60a4b1c9ef
git-svn-id: svn://kolibrios.org@9683 a494cfbc-eb01-0410-851d-a64ba20cac60
703 lines
31 KiB
C++
703 lines
31 KiB
C++
/**************************** elf2cof.cpp *********************************
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* Author: Agner Fog
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* Date created: 2006-08-19
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* Last modified: 2013-11-27
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* Project: objconv
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* Module: elf2cof.cpp
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* Description:
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* Module for converting ELF file to PE/COFF file
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*
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* Copyright 2006-2013 GNU General Public License http://www.gnu.org/licenses
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*****************************************************************************/
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#include "stdafx.h"
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// All functions in this module are templated to make two versions: 32 and 64 bits.
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// See instantiations at the end of this file.
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// Constructor
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template <class TELF_Header, class TELF_SectionHeader, class TELF_Symbol, class TELF_Relocation>
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CELF2COF<ELFSTRUCTURES>::CELF2COF() {
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// Reset all
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memset(this, 0, sizeof(*this));
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}
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// Convert(): Do the conversion
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template <class TELF_Header, class TELF_SectionHeader, class TELF_Symbol, class TELF_Relocation>
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void CELF2COF<ELFSTRUCTURES>::Convert() {
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// Some compilers require this-> for accessing members of template base class,
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// according to the so-called two-phase lookup rule.
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// Allocate variable size buffers
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NewSectIndex.SetNum(this->NSections);// Allocate section translation table
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NewSectIndex.SetZero(); // Initialize
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// Call the subfunctions
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ToFile.SetFileType(FILETYPE_COFF); // Set type of to file
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MakeFileHeader(); // Make file header
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MakeSectionsIndex(); // Make sections index translation table
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MakeSymbolTable(); // Make symbol table and string tables
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MakeSections(); // Make sections and relocation tables
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HideUnusedSymbols(); // Hide unused symbols
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MakeBinaryFile(); // Put sections together
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*this << ToFile; // Take over new file buffer
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}
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// MakeFileHeader(): Convert subfunction to make file header
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template <class TELF_Header, class TELF_SectionHeader, class TELF_Symbol, class TELF_Relocation>
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void CELF2COF<ELFSTRUCTURES>::MakeFileHeader() {
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// Make PE file header
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NewFileHeader.Machine = (this->WordSize == 32) ? PE_MACHINE_I386 : PE_MACHINE_X8664;
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NewFileHeader.TimeDateStamp = (uint32)time(0);
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NewFileHeader.SizeOfOptionalHeader = 0;
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NewFileHeader.Flags = 0;
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// Values inserted later:
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NewFileHeader.NumberOfSections = 0;
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NewFileHeader.PSymbolTable = 0;
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NewFileHeader.NumberOfSymbols = 0;
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// Put file header into file
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ToFile.Push(&NewFileHeader, sizeof(NewFileHeader));
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}
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// MakeSectionsIndex(): Make sections index translation table
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template <class TELF_Header, class TELF_SectionHeader, class TELF_Symbol, class TELF_Relocation>
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void CELF2COF<ELFSTRUCTURES>::MakeSectionsIndex() {
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// We must make this table before the segments, because it is needed for the
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// symbol table, and we must make the symbol table before the relocation table,
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// and we must make the relocation table together with the sections.
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uint32 oldsec; // Section number in old file
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uint32 newsec = 0; // Section number in new file
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// Loop through old sections
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for (oldsec = 0; oldsec < this->NSections; oldsec++) {
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// Get section name
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const char * sname = "";
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uint32 namei = this->SectionHeaders[oldsec].sh_name;
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if (namei >= this->SecStringTableLen) err.submit(2112);
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else sname = this->SecStringTable + namei;
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if (cmd.DebugInfo == CMDL_DEBUG_STRIP) {
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// Check for debug section names
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if (strncmp(sname, ".note", 5) == 0
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|| strncmp(sname, ".comment", 8) == 0
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|| strncmp(sname, ".stab", 5) == 0
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|| strncmp(sname, ".debug", 6) == 0) {
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// Remove this section
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this->SectionHeaders[oldsec].sh_type = SHT_REMOVE_ME;
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cmd.CountDebugRemoved();
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}
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}
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if (cmd.ExeptionInfo == CMDL_EXCEPTION_STRIP) {
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// Check for exception section name
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if (strncmp(sname, ".eh_frame", 9) == 0) {
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// Remove this section
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this->SectionHeaders[oldsec].sh_type = SHT_REMOVE_ME;
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cmd.CountExceptionRemoved();
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}
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}
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// Search for program data sections only
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if (this->SectionHeaders[oldsec].sh_type == SHT_PROGBITS
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|| this->SectionHeaders[oldsec].sh_type == SHT_NOBITS) {
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// Section index translation table
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NewSectIndex[oldsec] = newsec++;
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}
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else {
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NewSectIndex[oldsec] = 0;
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}
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}
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// Store number of sections in new file
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NumSectionsNew = newsec;
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// Calculate file offset of raw data
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RawDataOffset = sizeof(SCOFF_FileHeader) + NumSectionsNew * sizeof(SCOFF_SectionHeader);
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}
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// MakeSections(): Convert subfunction to make sections and relocation tables
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template <class TELF_Header, class TELF_SectionHeader, class TELF_Symbol, class TELF_Relocation>
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void CELF2COF<ELFSTRUCTURES>::MakeSections() {
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uint32 oldsec; // Section number in old file
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uint32 relsec; // Relocation section in old file
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SCOFF_SectionHeader NewHeader; // New section header
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TELF_SectionHeader OldHeader; // Old section header
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TELF_SectionHeader OldRelHeader; // Old relocation section header
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TELF_Relocation OldRelocation; // Old relocation table entry
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SCOFF_Relocation NewRelocation; // New relocation table entry
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// Loop through old sections
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for (oldsec = 0; oldsec < this->NSections; oldsec++) {
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// Copy old header for convenience
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OldHeader = this->SectionHeaders[oldsec];
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// Search for program data sections only
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if (OldHeader.sh_type == SHT_PROGBITS || OldHeader.sh_type == SHT_NOBITS) {
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// Reset new section header
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memset(&NewHeader, 0, sizeof(NewHeader));
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// Section name
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const char * sname = "";
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uint32 namei = OldHeader.sh_name;
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if (namei >= this->SecStringTableLen) err.submit(2112);
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else sname = this->SecStringTable + namei;
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// Check for special names
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if (strcmp(sname, ELF_CONSTRUCTOR_NAME)==0) {
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// This is the constructors segment
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sname = COFF_CONSTRUCTOR_NAME;
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OldHeader.sh_flags &= ~ SHF_WRITE;
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}
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// Store name in section header
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COFF_PutNameInSectionHeader(NewHeader, sname, NewStringTable);
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// Raw data
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NewHeader.SizeOfRawData = uint32(OldHeader.sh_size); // section size in file
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if (OldHeader.sh_size && OldHeader.sh_type != SHT_NOBITS) {
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// File to raw data for section
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NewHeader.PRawData = NewRawData.GetDataSize() + RawDataOffset;
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// Copy raw data
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NewRawData.Push(this->Buf()+(uint32)(OldHeader.sh_offset), (uint32)(OldHeader.sh_size));
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NewRawData.Align(4);
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}
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// Section flags
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NewHeader.Flags = PE_SCN_MEM_READ;
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if (OldHeader.sh_flags & SHF_WRITE) NewHeader.Flags |= PE_SCN_MEM_WRITE;
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if (OldHeader.sh_flags & SHF_EXECINSTR) {
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NewHeader.Flags |= PE_SCN_MEM_EXECUTE | PE_SCN_CNT_CODE;
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}
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else {
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NewHeader.Flags |= (OldHeader.sh_type == SHT_PROGBITS) ?
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PE_SCN_CNT_INIT_DATA : PE_SCN_CNT_UNINIT_DATA;
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}
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// Alignment
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int NewAlign = FloorLog2(uint32(OldHeader.sh_addralign)) + 1;
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if (NewAlign > 14) NewAlign = 14; // limit for highest alignment
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NewHeader.Flags |= PE_SCN_ALIGN_1 * NewAlign;
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// Find relocation table for this section by searching through all sections
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for (relsec = 1; relsec < this->NSections; relsec++) {
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// Get section header
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OldRelHeader = this->SectionHeaders[relsec];
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// Check if this is a relocations section referring to oldsec
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if ((OldRelHeader.sh_type == SHT_REL || OldRelHeader.sh_type == SHT_RELA) // if section is relocation
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&& OldRelHeader.sh_info == oldsec) { // and if section refers to current section
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// Found the right relocation table. Get pointer
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int8 * reltab = this->Buf() + uint32(OldRelHeader.sh_offset);
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int8 * reltabend = reltab + uint32(OldRelHeader.sh_size);
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// Get entry size
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int entrysize = uint32(OldRelHeader.sh_entsize);
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int expectedentrysize = (OldRelHeader.sh_type == SHT_RELA) ?
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sizeof(TELF_Relocation) : // Elf32_Rela, Elf64_Rela
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sizeof(TELF_Relocation) - this->WordSize/8; // Elf32_Rel, Elf64_Rel
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if (entrysize < expectedentrysize) {err.submit(2033); entrysize = expectedentrysize;}
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// File pointer for new relocations
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NewHeader.PRelocations = NewRawData.GetDataSize() + RawDataOffset; // file to relocation entries
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// Loop through relocation table entries
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for (; reltab < reltabend; reltab += entrysize) {
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// Copy relocation table entry with or without addend
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OldRelocation.r_addend = 0;
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memcpy(&OldRelocation, reltab, entrysize);
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// Find inline addend
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uint32 InlinePosition = (uint32)(NewHeader.PRawData - RawDataOffset + OldRelocation.r_offset);
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// Check that address is valid
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if (InlinePosition >= this->GetDataSize()) {
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// Address is invalid
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err.submit(2032);
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break;
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}
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// Pointer to inline addend
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int32 * piaddend = (int32*)(NewRawData.Buf() + InlinePosition);
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// Symbol offset
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NewRelocation.VirtualAddress = uint32(OldRelocation.r_offset);
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// Symbol table index
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if (OldRelocation.r_sym < NewSymbolIndex.GetNumEntries()) {
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NewRelocation.SymbolTableIndex = NewSymbolIndex[OldRelocation.r_sym];
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}
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else {
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NewRelocation.SymbolTableIndex = 0; // Symbol table index out of range
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}
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// Get relocation type and fix addend
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if (this->WordSize == 32) {
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switch(OldRelocation.r_type) {
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case R_386_NONE: // Ignored
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NewRelocation.Type = COFF32_RELOC_ABS; break;
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case R_386_IRELATIVE:
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err.submit(1063); // Warning: Gnu indirect function cannot be converted
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// continue in next case?:
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case R_386_32: // 32-bit absolute virtual address
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NewRelocation.Type = COFF32_RELOC_DIR32;
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*piaddend += uint32(OldRelocation.r_addend);
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break;
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case R_386_PC32: // 32-bit self-relative
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NewRelocation.Type = COFF32_RELOC_REL32;
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// Difference between EIP-relative and self-relative relocation = size of address field
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// Adjust inline addend for different relocation method:
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*piaddend += 4 + uint32(OldRelocation.r_addend);
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break;
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case R_386_GOT32: case R_386_GLOB_DAT: case R_386_GOTOFF: case R_386_GOTPC:
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// Global offset table
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err.submit(2042); // cannot convert position-independent code
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err.ClearError(2042); // report this error only once
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NewRelocation.Type = 0;
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break;
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case R_386_PLT32: case R_386_JMP_SLOT:
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// procedure linkage table
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err.submit(2043); // cannot convert import table
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err.ClearError(2043); // report this error only once
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NewRelocation.Type = 0;
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break;
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case R_386_RELATIVE: // adjust by program base
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default: // Unknown or unsupported relocation method
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err.submit(2030, OldRelocation.r_type);
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err.ClearError(2030); // report this error only once
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NewRelocation.Type = 0;
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break;
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}
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}
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else { // WordSize == 64
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switch(OldRelocation.r_type) {
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case R_X86_64_NONE: // Ignored
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NewRelocation.Type = COFF64_RELOC_ABS;
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break;
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case R_X86_64_64: // 64 bit absolute virtual addres
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NewRelocation.Type = COFF64_RELOC_ABS64;
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*(int64*)piaddend += OldRelocation.r_addend;
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break;
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case R_X86_64_IRELATIVE:
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err.submit(1063); // Warning: Gnu indirect function cannot be converted
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// continue in next case?:
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case R_X86_64_32S: // 32 bit absolute virtual address, sign extended
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case R_X86_64_32: // 32 bit absolute virtual address, zero extended
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NewRelocation.Type = COFF64_RELOC_ABS32;
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*piaddend += uint32(OldRelocation.r_addend);
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break;
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case R_X86_64_PC32: // 32 bit, self-relative
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// See COFF2ELF.cpp for an explanation of the difference between
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// COFF and ELF relative relocation methods
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*piaddend += uint32(OldRelocation.r_addend);
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if (*piaddend >= -8 && *piaddend <= -4) {
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NewRelocation.Type = (uint16)(COFF64_RELOC_REL32 - *piaddend - 4);
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*piaddend = 0;
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}
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else {
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NewRelocation.Type = COFF64_RELOC_REL32;
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*piaddend += 4;
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}
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break;
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case R_X86_64_RELATIVE: // Adjust by program base
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err.submit(2030, OldRelocation.r_type);
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err.ClearError(2030); // report this error only once
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NewRelocation.Type = 0;
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break;
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case R_X86_64_GOT32: case R_X86_64_GLOB_DAT: case R_X86_64_GOTPCREL:
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// Global offset table
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err.submit(2042); // cannot convert position-independent code
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err.ClearError(2042); // report this error only once
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NewRelocation.Type = 0;
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break;
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case R_X86_64_PLT32: case R_X86_64_JUMP_SLOT:
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// procedure linkage table
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err.submit(2042); // cannot convert import table
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err.ClearError(2043); // report this error only once
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NewRelocation.Type = 0;
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break;
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default: // Unknown or unsupported relocation method
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err.submit(2030, OldRelocation.r_type);
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err.ClearError(2030); // report this error only once
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NewRelocation.Type = 0;
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break;
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}
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}
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// Store relocation entry
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NewRawData.Push(&NewRelocation, SIZE_SCOFF_Relocation);
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NewHeader.NRelocations++;
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// Remember that symbol is used
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if (OldRelocation.r_type) {
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SymbolsUsed[NewRelocation.SymbolTableIndex]++;
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}
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} // End of relocations loop
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} // End of if right relocation table
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} // End of search for relocation table
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// Align raw data for next section
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NewRawData.Align(4);
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// Store section header in file
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ToFile.Push(&NewHeader, sizeof(NewHeader));
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} // End of if section has program data
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} // End of loop through old sections
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} // End of function MakeSections
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// Check for overflow when converting 64 bit symbol value to 32 bits.
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// Value may be signed or unsigned
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static int SymbolOverflow(uint64 x) {
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uint32 Upper = HighDWord(x); // Upper 32 bits of 64 bit value
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if (Upper == 0xFFFFFFFF) { // Check for signed overflow
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return int32(x) >= 0; // Overflow if not signed
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}
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return Upper != 0; // Check for unsigned overflow
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}
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static int SymbolOverflow(uint32 x) { // Overloaded 32 bit version
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return 0; // Cannot overflow if already 32 bits
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}
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// MakeSymbolTable(): Convert subfunction to make symbol table and string tables
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template <class TELF_Header, class TELF_SectionHeader, class TELF_Symbol, class TELF_Relocation>
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void CELF2COF<ELFSTRUCTURES>::MakeSymbolTable() {
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uint32 oldsec; // Section number in old file
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TELF_SectionHeader OldHeader; // Old section header
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int FoundSymTab = 0; // Found symbol table
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int8 * strtab; // Old symbol string table
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int8 * symtab; // Old symbol table
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uint32 symtabsize; // Size of old symbol table
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uint32 stringtabsize; // Size of old string table
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int8 * symtabend; // End of old symbol table
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uint32 entrysize; // Size of each entry in old symbol table
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uint32 OldSymI; // Symbol index in old symbol table
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uint32 NewSymI = 0; // Symbol index in new symbol table
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const char * symname = 0; // Symbol name
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TELF_Symbol OldSym; // Old symbol table record
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SCOFF_SymTableEntry NewSym; // New symbol table record
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SCOFF_SymTableEntry AuxSym; // Auxiliary symbol table entry
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uint32 numaux; // Number of auxiliary records for new entry
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// Initialize new string table. make space for 4-bytes size
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NewStringTable.Push(0, 4);
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// Loop through old sections to find symbol table
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for (oldsec = 0; oldsec < this->NSections; oldsec++) {
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// Search for program data sections only
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if (this->SectionHeaders[oldsec].sh_type == SHT_SYMTAB
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|| this->SectionHeaders[oldsec].sh_type==SHT_DYNSYM) {
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FoundSymTab++; numaux = 0;
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// Copy symbol table header for convenience
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OldHeader = this->SectionHeaders[oldsec];
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// Find associated string table
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if (OldHeader.sh_link >= this->NSections) {err.submit(2035); OldHeader.sh_link = 0;}
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strtab = this->Buf() + uint32(this->SectionHeaders[OldHeader.sh_link].sh_offset);
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stringtabsize = uint32(this->SectionHeaders[OldHeader.sh_link].sh_size);
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// Find old symbol table
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entrysize = uint32(OldHeader.sh_entsize);
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if (entrysize < sizeof(TELF_Symbol)) {err.submit(2033); entrysize = sizeof(TELF_Symbol);}
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symtab = this->Buf() + uint32(OldHeader.sh_offset);
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symtabsize = uint32(OldHeader.sh_size);
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symtabend = symtab + symtabsize;
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// Loop through old symbol table
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for (OldSymI = 0; symtab < symtabend; symtab += entrysize, OldSymI++) {
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// Copy old symbol table entry
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OldSym = *(TELF_Symbol*)symtab;
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// Reset new symbol table entry
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memset(&NewSym, 0, sizeof(NewSym));
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// New symbol index
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NewSymI = NewSymbolTable.GetNumEntries();
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// Symbol type
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int type = OldSym.st_type;
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// Symbol storage class = binding
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int binding = OldSym.st_bind;
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// Get symbol name
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if (OldSym.st_name < stringtabsize) {
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symname = strtab + OldSym.st_name;
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if (symname && *symname && type != STT_FILE) {
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// Symbol has a name that we want to store
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COFF_PutNameInSymbolTable(NewSym, symname, NewStringTable);
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}
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}
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else { // points outside string table
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err.submit(2112); continue;
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}
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// Value
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NewSym.s.Value = uint32(OldSym.st_value);
|
|
// Check for overflow if converting 64 bit symbol value to 32 bits
|
|
if (SymbolOverflow(OldSym.st_value)) err.submit(2020, symname);
|
|
|
|
// Section
|
|
if (OldSym.st_shndx == SHN_UNDEF) {
|
|
NewSym.s.SectionNumber = COFF_SECTION_UNDEF; // External
|
|
}
|
|
else if ((int16)(OldSym.st_shndx) == SHN_ABS) {
|
|
NewSym.s.SectionNumber = COFF_SECTION_ABSOLUTE; // Absolute symbol
|
|
}
|
|
else if (OldSym.st_shndx >= this->NSections) {
|
|
err.submit(2036, OldSym.st_shndx); // Special/unknown section index or out of range
|
|
}
|
|
else {
|
|
// Normal section index.
|
|
// Look up in section index translation table and add 1 because it is 1-based
|
|
NewSym.s.SectionNumber = (int16)(NewSectIndex[OldSym.st_shndx] + 1);
|
|
}
|
|
|
|
// Convert binding/storage class
|
|
switch (binding) {
|
|
case STB_LOCAL:
|
|
NewSym.s.StorageClass = COFF_CLASS_STATIC; break;
|
|
|
|
case STB_GLOBAL:
|
|
NewSym.s.StorageClass = COFF_CLASS_EXTERNAL; break;
|
|
|
|
case STB_WEAK:
|
|
err.submit(1051, symname); // Weak public symbol not supported
|
|
NewSym.s.StorageClass = COFF_CLASS_WEAK_EXTERNAL; break;
|
|
|
|
default:
|
|
err.submit(2037, binding); // Other. Not supported
|
|
}
|
|
|
|
// Make record depending on type
|
|
switch (type) {
|
|
case STT_OBJECT: case STT_NOTYPE:
|
|
// Data object
|
|
NewSym.s.Type = COFF_TYPE_NOT_FUNCTION;
|
|
if (OldSymI > 0) { // First symbol entry in ELF file is unused
|
|
NewSymbolTable.Push(&NewSym, SIZE_SCOFF_SymTableEntry);
|
|
}
|
|
break;
|
|
|
|
case STT_GNU_IFUNC:
|
|
err.submit(1063); // Warning: Gnu indirect function cannot be converted
|
|
// continue in next case:
|
|
case STT_FUNC:
|
|
// Function
|
|
NewSym.s.Type = COFF_TYPE_FUNCTION;
|
|
NewSymbolTable.Push(&NewSym, SIZE_SCOFF_SymTableEntry);
|
|
// Aux records needed only if debug information included
|
|
break;
|
|
|
|
case STT_FILE: {
|
|
// File name record
|
|
memset(&NewSym, 0, sizeof(NewSym));
|
|
strcpy(NewSym.s.Name, ".file");
|
|
NewSym.s.StorageClass = COFF_CLASS_FILE;
|
|
NewSym.s.SectionNumber = COFF_SECTION_DEBUG;
|
|
// Remove path from file name
|
|
const char * shortname = symname;
|
|
uint32 len = (uint32)strlen(symname);
|
|
if (len > 1) {
|
|
// Scan backwards for last '/'
|
|
for (int scan = len-2; scan >= 0; scan--) {
|
|
if (symname[scan] == '/' || symname[scan] == '\\') {
|
|
// Path found. Short name starts after this character
|
|
shortname = symname + scan + 1;
|
|
break;
|
|
}
|
|
}
|
|
}
|
|
len = (uint32)strlen(shortname);
|
|
if (len > 35) len = 35; // arbitrary limit to file name length
|
|
|
|
// Number of auxiliary records for storing file name
|
|
numaux = (len + SIZE_SCOFF_SymTableEntry - 1) / SIZE_SCOFF_SymTableEntry;
|
|
NewSym.s.NumAuxSymbols = (uint8)numaux;
|
|
// Store regular record
|
|
NewSymbolTable.Push(&NewSym, SIZE_SCOFF_SymTableEntry);
|
|
// Store numaux auxiliary records for file name
|
|
for (uint32 i = 0; i < numaux; i++) { // Can't push all in one operation because NumEntries will be wrong
|
|
NewSymbolTable.Push(0, SIZE_SCOFF_SymTableEntry);
|
|
}
|
|
// copy name into NewSymbolTable aux records
|
|
int8 * PointAux = NewSymbolTable.Buf() + NewSymbolTable.GetDataSize();
|
|
memcpy(PointAux - numaux*SIZE_SCOFF_SymTableEntry, shortname, len);
|
|
break;}
|
|
|
|
case STT_SECTION: {
|
|
// Section name record
|
|
NewSym.s.Value = 0;
|
|
NewSym.s.Type = 0;
|
|
NewSym.s.StorageClass = COFF_CLASS_STATIC;
|
|
NewSym.s.NumAuxSymbols = (uint8)(numaux = 1);
|
|
|
|
// Find corresponding section header
|
|
TELF_SectionHeader * OldSecHdr = 0;
|
|
if (OldSym.st_shndx < this->NSections) {
|
|
OldSecHdr = &(this->SectionHeaders[OldSym.st_shndx]);
|
|
|
|
// Find section name
|
|
char * sname;
|
|
if (OldSecHdr->sh_name < this->SecStringTableLen) {
|
|
sname = this->SecStringTable + OldSecHdr->sh_name;
|
|
// Put into symbol table
|
|
COFF_PutNameInSymbolTable(NewSym, sname, NewStringTable);
|
|
}
|
|
}
|
|
|
|
// Store regular record
|
|
NewSymbolTable.Push(&NewSym, SIZE_SCOFF_SymTableEntry);
|
|
|
|
// Make auxiliary record
|
|
memset(&AuxSym, 0, sizeof(AuxSym));
|
|
if (OldSecHdr) {
|
|
AuxSym.section.Length = uint32(OldSecHdr->sh_size);
|
|
// Find corresponding relocation section header
|
|
// Assume that relocation section comes immediately after section record
|
|
if ((uint32)OldSym.st_shndx + 1 < this->NSections // if not last section
|
|
&& (OldSecHdr[1].sh_type == SHT_REL || OldSecHdr[1].sh_type == SHT_RELA) // and if next section is relocation
|
|
&& OldSecHdr[1].sh_info == OldSym.st_shndx // and if next section refers to current section
|
|
&& OldSecHdr[1].sh_entsize > 0) { // Avoid division by 0
|
|
// Calculate number of relocations
|
|
AuxSym.section.NumberOfRelocations = (uint16)(uint32(OldSecHdr[1].sh_size) / uint32(OldSecHdr[1].sh_entsize));
|
|
}
|
|
}
|
|
// Store auxiliary record
|
|
NewSymbolTable.Push(&AuxSym, SIZE_SCOFF_SymTableEntry);
|
|
break;}
|
|
|
|
case STT_COMMON:
|
|
default:
|
|
err.submit(2038, type); // Symbol type not supported
|
|
}
|
|
|
|
if (FoundSymTab == 1) {
|
|
// Make translation table from old symbol index to new symbol index,
|
|
// assuming there is only one symbol table.
|
|
// Make sure all old symbols have an entry in the NewSymbolIndex table,
|
|
// even if they are discarded.
|
|
NewSymbolIndex.Push(NewSymI);
|
|
}
|
|
} // End OldSymI loop
|
|
}
|
|
} // End search for symbol table
|
|
if (FoundSymTab == 0) err.submit(2034); // Symbol table not found
|
|
if (FoundSymTab > 1) err.submit(1032); // More than one symbol table found
|
|
|
|
// Allocate space for SymbolsUsed table
|
|
SymbolsUsed.SetNum(NewSymI+1);
|
|
SymbolsUsed.SetZero(); // Initialize
|
|
}
|
|
|
|
|
|
// HideUnusedSymbols(): Hide unused symbols if stripping debug info or exception info
|
|
template <class TELF_Header, class TELF_SectionHeader, class TELF_Symbol, class TELF_Relocation>
|
|
void CELF2COF<ELFSTRUCTURES>::HideUnusedSymbols() {
|
|
|
|
if (cmd.DebugInfo != CMDL_DEBUG_STRIP && cmd.ExeptionInfo != CMDL_EXCEPTION_STRIP) {
|
|
// No sections removed. Do nothing
|
|
return;
|
|
}
|
|
|
|
// Pointer to new symbol table
|
|
union {
|
|
SCOFF_SymTableEntry * p; // Symtab entry pointer
|
|
int8 * b; // Used for increment
|
|
} NewSymtab;
|
|
NewSymtab.b = NewSymbolTable.Buf();
|
|
int numaux = 0, isym;
|
|
int NumberOfSymbols = NewSymbolTable.GetNumEntries();
|
|
|
|
// Loop through new symbol table
|
|
for (isym = 0; isym < NumberOfSymbols; isym += numaux+1, NewSymtab.b += SIZE_SCOFF_SymTableEntry*(numaux+1)) {
|
|
|
|
// Number of auxiliary records belonging to same symbol
|
|
numaux = NewSymtab.p->s.NumAuxSymbols; if (numaux < 0) numaux = 0;
|
|
|
|
if (NewSymtab.p->s.StorageClass == COFF_CLASS_EXTERNAL
|
|
|| NewSymtab.p->s.StorageClass == COFF_CLASS_WEAK_EXTERNAL) {
|
|
if (NewSymtab.p->s.SectionNumber == COFF_SECTION_UNDEF) {
|
|
// External symbol. Check if it is used
|
|
if (!SymbolsUsed[isym]) {
|
|
// Symbol is unused. Hide it to prevent linking errors
|
|
NewSymtab.p->s.StorageClass = COFF_CLASS_NULL;
|
|
NewSymtab.p->s.SectionNumber = COFF_SECTION_UNDEF;
|
|
NewSymtab.p->s.Type = COFF_TYPE_NOT_FUNCTION;
|
|
cmd.CountSymbolsHidden();
|
|
}
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
// MakeBinaryFile(): Convert subfunction to put all sections together
|
|
template <class TELF_Header, class TELF_SectionHeader, class TELF_Symbol, class TELF_Relocation>
|
|
void CELF2COF<ELFSTRUCTURES>::MakeBinaryFile() {
|
|
|
|
// Insert string table size
|
|
//NewStringTable.Get<uint32>(0) = NewStringTable.GetDataSize();
|
|
// Some compilers fail with the double template here. Avoid the template:
|
|
*(uint32*)(NewStringTable.Buf()) = NewStringTable.GetDataSize();
|
|
|
|
// Update file header
|
|
NewFileHeader.NumberOfSections = (uint16)NumSectionsNew;
|
|
NewFileHeader.PSymbolTable = RawDataOffset + NewRawData.GetDataSize();
|
|
NewFileHeader.NumberOfSymbols = NewSymbolTable.GetNumEntries();
|
|
|
|
// Replace file header in new file with updated version
|
|
memcpy(ToFile.Buf(), &NewFileHeader, sizeof(NewFileHeader));
|
|
|
|
// Section headers have already been inserted.
|
|
// Insert raw data in file
|
|
ToFile.Push(NewRawData.Buf(), NewRawData.GetDataSize());
|
|
|
|
// Insert symbol table
|
|
ToFile.Push(NewSymbolTable.Buf(), NewSymbolTable.GetDataSize());
|
|
|
|
// Insert string table
|
|
ToFile.Push(NewStringTable.Buf(), NewStringTable.GetDataSize());
|
|
}
|
|
|
|
|
|
// Make template instances for 32 and 64 bits
|
|
template class CELF2COF<ELF32STRUCTURES>;
|
|
template class CELF2COF<ELF64STRUCTURES>;
|