llvm-project/lld/lib/ReaderWriter/MachO/MachONormalizedFileBinaryUt...

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6.7 KiB
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//===- lib/ReaderWriter/MachO/MachONormalizedFileBinaryUtils.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_NORMALIZED_FILE_BINARY_UTILS_H
#define LLD_READER_WRITER_MACHO_NORMALIZED_FILE_BINARY_UTILS_H
#include "MachONormalizedFile.h"
#include "lld/Core/Error.h"
#include "lld/Core/LLVM.h"
#include "llvm/ADT/StringRef.h"
#include "llvm/Support/Casting.h"
#include "llvm/Support/Endian.h"
#include "llvm/Support/ErrorHandling.h"
#include "llvm/Support/Host.h"
#include "llvm/Support/LEB128.h"
#include "llvm/Support/MachO.h"
#include <system_error>
namespace lld {
namespace mach_o {
namespace normalized {
class ByteBuffer {
public:
ByteBuffer() : _ostream(_bytes) { }
void append_byte(uint8_t b) {
_ostream << b;
}
void append_uleb128(uint64_t value) {
llvm::encodeULEB128(value, _ostream);
}
void append_uleb128Fixed(uint64_t value, unsigned byteCount) {
unsigned min = llvm::getULEB128Size(value);
assert(min <= byteCount);
unsigned pad = byteCount - min;
llvm::encodeULEB128(value, _ostream, pad);
}
void append_sleb128(int64_t value) {
llvm::encodeSLEB128(value, _ostream);
}
void append_string(StringRef str) {
_ostream << str;
append_byte(0);
}
void align(unsigned alignment) {
while ( (_ostream.tell() % alignment) != 0 )
append_byte(0);
}
size_t size() {
return _ostream.tell();
}
const uint8_t *bytes() {
return reinterpret_cast<const uint8_t*>(_ostream.str().data());
}
private:
SmallVector<char, 128> _bytes;
// Stream ivar must be after SmallVector ivar to construct properly.
llvm::raw_svector_ostream _ostream;
};
using namespace llvm::support::endian;
using llvm::sys::getSwappedBytes;
template<typename T>
static inline uint16_t read16(const T *loc, bool isBig) {
assert((uint64_t)loc % alignof(T) == 0 && "invalid pointer alignment");
return isBig ? read16be(loc) : read16le(loc);
}
template<typename T>
static inline uint32_t read32(const T *loc, bool isBig) {
assert((uint64_t)loc % alignof(T) == 0 && "invalid pointer alignment");
return isBig ? read32be(loc) : read32le(loc);
}
template<typename T>
static inline uint64_t read64(const T *loc, bool isBig) {
assert((uint64_t)loc % alignof(T) == 0 && "invalid pointer alignment");
return isBig ? read64be(loc) : read64le(loc);
}
inline void write16(uint8_t *loc, uint16_t value, bool isBig) {
if (isBig)
write16be(loc, value);
else
write16le(loc, value);
}
inline void write32(uint8_t *loc, uint32_t value, bool isBig) {
if (isBig)
write32be(loc, value);
else
write32le(loc, value);
}
inline void write64(uint8_t *loc, uint64_t value, bool isBig) {
if (isBig)
write64be(loc, value);
else
write64le(loc, value);
}
inline uint32_t
bitFieldExtract(uint32_t value, bool isBigEndianBigField, uint8_t firstBit,
uint8_t bitCount) {
const uint32_t mask = ((1<<bitCount)-1);
const uint8_t shift = isBigEndianBigField ? (32-firstBit-bitCount) : firstBit;
return (value >> shift) & mask;
}
inline void
bitFieldSet(uint32_t &bits, bool isBigEndianBigField, uint32_t newBits,
uint8_t firstBit, uint8_t bitCount) {
const uint32_t mask = ((1<<bitCount)-1);
assert((newBits & mask) == newBits);
const uint8_t shift = isBigEndianBigField ? (32-firstBit-bitCount) : firstBit;
bits &= ~(mask << shift);
bits |= (newBits << shift);
}
inline Relocation unpackRelocation(const llvm::MachO::any_relocation_info &r,
bool isBigEndian) {
uint32_t r0 = read32(&r.r_word0, isBigEndian);
uint32_t r1 = read32(&r.r_word1, isBigEndian);
Relocation result;
if (r0 & llvm::MachO::R_SCATTERED) {
// scattered relocation record always laid out like big endian bit field
result.offset = bitFieldExtract(r0, true, 8, 24);
result.scattered = true;
result.type = (RelocationInfoType)
bitFieldExtract(r0, true, 4, 4);
result.length = bitFieldExtract(r0, true, 2, 2);
result.pcRel = bitFieldExtract(r0, true, 1, 1);
result.isExtern = false;
result.value = r1;
result.symbol = 0;
} else {
result.offset = r0;
result.scattered = false;
result.type = (RelocationInfoType)
bitFieldExtract(r1, isBigEndian, 28, 4);
result.length = bitFieldExtract(r1, isBigEndian, 25, 2);
result.pcRel = bitFieldExtract(r1, isBigEndian, 24, 1);
result.isExtern = bitFieldExtract(r1, isBigEndian, 27, 1);
result.value = 0;
result.symbol = bitFieldExtract(r1, isBigEndian, 0, 24);
}
return result;
}
inline llvm::MachO::any_relocation_info
packRelocation(const Relocation &r, bool swap, bool isBigEndian) {
uint32_t r0 = 0;
uint32_t r1 = 0;
if (r.scattered) {
r1 = r.value;
bitFieldSet(r0, true, r.offset, 8, 24);
bitFieldSet(r0, true, r.type, 4, 4);
bitFieldSet(r0, true, r.length, 2, 2);
bitFieldSet(r0, true, r.pcRel, 1, 1);
bitFieldSet(r0, true, r.scattered, 0, 1); // R_SCATTERED
} else {
r0 = r.offset;
bitFieldSet(r1, isBigEndian, r.type, 28, 4);
bitFieldSet(r1, isBigEndian, r.isExtern, 27, 1);
bitFieldSet(r1, isBigEndian, r.length, 25, 2);
bitFieldSet(r1, isBigEndian, r.pcRel, 24, 1);
bitFieldSet(r1, isBigEndian, r.symbol, 0, 24);
}
llvm::MachO::any_relocation_info result;
result.r_word0 = swap ? getSwappedBytes(r0) : r0;
result.r_word1 = swap ? getSwappedBytes(r1) : r1;
return result;
}
inline StringRef getString16(const char s[16]) {
StringRef x = s;
if ( x.size() > 16 )
return x.substr(0, 16);
else
return x;
}
inline void setString16(StringRef str, char s[16]) {
memset(s, 0, 16);
memcpy(s, str.begin(), (str.size() > 16) ? 16: str.size());
}
// Implemented in normalizedToAtoms() and used by normalizedFromAtoms() so
// that the same table can be used to map mach-o sections to and from
// DefinedAtom::ContentType.
void relocatableSectionInfoForContentType(DefinedAtom::ContentType atomType,
StringRef &segmentName,
StringRef &sectionName,
SectionType &sectionType,
SectionAttr &sectionAttrs,
bool &relocsToDefinedCanBeImplicit);
} // namespace normalized
} // namespace mach_o
} // namespace lld
#endif // LLD_READER_WRITER_MACHO_NORMALIZED_FILE_BINARY_UTILS_H