Trying to figure out how to implement my WINC like compatibility layer. Going the emulation way is probably not so smart. We should not use the kernel but rather hook native functions in the Exec calls.
// Copyright (c) 1996-2009 Nokia Corporation and/or its subsidiary(-ies).
// All rights reserved.
// This component and the accompanying materials are made available
// under the terms of the License "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:
// f32\sfile\sf_raw.cpp
//
//
#include "sf_std.h"
#include "sf_file_cache.h"
LOCAL_C CRawDiskCB* GetRawDiskFromHandle(TInt aHandle, CSessionFs* aSession)
//
// Get the rawdisk control block from aHandle
//
{
return((CRawDiskCB*)(SessionObjectFromHandle(aHandle,RawDisks->UniqueID(),aSession)));
}
LOCAL_C void DoFsRawDiskOpenL(TInt& aHandle,CRawDiskCB*& aRawDisk, CFsRequest* aRequest)
//
// Do the bits that can leave
//
{
aRawDisk=new(ELeave) CRawDiskCB;
RawDisks->AddL(aRawDisk,ETrue);
aRawDisk->InitL(&aRequest->Drive()->CurrentMount(),aRequest->Drive()->IsWriteProtected());
// modify resource counter after initialisation to ensure correct cleanup in object destruction
AddDiskAccess(aRequest->Drive()->CurrentMount());
aHandle=aRequest->Session()->Handles().AddL(aRawDisk,ETrue);
}
TInt TFsRawDiskOpen::DoRequestL(CFsRequest* aRequest)
//
// Open direct disk access channel
//
{
__PRINT(_L("TFsRawDiskOpen::DoRequestL(CFsRequest* aRequest)"));
TInt r=aRequest->Drive()->CheckMount();
if (r==KErrNone && aRequest->Drive()->CurrentMount().LockStatus()<0)
return(KErrInUse);
if (r!=KErrNone)
return(r);
__ASSERT_DEBUG( aRequest->Drive()->CurrentMount().LockStatus()==0,Fault(ESvrRawDiskOpenFailed));
TInt handle;
CRawDiskCB* rawDisk=NULL;
TRAPD(ret,DoFsRawDiskOpenL(handle,rawDisk,aRequest));
if (ret!=KErrNone)
{
if(rawDisk)
rawDisk->Close();
return(ret);
}
r = rawDisk->Drive().FlushCachedFileInfo();
if (r != KErrNone)
return(r);
// Empty the closed file container
TClosedFileUtils::Remove();
TPtrC8 pH((TUint8*)&handle,sizeof(TInt));
aRequest->WriteL(KMsgPtr3,pH);
aRequest->Session()->IncResourceCount();
return(KErrNone);
}
TInt TFsRawDiskOpen::Initialise(CFsRequest* aRequest)
//
//
{
if (!KCapFsRawDiskOpen.CheckPolicy(aRequest->Message(), __PLATSEC_DIAGNOSTIC_STRING("Raw Disk Open")))
return KErrPermissionDenied;
TInt driveNo=aRequest->Message().Int0();
return ValidateDriveDoSubst(driveNo,aRequest);
}
TInt TFsRawDiskRead::DoRequestL(CFsRequest* aRequest)
//
// Do Raw Read
//
{
__PRINT(_L("TFsRawDiskRead::DoRequestL(CFsRequest* aRequest)"));
CRawDiskCB* rawDisk=(CRawDiskCB*)aRequest->ScratchValue();
TInt r=rawDisk->Drive().CheckMount();
if (r!=KErrNone && r!=KErrInUse)
return(r);
if (&rawDisk->Mount()!=&rawDisk->Drive().CurrentMount())
return(KErrDisMounted);
TInt64 pos;
TPtr8 tBuf((TUint8*)&pos,sizeof(TInt64));
aRequest->ReadL(KMsgPtr2,tBuf);
if ( pos < 0 )
return(KErrArgument);
TInt length=aRequest->Message().Int1();
const TAny* pDes=aRequest->Message().Ptr0();
TRACETHREADID(aRequest->Message());
TRACE7(UTF::EBorder, UTraceModuleFileSys::ECMountCBRawReadL, EF32TraceUidFileSys,
aRequest->DriveNumber(), I64LOW(pos), I64HIGH(pos), length, pDes, 0, I64LOW(threadId));
TRAP(r,rawDisk->Mount().RawReadL(pos,length,pDes,0,aRequest->Message()));
TRACERET1(UTF::EBorder, UTraceModuleFileSys::ECMountCBRawReadLRet, EF32TraceUidFileSys, r);
return(r);
}
TInt TFsRawDiskRead::Initialise(CFsRequest* aRequest)
//
//
//
{
if (!KCapFsRawDiskRead.CheckPolicy(aRequest->Message(), __PLATSEC_DIAGNOSTIC_STRING("Raw Disk Read")))
return KErrPermissionDenied;
CRawDiskCB* rawDisk=GetRawDiskFromHandle(aRequest->Message().Int3(),aRequest->Session());
if(!rawDisk)
return(KErrBadHandle);
aRequest->SetDrive(&rawDisk->Drive());
aRequest->SetScratchValue((TUint)rawDisk);
return KErrNone;
}
TInt TFsRawDiskWrite::DoRequestL(CFsRequest* aRequest)
//
// Do Raw write
//
{
__PRINT(_L("TFsRawDiskWrite::DoRequestL(CFsRequest* aRequest)"));
CRawDiskCB* rawDisk=(CRawDiskCB*)aRequest->ScratchValue();
TInt r=rawDisk->Drive().CheckMount();
if (r!=KErrNone && r!=KErrInUse)
return(r);
if (&rawDisk->Mount()!=&rawDisk->Drive().CurrentMount())
return(KErrDisMounted);
TInt64 pos;
TPtr8 tBuf((TUint8*)&pos,sizeof(TInt64));
aRequest->ReadL(KMsgPtr2,tBuf);
if ( pos < 0 )
return(KErrArgument);
TInt length=aRequest->Message().Int1();
const TAny* pDes=aRequest->Message().Ptr0();
TRACETHREADID(aRequest->Message());
TRACE7(UTF::EBorder, UTraceModuleFileSys::ECMountCBRawWriteL, EF32TraceUidFileSys,
aRequest->DriveNumber(), I64LOW(pos), I64HIGH(pos), length, pDes, 0, I64LOW(threadId));
TRAP(r,rawDisk->Mount().RawWriteL(pos,length,pDes,0,aRequest->Message()));
TRACERET1(UTF::EBorder, UTraceModuleFileSys::ECMountCBRawWriteLRet, EF32TraceUidFileSys, r);
rawDisk->SetChanged();
return(r);
}
TInt TFsRawDiskWrite::Initialise(CFsRequest* aRequest)
//
//
//
{
if (!KCapFsRawDiskWrite.CheckPolicy(aRequest->Message(), __PLATSEC_DIAGNOSTIC_STRING("Raw Disk Write")))
return KErrPermissionDenied;
CRawDiskCB* rawDisk=GetRawDiskFromHandle(aRequest->Message().Int3(),aRequest->Session());
if(!rawDisk)
return(KErrBadHandle);
if(rawDisk->IsWriteProtected())
return(KErrAccessDenied);
aRequest->SetDrive(&rawDisk->Drive());
aRequest->SetScratchValue((TUint)rawDisk);
return KErrNone;
}
CRawDiskCB::CRawDiskCB()
//
// Constructor
//
{
}
CRawDiskCB::~CRawDiskCB()
//
// Destructor
//
{
if(iMount)
{
__ASSERT_DEBUG(iMount->LockStatus()>0,Fault(ERawDiskBadAccessCount));
RemoveDiskAccess(*iMount);
if(IsChanged())
iMount->Drive().SetChanged(ETrue);
iMount->Close();
}
}
void CRawDiskCB::InitL(CMountCB* aMount,TBool aIsWriteProtected)
//
// Initialise
//
{
DoInitL(aMount->Drive().DriveNumber());
iMount=aMount;
if(aIsWriteProtected)
SetWriteProtected();
User::LeaveIfError(iMount->Open());
}