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79e86a2cab
When dumping multiple pieces of information (e.g. --all-headers), there is sometimes no separator between two pieces. This patch uses the "\nheader:\n" style, which generally improves compatibility with GNU objdump. Note: objdump -t/-T does not add a newline before "SYMBOL TABLE:" and "DYNAMIC SYMBOL TABLE:". We add a newline to be consistent with other information. `objdump -d` prints two empty lines before the first 'Disassembly of section'. We print just one with this patch. Differential Revision: https://reviews.llvm.org/D101796
392 lines
15 KiB
C++
392 lines
15 KiB
C++
//===-- ELFDump.cpp - ELF-specific dumper -----------------------*- 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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///
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/// \file
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/// This file implements the ELF-specific dumper for llvm-objdump.
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///
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//===----------------------------------------------------------------------===//
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#include "ELFDump.h"
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#include "llvm-objdump.h"
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#include "llvm/Demangle/Demangle.h"
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#include "llvm/Object/ELFObjectFile.h"
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#include "llvm/Support/Format.h"
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#include "llvm/Support/MathExtras.h"
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#include "llvm/Support/raw_ostream.h"
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using namespace llvm;
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using namespace llvm::object;
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using namespace llvm::objdump;
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template <class ELFT>
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static Expected<StringRef> getDynamicStrTab(const ELFFile<ELFT> &Elf) {
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auto DynamicEntriesOrError = Elf.dynamicEntries();
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if (!DynamicEntriesOrError)
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return DynamicEntriesOrError.takeError();
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for (const typename ELFT::Dyn &Dyn : *DynamicEntriesOrError) {
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if (Dyn.d_tag == ELF::DT_STRTAB) {
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auto MappedAddrOrError = Elf.toMappedAddr(Dyn.getPtr());
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if (!MappedAddrOrError)
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consumeError(MappedAddrOrError.takeError());
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return StringRef(reinterpret_cast<const char *>(*MappedAddrOrError));
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}
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}
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// If the dynamic segment is not present, we fall back on the sections.
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auto SectionsOrError = Elf.sections();
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if (!SectionsOrError)
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return SectionsOrError.takeError();
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for (const typename ELFT::Shdr &Sec : *SectionsOrError) {
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if (Sec.sh_type == ELF::SHT_DYNSYM)
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return Elf.getStringTableForSymtab(Sec);
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}
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return createError("dynamic string table not found");
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}
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template <class ELFT>
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static Error getRelocationValueString(const ELFObjectFile<ELFT> *Obj,
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const RelocationRef &RelRef,
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SmallVectorImpl<char> &Result) {
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const ELFFile<ELFT> &EF = Obj->getELFFile();
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DataRefImpl Rel = RelRef.getRawDataRefImpl();
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auto SecOrErr = EF.getSection(Rel.d.a);
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if (!SecOrErr)
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return SecOrErr.takeError();
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int64_t Addend = 0;
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// If there is no Symbol associated with the relocation, we set the undef
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// boolean value to 'true'. This will prevent us from calling functions that
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// requires the relocation to be associated with a symbol.
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//
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// In SHT_REL case we would need to read the addend from section data.
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// GNU objdump does not do that and we just follow for simplicity atm.
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bool Undef = false;
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if ((*SecOrErr)->sh_type == ELF::SHT_RELA) {
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const typename ELFT::Rela *ERela = Obj->getRela(Rel);
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Addend = ERela->r_addend;
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Undef = ERela->getSymbol(false) == 0;
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} else if ((*SecOrErr)->sh_type == ELF::SHT_REL) {
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const typename ELFT::Rel *ERel = Obj->getRel(Rel);
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Undef = ERel->getSymbol(false) == 0;
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} else {
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return make_error<BinaryError>();
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}
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// Default scheme is to print Target, as well as "+ <addend>" for nonzero
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// addend. Should be acceptable for all normal purposes.
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std::string FmtBuf;
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raw_string_ostream Fmt(FmtBuf);
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if (!Undef) {
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symbol_iterator SI = RelRef.getSymbol();
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Expected<const typename ELFT::Sym *> SymOrErr =
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Obj->getSymbol(SI->getRawDataRefImpl());
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// TODO: test this error.
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if (!SymOrErr)
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return SymOrErr.takeError();
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if ((*SymOrErr)->getType() == ELF::STT_SECTION) {
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Expected<section_iterator> SymSI = SI->getSection();
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if (!SymSI)
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return SymSI.takeError();
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const typename ELFT::Shdr *SymSec =
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Obj->getSection((*SymSI)->getRawDataRefImpl());
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auto SecName = EF.getSectionName(*SymSec);
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if (!SecName)
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return SecName.takeError();
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Fmt << *SecName;
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} else {
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Expected<StringRef> SymName = SI->getName();
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if (!SymName)
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return SymName.takeError();
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if (Demangle)
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Fmt << demangle(std::string(*SymName));
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else
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Fmt << *SymName;
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}
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} else {
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Fmt << "*ABS*";
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}
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if (Addend != 0) {
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Fmt << (Addend < 0
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? "-"
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: "+") << format("0x%" PRIx64,
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(Addend < 0 ? -(uint64_t)Addend : (uint64_t)Addend));
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}
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Fmt.flush();
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Result.append(FmtBuf.begin(), FmtBuf.end());
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return Error::success();
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}
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Error objdump::getELFRelocationValueString(const ELFObjectFileBase *Obj,
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const RelocationRef &Rel,
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SmallVectorImpl<char> &Result) {
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if (auto *ELF32LE = dyn_cast<ELF32LEObjectFile>(Obj))
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return getRelocationValueString(ELF32LE, Rel, Result);
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if (auto *ELF64LE = dyn_cast<ELF64LEObjectFile>(Obj))
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return getRelocationValueString(ELF64LE, Rel, Result);
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if (auto *ELF32BE = dyn_cast<ELF32BEObjectFile>(Obj))
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return getRelocationValueString(ELF32BE, Rel, Result);
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auto *ELF64BE = cast<ELF64BEObjectFile>(Obj);
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return getRelocationValueString(ELF64BE, Rel, Result);
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}
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template <class ELFT>
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static uint64_t getSectionLMA(const ELFFile<ELFT> &Obj,
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const object::ELFSectionRef &Sec) {
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auto PhdrRangeOrErr = Obj.program_headers();
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if (!PhdrRangeOrErr)
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report_fatal_error(toString(PhdrRangeOrErr.takeError()));
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// Search for a PT_LOAD segment containing the requested section. Use this
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// segment's p_addr to calculate the section's LMA.
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for (const typename ELFT::Phdr &Phdr : *PhdrRangeOrErr)
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if ((Phdr.p_type == ELF::PT_LOAD) && (Phdr.p_vaddr <= Sec.getAddress()) &&
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(Phdr.p_vaddr + Phdr.p_memsz > Sec.getAddress()))
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return Sec.getAddress() - Phdr.p_vaddr + Phdr.p_paddr;
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// Return section's VMA if it isn't in a PT_LOAD segment.
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return Sec.getAddress();
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}
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uint64_t objdump::getELFSectionLMA(const object::ELFSectionRef &Sec) {
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if (const auto *ELFObj = dyn_cast<ELF32LEObjectFile>(Sec.getObject()))
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return getSectionLMA(ELFObj->getELFFile(), Sec);
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else if (const auto *ELFObj = dyn_cast<ELF32BEObjectFile>(Sec.getObject()))
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return getSectionLMA(ELFObj->getELFFile(), Sec);
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else if (const auto *ELFObj = dyn_cast<ELF64LEObjectFile>(Sec.getObject()))
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return getSectionLMA(ELFObj->getELFFile(), Sec);
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const auto *ELFObj = cast<ELF64BEObjectFile>(Sec.getObject());
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return getSectionLMA(ELFObj->getELFFile(), Sec);
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}
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template <class ELFT>
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static void printDynamicSection(const ELFFile<ELFT> &Elf, StringRef Filename) {
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ArrayRef<typename ELFT::Dyn> DynamicEntries =
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unwrapOrError(Elf.dynamicEntries(), Filename);
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// Find the maximum tag name length to format the value column properly.
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size_t MaxLen = 0;
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for (const typename ELFT::Dyn &Dyn : DynamicEntries)
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MaxLen = std::max(MaxLen, Elf.getDynamicTagAsString(Dyn.d_tag).size());
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std::string TagFmt = " %-" + std::to_string(MaxLen) + "s ";
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outs() << "\nDynamic Section:\n";
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for (const typename ELFT::Dyn &Dyn : DynamicEntries) {
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if (Dyn.d_tag == ELF::DT_NULL)
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continue;
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std::string Str = Elf.getDynamicTagAsString(Dyn.d_tag);
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outs() << format(TagFmt.c_str(), Str.c_str());
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const char *Fmt =
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ELFT::Is64Bits ? "0x%016" PRIx64 "\n" : "0x%08" PRIx64 "\n";
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if (Dyn.d_tag == ELF::DT_NEEDED || Dyn.d_tag == ELF::DT_RPATH ||
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Dyn.d_tag == ELF::DT_RUNPATH || Dyn.d_tag == ELF::DT_SONAME ||
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Dyn.d_tag == ELF::DT_AUXILIARY || Dyn.d_tag == ELF::DT_FILTER) {
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Expected<StringRef> StrTabOrErr = getDynamicStrTab(Elf);
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if (StrTabOrErr) {
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const char *Data = StrTabOrErr.get().data();
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outs() << (Data + Dyn.d_un.d_val) << "\n";
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continue;
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}
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reportWarning(toString(StrTabOrErr.takeError()), Filename);
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consumeError(StrTabOrErr.takeError());
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}
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outs() << format(Fmt, (uint64_t)Dyn.d_un.d_val);
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}
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}
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template <class ELFT>
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static void printProgramHeaders(const ELFFile<ELFT> &Obj, StringRef FileName) {
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outs() << "\nProgram Header:\n";
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auto ProgramHeaderOrError = Obj.program_headers();
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if (!ProgramHeaderOrError) {
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reportWarning("unable to read program headers: " +
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toString(ProgramHeaderOrError.takeError()),
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FileName);
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return;
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}
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for (const typename ELFT::Phdr &Phdr : *ProgramHeaderOrError) {
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switch (Phdr.p_type) {
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case ELF::PT_DYNAMIC:
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outs() << " DYNAMIC ";
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break;
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case ELF::PT_GNU_EH_FRAME:
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outs() << "EH_FRAME ";
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break;
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case ELF::PT_GNU_RELRO:
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outs() << " RELRO ";
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break;
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case ELF::PT_GNU_PROPERTY:
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outs() << " PROPERTY ";
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break;
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case ELF::PT_GNU_STACK:
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outs() << " STACK ";
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break;
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case ELF::PT_INTERP:
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outs() << " INTERP ";
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break;
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case ELF::PT_LOAD:
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outs() << " LOAD ";
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break;
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case ELF::PT_NOTE:
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outs() << " NOTE ";
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break;
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case ELF::PT_OPENBSD_BOOTDATA:
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outs() << " OPENBSD_BOOTDATA ";
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break;
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case ELF::PT_OPENBSD_RANDOMIZE:
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outs() << " OPENBSD_RANDOMIZE ";
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break;
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case ELF::PT_OPENBSD_WXNEEDED:
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outs() << " OPENBSD_WXNEEDED ";
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break;
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case ELF::PT_PHDR:
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outs() << " PHDR ";
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break;
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case ELF::PT_TLS:
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outs() << " TLS ";
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break;
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default:
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outs() << " UNKNOWN ";
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}
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const char *Fmt = ELFT::Is64Bits ? "0x%016" PRIx64 " " : "0x%08" PRIx64 " ";
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outs() << "off " << format(Fmt, (uint64_t)Phdr.p_offset) << "vaddr "
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<< format(Fmt, (uint64_t)Phdr.p_vaddr) << "paddr "
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<< format(Fmt, (uint64_t)Phdr.p_paddr)
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<< format("align 2**%u\n",
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countTrailingZeros<uint64_t>(Phdr.p_align))
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<< " filesz " << format(Fmt, (uint64_t)Phdr.p_filesz)
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<< "memsz " << format(Fmt, (uint64_t)Phdr.p_memsz) << "flags "
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<< ((Phdr.p_flags & ELF::PF_R) ? "r" : "-")
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<< ((Phdr.p_flags & ELF::PF_W) ? "w" : "-")
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<< ((Phdr.p_flags & ELF::PF_X) ? "x" : "-") << "\n";
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}
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}
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template <class ELFT>
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static void printSymbolVersionDependency(ArrayRef<uint8_t> Contents,
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StringRef StrTab) {
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outs() << "\nVersion References:\n";
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const uint8_t *Buf = Contents.data();
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while (Buf) {
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auto *Verneed = reinterpret_cast<const typename ELFT::Verneed *>(Buf);
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outs() << " required from "
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<< StringRef(StrTab.drop_front(Verneed->vn_file).data()) << ":\n";
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const uint8_t *BufAux = Buf + Verneed->vn_aux;
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while (BufAux) {
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auto *Vernaux = reinterpret_cast<const typename ELFT::Vernaux *>(BufAux);
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outs() << " "
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<< format("0x%08" PRIx32 " ", (uint32_t)Vernaux->vna_hash)
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<< format("0x%02" PRIx16 " ", (uint16_t)Vernaux->vna_flags)
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<< format("%02" PRIu16 " ", (uint16_t)Vernaux->vna_other)
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<< StringRef(StrTab.drop_front(Vernaux->vna_name).data()) << '\n';
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BufAux = Vernaux->vna_next ? BufAux + Vernaux->vna_next : nullptr;
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}
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Buf = Verneed->vn_next ? Buf + Verneed->vn_next : nullptr;
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}
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}
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template <class ELFT>
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static void printSymbolVersionDefinition(const typename ELFT::Shdr &Shdr,
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ArrayRef<uint8_t> Contents,
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StringRef StrTab) {
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outs() << "\nVersion definitions:\n";
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const uint8_t *Buf = Contents.data();
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uint32_t VerdefIndex = 1;
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// sh_info contains the number of entries in the SHT_GNU_verdef section. To
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// make the index column have consistent width, we should insert blank spaces
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// according to sh_info.
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uint16_t VerdefIndexWidth = std::to_string(Shdr.sh_info).size();
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while (Buf) {
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auto *Verdef = reinterpret_cast<const typename ELFT::Verdef *>(Buf);
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outs() << format_decimal(VerdefIndex++, VerdefIndexWidth) << " "
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<< format("0x%02" PRIx16 " ", (uint16_t)Verdef->vd_flags)
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<< format("0x%08" PRIx32 " ", (uint32_t)Verdef->vd_hash);
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const uint8_t *BufAux = Buf + Verdef->vd_aux;
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uint16_t VerdauxIndex = 0;
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while (BufAux) {
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auto *Verdaux = reinterpret_cast<const typename ELFT::Verdaux *>(BufAux);
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if (VerdauxIndex)
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outs() << std::string(VerdefIndexWidth + 17, ' ');
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outs() << StringRef(StrTab.drop_front(Verdaux->vda_name).data()) << '\n';
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BufAux = Verdaux->vda_next ? BufAux + Verdaux->vda_next : nullptr;
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++VerdauxIndex;
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}
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Buf = Verdef->vd_next ? Buf + Verdef->vd_next : nullptr;
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}
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}
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template <class ELFT>
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static void printSymbolVersionInfo(const ELFFile<ELFT> &Elf,
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StringRef FileName) {
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ArrayRef<typename ELFT::Shdr> Sections =
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unwrapOrError(Elf.sections(), FileName);
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for (const typename ELFT::Shdr &Shdr : Sections) {
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if (Shdr.sh_type != ELF::SHT_GNU_verneed &&
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Shdr.sh_type != ELF::SHT_GNU_verdef)
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continue;
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ArrayRef<uint8_t> Contents =
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unwrapOrError(Elf.getSectionContents(Shdr), FileName);
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const typename ELFT::Shdr *StrTabSec =
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unwrapOrError(Elf.getSection(Shdr.sh_link), FileName);
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StringRef StrTab = unwrapOrError(Elf.getStringTable(*StrTabSec), FileName);
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if (Shdr.sh_type == ELF::SHT_GNU_verneed)
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printSymbolVersionDependency<ELFT>(Contents, StrTab);
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else
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printSymbolVersionDefinition<ELFT>(Shdr, Contents, StrTab);
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}
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}
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void objdump::printELFFileHeader(const object::ObjectFile *Obj) {
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if (const auto *ELFObj = dyn_cast<ELF32LEObjectFile>(Obj))
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printProgramHeaders(ELFObj->getELFFile(), Obj->getFileName());
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else if (const auto *ELFObj = dyn_cast<ELF32BEObjectFile>(Obj))
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printProgramHeaders(ELFObj->getELFFile(), Obj->getFileName());
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else if (const auto *ELFObj = dyn_cast<ELF64LEObjectFile>(Obj))
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printProgramHeaders(ELFObj->getELFFile(), Obj->getFileName());
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else if (const auto *ELFObj = dyn_cast<ELF64BEObjectFile>(Obj))
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printProgramHeaders(ELFObj->getELFFile(), Obj->getFileName());
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}
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void objdump::printELFDynamicSection(const object::ObjectFile *Obj) {
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if (const auto *ELFObj = dyn_cast<ELF32LEObjectFile>(Obj))
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printDynamicSection(ELFObj->getELFFile(), Obj->getFileName());
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else if (const auto *ELFObj = dyn_cast<ELF32BEObjectFile>(Obj))
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printDynamicSection(ELFObj->getELFFile(), Obj->getFileName());
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else if (const auto *ELFObj = dyn_cast<ELF64LEObjectFile>(Obj))
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printDynamicSection(ELFObj->getELFFile(), Obj->getFileName());
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else if (const auto *ELFObj = dyn_cast<ELF64BEObjectFile>(Obj))
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printDynamicSection(ELFObj->getELFFile(), Obj->getFileName());
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}
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void objdump::printELFSymbolVersionInfo(const object::ObjectFile *Obj) {
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if (const auto *ELFObj = dyn_cast<ELF32LEObjectFile>(Obj))
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printSymbolVersionInfo(ELFObj->getELFFile(), Obj->getFileName());
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else if (const auto *ELFObj = dyn_cast<ELF32BEObjectFile>(Obj))
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printSymbolVersionInfo(ELFObj->getELFFile(), Obj->getFileName());
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else if (const auto *ELFObj = dyn_cast<ELF64LEObjectFile>(Obj))
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printSymbolVersionInfo(ELFObj->getELFFile(), Obj->getFileName());
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else if (const auto *ELFObj = dyn_cast<ELF64BEObjectFile>(Obj))
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printSymbolVersionInfo(ELFObj->getELFFile(), Obj->getFileName());
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}
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