Nick Kledzik 7e9808f7de [mach-o] add initial support for modes in arm code.
This patch just supports marking ranges that are thumb code (vs arm code).
Future patches will mark data and jump table ranges. The ranges are encoded
as References with offsetInAtom being the start of the range and the target
being the same atom.

llvm-svn: 213712
2014-07-23 00:51:37 +00:00

235 lines
8.2 KiB
C++

//===- lib/ReaderWriter/MachO/File.h --------------------------------------===//
//
// The LLVM Linker
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#ifndef LLD_READER_WRITER_MACHO_FILE_H
#define LLD_READER_WRITER_MACHO_FILE_H
#include "Atoms.h"
#include "MachONormalizedFile.h"
#include "lld/Core/Simple.h"
#include "lld/Core/SharedLibraryFile.h"
#include "llvm/ADT/StringMap.h"
#include <unordered_map>
namespace lld {
namespace mach_o {
using lld::mach_o::normalized::Section;
class MachOFile : public SimpleFile {
public:
MachOFile(StringRef path) : SimpleFile(path) {}
void addDefinedAtom(StringRef name, Atom::Scope scope,
DefinedAtom::ContentType type, DefinedAtom::Merge merge,
uint64_t sectionOffset, uint64_t contentSize, bool thumb,
bool copyRefs, const Section *inSection) {
assert(sectionOffset+contentSize <= inSection->content.size());
ArrayRef<uint8_t> content = inSection->content.slice(sectionOffset,
contentSize);
if (copyRefs) {
// Make a copy of the atom's name and content that is owned by this file.
name = name.copy(_allocator);
content = content.copy(_allocator);
}
MachODefinedAtom *atom =
new (_allocator) MachODefinedAtom(*this, name, scope, type, merge,
thumb, content);
addAtomForSection(inSection, atom, sectionOffset);
}
void addDefinedAtomInCustomSection(StringRef name, Atom::Scope scope,
DefinedAtom::ContentType type, DefinedAtom::Merge merge,
bool thumb, uint64_t sectionOffset, uint64_t contentSize,
StringRef sectionName, bool copyRefs,
const Section *inSection) {
assert(sectionOffset+contentSize <= inSection->content.size());
ArrayRef<uint8_t> content = inSection->content.slice(sectionOffset,
contentSize);
if (copyRefs) {
// Make a copy of the atom's name and content that is owned by this file.
name = name.copy(_allocator);
content = content.copy(_allocator);
sectionName = sectionName.copy(_allocator);
}
MachODefinedCustomSectionAtom *atom =
new (_allocator) MachODefinedCustomSectionAtom(*this, name, scope, type,
merge, thumb, content,
sectionName);
addAtomForSection(inSection, atom, sectionOffset);
}
void addZeroFillDefinedAtom(StringRef name, Atom::Scope scope,
uint64_t sectionOffset, uint64_t size,
bool copyRefs, const Section *inSection) {
if (copyRefs) {
// Make a copy of the atom's name and content that is owned by this file.
name = name.copy(_allocator);
}
MachODefinedAtom *atom =
new (_allocator) MachODefinedAtom(*this, name, scope, size);
addAtomForSection(inSection, atom, sectionOffset);
}
void addUndefinedAtom(StringRef name, bool copyRefs) {
if (copyRefs) {
// Make a copy of the atom's name that is owned by this file.
name = name.copy(_allocator);
}
SimpleUndefinedAtom *atom =
new (_allocator) SimpleUndefinedAtom(*this, name);
addAtom(*atom);
_undefAtoms[name] = atom;
}
void addTentativeDefAtom(StringRef name, Atom::Scope scope, uint64_t size,
DefinedAtom::Alignment align, bool copyRefs) {
if (copyRefs) {
// Make a copy of the atom's name that is owned by this file.
name = name.copy(_allocator);
}
MachOTentativeDefAtom *atom =
new (_allocator) MachOTentativeDefAtom(*this, name, scope, size, align);
addAtom(*atom);
_undefAtoms[name] = atom;
}
/// Search this file for an the atom from 'section' that covers
/// 'offsetInSect'. Returns nullptr is no atom found.
MachODefinedAtom *findAtomCoveringAddress(const Section &section,
uint64_t offsetInSect,
uint32_t *foundOffsetAtom=nullptr) {
auto pos = _sectionAtoms.find(&section);
if (pos == _sectionAtoms.end())
return nullptr;
auto vec = pos->second;
assert(offsetInSect < section.content.size());
// Vector of atoms for section are already sorted, so do binary search.
auto atomPos = std::lower_bound(vec.begin(), vec.end(), offsetInSect,
[offsetInSect](const SectionOffsetAndAtom &ao,
uint64_t targetAddr) -> bool {
// Each atom has a start offset of its slice of the
// section's content. This compare function must return true
// iff the atom's range is before the offset being searched for.
uint64_t atomsEndOffset = ao.offset+ao.atom->rawContent().size();
return (atomsEndOffset <= offsetInSect);
});
if (atomPos == vec.end())
return nullptr;
if (foundOffsetAtom)
*foundOffsetAtom = offsetInSect - atomPos->offset;
return atomPos->atom;
}
/// Searches this file for an UndefinedAtom named 'name'. Returns
/// nullptr is no such atom found.
const lld::Atom *findUndefAtom(StringRef name) {
auto pos = _undefAtoms.find(name);
if (pos == _undefAtoms.end())
return nullptr;
return pos->second;
}
typedef std::function<void (MachODefinedAtom* atom)> DefinedAtomVisitor;
void eachDefinedAtom(DefinedAtomVisitor vistor) {
for (auto &sectAndAtoms : _sectionAtoms) {
for (auto &offAndAtom : sectAndAtoms.second) {
vistor(offAndAtom.atom);
}
}
}
llvm::BumpPtrAllocator &allocator() { return _allocator; }
private:
struct SectionOffsetAndAtom { uint64_t offset; MachODefinedAtom *atom; };
void addAtomForSection(const Section *inSection, MachODefinedAtom* atom,
uint64_t sectionOffset) {
SectionOffsetAndAtom offAndAtom;
offAndAtom.offset = sectionOffset;
offAndAtom.atom = atom;
_sectionAtoms[inSection].push_back(offAndAtom);
addAtom(*atom);
}
typedef llvm::DenseMap<const normalized::Section *,
std::vector<SectionOffsetAndAtom>> SectionToAtoms;
typedef llvm::StringMap<const lld::Atom *> NameToAtom;
llvm::BumpPtrAllocator _allocator;
SectionToAtoms _sectionAtoms;
NameToAtom _undefAtoms;
};
class MachODylibFile : public SharedLibraryFile {
public:
MachODylibFile(StringRef path) : SharedLibraryFile(path), _dylib_name(path) {}
virtual const SharedLibraryAtom *exports(StringRef name,
bool dataSymbolOnly) const {
// FIXME: we obviously need to record code/data if we're going to make
// proper use of dataSymbolOnly.
auto sym = _nameToAtom.find(name);
if (sym == _nameToAtom.end())
return nullptr;
if (!sym->second)
sym->second =
new (_allocator) MachOSharedLibraryAtom(*this, name, _dylib_name);
return sym->second;
}
const atom_collection<DefinedAtom> &defined() const override {
return _definedAtoms;
}
const atom_collection<UndefinedAtom> &undefined() const override {
return _undefinedAtoms;
}
const atom_collection<SharedLibraryAtom> &sharedLibrary() const override {
return _sharedLibraryAtoms;
}
const atom_collection<AbsoluteAtom> &absolute() const override {
return _absoluteAtoms;
}
void addSharedLibraryAtom(StringRef name, bool copyRefs) {
if (copyRefs) {
name = name.copy(_allocator);
}
_nameToAtom[name] = nullptr;
}
private:
StringRef _dylib_name;
atom_collection_vector<DefinedAtom> _definedAtoms;
atom_collection_vector<UndefinedAtom> _undefinedAtoms;
atom_collection_vector<SharedLibraryAtom> _sharedLibraryAtoms;
atom_collection_vector<AbsoluteAtom> _absoluteAtoms;
mutable std::unordered_map<StringRef, SharedLibraryAtom *> _nameToAtom;
mutable llvm::BumpPtrAllocator _allocator;
};
} // end namespace mach_o
} // end namespace lld
#endif