//===- MachOReader.cpp ------------------------------------------*- 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 "MachOReader.h" #include "Object.h" #include "llvm/BinaryFormat/MachO.h" #include "llvm/Object/MachO.h" #include "llvm/Support/Errc.h" #include namespace llvm { namespace objcopy { namespace macho { void MachOReader::readHeader(Object &O) const { O.Header.Magic = MachOObj.getHeader().magic; O.Header.CPUType = MachOObj.getHeader().cputype; O.Header.CPUSubType = MachOObj.getHeader().cpusubtype; O.Header.FileType = MachOObj.getHeader().filetype; O.Header.NCmds = MachOObj.getHeader().ncmds; O.Header.SizeOfCmds = MachOObj.getHeader().sizeofcmds; O.Header.Flags = MachOObj.getHeader().flags; } template Section constructSectionCommon(SectionType Sec, uint32_t Index) { StringRef SegName(Sec.segname, strnlen(Sec.segname, sizeof(Sec.segname))); StringRef SectName(Sec.sectname, strnlen(Sec.sectname, sizeof(Sec.sectname))); Section S(SegName, SectName); S.Index = Index; S.Addr = Sec.addr; S.Size = Sec.size; S.OriginalOffset = Sec.offset; S.Align = Sec.align; S.RelOff = Sec.reloff; S.NReloc = Sec.nreloc; S.Flags = Sec.flags; S.Reserved1 = Sec.reserved1; S.Reserved2 = Sec.reserved2; S.Reserved3 = 0; return S; } template Section constructSection(SectionType Sec, uint32_t Index); template <> Section constructSection(MachO::section Sec, uint32_t Index) { return constructSectionCommon(Sec, Index); } template <> Section constructSection(MachO::section_64 Sec, uint32_t Index) { Section S = constructSectionCommon(Sec, Index); S.Reserved3 = Sec.reserved3; return S; } template Expected>> extractSections(const object::MachOObjectFile::LoadCommandInfo &LoadCmd, const object::MachOObjectFile &MachOObj, uint32_t &NextSectionIndex) { auto End = LoadCmd.Ptr + LoadCmd.C.cmdsize; const SectionType *Curr = reinterpret_cast(LoadCmd.Ptr + sizeof(SegmentType)); std::vector> Sections; for (; reinterpret_cast(Curr) < End; Curr++) { if (MachOObj.isLittleEndian() != sys::IsLittleEndianHost) { SectionType Sec; memcpy((void *)&Sec, Curr, sizeof(SectionType)); MachO::swapStruct(Sec); Sections.push_back( std::make_unique
(constructSection(Sec, NextSectionIndex))); } else { Sections.push_back( std::make_unique
(constructSection(*Curr, NextSectionIndex))); } Section &S = *Sections.back(); Expected SecRef = MachOObj.getSection(NextSectionIndex++); if (!SecRef) return SecRef.takeError(); Expected> Data = MachOObj.getSectionContents(SecRef->getRawDataRefImpl()); if (!Data) return Data.takeError(); S.Content = StringRef(reinterpret_cast(Data->data()), Data->size()); S.Relocations.reserve(S.NReloc); for (auto RI = MachOObj.section_rel_begin(SecRef->getRawDataRefImpl()), RE = MachOObj.section_rel_end(SecRef->getRawDataRefImpl()); RI != RE; ++RI) { RelocationInfo R; R.Symbol = nullptr; // We'll fill this field later. R.Info = MachOObj.getRelocation(RI->getRawDataRefImpl()); R.Scattered = MachOObj.isRelocationScattered(R.Info); R.Extern = !R.Scattered && MachOObj.getPlainRelocationExternal(R.Info); S.Relocations.push_back(R); } assert(S.NReloc == S.Relocations.size() && "Incorrect number of relocations"); } return std::move(Sections); } Error MachOReader::readLoadCommands(Object &O) const { // For MachO sections indices start from 1. uint32_t NextSectionIndex = 1; for (auto LoadCmd : MachOObj.load_commands()) { LoadCommand LC; switch (LoadCmd.C.cmd) { case MachO::LC_CODE_SIGNATURE: O.CodeSignatureCommandIndex = O.LoadCommands.size(); break; case MachO::LC_SEGMENT: if (Expected>> Sections = extractSections( LoadCmd, MachOObj, NextSectionIndex)) LC.Sections = std::move(*Sections); else return Sections.takeError(); break; case MachO::LC_SEGMENT_64: if (Expected>> Sections = extractSections( LoadCmd, MachOObj, NextSectionIndex)) LC.Sections = std::move(*Sections); else return Sections.takeError(); break; case MachO::LC_SYMTAB: O.SymTabCommandIndex = O.LoadCommands.size(); break; case MachO::LC_DYSYMTAB: O.DySymTabCommandIndex = O.LoadCommands.size(); break; case MachO::LC_DYLD_INFO: case MachO::LC_DYLD_INFO_ONLY: O.DyLdInfoCommandIndex = O.LoadCommands.size(); break; case MachO::LC_DATA_IN_CODE: O.DataInCodeCommandIndex = O.LoadCommands.size(); break; case MachO::LC_FUNCTION_STARTS: O.FunctionStartsCommandIndex = O.LoadCommands.size(); break; } #define HANDLE_LOAD_COMMAND(LCName, LCValue, LCStruct) \ case MachO::LCName: \ memcpy((void *)&(LC.MachOLoadCommand.LCStruct##_data), LoadCmd.Ptr, \ sizeof(MachO::LCStruct)); \ if (MachOObj.isLittleEndian() != sys::IsLittleEndianHost) \ MachO::swapStruct(LC.MachOLoadCommand.LCStruct##_data); \ if (LoadCmd.C.cmdsize > sizeof(MachO::LCStruct)) \ LC.Payload = ArrayRef( \ reinterpret_cast(const_cast(LoadCmd.Ptr)) + \ sizeof(MachO::LCStruct), \ LoadCmd.C.cmdsize - sizeof(MachO::LCStruct)); \ break; switch (LoadCmd.C.cmd) { default: memcpy((void *)&(LC.MachOLoadCommand.load_command_data), LoadCmd.Ptr, sizeof(MachO::load_command)); if (MachOObj.isLittleEndian() != sys::IsLittleEndianHost) MachO::swapStruct(LC.MachOLoadCommand.load_command_data); if (LoadCmd.C.cmdsize > sizeof(MachO::load_command)) LC.Payload = ArrayRef( reinterpret_cast(const_cast(LoadCmd.Ptr)) + sizeof(MachO::load_command), LoadCmd.C.cmdsize - sizeof(MachO::load_command)); break; #include "llvm/BinaryFormat/MachO.def" } O.LoadCommands.push_back(std::move(LC)); } return Error::success(); } template SymbolEntry constructSymbolEntry(StringRef StrTable, const nlist_t &nlist) { assert(nlist.n_strx < StrTable.size() && "n_strx exceeds the size of the string table"); SymbolEntry SE; SE.Name = StringRef(StrTable.data() + nlist.n_strx).str(); SE.n_type = nlist.n_type; SE.n_sect = nlist.n_sect; SE.n_desc = nlist.n_desc; SE.n_value = nlist.n_value; return SE; } void MachOReader::readSymbolTable(Object &O) const { StringRef StrTable = MachOObj.getStringTableData(); for (auto Symbol : MachOObj.symbols()) { SymbolEntry SE = (MachOObj.is64Bit() ? constructSymbolEntry(StrTable, MachOObj.getSymbol64TableEntry( Symbol.getRawDataRefImpl())) : constructSymbolEntry(StrTable, MachOObj.getSymbolTableEntry( Symbol.getRawDataRefImpl()))); O.SymTable.Symbols.push_back(std::make_unique(SE)); } } void MachOReader::setSymbolInRelocationInfo(Object &O) const { std::vector Sections; for (auto &LC : O.LoadCommands) for (std::unique_ptr
&Sec : LC.Sections) Sections.push_back(Sec.get()); for (LoadCommand &LC : O.LoadCommands) for (std::unique_ptr
&Sec : LC.Sections) for (auto &Reloc : Sec->Relocations) if (!Reloc.Scattered) { const uint32_t SymbolNum = Reloc.getPlainRelocationSymbolNum(MachOObj.isLittleEndian()); if (Reloc.Extern) { Reloc.Symbol = O.SymTable.getSymbolByIndex(SymbolNum); } else { // FIXME: Refactor error handling in MachOReader and report an error // if we encounter an invalid relocation. assert(SymbolNum >= 1 && SymbolNum <= Sections.size() && "Invalid section index."); Reloc.Sec = Sections[SymbolNum - 1]; } } } void MachOReader::readRebaseInfo(Object &O) const { O.Rebases.Opcodes = MachOObj.getDyldInfoRebaseOpcodes(); } void MachOReader::readBindInfo(Object &O) const { O.Binds.Opcodes = MachOObj.getDyldInfoBindOpcodes(); } void MachOReader::readWeakBindInfo(Object &O) const { O.WeakBinds.Opcodes = MachOObj.getDyldInfoWeakBindOpcodes(); } void MachOReader::readLazyBindInfo(Object &O) const { O.LazyBinds.Opcodes = MachOObj.getDyldInfoLazyBindOpcodes(); } void MachOReader::readExportInfo(Object &O) const { O.Exports.Trie = MachOObj.getDyldInfoExportsTrie(); } void MachOReader::readLinkData(Object &O, Optional LCIndex, LinkData &LD) const { if (!LCIndex) return; const MachO::linkedit_data_command &LC = O.LoadCommands[*LCIndex].MachOLoadCommand.linkedit_data_command_data; LD.Data = arrayRefFromStringRef(MachOObj.getData().substr(LC.dataoff, LC.datasize)); } void MachOReader::readCodeSignature(Object &O) const { return readLinkData(O, O.CodeSignatureCommandIndex, O.CodeSignature); } void MachOReader::readDataInCodeData(Object &O) const { return readLinkData(O, O.DataInCodeCommandIndex, O.DataInCode); } void MachOReader::readFunctionStartsData(Object &O) const { return readLinkData(O, O.FunctionStartsCommandIndex, O.FunctionStarts); } void MachOReader::readIndirectSymbolTable(Object &O) const { MachO::dysymtab_command DySymTab = MachOObj.getDysymtabLoadCommand(); constexpr uint32_t AbsOrLocalMask = MachO::INDIRECT_SYMBOL_LOCAL | MachO::INDIRECT_SYMBOL_ABS; for (uint32_t i = 0; i < DySymTab.nindirectsyms; ++i) { uint32_t Index = MachOObj.getIndirectSymbolTableEntry(DySymTab, i); if ((Index & AbsOrLocalMask) != 0) O.IndirectSymTable.Symbols.emplace_back(Index, None); else O.IndirectSymTable.Symbols.emplace_back( Index, O.SymTable.getSymbolByIndex(Index)); } } void MachOReader::readSwiftVersion(Object &O) const { struct ObjCImageInfo { uint32_t Version; uint32_t Flags; } ImageInfo; for (const LoadCommand &LC : O.LoadCommands) for (const std::unique_ptr
&Sec : LC.Sections) if (Sec->Sectname == "__objc_imageinfo" && (Sec->Segname == "__DATA" || Sec->Segname == "__DATA_CONST" || Sec->Segname == "__DATA_DIRTY") && Sec->Content.size() >= sizeof(ObjCImageInfo)) { memcpy(&ImageInfo, Sec->Content.data(), sizeof(ObjCImageInfo)); if (MachOObj.isLittleEndian() != sys::IsLittleEndianHost) { sys::swapByteOrder(ImageInfo.Version); sys::swapByteOrder(ImageInfo.Flags); } O.SwiftVersion = (ImageInfo.Flags >> 8) & 0xff; return; } } Expected> MachOReader::create() const { auto Obj = std::make_unique(); readHeader(*Obj); if (Error E = readLoadCommands(*Obj)) return std::move(E); readSymbolTable(*Obj); setSymbolInRelocationInfo(*Obj); readRebaseInfo(*Obj); readBindInfo(*Obj); readWeakBindInfo(*Obj); readLazyBindInfo(*Obj); readExportInfo(*Obj); readCodeSignature(*Obj); readDataInCodeData(*Obj); readFunctionStartsData(*Obj); readIndirectSymbolTable(*Obj); readSwiftVersion(*Obj); return std::move(Obj); } } // end namespace macho } // end namespace objcopy } // end namespace llvm