490 lines
20 KiB
C
490 lines
20 KiB
C
/////////////////////////////////////////////////////////////////////////
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// $Id$
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/////////////////////////////////////////////////////////////////////////
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//
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// Copyright (c) 2013-2019 Stanislav Shwartsman
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// Written by Stanislav Shwartsman [sshwarts at sourceforge net]
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//
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// This library is free software; you can redistribute it and/or
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// modify it under the terms of the GNU Lesser General Public
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// License as published by the Free Software Foundation; either
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// version 2 of the License, or (at your option) any later version.
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//
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// This library is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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// Lesser General Public License for more details.
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//
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// You should have received a copy of the GNU Lesser General Public
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// License along with this library; if not, write to the Free Software
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// Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA B 02110-1301 USA
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//
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/////////////////////////////////////////////////////////////////////////
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#ifndef BX_COMMON_FETCHDECODE_TABLES_H
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#define BX_COMMON_FETCHDECODE_TABLES_H
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//
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// Metadata for decoder...
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//
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#define SSE_PREFIX_NONE 0
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#define SSE_PREFIX_66 1
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#define SSE_PREFIX_F3 2
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#define SSE_PREFIX_F2 3
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enum {
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BX_ILLEGAL_OPCODE,
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BX_ILLEGAL_LOCK_PREFIX,
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BX_ILLEGAL_VEX_XOP_VVV,
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BX_ILLEGAL_VEX_XOP_WITH_SSE_PREFIX,
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BX_ILLEGAL_VEX_XOP_WITH_REX_PREFIX,
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BX_ILLEGAL_VEX_XOP_OPCODE_MAP,
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BX_VEX_XOP_W0_ONLY,
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BX_VEX_XOP_W1_ONLY,
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BX_VEX_XOP_BAD_VECTOR_LENGTH,
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BX_VSIB_FORBIDDEN_ASIZE16,
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BX_VSIB_ILLEGAL_SIB_INDEX,
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BX_EVEX_RESERVED_BITS_SET,
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BX_EVEX_ILLEGAL_EVEX_B_SAE_NOT_ALLOWED,
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BX_EVEX_ILLEGAL_EVEX_B_BROADCAST_NOT_ALLOWED,
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BX_EVEX_ILLEGAL_KMASK_REGISTER,
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BX_EVEX_ILLEGAL_ZERO_MASKING_NO_OPMASK,
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BX_EVEX_ILLEGAL_ZERO_MASKING_VSIB,
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BX_EVEX_ILLEGAL_ZERO_MASKING_MEMORY_DESTINATION,
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};
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//
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// This file contains common IA-32/X86-64 opcode tables, like FPU opcode
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// table, 3DNow! opcode table or SSE opcode groups (choose the opcode
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// according to instruction prefixes)
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//
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BX_CPP_INLINE Bit16u FetchWORD(const Bit8u *iptr)
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{
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Bit16u data;
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ReadHostWordFromLittleEndian(iptr, data);
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return data;
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}
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BX_CPP_INLINE Bit32u FetchDWORD(const Bit8u *iptr)
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{
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Bit32u data;
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ReadHostDWordFromLittleEndian(iptr, data);
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return data;
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}
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#if BX_SUPPORT_X86_64
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BX_CPP_INLINE Bit64u FetchQWORD(const Bit8u *iptr)
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{
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Bit64u data;
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ReadHostQWordFromLittleEndian(iptr, data);
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return data;
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}
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#endif
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#define BX_PREPARE_EVEX_NO_BROADCAST (0x80 | BX_PREPARE_EVEX)
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#define BX_PREPARE_EVEX_NO_SAE (0x40 | BX_PREPARE_EVEX)
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#define BX_PREPARE_EVEX (0x20)
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#define BX_PREPARE_OPMASK (0x10)
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#define BX_PREPARE_AVX (0x08)
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#define BX_PREPARE_SSE (0x04)
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#define BX_LOCKABLE (0x02)
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#define BX_TRACE_END (0x01)
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struct bxIAOpcodeTable {
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#ifndef BX_STANDALONE_DECODER
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BxExecutePtr_tR execute1;
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BxExecutePtr_tR execute2;
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#endif
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Bit8u src[4];
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Bit8u opflags;
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};
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#ifdef BX_STANDALONE_DECODER
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// disable all the logging for stand-alone decoder
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#undef BX_INFO
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#undef BX_DEBUG
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#undef BX_ERROR
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#undef BX_PANIC
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#undef BX_FATAL
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#undef BX_ASSERT
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#define BX_INFO(x)
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#define BX_DEBUG(x)
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#define BX_ERROR(x)
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#define BX_PANIC(x)
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#define BX_FATAL(x)
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#define BX_ASSERT(x)
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#endif
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// where the source should be taken from
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enum {
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BX_SRC_NONE = 0, // no source, implicit source or immediate
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BX_SRC_EAX = 1, // the src is AL/AX/EAX/RAX or ST(0) for x87
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BX_SRC_NNN = 2, // the src should be taken from modrm.nnn
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BX_SRC_RM = 3, // the src is register or memory reference, register should be taken from modrm.rm
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BX_SRC_VECTOR_RM = 4, // the src is register or EVEX memory reference, register should be taken from modrm.rm
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BX_SRC_VVV = 5, // the src should be taken from (e)vex.vvv
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BX_SRC_VIB = 6, // the src should be taken from immediate byte
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BX_SRC_VSIB = 7, // the src is gather/scatter vector index
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BX_SRC_IMM = 8, // the src is immediate value
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BX_SRC_BRANCH_OFFSET = 9, // the src is immediate value used as branch offset
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BX_SRC_IMPLICIT = 10, // the src is implicit register or memory reference
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};
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// for disasm:
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// when the source is register, indicates the register type and size
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// when the source is memory reference, give hint about the memory access size
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enum {
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BX_NO_REGISTER = 0,
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BX_GPR8 = 0x1,
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BX_GPR32_MEM8 = 0x2, // 8-bit memory reference but 32-bit GPR
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BX_GPR16 = 0x3,
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BX_GPR32_MEM16 = 0x4, // 16-bit memory reference but 32-bit GPR
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BX_GPR32 = 0x5,
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BX_GPR64 = 0x6,
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BX_FPU_REG = 0x7,
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BX_MMX_REG = 0x8,
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BX_MMX_HALF_REG = 0x9,
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BX_VMM_REG = 0xA,
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BX_KMASK_REG = 0xB,
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BX_KMASK_REG_PAIR = 0xC,
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BX_SEGREG = 0xD,
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BX_CREG = 0xE,
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BX_DREG = 0xF
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};
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// to be used together with BX_SRC_VECTOR_RM
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enum {
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BX_VMM_FULL_VECTOR = 0x0,
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BX_VMM_SCALAR_BYTE = 0x1,
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BX_VMM_SCALAR_WORD = 0x2,
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BX_VMM_SCALAR_DWORD = 0x3,
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BX_VMM_SCALAR_QWORD = 0x4,
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BX_VMM_SCALAR = 0x5,
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BX_VMM_HALF_VECTOR = 0x6,
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BX_VMM_QUARTER_VECTOR = 0x7,
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BX_VMM_OCT_VECTOR = 0x8,
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BX_VMM_VEC128 = 0x9,
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BX_VMM_VEC256 = 0xA
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// encodings 0xB to 0xF are still free
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};
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// immediate forms
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enum {
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BX_IMM1 = 0x0,
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BX_IMMB = 0x1,
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BX_IMMBW_SE = 0x2,
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BX_IMMBD_SE = 0x3,
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BX_IMMW = 0x4,
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BX_IMMD = 0x5,
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BX_IMMQ = 0x6,
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BX_IMMB2 = 0x7,
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BX_DIRECT_PTR = 0x8,
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// encodings 0x9 to 0xB are still free
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BX_DIRECT_MEMREF_B = 0xC,
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BX_DIRECT_MEMREF_W = 0xD,
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BX_DIRECT_MEMREF_D = 0xE,
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BX_DIRECT_MEMREF_Q = 0xF,
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};
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// implicit register or memory references
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enum {
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BX_RSIREF_B = 0x1,
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BX_RSIREF_W = 0x2,
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BX_RSIREF_D = 0x3,
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BX_RSIREF_Q = 0x4,
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BX_RDIREF_B = 0x5,
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BX_RDIREF_W = 0x6,
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BX_RDIREF_D = 0x7,
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BX_RDIREF_Q = 0x8,
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BX_MMX_RDIREF = 0x9,
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BX_VEC_RDIREF = 0xA,
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BX_USECL = 0xB,
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BX_USEDX = 0xC,
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// encodings 0xD to 0xF are still free
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};
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#define BX_FORM_SRC(type, src) (((type) << 4) | (src))
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#define BX_DISASM_SRC_ORIGIN(desc) (desc & 0xf)
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#define BX_DISASM_SRC_TYPE(desc) (desc >> 4)
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const Bit8u OP_NONE = BX_SRC_NONE;
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const Bit8u OP_Eb = BX_FORM_SRC(BX_GPR8, BX_SRC_RM);
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const Bit8u OP_Ebd = BX_FORM_SRC(BX_GPR32_MEM8, BX_SRC_RM);
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const Bit8u OP_Ew = BX_FORM_SRC(BX_GPR16, BX_SRC_RM);
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const Bit8u OP_Ewd = BX_FORM_SRC(BX_GPR32_MEM16, BX_SRC_RM);
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const Bit8u OP_Ed = BX_FORM_SRC(BX_GPR32, BX_SRC_RM);
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const Bit8u OP_Eq = BX_FORM_SRC(BX_GPR64, BX_SRC_RM);
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const Bit8u OP_Gb = BX_FORM_SRC(BX_GPR8, BX_SRC_NNN);
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const Bit8u OP_Gw = BX_FORM_SRC(BX_GPR16, BX_SRC_NNN);
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const Bit8u OP_Gd = BX_FORM_SRC(BX_GPR32, BX_SRC_NNN);
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const Bit8u OP_Gq = BX_FORM_SRC(BX_GPR64, BX_SRC_NNN);
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const Bit8u OP_ALReg = BX_FORM_SRC(BX_GPR8, BX_SRC_EAX);
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const Bit8u OP_AXReg = BX_FORM_SRC(BX_GPR16, BX_SRC_EAX);
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const Bit8u OP_EAXReg = BX_FORM_SRC(BX_GPR32, BX_SRC_EAX);
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const Bit8u OP_RAXReg = BX_FORM_SRC(BX_GPR64, BX_SRC_EAX);
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const Bit8u OP_CLReg = BX_FORM_SRC(BX_USECL, BX_SRC_IMPLICIT);
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const Bit8u OP_DXReg = BX_FORM_SRC(BX_USEDX, BX_SRC_IMPLICIT);
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const Bit8u OP_I1 = BX_FORM_SRC(BX_IMM1, BX_SRC_IMM);
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const Bit8u OP_Ib = BX_FORM_SRC(BX_IMMB, BX_SRC_IMM);
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const Bit8u OP_sIbw = BX_FORM_SRC(BX_IMMBW_SE, BX_SRC_IMM);
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const Bit8u OP_sIbd = BX_FORM_SRC(BX_IMMBD_SE, BX_SRC_IMM);
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const Bit8u OP_Iw = BX_FORM_SRC(BX_IMMW, BX_SRC_IMM);
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const Bit8u OP_Id = BX_FORM_SRC(BX_IMMD, BX_SRC_IMM);
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const Bit8u OP_sId = BX_FORM_SRC(BX_IMMD, BX_SRC_IMM);
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const Bit8u OP_Iq = BX_FORM_SRC(BX_IMMQ, BX_SRC_IMM);
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const Bit8u OP_Ib2 = BX_FORM_SRC(BX_IMMB2, BX_SRC_IMM);
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const Bit8u OP_Jw = BX_FORM_SRC(BX_IMMW, BX_SRC_BRANCH_OFFSET);
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const Bit8u OP_Jd = BX_FORM_SRC(BX_IMMD, BX_SRC_BRANCH_OFFSET);
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const Bit8u OP_Jq = BX_FORM_SRC(BX_IMMD, BX_SRC_BRANCH_OFFSET);
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const Bit8u OP_Jbw = BX_FORM_SRC(BX_IMMBW_SE, BX_SRC_BRANCH_OFFSET);
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const Bit8u OP_Jbd = BX_FORM_SRC(BX_IMMBD_SE, BX_SRC_BRANCH_OFFSET);
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const Bit8u OP_Jbq = BX_FORM_SRC(BX_IMMBD_SE, BX_SRC_BRANCH_OFFSET);
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const Bit8u OP_M = BX_FORM_SRC(BX_NO_REGISTER, BX_SRC_RM);
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const Bit8u OP_Mt = BX_FORM_SRC(BX_FPU_REG, BX_SRC_RM);
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const Bit8u OP_Mdq = BX_FORM_SRC(BX_VMM_FULL_VECTOR, BX_SRC_VECTOR_RM);
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const Bit8u OP_Mb = OP_Eb;
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const Bit8u OP_Mw = OP_Ew;
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const Bit8u OP_Md = OP_Ed;
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const Bit8u OP_Mq = OP_Eq;
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const Bit8u OP_Pq = BX_FORM_SRC(BX_MMX_REG, BX_SRC_NNN);
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const Bit8u OP_Qd = BX_FORM_SRC(BX_MMX_HALF_REG, BX_SRC_RM);
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const Bit8u OP_Qq = BX_FORM_SRC(BX_MMX_REG, BX_SRC_RM);
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const Bit8u OP_Vdq = BX_FORM_SRC(BX_VMM_REG, BX_SRC_NNN);
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const Bit8u OP_Vps = BX_FORM_SRC(BX_VMM_REG, BX_SRC_NNN);
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const Bit8u OP_Vpd = BX_FORM_SRC(BX_VMM_REG, BX_SRC_NNN);
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const Bit8u OP_Vss = BX_FORM_SRC(BX_VMM_REG, BX_SRC_NNN);
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const Bit8u OP_Vsd = BX_FORM_SRC(BX_VMM_REG, BX_SRC_NNN);
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const Bit8u OP_Vq = BX_FORM_SRC(BX_VMM_REG, BX_SRC_NNN);
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const Bit8u OP_Vd = BX_FORM_SRC(BX_VMM_REG, BX_SRC_NNN);
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const Bit8u OP_Wq = BX_FORM_SRC(BX_VMM_SCALAR_QWORD, BX_SRC_VECTOR_RM);
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const Bit8u OP_Wd = BX_FORM_SRC(BX_VMM_SCALAR_DWORD, BX_SRC_VECTOR_RM);
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const Bit8u OP_Ww = BX_FORM_SRC(BX_VMM_SCALAR_WORD, BX_SRC_VECTOR_RM);
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const Bit8u OP_Wb = BX_FORM_SRC(BX_VMM_SCALAR_BYTE, BX_SRC_VECTOR_RM);
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const Bit8u OP_Wdq = BX_FORM_SRC(BX_VMM_FULL_VECTOR, BX_SRC_VECTOR_RM);
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const Bit8u OP_Wps = BX_FORM_SRC(BX_VMM_FULL_VECTOR, BX_SRC_VECTOR_RM);
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const Bit8u OP_Wpd = BX_FORM_SRC(BX_VMM_FULL_VECTOR, BX_SRC_VECTOR_RM);
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const Bit8u OP_Wss = BX_FORM_SRC(BX_VMM_SCALAR_DWORD, BX_SRC_VECTOR_RM);
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const Bit8u OP_Wsd = BX_FORM_SRC(BX_VMM_SCALAR_QWORD, BX_SRC_VECTOR_RM);
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const Bit8u OP_mVps = BX_FORM_SRC(BX_VMM_FULL_VECTOR, BX_SRC_VECTOR_RM);
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const Bit8u OP_mVpd = BX_FORM_SRC(BX_VMM_FULL_VECTOR, BX_SRC_VECTOR_RM);
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const Bit8u OP_mVps32 = BX_FORM_SRC(BX_VMM_SCALAR_DWORD, BX_SRC_VECTOR_RM);
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const Bit8u OP_mVpd64 = BX_FORM_SRC(BX_VMM_SCALAR_QWORD, BX_SRC_VECTOR_RM);
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const Bit8u OP_mVdq = BX_FORM_SRC(BX_VMM_FULL_VECTOR, BX_SRC_VECTOR_RM);
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const Bit8u OP_mVss = BX_FORM_SRC(BX_VMM_SCALAR_DWORD, BX_SRC_VECTOR_RM);
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const Bit8u OP_mVsd = BX_FORM_SRC(BX_VMM_SCALAR_QWORD, BX_SRC_VECTOR_RM);
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const Bit8u OP_mVdq8 = BX_FORM_SRC(BX_VMM_SCALAR_BYTE, BX_SRC_VECTOR_RM);
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const Bit8u OP_mVdq16 = BX_FORM_SRC(BX_VMM_SCALAR_WORD, BX_SRC_VECTOR_RM);
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const Bit8u OP_mVdq32 = BX_FORM_SRC(BX_VMM_SCALAR_DWORD, BX_SRC_VECTOR_RM);
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const Bit8u OP_mVdq64 = BX_FORM_SRC(BX_VMM_SCALAR_QWORD, BX_SRC_VECTOR_RM);
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const Bit8u OP_mVHV = BX_FORM_SRC(BX_VMM_HALF_VECTOR, BX_SRC_VECTOR_RM);
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const Bit8u OP_mVQV = BX_FORM_SRC(BX_VMM_QUARTER_VECTOR, BX_SRC_VECTOR_RM);
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const Bit8u OP_mVOV = BX_FORM_SRC(BX_VMM_OCT_VECTOR, BX_SRC_VECTOR_RM);
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const Bit8u OP_mVdq128 = BX_FORM_SRC(BX_VMM_VEC128, BX_SRC_VECTOR_RM);
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const Bit8u OP_mVdq256 = BX_FORM_SRC(BX_VMM_VEC256, BX_SRC_VECTOR_RM);
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const Bit8u OP_VSib = BX_FORM_SRC(BX_VMM_SCALAR, BX_SRC_VSIB);
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const Bit8u OP_Hdq = BX_FORM_SRC(BX_VMM_REG, BX_SRC_VVV);
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const Bit8u OP_Hps = BX_FORM_SRC(BX_VMM_REG, BX_SRC_VVV);
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const Bit8u OP_Hpd = BX_FORM_SRC(BX_VMM_REG, BX_SRC_VVV);
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const Bit8u OP_Hss = BX_FORM_SRC(BX_VMM_REG, BX_SRC_VVV);
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const Bit8u OP_Hsd = BX_FORM_SRC(BX_VMM_REG, BX_SRC_VVV);
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const Bit8u OP_Bd = BX_FORM_SRC(BX_GPR32, BX_SRC_VVV);
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const Bit8u OP_Bq = BX_FORM_SRC(BX_GPR64, BX_SRC_VVV);
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const Bit8u OP_VIb = BX_FORM_SRC(BX_VMM_REG, BX_SRC_VIB);
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const Bit8u OP_Cd = BX_FORM_SRC(BX_CREG, BX_SRC_NNN);
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const Bit8u OP_Cq = BX_FORM_SRC(BX_CREG, BX_SRC_NNN);
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const Bit8u OP_Dd = BX_FORM_SRC(BX_DREG, BX_SRC_NNN);
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const Bit8u OP_Dq = BX_FORM_SRC(BX_DREG, BX_SRC_NNN);
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const Bit8u OP_Sw = BX_FORM_SRC(BX_SEGREG, BX_SRC_NNN);
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const Bit8u OP_Ob = BX_FORM_SRC(BX_DIRECT_MEMREF_B, BX_SRC_IMM);
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const Bit8u OP_Ow = BX_FORM_SRC(BX_DIRECT_MEMREF_W, BX_SRC_IMM);
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const Bit8u OP_Od = BX_FORM_SRC(BX_DIRECT_MEMREF_D, BX_SRC_IMM);
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const Bit8u OP_Oq = BX_FORM_SRC(BX_DIRECT_MEMREF_Q, BX_SRC_IMM);
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const Bit8u OP_Ap = BX_FORM_SRC(BX_DIRECT_PTR, BX_SRC_IMM);
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const Bit8u OP_KGb = BX_FORM_SRC(BX_KMASK_REG, BX_SRC_NNN);
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const Bit8u OP_KEb = BX_FORM_SRC(BX_KMASK_REG, BX_SRC_RM);
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const Bit8u OP_KHb = BX_FORM_SRC(BX_KMASK_REG, BX_SRC_VVV);
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const Bit8u OP_KGw = BX_FORM_SRC(BX_KMASK_REG, BX_SRC_NNN);
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const Bit8u OP_KEw = BX_FORM_SRC(BX_KMASK_REG, BX_SRC_RM);
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const Bit8u OP_KHw = BX_FORM_SRC(BX_KMASK_REG, BX_SRC_VVV);
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const Bit8u OP_KGd = BX_FORM_SRC(BX_KMASK_REG, BX_SRC_NNN);
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const Bit8u OP_KEd = BX_FORM_SRC(BX_KMASK_REG, BX_SRC_RM);
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const Bit8u OP_KHd = BX_FORM_SRC(BX_KMASK_REG, BX_SRC_VVV);
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const Bit8u OP_KGq = BX_FORM_SRC(BX_KMASK_REG, BX_SRC_NNN);
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const Bit8u OP_KEq = BX_FORM_SRC(BX_KMASK_REG, BX_SRC_RM);
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const Bit8u OP_KHq = BX_FORM_SRC(BX_KMASK_REG, BX_SRC_VVV);
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const Bit8u OP_KGq2 = BX_FORM_SRC(BX_KMASK_REG_PAIR, BX_SRC_NNN);
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const Bit8u OP_ST0 = BX_FORM_SRC(BX_FPU_REG, BX_SRC_EAX);
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const Bit8u OP_STi = BX_FORM_SRC(BX_FPU_REG, BX_SRC_RM);
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const Bit8u OP_Xb = BX_FORM_SRC(BX_RSIREF_B, BX_SRC_IMPLICIT);
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const Bit8u OP_Xw = BX_FORM_SRC(BX_RSIREF_W, BX_SRC_IMPLICIT);
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const Bit8u OP_Xd = BX_FORM_SRC(BX_RSIREF_D, BX_SRC_IMPLICIT);
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const Bit8u OP_Xq = BX_FORM_SRC(BX_RSIREF_Q, BX_SRC_IMPLICIT);
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const Bit8u OP_Yb = BX_FORM_SRC(BX_RDIREF_B, BX_SRC_IMPLICIT);
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const Bit8u OP_Yw = BX_FORM_SRC(BX_RDIREF_W, BX_SRC_IMPLICIT);
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const Bit8u OP_Yd = BX_FORM_SRC(BX_RDIREF_D, BX_SRC_IMPLICIT);
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const Bit8u OP_Yq = BX_FORM_SRC(BX_RDIREF_Q, BX_SRC_IMPLICIT);
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const Bit8u OP_sYq = BX_FORM_SRC(BX_MMX_RDIREF, BX_SRC_IMPLICIT);
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const Bit8u OP_sYdq = BX_FORM_SRC(BX_VEC_RDIREF, BX_SRC_IMPLICIT);
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struct bx_modrm {
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unsigned modrm, mod, nnn, rm;
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};
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#include "ia_opcodes.h"
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// New Opcode Tables
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/*
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2222 1111 1111 11
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3210 9876 5432 1098 7654 3210
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-----------------------------
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OOAA SSLM IVEX VVVM RRR NNN
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SSSS SSoo SEVO EEEA
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6363 EEcd 6XEP XXXS
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4242 PPkC 4 X ...K
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/ / PR 0 VVWK
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1 1 EE LL 0
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6 6 FF 50
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II 1/
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XX 21
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*/
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const unsigned OS64_OFFSET = 23;
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const unsigned OS32_OFFSET = 22;
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const unsigned AS64_OFFSET = 21;
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const unsigned AS32_OFFSET = 20;
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const unsigned SSE_PREFIX_F2_F3_OFFSET = 19;
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const unsigned SSE_PREFIX_OFFSET = 18;
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const unsigned LOCK_PREFIX_OFFSET = 17;
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const unsigned MODC0_OFFSET = 16;
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const unsigned IS64_OFFSET = 15;
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const unsigned VEX_OFFSET = 14;
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const unsigned EVEX_OFFSET = 13;
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const unsigned XOP_OFFSET = 12;
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const unsigned VEX_VL_512_OFFSET = 11;
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const unsigned VEX_VL_128_256_OFFSET = 10;
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const unsigned VEX_W_OFFSET = 9;
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const unsigned MASK_K0_OFFSET = 8;
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const unsigned RRR_OFFSET = 4;
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const unsigned NNN_OFFSET = 0;
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const Bit64u ATTR_OS64 = ((BX_CONST64(3)<<OS32_OFFSET) << 24) | (BX_CONST64(3)<<OS32_OFFSET);
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const Bit64u ATTR_OS32 = ((BX_CONST64(1)<<OS32_OFFSET) << 24) | (BX_CONST64(3)<<OS32_OFFSET);
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const Bit64u ATTR_OS16 = ((BX_CONST64(0)<<OS32_OFFSET) << 24) | (BX_CONST64(3)<<OS32_OFFSET);
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const Bit64u ATTR_OS16_32 = ((BX_CONST64(0)<<OS64_OFFSET) << 24) | (BX_CONST64(1)<<OS64_OFFSET);
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const Bit64u ATTR_OS32_64 = ((BX_CONST64(1)<<OS32_OFFSET) << 24) | (BX_CONST64(1)<<OS32_OFFSET);
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const Bit64u ATTR_AS64 = ((BX_CONST64(3)<<AS32_OFFSET) << 24) | (BX_CONST64(3)<<AS32_OFFSET);
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const Bit64u ATTR_AS32 = ((BX_CONST64(1)<<AS32_OFFSET) << 24) | (BX_CONST64(3)<<AS32_OFFSET);
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const Bit64u ATTR_AS16 = ((BX_CONST64(0)<<AS32_OFFSET) << 24) | (BX_CONST64(3)<<AS32_OFFSET);
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const Bit64u ATTR_AS16_32 = ((BX_CONST64(0)<<AS64_OFFSET) << 24) | (BX_CONST64(1)<<AS64_OFFSET);
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const Bit64u ATTR_AS32_64 = ((BX_CONST64(1)<<AS32_OFFSET) << 24) | (BX_CONST64(1)<<AS32_OFFSET);
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const Bit64u ATTR_IS32 = ((BX_CONST64(0)<<IS64_OFFSET) << 24) | (BX_CONST64(1)<<IS64_OFFSET);
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const Bit64u ATTR_IS64 = ((BX_CONST64(1)<<IS64_OFFSET) << 24) | (BX_CONST64(1)<<IS64_OFFSET);
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const Bit64u ATTR_SSE_NO_PREFIX = ((BX_CONST64(0)<<SSE_PREFIX_OFFSET) << 24) | (BX_CONST64(3)<<SSE_PREFIX_OFFSET);
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const Bit64u ATTR_SSE_PREFIX_66 = ((BX_CONST64(1)<<SSE_PREFIX_OFFSET) << 24) | (BX_CONST64(3)<<SSE_PREFIX_OFFSET);
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const Bit64u ATTR_SSE_PREFIX_F3 = ((BX_CONST64(2)<<SSE_PREFIX_OFFSET) << 24) | (BX_CONST64(3)<<SSE_PREFIX_OFFSET);
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const Bit64u ATTR_SSE_PREFIX_F2 = ((BX_CONST64(3)<<SSE_PREFIX_OFFSET) << 24) | (BX_CONST64(3)<<SSE_PREFIX_OFFSET);
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const Bit64u ATTR_NO_SSE_PREFIX_F2_F3 = ((BX_CONST64(0)<<SSE_PREFIX_F2_F3_OFFSET) << 24) | (BX_CONST64(1)<<SSE_PREFIX_F2_F3_OFFSET);
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const Bit64u ATTR_LOCK_PREFIX_NOT_ALLOWED = ((BX_CONST64(0)<<LOCK_PREFIX_OFFSET) << 24) | (BX_CONST64(1)<<LOCK_PREFIX_OFFSET);
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const Bit64u ATTR_LOCK = ((BX_CONST64(1)<<LOCK_PREFIX_OFFSET) << 24) | (BX_CONST64(1)<<LOCK_PREFIX_OFFSET);
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const Bit64u ATTR_MODC0 = ((BX_CONST64(1)<<MODC0_OFFSET) << 24) | (BX_CONST64(1)<<MODC0_OFFSET);
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const Bit64u ATTR_NO_MODC0 = ((BX_CONST64(0)<<MODC0_OFFSET) << 24) | (BX_CONST64(1)<<MODC0_OFFSET);
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const Bit64u ATTR_MOD_REG = ATTR_MODC0;
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const Bit64u ATTR_MOD_MEM = ATTR_NO_MODC0;
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const Bit64u ATTR_VEX = ((BX_CONST64(1)<<VEX_OFFSET) << 24) | (BX_CONST64(1)<<VEX_OFFSET);
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const Bit64u ATTR_EVEX = ((BX_CONST64(1)<<EVEX_OFFSET) << 24) | (BX_CONST64(1)<<EVEX_OFFSET);
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const Bit64u ATTR_XOP = ((BX_CONST64(1)<<XOP_OFFSET) << 24) | (BX_CONST64(1)<<XOP_OFFSET);
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const Bit64u ATTR_VL128 = ((BX_CONST64(0)<<VEX_VL_128_256_OFFSET) << 24) | (BX_CONST64(3)<<VEX_VL_128_256_OFFSET);
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const Bit64u ATTR_VL256 = ((BX_CONST64(1)<<VEX_VL_128_256_OFFSET) << 24) | (BX_CONST64(3)<<VEX_VL_128_256_OFFSET);
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const Bit64u ATTR_VL512 = ((BX_CONST64(3)<<VEX_VL_128_256_OFFSET) << 24) | (BX_CONST64(3)<<VEX_VL_128_256_OFFSET);
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const Bit64u ATTR_VL256_512 = ((BX_CONST64(1)<<VEX_VL_128_256_OFFSET) << 24) | (BX_CONST64(1)<<VEX_VL_128_256_OFFSET);
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const Bit64u ATTR_VL128_256 = ((BX_CONST64(0)<<VEX_VL_512_OFFSET) << 24) | (BX_CONST64(1)<<VEX_VL_512_OFFSET);
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const Bit64u ATTR_VEX_L0 = ATTR_VL128;
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const Bit64u ATTR_VEX_W0 = ((BX_CONST64(0)<<VEX_W_OFFSET) << 24) | (BX_CONST64(1)<<VEX_W_OFFSET);
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const Bit64u ATTR_VEX_W1 = ((BX_CONST64(1)<<VEX_W_OFFSET) << 24) | (BX_CONST64(1)<<VEX_W_OFFSET);
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const Bit64u ATTR_NO_VEX_EVEX_XOP = ((BX_CONST64(0)<<XOP_OFFSET) << 24) | (BX_CONST64(3)<<XOP_OFFSET);
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const Bit64u ATTR_MASK_K0 = ((BX_CONST64(1)<<MASK_K0_OFFSET) << 24) | (BX_CONST64(1)<<MASK_K0_OFFSET);
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const Bit64u ATTR_MASK_REQUIRED = ((BX_CONST64(0)<<MASK_K0_OFFSET) << 24) | (BX_CONST64(1)<<MASK_K0_OFFSET);
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const Bit64u ATTR_RRR0 = ((BX_CONST64(0)<<RRR_OFFSET) << 24) | (BX_CONST64(7)<<RRR_OFFSET);
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const Bit64u ATTR_RRR1 = ((BX_CONST64(1)<<RRR_OFFSET) << 24) | (BX_CONST64(7)<<RRR_OFFSET);
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const Bit64u ATTR_RRR2 = ((BX_CONST64(2)<<RRR_OFFSET) << 24) | (BX_CONST64(7)<<RRR_OFFSET);
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const Bit64u ATTR_RRR3 = ((BX_CONST64(3)<<RRR_OFFSET) << 24) | (BX_CONST64(7)<<RRR_OFFSET);
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const Bit64u ATTR_RRR4 = ((BX_CONST64(4)<<RRR_OFFSET) << 24) | (BX_CONST64(7)<<RRR_OFFSET);
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const Bit64u ATTR_RRR5 = ((BX_CONST64(5)<<RRR_OFFSET) << 24) | (BX_CONST64(7)<<RRR_OFFSET);
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const Bit64u ATTR_RRR6 = ((BX_CONST64(6)<<RRR_OFFSET) << 24) | (BX_CONST64(7)<<RRR_OFFSET);
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const Bit64u ATTR_RRR7 = ((BX_CONST64(7)<<RRR_OFFSET) << 24) | (BX_CONST64(7)<<RRR_OFFSET);
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const Bit64u ATTR_NNN0 = ((BX_CONST64(0)<<NNN_OFFSET) << 24) | (BX_CONST64(7)<<NNN_OFFSET);
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const Bit64u ATTR_NNN1 = ((BX_CONST64(1)<<NNN_OFFSET) << 24) | (BX_CONST64(7)<<NNN_OFFSET);
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const Bit64u ATTR_NNN2 = ((BX_CONST64(2)<<NNN_OFFSET) << 24) | (BX_CONST64(7)<<NNN_OFFSET);
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const Bit64u ATTR_NNN3 = ((BX_CONST64(3)<<NNN_OFFSET) << 24) | (BX_CONST64(7)<<NNN_OFFSET);
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const Bit64u ATTR_NNN4 = ((BX_CONST64(4)<<NNN_OFFSET) << 24) | (BX_CONST64(7)<<NNN_OFFSET);
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const Bit64u ATTR_NNN5 = ((BX_CONST64(5)<<NNN_OFFSET) << 24) | (BX_CONST64(7)<<NNN_OFFSET);
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const Bit64u ATTR_NNN6 = ((BX_CONST64(6)<<NNN_OFFSET) << 24) | (BX_CONST64(7)<<NNN_OFFSET);
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const Bit64u ATTR_NNN7 = ((BX_CONST64(7)<<NNN_OFFSET) << 24) | (BX_CONST64(7)<<NNN_OFFSET);
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const Bit64u ATTR_LAST_OPCODE = BX_CONST64(0x8000000000000000);
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|
|
#define form_opcode(attr, ia_opcode) ((attr) | (Bit64u(ia_opcode) << 48) | ATTR_LOCK_PREFIX_NOT_ALLOWED)
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|
#define last_opcode(attr, ia_opcode) ((attr) | (Bit64u(ia_opcode) << 48) | ATTR_LOCK_PREFIX_NOT_ALLOWED | ATTR_LAST_OPCODE)
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#define form_opcode_lockable(attr, ia_opcode) ((attr) | (Bit64u(ia_opcode) << 48))
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|
#define last_opcode_lockable(attr, ia_opcode) ((attr) | (Bit64u(ia_opcode) << 48) | ATTR_LAST_OPCODE)
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|
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/* ************************************************************************ */
|
|
/* Opcode Groups */
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|
|
static const Bit64u BxOpcodeGroup_ERR[] = { last_opcode(0, BX_IA_ERROR) };
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#endif // BX_COMMON_FETCHDECODE_TABLES_H
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