forked from OSchip/llvm-project
455 lines
15 KiB
C++
455 lines
15 KiB
C++
//===- Symbols.h ------------------------------------------------*- C++ -*-===//
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//
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// The LLVM Linker
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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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// All symbols are handled as SymbolBodies regardless of their types.
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// This file defines various types of SymbolBodies.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLD_ELF_SYMBOLS_H
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#define LLD_ELF_SYMBOLS_H
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#include "InputSection.h"
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#include "Strings.h"
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#include "lld/Core/LLVM.h"
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#include "llvm/Object/Archive.h"
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#include "llvm/Object/ELF.h"
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namespace lld {
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namespace elf {
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class ArchiveFile;
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class BitcodeFile;
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class InputFile;
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class LazyObjectFile;
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template <class ELFT> class ObjectFile;
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template <class ELFT> class OutputSection;
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class OutputSectionBase;
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template <class ELFT> class SharedFile;
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struct Symbol;
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// The base class for real symbol classes.
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class SymbolBody {
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public:
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enum Kind {
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DefinedFirst,
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DefinedRegularKind = DefinedFirst,
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SharedKind,
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DefinedCommonKind,
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DefinedSyntheticKind,
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DefinedLast = DefinedSyntheticKind,
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UndefinedKind,
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LazyArchiveKind,
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LazyObjectKind,
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};
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SymbolBody(Kind K) : SymbolKind(K) {}
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Symbol *symbol();
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const Symbol *symbol() const {
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return const_cast<SymbolBody *>(this)->symbol();
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}
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Kind kind() const { return static_cast<Kind>(SymbolKind); }
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bool isUndefined() const { return SymbolKind == UndefinedKind; }
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bool isDefined() const { return SymbolKind <= DefinedLast; }
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bool isCommon() const { return SymbolKind == DefinedCommonKind; }
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bool isLazy() const {
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return SymbolKind == LazyArchiveKind || SymbolKind == LazyObjectKind;
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}
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bool isShared() const { return SymbolKind == SharedKind; }
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bool isInCurrentDSO() const { return !isUndefined() && !isShared(); }
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bool isLocal() const { return IsLocal; }
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bool isPreemptible() const;
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StringRef getName() const { return Name; }
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uint8_t getVisibility() const { return StOther & 0x3; }
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void parseSymbolVersion();
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bool isInGot() const { return GotIndex != -1U; }
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bool isInPlt() const { return PltIndex != -1U; }
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template <class ELFT>
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typename ELFT::uint getVA(typename ELFT::uint Addend = 0) const;
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template <class ELFT> typename ELFT::uint getGotOffset() const;
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template <class ELFT> typename ELFT::uint getGotVA() const;
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template <class ELFT> typename ELFT::uint getGotPltOffset() const;
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template <class ELFT> typename ELFT::uint getGotPltVA() const;
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template <class ELFT> typename ELFT::uint getPltVA() const;
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template <class ELFT> typename ELFT::uint getSize() const;
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// The file from which this symbol was created.
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InputFile *File = nullptr;
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uint32_t DynsymIndex = 0;
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uint32_t GotIndex = -1;
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uint32_t GotPltIndex = -1;
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uint32_t PltIndex = -1;
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uint32_t GlobalDynIndex = -1;
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protected:
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SymbolBody(Kind K, StringRefZ Name, bool IsLocal, uint8_t StOther,
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uint8_t Type);
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const unsigned SymbolKind : 8;
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public:
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// True if the linker has to generate a copy relocation for this shared
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// symbol or if the symbol should point to its plt entry.
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unsigned NeedsCopyOrPltAddr : 1;
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// True if this is a local symbol.
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unsigned IsLocal : 1;
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// True if this symbol has an entry in the global part of MIPS GOT.
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unsigned IsInGlobalMipsGot : 1;
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// True if this symbol is referenced by 32-bit GOT relocations.
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unsigned Is32BitMipsGot : 1;
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// True if this symbol is in the Iplt sub-section of the Plt.
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unsigned IsInIplt : 1;
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// True if this symbol is in the Igot sub-section of the .got.plt or .got.
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unsigned IsInIgot : 1;
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// True if this is a shared symbol in a read-only segment which requires a
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// copy relocation. This causes space for the symbol to be allocated in the
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// .bss.rel.ro section.
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unsigned CopyIsInBssRelRo : 1;
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// The following fields have the same meaning as the ELF symbol attributes.
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uint8_t Type; // symbol type
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uint8_t StOther; // st_other field value
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// The Type field may also have this value. It means that we have not yet seen
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// a non-Lazy symbol with this name, so we don't know what its type is. The
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// Type field is normally set to this value for Lazy symbols unless we saw a
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// weak undefined symbol first, in which case we need to remember the original
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// symbol's type in order to check for TLS mismatches.
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enum { UnknownType = 255 };
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bool isSection() const { return Type == llvm::ELF::STT_SECTION; }
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bool isTls() const { return Type == llvm::ELF::STT_TLS; }
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bool isFunc() const { return Type == llvm::ELF::STT_FUNC; }
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bool isGnuIFunc() const { return Type == llvm::ELF::STT_GNU_IFUNC; }
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bool isObject() const { return Type == llvm::ELF::STT_OBJECT; }
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bool isFile() const { return Type == llvm::ELF::STT_FILE; }
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protected:
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StringRefZ Name;
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};
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// The base class for any defined symbols.
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class Defined : public SymbolBody {
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public:
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Defined(Kind K, StringRefZ Name, bool IsLocal, uint8_t StOther, uint8_t Type);
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static bool classof(const SymbolBody *S) { return S->isDefined(); }
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};
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class DefinedCommon : public Defined {
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public:
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DefinedCommon(StringRef N, uint64_t Size, uint64_t Alignment, uint8_t StOther,
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uint8_t Type, InputFile *File);
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static bool classof(const SymbolBody *S) {
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return S->kind() == SymbolBody::DefinedCommonKind;
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}
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// The output offset of this common symbol in the output bss. Computed by the
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// writer.
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uint64_t Offset;
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// The maximum alignment we have seen for this symbol.
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uint64_t Alignment;
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uint64_t Size;
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};
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// Regular defined symbols read from object file symbol tables.
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template <class ELFT> class DefinedRegular : public Defined {
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typedef typename ELFT::Sym Elf_Sym;
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typedef typename ELFT::uint uintX_t;
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public:
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DefinedRegular(StringRefZ Name, bool IsLocal, uint8_t StOther, uint8_t Type,
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uintX_t Value, uintX_t Size, InputSectionBase<ELFT> *Section,
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InputFile *File)
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: Defined(SymbolBody::DefinedRegularKind, Name, IsLocal, StOther, Type),
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Value(Value), Size(Size),
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Section(Section ? Section->Repl : NullInputSection) {
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this->File = File;
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}
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// Return true if the symbol is a PIC function.
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bool isMipsPIC() const;
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static bool classof(const SymbolBody *S) {
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return S->kind() == SymbolBody::DefinedRegularKind;
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}
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uintX_t Value;
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uintX_t Size;
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// The input section this symbol belongs to. Notice that this is
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// a reference to a pointer. We are using two levels of indirections
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// because of ICF. If ICF decides two sections need to be merged, it
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// manipulates this Section pointers so that they point to the same
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// section. This is a bit tricky, so be careful to not be confused.
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// If this is null, the symbol is an absolute symbol.
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InputSectionBase<ELFT> *&Section;
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private:
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static InputSectionBase<ELFT> *NullInputSection;
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};
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template <class ELFT>
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InputSectionBase<ELFT> *DefinedRegular<ELFT>::NullInputSection;
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// DefinedSynthetic is a class to represent linker-generated ELF symbols.
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// The difference from the regular symbol is that DefinedSynthetic symbols
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// don't belong to any input files or sections. Thus, its constructor
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// takes an output section to calculate output VA, etc.
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// If Section is null, this symbol is relative to the image base.
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class DefinedSynthetic : public Defined {
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public:
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DefinedSynthetic(StringRef Name, uint64_t Value,
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const OutputSectionBase *Section)
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: Defined(SymbolBody::DefinedSyntheticKind, Name, /*IsLocal=*/false,
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llvm::ELF::STV_HIDDEN, 0 /* Type */),
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Value(Value), Section(Section) {}
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static bool classof(const SymbolBody *S) {
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return S->kind() == SymbolBody::DefinedSyntheticKind;
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}
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uint64_t Value;
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const OutputSectionBase *Section;
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};
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class Undefined : public SymbolBody {
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public:
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Undefined(StringRefZ Name, bool IsLocal, uint8_t StOther, uint8_t Type,
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InputFile *F);
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static bool classof(const SymbolBody *S) {
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return S->kind() == UndefinedKind;
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}
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InputFile *file() { return this->File; }
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};
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template <class ELFT> class SharedSymbol : public Defined {
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typedef typename ELFT::Sym Elf_Sym;
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typedef typename ELFT::Verdef Elf_Verdef;
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typedef typename ELFT::uint uintX_t;
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public:
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static bool classof(const SymbolBody *S) {
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return S->kind() == SymbolBody::SharedKind;
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}
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SharedSymbol(SharedFile<ELFT> *F, StringRef Name, const Elf_Sym &Sym,
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const Elf_Verdef *Verdef)
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: Defined(SymbolBody::SharedKind, Name, /*IsLocal=*/false, Sym.st_other,
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Sym.getType()),
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Sym(Sym), Verdef(Verdef) {
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// IFuncs defined in DSOs are treated as functions by the static linker.
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if (isGnuIFunc())
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Type = llvm::ELF::STT_FUNC;
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this->File = F;
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}
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SharedFile<ELFT> *file() { return (SharedFile<ELFT> *)this->File; }
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const Elf_Sym &Sym;
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// This field is a pointer to the symbol's version definition.
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const Elf_Verdef *Verdef;
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// CopyOffset is significant only when needsCopy() is true.
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uintX_t CopyOffset = 0;
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bool needsCopy() const { return this->NeedsCopyOrPltAddr && !this->isFunc(); }
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OutputSection<ELFT> *getBssSectionForCopy() const;
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};
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// This class represents a symbol defined in an archive file. It is
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// created from an archive file header, and it knows how to load an
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// object file from an archive to replace itself with a defined
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// symbol. If the resolver finds both Undefined and Lazy for
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// the same name, it will ask the Lazy to load a file.
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class Lazy : public SymbolBody {
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public:
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static bool classof(const SymbolBody *S) { return S->isLazy(); }
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// Returns an object file for this symbol, or a nullptr if the file
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// was already returned.
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InputFile *fetch();
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protected:
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Lazy(SymbolBody::Kind K, StringRef Name, uint8_t Type)
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: SymbolBody(K, Name, /*IsLocal=*/false, llvm::ELF::STV_DEFAULT, Type) {}
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};
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// LazyArchive symbols represents symbols in archive files.
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class LazyArchive : public Lazy {
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public:
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LazyArchive(ArchiveFile &File, const llvm::object::Archive::Symbol S,
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uint8_t Type);
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static bool classof(const SymbolBody *S) {
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return S->kind() == LazyArchiveKind;
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}
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ArchiveFile *file() { return (ArchiveFile *)this->File; }
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InputFile *fetch();
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private:
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const llvm::object::Archive::Symbol Sym;
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};
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// LazyObject symbols represents symbols in object files between
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// --start-lib and --end-lib options.
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class LazyObject : public Lazy {
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public:
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LazyObject(StringRef Name, LazyObjectFile &File, uint8_t Type);
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static bool classof(const SymbolBody *S) {
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return S->kind() == LazyObjectKind;
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}
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LazyObjectFile *file() { return (LazyObjectFile *)this->File; }
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InputFile *fetch();
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};
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// Some linker-generated symbols need to be created as
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// DefinedRegular symbols.
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template <class ELFT> struct ElfSym {
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// The content for __ehdr_start symbol.
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static DefinedSynthetic *EhdrStart;
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// The content for _etext and etext symbols.
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static DefinedSynthetic *Etext;
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static DefinedSynthetic *Etext2;
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// The content for _edata and edata symbols.
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static DefinedSynthetic *Edata;
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static DefinedSynthetic *Edata2;
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// The content for _end and end symbols.
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static DefinedSynthetic *End;
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static DefinedSynthetic *End2;
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// The content for _gp_disp/__gnu_local_gp symbols for MIPS target.
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static DefinedRegular<ELFT> *MipsGpDisp;
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static DefinedRegular<ELFT> *MipsLocalGp;
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static DefinedRegular<ELFT> *MipsGp;
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};
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template <class ELFT> DefinedSynthetic *ElfSym<ELFT>::EhdrStart;
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template <class ELFT> DefinedSynthetic *ElfSym<ELFT>::Etext;
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template <class ELFT> DefinedSynthetic *ElfSym<ELFT>::Etext2;
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template <class ELFT> DefinedSynthetic *ElfSym<ELFT>::Edata;
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template <class ELFT> DefinedSynthetic *ElfSym<ELFT>::Edata2;
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template <class ELFT> DefinedSynthetic *ElfSym<ELFT>::End;
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template <class ELFT> DefinedSynthetic *ElfSym<ELFT>::End2;
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template <class ELFT> DefinedRegular<ELFT> *ElfSym<ELFT>::MipsGpDisp;
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template <class ELFT> DefinedRegular<ELFT> *ElfSym<ELFT>::MipsLocalGp;
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template <class ELFT> DefinedRegular<ELFT> *ElfSym<ELFT>::MipsGp;
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// A real symbol object, SymbolBody, is usually stored within a Symbol. There's
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// always one Symbol for each symbol name. The resolver updates the SymbolBody
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// stored in the Body field of this object as it resolves symbols. Symbol also
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// holds computed properties of symbol names.
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struct Symbol {
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// Symbol binding. This is on the Symbol to track changes during resolution.
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// In particular:
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// An undefined weak is still weak when it resolves to a shared library.
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// An undefined weak will not fetch archive members, but we have to remember
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// it is weak.
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uint8_t Binding;
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// Version definition index.
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uint16_t VersionId;
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// Symbol visibility. This is the computed minimum visibility of all
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// observed non-DSO symbols.
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unsigned Visibility : 2;
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// True if the symbol was used for linking and thus need to be added to the
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// output file's symbol table. This is true for all symbols except for
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// unreferenced DSO symbols and bitcode symbols that are unreferenced except
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// by other bitcode objects.
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unsigned IsUsedInRegularObj : 1;
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// If this flag is true and the symbol has protected or default visibility, it
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// will appear in .dynsym. This flag is set by interposable DSO symbols in
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// executables, by most symbols in DSOs and executables built with
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// --export-dynamic, and by dynamic lists.
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unsigned ExportDynamic : 1;
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// True if this symbol is specified by --trace-symbol option.
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unsigned Traced : 1;
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// This symbol version was found in a version script.
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unsigned InVersionScript : 1;
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bool includeInDynsym() const;
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uint8_t computeBinding() const;
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bool isWeak() const { return Binding == llvm::ELF::STB_WEAK; }
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// This field is used to store the Symbol's SymbolBody. This instantiation of
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// AlignedCharArrayUnion gives us a struct with a char array field that is
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// large and aligned enough to store any derived class of SymbolBody. We
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// assume that the size and alignment of ELF64LE symbols is sufficient for any
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// ELFT, and we verify this with the static_asserts in replaceBody.
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llvm::AlignedCharArrayUnion<
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DefinedCommon, DefinedRegular<llvm::object::ELF64LE>, DefinedSynthetic,
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Undefined, SharedSymbol<llvm::object::ELF64LE>, LazyArchive, LazyObject>
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Body;
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SymbolBody *body() { return reinterpret_cast<SymbolBody *>(Body.buffer); }
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const SymbolBody *body() const { return const_cast<Symbol *>(this)->body(); }
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};
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void printTraceSymbol(Symbol *Sym);
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template <typename T, typename... ArgT>
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void replaceBody(Symbol *S, ArgT &&... Arg) {
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static_assert(sizeof(T) <= sizeof(S->Body), "Body too small");
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static_assert(alignof(T) <= alignof(decltype(S->Body)),
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"Body not aligned enough");
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assert(static_cast<SymbolBody *>(static_cast<T *>(nullptr)) == nullptr &&
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"Not a SymbolBody");
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new (S->Body.buffer) T(std::forward<ArgT>(Arg)...);
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// Print out a log message if --trace-symbol was specified.
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// This is for debugging.
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if (S->Traced)
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printTraceSymbol(S);
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}
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inline Symbol *SymbolBody::symbol() {
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assert(!isLocal());
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return reinterpret_cast<Symbol *>(reinterpret_cast<char *>(this) -
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offsetof(Symbol, Body));
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}
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} // namespace elf
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std::string toString(const elf::SymbolBody &B);
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} // namespace lld
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#endif
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