caio/clang-p2996
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity
Files
e7a818fec88726844e8acbfeb43da94dea81f4ca
clang-p2996/lld/lib/ReaderWriter/ELF/ARM/ARMRelocationPass.cpp
Benjamin Kramer 06a42af61e Add missing includes for make_unique, lld edition. 
llvm-svn: 230925
2015-03-02 00:48:06 +00:00

315 lines
10 KiB
C++
Raw Blame History

//===--------- lib/ReaderWriter/ELF/ARM/ARMRelocationPass.cpp -------------===//
//
// The LLVM Linker
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
///
/// \file
/// \brief Defines the relocation processing pass for ARM. This includes
/// GOT and PLT entries, TLS, COPY, and ifunc.
///
/// This also includes additional behavior that gnu-ld and gold implement but
/// which is not specified anywhere.
///
//===----------------------------------------------------------------------===//
#include "ARMRelocationPass.h"
#include "ARMLinkingContext.h"
#include "Atoms.h"
#include "lld/Core/Simple.h"
#include "llvm/ADT/DenseMap.h"
#include "llvm/ADT/STLExtras.h"
#include "llvm/Support/Debug.h"
using namespace lld;
using namespace lld::elf;
using namespace llvm::ELF;
namespace {
// ARM B/BL instructions of static relocation veneer.
// TODO: consider different instruction set for archs below ARMv5
// (one as for Thumb may be used though it's less optimal).
const uint8_t Veneer_ARM_B_BL_StaticAtomContent[8] = {
0x04, 0xf0, 0x1f, 0xe5, // ldr pc, [pc, #-4]
0x00, 0x00, 0x00, 0x00 // <target_symbol_address>
};
// Thumb B/BL instructions of static relocation veneer.
// TODO: consider different instruction set for archs above ARMv5
// (one as for ARM may be used since it's more optimal).
const uint8_t Veneer_THM_B_BL_StaticAtomContent[8] = {
0x78, 0x47, // bx pc
0x00, 0x00, // nop
0xfe, 0xff, 0xff, 0xea // b <target_symbol_address>
};
/// \brief Atoms that hold veneer code.
class VeneerAtom : public SimpleELFDefinedAtom {
StringRef _section;
public:
VeneerAtom(const File &f, StringRef secName)
: SimpleELFDefinedAtom(f), _section(secName) {}
Scope scope() const override { return DefinedAtom::scopeTranslationUnit; }
SectionChoice sectionChoice() const override {
return DefinedAtom::sectionBasedOnContent;
}
StringRef customSectionName() const override { return _section; }
ContentType contentType() const override {
return DefinedAtom::typeCode;
}
uint64_t size() const override { return rawContent().size(); }
ContentPermissions permissions() const override { return permR_X; }
Alignment alignment() const override { return Alignment(2); }
StringRef name() const override { return _name; }
std::string _name;
};
/// \brief Atoms that hold veneer for statically relocated
/// ARM B/BL instructions.
class Veneer_ARM_B_BL_StaticAtom : public VeneerAtom {
public:
Veneer_ARM_B_BL_StaticAtom(const File &f, StringRef secName)
: VeneerAtom(f, secName) {}
ArrayRef<uint8_t> rawContent() const override {
return llvm::makeArrayRef(Veneer_ARM_B_BL_StaticAtomContent);
}
};
/// \brief Atoms that hold veneer for statically relocated
/// Thumb B/BL instructions.
class Veneer_THM_B_BL_StaticAtom : public VeneerAtom {
public:
Veneer_THM_B_BL_StaticAtom(const File &f, StringRef secName)
: VeneerAtom(f, secName) {}
DefinedAtom::CodeModel codeModel() const override {
return DefinedAtom::codeARMThumb;
}
ArrayRef<uint8_t> rawContent() const override {
return llvm::makeArrayRef(Veneer_THM_B_BL_StaticAtomContent);
}
};
class ELFPassFile : public SimpleFile {
public:
ELFPassFile(const ELFLinkingContext &eti) : SimpleFile("ELFPassFile") {
setOrdinal(eti.getNextOrdinalAndIncrement());
}
llvm::BumpPtrAllocator _alloc;
};
/// \brief CRTP base for handling relocations.
template <class Derived> class ARMRelocationPass : public Pass {
/// \brief Handle a specific reference.
void handleReference(const DefinedAtom &atom, const Reference &ref) {
DEBUG_WITH_TYPE(
"ARM", llvm::dbgs() << "\t" << LLVM_FUNCTION_NAME << "()"
<< ": Name of Defined Atom: " << atom.name().str();
llvm::dbgs() << " kindValue: " << ref.kindValue() << "\n");
if (ref.kindNamespace() != Reference::KindNamespace::ELF)
return;
assert(ref.kindArch() == Reference::KindArch::ARM);
switch (ref.kindValue()) {
case R_ARM_JUMP24:
case R_ARM_THM_JUMP24:
static_cast<Derived *>(this)->handleVeneer(atom, ref);
break;
}
}
protected:
std::error_code handleVeneer(const DefinedAtom &atom, const Reference &ref) {
// Target symbol and relocated place should have different
// instruction sets in order a veneer to be generated in between.
const auto *target = dyn_cast_or_null<DefinedAtom>(ref.target());
if (!target || target->codeModel() == atom.codeModel())
return std::error_code();
// TODO: For unconditional jump instructions (R_ARM_CALL and R_ARM_THM_CALL)
// fixup isn't possible without veneer generation for archs below ARMv5.
// Veneers may only be generated for STT_FUNC target symbols
// or for symbols located in sections different to the place of relocation.
const auto kindValue = ref.kindValue();
StringRef secName = atom.customSectionName();
if (DefinedAtom::typeCode != target->contentType() &&
!target->customSectionName().equals(secName)) {
StringRef kindValStr;
if (!this->_ctx.registry().referenceKindToString(
ref.kindNamespace(), ref.kindArch(), kindValue, kindValStr)) {
kindValStr = "unknown";
}
std::string errStr =
(Twine("Reference of type ") + Twine(kindValue) + " (" + kindValStr +
") from " + atom.name() + "+" + Twine(ref.offsetInAtom()) + " to " +
ref.target()->name() + "+" + Twine(ref.addend()) +
" cannot be effected without a veneer").str();
llvm_unreachable(errStr.c_str());
}
const Atom *veneer = nullptr;
switch (kindValue) {
case R_ARM_JUMP24:
veneer = static_cast<Derived *>(this)
->getVeneer_ARM_B_BL(target, secName);
break;
case R_ARM_THM_JUMP24:
veneer = static_cast<Derived *>(this)
->getVeneer_THM_B_BL(target, secName);
break;
default:
llvm_unreachable("Unhandled reference type for veneer generation");
}
assert(veneer && "The veneer is not set");
const_cast<Reference &>(ref).setTarget(veneer);
return std::error_code();
}
public:
ARMRelocationPass(const ELFLinkingContext &ctx) : _file(ctx), _ctx(ctx) {}
/// \brief Do the pass.
///
/// The goal here is to first process each reference individually. Each call
/// to handleReference may modify the reference itself and/or create new
/// atoms which must be stored in one of the maps below.
///
/// After all references are handled, the atoms created during that are all
/// added to mf.
void perform(std::unique_ptr<MutableFile> &mf) override {
ScopedTask task(getDefaultDomain(), "ARM GOT/PLT Pass");
DEBUG_WITH_TYPE(
"ARM", llvm::dbgs() << "Undefined Atoms" << "\n";
for (const auto &atom
: mf->undefined()) {
llvm::dbgs() << " Name of Atom: " << atom->name().str() << "\n";
}
llvm::dbgs() << "Shared Library Atoms" << "\n";
for (const auto &atom
: mf->sharedLibrary()) {
llvm::dbgs() << " Name of Atom: " << atom->name().str() << "\n";
}
llvm::dbgs() << "Absolute Atoms" << "\n";
for (const auto &atom
: mf->absolute()) {
llvm::dbgs() << " Name of Atom: " << atom->name().str() << "\n";
}
llvm::dbgs() << "Defined Atoms" << "\n";
for (const auto &atom
: mf->defined()) {
llvm::dbgs() << " Name of Atom: " << atom->name().str() << "\n";
});
// Process all references.
for (const auto &atom : mf->defined()) {
for (const auto &ref : *atom) {
handleReference(*atom, *ref);
}
}
// Add all created atoms to the link.
uint64_t ordinal = 0;
for (auto &veneer : _veneerVector) {
veneer->setOrdinal(ordinal++);
mf->addAtom(*veneer);
}
}
protected:
/// \brief Owner of all the Atoms created by this pass.
ELFPassFile _file;
const ELFLinkingContext &_ctx;
/// \brief Map Atoms to their veneers.
llvm::DenseMap<const Atom *, VeneerAtom *> _veneerMap;
/// \brief the list of veneer atoms.
std::vector<VeneerAtom *> _veneerVector;
};
/// This implements the static relocation model. Meaning GOT and PLT entries are
/// not created for references that can be directly resolved. These are
/// converted to a direct relocation. For entries that do require a GOT or PLT
/// entry, that entry is statically bound.
///
/// TLS always assumes module 1 and attempts to remove indirection.
class ARMStaticRelocationPass final
: public ARMRelocationPass<ARMStaticRelocationPass> {
public:
ARMStaticRelocationPass(const elf::ARMLinkingContext &ctx)
: ARMRelocationPass(ctx) {}
/// \brief Get the veneer for ARM B/BL instructions.
const VeneerAtom *getVeneer_ARM_B_BL(const DefinedAtom *da,
StringRef secName) {
auto veneer = _veneerMap.find(da);
if (_veneerMap.end() != veneer)
return veneer->second;
auto v = new (_file._alloc) Veneer_ARM_B_BL_StaticAtom(_file, secName);
v->addReferenceELF_ARM(R_ARM_ABS32, 4, da, 0);
v->_name = "__";
v->_name += da->name();
v->_name += "_from_arm";
_veneerMap[da] = v;
_veneerVector.push_back(v);
return v;
}
/// \brief Get the veneer for Thumb B/BL instructions.
const VeneerAtom *getVeneer_THM_B_BL(const DefinedAtom *da,
StringRef secName) {
auto veneer = _veneerMap.find(da);
if (_veneerMap.end() != veneer)
return veneer->second;
auto v = new (_file._alloc) Veneer_THM_B_BL_StaticAtom(_file, secName);
v->addReferenceELF_ARM(R_ARM_JUMP24, 4, da, 0);
v->_name = "__";
v->_name += da->name();
v->_name += "_from_thumb";
_veneerMap[da] = v;
_veneerVector.push_back(v);
return v;
}
};
} // end of anon namespace
std::unique_ptr<Pass>
lld::elf::createARMRelocationPass(const ARMLinkingContext &ctx) {
switch (ctx.getOutputELFType()) {
case llvm::ELF::ET_EXEC:
if (ctx.isDynamic())
llvm_unreachable("Unhandled output file type");
return llvm::make_unique<ARMStaticRelocationPass>(ctx);
default:
llvm_unreachable("Unhandled output file type");
}
}
Reference in New Issue View Git Blame Copy Permalink