kolibrios-gitea/programs/develop/objconv/cof2asm.cpp

530 lines
21 KiB
C++
Raw Normal View History

/**************************** cof2asm.cpp ********************************
* Author: Agner Fog
* Date created: 2007-02-25
* Last modified: 2009-12-20
* Project: objconv
* Module: cof2asm.cpp
* Description:
* Module for disassembling PE/COFF file
*
* Copyright 2007-2009 GNU General Public License http://www.gnu.org/licenses
*****************************************************************************/
#include "stdafx.h"
CCOF2ASM::CCOF2ASM () {
// Constructor
}
void CCOF2ASM::Convert() {
// Do the conversion
if (ImageBase) Disasm.Init(2, ImageBase); // Executable file or DLL. Set image base
MakeSectionList(); // Make Sections list and Relocations list in Disasm
MakeSymbolList(); // Make Symbols list in Disasm
if (ImageBase) {
// Executable file
MakeDynamicRelocations(); // Make dynamic base relocations for executable files
MakeImportList(); // Make imported symbols for executable files
MakeExportList(); // Make exported symbols for executable files
MakeListLabels(); // Put labels on all image directory tables
}
Disasm.Go(); // Disassemble
*this << Disasm.OutFile; // Take over output file from Disasm
}
void CCOF2ASM::MakeSectionList() {
// Make Sections list and Relocations list in Disasm
uint32 isec; // Section index
uint32 irel; // Relocation index
// Loop through sections
for (isec = 0; isec < (uint32)NSections; isec++) {
// Get section header
SCOFF_SectionHeader * SectionHeader = &SectionHeaders[isec];
// Section properties
const char * Name = GetSectionName(SectionHeader->Name);
uint8 * Buffer = (uint8*)Buf() + SectionHeader->PRawData;
uint32 InitSize = SectionHeader->SizeOfRawData;
uint32 TotalSize = SectionHeader->VirtualSize;
uint32 SectionAddress = SectionHeader->VirtualAddress;
uint32 Type = (SectionHeader->Flags & PE_SCN_CNT_CODE) ? 1 : 2;
if (SectionHeader->Flags & PE_SCN_CNT_UNINIT_DATA) {
// BSS segment. No data in file
Buffer = 0;
Type = 3;
}
else if (!(SectionHeader->Flags & (PE_SCN_MEM_WRITE | PE_SCN_MEM_EXECUTE))) {
// Constant segment
Type = 4;
}
if (SectionHeader->Flags & PE_SCN_LNK_COMDAT) {
// Communal section
Type |= 0x1000;
}
if (strnicmp(Name,"debug",5) == 0 || strnicmp(Name+1,"debug",5) == 0) {
// This is a debug section
Type = 0x10;
}
if (strnicmp(Name,".pdata", 6) == 0) {
// This section has exception information
Type = 0x11;
}
uint32 Align = (SectionHeader->Flags & PE_SCN_ALIGN_MASK) / PE_SCN_ALIGN_1;
if (Align) Align--;
// Save section record
Disasm.AddSection(Buffer, InitSize, TotalSize, SectionAddress, Type, Align, WordSize, Name);
// Get relocations
// Pointer to relocation entry
union {
SCOFF_Relocation * p; // pointer to record
int8 * b; // used for address calculation and incrementing
} Reloc;
Reloc.b = Buf() + SectionHeader->PRelocations;
for (irel = 0; irel < SectionHeader->NRelocations; irel++, Reloc.b += SIZE_SCOFF_Relocation) {
// Relocation properties
int32 Section = isec + 1;
uint32 Offset = Reloc.p->VirtualAddress;
int32 Addend = 0;
uint32 TargetIndex = Reloc.p->SymbolTableIndex;
// Translate relocation type
uint32 Type = 0, Size = 0;
if (WordSize == 32) {
// 32 bit relocation types
// 0 = unknown, 1 = direct, 2 = self-relative, 3 = image-relative, 4 = segment relative
switch(Reloc.p->Type) {
case COFF32_RELOC_ABS: // Ignore
continue;
case COFF32_RELOC_DIR32: // Direct, 32 bits
Type = 1;
Size = 4;
break;
case COFF32_RELOC_REL32: // Self-relative, 32 bits
Type = 2;
Size = 4;
Addend = -4;
break;
case COFF32_RELOC_IMGREL: // Image relative, 32 bits
Type = 4;
Size = 4;
break;
case COFF32_RELOC_SECREL: // Section relative, 32 bits
Type = 8;
Size = 4;
break;
case COFF32_RELOC_SECTION: // Section index of symbol, 16 bits
Type = 0x200;
Size = 2;
break;
default: // Other/unknown
Type = 0;
Size = 4;
}
}
else { // WordSize = 64
switch(Reloc.p->Type) {
case COFF64_RELOC_ABS: // Ignore
continue;
case COFF64_RELOC_ABS32: // Absolute 32 bit
Type = 1;
Size = 4;
break;
case COFF64_RELOC_ABS64: // Absolute 64 bit
Type = 1;
Size = 8;
break;
case COFF64_RELOC_IMGREL: // Image relative 32 bit
Type = 4;
Size = 4;
break;
case COFF64_RELOC_REL32: // Self-relative, 32 bits
case COFF64_RELOC_REL32_1: // Self-relative + 1
case COFF64_RELOC_REL32_2: // Self-relative + 2
case COFF64_RELOC_REL32_3: // Self-relative + 3
case COFF64_RELOC_REL32_4: // Self-relative + 4
case COFF64_RELOC_REL32_5: // Self-relative + 5
Type = 2;
Size = 4;
Addend = - (Reloc.p->Type + 4 - COFF64_RELOC_REL32);
break;
case COFF64_RELOC_SECREL: // Section relative
Type = 8;
Size = 4;
break;
default: // Other/unknown
Type = 0;
Size = 4;
}
}
// Save relocation record
Disasm.AddRelocation(Section, Offset, Addend, Type, Size, TargetIndex);
}
}
}
void CCOF2ASM::MakeSymbolList() {
// Make Symbols list in Disasm
uint32 isym; // Symbol index
uint32 naux = 0; // Number of auxiliary entries in old symbol table
union { // Pointer to old symbol table entries
SCOFF_SymTableEntry * p; // Normal pointer
int8 * b; // Used for address calculation
} Sym, SymAux;
// Set pointer to old SymbolTable
Sym.p = SymbolTable;
// Loop through old symbol table
for (isym = 0; isym < (uint32)NumberOfSymbols; isym += 1+naux, Sym.b += (1+naux) * SIZE_SCOFF_SymTableEntry) {
// Number of auxiliary entries
naux = Sym.p->s.NumAuxSymbols;
if (Sym.p->s.SectionNumber != COFF_SECTION_ABSOLUTE
&& (Sym.p->s.SectionNumber < 0
|| (Sym.p->s.StorageClass != COFF_CLASS_EXTERNAL && Sym.p->s.StorageClass != COFF_CLASS_STATIC && Sym.p->s.StorageClass != COFF_CLASS_LABEL))) {
// Ignore irrelevant symbol table entries
continue;
}
// Symbol properties
uint32 Index = isym;
int32 Section = Sym.p->s.SectionNumber;
uint32 Offset = Sym.p->s.Value;
uint32 Size = 0;
uint32 Type = (Sym.p->s.Type == COFF_TYPE_FUNCTION) ? 0x83 : 0;
// Identify segment entries in symbol table
if (Sym.p->s.Value == 0 && Sym.p->s.StorageClass == COFF_CLASS_STATIC
&& naux && Sym.p->s.Type != 0x20) {
// Note: The official MS specification says that a symbol table entry
// is a section if the storage class is static and the value is 0,
// but I have encountered static functions that meet these criteria.
// Therefore, I am also checking Type and naux.
Type = 0x80000082;
}
const char * Name = GetSymbolName(Sym.p->s.Name);
// Get scope. Note that these values are different from the constants defined in maindef.h
uint32 Scope = 0;
if (Sym.p->s.StorageClass == COFF_CLASS_STATIC || Sym.p->s.StorageClass == COFF_CLASS_LABEL) {
Scope = 2; // Local
}
else if (Sym.p->s.SectionNumber > 0 || (Sym.p->s.SectionNumber == -1 && Sym.p->s.StorageClass == COFF_CLASS_EXTERNAL)) {
Scope = 4; // Public
}
else {
Scope = 0x20; // External
}
// Check auxiliary symbol table entries
if (naux && Sym.p->s.Type == COFF_TYPE_FUNCTION) {
// Function symbol has auxiliary entry. Get information about size
SymAux.b = Sym.b + SIZE_SCOFF_SymTableEntry;
Size = SymAux.p->func.TotalSize;
}
// Check for special section values
if (Section < 0) {
if (Section == COFF_SECTION_ABSOLUTE) {
// Symbol is an absolute constant
Section = ASM_SEGMENT_ABSOLUTE;
}
else {
// Debug symbols, etc
Section = ASM_SEGMENT_ERROR;
}
}
// Store new symbol record
Disasm.AddSymbol(Section, Offset, Size, Type, Scope, Index, Name);
}
}
void CCOF2ASM::MakeDynamicRelocations() {
// Make dynamic base relocations for executable files
// Find base relocation table
SCOFF_ImageDirAddress reldir;
if (!GetImageDir(5, &reldir)) {
// No base relocation table found
return;
}
SCOFF_BaseRelocationBlock * pBaseRelocation; // Start of dynamic base relocation section
// Beginning of .reloc section is first base relocation block
pBaseRelocation = &Get<SCOFF_BaseRelocationBlock>(reldir.FileOffset);
uint32 ROffset = 0; // Offset into .reloc section
uint32 BlockEnd; // Offset of end of current block
uint32 PageOffset; // Image-relative address of begin of page
// Make pointer to header or entry in .reloc section
union {
SCOFF_BaseRelocationBlock * header;
SCOFF_BaseRelocation * entry;
int8 * b;
} Pointer;
// Loop throung .reloc section
// while (ROffset < reldir.MaxOffset) {
while (ROffset < reldir.Size) {
// Set Pointer to current position
Pointer.header = pBaseRelocation;
Pointer.b += ROffset;
// Read base relocation block
PageOffset = Pointer.header->PageRVA;
BlockEnd = ROffset + Pointer.header->BlockSize;
// Read entries in this block
ROffset += sizeof(SCOFF_BaseRelocationBlock);
Pointer.b += sizeof(SCOFF_BaseRelocationBlock);
// Loop through entries
while (ROffset < BlockEnd) {
// Set Pointer to current position
Pointer.header = pBaseRelocation;
Pointer.b += ROffset;
if (Pointer.entry->Type == COFF_REL_BASED_HIGHLOW) {
// Add relocation record, 32 bit
// Section = ASM_SEGMENT_IMGREL means offset is image-relative
// Type = 0x20 means already relocated to image base
Disasm.AddRelocation(ASM_SEGMENT_IMGREL, Pointer.entry->Offset + PageOffset, 0, 0x21, 4, 0);
}
else if (Pointer.entry->Type == COFF_REL_BASED_DIR64) {
// Add relocation record, 64 bit
Disasm.AddRelocation(ASM_SEGMENT_IMGREL, Pointer.entry->Offset + PageOffset, 0, 0x21, 8, 0);
}
// Go to next
ROffset += sizeof(SCOFF_BaseRelocation);
if (Pointer.entry->Type == COFF_REL_BASED_HIGHADJ) ROffset += sizeof(SCOFF_BaseRelocation);
}
// Finished block. Align by 4
ROffset = (ROffset + 3) & uint32(-4);
}
}
void CCOF2ASM::MakeImportList() {
// Make imported symbols for executable files
// Find import table
SCOFF_ImageDirAddress impdir;
if (!GetImageDir(1, &impdir)) {
// No import table found
return;
}
// Beginning of import section is import directory
SCOFF_ImportDirectory * pImportDirectory = &Get<SCOFF_ImportDirectory>(impdir.FileOffset);
// Check if 64 bit
int Is64bit = OptionalHeader->h64.Magic == COFF_Magic_PE64; // 1 if 64 bit
uint32 EntrySize = Is64bit ? 8 : 4; // Size of address table entries
uint32 NameOffset; // Offset to name
const char * SymbolName; // Name of symbol
const char * DLLName; // Name of DLL containing symbol
char NameBuffer[64]; // Buffer for creating name of ordinal symbols
uint32 SectionOffset; // Section-relative address of current entry
uint32 HintNameOffset; // Section-relative address of hint/name table
uint32 FirstHintNameOffset = 0; // First HintNameOffset = start of hint/name table
uint32 AddressTableOffset; // Offset of import address table relative to import lookup table
// Pointer to current import directory entry
SCOFF_ImportDirectory * ImportEntry = pImportDirectory;
// Pointer to current import lookup table entry
int32 * LookupEntry = 0;
// Pointer to current hint/name table entry
SCOFF_ImportHintName * HintNameEntry;
// Loop through import directory until null entry
while (ImportEntry->DLLNameRVA) {
// Get DLL name
NameOffset = ImportEntry->DLLNameRVA - impdir.VirtualAddress;
if (NameOffset < impdir.MaxOffset) {
DLLName = &Get<char>(impdir.FileOffset + NameOffset);
}
else {
DLLName = "?";
}
// Get lookup table
SectionOffset = ImportEntry->ImportLookupTableRVA;
if (SectionOffset == 0) SectionOffset = ImportEntry->ImportAddressTableRVA;
if (SectionOffset == 0) continue;
// Get distance from import lookup table to import address table
AddressTableOffset = ImportEntry->ImportAddressTableRVA - SectionOffset;
// Section relative address
SectionOffset -= impdir.VirtualAddress;
if (SectionOffset >= impdir.MaxOffset) break; // Out of range
// Loop through lookup table
while (1) {
// Pointer to lookup table entry
LookupEntry = &Get<int32>(impdir.FileOffset + SectionOffset);
// End when entry is empty
if (!LookupEntry[0]) break;
if (LookupEntry[Is64bit] < 0) {
// Imported by ordinal. Give it a name
strncpy(NameBuffer, DLLName, 20);
// Remove dot from name
char * dot = strchr(NameBuffer,'.');
if (dot) *dot = 0;
// Add ordinal number to name
sprintf(NameBuffer+strlen(NameBuffer), "_Ordinal_%i", uint16(LookupEntry[0]));
SymbolName = NameBuffer;
}
else {
// Find entry in hint/name table
HintNameOffset = (LookupEntry[0] & 0x7FFFFFFF) - impdir.VirtualAddress;
if (HintNameOffset >= impdir.MaxOffset) goto LOOPNEXT; // Out of range
if (!FirstHintNameOffset) FirstHintNameOffset = HintNameOffset;
HintNameEntry = &Get<SCOFF_ImportHintName>(impdir.FileOffset + HintNameOffset);
// Get name
SymbolName = HintNameEntry->Name;
}
// Add symbol
Disasm.AddSymbol(ASM_SEGMENT_IMGREL, impdir.VirtualAddress + SectionOffset + AddressTableOffset,
EntrySize, 0xC, 0x20, 0, SymbolName, DLLName);
// Loop next
LOOPNEXT:
SectionOffset += EntrySize;
}
// Loop next
ImportEntry++;
}
// Make label for import name table
if (FirstHintNameOffset) {
Disasm.AddSymbol(ASM_SEGMENT_IMGREL, impdir.VirtualAddress + FirstHintNameOffset, 1, 1, 1, 0, "Import_name_table");
}
}
void CCOF2ASM::MakeExportList() {
// Make exported symbols for executable files
// Define entry point
if (OptionalHeader->h32.AddressOfEntryPoint) {
Disasm.AddSymbol(ASM_SEGMENT_IMGREL, OptionalHeader->h32.AddressOfEntryPoint, 0, 0x83, 4, 0, "Entry_point");
}
// Get export table directory address
SCOFF_ImageDirAddress expdir;
// Exported names
if (!GetImageDir(0, &expdir)) {
// No export directory
return;
}
// Beginning of export section is export directory
SCOFF_ExportDirectory * pExportDirectory = &Get<SCOFF_ExportDirectory>(expdir.FileOffset);
// Find ExportAddressTable
uint32 ExportAddressTableOffset = pExportDirectory->ExportAddressTableRVA - expdir.VirtualAddress;
if (ExportAddressTableOffset == 0 || ExportAddressTableOffset >= expdir.MaxOffset) {
// Points outside section
err.submit(2035); return;
}
uint32 * pExportAddressTable = &Get<uint32>(expdir.FileOffset + ExportAddressTableOffset);
// Find ExportNameTable
if (pExportDirectory->NamePointerTableRVA == 0) {
return; // I don't know why this happens
}
uint32 ExportNameTableOffset = pExportDirectory->NamePointerTableRVA - expdir.VirtualAddress;
if (ExportNameTableOffset == 0 || ExportNameTableOffset >= expdir.MaxOffset) {
// Points outside section
err.submit(2035); return;
}
uint32 * pExportNameTable = &Get<uint32>(expdir.FileOffset + ExportNameTableOffset);
// Find ExportOrdinalTable
uint32 ExportOrdinalTableOffset = pExportDirectory->OrdinalTableRVA - expdir.VirtualAddress;
if (ExportOrdinalTableOffset == 0 || ExportOrdinalTableOffset >= expdir.MaxOffset) {
// Points outside section
err.submit(2035); return;
}
uint16 * pExportOrdinalTable = &Get<uint16>(expdir.FileOffset + ExportOrdinalTableOffset);
// Get further properties
uint32 NumExports = pExportDirectory->AddressTableEntries;
uint32 NumExportNames = pExportDirectory->NamePointerEntries;
uint32 OrdinalBase = pExportDirectory->OrdinalBase;
uint32 i; // Index into pExportOrdinalTable and pExportNameTable
uint32 Ordinal; // Index into pExportAddressTable
uint32 Address; // Image-relative address of symbol
uint32 NameOffset; // Section-relative address of name
uint32 FirstName = 0; // Image-relative address of first name table entry
const char * Name = 0; // Name of symbol
char NameBuffer[64]; // Buffer for making name
// Loop through export tables
for (i = 0; i < NumExports; i++) {
Address = 0;
Name = "?";
// Get ordinal from table
Ordinal = pExportOrdinalTable[i];
// Address table is indexed by ordinal
if (Ordinal < NumExports) {
Address = pExportAddressTable[Ordinal];
}
// Find name if there is a name list entry
if (i < NumExportNames) {
NameOffset = pExportNameTable[i] - expdir.VirtualAddress;
if (NameOffset && NameOffset < expdir.MaxOffset) {
Name = &Get<char>(expdir.FileOffset + NameOffset);
if (FirstName == 0) FirstName = pExportNameTable[i];
}
}
else {
// No name. Make name from ordinal number
sprintf(NameBuffer, "Ordinal_%i", Ordinal + OrdinalBase);
Name = NameBuffer;
}
// Define symbol
Disasm.AddSymbol(ASM_SEGMENT_IMGREL, Address, 0, 0x83, 4, 0, Name);
}
// Make label for export section
Disasm.AddSymbol(ASM_SEGMENT_IMGREL, expdir.VirtualAddress, 4, 3, 2, 0, "Export_tables");
// Make labels for export tables
Disasm.AddSymbol(ASM_SEGMENT_IMGREL, ExportAddressTableOffset - expdir.FileOffset + expdir.VirtualAddress, 4, 3, 2, 0, "Export_address_table");
Disasm.AddSymbol(ASM_SEGMENT_IMGREL, ExportOrdinalTableOffset - expdir.FileOffset + expdir.VirtualAddress, 4, 3, 2, 0, "Export_ordinal_table");
Disasm.AddSymbol(ASM_SEGMENT_IMGREL, ExportNameTableOffset - expdir.FileOffset + expdir.VirtualAddress, 4, 3, 2, 0, "Export_name_pointer_table");
Disasm.AddSymbol(ASM_SEGMENT_IMGREL, FirstName, 1, 1, 2, 0, "Export_name_table");
}
void CCOF2ASM::MakeListLabels() {
// Attach names to all image directories
SCOFF_ImageDirAddress dir;
uint32 i;
for (i = 0; i < NumImageDirs; i++) {
if (GetImageDir(i, &dir)) {
// Found a directory. Make label for it
Disasm.AddSymbol(ASM_SEGMENT_IMGREL, dir.VirtualAddress, 4, 0, 1, 0, dir.Name);
}
}
}