forked from OSchip/llvm-project
1020 lines
33 KiB
C++
1020 lines
33 KiB
C++
//===- SyntheticSection.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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// Synthetic sections represent chunks of linker-created data. If you
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// need to create a chunk of data that to be included in some section
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// in the result, you probably want to create that as a synthetic section.
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//
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// Synthetic sections are designed as input sections as opposed to
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// output sections because we want to allow them to be manipulated
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// using linker scripts just like other input sections from regular
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// files.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLD_ELF_SYNTHETIC_SECTION_H
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#define LLD_ELF_SYNTHETIC_SECTION_H
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#include "EhFrame.h"
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#include "GdbIndex.h"
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#include "InputSection.h"
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#include "llvm/ADT/MapVector.h"
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#include "llvm/MC/StringTableBuilder.h"
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#include "llvm/Support/Endian.h"
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#include <functional>
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namespace lld {
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namespace elf {
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class Defined;
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class SharedSymbol;
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class SyntheticSection : public InputSection {
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public:
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SyntheticSection(uint64_t Flags, uint32_t Type, uint32_t Alignment,
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StringRef Name)
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: InputSection(nullptr, Flags, Type, Alignment, {}, Name,
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InputSectionBase::Synthetic) {
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this->Live = true;
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}
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virtual ~SyntheticSection() = default;
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virtual void writeTo(uint8_t *Buf) = 0;
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virtual size_t getSize() const = 0;
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virtual void finalizeContents() {}
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// If the section has the SHF_ALLOC flag and the size may be changed if
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// thunks are added, update the section size.
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virtual bool updateAllocSize() { return false; }
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virtual bool empty() const { return false; }
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static bool classof(const SectionBase *D) {
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return D->kind() == InputSectionBase::Synthetic;
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}
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};
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struct CieRecord {
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EhSectionPiece *Cie = nullptr;
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std::vector<EhSectionPiece *> Fdes;
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};
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// Section for .eh_frame.
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class EhFrameSection final : public SyntheticSection {
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public:
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EhFrameSection();
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void writeTo(uint8_t *Buf) override;
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void finalizeContents() override;
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bool empty() const override { return Sections.empty(); }
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size_t getSize() const override { return Size; }
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template <class ELFT> void addSection(InputSectionBase *S);
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std::vector<EhInputSection *> Sections;
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size_t NumFdes = 0;
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struct FdeData {
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uint32_t PcRel;
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uint32_t FdeVARel;
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};
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std::vector<FdeData> getFdeData() const;
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ArrayRef<CieRecord *> getCieRecords() const { return CieRecords; }
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private:
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// This is used only when parsing EhInputSection. We keep it here to avoid
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// allocating one for each EhInputSection.
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llvm::DenseMap<size_t, CieRecord *> OffsetToCie;
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uint64_t Size = 0;
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template <class ELFT, class RelTy>
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void addSectionAux(EhInputSection *S, llvm::ArrayRef<RelTy> Rels);
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template <class ELFT, class RelTy>
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CieRecord *addCie(EhSectionPiece &Piece, ArrayRef<RelTy> Rels);
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template <class ELFT, class RelTy>
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bool isFdeLive(EhSectionPiece &Piece, ArrayRef<RelTy> Rels);
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uint64_t getFdePc(uint8_t *Buf, size_t Off, uint8_t Enc) const;
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std::vector<CieRecord *> CieRecords;
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// CIE records are uniquified by their contents and personality functions.
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llvm::DenseMap<std::pair<ArrayRef<uint8_t>, Symbol *>, CieRecord *> CieMap;
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};
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class GotSection : public SyntheticSection {
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public:
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GotSection();
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size_t getSize() const override { return Size; }
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void finalizeContents() override;
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bool empty() const override;
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void writeTo(uint8_t *Buf) override;
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void addEntry(Symbol &Sym);
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bool addDynTlsEntry(Symbol &Sym);
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bool addTlsIndex();
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uint64_t getGlobalDynAddr(const Symbol &B) const;
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uint64_t getGlobalDynOffset(const Symbol &B) const;
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uint64_t getTlsIndexVA() { return this->getVA() + TlsIndexOff; }
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uint32_t getTlsIndexOff() const { return TlsIndexOff; }
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// Flag to force GOT to be in output if we have relocations
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// that relies on its address.
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bool HasGotOffRel = false;
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protected:
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size_t NumEntries = 0;
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uint32_t TlsIndexOff = -1;
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uint64_t Size = 0;
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};
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// .note.gnu.build-id section.
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class BuildIdSection : public SyntheticSection {
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// First 16 bytes are a header.
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static const unsigned HeaderSize = 16;
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public:
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BuildIdSection();
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void writeTo(uint8_t *Buf) override;
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size_t getSize() const override { return HeaderSize + HashSize; }
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void writeBuildId(llvm::ArrayRef<uint8_t> Buf);
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private:
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void computeHash(llvm::ArrayRef<uint8_t> Buf,
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std::function<void(uint8_t *, ArrayRef<uint8_t>)> Hash);
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size_t HashSize;
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uint8_t *HashBuf;
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};
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// BssSection is used to reserve space for copy relocations and common symbols.
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// We create three instances of this class for .bss, .bss.rel.ro and "COMMON",
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// that are used for writable symbols, read-only symbols and common symbols,
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// respectively.
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class BssSection final : public SyntheticSection {
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public:
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BssSection(StringRef Name, uint64_t Size, uint32_t Alignment);
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void writeTo(uint8_t *) override {}
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bool empty() const override { return getSize() == 0; }
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size_t getSize() const override { return Size; }
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static bool classof(const SectionBase *S) { return S->Bss; }
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uint64_t Size;
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};
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class MipsGotSection final : public SyntheticSection {
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public:
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MipsGotSection();
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void writeTo(uint8_t *Buf) override;
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size_t getSize() const override { return Size; }
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bool updateAllocSize() override;
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void finalizeContents() override;
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bool empty() const override;
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// Join separate GOTs built for each input file to generate
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// primary and optional multiple secondary GOTs.
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template <class ELFT> void build();
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void addEntry(InputFile &File, Symbol &Sym, int64_t Addend, RelExpr Expr);
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void addDynTlsEntry(InputFile &File, Symbol &Sym);
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void addTlsIndex(InputFile &File);
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uint64_t getPageEntryOffset(const InputFile *F, const Symbol &S,
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int64_t Addend) const;
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uint64_t getSymEntryOffset(const InputFile *F, const Symbol &S,
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int64_t Addend) const;
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uint64_t getGlobalDynOffset(const InputFile *F, const Symbol &S) const;
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uint64_t getTlsIndexOffset(const InputFile *F) const;
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// Returns the symbol which corresponds to the first entry of the global part
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// of GOT on MIPS platform. It is required to fill up MIPS-specific dynamic
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// table properties.
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// Returns nullptr if the global part is empty.
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const Symbol *getFirstGlobalEntry() const;
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// Returns the number of entries in the local part of GOT including
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// the number of reserved entries.
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unsigned getLocalEntriesNum() const;
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// Return _gp value for primary GOT (nullptr) or particular input file.
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uint64_t getGp(const InputFile *F = nullptr) const;
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private:
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// MIPS GOT consists of three parts: local, global and tls. Each part
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// contains different types of entries. Here is a layout of GOT:
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// - Header entries |
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// - Page entries | Local part
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// - Local entries (16-bit access) |
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// - Local entries (32-bit access) |
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// - Normal global entries || Global part
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// - Reloc-only global entries ||
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// - TLS entries ||| TLS part
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//
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// Header:
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// Two entries hold predefined value 0x0 and 0x80000000.
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// Page entries:
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// These entries created by R_MIPS_GOT_PAGE relocation and R_MIPS_GOT16
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// relocation against local symbols. They are initialized by higher 16-bit
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// of the corresponding symbol's value. So each 64kb of address space
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// requires a single GOT entry.
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// Local entries (16-bit access):
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// These entries created by GOT relocations against global non-preemptible
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// symbols so dynamic linker is not necessary to resolve the symbol's
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// values. "16-bit access" means that corresponding relocations address
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// GOT using 16-bit index. Each unique Symbol-Addend pair has its own
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// GOT entry.
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// Local entries (32-bit access):
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// These entries are the same as above but created by relocations which
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// address GOT using 32-bit index (R_MIPS_GOT_HI16/LO16 etc).
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// Normal global entries:
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// These entries created by GOT relocations against preemptible global
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// symbols. They need to be initialized by dynamic linker and they ordered
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// exactly as the corresponding entries in the dynamic symbols table.
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// Reloc-only global entries:
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// These entries created for symbols that are referenced by dynamic
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// relocations R_MIPS_REL32. These entries are not accessed with gp-relative
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// addressing, but MIPS ABI requires that these entries be present in GOT.
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// TLS entries:
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// Entries created by TLS relocations.
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//
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// If the sum of local, global and tls entries is less than 64K only single
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// got is enough. Otherwise, multi-got is created. Series of primary and
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// multiple secondary GOTs have the following layout:
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// - Primary GOT
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// Header
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// Local entries
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// Global entries
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// Relocation only entries
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// TLS entries
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//
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// - Secondary GOT
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// Local entries
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// Global entries
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// TLS entries
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// ...
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//
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// All GOT entries required by relocations from a single input file entirely
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// belong to either primary or one of secondary GOTs. To reference GOT entries
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// each GOT has its own _gp value points to the "middle" of the GOT.
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// In the code this value loaded to the register which is used for GOT access.
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//
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// MIPS 32 function's prologue:
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// lui v0,0x0
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// 0: R_MIPS_HI16 _gp_disp
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// addiu v0,v0,0
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// 4: R_MIPS_LO16 _gp_disp
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//
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// MIPS 64:
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// lui at,0x0
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// 14: R_MIPS_GPREL16 main
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//
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// Dynamic linker does not know anything about secondary GOTs and cannot
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// use a regular MIPS mechanism for GOT entries initialization. So we have
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// to use an approach accepted by other architectures and create dynamic
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// relocations R_MIPS_REL32 to initialize global entries (and local in case
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// of PIC code) in secondary GOTs. But ironically MIPS dynamic linker
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// requires GOT entries and correspondingly ordered dynamic symbol table
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// entries to deal with dynamic relocations. To handle this problem
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// relocation-only section in the primary GOT contains entries for all
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// symbols referenced in global parts of secondary GOTs. Although the sum
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// of local and normal global entries of the primary got should be less
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// than 64K, the size of the primary got (including relocation-only entries
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// can be greater than 64K, because parts of the primary got that overflow
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// the 64K limit are used only by the dynamic linker at dynamic link-time
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// and not by 16-bit gp-relative addressing at run-time.
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//
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// For complete multi-GOT description see the following link
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// https://dmz-portal.mips.com/wiki/MIPS_Multi_GOT
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// Number of "Header" entries.
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static const unsigned HeaderEntriesNum = 2;
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uint64_t Size = 0;
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size_t LocalEntriesNum = 0;
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// Symbol and addend.
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typedef std::pair<Symbol *, int64_t> GotEntry;
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struct FileGot {
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InputFile *File = nullptr;
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size_t StartIndex = 0;
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struct PageBlock {
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size_t FirstIndex = 0;
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size_t Count = 0;
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};
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// Map output sections referenced by MIPS GOT relocations
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// to the description (index/count) "page" entries allocated
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// for this section.
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llvm::SmallMapVector<const OutputSection *, PageBlock, 16> PagesMap;
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// Maps from Symbol+Addend pair or just Symbol to the GOT entry index.
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llvm::MapVector<GotEntry, size_t> Local16;
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llvm::MapVector<GotEntry, size_t> Local32;
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llvm::MapVector<Symbol *, size_t> Global;
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llvm::MapVector<Symbol *, size_t> Relocs;
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llvm::MapVector<Symbol *, size_t> Tls;
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// Set of symbols referenced by dynamic TLS relocations.
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llvm::MapVector<Symbol *, size_t> DynTlsSymbols;
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// Total number of all entries.
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size_t getEntriesNum() const;
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// Number of "page" entries.
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size_t getPageEntriesNum() const;
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// Number of entries require 16-bit index to access.
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size_t getIndexedEntriesNum() const;
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bool isOverflow() const;
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};
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// Container of GOT created for each input file.
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// After building a final series of GOTs this container
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// holds primary and secondary GOT's.
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std::vector<FileGot> Gots;
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// Return (and create if necessary) `FileGot`.
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FileGot &getGot(InputFile &F);
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// Try to merge two GOTs. In case of success the `Dst` contains
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// result of merging and the function returns true. In case of
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// ovwerflow the `Dst` is unchanged and the function returns false.
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bool tryMergeGots(FileGot & Dst, FileGot & Src, bool IsPrimary);
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};
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class GotPltSection final : public SyntheticSection {
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public:
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GotPltSection();
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void addEntry(Symbol &Sym);
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size_t getSize() const override;
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void writeTo(uint8_t *Buf) override;
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bool empty() const override;
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private:
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std::vector<const Symbol *> Entries;
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};
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// The IgotPltSection is a Got associated with the PltSection for GNU Ifunc
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// Symbols that will be relocated by Target->IRelativeRel.
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// On most Targets the IgotPltSection will immediately follow the GotPltSection
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// on ARM the IgotPltSection will immediately follow the GotSection.
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class IgotPltSection final : public SyntheticSection {
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public:
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IgotPltSection();
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void addEntry(Symbol &Sym);
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size_t getSize() const override;
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void writeTo(uint8_t *Buf) override;
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bool empty() const override { return Entries.empty(); }
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private:
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std::vector<const Symbol *> Entries;
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};
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class StringTableSection final : public SyntheticSection {
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public:
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StringTableSection(StringRef Name, bool Dynamic);
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unsigned addString(StringRef S, bool HashIt = true);
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void writeTo(uint8_t *Buf) override;
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size_t getSize() const override { return Size; }
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bool isDynamic() const { return Dynamic; }
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private:
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const bool Dynamic;
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uint64_t Size = 0;
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llvm::DenseMap<StringRef, unsigned> StringMap;
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std::vector<StringRef> Strings;
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};
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class DynamicReloc {
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public:
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DynamicReloc(RelType Type, const InputSectionBase *InputSec,
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uint64_t OffsetInSec, bool UseSymVA, Symbol *Sym, int64_t Addend)
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: Type(Type), Sym(Sym), InputSec(InputSec), OffsetInSec(OffsetInSec),
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UseSymVA(UseSymVA), Addend(Addend), OutputSec(nullptr) {}
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// This constructor records dynamic relocation settings used by MIPS
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// multi-GOT implementation. It's to relocate addresses of 64kb pages
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// lie inside the output section.
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DynamicReloc(RelType Type, const InputSectionBase *InputSec,
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uint64_t OffsetInSec, const OutputSection *OutputSec,
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int64_t Addend)
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: Type(Type), Sym(nullptr), InputSec(InputSec), OffsetInSec(OffsetInSec),
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UseSymVA(false), Addend(Addend), OutputSec(OutputSec) {}
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uint64_t getOffset() const;
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uint32_t getSymIndex() const;
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const InputSectionBase *getInputSec() const { return InputSec; }
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// Computes the addend of the dynamic relocation. Note that this is not the
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// same as the Addend member variable as it also includes the symbol address
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// if UseSymVA is true.
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int64_t computeAddend() const;
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RelType Type;
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private:
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Symbol *Sym;
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const InputSectionBase *InputSec = nullptr;
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uint64_t OffsetInSec;
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// If this member is true, the dynamic relocation will not be against the
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// symbol but will instead be a relative relocation that simply adds the
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// load address. This means we need to write the symbol virtual address
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// plus the original addend as the final relocation addend.
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bool UseSymVA;
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int64_t Addend;
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const OutputSection *OutputSec;
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};
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template <class ELFT> class DynamicSection final : public SyntheticSection {
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typedef typename ELFT::Dyn Elf_Dyn;
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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::Relr Elf_Relr;
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typedef typename ELFT::Shdr Elf_Shdr;
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typedef typename ELFT::Sym Elf_Sym;
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// finalizeContents() fills this vector with the section contents.
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std::vector<std::pair<int32_t, std::function<uint64_t()>>> Entries;
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public:
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DynamicSection();
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void finalizeContents() override;
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void writeTo(uint8_t *Buf) override;
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size_t getSize() const override { return Size; }
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private:
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void add(int32_t Tag, std::function<uint64_t()> Fn);
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void addInt(int32_t Tag, uint64_t Val);
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void addInSec(int32_t Tag, InputSection *Sec);
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void addInSecRelative(int32_t Tag, InputSection *Sec);
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void addOutSec(int32_t Tag, OutputSection *Sec);
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void addSize(int32_t Tag, OutputSection *Sec);
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void addSym(int32_t Tag, Symbol *Sym);
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uint64_t Size = 0;
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};
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class RelocationBaseSection : public SyntheticSection {
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public:
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RelocationBaseSection(StringRef Name, uint32_t Type, int32_t DynamicTag,
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int32_t SizeDynamicTag);
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void addReloc(RelType DynType, InputSectionBase *IS, uint64_t OffsetInSec,
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Symbol *Sym);
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// Add a dynamic relocation that might need an addend. This takes care of
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// writing the addend to the output section if needed.
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void addReloc(RelType DynType, InputSectionBase *InputSec,
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uint64_t OffsetInSec, Symbol *Sym, int64_t Addend, RelExpr Expr,
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RelType Type);
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void addReloc(const DynamicReloc &Reloc);
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bool empty() const override { return Relocs.empty(); }
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size_t getSize() const override { return Relocs.size() * this->Entsize; }
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size_t getRelativeRelocCount() const { return NumRelativeRelocs; }
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void finalizeContents() override;
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int32_t DynamicTag, SizeDynamicTag;
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protected:
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std::vector<DynamicReloc> Relocs;
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size_t NumRelativeRelocs = 0;
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};
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|
|
template <class ELFT>
|
|
class RelocationSection final : public RelocationBaseSection {
|
|
typedef typename ELFT::Rel Elf_Rel;
|
|
typedef typename ELFT::Rela Elf_Rela;
|
|
|
|
public:
|
|
RelocationSection(StringRef Name, bool Sort);
|
|
unsigned getRelocOffset();
|
|
void writeTo(uint8_t *Buf) override;
|
|
|
|
private:
|
|
bool Sort;
|
|
};
|
|
|
|
template <class ELFT>
|
|
class AndroidPackedRelocationSection final : public RelocationBaseSection {
|
|
typedef typename ELFT::Rel Elf_Rel;
|
|
typedef typename ELFT::Rela Elf_Rela;
|
|
|
|
public:
|
|
AndroidPackedRelocationSection(StringRef Name);
|
|
|
|
bool updateAllocSize() override;
|
|
size_t getSize() const override { return RelocData.size(); }
|
|
void writeTo(uint8_t *Buf) override {
|
|
memcpy(Buf, RelocData.data(), RelocData.size());
|
|
}
|
|
|
|
private:
|
|
SmallVector<char, 0> RelocData;
|
|
};
|
|
|
|
struct RelativeReloc {
|
|
uint64_t getOffset() const { return InputSec->getVA(OffsetInSec); }
|
|
|
|
const InputSectionBase *InputSec;
|
|
uint64_t OffsetInSec;
|
|
};
|
|
|
|
class RelrBaseSection : public SyntheticSection {
|
|
public:
|
|
RelrBaseSection();
|
|
std::vector<RelativeReloc> Relocs;
|
|
};
|
|
|
|
// RelrSection is used to encode offsets for relative relocations.
|
|
// Proposal for adding SHT_RELR sections to generic-abi is here:
|
|
// https://groups.google.com/forum/#!topic/generic-abi/bX460iggiKg
|
|
// For more details, see the comment in RelrSection::updateAllocSize().
|
|
template <class ELFT> class RelrSection final : public RelrBaseSection {
|
|
typedef typename ELFT::Relr Elf_Relr;
|
|
|
|
public:
|
|
RelrSection();
|
|
|
|
bool updateAllocSize() override;
|
|
size_t getSize() const override { return RelrRelocs.size() * this->Entsize; }
|
|
void writeTo(uint8_t *Buf) override {
|
|
memcpy(Buf, RelrRelocs.data(), getSize());
|
|
}
|
|
|
|
private:
|
|
std::vector<Elf_Relr> RelrRelocs;
|
|
};
|
|
|
|
struct SymbolTableEntry {
|
|
Symbol *Sym;
|
|
size_t StrTabOffset;
|
|
};
|
|
|
|
class SymbolTableBaseSection : public SyntheticSection {
|
|
public:
|
|
SymbolTableBaseSection(StringTableSection &StrTabSec);
|
|
void finalizeContents() override;
|
|
size_t getSize() const override { return getNumSymbols() * Entsize; }
|
|
void addSymbol(Symbol *Sym);
|
|
unsigned getNumSymbols() const { return Symbols.size() + 1; }
|
|
size_t getSymbolIndex(Symbol *Sym);
|
|
ArrayRef<SymbolTableEntry> getSymbols() const { return Symbols; }
|
|
|
|
protected:
|
|
void sortSymTabSymbols();
|
|
|
|
// A vector of symbols and their string table offsets.
|
|
std::vector<SymbolTableEntry> Symbols;
|
|
|
|
StringTableSection &StrTabSec;
|
|
|
|
llvm::once_flag OnceFlag;
|
|
llvm::DenseMap<Symbol *, size_t> SymbolIndexMap;
|
|
llvm::DenseMap<OutputSection *, size_t> SectionIndexMap;
|
|
};
|
|
|
|
template <class ELFT>
|
|
class SymbolTableSection final : public SymbolTableBaseSection {
|
|
typedef typename ELFT::Sym Elf_Sym;
|
|
|
|
public:
|
|
SymbolTableSection(StringTableSection &StrTabSec);
|
|
void writeTo(uint8_t *Buf) override;
|
|
};
|
|
|
|
class SymtabShndxSection final : public SyntheticSection {
|
|
public:
|
|
SymtabShndxSection();
|
|
|
|
void writeTo(uint8_t *Buf) override;
|
|
size_t getSize() const override;
|
|
bool empty() const override;
|
|
void finalizeContents() override;
|
|
};
|
|
|
|
// Outputs GNU Hash section. For detailed explanation see:
|
|
// https://blogs.oracle.com/ali/entry/gnu_hash_elf_sections
|
|
class GnuHashTableSection final : public SyntheticSection {
|
|
public:
|
|
GnuHashTableSection();
|
|
void finalizeContents() override;
|
|
void writeTo(uint8_t *Buf) override;
|
|
size_t getSize() const override { return Size; }
|
|
|
|
// Adds symbols to the hash table.
|
|
// Sorts the input to satisfy GNU hash section requirements.
|
|
void addSymbols(std::vector<SymbolTableEntry> &Symbols);
|
|
|
|
private:
|
|
enum { Shift2 = 6 };
|
|
|
|
void writeBloomFilter(uint8_t *Buf);
|
|
void writeHashTable(uint8_t *Buf);
|
|
|
|
struct Entry {
|
|
Symbol *Sym;
|
|
size_t StrTabOffset;
|
|
uint32_t Hash;
|
|
uint32_t BucketIdx;
|
|
};
|
|
|
|
std::vector<Entry> Symbols;
|
|
size_t MaskWords;
|
|
size_t NBuckets = 0;
|
|
size_t Size = 0;
|
|
};
|
|
|
|
class HashTableSection final : public SyntheticSection {
|
|
public:
|
|
HashTableSection();
|
|
void finalizeContents() override;
|
|
void writeTo(uint8_t *Buf) override;
|
|
size_t getSize() const override { return Size; }
|
|
|
|
private:
|
|
size_t Size = 0;
|
|
};
|
|
|
|
// The PltSection is used for both the Plt and Iplt. The former usually has a
|
|
// header as its first entry that is used at run-time to resolve lazy binding.
|
|
// The latter is used for GNU Ifunc symbols, that will be subject to a
|
|
// Target->IRelativeRel.
|
|
class PltSection : public SyntheticSection {
|
|
public:
|
|
PltSection(bool IsIplt);
|
|
void writeTo(uint8_t *Buf) override;
|
|
size_t getSize() const override;
|
|
bool empty() const override { return Entries.empty(); }
|
|
void addSymbols();
|
|
|
|
template <class ELFT> void addEntry(Symbol &Sym);
|
|
|
|
private:
|
|
unsigned getPltRelocOff() const;
|
|
std::vector<std::pair<const Symbol *, unsigned>> Entries;
|
|
size_t HeaderSize;
|
|
bool IsIplt;
|
|
};
|
|
|
|
class GdbIndexSection final : public SyntheticSection {
|
|
public:
|
|
struct AddressEntry {
|
|
InputSection *Section;
|
|
uint64_t LowAddress;
|
|
uint64_t HighAddress;
|
|
uint32_t CuIndex;
|
|
};
|
|
|
|
struct CuEntry {
|
|
uint64_t CuOffset;
|
|
uint64_t CuLength;
|
|
};
|
|
|
|
struct NameTypeEntry {
|
|
llvm::CachedHashStringRef Name;
|
|
uint32_t Type;
|
|
};
|
|
|
|
struct GdbChunk {
|
|
InputSection *Sec;
|
|
std::vector<AddressEntry> AddressAreas;
|
|
std::vector<CuEntry> CompilationUnits;
|
|
};
|
|
|
|
struct GdbSymbol {
|
|
llvm::CachedHashStringRef Name;
|
|
std::vector<uint32_t> CuVector;
|
|
uint32_t NameOff;
|
|
uint32_t CuVectorOff;
|
|
};
|
|
|
|
GdbIndexSection();
|
|
template <typename ELFT> static GdbIndexSection *create();
|
|
void writeTo(uint8_t *Buf) override;
|
|
size_t getSize() const override { return Size; }
|
|
bool empty() const override;
|
|
|
|
private:
|
|
struct GdbIndexHeader {
|
|
llvm::support::ulittle32_t Version;
|
|
llvm::support::ulittle32_t CuListOff;
|
|
llvm::support::ulittle32_t CuTypesOff;
|
|
llvm::support::ulittle32_t AddressAreaOff;
|
|
llvm::support::ulittle32_t SymtabOff;
|
|
llvm::support::ulittle32_t ConstantPoolOff;
|
|
};
|
|
|
|
void initOutputSize();
|
|
size_t computeSymtabSize() const;
|
|
|
|
// Each chunk contains information gathered from debug sections of a
|
|
// single object file.
|
|
std::vector<GdbChunk> Chunks;
|
|
|
|
// A symbol table for this .gdb_index section.
|
|
std::vector<GdbSymbol> Symbols;
|
|
|
|
size_t Size;
|
|
};
|
|
|
|
// --eh-frame-hdr option tells linker to construct a header for all the
|
|
// .eh_frame sections. This header is placed to a section named .eh_frame_hdr
|
|
// and also to a PT_GNU_EH_FRAME segment.
|
|
// At runtime the unwinder then can find all the PT_GNU_EH_FRAME segments by
|
|
// calling dl_iterate_phdr.
|
|
// This section contains a lookup table for quick binary search of FDEs.
|
|
// Detailed info about internals can be found in Ian Lance Taylor's blog:
|
|
// http://www.airs.com/blog/archives/460 (".eh_frame")
|
|
// http://www.airs.com/blog/archives/462 (".eh_frame_hdr")
|
|
class EhFrameHeader final : public SyntheticSection {
|
|
public:
|
|
EhFrameHeader();
|
|
void writeTo(uint8_t *Buf) override;
|
|
size_t getSize() const override;
|
|
bool empty() const override;
|
|
};
|
|
|
|
// For more information about .gnu.version and .gnu.version_r see:
|
|
// https://www.akkadia.org/drepper/symbol-versioning
|
|
|
|
// The .gnu.version_d section which has a section type of SHT_GNU_verdef shall
|
|
// contain symbol version definitions. The number of entries in this section
|
|
// shall be contained in the DT_VERDEFNUM entry of the .dynamic section.
|
|
// The section shall contain an array of Elf_Verdef structures, optionally
|
|
// followed by an array of Elf_Verdaux structures.
|
|
template <class ELFT>
|
|
class VersionDefinitionSection final : public SyntheticSection {
|
|
typedef typename ELFT::Verdef Elf_Verdef;
|
|
typedef typename ELFT::Verdaux Elf_Verdaux;
|
|
|
|
public:
|
|
VersionDefinitionSection();
|
|
void finalizeContents() override;
|
|
size_t getSize() const override;
|
|
void writeTo(uint8_t *Buf) override;
|
|
|
|
private:
|
|
void writeOne(uint8_t *Buf, uint32_t Index, StringRef Name, size_t NameOff);
|
|
|
|
unsigned FileDefNameOff;
|
|
};
|
|
|
|
// The .gnu.version section specifies the required version of each symbol in the
|
|
// dynamic symbol table. It contains one Elf_Versym for each dynamic symbol
|
|
// table entry. An Elf_Versym is just a 16-bit integer that refers to a version
|
|
// identifier defined in the either .gnu.version_r or .gnu.version_d section.
|
|
// The values 0 and 1 are reserved. All other values are used for versions in
|
|
// the own object or in any of the dependencies.
|
|
template <class ELFT>
|
|
class VersionTableSection final : public SyntheticSection {
|
|
typedef typename ELFT::Versym Elf_Versym;
|
|
|
|
public:
|
|
VersionTableSection();
|
|
void finalizeContents() override;
|
|
size_t getSize() const override;
|
|
void writeTo(uint8_t *Buf) override;
|
|
bool empty() const override;
|
|
};
|
|
|
|
// The .gnu.version_r section defines the version identifiers used by
|
|
// .gnu.version. It contains a linked list of Elf_Verneed data structures. Each
|
|
// Elf_Verneed specifies the version requirements for a single DSO, and contains
|
|
// a reference to a linked list of Elf_Vernaux data structures which define the
|
|
// mapping from version identifiers to version names.
|
|
template <class ELFT> class VersionNeedSection final : public SyntheticSection {
|
|
typedef typename ELFT::Verneed Elf_Verneed;
|
|
typedef typename ELFT::Vernaux Elf_Vernaux;
|
|
|
|
// A vector of shared files that need Elf_Verneed data structures and the
|
|
// string table offsets of their sonames.
|
|
std::vector<std::pair<SharedFile<ELFT> *, size_t>> Needed;
|
|
|
|
// The next available version identifier.
|
|
unsigned NextIndex;
|
|
|
|
public:
|
|
VersionNeedSection();
|
|
void addSymbol(Symbol *Sym);
|
|
void finalizeContents() override;
|
|
void writeTo(uint8_t *Buf) override;
|
|
size_t getSize() const override;
|
|
size_t getNeedNum() const { return Needed.size(); }
|
|
bool empty() const override;
|
|
};
|
|
|
|
// MergeSyntheticSection is a class that allows us to put mergeable sections
|
|
// with different attributes in a single output sections. To do that
|
|
// we put them into MergeSyntheticSection synthetic input sections which are
|
|
// attached to regular output sections.
|
|
class MergeSyntheticSection : public SyntheticSection {
|
|
public:
|
|
void addSection(MergeInputSection *MS);
|
|
std::vector<MergeInputSection *> Sections;
|
|
|
|
protected:
|
|
MergeSyntheticSection(StringRef Name, uint32_t Type, uint64_t Flags,
|
|
uint32_t Alignment)
|
|
: SyntheticSection(Flags, Type, Alignment, Name) {}
|
|
};
|
|
|
|
class MergeTailSection final : public MergeSyntheticSection {
|
|
public:
|
|
MergeTailSection(StringRef Name, uint32_t Type, uint64_t Flags,
|
|
uint32_t Alignment);
|
|
|
|
size_t getSize() const override;
|
|
void writeTo(uint8_t *Buf) override;
|
|
void finalizeContents() override;
|
|
|
|
private:
|
|
llvm::StringTableBuilder Builder;
|
|
};
|
|
|
|
class MergeNoTailSection final : public MergeSyntheticSection {
|
|
public:
|
|
MergeNoTailSection(StringRef Name, uint32_t Type, uint64_t Flags,
|
|
uint32_t Alignment)
|
|
: MergeSyntheticSection(Name, Type, Flags, Alignment) {}
|
|
|
|
size_t getSize() const override { return Size; }
|
|
void writeTo(uint8_t *Buf) override;
|
|
void finalizeContents() override;
|
|
|
|
private:
|
|
// We use the most significant bits of a hash as a shard ID.
|
|
// The reason why we don't want to use the least significant bits is
|
|
// because DenseMap also uses lower bits to determine a bucket ID.
|
|
// If we use lower bits, it significantly increases the probability of
|
|
// hash collisons.
|
|
size_t getShardId(uint32_t Hash) {
|
|
return Hash >> (32 - llvm::countTrailingZeros(NumShards));
|
|
}
|
|
|
|
// Section size
|
|
size_t Size;
|
|
|
|
// String table contents
|
|
constexpr static size_t NumShards = 32;
|
|
std::vector<llvm::StringTableBuilder> Shards;
|
|
size_t ShardOffsets[NumShards];
|
|
};
|
|
|
|
// .MIPS.abiflags section.
|
|
template <class ELFT>
|
|
class MipsAbiFlagsSection final : public SyntheticSection {
|
|
typedef llvm::object::Elf_Mips_ABIFlags<ELFT> Elf_Mips_ABIFlags;
|
|
|
|
public:
|
|
static MipsAbiFlagsSection *create();
|
|
|
|
MipsAbiFlagsSection(Elf_Mips_ABIFlags Flags);
|
|
size_t getSize() const override { return sizeof(Elf_Mips_ABIFlags); }
|
|
void writeTo(uint8_t *Buf) override;
|
|
|
|
private:
|
|
Elf_Mips_ABIFlags Flags;
|
|
};
|
|
|
|
// .MIPS.options section.
|
|
template <class ELFT> class MipsOptionsSection final : public SyntheticSection {
|
|
typedef llvm::object::Elf_Mips_Options<ELFT> Elf_Mips_Options;
|
|
typedef llvm::object::Elf_Mips_RegInfo<ELFT> Elf_Mips_RegInfo;
|
|
|
|
public:
|
|
static MipsOptionsSection *create();
|
|
|
|
MipsOptionsSection(Elf_Mips_RegInfo Reginfo);
|
|
void writeTo(uint8_t *Buf) override;
|
|
|
|
size_t getSize() const override {
|
|
return sizeof(Elf_Mips_Options) + sizeof(Elf_Mips_RegInfo);
|
|
}
|
|
|
|
private:
|
|
Elf_Mips_RegInfo Reginfo;
|
|
};
|
|
|
|
// MIPS .reginfo section.
|
|
template <class ELFT> class MipsReginfoSection final : public SyntheticSection {
|
|
typedef llvm::object::Elf_Mips_RegInfo<ELFT> Elf_Mips_RegInfo;
|
|
|
|
public:
|
|
static MipsReginfoSection *create();
|
|
|
|
MipsReginfoSection(Elf_Mips_RegInfo Reginfo);
|
|
size_t getSize() const override { return sizeof(Elf_Mips_RegInfo); }
|
|
void writeTo(uint8_t *Buf) override;
|
|
|
|
private:
|
|
Elf_Mips_RegInfo Reginfo;
|
|
};
|
|
|
|
// This is a MIPS specific section to hold a space within the data segment
|
|
// of executable file which is pointed to by the DT_MIPS_RLD_MAP entry.
|
|
// See "Dynamic section" in Chapter 5 in the following document:
|
|
// ftp://www.linux-mips.org/pub/linux/mips/doc/ABI/mipsabi.pdf
|
|
class MipsRldMapSection : public SyntheticSection {
|
|
public:
|
|
MipsRldMapSection();
|
|
size_t getSize() const override { return Config->Wordsize; }
|
|
void writeTo(uint8_t *Buf) override {}
|
|
};
|
|
|
|
class ARMExidxSentinelSection : public SyntheticSection {
|
|
public:
|
|
ARMExidxSentinelSection();
|
|
size_t getSize() const override { return 8; }
|
|
void writeTo(uint8_t *Buf) override;
|
|
bool empty() const override;
|
|
|
|
static bool classof(const SectionBase *D);
|
|
|
|
// The last section referenced by a regular .ARM.exidx section.
|
|
// It is found and filled in Writer<ELFT>::resolveShfLinkOrder().
|
|
// The sentinel points at the end of that section.
|
|
InputSection *Highest = nullptr;
|
|
};
|
|
|
|
// A container for one or more linker generated thunks. Instances of these
|
|
// thunks including ARM interworking and Mips LA25 PI to non-PI thunks.
|
|
class ThunkSection : public SyntheticSection {
|
|
public:
|
|
// ThunkSection in OS, with desired OutSecOff of Off
|
|
ThunkSection(OutputSection *OS, uint64_t Off);
|
|
|
|
// Add a newly created Thunk to this container:
|
|
// Thunk is given offset from start of this InputSection
|
|
// Thunk defines a symbol in this InputSection that can be used as target
|
|
// of a relocation
|
|
void addThunk(Thunk *T);
|
|
size_t getSize() const override { return Size; }
|
|
void writeTo(uint8_t *Buf) override;
|
|
InputSection *getTargetInputSection() const;
|
|
bool assignOffsets();
|
|
|
|
private:
|
|
std::vector<Thunk *> Thunks;
|
|
size_t Size = 0;
|
|
};
|
|
|
|
InputSection *createInterpSection();
|
|
MergeInputSection *createCommentSection();
|
|
void decompressSections();
|
|
template <class ELFT> void splitSections();
|
|
void mergeSections();
|
|
|
|
Defined *addSyntheticLocal(StringRef Name, uint8_t Type, uint64_t Value,
|
|
uint64_t Size, InputSectionBase &Section);
|
|
|
|
// Linker generated sections which can be used as inputs.
|
|
struct InX {
|
|
static InputSection *ARMAttributes;
|
|
static BssSection *Bss;
|
|
static BssSection *BssRelRo;
|
|
static BuildIdSection *BuildId;
|
|
static EhFrameHeader *EhFrameHdr;
|
|
static EhFrameSection *EhFrame;
|
|
static SyntheticSection *Dynamic;
|
|
static StringTableSection *DynStrTab;
|
|
static SymbolTableBaseSection *DynSymTab;
|
|
static GnuHashTableSection *GnuHashTab;
|
|
static HashTableSection *HashTab;
|
|
static InputSection *Interp;
|
|
static GdbIndexSection *GdbIndex;
|
|
static GotSection *Got;
|
|
static GotPltSection *GotPlt;
|
|
static IgotPltSection *IgotPlt;
|
|
static MipsGotSection *MipsGot;
|
|
static MipsRldMapSection *MipsRldMap;
|
|
static PltSection *Plt;
|
|
static PltSection *Iplt;
|
|
static RelocationBaseSection *RelaDyn;
|
|
static RelrBaseSection *RelrDyn;
|
|
static RelocationBaseSection *RelaPlt;
|
|
static RelocationBaseSection *RelaIplt;
|
|
static StringTableSection *ShStrTab;
|
|
static StringTableSection *StrTab;
|
|
static SymbolTableBaseSection *SymTab;
|
|
static SymtabShndxSection* SymTabShndx;
|
|
};
|
|
|
|
template <class ELFT> struct In {
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static VersionDefinitionSection<ELFT> *VerDef;
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static VersionTableSection<ELFT> *VerSym;
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static VersionNeedSection<ELFT> *VerNeed;
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};
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template <class ELFT> VersionDefinitionSection<ELFT> *In<ELFT>::VerDef;
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template <class ELFT> VersionTableSection<ELFT> *In<ELFT>::VerSym;
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template <class ELFT> VersionNeedSection<ELFT> *In<ELFT>::VerNeed;
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} // namespace elf
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} // namespace lld
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#endif
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