This makes our error messages more informative. But the bigger motivation is for LTO symbol resolution, which will be in an upcoming diff. The changes in this one are largely mechanical. Reviewed By: #lld-macho, smeenai Differential Revision: https://reviews.llvm.org/D94316
285 lines
9.0 KiB
C++
285 lines
9.0 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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#ifndef LLD_MACHO_SYMBOLS_H
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#define LLD_MACHO_SYMBOLS_H
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#include "InputFiles.h"
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#include "InputSection.h"
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#include "Target.h"
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#include "lld/Common/ErrorHandler.h"
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#include "lld/Common/Strings.h"
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#include "llvm/Object/Archive.h"
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#include "llvm/Support/MathExtras.h"
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namespace lld {
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namespace macho {
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class InputSection;
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class MachHeaderSection;
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struct StringRefZ {
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StringRefZ(const char *s) : data(s), size(-1) {}
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StringRefZ(StringRef s) : data(s.data()), size(s.size()) {}
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const char *data;
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const uint32_t size;
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};
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class Symbol {
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public:
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enum Kind {
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DefinedKind,
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UndefinedKind,
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CommonKind,
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DylibKind,
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LazyKind,
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DSOHandleKind,
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};
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virtual ~Symbol() {}
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Kind kind() const { return static_cast<Kind>(symbolKind); }
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StringRef getName() const {
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if (nameSize == (uint32_t)-1)
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nameSize = strlen(nameData);
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return {nameData, nameSize};
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}
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virtual uint64_t getVA() const { return 0; }
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virtual uint64_t getFileOffset() const {
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llvm_unreachable("attempt to get an offset from a non-defined symbol");
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}
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virtual bool isWeakDef() const { llvm_unreachable("cannot be weak def"); }
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// Only undefined or dylib symbols can be weak references. A weak reference
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// need not be satisfied at runtime, e.g. due to the symbol not being
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// available on a given target platform.
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virtual bool isWeakRef() const { llvm_unreachable("cannot be a weak ref"); }
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virtual bool isTlv() const { llvm_unreachable("cannot be TLV"); }
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// Whether this symbol is in the GOT or TLVPointer sections.
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bool isInGot() const { return gotIndex != UINT32_MAX; }
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// Whether this symbol is in the StubsSection.
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bool isInStubs() const { return stubsIndex != UINT32_MAX; }
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// The index of this symbol in the GOT or the TLVPointer section, depending
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// on whether it is a thread-local. A given symbol cannot be referenced by
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// both these sections at once.
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uint32_t gotIndex = UINT32_MAX;
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uint32_t stubsIndex = UINT32_MAX;
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uint32_t symtabIndex = UINT32_MAX;
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InputFile *getFile() const { return file; }
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protected:
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Symbol(Kind k, StringRefZ name, InputFile *file)
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: symbolKind(k), nameData(name.data), nameSize(name.size), file(file) {}
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Kind symbolKind;
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const char *nameData;
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mutable uint32_t nameSize;
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InputFile *file;
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};
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class Defined : public Symbol {
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public:
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Defined(StringRefZ name, InputFile *file, InputSection *isec, uint32_t value,
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bool isWeakDef, bool isExternal, bool isPrivateExtern)
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: Symbol(DefinedKind, name, file), isec(isec), value(value),
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overridesWeakDef(false), privateExtern(isPrivateExtern),
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weakDef(isWeakDef), external(isExternal) {}
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bool isWeakDef() const override { return weakDef; }
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bool isExternalWeakDef() const {
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return isWeakDef() && isExternal() && !privateExtern;
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}
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bool isTlv() const override {
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return !isAbsolute() && isThreadLocalVariables(isec->flags);
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}
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bool isExternal() const { return external; }
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bool isAbsolute() const { return isec == nullptr; }
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uint64_t getVA() const override;
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uint64_t getFileOffset() const override;
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static bool classof(const Symbol *s) { return s->kind() == DefinedKind; }
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InputFile *file;
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InputSection *isec;
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uint32_t value;
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bool overridesWeakDef : 1;
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bool privateExtern : 1;
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private:
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const bool weakDef : 1;
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const bool external : 1;
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};
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// This enum does double-duty: as a symbol property, it indicates whether & how
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// a dylib symbol is referenced. As a DylibFile property, it indicates the kind
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// of referenced symbols contained within the file. If there are both weak
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// and strong references to the same file, we will count the file as
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// strongly-referenced.
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enum class RefState : uint8_t { Unreferenced = 0, Weak = 1, Strong = 2 };
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class Undefined : public Symbol {
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public:
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Undefined(StringRefZ name, InputFile *file, RefState refState)
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: Symbol(UndefinedKind, name, file), refState(refState) {
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assert(refState != RefState::Unreferenced);
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}
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bool isWeakRef() const override { return refState == RefState::Weak; }
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static bool classof(const Symbol *s) { return s->kind() == UndefinedKind; }
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RefState refState : 2;
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};
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// On Unix, it is traditionally allowed to write variable definitions without
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// initialization expressions (such as "int foo;") to header files. These are
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// called tentative definitions.
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//
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// Using tentative definitions is usually considered a bad practice; you should
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// write only declarations (such as "extern int foo;") to header files.
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// Nevertheless, the linker and the compiler have to do something to support
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// bad code by allowing duplicate definitions for this particular case.
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//
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// The compiler creates common symbols when it sees tentative definitions.
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// (You can suppress this behavior and let the compiler create a regular
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// defined symbol by passing -fno-common. -fno-common is the default in clang
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// as of LLVM 11.0.) When linking the final binary, if there are remaining
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// common symbols after name resolution is complete, the linker converts them
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// to regular defined symbols in a __common section.
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class CommonSymbol : public Symbol {
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public:
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CommonSymbol(StringRefZ name, InputFile *file, uint64_t size, uint32_t align,
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bool isPrivateExtern)
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: Symbol(CommonKind, name, file), size(size),
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align(align != 1 ? align : llvm::PowerOf2Ceil(size)),
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privateExtern(isPrivateExtern) {
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// TODO: cap maximum alignment
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}
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static bool classof(const Symbol *s) { return s->kind() == CommonKind; }
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const uint64_t size;
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const uint32_t align;
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const bool privateExtern;
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};
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class DylibSymbol : public Symbol {
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public:
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DylibSymbol(DylibFile *file, StringRefZ name, bool isWeakDef,
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RefState refState, bool isTlv)
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: Symbol(DylibKind, name, file), refState(refState), weakDef(isWeakDef),
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tlv(isTlv) {}
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bool isWeakDef() const override { return weakDef; }
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bool isWeakRef() const override { return refState == RefState::Weak; }
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bool isReferenced() const { return refState != RefState::Unreferenced; }
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bool isTlv() const override { return tlv; }
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bool hasStubsHelper() const { return stubsHelperIndex != UINT32_MAX; }
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DylibFile *getFile() const { return cast<DylibFile>(file); }
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static bool classof(const Symbol *s) { return s->kind() == DylibKind; }
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uint32_t stubsHelperIndex = UINT32_MAX;
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uint32_t lazyBindOffset = UINT32_MAX;
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RefState refState : 2;
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private:
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const bool weakDef : 1;
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const bool tlv : 1;
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};
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class LazySymbol : public Symbol {
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public:
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LazySymbol(ArchiveFile *file, const llvm::object::Archive::Symbol &sym)
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: Symbol(LazyKind, sym.getName(), file), sym(sym) {}
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ArchiveFile *getFile() const { return cast<ArchiveFile>(file); }
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void fetchArchiveMember();
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static bool classof(const Symbol *s) { return s->kind() == LazyKind; }
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private:
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const llvm::object::Archive::Symbol sym;
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};
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// The Itanium C++ ABI requires dylibs to pass a pointer to __cxa_atexit which
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// does e.g. cleanup of static global variables. The ABI document says that the
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// pointer can point to any address in one of the dylib's segments, but in
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// practice ld64 seems to set it to point to the header, so that's what's
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// implemented here.
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//
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// The ARM C++ ABI uses __dso_handle similarly, but I (int3) have not yet
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// tested this on an ARM platform.
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//
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// DSOHandle effectively functions like a Defined symbol, but it doesn't belong
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// to an InputSection.
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class DSOHandle : public Symbol {
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public:
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DSOHandle(const MachHeaderSection *header)
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: Symbol(DSOHandleKind, name, nullptr), header(header) {}
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const MachHeaderSection *header;
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uint64_t getVA() const override;
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uint64_t getFileOffset() const override;
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bool isWeakDef() const override { return false; }
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bool isTlv() const override { return false; }
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static constexpr StringRef name = "___dso_handle";
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static bool classof(const Symbol *s) { return s->kind() == DSOHandleKind; }
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};
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union SymbolUnion {
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alignas(Defined) char a[sizeof(Defined)];
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alignas(Undefined) char b[sizeof(Undefined)];
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alignas(CommonSymbol) char c[sizeof(CommonSymbol)];
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alignas(DylibSymbol) char d[sizeof(DylibSymbol)];
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alignas(LazySymbol) char e[sizeof(LazySymbol)];
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alignas(DSOHandle) char f[sizeof(DSOHandle)];
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};
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template <typename T, typename... ArgT>
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T *replaceSymbol(Symbol *s, ArgT &&... arg) {
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static_assert(sizeof(T) <= sizeof(SymbolUnion), "SymbolUnion too small");
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static_assert(alignof(T) <= alignof(SymbolUnion),
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"SymbolUnion not aligned enough");
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assert(static_cast<Symbol *>(static_cast<T *>(nullptr)) == nullptr &&
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"Not a Symbol");
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return new (s) T(std::forward<ArgT>(arg)...);
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}
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} // namespace macho
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std::string toString(const macho::Symbol &);
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std::string toMachOString(const llvm::object::Archive::Symbol &);
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} // namespace lld
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#endif
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