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//===- lib/ReaderWriter/CoreLinkingContext.cpp ----------------------------===//
//
// The LLVM Linker
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "lld/ReaderWriter/CoreLinkingContext.h"
#include "lld/Core/Pass.h"
#include "lld/Core/PassManager.h"
#include "lld/Passes/LayoutPass.h"
#include "lld/Passes/RoundTripYAMLPass.h"
#include "lld/ReaderWriter/Simple.h"
#include "llvm/ADT/ArrayRef.h"
using namespace lld;
namespace {
/// \brief Simple atom created by the stubs pass.
class TestingStubAtom : public DefinedAtom {
public:
TestingStubAtom(const File &F, const Atom &) : _file(F) {
static uint32_t lastOrdinal = 0;
_ordinal = lastOrdinal++;
}
virtual const File &file() const { return _file; }
virtual StringRef name() const { return StringRef(); }
virtual uint64_t ordinal() const { return _ordinal; }
virtual uint64_t size() const { return 0; }
virtual Scope scope() const { return DefinedAtom::scopeLinkageUnit; }
virtual Interposable interposable() const { return DefinedAtom::interposeNo; }
virtual Merge merge() const { return DefinedAtom::mergeNo; }
virtual ContentType contentType() const { return DefinedAtom::typeStub; }
virtual Alignment alignment() const { return Alignment(0, 0); }
virtual SectionChoice sectionChoice() const {
return DefinedAtom::sectionBasedOnContent;
}
virtual StringRef customSectionName() const { return StringRef(); }
virtual SectionPosition sectionPosition() const { return sectionPositionAny; }
virtual DeadStripKind deadStrip() const {
return DefinedAtom::deadStripNormal;
}
virtual ContentPermissions permissions() const {
return DefinedAtom::permR_X;
}
virtual bool isAlias() const { return false; }
virtual ArrayRef<uint8_t> rawContent() const { return ArrayRef<uint8_t>(); }
virtual reference_iterator begin() const {
return reference_iterator(*this, nullptr);
}
virtual reference_iterator end() const {
return reference_iterator(*this, nullptr);
}
virtual const Reference *derefIterator(const void *iter) const {
return nullptr;
}
virtual void incrementIterator(const void *&iter) const {}
private:
const File &_file;
uint32_t _ordinal;
};
/// \brief Simple atom created by the GOT pass.
class TestingGOTAtom : public DefinedAtom {
public:
TestingGOTAtom(const File &F, const Atom &) : _file(F) {
static uint32_t lastOrdinal = 0;
_ordinal = lastOrdinal++;
}
virtual const File &file() const { return _file; }
virtual StringRef name() const { return StringRef(); }
virtual uint64_t ordinal() const { return _ordinal; }
virtual uint64_t size() const { return 0; }
virtual Scope scope() const { return DefinedAtom::scopeLinkageUnit; }
virtual Interposable interposable() const { return DefinedAtom::interposeNo; }
virtual Merge merge() const { return DefinedAtom::mergeNo; }
virtual ContentType contentType() const { return DefinedAtom::typeGOT; }
virtual Alignment alignment() const { return Alignment(3, 0); }
virtual SectionChoice sectionChoice() const {
return DefinedAtom::sectionBasedOnContent;
}
virtual StringRef customSectionName() const { return StringRef(); }
virtual SectionPosition sectionPosition() const { return sectionPositionAny; }
virtual DeadStripKind deadStrip() const {
return DefinedAtom::deadStripNormal;
}
virtual ContentPermissions permissions() const {
return DefinedAtom::permRW_;
}
virtual bool isAlias() const { return false; }
virtual ArrayRef<uint8_t> rawContent() const { return ArrayRef<uint8_t>(); }
virtual reference_iterator begin() const {
return reference_iterator(*this, nullptr);
}
virtual reference_iterator end() const {
return reference_iterator(*this, nullptr);
}
virtual const Reference *derefIterator(const void *iter) const {
return nullptr;
}
virtual void incrementIterator(const void *&iter) const {}
private:
const File &_file;
uint32_t _ordinal;
};
class TestingPassFile : public SimpleFile {
public:
TestingPassFile(const LinkingContext &ctx) : SimpleFile("Testing pass") {}
virtual void addAtom(const Atom &atom) {
if (const DefinedAtom *defAtom = dyn_cast<DefinedAtom>(&atom))
_definedAtoms._atoms.push_back(defAtom);
else
llvm_unreachable("atom has unknown definition kind");
}
virtual DefinedAtomRange definedAtoms() {
return range<std::vector<const DefinedAtom *>::iterator>(
_definedAtoms._atoms.begin(), _definedAtoms._atoms.end());
}
virtual const atom_collection<DefinedAtom> &defined() const {
return _definedAtoms;
}
virtual const atom_collection<UndefinedAtom> &undefined() const {
return _undefinedAtoms;
}
virtual const atom_collection<SharedLibraryAtom> &sharedLibrary() const {
return _sharedLibraryAtoms;
}
virtual const atom_collection<AbsoluteAtom> &absolute() const {
return _absoluteAtoms;
}
private:
atom_collection_vector<DefinedAtom> _definedAtoms;
atom_collection_vector<UndefinedAtom> _undefinedAtoms;
atom_collection_vector<SharedLibraryAtom> _sharedLibraryAtoms;
atom_collection_vector<AbsoluteAtom> _absoluteAtoms;
};
class TestingStubsPass : public StubsPass {
public:
TestingStubsPass(const LinkingContext &ctx) : _file(TestingPassFile(ctx)) {}
virtual bool noTextRelocs() { return true; }
virtual bool isCallSite(const Reference &ref) {
if (ref.kindNamespace() != Reference::KindNamespace::testing)
return false;
return (ref.kindValue() == CoreLinkingContext::TEST_RELOC_CALL32);
}
virtual const DefinedAtom *getStub(const Atom &target) {
const DefinedAtom *result = new TestingStubAtom(_file, target);
_file.addAtom(*result);
return result;
}
virtual void addStubAtoms(MutableFile &mergedFile) {
for (const DefinedAtom *stub : _file.defined()) {
mergedFile.addAtom(*stub);
}
}
private:
TestingPassFile _file;
};
class TestingGOTPass : public GOTPass {
public:
TestingGOTPass(const LinkingContext &ctx) : _file(TestingPassFile(ctx)) {}
virtual bool noTextRelocs() { return true; }
virtual bool isGOTAccess(const Reference &ref, bool &canBypassGOT) {
if (ref.kindNamespace() != Reference::KindNamespace::testing)
return false;
switch (ref.kindValue()) {
case CoreLinkingContext::TEST_RELOC_GOT_LOAD32:
canBypassGOT = true;
return true;
case CoreLinkingContext::TEST_RELOC_GOT_USE32:
canBypassGOT = false;
return true;
}
return false;
}
virtual void updateReferenceToGOT(const Reference *ref, bool targetIsNowGOT) {
const_cast<Reference *>(ref)->setKindValue(
targetIsNowGOT ? CoreLinkingContext::TEST_RELOC_PCREL32
: CoreLinkingContext::TEST_RELOC_LEA32_WAS_GOT);
}
virtual const DefinedAtom *makeGOTEntry(const Atom &target) {
return new TestingGOTAtom(_file, target);
}
private:
TestingPassFile _file;
};
} // anonymous namespace
CoreLinkingContext::CoreLinkingContext() {}
bool CoreLinkingContext::validateImpl(raw_ostream &) {
_writer = createWriterYAML(*this);
return true;
}
void CoreLinkingContext::addPasses(PassManager &pm) {
for (StringRef name : _passNames) {
if (name.equals("layout"))
pm.add(std::unique_ptr<Pass>(new LayoutPass(registry())));
else if (name.equals("GOT"))
pm.add(std::unique_ptr<Pass>(new TestingGOTPass(*this)));
else if (name.equals("stubs"))
pm.add(std::unique_ptr<Pass>(new TestingStubsPass(*this)));
else
llvm_unreachable("bad pass name");
}
}
Writer &CoreLinkingContext::writer() const { return *_writer; }
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