fix ou1cimx1#651819 rofsbiuld fails to generate correct log info when using multi-thread
// 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 "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 <e32std_private.h>
#include "pe_file.h"
#include "h_utl.h"
#include <stdio.h>
extern char* gX86imp;
extern int gX86num_imp_dlls;
extern int gX86imp_size;
extern int gX86num_imports;
extern int* gX86imp_relocs;
TInt sizeOfCodeRelocs(TUint *relocs, TUint *relocsection, TInt nrelocs)
{
TInt bytecount=0;
TInt page=-1;
TInt i;
for (i=0; i<nrelocs; i++)
{
if ((TInt)relocsection[i]==KTextSection || (TInt)relocsection[i]==KConstSection || (TInt)relocsection[i]==KCrtSection)
{
TInt p=relocs[i]&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;
}
TInt sizeOfDataRelocs(TUint *relocs, TUint *relocsection, TInt nrelocs)
{
TInt bytecount=0;
TInt page=-1;
TInt i;
for (i=0; i<nrelocs; i++)
{
if ((TInt)relocsection[i]==KDataSection)
{
TInt p=relocs[i]&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;
}
void reorderRelocs(TUint aReloc[], TUint aRelocSection[], TInt aNumberOfRelocs)
//
// sort the relocations in section order
//
{
TUint *temp=new TUint [aNumberOfRelocs];
TUint *tempsection=new TUint [aNumberOfRelocs];
TInt idx=0;
TUint section=0;
while (idx<aNumberOfRelocs)
{
for (TInt i=0; i<aNumberOfRelocs; i++)
{
if (aRelocSection[i]==section)
{
temp[idx]=aReloc[i];
tempsection[idx]=aRelocSection[i];
idx++;
}
}
section++;
}
memcpy((char *)aReloc, (char *)temp, aNumberOfRelocs*sizeof(TUint));
memcpy((char *)aRelocSection, (char *)tempsection, aNumberOfRelocs*sizeof(TUint));
delete [] temp;
delete [] tempsection;
}
char *E32ImageFile_PE::CreateCodeRelocs(TUint *relocs, TUint *relocsection, TInt nrelocs, TInt &aSize)
{
TInt bytecount=sizeOfCodeRelocs(relocs, relocsection, 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 ncoderelocs=0;
TInt page=-1;
TInt pagesize=8;
TInt i;
for (i=0; i<nrelocs; i++)
{
if ((TInt)relocsection[i]==KTextSection || (TInt)relocsection[i]==KConstSection || (TInt)relocsection[i]==KCrtSection)
{
TInt p=relocs[i]&0xfffff000;
if (page!=p)
{
if (pagesize%4!=0)
{
*(TUint16 *)data=0;
data+=2;
pagesize+=2;
}
*(TUint *)startofblock=page;
*(TUint *)(startofblock+4)=pagesize;
pagesize=8;
page=p;
startofblock=data;
data+=8;
}
*(TUint16 *)data=(TUint16)((relocs[i]&0xfff)|0x3000);
data+=2;
pagesize+=2;
ncoderelocs++;
}
}
if (pagesize%4!=0)
{
*(TUint16 *)data=0;
data+=2;
pagesize+=2;
}
*(TUint *)startofblock=page;
*(TUint *)(startofblock+4)=pagesize;
((E32RelocSection *)section)->iNumberOfRelocs=ncoderelocs;
((E32RelocSection *)section)->iSize=bytecount;
return section;
}
char *E32ImageFile_PE::CreateDataRelocs(TUint *relocs, TUint *relocsection, TInt nrelocs, TInt &aSize)
{
TInt bytecount=sizeOfDataRelocs(relocs, relocsection, 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 ndatarelocs=0;
TInt page=-1;
TInt pagesize=8;
TInt i;
for (i=0; i<nrelocs; i++)
{
if ((TInt)relocsection[i]==KDataSection)
{
TInt p=relocs[i]&0xfffff000;
if (page!=p)
{
if (pagesize%4!=0)
{
*(TUint16 *)data=0;
data+=2;
pagesize+=2;
}
*(TUint *)startofblock=page;
*(TUint *)(startofblock+4)=pagesize;
pagesize=8;
page=p;
startofblock=data;
data+=8;
}
*(TUint16 *)data=(TUint16)((relocs[i]&0xfff)|0x3000);
data+=2;
pagesize+=2;
ndatarelocs++;
}
}
if (pagesize%4!=0)
{
*(TUint16 *)data=0;
data+=2;
pagesize+=2;
}
*(TUint *)startofblock=page;
*(TUint *)(startofblock+4)=pagesize;
((E32RelocSection *)section)->iNumberOfRelocs=ndatarelocs;
((E32RelocSection *)section)->iSize=bytecount;
return section;
}
void checkreloc(PEFile &aPeFile, TUint va, TUint reloc)
{
// Allow the section find routine to use heuristics to resolve addresses
// which have been offset by the compiler
TInt s = aPeFile.FindSectionByVa(va, 1);
switch(s)
{
case KTextSection:
case KConstSection:
case KDataSection:
case KCrtSection:
case KBssSection:
case KImportSection:
return;
default:
break;
}
Print(EAlways, "bad relocation: [%08x] = %08x\n", reloc, va);
}
void E32ImageFile_PE::FixRelocs(PEFile &aPeFile, TUint *relocation, TUint *relocsection, TInt aNumberOfRelocs)
{
TUint *data;
TInt i;
#if 0
Print(EAlways, "Linked base %08x\n", aPeFile.iLinkedBase);
for (i=0; i<KNumberOfSections; i++)
{
if (!aPeFile.iSectionHeader[i])
continue;
TUint start = aPeFile.iSectionHeader[i]->VirtualAddress;
TUint finish = start + aPeFile.iSectionHeader[i]->Misc.VirtualSize;
Print(EAlways, "Section %d %08x-%08x\n", i, start, finish);
}
#endif
for (i=0; i<aNumberOfRelocs; i++)
{
switch (relocsection[i])
{
case KTextSection:
relocation[i]-=aPeFile.iSectionHeader[KTextSection]->VirtualAddress;
data=(TUint *)(aPeFile.iSectionData[KTextSection]+relocation[i]);
if (!gLittleEndian) ByteSwap(*data);
checkreloc(aPeFile, *data, relocation[i]+aPeFile.iSectionHeader[KTextSection]->VirtualAddress);
*data=FixAddress(aPeFile, *data);
if (!gLittleEndian) ByteSwap(*data);
break;
case KConstSection:
relocation[i]-=aPeFile.iSectionHeader[KConstSection]->VirtualAddress;
data=(TUint *)(aPeFile.iSectionData[KConstSection]+relocation[i]);
if (!gLittleEndian) ByteSwap(*data);
checkreloc(aPeFile, *data, relocation[i]+aPeFile.iSectionHeader[KConstSection]->VirtualAddress);
relocation[i]+=ConstOffset();
*data=FixAddress(aPeFile, *data);
if (!gLittleEndian) ByteSwap(*data);
break;
case KCrtSection:
relocation[i]-=aPeFile.iSectionHeader[KCrtSection]->VirtualAddress;
data=(TUint *)(aPeFile.iSectionData[KCrtSection]+relocation[i]);
if (!gLittleEndian) ByteSwap(*data);
checkreloc(aPeFile, *data, relocation[i]+aPeFile.iSectionHeader[KCrtSection]->VirtualAddress);
relocation[i]+=iCrtOffset;
*data=FixAddress(aPeFile, *data);
if (!gLittleEndian) ByteSwap(*data);
break;
case KDataSection:
relocation[i]-=aPeFile.iSectionHeader[KDataSection]->VirtualAddress;
data=(TUint *)(aPeFile.iSectionData[KDataSection]+relocation[i]);
if (!gLittleEndian) ByteSwap(*data);
checkreloc(aPeFile, *data, relocation[i]+aPeFile.iSectionHeader[KDataSection]->VirtualAddress);
*data=FixAddress(aPeFile, *data);
if (!gLittleEndian) ByteSwap(*data);
break;
default:
Print(EWarning, "Relocation in invalid section.\n");
break;
}
}
reorderRelocs(relocation, relocsection, aNumberOfRelocs);
}
TUint E32ImageFile_PE::FixAddress(PEFile &aPeFile, TUint va)
//
// Fix the given virtual address for the new headers
//
{
// Allow the section find routine to use heuristics to resolve addresses
// which have been offset by the compiler
TInt section=aPeFile.FindSectionByVa(va, 1);
switch(section)
{
case KTextSection:
va-=aPeFile.iLinkedBase;
va-=aPeFile.iSectionHeader[KTextSection]->VirtualAddress;
va+=iHdr->iCodeBase;
break;
case KConstSection:
va-=aPeFile.iLinkedBase;
va-=aPeFile.iSectionHeader[KConstSection]->VirtualAddress;
if (gX86imp)
{
TUint old_iat_size=(gX86num_imports+gX86num_imp_dlls)<<2;
if (va<old_iat_size)
{
TInt offset=iHdr->iTextSize;
// fprintf(stderr,"IAT OFF %x ",va);
va=gX86imp_relocs[va>>2]+iHdr->iCodeBase+offset;
// fprintf(stderr,"-> %x\n",va);
break;
}
}
va+=iHdr->iCodeBase+ConstOffset();
// fprintf(stderr,"const reloc -> %x\n",va);
break;
case KDataSection:
va-=aPeFile.iLinkedBase;
va-=aPeFile.iSectionHeader[KDataSection]->VirtualAddress;
va+=iHdr->iDataBase; //DataOffset();
break;
case KCrtSection:
va-=aPeFile.iLinkedBase;
va-=aPeFile.iSectionHeader[KCrtSection]->VirtualAddress;
va+=iHdr->iCodeBase+iCrtOffset;
break;
case KBssSection:
va-=aPeFile.iLinkedBase;
va-=aPeFile.iSectionHeader[KBssSection]->VirtualAddress;
va+=iHdr->iDataBase+iHdr->iDataSize;
break;
case KImportSection:
va-=aPeFile.iLinkedBase;
va=FixImportThunk(aPeFile, va-aPeFile.iSectionHeader[KImportSection]->VirtualAddress);
va+=iHdr->iCodeBase;
break;
default:
if (va < 0x10000u)
{
// assume it's a relocation relative to an omitted section
break;
}
Print(EWarning, "Address to relocate cannot be resolved to .text, .rdata, .idata or data sections\n");
Print(EWarning, "Problem address = %08x (section %d)\n", va, section);
break;
}
// va is now an offset from the start of the text
return va;
}