forked from OSchip/llvm-project
563 lines
20 KiB
C++
563 lines
20 KiB
C++
//===- Symbols.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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//
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// This file defines various types of Symbols.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLD_ELF_SYMBOLS_H
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#define LLD_ELF_SYMBOLS_H
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#include "Config.h"
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#include "lld/Common/LLVM.h"
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#include "lld/Common/Memory.h"
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#include "llvm/ADT/DenseMap.h"
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#include "llvm/Object/ELF.h"
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#include <tuple>
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namespace lld {
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namespace elf {
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class Symbol;
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}
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// Returns a string representation for a symbol for diagnostics.
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std::string toString(const elf::Symbol &);
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namespace elf {
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class CommonSymbol;
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class Defined;
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class OutputSection;
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class SectionBase;
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class InputSectionBase;
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class SharedSymbol;
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class Symbol;
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class Undefined;
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class LazyObject;
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class InputFile;
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// Some index properties of a symbol are stored separately in this auxiliary
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// struct to decrease sizeof(SymbolUnion) in the majority of cases.
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struct SymbolAux {
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uint32_t gotIdx = -1;
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uint32_t pltIdx = -1;
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uint32_t tlsDescIdx = -1;
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uint32_t tlsGdIdx = -1;
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};
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extern SmallVector<SymbolAux, 0> symAux;
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// The base class for real symbol classes.
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class Symbol {
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public:
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enum Kind {
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PlaceholderKind,
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DefinedKind,
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CommonKind,
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SharedKind,
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UndefinedKind,
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LazyObjectKind,
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};
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Kind kind() const { return static_cast<Kind>(symbolKind); }
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// The file from which this symbol was created.
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InputFile *file;
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protected:
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const char *nameData;
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// 32-bit size saves space.
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uint32_t nameSize;
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public:
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// The next three fields have the same meaning as the ELF symbol attributes.
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// type and binding are placed in this order to optimize generating st_info,
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// which is defined as (binding << 4) + (type & 0xf), on a little-endian
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// system.
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uint8_t type : 4; // symbol type
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// Symbol binding. This is not overwritten by replace() to track
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// changes during resolution. In particular:
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// - An undefined weak is still weak when it resolves to a shared library.
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// - An undefined weak will not extract archive members, but we have to
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// remember it is weak.
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uint8_t binding : 4;
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uint8_t stOther; // st_other field value
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uint8_t symbolKind;
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// The partition whose dynamic symbol table contains this symbol's definition.
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uint8_t partition = 1;
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// Symbol visibility. This is the computed minimum visibility of all
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// observed non-DSO symbols.
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uint8_t visibility : 2;
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// True if this symbol is preemptible at load time.
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uint8_t isPreemptible : 1;
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// True if the symbol was used for linking and thus need to be added to the
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// output file's symbol table. This is true for all symbols except for
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// unreferenced DSO symbols, lazy (archive) symbols, and bitcode symbols that
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// are unreferenced except by other bitcode objects.
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uint8_t isUsedInRegularObj : 1;
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// True if an undefined or shared symbol is used from a live section.
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//
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// NOTE: In Writer.cpp the field is used to mark local defined symbols
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// which are referenced by relocations when -r or --emit-relocs is given.
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uint8_t used : 1;
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// Used by a Defined symbol with protected or default visibility, to record
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// whether it is required to be exported into .dynsym. This is set when any of
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// the following conditions hold:
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//
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// - If there is an interposable symbol from a DSO. Note: We also do this for
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// STV_PROTECTED symbols which can't be interposed (to match BFD behavior).
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// - If -shared or --export-dynamic is specified, any symbol in an object
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// file/bitcode sets this property, unless suppressed by LTO
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// canBeOmittedFromSymbolTable().
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uint8_t exportDynamic : 1;
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// True if the symbol is in the --dynamic-list file. A Defined symbol with
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// protected or default visibility with this property is required to be
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// exported into .dynsym.
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uint8_t inDynamicList : 1;
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// Used to track if there has been at least one undefined reference to the
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// symbol. For Undefined and SharedSymbol, the binding may change to STB_WEAK
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// if the first undefined reference from a non-shared object is weak.
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uint8_t referenced : 1;
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// Used to track if this symbol will be referenced after wrapping is performed
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// (i.e. this will be true for foo if __real_foo is referenced, and will be
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// true for __wrap_foo if foo is referenced).
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uint8_t referencedAfterWrap : 1;
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// True if this symbol is specified by --trace-symbol option.
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uint8_t traced : 1;
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// True if the name contains '@'.
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uint8_t hasVersionSuffix : 1;
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inline void replace(const Symbol &other);
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bool includeInDynsym() const;
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uint8_t computeBinding() const;
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bool isGlobal() const { return binding == llvm::ELF::STB_GLOBAL; }
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bool isWeak() const { return binding == llvm::ELF::STB_WEAK; }
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bool isUndefined() const { return symbolKind == UndefinedKind; }
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bool isCommon() const { return symbolKind == CommonKind; }
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bool isDefined() const { return symbolKind == DefinedKind; }
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bool isShared() const { return symbolKind == SharedKind; }
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bool isPlaceholder() const { return symbolKind == PlaceholderKind; }
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bool isLocal() const { return binding == llvm::ELF::STB_LOCAL; }
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bool isLazy() const { return symbolKind == LazyObjectKind; }
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// True if this is an undefined weak symbol. This only works once
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// all input files have been added.
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bool isUndefWeak() const { return isWeak() && isUndefined(); }
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StringRef getName() const { return {nameData, nameSize}; }
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void setName(StringRef s) {
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nameData = s.data();
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nameSize = s.size();
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}
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void parseSymbolVersion();
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// Get the NUL-terminated version suffix ("", "@...", or "@@...").
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//
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// For @@, the name has been truncated by insert(). For @, the name has been
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// truncated by Symbol::parseSymbolVersion().
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const char *getVersionSuffix() const { return nameData + nameSize; }
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uint32_t getGotIdx() const {
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return auxIdx == uint32_t(-1) ? uint32_t(-1) : symAux[auxIdx].gotIdx;
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}
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uint32_t getPltIdx() const {
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return auxIdx == uint32_t(-1) ? uint32_t(-1) : symAux[auxIdx].pltIdx;
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}
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uint32_t getTlsDescIdx() const {
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return auxIdx == uint32_t(-1) ? uint32_t(-1) : symAux[auxIdx].tlsDescIdx;
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}
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uint32_t getTlsGdIdx() const {
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return auxIdx == uint32_t(-1) ? uint32_t(-1) : symAux[auxIdx].tlsGdIdx;
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}
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bool isInGot() const { return getGotIdx() != uint32_t(-1); }
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bool isInPlt() const { return getPltIdx() != uint32_t(-1); }
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uint64_t getVA(int64_t addend = 0) const;
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uint64_t getGotOffset() const;
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uint64_t getGotVA() const;
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uint64_t getGotPltOffset() const;
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uint64_t getGotPltVA() const;
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uint64_t getPltVA() const;
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uint64_t getSize() const;
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OutputSection *getOutputSection() const;
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// The following two functions are used for symbol resolution.
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//
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// You are expected to call mergeProperties for all symbols in input
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// files so that attributes that are attached to names rather than
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// indivisual symbol (such as visibility) are merged together.
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//
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// Every time you read a new symbol from an input, you are supposed
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// to call resolve() with the new symbol. That function replaces
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// "this" object as a result of name resolution if the new symbol is
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// more appropriate to be included in the output.
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//
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// For example, if "this" is an undefined symbol and a new symbol is
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// a defined symbol, "this" is replaced with the new symbol.
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void mergeProperties(const Symbol &other);
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void resolve(const Symbol &other);
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// If this is a lazy symbol, extract an input file and add the symbol
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// in the file to the symbol table. Calling this function on
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// non-lazy object causes a runtime error.
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void extract() const;
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void checkDuplicate(const Defined &other) const;
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private:
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void resolveUndefined(const Undefined &other);
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void resolveCommon(const CommonSymbol &other);
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void resolveDefined(const Defined &other);
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void resolveLazy(const LazyObject &other);
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void resolveShared(const SharedSymbol &other);
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bool shouldReplace(const Defined &other) const;
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inline size_t getSymbolSize() const;
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protected:
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Symbol(Kind k, InputFile *file, StringRef name, uint8_t binding,
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uint8_t stOther, uint8_t type)
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: file(file), nameData(name.data()), nameSize(name.size()), type(type),
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binding(binding), stOther(stOther), symbolKind(k),
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visibility(stOther & 3), isPreemptible(false),
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isUsedInRegularObj(false), used(false), exportDynamic(false),
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inDynamicList(false), referenced(false), referencedAfterWrap(false),
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traced(false), hasVersionSuffix(false), isInIplt(false),
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gotInIgot(false), folded(false), needsTocRestore(false),
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scriptDefined(false), needsCopy(false), needsGot(false),
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needsPlt(false), needsTlsDesc(false), needsTlsGd(false),
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needsTlsGdToIe(false), needsGotDtprel(false), needsTlsIe(false),
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hasDirectReloc(false) {}
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public:
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// True if this symbol is in the Iplt sub-section of the Plt and the Igot
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// sub-section of the .got.plt or .got.
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uint8_t isInIplt : 1;
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// True if this symbol needs a GOT entry and its GOT entry is actually in
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// Igot. This will be true only for certain non-preemptible ifuncs.
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uint8_t gotInIgot : 1;
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// True if defined relative to a section discarded by ICF.
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uint8_t folded : 1;
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// True if a call to this symbol needs to be followed by a restore of the
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// PPC64 toc pointer.
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uint8_t needsTocRestore : 1;
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// True if this symbol is defined by a symbol assignment or wrapped by --wrap.
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//
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// LTO shouldn't inline the symbol because it doesn't know the final content
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// of the symbol.
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uint8_t scriptDefined : 1;
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// True if this symbol needs a canonical PLT entry, or (during
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// postScanRelocations) a copy relocation.
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uint8_t needsCopy : 1;
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// Temporary flags used to communicate which symbol entries need PLT and GOT
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// entries during postScanRelocations();
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uint8_t needsGot : 1;
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uint8_t needsPlt : 1;
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uint8_t needsTlsDesc : 1;
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uint8_t needsTlsGd : 1;
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uint8_t needsTlsGdToIe : 1;
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uint8_t needsGotDtprel : 1;
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uint8_t needsTlsIe : 1;
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uint8_t hasDirectReloc : 1;
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// A symAux index used to access GOT/PLT entry indexes. This is allocated in
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// postScanRelocations().
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uint32_t auxIdx = -1;
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uint32_t dynsymIndex = 0;
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// This field is a index to the symbol's version definition.
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uint16_t verdefIndex = -1;
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// Version definition index.
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uint16_t versionId;
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bool needsDynReloc() const {
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return needsCopy || needsGot || needsPlt || needsTlsDesc || needsTlsGd ||
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needsTlsGdToIe || needsGotDtprel || needsTlsIe;
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}
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void allocateAux() {
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assert(auxIdx == uint32_t(-1));
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auxIdx = symAux.size();
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symAux.emplace_back();
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}
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bool isSection() const { return type == llvm::ELF::STT_SECTION; }
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bool isTls() const { return type == llvm::ELF::STT_TLS; }
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bool isFunc() const { return type == llvm::ELF::STT_FUNC; }
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bool isGnuIFunc() const { return type == llvm::ELF::STT_GNU_IFUNC; }
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bool isObject() const { return type == llvm::ELF::STT_OBJECT; }
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bool isFile() const { return type == llvm::ELF::STT_FILE; }
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};
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// Represents a symbol that is defined in the current output file.
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class Defined : public Symbol {
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public:
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Defined(InputFile *file, StringRef name, uint8_t binding, uint8_t stOther,
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uint8_t type, uint64_t value, uint64_t size, SectionBase *section)
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: Symbol(DefinedKind, file, name, binding, stOther, type), value(value),
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size(size), section(section) {
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exportDynamic = config->exportDynamic;
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}
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static bool classof(const Symbol *s) { return s->isDefined(); }
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uint64_t value;
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uint64_t size;
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SectionBase *section;
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};
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// Represents a common symbol.
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//
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// On Unix, it is traditionally allowed to write variable definitions
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// without initialization expressions (such as "int foo;") to header
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// files. Such definition is called "tentative definition".
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//
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// Using tentative definition is usually considered a bad practice
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// because you should write only declarations (such as "extern int
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// foo;") to header files. Nevertheless, the linker and the compiler
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// have to do something to support bad code by allowing duplicate
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// definitions for this particular case.
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//
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// Common symbols represent variable definitions without initializations.
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// The compiler creates common symbols when it sees variable definitions
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// without initialization (you can suppress this behavior and let the
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// compiler create a regular defined symbol by -fno-common).
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//
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// The linker allows common symbols to be replaced by regular defined
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// symbols. If there are remaining common symbols after name resolution is
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// complete, they are converted to regular defined symbols in a .bss
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// section. (Therefore, the later passes don't see any CommonSymbols.)
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class CommonSymbol : public Symbol {
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public:
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CommonSymbol(InputFile *file, StringRef name, uint8_t binding,
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uint8_t stOther, uint8_t type, uint64_t alignment, uint64_t size)
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: Symbol(CommonKind, file, name, binding, stOther, type),
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alignment(alignment), size(size) {
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exportDynamic = config->exportDynamic;
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}
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static bool classof(const Symbol *s) { return s->isCommon(); }
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uint32_t alignment;
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uint64_t size;
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};
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class Undefined : public Symbol {
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public:
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Undefined(InputFile *file, StringRef name, uint8_t binding, uint8_t stOther,
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uint8_t type, uint32_t discardedSecIdx = 0)
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: Symbol(UndefinedKind, file, name, binding, stOther, type),
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discardedSecIdx(discardedSecIdx) {}
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static bool classof(const Symbol *s) { return s->kind() == UndefinedKind; }
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// The section index if in a discarded section, 0 otherwise.
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uint32_t discardedSecIdx;
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bool nonPrevailing = false;
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};
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class SharedSymbol : public Symbol {
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public:
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static bool classof(const Symbol *s) { return s->kind() == SharedKind; }
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SharedSymbol(InputFile &file, StringRef name, uint8_t binding,
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uint8_t stOther, uint8_t type, uint64_t value, uint64_t size,
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uint32_t alignment)
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: Symbol(SharedKind, &file, name, binding, stOther, type), value(value),
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size(size), alignment(alignment) {
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exportDynamic = true;
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// GNU ifunc is a mechanism to allow user-supplied functions to
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// resolve PLT slot values at load-time. This is contrary to the
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// regular symbol resolution scheme in which symbols are resolved just
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// by name. Using this hook, you can program how symbols are solved
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// for you program. For example, you can make "memcpy" to be resolved
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// to a SSE-enabled version of memcpy only when a machine running the
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// program supports the SSE instruction set.
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//
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// Naturally, such symbols should always be called through their PLT
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// slots. What GNU ifunc symbols point to are resolver functions, and
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// calling them directly doesn't make sense (unless you are writing a
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// loader).
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//
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// For DSO symbols, we always call them through PLT slots anyway.
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// So there's no difference between GNU ifunc and regular function
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// symbols if they are in DSOs. So we can handle GNU_IFUNC as FUNC.
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if (this->type == llvm::ELF::STT_GNU_IFUNC)
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this->type = llvm::ELF::STT_FUNC;
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}
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uint64_t value; // st_value
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uint64_t size; // st_size
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uint32_t alignment;
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};
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// LazyObject symbols represent symbols in object files between --start-lib and
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// --end-lib options. LLD also handles traditional archives as if all the files
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// in the archive are surrounded by --start-lib and --end-lib.
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//
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// A special complication is the handling of weak undefined symbols. They should
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// not load a file, but we have to remember we have seen both the weak undefined
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// and the lazy. We represent that with a lazy symbol with a weak binding. This
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// means that code looking for undefined symbols normally also has to take lazy
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// symbols into consideration.
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class LazyObject : public Symbol {
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public:
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LazyObject(InputFile &file)
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: Symbol(LazyObjectKind, &file, {}, llvm::ELF::STB_GLOBAL,
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llvm::ELF::STV_DEFAULT, llvm::ELF::STT_NOTYPE) {}
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static bool classof(const Symbol *s) { return s->kind() == LazyObjectKind; }
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};
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// Some linker-generated symbols need to be created as
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// Defined symbols.
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struct ElfSym {
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// __bss_start
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static Defined *bss;
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// etext and _etext
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static Defined *etext1;
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static Defined *etext2;
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// edata and _edata
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static Defined *edata1;
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static Defined *edata2;
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// end and _end
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static Defined *end1;
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static Defined *end2;
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// The _GLOBAL_OFFSET_TABLE_ symbol is defined by target convention to
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// be at some offset from the base of the .got section, usually 0 or
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// the end of the .got.
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static Defined *globalOffsetTable;
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// _gp, _gp_disp and __gnu_local_gp symbols. Only for MIPS.
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static Defined *mipsGp;
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static Defined *mipsGpDisp;
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static Defined *mipsLocalGp;
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// __rel{,a}_iplt_{start,end} symbols.
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static Defined *relaIpltStart;
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static Defined *relaIpltEnd;
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// __global_pointer$ for RISC-V.
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static Defined *riscvGlobalPointer;
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// _TLS_MODULE_BASE_ on targets that support TLSDESC.
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static Defined *tlsModuleBase;
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};
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// A buffer class that is large enough to hold any Symbol-derived
|
|
// object. We allocate memory using this class and instantiate a symbol
|
|
// using the placement new.
|
|
|
|
// It is important to keep the size of SymbolUnion small for performance and
|
|
// memory usage reasons. 64 bytes is a soft limit based on the size of Defined
|
|
// on a 64-bit system. This is enforced by a static_assert in Symbols.cpp.
|
|
union SymbolUnion {
|
|
alignas(Defined) char a[sizeof(Defined)];
|
|
alignas(CommonSymbol) char b[sizeof(CommonSymbol)];
|
|
alignas(Undefined) char c[sizeof(Undefined)];
|
|
alignas(SharedSymbol) char d[sizeof(SharedSymbol)];
|
|
alignas(LazyObject) char e[sizeof(LazyObject)];
|
|
};
|
|
|
|
void printTraceSymbol(const Symbol &sym, StringRef name);
|
|
|
|
size_t Symbol::getSymbolSize() const {
|
|
switch (kind()) {
|
|
case CommonKind:
|
|
return sizeof(CommonSymbol);
|
|
case DefinedKind:
|
|
return sizeof(Defined);
|
|
case LazyObjectKind:
|
|
return sizeof(LazyObject);
|
|
case SharedKind:
|
|
return sizeof(SharedSymbol);
|
|
case UndefinedKind:
|
|
return sizeof(Undefined);
|
|
case PlaceholderKind:
|
|
return sizeof(Symbol);
|
|
}
|
|
llvm_unreachable("unknown symbol kind");
|
|
}
|
|
|
|
// replace() replaces "this" object with a given symbol by memcpy'ing
|
|
// it over to "this". This function is called as a result of name
|
|
// resolution, e.g. to replace an undefind symbol with a defined symbol.
|
|
void Symbol::replace(const Symbol &other) {
|
|
Symbol old = *this;
|
|
memcpy(this, &other, other.getSymbolSize());
|
|
|
|
// old may be a placeholder. The referenced fields must be initialized in
|
|
// SymbolTable::insert.
|
|
nameData = old.nameData;
|
|
nameSize = old.nameSize;
|
|
partition = old.partition;
|
|
visibility = old.visibility;
|
|
isPreemptible = old.isPreemptible;
|
|
isUsedInRegularObj = old.isUsedInRegularObj;
|
|
exportDynamic = old.exportDynamic;
|
|
inDynamicList = old.inDynamicList;
|
|
referenced = old.referenced;
|
|
traced = old.traced;
|
|
hasVersionSuffix = old.hasVersionSuffix;
|
|
scriptDefined = old.scriptDefined;
|
|
versionId = old.versionId;
|
|
|
|
// Print out a log message if --trace-symbol was specified.
|
|
// This is for debugging.
|
|
if (traced)
|
|
printTraceSymbol(*this, getName());
|
|
}
|
|
|
|
template <typename... T> Defined *makeDefined(T &&...args) {
|
|
return new (reinterpret_cast<Defined *>(
|
|
getSpecificAllocSingleton<SymbolUnion>().Allocate()))
|
|
Defined(std::forward<T>(args)...);
|
|
}
|
|
|
|
void reportDuplicate(const Symbol &sym, const InputFile *newFile,
|
|
InputSectionBase *errSec, uint64_t errOffset);
|
|
void maybeWarnUnorderableSymbol(const Symbol *sym);
|
|
bool computeIsPreemptible(const Symbol &sym);
|
|
void reportBackrefs();
|
|
|
|
} // namespace elf
|
|
} // namespace lld
|
|
|
|
#endif
|