Environment variables in the log are sorted alphabetically.
/*
* 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:
*
*/
#include <stdlib.h>
#include <string.h>
#include <e32std.h>
#include "elftran.h"
#include "elffile.h"
#include "h_utl.h"
#include <assert.h>
TInt sizeOfRelocs(Elf32_Rel **relocs, TInt nrelocs)
{
TInt bytecount=0;
TInt page=-1;
TInt i;
for (i=0; i<nrelocs; i++)
{
TInt p=relocs[i]->r_offset&0xfffff000;
if (page!=p)
{
if (bytecount%4!=0)
bytecount+=2;
bytecount+=8; // page, block size
page=p;
}
bytecount+=2;
}
if (bytecount%4!=0)
bytecount+=2;
return bytecount;
}
char* E32ImageFile_ELF::CreateRelocs(ELFFile& aElfFile, Elf32_Rel **relocs, TInt nrelocs, TInt &aSize, TUint aBase)
{
TInt bytecount=sizeOfRelocs(relocs, nrelocs);
aSize=0;
if (bytecount==0)
return NULL;
aSize=bytecount+sizeof(E32RelocSection);
char *section=new char [bytecount+sizeof(E32RelocSection)];
char *data=section+sizeof(E32RelocSection);
char *startofblock=data;
TInt page=-1;
TInt pagesize=8;
TInt i;
for (i=0; i<nrelocs; i++)
{
TInt p=relocs[i]->r_offset&0xfffff000;
if (page!=p)
{
if (pagesize%4!=0)
{
*(TUint16 *)data=0;
data+=2;
pagesize+=2;
}
if (page == -1) page = p;
*(TUint *)startofblock=page - aBase;
*(TUint *)(startofblock+4)=pagesize;
pagesize=8;
page=p;
startofblock=data;
data+=8;
}
TUint16 relocType = aElfFile.GetRelocType(relocs[i]);
*(TUint16 *)data=(TUint16)((relocs[i]->r_offset&0xfff)|relocType);
data+=2;
pagesize+=2;
}
if (pagesize%4!=0)
{
*(TUint16 *)data=0;
data+=2;
pagesize+=2;
}
*(TUint *)startofblock=page - aBase;
*(TUint *)(startofblock+4)=pagesize;
((E32RelocSection *)section)->iNumberOfRelocs=nrelocs;
((E32RelocSection *)section)->iSize=bytecount;
return section;
}
void checkreloc(ELFFile& aElfFile, TUint va, TUint reloc)
{
// This will warn if appears to be outside any known segment.
// NB. Such relocations can occur as the result of 'optimizations'
// and aren't 'bugs'.
// It turns out that the released version of RVCT makes such widespread
// use of the optimization that this warning is disconcerting and
// unhelpful.
(void) aElfFile;
(void)va;
(void)reloc;
#if 0
if (!aElfFile.GetSegmentFromAddr(va))
Print(EWarning, "dubious relocation: [%08x] = %08x\n", reloc, va);
#endif
}
void E32ImageFile_ELF::FixRelocs(ELFFile &aElfFile, Elf32_Rel **codeRelocs, Elf32_Rel **dataRelocs)
{
TUint *data;
TInt numberOfCodeRelocs = aElfFile.NumberOfCodeRelocs();
TInt numberOfDataRelocs = aElfFile.NumberOfDataRelocs();
for (TInt i=0; i<numberOfCodeRelocs; i++)
{
data=aElfFile.CodePtrFromAddr(codeRelocs[i]->r_offset);
checkreloc(aElfFile, *data, codeRelocs[i]->r_offset);
//*data=FixAddress(aElfFile, *data, codeRelocs[i]);
}
// fix defect
for (TInt j=0; j<numberOfDataRelocs; j++)
{
data=aElfFile.DataPtrFromAddr(dataRelocs[j]->r_offset);
checkreloc(aElfFile, *data, dataRelocs[j]->r_offset);
//*data=FixAddress(aElfFile, *data, dataRelocs[j]);
}
}
TUint E32ImageFile_ELF::FixAddress(ELFFile &aElfFile, TUint va, Elf32_Rel * rel)
//
// Fix the given virtual address for the new headers
//
{
Elf32_Phdr * segment = aElfFile.GetSegmentFromAddr(rel->r_offset);
assert(aElfFile.CodeSegmentP(segment) || aElfFile.DataSegmentP(segment));
TUint offset = va - segment->p_vaddr;
if (aElfFile.CodeSegmentP(segment))
return (TUint)aElfFile.GetCode() + offset;
else
return (TUint)aElfFile.GetData() + offset;
}