Add support for --asm option when using elf2e32 in the "expgen" recipe - see bug 2979 and bug 1405
// Copyright (c) 2005-2009 Nokia Corporation and/or its subsidiary(-ies).
// All rights reserved.
// This component and the accompanying materials are made available
// under the terms of "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:
// byte_pair.cpp
//
//
#include <malloc.h>
#include <string.h>
#include <stdlib.h>
#include "h_utl.h"
#include "h_ver.h"
#include <stdio.h>
#include <fstream>
#ifdef __TOOLS2__
#include <sstream>
#else
#include <strstream.h>
#endif
#include <string>
#include <vector>
#include <cassert>
#include <iostream>
#ifndef __LINUX__
#include <io.h>
#endif
#include <time.h>
#include "byte_pair.h"
#define PAGE_SIZE 4096
//#define __TEST_ONLY__
typedef struct IndexTableItemTag
{
TUint16 iSizeOfCompressedPageData; // pointer to an array TUint16[NumberOfPages]
TUint8 *iCompressedPageData; // pointer to an array TUint8*. Each elemet of
// this array point a compressed Page data
}IndexTableItem;
typedef struct IndexTableHeaderTag
{
TInt iSizeOfData; // Includes the index and compressed pages
TInt iDecompressedSize;
TUint16 iNumberOfPages;
} IndexTableHeader;
class CBytePairCompressedImage
{
public:
static CBytePairCompressedImage* NewLC(TUint16 aNumberOfPages, TInt aSize);
~CBytePairCompressedImage();
void AddPage(TUint16 aPageNum, TUint8 * aPageData, TUint16 aPageSize);
int GetPage(TUint16 aPageNum, TUint8 * aPageData);
void WriteOutTable(std::ofstream &os);
int ReadInTable(std::ifstream &is, TUint & aNumberOfPages);
private:
TInt ConstructL( TUint16 aNumberOfPages, TInt aSize);
CBytePairCompressedImage();
private:
IndexTableHeader iHeader;
IndexTableItem* iPages;
TUint8* iOutBuffer;
};
CBytePairCompressedImage::CBytePairCompressedImage()
{
}
CBytePairCompressedImage* CBytePairCompressedImage::NewLC(TUint16 aNumberOfPages, TInt aSize)
{
CBytePairCompressedImage* self = new CBytePairCompressedImage;
if( NULL == self)
{
return self;
}
if( KErrNone == self->ConstructL(aNumberOfPages, aSize))
{
return self;
}
return NULL;
}
TInt CBytePairCompressedImage::ConstructL(TUint16 aNumberOfPages, TInt aSize)
{
//Print(EWarning,"Start ofCBytePairCompressedImage::ConstructL(%d, %d)\n", aNumberOfPages, aSize );
iHeader.iNumberOfPages = aNumberOfPages;
iHeader.iDecompressedSize = aSize;
if( 0 != aNumberOfPages)
{
iPages = (IndexTableItem *) calloc(aNumberOfPages, sizeof(IndexTableItem));
if( NULL == iPages )
{
return KErrNoMemory;
}
}
iHeader.iSizeOfData = sizeof(iHeader.iSizeOfData) +
sizeof(iHeader.iDecompressedSize) +
sizeof(iHeader.iNumberOfPages) +
aNumberOfPages * sizeof(TUint16);
iOutBuffer = (TUint8 *) calloc(4 * PAGE_SIZE, sizeof(TUint8) );
if ( NULL == iOutBuffer)
{
return KErrNoMemory;
}
return KErrNone;
} // End of ConstructL()
CBytePairCompressedImage::~CBytePairCompressedImage()
{
for( int i = 0; i < iHeader.iNumberOfPages; i++)
{
free(iPages[i].iCompressedPageData);
iPages[i].iCompressedPageData = NULL;
}
free( iPages );
iPages = NULL;
free( iOutBuffer );
iOutBuffer = NULL;
}
void CBytePairCompressedImage::AddPage(TUint16 aPageNum, TUint8 * aPageData, TUint16 aPageSize)
{
//Print(EWarning,"Start of AddPage(aPageNum:%d, ,aPageSize:%d)\n",aPageNum, aPageSize );
#ifdef __TEST_ONLY__
iPages[aPageNum].iSizeOfCompressedPageData = 2;
iPages[aPageNum].iCompressedPageData = (TUint8 *) calloc(iPages[aPageNum].iSizeOfCompressedPageData, sizeof(TUint8) );
memcpy(iPages[aPageNum].iCompressedPageData, (TUint8 *) &aPageNum, iPages[aPageNum].iSizeOfCompressedPageData);
#else
TUint16 compressedSize = (TUint16) Pak(iOutBuffer,aPageData,aPageSize );
iPages[aPageNum].iSizeOfCompressedPageData = compressedSize;
//Print(EWarning,"Compressed page size:%d\n", iPages[aPageNum].iSizeOfCompressedPageData );
iPages[aPageNum].iCompressedPageData = (TUint8 *) calloc(iPages[aPageNum].iSizeOfCompressedPageData, sizeof(TUint8) );
if( NULL == iPages[aPageNum].iCompressedPageData )
{
return;
}
memcpy(iPages[aPageNum].iCompressedPageData, iOutBuffer, iPages[aPageNum].iSizeOfCompressedPageData );
#endif
iHeader.iSizeOfData += iPages[aPageNum].iSizeOfCompressedPageData;
}
void CBytePairCompressedImage::WriteOutTable(std::ofstream & os)
{
// Write out IndexTableHeader
//Print(EWarning,"Write out IndexTableHeader(iSizeOfData:%d,iDecompressedSize:%d,iNumberOfPages:%d)\n",iHeader.iSizeOfData, iHeader.iDecompressedSize, iHeader.iNumberOfPages );
//Print(EWarning,"sizeof(IndexTableHeader) = %d, , sizeof(TUint16) = %d\n",sizeof(IndexTableHeader), sizeof(TUint16) );
//os.write((const char *) &iHeader, sizeof(IndexTableHeader));
os.write((const char *) &iHeader.iSizeOfData, sizeof(iHeader.iSizeOfData));
os.write((const char *) &iHeader.iDecompressedSize, sizeof(iHeader.iDecompressedSize));
os.write((const char *) &iHeader.iNumberOfPages, sizeof(iHeader.iNumberOfPages));
// Write out IndexTableItems (size of each compressed page)
for(TInt i = 0; i < iHeader.iNumberOfPages; i++)
{
os.write((const char *) &(iPages[i].iSizeOfCompressedPageData), sizeof(TUint16));
}
// Write out compressed pages
for(TInt i = 0; i < iHeader.iNumberOfPages; i++)
{
os.write( (const char *)iPages[i].iCompressedPageData, iPages[i].iSizeOfCompressedPageData);
}
}
int CBytePairCompressedImage::ReadInTable(std::ifstream &is, TUint & aNumberOfPages)
{
// Read page index table header
is.read((char *)&iHeader, (sizeof(iHeader.iSizeOfData)+sizeof(iHeader.iDecompressedSize)+sizeof(iHeader.iNumberOfPages)));
// Allocatin place to Page index table entries
iPages = (IndexTableItem *) calloc(iHeader.iNumberOfPages, sizeof(IndexTableItem));
if( NULL == iPages )
{
return KErrNoMemory;
}
// Read whole Page index table
for(TInt i = 0; i < iHeader.iNumberOfPages; i++)
{
is.read((char *) &(iPages[i].iSizeOfCompressedPageData), sizeof(TUint16));
}
// Read compressed data pages page by page, decompress and store them
for(TInt i = 0; i < iHeader.iNumberOfPages; i++)
{
iPages[i].iCompressedPageData = (TUint8 *) calloc(iPages[i].iSizeOfCompressedPageData, sizeof(TUint8) );
if( NULL == iPages[i].iCompressedPageData )
{
return KErrNoMemory;
}
is.read((char *)iPages[i].iCompressedPageData, iPages[i].iSizeOfCompressedPageData);
}
aNumberOfPages = iHeader.iNumberOfPages;
return KErrNone;
}
int CBytePairCompressedImage::GetPage(TUint16 aPageNum, TUint8 * aPageData)
{
TUint8* pakEnd;
const TInt MaxBlockSize = 0x1000;
TUint16 uncompressedSize = (TUint16) Unpak( aPageData,
MaxBlockSize,
iPages[aPageNum].iCompressedPageData,
iPages[aPageNum].iSizeOfCompressedPageData,
pakEnd );
return uncompressedSize;
}
void CompressPages(TUint8 * bytes, TInt size, std::ofstream& os)
{
// Build a list of compressed pages
TUint16 numOfPages = (TUint16) (size / PAGE_SIZE);
if ( size % PAGE_SIZE > 0)
++numOfPages;
CBytePairCompressedImage *comprImage = CBytePairCompressedImage::NewLC(numOfPages, size);
if( NULL == comprImage)
{
//Print(EError," NULL == comprImage\n");
return;
}
TUint8* iPageStart;
TUint16 iPageLen;
TUint16 iPage = 0;
while(iPage * PAGE_SIZE <= size )
{
iPageStart = &bytes[iPage * PAGE_SIZE];
iPageLen = (TUint16)( (iPage + 1) * PAGE_SIZE < size ? PAGE_SIZE : size - iPage * PAGE_SIZE);
comprImage->AddPage(iPage, iPageStart, iPageLen);
++iPage;
}
// Write out index table and compressed pages
comprImage->WriteOutTable(os);
delete comprImage;
comprImage = NULL;
}
int DecompressPages(TUint8 * bytes, std::ifstream& is)
{
TUint decompressedSize = 0;
CBytePairCompressedImage *comprImage = CBytePairCompressedImage::NewLC(0, 0);
if( NULL == comprImage)
{
//Print(EError," NULL == comprImage\n");
return KErrNoMemory;
}
TUint numberOfPages = 0;
comprImage->ReadInTable(is, numberOfPages);
TUint8* iPageStart;
TUint16 iPage = 0;
while(iPage < numberOfPages )
{
iPageStart = &bytes[iPage * PAGE_SIZE];
decompressedSize += comprImage->GetPage(iPage, iPageStart);
++iPage;
}
delete comprImage;
return decompressedSize;
}