fix ou1cimx1#651819 rofsbiuld fails to generate correct log info when using multi-thread
/*
* Copyright (c) 2002-2009 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 <time.h>
#include <malloc.h>
#include <string.h>
#include "elftran.h"
#include <e32std.h>
#include "elfdefs.h"
#include "elffile.h"
#include "h_ver.h"
#include "h_utl.h"
extern TUid gUid1, gUid2, gUid3;
extern int gSetUid1, gSetUid2, gSetUid3;
int gAlignConstSection=FALSE;
TUint gConstSectionAddressMask=0;
E32ImageFile* E32ImageFile::New()
{
return new E32ImageFile_ELF;
}
E32ImageFile_ELF::E32ImageFile_ELF()
{
}
E32ImageFile_ELF::~E32ImageFile_ELF()
{
}
TInt E32ImageFile_ELF::DoCodeHeader(ELFFile &aElfFile)
//
// Calculate the code parts of the ELFFile
//
{
TInt size=ALIGN4(aElfFile.GetCodeSize());
iHdr->iCodeSize = iHdr->iTextSize = size;
// make it the offset from the beginning of the file.....
if(iHdr->iExportDirCount==0)
iHdr->iExportDirOffset = 0;
else
iHdr->iExportDirOffset = aElfFile.GetExportTableOffset() + iHdr->iCodeOffset;
return size;
}
TInt E32ImageFile_ELF::DoDataHeader(ELFFile &aElfFile, TUint aDataBase)
{
if (aDataBase==0 && aElfFile.iDataSegmentHdr)
aDataBase=aElfFile.iDataSegmentHdr->p_vaddr;
TInt size=0;
iHdr->iDataBase=aDataBase;
if (aElfFile.HasInitialisedData())
{
size=ALIGN4(aElfFile.GetDataSize());
iHdr->iDataOffset = iHdr->iCodeOffset + iHdr->iCodeSize;
iHdr->iDataSize = size;
}
if (aElfFile.HasBssData())
{
iHdr->iBssSize = ALIGN4(aElfFile.GetBssSize());
}
return size;
}
TInt E32ImageFile_ELF::CopyCode(char *p, ELFFile &aElfFile)
//
// Copies the files code sections to p
// returns the number of bytes copied or KErrGeneral
//
{
TInt size=aElfFile.GetCodeSize();
memcpy(p, (char *)aElfFile.GetCode(), size);
p+=ALIGN4(size);
return iHdr->iCodeSize = size;
}
TInt E32ImageFile_ELF::CopyData(char *p, ELFFile &aElfFile)
{
TInt size=aElfFile.GetDataSize();
if (size) memcpy(p, (char *)aElfFile.GetData(), size);
return size;
}
TInt E32ImageFile_ELF::Translate(const char* aFileName, TUint aDataBase, TBool aAllowDllData, \
TBool aSymLkupEnabled)
//
// Translate a ELF format file to a E32Image file
//
{
iSource = EElfFile;
ELFFile elffile;
if (!elffile.Init(aFileName)) return KErrGeneral;
iFileName = strdup(aFileName);
Adjust(ALIGN4(sizeof(E32ImageHeaderV))); // fixed for now because holes not supported
SetDefaultHeader();
iHdr->iDllRefTableCount = elffile.NumberOfImportDlls();
iHdr->iExportDirCount = elffile.NumberOfExports();
iHdr->iCodeBase = elffile.iLinkedBase;
if(aSymLkupEnabled)
{
if( !SetUpLookupTable(elffile) )
return KErrGeneral;
}
TInt size = ALIGN4(sizeof(E32ImageHeaderV)); // fixed for now because holes not supported
iHdr->iCodeOffset = size;
TInt pos = size;
size+=DoCodeHeader(elffile);
size += DoSymbolLookupHeader(elffile, size - pos);
TInt nimports=elffile.NumberOfImports();
TInt importSectionSize;
char *newImportSection=CreateImportSection(elffile, importSectionSize);
TInt t=DoDataHeader(elffile, aDataBase);
if (t>0)
{
iHdr->iDataOffset = size;
size += t;
}
if (importSectionSize!=0)
{
iHdr->iImportOffset=size;
size+=ALIGN4(importSectionSize);
}
char *newCodeRelocs=NULL;
char *newDataRelocs=NULL;
TInt codeRelocSize=0, dataRelocSize=0;
TInt nCodeRelocs=elffile.NumberOfCodeRelocs();
TInt nDataRelocs=elffile.NumberOfDataRelocs();
if (nCodeRelocs + nDataRelocs)
{
Elf32_Rel **codeRelocs=new Elf32_Rel * [nCodeRelocs];
Elf32_Rel **dataRelocs=new Elf32_Rel * [nDataRelocs];
if (!elffile.GetRelocs(codeRelocs, dataRelocs)) return KErrGeneral;
FixRelocs(elffile, codeRelocs, dataRelocs);
if (elffile.iCodeSegmentHdr)
newCodeRelocs=CreateRelocs(elffile, codeRelocs, nCodeRelocs, codeRelocSize, elffile.iCodeSegmentHdr->p_vaddr);
if (elffile.iDataSegmentHdr)
newDataRelocs=CreateRelocs(elffile, dataRelocs, nDataRelocs, dataRelocSize, elffile.iDataSegmentHdr->p_vaddr);
if (codeRelocSize)
{
iHdr->iCodeRelocOffset = size;
size += codeRelocSize;
}
if (dataRelocSize)
{
iHdr->iDataRelocOffset = size;
size += dataRelocSize;
}
delete [] codeRelocs;
delete [] dataRelocs;
}
Adjust(size);
t=CopyCode(iData + pos, elffile);
if (t<0)
return KErrGeneral;
pos += t;
t = CopyExportSymInfo(iData+pos, elffile);
if (t<0)
return KErrGeneral;
pos += t;
pos += CopyData(iData + pos, elffile);
if (nimports)
{
memcpy(iData + pos, newImportSection, importSectionSize);
pos += ALIGN4(importSectionSize);
}
if (codeRelocSize)
{
memcpy(iData + pos, newCodeRelocs, codeRelocSize);
pos += codeRelocSize;
}
if (dataRelocSize)
{
memcpy(iData + pos, newDataRelocs, dataRelocSize);
pos += dataRelocSize;
}
// locate the entry point
TUint entryPointOffset=elffile.GetEntryPointOffset();
// Arrange a header for this E32 Image
iHdr->iCpuIdentifier = (TUint16)ECpuArmV4;
// Import format is ELF-derived
iHdr->iFlags |= KImageImpFmt_ELF;
// ABI is ARM EABI
iHdr->iFlags |= KImageABI_EABI;
if (ImageIsDll(elffile))
{
iHdr->iFlags |= KImageDll;
if (iHdr->iDataSize && !aAllowDllData)
return Print(EError, "Dll '%s' has initialised data.\n", iFileName);
if (iHdr->iBssSize && !aAllowDllData)
return Print(EError, "Dll '%s' has uninitialised data.\n", iFileName);
}
iHdr->iHeapSizeMin = elffile.iHeapCommittedSize;
iHdr->iHeapSizeMax = elffile.iHeapReservedSize;
iHdr->iStackSize = elffile.iStackCommittedSize;
iHdr->iEntryPoint = entryPointOffset;
TInt r = DetermineEntryPointType();
if (r == KErrCorrupt)
return Print(EError, "File '%s': Bad Entry Point.\n", iFileName);
else if (r == KErrNotSupported)
return Print(EError, "File '%s': Bad Entry Point Type.\n", iFileName);
SetUpExceptions(elffile);
delete [] newImportSection;
delete [] newCodeRelocs;
delete [] newDataRelocs;
return KErrNone;
}
TBool E32ImageFile_ELF::Translate(ELFFile &aElfFile)
{
// VT fix for warning
// fix warning in Linux
return Translate((const char*)aElfFile.iFileName, 0, EFalse);
}
TBool E32ImageFile_ELF::ImageIsDll(ELFFile& aElfFile)
{
return aElfFile.ImageIsDll();
}
void E32ImageFile_ELF::SetUpExceptions(ELFFile &aElfFile)
{
aElfFile.GetExceptionIndexInfo(iHdr->iExceptionDescriptor);
}
void E32ImageFile_ELF::SetSymNameLookup(TInt aSymNameLkupEnabled)
{
if(aSymNameLkupEnabled)
iHdr->iFlags |= KImageNmdExpData;
else
iHdr->iFlags &= ~KImageNmdExpData;
}
TBool E32ImageFile_ELF::IsNamedLookupEnabled()
{
return (iHdr->iFlags & KImageNmdExpData);
}
TBool E32ImageFile_ELF::SetUpLookupTable(ELFFile &aElfFile)
// Symbol lookup by name is enabled. Create the symbol table with names
// and their values.
{
if(!aElfFile.SetUpLookupTable() )
return FALSE;
SetSymNameLookup(TRUE);
return TRUE;
}
// Build the infrastructure for symbol lookup via name
TInt E32ImageFile_ELF::DoSymbolLookupHeader(ELFFile &aElfFile, TInt aBaseOffset)
{
if(!IsNamedLookupEnabled())
return 0;
aElfFile.SetLookupTblBase(aBaseOffset);
return aElfFile.GetLookupTblSize();
}
TUint E32ImageFile_ELF::CopyExportSymInfo(char *p, ELFFile &aElfFile)
{
iHdr->iCodeSize += aElfFile.GetLookupTblSize();
iHdr->iTextSize = iHdr->iCodeSize ;
return aElfFile.GetSymLookupSection(p);
}