// 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\fat_config.cpp
// Implementation of the class that reads FAT filesystem configuration parameters from the estart.txt file,
// caches and provides access to them
//
//
/**
@file
*/
//!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
//!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
//!!
//!! WARNING!! DO NOT edit this file !! '\sfat' component is obsolete and is not being used. '\sfat32'replaces it
//!!
//!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
//!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
#include <f32fsys.h>
#include "common_constants.h"
#include "sl_std.h"
#include "fat_config.h"
//########################################################################################################################
//-- parameters that can be defined in estart.txt file under [Drive%] section
//=======================================================================================================================
//-- FAT volumes mounting related settings
//=======================================================================================================================
//-- if this parameter is not 0, ScanDrive will skip finalised volume. Applicable for FAT16/32
//-- e.g: FAT_ScanDrv_SkipFinalisedVolume 1
_LIT8(KPN_ScanDrvSkipFinalisedVolume,"FAT_ScanDrv_SkipFinalisedVolume"); //-- parameter key name
static const TUint32 KDef_ScanDrvSkipFinalisedVolume = 0; //-- parameter default value
//-- if this parameter is not 0, enables asynchronous mounting FAT32 volumes.
//-- At present it means enabling/disabling FAT32 background scanning for free clusters. Applicable for FAT32 only
//-- e.g: FAT_FAT32_AsynchMount=0
_LIT8(KPN_FAT32_AsynchMount, "FAT_FAT32_AsynchMount");
static const TUint32 KDef_FAT32_AsynchMount = 1;
//-- Using FSInfo sector data during FAT32 mount to find out number of free clusters etc.
//-- e.g: FAT_FAT32_UseFsInfo=1
_LIT8(KPN_FAT32_UseFsInfoOnMount, "FAT_FAT32_UseFsInfo");
static const TUint32 KDef_FAT32_UseFsInfoOnMount = 1;
//-- Using FAT bit supercache for fast free cluster lookup
//-- e.g: FAT_FAT32_UseBitSupercache 0
_LIT8(KPN_FAT32_UseFatBitSupercache, "FAT_FAT32_UseBitSupercache");
static const TUint32 KDef_FAT32_UseFatBitSupercache = 1;
//-- if this parameter is not 0, "clean shutdown mask" bit in FAT16[1] will be used during volume finalisation.
//-- Otherwise, FAT16[1] will not be affected during finalisation
//-- e.g: KDef_FAT16_UseCleanShutDownBit 0
_LIT8(KPN_FAT16_UseCleanShutDownBit,"FAT16_UseCleanShutDownBit"); //-- parameter key name
static const TUint32 KDef_FAT16_UseCleanShutDownBit = 1; //-- parameter default value
//=======================================================================================================================
//-- FAT directory cache settings
//=======================================================================================================================
//-- FAT_DirCache <CacheSizeKB>,<Log2(max page size)>
//-- e.g: FAT_DirCache 16,12
_LIT8(KPN_FAT_DirCache, "FAT_DirCache");
static const TUint32 KDef_KDirCacheSizeKB = 16; //-- default value for the total directory cache size, kilobytes. 16K by default
static const TUint32 KDef_MaxDirCachePageSzLog2 = 12;//-- default value for directory cache single page maximal size Log2, 2^12 (4K) by default
//=======================================================================================================================
//-- FAT cache settings
//=======================================================================================================================
//-- Fat16 fixed cache
//-- FAT_FAT16FixedCache <Log2(read granularity)>,<Log2(Write granularity)>
//-- e.g: FAT_FAT16FixedCache 12,9
_LIT8(KPN_FAT_FAT16FixedCache, "FAT_FAT16FixedCache");
static const TUint32 KDef_FAT16_FixedCache_Read_Granularity_LOG2 = 12; //-- read granularity Log2, 4K
static const TUint32 KDef_FAT16_FixedCache_Write_Granularity_LOG2 = 9; //-- write granularity Log2, 512 bytes
//-- Fat32 LRU cache
//-- FAT_FAT32LruCache <Size KB>,<Log2(read granularity)>,<Log2(Write granularity)>
//-- e.g: FAT_FAT32LruCache 128,12,9
_LIT8(KPN_FAT_FAT32LruCache, "FAT_FAT32LruCache");
static const TUint32 KDef_FAT32_LruCache_SizeKB = 128; //-- LRU cache size, 128KB
static const TUint32 KDef_FAT32_LruCache_Read_Granularity_LOG2 = 12; //-- read granularity Log2, 4K
static const TUint32 KDef_FAT32_LruCache_Write_Granularity_LOG2 = 9; //-- write granularity Log2, 512 bytes
//=======================================================================================================================
//-- FAT leaf directory cache settings
//=======================================================================================================================
//-- A leaf directory cache for Fat volumes
_LIT8(KPN_FAT_LeafDirCache, "FAT_LeafDirCacheSize");
static const TUint32 KDef_KLeafDirCacheSize = 1; //-- default number of the most recently visited leaf dirs to be cached
//=======================================================================================================================
//-- New directory cache settings
//=======================================================================================================================
//-- New directory cache uses the global cache memory manager for dynamic size allocation
_LIT8(KPN_FAT_DynamicDirCacheMin, "FAT_DirCacheSizeMin");
_LIT8(KPN_FAT_DynamicDirCacheMax, "FAT_DirCacheSizeMax");
static const TUint32 KDef_DynamicDirCacheMin = 128; // default minimum fat dir cache size in KB
static const TUint32 KDef_DynamicDirCacheMax = 128; // default maximum fat dir cache size in KB
//-- default value for directory cache single page maximal size Log2, 2^14 (16K) by default
static const TUint32 KDef_MaxDynamicDirCachePageSzLog2 = 14;
//########################################################################################################################
//-----------------------------------------------------------------------------
/**
Extract a token from the comma-separated tokens string.
@param aSrc source string descriptor
@param aTokenNo token number to extract (the 1st token is number 0)
@param aToken on success there will be extracted token
@return ETrue on success and an extracted token in aToken
*/
static TBool GetCSV_Token(const TDesC8& aSrc, TUint aTokenNo, TPtrC8& aToken)
{
const TChar chDelim = ','; //-- token delimiter, comma
TInt nRes;
//-- 1. find the beginning of the token we are looking for
TPtrC8 ptrCurrToken(aSrc);
for(TUint i=0; i<aTokenNo; ++i)
{
const TInt len = ptrCurrToken.Length();
nRes = ptrCurrToken.Locate(chDelim);
if(nRes == KErrNotFound)
return EFalse; //-- did tot find the required token
ptrCurrToken.Set(ptrCurrToken.Right(len-nRes-1));
}
//-- 2. set the end position of the token we found
aToken.Set(ptrCurrToken);
nRes = ptrCurrToken.Locate(chDelim);
if(nRes != KErrNotFound)
{
aToken.Set(ptrCurrToken.Left(nRes));
}
return ETrue;
}
//-----------------------------------------------------------------------------
/**
Extract a token from the comma-separated tokens string and try to convert it into TInt
@param aSrc source string descriptor
@param aTokenNo token number to extract (the 1st token is number 0)
@param aVal On success will contain the value represented by the token
@return ETrue if the token is extracted and converted to TInt OK, in this case aVal contains value
*/
static TBool GetIntTokenVal(const TDesC8& aSrc, TUint aTokenNo, TInt& aVal)
{
TPtrC8 ptrToken;
TLex8 lex;
TInt val;
if(!GetCSV_Token(aSrc, aTokenNo, ptrToken))
return EFalse;
lex.Assign(ptrToken);
lex.SkipSpace();
if(lex.Val(val) != KErrNone)
return EFalse;
aVal = val;
return ETrue;
}
static TBool GetIntTokenVal(const TDesC8& aSrc, TUint aTokenNo, TUint16& aVal)
{
TInt val;
if(!GetIntTokenVal(aSrc, aTokenNo, val))
return EFalse;
aVal = (TUint16)val;
return ETrue;
}
//-----------------------------------------------------------------------------
TFatConfig::TFatConfig()
{
iInitialised = EFalse;
}
//-----------------------------------------------------------------------------
/**
reads FAT parameters from estart.txt file.
@param aDrvNumber a valid drive number
@param aForceRead if ETrue parameters will be forcedly re-read.
*/
void TFatConfig::ReadConfig(TInt aDrvNumber, TBool aForceRead /*=EFalse*/)
{
if(aForceRead)
iInitialised = EFalse;
if(iInitialised)
return;
//__PRINT1(_L("#>- TFatConfig::ReadConfig() drive:%d\n"),aDrvNumber);
ASSERT(aDrvNumber >= EDriveA && aDrvNumber <= EDriveZ);
//-- make a section name, like "DriveX"
TBuf8<32> section;
section.Format(_L8("Drive%c"), 'A'+aDrvNumber);
//-- read values from estart.txt and cache them
iScanDrvSkipFinalisedVolume = ReadUint(section, KPN_ScanDrvSkipFinalisedVolume, KDef_ScanDrvSkipFinalisedVolume);
iFAT32_AsynchMount = ReadUint(section, KPN_FAT32_AsynchMount, KDef_FAT32_AsynchMount);
iFAT32_UseFSInfoOnMount = ReadUint(section, KPN_FAT32_UseFsInfoOnMount, KDef_FAT32_UseFsInfoOnMount);
iFAT32_UseBitSupercache = ReadUint(section, KPN_FAT32_UseFatBitSupercache, KDef_FAT32_UseFatBitSupercache);
iFAT16_UseCleanShutDownBit = ReadUint(section, KPN_FAT16_UseCleanShutDownBit, KDef_FAT16_UseCleanShutDownBit);
// If leaf dir cache is supported, read the configuration from estart.txt file
iLeafDirCacheSize = ReadUint(section, KPN_FAT_LeafDirCache, KDef_KLeafDirCacheSize);
ProcessDynamicDirCacheParams(section); //-- read dynamic dir cache parameters;
ProcessDirCacheParams(section); //-- read FAT directory cache parameters
ProcessFatCacheParams(section); //-- read FAT cache parameters
iInitialised = ETrue;
DumpParameters(); //-- print out parameters in debug mode
}
//-----------------------------------------------------------------------------
/**
process dynamic directory cache parameters
@param aSection section name, like "DriveX"
*/
void TFatConfig::ProcessDynamicDirCacheParams(const TDesC8& aSection)
{
// we have to process the data in this file as the default values are all static variables, which means
// their scope is limited within this file only.
iDynamicDirCacheMaxPageSizeLog2 = KDef_MaxDynamicDirCachePageSzLog2;
iDynamicDirCacheSizeMinKB = ReadUint(aSection, KPN_FAT_DynamicDirCacheMin, KDef_DynamicDirCacheMin);
iDynamicDirCacheSizeMaxKB = ReadUint(aSection, KPN_FAT_DynamicDirCacheMax, KDef_DynamicDirCacheMax);
// if less than default values, set to default values
if (iDynamicDirCacheSizeMinKB < KDef_DynamicDirCacheMin)
iDynamicDirCacheSizeMinKB = KDef_DynamicDirCacheMin;
if (iDynamicDirCacheSizeMaxKB < KDef_DynamicDirCacheMax)
iDynamicDirCacheSizeMaxKB = KDef_DynamicDirCacheMax;
// validate settings for those values that the default values does not apply onto them
__ASSERT_ALWAYS(iDynamicDirCacheSizeMinKB <= iDynamicDirCacheSizeMaxKB, Fault(EFatBadParameter));
}
/**
process directory cache parameters
@param aSection section name, like "DriveX"
*/
void TFatConfig::ProcessDirCacheParams(const TDesC8& aSection)
{
TBuf8<128> buf;
//-- set default values.
iDirCacheSizeKB = KDef_KDirCacheSizeKB;
iDirCacheMaxPageSizeLog2 = KDef_MaxDirCachePageSzLog2;
//-- read a string containing DirCache parameters
//-- it looks like this: FAT_DirCache cacheSzKB, maxPageSzBytes
if(!F32Properties::GetString(aSection, KPN_FAT_DirCache, buf))
return;
GetIntTokenVal(buf, 0, iDirCacheSizeKB); //-- 1. extract directory cache size in KB. this is token 0
GetIntTokenVal(buf, 1, iDirCacheMaxPageSizeLog2); //-- 2. extract directory cache max page size in bytes Log2. this is token 1
}
//-----------------------------------------------------------------------------
/**
process fat cache parameters
@param aSection section name, like "DriveX"
*/
void TFatConfig::ProcessFatCacheParams(const TDesC8& aSection)
{
TBuf8<128> buf;
//-- set default values.
iFat16FixedCacheReadGrLog2 = KDef_FAT16_FixedCache_Read_Granularity_LOG2;
iFat16FixedCacheWriteGrLog2 = KDef_FAT16_FixedCache_Write_Granularity_LOG2;
iFat32LRUCacheSizeKB = KDef_FAT32_LruCache_SizeKB;
iFat32LRUCacheReadGrLog2 = KDef_FAT32_LruCache_Read_Granularity_LOG2;
iFat32LRUCacheWriteGrLog2 = KDef_FAT32_LruCache_Write_Granularity_LOG2;
//-- read a string containing FAT16 fixed cache parameters
if(F32Properties::GetString(aSection, KPN_FAT_FAT16FixedCache, buf))
{
GetIntTokenVal(buf, 0, iFat16FixedCacheReadGrLog2); //-- 1. extract Log2(FAT16 fixed cache read granularity)
GetIntTokenVal(buf, 1, iFat16FixedCacheWriteGrLog2); //-- 2. extract Log2(FAT16 fixed cache write granularity)
}
//-- read a string containing FAT32 LRU cache parameters
if(F32Properties::GetString(aSection, KPN_FAT_FAT32LruCache, buf))
{
GetIntTokenVal(buf, 0, iFat32LRUCacheSizeKB); //-- 1. extract FAT32 LRU cache size, Kbytes
GetIntTokenVal(buf, 1, iFat32LRUCacheReadGrLog2); //-- 2. extract Log2(FAT32 LRU cache read granularity)
GetIntTokenVal(buf, 2, iFat32LRUCacheWriteGrLog2); //-- 3. extract Log2(FAT32 LRU cache write granularity)
}
}
//-----------------------------------------------------------------------------
/**
Just a helper method. Reads TUint32 value from the estart.txt
@param aSection section name, e.g. [DriveD]
@param aKeyName Key name
@param aDefaultValue Default value to return in parameter isn't found
@return a value from config file or default aDefaultValue
*/
TUint32 TFatConfig::ReadUint(const TDesC8& aSection, const TDesC8& aKeyName, TUint32 aDefaultValue) const
{
TInt32 val = aDefaultValue;
// coverity[check_return] coverity[unchecked_value]
F32Properties::GetInt(aSection, aKeyName, val);
return val;
}
//-----------------------------------------------------------------------------
/** Debug method, prints out the parameters*/
void TFatConfig::DumpParameters() const
{
#ifdef _DEBUG
ASSERT(iInitialised);
__PRINT(_L("#>- TFatConfig parameters:\n"));
DoDumpUintParam(KPN_ScanDrvSkipFinalisedVolume, iScanDrvSkipFinalisedVolume);
DoDumpUintParam(KPN_FAT32_AsynchMount, iFAT32_AsynchMount);
DoDumpUintParam(KPN_FAT32_UseFsInfoOnMount, iFAT32_UseFSInfoOnMount);
DoDumpUintParam(KPN_FAT32_UseFatBitSupercache, iFAT32_UseBitSupercache);
DoDumpUintParam(KPN_FAT16_UseCleanShutDownBit, iFAT16_UseCleanShutDownBit);
DoDumpUintParam(_L8("FAT_DirCache Size, KB"), iDirCacheSizeKB);
DoDumpUintParam(_L8("FAT_DirCache MaxPage Size Log2"), iDirCacheMaxPageSizeLog2);
DoDumpUintParam(_L8("FAT_16Cache RdGr Log2"), iFat16FixedCacheReadGrLog2);
DoDumpUintParam(_L8("FAT_16Cache WrGr Log2"), iFat16FixedCacheWriteGrLog2);
DoDumpUintParam(_L8("FAT_32Cache Size, KB"), iFat32LRUCacheSizeKB);
DoDumpUintParam(_L8("FAT_32Cache RdGr Log2"), iFat32LRUCacheReadGrLog2);
DoDumpUintParam(_L8("FAT_32Cache WrGr Log2"), iFat32LRUCacheWriteGrLog2);
__PRINT(_L("#>------ end -------<#\n\n"));
#endif
}
void TFatConfig::DoDumpUintParam(const TDesC8& aKeyName, TUint32 aParam) const
{
#ifdef _DEBUG
TBuf<100> buf;
buf.Copy(aKeyName);
buf.Insert(0,_L("#>- "));
buf.AppendFormat(_L(": %d"), aParam);
__PRINT(buf);
#else
(void)aKeyName; (void)aParam; //-- get rid of warning
#endif
}