// Copyright (c) 2008-2009 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\fat_config.inl
// FAT fsy configurator
//
//
/**
@file
@internalTechnology
*/
//!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
//!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
//!!
//!! WARNING!! DO NOT edit this file !! '\sfat' component is obsolete and is not being used. '\sfat32'replaces it
//!!
//!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
//!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
#ifndef FAT_CONFIGURATOR_INL
#define FAT_CONFIGURATOR_INL
//-----------------------------------------------------------------------------
/**
Meaning of this parameter:
if not 0, ScanDrive will not run on finalised FAT volume, i.e. that has "CleanShutdown" flag set in FAT[1] by
proper finalisation.
See CFatMountCB::ScanDrive().
*/
TBool TFatConfig::ScanDrvSkipFinalisedVolume() const
{
ASSERT(iInitialised);
return iScanDrvSkipFinalisedVolume;
}
//-----------------------------------------------------------------------------
/**
Meaning of this parameter:
if not 0, enables asynchronous mounting of the FAT32 volumes.
In particular background FAT32 scan for free clusters. See CAtaFatTable::CountFreeClustersL().
*/
TBool TFatConfig::FAT32_AsynchMount() const
{
ASSERT(iInitialised);
return iFAT32_AsynchMount;
}
//-----------------------------------------------------------------------------
/**
Meaning of this parameter:
if not 0, enables using FSInfo sector data during FAT32 volumes mounting to determine number of free clusters etc.
*/
TBool TFatConfig::FAT32_UseFSInfoOnMount() const
{
ASSERT(iInitialised);
return iFAT32_UseFSInfoOnMount;
}
//-----------------------------------------------------------------------------
/**
Meaning of this parameter:
if not 0, enables using FAT32 bit supercache that makes free FAT entries lookup faster
*/
TBool TFatConfig::FAT32_UseBitSupercache() const
{
ASSERT(iInitialised);
return iFAT32_UseBitSupercache;
}
//-----------------------------------------------------------------------------
/**
Meaning of this parameter:
Overall FAT directory cache size in bytes
*/
TUint32 TFatConfig::DirCacheSize() const
{
ASSERT(iInitialised);
return iDirCacheSizeKB * K1KiloByte;
}
//-----------------------------------------------------------------------------
/**
Meaning of this parameter:
Log2 of the maximal size of the dir. cache page in bytes. (Minimal size will be current cluster size)
*/
TUint32 TFatConfig::DirCacheMaxPageSizeLog2() const
{
ASSERT(iInitialised);
return iDirCacheMaxPageSizeLog2;
}
/**
Get FAT16 fixed cache parameters
@param aRdGrLog2 Log2(read granularity)
@param aWrGrLog2 Log2(write granularity)
*/
void TFatConfig::Fat16FixedCacheParams(TUint32& aRdGrLog2, TUint32& aWrGrLog2) const
{
ASSERT(iInitialised);
aRdGrLog2 = iFat16FixedCacheReadGrLog2;
aWrGrLog2 = iFat16FixedCacheWriteGrLog2;
}
/**
Get FAT32 LRU cache parameters
@param aRdGrLog2 Log2(read granularity)
@param aWrGrLog2 Log2(write granularity)
@param aCacheSize maximal cache size, bytes
*/
void TFatConfig::Fat32LruCacheParams(TUint32& aRdGrLog2, TUint32& aWrGrLog2, TUint32& aCacheSize) const
{
ASSERT(iInitialised);
aRdGrLog2 = iFat32LRUCacheReadGrLog2;
aWrGrLog2 = iFat32LRUCacheWriteGrLog2;
aCacheSize = iFat32LRUCacheSizeKB * K1KiloByte;
}
/**
Meaning of this parameter:
if not 0, "clean shutdown mask" bit in FAT16[1] will be used during volume finalisation.
Otherwise, FAT16[1] will not be affected during finalisation
*/
TBool TFatConfig::FAT16_UseCleanShutDownBit() const
{
ASSERT(iInitialised);
return iFAT16_UseCleanShutDownBit;
}
//-----------------------------------------------------------------------------
/**
Get leaf dir cache size
@return leaf dir cache size
*/
TUint32 TFatConfig::LeafDirCacheSize() const
{
ASSERT(iInitialised);
return iLeafDirCacheSize;
}
/**
get the minimum cache size setting for dynamic dir cache
@return minimum cache size in bytes
*/
TUint32 TFatConfig::DynamicDirCacheSizeMin() const
{
ASSERT(iInitialised);
ASSERT(iDynamicDirCacheSizeMinKB < (KMaxTUint32 >> K1KiloByteLog2)); //check data overflow
return iDynamicDirCacheSizeMinKB << K1KiloByteLog2;
}
/**
get the maximum cache size setting for dynamic dir cache
@return maximum cache size in bytes
*/
TUint32 TFatConfig::DynamicDirCacheSizeMax() const
{
ASSERT(iInitialised);
ASSERT(iDynamicDirCacheSizeMaxKB < (KMaxTUint32 >> K1KiloByteLog2)); //check data overflow
return iDynamicDirCacheSizeMaxKB << K1KiloByteLog2;
}
/**
retrieve the size of the maximal size of the dynamic dir cache page in log2.
(Minimal size will be current cluster size)
@return maximum page size in bytes in log2
*/
TUint32 TFatConfig::DynamicDirCacheMaxPageSizeLog2() const
{
ASSERT(iInitialised);
return iDynamicDirCacheMaxPageSizeLog2;
}
#endif //FAT_CONFIGURATOR_INL