os/kernelhwsrv/kerneltest/e32test/multimedia/d_mmcsc.cpp
author sl@SLION-WIN7.fritz.box
Fri, 15 Jun 2012 03:10:57 +0200
changeset 0 bde4ae8d615e
permissions -rw-r--r--
First public contribution.
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// Copyright (c) 2005-2009 Nokia Corporation and/or its subsidiary(-ies).
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// All rights reserved.
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// This component and the accompanying materials are made available
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// under the terms of the License "Eclipse Public License v1.0"
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// which accompanies this distribution, and is available
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// at the URL "http://www.eclipse.org/legal/epl-v10.html".
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//
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// Initial Contributors:
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// Nokia Corporation - initial contribution.
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//
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// Contributors:
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//
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// Description:
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// e32test\multimedia\d_mmcsc.cpp
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// The interface to a device driver which creates a shared chunk - for use with the multimedia driver tests.
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// This driver uses only generic kernel APIs and so need not be built from each variant.
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// 
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//
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/**
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 @file
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 @internalComponent
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 @test
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*/
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#include <kernel/kern_priv.h>
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#include "d_mmcsc.h"
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//#define __KTRACE_MMD(s) s;
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#define __KTRACE_MMD(s)
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class DMmCreateScFactory : public DLogicalDevice
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	{
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public:
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	DMmCreateScFactory();
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	virtual TInt Install();
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	virtual void GetCaps(TDes8 &aDes) const;
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	virtual TInt Create(DLogicalChannelBase*& aChannel);
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	};
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class DMmCreateSc : public DLogicalChannel
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	{
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public:
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	DMmCreateSc();
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	~DMmCreateSc();
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protected:
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	virtual TInt DoCreate(TInt aUnit, const TDesC8* anInfo, const TVersion& aVer);
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	virtual void HandleMsg(TMessageBase* aMsg);
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	TInt DoControl(TInt aId, TAny* a1, TAny* a2);
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private:
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	TInt CreateChunk(TInt aNumBuffers,TInt aBufferSize);
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	void CloseChunk();
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	TInt MakeChunkHandle(DThread* aThread);
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private:
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	DThread* iClient;
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	TMmSharedChunkBufConfig iBufferConfig;
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	DChunk* iChunk;
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	};
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DECLARE_STANDARD_LDD()
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	{
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	return new DMmCreateScFactory;
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	}
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DMmCreateScFactory::DMmCreateScFactory()
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	{
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	// Set version number for this device
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	iVersion=TVersion(0,1,1);
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	// Indicate we do support units or a PDD
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	iParseMask=0;
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	}
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TInt DMmCreateScFactory::Install()
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	{
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	return(SetName(&KDevMmCScName));
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	}
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void DMmCreateScFactory::GetCaps(TDes8& aDes) const
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	{
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	// Create a capabilities object
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	TCapsMmCScV01 caps;
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	caps.iVersion=iVersion;
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	// Write it back to user memory
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	Kern::InfoCopy(aDes,(TUint8*)&caps,sizeof(caps));
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	}
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TInt DMmCreateScFactory::Create(DLogicalChannelBase*& aChannel)
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	{
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	aChannel=new DMmCreateSc;
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	if (!aChannel)
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		return(KErrNoMemory);
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	return(KErrNone);
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	}
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DMmCreateSc::DMmCreateSc()
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	{
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//	iChunk=NULL;
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	iClient=&Kern::CurrentThread();
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	((DObject*)iClient)->Open();
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	}
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DMmCreateSc::~DMmCreateSc()
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	{
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	CloseChunk();
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	Kern::SafeClose((DObject*&)iClient,NULL);
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	}
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TInt DMmCreateSc::DoCreate(TInt /*aUnit*/, const TDesC8* /*anInfo*/, const TVersion& /*aVer*/)
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	{
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	__KTRACE_MMD(Kern::Printf("DMmCreateSc:DoCreate"));
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	SetDfcQ(Kern::DfcQue0());
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	iMsgQ.Receive();
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	TInt r;
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	r=CreateChunk(KMmCScNumBuffers,KMmCScBufSize);	// Contains two 150K buffers
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	return(r);
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	}
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void DMmCreateSc::HandleMsg(TMessageBase* aMsg)
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	{
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	TThreadMessage& m=*(TThreadMessage*)aMsg;
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	TInt id=m.iValue;
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	if (id==(TInt)ECloseMsg)
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		{
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		m.Complete(KErrNone, EFalse);
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		return;
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		}
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	else if (id==KMaxTInt)
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		{
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		m.Complete(KErrNone,ETrue);	// DoCancel
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		return;
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		}
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	if (id<0)
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		{
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		TRequestStatus* pS=(TRequestStatus*)m.Ptr0();	// DoRequest
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		Kern::RequestComplete(iClient,pS,KErrNotSupported);
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		m.Complete(KErrNone,ETrue);
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		}
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	else
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		{
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		TInt r=DoControl(id,m.Ptr0(),m.Ptr1());	// DoControl
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		m.Complete(r,ETrue);
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		}
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	}
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TInt DMmCreateSc::DoControl(TInt aId, TAny* a1, TAny* /*a2*/)
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	{
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	__KTRACE_MMD(Kern::Printf("DMmCreateSc:DoControl %x",aId));
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	TInt r=KErrNone;
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	switch (aId)
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		{
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		case RMmCreateSc::EGetChunkHandle:
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			{
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			r=MakeChunkHandle(iClient);
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			break;
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			}
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		case RMmCreateSc::EGetBufInfo:
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			{
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			TPtrC8 ptr((const TUint8*)&iBufferConfig,sizeof(iBufferConfig));
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			r=Kern::ThreadDesWrite(iClient,a1,ptr,0,KTruncateToMaxLength,NULL);
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			break;
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			}
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		default:
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			r=KErrNotSupported;
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		}
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	return(r);
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	}
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TInt DMmCreateSc::CreateChunk(TInt aNumBuffers,TInt aBufferSize)
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	{
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	TInt bufferSize=Kern::RoundToPageSize(aBufferSize);
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	TInt chunkSz=(aNumBuffers*bufferSize);
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	__KTRACE_MMD(Kern::Printf("DMmCreateSc:CreateChunk %d",chunkSz));
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	// Thread must be in critical section to create chunks
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	NKern::ThreadEnterCS();
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	// Create the shared chunk.
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	TChunkCreateInfo info;
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	info.iType = TChunkCreateInfo::ESharedKernelMultiple;
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	info.iMaxSize = chunkSz;
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#if !defined(__WINS__)
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	info.iMapAttr=EMapAttrFullyBlocking;	// No caching
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#else
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	info.iMapAttr=0;
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#endif
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	info.iOwnsMemory = ETrue; 				// Using RAM pages
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	info.iDestroyedDfc = NULL;				// No chunk destroy DFC
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	DChunk* chunk;
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	TLinAddr chunkKernelAddr;
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	TUint32 mapAttr;
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	TInt r = Kern::ChunkCreate(info,chunk,chunkKernelAddr,mapAttr);
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	if (r!=KErrNone)
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		{
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		NKern::ThreadLeaveCS();
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		return(r);
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		}
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	// Map the three buffers into the chunk - each containing	physically contiguous RAM pages.
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	TInt bufOffset=0;
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	TUint32 pa;
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	r=Kern::ChunkCommitContiguous(chunk,bufOffset,bufferSize,pa);
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	if (r==KErrNone)
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		{
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		bufOffset+=bufferSize;
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		r=Kern::ChunkCommitContiguous(chunk,bufOffset,bufferSize,pa);
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		}
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	if (r==KErrNone)
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		{
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		bufOffset+=bufferSize;
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		r=Kern::ChunkCommitContiguous(chunk,bufOffset,bufferSize,pa);
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		}
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	if (r!=KErrNone)
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		Kern::ChunkClose(chunk); // Commit failed - tidy-up.
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	else
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		iChunk=chunk;
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	NKern::ThreadLeaveCS();
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	// Update our buffer info. structure to reflect the chunk we have just created.
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	iBufferConfig.iNumBuffers=aNumBuffers;
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	iBufferConfig.iBufferSizeInBytes=aBufferSize;
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	iBufferConfig.iFlags|=KScFlagBufOffsetListInUse;
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	iBufferConfig.iSpec[0].iBufferOffset=0;
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	iBufferConfig.iSpec[0].iBufferId=0;
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	iBufferConfig.iSpec[1].iBufferOffset=bufferSize;
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	iBufferConfig.iSpec[1].iBufferId=1;
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	__KTRACE_MMD(Kern::Printf("ChunkCommit %d",r));
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	return(r);
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	}
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void DMmCreateSc::CloseChunk()
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	{
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	__KTRACE_MMD(Kern::Printf("DMmCreateSc:CloseChunk"));
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	// Thread must be in critical section to close a chunk
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	NKern::ThreadEnterCS();
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	// Close chunk
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	if (iChunk)
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		Kern::ChunkClose(iChunk);
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	// Can leave critical section now
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	NKern::ThreadLeaveCS();
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	}
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TInt DMmCreateSc::MakeChunkHandle(DThread* aThread)
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	{
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	TInt r;
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	// Thread must be in critical section to make a handle
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	NKern::ThreadEnterCS();
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	if (iChunk)
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		r=Kern::MakeHandleAndOpen(aThread,iChunk);
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	else
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		r=KErrNotFound;
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	NKern::ThreadLeaveCS();
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	__KTRACE_MMD(Kern::Printf("DMmCreateSc:MakeChunkHandle %x %d",aThread,r));
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	return(r);
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	}