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

equal deleted inserted replaced

-:b58b1294947a
+:1ea875759131
 #include <kern_priv.h>
 // User includes
 #include "MemSpyDriverOSAdaption.h"
 #include "MemSpyDriverUtils.h"
+#include "heaputils.h"
-// Defines
-#define __NEXT_CELL(p)				((RMemSpyDriverRHeapBase::SCell*)(((TUint8*)p)+p->len))
-#define __NEXT_CELL2(p,l)			((RMemSpyDriverRHeapBase::SCell*)(((TUint8*)p)+l))
 RMemSpyDriverRHeapBase::RMemSpyDriverRHeapBase()
+	: iHelper(NULL)
 {
 Reset();
 }
+LtkUtils::RAllocatorHelper* RMemSpyDriverRHeapBase::Helper()
+	{
+	return iHelper;
+	}
+TMemSpyHeapInfo::THeapImplementationType RMemSpyDriverRHeapBase::GetTypeFromHelper() const
+	{
+	if (iHelper)
+		{
+		LtkUtils::RAllocatorHelper::TType type = iHelper->GetType();
+		switch (type)
+			{
+			case LtkUtils::RAllocatorHelper::ETypeRHeap:
+				return TMemSpyHeapInfo::ETypeRHeap;
+			case LtkUtils::RAllocatorHelper::ETypeRHybridHeap:
+				return TMemSpyHeapInfo::ETypeRHybridHeap;
+			case LtkUtils::RAllocatorHelper::ETypeUnknown:
+			default:
+				return TMemSpyHeapInfo::ETypeUnknown;
+			}
+		}
+	return TMemSpyHeapInfo::ETypeUnknown;
+	}
 void RMemSpyDriverRHeapBase::Reset()
 {
-	iAccessCount = 0;
+	Close();
-	iHandleCount = 0;
+	}
-	iHandles = NULL;
-	iFlags = 0;
+void RMemSpyDriverRHeapBase::Close()
-	iCellCount = 0;
+	{
-	iTotalAllocSize = 0;
+	if (iHelper)
+		{
-iMinLength = 0;
+	    NKern::ThreadEnterCS();
-	iMaxLength = 0;
+		iHelper->Close();
-	iOffset = 0;
+		delete iHelper;
-	iGrowBy = 0;
+		iHelper = NULL;
-	iChunkHandle = 0;
+		NKern::ThreadLeaveCS();
-	// iLock needs no initialisation due to default ctor
+		}
-	iBase = NULL;
+}
-	iTop = NULL;
-	iAlign = 0;
-	iMinCell = 0;
-	iPageSize = 0;
-	iFree.len = 0;
-	iFree.next = NULL;
-	iNestingLevel = 0;
-	iAllocCount = 0;
-iFailType = RAllocator::EReset;
-	iFailRate = 0;
-	iFailed = EFalse;
-	iFailAllocCount = 0;
-	iRand = 0;
-	iTestData = NULL;
-}
-TBool RMemSpyDriverRHeapBase::CheckCell( TAny* aCellAddress, TInt aLength ) const
-	{
-	const TLinAddr m = TLinAddr(iAlign - 1);
-TRACE_HEAP( Kern::Printf("RMemSpyDriverRHeapBase::CheckCell() - cell: 0x%08x, len: %8d, iAlign: %d, m: %d", aCellAddress, aLength, iAlign, m) );
-TBool isValid = ETrue;
-//
-if ( isValid && (aLength & m) )
-{
-	TRACE_HEAP( Kern::Printf("RMemSpyDriverRHeapBase::CheckCell() - ERROR - length is odd: %d, iAlign: %d, m: %d", aLength, iAlign, m) );
-isValid = EFalse;
-}
-if ( isValid && aLength < iMinCell )
-{
-	TRACE_HEAP( Kern::Printf("RMemSpyDriverRHeapBase::CheckCell() - ERROR - length: %d, is less than min cell size (%d)", aLength, iMinCell) );
-isValid = EFalse;
-}
-if ( isValid && (TUint8*)aCellAddress < iBase )
-{
-	TRACE_HEAP( Kern::Printf("RMemSpyDriverRHeapBase::CheckCell() - ERROR - cell address: 0x%08x, is before start address: 0x%08x", (TUint8*) aCellAddress, iBase) );
-isValid = EFalse;
-}
-if  ( isValid )
-{
-const TUint8* nextCell = (TUint8*)__NEXT_CELL2(aCellAddress, aLength);
-if  ( nextCell > iTop )
-{
-	TRACE_HEAP( Kern::Printf("RMemSpyDriverRHeapBase::CheckCell() - ERROR - nextCell: 0x%08x is after the top of the heap: 0x%08x", nextCell, iTop) );
-isValid = EFalse;
-}
-}
-//
-return isValid;
-	}
-TInt RMemSpyDriverRHeapBase::AllocatedCellHeaderSize( TBool aDebugLibrary )
-{
-// Allocated cells are only 4 bytes in UREL, but 12 bytes in UDEB.
-TInt size = sizeof(SCell*);
-//
-if  ( aDebugLibrary )
-{
-size = sizeof(SDebugCell);
-}
-//
-return size;
-}
-TInt RMemSpyDriverRHeapBase::FreeCellHeaderSize()
-{
-// Free cells remain the same size in UREL and UDEB builds.
-const TInt size = sizeof(SCell);
-return size;
-}
-TInt RMemSpyDriverRHeapBase::CellHeaderSize( const TMemSpyDriverInternalWalkHeapParamsCell& aCell, TBool aDebugLibrary )
-{
-TInt size = 0;
-//
-if  ( aCell.iCellType == EMemSpyDriverGoodAllocatedCell )
-{
-size = AllocatedCellHeaderSize( aDebugLibrary );
-}
-else if ( aCell.iCellType == EMemSpyDriverGoodFreeCell )
-{
-size = FreeCellHeaderSize();
-}
-//
-return size;
-}
 void RMemSpyDriverRHeapBase::PrintInfo()
 {
+	/* TOMSCI TODO
 #if defined(TRACE_TYPE_KERNELHEAP) || defined(TRACE_TYPE_USERHEAP)
 Kern::Printf(" " );
 Kern::Printf("RMemSpyDriverRHeapBase::PrintInfo - RAllocator - iAccessCount:    0x%08x", iAccessCount );
 Kern::Printf("RMemSpyDriverRHeapBase::PrintInfo - RAllocator - iHandleCount:    0x%08x", iHandleCount );
 Kern::Printf("RMemSpyDriverRHeapBase::PrintInfo - RAllocator - iHandles:        0x%08x", iHandles );
 Kern::Printf("RMemSpyDriverRHeapBase::PrintInfo - RHeap -      iAllocCount:     0x%08x", iAllocCount);
 Kern::Printf("RMemSpyDriverRHeapBase::PrintInfo - RHeap -      size:              %8d",  Size() );
 Kern::Printf(" " );
 Kern::Printf(" " );
 #endif
-}
+	*/
+}
-void RMemSpyDriverRHeapBase::CopyObjectDataTo( TMemSpyHeapObjectDataRHeap& aData )
-{
-TRACE_HEAP( Kern::Printf("RMemSpyDriverRHeapBase::CopyObjectDataTo() - START" ) );
-TUint8* sourceAddress = reinterpret_cast< TUint8* >( this );
-sourceAddress += KRAllocatorAndRHeapMemberDataOffset;
-memcpy( &aData, sourceAddress, KRHeapObjectSize );
-TRACE_HEAP( Kern::Printf("RMemSpyDriverRHeapBase::CopyObjectDataTo() - END") );
-}
 RMemSpyDriverRHeapReadFromCopy::RMemSpyDriverRHeapReadFromCopy( DMemSpyDriverOSAdaption& aOSAdaption )
-:   iOSAdaption( aOSAdaption ), iChunk( NULL ), iChunkAddress( 0 ), iChunkMappingAttributes( 0 ), iClientToKernelDelta( 0 )
+:   iOSAdaption( aOSAdaption ), iChunk( NULL ), iChunkAddress( 0 ), iChunkMappingAttributes( 0 ) /*, iClientToKernelDelta( 0 )*/
 {
 }
 void RMemSpyDriverRHeapReadFromCopy::Reset()
 RMemSpyDriverRHeapBase::Reset();
 	//
 iChunk = NULL;
 iChunkAddress = 0;
 iChunkMappingAttributes = 0;
-iClientToKernelDelta = 0;
+//iClientToKernelDelta = 0;
 }
 void RMemSpyDriverRHeapReadFromCopy::AssociateWithKernelChunk( DChunk* aChunk, TLinAddr aAddress, TUint32 aMappingAttributes )
 {
 iChunkMappingAttributes = aMappingAttributes;
 // Calculate start of real heap data (skipping over embedded RHeap object)
 // Since we must operate with kernel-side addressing into our cloned heap chunk,
 // we must use aAddress (the kernel address of the chunk) rather than aChunk->iBase
-iClientToKernelDelta = ( (TUint8*) aAddress ) - ( Base() - KRHeapObjectSize );
+//TOMSCI iClientToKernelDelta = ( (TUint8*) aAddress ) - ( Base() - KRHeapObjectSize );
 TRACE_HEAP( Kern::Printf("RMemSpyDriverRHeapReadFromCopy::AssociateWithKernelChunk() - END - delta between client's user-side base address (base: 0x%08x), kernel-side base address (base: 0x%08x), and kernel-side chunk (base: 0x%08x) is: 0x%08x", Base(), aChunk->iBase, aAddress, iClientToKernelDelta) );
 }
-void RMemSpyDriverRHeapReadFromCopy::DisassociateWithKernelChunk()
+/*void RMemSpyDriverRHeapReadFromCopy::DisassociateWithKernelChunk()
 {
 TRACE_HEAP( Kern::Printf("RMemSpyDriverRHeapReadFromCopy::DisassociateWithKernelChunk() - START - iChunk: 0x%08x", iChunk ) );
 NKern::ThreadEnterCS();
 if  ( iChunk != NULL )
 }
 NKern::ThreadLeaveCS();
 TRACE_HEAP( Kern::Printf("RMemSpyDriverRHeapReadFromCopy::DisassociateWithKernelChunk() - END") );
 }
+*/
 DChunk& RMemSpyDriverRHeapReadFromCopy::Chunk()
 {
 return *iChunk;
 }
 {
 return *iChunk;
 }
-TLinAddr RMemSpyDriverRHeapReadFromCopy::ChunkKernelAddress() const
+/*TLinAddr RMemSpyDriverRHeapReadFromCopy::ChunkKernelAddress() const
 {
 return iChunkAddress;
 }
 TBool RMemSpyDriverRHeapReadFromCopy::ChunkIsInitialised() const
 {
 return iChunk != NULL;
 }
 TUint RMemSpyDriverRHeapReadFromCopy::ClientToKernelDelta() const
 {
 return iClientToKernelDelta;
 }
+*/
 RMemSpyDriverRHeapUser::RMemSpyDriverRHeapUser( DMemSpyDriverOSAdaption& aOSAdaption )
-:   RMemSpyDriverRHeapReadFromCopy( aOSAdaption )
+	: RMemSpyDriverRHeapBase(), iOSAdaption(aOSAdaption)
 {
 }
-TInt RMemSpyDriverRHeapUser::ReadFromUserAllocator( DThread& aThread )
+TInt RMemSpyDriverRHeapUser::OpenUserHeap(DThread& aThread, TBool aEuserUdeb)
-{
+	{
-TBuf8<KRHeapMemberDataSize> memberData;
+	TLinAddr allocatorAddr = (TLinAddr)OSAdaption().DThread().GetAllocator(aThread);
-memberData.SetMax();
+	NKern::ThreadEnterCS();
+	LtkUtils::RKernelSideAllocatorHelper* helper = new LtkUtils::RKernelSideAllocatorHelper;
-NKern::ThreadEnterCS();
+	if (!helper)
-NKern::LockSystem();
+		{
-RAllocator* allocator = OSAdaption().DThread().GetAllocator( aThread );
+		NKern::ThreadLeaveCS();
-NKern::UnlockSystem();
+		return KErrNoMemory;
-	NKern::ThreadLeaveCS();
+		}
+	TInt err = helper->OpenUserHeap(OSAdaption().DThread().GetId(aThread), allocatorAddr, aEuserUdeb);
-TUint8* memberDataAddress = (TUint8*) allocator + KRAllocatorAndRHeapMemberDataOffset;
+	if (!err)
-	TRACE_HEAP( Kern::Printf("RMemSpyDriverRHeapUser::ReadFromUserAllocator() - START - allocator addr: 0x%08x, therefore going to read %d bytes from address 0x%08x within client thread (0x%08x + %4d bytes)", allocator, KRHeapMemberDataSize, memberDataAddress, allocator, KRAllocatorAndRHeapMemberDataOffset ) );
+		{
+		iChunk = helper->OpenUnderlyingChunk();
-const TInt error = Kern::ThreadRawRead( &aThread, memberDataAddress, (TAny*) memberData.Ptr(), KRHeapMemberDataSize );
+		if (!iChunk) err = KErrNotFound;
-TRACE_DATA( MemSpyDriverUtils::DataDump("%lS", memberData.Ptr(), KRHeapMemberDataSize, KRHeapMemberDataSize ) );
+		}
+	if (err)
-if  ( error == KErrNone )
+		{
-{
+		delete helper;
-TUint8* destinationAddress = reinterpret_cast< TUint8* >( this );
+		}
+	else
-// Skip over our vTable too...
+		{
-destinationAddress += KRAllocatorAndRHeapMemberDataOffset;
+		iHelper = helper;
+		}
-// Now copy data into this object
+	NKern::ThreadLeaveCS();
-TPtr8 self( destinationAddress, KRHeapMemberDataSize, KRHeapMemberDataSize );
+	return err;
-self.Copy( memberData );
+	}
-PrintInfo();
-}
-else
-{
-}
-	TRACE_HEAP( Kern::Printf("RMemSpyDriverRHeapUser::ReadFromUserAllocator() - END - read error: %d", error ) );
-return error;
-}
 RMemSpyDriverRHeapKernelFromCopy::RMemSpyDriverRHeapKernelFromCopy( DMemSpyDriverOSAdaption& aOSAdaption )
 :   RMemSpyDriverRHeapReadFromCopy( aOSAdaption )
 {
 }
 TRACE_KH( Kern::Printf("RMemSpyDriverRHeapKernelFromCopy::SetKernelHeap() - END" ) );
 }
+/*
 void RMemSpyDriverRHeapKernelFromCopy::DisassociateWithKernelChunk()
 {
 TRACE_KH( Kern::Printf("RMemSpyDriverRHeapKernelFromCopy::DisassociateWithKernelChunk() - START - iKernelHeap: 0x%08x", iKernelHeap ));
 iKernelHeap = NULL;
 RMemSpyDriverRHeapReadFromCopy::DisassociateWithKernelChunk();
 TRACE_KH( Kern::Printf("RMemSpyDriverRHeapKernelFromCopy::DisassociateWithKernelChunk() - END") );
 }
+*/
-void RMemSpyDriverRHeapKernelFromCopy::GetHeapSpecificInfo( TMemSpyHeapInfo& aInfo ) const
+void RMemSpyDriverRHeapKernelFromCopy::Close()
-{
+	{
-TRACE_KH( Kern::Printf("RMemSpyDriverRHeapKernelFromCopy::GetHeapSpecificInfo() - START - iKernelHeap: 0x%08x", iKernelHeap ));
+	//TOMSCI TODO close the chunk
-//
+	}
-if  ( iKernelHeap )
-{
-const TUint32* pHeap = reinterpret_cast< TUint32* >( iKernelHeap );
-//
-TMemSpyHeapInfoRHeap& rHeapInfo = aInfo.AsRHeap();
-TMemSpyHeapMetaDataRHeap& rHeapMetaData = rHeapInfo.MetaData();
-rHeapMetaData.SetVTable( *pHeap );
-rHeapMetaData.SetClassSize( KRHeapObjectSize );
-//
-TRACE_KH( Kern::Printf("RMemSpyDriverRHeapKernelFromCopy::GetHeapSpecificInfo() - RHeapK vtable is: 0x%08x", *pHeap ));
-}
-//
-TRACE_KH( Kern::Printf("RMemSpyDriverRHeapKernelFromCopy::GetHeapSpecificInfo() - END") );
-}
 RMemSpyDriverRHeapKernelInPlace::RMemSpyDriverRHeapKernelInPlace()
-:   iKernelHeap( NULL ), iChunk( NULL )
+	: iChunk(NULL)
 {
 }
+TInt RMemSpyDriverRHeapKernelInPlace::OpenKernelHeap()
-void RMemSpyDriverRHeapKernelInPlace::SetKernelHeap( RHeapK& aKernelHeap )
+	{
-{
+	NKern::ThreadEnterCS();
-iKernelHeap = &aKernelHeap;
+	LtkUtils::RAllocatorHelper* helper = new LtkUtils::RAllocatorHelper;
-CopyMembersFromKernelHeap();
+	if (!helper)
-}
+		{
+		NKern::ThreadLeaveCS();
+		return KErrNoMemory;
-void RMemSpyDriverRHeapKernelInPlace::FailNext()
+		}
-{
+	TInt err = helper->OpenKernelHeap();
-#ifndef __SYMBIAN_KERNEL_HYBRID_HEAP__
+	if (!err)
-RMemSpyDriverRHeapKernelInPlace::RHeapKExtended* heap = reinterpret_cast< RMemSpyDriverRHeapKernelInPlace::RHeapKExtended* >( iKernelHeap );
+		{
-heap->FailNext();
+		iChunk = helper->OpenUnderlyingChunk();
-#endif
+		if (!iChunk) err = KErrNotFound;
-}
+		}
+	if (err)
-void RMemSpyDriverRHeapKernelInPlace::Reset()
+		{
-{
+		delete helper;
-RMemSpyDriverRHeapBase::Reset();
+		}
-	//
+	else
-iChunk = NULL;
+		{
-}
+		iHelper = helper;
+		}
+	NKern::ThreadLeaveCS();
-void RMemSpyDriverRHeapKernelInPlace::AssociateWithKernelChunk( DChunk* aChunk, TLinAddr /*aAddress*/, TUint32 /*aMappingAttributes*/ )
+	return err;
-{
+	}
-TRACE_KH( Kern::Printf("RMemSpyDriverRHeapKernelInPlace::AssociateWithKernelChunk() - START - aChunk: %O, aChunk base: 0x%08x", aChunk, aChunk->iBase ) );
-iChunk = aChunk;
+void RMemSpyDriverRHeapKernelInPlace::Close()
-}
+{
+	NKern::ThreadEnterCS();
+	iChunk->Close(NULL);
-void RMemSpyDriverRHeapKernelInPlace::DisassociateWithKernelChunk()
+	iChunk = NULL;
-{
+	RMemSpyDriverRHeapBase::Close();
-TRACE_KH( Kern::Printf("RMemSpyDriverRHeapKernelInPlace::DisassociateWithKernelChunk() - START - iChunk: 0x%08x", iChunk ));
+	NKern::ThreadLeaveCS();
-iChunk = NULL;
+}
-iKernelHeap = NULL;
-TRACE_KH( Kern::Printf("RMemSpyDriverRHeapKernelInPlace::DisassociateWithKernelChunk() - END") );
-}
 DChunk& RMemSpyDriverRHeapKernelInPlace::Chunk()
 {
 return *iChunk;
 }
 const DChunk& RMemSpyDriverRHeapKernelInPlace::Chunk() const
 {
 return *iChunk;
 }
-TLinAddr RMemSpyDriverRHeapKernelInPlace::ChunkKernelAddress() const
-{
-const TLinAddr ret = reinterpret_cast< TLinAddr >( iChunk->iBase );
-return ret;
-}
-TBool RMemSpyDriverRHeapKernelInPlace::ChunkIsInitialised() const
-{
-return iChunk != NULL;
-}
-TUint RMemSpyDriverRHeapKernelInPlace::ClientToKernelDelta() const
-{
-// We're operating in kernel address space, there is no delta.
-return 0;
-}
-void RMemSpyDriverRHeapKernelInPlace::CopyMembersFromKernelHeap()
-{
-TRACE_KH( Kern::Printf("RMemSpyDriverRHeapKernelInPlace::CopyMembersFromKernelHeap() - START" ) );
-// Perform a copy operation in order to populate base class with a duplicate of the kernel's heap info.
-RHeapK* kernelHeap = iKernelHeap;
-// Source address
-TUint8* sourceAddress = (TUint8*) kernelHeap + KRAllocatorAndRHeapMemberDataOffset;
-TUint8* destinationAddress = (TUint8*) this + KRAllocatorAndRHeapMemberDataOffset;
-// Copy
-memcpy( destinationAddress, sourceAddress, KRHeapMemberDataSize );
-// And print info in debug builds for verification...
-PrintInfo();
-TRACE_KH( Kern::Printf("RMemSpyDriverRHeapKernelInPlace::CopyMembersFromKernelHeap() - END" ) );
-}
-void RMemSpyDriverRHeapKernelInPlace::GetHeapSpecificInfo( TMemSpyHeapInfo& aInfo ) const
-{
-TRACE_KH( Kern::Printf("RMemSpyDriverRHeapKernelInPlace::GetHeapSpecificInfo() - START - iKernelHeap: 0x%08x", iKernelHeap ));
-//
-if  ( iKernelHeap )
-{
-const TUint32* pHeap = reinterpret_cast< TUint32* >( iKernelHeap );
-//
-TMemSpyHeapInfoRHeap& rHeapInfo = aInfo.AsRHeap();
-TMemSpyHeapMetaDataRHeap& rHeapMetaData = rHeapInfo.MetaData();
-rHeapMetaData.SetVTable( *pHeap );
-rHeapMetaData.SetClassSize( KRHeapObjectSize );
-//
-TRACE_KH( Kern::Printf("RMemSpyDriverRHeapKernelInPlace::GetHeapSpecificInfo() - RHeapK vtable is: 0x%08x", *pHeap ));
-}
-//
-TRACE_KH( Kern::Printf("RMemSpyDriverRHeapKernelInPlace::GetHeapSpecificInfo() - END") );
-}

branch	GCC_SURGE
changeset 35	1ea875759131
parent 34	7259cf1302ad
child 44	52e343bb8f80