linux-x64/clang/include/llvm/MC/MCFixup.h - hafnium/prebuilts - Git at Google

 //===-- llvm/MC/MCFixup.h - Instruction Relocation and Patching -*- 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
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_MC_MCFIXUP_H
 #define LLVM_MC_MCFIXUP_H

 #include "llvm/MC/MCExpr.h"
 #include "llvm/Support/DataTypes.h"
 #include "llvm/Support/ErrorHandling.h"
 #include "llvm/Support/SMLoc.h"
 #include <cassert>

 namespace llvm {
 class MCExpr;

 /// Extensible enumeration to represent the type of a fixup.
 enum MCFixupKind {
   FK_NONE = 0,   ///< A no-op fixup.
   FK_Data_1,     ///< A one-byte fixup.
   FK_Data_2,     ///< A two-byte fixup.
   FK_Data_4,     ///< A four-byte fixup.
   FK_Data_8,     ///< A eight-byte fixup.
   FK_PCRel_1,    ///< A one-byte pc relative fixup.
   FK_PCRel_2,    ///< A two-byte pc relative fixup.
   FK_PCRel_4,    ///< A four-byte pc relative fixup.
   FK_PCRel_8,    ///< A eight-byte pc relative fixup.
   FK_GPRel_1,    ///< A one-byte gp relative fixup.
   FK_GPRel_2,    ///< A two-byte gp relative fixup.
   FK_GPRel_4,    ///< A four-byte gp relative fixup.
   FK_GPRel_8,    ///< A eight-byte gp relative fixup.
   FK_DTPRel_4,   ///< A four-byte dtp relative fixup.
   FK_DTPRel_8,   ///< A eight-byte dtp relative fixup.
   FK_TPRel_4,    ///< A four-byte tp relative fixup.
   FK_TPRel_8,    ///< A eight-byte tp relative fixup.
   FK_SecRel_1,   ///< A one-byte section relative fixup.
   FK_SecRel_2,   ///< A two-byte section relative fixup.
   FK_SecRel_4,   ///< A four-byte section relative fixup.
   FK_SecRel_8,   ///< A eight-byte section relative fixup.
   FK_Data_Add_1, ///< A one-byte add fixup.
   FK_Data_Add_2, ///< A two-byte add fixup.
   FK_Data_Add_4, ///< A four-byte add fixup.
   FK_Data_Add_8, ///< A eight-byte add fixup.
   FK_Data_Sub_1, ///< A one-byte sub fixup.
   FK_Data_Sub_2, ///< A two-byte sub fixup.
   FK_Data_Sub_4, ///< A four-byte sub fixup.
   FK_Data_Sub_8, ///< A eight-byte sub fixup.

   FirstTargetFixupKind = 128,

   // Limit range of target fixups, in case we want to pack more efficiently
   // later.
   MaxTargetFixupKind = (1 << 8)
 };

 /// Encode information on a single operation to perform on a byte
 /// sequence (e.g., an encoded instruction) which requires assemble- or run-
 /// time patching.
 ///
 /// Fixups are used any time the target instruction encoder needs to represent
 /// some value in an instruction which is not yet concrete. The encoder will
 /// encode the instruction assuming the value is 0, and emit a fixup which
 /// communicates to the assembler backend how it should rewrite the encoded
 /// value.
 ///
 /// During the process of relaxation, the assembler will apply fixups as
 /// symbolic values become concrete. When relaxation is complete, any remaining
 /// fixups become relocations in the object file (or errors, if the fixup cannot
 /// be encoded on the target).
 class MCFixup {
   /// The value to put into the fixup location. The exact interpretation of the
   /// expression is target dependent, usually it will be one of the operands to
   /// an instruction or an assembler directive.
   const MCExpr *Value;

   /// The byte index of start of the relocation inside the MCFragment.
   uint32_t Offset;

   /// The target dependent kind of fixup item this is. The kind is used to
   /// determine how the operand value should be encoded into the instruction.
   unsigned Kind;

   /// The source location which gave rise to the fixup, if any.
   SMLoc Loc;
 public:
   static MCFixup create(uint32_t Offset, const MCExpr *Value,
                         MCFixupKind Kind, SMLoc Loc = SMLoc()) {
     assert(unsigned(Kind) < MaxTargetFixupKind && "Kind out of range!");
     MCFixup FI;
     FI.Value = Value;
     FI.Offset = Offset;
     FI.Kind = unsigned(Kind);
     FI.Loc = Loc;
     return FI;
   }

   /// Return a fixup corresponding to the add half of a add/sub fixup pair for
   /// the given Fixup.
   static MCFixup createAddFor(const MCFixup &Fixup) {
     MCFixup FI;
     FI.Value = Fixup.getValue();
     FI.Offset = Fixup.getOffset();
     FI.Kind = (unsigned)getAddKindForKind(Fixup.getKind());
     FI.Loc = Fixup.getLoc();
     return FI;
   }

   /// Return a fixup corresponding to the sub half of a add/sub fixup pair for
   /// the given Fixup.
   static MCFixup createSubFor(const MCFixup &Fixup) {
     MCFixup FI;
     FI.Value = Fixup.getValue();
     FI.Offset = Fixup.getOffset();
     FI.Kind = (unsigned)getSubKindForKind(Fixup.getKind());
     FI.Loc = Fixup.getLoc();
     return FI;
   }

   MCFixupKind getKind() const { return MCFixupKind(Kind); }

   uint32_t getOffset() const { return Offset; }
   void setOffset(uint32_t Value) { Offset = Value; }

   const MCExpr *getValue() const { return Value; }

   /// Return the generic fixup kind for a value with the given size. It
   /// is an error to pass an unsupported size.
   static MCFixupKind getKindForSize(unsigned Size, bool isPCRel) {
     switch (Size) {
     default: llvm_unreachable("Invalid generic fixup size!");
     case 1: return isPCRel ? FK_PCRel_1 : FK_Data_1;
     case 2: return isPCRel ? FK_PCRel_2 : FK_Data_2;
     case 4: return isPCRel ? FK_PCRel_4 : FK_Data_4;
     case 8: return isPCRel ? FK_PCRel_8 : FK_Data_8;
     }
   }

   /// Return the generic fixup kind for an addition with a given size. It
   /// is an error to pass an unsupported size.
   static MCFixupKind getAddKindForKind(unsigned Kind) {
     switch (Kind) {
     default: llvm_unreachable("Unknown type to convert!");
     case FK_Data_1: return FK_Data_Add_1;
     case FK_Data_2: return FK_Data_Add_2;
     case FK_Data_4: return FK_Data_Add_4;
     case FK_Data_8: return FK_Data_Add_8;
     }
   }

   /// Return the generic fixup kind for an subtraction with a given size. It
   /// is an error to pass an unsupported size.
   static MCFixupKind getSubKindForKind(unsigned Kind) {
     switch (Kind) {
     default: llvm_unreachable("Unknown type to convert!");
     case FK_Data_1: return FK_Data_Sub_1;
     case FK_Data_2: return FK_Data_Sub_2;
     case FK_Data_4: return FK_Data_Sub_4;
     case FK_Data_8: return FK_Data_Sub_8;
     }
   }

   SMLoc getLoc() const { return Loc; }
 };

 } // End llvm namespace

 #endif
	//===-- llvm/MC/MCFixup.h - Instruction Relocation and Patching -- 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
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_MC_MCFIXUP_H
	#define LLVM_MC_MCFIXUP_H

	#include "llvm/MC/MCExpr.h"
	#include "llvm/Support/DataTypes.h"
	#include "llvm/Support/ErrorHandling.h"
	#include "llvm/Support/SMLoc.h"
	#include <cassert>

	namespace llvm {
	class MCExpr;

	/// Extensible enumeration to represent the type of a fixup.
	enum MCFixupKind {
	FK_NONE = 0, ///< A no-op fixup.
	FK_Data_1, ///< A one-byte fixup.
	FK_Data_2, ///< A two-byte fixup.
	FK_Data_4, ///< A four-byte fixup.
	FK_Data_8, ///< A eight-byte fixup.
	FK_PCRel_1, ///< A one-byte pc relative fixup.
	FK_PCRel_2, ///< A two-byte pc relative fixup.
	FK_PCRel_4, ///< A four-byte pc relative fixup.
	FK_PCRel_8, ///< A eight-byte pc relative fixup.
	FK_GPRel_1, ///< A one-byte gp relative fixup.
	FK_GPRel_2, ///< A two-byte gp relative fixup.
	FK_GPRel_4, ///< A four-byte gp relative fixup.
	FK_GPRel_8, ///< A eight-byte gp relative fixup.
	FK_DTPRel_4, ///< A four-byte dtp relative fixup.
	FK_DTPRel_8, ///< A eight-byte dtp relative fixup.
	FK_TPRel_4, ///< A four-byte tp relative fixup.
	FK_TPRel_8, ///< A eight-byte tp relative fixup.
	FK_SecRel_1, ///< A one-byte section relative fixup.
	FK_SecRel_2, ///< A two-byte section relative fixup.
	FK_SecRel_4, ///< A four-byte section relative fixup.
	FK_SecRel_8, ///< A eight-byte section relative fixup.
	FK_Data_Add_1, ///< A one-byte add fixup.
	FK_Data_Add_2, ///< A two-byte add fixup.
	FK_Data_Add_4, ///< A four-byte add fixup.
	FK_Data_Add_8, ///< A eight-byte add fixup.
	FK_Data_Sub_1, ///< A one-byte sub fixup.
	FK_Data_Sub_2, ///< A two-byte sub fixup.
	FK_Data_Sub_4, ///< A four-byte sub fixup.
	FK_Data_Sub_8, ///< A eight-byte sub fixup.

	FirstTargetFixupKind = 128,

	// Limit range of target fixups, in case we want to pack more efficiently
	// later.
	MaxTargetFixupKind = (1 << 8)
	};

	/// Encode information on a single operation to perform on a byte
	/// sequence (e.g., an encoded instruction) which requires assemble- or run-
	/// time patching.
	///
	/// Fixups are used any time the target instruction encoder needs to represent
	/// some value in an instruction which is not yet concrete. The encoder will
	/// encode the instruction assuming the value is 0, and emit a fixup which
	/// communicates to the assembler backend how it should rewrite the encoded
	/// value.
	///
	/// During the process of relaxation, the assembler will apply fixups as
	/// symbolic values become concrete. When relaxation is complete, any remaining
	/// fixups become relocations in the object file (or errors, if the fixup cannot
	/// be encoded on the target).
	class MCFixup {
	/// The value to put into the fixup location. The exact interpretation of the
	/// expression is target dependent, usually it will be one of the operands to
	/// an instruction or an assembler directive.
	const MCExpr *Value;

	/// The byte index of start of the relocation inside the MCFragment.
	uint32_t Offset;

	/// The target dependent kind of fixup item this is. The kind is used to
	/// determine how the operand value should be encoded into the instruction.
	unsigned Kind;

	/// The source location which gave rise to the fixup, if any.
	SMLoc Loc;
	public:
	static MCFixup create(uint32_t Offset, const MCExpr *Value,
	MCFixupKind Kind, SMLoc Loc = SMLoc()) {
	assert(unsigned(Kind) < MaxTargetFixupKind && "Kind out of range!");
	MCFixup FI;
	FI.Value = Value;
	FI.Offset = Offset;
	FI.Kind = unsigned(Kind);
	FI.Loc = Loc;
	return FI;
	}

	/// Return a fixup corresponding to the add half of a add/sub fixup pair for
	/// the given Fixup.
	static MCFixup createAddFor(const MCFixup &Fixup) {
	MCFixup FI;
	FI.Value = Fixup.getValue();
	FI.Offset = Fixup.getOffset();
	FI.Kind = (unsigned)getAddKindForKind(Fixup.getKind());
	FI.Loc = Fixup.getLoc();
	return FI;
	}

	/// Return a fixup corresponding to the sub half of a add/sub fixup pair for
	/// the given Fixup.
	static MCFixup createSubFor(const MCFixup &Fixup) {
	MCFixup FI;
	FI.Value = Fixup.getValue();
	FI.Offset = Fixup.getOffset();
	FI.Kind = (unsigned)getSubKindForKind(Fixup.getKind());
	FI.Loc = Fixup.getLoc();
	return FI;
	}

	MCFixupKind getKind() const { return MCFixupKind(Kind); }

	uint32_t getOffset() const { return Offset; }
	void setOffset(uint32_t Value) { Offset = Value; }

	const MCExpr *getValue() const { return Value; }

	/// Return the generic fixup kind for a value with the given size. It
	/// is an error to pass an unsupported size.
	static MCFixupKind getKindForSize(unsigned Size, bool isPCRel) {
	switch (Size) {
	default: llvm_unreachable("Invalid generic fixup size!");
	case 1: return isPCRel ? FK_PCRel_1 : FK_Data_1;
	case 2: return isPCRel ? FK_PCRel_2 : FK_Data_2;
	case 4: return isPCRel ? FK_PCRel_4 : FK_Data_4;
	case 8: return isPCRel ? FK_PCRel_8 : FK_Data_8;
	}
	}

	/// Return the generic fixup kind for an addition with a given size. It
	/// is an error to pass an unsupported size.
	static MCFixupKind getAddKindForKind(unsigned Kind) {
	switch (Kind) {
	default: llvm_unreachable("Unknown type to convert!");
	case FK_Data_1: return FK_Data_Add_1;
	case FK_Data_2: return FK_Data_Add_2;
	case FK_Data_4: return FK_Data_Add_4;
	case FK_Data_8: return FK_Data_Add_8;
	}
	}

	/// Return the generic fixup kind for an subtraction with a given size. It
	/// is an error to pass an unsupported size.
	static MCFixupKind getSubKindForKind(unsigned Kind) {
	switch (Kind) {
	default: llvm_unreachable("Unknown type to convert!");
	case FK_Data_1: return FK_Data_Sub_1;
	case FK_Data_2: return FK_Data_Sub_2;
	case FK_Data_4: return FK_Data_Sub_4;
	case FK_Data_8: return FK_Data_Sub_8;
	}
	}

	SMLoc getLoc() const { return Loc; }
	};

	} // End llvm namespace

	#endif