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8a80641a85
This function can really fail since the string table offset can be out of bounds. Using ErrorOr makes sure the error is checked. Hopefully a lot of the boilerplate code in tools/* can go away once we have a diagnostic manager in Object. git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@241297 91177308-0d34-0410-b5e6-96231b3b80d8
606 lines
20 KiB
C++
606 lines
20 KiB
C++
//===-- MachODump.cpp - Object file dumping utility for llvm --------------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file implements the MachO-specific dumper for llvm-readobj.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm-readobj.h"
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#include "Error.h"
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#include "ObjDumper.h"
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#include "StackMapPrinter.h"
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#include "StreamWriter.h"
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#include "llvm/ADT/SmallString.h"
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#include "llvm/ADT/StringExtras.h"
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#include "llvm/Object/MachO.h"
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#include "llvm/Support/Casting.h"
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using namespace llvm;
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using namespace object;
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namespace {
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class MachODumper : public ObjDumper {
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public:
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MachODumper(const MachOObjectFile *Obj, StreamWriter& Writer)
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: ObjDumper(Writer)
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, Obj(Obj) { }
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void printFileHeaders() override;
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void printSections() override;
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void printRelocations() override;
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void printSymbols() override;
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void printDynamicSymbols() override;
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void printUnwindInfo() override;
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void printStackMap() const override;
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private:
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template<class MachHeader>
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void printFileHeaders(const MachHeader &Header);
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void printSymbol(const SymbolRef &Symbol);
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void printRelocation(const RelocationRef &Reloc);
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void printRelocation(const MachOObjectFile *Obj, const RelocationRef &Reloc);
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void printSections(const MachOObjectFile *Obj);
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const MachOObjectFile *Obj;
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};
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} // namespace
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namespace llvm {
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std::error_code createMachODumper(const object::ObjectFile *Obj,
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StreamWriter &Writer,
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std::unique_ptr<ObjDumper> &Result) {
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const MachOObjectFile *MachOObj = dyn_cast<MachOObjectFile>(Obj);
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if (!MachOObj)
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return readobj_error::unsupported_obj_file_format;
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Result.reset(new MachODumper(MachOObj, Writer));
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return readobj_error::success;
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}
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} // namespace llvm
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static const EnumEntry<uint32_t> MachOMagics[] = {
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{ "Magic", MachO::MH_MAGIC },
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{ "Cigam", MachO::MH_CIGAM },
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{ "Magic64", MachO::MH_MAGIC_64 },
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{ "Cigam64", MachO::MH_CIGAM_64 },
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{ "FatMagic", MachO::FAT_MAGIC },
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{ "FatCigam", MachO::FAT_CIGAM },
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};
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static const EnumEntry<uint32_t> MachOHeaderFileTypes[] = {
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{ "Relocatable", MachO::MH_OBJECT },
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{ "Executable", MachO::MH_EXECUTE },
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{ "FixedVMLibrary", MachO::MH_FVMLIB },
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{ "Core", MachO::MH_CORE },
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{ "PreloadedExecutable", MachO::MH_PRELOAD },
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{ "DynamicLibrary", MachO::MH_DYLIB },
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{ "DynamicLinker", MachO::MH_DYLINKER },
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{ "Bundle", MachO::MH_BUNDLE },
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{ "DynamicLibraryStub", MachO::MH_DYLIB_STUB },
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{ "DWARFSymbol", MachO::MH_DSYM },
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{ "KextBundle", MachO::MH_KEXT_BUNDLE },
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};
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static const EnumEntry<uint32_t> MachOHeaderCpuTypes[] = {
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{ "Any" , static_cast<uint32_t>(MachO::CPU_TYPE_ANY) },
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{ "X86" , MachO::CPU_TYPE_X86 },
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{ "X86-64" , MachO::CPU_TYPE_X86_64 },
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{ "Mc98000" , MachO::CPU_TYPE_MC98000 },
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{ "Arm" , MachO::CPU_TYPE_ARM },
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{ "Arm64" , MachO::CPU_TYPE_ARM64 },
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{ "Sparc" , MachO::CPU_TYPE_SPARC },
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{ "PowerPC" , MachO::CPU_TYPE_POWERPC },
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{ "PowerPC64" , MachO::CPU_TYPE_POWERPC64 },
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};
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static const EnumEntry<uint32_t> MachOHeaderCpuSubtypesX86[] = {
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_I386_ALL),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_386),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_486),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_486SX),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_586),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_PENTPRO),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_PENTII_M3),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_PENTII_M5),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_CELERON),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_CELERON_MOBILE),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_PENTIUM_3),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_PENTIUM_3_M),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_PENTIUM_3_XEON),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_PENTIUM_M),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_PENTIUM_4),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_PENTIUM_4_M),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_ITANIUM),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_ITANIUM_2),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_XEON),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_XEON_MP),
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};
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static const EnumEntry<uint32_t> MachOHeaderCpuSubtypesX64[] = {
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_X86_64_ALL),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_X86_ARCH1),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_X86_64_H),
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};
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static const EnumEntry<uint32_t> MachOHeaderCpuSubtypesARM[] = {
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_ARM_ALL),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_ARM_V4T),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_ARM_V6),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_ARM_V5),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_ARM_V5TEJ),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_ARM_XSCALE),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_ARM_V7),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_ARM_V7S),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_ARM_V7K),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_ARM_V6M),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_ARM_V7M),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_ARM_V7EM),
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};
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static const EnumEntry<uint32_t> MachOHeaderCpuSubtypesARM64[] = {
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_ARM64_ALL),
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};
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static const EnumEntry<uint32_t> MachOHeaderCpuSubtypesSPARC[] = {
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_SPARC_ALL),
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};
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static const EnumEntry<uint32_t> MachOHeaderCpuSubtypesPPC[] = {
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_POWERPC_ALL),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_POWERPC_601),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_POWERPC_602),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_POWERPC_603),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_POWERPC_603e),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_POWERPC_603ev),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_POWERPC_604),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_POWERPC_604e),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_POWERPC_620),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_POWERPC_750),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_POWERPC_7400),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_POWERPC_7450),
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LLVM_READOBJ_ENUM_ENT(MachO, CPU_SUBTYPE_POWERPC_970),
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};
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static const EnumEntry<uint32_t> MachOHeaderFlags[] = {
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LLVM_READOBJ_ENUM_ENT(MachO, MH_NOUNDEFS),
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LLVM_READOBJ_ENUM_ENT(MachO, MH_INCRLINK),
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LLVM_READOBJ_ENUM_ENT(MachO, MH_DYLDLINK),
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LLVM_READOBJ_ENUM_ENT(MachO, MH_BINDATLOAD),
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LLVM_READOBJ_ENUM_ENT(MachO, MH_PREBOUND),
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LLVM_READOBJ_ENUM_ENT(MachO, MH_SPLIT_SEGS),
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LLVM_READOBJ_ENUM_ENT(MachO, MH_LAZY_INIT),
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LLVM_READOBJ_ENUM_ENT(MachO, MH_TWOLEVEL),
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LLVM_READOBJ_ENUM_ENT(MachO, MH_FORCE_FLAT),
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LLVM_READOBJ_ENUM_ENT(MachO, MH_NOMULTIDEFS),
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LLVM_READOBJ_ENUM_ENT(MachO, MH_NOFIXPREBINDING),
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LLVM_READOBJ_ENUM_ENT(MachO, MH_PREBINDABLE),
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LLVM_READOBJ_ENUM_ENT(MachO, MH_ALLMODSBOUND),
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LLVM_READOBJ_ENUM_ENT(MachO, MH_SUBSECTIONS_VIA_SYMBOLS),
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LLVM_READOBJ_ENUM_ENT(MachO, MH_CANONICAL),
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LLVM_READOBJ_ENUM_ENT(MachO, MH_WEAK_DEFINES),
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LLVM_READOBJ_ENUM_ENT(MachO, MH_BINDS_TO_WEAK),
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LLVM_READOBJ_ENUM_ENT(MachO, MH_ALLOW_STACK_EXECUTION),
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LLVM_READOBJ_ENUM_ENT(MachO, MH_ROOT_SAFE),
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LLVM_READOBJ_ENUM_ENT(MachO, MH_SETUID_SAFE),
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LLVM_READOBJ_ENUM_ENT(MachO, MH_NO_REEXPORTED_DYLIBS),
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LLVM_READOBJ_ENUM_ENT(MachO, MH_PIE),
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LLVM_READOBJ_ENUM_ENT(MachO, MH_DEAD_STRIPPABLE_DYLIB),
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LLVM_READOBJ_ENUM_ENT(MachO, MH_HAS_TLV_DESCRIPTORS),
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LLVM_READOBJ_ENUM_ENT(MachO, MH_NO_HEAP_EXECUTION),
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LLVM_READOBJ_ENUM_ENT(MachO, MH_APP_EXTENSION_SAFE),
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};
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static const EnumEntry<unsigned> MachOSectionAttributes[] = {
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{ "LocReloc" , 1 << 0 /*S_ATTR_LOC_RELOC */ },
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{ "ExtReloc" , 1 << 1 /*S_ATTR_EXT_RELOC */ },
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{ "SomeInstructions" , 1 << 2 /*S_ATTR_SOME_INSTRUCTIONS */ },
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{ "Debug" , 1 << 17 /*S_ATTR_DEBUG */ },
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{ "SelfModifyingCode", 1 << 18 /*S_ATTR_SELF_MODIFYING_CODE*/ },
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{ "LiveSupport" , 1 << 19 /*S_ATTR_LIVE_SUPPORT */ },
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{ "NoDeadStrip" , 1 << 20 /*S_ATTR_NO_DEAD_STRIP */ },
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{ "StripStaticSyms" , 1 << 21 /*S_ATTR_STRIP_STATIC_SYMS */ },
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{ "NoTOC" , 1 << 22 /*S_ATTR_NO_TOC */ },
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{ "PureInstructions" , 1 << 23 /*S_ATTR_PURE_INSTRUCTIONS */ },
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};
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static const EnumEntry<unsigned> MachOSymbolRefTypes[] = {
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{ "UndefinedNonLazy", 0 },
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{ "ReferenceFlagUndefinedLazy", 1 },
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{ "ReferenceFlagDefined", 2 },
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{ "ReferenceFlagPrivateDefined", 3 },
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{ "ReferenceFlagPrivateUndefinedNonLazy", 4 },
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{ "ReferenceFlagPrivateUndefinedLazy", 5 }
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};
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static const EnumEntry<unsigned> MachOSymbolFlags[] = {
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{ "ReferencedDynamically", 0x10 },
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{ "NoDeadStrip", 0x20 },
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{ "WeakRef", 0x40 },
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{ "WeakDef", 0x80 }
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};
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static const EnumEntry<unsigned> MachOSymbolTypes[] = {
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{ "Undef", 0x0 },
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{ "Abs", 0x2 },
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{ "Indirect", 0xA },
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{ "PreboundUndef", 0xC },
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{ "Section", 0xE }
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};
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namespace {
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struct MachOSection {
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ArrayRef<char> Name;
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ArrayRef<char> SegmentName;
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uint64_t Address;
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uint64_t Size;
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uint32_t Offset;
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uint32_t Alignment;
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uint32_t RelocationTableOffset;
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uint32_t NumRelocationTableEntries;
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uint32_t Flags;
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uint32_t Reserved1;
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uint32_t Reserved2;
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};
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struct MachOSymbol {
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uint32_t StringIndex;
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uint8_t Type;
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uint8_t SectionIndex;
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uint16_t Flags;
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uint64_t Value;
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};
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}
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static void getSection(const MachOObjectFile *Obj,
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DataRefImpl Sec,
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MachOSection &Section) {
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if (!Obj->is64Bit()) {
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MachO::section Sect = Obj->getSection(Sec);
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Section.Address = Sect.addr;
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Section.Size = Sect.size;
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Section.Offset = Sect.offset;
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Section.Alignment = Sect.align;
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Section.RelocationTableOffset = Sect.reloff;
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Section.NumRelocationTableEntries = Sect.nreloc;
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Section.Flags = Sect.flags;
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Section.Reserved1 = Sect.reserved1;
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Section.Reserved2 = Sect.reserved2;
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return;
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}
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MachO::section_64 Sect = Obj->getSection64(Sec);
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Section.Address = Sect.addr;
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Section.Size = Sect.size;
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Section.Offset = Sect.offset;
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Section.Alignment = Sect.align;
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Section.RelocationTableOffset = Sect.reloff;
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Section.NumRelocationTableEntries = Sect.nreloc;
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Section.Flags = Sect.flags;
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Section.Reserved1 = Sect.reserved1;
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Section.Reserved2 = Sect.reserved2;
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}
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static void getSymbol(const MachOObjectFile *Obj,
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DataRefImpl DRI,
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MachOSymbol &Symbol) {
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if (!Obj->is64Bit()) {
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MachO::nlist Entry = Obj->getSymbolTableEntry(DRI);
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Symbol.StringIndex = Entry.n_strx;
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Symbol.Type = Entry.n_type;
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Symbol.SectionIndex = Entry.n_sect;
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Symbol.Flags = Entry.n_desc;
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Symbol.Value = Entry.n_value;
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return;
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}
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MachO::nlist_64 Entry = Obj->getSymbol64TableEntry(DRI);
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Symbol.StringIndex = Entry.n_strx;
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Symbol.Type = Entry.n_type;
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Symbol.SectionIndex = Entry.n_sect;
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Symbol.Flags = Entry.n_desc;
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Symbol.Value = Entry.n_value;
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}
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void MachODumper::printFileHeaders() {
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DictScope H(W, "MachHeader");
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if (!Obj->is64Bit()) {
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printFileHeaders(Obj->getHeader());
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} else {
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printFileHeaders(Obj->getHeader64());
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W.printHex("Reserved", Obj->getHeader64().reserved);
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}
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}
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template<class MachHeader>
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void MachODumper::printFileHeaders(const MachHeader &Header) {
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W.printEnum("Magic", Header.magic, makeArrayRef(MachOMagics));
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W.printEnum("CpuType", Header.cputype, makeArrayRef(MachOHeaderCpuTypes));
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uint32_t subtype = Header.cpusubtype & ~MachO::CPU_SUBTYPE_MASK;
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switch (Header.cputype) {
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case MachO::CPU_TYPE_X86:
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W.printEnum("CpuSubType", subtype, makeArrayRef(MachOHeaderCpuSubtypesX86));
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break;
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case MachO::CPU_TYPE_X86_64:
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W.printEnum("CpuSubType", subtype, makeArrayRef(MachOHeaderCpuSubtypesX64));
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break;
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case MachO::CPU_TYPE_ARM:
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W.printEnum("CpuSubType", subtype, makeArrayRef(MachOHeaderCpuSubtypesARM));
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break;
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case MachO::CPU_TYPE_POWERPC:
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W.printEnum("CpuSubType", subtype, makeArrayRef(MachOHeaderCpuSubtypesPPC));
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break;
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case MachO::CPU_TYPE_SPARC:
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W.printEnum("CpuSubType", subtype, makeArrayRef(MachOHeaderCpuSubtypesSPARC));
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break;
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case MachO::CPU_TYPE_ARM64:
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W.printEnum("CpuSubType", subtype, makeArrayRef(MachOHeaderCpuSubtypesARM64));
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break;
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case MachO::CPU_TYPE_POWERPC64:
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default:
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W.printHex("CpuSubtype", subtype);
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}
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W.printEnum("FileType", Header.filetype, makeArrayRef(MachOHeaderFileTypes));
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W.printNumber("NumOfLoadCommands", Header.ncmds);
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W.printNumber("SizeOfLoadCommands", Header.sizeofcmds);
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W.printFlags("Flags", Header.flags, makeArrayRef(MachOHeaderFlags));
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}
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void MachODumper::printSections() {
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return printSections(Obj);
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}
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void MachODumper::printSections(const MachOObjectFile *Obj) {
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ListScope Group(W, "Sections");
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int SectionIndex = -1;
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for (const SectionRef &Section : Obj->sections()) {
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++SectionIndex;
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MachOSection MOSection;
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getSection(Obj, Section.getRawDataRefImpl(), MOSection);
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DataRefImpl DR = Section.getRawDataRefImpl();
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StringRef Name;
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if (error(Section.getName(Name)))
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Name = "";
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ArrayRef<char> RawName = Obj->getSectionRawName(DR);
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StringRef SegmentName = Obj->getSectionFinalSegmentName(DR);
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ArrayRef<char> RawSegmentName = Obj->getSectionRawFinalSegmentName(DR);
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DictScope SectionD(W, "Section");
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W.printNumber("Index", SectionIndex);
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W.printBinary("Name", Name, RawName);
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W.printBinary("Segment", SegmentName, RawSegmentName);
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W.printHex("Address", MOSection.Address);
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W.printHex("Size", MOSection.Size);
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W.printNumber("Offset", MOSection.Offset);
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W.printNumber("Alignment", MOSection.Alignment);
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W.printHex("RelocationOffset", MOSection.RelocationTableOffset);
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W.printNumber("RelocationCount", MOSection.NumRelocationTableEntries);
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W.printEnum("Type", MOSection.Flags & 0xFF,
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makeArrayRef(MachOSectionAttributes));
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W.printFlags("Attributes", MOSection.Flags >> 8,
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makeArrayRef(MachOSectionAttributes));
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W.printHex("Reserved1", MOSection.Reserved1);
|
|
W.printHex("Reserved2", MOSection.Reserved2);
|
|
|
|
if (opts::SectionRelocations) {
|
|
ListScope D(W, "Relocations");
|
|
for (const RelocationRef &Reloc : Section.relocations())
|
|
printRelocation(Reloc);
|
|
}
|
|
|
|
if (opts::SectionSymbols) {
|
|
ListScope D(W, "Symbols");
|
|
for (const SymbolRef &Symbol : Obj->symbols()) {
|
|
if (!Section.containsSymbol(Symbol))
|
|
continue;
|
|
|
|
printSymbol(Symbol);
|
|
}
|
|
}
|
|
|
|
if (opts::SectionData) {
|
|
bool IsBSS = Section.isBSS();
|
|
if (!IsBSS) {
|
|
StringRef Data;
|
|
if (error(Section.getContents(Data)))
|
|
break;
|
|
|
|
W.printBinaryBlock("SectionData", Data);
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
void MachODumper::printRelocations() {
|
|
ListScope D(W, "Relocations");
|
|
|
|
std::error_code EC;
|
|
for (const SectionRef &Section : Obj->sections()) {
|
|
StringRef Name;
|
|
if (error(Section.getName(Name)))
|
|
continue;
|
|
|
|
bool PrintedGroup = false;
|
|
for (const RelocationRef &Reloc : Section.relocations()) {
|
|
if (!PrintedGroup) {
|
|
W.startLine() << "Section " << Name << " {\n";
|
|
W.indent();
|
|
PrintedGroup = true;
|
|
}
|
|
|
|
printRelocation(Reloc);
|
|
}
|
|
|
|
if (PrintedGroup) {
|
|
W.unindent();
|
|
W.startLine() << "}\n";
|
|
}
|
|
}
|
|
}
|
|
|
|
void MachODumper::printRelocation(const RelocationRef &Reloc) {
|
|
return printRelocation(Obj, Reloc);
|
|
}
|
|
|
|
void MachODumper::printRelocation(const MachOObjectFile *Obj,
|
|
const RelocationRef &Reloc) {
|
|
uint64_t Offset = Reloc.getOffset();
|
|
SmallString<32> RelocName;
|
|
Reloc.getTypeName(RelocName);
|
|
|
|
DataRefImpl DR = Reloc.getRawDataRefImpl();
|
|
MachO::any_relocation_info RE = Obj->getRelocation(DR);
|
|
bool IsScattered = Obj->isRelocationScattered(RE);
|
|
bool IsExtern = !IsScattered && Obj->getPlainRelocationExternal(RE);
|
|
|
|
StringRef TargetName;
|
|
if (IsExtern) {
|
|
symbol_iterator Symbol = Reloc.getSymbol();
|
|
if (Symbol != Obj->symbol_end()) {
|
|
ErrorOr<StringRef> TargetNameOrErr = Symbol->getName();
|
|
if (error(TargetNameOrErr.getError()))
|
|
return;
|
|
TargetName = *TargetNameOrErr;
|
|
}
|
|
} else if (!IsScattered) {
|
|
section_iterator SecI = Obj->getRelocationSection(DR);
|
|
if (SecI != Obj->section_end()) {
|
|
if (error(SecI->getName(TargetName)))
|
|
return;
|
|
}
|
|
}
|
|
if (TargetName.empty())
|
|
TargetName = "-";
|
|
|
|
if (opts::ExpandRelocs) {
|
|
DictScope Group(W, "Relocation");
|
|
W.printHex("Offset", Offset);
|
|
W.printNumber("PCRel", Obj->getAnyRelocationPCRel(RE));
|
|
W.printNumber("Length", Obj->getAnyRelocationLength(RE));
|
|
W.printNumber("Type", RelocName, Obj->getAnyRelocationType(RE));
|
|
if (IsScattered) {
|
|
W.printHex("Value", Obj->getScatteredRelocationValue(RE));
|
|
} else {
|
|
const char *Kind = IsExtern ? "Symbol" : "Section";
|
|
W.printNumber(Kind, TargetName, Obj->getPlainRelocationSymbolNum(RE));
|
|
}
|
|
} else {
|
|
SmallString<32> SymbolNameOrOffset("0x");
|
|
if (IsScattered) {
|
|
// Scattered relocations don't really have an associated symbol for some
|
|
// reason, even if one exists in the symtab at the correct address.
|
|
SymbolNameOrOffset += utohexstr(Obj->getScatteredRelocationValue(RE));
|
|
} else {
|
|
SymbolNameOrOffset = TargetName;
|
|
}
|
|
|
|
raw_ostream& OS = W.startLine();
|
|
OS << W.hex(Offset)
|
|
<< " " << Obj->getAnyRelocationPCRel(RE)
|
|
<< " " << Obj->getAnyRelocationLength(RE);
|
|
if (IsScattered)
|
|
OS << " n/a";
|
|
else
|
|
OS << " " << Obj->getPlainRelocationExternal(RE);
|
|
OS << " " << RelocName
|
|
<< " " << IsScattered
|
|
<< " " << SymbolNameOrOffset
|
|
<< "\n";
|
|
}
|
|
}
|
|
|
|
void MachODumper::printSymbols() {
|
|
ListScope Group(W, "Symbols");
|
|
|
|
for (const SymbolRef &Symbol : Obj->symbols()) {
|
|
printSymbol(Symbol);
|
|
}
|
|
}
|
|
|
|
void MachODumper::printDynamicSymbols() {
|
|
ListScope Group(W, "DynamicSymbols");
|
|
}
|
|
|
|
void MachODumper::printSymbol(const SymbolRef &Symbol) {
|
|
StringRef SymbolName;
|
|
if (ErrorOr<StringRef> SymbolNameOrErr = Symbol.getName())
|
|
SymbolName = *SymbolNameOrErr;
|
|
|
|
MachOSymbol MOSymbol;
|
|
getSymbol(Obj, Symbol.getRawDataRefImpl(), MOSymbol);
|
|
|
|
StringRef SectionName = "";
|
|
section_iterator SecI(Obj->section_begin());
|
|
if (!error(Symbol.getSection(SecI)) && SecI != Obj->section_end())
|
|
error(SecI->getName(SectionName));
|
|
|
|
DictScope D(W, "Symbol");
|
|
W.printNumber("Name", SymbolName, MOSymbol.StringIndex);
|
|
if (MOSymbol.Type & MachO::N_STAB) {
|
|
W.printHex("Type", "SymDebugTable", MOSymbol.Type);
|
|
} else {
|
|
if (MOSymbol.Type & MachO::N_PEXT)
|
|
W.startLine() << "PrivateExtern\n";
|
|
if (MOSymbol.Type & MachO::N_EXT)
|
|
W.startLine() << "Extern\n";
|
|
W.printEnum("Type", uint8_t(MOSymbol.Type & MachO::N_TYPE),
|
|
makeArrayRef(MachOSymbolTypes));
|
|
}
|
|
W.printHex("Section", SectionName, MOSymbol.SectionIndex);
|
|
W.printEnum("RefType", static_cast<uint16_t>(MOSymbol.Flags & 0xF),
|
|
makeArrayRef(MachOSymbolRefTypes));
|
|
W.printFlags("Flags", static_cast<uint16_t>(MOSymbol.Flags & ~0xF),
|
|
makeArrayRef(MachOSymbolFlags));
|
|
W.printHex("Value", MOSymbol.Value);
|
|
}
|
|
|
|
void MachODumper::printUnwindInfo() {
|
|
W.startLine() << "UnwindInfo not implemented.\n";
|
|
}
|
|
|
|
void MachODumper::printStackMap() const {
|
|
object::SectionRef StackMapSection;
|
|
for (auto Sec : Obj->sections()) {
|
|
StringRef Name;
|
|
Sec.getName(Name);
|
|
if (Name == "__llvm_stackmaps") {
|
|
StackMapSection = Sec;
|
|
break;
|
|
}
|
|
}
|
|
|
|
if (StackMapSection == object::SectionRef())
|
|
return;
|
|
|
|
StringRef StackMapContents;
|
|
StackMapSection.getContents(StackMapContents);
|
|
ArrayRef<uint8_t> StackMapContentsArray(
|
|
reinterpret_cast<const uint8_t*>(StackMapContents.data()),
|
|
StackMapContents.size());
|
|
|
|
if (Obj->isLittleEndian())
|
|
prettyPrintStackMap(
|
|
llvm::outs(),
|
|
StackMapV1Parser<support::little>(StackMapContentsArray));
|
|
else
|
|
prettyPrintStackMap(llvm::outs(),
|
|
StackMapV1Parser<support::big>(StackMapContentsArray));
|
|
}
|