// Copyright (c) 2004-2009 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:

 // CMassStorageMountCB implementation.

 // 

 //

 /**

  @file

  @internalTechnology

 */

 #include <f32fsys.h>

 #include <f32file.h>

 #include "cmassstoragemountcb.h"

 #include "cmassstoragefilesystem.h"

 #include "drivemanager.h"

 #include "massstoragedebug.h"

 #include "massstorageutil.h"

 CMassStorageMountCB::CMassStorageMountCB(const RArray<TInt>& aDriveMapping)

     : iDriveMapping(aDriveMapping)

 	{

 	}

 CMassStorageMountCB* CMassStorageMountCB::NewL(const RArray<TInt>& aDriveMapping)

 	{

 	return new (ELeave) CMassStorageMountCB(aDriveMapping);

 	}

 /**

 Checks that the drive number is supported.

 @leave KErrNotReady The drive number is not supported.

 */

 TInt CMassStorageMountCB::CheckDriveNumberL()

 	{

 	__FNLOG("CMassStorageMountCB::CheckDriveNumberL");

 	TInt driveNumber;

 	driveNumber = Drive().DriveNumber();

 	if (!IsValidLocalDriveMapping(driveNumber))

 		{

 		__PRINT1(_L("CMassStorageMountCB::CheckDriveNumberL: Drive number %d not supported"), driveNumber);

 		User::Leave(KErrNotReady);

 		}

 	__PRINT1(_L("CMassStorageMountCB::CheckDriveNumberL: Drive number = %d"), driveNumber);

 	return driveNumber;

 	}

 /**

 Registers the drive with the Mass Storage drive manager.

 @leave KErrNotSupported The drive is not compatible with Mass Storage.

 */

 void CMassStorageMountCB::MountL(TBool /*aForceMount*/)

 	{

 	__FNLOG("CMassStorageMountCB::MountL");

 	CheckDriveNumberL();

 	CMassStorageFileSystem& msFsys = *reinterpret_cast<CMassStorageFileSystem*>(Drive().GetFSys());

 	TInt lun = DriveNumberToLun(Drive().DriveNumber());

 	if(lun < 0)

 		{

 		// This is not a supported Mass Storage drive

 		User::Leave(KErrNotSupported);

 		}

 	TBusLocalDrive& localDrive = msFsys.iLocalDriveForMediaFlag[lun];

 	TInt err = CreateLocalDrive(localDrive);

 	User::LeaveIfError(err);

 	CProxyDrive* proxyDrive = LocalDrive();

 	TLocalDriveCapsV2Buf caps;

 	err = localDrive.Caps(caps);

 	//Make sure file system is FAT and removable

 	if (err == KErrNone)

 		{

 		err = KErrNotSupported;

 		if ((caps().iDriveAtt & KDriveAttRemovable) == KDriveAttRemovable)

 			{

 			if (caps().iType != EMediaNotPresent)

 				{

 				err = KErrNone;

 				}

 			}

 		}

 	if (err != KErrNone && err != KErrNotReady)

 		{

 		__PRINT1(_L("CMassStorageMountCB::MountL: Drive is not compatible with Mass Storage, err=%d"), err);

 		User::Leave(err);

 		}

 	__PRINT(_L("CMassStorageMountCB::MountL: Registering drive"));

 	// Set media changed to true so that Win2K doesn't used cached drive data

 	(*msFsys.iMediaChanged)[lun] = ETrue;

 	msFsys.Controller().DriveManager().RegisterDrive(*proxyDrive, (*msFsys.iMediaChanged)[lun], lun);

 	SetVolumeName(_L("MassStorage").AllocL());

 	}

 /**

 Returns the LUN that corresponds to the specified drive number.

 @param aDriveNumber The drive number.

 */

 TInt CMassStorageMountCB::DriveNumberToLun(TInt aDriveNumber)

 	{

 	__FNLOG("CMassStorageMountCB::DriveNumberToLun");

 	TInt lun = -1;

 	for (TInt i = 0; i < iDriveMapping.Count(); i++)

 		{

 		if (iDriveMapping[i] == aDriveNumber)

 			{

 			lun = i;

 			break;

 			}

 		}

 	__PRINT2(_L("CMassStorageMountCB::DriveNumberToLun: Drive %d maps to LUN %d"), aDriveNumber, lun);

 	return lun;

 	}

 /**

 Deregisters the drive from the Drive Manager.

 */

 void CMassStorageMountCB::Dismounted()

 	{

 	__FNLOG("CMassStorageMountCB::Dismounted");

 	TInt driveNumber = -1;

 	TRAPD(err, driveNumber = CheckDriveNumberL());

 	if (err != KErrNone)

 		{

 		return;

 		}

 	__PRINT(_L("CMassStorageMountCB::Dismounted: Deregistering drive"));

     CMassStorageFileSystem& msFsys = *reinterpret_cast<CMassStorageFileSystem*>(Drive().GetFSys());

 	msFsys.Controller().DriveManager().DeregisterDrive(DriveNumberToLun(driveNumber));

 	DismountedLocalDrive();

 	}

 /**

 Unlocks the drive with the specified password, optionally storing the password for later use.

 @param aPassword The password to use for unlocking the drive.

 @param aStore True if the password is to be stored.

 */

 TInt CMassStorageMountCB::Unlock(TMediaPassword& aPassword, TBool aStore)

 	{

 	__FNLOG("CMassStorageMountCB::Unlock");

 	TInt driveNumber = -1;

 	TRAPD(err, driveNumber = CheckDriveNumberL());

 	if (err != KErrNone)

 		{

 		return err;

 		}

 	TBusLocalDrive& localDrive=GetLocalDrive(driveNumber);

 	if(localDrive.Status() == KErrLocked)

 		{

 		localDrive.Status() = KErrNotReady;

 		}

 	TInt r = localDrive.Unlock(aPassword, aStore);

 	if(r == KErrNone && aStore)

 		{

 		WritePasswordData();

 		}

 	return(r);

 	}

 /**

 Stores the password for the drive to the password file.

 */

 void CMassStorageMountCB::WritePasswordData()

 	{

 	__FNLOG("CMassStorageMountCB::WritePasswordData");

 	TBusLocalDrive& local=GetLocalDrive(Drive().DriveNumber());

 	TInt length = local.PasswordStoreLengthInBytes();

 	if(length==0)

 		{

 		TBuf<sizeof(KMediaPWrdFile)> mediaPWrdFile(KMediaPWrdFile);

 		mediaPWrdFile[0] = (TUint8) RFs::GetSystemDriveChar();

 		WriteToDisk(mediaPWrdFile,_L8(""));

 		return;

 		}

 	HBufC8* hDes=HBufC8::New(length);

 	if(hDes==NULL)

 		{

 		return;

 		}

 	TPtr8 pDes=hDes->Des();

 	TInt r=local.ReadPasswordData(pDes);

 	if(r==KErrNone)

 		{

 		TBuf<sizeof(KMediaPWrdFile)> mediaPWrdFile(KMediaPWrdFile);

 		mediaPWrdFile[0] = (TUint8) RFs::GetSystemDriveChar();

 		WriteToDisk(mediaPWrdFile,pDes);

 		}

 	delete hDes;

 	}

 /**

 Make sure that the file system is fat.

 */

 TBool CMassStorageMountCB::ValidateBootSector()

 	{

 	__FNLOG("CMassStorageMountCB::ValidateBootSector");

 	TFatBootSector bootSector;

 	TInt r=ReadBootSector(bootSector);

 	__PRINT1(_L("CMassStorageMountCB::MountL - ReadBootSector returned %d"),r);

 	if (r != KErrNone)

 		{

 		return EFalse;

 		}

 	__PRINT(_L("\nBootSector info"));

 	__PRINT8BIT1(_L("FAT type = %S"),bootSector.FileSysType());

 	__PRINT8BIT1(_L("Vendor ID = %S"),bootSector.VendorId());

 	__PRINT1(_L("BytesPerSector %d"),bootSector.BytesPerSector());

 	__PRINT1(_L("SectorsPerCluster %d"),bootSector.SectorsPerCluster());

 	__PRINT1(_L("ReservedSectors %d"),bootSector.ReservedSectors());

 	__PRINT1(_L("NumberOfFats %d"),bootSector.NumberOfFats());

 	__PRINT1(_L("RootDirEntries %d"),bootSector.RootDirEntries());

 	__PRINT1(_L("Total Sectors = %d"),bootSector.TotalSectors());

 	__PRINT1(_L("MediaDescriptor = 0x%x"),bootSector.MediaDescriptor());

 	__PRINT1(_L("FatSectors %d"),bootSector.FatSectors());

 	__PRINT1(_L("SectorsPerTrack %d"),bootSector.SectorsPerTrack());

 	__PRINT1(_L("NumberOfHeads %d"),bootSector.NumberOfHeads());

 	__PRINT1(_L("HugeSectors %d"),bootSector.HugeSectors());

 	__PRINT1(_L("Fat32 Sectors %d"),bootSector.FatSectors32());

 	__PRINT1(_L("Fat32 Flags %d"),bootSector.FATFlags());

 	__PRINT1(_L("Fat32 Version Number %d"),bootSector.VersionNumber());

 	__PRINT1(_L("Root Cluster Number %d"),bootSector.RootClusterNum());

 	__PRINT1(_L("FSInfo Sector Number %d"),bootSector.FSInfoSectorNum());

 	__PRINT1(_L("Backup Boot Rec Sector Number %d"),bootSector.BkBootRecSector());

 	__PRINT1(_L("PhysicalDriveNumber %d"),bootSector.PhysicalDriveNumber());

 	__PRINT1(_L("ExtendedBootSignature %d"),bootSector.ExtendedBootSignature());

 	__PRINT1(_L("UniqueID %d"),bootSector.UniqueID());

 	__PRINT8BIT1(_L("VolumeLabel %S"),bootSector.VolumeLabel());

 	__PRINT8BIT1(_L("FileSysType %S\n"),bootSector.FileSysType());

     iUniqueID=bootSector.UniqueID();

 	iIs16BitFat=bootSector.Is16BitFat();

 	iIs32BitFat=bootSector.Is32BitFat();

 	switch (DetermineFatType(bootSector))

 		{

 		case 12:

 			iIs16BitFat = EFalse;

 			iIs32BitFat = EFalse;

 			break;

 		case 16:

 			iIs16BitFat = ETrue;

 			iIs32BitFat = EFalse;

 			break;

 		case 32:

 			iIs16BitFat = EFalse;

 			iIs32BitFat = ETrue;

 			break;

 		default:

 			return EFalse;

 		}

 	TInt sectorsPerCluster=bootSector.SectorsPerCluster();

 	if (!IsPowerOfTwo(sectorsPerCluster))

 		return EFalse;

 	TInt sectorSizeLog2=Log2(bootSector.BytesPerSector());

 	if (sectorSizeLog2<0 || !IsPowerOfTwo(bootSector.BytesPerSector()))

 		return EFalse;

 	TInt firstFatSector=bootSector.ReservedSectors();

 	if (firstFatSector<1)

 		return EFalse;

 	TInt fatSizeInBytes;

 	if(iIs32BitFat)

 		{

 		fatSizeInBytes=bootSector.FatSectors32()*bootSector.BytesPerSector();

 		if (fatSizeInBytes<bootSector.BytesPerSector())

 			return EFalse;

 		}

 	else

 		{

 		fatSizeInBytes=bootSector.FatSectors()*bootSector.BytesPerSector();

 		if (fatSizeInBytes<bootSector.BytesPerSector())

 			return EFalse;

 		TInt rootDirectorySector=firstFatSector+bootSector.FatSectors()*bootSector.NumberOfFats();

 		if (rootDirectorySector<3)

 			return EFalse;

 		TInt rootDirSizeInBytes=bootSector.RootDirEntries()*KSizeOfFatDirEntry;

 		TInt numOfRootDirSectors=(rootDirSizeInBytes+(1<<sectorSizeLog2)-1)>>sectorSizeLog2;

 		TInt rootDirEnd=(rootDirectorySector+numOfRootDirSectors)<<sectorSizeLog2;

 		if (rootDirEnd<(4<<sectorSizeLog2))

 			return EFalse;

 		}

 	TInt totalSectors=bootSector.TotalSectors();

 	if (totalSectors==0)

 		totalSectors=bootSector.HugeSectors();

 	if (totalSectors<5)

 		return EFalse;

 	TInt numberOfFats=bootSector.NumberOfFats();

 	if (numberOfFats<1)

 		return EFalse;

 	return ETrue;

 	}

 /**

 Read non aligned boot data from media into TFatBootSector structure

 @param aBootSector refrence to TFatBootSector populate

 @return Media read error code

 */

 TInt CMassStorageMountCB::ReadBootSector(TFatBootSector& aBootSector)

 	{

 	__FNLOG("CMassStorageMountCB::ReadBootSector");

 	TInt pos=0;

 	TUint8 data[KSizeOfFatBootSector];

     TPtr8 buf(&data[0],KSizeOfFatBootSector);

     TInt r=LocalDrive()->Read(0,KSizeOfFatBootSector,buf);

 	if (r!=KErrNone)

 		{

 		__PRINT1(_L("LocalDrive::Read() failed - %d"),r);

 		return(r);

 		}

 //	0	TUint8 iJumpInstruction[3]

 	Mem::Copy(&aBootSector.iJumpInstruction,&data[pos],3);

 	pos+=3;

 // 3	TUint8 iVendorId[KVendorIdSize]

 	Mem::Copy(&aBootSector.iVendorId,&data[pos],KVendorIdSize);

 	pos+=KVendorIdSize;

 // 11	TUint16 iBytesPerSector

 	Mem::Copy(&aBootSector.iBytesPerSector,&data[pos],2);

 	pos+=2;

 // 13	TUint8 sectorsPerCluster

 	Mem::Copy(&aBootSector.iSectorsPerCluster,&data[pos],1);

 	pos+=1;

 // 14	TUint16 iReservedSectors

 	Mem::Copy(&aBootSector.iReservedSectors,&data[pos],2);

 	pos+=2;

 // 16	TUint8 numberOfFats

 	Mem::Copy(&aBootSector.iNumberOfFats,&data[pos],1);

 	pos+=1;

 // 17	TUint16 iRootDirEntries

 	Mem::Copy(&aBootSector.iRootDirEntries,&data[pos],2);

 	pos+=2;

 // 19	TUint16 totalSectors

 	Mem::Copy(&aBootSector.iTotalSectors,&data[pos],2);

 	pos+=2;

 // 21	TUint8 iMediaDescriptor

 	Mem::Copy(&aBootSector.iMediaDescriptor,&data[pos],1);

 	pos+=1;

 // 22	TUint16 iFatSectors

 	Mem::Copy(&aBootSector.iFatSectors,&data[pos],2);

 	pos+=2;

 // 24	TUint16 iSectorsPerTrack

 	Mem::Copy(&aBootSector.iSectorsPerTrack,&data[pos],2);

 	pos+=2;

 // 26	TUint16 iNumberOfHeads

 	Mem::Copy(&aBootSector.iNumberOfHeads,&data[pos],2);

 	pos+=2;

 // 28	TUint32 iHiddenSectors

 	Mem::Copy(&aBootSector.iHiddenSectors,&data[pos],4);

 	pos+=4;

 // 32	TUint32 iHugeSectors

 	Mem::Copy(&aBootSector.iHugeSectors,&data[pos],4);

 	pos+=4;

 	if(aBootSector.iRootDirEntries == 0)	//indicates we have FAT32 volume

 		{

 		__PRINT(_L("\nFile system thinks Fat32"));

 		//36 TUint32 iFatSectors32

 		Mem::Copy(&aBootSector.iFatSectors32, &data[pos],4);

 		pos+=4;

 		//40 TUint16 iFATFlags

 		Mem::Copy(&aBootSector.iFATFlags, &data[pos],2);

 		pos+=2;

 		//42 TUint16 iVersionNumber

 		Mem::Copy(&aBootSector.iVersionNumber, &data[pos],2);

 		pos+=2;

 		//44 TUint32 iRootClusterNum

 		Mem::Copy(&aBootSector.iRootClusterNum, &data[pos],4);

 		pos+=4;

 		//48 TUint16 iFSInfoSectorNum

 		Mem::Copy(&aBootSector.iFSInfoSectorNum, &data[pos],2);

 		pos+=2;

 		//50 TUint16 iBkBootRecSector

 		Mem::Copy(&aBootSector.iBkBootRecSector, &data[pos],2);

 		pos+=(2+12);//extra 12 for the reserved bytes

 		}

 // 36|64	TUint8 iPhysicalDriveNumber

 	Mem::Copy(&aBootSector.iPhysicalDriveNumber,&data[pos],1);

 	pos+=1;

 // 37|65	TUint8 iReserved

 	Mem::Copy(&aBootSector.iReserved,&data[pos],1);

 	pos+=1;

 // 38|66	TUint8 iExtendedBootSignature

 	Mem::Copy(&aBootSector.iExtendedBootSignature,&data[pos],1);

 	pos+=1;

 // 39|67	TUint32 iUniqueID

 	Mem::Copy(&aBootSector.iUniqueID,&data[pos],4);

 	pos+=4;

 // 43|71	TUint8 iVolumeLabel[KVolumeLabelSize]

 	Mem::Copy(&aBootSector.iVolumeLabel,&data[pos],KVolumeLabelSize);

 	pos+=KVolumeLabelSize;

 // 54|82	TUint8 iFileSysType[KFileSysTypeSize]

 	Mem::Copy(&aBootSector.iFileSysType,&data[pos],KFileSysTypeSize);

 // 62|90

 	return(KErrNone);

 	}

 /**

 Work out if we have a FAT12|16|32 volume.

 Returns 12, 16 or 32 as appropriate.

 Returns 0 if can't be calculated (invalid values)

 */

 TInt CMassStorageMountCB::DetermineFatType(TFatBootSector& aBootSector)

 	{

 	TUint32 ressectors = aBootSector.ReservedSectors();

 	if (aBootSector.SectorsPerCluster() < 1)

 		return 0;

 	if (aBootSector.RootDirEntries() != 0)

 		{

 		TUint32 rootdirbytes;

 		rootdirbytes = aBootSector.RootDirEntries() * 32 + aBootSector.BytesPerSector() - 1;

 		ressectors += rootdirbytes / aBootSector.BytesPerSector();

 		}

 	if (aBootSector.FatSectors() != 0)

 		ressectors += aBootSector.NumberOfFats() * aBootSector.FatSectors();

 	else

 		ressectors += aBootSector.NumberOfFats() * aBootSector.FatSectors32();

 	TUint32 totalsectors;

 	if (aBootSector.TotalSectors() != 0)

 		totalsectors = aBootSector.TotalSectors();

 	else

 		totalsectors = aBootSector.HugeSectors();

 	if (ressectors < 1 || totalsectors < 1)

 		return 0;

 	TUint32 datasec;

 	datasec = totalsectors - ressectors;

 	TUint32 countofclusters;

 	countofclusters = datasec / aBootSector.SectorsPerCluster();

 	__PRINT1(_L("CFatMountCB: Count of clusters = %d\n"), countofclusters);

 	if (countofclusters < 4085)

 		{

 		return 12;

 		}

 	else if (countofclusters < 65525)

 		{

 		return 16;

 		}

 	else

 		{

 		return 32;

 		}

 	}

 TInt CMassStorageMountCB::ReMount()

 	{

 	return KErrNotReady;

 	}

 void CMassStorageMountCB::VolumeL(TVolumeInfo& /*aVolume*/) const

 	{

 	User::Leave(KErrNotReady);

 	}

 void CMassStorageMountCB::SetVolumeL(TDes& /*aName*/)

 	{

 	User::Leave(KErrNotReady);

 	}

 void CMassStorageMountCB::MkDirL(const TDesC& /*aName*/)

 	{

 	User::Leave(KErrNotReady);

 	}

 void CMassStorageMountCB::RmDirL(const TDesC& /*aName*/)

 	{

 	User::Leave(KErrNotReady);

 	}

 void CMassStorageMountCB::DeleteL(const TDesC& /*aName*/)

 	{

 	User::Leave(KErrNotReady);

 	}

 void CMassStorageMountCB::RenameL(const TDesC& /*anOldName*/,const TDesC& /*anNewName*/)

 	{

 	User::Leave(KErrNotReady);

 	}

 void CMassStorageMountCB::ReplaceL(const TDesC& /*anOldName*/,const TDesC& /*anNewName*/)

 	{

 	User::Leave(KErrNotReady);

 	}

 void CMassStorageMountCB::EntryL(const TDesC& /*aName*/,TEntry& /*anEntry*/) const

 	{

 	User::Leave(KErrNotReady);

 	}

 void CMassStorageMountCB::SetEntryL(const TDesC& /*aName*/,const TTime& /*aTime*/,TUint /*aSetAttMask*/,TUint /*aClearAttMask*/)

 	{

 	User::Leave(KErrNotReady);

 	}

 void CMassStorageMountCB::FileOpenL(const TDesC& /*aName*/,TUint /*aMode*/,TFileOpen /*anOpen*/,CFileCB* /*aFile*/)

 	{

 	User::Leave(KErrNotReady);

 	}

 void CMassStorageMountCB::DirOpenL(const TDesC& /*aName*/,CDirCB* /*aDir*/)

 	{

 	User::Leave(KErrNotReady);

 	}

 void CMassStorageMountCB::RawReadL(TInt64 /*aPos*/,TInt /*aLength*/,const TAny* /*aTrg*/,TInt /*anOffset*/,const RMessagePtr2& /*aMessage*/) const

 	{

 	User::Leave(KErrNotReady);

 	}

 void CMassStorageMountCB::RawWriteL(TInt64 /*aPos*/,TInt /*aLength*/,const TAny* /*aSrc*/,TInt /*anOffset*/,const RMessagePtr2& /*aMessage*/)

 	{

 	User::Leave(KErrNotReady);

 	}

 void CMassStorageMountCB::GetShortNameL(const TDesC& /*aLongName*/,TDes& /*aShortName*/)

 	{

 	User::Leave(KErrNotReady);

 	}

 void CMassStorageMountCB::GetLongNameL(const TDesC& /*aShorName*/,TDes& /*aLongName*/)

 	{

 	User::Leave(KErrNotReady);

 	}

 #if defined(_DEBUG)

 TInt CMassStorageMountCB::ControlIO(const RMessagePtr2& aMessage,TInt aCommand,TAny* aParam1,TAny* aParam2)

 //

 // Debug function

 //

 	{

 	if(aCommand>=(KMaxTInt/2))

 		return LocalDrive()->ControlIO(aMessage,aCommand-(KMaxTInt/2),aParam1,aParam2);

 	else

 		return KErrNotSupported;

 	}

 #else

 TInt CMassStorageMountCB::ControlIO(const RMessagePtr2& /*aMessage*/,TInt /*aCommand*/,TAny* /*aParam1*/,TAny* /*aParam2*/)

 	{return(KErrNotSupported);}

 #endif

 void CMassStorageMountCB::ReadSectionL(const TDesC& /*aName*/,TInt /*aPos*/,TAny* /*aTrg*/,TInt /*aLength*/,const RMessagePtr2& /*aMessage*/)

 	{

 	User::Leave(KErrNotReady);

 	}