//===- GOFF.h - GOFF object file implementation -----------------*- C++ -*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
// This file declares the GOFFObjectFile class.
// Record classes and derivatives are also declared and implemented.
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_OBJECT_GOFF_H
#define LLVM_OBJECT_GOFF_H
#include "llvm/ADT/SmallString.h"
#include "llvm/ADT/SmallVector.h"
#include "llvm/BinaryFormat/GOFF.h"
#include "llvm/Support/Debug.h"
#include "llvm/Support/Endian.h"
#include "llvm/Support/raw_ostream.h"
namespace llvm {
namespace object {
/// \brief Represents a GOFF physical record.
///
/// Specifies protected member functions to manipulate the record. These should
/// be called from deriving classes to change values as that record specifies.
class Record {
public:
static Error getContinuousData(const uint8_t *Record, uint16_t DataLength,
int DataIndex, SmallString<256> &CompleteData);
static bool isContinued(const uint8_t *Record) {
uint8_t IsContinued;
getBits(Record, 1, 7, 1, IsContinued);
return IsContinued;
}
static bool isContinuation(const uint8_t *Record) {
uint8_t IsContinuation;
getBits(Record, 1, 6, 1, IsContinuation);
return IsContinuation;
}
protected:
/// \brief Get bit field of specified byte.
///
/// Used to pack bit fields into one byte. Fields are packed left to right.
/// Bit index zero is the most significant bit of the byte.
///
/// \param ByteIndex index of byte the field is in.
/// \param BitIndex index of first bit of field.
/// \param Length length of bit field.
/// \param Value value of bit field.
static void getBits(const uint8_t *Bytes, uint8_t ByteIndex, uint8_t BitIndex,
uint8_t Length, uint8_t &Value) {
assert(ByteIndex < GOFF::RecordLength && "Byte index out of bounds!");
assert(BitIndex < 8 && "Bit index out of bounds!");
assert(Length + BitIndex <= 8 && "Bit length too long!");
get<uint8_t>(Bytes, ByteIndex, Value);
Value = (Value >> (8 - BitIndex - Length)) & ((1 << Length) - 1);
}
template <class T>
static void get(const uint8_t *Bytes, uint8_t ByteIndex, T &Value) {
assert(ByteIndex + sizeof(T) <= GOFF::RecordLength &&
"Byte index out of bounds!");
Value = support::endian::read<T, support::big, support::unaligned>(
&Bytes[ByteIndex]);
}
};
class HDRRecord : public Record {
public:
static Error getData(const uint8_t *Record, SmallString<256> &CompleteData);
static uint16_t getPropertyModuleLength(const uint8_t *Record) {
uint16_t Length;
get<uint16_t>(Record, 52, Length);
return Length;
}
};
class ESDRecord : public Record {
public:
/// \brief Number of bytes for name; any more must go in continuation.
/// This is the number of bytes that can fit into the data field of an ESD
/// record.
static const uint8_t ESDMaxUncontinuedNameLength = 8;
/// \brief Maximum name length for ESD records and continuations.
/// This is the number of bytes that can fit into the data field of an ESD
/// record AND following continuations. This is limited fundamentally by the
/// 16 bit SIGNED length field.
static const uint16_t MaxNameLength = 32 * 1024;
public:
static Error getData(const uint8_t *Record, SmallString<256> &CompleteData);
// ESD Get routines.
static void getSymbolType(const uint8_t *Record,
GOFF::ESDSymbolType &SymbolType) {
uint8_t Value;
get<uint8_t>(Record, 3, Value);
SymbolType = (GOFF::ESDSymbolType)Value;
}
static void getEsdId(const uint8_t *Record, uint32_t &EsdId) {
get<uint32_t>(Record, 4, EsdId);
}
static void getParentEsdId(const uint8_t *Record, uint32_t &EsdId) {
get<uint32_t>(Record, 8, EsdId);
}
static void getOffset(const uint8_t *Record, uint32_t &Offset) {
get<uint32_t>(Record, 16, Offset);
}
static void getLength(const uint8_t *Record, uint32_t &Length) {
get<uint32_t>(Record, 24, Length);
}
static void getNameSpaceId(const uint8_t *Record, GOFF::ESDNameSpaceId &Id) {
uint8_t Value;
get<uint8_t>(Record, 40, Value);
Id = (GOFF::ESDNameSpaceId)Value;
}
static void getFillBytePresent(const uint8_t *Record, bool &Present) {
uint8_t Value;
getBits(Record, 41, 0, 1, Value);
Present = (bool)Value;
}
static void getNameMangled(const uint8_t *Record, bool &Mangled) {
uint8_t Value;
getBits(Record, 41, 1, 1, Value);
Mangled = (bool)Value;
}
static void getRenamable(const uint8_t *Record, bool &Renamable) {
uint8_t Value;
getBits(Record, 41, 2, 1, Value);
Renamable = (bool)Value;
}
static void getRemovable(const uint8_t *Record, bool &Removable) {
uint8_t Value;
getBits(Record, 41, 3, 1, Value);
Removable = (bool)Value;
}
static void getFillByteValue(const uint8_t *Record, uint8_t &Fill) {
get<uint8_t>(Record, 42, Fill);
}
static void getAdaEsdId(const uint8_t *Record, uint32_t &EsdId) {
get<uint32_t>(Record, 44, EsdId);
}
static void getSortPriority(const uint8_t *Record, uint32_t &Priority) {
get<uint32_t>(Record, 48, Priority);
}
static void getAmode(const uint8_t *Record, GOFF::ESDAmode &Amode) {
uint8_t Value;
get<uint8_t>(Record, 60, Value);
Amode = (GOFF::ESDAmode)Value;
}
static void getRmode(const uint8_t *Record, GOFF::ESDRmode &Rmode) {
uint8_t Value;
get<uint8_t>(Record, 61, Value);
Rmode = (GOFF::ESDRmode)Value;
}
static void getTextStyle(const uint8_t *Record, GOFF::ESDTextStyle &Style) {
uint8_t Value;
getBits(Record, 62, 0, 4, Value);
Style = (GOFF::ESDTextStyle)Value;
}
static void getBindingAlgorithm(const uint8_t *Record,
GOFF::ESDBindingAlgorithm &Algorithm) {
uint8_t Value;
getBits(Record, 62, 4, 4, Value);
Algorithm = (GOFF::ESDBindingAlgorithm)Value;
}
static void getTaskingBehavior(const uint8_t *Record,
GOFF::ESDTaskingBehavior &TaskingBehavior) {
uint8_t Value;
getBits(Record, 63, 0, 3, Value);
TaskingBehavior = (GOFF::ESDTaskingBehavior)Value;
}
static void getReadOnly(const uint8_t *Record, bool &ReadOnly) {
uint8_t Value;
getBits(Record, 63, 4, 1, Value);
ReadOnly = (bool)Value;
}
static void getExecutable(const uint8_t *Record,
GOFF::ESDExecutable &Executable) {
uint8_t Value;
getBits(Record, 63, 5, 3, Value);
Executable = (GOFF::ESDExecutable)Value;
}
static void getDuplicateSeverity(const uint8_t *Record,
GOFF::ESDDuplicateSymbolSeverity &DSS) {
uint8_t Value;
getBits(Record, 64, 2, 2, Value);
DSS = (GOFF::ESDDuplicateSymbolSeverity)Value;
}
static void getBindingStrength(const uint8_t *Record,
GOFF::ESDBindingStrength &Strength) {
uint8_t Value;
getBits(Record, 64, 4, 4, Value);
Strength = (GOFF::ESDBindingStrength)Value;
}
static void getLoadingBehavior(const uint8_t *Record,
GOFF::ESDLoadingBehavior &Behavior) {
uint8_t Value;
getBits(Record, 65, 0, 2, Value);
Behavior = (GOFF::ESDLoadingBehavior)Value;
}
static void getIndirectReference(const uint8_t *Record, bool &Indirect) {
uint8_t Value;
getBits(Record, 65, 3, 1, Value);
Indirect = (bool)Value;
}
static void getBindingScope(const uint8_t *Record,
GOFF::ESDBindingScope &Scope) {
uint8_t Value;
getBits(Record, 65, 4, 4, Value);
Scope = (GOFF::ESDBindingScope)Value;
}
static void getLinkageType(const uint8_t *Record,
GOFF::ESDLinkageType &Type) {
uint8_t Value;
getBits(Record, 66, 2, 1, Value);
Type = (GOFF::ESDLinkageType)Value;
}
static void getAlignment(const uint8_t *Record,
GOFF::ESDAlignment &Alignment) {
uint8_t Value;
getBits(Record, 66, 3, 5, Value);
Alignment = (GOFF::ESDAlignment)Value;
}
static uint16_t getNameLength(const uint8_t *Record) {
uint16_t Length;
get<uint16_t>(Record, 70, Length);
return Length;
}
};
class ENDRecord : public Record {
public:
static Error getData(const uint8_t *Record, SmallString<256> &CompleteData);
static uint16_t getNameLength(const uint8_t *Record) {
uint16_t Length;
get<uint16_t>(Record, 24, Length);
return Length;
}
};
} // end namespace object
} // end namespace llvm
#endif