Starting to boot the kernel. We need ecust.dll now.
/*
* 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 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:
*
*/
//
// RAWEXT.CPP
//
// This file system extension provides a way to access a drive on the local windows system in "raw format".
// It can be used to test large files / drives
//
// NB This should be used WITH CARE to avoid unintentionally overwriting or formatting a windows disk
//
#include <f32fsys.h>
#include <emulator.h>
#include <windows.h>
#define WIN32_LEAN_AND_MEAN
#pragma warning (disable:4201) // warning C4201: nonstandard extension used : nameless struct/union
#include <winioctl.h>
// Enable this macro to find the last REMOVABLE drive (e.g. a card reader drive)
// (to minimise the chance of doing any damage !
// Doesn't even try any drive letters below E (again for safety):
#define __LOOK_FOR_DRIVE__
// Otherwise the windows drive letter can be hard-coded here:
#ifndef __LOOK_FOR_DRIVE__
char diskName[] = "\\\\.\\Y:";
#endif
const TInt KSectorSize = 512;
class CRawWinDiskExtProxyDrive : public CBaseExtProxyDrive
{
public:
static CRawWinDiskExtProxyDrive* NewL(CProxyDrive* aProxyDrive, CMountCB* aMount);
~CRawWinDiskExtProxyDrive();
public:
virtual TInt Initialise();
virtual TInt Dismounted();
virtual TInt Enlarge(TInt aLength);
virtual TInt ReduceSize(TInt aPos, TInt aLength);
virtual TInt Read(TInt64 aPos,TInt aLength,const TAny* aTrg,TInt aThreadHandle,TInt anOffset);
virtual TInt Read(TInt64 aPos,TInt aLength,TDes8& aTrg);
virtual TInt Write(TInt64 aPos,TInt aLength,const TAny* aSrc,TInt aThreadHandle,TInt anOffset);
virtual TInt Write(TInt64 aPos,const TDesC8& aSrc);
virtual TInt Caps(TDes8& anInfo);
virtual TInt Format(TFormatInfo& anInfo);
private:
CRawWinDiskExtProxyDrive(CProxyDrive* aProxyDrive, CMountCB* aMount);
private:
HANDLE iDeviceHandle;
};
class CRawWinDiskProxyDriveFactory : public CProxyDriveFactory
{
public:
CRawWinDiskProxyDriveFactory();
virtual TInt Install();
virtual CProxyDrive* NewProxyDriveL(CProxyDrive* aProxy,CMountCB* aMount);
};
CRawWinDiskExtProxyDrive* CRawWinDiskExtProxyDrive::NewL(CProxyDrive* aProxyDrive, CMountCB* aMount)
//
//
//
{
CRawWinDiskExtProxyDrive* temp=new(ELeave) CRawWinDiskExtProxyDrive(aProxyDrive,aMount);
return(temp);
}
CRawWinDiskExtProxyDrive::CRawWinDiskExtProxyDrive(CProxyDrive* aProxyDrive, CMountCB* aMount):CBaseExtProxyDrive(aProxyDrive,aMount)
{
RDebug::Print(_L("CRawWinDiskExtProxyDrive::CRawWinDiskExtProxyDrive"));
}
CRawWinDiskExtProxyDrive::~CRawWinDiskExtProxyDrive()
//
//
//
{
CloseHandle(iDeviceHandle);
}
TInt CRawWinDiskExtProxyDrive::Initialise()
//
//
//
{
RDebug::Print(_L("CRawWinDiskExtProxyDrive::Initialise()"));
#ifdef __LOOK_FOR_DRIVE__
// Find the last REMOVABLE drive (to minimise the chance of doing any damage !
// Don't even try any drive letters below E (agai for safety):
char diskName[] = "\\\\.\\?:";
char driveLetter;
for (driveLetter = 'Z'; driveLetter > 'D'; driveLetter--)
{
diskName[4] = driveLetter;
DISK_GEOMETRY geometry;
DWORD dummy;
iDeviceHandle = CreateFileA(diskName,
GENERIC_READ | GENERIC_WRITE, FILE_SHARE_READ | FILE_SHARE_WRITE,
NULL, OPEN_EXISTING, 0, NULL);
if (iDeviceHandle == INVALID_HANDLE_VALUE)
{
continue;
}
if(DeviceIoControl(iDeviceHandle,
IOCTL_DISK_GET_DRIVE_GEOMETRY,
NULL,
0,
&geometry,
sizeof(geometry),
&dummy,
(LPOVERLAPPED)NULL))
{
RDebug::Print(_L("Drive %c MediaType %d removable %s"),
driveLetter,
geometry.MediaType,
geometry.MediaType==RemovableMedia ? _S16("True") : _S16("False"));
}
CloseHandle(iDeviceHandle);
if (geometry.MediaType==RemovableMedia)
break;
}
if (driveLetter == 'D')
return KErrNotFound;
#endif
// Creating a handle to drive a: using CreateFile () function ..
TPtrC8 diskName8((const TUint8*) diskName);
TBuf16<16> diskName16;
diskName16.Copy(diskName8);
RDebug::Print(_L("RAWEXT: Opening drive %S"), &diskName16);
iDeviceHandle = CreateFileA(
// "\\\\.\\H:",
diskName,
GENERIC_READ | GENERIC_WRITE, FILE_SHARE_READ | FILE_SHARE_WRITE,
NULL, OPEN_EXISTING, 0, NULL);
if (iDeviceHandle == INVALID_HANDLE_VALUE)
{
return Emulator::LastError();
}
return KErrNone;
}
TInt CRawWinDiskExtProxyDrive::Dismounted()
//
//
//
{
RDebug::Print(_L("CRawWinDiskExtProxyDrive::Dismounted()"));
return(KErrNone);
}
TInt CRawWinDiskExtProxyDrive::Enlarge(TInt /*aLength*/)
//
//
//
{
return(KErrNotSupported);
}
TInt CRawWinDiskExtProxyDrive::ReduceSize(TInt /*aPos*/, TInt /*aLength*/)
//
//
//
{
return(KErrNotSupported);
}
LOCAL_C TInt ParameterNum(const TInt aMessageHandle, const TAny* aAddress)
{
RMessage2 tmpMessage(*(RMessagePtr2 *) &aMessageHandle);
if (tmpMessage.Ptr0() == aAddress)
{
return 0;
}
if (tmpMessage.Ptr1() == aAddress)
{
return 1;
}
if (tmpMessage.Ptr2() == aAddress)
{
return 2;
}
if (tmpMessage.Ptr3() == aAddress)
{
return 3;
}
User::Panic(_L("RAWEXT"),KErrBadHandle);
return -1;
}
TInt CRawWinDiskExtProxyDrive::Read(TInt64 aPos,TInt aLength,const TAny* aTrg,TInt aThreadHandle,TInt aOffset)
//
//
//
{
//
// Set file position to where we want to read...
//
LARGE_INTEGER li;
li.QuadPart = aPos;
long posH = I64HIGH(aPos);
long posL = I64LOW(aPos);
TInt off = posL & 0x1FF;
posL &= ~0x1FF;
if(SetFilePointer (iDeviceHandle, posL, &posH, FILE_BEGIN) == 0xFFFFFFFF)
{
return Emulator::LastError();
}
const TInt KLocalBufferSize = 256*1024;
char buffer[KLocalBufferSize];
const TInt param = ParameterNum(aThreadHandle, aTrg);
TInt totalBytesRead = 0;
//
// Read first sector if start of data is offset from 512 bytes...
//
if(off)
{
// read 1st sector if offset
DWORD bytesRead;
if (!ReadFile (iDeviceHandle, buffer, KSectorSize, &bytesRead, NULL) )
{
return Emulator::LastError();
}
if(bytesRead != KSectorSize)
{
return KErrNotReady;
}
bytesRead-= off;
TInt copyLen = Min(aLength, bytesRead);;
totalBytesRead += copyLen;
aLength -= copyLen;
TPtrC8 des((TUint8*) buffer+off, copyLen);
((RMessagePtr2 *) &aThreadHandle)->Write(param, des, aOffset);
}
//
// Read the remainder of the data, accounting for partial last sector...
//
while(aLength > 0)
{
TUint32 bytesThisTime = min(KLocalBufferSize, (TUint32)aLength);
bytesThisTime = (bytesThisTime + KSectorSize-1) & ~(KSectorSize-1);
DWORD bytesread;
if (!ReadFile (iDeviceHandle, buffer, bytesThisTime, &bytesread, NULL) )
{
return Emulator::LastError();
}
if(bytesread != (TUint32)bytesThisTime)
{
return KErrNotReady;
}
TPtrC8 des((TUint8*)buffer, min((TUint32)aLength, bytesThisTime));
((RMessagePtr2 *) &aThreadHandle)->Write(param, des, aOffset + totalBytesRead);
totalBytesRead += bytesThisTime;
aLength -= bytesThisTime;
}
return KErrNone;
}
//////
GLDEF_C void DumpBuffer( const TDesC8& aBuffer )
/**
* Dump the content of aBuffer in hex
*/
{
static const TText hextab[16] = {'0', '1', '2', '3', '4', '5', '6', '7', '8', '9',
'A', 'B', 'C', 'D', 'E', 'F' };
const TInt KBytesPerLine = 32;
const TInt KCharsPerLine = KBytesPerLine * 2;
TInt remaining = aBuffer.Length();
TUint8* pSrc = const_cast<TUint8*>(aBuffer.Ptr());
TBuf<KCharsPerLine> line;
line.SetLength( KCharsPerLine ); // don't need to print trailing space
TInt bytesPerLine = KBytesPerLine;
TInt lineOffs = 0;
while( remaining )
{
if( remaining < KBytesPerLine )
{
bytesPerLine = remaining;
line.SetLength( (bytesPerLine*2) );
}
TUint16* pDest = const_cast<TUint16*>(line.Ptr());
remaining -= bytesPerLine;
for( TInt i = bytesPerLine; i > 0; --i )
{
TUint8 c = *pSrc++;
*pDest++ = hextab[c >> 4];
*pDest++ = hextab[c & 0xF];
}
_LIT( KFmt, "%06x: %S\n\r" );
RDebug::Print( KFmt, lineOffs, &line );
lineOffs += bytesPerLine;
}
}
TInt CRawWinDiskExtProxyDrive::Read(TInt64 aPos,TInt aLength,TDes8& aTrg)
//
//
//
{
//
// Set file position to where we want to read...
//
LARGE_INTEGER li;
li.QuadPart = aPos;
long posH = I64HIGH(aPos);
long posL = I64LOW(aPos);
TInt off = posL & 0x1FF;
posL &= ~0x1FF;
if(SetFilePointer (iDeviceHandle, posL, &posH, FILE_BEGIN) == 0xFFFFFFFF)
{
return Emulator::LastError();
}
const TInt KLocalBufferSize = 256*1024;
char buffer[KLocalBufferSize];
TInt totalBytesRead = 0;
aTrg.SetLength(aLength);
//
// Read first sector if start of data is offset from 512 bytes...
//
if(off)
{
// read 1st sector if offset
DWORD bytesRead;
if (!ReadFile (iDeviceHandle, buffer, KSectorSize, &bytesRead, NULL) )
{
return Emulator::LastError();
}
if(bytesRead != KSectorSize)
{
return KErrNotReady;
}
bytesRead-= off;
TInt copyLen = Min(aLength, bytesRead);;
totalBytesRead += copyLen;
aLength -= copyLen;
memcpy(&aTrg[0], &buffer[off], copyLen);
}
//
// Read the remainder of the data, accounting for partial last sector...
//
while(aLength > 0)
{
TInt bytesThisTime = (aLength > KLocalBufferSize) ? KLocalBufferSize : aLength;
bytesThisTime = (bytesThisTime + KSectorSize-1) & ~(KSectorSize-1);
DWORD bytesread;
if (!ReadFile (iDeviceHandle, buffer, bytesThisTime, &bytesread, NULL) )
{
return Emulator::LastError();
}
if(bytesread != (TUint32)bytesThisTime)
return KErrNotReady;
TInt copyLen = aLength < bytesThisTime ? aLength : bytesThisTime;
memcpy(&aTrg[totalBytesRead], buffer, copyLen);
totalBytesRead += bytesThisTime;
aLength -= bytesThisTime;
}
// DumpBuffer(aTrg);
return KErrNone;
}
TInt CRawWinDiskExtProxyDrive::Write(TInt64 aPos,TInt aLength,const TAny* aSrc,TInt aThreadHandle,TInt aOffset)
//
//
//
{
//
// Set file position to where we want to write...
//
long posStartH = I64HIGH(aPos);
long posStartL = I64LOW(aPos);
TInt offStart = posStartL & 0x1FF;
posStartL &= ~0x1FF;
if(SetFilePointer (iDeviceHandle, posStartL, &posStartH, FILE_BEGIN) == 0xFFFFFFFF)
{
return Emulator::LastError();
}
const TInt KLocalBufferSize = 256*1024;
char buffer[KLocalBufferSize];
const TInt param = ParameterNum(aThreadHandle, aSrc);
TInt totalBytesRead = 0;
//
// Read-Modify-Write on first sector if start of data is offset from 512 bytes
// or if this is a partial write...
//
if(offStart || aLength < KSectorSize)
{
DWORD bytesread;
if (!ReadFile (iDeviceHandle, buffer, KSectorSize, &bytesread, NULL) )
{
return Emulator::LastError();
}
if(bytesread != KSectorSize)
{
return KErrNotReady;
}
totalBytesRead = min(KSectorSize-offStart, aLength);
aLength -= totalBytesRead;
TPtr8 des((TUint8*)&buffer[offStart], totalBytesRead);
((RMessagePtr2 *) &aThreadHandle)->Read(param, des, aOffset);
if(SetFilePointer (iDeviceHandle, posStartL, &posStartH, FILE_BEGIN) == 0xFFFFFFFF)
{
return Emulator::LastError();
}
if (!WriteFile (iDeviceHandle, buffer, KSectorSize, &bytesread, NULL) )
{
return Emulator::LastError();
}
}
//
// Write the remainder of the aligned data
//
while(aLength >= KSectorSize)
{
TInt alignedLength = aLength & ~0x1FF;
TInt bytesThisTime = (alignedLength > KLocalBufferSize) ? KLocalBufferSize : alignedLength;
TPtr8 des((TUint8*)buffer, bytesThisTime);
((RMessagePtr2 *) &aThreadHandle)->Read(param, des, aOffset + totalBytesRead);
DWORD bytesWritten;
if (!WriteFile (iDeviceHandle, buffer, bytesThisTime, &bytesWritten, NULL) )
{
return Emulator::LastError();
}
if(bytesWritten != (TUint32)bytesThisTime)
{
return KErrNotReady;
}
totalBytesRead += bytesThisTime;
aLength -= bytesThisTime;
}
//
// Read-Modify-Write on the last block if a partial write...
//
if(aLength > 0)
{
DWORD curPos = SetFilePointer(iDeviceHandle, 0, NULL, FILE_CURRENT);
// RMW last sector if offset
DWORD bytesread;
if (!ReadFile (iDeviceHandle, buffer, KSectorSize, &bytesread, NULL) )
{
return Emulator::LastError();
}
if(bytesread != KSectorSize)
return KErrNotReady;
TPtr8 des((TUint8*)buffer, aLength);
((RMessagePtr2 *) &aThreadHandle)->Read(param, des, aOffset + totalBytesRead);
if(SetFilePointer (iDeviceHandle, curPos, &posStartH, FILE_BEGIN) == 0xFFFFFFFF)
{
return Emulator::LastError();
}
if (!WriteFile (iDeviceHandle, buffer, KSectorSize, &bytesread, NULL) )
{
return Emulator::LastError();
}
}
return KErrNone;
}
TInt CRawWinDiskExtProxyDrive::Write(TInt64 aPos,const TDesC8& aSrc)
//
//
//
{
//
// Set file position to where we want to write...
//
TInt length = aSrc.Length();
long posStartH = I64HIGH(aPos);
long posStartL = I64LOW(aPos);
TInt offStart = posStartL & 0x1FF;
posStartL &= ~0x1FF;
if(SetFilePointer (iDeviceHandle, posStartL, &posStartH, FILE_BEGIN) == 0xFFFFFFFF)
{
return Emulator::LastError();
}
const TInt KLocalBufferSize = 256*1024;
char buffer[KLocalBufferSize];
TInt totalBytesRead = 0;
//
// Read-Modify-Write on first sector if start of data is offset from 512 bytes
// or if this is a partial write...
//
if(offStart || length < KSectorSize)
{
DWORD bytesread;
if (!ReadFile (iDeviceHandle, buffer, KSectorSize, &bytesread, NULL) )
{
return Emulator::LastError();
}
if(bytesread != KSectorSize)
{
return KErrNotReady;
}
totalBytesRead = min(KSectorSize-offStart, length);
length -= totalBytesRead;
memcpy(&buffer[offStart], &aSrc[0], totalBytesRead);
if(SetFilePointer (iDeviceHandle, posStartL, &posStartH, FILE_BEGIN) == 0xFFFFFFFF)
{
return Emulator::LastError();
}
if (!WriteFile (iDeviceHandle, buffer, KSectorSize, &bytesread, NULL) )
{
return Emulator::LastError();
}
}
//
// Write the remainder of the aligned data
//
while(length >= KSectorSize)
{
TInt alignedLength = length & ~0x1FF;
TInt bytesThisTime = (alignedLength > KLocalBufferSize) ? KLocalBufferSize : alignedLength;
memcpy(buffer, &aSrc[totalBytesRead], bytesThisTime);
DWORD bytesWritten;
if (!WriteFile (iDeviceHandle, buffer, bytesThisTime, &bytesWritten, NULL) )
{
return Emulator::LastError();
}
if(bytesWritten != (TUint32)bytesThisTime)
{
return KErrNotReady;
}
totalBytesRead += bytesThisTime;
length -= bytesThisTime;
}
//
// Read-Modify-Write on the last block if a partial write...
//
if(length > 0)
{
DWORD curPos = SetFilePointer(iDeviceHandle, 0, NULL, FILE_CURRENT);
// RMW last sector if offset
DWORD bytesread;
if (!ReadFile (iDeviceHandle, buffer, KSectorSize, &bytesread, NULL) )
{
return Emulator::LastError();
}
if(bytesread != KSectorSize)
return KErrNotReady;
memcpy(&buffer[0], &aSrc[totalBytesRead], length);
if(SetFilePointer (iDeviceHandle, curPos, &posStartH, FILE_BEGIN) == 0xFFFFFFFF)
{
return Emulator::LastError();
}
if (!WriteFile (iDeviceHandle, buffer, KSectorSize, &bytesread, NULL) )
{
return Emulator::LastError();
}
}
return KErrNone;
}
TInt CRawWinDiskExtProxyDrive::Caps(TDes8& anInfo)
//
//
//
{
TLocalDriveCapsV3Buf caps;
TInt err = CBaseExtProxyDrive::Caps(caps);
if(err == KErrNone)
{
DISK_GEOMETRY geometry;
DWORD dummy;
if(!DeviceIoControl(iDeviceHandle,
IOCTL_DISK_GET_DRIVE_GEOMETRY,
NULL,
0,
&geometry,
sizeof(geometry),
&dummy,
(LPOVERLAPPED)NULL))
{
return KErrNotReady;
}
caps().iExtraInfo = EFalse;
// NB This seems to be incorrect:If the disk is formatted by Windows, then the
// number of sectors reported in the Boot Sector is slightly greater than
// the number of sectors calculated here ... resulting in CheckDisk failures.
// One solution is to ensure the disk is formatted by the emulator.
caps().iSize = MAKE_TINT64(geometry.Cylinders.HighPart, geometry.Cylinders.LowPart) *
geometry.TracksPerCylinder *
geometry.SectorsPerTrack *
geometry.BytesPerSector;
anInfo = caps.Left(Min(caps.Length(),anInfo.MaxLength()));
}
return(err);
}
TInt CRawWinDiskExtProxyDrive::Format(TFormatInfo& /*anInfo*/)
//
//
//
{
return(KErrEof);
}
CRawWinDiskProxyDriveFactory::CRawWinDiskProxyDriveFactory()
//
//
//
{
RDebug::Print(_L("CRawWinDiskProxyDriveFactory::CRawWinDiskProxyDriveFactory"));
}
TInt CRawWinDiskProxyDriveFactory::Install()
//
//
//
{
_LIT(KLoggerName,"RAWEXT");
return(SetName(&KLoggerName));
}
CProxyDrive* CRawWinDiskProxyDriveFactory::NewProxyDriveL(CProxyDrive* aProxy,CMountCB* aMount)
//
//
//
{
return(CRawWinDiskExtProxyDrive::NewL(aProxy,aMount));
}
extern "C" {
EXPORT_C CProxyDriveFactory* CreateFileSystem()
//
// Create a new file system
//
{
return(new CRawWinDiskProxyDriveFactory());
}
}