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gerrit-public.fairphone.software / toolchain / llvm-project / 6173f848b965edac09579a6132888bc24e9041e8 / . / lld / ELF / SymbolTable.cpp
blob: b3b1ce8ca836ef200efd5597f28627ff45bab4e6 [file] [log] [blame]
//===- SymbolTable.cpp ----------------------------------------------------===//
//
// The LLVM Linker
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "SymbolTable.h"
#include "Config.h"
#include "Error.h"
#include "Symbols.h"
#include "Target.h"
using namespace llvm;
using namespace llvm::object;
using namespace llvm::ELF;
using namespace lld;
using namespace lld::elf2;
SymbolTable::SymbolTable() {}
bool SymbolTable::shouldUseRela() const {
ELFKind K = getFirstELF()->getELFKind();
return K == ELF64LEKind || K == ELF64BEKind;
}
void SymbolTable::addFile(std::unique_ptr<InputFile> File) {
File->parse();
InputFile *FileP = File.release();
if (auto *AF = dyn_cast<ArchiveFile>(FileP)) {
ArchiveFiles.emplace_back(AF);
for (Lazy &Sym : AF->getLazySymbols())
addLazy(&Sym);
return;
}
addELFFile(cast<ELFFileBase>(FileP));
}
static TargetInfo *createTarget(uint16_t EMachine) {
switch (EMachine) {
case EM_PPC:
return new PPCTargetInfo();
case EM_ARM:
return new ARMTargetInfo();
case EM_PPC64:
return new PPC64TargetInfo();
case EM_X86_64:
return new X86_64TargetInfo();
case EM_386:
return new X86TargetInfo();
}
error("Unknown target machine");
}
template <class ELFT> void SymbolTable::init(uint16_t EMachine) {
Target.reset(createTarget(EMachine));
if (Config->Shared)
return;
EntrySym = new (Alloc) Undefined<ELFT>("_start", Undefined<ELFT>::Synthetic);
resolve<ELFT>(EntrySym);
}
template <class ELFT> void SymbolTable::addELFFile(ELFFileBase *File) {
if (const ELFFileBase *Old = getFirstELF()) {
if (!Old->isCompatibleWith(*File))
error(Twine(Old->getName() + " is incompatible with " + File->getName()));
} else {
init<ELFT>(File->getEMachine());
}
if (auto *O = dyn_cast<ObjectFileBase>(File)) {
ObjectFiles.emplace_back(O);
for (SymbolBody *Body : O->getSymbols())
resolve<ELFT>(Body);
}
if (auto *S = dyn_cast<SharedFile<ELFT>>(File)) {
SharedFiles.emplace_back(S);
for (SharedSymbol<ELFT> &Body : S->getSharedSymbols())
resolve<ELFT>(&Body);
}
}
void SymbolTable::addELFFile(ELFFileBase *File) {
switch (File->getELFKind()) {
case ELF32LEKind:
addELFFile<ELF32LE>(File);
break;
case ELF32BEKind:
addELFFile<ELF32BE>(File);
break;
case ELF64LEKind:
addELFFile<ELF64LE>(File);
break;
case ELF64BEKind:
addELFFile<ELF64BE>(File);
break;
}
}
template <class ELFT>
void SymbolTable::dupErorr(const SymbolBody &Old, const SymbolBody &New) {
typedef typename ELFFile<ELFT>::Elf_Sym Elf_Sym;
typedef typename ELFFile<ELFT>::Elf_Sym_Range Elf_Sym_Range;
const Elf_Sym &OldE = cast<ELFSymbolBody<ELFT>>(Old).Sym;
const Elf_Sym &NewE = cast<ELFSymbolBody<ELFT>>(New).Sym;
ELFFileBase *OldFile = nullptr;
ELFFileBase *NewFile = nullptr;
for (const std::unique_ptr<ObjectFileBase> &F : ObjectFiles) {
const auto &File = cast<ObjectFile<ELFT>>(*F);
Elf_Sym_Range Syms = File.getObj()->symbols(File.getSymbolTable());
if (&OldE > Syms.begin() && &OldE < Syms.end())
OldFile = F.get();
if (&NewE > Syms.begin() && &NewE < Syms.end())
NewFile = F.get();
}
error(Twine("duplicate symbol: ") + Old.getName() + " in " +
OldFile->getName() + " and " + NewFile->getName());
}
// This function resolves conflicts if there's an existing symbol with
// the same name. Decisions are made based on symbol type.
template <class ELFT> void SymbolTable::resolve(SymbolBody *New) {
Symbol *Sym = insert(New);
if (Sym->Body == New)
return;
SymbolBody *Existing = Sym->Body;
if (Lazy *L = dyn_cast<Lazy>(Existing)) {
if (New->isUndefined()) {
addMemberFile(L);
return;
}
// Found a definition for something also in an archive. Ignore the archive
// definition.
Sym->Body = New;
return;
}
// compare() returns -1, 0, or 1 if the lhs symbol is less preferable,
// equivalent (conflicting), or more preferable, respectively.
int comp = Existing->compare<ELFT>(New);
if (comp < 0)
Sym->Body = New;
else if (comp == 0)
dupErorr<ELFT>(*Existing, *New);
}
Symbol *SymbolTable::insert(SymbolBody *New) {
// Find an existing Symbol or create and insert a new one.
StringRef Name = New->getName();
Symbol *&Sym = Symtab[Name];
if (!Sym) {
Sym = new (Alloc) Symbol(New);
New->setBackref(Sym);
return Sym;
}
New->setBackref(Sym);
return Sym;
}
void SymbolTable::addLazy(Lazy *New) {
Symbol *Sym = insert(New);
if (Sym->Body == New)
return;
SymbolBody *Existing = Sym->Body;
if (Existing->isDefined() || Existing->isLazy())
return;
Sym->Body = New;
assert(Existing->isUndefined() && "Unexpected symbol kind.");
addMemberFile(New);
}
void SymbolTable::addMemberFile(Lazy *Body) {
std::unique_ptr<InputFile> File = Body->getMember();
// getMember returns nullptr if the member was already read from the library.
if (!File)
return;
addFile(std::move(File));
}