Release note: Raptor cannot report error or warning message in wrong implib project
// Copyright (c) 2004-2009 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 "elffilesupplied.h"
#include "pl_elfexecutable.h"
#include "errorhandler.h"
#include "pl_dso_handler.h"
#include "deffile.h"
#include "pl_elfexports.h"
#include "pl_dllsymbol.h"
#include "elf2e32.h"
#include "staticlibsymbols.h"
#include <algorithm>
#include <iostream>
#include<hash_set>
using namespace std;
/**
Constructor for class ElfFileSupplied to initialize members and create instance of class DSOHandler
@param aParameterListInterface - Instance of class ParameterListInterface
@internalComponent
@released
*/
ElfFileSupplied::ElfFileSupplied(ParameterListInterface* aParameterListInterface) : UseCaseBase(aParameterListInterface) ,
iNumAbsentExports(-1),iExportBitMap(NULL),iE32ImageFile(NULL), iElfExecutable(NULL), \
iExportDescSize(0), iExportDescType(0)
{
iElfIfc = new DSOHandler(aParameterListInterface);
}
/**
Destructor for class ElfFileSupplied to release allocated memory
@internalComponent
@released
*/
ElfFileSupplied::~ElfFileSupplied()
{
iSymList.clear();
delete iElfIfc;
delete [] iExportBitMap;
}
/**
Execute Function for the Elf File Supplied use case
@return 0 on success
@internalComponent
@released
*/
int ElfFileSupplied::Execute()
{
ReadElfFile();
iElfIfc->ProcessElfFile();
try
{
ProcessExports();
}
catch(SymbolMissingFromElfError& aSme)
{
/* Only DEF file would be generated if symbols found in
* DEF file are missing from the ELF file.
*/
WriteDefFile();
throw aSme;
}
GenerateOutput();
return 0;
}
/**
Function to read ELF File
@internalComponent
@released
*/
void ElfFileSupplied::ReadElfFile()
{
char * aElfFileName = UseCaseBase::InputElfFileName();
iElfIfc->ReadElfFile(aElfFileName);
iElfExecutable = iElfIfc->ElfExecutableP();
}
/**
Function to process exports
@internalComponent
@released
*/
void ElfFileSupplied::ProcessExports()
{
ValidateExports(NULL);
CreateExports();
}
/**
Function to write DEF File
@internalComponent
@released
*/
void ElfFileSupplied::WriteDefFile()
{
char * aDEFFileName = UseCaseBase::DefOutput();
DefFile deffile;
deffile.WriteDefFile(aDEFFileName, &iSymList);
}
/**
Function to create exports
@internalComponent
@released
*/
void ElfFileSupplied::CreateExports()
{
if (iElfExecutable->iExports || GetNamedSymLookup())
{
CreateExportTable();
CreateExportBitMap();
}
}
/**
Function to validate exports
@param aDefExports - List of export symbols from Def file and/or sysdef.
@internalComponent
@released
*/
void ElfFileSupplied::ValidateExports(SymbolList *aDefExports)
{
/**
* Symbols from DEF file (DEF_Symbols) => Valid_DEF + Absent
* Symbols from ELF file (ELF_Symbols) => Existing + NEW
* 1. if the set {Valid_DEF - ELF_Symbols} is non-empty then, symbols are missing
* from Elf and it is an error if the mode is UNFROZEN
* 2. if the intersection set {Absent,ELF_Symbols} is non-empty, absent symbols
* are exported from Elf..warn for this
* 3. if the set {ELF_Symbols - Valid_DEF} is non-empty, these are the NEW symbols
* 4. if there are symbols marked absent in DEF file but exported in ELF,
* add them into the new list retaining the ordinal number as of the
* absent symbol(using PtrELFExportNameCompareUpdateOrdinal).
**/
PLUINT32 aMaxOrdinal = 0;
int len = strlen("_ZTI");
typedef SymbolList::iterator Iterator;
Iterator aPos, aEnd;
//SymbolList *aDefExports, aDefValidExports, aDefAbsentExports, aElfExports;
SymbolList aDefValidExports, aDefAbsentExports, aElfExports;
//aDefExports = iDefIfc->GetSymbolEntryList();
if (aDefExports)
{
aPos = aDefExports->begin();
aEnd = aDefExports->end();
while(aPos != aEnd)
{
if( (*aPos)->Absent() ){
aDefAbsentExports.insert(aDefAbsentExports.end(), *aPos);
}
else {
aDefValidExports.insert(aDefValidExports.end(), *aPos);
}
if( aMaxOrdinal < (*aPos)->OrdNum() ){
aMaxOrdinal = (*aPos)->OrdNum();
}
aPos++;
}
}
iSymList = aDefValidExports;
if (iElfIfc->ElfExecutableP()->iExports)
iElfIfc->GetElfExportSymbolList( aElfExports );
else if (!aDefExports)
return;
// REVISIT - return back if elfexports and defexports is NULL
aDefValidExports.sort(ElfExports::PtrELFExportNameCompare());
aElfExports.sort(ElfExports::PtrELFExportNameCompare());
aDefAbsentExports.sort(ElfExports::PtrELFExportNameCompare());
//Check for Case 1... {Valid_DEF - ELF_Symbols}
{
SymbolList aResult(aDefValidExports.size());
Iterator aResultPos = aResult.begin();
Iterator aMissingListEnd = set_difference(aDefValidExports.begin(), aDefValidExports.end(), \
aElfExports.begin(), aElfExports.end(), aResultPos, ElfExports::PtrELFExportNameCompareUpdateAttributes());
std::list<String> aMissingSymNameList;
while (aResultPos != aMissingListEnd) {
// {Valid_DEF - ELF_Symbols} is non empty
(*aResultPos)->SetSymbolStatus(Missing); // Set the symbol Status as Missing
aMissingSymNameList.push_back((*aResultPos)->SymbolName());
aResultPos++;
//throw error
}
if( aMissingSymNameList.size() ) {
if (!Unfrozen())
throw SymbolMissingFromElfError(SYMBOLMISSINGFROMELFERROR, aMissingSymNameList, UseCaseBase::InputElfFileName());
else
cout << "Elf2e32: Warning: " << aMissingSymNameList.size() << " Frozen Export(s) missing from the ELF file" << endl;
}
}
//Check for Case 2... intersection set {Absent,ELF_Symbols}
{
if(aDefAbsentExports.size())
{
SymbolList aResult(aDefAbsentExports.size());
Iterator aResultPos = aResult.begin();
Iterator aAbsentListEnd = set_intersection(aDefAbsentExports.begin(), aDefAbsentExports.end(), \
aElfExports.begin(), aElfExports.end(), aResultPos, ElfExports::PtrELFExportNameCompareUpdateAttributes());
while( aResultPos != aAbsentListEnd )
{
// intersection set {Absent,ELF_Symbols} is non-empty
// Ignore the non callable exports
if ((strncmp("_ZTI", (*aResultPos)->SymbolName(), len)) &&
(strncmp("_ZTV", (*aResultPos)->SymbolName(), len)))
{
iSymList.insert(iSymList.end(), *aResultPos);
cout << "Elf2e32: Warning: Symbol " << (*aResultPos)->SymbolName() << " absent in the DEF file, but present in the ELF file" << endl;
}
aResultPos++;
}
}
}
//Do 3
{
SymbolList aResult(aElfExports.size());
Iterator aResultPos = aResult.begin();
Iterator aNewListEnd = set_difference(aElfExports.begin(), aElfExports.end(), \
aDefValidExports.begin(), aDefValidExports.end(), aResultPos, ElfExports::PtrELFExportNameCompare());
bool aIgnoreNonCallable = GetIgnoreNonCallable();
bool aIsCustomDll = IsCustomDllTarget();
bool aExcludeUnwantedExports = ExcludeUnwantedExports();
while( aResultPos != aNewListEnd )
{
if( !(*aResultPos)->Absent() )
{
/* For a custom dll and for option "--excludeunwantedexports", the new exports should be filtered,
* so that only the exports from the frozen DEF file are considered.
*/
if ((aIsCustomDll || aExcludeUnwantedExports) && UnWantedSymbolp((*aResultPos)->SymbolName()))
{
iElfExecutable->iExports->ExportsFilteredP(true);
iElfExecutable->iExports->iFilteredExports.insert(iElfExecutable->iExports->iFilteredExports.end(),(DllSymbol *)(*aResultPos));
aResultPos++;
continue;
}
if (aIgnoreNonCallable)
{
// Ignore the non callable exports
if ((!strncmp("_ZTI", (*aResultPos)->SymbolName(), len)) ||
(!strncmp("_ZTV", (*aResultPos)->SymbolName(), len)))
{
iElfExecutable->iExports->ExportsFilteredP(true);
iElfExecutable->iExports->iFilteredExports.insert(iElfExecutable->iExports->iFilteredExports.end(),(DllSymbol *)(*aResultPos));
aResultPos++;
continue;
}
}
(*aResultPos)->SetOrdinal( ++aMaxOrdinal );
(*aResultPos)->SetSymbolStatus(New); // Set the symbol Status as NEW
iSymList.insert(iSymList.end(), *aResultPos);
if(WarnForNewExports())
cout << "Elf2e32: Warning: New Symbol " << (*aResultPos)->SymbolName() << " found, export(s) not yet Frozen" << endl;
}
aResultPos++;
}
}
//Do 4
{
if(aDefAbsentExports.size())
{
SymbolList aResult(aDefAbsentExports.size());
Iterator aResultPos = aResult.begin();
Iterator aAbsentListEnd = set_difference(aDefAbsentExports.begin(), aDefAbsentExports.end(), \
aElfExports.begin(), aElfExports.end(), aResultPos, ElfExports::PtrELFExportNameCompareUpdateAttributes());
DllSymbol *aSymbol;
bool aAbsent = true;
while( aResultPos != aAbsentListEnd ) {
//aElfExports.insert(aElfExports.end(), *aResultPos);
aSymbol = new DllSymbol( *aResultPos, SymbolTypeCode, aAbsent);
iElfExecutable->iExports->Add(iElfExecutable->iSOName, aSymbol);
//aElfExports.insert(aElfExports.end(), (Symbol*)aSymbol);
iSymList.insert(iSymList.end(), (Symbol*)aSymbol);
aResultPos++;
}
aElfExports.sort(ElfExports::PtrELFExportOrdinalCompare());
iSymList.sort(ElfExports::PtrELFExportOrdinalCompare());
}
}
if(iElfExecutable->iExports && iElfExecutable->iExports->ExportsFilteredP() ) {
iElfExecutable->iExports->FilterExports();
}
aElfExports.clear();
aDefAbsentExports.clear();
aDefValidExports.clear();
}
/**
Function to generate output which is E32 Image file, DEF File and DSO file, if
exports are available.
@internalComponent
@released
*/
void ElfFileSupplied::GenerateOutput()
{
if (iElfExecutable->iExports)
{
Elf2E32::ValidateDSOGeneration(iParameterListInterface, ETargetTypeNotSet);
WriteDefFile();
WriteDSOFile();
}
Elf2E32::ValidateE32ImageGeneration(iParameterListInterface, ETargetTypeNotSet);
WriteE32();
}
/**
Function to write DSO file.
@internalComponent
@released
*/
void ElfFileSupplied::WriteDSOFile()
{
char * aLinkAs = UseCaseBase::LinkAsDLLName();
char * aDSOName = UseCaseBase::DSOOutput();
char * aDSOFileName = UseCaseBase::FileName(aDSOName);
iElfIfc->WriteElfFile( aDSOName, aDSOFileName, aLinkAs, iSymList );
}
/**
Function to write E32 Image file.
@internalComponent
@released
*/
void ElfFileSupplied::WriteE32()
{
const char * aE32FileName = OutputE32FileName();
iE32ImageFile = new E32ImageFile(aE32FileName, iElfExecutable, this);
try
{
iE32ImageFile->GenerateE32Image();
if (iE32ImageFile->WriteImage(aE32FileName))
{
//GetELF2E32()->AddFileCleanup(aE32FileName);
delete iE32ImageFile;
}
}
catch (...)
{
delete iE32ImageFile;
throw;
}
}
/**
Function to check image is Dll or not.
@return True if image is Dll, otherwise false.
@internalComponent
@released
*/
bool ElfFileSupplied::ImageIsDll()
{
return (iElfExecutable->LookupStaticSymbol("_E32Dll") != NULL);
}
/**
Function to allocate E32 Image header.
@return pointer to E32ImageHeaderV
@internalComponent
@released
*/
E32ImageHeaderV * ElfFileSupplied::AllocateE32ImageHeader()
{
if (iNumAbsentExports == 0)
{
return new E32ImageHeaderV;
}
int nexp = GetNumExports();
size_t memsz = (nexp + 7) >> 3; // size of complete bitmap
size_t mbs = (memsz + 7) >> 3; // size of meta-bitmap
size_t nbytes = 0;
PLUINT32 i;
for (i=0; i<memsz; ++i)
if (iExportBitMap[i] != 0xff)
++nbytes; // number of groups of 8
PLUINT8 edt = KImageHdr_ExpD_FullBitmap;
PLUINT32 extra_space = memsz - 1;
if (mbs + nbytes < memsz)
{
edt = KImageHdr_ExpD_SparseBitmap8;
extra_space = mbs + nbytes - 1;
}
extra_space = (extra_space + sizeof(PLUINT32) - 1) &~ (sizeof(PLUINT32) - 1);
size_t aExtendedHeaderSize = sizeof(E32ImageHeaderV) + extra_space;
iE32ImageFile->SetExtendedE32ImageHeaderSize(aExtendedHeaderSize);
E32ImageHeaderV * aHdr = (E32ImageHeaderV *)new PLUINT8[aExtendedHeaderSize];
iExportDescType = edt;
if (edt == KImageHdr_ExpD_FullBitmap)
{
iExportDescSize = (PLUINT16)memsz;
memcpy(aHdr->iExportDesc, iExportBitMap, memsz);
}
else
{
iExportDescSize = (PLUINT16) (mbs + nbytes);
memset(aHdr->iExportDesc, 0, extra_space + 1);
PLUINT8* mptr = aHdr->iExportDesc;
PLUINT8* gptr = mptr + mbs;
for (i=0; i<memsz; ++i)
{
if (iExportBitMap[i] != 0xff)
{
mptr[i>>3] |= (1u << (i&7));
*gptr++ = iExportBitMap[i];
}
}
}
return aHdr;
}
/**
Function to create export table
@internalComponent
@released
*/
void ElfFileSupplied::CreateExportTable()
{
ElfExports::ExportList aList;
if(iElfExecutable->iExports)
aList = iElfExecutable->GetExportsInOrdinalOrder();
iExportTable.CreateExportTable(iElfExecutable, aList);
}
/**
Function to create export bitmap
@internalComponent
@released
*/
void ElfFileSupplied::CreateExportBitMap()
{
int nexp = GetNumExports();
size_t memsz = (nexp + 7) >> 3;
iExportBitMap = new PLUINT8[memsz];
memset(iExportBitMap, 0xff, memsz);
// skip header
PLUINT32 * exports = ((PLUINT32 *)GetExportTable()) + 1;
PLUINT32 absentVal = iElfExecutable->EntryPointOffset() + iElfExecutable->GetROBase();
iNumAbsentExports = 0;
for (int i=0; i<nexp; ++i)
{
if (exports[i] == absentVal)
{
iExportBitMap[i>>3] &= ~(1u << (i & 7));
++iNumAbsentExports;
}
}
}
/**
Function to get number of exports
@return Number of exports in export table
@internalComponent
@released
*/
size_t ElfFileSupplied::GetNumExports()
{
return iExportTable.GetNumExports();
}
/**
Function to check export table is required.
@return True for E32 image if allocation requires space for export table.
@internalComponent
@released
*/
bool ElfFileSupplied::AllocateExportTableP()
{
return iExportTable.AllocateP();
}
/**
Function to get export table
@return Pointer to export table
@internalComponent
@released
*/
char * ElfFileSupplied::GetExportTable()
{
return (char *)iExportTable.GetExportTable();
}
/**
Function to get export table size
@return size of export table
@internalComponent
@released
*/
size_t ElfFileSupplied::GetExportTableSize()
{
return iExportTable.GetExportTableSize();
}
/**
Function to get export table Virtual address
@return the export table VA
@internalComponent
@released
*/
size_t ElfFileSupplied::GetExportTableAddress()
{
return iExportTable.iExportTableAddress;
}
/**
Function to get export offset
@return size of export offset
@internalComponent
@released
*/
size_t ElfFileSupplied::GetExportOffset()
{
return iE32ImageFile->GetExportOffset();
}
/**
Function to get symbol type based on the encoded names.
@return CODE or DATA
@internalComponent
@released
*/
SymbolType ElfFileSupplied::SymbolTypeF(char * aName)
{
size_t prefixLength = strlen("_ZTV");
bool classImpedimenta = false;
classImpedimenta = !strncmp(aName, "_ZTV", prefixLength) ||
!strncmp(aName, "_ZTI", prefixLength) ||
!strncmp(aName, "_ZTS", prefixLength) ;
return classImpedimenta? SymbolTypeData : SymbolTypeCode;
}
/**
Function to get export description size
@return export description size
@internalComponent
@released
*/
PLUINT16 ElfFileSupplied::GetExportDescSize()
{
return iExportDescSize;
}
/**
Function to get export description type
@return export description type
@internalComponent
@released
*/
PLUINT8 ElfFileSupplied::GetExportDescType()
{
return iExportDescType;
}
/**
Function to indicate if the new exports are to be reported as warnings.
@return export description type
@internalComponent
@released
*/
bool ElfFileSupplied::WarnForNewExports()
{
return true;
}
/**
To check if the two strings are equal
@internalComponent
@released
*/
struct eqstr
{
bool operator()(const char* s1, const char* s2) const
{
return strcmp(s1, s2) == 0;
}
};
/**
Function to provide a predicate which checks whether a symbol name is unwanted:
@return 1 if new symbols are present in the static library list else return 0
@param aSymbol symbols to be checked if part of static lib
@internalComponent
@released
*/
int ElfFileSupplied::UnWantedSymbolp(const char * aSymbol)
{
static hash_set<const char*, hash<const char*>, eqstr> aSymbolSet;
int symbollistsize=sizeof(Unwantedruntimesymbols)/sizeof(Unwantedruntimesymbols[0]);
static bool FLAG=false;
while(!FLAG)
{
for(int i=0;i<symbollistsize;i++)
{
aSymbolSet.insert(Unwantedruntimesymbols[i]);
}
FLAG=true;
}
hash_set<const char*, hash<const char*>, eqstr>::const_iterator it
= aSymbolSet.find(aSymbol);
if(it != aSymbolSet.end())
return 1;
else
return 0;
}