1 | #!/usr/bin/env python
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2 | # -*- coding: utf-8 -*-
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3 | # $Id: IEMAllInstPython.py 101581 2023-10-24 14:50:49Z vboxsync $
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4 |
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5 | """
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6 | IEM instruction extractor.
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7 |
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8 | This script/module parses the IEMAllInstruction*.cpp.h files next to it and
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9 | collects information about the instructions. It can then be used to generate
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10 | disassembler tables and tests.
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11 | """
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12 |
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13 | from __future__ import print_function;
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14 |
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15 | __copyright__ = \
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16 | """
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17 | Copyright (C) 2017-2023 Oracle and/or its affiliates.
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18 |
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19 | This file is part of VirtualBox base platform packages, as
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20 | available from https://www.virtualbox.org.
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21 |
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22 | This program is free software; you can redistribute it and/or
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23 | modify it under the terms of the GNU General Public License
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24 | as published by the Free Software Foundation, in version 3 of the
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25 | License.
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26 |
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27 | This program is distributed in the hope that it will be useful, but
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28 | WITHOUT ANY WARRANTY; without even the implied warranty of
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29 | MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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30 | General Public License for more details.
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31 |
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32 | You should have received a copy of the GNU General Public License
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33 | along with this program; if not, see <https://www.gnu.org/licenses>.
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34 |
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35 | The contents of this file may alternatively be used under the terms
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36 | of the Common Development and Distribution License Version 1.0
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37 | (CDDL), a copy of it is provided in the "COPYING.CDDL" file included
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38 | in the VirtualBox distribution, in which case the provisions of the
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39 | CDDL are applicable instead of those of the GPL.
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40 |
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41 | You may elect to license modified versions of this file under the
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42 | terms and conditions of either the GPL or the CDDL or both.
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43 |
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44 | SPDX-License-Identifier: GPL-3.0-only OR CDDL-1.0
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45 | """
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46 | __version__ = "$Revision: 101581 $"
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47 |
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48 | # pylint: disable=anomalous-backslash-in-string,too-many-lines
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49 |
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50 | # Standard python imports.
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51 | import os;
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52 | import re;
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53 | import sys;
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54 | import traceback;
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55 |
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56 | ## Only the main script needs to modify the path.
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57 | #g_ksValidationKitDir = os.path.join(os.path.dirname(os.path.dirname(os.path.dirname(os.path.abspath(__file__)))),
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58 | # 'ValidationKit');
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59 | #sys.path.append(g_ksValidationKitDir);
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60 | #
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61 | #from common import utils; - Windows build boxes doesn't have pywin32.
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62 |
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63 | # Python 3 hacks:
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64 | if sys.version_info[0] >= 3:
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65 | long = int; # pylint: disable=redefined-builtin,invalid-name
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66 |
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67 |
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68 | g_kdX86EFlagsConstants = {
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69 | 'X86_EFL_CF': 0x00000001, # RT_BIT_32(0)
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70 | 'X86_EFL_1': 0x00000002, # RT_BIT_32(1)
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71 | 'X86_EFL_PF': 0x00000004, # RT_BIT_32(2)
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72 | 'X86_EFL_AF': 0x00000010, # RT_BIT_32(4)
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73 | 'X86_EFL_ZF': 0x00000040, # RT_BIT_32(6)
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74 | 'X86_EFL_SF': 0x00000080, # RT_BIT_32(7)
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75 | 'X86_EFL_TF': 0x00000100, # RT_BIT_32(8)
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76 | 'X86_EFL_IF': 0x00000200, # RT_BIT_32(9)
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77 | 'X86_EFL_DF': 0x00000400, # RT_BIT_32(10)
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78 | 'X86_EFL_OF': 0x00000800, # RT_BIT_32(11)
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79 | 'X86_EFL_IOPL': 0x00003000, # (RT_BIT_32(12) | RT_BIT_32(13))
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80 | 'X86_EFL_NT': 0x00004000, # RT_BIT_32(14)
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81 | 'X86_EFL_RF': 0x00010000, # RT_BIT_32(16)
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82 | 'X86_EFL_VM': 0x00020000, # RT_BIT_32(17)
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83 | 'X86_EFL_AC': 0x00040000, # RT_BIT_32(18)
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84 | 'X86_EFL_VIF': 0x00080000, # RT_BIT_32(19)
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85 | 'X86_EFL_VIP': 0x00100000, # RT_BIT_32(20)
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86 | 'X86_EFL_ID': 0x00200000, # RT_BIT_32(21)
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87 | 'X86_EFL_LIVE_MASK': 0x003f7fd5, # UINT32_C(0x003f7fd5)
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88 | 'X86_EFL_RA1_MASK': 0x00000002, # RT_BIT_32(1)
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89 | };
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90 |
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91 | ## EFlags values allowed in \@opfltest, \@opflmodify, \@opflundef, \@opflset, and \@opflclear.
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92 | g_kdEFlagsMnemonics = {
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93 | # Debugger flag notation (sorted by value):
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94 | 'cf': 'X86_EFL_CF', ##< Carry Flag.
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95 | 'nc': '!X86_EFL_CF', ##< No Carry.
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96 |
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97 | 'po': 'X86_EFL_PF', ##< Parity Pdd.
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98 | 'pe': '!X86_EFL_PF', ##< Parity Even.
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99 |
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100 | 'af': 'X86_EFL_AF', ##< Aux Flag.
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101 | 'na': '!X86_EFL_AF', ##< No Aux.
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102 |
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103 | 'zr': 'X86_EFL_ZF', ##< ZeRo.
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104 | 'nz': '!X86_EFL_ZF', ##< No Zero.
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105 |
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106 | 'ng': 'X86_EFL_SF', ##< NeGative (sign).
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107 | 'pl': '!X86_EFL_SF', ##< PLuss (sign).
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108 |
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109 | 'tf': 'X86_EFL_TF', ##< Trap flag.
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110 |
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111 | 'ei': 'X86_EFL_IF', ##< Enabled Interrupts.
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112 | 'di': '!X86_EFL_IF', ##< Disabled Interrupts.
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113 |
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114 | 'dn': 'X86_EFL_DF', ##< DowN (string op direction).
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115 | 'up': '!X86_EFL_DF', ##< UP (string op direction).
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116 |
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117 | 'ov': 'X86_EFL_OF', ##< OVerflow.
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118 | 'nv': '!X86_EFL_OF', ##< No Overflow.
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119 |
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120 | 'nt': 'X86_EFL_NT', ##< Nested Task.
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121 | 'rf': 'X86_EFL_RF', ##< Resume Flag.
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122 | 'vm': 'X86_EFL_VM', ##< Virtual-8086 Mode.
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123 | 'ac': 'X86_EFL_AC', ##< Alignment Check.
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124 | 'vif': 'X86_EFL_VIF', ##< Virtual Interrupt Flag.
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125 | 'vip': 'X86_EFL_VIP', ##< Virtual Interrupt Pending.
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126 |
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127 | # Reference manual notation not covered above (sorted by value):
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128 | 'pf': 'X86_EFL_PF',
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129 | 'zf': 'X86_EFL_ZF',
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130 | 'sf': 'X86_EFL_SF',
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131 | 'if': 'X86_EFL_IF',
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132 | 'df': 'X86_EFL_DF',
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133 | 'of': 'X86_EFL_OF',
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134 | 'iopl': 'X86_EFL_IOPL',
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135 | 'id': 'X86_EFL_ID',
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136 | };
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137 |
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138 | ## Constants and values for CR0.
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139 | g_kdX86Cr0Constants = {
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140 | 'X86_CR0_PE': 0x00000001, # RT_BIT_32(0)
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141 | 'X86_CR0_MP': 0x00000002, # RT_BIT_32(1)
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142 | 'X86_CR0_EM': 0x00000004, # RT_BIT_32(2)
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143 | 'X86_CR0_TS': 0x00000008, # RT_BIT_32(3)
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144 | 'X86_CR0_ET': 0x00000010, # RT_BIT_32(4)
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145 | 'X86_CR0_NE': 0x00000020, # RT_BIT_32(5)
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146 | 'X86_CR0_WP': 0x00010000, # RT_BIT_32(16)
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147 | 'X86_CR0_AM': 0x00040000, # RT_BIT_32(18)
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148 | 'X86_CR0_NW': 0x20000000, # RT_BIT_32(29)
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149 | 'X86_CR0_CD': 0x40000000, # RT_BIT_32(30)
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150 | 'X86_CR0_PG': 0x80000000, # RT_BIT_32(31)
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151 | };
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152 |
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153 | ## Constants and values for CR4.
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154 | g_kdX86Cr4Constants = {
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155 | 'X86_CR4_VME': 0x00000001, # RT_BIT_32(0)
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156 | 'X86_CR4_PVI': 0x00000002, # RT_BIT_32(1)
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157 | 'X86_CR4_TSD': 0x00000004, # RT_BIT_32(2)
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158 | 'X86_CR4_DE': 0x00000008, # RT_BIT_32(3)
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159 | 'X86_CR4_PSE': 0x00000010, # RT_BIT_32(4)
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160 | 'X86_CR4_PAE': 0x00000020, # RT_BIT_32(5)
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161 | 'X86_CR4_MCE': 0x00000040, # RT_BIT_32(6)
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162 | 'X86_CR4_PGE': 0x00000080, # RT_BIT_32(7)
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163 | 'X86_CR4_PCE': 0x00000100, # RT_BIT_32(8)
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164 | 'X86_CR4_OSFXSR': 0x00000200, # RT_BIT_32(9)
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165 | 'X86_CR4_OSXMMEEXCPT': 0x00000400, # RT_BIT_32(10)
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166 | 'X86_CR4_VMXE': 0x00002000, # RT_BIT_32(13)
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167 | 'X86_CR4_SMXE': 0x00004000, # RT_BIT_32(14)
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168 | 'X86_CR4_PCIDE': 0x00020000, # RT_BIT_32(17)
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169 | 'X86_CR4_OSXSAVE': 0x00040000, # RT_BIT_32(18)
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170 | 'X86_CR4_SMEP': 0x00100000, # RT_BIT_32(20)
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171 | 'X86_CR4_SMAP': 0x00200000, # RT_BIT_32(21)
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172 | 'X86_CR4_PKE': 0x00400000, # RT_BIT_32(22)
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173 | };
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174 |
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175 | ## XSAVE components (XCR0).
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176 | g_kdX86XSaveCConstants = {
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177 | 'XSAVE_C_X87': 0x00000001,
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178 | 'XSAVE_C_SSE': 0x00000002,
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179 | 'XSAVE_C_YMM': 0x00000004,
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180 | 'XSAVE_C_BNDREGS': 0x00000008,
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181 | 'XSAVE_C_BNDCSR': 0x00000010,
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182 | 'XSAVE_C_OPMASK': 0x00000020,
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183 | 'XSAVE_C_ZMM_HI256': 0x00000040,
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184 | 'XSAVE_C_ZMM_16HI': 0x00000080,
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185 | 'XSAVE_C_PKRU': 0x00000200,
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186 | 'XSAVE_C_LWP': 0x4000000000000000,
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187 | 'XSAVE_C_X': 0x8000000000000000,
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188 | 'XSAVE_C_ALL_AVX': 0x000000c4, # For clearing all AVX bits.
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189 | 'XSAVE_C_ALL_AVX_SSE': 0x000000c6, # For clearing all AVX and SSE bits.
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190 | };
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191 |
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192 |
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193 | ## \@op[1-4] locations
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194 | g_kdOpLocations = {
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195 | 'reg': [], ## modrm.reg
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196 | 'rm': [], ## modrm.rm
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197 | 'imm': [], ## immediate instruction data
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198 | 'vvvv': [], ## VEX.vvvv
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199 |
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200 | # fixed registers.
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201 | 'AL': [],
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202 | 'rAX': [],
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203 | 'rDX': [],
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204 | 'rSI': [],
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205 | 'rDI': [],
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206 | 'rFLAGS': [],
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207 | 'CS': [],
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208 | 'DS': [],
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209 | 'ES': [],
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210 | 'FS': [],
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211 | 'GS': [],
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212 | 'SS': [],
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213 | };
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214 |
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215 | ## \@op[1-4] types
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216 | ##
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217 | ## Value fields:
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218 | ## - 0: the normal IDX_ParseXXX handler (IDX_UseModRM == IDX_ParseModRM).
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219 | ## - 1: the location (g_kdOpLocations).
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220 | ## - 2: disassembler format string version of the type.
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221 | ## - 3: disassembler OP_PARAM_XXX (XXX only).
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222 | ## - 4: IEM form matching instruction.
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223 | ##
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224 | ## Note! See the A.2.1 in SDM vol 2 for the type names.
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225 | g_kdOpTypes = {
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226 | # Fixed addresses
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227 | 'Ap': ( 'IDX_ParseImmAddrF', 'imm', '%Ap', 'Ap', 'FIXED', ),
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228 |
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229 | # ModR/M.rm
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230 | 'Eb': ( 'IDX_UseModRM', 'rm', '%Eb', 'Eb', 'RM', ),
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231 | 'Ed': ( 'IDX_UseModRM', 'rm', '%Ed', 'Ed', 'RM', ),
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232 | 'Ed_WO': ( 'IDX_UseModRM', 'rm', '%Ed', 'Ed', 'RM', ),
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233 | 'Eq': ( 'IDX_UseModRM', 'rm', '%Eq', 'Eq', 'RM', ),
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234 | 'Eq_WO': ( 'IDX_UseModRM', 'rm', '%Eq', 'Eq', 'RM', ),
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235 | 'Ew': ( 'IDX_UseModRM', 'rm', '%Ew', 'Ew', 'RM', ),
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236 | 'Ev': ( 'IDX_UseModRM', 'rm', '%Ev', 'Ev', 'RM', ),
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237 | 'Ey': ( 'IDX_UseModRM', 'rm', '%Ey', 'Ey', 'RM', ),
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238 | 'Qd': ( 'IDX_UseModRM', 'rm', '%Qd', 'Qd', 'RM', ),
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239 | 'Qq': ( 'IDX_UseModRM', 'rm', '%Qq', 'Qq', 'RM', ),
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240 | 'Qq_WO': ( 'IDX_UseModRM', 'rm', '%Qq', 'Qq', 'RM', ),
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241 | 'Wss': ( 'IDX_UseModRM', 'rm', '%Wss', 'Wss', 'RM', ),
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242 | 'Wss_WO': ( 'IDX_UseModRM', 'rm', '%Wss', 'Wss', 'RM', ),
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243 | 'Wsd': ( 'IDX_UseModRM', 'rm', '%Wsd', 'Wsd', 'RM', ),
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244 | 'Wsd_WO': ( 'IDX_UseModRM', 'rm', '%Wsd', 'Wsd', 'RM', ),
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245 | 'Wps': ( 'IDX_UseModRM', 'rm', '%Wps', 'Wps', 'RM', ),
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246 | 'Wps_WO': ( 'IDX_UseModRM', 'rm', '%Wps', 'Wps', 'RM', ),
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247 | 'Wpd': ( 'IDX_UseModRM', 'rm', '%Wpd', 'Wpd', 'RM', ),
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248 | 'Wpd_WO': ( 'IDX_UseModRM', 'rm', '%Wpd', 'Wpd', 'RM', ),
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249 | 'Wdq': ( 'IDX_UseModRM', 'rm', '%Wdq', 'Wdq', 'RM', ),
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250 | 'Wdq_WO': ( 'IDX_UseModRM', 'rm', '%Wdq', 'Wdq', 'RM', ),
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251 | 'Wq': ( 'IDX_UseModRM', 'rm', '%Wq', 'Wq', 'RM', ),
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252 | 'Wq_WO': ( 'IDX_UseModRM', 'rm', '%Wq', 'Wq', 'RM', ),
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253 | 'WqZxReg_WO': ( 'IDX_UseModRM', 'rm', '%Wq', 'Wq', 'RM', ),
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254 | 'Wx': ( 'IDX_UseModRM', 'rm', '%Wx', 'Wx', 'RM', ),
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255 | 'Wx_WO': ( 'IDX_UseModRM', 'rm', '%Wx', 'Wx', 'RM', ),
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256 |
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257 | # ModR/M.rm - register only.
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258 | 'Uq': ( 'IDX_UseModRM', 'rm', '%Uq', 'Uq', 'REG' ),
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259 | 'UqHi': ( 'IDX_UseModRM', 'rm', '%Uq', 'UqHi', 'REG' ),
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260 | 'Uss': ( 'IDX_UseModRM', 'rm', '%Uss', 'Uss', 'REG' ),
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261 | 'Uss_WO': ( 'IDX_UseModRM', 'rm', '%Uss', 'Uss', 'REG' ),
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262 | 'Usd': ( 'IDX_UseModRM', 'rm', '%Usd', 'Usd', 'REG' ),
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263 | 'Usd_WO': ( 'IDX_UseModRM', 'rm', '%Usd', 'Usd', 'REG' ),
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264 | 'Ux': ( 'IDX_UseModRM', 'rm', '%Ux', 'Ux', 'REG' ),
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265 | 'Nq': ( 'IDX_UseModRM', 'rm', '%Qq', 'Nq', 'REG' ),
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266 |
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267 | # ModR/M.rm - memory only.
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268 | 'Ma': ( 'IDX_UseModRM', 'rm', '%Ma', 'Ma', 'MEM', ), ##< Only used by BOUND.
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269 | 'Mb_RO': ( 'IDX_UseModRM', 'rm', '%Mb', 'Mb', 'MEM', ),
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270 | 'Md': ( 'IDX_UseModRM', 'rm', '%Md', 'Md', 'MEM', ),
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271 | 'Md_RO': ( 'IDX_UseModRM', 'rm', '%Md', 'Md', 'MEM', ),
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272 | 'Md_WO': ( 'IDX_UseModRM', 'rm', '%Md', 'Md', 'MEM', ),
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273 | 'Mdq': ( 'IDX_UseModRM', 'rm', '%Mdq', 'Mdq', 'MEM', ),
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274 | 'Mdq_WO': ( 'IDX_UseModRM', 'rm', '%Mdq', 'Mdq', 'MEM', ),
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275 | 'Mq': ( 'IDX_UseModRM', 'rm', '%Mq', 'Mq', 'MEM', ),
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276 | 'Mq_WO': ( 'IDX_UseModRM', 'rm', '%Mq', 'Mq', 'MEM', ),
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277 | 'Mps_WO': ( 'IDX_UseModRM', 'rm', '%Mps', 'Mps', 'MEM', ),
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278 | 'Mpd_WO': ( 'IDX_UseModRM', 'rm', '%Mpd', 'Mpd', 'MEM', ),
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279 | 'Mx': ( 'IDX_UseModRM', 'rm', '%Mx', 'Mx', 'MEM', ),
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280 | 'Mx_WO': ( 'IDX_UseModRM', 'rm', '%Mx', 'Mx', 'MEM', ),
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281 | 'M_RO': ( 'IDX_UseModRM', 'rm', '%M', 'M', 'MEM', ),
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282 | 'M_RW': ( 'IDX_UseModRM', 'rm', '%M', 'M', 'MEM', ),
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283 |
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284 | # ModR/M.reg
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285 | 'Gb': ( 'IDX_UseModRM', 'reg', '%Gb', 'Gb', '', ),
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286 | 'Gw': ( 'IDX_UseModRM', 'reg', '%Gw', 'Gw', '', ),
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287 | 'Gd': ( 'IDX_UseModRM', 'reg', '%Gd', 'Gd', '', ),
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288 | 'Gv': ( 'IDX_UseModRM', 'reg', '%Gv', 'Gv', '', ),
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289 | 'Gv_RO': ( 'IDX_UseModRM', 'reg', '%Gv', 'Gv', '', ),
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290 | 'Gy': ( 'IDX_UseModRM', 'reg', '%Gy', 'Gy', '', ),
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291 | 'Pd': ( 'IDX_UseModRM', 'reg', '%Pd', 'Pd', '', ),
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292 | 'PdZx_WO': ( 'IDX_UseModRM', 'reg', '%Pd', 'PdZx', '', ),
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293 | 'Pq': ( 'IDX_UseModRM', 'reg', '%Pq', 'Pq', '', ),
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294 | 'Pq_WO': ( 'IDX_UseModRM', 'reg', '%Pq', 'Pq', '', ),
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295 | 'Vd': ( 'IDX_UseModRM', 'reg', '%Vd', 'Vd', '', ),
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296 | 'Vd_WO': ( 'IDX_UseModRM', 'reg', '%Vd', 'Vd', '', ),
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297 | 'VdZx_WO': ( 'IDX_UseModRM', 'reg', '%Vd', 'Vd', '', ),
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298 | 'Vdq': ( 'IDX_UseModRM', 'reg', '%Vdq', 'Vdq', '', ),
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299 | 'Vss': ( 'IDX_UseModRM', 'reg', '%Vss', 'Vss', '', ),
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300 | 'Vss_WO': ( 'IDX_UseModRM', 'reg', '%Vss', 'Vss', '', ),
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301 | 'VssZx_WO': ( 'IDX_UseModRM', 'reg', '%Vss', 'Vss', '', ),
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302 | 'Vsd': ( 'IDX_UseModRM', 'reg', '%Vsd', 'Vsd', '', ),
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303 | 'Vsd_WO': ( 'IDX_UseModRM', 'reg', '%Vsd', 'Vsd', '', ),
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304 | 'VsdZx_WO': ( 'IDX_UseModRM', 'reg', '%Vsd', 'Vsd', '', ),
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305 | 'Vps': ( 'IDX_UseModRM', 'reg', '%Vps', 'Vps', '', ),
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306 | 'Vps_WO': ( 'IDX_UseModRM', 'reg', '%Vps', 'Vps', '', ),
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307 | 'Vpd': ( 'IDX_UseModRM', 'reg', '%Vpd', 'Vpd', '', ),
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308 | 'Vpd_WO': ( 'IDX_UseModRM', 'reg', '%Vpd', 'Vpd', '', ),
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309 | 'Vq': ( 'IDX_UseModRM', 'reg', '%Vq', 'Vq', '', ),
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310 | 'Vq_WO': ( 'IDX_UseModRM', 'reg', '%Vq', 'Vq', '', ),
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311 | 'Vdq_WO': ( 'IDX_UseModRM', 'reg', '%Vdq', 'Vdq', '', ),
|
---|
312 | 'VqHi': ( 'IDX_UseModRM', 'reg', '%Vdq', 'VdqHi', '', ),
|
---|
313 | 'VqHi_WO': ( 'IDX_UseModRM', 'reg', '%Vdq', 'VdqHi', '', ),
|
---|
314 | 'VqZx_WO': ( 'IDX_UseModRM', 'reg', '%Vq', 'VqZx', '', ),
|
---|
315 | 'Vx': ( 'IDX_UseModRM', 'reg', '%Vx', 'Vx', '', ),
|
---|
316 | 'Vx_WO': ( 'IDX_UseModRM', 'reg', '%Vx', 'Vx', '', ),
|
---|
317 |
|
---|
318 | # VEX.vvvv
|
---|
319 | 'By': ( 'IDX_UseModRM', 'vvvv', '%By', 'By', 'V', ),
|
---|
320 | 'Hps': ( 'IDX_UseModRM', 'vvvv', '%Hps', 'Hps', 'V', ),
|
---|
321 | 'Hpd': ( 'IDX_UseModRM', 'vvvv', '%Hpd', 'Hpd', 'V', ),
|
---|
322 | 'HssHi': ( 'IDX_UseModRM', 'vvvv', '%Hx', 'HssHi', 'V', ),
|
---|
323 | 'HsdHi': ( 'IDX_UseModRM', 'vvvv', '%Hx', 'HsdHi', 'V', ),
|
---|
324 | 'Hq': ( 'IDX_UseModRM', 'vvvv', '%Hq', 'Hq', 'V', ),
|
---|
325 | 'HqHi': ( 'IDX_UseModRM', 'vvvv', '%Hq', 'HqHi', 'V', ),
|
---|
326 | 'Hx': ( 'IDX_UseModRM', 'vvvv', '%Hx', 'Hx', 'V', ),
|
---|
327 |
|
---|
328 | # Immediate values.
|
---|
329 | 'Ib': ( 'IDX_ParseImmByte', 'imm', '%Ib', 'Ib', '', ), ##< NB! Could be IDX_ParseImmByteSX for some instrs.
|
---|
330 | 'Iw': ( 'IDX_ParseImmUshort', 'imm', '%Iw', 'Iw', '', ),
|
---|
331 | 'Id': ( 'IDX_ParseImmUlong', 'imm', '%Id', 'Id', '', ),
|
---|
332 | 'Iq': ( 'IDX_ParseImmQword', 'imm', '%Iq', 'Iq', '', ),
|
---|
333 | 'Iv': ( 'IDX_ParseImmV', 'imm', '%Iv', 'Iv', '', ), ##< o16: word, o32: dword, o64: qword
|
---|
334 | 'Iz': ( 'IDX_ParseImmZ', 'imm', '%Iz', 'Iz', '', ), ##< o16: word, o32|o64:dword
|
---|
335 |
|
---|
336 | # Address operands (no ModR/M).
|
---|
337 | 'Ob': ( 'IDX_ParseImmAddr', 'imm', '%Ob', 'Ob', '', ),
|
---|
338 | 'Ov': ( 'IDX_ParseImmAddr', 'imm', '%Ov', 'Ov', '', ),
|
---|
339 |
|
---|
340 | # Relative jump targets
|
---|
341 | 'Jb': ( 'IDX_ParseImmBRel', 'imm', '%Jb', 'Jb', '', ),
|
---|
342 | 'Jv': ( 'IDX_ParseImmVRel', 'imm', '%Jv', 'Jv', '', ),
|
---|
343 |
|
---|
344 | # DS:rSI
|
---|
345 | 'Xb': ( 'IDX_ParseXb', 'rSI', '%eSI', 'Xb', '', ),
|
---|
346 | 'Xv': ( 'IDX_ParseXv', 'rSI', '%eSI', 'Xv', '', ),
|
---|
347 | # ES:rDI
|
---|
348 | 'Yb': ( 'IDX_ParseYb', 'rDI', '%eDI', 'Yb', '', ),
|
---|
349 | 'Yv': ( 'IDX_ParseYv', 'rDI', '%eDI', 'Yv', '', ),
|
---|
350 |
|
---|
351 | 'Fv': ( 'IDX_ParseFixedReg', 'rFLAGS', '%Fv', 'Fv', '', ),
|
---|
352 |
|
---|
353 | # Fixed registers.
|
---|
354 | 'AL': ( 'IDX_ParseFixedReg', 'AL', 'al', 'REG_AL', '', ),
|
---|
355 | 'rAX': ( 'IDX_ParseFixedReg', 'rAX', '%eAX', 'REG_EAX', '', ),
|
---|
356 | 'rDX': ( 'IDX_ParseFixedReg', 'rDX', '%eDX', 'REG_EDX', '', ),
|
---|
357 | 'CS': ( 'IDX_ParseFixedReg', 'CS', 'cs', 'REG_CS', '', ), # 8086: push CS
|
---|
358 | 'DS': ( 'IDX_ParseFixedReg', 'DS', 'ds', 'REG_DS', '', ),
|
---|
359 | 'ES': ( 'IDX_ParseFixedReg', 'ES', 'es', 'REG_ES', '', ),
|
---|
360 | 'FS': ( 'IDX_ParseFixedReg', 'FS', 'fs', 'REG_FS', '', ),
|
---|
361 | 'GS': ( 'IDX_ParseFixedReg', 'GS', 'gs', 'REG_GS', '', ),
|
---|
362 | 'SS': ( 'IDX_ParseFixedReg', 'SS', 'ss', 'REG_SS', '', ),
|
---|
363 | };
|
---|
364 |
|
---|
365 | # IDX_ParseFixedReg
|
---|
366 | # IDX_ParseVexDest
|
---|
367 |
|
---|
368 |
|
---|
369 | ## IEMFORM_XXX mappings.
|
---|
370 | g_kdIemForms = { # sEncoding, [ sWhere1, ... ] opcodesub ),
|
---|
371 | 'RM': ( 'ModR/M', [ 'reg', 'rm' ], '', ),
|
---|
372 | 'RM_REG': ( 'ModR/M', [ 'reg', 'rm' ], '11 mr/reg', ),
|
---|
373 | 'RM_MEM': ( 'ModR/M', [ 'reg', 'rm' ], '!11 mr/reg', ),
|
---|
374 | 'RMI': ( 'ModR/M', [ 'reg', 'rm', 'imm' ], '', ),
|
---|
375 | 'RMI_REG': ( 'ModR/M', [ 'reg', 'rm', 'imm' ], '11 mr/reg', ),
|
---|
376 | 'RMI_MEM': ( 'ModR/M', [ 'reg', 'rm', 'imm' ], '!11 mr/reg', ),
|
---|
377 | 'MR': ( 'ModR/M', [ 'rm', 'reg' ], '', ),
|
---|
378 | 'MR_REG': ( 'ModR/M', [ 'rm', 'reg' ], '11 mr/reg', ),
|
---|
379 | 'MR_MEM': ( 'ModR/M', [ 'rm', 'reg' ], '!11 mr/reg', ),
|
---|
380 | 'MRI': ( 'ModR/M', [ 'rm', 'reg', 'imm' ], '', ),
|
---|
381 | 'MRI_REG': ( 'ModR/M', [ 'rm', 'reg', 'imm' ], '11 mr/reg', ),
|
---|
382 | 'MRI_MEM': ( 'ModR/M', [ 'rm', 'reg', 'imm' ], '!11 mr/reg', ),
|
---|
383 | 'M': ( 'ModR/M', [ 'rm', ], '', ),
|
---|
384 | 'M_REG': ( 'ModR/M', [ 'rm', ], '', ),
|
---|
385 | 'M_MEM': ( 'ModR/M', [ 'rm', ], '', ),
|
---|
386 | 'R': ( 'ModR/M', [ 'reg', ], '', ),
|
---|
387 |
|
---|
388 | 'VEX_RM': ( 'VEX.ModR/M', [ 'reg', 'rm' ], '', ),
|
---|
389 | 'VEX_RM_REG': ( 'VEX.ModR/M', [ 'reg', 'rm' ], '11 mr/reg', ),
|
---|
390 | 'VEX_RM_MEM': ( 'VEX.ModR/M', [ 'reg', 'rm' ], '!11 mr/reg', ),
|
---|
391 | 'VEX_MR': ( 'VEX.ModR/M', [ 'rm', 'reg' ], '', ),
|
---|
392 | 'VEX_MR_REG': ( 'VEX.ModR/M', [ 'rm', 'reg' ], '11 mr/reg', ),
|
---|
393 | 'VEX_MR_MEM': ( 'VEX.ModR/M', [ 'rm', 'reg' ], '!11 mr/reg', ),
|
---|
394 | 'VEX_M': ( 'VEX.ModR/M', [ 'rm', ], '' ),
|
---|
395 | 'VEX_M_REG': ( 'VEX.ModR/M', [ 'rm', ], '' ),
|
---|
396 | 'VEX_M_MEM': ( 'VEX.ModR/M', [ 'rm', ], '' ),
|
---|
397 | 'VEX_R': ( 'VEX.ModR/M', [ 'reg', ], '' ),
|
---|
398 | 'VEX_RVM': ( 'VEX.ModR/M', [ 'reg', 'vvvv', 'rm' ], '', ),
|
---|
399 | 'VEX_RVM_REG': ( 'VEX.ModR/M', [ 'reg', 'vvvv', 'rm' ], '11 mr/reg', ),
|
---|
400 | 'VEX_RVM_MEM': ( 'VEX.ModR/M', [ 'reg', 'vvvv', 'rm' ], '!11 mr/reg', ),
|
---|
401 | 'VEX_RMV': ( 'VEX.ModR/M', [ 'reg', 'rm', 'vvvv' ], '', ),
|
---|
402 | 'VEX_RMV_REG': ( 'VEX.ModR/M', [ 'reg', 'rm', 'vvvv' ], '11 mr/reg', ),
|
---|
403 | 'VEX_RMV_MEM': ( 'VEX.ModR/M', [ 'reg', 'rm', 'vvvv' ], '!11 mr/reg', ),
|
---|
404 | 'VEX_RMI': ( 'VEX.ModR/M', [ 'reg', 'rm', 'imm' ], '', ),
|
---|
405 | 'VEX_RMI_REG': ( 'VEX.ModR/M', [ 'reg', 'rm', 'imm' ], '11 mr/reg', ),
|
---|
406 | 'VEX_RMI_MEM': ( 'VEX.ModR/M', [ 'reg', 'rm', 'imm' ], '!11 mr/reg', ),
|
---|
407 | 'VEX_MVR': ( 'VEX.ModR/M', [ 'rm', 'vvvv', 'reg' ], '', ),
|
---|
408 | 'VEX_MVR_REG': ( 'VEX.ModR/M', [ 'rm', 'vvvv', 'reg' ], '11 mr/reg', ),
|
---|
409 | 'VEX_MVR_MEM': ( 'VEX.ModR/M', [ 'rm', 'vvvv', 'reg' ], '!11 mr/reg', ),
|
---|
410 |
|
---|
411 | 'VEX_VM': ( 'VEX.ModR/M', [ 'vvvv', 'rm' ], '', ),
|
---|
412 | 'VEX_VM_REG': ( 'VEX.ModR/M', [ 'vvvv', 'rm' ], '11 mr/reg', ),
|
---|
413 | 'VEX_VM_MEM': ( 'VEX.ModR/M', [ 'vvvv', 'rm' ], '!11 mr/reg', ),
|
---|
414 |
|
---|
415 | 'FIXED': ( 'fixed', None, '', ),
|
---|
416 | };
|
---|
417 |
|
---|
418 | ## \@oppfx values.
|
---|
419 | g_kdPrefixes = {
|
---|
420 | 'none': [],
|
---|
421 | '0x66': [],
|
---|
422 | '0xf3': [],
|
---|
423 | '0xf2': [],
|
---|
424 | };
|
---|
425 |
|
---|
426 | ## Special \@opcode tag values.
|
---|
427 | g_kdSpecialOpcodes = {
|
---|
428 | '/reg': [],
|
---|
429 | 'mr/reg': [],
|
---|
430 | '11 /reg': [],
|
---|
431 | '!11 /reg': [],
|
---|
432 | '11 mr/reg': [],
|
---|
433 | '!11 mr/reg': [],
|
---|
434 | };
|
---|
435 |
|
---|
436 | ## Special \@opcodesub tag values.
|
---|
437 | ## The first value is the real value for aliases.
|
---|
438 | ## The second value is for bs3cg1.
|
---|
439 | g_kdSubOpcodes = {
|
---|
440 | 'none': [ None, '', ],
|
---|
441 | '11 mr/reg': [ '11 mr/reg', '', ],
|
---|
442 | '11': [ '11 mr/reg', '', ], ##< alias
|
---|
443 | '!11 mr/reg': [ '!11 mr/reg', '', ],
|
---|
444 | '!11': [ '!11 mr/reg', '', ], ##< alias
|
---|
445 | 'rex.w=0': [ 'rex.w=0', 'WZ', ],
|
---|
446 | 'w=0': [ 'rex.w=0', '', ], ##< alias
|
---|
447 | 'rex.w=1': [ 'rex.w=1', 'WNZ', ],
|
---|
448 | 'w=1': [ 'rex.w=1', '', ], ##< alias
|
---|
449 | 'vex.l=0': [ 'vex.l=0', 'L0', ],
|
---|
450 | 'vex.l=1': [ 'vex.l=0', 'L1', ],
|
---|
451 | '11 mr/reg vex.l=0': [ '11 mr/reg vex.l=0', 'L0', ],
|
---|
452 | '11 mr/reg vex.l=1': [ '11 mr/reg vex.l=1', 'L1', ],
|
---|
453 | '!11 mr/reg vex.l=0': [ '!11 mr/reg vex.l=0', 'L0', ],
|
---|
454 | '!11 mr/reg vex.l=1': [ '!11 mr/reg vex.l=1', 'L1', ],
|
---|
455 | };
|
---|
456 |
|
---|
457 | ## Valid values for \@openc
|
---|
458 | g_kdEncodings = {
|
---|
459 | 'ModR/M': [ 'BS3CG1ENC_MODRM', ], ##< ModR/M
|
---|
460 | 'VEX.ModR/M': [ 'BS3CG1ENC_VEX_MODRM', ], ##< VEX...ModR/M
|
---|
461 | 'fixed': [ 'BS3CG1ENC_FIXED', ], ##< Fixed encoding (address, registers, unused, etc).
|
---|
462 | 'VEX.fixed': [ 'BS3CG1ENC_VEX_FIXED', ], ##< VEX + fixed encoding (address, registers, unused, etc).
|
---|
463 | 'prefix': [ None, ], ##< Prefix
|
---|
464 | };
|
---|
465 |
|
---|
466 | ## \@opunused, \@opinvalid, \@opinvlstyle
|
---|
467 | g_kdInvalidStyles = {
|
---|
468 | 'immediate': [], ##< CPU stops decoding immediately after the opcode.
|
---|
469 | 'vex.modrm': [], ##< VEX+ModR/M, everyone.
|
---|
470 | 'intel-modrm': [], ##< Intel decodes ModR/M.
|
---|
471 | 'intel-modrm-imm8': [], ##< Intel decodes ModR/M and an 8-byte immediate.
|
---|
472 | 'intel-opcode-modrm': [], ##< Intel decodes another opcode byte followed by ModR/M. (Unused extension tables.)
|
---|
473 | 'intel-opcode-modrm-imm8': [], ##< Intel decodes another opcode byte followed by ModR/M and an 8-byte immediate.
|
---|
474 | };
|
---|
475 |
|
---|
476 | g_kdCpuNames = {
|
---|
477 | '8086': (),
|
---|
478 | '80186': (),
|
---|
479 | '80286': (),
|
---|
480 | '80386': (),
|
---|
481 | '80486': (),
|
---|
482 | };
|
---|
483 |
|
---|
484 | ## \@opcpuid
|
---|
485 | g_kdCpuIdFlags = {
|
---|
486 | 'vme': 'X86_CPUID_FEATURE_EDX_VME',
|
---|
487 | 'tsc': 'X86_CPUID_FEATURE_EDX_TSC',
|
---|
488 | 'msr': 'X86_CPUID_FEATURE_EDX_MSR',
|
---|
489 | 'cx8': 'X86_CPUID_FEATURE_EDX_CX8',
|
---|
490 | 'sep': 'X86_CPUID_FEATURE_EDX_SEP',
|
---|
491 | 'cmov': 'X86_CPUID_FEATURE_EDX_CMOV',
|
---|
492 | 'clfsh': 'X86_CPUID_FEATURE_EDX_CLFSH',
|
---|
493 | 'clflushopt': 'X86_CPUID_STEXT_FEATURE_EBX_CLFLUSHOPT',
|
---|
494 | 'mmx': 'X86_CPUID_FEATURE_EDX_MMX',
|
---|
495 | 'fxsr': 'X86_CPUID_FEATURE_EDX_FXSR',
|
---|
496 | 'sse': 'X86_CPUID_FEATURE_EDX_SSE',
|
---|
497 | 'sse2': 'X86_CPUID_FEATURE_EDX_SSE2',
|
---|
498 | 'sse3': 'X86_CPUID_FEATURE_ECX_SSE3',
|
---|
499 | 'pclmul': 'X86_CPUID_FEATURE_ECX_DTES64',
|
---|
500 | 'monitor': 'X86_CPUID_FEATURE_ECX_CPLDS',
|
---|
501 | 'vmx': 'X86_CPUID_FEATURE_ECX_VMX',
|
---|
502 | 'smx': 'X86_CPUID_FEATURE_ECX_TM2',
|
---|
503 | 'ssse3': 'X86_CPUID_FEATURE_ECX_SSSE3',
|
---|
504 | 'fma': 'X86_CPUID_FEATURE_ECX_FMA',
|
---|
505 | 'cx16': 'X86_CPUID_FEATURE_ECX_CX16',
|
---|
506 | 'pcid': 'X86_CPUID_FEATURE_ECX_PCID',
|
---|
507 | 'sse4.1': 'X86_CPUID_FEATURE_ECX_SSE4_1',
|
---|
508 | 'sse4.2': 'X86_CPUID_FEATURE_ECX_SSE4_2',
|
---|
509 | 'movbe': 'X86_CPUID_FEATURE_ECX_MOVBE',
|
---|
510 | 'popcnt': 'X86_CPUID_FEATURE_ECX_POPCNT',
|
---|
511 | 'aes': 'X86_CPUID_FEATURE_ECX_AES',
|
---|
512 | 'xsave': 'X86_CPUID_FEATURE_ECX_XSAVE',
|
---|
513 | 'avx': 'X86_CPUID_FEATURE_ECX_AVX',
|
---|
514 | 'avx2': 'X86_CPUID_STEXT_FEATURE_EBX_AVX2',
|
---|
515 | 'f16c': 'X86_CPUID_FEATURE_ECX_F16C',
|
---|
516 | 'rdrand': 'X86_CPUID_FEATURE_ECX_RDRAND',
|
---|
517 |
|
---|
518 | 'axmmx': 'X86_CPUID_AMD_FEATURE_EDX_AXMMX',
|
---|
519 | '3dnowext': 'X86_CPUID_AMD_FEATURE_EDX_3DNOW_EX',
|
---|
520 | '3dnow': 'X86_CPUID_AMD_FEATURE_EDX_3DNOW',
|
---|
521 | 'svm': 'X86_CPUID_AMD_FEATURE_ECX_SVM',
|
---|
522 | 'cr8l': 'X86_CPUID_AMD_FEATURE_ECX_CR8L',
|
---|
523 | 'abm': 'X86_CPUID_AMD_FEATURE_ECX_ABM',
|
---|
524 | 'sse4a': 'X86_CPUID_AMD_FEATURE_ECX_SSE4A',
|
---|
525 | '3dnowprf': 'X86_CPUID_AMD_FEATURE_ECX_3DNOWPRF',
|
---|
526 | 'xop': 'X86_CPUID_AMD_FEATURE_ECX_XOP',
|
---|
527 | 'fma4': 'X86_CPUID_AMD_FEATURE_ECX_FMA4',
|
---|
528 | };
|
---|
529 |
|
---|
530 | ## \@ophints values.
|
---|
531 | # pylint: disable=line-too-long
|
---|
532 | g_kdHints = {
|
---|
533 | 'invalid': 'DISOPTYPE_INVALID', ##<
|
---|
534 | 'harmless': 'DISOPTYPE_HARMLESS', ##<
|
---|
535 | 'controlflow': 'DISOPTYPE_CONTROLFLOW', ##<
|
---|
536 | 'potentially_dangerous': 'DISOPTYPE_POTENTIALLY_DANGEROUS', ##<
|
---|
537 | 'dangerous': 'DISOPTYPE_DANGEROUS', ##<
|
---|
538 | 'portio': 'DISOPTYPE_PORTIO', ##<
|
---|
539 | 'privileged': 'DISOPTYPE_PRIVILEGED', ##<
|
---|
540 | 'privileged_notrap': 'DISOPTYPE_PRIVILEGED_NOTRAP', ##<
|
---|
541 | 'uncond_controlflow': 'DISOPTYPE_UNCOND_CONTROLFLOW', ##<
|
---|
542 | 'relative_controlflow': 'DISOPTYPE_RELATIVE_CONTROLFLOW', ##<
|
---|
543 | 'cond_controlflow': 'DISOPTYPE_COND_CONTROLFLOW', ##<
|
---|
544 | 'interrupt': 'DISOPTYPE_INTERRUPT', ##<
|
---|
545 | 'illegal': 'DISOPTYPE_ILLEGAL', ##<
|
---|
546 | 'rrm_dangerous': 'DISOPTYPE_RRM_DANGEROUS', ##< Some additional dangerous ones when recompiling raw r0.
|
---|
547 | 'rrm_dangerous_16': 'DISOPTYPE_RRM_DANGEROUS_16', ##< Some additional dangerous ones when recompiling 16-bit raw r0.
|
---|
548 | 'inhibit_irqs': 'DISOPTYPE_INHIBIT_IRQS', ##< Will or can inhibit irqs (sti, pop ss, mov ss) */
|
---|
549 | 'x86_portio_read': 'DISOPTYPE_X86_PORTIO_READ', ##<
|
---|
550 | 'x86_portio_write': 'DISOPTYPE_X86_PORTIO_WRITE', ##<
|
---|
551 | 'x86_invalid_64': 'DISOPTYPE_X86_INVALID_64', ##< Invalid in 64 bits mode
|
---|
552 | 'x86_only_64': 'DISOPTYPE_X86_ONLY_64', ##< Only valid in 64 bits mode
|
---|
553 | 'x86_default_64_op_size': 'DISOPTYPE_X86_DEFAULT_64_OP_SIZE', ##< Default 64 bits operand size
|
---|
554 | 'x86_forced_64_op_size': 'DISOPTYPE_X86_FORCED_64_OP_SIZE', ##< Forced 64 bits operand size; regardless of prefix bytes
|
---|
555 | 'x86_rexb_extends_opreg': 'DISOPTYPE_X86_REXB_EXTENDS_OPREG', ##< REX.B extends the register field in the opcode byte
|
---|
556 | 'x86_mod_fixed_11': 'DISOPTYPE_X86_MOD_FIXED_11', ##< modrm.mod is always 11b
|
---|
557 | 'x86_forced_32_op_size_x86': 'DISOPTYPE_X86_FORCED_32_OP_SIZE_X86', ##< Forced 32 bits operand size; regardless of prefix bytes
|
---|
558 | ## (only in 16 & 32 bits mode!)
|
---|
559 | 'x86_avx': 'DISOPTYPE_X86_AVX', ##< AVX,AVX2,++ instruction. Not implemented yet!
|
---|
560 | 'x86_sse': 'DISOPTYPE_X86_SSE', ##< SSE,SSE2,SSE3,++ instruction. Not implemented yet!
|
---|
561 | 'x86_mmx': 'DISOPTYPE_X86_MMX', ##< MMX,MMXExt,3DNow,++ instruction. Not implemented yet!
|
---|
562 | 'x86_fpu': 'DISOPTYPE_X86_FPU', ##< FPU instruction. Not implemented yet!
|
---|
563 | 'ignores_oz_pfx': '', ##< Ignores operand size prefix 66h.
|
---|
564 | 'ignores_rexw': '', ##< Ignores REX.W.
|
---|
565 | 'ignores_op_sizes': '', ##< Shorthand for "ignores_oz_pfx | ignores_op_sizes".
|
---|
566 | 'vex_l_zero': '', ##< VEX.L must be 0.
|
---|
567 | 'vex_l_ignored': '', ##< VEX.L is ignored.
|
---|
568 | 'vex_v_zero': '', ##< VEX.V must be 0. (generate sub-table?)
|
---|
569 | 'lock_allowed': '', ##< Lock prefix allowed.
|
---|
570 | };
|
---|
571 | # pylint: enable=line-too-long
|
---|
572 |
|
---|
573 | ## \@opxcpttype values (see SDMv2 2.4, 2.7).
|
---|
574 | g_kdXcptTypes = {
|
---|
575 | 'none': [],
|
---|
576 | '1': [],
|
---|
577 | '2': [],
|
---|
578 | '3': [],
|
---|
579 | '4': [],
|
---|
580 | '4UA': [],
|
---|
581 | '5': [],
|
---|
582 | '5LZ': [], # LZ = VEX.L must be zero.
|
---|
583 | '6': [],
|
---|
584 | '7': [],
|
---|
585 | '7LZ': [],
|
---|
586 | '8': [],
|
---|
587 | '11': [],
|
---|
588 | '12': [],
|
---|
589 | 'E1': [],
|
---|
590 | 'E1NF': [],
|
---|
591 | 'E2': [],
|
---|
592 | 'E3': [],
|
---|
593 | 'E3NF': [],
|
---|
594 | 'E4': [],
|
---|
595 | 'E4NF': [],
|
---|
596 | 'E5': [],
|
---|
597 | 'E5NF': [],
|
---|
598 | 'E6': [],
|
---|
599 | 'E6NF': [],
|
---|
600 | 'E7NF': [],
|
---|
601 | 'E9': [],
|
---|
602 | 'E9NF': [],
|
---|
603 | 'E10': [],
|
---|
604 | 'E11': [],
|
---|
605 | 'E12': [],
|
---|
606 | 'E12NF': [],
|
---|
607 | };
|
---|
608 |
|
---|
609 |
|
---|
610 | def _isValidOpcodeByte(sOpcode):
|
---|
611 | """
|
---|
612 | Checks if sOpcode is a valid lower case opcode byte.
|
---|
613 | Returns true/false.
|
---|
614 | """
|
---|
615 | if len(sOpcode) == 4:
|
---|
616 | if sOpcode[:2] == '0x':
|
---|
617 | if sOpcode[2] in '0123456789abcdef':
|
---|
618 | if sOpcode[3] in '0123456789abcdef':
|
---|
619 | return True;
|
---|
620 | return False;
|
---|
621 |
|
---|
622 |
|
---|
623 | class InstructionMap(object):
|
---|
624 | """
|
---|
625 | Instruction map.
|
---|
626 |
|
---|
627 | The opcode map provides the lead opcode bytes (empty for the one byte
|
---|
628 | opcode map). An instruction can be member of multiple opcode maps as long
|
---|
629 | as it uses the same opcode value within the map (because of VEX).
|
---|
630 | """
|
---|
631 |
|
---|
632 | kdEncodings = {
|
---|
633 | 'legacy': [],
|
---|
634 | 'vex1': [], ##< VEX or EVEX prefix with vvvvv = 1
|
---|
635 | 'vex2': [], ##< VEX or EVEX prefix with vvvvv = 2
|
---|
636 | 'vex3': [], ##< VEX or EVEX prefix with vvvvv = 3
|
---|
637 | 'xop8': [], ##< XOP prefix with vvvvv = 8
|
---|
638 | 'xop9': [], ##< XOP prefix with vvvvv = 9
|
---|
639 | 'xop10': [], ##< XOP prefix with vvvvv = 10
|
---|
640 | };
|
---|
641 | ## Selectors.
|
---|
642 | ## 1. The first value is the number of table entries required by a
|
---|
643 | ## decoder or disassembler for this type of selector.
|
---|
644 | ## 2. The second value is how many entries per opcode byte if applicable.
|
---|
645 | kdSelectors = {
|
---|
646 | 'byte': [ 256, 1, ], ##< next opcode byte selects the instruction (default).
|
---|
647 | 'byte+pfx': [ 1024, 4, ], ##< next opcode byte selects the instruction together with the 0x66, 0xf2 and 0xf3 prefixes.
|
---|
648 | '/r': [ 8, 1, ], ##< modrm.reg selects the instruction.
|
---|
649 | 'memreg /r':[ 16, 1, ], ##< modrm.reg and (modrm.mod == 3) selects the instruction.
|
---|
650 | 'mod /r': [ 32, 1, ], ##< modrm.reg and modrm.mod selects the instruction.
|
---|
651 | '!11 /r': [ 8, 1, ], ##< modrm.reg selects the instruction with modrm.mod != 0y11.
|
---|
652 | '11 /r': [ 8, 1, ], ##< modrm.reg select the instruction with modrm.mod == 0y11.
|
---|
653 | '11': [ 64, 1, ], ##< modrm.reg and modrm.rm select the instruction with modrm.mod == 0y11.
|
---|
654 | };
|
---|
655 |
|
---|
656 | ## Define the subentry number according to the Instruction::sPrefix
|
---|
657 | ## value for 'byte+pfx' selected tables.
|
---|
658 | kiPrefixOrder = {
|
---|
659 | 'none': 0,
|
---|
660 | '0x66': 1,
|
---|
661 | '0xf3': 2,
|
---|
662 | '0xf2': 3,
|
---|
663 | };
|
---|
664 |
|
---|
665 | def __init__(self, sName, sIemName = None, asLeadOpcodes = None, sSelector = 'byte+pfx',
|
---|
666 | sEncoding = 'legacy', sDisParse = None):
|
---|
667 | assert sSelector in self.kdSelectors;
|
---|
668 | assert sEncoding in self.kdEncodings;
|
---|
669 | if asLeadOpcodes is None:
|
---|
670 | asLeadOpcodes = [];
|
---|
671 | else:
|
---|
672 | for sOpcode in asLeadOpcodes:
|
---|
673 | assert _isValidOpcodeByte(sOpcode);
|
---|
674 | assert sDisParse is None or sDisParse.startswith('IDX_Parse');
|
---|
675 |
|
---|
676 | self.sName = sName;
|
---|
677 | self.sIemName = sIemName;
|
---|
678 | self.asLeadOpcodes = asLeadOpcodes; ##< Lead opcode bytes formatted as hex strings like '0x0f'.
|
---|
679 | self.sSelector = sSelector; ##< The member selector, see kdSelectors.
|
---|
680 | self.sEncoding = sEncoding; ##< The encoding, see kdSelectors.
|
---|
681 | self.aoInstructions = [] # type: Instruction
|
---|
682 | self.sDisParse = sDisParse; ##< IDX_ParseXXX.
|
---|
683 |
|
---|
684 | def copy(self, sNewName, sPrefixFilter = None):
|
---|
685 | """
|
---|
686 | Copies the table with filtering instruction by sPrefix if not None.
|
---|
687 | """
|
---|
688 | oCopy = InstructionMap(sNewName, sIemName = self.sIemName, asLeadOpcodes = self.asLeadOpcodes,
|
---|
689 | sSelector = 'byte' if sPrefixFilter is not None and self.sSelector == 'byte+pfx'
|
---|
690 | else self.sSelector,
|
---|
691 | sEncoding = self.sEncoding, sDisParse = self.sDisParse);
|
---|
692 | if sPrefixFilter is None:
|
---|
693 | oCopy.aoInstructions = list(self.aoInstructions);
|
---|
694 | else:
|
---|
695 | oCopy.aoInstructions = [oInstr for oInstr in self.aoInstructions if oInstr.sPrefix == sPrefixFilter];
|
---|
696 | return oCopy;
|
---|
697 |
|
---|
698 | def getTableSize(self):
|
---|
699 | """
|
---|
700 | Number of table entries. This corresponds directly to the selector.
|
---|
701 | """
|
---|
702 | return self.kdSelectors[self.sSelector][0];
|
---|
703 |
|
---|
704 | def getEntriesPerByte(self):
|
---|
705 | """
|
---|
706 | Number of table entries per opcode bytes.
|
---|
707 |
|
---|
708 | This only really makes sense for the 'byte' and 'byte+pfx' selectors, for
|
---|
709 | the others it will just return 1.
|
---|
710 | """
|
---|
711 | return self.kdSelectors[self.sSelector][1];
|
---|
712 |
|
---|
713 | def getInstructionIndex(self, oInstr):
|
---|
714 | """
|
---|
715 | Returns the table index for the instruction.
|
---|
716 | """
|
---|
717 | bOpcode = oInstr.getOpcodeByte();
|
---|
718 |
|
---|
719 | # The byte selectors are simple. We need a full opcode byte and need just return it.
|
---|
720 | if self.sSelector == 'byte':
|
---|
721 | assert oInstr.sOpcode[:2] == '0x' and len(oInstr.sOpcode) == 4, str(oInstr);
|
---|
722 | return bOpcode;
|
---|
723 |
|
---|
724 | # The byte + prefix selector is similarly simple, though requires a prefix as well as the full opcode.
|
---|
725 | if self.sSelector == 'byte+pfx':
|
---|
726 | assert oInstr.sOpcode[:2] == '0x' and len(oInstr.sOpcode) == 4, str(oInstr);
|
---|
727 | assert self.kiPrefixOrder.get(oInstr.sPrefix, -16384) >= 0;
|
---|
728 | return bOpcode * 4 + self.kiPrefixOrder.get(oInstr.sPrefix, -16384);
|
---|
729 |
|
---|
730 | # The other selectors needs masking and shifting.
|
---|
731 | if self.sSelector == '/r':
|
---|
732 | return (bOpcode >> 3) & 0x7;
|
---|
733 |
|
---|
734 | if self.sSelector == 'mod /r':
|
---|
735 | return (bOpcode >> 3) & 0x1f;
|
---|
736 |
|
---|
737 | if self.sSelector == 'memreg /r':
|
---|
738 | return ((bOpcode >> 3) & 0x7) | (int((bOpcode >> 6) == 3) << 3);
|
---|
739 |
|
---|
740 | if self.sSelector == '!11 /r':
|
---|
741 | assert (bOpcode & 0xc0) != 0xc, str(oInstr);
|
---|
742 | return (bOpcode >> 3) & 0x7;
|
---|
743 |
|
---|
744 | if self.sSelector == '11 /r':
|
---|
745 | assert (bOpcode & 0xc0) == 0xc, str(oInstr);
|
---|
746 | return (bOpcode >> 3) & 0x7;
|
---|
747 |
|
---|
748 | if self.sSelector == '11':
|
---|
749 | assert (bOpcode & 0xc0) == 0xc, str(oInstr);
|
---|
750 | return bOpcode & 0x3f;
|
---|
751 |
|
---|
752 | assert False, self.sSelector;
|
---|
753 | return -1;
|
---|
754 |
|
---|
755 | def getInstructionsInTableOrder(self):
|
---|
756 | """
|
---|
757 | Get instructions in table order.
|
---|
758 |
|
---|
759 | Returns array of instructions. Normally there is exactly one
|
---|
760 | instruction per entry. However the entry could also be None if
|
---|
761 | not instruction was specified for that opcode value. Or there
|
---|
762 | could be a list of instructions to deal with special encodings
|
---|
763 | where for instance prefix (e.g. REX.W) encodes a different
|
---|
764 | instruction or different CPUs have different instructions or
|
---|
765 | prefixes in the same place.
|
---|
766 | """
|
---|
767 | # Start with empty table.
|
---|
768 | cTable = self.getTableSize();
|
---|
769 | aoTable = [None] * cTable;
|
---|
770 |
|
---|
771 | # Insert the instructions.
|
---|
772 | for oInstr in self.aoInstructions:
|
---|
773 | if oInstr.sOpcode:
|
---|
774 | idxOpcode = self.getInstructionIndex(oInstr);
|
---|
775 | assert idxOpcode < cTable, str(idxOpcode);
|
---|
776 |
|
---|
777 | oExisting = aoTable[idxOpcode];
|
---|
778 | if oExisting is None:
|
---|
779 | aoTable[idxOpcode] = oInstr;
|
---|
780 | elif not isinstance(oExisting, list):
|
---|
781 | aoTable[idxOpcode] = list([oExisting, oInstr]);
|
---|
782 | else:
|
---|
783 | oExisting.append(oInstr);
|
---|
784 |
|
---|
785 | return aoTable;
|
---|
786 |
|
---|
787 |
|
---|
788 | def getDisasTableName(self):
|
---|
789 | """
|
---|
790 | Returns the disassembler table name for this map.
|
---|
791 | """
|
---|
792 | sName = 'g_aDisas';
|
---|
793 | for sWord in self.sName.split('_'):
|
---|
794 | if sWord == 'm': # suffix indicating modrm.mod==mem
|
---|
795 | sName += '_m';
|
---|
796 | elif sWord == 'r': # suffix indicating modrm.mod==reg
|
---|
797 | sName += '_r';
|
---|
798 | elif len(sWord) == 2 and re.match('^[a-f0-9][a-f0-9]$', sWord):
|
---|
799 | sName += '_' + sWord;
|
---|
800 | else:
|
---|
801 | sWord = sWord.replace('grp', 'Grp');
|
---|
802 | sWord = sWord.replace('map', 'Map');
|
---|
803 | sName += sWord[0].upper() + sWord[1:];
|
---|
804 | return sName;
|
---|
805 |
|
---|
806 | def getDisasRangeName(self):
|
---|
807 | """
|
---|
808 | Returns the disassembler table range name for this map.
|
---|
809 | """
|
---|
810 | return self.getDisasTableName().replace('g_aDisas', 'g_Disas') + 'Range';
|
---|
811 |
|
---|
812 | def isVexMap(self):
|
---|
813 | """ Returns True if a VEX map. """
|
---|
814 | return self.sEncoding.startswith('vex');
|
---|
815 |
|
---|
816 |
|
---|
817 | class TestType(object):
|
---|
818 | """
|
---|
819 | Test value type.
|
---|
820 |
|
---|
821 | This base class deals with integer like values. The fUnsigned constructor
|
---|
822 | parameter indicates the default stance on zero vs sign extending. It is
|
---|
823 | possible to override fUnsigned=True by prefixing the value with '+' or '-'.
|
---|
824 | """
|
---|
825 | def __init__(self, sName, acbSizes = None, fUnsigned = True):
|
---|
826 | self.sName = sName;
|
---|
827 | self.acbSizes = [1, 2, 4, 8, 16, 32] if acbSizes is None else acbSizes; # Normal sizes.
|
---|
828 | self.fUnsigned = fUnsigned;
|
---|
829 |
|
---|
830 | class BadValue(Exception):
|
---|
831 | """ Bad value exception. """
|
---|
832 | def __init__(self, sMessage):
|
---|
833 | Exception.__init__(self, sMessage);
|
---|
834 | self.sMessage = sMessage;
|
---|
835 |
|
---|
836 | ## For ascii ~ operator.
|
---|
837 | kdHexInv = {
|
---|
838 | '0': 'f',
|
---|
839 | '1': 'e',
|
---|
840 | '2': 'd',
|
---|
841 | '3': 'c',
|
---|
842 | '4': 'b',
|
---|
843 | '5': 'a',
|
---|
844 | '6': '9',
|
---|
845 | '7': '8',
|
---|
846 | '8': '7',
|
---|
847 | '9': '6',
|
---|
848 | 'a': '5',
|
---|
849 | 'b': '4',
|
---|
850 | 'c': '3',
|
---|
851 | 'd': '2',
|
---|
852 | 'e': '1',
|
---|
853 | 'f': '0',
|
---|
854 | };
|
---|
855 |
|
---|
856 | def get(self, sValue):
|
---|
857 | """
|
---|
858 | Get the shortest normal sized byte representation of oValue.
|
---|
859 |
|
---|
860 | Returns ((fSignExtend, bytearray), ) or ((fSignExtend, bytearray), (fSignExtend, bytearray), ).
|
---|
861 | The latter form is for AND+OR pairs where the first entry is what to
|
---|
862 | AND with the field and the second the one or OR with.
|
---|
863 |
|
---|
864 | Raises BadValue if invalid value.
|
---|
865 | """
|
---|
866 | if not sValue:
|
---|
867 | raise TestType.BadValue('empty value');
|
---|
868 |
|
---|
869 | # Deal with sign and detect hexadecimal or decimal.
|
---|
870 | fSignExtend = not self.fUnsigned;
|
---|
871 | if sValue[0] == '-' or sValue[0] == '+':
|
---|
872 | fSignExtend = True;
|
---|
873 | fHex = len(sValue) > 3 and sValue[1:3].lower() == '0x';
|
---|
874 | else:
|
---|
875 | fHex = len(sValue) > 2 and sValue[0:2].lower() == '0x';
|
---|
876 |
|
---|
877 | # try convert it to long integer.
|
---|
878 | try:
|
---|
879 | iValue = long(sValue, 16 if fHex else 10);
|
---|
880 | except Exception as oXcpt:
|
---|
881 | raise TestType.BadValue('failed to convert "%s" to integer (%s)' % (sValue, oXcpt));
|
---|
882 |
|
---|
883 | # Convert the hex string and pad it to a decent value. Negative values
|
---|
884 | # needs to be manually converted to something non-negative (~-n + 1).
|
---|
885 | if iValue >= 0:
|
---|
886 | sHex = hex(iValue);
|
---|
887 | if sys.version_info[0] < 3:
|
---|
888 | assert sHex[-1] == 'L';
|
---|
889 | sHex = sHex[:-1];
|
---|
890 | assert sHex[:2] == '0x';
|
---|
891 | sHex = sHex[2:];
|
---|
892 | else:
|
---|
893 | sHex = hex(-iValue - 1);
|
---|
894 | if sys.version_info[0] < 3:
|
---|
895 | assert sHex[-1] == 'L';
|
---|
896 | sHex = sHex[:-1];
|
---|
897 | assert sHex[:2] == '0x';
|
---|
898 | sHex = ''.join([self.kdHexInv[sDigit] for sDigit in sHex[2:]]);
|
---|
899 | if fSignExtend and sHex[0] not in [ '8', '9', 'a', 'b', 'c', 'd', 'e', 'f']:
|
---|
900 | sHex = 'f' + sHex;
|
---|
901 |
|
---|
902 | cDigits = len(sHex);
|
---|
903 | if cDigits <= self.acbSizes[-1] * 2:
|
---|
904 | for cb in self.acbSizes:
|
---|
905 | cNaturalDigits = cb * 2;
|
---|
906 | if cDigits <= cNaturalDigits:
|
---|
907 | break;
|
---|
908 | else:
|
---|
909 | cNaturalDigits = self.acbSizes[-1] * 2;
|
---|
910 | cNaturalDigits = int((cDigits + cNaturalDigits - 1) / cNaturalDigits) * cNaturalDigits;
|
---|
911 | assert isinstance(cNaturalDigits, int)
|
---|
912 |
|
---|
913 | if cNaturalDigits != cDigits:
|
---|
914 | cNeeded = cNaturalDigits - cDigits;
|
---|
915 | if iValue >= 0:
|
---|
916 | sHex = ('0' * cNeeded) + sHex;
|
---|
917 | else:
|
---|
918 | sHex = ('f' * cNeeded) + sHex;
|
---|
919 |
|
---|
920 | # Invert and convert to bytearray and return it.
|
---|
921 | abValue = bytearray([int(sHex[offHex - 2 : offHex], 16) for offHex in range(len(sHex), 0, -2)]);
|
---|
922 |
|
---|
923 | return ((fSignExtend, abValue),);
|
---|
924 |
|
---|
925 | def validate(self, sValue):
|
---|
926 | """
|
---|
927 | Returns True if value is okay, error message on failure.
|
---|
928 | """
|
---|
929 | try:
|
---|
930 | self.get(sValue);
|
---|
931 | except TestType.BadValue as oXcpt:
|
---|
932 | return oXcpt.sMessage;
|
---|
933 | return True;
|
---|
934 |
|
---|
935 | def isAndOrPair(self, sValue):
|
---|
936 | """
|
---|
937 | Checks if sValue is a pair.
|
---|
938 | """
|
---|
939 | _ = sValue;
|
---|
940 | return False;
|
---|
941 |
|
---|
942 |
|
---|
943 | class TestTypeEflags(TestType):
|
---|
944 | """
|
---|
945 | Special value parsing for EFLAGS/RFLAGS/FLAGS.
|
---|
946 | """
|
---|
947 |
|
---|
948 | kdZeroValueFlags = { 'nv': 0, 'pl': 0, 'nz': 0, 'na': 0, 'pe': 0, 'nc': 0, 'di': 0, 'up': 0 };
|
---|
949 |
|
---|
950 | def __init__(self, sName):
|
---|
951 | TestType.__init__(self, sName, acbSizes = [1, 2, 4, 8], fUnsigned = True);
|
---|
952 |
|
---|
953 | def get(self, sValue):
|
---|
954 | fClear = 0;
|
---|
955 | fSet = 0;
|
---|
956 | for sFlag in sValue.split(','):
|
---|
957 | sConstant = g_kdEFlagsMnemonics.get(sFlag, None);
|
---|
958 | if sConstant is None:
|
---|
959 | raise self.BadValue('Unknown flag "%s" in "%s"' % (sFlag, sValue))
|
---|
960 | if sConstant[0] == '!':
|
---|
961 | fClear |= g_kdX86EFlagsConstants[sConstant[1:]];
|
---|
962 | else:
|
---|
963 | fSet |= g_kdX86EFlagsConstants[sConstant];
|
---|
964 |
|
---|
965 | aoSet = TestType.get(self, '0x%x' % (fSet,));
|
---|
966 | if fClear != 0:
|
---|
967 | aoClear = TestType.get(self, '%#x' % (fClear,))
|
---|
968 | assert self.isAndOrPair(sValue) is True;
|
---|
969 | return (aoClear[0], aoSet[0]);
|
---|
970 | assert self.isAndOrPair(sValue) is False;
|
---|
971 | return aoSet;
|
---|
972 |
|
---|
973 | def isAndOrPair(self, sValue):
|
---|
974 | for sZeroFlag in self.kdZeroValueFlags:
|
---|
975 | if sValue.find(sZeroFlag) >= 0:
|
---|
976 | return True;
|
---|
977 | return False;
|
---|
978 |
|
---|
979 | class TestTypeFromDict(TestType):
|
---|
980 | """
|
---|
981 | Special value parsing for CR0.
|
---|
982 | """
|
---|
983 |
|
---|
984 | kdZeroValueFlags = { 'nv': 0, 'pl': 0, 'nz': 0, 'na': 0, 'pe': 0, 'nc': 0, 'di': 0, 'up': 0 };
|
---|
985 |
|
---|
986 | def __init__(self, sName, kdConstantsAndValues, sConstantPrefix):
|
---|
987 | TestType.__init__(self, sName, acbSizes = [1, 2, 4, 8], fUnsigned = True);
|
---|
988 | self.kdConstantsAndValues = kdConstantsAndValues;
|
---|
989 | self.sConstantPrefix = sConstantPrefix;
|
---|
990 |
|
---|
991 | def get(self, sValue):
|
---|
992 | fValue = 0;
|
---|
993 | for sFlag in sValue.split(','):
|
---|
994 | fFlagValue = self.kdConstantsAndValues.get(self.sConstantPrefix + sFlag.upper(), None);
|
---|
995 | if fFlagValue is None:
|
---|
996 | raise self.BadValue('Unknown flag "%s" in "%s"' % (sFlag, sValue))
|
---|
997 | fValue |= fFlagValue;
|
---|
998 | return TestType.get(self, '0x%x' % (fValue,));
|
---|
999 |
|
---|
1000 |
|
---|
1001 | class TestInOut(object):
|
---|
1002 | """
|
---|
1003 | One input or output state modifier.
|
---|
1004 |
|
---|
1005 | This should be thought as values to modify BS3REGCTX and extended (needs
|
---|
1006 | to be structured) state.
|
---|
1007 | """
|
---|
1008 | ## Assigned operators.
|
---|
1009 | kasOperators = [
|
---|
1010 | '&|=', # Special AND(INV)+OR operator for use with EFLAGS.
|
---|
1011 | '&~=',
|
---|
1012 | '&=',
|
---|
1013 | '|=',
|
---|
1014 | '='
|
---|
1015 | ];
|
---|
1016 | ## Types
|
---|
1017 | kdTypes = {
|
---|
1018 | 'uint': TestType('uint', fUnsigned = True),
|
---|
1019 | 'int': TestType('int'),
|
---|
1020 | 'efl': TestTypeEflags('efl'),
|
---|
1021 | 'cr0': TestTypeFromDict('cr0', g_kdX86Cr0Constants, 'X86_CR0_'),
|
---|
1022 | 'cr4': TestTypeFromDict('cr4', g_kdX86Cr4Constants, 'X86_CR4_'),
|
---|
1023 | 'xcr0': TestTypeFromDict('xcr0', g_kdX86XSaveCConstants, 'XSAVE_C_'),
|
---|
1024 | };
|
---|
1025 | ## CPU context fields.
|
---|
1026 | kdFields = {
|
---|
1027 | # name: ( default type, [both|input|output], )
|
---|
1028 | # Operands.
|
---|
1029 | 'op1': ( 'uint', 'both', ), ## \@op1
|
---|
1030 | 'op2': ( 'uint', 'both', ), ## \@op2
|
---|
1031 | 'op3': ( 'uint', 'both', ), ## \@op3
|
---|
1032 | 'op4': ( 'uint', 'both', ), ## \@op4
|
---|
1033 | # Flags.
|
---|
1034 | 'efl': ( 'efl', 'both', ),
|
---|
1035 | 'efl_undef': ( 'uint', 'output', ),
|
---|
1036 | # 8-bit GPRs.
|
---|
1037 | 'al': ( 'uint', 'both', ),
|
---|
1038 | 'cl': ( 'uint', 'both', ),
|
---|
1039 | 'dl': ( 'uint', 'both', ),
|
---|
1040 | 'bl': ( 'uint', 'both', ),
|
---|
1041 | 'ah': ( 'uint', 'both', ),
|
---|
1042 | 'ch': ( 'uint', 'both', ),
|
---|
1043 | 'dh': ( 'uint', 'both', ),
|
---|
1044 | 'bh': ( 'uint', 'both', ),
|
---|
1045 | 'r8l': ( 'uint', 'both', ),
|
---|
1046 | 'r9l': ( 'uint', 'both', ),
|
---|
1047 | 'r10l': ( 'uint', 'both', ),
|
---|
1048 | 'r11l': ( 'uint', 'both', ),
|
---|
1049 | 'r12l': ( 'uint', 'both', ),
|
---|
1050 | 'r13l': ( 'uint', 'both', ),
|
---|
1051 | 'r14l': ( 'uint', 'both', ),
|
---|
1052 | 'r15l': ( 'uint', 'both', ),
|
---|
1053 | # 16-bit GPRs.
|
---|
1054 | 'ax': ( 'uint', 'both', ),
|
---|
1055 | 'dx': ( 'uint', 'both', ),
|
---|
1056 | 'cx': ( 'uint', 'both', ),
|
---|
1057 | 'bx': ( 'uint', 'both', ),
|
---|
1058 | 'sp': ( 'uint', 'both', ),
|
---|
1059 | 'bp': ( 'uint', 'both', ),
|
---|
1060 | 'si': ( 'uint', 'both', ),
|
---|
1061 | 'di': ( 'uint', 'both', ),
|
---|
1062 | 'r8w': ( 'uint', 'both', ),
|
---|
1063 | 'r9w': ( 'uint', 'both', ),
|
---|
1064 | 'r10w': ( 'uint', 'both', ),
|
---|
1065 | 'r11w': ( 'uint', 'both', ),
|
---|
1066 | 'r12w': ( 'uint', 'both', ),
|
---|
1067 | 'r13w': ( 'uint', 'both', ),
|
---|
1068 | 'r14w': ( 'uint', 'both', ),
|
---|
1069 | 'r15w': ( 'uint', 'both', ),
|
---|
1070 | # 32-bit GPRs.
|
---|
1071 | 'eax': ( 'uint', 'both', ),
|
---|
1072 | 'edx': ( 'uint', 'both', ),
|
---|
1073 | 'ecx': ( 'uint', 'both', ),
|
---|
1074 | 'ebx': ( 'uint', 'both', ),
|
---|
1075 | 'esp': ( 'uint', 'both', ),
|
---|
1076 | 'ebp': ( 'uint', 'both', ),
|
---|
1077 | 'esi': ( 'uint', 'both', ),
|
---|
1078 | 'edi': ( 'uint', 'both', ),
|
---|
1079 | 'r8d': ( 'uint', 'both', ),
|
---|
1080 | 'r9d': ( 'uint', 'both', ),
|
---|
1081 | 'r10d': ( 'uint', 'both', ),
|
---|
1082 | 'r11d': ( 'uint', 'both', ),
|
---|
1083 | 'r12d': ( 'uint', 'both', ),
|
---|
1084 | 'r13d': ( 'uint', 'both', ),
|
---|
1085 | 'r14d': ( 'uint', 'both', ),
|
---|
1086 | 'r15d': ( 'uint', 'both', ),
|
---|
1087 | # 64-bit GPRs.
|
---|
1088 | 'rax': ( 'uint', 'both', ),
|
---|
1089 | 'rdx': ( 'uint', 'both', ),
|
---|
1090 | 'rcx': ( 'uint', 'both', ),
|
---|
1091 | 'rbx': ( 'uint', 'both', ),
|
---|
1092 | 'rsp': ( 'uint', 'both', ),
|
---|
1093 | 'rbp': ( 'uint', 'both', ),
|
---|
1094 | 'rsi': ( 'uint', 'both', ),
|
---|
1095 | 'rdi': ( 'uint', 'both', ),
|
---|
1096 | 'r8': ( 'uint', 'both', ),
|
---|
1097 | 'r9': ( 'uint', 'both', ),
|
---|
1098 | 'r10': ( 'uint', 'both', ),
|
---|
1099 | 'r11': ( 'uint', 'both', ),
|
---|
1100 | 'r12': ( 'uint', 'both', ),
|
---|
1101 | 'r13': ( 'uint', 'both', ),
|
---|
1102 | 'r14': ( 'uint', 'both', ),
|
---|
1103 | 'r15': ( 'uint', 'both', ),
|
---|
1104 | # 16-bit, 32-bit or 64-bit registers according to operand size.
|
---|
1105 | 'oz.rax': ( 'uint', 'both', ),
|
---|
1106 | 'oz.rdx': ( 'uint', 'both', ),
|
---|
1107 | 'oz.rcx': ( 'uint', 'both', ),
|
---|
1108 | 'oz.rbx': ( 'uint', 'both', ),
|
---|
1109 | 'oz.rsp': ( 'uint', 'both', ),
|
---|
1110 | 'oz.rbp': ( 'uint', 'both', ),
|
---|
1111 | 'oz.rsi': ( 'uint', 'both', ),
|
---|
1112 | 'oz.rdi': ( 'uint', 'both', ),
|
---|
1113 | 'oz.r8': ( 'uint', 'both', ),
|
---|
1114 | 'oz.r9': ( 'uint', 'both', ),
|
---|
1115 | 'oz.r10': ( 'uint', 'both', ),
|
---|
1116 | 'oz.r11': ( 'uint', 'both', ),
|
---|
1117 | 'oz.r12': ( 'uint', 'both', ),
|
---|
1118 | 'oz.r13': ( 'uint', 'both', ),
|
---|
1119 | 'oz.r14': ( 'uint', 'both', ),
|
---|
1120 | 'oz.r15': ( 'uint', 'both', ),
|
---|
1121 | # Control registers.
|
---|
1122 | 'cr0': ( 'cr0', 'both', ),
|
---|
1123 | 'cr4': ( 'cr4', 'both', ),
|
---|
1124 | 'xcr0': ( 'xcr0', 'both', ),
|
---|
1125 | # FPU Registers
|
---|
1126 | 'fcw': ( 'uint', 'both', ),
|
---|
1127 | 'fsw': ( 'uint', 'both', ),
|
---|
1128 | 'ftw': ( 'uint', 'both', ),
|
---|
1129 | 'fop': ( 'uint', 'both', ),
|
---|
1130 | 'fpuip': ( 'uint', 'both', ),
|
---|
1131 | 'fpucs': ( 'uint', 'both', ),
|
---|
1132 | 'fpudp': ( 'uint', 'both', ),
|
---|
1133 | 'fpuds': ( 'uint', 'both', ),
|
---|
1134 | 'mxcsr': ( 'uint', 'both', ),
|
---|
1135 | 'st0': ( 'uint', 'both', ),
|
---|
1136 | 'st1': ( 'uint', 'both', ),
|
---|
1137 | 'st2': ( 'uint', 'both', ),
|
---|
1138 | 'st3': ( 'uint', 'both', ),
|
---|
1139 | 'st4': ( 'uint', 'both', ),
|
---|
1140 | 'st5': ( 'uint', 'both', ),
|
---|
1141 | 'st6': ( 'uint', 'both', ),
|
---|
1142 | 'st7': ( 'uint', 'both', ),
|
---|
1143 | # MMX registers.
|
---|
1144 | 'mm0': ( 'uint', 'both', ),
|
---|
1145 | 'mm1': ( 'uint', 'both', ),
|
---|
1146 | 'mm2': ( 'uint', 'both', ),
|
---|
1147 | 'mm3': ( 'uint', 'both', ),
|
---|
1148 | 'mm4': ( 'uint', 'both', ),
|
---|
1149 | 'mm5': ( 'uint', 'both', ),
|
---|
1150 | 'mm6': ( 'uint', 'both', ),
|
---|
1151 | 'mm7': ( 'uint', 'both', ),
|
---|
1152 | # SSE registers.
|
---|
1153 | 'xmm0': ( 'uint', 'both', ),
|
---|
1154 | 'xmm1': ( 'uint', 'both', ),
|
---|
1155 | 'xmm2': ( 'uint', 'both', ),
|
---|
1156 | 'xmm3': ( 'uint', 'both', ),
|
---|
1157 | 'xmm4': ( 'uint', 'both', ),
|
---|
1158 | 'xmm5': ( 'uint', 'both', ),
|
---|
1159 | 'xmm6': ( 'uint', 'both', ),
|
---|
1160 | 'xmm7': ( 'uint', 'both', ),
|
---|
1161 | 'xmm8': ( 'uint', 'both', ),
|
---|
1162 | 'xmm9': ( 'uint', 'both', ),
|
---|
1163 | 'xmm10': ( 'uint', 'both', ),
|
---|
1164 | 'xmm11': ( 'uint', 'both', ),
|
---|
1165 | 'xmm12': ( 'uint', 'both', ),
|
---|
1166 | 'xmm13': ( 'uint', 'both', ),
|
---|
1167 | 'xmm14': ( 'uint', 'both', ),
|
---|
1168 | 'xmm15': ( 'uint', 'both', ),
|
---|
1169 | 'xmm0.lo': ( 'uint', 'both', ),
|
---|
1170 | 'xmm1.lo': ( 'uint', 'both', ),
|
---|
1171 | 'xmm2.lo': ( 'uint', 'both', ),
|
---|
1172 | 'xmm3.lo': ( 'uint', 'both', ),
|
---|
1173 | 'xmm4.lo': ( 'uint', 'both', ),
|
---|
1174 | 'xmm5.lo': ( 'uint', 'both', ),
|
---|
1175 | 'xmm6.lo': ( 'uint', 'both', ),
|
---|
1176 | 'xmm7.lo': ( 'uint', 'both', ),
|
---|
1177 | 'xmm8.lo': ( 'uint', 'both', ),
|
---|
1178 | 'xmm9.lo': ( 'uint', 'both', ),
|
---|
1179 | 'xmm10.lo': ( 'uint', 'both', ),
|
---|
1180 | 'xmm11.lo': ( 'uint', 'both', ),
|
---|
1181 | 'xmm12.lo': ( 'uint', 'both', ),
|
---|
1182 | 'xmm13.lo': ( 'uint', 'both', ),
|
---|
1183 | 'xmm14.lo': ( 'uint', 'both', ),
|
---|
1184 | 'xmm15.lo': ( 'uint', 'both', ),
|
---|
1185 | 'xmm0.hi': ( 'uint', 'both', ),
|
---|
1186 | 'xmm1.hi': ( 'uint', 'both', ),
|
---|
1187 | 'xmm2.hi': ( 'uint', 'both', ),
|
---|
1188 | 'xmm3.hi': ( 'uint', 'both', ),
|
---|
1189 | 'xmm4.hi': ( 'uint', 'both', ),
|
---|
1190 | 'xmm5.hi': ( 'uint', 'both', ),
|
---|
1191 | 'xmm6.hi': ( 'uint', 'both', ),
|
---|
1192 | 'xmm7.hi': ( 'uint', 'both', ),
|
---|
1193 | 'xmm8.hi': ( 'uint', 'both', ),
|
---|
1194 | 'xmm9.hi': ( 'uint', 'both', ),
|
---|
1195 | 'xmm10.hi': ( 'uint', 'both', ),
|
---|
1196 | 'xmm11.hi': ( 'uint', 'both', ),
|
---|
1197 | 'xmm12.hi': ( 'uint', 'both', ),
|
---|
1198 | 'xmm13.hi': ( 'uint', 'both', ),
|
---|
1199 | 'xmm14.hi': ( 'uint', 'both', ),
|
---|
1200 | 'xmm15.hi': ( 'uint', 'both', ),
|
---|
1201 | 'xmm0.lo.zx': ( 'uint', 'both', ),
|
---|
1202 | 'xmm1.lo.zx': ( 'uint', 'both', ),
|
---|
1203 | 'xmm2.lo.zx': ( 'uint', 'both', ),
|
---|
1204 | 'xmm3.lo.zx': ( 'uint', 'both', ),
|
---|
1205 | 'xmm4.lo.zx': ( 'uint', 'both', ),
|
---|
1206 | 'xmm5.lo.zx': ( 'uint', 'both', ),
|
---|
1207 | 'xmm6.lo.zx': ( 'uint', 'both', ),
|
---|
1208 | 'xmm7.lo.zx': ( 'uint', 'both', ),
|
---|
1209 | 'xmm8.lo.zx': ( 'uint', 'both', ),
|
---|
1210 | 'xmm9.lo.zx': ( 'uint', 'both', ),
|
---|
1211 | 'xmm10.lo.zx': ( 'uint', 'both', ),
|
---|
1212 | 'xmm11.lo.zx': ( 'uint', 'both', ),
|
---|
1213 | 'xmm12.lo.zx': ( 'uint', 'both', ),
|
---|
1214 | 'xmm13.lo.zx': ( 'uint', 'both', ),
|
---|
1215 | 'xmm14.lo.zx': ( 'uint', 'both', ),
|
---|
1216 | 'xmm15.lo.zx': ( 'uint', 'both', ),
|
---|
1217 | 'xmm0.dw0': ( 'uint', 'both', ),
|
---|
1218 | 'xmm1.dw0': ( 'uint', 'both', ),
|
---|
1219 | 'xmm2.dw0': ( 'uint', 'both', ),
|
---|
1220 | 'xmm3.dw0': ( 'uint', 'both', ),
|
---|
1221 | 'xmm4.dw0': ( 'uint', 'both', ),
|
---|
1222 | 'xmm5.dw0': ( 'uint', 'both', ),
|
---|
1223 | 'xmm6.dw0': ( 'uint', 'both', ),
|
---|
1224 | 'xmm7.dw0': ( 'uint', 'both', ),
|
---|
1225 | 'xmm8.dw0': ( 'uint', 'both', ),
|
---|
1226 | 'xmm9.dw0': ( 'uint', 'both', ),
|
---|
1227 | 'xmm10.dw0': ( 'uint', 'both', ),
|
---|
1228 | 'xmm11.dw0': ( 'uint', 'both', ),
|
---|
1229 | 'xmm12.dw0': ( 'uint', 'both', ),
|
---|
1230 | 'xmm13.dw0': ( 'uint', 'both', ),
|
---|
1231 | 'xmm14.dw0': ( 'uint', 'both', ),
|
---|
1232 | 'xmm15_dw0': ( 'uint', 'both', ),
|
---|
1233 | # AVX registers.
|
---|
1234 | 'ymm0': ( 'uint', 'both', ),
|
---|
1235 | 'ymm1': ( 'uint', 'both', ),
|
---|
1236 | 'ymm2': ( 'uint', 'both', ),
|
---|
1237 | 'ymm3': ( 'uint', 'both', ),
|
---|
1238 | 'ymm4': ( 'uint', 'both', ),
|
---|
1239 | 'ymm5': ( 'uint', 'both', ),
|
---|
1240 | 'ymm6': ( 'uint', 'both', ),
|
---|
1241 | 'ymm7': ( 'uint', 'both', ),
|
---|
1242 | 'ymm8': ( 'uint', 'both', ),
|
---|
1243 | 'ymm9': ( 'uint', 'both', ),
|
---|
1244 | 'ymm10': ( 'uint', 'both', ),
|
---|
1245 | 'ymm11': ( 'uint', 'both', ),
|
---|
1246 | 'ymm12': ( 'uint', 'both', ),
|
---|
1247 | 'ymm13': ( 'uint', 'both', ),
|
---|
1248 | 'ymm14': ( 'uint', 'both', ),
|
---|
1249 | 'ymm15': ( 'uint', 'both', ),
|
---|
1250 |
|
---|
1251 | # Special ones.
|
---|
1252 | 'value.xcpt': ( 'uint', 'output', ),
|
---|
1253 | };
|
---|
1254 |
|
---|
1255 | def __init__(self, sField, sOp, sValue, sType):
|
---|
1256 | assert sField in self.kdFields;
|
---|
1257 | assert sOp in self.kasOperators;
|
---|
1258 | self.sField = sField;
|
---|
1259 | self.sOp = sOp;
|
---|
1260 | self.sValue = sValue;
|
---|
1261 | self.sType = sType;
|
---|
1262 | assert isinstance(sField, str);
|
---|
1263 | assert isinstance(sOp, str);
|
---|
1264 | assert isinstance(sType, str);
|
---|
1265 | assert isinstance(sValue, str);
|
---|
1266 |
|
---|
1267 |
|
---|
1268 | class TestSelector(object):
|
---|
1269 | """
|
---|
1270 | One selector for an instruction test.
|
---|
1271 | """
|
---|
1272 | ## Selector compare operators.
|
---|
1273 | kasCompareOps = [ '==', '!=' ];
|
---|
1274 | ## Selector variables and their valid values.
|
---|
1275 | kdVariables = {
|
---|
1276 | # Operand size.
|
---|
1277 | 'size': {
|
---|
1278 | 'o16': 'size_o16',
|
---|
1279 | 'o32': 'size_o32',
|
---|
1280 | 'o64': 'size_o64',
|
---|
1281 | },
|
---|
1282 | # VEX.L value.
|
---|
1283 | 'vex.l': {
|
---|
1284 | '0': 'vexl_0',
|
---|
1285 | '1': 'vexl_1',
|
---|
1286 | },
|
---|
1287 | # Execution ring.
|
---|
1288 | 'ring': {
|
---|
1289 | '0': 'ring_0',
|
---|
1290 | '1': 'ring_1',
|
---|
1291 | '2': 'ring_2',
|
---|
1292 | '3': 'ring_3',
|
---|
1293 | '0..2': 'ring_0_thru_2',
|
---|
1294 | '1..3': 'ring_1_thru_3',
|
---|
1295 | },
|
---|
1296 | # Basic code mode.
|
---|
1297 | 'codebits': {
|
---|
1298 | '64': 'code_64bit',
|
---|
1299 | '32': 'code_32bit',
|
---|
1300 | '16': 'code_16bit',
|
---|
1301 | },
|
---|
1302 | # cpu modes.
|
---|
1303 | 'mode': {
|
---|
1304 | 'real': 'mode_real',
|
---|
1305 | 'prot': 'mode_prot',
|
---|
1306 | 'long': 'mode_long',
|
---|
1307 | 'v86': 'mode_v86',
|
---|
1308 | 'smm': 'mode_smm',
|
---|
1309 | 'vmx': 'mode_vmx',
|
---|
1310 | 'svm': 'mode_svm',
|
---|
1311 | },
|
---|
1312 | # paging on/off
|
---|
1313 | 'paging': {
|
---|
1314 | 'on': 'paging_on',
|
---|
1315 | 'off': 'paging_off',
|
---|
1316 | },
|
---|
1317 | # CPU vendor
|
---|
1318 | 'vendor': {
|
---|
1319 | 'amd': 'vendor_amd',
|
---|
1320 | 'intel': 'vendor_intel',
|
---|
1321 | 'via': 'vendor_via',
|
---|
1322 | },
|
---|
1323 | };
|
---|
1324 | ## Selector shorthand predicates.
|
---|
1325 | ## These translates into variable expressions.
|
---|
1326 | kdPredicates = {
|
---|
1327 | 'o16': 'size==o16',
|
---|
1328 | 'o32': 'size==o32',
|
---|
1329 | 'o64': 'size==o64',
|
---|
1330 | 'ring0': 'ring==0',
|
---|
1331 | '!ring0': 'ring==1..3',
|
---|
1332 | 'ring1': 'ring==1',
|
---|
1333 | 'ring2': 'ring==2',
|
---|
1334 | 'ring3': 'ring==3',
|
---|
1335 | 'user': 'ring==3',
|
---|
1336 | 'supervisor': 'ring==0..2',
|
---|
1337 | '16-bit': 'codebits==16',
|
---|
1338 | '32-bit': 'codebits==32',
|
---|
1339 | '64-bit': 'codebits==64',
|
---|
1340 | 'real': 'mode==real',
|
---|
1341 | 'prot': 'mode==prot',
|
---|
1342 | 'long': 'mode==long',
|
---|
1343 | 'v86': 'mode==v86',
|
---|
1344 | 'smm': 'mode==smm',
|
---|
1345 | 'vmx': 'mode==vmx',
|
---|
1346 | 'svm': 'mode==svm',
|
---|
1347 | 'paging': 'paging==on',
|
---|
1348 | '!paging': 'paging==off',
|
---|
1349 | 'amd': 'vendor==amd',
|
---|
1350 | '!amd': 'vendor!=amd',
|
---|
1351 | 'intel': 'vendor==intel',
|
---|
1352 | '!intel': 'vendor!=intel',
|
---|
1353 | 'via': 'vendor==via',
|
---|
1354 | '!via': 'vendor!=via',
|
---|
1355 | };
|
---|
1356 |
|
---|
1357 | def __init__(self, sVariable, sOp, sValue):
|
---|
1358 | assert sVariable in self.kdVariables;
|
---|
1359 | assert sOp in self.kasCompareOps;
|
---|
1360 | assert sValue in self.kdVariables[sVariable];
|
---|
1361 | self.sVariable = sVariable;
|
---|
1362 | self.sOp = sOp;
|
---|
1363 | self.sValue = sValue;
|
---|
1364 |
|
---|
1365 |
|
---|
1366 | class InstructionTest(object):
|
---|
1367 | """
|
---|
1368 | Instruction test.
|
---|
1369 | """
|
---|
1370 |
|
---|
1371 | def __init__(self, oInstr): # type: (InstructionTest, Instruction)
|
---|
1372 | self.oInstr = oInstr # type: InstructionTest
|
---|
1373 | self.aoInputs = [] # type: List[TestInOut]
|
---|
1374 | self.aoOutputs = [] # type: List[TestInOut]
|
---|
1375 | self.aoSelectors = [] # type: List[TestSelector]
|
---|
1376 |
|
---|
1377 | def toString(self, fRepr = False):
|
---|
1378 | """
|
---|
1379 | Converts it to string representation.
|
---|
1380 | """
|
---|
1381 | asWords = [];
|
---|
1382 | if self.aoSelectors:
|
---|
1383 | for oSelector in self.aoSelectors:
|
---|
1384 | asWords.append('%s%s%s' % (oSelector.sVariable, oSelector.sOp, oSelector.sValue,));
|
---|
1385 | asWords.append('/');
|
---|
1386 |
|
---|
1387 | for oModifier in self.aoInputs:
|
---|
1388 | asWords.append('%s%s%s:%s' % (oModifier.sField, oModifier.sOp, oModifier.sValue, oModifier.sType,));
|
---|
1389 |
|
---|
1390 | asWords.append('->');
|
---|
1391 |
|
---|
1392 | for oModifier in self.aoOutputs:
|
---|
1393 | asWords.append('%s%s%s:%s' % (oModifier.sField, oModifier.sOp, oModifier.sValue, oModifier.sType,));
|
---|
1394 |
|
---|
1395 | if fRepr:
|
---|
1396 | return '<' + ' '.join(asWords) + '>';
|
---|
1397 | return ' '.join(asWords);
|
---|
1398 |
|
---|
1399 | def __str__(self):
|
---|
1400 | """ Provide string represenation. """
|
---|
1401 | return self.toString(False);
|
---|
1402 |
|
---|
1403 | def __repr__(self):
|
---|
1404 | """ Provide unambigious string representation. """
|
---|
1405 | return self.toString(True);
|
---|
1406 |
|
---|
1407 | class Operand(object):
|
---|
1408 | """
|
---|
1409 | Instruction operand.
|
---|
1410 | """
|
---|
1411 |
|
---|
1412 | def __init__(self, sWhere, sType):
|
---|
1413 | assert sWhere in g_kdOpLocations, sWhere;
|
---|
1414 | assert sType in g_kdOpTypes, sType;
|
---|
1415 | self.sWhere = sWhere; ##< g_kdOpLocations
|
---|
1416 | self.sType = sType; ##< g_kdOpTypes
|
---|
1417 |
|
---|
1418 | def usesModRM(self):
|
---|
1419 | """ Returns True if using some form of ModR/M encoding. """
|
---|
1420 | return self.sType[0] in ['E', 'G', 'M'];
|
---|
1421 |
|
---|
1422 |
|
---|
1423 |
|
---|
1424 | class Instruction(object): # pylint: disable=too-many-instance-attributes
|
---|
1425 | """
|
---|
1426 | Instruction.
|
---|
1427 | """
|
---|
1428 |
|
---|
1429 | def __init__(self, sSrcFile, iLine):
|
---|
1430 | ## @name Core attributes.
|
---|
1431 | ## @{
|
---|
1432 | self.oParent = None # type: Instruction
|
---|
1433 | self.sMnemonic = None;
|
---|
1434 | self.sBrief = None;
|
---|
1435 | self.asDescSections = [] # type: List[str]
|
---|
1436 | self.aoMaps = [] # type: List[InstructionMap]
|
---|
1437 | self.aoOperands = [] # type: List[Operand]
|
---|
1438 | self.sPrefix = None; ##< Single prefix: None, 'none', 0x66, 0xf3, 0xf2
|
---|
1439 | self.sOpcode = None # type: str
|
---|
1440 | self.sSubOpcode = None # type: str
|
---|
1441 | self.sEncoding = None;
|
---|
1442 | self.asFlTest = None;
|
---|
1443 | self.asFlModify = None;
|
---|
1444 | self.asFlUndefined = None;
|
---|
1445 | self.asFlSet = None;
|
---|
1446 | self.asFlClear = None;
|
---|
1447 | self.dHints = {}; ##< Dictionary of instruction hints, flags, whatnot. (Dictionary for speed; dummy value).
|
---|
1448 | self.sDisEnum = None; ##< OP_XXXX value. Default is based on the uppercased mnemonic.
|
---|
1449 | self.asCpuIds = []; ##< The CPUID feature bit names for this instruction. If multiple, assume AND.
|
---|
1450 | self.asReqFeatures = []; ##< Which features are required to be enabled to run this instruction.
|
---|
1451 | self.aoTests = [] # type: List[InstructionTest]
|
---|
1452 | self.sMinCpu = None; ##< Indicates the minimum CPU required for the instruction. Not set when oCpuExpr is.
|
---|
1453 | self.oCpuExpr = None; ##< Some CPU restriction expression...
|
---|
1454 | self.sGroup = None;
|
---|
1455 | self.fUnused = False; ##< Unused instruction.
|
---|
1456 | self.fInvalid = False; ##< Invalid instruction (like UD2).
|
---|
1457 | self.sInvalidStyle = None; ##< Invalid behviour style (g_kdInvalidStyles),
|
---|
1458 | self.sXcptType = None; ##< Exception type (g_kdXcptTypes).
|
---|
1459 | ## @}
|
---|
1460 |
|
---|
1461 | ## @name Implementation attributes.
|
---|
1462 | ## @{
|
---|
1463 | self.sStats = None;
|
---|
1464 | self.sFunction = None;
|
---|
1465 | self.fStub = False;
|
---|
1466 | self.fUdStub = False;
|
---|
1467 | ## @}
|
---|
1468 |
|
---|
1469 | ## @name Decoding info
|
---|
1470 | ## @{
|
---|
1471 | self.sSrcFile = sSrcFile;
|
---|
1472 | self.iLineCreated = iLine;
|
---|
1473 | self.iLineCompleted = None;
|
---|
1474 | self.cOpTags = 0;
|
---|
1475 | self.iLineFnIemOpMacro = -1;
|
---|
1476 | self.iLineMnemonicMacro = -1;
|
---|
1477 | ## @}
|
---|
1478 |
|
---|
1479 | ## @name Intermediate input fields.
|
---|
1480 | ## @{
|
---|
1481 | self.sRawDisOpNo = None;
|
---|
1482 | self.asRawDisParams = [];
|
---|
1483 | self.sRawIemOpFlags = None;
|
---|
1484 | self.sRawOldOpcodes = None;
|
---|
1485 | self.asCopyTests = [];
|
---|
1486 | ## @}
|
---|
1487 |
|
---|
1488 | def toString(self, fRepr = False):
|
---|
1489 | """ Turn object into a string. """
|
---|
1490 | aasFields = [];
|
---|
1491 |
|
---|
1492 | aasFields.append(['opcode', self.sOpcode]);
|
---|
1493 | if self.sPrefix:
|
---|
1494 | aasFields.append(['prefix', self.sPrefix]);
|
---|
1495 | aasFields.append(['mnemonic', self.sMnemonic]);
|
---|
1496 | for iOperand, oOperand in enumerate(self.aoOperands):
|
---|
1497 | aasFields.append(['op%u' % (iOperand + 1,), '%s:%s' % (oOperand.sWhere, oOperand.sType,)]);
|
---|
1498 | if self.aoMaps: aasFields.append(['maps', ','.join([oMap.sName for oMap in self.aoMaps])]);
|
---|
1499 | aasFields.append(['encoding', self.sEncoding]);
|
---|
1500 | if self.dHints: aasFields.append(['hints', ','.join(self.dHints.keys())]);
|
---|
1501 | aasFields.append(['disenum', self.sDisEnum]);
|
---|
1502 | if self.asCpuIds: aasFields.append(['cpuid', ','.join(self.asCpuIds)]);
|
---|
1503 | aasFields.append(['group', self.sGroup]);
|
---|
1504 | if self.fUnused: aasFields.append(['unused', 'True']);
|
---|
1505 | if self.fInvalid: aasFields.append(['invalid', 'True']);
|
---|
1506 | aasFields.append(['invlstyle', self.sInvalidStyle]);
|
---|
1507 | aasFields.append(['fltest', self.asFlTest]);
|
---|
1508 | aasFields.append(['flmodify', self.asFlModify]);
|
---|
1509 | aasFields.append(['flundef', self.asFlUndefined]);
|
---|
1510 | aasFields.append(['flset', self.asFlSet]);
|
---|
1511 | aasFields.append(['flclear', self.asFlClear]);
|
---|
1512 | aasFields.append(['mincpu', self.sMinCpu]);
|
---|
1513 | aasFields.append(['stats', self.sStats]);
|
---|
1514 | aasFields.append(['sFunction', self.sFunction]);
|
---|
1515 | if self.fStub: aasFields.append(['fStub', 'True']);
|
---|
1516 | if self.fUdStub: aasFields.append(['fUdStub', 'True']);
|
---|
1517 | if self.cOpTags: aasFields.append(['optags', str(self.cOpTags)]);
|
---|
1518 | if self.iLineFnIemOpMacro != -1: aasFields.append(['FNIEMOP_XXX', str(self.iLineFnIemOpMacro)]);
|
---|
1519 | if self.iLineMnemonicMacro != -1: aasFields.append(['IEMOP_MNEMMONICn', str(self.iLineMnemonicMacro)]);
|
---|
1520 |
|
---|
1521 | sRet = '<' if fRepr else '';
|
---|
1522 | for sField, sValue in aasFields:
|
---|
1523 | if sValue is not None:
|
---|
1524 | if len(sRet) > 1:
|
---|
1525 | sRet += '; ';
|
---|
1526 | sRet += '%s=%s' % (sField, sValue,);
|
---|
1527 | if fRepr:
|
---|
1528 | sRet += '>';
|
---|
1529 |
|
---|
1530 | return sRet;
|
---|
1531 |
|
---|
1532 | def __str__(self):
|
---|
1533 | """ Provide string represenation. """
|
---|
1534 | return self.toString(False);
|
---|
1535 |
|
---|
1536 | def __repr__(self):
|
---|
1537 | """ Provide unambigious string representation. """
|
---|
1538 | return self.toString(True);
|
---|
1539 |
|
---|
1540 | def copy(self, oMap = None, sOpcode = None, sSubOpcode = None, sPrefix = None):
|
---|
1541 | """
|
---|
1542 | Makes a copy of the object for the purpose of putting in a different map
|
---|
1543 | or a different place in the current map.
|
---|
1544 | """
|
---|
1545 | oCopy = Instruction(self.sSrcFile, self.iLineCreated);
|
---|
1546 |
|
---|
1547 | oCopy.oParent = self;
|
---|
1548 | oCopy.sMnemonic = self.sMnemonic;
|
---|
1549 | oCopy.sBrief = self.sBrief;
|
---|
1550 | oCopy.asDescSections = list(self.asDescSections);
|
---|
1551 | oCopy.aoMaps = [oMap,] if oMap else list(self.aoMaps);
|
---|
1552 | oCopy.aoOperands = list(self.aoOperands); ## Deeper copy?
|
---|
1553 | oCopy.sPrefix = sPrefix if sPrefix else self.sPrefix;
|
---|
1554 | oCopy.sOpcode = sOpcode if sOpcode else self.sOpcode;
|
---|
1555 | oCopy.sSubOpcode = sSubOpcode if sSubOpcode else self.sSubOpcode;
|
---|
1556 | oCopy.sEncoding = self.sEncoding;
|
---|
1557 | oCopy.asFlTest = self.asFlTest;
|
---|
1558 | oCopy.asFlModify = self.asFlModify;
|
---|
1559 | oCopy.asFlUndefined = self.asFlUndefined;
|
---|
1560 | oCopy.asFlSet = self.asFlSet;
|
---|
1561 | oCopy.asFlClear = self.asFlClear;
|
---|
1562 | oCopy.dHints = dict(self.dHints);
|
---|
1563 | oCopy.sDisEnum = self.sDisEnum;
|
---|
1564 | oCopy.asCpuIds = list(self.asCpuIds);
|
---|
1565 | oCopy.asReqFeatures = list(self.asReqFeatures);
|
---|
1566 | oCopy.aoTests = list(self.aoTests); ## Deeper copy?
|
---|
1567 | oCopy.sMinCpu = self.sMinCpu;
|
---|
1568 | oCopy.oCpuExpr = self.oCpuExpr;
|
---|
1569 | oCopy.sGroup = self.sGroup;
|
---|
1570 | oCopy.fUnused = self.fUnused;
|
---|
1571 | oCopy.fInvalid = self.fInvalid;
|
---|
1572 | oCopy.sInvalidStyle = self.sInvalidStyle;
|
---|
1573 | oCopy.sXcptType = self.sXcptType;
|
---|
1574 |
|
---|
1575 | oCopy.sStats = self.sStats;
|
---|
1576 | oCopy.sFunction = self.sFunction;
|
---|
1577 | oCopy.fStub = self.fStub;
|
---|
1578 | oCopy.fUdStub = self.fUdStub;
|
---|
1579 |
|
---|
1580 | oCopy.iLineCompleted = self.iLineCompleted;
|
---|
1581 | oCopy.cOpTags = self.cOpTags;
|
---|
1582 | oCopy.iLineFnIemOpMacro = self.iLineFnIemOpMacro;
|
---|
1583 | oCopy.iLineMnemonicMacro = self.iLineMnemonicMacro;
|
---|
1584 |
|
---|
1585 | oCopy.sRawDisOpNo = self.sRawDisOpNo;
|
---|
1586 | oCopy.asRawDisParams = list(self.asRawDisParams);
|
---|
1587 | oCopy.sRawIemOpFlags = self.sRawIemOpFlags;
|
---|
1588 | oCopy.sRawOldOpcodes = self.sRawOldOpcodes;
|
---|
1589 | oCopy.asCopyTests = list(self.asCopyTests);
|
---|
1590 |
|
---|
1591 | return oCopy;
|
---|
1592 |
|
---|
1593 | def getOpcodeByte(self):
|
---|
1594 | """
|
---|
1595 | Decodes sOpcode into a byte range integer value.
|
---|
1596 | Raises exception if sOpcode is None or invalid.
|
---|
1597 | """
|
---|
1598 | if self.sOpcode is None:
|
---|
1599 | raise Exception('No opcode byte for %s!' % (self,));
|
---|
1600 | sOpcode = str(self.sOpcode); # pylint type confusion workaround.
|
---|
1601 |
|
---|
1602 | # Full hex byte form.
|
---|
1603 | if sOpcode[:2] == '0x':
|
---|
1604 | return int(sOpcode, 16);
|
---|
1605 |
|
---|
1606 | # The /r form:
|
---|
1607 | if len(sOpcode) == 2 and sOpcode[0] == '/' and sOpcode[1].isdigit():
|
---|
1608 | return int(sOpcode[1:]) << 3;
|
---|
1609 |
|
---|
1610 | # The 11/r form:
|
---|
1611 | if len(sOpcode) == 4 and sOpcode.startswith('11/') and sOpcode[-1].isdigit():
|
---|
1612 | return (int(sOpcode[-1:]) << 3) | 0xc0;
|
---|
1613 |
|
---|
1614 | # The !11/r form (returns mod=1):
|
---|
1615 | ## @todo this doesn't really work...
|
---|
1616 | if len(sOpcode) == 5 and sOpcode.startswith('!11/') and sOpcode[-1].isdigit():
|
---|
1617 | return (int(sOpcode[-1:]) << 3) | 0x80;
|
---|
1618 |
|
---|
1619 | raise Exception('unsupported opcode byte spec "%s" for %s' % (sOpcode, self,));
|
---|
1620 |
|
---|
1621 | @staticmethod
|
---|
1622 | def _flagsToIntegerMask(asFlags):
|
---|
1623 | """
|
---|
1624 | Returns the integer mask value for asFlags.
|
---|
1625 | """
|
---|
1626 | uRet = 0;
|
---|
1627 | if asFlags:
|
---|
1628 | for sFlag in asFlags:
|
---|
1629 | sConstant = g_kdEFlagsMnemonics[sFlag];
|
---|
1630 | assert sConstant[0] != '!', sConstant
|
---|
1631 | uRet |= g_kdX86EFlagsConstants[sConstant];
|
---|
1632 | return uRet;
|
---|
1633 |
|
---|
1634 | def getTestedFlagsMask(self):
|
---|
1635 | """ Returns asFlTest into a integer mask value """
|
---|
1636 | return self._flagsToIntegerMask(self.asFlTest);
|
---|
1637 |
|
---|
1638 | def getModifiedFlagsMask(self):
|
---|
1639 | """ Returns asFlModify into a integer mask value """
|
---|
1640 | return self._flagsToIntegerMask(self.asFlModify);
|
---|
1641 |
|
---|
1642 | def getUndefinedFlagsMask(self):
|
---|
1643 | """ Returns asFlUndefined into a integer mask value """
|
---|
1644 | return self._flagsToIntegerMask(self.asFlUndefined);
|
---|
1645 |
|
---|
1646 | def getSetFlagsMask(self):
|
---|
1647 | """ Returns asFlSet into a integer mask value """
|
---|
1648 | return self._flagsToIntegerMask(self.asFlSet);
|
---|
1649 |
|
---|
1650 | def getClearedFlagsMask(self):
|
---|
1651 | """ Returns asFlClear into a integer mask value """
|
---|
1652 | return self._flagsToIntegerMask(self.asFlClear);
|
---|
1653 |
|
---|
1654 | def onlyInVexMaps(self):
|
---|
1655 | """ Returns True if only in VEX maps, otherwise False. (No maps -> False) """
|
---|
1656 | if not self.aoMaps:
|
---|
1657 | return False;
|
---|
1658 | for oMap in self.aoMaps:
|
---|
1659 | if not oMap.isVexMap():
|
---|
1660 | return False;
|
---|
1661 | return True;
|
---|
1662 |
|
---|
1663 |
|
---|
1664 |
|
---|
1665 | ## All the instructions.
|
---|
1666 | g_aoAllInstructions = [] # type: List[Instruction]
|
---|
1667 |
|
---|
1668 | ## All the instructions indexed by statistics name (opstat).
|
---|
1669 | g_dAllInstructionsByStat = {} # type: Dict[Instruction]
|
---|
1670 |
|
---|
1671 | ## All the instructions indexed by function name (opfunction).
|
---|
1672 | g_dAllInstructionsByFunction = {} # type: Dict[List[Instruction]]
|
---|
1673 |
|
---|
1674 | ## Instructions tagged by oponlytest
|
---|
1675 | g_aoOnlyTestInstructions = [] # type: List[Instruction]
|
---|
1676 |
|
---|
1677 | ## Instruction maps.
|
---|
1678 | g_aoInstructionMaps = [
|
---|
1679 | InstructionMap('one', 'g_apfnOneByteMap', sSelector = 'byte'),
|
---|
1680 | InstructionMap('grp1_80', asLeadOpcodes = ['0x80',], sSelector = '/r'),
|
---|
1681 | InstructionMap('grp1_81', asLeadOpcodes = ['0x81',], sSelector = '/r'),
|
---|
1682 | InstructionMap('grp1_82', asLeadOpcodes = ['0x82',], sSelector = '/r'),
|
---|
1683 | InstructionMap('grp1_83', asLeadOpcodes = ['0x83',], sSelector = '/r'),
|
---|
1684 | InstructionMap('grp1a', asLeadOpcodes = ['0x8f',], sSelector = '/r'),
|
---|
1685 | InstructionMap('grp2_c0', asLeadOpcodes = ['0xc0',], sSelector = '/r'),
|
---|
1686 | InstructionMap('grp2_c1', asLeadOpcodes = ['0xc1',], sSelector = '/r'),
|
---|
1687 | InstructionMap('grp2_d0', asLeadOpcodes = ['0xd0',], sSelector = '/r'),
|
---|
1688 | InstructionMap('grp2_d1', asLeadOpcodes = ['0xd1',], sSelector = '/r'),
|
---|
1689 | InstructionMap('grp2_d2', asLeadOpcodes = ['0xd2',], sSelector = '/r'),
|
---|
1690 | InstructionMap('grp2_d3', asLeadOpcodes = ['0xd3',], sSelector = '/r'),
|
---|
1691 | ## @todo g_apfnEscF1_E0toFF
|
---|
1692 | InstructionMap('grp3_f6', asLeadOpcodes = ['0xf6',], sSelector = '/r'),
|
---|
1693 | InstructionMap('grp3_f7', asLeadOpcodes = ['0xf7',], sSelector = '/r'),
|
---|
1694 | InstructionMap('grp4', asLeadOpcodes = ['0xfe',], sSelector = '/r'),
|
---|
1695 | InstructionMap('grp5', asLeadOpcodes = ['0xff',], sSelector = '/r'),
|
---|
1696 | InstructionMap('grp11_c6_m', asLeadOpcodes = ['0xc6',], sSelector = '!11 /r'),
|
---|
1697 | InstructionMap('grp11_c6_r', asLeadOpcodes = ['0xc6',], sSelector = '11'), # xabort
|
---|
1698 | InstructionMap('grp11_c7_m', asLeadOpcodes = ['0xc7',], sSelector = '!11 /r'),
|
---|
1699 | InstructionMap('grp11_c7_r', asLeadOpcodes = ['0xc7',], sSelector = '11'), # xbegin
|
---|
1700 |
|
---|
1701 | InstructionMap('two0f', 'g_apfnTwoByteMap', asLeadOpcodes = ['0x0f',], sDisParse = 'IDX_ParseTwoByteEsc'),
|
---|
1702 | InstructionMap('grp6', 'g_apfnGroup6', asLeadOpcodes = ['0x0f', '0x00',], sSelector = '/r'),
|
---|
1703 | InstructionMap('grp7_m', 'g_apfnGroup7Mem', asLeadOpcodes = ['0x0f', '0x01',], sSelector = '!11 /r'),
|
---|
1704 | InstructionMap('grp7_r', asLeadOpcodes = ['0x0f', '0x01',], sSelector = '11'),
|
---|
1705 | InstructionMap('grp8', asLeadOpcodes = ['0x0f', '0xba',], sSelector = '/r'),
|
---|
1706 | InstructionMap('grp9', 'g_apfnGroup9RegReg', asLeadOpcodes = ['0x0f', '0xc7',], sSelector = 'mod /r'),
|
---|
1707 | ## @todo What about g_apfnGroup9MemReg?
|
---|
1708 | InstructionMap('grp10', None, asLeadOpcodes = ['0x0f', '0xb9',], sSelector = '/r'), # UD1 /w modr/m
|
---|
1709 | InstructionMap('grp12', 'g_apfnGroup12RegReg', asLeadOpcodes = ['0x0f', '0x71',], sSelector = 'mod /r'),
|
---|
1710 | InstructionMap('grp13', 'g_apfnGroup13RegReg', asLeadOpcodes = ['0x0f', '0x72',], sSelector = 'mod /r'),
|
---|
1711 | InstructionMap('grp14', 'g_apfnGroup14RegReg', asLeadOpcodes = ['0x0f', '0x73',], sSelector = 'mod /r'),
|
---|
1712 | InstructionMap('grp15', 'g_apfnGroup15MemReg', asLeadOpcodes = ['0x0f', '0xae',], sSelector = 'memreg /r'),
|
---|
1713 | ## @todo What about g_apfnGroup15RegReg?
|
---|
1714 | InstructionMap('grp16', asLeadOpcodes = ['0x0f', '0x18',], sSelector = 'mod /r'),
|
---|
1715 | InstructionMap('grpA17', asLeadOpcodes = ['0x0f', '0x78',], sSelector = '/r'), # AMD: EXTRQ weirdness
|
---|
1716 | InstructionMap('grpP', asLeadOpcodes = ['0x0f', '0x0d',], sSelector = '/r'), # AMD: prefetch
|
---|
1717 |
|
---|
1718 | InstructionMap('three0f38', 'g_apfnThreeByte0f38', asLeadOpcodes = ['0x0f', '0x38',]),
|
---|
1719 | InstructionMap('three0f3a', 'g_apfnThreeByte0f3a', asLeadOpcodes = ['0x0f', '0x3a',]),
|
---|
1720 |
|
---|
1721 | InstructionMap('vexmap1', 'g_apfnVexMap1', sEncoding = 'vex1'),
|
---|
1722 | InstructionMap('vexgrp12', 'g_apfnVexGroup12RegReg', sEncoding = 'vex1', asLeadOpcodes = ['0x71',], sSelector = 'mod /r'),
|
---|
1723 | InstructionMap('vexgrp13', 'g_apfnVexGroup13RegReg', sEncoding = 'vex1', asLeadOpcodes = ['0x72',], sSelector = 'mod /r'),
|
---|
1724 | InstructionMap('vexgrp14', 'g_apfnVexGroup14RegReg', sEncoding = 'vex1', asLeadOpcodes = ['0x73',], sSelector = 'mod /r'),
|
---|
1725 | InstructionMap('vexgrp15', 'g_apfnVexGroup15MemReg', sEncoding = 'vex1', asLeadOpcodes = ['0xae',], sSelector = 'memreg /r'),
|
---|
1726 | InstructionMap('vexgrp17', 'g_apfnVexGroup17_f3', sEncoding = 'vex1', asLeadOpcodes = ['0xf3',], sSelector = '/r'),
|
---|
1727 |
|
---|
1728 | InstructionMap('vexmap2', 'g_apfnVexMap2', sEncoding = 'vex2'),
|
---|
1729 | InstructionMap('vexmap3', 'g_apfnVexMap3', sEncoding = 'vex3'),
|
---|
1730 |
|
---|
1731 | InstructionMap('3dnow', asLeadOpcodes = ['0x0f', '0x0f',]),
|
---|
1732 | InstructionMap('xopmap8', sEncoding = 'xop8'),
|
---|
1733 | InstructionMap('xopmap9', sEncoding = 'xop9'),
|
---|
1734 | InstructionMap('xopgrp1', sEncoding = 'xop9', asLeadOpcodes = ['0x01'], sSelector = '/r'),
|
---|
1735 | InstructionMap('xopgrp2', sEncoding = 'xop9', asLeadOpcodes = ['0x02'], sSelector = '/r'),
|
---|
1736 | InstructionMap('xopgrp3', sEncoding = 'xop9', asLeadOpcodes = ['0x12'], sSelector = '/r'),
|
---|
1737 | InstructionMap('xopmap10', sEncoding = 'xop10'),
|
---|
1738 | InstructionMap('xopgrp4', sEncoding = 'xop10', asLeadOpcodes = ['0x12'], sSelector = '/r'),
|
---|
1739 | ];
|
---|
1740 | g_dInstructionMaps = { oMap.sName: oMap for oMap in g_aoInstructionMaps };
|
---|
1741 | g_dInstructionMapsByIemName = { oMap.sIemName: oMap for oMap in g_aoInstructionMaps };
|
---|
1742 |
|
---|
1743 |
|
---|
1744 | #
|
---|
1745 | # Decoder functions.
|
---|
1746 | #
|
---|
1747 |
|
---|
1748 | class DecoderFunction(object):
|
---|
1749 | """
|
---|
1750 | Decoder function.
|
---|
1751 |
|
---|
1752 | This is mainly for searching for scoping searches for variables used in
|
---|
1753 | microcode blocks.
|
---|
1754 | """
|
---|
1755 | def __init__(self, sSrcFile, iBeginLine, sName, asDefArgs):
|
---|
1756 | self.sName = sName; ##< The function name.
|
---|
1757 | self.asDefArgs = asDefArgs; ##< The FNIEMOP*DEF/STUB* macro argument list, 0th element is the macro name.
|
---|
1758 | self.sSrcFile = sSrcFile; ##< The source file the function is defined in.
|
---|
1759 | self.iBeginLine = iBeginLine; ##< The start line.
|
---|
1760 | self.iEndLine = -1; ##< The line the function (probably) ends on.
|
---|
1761 | self.asLines = [] # type: List[str] ##< The raw lines the function is made up of.
|
---|
1762 |
|
---|
1763 | def complete(self, iEndLine, asLines):
|
---|
1764 | """
|
---|
1765 | Completes the function.
|
---|
1766 | """
|
---|
1767 | assert self.iEndLine == -1;
|
---|
1768 | self.iEndLine = iEndLine;
|
---|
1769 | self.asLines = asLines;
|
---|
1770 |
|
---|
1771 |
|
---|
1772 | #
|
---|
1773 | # "Microcode" statements and blocks
|
---|
1774 | #
|
---|
1775 |
|
---|
1776 | class McStmt(object):
|
---|
1777 | """
|
---|
1778 | Statement in a microcode block.
|
---|
1779 | """
|
---|
1780 | def __init__(self, sName, asParams):
|
---|
1781 | self.sName = sName; ##< 'IEM_MC_XXX' or 'C++'.
|
---|
1782 | self.asParams = asParams;
|
---|
1783 | self.oUser = None;
|
---|
1784 |
|
---|
1785 | def renderCode(self, cchIndent = 0):
|
---|
1786 | """
|
---|
1787 | Renders the code for the statement.
|
---|
1788 | """
|
---|
1789 | return ' ' * cchIndent + self.sName + '(' + ', '.join(self.asParams) + ');\n';
|
---|
1790 |
|
---|
1791 | @staticmethod
|
---|
1792 | def renderCodeForList(aoStmts, cchIndent = 0):
|
---|
1793 | """
|
---|
1794 | Renders a list of statements.
|
---|
1795 | """
|
---|
1796 | return ''.join([oStmt.renderCode(cchIndent) for oStmt in aoStmts]);
|
---|
1797 |
|
---|
1798 | @staticmethod
|
---|
1799 | def findStmtByNames(aoStmts, dNames):
|
---|
1800 | """
|
---|
1801 | Returns first statement with any of the given names in from the list.
|
---|
1802 |
|
---|
1803 | Note! The names are passed as a dictionary for quick lookup, the value
|
---|
1804 | does not matter.
|
---|
1805 | """
|
---|
1806 | for oStmt in aoStmts:
|
---|
1807 | if oStmt.sName in dNames:
|
---|
1808 | return oStmt;
|
---|
1809 | if isinstance(oStmt, McStmtCond):
|
---|
1810 | oHit = McStmt.findStmtByNames(oStmt.aoIfBranch, dNames);
|
---|
1811 | if not oHit:
|
---|
1812 | oHit = McStmt.findStmtByNames(oStmt.aoElseBranch, dNames);
|
---|
1813 | if oHit:
|
---|
1814 | return oHit;
|
---|
1815 | return None;
|
---|
1816 |
|
---|
1817 | def isCppStmt(self):
|
---|
1818 | """ Checks if this is a C++ statement. """
|
---|
1819 | return self.sName.startswith('C++');
|
---|
1820 |
|
---|
1821 | class McStmtCond(McStmt):
|
---|
1822 | """
|
---|
1823 | Base class for conditional statements (IEM_MC_IF_XXX).
|
---|
1824 | """
|
---|
1825 | def __init__(self, sName, asParams, aoIfBranch = None, aoElseBranch = None):
|
---|
1826 | McStmt.__init__(self, sName, asParams);
|
---|
1827 | self.aoIfBranch = [] if aoIfBranch is None else list(aoIfBranch);
|
---|
1828 | self.aoElseBranch = [] if aoElseBranch is None else list(aoElseBranch);
|
---|
1829 |
|
---|
1830 | def renderCode(self, cchIndent = 0):
|
---|
1831 | sRet = ' ' * cchIndent + self.sName + '(' + ', '.join(self.asParams) + ') {\n';
|
---|
1832 | sRet += self.renderCodeForList(self.aoIfBranch, cchIndent + 4);
|
---|
1833 | if self.aoElseBranch:
|
---|
1834 | sRet += ' ' * cchIndent + '} IEM_MC_ELSE() {\n';
|
---|
1835 | sRet += self.renderCodeForList(self.aoElseBranch, cchIndent + 4);
|
---|
1836 | sRet += ' ' * cchIndent + '} IEM_MC_ENDIF();\n';
|
---|
1837 | return sRet;
|
---|
1838 |
|
---|
1839 | class McStmtVar(McStmt):
|
---|
1840 | """ IEM_MC_LOCAL_VAR, IEM_MC_LOCAL_CONST """
|
---|
1841 | def __init__(self, sName, asParams, sType, sVarName, sConstValue = None):
|
---|
1842 | McStmt.__init__(self, sName, asParams);
|
---|
1843 | self.sType = sType;
|
---|
1844 | self.sVarName = sVarName;
|
---|
1845 | self.sConstValue = sConstValue; ##< None if not const.
|
---|
1846 |
|
---|
1847 | class McStmtArg(McStmtVar):
|
---|
1848 | """ IEM_MC_ARG, IEM_MC_ARG_CONST, IEM_MC_ARG_LOCAL_REF """
|
---|
1849 | def __init__(self, sName, asParams, sType, sVarName, iArg, sConstValue = None, sRef = None, sRefType = 'none'):
|
---|
1850 | McStmtVar.__init__(self, sName, asParams, sType, sVarName, sConstValue);
|
---|
1851 | self.iArg = iArg;
|
---|
1852 | self.sRef = sRef; ##< The reference string (local variable, register).
|
---|
1853 | self.sRefType = sRefType; ##< The kind of reference: 'local', 'none'.
|
---|
1854 | assert sRefType in ('none', 'local');
|
---|
1855 |
|
---|
1856 |
|
---|
1857 | class McStmtCall(McStmt):
|
---|
1858 | """ IEM_MC_CALL_* """
|
---|
1859 | def __init__(self, sName, asParams, iFnParam, iRcNameParam = -1):
|
---|
1860 | McStmt.__init__(self, sName, asParams);
|
---|
1861 | self.idxFn = iFnParam;
|
---|
1862 | self.idxParams = iFnParam + 1;
|
---|
1863 | self.sFn = asParams[iFnParam];
|
---|
1864 | self.iRcName = None if iRcNameParam < 0 else asParams[iRcNameParam];
|
---|
1865 |
|
---|
1866 | class McCppGeneric(McStmt):
|
---|
1867 | """
|
---|
1868 | Generic C++/C statement.
|
---|
1869 | """
|
---|
1870 | def __init__(self, sCode, fDecode = True, sName = 'C++', cchIndent = 0):
|
---|
1871 | McStmt.__init__(self, sName, [sCode,]);
|
---|
1872 | self.fDecode = fDecode;
|
---|
1873 | self.cchIndent = cchIndent;
|
---|
1874 |
|
---|
1875 | def renderCode(self, cchIndent = 0):
|
---|
1876 | cchIndent += self.cchIndent;
|
---|
1877 | sRet = ' ' * cchIndent + self.asParams[0] + '\n';
|
---|
1878 | if self.fDecode:
|
---|
1879 | sRet = sRet.replace('\n', ' // C++ decode\n');
|
---|
1880 | else:
|
---|
1881 | sRet = sRet.replace('\n', ' // C++ normal\n');
|
---|
1882 | return sRet;
|
---|
1883 |
|
---|
1884 | class McCppCall(McCppGeneric):
|
---|
1885 | """
|
---|
1886 | A generic C++/C call statement.
|
---|
1887 |
|
---|
1888 | The sName is still 'C++', so the function name is in the first parameter
|
---|
1889 | and the the arguments in the subsequent ones.
|
---|
1890 | """
|
---|
1891 | def __init__(self, sFnName, asArgs, fDecode = True, cchIndent = 0):
|
---|
1892 | McCppGeneric.__init__(self, sFnName, fDecode = fDecode, cchIndent = cchIndent);
|
---|
1893 | self.asParams.extend(asArgs);
|
---|
1894 |
|
---|
1895 | def renderCode(self, cchIndent = 0):
|
---|
1896 | cchIndent += self.cchIndent;
|
---|
1897 | sRet = ' ' * cchIndent + self.asParams[0] + '(' + ', '.join(self.asParams[1:]) + ');';
|
---|
1898 | if self.fDecode:
|
---|
1899 | sRet += ' // C++ decode\n';
|
---|
1900 | else:
|
---|
1901 | sRet += ' // C++ normal\n';
|
---|
1902 | return sRet;
|
---|
1903 |
|
---|
1904 | class McCppCond(McStmtCond):
|
---|
1905 | """
|
---|
1906 | C++/C 'if' statement.
|
---|
1907 | """
|
---|
1908 | def __init__(self, sCode, fDecode = True, aoIfBranch = None, aoElseBranch = None, cchIndent = 0):
|
---|
1909 | McStmtCond.__init__(self, 'C++/if', [sCode,], aoIfBranch, aoElseBranch);
|
---|
1910 | self.fDecode = fDecode;
|
---|
1911 | self.cchIndent = cchIndent;
|
---|
1912 |
|
---|
1913 | def renderCode(self, cchIndent = 0):
|
---|
1914 | cchIndent += self.cchIndent;
|
---|
1915 | sAnnotation = '// C++ decode' if self.fDecode else '// C++ normal';
|
---|
1916 | sRet = ' ' * cchIndent + 'if (' + self.asParams[0] + ') ' + sAnnotation + '\n';
|
---|
1917 | sRet += ' ' * cchIndent + '{\n';
|
---|
1918 | sRet += self.renderCodeForList(self.aoIfBranch, cchIndent + 4);
|
---|
1919 | sRet += ' ' * cchIndent + '}\n';
|
---|
1920 | if self.aoElseBranch:
|
---|
1921 | sRet += ' ' * cchIndent + 'else ' + sAnnotation + '\n';
|
---|
1922 | sRet += ' ' * cchIndent + '{\n';
|
---|
1923 | sRet += self.renderCodeForList(self.aoElseBranch, cchIndent + 4);
|
---|
1924 | sRet += ' ' * cchIndent + '}\n';
|
---|
1925 | return sRet;
|
---|
1926 |
|
---|
1927 | class McCppPreProc(McCppGeneric):
|
---|
1928 | """
|
---|
1929 | C++/C Preprocessor directive.
|
---|
1930 | """
|
---|
1931 | def __init__(self, sCode):
|
---|
1932 | McCppGeneric.__init__(self, sCode, False, sName = 'C++/preproc');
|
---|
1933 |
|
---|
1934 | def renderCode(self, cchIndent = 0):
|
---|
1935 | return self.asParams[0] + '\n';
|
---|
1936 |
|
---|
1937 |
|
---|
1938 | ## IEM_MC_F_XXX values.
|
---|
1939 | g_kdMcFlags = {
|
---|
1940 | 'IEM_MC_F_ONLY_8086': (),
|
---|
1941 | 'IEM_MC_F_MIN_186': (),
|
---|
1942 | 'IEM_MC_F_MIN_286': (),
|
---|
1943 | 'IEM_MC_F_NOT_286_OR_OLDER': (),
|
---|
1944 | 'IEM_MC_F_MIN_386': ('IEM_MC_F_NOT_286_OR_OLDER',),
|
---|
1945 | 'IEM_MC_F_MIN_486': ('IEM_MC_F_NOT_286_OR_OLDER',),
|
---|
1946 | 'IEM_MC_F_MIN_PENTIUM': ('IEM_MC_F_NOT_286_OR_OLDER',),
|
---|
1947 | 'IEM_MC_F_MIN_PENTIUM_II': ('IEM_MC_F_NOT_286_OR_OLDER',),
|
---|
1948 | 'IEM_MC_F_MIN_CORE': ('IEM_MC_F_NOT_286_OR_OLDER',),
|
---|
1949 | 'IEM_MC_F_64BIT': ('IEM_MC_F_NOT_286_OR_OLDER',),
|
---|
1950 | 'IEM_MC_F_NOT_64BIT': (),
|
---|
1951 | };
|
---|
1952 | ## IEM_MC_F_XXX values.
|
---|
1953 | g_kdCImplFlags = {
|
---|
1954 | 'IEM_CIMPL_F_BRANCH_DIRECT': (),
|
---|
1955 | 'IEM_CIMPL_F_BRANCH_INDIRECT': (),
|
---|
1956 | 'IEM_CIMPL_F_BRANCH_RELATIVE': (),
|
---|
1957 | 'IEM_CIMPL_F_BRANCH_CONDITIONAL': (),
|
---|
1958 | 'IEM_CIMPL_F_BRANCH_FAR': (),
|
---|
1959 | 'IEM_CIMPL_F_BRANCH_ANY': ('IEM_CIMPL_F_BRANCH_DIRECT', 'IEM_CIMPL_F_BRANCH_INDIRECT',
|
---|
1960 | 'IEM_CIMPL_F_BRANCH_RELATIVE',),
|
---|
1961 | 'IEM_CIMPL_F_MODE': (),
|
---|
1962 | 'IEM_CIMPL_F_RFLAGS': (),
|
---|
1963 | 'IEM_CIMPL_F_INHIBIT_SHADOW': (),
|
---|
1964 | 'IEM_CIMPL_F_STATUS_FLAGS': (),
|
---|
1965 | 'IEM_CIMPL_F_CHECK_IRQ_AFTER': (),
|
---|
1966 | 'IEM_CIMPL_F_CHECK_IRQ_BEFORE': (),
|
---|
1967 | 'IEM_CIMPL_F_CHECK_IRQ_BEFORE_AND_AFTER': ('IEM_CIMPL_F_CHECK_IRQ_BEFORE', 'IEM_CIMPL_F_CHECK_IRQ_AFTER',),
|
---|
1968 | 'IEM_CIMPL_F_VMEXIT': (),
|
---|
1969 | 'IEM_CIMPL_F_FPU': (),
|
---|
1970 | 'IEM_CIMPL_F_REP': (),
|
---|
1971 | 'IEM_CIMPL_F_IO': (),
|
---|
1972 | 'IEM_CIMPL_F_END_TB': (),
|
---|
1973 | 'IEM_CIMPL_F_XCPT': ('IEM_CIMPL_F_BRANCH_INDIRECT', 'IEM_CIMPL_F_BRANCH_FAR',
|
---|
1974 | 'IEM_CIMPL_F_MODE', 'IEM_CIMPL_F_RFLAGS', 'IEM_CIMPL_F_VMEXIT', ),
|
---|
1975 | };
|
---|
1976 | class McBlock(object):
|
---|
1977 | """
|
---|
1978 | Microcode block (IEM_MC_BEGIN ... IEM_MC_END, IEM_MC_DEFER_TO_CIMPL_x_RET).
|
---|
1979 | """
|
---|
1980 |
|
---|
1981 | def __init__(self, sSrcFile, iBeginLine, offBeginLine, oFunction, iInFunction, cchIndent = None):
|
---|
1982 | ## The source file containing the block.
|
---|
1983 | self.sSrcFile = sSrcFile;
|
---|
1984 | ## The line with the IEM_MC_BEGIN/IEM_MC_DEFER_TO_CIMPL_X_RET statement.
|
---|
1985 | self.iBeginLine = iBeginLine;
|
---|
1986 | ## The offset of the IEM_MC_BEGIN/IEM_MC_DEFER_TO_CIMPL_X_RET statement within the line.
|
---|
1987 | self.offBeginLine = offBeginLine;
|
---|
1988 | ## The line with the IEM_MC_END statement / last line of IEM_MC_DEFER_TO_CIMPL_X_RET.
|
---|
1989 | self.iEndLine = -1;
|
---|
1990 | ## The offset of the IEM_MC_END statement within the line / semicolon offset for defer-to.
|
---|
1991 | self.offEndLine = 0;
|
---|
1992 | ## The offset following the IEM_MC_END/IEM_MC_DEFER_TO_CIMPL_X_RET semicolon.
|
---|
1993 | self.offAfterEnd = 0;
|
---|
1994 | ## The function the block resides in.
|
---|
1995 | self.oFunction = oFunction;
|
---|
1996 | ## The name of the function the block resides in. DEPRECATED.
|
---|
1997 | self.sFunction = oFunction.sName;
|
---|
1998 | ## The block number within the function.
|
---|
1999 | self.iInFunction = iInFunction;
|
---|
2000 | self.cchIndent = cchIndent if cchIndent else offBeginLine;
|
---|
2001 | ##< The raw lines the block is made up of.
|
---|
2002 | self.asLines = [] # type: List[str]
|
---|
2003 | ## IEM_MC_BEGIN: Argument count.
|
---|
2004 | self.cArgs = -1;
|
---|
2005 | ## IEM_MC_ARG, IEM_MC_ARG_CONST, IEM_MC_ARG_LOCAL_REF, IEM_MC_ARG_LOCAL_EFLAGS.
|
---|
2006 | self.aoArgs = [] # type: List[McStmtArg]
|
---|
2007 | ## IEM_MC_BEGIN: Locals count.
|
---|
2008 | self.cLocals = -1;
|
---|
2009 | ## IEM_MC_LOCAL, IEM_MC_LOCAL_CONST, IEM_MC_ARG_LOCAL_EFLAGS.
|
---|
2010 | self.aoLocals = [] # type: List[McStmtVar]
|
---|
2011 | ## IEM_MC_BEGIN: IEM_MC_F_XXX dictionary
|
---|
2012 | self.dsMcFlags = {} # type: Dict[str, bool]
|
---|
2013 | ## IEM_MC_[DEFER_TO|CALL]_CIMPL_XXX: IEM_CIMPL_F_XXX dictionary
|
---|
2014 | self.dsCImplFlags = {} # type: Dict[str, bool]
|
---|
2015 | ## Decoded statements in the block.
|
---|
2016 | self.aoStmts = [] # type: List[McStmt]
|
---|
2017 |
|
---|
2018 | def complete(self, iEndLine, offEndLine, offAfterEnd, asLines):
|
---|
2019 | """
|
---|
2020 | Completes the microcode block.
|
---|
2021 | """
|
---|
2022 | assert self.iEndLine == -1;
|
---|
2023 | self.iEndLine = iEndLine;
|
---|
2024 | self.offEndLine = offEndLine;
|
---|
2025 | self.offAfterEnd = offAfterEnd;
|
---|
2026 | self.asLines = asLines;
|
---|
2027 |
|
---|
2028 | def raiseDecodeError(self, sRawCode, off, sMessage):
|
---|
2029 | """ Raises a decoding error. """
|
---|
2030 | offStartOfLine = sRawCode.rfind('\n', 0, off) + 1;
|
---|
2031 | iLine = sRawCode.count('\n', 0, off);
|
---|
2032 | raise ParserException('%s:%d:%d: parsing error: %s'
|
---|
2033 | % (self.sSrcFile, self.iBeginLine + iLine, off - offStartOfLine + 1, sMessage,));
|
---|
2034 |
|
---|
2035 | def raiseStmtError(self, sName, sMessage):
|
---|
2036 | """ Raises a statement parser error. """
|
---|
2037 | raise ParserException('%s:%d: %s: parsing error: %s' % (self.sSrcFile, self.iBeginLine, sName, sMessage,));
|
---|
2038 |
|
---|
2039 | def checkStmtParamCount(self, sName, asParams, cParamsExpected):
|
---|
2040 | """ Check the parameter count, raising an error it doesn't match. """
|
---|
2041 | if len(asParams) != cParamsExpected:
|
---|
2042 | raise ParserException('%s:%d: %s: Expected %s parameters, found %s!'
|
---|
2043 | % (self.sSrcFile, self.iBeginLine, sName, cParamsExpected, len(asParams),));
|
---|
2044 | return True;
|
---|
2045 |
|
---|
2046 | @staticmethod
|
---|
2047 | def parseMcGeneric(oSelf, sName, asParams):
|
---|
2048 | """ Generic parser that returns a plain McStmt object. """
|
---|
2049 | _ = oSelf;
|
---|
2050 | return McStmt(sName, asParams);
|
---|
2051 |
|
---|
2052 | @staticmethod
|
---|
2053 | def parseMcGenericCond(oSelf, sName, asParams):
|
---|
2054 | """ Generic parser that returns a plain McStmtCond object. """
|
---|
2055 | _ = oSelf;
|
---|
2056 | return McStmtCond(sName, asParams);
|
---|
2057 |
|
---|
2058 | @staticmethod
|
---|
2059 | def parseMcBegin(oSelf, sName, asParams):
|
---|
2060 | """ IEM_MC_BEGIN """
|
---|
2061 | oSelf.checkStmtParamCount(sName, asParams, 4);
|
---|
2062 | if oSelf.cArgs != -1 or oSelf.cLocals != -1 or oSelf.dsMcFlags:
|
---|
2063 | oSelf.raiseStmtError(sName, 'Used more than once!');
|
---|
2064 | oSelf.cArgs = int(asParams[0]);
|
---|
2065 | oSelf.cLocals = int(asParams[1]);
|
---|
2066 |
|
---|
2067 | if asParams[2] != '0':
|
---|
2068 | for sFlag in asParams[2].split('|'):
|
---|
2069 | sFlag = sFlag.strip();
|
---|
2070 | if sFlag not in g_kdMcFlags:
|
---|
2071 | oSelf.raiseStmtError(sName, 'Unknown flag: %s' % (sFlag, ));
|
---|
2072 | oSelf.dsMcFlags[sFlag] = True;
|
---|
2073 | for sFlag2 in g_kdMcFlags[sFlag]:
|
---|
2074 | oSelf.dsMcFlags[sFlag2] = True;
|
---|
2075 |
|
---|
2076 | if asParams[3] != '0':
|
---|
2077 | oSelf.parseCImplFlags(sName, asParams[3]);
|
---|
2078 |
|
---|
2079 | return McBlock.parseMcGeneric(oSelf, sName, asParams);
|
---|
2080 |
|
---|
2081 | @staticmethod
|
---|
2082 | def parseMcArg(oSelf, sName, asParams):
|
---|
2083 | """ IEM_MC_ARG """
|
---|
2084 | oSelf.checkStmtParamCount(sName, asParams, 3);
|
---|
2085 | oStmt = McStmtArg(sName, asParams, asParams[0], asParams[1], int(asParams[2]));
|
---|
2086 | oSelf.aoArgs.append(oStmt);
|
---|
2087 | return oStmt;
|
---|
2088 |
|
---|
2089 | @staticmethod
|
---|
2090 | def parseMcArgConst(oSelf, sName, asParams):
|
---|
2091 | """ IEM_MC_ARG_CONST """
|
---|
2092 | oSelf.checkStmtParamCount(sName, asParams, 4);
|
---|
2093 | oStmt = McStmtArg(sName, asParams, asParams[0], asParams[1], int(asParams[3]), sConstValue = asParams[2]);
|
---|
2094 | oSelf.aoArgs.append(oStmt);
|
---|
2095 | return oStmt;
|
---|
2096 |
|
---|
2097 | @staticmethod
|
---|
2098 | def parseMcArgLocalRef(oSelf, sName, asParams):
|
---|
2099 | """ IEM_MC_ARG_LOCAL_REF """
|
---|
2100 | oSelf.checkStmtParamCount(sName, asParams, 4);
|
---|
2101 | oStmt = McStmtArg(sName, asParams, asParams[0], asParams[1], int(asParams[3]), sRef = asParams[2], sRefType = 'local');
|
---|
2102 | oSelf.aoArgs.append(oStmt);
|
---|
2103 | return oStmt;
|
---|
2104 |
|
---|
2105 | @staticmethod
|
---|
2106 | def parseMcArgLocalEFlags(oSelf, sName, asParams):
|
---|
2107 | """ IEM_MC_ARG_LOCAL_EFLAGS """
|
---|
2108 | oSelf.checkStmtParamCount(sName, asParams, 3);
|
---|
2109 | # Note! We split this one up into IEM_MC_LOCAL_VAR and IEM_MC_ARG_LOCAL_REF.
|
---|
2110 | oStmtLocal = McStmtVar('IEM_MC_LOCAL', ['uint32_t', asParams[1],], 'uint32_t', asParams[1]);
|
---|
2111 | oSelf.aoLocals.append(oStmtLocal);
|
---|
2112 | oStmtArg = McStmtArg('IEM_MC_ARG_LOCAL_REF', ['uint32_t *', asParams[0], asParams[1], asParams[2]],
|
---|
2113 | 'uint32_t *', asParams[0], int(asParams[2]), sRef = asParams[1], sRefType = 'local');
|
---|
2114 | oSelf.aoArgs.append(oStmtArg);
|
---|
2115 | return (oStmtLocal, oStmtArg,);
|
---|
2116 |
|
---|
2117 | @staticmethod
|
---|
2118 | def parseMcImplicitAvxAArgs(oSelf, sName, asParams):
|
---|
2119 | """ IEM_MC_IMPLICIT_AVX_AIMPL_ARGS """
|
---|
2120 | oSelf.checkStmtParamCount(sName, asParams, 0);
|
---|
2121 | # Note! Translate to IEM_MC_ARG_CONST
|
---|
2122 | oStmt = McStmtArg('IEM_MC_ARG_CONST', ['PX86XSAVEAREA', 'pXState', '&pVCpu->cpum.GstCtx.XState', '0'],
|
---|
2123 | 'PX86XSAVEAREA', 'pXState', 0, '&pVCpu->cpum.GstCtx.XState');
|
---|
2124 | oSelf.aoArgs.append(oStmt);
|
---|
2125 | return oStmt;
|
---|
2126 |
|
---|
2127 | @staticmethod
|
---|
2128 | def parseMcLocal(oSelf, sName, asParams):
|
---|
2129 | """ IEM_MC_LOCAL """
|
---|
2130 | oSelf.checkStmtParamCount(sName, asParams, 2);
|
---|
2131 | oStmt = McStmtVar(sName, asParams, asParams[0], asParams[1]);
|
---|
2132 | oSelf.aoLocals.append(oStmt);
|
---|
2133 | return oStmt;
|
---|
2134 |
|
---|
2135 | @staticmethod
|
---|
2136 | def parseMcLocalConst(oSelf, sName, asParams):
|
---|
2137 | """ IEM_MC_LOCAL_CONST """
|
---|
2138 | oSelf.checkStmtParamCount(sName, asParams, 3);
|
---|
2139 | oStmt = McStmtVar(sName, asParams, asParams[0], asParams[1], sConstValue = asParams[2]);
|
---|
2140 | oSelf.aoLocals.append(oStmt);
|
---|
2141 | return oStmt;
|
---|
2142 |
|
---|
2143 | @staticmethod
|
---|
2144 | def parseMcCallAImpl(oSelf, sName, asParams):
|
---|
2145 | """ IEM_MC_CALL_AIMPL_3|4 """
|
---|
2146 | cArgs = int(sName[-1]);
|
---|
2147 | oSelf.checkStmtParamCount(sName, asParams, 2 + cArgs);
|
---|
2148 | return McStmtCall(sName, asParams, 1, 0);
|
---|
2149 |
|
---|
2150 | @staticmethod
|
---|
2151 | def parseMcCallVoidAImpl(oSelf, sName, asParams):
|
---|
2152 | """ IEM_MC_CALL_VOID_AIMPL_2|3 """
|
---|
2153 | cArgs = int(sName[-1]);
|
---|
2154 | oSelf.checkStmtParamCount(sName, asParams, 1 + cArgs);
|
---|
2155 | return McStmtCall(sName, asParams, 0);
|
---|
2156 |
|
---|
2157 | @staticmethod
|
---|
2158 | def parseMcCallAvxAImpl(oSelf, sName, asParams):
|
---|
2159 | """ IEM_MC_CALL_AVX_AIMPL_2|3 """
|
---|
2160 | cArgs = int(sName[-1]);
|
---|
2161 | oSelf.checkStmtParamCount(sName, asParams, 1 + cArgs);
|
---|
2162 | return McStmtCall(sName, asParams, 0);
|
---|
2163 |
|
---|
2164 | @staticmethod
|
---|
2165 | def parseMcCallFpuAImpl(oSelf, sName, asParams):
|
---|
2166 | """ IEM_MC_CALL_FPU_AIMPL_1|2|3 """
|
---|
2167 | cArgs = int(sName[-1]);
|
---|
2168 | oSelf.checkStmtParamCount(sName, asParams, 1 + cArgs);
|
---|
2169 | return McStmtCall(sName, asParams, 0);
|
---|
2170 |
|
---|
2171 | @staticmethod
|
---|
2172 | def parseMcCallMmxAImpl(oSelf, sName, asParams):
|
---|
2173 | """ IEM_MC_CALL_MMX_AIMPL_2|3 """
|
---|
2174 | cArgs = int(sName[-1]);
|
---|
2175 | oSelf.checkStmtParamCount(sName, asParams, 1 + cArgs);
|
---|
2176 | return McStmtCall(sName, asParams, 0);
|
---|
2177 |
|
---|
2178 | @staticmethod
|
---|
2179 | def parseMcCallSseAImpl(oSelf, sName, asParams):
|
---|
2180 | """ IEM_MC_CALL_SSE_AIMPL_2|3 """
|
---|
2181 | cArgs = int(sName[-1]);
|
---|
2182 | oSelf.checkStmtParamCount(sName, asParams, 1 + cArgs);
|
---|
2183 | return McStmtCall(sName, asParams, 0);
|
---|
2184 |
|
---|
2185 | def parseCImplFlags(self, sName, sFlags):
|
---|
2186 | """
|
---|
2187 | Helper for parseMcCallCImpl and parseMcDeferToCImpl to validate and
|
---|
2188 | merge a bunch of IEM_CIMPL_F_XXX value into dsCImplFlags.
|
---|
2189 | """
|
---|
2190 | if sFlags != '0':
|
---|
2191 | sFlags = self.stripComments(sFlags);
|
---|
2192 | #print('debug: %s: %s' % (self.oFunction.sName,' | '.join(''.join(sFlags.split()).split('|')),));
|
---|
2193 | for sFlag in sFlags.split('|'):
|
---|
2194 | sFlag = sFlag.strip();
|
---|
2195 | #print('debug: %s' % sFlag)
|
---|
2196 | if sFlag not in g_kdCImplFlags:
|
---|
2197 | self.raiseStmtError(sName, 'Unknown flag: %s' % (sFlag, ));
|
---|
2198 | self.dsCImplFlags[sFlag] = True;
|
---|
2199 | for sFlag2 in g_kdCImplFlags[sFlag]:
|
---|
2200 | self.dsCImplFlags[sFlag2] = True;
|
---|
2201 | return None;
|
---|
2202 |
|
---|
2203 | @staticmethod
|
---|
2204 | def parseMcCallCImpl(oSelf, sName, asParams):
|
---|
2205 | """ IEM_MC_CALL_CIMPL_0|1|2|3|4|5 """
|
---|
2206 | cArgs = int(sName[-1]);
|
---|
2207 | oSelf.checkStmtParamCount(sName, asParams, 2 + cArgs);
|
---|
2208 | oSelf.parseCImplFlags(sName, asParams[0]);
|
---|
2209 | return McStmtCall(sName, asParams, 1);
|
---|
2210 |
|
---|
2211 | @staticmethod
|
---|
2212 | def parseMcDeferToCImpl(oSelf, sName, asParams):
|
---|
2213 | """ IEM_MC_DEFER_TO_CIMPL_[0|1|2|3]_RET """
|
---|
2214 | #print('debug: %s, %s,...' % (sName, asParams[0],));
|
---|
2215 | cArgs = int(sName[-5]);
|
---|
2216 | oSelf.checkStmtParamCount(sName, asParams, 2 + cArgs);
|
---|
2217 | oSelf.parseCImplFlags(sName, asParams[0]);
|
---|
2218 | return McStmtCall(sName, asParams, 1);
|
---|
2219 |
|
---|
2220 | @staticmethod
|
---|
2221 | def stripComments(sCode):
|
---|
2222 | """ Returns sCode with comments removed. """
|
---|
2223 | off = 0;
|
---|
2224 | while off < len(sCode):
|
---|
2225 | off = sCode.find('/', off);
|
---|
2226 | if off < 0 or off + 1 >= len(sCode):
|
---|
2227 | break;
|
---|
2228 |
|
---|
2229 | if sCode[off + 1] == '/':
|
---|
2230 | # C++ comment.
|
---|
2231 | offEnd = sCode.find('\n', off + 2);
|
---|
2232 | if offEnd < 0:
|
---|
2233 | return sCode[:off].rstrip();
|
---|
2234 | sCode = sCode[ : off] + sCode[offEnd : ];
|
---|
2235 | off += 1;
|
---|
2236 |
|
---|
2237 | elif sCode[off + 1] == '*':
|
---|
2238 | # C comment
|
---|
2239 | offEnd = sCode.find('*/', off + 2);
|
---|
2240 | if offEnd < 0:
|
---|
2241 | return sCode[:off].rstrip();
|
---|
2242 | sSep = ' ';
|
---|
2243 | if (off > 0 and sCode[off - 1].isspace()) or (offEnd + 2 < len(sCode) and sCode[offEnd + 2].isspace()):
|
---|
2244 | sSep = '';
|
---|
2245 | sCode = sCode[ : off] + sSep + sCode[offEnd + 2 : ];
|
---|
2246 | off += len(sSep);
|
---|
2247 |
|
---|
2248 | else:
|
---|
2249 | # Not a comment.
|
---|
2250 | off += 1;
|
---|
2251 | return sCode;
|
---|
2252 |
|
---|
2253 | @staticmethod
|
---|
2254 | def extractParam(sCode, offParam):
|
---|
2255 | """
|
---|
2256 | Extracts the parameter value at offParam in sCode.
|
---|
2257 | Returns stripped value and the end offset of the terminating ',' or ')'.
|
---|
2258 | """
|
---|
2259 | # Extract it.
|
---|
2260 | cNesting = 0;
|
---|
2261 | offStart = offParam;
|
---|
2262 | while offParam < len(sCode):
|
---|
2263 | ch = sCode[offParam];
|
---|
2264 | if ch == '(':
|
---|
2265 | cNesting += 1;
|
---|
2266 | elif ch == ')':
|
---|
2267 | if cNesting == 0:
|
---|
2268 | break;
|
---|
2269 | cNesting -= 1;
|
---|
2270 | elif ch == ',' and cNesting == 0:
|
---|
2271 | break;
|
---|
2272 | offParam += 1;
|
---|
2273 | return (sCode[offStart : offParam].strip(), offParam);
|
---|
2274 |
|
---|
2275 | @staticmethod
|
---|
2276 | def extractParams(sCode, offOpenParen):
|
---|
2277 | """
|
---|
2278 | Parses a parameter list.
|
---|
2279 | Returns the list of parameter values and the offset of the closing parentheses.
|
---|
2280 | Returns (None, len(sCode)) on if no closing parentheses was found.
|
---|
2281 | """
|
---|
2282 | assert sCode[offOpenParen] == '(';
|
---|
2283 | asParams = [];
|
---|
2284 | off = offOpenParen + 1;
|
---|
2285 | while off < len(sCode):
|
---|
2286 | ch = sCode[off];
|
---|
2287 | if ch.isspace():
|
---|
2288 | off += 1;
|
---|
2289 | elif ch != ')':
|
---|
2290 | (sParam, off) = McBlock.extractParam(sCode, off);
|
---|
2291 | asParams.append(sParam);
|
---|
2292 | assert off < len(sCode), 'off=%s sCode=%s:"%s"' % (off, len(sCode), sCode,);
|
---|
2293 | if sCode[off] == ',':
|
---|
2294 | off += 1;
|
---|
2295 | else:
|
---|
2296 | return (asParams, off);
|
---|
2297 | return (None, off);
|
---|
2298 |
|
---|
2299 | @staticmethod
|
---|
2300 | def findClosingBraces(sCode, off, offStop):
|
---|
2301 | """
|
---|
2302 | Finds the matching '}' for the '{' at off in sCode.
|
---|
2303 | Returns offset of the matching '}' on success, otherwise -1.
|
---|
2304 |
|
---|
2305 | Note! Does not take comments into account.
|
---|
2306 | """
|
---|
2307 | cDepth = 1;
|
---|
2308 | off += 1;
|
---|
2309 | while off < offStop:
|
---|
2310 | offClose = sCode.find('}', off, offStop);
|
---|
2311 | if offClose < 0:
|
---|
2312 | break;
|
---|
2313 | cDepth += sCode.count('{', off, offClose);
|
---|
2314 | cDepth -= 1;
|
---|
2315 | if cDepth == 0:
|
---|
2316 | return offClose;
|
---|
2317 | off = offClose + 1;
|
---|
2318 | return -1;
|
---|
2319 |
|
---|
2320 | @staticmethod
|
---|
2321 | def countSpacesAt(sCode, off, offStop):
|
---|
2322 | """ Returns the number of space characters at off in sCode. """
|
---|
2323 | offStart = off;
|
---|
2324 | while off < offStop and sCode[off].isspace():
|
---|
2325 | off += 1;
|
---|
2326 | return off - offStart;
|
---|
2327 |
|
---|
2328 | @staticmethod
|
---|
2329 | def skipSpacesAt(sCode, off, offStop):
|
---|
2330 | """ Returns first offset at or after off for a non-space character. """
|
---|
2331 | return off + McBlock.countSpacesAt(sCode, off, offStop);
|
---|
2332 |
|
---|
2333 | @staticmethod
|
---|
2334 | def isSubstrAt(sStr, off, sSubStr):
|
---|
2335 | """ Returns true of sSubStr is found at off in sStr. """
|
---|
2336 | return sStr[off : off + len(sSubStr)] == sSubStr;
|
---|
2337 |
|
---|
2338 | koReCppCtrlStmts = re.compile(r'\b(if\s*[(]|else\b|while\s*[(]|for\s*[(]|do\b)');
|
---|
2339 | koReIemDecoderVars = re.compile( r'iem\.s\.(fPrefixes|uRexReg|uRexB|uRexIndex|iEffSeg|offModRm|cbOpcode|offOpcode'
|
---|
2340 | + r'|enmEffOpSize|enmDefOpSize|enmDefAddrMode|enmEffAddrMode|idxPrefix'
|
---|
2341 | + r'|uVex3rdReg|uVexLength|fEvxStuff|uFpuOpcode|abOpcode'
|
---|
2342 | + r')');
|
---|
2343 |
|
---|
2344 | def decodeCode(self, sRawCode, off = 0, offStop = -1, iLevel = 0): # pylint: disable=too-many-statements,too-many-branches
|
---|
2345 | """
|
---|
2346 | Decodes sRawCode[off : offStop].
|
---|
2347 |
|
---|
2348 | Returns list of McStmt instances.
|
---|
2349 | Raises ParserException on failure.
|
---|
2350 | """
|
---|
2351 | if offStop < 0:
|
---|
2352 | offStop = len(sRawCode);
|
---|
2353 | aoStmts = [];
|
---|
2354 | while off < offStop:
|
---|
2355 | ch = sRawCode[off];
|
---|
2356 |
|
---|
2357 | #
|
---|
2358 | # Skip spaces and comments.
|
---|
2359 | #
|
---|
2360 | if ch.isspace():
|
---|
2361 | off += 1;
|
---|
2362 |
|
---|
2363 | elif ch == '/':
|
---|
2364 | ch = sRawCode[off + 1];
|
---|
2365 | if ch == '/': # C++ comment.
|
---|
2366 | off = sRawCode.find('\n', off + 2);
|
---|
2367 | if off < 0:
|
---|
2368 | break;
|
---|
2369 | off += 1;
|
---|
2370 | elif ch == '*': # C comment.
|
---|
2371 | off = sRawCode.find('*/', off + 2);
|
---|
2372 | if off < 0:
|
---|
2373 | break;
|
---|
2374 | off += 2;
|
---|
2375 | else:
|
---|
2376 | self.raiseDecodeError(sRawCode, off, 'Unexpected "/"');
|
---|
2377 |
|
---|
2378 | #
|
---|
2379 | # Is it a MC statement.
|
---|
2380 | #
|
---|
2381 | elif ch == 'I' and sRawCode[off : off + len('IEM_MC_')] == 'IEM_MC_':
|
---|
2382 | # All MC statements ends with a semicolon, except for conditionals which ends with a '{'.
|
---|
2383 | # Extract it and strip comments from it.
|
---|
2384 | if not self.isSubstrAt(sRawCode, off, 'IEM_MC_IF_'):
|
---|
2385 | offEnd = sRawCode.find(';', off + len('IEM_MC_'));
|
---|
2386 | if offEnd <= off:
|
---|
2387 | self.raiseDecodeError(sRawCode, off, 'MC statement without a ";"');
|
---|
2388 | else:
|
---|
2389 | offEnd = sRawCode.find('{', off + len('IEM_MC_IF_'));
|
---|
2390 | if offEnd <= off:
|
---|
2391 | self.raiseDecodeError(sRawCode, off, 'MC conditional statement without a "{"');
|
---|
2392 | if sRawCode.find(';', off + len('IEM_MC_IF_'), offEnd) > off:
|
---|
2393 | self.raiseDecodeError(sRawCode, off, 'MC conditional statement without an immediate "{"');
|
---|
2394 | offEnd -= 1;
|
---|
2395 | while offEnd > off and sRawCode[offEnd - 1].isspace():
|
---|
2396 | offEnd -= 1;
|
---|
2397 |
|
---|
2398 | sRawStmt = self.stripComments(sRawCode[off : offEnd]);
|
---|
2399 |
|
---|
2400 | # Isolate the statement name.
|
---|
2401 | offOpenParen = sRawStmt.find('(');
|
---|
2402 | if offOpenParen < 0:
|
---|
2403 | self.raiseDecodeError(sRawCode, off, 'MC statement without a "("');
|
---|
2404 | sName = sRawStmt[: offOpenParen].strip();
|
---|
2405 |
|
---|
2406 | # Extract the parameters.
|
---|
2407 | (asParams, offCloseParen) = self.extractParams(sRawStmt, offOpenParen);
|
---|
2408 | if asParams is None:
|
---|
2409 | self.raiseDecodeError(sRawCode, off, 'MC statement without a closing parenthesis');
|
---|
2410 | if offCloseParen + 1 != len(sRawStmt):
|
---|
2411 | self.raiseDecodeError(sRawCode, off,
|
---|
2412 | 'Unexpected code following MC statement: %s' % (sRawStmt[offCloseParen + 1:]));
|
---|
2413 |
|
---|
2414 | # Hand it to the handler.
|
---|
2415 | fnParser = g_dMcStmtParsers.get(sName)[0];
|
---|
2416 | if not fnParser:
|
---|
2417 | self.raiseDecodeError(sRawCode, off, 'Unknown MC statement: %s' % (sName,));
|
---|
2418 | oStmt = fnParser(self, sName, asParams);
|
---|
2419 | if not isinstance(oStmt, (list, tuple)):
|
---|
2420 | aoStmts.append(oStmt);
|
---|
2421 | else:
|
---|
2422 | aoStmts.extend(oStmt);
|
---|
2423 |
|
---|
2424 | #
|
---|
2425 | # If conditional, we need to parse the whole statement.
|
---|
2426 | #
|
---|
2427 | # For reasons of simplicity, we assume the following structure
|
---|
2428 | # and parse each branch in a recursive call:
|
---|
2429 | # IEM_MC_IF_XXX() {
|
---|
2430 | # IEM_MC_WHATEVER();
|
---|
2431 | # } IEM_MC_ELSE() {
|
---|
2432 | # IEM_MC_WHATEVER();
|
---|
2433 | # } IEM_MC_ENDIF();
|
---|
2434 | #
|
---|
2435 | if sName.startswith('IEM_MC_IF_'):
|
---|
2436 | if iLevel > 1:
|
---|
2437 | self.raiseDecodeError(sRawCode, off, 'Too deep nesting of conditionals.');
|
---|
2438 |
|
---|
2439 | # Find start of the IF block:
|
---|
2440 | offBlock1 = self.skipSpacesAt(sRawCode, offEnd, offStop);
|
---|
2441 | if sRawCode[offBlock1] != '{':
|
---|
2442 | self.raiseDecodeError(sRawCode, offBlock1, 'Expected "{" following %s' % (sName,));
|
---|
2443 |
|
---|
2444 | # Find the end of it.
|
---|
2445 | offBlock1End = self.findClosingBraces(sRawCode, offBlock1, offStop);
|
---|
2446 | if offBlock1End < 0:
|
---|
2447 | self.raiseDecodeError(sRawCode, offBlock1, 'No matching "}" closing IF block of %s' % (sName,));
|
---|
2448 |
|
---|
2449 | oStmt.aoIfBranch = self.decodeCode(sRawCode, offBlock1 + 1, offBlock1End, iLevel + 1);
|
---|
2450 |
|
---|
2451 | # Is there an else section?
|
---|
2452 | off = self.skipSpacesAt(sRawCode, offBlock1End + 1, offStop);
|
---|
2453 | if self.isSubstrAt(sRawCode, off, 'IEM_MC_ELSE'):
|
---|
2454 | off = self.skipSpacesAt(sRawCode, off + len('IEM_MC_ELSE'), offStop);
|
---|
2455 | if sRawCode[off] != '(':
|
---|
2456 | self.raiseDecodeError(sRawCode, off, 'Expected "(" following IEM_MC_ELSE"');
|
---|
2457 | off = self.skipSpacesAt(sRawCode, off + 1, offStop);
|
---|
2458 | if sRawCode[off] != ')':
|
---|
2459 | self.raiseDecodeError(sRawCode, off, 'Expected ")" following IEM_MC_ELSE("');
|
---|
2460 |
|
---|
2461 | # Find start of the ELSE block.
|
---|
2462 | offBlock2 = self.skipSpacesAt(sRawCode, off + 1, offStop);
|
---|
2463 | if sRawCode[offBlock2] != '{':
|
---|
2464 | self.raiseDecodeError(sRawCode, offBlock2, 'Expected "{" following IEM_MC_ELSE()"');
|
---|
2465 |
|
---|
2466 | # Find the end of it.
|
---|
2467 | offBlock2End = self.findClosingBraces(sRawCode, offBlock2, offStop);
|
---|
2468 | if offBlock2End < 0:
|
---|
2469 | self.raiseDecodeError(sRawCode, offBlock2, 'No matching "}" closing ELSE block of %s' % (sName,));
|
---|
2470 |
|
---|
2471 | oStmt.aoElseBranch = self.decodeCode(sRawCode, offBlock2 + 1, offBlock2End, iLevel + 1);
|
---|
2472 | off = self.skipSpacesAt(sRawCode, offBlock2End + 1, offStop);
|
---|
2473 |
|
---|
2474 | # Parse past the endif statement.
|
---|
2475 | if not self.isSubstrAt(sRawCode, off, 'IEM_MC_ENDIF'):
|
---|
2476 | self.raiseDecodeError(sRawCode, off, 'Expected IEM_MC_ENDIF for closing %s' % (sName,));
|
---|
2477 | off = self.skipSpacesAt(sRawCode, off + len('IEM_MC_ENDIF'), offStop);
|
---|
2478 | if sRawCode[off] != '(':
|
---|
2479 | self.raiseDecodeError(sRawCode, off, 'Expected "(" following IEM_MC_ENDIF"');
|
---|
2480 | off = self.skipSpacesAt(sRawCode, off + 1, offStop);
|
---|
2481 | if sRawCode[off] != ')':
|
---|
2482 | self.raiseDecodeError(sRawCode, off, 'Expected ")" following IEM_MC_ENDIF("');
|
---|
2483 | off = self.skipSpacesAt(sRawCode, off + 1, offStop);
|
---|
2484 | if sRawCode[off] != ';':
|
---|
2485 | self.raiseDecodeError(sRawCode, off, 'Expected ";" following IEM_MC_ENDIF()"');
|
---|
2486 | off += 1;
|
---|
2487 |
|
---|
2488 | else:
|
---|
2489 | # Advance.
|
---|
2490 | off = offEnd + 1;
|
---|
2491 |
|
---|
2492 | #
|
---|
2493 | # Otherwise it must be a C/C++ statement of sorts.
|
---|
2494 | #
|
---|
2495 | else:
|
---|
2496 | # Find the end of the statement. if and else requires special handling.
|
---|
2497 | sCondExpr = None;
|
---|
2498 | oMatch = self.koReCppCtrlStmts.match(sRawCode, off);
|
---|
2499 | if oMatch:
|
---|
2500 | if oMatch.group(1)[-1] == '(':
|
---|
2501 | (sCondExpr, offEnd) = self.extractParam(sRawCode, oMatch.end());
|
---|
2502 | else:
|
---|
2503 | offEnd = oMatch.end();
|
---|
2504 | if not oMatch.group(1).startswith('if') and oMatch.group(1) != 'else':
|
---|
2505 | self.raiseDecodeError(sRawCode, off, 'Only if/else control statements allowed: %s' % (oMatch.group(1),));
|
---|
2506 | elif ch == '#':
|
---|
2507 | offEnd = sRawCode.find('\n', off, offStop);
|
---|
2508 | if offEnd < 0:
|
---|
2509 | offEnd = offStop;
|
---|
2510 | offEnd -= 1;
|
---|
2511 | while offEnd > off and sRawCode[offEnd - 1].isspace():
|
---|
2512 | offEnd -= 1;
|
---|
2513 | else:
|
---|
2514 | offEnd = sRawCode.find(';', off);
|
---|
2515 | if offEnd < 0:
|
---|
2516 | self.raiseDecodeError(sRawCode, off, 'C++ statement without a ";"');
|
---|
2517 |
|
---|
2518 | # Check this and the following statement whether it might have
|
---|
2519 | # something to do with decoding. This is a statement filter
|
---|
2520 | # criteria when generating the threaded functions blocks.
|
---|
2521 | offNextEnd = sRawCode.find(';', offEnd + 1);
|
---|
2522 | fDecode = ( sRawCode.find('IEM_OPCODE_', off, max(offEnd, offNextEnd)) >= 0
|
---|
2523 | or sRawCode.find('IEMOP_HLP_DONE_', off, max(offEnd, offNextEnd)) >= 0
|
---|
2524 | or sRawCode.find('IEMOP_HLP_DECODED_', off, offEnd) >= 0
|
---|
2525 | or sRawCode.find('IEMOP_HLP_RAISE_UD_IF_MISSING_GUEST_FEATURE', off, offEnd) >= 0
|
---|
2526 | or sRawCode.find('IEMOP_HLP_VMX_INSTR', off, offEnd) >= 0
|
---|
2527 | or sRawCode.find('IEMOP_HLP_IN_VMX_OPERATION', off, offEnd) >= 0 ## @todo wrong
|
---|
2528 | );
|
---|
2529 |
|
---|
2530 | if not oMatch:
|
---|
2531 | if ch != '#':
|
---|
2532 | aoStmts.append(McCppGeneric(sRawCode[off : offEnd + 1], fDecode));
|
---|
2533 | else:
|
---|
2534 | aoStmts.append(McCppPreProc(sRawCode[off : offEnd + 1]));
|
---|
2535 | off = offEnd + 1;
|
---|
2536 | elif oMatch.group(1).startswith('if'):
|
---|
2537 | #
|
---|
2538 | # if () xxx [else yyy] statement.
|
---|
2539 | #
|
---|
2540 | oStmt = McCppCond(sCondExpr, fDecode);
|
---|
2541 | aoStmts.append(oStmt);
|
---|
2542 | off = offEnd + 1;
|
---|
2543 |
|
---|
2544 | # Following the if () we can either have a {} containing zero or more statements
|
---|
2545 | # or we have a single statement.
|
---|
2546 | offBlock1 = self.skipSpacesAt(sRawCode, offEnd + 1, offStop);
|
---|
2547 | if sRawCode[offBlock1] == '{':
|
---|
2548 | offBlock1End = self.findClosingBraces(sRawCode, offBlock1, offStop);
|
---|
2549 | if offBlock1End < 0:
|
---|
2550 | self.raiseDecodeError(sRawCode, offBlock1, 'No matching "}" closing if block');
|
---|
2551 | offBlock1 += 1;
|
---|
2552 | else:
|
---|
2553 | offBlock1End = sRawCode.find(';', offBlock1, offStop);
|
---|
2554 | if offBlock1End < 0:
|
---|
2555 | self.raiseDecodeError(sRawCode, off, 'Expected ";" terminating one-line if block"');
|
---|
2556 |
|
---|
2557 | oStmt.aoIfBranch = self.decodeCode(sRawCode, offBlock1, offBlock1End, iLevel + 1);
|
---|
2558 |
|
---|
2559 | # The else is optional and can likewise be followed by {} or a single statement.
|
---|
2560 | off = self.skipSpacesAt(sRawCode, offBlock1End + 1, offStop);
|
---|
2561 | if self.isSubstrAt(sRawCode, off, 'else') and sRawCode[off + len('else')].isspace():
|
---|
2562 | offBlock2 = self.skipSpacesAt(sRawCode, off + len('else'), offStop);
|
---|
2563 | if sRawCode[offBlock2] == '{':
|
---|
2564 | offBlock2End = self.findClosingBraces(sRawCode, offBlock2, offStop);
|
---|
2565 | if offBlock2End < 0:
|
---|
2566 | self.raiseDecodeError(sRawCode, offBlock2, 'No matching "}" closing else block');
|
---|
2567 | offBlock2 += 1;
|
---|
2568 | else:
|
---|
2569 | offBlock2End = sRawCode.find(';', offBlock2, offStop);
|
---|
2570 | if offBlock2End < 0:
|
---|
2571 | self.raiseDecodeError(sRawCode, off, 'Expected ";" terminating one-line else block"');
|
---|
2572 |
|
---|
2573 | oStmt.aoElseBranch = self.decodeCode(sRawCode, offBlock2, offBlock2End, iLevel + 1);
|
---|
2574 | off = offBlock2End + 1;
|
---|
2575 |
|
---|
2576 | elif oMatch.group(1) == 'else':
|
---|
2577 | # Problematic 'else' branch, typically involving #ifdefs.
|
---|
2578 | self.raiseDecodeError(sRawCode, off, 'Mixed up else/#ifdef or something confusing us.');
|
---|
2579 |
|
---|
2580 | return aoStmts;
|
---|
2581 |
|
---|
2582 | def decode(self):
|
---|
2583 | """
|
---|
2584 | Decodes the block, populating self.aoStmts if necessary.
|
---|
2585 | Returns the statement list.
|
---|
2586 | Raises ParserException on failure.
|
---|
2587 | """
|
---|
2588 | if not self.aoStmts:
|
---|
2589 | self.aoStmts = self.decodeCode(''.join(self.asLines));
|
---|
2590 | return self.aoStmts;
|
---|
2591 |
|
---|
2592 |
|
---|
2593 | def checkForTooEarlyEffSegUse(self, aoStmts):
|
---|
2594 | """
|
---|
2595 | Checks if iEffSeg is used before the effective address has been decoded.
|
---|
2596 | Returns None on success, error string on failure.
|
---|
2597 |
|
---|
2598 | See r158454 for an example of this issue.
|
---|
2599 | """
|
---|
2600 |
|
---|
2601 | # Locate the IEM_MC_CALC_RM_EFF_ADDR statement, if found, scan backwards
|
---|
2602 | # for IEMCPU::iEffSeg references. No need to check conditional branches,
|
---|
2603 | # as we're ASSUMING these will not occur before address calculation.
|
---|
2604 | for iStmt, oStmt in enumerate(aoStmts):
|
---|
2605 | if oStmt.sName == 'IEM_MC_CALC_RM_EFF_ADDR':
|
---|
2606 | while iStmt > 0:
|
---|
2607 | iStmt -= 1;
|
---|
2608 | oStmt = aoStmts[iStmt];
|
---|
2609 | for sArg in oStmt.asParams:
|
---|
2610 | if sArg.find('pVCpu->iem.s.iEffSeg') >= 0:
|
---|
2611 | return "statement #%u: pVCpu->iem.s.iEffSeg is used prior to IEM_MC_CALC_RM_EFF_ADDR!" % (iStmt + 1,);
|
---|
2612 | break;
|
---|
2613 | return None;
|
---|
2614 |
|
---|
2615 | koReCppFirstWord = re.compile(r'^\s*(\w+)[ (;]');
|
---|
2616 | kdDecodeCppStmtOkayAfterDone = {
|
---|
2617 | 'IEMOP_HLP_IN_VMX_OPERATION': True,
|
---|
2618 | 'IEMOP_HLP_VMX_INSTR': True,
|
---|
2619 | };
|
---|
2620 |
|
---|
2621 | def checkForDoneDecoding(self, aoStmts):
|
---|
2622 | """
|
---|
2623 | Checks that the block contains a IEMOP_HLP_DONE_*DECODING* macro
|
---|
2624 | invocation.
|
---|
2625 | Returns None on success, error string on failure.
|
---|
2626 |
|
---|
2627 | This ensures safe instruction restarting in case the recompiler runs
|
---|
2628 | out of TB resources during recompilation (e.g. aRanges or aGCPhysPages
|
---|
2629 | entries).
|
---|
2630 | """
|
---|
2631 |
|
---|
2632 | # The IEMOP_HLP_DONE_ stuff is not allowed inside conditionals, so we
|
---|
2633 | # don't need to look.
|
---|
2634 | cIemOpHlpDone = 0;
|
---|
2635 | for iStmt, oStmt in enumerate(aoStmts):
|
---|
2636 | if oStmt.isCppStmt():
|
---|
2637 | #print('dbg: #%u[%u]: %s %s (%s)'
|
---|
2638 | # % (iStmt + 1, cIemOpHlpDone, oStmt.sName, 'd' if oStmt.fDecode else 'r', oStmt.asParams[0],));
|
---|
2639 |
|
---|
2640 | oMatch = self.koReCppFirstWord.match(oStmt.asParams[0]);
|
---|
2641 | if oMatch:
|
---|
2642 | sFirstWord = oMatch.group(1);
|
---|
2643 | if ( sFirstWord.startswith('IEMOP_HLP_DONE_')
|
---|
2644 | or sFirstWord.startswith('IEMOP_HLP_DECODED_')):
|
---|
2645 | cIemOpHlpDone += 1;
|
---|
2646 | elif cIemOpHlpDone > 0 and oStmt.fDecode and sFirstWord not in self.kdDecodeCppStmtOkayAfterDone:
|
---|
2647 | return "statement #%u: Decoding statement following IEMOP_HLP_DONE_*DECODING*!" % (iStmt + 1,);
|
---|
2648 | #else: print('dbg: #%u[%u]: %s' % (iStmt + 1, cIemOpHlpDone, oStmt.asParams[0]));
|
---|
2649 | else:
|
---|
2650 | #print('dbg: #%u[%u]: %s' % (iStmt + 1, cIemOpHlpDone, oStmt.sName));
|
---|
2651 | if oStmt.sName.startswith('IEM_MC_DEFER_TO_CIMPL_') and iStmt == 0: # implicit
|
---|
2652 | cIemOpHlpDone += 1;
|
---|
2653 | elif cIemOpHlpDone == 0 and g_dMcStmtParsers.get(oStmt.sName, (None, False))[1]:
|
---|
2654 | return "statement #%u: State modifying MC statement before IEMOP_HLP_DONE_*DECODING*!" % (iStmt + 1,);
|
---|
2655 | elif cIemOpHlpDone > 0 and oStmt.sName in ('IEM_MC_CALC_RM_EFF_ADDR',):
|
---|
2656 | return "statement #%u: Decoding statement following IEMOP_HLP_DONE_*DECODING*!" % (iStmt + 1,);
|
---|
2657 | if cIemOpHlpDone == 1:
|
---|
2658 | return None;
|
---|
2659 | if cIemOpHlpDone > 1:
|
---|
2660 | return "Block has more than one IEMOP_HLP_DONE_*DECODING* invocation!";
|
---|
2661 | return "Block is missing IEMOP_HLP_DONE_*DECODING* invocation!";
|
---|
2662 |
|
---|
2663 | def check(self):
|
---|
2664 | """
|
---|
2665 | Performs some sanity checks on the block.
|
---|
2666 | Returns error string list, empty if all is fine.
|
---|
2667 | """
|
---|
2668 | aoStmts = self.decode();
|
---|
2669 | asRet = [];
|
---|
2670 |
|
---|
2671 | sRet = self.checkForTooEarlyEffSegUse(aoStmts);
|
---|
2672 | if sRet:
|
---|
2673 | asRet.append(sRet);
|
---|
2674 |
|
---|
2675 | sRet = self.checkForDoneDecoding(aoStmts);
|
---|
2676 | if sRet:
|
---|
2677 | asRet.append(sRet);
|
---|
2678 |
|
---|
2679 | return asRet;
|
---|
2680 |
|
---|
2681 |
|
---|
2682 |
|
---|
2683 | ## IEM_MC_XXX -> parser + info dictionary.
|
---|
2684 | #
|
---|
2685 | # The info columns:
|
---|
2686 | # - col 0: boolean entry indicating whether the statement modifies state and
|
---|
2687 | # must not be used before IEMOP_HL_DONE_*.
|
---|
2688 | # - col 1: boolean entry indicating native recompiler support.
|
---|
2689 | #
|
---|
2690 | # The raw table was generated via the following command
|
---|
2691 | # sed -n -e "s/^# *define *\(IEM_MC_[A-Z_0-9]*\)[ (].*$/ '\1': McBlock.parseMcGeneric,/p" include/IEMMc.h \
|
---|
2692 | # | sort | uniq | gawk "{printf """ %%-60s (%%s, True)\n""", $1, $2}"
|
---|
2693 | g_dMcStmtParsers = {
|
---|
2694 | 'IEM_MC_ACTUALIZE_AVX_STATE_FOR_CHANGE': (McBlock.parseMcGeneric, False, False, ),
|
---|
2695 | 'IEM_MC_ACTUALIZE_AVX_STATE_FOR_READ': (McBlock.parseMcGeneric, False, False, ),
|
---|
2696 | 'IEM_MC_ACTUALIZE_FPU_STATE_FOR_CHANGE': (McBlock.parseMcGeneric, False, False, ),
|
---|
2697 | 'IEM_MC_ACTUALIZE_FPU_STATE_FOR_READ': (McBlock.parseMcGeneric, False, False, ),
|
---|
2698 | 'IEM_MC_ACTUALIZE_SSE_STATE_FOR_CHANGE': (McBlock.parseMcGeneric, False, False, ),
|
---|
2699 | 'IEM_MC_ACTUALIZE_SSE_STATE_FOR_READ': (McBlock.parseMcGeneric, False, False, ),
|
---|
2700 | 'IEM_MC_ADD_GREG_U16': (McBlock.parseMcGeneric, True, False, ),
|
---|
2701 | 'IEM_MC_ADD_GREG_U16_TO_LOCAL': (McBlock.parseMcGeneric, False, False, ),
|
---|
2702 | 'IEM_MC_ADD_GREG_U32': (McBlock.parseMcGeneric, True, False, ),
|
---|
2703 | 'IEM_MC_ADD_GREG_U32_TO_LOCAL': (McBlock.parseMcGeneric, False, False, ),
|
---|
2704 | 'IEM_MC_ADD_GREG_U64': (McBlock.parseMcGeneric, True, False, ),
|
---|
2705 | 'IEM_MC_ADD_GREG_U64_TO_LOCAL': (McBlock.parseMcGeneric, False, False, ),
|
---|
2706 | 'IEM_MC_ADD_GREG_U8': (McBlock.parseMcGeneric, True, False, ),
|
---|
2707 | 'IEM_MC_ADD_GREG_U8_TO_LOCAL': (McBlock.parseMcGeneric, False, False, ),
|
---|
2708 | 'IEM_MC_ADD_LOCAL_S16_TO_EFF_ADDR': (McBlock.parseMcGeneric, True, False, ),
|
---|
2709 | 'IEM_MC_ADD_LOCAL_S32_TO_EFF_ADDR': (McBlock.parseMcGeneric, True, False, ),
|
---|
2710 | 'IEM_MC_ADD_LOCAL_S64_TO_EFF_ADDR': (McBlock.parseMcGeneric, True, False, ),
|
---|
2711 | 'IEM_MC_ADVANCE_RIP_AND_FINISH': (McBlock.parseMcGeneric, True, True, ),
|
---|
2712 | 'IEM_MC_AND_2LOCS_U32': (McBlock.parseMcGeneric, False, False, ),
|
---|
2713 | 'IEM_MC_AND_ARG_U16': (McBlock.parseMcGeneric, False, False, ),
|
---|
2714 | 'IEM_MC_AND_ARG_U32': (McBlock.parseMcGeneric, False, False, ),
|
---|
2715 | 'IEM_MC_AND_ARG_U64': (McBlock.parseMcGeneric, False, False, ),
|
---|
2716 | 'IEM_MC_AND_GREG_U16': (McBlock.parseMcGeneric, True, False, ),
|
---|
2717 | 'IEM_MC_AND_GREG_U32': (McBlock.parseMcGeneric, True, False, ),
|
---|
2718 | 'IEM_MC_AND_GREG_U64': (McBlock.parseMcGeneric, True, False, ),
|
---|
2719 | 'IEM_MC_AND_GREG_U8': (McBlock.parseMcGeneric, True, False, ),
|
---|
2720 | 'IEM_MC_AND_LOCAL_U16': (McBlock.parseMcGeneric, False, False, ),
|
---|
2721 | 'IEM_MC_AND_LOCAL_U32': (McBlock.parseMcGeneric, False, False, ),
|
---|
2722 | 'IEM_MC_AND_LOCAL_U64': (McBlock.parseMcGeneric, False, False, ),
|
---|
2723 | 'IEM_MC_AND_LOCAL_U8': (McBlock.parseMcGeneric, False, False, ),
|
---|
2724 | 'IEM_MC_ARG': (McBlock.parseMcArg, False, False, ),
|
---|
2725 | 'IEM_MC_ARG_CONST': (McBlock.parseMcArgConst, False, False, ),
|
---|
2726 | 'IEM_MC_ARG_LOCAL_EFLAGS': (McBlock.parseMcArgLocalEFlags, False, False, ),
|
---|
2727 | 'IEM_MC_ARG_LOCAL_REF': (McBlock.parseMcArgLocalRef, False, False, ),
|
---|
2728 | 'IEM_MC_ASSIGN': (McBlock.parseMcGeneric, False, False, ),
|
---|
2729 | 'IEM_MC_ASSIGN_TO_SMALLER': (McBlock.parseMcGeneric, False, False, ),
|
---|
2730 | 'IEM_MC_ASSIGN_U8_SX_U64': (McBlock.parseMcGeneric, False, False, ),
|
---|
2731 | 'IEM_MC_ASSIGN_U32_SX_U64': (McBlock.parseMcGeneric, False, False, ),
|
---|
2732 | 'IEM_MC_BEGIN': (McBlock.parseMcBegin, False, True, ),
|
---|
2733 | 'IEM_MC_BROADCAST_XREG_U16_ZX_VLMAX': (McBlock.parseMcGeneric, True, False, ),
|
---|
2734 | 'IEM_MC_BROADCAST_XREG_U32_ZX_VLMAX': (McBlock.parseMcGeneric, True, False, ),
|
---|
2735 | 'IEM_MC_BROADCAST_XREG_U64_ZX_VLMAX': (McBlock.parseMcGeneric, True, False, ),
|
---|
2736 | 'IEM_MC_BROADCAST_XREG_U8_ZX_VLMAX': (McBlock.parseMcGeneric, True, False, ),
|
---|
2737 | 'IEM_MC_BROADCAST_YREG_U128_ZX_VLMAX': (McBlock.parseMcGeneric, True, False, ),
|
---|
2738 | 'IEM_MC_BROADCAST_YREG_U16_ZX_VLMAX': (McBlock.parseMcGeneric, True, False, ),
|
---|
2739 | 'IEM_MC_BROADCAST_YREG_U32_ZX_VLMAX': (McBlock.parseMcGeneric, True, False, ),
|
---|
2740 | 'IEM_MC_BROADCAST_YREG_U64_ZX_VLMAX': (McBlock.parseMcGeneric, True, False, ),
|
---|
2741 | 'IEM_MC_BROADCAST_YREG_U8_ZX_VLMAX': (McBlock.parseMcGeneric, True, False, ),
|
---|
2742 | 'IEM_MC_BSWAP_LOCAL_U16': (McBlock.parseMcGeneric, False, False, ),
|
---|
2743 | 'IEM_MC_BSWAP_LOCAL_U32': (McBlock.parseMcGeneric, False, False, ),
|
---|
2744 | 'IEM_MC_BSWAP_LOCAL_U64': (McBlock.parseMcGeneric, False, False, ),
|
---|
2745 | 'IEM_MC_CALC_RM_EFF_ADDR': (McBlock.parseMcGeneric, False, False, ),
|
---|
2746 | 'IEM_MC_CALL_AIMPL_3': (McBlock.parseMcCallAImpl, True, False, ),
|
---|
2747 | 'IEM_MC_CALL_AIMPL_4': (McBlock.parseMcCallAImpl, True, False, ),
|
---|
2748 | 'IEM_MC_CALL_AVX_AIMPL_2': (McBlock.parseMcCallAvxAImpl, True, False, ),
|
---|
2749 | 'IEM_MC_CALL_AVX_AIMPL_3': (McBlock.parseMcCallAvxAImpl, True, False, ),
|
---|
2750 | 'IEM_MC_CALL_CIMPL_0': (McBlock.parseMcCallCImpl, True, False, ),
|
---|
2751 | 'IEM_MC_CALL_CIMPL_1': (McBlock.parseMcCallCImpl, True, False, ),
|
---|
2752 | 'IEM_MC_CALL_CIMPL_2': (McBlock.parseMcCallCImpl, True, False, ),
|
---|
2753 | 'IEM_MC_CALL_CIMPL_3': (McBlock.parseMcCallCImpl, True, False, ),
|
---|
2754 | 'IEM_MC_CALL_CIMPL_4': (McBlock.parseMcCallCImpl, True, False, ),
|
---|
2755 | 'IEM_MC_CALL_CIMPL_5': (McBlock.parseMcCallCImpl, True, False, ),
|
---|
2756 | 'IEM_MC_CALL_FPU_AIMPL_1': (McBlock.parseMcCallFpuAImpl, True, False, ),
|
---|
2757 | 'IEM_MC_CALL_FPU_AIMPL_2': (McBlock.parseMcCallFpuAImpl, True, False, ),
|
---|
2758 | 'IEM_MC_CALL_FPU_AIMPL_3': (McBlock.parseMcCallFpuAImpl, True, False, ),
|
---|
2759 | 'IEM_MC_CALL_MMX_AIMPL_2': (McBlock.parseMcCallMmxAImpl, True, False, ),
|
---|
2760 | 'IEM_MC_CALL_MMX_AIMPL_3': (McBlock.parseMcCallMmxAImpl, True, False, ),
|
---|
2761 | 'IEM_MC_CALL_SSE_AIMPL_2': (McBlock.parseMcCallSseAImpl, True, False, ),
|
---|
2762 | 'IEM_MC_CALL_SSE_AIMPL_3': (McBlock.parseMcCallSseAImpl, True, False, ),
|
---|
2763 | 'IEM_MC_CALL_VOID_AIMPL_0': (McBlock.parseMcCallVoidAImpl, True, False, ),
|
---|
2764 | 'IEM_MC_CALL_VOID_AIMPL_1': (McBlock.parseMcCallVoidAImpl, True, False, ),
|
---|
2765 | 'IEM_MC_CALL_VOID_AIMPL_2': (McBlock.parseMcCallVoidAImpl, True, False, ),
|
---|
2766 | 'IEM_MC_CALL_VOID_AIMPL_3': (McBlock.parseMcCallVoidAImpl, True, False, ),
|
---|
2767 | 'IEM_MC_CALL_VOID_AIMPL_4': (McBlock.parseMcCallVoidAImpl, True, False, ),
|
---|
2768 | 'IEM_MC_CLEAR_EFL_BIT': (McBlock.parseMcGeneric, True, False, ),
|
---|
2769 | 'IEM_MC_CLEAR_FSW_EX': (McBlock.parseMcGeneric, True, False, ),
|
---|
2770 | 'IEM_MC_CLEAR_HIGH_GREG_U64': (McBlock.parseMcGeneric, True, False, ),
|
---|
2771 | 'IEM_MC_CLEAR_HIGH_GREG_U64_BY_REF': (McBlock.parseMcGeneric, True, False, ),
|
---|
2772 | 'IEM_MC_CLEAR_XREG_U32_MASK': (McBlock.parseMcGeneric, True, False, ),
|
---|
2773 | 'IEM_MC_CLEAR_YREG_128_UP': (McBlock.parseMcGeneric, True, False, ),
|
---|
2774 | 'IEM_MC_COMMIT_EFLAGS': (McBlock.parseMcGeneric, True, False, ),
|
---|
2775 | 'IEM_MC_COPY_XREG_U128': (McBlock.parseMcGeneric, True, False, ),
|
---|
2776 | 'IEM_MC_COPY_YREG_U128_ZX_VLMAX': (McBlock.parseMcGeneric, True, False, ),
|
---|
2777 | 'IEM_MC_COPY_YREG_U256_ZX_VLMAX': (McBlock.parseMcGeneric, True, False, ),
|
---|
2778 | 'IEM_MC_COPY_YREG_U64_ZX_VLMAX': (McBlock.parseMcGeneric, True, False, ),
|
---|
2779 | 'IEM_MC_DEFER_TO_CIMPL_0_RET': (McBlock.parseMcDeferToCImpl, False, False, ),
|
---|
2780 | 'IEM_MC_DEFER_TO_CIMPL_1_RET': (McBlock.parseMcDeferToCImpl, False, False, ),
|
---|
2781 | 'IEM_MC_DEFER_TO_CIMPL_2_RET': (McBlock.parseMcDeferToCImpl, False, False, ),
|
---|
2782 | 'IEM_MC_DEFER_TO_CIMPL_3_RET': (McBlock.parseMcDeferToCImpl, False, False, ),
|
---|
2783 | 'IEM_MC_END': (McBlock.parseMcGeneric, True, True, ),
|
---|
2784 | 'IEM_MC_FETCH_EFLAGS': (McBlock.parseMcGeneric, False, False, ),
|
---|
2785 | 'IEM_MC_FETCH_EFLAGS_U8': (McBlock.parseMcGeneric, False, False, ),
|
---|
2786 | 'IEM_MC_FETCH_FCW': (McBlock.parseMcGeneric, False, False, ),
|
---|
2787 | 'IEM_MC_FETCH_FSW': (McBlock.parseMcGeneric, False, False, ),
|
---|
2788 | 'IEM_MC_FETCH_GREG_U16': (McBlock.parseMcGeneric, False, False, ),
|
---|
2789 | 'IEM_MC_FETCH_GREG_U16_SX_U32': (McBlock.parseMcGeneric, False, False, ),
|
---|
2790 | 'IEM_MC_FETCH_GREG_U16_SX_U64': (McBlock.parseMcGeneric, False, False, ),
|
---|
2791 | 'IEM_MC_FETCH_GREG_U16_ZX_U32': (McBlock.parseMcGeneric, False, False, ),
|
---|
2792 | 'IEM_MC_FETCH_GREG_U16_ZX_U64': (McBlock.parseMcGeneric, False, False, ),
|
---|
2793 | 'IEM_MC_FETCH_GREG_U32': (McBlock.parseMcGeneric, False, False, ),
|
---|
2794 | 'IEM_MC_FETCH_GREG_U32_SX_U64': (McBlock.parseMcGeneric, False, False, ),
|
---|
2795 | 'IEM_MC_FETCH_GREG_U32_ZX_U64': (McBlock.parseMcGeneric, False, False, ),
|
---|
2796 | 'IEM_MC_FETCH_GREG_U64': (McBlock.parseMcGeneric, False, False, ),
|
---|
2797 | 'IEM_MC_FETCH_GREG_U64_ZX_U64': (McBlock.parseMcGeneric, False, False, ),
|
---|
2798 | 'IEM_MC_FETCH_GREG_U8': (McBlock.parseMcGeneric, False, False, ),
|
---|
2799 | 'IEM_MC_FETCH_GREG_U8_SX_U16': (McBlock.parseMcGeneric, False, False, ),
|
---|
2800 | 'IEM_MC_FETCH_GREG_U8_SX_U32': (McBlock.parseMcGeneric, False, False, ),
|
---|
2801 | 'IEM_MC_FETCH_GREG_U8_SX_U64': (McBlock.parseMcGeneric, False, False, ),
|
---|
2802 | 'IEM_MC_FETCH_GREG_U8_ZX_U16': (McBlock.parseMcGeneric, False, False, ),
|
---|
2803 | 'IEM_MC_FETCH_GREG_U8_ZX_U32': (McBlock.parseMcGeneric, False, False, ),
|
---|
2804 | 'IEM_MC_FETCH_GREG_U8_ZX_U64': (McBlock.parseMcGeneric, False, False, ),
|
---|
2805 | 'IEM_MC_FETCH_MEM_D80': (McBlock.parseMcGeneric, True, False, ),
|
---|
2806 | 'IEM_MC_FETCH_MEM_I16': (McBlock.parseMcGeneric, True, False, ),
|
---|
2807 | 'IEM_MC_FETCH_MEM_I32': (McBlock.parseMcGeneric, True, False, ),
|
---|
2808 | 'IEM_MC_FETCH_MEM_I64': (McBlock.parseMcGeneric, True, False, ),
|
---|
2809 | 'IEM_MC_FETCH_MEM_R32': (McBlock.parseMcGeneric, True, False, ),
|
---|
2810 | 'IEM_MC_FETCH_MEM_R64': (McBlock.parseMcGeneric, True, False, ),
|
---|
2811 | 'IEM_MC_FETCH_MEM_R80': (McBlock.parseMcGeneric, True, False, ),
|
---|
2812 | 'IEM_MC_FETCH_MEM_S32_SX_U64': (McBlock.parseMcGeneric, True, False, ),
|
---|
2813 | 'IEM_MC_FETCH_MEM_U128': (McBlock.parseMcGeneric, True, False, ),
|
---|
2814 | 'IEM_MC_FETCH_MEM_U128_ALIGN_SSE': (McBlock.parseMcGeneric, True, False, ),
|
---|
2815 | 'IEM_MC_FETCH_MEM_U128_NO_AC': (McBlock.parseMcGeneric, True, False, ),
|
---|
2816 | 'IEM_MC_FETCH_MEM_U16': (McBlock.parseMcGeneric, True, False, ),
|
---|
2817 | 'IEM_MC_FETCH_MEM_U16_DISP': (McBlock.parseMcGeneric, True, False, ),
|
---|
2818 | 'IEM_MC_FETCH_MEM_U16_SX_U32': (McBlock.parseMcGeneric, True, False, ),
|
---|
2819 | 'IEM_MC_FETCH_MEM_U16_SX_U64': (McBlock.parseMcGeneric, True, False, ),
|
---|
2820 | 'IEM_MC_FETCH_MEM_U16_ZX_U32': (McBlock.parseMcGeneric, True, False, ),
|
---|
2821 | 'IEM_MC_FETCH_MEM_U16_ZX_U64': (McBlock.parseMcGeneric, True, False, ),
|
---|
2822 | 'IEM_MC_FETCH_MEM_U256': (McBlock.parseMcGeneric, True, False, ),
|
---|
2823 | 'IEM_MC_FETCH_MEM_U256_ALIGN_AVX': (McBlock.parseMcGeneric, True, False, ),
|
---|
2824 | 'IEM_MC_FETCH_MEM_U256_NO_AC': (McBlock.parseMcGeneric, True, False, ),
|
---|
2825 | 'IEM_MC_FETCH_MEM_U32': (McBlock.parseMcGeneric, True, False, ),
|
---|
2826 | 'IEM_MC_FETCH_MEM_U32_DISP': (McBlock.parseMcGeneric, True, False, ),
|
---|
2827 | 'IEM_MC_FETCH_MEM_U32_SX_U64': (McBlock.parseMcGeneric, True, False, ),
|
---|
2828 | 'IEM_MC_FETCH_MEM_U32_ZX_U64': (McBlock.parseMcGeneric, True, False, ),
|
---|
2829 | 'IEM_MC_FETCH_MEM_U64': (McBlock.parseMcGeneric, True, False, ),
|
---|
2830 | 'IEM_MC_FETCH_MEM_U64_ALIGN_U128': (McBlock.parseMcGeneric, True, False, ),
|
---|
2831 | 'IEM_MC_FETCH_MEM_U64_DISP': (McBlock.parseMcGeneric, True, False, ),
|
---|
2832 | 'IEM_MC_FETCH_MEM_U8': (McBlock.parseMcGeneric, True, False, ),
|
---|
2833 | 'IEM_MC_FETCH_MEM_U8_SX_U16': (McBlock.parseMcGeneric, True, False, ),
|
---|
2834 | 'IEM_MC_FETCH_MEM_U8_SX_U32': (McBlock.parseMcGeneric, True, False, ),
|
---|
2835 | 'IEM_MC_FETCH_MEM_U8_SX_U64': (McBlock.parseMcGeneric, True, False, ),
|
---|
2836 | 'IEM_MC_FETCH_MEM_U8_ZX_U16': (McBlock.parseMcGeneric, True, False, ),
|
---|
2837 | 'IEM_MC_FETCH_MEM_U8_ZX_U32': (McBlock.parseMcGeneric, True, False, ),
|
---|
2838 | 'IEM_MC_FETCH_MEM_U8_ZX_U64': (McBlock.parseMcGeneric, True, False, ),
|
---|
2839 | 'IEM_MC_FETCH_MEM_XMM': (McBlock.parseMcGeneric, True, False, ),
|
---|
2840 | 'IEM_MC_FETCH_MEM_XMM_ALIGN_SSE': (McBlock.parseMcGeneric, True, False, ),
|
---|
2841 | 'IEM_MC_FETCH_MEM_XMM_NO_AC': (McBlock.parseMcGeneric, True, False, ),
|
---|
2842 | 'IEM_MC_FETCH_MEM_XMM_U32': (McBlock.parseMcGeneric, True, False, ),
|
---|
2843 | 'IEM_MC_FETCH_MEM_XMM_U64': (McBlock.parseMcGeneric, True, False, ),
|
---|
2844 | 'IEM_MC_FETCH_MEM_YMM': (McBlock.parseMcGeneric, True, False, ),
|
---|
2845 | 'IEM_MC_FETCH_MEM_YMM_ALIGN_AVX': (McBlock.parseMcGeneric, True, False, ),
|
---|
2846 | 'IEM_MC_FETCH_MEM_YMM_NO_AC': (McBlock.parseMcGeneric, True, False, ),
|
---|
2847 | 'IEM_MC_FETCH_MEM16_U8': (McBlock.parseMcGeneric, True, False, ),
|
---|
2848 | 'IEM_MC_FETCH_MEM32_U8': (McBlock.parseMcGeneric, True, False, ),
|
---|
2849 | 'IEM_MC_FETCH_MREG_U32': (McBlock.parseMcGeneric, False, False, ),
|
---|
2850 | 'IEM_MC_FETCH_MREG_U64': (McBlock.parseMcGeneric, False, False, ),
|
---|
2851 | 'IEM_MC_FETCH_SREG_BASE_U32': (McBlock.parseMcGeneric, False, False, ),
|
---|
2852 | 'IEM_MC_FETCH_SREG_BASE_U64': (McBlock.parseMcGeneric, False, False, ),
|
---|
2853 | 'IEM_MC_FETCH_SREG_U16': (McBlock.parseMcGeneric, False, False, ),
|
---|
2854 | 'IEM_MC_FETCH_SREG_ZX_U32': (McBlock.parseMcGeneric, False, False, ),
|
---|
2855 | 'IEM_MC_FETCH_SREG_ZX_U64': (McBlock.parseMcGeneric, False, False, ),
|
---|
2856 | 'IEM_MC_FETCH_XREG_U128': (McBlock.parseMcGeneric, False, False, ),
|
---|
2857 | 'IEM_MC_FETCH_XREG_U16': (McBlock.parseMcGeneric, False, False, ),
|
---|
2858 | 'IEM_MC_FETCH_XREG_U32': (McBlock.parseMcGeneric, False, False, ),
|
---|
2859 | 'IEM_MC_FETCH_XREG_U64': (McBlock.parseMcGeneric, False, False, ),
|
---|
2860 | 'IEM_MC_FETCH_XREG_U8': (McBlock.parseMcGeneric, False, False, ),
|
---|
2861 | 'IEM_MC_FETCH_XREG_XMM': (McBlock.parseMcGeneric, False, False, ),
|
---|
2862 | 'IEM_MC_FETCH_YREG_2ND_U64': (McBlock.parseMcGeneric, False, False, ),
|
---|
2863 | 'IEM_MC_FETCH_YREG_U128': (McBlock.parseMcGeneric, False, False, ),
|
---|
2864 | 'IEM_MC_FETCH_YREG_U256': (McBlock.parseMcGeneric, False, False, ),
|
---|
2865 | 'IEM_MC_FETCH_YREG_U32': (McBlock.parseMcGeneric, False, False, ),
|
---|
2866 | 'IEM_MC_FETCH_YREG_U64': (McBlock.parseMcGeneric, False, False, ),
|
---|
2867 | 'IEM_MC_FLIP_EFL_BIT': (McBlock.parseMcGeneric, True, False, ),
|
---|
2868 | 'IEM_MC_FPU_FROM_MMX_MODE': (McBlock.parseMcGeneric, True, False, ),
|
---|
2869 | 'IEM_MC_FPU_STACK_DEC_TOP': (McBlock.parseMcGeneric, True, False, ),
|
---|
2870 | 'IEM_MC_FPU_STACK_FREE': (McBlock.parseMcGeneric, True, False, ),
|
---|
2871 | 'IEM_MC_FPU_STACK_INC_TOP': (McBlock.parseMcGeneric, True, False, ),
|
---|
2872 | 'IEM_MC_FPU_STACK_PUSH_OVERFLOW': (McBlock.parseMcGeneric, True, False, ),
|
---|
2873 | 'IEM_MC_FPU_STACK_PUSH_OVERFLOW_MEM_OP': (McBlock.parseMcGeneric, True, False, ),
|
---|
2874 | 'IEM_MC_FPU_STACK_PUSH_UNDERFLOW': (McBlock.parseMcGeneric, True, False, ),
|
---|
2875 | 'IEM_MC_FPU_STACK_PUSH_UNDERFLOW_TWO': (McBlock.parseMcGeneric, True, False, ),
|
---|
2876 | 'IEM_MC_FPU_STACK_UNDERFLOW': (McBlock.parseMcGeneric, True, False, ),
|
---|
2877 | 'IEM_MC_FPU_STACK_UNDERFLOW_MEM_OP': (McBlock.parseMcGeneric, True, False, ),
|
---|
2878 | 'IEM_MC_FPU_STACK_UNDERFLOW_MEM_OP_THEN_POP': (McBlock.parseMcGeneric, True, False, ),
|
---|
2879 | 'IEM_MC_FPU_STACK_UNDERFLOW_THEN_POP': (McBlock.parseMcGeneric, True, False, ),
|
---|
2880 | 'IEM_MC_FPU_STACK_UNDERFLOW_THEN_POP_POP': (McBlock.parseMcGeneric, True, False, ),
|
---|
2881 | 'IEM_MC_FPU_TO_MMX_MODE': (McBlock.parseMcGeneric, True, False, ),
|
---|
2882 | 'IEM_MC_IF_CX_IS_NZ': (McBlock.parseMcGenericCond, True, False, ),
|
---|
2883 | 'IEM_MC_IF_CX_IS_NZ_AND_EFL_BIT_NOT_SET': (McBlock.parseMcGenericCond, True, False, ),
|
---|
2884 | 'IEM_MC_IF_CX_IS_NZ_AND_EFL_BIT_SET': (McBlock.parseMcGenericCond, True, False, ),
|
---|
2885 | 'IEM_MC_IF_ECX_IS_NZ': (McBlock.parseMcGenericCond, True, False, ),
|
---|
2886 | 'IEM_MC_IF_ECX_IS_NZ_AND_EFL_BIT_NOT_SET': (McBlock.parseMcGenericCond, True, False, ),
|
---|
2887 | 'IEM_MC_IF_ECX_IS_NZ_AND_EFL_BIT_SET': (McBlock.parseMcGenericCond, True, False, ),
|
---|
2888 | 'IEM_MC_IF_EFL_ANY_BITS_SET': (McBlock.parseMcGenericCond, True, True, ),
|
---|
2889 | 'IEM_MC_IF_EFL_BIT_NOT_SET': (McBlock.parseMcGenericCond, True, True, ),
|
---|
2890 | 'IEM_MC_IF_EFL_BIT_NOT_SET_AND_BITS_EQ': (McBlock.parseMcGenericCond, True, True, ),
|
---|
2891 | 'IEM_MC_IF_EFL_BIT_SET': (McBlock.parseMcGenericCond, True, True, ),
|
---|
2892 | 'IEM_MC_IF_EFL_BIT_SET_OR_BITS_NE': (McBlock.parseMcGenericCond, True, True, ),
|
---|
2893 | 'IEM_MC_IF_EFL_BITS_EQ': (McBlock.parseMcGenericCond, True, True, ),
|
---|
2894 | 'IEM_MC_IF_EFL_BITS_NE': (McBlock.parseMcGenericCond, True, True, ),
|
---|
2895 | 'IEM_MC_IF_EFL_NO_BITS_SET': (McBlock.parseMcGenericCond, True, True, ),
|
---|
2896 | 'IEM_MC_IF_FCW_IM': (McBlock.parseMcGenericCond, True, False, ),
|
---|
2897 | 'IEM_MC_IF_FPUREG_IS_EMPTY': (McBlock.parseMcGenericCond, True, False, ),
|
---|
2898 | 'IEM_MC_IF_FPUREG_NOT_EMPTY': (McBlock.parseMcGenericCond, True, False, ),
|
---|
2899 | 'IEM_MC_IF_FPUREG_NOT_EMPTY_REF_R80': (McBlock.parseMcGenericCond, True, False, ),
|
---|
2900 | 'IEM_MC_IF_GREG_BIT_SET': (McBlock.parseMcGenericCond, True, False, ),
|
---|
2901 | 'IEM_MC_IF_LOCAL_IS_Z': (McBlock.parseMcGenericCond, True, False, ),
|
---|
2902 | 'IEM_MC_IF_MXCSR_XCPT_PENDING': (McBlock.parseMcGenericCond, True, False, ),
|
---|
2903 | 'IEM_MC_IF_RCX_IS_NZ': (McBlock.parseMcGenericCond, True, False, ),
|
---|
2904 | 'IEM_MC_IF_RCX_IS_NZ_AND_EFL_BIT_NOT_SET': (McBlock.parseMcGenericCond, True, False, ),
|
---|
2905 | 'IEM_MC_IF_RCX_IS_NZ_AND_EFL_BIT_SET': (McBlock.parseMcGenericCond, True, False, ),
|
---|
2906 | 'IEM_MC_IF_TWO_FPUREGS_NOT_EMPTY_REF_R80': (McBlock.parseMcGenericCond, True, False, ),
|
---|
2907 | 'IEM_MC_IF_TWO_FPUREGS_NOT_EMPTY_REF_R80_FIRST': (McBlock.parseMcGenericCond, True, False, ),
|
---|
2908 | 'IEM_MC_IMPLICIT_AVX_AIMPL_ARGS': (McBlock.parseMcImplicitAvxAArgs, False, False, ),
|
---|
2909 | 'IEM_MC_INT_CLEAR_ZMM_256_UP': (McBlock.parseMcGeneric, True, False, ),
|
---|
2910 | 'IEM_MC_LOCAL': (McBlock.parseMcLocal, False, False, ),
|
---|
2911 | 'IEM_MC_LOCAL_CONST': (McBlock.parseMcLocalConst, False, False, ),
|
---|
2912 | 'IEM_MC_MAYBE_RAISE_AVX_RELATED_XCPT': (McBlock.parseMcGeneric, True, False, ),
|
---|
2913 | 'IEM_MC_MAYBE_RAISE_DEVICE_NOT_AVAILABLE': (McBlock.parseMcGeneric, True, False, ),
|
---|
2914 | 'IEM_MC_MAYBE_RAISE_FPU_XCPT': (McBlock.parseMcGeneric, True, False, ),
|
---|
2915 | 'IEM_MC_MAYBE_RAISE_FSGSBASE_XCPT': (McBlock.parseMcGeneric, True, False, ),
|
---|
2916 | 'IEM_MC_MAYBE_RAISE_MMX_RELATED_XCPT': (McBlock.parseMcGeneric, True, False, ),
|
---|
2917 | 'IEM_MC_MAYBE_RAISE_NON_CANONICAL_ADDR_GP0': (McBlock.parseMcGeneric, True, False, ),
|
---|
2918 | 'IEM_MC_MAYBE_RAISE_SSE_AVX_SIMD_FP_OR_UD_XCPT': (McBlock.parseMcGeneric, True, False, ),
|
---|
2919 | 'IEM_MC_MAYBE_RAISE_SSE_RELATED_XCPT': (McBlock.parseMcGeneric, True, False, ),
|
---|
2920 | 'IEM_MC_MAYBE_RAISE_WAIT_DEVICE_NOT_AVAILABLE': (McBlock.parseMcGeneric, True, False, ),
|
---|
2921 | 'IEM_MC_MEM_COMMIT_AND_UNMAP': (McBlock.parseMcGeneric, True, False, ),
|
---|
2922 | 'IEM_MC_MEM_COMMIT_AND_UNMAP_RW': (McBlock.parseMcGeneric, True, False, ),
|
---|
2923 | 'IEM_MC_MEM_COMMIT_AND_UNMAP_RO': (McBlock.parseMcGeneric, True, False, ),
|
---|
2924 | 'IEM_MC_MEM_COMMIT_AND_UNMAP_WO': (McBlock.parseMcGeneric, True, False, ),
|
---|
2925 | 'IEM_MC_MEM_COMMIT_AND_UNMAP_FOR_FPU_STORE': (McBlock.parseMcGeneric, True, False, ),
|
---|
2926 | 'IEM_MC_MEM_MAP': (McBlock.parseMcGeneric, True, False, ),
|
---|
2927 | 'IEM_MC_MEM_MAP_EX': (McBlock.parseMcGeneric, True, False, ),
|
---|
2928 | 'IEM_MC_MEM_MAP_U8_RW': (McBlock.parseMcGeneric, True, False, ),
|
---|
2929 | 'IEM_MC_MEM_MAP_U8_RO': (McBlock.parseMcGeneric, True, False, ),
|
---|
2930 | 'IEM_MC_MEM_MAP_U8_WO': (McBlock.parseMcGeneric, True, False, ),
|
---|
2931 | 'IEM_MC_MEM_MAP_U16_RW': (McBlock.parseMcGeneric, True, False, ),
|
---|
2932 | 'IEM_MC_MEM_MAP_U16_RO': (McBlock.parseMcGeneric, True, False, ),
|
---|
2933 | 'IEM_MC_MEM_MAP_U16_WO': (McBlock.parseMcGeneric, True, False, ),
|
---|
2934 | 'IEM_MC_MEM_MAP_U32_RW': (McBlock.parseMcGeneric, True, False, ),
|
---|
2935 | 'IEM_MC_MEM_MAP_U32_RO': (McBlock.parseMcGeneric, True, False, ),
|
---|
2936 | 'IEM_MC_MEM_MAP_U32_WO': (McBlock.parseMcGeneric, True, False, ),
|
---|
2937 | 'IEM_MC_MEM_MAP_U64_RW': (McBlock.parseMcGeneric, True, False, ),
|
---|
2938 | 'IEM_MC_MEM_MAP_U64_RO': (McBlock.parseMcGeneric, True, False, ),
|
---|
2939 | 'IEM_MC_MEM_MAP_U64_WO': (McBlock.parseMcGeneric, True, False, ),
|
---|
2940 | 'IEM_MC_MERGE_YREG_U32_U96_ZX_VLMAX': (McBlock.parseMcGeneric, True, False, ),
|
---|
2941 | 'IEM_MC_MERGE_YREG_U64_U64_ZX_VLMAX': (McBlock.parseMcGeneric, True, False, ),
|
---|
2942 | 'IEM_MC_MERGE_YREG_U64HI_U64HI_ZX_VLMAX': (McBlock.parseMcGeneric, True, False, ),
|
---|
2943 | 'IEM_MC_MERGE_YREG_U64LO_U64LO_ZX_VLMAX': (McBlock.parseMcGeneric, True, False, ),
|
---|
2944 | 'IEM_MC_MERGE_YREG_U64LO_U64LOCAL_ZX_VLMAX': (McBlock.parseMcGeneric, True, False, ),
|
---|
2945 | 'IEM_MC_MERGE_YREG_U64LOCAL_U64HI_ZX_VLMAX': (McBlock.parseMcGeneric, True, False, ),
|
---|
2946 | 'IEM_MC_MODIFIED_MREG': (McBlock.parseMcGeneric, True, False, ),
|
---|
2947 | 'IEM_MC_MODIFIED_MREG_BY_REF': (McBlock.parseMcGeneric, True, False, ),
|
---|
2948 | 'IEM_MC_OR_2LOCS_U32': (McBlock.parseMcGeneric, False, False, ),
|
---|
2949 | 'IEM_MC_OR_GREG_U16': (McBlock.parseMcGeneric, True, False, ),
|
---|
2950 | 'IEM_MC_OR_GREG_U32': (McBlock.parseMcGeneric, True, False, ),
|
---|
2951 | 'IEM_MC_OR_GREG_U64': (McBlock.parseMcGeneric, True, False, ),
|
---|
2952 | 'IEM_MC_OR_GREG_U8': (McBlock.parseMcGeneric, True, False, ),
|
---|
2953 | 'IEM_MC_OR_LOCAL_U16': (McBlock.parseMcGeneric, False, False, ),
|
---|
2954 | 'IEM_MC_OR_LOCAL_U32': (McBlock.parseMcGeneric, False, False, ),
|
---|
2955 | 'IEM_MC_OR_LOCAL_U8': (McBlock.parseMcGeneric, False, False, ),
|
---|
2956 | 'IEM_MC_POP_U16': (McBlock.parseMcGeneric, True, False, ),
|
---|
2957 | 'IEM_MC_POP_U32': (McBlock.parseMcGeneric, True, False, ),
|
---|
2958 | 'IEM_MC_POP_U64': (McBlock.parseMcGeneric, True, False, ),
|
---|
2959 | 'IEM_MC_PREPARE_AVX_USAGE': (McBlock.parseMcGeneric, False, False, ),
|
---|
2960 | 'IEM_MC_PREPARE_FPU_USAGE': (McBlock.parseMcGeneric, False, False, ),
|
---|
2961 | 'IEM_MC_PREPARE_SSE_USAGE': (McBlock.parseMcGeneric, False, False, ),
|
---|
2962 | 'IEM_MC_PUSH_FPU_RESULT': (McBlock.parseMcGeneric, True, False, ),
|
---|
2963 | 'IEM_MC_PUSH_FPU_RESULT_MEM_OP': (McBlock.parseMcGeneric, True, False, ),
|
---|
2964 | 'IEM_MC_PUSH_FPU_RESULT_TWO': (McBlock.parseMcGeneric, True, False, ),
|
---|
2965 | 'IEM_MC_PUSH_U16': (McBlock.parseMcGeneric, True, False, ),
|
---|
2966 | 'IEM_MC_PUSH_U32': (McBlock.parseMcGeneric, True, False, ),
|
---|
2967 | 'IEM_MC_PUSH_U32_SREG': (McBlock.parseMcGeneric, True, False, ),
|
---|
2968 | 'IEM_MC_PUSH_U64': (McBlock.parseMcGeneric, True, False, ),
|
---|
2969 | 'IEM_MC_RAISE_DIVIDE_ERROR': (McBlock.parseMcGeneric, True, False, ),
|
---|
2970 | 'IEM_MC_RAISE_GP0_IF_CPL_NOT_ZERO': (McBlock.parseMcGeneric, True, False, ),
|
---|
2971 | 'IEM_MC_RAISE_GP0_IF_EFF_ADDR_UNALIGNED': (McBlock.parseMcGeneric, True, False, ),
|
---|
2972 | 'IEM_MC_RAISE_SSE_AVX_SIMD_FP_OR_UD_XCPT': (McBlock.parseMcGeneric, True, False, ),
|
---|
2973 | 'IEM_MC_REF_EFLAGS': (McBlock.parseMcGeneric, False, False, ),
|
---|
2974 | 'IEM_MC_REF_FPUREG': (McBlock.parseMcGeneric, False, False, ),
|
---|
2975 | 'IEM_MC_REF_GREG_I32': (McBlock.parseMcGeneric, False, False, ),
|
---|
2976 | 'IEM_MC_REF_GREG_I32_CONST': (McBlock.parseMcGeneric, False, False, ),
|
---|
2977 | 'IEM_MC_REF_GREG_I64': (McBlock.parseMcGeneric, False, False, ),
|
---|
2978 | 'IEM_MC_REF_GREG_I64_CONST': (McBlock.parseMcGeneric, False, False, ),
|
---|
2979 | 'IEM_MC_REF_GREG_U16': (McBlock.parseMcGeneric, False, False, ),
|
---|
2980 | 'IEM_MC_REF_GREG_U16_CONST': (McBlock.parseMcGeneric, False, False, ),
|
---|
2981 | 'IEM_MC_REF_GREG_U32': (McBlock.parseMcGeneric, False, False, ),
|
---|
2982 | 'IEM_MC_REF_GREG_U32_CONST': (McBlock.parseMcGeneric, False, False, ),
|
---|
2983 | 'IEM_MC_REF_GREG_U64': (McBlock.parseMcGeneric, False, False, ),
|
---|
2984 | 'IEM_MC_REF_GREG_U64_CONST': (McBlock.parseMcGeneric, False, False, ),
|
---|
2985 | 'IEM_MC_REF_GREG_U8': (McBlock.parseMcGeneric, False, False, ),
|
---|
2986 | 'IEM_MC_REF_GREG_U8_CONST': (McBlock.parseMcGeneric, False, False, ),
|
---|
2987 | 'IEM_MC_REF_LOCAL': (McBlock.parseMcGeneric, False, False, ),
|
---|
2988 | 'IEM_MC_REF_MREG_U32_CONST': (McBlock.parseMcGeneric, False, False, ),
|
---|
2989 | 'IEM_MC_REF_MREG_U64': (McBlock.parseMcGeneric, False, False, ),
|
---|
2990 | 'IEM_MC_REF_MREG_U64_CONST': (McBlock.parseMcGeneric, False, False, ),
|
---|
2991 | 'IEM_MC_REF_MXCSR': (McBlock.parseMcGeneric, False, False, ),
|
---|
2992 | 'IEM_MC_REF_XREG_R32_CONST': (McBlock.parseMcGeneric, False, False, ),
|
---|
2993 | 'IEM_MC_REF_XREG_R64_CONST': (McBlock.parseMcGeneric, False, False, ),
|
---|
2994 | 'IEM_MC_REF_XREG_U128': (McBlock.parseMcGeneric, False, False, ),
|
---|
2995 | 'IEM_MC_REF_XREG_U128_CONST': (McBlock.parseMcGeneric, False, False, ),
|
---|
2996 | 'IEM_MC_REF_XREG_U32_CONST': (McBlock.parseMcGeneric, False, False, ),
|
---|
2997 | 'IEM_MC_REF_XREG_U64_CONST': (McBlock.parseMcGeneric, False, False, ),
|
---|
2998 | 'IEM_MC_REF_XREG_XMM_CONST': (McBlock.parseMcGeneric, False, False, ),
|
---|
2999 | 'IEM_MC_REF_YREG_U128': (McBlock.parseMcGeneric, False, False, ),
|
---|
3000 | 'IEM_MC_REF_YREG_U128_CONST': (McBlock.parseMcGeneric, False, False, ),
|
---|
3001 | 'IEM_MC_REF_YREG_U64_CONST': (McBlock.parseMcGeneric, False, False, ),
|
---|
3002 | 'IEM_MC_REL_JMP_S16_AND_FINISH': (McBlock.parseMcGeneric, True, False, ),
|
---|
3003 | 'IEM_MC_REL_JMP_S32_AND_FINISH': (McBlock.parseMcGeneric, True, False, ),
|
---|
3004 | 'IEM_MC_REL_JMP_S8_AND_FINISH': (McBlock.parseMcGeneric, True, False, ),
|
---|
3005 | 'IEM_MC_RETURN_ON_FAILURE': (McBlock.parseMcGeneric, False, False, ),
|
---|
3006 | 'IEM_MC_SAR_LOCAL_S16': (McBlock.parseMcGeneric, False, False, ),
|
---|
3007 | 'IEM_MC_SAR_LOCAL_S32': (McBlock.parseMcGeneric, False, False, ),
|
---|
3008 | 'IEM_MC_SAR_LOCAL_S64': (McBlock.parseMcGeneric, False, False, ),
|
---|
3009 | 'IEM_MC_SET_EFL_BIT': (McBlock.parseMcGeneric, True, False, ),
|
---|
3010 | 'IEM_MC_SET_FPU_RESULT': (McBlock.parseMcGeneric, True, False, ),
|
---|
3011 | 'IEM_MC_SET_RIP_U16_AND_FINISH': (McBlock.parseMcGeneric, True, False, ),
|
---|
3012 | 'IEM_MC_SET_RIP_U32_AND_FINISH': (McBlock.parseMcGeneric, True, False, ),
|
---|
3013 | 'IEM_MC_SET_RIP_U64_AND_FINISH': (McBlock.parseMcGeneric, True, False, ),
|
---|
3014 | 'IEM_MC_SHL_LOCAL_S16': (McBlock.parseMcGeneric, False, False, ),
|
---|
3015 | 'IEM_MC_SHL_LOCAL_S32': (McBlock.parseMcGeneric, False, False, ),
|
---|
3016 | 'IEM_MC_SHL_LOCAL_S64': (McBlock.parseMcGeneric, False, False, ),
|
---|
3017 | 'IEM_MC_SHR_LOCAL_U8': (McBlock.parseMcGeneric, False, False, ),
|
---|
3018 | 'IEM_MC_SSE_UPDATE_MXCSR': (McBlock.parseMcGeneric, True, False, ),
|
---|
3019 | 'IEM_MC_STORE_FPU_RESULT': (McBlock.parseMcGeneric, True, False, ),
|
---|
3020 | 'IEM_MC_STORE_FPU_RESULT_MEM_OP': (McBlock.parseMcGeneric, True, False, ),
|
---|
3021 | 'IEM_MC_STORE_FPU_RESULT_THEN_POP': (McBlock.parseMcGeneric, True, False, ),
|
---|
3022 | 'IEM_MC_STORE_FPU_RESULT_WITH_MEM_OP_THEN_POP': (McBlock.parseMcGeneric, True, False, ),
|
---|
3023 | 'IEM_MC_STORE_FPUREG_R80_SRC_REF': (McBlock.parseMcGeneric, True, False, ),
|
---|
3024 | 'IEM_MC_STORE_GREG_I64': (McBlock.parseMcGeneric, True, False, ),
|
---|
3025 | 'IEM_MC_STORE_GREG_U16': (McBlock.parseMcGeneric, True, False, ),
|
---|
3026 | 'IEM_MC_STORE_GREG_U16_CONST': (McBlock.parseMcGeneric, True, False, ),
|
---|
3027 | 'IEM_MC_STORE_GREG_U32': (McBlock.parseMcGeneric, True, False, ),
|
---|
3028 | 'IEM_MC_STORE_GREG_U32_CONST': (McBlock.parseMcGeneric, True, False, ),
|
---|
3029 | 'IEM_MC_STORE_GREG_U64': (McBlock.parseMcGeneric, True, False, ),
|
---|
3030 | 'IEM_MC_STORE_GREG_U64_CONST': (McBlock.parseMcGeneric, True, False, ),
|
---|
3031 | 'IEM_MC_STORE_GREG_U8': (McBlock.parseMcGeneric, True, False, ),
|
---|
3032 | 'IEM_MC_STORE_GREG_U8_CONST': (McBlock.parseMcGeneric, True, False, ),
|
---|
3033 | 'IEM_MC_STORE_MEM_I16_CONST_BY_REF': (McBlock.parseMcGeneric, True, False, ),
|
---|
3034 | 'IEM_MC_STORE_MEM_I32_CONST_BY_REF': (McBlock.parseMcGeneric, True, False, ),
|
---|
3035 | 'IEM_MC_STORE_MEM_I64_CONST_BY_REF': (McBlock.parseMcGeneric, True, False, ),
|
---|
3036 | 'IEM_MC_STORE_MEM_I8_CONST_BY_REF': (McBlock.parseMcGeneric, True, False, ),
|
---|
3037 | 'IEM_MC_STORE_MEM_INDEF_D80_BY_REF': (McBlock.parseMcGeneric, True, False, ),
|
---|
3038 | 'IEM_MC_STORE_MEM_NEG_QNAN_R32_BY_REF': (McBlock.parseMcGeneric, True, False, ),
|
---|
3039 | 'IEM_MC_STORE_MEM_NEG_QNAN_R64_BY_REF': (McBlock.parseMcGeneric, True, False, ),
|
---|
3040 | 'IEM_MC_STORE_MEM_NEG_QNAN_R80_BY_REF': (McBlock.parseMcGeneric, True, False, ),
|
---|
3041 | 'IEM_MC_STORE_MEM_U128': (McBlock.parseMcGeneric, True, False, ),
|
---|
3042 | 'IEM_MC_STORE_MEM_U128_ALIGN_SSE': (McBlock.parseMcGeneric, True, False, ),
|
---|
3043 | 'IEM_MC_STORE_MEM_U16': (McBlock.parseMcGeneric, True, False, ),
|
---|
3044 | 'IEM_MC_STORE_MEM_U16_CONST': (McBlock.parseMcGeneric, True, False, ),
|
---|
3045 | 'IEM_MC_STORE_MEM_U256': (McBlock.parseMcGeneric, True, False, ),
|
---|
3046 | 'IEM_MC_STORE_MEM_U256_ALIGN_AVX': (McBlock.parseMcGeneric, True, False, ),
|
---|
3047 | 'IEM_MC_STORE_MEM_U32': (McBlock.parseMcGeneric, True, False, ),
|
---|
3048 | 'IEM_MC_STORE_MEM_U32_CONST': (McBlock.parseMcGeneric, True, False, ),
|
---|
3049 | 'IEM_MC_STORE_MEM_U64': (McBlock.parseMcGeneric, True, False, ),
|
---|
3050 | 'IEM_MC_STORE_MEM_U64_CONST': (McBlock.parseMcGeneric, True, False, ),
|
---|
3051 | 'IEM_MC_STORE_MEM_U8': (McBlock.parseMcGeneric, True, False, ),
|
---|
3052 | 'IEM_MC_STORE_MEM_U8_CONST': (McBlock.parseMcGeneric, True, False, ),
|
---|
3053 | 'IEM_MC_STORE_MREG_U32_ZX_U64': (McBlock.parseMcGeneric, True, False, ),
|
---|
3054 | 'IEM_MC_STORE_MREG_U64': (McBlock.parseMcGeneric, True, False, ),
|
---|
3055 | 'IEM_MC_STORE_SREG_BASE_U32': (McBlock.parseMcGeneric, True, False, ),
|
---|
3056 | 'IEM_MC_STORE_SREG_BASE_U64': (McBlock.parseMcGeneric, True, False, ),
|
---|
3057 | 'IEM_MC_STORE_SSE_RESULT': (McBlock.parseMcGeneric, True, False, ),
|
---|
3058 | 'IEM_MC_STORE_XREG_HI_U64': (McBlock.parseMcGeneric, True, False, ),
|
---|
3059 | 'IEM_MC_STORE_XREG_R32': (McBlock.parseMcGeneric, True, False, ),
|
---|
3060 | 'IEM_MC_STORE_XREG_R64': (McBlock.parseMcGeneric, True, False, ),
|
---|
3061 | 'IEM_MC_STORE_XREG_U128': (McBlock.parseMcGeneric, True, False, ),
|
---|
3062 | 'IEM_MC_STORE_XREG_U16': (McBlock.parseMcGeneric, True, False, ),
|
---|
3063 | 'IEM_MC_STORE_XREG_U32': (McBlock.parseMcGeneric, True, False, ),
|
---|
3064 | 'IEM_MC_STORE_XREG_U32_U128': (McBlock.parseMcGeneric, True, False, ),
|
---|
3065 | 'IEM_MC_STORE_XREG_U32_ZX_U128': (McBlock.parseMcGeneric, True, False, ),
|
---|
3066 | 'IEM_MC_STORE_XREG_U64': (McBlock.parseMcGeneric, True, False, ),
|
---|
3067 | 'IEM_MC_STORE_XREG_U64_ZX_U128': (McBlock.parseMcGeneric, True, False, ),
|
---|
3068 | 'IEM_MC_STORE_XREG_U8': (McBlock.parseMcGeneric, True, False, ),
|
---|
3069 | 'IEM_MC_STORE_XREG_XMM': (McBlock.parseMcGeneric, True, False, ),
|
---|
3070 | 'IEM_MC_STORE_XREG_XMM_U32': (McBlock.parseMcGeneric, True, False, ),
|
---|
3071 | 'IEM_MC_STORE_XREG_XMM_U64': (McBlock.parseMcGeneric, True, False, ),
|
---|
3072 | 'IEM_MC_STORE_YREG_U128': (McBlock.parseMcGeneric, True, False, ),
|
---|
3073 | 'IEM_MC_STORE_YREG_U128_ZX_VLMAX': (McBlock.parseMcGeneric, True, False, ),
|
---|
3074 | 'IEM_MC_STORE_YREG_U256_ZX_VLMAX': (McBlock.parseMcGeneric, True, False, ),
|
---|
3075 | 'IEM_MC_STORE_YREG_U32_ZX_VLMAX': (McBlock.parseMcGeneric, True, False, ),
|
---|
3076 | 'IEM_MC_STORE_YREG_U64_ZX_VLMAX': (McBlock.parseMcGeneric, True, False, ),
|
---|
3077 | 'IEM_MC_SUB_GREG_U16': (McBlock.parseMcGeneric, True, False, ),
|
---|
3078 | 'IEM_MC_SUB_GREG_U32': (McBlock.parseMcGeneric, True, False, ),
|
---|
3079 | 'IEM_MC_SUB_GREG_U64': (McBlock.parseMcGeneric, True, False, ),
|
---|
3080 | 'IEM_MC_SUB_GREG_U8': (McBlock.parseMcGeneric, True, False, ),
|
---|
3081 | 'IEM_MC_SUB_LOCAL_U16': (McBlock.parseMcGeneric, False, False, ),
|
---|
3082 | 'IEM_MC_UPDATE_FPU_OPCODE_IP': (McBlock.parseMcGeneric, True, False, ),
|
---|
3083 | 'IEM_MC_UPDATE_FSW': (McBlock.parseMcGeneric, True, False, ),
|
---|
3084 | 'IEM_MC_UPDATE_FSW_CONST': (McBlock.parseMcGeneric, True, False, ),
|
---|
3085 | 'IEM_MC_UPDATE_FSW_THEN_POP': (McBlock.parseMcGeneric, True, False, ),
|
---|
3086 | 'IEM_MC_UPDATE_FSW_THEN_POP_POP': (McBlock.parseMcGeneric, True, False, ),
|
---|
3087 | 'IEM_MC_UPDATE_FSW_WITH_MEM_OP': (McBlock.parseMcGeneric, True, False, ),
|
---|
3088 | 'IEM_MC_UPDATE_FSW_WITH_MEM_OP_THEN_POP': (McBlock.parseMcGeneric, True, False, ),
|
---|
3089 | };
|
---|
3090 |
|
---|
3091 | ## List of microcode blocks.
|
---|
3092 | g_aoMcBlocks = [] # type: List[McBlock]
|
---|
3093 |
|
---|
3094 |
|
---|
3095 |
|
---|
3096 | class ParserException(Exception):
|
---|
3097 | """ Parser exception """
|
---|
3098 | def __init__(self, sMessage):
|
---|
3099 | Exception.__init__(self, sMessage);
|
---|
3100 |
|
---|
3101 |
|
---|
3102 | class SimpleParser(object): # pylint: disable=too-many-instance-attributes
|
---|
3103 | """
|
---|
3104 | Parser of IEMAllInstruction*.cpp.h instruction specifications.
|
---|
3105 | """
|
---|
3106 |
|
---|
3107 | ## @name Parser state.
|
---|
3108 | ## @{
|
---|
3109 | kiCode = 0;
|
---|
3110 | kiCommentMulti = 1;
|
---|
3111 | ## @}
|
---|
3112 |
|
---|
3113 | class Macro(object):
|
---|
3114 | """ Macro """
|
---|
3115 | def __init__(self, sName, asArgs, sBody, iLine):
|
---|
3116 | self.sName = sName; ##< The macro name.
|
---|
3117 | self.asArgs = asArgs; ##< None if simple macro, list of parameters otherwise.
|
---|
3118 | self.sBody = sBody;
|
---|
3119 | self.iLine = iLine;
|
---|
3120 | self.oReArgMatch = re.compile(r'(\s*##\s*|\b)(' + '|'.join(asArgs) + r')(\s*##\s*|\b)') if asArgs else None;
|
---|
3121 |
|
---|
3122 | @staticmethod
|
---|
3123 | def _needSpace(ch):
|
---|
3124 | """ This is just to make the expanded output a bit prettier. """
|
---|
3125 | return ch.isspace() and ch != '(';
|
---|
3126 |
|
---|
3127 | def expandMacro(self, oParent, asArgs = None):
|
---|
3128 | """ Expands the macro body with the given arguments. """
|
---|
3129 | _ = oParent;
|
---|
3130 | sBody = self.sBody;
|
---|
3131 |
|
---|
3132 | if self.oReArgMatch:
|
---|
3133 | assert len(asArgs) == len(self.asArgs);
|
---|
3134 | #oParent.debug('%s: %s' % (self.sName, self.oReArgMatch.pattern,));
|
---|
3135 |
|
---|
3136 | dArgs = { self.asArgs[iArg]: sValue for iArg, sValue in enumerate(asArgs) };
|
---|
3137 | oMatch = self.oReArgMatch.search(sBody);
|
---|
3138 | while oMatch:
|
---|
3139 | sName = oMatch.group(2);
|
---|
3140 | #oParent.debug('%s %s..%s (%s)' % (sName, oMatch.start(), oMatch.end(),oMatch.group()));
|
---|
3141 | sValue = dArgs[sName];
|
---|
3142 | sPre = '';
|
---|
3143 | if not oMatch.group(1) and oMatch.start() > 0 and self._needSpace(sBody[oMatch.start()]):
|
---|
3144 | sPre = ' ';
|
---|
3145 | sPost = '';
|
---|
3146 | if not oMatch.group(3) and oMatch.end() < len(sBody) and self._needSpace(sBody[oMatch.end()]):
|
---|
3147 | sPost = ' ';
|
---|
3148 | sBody = sBody[ : oMatch.start()] + sPre + sValue + sPost + sBody[oMatch.end() : ];
|
---|
3149 | oMatch = self.oReArgMatch.search(sBody, oMatch.start() + len(sValue));
|
---|
3150 | else:
|
---|
3151 | assert not asArgs;
|
---|
3152 |
|
---|
3153 | return sBody;
|
---|
3154 |
|
---|
3155 |
|
---|
3156 | def __init__(self, sSrcFile, asLines, sDefaultMap, oInheritMacrosFrom = None):
|
---|
3157 | self.sSrcFile = sSrcFile;
|
---|
3158 | self.asLines = asLines;
|
---|
3159 | self.iLine = 0;
|
---|
3160 | self.iState = self.kiCode;
|
---|
3161 | self.sComment = '';
|
---|
3162 | self.iCommentLine = 0;
|
---|
3163 | self.aoCurInstrs = [] # type: List[Instruction]
|
---|
3164 | self.oCurFunction = None # type: DecoderFunction
|
---|
3165 | self.iMcBlockInFunc = 0;
|
---|
3166 | self.oCurMcBlock = None # type: McBlock
|
---|
3167 | self.dMacros = {} # type: Dict[str, SimpleParser.Macro]
|
---|
3168 | self.oReMacros = None # type: re ##< Regular expression matching invocations of anything in self.dMacros.
|
---|
3169 | if oInheritMacrosFrom:
|
---|
3170 | self.dMacros = dict(oInheritMacrosFrom.dMacros);
|
---|
3171 | self.oReMacros = oInheritMacrosFrom.oReMacros;
|
---|
3172 |
|
---|
3173 | assert sDefaultMap in g_dInstructionMaps;
|
---|
3174 | self.oDefaultMap = g_dInstructionMaps[sDefaultMap];
|
---|
3175 |
|
---|
3176 | self.cTotalInstr = 0;
|
---|
3177 | self.cTotalStubs = 0;
|
---|
3178 | self.cTotalTagged = 0;
|
---|
3179 | self.cTotalMcBlocks = 0;
|
---|
3180 |
|
---|
3181 | self.oReMacroName = re.compile('^[A-Za-z_][A-Za-z0-9_]*$');
|
---|
3182 | self.oReMnemonic = re.compile('^[A-Za-z_][A-Za-z0-9_]*$');
|
---|
3183 | self.oReStatsName = re.compile('^[A-Za-z_][A-Za-z0-9_]*$');
|
---|
3184 | self.oReFunctionName= re.compile('^iemOp_[A-Za-z_][A-Za-z0-9_]*$');
|
---|
3185 | self.oReGroupName = re.compile('^og_[a-z0-9]+(|_[a-z0-9]+|_[a-z0-9]+_[a-z0-9]+)$');
|
---|
3186 | self.oReDisEnum = re.compile('^OP_[A-Z0-9_]+$');
|
---|
3187 | self.oReFunTable = re.compile('^(IEM_STATIC|static) +const +PFNIEMOP +g_apfn[A-Za-z0-9_]+ *\[ *\d* *\] *= *$');
|
---|
3188 | self.oReComment = re.compile('//.*?$|/\*.*?\*/'); ## Full comments.
|
---|
3189 | self.oReHashDefine = re.compile('^\s*#\s*define\s+(.*)$');
|
---|
3190 | self.oReHashDefine2 = re.compile('(?s)\A\s*([A-Za-z_][A-Za-z0-9_]*)\(([^)]*)\)\s*(.*)\Z'); ##< With arguments.
|
---|
3191 | self.oReHashDefine3 = re.compile('(?s)\A\s*([A-Za-z_][A-Za-z0-9_]*)[^(]\s*(.*)\Z'); ##< Simple, no arguments.
|
---|
3192 | self.oReHashUndef = re.compile('^\s*#\s*undef\s+(.*)$');
|
---|
3193 | self.oReMcBeginEnd = re.compile(r'\bIEM_MC_(BEGIN|END|DEFER_TO_CIMPL_[1-5]_RET)\s*\('); ##> Not DEFER_TO_CIMPL_0_RET!
|
---|
3194 | self.fDebug = True;
|
---|
3195 | self.fDebugMc = False;
|
---|
3196 | self.fDebugPreProc = False;
|
---|
3197 |
|
---|
3198 | self.dTagHandlers = {
|
---|
3199 | '@opbrief': self.parseTagOpBrief,
|
---|
3200 | '@opdesc': self.parseTagOpDesc,
|
---|
3201 | '@opmnemonic': self.parseTagOpMnemonic,
|
---|
3202 | '@op1': self.parseTagOpOperandN,
|
---|
3203 | '@op2': self.parseTagOpOperandN,
|
---|
3204 | '@op3': self.parseTagOpOperandN,
|
---|
3205 | '@op4': self.parseTagOpOperandN,
|
---|
3206 | '@oppfx': self.parseTagOpPfx,
|
---|
3207 | '@opmaps': self.parseTagOpMaps,
|
---|
3208 | '@opcode': self.parseTagOpcode,
|
---|
3209 | '@opcodesub': self.parseTagOpcodeSub,
|
---|
3210 | '@openc': self.parseTagOpEnc,
|
---|
3211 | '@opfltest': self.parseTagOpEFlags,
|
---|
3212 | '@opflmodify': self.parseTagOpEFlags,
|
---|
3213 | '@opflundef': self.parseTagOpEFlags,
|
---|
3214 | '@opflset': self.parseTagOpEFlags,
|
---|
3215 | '@opflclear': self.parseTagOpEFlags,
|
---|
3216 | '@ophints': self.parseTagOpHints,
|
---|
3217 | '@opdisenum': self.parseTagOpDisEnum,
|
---|
3218 | '@opmincpu': self.parseTagOpMinCpu,
|
---|
3219 | '@opcpuid': self.parseTagOpCpuId,
|
---|
3220 | '@opgroup': self.parseTagOpGroup,
|
---|
3221 | '@opunused': self.parseTagOpUnusedInvalid,
|
---|
3222 | '@opinvalid': self.parseTagOpUnusedInvalid,
|
---|
3223 | '@opinvlstyle': self.parseTagOpUnusedInvalid,
|
---|
3224 | '@optest': self.parseTagOpTest,
|
---|
3225 | '@optestign': self.parseTagOpTestIgnore,
|
---|
3226 | '@optestignore': self.parseTagOpTestIgnore,
|
---|
3227 | '@opcopytests': self.parseTagOpCopyTests,
|
---|
3228 | '@oponly': self.parseTagOpOnlyTest,
|
---|
3229 | '@oponlytest': self.parseTagOpOnlyTest,
|
---|
3230 | '@opxcpttype': self.parseTagOpXcptType,
|
---|
3231 | '@opstats': self.parseTagOpStats,
|
---|
3232 | '@opfunction': self.parseTagOpFunction,
|
---|
3233 | '@opdone': self.parseTagOpDone,
|
---|
3234 | };
|
---|
3235 | for i in range(48):
|
---|
3236 | self.dTagHandlers['@optest%u' % (i,)] = self.parseTagOpTestNum;
|
---|
3237 | self.dTagHandlers['@optest[%u]' % (i,)] = self.parseTagOpTestNum;
|
---|
3238 |
|
---|
3239 | self.asErrors = [];
|
---|
3240 |
|
---|
3241 | def raiseError(self, sMessage):
|
---|
3242 | """
|
---|
3243 | Raise error prefixed with the source and line number.
|
---|
3244 | """
|
---|
3245 | raise ParserException("%s:%d: error: %s" % (self.sSrcFile, self.iLine, sMessage,));
|
---|
3246 |
|
---|
3247 | def raiseCommentError(self, iLineInComment, sMessage):
|
---|
3248 | """
|
---|
3249 | Similar to raiseError, but the line number is iLineInComment + self.iCommentLine.
|
---|
3250 | """
|
---|
3251 | raise ParserException("%s:%d: error: %s" % (self.sSrcFile, self.iCommentLine + iLineInComment, sMessage,));
|
---|
3252 |
|
---|
3253 | def error(self, sMessage):
|
---|
3254 | """
|
---|
3255 | Adds an error.
|
---|
3256 | returns False;
|
---|
3257 | """
|
---|
3258 | self.asErrors.append(u'%s:%d: error: %s\n' % (self.sSrcFile, self.iLine, sMessage,));
|
---|
3259 | return False;
|
---|
3260 |
|
---|
3261 | def errorOnLine(self, iLine, sMessage):
|
---|
3262 | """
|
---|
3263 | Adds an error.
|
---|
3264 | returns False;
|
---|
3265 | """
|
---|
3266 | self.asErrors.append(u'%s:%d: error: %s\n' % (self.sSrcFile, iLine, sMessage,));
|
---|
3267 | return False;
|
---|
3268 |
|
---|
3269 | def errorComment(self, iLineInComment, sMessage):
|
---|
3270 | """
|
---|
3271 | Adds a comment error.
|
---|
3272 | returns False;
|
---|
3273 | """
|
---|
3274 | self.asErrors.append(u'%s:%d: error: %s\n' % (self.sSrcFile, self.iCommentLine + iLineInComment, sMessage,));
|
---|
3275 | return False;
|
---|
3276 |
|
---|
3277 | def printErrors(self):
|
---|
3278 | """
|
---|
3279 | Print the errors to stderr.
|
---|
3280 | Returns number of errors.
|
---|
3281 | """
|
---|
3282 | if self.asErrors:
|
---|
3283 | sys.stderr.write(u''.join(self.asErrors));
|
---|
3284 | return len(self.asErrors);
|
---|
3285 |
|
---|
3286 | def debug(self, sMessage):
|
---|
3287 | """
|
---|
3288 | For debugging.
|
---|
3289 | """
|
---|
3290 | if self.fDebug:
|
---|
3291 | print('debug: %s' % (sMessage,), file = sys.stderr);
|
---|
3292 |
|
---|
3293 | def stripComments(self, sLine):
|
---|
3294 | """
|
---|
3295 | Returns sLine with comments stripped.
|
---|
3296 |
|
---|
3297 | Complains if traces of incomplete multi-line comments are encountered.
|
---|
3298 | """
|
---|
3299 | sLine = self.oReComment.sub(" ", sLine);
|
---|
3300 | if sLine.find('/*') >= 0 or sLine.find('*/') >= 0:
|
---|
3301 | self.error('Unexpected multi-line comment will not be handled correctly. Please simplify.');
|
---|
3302 | return sLine;
|
---|
3303 |
|
---|
3304 | def parseFunctionTable(self, sLine):
|
---|
3305 | """
|
---|
3306 | Parses a PFNIEMOP table, updating/checking the @oppfx value.
|
---|
3307 |
|
---|
3308 | Note! Updates iLine as it consumes the whole table.
|
---|
3309 | """
|
---|
3310 |
|
---|
3311 | #
|
---|
3312 | # Extract the table name.
|
---|
3313 | #
|
---|
3314 | sName = re.search(' *([a-zA-Z_0-9]+) *\[', sLine).group(1);
|
---|
3315 | oMap = g_dInstructionMapsByIemName.get(sName);
|
---|
3316 | if not oMap:
|
---|
3317 | self.debug('No map for PFNIEMOP table: %s' % (sName,));
|
---|
3318 | oMap = self.oDefaultMap; # This is wrong wrong wrong.
|
---|
3319 |
|
---|
3320 | #
|
---|
3321 | # All but the g_apfnOneByteMap & g_apfnEscF1_E0toFF tables uses four
|
---|
3322 | # entries per byte:
|
---|
3323 | # no prefix, 066h prefix, f3h prefix, f2h prefix
|
---|
3324 | # Those tables has 256 & 32 entries respectively.
|
---|
3325 | #
|
---|
3326 | cEntriesPerByte = 4;
|
---|
3327 | cValidTableLength = 1024;
|
---|
3328 | asPrefixes = ('none', '0x66', '0xf3', '0xf2');
|
---|
3329 |
|
---|
3330 | oEntriesMatch = re.search('\[ *(256|32) *\]', sLine);
|
---|
3331 | if oEntriesMatch:
|
---|
3332 | cEntriesPerByte = 1;
|
---|
3333 | cValidTableLength = int(oEntriesMatch.group(1));
|
---|
3334 | asPrefixes = (None,);
|
---|
3335 |
|
---|
3336 | #
|
---|
3337 | # The next line should be '{' and nothing else.
|
---|
3338 | #
|
---|
3339 | if self.iLine >= len(self.asLines) or not re.match('^ *{ *$', self.asLines[self.iLine]):
|
---|
3340 | return self.errorOnLine(self.iLine + 1, 'Expected lone "{" on line following PFNIEMOP table %s start' % (sName, ));
|
---|
3341 | self.iLine += 1;
|
---|
3342 |
|
---|
3343 | #
|
---|
3344 | # Parse till we find the end of the table.
|
---|
3345 | #
|
---|
3346 | iEntry = 0;
|
---|
3347 | while self.iLine < len(self.asLines):
|
---|
3348 | # Get the next line and strip comments and spaces (assumes no
|
---|
3349 | # multi-line comments).
|
---|
3350 | sLine = self.asLines[self.iLine];
|
---|
3351 | self.iLine += 1;
|
---|
3352 | sLine = self.stripComments(sLine).strip();
|
---|
3353 |
|
---|
3354 | # Split the line up into entries, expanding IEMOP_X4 usage.
|
---|
3355 | asEntries = sLine.split(',');
|
---|
3356 | for i in range(len(asEntries) - 1, -1, -1):
|
---|
3357 | sEntry = asEntries[i].strip();
|
---|
3358 | if sEntry.startswith('IEMOP_X4(') and sEntry[-1] == ')':
|
---|
3359 | sEntry = (sEntry[len('IEMOP_X4('):-1]).strip();
|
---|
3360 | asEntries.insert(i + 1, sEntry);
|
---|
3361 | asEntries.insert(i + 1, sEntry);
|
---|
3362 | asEntries.insert(i + 1, sEntry);
|
---|
3363 | if sEntry:
|
---|
3364 | asEntries[i] = sEntry;
|
---|
3365 | else:
|
---|
3366 | del asEntries[i];
|
---|
3367 |
|
---|
3368 | # Process the entries.
|
---|
3369 | for sEntry in asEntries:
|
---|
3370 | if sEntry in ('};', '}'):
|
---|
3371 | if iEntry != cValidTableLength:
|
---|
3372 | return self.error('Wrong table length for %s: %#x, expected %#x' % (sName, iEntry, cValidTableLength, ));
|
---|
3373 | return True;
|
---|
3374 | if sEntry.startswith('iemOp_Invalid'):
|
---|
3375 | pass; # skip
|
---|
3376 | else:
|
---|
3377 | # Look up matching instruction by function.
|
---|
3378 | sPrefix = asPrefixes[iEntry % cEntriesPerByte];
|
---|
3379 | sOpcode = '%#04x' % (iEntry // cEntriesPerByte);
|
---|
3380 | aoInstr = g_dAllInstructionsByFunction.get(sEntry);
|
---|
3381 | if aoInstr:
|
---|
3382 | if not isinstance(aoInstr, list):
|
---|
3383 | aoInstr = [aoInstr,];
|
---|
3384 | oInstr = None;
|
---|
3385 | for oCurInstr in aoInstr:
|
---|
3386 | if oCurInstr.sOpcode == sOpcode and oCurInstr.sPrefix == sPrefix:
|
---|
3387 | pass;
|
---|
3388 | elif oCurInstr.sOpcode == sOpcode and oCurInstr.sPrefix is None:
|
---|
3389 | oCurInstr.sPrefix = sPrefix;
|
---|
3390 | elif oCurInstr.sOpcode is None and oCurInstr.sPrefix is None:
|
---|
3391 | oCurInstr.sOpcode = sOpcode;
|
---|
3392 | oCurInstr.sPrefix = sPrefix;
|
---|
3393 | else:
|
---|
3394 | continue;
|
---|
3395 | oInstr = oCurInstr;
|
---|
3396 | break;
|
---|
3397 | if not oInstr:
|
---|
3398 | oInstr = aoInstr[0].copy(oMap = oMap, sOpcode = sOpcode, sPrefix = sPrefix);
|
---|
3399 | aoInstr.append(oInstr);
|
---|
3400 | g_dAllInstructionsByFunction[sEntry] = aoInstr;
|
---|
3401 | g_aoAllInstructions.append(oInstr);
|
---|
3402 | oMap.aoInstructions.append(oInstr);
|
---|
3403 | else:
|
---|
3404 | self.debug('Function "%s", entry %#04x / byte %#04x in %s, is not associated with an instruction.'
|
---|
3405 | % (sEntry, iEntry, iEntry // cEntriesPerByte, sName,));
|
---|
3406 | iEntry += 1;
|
---|
3407 |
|
---|
3408 | return self.error('Unexpected end of file in PFNIEMOP table');
|
---|
3409 |
|
---|
3410 | def addInstruction(self, iLine = None):
|
---|
3411 | """
|
---|
3412 | Adds an instruction.
|
---|
3413 | """
|
---|
3414 | oInstr = Instruction(self.sSrcFile, self.iLine if iLine is None else iLine);
|
---|
3415 | g_aoAllInstructions.append(oInstr);
|
---|
3416 | self.aoCurInstrs.append(oInstr);
|
---|
3417 | return oInstr;
|
---|
3418 |
|
---|
3419 | def deriveMnemonicAndOperandsFromStats(self, oInstr, sStats):
|
---|
3420 | """
|
---|
3421 | Derives the mnemonic and operands from a IEM stats base name like string.
|
---|
3422 | """
|
---|
3423 | if oInstr.sMnemonic is None:
|
---|
3424 | asWords = sStats.split('_');
|
---|
3425 | oInstr.sMnemonic = asWords[0].lower();
|
---|
3426 | if len(asWords) > 1 and not oInstr.aoOperands:
|
---|
3427 | for sType in asWords[1:]:
|
---|
3428 | if sType in g_kdOpTypes:
|
---|
3429 | oInstr.aoOperands.append(Operand(g_kdOpTypes[sType][1], sType));
|
---|
3430 | else:
|
---|
3431 | #return self.error('unknown operand type: %s (instruction: %s)' % (sType, oInstr))
|
---|
3432 | return False;
|
---|
3433 | return True;
|
---|
3434 |
|
---|
3435 | def doneInstructionOne(self, oInstr, iLine):
|
---|
3436 | """
|
---|
3437 | Complete the parsing by processing, validating and expanding raw inputs.
|
---|
3438 | """
|
---|
3439 | assert oInstr.iLineCompleted is None;
|
---|
3440 | oInstr.iLineCompleted = iLine;
|
---|
3441 |
|
---|
3442 | #
|
---|
3443 | # Specified instructions.
|
---|
3444 | #
|
---|
3445 | if oInstr.cOpTags > 0:
|
---|
3446 | if oInstr.sStats is None:
|
---|
3447 | pass;
|
---|
3448 |
|
---|
3449 | #
|
---|
3450 | # Unspecified legacy stuff. We generally only got a few things to go on here.
|
---|
3451 | # /** Opcode 0x0f 0x00 /0. */
|
---|
3452 | # FNIEMOPRM_DEF(iemOp_Grp6_sldt)
|
---|
3453 | #
|
---|
3454 | else:
|
---|
3455 | #if oInstr.sRawOldOpcodes:
|
---|
3456 | #
|
---|
3457 | #if oInstr.sMnemonic:
|
---|
3458 | pass;
|
---|
3459 |
|
---|
3460 | #
|
---|
3461 | # Common defaults.
|
---|
3462 | #
|
---|
3463 |
|
---|
3464 | # Guess mnemonic and operands from stats if the former is missing.
|
---|
3465 | if oInstr.sMnemonic is None:
|
---|
3466 | if oInstr.sStats is not None:
|
---|
3467 | self.deriveMnemonicAndOperandsFromStats(oInstr, oInstr.sStats);
|
---|
3468 | elif oInstr.sFunction is not None:
|
---|
3469 | self.deriveMnemonicAndOperandsFromStats(oInstr, oInstr.sFunction.replace('iemOp_', ''));
|
---|
3470 |
|
---|
3471 | # Derive the disassembler op enum constant from the mnemonic.
|
---|
3472 | if oInstr.sDisEnum is None and oInstr.sMnemonic is not None:
|
---|
3473 | oInstr.sDisEnum = 'OP_' + oInstr.sMnemonic.upper();
|
---|
3474 |
|
---|
3475 | # Derive the IEM statistics base name from mnemonic and operand types.
|
---|
3476 | if oInstr.sStats is None:
|
---|
3477 | if oInstr.sFunction is not None:
|
---|
3478 | oInstr.sStats = oInstr.sFunction.replace('iemOp_', '');
|
---|
3479 | elif oInstr.sMnemonic is not None:
|
---|
3480 | oInstr.sStats = oInstr.sMnemonic;
|
---|
3481 | for oOperand in oInstr.aoOperands:
|
---|
3482 | if oOperand.sType:
|
---|
3483 | oInstr.sStats += '_' + oOperand.sType;
|
---|
3484 |
|
---|
3485 | # Derive the IEM function name from mnemonic and operand types.
|
---|
3486 | if oInstr.sFunction is None:
|
---|
3487 | if oInstr.sMnemonic is not None:
|
---|
3488 | oInstr.sFunction = 'iemOp_' + oInstr.sMnemonic;
|
---|
3489 | for oOperand in oInstr.aoOperands:
|
---|
3490 | if oOperand.sType:
|
---|
3491 | oInstr.sFunction += '_' + oOperand.sType;
|
---|
3492 | elif oInstr.sStats:
|
---|
3493 | oInstr.sFunction = 'iemOp_' + oInstr.sStats;
|
---|
3494 |
|
---|
3495 | #
|
---|
3496 | # Apply default map and then add the instruction to all it's groups.
|
---|
3497 | #
|
---|
3498 | if not oInstr.aoMaps:
|
---|
3499 | oInstr.aoMaps = [ self.oDefaultMap, ];
|
---|
3500 | for oMap in oInstr.aoMaps:
|
---|
3501 | oMap.aoInstructions.append(oInstr);
|
---|
3502 |
|
---|
3503 | #
|
---|
3504 | # Derive encoding from operands and maps.
|
---|
3505 | #
|
---|
3506 | if oInstr.sEncoding is None:
|
---|
3507 | if not oInstr.aoOperands:
|
---|
3508 | if oInstr.fUnused and oInstr.sSubOpcode:
|
---|
3509 | oInstr.sEncoding = 'VEX.ModR/M' if oInstr.onlyInVexMaps() else 'ModR/M';
|
---|
3510 | else:
|
---|
3511 | oInstr.sEncoding = 'VEX.fixed' if oInstr.onlyInVexMaps() else 'fixed';
|
---|
3512 | elif oInstr.aoOperands[0].usesModRM():
|
---|
3513 | if (len(oInstr.aoOperands) >= 2 and oInstr.aoOperands[1].sWhere == 'vvvv') \
|
---|
3514 | or oInstr.onlyInVexMaps():
|
---|
3515 | oInstr.sEncoding = 'VEX.ModR/M';
|
---|
3516 | else:
|
---|
3517 | oInstr.sEncoding = 'ModR/M';
|
---|
3518 |
|
---|
3519 | #
|
---|
3520 | # Check the opstat value and add it to the opstat indexed dictionary.
|
---|
3521 | #
|
---|
3522 | if oInstr.sStats:
|
---|
3523 | if oInstr.sStats not in g_dAllInstructionsByStat:
|
---|
3524 | g_dAllInstructionsByStat[oInstr.sStats] = oInstr;
|
---|
3525 | else:
|
---|
3526 | self.error('Duplicate opstat value "%s"\nnew: %s\nold: %s'
|
---|
3527 | % (oInstr.sStats, oInstr, g_dAllInstructionsByStat[oInstr.sStats],));
|
---|
3528 |
|
---|
3529 | #
|
---|
3530 | # Add to function indexed dictionary. We allow multiple instructions per function.
|
---|
3531 | #
|
---|
3532 | if oInstr.sFunction:
|
---|
3533 | if oInstr.sFunction not in g_dAllInstructionsByFunction:
|
---|
3534 | g_dAllInstructionsByFunction[oInstr.sFunction] = [oInstr,];
|
---|
3535 | else:
|
---|
3536 | g_dAllInstructionsByFunction[oInstr.sFunction].append(oInstr);
|
---|
3537 |
|
---|
3538 | #self.debug('%d..%d: %s; %d @op tags' % (oInstr.iLineCreated, oInstr.iLineCompleted, oInstr.sFunction, oInstr.cOpTags));
|
---|
3539 | return True;
|
---|
3540 |
|
---|
3541 | def doneInstructions(self, iLineInComment = None, fEndOfFunction = False):
|
---|
3542 | """
|
---|
3543 | Done with current instruction.
|
---|
3544 | """
|
---|
3545 | for oInstr in self.aoCurInstrs:
|
---|
3546 | self.doneInstructionOne(oInstr, self.iLine if iLineInComment is None else self.iCommentLine + iLineInComment);
|
---|
3547 | if oInstr.fStub:
|
---|
3548 | self.cTotalStubs += 1;
|
---|
3549 |
|
---|
3550 | self.cTotalInstr += len(self.aoCurInstrs);
|
---|
3551 |
|
---|
3552 | self.sComment = '';
|
---|
3553 | self.aoCurInstrs = [];
|
---|
3554 | if fEndOfFunction:
|
---|
3555 | #self.debug('%s: oCurFunction=None' % (self.iLine, ));
|
---|
3556 | if self.oCurFunction:
|
---|
3557 | self.oCurFunction.complete(self.iLine, self.asLines[self.oCurFunction.iBeginLine - 1 : self.iLine]);
|
---|
3558 | self.oCurFunction = None;
|
---|
3559 | self.iMcBlockInFunc = 0;
|
---|
3560 | return True;
|
---|
3561 |
|
---|
3562 | def setInstrunctionAttrib(self, sAttrib, oValue, fOverwrite = False):
|
---|
3563 | """
|
---|
3564 | Sets the sAttrib of all current instruction to oValue. If fOverwrite
|
---|
3565 | is False, only None values and empty strings are replaced.
|
---|
3566 | """
|
---|
3567 | for oInstr in self.aoCurInstrs:
|
---|
3568 | if fOverwrite is not True:
|
---|
3569 | oOldValue = getattr(oInstr, sAttrib);
|
---|
3570 | if oOldValue is not None:
|
---|
3571 | continue;
|
---|
3572 | setattr(oInstr, sAttrib, oValue);
|
---|
3573 |
|
---|
3574 | def setInstrunctionArrayAttrib(self, sAttrib, iEntry, oValue, fOverwrite = False):
|
---|
3575 | """
|
---|
3576 | Sets the iEntry of the array sAttrib of all current instruction to oValue.
|
---|
3577 | If fOverwrite is False, only None values and empty strings are replaced.
|
---|
3578 | """
|
---|
3579 | for oInstr in self.aoCurInstrs:
|
---|
3580 | aoArray = getattr(oInstr, sAttrib);
|
---|
3581 | while len(aoArray) <= iEntry:
|
---|
3582 | aoArray.append(None);
|
---|
3583 | if fOverwrite is True or aoArray[iEntry] is None:
|
---|
3584 | aoArray[iEntry] = oValue;
|
---|
3585 |
|
---|
3586 | def parseCommentOldOpcode(self, asLines):
|
---|
3587 | """ Deals with 'Opcode 0xff /4' like comments """
|
---|
3588 | asWords = asLines[0].split();
|
---|
3589 | if len(asWords) >= 2 \
|
---|
3590 | and asWords[0] == 'Opcode' \
|
---|
3591 | and ( asWords[1].startswith('0x')
|
---|
3592 | or asWords[1].startswith('0X')):
|
---|
3593 | asWords = asWords[:1];
|
---|
3594 | for iWord, sWord in enumerate(asWords):
|
---|
3595 | if sWord.startswith('0X'):
|
---|
3596 | sWord = '0x' + sWord[:2];
|
---|
3597 | asWords[iWord] = asWords;
|
---|
3598 | self.setInstrunctionAttrib('sRawOldOpcodes', ' '.join(asWords));
|
---|
3599 |
|
---|
3600 | return False;
|
---|
3601 |
|
---|
3602 | def ensureInstructionForOpTag(self, iTagLine):
|
---|
3603 | """ Ensure there is an instruction for the op-tag being parsed. """
|
---|
3604 | if not self.aoCurInstrs:
|
---|
3605 | self.addInstruction(self.iCommentLine + iTagLine);
|
---|
3606 | for oInstr in self.aoCurInstrs:
|
---|
3607 | oInstr.cOpTags += 1;
|
---|
3608 | if oInstr.cOpTags == 1:
|
---|
3609 | self.cTotalTagged += 1;
|
---|
3610 | return self.aoCurInstrs[-1];
|
---|
3611 |
|
---|
3612 | @staticmethod
|
---|
3613 | def flattenSections(aasSections):
|
---|
3614 | """
|
---|
3615 | Flattens multiline sections into stripped single strings.
|
---|
3616 | Returns list of strings, on section per string.
|
---|
3617 | """
|
---|
3618 | asRet = [];
|
---|
3619 | for asLines in aasSections:
|
---|
3620 | if asLines:
|
---|
3621 | asRet.append(' '.join([sLine.strip() for sLine in asLines]));
|
---|
3622 | return asRet;
|
---|
3623 |
|
---|
3624 | @staticmethod
|
---|
3625 | def flattenAllSections(aasSections, sLineSep = ' ', sSectionSep = '\n'):
|
---|
3626 | """
|
---|
3627 | Flattens sections into a simple stripped string with newlines as
|
---|
3628 | section breaks. The final section does not sport a trailing newline.
|
---|
3629 | """
|
---|
3630 | # Typical: One section with a single line.
|
---|
3631 | if len(aasSections) == 1 and len(aasSections[0]) == 1:
|
---|
3632 | return aasSections[0][0].strip();
|
---|
3633 |
|
---|
3634 | sRet = '';
|
---|
3635 | for iSection, asLines in enumerate(aasSections):
|
---|
3636 | if asLines:
|
---|
3637 | if iSection > 0:
|
---|
3638 | sRet += sSectionSep;
|
---|
3639 | sRet += sLineSep.join([sLine.strip() for sLine in asLines]);
|
---|
3640 | return sRet;
|
---|
3641 |
|
---|
3642 |
|
---|
3643 |
|
---|
3644 | ## @name Tag parsers
|
---|
3645 | ## @{
|
---|
3646 |
|
---|
3647 | def parseTagOpBrief(self, sTag, aasSections, iTagLine, iEndLine):
|
---|
3648 | """
|
---|
3649 | Tag: \@opbrief
|
---|
3650 | Value: Text description, multiple sections, appended.
|
---|
3651 |
|
---|
3652 | Brief description. If not given, it's the first sentence from @opdesc.
|
---|
3653 | """
|
---|
3654 | oInstr = self.ensureInstructionForOpTag(iTagLine);
|
---|
3655 |
|
---|
3656 | # Flatten and validate the value.
|
---|
3657 | sBrief = self.flattenAllSections(aasSections);
|
---|
3658 | if not sBrief:
|
---|
3659 | return self.errorComment(iTagLine, '%s: value required' % (sTag,));
|
---|
3660 | if sBrief[-1] != '.':
|
---|
3661 | sBrief = sBrief + '.';
|
---|
3662 | if len(sBrief) > 180:
|
---|
3663 | return self.errorComment(iTagLine, '%s: value too long (max 180 chars): %s' % (sTag, sBrief));
|
---|
3664 | offDot = sBrief.find('.');
|
---|
3665 | while 0 <= offDot < len(sBrief) - 1 and sBrief[offDot + 1] != ' ':
|
---|
3666 | offDot = sBrief.find('.', offDot + 1);
|
---|
3667 | if offDot >= 0 and offDot != len(sBrief) - 1:
|
---|
3668 | return self.errorComment(iTagLine, '%s: only one sentence: %s' % (sTag, sBrief));
|
---|
3669 |
|
---|
3670 | # Update the instruction.
|
---|
3671 | if oInstr.sBrief is not None:
|
---|
3672 | return self.errorComment(iTagLine, '%s: attempting to overwrite brief "%s" with "%s"'
|
---|
3673 | % (sTag, oInstr.sBrief, sBrief,));
|
---|
3674 | _ = iEndLine;
|
---|
3675 | return True;
|
---|
3676 |
|
---|
3677 | def parseTagOpDesc(self, sTag, aasSections, iTagLine, iEndLine):
|
---|
3678 | """
|
---|
3679 | Tag: \@opdesc
|
---|
3680 | Value: Text description, multiple sections, appended.
|
---|
3681 |
|
---|
3682 | It is used to describe instructions.
|
---|
3683 | """
|
---|
3684 | oInstr = self.ensureInstructionForOpTag(iTagLine);
|
---|
3685 | if aasSections:
|
---|
3686 | oInstr.asDescSections.extend(self.flattenSections(aasSections));
|
---|
3687 | return True;
|
---|
3688 |
|
---|
3689 | _ = sTag; _ = iEndLine;
|
---|
3690 | return True;
|
---|
3691 |
|
---|
3692 | def parseTagOpMnemonic(self, sTag, aasSections, iTagLine, iEndLine):
|
---|
3693 | """
|
---|
3694 | Tag: @opmenmonic
|
---|
3695 | Value: mnemonic
|
---|
3696 |
|
---|
3697 | The 'mnemonic' value must be a valid C identifier string. Because of
|
---|
3698 | prefixes, groups and whatnot, there times when the mnemonic isn't that
|
---|
3699 | of an actual assembler mnemonic.
|
---|
3700 | """
|
---|
3701 | oInstr = self.ensureInstructionForOpTag(iTagLine);
|
---|
3702 |
|
---|
3703 | # Flatten and validate the value.
|
---|
3704 | sMnemonic = self.flattenAllSections(aasSections);
|
---|
3705 | if not self.oReMnemonic.match(sMnemonic):
|
---|
3706 | return self.errorComment(iTagLine, '%s: invalid menmonic name: "%s"' % (sTag, sMnemonic,));
|
---|
3707 | if oInstr.sMnemonic is not None:
|
---|
3708 | return self.errorComment(iTagLine, '%s: attempting to overwrite menmonic "%s" with "%s"'
|
---|
3709 | % (sTag, oInstr.sMnemonic, sMnemonic,));
|
---|
3710 | oInstr.sMnemonic = sMnemonic
|
---|
3711 |
|
---|
3712 | _ = iEndLine;
|
---|
3713 | return True;
|
---|
3714 |
|
---|
3715 | def parseTagOpOperandN(self, sTag, aasSections, iTagLine, iEndLine):
|
---|
3716 | """
|
---|
3717 | Tags: \@op1, \@op2, \@op3, \@op4
|
---|
3718 | Value: [where:]type
|
---|
3719 |
|
---|
3720 | The 'where' value indicates where the operand is found, like the 'reg'
|
---|
3721 | part of the ModR/M encoding. See Instruction.kdOperandLocations for
|
---|
3722 | a list.
|
---|
3723 |
|
---|
3724 | The 'type' value indicates the operand type. These follow the types
|
---|
3725 | given in the opcode tables in the CPU reference manuals.
|
---|
3726 | See Instruction.kdOperandTypes for a list.
|
---|
3727 |
|
---|
3728 | """
|
---|
3729 | oInstr = self.ensureInstructionForOpTag(iTagLine);
|
---|
3730 | idxOp = int(sTag[-1]) - 1;
|
---|
3731 | assert 0 <= idxOp < 4;
|
---|
3732 |
|
---|
3733 | # flatten, split up, and validate the "where:type" value.
|
---|
3734 | sFlattened = self.flattenAllSections(aasSections);
|
---|
3735 | asSplit = sFlattened.split(':');
|
---|
3736 | if len(asSplit) == 1:
|
---|
3737 | sType = asSplit[0];
|
---|
3738 | sWhere = None;
|
---|
3739 | elif len(asSplit) == 2:
|
---|
3740 | (sWhere, sType) = asSplit;
|
---|
3741 | else:
|
---|
3742 | return self.errorComment(iTagLine, 'expected %s value on format "[<where>:]<type>" not "%s"' % (sTag, sFlattened,));
|
---|
3743 |
|
---|
3744 | if sType not in g_kdOpTypes:
|
---|
3745 | return self.errorComment(iTagLine, '%s: invalid where value "%s", valid: %s'
|
---|
3746 | % (sTag, sType, ', '.join(g_kdOpTypes.keys()),));
|
---|
3747 | if sWhere is None:
|
---|
3748 | sWhere = g_kdOpTypes[sType][1];
|
---|
3749 | elif sWhere not in g_kdOpLocations:
|
---|
3750 | return self.errorComment(iTagLine, '%s: invalid where value "%s", valid: %s'
|
---|
3751 | % (sTag, sWhere, ', '.join(g_kdOpLocations.keys()),));
|
---|
3752 |
|
---|
3753 | # Insert the operand, refusing to overwrite an existing one.
|
---|
3754 | while idxOp >= len(oInstr.aoOperands):
|
---|
3755 | oInstr.aoOperands.append(None);
|
---|
3756 | if oInstr.aoOperands[idxOp] is not None:
|
---|
3757 | return self.errorComment(iTagLine, '%s: attempting to overwrite "%s:%s" with "%s:%s"'
|
---|
3758 | % ( sTag, oInstr.aoOperands[idxOp].sWhere, oInstr.aoOperands[idxOp].sType,
|
---|
3759 | sWhere, sType,));
|
---|
3760 | oInstr.aoOperands[idxOp] = Operand(sWhere, sType);
|
---|
3761 |
|
---|
3762 | _ = iEndLine;
|
---|
3763 | return True;
|
---|
3764 |
|
---|
3765 | def parseTagOpMaps(self, sTag, aasSections, iTagLine, iEndLine):
|
---|
3766 | """
|
---|
3767 | Tag: \@opmaps
|
---|
3768 | Value: map[,map2]
|
---|
3769 |
|
---|
3770 | Indicates which maps the instruction is in. There is a default map
|
---|
3771 | associated with each input file.
|
---|
3772 | """
|
---|
3773 | oInstr = self.ensureInstructionForOpTag(iTagLine);
|
---|
3774 |
|
---|
3775 | # Flatten, split up and validate the value.
|
---|
3776 | sFlattened = self.flattenAllSections(aasSections, sLineSep = ',', sSectionSep = ',');
|
---|
3777 | asMaps = sFlattened.split(',');
|
---|
3778 | if not asMaps:
|
---|
3779 | return self.errorComment(iTagLine, '%s: value required' % (sTag,));
|
---|
3780 | for sMap in asMaps:
|
---|
3781 | if sMap not in g_dInstructionMaps:
|
---|
3782 | return self.errorComment(iTagLine, '%s: invalid map value: %s (valid values: %s)'
|
---|
3783 | % (sTag, sMap, ', '.join(g_dInstructionMaps.keys()),));
|
---|
3784 |
|
---|
3785 | # Add the maps to the current list. Throw errors on duplicates.
|
---|
3786 | for oMap in oInstr.aoMaps:
|
---|
3787 | if oMap.sName in asMaps:
|
---|
3788 | return self.errorComment(iTagLine, '%s: duplicate map assignment: %s' % (sTag, oMap.sName));
|
---|
3789 |
|
---|
3790 | for sMap in asMaps:
|
---|
3791 | oMap = g_dInstructionMaps[sMap];
|
---|
3792 | if oMap not in oInstr.aoMaps:
|
---|
3793 | oInstr.aoMaps.append(oMap);
|
---|
3794 | else:
|
---|
3795 | self.errorComment(iTagLine, '%s: duplicate map assignment (input): %s' % (sTag, sMap));
|
---|
3796 |
|
---|
3797 | _ = iEndLine;
|
---|
3798 | return True;
|
---|
3799 |
|
---|
3800 | def parseTagOpPfx(self, sTag, aasSections, iTagLine, iEndLine):
|
---|
3801 | """
|
---|
3802 | Tag: \@oppfx
|
---|
3803 | Value: n/a|none|0x66|0xf3|0xf2
|
---|
3804 |
|
---|
3805 | Required prefix for the instruction. (In a (E)VEX context this is the
|
---|
3806 | value of the 'pp' field rather than an actual prefix.)
|
---|
3807 | """
|
---|
3808 | oInstr = self.ensureInstructionForOpTag(iTagLine);
|
---|
3809 |
|
---|
3810 | # Flatten and validate the value.
|
---|
3811 | sFlattened = self.flattenAllSections(aasSections);
|
---|
3812 | asPrefixes = sFlattened.split();
|
---|
3813 | if len(asPrefixes) > 1:
|
---|
3814 | return self.errorComment(iTagLine, '%s: max one prefix: %s' % (sTag, asPrefixes,));
|
---|
3815 |
|
---|
3816 | sPrefix = asPrefixes[0].lower();
|
---|
3817 | if sPrefix == 'none':
|
---|
3818 | sPrefix = 'none';
|
---|
3819 | elif sPrefix == 'n/a':
|
---|
3820 | sPrefix = None;
|
---|
3821 | else:
|
---|
3822 | if len(sPrefix) == 2:
|
---|
3823 | sPrefix = '0x' + sPrefix;
|
---|
3824 | if not _isValidOpcodeByte(sPrefix):
|
---|
3825 | return self.errorComment(iTagLine, '%s: invalid prefix: %s' % (sTag, sPrefix,));
|
---|
3826 |
|
---|
3827 | if sPrefix is not None and sPrefix not in g_kdPrefixes:
|
---|
3828 | return self.errorComment(iTagLine, '%s: invalid prefix: %s (valid %s)' % (sTag, sPrefix, g_kdPrefixes,));
|
---|
3829 |
|
---|
3830 | # Set it.
|
---|
3831 | if oInstr.sPrefix is not None:
|
---|
3832 | return self.errorComment(iTagLine, '%s: attempting to overwrite "%s" with "%s"' % ( sTag, oInstr.sPrefix, sPrefix,));
|
---|
3833 | oInstr.sPrefix = sPrefix;
|
---|
3834 |
|
---|
3835 | _ = iEndLine;
|
---|
3836 | return True;
|
---|
3837 |
|
---|
3838 | def parseTagOpcode(self, sTag, aasSections, iTagLine, iEndLine):
|
---|
3839 | """
|
---|
3840 | Tag: \@opcode
|
---|
3841 | Value: 0x?? | /reg (TODO: | mr/reg | 11 /reg | !11 /reg | 11 mr/reg | !11 mr/reg)
|
---|
3842 |
|
---|
3843 | The opcode byte or sub-byte for the instruction in the context of a map.
|
---|
3844 | """
|
---|
3845 | oInstr = self.ensureInstructionForOpTag(iTagLine);
|
---|
3846 |
|
---|
3847 | # Flatten and validate the value.
|
---|
3848 | sOpcode = self.flattenAllSections(aasSections);
|
---|
3849 | if _isValidOpcodeByte(sOpcode):
|
---|
3850 | pass;
|
---|
3851 | elif len(sOpcode) == 2 and sOpcode.startswith('/') and sOpcode[-1] in '012345678':
|
---|
3852 | pass;
|
---|
3853 | elif len(sOpcode) == 4 and sOpcode.startswith('11/') and sOpcode[-1] in '012345678':
|
---|
3854 | pass;
|
---|
3855 | elif len(sOpcode) == 5 and sOpcode.startswith('!11/') and sOpcode[-1] in '012345678':
|
---|
3856 | pass;
|
---|
3857 | else:
|
---|
3858 | return self.errorComment(iTagLine, '%s: invalid opcode: %s' % (sTag, sOpcode,));
|
---|
3859 |
|
---|
3860 | # Set it.
|
---|
3861 | if oInstr.sOpcode is not None:
|
---|
3862 | return self.errorComment(iTagLine, '%s: attempting to overwrite "%s" with "%s"' % ( sTag, oInstr.sOpcode, sOpcode,));
|
---|
3863 | oInstr.sOpcode = sOpcode;
|
---|
3864 |
|
---|
3865 | _ = iEndLine;
|
---|
3866 | return True;
|
---|
3867 |
|
---|
3868 | def parseTagOpcodeSub(self, sTag, aasSections, iTagLine, iEndLine):
|
---|
3869 | """
|
---|
3870 | Tag: \@opcodesub
|
---|
3871 | Value: none | 11 mr/reg | !11 mr/reg | rex.w=0 | rex.w=1 | vex.l=0 | vex.l=1
|
---|
3872 | | 11 mr/reg vex.l=0 | 11 mr/reg vex.l=1 | !11 mr/reg vex.l=0 | !11 mr/reg vex.l=1
|
---|
3873 |
|
---|
3874 | This is a simple way of dealing with encodings where the mod=3 and mod!=3
|
---|
3875 | represents exactly two different instructions. The more proper way would
|
---|
3876 | be to go via maps with two members, but this is faster.
|
---|
3877 | """
|
---|
3878 | oInstr = self.ensureInstructionForOpTag(iTagLine);
|
---|
3879 |
|
---|
3880 | # Flatten and validate the value.
|
---|
3881 | sSubOpcode = self.flattenAllSections(aasSections);
|
---|
3882 | if sSubOpcode not in g_kdSubOpcodes:
|
---|
3883 | return self.errorComment(iTagLine, '%s: invalid sub opcode: %s (valid: 11, !11, none)' % (sTag, sSubOpcode,));
|
---|
3884 | sSubOpcode = g_kdSubOpcodes[sSubOpcode][0];
|
---|
3885 |
|
---|
3886 | # Set it.
|
---|
3887 | if oInstr.sSubOpcode is not None:
|
---|
3888 | return self.errorComment(iTagLine, '%s: attempting to overwrite "%s" with "%s"'
|
---|
3889 | % ( sTag, oInstr.sSubOpcode, sSubOpcode,));
|
---|
3890 | oInstr.sSubOpcode = sSubOpcode;
|
---|
3891 |
|
---|
3892 | _ = iEndLine;
|
---|
3893 | return True;
|
---|
3894 |
|
---|
3895 | def parseTagOpEnc(self, sTag, aasSections, iTagLine, iEndLine):
|
---|
3896 | """
|
---|
3897 | Tag: \@openc
|
---|
3898 | Value: ModR/M|fixed|prefix|<map name>
|
---|
3899 |
|
---|
3900 | The instruction operand encoding style.
|
---|
3901 | """
|
---|
3902 | oInstr = self.ensureInstructionForOpTag(iTagLine);
|
---|
3903 |
|
---|
3904 | # Flatten and validate the value.
|
---|
3905 | sEncoding = self.flattenAllSections(aasSections);
|
---|
3906 | if sEncoding in g_kdEncodings:
|
---|
3907 | pass;
|
---|
3908 | elif sEncoding in g_dInstructionMaps:
|
---|
3909 | pass;
|
---|
3910 | elif not _isValidOpcodeByte(sEncoding):
|
---|
3911 | return self.errorComment(iTagLine, '%s: invalid encoding: %s' % (sTag, sEncoding,));
|
---|
3912 |
|
---|
3913 | # Set it.
|
---|
3914 | if oInstr.sEncoding is not None:
|
---|
3915 | return self.errorComment(iTagLine, '%s: attempting to overwrite "%s" with "%s"'
|
---|
3916 | % ( sTag, oInstr.sEncoding, sEncoding,));
|
---|
3917 | oInstr.sEncoding = sEncoding;
|
---|
3918 |
|
---|
3919 | _ = iEndLine;
|
---|
3920 | return True;
|
---|
3921 |
|
---|
3922 | ## EFlags tag to Instruction attribute name.
|
---|
3923 | kdOpFlagToAttr = {
|
---|
3924 | '@opfltest': 'asFlTest',
|
---|
3925 | '@opflmodify': 'asFlModify',
|
---|
3926 | '@opflundef': 'asFlUndefined',
|
---|
3927 | '@opflset': 'asFlSet',
|
---|
3928 | '@opflclear': 'asFlClear',
|
---|
3929 | };
|
---|
3930 |
|
---|
3931 | def parseTagOpEFlags(self, sTag, aasSections, iTagLine, iEndLine):
|
---|
3932 | """
|
---|
3933 | Tags: \@opfltest, \@opflmodify, \@opflundef, \@opflset, \@opflclear
|
---|
3934 | Value: <eflags specifier>
|
---|
3935 |
|
---|
3936 | """
|
---|
3937 | oInstr = self.ensureInstructionForOpTag(iTagLine);
|
---|
3938 |
|
---|
3939 | # Flatten, split up and validate the values.
|
---|
3940 | asFlags = self.flattenAllSections(aasSections, sLineSep = ',', sSectionSep = ',').split(',');
|
---|
3941 | if len(asFlags) == 1 and asFlags[0].lower() == 'none':
|
---|
3942 | asFlags = [];
|
---|
3943 | else:
|
---|
3944 | fRc = True;
|
---|
3945 | for iFlag, sFlag in enumerate(asFlags):
|
---|
3946 | if sFlag not in g_kdEFlagsMnemonics:
|
---|
3947 | if sFlag.strip() in g_kdEFlagsMnemonics:
|
---|
3948 | asFlags[iFlag] = sFlag.strip();
|
---|
3949 | else:
|
---|
3950 | fRc = self.errorComment(iTagLine, '%s: invalid EFLAGS value: %s' % (sTag, sFlag,));
|
---|
3951 | if not fRc:
|
---|
3952 | return False;
|
---|
3953 |
|
---|
3954 | # Set them.
|
---|
3955 | asOld = getattr(oInstr, self.kdOpFlagToAttr[sTag]);
|
---|
3956 | if asOld is not None:
|
---|
3957 | return self.errorComment(iTagLine, '%s: attempting to overwrite "%s" with "%s"' % ( sTag, asOld, asFlags,));
|
---|
3958 | setattr(oInstr, self.kdOpFlagToAttr[sTag], asFlags);
|
---|
3959 |
|
---|
3960 | _ = iEndLine;
|
---|
3961 | return True;
|
---|
3962 |
|
---|
3963 | def parseTagOpHints(self, sTag, aasSections, iTagLine, iEndLine):
|
---|
3964 | """
|
---|
3965 | Tag: \@ophints
|
---|
3966 | Value: Comma or space separated list of flags and hints.
|
---|
3967 |
|
---|
3968 | This covers the disassembler flags table and more.
|
---|
3969 | """
|
---|
3970 | oInstr = self.ensureInstructionForOpTag(iTagLine);
|
---|
3971 |
|
---|
3972 | # Flatten as a space separated list, split it up and validate the values.
|
---|
3973 | asHints = self.flattenAllSections(aasSections, sLineSep = ' ', sSectionSep = ' ').replace(',', ' ').split();
|
---|
3974 | if len(asHints) == 1 and asHints[0].lower() == 'none':
|
---|
3975 | asHints = [];
|
---|
3976 | else:
|
---|
3977 | fRc = True;
|
---|
3978 | for iHint, sHint in enumerate(asHints):
|
---|
3979 | if sHint not in g_kdHints:
|
---|
3980 | if sHint.strip() in g_kdHints:
|
---|
3981 | sHint[iHint] = sHint.strip();
|
---|
3982 | else:
|
---|
3983 | fRc = self.errorComment(iTagLine, '%s: invalid hint value: %s' % (sTag, sHint,));
|
---|
3984 | if not fRc:
|
---|
3985 | return False;
|
---|
3986 |
|
---|
3987 | # Append them.
|
---|
3988 | for sHint in asHints:
|
---|
3989 | if sHint not in oInstr.dHints:
|
---|
3990 | oInstr.dHints[sHint] = True; # (dummy value, using dictionary for speed)
|
---|
3991 | else:
|
---|
3992 | self.errorComment(iTagLine, '%s: duplicate hint: %s' % ( sTag, sHint,));
|
---|
3993 |
|
---|
3994 | _ = iEndLine;
|
---|
3995 | return True;
|
---|
3996 |
|
---|
3997 | def parseTagOpDisEnum(self, sTag, aasSections, iTagLine, iEndLine):
|
---|
3998 | """
|
---|
3999 | Tag: \@opdisenum
|
---|
4000 | Value: OP_XXXX
|
---|
4001 |
|
---|
4002 | This is for select a specific (legacy) disassembler enum value for the
|
---|
4003 | instruction.
|
---|
4004 | """
|
---|
4005 | oInstr = self.ensureInstructionForOpTag(iTagLine);
|
---|
4006 |
|
---|
4007 | # Flatten and split.
|
---|
4008 | asWords = self.flattenAllSections(aasSections).split();
|
---|
4009 | if len(asWords) != 1:
|
---|
4010 | self.errorComment(iTagLine, '%s: expected exactly one value: %s' % (sTag, asWords,));
|
---|
4011 | if not asWords:
|
---|
4012 | return False;
|
---|
4013 | sDisEnum = asWords[0];
|
---|
4014 | if not self.oReDisEnum.match(sDisEnum):
|
---|
4015 | return self.errorComment(iTagLine, '%s: invalid disassembler OP_XXXX enum: %s (pattern: %s)'
|
---|
4016 | % (sTag, sDisEnum, self.oReDisEnum.pattern));
|
---|
4017 |
|
---|
4018 | # Set it.
|
---|
4019 | if oInstr.sDisEnum is not None:
|
---|
4020 | return self.errorComment(iTagLine, '%s: attempting to overwrite "%s" with "%s"' % (sTag, oInstr.sDisEnum, sDisEnum,));
|
---|
4021 | oInstr.sDisEnum = sDisEnum;
|
---|
4022 |
|
---|
4023 | _ = iEndLine;
|
---|
4024 | return True;
|
---|
4025 |
|
---|
4026 | def parseTagOpMinCpu(self, sTag, aasSections, iTagLine, iEndLine):
|
---|
4027 | """
|
---|
4028 | Tag: \@opmincpu
|
---|
4029 | Value: <simple CPU name>
|
---|
4030 |
|
---|
4031 | Indicates when this instruction was introduced.
|
---|
4032 | """
|
---|
4033 | oInstr = self.ensureInstructionForOpTag(iTagLine);
|
---|
4034 |
|
---|
4035 | # Flatten the value, split into words, make sure there's just one, valid it.
|
---|
4036 | asCpus = self.flattenAllSections(aasSections).split();
|
---|
4037 | if len(asCpus) > 1:
|
---|
4038 | self.errorComment(iTagLine, '%s: exactly one CPU name, please: %s' % (sTag, ' '.join(asCpus),));
|
---|
4039 |
|
---|
4040 | sMinCpu = asCpus[0];
|
---|
4041 | if sMinCpu in g_kdCpuNames:
|
---|
4042 | oInstr.sMinCpu = sMinCpu;
|
---|
4043 | else:
|
---|
4044 | return self.errorComment(iTagLine, '%s: invalid CPU name: %s (names: %s)'
|
---|
4045 | % (sTag, sMinCpu, ','.join(sorted(g_kdCpuNames)),));
|
---|
4046 |
|
---|
4047 | # Set it.
|
---|
4048 | if oInstr.sMinCpu is None:
|
---|
4049 | oInstr.sMinCpu = sMinCpu;
|
---|
4050 | elif oInstr.sMinCpu != sMinCpu:
|
---|
4051 | self.errorComment(iTagLine, '%s: attemting to overwrite "%s" with "%s"' % (sTag, oInstr.sMinCpu, sMinCpu,));
|
---|
4052 |
|
---|
4053 | _ = iEndLine;
|
---|
4054 | return True;
|
---|
4055 |
|
---|
4056 | def parseTagOpCpuId(self, sTag, aasSections, iTagLine, iEndLine):
|
---|
4057 | """
|
---|
4058 | Tag: \@opcpuid
|
---|
4059 | Value: none | <CPUID flag specifier>
|
---|
4060 |
|
---|
4061 | CPUID feature bit which is required for the instruction to be present.
|
---|
4062 | """
|
---|
4063 | oInstr = self.ensureInstructionForOpTag(iTagLine);
|
---|
4064 |
|
---|
4065 | # Flatten as a space separated list, split it up and validate the values.
|
---|
4066 | asCpuIds = self.flattenAllSections(aasSections, sLineSep = ' ', sSectionSep = ' ').replace(',', ' ').split();
|
---|
4067 | if len(asCpuIds) == 1 and asCpuIds[0].lower() == 'none':
|
---|
4068 | asCpuIds = [];
|
---|
4069 | else:
|
---|
4070 | fRc = True;
|
---|
4071 | for iCpuId, sCpuId in enumerate(asCpuIds):
|
---|
4072 | if sCpuId not in g_kdCpuIdFlags:
|
---|
4073 | if sCpuId.strip() in g_kdCpuIdFlags:
|
---|
4074 | sCpuId[iCpuId] = sCpuId.strip();
|
---|
4075 | else:
|
---|
4076 | fRc = self.errorComment(iTagLine, '%s: invalid CPUID value: %s' % (sTag, sCpuId,));
|
---|
4077 | if not fRc:
|
---|
4078 | return False;
|
---|
4079 |
|
---|
4080 | # Append them.
|
---|
4081 | for sCpuId in asCpuIds:
|
---|
4082 | if sCpuId not in oInstr.asCpuIds:
|
---|
4083 | oInstr.asCpuIds.append(sCpuId);
|
---|
4084 | else:
|
---|
4085 | self.errorComment(iTagLine, '%s: duplicate CPUID: %s' % ( sTag, sCpuId,));
|
---|
4086 |
|
---|
4087 | _ = iEndLine;
|
---|
4088 | return True;
|
---|
4089 |
|
---|
4090 | def parseTagOpGroup(self, sTag, aasSections, iTagLine, iEndLine):
|
---|
4091 | """
|
---|
4092 | Tag: \@opgroup
|
---|
4093 | Value: op_grp1[_subgrp2[_subsubgrp3]]
|
---|
4094 |
|
---|
4095 | Instruction grouping.
|
---|
4096 | """
|
---|
4097 | oInstr = self.ensureInstructionForOpTag(iTagLine);
|
---|
4098 |
|
---|
4099 | # Flatten as a space separated list, split it up and validate the values.
|
---|
4100 | asGroups = self.flattenAllSections(aasSections).split();
|
---|
4101 | if len(asGroups) != 1:
|
---|
4102 | return self.errorComment(iTagLine, '%s: exactly one group, please: %s' % (sTag, asGroups,));
|
---|
4103 | sGroup = asGroups[0];
|
---|
4104 | if not self.oReGroupName.match(sGroup):
|
---|
4105 | return self.errorComment(iTagLine, '%s: invalid group name: %s (valid: %s)'
|
---|
4106 | % (sTag, sGroup, self.oReGroupName.pattern));
|
---|
4107 |
|
---|
4108 | # Set it.
|
---|
4109 | if oInstr.sGroup is not None:
|
---|
4110 | return self.errorComment(iTagLine, '%s: attempting to overwrite "%s" with "%s"' % ( sTag, oInstr.sGroup, sGroup,));
|
---|
4111 | oInstr.sGroup = sGroup;
|
---|
4112 |
|
---|
4113 | _ = iEndLine;
|
---|
4114 | return True;
|
---|
4115 |
|
---|
4116 | def parseTagOpUnusedInvalid(self, sTag, aasSections, iTagLine, iEndLine):
|
---|
4117 | """
|
---|
4118 | Tag: \@opunused, \@opinvalid, \@opinvlstyle
|
---|
4119 | Value: <invalid opcode behaviour style>
|
---|
4120 |
|
---|
4121 | The \@opunused indicates the specification is for a currently unused
|
---|
4122 | instruction encoding.
|
---|
4123 |
|
---|
4124 | The \@opinvalid indicates the specification is for an invalid currently
|
---|
4125 | instruction encoding (like UD2).
|
---|
4126 |
|
---|
4127 | The \@opinvlstyle just indicates how CPUs decode the instruction when
|
---|
4128 | not supported (\@opcpuid, \@opmincpu) or disabled.
|
---|
4129 | """
|
---|
4130 | oInstr = self.ensureInstructionForOpTag(iTagLine);
|
---|
4131 |
|
---|
4132 | # Flatten as a space separated list, split it up and validate the values.
|
---|
4133 | asStyles = self.flattenAllSections(aasSections).split();
|
---|
4134 | if len(asStyles) != 1:
|
---|
4135 | return self.errorComment(iTagLine, '%s: exactly one invalid behviour style, please: %s' % (sTag, asStyles,));
|
---|
4136 | sStyle = asStyles[0];
|
---|
4137 | if sStyle not in g_kdInvalidStyles:
|
---|
4138 | return self.errorComment(iTagLine, '%s: invalid invalid behaviour style: %s (valid: %s)'
|
---|
4139 | % (sTag, sStyle, g_kdInvalidStyles.keys(),));
|
---|
4140 | # Set it.
|
---|
4141 | if oInstr.sInvalidStyle is not None:
|
---|
4142 | return self.errorComment(iTagLine,
|
---|
4143 | '%s: attempting to overwrite "%s" with "%s" (only one @opunused, @opinvalid, @opinvlstyle)'
|
---|
4144 | % ( sTag, oInstr.sInvalidStyle, sStyle,));
|
---|
4145 | oInstr.sInvalidStyle = sStyle;
|
---|
4146 | if sTag == '@opunused':
|
---|
4147 | oInstr.fUnused = True;
|
---|
4148 | elif sTag == '@opinvalid':
|
---|
4149 | oInstr.fInvalid = True;
|
---|
4150 |
|
---|
4151 | _ = iEndLine;
|
---|
4152 | return True;
|
---|
4153 |
|
---|
4154 | def parseTagOpTest(self, sTag, aasSections, iTagLine, iEndLine): # pylint: disable=too-many-locals
|
---|
4155 | """
|
---|
4156 | Tag: \@optest
|
---|
4157 | Value: [<selectors>[ ]?] <inputs> -> <outputs>
|
---|
4158 | Example: mode==64bit / in1=0xfffffffe:dw in2=1:dw -> out1=0xffffffff:dw outfl=a?,p?
|
---|
4159 |
|
---|
4160 | The main idea here is to generate basic instruction tests.
|
---|
4161 |
|
---|
4162 | The probably simplest way of handling the diverse input, would be to use
|
---|
4163 | it to produce size optimized byte code for a simple interpreter that
|
---|
4164 | modifies the register input and output states.
|
---|
4165 |
|
---|
4166 | An alternative to the interpreter would be creating multiple tables,
|
---|
4167 | but that becomes rather complicated wrt what goes where and then to use
|
---|
4168 | them in an efficient manner.
|
---|
4169 | """
|
---|
4170 | oInstr = self.ensureInstructionForOpTag(iTagLine);
|
---|
4171 |
|
---|
4172 | #
|
---|
4173 | # Do it section by section.
|
---|
4174 | #
|
---|
4175 | for asSectionLines in aasSections:
|
---|
4176 | #
|
---|
4177 | # Sort the input into outputs, inputs and selector conditions.
|
---|
4178 | #
|
---|
4179 | sFlatSection = self.flattenAllSections([asSectionLines,]);
|
---|
4180 | if not sFlatSection:
|
---|
4181 | self.errorComment(iTagLine, '%s: missing value (dbg: aasSections=%s)' % ( sTag, aasSections));
|
---|
4182 | continue;
|
---|
4183 | oTest = InstructionTest(oInstr);
|
---|
4184 |
|
---|
4185 | asSelectors = [];
|
---|
4186 | asInputs = [];
|
---|
4187 | asOutputs = [];
|
---|
4188 | asCur = asOutputs;
|
---|
4189 | fRc = True;
|
---|
4190 | asWords = sFlatSection.split();
|
---|
4191 | for iWord in range(len(asWords) - 1, -1, -1):
|
---|
4192 | sWord = asWords[iWord];
|
---|
4193 | # Check for array switchers.
|
---|
4194 | if sWord == '->':
|
---|
4195 | if asCur != asOutputs:
|
---|
4196 | fRc = self.errorComment(iTagLine, '%s: "->" shall only occure once: %s' % (sTag, sFlatSection,));
|
---|
4197 | break;
|
---|
4198 | asCur = asInputs;
|
---|
4199 | elif sWord == '/':
|
---|
4200 | if asCur != asInputs:
|
---|
4201 | fRc = self.errorComment(iTagLine, '%s: "/" shall only occure once: %s' % (sTag, sFlatSection,));
|
---|
4202 | break;
|
---|
4203 | asCur = asSelectors;
|
---|
4204 | else:
|
---|
4205 | asCur.insert(0, sWord);
|
---|
4206 |
|
---|
4207 | #
|
---|
4208 | # Validate and add selectors.
|
---|
4209 | #
|
---|
4210 | for sCond in asSelectors:
|
---|
4211 | sCondExp = TestSelector.kdPredicates.get(sCond, sCond);
|
---|
4212 | oSelector = None;
|
---|
4213 | for sOp in TestSelector.kasCompareOps:
|
---|
4214 | off = sCondExp.find(sOp);
|
---|
4215 | if off >= 0:
|
---|
4216 | sVariable = sCondExp[:off];
|
---|
4217 | sValue = sCondExp[off + len(sOp):];
|
---|
4218 | if sVariable in TestSelector.kdVariables:
|
---|
4219 | if sValue in TestSelector.kdVariables[sVariable]:
|
---|
4220 | oSelector = TestSelector(sVariable, sOp, sValue);
|
---|
4221 | else:
|
---|
4222 | self.errorComment(iTagLine, '%s: invalid condition value "%s" in "%s" (valid: %s)'
|
---|
4223 | % ( sTag, sValue, sCond,
|
---|
4224 | TestSelector.kdVariables[sVariable].keys(),));
|
---|
4225 | else:
|
---|
4226 | self.errorComment(iTagLine, '%s: invalid condition variable "%s" in "%s" (valid: %s)'
|
---|
4227 | % ( sTag, sVariable, sCond, TestSelector.kdVariables.keys(),));
|
---|
4228 | break;
|
---|
4229 | if oSelector is not None:
|
---|
4230 | for oExisting in oTest.aoSelectors:
|
---|
4231 | if oExisting.sVariable == oSelector.sVariable:
|
---|
4232 | self.errorComment(iTagLine, '%s: already have a selector for variable "%s" (existing: %s, new: %s)'
|
---|
4233 | % ( sTag, oSelector.sVariable, oExisting, oSelector,));
|
---|
4234 | oTest.aoSelectors.append(oSelector);
|
---|
4235 | else:
|
---|
4236 | fRc = self.errorComment(iTagLine, '%s: failed to parse selector: %s' % ( sTag, sCond,));
|
---|
4237 |
|
---|
4238 | #
|
---|
4239 | # Validate outputs and inputs, adding them to the test as we go along.
|
---|
4240 | #
|
---|
4241 | for asItems, sDesc, aoDst in [ (asInputs, 'input', oTest.aoInputs), (asOutputs, 'output', oTest.aoOutputs)]:
|
---|
4242 | asValidFieldKinds = [ 'both', sDesc, ];
|
---|
4243 | for sItem in asItems:
|
---|
4244 | oItem = None;
|
---|
4245 | for sOp in TestInOut.kasOperators:
|
---|
4246 | off = sItem.find(sOp);
|
---|
4247 | if off < 0:
|
---|
4248 | continue;
|
---|
4249 | sField = sItem[:off];
|
---|
4250 | sValueType = sItem[off + len(sOp):];
|
---|
4251 | if sField in TestInOut.kdFields \
|
---|
4252 | and TestInOut.kdFields[sField][1] in asValidFieldKinds:
|
---|
4253 | asSplit = sValueType.split(':', 1);
|
---|
4254 | sValue = asSplit[0];
|
---|
4255 | sType = asSplit[1] if len(asSplit) > 1 else TestInOut.kdFields[sField][0];
|
---|
4256 | if sType in TestInOut.kdTypes:
|
---|
4257 | oValid = TestInOut.kdTypes[sType].validate(sValue);
|
---|
4258 | if oValid is True:
|
---|
4259 | if not TestInOut.kdTypes[sType].isAndOrPair(sValue) or sOp == '&|=':
|
---|
4260 | oItem = TestInOut(sField, sOp, sValue, sType);
|
---|
4261 | else:
|
---|
4262 | self.errorComment(iTagLine, '%s: and-or %s value "%s" can only be used with "&|="'
|
---|
4263 | % ( sTag, sDesc, sItem, ));
|
---|
4264 | else:
|
---|
4265 | self.errorComment(iTagLine, '%s: invalid %s value "%s" in "%s" (type: %s): %s'
|
---|
4266 | % ( sTag, sDesc, sValue, sItem, sType, oValid, ));
|
---|
4267 | else:
|
---|
4268 | self.errorComment(iTagLine, '%s: invalid %s type "%s" in "%s" (valid types: %s)'
|
---|
4269 | % ( sTag, sDesc, sType, sItem, TestInOut.kdTypes.keys(),));
|
---|
4270 | else:
|
---|
4271 | self.errorComment(iTagLine, '%s: invalid %s field "%s" in "%s"\nvalid fields: %s'
|
---|
4272 | % ( sTag, sDesc, sField, sItem,
|
---|
4273 | ', '.join([sKey for sKey, asVal in TestInOut.kdFields.items()
|
---|
4274 | if asVal[1] in asValidFieldKinds]),));
|
---|
4275 | break;
|
---|
4276 | if oItem is not None:
|
---|
4277 | for oExisting in aoDst:
|
---|
4278 | if oExisting.sField == oItem.sField and oExisting.sOp == oItem.sOp:
|
---|
4279 | self.errorComment(iTagLine,
|
---|
4280 | '%s: already have a "%s" assignment for field "%s" (existing: %s, new: %s)'
|
---|
4281 | % ( sTag, oItem.sOp, oItem.sField, oExisting, oItem,));
|
---|
4282 | aoDst.append(oItem);
|
---|
4283 | else:
|
---|
4284 | fRc = self.errorComment(iTagLine, '%s: failed to parse assignment: %s' % ( sTag, sItem,));
|
---|
4285 |
|
---|
4286 | #
|
---|
4287 | # .
|
---|
4288 | #
|
---|
4289 | if fRc:
|
---|
4290 | oInstr.aoTests.append(oTest);
|
---|
4291 | else:
|
---|
4292 | self.errorComment(iTagLine, '%s: failed to parse test: %s' % (sTag, ' '.join(asWords),));
|
---|
4293 | self.errorComment(iTagLine, '%s: asSelectors=%s / asInputs=%s -> asOutputs=%s'
|
---|
4294 | % (sTag, asSelectors, asInputs, asOutputs,));
|
---|
4295 |
|
---|
4296 | _ = iEndLine;
|
---|
4297 | return True;
|
---|
4298 |
|
---|
4299 | def parseTagOpTestNum(self, sTag, aasSections, iTagLine, iEndLine):
|
---|
4300 | """
|
---|
4301 | Numbered \@optest tag. Either \@optest42 or \@optest[42].
|
---|
4302 | """
|
---|
4303 | oInstr = self.ensureInstructionForOpTag(iTagLine);
|
---|
4304 |
|
---|
4305 | iTest = 0;
|
---|
4306 | if sTag[-1] == ']':
|
---|
4307 | iTest = int(sTag[8:-1]);
|
---|
4308 | else:
|
---|
4309 | iTest = int(sTag[7:]);
|
---|
4310 |
|
---|
4311 | if iTest != len(oInstr.aoTests):
|
---|
4312 | self.errorComment(iTagLine, '%s: incorrect test number: %u, actual %u' % (sTag, iTest, len(oInstr.aoTests),));
|
---|
4313 | return self.parseTagOpTest(sTag, aasSections, iTagLine, iEndLine);
|
---|
4314 |
|
---|
4315 | def parseTagOpTestIgnore(self, sTag, aasSections, iTagLine, iEndLine):
|
---|
4316 | """
|
---|
4317 | Tag: \@optestign | \@optestignore
|
---|
4318 | Value: <value is ignored>
|
---|
4319 |
|
---|
4320 | This is a simple trick to ignore a test while debugging another.
|
---|
4321 |
|
---|
4322 | See also \@oponlytest.
|
---|
4323 | """
|
---|
4324 | _ = sTag; _ = aasSections; _ = iTagLine; _ = iEndLine;
|
---|
4325 | return True;
|
---|
4326 |
|
---|
4327 | def parseTagOpCopyTests(self, sTag, aasSections, iTagLine, iEndLine):
|
---|
4328 | """
|
---|
4329 | Tag: \@opcopytests
|
---|
4330 | Value: <opstat | function> [..]
|
---|
4331 | Example: \@opcopytests add_Eb_Gb
|
---|
4332 |
|
---|
4333 | Trick to avoid duplicating tests for different encodings of the same
|
---|
4334 | operation.
|
---|
4335 | """
|
---|
4336 | oInstr = self.ensureInstructionForOpTag(iTagLine);
|
---|
4337 |
|
---|
4338 | # Flatten, validate and append the copy job to the instruction. We execute
|
---|
4339 | # them after parsing all the input so we can handle forward references.
|
---|
4340 | asToCopy = self.flattenAllSections(aasSections).split();
|
---|
4341 | if not asToCopy:
|
---|
4342 | return self.errorComment(iTagLine, '%s: requires at least on reference value' % (sTag,));
|
---|
4343 | for sToCopy in asToCopy:
|
---|
4344 | if sToCopy not in oInstr.asCopyTests:
|
---|
4345 | if self.oReStatsName.match(sToCopy) or self.oReFunctionName.match(sToCopy):
|
---|
4346 | oInstr.asCopyTests.append(sToCopy);
|
---|
4347 | else:
|
---|
4348 | self.errorComment(iTagLine, '%s: invalid instruction reference (opstat or function) "%s" (valid: %s or %s)'
|
---|
4349 | % (sTag, sToCopy, self.oReStatsName.pattern, self.oReFunctionName.pattern));
|
---|
4350 | else:
|
---|
4351 | self.errorComment(iTagLine, '%s: ignoring duplicate "%s"' % (sTag, sToCopy,));
|
---|
4352 |
|
---|
4353 | _ = iEndLine;
|
---|
4354 | return True;
|
---|
4355 |
|
---|
4356 | def parseTagOpOnlyTest(self, sTag, aasSections, iTagLine, iEndLine):
|
---|
4357 | """
|
---|
4358 | Tag: \@oponlytest | \@oponly
|
---|
4359 | Value: none
|
---|
4360 |
|
---|
4361 | Only test instructions with this tag. This is a trick that is handy
|
---|
4362 | for singling out one or two new instructions or tests.
|
---|
4363 |
|
---|
4364 | See also \@optestignore.
|
---|
4365 | """
|
---|
4366 | oInstr = self.ensureInstructionForOpTag(iTagLine);
|
---|
4367 |
|
---|
4368 | # Validate and add instruction to only test dictionary.
|
---|
4369 | sValue = self.flattenAllSections(aasSections).strip();
|
---|
4370 | if sValue:
|
---|
4371 | return self.errorComment(iTagLine, '%s: does not take any value: %s' % (sTag, sValue));
|
---|
4372 |
|
---|
4373 | if oInstr not in g_aoOnlyTestInstructions:
|
---|
4374 | g_aoOnlyTestInstructions.append(oInstr);
|
---|
4375 |
|
---|
4376 | _ = iEndLine;
|
---|
4377 | return True;
|
---|
4378 |
|
---|
4379 | def parseTagOpXcptType(self, sTag, aasSections, iTagLine, iEndLine):
|
---|
4380 | """
|
---|
4381 | Tag: \@opxcpttype
|
---|
4382 | Value: [none|1|2|3|4|4UA|5|6|7|8|11|12|E1|E1NF|E2|E3|E3NF|E4|E4NF|E5|E5NF|E6|E6NF|E7NF|E9|E9NF|E10|E11|E12|E12NF]
|
---|
4383 |
|
---|
4384 | Sets the SSE or AVX exception type (see SDMv2 2.4, 2.7).
|
---|
4385 | """
|
---|
4386 | oInstr = self.ensureInstructionForOpTag(iTagLine);
|
---|
4387 |
|
---|
4388 | # Flatten as a space separated list, split it up and validate the values.
|
---|
4389 | asTypes = self.flattenAllSections(aasSections).split();
|
---|
4390 | if len(asTypes) != 1:
|
---|
4391 | return self.errorComment(iTagLine, '%s: exactly one invalid exception type, please: %s' % (sTag, asTypes,));
|
---|
4392 | sType = asTypes[0];
|
---|
4393 | if sType not in g_kdXcptTypes:
|
---|
4394 | return self.errorComment(iTagLine, '%s: invalid invalid exception type: %s (valid: %s)'
|
---|
4395 | % (sTag, sType, sorted(g_kdXcptTypes.keys()),));
|
---|
4396 | # Set it.
|
---|
4397 | if oInstr.sXcptType is not None:
|
---|
4398 | return self.errorComment(iTagLine,
|
---|
4399 | '%s: attempting to overwrite "%s" with "%s" (only one @opxcpttype)'
|
---|
4400 | % ( sTag, oInstr.sXcptType, sType,));
|
---|
4401 | oInstr.sXcptType = sType;
|
---|
4402 |
|
---|
4403 | _ = iEndLine;
|
---|
4404 | return True;
|
---|
4405 |
|
---|
4406 | def parseTagOpFunction(self, sTag, aasSections, iTagLine, iEndLine):
|
---|
4407 | """
|
---|
4408 | Tag: \@opfunction
|
---|
4409 | Value: <VMM function name>
|
---|
4410 |
|
---|
4411 | This is for explicitly setting the IEM function name. Normally we pick
|
---|
4412 | this up from the FNIEMOP_XXX macro invocation after the description, or
|
---|
4413 | generate it from the mnemonic and operands.
|
---|
4414 |
|
---|
4415 | It it thought it maybe necessary to set it when specifying instructions
|
---|
4416 | which implementation isn't following immediately or aren't implemented yet.
|
---|
4417 | """
|
---|
4418 | oInstr = self.ensureInstructionForOpTag(iTagLine);
|
---|
4419 |
|
---|
4420 | # Flatten and validate the value.
|
---|
4421 | sFunction = self.flattenAllSections(aasSections);
|
---|
4422 | if not self.oReFunctionName.match(sFunction):
|
---|
4423 | return self.errorComment(iTagLine, '%s: invalid VMM function name: "%s" (valid: %s)'
|
---|
4424 | % (sTag, sFunction, self.oReFunctionName.pattern));
|
---|
4425 |
|
---|
4426 | if oInstr.sFunction is not None:
|
---|
4427 | return self.errorComment(iTagLine, '%s: attempting to overwrite VMM function name "%s" with "%s"'
|
---|
4428 | % (sTag, oInstr.sFunction, sFunction,));
|
---|
4429 | oInstr.sFunction = sFunction;
|
---|
4430 |
|
---|
4431 | _ = iEndLine;
|
---|
4432 | return True;
|
---|
4433 |
|
---|
4434 | def parseTagOpStats(self, sTag, aasSections, iTagLine, iEndLine):
|
---|
4435 | """
|
---|
4436 | Tag: \@opstats
|
---|
4437 | Value: <VMM statistics base name>
|
---|
4438 |
|
---|
4439 | This is for explicitly setting the statistics name. Normally we pick
|
---|
4440 | this up from the IEMOP_MNEMONIC macro invocation, or generate it from
|
---|
4441 | the mnemonic and operands.
|
---|
4442 |
|
---|
4443 | It it thought it maybe necessary to set it when specifying instructions
|
---|
4444 | which implementation isn't following immediately or aren't implemented yet.
|
---|
4445 | """
|
---|
4446 | oInstr = self.ensureInstructionForOpTag(iTagLine);
|
---|
4447 |
|
---|
4448 | # Flatten and validate the value.
|
---|
4449 | sStats = self.flattenAllSections(aasSections);
|
---|
4450 | if not self.oReStatsName.match(sStats):
|
---|
4451 | return self.errorComment(iTagLine, '%s: invalid VMM statistics name: "%s" (valid: %s)'
|
---|
4452 | % (sTag, sStats, self.oReStatsName.pattern));
|
---|
4453 |
|
---|
4454 | if oInstr.sStats is not None:
|
---|
4455 | return self.errorComment(iTagLine, '%s: attempting to overwrite VMM statistics base name "%s" with "%s"'
|
---|
4456 | % (sTag, oInstr.sStats, sStats,));
|
---|
4457 | oInstr.sStats = sStats;
|
---|
4458 |
|
---|
4459 | _ = iEndLine;
|
---|
4460 | return True;
|
---|
4461 |
|
---|
4462 | def parseTagOpDone(self, sTag, aasSections, iTagLine, iEndLine):
|
---|
4463 | """
|
---|
4464 | Tag: \@opdone
|
---|
4465 | Value: none
|
---|
4466 |
|
---|
4467 | Used to explictily flush the instructions that have been specified.
|
---|
4468 | """
|
---|
4469 | sFlattened = self.flattenAllSections(aasSections);
|
---|
4470 | if sFlattened != '':
|
---|
4471 | return self.errorComment(iTagLine, '%s: takes no value, found: "%s"' % (sTag, sFlattened,));
|
---|
4472 | _ = sTag; _ = iEndLine;
|
---|
4473 | return self.doneInstructions();
|
---|
4474 |
|
---|
4475 | ## @}
|
---|
4476 |
|
---|
4477 |
|
---|
4478 | def parseComment(self):
|
---|
4479 | """
|
---|
4480 | Parse the current comment (self.sComment).
|
---|
4481 |
|
---|
4482 | If it's a opcode specifiying comment, we reset the macro stuff.
|
---|
4483 | """
|
---|
4484 | #
|
---|
4485 | # Reject if comment doesn't seem to contain anything interesting.
|
---|
4486 | #
|
---|
4487 | if self.sComment.find('Opcode') < 0 \
|
---|
4488 | and self.sComment.find('@') < 0:
|
---|
4489 | return False;
|
---|
4490 |
|
---|
4491 | #
|
---|
4492 | # Split the comment into lines, removing leading asterisks and spaces.
|
---|
4493 | # Also remove leading and trailing empty lines.
|
---|
4494 | #
|
---|
4495 | asLines = self.sComment.split('\n');
|
---|
4496 | for iLine, sLine in enumerate(asLines):
|
---|
4497 | asLines[iLine] = sLine.lstrip().lstrip('*').lstrip();
|
---|
4498 |
|
---|
4499 | while asLines and not asLines[0]:
|
---|
4500 | self.iCommentLine += 1;
|
---|
4501 | asLines.pop(0);
|
---|
4502 |
|
---|
4503 | while asLines and not asLines[-1]:
|
---|
4504 | asLines.pop(len(asLines) - 1);
|
---|
4505 |
|
---|
4506 | #
|
---|
4507 | # Check for old style: Opcode 0x0f 0x12
|
---|
4508 | #
|
---|
4509 | if asLines[0].startswith('Opcode '):
|
---|
4510 | self.parseCommentOldOpcode(asLines);
|
---|
4511 |
|
---|
4512 | #
|
---|
4513 | # Look for @op* tagged data.
|
---|
4514 | #
|
---|
4515 | cOpTags = 0;
|
---|
4516 | sFlatDefault = None;
|
---|
4517 | sCurTag = '@default';
|
---|
4518 | iCurTagLine = 0;
|
---|
4519 | asCurSection = [];
|
---|
4520 | aasSections = [ asCurSection, ];
|
---|
4521 | for iLine, sLine in enumerate(asLines):
|
---|
4522 | if not sLine.startswith('@'):
|
---|
4523 | if sLine:
|
---|
4524 | asCurSection.append(sLine);
|
---|
4525 | elif asCurSection:
|
---|
4526 | asCurSection = [];
|
---|
4527 | aasSections.append(asCurSection);
|
---|
4528 | else:
|
---|
4529 | #
|
---|
4530 | # Process the previous tag.
|
---|
4531 | #
|
---|
4532 | if not asCurSection and len(aasSections) > 1:
|
---|
4533 | aasSections.pop(-1);
|
---|
4534 | if sCurTag in self.dTagHandlers:
|
---|
4535 | self.dTagHandlers[sCurTag](sCurTag, aasSections, iCurTagLine, iLine);
|
---|
4536 | cOpTags += 1;
|
---|
4537 | elif sCurTag.startswith('@op'):
|
---|
4538 | self.errorComment(iCurTagLine, 'Unknown tag: %s' % (sCurTag));
|
---|
4539 | elif sCurTag == '@default':
|
---|
4540 | sFlatDefault = self.flattenAllSections(aasSections);
|
---|
4541 | elif '@op' + sCurTag[1:] in self.dTagHandlers:
|
---|
4542 | self.errorComment(iCurTagLine, 'Did you mean "@op%s" rather than "%s"?' % (sCurTag[1:], sCurTag));
|
---|
4543 | elif sCurTag in ['@encoding', '@opencoding']:
|
---|
4544 | self.errorComment(iCurTagLine, 'Did you mean "@openc" rather than "%s"?' % (sCurTag,));
|
---|
4545 |
|
---|
4546 | #
|
---|
4547 | # New tag.
|
---|
4548 | #
|
---|
4549 | asSplit = sLine.split(None, 1);
|
---|
4550 | sCurTag = asSplit[0].lower();
|
---|
4551 | if len(asSplit) > 1:
|
---|
4552 | asCurSection = [asSplit[1],];
|
---|
4553 | else:
|
---|
4554 | asCurSection = [];
|
---|
4555 | aasSections = [asCurSection, ];
|
---|
4556 | iCurTagLine = iLine;
|
---|
4557 |
|
---|
4558 | #
|
---|
4559 | # Process the final tag.
|
---|
4560 | #
|
---|
4561 | if not asCurSection and len(aasSections) > 1:
|
---|
4562 | aasSections.pop(-1);
|
---|
4563 | if sCurTag in self.dTagHandlers:
|
---|
4564 | self.dTagHandlers[sCurTag](sCurTag, aasSections, iCurTagLine, iLine);
|
---|
4565 | cOpTags += 1;
|
---|
4566 | elif sCurTag.startswith('@op'):
|
---|
4567 | self.errorComment(iCurTagLine, 'Unknown tag: %s' % (sCurTag));
|
---|
4568 | elif sCurTag == '@default':
|
---|
4569 | sFlatDefault = self.flattenAllSections(aasSections);
|
---|
4570 |
|
---|
4571 | #
|
---|
4572 | # Don't allow default text in blocks containing @op*.
|
---|
4573 | #
|
---|
4574 | if cOpTags > 0 and sFlatDefault:
|
---|
4575 | self.errorComment(0, 'Untagged comment text is not allowed with @op*: %s' % (sFlatDefault,));
|
---|
4576 |
|
---|
4577 | return True;
|
---|
4578 |
|
---|
4579 | def parseMacroInvocation(self, sInvocation, offStartInvocation = 0):
|
---|
4580 | """
|
---|
4581 | Parses a macro invocation.
|
---|
4582 |
|
---|
4583 | Returns three values:
|
---|
4584 | 1. A list of macro arguments, where the zero'th is the macro name.
|
---|
4585 | 2. The offset following the macro invocation, into sInvocation of
|
---|
4586 | this is on the same line or into the last line if it is on a
|
---|
4587 | different line.
|
---|
4588 | 3. Number of additional lines the invocation spans (i.e. zero if
|
---|
4589 | it is all contained within sInvocation).
|
---|
4590 | """
|
---|
4591 | # First the name.
|
---|
4592 | offOpen = sInvocation.find('(', offStartInvocation);
|
---|
4593 | if offOpen <= offStartInvocation:
|
---|
4594 | self.raiseError("macro invocation open parenthesis not found");
|
---|
4595 | sName = sInvocation[offStartInvocation:offOpen].strip();
|
---|
4596 | if not self.oReMacroName.match(sName):
|
---|
4597 | self.raiseError("invalid macro name '%s'" % (sName,));
|
---|
4598 | asRet = [sName, ];
|
---|
4599 |
|
---|
4600 | # Arguments.
|
---|
4601 | iLine = self.iLine;
|
---|
4602 | cDepth = 1;
|
---|
4603 | off = offOpen + 1;
|
---|
4604 | offStart = off;
|
---|
4605 | offCurLn = 0;
|
---|
4606 | chQuote = None;
|
---|
4607 | while cDepth > 0:
|
---|
4608 | if off >= len(sInvocation):
|
---|
4609 | if iLine >= len(self.asLines):
|
---|
4610 | self.error('macro invocation beyond end of file');
|
---|
4611 | return (asRet, off - offCurLn, iLine - self.iLine);
|
---|
4612 | offCurLn = off;
|
---|
4613 | sInvocation += self.asLines[iLine];
|
---|
4614 | iLine += 1;
|
---|
4615 | ch = sInvocation[off];
|
---|
4616 |
|
---|
4617 | if chQuote:
|
---|
4618 | if ch == '\\' and off + 1 < len(sInvocation):
|
---|
4619 | off += 1;
|
---|
4620 | elif ch == chQuote:
|
---|
4621 | chQuote = None;
|
---|
4622 | elif ch in ('"', '\'',):
|
---|
4623 | chQuote = ch;
|
---|
4624 | elif ch in (',', ')',):
|
---|
4625 | if cDepth == 1:
|
---|
4626 | asRet.append(sInvocation[offStart:off].strip());
|
---|
4627 | offStart = off + 1;
|
---|
4628 | if ch == ')':
|
---|
4629 | cDepth -= 1;
|
---|
4630 | elif ch == '(':
|
---|
4631 | cDepth += 1;
|
---|
4632 | off += 1;
|
---|
4633 |
|
---|
4634 | return (asRet, off - offCurLn, iLine - self.iLine);
|
---|
4635 |
|
---|
4636 | def findAndParseMacroInvocationEx(self, sCode, sMacro, offStart = 0):
|
---|
4637 | """
|
---|
4638 | Returns (None, len(sCode), 0) if not found, otherwise the
|
---|
4639 | parseMacroInvocation() return value.
|
---|
4640 | """
|
---|
4641 | offHit = sCode.find(sMacro, offStart);
|
---|
4642 | if offHit >= 0 and sCode[offHit + len(sMacro):].strip()[0] == '(':
|
---|
4643 | return self.parseMacroInvocation(sCode, offHit);
|
---|
4644 | return (None, len(sCode), 0);
|
---|
4645 |
|
---|
4646 | def findAndParseMacroInvocation(self, sCode, sMacro):
|
---|
4647 | """
|
---|
4648 | Returns None if not found, arguments as per parseMacroInvocation if found.
|
---|
4649 | """
|
---|
4650 | return self.findAndParseMacroInvocationEx(sCode, sMacro)[0];
|
---|
4651 |
|
---|
4652 | def findAndParseFirstMacroInvocation(self, sCode, asMacro):
|
---|
4653 | """
|
---|
4654 | Returns same as findAndParseMacroInvocation.
|
---|
4655 | """
|
---|
4656 | for sMacro in asMacro:
|
---|
4657 | asRet = self.findAndParseMacroInvocation(sCode, sMacro);
|
---|
4658 | if asRet is not None:
|
---|
4659 | return asRet;
|
---|
4660 | return None;
|
---|
4661 |
|
---|
4662 | def workerIemOpMnemonicEx(self, sMacro, sStats, sAsm, sForm, sUpper, sLower, # pylint: disable=too-many-arguments
|
---|
4663 | sDisHints, sIemHints, asOperands):
|
---|
4664 | """
|
---|
4665 | Processes one of the a IEMOP_MNEMONIC0EX, IEMOP_MNEMONIC1EX, IEMOP_MNEMONIC2EX,
|
---|
4666 | IEMOP_MNEMONIC3EX, and IEMOP_MNEMONIC4EX macros.
|
---|
4667 | """
|
---|
4668 | #
|
---|
4669 | # Some invocation checks.
|
---|
4670 | #
|
---|
4671 | if sUpper != sUpper.upper():
|
---|
4672 | self.error('%s: bad a_Upper parameter: %s' % (sMacro, sUpper,));
|
---|
4673 | if sLower != sLower.lower():
|
---|
4674 | self.error('%s: bad a_Lower parameter: %s' % (sMacro, sLower,));
|
---|
4675 | if sUpper.lower() != sLower:
|
---|
4676 | self.error('%s: a_Upper and a_Lower parameters does not match: %s vs %s' % (sMacro, sUpper, sLower,));
|
---|
4677 | if not self.oReMnemonic.match(sLower):
|
---|
4678 | self.error('%s: invalid a_Lower: %s (valid: %s)' % (sMacro, sLower, self.oReMnemonic.pattern,));
|
---|
4679 |
|
---|
4680 | #
|
---|
4681 | # Check if sIemHints tells us to not consider this macro invocation.
|
---|
4682 | #
|
---|
4683 | if sIemHints.find('IEMOPHINT_SKIP_PYTHON') >= 0:
|
---|
4684 | return True;
|
---|
4685 |
|
---|
4686 | # Apply to the last instruction only for now.
|
---|
4687 | if not self.aoCurInstrs:
|
---|
4688 | self.addInstruction();
|
---|
4689 | oInstr = self.aoCurInstrs[-1];
|
---|
4690 | if oInstr.iLineMnemonicMacro == -1:
|
---|
4691 | oInstr.iLineMnemonicMacro = self.iLine;
|
---|
4692 | else:
|
---|
4693 | self.error('%s: already saw a IEMOP_MNEMONIC* macro on line %u for this instruction'
|
---|
4694 | % (sMacro, oInstr.iLineMnemonicMacro,));
|
---|
4695 |
|
---|
4696 | # Mnemonic
|
---|
4697 | if oInstr.sMnemonic is None:
|
---|
4698 | oInstr.sMnemonic = sLower;
|
---|
4699 | elif oInstr.sMnemonic != sLower:
|
---|
4700 | self.error('%s: current instruction and a_Lower does not match: %s vs %s' % (sMacro, oInstr.sMnemonic, sLower,));
|
---|
4701 |
|
---|
4702 | # Process operands.
|
---|
4703 | if len(oInstr.aoOperands) not in [0, len(asOperands)]:
|
---|
4704 | self.error('%s: number of operands given by @opN does not match macro: %s vs %s'
|
---|
4705 | % (sMacro, len(oInstr.aoOperands), len(asOperands),));
|
---|
4706 | for iOperand, sType in enumerate(asOperands):
|
---|
4707 | sWhere = g_kdOpTypes.get(sType, [None, None])[1];
|
---|
4708 | if sWhere is None:
|
---|
4709 | self.error('%s: unknown a_Op%u value: %s' % (sMacro, iOperand + 1, sType));
|
---|
4710 | if iOperand < len(oInstr.aoOperands): # error recovery.
|
---|
4711 | sWhere = oInstr.aoOperands[iOperand].sWhere;
|
---|
4712 | sType = oInstr.aoOperands[iOperand].sType;
|
---|
4713 | else:
|
---|
4714 | sWhere = 'reg';
|
---|
4715 | sType = 'Gb';
|
---|
4716 | if iOperand == len(oInstr.aoOperands):
|
---|
4717 | oInstr.aoOperands.append(Operand(sWhere, sType))
|
---|
4718 | elif oInstr.aoOperands[iOperand].sWhere != sWhere or oInstr.aoOperands[iOperand].sType != sType:
|
---|
4719 | self.error('%s: @op%u and a_Op%u mismatch: %s:%s vs %s:%s'
|
---|
4720 | % (sMacro, iOperand + 1, iOperand + 1, oInstr.aoOperands[iOperand].sWhere,
|
---|
4721 | oInstr.aoOperands[iOperand].sType, sWhere, sType,));
|
---|
4722 |
|
---|
4723 | # Encoding.
|
---|
4724 | if sForm not in g_kdIemForms:
|
---|
4725 | self.error('%s: unknown a_Form value: %s' % (sMacro, sForm,));
|
---|
4726 | else:
|
---|
4727 | if oInstr.sEncoding is None:
|
---|
4728 | oInstr.sEncoding = g_kdIemForms[sForm][0];
|
---|
4729 | elif g_kdIemForms[sForm][0] != oInstr.sEncoding:
|
---|
4730 | self.error('%s: current instruction @openc and a_Form does not match: %s vs %s (%s)'
|
---|
4731 | % (sMacro, oInstr.sEncoding, g_kdIemForms[sForm], sForm));
|
---|
4732 |
|
---|
4733 | # Check the parameter locations for the encoding.
|
---|
4734 | if g_kdIemForms[sForm][1] is not None:
|
---|
4735 | if len(g_kdIemForms[sForm][1]) > len(oInstr.aoOperands):
|
---|
4736 | self.error('%s: The a_Form=%s has a different operand count: %s (form) vs %s'
|
---|
4737 | % (sMacro, sForm, len(g_kdIemForms[sForm][1]), len(oInstr.aoOperands) ));
|
---|
4738 | else:
|
---|
4739 | for iOperand, sWhere in enumerate(g_kdIemForms[sForm][1]):
|
---|
4740 | if oInstr.aoOperands[iOperand].sWhere != sWhere:
|
---|
4741 | self.error('%s: current instruction @op%u and a_Form location does not match: %s vs %s (%s)'
|
---|
4742 | % (sMacro, iOperand + 1, oInstr.aoOperands[iOperand].sWhere, sWhere, sForm,));
|
---|
4743 | sOpFormMatch = g_kdOpTypes[oInstr.aoOperands[iOperand].sType][4];
|
---|
4744 | if (sOpFormMatch in [ 'REG', 'MEM', ] and sForm.find('_' + sOpFormMatch) < 0) \
|
---|
4745 | or (sOpFormMatch in [ 'FIXED', ] and sForm.find(sOpFormMatch) < 0) \
|
---|
4746 | or (sOpFormMatch == 'RM' and (sForm.find('_MEM') > 0 or sForm.find('_REG') > 0) ) \
|
---|
4747 | or (sOpFormMatch == 'V' and ( not (sForm.find('VEX') > 0 or sForm.find('XOP')) \
|
---|
4748 | or sForm.replace('VEX','').find('V') < 0) ):
|
---|
4749 | self.error('%s: current instruction @op%u and a_Form type does not match: %s/%s vs %s'
|
---|
4750 | % (sMacro, iOperand + 1, oInstr.aoOperands[iOperand].sType, sOpFormMatch, sForm, ));
|
---|
4751 | if len(g_kdIemForms[sForm][1]) < len(oInstr.aoOperands):
|
---|
4752 | for iOperand in range(len(g_kdIemForms[sForm][1]), len(oInstr.aoOperands)):
|
---|
4753 | if oInstr.aoOperands[iOperand].sType != 'FIXED' \
|
---|
4754 | and g_kdOpTypes[oInstr.aoOperands[iOperand].sType][0] != 'IDX_ParseFixedReg':
|
---|
4755 | self.error('%s: Expected FIXED type operand #%u following operands given by a_Form=%s: %s (%s)'
|
---|
4756 | % (sMacro, iOperand, sForm, oInstr.aoOperands[iOperand].sType,
|
---|
4757 | oInstr.aoOperands[iOperand].sWhere));
|
---|
4758 |
|
---|
4759 |
|
---|
4760 | # Check @opcodesub
|
---|
4761 | if oInstr.sSubOpcode \
|
---|
4762 | and g_kdIemForms[sForm][2] \
|
---|
4763 | and oInstr.sSubOpcode.find(g_kdIemForms[sForm][2]) < 0:
|
---|
4764 | self.error('%s: current instruction @opcodesub and a_Form does not match: %s vs %s (%s)'
|
---|
4765 | % (sMacro, oInstr.sSubOpcode, g_kdIemForms[sForm][2], sForm,));
|
---|
4766 |
|
---|
4767 | # Stats.
|
---|
4768 | if not self.oReStatsName.match(sStats):
|
---|
4769 | self.error('%s: invalid a_Stats value: %s' % (sMacro, sStats,));
|
---|
4770 | elif oInstr.sStats is None:
|
---|
4771 | oInstr.sStats = sStats;
|
---|
4772 | elif oInstr.sStats != sStats:
|
---|
4773 | self.error('%s: mismatching @opstats and a_Stats value: %s vs %s'
|
---|
4774 | % (sMacro, oInstr.sStats, sStats,));
|
---|
4775 |
|
---|
4776 | # Process the hints (simply merge with @ophints w/o checking anything).
|
---|
4777 | for sHint in sDisHints.split('|'):
|
---|
4778 | sHint = sHint.strip();
|
---|
4779 | if sHint.startswith('DISOPTYPE_'):
|
---|
4780 | sShortHint = sHint[len('DISOPTYPE_'):].lower();
|
---|
4781 | if sShortHint in g_kdHints:
|
---|
4782 | oInstr.dHints[sShortHint] = True; # (dummy value, using dictionary for speed)
|
---|
4783 | else:
|
---|
4784 | self.error('%s: unknown a_fDisHints value: %s' % (sMacro, sHint,));
|
---|
4785 | elif sHint != '0':
|
---|
4786 | self.error('%s: expected a_fDisHints value: %s' % (sMacro, sHint,));
|
---|
4787 |
|
---|
4788 | for sHint in sIemHints.split('|'):
|
---|
4789 | sHint = sHint.strip();
|
---|
4790 | if sHint.startswith('IEMOPHINT_'):
|
---|
4791 | sShortHint = sHint[len('IEMOPHINT_'):].lower();
|
---|
4792 | if sShortHint in g_kdHints:
|
---|
4793 | oInstr.dHints[sShortHint] = True; # (dummy value, using dictionary for speed)
|
---|
4794 | else:
|
---|
4795 | self.error('%s: unknown a_fIemHints value: %s' % (sMacro, sHint,));
|
---|
4796 | elif sHint != '0':
|
---|
4797 | self.error('%s: expected a_fIemHints value: %s' % (sMacro, sHint,));
|
---|
4798 |
|
---|
4799 | _ = sAsm;
|
---|
4800 | return True;
|
---|
4801 |
|
---|
4802 | def workerIemOpMnemonic(self, sMacro, sForm, sUpper, sLower, sDisHints, sIemHints, asOperands):
|
---|
4803 | """
|
---|
4804 | Processes one of the a IEMOP_MNEMONIC0, IEMOP_MNEMONIC1, IEMOP_MNEMONIC2,
|
---|
4805 | IEMOP_MNEMONIC3, and IEMOP_MNEMONIC4 macros.
|
---|
4806 | """
|
---|
4807 | if not asOperands:
|
---|
4808 | return self.workerIemOpMnemonicEx(sMacro, sLower, sLower, sForm, sUpper, sLower, sDisHints, sIemHints, asOperands);
|
---|
4809 | return self.workerIemOpMnemonicEx(sMacro, sLower + '_' + '_'.join(asOperands), sLower + ' ' + ','.join(asOperands),
|
---|
4810 | sForm, sUpper, sLower, sDisHints, sIemHints, asOperands);
|
---|
4811 |
|
---|
4812 | def workerIemMcBegin(self, sCode, offBeginStatementInCodeStr, offBeginStatementInLine):
|
---|
4813 | """
|
---|
4814 | Process a IEM_MC_BEGIN macro invocation.
|
---|
4815 | """
|
---|
4816 | if self.fDebugMc:
|
---|
4817 | self.debug('IEM_MC_BEGIN on %s off %s' % (self.iLine, offBeginStatementInLine,));
|
---|
4818 | #self.debug('%s<eos>' % (sCode,));
|
---|
4819 |
|
---|
4820 | # Check preconditions.
|
---|
4821 | if not self.oCurFunction:
|
---|
4822 | self.raiseError('IEM_MC_BEGIN w/o current function (%s)' % (sCode,));
|
---|
4823 | if self.oCurMcBlock:
|
---|
4824 | self.raiseError('IEM_MC_BEGIN before IEM_MC_END. Previous IEM_MC_BEGIN at line %u' % (self.oCurMcBlock.iBeginLine,));
|
---|
4825 |
|
---|
4826 | # Figure out the indent level the block starts at, adjusting for expanded multiline macros.
|
---|
4827 | cchIndent = offBeginStatementInCodeStr;
|
---|
4828 | offPrevNewline = sCode.rfind('\n', 0, offBeginStatementInCodeStr);
|
---|
4829 | if offPrevNewline >= 0:
|
---|
4830 | cchIndent -= offPrevNewline + 1;
|
---|
4831 | #self.debug('cchIndent=%s offPrevNewline=%s sFunc=%s' % (cchIndent, offPrevNewline, self.oCurFunction.sName));
|
---|
4832 |
|
---|
4833 | # Start a new block.
|
---|
4834 | self.oCurMcBlock = McBlock(self.sSrcFile, self.iLine, offBeginStatementInLine,
|
---|
4835 | self.oCurFunction, self.iMcBlockInFunc, cchIndent);
|
---|
4836 | g_aoMcBlocks.append(self.oCurMcBlock);
|
---|
4837 | self.cTotalMcBlocks += 1;
|
---|
4838 | self.iMcBlockInFunc += 1;
|
---|
4839 | return True;
|
---|
4840 |
|
---|
4841 | @staticmethod
|
---|
4842 | def extractLinesFromMacroExpansionLine(sRawLine, offBegin, offEnd, sBeginStmt = 'IEM_MC_BEGIN'):
|
---|
4843 | """
|
---|
4844 | Helper used by workerIemMcEnd and workerIemMcDeferToCImplXRet for
|
---|
4845 | extracting a statement block from a string that's the result of macro
|
---|
4846 | expansion and therefore contains multiple "sub-lines" as it were.
|
---|
4847 |
|
---|
4848 | Returns list of lines covering offBegin thru offEnd in sRawLine.
|
---|
4849 | """
|
---|
4850 |
|
---|
4851 | off = sRawLine.find('\n', offEnd);
|
---|
4852 | if off > 0:
|
---|
4853 | sRawLine = sRawLine[:off + 1];
|
---|
4854 |
|
---|
4855 | off = sRawLine.rfind('\n', 0, offBegin) + 1;
|
---|
4856 | sRawLine = sRawLine[off:];
|
---|
4857 | if not sRawLine.strip().startswith(sBeginStmt):
|
---|
4858 | sRawLine = sRawLine[offBegin - off:]
|
---|
4859 |
|
---|
4860 | return [sLine + '\n' for sLine in sRawLine.split('\n')];
|
---|
4861 |
|
---|
4862 | def workerIemMcEnd(self, offEndStatementInLine):
|
---|
4863 | """
|
---|
4864 | Process a IEM_MC_END macro invocation.
|
---|
4865 | """
|
---|
4866 | if self.fDebugMc:
|
---|
4867 | self.debug('IEM_MC_END on %s off %s' % (self.iLine, offEndStatementInLine,));
|
---|
4868 |
|
---|
4869 | # Check preconditions.
|
---|
4870 | if not self.oCurMcBlock:
|
---|
4871 | self.raiseError('IEM_MC_END w/o IEM_MC_BEGIN.');
|
---|
4872 |
|
---|
4873 | #
|
---|
4874 | # HACK ALERT! For blocks orginating from macro expansion the start and
|
---|
4875 | # end line will be the same, but the line has multiple
|
---|
4876 | # newlines inside it. So, we have to do some extra tricks
|
---|
4877 | # to get the lines out of there. We ASSUME macros aren't
|
---|
4878 | # messy, but keep IEM_MC_BEGIN/END on separate lines.
|
---|
4879 | #
|
---|
4880 | if self.iLine > self.oCurMcBlock.iBeginLine:
|
---|
4881 | asLines = self.asLines[self.oCurMcBlock.iBeginLine - 1 : self.iLine];
|
---|
4882 | if not asLines[0].strip().startswith('IEM_MC_BEGIN'):
|
---|
4883 | self.raiseError('IEM_MC_BEGIN is not the first word on the line');
|
---|
4884 | else:
|
---|
4885 | asLines = self.extractLinesFromMacroExpansionLine(self.asLines[self.iLine - 1],
|
---|
4886 | self.oCurMcBlock.offBeginLine, offEndStatementInLine);
|
---|
4887 |
|
---|
4888 | #
|
---|
4889 | # Strip anything following the IEM_MC_END(); statement in the final line,
|
---|
4890 | # so that we don't carry on any trailing 'break' after macro expansions
|
---|
4891 | # like for iemOp_movsb_Xb_Yb.
|
---|
4892 | #
|
---|
4893 | while asLines[-1].strip() == '':
|
---|
4894 | asLines.pop();
|
---|
4895 | sFinal = asLines[-1];
|
---|
4896 | offFinalEnd = sFinal.find('IEM_MC_END');
|
---|
4897 | offEndInFinal = offFinalEnd;
|
---|
4898 | if offFinalEnd < 0: self.raiseError('bogus IEM_MC_END: Not in final line: %s' % (sFinal,));
|
---|
4899 | offFinalEnd += len('IEM_MC_END');
|
---|
4900 |
|
---|
4901 | while sFinal[offFinalEnd].isspace():
|
---|
4902 | offFinalEnd += 1;
|
---|
4903 | if sFinal[offFinalEnd] != '(': self.raiseError('bogus IEM_MC_END: Expected "(" at %s: %s' % (offFinalEnd, sFinal,));
|
---|
4904 | offFinalEnd += 1;
|
---|
4905 |
|
---|
4906 | while sFinal[offFinalEnd].isspace():
|
---|
4907 | offFinalEnd += 1;
|
---|
4908 | if sFinal[offFinalEnd] != ')': self.raiseError('bogus IEM_MC_END: Expected ")" at %s: %s' % (offFinalEnd, sFinal,));
|
---|
4909 | offFinalEnd += 1;
|
---|
4910 |
|
---|
4911 | while sFinal[offFinalEnd].isspace():
|
---|
4912 | offFinalEnd += 1;
|
---|
4913 | if sFinal[offFinalEnd] != ';': self.raiseError('bogus IEM_MC_END: Expected ";" at %s: %s' % (offFinalEnd, sFinal,));
|
---|
4914 | offFinalEnd += 1;
|
---|
4915 |
|
---|
4916 | asLines[-1] = sFinal[: offFinalEnd];
|
---|
4917 |
|
---|
4918 | #
|
---|
4919 | # Complete and discard the current block.
|
---|
4920 | #
|
---|
4921 | self.oCurMcBlock.complete(self.iLine, offEndStatementInLine,
|
---|
4922 | offEndStatementInLine + offFinalEnd - offEndInFinal, asLines);
|
---|
4923 | self.oCurMcBlock = None;
|
---|
4924 | return True;
|
---|
4925 |
|
---|
4926 | def workerIemMcDeferToCImplXRet(self, sCode, offBeginStatementInCodeStr, offBeginStatementInLine, cParams):
|
---|
4927 | """
|
---|
4928 | Process a IEM_MC_DEFER_TO_CIMPL_[1-5]_RET macro invocation.
|
---|
4929 | """
|
---|
4930 | sStmt = 'IEM_MC_DEFER_TO_CIMPL_%d_RET' % (cParams,);
|
---|
4931 | if self.fDebugMc:
|
---|
4932 | self.debug('%s on %s off %s' % (sStmt, self.iLine, offBeginStatementInLine,));
|
---|
4933 | #self.debug('%s<eos>' % (sCode,));
|
---|
4934 |
|
---|
4935 | # Check preconditions.
|
---|
4936 | if not self.oCurFunction:
|
---|
4937 | self.raiseError('%s w/o current function (%s)' % (sStmt, sCode,));
|
---|
4938 | if self.oCurMcBlock:
|
---|
4939 | self.raiseError('%s inside IEM_MC_BEGIN blocki starting at line %u' % (sStmt, self.oCurMcBlock.iBeginLine,));
|
---|
4940 |
|
---|
4941 | # Figure out the indent level the block starts at, adjusting for expanded multiline macros.
|
---|
4942 | cchIndent = offBeginStatementInCodeStr;
|
---|
4943 | offPrevNewline = sCode.rfind('\n', 0, offBeginStatementInCodeStr);
|
---|
4944 | if offPrevNewline >= 0:
|
---|
4945 | cchIndent -= offPrevNewline + 1;
|
---|
4946 | #self.debug('cchIndent=%s offPrevNewline=%s sFunc=%s' % (cchIndent, offPrevNewline, self.oCurFunction.sName));
|
---|
4947 |
|
---|
4948 | # Start a new block.
|
---|
4949 | oMcBlock = McBlock(self.sSrcFile, self.iLine, offBeginStatementInLine,
|
---|
4950 | self.oCurFunction, self.iMcBlockInFunc, cchIndent);
|
---|
4951 |
|
---|
4952 | # Parse the statment.
|
---|
4953 | asArgs, offAfter, cLines = self.findAndParseMacroInvocationEx(sCode, sStmt, offBeginStatementInCodeStr);
|
---|
4954 | if asArgs is None:
|
---|
4955 | self.raiseError('%s: Closing parenthesis not found!' % (sStmt,));
|
---|
4956 | if len(asArgs) != cParams + 3:
|
---|
4957 | self.raiseError('%s: findAndParseMacroInvocationEx returns %s args, expected %s!'
|
---|
4958 | % (sStmt, len(asArgs), cParams + 3,));
|
---|
4959 |
|
---|
4960 | oMcBlock.aoStmts = [ McBlock.parseMcDeferToCImpl(oMcBlock, asArgs[0], asArgs[1:]), ];
|
---|
4961 |
|
---|
4962 | # These MCs are not typically part of macro expansions, but let's get
|
---|
4963 | # it out of the way immediately if it's the case.
|
---|
4964 | if cLines > 0 or self.asLines[oMcBlock.iBeginLine - 1].count('\n') <= 1:
|
---|
4965 | asLines = self.asLines[self.iLine - 1 : self.iLine - 1 + cLines + 1];
|
---|
4966 | assert offAfter < len(asLines[-1]) and asLines[-1][offAfter] == ';', \
|
---|
4967 | 'iBeginLine=%d iLine=%d offAfter=%s line: "%s"' % (oMcBlock.iBeginLine, self.iLine, offAfter, asLines[-1],);
|
---|
4968 | asLines[-1] = asLines[-1][:offAfter + 1];
|
---|
4969 | else:
|
---|
4970 | asLines = self.extractLinesFromMacroExpansionLine(self.asLines[self.iLine - 1], offBeginStatementInCodeStr,
|
---|
4971 | offAfter, sStmt);
|
---|
4972 | assert asLines[-1].find(';') >= 0;
|
---|
4973 | asLines[-1] = asLines[-1][:asLines[-1].find(';') + 1];
|
---|
4974 |
|
---|
4975 | assert asLines[0].find(sStmt) >= 0;
|
---|
4976 | #if not asLines[0].strip().startswith(sStmt):
|
---|
4977 | # self.raiseError('%s is not the first word on the line: %s' % (sStmt, asLines[0].strip()));
|
---|
4978 |
|
---|
4979 | # Advance to the line with the closing ')'.
|
---|
4980 | self.iLine += cLines;
|
---|
4981 |
|
---|
4982 | # Complete the block.
|
---|
4983 | oMcBlock.complete(self.iLine, 0 if cLines > 0 else offBeginStatementInCodeStr, offAfter + 1, asLines);
|
---|
4984 |
|
---|
4985 | g_aoMcBlocks.append(oMcBlock);
|
---|
4986 | self.cTotalMcBlocks += 1;
|
---|
4987 | self.iMcBlockInFunc += 1;
|
---|
4988 |
|
---|
4989 | return True;
|
---|
4990 |
|
---|
4991 | def workerStartFunction(self, asArgs):
|
---|
4992 | """
|
---|
4993 | Deals with the start of a decoder function.
|
---|
4994 |
|
---|
4995 | These are all defined using one of the FNIEMOP*_DEF* and FNIEMOP_*STUB*
|
---|
4996 | macros, so we get a argument list for these where the 0th argument is the
|
---|
4997 | macro name.
|
---|
4998 | """
|
---|
4999 | # Complete any existing function.
|
---|
5000 | if self.oCurFunction:
|
---|
5001 | self.oCurFunction.complete(self.iLine - 1, self.asLines[self.oCurFunction.iBeginLine - 1 : self.iLine - 1]);
|
---|
5002 |
|
---|
5003 | # Create the new function.
|
---|
5004 | self.oCurFunction = DecoderFunction(self.sSrcFile, self.iLine, asArgs[1], asArgs);
|
---|
5005 | return True;
|
---|
5006 |
|
---|
5007 | def checkCodeForMacro(self, sCode, offLine):
|
---|
5008 | """
|
---|
5009 | Checks code for relevant macro invocation.
|
---|
5010 | """
|
---|
5011 |
|
---|
5012 | #
|
---|
5013 | # Scan macro invocations.
|
---|
5014 | #
|
---|
5015 | if sCode.find('(') > 0:
|
---|
5016 | # Look for instruction decoder function definitions. ASSUME single line.
|
---|
5017 | asArgs = self.findAndParseFirstMacroInvocation(sCode,
|
---|
5018 | [ 'FNIEMOP_DEF',
|
---|
5019 | 'FNIEMOPRM_DEF',
|
---|
5020 | 'FNIEMOP_STUB',
|
---|
5021 | 'FNIEMOP_STUB_1',
|
---|
5022 | 'FNIEMOP_UD_STUB',
|
---|
5023 | 'FNIEMOP_UD_STUB_1' ]);
|
---|
5024 | if asArgs is not None:
|
---|
5025 | self.workerStartFunction(asArgs);
|
---|
5026 | #self.debug('%s: oCurFunction=%s' % (self.iLine, self.oCurFunction.sName,));
|
---|
5027 |
|
---|
5028 | if not self.aoCurInstrs:
|
---|
5029 | self.addInstruction();
|
---|
5030 | for oInstr in self.aoCurInstrs:
|
---|
5031 | if oInstr.iLineFnIemOpMacro == -1:
|
---|
5032 | oInstr.iLineFnIemOpMacro = self.iLine;
|
---|
5033 | else:
|
---|
5034 | self.error('%s: already seen a FNIEMOP_XXX macro for %s' % (asArgs[0], oInstr,) );
|
---|
5035 | self.setInstrunctionAttrib('sFunction', asArgs[1]);
|
---|
5036 | self.setInstrunctionAttrib('fStub', asArgs[0].find('STUB') > 0, fOverwrite = True);
|
---|
5037 | self.setInstrunctionAttrib('fUdStub', asArgs[0].find('UD_STUB') > 0, fOverwrite = True);
|
---|
5038 | if asArgs[0].find('STUB') > 0:
|
---|
5039 | self.doneInstructions(fEndOfFunction = True);
|
---|
5040 | return True;
|
---|
5041 |
|
---|
5042 | # Check for worker function definitions, so we can get a context for MC blocks.
|
---|
5043 | asArgs = self.findAndParseFirstMacroInvocation(sCode,
|
---|
5044 | [ 'FNIEMOP_DEF_1',
|
---|
5045 | 'FNIEMOP_DEF_2', ]);
|
---|
5046 | if asArgs is not None:
|
---|
5047 | self.workerStartFunction(asArgs);
|
---|
5048 | #self.debug('%s: oCurFunction=%s (%s)' % (self.iLine, self.oCurFunction.sName, asArgs[0]));
|
---|
5049 | return True;
|
---|
5050 |
|
---|
5051 | # IEMOP_HLP_DONE_VEX_DECODING_*
|
---|
5052 | asArgs = self.findAndParseFirstMacroInvocation(sCode,
|
---|
5053 | [ 'IEMOP_HLP_DONE_VEX_DECODING',
|
---|
5054 | 'IEMOP_HLP_DONE_VEX_DECODING_L0',
|
---|
5055 | 'IEMOP_HLP_DONE_VEX_DECODING_NO_VVVV',
|
---|
5056 | 'IEMOP_HLP_DONE_VEX_DECODING_L0_AND_NO_VVVV',
|
---|
5057 | ]);
|
---|
5058 | if asArgs is not None:
|
---|
5059 | sMacro = asArgs[0];
|
---|
5060 | if sMacro in ('IEMOP_HLP_DONE_VEX_DECODING_L0', 'IEMOP_HLP_DONE_VEX_DECODING_L0_AND_NO_VVVV', ):
|
---|
5061 | for oInstr in self.aoCurInstrs:
|
---|
5062 | if 'vex_l_zero' not in oInstr.dHints:
|
---|
5063 | if oInstr.iLineMnemonicMacro >= 0:
|
---|
5064 | self.errorOnLine(oInstr.iLineMnemonicMacro,
|
---|
5065 | 'Missing IEMOPHINT_VEX_L_ZERO! (%s on line %d)' % (sMacro, self.iLine,));
|
---|
5066 | oInstr.dHints['vex_l_zero'] = True;
|
---|
5067 |
|
---|
5068 | #
|
---|
5069 | # IEMOP_MNEMONIC*
|
---|
5070 | #
|
---|
5071 | if sCode.find('IEMOP_MNEMONIC') >= 0:
|
---|
5072 | # IEMOP_MNEMONIC(a_Stats, a_szMnemonic) IEMOP_INC_STATS(a_Stats)
|
---|
5073 | asArgs = self.findAndParseMacroInvocation(sCode, 'IEMOP_MNEMONIC');
|
---|
5074 | if asArgs is not None:
|
---|
5075 | if len(self.aoCurInstrs) == 1:
|
---|
5076 | oInstr = self.aoCurInstrs[0];
|
---|
5077 | if oInstr.sStats is None:
|
---|
5078 | oInstr.sStats = asArgs[1];
|
---|
5079 | self.deriveMnemonicAndOperandsFromStats(oInstr, asArgs[1]);
|
---|
5080 |
|
---|
5081 | # IEMOP_MNEMONIC0EX(a_Stats, a_szMnemonic, a_Form, a_Upper, a_Lower, a_fDisHints, a_fIemHints)
|
---|
5082 | asArgs = self.findAndParseMacroInvocation(sCode, 'IEMOP_MNEMONIC0EX');
|
---|
5083 | if asArgs is not None:
|
---|
5084 | self.workerIemOpMnemonicEx(asArgs[0], asArgs[1], asArgs[2], asArgs[3], asArgs[4], asArgs[5], asArgs[6],
|
---|
5085 | asArgs[7], []);
|
---|
5086 | # IEMOP_MNEMONIC1EX(a_Stats, a_szMnemonic, a_Form, a_Upper, a_Lower, a_Op1, a_fDisHints, a_fIemHints)
|
---|
5087 | asArgs = self.findAndParseMacroInvocation(sCode, 'IEMOP_MNEMONIC1EX');
|
---|
5088 | if asArgs is not None:
|
---|
5089 | self.workerIemOpMnemonicEx(asArgs[0], asArgs[1], asArgs[2], asArgs[3], asArgs[4], asArgs[5], asArgs[7],
|
---|
5090 | asArgs[8], [asArgs[6],]);
|
---|
5091 | # IEMOP_MNEMONIC2EX(a_Stats, a_szMnemonic, a_Form, a_Upper, a_Lower, a_Op1, a_Op2, a_fDisHints, a_fIemHints)
|
---|
5092 | asArgs = self.findAndParseMacroInvocation(sCode, 'IEMOP_MNEMONIC2EX');
|
---|
5093 | if asArgs is not None:
|
---|
5094 | self.workerIemOpMnemonicEx(asArgs[0], asArgs[1], asArgs[2], asArgs[3], asArgs[4], asArgs[5], asArgs[8],
|
---|
5095 | asArgs[9], [asArgs[6], asArgs[7]]);
|
---|
5096 | # IEMOP_MNEMONIC3EX(a_Stats, a_szMnemonic, a_Form, a_Upper, a_Lower, a_Op1, a_Op2, a_Op3, a_fDisHints,
|
---|
5097 | # a_fIemHints)
|
---|
5098 | asArgs = self.findAndParseMacroInvocation(sCode, 'IEMOP_MNEMONIC3EX');
|
---|
5099 | if asArgs is not None:
|
---|
5100 | self.workerIemOpMnemonicEx(asArgs[0], asArgs[1], asArgs[2], asArgs[3], asArgs[4], asArgs[5], asArgs[9],
|
---|
5101 | asArgs[10], [asArgs[6], asArgs[7], asArgs[8],]);
|
---|
5102 | # IEMOP_MNEMONIC4EX(a_Stats, a_szMnemonic, a_Form, a_Upper, a_Lower, a_Op1, a_Op2, a_Op3, a_Op4, a_fDisHints,
|
---|
5103 | # a_fIemHints)
|
---|
5104 | asArgs = self.findAndParseMacroInvocation(sCode, 'IEMOP_MNEMONIC4EX');
|
---|
5105 | if asArgs is not None:
|
---|
5106 | self.workerIemOpMnemonicEx(asArgs[0], asArgs[1], asArgs[2], asArgs[3], asArgs[4], asArgs[5], asArgs[10],
|
---|
5107 | asArgs[11], [asArgs[6], asArgs[7], asArgs[8], asArgs[9],]);
|
---|
5108 |
|
---|
5109 | # IEMOP_MNEMONIC0(a_Form, a_Upper, a_Lower, a_fDisHints, a_fIemHints)
|
---|
5110 | asArgs = self.findAndParseMacroInvocation(sCode, 'IEMOP_MNEMONIC0');
|
---|
5111 | if asArgs is not None:
|
---|
5112 | self.workerIemOpMnemonic(asArgs[0], asArgs[1], asArgs[2], asArgs[3], asArgs[4], asArgs[5], []);
|
---|
5113 | # IEMOP_MNEMONIC1(a_Form, a_Upper, a_Lower, a_Op1, a_fDisHints, a_fIemHints)
|
---|
5114 | asArgs = self.findAndParseMacroInvocation(sCode, 'IEMOP_MNEMONIC1');
|
---|
5115 | if asArgs is not None:
|
---|
5116 | self.workerIemOpMnemonic(asArgs[0], asArgs[1], asArgs[2], asArgs[3], asArgs[5], asArgs[6], [asArgs[4],]);
|
---|
5117 | # IEMOP_MNEMONIC2(a_Form, a_Upper, a_Lower, a_Op1, a_Op2, a_fDisHints, a_fIemHints)
|
---|
5118 | asArgs = self.findAndParseMacroInvocation(sCode, 'IEMOP_MNEMONIC2');
|
---|
5119 | if asArgs is not None:
|
---|
5120 | self.workerIemOpMnemonic(asArgs[0], asArgs[1], asArgs[2], asArgs[3], asArgs[6], asArgs[7],
|
---|
5121 | [asArgs[4], asArgs[5],]);
|
---|
5122 | # IEMOP_MNEMONIC3(a_Form, a_Upper, a_Lower, a_Op1, a_Op2, a_Op3, a_fDisHints, a_fIemHints)
|
---|
5123 | asArgs = self.findAndParseMacroInvocation(sCode, 'IEMOP_MNEMONIC3');
|
---|
5124 | if asArgs is not None:
|
---|
5125 | self.workerIemOpMnemonic(asArgs[0], asArgs[1], asArgs[2], asArgs[3], asArgs[7], asArgs[8],
|
---|
5126 | [asArgs[4], asArgs[5], asArgs[6],]);
|
---|
5127 | # IEMOP_MNEMONIC4(a_Form, a_Upper, a_Lower, a_Op1, a_Op2, a_Op3, a_Op4, a_fDisHints, a_fIemHints)
|
---|
5128 | asArgs = self.findAndParseMacroInvocation(sCode, 'IEMOP_MNEMONIC4');
|
---|
5129 | if asArgs is not None:
|
---|
5130 | self.workerIemOpMnemonic(asArgs[0], asArgs[1], asArgs[2], asArgs[3], asArgs[8], asArgs[9],
|
---|
5131 | [asArgs[4], asArgs[5], asArgs[6], asArgs[7],]);
|
---|
5132 |
|
---|
5133 | #
|
---|
5134 | # IEM_MC_BEGIN + IEM_MC_END.
|
---|
5135 | # We must support multiple instances per code snippet.
|
---|
5136 | #
|
---|
5137 | offCode = sCode.find('IEM_MC_');
|
---|
5138 | if offCode >= 0:
|
---|
5139 | for oMatch in self.oReMcBeginEnd.finditer(sCode, offCode):
|
---|
5140 | if oMatch.group(1) == 'END':
|
---|
5141 | self.workerIemMcEnd(offLine + oMatch.start());
|
---|
5142 | elif oMatch.group(1) == 'BEGIN':
|
---|
5143 | self.workerIemMcBegin(sCode, oMatch.start(), offLine + oMatch.start());
|
---|
5144 | else:
|
---|
5145 | self.workerIemMcDeferToCImplXRet(sCode, oMatch.start(), offLine + oMatch.start(),
|
---|
5146 | int(oMatch.group(1)[len('DEFER_TO_CIMPL_')]));
|
---|
5147 | return True;
|
---|
5148 |
|
---|
5149 | return False;
|
---|
5150 |
|
---|
5151 | def workerPreProcessRecreateMacroRegex(self):
|
---|
5152 | """
|
---|
5153 | Recreates self.oReMacros when self.dMacros changes.
|
---|
5154 | """
|
---|
5155 | if self.dMacros:
|
---|
5156 | sRegex = '';
|
---|
5157 | for sName, oMacro in self.dMacros.items():
|
---|
5158 | if sRegex:
|
---|
5159 | sRegex += '|' + sName;
|
---|
5160 | else:
|
---|
5161 | sRegex = '\\b(' + sName;
|
---|
5162 | if oMacro.asArgs is not None:
|
---|
5163 | sRegex += '\s*\(';
|
---|
5164 | else:
|
---|
5165 | sRegex += '\\b';
|
---|
5166 | sRegex += ')';
|
---|
5167 | self.oReMacros = re.compile(sRegex);
|
---|
5168 | else:
|
---|
5169 | self.oReMacros = None;
|
---|
5170 | return True;
|
---|
5171 |
|
---|
5172 | def workerPreProcessDefine(self, sRest):
|
---|
5173 | """
|
---|
5174 | Handles a macro #define, the sRest is what follows after the directive word.
|
---|
5175 | """
|
---|
5176 |
|
---|
5177 | #
|
---|
5178 | # If using line continutation, just concat all the lines together,
|
---|
5179 | # preserving the newline character but not the escaping.
|
---|
5180 | #
|
---|
5181 | iLineStart = self.iLine;
|
---|
5182 | while sRest.endswith('\\\n') and self.iLine < len(self.asLines):
|
---|
5183 | sRest = sRest[0:-2].rstrip() + '\n' + self.asLines[self.iLine];
|
---|
5184 | self.iLine += 1;
|
---|
5185 | #self.debug('workerPreProcessDefine: sRest=%s<EOS>' % (sRest,));
|
---|
5186 |
|
---|
5187 | #
|
---|
5188 | # Use regex to split out the name, argument list and body.
|
---|
5189 | # If this fails, we assume it's a simple macro.
|
---|
5190 | #
|
---|
5191 | oMatch = self.oReHashDefine2.match(sRest);
|
---|
5192 | if oMatch:
|
---|
5193 | sAllArgs = oMatch.group(2).strip();
|
---|
5194 | asArgs = [sParam.strip() for sParam in sAllArgs.split(',')] if sAllArgs else None;
|
---|
5195 | sBody = oMatch.group(3);
|
---|
5196 | else:
|
---|
5197 | oMatch = self.oReHashDefine3.match(sRest);
|
---|
5198 | if not oMatch:
|
---|
5199 | self.debug('workerPreProcessDefine: wtf? sRest=%s' % (sRest,));
|
---|
5200 | return self.error('bogus macro definition: %s' % (sRest,));
|
---|
5201 | asArgs = None;
|
---|
5202 | sBody = oMatch.group(2);
|
---|
5203 | sName = oMatch.group(1);
|
---|
5204 | assert sName == sName.strip();
|
---|
5205 | #self.debug('workerPreProcessDefine: sName=%s asArgs=%s sBody=%s<EOS>' % (sName, asArgs, sBody));
|
---|
5206 |
|
---|
5207 | #
|
---|
5208 | # Is this of any interest to us? We do NOT support MC blocks wihtin
|
---|
5209 | # nested macro expansion, just to avoid lots of extra work.
|
---|
5210 | #
|
---|
5211 | # Note! IEMOP_HLP_DONE_DECODING_NO_LOCK_PREFIX and other macros someone making
|
---|
5212 | # use of IEMOP_RAISE_INVALID_LOCK_PREFIX_RET() will be ignored here and
|
---|
5213 | # dealt with by overriding IEMOP_RAISE_INVALID_LOCK_PREFIX_RET and its
|
---|
5214 | # siblings in the recompiler. This is a lot simpler than nested macro
|
---|
5215 | # expansion and lots of heuristics for locating all the relevant macros.
|
---|
5216 | # Also, this way we don't produce lots of unnecessary threaded functions.
|
---|
5217 | #
|
---|
5218 | if sBody.find("IEM_MC_BEGIN") < 0:
|
---|
5219 | #self.debug('workerPreProcessDefine: irrelevant (%s: %s)' % (sName, sBody));
|
---|
5220 | return True;
|
---|
5221 |
|
---|
5222 | #
|
---|
5223 | # Add the macro.
|
---|
5224 | #
|
---|
5225 | if self.fDebugPreProc:
|
---|
5226 | self.debug('#define %s on line %u' % (sName, self.iLine,));
|
---|
5227 | self.dMacros[sName] = SimpleParser.Macro(sName, asArgs, sBody.strip(), iLineStart);
|
---|
5228 | return self.workerPreProcessRecreateMacroRegex();
|
---|
5229 |
|
---|
5230 | def workerPreProcessUndef(self, sRest):
|
---|
5231 | """
|
---|
5232 | Handles a macro #undef, the sRest is what follows after the directive word.
|
---|
5233 | """
|
---|
5234 | # Quick comment strip and isolate the name.
|
---|
5235 | offSlash = sRest.find('/');
|
---|
5236 | if offSlash > 0:
|
---|
5237 | sRest = sRest[:offSlash];
|
---|
5238 | sName = sRest.strip();
|
---|
5239 |
|
---|
5240 | # Remove the macro if we're clocking it.
|
---|
5241 | if sName in self.dMacros:
|
---|
5242 | if self.fDebugPreProc:
|
---|
5243 | self.debug('#undef %s on line %u' % (sName, self.iLine,));
|
---|
5244 | del self.dMacros[sName];
|
---|
5245 | return self.workerPreProcessRecreateMacroRegex();
|
---|
5246 |
|
---|
5247 | return True;
|
---|
5248 |
|
---|
5249 | def checkPreProcessorDirectiveForDefineUndef(self, sLine):
|
---|
5250 | """
|
---|
5251 | Handles a preprocessor directive.
|
---|
5252 | """
|
---|
5253 | oMatch = self.oReHashDefine.match(sLine);
|
---|
5254 | if oMatch:
|
---|
5255 | return self.workerPreProcessDefine(oMatch.group(1) + '\n');
|
---|
5256 |
|
---|
5257 | oMatch = self.oReHashUndef.match(sLine);
|
---|
5258 | if oMatch:
|
---|
5259 | return self.workerPreProcessUndef(oMatch.group(1) + '\n');
|
---|
5260 | return False;
|
---|
5261 |
|
---|
5262 | def expandMacros(self, sLine, oMatch):
|
---|
5263 | """
|
---|
5264 | Expands macros we know about in the given line.
|
---|
5265 | Currently we ASSUME there is only one and that is what oMatch matched.
|
---|
5266 | """
|
---|
5267 | #
|
---|
5268 | # Get our bearings.
|
---|
5269 | #
|
---|
5270 | offMatch = oMatch.start();
|
---|
5271 | sName = oMatch.group(1);
|
---|
5272 | assert sName == sLine[oMatch.start() : oMatch.end()];
|
---|
5273 | fWithArgs = sName.endswith('(');
|
---|
5274 | if fWithArgs:
|
---|
5275 | sName = sName[:-1].strip();
|
---|
5276 | oMacro = self.dMacros[sName] # type: SimpleParser.Macro
|
---|
5277 |
|
---|
5278 | #
|
---|
5279 | # Deal with simple macro invocations w/o parameters.
|
---|
5280 | #
|
---|
5281 | if not fWithArgs:
|
---|
5282 | if self.fDebugPreProc:
|
---|
5283 | self.debug('expanding simple macro %s on line %u' % (sName, self.iLine,));
|
---|
5284 | return sLine[:offMatch] + oMacro.expandMacro(self) + sLine[oMatch.end():];
|
---|
5285 |
|
---|
5286 | #
|
---|
5287 | # Complicated macro with parameters.
|
---|
5288 | # Start by extracting the parameters. ASSUMES they are all on the same line!
|
---|
5289 | #
|
---|
5290 | cLevel = 1;
|
---|
5291 | offCur = oMatch.end();
|
---|
5292 | offCurArg = offCur;
|
---|
5293 | asArgs = [];
|
---|
5294 | while True:
|
---|
5295 | if offCur >= len(sLine):
|
---|
5296 | self.raiseError('expandMacros: Invocation of macro %s spans multiple lines!' % (sName,));
|
---|
5297 | ch = sLine[offCur];
|
---|
5298 | if ch == '(':
|
---|
5299 | cLevel += 1;
|
---|
5300 | elif ch == ')':
|
---|
5301 | cLevel -= 1;
|
---|
5302 | if cLevel == 0:
|
---|
5303 | asArgs.append(sLine[offCurArg:offCur].strip());
|
---|
5304 | break;
|
---|
5305 | elif ch == ',' and cLevel == 1:
|
---|
5306 | asArgs.append(sLine[offCurArg:offCur].strip());
|
---|
5307 | offCurArg = offCur + 1;
|
---|
5308 | offCur += 1;
|
---|
5309 | if len(oMacro.asArgs) == 0 and len(asArgs) == 1 and asArgs[0] == '': # trick for empty parameter list.
|
---|
5310 | asArgs = [];
|
---|
5311 | if len(oMacro.asArgs) != len(asArgs):
|
---|
5312 | self.raiseError('expandMacros: Argument mismatch in %s invocation' % (oMacro.sName,));
|
---|
5313 |
|
---|
5314 | #
|
---|
5315 | # Do the expanding.
|
---|
5316 | #
|
---|
5317 | if self.fDebugPreProc:
|
---|
5318 | self.debug('expanding macro %s on line %u with arguments %s' % (sName, self.iLine, asArgs));
|
---|
5319 | return sLine[:offMatch] + oMacro.expandMacro(self, asArgs) + sLine[offCur + 1 :];
|
---|
5320 |
|
---|
5321 | def parse(self):
|
---|
5322 | """
|
---|
5323 | Parses the given file.
|
---|
5324 |
|
---|
5325 | Returns number or errors.
|
---|
5326 | Raises exception on fatal trouble.
|
---|
5327 | """
|
---|
5328 | #self.debug('Parsing %s' % (self.sSrcFile,));
|
---|
5329 |
|
---|
5330 | #
|
---|
5331 | # Loop thru the lines.
|
---|
5332 | #
|
---|
5333 | # Please mind that self.iLine may be updated by checkCodeForMacro and
|
---|
5334 | # other worker methods.
|
---|
5335 | #
|
---|
5336 | while self.iLine < len(self.asLines):
|
---|
5337 | sLine = self.asLines[self.iLine];
|
---|
5338 | self.iLine += 1;
|
---|
5339 | #self.debug('line %u: %s' % (self.iLine, sLine[:-1]));
|
---|
5340 |
|
---|
5341 | # Expand macros we know about if we're currently in code.
|
---|
5342 | if self.iState == self.kiCode and self.oReMacros:
|
---|
5343 | oMatch = self.oReMacros.search(sLine);
|
---|
5344 | if oMatch:
|
---|
5345 | sLine = self.expandMacros(sLine, oMatch);
|
---|
5346 | if self.fDebugPreProc:
|
---|
5347 | self.debug('line %d: expanded\n%s ==>\n%s' % (self.iLine, self.asLines[self.iLine - 1], sLine[:-1],));
|
---|
5348 | self.asLines[self.iLine - 1] = sLine;
|
---|
5349 |
|
---|
5350 | # Look for comments.
|
---|
5351 | offSlash = sLine.find('/');
|
---|
5352 | if offSlash >= 0:
|
---|
5353 | if offSlash + 1 >= len(sLine) or sLine[offSlash + 1] != '/' or self.iState != self.kiCode:
|
---|
5354 | offLine = 0;
|
---|
5355 | while offLine < len(sLine):
|
---|
5356 | if self.iState == self.kiCode:
|
---|
5357 | # Look for substantial multiline comment so we pass the following MC as a whole line:
|
---|
5358 | # IEM_MC_ARG_CONST(uint8_t, bImmArg, /*=*/ bImm, 2);
|
---|
5359 | # Note! We ignore C++ comments here, assuming these aren't used in lines with C-style comments.
|
---|
5360 | offHit = sLine.find('/*', offLine);
|
---|
5361 | while offHit >= 0:
|
---|
5362 | offEnd = sLine.find('*/', offHit + 2);
|
---|
5363 | if offEnd < 0 or offEnd - offHit >= 16: # 16 chars is a bit random.
|
---|
5364 | break;
|
---|
5365 | offHit = sLine.find('/*', offEnd);
|
---|
5366 |
|
---|
5367 | if offHit >= 0:
|
---|
5368 | self.checkCodeForMacro(sLine[offLine:offHit], offLine);
|
---|
5369 | self.sComment = '';
|
---|
5370 | self.iCommentLine = self.iLine;
|
---|
5371 | self.iState = self.kiCommentMulti;
|
---|
5372 | offLine = offHit + 2;
|
---|
5373 | else:
|
---|
5374 | self.checkCodeForMacro(sLine[offLine:], offLine);
|
---|
5375 | offLine = len(sLine);
|
---|
5376 |
|
---|
5377 | elif self.iState == self.kiCommentMulti:
|
---|
5378 | offHit = sLine.find('*/', offLine);
|
---|
5379 | if offHit >= 0:
|
---|
5380 | self.sComment += sLine[offLine:offHit];
|
---|
5381 | self.iState = self.kiCode;
|
---|
5382 | offLine = offHit + 2;
|
---|
5383 | self.parseComment();
|
---|
5384 | else:
|
---|
5385 | self.sComment += sLine[offLine:];
|
---|
5386 | offLine = len(sLine);
|
---|
5387 | else:
|
---|
5388 | assert False;
|
---|
5389 | # C++ line comment.
|
---|
5390 | elif offSlash > 0:
|
---|
5391 | self.checkCodeForMacro(sLine[:offSlash], 0);
|
---|
5392 |
|
---|
5393 | # No slash, but append the line if in multi-line comment.
|
---|
5394 | elif self.iState == self.kiCommentMulti:
|
---|
5395 | #self.debug('line %d: multi' % (self.iLine,));
|
---|
5396 | self.sComment += sLine;
|
---|
5397 |
|
---|
5398 | # No slash, but check if this is a macro #define or #undef, since we
|
---|
5399 | # need to be able to selectively expand the ones containing MC blocks.
|
---|
5400 | elif self.iState == self.kiCode and sLine.lstrip().startswith('#'):
|
---|
5401 | if self.fDebugPreProc:
|
---|
5402 | self.debug('line %d: pre-proc' % (self.iLine,));
|
---|
5403 | self.checkPreProcessorDirectiveForDefineUndef(sLine);
|
---|
5404 |
|
---|
5405 | # No slash, but check code line for relevant macro.
|
---|
5406 | elif ( self.iState == self.kiCode
|
---|
5407 | and (sLine.find('IEMOP_') >= 0 or sLine.find('FNIEMOPRM_DEF') >= 0 or sLine.find('IEM_MC') >= 0)):
|
---|
5408 | #self.debug('line %d: macro' % (self.iLine,));
|
---|
5409 | self.checkCodeForMacro(sLine, 0);
|
---|
5410 |
|
---|
5411 | # If the line is a '}' in the first position, complete the instructions.
|
---|
5412 | elif self.iState == self.kiCode and sLine[0] == '}':
|
---|
5413 | #self.debug('line %d: }' % (self.iLine,));
|
---|
5414 | self.doneInstructions(fEndOfFunction = True);
|
---|
5415 |
|
---|
5416 | # Look for instruction table on the form 'IEM_STATIC const PFNIEMOP g_apfnVexMap3'
|
---|
5417 | # so we can check/add @oppfx info from it.
|
---|
5418 | elif self.iState == self.kiCode and sLine.find('PFNIEMOP') > 0 and self.oReFunTable.match(sLine):
|
---|
5419 | self.parseFunctionTable(sLine);
|
---|
5420 |
|
---|
5421 | self.doneInstructions(fEndOfFunction = True);
|
---|
5422 | self.debug('%3s%% / %3s stubs out of %4s instructions and %4s MC blocks in %s'
|
---|
5423 | % (self.cTotalStubs * 100 // max(self.cTotalInstr, 1), self.cTotalStubs, self.cTotalInstr,
|
---|
5424 | self.cTotalMcBlocks, os.path.basename(self.sSrcFile),));
|
---|
5425 | return self.printErrors();
|
---|
5426 |
|
---|
5427 | ## The parsed content of IEMAllInstCommonBodyMacros.h.
|
---|
5428 | g_oParsedCommonBodyMacros = None # type: SimpleParser
|
---|
5429 |
|
---|
5430 | def __parseFileByName(sSrcFile, sDefaultMap):
|
---|
5431 | """
|
---|
5432 | Parses one source file for instruction specfications.
|
---|
5433 | """
|
---|
5434 | #
|
---|
5435 | # Read sSrcFile into a line array.
|
---|
5436 | #
|
---|
5437 | try:
|
---|
5438 | oFile = open(sSrcFile, "r"); # pylint: disable=consider-using-with,unspecified-encoding
|
---|
5439 | except Exception as oXcpt:
|
---|
5440 | raise Exception("failed to open %s for reading: %s" % (sSrcFile, oXcpt,));
|
---|
5441 | try:
|
---|
5442 | asLines = oFile.readlines();
|
---|
5443 | except Exception as oXcpt:
|
---|
5444 | raise Exception("failed to read %s: %s" % (sSrcFile, oXcpt,));
|
---|
5445 | finally:
|
---|
5446 | oFile.close();
|
---|
5447 |
|
---|
5448 | #
|
---|
5449 | # On the first call, we parse IEMAllInstCommonBodyMacros.h so we
|
---|
5450 | # can use the macros from it when processing the other files.
|
---|
5451 | #
|
---|
5452 | global g_oParsedCommonBodyMacros;
|
---|
5453 | if g_oParsedCommonBodyMacros is None:
|
---|
5454 | # Locate the file.
|
---|
5455 | sCommonBodyMacros = os.path.join(os.path.split(sSrcFile)[0], 'IEMAllInstCommonBodyMacros.h');
|
---|
5456 | if not os.path.isfile(sCommonBodyMacros):
|
---|
5457 | sCommonBodyMacros = os.path.join(os.path.split(__file__)[0], 'IEMAllInstCommonBodyMacros.h');
|
---|
5458 |
|
---|
5459 | # Read it.
|
---|
5460 | try:
|
---|
5461 | with open(sCommonBodyMacros, "r") as oIncFile: # pylint: disable=unspecified-encoding
|
---|
5462 | asIncFiles = oIncFile.readlines();
|
---|
5463 | except Exception as oXcpt:
|
---|
5464 | raise Exception("failed to open/read %s: %s" % (sCommonBodyMacros, oXcpt,));
|
---|
5465 |
|
---|
5466 | # Parse it.
|
---|
5467 | try:
|
---|
5468 | oParser = SimpleParser(sCommonBodyMacros, asIncFiles, 'one');
|
---|
5469 | if oParser.parse() != 0:
|
---|
5470 | raise ParserException('%s: errors: See above' % (sCommonBodyMacros, ));
|
---|
5471 | if oParser.cTotalInstr != 0 or oParser.cTotalStubs != 0 or oParser.cTotalTagged != 0 or oParser.cTotalMcBlocks != 0:
|
---|
5472 | raise ParserException('%s: error: Unexpectedly found %u instr, %u tags, %u stubs and %u MCs, expecting zero. %s'
|
---|
5473 | % (sCommonBodyMacros, oParser.cTotalInstr, oParser.cTotalStubs, oParser.cTotalTagged,
|
---|
5474 | oParser.cTotalMcBlocks,
|
---|
5475 | ', '.join(sorted( [str(oMcBlock.iBeginLine) for oMcBlock in g_aoMcBlocks]
|
---|
5476 | + [str(oInstr.iLineCreated) for oInstr in g_aoAllInstructions])),));
|
---|
5477 | except ParserException as oXcpt:
|
---|
5478 | print(str(oXcpt), file = sys.stderr);
|
---|
5479 | raise;
|
---|
5480 | g_oParsedCommonBodyMacros = oParser;
|
---|
5481 |
|
---|
5482 | #
|
---|
5483 | # Do the parsing.
|
---|
5484 | #
|
---|
5485 | try:
|
---|
5486 | oParser = SimpleParser(sSrcFile, asLines, sDefaultMap, g_oParsedCommonBodyMacros);
|
---|
5487 | return (oParser.parse(), oParser) ;
|
---|
5488 | except ParserException as oXcpt:
|
---|
5489 | print(str(oXcpt), file = sys.stderr);
|
---|
5490 | raise;
|
---|
5491 |
|
---|
5492 |
|
---|
5493 | def __doTestCopying():
|
---|
5494 | """
|
---|
5495 | Executes the asCopyTests instructions.
|
---|
5496 | """
|
---|
5497 | asErrors = [];
|
---|
5498 | for oDstInstr in g_aoAllInstructions:
|
---|
5499 | if oDstInstr.asCopyTests:
|
---|
5500 | for sSrcInstr in oDstInstr.asCopyTests:
|
---|
5501 | oSrcInstr = g_dAllInstructionsByStat.get(sSrcInstr, None);
|
---|
5502 | if oSrcInstr:
|
---|
5503 | aoSrcInstrs = [oSrcInstr,];
|
---|
5504 | else:
|
---|
5505 | aoSrcInstrs = g_dAllInstructionsByFunction.get(sSrcInstr, []);
|
---|
5506 | if aoSrcInstrs:
|
---|
5507 | for oSrcInstr in aoSrcInstrs:
|
---|
5508 | if oSrcInstr != oDstInstr:
|
---|
5509 | oDstInstr.aoTests.extend(oSrcInstr.aoTests);
|
---|
5510 | else:
|
---|
5511 | asErrors.append('%s:%s: error: @opcopytests reference "%s" matches the destination\n'
|
---|
5512 | % ( oDstInstr.sSrcFile, oDstInstr.iLineCreated, sSrcInstr));
|
---|
5513 | else:
|
---|
5514 | asErrors.append('%s:%s: error: @opcopytests reference "%s" not found\n'
|
---|
5515 | % ( oDstInstr.sSrcFile, oDstInstr.iLineCreated, sSrcInstr));
|
---|
5516 |
|
---|
5517 | if asErrors:
|
---|
5518 | sys.stderr.write(u''.join(asErrors));
|
---|
5519 | return len(asErrors);
|
---|
5520 |
|
---|
5521 |
|
---|
5522 | def __applyOnlyTest():
|
---|
5523 | """
|
---|
5524 | If g_aoOnlyTestInstructions contains any instructions, drop aoTests from
|
---|
5525 | all other instructions so that only these get tested.
|
---|
5526 | """
|
---|
5527 | if g_aoOnlyTestInstructions:
|
---|
5528 | for oInstr in g_aoAllInstructions:
|
---|
5529 | if oInstr.aoTests:
|
---|
5530 | if oInstr not in g_aoOnlyTestInstructions:
|
---|
5531 | oInstr.aoTests = [];
|
---|
5532 | return 0;
|
---|
5533 |
|
---|
5534 | ## List of all main instruction files, their default maps and file sets (-1 means included it all sets).
|
---|
5535 | g_aaoAllInstrFilesAndDefaultMapAndSet = (
|
---|
5536 | ( 'IEMAllInstCommon.cpp.h', 'one', -1, ),
|
---|
5537 | ( 'IEMAllInstOneByte.cpp.h', 'one', 1, ),
|
---|
5538 | ( 'IEMAllInst3DNow.cpp.h', '3dnow', 2, ),
|
---|
5539 | ( 'IEMAllInstTwoByte0f.cpp.h', 'two0f', 2, ),
|
---|
5540 | ( 'IEMAllInstThree0f38.cpp.h', 'three0f38', 3, ),
|
---|
5541 | ( 'IEMAllInstThree0f3a.cpp.h', 'three0f3a', 3, ),
|
---|
5542 | ( 'IEMAllInstVexMap1.cpp.h', 'vexmap1', 4, ),
|
---|
5543 | ( 'IEMAllInstVexMap2.cpp.h', 'vexmap2', 4, ),
|
---|
5544 | ( 'IEMAllInstVexMap3.cpp.h', 'vexmap3', 4, ),
|
---|
5545 | );
|
---|
5546 |
|
---|
5547 | def __parseFilesWorker(asFilesAndDefaultMap):
|
---|
5548 | """
|
---|
5549 | Parses all the IEMAllInstruction*.cpp.h files.
|
---|
5550 |
|
---|
5551 | Returns a list of the parsers on success.
|
---|
5552 | Raises exception on failure.
|
---|
5553 | """
|
---|
5554 | sSrcDir = os.path.dirname(os.path.abspath(__file__));
|
---|
5555 | cErrors = 0;
|
---|
5556 | aoParsers = [];
|
---|
5557 | for sFilename, sDefaultMap in asFilesAndDefaultMap:
|
---|
5558 | if not os.path.split(sFilename)[0] and not os.path.exists(sFilename):
|
---|
5559 | sFilename = os.path.join(sSrcDir, sFilename);
|
---|
5560 | cThisErrors, oParser = __parseFileByName(sFilename, sDefaultMap);
|
---|
5561 | cErrors += cThisErrors;
|
---|
5562 | aoParsers.append(oParser);
|
---|
5563 | cErrors += __doTestCopying();
|
---|
5564 | cErrors += __applyOnlyTest();
|
---|
5565 |
|
---|
5566 | # Total stub stats:
|
---|
5567 | cTotalStubs = 0;
|
---|
5568 | for oInstr in g_aoAllInstructions:
|
---|
5569 | cTotalStubs += oInstr.fStub;
|
---|
5570 | print('debug: %3s%% / %3s stubs out of %4s instructions and %4s MC blocks in total'
|
---|
5571 | % (cTotalStubs * 100 // len(g_aoAllInstructions), cTotalStubs, len(g_aoAllInstructions), len(g_aoMcBlocks),),
|
---|
5572 | file = sys.stderr);
|
---|
5573 |
|
---|
5574 | if cErrors != 0:
|
---|
5575 | raise Exception('%d parse errors' % (cErrors,));
|
---|
5576 | return aoParsers;
|
---|
5577 |
|
---|
5578 |
|
---|
5579 | def parseFiles(asFiles):
|
---|
5580 | """
|
---|
5581 | Parses a selection of IEMAllInstruction*.cpp.h files.
|
---|
5582 |
|
---|
5583 | Returns a list of the parsers on success.
|
---|
5584 | Raises exception on failure.
|
---|
5585 | """
|
---|
5586 | # Look up default maps for the files and call __parseFilesWorker to do the job.
|
---|
5587 | asFilesAndDefaultMap = [];
|
---|
5588 | for sFilename in asFiles:
|
---|
5589 | sName = os.path.split(sFilename)[1].lower();
|
---|
5590 | sMap = None;
|
---|
5591 | for aoInfo in g_aaoAllInstrFilesAndDefaultMapAndSet:
|
---|
5592 | if aoInfo[0].lower() == sName:
|
---|
5593 | sMap = aoInfo[1];
|
---|
5594 | break;
|
---|
5595 | if not sMap:
|
---|
5596 | raise Exception('Unable to classify file: %s' % (sFilename,));
|
---|
5597 | asFilesAndDefaultMap.append((sFilename, sMap));
|
---|
5598 |
|
---|
5599 | return __parseFilesWorker(asFilesAndDefaultMap);
|
---|
5600 |
|
---|
5601 |
|
---|
5602 | def parseAll():
|
---|
5603 | """
|
---|
5604 | Parses all the IEMAllInstruction*.cpp.h files.
|
---|
5605 |
|
---|
5606 | Returns a list of the parsers on success.
|
---|
5607 | Raises exception on failure.
|
---|
5608 | """
|
---|
5609 | return __parseFilesWorker([aoInfo[0:2] for aoInfo in g_aaoAllInstrFilesAndDefaultMapAndSet]);
|
---|
5610 |
|
---|
5611 |
|
---|
5612 | #
|
---|
5613 | # Generators (may perhaps move later).
|
---|
5614 | #
|
---|
5615 | def __formatDisassemblerTableEntry(oInstr):
|
---|
5616 | """
|
---|
5617 | """
|
---|
5618 | sMacro = 'OP';
|
---|
5619 | cMaxOperands = 3;
|
---|
5620 | if len(oInstr.aoOperands) > 3:
|
---|
5621 | sMacro = 'OPVEX'
|
---|
5622 | cMaxOperands = 4;
|
---|
5623 | assert len(oInstr.aoOperands) <= cMaxOperands;
|
---|
5624 |
|
---|
5625 | #
|
---|
5626 | # Format string.
|
---|
5627 | #
|
---|
5628 | sTmp = '%s("%s' % (sMacro, oInstr.sMnemonic,);
|
---|
5629 | for iOperand, oOperand in enumerate(oInstr.aoOperands):
|
---|
5630 | sTmp += ' ' if iOperand == 0 else ',';
|
---|
5631 | if g_kdOpTypes[oOperand.sType][2][0] != '%': ## @todo remove upper() later.
|
---|
5632 | sTmp += g_kdOpTypes[oOperand.sType][2].upper(); ## @todo remove upper() later.
|
---|
5633 | else:
|
---|
5634 | sTmp += g_kdOpTypes[oOperand.sType][2];
|
---|
5635 | sTmp += '",';
|
---|
5636 | asColumns = [ sTmp, ];
|
---|
5637 |
|
---|
5638 | #
|
---|
5639 | # Decoders.
|
---|
5640 | #
|
---|
5641 | iStart = len(asColumns);
|
---|
5642 | if oInstr.sEncoding is None:
|
---|
5643 | pass;
|
---|
5644 | elif oInstr.sEncoding == 'ModR/M':
|
---|
5645 | # ASSUME the first operand is using the ModR/M encoding
|
---|
5646 | assert len(oInstr.aoOperands) >= 1 and oInstr.aoOperands[0].usesModRM(), "oInstr=%s" % (oInstr,);
|
---|
5647 | asColumns.append('IDX_ParseModRM,');
|
---|
5648 | elif oInstr.sEncoding in [ 'prefix', ]:
|
---|
5649 | for oOperand in oInstr.aoOperands:
|
---|
5650 | asColumns.append('0,');
|
---|
5651 | elif oInstr.sEncoding in [ 'fixed', 'VEX.fixed' ]:
|
---|
5652 | pass;
|
---|
5653 | elif oInstr.sEncoding == 'VEX.ModR/M':
|
---|
5654 | asColumns.append('IDX_ParseModRM,');
|
---|
5655 | elif oInstr.sEncoding == 'vex2':
|
---|
5656 | asColumns.append('IDX_ParseVex2b,')
|
---|
5657 | elif oInstr.sEncoding == 'vex3':
|
---|
5658 | asColumns.append('IDX_ParseVex3b,')
|
---|
5659 | elif oInstr.sEncoding in g_dInstructionMaps:
|
---|
5660 | asColumns.append(g_dInstructionMaps[oInstr.sEncoding].sDisParse + ',');
|
---|
5661 | else:
|
---|
5662 | ## @todo
|
---|
5663 | #IDX_ParseTwoByteEsc,
|
---|
5664 | #IDX_ParseGrp1,
|
---|
5665 | #IDX_ParseShiftGrp2,
|
---|
5666 | #IDX_ParseGrp3,
|
---|
5667 | #IDX_ParseGrp4,
|
---|
5668 | #IDX_ParseGrp5,
|
---|
5669 | #IDX_Parse3DNow,
|
---|
5670 | #IDX_ParseGrp6,
|
---|
5671 | #IDX_ParseGrp7,
|
---|
5672 | #IDX_ParseGrp8,
|
---|
5673 | #IDX_ParseGrp9,
|
---|
5674 | #IDX_ParseGrp10,
|
---|
5675 | #IDX_ParseGrp12,
|
---|
5676 | #IDX_ParseGrp13,
|
---|
5677 | #IDX_ParseGrp14,
|
---|
5678 | #IDX_ParseGrp15,
|
---|
5679 | #IDX_ParseGrp16,
|
---|
5680 | #IDX_ParseThreeByteEsc4,
|
---|
5681 | #IDX_ParseThreeByteEsc5,
|
---|
5682 | #IDX_ParseModFence,
|
---|
5683 | #IDX_ParseEscFP,
|
---|
5684 | #IDX_ParseNopPause,
|
---|
5685 | #IDX_ParseInvOpModRM,
|
---|
5686 | assert False, str(oInstr);
|
---|
5687 |
|
---|
5688 | # Check for immediates and stuff in the remaining operands.
|
---|
5689 | for oOperand in oInstr.aoOperands[len(asColumns) - iStart:]:
|
---|
5690 | sIdx = g_kdOpTypes[oOperand.sType][0];
|
---|
5691 | #if sIdx != 'IDX_UseModRM':
|
---|
5692 | asColumns.append(sIdx + ',');
|
---|
5693 | asColumns.extend(['0,'] * (cMaxOperands - (len(asColumns) - iStart)));
|
---|
5694 |
|
---|
5695 | #
|
---|
5696 | # Opcode and operands.
|
---|
5697 | #
|
---|
5698 | assert oInstr.sDisEnum, str(oInstr);
|
---|
5699 | asColumns.append(oInstr.sDisEnum + ',');
|
---|
5700 | iStart = len(asColumns)
|
---|
5701 | for oOperand in oInstr.aoOperands:
|
---|
5702 | asColumns.append('OP_PARM_' + g_kdOpTypes[oOperand.sType][3] + ',');
|
---|
5703 | asColumns.extend(['OP_PARM_NONE,'] * (cMaxOperands - (len(asColumns) - iStart)));
|
---|
5704 |
|
---|
5705 | #
|
---|
5706 | # Flags.
|
---|
5707 | #
|
---|
5708 | sTmp = '';
|
---|
5709 | for sHint in sorted(oInstr.dHints.keys()):
|
---|
5710 | sDefine = g_kdHints[sHint];
|
---|
5711 | if sDefine.startswith('DISOPTYPE_'):
|
---|
5712 | if sTmp:
|
---|
5713 | sTmp += ' | ' + sDefine;
|
---|
5714 | else:
|
---|
5715 | sTmp += sDefine;
|
---|
5716 | if sTmp:
|
---|
5717 | sTmp += '),';
|
---|
5718 | else:
|
---|
5719 | sTmp += '0),';
|
---|
5720 | asColumns.append(sTmp);
|
---|
5721 |
|
---|
5722 | #
|
---|
5723 | # Format the columns into a line.
|
---|
5724 | #
|
---|
5725 | aoffColumns = [4, 29, 49, 65, 77, 89, 109, 125, 141, 157, 183, 199];
|
---|
5726 | sLine = '';
|
---|
5727 | for i, s in enumerate(asColumns):
|
---|
5728 | if len(sLine) < aoffColumns[i]:
|
---|
5729 | sLine += ' ' * (aoffColumns[i] - len(sLine));
|
---|
5730 | else:
|
---|
5731 | sLine += ' ';
|
---|
5732 | sLine += s;
|
---|
5733 |
|
---|
5734 | # OP("psrlw %Vdq,%Wdq", IDX_ParseModRM, IDX_UseModRM, 0, OP_PSRLW, OP_PARM_Vdq, OP_PARM_Wdq, OP_PARM_NONE,
|
---|
5735 | # DISOPTYPE_HARMLESS),
|
---|
5736 | # define OP(pszOpcode, idxParse1, idxParse2, idxParse3, opcode, param1, param2, param3, optype) \
|
---|
5737 | # { pszOpcode, idxParse1, idxParse2, idxParse3, 0, opcode, param1, param2, param3, 0, 0, optype }
|
---|
5738 | return sLine;
|
---|
5739 |
|
---|
5740 | def __checkIfShortTable(aoTableOrdered, oMap):
|
---|
5741 | """
|
---|
5742 | Returns (iInstr, cInstructions, fShortTable)
|
---|
5743 | """
|
---|
5744 |
|
---|
5745 | # Determin how much we can trim off.
|
---|
5746 | cInstructions = len(aoTableOrdered);
|
---|
5747 | while cInstructions > 0 and aoTableOrdered[cInstructions - 1] is None:
|
---|
5748 | cInstructions -= 1;
|
---|
5749 |
|
---|
5750 | iInstr = 0;
|
---|
5751 | while iInstr < cInstructions and aoTableOrdered[iInstr] is None:
|
---|
5752 | iInstr += 1;
|
---|
5753 |
|
---|
5754 | # If we can save more than 30%, we go for the short table version.
|
---|
5755 | if iInstr + len(aoTableOrdered) - cInstructions >= len(aoTableOrdered) // 30:
|
---|
5756 | return (iInstr, cInstructions, True);
|
---|
5757 | _ = oMap; # Use this for overriding.
|
---|
5758 |
|
---|
5759 | # Output the full table.
|
---|
5760 | return (0, len(aoTableOrdered), False);
|
---|
5761 |
|
---|
5762 | def generateDisassemblerTables(oDstFile = sys.stdout):
|
---|
5763 | """
|
---|
5764 | Generates disassembler tables.
|
---|
5765 |
|
---|
5766 | Returns exit code.
|
---|
5767 | """
|
---|
5768 |
|
---|
5769 | #
|
---|
5770 | # Parse all.
|
---|
5771 | #
|
---|
5772 | try:
|
---|
5773 | parseAll();
|
---|
5774 | except Exception as oXcpt:
|
---|
5775 | print('error: parseAll failed: %s' % (oXcpt,), file = sys.stderr);
|
---|
5776 | traceback.print_exc(file = sys.stderr);
|
---|
5777 | return 1;
|
---|
5778 |
|
---|
5779 |
|
---|
5780 | #
|
---|
5781 | # The disassembler uses a slightly different table layout to save space,
|
---|
5782 | # since several of the prefix varia
|
---|
5783 | #
|
---|
5784 | aoDisasmMaps = [];
|
---|
5785 | for sName, oMap in sorted(iter(g_dInstructionMaps.items()),
|
---|
5786 | key = lambda aKV: aKV[1].sEncoding + ''.join(aKV[1].asLeadOpcodes)):
|
---|
5787 | if oMap.sSelector != 'byte+pfx':
|
---|
5788 | aoDisasmMaps.append(oMap);
|
---|
5789 | else:
|
---|
5790 | # Split the map by prefix.
|
---|
5791 | aoDisasmMaps.append(oMap.copy(oMap.sName, 'none'));
|
---|
5792 | aoDisasmMaps.append(oMap.copy(oMap.sName + '_66', '0x66'));
|
---|
5793 | aoDisasmMaps.append(oMap.copy(oMap.sName + '_F3', '0xf3'));
|
---|
5794 | aoDisasmMaps.append(oMap.copy(oMap.sName + '_F2', '0xf2'));
|
---|
5795 |
|
---|
5796 | #
|
---|
5797 | # Dump each map.
|
---|
5798 | #
|
---|
5799 | asHeaderLines = [];
|
---|
5800 | print("debug: maps=%s\n" % (', '.join([oMap.sName for oMap in aoDisasmMaps]),), file = sys.stderr);
|
---|
5801 | for oMap in aoDisasmMaps:
|
---|
5802 | sName = oMap.sName;
|
---|
5803 |
|
---|
5804 | if not sName.startswith("vex"): continue; # only looking at the vex maps at the moment.
|
---|
5805 |
|
---|
5806 | #
|
---|
5807 | # Get the instructions for the map and see if we can do a short version or not.
|
---|
5808 | #
|
---|
5809 | aoTableOrder = oMap.getInstructionsInTableOrder();
|
---|
5810 | cEntriesPerByte = oMap.getEntriesPerByte();
|
---|
5811 | (iInstrStart, iInstrEnd, fShortTable) = __checkIfShortTable(aoTableOrder, oMap);
|
---|
5812 |
|
---|
5813 | #
|
---|
5814 | # Output the table start.
|
---|
5815 | # Note! Short tables are static and only accessible via the map range record.
|
---|
5816 | #
|
---|
5817 | asLines = [];
|
---|
5818 | asLines.append('/* Generated from: %-11s Selector: %-7s Encoding: %-7s Lead bytes opcodes: %s */'
|
---|
5819 | % ( oMap.sName, oMap.sSelector, oMap.sEncoding, ' '.join(oMap.asLeadOpcodes), ));
|
---|
5820 | if fShortTable:
|
---|
5821 | asLines.append('%sconst DISOPCODE %s[] =' % ('static ' if fShortTable else '', oMap.getDisasTableName(),));
|
---|
5822 | else:
|
---|
5823 | asHeaderLines.append('extern const DISOPCODE %s[%d];' % (oMap.getDisasTableName(), iInstrEnd - iInstrStart,));
|
---|
5824 | asLines.append( 'const DISOPCODE %s[%d] =' % (oMap.getDisasTableName(), iInstrEnd - iInstrStart,));
|
---|
5825 | asLines.append('{');
|
---|
5826 |
|
---|
5827 | if fShortTable and (iInstrStart & ((0x10 * cEntriesPerByte) - 1)) != 0:
|
---|
5828 | asLines.append(' /* %#04x: */' % (iInstrStart,));
|
---|
5829 |
|
---|
5830 | #
|
---|
5831 | # Output the instructions.
|
---|
5832 | #
|
---|
5833 | iInstr = iInstrStart;
|
---|
5834 | while iInstr < iInstrEnd:
|
---|
5835 | oInstr = aoTableOrder[iInstr];
|
---|
5836 | if (iInstr & ((0x10 * cEntriesPerByte) - 1)) == 0:
|
---|
5837 | if iInstr != iInstrStart:
|
---|
5838 | asLines.append('');
|
---|
5839 | asLines.append(' /* %x */' % ((iInstr // cEntriesPerByte) >> 4,));
|
---|
5840 |
|
---|
5841 | if oInstr is None:
|
---|
5842 | # Invalid. Optimize blocks of invalid instructions.
|
---|
5843 | cInvalidInstrs = 1;
|
---|
5844 | while iInstr + cInvalidInstrs < len(aoTableOrder) and aoTableOrder[iInstr + cInvalidInstrs] is None:
|
---|
5845 | cInvalidInstrs += 1;
|
---|
5846 | if (iInstr & (0x10 * cEntriesPerByte - 1)) == 0 and cInvalidInstrs >= 0x10 * cEntriesPerByte:
|
---|
5847 | asLines.append(' INVALID_OPCODE_BLOCK_%u,' % (0x10 * cEntriesPerByte,));
|
---|
5848 | iInstr += 0x10 * cEntriesPerByte - 1;
|
---|
5849 | elif cEntriesPerByte > 1:
|
---|
5850 | if (iInstr & (cEntriesPerByte - 1)) == 0 and cInvalidInstrs >= cEntriesPerByte:
|
---|
5851 | asLines.append(' INVALID_OPCODE_BLOCK_%u,' % (cEntriesPerByte,));
|
---|
5852 | iInstr += 3;
|
---|
5853 | else:
|
---|
5854 | asLines.append(' /* %#04x/%d */ INVALID_OPCODE,'
|
---|
5855 | % (iInstr // cEntriesPerByte, iInstr % cEntriesPerByte));
|
---|
5856 | else:
|
---|
5857 | asLines.append(' /* %#04x */ INVALID_OPCODE,' % (iInstr));
|
---|
5858 | elif isinstance(oInstr, list):
|
---|
5859 | if len(oInstr) != 0:
|
---|
5860 | asLines.append(' /* %#04x */ ComplicatedListStuffNeedingWrapper, /* \n -- %s */'
|
---|
5861 | % (iInstr, '\n -- '.join([str(oItem) for oItem in oInstr]),));
|
---|
5862 | else:
|
---|
5863 | asLines.append(__formatDisassemblerTableEntry(oInstr));
|
---|
5864 | else:
|
---|
5865 | asLines.append(__formatDisassemblerTableEntry(oInstr));
|
---|
5866 |
|
---|
5867 | iInstr += 1;
|
---|
5868 |
|
---|
5869 | if iInstrStart >= iInstrEnd:
|
---|
5870 | asLines.append(' /* dummy */ INVALID_OPCODE');
|
---|
5871 |
|
---|
5872 | asLines.append('};');
|
---|
5873 | asLines.append('AssertCompile(RT_ELEMENTS(%s) == %s);' % (oMap.getDisasTableName(), iInstrEnd - iInstrStart,));
|
---|
5874 |
|
---|
5875 | #
|
---|
5876 | # We always emit a map range record, assuming the linker will eliminate the unnecessary ones.
|
---|
5877 | #
|
---|
5878 | asHeaderLines.append('extern const DISOPMAPDESC %sRange;' % (oMap.getDisasRangeName()));
|
---|
5879 | asLines.append('const DISOPMAPDESC %s = { &%s[0], %#04x, RT_ELEMENTS(%s) };'
|
---|
5880 | % (oMap.getDisasRangeName(), oMap.getDisasTableName(), iInstrStart, oMap.getDisasTableName(),));
|
---|
5881 |
|
---|
5882 | #
|
---|
5883 | # Write out the lines.
|
---|
5884 | #
|
---|
5885 | oDstFile.write('\n'.join(asLines));
|
---|
5886 | oDstFile.write('\n');
|
---|
5887 | oDstFile.write('\n');
|
---|
5888 | #break; #for now
|
---|
5889 | return 0;
|
---|
5890 |
|
---|
5891 | if __name__ == '__main__':
|
---|
5892 | sys.exit(generateDisassemblerTables());
|
---|
5893 |
|
---|