317 lines
10 KiB
C++
317 lines
10 KiB
C++
//===- InputSection.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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#ifndef LLD_ELF_INPUT_SECTION_H
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#define LLD_ELF_INPUT_SECTION_H
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#include "Config.h"
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#include "Relocations.h"
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#include "Thunks.h"
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#include "lld/Core/LLVM.h"
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#include "llvm/ADT/CachedHashString.h"
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#include "llvm/ADT/DenseSet.h"
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#include "llvm/ADT/TinyPtrVector.h"
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#include "llvm/Object/ELF.h"
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#include <mutex>
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namespace lld {
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namespace elf {
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class DefinedCommon;
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class SymbolBody;
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struct SectionPiece;
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template <class ELFT> class DefinedRegular;
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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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// We need non-template input section class to store symbol layout
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// in linker script parser structures, where we do not have ELFT
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// template parameter. For each scripted output section symbol we
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// store pointer to preceding InputSectionData object or nullptr,
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// if symbol should be placed at the very beginning of the output
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// section
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class InputSectionData {
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public:
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enum Kind { Regular, EHFrame, Merge, Synthetic, };
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// The garbage collector sets sections' Live bits.
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// If GC is disabled, all sections are considered live by default.
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InputSectionData(Kind SectionKind, StringRef Name, ArrayRef<uint8_t> Data,
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bool Live)
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: SectionKind(SectionKind), Live(Live), Assigned(false), Name(Name),
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Data(Data) {}
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private:
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unsigned SectionKind : 3;
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public:
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Kind kind() const { return (Kind)SectionKind; }
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unsigned Live : 1; // for garbage collection
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unsigned Assigned : 1; // for linker script
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uint32_t Alignment;
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StringRef Name;
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ArrayRef<uint8_t> Data;
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template <typename T> llvm::ArrayRef<T> getDataAs() const {
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size_t S = Data.size();
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assert(S % sizeof(T) == 0);
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return llvm::makeArrayRef<T>((const T *)Data.data(), S / sizeof(T));
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}
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std::vector<Relocation> Relocations;
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};
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// This corresponds to a section of an input file.
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template <class ELFT> class InputSectionBase : public InputSectionData {
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protected:
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typedef typename ELFT::Chdr Elf_Chdr;
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typedef typename ELFT::Rel Elf_Rel;
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typedef typename ELFT::Rela Elf_Rela;
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typedef typename ELFT::Shdr Elf_Shdr;
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typedef typename ELFT::Sym Elf_Sym;
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typedef typename ELFT::uint uintX_t;
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// The file this section is from.
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ObjectFile<ELFT> *File;
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public:
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// These corresponds to the fields in Elf_Shdr.
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uintX_t Flags;
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uintX_t Offset = 0;
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uintX_t Entsize;
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uint32_t Type;
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uint32_t Link;
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uint32_t Info;
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InputSectionBase()
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: InputSectionData(Regular, "", ArrayRef<uint8_t>(), false), Repl(this) {
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NumRelocations = 0;
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AreRelocsRela = false;
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}
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InputSectionBase(ObjectFile<ELFT> *File, const Elf_Shdr *Header,
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StringRef Name, Kind SectionKind);
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InputSectionBase(ObjectFile<ELFT> *File, uintX_t Flags, uint32_t Type,
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uintX_t Entsize, uint32_t Link, uint32_t Info,
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uintX_t Addralign, ArrayRef<uint8_t> Data, StringRef Name,
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Kind SectionKind);
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OutputSectionBase *OutSec = nullptr;
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// Relocations that refer to this section.
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const Elf_Rel *FirstRelocation = nullptr;
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unsigned NumRelocations : 31;
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unsigned AreRelocsRela : 1;
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ArrayRef<Elf_Rel> rels() const {
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assert(!AreRelocsRela);
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return llvm::makeArrayRef(FirstRelocation, NumRelocations);
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}
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ArrayRef<Elf_Rela> relas() const {
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assert(AreRelocsRela);
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return llvm::makeArrayRef(static_cast<const Elf_Rela *>(FirstRelocation),
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NumRelocations);
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}
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// This pointer points to the "real" instance of this instance.
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// Usually Repl == this. However, if ICF merges two sections,
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// Repl pointer of one section points to another section. So,
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// if you need to get a pointer to this instance, do not use
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// this but instead this->Repl.
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InputSectionBase<ELFT> *Repl;
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// Returns the size of this section (even if this is a common or BSS.)
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size_t getSize() const;
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ObjectFile<ELFT> *getFile() const { return File; }
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llvm::object::ELFFile<ELFT> getObj() const { return File->getObj(); }
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uintX_t getOffset(const DefinedRegular<ELFT> &Sym) const;
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InputSectionBase *getLinkOrderDep() const;
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// Translate an offset in the input section to an offset in the output
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// section.
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uintX_t getOffset(uintX_t Offset) const;
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void uncompress();
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// Returns a source location string. Used to construct an error message.
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std::string getLocation(uintX_t Offset);
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void relocate(uint8_t *Buf, uint8_t *BufEnd);
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};
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// SectionPiece represents a piece of splittable section contents.
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// We allocate a lot of these and binary search on them. This means that they
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// have to be as compact as possible, which is why we don't store the size (can
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// be found by looking at the next one) and put the hash in a side table.
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struct SectionPiece {
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SectionPiece(size_t Off, bool Live = false)
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: InputOff(Off), OutputOff(-1), Live(Live || !Config->GcSections) {}
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size_t InputOff;
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ssize_t OutputOff : 8 * sizeof(ssize_t) - 1;
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size_t Live : 1;
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};
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static_assert(sizeof(SectionPiece) == 2 * sizeof(size_t),
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"SectionPiece is too big");
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// This corresponds to a SHF_MERGE section of an input file.
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template <class ELFT> class MergeInputSection : public InputSectionBase<ELFT> {
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typedef typename ELFT::uint uintX_t;
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typedef typename ELFT::Sym Elf_Sym;
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typedef typename ELFT::Shdr Elf_Shdr;
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public:
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MergeInputSection(ObjectFile<ELFT> *F, const Elf_Shdr *Header,
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StringRef Name);
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static bool classof(const InputSectionData *S);
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void splitIntoPieces();
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// Mark the piece at a given offset live. Used by GC.
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void markLiveAt(uintX_t Offset) {
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assert(this->Flags & llvm::ELF::SHF_ALLOC);
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LiveOffsets.insert(Offset);
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}
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// Translate an offset in the input section to an offset
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// in the output section.
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uintX_t getOffset(uintX_t Offset) const;
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// Splittable sections are handled as a sequence of data
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// rather than a single large blob of data.
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std::vector<SectionPiece> Pieces;
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// Returns I'th piece's data. This function is very hot when
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// string merging is enabled, so we want to inline.
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LLVM_ATTRIBUTE_ALWAYS_INLINE
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llvm::CachedHashStringRef getData(size_t I) const {
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size_t Begin = Pieces[I].InputOff;
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size_t End;
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if (Pieces.size() - 1 == I)
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End = this->Data.size();
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else
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End = Pieces[I + 1].InputOff;
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StringRef S = {(const char *)(this->Data.data() + Begin), End - Begin};
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return {S, Hashes[I]};
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}
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// Returns the SectionPiece at a given input section offset.
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SectionPiece *getSectionPiece(uintX_t Offset);
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const SectionPiece *getSectionPiece(uintX_t Offset) const;
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private:
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void splitStrings(ArrayRef<uint8_t> A, size_t Size);
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void splitNonStrings(ArrayRef<uint8_t> A, size_t Size);
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std::vector<uint32_t> Hashes;
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mutable llvm::DenseMap<uintX_t, uintX_t> OffsetMap;
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mutable std::once_flag InitOffsetMap;
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llvm::DenseSet<uintX_t> LiveOffsets;
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};
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struct EhSectionPiece : public SectionPiece {
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EhSectionPiece(size_t Off, InputSectionData *ID, uint32_t Size,
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unsigned FirstRelocation)
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: SectionPiece(Off, false), ID(ID), Size(Size),
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FirstRelocation(FirstRelocation) {}
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InputSectionData *ID;
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uint32_t Size;
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uint32_t size() const { return Size; }
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ArrayRef<uint8_t> data() { return {ID->Data.data() + this->InputOff, Size}; }
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unsigned FirstRelocation;
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};
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// This corresponds to a .eh_frame section of an input file.
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template <class ELFT> class EhInputSection : public InputSectionBase<ELFT> {
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public:
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typedef typename ELFT::Shdr Elf_Shdr;
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typedef typename ELFT::uint uintX_t;
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EhInputSection(ObjectFile<ELFT> *F, const Elf_Shdr *Header, StringRef Name);
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static bool classof(const InputSectionData *S);
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void split();
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template <class RelTy> void split(ArrayRef<RelTy> Rels);
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// Splittable sections are handled as a sequence of data
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// rather than a single large blob of data.
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std::vector<EhSectionPiece> Pieces;
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};
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// This corresponds to a non SHF_MERGE section of an input file.
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template <class ELFT> class InputSection : public InputSectionBase<ELFT> {
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typedef InputSectionBase<ELFT> Base;
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typedef typename ELFT::Shdr Elf_Shdr;
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typedef typename ELFT::Rela Elf_Rela;
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typedef typename ELFT::Rel Elf_Rel;
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typedef typename ELFT::Sym Elf_Sym;
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typedef typename ELFT::uint uintX_t;
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typedef InputSectionData::Kind Kind;
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public:
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InputSection();
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InputSection(uintX_t Flags, uint32_t Type, uintX_t Addralign,
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ArrayRef<uint8_t> Data, StringRef Name,
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Kind K = InputSectionData::Regular);
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InputSection(ObjectFile<ELFT> *F, const Elf_Shdr *Header, StringRef Name);
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static InputSection<ELFT> Discarded;
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// Write this section to a mmap'ed file, assuming Buf is pointing to
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// beginning of the output section.
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void writeTo(uint8_t *Buf);
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// The offset from beginning of the output sections this section was assigned
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// to. The writer sets a value.
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uint64_t OutSecOff = 0;
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// InputSection that is dependent on us (reverse dependency for GC)
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InputSectionBase<ELFT> *DependentSection = nullptr;
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static bool classof(const InputSectionData *S);
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InputSectionBase<ELFT> *getRelocatedSection();
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// Register thunk related to the symbol. When the section is written
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// to a mmap'ed file, target is requested to write an actual thunk code.
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// Now thunks is supported for MIPS and ARM target only.
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void addThunk(const Thunk<ELFT> *T);
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// The offset of synthetic thunk code from beginning of this section.
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uint64_t getThunkOff() const;
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// Size of chunk with thunks code.
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uint64_t getThunksSize() const;
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template <class RelTy>
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void relocateNonAlloc(uint8_t *Buf, llvm::ArrayRef<RelTy> Rels);
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// Used by ICF.
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uint32_t Class[2] = {0, 0};
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// Called by ICF to merge two input sections.
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void replace(InputSection<ELFT> *Other);
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private:
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template <class RelTy>
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void copyRelocations(uint8_t *Buf, llvm::ArrayRef<RelTy> Rels);
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llvm::TinyPtrVector<const Thunk<ELFT> *> Thunks;
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};
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template <class ELFT> InputSection<ELFT> InputSection<ELFT>::Discarded;
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} // namespace elf
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template <class ELFT> std::string toString(const elf::InputSectionBase<ELFT> *);
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} // namespace lld
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#endif
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