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063c6c1b3c
When obj2yaml encounters a string without the null terminator, it should stop parsing the debug_str section. This patch addresses comments in [D86867](https://reviews.llvm.org/D86867#inline-803291). Reviewed By: jhenderson Differential Revision: https://reviews.llvm.org/D87261
648 lines
23 KiB
C++
648 lines
23 KiB
C++
//===------ macho2yaml.cpp - obj2yaml conversion tool -----------*- C++ -*-===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#include "obj2yaml.h"
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#include "llvm/DebugInfo/DWARF/DWARFContext.h"
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#include "llvm/Object/MachOUniversal.h"
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#include "llvm/ObjectYAML/DWARFYAML.h"
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#include "llvm/ObjectYAML/ObjectYAML.h"
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#include "llvm/Support/Error.h"
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#include "llvm/Support/ErrorHandling.h"
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#include "llvm/Support/LEB128.h"
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#include <string.h> // for memcpy
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using namespace llvm;
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class MachODumper {
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template <typename StructType>
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Expected<const char *> processLoadCommandData(
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MachOYAML::LoadCommand &LC,
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const llvm::object::MachOObjectFile::LoadCommandInfo &LoadCmd,
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MachOYAML::Object &Y);
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const object::MachOObjectFile &Obj;
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std::unique_ptr<DWARFContext> DWARFCtx;
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void dumpHeader(std::unique_ptr<MachOYAML::Object> &Y);
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Error dumpLoadCommands(std::unique_ptr<MachOYAML::Object> &Y);
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void dumpLinkEdit(std::unique_ptr<MachOYAML::Object> &Y);
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void dumpRebaseOpcodes(std::unique_ptr<MachOYAML::Object> &Y);
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void dumpBindOpcodes(std::vector<MachOYAML::BindOpcode> &BindOpcodes,
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ArrayRef<uint8_t> OpcodeBuffer, bool Lazy = false);
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void dumpExportTrie(std::unique_ptr<MachOYAML::Object> &Y);
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void dumpSymbols(std::unique_ptr<MachOYAML::Object> &Y);
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template <typename SectionType>
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Expected<MachOYAML::Section> constructSectionCommon(SectionType Sec,
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size_t SecIndex);
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template <typename SectionType>
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Expected<MachOYAML::Section> constructSection(SectionType Sec,
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size_t SecIndex);
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template <typename SectionType, typename SegmentType>
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Expected<const char *>
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extractSections(const llvm::object::MachOObjectFile::LoadCommandInfo &LoadCmd,
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std::vector<MachOYAML::Section> &Sections,
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MachOYAML::Object &Y);
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public:
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MachODumper(const object::MachOObjectFile &O,
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std::unique_ptr<DWARFContext> DCtx)
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: Obj(O), DWARFCtx(std::move(DCtx)) {}
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Expected<std::unique_ptr<MachOYAML::Object>> dump();
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};
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#define HANDLE_LOAD_COMMAND(LCName, LCValue, LCStruct) \
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case MachO::LCName: \
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memcpy((void *)&(LC.Data.LCStruct##_data), LoadCmd.Ptr, \
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sizeof(MachO::LCStruct)); \
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if (Obj.isLittleEndian() != sys::IsLittleEndianHost) \
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MachO::swapStruct(LC.Data.LCStruct##_data); \
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if (Expected<const char *> ExpectedEndPtr = \
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processLoadCommandData<MachO::LCStruct>(LC, LoadCmd, *Y.get())) \
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EndPtr = *ExpectedEndPtr; \
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else \
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return ExpectedEndPtr.takeError(); \
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break;
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template <typename SectionType>
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Expected<MachOYAML::Section>
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MachODumper::constructSectionCommon(SectionType Sec, size_t SecIndex) {
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MachOYAML::Section TempSec;
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memcpy(reinterpret_cast<void *>(&TempSec.sectname[0]), &Sec.sectname[0], 16);
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memcpy(reinterpret_cast<void *>(&TempSec.segname[0]), &Sec.segname[0], 16);
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TempSec.addr = Sec.addr;
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TempSec.size = Sec.size;
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TempSec.offset = Sec.offset;
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TempSec.align = Sec.align;
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TempSec.reloff = Sec.reloff;
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TempSec.nreloc = Sec.nreloc;
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TempSec.flags = Sec.flags;
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TempSec.reserved1 = Sec.reserved1;
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TempSec.reserved2 = Sec.reserved2;
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TempSec.reserved3 = 0;
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if (!MachO::isVirtualSection(Sec.flags & MachO::SECTION_TYPE))
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TempSec.content =
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yaml::BinaryRef(Obj.getSectionContents(Sec.offset, Sec.size));
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if (Expected<object::SectionRef> SecRef = Obj.getSection(SecIndex)) {
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TempSec.relocations.reserve(TempSec.nreloc);
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for (const object::RelocationRef &Reloc : SecRef->relocations()) {
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const object::DataRefImpl Rel = Reloc.getRawDataRefImpl();
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const MachO::any_relocation_info RE = Obj.getRelocation(Rel);
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MachOYAML::Relocation R;
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R.address = Obj.getAnyRelocationAddress(RE);
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R.is_pcrel = Obj.getAnyRelocationPCRel(RE);
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R.length = Obj.getAnyRelocationLength(RE);
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R.type = Obj.getAnyRelocationType(RE);
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R.is_scattered = Obj.isRelocationScattered(RE);
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R.symbolnum = (R.is_scattered ? 0 : Obj.getPlainRelocationSymbolNum(RE));
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R.is_extern =
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(R.is_scattered ? false : Obj.getPlainRelocationExternal(RE));
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R.value = (R.is_scattered ? Obj.getScatteredRelocationValue(RE) : 0);
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TempSec.relocations.push_back(R);
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}
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} else {
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return SecRef.takeError();
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}
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return TempSec;
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}
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template <>
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Expected<MachOYAML::Section> MachODumper::constructSection(MachO::section Sec,
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size_t SecIndex) {
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Expected<MachOYAML::Section> TempSec = constructSectionCommon(Sec, SecIndex);
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if (TempSec)
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TempSec->reserved3 = 0;
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return TempSec;
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}
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template <>
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Expected<MachOYAML::Section>
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MachODumper::constructSection(MachO::section_64 Sec, size_t SecIndex) {
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Expected<MachOYAML::Section> TempSec = constructSectionCommon(Sec, SecIndex);
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if (TempSec)
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TempSec->reserved3 = Sec.reserved3;
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return TempSec;
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}
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static Error dumpDebugSection(StringRef SecName, DWARFContext &DCtx,
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DWARFYAML::Data &DWARF) {
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if (SecName == "__debug_abbrev") {
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dumpDebugAbbrev(DCtx, DWARF);
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return Error::success();
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}
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if (SecName == "__debug_aranges")
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return dumpDebugARanges(DCtx, DWARF);
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if (SecName == "__debug_info") {
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dumpDebugInfo(DCtx, DWARF);
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return Error::success();
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}
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if (SecName == "__debug_line") {
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dumpDebugLines(DCtx, DWARF);
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return Error::success();
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}
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if (SecName.startswith("__debug_pub")) {
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// FIXME: We should extract pub-section dumpers from this function.
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dumpDebugPubSections(DCtx, DWARF);
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return Error::success();
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}
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if (SecName == "__debug_ranges")
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return dumpDebugRanges(DCtx, DWARF);
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if (SecName == "__debug_str")
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return dumpDebugStrings(DCtx, DWARF);
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return createStringError(errc::not_supported,
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"dumping " + SecName + " section is not supported");
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}
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template <typename SectionType, typename SegmentType>
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Expected<const char *> MachODumper::extractSections(
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const llvm::object::MachOObjectFile::LoadCommandInfo &LoadCmd,
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std::vector<MachOYAML::Section> &Sections, MachOYAML::Object &Y) {
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auto End = LoadCmd.Ptr + LoadCmd.C.cmdsize;
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const SectionType *Curr =
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reinterpret_cast<const SectionType *>(LoadCmd.Ptr + sizeof(SegmentType));
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for (; reinterpret_cast<const void *>(Curr) < End; Curr++) {
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SectionType Sec;
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memcpy((void *)&Sec, Curr, sizeof(SectionType));
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if (Obj.isLittleEndian() != sys::IsLittleEndianHost)
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MachO::swapStruct(Sec);
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// For MachO section indices start from 1.
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if (Expected<MachOYAML::Section> S =
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constructSection(Sec, Sections.size() + 1)) {
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StringRef SecName(S->sectname);
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if (SecName.startswith("__debug_")) {
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// If the DWARF section cannot be successfully parsed, emit raw content
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// instead of an entry in the DWARF section of the YAML.
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if (Error Err = dumpDebugSection(SecName, *DWARFCtx.get(), Y.DWARF))
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consumeError(std::move(Err));
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else
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S->content.reset();
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}
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Sections.push_back(std::move(*S));
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} else
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return S.takeError();
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}
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return reinterpret_cast<const char *>(Curr);
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}
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template <typename StructType>
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Expected<const char *> MachODumper::processLoadCommandData(
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MachOYAML::LoadCommand &LC,
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const llvm::object::MachOObjectFile::LoadCommandInfo &LoadCmd,
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MachOYAML::Object &Y) {
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return LoadCmd.Ptr + sizeof(StructType);
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}
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template <>
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Expected<const char *>
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MachODumper::processLoadCommandData<MachO::segment_command>(
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MachOYAML::LoadCommand &LC,
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const llvm::object::MachOObjectFile::LoadCommandInfo &LoadCmd,
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MachOYAML::Object &Y) {
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return extractSections<MachO::section, MachO::segment_command>(
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LoadCmd, LC.Sections, Y);
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}
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template <>
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Expected<const char *>
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MachODumper::processLoadCommandData<MachO::segment_command_64>(
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MachOYAML::LoadCommand &LC,
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const llvm::object::MachOObjectFile::LoadCommandInfo &LoadCmd,
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MachOYAML::Object &Y) {
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return extractSections<MachO::section_64, MachO::segment_command_64>(
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LoadCmd, LC.Sections, Y);
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}
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template <typename StructType>
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const char *
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readString(MachOYAML::LoadCommand &LC,
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const llvm::object::MachOObjectFile::LoadCommandInfo &LoadCmd) {
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auto Start = LoadCmd.Ptr + sizeof(StructType);
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auto MaxSize = LoadCmd.C.cmdsize - sizeof(StructType);
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auto Size = strnlen(Start, MaxSize);
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LC.PayloadString = StringRef(Start, Size).str();
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return Start + Size;
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}
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template <>
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Expected<const char *>
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MachODumper::processLoadCommandData<MachO::dylib_command>(
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MachOYAML::LoadCommand &LC,
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const llvm::object::MachOObjectFile::LoadCommandInfo &LoadCmd,
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MachOYAML::Object &Y) {
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return readString<MachO::dylib_command>(LC, LoadCmd);
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}
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template <>
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Expected<const char *>
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MachODumper::processLoadCommandData<MachO::dylinker_command>(
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MachOYAML::LoadCommand &LC,
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const llvm::object::MachOObjectFile::LoadCommandInfo &LoadCmd,
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MachOYAML::Object &Y) {
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return readString<MachO::dylinker_command>(LC, LoadCmd);
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}
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template <>
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Expected<const char *>
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MachODumper::processLoadCommandData<MachO::rpath_command>(
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MachOYAML::LoadCommand &LC,
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const llvm::object::MachOObjectFile::LoadCommandInfo &LoadCmd,
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MachOYAML::Object &Y) {
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return readString<MachO::rpath_command>(LC, LoadCmd);
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}
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template <>
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Expected<const char *>
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MachODumper::processLoadCommandData<MachO::build_version_command>(
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MachOYAML::LoadCommand &LC,
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const llvm::object::MachOObjectFile::LoadCommandInfo &LoadCmd,
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MachOYAML::Object &Y) {
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auto Start = LoadCmd.Ptr + sizeof(MachO::build_version_command);
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auto NTools = LC.Data.build_version_command_data.ntools;
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for (unsigned i = 0; i < NTools; ++i) {
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auto Curr = Start + i * sizeof(MachO::build_tool_version);
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MachO::build_tool_version BV;
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memcpy((void *)&BV, Curr, sizeof(MachO::build_tool_version));
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if (Obj.isLittleEndian() != sys::IsLittleEndianHost)
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MachO::swapStruct(BV);
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LC.Tools.push_back(BV);
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}
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return Start + NTools * sizeof(MachO::build_tool_version);
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}
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Expected<std::unique_ptr<MachOYAML::Object>> MachODumper::dump() {
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auto Y = std::make_unique<MachOYAML::Object>();
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Y->IsLittleEndian = Obj.isLittleEndian();
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dumpHeader(Y);
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if (Error Err = dumpLoadCommands(Y))
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return std::move(Err);
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dumpLinkEdit(Y);
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return std::move(Y);
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}
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void MachODumper::dumpHeader(std::unique_ptr<MachOYAML::Object> &Y) {
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Y->Header.magic = Obj.getHeader().magic;
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Y->Header.cputype = Obj.getHeader().cputype;
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Y->Header.cpusubtype = Obj.getHeader().cpusubtype;
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Y->Header.filetype = Obj.getHeader().filetype;
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Y->Header.ncmds = Obj.getHeader().ncmds;
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Y->Header.sizeofcmds = Obj.getHeader().sizeofcmds;
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Y->Header.flags = Obj.getHeader().flags;
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Y->Header.reserved = 0;
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}
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Error MachODumper::dumpLoadCommands(std::unique_ptr<MachOYAML::Object> &Y) {
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for (auto LoadCmd : Obj.load_commands()) {
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MachOYAML::LoadCommand LC;
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const char *EndPtr = LoadCmd.Ptr;
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switch (LoadCmd.C.cmd) {
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default:
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memcpy((void *)&(LC.Data.load_command_data), LoadCmd.Ptr,
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sizeof(MachO::load_command));
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if (Obj.isLittleEndian() != sys::IsLittleEndianHost)
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MachO::swapStruct(LC.Data.load_command_data);
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if (Expected<const char *> ExpectedEndPtr =
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processLoadCommandData<MachO::load_command>(LC, LoadCmd,
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*Y.get()))
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EndPtr = *ExpectedEndPtr;
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else
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return ExpectedEndPtr.takeError();
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break;
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#include "llvm/BinaryFormat/MachO.def"
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}
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auto RemainingBytes = LoadCmd.C.cmdsize - (EndPtr - LoadCmd.Ptr);
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if (!std::all_of(EndPtr, &EndPtr[RemainingBytes],
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[](const char C) { return C == 0; })) {
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LC.PayloadBytes.insert(LC.PayloadBytes.end(), EndPtr,
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&EndPtr[RemainingBytes]);
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RemainingBytes = 0;
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}
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LC.ZeroPadBytes = RemainingBytes;
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Y->LoadCommands.push_back(std::move(LC));
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}
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return Error::success();
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}
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void MachODumper::dumpLinkEdit(std::unique_ptr<MachOYAML::Object> &Y) {
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dumpRebaseOpcodes(Y);
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dumpBindOpcodes(Y->LinkEdit.BindOpcodes, Obj.getDyldInfoBindOpcodes());
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dumpBindOpcodes(Y->LinkEdit.WeakBindOpcodes,
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Obj.getDyldInfoWeakBindOpcodes());
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dumpBindOpcodes(Y->LinkEdit.LazyBindOpcodes, Obj.getDyldInfoLazyBindOpcodes(),
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true);
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dumpExportTrie(Y);
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dumpSymbols(Y);
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}
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void MachODumper::dumpRebaseOpcodes(std::unique_ptr<MachOYAML::Object> &Y) {
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MachOYAML::LinkEditData &LEData = Y->LinkEdit;
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auto RebaseOpcodes = Obj.getDyldInfoRebaseOpcodes();
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for (auto OpCode = RebaseOpcodes.begin(); OpCode != RebaseOpcodes.end();
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++OpCode) {
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MachOYAML::RebaseOpcode RebaseOp;
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RebaseOp.Opcode =
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static_cast<MachO::RebaseOpcode>(*OpCode & MachO::REBASE_OPCODE_MASK);
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RebaseOp.Imm = *OpCode & MachO::REBASE_IMMEDIATE_MASK;
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unsigned Count;
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uint64_t ULEB = 0;
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switch (RebaseOp.Opcode) {
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case MachO::REBASE_OPCODE_DO_REBASE_ULEB_TIMES_SKIPPING_ULEB:
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ULEB = decodeULEB128(OpCode + 1, &Count);
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RebaseOp.ExtraData.push_back(ULEB);
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OpCode += Count;
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LLVM_FALLTHROUGH;
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// Intentionally no break here -- This opcode has two ULEB values
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case MachO::REBASE_OPCODE_SET_SEGMENT_AND_OFFSET_ULEB:
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case MachO::REBASE_OPCODE_ADD_ADDR_ULEB:
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case MachO::REBASE_OPCODE_DO_REBASE_ULEB_TIMES:
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case MachO::REBASE_OPCODE_DO_REBASE_ADD_ADDR_ULEB:
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ULEB = decodeULEB128(OpCode + 1, &Count);
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RebaseOp.ExtraData.push_back(ULEB);
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OpCode += Count;
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break;
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default:
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break;
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}
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LEData.RebaseOpcodes.push_back(RebaseOp);
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if (RebaseOp.Opcode == MachO::REBASE_OPCODE_DONE)
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break;
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}
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}
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StringRef ReadStringRef(const uint8_t *Start) {
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const uint8_t *Itr = Start;
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for (; *Itr; ++Itr)
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;
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return StringRef(reinterpret_cast<const char *>(Start), Itr - Start);
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}
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void MachODumper::dumpBindOpcodes(
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std::vector<MachOYAML::BindOpcode> &BindOpcodes,
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ArrayRef<uint8_t> OpcodeBuffer, bool Lazy) {
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for (auto OpCode = OpcodeBuffer.begin(); OpCode != OpcodeBuffer.end();
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++OpCode) {
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MachOYAML::BindOpcode BindOp;
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BindOp.Opcode =
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static_cast<MachO::BindOpcode>(*OpCode & MachO::BIND_OPCODE_MASK);
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BindOp.Imm = *OpCode & MachO::BIND_IMMEDIATE_MASK;
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unsigned Count;
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uint64_t ULEB = 0;
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int64_t SLEB = 0;
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switch (BindOp.Opcode) {
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case MachO::BIND_OPCODE_DO_BIND_ULEB_TIMES_SKIPPING_ULEB:
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ULEB = decodeULEB128(OpCode + 1, &Count);
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BindOp.ULEBExtraData.push_back(ULEB);
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OpCode += Count;
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LLVM_FALLTHROUGH;
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// Intentionally no break here -- this opcode has two ULEB values
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case MachO::BIND_OPCODE_SET_DYLIB_ORDINAL_ULEB:
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case MachO::BIND_OPCODE_SET_SEGMENT_AND_OFFSET_ULEB:
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case MachO::BIND_OPCODE_ADD_ADDR_ULEB:
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case MachO::BIND_OPCODE_DO_BIND_ADD_ADDR_ULEB:
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ULEB = decodeULEB128(OpCode + 1, &Count);
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BindOp.ULEBExtraData.push_back(ULEB);
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OpCode += Count;
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break;
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case MachO::BIND_OPCODE_SET_ADDEND_SLEB:
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SLEB = decodeSLEB128(OpCode + 1, &Count);
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BindOp.SLEBExtraData.push_back(SLEB);
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OpCode += Count;
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break;
|
|
|
|
case MachO::BIND_OPCODE_SET_SYMBOL_TRAILING_FLAGS_IMM:
|
|
BindOp.Symbol = ReadStringRef(OpCode + 1);
|
|
OpCode += BindOp.Symbol.size() + 1;
|
|
break;
|
|
default:
|
|
break;
|
|
}
|
|
|
|
BindOpcodes.push_back(BindOp);
|
|
|
|
// Lazy bindings have DONE opcodes between operations, so we need to keep
|
|
// processing after a DONE.
|
|
if (!Lazy && BindOp.Opcode == MachO::BIND_OPCODE_DONE)
|
|
break;
|
|
}
|
|
}
|
|
|
|
/*!
|
|
* /brief processes a node from the export trie, and its children.
|
|
*
|
|
* To my knowledge there is no documentation of the encoded format of this data
|
|
* other than in the heads of the Apple linker engineers. To that end hopefully
|
|
* this comment and the implementation below can serve to light the way for
|
|
* anyone crazy enough to come down this path in the future.
|
|
*
|
|
* This function reads and preserves the trie structure of the export trie. To
|
|
* my knowledge there is no code anywhere else that reads the data and preserves
|
|
* the Trie. LD64 (sources available at opensource.apple.com) has a similar
|
|
* implementation that parses the export trie into a vector. That code as well
|
|
* as LLVM's libObject MachO implementation were the basis for this.
|
|
*
|
|
* The export trie is an encoded trie. The node serialization is a bit awkward.
|
|
* The below pseudo-code is the best description I've come up with for it.
|
|
*
|
|
* struct SerializedNode {
|
|
* ULEB128 TerminalSize;
|
|
* struct TerminalData { <-- This is only present if TerminalSize > 0
|
|
* ULEB128 Flags;
|
|
* ULEB128 Address; <-- Present if (! Flags & REEXPORT )
|
|
* ULEB128 Other; <-- Present if ( Flags & REEXPORT ||
|
|
* Flags & STUB_AND_RESOLVER )
|
|
* char[] ImportName; <-- Present if ( Flags & REEXPORT )
|
|
* }
|
|
* uint8_t ChildrenCount;
|
|
* Pair<char[], ULEB128> ChildNameOffsetPair[ChildrenCount];
|
|
* SerializedNode Children[ChildrenCount]
|
|
* }
|
|
*
|
|
* Terminal nodes are nodes that represent actual exports. They can appear
|
|
* anywhere in the tree other than at the root; they do not need to be leaf
|
|
* nodes. When reading the data out of the trie this routine reads it in-order,
|
|
* but it puts the child names and offsets directly into the child nodes. This
|
|
* results in looping over the children twice during serialization and
|
|
* de-serialization, but it makes the YAML representation more human readable.
|
|
*
|
|
* Below is an example of the graph from a "Hello World" executable:
|
|
*
|
|
* -------
|
|
* | '' |
|
|
* -------
|
|
* |
|
|
* -------
|
|
* | '_' |
|
|
* -------
|
|
* |
|
|
* |----------------------------------------|
|
|
* | |
|
|
* ------------------------ ---------------------
|
|
* | '_mh_execute_header' | | 'main' |
|
|
* | Flags: 0x00000000 | | Flags: 0x00000000 |
|
|
* | Addr: 0x00000000 | | Addr: 0x00001160 |
|
|
* ------------------------ ---------------------
|
|
*
|
|
* This graph represents the trie for the exports "__mh_execute_header" and
|
|
* "_main". In the graph only the "_main" and "__mh_execute_header" nodes are
|
|
* terminal.
|
|
*/
|
|
|
|
const uint8_t *processExportNode(const uint8_t *CurrPtr,
|
|
const uint8_t *const End,
|
|
MachOYAML::ExportEntry &Entry) {
|
|
if (CurrPtr >= End)
|
|
return CurrPtr;
|
|
unsigned Count = 0;
|
|
Entry.TerminalSize = decodeULEB128(CurrPtr, &Count);
|
|
CurrPtr += Count;
|
|
if (Entry.TerminalSize != 0) {
|
|
Entry.Flags = decodeULEB128(CurrPtr, &Count);
|
|
CurrPtr += Count;
|
|
if (Entry.Flags & MachO::EXPORT_SYMBOL_FLAGS_REEXPORT) {
|
|
Entry.Address = 0;
|
|
Entry.Other = decodeULEB128(CurrPtr, &Count);
|
|
CurrPtr += Count;
|
|
Entry.ImportName = std::string(reinterpret_cast<const char *>(CurrPtr));
|
|
} else {
|
|
Entry.Address = decodeULEB128(CurrPtr, &Count);
|
|
CurrPtr += Count;
|
|
if (Entry.Flags & MachO::EXPORT_SYMBOL_FLAGS_STUB_AND_RESOLVER) {
|
|
Entry.Other = decodeULEB128(CurrPtr, &Count);
|
|
CurrPtr += Count;
|
|
} else
|
|
Entry.Other = 0;
|
|
}
|
|
}
|
|
uint8_t childrenCount = *CurrPtr++;
|
|
if (childrenCount == 0)
|
|
return CurrPtr;
|
|
|
|
Entry.Children.insert(Entry.Children.begin(), (size_t)childrenCount,
|
|
MachOYAML::ExportEntry());
|
|
for (auto &Child : Entry.Children) {
|
|
Child.Name = std::string(reinterpret_cast<const char *>(CurrPtr));
|
|
CurrPtr += Child.Name.length() + 1;
|
|
Child.NodeOffset = decodeULEB128(CurrPtr, &Count);
|
|
CurrPtr += Count;
|
|
}
|
|
for (auto &Child : Entry.Children) {
|
|
CurrPtr = processExportNode(CurrPtr, End, Child);
|
|
}
|
|
return CurrPtr;
|
|
}
|
|
|
|
void MachODumper::dumpExportTrie(std::unique_ptr<MachOYAML::Object> &Y) {
|
|
MachOYAML::LinkEditData &LEData = Y->LinkEdit;
|
|
auto ExportsTrie = Obj.getDyldInfoExportsTrie();
|
|
processExportNode(ExportsTrie.begin(), ExportsTrie.end(), LEData.ExportTrie);
|
|
}
|
|
|
|
template <typename nlist_t>
|
|
MachOYAML::NListEntry constructNameList(const nlist_t &nlist) {
|
|
MachOYAML::NListEntry NL;
|
|
NL.n_strx = nlist.n_strx;
|
|
NL.n_type = nlist.n_type;
|
|
NL.n_sect = nlist.n_sect;
|
|
NL.n_desc = nlist.n_desc;
|
|
NL.n_value = nlist.n_value;
|
|
return NL;
|
|
}
|
|
|
|
void MachODumper::dumpSymbols(std::unique_ptr<MachOYAML::Object> &Y) {
|
|
MachOYAML::LinkEditData &LEData = Y->LinkEdit;
|
|
|
|
for (auto Symbol : Obj.symbols()) {
|
|
MachOYAML::NListEntry NLE =
|
|
Obj.is64Bit()
|
|
? constructNameList<MachO::nlist_64>(
|
|
Obj.getSymbol64TableEntry(Symbol.getRawDataRefImpl()))
|
|
: constructNameList<MachO::nlist>(
|
|
Obj.getSymbolTableEntry(Symbol.getRawDataRefImpl()));
|
|
LEData.NameList.push_back(NLE);
|
|
}
|
|
|
|
StringRef RemainingTable = Obj.getStringTableData();
|
|
while (RemainingTable.size() > 0) {
|
|
auto SymbolPair = RemainingTable.split('\0');
|
|
RemainingTable = SymbolPair.second;
|
|
LEData.StringTable.push_back(SymbolPair.first);
|
|
}
|
|
}
|
|
|
|
Error macho2yaml(raw_ostream &Out, const object::MachOObjectFile &Obj) {
|
|
std::unique_ptr<DWARFContext> DCtx = DWARFContext::create(Obj);
|
|
MachODumper Dumper(Obj, std::move(DCtx));
|
|
Expected<std::unique_ptr<MachOYAML::Object>> YAML = Dumper.dump();
|
|
if (!YAML)
|
|
return YAML.takeError();
|
|
|
|
yaml::YamlObjectFile YAMLFile;
|
|
YAMLFile.MachO = std::move(YAML.get());
|
|
|
|
yaml::Output Yout(Out);
|
|
Yout << YAMLFile;
|
|
return Error::success();
|
|
}
|
|
|
|
Error macho2yaml(raw_ostream &Out, const object::MachOUniversalBinary &Obj) {
|
|
yaml::YamlObjectFile YAMLFile;
|
|
YAMLFile.FatMachO.reset(new MachOYAML::UniversalBinary());
|
|
MachOYAML::UniversalBinary &YAML = *YAMLFile.FatMachO;
|
|
YAML.Header.magic = Obj.getMagic();
|
|
YAML.Header.nfat_arch = Obj.getNumberOfObjects();
|
|
|
|
for (auto Slice : Obj.objects()) {
|
|
MachOYAML::FatArch arch;
|
|
arch.cputype = Slice.getCPUType();
|
|
arch.cpusubtype = Slice.getCPUSubType();
|
|
arch.offset = Slice.getOffset();
|
|
arch.size = Slice.getSize();
|
|
arch.align = Slice.getAlign();
|
|
arch.reserved = Slice.getReserved();
|
|
YAML.FatArchs.push_back(arch);
|
|
|
|
auto SliceObj = Slice.getAsObjectFile();
|
|
if (!SliceObj)
|
|
return SliceObj.takeError();
|
|
|
|
std::unique_ptr<DWARFContext> DCtx = DWARFContext::create(*SliceObj.get());
|
|
MachODumper Dumper(*SliceObj.get(), std::move(DCtx));
|
|
Expected<std::unique_ptr<MachOYAML::Object>> YAMLObj = Dumper.dump();
|
|
if (!YAMLObj)
|
|
return YAMLObj.takeError();
|
|
YAML.Slices.push_back(*YAMLObj.get());
|
|
}
|
|
|
|
yaml::Output Yout(Out);
|
|
Yout << YAML;
|
|
return Error::success();
|
|
}
|
|
|
|
Error macho2yaml(raw_ostream &Out, const object::Binary &Binary) {
|
|
if (const auto *MachOObj = dyn_cast<object::MachOUniversalBinary>(&Binary))
|
|
return macho2yaml(Out, *MachOObj);
|
|
|
|
if (const auto *MachOObj = dyn_cast<object::MachOObjectFile>(&Binary))
|
|
return macho2yaml(Out, *MachOObj);
|
|
|
|
llvm_unreachable("unexpected Mach-O file format");
|
|
}
|