aNestingLevel, aAllocNumber, aCellType );
+break;
+}
+if  ( aCellType == EMemSpyDriverGoodFreeCell )
+{
+// Update checksum
+iStats.iFreeCellCRC = iStats.iFreeCellCRC ^ reinterpret_cast<TUint32>( aCellAddress );
+// Track cell counts and length
+++iStats.iFreeCellCount;
+iStats.iTotalFreeSpace += aLength;
+iStats.iLastFreeCellLength = aLength;
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::UpdateStats - WAS FREE CELL - iFreeCellCRC: 0x%08x, iFreeCellCount: %d, iTotalFreeSpace: %d, iLastFreeCellLength: %d", iStats.iFreeCellCRC, iStats.iFreeCellCount, iStats.iTotalFreeSpace, iStats.iLastFreeCellLength));
+// Identify biggest cell
+if  ( (TUint) aLength > iStats.iLargestCellSizeFree )
+{
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::UpdateStats - this cell (%d bytes big) is bigger than previous largested FREE cell (%d bytes) => making it the new largest FREE cell", aLength, iStats.iLargestCellSizeFree));
+iStats.iLargestCellSizeFreePrevious = iStats.iLargestCellSizeFree;
+iStats.iLargestCellSizeFree = aLength;
+iStats.iLargestCellAddressFreePrevious = iStats.iLargestCellAddressFree;
+iStats.iLargestCellAddressFree = (TLinAddr) aCellAddress;
+}
+// Identify first cell
+if  ( iStats.iFirstFreeCellAddress == 0 )
+{
+iStats.iFirstFreeCellLength = aLength;
+iStats.iFirstFreeCellAddress = (TLinAddr) aCellAddress;
+}
+}
+else if ( aCellType == EMemSpyDriverGoodAllocatedCell )
+{
+// Track cell counts and length
+++iStats.iAllocCellCount;
+iStats.iTotalAllocSpace += aLength;
+iStats.iLastFreeCellLength = 0;
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::UpdateStats - WAS ALLOC CELL - iAllocCellCount: %d, iTotalAllocSpace: %d", iStats.iAllocCellCount, iStats.iTotalAllocSpace));
+// Identify biggest cell
+if  ( (TUint) aLength > iStats.iLargestCellSizeAlloc )
+{
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::UpdateStats - this cell (%d bytes big) is bigger than previous largested ALLOC cell (%d bytes) => making it the new largest ALLOC cell", aLength, iStats.iLargestCellSizeAlloc));
+iStats.iLargestCellSizeAlloc = aLength;
+iStats.iLargestCellAddressAlloc = (TLinAddr) aCellAddress;
+}
+}
+else
+{
+iStats.iLastFreeCellLength = aLength;
+}
+iStats.iLastCellType = aCellType;
+iStats.iLastCellAddress = (TLinAddr) aCellAddress;
+iStats.iLastCellWasFreeCell = ( aCellType == EMemSpyDriverGoodFreeCell );
+++iStats.iNumberOfWalkedCells;
+}
+void RMemSpyDriverHeapWalker::InitialiseStats()
+{
+iStats.iFreeCellCRC = 0;
+iStats.iNumberOfWalkedCells = 0;
+iStats.iFirstFreeCellAddress = 0;
+iStats.iFirstFreeCellLength = 0;
+iStats.iLastCellType = EMemSpyDriverGoodAllocatedCell;
+iStats.iLastCellWasFreeCell = EFalse;
+iStats.iLastFreeCellLength = 0;
+iStats.iTotalFreeSpace = 0;
+iStats.iTotalAllocSpace = 0;
+iStats.iSlackSpace = 0;
+iStats.iFreeCellCount = 0;
+iStats.iAllocCellCount = 0;
+iStats.iLargestCellSizeFree = 0;
+iStats.iLargestCellSizeAlloc = 0;
+iStats.iLargestCellAddressFree = 0;
+iStats.iLargestCellAddressAlloc = 0;
+iStats.iLargestCellSizeFreePrevious = 0;
+iStats.iLargestCellAddressFreePrevious = 0;
+iStats.iSpackSpaceCellAddress = 0;
+iStats.iLastCellAddress = 0;
+// These two can be identified up front
+iStats.iFreeCellOverheadHeaderLength = RMemSpyDriverRHeapBase::FreeCellHeaderSize();
+iStats.iAllocCellOverheadHeaderLength = RMemSpyDriverRHeapBase::AllocatedCellHeaderSize( iIsDebugAllocator );
+}
+void RMemSpyDriverHeapWalker::FinaliseStats()
+{
+if  ( iStats.iLastCellWasFreeCell )
+{
+iStats.iSlackSpace = iStats.iLastFreeCellLength;
+iStats.iSpackSpaceCellAddress = iStats.iLastCellAddress;
+}
+PrintStats();
+}
+void RMemSpyDriverHeapWalker::PrintStats()
+{
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::PrintStats - HEAP SUMMARY FOR THREAD:" ) );
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::PrintStats - ------------------------------------------------------------" ) );
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::PrintStats - iNumberOfWalkedCells         : %10d", iStats.iNumberOfWalkedCells ) );
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::PrintStats - iFirstFreeCellAddress        : 0x%08x", iStats.iFirstFreeCellAddress ) );
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::PrintStats - iFirstFreeCellLength         : %10d", iStats.iFirstFreeCellLength ) );
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::PrintStats - iLastCellWasFreeCell         : %10d", iStats.iLastCellWasFreeCell ) );
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::PrintStats - iLastCellType                : %10d", iStats.iLastCellType ) );
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::PrintStats - iLastFreeCellLength          : %10d", iStats.iLastFreeCellLength ) );
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::PrintStats - iTotalFreeSpace              : %10d", iStats.iTotalFreeSpace ) );
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::PrintStats - iTotalAllocSpace             : %10d", iStats.iTotalAllocSpace ) );
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::PrintStats - iSlackSpace                  : %10d", iStats.iSlackSpace ) );
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::PrintStats - iFreeCellCount               : %10d", iStats.iFreeCellCount ) );
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::PrintStats - iAllocCellCount              : %10d", iStats.iAllocCellCount ) );
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::PrintStats - iLargestCellSizeFree         : %10d", iStats.iLargestCellSizeFree ) );
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::PrintStats - iLastFreeCellLength          : %10d", iStats.iLastFreeCellLength ) );
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::PrintStats - iLargestCellSizeAlloc        : %10d", iStats.iLargestCellSizeAlloc ) );
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::PrintStats - iLargestCellAddressFree      : 0x%08x", iStats.iLargestCellAddressFree ) );
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::PrintStats - iLargestCellAddressAlloc     : 0x%08x", iStats.iLargestCellAddressAlloc ) );
+PRINTDEBUG( Kern::Printf("RMemSpyDriverHeapWalker::PrintStats - iFreeCellCRC                 : 0x%08x", iStats.iFreeCellCRC ) );
+}

changeset 0	a03f92240627
child 30	86a2e675b80a