diff -r 000000000000 -r bde4ae8d615e os/kernelhwsrv/userlibandfileserver/fileserver/sfat/sl_bpb.cpp --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/os/kernelhwsrv/userlibandfileserver/fileserver/sfat/sl_bpb.cpp Fri Jun 15 03:10:57 2012 +0200 @@ -0,0 +1,314 @@ +// 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\sfat\sl_bpb.cpp +// Boot sector code, specific for EFat.fsy +// +// + + +/** + @file + @internalTechnology +*/ + + +//!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! +//!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! +//!! +//!! WARNING!! DO NOT edit this file !! '\sfat' component is obsolete and is not being used. '\sfat32'replaces it +//!! +//!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! +//!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! + +#include "sl_std.h" + +//------------------------------------------------------------------------------------------------------------------- + +TFatBootSector::TFatBootSector() + { + Initialise(); + } + +/** initialises the boot sector data */ +void TFatBootSector::Initialise() + { + Mem::FillZ(this, sizeof(TFatBootSector)); + } + +//------------------------------------------------------------------------------------------------------------------- + +/** + @return ETrue if the boot sector contents seems to be valid +*/ +TBool TFatBootSector::IsValid() const + { + const TFatType fatType = FatType(); + + + const TUint32 totSectors = Max(TotalSectors(), HugeSectors()); + const TUint32 rootDirStartSec = ReservedSectors() + FatSectors()*NumberOfFats(); //-- root directory start sector + + if(fatType == EInvalid || ReservedSectors() < 1 || NumberOfFats() < 1 || FatSectors() < 1 || rootDirStartSec < 3 || + RootDirEntries() < 1 || totSectors < 5) + goto Invalid; + + if(TotalSectors() >0 && HugeSectors() >0 ) + goto Invalid; //-- values clash + + return ETrue; + + Invalid: + __PRINT(_L("TFatBootSector::IsValid() failed!")); + + return EFalse; + } + +//------------------------------------------------------------------------------------------------------------------- + +/** + Initialize boot sector object from the given bufer. Does not validate the data. + @param aBuf buffer with data. +*/ +void TFatBootSector::Internalize(const TDesC8& aBuf) + { + ASSERT(aBuf.Size() >= KSizeOfFatBootSector); + + Initialise(); + + TInt pos=0; + + Mem::Copy(&iJumpInstruction, &aBuf[pos],3); pos+=3; // 0 TUint8 iJumpInstruction[3] + Mem::Copy(&iVendorId,&aBuf[pos],KVendorIdSize); pos+=KVendorIdSize; // 3 TUint8 iVendorId[KVendorIdSize] + Mem::Copy(&iBytesPerSector,&aBuf[pos],2); pos+=2; // 11 TUint16 iBytesPerSector + Mem::Copy(&iSectorsPerCluster,&aBuf[pos],1); pos+=1; // 13 TUint8 iSectorsPerCluster + Mem::Copy(&iReservedSectors,&aBuf[pos],2); pos+=2; // 14 TUint16 iReservedSectors + Mem::Copy(&iNumberOfFats,&aBuf[pos],1); pos+=1; // 16 TUint8 iNumberOfFats + Mem::Copy(&iRootDirEntries,&aBuf[pos],2); pos+=2; // 17 TUint16 iRootDirEntries + Mem::Copy(&iTotalSectors,&aBuf[pos],2); pos+=2; // 19 TUint16 iTotalSectors + Mem::Copy(&iMediaDescriptor,&aBuf[pos],1); pos+=1; // 21 TUint8 iMediaDescriptor + Mem::Copy(&iFatSectors,&aBuf[pos],2); pos+=2; // 22 TUint16 iFatSectors + Mem::Copy(&iSectorsPerTrack,&aBuf[pos],2); pos+=2; // 24 TUint16 iSectorsPerTrack + Mem::Copy(&iNumberOfHeads,&aBuf[pos],2); pos+=2; // 26 TUint16 iNumberOfHeads + Mem::Copy(&iHiddenSectors,&aBuf[pos],4); pos+=4; // 28 TUint32 iHiddenSectors + Mem::Copy(&iHugeSectors,&aBuf[pos],4); pos+=4; // 32 TUint32 iHugeSectors + Mem::Copy(&iPhysicalDriveNumber,&aBuf[pos],1); pos+=1;// 36|64 TUint8 iPhysicalDriveNumber + Mem::Copy(&iReserved,&aBuf[pos],1); pos+=1;// 37|65 TUint8 iReserved + Mem::Copy(&iExtendedBootSignature,&aBuf[pos],1);pos+=1;// 38|66 TUint8 iExtendedBootSignature + Mem::Copy(&iUniqueID,&aBuf[pos],4); pos+=4;// 39|67 TUint32 iUniqueID + Mem::Copy(&iVolumeLabel,&aBuf[pos],KVolumeLabelSize); // 43|71 TUint8 iVolumeLabel[KVolumeLabelSize] + pos+=KVolumeLabelSize; + + // 54|82 TUint8 iFileSysType[KFileSysTypeSize] + ASSERT(aBuf.Size() >= pos+KFileSysTypeSize); + Mem::Copy(&iFileSysType,&aBuf[pos],KFileSysTypeSize); + } + +//------------------------------------------------------------------------------------------------------------------- + +/** + Externalize boot sector object to the given data buffer. + @param aBuf buffer to externalize. +*/ +void TFatBootSector::Externalize(TDes8& aBuf) const + { + ASSERT(aBuf.MaxSize() >= KSizeOfFatBootSector); + + if(aBuf.Size() < KSizeOfFatBootSector) + aBuf.SetLength(KSizeOfFatBootSector); + + TInt pos=0; + + Mem::Copy(&aBuf[pos],&iJumpInstruction,3); pos+=3; + Mem::Copy(&aBuf[pos],&iVendorId,KVendorIdSize); pos+=8; + Mem::Copy(&aBuf[pos],&iBytesPerSector,2); pos+=2; + Mem::Copy(&aBuf[pos],&iSectorsPerCluster,1); pos+=1; + Mem::Copy(&aBuf[pos],&iReservedSectors,2); pos+=2; + Mem::Copy(&aBuf[pos],&iNumberOfFats,1); pos+=1; + Mem::Copy(&aBuf[pos],&iRootDirEntries,2); pos+=2; + Mem::Copy(&aBuf[pos],&iTotalSectors,2); pos+=2; + Mem::Copy(&aBuf[pos],&iMediaDescriptor,1); pos+=1; + Mem::Copy(&aBuf[pos],&iFatSectors,2); pos+=2; + Mem::Copy(&aBuf[pos],&iSectorsPerTrack,2); pos+=2; + Mem::Copy(&aBuf[pos],&iNumberOfHeads,2); pos+=2; + Mem::Copy(&aBuf[pos],&iHiddenSectors,4); pos+=4; + Mem::Copy(&aBuf[pos],&iHugeSectors,4); pos+=4; + Mem::Copy(&aBuf[pos],&iPhysicalDriveNumber,1); pos+=1; + Mem::FillZ(&aBuf[pos],1); pos+=1; + Mem::Copy(&aBuf[pos],&iExtendedBootSignature,1);pos+=1; + Mem::Copy(&aBuf[pos],&iUniqueID,4); pos+=4; + + Mem::Copy(&aBuf[pos],&iVolumeLabel,KVolumeLabelSize); + pos+=KVolumeLabelSize; + + ASSERT(aBuf.MaxSize() >= pos+KFileSysTypeSize); + Mem::Copy(&aBuf[pos],&iFileSysType,KFileSysTypeSize); + } + +//------------------------------------------------------------------------------------------------------------------- + +#ifdef _DEBUG +/** replaces all non-printable characters in a buffer with spaces */ +static void FixDes(TDes& aDes) +{ + for(TInt i=0; i< aDes.Length(); ++i) + { + TChar ch=aDes[i]; + if(!ch.IsPrint()) + aDes[i]=' '; + } +} +#endif + +/** + Print out the boot sector info. +*/ +void TFatBootSector::PrintDebugInfo() const + { +#ifdef _DEBUG + __PRINT(_L("\n======== BootSector info: =======\n")); + + TBuf<40> buf; + buf.Copy(FileSysType()); FixDes(buf); + __PRINT1(_L("FAT type:%S"), &buf); + + buf.Copy(VendorId()); FixDes(buf); + __PRINT1(_L("Vendor ID:%S"), &buf); + + __PRINT1(_L("BytesPerSector:%d"),BytesPerSector()); + __PRINT1(_L("SectorsPerCluster:%d"),SectorsPerCluster()); + __PRINT1(_L("ReservedSectors:%d"),ReservedSectors()); + __PRINT1(_L("NumberOfFats:%d"),NumberOfFats()); + __PRINT1(_L("RootDirEntries:%d"),RootDirEntries()); + __PRINT1(_L("Total Sectors:%d"),TotalSectors()); + __PRINT1(_L("MediaDescriptor:0x%x"),MediaDescriptor()); + __PRINT1(_L("FatSectors:%d"),FatSectors()); + __PRINT1(_L("SectorsPerTrack:%d"),SectorsPerTrack()); + __PRINT1(_L("NumberOfHeads:%d"),NumberOfHeads()); + __PRINT1(_L("HugeSectors:%d"),HugeSectors()); + __PRINT1(_L("Root Cluster Number:%d"),RootClusterNum()); + __PRINT1(_L("FSInfo Sector Number:%d"),FSInfoSectorNum()); + __PRINT1(_L("Backup Boot Rec Sector Number:%d"),BkBootRecSector()); + __PRINT1(_L("PhysicalDriveNumber:%d"),PhysicalDriveNumber()); + __PRINT1(_L("ExtendedBootSignature:%d"),ExtendedBootSignature()); + __PRINT1(_L("UniqueID:0x%x"),UniqueID()); + + buf.Copy(VolumeLabel()); FixDes(buf); + __PRINT1(_L("VolumeLabel:%S"), &buf); + + __PRINT(_L("=============================\n")); +#endif + + } + +//------------------------------------------------------------------------------------------------------------------- + +/** + Determine FAT type according to the information from boot sector, see FAT32 specs. + @return FAT type. +*/ +TFatType TFatBootSector::FatType(void) const + { + //-- check iBytesPerSector validity; it shall be one of: 512,1024,2048,4096 + if(!IsPowerOf2(iBytesPerSector) || iBytesPerSector < 512 || iBytesPerSector > 4096) + return EInvalid; //-- invalid iBytesPerSector value + + //-- check iSectorsPerCluster validity, it shall be one of: 1,2,4,8...128 + if(!IsPowerOf2(iSectorsPerCluster) || iSectorsPerCluster > 128) + return EInvalid; //-- invalid iSectorsPerCluster value + + + const TUint32 rootDirSectors = (iRootDirEntries*KSizeOfFatDirEntry + (iBytesPerSector-1)) / iBytesPerSector; + const TUint32 totSec = iTotalSectors ? iTotalSectors : iHugeSectors; + const TUint32 dataSec = totSec - (iReservedSectors + (iNumberOfFats * iFatSectors) + rootDirSectors); + const TUint32 clusterCnt = dataSec / iSectorsPerCluster; + + //-- magic. see FAT specs for details. + if(clusterCnt < 4085) + return EFat12; + else if(clusterCnt < 65525) + return EFat16; + else + return EInvalid; //-- FAT32 is not supported by this fsy + } + +//------------------------------------------------------------------------------------------------------------------- + +/** @return The first Fat sector number */ +TInt TFatBootSector::FirstFatSector() const + { + __ASSERT_DEBUG(IsValid(), Fault(EFatBadBootSectorParameter)); + return ReservedSectors(); + } + +/** + @return Number of sectors in root directory. 0 for FAT32 +*/ +TUint32 TFatBootSector::RootDirSectors() const + { + __ASSERT_DEBUG(IsValid(), Fault(EFatBadBootSectorParameter)); + return ( (RootDirEntries()*KSizeOfFatDirEntry + (BytesPerSector()-1)) / BytesPerSector() ); + } + + +/** @return Start sector number of the root directory */ +TInt TFatBootSector::RootDirStartSector() const + { + __ASSERT_DEBUG(IsValid(), Fault(EFatBadBootSectorParameter)); + + //-- FAT12/16 root dir starts just after the FATs + return ReservedSectors() + TotalFatSectors()*NumberOfFats(); + } + + +/** @return first data sector number. for FAT32 it includes the root directory */ +TInt TFatBootSector::FirstDataSector() const + { + return( ReservedSectors() + NumberOfFats()*TotalFatSectors() + RootDirSectors() ); + } + +/** @return FAT-type independent sector count on the volume */ +TUint32 TFatBootSector::VolumeTotalSectorNumber() const + { + __ASSERT_DEBUG(IsValid(), Fault(EFatBadBootSectorParameter)); + return TotalSectors() >0 ? (TUint32)TotalSectors() : (TUint32)HugeSectors(); + } + +/** @return FAT-type independent number of sectors in one FAT */ +TUint32 TFatBootSector::TotalFatSectors() const + { + __ASSERT_DEBUG(IsValid(), Fault(EFatBadBootSectorParameter)); + return (TUint32)FatSectors(); + } + + + + + + + + + + + + + + + + + + + + + +