forked from OSchip/llvm-project
419 lines
14 KiB
C++
419 lines
14 KiB
C++
//===- InputSection.h -------------------------------------------*- C++ -*-===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#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/Common/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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namespace lld {
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namespace elf {
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class Symbol;
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struct SectionPiece;
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class Defined;
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struct Partition;
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class SyntheticSection;
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class MergeSyntheticSection;
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template <class ELFT> class ObjFile;
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class OutputSection;
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extern std::vector<Partition> partitions;
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// This is the base class of all sections that lld handles. Some are sections in
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// input files, some are sections in the produced output file and some exist
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// just as a convenience for implementing special ways of combining some
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// sections.
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class SectionBase {
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public:
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enum Kind { Regular, EHFrame, Merge, Synthetic, Output };
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Kind kind() const { return (Kind)sectionKind; }
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StringRef name;
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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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SectionBase *repl;
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uint8_t sectionKind : 3;
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// The next two bit fields are only used by InputSectionBase, but we
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// put them here so the struct packs better.
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uint8_t bss : 1;
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// Set for sections that should not be folded by ICF.
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uint8_t keepUnique : 1;
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// The 1-indexed partition that this section is assigned to by the garbage
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// collector, or 0 if this section is dead. Normally there is only one
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// partition, so this will either be 0 or 1.
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uint8_t partition;
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elf::Partition &getPartition() const;
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// These corresponds to the fields in Elf_Shdr.
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uint32_t alignment;
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uint64_t flags;
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uint64_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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OutputSection *getOutputSection();
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const OutputSection *getOutputSection() const {
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return const_cast<SectionBase *>(this)->getOutputSection();
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}
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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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uint64_t getOffset(uint64_t offset) const;
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uint64_t getVA(uint64_t offset = 0) const;
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bool isLive() const { return partition != 0; }
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void markLive() { partition = 1; }
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void markDead() { partition = 0; }
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protected:
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SectionBase(Kind sectionKind, StringRef name, uint64_t flags,
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uint64_t entsize, uint64_t alignment, uint32_t type,
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uint32_t info, uint32_t link)
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: name(name), repl(this), sectionKind(sectionKind), bss(false),
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keepUnique(false), partition(0), alignment(alignment), flags(flags),
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entsize(entsize), type(type), link(link), info(info) {}
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};
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// This corresponds to a section of an input file.
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class InputSectionBase : public SectionBase {
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public:
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template <class ELFT>
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InputSectionBase(ObjFile<ELFT> &file, const typename ELFT::Shdr &header,
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StringRef name, Kind sectionKind);
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InputSectionBase(InputFile *file, uint64_t flags, uint32_t type,
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uint64_t entsize, uint32_t link, uint32_t info,
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uint32_t alignment, ArrayRef<uint8_t> data, StringRef name,
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Kind sectionKind);
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static bool classof(const SectionBase *s) { return s->kind() != Output; }
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// Relocations that refer to this section.
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unsigned numRelocations : 31;
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unsigned areRelocsRela : 1;
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const void *firstRelocation = nullptr;
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// The file which contains this section. Its dynamic type is always
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// ObjFile<ELFT>, but in order to avoid ELFT, we use InputFile as
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// its static type.
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InputFile *file;
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template <class ELFT> ObjFile<ELFT> *getFile() const {
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return cast_or_null<ObjFile<ELFT>>(file);
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}
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// If basic block sections are enabled, many code sections could end up with
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// one or two jump instructions at the end that could be relaxed to a smaller
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// instruction. The members below help trimming the trailing jump instruction
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// and shrinking a section.
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unsigned bytesDropped = 0;
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// Whether the section needs to be padded with a NOP filler due to
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// deleteFallThruJmpInsn.
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bool nopFiller = false;
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void drop_back(uint64_t num) { bytesDropped += num; }
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void push_back(uint64_t num) {
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assert(bytesDropped >= num);
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bytesDropped -= num;
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}
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void trim() {
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if (bytesDropped) {
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rawData = rawData.drop_back(bytesDropped);
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bytesDropped = 0;
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}
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}
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ArrayRef<uint8_t> data() const {
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if (uncompressedSize >= 0)
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uncompress();
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return rawData;
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}
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uint64_t getOffsetInFile() const;
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// Input sections are part of an output section. Special sections
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// like .eh_frame and merge sections are first combined into a
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// synthetic section that is then added to an output section. In all
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// cases this points one level up.
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SectionBase *parent = nullptr;
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// The next member in the section group if this section is in a group. This is
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// used by --gc-sections.
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InputSectionBase *nextInSectionGroup = nullptr;
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template <class ELFT> ArrayRef<typename ELFT::Rel> rels() const {
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assert(!areRelocsRela);
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return llvm::makeArrayRef(
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static_cast<const typename ELFT::Rel *>(firstRelocation),
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numRelocations);
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}
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template <class ELFT> ArrayRef<typename ELFT::Rela> relas() const {
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assert(areRelocsRela);
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return llvm::makeArrayRef(
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static_cast<const typename ELFT::Rela *>(firstRelocation),
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numRelocations);
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}
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// InputSections that are dependent on us (reverse dependency for GC)
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llvm::TinyPtrVector<InputSection *> dependentSections;
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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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InputSection *getLinkOrderDep() const;
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// Get the function symbol that encloses this offset from within the
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// section.
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template <class ELFT>
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Defined *getEnclosingFunction(uint64_t offset);
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// Returns a source location string. Used to construct an error message.
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template <class ELFT> std::string getLocation(uint64_t offset);
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std::string getSrcMsg(const Symbol &sym, uint64_t offset);
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std::string getObjMsg(uint64_t offset);
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// Each section knows how to relocate itself. These functions apply
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// relocations, assuming that Buf points to this section's copy in
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// the mmap'ed output buffer.
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template <class ELFT> void relocate(uint8_t *buf, uint8_t *bufEnd);
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void relocateAlloc(uint8_t *buf, uint8_t *bufEnd);
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static uint64_t getRelocTargetVA(const InputFile *File, RelType Type,
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int64_t A, uint64_t P, const Symbol &Sym,
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RelExpr Expr);
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// The native ELF reloc data type is not very convenient to handle.
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// So we convert ELF reloc records to our own records in Relocations.cpp.
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// This vector contains such "cooked" relocations.
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SmallVector<Relocation, 0> relocations;
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// These are modifiers to jump instructions that are necessary when basic
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// block sections are enabled. Basic block sections creates opportunities to
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// relax jump instructions at basic block boundaries after reordering the
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// basic blocks.
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SmallVector<JumpInstrMod, 0> jumpInstrMods;
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// A function compiled with -fsplit-stack calling a function
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// compiled without -fsplit-stack needs its prologue adjusted. Find
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// such functions and adjust their prologues. This is very similar
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// to relocation. See https://gcc.gnu.org/wiki/SplitStacks for more
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// information.
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template <typename ELFT>
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void adjustSplitStackFunctionPrologues(uint8_t *buf, uint8_t *end);
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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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protected:
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template <typename ELFT>
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void parseCompressedHeader();
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void uncompress() const;
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mutable ArrayRef<uint8_t> rawData;
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// This field stores the uncompressed size of the compressed data in rawData,
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// or -1 if rawData is not compressed (either because the section wasn't
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// compressed in the first place, or because we ended up uncompressing it).
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// Since the feature is not used often, this is usually -1.
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mutable int64_t uncompressedSize = -1;
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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).
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struct SectionPiece {
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SectionPiece(size_t off, uint32_t hash, bool live)
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: inputOff(off), live(live || !config->gcSections), hash(hash >> 1) {}
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uint32_t inputOff;
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uint32_t live : 1;
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uint32_t hash : 31;
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uint64_t outputOff = 0;
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};
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static_assert(sizeof(SectionPiece) == 16, "SectionPiece is too big");
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// This corresponds to a SHF_MERGE section of an input file.
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class MergeInputSection : public InputSectionBase {
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public:
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template <class ELFT>
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MergeInputSection(ObjFile<ELFT> &f, const typename ELFT::Shdr &header,
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StringRef name);
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MergeInputSection(uint64_t flags, uint32_t type, uint64_t entsize,
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ArrayRef<uint8_t> data, StringRef name);
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static bool classof(const SectionBase *s) { return s->kind() == Merge; }
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void splitIntoPieces();
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// Translate an offset in the input section to an offset in the parent
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// MergeSyntheticSection.
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uint64_t getParentOffset(uint64_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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(pieces.size() - 1 == i) ? data().size() : pieces[i + 1].inputOff;
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return {toStringRef(data().slice(begin, end - begin)), pieces[i].hash};
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}
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// Returns the SectionPiece at a given input section offset.
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SectionPiece *getSectionPiece(uint64_t offset);
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const SectionPiece *getSectionPiece(uint64_t offset) const {
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return const_cast<MergeInputSection *>(this)->getSectionPiece(offset);
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}
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SyntheticSection *getParent() 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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};
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struct EhSectionPiece {
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EhSectionPiece(size_t off, InputSectionBase *sec, uint32_t size,
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unsigned firstRelocation)
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: inputOff(off), sec(sec), size(size), firstRelocation(firstRelocation) {}
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ArrayRef<uint8_t> data() const {
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return {sec->data().data() + this->inputOff, size};
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}
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size_t inputOff;
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ssize_t outputOff = -1;
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InputSectionBase *sec;
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uint32_t 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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class EhInputSection : public InputSectionBase {
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public:
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template <class ELFT>
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EhInputSection(ObjFile<ELFT> &f, const typename ELFT::Shdr &header,
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StringRef name);
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static bool classof(const SectionBase *s) { return s->kind() == EHFrame; }
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template <class ELFT> void split();
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template <class ELFT, 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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SyntheticSection *getParent() const;
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};
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// This is a section that is added directly to an output section
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// instead of needing special combination via a synthetic section. This
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// includes all input sections with the exceptions of SHF_MERGE and
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// .eh_frame. It also includes the synthetic sections themselves.
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class InputSection : public InputSectionBase {
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public:
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InputSection(InputFile *f, uint64_t flags, uint32_t type, uint32_t alignment,
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ArrayRef<uint8_t> data, StringRef name, Kind k = Regular);
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template <class ELFT>
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InputSection(ObjFile<ELFT> &f, const typename ELFT::Shdr &header,
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StringRef name);
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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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template <class ELFT> void writeTo(uint8_t *buf);
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uint64_t getOffset(uint64_t offset) const { return outSecOff + offset; }
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OutputSection *getParent() const;
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// This variable has two usages. Initially, it represents an index in the
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// OutputSection's InputSection list, and is used when ordering SHF_LINK_ORDER
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// sections. After assignAddresses is called, it represents the offset from
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// the beginning of the output section this section was assigned to.
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uint64_t outSecOff = 0;
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static bool classof(const SectionBase *s);
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InputSectionBase *getRelocatedSection() const;
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template <class ELFT, 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 eqClass[2] = {0, 0};
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// Called by ICF to merge two input sections.
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void replace(InputSection *other);
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static InputSection discarded;
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private:
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template <class ELFT, class RelTy>
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void copyRelocations(uint8_t *buf, llvm::ArrayRef<RelTy> rels);
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template <class ELFT> void copyShtGroup(uint8_t *buf);
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};
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#ifdef _WIN32
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static_assert(sizeof(InputSection) <= 192, "InputSection is too big");
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#else
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static_assert(sizeof(InputSection) <= 184, "InputSection is too big");
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#endif
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inline bool isDebugSection(const InputSectionBase &sec) {
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return (sec.flags & llvm::ELF::SHF_ALLOC) == 0 &&
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(sec.name.startswith(".debug") || sec.name.startswith(".zdebug"));
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}
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// The list of all input sections.
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extern std::vector<InputSectionBase *> inputSections;
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// The set of TOC entries (.toc + addend) for which we should not apply
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// toc-indirect to toc-relative relaxation. const Symbol * refers to the
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// STT_SECTION symbol associated to the .toc input section.
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extern llvm::DenseSet<std::pair<const Symbol *, uint64_t>> ppc64noTocRelax;
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} // namespace elf
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std::string toString(const elf::InputSectionBase *);
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} // namespace lld
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#endif
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