clang-r428724/include/llvm/ExecutionEngine/Orc/OrcABISupport.h - platform/prebuilts/clang/host/windows-x86 - Git at Google

 //===- OrcABISupport.h - ABI support code -----------------------*- 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
 //
 //===----------------------------------------------------------------------===//
 //
 // ABI specific code for Orc, e.g. callback assembly.
 //
 // ABI classes should be part of the JIT *target* process, not the host
 // process (except where you're doing hosted JITing and the two are one and the
 // same).
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_EXECUTIONENGINE_ORC_ORCABISUPPORT_H
 #define LLVM_EXECUTIONENGINE_ORC_ORCABISUPPORT_H

 #include "llvm/ExecutionEngine/JITSymbol.h"
 #include "llvm/Support/Error.h"
 #include "llvm/Support/ErrorHandling.h"
 #include "llvm/Support/MathExtras.h"
 #include <cstdint>

 namespace llvm {
 namespace orc {

 struct IndirectStubsAllocationSizes {
   uint64_t StubBytes = 0;
   uint64_t PointerBytes = 0;
   unsigned NumStubs = 0;
 };

 template <typename ORCABI>
 IndirectStubsAllocationSizes
 getIndirectStubsBlockSizes(unsigned MinStubs, unsigned RoundToMultipleOf = 0) {
   assert(
       (RoundToMultipleOf == 0 || (RoundToMultipleOf % ORCABI::StubSize == 0)) &&
       "RoundToMultipleOf is not a multiple of stub size");
   uint64_t StubBytes = MinStubs * ORCABI::StubSize;
   if (RoundToMultipleOf)
     StubBytes = alignTo(StubBytes, RoundToMultipleOf);
   unsigned NumStubs = StubBytes / ORCABI::StubSize;
   uint64_t PointerBytes = NumStubs * ORCABI::PointerSize;
   return {StubBytes, PointerBytes, NumStubs};
 }

 /// Generic ORC ABI support.
 ///
 /// This class can be substituted as the target architecture support class for
 /// ORC templates that require one (e.g. IndirectStubsManagers). It does not
 /// support lazy JITing however, and any attempt to use that functionality
 /// will result in execution of an llvm_unreachable.
 class OrcGenericABI {
 public:
   static constexpr unsigned PointerSize = sizeof(uintptr_t);
   static constexpr unsigned TrampolineSize = 1;
   static constexpr unsigned StubSize = 1;
   static constexpr unsigned StubToPointerMaxDisplacement = 1;
   static constexpr unsigned ResolverCodeSize = 1;

   static void writeResolverCode(char *ResolveWorkingMem,
                                 JITTargetAddress ResolverTargetAddr,
                                 JITTargetAddress ReentryFnAddr,
                                 JITTargetAddress ReentryCtxAddr) {
     llvm_unreachable("writeResolverCode is not supported by the generic host "
                      "support class");
   }

   static void writeTrampolines(char *TrampolineBlockWorkingMem,
                                JITTargetAddress TrampolineBlockTargetAddr,
                                JITTargetAddress ResolverAddr,
                                unsigned NumTrampolines) {
     llvm_unreachable("writeTrampolines is not supported by the generic host "
                      "support class");
   }

   static void writeIndirectStubsBlock(
       char *StubsBlockWorkingMem, JITTargetAddress StubsBlockTargetAddress,
       JITTargetAddress PointersBlockTargetAddress, unsigned NumStubs) {
     llvm_unreachable(
         "writeIndirectStubsBlock is not supported by the generic host "
         "support class");
   }
 };

 class OrcAArch64 {
 public:
   static constexpr unsigned PointerSize = 8;
   static constexpr unsigned TrampolineSize = 12;
   static constexpr unsigned StubSize = 8;
   static constexpr unsigned StubToPointerMaxDisplacement = 1U << 27;
   static constexpr unsigned ResolverCodeSize = 0x120;

   /// Write the resolver code into the given memory. The user is
   /// responsible for allocating the memory and setting permissions.
   ///
   /// ReentryFnAddr should be the address of a function whose signature matches
   /// void* (*)(void *TrampolineAddr, void *ReentryCtxAddr). The ReentryCtxAddr
   /// argument of writeResolverCode will be passed as the second argument to
   /// the function at ReentryFnAddr.
   static void writeResolverCode(char *ResolverWorkingMem,
                                 JITTargetAddress ResolverTargetAddress,
                                 JITTargetAddress ReentryFnAddr,
                                 JITTargetAddress RentryCtxAddr);

   /// Write the requested number of trampolines into the given memory,
   /// which must be big enough to hold 1 pointer, plus NumTrampolines
   /// trampolines.
   static void writeTrampolines(char *TrampolineBlockWorkingMem,
                                JITTargetAddress TrampolineBlockTargetAddress,
                                JITTargetAddress ResolverAddr,
                                unsigned NumTrampolines);

   /// Write NumStubs indirect stubs to working memory at StubsBlockWorkingMem.
   /// Stubs will be written as if linked at StubsBlockTargetAddress, with the
   /// Nth stub using the Nth pointer in memory starting at
   /// PointersBlockTargetAddress.
   static void writeIndirectStubsBlock(
       char *StubsBlockWorkingMem, JITTargetAddress StubsBlockTargetAddress,
       JITTargetAddress PointersBlockTargetAddress, unsigned MinStubs);
 };

 /// X86_64 code that's common to all ABIs.
 ///
 /// X86_64 supports lazy JITing.
 class OrcX86_64_Base {
 public:
   static constexpr unsigned PointerSize = 8;
   static constexpr unsigned TrampolineSize = 8;
   static constexpr unsigned StubSize = 8;
   static constexpr unsigned StubToPointerMaxDisplacement = 1 << 31;

   /// Write the requested number of trampolines into the given memory,
   /// which must be big enough to hold 1 pointer, plus NumTrampolines
   /// trampolines.
   static void writeTrampolines(char *TrampolineBlockWorkingMem,
                                JITTargetAddress TrampolineBlockTargetAddress,
                                JITTargetAddress ResolverAddr,
                                unsigned NumTrampolines);

   /// Write NumStubs indirect stubs to working memory at StubsBlockWorkingMem.
   /// Stubs will be written as if linked at StubsBlockTargetAddress, with the
   /// Nth stub using the Nth pointer in memory starting at
   /// PointersBlockTargetAddress.
   static void writeIndirectStubsBlock(
       char *StubsBlockWorkingMem, JITTargetAddress StubsBlockTargetAddress,
       JITTargetAddress PointersBlockTargetAddress, unsigned NumStubs);
 };

 /// X86_64 support for SysV ABI (Linux, MacOSX).
 ///
 /// X86_64_SysV supports lazy JITing.
 class OrcX86_64_SysV : public OrcX86_64_Base {
 public:
   static constexpr unsigned ResolverCodeSize = 0x6C;

   /// Write the resolver code into the given memory. The user is
   /// responsible for allocating the memory and setting permissions.
   ///
   /// ReentryFnAddr should be the address of a function whose signature matches
   /// void* (*)(void *TrampolineAddr, void *ReentryCtxAddr). The ReentryCtxAddr
   /// argument of writeResolverCode will be passed as the second argument to
   /// the function at ReentryFnAddr.
   static void writeResolverCode(char *ResolverWorkingMem,
                                 JITTargetAddress ResolverTargetAddress,
                                 JITTargetAddress ReentryFnAddr,
                                 JITTargetAddress ReentryCtxAddr);
 };

 /// X86_64 support for Win32.
 ///
 /// X86_64_Win32 supports lazy JITing.
 class OrcX86_64_Win32 : public OrcX86_64_Base {
 public:
   static constexpr unsigned ResolverCodeSize = 0x74;

   /// Write the resolver code into the given memory. The user is
   /// responsible for allocating the memory and setting permissions.
   ///
   /// ReentryFnAddr should be the address of a function whose signature matches
   /// void* (*)(void *TrampolineAddr, void *ReentryCtxAddr). The ReentryCtxAddr
   /// argument of writeResolverCode will be passed as the second argument to
   /// the function at ReentryFnAddr.
   static void writeResolverCode(char *ResolverWorkingMem,
                                 JITTargetAddress ResolverTargetAddress,
                                 JITTargetAddress ReentryFnAddr,
                                 JITTargetAddress ReentryCtxAddr);
 };

 /// I386 support.
 ///
 /// I386 supports lazy JITing.
 class OrcI386 {
 public:
   static constexpr unsigned PointerSize = 4;
   static constexpr unsigned TrampolineSize = 8;
   static constexpr unsigned StubSize = 8;
   static constexpr unsigned StubToPointerMaxDisplacement = 1 << 31;
   static constexpr unsigned ResolverCodeSize = 0x4a;

   /// Write the resolver code into the given memory. The user is
   /// responsible for allocating the memory and setting permissions.
   ///
   /// ReentryFnAddr should be the address of a function whose signature matches
   /// void* (*)(void *TrampolineAddr, void *ReentryCtxAddr). The ReentryCtxAddr
   /// argument of writeResolverCode will be passed as the second argument to
   /// the function at ReentryFnAddr.
   static void writeResolverCode(char *ResolverWorkingMem,
                                 JITTargetAddress ResolverTargetAddress,
                                 JITTargetAddress ReentryFnAddr,
                                 JITTargetAddress ReentryCtxAddr);

   /// Write the requested number of trampolines into the given memory,
   /// which must be big enough to hold 1 pointer, plus NumTrampolines
   /// trampolines.
   static void writeTrampolines(char *TrampolineBlockWorkingMem,
                                JITTargetAddress TrampolineBlockTargetAddress,
                                JITTargetAddress ResolverAddr,
                                unsigned NumTrampolines);

   /// Write NumStubs indirect stubs to working memory at StubsBlockWorkingMem.
   /// Stubs will be written as if linked at StubsBlockTargetAddress, with the
   /// Nth stub using the Nth pointer in memory starting at
   /// PointersBlockTargetAddress.
   static void writeIndirectStubsBlock(
       char *StubsBlockWorkingMem, JITTargetAddress StubsBlockTargetAddress,
       JITTargetAddress PointersBlockTargetAddress, unsigned NumStubs);
 };

 // @brief Mips32 support.
 //
 // Mips32 supports lazy JITing.
 class OrcMips32_Base {
 public:
   static constexpr unsigned PointerSize = 4;
   static constexpr unsigned TrampolineSize = 20;
   static constexpr unsigned StubSize = 8;
   static constexpr unsigned StubToPointerMaxDisplacement = 1 << 31;
   static constexpr unsigned ResolverCodeSize = 0xfc;

   /// Write the requested number of trampolines into the given memory,
   /// which must be big enough to hold 1 pointer, plus NumTrampolines
   /// trampolines.
   static void writeTrampolines(char *TrampolineBlockWorkingMem,
                                JITTargetAddress TrampolineBlockTargetAddress,
                                JITTargetAddress ResolverAddr,
                                unsigned NumTrampolines);

   /// Write the resolver code into the given memory. The user is
   /// responsible for allocating the memory and setting permissions.
   ///
   /// ReentryFnAddr should be the address of a function whose signature matches
   /// void* (*)(void *TrampolineAddr, void *ReentryCtxAddr). The ReentryCtxAddr
   /// argument of writeResolverCode will be passed as the second argument to
   /// the function at ReentryFnAddr.
   static void writeResolverCode(char *ResolverBlockWorkingMem,
                                 JITTargetAddress ResolverBlockTargetAddress,
                                 JITTargetAddress ReentryFnAddr,
                                 JITTargetAddress ReentryCtxAddr,
                                 bool isBigEndian);
   /// Write NumStubs indirect stubs to working memory at StubsBlockWorkingMem.
   /// Stubs will be written as if linked at StubsBlockTargetAddress, with the
   /// Nth stub using the Nth pointer in memory starting at
   /// PointersBlockTargetAddress.
   static void writeIndirectStubsBlock(
       char *StubsBlockWorkingMem, JITTargetAddress StubsBlockTargetAddress,
       JITTargetAddress PointersBlockTargetAddress, unsigned NumStubs);
 };

 class OrcMips32Le : public OrcMips32_Base {
 public:
   static void writeResolverCode(char *ResolverWorkingMem,
                                 JITTargetAddress ResolverTargetAddress,
                                 JITTargetAddress ReentryFnAddr,
                                 JITTargetAddress ReentryCtxAddr) {
     OrcMips32_Base::writeResolverCode(ResolverWorkingMem, ResolverTargetAddress,
                                       ReentryFnAddr, ReentryCtxAddr, false);
   }
 };

 class OrcMips32Be : public OrcMips32_Base {
 public:
   static void writeResolverCode(char *ResolverWorkingMem,
                                 JITTargetAddress ResolverTargetAddress,
                                 JITTargetAddress ReentryFnAddr,
                                 JITTargetAddress ReentryCtxAddr) {
     OrcMips32_Base::writeResolverCode(ResolverWorkingMem, ResolverTargetAddress,
                                       ReentryFnAddr, ReentryCtxAddr, true);
   }
 };

 // @brief Mips64 support.
 //
 // Mips64 supports lazy JITing.
 class OrcMips64 {
 public:
   static constexpr unsigned PointerSize = 8;
   static constexpr unsigned TrampolineSize = 40;
   static constexpr unsigned StubSize = 32;
   static constexpr unsigned StubToPointerMaxDisplacement = 1 << 31;
   static constexpr unsigned ResolverCodeSize = 0x120;

   /// Write the resolver code into the given memory. The user is
   /// responsible for allocating the memory and setting permissions.
   ///
   /// ReentryFnAddr should be the address of a function whose signature matches
   /// void* (*)(void *TrampolineAddr, void *ReentryCtxAddr). The ReentryCtxAddr
   /// argument of writeResolverCode will be passed as the second argument to
   /// the function at ReentryFnAddr.
   static void writeResolverCode(char *ResolverWorkingMem,
                                 JITTargetAddress ResolverTargetAddress,
                                 JITTargetAddress ReentryFnAddr,
                                 JITTargetAddress ReentryCtxAddr);

   /// Write the requested number of trampolines into the given memory,
   /// which must be big enough to hold 1 pointer, plus NumTrampolines
   /// trampolines.
   static void writeTrampolines(char *TrampolineBlockWorkingMem,
                                JITTargetAddress TrampolineBlockTargetAddress,
                                JITTargetAddress ResolverFnAddr,
                                unsigned NumTrampolines);
   /// Write NumStubs indirect stubs to working memory at StubsBlockWorkingMem.
   /// Stubs will be written as if linked at StubsBlockTargetAddress, with the
   /// Nth stub using the Nth pointer in memory starting at
   /// PointersBlockTargetAddress.
   static void writeIndirectStubsBlock(
       char *StubsBlockWorkingMem, JITTargetAddress StubsBlockTargetAddress,
       JITTargetAddress PointersBlockTargetAddress, unsigned NumStubs);
 };

 } // end namespace orc
 } // end namespace llvm

 #endif // LLVM_EXECUTIONENGINE_ORC_ORCABISUPPORT_H
	//===- OrcABISupport.h - ABI support code ------------------------ 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
	//
	//===----------------------------------------------------------------------===//
	//
	// ABI specific code for Orc, e.g. callback assembly.
	//
	// ABI classes should be part of the JIT target process, not the host
	// process (except where you're doing hosted JITing and the two are one and the
	// same).
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_EXECUTIONENGINE_ORC_ORCABISUPPORT_H
	#define LLVM_EXECUTIONENGINE_ORC_ORCABISUPPORT_H

	#include "llvm/ExecutionEngine/JITSymbol.h"
	#include "llvm/Support/Error.h"
	#include "llvm/Support/ErrorHandling.h"
	#include "llvm/Support/MathExtras.h"
	#include <cstdint>

	namespace llvm {
	namespace orc {

	struct IndirectStubsAllocationSizes {
	uint64_t StubBytes = 0;
	uint64_t PointerBytes = 0;
	unsigned NumStubs = 0;
	};

	template <typename ORCABI>
	IndirectStubsAllocationSizes
	getIndirectStubsBlockSizes(unsigned MinStubs, unsigned RoundToMultipleOf = 0) {
	assert(
	(RoundToMultipleOf == 0 \|\| (RoundToMultipleOf % ORCABI::StubSize == 0)) &&
	"RoundToMultipleOf is not a multiple of stub size");
	uint64_t StubBytes = MinStubs * ORCABI::StubSize;
	if (RoundToMultipleOf)
	StubBytes = alignTo(StubBytes, RoundToMultipleOf);
	unsigned NumStubs = StubBytes / ORCABI::StubSize;
	uint64_t PointerBytes = NumStubs * ORCABI::PointerSize;
	return {StubBytes, PointerBytes, NumStubs};
	}

	/// Generic ORC ABI support.
	///
	/// This class can be substituted as the target architecture support class for
	/// ORC templates that require one (e.g. IndirectStubsManagers). It does not
	/// support lazy JITing however, and any attempt to use that functionality
	/// will result in execution of an llvm_unreachable.
	class OrcGenericABI {
	public:
	static constexpr unsigned PointerSize = sizeof(uintptr_t);
	static constexpr unsigned TrampolineSize = 1;
	static constexpr unsigned StubSize = 1;
	static constexpr unsigned StubToPointerMaxDisplacement = 1;
	static constexpr unsigned ResolverCodeSize = 1;

	static void writeResolverCode(char *ResolveWorkingMem,
	JITTargetAddress ResolverTargetAddr,
	JITTargetAddress ReentryFnAddr,
	JITTargetAddress ReentryCtxAddr) {
	llvm_unreachable("writeResolverCode is not supported by the generic host "
	"support class");
	}

	static void writeTrampolines(char *TrampolineBlockWorkingMem,
	JITTargetAddress TrampolineBlockTargetAddr,
	JITTargetAddress ResolverAddr,
	unsigned NumTrampolines) {
	llvm_unreachable("writeTrampolines is not supported by the generic host "
	"support class");
	}

	static void writeIndirectStubsBlock(
	char *StubsBlockWorkingMem, JITTargetAddress StubsBlockTargetAddress,
	JITTargetAddress PointersBlockTargetAddress, unsigned NumStubs) {
	llvm_unreachable(
	"writeIndirectStubsBlock is not supported by the generic host "
	"support class");
	}
	};

	class OrcAArch64 {
	public:
	static constexpr unsigned PointerSize = 8;
	static constexpr unsigned TrampolineSize = 12;
	static constexpr unsigned StubSize = 8;
	static constexpr unsigned StubToPointerMaxDisplacement = 1U << 27;
	static constexpr unsigned ResolverCodeSize = 0x120;

	/// Write the resolver code into the given memory. The user is
	/// responsible for allocating the memory and setting permissions.
	///
	/// ReentryFnAddr should be the address of a function whose signature matches
	/// void* ()(void TrampolineAddr, void *ReentryCtxAddr). The ReentryCtxAddr
	/// argument of writeResolverCode will be passed as the second argument to
	/// the function at ReentryFnAddr.
	static void writeResolverCode(char *ResolverWorkingMem,
	JITTargetAddress ResolverTargetAddress,
	JITTargetAddress ReentryFnAddr,
	JITTargetAddress RentryCtxAddr);

	/// Write the requested number of trampolines into the given memory,
	/// which must be big enough to hold 1 pointer, plus NumTrampolines
	/// trampolines.
	static void writeTrampolines(char *TrampolineBlockWorkingMem,
	JITTargetAddress TrampolineBlockTargetAddress,
	JITTargetAddress ResolverAddr,
	unsigned NumTrampolines);

	/// Write NumStubs indirect stubs to working memory at StubsBlockWorkingMem.
	/// Stubs will be written as if linked at StubsBlockTargetAddress, with the
	/// Nth stub using the Nth pointer in memory starting at
	/// PointersBlockTargetAddress.
	static void writeIndirectStubsBlock(
	char *StubsBlockWorkingMem, JITTargetAddress StubsBlockTargetAddress,
	JITTargetAddress PointersBlockTargetAddress, unsigned MinStubs);
	};

	/// X86_64 code that's common to all ABIs.
	///
	/// X86_64 supports lazy JITing.
	class OrcX86_64_Base {
	public:
	static constexpr unsigned PointerSize = 8;
	static constexpr unsigned TrampolineSize = 8;
	static constexpr unsigned StubSize = 8;
	static constexpr unsigned StubToPointerMaxDisplacement = 1 << 31;

	/// Write the requested number of trampolines into the given memory,
	/// which must be big enough to hold 1 pointer, plus NumTrampolines
	/// trampolines.
	static void writeTrampolines(char *TrampolineBlockWorkingMem,
	JITTargetAddress TrampolineBlockTargetAddress,
	JITTargetAddress ResolverAddr,
	unsigned NumTrampolines);

	/// Write NumStubs indirect stubs to working memory at StubsBlockWorkingMem.
	/// Stubs will be written as if linked at StubsBlockTargetAddress, with the
	/// Nth stub using the Nth pointer in memory starting at
	/// PointersBlockTargetAddress.
	static void writeIndirectStubsBlock(
	char *StubsBlockWorkingMem, JITTargetAddress StubsBlockTargetAddress,
	JITTargetAddress PointersBlockTargetAddress, unsigned NumStubs);
	};

	/// X86_64 support for SysV ABI (Linux, MacOSX).
	///
	/// X86_64_SysV supports lazy JITing.
	class OrcX86_64_SysV : public OrcX86_64_Base {
	public:
	static constexpr unsigned ResolverCodeSize = 0x6C;

	/// Write the resolver code into the given memory. The user is
	/// responsible for allocating the memory and setting permissions.
	///
	/// ReentryFnAddr should be the address of a function whose signature matches
	/// void* ()(void TrampolineAddr, void *ReentryCtxAddr). The ReentryCtxAddr
	/// argument of writeResolverCode will be passed as the second argument to
	/// the function at ReentryFnAddr.
	static void writeResolverCode(char *ResolverWorkingMem,
	JITTargetAddress ResolverTargetAddress,
	JITTargetAddress ReentryFnAddr,
	JITTargetAddress ReentryCtxAddr);
	};

	/// X86_64 support for Win32.
	///
	/// X86_64_Win32 supports lazy JITing.
	class OrcX86_64_Win32 : public OrcX86_64_Base {
	public:
	static constexpr unsigned ResolverCodeSize = 0x74;

	/// Write the resolver code into the given memory. The user is
	/// responsible for allocating the memory and setting permissions.
	///
	/// ReentryFnAddr should be the address of a function whose signature matches
	/// void* ()(void TrampolineAddr, void *ReentryCtxAddr). The ReentryCtxAddr
	/// argument of writeResolverCode will be passed as the second argument to
	/// the function at ReentryFnAddr.
	static void writeResolverCode(char *ResolverWorkingMem,
	JITTargetAddress ResolverTargetAddress,
	JITTargetAddress ReentryFnAddr,
	JITTargetAddress ReentryCtxAddr);
	};

	/// I386 support.
	///
	/// I386 supports lazy JITing.
	class OrcI386 {
	public:
	static constexpr unsigned PointerSize = 4;
	static constexpr unsigned TrampolineSize = 8;
	static constexpr unsigned StubSize = 8;
	static constexpr unsigned StubToPointerMaxDisplacement = 1 << 31;
	static constexpr unsigned ResolverCodeSize = 0x4a;

	/// Write the resolver code into the given memory. The user is
	/// responsible for allocating the memory and setting permissions.
	///
	/// ReentryFnAddr should be the address of a function whose signature matches
	/// void* ()(void TrampolineAddr, void *ReentryCtxAddr). The ReentryCtxAddr
	/// argument of writeResolverCode will be passed as the second argument to
	/// the function at ReentryFnAddr.
	static void writeResolverCode(char *ResolverWorkingMem,
	JITTargetAddress ResolverTargetAddress,
	JITTargetAddress ReentryFnAddr,
	JITTargetAddress ReentryCtxAddr);

	/// Write the requested number of trampolines into the given memory,
	/// which must be big enough to hold 1 pointer, plus NumTrampolines
	/// trampolines.
	static void writeTrampolines(char *TrampolineBlockWorkingMem,
	JITTargetAddress TrampolineBlockTargetAddress,
	JITTargetAddress ResolverAddr,
	unsigned NumTrampolines);

	/// Write NumStubs indirect stubs to working memory at StubsBlockWorkingMem.
	/// Stubs will be written as if linked at StubsBlockTargetAddress, with the
	/// Nth stub using the Nth pointer in memory starting at
	/// PointersBlockTargetAddress.
	static void writeIndirectStubsBlock(
	char *StubsBlockWorkingMem, JITTargetAddress StubsBlockTargetAddress,
	JITTargetAddress PointersBlockTargetAddress, unsigned NumStubs);
	};

	// @brief Mips32 support.
	//
	// Mips32 supports lazy JITing.
	class OrcMips32_Base {
	public:
	static constexpr unsigned PointerSize = 4;
	static constexpr unsigned TrampolineSize = 20;
	static constexpr unsigned StubSize = 8;
	static constexpr unsigned StubToPointerMaxDisplacement = 1 << 31;
	static constexpr unsigned ResolverCodeSize = 0xfc;

	/// Write the requested number of trampolines into the given memory,
	/// which must be big enough to hold 1 pointer, plus NumTrampolines
	/// trampolines.
	static void writeTrampolines(char *TrampolineBlockWorkingMem,
	JITTargetAddress TrampolineBlockTargetAddress,
	JITTargetAddress ResolverAddr,
	unsigned NumTrampolines);

	/// Write the resolver code into the given memory. The user is
	/// responsible for allocating the memory and setting permissions.
	///
	/// ReentryFnAddr should be the address of a function whose signature matches
	/// void* ()(void TrampolineAddr, void *ReentryCtxAddr). The ReentryCtxAddr
	/// argument of writeResolverCode will be passed as the second argument to
	/// the function at ReentryFnAddr.
	static void writeResolverCode(char *ResolverBlockWorkingMem,
	JITTargetAddress ResolverBlockTargetAddress,
	JITTargetAddress ReentryFnAddr,
	JITTargetAddress ReentryCtxAddr,
	bool isBigEndian);
	/// Write NumStubs indirect stubs to working memory at StubsBlockWorkingMem.
	/// Stubs will be written as if linked at StubsBlockTargetAddress, with the
	/// Nth stub using the Nth pointer in memory starting at
	/// PointersBlockTargetAddress.
	static void writeIndirectStubsBlock(
	char *StubsBlockWorkingMem, JITTargetAddress StubsBlockTargetAddress,
	JITTargetAddress PointersBlockTargetAddress, unsigned NumStubs);
	};

	class OrcMips32Le : public OrcMips32_Base {
	public:
	static void writeResolverCode(char *ResolverWorkingMem,
	JITTargetAddress ResolverTargetAddress,
	JITTargetAddress ReentryFnAddr,
	JITTargetAddress ReentryCtxAddr) {
	OrcMips32_Base::writeResolverCode(ResolverWorkingMem, ResolverTargetAddress,
	ReentryFnAddr, ReentryCtxAddr, false);
	}
	};

	class OrcMips32Be : public OrcMips32_Base {
	public:
	static void writeResolverCode(char *ResolverWorkingMem,
	JITTargetAddress ResolverTargetAddress,
	JITTargetAddress ReentryFnAddr,
	JITTargetAddress ReentryCtxAddr) {
	OrcMips32_Base::writeResolverCode(ResolverWorkingMem, ResolverTargetAddress,
	ReentryFnAddr, ReentryCtxAddr, true);
	}
	};

	// @brief Mips64 support.
	//
	// Mips64 supports lazy JITing.
	class OrcMips64 {
	public:
	static constexpr unsigned PointerSize = 8;
	static constexpr unsigned TrampolineSize = 40;
	static constexpr unsigned StubSize = 32;
	static constexpr unsigned StubToPointerMaxDisplacement = 1 << 31;
	static constexpr unsigned ResolverCodeSize = 0x120;

	/// Write the resolver code into the given memory. The user is
	/// responsible for allocating the memory and setting permissions.
	///
	/// ReentryFnAddr should be the address of a function whose signature matches
	/// void* ()(void TrampolineAddr, void *ReentryCtxAddr). The ReentryCtxAddr
	/// argument of writeResolverCode will be passed as the second argument to
	/// the function at ReentryFnAddr.
	static void writeResolverCode(char *ResolverWorkingMem,
	JITTargetAddress ResolverTargetAddress,
	JITTargetAddress ReentryFnAddr,
	JITTargetAddress ReentryCtxAddr);

	/// Write the requested number of trampolines into the given memory,
	/// which must be big enough to hold 1 pointer, plus NumTrampolines
	/// trampolines.
	static void writeTrampolines(char *TrampolineBlockWorkingMem,
	JITTargetAddress TrampolineBlockTargetAddress,
	JITTargetAddress ResolverFnAddr,
	unsigned NumTrampolines);
	/// Write NumStubs indirect stubs to working memory at StubsBlockWorkingMem.
	/// Stubs will be written as if linked at StubsBlockTargetAddress, with the
	/// Nth stub using the Nth pointer in memory starting at
	/// PointersBlockTargetAddress.
	static void writeIndirectStubsBlock(
	char *StubsBlockWorkingMem, JITTargetAddress StubsBlockTargetAddress,
	JITTargetAddress PointersBlockTargetAddress, unsigned NumStubs);
	};

	} // end namespace orc
	} // end namespace llvm

	#endif // LLVM_EXECUTIONENGINE_ORC_ORCABISUPPORT_H