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gerrit-public.fairphone.software / toolchain / llvm-project / bb90c414c43ae33669fb2be34e940d5eba1b230c / . / lld / lib / ReaderWriter / ELF / WriterELF.cpp
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//===- lib/ReaderWriter/ELF/WriterELF.cpp ---------------------------------===//
//
// The LLVM Linker
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "lld/ReaderWriter/WriterELF.h"
#include "ReferenceKinds.h"
#include "lld/Core/DefinedAtom.h"
#include "lld/Core/File.h"
#include "lld/Core/InputFiles.h"
#include "lld/Core/Reference.h"
#include "lld/Core/SharedLibraryAtom.h"
#include "llvm/ADT/ArrayRef.h"
#include "llvm/ADT/DenseMap.h"
#include "llvm/ADT/OwningPtr.h"
#include "llvm/ADT/SmallVector.h"
#include "llvm/ADT/StringMap.h"
#include "llvm/ADT/StringRef.h"
#include "llvm/Object/ELF.h"
#include "llvm/Support/Allocator.h"
#include "llvm/Support/Debug.h"
#include "llvm/Support/ELF.h"
#include "llvm/Support/ErrorHandling.h"
#include "llvm/Support/FileOutputBuffer.h"
#include "llvm/Support/Format.h"
#include "llvm/Support/MathExtras.h"
#include "llvm/Support/raw_ostream.h"
#include "llvm/Support/system_error.h"
#include <map>
#include <tuple>
#include <vector>
using namespace llvm;
using namespace llvm::object;
namespace lld {
namespace elf {
template<support::endianness target_endianness, bool is64Bits>
class ELFWriter;
/// \brief A Chunk is a contiguous range of space.
template<support::endianness target_endianness, bool is64Bits>
class Chunk {
public:
LLVM_ELF_IMPORT_TYPES(target_endianness, is64Bits)
virtual ~Chunk() {}
virtual StringRef segmentName() const = 0;
virtual bool occupiesNoDiskSpace();
virtual void write(uint8_t *fileBuffer) = 0;
void assignFileOffset(uint64_t &curOff, uint64_t &curAddr);
virtual const char *info() = 0;
uint64_t size() const;
uint64_t address() const;
uint64_t fileOffset() const;
uint64_t align2() const;
static uint64_t alignTo(uint64_t value, uint8_t align2);
protected:
Chunk();
uint64_t _size;
uint64_t _address;
uint64_t _fileOffset;
uint64_t _align2;
};
/// Pair of atom and offset in section.
typedef std::tuple<const DefinedAtom*, uint64_t> AtomInfo;
/// \brief A Section represents a set of Atoms assigned to a specific ELF
/// Section.
template<support::endianness target_endianness, bool is64Bits>
class SectionChunk : public Chunk<target_endianness, is64Bits> {
public:
SectionChunk(DefinedAtom::ContentType,
StringRef sectionName,
const WriterOptionsELF &options,
ELFWriter<target_endianness, is64Bits> &writer);
virtual StringRef segmentName() const;
virtual bool occupiesNoDiskSpace();
virtual void write(uint8_t *fileBuffer);
virtual const char *info();
StringRef sectionName();
uint32_t flags() const;
uint32_t type() const;
uint32_t permissions();
void appendAtom(const DefinedAtom*);
const ArrayRef<AtomInfo> atoms() const;
private:
StringRef _segmentName;
StringRef _sectionName;
const WriterOptionsELF &_options;
ELFWriter<target_endianness, is64Bits> &_writer;
uint32_t _flags;
uint32_t _type;
uint32_t _permissions;
std::vector<AtomInfo> _atoms;
};
/// \brief An ELFHeaderChunk represents the Elf[32/64]_Ehdr structure at the
/// start of an ELF executable file.
template<support::endianness target_endianness, bool is64Bits>
class ELFHeaderChunk : public Chunk<target_endianness, is64Bits> {
public:
LLVM_ELF_IMPORT_TYPES(target_endianness, is64Bits)
typedef object::Elf_Ehdr_Impl<target_endianness, is64Bits> Elf_Ehdr;
ELFHeaderChunk(const WriterOptionsELF &options,
const File &file);
void e_ident(int I, unsigned char C) { _eh.e_ident[I] = C; }
void e_type(uint16_t type) { _eh.e_type = type; }
void e_machine(uint16_t machine) { _eh.e_machine = machine; }
void e_version(uint32_t version) { _eh.e_version = version; }
void e_entry(uint64_t entry) { _eh.e_entry = entry; }
void e_phoff(uint64_t phoff) { _eh.e_phoff = phoff; }
void e_shoff(uint64_t shoff) { _eh.e_shoff = shoff; }
void e_flags(uint32_t flags) { _eh.e_flags = flags; }
void e_ehsize(uint16_t ehsize) { _eh.e_ehsize = ehsize; }
void e_phentsize(uint16_t phentsize) { _eh.e_phentsize = phentsize; }
void e_phnum(uint16_t phnum) { _eh.e_phnum = phnum; }
void e_shentsize(uint16_t shentsize) { _eh.e_shentsize = shentsize; }
void e_shnum(uint16_t shnum) { _eh.e_shnum = shnum; }
void e_shstrndx(uint16_t shstrndx) { _eh.e_shstrndx = shstrndx; }
uint64_t size() { return sizeof (Elf_Ehdr); }
virtual StringRef segmentName() const;
virtual void write(uint8_t *fileBuffer);
virtual const char *info();
private:
Elf_Ehdr _eh;
};
/// \brief An ELFSectionHeaderChunk represents the Elf[32/64]_Shdr structure
/// that is placed right after the ELFHeader.
///
/// When this is finished it will need to update the header with the size and
/// number of section headers, e_shentsize, e_shnum.
template<support::endianness target_endianness, bool is64Bits>
class ELFSectionHeaderChunk : public Chunk<target_endianness, is64Bits> {
public:
LLVM_ELF_IMPORT_TYPES(target_endianness, is64Bits)
typedef object::Elf_Shdr_Impl<target_endianness, is64Bits> Elf_Shdr;
ELFSectionHeaderChunk(const WriterOptionsELF &Options,
ELFWriter<target_endianness, is64Bits>&);
virtual StringRef segmentName() const;
virtual void write(uint8_t *filebuffer);
virtual const char *info();
void computeSize(const lld::File &file);
uint16_t count();
uint16_t size();
const ArrayRef<Elf_Shdr*> sectionInfo() {
return _sectionInfo;
}
bool is64Bit() { return _options.is64Bit(); }
private:
const WriterOptionsELF &_options;
ELFWriter<target_endianness, is64Bits> &_writer;
llvm::BumpPtrAllocator _sectionAllocate;
std::vector<Elf_Shdr*> _sectionInfo;
};
/// \brief Represents the shstr section.
///
/// This is a contiguous memory that has all the symbol strings each ending with
/// null character. We might need more than one such chunks shstrtab for setting
/// e_shstrndx in ELHHeaderChunk and strtab for use with symtab
template<support::endianness target_endianness, bool is64Bits>
class ELFStringSectionChunk : public Chunk<target_endianness, is64Bits> {
public:
LLVM_ELF_IMPORT_TYPES(target_endianness, is64Bits)
ELFStringSectionChunk(const WriterOptionsELF &Options,
ELFWriter<target_endianness, is64Bits> &writer,
StringRef secName);
uint64_t addString(StringRef symName);
virtual StringRef segmentName() const;
virtual void write(uint8_t *filebuffer);
virtual const char *info();
StringRef sectionName();
private:
StringRef _segName;
std::vector<StringRef> _StringSection;
StringRef _sectionName;
ELFWriter<target_endianness, is64Bits> &_writer;
const WriterOptionsELF &_options;
};
/// An ELFProgramHeaderChunk represents the Elf[32/64]_Phdr structure near
/// the start of an ELF executable file. Will need to update ELFHeader's
/// e_phentsize/e_phnum when done.
template<support::endianness target_endianness, bool is64Bits>
class ELFProgramHeaderChunk : public Chunk<target_endianness, is64Bits> {
public:
LLVM_ELF_IMPORT_TYPES(target_endianness, is64Bits)
ELFProgramHeaderChunk(ELFHeaderChunk<target_endianness, is64Bits>&,
const WriterOptionsELF &options,
const File &file);
virtual StringRef segmentName() const;
virtual void write(uint8_t *filebuffer);
virtual const char *info();
private:
// TODO: Replace this with correct ELF::* type method
//uint32_t filetype(WriterOptionsELF::OutputKind kind);
};
//===----------------------------------------------------------------------===//
// Chunk
//===----------------------------------------------------------------------===//
template<support::endianness target_endianness, bool is64Bits>
Chunk<target_endianness, is64Bits>::Chunk()
: _size(0), _address(0), _fileOffset(0), _align2(0) {
}
template<support::endianness target_endianness, bool is64Bits>
bool Chunk<target_endianness, is64Bits>::occupiesNoDiskSpace() {
return false;
}
template<support::endianness target_endianness, bool is64Bits>
uint64_t Chunk<target_endianness, is64Bits>::size() const {
return _size;
}
template<support::endianness target_endianness, bool is64Bits>
uint64_t Chunk<target_endianness, is64Bits>::align2() const {
return _align2;
}
template<support::endianness target_endianness, bool is64Bits>
uint64_t Chunk<target_endianness, is64Bits>::address() const {
return _address;
}
template<support::endianness target_endianness, bool is64Bits>
uint64_t Chunk<target_endianness, is64Bits>::fileOffset() const {
return _fileOffset;
}
template<support::endianness target_endianness, bool is64Bits>
uint64_t Chunk<target_endianness, is64Bits>::
alignTo(uint64_t value, uint8_t align2) {
uint64_t align = 1 << align2;
return (value + (align - 1)) & (-align);
}
template<support::endianness target_endianness, bool is64Bits>
void Chunk<target_endianness, is64Bits>::
assignFileOffset(uint64_t &curOffset, uint64_t &curAddress) {
if (occupiesNoDiskSpace()) {
// FileOffset does not change, but virtual address does change.
uint64_t alignedAddress =
alignTo(curAddress, _align2 ? static_cast<uint8_t>(llvm::Log2_64(_align2))
: 0);
_address = alignedAddress;
curAddress = alignedAddress + _size;
} else {
// FileOffset and address both move by _size amount after alignment.
uint64_t alignPadding =
alignTo(curAddress, _align2 ? static_cast<uint8_t>(llvm::Log2_64(_align2))
: 0) - curAddress;
_fileOffset = curOffset + alignPadding;
_address = curAddress + alignPadding;
curOffset = _fileOffset + _size;
curAddress = _address + _size;
}
DEBUG_WITH_TYPE("WriterELF-layout", dbgs()
<< " fileOffset="
<< format("0x%08X", _fileOffset)
<< " address="
<< format("0x%016X", _address)
<< " info=" << info() << "\n");
}
//===----------------------------------------------------------------------===//
// SectionChunk
//===----------------------------------------------------------------------===//
template<support::endianness target_endianness, bool is64Bits>
SectionChunk<target_endianness, is64Bits>::
SectionChunk(DefinedAtom::ContentType type,
StringRef sectionName,
const WriterOptionsELF &options,
ELFWriter<target_endianness, is64Bits> &writer)
: _options(options)
, _writer(writer) {
switch(type) {
case DefinedAtom::typeCode:
_segmentName = "PT_LOAD";
_sectionName = sectionName;
_flags = ELF::SHF_ALLOC | ELF::SHF_EXECINSTR;
_type = ELF::SHT_PROGBITS;
break;
case DefinedAtom::typeData:
_segmentName = "PT_LOAD";
_sectionName = sectionName;
_flags = ELF::SHF_ALLOC | ELF::SHF_WRITE;
_type = ELF::SHT_PROGBITS;
break;
case DefinedAtom::typeZeroFill:
_segmentName = "PT_LOAD";
_sectionName = sectionName;
_flags = ELF::SHF_ALLOC | ELF::SHF_WRITE;
_type = ELF::SHT_NOBITS;
break;
case DefinedAtom::typeConstant:
_segmentName = "PT_LOAD";
_sectionName = sectionName;
_flags = ELF::SHF_ALLOC;
_type = ELF::SHT_PROGBITS;
break;
default:
llvm_unreachable("Unhandled content type for section!");
}
}
template<support::endianness target_endianness, bool is64Bits>
bool SectionChunk<target_endianness, is64Bits>::occupiesNoDiskSpace() {
return false;
}
template<support::endianness target_endianness, bool is64Bits>
StringRef SectionChunk<target_endianness, is64Bits>::segmentName() const {
return _segmentName;
}
template<support::endianness target_endianness, bool is64Bits>
StringRef SectionChunk<target_endianness, is64Bits>::sectionName() {
return _sectionName;
}
template<support::endianness target_endianness, bool is64Bits>
uint32_t SectionChunk<target_endianness, is64Bits>::flags() const {
return _flags;
}
template<support::endianness target_endianness, bool is64Bits>
uint32_t SectionChunk<target_endianness, is64Bits>::type() const {
return _type;
}
template<support::endianness target_endianness, bool is64Bits>
uint32_t SectionChunk<target_endianness, is64Bits>::permissions() {
return _permissions;
}
template<support::endianness target_endianness, bool is64Bits>
const char *SectionChunk<target_endianness, is64Bits>::info() {
return _sectionName.data();
}
template<support::endianness target_endianness, bool is64Bits>
const ArrayRef<AtomInfo> SectionChunk<target_endianness, is64Bits>::
atoms() const {
return _atoms;
}
template<support::endianness target_endianness, bool is64Bits>
void SectionChunk<target_endianness, is64Bits>::
appendAtom(const DefinedAtom *atom) {
// Figure out offset for atom in this section given alignment constraints.
uint64_t offset = this->_size;
DefinedAtom::Alignment atomAlign = atom->alignment();
uint64_t align2 = 1 << atomAlign.powerOf2;
uint64_t requiredModulus = atomAlign.modulus;
uint64_t currentModulus = (offset % align2);
if (currentModulus != requiredModulus) {
if (requiredModulus > currentModulus)
offset += requiredModulus - currentModulus;
else
offset += align2 + requiredModulus - currentModulus;
}
// Record max alignment of any atom in this section.
if (align2 > this->_align2)
this->_align2 = align2;
// Assign atom to this section with this offset.
_atoms.emplace_back(atom, offset);
// Update section size to include this atom.
this->_size = offset + atom->size();
// Update permissions
DefinedAtom::ContentPermissions perms = atom->permissions();
// TODO: Check content permissions and figure out what to do with .bss
if ((perms & DefinedAtom::permR__) == DefinedAtom::permR__)
this->_permissions |= ELF::SHF_ALLOC;
if ((perms & DefinedAtom::permRW_) == DefinedAtom::permRW_)
this->_permissions |= (ELF::SHF_ALLOC | ELF::SHF_WRITE);
if ((perms & DefinedAtom::permR_X) == DefinedAtom::permR_X)
this->_permissions |= (ELF::SHF_ALLOC | ELF::SHF_EXECINSTR);
}
template<support::endianness target_endianness, bool is64Bits>
void SectionChunk<target_endianness, is64Bits>::write(uint8_t *chunkBuffer) {
// Each section's content is just its atoms' content.
for (const auto &ai : _atoms ) {
// Copy raw content of atom to file buffer.
ArrayRef<uint8_t> content = std::get<0>(ai)->rawContent();
uint64_t contentSize = content.size();
if (contentSize == 0)
continue;
uint8_t *atomContent = chunkBuffer + std::get<1>(ai);
std::copy_n(content.data(), contentSize, atomContent);
for (const Reference *ref : *std::get<0>(ai)){
uint32_t offset = ref->offsetInAtom();
uint64_t targetAddress = 0;
if ( ref->target() != nullptr )
targetAddress = _writer.addressOfAtom(ref->target());
uint64_t fixupAddress = _writer.addressOfAtom(std::get<0>(ai)) + offset;
_writer.kindHandler()->applyFixup(ref->kind(), ref->addend(),
&atomContent[offset],
fixupAddress,
targetAddress);
}
}
}
//
//===----------------------------------------------------------------------===//
// ELFStringSectionChunk
//===----------------------------------------------------------------------===//
template<support::endianness target_endianness, bool is64Bits>
ELFStringSectionChunk<target_endianness, is64Bits>::
ELFStringSectionChunk(const WriterOptionsELF &options,
ELFWriter<target_endianness, is64Bits> &writer,
StringRef secName)
: _segName("PT_NULL")
, _sectionName(secName)
, _writer(writer)
, _options(options) {
// First Add a null character. It also occupies 1 byte
_StringSection.emplace_back("");
this->_size = 1;
}
template<support::endianness target_endianness, bool is64Bits>
uint64_t ELFStringSectionChunk<target_endianness, is64Bits>::
addString(StringRef symName) {
_StringSection.emplace_back(symName);
uint64_t offset = this->_size;
this->_size += symName.size() + 1;
return offset;
}
template<support::endianness target_endianness, bool is64Bits>
const char *ELFStringSectionChunk<target_endianness, is64Bits>::info() {
return _sectionName.data();
}
template<support::endianness target_endianness, bool is64Bits>
StringRef ELFStringSectionChunk<target_endianness, is64Bits>::sectionName() {
return _sectionName ;
}
template<support::endianness target_endianness, bool is64Bits>
StringRef ELFStringSectionChunk<target_endianness, is64Bits>::
segmentName() const {
return _segName;
}
// We need to unwrap the _StringSection and then make one large memory
// chunk of null terminated strings
template<support::endianness target_endianness, bool is64Bits>
void ELFStringSectionChunk<target_endianness, is64Bits>::
write(uint8_t *chunkBuffer) {
uint64_t chunkOffset = 0;
for (auto it : _StringSection) {
::memcpy(chunkBuffer + chunkOffset, it.data(), it.size());
chunkOffset += it.size();
::memcpy(chunkBuffer + chunkOffset, "", 1);
chunkOffset += 1;
}
}
//===----------------------------------------------------------------------===//
// ELFHeaderChunk
//===----------------------------------------------------------------------===//
template<support::endianness target_endianness, bool is64Bits>
ELFHeaderChunk<target_endianness, is64Bits>
::ELFHeaderChunk(const WriterOptionsELF &options,
const File &File) {
this->_size = size();
e_ident(ELF::EI_MAG0, 0x7f);
e_ident(ELF::EI_MAG1, 'E');
e_ident(ELF::EI_MAG2, 'L');
e_ident(ELF::EI_MAG3, 'F');
e_ident(ELF::EI_CLASS, (options.is64Bit() ? ELF::ELFCLASS64
: ELF::ELFCLASS32));
e_ident(ELF::EI_DATA, options.endianness());
e_ident(ELF::EI_VERSION, 1);
e_ident(ELF::EI_OSABI, ELF::ELFOSABI_NONE);
e_type(options.type());
e_machine(options.machine());
e_version(1);
e_entry(0ULL);
e_phoff(this->_size);
e_shoff(0ULL);
e_flags(0);
e_ehsize(this->_size);
e_phentsize(0);
e_phnum(0);
e_shentsize(0);
e_shnum(0);
e_shstrndx(0);
}
template<support::endianness target_endianness, bool is64Bits>
StringRef ELFHeaderChunk<target_endianness, is64Bits>
::segmentName() const {
return "ELF";
}
template<support::endianness target_endianness, bool is64Bits>
void ELFHeaderChunk<target_endianness, is64Bits>
::write(uint8_t *chunkBuffer) {
::memcpy(chunkBuffer, &_eh, size());
}
template<support::endianness target_endianness, bool is64Bits>
const char *ELFHeaderChunk<target_endianness, is64Bits>::info() {
return "elf_header";
}
//===----------------------------------------------------------------------===//
// ELFSectionHeaderChunk
// List of Section Headers:
//[Nr] Name Type Addr Off Size ES Flg Lk Inf Al
//[ 0] NULL 00000000 000000 000000 00 0 0 0
//[ 1] .text PROGBITS 00000000 000034 000040 00 AX 0 0 4
//===----------------------------------------------------------------------===//
template<support::endianness target_endianness, bool is64Bits>
ELFSectionHeaderChunk<target_endianness, is64Bits>
::ELFSectionHeaderChunk(const WriterOptionsELF& options,
ELFWriter<target_endianness,
is64Bits> &writer)
: _options(options)
, _writer(writer) {
this->_size = 0;
this->_align2 = 0;
// The first element in the list is always NULL
Elf_Shdr *nullshdr = new (_sectionAllocate.Allocate<Elf_Shdr>()) Elf_Shdr;
::memset(nullshdr, 0, sizeof (Elf_Shdr));
_sectionInfo.push_back(nullshdr);
this->_size += sizeof (Elf_Shdr);
ELFStringSectionChunk<target_endianness, is64Bits> *str = _writer.shstrtab();
for (const auto &chunk : _writer.sectionChunks()) {
Elf_Shdr *shdr = new (_sectionAllocate.Allocate<Elf_Shdr>()) Elf_Shdr;
StringRef Name = chunk->sectionName();
uint64_t offset = str->addString(Name);
shdr->sh_name = offset;
shdr->sh_type = chunk->type();
shdr->sh_flags = chunk->flags();
// TODO: At the time of creation of this section header, we will not have
// any address and offset info. We revisit this after assigning the file
// offsets.
shdr->sh_offset = chunk->fileOffset();
shdr->sh_addr = chunk->address();
shdr->sh_size = chunk->size();
// The next two fields have special meanings:
// sh_type sh_link sh_info
// SHT_DYNAMIC The section header index of the string
// table used by entries in the section. 0
// SHT_HASH The section header index of the symbol
// table to which the hash table applies. 0
// SHT_REL
// SHT_RELA The section header index of the
// associated symbol table. The section header
// index of the section
// to which the
// relocation applies.
// SHT_SYMTAB
// SHT_DYNSYM The section header index of the
// associated string table. One greater than the
// symbol table index of
// the last local symbol
// (binding STB_LOCAL).
// SHT_GROUP The section header index of the
// associated symbol table. The symbol table
// index of an entry in
// the associated symbol
// table. The name of
// the specified symbol
// table entry provides
// a signature for the
// section group.
// SHT_SYMTAB_SHNDX The section header index of
// the associated symbol table section. 0
// None of these chunks are of the above mentioned type, so we short them.
shdr->sh_link = 0;
shdr->sh_info = 0;
shdr->sh_addralign = chunk->align2();
// Not a special section with fixed entries
shdr->sh_entsize = 0;
_sectionInfo.push_back(shdr);
this->_size += sizeof (Elf_Shdr);
}
// Now I add in the section string table. For some reason This seems to be
// preferred location of string sections in contemporary
// (ones that must not be named) linker(s).
Elf_Shdr *shdr = new (_sectionAllocate.Allocate<Elf_Shdr>()) Elf_Shdr;
// I push the name of the string table into the string table as soon as
// it is created.
shdr->sh_name = 1;
shdr->sh_type = ELF::SHT_STRTAB;
shdr->sh_flags = 0;
// NOTE: Refer to above note when assigning st_addr for other sections.
shdr->sh_addr = str->address();
shdr->sh_offset = str->fileOffset();
shdr->sh_size = str->size();
shdr->sh_link = 0;
shdr->sh_info = 0;
// This section is not a loadable section, hence we do not care about
// alignment.
shdr->sh_addralign = 1;
_sectionInfo.push_back(shdr);
this->_size += sizeof (Elf_Shdr);
}
template<support::endianness target_endianness, bool is64Bits>
StringRef ELFSectionHeaderChunk<target_endianness, is64Bits>
::segmentName() const {
return "SHDR";
}
template<support::endianness target_endianness, bool is64Bits>
void ELFSectionHeaderChunk<target_endianness, is64Bits>
::write(uint8_t *chunkBuffer) {
for (const auto si : _sectionInfo) {
::memcpy(chunkBuffer, si, sizeof(*si));
chunkBuffer += sizeof (*si);
}
}
template<support::endianness target_endianness, bool is64Bits>
uint16_t ELFSectionHeaderChunk<target_endianness, is64Bits>::count() {
return _sectionInfo.size();
}
template<support::endianness target_endianness, bool is64Bits>
uint16_t ELFSectionHeaderChunk<target_endianness, is64Bits>::size() {
return sizeof (Elf_Shdr);
}
template<support::endianness target_endianness, bool is64Bits>
const char *ELFSectionHeaderChunk<target_endianness, is64Bits>::info() {
return "elf_section_header";
}
//===----------------------------------------------------------------------===//
// ELFProgramHeaderChunk
//===----------------------------------------------------------------------===//
// TODO: Implement the methods
//===----------------------------------------------------------------------===//
// ELFWriter Class
//===----------------------------------------------------------------------===//
template<support::endianness target_endianness, bool is64Bits>
class ELFWriter : public Writer {
public:
LLVM_ELF_IMPORT_TYPES(target_endianness, is64Bits)
typedef object::Elf_Shdr_Impl<target_endianness, is64Bits> Elf_Shdr;
ELFWriter(const WriterOptionsELF &options);
virtual error_code writeFile(const lld::File &File, StringRef path);
uint64_t addressOfAtom(const Atom *atom);
ArrayRef<Chunk<target_endianness, is64Bits>*> chunks() { return _chunks; }
KindHandler *kindHandler() { return _referenceKindHandler.get(); }
std::vector<SectionChunk<target_endianness, is64Bits>*> sectionChunks() {
return _sectionChunks ;
}
ELFStringSectionChunk<target_endianness, is64Bits> *shstrtab() {
return _shstrtable;
}
private:
void build(const lld::File &file);
void createChunks(const lld::File &file);
void buildAtomToAddressMap();
void assignFileOffsets();
const WriterOptionsELF &_options;
/// \brief AtomToAddress: Is a mapping from an Atom to the address where
/// it will live in the output file.
typedef llvm::DenseMap<const Atom*, uint64_t> AtomToAddress;
ELFStringSectionChunk<target_endianness, is64Bits> *_shstrtable ;
std::unique_ptr<KindHandler> _referenceKindHandler;
ELFSectionHeaderChunk<target_endianness, is64Bits> *_sectionHeaderChunk;
AtomToAddress _atomToAddress;
std::vector<Chunk<target_endianness, is64Bits>*> _chunks;
const DefinedAtom *_entryAtom;
std::vector<SectionChunk<target_endianness, is64Bits>*> _sectionChunks;
llvm::BumpPtrAllocator _chunkAllocate;
};
//===----------------------------------------------------------------------===//
// ELFWriter
//===----------------------------------------------------------------------===//
template<support::endianness target_endianness, bool is64Bits>
ELFWriter<target_endianness, is64Bits>
::ELFWriter(const WriterOptionsELF &options)
: _options(options)
, _referenceKindHandler(KindHandler::makeHandler(_options.machine()))
{}
template<support::endianness target_endianness, bool is64Bits>
void ELFWriter<target_endianness, is64Bits>::build(const lld::File &file){
// Create objects for each chunk.
createChunks(file);
assignFileOffsets();
buildAtomToAddressMap();
}
template<support::endianness target_endianness, bool is64Bits>
void ELFWriter<target_endianness, is64Bits>
::createChunks (const lld::File &file) {
std::map<StringRef, SectionChunk<target_endianness, is64Bits>*> sectionMap;
// We need to create hand crafted sections such as shstrtab strtab hash and
// symtab to put relevant information in ELF structures and then process the
// atoms.
_shstrtable = new (_chunkAllocate.Allocate
<ELFStringSectionChunk<target_endianness, is64Bits>>())
ELFStringSectionChunk<target_endianness, is64Bits>
(_options, *this, ".shstrtab");
_shstrtable->addString(".shstrtab");
//we also need to process undefined atoms
for (const DefinedAtom *a : file.defined() ) {
// TODO: Add sectionChoice.
// assert( atom->sectionChoice() == DefinedAtom::sectionBasedOnContent );
StringRef sectionName = a->customSectionName();
auto pos = sectionMap.find(sectionName);
DefinedAtom::ContentType type = a->contentType();
if (pos == sectionMap.end()) {
if (type != DefinedAtom::typeUnknown){
SectionChunk<target_endianness, is64Bits>
*chunk = new (_chunkAllocate.Allocate
<SectionChunk<target_endianness, is64Bits>>())
SectionChunk<target_endianness, is64Bits>
(type, sectionName, _options, *this);
sectionMap[sectionName] = chunk;
chunk->appendAtom(a);
_sectionChunks.push_back(chunk);
}
} else {
pos->second->appendAtom(a);
}
}
//put in the Undefined atoms as well
// Make header chunk
ELFHeaderChunk<target_endianness, is64Bits> *ehc =
new (_chunkAllocate.Allocate
<ELFHeaderChunk<target_endianness, is64Bits>>())
ELFHeaderChunk<target_endianness, is64Bits>(_options, file);
_sectionHeaderChunk = new (_chunkAllocate.Allocate<ELFSectionHeaderChunk
<target_endianness, is64Bits>>())
ELFSectionHeaderChunk
<target_endianness, is64Bits>(_options, *this);
ehc->e_shoff(ehc->size());
ehc->e_shentsize(_sectionHeaderChunk->size());
ehc->e_shnum(_sectionHeaderChunk->count());
// I am pushing string section after all sections are in.
// Hence the index will be total number of non-custom sections we have
ehc->e_shstrndx(_sectionChunks.size() + 1);
_chunks.push_back(ehc);
_chunks.push_back(_sectionHeaderChunk);
// We have ELF header, section header. Now push rest of sections
for (auto chnk : _sectionChunks)
_chunks.push_back(chnk);
_chunks.push_back(_shstrtable);
}
template<support::endianness target_endianness, bool is64Bits>
void ELFWriter<target_endianness, is64Bits>
::buildAtomToAddressMap () {
// _atomToAddress is a DenseMap that maps an atom its file address.
// std::get<1>(ai) is the offset from the start of the section to the atom.
for (auto &chunk : _sectionChunks){
for (auto &ai : chunk->atoms() ) {
_atomToAddress[std::get<0>(ai)] = chunk->address() + std::get<1>(ai);
}
}
}
template<support::endianness target_endianness, bool is64Bits>
void ELFWriter<target_endianness, is64Bits>::assignFileOffsets() {
DEBUG_WITH_TYPE("WriterELF-layout", dbgs()
<< "assign file offsets:\n");
uint64_t offset = 0;
uint64_t address = 0;
for (auto chunk : _chunks) {
chunk->assignFileOffset(offset, address);
}
//TODO: We need to fix all file offsets inside various ELF section headers
std::vector<Elf_Shdr*> secInfo = _sectionHeaderChunk->sectionInfo();
typename std::vector<Elf_Shdr*>::iterator it = secInfo.begin();
// First section is a NULL section with no sh_offset fix
(*it)->sh_offset = 0;
(*it)->sh_addr = 0;
++it;
for (auto &chunk : _sectionChunks){
(*it)->sh_offset = chunk->fileOffset();
(*it)->sh_addr = chunk->address();
++it;
}
// We have taken care of all the stock sections. We need to deal with
// custom sections
// They are section string table, string table and symbol table
(*it)->sh_offset = _shstrtable->fileOffset();
(*it)->sh_addr = _shstrtable->address();
}
template<support::endianness target_endianness, bool is64Bits>
error_code ELFWriter<target_endianness, is64Bits>
::writeFile(const lld::File &file, StringRef path) {
build(file);
uint64_t totalSize = _chunks.back()->fileOffset() + _chunks.back()->size();
OwningPtr<FileOutputBuffer> buffer;
error_code ec = FileOutputBuffer::create(path,
totalSize, buffer,
FileOutputBuffer::F_executable);
if (ec)
return ec;
for (auto chunk : _chunks) {
chunk->write(buffer->getBufferStart() + chunk->fileOffset());
}
return buffer->commit();
}
template<support::endianness target_endianness, bool is64Bits>
uint64_t ELFWriter<target_endianness, is64Bits>
::addressOfAtom(const Atom *atom) {
return _atomToAddress[atom];
}
} // namespace elf
Writer *createWriterELF(const WriterOptionsELF &options) {
if (!options.is64Bit() && options.endianness() == llvm::support::little)
return new lld::elf::ELFWriter<support::little, false>(options);
else if (options.is64Bit() && options.endianness() == llvm::support::little)
return new lld::elf::ELFWriter<support::little, true>(options);
else if (!options.is64Bit() && options.endianness() == llvm::support::big)
return new lld::elf::ELFWriter<support::big, false>(options);
else if (options.is64Bit() && options.endianness() == llvm::support::big)
return new lld::elf::ELFWriter<support::big, true>(options);
llvm_unreachable("Invalid Options!");
}
} // namespace lld