We need a way to pass flags to rombuilds in Raptor via extension flm interfaces, so that the CPP pass
of the rom input files can be informed what toolchain we are building with and conditionally
include or exclude files depending on whether the toolchain could build them.
// Copyright (c) 1995-2009 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\sfile\sf_pgcompr.cpp
//
//
#include <f32file.h>
#include "sf_std.h"
#include "sf_ldr.h"
#include <f32image.h>
#include "sf_image.h"
#include <e32uid.h>
#include <e32rom.h>
#include "sf_cache.h"
#include "sf_pgcompr.h"
extern TInt BytePairDecompress(TUint8* /*dst*/, TInt /*dstSize*/, TUint8* /*src*/, TInt /*srcSize*/, TUint8*& /*srcNext*/);
// CBytePairReader - reading from in-memory buffer
CBytePairReader* CBytePairReader::NewLC(TUint8* aBuffer, TUint32 aLength)
{
CBytePairReader* reader = new (ELeave) CBytePairReader(aBuffer, aLength);
CleanupStack::PushL(reader);
return reader;
}
CBytePairReader::CBytePairReader(TUint8* aBuffer, TUint32 aLength)
: iNextPage(aBuffer), iBytesLeft(aLength)
{
}
void CBytePairReader::SeekForwardL(TUint aBytes)
{
if (iBytesLeft < aBytes)
LEAVE_FAILURE(KErrCorrupt);
iNextPage += aBytes;
iBytesLeft -= aBytes;
}
void CBytePairReader::ReadInTableL()
{
if (KIndexTableHeaderSize > iBytesLeft)
LEAVE_FAILURE(KErrCorrupt);
Mem::Copy(&iHeader, iNextPage, KIndexTableHeaderSize);
iNextPage += KIndexTableHeaderSize;
iBytesLeft -= KIndexTableHeaderSize;
__IF_DEBUG(Printf("numberOfPages:%d", iHeader.iNumberOfPages));
TUint size = iHeader.iNumberOfPages * sizeof(TUint16);
if (size > iBytesLeft)
LEAVE_FAILURE(KErrCorrupt);
// coverity[buffer_alloc]
iIndexTable = new (ELeave) TUint16[size/sizeof(TUint16)];
Mem::Copy(iIndexTable, iNextPage, size);
iNextPage += size;
iBytesLeft -= size;
}
void CBytePairReader::ReleaseTable()
{
delete[] iIndexTable;
iIndexTable = NULL;
}
TUint CBytePairReader::GetPageL(TUint aPageNum, TUint8* aTarget, TInt aLength, TMemoryMoveFunction aMemMoveFn)
{
if (iIndexTable[aPageNum] > iBytesLeft)
LEAVE_FAILURE(KErrCorrupt);
iBytesLeft -= iIndexTable[aPageNum];
aLength = Min(aLength, KBytePairPageSize);
TInt size;
TUint8* nextPage;
if (aMemMoveFn)
size = BytePairDecompress(iPageBuf, aLength, iNextPage, iIndexTable[aPageNum], nextPage);
else
size = BytePairDecompress(aTarget, aLength, iNextPage, iIndexTable[aPageNum], nextPage);
User::LeaveIfError(size);
if (size != aLength)
LEAVE_FAILURE(KErrCorrupt);
if (iNextPage + iIndexTable[aPageNum] != nextPage)
LEAVE_FAILURE(KErrCorrupt);
// If a memmove() was provided, use that to copy the data to its final target
if (aMemMoveFn)
aMemMoveFn(aTarget, iPageBuf, size);
iNextPage = nextPage;
return size;
}
TUint CBytePairReader::DecompressPagesL(TUint8* aTarget, TInt aLength, TMemoryMoveFunction aMemMoveFn)
{
TUint decompressedSize = 0;
ReadInTableL();
for (TUint curPage = 0; curPage < iHeader.iNumberOfPages; ++curPage)
{
TUint size = GetPageL(curPage, aTarget, aLength, aMemMoveFn);
decompressedSize += size;
aTarget += size;
aLength -= size;
__IF_DEBUG(Printf("decomp page size:%d\n", size ));
}
__IF_DEBUG(Printf("decompressedSize:%d", decompressedSize));
ReleaseTable();
return decompressedSize;
}
void CBytePairReader::GetPageOffsetsL(TInt32 aInitialOffset, TInt& aPageCount, TInt32*& aPageOffsets)
{
ReadInTableL();
aPageCount = iHeader.iNumberOfPages;
aPageOffsets = new (ELeave) TInt32[aPageCount+1];
TInt bytes = aInitialOffset + KIndexTableHeaderSize + aPageCount * sizeof(TUint16);
for (TInt i = 0; i < aPageCount; ++i)
{
aPageOffsets[i] = bytes;
bytes += iIndexTable[i];
}
aPageOffsets[aPageCount] = bytes;
ReleaseTable();
}
// CBytePairFileReader - reading from file
CBytePairFileReader* CBytePairFileReader::NewLC(RFile& aFile)
{
CBytePairFileReader* reader = new (ELeave) CBytePairFileReader(aFile);
CleanupStack::PushL(reader);
return reader;
}
CBytePairFileReader::CBytePairFileReader(RFile& aFile)
: CBytePairReader(NULL, 0), iFile(aFile)
{
}
CBytePairFileReader::~CBytePairFileReader()
{
ReleaseTable();
}
void CBytePairFileReader::SeekForwardL(TUint aBytes)
{
TInt bytes = aBytes;
User::LeaveIfError(iFile.Seek(ESeekCurrent, bytes));
}
void CBytePairFileReader::ReadInTableL()
{
TPtr8 header((TUint8*)&iHeader, KIndexTableHeaderSize);
User::LeaveIfError(iFile.Read(header, KIndexTableHeaderSize));
if (header.Length() != (TInt)KIndexTableHeaderSize)
LEAVE_FAILURE(KErrCorrupt);
__IF_DEBUG(Printf("numberOfPages:%d", iHeader.iNumberOfPages));
TInt size = iHeader.iNumberOfPages * sizeof(TUint16);
iIndexTable = new (ELeave) TUint16[size/sizeof(TUint16)];
TPtr8 indexTable((TUint8*)iIndexTable, size);
User::LeaveIfError(iFile.Read(indexTable, size));
if (indexTable.Length() != size)
LEAVE_FAILURE(KErrCorrupt);
}
TUint CBytePairFileReader::DecompressPagesL(TUint8* aTarget, TInt aLength, TMemoryMoveFunction aMemMoveFn)
{
TUint decompressedSize = 0;
ReadInTableL();
TUint curPage = 0;
while (curPage < iHeader.iNumberOfPages)
{
TUint bytes = 0;
TUint pages = 0;
while (curPage + pages < iHeader.iNumberOfPages &&
bytes + iIndexTable[curPage+pages] < sizeof(iBuffer))
{
bytes += iIndexTable[curPage+pages];
++pages;
}
if(!bytes)
LEAVE_FAILURE(KErrCorrupt);
TPtr8 data(iBuffer, bytes);
User::LeaveIfError(iFile.Read(data, bytes));
if (data.Length() != (TInt)bytes)
LEAVE_FAILURE(KErrCorrupt);
iNextPage = iBuffer;
iBytesLeft = bytes;
for (; pages; ++curPage, --pages)
{
TUint size = GetPageL(curPage, aTarget, aLength, aMemMoveFn);
decompressedSize += size;
aTarget += size;
aLength -= size;
__IF_DEBUG(Printf("decomp page size:%d\n", size ));
}
}
__IF_DEBUG(Printf("decompressedSize:%d", decompressedSize));
ReleaseTable();
return decompressedSize;
}