//===------ utils/obj2yaml.cpp - obj2yaml conversion tool -------*- C++ -*-===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// #include "obj2yaml.h" #include "llvm/ADT/StringMap.h" #include "llvm/DebugInfo/CodeView/DebugChecksumsSubsection.h" #include "llvm/DebugInfo/CodeView/DebugStringTableSubsection.h" #include "llvm/DebugInfo/CodeView/StringsAndChecksums.h" #include "llvm/Object/COFF.h" #include "llvm/ObjectYAML/COFFYAML.h" #include "llvm/ObjectYAML/CodeViewYAMLTypes.h" #include "llvm/Support/ErrorHandling.h" #include "llvm/Support/YAMLTraits.h" using namespace llvm; namespace { class COFFDumper { const object::COFFObjectFile &Obj; COFFYAML::Object YAMLObj; template void dumpOptionalHeader(T OptionalHeader); void dumpHeader(); void dumpSections(unsigned numSections); void dumpSymbols(unsigned numSymbols); public: COFFDumper(const object::COFFObjectFile &Obj); COFFYAML::Object &getYAMLObj(); }; } COFFDumper::COFFDumper(const object::COFFObjectFile &Obj) : Obj(Obj) { if (const object::pe32_header *PE32Header = Obj.getPE32Header()) dumpOptionalHeader(PE32Header); else if (const object::pe32plus_header *PE32PlusHeader = Obj.getPE32PlusHeader()) dumpOptionalHeader(PE32PlusHeader); dumpHeader(); dumpSections(Obj.getNumberOfSections()); dumpSymbols(Obj.getNumberOfSymbols()); } template void COFFDumper::dumpOptionalHeader(T OptionalHeader) { YAMLObj.OptionalHeader = COFFYAML::PEHeader(); YAMLObj.OptionalHeader->Header.AddressOfEntryPoint = OptionalHeader->AddressOfEntryPoint; YAMLObj.OptionalHeader->Header.ImageBase = OptionalHeader->ImageBase; YAMLObj.OptionalHeader->Header.SectionAlignment = OptionalHeader->SectionAlignment; YAMLObj.OptionalHeader->Header.FileAlignment = OptionalHeader->FileAlignment; YAMLObj.OptionalHeader->Header.MajorOperatingSystemVersion = OptionalHeader->MajorOperatingSystemVersion; YAMLObj.OptionalHeader->Header.MinorOperatingSystemVersion = OptionalHeader->MinorOperatingSystemVersion; YAMLObj.OptionalHeader->Header.MajorImageVersion = OptionalHeader->MajorImageVersion; YAMLObj.OptionalHeader->Header.MinorImageVersion = OptionalHeader->MinorImageVersion; YAMLObj.OptionalHeader->Header.MajorSubsystemVersion = OptionalHeader->MajorSubsystemVersion; YAMLObj.OptionalHeader->Header.MinorSubsystemVersion = OptionalHeader->MinorSubsystemVersion; YAMLObj.OptionalHeader->Header.Subsystem = OptionalHeader->Subsystem; YAMLObj.OptionalHeader->Header.DLLCharacteristics = OptionalHeader->DLLCharacteristics; YAMLObj.OptionalHeader->Header.SizeOfStackReserve = OptionalHeader->SizeOfStackReserve; YAMLObj.OptionalHeader->Header.SizeOfStackCommit = OptionalHeader->SizeOfStackCommit; YAMLObj.OptionalHeader->Header.SizeOfHeapReserve = OptionalHeader->SizeOfHeapReserve; YAMLObj.OptionalHeader->Header.SizeOfHeapCommit = OptionalHeader->SizeOfHeapCommit; YAMLObj.OptionalHeader->Header.NumberOfRvaAndSize = OptionalHeader->NumberOfRvaAndSize; unsigned I = 0; for (auto &DestDD : YAMLObj.OptionalHeader->DataDirectories) { const object::data_directory *DD = Obj.getDataDirectory(I++); if (!DD) continue; DestDD = COFF::DataDirectory(); DestDD->RelativeVirtualAddress = DD->RelativeVirtualAddress; DestDD->Size = DD->Size; } } void COFFDumper::dumpHeader() { YAMLObj.Header.Machine = Obj.getMachine(); YAMLObj.Header.Characteristics = Obj.getCharacteristics(); } static void initializeFileAndStringTable(const llvm::object::COFFObjectFile &Obj, codeview::StringsAndChecksumsRef &SC) { ExitOnError Err("invalid .debug$S section"); // Iterate all .debug$S sections looking for the checksums and string table. // Exit as soon as both sections are found. for (const auto &S : Obj.sections()) { if (SC.hasStrings() && SC.hasChecksums()) break; Expected SectionNameOrErr = S.getName(); if (!SectionNameOrErr) { consumeError(SectionNameOrErr.takeError()); continue; } ArrayRef sectionData; if ((*SectionNameOrErr) != ".debug$S") continue; const object::coff_section *COFFSection = Obj.getCOFFSection(S); cantFail(Obj.getSectionContents(COFFSection, sectionData)); BinaryStreamReader Reader(sectionData, support::little); uint32_t Magic; Err(Reader.readInteger(Magic)); assert(Magic == COFF::DEBUG_SECTION_MAGIC && "Invalid .debug$S section!"); codeview::DebugSubsectionArray Subsections; Err(Reader.readArray(Subsections, Reader.bytesRemaining())); SC.initialize(Subsections); } } void COFFDumper::dumpSections(unsigned NumSections) { std::vector &YAMLSections = YAMLObj.Sections; codeview::StringsAndChecksumsRef SC; initializeFileAndStringTable(Obj, SC); ExitOnError Err("invalid section table"); StringMap SymbolUnique; for (const auto &S : Obj.symbols()) { StringRef Name = Err(Obj.getSymbolName(Obj.getCOFFSymbol(S))); StringMap::iterator It; bool Inserted; std::tie(It, Inserted) = SymbolUnique.insert(std::make_pair(Name, true)); if (!Inserted) It->second = false; } for (const auto &ObjSection : Obj.sections()) { const object::coff_section *COFFSection = Obj.getCOFFSection(ObjSection); COFFYAML::Section NewYAMLSection; if (Expected NameOrErr = ObjSection.getName()) NewYAMLSection.Name = *NameOrErr; else consumeError(NameOrErr.takeError()); NewYAMLSection.Header.Characteristics = COFFSection->Characteristics; NewYAMLSection.Header.VirtualAddress = COFFSection->VirtualAddress; NewYAMLSection.Header.VirtualSize = COFFSection->VirtualSize; NewYAMLSection.Header.NumberOfLineNumbers = COFFSection->NumberOfLinenumbers; NewYAMLSection.Header.NumberOfRelocations = COFFSection->NumberOfRelocations; NewYAMLSection.Header.PointerToLineNumbers = COFFSection->PointerToLinenumbers; NewYAMLSection.Header.PointerToRawData = COFFSection->PointerToRawData; NewYAMLSection.Header.PointerToRelocations = COFFSection->PointerToRelocations; NewYAMLSection.Header.SizeOfRawData = COFFSection->SizeOfRawData; uint32_t Shift = (COFFSection->Characteristics >> 20) & 0xF; NewYAMLSection.Alignment = (1U << Shift) >> 1; assert(NewYAMLSection.Alignment <= 8192); ArrayRef sectionData; if (!ObjSection.isBSS()) cantFail(Obj.getSectionContents(COFFSection, sectionData)); NewYAMLSection.SectionData = yaml::BinaryRef(sectionData); if (NewYAMLSection.Name == ".debug$S") NewYAMLSection.DebugS = CodeViewYAML::fromDebugS(sectionData, SC); else if (NewYAMLSection.Name == ".debug$T") NewYAMLSection.DebugT = CodeViewYAML::fromDebugT(sectionData, NewYAMLSection.Name); else if (NewYAMLSection.Name == ".debug$P") NewYAMLSection.DebugP = CodeViewYAML::fromDebugT(sectionData, NewYAMLSection.Name); else if (NewYAMLSection.Name == ".debug$H") NewYAMLSection.DebugH = CodeViewYAML::fromDebugH(sectionData); std::vector Relocations; for (const auto &Reloc : ObjSection.relocations()) { const object::coff_relocation *reloc = Obj.getCOFFRelocation(Reloc); COFFYAML::Relocation Rel; object::symbol_iterator Sym = Reloc.getSymbol(); Expected SymbolNameOrErr = Sym->getName(); if (!SymbolNameOrErr) { std::string Buf; raw_string_ostream OS(Buf); logAllUnhandledErrors(SymbolNameOrErr.takeError(), OS); report_fatal_error(Twine(OS.str())); } if (SymbolUnique.lookup(*SymbolNameOrErr)) Rel.SymbolName = *SymbolNameOrErr; else Rel.SymbolTableIndex = reloc->SymbolTableIndex; Rel.VirtualAddress = reloc->VirtualAddress; Rel.Type = reloc->Type; Relocations.push_back(Rel); } NewYAMLSection.Relocations = Relocations; YAMLSections.push_back(NewYAMLSection); } } static void dumpFunctionDefinition(COFFYAML::Symbol *Sym, const object::coff_aux_function_definition *ObjFD) { COFF::AuxiliaryFunctionDefinition YAMLFD; YAMLFD.TagIndex = ObjFD->TagIndex; YAMLFD.TotalSize = ObjFD->TotalSize; YAMLFD.PointerToLinenumber = ObjFD->PointerToLinenumber; YAMLFD.PointerToNextFunction = ObjFD->PointerToNextFunction; Sym->FunctionDefinition = YAMLFD; } static void dumpbfAndEfLineInfo(COFFYAML::Symbol *Sym, const object::coff_aux_bf_and_ef_symbol *ObjBES) { COFF::AuxiliarybfAndefSymbol YAMLAAS; YAMLAAS.Linenumber = ObjBES->Linenumber; YAMLAAS.PointerToNextFunction = ObjBES->PointerToNextFunction; Sym->bfAndefSymbol = YAMLAAS; } static void dumpWeakExternal(COFFYAML::Symbol *Sym, const object::coff_aux_weak_external *ObjWE) { COFF::AuxiliaryWeakExternal YAMLWE; YAMLWE.TagIndex = ObjWE->TagIndex; YAMLWE.Characteristics = ObjWE->Characteristics; Sym->WeakExternal = YAMLWE; } static void dumpSectionDefinition(COFFYAML::Symbol *Sym, const object::coff_aux_section_definition *ObjSD, bool IsBigObj) { COFF::AuxiliarySectionDefinition YAMLASD; int32_t AuxNumber = ObjSD->getNumber(IsBigObj); YAMLASD.Length = ObjSD->Length; YAMLASD.NumberOfRelocations = ObjSD->NumberOfRelocations; YAMLASD.NumberOfLinenumbers = ObjSD->NumberOfLinenumbers; YAMLASD.CheckSum = ObjSD->CheckSum; YAMLASD.Number = AuxNumber; YAMLASD.Selection = ObjSD->Selection; Sym->SectionDefinition = YAMLASD; } static void dumpCLRTokenDefinition(COFFYAML::Symbol *Sym, const object::coff_aux_clr_token *ObjCLRToken) { COFF::AuxiliaryCLRToken YAMLCLRToken; YAMLCLRToken.AuxType = ObjCLRToken->AuxType; YAMLCLRToken.SymbolTableIndex = ObjCLRToken->SymbolTableIndex; Sym->CLRToken = YAMLCLRToken; } void COFFDumper::dumpSymbols(unsigned NumSymbols) { ExitOnError Err("invalid symbol table"); std::vector &Symbols = YAMLObj.Symbols; for (const auto &S : Obj.symbols()) { object::COFFSymbolRef Symbol = Obj.getCOFFSymbol(S); COFFYAML::Symbol Sym; Sym.Name = Err(Obj.getSymbolName(Symbol)); Sym.SimpleType = COFF::SymbolBaseType(Symbol.getBaseType()); Sym.ComplexType = COFF::SymbolComplexType(Symbol.getComplexType()); Sym.Header.StorageClass = Symbol.getStorageClass(); Sym.Header.Value = Symbol.getValue(); Sym.Header.SectionNumber = Symbol.getSectionNumber(); Sym.Header.NumberOfAuxSymbols = Symbol.getNumberOfAuxSymbols(); if (Symbol.getNumberOfAuxSymbols() > 0) { ArrayRef AuxData = Obj.getSymbolAuxData(Symbol); if (Symbol.isFunctionDefinition()) { // This symbol represents a function definition. assert(Symbol.getNumberOfAuxSymbols() == 1 && "Expected a single aux symbol to describe this function!"); const object::coff_aux_function_definition *ObjFD = reinterpret_cast( AuxData.data()); dumpFunctionDefinition(&Sym, ObjFD); } else if (Symbol.isFunctionLineInfo()) { // This symbol describes function line number information. assert(Symbol.getNumberOfAuxSymbols() == 1 && "Expected a single aux symbol to describe this function!"); const object::coff_aux_bf_and_ef_symbol *ObjBES = reinterpret_cast( AuxData.data()); dumpbfAndEfLineInfo(&Sym, ObjBES); } else if (Symbol.isAnyUndefined()) { // This symbol represents a weak external definition. assert(Symbol.getNumberOfAuxSymbols() == 1 && "Expected a single aux symbol to describe this weak symbol!"); const object::coff_aux_weak_external *ObjWE = reinterpret_cast( AuxData.data()); dumpWeakExternal(&Sym, ObjWE); } else if (Symbol.isFileRecord()) { // This symbol represents a file record. Sym.File = StringRef(reinterpret_cast(AuxData.data()), Symbol.getNumberOfAuxSymbols() * Obj.getSymbolTableEntrySize()) .rtrim(StringRef("\0", /*length=*/1)); } else if (Symbol.isSectionDefinition()) { // This symbol represents a section definition. assert(Symbol.getNumberOfAuxSymbols() == 1 && "Expected a single aux symbol to describe this section!"); const object::coff_aux_section_definition *ObjSD = reinterpret_cast( AuxData.data()); dumpSectionDefinition(&Sym, ObjSD, Symbol.isBigObj()); } else if (Symbol.isCLRToken()) { // This symbol represents a CLR token definition. assert(Symbol.getNumberOfAuxSymbols() == 1 && "Expected a single aux symbol to describe this CLR Token!"); const object::coff_aux_clr_token *ObjCLRToken = reinterpret_cast( AuxData.data()); dumpCLRTokenDefinition(&Sym, ObjCLRToken); } else { llvm_unreachable("Unhandled auxiliary symbol!"); } } Symbols.push_back(Sym); } } COFFYAML::Object &COFFDumper::getYAMLObj() { return YAMLObj; } std::error_code coff2yaml(raw_ostream &Out, const object::COFFObjectFile &Obj) { COFFDumper Dumper(Obj); yaml::Output Yout(Out); Yout << Dumper.getYAMLObj(); return std::error_code(); }