src/arch/arm/types.hh - public/gem5 - Git at Google

 /*
  * Copyright (c) 2010, 2012-2013, 2017-2018 ARM Limited
  * All rights reserved
  *
  * The license below extends only to copyright in the software and shall
  * not be construed as granting a license to any other intellectual
  * property including but not limited to intellectual property relating
  * to a hardware implementation of the functionality of the software
  * licensed hereunder.  You may use the software subject to the license
  * terms below provided that you ensure that this notice is replicated
  * unmodified and in its entirety in all distributions of the software,
  * modified or unmodified, in source code or in binary form.
  *
  * Copyright (c) 2007-2008 The Florida State University
  * All rights reserved.
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions are
  * met: redistributions of source code must retain the above copyright
  * notice, this list of conditions and the following disclaimer;
  * redistributions in binary form must reproduce the above copyright
  * notice, this list of conditions and the following disclaimer in the
  * documentation and/or other materials provided with the distribution;
  * neither the name of the copyright holders nor the names of its
  * contributors may be used to endorse or promote products derived from
  * this software without specific prior written permission.
  *
  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
  * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
  * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
  * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
  * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
  * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
  * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
  * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
  */

 #ifndef __ARCH_ARM_TYPES_HH__
 #define __ARCH_ARM_TYPES_HH__

 #include <cstdint>

 #include "arch/arm/pcstate.hh"
 #include "base/bitunion.hh"
 #include "base/logging.hh"

 namespace gem5
 {

 namespace ArmISA
 {
     typedef uint32_t MachInst;

     typedef uint16_t vmid_t;

     BitUnion64(ExtMachInst)
         // Decoder state
         Bitfield<63, 62> decoderFault; // See DecoderFault
         Bitfield<61> illegalExecution;
         Bitfield<60> debugStep;

         // SVE vector length, encoded in the same format as the ZCR_EL<x>.LEN
         // bitfields
         Bitfield<59, 56> sveLen;

         // ITSTATE bits
         Bitfield<55, 48> itstate;
         Bitfield<55, 52> itstateCond;
         Bitfield<51, 48> itstateMask;

         // FPSCR fields
         Bitfield<41, 40> fpscrStride;
         Bitfield<39, 37> fpscrLen;

         // Bitfields to select mode.
         Bitfield<36>     thumb;
         Bitfield<35>     bigThumb;
         Bitfield<34>     aarch64;

         // Made up bitfields that make life easier.
         Bitfield<33>     sevenAndFour;
         Bitfield<32>     isMisc;

         uint32_t         instBits;

         // All the different types of opcode fields.
         Bitfield<27, 25> encoding;
         Bitfield<25>     useImm;
         Bitfield<24, 21> opcode;
         Bitfield<24, 20> mediaOpcode;
         Bitfield<24>     opcode24;
         Bitfield<24, 23> opcode24_23;
         Bitfield<23, 20> opcode23_20;
         Bitfield<23, 21> opcode23_21;
         Bitfield<20>     opcode20;
         Bitfield<22>     opcode22;
         Bitfield<19, 16> opcode19_16;
         Bitfield<19>     opcode19;
         Bitfield<18>     opcode18;
         Bitfield<15, 12> opcode15_12;
         Bitfield<15>     opcode15;
         Bitfield<7,  4>  miscOpcode;
         Bitfield<7,5>    opc2;
         Bitfield<7>      opcode7;
         Bitfield<6>      opcode6;
         Bitfield<4>      opcode4;

         Bitfield<31, 28> condCode;
         Bitfield<20>     sField;
         Bitfield<19, 16> rn;
         Bitfield<15, 12> rd;
         Bitfield<15, 12> rt;
         Bitfield<11, 7>  shiftSize;
         Bitfield<6,  5>  shift;
         Bitfield<3,  0>  rm;

         Bitfield<11, 8>  rs;

         SubBitUnion(puswl, 24, 20)
             Bitfield<24> prepost;
             Bitfield<23> up;
             Bitfield<22> psruser;
             Bitfield<21> writeback;
             Bitfield<20> loadOp;
         EndSubBitUnion(puswl)

         Bitfield<24, 20> pubwl;

         Bitfield<7, 0> imm;

         Bitfield<11, 8>  rotate;

         Bitfield<11, 0>  immed11_0;
         Bitfield<7,  0>  immed7_0;

         Bitfield<11, 8>  immedHi11_8;
         Bitfield<3,  0>  immedLo3_0;

         Bitfield<15, 0>  regList;

         Bitfield<23, 0>  offset;

         Bitfield<23, 0>  immed23_0;

         Bitfield<11, 8>  cpNum;
         Bitfield<18, 16> fn;
         Bitfield<14, 12> fd;
         Bitfield<3>      fpRegImm;
         Bitfield<3,  0>  fm;
         Bitfield<2,  0>  fpImm;
         Bitfield<24, 20> punwl;

         Bitfield<15,  8>  m5Func;

         // 16 bit thumb bitfields
         Bitfield<15, 13> topcode15_13;
         Bitfield<13, 11> topcode13_11;
         Bitfield<12, 11> topcode12_11;
         Bitfield<12, 10> topcode12_10;
         Bitfield<11, 9>  topcode11_9;
         Bitfield<11, 8>  topcode11_8;
         Bitfield<10, 9>  topcode10_9;
         Bitfield<10, 8>  topcode10_8;
         Bitfield<9,  6>  topcode9_6;
         Bitfield<7>      topcode7;
         Bitfield<7, 6>   topcode7_6;
         Bitfield<7, 5>   topcode7_5;
         Bitfield<7, 4>   topcode7_4;
         Bitfield<3, 0>   topcode3_0;

         // 32 bit thumb bitfields
         Bitfield<28, 27> htopcode12_11;
         Bitfield<26, 25> htopcode10_9;
         Bitfield<25>     htopcode9;
         Bitfield<25, 24> htopcode9_8;
         Bitfield<25, 21> htopcode9_5;
         Bitfield<25, 20> htopcode9_4;
         Bitfield<24>     htopcode8;
         Bitfield<24, 23> htopcode8_7;
         Bitfield<24, 22> htopcode8_6;
         Bitfield<24, 21> htopcode8_5;
         Bitfield<23>     htopcode7;
         Bitfield<23, 21> htopcode7_5;
         Bitfield<22>     htopcode6;
         Bitfield<22, 21> htopcode6_5;
         Bitfield<21, 20> htopcode5_4;
         Bitfield<20>     htopcode4;

         Bitfield<19, 16> htrn;
         Bitfield<20>     hts;

         Bitfield<15>     ltopcode15;
         Bitfield<11, 8>  ltopcode11_8;
         Bitfield<7,  6>  ltopcode7_6;
         Bitfield<7,  4>  ltopcode7_4;
         Bitfield<4>      ltopcode4;

         Bitfield<11, 8>  ltrd;
         Bitfield<11, 8>  ltcoproc;
     EndBitUnion(ExtMachInst)

     // Shift types for ARM instructions
     enum ArmShiftType
     {
         LSL = 0,
         LSR,
         ASR,
         ROR
     };

     // Extension types for ARM instructions
     enum ArmExtendType
     {
         UXTB = 0,
         UXTH = 1,
         UXTW = 2,
         UXTX = 3,
         SXTB = 4,
         SXTH = 5,
         SXTW = 6,
         SXTX = 7
     };

     typedef int RegContextParam;
     typedef int RegContextVal;

     //used in FP convert & round function
     enum ConvertType
     {
         SINGLE_TO_DOUBLE,
         SINGLE_TO_WORD,
         SINGLE_TO_LONG,

         DOUBLE_TO_SINGLE,
         DOUBLE_TO_WORD,
         DOUBLE_TO_LONG,

         LONG_TO_SINGLE,
         LONG_TO_DOUBLE,
         LONG_TO_WORD,
         LONG_TO_PS,

         WORD_TO_SINGLE,
         WORD_TO_DOUBLE,
         WORD_TO_LONG,
         WORD_TO_PS,

         PL_TO_SINGLE,
         PU_TO_SINGLE
     };

     //used in FP convert & round function
     enum RoundMode
     {
         RND_ZERO,
         RND_DOWN,
         RND_UP,
         RND_NEAREST
     };

     enum ExceptionLevel
     {
         EL0 = 0,
         EL1,
         EL2,
         EL3
     };

     enum OperatingMode
     {
         MODE_EL0T = 0x0,
         MODE_EL1T = 0x4,
         MODE_EL1H = 0x5,
         MODE_EL2T = 0x8,
         MODE_EL2H = 0x9,
         MODE_EL3T = 0xC,
         MODE_EL3H = 0xD,
         MODE_USER = 16,
         MODE_FIQ = 17,
         MODE_IRQ = 18,
         MODE_SVC = 19,
         MODE_MON = 22,
         MODE_ABORT = 23,
         MODE_HYP = 26,
         MODE_UNDEFINED = 27,
         MODE_SYSTEM = 31,
         MODE_MAXMODE = MODE_SYSTEM
     };

     enum ExceptionClass
     {
         EC_INVALID                 = -1,
         EC_UNKNOWN                 = 0x0,
         EC_TRAPPED_WFI_WFE         = 0x1,
         EC_TRAPPED_CP15_MCR_MRC    = 0x3,
         EC_TRAPPED_CP15_MCRR_MRRC  = 0x4,
         EC_TRAPPED_CP14_MCR_MRC    = 0x5,
         EC_TRAPPED_CP14_LDC_STC    = 0x6,
         EC_TRAPPED_HCPTR           = 0x7,
         EC_TRAPPED_SIMD_FP         = 0x7,   // AArch64 alias
         EC_TRAPPED_CP10_MRC_VMRS   = 0x8,
         EC_TRAPPED_PAC             = 0x9,
         EC_TRAPPED_BXJ             = 0xA,
         EC_TRAPPED_CP14_MCRR_MRRC  = 0xC,
         EC_ILLEGAL_INST            = 0xE,
         EC_SVC_TO_HYP              = 0x11,
         EC_SVC                     = 0x11,  // AArch64 alias
         EC_HVC                     = 0x12,
         EC_SMC_TO_HYP              = 0x13,
         EC_SMC                     = 0x13,  // AArch64 alias
         EC_SVC_64                  = 0x15,
         EC_HVC_64                  = 0x16,
         EC_SMC_64                  = 0x17,
         EC_TRAPPED_MSR_MRS_64      = 0x18,
         EC_TRAPPED_SVE             = 0x19,
         EC_PREFETCH_ABORT_TO_HYP   = 0x20,
         EC_PREFETCH_ABORT_LOWER_EL = 0x20,  // AArch64 alias
         EC_PREFETCH_ABORT_FROM_HYP = 0x21,
         EC_PREFETCH_ABORT_CURR_EL  = 0x21,  // AArch64 alias
         EC_PC_ALIGNMENT            = 0x22,
         EC_DATA_ABORT_TO_HYP       = 0x24,
         EC_DATA_ABORT_LOWER_EL     = 0x24,  // AArch64 alias
         EC_DATA_ABORT_FROM_HYP     = 0x25,
         EC_DATA_ABORT_CURR_EL      = 0x25,  // AArch64 alias
         EC_STACK_PTR_ALIGNMENT     = 0x26,
         EC_FP_EXCEPTION            = 0x28,
         EC_FP_EXCEPTION_64         = 0x2C,
         EC_SERROR                  = 0x2F,
         EC_HW_BREAKPOINT           = 0x30,
         EC_HW_BREAKPOINT_LOWER_EL  = 0x30,
         EC_HW_BREAKPOINT_CURR_EL   = 0x31,
         EC_SOFTWARE_STEP           = 0x32,
         EC_SOFTWARE_STEP_LOWER_EL  = 0x32,
         EC_SOFTWARE_STEP_CURR_EL   = 0x33,
         EC_WATCHPOINT              = 0x34,
         EC_WATCHPOINT_LOWER_EL     = 0x34,
         EC_WATCHPOINT_CURR_EL      = 0x35,
         EC_SOFTWARE_BREAKPOINT     = 0x38,
         EC_VECTOR_CATCH            = 0x3A,
         EC_SOFTWARE_BREAKPOINT_64  = 0x3C,
     };

     /**
      * Instruction decoder fault codes in ExtMachInst.
      */
     enum DecoderFault : std::uint8_t
     {
         OK = 0x0, ///< No fault
         UNALIGNED = 0x1, ///< Unaligned instruction fault

         PANIC = 0x3, ///< Internal gem5 error
     };

     BitUnion8(OperatingMode64)
         Bitfield<0> spX;
         Bitfield<3, 2> el;
         Bitfield<4> width;
     EndBitUnion(OperatingMode64)

     static bool inline
     opModeIs64(OperatingMode mode)
     {
         return ((OperatingMode64)(uint8_t)mode).width == 0;
     }

     static bool inline
     opModeIsH(OperatingMode mode)
     {
         return (mode == MODE_EL1H || mode == MODE_EL2H || mode == MODE_EL3H);
     }

     static bool inline
     opModeIsT(OperatingMode mode)
     {
         return (mode == MODE_EL0T || mode == MODE_EL1T || mode == MODE_EL2T ||
                 mode == MODE_EL3T);
     }

     static ExceptionLevel inline
     opModeToEL(OperatingMode mode)
     {
         bool aarch32 = ((mode >> 4) & 1) ? true : false;
         if (aarch32) {
             switch (mode) {
               case MODE_USER:
                 return EL0;
               case MODE_FIQ:
               case MODE_IRQ:
               case MODE_SVC:
               case MODE_ABORT:
               case MODE_UNDEFINED:
               case MODE_SYSTEM:
                 return EL1;
               case MODE_HYP:
                 return EL2;
               case MODE_MON:
                 return EL3;
               default:
                 panic("Invalid operating mode: %d", mode);
                 break;
             }
         } else {
             // aarch64
             return (ExceptionLevel) ((mode >> 2) & 3);
         }
     }

     static inline bool
     unknownMode(OperatingMode mode)
     {
         switch (mode) {
           case MODE_EL0T:
           case MODE_EL1T:
           case MODE_EL1H:
           case MODE_EL2T:
           case MODE_EL2H:
           case MODE_EL3T:
           case MODE_EL3H:
           case MODE_USER:
           case MODE_FIQ:
           case MODE_IRQ:
           case MODE_SVC:
           case MODE_MON:
           case MODE_ABORT:
           case MODE_HYP:
           case MODE_UNDEFINED:
           case MODE_SYSTEM:
             return false;
           default:
             return true;
         }
     }

     static inline bool
     unknownMode32(OperatingMode mode)
     {
         switch (mode) {
           case MODE_USER:
           case MODE_FIQ:
           case MODE_IRQ:
           case MODE_SVC:
           case MODE_MON:
           case MODE_ABORT:
           case MODE_HYP:
           case MODE_UNDEFINED:
           case MODE_SYSTEM:
             return false;
           default:
             return true;
         }
     }

     constexpr unsigned MaxSveVecLenInBits = 2048;
     static_assert(MaxSveVecLenInBits >= 128 &&
                   MaxSveVecLenInBits <= 2048 &&
                   MaxSveVecLenInBits % 128 == 0,
                   "Unsupported max. SVE vector length");
     constexpr unsigned MaxSveVecLenInBytes  = MaxSveVecLenInBits >> 3;
     constexpr unsigned MaxSveVecLenInWords  = MaxSveVecLenInBits >> 5;
     constexpr unsigned MaxSveVecLenInDWords = MaxSveVecLenInBits >> 6;

     constexpr unsigned VecRegSizeBytes = MaxSveVecLenInBytes;
     constexpr unsigned VecPredRegSizeBits = MaxSveVecLenInBytes;

 } // namespace ArmISA
 } // namespace gem5

 #endif
	/*
	* Copyright (c) 2010, 2012-2013, 2017-2018 ARM Limited
	* All rights reserved
	*
	* The license below extends only to copyright in the software and shall
	* not be construed as granting a license to any other intellectual
	* property including but not limited to intellectual property relating
	* to a hardware implementation of the functionality of the software
	* licensed hereunder. You may use the software subject to the license
	* terms below provided that you ensure that this notice is replicated
	* unmodified and in its entirety in all distributions of the software,
	* modified or unmodified, in source code or in binary form.
	*
	* Copyright (c) 2007-2008 The Florida State University
	* All rights reserved.
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions are
	* met: redistributions of source code must retain the above copyright
	* notice, this list of conditions and the following disclaimer;
	* redistributions in binary form must reproduce the above copyright
	* notice, this list of conditions and the following disclaimer in the
	* documentation and/or other materials provided with the distribution;
	* neither the name of the copyright holders nor the names of its
	* contributors may be used to endorse or promote products derived from
	* this software without specific prior written permission.
	*
	* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
	* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
	* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
	* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
	* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
	* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
	* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
	* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
	* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
	* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
	*/

	#ifndef __ARCH_ARM_TYPES_HH__
	#define __ARCH_ARM_TYPES_HH__

	#include <cstdint>

	#include "arch/arm/pcstate.hh"
	#include "base/bitunion.hh"
	#include "base/logging.hh"

	namespace gem5
	{

	namespace ArmISA
	{
	typedef uint32_t MachInst;

	typedef uint16_t vmid_t;

	BitUnion64(ExtMachInst)
	// Decoder state
	Bitfield<63, 62> decoderFault; // See DecoderFault
	Bitfield<61> illegalExecution;
	Bitfield<60> debugStep;

	// SVE vector length, encoded in the same format as the ZCR_EL<x>.LEN
	// bitfields
	Bitfield<59, 56> sveLen;

	// ITSTATE bits
	Bitfield<55, 48> itstate;
	Bitfield<55, 52> itstateCond;
	Bitfield<51, 48> itstateMask;

	// FPSCR fields
	Bitfield<41, 40> fpscrStride;
	Bitfield<39, 37> fpscrLen;

	// Bitfields to select mode.
	Bitfield<36> thumb;
	Bitfield<35> bigThumb;
	Bitfield<34> aarch64;

	// Made up bitfields that make life easier.
	Bitfield<33> sevenAndFour;
	Bitfield<32> isMisc;

	uint32_t instBits;

	// All the different types of opcode fields.
	Bitfield<27, 25> encoding;
	Bitfield<25> useImm;
	Bitfield<24, 21> opcode;
	Bitfield<24, 20> mediaOpcode;
	Bitfield<24> opcode24;
	Bitfield<24, 23> opcode24_23;
	Bitfield<23, 20> opcode23_20;
	Bitfield<23, 21> opcode23_21;
	Bitfield<20> opcode20;
	Bitfield<22> opcode22;
	Bitfield<19, 16> opcode19_16;
	Bitfield<19> opcode19;
	Bitfield<18> opcode18;
	Bitfield<15, 12> opcode15_12;
	Bitfield<15> opcode15;
	Bitfield<7, 4> miscOpcode;
	Bitfield<7,5> opc2;
	Bitfield<7> opcode7;
	Bitfield<6> opcode6;
	Bitfield<4> opcode4;

	Bitfield<31, 28> condCode;
	Bitfield<20> sField;
	Bitfield<19, 16> rn;
	Bitfield<15, 12> rd;
	Bitfield<15, 12> rt;
	Bitfield<11, 7> shiftSize;
	Bitfield<6, 5> shift;
	Bitfield<3, 0> rm;

	Bitfield<11, 8> rs;

	SubBitUnion(puswl, 24, 20)
	Bitfield<24> prepost;
	Bitfield<23> up;
	Bitfield<22> psruser;
	Bitfield<21> writeback;
	Bitfield<20> loadOp;
	EndSubBitUnion(puswl)

	Bitfield<24, 20> pubwl;

	Bitfield<7, 0> imm;

	Bitfield<11, 8> rotate;

	Bitfield<11, 0> immed11_0;
	Bitfield<7, 0> immed7_0;

	Bitfield<11, 8> immedHi11_8;
	Bitfield<3, 0> immedLo3_0;

	Bitfield<15, 0> regList;

	Bitfield<23, 0> offset;

	Bitfield<23, 0> immed23_0;

	Bitfield<11, 8> cpNum;
	Bitfield<18, 16> fn;
	Bitfield<14, 12> fd;
	Bitfield<3> fpRegImm;
	Bitfield<3, 0> fm;
	Bitfield<2, 0> fpImm;
	Bitfield<24, 20> punwl;

	Bitfield<15, 8> m5Func;

	// 16 bit thumb bitfields
	Bitfield<15, 13> topcode15_13;
	Bitfield<13, 11> topcode13_11;
	Bitfield<12, 11> topcode12_11;
	Bitfield<12, 10> topcode12_10;
	Bitfield<11, 9> topcode11_9;
	Bitfield<11, 8> topcode11_8;
	Bitfield<10, 9> topcode10_9;
	Bitfield<10, 8> topcode10_8;
	Bitfield<9, 6> topcode9_6;
	Bitfield<7> topcode7;
	Bitfield<7, 6> topcode7_6;
	Bitfield<7, 5> topcode7_5;
	Bitfield<7, 4> topcode7_4;
	Bitfield<3, 0> topcode3_0;

	// 32 bit thumb bitfields
	Bitfield<28, 27> htopcode12_11;
	Bitfield<26, 25> htopcode10_9;
	Bitfield<25> htopcode9;
	Bitfield<25, 24> htopcode9_8;
	Bitfield<25, 21> htopcode9_5;
	Bitfield<25, 20> htopcode9_4;
	Bitfield<24> htopcode8;
	Bitfield<24, 23> htopcode8_7;
	Bitfield<24, 22> htopcode8_6;
	Bitfield<24, 21> htopcode8_5;
	Bitfield<23> htopcode7;
	Bitfield<23, 21> htopcode7_5;
	Bitfield<22> htopcode6;
	Bitfield<22, 21> htopcode6_5;
	Bitfield<21, 20> htopcode5_4;
	Bitfield<20> htopcode4;

	Bitfield<19, 16> htrn;
	Bitfield<20> hts;

	Bitfield<15> ltopcode15;
	Bitfield<11, 8> ltopcode11_8;
	Bitfield<7, 6> ltopcode7_6;
	Bitfield<7, 4> ltopcode7_4;
	Bitfield<4> ltopcode4;

	Bitfield<11, 8> ltrd;
	Bitfield<11, 8> ltcoproc;
	EndBitUnion(ExtMachInst)

	// Shift types for ARM instructions
	enum ArmShiftType
	{
	LSL = 0,
	LSR,
	ASR,
	ROR
	};

	// Extension types for ARM instructions
	enum ArmExtendType
	{
	UXTB = 0,
	UXTH = 1,
	UXTW = 2,
	UXTX = 3,
	SXTB = 4,
	SXTH = 5,
	SXTW = 6,
	SXTX = 7
	};

	typedef int RegContextParam;
	typedef int RegContextVal;

	//used in FP convert & round function
	enum ConvertType
	{
	SINGLE_TO_DOUBLE,
	SINGLE_TO_WORD,
	SINGLE_TO_LONG,

	DOUBLE_TO_SINGLE,
	DOUBLE_TO_WORD,
	DOUBLE_TO_LONG,

	LONG_TO_SINGLE,
	LONG_TO_DOUBLE,
	LONG_TO_WORD,
	LONG_TO_PS,

	WORD_TO_SINGLE,
	WORD_TO_DOUBLE,
	WORD_TO_LONG,
	WORD_TO_PS,

	PL_TO_SINGLE,
	PU_TO_SINGLE
	};

	//used in FP convert & round function
	enum RoundMode
	{
	RND_ZERO,
	RND_DOWN,
	RND_UP,
	RND_NEAREST
	};

	enum ExceptionLevel
	{
	EL0 = 0,
	EL1,
	EL2,
	EL3
	};

	enum OperatingMode
	{
	MODE_EL0T = 0x0,
	MODE_EL1T = 0x4,
	MODE_EL1H = 0x5,
	MODE_EL2T = 0x8,
	MODE_EL2H = 0x9,
	MODE_EL3T = 0xC,
	MODE_EL3H = 0xD,
	MODE_USER = 16,
	MODE_FIQ = 17,
	MODE_IRQ = 18,
	MODE_SVC = 19,
	MODE_MON = 22,
	MODE_ABORT = 23,
	MODE_HYP = 26,
	MODE_UNDEFINED = 27,
	MODE_SYSTEM = 31,
	MODE_MAXMODE = MODE_SYSTEM
	};

	enum ExceptionClass
	{
	EC_INVALID = -1,
	EC_UNKNOWN = 0x0,
	EC_TRAPPED_WFI_WFE = 0x1,
	EC_TRAPPED_CP15_MCR_MRC = 0x3,
	EC_TRAPPED_CP15_MCRR_MRRC = 0x4,
	EC_TRAPPED_CP14_MCR_MRC = 0x5,
	EC_TRAPPED_CP14_LDC_STC = 0x6,
	EC_TRAPPED_HCPTR = 0x7,
	EC_TRAPPED_SIMD_FP = 0x7, // AArch64 alias
	EC_TRAPPED_CP10_MRC_VMRS = 0x8,
	EC_TRAPPED_PAC = 0x9,
	EC_TRAPPED_BXJ = 0xA,
	EC_TRAPPED_CP14_MCRR_MRRC = 0xC,
	EC_ILLEGAL_INST = 0xE,
	EC_SVC_TO_HYP = 0x11,
	EC_SVC = 0x11, // AArch64 alias
	EC_HVC = 0x12,
	EC_SMC_TO_HYP = 0x13,
	EC_SMC = 0x13, // AArch64 alias
	EC_SVC_64 = 0x15,
	EC_HVC_64 = 0x16,
	EC_SMC_64 = 0x17,
	EC_TRAPPED_MSR_MRS_64 = 0x18,
	EC_TRAPPED_SVE = 0x19,
	EC_PREFETCH_ABORT_TO_HYP = 0x20,
	EC_PREFETCH_ABORT_LOWER_EL = 0x20, // AArch64 alias
	EC_PREFETCH_ABORT_FROM_HYP = 0x21,
	EC_PREFETCH_ABORT_CURR_EL = 0x21, // AArch64 alias
	EC_PC_ALIGNMENT = 0x22,
	EC_DATA_ABORT_TO_HYP = 0x24,
	EC_DATA_ABORT_LOWER_EL = 0x24, // AArch64 alias
	EC_DATA_ABORT_FROM_HYP = 0x25,
	EC_DATA_ABORT_CURR_EL = 0x25, // AArch64 alias
	EC_STACK_PTR_ALIGNMENT = 0x26,
	EC_FP_EXCEPTION = 0x28,
	EC_FP_EXCEPTION_64 = 0x2C,
	EC_SERROR = 0x2F,
	EC_HW_BREAKPOINT = 0x30,
	EC_HW_BREAKPOINT_LOWER_EL = 0x30,
	EC_HW_BREAKPOINT_CURR_EL = 0x31,
	EC_SOFTWARE_STEP = 0x32,
	EC_SOFTWARE_STEP_LOWER_EL = 0x32,
	EC_SOFTWARE_STEP_CURR_EL = 0x33,
	EC_WATCHPOINT = 0x34,
	EC_WATCHPOINT_LOWER_EL = 0x34,
	EC_WATCHPOINT_CURR_EL = 0x35,
	EC_SOFTWARE_BREAKPOINT = 0x38,
	EC_VECTOR_CATCH = 0x3A,
	EC_SOFTWARE_BREAKPOINT_64 = 0x3C,
	};

	/**
	* Instruction decoder fault codes in ExtMachInst.
	*/
	enum DecoderFault : std::uint8_t
	{
	OK = 0x0, ///< No fault
	UNALIGNED = 0x1, ///< Unaligned instruction fault

	PANIC = 0x3, ///< Internal gem5 error
	};

	BitUnion8(OperatingMode64)
	Bitfield<0> spX;
	Bitfield<3, 2> el;
	Bitfield<4> width;
	EndBitUnion(OperatingMode64)

	static bool inline
	opModeIs64(OperatingMode mode)
	{
	return ((OperatingMode64)(uint8_t)mode).width == 0;
	}

	static bool inline
	opModeIsH(OperatingMode mode)
	{
	return (mode == MODE_EL1H \|\| mode == MODE_EL2H \|\| mode == MODE_EL3H);
	}

	static bool inline
	opModeIsT(OperatingMode mode)
	{
	return (mode == MODE_EL0T \|\| mode == MODE_EL1T \|\| mode == MODE_EL2T \|\|
	mode == MODE_EL3T);
	}

	static ExceptionLevel inline
	opModeToEL(OperatingMode mode)
	{
	bool aarch32 = ((mode >> 4) & 1) ? true : false;
	if (aarch32) {
	switch (mode) {
	case MODE_USER:
	return EL0;
	case MODE_FIQ:
	case MODE_IRQ:
	case MODE_SVC:
	case MODE_ABORT:
	case MODE_UNDEFINED:
	case MODE_SYSTEM:
	return EL1;
	case MODE_HYP:
	return EL2;
	case MODE_MON:
	return EL3;
	default:
	panic("Invalid operating mode: %d", mode);
	break;
	}
	} else {
	// aarch64
	return (ExceptionLevel) ((mode >> 2) & 3);
	}
	}

	static inline bool
	unknownMode(OperatingMode mode)
	{
	switch (mode) {
	case MODE_EL0T:
	case MODE_EL1T:
	case MODE_EL1H:
	case MODE_EL2T:
	case MODE_EL2H:
	case MODE_EL3T:
	case MODE_EL3H:
	case MODE_USER:
	case MODE_FIQ:
	case MODE_IRQ:
	case MODE_SVC:
	case MODE_MON:
	case MODE_ABORT:
	case MODE_HYP:
	case MODE_UNDEFINED:
	case MODE_SYSTEM:
	return false;
	default:
	return true;
	}
	}

	static inline bool
	unknownMode32(OperatingMode mode)
	{
	switch (mode) {
	case MODE_USER:
	case MODE_FIQ:
	case MODE_IRQ:
	case MODE_SVC:
	case MODE_MON:
	case MODE_ABORT:
	case MODE_HYP:
	case MODE_UNDEFINED:
	case MODE_SYSTEM:
	return false;
	default:
	return true;
	}
	}

	constexpr unsigned MaxSveVecLenInBits = 2048;
	static_assert(MaxSveVecLenInBits >= 128 &&
	MaxSveVecLenInBits <= 2048 &&
	MaxSveVecLenInBits % 128 == 0,
	"Unsupported max. SVE vector length");
	constexpr unsigned MaxSveVecLenInBytes = MaxSveVecLenInBits >> 3;
	constexpr unsigned MaxSveVecLenInWords = MaxSveVecLenInBits >> 5;
	constexpr unsigned MaxSveVecLenInDWords = MaxSveVecLenInBits >> 6;

	constexpr unsigned VecRegSizeBytes = MaxSveVecLenInBytes;
	constexpr unsigned VecPredRegSizeBits = MaxSveVecLenInBytes;

	} // namespace ArmISA
	} // namespace gem5

	#endif