1 | /* $Id: CPUMR3Db.cpp 102038 2023-11-09 14:45:36Z vboxsync $ */
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2 | /** @file
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3 | * CPUM - CPU database part.
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4 | */
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5 |
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6 | /*
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7 | * Copyright (C) 2013-2023 Oracle and/or its affiliates.
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8 | *
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9 | * This file is part of VirtualBox base platform packages, as
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10 | * available from https://www.virtualbox.org.
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11 | *
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12 | * This program is free software; you can redistribute it and/or
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13 | * modify it under the terms of the GNU General Public License
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14 | * as published by the Free Software Foundation, in version 3 of the
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15 | * License.
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16 | *
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17 | * This program is distributed in the hope that it will be useful, but
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18 | * WITHOUT ANY WARRANTY; without even the implied warranty of
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19 | * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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20 | * General Public License for more details.
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21 | *
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22 | * You should have received a copy of the GNU General Public License
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23 | * along with this program; if not, see <https://www.gnu.org/licenses>.
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24 | *
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25 | * SPDX-License-Identifier: GPL-3.0-only
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26 | */
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27 |
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28 |
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29 | /*********************************************************************************************************************************
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30 | * Header Files *
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31 | *********************************************************************************************************************************/
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32 | #define LOG_GROUP LOG_GROUP_CPUM
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33 | #include <VBox/vmm/cpum.h>
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34 | #include "CPUMInternal.h"
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35 | #include <VBox/vmm/vm.h>
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36 | #include <VBox/vmm/mm.h>
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37 |
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38 | #include <VBox/err.h>
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39 | #if !defined(RT_ARCH_ARM64)
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40 | # include <iprt/asm-amd64-x86.h>
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41 | #endif
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42 | #include <iprt/mem.h>
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43 | #include <iprt/string.h>
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44 |
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45 |
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46 | /*********************************************************************************************************************************
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47 | * Defined Constants And Macros *
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48 | *********************************************************************************************************************************/
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49 | /** @def NULL_ALONE
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50 | * For eliminating an unnecessary data dependency in standalone builds (for
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51 | * VBoxSVC). */
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52 | /** @def ZERO_ALONE
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53 | * For eliminating an unnecessary data size dependency in standalone builds (for
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54 | * VBoxSVC). */
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55 | #ifndef CPUM_DB_STANDALONE
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56 | # define NULL_ALONE(a_aTable) a_aTable
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57 | # define ZERO_ALONE(a_cTable) a_cTable
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58 | #else
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59 | # define NULL_ALONE(a_aTable) NULL
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60 | # define ZERO_ALONE(a_cTable) 0
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61 | #endif
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62 |
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63 |
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64 | /** @name Short macros for the MSR range entries.
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65 | *
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66 | * These are rather cryptic, but this is to reduce the attack on the right
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67 | * margin.
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68 | *
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69 | * @{ */
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70 | /** Alias one MSR onto another (a_uTarget). */
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71 | #define MAL(a_uMsr, a_szName, a_uTarget) \
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72 | RINT(a_uMsr, a_uMsr, kCpumMsrRdFn_MsrAlias, kCpumMsrWrFn_MsrAlias, 0, a_uTarget, 0, 0, a_szName)
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73 | /** Functions handles everything. */
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74 | #define MFN(a_uMsr, a_szName, a_enmRdFnSuff, a_enmWrFnSuff) \
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75 | RINT(a_uMsr, a_uMsr, kCpumMsrRdFn_##a_enmRdFnSuff, kCpumMsrWrFn_##a_enmWrFnSuff, 0, 0, 0, 0, a_szName)
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76 | /** Functions handles everything, with GP mask. */
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77 | #define MFG(a_uMsr, a_szName, a_enmRdFnSuff, a_enmWrFnSuff, a_fWrGpMask) \
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78 | RINT(a_uMsr, a_uMsr, kCpumMsrRdFn_##a_enmRdFnSuff, kCpumMsrWrFn_##a_enmWrFnSuff, 0, 0, 0, a_fWrGpMask, a_szName)
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79 | /** Function handlers, read-only. */
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80 | #define MFO(a_uMsr, a_szName, a_enmRdFnSuff) \
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81 | RINT(a_uMsr, a_uMsr, kCpumMsrRdFn_##a_enmRdFnSuff, kCpumMsrWrFn_ReadOnly, 0, 0, 0, UINT64_MAX, a_szName)
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82 | /** Function handlers, ignore all writes. */
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83 | #define MFI(a_uMsr, a_szName, a_enmRdFnSuff) \
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84 | RINT(a_uMsr, a_uMsr, kCpumMsrRdFn_##a_enmRdFnSuff, kCpumMsrWrFn_IgnoreWrite, 0, 0, UINT64_MAX, 0, a_szName)
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85 | /** Function handlers, with value. */
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86 | #define MFV(a_uMsr, a_szName, a_enmRdFnSuff, a_enmWrFnSuff, a_uValue) \
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87 | RINT(a_uMsr, a_uMsr, kCpumMsrRdFn_##a_enmRdFnSuff, kCpumMsrWrFn_##a_enmWrFnSuff, 0, a_uValue, 0, 0, a_szName)
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88 | /** Function handlers, with write ignore mask. */
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89 | #define MFW(a_uMsr, a_szName, a_enmRdFnSuff, a_enmWrFnSuff, a_fWrIgnMask) \
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90 | RINT(a_uMsr, a_uMsr, kCpumMsrRdFn_##a_enmRdFnSuff, kCpumMsrWrFn_##a_enmWrFnSuff, 0, 0, a_fWrIgnMask, 0, a_szName)
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91 | /** Function handlers, extended version. */
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92 | #define MFX(a_uMsr, a_szName, a_enmRdFnSuff, a_enmWrFnSuff, a_uValue, a_fWrIgnMask, a_fWrGpMask) \
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93 | RINT(a_uMsr, a_uMsr, kCpumMsrRdFn_##a_enmRdFnSuff, kCpumMsrWrFn_##a_enmWrFnSuff, 0, a_uValue, a_fWrIgnMask, a_fWrGpMask, a_szName)
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94 | /** Function handlers, with CPUMCPU storage variable. */
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95 | #define MFS(a_uMsr, a_szName, a_enmRdFnSuff, a_enmWrFnSuff, a_CpumCpuMember) \
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96 | RINT(a_uMsr, a_uMsr, kCpumMsrRdFn_##a_enmRdFnSuff, kCpumMsrWrFn_##a_enmWrFnSuff, \
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97 | RT_OFFSETOF(CPUMCPU, a_CpumCpuMember), 0, 0, 0, a_szName)
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98 | /** Function handlers, with CPUMCPU storage variable, ignore mask and GP mask. */
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99 | #define MFZ(a_uMsr, a_szName, a_enmRdFnSuff, a_enmWrFnSuff, a_CpumCpuMember, a_fWrIgnMask, a_fWrGpMask) \
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100 | RINT(a_uMsr, a_uMsr, kCpumMsrRdFn_##a_enmRdFnSuff, kCpumMsrWrFn_##a_enmWrFnSuff, \
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101 | RT_OFFSETOF(CPUMCPU, a_CpumCpuMember), 0, a_fWrIgnMask, a_fWrGpMask, a_szName)
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102 | /** Read-only fixed value. */
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103 | #define MVO(a_uMsr, a_szName, a_uValue) \
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104 | RINT(a_uMsr, a_uMsr, kCpumMsrRdFn_FixedValue, kCpumMsrWrFn_ReadOnly, 0, a_uValue, 0, UINT64_MAX, a_szName)
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105 | /** Read-only fixed value, ignores all writes. */
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106 | #define MVI(a_uMsr, a_szName, a_uValue) \
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107 | RINT(a_uMsr, a_uMsr, kCpumMsrRdFn_FixedValue, kCpumMsrWrFn_IgnoreWrite, 0, a_uValue, UINT64_MAX, 0, a_szName)
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108 | /** Read fixed value, ignore writes outside GP mask. */
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109 | #define MVG(a_uMsr, a_szName, a_uValue, a_fWrGpMask) \
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110 | RINT(a_uMsr, a_uMsr, kCpumMsrRdFn_FixedValue, kCpumMsrWrFn_IgnoreWrite, 0, a_uValue, 0, a_fWrGpMask, a_szName)
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111 | /** Read fixed value, extended version with both GP and ignore masks. */
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112 | #define MVX(a_uMsr, a_szName, a_uValue, a_fWrIgnMask, a_fWrGpMask) \
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113 | RINT(a_uMsr, a_uMsr, kCpumMsrRdFn_FixedValue, kCpumMsrWrFn_IgnoreWrite, 0, a_uValue, a_fWrIgnMask, a_fWrGpMask, a_szName)
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114 | /** The short form, no CPUM backing. */
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115 | #define MSN(a_uMsr, a_szName, a_enmRdFnSuff, a_enmWrFnSuff, a_uInitOrReadValue, a_fWrIgnMask, a_fWrGpMask) \
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116 | RINT(a_uMsr, a_uMsr, kCpumMsrRdFn_##a_enmRdFnSuff, kCpumMsrWrFn_##a_enmWrFnSuff, 0, \
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117 | a_uInitOrReadValue, a_fWrIgnMask, a_fWrGpMask, a_szName)
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118 |
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119 | /** Range: Functions handles everything. */
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120 | #define RFN(a_uFirst, a_uLast, a_szName, a_enmRdFnSuff, a_enmWrFnSuff) \
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121 | RINT(a_uFirst, a_uLast, kCpumMsrRdFn_##a_enmRdFnSuff, kCpumMsrWrFn_##a_enmWrFnSuff, 0, 0, 0, 0, a_szName)
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122 | /** Range: Read fixed value, read-only. */
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123 | #define RVO(a_uFirst, a_uLast, a_szName, a_uValue) \
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124 | RINT(a_uFirst, a_uLast, kCpumMsrRdFn_FixedValue, kCpumMsrWrFn_ReadOnly, 0, a_uValue, 0, UINT64_MAX, a_szName)
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125 | /** Range: Read fixed value, ignore writes. */
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126 | #define RVI(a_uFirst, a_uLast, a_szName, a_uValue) \
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127 | RINT(a_uFirst, a_uLast, kCpumMsrRdFn_FixedValue, kCpumMsrWrFn_IgnoreWrite, 0, a_uValue, UINT64_MAX, 0, a_szName)
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128 | /** Range: The short form, no CPUM backing. */
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129 | #define RSN(a_uFirst, a_uLast, a_szName, a_enmRdFnSuff, a_enmWrFnSuff, a_uInitOrReadValue, a_fWrIgnMask, a_fWrGpMask) \
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130 | RINT(a_uFirst, a_uLast, kCpumMsrRdFn_##a_enmRdFnSuff, kCpumMsrWrFn_##a_enmWrFnSuff, 0, \
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131 | a_uInitOrReadValue, a_fWrIgnMask, a_fWrGpMask, a_szName)
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132 |
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133 | /** Internal form used by the macros. */
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134 | #ifdef VBOX_WITH_STATISTICS
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135 | # define RINT(a_uFirst, a_uLast, a_enmRdFn, a_enmWrFn, a_offCpumCpu, a_uInitOrReadValue, a_fWrIgnMask, a_fWrGpMask, a_szName) \
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136 | { a_uFirst, a_uLast, a_enmRdFn, a_enmWrFn, a_offCpumCpu, 0, a_uInitOrReadValue, a_fWrIgnMask, a_fWrGpMask, a_szName, \
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137 | { 0 }, { 0 }, { 0 }, { 0 } }
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138 | #else
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139 | # define RINT(a_uFirst, a_uLast, a_enmRdFn, a_enmWrFn, a_offCpumCpu, a_uInitOrReadValue, a_fWrIgnMask, a_fWrGpMask, a_szName) \
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140 | { a_uFirst, a_uLast, a_enmRdFn, a_enmWrFn, a_offCpumCpu, 0, a_uInitOrReadValue, a_fWrIgnMask, a_fWrGpMask, a_szName }
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141 | #endif
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142 | /** @} */
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143 |
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144 | #ifndef CPUM_DB_STANDALONE
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145 |
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146 | #include "cpus/Intel_Core_i7_6700K.h"
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147 | #include "cpus/Intel_Core_i7_5600U.h"
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148 | #include "cpus/Intel_Core_i7_3960X.h"
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149 | #include "cpus/Intel_Core_i5_3570.h"
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150 | #include "cpus/Intel_Core_i7_2635QM.h"
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151 | #include "cpus/Intel_Xeon_X5482_3_20GHz.h"
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152 | #include "cpus/Intel_Core2_X6800_2_93GHz.h"
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153 | #include "cpus/Intel_Core2_T7600_2_33GHz.h"
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154 | #include "cpus/Intel_Core_Duo_T2600_2_16GHz.h"
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155 | #include "cpus/Intel_Pentium_M_processor_2_00GHz.h"
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156 | #include "cpus/Intel_Pentium_4_3_00GHz.h"
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157 | #include "cpus/Intel_Pentium_N3530_2_16GHz.h"
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158 | #include "cpus/Intel_Atom_330_1_60GHz.h"
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159 | #include "cpus/Intel_80486.h"
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160 | #include "cpus/Intel_80386.h"
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161 | #include "cpus/Intel_80286.h"
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162 | #include "cpus/Intel_80186.h"
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163 | #include "cpus/Intel_8086.h"
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164 |
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165 | #include "cpus/AMD_Ryzen_7_1800X_Eight_Core.h"
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166 | #include "cpus/AMD_FX_8150_Eight_Core.h"
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167 | #include "cpus/AMD_Phenom_II_X6_1100T.h"
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168 | #include "cpus/Quad_Core_AMD_Opteron_2384.h"
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169 | #include "cpus/AMD_Athlon_64_X2_Dual_Core_4200.h"
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170 | #include "cpus/AMD_Athlon_64_3200.h"
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171 |
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172 | #include "cpus/VIA_QuadCore_L4700_1_2_GHz.h"
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173 |
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174 | #include "cpus/ZHAOXIN_KaiXian_KX_U5581_1_8GHz.h"
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175 |
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176 | #include "cpus/Hygon_C86_7185_32_core.h"
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177 |
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178 |
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179 | /**
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180 | * The database entries.
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181 | *
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182 | * 1. The first entry is special. It is the fallback for unknown
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183 | * processors. Thus, it better be pretty representative.
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184 | *
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185 | * 2. The first entry for a CPU vendor is likewise important as it is
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186 | * the default entry for that vendor.
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187 | *
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188 | * Generally we put the most recent CPUs first, since these tend to have the
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189 | * most complicated and backwards compatible list of MSRs.
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190 | */
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191 | static CPUMDBENTRY const * const g_apCpumDbEntries[] =
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192 | {
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193 | #ifdef VBOX_CPUDB_Intel_Core_i7_6700K_h
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194 | &g_Entry_Intel_Core_i7_6700K,
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195 | #endif
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196 | #ifdef VBOX_CPUDB_Intel_Core_i7_5600U_h
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197 | &g_Entry_Intel_Core_i7_5600U,
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198 | #endif
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199 | #ifdef VBOX_CPUDB_Intel_Core_i5_3570_h
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200 | &g_Entry_Intel_Core_i5_3570,
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201 | #endif
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202 | #ifdef VBOX_CPUDB_Intel_Core_i7_3960X_h
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203 | &g_Entry_Intel_Core_i7_3960X,
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204 | #endif
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205 | #ifdef VBOX_CPUDB_Intel_Core_i7_2635QM_h
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206 | &g_Entry_Intel_Core_i7_2635QM,
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207 | #endif
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208 | #ifdef VBOX_CPUDB_Intel_Pentium_N3530_2_16GHz_h
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209 | &g_Entry_Intel_Pentium_N3530_2_16GHz,
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210 | #endif
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211 | #ifdef VBOX_CPUDB_Intel_Atom_330_1_60GHz_h
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212 | &g_Entry_Intel_Atom_330_1_60GHz,
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213 | #endif
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214 | #ifdef VBOX_CPUDB_Intel_Pentium_M_processor_2_00GHz_h
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215 | &g_Entry_Intel_Pentium_M_processor_2_00GHz,
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216 | #endif
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217 | #ifdef VBOX_CPUDB_Intel_Xeon_X5482_3_20GHz_h
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218 | &g_Entry_Intel_Xeon_X5482_3_20GHz,
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219 | #endif
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220 | #ifdef VBOX_CPUDB_Intel_Core2_X6800_2_93GHz_h
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221 | &g_Entry_Intel_Core2_X6800_2_93GHz,
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222 | #endif
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223 | #ifdef VBOX_CPUDB_Intel_Core2_T7600_2_33GHz_h
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224 | &g_Entry_Intel_Core2_T7600_2_33GHz,
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225 | #endif
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226 | #ifdef VBOX_CPUDB_Intel_Core_Duo_T2600_2_16GHz_h
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227 | &g_Entry_Intel_Core_Duo_T2600_2_16GHz,
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228 | #endif
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229 | #ifdef VBOX_CPUDB_Intel_Pentium_4_3_00GHz_h
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230 | &g_Entry_Intel_Pentium_4_3_00GHz,
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231 | #endif
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232 | /** @todo pentium, pentium mmx, pentium pro, pentium II, pentium III */
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233 | #ifdef VBOX_CPUDB_Intel_80486_h
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234 | &g_Entry_Intel_80486,
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235 | #endif
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236 | #ifdef VBOX_CPUDB_Intel_80386_h
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237 | &g_Entry_Intel_80386,
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238 | #endif
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239 | #ifdef VBOX_CPUDB_Intel_80286_h
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240 | &g_Entry_Intel_80286,
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241 | #endif
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242 | #ifdef VBOX_CPUDB_Intel_80186_h
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243 | &g_Entry_Intel_80186,
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244 | #endif
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245 | #ifdef VBOX_CPUDB_Intel_8086_h
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246 | &g_Entry_Intel_8086,
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247 | #endif
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248 |
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249 | #ifdef VBOX_CPUDB_AMD_Ryzen_7_1800X_Eight_Core_h
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250 | &g_Entry_AMD_Ryzen_7_1800X_Eight_Core,
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251 | #endif
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252 | #ifdef VBOX_CPUDB_AMD_FX_8150_Eight_Core_h
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253 | &g_Entry_AMD_FX_8150_Eight_Core,
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254 | #endif
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255 | #ifdef VBOX_CPUDB_AMD_Phenom_II_X6_1100T_h
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256 | &g_Entry_AMD_Phenom_II_X6_1100T,
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257 | #endif
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258 | #ifdef VBOX_CPUDB_Quad_Core_AMD_Opteron_2384_h
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259 | &g_Entry_Quad_Core_AMD_Opteron_2384,
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260 | #endif
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261 | #ifdef VBOX_CPUDB_AMD_Athlon_64_X2_Dual_Core_4200_h
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262 | &g_Entry_AMD_Athlon_64_X2_Dual_Core_4200,
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263 | #endif
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264 | #ifdef VBOX_CPUDB_AMD_Athlon_64_3200_h
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265 | &g_Entry_AMD_Athlon_64_3200,
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266 | #endif
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267 |
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268 | #ifdef VBOX_CPUDB_ZHAOXIN_KaiXian_KX_U5581_1_8GHz_h
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269 | &g_Entry_ZHAOXIN_KaiXian_KX_U5581_1_8GHz,
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270 | #endif
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271 |
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272 | #ifdef VBOX_CPUDB_VIA_QuadCore_L4700_1_2_GHz_h
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273 | &g_Entry_VIA_QuadCore_L4700_1_2_GHz,
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274 | #endif
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275 |
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276 | #ifdef VBOX_CPUDB_NEC_V20_h
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277 | &g_Entry_NEC_V20,
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278 | #endif
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279 |
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280 | #ifdef VBOX_CPUDB_Hygon_C86_7185_32_core_h
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281 | &g_Entry_Hygon_C86_7185_32_core,
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282 | #endif
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283 | };
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284 |
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285 |
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286 | /**
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287 | * Returns the number of entries in the CPU database.
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288 | *
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289 | * @returns Number of entries.
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290 | * @sa PFNCPUMDBGETENTRIES
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291 | */
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292 | VMMR3DECL(uint32_t) CPUMR3DbGetEntries(void)
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293 | {
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294 | return RT_ELEMENTS(g_apCpumDbEntries);
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295 | }
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296 |
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297 |
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298 | /**
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299 | * Returns CPU database entry for the given index.
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300 | *
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301 | * @returns Pointer the CPU database entry, NULL if index is out of bounds.
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302 | * @param idxCpuDb The index (0..CPUMR3DbGetEntries).
|
---|
303 | * @sa PFNCPUMDBGETENTRYBYINDEX
|
---|
304 | */
|
---|
305 | VMMR3DECL(PCCPUMDBENTRY) CPUMR3DbGetEntryByIndex(uint32_t idxCpuDb)
|
---|
306 | {
|
---|
307 | AssertReturn(idxCpuDb < RT_ELEMENTS(g_apCpumDbEntries), NULL);
|
---|
308 | return g_apCpumDbEntries[idxCpuDb];
|
---|
309 | }
|
---|
310 |
|
---|
311 |
|
---|
312 | /**
|
---|
313 | * Returns CPU database entry with the given name.
|
---|
314 | *
|
---|
315 | * @returns Pointer the CPU database entry, NULL if not found.
|
---|
316 | * @param pszName The name of the profile to return.
|
---|
317 | * @sa PFNCPUMDBGETENTRYBYNAME
|
---|
318 | */
|
---|
319 | VMMR3DECL(PCCPUMDBENTRY) CPUMR3DbGetEntryByName(const char *pszName)
|
---|
320 | {
|
---|
321 | AssertPtrReturn(pszName, NULL);
|
---|
322 | AssertReturn(*pszName, NULL);
|
---|
323 | for (size_t i = 0; i < RT_ELEMENTS(g_apCpumDbEntries); i++)
|
---|
324 | if (strcmp(g_apCpumDbEntries[i]->pszName, pszName) == 0)
|
---|
325 | return g_apCpumDbEntries[i];
|
---|
326 | return NULL;
|
---|
327 | }
|
---|
328 |
|
---|
329 |
|
---|
330 |
|
---|
331 | /**
|
---|
332 | * Binary search used by cpumR3MsrRangesInsert and has some special properties
|
---|
333 | * wrt to mismatches.
|
---|
334 | *
|
---|
335 | * @returns Insert location.
|
---|
336 | * @param paMsrRanges The MSR ranges to search.
|
---|
337 | * @param cMsrRanges The number of MSR ranges.
|
---|
338 | * @param uMsr What to search for.
|
---|
339 | */
|
---|
340 | static uint32_t cpumR3MsrRangesBinSearch(PCCPUMMSRRANGE paMsrRanges, uint32_t cMsrRanges, uint32_t uMsr)
|
---|
341 | {
|
---|
342 | if (!cMsrRanges)
|
---|
343 | return 0;
|
---|
344 |
|
---|
345 | uint32_t iStart = 0;
|
---|
346 | uint32_t iLast = cMsrRanges - 1;
|
---|
347 | for (;;)
|
---|
348 | {
|
---|
349 | uint32_t i = iStart + (iLast - iStart + 1) / 2;
|
---|
350 | if ( uMsr >= paMsrRanges[i].uFirst
|
---|
351 | && uMsr <= paMsrRanges[i].uLast)
|
---|
352 | return i;
|
---|
353 | if (uMsr < paMsrRanges[i].uFirst)
|
---|
354 | {
|
---|
355 | if (i <= iStart)
|
---|
356 | return i;
|
---|
357 | iLast = i - 1;
|
---|
358 | }
|
---|
359 | else
|
---|
360 | {
|
---|
361 | if (i >= iLast)
|
---|
362 | {
|
---|
363 | if (i < cMsrRanges)
|
---|
364 | i++;
|
---|
365 | return i;
|
---|
366 | }
|
---|
367 | iStart = i + 1;
|
---|
368 | }
|
---|
369 | }
|
---|
370 | }
|
---|
371 |
|
---|
372 |
|
---|
373 | /**
|
---|
374 | * Ensures that there is space for at least @a cNewRanges in the table,
|
---|
375 | * reallocating the table if necessary.
|
---|
376 | *
|
---|
377 | * @returns Pointer to the MSR ranges on success, NULL on failure. On failure
|
---|
378 | * @a *ppaMsrRanges is freed and set to NULL.
|
---|
379 | * @param pVM The cross context VM structure. If NULL,
|
---|
380 | * use the process heap, otherwise the VM's hyper heap.
|
---|
381 | * @param ppaMsrRanges The variable pointing to the ranges (input/output).
|
---|
382 | * @param cMsrRanges The current number of ranges.
|
---|
383 | * @param cNewRanges The number of ranges to be added.
|
---|
384 | */
|
---|
385 | static PCPUMMSRRANGE cpumR3MsrRangesEnsureSpace(PVM pVM, PCPUMMSRRANGE *ppaMsrRanges, uint32_t cMsrRanges, uint32_t cNewRanges)
|
---|
386 | {
|
---|
387 | if ( cMsrRanges + cNewRanges
|
---|
388 | > RT_ELEMENTS(pVM->cpum.s.GuestInfo.aMsrRanges) + (pVM ? 0 : 128 /* Catch too many MSRs in CPU reporter! */))
|
---|
389 | {
|
---|
390 | LogRel(("CPUM: Too many MSR ranges! %#x, max %#x\n",
|
---|
391 | cMsrRanges + cNewRanges, RT_ELEMENTS(pVM->cpum.s.GuestInfo.aMsrRanges)));
|
---|
392 | return NULL;
|
---|
393 | }
|
---|
394 | if (pVM)
|
---|
395 | {
|
---|
396 | Assert(cMsrRanges == pVM->cpum.s.GuestInfo.cMsrRanges);
|
---|
397 | Assert(*ppaMsrRanges == pVM->cpum.s.GuestInfo.aMsrRanges);
|
---|
398 | }
|
---|
399 | else
|
---|
400 | {
|
---|
401 | if (cMsrRanges + cNewRanges > RT_ALIGN_32(cMsrRanges, 16))
|
---|
402 | {
|
---|
403 |
|
---|
404 | uint32_t const cNew = RT_ALIGN_32(cMsrRanges + cNewRanges, 16);
|
---|
405 | void *pvNew = RTMemRealloc(*ppaMsrRanges, cNew * sizeof(**ppaMsrRanges));
|
---|
406 | if (pvNew)
|
---|
407 | *ppaMsrRanges = (PCPUMMSRRANGE)pvNew;
|
---|
408 | else
|
---|
409 | {
|
---|
410 | RTMemFree(*ppaMsrRanges);
|
---|
411 | *ppaMsrRanges = NULL;
|
---|
412 | return NULL;
|
---|
413 | }
|
---|
414 | }
|
---|
415 | }
|
---|
416 |
|
---|
417 | return *ppaMsrRanges;
|
---|
418 | }
|
---|
419 |
|
---|
420 |
|
---|
421 | /**
|
---|
422 | * Inserts a new MSR range in into an sorted MSR range array.
|
---|
423 | *
|
---|
424 | * If the new MSR range overlaps existing ranges, the existing ones will be
|
---|
425 | * adjusted/removed to fit in the new one.
|
---|
426 | *
|
---|
427 | * @returns VBox status code.
|
---|
428 | * @retval VINF_SUCCESS
|
---|
429 | * @retval VERR_NO_MEMORY
|
---|
430 | *
|
---|
431 | * @param pVM The cross context VM structure. If NULL,
|
---|
432 | * use the process heap, otherwise the VM's hyper heap.
|
---|
433 | * @param ppaMsrRanges The variable pointing to the ranges (input/output).
|
---|
434 | * Must be NULL if using the hyper heap.
|
---|
435 | * @param pcMsrRanges The variable holding number of ranges. Must be NULL
|
---|
436 | * if using the hyper heap.
|
---|
437 | * @param pNewRange The new range.
|
---|
438 | */
|
---|
439 | int cpumR3MsrRangesInsert(PVM pVM, PCPUMMSRRANGE *ppaMsrRanges, uint32_t *pcMsrRanges, PCCPUMMSRRANGE pNewRange)
|
---|
440 | {
|
---|
441 | Assert(pNewRange->uLast >= pNewRange->uFirst);
|
---|
442 | Assert(pNewRange->enmRdFn > kCpumMsrRdFn_Invalid && pNewRange->enmRdFn < kCpumMsrRdFn_End);
|
---|
443 | Assert(pNewRange->enmWrFn > kCpumMsrWrFn_Invalid && pNewRange->enmWrFn < kCpumMsrWrFn_End);
|
---|
444 |
|
---|
445 | /*
|
---|
446 | * Validate and use the VM's MSR ranges array if we are using the hyper heap.
|
---|
447 | */
|
---|
448 | if (pVM)
|
---|
449 | {
|
---|
450 | AssertReturn(!ppaMsrRanges, VERR_INVALID_PARAMETER);
|
---|
451 | AssertReturn(!pcMsrRanges, VERR_INVALID_PARAMETER);
|
---|
452 | AssertReturn(pVM->cpum.s.GuestInfo.paMsrRangesR3 == pVM->cpum.s.GuestInfo.aMsrRanges, VERR_INTERNAL_ERROR_3);
|
---|
453 |
|
---|
454 | ppaMsrRanges = &pVM->cpum.s.GuestInfo.paMsrRangesR3;
|
---|
455 | pcMsrRanges = &pVM->cpum.s.GuestInfo.cMsrRanges;
|
---|
456 | }
|
---|
457 | else
|
---|
458 | {
|
---|
459 | AssertReturn(ppaMsrRanges, VERR_INVALID_POINTER);
|
---|
460 | AssertReturn(pcMsrRanges, VERR_INVALID_POINTER);
|
---|
461 | }
|
---|
462 |
|
---|
463 | uint32_t cMsrRanges = *pcMsrRanges;
|
---|
464 | PCPUMMSRRANGE paMsrRanges = *ppaMsrRanges;
|
---|
465 |
|
---|
466 | /*
|
---|
467 | * Optimize the linear insertion case where we add new entries at the end.
|
---|
468 | */
|
---|
469 | if ( cMsrRanges > 0
|
---|
470 | && paMsrRanges[cMsrRanges - 1].uLast < pNewRange->uFirst)
|
---|
471 | {
|
---|
472 | paMsrRanges = cpumR3MsrRangesEnsureSpace(pVM, ppaMsrRanges, cMsrRanges, 1);
|
---|
473 | if (!paMsrRanges)
|
---|
474 | return VERR_NO_MEMORY;
|
---|
475 | paMsrRanges[cMsrRanges] = *pNewRange;
|
---|
476 | *pcMsrRanges += 1;
|
---|
477 | }
|
---|
478 | else
|
---|
479 | {
|
---|
480 | uint32_t i = cpumR3MsrRangesBinSearch(paMsrRanges, cMsrRanges, pNewRange->uFirst);
|
---|
481 | Assert(i == cMsrRanges || pNewRange->uFirst <= paMsrRanges[i].uLast);
|
---|
482 | Assert(i == 0 || pNewRange->uFirst > paMsrRanges[i - 1].uLast);
|
---|
483 |
|
---|
484 | /*
|
---|
485 | * Adding an entirely new entry?
|
---|
486 | */
|
---|
487 | if ( i >= cMsrRanges
|
---|
488 | || pNewRange->uLast < paMsrRanges[i].uFirst)
|
---|
489 | {
|
---|
490 | paMsrRanges = cpumR3MsrRangesEnsureSpace(pVM, ppaMsrRanges, cMsrRanges, 1);
|
---|
491 | if (!paMsrRanges)
|
---|
492 | return VERR_NO_MEMORY;
|
---|
493 | if (i < cMsrRanges)
|
---|
494 | memmove(&paMsrRanges[i + 1], &paMsrRanges[i], (cMsrRanges - i) * sizeof(paMsrRanges[0]));
|
---|
495 | paMsrRanges[i] = *pNewRange;
|
---|
496 | *pcMsrRanges += 1;
|
---|
497 | }
|
---|
498 | /*
|
---|
499 | * Replace existing entry?
|
---|
500 | */
|
---|
501 | else if ( pNewRange->uFirst == paMsrRanges[i].uFirst
|
---|
502 | && pNewRange->uLast == paMsrRanges[i].uLast)
|
---|
503 | paMsrRanges[i] = *pNewRange;
|
---|
504 | /*
|
---|
505 | * Splitting an existing entry?
|
---|
506 | */
|
---|
507 | else if ( pNewRange->uFirst > paMsrRanges[i].uFirst
|
---|
508 | && pNewRange->uLast < paMsrRanges[i].uLast)
|
---|
509 | {
|
---|
510 | paMsrRanges = cpumR3MsrRangesEnsureSpace(pVM, ppaMsrRanges, cMsrRanges, 2);
|
---|
511 | if (!paMsrRanges)
|
---|
512 | return VERR_NO_MEMORY;
|
---|
513 | if (i < cMsrRanges)
|
---|
514 | memmove(&paMsrRanges[i + 2], &paMsrRanges[i], (cMsrRanges - i) * sizeof(paMsrRanges[0]));
|
---|
515 | paMsrRanges[i + 1] = *pNewRange;
|
---|
516 | paMsrRanges[i + 2] = paMsrRanges[i];
|
---|
517 | paMsrRanges[i ].uLast = pNewRange->uFirst - 1;
|
---|
518 | paMsrRanges[i + 2].uFirst = pNewRange->uLast + 1;
|
---|
519 | *pcMsrRanges += 2;
|
---|
520 | }
|
---|
521 | /*
|
---|
522 | * Complicated scenarios that can affect more than one range.
|
---|
523 | *
|
---|
524 | * The current code does not optimize memmove calls when replacing
|
---|
525 | * one or more existing ranges, because it's tedious to deal with and
|
---|
526 | * not expected to be a frequent usage scenario.
|
---|
527 | */
|
---|
528 | else
|
---|
529 | {
|
---|
530 | /* Adjust start of first match? */
|
---|
531 | if ( pNewRange->uFirst <= paMsrRanges[i].uFirst
|
---|
532 | && pNewRange->uLast < paMsrRanges[i].uLast)
|
---|
533 | paMsrRanges[i].uFirst = pNewRange->uLast + 1;
|
---|
534 | else
|
---|
535 | {
|
---|
536 | /* Adjust end of first match? */
|
---|
537 | if (pNewRange->uFirst > paMsrRanges[i].uFirst)
|
---|
538 | {
|
---|
539 | Assert(paMsrRanges[i].uLast >= pNewRange->uFirst);
|
---|
540 | paMsrRanges[i].uLast = pNewRange->uFirst - 1;
|
---|
541 | i++;
|
---|
542 | }
|
---|
543 | /* Replace the whole first match (lazy bird). */
|
---|
544 | else
|
---|
545 | {
|
---|
546 | if (i + 1 < cMsrRanges)
|
---|
547 | memmove(&paMsrRanges[i], &paMsrRanges[i + 1], (cMsrRanges - i - 1) * sizeof(paMsrRanges[0]));
|
---|
548 | cMsrRanges = *pcMsrRanges -= 1;
|
---|
549 | }
|
---|
550 |
|
---|
551 | /* Do the new range affect more ranges? */
|
---|
552 | while ( i < cMsrRanges
|
---|
553 | && pNewRange->uLast >= paMsrRanges[i].uFirst)
|
---|
554 | {
|
---|
555 | if (pNewRange->uLast < paMsrRanges[i].uLast)
|
---|
556 | {
|
---|
557 | /* Adjust the start of it, then we're done. */
|
---|
558 | paMsrRanges[i].uFirst = pNewRange->uLast + 1;
|
---|
559 | break;
|
---|
560 | }
|
---|
561 |
|
---|
562 | /* Remove it entirely. */
|
---|
563 | if (i + 1 < cMsrRanges)
|
---|
564 | memmove(&paMsrRanges[i], &paMsrRanges[i + 1], (cMsrRanges - i - 1) * sizeof(paMsrRanges[0]));
|
---|
565 | cMsrRanges = *pcMsrRanges -= 1;
|
---|
566 | }
|
---|
567 | }
|
---|
568 |
|
---|
569 | /* Now, perform a normal insertion. */
|
---|
570 | paMsrRanges = cpumR3MsrRangesEnsureSpace(pVM, ppaMsrRanges, cMsrRanges, 1);
|
---|
571 | if (!paMsrRanges)
|
---|
572 | return VERR_NO_MEMORY;
|
---|
573 | if (i < cMsrRanges)
|
---|
574 | memmove(&paMsrRanges[i + 1], &paMsrRanges[i], (cMsrRanges - i) * sizeof(paMsrRanges[0]));
|
---|
575 | paMsrRanges[i] = *pNewRange;
|
---|
576 | *pcMsrRanges += 1;
|
---|
577 | }
|
---|
578 | }
|
---|
579 |
|
---|
580 | return VINF_SUCCESS;
|
---|
581 | }
|
---|
582 |
|
---|
583 |
|
---|
584 | /**
|
---|
585 | * Reconciles CPUID info with MSRs (selected ones).
|
---|
586 | *
|
---|
587 | * @returns VBox status code.
|
---|
588 | * @param pVM The cross context VM structure.
|
---|
589 | */
|
---|
590 | int cpumR3MsrReconcileWithCpuId(PVM pVM)
|
---|
591 | {
|
---|
592 | PCCPUMMSRRANGE papToAdd[10];
|
---|
593 | uint32_t cToAdd = 0;
|
---|
594 |
|
---|
595 | /*
|
---|
596 | * The IA32_FLUSH_CMD MSR was introduced in MCUs for CVS-2018-3646 and associates.
|
---|
597 | */
|
---|
598 | if (pVM->cpum.s.GuestFeatures.fFlushCmd && !cpumLookupMsrRange(pVM, MSR_IA32_FLUSH_CMD))
|
---|
599 | {
|
---|
600 | static CPUMMSRRANGE const s_FlushCmd =
|
---|
601 | {
|
---|
602 | /*.uFirst =*/ MSR_IA32_FLUSH_CMD,
|
---|
603 | /*.uLast =*/ MSR_IA32_FLUSH_CMD,
|
---|
604 | /*.enmRdFn =*/ kCpumMsrRdFn_WriteOnly,
|
---|
605 | /*.enmWrFn =*/ kCpumMsrWrFn_Ia32FlushCmd,
|
---|
606 | /*.offCpumCpu =*/ UINT16_MAX,
|
---|
607 | /*.fReserved =*/ 0,
|
---|
608 | /*.uValue =*/ 0,
|
---|
609 | /*.fWrIgnMask =*/ 0,
|
---|
610 | /*.fWrGpMask =*/ ~MSR_IA32_FLUSH_CMD_F_L1D,
|
---|
611 | /*.szName = */ "IA32_FLUSH_CMD"
|
---|
612 | };
|
---|
613 | papToAdd[cToAdd++] = &s_FlushCmd;
|
---|
614 | }
|
---|
615 |
|
---|
616 | /*
|
---|
617 | * The MSR_IA32_ARCH_CAPABILITIES was introduced in various spectre MCUs, or at least
|
---|
618 | * documented in relation to such.
|
---|
619 | */
|
---|
620 | if (pVM->cpum.s.GuestFeatures.fArchCap && !cpumLookupMsrRange(pVM, MSR_IA32_ARCH_CAPABILITIES))
|
---|
621 | {
|
---|
622 | static CPUMMSRRANGE const s_ArchCaps =
|
---|
623 | {
|
---|
624 | /*.uFirst =*/ MSR_IA32_ARCH_CAPABILITIES,
|
---|
625 | /*.uLast =*/ MSR_IA32_ARCH_CAPABILITIES,
|
---|
626 | /*.enmRdFn =*/ kCpumMsrRdFn_Ia32ArchCapabilities,
|
---|
627 | /*.enmWrFn =*/ kCpumMsrWrFn_ReadOnly,
|
---|
628 | /*.offCpumCpu =*/ UINT16_MAX,
|
---|
629 | /*.fReserved =*/ 0,
|
---|
630 | /*.uValue =*/ 0,
|
---|
631 | /*.fWrIgnMask =*/ 0,
|
---|
632 | /*.fWrGpMask =*/ UINT64_MAX,
|
---|
633 | /*.szName = */ "IA32_ARCH_CAPABILITIES"
|
---|
634 | };
|
---|
635 | papToAdd[cToAdd++] = &s_ArchCaps;
|
---|
636 | }
|
---|
637 |
|
---|
638 | /*
|
---|
639 | * Do the adding.
|
---|
640 | */
|
---|
641 | for (uint32_t i = 0; i < cToAdd; i++)
|
---|
642 | {
|
---|
643 | PCCPUMMSRRANGE pRange = papToAdd[i];
|
---|
644 | LogRel(("CPUM: MSR/CPUID reconciliation insert: %#010x %s\n", pRange->uFirst, pRange->szName));
|
---|
645 | int rc = cpumR3MsrRangesInsert(NULL /* pVM */, &pVM->cpum.s.GuestInfo.paMsrRangesR3, &pVM->cpum.s.GuestInfo.cMsrRanges,
|
---|
646 | pRange);
|
---|
647 | if (RT_FAILURE(rc))
|
---|
648 | return rc;
|
---|
649 | }
|
---|
650 | return VINF_SUCCESS;
|
---|
651 | }
|
---|
652 |
|
---|
653 |
|
---|
654 | /**
|
---|
655 | * Worker for cpumR3MsrApplyFudge that applies one table.
|
---|
656 | *
|
---|
657 | * @returns VBox status code.
|
---|
658 | * @param pVM The cross context VM structure.
|
---|
659 | * @param paRanges Array of MSRs to fudge.
|
---|
660 | * @param cRanges Number of MSRs in the array.
|
---|
661 | */
|
---|
662 | static int cpumR3MsrApplyFudgeTable(PVM pVM, PCCPUMMSRRANGE paRanges, size_t cRanges)
|
---|
663 | {
|
---|
664 | for (uint32_t i = 0; i < cRanges; i++)
|
---|
665 | if (!cpumLookupMsrRange(pVM, paRanges[i].uFirst))
|
---|
666 | {
|
---|
667 | LogRel(("CPUM: MSR fudge: %#010x %s\n", paRanges[i].uFirst, paRanges[i].szName));
|
---|
668 | int rc = cpumR3MsrRangesInsert(NULL /* pVM */, &pVM->cpum.s.GuestInfo.paMsrRangesR3, &pVM->cpum.s.GuestInfo.cMsrRanges,
|
---|
669 | &paRanges[i]);
|
---|
670 | if (RT_FAILURE(rc))
|
---|
671 | return rc;
|
---|
672 | }
|
---|
673 | return VINF_SUCCESS;
|
---|
674 | }
|
---|
675 |
|
---|
676 |
|
---|
677 | /**
|
---|
678 | * Fudges the MSRs that guest are known to access in some odd cases.
|
---|
679 | *
|
---|
680 | * A typical example is a VM that has been moved between different hosts where
|
---|
681 | * for instance the cpu vendor differs.
|
---|
682 | *
|
---|
683 | * Another example is older CPU profiles (e.g. Atom Bonnet) for newer CPUs (e.g.
|
---|
684 | * Atom Silvermont), where features reported thru CPUID aren't present in the
|
---|
685 | * MSRs (e.g. AMD64_TSC_AUX).
|
---|
686 | *
|
---|
687 | *
|
---|
688 | * @returns VBox status code.
|
---|
689 | * @param pVM The cross context VM structure.
|
---|
690 | */
|
---|
691 | int cpumR3MsrApplyFudge(PVM pVM)
|
---|
692 | {
|
---|
693 | /*
|
---|
694 | * Basic.
|
---|
695 | */
|
---|
696 | static CPUMMSRRANGE const s_aFudgeMsrs[] =
|
---|
697 | {
|
---|
698 | MFO(0x00000000, "IA32_P5_MC_ADDR", Ia32P5McAddr),
|
---|
699 | MFX(0x00000001, "IA32_P5_MC_TYPE", Ia32P5McType, Ia32P5McType, 0, 0, UINT64_MAX),
|
---|
700 | MVO(0x00000017, "IA32_PLATFORM_ID", 0),
|
---|
701 | MFN(0x0000001b, "IA32_APIC_BASE", Ia32ApicBase, Ia32ApicBase),
|
---|
702 | MVI(0x0000008b, "BIOS_SIGN", 0),
|
---|
703 | MFX(0x000000fe, "IA32_MTRRCAP", Ia32MtrrCap, ReadOnly, 0x508, 0, 0),
|
---|
704 | MFX(0x00000179, "IA32_MCG_CAP", Ia32McgCap, ReadOnly, 0x005, 0, 0),
|
---|
705 | MFX(0x0000017a, "IA32_MCG_STATUS", Ia32McgStatus, Ia32McgStatus, 0, ~(uint64_t)UINT32_MAX, 0),
|
---|
706 | MFN(0x000001a0, "IA32_MISC_ENABLE", Ia32MiscEnable, Ia32MiscEnable),
|
---|
707 | MFN(0x000001d9, "IA32_DEBUGCTL", Ia32DebugCtl, Ia32DebugCtl),
|
---|
708 | MFO(0x000001db, "P6_LAST_BRANCH_FROM_IP", P6LastBranchFromIp),
|
---|
709 | MFO(0x000001dc, "P6_LAST_BRANCH_TO_IP", P6LastBranchToIp),
|
---|
710 | MFO(0x000001dd, "P6_LAST_INT_FROM_IP", P6LastIntFromIp),
|
---|
711 | MFO(0x000001de, "P6_LAST_INT_TO_IP", P6LastIntToIp),
|
---|
712 | MFS(0x00000277, "IA32_PAT", Ia32Pat, Ia32Pat, Guest.msrPAT),
|
---|
713 | MFZ(0x000002ff, "IA32_MTRR_DEF_TYPE", Ia32MtrrDefType, Ia32MtrrDefType, GuestMsrs.msr.MtrrDefType, 0, ~(uint64_t)0xc07),
|
---|
714 | MFN(0x00000400, "IA32_MCi_CTL_STATUS_ADDR_MISC", Ia32McCtlStatusAddrMiscN, Ia32McCtlStatusAddrMiscN),
|
---|
715 | };
|
---|
716 | int rc = cpumR3MsrApplyFudgeTable(pVM, &s_aFudgeMsrs[0], RT_ELEMENTS(s_aFudgeMsrs));
|
---|
717 | AssertLogRelRCReturn(rc, rc);
|
---|
718 |
|
---|
719 | /*
|
---|
720 | * XP might mistake opterons and other newer CPUs for P4s.
|
---|
721 | */
|
---|
722 | if (pVM->cpum.s.GuestFeatures.uFamily >= 0xf)
|
---|
723 | {
|
---|
724 | static CPUMMSRRANGE const s_aP4FudgeMsrs[] =
|
---|
725 | {
|
---|
726 | MFX(0x0000002c, "P4_EBC_FREQUENCY_ID", IntelP4EbcFrequencyId, IntelP4EbcFrequencyId, 0xf12010f, UINT64_MAX, 0),
|
---|
727 | };
|
---|
728 | rc = cpumR3MsrApplyFudgeTable(pVM, &s_aP4FudgeMsrs[0], RT_ELEMENTS(s_aP4FudgeMsrs));
|
---|
729 | AssertLogRelRCReturn(rc, rc);
|
---|
730 | }
|
---|
731 |
|
---|
732 | if (pVM->cpum.s.GuestFeatures.fRdTscP)
|
---|
733 | {
|
---|
734 | static CPUMMSRRANGE const s_aRdTscPFudgeMsrs[] =
|
---|
735 | {
|
---|
736 | MFX(0xc0000103, "AMD64_TSC_AUX", Amd64TscAux, Amd64TscAux, 0, 0, ~(uint64_t)UINT32_MAX),
|
---|
737 | };
|
---|
738 | rc = cpumR3MsrApplyFudgeTable(pVM, &s_aRdTscPFudgeMsrs[0], RT_ELEMENTS(s_aRdTscPFudgeMsrs));
|
---|
739 | AssertLogRelRCReturn(rc, rc);
|
---|
740 | }
|
---|
741 |
|
---|
742 | /*
|
---|
743 | * Windows 10 incorrectly writes to MSR_IA32_TSX_CTRL without checking
|
---|
744 | * CPUID.ARCH_CAP(EAX=7h,ECX=0):EDX[bit 29] or the MSR feature bits in
|
---|
745 | * MSR_IA32_ARCH_CAPABILITIES[bit 7], see @bugref{9630}.
|
---|
746 | * Ignore writes to this MSR and return 0 on reads.
|
---|
747 | */
|
---|
748 | if (pVM->cpum.s.GuestFeatures.fArchCap)
|
---|
749 | {
|
---|
750 | static CPUMMSRRANGE const s_aTsxCtrl[] =
|
---|
751 | {
|
---|
752 | MVI(MSR_IA32_TSX_CTRL, "IA32_TSX_CTRL", 0),
|
---|
753 | };
|
---|
754 | rc = cpumR3MsrApplyFudgeTable(pVM, &s_aTsxCtrl[0], RT_ELEMENTS(s_aTsxCtrl));
|
---|
755 | AssertLogRelRCReturn(rc, rc);
|
---|
756 | }
|
---|
757 |
|
---|
758 | return rc;
|
---|
759 | }
|
---|
760 |
|
---|
761 | #if defined(RT_ARCH_X86) || defined(RT_ARCH_AMD64)
|
---|
762 |
|
---|
763 | /**
|
---|
764 | * Do we consider @a enmConsider a better match for @a enmTarget than
|
---|
765 | * @a enmFound?
|
---|
766 | *
|
---|
767 | * Only called when @a enmConsider isn't exactly what we're looking for.
|
---|
768 | *
|
---|
769 | * @returns true/false.
|
---|
770 | * @param enmConsider The new microarch to consider.
|
---|
771 | * @param enmTarget The target microarch.
|
---|
772 | * @param enmFound The best microarch match we've found thus far.
|
---|
773 | */
|
---|
774 | DECLINLINE(bool) cpumR3DbIsBetterMarchMatch(CPUMMICROARCH enmConsider, CPUMMICROARCH enmTarget, CPUMMICROARCH enmFound)
|
---|
775 | {
|
---|
776 | Assert(enmConsider != enmTarget);
|
---|
777 |
|
---|
778 | /*
|
---|
779 | * If we've got an march match, don't bother with enmConsider.
|
---|
780 | */
|
---|
781 | if (enmFound == enmTarget)
|
---|
782 | return false;
|
---|
783 |
|
---|
784 | /*
|
---|
785 | * Found is below: Pick 'consider' if it's closer to the target or above it.
|
---|
786 | */
|
---|
787 | if (enmFound < enmTarget)
|
---|
788 | return enmConsider > enmFound;
|
---|
789 |
|
---|
790 | /*
|
---|
791 | * Found is above: Pick 'consider' if it's also above (paranoia: or equal)
|
---|
792 | * and but closer to the target.
|
---|
793 | */
|
---|
794 | return enmConsider >= enmTarget && enmConsider < enmFound;
|
---|
795 | }
|
---|
796 |
|
---|
797 |
|
---|
798 | /**
|
---|
799 | * Do we consider @a enmConsider a better match for @a enmTarget than
|
---|
800 | * @a enmFound?
|
---|
801 | *
|
---|
802 | * Only called for intel family 06h CPUs.
|
---|
803 | *
|
---|
804 | * @returns true/false.
|
---|
805 | * @param enmConsider The new microarch to consider.
|
---|
806 | * @param enmTarget The target microarch.
|
---|
807 | * @param enmFound The best microarch match we've found thus far.
|
---|
808 | */
|
---|
809 | static bool cpumR3DbIsBetterIntelFam06Match(CPUMMICROARCH enmConsider, CPUMMICROARCH enmTarget, CPUMMICROARCH enmFound)
|
---|
810 | {
|
---|
811 | /* Check intel family 06h claims. */
|
---|
812 | AssertReturn(enmConsider >= kCpumMicroarch_Intel_P6_Core_Atom_First && enmConsider <= kCpumMicroarch_Intel_P6_Core_Atom_End,
|
---|
813 | false);
|
---|
814 | AssertReturn( (enmTarget >= kCpumMicroarch_Intel_P6_Core_Atom_First && enmTarget <= kCpumMicroarch_Intel_P6_Core_Atom_End)
|
---|
815 | || enmTarget == kCpumMicroarch_Intel_Unknown,
|
---|
816 | false);
|
---|
817 |
|
---|
818 | /* Put matches out of the way. */
|
---|
819 | if (enmConsider == enmTarget)
|
---|
820 | return true;
|
---|
821 | if (enmFound == enmTarget)
|
---|
822 | return false;
|
---|
823 |
|
---|
824 | /* If found isn't a family 06h march, whatever we're considering must be a better choice. */
|
---|
825 | if ( enmFound < kCpumMicroarch_Intel_P6_Core_Atom_First
|
---|
826 | || enmFound > kCpumMicroarch_Intel_P6_Core_Atom_End)
|
---|
827 | return true;
|
---|
828 |
|
---|
829 | /*
|
---|
830 | * The family 06h stuff is split into three categories:
|
---|
831 | * - Common P6 heritage
|
---|
832 | * - Core
|
---|
833 | * - Atom
|
---|
834 | *
|
---|
835 | * Determin which of the three arguments are Atom marchs, because that's
|
---|
836 | * all we need to make the right choice.
|
---|
837 | */
|
---|
838 | bool const fConsiderAtom = enmConsider >= kCpumMicroarch_Intel_Atom_First;
|
---|
839 | bool const fTargetAtom = enmTarget >= kCpumMicroarch_Intel_Atom_First;
|
---|
840 | bool const fFoundAtom = enmFound >= kCpumMicroarch_Intel_Atom_First;
|
---|
841 |
|
---|
842 | /*
|
---|
843 | * Want atom:
|
---|
844 | */
|
---|
845 | if (fTargetAtom)
|
---|
846 | {
|
---|
847 | /* Pick the atom if we've got one of each.*/
|
---|
848 | if (fConsiderAtom != fFoundAtom)
|
---|
849 | return fConsiderAtom;
|
---|
850 | /* If we haven't got any atoms under consideration, pick a P6 or the earlier core.
|
---|
851 | Note! Not entirely sure Dothan is the best choice, but it'll do for now. */
|
---|
852 | if (!fConsiderAtom)
|
---|
853 | {
|
---|
854 | if (enmConsider > enmFound)
|
---|
855 | return enmConsider <= kCpumMicroarch_Intel_P6_M_Dothan;
|
---|
856 | return enmFound > kCpumMicroarch_Intel_P6_M_Dothan;
|
---|
857 | }
|
---|
858 | /* else: same category, default comparison rules. */
|
---|
859 | Assert(fConsiderAtom && fFoundAtom);
|
---|
860 | }
|
---|
861 | /*
|
---|
862 | * Want non-atom:
|
---|
863 | */
|
---|
864 | /* Pick the non-atom if we've got one of each. */
|
---|
865 | else if (fConsiderAtom != fFoundAtom)
|
---|
866 | return fFoundAtom;
|
---|
867 | /* If we've only got atoms under consideration, pick the older one just to pick something. */
|
---|
868 | else if (fConsiderAtom)
|
---|
869 | return enmConsider < enmFound;
|
---|
870 | else
|
---|
871 | Assert(!fConsiderAtom && !fFoundAtom);
|
---|
872 |
|
---|
873 | /*
|
---|
874 | * Same basic category. Do same compare as caller.
|
---|
875 | */
|
---|
876 | return cpumR3DbIsBetterMarchMatch(enmConsider, enmTarget, enmFound);
|
---|
877 | }
|
---|
878 |
|
---|
879 | #endif /* RT_ARCH_X86 || RT_ARCH_AMD64 */
|
---|
880 |
|
---|
881 | int cpumR3DbGetCpuInfo(const char *pszName, PCPUMINFO pInfo)
|
---|
882 | {
|
---|
883 | CPUMDBENTRY const *pEntry = NULL;
|
---|
884 | int rc;
|
---|
885 |
|
---|
886 | if (!strcmp(pszName, "host"))
|
---|
887 | #if defined(RT_ARCH_AMD64) || defined(RT_ARCH_X86)
|
---|
888 | {
|
---|
889 | /*
|
---|
890 | * Create a CPU database entry for the host CPU. This means getting
|
---|
891 | * the CPUID bits from the real CPU and grabbing the closest matching
|
---|
892 | * database entry for MSRs.
|
---|
893 | */
|
---|
894 | rc = CPUMR3CpuIdDetectUnknownLeafMethod(&pInfo->enmUnknownCpuIdMethod, &pInfo->DefCpuId);
|
---|
895 | if (RT_FAILURE(rc))
|
---|
896 | return rc;
|
---|
897 | rc = CPUMCpuIdCollectLeavesX86(&pInfo->paCpuIdLeavesR3, &pInfo->cCpuIdLeaves);
|
---|
898 | if (RT_FAILURE(rc))
|
---|
899 | return rc;
|
---|
900 | pInfo->fMxCsrMask = CPUMR3DeterminHostMxCsrMask();
|
---|
901 |
|
---|
902 | /* Lookup database entry for MSRs. */
|
---|
903 | CPUMCPUVENDOR const enmVendor = CPUMCpuIdDetectX86VendorEx(pInfo->paCpuIdLeavesR3[0].uEax,
|
---|
904 | pInfo->paCpuIdLeavesR3[0].uEbx,
|
---|
905 | pInfo->paCpuIdLeavesR3[0].uEcx,
|
---|
906 | pInfo->paCpuIdLeavesR3[0].uEdx);
|
---|
907 | uint32_t const uStd1Eax = pInfo->paCpuIdLeavesR3[1].uEax;
|
---|
908 | uint8_t const uFamily = RTX86GetCpuFamily(uStd1Eax);
|
---|
909 | uint8_t const uModel = RTX86GetCpuModel(uStd1Eax, enmVendor == CPUMCPUVENDOR_INTEL);
|
---|
910 | uint8_t const uStepping = RTX86GetCpuStepping(uStd1Eax);
|
---|
911 | CPUMMICROARCH const enmMicroarch = CPUMCpuIdDetermineX86MicroarchEx(enmVendor, uFamily, uModel, uStepping);
|
---|
912 |
|
---|
913 | for (unsigned i = 0; i < RT_ELEMENTS(g_apCpumDbEntries); i++)
|
---|
914 | {
|
---|
915 | CPUMDBENTRY const *pCur = g_apCpumDbEntries[i];
|
---|
916 | if ((CPUMCPUVENDOR)pCur->enmVendor == enmVendor)
|
---|
917 | {
|
---|
918 | /* Match against Family, Microarch, model and stepping. Except
|
---|
919 | for family, always match the closer with preference given to
|
---|
920 | the later/older ones. */
|
---|
921 | if (pCur->uFamily == uFamily)
|
---|
922 | {
|
---|
923 | if (pCur->enmMicroarch == enmMicroarch)
|
---|
924 | {
|
---|
925 | if (pCur->uModel == uModel)
|
---|
926 | {
|
---|
927 | if (pCur->uStepping == uStepping)
|
---|
928 | {
|
---|
929 | /* Perfect match. */
|
---|
930 | pEntry = pCur;
|
---|
931 | break;
|
---|
932 | }
|
---|
933 |
|
---|
934 | if ( !pEntry
|
---|
935 | || pEntry->uModel != uModel
|
---|
936 | || pEntry->enmMicroarch != enmMicroarch
|
---|
937 | || pEntry->uFamily != uFamily)
|
---|
938 | pEntry = pCur;
|
---|
939 | else if ( pCur->uStepping >= uStepping
|
---|
940 | ? pCur->uStepping < pEntry->uStepping || pEntry->uStepping < uStepping
|
---|
941 | : pCur->uStepping > pEntry->uStepping)
|
---|
942 | pEntry = pCur;
|
---|
943 | }
|
---|
944 | else if ( !pEntry
|
---|
945 | || pEntry->enmMicroarch != enmMicroarch
|
---|
946 | || pEntry->uFamily != uFamily)
|
---|
947 | pEntry = pCur;
|
---|
948 | else if ( pCur->uModel >= uModel
|
---|
949 | ? pCur->uModel < pEntry->uModel || pEntry->uModel < uModel
|
---|
950 | : pCur->uModel > pEntry->uModel)
|
---|
951 | pEntry = pCur;
|
---|
952 | }
|
---|
953 | else if ( !pEntry
|
---|
954 | || pEntry->uFamily != uFamily)
|
---|
955 | pEntry = pCur;
|
---|
956 | /* Special march matching rules applies to intel family 06h. */
|
---|
957 | else if ( enmVendor == CPUMCPUVENDOR_INTEL
|
---|
958 | && uFamily == 6
|
---|
959 | ? cpumR3DbIsBetterIntelFam06Match(pCur->enmMicroarch, enmMicroarch, pEntry->enmMicroarch)
|
---|
960 | : cpumR3DbIsBetterMarchMatch(pCur->enmMicroarch, enmMicroarch, pEntry->enmMicroarch))
|
---|
961 | pEntry = pCur;
|
---|
962 | }
|
---|
963 | /* We don't do closeness matching on family, we use the first
|
---|
964 | entry for the CPU vendor instead. (P4 workaround.) */
|
---|
965 | else if (!pEntry)
|
---|
966 | pEntry = pCur;
|
---|
967 | }
|
---|
968 | }
|
---|
969 |
|
---|
970 | if (pEntry)
|
---|
971 | LogRel(("CPUM: Matched host CPU %s %#x/%#x/%#x %s with CPU DB entry '%s' (%s %#x/%#x/%#x %s)\n",
|
---|
972 | CPUMCpuVendorName(enmVendor), uFamily, uModel, uStepping, CPUMMicroarchName(enmMicroarch),
|
---|
973 | pEntry->pszName, CPUMCpuVendorName((CPUMCPUVENDOR)pEntry->enmVendor), pEntry->uFamily, pEntry->uModel,
|
---|
974 | pEntry->uStepping, CPUMMicroarchName(pEntry->enmMicroarch) ));
|
---|
975 | else
|
---|
976 | {
|
---|
977 | pEntry = g_apCpumDbEntries[0];
|
---|
978 | LogRel(("CPUM: No matching processor database entry %s %#x/%#x/%#x %s, falling back on '%s'\n",
|
---|
979 | CPUMCpuVendorName(enmVendor), uFamily, uModel, uStepping, CPUMMicroarchName(enmMicroarch),
|
---|
980 | pEntry->pszName));
|
---|
981 | }
|
---|
982 | }
|
---|
983 | else
|
---|
984 | #else
|
---|
985 | pszName = g_apCpumDbEntries[0]->pszName; /* Just pick the first entry for non-x86 hosts. */
|
---|
986 | #endif
|
---|
987 | {
|
---|
988 | /*
|
---|
989 | * We're supposed to be emulating a specific CPU that is included in
|
---|
990 | * our CPU database. The CPUID tables needs to be copied onto the
|
---|
991 | * heap so the caller can modify them and so they can be freed like
|
---|
992 | * in the host case above.
|
---|
993 | */
|
---|
994 | for (unsigned i = 0; i < RT_ELEMENTS(g_apCpumDbEntries); i++)
|
---|
995 | if (!strcmp(pszName, g_apCpumDbEntries[i]->pszName))
|
---|
996 | {
|
---|
997 | pEntry = g_apCpumDbEntries[i];
|
---|
998 | break;
|
---|
999 | }
|
---|
1000 | if (!pEntry)
|
---|
1001 | {
|
---|
1002 | LogRel(("CPUM: Cannot locate any CPU by the name '%s'\n", pszName));
|
---|
1003 | return VERR_CPUM_DB_CPU_NOT_FOUND;
|
---|
1004 | }
|
---|
1005 |
|
---|
1006 | pInfo->cCpuIdLeaves = pEntry->cCpuIdLeaves;
|
---|
1007 | if (pEntry->cCpuIdLeaves)
|
---|
1008 | {
|
---|
1009 | /* Must allocate a multiple of 16 here, matching cpumR3CpuIdEnsureSpace. */
|
---|
1010 | size_t cbExtra = sizeof(pEntry->paCpuIdLeaves[0]) * (RT_ALIGN(pEntry->cCpuIdLeaves, 16) - pEntry->cCpuIdLeaves);
|
---|
1011 | pInfo->paCpuIdLeavesR3 = (PCPUMCPUIDLEAF)RTMemDupEx(pEntry->paCpuIdLeaves,
|
---|
1012 | sizeof(pEntry->paCpuIdLeaves[0]) * pEntry->cCpuIdLeaves,
|
---|
1013 | cbExtra);
|
---|
1014 | if (!pInfo->paCpuIdLeavesR3)
|
---|
1015 | return VERR_NO_MEMORY;
|
---|
1016 | }
|
---|
1017 | else
|
---|
1018 | pInfo->paCpuIdLeavesR3 = NULL;
|
---|
1019 |
|
---|
1020 | pInfo->enmUnknownCpuIdMethod = pEntry->enmUnknownCpuId;
|
---|
1021 | pInfo->DefCpuId = pEntry->DefUnknownCpuId;
|
---|
1022 | pInfo->fMxCsrMask = pEntry->fMxCsrMask;
|
---|
1023 |
|
---|
1024 | LogRel(("CPUM: Using CPU DB entry '%s' (%s %#x/%#x/%#x %s)\n",
|
---|
1025 | pEntry->pszName, CPUMCpuVendorName((CPUMCPUVENDOR)pEntry->enmVendor),
|
---|
1026 | pEntry->uFamily, pEntry->uModel, pEntry->uStepping, CPUMMicroarchName(pEntry->enmMicroarch) ));
|
---|
1027 | }
|
---|
1028 |
|
---|
1029 | pInfo->fMsrMask = pEntry->fMsrMask;
|
---|
1030 | pInfo->iFirstExtCpuIdLeaf = 0; /* Set by caller. */
|
---|
1031 | pInfo->uScalableBusFreq = pEntry->uScalableBusFreq;
|
---|
1032 |
|
---|
1033 | /*
|
---|
1034 | * Copy the MSR range.
|
---|
1035 | */
|
---|
1036 | uint32_t cMsrs = 0;
|
---|
1037 | PCPUMMSRRANGE paMsrs = NULL;
|
---|
1038 |
|
---|
1039 | PCCPUMMSRRANGE pCurMsr = pEntry->paMsrRanges;
|
---|
1040 | uint32_t cLeft = pEntry->cMsrRanges;
|
---|
1041 | while (cLeft-- > 0)
|
---|
1042 | {
|
---|
1043 | rc = cpumR3MsrRangesInsert(NULL /* pVM */, &paMsrs, &cMsrs, pCurMsr);
|
---|
1044 | if (RT_FAILURE(rc))
|
---|
1045 | {
|
---|
1046 | Assert(!paMsrs); /* The above function frees this. */
|
---|
1047 | RTMemFree(pInfo->paCpuIdLeavesR3);
|
---|
1048 | pInfo->paCpuIdLeavesR3 = NULL;
|
---|
1049 | return rc;
|
---|
1050 | }
|
---|
1051 | pCurMsr++;
|
---|
1052 | }
|
---|
1053 |
|
---|
1054 | pInfo->paMsrRangesR3 = paMsrs;
|
---|
1055 | pInfo->cMsrRanges = cMsrs;
|
---|
1056 | return VINF_SUCCESS;
|
---|
1057 | }
|
---|
1058 |
|
---|
1059 |
|
---|
1060 | /**
|
---|
1061 | * Insert an MSR range into the VM.
|
---|
1062 | *
|
---|
1063 | * If the new MSR range overlaps existing ranges, the existing ones will be
|
---|
1064 | * adjusted/removed to fit in the new one.
|
---|
1065 | *
|
---|
1066 | * @returns VBox status code.
|
---|
1067 | * @param pVM The cross context VM structure.
|
---|
1068 | * @param pNewRange Pointer to the MSR range being inserted.
|
---|
1069 | */
|
---|
1070 | VMMR3DECL(int) CPUMR3MsrRangesInsert(PVM pVM, PCCPUMMSRRANGE pNewRange)
|
---|
1071 | {
|
---|
1072 | AssertReturn(pVM, VERR_INVALID_PARAMETER);
|
---|
1073 | AssertReturn(pNewRange, VERR_INVALID_PARAMETER);
|
---|
1074 |
|
---|
1075 | return cpumR3MsrRangesInsert(pVM, NULL /* ppaMsrRanges */, NULL /* pcMsrRanges */, pNewRange);
|
---|
1076 | }
|
---|
1077 |
|
---|
1078 |
|
---|
1079 | /**
|
---|
1080 | * Register statistics for the MSRs.
|
---|
1081 | *
|
---|
1082 | * This must not be called before the MSRs have been finalized and moved to the
|
---|
1083 | * hyper heap.
|
---|
1084 | *
|
---|
1085 | * @returns VBox status code.
|
---|
1086 | * @param pVM The cross context VM structure.
|
---|
1087 | */
|
---|
1088 | int cpumR3MsrRegStats(PVM pVM)
|
---|
1089 | {
|
---|
1090 | /*
|
---|
1091 | * Global statistics.
|
---|
1092 | */
|
---|
1093 | PCPUM pCpum = &pVM->cpum.s;
|
---|
1094 | STAM_REL_REG(pVM, &pCpum->cMsrReads, STAMTYPE_COUNTER, "/CPUM/MSR-Totals/Reads",
|
---|
1095 | STAMUNIT_OCCURENCES, "All RDMSRs making it to CPUM.");
|
---|
1096 | STAM_REL_REG(pVM, &pCpum->cMsrReadsRaiseGp, STAMTYPE_COUNTER, "/CPUM/MSR-Totals/ReadsRaisingGP",
|
---|
1097 | STAMUNIT_OCCURENCES, "RDMSR raising #GPs, except unknown MSRs.");
|
---|
1098 | STAM_REL_REG(pVM, &pCpum->cMsrReadsUnknown, STAMTYPE_COUNTER, "/CPUM/MSR-Totals/ReadsUnknown",
|
---|
1099 | STAMUNIT_OCCURENCES, "RDMSR on unknown MSRs (raises #GP).");
|
---|
1100 | STAM_REL_REG(pVM, &pCpum->cMsrWrites, STAMTYPE_COUNTER, "/CPUM/MSR-Totals/Writes",
|
---|
1101 | STAMUNIT_OCCURENCES, "All WRMSRs making it to CPUM.");
|
---|
1102 | STAM_REL_REG(pVM, &pCpum->cMsrWritesRaiseGp, STAMTYPE_COUNTER, "/CPUM/MSR-Totals/WritesRaisingGP",
|
---|
1103 | STAMUNIT_OCCURENCES, "WRMSR raising #GPs, except unknown MSRs.");
|
---|
1104 | STAM_REL_REG(pVM, &pCpum->cMsrWritesToIgnoredBits, STAMTYPE_COUNTER, "/CPUM/MSR-Totals/WritesToIgnoredBits",
|
---|
1105 | STAMUNIT_OCCURENCES, "Writing of ignored bits.");
|
---|
1106 | STAM_REL_REG(pVM, &pCpum->cMsrWritesUnknown, STAMTYPE_COUNTER, "/CPUM/MSR-Totals/WritesUnknown",
|
---|
1107 | STAMUNIT_OCCURENCES, "WRMSR on unknown MSRs (raises #GP).");
|
---|
1108 |
|
---|
1109 |
|
---|
1110 | # ifdef VBOX_WITH_STATISTICS
|
---|
1111 | /*
|
---|
1112 | * Per range.
|
---|
1113 | */
|
---|
1114 | PCPUMMSRRANGE paRanges = pVM->cpum.s.GuestInfo.paMsrRangesR3;
|
---|
1115 | uint32_t cRanges = pVM->cpum.s.GuestInfo.cMsrRanges;
|
---|
1116 | for (uint32_t i = 0; i < cRanges; i++)
|
---|
1117 | {
|
---|
1118 | char szName[160];
|
---|
1119 | ssize_t cchName;
|
---|
1120 |
|
---|
1121 | if (paRanges[i].uFirst == paRanges[i].uLast)
|
---|
1122 | cchName = RTStrPrintf(szName, sizeof(szName), "/CPUM/MSRs/%#010x-%s",
|
---|
1123 | paRanges[i].uFirst, paRanges[i].szName);
|
---|
1124 | else
|
---|
1125 | cchName = RTStrPrintf(szName, sizeof(szName), "/CPUM/MSRs/%#010x-%#010x-%s",
|
---|
1126 | paRanges[i].uFirst, paRanges[i].uLast, paRanges[i].szName);
|
---|
1127 |
|
---|
1128 | RTStrCopy(&szName[cchName], sizeof(szName) - cchName, "-reads");
|
---|
1129 | STAMR3Register(pVM, &paRanges[i].cReads, STAMTYPE_COUNTER, STAMVISIBILITY_ALWAYS, szName, STAMUNIT_OCCURENCES, "RDMSR");
|
---|
1130 |
|
---|
1131 | RTStrCopy(&szName[cchName], sizeof(szName) - cchName, "-writes");
|
---|
1132 | STAMR3Register(pVM, &paRanges[i].cWrites, STAMTYPE_COUNTER, STAMVISIBILITY_USED, szName, STAMUNIT_OCCURENCES, "WRMSR");
|
---|
1133 |
|
---|
1134 | RTStrCopy(&szName[cchName], sizeof(szName) - cchName, "-GPs");
|
---|
1135 | STAMR3Register(pVM, &paRanges[i].cGps, STAMTYPE_COUNTER, STAMVISIBILITY_USED, szName, STAMUNIT_OCCURENCES, "#GPs");
|
---|
1136 |
|
---|
1137 | RTStrCopy(&szName[cchName], sizeof(szName) - cchName, "-ign-bits-writes");
|
---|
1138 | STAMR3Register(pVM, &paRanges[i].cIgnoredBits, STAMTYPE_COUNTER, STAMVISIBILITY_USED, szName, STAMUNIT_OCCURENCES, "WRMSR w/ ignored bits");
|
---|
1139 | }
|
---|
1140 | # endif /* VBOX_WITH_STATISTICS */
|
---|
1141 |
|
---|
1142 | return VINF_SUCCESS;
|
---|
1143 | }
|
---|
1144 |
|
---|
1145 | #endif /* !CPUM_DB_STANDALONE */
|
---|
1146 |
|
---|