//===- MachOObjectFile.cpp - Mach-O object file binding -------------------===// // // 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 // //===----------------------------------------------------------------------===// // // This file defines the MachOObjectFile class, which binds the MachOObject // class to the generic ObjectFile wrapper. // //===----------------------------------------------------------------------===// #include "llvm/ADT/ArrayRef.h" #include "llvm/ADT/STLExtras.h" #include "llvm/ADT/SmallVector.h" #include "llvm/ADT/StringRef.h" #include "llvm/ADT/StringSwitch.h" #include "llvm/ADT/Twine.h" #include "llvm/ADT/bit.h" #include "llvm/BinaryFormat/MachO.h" #include "llvm/BinaryFormat/Swift.h" #include "llvm/Object/Error.h" #include "llvm/Object/MachO.h" #include "llvm/Object/ObjectFile.h" #include "llvm/Object/SymbolicFile.h" #include "llvm/Support/DataExtractor.h" #include "llvm/Support/Debug.h" #include "llvm/Support/Errc.h" #include "llvm/Support/Error.h" #include "llvm/Support/ErrorHandling.h" #include "llvm/Support/FileSystem.h" #include "llvm/Support/Format.h" #include "llvm/Support/LEB128.h" #include "llvm/Support/MemoryBufferRef.h" #include "llvm/Support/Path.h" #include "llvm/Support/SwapByteOrder.h" #include "llvm/Support/raw_ostream.h" #include "llvm/TargetParser/Host.h" #include "llvm/TargetParser/Triple.h" #include #include #include #include #include #include #include #include #include using namespace llvm; using namespace object; namespace { struct section_base { char sectname[16]; char segname[16]; }; } // end anonymous namespace static Error malformedError(const Twine &Msg) { return make_error("truncated or malformed object (" + Msg + ")", object_error::parse_failed); } // FIXME: Replace all uses of this function with getStructOrErr. template static T getStruct(const MachOObjectFile &O, const char *P) { // Don't read before the beginning or past the end of the file if (P < O.getData().begin() || P + sizeof(T) > O.getData().end()) report_fatal_error("Malformed MachO file."); T Cmd; memcpy(&Cmd, P, sizeof(T)); if (O.isLittleEndian() != sys::IsLittleEndianHost) MachO::swapStruct(Cmd); return Cmd; } template static Expected getStructOrErr(const MachOObjectFile &O, const char *P) { // Don't read before the beginning or past the end of the file if (P < O.getData().begin() || P + sizeof(T) > O.getData().end()) return malformedError("Structure read out-of-range"); T Cmd; memcpy(&Cmd, P, sizeof(T)); if (O.isLittleEndian() != sys::IsLittleEndianHost) MachO::swapStruct(Cmd); return Cmd; } static const char * getSectionPtr(const MachOObjectFile &O, MachOObjectFile::LoadCommandInfo L, unsigned Sec) { uintptr_t CommandAddr = reinterpret_cast(L.Ptr); bool Is64 = O.is64Bit(); unsigned SegmentLoadSize = Is64 ? sizeof(MachO::segment_command_64) : sizeof(MachO::segment_command); unsigned SectionSize = Is64 ? sizeof(MachO::section_64) : sizeof(MachO::section); uintptr_t SectionAddr = CommandAddr + SegmentLoadSize + Sec * SectionSize; return reinterpret_cast(SectionAddr); } static const char *getPtr(const MachOObjectFile &O, size_t Offset, size_t MachOFilesetEntryOffset = 0) { assert(Offset <= O.getData().size() && MachOFilesetEntryOffset <= O.getData().size()); return O.getData().data() + Offset + MachOFilesetEntryOffset; } static MachO::nlist_base getSymbolTableEntryBase(const MachOObjectFile &O, DataRefImpl DRI) { const char *P = reinterpret_cast(DRI.p); return getStruct(O, P); } static StringRef parseSegmentOrSectionName(const char *P) { if (P[15] == 0) // Null terminated. return P; // Not null terminated, so this is a 16 char string. return StringRef(P, 16); } static unsigned getCPUType(const MachOObjectFile &O) { return O.getHeader().cputype; } static unsigned getCPUSubType(const MachOObjectFile &O) { return O.getHeader().cpusubtype; } static uint32_t getPlainRelocationAddress(const MachO::any_relocation_info &RE) { return RE.r_word0; } static unsigned getScatteredRelocationAddress(const MachO::any_relocation_info &RE) { return RE.r_word0 & 0xffffff; } static bool getPlainRelocationPCRel(const MachOObjectFile &O, const MachO::any_relocation_info &RE) { if (O.isLittleEndian()) return (RE.r_word1 >> 24) & 1; return (RE.r_word1 >> 7) & 1; } static bool getScatteredRelocationPCRel(const MachO::any_relocation_info &RE) { return (RE.r_word0 >> 30) & 1; } static unsigned getPlainRelocationLength(const MachOObjectFile &O, const MachO::any_relocation_info &RE) { if (O.isLittleEndian()) return (RE.r_word1 >> 25) & 3; return (RE.r_word1 >> 5) & 3; } static unsigned getScatteredRelocationLength(const MachO::any_relocation_info &RE) { return (RE.r_word0 >> 28) & 3; } static unsigned getPlainRelocationType(const MachOObjectFile &O, const MachO::any_relocation_info &RE) { if (O.isLittleEndian()) return RE.r_word1 >> 28; return RE.r_word1 & 0xf; } static uint32_t getSectionFlags(const MachOObjectFile &O, DataRefImpl Sec) { if (O.is64Bit()) { MachO::section_64 Sect = O.getSection64(Sec); return Sect.flags; } MachO::section Sect = O.getSection(Sec); return Sect.flags; } static Expected getLoadCommandInfo(const MachOObjectFile &Obj, const char *Ptr, uint32_t LoadCommandIndex) { if (auto CmdOrErr = getStructOrErr(Obj, Ptr)) { if (CmdOrErr->cmdsize + Ptr > Obj.getData().end()) return malformedError("load command " + Twine(LoadCommandIndex) + " extends past end of file"); if (CmdOrErr->cmdsize < 8) return malformedError("load command " + Twine(LoadCommandIndex) + " with size less than 8 bytes"); return MachOObjectFile::LoadCommandInfo({Ptr, *CmdOrErr}); } else return CmdOrErr.takeError(); } static Expected getFirstLoadCommandInfo(const MachOObjectFile &Obj) { unsigned HeaderSize = Obj.is64Bit() ? sizeof(MachO::mach_header_64) : sizeof(MachO::mach_header); if (sizeof(MachO::load_command) > Obj.getHeader().sizeofcmds) return malformedError("load command 0 extends past the end all load " "commands in the file"); return getLoadCommandInfo( Obj, getPtr(Obj, HeaderSize, Obj.getMachOFilesetEntryOffset()), 0); } static Expected getNextLoadCommandInfo(const MachOObjectFile &Obj, uint32_t LoadCommandIndex, const MachOObjectFile::LoadCommandInfo &L) { unsigned HeaderSize = Obj.is64Bit() ? sizeof(MachO::mach_header_64) : sizeof(MachO::mach_header); if (L.Ptr + L.C.cmdsize + sizeof(MachO::load_command) > Obj.getData().data() + Obj.getMachOFilesetEntryOffset() + HeaderSize + Obj.getHeader().sizeofcmds) return malformedError("load command " + Twine(LoadCommandIndex + 1) + " extends past the end all load commands in the file"); return getLoadCommandInfo(Obj, L.Ptr + L.C.cmdsize, LoadCommandIndex + 1); } template static void parseHeader(const MachOObjectFile &Obj, T &Header, Error &Err) { if (sizeof(T) > Obj.getData().size()) { Err = malformedError("the mach header extends past the end of the " "file"); return; } if (auto HeaderOrErr = getStructOrErr( Obj, getPtr(Obj, 0, Obj.getMachOFilesetEntryOffset()))) Header = *HeaderOrErr; else Err = HeaderOrErr.takeError(); } // This is used to check for overlapping of Mach-O elements. struct MachOElement { uint64_t Offset; uint64_t Size; const char *Name; }; static Error checkOverlappingElement(std::list &Elements, uint64_t Offset, uint64_t Size, const char *Name) { if (Size == 0) return Error::success(); for (auto it = Elements.begin(); it != Elements.end(); ++it) { const auto &E = *it; if ((Offset >= E.Offset && Offset < E.Offset + E.Size) || (Offset + Size > E.Offset && Offset + Size < E.Offset + E.Size) || (Offset <= E.Offset && Offset + Size >= E.Offset + E.Size)) return malformedError(Twine(Name) + " at offset " + Twine(Offset) + " with a size of " + Twine(Size) + ", overlaps " + E.Name + " at offset " + Twine(E.Offset) + " with " "a size of " + Twine(E.Size)); auto nt = it; nt++; if (nt != Elements.end()) { const auto &N = *nt; if (Offset + Size <= N.Offset) { Elements.insert(nt, {Offset, Size, Name}); return Error::success(); } } } Elements.push_back({Offset, Size, Name}); return Error::success(); } // Parses LC_SEGMENT or LC_SEGMENT_64 load command, adds addresses of all // sections to \param Sections, and optionally sets // \param IsPageZeroSegment to true. template static Error parseSegmentLoadCommand( const MachOObjectFile &Obj, const MachOObjectFile::LoadCommandInfo &Load, SmallVectorImpl &Sections, bool &IsPageZeroSegment, uint32_t LoadCommandIndex, const char *CmdName, uint64_t SizeOfHeaders, std::list &Elements) { const unsigned SegmentLoadSize = sizeof(Segment); if (Load.C.cmdsize < SegmentLoadSize) return malformedError("load command " + Twine(LoadCommandIndex) + " " + CmdName + " cmdsize too small"); if (auto SegOrErr = getStructOrErr(Obj, Load.Ptr)) { Segment S = SegOrErr.get(); const unsigned SectionSize = sizeof(Section); uint64_t FileSize = Obj.getData().size(); if (S.nsects > std::numeric_limits::max() / SectionSize || S.nsects * SectionSize > Load.C.cmdsize - SegmentLoadSize) return malformedError("load command " + Twine(LoadCommandIndex) + " inconsistent cmdsize in " + CmdName + " for the number of sections"); for (unsigned J = 0; J < S.nsects; ++J) { const char *Sec = getSectionPtr(Obj, Load, J); Sections.push_back(Sec); auto SectionOrErr = getStructOrErr
(Obj, Sec); if (!SectionOrErr) return SectionOrErr.takeError(); Section s = SectionOrErr.get(); if (Obj.getHeader().filetype != MachO::MH_DYLIB_STUB && Obj.getHeader().filetype != MachO::MH_DSYM && s.flags != MachO::S_ZEROFILL && s.flags != MachO::S_THREAD_LOCAL_ZEROFILL && s.offset > FileSize) return malformedError("offset field of section " + Twine(J) + " in " + CmdName + " command " + Twine(LoadCommandIndex) + " extends past the end of the file"); if (Obj.getHeader().filetype != MachO::MH_DYLIB_STUB && Obj.getHeader().filetype != MachO::MH_DSYM && s.flags != MachO::S_ZEROFILL && s.flags != MachO::S_THREAD_LOCAL_ZEROFILL && S.fileoff == 0 && s.offset < SizeOfHeaders && s.size != 0) return malformedError("offset field of section " + Twine(J) + " in " + CmdName + " command " + Twine(LoadCommandIndex) + " not past the headers of the file"); uint64_t BigSize = s.offset; BigSize += s.size; if (Obj.getHeader().filetype != MachO::MH_DYLIB_STUB && Obj.getHeader().filetype != MachO::MH_DSYM && s.flags != MachO::S_ZEROFILL && s.flags != MachO::S_THREAD_LOCAL_ZEROFILL && BigSize > FileSize) return malformedError("offset field plus size field of section " + Twine(J) + " in " + CmdName + " command " + Twine(LoadCommandIndex) + " extends past the end of the file"); if (Obj.getHeader().filetype != MachO::MH_DYLIB_STUB && Obj.getHeader().filetype != MachO::MH_DSYM && s.flags != MachO::S_ZEROFILL && s.flags != MachO::S_THREAD_LOCAL_ZEROFILL && s.size > S.filesize) return malformedError("size field of section " + Twine(J) + " in " + CmdName + " command " + Twine(LoadCommandIndex) + " greater than the segment"); if (Obj.getHeader().filetype != MachO::MH_DYLIB_STUB && Obj.getHeader().filetype != MachO::MH_DSYM && s.size != 0 && s.addr < S.vmaddr) return malformedError("addr field of section " + Twine(J) + " in " + CmdName + " command " + Twine(LoadCommandIndex) + " less than the segment's vmaddr"); BigSize = s.addr; BigSize += s.size; uint64_t BigEnd = S.vmaddr; BigEnd += S.vmsize; if (S.vmsize != 0 && s.size != 0 && BigSize > BigEnd) return malformedError("addr field plus size of section " + Twine(J) + " in " + CmdName + " command " + Twine(LoadCommandIndex) + " greater than than " "the segment's vmaddr plus vmsize"); if (Obj.getHeader().filetype != MachO::MH_DYLIB_STUB && Obj.getHeader().filetype != MachO::MH_DSYM && s.flags != MachO::S_ZEROFILL && s.flags != MachO::S_THREAD_LOCAL_ZEROFILL) if (Error Err = checkOverlappingElement(Elements, s.offset, s.size, "section contents")) return Err; if (s.reloff > FileSize) return malformedError("reloff field of section " + Twine(J) + " in " + CmdName + " command " + Twine(LoadCommandIndex) + " extends past the end of the file"); BigSize = s.nreloc; BigSize *= sizeof(struct MachO::relocation_info); BigSize += s.reloff; if (BigSize > FileSize) return malformedError("reloff field plus nreloc field times sizeof(" "struct relocation_info) of section " + Twine(J) + " in " + CmdName + " command " + Twine(LoadCommandIndex) + " extends past the end of the file"); if (Error Err = checkOverlappingElement(Elements, s.reloff, s.nreloc * sizeof(struct MachO::relocation_info), "section relocation entries")) return Err; } if (S.fileoff > FileSize) return malformedError("load command " + Twine(LoadCommandIndex) + " fileoff field in " + CmdName + " extends past the end of the file"); uint64_t BigSize = S.fileoff; BigSize += S.filesize; if (BigSize > FileSize) return malformedError("load command " + Twine(LoadCommandIndex) + " fileoff field plus filesize field in " + CmdName + " extends past the end of the file"); if (S.vmsize != 0 && S.filesize > S.vmsize) return malformedError("load command " + Twine(LoadCommandIndex) + " filesize field in " + CmdName + " greater than vmsize field"); IsPageZeroSegment |= StringRef("__PAGEZERO") == S.segname; } else return SegOrErr.takeError(); return Error::success(); } static Error checkSymtabCommand(const MachOObjectFile &Obj, const MachOObjectFile::LoadCommandInfo &Load, uint32_t LoadCommandIndex, const char **SymtabLoadCmd, std::list &Elements) { if (Load.C.cmdsize < sizeof(MachO::symtab_command)) return malformedError("load command " + Twine(LoadCommandIndex) + " LC_SYMTAB cmdsize too small"); if (*SymtabLoadCmd != nullptr) return malformedError("more than one LC_SYMTAB command"); auto SymtabOrErr = getStructOrErr(Obj, Load.Ptr); if (!SymtabOrErr) return SymtabOrErr.takeError(); MachO::symtab_command Symtab = SymtabOrErr.get(); if (Symtab.cmdsize != sizeof(MachO::symtab_command)) return malformedError("LC_SYMTAB command " + Twine(LoadCommandIndex) + " has incorrect cmdsize"); uint64_t FileSize = Obj.getData().size(); if (Symtab.symoff > FileSize) return malformedError("symoff field of LC_SYMTAB command " + Twine(LoadCommandIndex) + " extends past the end " "of the file"); uint64_t SymtabSize = Symtab.nsyms; const char *struct_nlist_name; if (Obj.is64Bit()) { SymtabSize *= sizeof(MachO::nlist_64); struct_nlist_name = "struct nlist_64"; } else { SymtabSize *= sizeof(MachO::nlist); struct_nlist_name = "struct nlist"; } uint64_t BigSize = SymtabSize; BigSize += Symtab.symoff; if (BigSize > FileSize) return malformedError("symoff field plus nsyms field times sizeof(" + Twine(struct_nlist_name) + ") of LC_SYMTAB command " + Twine(LoadCommandIndex) + " extends past the end " "of the file"); if (Error Err = checkOverlappingElement(Elements, Symtab.symoff, SymtabSize, "symbol table")) return Err; if (Symtab.stroff > FileSize) return malformedError("stroff field of LC_SYMTAB command " + Twine(LoadCommandIndex) + " extends past the end " "of the file"); BigSize = Symtab.stroff; BigSize += Symtab.strsize; if (BigSize > FileSize) return malformedError("stroff field plus strsize field of LC_SYMTAB " "command " + Twine(LoadCommandIndex) + " extends " "past the end of the file"); if (Error Err = checkOverlappingElement(Elements, Symtab.stroff, Symtab.strsize, "string table")) return Err; *SymtabLoadCmd = Load.Ptr; return Error::success(); } static Error checkDysymtabCommand(const MachOObjectFile &Obj, const MachOObjectFile::LoadCommandInfo &Load, uint32_t LoadCommandIndex, const char **DysymtabLoadCmd, std::list &Elements) { if (Load.C.cmdsize < sizeof(MachO::dysymtab_command)) return malformedError("load command " + Twine(LoadCommandIndex) + " LC_DYSYMTAB cmdsize too small"); if (*DysymtabLoadCmd != nullptr) return malformedError("more than one LC_DYSYMTAB command"); auto DysymtabOrErr = getStructOrErr(Obj, Load.Ptr); if (!DysymtabOrErr) return DysymtabOrErr.takeError(); MachO::dysymtab_command Dysymtab = DysymtabOrErr.get(); if (Dysymtab.cmdsize != sizeof(MachO::dysymtab_command)) return malformedError("LC_DYSYMTAB command " + Twine(LoadCommandIndex) + " has incorrect cmdsize"); uint64_t FileSize = Obj.getData().size(); if (Dysymtab.tocoff > FileSize) return malformedError("tocoff field of LC_DYSYMTAB command " + Twine(LoadCommandIndex) + " extends past the end of " "the file"); uint64_t BigSize = Dysymtab.ntoc; BigSize *= sizeof(MachO::dylib_table_of_contents); BigSize += Dysymtab.tocoff; if (BigSize > FileSize) return malformedError("tocoff field plus ntoc field times sizeof(struct " "dylib_table_of_contents) of LC_DYSYMTAB command " + Twine(LoadCommandIndex) + " extends past the end of " "the file"); if (Error Err = checkOverlappingElement(Elements, Dysymtab.tocoff, Dysymtab.ntoc * sizeof(struct MachO::dylib_table_of_contents), "table of contents")) return Err; if (Dysymtab.modtaboff > FileSize) return malformedError("modtaboff field of LC_DYSYMTAB command " + Twine(LoadCommandIndex) + " extends past the end of " "the file"); BigSize = Dysymtab.nmodtab; const char *struct_dylib_module_name; uint64_t sizeof_modtab; if (Obj.is64Bit()) { sizeof_modtab = sizeof(MachO::dylib_module_64); struct_dylib_module_name = "struct dylib_module_64"; } else { sizeof_modtab = sizeof(MachO::dylib_module); struct_dylib_module_name = "struct dylib_module"; } BigSize *= sizeof_modtab; BigSize += Dysymtab.modtaboff; if (BigSize > FileSize) return malformedError("modtaboff field plus nmodtab field times sizeof(" + Twine(struct_dylib_module_name) + ") of LC_DYSYMTAB " "command " + Twine(LoadCommandIndex) + " extends " "past the end of the file"); if (Error Err = checkOverlappingElement(Elements, Dysymtab.modtaboff, Dysymtab.nmodtab * sizeof_modtab, "module table")) return Err; if (Dysymtab.extrefsymoff > FileSize) return malformedError("extrefsymoff field of LC_DYSYMTAB command " + Twine(LoadCommandIndex) + " extends past the end of " "the file"); BigSize = Dysymtab.nextrefsyms; BigSize *= sizeof(MachO::dylib_reference); BigSize += Dysymtab.extrefsymoff; if (BigSize > FileSize) return malformedError("extrefsymoff field plus nextrefsyms field times " "sizeof(struct dylib_reference) of LC_DYSYMTAB " "command " + Twine(LoadCommandIndex) + " extends " "past the end of the file"); if (Error Err = checkOverlappingElement(Elements, Dysymtab.extrefsymoff, Dysymtab.nextrefsyms * sizeof(MachO::dylib_reference), "reference table")) return Err; if (Dysymtab.indirectsymoff > FileSize) return malformedError("indirectsymoff field of LC_DYSYMTAB command " + Twine(LoadCommandIndex) + " extends past the end of " "the file"); BigSize = Dysymtab.nindirectsyms; BigSize *= sizeof(uint32_t); BigSize += Dysymtab.indirectsymoff; if (BigSize > FileSize) return malformedError("indirectsymoff field plus nindirectsyms field times " "sizeof(uint32_t) of LC_DYSYMTAB command " + Twine(LoadCommandIndex) + " extends past the end of " "the file"); if (Error Err = checkOverlappingElement(Elements, Dysymtab.indirectsymoff, Dysymtab.nindirectsyms * sizeof(uint32_t), "indirect table")) return Err; if (Dysymtab.extreloff > FileSize) return malformedError("extreloff field of LC_DYSYMTAB command " + Twine(LoadCommandIndex) + " extends past the end of " "the file"); BigSize = Dysymtab.nextrel; BigSize *= sizeof(MachO::relocation_info); BigSize += Dysymtab.extreloff; if (BigSize > FileSize) return malformedError("extreloff field plus nextrel field times sizeof" "(struct relocation_info) of LC_DYSYMTAB command " + Twine(LoadCommandIndex) + " extends past the end of " "the file"); if (Error Err = checkOverlappingElement(Elements, Dysymtab.extreloff, Dysymtab.nextrel * sizeof(MachO::relocation_info), "external relocation table")) return Err; if (Dysymtab.locreloff > FileSize) return malformedError("locreloff field of LC_DYSYMTAB command " + Twine(LoadCommandIndex) + " extends past the end of " "the file"); BigSize = Dysymtab.nlocrel; BigSize *= sizeof(MachO::relocation_info); BigSize += Dysymtab.locreloff; if (BigSize > FileSize) return malformedError("locreloff field plus nlocrel field times sizeof" "(struct relocation_info) of LC_DYSYMTAB command " + Twine(LoadCommandIndex) + " extends past the end of " "the file"); if (Error Err = checkOverlappingElement(Elements, Dysymtab.locreloff, Dysymtab.nlocrel * sizeof(MachO::relocation_info), "local relocation table")) return Err; *DysymtabLoadCmd = Load.Ptr; return Error::success(); } static Error checkLinkeditDataCommand(const MachOObjectFile &Obj, const MachOObjectFile::LoadCommandInfo &Load, uint32_t LoadCommandIndex, const char **LoadCmd, const char *CmdName, std::list &Elements, const char *ElementName) { if (Load.C.cmdsize < sizeof(MachO::linkedit_data_command)) return malformedError("load command " + Twine(LoadCommandIndex) + " " + CmdName + " cmdsize too small"); if (*LoadCmd != nullptr) return malformedError("more than one " + Twine(CmdName) + " command"); auto LinkDataOrError = getStructOrErr(Obj, Load.Ptr); if (!LinkDataOrError) return LinkDataOrError.takeError(); MachO::linkedit_data_command LinkData = LinkDataOrError.get(); if (LinkData.cmdsize != sizeof(MachO::linkedit_data_command)) return malformedError(Twine(CmdName) + " command " + Twine(LoadCommandIndex) + " has incorrect cmdsize"); uint64_t FileSize = Obj.getData().size(); if (LinkData.dataoff > FileSize) return malformedError("dataoff field of " + Twine(CmdName) + " command " + Twine(LoadCommandIndex) + " extends past the end of " "the file"); uint64_t BigSize = LinkData.dataoff; BigSize += LinkData.datasize; if (BigSize > FileSize) return malformedError("dataoff field plus datasize field of " + Twine(CmdName) + " command " + Twine(LoadCommandIndex) + " extends past the end of " "the file"); if (Error Err = checkOverlappingElement(Elements, LinkData.dataoff, LinkData.datasize, ElementName)) return Err; *LoadCmd = Load.Ptr; return Error::success(); } static Error checkDyldInfoCommand(const MachOObjectFile &Obj, const MachOObjectFile::LoadCommandInfo &Load, uint32_t LoadCommandIndex, const char **LoadCmd, const char *CmdName, std::list &Elements) { if (Load.C.cmdsize < sizeof(MachO::dyld_info_command)) return malformedError("load command " + Twine(LoadCommandIndex) + " " + CmdName + " cmdsize too small"); if (*LoadCmd != nullptr) return malformedError("more than one LC_DYLD_INFO and or LC_DYLD_INFO_ONLY " "command"); auto DyldInfoOrErr = getStructOrErr(Obj, Load.Ptr); if (!DyldInfoOrErr) return DyldInfoOrErr.takeError(); MachO::dyld_info_command DyldInfo = DyldInfoOrErr.get(); if (DyldInfo.cmdsize != sizeof(MachO::dyld_info_command)) return malformedError(Twine(CmdName) + " command " + Twine(LoadCommandIndex) + " has incorrect cmdsize"); uint64_t FileSize = Obj.getData().size(); if (DyldInfo.rebase_off > FileSize) return malformedError("rebase_off field of " + Twine(CmdName) + " command " + Twine(LoadCommandIndex) + " extends " "past the end of the file"); uint64_t BigSize = DyldInfo.rebase_off; BigSize += DyldInfo.rebase_size; if (BigSize > FileSize) return malformedError("rebase_off field plus rebase_size field of " + Twine(CmdName) + " command " + Twine(LoadCommandIndex) + " extends past the end of " "the file"); if (Error Err = checkOverlappingElement(Elements, DyldInfo.rebase_off, DyldInfo.rebase_size, "dyld rebase info")) return Err; if (DyldInfo.bind_off > FileSize) return malformedError("bind_off field of " + Twine(CmdName) + " command " + Twine(LoadCommandIndex) + " extends " "past the end of the file"); BigSize = DyldInfo.bind_off; BigSize += DyldInfo.bind_size; if (BigSize > FileSize) return malformedError("bind_off field plus bind_size field of " + Twine(CmdName) + " command " + Twine(LoadCommandIndex) + " extends past the end of " "the file"); if (Error Err = checkOverlappingElement(Elements, DyldInfo.bind_off, DyldInfo.bind_size, "dyld bind info")) return Err; if (DyldInfo.weak_bind_off > FileSize) return malformedError("weak_bind_off field of " + Twine(CmdName) + " command " + Twine(LoadCommandIndex) + " extends " "past the end of the file"); BigSize = DyldInfo.weak_bind_off; BigSize += DyldInfo.weak_bind_size; if (BigSize > FileSize) return malformedError("weak_bind_off field plus weak_bind_size field of " + Twine(CmdName) + " command " + Twine(LoadCommandIndex) + " extends past the end of " "the file"); if (Error Err = checkOverlappingElement(Elements, DyldInfo.weak_bind_off, DyldInfo.weak_bind_size, "dyld weak bind info")) return Err; if (DyldInfo.lazy_bind_off > FileSize) return malformedError("lazy_bind_off field of " + Twine(CmdName) + " command " + Twine(LoadCommandIndex) + " extends " "past the end of the file"); BigSize = DyldInfo.lazy_bind_off; BigSize += DyldInfo.lazy_bind_size; if (BigSize > FileSize) return malformedError("lazy_bind_off field plus lazy_bind_size field of " + Twine(CmdName) + " command " + Twine(LoadCommandIndex) + " extends past the end of " "the file"); if (Error Err = checkOverlappingElement(Elements, DyldInfo.lazy_bind_off, DyldInfo.lazy_bind_size, "dyld lazy bind info")) return Err; if (DyldInfo.export_off > FileSize) return malformedError("export_off field of " + Twine(CmdName) + " command " + Twine(LoadCommandIndex) + " extends " "past the end of the file"); BigSize = DyldInfo.export_off; BigSize += DyldInfo.export_size; if (BigSize > FileSize) return malformedError("export_off field plus export_size field of " + Twine(CmdName) + " command " + Twine(LoadCommandIndex) + " extends past the end of " "the file"); if (Error Err = checkOverlappingElement(Elements, DyldInfo.export_off, DyldInfo.export_size, "dyld export info")) return Err; *LoadCmd = Load.Ptr; return Error::success(); } static Error checkDylibCommand(const MachOObjectFile &Obj, const MachOObjectFile::LoadCommandInfo &Load, uint32_t LoadCommandIndex, const char *CmdName) { if (Load.C.cmdsize < sizeof(MachO::dylib_command)) return malformedError("load command " + Twine(LoadCommandIndex) + " " + CmdName + " cmdsize too small"); auto CommandOrErr = getStructOrErr(Obj, Load.Ptr); if (!CommandOrErr) return CommandOrErr.takeError(); MachO::dylib_command D = CommandOrErr.get(); if (D.dylib.name < sizeof(MachO::dylib_command)) return malformedError("load command " + Twine(LoadCommandIndex) + " " + CmdName + " name.offset field too small, not past " "the end of the dylib_command struct"); if (D.dylib.name >= D.cmdsize) return malformedError("load command " + Twine(LoadCommandIndex) + " " + CmdName + " name.offset field extends past the end " "of the load command"); // Make sure there is a null between the starting offset of the name and // the end of the load command. uint32_t i; const char *P = (const char *)Load.Ptr; for (i = D.dylib.name; i < D.cmdsize; i++) if (P[i] == '\0') break; if (i >= D.cmdsize) return malformedError("load command " + Twine(LoadCommandIndex) + " " + CmdName + " library name extends past the end of the " "load command"); return Error::success(); } static Error checkDylibIdCommand(const MachOObjectFile &Obj, const MachOObjectFile::LoadCommandInfo &Load, uint32_t LoadCommandIndex, const char **LoadCmd) { if (Error Err = checkDylibCommand(Obj, Load, LoadCommandIndex, "LC_ID_DYLIB")) return Err; if (*LoadCmd != nullptr) return malformedError("more than one LC_ID_DYLIB command"); if (Obj.getHeader().filetype != MachO::MH_DYLIB && Obj.getHeader().filetype != MachO::MH_DYLIB_STUB) return malformedError("LC_ID_DYLIB load command in non-dynamic library " "file type"); *LoadCmd = Load.Ptr; return Error::success(); } static Error checkDyldCommand(const MachOObjectFile &Obj, const MachOObjectFile::LoadCommandInfo &Load, uint32_t LoadCommandIndex, const char *CmdName) { if (Load.C.cmdsize < sizeof(MachO::dylinker_command)) return malformedError("load command " + Twine(LoadCommandIndex) + " " + CmdName + " cmdsize too small"); auto CommandOrErr = getStructOrErr(Obj, Load.Ptr); if (!CommandOrErr) return CommandOrErr.takeError(); MachO::dylinker_command D = CommandOrErr.get(); if (D.name < sizeof(MachO::dylinker_command)) return malformedError("load command " + Twine(LoadCommandIndex) + " " + CmdName + " name.offset field too small, not past " "the end of the dylinker_command struct"); if (D.name >= D.cmdsize) return malformedError("load command " + Twine(LoadCommandIndex) + " " + CmdName + " name.offset field extends past the end " "of the load command"); // Make sure there is a null between the starting offset of the name and // the end of the load command. uint32_t i; const char *P = (const char *)Load.Ptr; for (i = D.name; i < D.cmdsize; i++) if (P[i] == '\0') break; if (i >= D.cmdsize) return malformedError("load command " + Twine(LoadCommandIndex) + " " + CmdName + " dyld name extends past the end of the " "load command"); return Error::success(); } static Error checkVersCommand(const MachOObjectFile &Obj, const MachOObjectFile::LoadCommandInfo &Load, uint32_t LoadCommandIndex, const char **LoadCmd, const char *CmdName) { if (Load.C.cmdsize != sizeof(MachO::version_min_command)) return malformedError("load command " + Twine(LoadCommandIndex) + " " + CmdName + " has incorrect cmdsize"); if (*LoadCmd != nullptr) return malformedError("more than one LC_VERSION_MIN_MACOSX, " "LC_VERSION_MIN_IPHONEOS, LC_VERSION_MIN_TVOS or " "LC_VERSION_MIN_WATCHOS command"); *LoadCmd = Load.Ptr; return Error::success(); } static Error checkNoteCommand(const MachOObjectFile &Obj, const MachOObjectFile::LoadCommandInfo &Load, uint32_t LoadCommandIndex, std::list &Elements) { if (Load.C.cmdsize != sizeof(MachO::note_command)) return malformedError("load command " + Twine(LoadCommandIndex) + " LC_NOTE has incorrect cmdsize"); auto NoteCmdOrErr = getStructOrErr(Obj, Load.Ptr); if (!NoteCmdOrErr) return NoteCmdOrErr.takeError(); MachO::note_command Nt = NoteCmdOrErr.get(); uint64_t FileSize = Obj.getData().size(); if (Nt.offset > FileSize) return malformedError("offset field of LC_NOTE command " + Twine(LoadCommandIndex) + " extends " "past the end of the file"); uint64_t BigSize = Nt.offset; BigSize += Nt.size; if (BigSize > FileSize) return malformedError("size field plus offset field of LC_NOTE command " + Twine(LoadCommandIndex) + " extends past the end of " "the file"); if (Error Err = checkOverlappingElement(Elements, Nt.offset, Nt.size, "LC_NOTE data")) return Err; return Error::success(); } static Error parseBuildVersionCommand(const MachOObjectFile &Obj, const MachOObjectFile::LoadCommandInfo &Load, SmallVectorImpl &BuildTools, uint32_t LoadCommandIndex) { auto BVCOrErr = getStructOrErr(Obj, Load.Ptr); if (!BVCOrErr) return BVCOrErr.takeError(); MachO::build_version_command BVC = BVCOrErr.get(); if (Load.C.cmdsize != sizeof(MachO::build_version_command) + BVC.ntools * sizeof(MachO::build_tool_version)) return malformedError("load command " + Twine(LoadCommandIndex) + " LC_BUILD_VERSION_COMMAND has incorrect cmdsize"); auto Start = Load.Ptr + sizeof(MachO::build_version_command); BuildTools.resize(BVC.ntools); for (unsigned i = 0; i < BVC.ntools; ++i) BuildTools[i] = Start + i * sizeof(MachO::build_tool_version); return Error::success(); } static Error checkRpathCommand(const MachOObjectFile &Obj, const MachOObjectFile::LoadCommandInfo &Load, uint32_t LoadCommandIndex) { if (Load.C.cmdsize < sizeof(MachO::rpath_command)) return malformedError("load command " + Twine(LoadCommandIndex) + " LC_RPATH cmdsize too small"); auto ROrErr = getStructOrErr(Obj, Load.Ptr); if (!ROrErr) return ROrErr.takeError(); MachO::rpath_command R = ROrErr.get(); if (R.path < sizeof(MachO::rpath_command)) return malformedError("load command " + Twine(LoadCommandIndex) + " LC_RPATH path.offset field too small, not past " "the end of the rpath_command struct"); if (R.path >= R.cmdsize) return malformedError("load command " + Twine(LoadCommandIndex) + " LC_RPATH path.offset field extends past the end " "of the load command"); // Make sure there is a null between the starting offset of the path and // the end of the load command. uint32_t i; const char *P = (const char *)Load.Ptr; for (i = R.path; i < R.cmdsize; i++) if (P[i] == '\0') break; if (i >= R.cmdsize) return malformedError("load command " + Twine(LoadCommandIndex) + " LC_RPATH library name extends past the end of the " "load command"); return Error::success(); } static Error checkEncryptCommand(const MachOObjectFile &Obj, const MachOObjectFile::LoadCommandInfo &Load, uint32_t LoadCommandIndex, uint64_t cryptoff, uint64_t cryptsize, const char **LoadCmd, const char *CmdName) { if (*LoadCmd != nullptr) return malformedError("more than one LC_ENCRYPTION_INFO and or " "LC_ENCRYPTION_INFO_64 command"); uint64_t FileSize = Obj.getData().size(); if (cryptoff > FileSize) return malformedError("cryptoff field of " + Twine(CmdName) + " command " + Twine(LoadCommandIndex) + " extends " "past the end of the file"); uint64_t BigSize = cryptoff; BigSize += cryptsize; if (BigSize > FileSize) return malformedError("cryptoff field plus cryptsize field of " + Twine(CmdName) + " command " + Twine(LoadCommandIndex) + " extends past the end of " "the file"); *LoadCmd = Load.Ptr; return Error::success(); } static Error checkLinkerOptCommand(const MachOObjectFile &Obj, const MachOObjectFile::LoadCommandInfo &Load, uint32_t LoadCommandIndex) { if (Load.C.cmdsize < sizeof(MachO::linker_option_command)) return malformedError("load command " + Twine(LoadCommandIndex) + " LC_LINKER_OPTION cmdsize too small"); auto LinkOptionOrErr = getStructOrErr(Obj, Load.Ptr); if (!LinkOptionOrErr) return LinkOptionOrErr.takeError(); MachO::linker_option_command L = LinkOptionOrErr.get(); // Make sure the count of strings is correct. const char *string = (const char *)Load.Ptr + sizeof(struct MachO::linker_option_command); uint32_t left = L.cmdsize - sizeof(struct MachO::linker_option_command); uint32_t i = 0; while (left > 0) { while (*string == '\0' && left > 0) { string++; left--; } if (left > 0) { i++; uint32_t NullPos = StringRef(string, left).find('\0'); if (0xffffffff == NullPos) return malformedError("load command " + Twine(LoadCommandIndex) + " LC_LINKER_OPTION string #" + Twine(i) + " is not NULL terminated"); uint32_t len = std::min(NullPos, left) + 1; string += len; left -= len; } } if (L.count != i) return malformedError("load command " + Twine(LoadCommandIndex) + " LC_LINKER_OPTION string count " + Twine(L.count) + " does not match number of strings"); return Error::success(); } static Error checkSubCommand(const MachOObjectFile &Obj, const MachOObjectFile::LoadCommandInfo &Load, uint32_t LoadCommandIndex, const char *CmdName, size_t SizeOfCmd, const char *CmdStructName, uint32_t PathOffset, const char *PathFieldName) { if (PathOffset < SizeOfCmd) return malformedError("load command " + Twine(LoadCommandIndex) + " " + CmdName + " " + PathFieldName + ".offset field too " "small, not past the end of the " + CmdStructName); if (PathOffset >= Load.C.cmdsize) return malformedError("load command " + Twine(LoadCommandIndex) + " " + CmdName + " " + PathFieldName + ".offset field " "extends past the end of the load command"); // Make sure there is a null between the starting offset of the path and // the end of the load command. uint32_t i; const char *P = (const char *)Load.Ptr; for (i = PathOffset; i < Load.C.cmdsize; i++) if (P[i] == '\0') break; if (i >= Load.C.cmdsize) return malformedError("load command " + Twine(LoadCommandIndex) + " " + CmdName + " " + PathFieldName + " name extends past " "the end of the load command"); return Error::success(); } static Error checkThreadCommand(const MachOObjectFile &Obj, const MachOObjectFile::LoadCommandInfo &Load, uint32_t LoadCommandIndex, const char *CmdName) { if (Load.C.cmdsize < sizeof(MachO::thread_command)) return malformedError("load command " + Twine(LoadCommandIndex) + CmdName + " cmdsize too small"); auto ThreadCommandOrErr = getStructOrErr(Obj, Load.Ptr); if (!ThreadCommandOrErr) return ThreadCommandOrErr.takeError(); MachO::thread_command T = ThreadCommandOrErr.get(); const char *state = Load.Ptr + sizeof(MachO::thread_command); const char *end = Load.Ptr + T.cmdsize; uint32_t nflavor = 0; uint32_t cputype = getCPUType(Obj); while (state < end) { if(state + sizeof(uint32_t) > end) return malformedError("load command " + Twine(LoadCommandIndex) + "flavor in " + CmdName + " extends past end of " "command"); uint32_t flavor; memcpy(&flavor, state, sizeof(uint32_t)); if (Obj.isLittleEndian() != sys::IsLittleEndianHost) sys::swapByteOrder(flavor); state += sizeof(uint32_t); if(state + sizeof(uint32_t) > end) return malformedError("load command " + Twine(LoadCommandIndex) + " count in " + CmdName + " extends past end of " "command"); uint32_t count; memcpy(&count, state, sizeof(uint32_t)); if (Obj.isLittleEndian() != sys::IsLittleEndianHost) sys::swapByteOrder(count); state += sizeof(uint32_t); if (cputype == MachO::CPU_TYPE_I386) { if (flavor == MachO::x86_THREAD_STATE32) { if (count != MachO::x86_THREAD_STATE32_COUNT) return malformedError("load command " + Twine(LoadCommandIndex) + " count not x86_THREAD_STATE32_COUNT for " "flavor number " + Twine(nflavor) + " which is " "a x86_THREAD_STATE32 flavor in " + CmdName + " command"); if (state + sizeof(MachO::x86_thread_state32_t) > end) return malformedError("load command " + Twine(LoadCommandIndex) + " x86_THREAD_STATE32 extends past end of " "command in " + CmdName + " command"); state += sizeof(MachO::x86_thread_state32_t); } else { return malformedError("load command " + Twine(LoadCommandIndex) + " unknown flavor (" + Twine(flavor) + ") for " "flavor number " + Twine(nflavor) + " in " + CmdName + " command"); } } else if (cputype == MachO::CPU_TYPE_X86_64) { if (flavor == MachO::x86_THREAD_STATE) { if (count != MachO::x86_THREAD_STATE_COUNT) return malformedError("load command " + Twine(LoadCommandIndex) + " count not x86_THREAD_STATE_COUNT for " "flavor number " + Twine(nflavor) + " which is " "a x86_THREAD_STATE flavor in " + CmdName + " command"); if (state + sizeof(MachO::x86_thread_state_t) > end) return malformedError("load command " + Twine(LoadCommandIndex) + " x86_THREAD_STATE extends past end of " "command in " + CmdName + " command"); state += sizeof(MachO::x86_thread_state_t); } else if (flavor == MachO::x86_FLOAT_STATE) { if (count != MachO::x86_FLOAT_STATE_COUNT) return malformedError("load command " + Twine(LoadCommandIndex) + " count not x86_FLOAT_STATE_COUNT for " "flavor number " + Twine(nflavor) + " which is " "a x86_FLOAT_STATE flavor in " + CmdName + " command"); if (state + sizeof(MachO::x86_float_state_t) > end) return malformedError("load command " + Twine(LoadCommandIndex) + " x86_FLOAT_STATE extends past end of " "command in " + CmdName + " command"); state += sizeof(MachO::x86_float_state_t); } else if (flavor == MachO::x86_EXCEPTION_STATE) { if (count != MachO::x86_EXCEPTION_STATE_COUNT) return malformedError("load command " + Twine(LoadCommandIndex) + " count not x86_EXCEPTION_STATE_COUNT for " "flavor number " + Twine(nflavor) + " which is " "a x86_EXCEPTION_STATE flavor in " + CmdName + " command"); if (state + sizeof(MachO::x86_exception_state_t) > end) return malformedError("load command " + Twine(LoadCommandIndex) + " x86_EXCEPTION_STATE extends past end of " "command in " + CmdName + " command"); state += sizeof(MachO::x86_exception_state_t); } else if (flavor == MachO::x86_THREAD_STATE64) { if (count != MachO::x86_THREAD_STATE64_COUNT) return malformedError("load command " + Twine(LoadCommandIndex) + " count not x86_THREAD_STATE64_COUNT for " "flavor number " + Twine(nflavor) + " which is " "a x86_THREAD_STATE64 flavor in " + CmdName + " command"); if (state + sizeof(MachO::x86_thread_state64_t) > end) return malformedError("load command " + Twine(LoadCommandIndex) + " x86_THREAD_STATE64 extends past end of " "command in " + CmdName + " command"); state += sizeof(MachO::x86_thread_state64_t); } else if (flavor == MachO::x86_EXCEPTION_STATE64) { if (count != MachO::x86_EXCEPTION_STATE64_COUNT) return malformedError("load command " + Twine(LoadCommandIndex) + " count not x86_EXCEPTION_STATE64_COUNT for " "flavor number " + Twine(nflavor) + " which is " "a x86_EXCEPTION_STATE64 flavor in " + CmdName + " command"); if (state + sizeof(MachO::x86_exception_state64_t) > end) return malformedError("load command " + Twine(LoadCommandIndex) + " x86_EXCEPTION_STATE64 extends past end of " "command in " + CmdName + " command"); state += sizeof(MachO::x86_exception_state64_t); } else { return malformedError("load command " + Twine(LoadCommandIndex) + " unknown flavor (" + Twine(flavor) + ") for " "flavor number " + Twine(nflavor) + " in " + CmdName + " command"); } } else if (cputype == MachO::CPU_TYPE_ARM) { if (flavor == MachO::ARM_THREAD_STATE) { if (count != MachO::ARM_THREAD_STATE_COUNT) return malformedError("load command " + Twine(LoadCommandIndex) + " count not ARM_THREAD_STATE_COUNT for " "flavor number " + Twine(nflavor) + " which is " "a ARM_THREAD_STATE flavor in " + CmdName + " command"); if (state + sizeof(MachO::arm_thread_state32_t) > end) return malformedError("load command " + Twine(LoadCommandIndex) + " ARM_THREAD_STATE extends past end of " "command in " + CmdName + " command"); state += sizeof(MachO::arm_thread_state32_t); } else { return malformedError("load command " + Twine(LoadCommandIndex) + " unknown flavor (" + Twine(flavor) + ") for " "flavor number " + Twine(nflavor) + " in " + CmdName + " command"); } } else if (cputype == MachO::CPU_TYPE_ARM64 || cputype == MachO::CPU_TYPE_ARM64_32) { if (flavor == MachO::ARM_THREAD_STATE64) { if (count != MachO::ARM_THREAD_STATE64_COUNT) return malformedError("load command " + Twine(LoadCommandIndex) + " count not ARM_THREAD_STATE64_COUNT for " "flavor number " + Twine(nflavor) + " which is " "a ARM_THREAD_STATE64 flavor in " + CmdName + " command"); if (state + sizeof(MachO::arm_thread_state64_t) > end) return malformedError("load command " + Twine(LoadCommandIndex) + " ARM_THREAD_STATE64 extends past end of " "command in " + CmdName + " command"); state += sizeof(MachO::arm_thread_state64_t); } else { return malformedError("load command " + Twine(LoadCommandIndex) + " unknown flavor (" + Twine(flavor) + ") for " "flavor number " + Twine(nflavor) + " in " + CmdName + " command"); } } else if (cputype == MachO::CPU_TYPE_POWERPC) { if (flavor == MachO::PPC_THREAD_STATE) { if (count != MachO::PPC_THREAD_STATE_COUNT) return malformedError("load command " + Twine(LoadCommandIndex) + " count not PPC_THREAD_STATE_COUNT for " "flavor number " + Twine(nflavor) + " which is " "a PPC_THREAD_STATE flavor in " + CmdName + " command"); if (state + sizeof(MachO::ppc_thread_state32_t) > end) return malformedError("load command " + Twine(LoadCommandIndex) + " PPC_THREAD_STATE extends past end of " "command in " + CmdName + " command"); state += sizeof(MachO::ppc_thread_state32_t); } else { return malformedError("load command " + Twine(LoadCommandIndex) + " unknown flavor (" + Twine(flavor) + ") for " "flavor number " + Twine(nflavor) + " in " + CmdName + " command"); } } else { return malformedError("unknown cputype (" + Twine(cputype) + ") load " "command " + Twine(LoadCommandIndex) + " for " + CmdName + " command can't be checked"); } nflavor++; } return Error::success(); } static Error checkTwoLevelHintsCommand(const MachOObjectFile &Obj, const MachOObjectFile::LoadCommandInfo &Load, uint32_t LoadCommandIndex, const char **LoadCmd, std::list &Elements) { if (Load.C.cmdsize != sizeof(MachO::twolevel_hints_command)) return malformedError("load command " + Twine(LoadCommandIndex) + " LC_TWOLEVEL_HINTS has incorrect cmdsize"); if (*LoadCmd != nullptr) return malformedError("more than one LC_TWOLEVEL_HINTS command"); auto HintsOrErr = getStructOrErr(Obj, Load.Ptr); if(!HintsOrErr) return HintsOrErr.takeError(); MachO::twolevel_hints_command Hints = HintsOrErr.get(); uint64_t FileSize = Obj.getData().size(); if (Hints.offset > FileSize) return malformedError("offset field of LC_TWOLEVEL_HINTS command " + Twine(LoadCommandIndex) + " extends past the end of " "the file"); uint64_t BigSize = Hints.nhints; BigSize *= sizeof(MachO::twolevel_hint); BigSize += Hints.offset; if (BigSize > FileSize) return malformedError("offset field plus nhints times sizeof(struct " "twolevel_hint) field of LC_TWOLEVEL_HINTS command " + Twine(LoadCommandIndex) + " extends past the end of " "the file"); if (Error Err = checkOverlappingElement(Elements, Hints.offset, Hints.nhints * sizeof(MachO::twolevel_hint), "two level hints")) return Err; *LoadCmd = Load.Ptr; return Error::success(); } // Returns true if the libObject code does not support the load command and its // contents. The cmd value it is treated as an unknown load command but with // an error message that says the cmd value is obsolete. static bool isLoadCommandObsolete(uint32_t cmd) { if (cmd == MachO::LC_SYMSEG || cmd == MachO::LC_LOADFVMLIB || cmd == MachO::LC_IDFVMLIB || cmd == MachO::LC_IDENT || cmd == MachO::LC_FVMFILE || cmd == MachO::LC_PREPAGE || cmd == MachO::LC_PREBOUND_DYLIB || cmd == MachO::LC_TWOLEVEL_HINTS || cmd == MachO::LC_PREBIND_CKSUM) return true; return false; } Expected> MachOObjectFile::create(MemoryBufferRef Object, bool IsLittleEndian, bool Is64Bits, uint32_t UniversalCputype, uint32_t UniversalIndex, size_t MachOFilesetEntryOffset) { Error Err = Error::success(); std::unique_ptr Obj(new MachOObjectFile( std::move(Object), IsLittleEndian, Is64Bits, Err, UniversalCputype, UniversalIndex, MachOFilesetEntryOffset)); if (Err) return std::move(Err); return std::move(Obj); } MachOObjectFile::MachOObjectFile(MemoryBufferRef Object, bool IsLittleEndian, bool Is64bits, Error &Err, uint32_t UniversalCputype, uint32_t UniversalIndex, size_t MachOFilesetEntryOffset) : ObjectFile(getMachOType(IsLittleEndian, Is64bits), Object), MachOFilesetEntryOffset(MachOFilesetEntryOffset) { ErrorAsOutParameter ErrAsOutParam(&Err); uint64_t SizeOfHeaders; uint32_t cputype; if (is64Bit()) { parseHeader(*this, Header64, Err); SizeOfHeaders = sizeof(MachO::mach_header_64); cputype = Header64.cputype; } else { parseHeader(*this, Header, Err); SizeOfHeaders = sizeof(MachO::mach_header); cputype = Header.cputype; } if (Err) return; SizeOfHeaders += getHeader().sizeofcmds; if (getData().data() + SizeOfHeaders > getData().end()) { Err = malformedError("load commands extend past the end of the file"); return; } if (UniversalCputype != 0 && cputype != UniversalCputype) { Err = malformedError("universal header architecture: " + Twine(UniversalIndex) + "'s cputype does not match " "object file's mach header"); return; } std::list Elements; Elements.push_back({0, SizeOfHeaders, "Mach-O headers"}); uint32_t LoadCommandCount = getHeader().ncmds; LoadCommandInfo Load; if (LoadCommandCount != 0) { if (auto LoadOrErr = getFirstLoadCommandInfo(*this)) Load = *LoadOrErr; else { Err = LoadOrErr.takeError(); return; } } const char *DyldIdLoadCmd = nullptr; const char *SplitInfoLoadCmd = nullptr; const char *CodeSignDrsLoadCmd = nullptr; const char *CodeSignLoadCmd = nullptr; const char *VersLoadCmd = nullptr; const char *SourceLoadCmd = nullptr; const char *EntryPointLoadCmd = nullptr; const char *EncryptLoadCmd = nullptr; const char *RoutinesLoadCmd = nullptr; const char *UnixThreadLoadCmd = nullptr; const char *TwoLevelHintsLoadCmd = nullptr; for (unsigned I = 0; I < LoadCommandCount; ++I) { if (is64Bit()) { if (Load.C.cmdsize % 8 != 0) { // We have a hack here to allow 64-bit Mach-O core files to have // LC_THREAD commands that are only a multiple of 4 and not 8 to be // allowed since the macOS kernel produces them. if (getHeader().filetype != MachO::MH_CORE || Load.C.cmd != MachO::LC_THREAD || Load.C.cmdsize % 4) { Err = malformedError("load command " + Twine(I) + " cmdsize not a " "multiple of 8"); return; } } } else { if (Load.C.cmdsize % 4 != 0) { Err = malformedError("load command " + Twine(I) + " cmdsize not a " "multiple of 4"); return; } } LoadCommands.push_back(Load); if (Load.C.cmd == MachO::LC_SYMTAB) { if ((Err = checkSymtabCommand(*this, Load, I, &SymtabLoadCmd, Elements))) return; } else if (Load.C.cmd == MachO::LC_DYSYMTAB) { if ((Err = checkDysymtabCommand(*this, Load, I, &DysymtabLoadCmd, Elements))) return; } else if (Load.C.cmd == MachO::LC_DATA_IN_CODE) { if ((Err = checkLinkeditDataCommand(*this, Load, I, &DataInCodeLoadCmd, "LC_DATA_IN_CODE", Elements, "data in code info"))) return; } else if (Load.C.cmd == MachO::LC_LINKER_OPTIMIZATION_HINT) { if ((Err = checkLinkeditDataCommand(*this, Load, I, &LinkOptHintsLoadCmd, "LC_LINKER_OPTIMIZATION_HINT", Elements, "linker optimization " "hints"))) return; } else if (Load.C.cmd == MachO::LC_FUNCTION_STARTS) { if ((Err = checkLinkeditDataCommand(*this, Load, I, &FuncStartsLoadCmd, "LC_FUNCTION_STARTS", Elements, "function starts data"))) return; } else if (Load.C.cmd == MachO::LC_SEGMENT_SPLIT_INFO) { if ((Err = checkLinkeditDataCommand(*this, Load, I, &SplitInfoLoadCmd, "LC_SEGMENT_SPLIT_INFO", Elements, "split info data"))) return; } else if (Load.C.cmd == MachO::LC_DYLIB_CODE_SIGN_DRS) { if ((Err = checkLinkeditDataCommand(*this, Load, I, &CodeSignDrsLoadCmd, "LC_DYLIB_CODE_SIGN_DRS", Elements, "code signing RDs data"))) return; } else if (Load.C.cmd == MachO::LC_CODE_SIGNATURE) { if ((Err = checkLinkeditDataCommand(*this, Load, I, &CodeSignLoadCmd, "LC_CODE_SIGNATURE", Elements, "code signature data"))) return; } else if (Load.C.cmd == MachO::LC_DYLD_INFO) { if ((Err = checkDyldInfoCommand(*this, Load, I, &DyldInfoLoadCmd, "LC_DYLD_INFO", Elements))) return; } else if (Load.C.cmd == MachO::LC_DYLD_INFO_ONLY) { if ((Err = checkDyldInfoCommand(*this, Load, I, &DyldInfoLoadCmd, "LC_DYLD_INFO_ONLY", Elements))) return; } else if (Load.C.cmd == MachO::LC_DYLD_CHAINED_FIXUPS) { if ((Err = checkLinkeditDataCommand( *this, Load, I, &DyldChainedFixupsLoadCmd, "LC_DYLD_CHAINED_FIXUPS", Elements, "chained fixups"))) return; } else if (Load.C.cmd == MachO::LC_DYLD_EXPORTS_TRIE) { if ((Err = checkLinkeditDataCommand( *this, Load, I, &DyldExportsTrieLoadCmd, "LC_DYLD_EXPORTS_TRIE", Elements, "exports trie"))) return; } else if (Load.C.cmd == MachO::LC_UUID) { if (Load.C.cmdsize != sizeof(MachO::uuid_command)) { Err = malformedError("LC_UUID command " + Twine(I) + " has incorrect " "cmdsize"); return; } if (UuidLoadCmd) { Err = malformedError("more than one LC_UUID command"); return; } UuidLoadCmd = Load.Ptr; } else if (Load.C.cmd == MachO::LC_SEGMENT_64) { if ((Err = parseSegmentLoadCommand( *this, Load, Sections, HasPageZeroSegment, I, "LC_SEGMENT_64", SizeOfHeaders, Elements))) return; } else if (Load.C.cmd == MachO::LC_SEGMENT) { if ((Err = parseSegmentLoadCommand( *this, Load, Sections, HasPageZeroSegment, I, "LC_SEGMENT", SizeOfHeaders, Elements))) return; } else if (Load.C.cmd == MachO::LC_ID_DYLIB) { if ((Err = checkDylibIdCommand(*this, Load, I, &DyldIdLoadCmd))) return; } else if (Load.C.cmd == MachO::LC_LOAD_DYLIB) { if ((Err = checkDylibCommand(*this, Load, I, "LC_LOAD_DYLIB"))) return; Libraries.push_back(Load.Ptr); } else if (Load.C.cmd == MachO::LC_LOAD_WEAK_DYLIB) { if ((Err = checkDylibCommand(*this, Load, I, "LC_LOAD_WEAK_DYLIB"))) return; Libraries.push_back(Load.Ptr); } else if (Load.C.cmd == MachO::LC_LAZY_LOAD_DYLIB) { if ((Err = checkDylibCommand(*this, Load, I, "LC_LAZY_LOAD_DYLIB"))) return; Libraries.push_back(Load.Ptr); } else if (Load.C.cmd == MachO::LC_REEXPORT_DYLIB) { if ((Err = checkDylibCommand(*this, Load, I, "LC_REEXPORT_DYLIB"))) return; Libraries.push_back(Load.Ptr); } else if (Load.C.cmd == MachO::LC_LOAD_UPWARD_DYLIB) { if ((Err = checkDylibCommand(*this, Load, I, "LC_LOAD_UPWARD_DYLIB"))) return; Libraries.push_back(Load.Ptr); } else if (Load.C.cmd == MachO::LC_ID_DYLINKER) { if ((Err = checkDyldCommand(*this, Load, I, "LC_ID_DYLINKER"))) return; } else if (Load.C.cmd == MachO::LC_LOAD_DYLINKER) { if ((Err = checkDyldCommand(*this, Load, I, "LC_LOAD_DYLINKER"))) return; } else if (Load.C.cmd == MachO::LC_DYLD_ENVIRONMENT) { if ((Err = checkDyldCommand(*this, Load, I, "LC_DYLD_ENVIRONMENT"))) return; } else if (Load.C.cmd == MachO::LC_VERSION_MIN_MACOSX) { if ((Err = checkVersCommand(*this, Load, I, &VersLoadCmd, "LC_VERSION_MIN_MACOSX"))) return; } else if (Load.C.cmd == MachO::LC_VERSION_MIN_IPHONEOS) { if ((Err = checkVersCommand(*this, Load, I, &VersLoadCmd, "LC_VERSION_MIN_IPHONEOS"))) return; } else if (Load.C.cmd == MachO::LC_VERSION_MIN_TVOS) { if ((Err = checkVersCommand(*this, Load, I, &VersLoadCmd, "LC_VERSION_MIN_TVOS"))) return; } else if (Load.C.cmd == MachO::LC_VERSION_MIN_WATCHOS) { if ((Err = checkVersCommand(*this, Load, I, &VersLoadCmd, "LC_VERSION_MIN_WATCHOS"))) return; } else if (Load.C.cmd == MachO::LC_NOTE) { if ((Err = checkNoteCommand(*this, Load, I, Elements))) return; } else if (Load.C.cmd == MachO::LC_BUILD_VERSION) { if ((Err = parseBuildVersionCommand(*this, Load, BuildTools, I))) return; } else if (Load.C.cmd == MachO::LC_RPATH) { if ((Err = checkRpathCommand(*this, Load, I))) return; } else if (Load.C.cmd == MachO::LC_SOURCE_VERSION) { if (Load.C.cmdsize != sizeof(MachO::source_version_command)) { Err = malformedError("LC_SOURCE_VERSION command " + Twine(I) + " has incorrect cmdsize"); return; } if (SourceLoadCmd) { Err = malformedError("more than one LC_SOURCE_VERSION command"); return; } SourceLoadCmd = Load.Ptr; } else if (Load.C.cmd == MachO::LC_MAIN) { if (Load.C.cmdsize != sizeof(MachO::entry_point_command)) { Err = malformedError("LC_MAIN command " + Twine(I) + " has incorrect cmdsize"); return; } if (EntryPointLoadCmd) { Err = malformedError("more than one LC_MAIN command"); return; } EntryPointLoadCmd = Load.Ptr; } else if (Load.C.cmd == MachO::LC_ENCRYPTION_INFO) { if (Load.C.cmdsize != sizeof(MachO::encryption_info_command)) { Err = malformedError("LC_ENCRYPTION_INFO command " + Twine(I) + " has incorrect cmdsize"); return; } MachO::encryption_info_command E = getStruct(*this, Load.Ptr); if ((Err = checkEncryptCommand(*this, Load, I, E.cryptoff, E.cryptsize, &EncryptLoadCmd, "LC_ENCRYPTION_INFO"))) return; } else if (Load.C.cmd == MachO::LC_ENCRYPTION_INFO_64) { if (Load.C.cmdsize != sizeof(MachO::encryption_info_command_64)) { Err = malformedError("LC_ENCRYPTION_INFO_64 command " + Twine(I) + " has incorrect cmdsize"); return; } MachO::encryption_info_command_64 E = getStruct(*this, Load.Ptr); if ((Err = checkEncryptCommand(*this, Load, I, E.cryptoff, E.cryptsize, &EncryptLoadCmd, "LC_ENCRYPTION_INFO_64"))) return; } else if (Load.C.cmd == MachO::LC_LINKER_OPTION) { if ((Err = checkLinkerOptCommand(*this, Load, I))) return; } else if (Load.C.cmd == MachO::LC_SUB_FRAMEWORK) { if (Load.C.cmdsize < sizeof(MachO::sub_framework_command)) { Err = malformedError("load command " + Twine(I) + " LC_SUB_FRAMEWORK cmdsize too small"); return; } MachO::sub_framework_command S = getStruct(*this, Load.Ptr); if ((Err = checkSubCommand(*this, Load, I, "LC_SUB_FRAMEWORK", sizeof(MachO::sub_framework_command), "sub_framework_command", S.umbrella, "umbrella"))) return; } else if (Load.C.cmd == MachO::LC_SUB_UMBRELLA) { if (Load.C.cmdsize < sizeof(MachO::sub_umbrella_command)) { Err = malformedError("load command " + Twine(I) + " LC_SUB_UMBRELLA cmdsize too small"); return; } MachO::sub_umbrella_command S = getStruct(*this, Load.Ptr); if ((Err = checkSubCommand(*this, Load, I, "LC_SUB_UMBRELLA", sizeof(MachO::sub_umbrella_command), "sub_umbrella_command", S.sub_umbrella, "sub_umbrella"))) return; } else if (Load.C.cmd == MachO::LC_SUB_LIBRARY) { if (Load.C.cmdsize < sizeof(MachO::sub_library_command)) { Err = malformedError("load command " + Twine(I) + " LC_SUB_LIBRARY cmdsize too small"); return; } MachO::sub_library_command S = getStruct(*this, Load.Ptr); if ((Err = checkSubCommand(*this, Load, I, "LC_SUB_LIBRARY", sizeof(MachO::sub_library_command), "sub_library_command", S.sub_library, "sub_library"))) return; } else if (Load.C.cmd == MachO::LC_SUB_CLIENT) { if (Load.C.cmdsize < sizeof(MachO::sub_client_command)) { Err = malformedError("load command " + Twine(I) + " LC_SUB_CLIENT cmdsize too small"); return; } MachO::sub_client_command S = getStruct(*this, Load.Ptr); if ((Err = checkSubCommand(*this, Load, I, "LC_SUB_CLIENT", sizeof(MachO::sub_client_command), "sub_client_command", S.client, "client"))) return; } else if (Load.C.cmd == MachO::LC_ROUTINES) { if (Load.C.cmdsize != sizeof(MachO::routines_command)) { Err = malformedError("LC_ROUTINES command " + Twine(I) + " has incorrect cmdsize"); return; } if (RoutinesLoadCmd) { Err = malformedError("more than one LC_ROUTINES and or LC_ROUTINES_64 " "command"); return; } RoutinesLoadCmd = Load.Ptr; } else if (Load.C.cmd == MachO::LC_ROUTINES_64) { if (Load.C.cmdsize != sizeof(MachO::routines_command_64)) { Err = malformedError("LC_ROUTINES_64 command " + Twine(I) + " has incorrect cmdsize"); return; } if (RoutinesLoadCmd) { Err = malformedError("more than one LC_ROUTINES_64 and or LC_ROUTINES " "command"); return; } RoutinesLoadCmd = Load.Ptr; } else if (Load.C.cmd == MachO::LC_UNIXTHREAD) { if ((Err = checkThreadCommand(*this, Load, I, "LC_UNIXTHREAD"))) return; if (UnixThreadLoadCmd) { Err = malformedError("more than one LC_UNIXTHREAD command"); return; } UnixThreadLoadCmd = Load.Ptr; } else if (Load.C.cmd == MachO::LC_THREAD) { if ((Err = checkThreadCommand(*this, Load, I, "LC_THREAD"))) return; // Note: LC_TWOLEVEL_HINTS is really obsolete and is not supported. } else if (Load.C.cmd == MachO::LC_TWOLEVEL_HINTS) { if ((Err = checkTwoLevelHintsCommand(*this, Load, I, &TwoLevelHintsLoadCmd, Elements))) return; } else if (Load.C.cmd == MachO::LC_IDENT) { // Note: LC_IDENT is ignored. continue; } else if (isLoadCommandObsolete(Load.C.cmd)) { Err = malformedError("load command " + Twine(I) + " for cmd value of: " + Twine(Load.C.cmd) + " is obsolete and not " "supported"); return; } // TODO: generate a error for unknown load commands by default. But still // need work out an approach to allow or not allow unknown values like this // as an option for some uses like lldb. if (I < LoadCommandCount - 1) { if (auto LoadOrErr = getNextLoadCommandInfo(*this, I, Load)) Load = *LoadOrErr; else { Err = LoadOrErr.takeError(); return; } } } if (!SymtabLoadCmd) { if (DysymtabLoadCmd) { Err = malformedError("contains LC_DYSYMTAB load command without a " "LC_SYMTAB load command"); return; } } else if (DysymtabLoadCmd) { MachO::symtab_command Symtab = getStruct(*this, SymtabLoadCmd); MachO::dysymtab_command Dysymtab = getStruct(*this, DysymtabLoadCmd); if (Dysymtab.nlocalsym != 0 && Dysymtab.ilocalsym > Symtab.nsyms) { Err = malformedError("ilocalsym in LC_DYSYMTAB load command " "extends past the end of the symbol table"); return; } uint64_t BigSize = Dysymtab.ilocalsym; BigSize += Dysymtab.nlocalsym; if (Dysymtab.nlocalsym != 0 && BigSize > Symtab.nsyms) { Err = malformedError("ilocalsym plus nlocalsym in LC_DYSYMTAB load " "command extends past the end of the symbol table"); return; } if (Dysymtab.nextdefsym != 0 && Dysymtab.iextdefsym > Symtab.nsyms) { Err = malformedError("iextdefsym in LC_DYSYMTAB load command " "extends past the end of the symbol table"); return; } BigSize = Dysymtab.iextdefsym; BigSize += Dysymtab.nextdefsym; if (Dysymtab.nextdefsym != 0 && BigSize > Symtab.nsyms) { Err = malformedError("iextdefsym plus nextdefsym in LC_DYSYMTAB " "load command extends past the end of the symbol " "table"); return; } if (Dysymtab.nundefsym != 0 && Dysymtab.iundefsym > Symtab.nsyms) { Err = malformedError("iundefsym in LC_DYSYMTAB load command " "extends past the end of the symbol table"); return; } BigSize = Dysymtab.iundefsym; BigSize += Dysymtab.nundefsym; if (Dysymtab.nundefsym != 0 && BigSize > Symtab.nsyms) { Err = malformedError("iundefsym plus nundefsym in LC_DYSYMTAB load " " command extends past the end of the symbol table"); return; } } if ((getHeader().filetype == MachO::MH_DYLIB || getHeader().filetype == MachO::MH_DYLIB_STUB) && DyldIdLoadCmd == nullptr) { Err = malformedError("no LC_ID_DYLIB load command in dynamic library " "filetype"); return; } assert(LoadCommands.size() == LoadCommandCount); Err = Error::success(); } Error MachOObjectFile::checkSymbolTable() const { uint32_t Flags = 0; if (is64Bit()) { MachO::mach_header_64 H_64 = MachOObjectFile::getHeader64(); Flags = H_64.flags; } else { MachO::mach_header H = MachOObjectFile::getHeader(); Flags = H.flags; } uint8_t NType = 0; uint8_t NSect = 0; uint16_t NDesc = 0; uint32_t NStrx = 0; uint64_t NValue = 0; uint32_t SymbolIndex = 0; MachO::symtab_command S = getSymtabLoadCommand(); for (const SymbolRef &Symbol : symbols()) { DataRefImpl SymDRI = Symbol.getRawDataRefImpl(); if (is64Bit()) { MachO::nlist_64 STE_64 = getSymbol64TableEntry(SymDRI); NType = STE_64.n_type; NSect = STE_64.n_sect; NDesc = STE_64.n_desc; NStrx = STE_64.n_strx; NValue = STE_64.n_value; } else { MachO::nlist STE = getSymbolTableEntry(SymDRI); NType = STE.n_type; NSect = STE.n_sect; NDesc = STE.n_desc; NStrx = STE.n_strx; NValue = STE.n_value; } if ((NType & MachO::N_STAB) == 0) { if ((NType & MachO::N_TYPE) == MachO::N_SECT) { if (NSect == 0 || NSect > Sections.size()) return malformedError("bad section index: " + Twine((int)NSect) + " for symbol at index " + Twine(SymbolIndex)); } if ((NType & MachO::N_TYPE) == MachO::N_INDR) { if (NValue >= S.strsize) return malformedError("bad n_value: " + Twine((int)NValue) + " past " "the end of string table, for N_INDR symbol at " "index " + Twine(SymbolIndex)); } if ((Flags & MachO::MH_TWOLEVEL) == MachO::MH_TWOLEVEL && (((NType & MachO::N_TYPE) == MachO::N_UNDF && NValue == 0) || (NType & MachO::N_TYPE) == MachO::N_PBUD)) { uint32_t LibraryOrdinal = MachO::GET_LIBRARY_ORDINAL(NDesc); if (LibraryOrdinal != 0 && LibraryOrdinal != MachO::EXECUTABLE_ORDINAL && LibraryOrdinal != MachO::DYNAMIC_LOOKUP_ORDINAL && LibraryOrdinal - 1 >= Libraries.size() ) { return malformedError("bad library ordinal: " + Twine(LibraryOrdinal) + " for symbol at index " + Twine(SymbolIndex)); } } } if (NStrx >= S.strsize) return malformedError("bad string table index: " + Twine((int)NStrx) + " past the end of string table, for symbol at " "index " + Twine(SymbolIndex)); SymbolIndex++; } return Error::success(); } void MachOObjectFile::moveSymbolNext(DataRefImpl &Symb) const { unsigned SymbolTableEntrySize = is64Bit() ? sizeof(MachO::nlist_64) : sizeof(MachO::nlist); Symb.p += SymbolTableEntrySize; } Expected MachOObjectFile::getSymbolName(DataRefImpl Symb) const { StringRef StringTable = getStringTableData(); MachO::nlist_base Entry = getSymbolTableEntryBase(*this, Symb); if (Entry.n_strx == 0) // A n_strx value of 0 indicates that no name is associated with a // particular symbol table entry. return StringRef(); const char *Start = &StringTable.data()[Entry.n_strx]; if (Start < getData().begin() || Start >= getData().end()) { return malformedError("bad string index: " + Twine(Entry.n_strx) + " for symbol at index " + Twine(getSymbolIndex(Symb))); } return StringRef(Start); } unsigned MachOObjectFile::getSectionType(SectionRef Sec) const { DataRefImpl DRI = Sec.getRawDataRefImpl(); uint32_t Flags = getSectionFlags(*this, DRI); return Flags & MachO::SECTION_TYPE; } uint64_t MachOObjectFile::getNValue(DataRefImpl Sym) const { if (is64Bit()) { MachO::nlist_64 Entry = getSymbol64TableEntry(Sym); return Entry.n_value; } MachO::nlist Entry = getSymbolTableEntry(Sym); return Entry.n_value; } // getIndirectName() returns the name of the alias'ed symbol who's string table // index is in the n_value field. std::error_code MachOObjectFile::getIndirectName(DataRefImpl Symb, StringRef &Res) const { StringRef StringTable = getStringTableData(); MachO::nlist_base Entry = getSymbolTableEntryBase(*this, Symb); if ((Entry.n_type & MachO::N_TYPE) != MachO::N_INDR) return object_error::parse_failed; uint64_t NValue = getNValue(Symb); if (NValue >= StringTable.size()) return object_error::parse_failed; const char *Start = &StringTable.data()[NValue]; Res = StringRef(Start); return std::error_code(); } uint64_t MachOObjectFile::getSymbolValueImpl(DataRefImpl Sym) const { return getNValue(Sym); } Expected MachOObjectFile::getSymbolAddress(DataRefImpl Sym) const { return getSymbolValue(Sym); } uint32_t MachOObjectFile::getSymbolAlignment(DataRefImpl DRI) const { uint32_t Flags = cantFail(getSymbolFlags(DRI)); if (Flags & SymbolRef::SF_Common) { MachO::nlist_base Entry = getSymbolTableEntryBase(*this, DRI); return 1 << MachO::GET_COMM_ALIGN(Entry.n_desc); } return 0; } uint64_t MachOObjectFile::getCommonSymbolSizeImpl(DataRefImpl DRI) const { return getNValue(DRI); } Expected MachOObjectFile::getSymbolType(DataRefImpl Symb) const { MachO::nlist_base Entry = getSymbolTableEntryBase(*this, Symb); uint8_t n_type = Entry.n_type; // If this is a STAB debugging symbol, we can do nothing more. if (n_type & MachO::N_STAB) return SymbolRef::ST_Debug; switch (n_type & MachO::N_TYPE) { case MachO::N_UNDF : return SymbolRef::ST_Unknown; case MachO::N_SECT : Expected SecOrError = getSymbolSection(Symb); if (!SecOrError) return SecOrError.takeError(); section_iterator Sec = *SecOrError; if (Sec == section_end()) return SymbolRef::ST_Other; if (Sec->isData() || Sec->isBSS()) return SymbolRef::ST_Data; return SymbolRef::ST_Function; } return SymbolRef::ST_Other; } Expected MachOObjectFile::getSymbolFlags(DataRefImpl DRI) const { MachO::nlist_base Entry = getSymbolTableEntryBase(*this, DRI); uint8_t MachOType = Entry.n_type; uint16_t MachOFlags = Entry.n_desc; uint32_t Result = SymbolRef::SF_None; if ((MachOType & MachO::N_TYPE) == MachO::N_INDR) Result |= SymbolRef::SF_Indirect; if (MachOType & MachO::N_STAB) Result |= SymbolRef::SF_FormatSpecific; if (MachOType & MachO::N_EXT) { Result |= SymbolRef::SF_Global; if ((MachOType & MachO::N_TYPE) == MachO::N_UNDF) { if (getNValue(DRI)) Result |= SymbolRef::SF_Common; else Result |= SymbolRef::SF_Undefined; } if (MachOType & MachO::N_PEXT) Result |= SymbolRef::SF_Hidden; else Result |= SymbolRef::SF_Exported; } else if (MachOType & MachO::N_PEXT) Result |= SymbolRef::SF_Hidden; if (MachOFlags & (MachO::N_WEAK_REF | MachO::N_WEAK_DEF)) Result |= SymbolRef::SF_Weak; if (MachOFlags & (MachO::N_ARM_THUMB_DEF)) Result |= SymbolRef::SF_Thumb; if ((MachOType & MachO::N_TYPE) == MachO::N_ABS) Result |= SymbolRef::SF_Absolute; return Result; } Expected MachOObjectFile::getSymbolSection(DataRefImpl Symb) const { MachO::nlist_base Entry = getSymbolTableEntryBase(*this, Symb); uint8_t index = Entry.n_sect; if (index == 0) return section_end(); DataRefImpl DRI; DRI.d.a = index - 1; if (DRI.d.a >= Sections.size()){ return malformedError("bad section index: " + Twine((int)index) + " for symbol at index " + Twine(getSymbolIndex(Symb))); } return section_iterator(SectionRef(DRI, this)); } unsigned MachOObjectFile::getSymbolSectionID(SymbolRef Sym) const { MachO::nlist_base Entry = getSymbolTableEntryBase(*this, Sym.getRawDataRefImpl()); return Entry.n_sect - 1; } void MachOObjectFile::moveSectionNext(DataRefImpl &Sec) const { Sec.d.a++; } Expected MachOObjectFile::getSectionName(DataRefImpl Sec) const { ArrayRef Raw = getSectionRawName(Sec); return parseSegmentOrSectionName(Raw.data()); } uint64_t MachOObjectFile::getSectionAddress(DataRefImpl Sec) const { if (is64Bit()) return getSection64(Sec).addr; return getSection(Sec).addr; } uint64_t MachOObjectFile::getSectionIndex(DataRefImpl Sec) const { return Sec.d.a; } uint64_t MachOObjectFile::getSectionSize(DataRefImpl Sec) const { // In the case if a malformed Mach-O file where the section offset is past // the end of the file or some part of the section size is past the end of // the file return a size of zero or a size that covers the rest of the file // but does not extend past the end of the file. uint32_t SectOffset, SectType; uint64_t SectSize; if (is64Bit()) { MachO::section_64 Sect = getSection64(Sec); SectOffset = Sect.offset; SectSize = Sect.size; SectType = Sect.flags & MachO::SECTION_TYPE; } else { MachO::section Sect = getSection(Sec); SectOffset = Sect.offset; SectSize = Sect.size; SectType = Sect.flags & MachO::SECTION_TYPE; } if (SectType == MachO::S_ZEROFILL || SectType == MachO::S_GB_ZEROFILL) return SectSize; uint64_t FileSize = getData().size(); if (SectOffset > FileSize) return 0; if (FileSize - SectOffset < SectSize) return FileSize - SectOffset; return SectSize; } ArrayRef MachOObjectFile::getSectionContents(uint32_t Offset, uint64_t Size) const { return arrayRefFromStringRef(getData().substr(Offset, Size)); } Expected> MachOObjectFile::getSectionContents(DataRefImpl Sec) const { uint32_t Offset; uint64_t Size; if (is64Bit()) { MachO::section_64 Sect = getSection64(Sec); Offset = Sect.offset; Size = Sect.size; } else { MachO::section Sect = getSection(Sec); Offset = Sect.offset; Size = Sect.size; } return getSectionContents(Offset, Size); } uint64_t MachOObjectFile::getSectionAlignment(DataRefImpl Sec) const { uint32_t Align; if (is64Bit()) { MachO::section_64 Sect = getSection64(Sec); Align = Sect.align; } else { MachO::section Sect = getSection(Sec); Align = Sect.align; } return uint64_t(1) << Align; } Expected MachOObjectFile::getSection(unsigned SectionIndex) const { if (SectionIndex < 1 || SectionIndex > Sections.size()) return malformedError("bad section index: " + Twine((int)SectionIndex)); DataRefImpl DRI; DRI.d.a = SectionIndex - 1; return SectionRef(DRI, this); } Expected MachOObjectFile::getSection(StringRef SectionName) const { for (const SectionRef &Section : sections()) { auto NameOrErr = Section.getName(); if (!NameOrErr) return NameOrErr.takeError(); if (*NameOrErr == SectionName) return Section; } return errorCodeToError(object_error::parse_failed); } bool MachOObjectFile::isSectionCompressed(DataRefImpl Sec) const { return false; } bool MachOObjectFile::isSectionText(DataRefImpl Sec) const { uint32_t Flags = getSectionFlags(*this, Sec); return Flags & MachO::S_ATTR_PURE_INSTRUCTIONS; } bool MachOObjectFile::isSectionData(DataRefImpl Sec) const { uint32_t Flags = getSectionFlags(*this, Sec); unsigned SectionType = Flags & MachO::SECTION_TYPE; return !(Flags & MachO::S_ATTR_PURE_INSTRUCTIONS) && !(SectionType == MachO::S_ZEROFILL || SectionType == MachO::S_GB_ZEROFILL); } bool MachOObjectFile::isSectionBSS(DataRefImpl Sec) const { uint32_t Flags = getSectionFlags(*this, Sec); unsigned SectionType = Flags & MachO::SECTION_TYPE; return !(Flags & MachO::S_ATTR_PURE_INSTRUCTIONS) && (SectionType == MachO::S_ZEROFILL || SectionType == MachO::S_GB_ZEROFILL); } bool MachOObjectFile::isDebugSection(DataRefImpl Sec) const { Expected SectionNameOrErr = getSectionName(Sec); if (!SectionNameOrErr) { // TODO: Report the error message properly. consumeError(SectionNameOrErr.takeError()); return false; } StringRef SectionName = SectionNameOrErr.get(); return SectionName.starts_with("__debug") || SectionName.starts_with("__zdebug") || SectionName.starts_with("__apple") || SectionName == "__gdb_index" || SectionName == "__swift_ast"; } namespace { template ArrayRef getSegmentContents(const MachOObjectFile &Obj, MachOObjectFile::LoadCommandInfo LoadCmd, StringRef SegmentName) { auto SegmentOrErr = getStructOrErr(Obj, LoadCmd.Ptr); if (!SegmentOrErr) { consumeError(SegmentOrErr.takeError()); return {}; } auto &Segment = SegmentOrErr.get(); if (StringRef(Segment.segname, 16).starts_with(SegmentName)) return arrayRefFromStringRef(Obj.getData().slice( Segment.fileoff, Segment.fileoff + Segment.filesize)); return {}; } template ArrayRef getSegmentContents(const MachOObjectFile &Obj, MachOObjectFile::LoadCommandInfo LoadCmd) { auto SegmentOrErr = getStructOrErr(Obj, LoadCmd.Ptr); if (!SegmentOrErr) { consumeError(SegmentOrErr.takeError()); return {}; } auto &Segment = SegmentOrErr.get(); return arrayRefFromStringRef( Obj.getData().slice(Segment.fileoff, Segment.fileoff + Segment.filesize)); } } // namespace ArrayRef MachOObjectFile::getSegmentContents(StringRef SegmentName) const { for (auto LoadCmd : load_commands()) { ArrayRef Contents; switch (LoadCmd.C.cmd) { case MachO::LC_SEGMENT: Contents = ::getSegmentContents(*this, LoadCmd, SegmentName); break; case MachO::LC_SEGMENT_64: Contents = ::getSegmentContents(*this, LoadCmd, SegmentName); break; default: continue; } if (!Contents.empty()) return Contents; } return {}; } ArrayRef MachOObjectFile::getSegmentContents(size_t SegmentIndex) const { size_t Idx = 0; for (auto LoadCmd : load_commands()) { switch (LoadCmd.C.cmd) { case MachO::LC_SEGMENT: if (Idx == SegmentIndex) return ::getSegmentContents(*this, LoadCmd); ++Idx; break; case MachO::LC_SEGMENT_64: if (Idx == SegmentIndex) return ::getSegmentContents(*this, LoadCmd); ++Idx; break; default: continue; } } return {}; } unsigned MachOObjectFile::getSectionID(SectionRef Sec) const { return Sec.getRawDataRefImpl().d.a; } bool MachOObjectFile::isSectionVirtual(DataRefImpl Sec) const { uint32_t Flags = getSectionFlags(*this, Sec); unsigned SectionType = Flags & MachO::SECTION_TYPE; return SectionType == MachO::S_ZEROFILL || SectionType == MachO::S_GB_ZEROFILL; } bool MachOObjectFile::isSectionBitcode(DataRefImpl Sec) const { StringRef SegmentName = getSectionFinalSegmentName(Sec); if (Expected NameOrErr = getSectionName(Sec)) return (SegmentName == "__LLVM" && *NameOrErr == "__bitcode"); return false; } bool MachOObjectFile::isSectionStripped(DataRefImpl Sec) const { if (is64Bit()) return getSection64(Sec).offset == 0; return getSection(Sec).offset == 0; } relocation_iterator MachOObjectFile::section_rel_begin(DataRefImpl Sec) const { DataRefImpl Ret; Ret.d.a = Sec.d.a; Ret.d.b = 0; return relocation_iterator(RelocationRef(Ret, this)); } relocation_iterator MachOObjectFile::section_rel_end(DataRefImpl Sec) const { uint32_t Num; if (is64Bit()) { MachO::section_64 Sect = getSection64(Sec); Num = Sect.nreloc; } else { MachO::section Sect = getSection(Sec); Num = Sect.nreloc; } DataRefImpl Ret; Ret.d.a = Sec.d.a; Ret.d.b = Num; return relocation_iterator(RelocationRef(Ret, this)); } relocation_iterator MachOObjectFile::extrel_begin() const { DataRefImpl Ret; // for DYSYMTAB symbols, Ret.d.a == 0 for external relocations Ret.d.a = 0; // Would normally be a section index. Ret.d.b = 0; // Index into the external relocations return relocation_iterator(RelocationRef(Ret, this)); } relocation_iterator MachOObjectFile::extrel_end() const { MachO::dysymtab_command DysymtabLoadCmd = getDysymtabLoadCommand(); DataRefImpl Ret; // for DYSYMTAB symbols, Ret.d.a == 0 for external relocations Ret.d.a = 0; // Would normally be a section index. Ret.d.b = DysymtabLoadCmd.nextrel; // Index into the external relocations return relocation_iterator(RelocationRef(Ret, this)); } relocation_iterator MachOObjectFile::locrel_begin() const { DataRefImpl Ret; // for DYSYMTAB symbols, Ret.d.a == 1 for local relocations Ret.d.a = 1; // Would normally be a section index. Ret.d.b = 0; // Index into the local relocations return relocation_iterator(RelocationRef(Ret, this)); } relocation_iterator MachOObjectFile::locrel_end() const { MachO::dysymtab_command DysymtabLoadCmd = getDysymtabLoadCommand(); DataRefImpl Ret; // for DYSYMTAB symbols, Ret.d.a == 1 for local relocations Ret.d.a = 1; // Would normally be a section index. Ret.d.b = DysymtabLoadCmd.nlocrel; // Index into the local relocations return relocation_iterator(RelocationRef(Ret, this)); } void MachOObjectFile::moveRelocationNext(DataRefImpl &Rel) const { ++Rel.d.b; } uint64_t MachOObjectFile::getRelocationOffset(DataRefImpl Rel) const { assert((getHeader().filetype == MachO::MH_OBJECT || getHeader().filetype == MachO::MH_KEXT_BUNDLE) && "Only implemented for MH_OBJECT && MH_KEXT_BUNDLE"); MachO::any_relocation_info RE = getRelocation(Rel); return getAnyRelocationAddress(RE); } symbol_iterator MachOObjectFile::getRelocationSymbol(DataRefImpl Rel) const { MachO::any_relocation_info RE = getRelocation(Rel); if (isRelocationScattered(RE)) return symbol_end(); uint32_t SymbolIdx = getPlainRelocationSymbolNum(RE); bool isExtern = getPlainRelocationExternal(RE); if (!isExtern) return symbol_end(); MachO::symtab_command S = getSymtabLoadCommand(); unsigned SymbolTableEntrySize = is64Bit() ? sizeof(MachO::nlist_64) : sizeof(MachO::nlist); uint64_t Offset = S.symoff + SymbolIdx * SymbolTableEntrySize; DataRefImpl Sym; Sym.p = reinterpret_cast(getPtr(*this, Offset)); return symbol_iterator(SymbolRef(Sym, this)); } section_iterator MachOObjectFile::getRelocationSection(DataRefImpl Rel) const { return section_iterator(getAnyRelocationSection(getRelocation(Rel))); } uint64_t MachOObjectFile::getRelocationType(DataRefImpl Rel) const { MachO::any_relocation_info RE = getRelocation(Rel); return getAnyRelocationType(RE); } void MachOObjectFile::getRelocationTypeName( DataRefImpl Rel, SmallVectorImpl &Result) const { StringRef res; uint64_t RType = getRelocationType(Rel); unsigned Arch = this->getArch(); switch (Arch) { case Triple::x86: { static const char *const Table[] = { "GENERIC_RELOC_VANILLA", "GENERIC_RELOC_PAIR", "GENERIC_RELOC_SECTDIFF", "GENERIC_RELOC_PB_LA_PTR", "GENERIC_RELOC_LOCAL_SECTDIFF", "GENERIC_RELOC_TLV" }; if (RType > 5) res = "Unknown"; else res = Table[RType]; break; } case Triple::x86_64: { static const char *const Table[] = { "X86_64_RELOC_UNSIGNED", "X86_64_RELOC_SIGNED", "X86_64_RELOC_BRANCH", "X86_64_RELOC_GOT_LOAD", "X86_64_RELOC_GOT", "X86_64_RELOC_SUBTRACTOR", "X86_64_RELOC_SIGNED_1", "X86_64_RELOC_SIGNED_2", "X86_64_RELOC_SIGNED_4", "X86_64_RELOC_TLV" }; if (RType > 9) res = "Unknown"; else res = Table[RType]; break; } case Triple::arm: { static const char *const Table[] = { "ARM_RELOC_VANILLA", "ARM_RELOC_PAIR", "ARM_RELOC_SECTDIFF", "ARM_RELOC_LOCAL_SECTDIFF", "ARM_RELOC_PB_LA_PTR", "ARM_RELOC_BR24", "ARM_THUMB_RELOC_BR22", "ARM_THUMB_32BIT_BRANCH", "ARM_RELOC_HALF", "ARM_RELOC_HALF_SECTDIFF" }; if (RType > 9) res = "Unknown"; else res = Table[RType]; break; } case Triple::aarch64: case Triple::aarch64_32: { static const char *const Table[] = { "ARM64_RELOC_UNSIGNED", "ARM64_RELOC_SUBTRACTOR", "ARM64_RELOC_BRANCH26", "ARM64_RELOC_PAGE21", "ARM64_RELOC_PAGEOFF12", "ARM64_RELOC_GOT_LOAD_PAGE21", "ARM64_RELOC_GOT_LOAD_PAGEOFF12", "ARM64_RELOC_POINTER_TO_GOT", "ARM64_RELOC_TLVP_LOAD_PAGE21", "ARM64_RELOC_TLVP_LOAD_PAGEOFF12", "ARM64_RELOC_ADDEND" }; if (RType >= std::size(Table)) res = "Unknown"; else res = Table[RType]; break; } case Triple::ppc: { static const char *const Table[] = { "PPC_RELOC_VANILLA", "PPC_RELOC_PAIR", "PPC_RELOC_BR14", "PPC_RELOC_BR24", "PPC_RELOC_HI16", "PPC_RELOC_LO16", "PPC_RELOC_HA16", "PPC_RELOC_LO14", "PPC_RELOC_SECTDIFF", "PPC_RELOC_PB_LA_PTR", "PPC_RELOC_HI16_SECTDIFF", "PPC_RELOC_LO16_SECTDIFF", "PPC_RELOC_HA16_SECTDIFF", "PPC_RELOC_JBSR", "PPC_RELOC_LO14_SECTDIFF", "PPC_RELOC_LOCAL_SECTDIFF" }; if (RType > 15) res = "Unknown"; else res = Table[RType]; break; } case Triple::UnknownArch: res = "Unknown"; break; } Result.append(res.begin(), res.end()); } uint8_t MachOObjectFile::getRelocationLength(DataRefImpl Rel) const { MachO::any_relocation_info RE = getRelocation(Rel); return getAnyRelocationLength(RE); } // // guessLibraryShortName() is passed a name of a dynamic library and returns a // guess on what the short name is. Then name is returned as a substring of the // StringRef Name passed in. The name of the dynamic library is recognized as // a framework if it has one of the two following forms: // Foo.framework/Versions/A/Foo // Foo.framework/Foo // Where A and Foo can be any string. And may contain a trailing suffix // starting with an underbar. If the Name is recognized as a framework then // isFramework is set to true else it is set to false. If the Name has a // suffix then Suffix is set to the substring in Name that contains the suffix // else it is set to a NULL StringRef. // // The Name of the dynamic library is recognized as a library name if it has // one of the two following forms: // libFoo.A.dylib // libFoo.dylib // // The library may have a suffix trailing the name Foo of the form: // libFoo_profile.A.dylib // libFoo_profile.dylib // These dyld image suffixes are separated from the short name by a '_' // character. Because the '_' character is commonly used to separate words in // filenames guessLibraryShortName() cannot reliably separate a dylib's short // name from an arbitrary image suffix; imagine if both the short name and the // suffix contains an '_' character! To better deal with this ambiguity, // guessLibraryShortName() will recognize only "_debug" and "_profile" as valid // Suffix values. Calling code needs to be tolerant of guessLibraryShortName() // guessing incorrectly. // // The Name of the dynamic library is also recognized as a library name if it // has the following form: // Foo.qtx // // If the Name of the dynamic library is none of the forms above then a NULL // StringRef is returned. StringRef MachOObjectFile::guessLibraryShortName(StringRef Name, bool &isFramework, StringRef &Suffix) { StringRef Foo, F, DotFramework, V, Dylib, Lib, Dot, Qtx; size_t a, b, c, d, Idx; isFramework = false; Suffix = StringRef(); // Pull off the last component and make Foo point to it a = Name.rfind('/'); if (a == Name.npos || a == 0) goto guess_library; Foo = Name.slice(a+1, Name.npos); // Look for a suffix starting with a '_' Idx = Foo.rfind('_'); if (Idx != Foo.npos && Foo.size() >= 2) { Suffix = Foo.slice(Idx, Foo.npos); if (Suffix != "_debug" && Suffix != "_profile") Suffix = StringRef(); else Foo = Foo.slice(0, Idx); } // First look for the form Foo.framework/Foo b = Name.rfind('/', a); if (b == Name.npos) Idx = 0; else Idx = b+1; F = Name.slice(Idx, Idx + Foo.size()); DotFramework = Name.slice(Idx + Foo.size(), Idx + Foo.size() + sizeof(".framework/")-1); if (F == Foo && DotFramework == ".framework/") { isFramework = true; return Foo; } // Next look for the form Foo.framework/Versions/A/Foo if (b == Name.npos) goto guess_library; c = Name.rfind('/', b); if (c == Name.npos || c == 0) goto guess_library; V = Name.slice(c+1, Name.npos); if (!V.starts_with("Versions/")) goto guess_library; d = Name.rfind('/', c); if (d == Name.npos) Idx = 0; else Idx = d+1; F = Name.slice(Idx, Idx + Foo.size()); DotFramework = Name.slice(Idx + Foo.size(), Idx + Foo.size() + sizeof(".framework/")-1); if (F == Foo && DotFramework == ".framework/") { isFramework = true; return Foo; } guess_library: // pull off the suffix after the "." and make a point to it a = Name.rfind('.'); if (a == Name.npos || a == 0) return StringRef(); Dylib = Name.slice(a, Name.npos); if (Dylib != ".dylib") goto guess_qtx; // First pull off the version letter for the form Foo.A.dylib if any. if (a >= 3) { Dot = Name.slice(a-2, a-1); if (Dot == ".") a = a - 2; } b = Name.rfind('/', a); if (b == Name.npos) b = 0; else b = b+1; // ignore any suffix after an underbar like Foo_profile.A.dylib Idx = Name.rfind('_'); if (Idx != Name.npos && Idx != b) { Lib = Name.slice(b, Idx); Suffix = Name.slice(Idx, a); if (Suffix != "_debug" && Suffix != "_profile") { Suffix = StringRef(); Lib = Name.slice(b, a); } } else Lib = Name.slice(b, a); // There are incorrect library names of the form: // libATS.A_profile.dylib so check for these. if (Lib.size() >= 3) { Dot = Lib.slice(Lib.size()-2, Lib.size()-1); if (Dot == ".") Lib = Lib.slice(0, Lib.size()-2); } return Lib; guess_qtx: Qtx = Name.slice(a, Name.npos); if (Qtx != ".qtx") return StringRef(); b = Name.rfind('/', a); if (b == Name.npos) Lib = Name.slice(0, a); else Lib = Name.slice(b+1, a); // There are library names of the form: QT.A.qtx so check for these. if (Lib.size() >= 3) { Dot = Lib.slice(Lib.size()-2, Lib.size()-1); if (Dot == ".") Lib = Lib.slice(0, Lib.size()-2); } return Lib; } // getLibraryShortNameByIndex() is used to get the short name of the library // for an undefined symbol in a linked Mach-O binary that was linked with the // normal two-level namespace default (that is MH_TWOLEVEL in the header). // It is passed the index (0 - based) of the library as translated from // GET_LIBRARY_ORDINAL (1 - based). std::error_code MachOObjectFile::getLibraryShortNameByIndex(unsigned Index, StringRef &Res) const { if (Index >= Libraries.size()) return object_error::parse_failed; // If the cache of LibrariesShortNames is not built up do that first for // all the Libraries. if (LibrariesShortNames.size() == 0) { for (unsigned i = 0; i < Libraries.size(); i++) { auto CommandOrErr = getStructOrErr(*this, Libraries[i]); if (!CommandOrErr) return object_error::parse_failed; MachO::dylib_command D = CommandOrErr.get(); if (D.dylib.name >= D.cmdsize) return object_error::parse_failed; const char *P = (const char *)(Libraries[i]) + D.dylib.name; StringRef Name = StringRef(P); if (D.dylib.name+Name.size() >= D.cmdsize) return object_error::parse_failed; StringRef Suffix; bool isFramework; StringRef shortName = guessLibraryShortName(Name, isFramework, Suffix); if (shortName.empty()) LibrariesShortNames.push_back(Name); else LibrariesShortNames.push_back(shortName); } } Res = LibrariesShortNames[Index]; return std::error_code(); } uint32_t MachOObjectFile::getLibraryCount() const { return Libraries.size(); } section_iterator MachOObjectFile::getRelocationRelocatedSection(relocation_iterator Rel) const { DataRefImpl Sec; Sec.d.a = Rel->getRawDataRefImpl().d.a; return section_iterator(SectionRef(Sec, this)); } basic_symbol_iterator MachOObjectFile::symbol_begin() const { DataRefImpl DRI; MachO::symtab_command Symtab = getSymtabLoadCommand(); if (!SymtabLoadCmd || Symtab.nsyms == 0) return basic_symbol_iterator(SymbolRef(DRI, this)); return getSymbolByIndex(0); } basic_symbol_iterator MachOObjectFile::symbol_end() const { DataRefImpl DRI; MachO::symtab_command Symtab = getSymtabLoadCommand(); if (!SymtabLoadCmd || Symtab.nsyms == 0) return basic_symbol_iterator(SymbolRef(DRI, this)); unsigned SymbolTableEntrySize = is64Bit() ? sizeof(MachO::nlist_64) : sizeof(MachO::nlist); unsigned Offset = Symtab.symoff + Symtab.nsyms * SymbolTableEntrySize; DRI.p = reinterpret_cast(getPtr(*this, Offset)); return basic_symbol_iterator(SymbolRef(DRI, this)); } symbol_iterator MachOObjectFile::getSymbolByIndex(unsigned Index) const { MachO::symtab_command Symtab = getSymtabLoadCommand(); if (!SymtabLoadCmd || Index >= Symtab.nsyms) report_fatal_error("Requested symbol index is out of range."); unsigned SymbolTableEntrySize = is64Bit() ? sizeof(MachO::nlist_64) : sizeof(MachO::nlist); DataRefImpl DRI; DRI.p = reinterpret_cast(getPtr(*this, Symtab.symoff)); DRI.p += Index * SymbolTableEntrySize; return basic_symbol_iterator(SymbolRef(DRI, this)); } uint64_t MachOObjectFile::getSymbolIndex(DataRefImpl Symb) const { MachO::symtab_command Symtab = getSymtabLoadCommand(); if (!SymtabLoadCmd) report_fatal_error("getSymbolIndex() called with no symbol table symbol"); unsigned SymbolTableEntrySize = is64Bit() ? sizeof(MachO::nlist_64) : sizeof(MachO::nlist); DataRefImpl DRIstart; DRIstart.p = reinterpret_cast(getPtr(*this, Symtab.symoff)); uint64_t Index = (Symb.p - DRIstart.p) / SymbolTableEntrySize; return Index; } section_iterator MachOObjectFile::section_begin() const { DataRefImpl DRI; return section_iterator(SectionRef(DRI, this)); } section_iterator MachOObjectFile::section_end() const { DataRefImpl DRI; DRI.d.a = Sections.size(); return section_iterator(SectionRef(DRI, this)); } uint8_t MachOObjectFile::getBytesInAddress() const { return is64Bit() ? 8 : 4; } StringRef MachOObjectFile::getFileFormatName() const { unsigned CPUType = getCPUType(*this); if (!is64Bit()) { switch (CPUType) { case MachO::CPU_TYPE_I386: return "Mach-O 32-bit i386"; case MachO::CPU_TYPE_ARM: return "Mach-O arm"; case MachO::CPU_TYPE_ARM64_32: return "Mach-O arm64 (ILP32)"; case MachO::CPU_TYPE_POWERPC: return "Mach-O 32-bit ppc"; default: return "Mach-O 32-bit unknown"; } } switch (CPUType) { case MachO::CPU_TYPE_X86_64: return "Mach-O 64-bit x86-64"; case MachO::CPU_TYPE_ARM64: return "Mach-O arm64"; case MachO::CPU_TYPE_POWERPC64: return "Mach-O 64-bit ppc64"; default: return "Mach-O 64-bit unknown"; } } Triple::ArchType MachOObjectFile::getArch(uint32_t CPUType, uint32_t CPUSubType) { switch (CPUType) { case MachO::CPU_TYPE_I386: return Triple::x86; case MachO::CPU_TYPE_X86_64: return Triple::x86_64; case MachO::CPU_TYPE_ARM: return Triple::arm; case MachO::CPU_TYPE_ARM64: return Triple::aarch64; case MachO::CPU_TYPE_ARM64_32: return Triple::aarch64_32; case MachO::CPU_TYPE_POWERPC: return Triple::ppc; case MachO::CPU_TYPE_POWERPC64: return Triple::ppc64; default: return Triple::UnknownArch; } } Triple MachOObjectFile::getArchTriple(uint32_t CPUType, uint32_t CPUSubType, const char **McpuDefault, const char **ArchFlag) { if (McpuDefault) *McpuDefault = nullptr; if (ArchFlag) *ArchFlag = nullptr; switch (CPUType) { case MachO::CPU_TYPE_I386: switch (CPUSubType & ~MachO::CPU_SUBTYPE_MASK) { case MachO::CPU_SUBTYPE_I386_ALL: if (ArchFlag) *ArchFlag = "i386"; return Triple("i386-apple-darwin"); default: return Triple(); } case MachO::CPU_TYPE_X86_64: switch (CPUSubType & ~MachO::CPU_SUBTYPE_MASK) { case MachO::CPU_SUBTYPE_X86_64_ALL: if (ArchFlag) *ArchFlag = "x86_64"; return Triple("x86_64-apple-darwin"); case MachO::CPU_SUBTYPE_X86_64_H: if (ArchFlag) *ArchFlag = "x86_64h"; return Triple("x86_64h-apple-darwin"); default: return Triple(); } case MachO::CPU_TYPE_ARM: switch (CPUSubType & ~MachO::CPU_SUBTYPE_MASK) { case MachO::CPU_SUBTYPE_ARM_V4T: if (ArchFlag) *ArchFlag = "armv4t"; return Triple("armv4t-apple-darwin"); case MachO::CPU_SUBTYPE_ARM_V5TEJ: if (ArchFlag) *ArchFlag = "armv5e"; return Triple("armv5e-apple-darwin"); case MachO::CPU_SUBTYPE_ARM_XSCALE: if (ArchFlag) *ArchFlag = "xscale"; return Triple("xscale-apple-darwin"); case MachO::CPU_SUBTYPE_ARM_V6: if (ArchFlag) *ArchFlag = "armv6"; return Triple("armv6-apple-darwin"); case MachO::CPU_SUBTYPE_ARM_V6M: if (McpuDefault) *McpuDefault = "cortex-m0"; if (ArchFlag) *ArchFlag = "armv6m"; return Triple("armv6m-apple-darwin"); case MachO::CPU_SUBTYPE_ARM_V7: if (ArchFlag) *ArchFlag = "armv7"; return Triple("armv7-apple-darwin"); case MachO::CPU_SUBTYPE_ARM_V7EM: if (McpuDefault) *McpuDefault = "cortex-m4"; if (ArchFlag) *ArchFlag = "armv7em"; return Triple("thumbv7em-apple-darwin"); case MachO::CPU_SUBTYPE_ARM_V7K: if (McpuDefault) *McpuDefault = "cortex-a7"; if (ArchFlag) *ArchFlag = "armv7k"; return Triple("armv7k-apple-darwin"); case MachO::CPU_SUBTYPE_ARM_V7M: if (McpuDefault) *McpuDefault = "cortex-m3"; if (ArchFlag) *ArchFlag = "armv7m"; return Triple("thumbv7m-apple-darwin"); case MachO::CPU_SUBTYPE_ARM_V7S: if (McpuDefault) *McpuDefault = "cortex-a7"; if (ArchFlag) *ArchFlag = "armv7s"; return Triple("armv7s-apple-darwin"); default: return Triple(); } case MachO::CPU_TYPE_ARM64: switch (CPUSubType & ~MachO::CPU_SUBTYPE_MASK) { case MachO::CPU_SUBTYPE_ARM64_ALL: if (McpuDefault) *McpuDefault = "cyclone"; if (ArchFlag) *ArchFlag = "arm64"; return Triple("arm64-apple-darwin"); case MachO::CPU_SUBTYPE_ARM64E: if (McpuDefault) *McpuDefault = "apple-a12"; if (ArchFlag) *ArchFlag = "arm64e"; return Triple("arm64e-apple-darwin"); default: return Triple(); } case MachO::CPU_TYPE_ARM64_32: switch (CPUSubType & ~MachO::CPU_SUBTYPE_MASK) { case MachO::CPU_SUBTYPE_ARM64_32_V8: if (McpuDefault) *McpuDefault = "cyclone"; if (ArchFlag) *ArchFlag = "arm64_32"; return Triple("arm64_32-apple-darwin"); default: return Triple(); } case MachO::CPU_TYPE_POWERPC: switch (CPUSubType & ~MachO::CPU_SUBTYPE_MASK) { case MachO::CPU_SUBTYPE_POWERPC_ALL: if (ArchFlag) *ArchFlag = "ppc"; return Triple("ppc-apple-darwin"); default: return Triple(); } case MachO::CPU_TYPE_POWERPC64: switch (CPUSubType & ~MachO::CPU_SUBTYPE_MASK) { case MachO::CPU_SUBTYPE_POWERPC_ALL: if (ArchFlag) *ArchFlag = "ppc64"; return Triple("ppc64-apple-darwin"); default: return Triple(); } default: return Triple(); } } Triple MachOObjectFile::getHostArch() { return Triple(sys::getDefaultTargetTriple()); } bool MachOObjectFile::isValidArch(StringRef ArchFlag) { auto validArchs = getValidArchs(); return llvm::is_contained(validArchs, ArchFlag); } ArrayRef MachOObjectFile::getValidArchs() { static const std::array ValidArchs = {{ "i386", "x86_64", "x86_64h", "armv4t", "arm", "armv5e", "armv6", "armv6m", "armv7", "armv7em", "armv7k", "armv7m", "armv7s", "arm64", "arm64e", "arm64_32", "ppc", "ppc64", }}; return ValidArchs; } Triple::ArchType MachOObjectFile::getArch() const { return getArch(getCPUType(*this), getCPUSubType(*this)); } Triple MachOObjectFile::getArchTriple(const char **McpuDefault) const { return getArchTriple(Header.cputype, Header.cpusubtype, McpuDefault); } relocation_iterator MachOObjectFile::section_rel_begin(unsigned Index) const { DataRefImpl DRI; DRI.d.a = Index; return section_rel_begin(DRI); } relocation_iterator MachOObjectFile::section_rel_end(unsigned Index) const { DataRefImpl DRI; DRI.d.a = Index; return section_rel_end(DRI); } dice_iterator MachOObjectFile::begin_dices() const { DataRefImpl DRI; if (!DataInCodeLoadCmd) return dice_iterator(DiceRef(DRI, this)); MachO::linkedit_data_command DicLC = getDataInCodeLoadCommand(); DRI.p = reinterpret_cast(getPtr(*this, DicLC.dataoff)); return dice_iterator(DiceRef(DRI, this)); } dice_iterator MachOObjectFile::end_dices() const { DataRefImpl DRI; if (!DataInCodeLoadCmd) return dice_iterator(DiceRef(DRI, this)); MachO::linkedit_data_command DicLC = getDataInCodeLoadCommand(); unsigned Offset = DicLC.dataoff + DicLC.datasize; DRI.p = reinterpret_cast(getPtr(*this, Offset)); return dice_iterator(DiceRef(DRI, this)); } ExportEntry::ExportEntry(Error *E, const MachOObjectFile *O, ArrayRef T) : E(E), O(O), Trie(T) {} void ExportEntry::moveToFirst() { ErrorAsOutParameter ErrAsOutParam(E); pushNode(0); if (*E) return; pushDownUntilBottom(); } void ExportEntry::moveToEnd() { Stack.clear(); Done = true; } bool ExportEntry::operator==(const ExportEntry &Other) const { // Common case, one at end, other iterating from begin. if (Done || Other.Done) return (Done == Other.Done); // Not equal if different stack sizes. if (Stack.size() != Other.Stack.size()) return false; // Not equal if different cumulative strings. if (!CumulativeString.equals(Other.CumulativeString)) return false; // Equal if all nodes in both stacks match. for (unsigned i=0; i < Stack.size(); ++i) { if (Stack[i].Start != Other.Stack[i].Start) return false; } return true; } uint64_t ExportEntry::readULEB128(const uint8_t *&Ptr, const char **error) { unsigned Count; uint64_t Result = decodeULEB128(Ptr, &Count, Trie.end(), error); Ptr += Count; if (Ptr > Trie.end()) Ptr = Trie.end(); return Result; } StringRef ExportEntry::name() const { return CumulativeString; } uint64_t ExportEntry::flags() const { return Stack.back().Flags; } uint64_t ExportEntry::address() const { return Stack.back().Address; } uint64_t ExportEntry::other() const { return Stack.back().Other; } StringRef ExportEntry::otherName() const { const char* ImportName = Stack.back().ImportName; if (ImportName) return StringRef(ImportName); return StringRef(); } uint32_t ExportEntry::nodeOffset() const { return Stack.back().Start - Trie.begin(); } ExportEntry::NodeState::NodeState(const uint8_t *Ptr) : Start(Ptr), Current(Ptr) {} void ExportEntry::pushNode(uint64_t offset) { ErrorAsOutParameter ErrAsOutParam(E); const uint8_t *Ptr = Trie.begin() + offset; NodeState State(Ptr); const char *error = nullptr; uint64_t ExportInfoSize = readULEB128(State.Current, &error); if (error) { *E = malformedError("export info size " + Twine(error) + " in export trie data at node: 0x" + Twine::utohexstr(offset)); moveToEnd(); return; } State.IsExportNode = (ExportInfoSize != 0); const uint8_t* Children = State.Current + ExportInfoSize; if (Children > Trie.end()) { *E = malformedError( "export info size: 0x" + Twine::utohexstr(ExportInfoSize) + " in export trie data at node: 0x" + Twine::utohexstr(offset) + " too big and extends past end of trie data"); moveToEnd(); return; } if (State.IsExportNode) { const uint8_t *ExportStart = State.Current; State.Flags = readULEB128(State.Current, &error); if (error) { *E = malformedError("flags " + Twine(error) + " in export trie data at node: 0x" + Twine::utohexstr(offset)); moveToEnd(); return; } uint64_t Kind = State.Flags & MachO::EXPORT_SYMBOL_FLAGS_KIND_MASK; if (State.Flags != 0 && (Kind != MachO::EXPORT_SYMBOL_FLAGS_KIND_REGULAR && Kind != MachO::EXPORT_SYMBOL_FLAGS_KIND_ABSOLUTE && Kind != MachO::EXPORT_SYMBOL_FLAGS_KIND_THREAD_LOCAL)) { *E = malformedError( "unsupported exported symbol kind: " + Twine((int)Kind) + " in flags: 0x" + Twine::utohexstr(State.Flags) + " in export trie data at node: 0x" + Twine::utohexstr(offset)); moveToEnd(); return; } if (State.Flags & MachO::EXPORT_SYMBOL_FLAGS_REEXPORT) { State.Address = 0; State.Other = readULEB128(State.Current, &error); // dylib ordinal if (error) { *E = malformedError("dylib ordinal of re-export " + Twine(error) + " in export trie data at node: 0x" + Twine::utohexstr(offset)); moveToEnd(); return; } if (O != nullptr) { // Only positive numbers represent library ordinals. Zero and negative // numbers have special meaning (see BindSpecialDylib). if ((int64_t)State.Other > 0 && State.Other > O->getLibraryCount()) { *E = malformedError( "bad library ordinal: " + Twine((int)State.Other) + " (max " + Twine((int)O->getLibraryCount()) + ") in export trie data at node: 0x" + Twine::utohexstr(offset)); moveToEnd(); return; } } State.ImportName = reinterpret_cast(State.Current); if (*State.ImportName == '\0') { State.Current++; } else { const uint8_t *End = State.Current + 1; if (End >= Trie.end()) { *E = malformedError("import name of re-export in export trie data at " "node: 0x" + Twine::utohexstr(offset) + " starts past end of trie data"); moveToEnd(); return; } while(*End != '\0' && End < Trie.end()) End++; if (*End != '\0') { *E = malformedError("import name of re-export in export trie data at " "node: 0x" + Twine::utohexstr(offset) + " extends past end of trie data"); moveToEnd(); return; } State.Current = End + 1; } } else { State.Address = readULEB128(State.Current, &error); if (error) { *E = malformedError("address " + Twine(error) + " in export trie data at node: 0x" + Twine::utohexstr(offset)); moveToEnd(); return; } if (State.Flags & MachO::EXPORT_SYMBOL_FLAGS_STUB_AND_RESOLVER) { State.Other = readULEB128(State.Current, &error); if (error) { *E = malformedError("resolver of stub and resolver " + Twine(error) + " in export trie data at node: 0x" + Twine::utohexstr(offset)); moveToEnd(); return; } } } if (ExportStart + ExportInfoSize < State.Current) { *E = malformedError( "inconsistent export info size: 0x" + Twine::utohexstr(ExportInfoSize) + " where actual size was: 0x" + Twine::utohexstr(State.Current - ExportStart) + " in export trie data at node: 0x" + Twine::utohexstr(offset)); moveToEnd(); return; } } State.ChildCount = *Children; if (State.ChildCount != 0 && Children + 1 >= Trie.end()) { *E = malformedError("byte for count of childern in export trie data at " "node: 0x" + Twine::utohexstr(offset) + " extends past end of trie data"); moveToEnd(); return; } State.Current = Children + 1; State.NextChildIndex = 0; State.ParentStringLength = CumulativeString.size(); Stack.push_back(State); } void ExportEntry::pushDownUntilBottom() { ErrorAsOutParameter ErrAsOutParam(E); const char *error = nullptr; while (Stack.back().NextChildIndex < Stack.back().ChildCount) { NodeState &Top = Stack.back(); CumulativeString.resize(Top.ParentStringLength); for (;*Top.Current != 0 && Top.Current < Trie.end(); Top.Current++) { char C = *Top.Current; CumulativeString.push_back(C); } if (Top.Current >= Trie.end()) { *E = malformedError("edge sub-string in export trie data at node: 0x" + Twine::utohexstr(Top.Start - Trie.begin()) + " for child #" + Twine((int)Top.NextChildIndex) + " extends past end of trie data"); moveToEnd(); return; } Top.Current += 1; uint64_t childNodeIndex = readULEB128(Top.Current, &error); if (error) { *E = malformedError("child node offset " + Twine(error) + " in export trie data at node: 0x" + Twine::utohexstr(Top.Start - Trie.begin())); moveToEnd(); return; } for (const NodeState &node : nodes()) { if (node.Start == Trie.begin() + childNodeIndex){ *E = malformedError("loop in childern in export trie data at node: 0x" + Twine::utohexstr(Top.Start - Trie.begin()) + " back to node: 0x" + Twine::utohexstr(childNodeIndex)); moveToEnd(); return; } } Top.NextChildIndex += 1; pushNode(childNodeIndex); if (*E) return; } if (!Stack.back().IsExportNode) { *E = malformedError("node is not an export node in export trie data at " "node: 0x" + Twine::utohexstr(Stack.back().Start - Trie.begin())); moveToEnd(); return; } } // We have a trie data structure and need a way to walk it that is compatible // with the C++ iterator model. The solution is a non-recursive depth first // traversal where the iterator contains a stack of parent nodes along with a // string that is the accumulation of all edge strings along the parent chain // to this point. // // There is one "export" node for each exported symbol. But because some // symbols may be a prefix of another symbol (e.g. _dup and _dup2), an export // node may have child nodes too. // // The algorithm for moveNext() is to keep moving down the leftmost unvisited // child until hitting a node with no children (which is an export node or // else the trie is malformed). On the way down, each node is pushed on the // stack ivar. If there is no more ways down, it pops up one and tries to go // down a sibling path until a childless node is reached. void ExportEntry::moveNext() { assert(!Stack.empty() && "ExportEntry::moveNext() with empty node stack"); if (!Stack.back().IsExportNode) { *E = malformedError("node is not an export node in export trie data at " "node: 0x" + Twine::utohexstr(Stack.back().Start - Trie.begin())); moveToEnd(); return; } Stack.pop_back(); while (!Stack.empty()) { NodeState &Top = Stack.back(); if (Top.NextChildIndex < Top.ChildCount) { pushDownUntilBottom(); // Now at the next export node. return; } else { if (Top.IsExportNode) { // This node has no children but is itself an export node. CumulativeString.resize(Top.ParentStringLength); return; } Stack.pop_back(); } } Done = true; } iterator_range MachOObjectFile::exports(Error &E, ArrayRef Trie, const MachOObjectFile *O) { ExportEntry Start(&E, O, Trie); if (Trie.empty()) Start.moveToEnd(); else Start.moveToFirst(); ExportEntry Finish(&E, O, Trie); Finish.moveToEnd(); return make_range(export_iterator(Start), export_iterator(Finish)); } iterator_range MachOObjectFile::exports(Error &Err) const { ArrayRef Trie; if (DyldInfoLoadCmd) Trie = getDyldInfoExportsTrie(); else if (DyldExportsTrieLoadCmd) Trie = getDyldExportsTrie(); return exports(Err, Trie, this); } MachOAbstractFixupEntry::MachOAbstractFixupEntry(Error *E, const MachOObjectFile *O) : E(E), O(O) { // Cache the vmaddress of __TEXT for (const auto &Command : O->load_commands()) { if (Command.C.cmd == MachO::LC_SEGMENT) { MachO::segment_command SLC = O->getSegmentLoadCommand(Command); if (StringRef(SLC.segname) == "__TEXT") { TextAddress = SLC.vmaddr; break; } } else if (Command.C.cmd == MachO::LC_SEGMENT_64) { MachO::segment_command_64 SLC_64 = O->getSegment64LoadCommand(Command); if (StringRef(SLC_64.segname) == "__TEXT") { TextAddress = SLC_64.vmaddr; break; } } } } int32_t MachOAbstractFixupEntry::segmentIndex() const { return SegmentIndex; } uint64_t MachOAbstractFixupEntry::segmentOffset() const { return SegmentOffset; } uint64_t MachOAbstractFixupEntry::segmentAddress() const { return O->BindRebaseAddress(SegmentIndex, 0); } StringRef MachOAbstractFixupEntry::segmentName() const { return O->BindRebaseSegmentName(SegmentIndex); } StringRef MachOAbstractFixupEntry::sectionName() const { return O->BindRebaseSectionName(SegmentIndex, SegmentOffset); } uint64_t MachOAbstractFixupEntry::address() const { return O->BindRebaseAddress(SegmentIndex, SegmentOffset); } StringRef MachOAbstractFixupEntry::symbolName() const { return SymbolName; } int64_t MachOAbstractFixupEntry::addend() const { return Addend; } uint32_t MachOAbstractFixupEntry::flags() const { return Flags; } int MachOAbstractFixupEntry::ordinal() const { return Ordinal; } StringRef MachOAbstractFixupEntry::typeName() const { return "unknown"; } void MachOAbstractFixupEntry::moveToFirst() { SegmentOffset = 0; SegmentIndex = -1; Ordinal = 0; Flags = 0; Addend = 0; Done = false; } void MachOAbstractFixupEntry::moveToEnd() { Done = true; } void MachOAbstractFixupEntry::moveNext() {} MachOChainedFixupEntry::MachOChainedFixupEntry(Error *E, const MachOObjectFile *O, bool Parse) : MachOAbstractFixupEntry(E, O) { ErrorAsOutParameter e(E); if (!Parse) return; if (auto FixupTargetsOrErr = O->getDyldChainedFixupTargets()) { FixupTargets = *FixupTargetsOrErr; } else { *E = FixupTargetsOrErr.takeError(); return; } if (auto SegmentsOrErr = O->getChainedFixupsSegments()) { Segments = std::move(SegmentsOrErr->second); } else { *E = SegmentsOrErr.takeError(); return; } } void MachOChainedFixupEntry::findNextPageWithFixups() { auto FindInSegment = [this]() { const ChainedFixupsSegment &SegInfo = Segments[InfoSegIndex]; while (PageIndex < SegInfo.PageStarts.size() && SegInfo.PageStarts[PageIndex] == MachO::DYLD_CHAINED_PTR_START_NONE) ++PageIndex; return PageIndex < SegInfo.PageStarts.size(); }; while (InfoSegIndex < Segments.size()) { if (FindInSegment()) { PageOffset = Segments[InfoSegIndex].PageStarts[PageIndex]; SegmentData = O->getSegmentContents(Segments[InfoSegIndex].SegIdx); return; } InfoSegIndex++; PageIndex = 0; } } void MachOChainedFixupEntry::moveToFirst() { MachOAbstractFixupEntry::moveToFirst(); if (Segments.empty()) { Done = true; return; } InfoSegIndex = 0; PageIndex = 0; findNextPageWithFixups(); moveNext(); } void MachOChainedFixupEntry::moveToEnd() { MachOAbstractFixupEntry::moveToEnd(); } void MachOChainedFixupEntry::moveNext() { ErrorAsOutParameter ErrAsOutParam(E); if (InfoSegIndex == Segments.size()) { Done = true; return; } const ChainedFixupsSegment &SegInfo = Segments[InfoSegIndex]; SegmentIndex = SegInfo.SegIdx; SegmentOffset = SegInfo.Header.page_size * PageIndex + PageOffset; // FIXME: Handle other pointer formats. uint16_t PointerFormat = SegInfo.Header.pointer_format; if (PointerFormat != MachO::DYLD_CHAINED_PTR_64 && PointerFormat != MachO::DYLD_CHAINED_PTR_64_OFFSET) { *E = createError("segment " + Twine(SegmentIndex) + " has unsupported chained fixup pointer_format " + Twine(PointerFormat)); moveToEnd(); return; } Ordinal = 0; Flags = 0; Addend = 0; PointerValue = 0; SymbolName = {}; if (SegmentOffset + sizeof(RawValue) > SegmentData.size()) { *E = malformedError("fixup in segment " + Twine(SegmentIndex) + " at offset " + Twine(SegmentOffset) + " extends past segment's end"); moveToEnd(); return; } static_assert(sizeof(RawValue) == sizeof(MachO::dyld_chained_import_addend)); memcpy(&RawValue, SegmentData.data() + SegmentOffset, sizeof(RawValue)); if (O->isLittleEndian() != sys::IsLittleEndianHost) sys::swapByteOrder(RawValue); // The bit extraction below assumes little-endian fixup entries. assert(O->isLittleEndian() && "big-endian object should have been rejected " "by getDyldChainedFixupTargets()"); auto Field = [this](uint8_t Right, uint8_t Count) { return (RawValue >> Right) & ((1ULL << Count) - 1); }; // The `bind` field (most significant bit) of the encoded fixup determines // whether it is dyld_chained_ptr_64_bind or dyld_chained_ptr_64_rebase. bool IsBind = Field(63, 1); Kind = IsBind ? FixupKind::Bind : FixupKind::Rebase; uint32_t Next = Field(51, 12); if (IsBind) { uint32_t ImportOrdinal = Field(0, 24); uint8_t InlineAddend = Field(24, 8); if (ImportOrdinal >= FixupTargets.size()) { *E = malformedError("fixup in segment " + Twine(SegmentIndex) + " at offset " + Twine(SegmentOffset) + " has out-of range import ordinal " + Twine(ImportOrdinal)); moveToEnd(); return; } ChainedFixupTarget &Target = FixupTargets[ImportOrdinal]; Ordinal = Target.libOrdinal(); Addend = InlineAddend ? InlineAddend : Target.addend(); Flags = Target.weakImport() ? MachO::BIND_SYMBOL_FLAGS_WEAK_IMPORT : 0; SymbolName = Target.symbolName(); } else { uint64_t Target = Field(0, 36); uint64_t High8 = Field(36, 8); PointerValue = Target | (High8 << 56); if (PointerFormat == MachO::DYLD_CHAINED_PTR_64_OFFSET) PointerValue += textAddress(); } // The stride is 4 bytes for DYLD_CHAINED_PTR_64(_OFFSET). if (Next != 0) { PageOffset += 4 * Next; } else { ++PageIndex; findNextPageWithFixups(); } } bool MachOChainedFixupEntry::operator==( const MachOChainedFixupEntry &Other) const { if (Done && Other.Done) return true; if (Done != Other.Done) return false; return InfoSegIndex == Other.InfoSegIndex && PageIndex == Other.PageIndex && PageOffset == Other.PageOffset; } MachORebaseEntry::MachORebaseEntry(Error *E, const MachOObjectFile *O, ArrayRef Bytes, bool is64Bit) : E(E), O(O), Opcodes(Bytes), Ptr(Bytes.begin()), PointerSize(is64Bit ? 8 : 4) {} void MachORebaseEntry::moveToFirst() { Ptr = Opcodes.begin(); moveNext(); } void MachORebaseEntry::moveToEnd() { Ptr = Opcodes.end(); RemainingLoopCount = 0; Done = true; } void MachORebaseEntry::moveNext() { ErrorAsOutParameter ErrAsOutParam(E); // If in the middle of some loop, move to next rebasing in loop. SegmentOffset += AdvanceAmount; if (RemainingLoopCount) { --RemainingLoopCount; return; } bool More = true; while (More) { // REBASE_OPCODE_DONE is only used for padding if we are not aligned to // pointer size. Therefore it is possible to reach the end without ever // having seen REBASE_OPCODE_DONE. if (Ptr == Opcodes.end()) { Done = true; return; } // Parse next opcode and set up next loop. const uint8_t *OpcodeStart = Ptr; uint8_t Byte = *Ptr++; uint8_t ImmValue = Byte & MachO::REBASE_IMMEDIATE_MASK; uint8_t Opcode = Byte & MachO::REBASE_OPCODE_MASK; uint64_t Count, Skip; const char *error = nullptr; switch (Opcode) { case MachO::REBASE_OPCODE_DONE: More = false; Done = true; moveToEnd(); DEBUG_WITH_TYPE("mach-o-rebase", dbgs() << "REBASE_OPCODE_DONE\n"); break; case MachO::REBASE_OPCODE_SET_TYPE_IMM: RebaseType = ImmValue; if (RebaseType > MachO::REBASE_TYPE_TEXT_PCREL32) { *E = malformedError("for REBASE_OPCODE_SET_TYPE_IMM bad bind type: " + Twine((int)RebaseType) + " for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } DEBUG_WITH_TYPE( "mach-o-rebase", dbgs() << "REBASE_OPCODE_SET_TYPE_IMM: " << "RebaseType=" << (int) RebaseType << "\n"); break; case MachO::REBASE_OPCODE_SET_SEGMENT_AND_OFFSET_ULEB: SegmentIndex = ImmValue; SegmentOffset = readULEB128(&error); if (error) { *E = malformedError("for REBASE_OPCODE_SET_SEGMENT_AND_OFFSET_ULEB " + Twine(error) + " for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } error = O->RebaseEntryCheckSegAndOffsets(SegmentIndex, SegmentOffset, PointerSize); if (error) { *E = malformedError("for REBASE_OPCODE_SET_SEGMENT_AND_OFFSET_ULEB " + Twine(error) + " for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } DEBUG_WITH_TYPE( "mach-o-rebase", dbgs() << "REBASE_OPCODE_SET_SEGMENT_AND_OFFSET_ULEB: " << "SegmentIndex=" << SegmentIndex << ", " << format("SegmentOffset=0x%06X", SegmentOffset) << "\n"); break; case MachO::REBASE_OPCODE_ADD_ADDR_ULEB: SegmentOffset += readULEB128(&error); if (error) { *E = malformedError("for REBASE_OPCODE_ADD_ADDR_ULEB " + Twine(error) + " for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } error = O->RebaseEntryCheckSegAndOffsets(SegmentIndex, SegmentOffset, PointerSize); if (error) { *E = malformedError("for REBASE_OPCODE_ADD_ADDR_ULEB " + Twine(error) + " for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } DEBUG_WITH_TYPE("mach-o-rebase", dbgs() << "REBASE_OPCODE_ADD_ADDR_ULEB: " << format("SegmentOffset=0x%06X", SegmentOffset) << "\n"); break; case MachO::REBASE_OPCODE_ADD_ADDR_IMM_SCALED: SegmentOffset += ImmValue * PointerSize; error = O->RebaseEntryCheckSegAndOffsets(SegmentIndex, SegmentOffset, PointerSize); if (error) { *E = malformedError("for REBASE_OPCODE_ADD_ADDR_IMM_SCALED " + Twine(error) + " for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } DEBUG_WITH_TYPE("mach-o-rebase", dbgs() << "REBASE_OPCODE_ADD_ADDR_IMM_SCALED: " << format("SegmentOffset=0x%06X", SegmentOffset) << "\n"); break; case MachO::REBASE_OPCODE_DO_REBASE_IMM_TIMES: AdvanceAmount = PointerSize; Skip = 0; Count = ImmValue; if (ImmValue != 0) RemainingLoopCount = ImmValue - 1; else RemainingLoopCount = 0; error = O->RebaseEntryCheckSegAndOffsets(SegmentIndex, SegmentOffset, PointerSize, Count, Skip); if (error) { *E = malformedError("for REBASE_OPCODE_DO_REBASE_IMM_TIMES " + Twine(error) + " for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } DEBUG_WITH_TYPE( "mach-o-rebase", dbgs() << "REBASE_OPCODE_DO_REBASE_IMM_TIMES: " << format("SegmentOffset=0x%06X", SegmentOffset) << ", AdvanceAmount=" << AdvanceAmount << ", RemainingLoopCount=" << RemainingLoopCount << "\n"); return; case MachO::REBASE_OPCODE_DO_REBASE_ULEB_TIMES: AdvanceAmount = PointerSize; Skip = 0; Count = readULEB128(&error); if (error) { *E = malformedError("for REBASE_OPCODE_DO_REBASE_ULEB_TIMES " + Twine(error) + " for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } if (Count != 0) RemainingLoopCount = Count - 1; else RemainingLoopCount = 0; error = O->RebaseEntryCheckSegAndOffsets(SegmentIndex, SegmentOffset, PointerSize, Count, Skip); if (error) { *E = malformedError("for REBASE_OPCODE_DO_REBASE_ULEB_TIMES " + Twine(error) + " for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } DEBUG_WITH_TYPE( "mach-o-rebase", dbgs() << "REBASE_OPCODE_DO_REBASE_ULEB_TIMES: " << format("SegmentOffset=0x%06X", SegmentOffset) << ", AdvanceAmount=" << AdvanceAmount << ", RemainingLoopCount=" << RemainingLoopCount << "\n"); return; case MachO::REBASE_OPCODE_DO_REBASE_ADD_ADDR_ULEB: Skip = readULEB128(&error); if (error) { *E = malformedError("for REBASE_OPCODE_DO_REBASE_ADD_ADDR_ULEB " + Twine(error) + " for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } AdvanceAmount = Skip + PointerSize; Count = 1; RemainingLoopCount = 0; error = O->RebaseEntryCheckSegAndOffsets(SegmentIndex, SegmentOffset, PointerSize, Count, Skip); if (error) { *E = malformedError("for REBASE_OPCODE_DO_REBASE_ADD_ADDR_ULEB " + Twine(error) + " for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } DEBUG_WITH_TYPE( "mach-o-rebase", dbgs() << "REBASE_OPCODE_DO_REBASE_ADD_ADDR_ULEB: " << format("SegmentOffset=0x%06X", SegmentOffset) << ", AdvanceAmount=" << AdvanceAmount << ", RemainingLoopCount=" << RemainingLoopCount << "\n"); return; case MachO::REBASE_OPCODE_DO_REBASE_ULEB_TIMES_SKIPPING_ULEB: Count = readULEB128(&error); if (error) { *E = malformedError("for REBASE_OPCODE_DO_REBASE_ULEB_TIMES_SKIPPING_" "ULEB " + Twine(error) + " for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } if (Count != 0) RemainingLoopCount = Count - 1; else RemainingLoopCount = 0; Skip = readULEB128(&error); if (error) { *E = malformedError("for REBASE_OPCODE_DO_REBASE_ULEB_TIMES_SKIPPING_" "ULEB " + Twine(error) + " for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } AdvanceAmount = Skip + PointerSize; error = O->RebaseEntryCheckSegAndOffsets(SegmentIndex, SegmentOffset, PointerSize, Count, Skip); if (error) { *E = malformedError("for REBASE_OPCODE_DO_REBASE_ULEB_TIMES_SKIPPING_" "ULEB " + Twine(error) + " for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } DEBUG_WITH_TYPE( "mach-o-rebase", dbgs() << "REBASE_OPCODE_DO_REBASE_ULEB_TIMES_SKIPPING_ULEB: " << format("SegmentOffset=0x%06X", SegmentOffset) << ", AdvanceAmount=" << AdvanceAmount << ", RemainingLoopCount=" << RemainingLoopCount << "\n"); return; default: *E = malformedError("bad rebase info (bad opcode value 0x" + Twine::utohexstr(Opcode) + " for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } } } uint64_t MachORebaseEntry::readULEB128(const char **error) { unsigned Count; uint64_t Result = decodeULEB128(Ptr, &Count, Opcodes.end(), error); Ptr += Count; if (Ptr > Opcodes.end()) Ptr = Opcodes.end(); return Result; } int32_t MachORebaseEntry::segmentIndex() const { return SegmentIndex; } uint64_t MachORebaseEntry::segmentOffset() const { return SegmentOffset; } StringRef MachORebaseEntry::typeName() const { switch (RebaseType) { case MachO::REBASE_TYPE_POINTER: return "pointer"; case MachO::REBASE_TYPE_TEXT_ABSOLUTE32: return "text abs32"; case MachO::REBASE_TYPE_TEXT_PCREL32: return "text rel32"; } return "unknown"; } // For use with the SegIndex of a checked Mach-O Rebase entry // to get the segment name. StringRef MachORebaseEntry::segmentName() const { return O->BindRebaseSegmentName(SegmentIndex); } // For use with a SegIndex,SegOffset pair from a checked Mach-O Rebase entry // to get the section name. StringRef MachORebaseEntry::sectionName() const { return O->BindRebaseSectionName(SegmentIndex, SegmentOffset); } // For use with a SegIndex,SegOffset pair from a checked Mach-O Rebase entry // to get the address. uint64_t MachORebaseEntry::address() const { return O->BindRebaseAddress(SegmentIndex, SegmentOffset); } bool MachORebaseEntry::operator==(const MachORebaseEntry &Other) const { #ifdef EXPENSIVE_CHECKS assert(Opcodes == Other.Opcodes && "compare iterators of different files"); #else assert(Opcodes.data() == Other.Opcodes.data() && "compare iterators of different files"); #endif return (Ptr == Other.Ptr) && (RemainingLoopCount == Other.RemainingLoopCount) && (Done == Other.Done); } iterator_range MachOObjectFile::rebaseTable(Error &Err, MachOObjectFile *O, ArrayRef Opcodes, bool is64) { if (O->BindRebaseSectionTable == nullptr) O->BindRebaseSectionTable = std::make_unique(O); MachORebaseEntry Start(&Err, O, Opcodes, is64); Start.moveToFirst(); MachORebaseEntry Finish(&Err, O, Opcodes, is64); Finish.moveToEnd(); return make_range(rebase_iterator(Start), rebase_iterator(Finish)); } iterator_range MachOObjectFile::rebaseTable(Error &Err) { return rebaseTable(Err, this, getDyldInfoRebaseOpcodes(), is64Bit()); } MachOBindEntry::MachOBindEntry(Error *E, const MachOObjectFile *O, ArrayRef Bytes, bool is64Bit, Kind BK) : E(E), O(O), Opcodes(Bytes), Ptr(Bytes.begin()), PointerSize(is64Bit ? 8 : 4), TableKind(BK) {} void MachOBindEntry::moveToFirst() { Ptr = Opcodes.begin(); moveNext(); } void MachOBindEntry::moveToEnd() { Ptr = Opcodes.end(); RemainingLoopCount = 0; Done = true; } void MachOBindEntry::moveNext() { ErrorAsOutParameter ErrAsOutParam(E); // If in the middle of some loop, move to next binding in loop. SegmentOffset += AdvanceAmount; if (RemainingLoopCount) { --RemainingLoopCount; return; } bool More = true; while (More) { // BIND_OPCODE_DONE is only used for padding if we are not aligned to // pointer size. Therefore it is possible to reach the end without ever // having seen BIND_OPCODE_DONE. if (Ptr == Opcodes.end()) { Done = true; return; } // Parse next opcode and set up next loop. const uint8_t *OpcodeStart = Ptr; uint8_t Byte = *Ptr++; uint8_t ImmValue = Byte & MachO::BIND_IMMEDIATE_MASK; uint8_t Opcode = Byte & MachO::BIND_OPCODE_MASK; int8_t SignExtended; const uint8_t *SymStart; uint64_t Count, Skip; const char *error = nullptr; switch (Opcode) { case MachO::BIND_OPCODE_DONE: if (TableKind == Kind::Lazy) { // Lazying bindings have a DONE opcode between entries. Need to ignore // it to advance to next entry. But need not if this is last entry. bool NotLastEntry = false; for (const uint8_t *P = Ptr; P < Opcodes.end(); ++P) { if (*P) { NotLastEntry = true; } } if (NotLastEntry) break; } More = false; moveToEnd(); DEBUG_WITH_TYPE("mach-o-bind", dbgs() << "BIND_OPCODE_DONE\n"); break; case MachO::BIND_OPCODE_SET_DYLIB_ORDINAL_IMM: if (TableKind == Kind::Weak) { *E = malformedError("BIND_OPCODE_SET_DYLIB_ORDINAL_IMM not allowed in " "weak bind table for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } Ordinal = ImmValue; LibraryOrdinalSet = true; if (ImmValue > O->getLibraryCount()) { *E = malformedError("for BIND_OPCODE_SET_DYLIB_ORDINAL_ULEB bad " "library ordinal: " + Twine((int)ImmValue) + " (max " + Twine((int)O->getLibraryCount()) + ") for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } DEBUG_WITH_TYPE( "mach-o-bind", dbgs() << "BIND_OPCODE_SET_DYLIB_ORDINAL_IMM: " << "Ordinal=" << Ordinal << "\n"); break; case MachO::BIND_OPCODE_SET_DYLIB_ORDINAL_ULEB: if (TableKind == Kind::Weak) { *E = malformedError("BIND_OPCODE_SET_DYLIB_ORDINAL_ULEB not allowed in " "weak bind table for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } Ordinal = readULEB128(&error); LibraryOrdinalSet = true; if (error) { *E = malformedError("for BIND_OPCODE_SET_DYLIB_ORDINAL_ULEB " + Twine(error) + " for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } if (Ordinal > (int)O->getLibraryCount()) { *E = malformedError("for BIND_OPCODE_SET_DYLIB_ORDINAL_ULEB bad " "library ordinal: " + Twine((int)Ordinal) + " (max " + Twine((int)O->getLibraryCount()) + ") for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } DEBUG_WITH_TYPE( "mach-o-bind", dbgs() << "BIND_OPCODE_SET_DYLIB_ORDINAL_ULEB: " << "Ordinal=" << Ordinal << "\n"); break; case MachO::BIND_OPCODE_SET_DYLIB_SPECIAL_IMM: if (TableKind == Kind::Weak) { *E = malformedError("BIND_OPCODE_SET_DYLIB_SPECIAL_IMM not allowed in " "weak bind table for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } if (ImmValue) { SignExtended = MachO::BIND_OPCODE_MASK | ImmValue; Ordinal = SignExtended; if (Ordinal < MachO::BIND_SPECIAL_DYLIB_FLAT_LOOKUP) { *E = malformedError("for BIND_OPCODE_SET_DYLIB_SPECIAL_IMM unknown " "special ordinal: " + Twine((int)Ordinal) + " for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } } else Ordinal = 0; LibraryOrdinalSet = true; DEBUG_WITH_TYPE( "mach-o-bind", dbgs() << "BIND_OPCODE_SET_DYLIB_SPECIAL_IMM: " << "Ordinal=" << Ordinal << "\n"); break; case MachO::BIND_OPCODE_SET_SYMBOL_TRAILING_FLAGS_IMM: Flags = ImmValue; SymStart = Ptr; while (*Ptr && (Ptr < Opcodes.end())) { ++Ptr; } if (Ptr == Opcodes.end()) { *E = malformedError( "for BIND_OPCODE_SET_SYMBOL_TRAILING_FLAGS_IMM " "symbol name extends past opcodes for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } SymbolName = StringRef(reinterpret_cast(SymStart), Ptr-SymStart); ++Ptr; DEBUG_WITH_TYPE( "mach-o-bind", dbgs() << "BIND_OPCODE_SET_SYMBOL_TRAILING_FLAGS_IMM: " << "SymbolName=" << SymbolName << "\n"); if (TableKind == Kind::Weak) { if (ImmValue & MachO::BIND_SYMBOL_FLAGS_NON_WEAK_DEFINITION) return; } break; case MachO::BIND_OPCODE_SET_TYPE_IMM: BindType = ImmValue; if (ImmValue > MachO::BIND_TYPE_TEXT_PCREL32) { *E = malformedError("for BIND_OPCODE_SET_TYPE_IMM bad bind type: " + Twine((int)ImmValue) + " for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } DEBUG_WITH_TYPE( "mach-o-bind", dbgs() << "BIND_OPCODE_SET_TYPE_IMM: " << "BindType=" << (int)BindType << "\n"); break; case MachO::BIND_OPCODE_SET_ADDEND_SLEB: Addend = readSLEB128(&error); if (error) { *E = malformedError("for BIND_OPCODE_SET_ADDEND_SLEB " + Twine(error) + " for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } DEBUG_WITH_TYPE( "mach-o-bind", dbgs() << "BIND_OPCODE_SET_ADDEND_SLEB: " << "Addend=" << Addend << "\n"); break; case MachO::BIND_OPCODE_SET_SEGMENT_AND_OFFSET_ULEB: SegmentIndex = ImmValue; SegmentOffset = readULEB128(&error); if (error) { *E = malformedError("for BIND_OPCODE_SET_SEGMENT_AND_OFFSET_ULEB " + Twine(error) + " for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } error = O->BindEntryCheckSegAndOffsets(SegmentIndex, SegmentOffset, PointerSize); if (error) { *E = malformedError("for BIND_OPCODE_SET_SEGMENT_AND_OFFSET_ULEB " + Twine(error) + " for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } DEBUG_WITH_TYPE( "mach-o-bind", dbgs() << "BIND_OPCODE_SET_SEGMENT_AND_OFFSET_ULEB: " << "SegmentIndex=" << SegmentIndex << ", " << format("SegmentOffset=0x%06X", SegmentOffset) << "\n"); break; case MachO::BIND_OPCODE_ADD_ADDR_ULEB: SegmentOffset += readULEB128(&error); if (error) { *E = malformedError("for BIND_OPCODE_ADD_ADDR_ULEB " + Twine(error) + " for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } error = O->BindEntryCheckSegAndOffsets(SegmentIndex, SegmentOffset, PointerSize); if (error) { *E = malformedError("for BIND_OPCODE_ADD_ADDR_ULEB " + Twine(error) + " for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } DEBUG_WITH_TYPE("mach-o-bind", dbgs() << "BIND_OPCODE_ADD_ADDR_ULEB: " << format("SegmentOffset=0x%06X", SegmentOffset) << "\n"); break; case MachO::BIND_OPCODE_DO_BIND: AdvanceAmount = PointerSize; RemainingLoopCount = 0; error = O->BindEntryCheckSegAndOffsets(SegmentIndex, SegmentOffset, PointerSize); if (error) { *E = malformedError("for BIND_OPCODE_DO_BIND " + Twine(error) + " for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } if (SymbolName == StringRef()) { *E = malformedError( "for BIND_OPCODE_DO_BIND missing preceding " "BIND_OPCODE_SET_SYMBOL_TRAILING_FLAGS_IMM for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } if (!LibraryOrdinalSet && TableKind != Kind::Weak) { *E = malformedError("for BIND_OPCODE_DO_BIND missing preceding " "BIND_OPCODE_SET_DYLIB_ORDINAL_* for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } DEBUG_WITH_TYPE("mach-o-bind", dbgs() << "BIND_OPCODE_DO_BIND: " << format("SegmentOffset=0x%06X", SegmentOffset) << "\n"); return; case MachO::BIND_OPCODE_DO_BIND_ADD_ADDR_ULEB: if (TableKind == Kind::Lazy) { *E = malformedError("BIND_OPCODE_DO_BIND_ADD_ADDR_ULEB not allowed in " "lazy bind table for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } error = O->BindEntryCheckSegAndOffsets(SegmentIndex, SegmentOffset, PointerSize); if (error) { *E = malformedError("for BIND_OPCODE_DO_BIND_ADD_ADDR_ULEB " + Twine(error) + " for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } if (SymbolName == StringRef()) { *E = malformedError( "for BIND_OPCODE_DO_BIND_ADD_ADDR_ULEB missing " "preceding BIND_OPCODE_SET_SYMBOL_TRAILING_FLAGS_IMM for opcode " "at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } if (!LibraryOrdinalSet && TableKind != Kind::Weak) { *E = malformedError( "for BIND_OPCODE_DO_BIND_ADD_ADDR_ULEB missing " "preceding BIND_OPCODE_SET_DYLIB_ORDINAL_* for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } AdvanceAmount = readULEB128(&error) + PointerSize; if (error) { *E = malformedError("for BIND_OPCODE_DO_BIND_ADD_ADDR_ULEB " + Twine(error) + " for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } // Note, this is not really an error until the next bind but make no sense // for a BIND_OPCODE_DO_BIND_ADD_ADDR_ULEB to not be followed by another // bind operation. error = O->BindEntryCheckSegAndOffsets(SegmentIndex, SegmentOffset + AdvanceAmount, PointerSize); if (error) { *E = malformedError("for BIND_OPCODE_ADD_ADDR_ULEB (after adding " "ULEB) " + Twine(error) + " for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } RemainingLoopCount = 0; DEBUG_WITH_TYPE( "mach-o-bind", dbgs() << "BIND_OPCODE_DO_BIND_ADD_ADDR_ULEB: " << format("SegmentOffset=0x%06X", SegmentOffset) << ", AdvanceAmount=" << AdvanceAmount << ", RemainingLoopCount=" << RemainingLoopCount << "\n"); return; case MachO::BIND_OPCODE_DO_BIND_ADD_ADDR_IMM_SCALED: if (TableKind == Kind::Lazy) { *E = malformedError("BIND_OPCODE_DO_BIND_ADD_ADDR_IMM_SCALED not " "allowed in lazy bind table for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } if (SymbolName == StringRef()) { *E = malformedError( "for BIND_OPCODE_DO_BIND_ADD_ADDR_IMM_SCALED " "missing preceding BIND_OPCODE_SET_SYMBOL_TRAILING_FLAGS_IMM for " "opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } if (!LibraryOrdinalSet && TableKind != Kind::Weak) { *E = malformedError( "for BIND_OPCODE_DO_BIND_ADD_ADDR_IMM_SCALED " "missing preceding BIND_OPCODE_SET_DYLIB_ORDINAL_* for opcode " "at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } AdvanceAmount = ImmValue * PointerSize + PointerSize; RemainingLoopCount = 0; error = O->BindEntryCheckSegAndOffsets(SegmentIndex, SegmentOffset + AdvanceAmount, PointerSize); if (error) { *E = malformedError("for BIND_OPCODE_DO_BIND_ADD_ADDR_IMM_SCALED " + Twine(error) + " for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } DEBUG_WITH_TYPE("mach-o-bind", dbgs() << "BIND_OPCODE_DO_BIND_ADD_ADDR_IMM_SCALED: " << format("SegmentOffset=0x%06X", SegmentOffset) << "\n"); return; case MachO::BIND_OPCODE_DO_BIND_ULEB_TIMES_SKIPPING_ULEB: if (TableKind == Kind::Lazy) { *E = malformedError("BIND_OPCODE_DO_BIND_ULEB_TIMES_SKIPPING_ULEB not " "allowed in lazy bind table for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } Count = readULEB128(&error); if (Count != 0) RemainingLoopCount = Count - 1; else RemainingLoopCount = 0; if (error) { *E = malformedError("for BIND_OPCODE_DO_BIND_ULEB_TIMES_SKIPPING_ULEB " " (count value) " + Twine(error) + " for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } Skip = readULEB128(&error); AdvanceAmount = Skip + PointerSize; if (error) { *E = malformedError("for BIND_OPCODE_DO_BIND_ULEB_TIMES_SKIPPING_ULEB " " (skip value) " + Twine(error) + " for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } if (SymbolName == StringRef()) { *E = malformedError( "for BIND_OPCODE_DO_BIND_ULEB_TIMES_SKIPPING_ULEB " "missing preceding BIND_OPCODE_SET_SYMBOL_TRAILING_FLAGS_IMM for " "opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } if (!LibraryOrdinalSet && TableKind != Kind::Weak) { *E = malformedError( "for BIND_OPCODE_DO_BIND_ULEB_TIMES_SKIPPING_ULEB " "missing preceding BIND_OPCODE_SET_DYLIB_ORDINAL_* for opcode " "at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } error = O->BindEntryCheckSegAndOffsets(SegmentIndex, SegmentOffset, PointerSize, Count, Skip); if (error) { *E = malformedError("for BIND_OPCODE_DO_BIND_ULEB_TIMES_SKIPPING_ULEB " + Twine(error) + " for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } DEBUG_WITH_TYPE( "mach-o-bind", dbgs() << "BIND_OPCODE_DO_BIND_ULEB_TIMES_SKIPPING_ULEB: " << format("SegmentOffset=0x%06X", SegmentOffset) << ", AdvanceAmount=" << AdvanceAmount << ", RemainingLoopCount=" << RemainingLoopCount << "\n"); return; default: *E = malformedError("bad bind info (bad opcode value 0x" + Twine::utohexstr(Opcode) + " for opcode at: 0x" + Twine::utohexstr(OpcodeStart - Opcodes.begin())); moveToEnd(); return; } } } uint64_t MachOBindEntry::readULEB128(const char **error) { unsigned Count; uint64_t Result = decodeULEB128(Ptr, &Count, Opcodes.end(), error); Ptr += Count; if (Ptr > Opcodes.end()) Ptr = Opcodes.end(); return Result; } int64_t MachOBindEntry::readSLEB128(const char **error) { unsigned Count; int64_t Result = decodeSLEB128(Ptr, &Count, Opcodes.end(), error); Ptr += Count; if (Ptr > Opcodes.end()) Ptr = Opcodes.end(); return Result; } int32_t MachOBindEntry::segmentIndex() const { return SegmentIndex; } uint64_t MachOBindEntry::segmentOffset() const { return SegmentOffset; } StringRef MachOBindEntry::typeName() const { switch (BindType) { case MachO::BIND_TYPE_POINTER: return "pointer"; case MachO::BIND_TYPE_TEXT_ABSOLUTE32: return "text abs32"; case MachO::BIND_TYPE_TEXT_PCREL32: return "text rel32"; } return "unknown"; } StringRef MachOBindEntry::symbolName() const { return SymbolName; } int64_t MachOBindEntry::addend() const { return Addend; } uint32_t MachOBindEntry::flags() const { return Flags; } int MachOBindEntry::ordinal() const { return Ordinal; } // For use with the SegIndex of a checked Mach-O Bind entry // to get the segment name. StringRef MachOBindEntry::segmentName() const { return O->BindRebaseSegmentName(SegmentIndex); } // For use with a SegIndex,SegOffset pair from a checked Mach-O Bind entry // to get the section name. StringRef MachOBindEntry::sectionName() const { return O->BindRebaseSectionName(SegmentIndex, SegmentOffset); } // For use with a SegIndex,SegOffset pair from a checked Mach-O Bind entry // to get the address. uint64_t MachOBindEntry::address() const { return O->BindRebaseAddress(SegmentIndex, SegmentOffset); } bool MachOBindEntry::operator==(const MachOBindEntry &Other) const { #ifdef EXPENSIVE_CHECKS assert(Opcodes == Other.Opcodes && "compare iterators of different files"); #else assert(Opcodes.data() == Other.Opcodes.data() && "compare iterators of different files"); #endif return (Ptr == Other.Ptr) && (RemainingLoopCount == Other.RemainingLoopCount) && (Done == Other.Done); } // Build table of sections so SegIndex/SegOffset pairs can be translated. BindRebaseSegInfo::BindRebaseSegInfo(const object::MachOObjectFile *Obj) { uint32_t CurSegIndex = Obj->hasPageZeroSegment() ? 1 : 0; StringRef CurSegName; uint64_t CurSegAddress; for (const SectionRef &Section : Obj->sections()) { SectionInfo Info; Expected NameOrErr = Section.getName(); if (!NameOrErr) consumeError(NameOrErr.takeError()); else Info.SectionName = *NameOrErr; Info.Address = Section.getAddress(); Info.Size = Section.getSize(); Info.SegmentName = Obj->getSectionFinalSegmentName(Section.getRawDataRefImpl()); if (Info.SegmentName != CurSegName) { ++CurSegIndex; CurSegName = Info.SegmentName; CurSegAddress = Info.Address; } Info.SegmentIndex = CurSegIndex - 1; Info.OffsetInSegment = Info.Address - CurSegAddress; Info.SegmentStartAddress = CurSegAddress; Sections.push_back(Info); } MaxSegIndex = CurSegIndex; } // For use with a SegIndex, SegOffset, and PointerSize triple in // MachOBindEntry::moveNext() to validate a MachOBindEntry or MachORebaseEntry. // // Given a SegIndex, SegOffset, and PointerSize, verify a valid section exists // that fully contains a pointer at that location. Multiple fixups in a bind // (such as with the BIND_OPCODE_DO_BIND_ULEB_TIMES_SKIPPING_ULEB opcode) can // be tested via the Count and Skip parameters. const char *BindRebaseSegInfo::checkSegAndOffsets(int32_t SegIndex, uint64_t SegOffset, uint8_t PointerSize, uint64_t Count, uint64_t Skip) { if (SegIndex == -1) return "missing preceding *_OPCODE_SET_SEGMENT_AND_OFFSET_ULEB"; if (SegIndex >= MaxSegIndex) return "bad segIndex (too large)"; for (uint64_t i = 0; i < Count; ++i) { uint64_t Start = SegOffset + i * (PointerSize + Skip); uint64_t End = Start + PointerSize; bool Found = false; for (const SectionInfo &SI : Sections) { if (SI.SegmentIndex != SegIndex) continue; if ((SI.OffsetInSegment<=Start) && (Start<(SI.OffsetInSegment+SI.Size))) { if (End <= SI.OffsetInSegment + SI.Size) { Found = true; break; } else return "bad offset, extends beyond section boundary"; } } if (!Found) return "bad offset, not in section"; } return nullptr; } // For use with the SegIndex of a checked Mach-O Bind or Rebase entry // to get the segment name. StringRef BindRebaseSegInfo::segmentName(int32_t SegIndex) { for (const SectionInfo &SI : Sections) { if (SI.SegmentIndex == SegIndex) return SI.SegmentName; } llvm_unreachable("invalid SegIndex"); } // For use with a SegIndex,SegOffset pair from a checked Mach-O Bind or Rebase // to get the SectionInfo. const BindRebaseSegInfo::SectionInfo &BindRebaseSegInfo::findSection( int32_t SegIndex, uint64_t SegOffset) { for (const SectionInfo &SI : Sections) { if (SI.SegmentIndex != SegIndex) continue; if (SI.OffsetInSegment > SegOffset) continue; if (SegOffset >= (SI.OffsetInSegment + SI.Size)) continue; return SI; } llvm_unreachable("SegIndex and SegOffset not in any section"); } // For use with a SegIndex,SegOffset pair from a checked Mach-O Bind or Rebase // entry to get the section name. StringRef BindRebaseSegInfo::sectionName(int32_t SegIndex, uint64_t SegOffset) { return findSection(SegIndex, SegOffset).SectionName; } // For use with a SegIndex,SegOffset pair from a checked Mach-O Bind or Rebase // entry to get the address. uint64_t BindRebaseSegInfo::address(uint32_t SegIndex, uint64_t OffsetInSeg) { const SectionInfo &SI = findSection(SegIndex, OffsetInSeg); return SI.SegmentStartAddress + OffsetInSeg; } iterator_range MachOObjectFile::bindTable(Error &Err, MachOObjectFile *O, ArrayRef Opcodes, bool is64, MachOBindEntry::Kind BKind) { if (O->BindRebaseSectionTable == nullptr) O->BindRebaseSectionTable = std::make_unique(O); MachOBindEntry Start(&Err, O, Opcodes, is64, BKind); Start.moveToFirst(); MachOBindEntry Finish(&Err, O, Opcodes, is64, BKind); Finish.moveToEnd(); return make_range(bind_iterator(Start), bind_iterator(Finish)); } iterator_range MachOObjectFile::bindTable(Error &Err) { return bindTable(Err, this, getDyldInfoBindOpcodes(), is64Bit(), MachOBindEntry::Kind::Regular); } iterator_range MachOObjectFile::lazyBindTable(Error &Err) { return bindTable(Err, this, getDyldInfoLazyBindOpcodes(), is64Bit(), MachOBindEntry::Kind::Lazy); } iterator_range MachOObjectFile::weakBindTable(Error &Err) { return bindTable(Err, this, getDyldInfoWeakBindOpcodes(), is64Bit(), MachOBindEntry::Kind::Weak); } iterator_range MachOObjectFile::fixupTable(Error &Err) { if (BindRebaseSectionTable == nullptr) BindRebaseSectionTable = std::make_unique(this); MachOChainedFixupEntry Start(&Err, this, true); Start.moveToFirst(); MachOChainedFixupEntry Finish(&Err, this, false); Finish.moveToEnd(); return make_range(fixup_iterator(Start), fixup_iterator(Finish)); } MachOObjectFile::load_command_iterator MachOObjectFile::begin_load_commands() const { return LoadCommands.begin(); } MachOObjectFile::load_command_iterator MachOObjectFile::end_load_commands() const { return LoadCommands.end(); } iterator_range MachOObjectFile::load_commands() const { return make_range(begin_load_commands(), end_load_commands()); } StringRef MachOObjectFile::getSectionFinalSegmentName(DataRefImpl Sec) const { ArrayRef Raw = getSectionRawFinalSegmentName(Sec); return parseSegmentOrSectionName(Raw.data()); } ArrayRef MachOObjectFile::getSectionRawName(DataRefImpl Sec) const { assert(Sec.d.a < Sections.size() && "Should have detected this earlier"); const section_base *Base = reinterpret_cast(Sections[Sec.d.a]); return ArrayRef(Base->sectname); } ArrayRef MachOObjectFile::getSectionRawFinalSegmentName(DataRefImpl Sec) const { assert(Sec.d.a < Sections.size() && "Should have detected this earlier"); const section_base *Base = reinterpret_cast(Sections[Sec.d.a]); return ArrayRef(Base->segname); } bool MachOObjectFile::isRelocationScattered(const MachO::any_relocation_info &RE) const { if (getCPUType(*this) == MachO::CPU_TYPE_X86_64) return false; return getPlainRelocationAddress(RE) & MachO::R_SCATTERED; } unsigned MachOObjectFile::getPlainRelocationSymbolNum( const MachO::any_relocation_info &RE) const { if (isLittleEndian()) return RE.r_word1 & 0xffffff; return RE.r_word1 >> 8; } bool MachOObjectFile::getPlainRelocationExternal( const MachO::any_relocation_info &RE) const { if (isLittleEndian()) return (RE.r_word1 >> 27) & 1; return (RE.r_word1 >> 4) & 1; } bool MachOObjectFile::getScatteredRelocationScattered( const MachO::any_relocation_info &RE) const { return RE.r_word0 >> 31; } uint32_t MachOObjectFile::getScatteredRelocationValue( const MachO::any_relocation_info &RE) const { return RE.r_word1; } uint32_t MachOObjectFile::getScatteredRelocationType( const MachO::any_relocation_info &RE) const { return (RE.r_word0 >> 24) & 0xf; } unsigned MachOObjectFile::getAnyRelocationAddress( const MachO::any_relocation_info &RE) const { if (isRelocationScattered(RE)) return getScatteredRelocationAddress(RE); return getPlainRelocationAddress(RE); } unsigned MachOObjectFile::getAnyRelocationPCRel( const MachO::any_relocation_info &RE) const { if (isRelocationScattered(RE)) return getScatteredRelocationPCRel(RE); return getPlainRelocationPCRel(*this, RE); } unsigned MachOObjectFile::getAnyRelocationLength( const MachO::any_relocation_info &RE) const { if (isRelocationScattered(RE)) return getScatteredRelocationLength(RE); return getPlainRelocationLength(*this, RE); } unsigned MachOObjectFile::getAnyRelocationType( const MachO::any_relocation_info &RE) const { if (isRelocationScattered(RE)) return getScatteredRelocationType(RE); return getPlainRelocationType(*this, RE); } SectionRef MachOObjectFile::getAnyRelocationSection( const MachO::any_relocation_info &RE) const { if (isRelocationScattered(RE) || getPlainRelocationExternal(RE)) return *section_end(); unsigned SecNum = getPlainRelocationSymbolNum(RE); if (SecNum == MachO::R_ABS || SecNum > Sections.size()) return *section_end(); DataRefImpl DRI; DRI.d.a = SecNum - 1; return SectionRef(DRI, this); } MachO::section MachOObjectFile::getSection(DataRefImpl DRI) const { assert(DRI.d.a < Sections.size() && "Should have detected this earlier"); return getStruct(*this, Sections[DRI.d.a]); } MachO::section_64 MachOObjectFile::getSection64(DataRefImpl DRI) const { assert(DRI.d.a < Sections.size() && "Should have detected this earlier"); return getStruct(*this, Sections[DRI.d.a]); } MachO::section MachOObjectFile::getSection(const LoadCommandInfo &L, unsigned Index) const { const char *Sec = getSectionPtr(*this, L, Index); return getStruct(*this, Sec); } MachO::section_64 MachOObjectFile::getSection64(const LoadCommandInfo &L, unsigned Index) const { const char *Sec = getSectionPtr(*this, L, Index); return getStruct(*this, Sec); } MachO::nlist MachOObjectFile::getSymbolTableEntry(DataRefImpl DRI) const { const char *P = reinterpret_cast(DRI.p); return getStruct(*this, P); } MachO::nlist_64 MachOObjectFile::getSymbol64TableEntry(DataRefImpl DRI) const { const char *P = reinterpret_cast(DRI.p); return getStruct(*this, P); } MachO::linkedit_data_command MachOObjectFile::getLinkeditDataLoadCommand(const LoadCommandInfo &L) const { return getStruct(*this, L.Ptr); } MachO::segment_command MachOObjectFile::getSegmentLoadCommand(const LoadCommandInfo &L) const { return getStruct(*this, L.Ptr); } MachO::segment_command_64 MachOObjectFile::getSegment64LoadCommand(const LoadCommandInfo &L) const { return getStruct(*this, L.Ptr); } MachO::linker_option_command MachOObjectFile::getLinkerOptionLoadCommand(const LoadCommandInfo &L) const { return getStruct(*this, L.Ptr); } MachO::version_min_command MachOObjectFile::getVersionMinLoadCommand(const LoadCommandInfo &L) const { return getStruct(*this, L.Ptr); } MachO::note_command MachOObjectFile::getNoteLoadCommand(const LoadCommandInfo &L) const { return getStruct(*this, L.Ptr); } MachO::build_version_command MachOObjectFile::getBuildVersionLoadCommand(const LoadCommandInfo &L) const { return getStruct(*this, L.Ptr); } MachO::build_tool_version MachOObjectFile::getBuildToolVersion(unsigned index) const { return getStruct(*this, BuildTools[index]); } MachO::dylib_command MachOObjectFile::getDylibIDLoadCommand(const LoadCommandInfo &L) const { return getStruct(*this, L.Ptr); } MachO::dyld_info_command MachOObjectFile::getDyldInfoLoadCommand(const LoadCommandInfo &L) const { return getStruct(*this, L.Ptr); } MachO::dylinker_command MachOObjectFile::getDylinkerCommand(const LoadCommandInfo &L) const { return getStruct(*this, L.Ptr); } MachO::uuid_command MachOObjectFile::getUuidCommand(const LoadCommandInfo &L) const { return getStruct(*this, L.Ptr); } MachO::rpath_command MachOObjectFile::getRpathCommand(const LoadCommandInfo &L) const { return getStruct(*this, L.Ptr); } MachO::source_version_command MachOObjectFile::getSourceVersionCommand(const LoadCommandInfo &L) const { return getStruct(*this, L.Ptr); } MachO::entry_point_command MachOObjectFile::getEntryPointCommand(const LoadCommandInfo &L) const { return getStruct(*this, L.Ptr); } MachO::encryption_info_command MachOObjectFile::getEncryptionInfoCommand(const LoadCommandInfo &L) const { return getStruct(*this, L.Ptr); } MachO::encryption_info_command_64 MachOObjectFile::getEncryptionInfoCommand64(const LoadCommandInfo &L) const { return getStruct(*this, L.Ptr); } MachO::sub_framework_command MachOObjectFile::getSubFrameworkCommand(const LoadCommandInfo &L) const { return getStruct(*this, L.Ptr); } MachO::sub_umbrella_command MachOObjectFile::getSubUmbrellaCommand(const LoadCommandInfo &L) const { return getStruct(*this, L.Ptr); } MachO::sub_library_command MachOObjectFile::getSubLibraryCommand(const LoadCommandInfo &L) const { return getStruct(*this, L.Ptr); } MachO::sub_client_command MachOObjectFile::getSubClientCommand(const LoadCommandInfo &L) const { return getStruct(*this, L.Ptr); } MachO::routines_command MachOObjectFile::getRoutinesCommand(const LoadCommandInfo &L) const { return getStruct(*this, L.Ptr); } MachO::routines_command_64 MachOObjectFile::getRoutinesCommand64(const LoadCommandInfo &L) const { return getStruct(*this, L.Ptr); } MachO::thread_command MachOObjectFile::getThreadCommand(const LoadCommandInfo &L) const { return getStruct(*this, L.Ptr); } MachO::fileset_entry_command MachOObjectFile::getFilesetEntryLoadCommand(const LoadCommandInfo &L) const { return getStruct(*this, L.Ptr); } MachO::any_relocation_info MachOObjectFile::getRelocation(DataRefImpl Rel) const { uint32_t Offset; if (getHeader().filetype == MachO::MH_OBJECT) { DataRefImpl Sec; Sec.d.a = Rel.d.a; if (is64Bit()) { MachO::section_64 Sect = getSection64(Sec); Offset = Sect.reloff; } else { MachO::section Sect = getSection(Sec); Offset = Sect.reloff; } } else { MachO::dysymtab_command DysymtabLoadCmd = getDysymtabLoadCommand(); if (Rel.d.a == 0) Offset = DysymtabLoadCmd.extreloff; // Offset to the external relocations else Offset = DysymtabLoadCmd.locreloff; // Offset to the local relocations } auto P = reinterpret_cast( getPtr(*this, Offset)) + Rel.d.b; return getStruct( *this, reinterpret_cast(P)); } MachO::data_in_code_entry MachOObjectFile::getDice(DataRefImpl Rel) const { const char *P = reinterpret_cast(Rel.p); return getStruct(*this, P); } const MachO::mach_header &MachOObjectFile::getHeader() const { return Header; } const MachO::mach_header_64 &MachOObjectFile::getHeader64() const { assert(is64Bit()); return Header64; } uint32_t MachOObjectFile::getIndirectSymbolTableEntry( const MachO::dysymtab_command &DLC, unsigned Index) const { uint64_t Offset = DLC.indirectsymoff + Index * sizeof(uint32_t); return getStruct(*this, getPtr(*this, Offset)); } MachO::data_in_code_entry MachOObjectFile::getDataInCodeTableEntry(uint32_t DataOffset, unsigned Index) const { uint64_t Offset = DataOffset + Index * sizeof(MachO::data_in_code_entry); return getStruct(*this, getPtr(*this, Offset)); } MachO::symtab_command MachOObjectFile::getSymtabLoadCommand() const { if (SymtabLoadCmd) return getStruct(*this, SymtabLoadCmd); // If there is no SymtabLoadCmd return a load command with zero'ed fields. MachO::symtab_command Cmd; Cmd.cmd = MachO::LC_SYMTAB; Cmd.cmdsize = sizeof(MachO::symtab_command); Cmd.symoff = 0; Cmd.nsyms = 0; Cmd.stroff = 0; Cmd.strsize = 0; return Cmd; } MachO::dysymtab_command MachOObjectFile::getDysymtabLoadCommand() const { if (DysymtabLoadCmd) return getStruct(*this, DysymtabLoadCmd); // If there is no DysymtabLoadCmd return a load command with zero'ed fields. MachO::dysymtab_command Cmd; Cmd.cmd = MachO::LC_DYSYMTAB; Cmd.cmdsize = sizeof(MachO::dysymtab_command); Cmd.ilocalsym = 0; Cmd.nlocalsym = 0; Cmd.iextdefsym = 0; Cmd.nextdefsym = 0; Cmd.iundefsym = 0; Cmd.nundefsym = 0; Cmd.tocoff = 0; Cmd.ntoc = 0; Cmd.modtaboff = 0; Cmd.nmodtab = 0; Cmd.extrefsymoff = 0; Cmd.nextrefsyms = 0; Cmd.indirectsymoff = 0; Cmd.nindirectsyms = 0; Cmd.extreloff = 0; Cmd.nextrel = 0; Cmd.locreloff = 0; Cmd.nlocrel = 0; return Cmd; } MachO::linkedit_data_command MachOObjectFile::getDataInCodeLoadCommand() const { if (DataInCodeLoadCmd) return getStruct(*this, DataInCodeLoadCmd); // If there is no DataInCodeLoadCmd return a load command with zero'ed fields. MachO::linkedit_data_command Cmd; Cmd.cmd = MachO::LC_DATA_IN_CODE; Cmd.cmdsize = sizeof(MachO::linkedit_data_command); Cmd.dataoff = 0; Cmd.datasize = 0; return Cmd; } MachO::linkedit_data_command MachOObjectFile::getLinkOptHintsLoadCommand() const { if (LinkOptHintsLoadCmd) return getStruct(*this, LinkOptHintsLoadCmd); // If there is no LinkOptHintsLoadCmd return a load command with zero'ed // fields. MachO::linkedit_data_command Cmd; Cmd.cmd = MachO::LC_LINKER_OPTIMIZATION_HINT; Cmd.cmdsize = sizeof(MachO::linkedit_data_command); Cmd.dataoff = 0; Cmd.datasize = 0; return Cmd; } ArrayRef MachOObjectFile::getDyldInfoRebaseOpcodes() const { if (!DyldInfoLoadCmd) return std::nullopt; auto DyldInfoOrErr = getStructOrErr(*this, DyldInfoLoadCmd); if (!DyldInfoOrErr) return std::nullopt; MachO::dyld_info_command DyldInfo = DyldInfoOrErr.get(); const uint8_t *Ptr = reinterpret_cast(getPtr(*this, DyldInfo.rebase_off)); return ArrayRef(Ptr, DyldInfo.rebase_size); } ArrayRef MachOObjectFile::getDyldInfoBindOpcodes() const { if (!DyldInfoLoadCmd) return std::nullopt; auto DyldInfoOrErr = getStructOrErr(*this, DyldInfoLoadCmd); if (!DyldInfoOrErr) return std::nullopt; MachO::dyld_info_command DyldInfo = DyldInfoOrErr.get(); const uint8_t *Ptr = reinterpret_cast(getPtr(*this, DyldInfo.bind_off)); return ArrayRef(Ptr, DyldInfo.bind_size); } ArrayRef MachOObjectFile::getDyldInfoWeakBindOpcodes() const { if (!DyldInfoLoadCmd) return std::nullopt; auto DyldInfoOrErr = getStructOrErr(*this, DyldInfoLoadCmd); if (!DyldInfoOrErr) return std::nullopt; MachO::dyld_info_command DyldInfo = DyldInfoOrErr.get(); const uint8_t *Ptr = reinterpret_cast(getPtr(*this, DyldInfo.weak_bind_off)); return ArrayRef(Ptr, DyldInfo.weak_bind_size); } ArrayRef MachOObjectFile::getDyldInfoLazyBindOpcodes() const { if (!DyldInfoLoadCmd) return std::nullopt; auto DyldInfoOrErr = getStructOrErr(*this, DyldInfoLoadCmd); if (!DyldInfoOrErr) return std::nullopt; MachO::dyld_info_command DyldInfo = DyldInfoOrErr.get(); const uint8_t *Ptr = reinterpret_cast(getPtr(*this, DyldInfo.lazy_bind_off)); return ArrayRef(Ptr, DyldInfo.lazy_bind_size); } ArrayRef MachOObjectFile::getDyldInfoExportsTrie() const { if (!DyldInfoLoadCmd) return std::nullopt; auto DyldInfoOrErr = getStructOrErr(*this, DyldInfoLoadCmd); if (!DyldInfoOrErr) return std::nullopt; MachO::dyld_info_command DyldInfo = DyldInfoOrErr.get(); const uint8_t *Ptr = reinterpret_cast(getPtr(*this, DyldInfo.export_off)); return ArrayRef(Ptr, DyldInfo.export_size); } Expected> MachOObjectFile::getChainedFixupsLoadCommand() const { // Load the dyld chained fixups load command. if (!DyldChainedFixupsLoadCmd) return std::nullopt; auto DyldChainedFixupsOrErr = getStructOrErr( *this, DyldChainedFixupsLoadCmd); if (!DyldChainedFixupsOrErr) return DyldChainedFixupsOrErr.takeError(); const MachO::linkedit_data_command &DyldChainedFixups = *DyldChainedFixupsOrErr; // If the load command is present but the data offset has been zeroed out, // as is the case for dylib stubs, return std::nullopt (no error). if (!DyldChainedFixups.dataoff) return std::nullopt; return DyldChainedFixups; } Expected> MachOObjectFile::getChainedFixupsHeader() const { auto CFOrErr = getChainedFixupsLoadCommand(); if (!CFOrErr) return CFOrErr.takeError(); if (!CFOrErr->has_value()) return std::nullopt; const MachO::linkedit_data_command &DyldChainedFixups = **CFOrErr; uint64_t CFHeaderOffset = DyldChainedFixups.dataoff; uint64_t CFSize = DyldChainedFixups.datasize; // Load the dyld chained fixups header. const char *CFHeaderPtr = getPtr(*this, CFHeaderOffset); auto CFHeaderOrErr = getStructOrErr(*this, CFHeaderPtr); if (!CFHeaderOrErr) return CFHeaderOrErr.takeError(); MachO::dyld_chained_fixups_header CFHeader = CFHeaderOrErr.get(); // Reject unknown chained fixup formats. if (CFHeader.fixups_version != 0) return malformedError(Twine("bad chained fixups: unknown version: ") + Twine(CFHeader.fixups_version)); if (CFHeader.imports_format < 1 || CFHeader.imports_format > 3) return malformedError( Twine("bad chained fixups: unknown imports format: ") + Twine(CFHeader.imports_format)); // Validate the image format. // // Load the image starts. uint64_t CFImageStartsOffset = (CFHeaderOffset + CFHeader.starts_offset); if (CFHeader.starts_offset < sizeof(MachO::dyld_chained_fixups_header)) { return malformedError(Twine("bad chained fixups: image starts offset ") + Twine(CFHeader.starts_offset) + " overlaps with chained fixups header"); } uint32_t EndOffset = CFHeaderOffset + CFSize; if (CFImageStartsOffset + sizeof(MachO::dyld_chained_starts_in_image) > EndOffset) { return malformedError(Twine("bad chained fixups: image starts end ") + Twine(CFImageStartsOffset + sizeof(MachO::dyld_chained_starts_in_image)) + " extends past end " + Twine(EndOffset)); } return CFHeader; } Expected>> MachOObjectFile::getChainedFixupsSegments() const { auto CFOrErr = getChainedFixupsLoadCommand(); if (!CFOrErr) return CFOrErr.takeError(); std::vector Segments; if (!CFOrErr->has_value()) return std::make_pair(0, Segments); const MachO::linkedit_data_command &DyldChainedFixups = **CFOrErr; auto HeaderOrErr = getChainedFixupsHeader(); if (!HeaderOrErr) return HeaderOrErr.takeError(); if (!HeaderOrErr->has_value()) return std::make_pair(0, Segments); const MachO::dyld_chained_fixups_header &Header = **HeaderOrErr; const char *Contents = getPtr(*this, DyldChainedFixups.dataoff); auto ImageStartsOrErr = getStructOrErr( *this, Contents + Header.starts_offset); if (!ImageStartsOrErr) return ImageStartsOrErr.takeError(); const MachO::dyld_chained_starts_in_image &ImageStarts = *ImageStartsOrErr; const char *SegOffsPtr = Contents + Header.starts_offset + offsetof(MachO::dyld_chained_starts_in_image, seg_info_offset); const char *SegOffsEnd = SegOffsPtr + ImageStarts.seg_count * sizeof(uint32_t); if (SegOffsEnd > Contents + DyldChainedFixups.datasize) return malformedError( "bad chained fixups: seg_info_offset extends past end"); const char *LastSegEnd = nullptr; for (size_t I = 0, N = ImageStarts.seg_count; I < N; ++I) { auto OffOrErr = getStructOrErr(*this, SegOffsPtr + I * sizeof(uint32_t)); if (!OffOrErr) return OffOrErr.takeError(); // seg_info_offset == 0 means there is no associated starts_in_segment // entry. if (!*OffOrErr) continue; auto Fail = [&](Twine Message) { return malformedError("bad chained fixups: segment info" + Twine(I) + " at offset " + Twine(*OffOrErr) + Message); }; const char *SegPtr = Contents + Header.starts_offset + *OffOrErr; if (LastSegEnd && SegPtr < LastSegEnd) return Fail(" overlaps with previous segment info"); auto SegOrErr = getStructOrErr(*this, SegPtr); if (!SegOrErr) return SegOrErr.takeError(); const MachO::dyld_chained_starts_in_segment &Seg = *SegOrErr; LastSegEnd = SegPtr + Seg.size; if (Seg.pointer_format < 1 || Seg.pointer_format > 12) return Fail(" has unknown pointer format: " + Twine(Seg.pointer_format)); const char *PageStart = SegPtr + offsetof(MachO::dyld_chained_starts_in_segment, page_start); const char *PageEnd = PageStart + Seg.page_count * sizeof(uint16_t); if (PageEnd > SegPtr + Seg.size) return Fail(" : page_starts extend past seg_info size"); // FIXME: This does not account for multiple offsets on a single page // (DYLD_CHAINED_PTR_START_MULTI; 32-bit only). std::vector PageStarts; for (size_t PageIdx = 0; PageIdx < Seg.page_count; ++PageIdx) { uint16_t Start; memcpy(&Start, PageStart + PageIdx * sizeof(uint16_t), sizeof(uint16_t)); if (isLittleEndian() != sys::IsLittleEndianHost) sys::swapByteOrder(Start); PageStarts.push_back(Start); } Segments.emplace_back(I, *OffOrErr, Seg, std::move(PageStarts)); } return std::make_pair(ImageStarts.seg_count, Segments); } // The special library ordinals have a negative value, but they are encoded in // an unsigned bitfield, so we need to sign extend the value. template static int getEncodedOrdinal(T Value) { if (Value == static_cast(MachO::BIND_SPECIAL_DYLIB_MAIN_EXECUTABLE) || Value == static_cast(MachO::BIND_SPECIAL_DYLIB_FLAT_LOOKUP) || Value == static_cast(MachO::BIND_SPECIAL_DYLIB_WEAK_LOOKUP)) return SignExtend32(Value); return Value; } template static std::array getArray(const MachOObjectFile &O, const void *Ptr) { std::array RawValue; memcpy(RawValue.data(), Ptr, N * sizeof(T)); if (O.isLittleEndian() != sys::IsLittleEndianHost) for (auto &Element : RawValue) sys::swapByteOrder(Element); return RawValue; } Expected> MachOObjectFile::getDyldChainedFixupTargets() const { auto CFOrErr = getChainedFixupsLoadCommand(); if (!CFOrErr) return CFOrErr.takeError(); std::vector Targets; if (!CFOrErr->has_value()) return Targets; const MachO::linkedit_data_command &DyldChainedFixups = **CFOrErr; auto CFHeaderOrErr = getChainedFixupsHeader(); if (!CFHeaderOrErr) return CFHeaderOrErr.takeError(); if (!(*CFHeaderOrErr)) return Targets; const MachO::dyld_chained_fixups_header &Header = **CFHeaderOrErr; size_t ImportSize = 0; if (Header.imports_format == MachO::DYLD_CHAINED_IMPORT) ImportSize = sizeof(MachO::dyld_chained_import); else if (Header.imports_format == MachO::DYLD_CHAINED_IMPORT_ADDEND) ImportSize = sizeof(MachO::dyld_chained_import_addend); else if (Header.imports_format == MachO::DYLD_CHAINED_IMPORT_ADDEND64) ImportSize = sizeof(MachO::dyld_chained_import_addend64); else return malformedError("bad chained fixups: unknown imports format: " + Twine(Header.imports_format)); const char *Contents = getPtr(*this, DyldChainedFixups.dataoff); const char *Imports = Contents + Header.imports_offset; size_t ImportsEndOffset = Header.imports_offset + ImportSize * Header.imports_count; const char *ImportsEnd = Contents + ImportsEndOffset; const char *Symbols = Contents + Header.symbols_offset; const char *SymbolsEnd = Contents + DyldChainedFixups.datasize; if (ImportsEnd > Symbols) return malformedError("bad chained fixups: imports end " + Twine(ImportsEndOffset) + " extends past end " + Twine(DyldChainedFixups.datasize)); if (ImportsEnd > Symbols) return malformedError("bad chained fixups: imports end " + Twine(ImportsEndOffset) + " overlaps with symbols"); // We use bit manipulation to extract data from the bitfields. This is correct // for both LE and BE hosts, but we assume that the object is little-endian. if (!isLittleEndian()) return createError("parsing big-endian chained fixups is not implemented"); for (const char *ImportPtr = Imports; ImportPtr < ImportsEnd; ImportPtr += ImportSize) { int LibOrdinal; bool WeakImport; uint32_t NameOffset; uint64_t Addend; if (Header.imports_format == MachO::DYLD_CHAINED_IMPORT) { static_assert(sizeof(uint32_t) == sizeof(MachO::dyld_chained_import)); auto RawValue = getArray(*this, ImportPtr); LibOrdinal = getEncodedOrdinal(RawValue[0] & 0xFF); WeakImport = (RawValue[0] >> 8) & 1; NameOffset = RawValue[0] >> 9; Addend = 0; } else if (Header.imports_format == MachO::DYLD_CHAINED_IMPORT_ADDEND) { static_assert(sizeof(uint64_t) == sizeof(MachO::dyld_chained_import_addend)); auto RawValue = getArray(*this, ImportPtr); LibOrdinal = getEncodedOrdinal(RawValue[0] & 0xFF); WeakImport = (RawValue[0] >> 8) & 1; NameOffset = RawValue[0] >> 9; Addend = bit_cast(RawValue[1]); } else if (Header.imports_format == MachO::DYLD_CHAINED_IMPORT_ADDEND64) { static_assert(2 * sizeof(uint64_t) == sizeof(MachO::dyld_chained_import_addend64)); auto RawValue = getArray(*this, ImportPtr); LibOrdinal = getEncodedOrdinal(RawValue[0] & 0xFFFF); NameOffset = (RawValue[0] >> 16) & 1; WeakImport = RawValue[0] >> 17; Addend = RawValue[1]; } else { llvm_unreachable("Import format should have been checked"); } const char *Str = Symbols + NameOffset; if (Str >= SymbolsEnd) return malformedError("bad chained fixups: symbol offset " + Twine(NameOffset) + " extends past end " + Twine(DyldChainedFixups.datasize)); Targets.emplace_back(LibOrdinal, NameOffset, Str, Addend, WeakImport); } return std::move(Targets); } ArrayRef MachOObjectFile::getDyldExportsTrie() const { if (!DyldExportsTrieLoadCmd) return std::nullopt; auto DyldExportsTrieOrError = getStructOrErr( *this, DyldExportsTrieLoadCmd); if (!DyldExportsTrieOrError) return std::nullopt; MachO::linkedit_data_command DyldExportsTrie = DyldExportsTrieOrError.get(); const uint8_t *Ptr = reinterpret_cast(getPtr(*this, DyldExportsTrie.dataoff)); return ArrayRef(Ptr, DyldExportsTrie.datasize); } SmallVector MachOObjectFile::getFunctionStarts() const { if (!FuncStartsLoadCmd) return {}; auto InfoOrErr = getStructOrErr(*this, FuncStartsLoadCmd); if (!InfoOrErr) return {}; MachO::linkedit_data_command Info = InfoOrErr.get(); SmallVector FunctionStarts; this->ReadULEB128s(Info.dataoff, FunctionStarts); return std::move(FunctionStarts); } ArrayRef MachOObjectFile::getUuid() const { if (!UuidLoadCmd) return std::nullopt; // Returning a pointer is fine as uuid doesn't need endian swapping. const char *Ptr = UuidLoadCmd + offsetof(MachO::uuid_command, uuid); return ArrayRef(reinterpret_cast(Ptr), 16); } StringRef MachOObjectFile::getStringTableData() const { MachO::symtab_command S = getSymtabLoadCommand(); return getData().substr(S.stroff, S.strsize); } bool MachOObjectFile::is64Bit() const { return getType() == getMachOType(false, true) || getType() == getMachOType(true, true); } void MachOObjectFile::ReadULEB128s(uint64_t Index, SmallVectorImpl &Out) const { DataExtractor extractor(ObjectFile::getData(), true, 0); uint64_t offset = Index; uint64_t data = 0; while (uint64_t delta = extractor.getULEB128(&offset)) { data += delta; Out.push_back(data); } } bool MachOObjectFile::isRelocatableObject() const { return getHeader().filetype == MachO::MH_OBJECT; } /// Create a MachOObjectFile instance from a given buffer. /// /// \param Buffer Memory buffer containing the MachO binary data. /// \param UniversalCputype CPU type when the MachO part of a universal binary. /// \param UniversalIndex Index of the MachO within a universal binary. /// \param MachOFilesetEntryOffset Offset of the MachO entry in a fileset MachO. /// \returns A std::unique_ptr to a MachOObjectFile instance on success. Expected> ObjectFile::createMachOObjectFile( MemoryBufferRef Buffer, uint32_t UniversalCputype, uint32_t UniversalIndex, size_t MachOFilesetEntryOffset) { StringRef Magic = Buffer.getBuffer().slice(0, 4); if (Magic == "\xFE\xED\xFA\xCE") return MachOObjectFile::create(Buffer, false, false, UniversalCputype, UniversalIndex, MachOFilesetEntryOffset); if (Magic == "\xCE\xFA\xED\xFE") return MachOObjectFile::create(Buffer, true, false, UniversalCputype, UniversalIndex, MachOFilesetEntryOffset); if (Magic == "\xFE\xED\xFA\xCF") return MachOObjectFile::create(Buffer, false, true, UniversalCputype, UniversalIndex, MachOFilesetEntryOffset); if (Magic == "\xCF\xFA\xED\xFE") return MachOObjectFile::create(Buffer, true, true, UniversalCputype, UniversalIndex, MachOFilesetEntryOffset); return make_error("Unrecognized MachO magic number", object_error::invalid_file_type); } StringRef MachOObjectFile::mapDebugSectionName(StringRef Name) const { return StringSwitch(Name) .Case("debug_str_offs", "debug_str_offsets") .Default(Name); } Expected> MachOObjectFile::findDsymObjectMembers(StringRef Path) { SmallString<256> BundlePath(Path); // Normalize input path. This is necessary to accept `bundle.dSYM/`. sys::path::remove_dots(BundlePath); if (!sys::fs::is_directory(BundlePath) || sys::path::extension(BundlePath) != ".dSYM") return std::vector(); sys::path::append(BundlePath, "Contents", "Resources", "DWARF"); bool IsDir; auto EC = sys::fs::is_directory(BundlePath, IsDir); if (EC == errc::no_such_file_or_directory || (!EC && !IsDir)) return createStringError( EC, "%s: expected directory 'Contents/Resources/DWARF' in dSYM bundle", Path.str().c_str()); if (EC) return createFileError(BundlePath, errorCodeToError(EC)); std::vector ObjectPaths; for (sys::fs::directory_iterator Dir(BundlePath, EC), DirEnd; Dir != DirEnd && !EC; Dir.increment(EC)) { StringRef ObjectPath = Dir->path(); sys::fs::file_status Status; if (auto EC = sys::fs::status(ObjectPath, Status)) return createFileError(ObjectPath, errorCodeToError(EC)); switch (Status.type()) { case sys::fs::file_type::regular_file: case sys::fs::file_type::symlink_file: case sys::fs::file_type::type_unknown: ObjectPaths.push_back(ObjectPath.str()); break; default: /*ignore*/; } } if (EC) return createFileError(BundlePath, errorCodeToError(EC)); if (ObjectPaths.empty()) return createStringError(std::error_code(), "%s: no objects found in dSYM bundle", Path.str().c_str()); return ObjectPaths; } llvm::binaryformat::Swift5ReflectionSectionKind MachOObjectFile::mapReflectionSectionNameToEnumValue( StringRef SectionName) const { #define HANDLE_SWIFT_SECTION(KIND, MACHO, ELF, COFF) \ .Case(MACHO, llvm::binaryformat::Swift5ReflectionSectionKind::KIND) return StringSwitch( SectionName) #include "llvm/BinaryFormat/Swift.def" .Default(llvm::binaryformat::Swift5ReflectionSectionKind::unknown); #undef HANDLE_SWIFT_SECTION } bool MachOObjectFile::isMachOPairedReloc(uint64_t RelocType, uint64_t Arch) { switch (Arch) { case Triple::x86: return RelocType == MachO::GENERIC_RELOC_SECTDIFF || RelocType == MachO::GENERIC_RELOC_LOCAL_SECTDIFF; case Triple::x86_64: return RelocType == MachO::X86_64_RELOC_SUBTRACTOR; case Triple::arm: case Triple::thumb: return RelocType == MachO::ARM_RELOC_SECTDIFF || RelocType == MachO::ARM_RELOC_LOCAL_SECTDIFF || RelocType == MachO::ARM_RELOC_HALF || RelocType == MachO::ARM_RELOC_HALF_SECTDIFF; case Triple::aarch64: return RelocType == MachO::ARM64_RELOC_SUBTRACTOR; default: return false; } }