// 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\sl_dir_cache.cpp
//
//
#include "sl_std.h"
#include "sl_dir_cache.h"
//======================================================================
TDynamicDirCachePage::~TDynamicDirCachePage()
{
}
/**
The static cache page creation function.
Cache page objects are not supposed to be created on the stack, so this factory function is required.
*/
TDynamicDirCachePage* TDynamicDirCachePage::NewL(CDynamicDirCache* aOwnerCache, TInt64 aStartMedPos, TUint8* aStartRamAddr)
{
return new(ELeave) TDynamicDirCachePage(aOwnerCache, aStartMedPos, aStartRamAddr);
}
/**
Cache page constructor.
@param aOwnerCache pointer of the cache that owns this page
@param aStartMedPos the start address on the media that this page caches
@param aStartRamAddr the start address in the ram that this page content lives
*/
TDynamicDirCachePage::TDynamicDirCachePage(CDynamicDirCache* aOwnerCache, TInt64 aStartMedPos, TUint8* aStartRamAddr)
:iStartMedPos(aStartMedPos),
iStartRamAddr(aStartRamAddr),
iOwnerCache(aOwnerCache),
iValid(EFalse),
iLocked(EFalse)
{
//__PRINT3(_L("TDynamicDirCachePage::TDynamicDirCachePage(aStartMedPos=%lx, aStartRamAddr=0x%X, aPageSize=%u)"), aStartMedPos, aStartRamAddr, PageSizeInBytes());
iType = EUnknown;
}
/////////////////////////////// class CDynamicDirCache::TLookupEntry ///////////////////////////
/**
Required by RHashSet<TLookupEntry> to identify individual hash set entries.
@see RHashSet
*/
TBool IdentityFunction(const TLookupEntry& aEntry1, const TLookupEntry& aEntry2)
{
// only check starting med pos for hash searching
return aEntry1.iPos == aEntry2.iPos;
}
/**
Required by RHashSet<TLookupEntry> to generate hash value.
@see RHashSet
*/
TUint32 HashFunction(const TLookupEntry& aEntry)
{
return (DefaultHash::Integer(I64HIGH(aEntry.iPos)) + DefaultHash::Integer(I64LOW(aEntry.iPos)));
}
/////////////////////////////// class CDynamicDirCache ///////////////////////////
CDynamicDirCache::~CDynamicDirCache()
{
__PRINT(_L("CDynamicDirCache::~CDynamicDirCache()"));
// we should never decommit locked pages
while (!iLockedQ.IsEmpty())
{
TDynamicDirCachePage* page = iLockedQ.Last();
DeQueue(page); // remove from queue
LookupTblRemove(page->StartPos()); // remove from lookuptable
delete page;
}
ASSERT(iLockedQCount == 0);
while (!iUnlockedQ.IsEmpty())
{
TDynamicDirCachePage* page = iUnlockedQ.Last();
DeQueue(page); // remove from queue
LookupTblRemove(page->StartPos()); // remove from lookuptable
DecommitPage(page); // inform cache client to decommit page memory
delete page;
}
ASSERT(iUnlockedQCount == 0);
ASSERT(iLookupTable.Count() == 0);
iLookupTable.Close();
if (iCacheMemoryClient)
iCacheMemoryClient->Reset();
}
/**
Constructor of CDynamicDirCache.
@param aDrive local drive interface to read/write media
@param aMinPageNum the minimum page number for the cache, includes iActive page and locked pages.
@param aMaxPageNum the maximum page number for the cache, includes iActive page, locked pages and unlocked pages.
@param aPageSizeInBytesLog2 Log2 of the page size in bytes, this is the cache read granularity
@param aWrGranularityLog2 Log2(cache write granularity)
*/
CDynamicDirCache::CDynamicDirCache(TDriveInterface& aDrive, TUint32 aMinPageNum, TUint32 aMaxPageNum, TUint32 aPageSizeInBytesLog2, TUint32 aWrGranularityLog2)
:iPageSizeLog2(aPageSizeInBytesLog2),
iWrGranularityLog2(aWrGranularityLog2),
iMinSizeInPages(aMinPageNum),
iMaxSizeInPages(aMaxPageNum),
iDrive(aDrive),
iLockedQ(_FOFF(TDynamicDirCachePage, iLink)),
iUnlockedQ(_FOFF(TDynamicDirCachePage, iLink)),
iLockedQCount(0),
iUnlockedQCount(0),
iHashFunction(HashFunction),
iIdentityFunction(IdentityFunction),
iLookupTable(iHashFunction, iIdentityFunction)
{
iPageSizeInBytes = 1 << aPageSizeInBytesLog2;
iCacheDisabled = EFalse;
iMinCacheSizeInBytes = aMinPageNum << aPageSizeInBytesLog2;
iMaxCacheSizeInBytes = aMaxPageNum << aPageSizeInBytesLog2;
ASSERT(iPageSizeInBytes && iPageSizeInBytes <= iMinCacheSizeInBytes && iMinCacheSizeInBytes <= iMaxCacheSizeInBytes);
// initial value, will be reset from outside
iCacheBasePos = 0;
}
/**
Second phase constructor of CDynamicDirCache.
@param aClientName the identification of cache memeory client this cache connects
*/
void CDynamicDirCache::ConstructL(const TDesC& aClientName)
{
// __PRINT3(_L("CDynamicDirCache::ConstructL(Min=%u, Max=%u, page=%u)"), iMinCacheSizeInBytes, iMaxCacheSizeInBytes, iPageSizeInBytes);
CCacheMemoryManager* manager = CCacheMemoryManagerFactory::CacheMemoryManager();
if (manager)
{
// client will register itself onto cache memory manager when created
// note this operation may leave under OOM condition
iCacheMemoryClient = manager->ConnectClientL(aClientName, iMinSizeInPages * PageSizeInSegs(), iMaxSizeInPages * PageSizeInSegs());
}
else
{
User::Leave(KErrNotSupported);
}
ASSERT(iCacheMemoryClient);
if (!iCacheMemoryClient)
{
User::Leave(KErrNoMemory);
}
// allocate as many permanently locked pages as there are threads - plus one
// otherwise DoMakePageMRU() won't work properly with only one thread
//-- At present moment the size of TDrive thread pool is 1 (1 drive thread in a pool)
const TUint KThreadCount = 1;
iPermanentlyAllocatedPageCount = KThreadCount + 1;
if (iPermanentlyAllocatedPageCount > iMinSizeInPages)
iMinSizeInPages = iPermanentlyAllocatedPageCount;
for (TUint n=0; n<iPermanentlyAllocatedPageCount; n++)
{
TDynamicDirCachePage* pPage = AllocateAndLockNewPageL(0);
AddFirstOntoQueue(pPage, TDynamicDirCachePage::ELocked);
LookupTblAdd(pPage);
}
}
/**
Static factory function of CDynamicDirCache
*/
CDynamicDirCache* CDynamicDirCache::NewL(TDriveInterface& aDrive, TUint32 aMinPageNum, TUint32 aMaxPageNum, TUint32 aPageSizeLog2, TUint32 aWrGranularityLog2, const TDesC& aClientName)
{
__PRINT3(_L("CDynamicDirCache::NewL(MinPageNum=%u, MaxPageNum=%u, page=%u)"), aMinPageNum, aMaxPageNum, 1<<aPageSizeLog2);
CDynamicDirCache* pSelf = new (ELeave) CDynamicDirCache(aDrive, aMinPageNum, aMaxPageNum, aPageSizeLog2, aWrGranularityLog2);
CleanupStack::PushL(pSelf);
pSelf->ConstructL(aClientName);
CleanupStack::Pop();
return pSelf;
}
/**
Insert an unlocked page into the last position of the locked queue, may squeeze the original last page into
the unlocked queue.
This function is used on last visited but 'unlocked' pages to avoid excessive lock/unlock calls to cache memory
manager as contiguous entry reading/writing often happens on the same page.
@param aPage the page to be inserted.
@pre the page type of aPage should only be TDynamicDirCachePage::EUnknown
*/
void CDynamicDirCache::MakePageLastLocked(TDynamicDirCachePage* aPage)
{
// this function should not be called on active pages
ASSERT(aPage->iType == TDynamicDirCachePage::EUnknown);
if (iLockedQ.IsEmpty())
{
// if locked queue is empty, add it onto the locked queue directly
AddFirstOntoQueue(aPage, TDynamicDirCachePage::ELocked);
}
else
{
// otherwise, we squeeze for the last position on locked queue
while (iLockedQCount + 1 >= iMinSizeInPages)
{
TDynamicDirCachePage* last = iLockedQ.Last();
DeQueue(last);
UnlockPage(last);
AddFirstOntoQueue(last, TDynamicDirCachePage::EUnlocked);
}
// iLockedQCount + 1 < iMinSizeInPages
iLockedQ.AddLast(*aPage);
aPage->SetPageType(TDynamicDirCachePage::ELocked);
iLockedQCount++;
}
}
/**
Read data from a single page. If the page is not found or not valid anymore, read media onto iActive page first.
The data will be _Appended_ the the descriptor aDes. The caller is responsible for maintaining this descriptor.
@param aPos the starting position of the media address to be read.
@param aLength the length of the content to be read.
@param aDes the descriptor to contain the content.
@pre aLength should be no more than page size.
*/
void CDynamicDirCache::ReadDataFromSinglePageL(TInt64 aPos, TInt aLength, TDes8& aDes)
{
//-- the data section is in the cache page entirely, take data directly from the cache
TDynamicDirCachePage* pPage = FindPageByPos(aPos);
if (pPage)
{
// lock page before reading,
if (LockPage(pPage) != NULL)
{
// read data and append them to the descriptor
aDes.Append(pPage->PtrInPage(aPos), aLength);
// if page is from unlocked queue, insert it onto the last page of the locked
// queue. this is to avoid excessive locking and unlocking operations that is
// highly likely to happen for following reads.
if (pPage->PageType() == TDynamicDirCachePage::EUnlocked)
{
DeQueue(pPage);
MakePageLastLocked(pPage);
}
}
else // page locking failed
{
ASSERT(pPage->PageType() == TDynamicDirCachePage::EUnlocked);
DeQueue(pPage);
LookupTblRemove(pPage->StartPos());
DecommitPage(pPage);
delete pPage;
pPage = NULL;
}
}
if (!pPage)
{
// if page not found or page data not valid anymore, use active page to read data in
pPage = UpdateActivePageL(aPos);
// read data and append them to the descriptor
aDes.Append(pPage->PtrInPage(aPos), aLength);
}
}
//====================================================================
/**
Implementation of pure virtual function.
@see MWTCacheInterface::ReadL()
*/
void CDynamicDirCache::ReadL(TInt64 aPos, TInt aLength, TDes8& aDes)
{
#ifdef _DEBUG
if(iCacheDisabled)
{
// cache is disabled for debug purposes
__PRINT(_L("CDynamicDirCache disabled"));
User::LeaveIfError(iDrive.ReadNonCritical(aPos, aLength, aDes));
return;
}
#endif //_DEBUG
aDes.Zero();
const TUint32 PageSz = iPageSizeInBytes;//-- cache page size
TInt64 pageStartMedPos = CalcPageStartPos(aPos);
const TUint32 bytesToPageEnd = (TUint32)(pageStartMedPos + PageSz - aPos); //-- number of bytes from aPos to the end of the page
// __PRINT5(_L("CDynamicDirCache::ReadL: aPos=%lx, aLength=%x, page:%lx, pageSz:%x, bytesToPageEnd=%x"), aPos, aLength, pageStartMedPos, PageSz, bytesToPageEnd);
// if all data needed is on a single page
if((TUint32)aLength <= bytesToPageEnd)
{
ReadDataFromSinglePageL(aPos, aLength, aDes);
}
// or data to be read cross cache page boundary or probably we have more than 1 page to read
else
{
__PRINT(_L("CDynamicDirCache::ReadL() CROSS PAGE!"));
TUint32 dataLen(aLength); //-- current data length
TInt64 currMediaPos(aPos); //-- current media position
//-- 1. read data that are already in the current page
ReadDataFromSinglePageL(currMediaPos, bytesToPageEnd, aDes);
dataLen -= bytesToPageEnd;
currMediaPos += bytesToPageEnd;
//-- 2. read whole pages of data
while (dataLen >= PageSz)
{
//-- find out if currMediaPos is in cache. If not, find a spare page and read data there
ReadDataFromSinglePageL(currMediaPos, PageSz, aDes);
currMediaPos += PageSz;
dataLen -= PageSz;
}
//-- 3. read the rest of the data
if(dataLen > 0)
{
ReadDataFromSinglePageL(currMediaPos, dataLen, aDes);
}
} //else((TUint32)aLength <= bytesToPageEnd)
}
/**
Write data through a single page. If the page is not found or not valid anymore, read media onto iActive page
first, then write data through iActive page.
@param aPos the starting position of the media address to be write.
@param aData the starting address that the writing content lives in the ram.
@param aDataLen the length of the content to be written.
@pre aDataLen should be no more than page size.
*/
TDynamicDirCachePage* CDynamicDirCache::WriteDataOntoSinglePageL(TInt64 aPos, const TUint8* aData, TUint32 aDataLen)
{
ASSERT(aDataLen <= iPageSizeInBytes);
//-- the data section is in the cache page entirely, take data directly from the cache
TDynamicDirCachePage* pPage = FindPageByPos(aPos);
if (pPage)
{
// lock page before writing,
if (LockPage(pPage) != NULL)
{
//-- update cache
Mem::Copy(pPage->PtrInPage(aPos), aData, aDataLen);
}
else
{
ASSERT(pPage->PageType() == TDynamicDirCachePage::EUnlocked);
DeQueue(pPage);
LookupTblRemove(pPage->StartPos());
DecommitPage(pPage);
delete pPage;
pPage = NULL;
}
}
// if page not found or page data not valid anymore, use active page to read data in
if (!pPage)
{
pPage = UpdateActivePageL(aPos);
//-- update cache
Mem::Copy(pPage->PtrInPage(aPos), aData, aDataLen);
}
// make sure the page is unlocked after use
if (pPage->PageType() == TDynamicDirCachePage::EUnlocked)
{
UnlockPage(pPage);
}
// always make writting events MRU
DoMakePageMRU(aPos);
return pPage;
}
/**
Implementation of pure virtual function.
@see MWTCacheInterface::WriteL()
*/
void CDynamicDirCache::WriteL(TInt64 aPos,const TDesC8& aDes)
{
#ifdef _DEBUG
if(iCacheDisabled)
{
// cache is disabled for debug purposes
__PRINT(_L("CDynamicDirCache disabled"));
User::LeaveIfError(iDrive.WriteCritical(aPos,aDes));
return;
}
#endif //_DEBUG
TUint32 dataLen = aDes.Size();
const TUint8* pData = aDes.Ptr();
const TUint32 PageSz = iPageSizeInBytes; //-- cache page size
TInt64 pageStartMedPos = CalcPageStartPos(aPos);
TUint32 bytesToPageEnd = (TUint32)(pageStartMedPos + PageSz - aPos);
// __PRINT5(_L("CDynamicDirCache::WriteL: aPos=%lx, aLength=%x, page:%lx, pageSz:%x, bytesToPageEnd=%x"), aPos, dataLen, pageStartMedPos, PageSz, bytesToPageEnd);
if(dataLen <= bytesToPageEnd)
{//-- make small write a multiple of a write granularity size (if it is used at all)
//-- this is not the best way to use write granularity, but we would need to refactor cache pages code to make it normal
TDynamicDirCachePage* pPage = WriteDataOntoSinglePageL(aPos, pData, dataLen);
TPtrC8 desBlock(aDes);
if(iWrGranularityLog2)
{//-- write granularity is used
const TInt64 newPos = (aPos >> iWrGranularityLog2) << iWrGranularityLog2; //-- round position down to the granularity unit size
TUint32 newLen = (TUint32)(aPos - newPos)+dataLen;
newLen = RoundUp(newLen, iWrGranularityLog2);
const TUint8* pd = pPage->PtrInPage(newPos);
desBlock.Set(pd, newLen);
aPos = newPos;
}
//-- write data to the media
const TInt nErr = iDrive.WriteCritical(aPos, desBlock);
if(nErr != KErrNone)
{//-- some serious problem occured during writing, invalidate cache.
InvalidateCache();
User::Leave(nErr);
}
}
else
{//-- Data to be written cross cache page boundary or probably we have more than 1 page to write
//-- this is a very rare case.
__PRINT(_L("CDynamicDirCache::WriteL() CROSS PAGE!"));
//-- Data to be written cross cache page boundary or probably we have more than 1 page to write
TInt64 currMediaPos(aPos);
//-- 1. update the current page
WriteDataOntoSinglePageL(currMediaPos, pData, bytesToPageEnd);
pData += bytesToPageEnd;
currMediaPos += bytesToPageEnd;
dataLen -= bytesToPageEnd;
//-- 2. write whole pages of data to the cache
while (dataLen >= PageSz)
{
WriteDataOntoSinglePageL(currMediaPos, pData, PageSz);
pData += PageSz;
currMediaPos += PageSz;
dataLen -= PageSz;
}
//-- 3. write the rest of the data
if(dataLen > 0)
{
WriteDataOntoSinglePageL(currMediaPos, pData, dataLen);
}
//-- write data to the media
const TInt nErr = iDrive.WriteCritical(aPos,aDes);
if(nErr != KErrNone)
{//-- some serious problem occured during writing, invalidate cache.
InvalidateCache();
User::Leave(nErr);
}
}// else(dataLen <= bytesToPageEnd)
}
/**
Invalidate the cache
@see MWTCacheInterface::InvalidateCache()
*/
void CDynamicDirCache::DoInvalidateCache(void)
{
__PRINT2(_L("CDynamicDirCache::InvalidateCache(locked=%d, unlocked=%d)"), iLockedQCount, iUnlockedQCount);
// we should never decommit locked pages as they needs to be reserved anyway
// the overhead of unnecessary page committing operations
TInt pagesToRemoveFromLockedQueue = iLockedQCount - iPermanentlyAllocatedPageCount;
TInt n;
for (n=0; n<pagesToRemoveFromLockedQueue; n++)
{
TDynamicDirCachePage* page = iLockedQ.Last();
DeQueue(page); // remove from queue
LookupTblRemove(page->StartPos()); // remove from lookuptable
DecommitPage(page); // inform cache client to decommit page memory
delete page;
}
ASSERT(iLockedQCount == iPermanentlyAllocatedPageCount);
TDblQueIter<TDynamicDirCachePage> q(iLockedQ);
q.SetToFirst();
while((TDynamicDirCachePage*) q)
{
TDynamicDirCachePage* page = q++;
LookupTblRemove(page->StartPos());// remove from lookuptable
ResetPagePos(page); // reset start media position (0), invalidate page content
}
// however we should decommit unlocked pages here
while (!iUnlockedQ.IsEmpty())
{
TDynamicDirCachePage* page = iUnlockedQ.Last();
DeQueue(page); // remove from queue
LookupTblRemove(page->StartPos()); // remove from lookuptable
DecommitPage(page); // inform cache client to decommit page memory
delete page;
}
ASSERT(iUnlockedQCount == 0);
ASSERT(iLockedQCount == iPermanentlyAllocatedPageCount);
ASSERT(iCacheMemoryClient);
}
/**
Implementation of pure virtual function.
@see MWTCacheInterface::InvalidateCache()
*/
void CDynamicDirCache::InvalidateCache(void)
{
DoInvalidateCache();
}
/** this method isn't implemented*/
void CDynamicDirCache::InvalidateCachePage(TUint64 /*aPos*/)
{
ASSERT(0);
}
/**
Implementation of pure virtual function.
@see MWTCacheInterface::PosCached()
*/
TUint32 CDynamicDirCache::PosCached(TInt64 aPos)
{
const TInt64 pageStartMedPos = CalcPageStartPos(aPos);
// only search the page in lookup table
// NOTE: we don't count the active page into acount here,
// this is to avoid pulling next pages recursively
TDynamicDirCachePage* pPage = LookupTblFind(pageStartMedPos);
// then check if page is still valid if page is on Unlocked Page Queue
if (pPage && pPage->PageType() == TDynamicDirCachePage::EUnlocked)
{
if (LockPage(pPage) != NULL)
{
// __PRINT1(_L("CDynamicDirCache::PosCached: page(0x%lx) found on Unlocked Queue!"), aPos);
// have to unlock it before returning, otherwise there will be memory leak
UnlockPage(pPage);
return pPage->PageSizeInBytes();
}
else // if the unlocked page is not valid anymore, remove it
{
DeQueue(pPage);
LookupTblRemove(pPage->StartPos());
DecommitPage(pPage);
delete pPage;
pPage = NULL;
}
}
// otherwise if page is already locked or valid active page
else if (pPage)
{
__PRINT1(_L("CDynamicDirCache::PosCached: page(0x%lx) on Locked Queue!"), aPos);
return pPage->PageSizeInBytes();
}
// page is not found or not valid anymore
return 0;
}
/**
Implementation of pure virtual function.
@see MWTCacheInterface::CacheSizeInBytes()
*/
TUint32 CDynamicDirCache::CacheSizeInBytes() const
{
return iMaxCacheSizeInBytes;
}
/**
Implementation of pure virtual function.
@see MWTCacheInterface::Control()
*/
TInt CDynamicDirCache::Control(TUint32 aFunction, TUint32 aParam1, TAny* aParam2)
{
TInt r = KErrNotSupported;
#ifdef _DEBUG
(void)aParam2;
switch(aFunction)
{
// disable / enable cache, for debug
// if aParam1 != 0 cache will be disabled, enabled otherwise
case EDisableCache:
iCacheDisabled = aParam1 ? 1 : 0;
r = KErrNone;
break;
// dump cache, for debug
case EDumpCache:
{
RFs fs;
fs.Connect();
const TUint32 debugRegister = DebugRegister();
fs.SetDebugRegister(debugRegister|KFSYS);
Dump();
fs.SetDebugRegister(debugRegister);
fs.Close();
break;
}
case ECacheInfo:
{
RFs fs;
fs.Connect();
const TUint32 debugRegister = DebugRegister();
fs.SetDebugRegister(debugRegister|KFSYS);
Info();
fs.SetDebugRegister(debugRegister);
fs.Close();
break;
}
default:
__PRINT1(_L("CDynamicDirCache::Control() invalid function: %d"), aFunction);
ASSERT(0);
break;
}
#else
(void)aFunction; //-- supress warnings
(void)aParam1;
(void)aParam2;
User::Invariant(); //-- don't call this method in release build
#endif //_DEBUG
return r;
}
/**
Implementation of pure virtual function.
@see MWTCacheInterface::SetCacheBasePos()
*/
void CDynamicDirCache::SetCacheBasePos(TInt64 aBasePos)
{
iCacheBasePos = aBasePos;
}
/**
Implementation of pure virtual function.
@see MWTCacheInterface::SetCacheBasePos()
*/
TUint32 CDynamicDirCache::PageSizeInBytesLog2() const
{
return iPageSizeLog2;
}
void CDynamicDirCache::DoMakePageMRU(TInt64 aPos)
{
// __PRINT1(_L("MakePageMRU (%lx)"), aPos);
// __PRINT4(_L("Current Cache State: iLockedQCount=%d, iUnlockedQCount=%d, iLookupTbl=%d, iMaxSizeInPages=%d"), iLockedQCount, iUnlockedQCount, iLookupTable.Count(), iMaxSizeInPages);
// check there are at least two locked pages
ASSERT(iLockedQCount > 1);
// check the MRU page first, if it is already the MRU page, we can return immediately
TInt64 pageStartMedPos = CalcPageStartPos(aPos);
if (!iLockedQ.IsEmpty())
{
if (iLockedQ.First()->StartPos() == pageStartMedPos)
{
return;
}
}
TDynamicDirCachePage* pPage = FindPageByPos(aPos);
if (pPage)
{
ASSERT(pPage->IsValid());
// lock page before make it MRU
if (pPage->PageType() == TDynamicDirCachePage::EUnlocked)
{
ASSERT(!pPage->IsLocked());
if (LockPage(pPage) == NULL)
{
DeQueue(pPage);
LookupTblRemove(pPage->StartPos());
DecommitPage(pPage);
delete pPage;
pPage = NULL;
}
}
else
{
// error checking: page should either be locked or active
ASSERT(LockPage(pPage) != NULL);
}
}
// if page not found or page data not valid anymore, use active page to read data
if (!pPage)
{
TRAPD(err, pPage = UpdateActivePageL(aPos));
if (err != KErrNone)
{
// problem occurred reading active page, return immediately.
return;
}
}
// by now, the page is either locked or active page
ASSERT(pPage && pPage->IsValid() && pPage->IsLocked());
TBool allocateNewPage = pPage == iLockedQ.Last() && !CacheIsFull();
switch (pPage->PageType())
{
case TDynamicDirCachePage::EUnlocked:
{
// if page was originally on Unlocked Page Queque, remove it from Unlocked Page Queue, add it
// to the Locked Page Queue and make it MRU
DeQueue(pPage);
AddFirstOntoQueue(pPage, TDynamicDirCachePage::ELocked);
// check cache limit
CheckThresholds();
}
case TDynamicDirCachePage::ELocked:
{
// otherwise the page was on Locked Page Queue, make it MRU
// no need to check cache limit
if (pPage != iLockedQ.First())
{
DeQueue(pPage);
AddFirstOntoQueue(pPage, TDynamicDirCachePage::ELocked);
}
break;
}
default:
ASSERT(0);
}
if (allocateNewPage)
{
TDynamicDirCachePage* nPage = NULL;
TRAPD(err, nPage = AllocateAndLockNewPageL(0));
if (err == KErrNone)
{
// about to add a page to end of locked queue, so lie about iLockedQCount
iLockedQCount++;
CheckThresholds();
iLockedQCount--;
iLockedQ.AddLast(*nPage);
nPage->SetPageType(TDynamicDirCachePage::ELocked);
++iLockedQCount;
LookupTblAdd(nPage);
}
}
}
/**
Implementation of pure virtual function.
@see MDiskSpecialAccessor::MakePageMRU()
*/
void CDynamicDirCache::MakePageMRU(TInt64 aPos)
{
DoMakePageMRU(aPos);
}
//====================================================================
/**
Internal query function, to check if aPos is cached or not. iActive page is included in searching.
*/
TDynamicDirCachePage* CDynamicDirCache::FindPageByPos(TInt64 aPos)
{
// __PRINT1(_L("CDynamicDirCache::FindPageByPos(aPos=%lx)"), aPos);
// align the page position
TInt64 pageStartMedPos = CalcPageStartPos(aPos);
// search in lookup table
return LookupTblFind(pageStartMedPos);
}
/**
read a page length data into iActive page and return iActive page if read is successful.
*/
TDynamicDirCachePage* CDynamicDirCache::UpdateActivePageL(TInt64 aPos)
{
// align the page position
TInt64 pageStartMedPos = CalcPageStartPos(aPos);
ASSERT(!iLockedQ.IsEmpty());
TDynamicDirCachePage* activePage = iLockedQ.Last();
if (activePage->StartPos() == pageStartMedPos && activePage->IsValid())
{
return activePage;
}
__PRINT2(_L("CDynamicDirCache::UpdateActivePageL(aPos=%lx, active=%lx)"), aPos, activePage->StartPos());
activePage->Deque();
LookupTblRemove(activePage->StartPos());
// set start med pos value, no other effects, only available to active page
activePage->SetPos(pageStartMedPos);
// read data, make active page valid
TUint8* data = activePage->PtrInPage(activePage->iStartMedPos);
TPtr8 dataPtr(data, iPageSizeInBytes);
const TInt nErr = iDrive.ReadNonCritical(activePage->iStartMedPos, iPageSizeInBytes, dataPtr);
iLockedQ.AddLast(*activePage);
LookupTblAdd(activePage);
if(nErr !=KErrNone)
{
// some serious problem occured during reading, invalidate cache.
DoInvalidateCache();
User::Leave(nErr);
}
activePage->SetValid(ETrue);
return activePage;
}
/**
Check if the number of (locked pages + iActive page) and unlocked pages have exceeded minimum allowed page
number and maximum allowed page number respectively.
*/
void CDynamicDirCache::CheckThresholds()
{
while (iLockedQCount + 1 > iMinSizeInPages)
{
TDynamicDirCachePage* movePage = iLockedQ.Last();
UnlockPage(movePage);
DeQueue(movePage);
TInt err = LookupTblRemove(movePage->StartPos());
ASSERT(err == KErrNone);
// if it is a valid page, add onto unlocked queue
if (movePage->StartPos() != 0)
{
ASSERT(movePage->IsValid());
AddFirstOntoQueue(movePage, TDynamicDirCachePage::EUnlocked);
err = LookupTblAdd(movePage);
ASSERT(err == KErrNone);
}
else // reserved page, delete
{
DecommitPage(movePage);
delete movePage;
}
}
// if unlocked queue exceeds limit, delete LRU page
// note: all pages on unlocked queue should be valid
while (iUnlockedQCount > iMaxSizeInPages - iMinSizeInPages)
{
TDynamicDirCachePage* removePage = iUnlockedQ.Last();
ASSERT(removePage->StartPos() != 0 && removePage->IsValid());
DeQueue(removePage);
LookupTblRemove(removePage->StartPos());
DecommitPage(removePage);
delete removePage;
}
}
/**
Try to create a new page and lock the page content when it is created. This function should only be called
when creating iActive page or making a page MRU (which might result in page evictions).
@return the pointer of the newly created page, or NULL if allocation failed.
@param aStartMedPos the starting media address of the page to be created.
@pre aStartMedPos should not already be existing in the cache.
*/
TDynamicDirCachePage* CDynamicDirCache::AllocateAndLockNewPageL(TInt64 aStartMedPos)
{
__PRINT1(_L("CDynamicDirCache::AllocateAndLockNewPageL(aStartMedPos=%lx)"), aStartMedPos);
TUint8* startRamAddr = iCacheMemoryClient->AllocateAndLockSegments(PageSizeInSegs());
if (startRamAddr)
{
// create new page and return
TDynamicDirCachePage* pPage = TDynamicDirCachePage::NewL(this, aStartMedPos, startRamAddr);
pPage->SetLocked(ETrue);
pPage->SetValid(EFalse);
return pPage;
}
return NULL;
}
#ifdef _DEBUG
/**
Dump cache information, only enabled in debug mode.
@see CDynamicDirCache::Control()
*/
void CDynamicDirCache::Info() const
{
__PRINT(_L("======== CDynamicDirCache::Info ========="));
const TUint32 SegmentSizeInBytesLog2 = CCacheMemoryManagerFactory::CacheMemoryManager()->SegmentSizeInBytesLog2();
// page size
__PRINT1(_L("=== Pages size: [%d Bytes]"), iPageSizeInBytes);
__PRINT1(_L("=== Segment size: [%d Bytes]"), 1 << SegmentSizeInBytesLog2);
// data size:
__PRINT1(_L("=== Min data size: [%d Bytes]"), iMinSizeInPages << iPageSizeLog2);
__PRINT1(_L("=== Max data size: [%d Bytes]"), iMaxSizeInPages << iPageSizeLog2);
// memory size:
const TUint32 pageMemSizeLog2 = iPageSizeLog2 > SegmentSizeInBytesLog2 ? iPageSizeLog2 : SegmentSizeInBytesLog2;
__PRINT1(_L("=== Min memory size: [%d Bytes]"), iMinSizeInPages << pageMemSizeLog2);
__PRINT1(_L("=== Max memory size: [%d Bytes]"), iMaxSizeInPages << pageMemSizeLog2);
// reserved pages
__PRINT1(_L("=== Number of pages reserved: [%d]"), iMinSizeInPages);
__PRINT1(_L("=== Reserved memory: [%d Bytes]"), (iMinSizeInPages * PageSizeInSegs()) << SegmentSizeInBytesLog2);
// locked page num
__PRINT1(_L("=== Number of pages locked: [%d]"), iLockedQCount);
__PRINT1(_L("=== Locked memory: [%d Bytes]"), (iLockedQCount * PageSizeInSegs()) << SegmentSizeInBytesLog2);
// unlocked page num
__PRINT1(_L("=== Number of pages unlocked: [%d]"), iUnlockedQCount);
__PRINT1(_L("=== Unlocked memory: [%d Bytes]"), (iUnlockedQCount * PageSizeInSegs()) << SegmentSizeInBytesLog2);
}
/**
Dump cache content, only enabled in debug mode.
@see CDynamicDirCache::Control()
*/
void CDynamicDirCache::Dump()
{
__PRINT(_L("======== CDynamicDirCache::Dump ========="));
if (!iLockedQ.IsEmpty())
{
TDblQueIter<TDynamicDirCachePage> q(iLockedQ);
q.SetToFirst();
TInt i = 0;
while((TDynamicDirCachePage*)q)
{
TDynamicDirCachePage* pP = q++;
__PRINT5(_L("=== CDynamicDirCache::iLockedQ [%4d](pos=%lx, locked=%d, valid=%d, size=%u)"), i++, pP->StartPos(), pP->IsLocked(), pP->IsValid(), pP->PageSizeInBytes());
}
}
__PRINT(_L("=== CDynamicDirCache:: --------------------"));
if (!iUnlockedQ.IsEmpty())
{
TDblQueIter<TDynamicDirCachePage> q(iUnlockedQ);
q.SetToFirst();
TInt i = 0;
while((TDynamicDirCachePage*)q)
{
TDynamicDirCachePage* pP = q++;
__PRINT5(_L("=== CDynamicDirCache::iUnlockedQ [%4d](pos=%lx, locked=%d, valid=%d, size=%u)"), i++, pP->StartPos(), pP->IsLocked(), pP->IsValid(), pP->PageSizeInBytes());
}
}
__PRINT(_L("=== CDynamicDirCache:: --------------------"));
if (iLookupTable.Count())
{
TInt i = 0;
THashSetIter<TLookupEntry> iter(iLookupTable);
TLookupEntry* pEntry;
pEntry = (TLookupEntry*) iter.Next();
while(pEntry)
{
TDynamicDirCachePage* pP = pEntry->iPage;
__PRINT5(_L("=== CDynamicDirCache::iLookupTable [%4d](pos=%lx, locked=%d, valid=%d, size=%u)"), i++, pP->StartPos(), pP->IsLocked(), pP->IsValid(), pP->PageSizeInBytes());
pEntry = (TLookupEntry*) iter.Next();
};
}
__PRINT(_L("===========================================\n"));
}
#endif //_DEBUG
/**
Lock an unlocked page, or do nothing if the page is already locked.
@return TUint8* pointer of the page to be locked, if locking is successful, otherwise return NULL.
@param aPage the pointer of the page to be locked.
*/
TUint8* CDynamicDirCache::LockPage(TDynamicDirCachePage* aPage)
{
ASSERT(aPage != NULL);
if (aPage->IsLocked())
return aPage->StartPtr();
TInt r = iCacheMemoryClient->LockSegments(aPage->StartPtr(), PageSizeInSegs());
if (r == KErrNone)
{
aPage->SetLocked(ETrue);
return aPage->StartPtr();
}
return NULL;
}
/**
Unlock a locked page.
@return TInt KErrNone if unlocking was successful, otherwise system-wide error code.
@param aPage the pointer of the page to be unlocked.
*/
TInt CDynamicDirCache::UnlockPage(TDynamicDirCachePage* aPage)
{
ASSERT(aPage != NULL);
__PRINT1(_L("CDynamicDirCache::UnlockPage(%lx)"), aPage->StartPos());
TInt r = iCacheMemoryClient->UnlockSegments(aPage->StartPtr(), PageSizeInSegs());
if (r == KErrNone)
{
aPage->SetLocked(EFalse);
}
return r;
}
/**
Decommit a locked or unlocked page.
@return TInt KErrNone if decommition was successful, otherwise system-wide error code.
@param aPage the pointer of the page to be decommitted.
*/
TInt CDynamicDirCache::DecommitPage(TDynamicDirCachePage* aPage)
{
ASSERT(aPage != NULL);
__PRINT1(_L("CDynamicDirCache::DecommitPage(%lx)"), aPage->StartPos());
if (aPage)
{
TInt r = iCacheMemoryClient->DecommitSegments(aPage->StartPtr(), PageSizeInSegs());
if (r == KErrNone)
{
aPage->SetLocked(EFalse);
aPage->SetValid(EFalse);
}
return r;
}
return KErrArgument;
}
/////////////////////////// aluxiliary functions //////////////////////////////////
/**
Calculate the page size in segments. Segment size is the size of the kernel memory unit that cache memory manager manages.
We are making assumption here about the page size: page size should always be either less than segment size
or multiple times of segment size
@return TUint32 the page size in segments.
*/
TUint32 CDynamicDirCache::PageSizeInSegs() const
{
// initialize cache memory manager as all file systems have mounted by now
ASSERT(CCacheMemoryManagerFactory::CacheMemoryManager());
const TUint32 SegmentSizeInBytesLog2 = CCacheMemoryManagerFactory::CacheMemoryManager()->SegmentSizeInBytesLog2();
// Page size should be non-zero
ASSERT(iPageSizeInBytes);
TUint32 segs = iPageSizeInBytes >> SegmentSizeInBytesLog2;
return segs > 0 ? segs : 1;
}
/**
Deque the page from locked queue or unlocked queue. All pages are managed through these two queues, expect iActive
page.
@param aPage the pointer of the page to be dequeued
@return TInt KErrArgument if aPage is invalid, otherwise KErrNone.
*/
TInt CDynamicDirCache::DeQueue(TDynamicDirCachePage* aPage)
{
ASSERT(aPage);
if (!aPage)
return KErrArgument;
if (aPage->iType == TDynamicDirCachePage::ELocked)
{
aPage->Deque();
aPage->SetPageType(TDynamicDirCachePage::EUnknown);
--iLockedQCount;
}
else if (aPage->iType == TDynamicDirCachePage::EUnlocked)
{
aPage->Deque();
aPage->SetPageType(TDynamicDirCachePage::EUnknown);
--iUnlockedQCount;
}
else
{
ASSERT(0);
return KErrArgument;
}
return KErrNone;
}
/**
Insert a page to the first position of locked queue or unlocked queue.
@param aPage the pointer of the page to be inserted.
@param aType the type of the queue to be inserted.
@return TInt KErrArgument if aPage is invalid, otherwise KErrNone.
*/
TInt CDynamicDirCache::AddFirstOntoQueue(TDynamicDirCachePage* aPage, TDynamicDirCachePage::TPageType aType)
{
ASSERT(aPage);
if (!aPage)
return KErrArgument;
if (aType == TDynamicDirCachePage::ELocked)
{
iLockedQ.AddFirst(*aPage);
aPage->SetPageType(TDynamicDirCachePage::ELocked);
++iLockedQCount;
}
else if (aType == TDynamicDirCachePage::EUnlocked)
{
iUnlockedQ.AddFirst(*aPage);
aPage->SetPageType(TDynamicDirCachePage::EUnlocked);
++iUnlockedQCount;
}
else
{
ASSERT(0);
return KErrArgument;
}
return KErrNone;
}
/**
Remove a page from the lookup table, indexed by the starting media address of the page content.
@param aPagePos the starting media position of the page to be removed.
*/
TInt CDynamicDirCache::LookupTblRemove(TInt64 aPagePos)
{
if (aPagePos == 0)
{
return KErrNone;
}
TInt r = iLookupTable.Remove(TLookupEntry(aPagePos, 0, NULL));
return r;
}
/**
Insert a page to the lookup table, indexed by the starting media address of the page content.
@param aPagePos the starting media position of the page to be inserted.
*/
TInt CDynamicDirCache::LookupTblAdd(TDynamicDirCachePage* aPage)
{
ASSERT(aPage);
if (!aPage)
return KErrArgument;
if (aPage->StartPos() == 0)
{
return KErrNone;
}
TInt r = iLookupTable.Insert(TLookupEntry(aPage->StartPos(), iPageSizeInBytes, aPage));
return r;
}
/**
Reset the media address of the page to 0, also invalidate the page.
@param aPage the pointer of the page to be reset.
*/
TInt CDynamicDirCache::ResetPagePos(TDynamicDirCachePage* aPage)
{
ASSERT(aPage);
if (!aPage)
return KErrArgument;
aPage->ResetPos();
return KErrNone;
}
/**
Search the lookup table to find the page start with a specific media address.
@param aPos the starting media address to be searched.
*/
TDynamicDirCachePage* CDynamicDirCache::LookupTblFind(TInt64 aPos)
{
if (aPos == 0)
{
ASSERT(0);
return NULL;
}
TLookupEntry* entry = iLookupTable.Find(TLookupEntry(aPos, 0, NULL));
if(entry)
{
// last entry on used queue is used as the 'active' page & may not be valid
if (!entry->iPage->IsValid())
return NULL;
return entry->iPage;
}
return NULL;
}