1 | /* $Id: CPUM.cpp 76696 2019-01-08 08:41:37Z vboxsync $ */
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2 | /** @file
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3 | * CPUM - CPU Monitor / Manager.
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4 | */
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5 |
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6 | /*
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7 | * Copyright (C) 2006-2019 Oracle Corporation
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8 | *
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9 | * This file is part of VirtualBox Open Source Edition (OSE), as
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10 | * available from http://www.virtualbox.org. This file is free software;
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11 | * you can redistribute it and/or modify it under the terms of the GNU
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12 | * General Public License (GPL) as published by the Free Software
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13 | * Foundation, in version 2 as it comes in the "COPYING" file of the
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14 | * VirtualBox OSE distribution. VirtualBox OSE is distributed in the
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15 | * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
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16 | */
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17 |
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18 | /** @page pg_cpum CPUM - CPU Monitor / Manager
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19 | *
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20 | * The CPU Monitor / Manager keeps track of all the CPU registers. It is
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21 | * also responsible for lazy FPU handling and some of the context loading
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22 | * in raw mode.
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23 | *
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24 | * There are three CPU contexts, the most important one is the guest one (GC).
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25 | * When running in raw-mode (RC) there is a special hyper context for the VMM
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26 | * part that floats around inside the guest address space. When running in
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27 | * raw-mode, CPUM also maintains a host context for saving and restoring
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28 | * registers across world switches. This latter is done in cooperation with the
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29 | * world switcher (@see pg_vmm).
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30 | *
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31 | * @see grp_cpum
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32 | *
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33 | * @section sec_cpum_fpu FPU / SSE / AVX / ++ state.
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34 | *
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35 | * TODO: proper write up, currently just some notes.
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36 | *
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37 | * The ring-0 FPU handling per OS:
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38 | *
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39 | * - 64-bit Windows uses XMM registers in the kernel as part of the calling
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40 | * convention (Visual C++ doesn't seem to have a way to disable
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41 | * generating such code either), so CR0.TS/EM are always zero from what I
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42 | * can tell. We are also forced to always load/save the guest XMM0-XMM15
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43 | * registers when entering/leaving guest context. Interrupt handlers
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44 | * using FPU/SSE will offically have call save and restore functions
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45 | * exported by the kernel, if the really really have to use the state.
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46 | *
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47 | * - 32-bit windows does lazy FPU handling, I think, probably including
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48 | * lazying saving. The Windows Internals book states that it's a bad
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49 | * idea to use the FPU in kernel space. However, it looks like it will
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50 | * restore the FPU state of the current thread in case of a kernel \#NM.
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51 | * Interrupt handlers should be same as for 64-bit.
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52 | *
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53 | * - Darwin allows taking \#NM in kernel space, restoring current thread's
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54 | * state if I read the code correctly. It saves the FPU state of the
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55 | * outgoing thread, and uses CR0.TS to lazily load the state of the
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56 | * incoming one. No idea yet how the FPU is treated by interrupt
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57 | * handlers, i.e. whether they are allowed to disable the state or
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58 | * something.
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59 | *
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60 | * - Linux also allows \#NM in kernel space (don't know since when), and
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61 | * uses CR0.TS for lazy loading. Saves outgoing thread's state, lazy
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62 | * loads the incoming unless configured to agressivly load it. Interrupt
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63 | * handlers can ask whether they're allowed to use the FPU, and may
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64 | * freely trash the state if Linux thinks it has saved the thread's state
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65 | * already. This is a problem.
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66 | *
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67 | * - Solaris will, from what I can tell, panic if it gets an \#NM in kernel
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68 | * context. When switching threads, the kernel will save the state of
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69 | * the outgoing thread and lazy load the incoming one using CR0.TS.
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70 | * There are a few routines in seeblk.s which uses the SSE unit in ring-0
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71 | * to do stuff, HAT are among the users. The routines there will
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72 | * manually clear CR0.TS and save the XMM registers they use only if
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73 | * CR0.TS was zero upon entry. They will skip it when not, because as
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74 | * mentioned above, the FPU state is saved when switching away from a
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75 | * thread and CR0.TS set to 1, so when CR0.TS is 1 there is nothing to
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76 | * preserve. This is a problem if we restore CR0.TS to 1 after loading
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77 | * the guest state.
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78 | *
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79 | * - FreeBSD - no idea yet.
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80 | *
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81 | * - OS/2 does not allow \#NMs in kernel space IIRC. Does lazy loading,
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82 | * possibly also lazy saving. Interrupts must preserve the CR0.TS+EM &
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83 | * FPU states.
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84 | *
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85 | * Up to r107425 (2016-05-24) we would only temporarily modify CR0.TS/EM while
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86 | * saving and restoring the host and guest states. The motivation for this
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87 | * change is that we want to be able to emulate SSE instruction in ring-0 (IEM).
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88 | *
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89 | * Starting with that change, we will leave CR0.TS=EM=0 after saving the host
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90 | * state and only restore it once we've restore the host FPU state. This has the
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91 | * accidental side effect of triggering Solaris to preserve XMM registers in
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92 | * sseblk.s. When CR0 was changed by saving the FPU state, CPUM must now inform
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93 | * the VT-x (HMVMX) code about it as it caches the CR0 value in the VMCS.
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94 | *
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95 | *
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96 | * @section sec_cpum_logging Logging Level Assignments.
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97 | *
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98 | * Following log level assignments:
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99 | * - Log6 is used for FPU state management.
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100 | * - Log7 is used for FPU state actualization.
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101 | *
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102 | */
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103 |
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104 |
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105 | /*********************************************************************************************************************************
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106 | * Header Files *
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107 | *********************************************************************************************************************************/
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108 | #define LOG_GROUP LOG_GROUP_CPUM
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109 | #include <VBox/vmm/cpum.h>
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110 | #include <VBox/vmm/cpumdis.h>
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111 | #include <VBox/vmm/cpumctx-v1_6.h>
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112 | #include <VBox/vmm/pgm.h>
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113 | #include <VBox/vmm/apic.h>
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114 | #include <VBox/vmm/mm.h>
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115 | #include <VBox/vmm/em.h>
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116 | #include <VBox/vmm/iem.h>
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117 | #include <VBox/vmm/selm.h>
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118 | #include <VBox/vmm/dbgf.h>
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119 | #include <VBox/vmm/patm.h>
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120 | #include <VBox/vmm/hm.h>
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121 | #include <VBox/vmm/ssm.h>
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122 | #include "CPUMInternal.h"
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123 | #include <VBox/vmm/vm.h>
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124 |
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125 | #include <VBox/param.h>
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126 | #include <VBox/dis.h>
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127 | #include <VBox/err.h>
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128 | #include <VBox/log.h>
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129 | #include <iprt/asm-amd64-x86.h>
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130 | #include <iprt/assert.h>
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131 | #include <iprt/cpuset.h>
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132 | #include <iprt/mem.h>
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133 | #include <iprt/mp.h>
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134 | #include <iprt/string.h>
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135 |
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136 |
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137 | /*********************************************************************************************************************************
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138 | * Defined Constants And Macros *
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139 | *********************************************************************************************************************************/
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140 | /**
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141 | * This was used in the saved state up to the early life of version 14.
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142 | *
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143 | * It indicates that we may have some out-of-sync hidden segement registers.
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144 | * It is only relevant for raw-mode.
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145 | */
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146 | #define CPUM_CHANGED_HIDDEN_SEL_REGS_INVALID RT_BIT(12)
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147 |
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148 |
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149 | /*********************************************************************************************************************************
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150 | * Structures and Typedefs *
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151 | *********************************************************************************************************************************/
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152 |
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153 | /**
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154 | * What kind of cpu info dump to perform.
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155 | */
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156 | typedef enum CPUMDUMPTYPE
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157 | {
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158 | CPUMDUMPTYPE_TERSE,
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159 | CPUMDUMPTYPE_DEFAULT,
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160 | CPUMDUMPTYPE_VERBOSE
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161 | } CPUMDUMPTYPE;
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162 | /** Pointer to a cpu info dump type. */
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163 | typedef CPUMDUMPTYPE *PCPUMDUMPTYPE;
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164 |
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165 |
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166 | /*********************************************************************************************************************************
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167 | * Internal Functions *
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168 | *********************************************************************************************************************************/
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169 | static DECLCALLBACK(int) cpumR3LiveExec(PVM pVM, PSSMHANDLE pSSM, uint32_t uPass);
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170 | static DECLCALLBACK(int) cpumR3SaveExec(PVM pVM, PSSMHANDLE pSSM);
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171 | static DECLCALLBACK(int) cpumR3LoadPrep(PVM pVM, PSSMHANDLE pSSM);
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172 | static DECLCALLBACK(int) cpumR3LoadExec(PVM pVM, PSSMHANDLE pSSM, uint32_t uVersion, uint32_t uPass);
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173 | static DECLCALLBACK(int) cpumR3LoadDone(PVM pVM, PSSMHANDLE pSSM);
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174 | static DECLCALLBACK(void) cpumR3InfoAll(PVM pVM, PCDBGFINFOHLP pHlp, const char *pszArgs);
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175 | static DECLCALLBACK(void) cpumR3InfoGuest(PVM pVM, PCDBGFINFOHLP pHlp, const char *pszArgs);
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176 | static DECLCALLBACK(void) cpumR3InfoGuestHwvirt(PVM pVM, PCDBGFINFOHLP pHlp, const char *pszArgs);
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177 | static DECLCALLBACK(void) cpumR3InfoGuestInstr(PVM pVM, PCDBGFINFOHLP pHlp, const char *pszArgs);
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178 | static DECLCALLBACK(void) cpumR3InfoHyper(PVM pVM, PCDBGFINFOHLP pHlp, const char *pszArgs);
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179 | static DECLCALLBACK(void) cpumR3InfoHost(PVM pVM, PCDBGFINFOHLP pHlp, const char *pszArgs);
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180 |
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181 |
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182 | /*********************************************************************************************************************************
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183 | * Global Variables *
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184 | *********************************************************************************************************************************/
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185 | /** Saved state field descriptors for CPUMCTX. */
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186 | static const SSMFIELD g_aCpumCtxFields[] =
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187 | {
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188 | SSMFIELD_ENTRY( CPUMCTX, rdi),
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189 | SSMFIELD_ENTRY( CPUMCTX, rsi),
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190 | SSMFIELD_ENTRY( CPUMCTX, rbp),
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191 | SSMFIELD_ENTRY( CPUMCTX, rax),
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192 | SSMFIELD_ENTRY( CPUMCTX, rbx),
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193 | SSMFIELD_ENTRY( CPUMCTX, rdx),
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194 | SSMFIELD_ENTRY( CPUMCTX, rcx),
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195 | SSMFIELD_ENTRY( CPUMCTX, rsp),
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196 | SSMFIELD_ENTRY( CPUMCTX, rflags),
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197 | SSMFIELD_ENTRY( CPUMCTX, rip),
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198 | SSMFIELD_ENTRY( CPUMCTX, r8),
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199 | SSMFIELD_ENTRY( CPUMCTX, r9),
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200 | SSMFIELD_ENTRY( CPUMCTX, r10),
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201 | SSMFIELD_ENTRY( CPUMCTX, r11),
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202 | SSMFIELD_ENTRY( CPUMCTX, r12),
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203 | SSMFIELD_ENTRY( CPUMCTX, r13),
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204 | SSMFIELD_ENTRY( CPUMCTX, r14),
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205 | SSMFIELD_ENTRY( CPUMCTX, r15),
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206 | SSMFIELD_ENTRY( CPUMCTX, es.Sel),
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207 | SSMFIELD_ENTRY( CPUMCTX, es.ValidSel),
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208 | SSMFIELD_ENTRY( CPUMCTX, es.fFlags),
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209 | SSMFIELD_ENTRY( CPUMCTX, es.u64Base),
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210 | SSMFIELD_ENTRY( CPUMCTX, es.u32Limit),
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211 | SSMFIELD_ENTRY( CPUMCTX, es.Attr),
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212 | SSMFIELD_ENTRY( CPUMCTX, cs.Sel),
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213 | SSMFIELD_ENTRY( CPUMCTX, cs.ValidSel),
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214 | SSMFIELD_ENTRY( CPUMCTX, cs.fFlags),
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215 | SSMFIELD_ENTRY( CPUMCTX, cs.u64Base),
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216 | SSMFIELD_ENTRY( CPUMCTX, cs.u32Limit),
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217 | SSMFIELD_ENTRY( CPUMCTX, cs.Attr),
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218 | SSMFIELD_ENTRY( CPUMCTX, ss.Sel),
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219 | SSMFIELD_ENTRY( CPUMCTX, ss.ValidSel),
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220 | SSMFIELD_ENTRY( CPUMCTX, ss.fFlags),
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221 | SSMFIELD_ENTRY( CPUMCTX, ss.u64Base),
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222 | SSMFIELD_ENTRY( CPUMCTX, ss.u32Limit),
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223 | SSMFIELD_ENTRY( CPUMCTX, ss.Attr),
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224 | SSMFIELD_ENTRY( CPUMCTX, ds.Sel),
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225 | SSMFIELD_ENTRY( CPUMCTX, ds.ValidSel),
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226 | SSMFIELD_ENTRY( CPUMCTX, ds.fFlags),
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227 | SSMFIELD_ENTRY( CPUMCTX, ds.u64Base),
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228 | SSMFIELD_ENTRY( CPUMCTX, ds.u32Limit),
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229 | SSMFIELD_ENTRY( CPUMCTX, ds.Attr),
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230 | SSMFIELD_ENTRY( CPUMCTX, fs.Sel),
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231 | SSMFIELD_ENTRY( CPUMCTX, fs.ValidSel),
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232 | SSMFIELD_ENTRY( CPUMCTX, fs.fFlags),
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233 | SSMFIELD_ENTRY( CPUMCTX, fs.u64Base),
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234 | SSMFIELD_ENTRY( CPUMCTX, fs.u32Limit),
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235 | SSMFIELD_ENTRY( CPUMCTX, fs.Attr),
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236 | SSMFIELD_ENTRY( CPUMCTX, gs.Sel),
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237 | SSMFIELD_ENTRY( CPUMCTX, gs.ValidSel),
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238 | SSMFIELD_ENTRY( CPUMCTX, gs.fFlags),
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239 | SSMFIELD_ENTRY( CPUMCTX, gs.u64Base),
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240 | SSMFIELD_ENTRY( CPUMCTX, gs.u32Limit),
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241 | SSMFIELD_ENTRY( CPUMCTX, gs.Attr),
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242 | SSMFIELD_ENTRY( CPUMCTX, cr0),
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243 | SSMFIELD_ENTRY( CPUMCTX, cr2),
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244 | SSMFIELD_ENTRY( CPUMCTX, cr3),
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245 | SSMFIELD_ENTRY( CPUMCTX, cr4),
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246 | SSMFIELD_ENTRY( CPUMCTX, dr[0]),
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247 | SSMFIELD_ENTRY( CPUMCTX, dr[1]),
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248 | SSMFIELD_ENTRY( CPUMCTX, dr[2]),
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249 | SSMFIELD_ENTRY( CPUMCTX, dr[3]),
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250 | SSMFIELD_ENTRY( CPUMCTX, dr[6]),
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251 | SSMFIELD_ENTRY( CPUMCTX, dr[7]),
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252 | SSMFIELD_ENTRY( CPUMCTX, gdtr.cbGdt),
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253 | SSMFIELD_ENTRY( CPUMCTX, gdtr.pGdt),
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254 | SSMFIELD_ENTRY( CPUMCTX, idtr.cbIdt),
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255 | SSMFIELD_ENTRY( CPUMCTX, idtr.pIdt),
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256 | SSMFIELD_ENTRY( CPUMCTX, SysEnter.cs),
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257 | SSMFIELD_ENTRY( CPUMCTX, SysEnter.eip),
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258 | SSMFIELD_ENTRY( CPUMCTX, SysEnter.esp),
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259 | SSMFIELD_ENTRY( CPUMCTX, msrEFER),
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260 | SSMFIELD_ENTRY( CPUMCTX, msrSTAR),
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261 | SSMFIELD_ENTRY( CPUMCTX, msrPAT),
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262 | SSMFIELD_ENTRY( CPUMCTX, msrLSTAR),
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263 | SSMFIELD_ENTRY( CPUMCTX, msrCSTAR),
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264 | SSMFIELD_ENTRY( CPUMCTX, msrSFMASK),
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265 | SSMFIELD_ENTRY( CPUMCTX, msrKERNELGSBASE),
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266 | SSMFIELD_ENTRY( CPUMCTX, ldtr.Sel),
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267 | SSMFIELD_ENTRY( CPUMCTX, ldtr.ValidSel),
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268 | SSMFIELD_ENTRY( CPUMCTX, ldtr.fFlags),
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269 | SSMFIELD_ENTRY( CPUMCTX, ldtr.u64Base),
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270 | SSMFIELD_ENTRY( CPUMCTX, ldtr.u32Limit),
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271 | SSMFIELD_ENTRY( CPUMCTX, ldtr.Attr),
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272 | SSMFIELD_ENTRY( CPUMCTX, tr.Sel),
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273 | SSMFIELD_ENTRY( CPUMCTX, tr.ValidSel),
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274 | SSMFIELD_ENTRY( CPUMCTX, tr.fFlags),
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275 | SSMFIELD_ENTRY( CPUMCTX, tr.u64Base),
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276 | SSMFIELD_ENTRY( CPUMCTX, tr.u32Limit),
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277 | SSMFIELD_ENTRY( CPUMCTX, tr.Attr),
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278 | SSMFIELD_ENTRY_VER( CPUMCTX, aXcr[0], CPUM_SAVED_STATE_VERSION_XSAVE),
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279 | SSMFIELD_ENTRY_VER( CPUMCTX, aXcr[1], CPUM_SAVED_STATE_VERSION_XSAVE),
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280 | SSMFIELD_ENTRY_VER( CPUMCTX, fXStateMask, CPUM_SAVED_STATE_VERSION_XSAVE),
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281 | SSMFIELD_ENTRY_TERM()
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282 | };
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283 |
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284 | /** Saved state field descriptors for SVM nested hardware-virtualization
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285 | * Host State. */
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286 | static const SSMFIELD g_aSvmHwvirtHostState[] =
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287 | {
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288 | SSMFIELD_ENTRY( SVMHOSTSTATE, uEferMsr),
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289 | SSMFIELD_ENTRY( SVMHOSTSTATE, uCr0),
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290 | SSMFIELD_ENTRY( SVMHOSTSTATE, uCr4),
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291 | SSMFIELD_ENTRY( SVMHOSTSTATE, uCr3),
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292 | SSMFIELD_ENTRY( SVMHOSTSTATE, uRip),
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293 | SSMFIELD_ENTRY( SVMHOSTSTATE, uRsp),
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294 | SSMFIELD_ENTRY( SVMHOSTSTATE, uRax),
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295 | SSMFIELD_ENTRY( SVMHOSTSTATE, rflags),
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296 | SSMFIELD_ENTRY( SVMHOSTSTATE, es.Sel),
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297 | SSMFIELD_ENTRY( SVMHOSTSTATE, es.ValidSel),
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298 | SSMFIELD_ENTRY( SVMHOSTSTATE, es.fFlags),
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299 | SSMFIELD_ENTRY( SVMHOSTSTATE, es.u64Base),
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300 | SSMFIELD_ENTRY( SVMHOSTSTATE, es.u32Limit),
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301 | SSMFIELD_ENTRY( SVMHOSTSTATE, es.Attr),
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302 | SSMFIELD_ENTRY( SVMHOSTSTATE, cs.Sel),
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303 | SSMFIELD_ENTRY( SVMHOSTSTATE, cs.ValidSel),
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304 | SSMFIELD_ENTRY( SVMHOSTSTATE, cs.fFlags),
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305 | SSMFIELD_ENTRY( SVMHOSTSTATE, cs.u64Base),
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306 | SSMFIELD_ENTRY( SVMHOSTSTATE, cs.u32Limit),
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307 | SSMFIELD_ENTRY( SVMHOSTSTATE, cs.Attr),
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308 | SSMFIELD_ENTRY( SVMHOSTSTATE, ss.Sel),
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309 | SSMFIELD_ENTRY( SVMHOSTSTATE, ss.ValidSel),
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310 | SSMFIELD_ENTRY( SVMHOSTSTATE, ss.fFlags),
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311 | SSMFIELD_ENTRY( SVMHOSTSTATE, ss.u64Base),
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312 | SSMFIELD_ENTRY( SVMHOSTSTATE, ss.u32Limit),
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313 | SSMFIELD_ENTRY( SVMHOSTSTATE, ss.Attr),
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314 | SSMFIELD_ENTRY( SVMHOSTSTATE, ds.Sel),
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315 | SSMFIELD_ENTRY( SVMHOSTSTATE, ds.ValidSel),
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316 | SSMFIELD_ENTRY( SVMHOSTSTATE, ds.fFlags),
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317 | SSMFIELD_ENTRY( SVMHOSTSTATE, ds.u64Base),
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318 | SSMFIELD_ENTRY( SVMHOSTSTATE, ds.u32Limit),
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319 | SSMFIELD_ENTRY( SVMHOSTSTATE, ds.Attr),
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320 | SSMFIELD_ENTRY( SVMHOSTSTATE, gdtr.cbGdt),
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321 | SSMFIELD_ENTRY( SVMHOSTSTATE, gdtr.pGdt),
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322 | SSMFIELD_ENTRY( SVMHOSTSTATE, idtr.cbIdt),
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323 | SSMFIELD_ENTRY( SVMHOSTSTATE, idtr.pIdt),
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324 | SSMFIELD_ENTRY_IGNORE(SVMHOSTSTATE, abPadding),
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325 | SSMFIELD_ENTRY_TERM()
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326 | };
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327 |
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328 | /** Saved state field descriptors for CPUMCTX. */
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329 | static const SSMFIELD g_aCpumX87Fields[] =
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330 | {
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331 | SSMFIELD_ENTRY( X86FXSTATE, FCW),
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332 | SSMFIELD_ENTRY( X86FXSTATE, FSW),
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333 | SSMFIELD_ENTRY( X86FXSTATE, FTW),
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334 | SSMFIELD_ENTRY( X86FXSTATE, FOP),
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335 | SSMFIELD_ENTRY( X86FXSTATE, FPUIP),
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336 | SSMFIELD_ENTRY( X86FXSTATE, CS),
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337 | SSMFIELD_ENTRY( X86FXSTATE, Rsrvd1),
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338 | SSMFIELD_ENTRY( X86FXSTATE, FPUDP),
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339 | SSMFIELD_ENTRY( X86FXSTATE, DS),
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340 | SSMFIELD_ENTRY( X86FXSTATE, Rsrvd2),
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341 | SSMFIELD_ENTRY( X86FXSTATE, MXCSR),
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342 | SSMFIELD_ENTRY( X86FXSTATE, MXCSR_MASK),
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343 | SSMFIELD_ENTRY( X86FXSTATE, aRegs[0]),
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344 | SSMFIELD_ENTRY( X86FXSTATE, aRegs[1]),
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345 | SSMFIELD_ENTRY( X86FXSTATE, aRegs[2]),
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346 | SSMFIELD_ENTRY( X86FXSTATE, aRegs[3]),
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347 | SSMFIELD_ENTRY( X86FXSTATE, aRegs[4]),
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348 | SSMFIELD_ENTRY( X86FXSTATE, aRegs[5]),
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349 | SSMFIELD_ENTRY( X86FXSTATE, aRegs[6]),
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350 | SSMFIELD_ENTRY( X86FXSTATE, aRegs[7]),
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351 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[0]),
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352 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[1]),
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353 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[2]),
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354 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[3]),
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355 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[4]),
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356 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[5]),
|
---|
357 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[6]),
|
---|
358 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[7]),
|
---|
359 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[8]),
|
---|
360 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[9]),
|
---|
361 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[10]),
|
---|
362 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[11]),
|
---|
363 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[12]),
|
---|
364 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[13]),
|
---|
365 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[14]),
|
---|
366 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[15]),
|
---|
367 | SSMFIELD_ENTRY_VER( X86FXSTATE, au32RsrvdForSoftware[0], CPUM_SAVED_STATE_VERSION_XSAVE), /* 32-bit/64-bit hack */
|
---|
368 | SSMFIELD_ENTRY_TERM()
|
---|
369 | };
|
---|
370 |
|
---|
371 | /** Saved state field descriptors for X86XSAVEHDR. */
|
---|
372 | static const SSMFIELD g_aCpumXSaveHdrFields[] =
|
---|
373 | {
|
---|
374 | SSMFIELD_ENTRY( X86XSAVEHDR, bmXState),
|
---|
375 | SSMFIELD_ENTRY_TERM()
|
---|
376 | };
|
---|
377 |
|
---|
378 | /** Saved state field descriptors for X86XSAVEYMMHI. */
|
---|
379 | static const SSMFIELD g_aCpumYmmHiFields[] =
|
---|
380 | {
|
---|
381 | SSMFIELD_ENTRY( X86XSAVEYMMHI, aYmmHi[0]),
|
---|
382 | SSMFIELD_ENTRY( X86XSAVEYMMHI, aYmmHi[1]),
|
---|
383 | SSMFIELD_ENTRY( X86XSAVEYMMHI, aYmmHi[2]),
|
---|
384 | SSMFIELD_ENTRY( X86XSAVEYMMHI, aYmmHi[3]),
|
---|
385 | SSMFIELD_ENTRY( X86XSAVEYMMHI, aYmmHi[4]),
|
---|
386 | SSMFIELD_ENTRY( X86XSAVEYMMHI, aYmmHi[5]),
|
---|
387 | SSMFIELD_ENTRY( X86XSAVEYMMHI, aYmmHi[6]),
|
---|
388 | SSMFIELD_ENTRY( X86XSAVEYMMHI, aYmmHi[7]),
|
---|
389 | SSMFIELD_ENTRY( X86XSAVEYMMHI, aYmmHi[8]),
|
---|
390 | SSMFIELD_ENTRY( X86XSAVEYMMHI, aYmmHi[9]),
|
---|
391 | SSMFIELD_ENTRY( X86XSAVEYMMHI, aYmmHi[10]),
|
---|
392 | SSMFIELD_ENTRY( X86XSAVEYMMHI, aYmmHi[11]),
|
---|
393 | SSMFIELD_ENTRY( X86XSAVEYMMHI, aYmmHi[12]),
|
---|
394 | SSMFIELD_ENTRY( X86XSAVEYMMHI, aYmmHi[13]),
|
---|
395 | SSMFIELD_ENTRY( X86XSAVEYMMHI, aYmmHi[14]),
|
---|
396 | SSMFIELD_ENTRY( X86XSAVEYMMHI, aYmmHi[15]),
|
---|
397 | SSMFIELD_ENTRY_TERM()
|
---|
398 | };
|
---|
399 |
|
---|
400 | /** Saved state field descriptors for X86XSAVEBNDREGS. */
|
---|
401 | static const SSMFIELD g_aCpumBndRegsFields[] =
|
---|
402 | {
|
---|
403 | SSMFIELD_ENTRY( X86XSAVEBNDREGS, aRegs[0]),
|
---|
404 | SSMFIELD_ENTRY( X86XSAVEBNDREGS, aRegs[1]),
|
---|
405 | SSMFIELD_ENTRY( X86XSAVEBNDREGS, aRegs[2]),
|
---|
406 | SSMFIELD_ENTRY( X86XSAVEBNDREGS, aRegs[3]),
|
---|
407 | SSMFIELD_ENTRY_TERM()
|
---|
408 | };
|
---|
409 |
|
---|
410 | /** Saved state field descriptors for X86XSAVEBNDCFG. */
|
---|
411 | static const SSMFIELD g_aCpumBndCfgFields[] =
|
---|
412 | {
|
---|
413 | SSMFIELD_ENTRY( X86XSAVEBNDCFG, fConfig),
|
---|
414 | SSMFIELD_ENTRY( X86XSAVEBNDCFG, fStatus),
|
---|
415 | SSMFIELD_ENTRY_TERM()
|
---|
416 | };
|
---|
417 |
|
---|
418 | #if 0 /** @todo */
|
---|
419 | /** Saved state field descriptors for X86XSAVEOPMASK. */
|
---|
420 | static const SSMFIELD g_aCpumOpmaskFields[] =
|
---|
421 | {
|
---|
422 | SSMFIELD_ENTRY( X86XSAVEOPMASK, aKRegs[0]),
|
---|
423 | SSMFIELD_ENTRY( X86XSAVEOPMASK, aKRegs[1]),
|
---|
424 | SSMFIELD_ENTRY( X86XSAVEOPMASK, aKRegs[2]),
|
---|
425 | SSMFIELD_ENTRY( X86XSAVEOPMASK, aKRegs[3]),
|
---|
426 | SSMFIELD_ENTRY( X86XSAVEOPMASK, aKRegs[4]),
|
---|
427 | SSMFIELD_ENTRY( X86XSAVEOPMASK, aKRegs[5]),
|
---|
428 | SSMFIELD_ENTRY( X86XSAVEOPMASK, aKRegs[6]),
|
---|
429 | SSMFIELD_ENTRY( X86XSAVEOPMASK, aKRegs[7]),
|
---|
430 | SSMFIELD_ENTRY_TERM()
|
---|
431 | };
|
---|
432 | #endif
|
---|
433 |
|
---|
434 | /** Saved state field descriptors for X86XSAVEZMMHI256. */
|
---|
435 | static const SSMFIELD g_aCpumZmmHi256Fields[] =
|
---|
436 | {
|
---|
437 | SSMFIELD_ENTRY( X86XSAVEZMMHI256, aHi256Regs[0]),
|
---|
438 | SSMFIELD_ENTRY( X86XSAVEZMMHI256, aHi256Regs[1]),
|
---|
439 | SSMFIELD_ENTRY( X86XSAVEZMMHI256, aHi256Regs[2]),
|
---|
440 | SSMFIELD_ENTRY( X86XSAVEZMMHI256, aHi256Regs[3]),
|
---|
441 | SSMFIELD_ENTRY( X86XSAVEZMMHI256, aHi256Regs[4]),
|
---|
442 | SSMFIELD_ENTRY( X86XSAVEZMMHI256, aHi256Regs[5]),
|
---|
443 | SSMFIELD_ENTRY( X86XSAVEZMMHI256, aHi256Regs[6]),
|
---|
444 | SSMFIELD_ENTRY( X86XSAVEZMMHI256, aHi256Regs[7]),
|
---|
445 | SSMFIELD_ENTRY( X86XSAVEZMMHI256, aHi256Regs[8]),
|
---|
446 | SSMFIELD_ENTRY( X86XSAVEZMMHI256, aHi256Regs[9]),
|
---|
447 | SSMFIELD_ENTRY( X86XSAVEZMMHI256, aHi256Regs[10]),
|
---|
448 | SSMFIELD_ENTRY( X86XSAVEZMMHI256, aHi256Regs[11]),
|
---|
449 | SSMFIELD_ENTRY( X86XSAVEZMMHI256, aHi256Regs[12]),
|
---|
450 | SSMFIELD_ENTRY( X86XSAVEZMMHI256, aHi256Regs[13]),
|
---|
451 | SSMFIELD_ENTRY( X86XSAVEZMMHI256, aHi256Regs[14]),
|
---|
452 | SSMFIELD_ENTRY( X86XSAVEZMMHI256, aHi256Regs[15]),
|
---|
453 | SSMFIELD_ENTRY_TERM()
|
---|
454 | };
|
---|
455 |
|
---|
456 | /** Saved state field descriptors for X86XSAVEZMM16HI. */
|
---|
457 | static const SSMFIELD g_aCpumZmm16HiFields[] =
|
---|
458 | {
|
---|
459 | SSMFIELD_ENTRY( X86XSAVEZMM16HI, aRegs[0]),
|
---|
460 | SSMFIELD_ENTRY( X86XSAVEZMM16HI, aRegs[1]),
|
---|
461 | SSMFIELD_ENTRY( X86XSAVEZMM16HI, aRegs[2]),
|
---|
462 | SSMFIELD_ENTRY( X86XSAVEZMM16HI, aRegs[3]),
|
---|
463 | SSMFIELD_ENTRY( X86XSAVEZMM16HI, aRegs[4]),
|
---|
464 | SSMFIELD_ENTRY( X86XSAVEZMM16HI, aRegs[5]),
|
---|
465 | SSMFIELD_ENTRY( X86XSAVEZMM16HI, aRegs[6]),
|
---|
466 | SSMFIELD_ENTRY( X86XSAVEZMM16HI, aRegs[7]),
|
---|
467 | SSMFIELD_ENTRY( X86XSAVEZMM16HI, aRegs[8]),
|
---|
468 | SSMFIELD_ENTRY( X86XSAVEZMM16HI, aRegs[9]),
|
---|
469 | SSMFIELD_ENTRY( X86XSAVEZMM16HI, aRegs[10]),
|
---|
470 | SSMFIELD_ENTRY( X86XSAVEZMM16HI, aRegs[11]),
|
---|
471 | SSMFIELD_ENTRY( X86XSAVEZMM16HI, aRegs[12]),
|
---|
472 | SSMFIELD_ENTRY( X86XSAVEZMM16HI, aRegs[13]),
|
---|
473 | SSMFIELD_ENTRY( X86XSAVEZMM16HI, aRegs[14]),
|
---|
474 | SSMFIELD_ENTRY( X86XSAVEZMM16HI, aRegs[15]),
|
---|
475 | SSMFIELD_ENTRY_TERM()
|
---|
476 | };
|
---|
477 |
|
---|
478 |
|
---|
479 |
|
---|
480 | /** Saved state field descriptors for CPUMCTX in V4.1 before the hidden selector
|
---|
481 | * registeres changed. */
|
---|
482 | static const SSMFIELD g_aCpumX87FieldsMem[] =
|
---|
483 | {
|
---|
484 | SSMFIELD_ENTRY( X86FXSTATE, FCW),
|
---|
485 | SSMFIELD_ENTRY( X86FXSTATE, FSW),
|
---|
486 | SSMFIELD_ENTRY( X86FXSTATE, FTW),
|
---|
487 | SSMFIELD_ENTRY( X86FXSTATE, FOP),
|
---|
488 | SSMFIELD_ENTRY( X86FXSTATE, FPUIP),
|
---|
489 | SSMFIELD_ENTRY( X86FXSTATE, CS),
|
---|
490 | SSMFIELD_ENTRY( X86FXSTATE, Rsrvd1),
|
---|
491 | SSMFIELD_ENTRY( X86FXSTATE, FPUDP),
|
---|
492 | SSMFIELD_ENTRY( X86FXSTATE, DS),
|
---|
493 | SSMFIELD_ENTRY( X86FXSTATE, Rsrvd2),
|
---|
494 | SSMFIELD_ENTRY( X86FXSTATE, MXCSR),
|
---|
495 | SSMFIELD_ENTRY( X86FXSTATE, MXCSR_MASK),
|
---|
496 | SSMFIELD_ENTRY( X86FXSTATE, aRegs[0]),
|
---|
497 | SSMFIELD_ENTRY( X86FXSTATE, aRegs[1]),
|
---|
498 | SSMFIELD_ENTRY( X86FXSTATE, aRegs[2]),
|
---|
499 | SSMFIELD_ENTRY( X86FXSTATE, aRegs[3]),
|
---|
500 | SSMFIELD_ENTRY( X86FXSTATE, aRegs[4]),
|
---|
501 | SSMFIELD_ENTRY( X86FXSTATE, aRegs[5]),
|
---|
502 | SSMFIELD_ENTRY( X86FXSTATE, aRegs[6]),
|
---|
503 | SSMFIELD_ENTRY( X86FXSTATE, aRegs[7]),
|
---|
504 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[0]),
|
---|
505 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[1]),
|
---|
506 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[2]),
|
---|
507 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[3]),
|
---|
508 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[4]),
|
---|
509 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[5]),
|
---|
510 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[6]),
|
---|
511 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[7]),
|
---|
512 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[8]),
|
---|
513 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[9]),
|
---|
514 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[10]),
|
---|
515 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[11]),
|
---|
516 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[12]),
|
---|
517 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[13]),
|
---|
518 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[14]),
|
---|
519 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[15]),
|
---|
520 | SSMFIELD_ENTRY_IGNORE( X86FXSTATE, au32RsrvdRest),
|
---|
521 | SSMFIELD_ENTRY_IGNORE( X86FXSTATE, au32RsrvdForSoftware),
|
---|
522 | };
|
---|
523 |
|
---|
524 | /** Saved state field descriptors for CPUMCTX in V4.1 before the hidden selector
|
---|
525 | * registeres changed. */
|
---|
526 | static const SSMFIELD g_aCpumCtxFieldsMem[] =
|
---|
527 | {
|
---|
528 | SSMFIELD_ENTRY( CPUMCTX, rdi),
|
---|
529 | SSMFIELD_ENTRY( CPUMCTX, rsi),
|
---|
530 | SSMFIELD_ENTRY( CPUMCTX, rbp),
|
---|
531 | SSMFIELD_ENTRY( CPUMCTX, rax),
|
---|
532 | SSMFIELD_ENTRY( CPUMCTX, rbx),
|
---|
533 | SSMFIELD_ENTRY( CPUMCTX, rdx),
|
---|
534 | SSMFIELD_ENTRY( CPUMCTX, rcx),
|
---|
535 | SSMFIELD_ENTRY( CPUMCTX, rsp),
|
---|
536 | SSMFIELD_ENTRY_OLD( lss_esp, sizeof(uint32_t)),
|
---|
537 | SSMFIELD_ENTRY( CPUMCTX, ss.Sel),
|
---|
538 | SSMFIELD_ENTRY_OLD( ssPadding, sizeof(uint16_t)),
|
---|
539 | SSMFIELD_ENTRY( CPUMCTX, gs.Sel),
|
---|
540 | SSMFIELD_ENTRY_OLD( gsPadding, sizeof(uint16_t)),
|
---|
541 | SSMFIELD_ENTRY( CPUMCTX, fs.Sel),
|
---|
542 | SSMFIELD_ENTRY_OLD( fsPadding, sizeof(uint16_t)),
|
---|
543 | SSMFIELD_ENTRY( CPUMCTX, es.Sel),
|
---|
544 | SSMFIELD_ENTRY_OLD( esPadding, sizeof(uint16_t)),
|
---|
545 | SSMFIELD_ENTRY( CPUMCTX, ds.Sel),
|
---|
546 | SSMFIELD_ENTRY_OLD( dsPadding, sizeof(uint16_t)),
|
---|
547 | SSMFIELD_ENTRY( CPUMCTX, cs.Sel),
|
---|
548 | SSMFIELD_ENTRY_OLD( csPadding, sizeof(uint16_t)*3),
|
---|
549 | SSMFIELD_ENTRY( CPUMCTX, rflags),
|
---|
550 | SSMFIELD_ENTRY( CPUMCTX, rip),
|
---|
551 | SSMFIELD_ENTRY( CPUMCTX, r8),
|
---|
552 | SSMFIELD_ENTRY( CPUMCTX, r9),
|
---|
553 | SSMFIELD_ENTRY( CPUMCTX, r10),
|
---|
554 | SSMFIELD_ENTRY( CPUMCTX, r11),
|
---|
555 | SSMFIELD_ENTRY( CPUMCTX, r12),
|
---|
556 | SSMFIELD_ENTRY( CPUMCTX, r13),
|
---|
557 | SSMFIELD_ENTRY( CPUMCTX, r14),
|
---|
558 | SSMFIELD_ENTRY( CPUMCTX, r15),
|
---|
559 | SSMFIELD_ENTRY( CPUMCTX, es.u64Base),
|
---|
560 | SSMFIELD_ENTRY( CPUMCTX, es.u32Limit),
|
---|
561 | SSMFIELD_ENTRY( CPUMCTX, es.Attr),
|
---|
562 | SSMFIELD_ENTRY( CPUMCTX, cs.u64Base),
|
---|
563 | SSMFIELD_ENTRY( CPUMCTX, cs.u32Limit),
|
---|
564 | SSMFIELD_ENTRY( CPUMCTX, cs.Attr),
|
---|
565 | SSMFIELD_ENTRY( CPUMCTX, ss.u64Base),
|
---|
566 | SSMFIELD_ENTRY( CPUMCTX, ss.u32Limit),
|
---|
567 | SSMFIELD_ENTRY( CPUMCTX, ss.Attr),
|
---|
568 | SSMFIELD_ENTRY( CPUMCTX, ds.u64Base),
|
---|
569 | SSMFIELD_ENTRY( CPUMCTX, ds.u32Limit),
|
---|
570 | SSMFIELD_ENTRY( CPUMCTX, ds.Attr),
|
---|
571 | SSMFIELD_ENTRY( CPUMCTX, fs.u64Base),
|
---|
572 | SSMFIELD_ENTRY( CPUMCTX, fs.u32Limit),
|
---|
573 | SSMFIELD_ENTRY( CPUMCTX, fs.Attr),
|
---|
574 | SSMFIELD_ENTRY( CPUMCTX, gs.u64Base),
|
---|
575 | SSMFIELD_ENTRY( CPUMCTX, gs.u32Limit),
|
---|
576 | SSMFIELD_ENTRY( CPUMCTX, gs.Attr),
|
---|
577 | SSMFIELD_ENTRY( CPUMCTX, cr0),
|
---|
578 | SSMFIELD_ENTRY( CPUMCTX, cr2),
|
---|
579 | SSMFIELD_ENTRY( CPUMCTX, cr3),
|
---|
580 | SSMFIELD_ENTRY( CPUMCTX, cr4),
|
---|
581 | SSMFIELD_ENTRY( CPUMCTX, dr[0]),
|
---|
582 | SSMFIELD_ENTRY( CPUMCTX, dr[1]),
|
---|
583 | SSMFIELD_ENTRY( CPUMCTX, dr[2]),
|
---|
584 | SSMFIELD_ENTRY( CPUMCTX, dr[3]),
|
---|
585 | SSMFIELD_ENTRY_OLD( dr[4], sizeof(uint64_t)),
|
---|
586 | SSMFIELD_ENTRY_OLD( dr[5], sizeof(uint64_t)),
|
---|
587 | SSMFIELD_ENTRY( CPUMCTX, dr[6]),
|
---|
588 | SSMFIELD_ENTRY( CPUMCTX, dr[7]),
|
---|
589 | SSMFIELD_ENTRY( CPUMCTX, gdtr.cbGdt),
|
---|
590 | SSMFIELD_ENTRY( CPUMCTX, gdtr.pGdt),
|
---|
591 | SSMFIELD_ENTRY_OLD( gdtrPadding, sizeof(uint16_t)),
|
---|
592 | SSMFIELD_ENTRY( CPUMCTX, idtr.cbIdt),
|
---|
593 | SSMFIELD_ENTRY( CPUMCTX, idtr.pIdt),
|
---|
594 | SSMFIELD_ENTRY_OLD( idtrPadding, sizeof(uint16_t)),
|
---|
595 | SSMFIELD_ENTRY( CPUMCTX, ldtr.Sel),
|
---|
596 | SSMFIELD_ENTRY_OLD( ldtrPadding, sizeof(uint16_t)),
|
---|
597 | SSMFIELD_ENTRY( CPUMCTX, tr.Sel),
|
---|
598 | SSMFIELD_ENTRY_OLD( trPadding, sizeof(uint16_t)),
|
---|
599 | SSMFIELD_ENTRY( CPUMCTX, SysEnter.cs),
|
---|
600 | SSMFIELD_ENTRY( CPUMCTX, SysEnter.eip),
|
---|
601 | SSMFIELD_ENTRY( CPUMCTX, SysEnter.esp),
|
---|
602 | SSMFIELD_ENTRY( CPUMCTX, msrEFER),
|
---|
603 | SSMFIELD_ENTRY( CPUMCTX, msrSTAR),
|
---|
604 | SSMFIELD_ENTRY( CPUMCTX, msrPAT),
|
---|
605 | SSMFIELD_ENTRY( CPUMCTX, msrLSTAR),
|
---|
606 | SSMFIELD_ENTRY( CPUMCTX, msrCSTAR),
|
---|
607 | SSMFIELD_ENTRY( CPUMCTX, msrSFMASK),
|
---|
608 | SSMFIELD_ENTRY( CPUMCTX, msrKERNELGSBASE),
|
---|
609 | SSMFIELD_ENTRY( CPUMCTX, ldtr.u64Base),
|
---|
610 | SSMFIELD_ENTRY( CPUMCTX, ldtr.u32Limit),
|
---|
611 | SSMFIELD_ENTRY( CPUMCTX, ldtr.Attr),
|
---|
612 | SSMFIELD_ENTRY( CPUMCTX, tr.u64Base),
|
---|
613 | SSMFIELD_ENTRY( CPUMCTX, tr.u32Limit),
|
---|
614 | SSMFIELD_ENTRY( CPUMCTX, tr.Attr),
|
---|
615 | SSMFIELD_ENTRY_TERM()
|
---|
616 | };
|
---|
617 |
|
---|
618 | /** Saved state field descriptors for CPUMCTX_VER1_6. */
|
---|
619 | static const SSMFIELD g_aCpumX87FieldsV16[] =
|
---|
620 | {
|
---|
621 | SSMFIELD_ENTRY( X86FXSTATE, FCW),
|
---|
622 | SSMFIELD_ENTRY( X86FXSTATE, FSW),
|
---|
623 | SSMFIELD_ENTRY( X86FXSTATE, FTW),
|
---|
624 | SSMFIELD_ENTRY( X86FXSTATE, FOP),
|
---|
625 | SSMFIELD_ENTRY( X86FXSTATE, FPUIP),
|
---|
626 | SSMFIELD_ENTRY( X86FXSTATE, CS),
|
---|
627 | SSMFIELD_ENTRY( X86FXSTATE, Rsrvd1),
|
---|
628 | SSMFIELD_ENTRY( X86FXSTATE, FPUDP),
|
---|
629 | SSMFIELD_ENTRY( X86FXSTATE, DS),
|
---|
630 | SSMFIELD_ENTRY( X86FXSTATE, Rsrvd2),
|
---|
631 | SSMFIELD_ENTRY( X86FXSTATE, MXCSR),
|
---|
632 | SSMFIELD_ENTRY( X86FXSTATE, MXCSR_MASK),
|
---|
633 | SSMFIELD_ENTRY( X86FXSTATE, aRegs[0]),
|
---|
634 | SSMFIELD_ENTRY( X86FXSTATE, aRegs[1]),
|
---|
635 | SSMFIELD_ENTRY( X86FXSTATE, aRegs[2]),
|
---|
636 | SSMFIELD_ENTRY( X86FXSTATE, aRegs[3]),
|
---|
637 | SSMFIELD_ENTRY( X86FXSTATE, aRegs[4]),
|
---|
638 | SSMFIELD_ENTRY( X86FXSTATE, aRegs[5]),
|
---|
639 | SSMFIELD_ENTRY( X86FXSTATE, aRegs[6]),
|
---|
640 | SSMFIELD_ENTRY( X86FXSTATE, aRegs[7]),
|
---|
641 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[0]),
|
---|
642 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[1]),
|
---|
643 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[2]),
|
---|
644 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[3]),
|
---|
645 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[4]),
|
---|
646 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[5]),
|
---|
647 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[6]),
|
---|
648 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[7]),
|
---|
649 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[8]),
|
---|
650 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[9]),
|
---|
651 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[10]),
|
---|
652 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[11]),
|
---|
653 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[12]),
|
---|
654 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[13]),
|
---|
655 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[14]),
|
---|
656 | SSMFIELD_ENTRY( X86FXSTATE, aXMM[15]),
|
---|
657 | SSMFIELD_ENTRY_IGNORE( X86FXSTATE, au32RsrvdRest),
|
---|
658 | SSMFIELD_ENTRY_IGNORE( X86FXSTATE, au32RsrvdForSoftware),
|
---|
659 | SSMFIELD_ENTRY_TERM()
|
---|
660 | };
|
---|
661 |
|
---|
662 | /** Saved state field descriptors for CPUMCTX_VER1_6. */
|
---|
663 | static const SSMFIELD g_aCpumCtxFieldsV16[] =
|
---|
664 | {
|
---|
665 | SSMFIELD_ENTRY( CPUMCTX, rdi),
|
---|
666 | SSMFIELD_ENTRY( CPUMCTX, rsi),
|
---|
667 | SSMFIELD_ENTRY( CPUMCTX, rbp),
|
---|
668 | SSMFIELD_ENTRY( CPUMCTX, rax),
|
---|
669 | SSMFIELD_ENTRY( CPUMCTX, rbx),
|
---|
670 | SSMFIELD_ENTRY( CPUMCTX, rdx),
|
---|
671 | SSMFIELD_ENTRY( CPUMCTX, rcx),
|
---|
672 | SSMFIELD_ENTRY_U32_ZX_U64( CPUMCTX, rsp),
|
---|
673 | SSMFIELD_ENTRY( CPUMCTX, ss.Sel),
|
---|
674 | SSMFIELD_ENTRY_OLD( ssPadding, sizeof(uint16_t)),
|
---|
675 | SSMFIELD_ENTRY_OLD( CPUMCTX, sizeof(uint64_t) /*rsp_notused*/),
|
---|
676 | SSMFIELD_ENTRY( CPUMCTX, gs.Sel),
|
---|
677 | SSMFIELD_ENTRY_OLD( gsPadding, sizeof(uint16_t)),
|
---|
678 | SSMFIELD_ENTRY( CPUMCTX, fs.Sel),
|
---|
679 | SSMFIELD_ENTRY_OLD( fsPadding, sizeof(uint16_t)),
|
---|
680 | SSMFIELD_ENTRY( CPUMCTX, es.Sel),
|
---|
681 | SSMFIELD_ENTRY_OLD( esPadding, sizeof(uint16_t)),
|
---|
682 | SSMFIELD_ENTRY( CPUMCTX, ds.Sel),
|
---|
683 | SSMFIELD_ENTRY_OLD( dsPadding, sizeof(uint16_t)),
|
---|
684 | SSMFIELD_ENTRY( CPUMCTX, cs.Sel),
|
---|
685 | SSMFIELD_ENTRY_OLD( csPadding, sizeof(uint16_t)*3),
|
---|
686 | SSMFIELD_ENTRY( CPUMCTX, rflags),
|
---|
687 | SSMFIELD_ENTRY( CPUMCTX, rip),
|
---|
688 | SSMFIELD_ENTRY( CPUMCTX, r8),
|
---|
689 | SSMFIELD_ENTRY( CPUMCTX, r9),
|
---|
690 | SSMFIELD_ENTRY( CPUMCTX, r10),
|
---|
691 | SSMFIELD_ENTRY( CPUMCTX, r11),
|
---|
692 | SSMFIELD_ENTRY( CPUMCTX, r12),
|
---|
693 | SSMFIELD_ENTRY( CPUMCTX, r13),
|
---|
694 | SSMFIELD_ENTRY( CPUMCTX, r14),
|
---|
695 | SSMFIELD_ENTRY( CPUMCTX, r15),
|
---|
696 | SSMFIELD_ENTRY_U32_ZX_U64( CPUMCTX, es.u64Base),
|
---|
697 | SSMFIELD_ENTRY( CPUMCTX, es.u32Limit),
|
---|
698 | SSMFIELD_ENTRY( CPUMCTX, es.Attr),
|
---|
699 | SSMFIELD_ENTRY_U32_ZX_U64( CPUMCTX, cs.u64Base),
|
---|
700 | SSMFIELD_ENTRY( CPUMCTX, cs.u32Limit),
|
---|
701 | SSMFIELD_ENTRY( CPUMCTX, cs.Attr),
|
---|
702 | SSMFIELD_ENTRY_U32_ZX_U64( CPUMCTX, ss.u64Base),
|
---|
703 | SSMFIELD_ENTRY( CPUMCTX, ss.u32Limit),
|
---|
704 | SSMFIELD_ENTRY( CPUMCTX, ss.Attr),
|
---|
705 | SSMFIELD_ENTRY_U32_ZX_U64( CPUMCTX, ds.u64Base),
|
---|
706 | SSMFIELD_ENTRY( CPUMCTX, ds.u32Limit),
|
---|
707 | SSMFIELD_ENTRY( CPUMCTX, ds.Attr),
|
---|
708 | SSMFIELD_ENTRY_U32_ZX_U64( CPUMCTX, fs.u64Base),
|
---|
709 | SSMFIELD_ENTRY( CPUMCTX, fs.u32Limit),
|
---|
710 | SSMFIELD_ENTRY( CPUMCTX, fs.Attr),
|
---|
711 | SSMFIELD_ENTRY_U32_ZX_U64( CPUMCTX, gs.u64Base),
|
---|
712 | SSMFIELD_ENTRY( CPUMCTX, gs.u32Limit),
|
---|
713 | SSMFIELD_ENTRY( CPUMCTX, gs.Attr),
|
---|
714 | SSMFIELD_ENTRY( CPUMCTX, cr0),
|
---|
715 | SSMFIELD_ENTRY( CPUMCTX, cr2),
|
---|
716 | SSMFIELD_ENTRY( CPUMCTX, cr3),
|
---|
717 | SSMFIELD_ENTRY( CPUMCTX, cr4),
|
---|
718 | SSMFIELD_ENTRY_OLD( cr8, sizeof(uint64_t)),
|
---|
719 | SSMFIELD_ENTRY( CPUMCTX, dr[0]),
|
---|
720 | SSMFIELD_ENTRY( CPUMCTX, dr[1]),
|
---|
721 | SSMFIELD_ENTRY( CPUMCTX, dr[2]),
|
---|
722 | SSMFIELD_ENTRY( CPUMCTX, dr[3]),
|
---|
723 | SSMFIELD_ENTRY_OLD( dr[4], sizeof(uint64_t)),
|
---|
724 | SSMFIELD_ENTRY_OLD( dr[5], sizeof(uint64_t)),
|
---|
725 | SSMFIELD_ENTRY( CPUMCTX, dr[6]),
|
---|
726 | SSMFIELD_ENTRY( CPUMCTX, dr[7]),
|
---|
727 | SSMFIELD_ENTRY( CPUMCTX, gdtr.cbGdt),
|
---|
728 | SSMFIELD_ENTRY_U32_ZX_U64( CPUMCTX, gdtr.pGdt),
|
---|
729 | SSMFIELD_ENTRY_OLD( gdtrPadding, sizeof(uint16_t)),
|
---|
730 | SSMFIELD_ENTRY_OLD( gdtrPadding64, sizeof(uint64_t)),
|
---|
731 | SSMFIELD_ENTRY( CPUMCTX, idtr.cbIdt),
|
---|
732 | SSMFIELD_ENTRY_U32_ZX_U64( CPUMCTX, idtr.pIdt),
|
---|
733 | SSMFIELD_ENTRY_OLD( idtrPadding, sizeof(uint16_t)),
|
---|
734 | SSMFIELD_ENTRY_OLD( idtrPadding64, sizeof(uint64_t)),
|
---|
735 | SSMFIELD_ENTRY( CPUMCTX, ldtr.Sel),
|
---|
736 | SSMFIELD_ENTRY_OLD( ldtrPadding, sizeof(uint16_t)),
|
---|
737 | SSMFIELD_ENTRY( CPUMCTX, tr.Sel),
|
---|
738 | SSMFIELD_ENTRY_OLD( trPadding, sizeof(uint16_t)),
|
---|
739 | SSMFIELD_ENTRY( CPUMCTX, SysEnter.cs),
|
---|
740 | SSMFIELD_ENTRY( CPUMCTX, SysEnter.eip),
|
---|
741 | SSMFIELD_ENTRY( CPUMCTX, SysEnter.esp),
|
---|
742 | SSMFIELD_ENTRY( CPUMCTX, msrEFER),
|
---|
743 | SSMFIELD_ENTRY( CPUMCTX, msrSTAR),
|
---|
744 | SSMFIELD_ENTRY( CPUMCTX, msrPAT),
|
---|
745 | SSMFIELD_ENTRY( CPUMCTX, msrLSTAR),
|
---|
746 | SSMFIELD_ENTRY( CPUMCTX, msrCSTAR),
|
---|
747 | SSMFIELD_ENTRY( CPUMCTX, msrSFMASK),
|
---|
748 | SSMFIELD_ENTRY_OLD( msrFSBASE, sizeof(uint64_t)),
|
---|
749 | SSMFIELD_ENTRY_OLD( msrGSBASE, sizeof(uint64_t)),
|
---|
750 | SSMFIELD_ENTRY( CPUMCTX, msrKERNELGSBASE),
|
---|
751 | SSMFIELD_ENTRY_U32_ZX_U64( CPUMCTX, ldtr.u64Base),
|
---|
752 | SSMFIELD_ENTRY( CPUMCTX, ldtr.u32Limit),
|
---|
753 | SSMFIELD_ENTRY( CPUMCTX, ldtr.Attr),
|
---|
754 | SSMFIELD_ENTRY_U32_ZX_U64( CPUMCTX, tr.u64Base),
|
---|
755 | SSMFIELD_ENTRY( CPUMCTX, tr.u32Limit),
|
---|
756 | SSMFIELD_ENTRY( CPUMCTX, tr.Attr),
|
---|
757 | SSMFIELD_ENTRY_OLD( padding, sizeof(uint32_t)*2),
|
---|
758 | SSMFIELD_ENTRY_TERM()
|
---|
759 | };
|
---|
760 |
|
---|
761 |
|
---|
762 | /**
|
---|
763 | * Checks for partial/leaky FXSAVE/FXRSTOR handling on AMD CPUs.
|
---|
764 | *
|
---|
765 | * AMD K7, K8 and newer AMD CPUs do not save/restore the x87 error pointers
|
---|
766 | * (last instruction pointer, last data pointer, last opcode) except when the ES
|
---|
767 | * bit (Exception Summary) in x87 FSW (FPU Status Word) is set. Thus if we don't
|
---|
768 | * clear these registers there is potential, local FPU leakage from a process
|
---|
769 | * using the FPU to another.
|
---|
770 | *
|
---|
771 | * See AMD Instruction Reference for FXSAVE, FXRSTOR.
|
---|
772 | *
|
---|
773 | * @param pVM The cross context VM structure.
|
---|
774 | */
|
---|
775 | static void cpumR3CheckLeakyFpu(PVM pVM)
|
---|
776 | {
|
---|
777 | uint32_t u32CpuVersion = ASMCpuId_EAX(1);
|
---|
778 | uint32_t const u32Family = u32CpuVersion >> 8;
|
---|
779 | if ( u32Family >= 6 /* K7 and higher */
|
---|
780 | && ASMIsAmdCpu())
|
---|
781 | {
|
---|
782 | uint32_t cExt = ASMCpuId_EAX(0x80000000);
|
---|
783 | if (ASMIsValidExtRange(cExt))
|
---|
784 | {
|
---|
785 | uint32_t fExtFeaturesEDX = ASMCpuId_EDX(0x80000001);
|
---|
786 | if (fExtFeaturesEDX & X86_CPUID_AMD_FEATURE_EDX_FFXSR)
|
---|
787 | {
|
---|
788 | for (VMCPUID i = 0; i < pVM->cCpus; i++)
|
---|
789 | pVM->aCpus[i].cpum.s.fUseFlags |= CPUM_USE_FFXSR_LEAKY;
|
---|
790 | Log(("CPUM: Host CPU has leaky fxsave/fxrstor behaviour\n"));
|
---|
791 | }
|
---|
792 | }
|
---|
793 | }
|
---|
794 | }
|
---|
795 |
|
---|
796 |
|
---|
797 | /**
|
---|
798 | * Frees memory allocated for the SVM hardware virtualization state.
|
---|
799 | *
|
---|
800 | * @param pVM The cross context VM structure.
|
---|
801 | */
|
---|
802 | static void cpumR3FreeSvmHwVirtState(PVM pVM)
|
---|
803 | {
|
---|
804 | Assert(pVM->cpum.s.GuestFeatures.fSvm);
|
---|
805 | for (VMCPUID i = 0; i < pVM->cCpus; i++)
|
---|
806 | {
|
---|
807 | PVMCPU pVCpu = &pVM->aCpus[i];
|
---|
808 | if (pVCpu->cpum.s.Guest.hwvirt.svm.pVmcbR3)
|
---|
809 | {
|
---|
810 | SUPR3PageFreeEx(pVCpu->cpum.s.Guest.hwvirt.svm.pVmcbR3, SVM_VMCB_PAGES);
|
---|
811 | pVCpu->cpum.s.Guest.hwvirt.svm.pVmcbR3 = NULL;
|
---|
812 | }
|
---|
813 | pVCpu->cpum.s.Guest.hwvirt.svm.HCPhysVmcb = NIL_RTHCPHYS;
|
---|
814 |
|
---|
815 | if (pVCpu->cpum.s.Guest.hwvirt.svm.pvMsrBitmapR3)
|
---|
816 | {
|
---|
817 | SUPR3PageFreeEx(pVCpu->cpum.s.Guest.hwvirt.svm.pvMsrBitmapR3, SVM_MSRPM_PAGES);
|
---|
818 | pVCpu->cpum.s.Guest.hwvirt.svm.pvMsrBitmapR3 = NULL;
|
---|
819 | }
|
---|
820 |
|
---|
821 | if (pVCpu->cpum.s.Guest.hwvirt.svm.pvIoBitmapR3)
|
---|
822 | {
|
---|
823 | SUPR3PageFreeEx(pVCpu->cpum.s.Guest.hwvirt.svm.pvIoBitmapR3, SVM_IOPM_PAGES);
|
---|
824 | pVCpu->cpum.s.Guest.hwvirt.svm.pvIoBitmapR3 = NULL;
|
---|
825 | }
|
---|
826 | }
|
---|
827 | }
|
---|
828 |
|
---|
829 |
|
---|
830 | /**
|
---|
831 | * Allocates memory for the SVM hardware virtualization state.
|
---|
832 | *
|
---|
833 | * @returns VBox status code.
|
---|
834 | * @param pVM The cross context VM structure.
|
---|
835 | */
|
---|
836 | static int cpumR3AllocSvmHwVirtState(PVM pVM)
|
---|
837 | {
|
---|
838 | Assert(pVM->cpum.s.GuestFeatures.fSvm);
|
---|
839 |
|
---|
840 | int rc = VINF_SUCCESS;
|
---|
841 | LogRel(("CPUM: Allocating %u pages for the nested-guest SVM MSR and IO permission bitmaps\n",
|
---|
842 | pVM->cCpus * (SVM_MSRPM_PAGES + SVM_IOPM_PAGES)));
|
---|
843 | for (VMCPUID i = 0; i < pVM->cCpus; i++)
|
---|
844 | {
|
---|
845 | PVMCPU pVCpu = &pVM->aCpus[i];
|
---|
846 | pVCpu->cpum.s.Guest.hwvirt.enmHwvirt = CPUMHWVIRT_SVM;
|
---|
847 |
|
---|
848 | /*
|
---|
849 | * Allocate the nested-guest VMCB.
|
---|
850 | */
|
---|
851 | SUPPAGE SupNstGstVmcbPage;
|
---|
852 | RT_ZERO(SupNstGstVmcbPage);
|
---|
853 | SupNstGstVmcbPage.Phys = NIL_RTHCPHYS;
|
---|
854 | Assert(SVM_VMCB_PAGES == 1);
|
---|
855 | Assert(!pVCpu->cpum.s.Guest.hwvirt.svm.pVmcbR3);
|
---|
856 | rc = SUPR3PageAllocEx(SVM_VMCB_PAGES, 0 /* fFlags */, (void **)&pVCpu->cpum.s.Guest.hwvirt.svm.pVmcbR3,
|
---|
857 | &pVCpu->cpum.s.Guest.hwvirt.svm.pVmcbR0, &SupNstGstVmcbPage);
|
---|
858 | if (RT_FAILURE(rc))
|
---|
859 | {
|
---|
860 | Assert(!pVCpu->cpum.s.Guest.hwvirt.svm.pVmcbR3);
|
---|
861 | LogRel(("CPUM%u: Failed to alloc %u pages for the nested-guest's VMCB\n", pVCpu->idCpu, SVM_VMCB_PAGES));
|
---|
862 | break;
|
---|
863 | }
|
---|
864 | pVCpu->cpum.s.Guest.hwvirt.svm.HCPhysVmcb = SupNstGstVmcbPage.Phys;
|
---|
865 |
|
---|
866 | /*
|
---|
867 | * Allocate the MSRPM (MSR Permission bitmap).
|
---|
868 | */
|
---|
869 | Assert(!pVCpu->cpum.s.Guest.hwvirt.svm.pvMsrBitmapR3);
|
---|
870 | rc = SUPR3PageAllocEx(SVM_MSRPM_PAGES, 0 /* fFlags */, &pVCpu->cpum.s.Guest.hwvirt.svm.pvMsrBitmapR3,
|
---|
871 | &pVCpu->cpum.s.Guest.hwvirt.svm.pvMsrBitmapR0, NULL /* paPages */);
|
---|
872 | if (RT_FAILURE(rc))
|
---|
873 | {
|
---|
874 | Assert(!pVCpu->cpum.s.Guest.hwvirt.svm.pvMsrBitmapR3);
|
---|
875 | LogRel(("CPUM%u: Failed to alloc %u pages for the nested-guest's MSR permission bitmap\n", pVCpu->idCpu,
|
---|
876 | SVM_MSRPM_PAGES));
|
---|
877 | break;
|
---|
878 | }
|
---|
879 |
|
---|
880 | /*
|
---|
881 | * Allocate the IOPM (IO Permission bitmap).
|
---|
882 | */
|
---|
883 | Assert(!pVCpu->cpum.s.Guest.hwvirt.svm.pvIoBitmapR3);
|
---|
884 | rc = SUPR3PageAllocEx(SVM_IOPM_PAGES, 0 /* fFlags */, &pVCpu->cpum.s.Guest.hwvirt.svm.pvIoBitmapR3,
|
---|
885 | &pVCpu->cpum.s.Guest.hwvirt.svm.pvIoBitmapR0, NULL /* paPages */);
|
---|
886 | if (RT_FAILURE(rc))
|
---|
887 | {
|
---|
888 | Assert(!pVCpu->cpum.s.Guest.hwvirt.svm.pvIoBitmapR3);
|
---|
889 | LogRel(("CPUM%u: Failed to alloc %u pages for the nested-guest's IO permission bitmap\n", pVCpu->idCpu,
|
---|
890 | SVM_IOPM_PAGES));
|
---|
891 | break;
|
---|
892 | }
|
---|
893 | }
|
---|
894 |
|
---|
895 | /* On any failure, cleanup. */
|
---|
896 | if (RT_FAILURE(rc))
|
---|
897 | cpumR3FreeSvmHwVirtState(pVM);
|
---|
898 |
|
---|
899 | return rc;
|
---|
900 | }
|
---|
901 |
|
---|
902 |
|
---|
903 | /**
|
---|
904 | * Resets per-VCPU SVM hardware virtualization state.
|
---|
905 | *
|
---|
906 | * @param pVCpu The cross context virtual CPU structure.
|
---|
907 | */
|
---|
908 | DECLINLINE(void) cpumR3ResetSvmHwVirtState(PVMCPU pVCpu)
|
---|
909 | {
|
---|
910 | PCPUMCTX pCtx = &pVCpu->cpum.s.Guest;
|
---|
911 | Assert(pCtx->hwvirt.enmHwvirt == CPUMHWVIRT_SVM);
|
---|
912 | Assert(pCtx->hwvirt.svm.CTX_SUFF(pVmcb));
|
---|
913 |
|
---|
914 | memset(pCtx->hwvirt.svm.CTX_SUFF(pVmcb), 0, SVM_VMCB_PAGES << PAGE_SHIFT);
|
---|
915 | pCtx->hwvirt.svm.uMsrHSavePa = 0;
|
---|
916 | pCtx->hwvirt.svm.uPrevPauseTick = 0;
|
---|
917 | }
|
---|
918 |
|
---|
919 |
|
---|
920 | /**
|
---|
921 | * Frees memory allocated for the VMX hardware virtualization state.
|
---|
922 | *
|
---|
923 | * @param pVM The cross context VM structure.
|
---|
924 | */
|
---|
925 | static void cpumR3FreeVmxHwVirtState(PVM pVM)
|
---|
926 | {
|
---|
927 | Assert(pVM->cpum.s.GuestFeatures.fVmx);
|
---|
928 | for (VMCPUID i = 0; i < pVM->cCpus; i++)
|
---|
929 | {
|
---|
930 | PVMCPU pVCpu = &pVM->aCpus[i];
|
---|
931 | if (pVCpu->cpum.s.Guest.hwvirt.vmx.pVmcsR3)
|
---|
932 | {
|
---|
933 | SUPR3PageFreeEx(pVCpu->cpum.s.Guest.hwvirt.vmx.pVmcsR3, VMX_V_VMCS_PAGES);
|
---|
934 | pVCpu->cpum.s.Guest.hwvirt.vmx.pVmcsR3 = NULL;
|
---|
935 | }
|
---|
936 | if (pVCpu->cpum.s.Guest.hwvirt.vmx.pShadowVmcsR3)
|
---|
937 | {
|
---|
938 | SUPR3PageFreeEx(pVCpu->cpum.s.Guest.hwvirt.vmx.pShadowVmcsR3, VMX_V_VMCS_PAGES);
|
---|
939 | pVCpu->cpum.s.Guest.hwvirt.vmx.pShadowVmcsR3 = NULL;
|
---|
940 | }
|
---|
941 | if (pVCpu->cpum.s.Guest.hwvirt.vmx.pvVirtApicPageR3)
|
---|
942 | {
|
---|
943 | SUPR3PageFreeEx(pVCpu->cpum.s.Guest.hwvirt.vmx.pvVirtApicPageR3, VMX_V_VIRT_APIC_PAGES);
|
---|
944 | pVCpu->cpum.s.Guest.hwvirt.vmx.pvVirtApicPageR3 = NULL;
|
---|
945 | }
|
---|
946 | if (pVCpu->cpum.s.Guest.hwvirt.vmx.pvVmreadBitmapR3)
|
---|
947 | {
|
---|
948 | SUPR3PageFreeEx(pVCpu->cpum.s.Guest.hwvirt.vmx.pvVmreadBitmapR3, VMX_V_VMREAD_VMWRITE_BITMAP_PAGES);
|
---|
949 | pVCpu->cpum.s.Guest.hwvirt.vmx.pvVmreadBitmapR3 = NULL;
|
---|
950 | }
|
---|
951 | if (pVCpu->cpum.s.Guest.hwvirt.vmx.pvVmwriteBitmapR3)
|
---|
952 | {
|
---|
953 | SUPR3PageFreeEx(pVCpu->cpum.s.Guest.hwvirt.vmx.pvVmwriteBitmapR3, VMX_V_VMREAD_VMWRITE_BITMAP_PAGES);
|
---|
954 | pVCpu->cpum.s.Guest.hwvirt.vmx.pvVmwriteBitmapR3 = NULL;
|
---|
955 | }
|
---|
956 | if (pVCpu->cpum.s.Guest.hwvirt.vmx.pAutoMsrAreaR3)
|
---|
957 | {
|
---|
958 | SUPR3PageFreeEx(pVCpu->cpum.s.Guest.hwvirt.vmx.pAutoMsrAreaR3, VMX_V_AUTOMSR_AREA_PAGES);
|
---|
959 | pVCpu->cpum.s.Guest.hwvirt.vmx.pAutoMsrAreaR3 = NULL;
|
---|
960 | }
|
---|
961 | if (pVCpu->cpum.s.Guest.hwvirt.vmx.pvMsrBitmapR3)
|
---|
962 | {
|
---|
963 | SUPR3PageFreeEx(pVCpu->cpum.s.Guest.hwvirt.vmx.pvMsrBitmapR3, VMX_V_MSR_BITMAP_PAGES);
|
---|
964 | pVCpu->cpum.s.Guest.hwvirt.vmx.pvMsrBitmapR3 = NULL;
|
---|
965 | }
|
---|
966 | if (pVCpu->cpum.s.Guest.hwvirt.vmx.pvIoBitmapR3)
|
---|
967 | {
|
---|
968 | SUPR3PageFreeEx(pVCpu->cpum.s.Guest.hwvirt.vmx.pvIoBitmapR3, VMX_V_IO_BITMAP_A_PAGES + VMX_V_IO_BITMAP_B_PAGES);
|
---|
969 | pVCpu->cpum.s.Guest.hwvirt.vmx.pvIoBitmapR3 = NULL;
|
---|
970 | }
|
---|
971 | }
|
---|
972 | }
|
---|
973 |
|
---|
974 |
|
---|
975 | /**
|
---|
976 | * Allocates memory for the VMX hardware virtualization state.
|
---|
977 | *
|
---|
978 | * @returns VBox status code.
|
---|
979 | * @param pVM The cross context VM structure.
|
---|
980 | */
|
---|
981 | static int cpumR3AllocVmxHwVirtState(PVM pVM)
|
---|
982 | {
|
---|
983 | int rc = VINF_SUCCESS;
|
---|
984 | LogRel(("CPUM: Allocating %u pages for the nested-guest VMCS and related structures\n",
|
---|
985 | pVM->cCpus * ( VMX_V_VMCS_PAGES + VMX_V_VIRT_APIC_PAGES + VMX_V_VMREAD_VMWRITE_BITMAP_PAGES * 2
|
---|
986 | + VMX_V_AUTOMSR_AREA_PAGES)));
|
---|
987 | for (VMCPUID i = 0; i < pVM->cCpus; i++)
|
---|
988 | {
|
---|
989 | PVMCPU pVCpu = &pVM->aCpus[i];
|
---|
990 | pVCpu->cpum.s.Guest.hwvirt.enmHwvirt = CPUMHWVIRT_VMX;
|
---|
991 |
|
---|
992 | /*
|
---|
993 | * Allocate the nested-guest current VMCS.
|
---|
994 | */
|
---|
995 | Assert(VMX_V_VMCS_PAGES == 1);
|
---|
996 | Assert(!pVCpu->cpum.s.Guest.hwvirt.vmx.pVmcsR3);
|
---|
997 | rc = SUPR3PageAllocEx(VMX_V_VMCS_PAGES, 0 /* fFlags */, (void **)&pVCpu->cpum.s.Guest.hwvirt.vmx.pVmcsR3,
|
---|
998 | &pVCpu->cpum.s.Guest.hwvirt.vmx.pVmcsR0, NULL /* paPages */);
|
---|
999 | if (RT_FAILURE(rc))
|
---|
1000 | {
|
---|
1001 | Assert(!pVCpu->cpum.s.Guest.hwvirt.vmx.pVmcsR3);
|
---|
1002 | LogRel(("CPUM%u: Failed to alloc %u pages for the nested-guest's VMCS\n", pVCpu->idCpu, VMX_V_VMCS_PAGES));
|
---|
1003 | break;
|
---|
1004 | }
|
---|
1005 |
|
---|
1006 | /*
|
---|
1007 | * Allocate the nested-guest shadow VMCS.
|
---|
1008 | */
|
---|
1009 | Assert(VMX_V_VMCS_PAGES == 1);
|
---|
1010 | Assert(!pVCpu->cpum.s.Guest.hwvirt.vmx.pShadowVmcsR3);
|
---|
1011 | rc = SUPR3PageAllocEx(VMX_V_VMCS_PAGES, 0 /* fFlags */, (void **)&pVCpu->cpum.s.Guest.hwvirt.vmx.pShadowVmcsR3,
|
---|
1012 | &pVCpu->cpum.s.Guest.hwvirt.vmx.pShadowVmcsR0, NULL /* paPages */);
|
---|
1013 | if (RT_FAILURE(rc))
|
---|
1014 | {
|
---|
1015 | Assert(!pVCpu->cpum.s.Guest.hwvirt.vmx.pShadowVmcsR3);
|
---|
1016 | LogRel(("CPUM%u: Failed to alloc %u pages for the nested-guest's shadow VMCS\n", pVCpu->idCpu, VMX_V_VMCS_PAGES));
|
---|
1017 | break;
|
---|
1018 | }
|
---|
1019 |
|
---|
1020 | /*
|
---|
1021 | * Allocate the Virtual-APIC page.
|
---|
1022 | */
|
---|
1023 | Assert(!pVCpu->cpum.s.Guest.hwvirt.vmx.pvVirtApicPageR3);
|
---|
1024 | rc = SUPR3PageAllocEx(VMX_V_VIRT_APIC_PAGES, 0 /* fFlags */, &pVCpu->cpum.s.Guest.hwvirt.vmx.pvVirtApicPageR3,
|
---|
1025 | &pVCpu->cpum.s.Guest.hwvirt.vmx.pvVirtApicPageR0, NULL /* paPages */);
|
---|
1026 | if (RT_FAILURE(rc))
|
---|
1027 | {
|
---|
1028 | Assert(!pVCpu->cpum.s.Guest.hwvirt.vmx.pvVirtApicPageR3);
|
---|
1029 | LogRel(("CPUM%u: Failed to alloc %u pages for the nested-guest's Virtual-APIC page\n", pVCpu->idCpu,
|
---|
1030 | VMX_V_VIRT_APIC_PAGES));
|
---|
1031 | break;
|
---|
1032 | }
|
---|
1033 |
|
---|
1034 | /*
|
---|
1035 | * Allocate the VMREAD-bitmap.
|
---|
1036 | */
|
---|
1037 | Assert(!pVCpu->cpum.s.Guest.hwvirt.vmx.pvVmreadBitmapR3);
|
---|
1038 | rc = SUPR3PageAllocEx(VMX_V_VMREAD_VMWRITE_BITMAP_PAGES, 0 /* fFlags */, &pVCpu->cpum.s.Guest.hwvirt.vmx.pvVmreadBitmapR3,
|
---|
1039 | &pVCpu->cpum.s.Guest.hwvirt.vmx.pvVmreadBitmapR0, NULL /* paPages */);
|
---|
1040 | if (RT_FAILURE(rc))
|
---|
1041 | {
|
---|
1042 | Assert(!pVCpu->cpum.s.Guest.hwvirt.vmx.pvVmreadBitmapR3);
|
---|
1043 | LogRel(("CPUM%u: Failed to alloc %u pages for the nested-guest's VMREAD-bitmap\n", pVCpu->idCpu,
|
---|
1044 | VMX_V_VMREAD_VMWRITE_BITMAP_PAGES));
|
---|
1045 | break;
|
---|
1046 | }
|
---|
1047 |
|
---|
1048 | /*
|
---|
1049 | * Allocatge the VMWRITE-bitmap.
|
---|
1050 | */
|
---|
1051 | Assert(!pVCpu->cpum.s.Guest.hwvirt.vmx.pvVmwriteBitmapR3);
|
---|
1052 | rc = SUPR3PageAllocEx(VMX_V_VMREAD_VMWRITE_BITMAP_PAGES, 0 /* fFlags */,
|
---|
1053 | &pVCpu->cpum.s.Guest.hwvirt.vmx.pvVmwriteBitmapR3,
|
---|
1054 | &pVCpu->cpum.s.Guest.hwvirt.vmx.pvVmwriteBitmapR0, NULL /* paPages */);
|
---|
1055 | if (RT_FAILURE(rc))
|
---|
1056 | {
|
---|
1057 | Assert(!pVCpu->cpum.s.Guest.hwvirt.vmx.pvVmwriteBitmapR3);
|
---|
1058 | LogRel(("CPUM%u: Failed to alloc %u pages for the nested-guest's VMWRITE-bitmap\n", pVCpu->idCpu,
|
---|
1059 | VMX_V_VMREAD_VMWRITE_BITMAP_PAGES));
|
---|
1060 | break;
|
---|
1061 | }
|
---|
1062 |
|
---|
1063 | /*
|
---|
1064 | * Allocate the MSR auto-load/store area.
|
---|
1065 | */
|
---|
1066 | Assert(!pVCpu->cpum.s.Guest.hwvirt.vmx.pAutoMsrAreaR3);
|
---|
1067 | rc = SUPR3PageAllocEx(VMX_V_AUTOMSR_AREA_PAGES, 0 /* fFlags */, (void **)&pVCpu->cpum.s.Guest.hwvirt.vmx.pAutoMsrAreaR3,
|
---|
1068 | &pVCpu->cpum.s.Guest.hwvirt.vmx.pAutoMsrAreaR0, NULL /* paPages */);
|
---|
1069 | if (RT_FAILURE(rc))
|
---|
1070 | {
|
---|
1071 | Assert(!pVCpu->cpum.s.Guest.hwvirt.vmx.pAutoMsrAreaR3);
|
---|
1072 | LogRel(("CPUM%u: Failed to alloc %u pages for the nested-guest's auto-load/store MSR area\n", pVCpu->idCpu,
|
---|
1073 | VMX_V_AUTOMSR_AREA_PAGES));
|
---|
1074 | break;
|
---|
1075 | }
|
---|
1076 |
|
---|
1077 | /*
|
---|
1078 | * Allocate the MSR bitmap.
|
---|
1079 | */
|
---|
1080 | Assert(!pVCpu->cpum.s.Guest.hwvirt.vmx.pvMsrBitmapR3);
|
---|
1081 | rc = SUPR3PageAllocEx(VMX_V_MSR_BITMAP_PAGES, 0 /* fFlags */, (void **)&pVCpu->cpum.s.Guest.hwvirt.vmx.pvMsrBitmapR3,
|
---|
1082 | &pVCpu->cpum.s.Guest.hwvirt.vmx.pvMsrBitmapR0, NULL /* paPages */);
|
---|
1083 | if (RT_FAILURE(rc))
|
---|
1084 | {
|
---|
1085 | Assert(!pVCpu->cpum.s.Guest.hwvirt.vmx.pvMsrBitmapR3);
|
---|
1086 | LogRel(("CPUM%u: Failed to alloc %u pages for the nested-guest's MSR bitmap\n", pVCpu->idCpu,
|
---|
1087 | VMX_V_MSR_BITMAP_PAGES));
|
---|
1088 | break;
|
---|
1089 | }
|
---|
1090 |
|
---|
1091 | /*
|
---|
1092 | * Allocate the I/O bitmaps (A and B).
|
---|
1093 | */
|
---|
1094 | Assert(!pVCpu->cpum.s.Guest.hwvirt.vmx.pvIoBitmapR3);
|
---|
1095 | rc = SUPR3PageAllocEx(VMX_V_IO_BITMAP_A_PAGES + VMX_V_IO_BITMAP_B_PAGES, 0 /* fFlags */,
|
---|
1096 | (void **)&pVCpu->cpum.s.Guest.hwvirt.vmx.pvIoBitmapR3,
|
---|
1097 | &pVCpu->cpum.s.Guest.hwvirt.vmx.pvIoBitmapR0, NULL /* paPages */);
|
---|
1098 | if (RT_FAILURE(rc))
|
---|
1099 | {
|
---|
1100 | Assert(!pVCpu->cpum.s.Guest.hwvirt.vmx.pvIoBitmapR3);
|
---|
1101 | LogRel(("CPUM%u: Failed to alloc %u pages for the nested-guest's I/O bitmaps\n", pVCpu->idCpu,
|
---|
1102 | VMX_V_IO_BITMAP_A_PAGES + VMX_V_IO_BITMAP_B_PAGES));
|
---|
1103 | break;
|
---|
1104 | }
|
---|
1105 | }
|
---|
1106 |
|
---|
1107 | /* On any failure, cleanup. */
|
---|
1108 | if (RT_FAILURE(rc))
|
---|
1109 | cpumR3FreeVmxHwVirtState(pVM);
|
---|
1110 |
|
---|
1111 | return rc;
|
---|
1112 | }
|
---|
1113 |
|
---|
1114 |
|
---|
1115 | /**
|
---|
1116 | * Resets per-VCPU VMX hardware virtualization state.
|
---|
1117 | *
|
---|
1118 | * @param pVCpu The cross context virtual CPU structure.
|
---|
1119 | */
|
---|
1120 | DECLINLINE(void) cpumR3ResetVmxHwVirtState(PVMCPU pVCpu)
|
---|
1121 | {
|
---|
1122 | PCPUMCTX pCtx = &pVCpu->cpum.s.Guest;
|
---|
1123 | Assert(pCtx->hwvirt.enmHwvirt == CPUMHWVIRT_VMX);
|
---|
1124 | Assert(pCtx->hwvirt.vmx.CTX_SUFF(pVmcs));
|
---|
1125 | Assert(pCtx->hwvirt.vmx.CTX_SUFF(pShadowVmcs));
|
---|
1126 |
|
---|
1127 | memset(pCtx->hwvirt.vmx.CTX_SUFF(pVmcs), 0, VMX_V_VMCS_SIZE);
|
---|
1128 | memset(pCtx->hwvirt.vmx.CTX_SUFF(pShadowVmcs), 0, VMX_V_VMCS_SIZE);
|
---|
1129 | pCtx->hwvirt.vmx.GCPhysVmxon = NIL_RTGCPHYS;
|
---|
1130 | pCtx->hwvirt.vmx.GCPhysShadowVmcs = NIL_RTGCPHYS;
|
---|
1131 | pCtx->hwvirt.vmx.GCPhysVmxon = NIL_RTGCPHYS;
|
---|
1132 | pCtx->hwvirt.vmx.fInVmxRootMode = false;
|
---|
1133 | pCtx->hwvirt.vmx.fInVmxNonRootMode = false;
|
---|
1134 | /* Don't reset diagnostics here. */
|
---|
1135 | }
|
---|
1136 |
|
---|
1137 |
|
---|
1138 | /**
|
---|
1139 | * Displays the host and guest VMX features.
|
---|
1140 | *
|
---|
1141 | * @param pVM The cross context VM structure.
|
---|
1142 | * @param pHlp The info helper functions.
|
---|
1143 | * @param pszArgs "terse", "default" or "verbose".
|
---|
1144 | */
|
---|
1145 | DECLCALLBACK(void) cpumR3InfoVmxFeatures(PVM pVM, PCDBGFINFOHLP pHlp, const char *pszArgs)
|
---|
1146 | {
|
---|
1147 | RT_NOREF(pszArgs);
|
---|
1148 | PCCPUMFEATURES pHostFeatures = &pVM->cpum.s.HostFeatures;
|
---|
1149 | PCCPUMFEATURES pGuestFeatures = &pVM->cpum.s.GuestFeatures;
|
---|
1150 | if ( pHostFeatures->enmCpuVendor == CPUMCPUVENDOR_INTEL
|
---|
1151 | || pHostFeatures->enmCpuVendor == CPUMCPUVENDOR_VIA)
|
---|
1152 | {
|
---|
1153 | #define VMXFEATDUMP(a_szDesc, a_Var) \
|
---|
1154 | pHlp->pfnPrintf(pHlp, " %s = %u (%u)\n", a_szDesc, pGuestFeatures->a_Var, pHostFeatures->a_Var)
|
---|
1155 |
|
---|
1156 | pHlp->pfnPrintf(pHlp, "Nested hardware virtualization - VMX features\n");
|
---|
1157 | pHlp->pfnPrintf(pHlp, " Mnemonic - Description = guest (host)\n");
|
---|
1158 | VMXFEATDUMP("VMX - Virtual-Machine Extensions ", fVmx);
|
---|
1159 | /* Basic. */
|
---|
1160 | VMXFEATDUMP("InsOutInfo - INS/OUTS instruction info. ", fVmxInsOutInfo);
|
---|
1161 | /* Pin-based controls. */
|
---|
1162 | VMXFEATDUMP("ExtIntExit - External interrupt VM-exit ", fVmxExtIntExit);
|
---|
1163 | VMXFEATDUMP("NmiExit - NMI VM-exit ", fVmxNmiExit);
|
---|
1164 | VMXFEATDUMP("VirtNmi - Virtual NMIs ", fVmxVirtNmi);
|
---|
1165 | VMXFEATDUMP("PreemptTimer - VMX preemption timer ", fVmxPreemptTimer);
|
---|
1166 | VMXFEATDUMP("PostedInt - Posted interrupts ", fVmxPostedInt);
|
---|
1167 | /* Processor-based controls. */
|
---|
1168 | VMXFEATDUMP("IntWindowExit - Interrupt-window exiting ", fVmxIntWindowExit);
|
---|
1169 | VMXFEATDUMP("TscOffsetting - TSC offsetting ", fVmxTscOffsetting);
|
---|
1170 | VMXFEATDUMP("HltExit - HLT exiting ", fVmxHltExit);
|
---|
1171 | VMXFEATDUMP("InvlpgExit - INVLPG exiting ", fVmxInvlpgExit);
|
---|
1172 | VMXFEATDUMP("MwaitExit - MWAIT exiting ", fVmxMwaitExit);
|
---|
1173 | VMXFEATDUMP("RdpmcExit - RDPMC exiting ", fVmxRdpmcExit);
|
---|
1174 | VMXFEATDUMP("RdtscExit - RDTSC exiting ", fVmxRdtscExit);
|
---|
1175 | VMXFEATDUMP("Cr3LoadExit - CR3-load exiting ", fVmxCr3LoadExit);
|
---|
1176 | VMXFEATDUMP("Cr3StoreExit - CR3-store exiting ", fVmxCr3StoreExit);
|
---|
1177 | VMXFEATDUMP("Cr8LoadExit - CR8-load exiting ", fVmxCr8LoadExit);
|
---|
1178 | VMXFEATDUMP("Cr8StoreExit - CR8-store exiting ", fVmxCr8StoreExit);
|
---|
1179 | VMXFEATDUMP("UseTprShadow - Use TPR shadow ", fVmxUseTprShadow);
|
---|
1180 | VMXFEATDUMP("NmiWindowExit - NMI-window exiting ", fVmxNmiWindowExit);
|
---|
1181 | VMXFEATDUMP("MovDRxExit - Mov-DR exiting ", fVmxMovDRxExit);
|
---|
1182 | VMXFEATDUMP("UncondIoExit - Unconditional I/O exiting ", fVmxUncondIoExit);
|
---|
1183 | VMXFEATDUMP("UseIoBitmaps - Use I/O bitmaps ", fVmxUseIoBitmaps);
|
---|
1184 | VMXFEATDUMP("MonitorTrapFlag - Monitor trap flag ", fVmxMonitorTrapFlag);
|
---|
1185 | VMXFEATDUMP("UseMsrBitmaps - MSR bitmaps ", fVmxUseMsrBitmaps);
|
---|
1186 | VMXFEATDUMP("MonitorExit - MONITOR exiting ", fVmxMonitorExit);
|
---|
1187 | VMXFEATDUMP("PauseExit - PAUSE exiting ", fVmxPauseExit);
|
---|
1188 | VMXFEATDUMP("SecondaryExecCtl - Activate secondary controls ", fVmxSecondaryExecCtls);
|
---|
1189 | /* Secondary processor-based controls. */
|
---|
1190 | VMXFEATDUMP("VirtApic - Virtualize-APIC accesses ", fVmxVirtApicAccess);
|
---|
1191 | VMXFEATDUMP("Ept - Extended Page Tables ", fVmxEpt);
|
---|
1192 | VMXFEATDUMP("DescTableExit - Descriptor-table exiting ", fVmxDescTableExit);
|
---|
1193 | VMXFEATDUMP("Rdtscp - Enable RDTSCP ", fVmxRdtscp);
|
---|
1194 | VMXFEATDUMP("VirtX2ApicMode - Virtualize-x2APIC mode ", fVmxVirtX2ApicMode);
|
---|
1195 | VMXFEATDUMP("Vpid - Enable VPID ", fVmxVpid);
|
---|
1196 | VMXFEATDUMP("WbinvdExit - WBINVD exiting ", fVmxWbinvdExit);
|
---|
1197 | VMXFEATDUMP("UnrestrictedGuest - Unrestricted guest ", fVmxUnrestrictedGuest);
|
---|
1198 | VMXFEATDUMP("ApicRegVirt - APIC-register virtualization ", fVmxApicRegVirt);
|
---|
1199 | VMXFEATDUMP("VirtIntDelivery - Virtual-interrupt delivery ", fVmxVirtIntDelivery);
|
---|
1200 | VMXFEATDUMP("PauseLoopExit - PAUSE-loop exiting ", fVmxPauseLoopExit);
|
---|
1201 | VMXFEATDUMP("RdrandExit - RDRAND exiting ", fVmxRdrandExit);
|
---|
1202 | VMXFEATDUMP("Invpcid - Enable INVPCID ", fVmxInvpcid);
|
---|
1203 | VMXFEATDUMP("VmFuncs - Enable VM Functions ", fVmxVmFunc);
|
---|
1204 | VMXFEATDUMP("VmcsShadowing - VMCS shadowing ", fVmxVmcsShadowing);
|
---|
1205 | VMXFEATDUMP("RdseedExiting - RDSEED exiting ", fVmxRdseedExit);
|
---|
1206 | VMXFEATDUMP("PML - Supports Page-Modification Log (PML) ", fVmxPml);
|
---|
1207 | VMXFEATDUMP("EptVe - EPT violations can cause #VE ", fVmxEptXcptVe);
|
---|
1208 | VMXFEATDUMP("XsavesXRstors - Enable XSAVES/XRSTORS ", fVmxXsavesXrstors);
|
---|
1209 | /* VM-entry controls. */
|
---|
1210 | VMXFEATDUMP("EntryLoadDebugCtls - Load debug controls on VM-entry ", fVmxEntryLoadDebugCtls);
|
---|
1211 | VMXFEATDUMP("Ia32eModeGuest - IA-32e mode guest ", fVmxIa32eModeGuest);
|
---|
1212 | VMXFEATDUMP("EntryLoadEferMsr - Load IA32_EFER on VM-entry ", fVmxEntryLoadEferMsr);
|
---|
1213 | VMXFEATDUMP("EntryLoadPatMsr - Load IA32_PAT on VM-entry ", fVmxEntryLoadPatMsr);
|
---|
1214 | /* VM-exit controls. */
|
---|
1215 | VMXFEATDUMP("ExitSaveDebugCtls - Save debug controls on VM-exit ", fVmxExitSaveDebugCtls);
|
---|
1216 | VMXFEATDUMP("HostAddrSpaceSize - Host address-space size ", fVmxHostAddrSpaceSize);
|
---|
1217 | VMXFEATDUMP("ExitAckExtInt - Acknowledge interrupt on VM-exit ", fVmxExitAckExtInt);
|
---|
1218 | VMXFEATDUMP("ExitSavePatMsr - Save IA32_PAT on VM-exit ", fVmxExitSavePatMsr);
|
---|
1219 | VMXFEATDUMP("ExitLoadPatMsr - Load IA32_PAT on VM-exit ", fVmxExitLoadPatMsr);
|
---|
1220 | VMXFEATDUMP("ExitSaveEferMsr - Save IA32_EFER on VM-exit ", fVmxExitSaveEferMsr);
|
---|
1221 | VMXFEATDUMP("ExitLoadEferMsr - Load IA32_EFER on VM-exit ", fVmxExitLoadEferMsr);
|
---|
1222 | VMXFEATDUMP("SavePreemptTimer - Save VMX-preemption timer ", fVmxSavePreemptTimer);
|
---|
1223 | /* Miscellaneous data. */
|
---|
1224 | VMXFEATDUMP("ExitSaveEferLma - Save EFER.LMA on VM-exit ", fVmxExitSaveEferLma);
|
---|
1225 | VMXFEATDUMP("IntelPt - Intel PT (Processor Trace) in VMX operation ", fVmxIntelPt);
|
---|
1226 | VMXFEATDUMP("VmwriteAll - Write allowed to read-only VMCS fields ", fVmxVmwriteAll);
|
---|
1227 | VMXFEATDUMP("EntryInjectSoftInt - Inject softint. with 0-len instr. ", fVmxEntryInjectSoftInt);
|
---|
1228 | #undef VMXFEATDUMP
|
---|
1229 | }
|
---|
1230 | else
|
---|
1231 | pHlp->pfnPrintf(pHlp, "No VMX features present - requires an Intel or compatible CPU.\n");
|
---|
1232 | }
|
---|
1233 |
|
---|
1234 |
|
---|
1235 | /**
|
---|
1236 | * Checks whether nested-guest execution using hardware-assisted VMX (e.g, using HM
|
---|
1237 | * or NEM) is allowed.
|
---|
1238 | *
|
---|
1239 | * @returns @c true if hardware-assisted nested-guest execution is allowed, @c false
|
---|
1240 | * otherwise.
|
---|
1241 | * @param pVM The cross context VM structure.
|
---|
1242 | */
|
---|
1243 | static bool cpumR3IsHwAssistNstGstExecAllowed(PVM pVM)
|
---|
1244 | {
|
---|
1245 | AssertMsg(pVM->bMainExecutionEngine != VM_EXEC_ENGINE_NOT_SET, ("Calling this function too early!\n"));
|
---|
1246 | #ifndef VBOX_WITH_NESTED_HWVIRT_ONLY_IN_IEM
|
---|
1247 | if ( pVM->bMainExecutionEngine == VM_EXEC_ENGINE_HW_VIRT
|
---|
1248 | || pVM->bMainExecutionEngine == VM_EXEC_ENGINE_NATIVE_API)
|
---|
1249 | return true;
|
---|
1250 | #else
|
---|
1251 | NOREF(pVM);
|
---|
1252 | #endif
|
---|
1253 | return false;
|
---|
1254 | }
|
---|
1255 |
|
---|
1256 |
|
---|
1257 | /**
|
---|
1258 | * Initializes the VMX guest MSRs from guest CPU features based on the host MSRs.
|
---|
1259 | *
|
---|
1260 | * @param pVM The cross context VM structure.
|
---|
1261 | * @param pHostVmxMsrs The host VMX MSRs. Pass NULL when fully emulating VMX
|
---|
1262 | * and no hardware-assisted nested-guest execution is
|
---|
1263 | * possible for this VM.
|
---|
1264 | * @param pGuestFeatures The guest features to use (only VMX features are
|
---|
1265 | * accessed).
|
---|
1266 | * @param pGuestVmxMsrs Where to store the initialized guest VMX MSRs.
|
---|
1267 | *
|
---|
1268 | * @remarks This function ASSUMES the VMX guest-features are already exploded!
|
---|
1269 | */
|
---|
1270 | static void cpumR3InitVmxGuestMsrs(PVM pVM, PCVMXMSRS pHostVmxMsrs, PCCPUMFEATURES pGuestFeatures, PVMXMSRS pGuestVmxMsrs)
|
---|
1271 | {
|
---|
1272 | bool const fIsNstGstHwExecAllowed = cpumR3IsHwAssistNstGstExecAllowed(pVM);
|
---|
1273 |
|
---|
1274 | Assert(!fIsNstGstHwExecAllowed || pHostVmxMsrs);
|
---|
1275 | Assert(pGuestFeatures->fVmx);
|
---|
1276 |
|
---|
1277 | /*
|
---|
1278 | * We don't support the following MSRs yet:
|
---|
1279 | * - True Pin-based VM-execution controls.
|
---|
1280 | * - True Processor-based VM-execution controls.
|
---|
1281 | * - True VM-entry VM-execution controls.
|
---|
1282 | * - True VM-exit VM-execution controls.
|
---|
1283 | * - EPT/VPID capabilities.
|
---|
1284 | */
|
---|
1285 |
|
---|
1286 | /* Feature control. */
|
---|
1287 | pGuestVmxMsrs->u64FeatCtrl = MSR_IA32_FEATURE_CONTROL_LOCK | MSR_IA32_FEATURE_CONTROL_VMXON;
|
---|
1288 |
|
---|
1289 | /* Basic information. */
|
---|
1290 | {
|
---|
1291 | uint64_t const u64Basic = RT_BF_MAKE(VMX_BF_BASIC_VMCS_ID, VMX_V_VMCS_REVISION_ID )
|
---|
1292 | | RT_BF_MAKE(VMX_BF_BASIC_VMCS_SIZE, VMX_V_VMCS_SIZE )
|
---|
1293 | | RT_BF_MAKE(VMX_BF_BASIC_PHYSADDR_WIDTH, !pGuestFeatures->fLongMode )
|
---|
1294 | | RT_BF_MAKE(VMX_BF_BASIC_DUAL_MON, 0 )
|
---|
1295 | | RT_BF_MAKE(VMX_BF_BASIC_VMCS_MEM_TYPE, VMX_BASIC_MEM_TYPE_WB )
|
---|
1296 | | RT_BF_MAKE(VMX_BF_BASIC_VMCS_INS_OUTS, pGuestFeatures->fVmxInsOutInfo)
|
---|
1297 | | RT_BF_MAKE(VMX_BF_BASIC_TRUE_CTLS, 0 );
|
---|
1298 | pGuestVmxMsrs->u64Basic = u64Basic;
|
---|
1299 | }
|
---|
1300 |
|
---|
1301 | /* Pin-based VM-execution controls. */
|
---|
1302 | {
|
---|
1303 | uint32_t const fFeatures = (pGuestFeatures->fVmxExtIntExit << VMX_BF_PIN_CTLS_EXT_INT_EXIT_SHIFT )
|
---|
1304 | | (pGuestFeatures->fVmxNmiExit << VMX_BF_PIN_CTLS_NMI_EXIT_SHIFT )
|
---|
1305 | | (pGuestFeatures->fVmxVirtNmi << VMX_BF_PIN_CTLS_VIRT_NMI_SHIFT )
|
---|
1306 | | (pGuestFeatures->fVmxPreemptTimer << VMX_BF_PIN_CTLS_PREEMPT_TIMER_SHIFT)
|
---|
1307 | | (pGuestFeatures->fVmxPostedInt << VMX_BF_PIN_CTLS_POSTED_INT_SHIFT );
|
---|
1308 | uint32_t const fAllowed0 = VMX_PIN_CTLS_DEFAULT1;
|
---|
1309 | uint32_t const fAllowed1 = fFeatures | VMX_PIN_CTLS_DEFAULT1;
|
---|
1310 | AssertMsg((fAllowed0 & fAllowed1) == fAllowed0, ("fAllowed0=%#RX32 fAllowed1=%#RX32 fFeatures=%#RX32\n",
|
---|
1311 | fAllowed0, fAllowed1, fFeatures));
|
---|
1312 | pGuestVmxMsrs->PinCtls.u = RT_MAKE_U64(fAllowed0, fAllowed1);
|
---|
1313 | }
|
---|
1314 |
|
---|
1315 | /* Processor-based VM-execution controls. */
|
---|
1316 | {
|
---|
1317 | uint32_t const fFeatures = (pGuestFeatures->fVmxIntWindowExit << VMX_BF_PROC_CTLS_INT_WINDOW_EXIT_SHIFT )
|
---|
1318 | | (pGuestFeatures->fVmxTscOffsetting << VMX_BF_PROC_CTLS_USE_TSC_OFFSETTING_SHIFT)
|
---|
1319 | | (pGuestFeatures->fVmxHltExit << VMX_BF_PROC_CTLS_HLT_EXIT_SHIFT )
|
---|
1320 | | (pGuestFeatures->fVmxInvlpgExit << VMX_BF_PROC_CTLS_INVLPG_EXIT_SHIFT )
|
---|
1321 | | (pGuestFeatures->fVmxMwaitExit << VMX_BF_PROC_CTLS_MWAIT_EXIT_SHIFT )
|
---|
1322 | | (pGuestFeatures->fVmxRdpmcExit << VMX_BF_PROC_CTLS_RDPMC_EXIT_SHIFT )
|
---|
1323 | | (pGuestFeatures->fVmxRdtscExit << VMX_BF_PROC_CTLS_RDTSC_EXIT_SHIFT )
|
---|
1324 | | (pGuestFeatures->fVmxCr3LoadExit << VMX_BF_PROC_CTLS_CR3_LOAD_EXIT_SHIFT )
|
---|
1325 | | (pGuestFeatures->fVmxCr3StoreExit << VMX_BF_PROC_CTLS_CR3_STORE_EXIT_SHIFT )
|
---|
1326 | | (pGuestFeatures->fVmxCr8LoadExit << VMX_BF_PROC_CTLS_CR8_LOAD_EXIT_SHIFT )
|
---|
1327 | | (pGuestFeatures->fVmxCr8StoreExit << VMX_BF_PROC_CTLS_CR8_STORE_EXIT_SHIFT )
|
---|
1328 | | (pGuestFeatures->fVmxUseTprShadow << VMX_BF_PROC_CTLS_USE_TPR_SHADOW_SHIFT )
|
---|
1329 | | (pGuestFeatures->fVmxNmiWindowExit << VMX_BF_PROC_CTLS_NMI_WINDOW_EXIT_SHIFT )
|
---|
1330 | | (pGuestFeatures->fVmxMovDRxExit << VMX_BF_PROC_CTLS_MOV_DR_EXIT_SHIFT )
|
---|
1331 | | (pGuestFeatures->fVmxUncondIoExit << VMX_BF_PROC_CTLS_UNCOND_IO_EXIT_SHIFT )
|
---|
1332 | | (pGuestFeatures->fVmxUseIoBitmaps << VMX_BF_PROC_CTLS_USE_IO_BITMAPS_SHIFT )
|
---|
1333 | | (pGuestFeatures->fVmxMonitorTrapFlag << VMX_BF_PROC_CTLS_MONITOR_TRAP_FLAG_SHIFT )
|
---|
1334 | | (pGuestFeatures->fVmxUseMsrBitmaps << VMX_BF_PROC_CTLS_USE_MSR_BITMAPS_SHIFT )
|
---|
1335 | | (pGuestFeatures->fVmxMonitorExit << VMX_BF_PROC_CTLS_MONITOR_EXIT_SHIFT )
|
---|
1336 | | (pGuestFeatures->fVmxPauseExit << VMX_BF_PROC_CTLS_PAUSE_EXIT_SHIFT )
|
---|
1337 | | (pGuestFeatures->fVmxSecondaryExecCtls << VMX_BF_PROC_CTLS_USE_SECONDARY_CTLS_SHIFT);
|
---|
1338 | uint32_t const fAllowed0 = VMX_PROC_CTLS_DEFAULT1;
|
---|
1339 | uint32_t const fAllowed1 = fFeatures | VMX_PROC_CTLS_DEFAULT1;
|
---|
1340 | AssertMsg((fAllowed0 & fAllowed1) == fAllowed0, ("fAllowed0=%#RX32 fAllowed1=%#RX32 fFeatures=%#RX32\n", fAllowed0,
|
---|
1341 | fAllowed1, fFeatures));
|
---|
1342 | pGuestVmxMsrs->ProcCtls.u = RT_MAKE_U64(fAllowed0, fAllowed1);
|
---|
1343 | }
|
---|
1344 |
|
---|
1345 | /* Secondary processor-based VM-execution controls. */
|
---|
1346 | if (pGuestFeatures->fVmxSecondaryExecCtls)
|
---|
1347 | {
|
---|
1348 | uint32_t const fFeatures = (pGuestFeatures->fVmxVirtApicAccess << VMX_BF_PROC_CTLS2_VIRT_APIC_ACCESS_SHIFT )
|
---|
1349 | | (pGuestFeatures->fVmxEpt << VMX_BF_PROC_CTLS2_EPT_SHIFT )
|
---|
1350 | | (pGuestFeatures->fVmxDescTableExit << VMX_BF_PROC_CTLS2_DESC_TABLE_EXIT_SHIFT )
|
---|
1351 | | (pGuestFeatures->fVmxRdtscp << VMX_BF_PROC_CTLS2_RDTSCP_SHIFT )
|
---|
1352 | | (pGuestFeatures->fVmxVirtX2ApicMode << VMX_BF_PROC_CTLS2_VIRT_X2APIC_MODE_SHIFT )
|
---|
1353 | | (pGuestFeatures->fVmxVpid << VMX_BF_PROC_CTLS2_VPID_SHIFT )
|
---|
1354 | | (pGuestFeatures->fVmxWbinvdExit << VMX_BF_PROC_CTLS2_WBINVD_EXIT_SHIFT )
|
---|
1355 | | (pGuestFeatures->fVmxUnrestrictedGuest << VMX_BF_PROC_CTLS2_UNRESTRICTED_GUEST_SHIFT)
|
---|
1356 | | (pGuestFeatures->fVmxApicRegVirt << VMX_BF_PROC_CTLS2_APIC_REG_VIRT_SHIFT )
|
---|
1357 | | (pGuestFeatures->fVmxVirtIntDelivery << VMX_BF_PROC_CTLS2_VIRT_INT_DELIVERY_SHIFT )
|
---|
1358 | | (pGuestFeatures->fVmxPauseLoopExit << VMX_BF_PROC_CTLS2_PAUSE_LOOP_EXIT_SHIFT )
|
---|
1359 | | (pGuestFeatures->fVmxRdrandExit << VMX_BF_PROC_CTLS2_RDRAND_EXIT_SHIFT )
|
---|
1360 | | (pGuestFeatures->fVmxInvpcid << VMX_BF_PROC_CTLS2_INVPCID_SHIFT )
|
---|
1361 | | (pGuestFeatures->fVmxVmFunc << VMX_BF_PROC_CTLS2_VMFUNC_SHIFT )
|
---|
1362 | | (pGuestFeatures->fVmxVmcsShadowing << VMX_BF_PROC_CTLS2_VMCS_SHADOWING_SHIFT )
|
---|
1363 | | (pGuestFeatures->fVmxRdseedExit << VMX_BF_PROC_CTLS2_RDSEED_EXIT_SHIFT )
|
---|
1364 | | (pGuestFeatures->fVmxPml << VMX_BF_PROC_CTLS2_PML_SHIFT )
|
---|
1365 | | (pGuestFeatures->fVmxEptXcptVe << VMX_BF_PROC_CTLS2_EPT_VE_SHIFT )
|
---|
1366 | | (pGuestFeatures->fVmxXsavesXrstors << VMX_BF_PROC_CTLS2_XSAVES_XRSTORS_SHIFT )
|
---|
1367 | | (pGuestFeatures->fVmxUseTscScaling << VMX_BF_PROC_CTLS2_TSC_SCALING_SHIFT );
|
---|
1368 | uint32_t const fAllowed0 = 0;
|
---|
1369 | uint32_t const fAllowed1 = fFeatures;
|
---|
1370 | pGuestVmxMsrs->ProcCtls2.u = RT_MAKE_U64(fAllowed0, fAllowed1);
|
---|
1371 | }
|
---|
1372 |
|
---|
1373 | /* VM-exit controls. */
|
---|
1374 | {
|
---|
1375 | uint32_t const fFeatures = (pGuestFeatures->fVmxExitSaveDebugCtls << VMX_BF_EXIT_CTLS_SAVE_DEBUG_SHIFT )
|
---|
1376 | | (pGuestFeatures->fVmxHostAddrSpaceSize << VMX_BF_EXIT_CTLS_HOST_ADDR_SPACE_SIZE_SHIFT)
|
---|
1377 | | (pGuestFeatures->fVmxExitAckExtInt << VMX_BF_EXIT_CTLS_ACK_EXT_INT_SHIFT )
|
---|
1378 | | (pGuestFeatures->fVmxExitSavePatMsr << VMX_BF_EXIT_CTLS_SAVE_PAT_MSR_SHIFT )
|
---|
1379 | | (pGuestFeatures->fVmxExitLoadPatMsr << VMX_BF_EXIT_CTLS_LOAD_PAT_MSR_SHIFT )
|
---|
1380 | | (pGuestFeatures->fVmxExitSaveEferMsr << VMX_BF_EXIT_CTLS_SAVE_EFER_MSR_SHIFT )
|
---|
1381 | | (pGuestFeatures->fVmxExitLoadEferMsr << VMX_BF_EXIT_CTLS_LOAD_EFER_MSR_SHIFT )
|
---|
1382 | | (pGuestFeatures->fVmxSavePreemptTimer << VMX_BF_EXIT_CTLS_SAVE_PREEMPT_TIMER_SHIFT );
|
---|
1383 | /* Set the default1 class bits. See Intel spec. A.4 "VM-exit Controls". */
|
---|
1384 | uint32_t const fAllowed0 = VMX_EXIT_CTLS_DEFAULT1;
|
---|
1385 | uint32_t const fAllowed1 = fFeatures | VMX_EXIT_CTLS_DEFAULT1;
|
---|
1386 | AssertMsg((fAllowed0 & fAllowed1) == fAllowed0, ("fAllowed0=%#RX32 fAllowed1=%#RX32 fFeatures=%#RX32\n", fAllowed0,
|
---|
1387 | fAllowed1, fFeatures));
|
---|
1388 | pGuestVmxMsrs->ExitCtls.u = RT_MAKE_U64(fAllowed0, fAllowed1);
|
---|
1389 | }
|
---|
1390 |
|
---|
1391 | /* VM-entry controls. */
|
---|
1392 | {
|
---|
1393 | uint32_t const fFeatures = (pGuestFeatures->fVmxEntryLoadDebugCtls << VMX_BF_ENTRY_CTLS_LOAD_DEBUG_SHIFT )
|
---|
1394 | | (pGuestFeatures->fVmxIa32eModeGuest << VMX_BF_ENTRY_CTLS_IA32E_MODE_GUEST_SHIFT)
|
---|
1395 | | (pGuestFeatures->fVmxEntryLoadEferMsr << VMX_BF_ENTRY_CTLS_LOAD_EFER_MSR_SHIFT )
|
---|
1396 | | (pGuestFeatures->fVmxEntryLoadPatMsr << VMX_BF_ENTRY_CTLS_LOAD_PAT_MSR_SHIFT );
|
---|
1397 | uint32_t const fAllowed0 = VMX_ENTRY_CTLS_DEFAULT1;
|
---|
1398 | uint32_t const fAllowed1 = fFeatures | VMX_ENTRY_CTLS_DEFAULT1;
|
---|
1399 | AssertMsg((fAllowed0 & fAllowed1) == fAllowed0, ("fAllowed0=%#RX32 fAllowed0=%#RX32 fFeatures=%#RX32\n", fAllowed0,
|
---|
1400 | fAllowed1, fFeatures));
|
---|
1401 | pGuestVmxMsrs->EntryCtls.u = RT_MAKE_U64(fAllowed0, fAllowed1);
|
---|
1402 | }
|
---|
1403 |
|
---|
1404 | /* Miscellaneous data. */
|
---|
1405 | {
|
---|
1406 | uint64_t const uHostMsr = fIsNstGstHwExecAllowed ? pHostVmxMsrs->u64Misc : 0;
|
---|
1407 |
|
---|
1408 | uint8_t const cMaxMsrs = RT_MIN(RT_BF_GET(uHostMsr, VMX_BF_MISC_MAX_MSRS), VMX_V_AUTOMSR_COUNT_MAX);
|
---|
1409 | uint8_t const fActivityState = RT_BF_GET(uHostMsr, VMX_BF_MISC_ACTIVITY_STATES) & VMX_V_GUEST_ACTIVITY_STATE_MASK;
|
---|
1410 | pGuestVmxMsrs->u64Misc = RT_BF_MAKE(VMX_BF_MISC_PREEMPT_TIMER_TSC, VMX_V_PREEMPT_TIMER_SHIFT )
|
---|
1411 | | RT_BF_MAKE(VMX_BF_MISC_EXIT_SAVE_EFER_LMA, pGuestFeatures->fVmxExitSaveEferLma )
|
---|
1412 | | RT_BF_MAKE(VMX_BF_MISC_ACTIVITY_STATES, fActivityState )
|
---|
1413 | | RT_BF_MAKE(VMX_BF_MISC_INTEL_PT, pGuestFeatures->fVmxIntelPt )
|
---|
1414 | | RT_BF_MAKE(VMX_BF_MISC_SMM_READ_SMBASE_MSR, 0 )
|
---|
1415 | | RT_BF_MAKE(VMX_BF_MISC_CR3_TARGET, VMX_V_CR3_TARGET_COUNT )
|
---|
1416 | | RT_BF_MAKE(VMX_BF_MISC_MAX_MSRS, cMaxMsrs )
|
---|
1417 | | RT_BF_MAKE(VMX_BF_MISC_VMXOFF_BLOCK_SMI, 0 )
|
---|
1418 | | RT_BF_MAKE(VMX_BF_MISC_VMWRITE_ALL, pGuestFeatures->fVmxVmwriteAll )
|
---|
1419 | | RT_BF_MAKE(VMX_BF_MISC_ENTRY_INJECT_SOFT_INT, pGuestFeatures->fVmxEntryInjectSoftInt)
|
---|
1420 | | RT_BF_MAKE(VMX_BF_MISC_MSEG_ID, VMX_V_MSEG_REV_ID );
|
---|
1421 | }
|
---|
1422 |
|
---|
1423 | /* CR0 Fixed-0. */
|
---|
1424 | pGuestVmxMsrs->u64Cr0Fixed0 = pGuestFeatures->fVmxUnrestrictedGuest ? VMX_V_CR0_FIXED0_UX: VMX_V_CR0_FIXED0;
|
---|
1425 |
|
---|
1426 | /* CR0 Fixed-1. */
|
---|
1427 | {
|
---|
1428 | /*
|
---|
1429 | * All CPUs I've looked at so far report CR0 fixed-1 bits as 0xffffffff.
|
---|
1430 | * This is different from CR4 fixed-1 bits which are reported as per the
|
---|
1431 | * CPU features and/or micro-architecture/generation. Why? Ask Intel.
|
---|
1432 | */
|
---|
1433 | uint64_t const uHostMsr = fIsNstGstHwExecAllowed ? pHostVmxMsrs->u64Cr0Fixed1 : 0xffffffff;
|
---|
1434 | pGuestVmxMsrs->u64Cr0Fixed1 = uHostMsr | VMX_V_CR0_FIXED0; /* Make sure the CR0 MB1 bits are not clear. */
|
---|
1435 | }
|
---|
1436 |
|
---|
1437 | /* CR4 Fixed-0. */
|
---|
1438 | pGuestVmxMsrs->u64Cr4Fixed0 = VMX_V_CR4_FIXED0;
|
---|
1439 |
|
---|
1440 | /* CR4 Fixed-1. */
|
---|
1441 | {
|
---|
1442 | uint64_t const uHostMsr = fIsNstGstHwExecAllowed ? pHostVmxMsrs->u64Cr4Fixed1 : CPUMGetGuestCR4ValidMask(pVM);
|
---|
1443 | pGuestVmxMsrs->u64Cr4Fixed1 = uHostMsr | VMX_V_CR4_FIXED0; /* Make sure the CR4 MB1 bits are not clear. */
|
---|
1444 | }
|
---|
1445 |
|
---|
1446 | /* VMCS Enumeration. */
|
---|
1447 | pGuestVmxMsrs->u64VmcsEnum = VMX_V_VMCS_MAX_INDEX << VMX_BF_VMCS_ENUM_HIGHEST_IDX_SHIFT;
|
---|
1448 |
|
---|
1449 | /* VM Functions. */
|
---|
1450 | if (pGuestFeatures->fVmxVmFunc)
|
---|
1451 | pGuestVmxMsrs->u64VmFunc = RT_BF_MAKE(VMX_BF_VMFUNC_EPTP_SWITCHING, 1);
|
---|
1452 | }
|
---|
1453 |
|
---|
1454 |
|
---|
1455 | #if 0
|
---|
1456 | /**
|
---|
1457 | * Checks whether the given guest CPU VMX features are compatible with the provided
|
---|
1458 | * base features.
|
---|
1459 | *
|
---|
1460 | * @returns @c true if compatible, @c false otherwise.
|
---|
1461 | * @param pVM The cross context VM structure.
|
---|
1462 | * @param pBase The base VMX CPU features.
|
---|
1463 | * @param pGst The guest VMX CPU features.
|
---|
1464 | *
|
---|
1465 | * @remarks Only VMX feature bits are examined.
|
---|
1466 | */
|
---|
1467 | static bool cpumR3AreVmxCpuFeaturesCompatible(PVM pVM, PCCPUMFEATURES pBase, PCCPUMFEATURES pGst)
|
---|
1468 | {
|
---|
1469 | if (cpumR3IsHwAssistVmxNstGstExecAllowed(pVM))
|
---|
1470 | {
|
---|
1471 | uint64_t const fBase = ((uint64_t)pBase->fVmxInsOutInfo << 0) | ((uint64_t)pBase->fVmxExtIntExit << 1)
|
---|
1472 | | ((uint64_t)pBase->fVmxNmiExit << 2) | ((uint64_t)pBase->fVmxVirtNmi << 3)
|
---|
1473 | | ((uint64_t)pBase->fVmxPreemptTimer << 4) | ((uint64_t)pBase->fVmxPostedInt << 5)
|
---|
1474 | | ((uint64_t)pBase->fVmxIntWindowExit << 6) | ((uint64_t)pBase->fVmxTscOffsetting << 7)
|
---|
1475 | | ((uint64_t)pBase->fVmxHltExit << 8) | ((uint64_t)pBase->fVmxInvlpgExit << 9)
|
---|
1476 | | ((uint64_t)pBase->fVmxMwaitExit << 10) | ((uint64_t)pBase->fVmxRdpmcExit << 11)
|
---|
1477 | | ((uint64_t)pBase->fVmxRdtscExit << 12) | ((uint64_t)pBase->fVmxCr3LoadExit << 13)
|
---|
1478 | | ((uint64_t)pBase->fVmxCr3StoreExit << 14) | ((uint64_t)pBase->fVmxCr8LoadExit << 15)
|
---|
1479 | | ((uint64_t)pBase->fVmxCr8StoreExit << 16) | ((uint64_t)pBase->fVmxUseTprShadow << 17)
|
---|
1480 | | ((uint64_t)pBase->fVmxNmiWindowExit << 18) | ((uint64_t)pBase->fVmxMovDRxExit << 19)
|
---|
1481 | | ((uint64_t)pBase->fVmxUncondIoExit << 20) | ((uint64_t)pBase->fVmxUseIoBitmaps << 21)
|
---|
1482 | | ((uint64_t)pBase->fVmxMonitorTrapFlag << 22) | ((uint64_t)pBase->fVmxUseMsrBitmaps << 23)
|
---|
1483 | | ((uint64_t)pBase->fVmxMonitorExit << 24) | ((uint64_t)pBase->fVmxPauseExit << 25)
|
---|
1484 | | ((uint64_t)pBase->fVmxSecondaryExecCtls << 26) | ((uint64_t)pBase->fVmxVirtApicAccess << 27)
|
---|
1485 | | ((uint64_t)pBase->fVmxEpt << 28) | ((uint64_t)pBase->fVmxDescTableExit << 29)
|
---|
1486 | | ((uint64_t)pBase->fVmxRdtscp << 30) | ((uint64_t)pBase->fVmxVirtX2ApicMode << 31)
|
---|
1487 | | ((uint64_t)pBase->fVmxVpid << 32) | ((uint64_t)pBase->fVmxWbinvdExit << 33)
|
---|
1488 | | ((uint64_t)pBase->fVmxUnrestrictedGuest << 34) | ((uint64_t)pBase->fVmxApicRegVirt << 35)
|
---|
1489 | | ((uint64_t)pBase->fVmxVirtIntDelivery << 36) | ((uint64_t)pBase->fVmxPauseLoopExit << 37)
|
---|
1490 | | ((uint64_t)pBase->fVmxRdrandExit << 38) | ((uint64_t)pBase->fVmxInvpcid << 39)
|
---|
1491 | | ((uint64_t)pBase->fVmxVmFunc << 40) | ((uint64_t)pBase->fVmxVmcsShadowing << 41)
|
---|
1492 | | ((uint64_t)pBase->fVmxRdseedExit << 42) | ((uint64_t)pBase->fVmxPml << 43)
|
---|
1493 | | ((uint64_t)pBase->fVmxEptXcptVe << 44) | ((uint64_t)pBase->fVmxXsavesXrstors << 45)
|
---|
1494 | | ((uint64_t)pBase->fVmxUseTscScaling << 46) | ((uint64_t)pBase->fVmxEntryLoadDebugCtls << 47)
|
---|
1495 | | ((uint64_t)pBase->fVmxIa32eModeGuest << 48) | ((uint64_t)pBase->fVmxEntryLoadEferMsr << 49)
|
---|
1496 | | ((uint64_t)pBase->fVmxEntryLoadPatMsr << 50) | ((uint64_t)pBase->fVmxExitSaveDebugCtls << 51)
|
---|
1497 | | ((uint64_t)pBase->fVmxHostAddrSpaceSize << 52) | ((uint64_t)pBase->fVmxExitAckExtInt << 53)
|
---|
1498 | | ((uint64_t)pBase->fVmxExitSavePatMsr << 54) | ((uint64_t)pBase->fVmxExitLoadPatMsr << 55)
|
---|
1499 | | ((uint64_t)pBase->fVmxExitSaveEferMsr << 56) | ((uint64_t)pBase->fVmxExitLoadEferMsr << 57)
|
---|
1500 | | ((uint64_t)pBase->fVmxSavePreemptTimer << 58) | ((uint64_t)pBase->fVmxExitSaveEferLma << 59)
|
---|
1501 | | ((uint64_t)pBase->fVmxIntelPt << 60) | ((uint64_t)pBase->fVmxVmwriteAll << 61)
|
---|
1502 | | ((uint64_t)pBase->fVmxEntryInjectSoftInt << 62);
|
---|
1503 |
|
---|
1504 | uint64_t const fGst = ((uint64_t)pGst->fVmxInsOutInfo << 0) | ((uint64_t)pGst->fVmxExtIntExit << 1)
|
---|
1505 | | ((uint64_t)pGst->fVmxNmiExit << 2) | ((uint64_t)pGst->fVmxVirtNmi << 3)
|
---|
1506 | | ((uint64_t)pGst->fVmxPreemptTimer << 4) | ((uint64_t)pGst->fVmxPostedInt << 5)
|
---|
1507 | | ((uint64_t)pGst->fVmxIntWindowExit << 6) | ((uint64_t)pGst->fVmxTscOffsetting << 7)
|
---|
1508 | | ((uint64_t)pGst->fVmxHltExit << 8) | ((uint64_t)pGst->fVmxInvlpgExit << 9)
|
---|
1509 | | ((uint64_t)pGst->fVmxMwaitExit << 10) | ((uint64_t)pGst->fVmxRdpmcExit << 11)
|
---|
1510 | | ((uint64_t)pGst->fVmxRdtscExit << 12) | ((uint64_t)pGst->fVmxCr3LoadExit << 13)
|
---|
1511 | | ((uint64_t)pGst->fVmxCr3StoreExit << 14) | ((uint64_t)pGst->fVmxCr8LoadExit << 15)
|
---|
1512 | | ((uint64_t)pGst->fVmxCr8StoreExit << 16) | ((uint64_t)pGst->fVmxUseTprShadow << 17)
|
---|
1513 | | ((uint64_t)pGst->fVmxNmiWindowExit << 18) | ((uint64_t)pGst->fVmxMovDRxExit << 19)
|
---|
1514 | | ((uint64_t)pGst->fVmxUncondIoExit << 20) | ((uint64_t)pGst->fVmxUseIoBitmaps << 21)
|
---|
1515 | | ((uint64_t)pGst->fVmxMonitorTrapFlag << 22) | ((uint64_t)pGst->fVmxUseMsrBitmaps << 23)
|
---|
1516 | | ((uint64_t)pGst->fVmxMonitorExit << 24) | ((uint64_t)pGst->fVmxPauseExit << 25)
|
---|
1517 | | ((uint64_t)pGst->fVmxSecondaryExecCtls << 26) | ((uint64_t)pGst->fVmxVirtApicAccess << 27)
|
---|
1518 | | ((uint64_t)pGst->fVmxEpt << 28) | ((uint64_t)pGst->fVmxDescTableExit << 29)
|
---|
1519 | | ((uint64_t)pGst->fVmxRdtscp << 30) | ((uint64_t)pGst->fVmxVirtX2ApicMode << 31)
|
---|
1520 | | ((uint64_t)pGst->fVmxVpid << 32) | ((uint64_t)pGst->fVmxWbinvdExit << 33)
|
---|
1521 | | ((uint64_t)pGst->fVmxUnrestrictedGuest << 34) | ((uint64_t)pGst->fVmxApicRegVirt << 35)
|
---|
1522 | | ((uint64_t)pGst->fVmxVirtIntDelivery << 36) | ((uint64_t)pGst->fVmxPauseLoopExit << 37)
|
---|
1523 | | ((uint64_t)pGst->fVmxRdrandExit << 38) | ((uint64_t)pGst->fVmxInvpcid << 39)
|
---|
1524 | | ((uint64_t)pGst->fVmxVmFunc << 40) | ((uint64_t)pGst->fVmxVmcsShadowing << 41)
|
---|
1525 | | ((uint64_t)pGst->fVmxRdseedExit << 42) | ((uint64_t)pGst->fVmxPml << 43)
|
---|
1526 | | ((uint64_t)pGst->fVmxEptXcptVe << 44) | ((uint64_t)pGst->fVmxXsavesXrstors << 45)
|
---|
1527 | | ((uint64_t)pGst->fVmxUseTscScaling << 46) | ((uint64_t)pGst->fVmxEntryLoadDebugCtls << 47)
|
---|
1528 | | ((uint64_t)pGst->fVmxIa32eModeGuest << 48) | ((uint64_t)pGst->fVmxEntryLoadEferMsr << 49)
|
---|
1529 | | ((uint64_t)pGst->fVmxEntryLoadPatMsr << 50) | ((uint64_t)pGst->fVmxExitSaveDebugCtls << 51)
|
---|
1530 | | ((uint64_t)pGst->fVmxHostAddrSpaceSize << 52) | ((uint64_t)pGst->fVmxExitAckExtInt << 53)
|
---|
1531 | | ((uint64_t)pGst->fVmxExitSavePatMsr << 54) | ((uint64_t)pGst->fVmxExitLoadPatMsr << 55)
|
---|
1532 | | ((uint64_t)pGst->fVmxExitSaveEferMsr << 56) | ((uint64_t)pGst->fVmxExitLoadEferMsr << 57)
|
---|
1533 | | ((uint64_t)pGst->fVmxSavePreemptTimer << 58) | ((uint64_t)pGst->fVmxExitSaveEferLma << 59)
|
---|
1534 | | ((uint64_t)pGst->fVmxIntelPt << 60) | ((uint64_t)pGst->fVmxVmwriteAll << 61)
|
---|
1535 | | ((uint64_t)pGst->fVmxEntryInjectSoftInt << 62);
|
---|
1536 |
|
---|
1537 | if ((fBase | fGst) != fBase)
|
---|
1538 | return false;
|
---|
1539 | return true;
|
---|
1540 | }
|
---|
1541 | return true;
|
---|
1542 | }
|
---|
1543 | #endif
|
---|
1544 |
|
---|
1545 |
|
---|
1546 | /**
|
---|
1547 | * Initializes VMX guest features and MSRs.
|
---|
1548 | *
|
---|
1549 | * @param pVM The cross context VM structure.
|
---|
1550 | * @param pHostVmxMsrs The host VMX MSRs. Pass NULL when fully emulating VMX
|
---|
1551 | * and no hardware-assisted nested-guest execution is
|
---|
1552 | * possible for this VM.
|
---|
1553 | * @param pGuestVmxMsrs Where to store the initialized guest VMX MSRs.
|
---|
1554 | */
|
---|
1555 | void cpumR3InitVmxGuestFeaturesAndMsrs(PVM pVM, PCVMXMSRS pHostVmxMsrs, PVMXMSRS pGuestVmxMsrs)
|
---|
1556 | {
|
---|
1557 | Assert(pVM);
|
---|
1558 | Assert(pGuestVmxMsrs);
|
---|
1559 |
|
---|
1560 | /*
|
---|
1561 | * Initialize the set of VMX features we emulate.
|
---|
1562 | *
|
---|
1563 | * Note! Some bits might be reported as 1 always if they fall under the
|
---|
1564 | * default1 class bits (e.g. fVmxEntryLoadDebugCtls), see @bugref{9180#c5}.
|
---|
1565 | */
|
---|
1566 | CPUMFEATURES EmuFeat;
|
---|
1567 | RT_ZERO(EmuFeat);
|
---|
1568 | EmuFeat.fVmx = 1;
|
---|
1569 | EmuFeat.fVmxInsOutInfo = 0;
|
---|
1570 | EmuFeat.fVmxExtIntExit = 1;
|
---|
1571 | EmuFeat.fVmxNmiExit = 1;
|
---|
1572 | EmuFeat.fVmxVirtNmi = 0;
|
---|
1573 | EmuFeat.fVmxPreemptTimer = 0; /** @todo NSTVMX: enable this. */
|
---|
1574 | EmuFeat.fVmxPostedInt = 0;
|
---|
1575 | EmuFeat.fVmxIntWindowExit = 1;
|
---|
1576 | EmuFeat.fVmxTscOffsetting = 1;
|
---|
1577 | EmuFeat.fVmxHltExit = 1;
|
---|
1578 | EmuFeat.fVmxInvlpgExit = 1;
|
---|
1579 | EmuFeat.fVmxMwaitExit = 1;
|
---|
1580 | EmuFeat.fVmxRdpmcExit = 1;
|
---|
1581 | EmuFeat.fVmxRdtscExit = 1;
|
---|
1582 | EmuFeat.fVmxCr3LoadExit = 1;
|
---|
1583 | EmuFeat.fVmxCr3StoreExit = 1;
|
---|
1584 | EmuFeat.fVmxCr8LoadExit = 1;
|
---|
1585 | EmuFeat.fVmxCr8StoreExit = 1;
|
---|
1586 | EmuFeat.fVmxUseTprShadow = 0;
|
---|
1587 | EmuFeat.fVmxNmiWindowExit = 0;
|
---|
1588 | EmuFeat.fVmxMovDRxExit = 1;
|
---|
1589 | EmuFeat.fVmxUncondIoExit = 1;
|
---|
1590 | EmuFeat.fVmxUseIoBitmaps = 1;
|
---|
1591 | EmuFeat.fVmxMonitorTrapFlag = 0;
|
---|
1592 | EmuFeat.fVmxUseMsrBitmaps = 0;
|
---|
1593 | EmuFeat.fVmxMonitorExit = 1;
|
---|
1594 | EmuFeat.fVmxPauseExit = 1;
|
---|
1595 | EmuFeat.fVmxSecondaryExecCtls = 1;
|
---|
1596 | EmuFeat.fVmxVirtApicAccess = 0;
|
---|
1597 | EmuFeat.fVmxEpt = 0;
|
---|
1598 | EmuFeat.fVmxDescTableExit = 1;
|
---|
1599 | EmuFeat.fVmxRdtscp = 1;
|
---|
1600 | EmuFeat.fVmxVirtX2ApicMode = 0;
|
---|
1601 | EmuFeat.fVmxVpid = 0;
|
---|
1602 | EmuFeat.fVmxWbinvdExit = 1;
|
---|
1603 | EmuFeat.fVmxUnrestrictedGuest = 0;
|
---|
1604 | EmuFeat.fVmxApicRegVirt = 0;
|
---|
1605 | EmuFeat.fVmxVirtIntDelivery = 0;
|
---|
1606 | EmuFeat.fVmxPauseLoopExit = 0;
|
---|
1607 | EmuFeat.fVmxRdrandExit = 0;
|
---|
1608 | EmuFeat.fVmxInvpcid = 1;
|
---|
1609 | EmuFeat.fVmxVmFunc = 0;
|
---|
1610 | EmuFeat.fVmxVmcsShadowing = 0;
|
---|
1611 | EmuFeat.fVmxRdseedExit = 0;
|
---|
1612 | EmuFeat.fVmxPml = 0;
|
---|
1613 | EmuFeat.fVmxEptXcptVe = 0;
|
---|
1614 | EmuFeat.fVmxXsavesXrstors = 0;
|
---|
1615 | EmuFeat.fVmxUseTscScaling = 0;
|
---|
1616 | EmuFeat.fVmxEntryLoadDebugCtls = 1;
|
---|
1617 | EmuFeat.fVmxIa32eModeGuest = 1;
|
---|
1618 | EmuFeat.fVmxEntryLoadEferMsr = 1;
|
---|
1619 | EmuFeat.fVmxEntryLoadPatMsr = 0;
|
---|
1620 | EmuFeat.fVmxExitSaveDebugCtls = 1;
|
---|
1621 | EmuFeat.fVmxHostAddrSpaceSize = 1;
|
---|
1622 | EmuFeat.fVmxExitAckExtInt = 0;
|
---|
1623 | EmuFeat.fVmxExitSavePatMsr = 0;
|
---|
1624 | EmuFeat.fVmxExitLoadPatMsr = 0;
|
---|
1625 | EmuFeat.fVmxExitSaveEferMsr = 1;
|
---|
1626 | EmuFeat.fVmxExitLoadEferMsr = 1;
|
---|
1627 | EmuFeat.fVmxSavePreemptTimer = 0;
|
---|
1628 | EmuFeat.fVmxExitSaveEferLma = 1;
|
---|
1629 | EmuFeat.fVmxIntelPt = 0;
|
---|
1630 | EmuFeat.fVmxVmwriteAll = 0;
|
---|
1631 | EmuFeat.fVmxEntryInjectSoftInt = 0;
|
---|
1632 |
|
---|
1633 | /*
|
---|
1634 | * Merge guest features.
|
---|
1635 | *
|
---|
1636 | * When hardware-assisted VMX may be used, any feature we emulate must also be supported
|
---|
1637 | * by the hardware, hence we merge our emulated features with the host features below.
|
---|
1638 | */
|
---|
1639 | PCCPUMFEATURES pBaseFeat = cpumR3IsHwAssistNstGstExecAllowed(pVM) ? &pVM->cpum.s.HostFeatures : &EmuFeat;
|
---|
1640 | PCPUMFEATURES pGuestFeat = &pVM->cpum.s.GuestFeatures;
|
---|
1641 | Assert(pBaseFeat->fVmx);
|
---|
1642 | pGuestFeat->fVmxInsOutInfo = (pBaseFeat->fVmxInsOutInfo & EmuFeat.fVmxInsOutInfo );
|
---|
1643 | pGuestFeat->fVmxExtIntExit = (pBaseFeat->fVmxExtIntExit & EmuFeat.fVmxExtIntExit );
|
---|
1644 | pGuestFeat->fVmxNmiExit = (pBaseFeat->fVmxNmiExit & EmuFeat.fVmxNmiExit );
|
---|
1645 | pGuestFeat->fVmxVirtNmi = (pBaseFeat->fVmxVirtNmi & EmuFeat.fVmxVirtNmi );
|
---|
1646 | pGuestFeat->fVmxPreemptTimer = (pBaseFeat->fVmxPreemptTimer & EmuFeat.fVmxPreemptTimer );
|
---|
1647 | pGuestFeat->fVmxPostedInt = (pBaseFeat->fVmxPostedInt & EmuFeat.fVmxPostedInt );
|
---|
1648 | pGuestFeat->fVmxIntWindowExit = (pBaseFeat->fVmxIntWindowExit & EmuFeat.fVmxIntWindowExit );
|
---|
1649 | pGuestFeat->fVmxTscOffsetting = (pBaseFeat->fVmxTscOffsetting & EmuFeat.fVmxTscOffsetting );
|
---|
1650 | pGuestFeat->fVmxHltExit = (pBaseFeat->fVmxHltExit & EmuFeat.fVmxHltExit );
|
---|
1651 | pGuestFeat->fVmxInvlpgExit = (pBaseFeat->fVmxInvlpgExit & EmuFeat.fVmxInvlpgExit );
|
---|
1652 | pGuestFeat->fVmxMwaitExit = (pBaseFeat->fVmxMwaitExit & EmuFeat.fVmxMwaitExit );
|
---|
1653 | pGuestFeat->fVmxRdpmcExit = (pBaseFeat->fVmxRdpmcExit & EmuFeat.fVmxRdpmcExit );
|
---|
1654 | pGuestFeat->fVmxRdtscExit = (pBaseFeat->fVmxRdtscExit & EmuFeat.fVmxRdtscExit );
|
---|
1655 | pGuestFeat->fVmxCr3LoadExit = (pBaseFeat->fVmxCr3LoadExit & EmuFeat.fVmxCr3LoadExit );
|
---|
1656 | pGuestFeat->fVmxCr3StoreExit = (pBaseFeat->fVmxCr3StoreExit & EmuFeat.fVmxCr3StoreExit );
|
---|
1657 | pGuestFeat->fVmxCr8LoadExit = (pBaseFeat->fVmxCr8LoadExit & EmuFeat.fVmxCr8LoadExit );
|
---|
1658 | pGuestFeat->fVmxCr8StoreExit = (pBaseFeat->fVmxCr8StoreExit & EmuFeat.fVmxCr8StoreExit );
|
---|
1659 | pGuestFeat->fVmxUseTprShadow = (pBaseFeat->fVmxUseTprShadow & EmuFeat.fVmxUseTprShadow );
|
---|
1660 | pGuestFeat->fVmxNmiWindowExit = (pBaseFeat->fVmxNmiWindowExit & EmuFeat.fVmxNmiWindowExit );
|
---|
1661 | pGuestFeat->fVmxMovDRxExit = (pBaseFeat->fVmxMovDRxExit & EmuFeat.fVmxMovDRxExit );
|
---|
1662 | pGuestFeat->fVmxUncondIoExit = (pBaseFeat->fVmxUncondIoExit & EmuFeat.fVmxUncondIoExit );
|
---|
1663 | pGuestFeat->fVmxUseIoBitmaps = (pBaseFeat->fVmxUseIoBitmaps & EmuFeat.fVmxUseIoBitmaps );
|
---|
1664 | pGuestFeat->fVmxMonitorTrapFlag = (pBaseFeat->fVmxMonitorTrapFlag & EmuFeat.fVmxMonitorTrapFlag );
|
---|
1665 | pGuestFeat->fVmxUseMsrBitmaps = (pBaseFeat->fVmxUseMsrBitmaps & EmuFeat.fVmxUseMsrBitmaps );
|
---|
1666 | pGuestFeat->fVmxMonitorExit = (pBaseFeat->fVmxMonitorExit & EmuFeat.fVmxMonitorExit );
|
---|
1667 | pGuestFeat->fVmxPauseExit = (pBaseFeat->fVmxPauseExit & EmuFeat.fVmxPauseExit );
|
---|
1668 | pGuestFeat->fVmxSecondaryExecCtls = (pBaseFeat->fVmxSecondaryExecCtls & EmuFeat.fVmxSecondaryExecCtls );
|
---|
1669 | pGuestFeat->fVmxVirtApicAccess = (pBaseFeat->fVmxVirtApicAccess & EmuFeat.fVmxVirtApicAccess );
|
---|
1670 | pGuestFeat->fVmxEpt = (pBaseFeat->fVmxEpt & EmuFeat.fVmxEpt );
|
---|
1671 | pGuestFeat->fVmxDescTableExit = (pBaseFeat->fVmxDescTableExit & EmuFeat.fVmxDescTableExit );
|
---|
1672 | pGuestFeat->fVmxRdtscp = (pBaseFeat->fVmxRdtscp & EmuFeat.fVmxRdtscp );
|
---|
1673 | pGuestFeat->fVmxVirtX2ApicMode = (pBaseFeat->fVmxVirtX2ApicMode & EmuFeat.fVmxVirtX2ApicMode );
|
---|
1674 | pGuestFeat->fVmxVpid = (pBaseFeat->fVmxVpid & EmuFeat.fVmxVpid );
|
---|
1675 | pGuestFeat->fVmxWbinvdExit = (pBaseFeat->fVmxWbinvdExit & EmuFeat.fVmxWbinvdExit );
|
---|
1676 | pGuestFeat->fVmxUnrestrictedGuest = (pBaseFeat->fVmxUnrestrictedGuest & EmuFeat.fVmxUnrestrictedGuest );
|
---|
1677 | pGuestFeat->fVmxApicRegVirt = (pBaseFeat->fVmxApicRegVirt & EmuFeat.fVmxApicRegVirt );
|
---|
1678 | pGuestFeat->fVmxVirtIntDelivery = (pBaseFeat->fVmxVirtIntDelivery & EmuFeat.fVmxVirtIntDelivery );
|
---|
1679 | pGuestFeat->fVmxPauseLoopExit = (pBaseFeat->fVmxPauseLoopExit & EmuFeat.fVmxPauseLoopExit );
|
---|
1680 | pGuestFeat->fVmxRdrandExit = (pBaseFeat->fVmxRdrandExit & EmuFeat.fVmxRdrandExit );
|
---|
1681 | pGuestFeat->fVmxInvpcid = (pBaseFeat->fVmxInvpcid & EmuFeat.fVmxInvpcid );
|
---|
1682 | pGuestFeat->fVmxVmFunc = (pBaseFeat->fVmxVmFunc & EmuFeat.fVmxVmFunc );
|
---|
1683 | pGuestFeat->fVmxVmcsShadowing = (pBaseFeat->fVmxVmcsShadowing & EmuFeat.fVmxVmcsShadowing );
|
---|
1684 | pGuestFeat->fVmxRdseedExit = (pBaseFeat->fVmxRdseedExit & EmuFeat.fVmxRdseedExit );
|
---|
1685 | pGuestFeat->fVmxPml = (pBaseFeat->fVmxPml & EmuFeat.fVmxPml );
|
---|
1686 | pGuestFeat->fVmxEptXcptVe = (pBaseFeat->fVmxEptXcptVe & EmuFeat.fVmxEptXcptVe );
|
---|
1687 | pGuestFeat->fVmxXsavesXrstors = (pBaseFeat->fVmxXsavesXrstors & EmuFeat.fVmxXsavesXrstors );
|
---|
1688 | pGuestFeat->fVmxUseTscScaling = (pBaseFeat->fVmxUseTscScaling & EmuFeat.fVmxUseTscScaling );
|
---|
1689 | pGuestFeat->fVmxEntryLoadDebugCtls = (pBaseFeat->fVmxEntryLoadDebugCtls & EmuFeat.fVmxEntryLoadDebugCtls );
|
---|
1690 | pGuestFeat->fVmxIa32eModeGuest = (pBaseFeat->fVmxIa32eModeGuest & EmuFeat.fVmxIa32eModeGuest );
|
---|
1691 | pGuestFeat->fVmxEntryLoadEferMsr = (pBaseFeat->fVmxEntryLoadEferMsr & EmuFeat.fVmxEntryLoadEferMsr );
|
---|
1692 | pGuestFeat->fVmxEntryLoadPatMsr = (pBaseFeat->fVmxEntryLoadPatMsr & EmuFeat.fVmxEntryLoadPatMsr );
|
---|
1693 | pGuestFeat->fVmxExitSaveDebugCtls = (pBaseFeat->fVmxExitSaveDebugCtls & EmuFeat.fVmxExitSaveDebugCtls );
|
---|
1694 | pGuestFeat->fVmxHostAddrSpaceSize = (pBaseFeat->fVmxHostAddrSpaceSize & EmuFeat.fVmxHostAddrSpaceSize );
|
---|
1695 | pGuestFeat->fVmxExitAckExtInt = (pBaseFeat->fVmxExitAckExtInt & EmuFeat.fVmxExitAckExtInt );
|
---|
1696 | pGuestFeat->fVmxExitSavePatMsr = (pBaseFeat->fVmxExitSavePatMsr & EmuFeat.fVmxExitSavePatMsr );
|
---|
1697 | pGuestFeat->fVmxExitLoadPatMsr = (pBaseFeat->fVmxExitLoadPatMsr & EmuFeat.fVmxExitLoadPatMsr );
|
---|
1698 | pGuestFeat->fVmxExitSaveEferMsr = (pBaseFeat->fVmxExitSaveEferMsr & EmuFeat.fVmxExitSaveEferMsr );
|
---|
1699 | pGuestFeat->fVmxExitLoadEferMsr = (pBaseFeat->fVmxExitLoadEferMsr & EmuFeat.fVmxExitLoadEferMsr );
|
---|
1700 | pGuestFeat->fVmxSavePreemptTimer = (pBaseFeat->fVmxSavePreemptTimer & EmuFeat.fVmxSavePreemptTimer );
|
---|
1701 | pGuestFeat->fVmxExitSaveEferLma = (pBaseFeat->fVmxExitSaveEferLma & EmuFeat.fVmxExitSaveEferLma );
|
---|
1702 | pGuestFeat->fVmxIntelPt = (pBaseFeat->fVmxIntelPt & EmuFeat.fVmxIntelPt );
|
---|
1703 | pGuestFeat->fVmxVmwriteAll = (pBaseFeat->fVmxVmwriteAll & EmuFeat.fVmxVmwriteAll );
|
---|
1704 | pGuestFeat->fVmxEntryInjectSoftInt = (pBaseFeat->fVmxEntryInjectSoftInt & EmuFeat.fVmxEntryInjectSoftInt );
|
---|
1705 |
|
---|
1706 | /* Paranoia. */
|
---|
1707 | if (!pGuestFeat->fVmxSecondaryExecCtls)
|
---|
1708 | {
|
---|
1709 | Assert(!pGuestFeat->fVmxVirtApicAccess);
|
---|
1710 | Assert(!pGuestFeat->fVmxEpt);
|
---|
1711 | Assert(!pGuestFeat->fVmxDescTableExit);
|
---|
1712 | Assert(!pGuestFeat->fVmxRdtscp);
|
---|
1713 | Assert(!pGuestFeat->fVmxVirtX2ApicMode);
|
---|
1714 | Assert(!pGuestFeat->fVmxVpid);
|
---|
1715 | Assert(!pGuestFeat->fVmxWbinvdExit);
|
---|
1716 | Assert(!pGuestFeat->fVmxUnrestrictedGuest);
|
---|
1717 | Assert(!pGuestFeat->fVmxApicRegVirt);
|
---|
1718 | Assert(!pGuestFeat->fVmxVirtIntDelivery);
|
---|
1719 | Assert(!pGuestFeat->fVmxPauseLoopExit);
|
---|
1720 | Assert(!pGuestFeat->fVmxRdrandExit);
|
---|
1721 | Assert(!pGuestFeat->fVmxInvpcid);
|
---|
1722 | Assert(!pGuestFeat->fVmxVmFunc);
|
---|
1723 | Assert(!pGuestFeat->fVmxVmcsShadowing);
|
---|
1724 | Assert(!pGuestFeat->fVmxRdseedExit);
|
---|
1725 | Assert(!pGuestFeat->fVmxPml);
|
---|
1726 | Assert(!pGuestFeat->fVmxEptXcptVe);
|
---|
1727 | Assert(!pGuestFeat->fVmxXsavesXrstors);
|
---|
1728 | Assert(!pGuestFeat->fVmxUseTscScaling);
|
---|
1729 | }
|
---|
1730 |
|
---|
1731 | /*
|
---|
1732 | * Finally initialize the VMX guest MSRs.
|
---|
1733 | */
|
---|
1734 | cpumR3InitVmxGuestMsrs(pVM, pHostVmxMsrs, pGuestFeat, pGuestVmxMsrs);
|
---|
1735 | }
|
---|
1736 |
|
---|
1737 |
|
---|
1738 | /**
|
---|
1739 | * Gets the host hardware-virtualization MSRs.
|
---|
1740 | *
|
---|
1741 | * @returns VBox status code.
|
---|
1742 | * @param pMsrs Where to store the MSRs.
|
---|
1743 | */
|
---|
1744 | static int cpumR3GetHostHwvirtMsrs(PCPUMMSRS pMsrs)
|
---|
1745 | {
|
---|
1746 | Assert(pMsrs);
|
---|
1747 |
|
---|
1748 | uint32_t fCaps = 0;
|
---|
1749 | int rc = SUPR3QueryVTCaps(&fCaps);
|
---|
1750 | if (RT_SUCCESS(rc))
|
---|
1751 | {
|
---|
1752 | if (fCaps & (SUPVTCAPS_VT_X | SUPVTCAPS_AMD_V))
|
---|
1753 | {
|
---|
1754 | SUPHWVIRTMSRS HwvirtMsrs;
|
---|
1755 | rc = SUPR3GetHwvirtMsrs(&HwvirtMsrs, false /* fForceRequery */);
|
---|
1756 | if (RT_SUCCESS(rc))
|
---|
1757 | {
|
---|
1758 | if (fCaps & SUPVTCAPS_VT_X)
|
---|
1759 | HMVmxGetVmxMsrsFromHwvirtMsrs(&HwvirtMsrs, &pMsrs->hwvirt.vmx);
|
---|
1760 | else
|
---|
1761 | HMVmxGetSvmMsrsFromHwvirtMsrs(&HwvirtMsrs, &pMsrs->hwvirt.svm);
|
---|
1762 | return VINF_SUCCESS;
|
---|
1763 | }
|
---|
1764 |
|
---|
1765 | LogRel(("CPUM: Querying hardware-virtualization MSRs failed. rc=%Rrc\n", rc));
|
---|
1766 | return rc;
|
---|
1767 | }
|
---|
1768 | else
|
---|
1769 | {
|
---|
1770 | LogRel(("CPUM: Querying hardware-virtualization capability succeeded but did not find VT-x or AMD-V\n"));
|
---|
1771 | return VERR_INTERNAL_ERROR_5;
|
---|
1772 | }
|
---|
1773 | }
|
---|
1774 | else
|
---|
1775 | LogRel(("CPUM: No hardware-virtualization capability detected\n"));
|
---|
1776 |
|
---|
1777 | return VINF_SUCCESS;
|
---|
1778 | }
|
---|
1779 |
|
---|
1780 |
|
---|
1781 | /**
|
---|
1782 | * Initializes the CPUM.
|
---|
1783 | *
|
---|
1784 | * @returns VBox status code.
|
---|
1785 | * @param pVM The cross context VM structure.
|
---|
1786 | */
|
---|
1787 | VMMR3DECL(int) CPUMR3Init(PVM pVM)
|
---|
1788 | {
|
---|
1789 | LogFlow(("CPUMR3Init\n"));
|
---|
1790 |
|
---|
1791 | /*
|
---|
1792 | * Assert alignment, sizes and tables.
|
---|
1793 | */
|
---|
1794 | AssertCompileMemberAlignment(VM, cpum.s, 32);
|
---|
1795 | AssertCompile(sizeof(pVM->cpum.s) <= sizeof(pVM->cpum.padding));
|
---|
1796 | AssertCompileSizeAlignment(CPUMCTX, 64);
|
---|
1797 | AssertCompileSizeAlignment(CPUMCTXMSRS, 64);
|
---|
1798 | AssertCompileSizeAlignment(CPUMHOSTCTX, 64);
|
---|
1799 | AssertCompileMemberAlignment(VM, cpum, 64);
|
---|
1800 | AssertCompileMemberAlignment(VM, aCpus, 64);
|
---|
1801 | AssertCompileMemberAlignment(VMCPU, cpum.s, 64);
|
---|
1802 | AssertCompileMemberSizeAlignment(VM, aCpus[0].cpum.s, 64);
|
---|
1803 | #ifdef VBOX_STRICT
|
---|
1804 | int rc2 = cpumR3MsrStrictInitChecks();
|
---|
1805 | AssertRCReturn(rc2, rc2);
|
---|
1806 | #endif
|
---|
1807 |
|
---|
1808 | /*
|
---|
1809 | * Initialize offsets.
|
---|
1810 | */
|
---|
1811 |
|
---|
1812 | /* Calculate the offset from CPUM to CPUMCPU for the first CPU. */
|
---|
1813 | pVM->cpum.s.offCPUMCPU0 = RT_UOFFSETOF(VM, aCpus[0].cpum) - RT_UOFFSETOF(VM, cpum);
|
---|
1814 | Assert((uintptr_t)&pVM->cpum + pVM->cpum.s.offCPUMCPU0 == (uintptr_t)&pVM->aCpus[0].cpum);
|
---|
1815 |
|
---|
1816 |
|
---|
1817 | /* Calculate the offset from CPUMCPU to CPUM. */
|
---|
1818 | for (VMCPUID i = 0; i < pVM->cCpus; i++)
|
---|
1819 | {
|
---|
1820 | PVMCPU pVCpu = &pVM->aCpus[i];
|
---|
1821 |
|
---|
1822 | pVCpu->cpum.s.offCPUM = RT_UOFFSETOF_DYN(VM, aCpus[i].cpum) - RT_UOFFSETOF(VM, cpum);
|
---|
1823 | Assert((uintptr_t)&pVCpu->cpum - pVCpu->cpum.s.offCPUM == (uintptr_t)&pVM->cpum);
|
---|
1824 | }
|
---|
1825 |
|
---|
1826 | /*
|
---|
1827 | * Gather info about the host CPU.
|
---|
1828 | */
|
---|
1829 | if (!ASMHasCpuId())
|
---|
1830 | {
|
---|
1831 | LogRel(("The CPU doesn't support CPUID!\n"));
|
---|
1832 | return VERR_UNSUPPORTED_CPU;
|
---|
1833 | }
|
---|
1834 |
|
---|
1835 | pVM->cpum.s.fHostMxCsrMask = CPUMR3DeterminHostMxCsrMask();
|
---|
1836 |
|
---|
1837 | CPUMMSRS HostMsrs;
|
---|
1838 | RT_ZERO(HostMsrs);
|
---|
1839 | int rc = cpumR3GetHostHwvirtMsrs(&HostMsrs);
|
---|
1840 | AssertLogRelRCReturn(rc, rc);
|
---|
1841 |
|
---|
1842 | PCPUMCPUIDLEAF paLeaves;
|
---|
1843 | uint32_t cLeaves;
|
---|
1844 | rc = CPUMR3CpuIdCollectLeaves(&paLeaves, &cLeaves);
|
---|
1845 | AssertLogRelRCReturn(rc, rc);
|
---|
1846 |
|
---|
1847 | rc = cpumR3CpuIdExplodeFeatures(paLeaves, cLeaves, &HostMsrs, &pVM->cpum.s.HostFeatures);
|
---|
1848 | RTMemFree(paLeaves);
|
---|
1849 | AssertLogRelRCReturn(rc, rc);
|
---|
1850 | pVM->cpum.s.GuestFeatures.enmCpuVendor = pVM->cpum.s.HostFeatures.enmCpuVendor;
|
---|
1851 |
|
---|
1852 | /*
|
---|
1853 | * Check that the CPU supports the minimum features we require.
|
---|
1854 | */
|
---|
1855 | if (!pVM->cpum.s.HostFeatures.fFxSaveRstor)
|
---|
1856 | return VMSetError(pVM, VERR_UNSUPPORTED_CPU, RT_SRC_POS, "Host CPU does not support the FXSAVE/FXRSTOR instruction.");
|
---|
1857 | if (!pVM->cpum.s.HostFeatures.fMmx)
|
---|
1858 | return VMSetError(pVM, VERR_UNSUPPORTED_CPU, RT_SRC_POS, "Host CPU does not support MMX.");
|
---|
1859 | if (!pVM->cpum.s.HostFeatures.fTsc)
|
---|
1860 | return VMSetError(pVM, VERR_UNSUPPORTED_CPU, RT_SRC_POS, "Host CPU does not support RDTSC.");
|
---|
1861 |
|
---|
1862 | /*
|
---|
1863 | * Setup the CR4 AND and OR masks used in the raw-mode switcher.
|
---|
1864 | */
|
---|
1865 | pVM->cpum.s.CR4.AndMask = X86_CR4_OSXMMEEXCPT | X86_CR4_PVI | X86_CR4_VME;
|
---|
1866 | pVM->cpum.s.CR4.OrMask = X86_CR4_OSFXSR;
|
---|
1867 |
|
---|
1868 | /*
|
---|
1869 | * Figure out which XSAVE/XRSTOR features are available on the host.
|
---|
1870 | */
|
---|
1871 | uint64_t fXcr0Host = 0;
|
---|
1872 | uint64_t fXStateHostMask = 0;
|
---|
1873 | if ( pVM->cpum.s.HostFeatures.fXSaveRstor
|
---|
1874 | && pVM->cpum.s.HostFeatures.fOpSysXSaveRstor)
|
---|
1875 | {
|
---|
1876 | fXStateHostMask = fXcr0Host = ASMGetXcr0();
|
---|
1877 | fXStateHostMask &= XSAVE_C_X87 | XSAVE_C_SSE | XSAVE_C_YMM | XSAVE_C_OPMASK | XSAVE_C_ZMM_HI256 | XSAVE_C_ZMM_16HI;
|
---|
1878 | AssertLogRelMsgStmt((fXStateHostMask & (XSAVE_C_X87 | XSAVE_C_SSE)) == (XSAVE_C_X87 | XSAVE_C_SSE),
|
---|
1879 | ("%#llx\n", fXStateHostMask), fXStateHostMask = 0);
|
---|
1880 | }
|
---|
1881 | pVM->cpum.s.fXStateHostMask = fXStateHostMask;
|
---|
1882 | if (VM_IS_RAW_MODE_ENABLED(pVM)) /* For raw-mode, we only use XSAVE/XRSTOR when the guest starts using it (CPUID/CR4 visibility). */
|
---|
1883 | fXStateHostMask = 0;
|
---|
1884 | LogRel(("CPUM: fXStateHostMask=%#llx; initial: %#llx; host XCR0=%#llx\n",
|
---|
1885 | pVM->cpum.s.fXStateHostMask, fXStateHostMask, fXcr0Host));
|
---|
1886 |
|
---|
1887 | /*
|
---|
1888 | * Allocate memory for the extended CPU state and initialize the host XSAVE/XRSTOR mask.
|
---|
1889 | */
|
---|
1890 | uint32_t cbMaxXState = pVM->cpum.s.HostFeatures.cbMaxExtendedState;
|
---|
1891 | cbMaxXState = RT_ALIGN(cbMaxXState, 128);
|
---|
1892 | AssertLogRelReturn(cbMaxXState >= sizeof(X86FXSTATE) && cbMaxXState <= _8K, VERR_CPUM_IPE_2);
|
---|
1893 |
|
---|
1894 | uint8_t *pbXStates;
|
---|
1895 | rc = MMR3HyperAllocOnceNoRelEx(pVM, cbMaxXState * 3 * pVM->cCpus, PAGE_SIZE, MM_TAG_CPUM_CTX,
|
---|
1896 | MMHYPER_AONR_FLAGS_KERNEL_MAPPING, (void **)&pbXStates);
|
---|
1897 | AssertLogRelRCReturn(rc, rc);
|
---|
1898 |
|
---|
1899 | for (VMCPUID i = 0; i < pVM->cCpus; i++)
|
---|
1900 | {
|
---|
1901 | PVMCPU pVCpu = &pVM->aCpus[i];
|
---|
1902 |
|
---|
1903 | pVCpu->cpum.s.Guest.pXStateR3 = (PX86XSAVEAREA)pbXStates;
|
---|
1904 | pVCpu->cpum.s.Guest.pXStateR0 = MMHyperR3ToR0(pVM, pbXStates);
|
---|
1905 | pVCpu->cpum.s.Guest.pXStateRC = MMHyperR3ToR0(pVM, pbXStates);
|
---|
1906 | pbXStates += cbMaxXState;
|
---|
1907 |
|
---|
1908 | pVCpu->cpum.s.Host.pXStateR3 = (PX86XSAVEAREA)pbXStates;
|
---|
1909 | pVCpu->cpum.s.Host.pXStateR0 = MMHyperR3ToR0(pVM, pbXStates);
|
---|
1910 | pVCpu->cpum.s.Host.pXStateRC = MMHyperR3ToR0(pVM, pbXStates);
|
---|
1911 | pbXStates += cbMaxXState;
|
---|
1912 |
|
---|
1913 | pVCpu->cpum.s.Hyper.pXStateR3 = (PX86XSAVEAREA)pbXStates;
|
---|
1914 | pVCpu->cpum.s.Hyper.pXStateR0 = MMHyperR3ToR0(pVM, pbXStates);
|
---|
1915 | pVCpu->cpum.s.Hyper.pXStateRC = MMHyperR3ToR0(pVM, pbXStates);
|
---|
1916 | pbXStates += cbMaxXState;
|
---|
1917 |
|
---|
1918 | pVCpu->cpum.s.Host.fXStateMask = fXStateHostMask;
|
---|
1919 | }
|
---|
1920 |
|
---|
1921 | /*
|
---|
1922 | * Register saved state data item.
|
---|
1923 | */
|
---|
1924 | rc = SSMR3RegisterInternal(pVM, "cpum", 1, CPUM_SAVED_STATE_VERSION, sizeof(CPUM),
|
---|
1925 | NULL, cpumR3LiveExec, NULL,
|
---|
1926 | NULL, cpumR3SaveExec, NULL,
|
---|
1927 | cpumR3LoadPrep, cpumR3LoadExec, cpumR3LoadDone);
|
---|
1928 | if (RT_FAILURE(rc))
|
---|
1929 | return rc;
|
---|
1930 |
|
---|
1931 | /*
|
---|
1932 | * Register info handlers and registers with the debugger facility.
|
---|
1933 | */
|
---|
1934 | DBGFR3InfoRegisterInternalEx(pVM, "cpum", "Displays the all the cpu states.",
|
---|
1935 | &cpumR3InfoAll, DBGFINFO_FLAGS_ALL_EMTS);
|
---|
1936 | DBGFR3InfoRegisterInternalEx(pVM, "cpumguest", "Displays the guest cpu state.",
|
---|
1937 | &cpumR3InfoGuest, DBGFINFO_FLAGS_ALL_EMTS);
|
---|
1938 | DBGFR3InfoRegisterInternalEx(pVM, "cpumguesthwvirt", "Displays the guest hwvirt. cpu state.",
|
---|
1939 | &cpumR3InfoGuestHwvirt, DBGFINFO_FLAGS_ALL_EMTS);
|
---|
1940 | DBGFR3InfoRegisterInternalEx(pVM, "cpumhyper", "Displays the hypervisor cpu state.",
|
---|
1941 | &cpumR3InfoHyper, DBGFINFO_FLAGS_ALL_EMTS);
|
---|
1942 | DBGFR3InfoRegisterInternalEx(pVM, "cpumhost", "Displays the host cpu state.",
|
---|
1943 | &cpumR3InfoHost, DBGFINFO_FLAGS_ALL_EMTS);
|
---|
1944 | DBGFR3InfoRegisterInternalEx(pVM, "cpumguestinstr", "Displays the current guest instruction.",
|
---|
1945 | &cpumR3InfoGuestInstr, DBGFINFO_FLAGS_ALL_EMTS);
|
---|
1946 | DBGFR3InfoRegisterInternal( pVM, "cpuid", "Displays the guest cpuid leaves.", &cpumR3CpuIdInfo);
|
---|
1947 | DBGFR3InfoRegisterInternal( pVM, "cpumvmxfeat", "Displays the host and guest VMX hwvirt. features.",
|
---|
1948 | &cpumR3InfoVmxFeatures);
|
---|
1949 |
|
---|
1950 | rc = cpumR3DbgInit(pVM);
|
---|
1951 | if (RT_FAILURE(rc))
|
---|
1952 | return rc;
|
---|
1953 |
|
---|
1954 | /*
|
---|
1955 | * Check if we need to workaround partial/leaky FPU handling.
|
---|
1956 | */
|
---|
1957 | cpumR3CheckLeakyFpu(pVM);
|
---|
1958 |
|
---|
1959 | /*
|
---|
1960 | * Initialize the Guest CPUID and MSR states.
|
---|
1961 | */
|
---|
1962 | rc = cpumR3InitCpuIdAndMsrs(pVM, &HostMsrs);
|
---|
1963 | if (RT_FAILURE(rc))
|
---|
1964 | return rc;
|
---|
1965 |
|
---|
1966 | /*
|
---|
1967 | * Allocate memory required by the guest hardware-virtualization structures.
|
---|
1968 | * This must be done after initializing CPUID/MSR features as we access the
|
---|
1969 | * the VMX/SVM guest features below.
|
---|
1970 | */
|
---|
1971 | if (pVM->cpum.s.GuestFeatures.fVmx)
|
---|
1972 | rc = cpumR3AllocVmxHwVirtState(pVM);
|
---|
1973 | else if (pVM->cpum.s.GuestFeatures.fSvm)
|
---|
1974 | rc = cpumR3AllocSvmHwVirtState(pVM);
|
---|
1975 | else
|
---|
1976 | Assert(pVM->aCpus[0].cpum.s.Guest.hwvirt.enmHwvirt == CPUMHWVIRT_NONE);
|
---|
1977 | if (RT_FAILURE(rc))
|
---|
1978 | return rc;
|
---|
1979 |
|
---|
1980 | /*
|
---|
1981 | * Workaround for missing cpuid(0) patches when leaf 4 returns GuestInfo.DefCpuId:
|
---|
1982 | * If we miss to patch a cpuid(0).eax then Linux tries to determine the number
|
---|
1983 | * of processors from (cpuid(4).eax >> 26) + 1.
|
---|
1984 | *
|
---|
1985 | * Note: this code is obsolete, but let's keep it here for reference.
|
---|
1986 | * Purpose is valid when we artificially cap the max std id to less than 4.
|
---|
1987 | *
|
---|
1988 | * Note: This used to be a separate function CPUMR3SetHwVirt that was called
|
---|
1989 | * after VMINITCOMPLETED_HM.
|
---|
1990 | */
|
---|
1991 | if (VM_IS_RAW_MODE_ENABLED(pVM))
|
---|
1992 | {
|
---|
1993 | Assert( (pVM->cpum.s.aGuestCpuIdPatmStd[4].uEax & UINT32_C(0xffffc000)) == 0
|
---|
1994 | || pVM->cpum.s.aGuestCpuIdPatmStd[0].uEax < 0x4);
|
---|
1995 | pVM->cpum.s.aGuestCpuIdPatmStd[4].uEax &= UINT32_C(0x00003fff);
|
---|
1996 | }
|
---|
1997 |
|
---|
1998 | CPUMR3Reset(pVM);
|
---|
1999 | return VINF_SUCCESS;
|
---|
2000 | }
|
---|
2001 |
|
---|
2002 |
|
---|
2003 | /**
|
---|
2004 | * Applies relocations to data and code managed by this
|
---|
2005 | * component. This function will be called at init and
|
---|
2006 | * whenever the VMM need to relocate it self inside the GC.
|
---|
2007 | *
|
---|
2008 | * The CPUM will update the addresses used by the switcher.
|
---|
2009 | *
|
---|
2010 | * @param pVM The cross context VM structure.
|
---|
2011 | */
|
---|
2012 | VMMR3DECL(void) CPUMR3Relocate(PVM pVM)
|
---|
2013 | {
|
---|
2014 | LogFlow(("CPUMR3Relocate\n"));
|
---|
2015 |
|
---|
2016 | pVM->cpum.s.GuestInfo.paMsrRangesRC = MMHyperR3ToRC(pVM, pVM->cpum.s.GuestInfo.paMsrRangesR3);
|
---|
2017 | pVM->cpum.s.GuestInfo.paCpuIdLeavesRC = MMHyperR3ToRC(pVM, pVM->cpum.s.GuestInfo.paCpuIdLeavesR3);
|
---|
2018 |
|
---|
2019 | for (VMCPUID iCpu = 0; iCpu < pVM->cCpus; iCpu++)
|
---|
2020 | {
|
---|
2021 | PVMCPU pVCpu = &pVM->aCpus[iCpu];
|
---|
2022 | pVCpu->cpum.s.Guest.pXStateRC = MMHyperR3ToRC(pVM, pVCpu->cpum.s.Guest.pXStateR3);
|
---|
2023 | pVCpu->cpum.s.Host.pXStateRC = MMHyperR3ToRC(pVM, pVCpu->cpum.s.Host.pXStateR3);
|
---|
2024 | pVCpu->cpum.s.Hyper.pXStateRC = MMHyperR3ToRC(pVM, pVCpu->cpum.s.Hyper.pXStateR3); /** @todo remove me */
|
---|
2025 |
|
---|
2026 | /* Recheck the guest DRx values in raw-mode. */
|
---|
2027 | CPUMRecalcHyperDRx(pVCpu, UINT8_MAX, false);
|
---|
2028 | }
|
---|
2029 | }
|
---|
2030 |
|
---|
2031 |
|
---|
2032 | /**
|
---|
2033 | * Terminates the CPUM.
|
---|
2034 | *
|
---|
2035 | * Termination means cleaning up and freeing all resources,
|
---|
2036 | * the VM it self is at this point powered off or suspended.
|
---|
2037 | *
|
---|
2038 | * @returns VBox status code.
|
---|
2039 | * @param pVM The cross context VM structure.
|
---|
2040 | */
|
---|
2041 | VMMR3DECL(int) CPUMR3Term(PVM pVM)
|
---|
2042 | {
|
---|
2043 | #ifdef VBOX_WITH_CRASHDUMP_MAGIC
|
---|
2044 | for (VMCPUID i = 0; i < pVM->cCpus; i++)
|
---|
2045 | {
|
---|
2046 | PVMCPU pVCpu = &pVM->aCpus[i];
|
---|
2047 | PCPUMCTX pCtx = CPUMQueryGuestCtxPtr(pVCpu);
|
---|
2048 |
|
---|
2049 | memset(pVCpu->cpum.s.aMagic, 0, sizeof(pVCpu->cpum.s.aMagic));
|
---|
2050 | pVCpu->cpum.s.uMagic = 0;
|
---|
2051 | pCtx->dr[5] = 0;
|
---|
2052 | }
|
---|
2053 | #endif
|
---|
2054 |
|
---|
2055 | if (pVM->cpum.s.GuestFeatures.fVmx)
|
---|
2056 | cpumR3FreeVmxHwVirtState(pVM);
|
---|
2057 | else if (pVM->cpum.s.GuestFeatures.fSvm)
|
---|
2058 | cpumR3FreeSvmHwVirtState(pVM);
|
---|
2059 | return VINF_SUCCESS;
|
---|
2060 | }
|
---|
2061 |
|
---|
2062 |
|
---|
2063 | /**
|
---|
2064 | * Resets a virtual CPU.
|
---|
2065 | *
|
---|
2066 | * Used by CPUMR3Reset and CPU hot plugging.
|
---|
2067 | *
|
---|
2068 | * @param pVM The cross context VM structure.
|
---|
2069 | * @param pVCpu The cross context virtual CPU structure of the CPU that is
|
---|
2070 | * being reset. This may differ from the current EMT.
|
---|
2071 | */
|
---|
2072 | VMMR3DECL(void) CPUMR3ResetCpu(PVM pVM, PVMCPU pVCpu)
|
---|
2073 | {
|
---|
2074 | /** @todo anything different for VCPU > 0? */
|
---|
2075 | PCPUMCTX pCtx = &pVCpu->cpum.s.Guest;
|
---|
2076 |
|
---|
2077 | /*
|
---|
2078 | * Initialize everything to ZERO first.
|
---|
2079 | */
|
---|
2080 | uint32_t fUseFlags = pVCpu->cpum.s.fUseFlags & ~CPUM_USED_FPU_SINCE_REM;
|
---|
2081 |
|
---|
2082 | AssertCompile(RTASSERT_OFFSET_OF(CPUMCTX, pXStateR0) < RTASSERT_OFFSET_OF(CPUMCTX, pXStateR3));
|
---|
2083 | AssertCompile(RTASSERT_OFFSET_OF(CPUMCTX, pXStateR0) < RTASSERT_OFFSET_OF(CPUMCTX, pXStateRC));
|
---|
2084 | memset(pCtx, 0, RT_UOFFSETOF(CPUMCTX, pXStateR0));
|
---|
2085 |
|
---|
2086 | pVCpu->cpum.s.fUseFlags = fUseFlags;
|
---|
2087 |
|
---|
2088 | pCtx->cr0 = X86_CR0_CD | X86_CR0_NW | X86_CR0_ET; //0x60000010
|
---|
2089 | pCtx->eip = 0x0000fff0;
|
---|
2090 | pCtx->edx = 0x00000600; /* P6 processor */
|
---|
2091 | pCtx->eflags.Bits.u1Reserved0 = 1;
|
---|
2092 |
|
---|
2093 | pCtx->cs.Sel = 0xf000;
|
---|
2094 | pCtx->cs.ValidSel = 0xf000;
|
---|
2095 | pCtx->cs.fFlags = CPUMSELREG_FLAGS_VALID;
|
---|
2096 | pCtx->cs.u64Base = UINT64_C(0xffff0000);
|
---|
2097 | pCtx->cs.u32Limit = 0x0000ffff;
|
---|
2098 | pCtx->cs.Attr.n.u1DescType = 1; /* code/data segment */
|
---|
2099 | pCtx->cs.Attr.n.u1Present = 1;
|
---|
2100 | pCtx->cs.Attr.n.u4Type = X86_SEL_TYPE_ER_ACC;
|
---|
2101 |
|
---|
2102 | pCtx->ds.fFlags = CPUMSELREG_FLAGS_VALID;
|
---|
2103 | pCtx->ds.u32Limit = 0x0000ffff;
|
---|
2104 | pCtx->ds.Attr.n.u1DescType = 1; /* code/data segment */
|
---|
2105 | pCtx->ds.Attr.n.u1Present = 1;
|
---|
2106 | pCtx->ds.Attr.n.u4Type = X86_SEL_TYPE_RW_ACC;
|
---|
2107 |
|
---|
2108 | pCtx->es.fFlags = CPUMSELREG_FLAGS_VALID;
|
---|
2109 | pCtx->es.u32Limit = 0x0000ffff;
|
---|
2110 | pCtx->es.Attr.n.u1DescType = 1; /* code/data segment */
|
---|
2111 | pCtx->es.Attr.n.u1Present = 1;
|
---|
2112 | pCtx->es.Attr.n.u4Type = X86_SEL_TYPE_RW_ACC;
|
---|
2113 |
|
---|
2114 | pCtx->fs.fFlags = CPUMSELREG_FLAGS_VALID;
|
---|
2115 | pCtx->fs.u32Limit = 0x0000ffff;
|
---|
2116 | pCtx->fs.Attr.n.u1DescType = 1; /* code/data segment */
|
---|
2117 | pCtx->fs.Attr.n.u1Present = 1;
|
---|
2118 | pCtx->fs.Attr.n.u4Type = X86_SEL_TYPE_RW_ACC;
|
---|
2119 |
|
---|
2120 | pCtx->gs.fFlags = CPUMSELREG_FLAGS_VALID;
|
---|
2121 | pCtx->gs.u32Limit = 0x0000ffff;
|
---|
2122 | pCtx->gs.Attr.n.u1DescType = 1; /* code/data segment */
|
---|
2123 | pCtx->gs.Attr.n.u1Present = 1;
|
---|
2124 | pCtx->gs.Attr.n.u4Type = X86_SEL_TYPE_RW_ACC;
|
---|
2125 |
|
---|
2126 | pCtx->ss.fFlags = CPUMSELREG_FLAGS_VALID;
|
---|
2127 | pCtx->ss.u32Limit = 0x0000ffff;
|
---|
2128 | pCtx->ss.Attr.n.u1Present = 1;
|
---|
2129 | pCtx->ss.Attr.n.u1DescType = 1; /* code/data segment */
|
---|
2130 | pCtx->ss.Attr.n.u4Type = X86_SEL_TYPE_RW_ACC;
|
---|
2131 |
|
---|
2132 | pCtx->idtr.cbIdt = 0xffff;
|
---|
2133 | pCtx->gdtr.cbGdt = 0xffff;
|
---|
2134 |
|
---|
2135 | pCtx->ldtr.fFlags = CPUMSELREG_FLAGS_VALID;
|
---|
2136 | pCtx->ldtr.u32Limit = 0xffff;
|
---|
2137 | pCtx->ldtr.Attr.n.u1Present = 1;
|
---|
2138 | pCtx->ldtr.Attr.n.u4Type = X86_SEL_TYPE_SYS_LDT;
|
---|
2139 |
|
---|
2140 | pCtx->tr.fFlags = CPUMSELREG_FLAGS_VALID;
|
---|
2141 | pCtx->tr.u32Limit = 0xffff;
|
---|
2142 | pCtx->tr.Attr.n.u1Present = 1;
|
---|
2143 | pCtx->tr.Attr.n.u4Type = X86_SEL_TYPE_SYS_386_TSS_BUSY; /* Deduction, not properly documented by Intel. */
|
---|
2144 |
|
---|
2145 | pCtx->dr[6] = X86_DR6_INIT_VAL;
|
---|
2146 | pCtx->dr[7] = X86_DR7_INIT_VAL;
|
---|
2147 |
|
---|
2148 | PX86FXSTATE pFpuCtx = &pCtx->pXStateR3->x87; AssertReleaseMsg(RT_VALID_PTR(pFpuCtx), ("%p\n", pFpuCtx));
|
---|
2149 | pFpuCtx->FTW = 0x00; /* All empty (abbridged tag reg edition). */
|
---|
2150 | pFpuCtx->FCW = 0x37f;
|
---|
2151 |
|
---|
2152 | /* Intel 64 and IA-32 Architectures Software Developer's Manual Volume 3A, Table 8-1.
|
---|
2153 | IA-32 Processor States Following Power-up, Reset, or INIT */
|
---|
2154 | pFpuCtx->MXCSR = 0x1F80;
|
---|
2155 | pFpuCtx->MXCSR_MASK = pVM->cpum.s.GuestInfo.fMxCsrMask; /** @todo check if REM messes this up... */
|
---|
2156 |
|
---|
2157 | pCtx->aXcr[0] = XSAVE_C_X87;
|
---|
2158 | if (pVM->cpum.s.HostFeatures.cbMaxExtendedState >= RT_UOFFSETOF(X86XSAVEAREA, Hdr))
|
---|
2159 | {
|
---|
2160 | /* The entire FXSAVE state needs loading when we switch to XSAVE/XRSTOR
|
---|
2161 | as we don't know what happened before. (Bother optimize later?) */
|
---|
2162 | pCtx->pXStateR3->Hdr.bmXState = XSAVE_C_X87 | XSAVE_C_SSE;
|
---|
2163 | }
|
---|
2164 |
|
---|
2165 | /*
|
---|
2166 | * MSRs.
|
---|
2167 | */
|
---|
2168 | /* Init PAT MSR */
|
---|
2169 | pCtx->msrPAT = MSR_IA32_CR_PAT_INIT_VAL;
|
---|
2170 |
|
---|
2171 | /* EFER MBZ; see AMD64 Architecture Programmer's Manual Volume 2: Table 14-1. Initial Processor State.
|
---|
2172 | * The Intel docs don't mention it. */
|
---|
2173 | Assert(!pCtx->msrEFER);
|
---|
2174 |
|
---|
2175 | /* IA32_MISC_ENABLE - not entirely sure what the init/reset state really
|
---|
2176 | is supposed to be here, just trying provide useful/sensible values. */
|
---|
2177 | PCPUMMSRRANGE pRange = cpumLookupMsrRange(pVM, MSR_IA32_MISC_ENABLE);
|
---|
2178 | if (pRange)
|
---|
2179 | {
|
---|
2180 | pVCpu->cpum.s.GuestMsrs.msr.MiscEnable = MSR_IA32_MISC_ENABLE_BTS_UNAVAIL
|
---|
2181 | | MSR_IA32_MISC_ENABLE_PEBS_UNAVAIL
|
---|
2182 | | (pVM->cpum.s.GuestFeatures.fMonitorMWait ? MSR_IA32_MISC_ENABLE_MONITOR : 0)
|
---|
2183 | | MSR_IA32_MISC_ENABLE_FAST_STRINGS;
|
---|
2184 | pRange->fWrIgnMask |= MSR_IA32_MISC_ENABLE_BTS_UNAVAIL
|
---|
2185 | | MSR_IA32_MISC_ENABLE_PEBS_UNAVAIL;
|
---|
2186 | pRange->fWrGpMask &= ~pVCpu->cpum.s.GuestMsrs.msr.MiscEnable;
|
---|
2187 | }
|
---|
2188 |
|
---|
2189 | /** @todo Wire IA32_MISC_ENABLE bit 22 to our NT 4 CPUID trick. */
|
---|
2190 |
|
---|
2191 | /** @todo r=ramshankar: Currently broken for SMP as TMCpuTickSet() expects to be
|
---|
2192 | * called from each EMT while we're getting called by CPUMR3Reset()
|
---|
2193 | * iteratively on the same thread. Fix later. */
|
---|
2194 | #if 0 /** @todo r=bird: This we will do in TM, not here. */
|
---|
2195 | /* TSC must be 0. Intel spec. Table 9-1. "IA-32 Processor States Following Power-up, Reset, or INIT." */
|
---|
2196 | CPUMSetGuestMsr(pVCpu, MSR_IA32_TSC, 0);
|
---|
2197 | #endif
|
---|
2198 |
|
---|
2199 |
|
---|
2200 | /* C-state control. Guesses. */
|
---|
2201 | pVCpu->cpum.s.GuestMsrs.msr.PkgCStateCfgCtrl = 1 /*C1*/ | RT_BIT_32(25) | RT_BIT_32(26) | RT_BIT_32(27) | RT_BIT_32(28);
|
---|
2202 | /* For Nehalem+ and Atoms, the 0xE2 MSR (MSR_PKG_CST_CONFIG_CONTROL) is documented. For Core 2,
|
---|
2203 | * it's undocumented but exists as MSR_PMG_CST_CONFIG_CONTROL and has similar but not identical
|
---|
2204 | * functionality. The default value must be different due to incompatible write mask.
|
---|
2205 | */
|
---|
2206 | if (CPUMMICROARCH_IS_INTEL_CORE2(pVM->cpum.s.GuestFeatures.enmMicroarch))
|
---|
2207 | pVCpu->cpum.s.GuestMsrs.msr.PkgCStateCfgCtrl = 0x202a01; /* From Mac Pro Harpertown, unlocked. */
|
---|
2208 | else if (pVM->cpum.s.GuestFeatures.enmMicroarch == kCpumMicroarch_Intel_Core_Yonah)
|
---|
2209 | pVCpu->cpum.s.GuestMsrs.msr.PkgCStateCfgCtrl = 0x26740c; /* From MacBookPro1,1. */
|
---|
2210 |
|
---|
2211 | /*
|
---|
2212 | * Hardware virtualization state.
|
---|
2213 | */
|
---|
2214 | CPUMSetGuestGif(pCtx, true);
|
---|
2215 | Assert(!pVM->cpum.s.GuestFeatures.fVmx || !pVM->cpum.s.GuestFeatures.fSvm); /* Paranoia. */
|
---|
2216 | if (pVM->cpum.s.GuestFeatures.fVmx)
|
---|
2217 | cpumR3ResetVmxHwVirtState(pVCpu);
|
---|
2218 | else if (pVM->cpum.s.GuestFeatures.fSvm)
|
---|
2219 | cpumR3ResetSvmHwVirtState(pVCpu);
|
---|
2220 | }
|
---|
2221 |
|
---|
2222 |
|
---|
2223 | /**
|
---|
2224 | * Resets the CPU.
|
---|
2225 | *
|
---|
2226 | * @returns VINF_SUCCESS.
|
---|
2227 | * @param pVM The cross context VM structure.
|
---|
2228 | */
|
---|
2229 | VMMR3DECL(void) CPUMR3Reset(PVM pVM)
|
---|
2230 | {
|
---|
2231 | for (VMCPUID i = 0; i < pVM->cCpus; i++)
|
---|
2232 | {
|
---|
2233 | CPUMR3ResetCpu(pVM, &pVM->aCpus[i]);
|
---|
2234 |
|
---|
2235 | #ifdef VBOX_WITH_CRASHDUMP_MAGIC
|
---|
2236 | PCPUMCTX pCtx = &pVM->aCpus[i].cpum.s.Guest;
|
---|
2237 |
|
---|
2238 | /* Magic marker for searching in crash dumps. */
|
---|
2239 | strcpy((char *)pVM->aCpus[i].cpum.s.aMagic, "CPUMCPU Magic");
|
---|
2240 | pVM->aCpus[i].cpum.s.uMagic = UINT64_C(0xDEADBEEFDEADBEEF);
|
---|
2241 | pCtx->dr[5] = UINT64_C(0xDEADBEEFDEADBEEF);
|
---|
2242 | #endif
|
---|
2243 | }
|
---|
2244 | }
|
---|
2245 |
|
---|
2246 |
|
---|
2247 |
|
---|
2248 |
|
---|
2249 | /**
|
---|
2250 | * Pass 0 live exec callback.
|
---|
2251 | *
|
---|
2252 | * @returns VINF_SSM_DONT_CALL_AGAIN.
|
---|
2253 | * @param pVM The cross context VM structure.
|
---|
2254 | * @param pSSM The saved state handle.
|
---|
2255 | * @param uPass The pass (0).
|
---|
2256 | */
|
---|
2257 | static DECLCALLBACK(int) cpumR3LiveExec(PVM pVM, PSSMHANDLE pSSM, uint32_t uPass)
|
---|
2258 | {
|
---|
2259 | AssertReturn(uPass == 0, VERR_SSM_UNEXPECTED_PASS);
|
---|
2260 | cpumR3SaveCpuId(pVM, pSSM);
|
---|
2261 | return VINF_SSM_DONT_CALL_AGAIN;
|
---|
2262 | }
|
---|
2263 |
|
---|
2264 |
|
---|
2265 | /**
|
---|
2266 | * Execute state save operation.
|
---|
2267 | *
|
---|
2268 | * @returns VBox status code.
|
---|
2269 | * @param pVM The cross context VM structure.
|
---|
2270 | * @param pSSM SSM operation handle.
|
---|
2271 | */
|
---|
2272 | static DECLCALLBACK(int) cpumR3SaveExec(PVM pVM, PSSMHANDLE pSSM)
|
---|
2273 | {
|
---|
2274 | /*
|
---|
2275 | * Save.
|
---|
2276 | */
|
---|
2277 | SSMR3PutU32(pSSM, pVM->cCpus);
|
---|
2278 | SSMR3PutU32(pSSM, sizeof(pVM->aCpus[0].cpum.s.GuestMsrs.msr));
|
---|
2279 | for (VMCPUID iCpu = 0; iCpu < pVM->cCpus; iCpu++)
|
---|
2280 | {
|
---|
2281 | PVMCPU pVCpu = &pVM->aCpus[iCpu];
|
---|
2282 |
|
---|
2283 | SSMR3PutStructEx(pSSM, &pVCpu->cpum.s.Hyper, sizeof(pVCpu->cpum.s.Hyper), 0, g_aCpumCtxFields, NULL);
|
---|
2284 |
|
---|
2285 | PCPUMCTX pGstCtx = &pVCpu->cpum.s.Guest;
|
---|
2286 | SSMR3PutStructEx(pSSM, pGstCtx, sizeof(*pGstCtx), 0, g_aCpumCtxFields, NULL);
|
---|
2287 | SSMR3PutStructEx(pSSM, &pGstCtx->pXStateR3->x87, sizeof(pGstCtx->pXStateR3->x87), 0, g_aCpumX87Fields, NULL);
|
---|
2288 | if (pGstCtx->fXStateMask != 0)
|
---|
2289 | SSMR3PutStructEx(pSSM, &pGstCtx->pXStateR3->Hdr, sizeof(pGstCtx->pXStateR3->Hdr), 0, g_aCpumXSaveHdrFields, NULL);
|
---|
2290 | if (pGstCtx->fXStateMask & XSAVE_C_YMM)
|
---|
2291 | {
|
---|
2292 | PCX86XSAVEYMMHI pYmmHiCtx = CPUMCTX_XSAVE_C_PTR(pGstCtx, XSAVE_C_YMM_BIT, PCX86XSAVEYMMHI);
|
---|
2293 | SSMR3PutStructEx(pSSM, pYmmHiCtx, sizeof(*pYmmHiCtx), SSMSTRUCT_FLAGS_FULL_STRUCT, g_aCpumYmmHiFields, NULL);
|
---|
2294 | }
|
---|
2295 | if (pGstCtx->fXStateMask & XSAVE_C_BNDREGS)
|
---|
2296 | {
|
---|
2297 | PCX86XSAVEBNDREGS pBndRegs = CPUMCTX_XSAVE_C_PTR(pGstCtx, XSAVE_C_BNDREGS_BIT, PCX86XSAVEBNDREGS);
|
---|
2298 | SSMR3PutStructEx(pSSM, pBndRegs, sizeof(*pBndRegs), SSMSTRUCT_FLAGS_FULL_STRUCT, g_aCpumBndRegsFields, NULL);
|
---|
2299 | }
|
---|
2300 | if (pGstCtx->fXStateMask & XSAVE_C_BNDCSR)
|
---|
2301 | {
|
---|
2302 | PCX86XSAVEBNDCFG pBndCfg = CPUMCTX_XSAVE_C_PTR(pGstCtx, XSAVE_C_BNDCSR_BIT, PCX86XSAVEBNDCFG);
|
---|
2303 | SSMR3PutStructEx(pSSM, pBndCfg, sizeof(*pBndCfg), SSMSTRUCT_FLAGS_FULL_STRUCT, g_aCpumBndCfgFields, NULL);
|
---|
2304 | }
|
---|
2305 | if (pGstCtx->fXStateMask & XSAVE_C_ZMM_HI256)
|
---|
2306 | {
|
---|
2307 | PCX86XSAVEZMMHI256 pZmmHi256 = CPUMCTX_XSAVE_C_PTR(pGstCtx, XSAVE_C_ZMM_HI256_BIT, PCX86XSAVEZMMHI256);
|
---|
2308 | SSMR3PutStructEx(pSSM, pZmmHi256, sizeof(*pZmmHi256), SSMSTRUCT_FLAGS_FULL_STRUCT, g_aCpumZmmHi256Fields, NULL);
|
---|
2309 | }
|
---|
2310 | if (pGstCtx->fXStateMask & XSAVE_C_ZMM_16HI)
|
---|
2311 | {
|
---|
2312 | PCX86XSAVEZMM16HI pZmm16Hi = CPUMCTX_XSAVE_C_PTR(pGstCtx, XSAVE_C_ZMM_16HI_BIT, PCX86XSAVEZMM16HI);
|
---|
2313 | SSMR3PutStructEx(pSSM, pZmm16Hi, sizeof(*pZmm16Hi), SSMSTRUCT_FLAGS_FULL_STRUCT, g_aCpumZmm16HiFields, NULL);
|
---|
2314 | }
|
---|
2315 | if (pVM->cpum.s.GuestFeatures.fSvm)
|
---|
2316 | {
|
---|
2317 | Assert(pGstCtx->hwvirt.svm.CTX_SUFF(pVmcb));
|
---|
2318 | SSMR3PutU64(pSSM, pGstCtx->hwvirt.svm.uMsrHSavePa);
|
---|
2319 | SSMR3PutGCPhys(pSSM, pGstCtx->hwvirt.svm.GCPhysVmcb);
|
---|
2320 | SSMR3PutU64(pSSM, pGstCtx->hwvirt.svm.uPrevPauseTick);
|
---|
2321 | SSMR3PutU16(pSSM, pGstCtx->hwvirt.svm.cPauseFilter);
|
---|
2322 | SSMR3PutU16(pSSM, pGstCtx->hwvirt.svm.cPauseFilterThreshold);
|
---|
2323 | SSMR3PutBool(pSSM, pGstCtx->hwvirt.svm.fInterceptEvents);
|
---|
2324 | SSMR3PutStructEx(pSSM, &pGstCtx->hwvirt.svm.HostState, sizeof(pGstCtx->hwvirt.svm.HostState), 0 /* fFlags */,
|
---|
2325 | g_aSvmHwvirtHostState, NULL /* pvUser */);
|
---|
2326 | SSMR3PutMem(pSSM, pGstCtx->hwvirt.svm.pVmcbR3, SVM_VMCB_PAGES << X86_PAGE_4K_SHIFT);
|
---|
2327 | SSMR3PutMem(pSSM, pGstCtx->hwvirt.svm.pvMsrBitmapR3, SVM_MSRPM_PAGES << X86_PAGE_4K_SHIFT);
|
---|
2328 | SSMR3PutMem(pSSM, pGstCtx->hwvirt.svm.pvIoBitmapR3, SVM_IOPM_PAGES << X86_PAGE_4K_SHIFT);
|
---|
2329 | SSMR3PutU32(pSSM, pGstCtx->hwvirt.fLocalForcedActions);
|
---|
2330 | SSMR3PutBool(pSSM, pGstCtx->hwvirt.fGif);
|
---|
2331 | }
|
---|
2332 | SSMR3PutU32(pSSM, pVCpu->cpum.s.fUseFlags);
|
---|
2333 | SSMR3PutU32(pSSM, pVCpu->cpum.s.fChanged);
|
---|
2334 | AssertCompileSizeAlignment(pVCpu->cpum.s.GuestMsrs.msr, sizeof(uint64_t));
|
---|
2335 | SSMR3PutMem(pSSM, &pVCpu->cpum.s.GuestMsrs, sizeof(pVCpu->cpum.s.GuestMsrs.msr));
|
---|
2336 | }
|
---|
2337 |
|
---|
2338 | cpumR3SaveCpuId(pVM, pSSM);
|
---|
2339 | return VINF_SUCCESS;
|
---|
2340 | }
|
---|
2341 |
|
---|
2342 |
|
---|
2343 | /**
|
---|
2344 | * @callback_method_impl{FNSSMINTLOADPREP}
|
---|
2345 | */
|
---|
2346 | static DECLCALLBACK(int) cpumR3LoadPrep(PVM pVM, PSSMHANDLE pSSM)
|
---|
2347 | {
|
---|
2348 | NOREF(pSSM);
|
---|
2349 | pVM->cpum.s.fPendingRestore = true;
|
---|
2350 | return VINF_SUCCESS;
|
---|
2351 | }
|
---|
2352 |
|
---|
2353 |
|
---|
2354 | /**
|
---|
2355 | * @callback_method_impl{FNSSMINTLOADEXEC}
|
---|
2356 | */
|
---|
2357 | static DECLCALLBACK(int) cpumR3LoadExec(PVM pVM, PSSMHANDLE pSSM, uint32_t uVersion, uint32_t uPass)
|
---|
2358 | {
|
---|
2359 | int rc; /* Only for AssertRCReturn use. */
|
---|
2360 |
|
---|
2361 | /*
|
---|
2362 | * Validate version.
|
---|
2363 | */
|
---|
2364 | if ( uVersion != CPUM_SAVED_STATE_VERSION_HWVIRT_SVM
|
---|
2365 | && uVersion != CPUM_SAVED_STATE_VERSION_XSAVE
|
---|
2366 | && uVersion != CPUM_SAVED_STATE_VERSION_GOOD_CPUID_COUNT
|
---|
2367 | && uVersion != CPUM_SAVED_STATE_VERSION_BAD_CPUID_COUNT
|
---|
2368 | && uVersion != CPUM_SAVED_STATE_VERSION_PUT_STRUCT
|
---|
2369 | && uVersion != CPUM_SAVED_STATE_VERSION_MEM
|
---|
2370 | && uVersion != CPUM_SAVED_STATE_VERSION_NO_MSR_SIZE
|
---|
2371 | && uVersion != CPUM_SAVED_STATE_VERSION_VER3_2
|
---|
2372 | && uVersion != CPUM_SAVED_STATE_VERSION_VER3_0
|
---|
2373 | && uVersion != CPUM_SAVED_STATE_VERSION_VER2_1_NOMSR
|
---|
2374 | && uVersion != CPUM_SAVED_STATE_VERSION_VER2_0
|
---|
2375 | && uVersion != CPUM_SAVED_STATE_VERSION_VER1_6)
|
---|
2376 | {
|
---|
2377 | AssertMsgFailed(("cpumR3LoadExec: Invalid version uVersion=%d!\n", uVersion));
|
---|
2378 | return VERR_SSM_UNSUPPORTED_DATA_UNIT_VERSION;
|
---|
2379 | }
|
---|
2380 |
|
---|
2381 | if (uPass == SSM_PASS_FINAL)
|
---|
2382 | {
|
---|
2383 | /*
|
---|
2384 | * Set the size of RTGCPTR for SSMR3GetGCPtr. (Only necessary for
|
---|
2385 | * really old SSM file versions.)
|
---|
2386 | */
|
---|
2387 | if (uVersion == CPUM_SAVED_STATE_VERSION_VER1_6)
|
---|
2388 | SSMR3HandleSetGCPtrSize(pSSM, sizeof(RTGCPTR32));
|
---|
2389 | else if (uVersion <= CPUM_SAVED_STATE_VERSION_VER3_0)
|
---|
2390 | SSMR3HandleSetGCPtrSize(pSSM, HC_ARCH_BITS == 32 ? sizeof(RTGCPTR32) : sizeof(RTGCPTR));
|
---|
2391 |
|
---|
2392 | /*
|
---|
2393 | * Figure x86 and ctx field definitions to use for older states.
|
---|
2394 | */
|
---|
2395 | uint32_t const fLoad = uVersion > CPUM_SAVED_STATE_VERSION_MEM ? 0 : SSMSTRUCT_FLAGS_MEM_BAND_AID_RELAXED;
|
---|
2396 | PCSSMFIELD paCpumCtx1Fields = g_aCpumX87Fields;
|
---|
2397 | PCSSMFIELD paCpumCtx2Fields = g_aCpumCtxFields;
|
---|
2398 | if (uVersion == CPUM_SAVED_STATE_VERSION_VER1_6)
|
---|
2399 | {
|
---|
2400 | paCpumCtx1Fields = g_aCpumX87FieldsV16;
|
---|
2401 | paCpumCtx2Fields = g_aCpumCtxFieldsV16;
|
---|
2402 | }
|
---|
2403 | else if (uVersion <= CPUM_SAVED_STATE_VERSION_MEM)
|
---|
2404 | {
|
---|
2405 | paCpumCtx1Fields = g_aCpumX87FieldsMem;
|
---|
2406 | paCpumCtx2Fields = g_aCpumCtxFieldsMem;
|
---|
2407 | }
|
---|
2408 |
|
---|
2409 | /*
|
---|
2410 | * The hyper state used to preceed the CPU count. Starting with
|
---|
2411 | * XSAVE it was moved down till after we've got the count.
|
---|
2412 | */
|
---|
2413 | if (uVersion < CPUM_SAVED_STATE_VERSION_XSAVE)
|
---|
2414 | {
|
---|
2415 | for (VMCPUID iCpu = 0; iCpu < pVM->cCpus; iCpu++)
|
---|
2416 | {
|
---|
2417 | PVMCPU pVCpu = &pVM->aCpus[iCpu];
|
---|
2418 | X86FXSTATE Ign;
|
---|
2419 | SSMR3GetStructEx(pSSM, &Ign, sizeof(Ign), fLoad | SSMSTRUCT_FLAGS_NO_TAIL_MARKER, paCpumCtx1Fields, NULL);
|
---|
2420 | uint64_t uCR3 = pVCpu->cpum.s.Hyper.cr3;
|
---|
2421 | uint64_t uRSP = pVCpu->cpum.s.Hyper.rsp; /* see VMMR3Relocate(). */
|
---|
2422 | SSMR3GetStructEx(pSSM, &pVCpu->cpum.s.Hyper, sizeof(pVCpu->cpum.s.Hyper),
|
---|
2423 | fLoad | SSMSTRUCT_FLAGS_NO_LEAD_MARKER, paCpumCtx2Fields, NULL);
|
---|
2424 | pVCpu->cpum.s.Hyper.cr3 = uCR3;
|
---|
2425 | pVCpu->cpum.s.Hyper.rsp = uRSP;
|
---|
2426 | }
|
---|
2427 | }
|
---|
2428 |
|
---|
2429 | if (uVersion >= CPUM_SAVED_STATE_VERSION_VER2_1_NOMSR)
|
---|
2430 | {
|
---|
2431 | uint32_t cCpus;
|
---|
2432 | rc = SSMR3GetU32(pSSM, &cCpus); AssertRCReturn(rc, rc);
|
---|
2433 | AssertLogRelMsgReturn(cCpus == pVM->cCpus, ("Mismatching CPU counts: saved: %u; configured: %u \n", cCpus, pVM->cCpus),
|
---|
2434 | VERR_SSM_UNEXPECTED_DATA);
|
---|
2435 | }
|
---|
2436 | AssertLogRelMsgReturn( uVersion > CPUM_SAVED_STATE_VERSION_VER2_0
|
---|
2437 | || pVM->cCpus == 1,
|
---|
2438 | ("cCpus=%u\n", pVM->cCpus),
|
---|
2439 | VERR_SSM_UNEXPECTED_DATA);
|
---|
2440 |
|
---|
2441 | uint32_t cbMsrs = 0;
|
---|
2442 | if (uVersion > CPUM_SAVED_STATE_VERSION_NO_MSR_SIZE)
|
---|
2443 | {
|
---|
2444 | rc = SSMR3GetU32(pSSM, &cbMsrs); AssertRCReturn(rc, rc);
|
---|
2445 | AssertLogRelMsgReturn(RT_ALIGN(cbMsrs, sizeof(uint64_t)) == cbMsrs, ("Size of MSRs is misaligned: %#x\n", cbMsrs),
|
---|
2446 | VERR_SSM_UNEXPECTED_DATA);
|
---|
2447 | AssertLogRelMsgReturn(cbMsrs <= sizeof(CPUMCTXMSRS) && cbMsrs > 0, ("Size of MSRs is out of range: %#x\n", cbMsrs),
|
---|
2448 | VERR_SSM_UNEXPECTED_DATA);
|
---|
2449 | }
|
---|
2450 |
|
---|
2451 | /*
|
---|
2452 | * Do the per-CPU restoring.
|
---|
2453 | */
|
---|
2454 | for (VMCPUID iCpu = 0; iCpu < pVM->cCpus; iCpu++)
|
---|
2455 | {
|
---|
2456 | PVMCPU pVCpu = &pVM->aCpus[iCpu];
|
---|
2457 | PCPUMCTX pGstCtx = &pVCpu->cpum.s.Guest;
|
---|
2458 |
|
---|
2459 | if (uVersion >= CPUM_SAVED_STATE_VERSION_XSAVE)
|
---|
2460 | {
|
---|
2461 | /*
|
---|
2462 | * The XSAVE saved state layout moved the hyper state down here.
|
---|
2463 | */
|
---|
2464 | uint64_t uCR3 = pVCpu->cpum.s.Hyper.cr3;
|
---|
2465 | uint64_t uRSP = pVCpu->cpum.s.Hyper.rsp; /* see VMMR3Relocate(). */
|
---|
2466 | rc = SSMR3GetStructEx(pSSM, &pVCpu->cpum.s.Hyper, sizeof(pVCpu->cpum.s.Hyper), 0, g_aCpumCtxFields, NULL);
|
---|
2467 | pVCpu->cpum.s.Hyper.cr3 = uCR3;
|
---|
2468 | pVCpu->cpum.s.Hyper.rsp = uRSP;
|
---|
2469 | AssertRCReturn(rc, rc);
|
---|
2470 |
|
---|
2471 | /*
|
---|
2472 | * Start by restoring the CPUMCTX structure and the X86FXSAVE bits of the extended state.
|
---|
2473 | */
|
---|
2474 | rc = SSMR3GetStructEx(pSSM, pGstCtx, sizeof(*pGstCtx), 0, g_aCpumCtxFields, NULL);
|
---|
2475 | rc = SSMR3GetStructEx(pSSM, &pGstCtx->pXStateR3->x87, sizeof(pGstCtx->pXStateR3->x87), 0, g_aCpumX87Fields, NULL);
|
---|
2476 | AssertRCReturn(rc, rc);
|
---|
2477 |
|
---|
2478 | /* Check that the xsave/xrstor mask is valid (invalid results in #GP). */
|
---|
2479 | if (pGstCtx->fXStateMask != 0)
|
---|
2480 | {
|
---|
2481 | AssertLogRelMsgReturn(!(pGstCtx->fXStateMask & ~pVM->cpum.s.fXStateGuestMask),
|
---|
2482 | ("fXStateMask=%#RX64 fXStateGuestMask=%#RX64\n",
|
---|
2483 | pGstCtx->fXStateMask, pVM->cpum.s.fXStateGuestMask),
|
---|
2484 | VERR_CPUM_INCOMPATIBLE_XSAVE_COMP_MASK);
|
---|
2485 | AssertLogRelMsgReturn(pGstCtx->fXStateMask & XSAVE_C_X87,
|
---|
2486 | ("fXStateMask=%#RX64\n", pGstCtx->fXStateMask), VERR_CPUM_INVALID_XSAVE_COMP_MASK);
|
---|
2487 | AssertLogRelMsgReturn((pGstCtx->fXStateMask & (XSAVE_C_SSE | XSAVE_C_YMM)) != XSAVE_C_YMM,
|
---|
2488 | ("fXStateMask=%#RX64\n", pGstCtx->fXStateMask), VERR_CPUM_INVALID_XSAVE_COMP_MASK);
|
---|
2489 | AssertLogRelMsgReturn( (pGstCtx->fXStateMask & (XSAVE_C_OPMASK | XSAVE_C_ZMM_HI256 | XSAVE_C_ZMM_16HI)) == 0
|
---|
2490 | || (pGstCtx->fXStateMask & (XSAVE_C_SSE | XSAVE_C_YMM | XSAVE_C_OPMASK | XSAVE_C_ZMM_HI256 | XSAVE_C_ZMM_16HI))
|
---|
2491 | == (XSAVE_C_SSE | XSAVE_C_YMM | XSAVE_C_OPMASK | XSAVE_C_ZMM_HI256 | XSAVE_C_ZMM_16HI),
|
---|
2492 | ("fXStateMask=%#RX64\n", pGstCtx->fXStateMask), VERR_CPUM_INVALID_XSAVE_COMP_MASK);
|
---|
2493 | }
|
---|
2494 |
|
---|
2495 | /* Check that the XCR0 mask is valid (invalid results in #GP). */
|
---|
2496 | AssertLogRelMsgReturn(pGstCtx->aXcr[0] & XSAVE_C_X87, ("xcr0=%#RX64\n", pGstCtx->aXcr[0]), VERR_CPUM_INVALID_XCR0);
|
---|
2497 | if (pGstCtx->aXcr[0] != XSAVE_C_X87)
|
---|
2498 | {
|
---|
2499 | AssertLogRelMsgReturn(!(pGstCtx->aXcr[0] & ~(pGstCtx->fXStateMask | XSAVE_C_X87)),
|
---|
2500 | ("xcr0=%#RX64 fXStateMask=%#RX64\n", pGstCtx->aXcr[0], pGstCtx->fXStateMask),
|
---|
2501 | VERR_CPUM_INVALID_XCR0);
|
---|
2502 | AssertLogRelMsgReturn(pGstCtx->aXcr[0] & XSAVE_C_X87,
|
---|
2503 | ("xcr0=%#RX64\n", pGstCtx->aXcr[0]), VERR_CPUM_INVALID_XSAVE_COMP_MASK);
|
---|
2504 | AssertLogRelMsgReturn((pGstCtx->aXcr[0] & (XSAVE_C_SSE | XSAVE_C_YMM)) != XSAVE_C_YMM,
|
---|
2505 | ("xcr0=%#RX64\n", pGstCtx->aXcr[0]), VERR_CPUM_INVALID_XSAVE_COMP_MASK);
|
---|
2506 | AssertLogRelMsgReturn( (pGstCtx->aXcr[0] & (XSAVE_C_OPMASK | XSAVE_C_ZMM_HI256 | XSAVE_C_ZMM_16HI)) == 0
|
---|
2507 | || (pGstCtx->aXcr[0] & (XSAVE_C_SSE | XSAVE_C_YMM | XSAVE_C_OPMASK | XSAVE_C_ZMM_HI256 | XSAVE_C_ZMM_16HI))
|
---|
2508 | == (XSAVE_C_SSE | XSAVE_C_YMM | XSAVE_C_OPMASK | XSAVE_C_ZMM_HI256 | XSAVE_C_ZMM_16HI),
|
---|
2509 | ("xcr0=%#RX64\n", pGstCtx->aXcr[0]), VERR_CPUM_INVALID_XSAVE_COMP_MASK);
|
---|
2510 | }
|
---|
2511 |
|
---|
2512 | /* Check that the XCR1 is zero, as we don't implement it yet. */
|
---|
2513 | AssertLogRelMsgReturn(!pGstCtx->aXcr[1], ("xcr1=%#RX64\n", pGstCtx->aXcr[1]), VERR_SSM_DATA_UNIT_FORMAT_CHANGED);
|
---|
2514 |
|
---|
2515 | /*
|
---|
2516 | * Restore the individual extended state components we support.
|
---|
2517 | */
|
---|
2518 | if (pGstCtx->fXStateMask != 0)
|
---|
2519 | {
|
---|
2520 | rc = SSMR3GetStructEx(pSSM, &pGstCtx->pXStateR3->Hdr, sizeof(pGstCtx->pXStateR3->Hdr),
|
---|
2521 | 0, g_aCpumXSaveHdrFields, NULL);
|
---|
2522 | AssertRCReturn(rc, rc);
|
---|
2523 | AssertLogRelMsgReturn(!(pGstCtx->pXStateR3->Hdr.bmXState & ~pGstCtx->fXStateMask),
|
---|
2524 | ("bmXState=%#RX64 fXStateMask=%#RX64\n",
|
---|
2525 | pGstCtx->pXStateR3->Hdr.bmXState, pGstCtx->fXStateMask),
|
---|
2526 | VERR_CPUM_INVALID_XSAVE_HDR);
|
---|
2527 | }
|
---|
2528 | if (pGstCtx->fXStateMask & XSAVE_C_YMM)
|
---|
2529 | {
|
---|
2530 | PX86XSAVEYMMHI pYmmHiCtx = CPUMCTX_XSAVE_C_PTR(pGstCtx, XSAVE_C_YMM_BIT, PX86XSAVEYMMHI);
|
---|
2531 | SSMR3GetStructEx(pSSM, pYmmHiCtx, sizeof(*pYmmHiCtx), SSMSTRUCT_FLAGS_FULL_STRUCT, g_aCpumYmmHiFields, NULL);
|
---|
2532 | }
|
---|
2533 | if (pGstCtx->fXStateMask & XSAVE_C_BNDREGS)
|
---|
2534 | {
|
---|
2535 | PX86XSAVEBNDREGS pBndRegs = CPUMCTX_XSAVE_C_PTR(pGstCtx, XSAVE_C_BNDREGS_BIT, PX86XSAVEBNDREGS);
|
---|
2536 | SSMR3GetStructEx(pSSM, pBndRegs, sizeof(*pBndRegs), SSMSTRUCT_FLAGS_FULL_STRUCT, g_aCpumBndRegsFields, NULL);
|
---|
2537 | }
|
---|
2538 | if (pGstCtx->fXStateMask & XSAVE_C_BNDCSR)
|
---|
2539 | {
|
---|
2540 | PX86XSAVEBNDCFG pBndCfg = CPUMCTX_XSAVE_C_PTR(pGstCtx, XSAVE_C_BNDCSR_BIT, PX86XSAVEBNDCFG);
|
---|
2541 | SSMR3GetStructEx(pSSM, pBndCfg, sizeof(*pBndCfg), SSMSTRUCT_FLAGS_FULL_STRUCT, g_aCpumBndCfgFields, NULL);
|
---|
2542 | }
|
---|
2543 | if (pGstCtx->fXStateMask & XSAVE_C_ZMM_HI256)
|
---|
2544 | {
|
---|
2545 | PX86XSAVEZMMHI256 pZmmHi256 = CPUMCTX_XSAVE_C_PTR(pGstCtx, XSAVE_C_ZMM_HI256_BIT, PX86XSAVEZMMHI256);
|
---|
2546 | SSMR3GetStructEx(pSSM, pZmmHi256, sizeof(*pZmmHi256), SSMSTRUCT_FLAGS_FULL_STRUCT, g_aCpumZmmHi256Fields, NULL);
|
---|
2547 | }
|
---|
2548 | if (pGstCtx->fXStateMask & XSAVE_C_ZMM_16HI)
|
---|
2549 | {
|
---|
2550 | PX86XSAVEZMM16HI pZmm16Hi = CPUMCTX_XSAVE_C_PTR(pGstCtx, XSAVE_C_ZMM_16HI_BIT, PX86XSAVEZMM16HI);
|
---|
2551 | SSMR3GetStructEx(pSSM, pZmm16Hi, sizeof(*pZmm16Hi), SSMSTRUCT_FLAGS_FULL_STRUCT, g_aCpumZmm16HiFields, NULL);
|
---|
2552 | }
|
---|
2553 | if (uVersion >= CPUM_SAVED_STATE_VERSION_HWVIRT_SVM)
|
---|
2554 | {
|
---|
2555 | if (pVM->cpum.s.GuestFeatures.fSvm)
|
---|
2556 | {
|
---|
2557 | Assert(pGstCtx->hwvirt.svm.CTX_SUFF(pVmcb));
|
---|
2558 | SSMR3GetU64(pSSM, &pGstCtx->hwvirt.svm.uMsrHSavePa);
|
---|
2559 | SSMR3GetGCPhys(pSSM, &pGstCtx->hwvirt.svm.GCPhysVmcb);
|
---|
2560 | SSMR3GetU64(pSSM, &pGstCtx->hwvirt.svm.uPrevPauseTick);
|
---|
2561 | SSMR3GetU16(pSSM, &pGstCtx->hwvirt.svm.cPauseFilter);
|
---|
2562 | SSMR3GetU16(pSSM, &pGstCtx->hwvirt.svm.cPauseFilterThreshold);
|
---|
2563 | SSMR3GetBool(pSSM, &pGstCtx->hwvirt.svm.fInterceptEvents);
|
---|
2564 | SSMR3GetStructEx(pSSM, &pGstCtx->hwvirt.svm.HostState, sizeof(pGstCtx->hwvirt.svm.HostState),
|
---|
2565 | 0 /* fFlags */, g_aSvmHwvirtHostState, NULL /* pvUser */);
|
---|
2566 | SSMR3GetMem(pSSM, pGstCtx->hwvirt.svm.pVmcbR3, SVM_VMCB_PAGES << X86_PAGE_4K_SHIFT);
|
---|
2567 | SSMR3GetMem(pSSM, pGstCtx->hwvirt.svm.pvMsrBitmapR3, SVM_MSRPM_PAGES << X86_PAGE_4K_SHIFT);
|
---|
2568 | SSMR3GetMem(pSSM, pGstCtx->hwvirt.svm.pvIoBitmapR3, SVM_IOPM_PAGES << X86_PAGE_4K_SHIFT);
|
---|
2569 | SSMR3GetU32(pSSM, &pGstCtx->hwvirt.fLocalForcedActions);
|
---|
2570 | SSMR3GetBool(pSSM, &pGstCtx->hwvirt.fGif);
|
---|
2571 | }
|
---|
2572 | }
|
---|
2573 | /** @todo NSTVMX: Load VMX state. */
|
---|
2574 | }
|
---|
2575 | else
|
---|
2576 | {
|
---|
2577 | /*
|
---|
2578 | * Pre XSAVE saved state.
|
---|
2579 | */
|
---|
2580 | SSMR3GetStructEx(pSSM, &pGstCtx->pXStateR3->x87, sizeof(pGstCtx->pXStateR3->x87),
|
---|
2581 | fLoad | SSMSTRUCT_FLAGS_NO_TAIL_MARKER, paCpumCtx1Fields, NULL);
|
---|
2582 | SSMR3GetStructEx(pSSM, pGstCtx, sizeof(*pGstCtx), fLoad | SSMSTRUCT_FLAGS_NO_LEAD_MARKER, paCpumCtx2Fields, NULL);
|
---|
2583 | }
|
---|
2584 |
|
---|
2585 | /*
|
---|
2586 | * Restore a couple of flags and the MSRs.
|
---|
2587 | */
|
---|
2588 | SSMR3GetU32(pSSM, &pVCpu->cpum.s.fUseFlags);
|
---|
2589 | SSMR3GetU32(pSSM, &pVCpu->cpum.s.fChanged);
|
---|
2590 |
|
---|
2591 | rc = VINF_SUCCESS;
|
---|
2592 | if (uVersion > CPUM_SAVED_STATE_VERSION_NO_MSR_SIZE)
|
---|
2593 | rc = SSMR3GetMem(pSSM, &pVCpu->cpum.s.GuestMsrs.au64[0], cbMsrs);
|
---|
2594 | else if (uVersion >= CPUM_SAVED_STATE_VERSION_VER3_0)
|
---|
2595 | {
|
---|
2596 | SSMR3GetMem(pSSM, &pVCpu->cpum.s.GuestMsrs.au64[0], 2 * sizeof(uint64_t)); /* Restore two MSRs. */
|
---|
2597 | rc = SSMR3Skip(pSSM, 62 * sizeof(uint64_t));
|
---|
2598 | }
|
---|
2599 | AssertRCReturn(rc, rc);
|
---|
2600 |
|
---|
2601 | /* REM and other may have cleared must-be-one fields in DR6 and
|
---|
2602 | DR7, fix these. */
|
---|
2603 | pGstCtx->dr[6] &= ~(X86_DR6_RAZ_MASK | X86_DR6_MBZ_MASK);
|
---|
2604 | pGstCtx->dr[6] |= X86_DR6_RA1_MASK;
|
---|
2605 | pGstCtx->dr[7] &= ~(X86_DR7_RAZ_MASK | X86_DR7_MBZ_MASK);
|
---|
2606 | pGstCtx->dr[7] |= X86_DR7_RA1_MASK;
|
---|
2607 | }
|
---|
2608 |
|
---|
2609 | /* Older states does not have the internal selector register flags
|
---|
2610 | and valid selector value. Supply those. */
|
---|
2611 | if (uVersion <= CPUM_SAVED_STATE_VERSION_MEM)
|
---|
2612 | {
|
---|
2613 | for (VMCPUID iCpu = 0; iCpu < pVM->cCpus; iCpu++)
|
---|
2614 | {
|
---|
2615 | PVMCPU pVCpu = &pVM->aCpus[iCpu];
|
---|
2616 | bool const fValid = !VM_IS_RAW_MODE_ENABLED(pVM)
|
---|
2617 | || ( uVersion > CPUM_SAVED_STATE_VERSION_VER3_2
|
---|
2618 | && !(pVCpu->cpum.s.fChanged & CPUM_CHANGED_HIDDEN_SEL_REGS_INVALID));
|
---|
2619 | PCPUMSELREG paSelReg = CPUMCTX_FIRST_SREG(&pVCpu->cpum.s.Guest);
|
---|
2620 | if (fValid)
|
---|
2621 | {
|
---|
2622 | for (uint32_t iSelReg = 0; iSelReg < X86_SREG_COUNT; iSelReg++)
|
---|
2623 | {
|
---|
2624 | paSelReg[iSelReg].fFlags = CPUMSELREG_FLAGS_VALID;
|
---|
2625 | paSelReg[iSelReg].ValidSel = paSelReg[iSelReg].Sel;
|
---|
2626 | }
|
---|
2627 |
|
---|
2628 | pVCpu->cpum.s.Guest.ldtr.fFlags = CPUMSELREG_FLAGS_VALID;
|
---|
2629 | pVCpu->cpum.s.Guest.ldtr.ValidSel = pVCpu->cpum.s.Guest.ldtr.Sel;
|
---|
2630 | }
|
---|
2631 | else
|
---|
2632 | {
|
---|
2633 | for (uint32_t iSelReg = 0; iSelReg < X86_SREG_COUNT; iSelReg++)
|
---|
2634 | {
|
---|
2635 | paSelReg[iSelReg].fFlags = 0;
|
---|
2636 | paSelReg[iSelReg].ValidSel = 0;
|
---|
2637 | }
|
---|
2638 |
|
---|
2639 | /* This might not be 104% correct, but I think it's close
|
---|
2640 | enough for all practical purposes... (REM always loaded
|
---|
2641 | LDTR registers.) */
|
---|
2642 | pVCpu->cpum.s.Guest.ldtr.fFlags = CPUMSELREG_FLAGS_VALID;
|
---|
2643 | pVCpu->cpum.s.Guest.ldtr.ValidSel = pVCpu->cpum.s.Guest.ldtr.Sel;
|
---|
2644 | }
|
---|
2645 | pVCpu->cpum.s.Guest.tr.fFlags = CPUMSELREG_FLAGS_VALID;
|
---|
2646 | pVCpu->cpum.s.Guest.tr.ValidSel = pVCpu->cpum.s.Guest.tr.Sel;
|
---|
2647 | }
|
---|
2648 | }
|
---|
2649 |
|
---|
2650 | /* Clear CPUM_CHANGED_HIDDEN_SEL_REGS_INVALID. */
|
---|
2651 | if ( uVersion > CPUM_SAVED_STATE_VERSION_VER3_2
|
---|
2652 | && uVersion <= CPUM_SAVED_STATE_VERSION_MEM)
|
---|
2653 | for (VMCPUID iCpu = 0; iCpu < pVM->cCpus; iCpu++)
|
---|
2654 | pVM->aCpus[iCpu].cpum.s.fChanged &= CPUM_CHANGED_HIDDEN_SEL_REGS_INVALID;
|
---|
2655 |
|
---|
2656 | /*
|
---|
2657 | * A quick sanity check.
|
---|
2658 | */
|
---|
2659 | for (VMCPUID iCpu = 0; iCpu < pVM->cCpus; iCpu++)
|
---|
2660 | {
|
---|
2661 | PVMCPU pVCpu = &pVM->aCpus[iCpu];
|
---|
2662 | AssertLogRelReturn(!(pVCpu->cpum.s.Guest.es.fFlags & ~CPUMSELREG_FLAGS_VALID_MASK), VERR_SSM_UNEXPECTED_DATA);
|
---|
2663 | AssertLogRelReturn(!(pVCpu->cpum.s.Guest.cs.fFlags & ~CPUMSELREG_FLAGS_VALID_MASK), VERR_SSM_UNEXPECTED_DATA);
|
---|
2664 | AssertLogRelReturn(!(pVCpu->cpum.s.Guest.ss.fFlags & ~CPUMSELREG_FLAGS_VALID_MASK), VERR_SSM_UNEXPECTED_DATA);
|
---|
2665 | AssertLogRelReturn(!(pVCpu->cpum.s.Guest.ds.fFlags & ~CPUMSELREG_FLAGS_VALID_MASK), VERR_SSM_UNEXPECTED_DATA);
|
---|
2666 | AssertLogRelReturn(!(pVCpu->cpum.s.Guest.fs.fFlags & ~CPUMSELREG_FLAGS_VALID_MASK), VERR_SSM_UNEXPECTED_DATA);
|
---|
2667 | AssertLogRelReturn(!(pVCpu->cpum.s.Guest.gs.fFlags & ~CPUMSELREG_FLAGS_VALID_MASK), VERR_SSM_UNEXPECTED_DATA);
|
---|
2668 | }
|
---|
2669 | }
|
---|
2670 |
|
---|
2671 | pVM->cpum.s.fPendingRestore = false;
|
---|
2672 |
|
---|
2673 | /*
|
---|
2674 | * Guest CPUIDs.
|
---|
2675 | */
|
---|
2676 | if (uVersion >= CPUM_SAVED_STATE_VERSION_VER3_2)
|
---|
2677 | {
|
---|
2678 | CPUMMSRS GuestMsrs;
|
---|
2679 | RT_ZERO(GuestMsrs);
|
---|
2680 | if (pVM->cpum.s.GuestFeatures.fVmx)
|
---|
2681 | GuestMsrs.hwvirt.vmx = pVM->aCpus[0].cpum.s.Guest.hwvirt.vmx.Msrs;
|
---|
2682 | return cpumR3LoadCpuId(pVM, pSSM, uVersion, &GuestMsrs);
|
---|
2683 | }
|
---|
2684 | return cpumR3LoadCpuIdPre32(pVM, pSSM, uVersion);
|
---|
2685 | }
|
---|
2686 |
|
---|
2687 |
|
---|
2688 | /**
|
---|
2689 | * @callback_method_impl{FNSSMINTLOADDONE}
|
---|
2690 | */
|
---|
2691 | static DECLCALLBACK(int) cpumR3LoadDone(PVM pVM, PSSMHANDLE pSSM)
|
---|
2692 | {
|
---|
2693 | if (RT_FAILURE(SSMR3HandleGetStatus(pSSM)))
|
---|
2694 | return VINF_SUCCESS;
|
---|
2695 |
|
---|
2696 | /* just check this since we can. */ /** @todo Add a SSM unit flag for indicating that it's mandatory during a restore. */
|
---|
2697 | if (pVM->cpum.s.fPendingRestore)
|
---|
2698 | {
|
---|
2699 | LogRel(("CPUM: Missing state!\n"));
|
---|
2700 | return VERR_INTERNAL_ERROR_2;
|
---|
2701 | }
|
---|
2702 |
|
---|
2703 | bool const fSupportsLongMode = VMR3IsLongModeAllowed(pVM);
|
---|
2704 | for (VMCPUID idCpu = 0; idCpu < pVM->cCpus; idCpu++)
|
---|
2705 | {
|
---|
2706 | PVMCPU pVCpu = &pVM->aCpus[idCpu];
|
---|
2707 |
|
---|
2708 | /* Notify PGM of the NXE states in case they've changed. */
|
---|
2709 | PGMNotifyNxeChanged(pVCpu, RT_BOOL(pVCpu->cpum.s.Guest.msrEFER & MSR_K6_EFER_NXE));
|
---|
2710 |
|
---|
2711 | /* During init. this is done in CPUMR3InitCompleted(). */
|
---|
2712 | if (fSupportsLongMode)
|
---|
2713 | pVCpu->cpum.s.fUseFlags |= CPUM_USE_SUPPORTS_LONGMODE;
|
---|
2714 | }
|
---|
2715 | return VINF_SUCCESS;
|
---|
2716 | }
|
---|
2717 |
|
---|
2718 |
|
---|
2719 | /**
|
---|
2720 | * Checks if the CPUM state restore is still pending.
|
---|
2721 | *
|
---|
2722 | * @returns true / false.
|
---|
2723 | * @param pVM The cross context VM structure.
|
---|
2724 | */
|
---|
2725 | VMMDECL(bool) CPUMR3IsStateRestorePending(PVM pVM)
|
---|
2726 | {
|
---|
2727 | return pVM->cpum.s.fPendingRestore;
|
---|
2728 | }
|
---|
2729 |
|
---|
2730 |
|
---|
2731 | /**
|
---|
2732 | * Formats the EFLAGS value into mnemonics.
|
---|
2733 | *
|
---|
2734 | * @param pszEFlags Where to write the mnemonics. (Assumes sufficient buffer space.)
|
---|
2735 | * @param efl The EFLAGS value.
|
---|
2736 | */
|
---|
2737 | static void cpumR3InfoFormatFlags(char *pszEFlags, uint32_t efl)
|
---|
2738 | {
|
---|
2739 | /*
|
---|
2740 | * Format the flags.
|
---|
2741 | */
|
---|
2742 | static const struct
|
---|
2743 | {
|
---|
2744 | const char *pszSet; const char *pszClear; uint32_t fFlag;
|
---|
2745 | } s_aFlags[] =
|
---|
2746 | {
|
---|
2747 | { "vip",NULL, X86_EFL_VIP },
|
---|
2748 | { "vif",NULL, X86_EFL_VIF },
|
---|
2749 | { "ac", NULL, X86_EFL_AC },
|
---|
2750 | { "vm", NULL, X86_EFL_VM },
|
---|
2751 | { "rf", NULL, X86_EFL_RF },
|
---|
2752 | { "nt", NULL, X86_EFL_NT },
|
---|
2753 | { "ov", "nv", X86_EFL_OF },
|
---|
2754 | { "dn", "up", X86_EFL_DF },
|
---|
2755 | { "ei", "di", X86_EFL_IF },
|
---|
2756 | { "tf", NULL, X86_EFL_TF },
|
---|
2757 | { "nt", "pl", X86_EFL_SF },
|
---|
2758 | { "nz", "zr", X86_EFL_ZF },
|
---|
2759 | { "ac", "na", X86_EFL_AF },
|
---|
2760 | { "po", "pe", X86_EFL_PF },
|
---|
2761 | { "cy", "nc", X86_EFL_CF },
|
---|
2762 | };
|
---|
2763 | char *psz = pszEFlags;
|
---|
2764 | for (unsigned i = 0; i < RT_ELEMENTS(s_aFlags); i++)
|
---|
2765 | {
|
---|
2766 | const char *pszAdd = s_aFlags[i].fFlag & efl ? s_aFlags[i].pszSet : s_aFlags[i].pszClear;
|
---|
2767 | if (pszAdd)
|
---|
2768 | {
|
---|
2769 | strcpy(psz, pszAdd);
|
---|
2770 | psz += strlen(pszAdd);
|
---|
2771 | *psz++ = ' ';
|
---|
2772 | }
|
---|
2773 | }
|
---|
2774 | psz[-1] = '\0';
|
---|
2775 | }
|
---|
2776 |
|
---|
2777 |
|
---|
2778 | /**
|
---|
2779 | * Formats a full register dump.
|
---|
2780 | *
|
---|
2781 | * @param pVM The cross context VM structure.
|
---|
2782 | * @param pCtx The context to format.
|
---|
2783 | * @param pCtxCore The context core to format.
|
---|
2784 | * @param pHlp Output functions.
|
---|
2785 | * @param enmType The dump type.
|
---|
2786 | * @param pszPrefix Register name prefix.
|
---|
2787 | */
|
---|
2788 | static void cpumR3InfoOne(PVM pVM, PCPUMCTX pCtx, PCCPUMCTXCORE pCtxCore, PCDBGFINFOHLP pHlp, CPUMDUMPTYPE enmType,
|
---|
2789 | const char *pszPrefix)
|
---|
2790 | {
|
---|
2791 | NOREF(pVM);
|
---|
2792 |
|
---|
2793 | /*
|
---|
2794 | * Format the EFLAGS.
|
---|
2795 | */
|
---|
2796 | uint32_t efl = pCtxCore->eflags.u32;
|
---|
2797 | char szEFlags[80];
|
---|
2798 | cpumR3InfoFormatFlags(&szEFlags[0], efl);
|
---|
2799 |
|
---|
2800 | /*
|
---|
2801 | * Format the registers.
|
---|
2802 | */
|
---|
2803 | switch (enmType)
|
---|
2804 | {
|
---|
2805 | case CPUMDUMPTYPE_TERSE:
|
---|
2806 | if (CPUMIsGuestIn64BitCodeEx(pCtx))
|
---|
2807 | pHlp->pfnPrintf(pHlp,
|
---|
2808 | "%srax=%016RX64 %srbx=%016RX64 %srcx=%016RX64 %srdx=%016RX64\n"
|
---|
2809 | "%srsi=%016RX64 %srdi=%016RX64 %sr8 =%016RX64 %sr9 =%016RX64\n"
|
---|
2810 | "%sr10=%016RX64 %sr11=%016RX64 %sr12=%016RX64 %sr13=%016RX64\n"
|
---|
2811 | "%sr14=%016RX64 %sr15=%016RX64\n"
|
---|
2812 | "%srip=%016RX64 %srsp=%016RX64 %srbp=%016RX64 %siopl=%d %*s\n"
|
---|
2813 | "%scs=%04x %sss=%04x %sds=%04x %ses=%04x %sfs=%04x %sgs=%04x %seflags=%08x\n",
|
---|
2814 | pszPrefix, pCtxCore->rax, pszPrefix, pCtxCore->rbx, pszPrefix, pCtxCore->rcx, pszPrefix, pCtxCore->rdx, pszPrefix, pCtxCore->rsi, pszPrefix, pCtxCore->rdi,
|
---|
2815 | pszPrefix, pCtxCore->r8, pszPrefix, pCtxCore->r9, pszPrefix, pCtxCore->r10, pszPrefix, pCtxCore->r11, pszPrefix, pCtxCore->r12, pszPrefix, pCtxCore->r13,
|
---|
2816 | pszPrefix, pCtxCore->r14, pszPrefix, pCtxCore->r15,
|
---|
2817 | pszPrefix, pCtxCore->rip, pszPrefix, pCtxCore->rsp, pszPrefix, pCtxCore->rbp, pszPrefix, X86_EFL_GET_IOPL(efl), *pszPrefix ? 33 : 31, szEFlags,
|
---|
2818 | pszPrefix, pCtxCore->cs.Sel, pszPrefix, pCtxCore->ss.Sel, pszPrefix, pCtxCore->ds.Sel, pszPrefix, pCtxCore->es.Sel,
|
---|
2819 | pszPrefix, pCtxCore->fs.Sel, pszPrefix, pCtxCore->gs.Sel, pszPrefix, efl);
|
---|
2820 | else
|
---|
2821 | pHlp->pfnPrintf(pHlp,
|
---|
2822 | "%seax=%08x %sebx=%08x %secx=%08x %sedx=%08x %sesi=%08x %sedi=%08x\n"
|
---|
2823 | "%seip=%08x %sesp=%08x %sebp=%08x %siopl=%d %*s\n"
|
---|
2824 | "%scs=%04x %sss=%04x %sds=%04x %ses=%04x %sfs=%04x %sgs=%04x %seflags=%08x\n",
|
---|
2825 | pszPrefix, pCtxCore->eax, pszPrefix, pCtxCore->ebx, pszPrefix, pCtxCore->ecx, pszPrefix, pCtxCore->edx, pszPrefix, pCtxCore->esi, pszPrefix, pCtxCore->edi,
|
---|
2826 | pszPrefix, pCtxCore->eip, pszPrefix, pCtxCore->esp, pszPrefix, pCtxCore->ebp, pszPrefix, X86_EFL_GET_IOPL(efl), *pszPrefix ? 33 : 31, szEFlags,
|
---|
2827 | pszPrefix, pCtxCore->cs.Sel, pszPrefix, pCtxCore->ss.Sel, pszPrefix, pCtxCore->ds.Sel, pszPrefix, pCtxCore->es.Sel,
|
---|
2828 | pszPrefix, pCtxCore->fs.Sel, pszPrefix, pCtxCore->gs.Sel, pszPrefix, efl);
|
---|
2829 | break;
|
---|
2830 |
|
---|
2831 | case CPUMDUMPTYPE_DEFAULT:
|
---|
2832 | if (CPUMIsGuestIn64BitCodeEx(pCtx))
|
---|
2833 | pHlp->pfnPrintf(pHlp,
|
---|
2834 | "%srax=%016RX64 %srbx=%016RX64 %srcx=%016RX64 %srdx=%016RX64\n"
|
---|
2835 | "%srsi=%016RX64 %srdi=%016RX64 %sr8 =%016RX64 %sr9 =%016RX64\n"
|
---|
2836 | "%sr10=%016RX64 %sr11=%016RX64 %sr12=%016RX64 %sr13=%016RX64\n"
|
---|
2837 | "%sr14=%016RX64 %sr15=%016RX64\n"
|
---|
2838 | "%srip=%016RX64 %srsp=%016RX64 %srbp=%016RX64 %siopl=%d %*s\n"
|
---|
2839 | "%scs=%04x %sss=%04x %sds=%04x %ses=%04x %sfs=%04x %sgs=%04x %str=%04x %seflags=%08x\n"
|
---|
2840 | "%scr0=%08RX64 %scr2=%08RX64 %scr3=%08RX64 %scr4=%08RX64 %sgdtr=%016RX64:%04x %sldtr=%04x\n"
|
---|
2841 | ,
|
---|
2842 | pszPrefix, pCtxCore->rax, pszPrefix, pCtxCore->rbx, pszPrefix, pCtxCore->rcx, pszPrefix, pCtxCore->rdx, pszPrefix, pCtxCore->rsi, pszPrefix, pCtxCore->rdi,
|
---|
2843 | pszPrefix, pCtxCore->r8, pszPrefix, pCtxCore->r9, pszPrefix, pCtxCore->r10, pszPrefix, pCtxCore->r11, pszPrefix, pCtxCore->r12, pszPrefix, pCtxCore->r13,
|
---|
2844 | pszPrefix, pCtxCore->r14, pszPrefix, pCtxCore->r15,
|
---|
2845 | pszPrefix, pCtxCore->rip, pszPrefix, pCtxCore->rsp, pszPrefix, pCtxCore->rbp, pszPrefix, X86_EFL_GET_IOPL(efl), *pszPrefix ? 33 : 31, szEFlags,
|
---|
2846 | pszPrefix, pCtxCore->cs.Sel, pszPrefix, pCtxCore->ss.Sel, pszPrefix, pCtxCore->ds.Sel, pszPrefix, pCtxCore->es.Sel,
|
---|
2847 | pszPrefix, pCtxCore->fs.Sel, pszPrefix, pCtxCore->gs.Sel, pszPrefix, pCtx->tr.Sel, pszPrefix, efl,
|
---|
2848 | pszPrefix, pCtx->cr0, pszPrefix, pCtx->cr2, pszPrefix, pCtx->cr3, pszPrefix, pCtx->cr4,
|
---|
2849 | pszPrefix, pCtx->gdtr.pGdt, pCtx->gdtr.cbGdt, pszPrefix, pCtx->ldtr.Sel);
|
---|
2850 | else
|
---|
2851 | pHlp->pfnPrintf(pHlp,
|
---|
2852 | "%seax=%08x %sebx=%08x %secx=%08x %sedx=%08x %sesi=%08x %sedi=%08x\n"
|
---|
2853 | "%seip=%08x %sesp=%08x %sebp=%08x %siopl=%d %*s\n"
|
---|
2854 | "%scs=%04x %sss=%04x %sds=%04x %ses=%04x %sfs=%04x %sgs=%04x %str=%04x %seflags=%08x\n"
|
---|
2855 | "%scr0=%08RX64 %scr2=%08RX64 %scr3=%08RX64 %scr4=%08RX64 %sgdtr=%08RX64:%04x %sldtr=%04x\n"
|
---|
2856 | ,
|
---|
2857 | pszPrefix, pCtxCore->eax, pszPrefix, pCtxCore->ebx, pszPrefix, pCtxCore->ecx, pszPrefix, pCtxCore->edx, pszPrefix, pCtxCore->esi, pszPrefix, pCtxCore->edi,
|
---|
2858 | pszPrefix, pCtxCore->eip, pszPrefix, pCtxCore->esp, pszPrefix, pCtxCore->ebp, pszPrefix, X86_EFL_GET_IOPL(efl), *pszPrefix ? 33 : 31, szEFlags,
|
---|
2859 | pszPrefix, pCtxCore->cs.Sel, pszPrefix, pCtxCore->ss.Sel, pszPrefix, pCtxCore->ds.Sel, pszPrefix, pCtxCore->es.Sel,
|
---|
2860 | pszPrefix, pCtxCore->fs.Sel, pszPrefix, pCtxCore->gs.Sel, pszPrefix, pCtx->tr.Sel, pszPrefix, efl,
|
---|
2861 | pszPrefix, pCtx->cr0, pszPrefix, pCtx->cr2, pszPrefix, pCtx->cr3, pszPrefix, pCtx->cr4,
|
---|
2862 | pszPrefix, pCtx->gdtr.pGdt, pCtx->gdtr.cbGdt, pszPrefix, pCtx->ldtr.Sel);
|
---|
2863 | break;
|
---|
2864 |
|
---|
2865 | case CPUMDUMPTYPE_VERBOSE:
|
---|
2866 | if (CPUMIsGuestIn64BitCodeEx(pCtx))
|
---|
2867 | pHlp->pfnPrintf(pHlp,
|
---|
2868 | "%srax=%016RX64 %srbx=%016RX64 %srcx=%016RX64 %srdx=%016RX64\n"
|
---|
2869 | "%srsi=%016RX64 %srdi=%016RX64 %sr8 =%016RX64 %sr9 =%016RX64\n"
|
---|
2870 | "%sr10=%016RX64 %sr11=%016RX64 %sr12=%016RX64 %sr13=%016RX64\n"
|
---|
2871 | "%sr14=%016RX64 %sr15=%016RX64\n"
|
---|
2872 | "%srip=%016RX64 %srsp=%016RX64 %srbp=%016RX64 %siopl=%d %*s\n"
|
---|
2873 | "%scs={%04x base=%016RX64 limit=%08x flags=%08x}\n"
|
---|
2874 | "%sds={%04x base=%016RX64 limit=%08x flags=%08x}\n"
|
---|
2875 | "%ses={%04x base=%016RX64 limit=%08x flags=%08x}\n"
|
---|
2876 | "%sfs={%04x base=%016RX64 limit=%08x flags=%08x}\n"
|
---|
2877 | "%sgs={%04x base=%016RX64 limit=%08x flags=%08x}\n"
|
---|
2878 | "%sss={%04x base=%016RX64 limit=%08x flags=%08x}\n"
|
---|
2879 | "%scr0=%016RX64 %scr2=%016RX64 %scr3=%016RX64 %scr4=%016RX64\n"
|
---|
2880 | "%sdr0=%016RX64 %sdr1=%016RX64 %sdr2=%016RX64 %sdr3=%016RX64\n"
|
---|
2881 | "%sdr4=%016RX64 %sdr5=%016RX64 %sdr6=%016RX64 %sdr7=%016RX64\n"
|
---|
2882 | "%sgdtr=%016RX64:%04x %sidtr=%016RX64:%04x %seflags=%08x\n"
|
---|
2883 | "%sldtr={%04x base=%08RX64 limit=%08x flags=%08x}\n"
|
---|
2884 | "%str ={%04x base=%08RX64 limit=%08x flags=%08x}\n"
|
---|
2885 | "%sSysEnter={cs=%04llx eip=%016RX64 esp=%016RX64}\n"
|
---|
2886 | ,
|
---|
2887 | pszPrefix, pCtxCore->rax, pszPrefix, pCtxCore->rbx, pszPrefix, pCtxCore->rcx, pszPrefix, pCtxCore->rdx, pszPrefix, pCtxCore->rsi, pszPrefix, pCtxCore->rdi,
|
---|
2888 | pszPrefix, pCtxCore->r8, pszPrefix, pCtxCore->r9, pszPrefix, pCtxCore->r10, pszPrefix, pCtxCore->r11, pszPrefix, pCtxCore->r12, pszPrefix, pCtxCore->r13,
|
---|
2889 | pszPrefix, pCtxCore->r14, pszPrefix, pCtxCore->r15,
|
---|
2890 | pszPrefix, pCtxCore->rip, pszPrefix, pCtxCore->rsp, pszPrefix, pCtxCore->rbp, pszPrefix, X86_EFL_GET_IOPL(efl), *pszPrefix ? 33 : 31, szEFlags,
|
---|
2891 | pszPrefix, pCtxCore->cs.Sel, pCtx->cs.u64Base, pCtx->cs.u32Limit, pCtx->cs.Attr.u,
|
---|
2892 | pszPrefix, pCtxCore->ds.Sel, pCtx->ds.u64Base, pCtx->ds.u32Limit, pCtx->ds.Attr.u,
|
---|
2893 | pszPrefix, pCtxCore->es.Sel, pCtx->es.u64Base, pCtx->es.u32Limit, pCtx->es.Attr.u,
|
---|
2894 | pszPrefix, pCtxCore->fs.Sel, pCtx->fs.u64Base, pCtx->fs.u32Limit, pCtx->fs.Attr.u,
|
---|
2895 | pszPrefix, pCtxCore->gs.Sel, pCtx->gs.u64Base, pCtx->gs.u32Limit, pCtx->gs.Attr.u,
|
---|
2896 | pszPrefix, pCtxCore->ss.Sel, pCtx->ss.u64Base, pCtx->ss.u32Limit, pCtx->ss.Attr.u,
|
---|
2897 | pszPrefix, pCtx->cr0, pszPrefix, pCtx->cr2, pszPrefix, pCtx->cr3, pszPrefix, pCtx->cr4,
|
---|
2898 | pszPrefix, pCtx->dr[0], pszPrefix, pCtx->dr[1], pszPrefix, pCtx->dr[2], pszPrefix, pCtx->dr[3],
|
---|
2899 | pszPrefix, pCtx->dr[4], pszPrefix, pCtx->dr[5], pszPrefix, pCtx->dr[6], pszPrefix, pCtx->dr[7],
|
---|
2900 | pszPrefix, pCtx->gdtr.pGdt, pCtx->gdtr.cbGdt, pszPrefix, pCtx->idtr.pIdt, pCtx->idtr.cbIdt, pszPrefix, efl,
|
---|
2901 | pszPrefix, pCtx->ldtr.Sel, pCtx->ldtr.u64Base, pCtx->ldtr.u32Limit, pCtx->ldtr.Attr.u,
|
---|
2902 | pszPrefix, pCtx->tr.Sel, pCtx->tr.u64Base, pCtx->tr.u32Limit, pCtx->tr.Attr.u,
|
---|
2903 | pszPrefix, pCtx->SysEnter.cs, pCtx->SysEnter.eip, pCtx->SysEnter.esp);
|
---|
2904 | else
|
---|
2905 | pHlp->pfnPrintf(pHlp,
|
---|
2906 | "%seax=%08x %sebx=%08x %secx=%08x %sedx=%08x %sesi=%08x %sedi=%08x\n"
|
---|
2907 | "%seip=%08x %sesp=%08x %sebp=%08x %siopl=%d %*s\n"
|
---|
2908 | "%scs={%04x base=%016RX64 limit=%08x flags=%08x} %sdr0=%08RX64 %sdr1=%08RX64\n"
|
---|
2909 | "%sds={%04x base=%016RX64 limit=%08x flags=%08x} %sdr2=%08RX64 %sdr3=%08RX64\n"
|
---|
2910 | "%ses={%04x base=%016RX64 limit=%08x flags=%08x} %sdr4=%08RX64 %sdr5=%08RX64\n"
|
---|
2911 | "%sfs={%04x base=%016RX64 limit=%08x flags=%08x} %sdr6=%08RX64 %sdr7=%08RX64\n"
|
---|
2912 | "%sgs={%04x base=%016RX64 limit=%08x flags=%08x} %scr0=%08RX64 %scr2=%08RX64\n"
|
---|
2913 | "%sss={%04x base=%016RX64 limit=%08x flags=%08x} %scr3=%08RX64 %scr4=%08RX64\n"
|
---|
2914 | "%sgdtr=%016RX64:%04x %sidtr=%016RX64:%04x %seflags=%08x\n"
|
---|
2915 | "%sldtr={%04x base=%08RX64 limit=%08x flags=%08x}\n"
|
---|
2916 | "%str ={%04x base=%08RX64 limit=%08x flags=%08x}\n"
|
---|
2917 | "%sSysEnter={cs=%04llx eip=%08llx esp=%08llx}\n"
|
---|
2918 | ,
|
---|
2919 | pszPrefix, pCtxCore->eax, pszPrefix, pCtxCore->ebx, pszPrefix, pCtxCore->ecx, pszPrefix, pCtxCore->edx, pszPrefix, pCtxCore->esi, pszPrefix, pCtxCore->edi,
|
---|
2920 | pszPrefix, pCtxCore->eip, pszPrefix, pCtxCore->esp, pszPrefix, pCtxCore->ebp, pszPrefix, X86_EFL_GET_IOPL(efl), *pszPrefix ? 33 : 31, szEFlags,
|
---|
2921 | pszPrefix, pCtxCore->cs.Sel, pCtx->cs.u64Base, pCtx->cs.u32Limit, pCtx->cs.Attr.u, pszPrefix, pCtx->dr[0], pszPrefix, pCtx->dr[1],
|
---|
2922 | pszPrefix, pCtxCore->ds.Sel, pCtx->ds.u64Base, pCtx->ds.u32Limit, pCtx->ds.Attr.u, pszPrefix, pCtx->dr[2], pszPrefix, pCtx->dr[3],
|
---|
2923 | pszPrefix, pCtxCore->es.Sel, pCtx->es.u64Base, pCtx->es.u32Limit, pCtx->es.Attr.u, pszPrefix, pCtx->dr[4], pszPrefix, pCtx->dr[5],
|
---|
2924 | pszPrefix, pCtxCore->fs.Sel, pCtx->fs.u64Base, pCtx->fs.u32Limit, pCtx->fs.Attr.u, pszPrefix, pCtx->dr[6], pszPrefix, pCtx->dr[7],
|
---|
2925 | pszPrefix, pCtxCore->gs.Sel, pCtx->gs.u64Base, pCtx->gs.u32Limit, pCtx->gs.Attr.u, pszPrefix, pCtx->cr0, pszPrefix, pCtx->cr2,
|
---|
2926 | pszPrefix, pCtxCore->ss.Sel, pCtx->ss.u64Base, pCtx->ss.u32Limit, pCtx->ss.Attr.u, pszPrefix, pCtx->cr3, pszPrefix, pCtx->cr4,
|
---|
2927 | pszPrefix, pCtx->gdtr.pGdt, pCtx->gdtr.cbGdt, pszPrefix, pCtx->idtr.pIdt, pCtx->idtr.cbIdt, pszPrefix, efl,
|
---|
2928 | pszPrefix, pCtx->ldtr.Sel, pCtx->ldtr.u64Base, pCtx->ldtr.u32Limit, pCtx->ldtr.Attr.u,
|
---|
2929 | pszPrefix, pCtx->tr.Sel, pCtx->tr.u64Base, pCtx->tr.u32Limit, pCtx->tr.Attr.u,
|
---|
2930 | pszPrefix, pCtx->SysEnter.cs, pCtx->SysEnter.eip, pCtx->SysEnter.esp);
|
---|
2931 |
|
---|
2932 | pHlp->pfnPrintf(pHlp, "%sxcr=%016RX64 %sxcr1=%016RX64 %sxss=%016RX64 (fXStateMask=%016RX64)\n",
|
---|
2933 | pszPrefix, pCtx->aXcr[0], pszPrefix, pCtx->aXcr[1],
|
---|
2934 | pszPrefix, UINT64_C(0) /** @todo XSS */, pCtx->fXStateMask);
|
---|
2935 | if (pCtx->CTX_SUFF(pXState))
|
---|
2936 | {
|
---|
2937 | PX86FXSTATE pFpuCtx = &pCtx->CTX_SUFF(pXState)->x87;
|
---|
2938 | pHlp->pfnPrintf(pHlp,
|
---|
2939 | "%sFCW=%04x %sFSW=%04x %sFTW=%04x %sFOP=%04x %sMXCSR=%08x %sMXCSR_MASK=%08x\n"
|
---|
2940 | "%sFPUIP=%08x %sCS=%04x %sRsrvd1=%04x %sFPUDP=%08x %sDS=%04x %sRsvrd2=%04x\n"
|
---|
2941 | ,
|
---|
2942 | pszPrefix, pFpuCtx->FCW, pszPrefix, pFpuCtx->FSW, pszPrefix, pFpuCtx->FTW, pszPrefix, pFpuCtx->FOP,
|
---|
2943 | pszPrefix, pFpuCtx->MXCSR, pszPrefix, pFpuCtx->MXCSR_MASK,
|
---|
2944 | pszPrefix, pFpuCtx->FPUIP, pszPrefix, pFpuCtx->CS, pszPrefix, pFpuCtx->Rsrvd1,
|
---|
2945 | pszPrefix, pFpuCtx->FPUDP, pszPrefix, pFpuCtx->DS, pszPrefix, pFpuCtx->Rsrvd2
|
---|
2946 | );
|
---|
2947 | /*
|
---|
2948 | * The FSAVE style memory image contains ST(0)-ST(7) at increasing addresses,
|
---|
2949 | * not (FP)R0-7 as Intel SDM suggests.
|
---|
2950 | */
|
---|
2951 | unsigned iShift = (pFpuCtx->FSW >> 11) & 7;
|
---|
2952 | for (unsigned iST = 0; iST < RT_ELEMENTS(pFpuCtx->aRegs); iST++)
|
---|
2953 | {
|
---|
2954 | unsigned iFPR = (iST + iShift) % RT_ELEMENTS(pFpuCtx->aRegs);
|
---|
2955 | unsigned uTag = (pFpuCtx->FTW >> (2 * iFPR)) & 3;
|
---|
2956 | char chSign = pFpuCtx->aRegs[iST].au16[4] & 0x8000 ? '-' : '+';
|
---|
2957 | unsigned iInteger = (unsigned)(pFpuCtx->aRegs[iST].au64[0] >> 63);
|
---|
2958 | uint64_t u64Fraction = pFpuCtx->aRegs[iST].au64[0] & UINT64_C(0x7fffffffffffffff);
|
---|
2959 | int iExponent = pFpuCtx->aRegs[iST].au16[4] & 0x7fff;
|
---|
2960 | iExponent -= 16383; /* subtract bias */
|
---|
2961 | /** @todo This isn't entirenly correct and needs more work! */
|
---|
2962 | pHlp->pfnPrintf(pHlp,
|
---|
2963 | "%sST(%u)=%sFPR%u={%04RX16'%08RX32'%08RX32} t%d %c%u.%022llu * 2 ^ %d (*)",
|
---|
2964 | pszPrefix, iST, pszPrefix, iFPR,
|
---|
2965 | pFpuCtx->aRegs[iST].au16[4], pFpuCtx->aRegs[iST].au32[1], pFpuCtx->aRegs[iST].au32[0],
|
---|
2966 | uTag, chSign, iInteger, u64Fraction, iExponent);
|
---|
2967 | if (pFpuCtx->aRegs[iST].au16[5] || pFpuCtx->aRegs[iST].au16[6] || pFpuCtx->aRegs[iST].au16[7])
|
---|
2968 | pHlp->pfnPrintf(pHlp, " res={%04RX16,%04RX16,%04RX16}\n",
|
---|
2969 | pFpuCtx->aRegs[iST].au16[5], pFpuCtx->aRegs[iST].au16[6], pFpuCtx->aRegs[iST].au16[7]);
|
---|
2970 | else
|
---|
2971 | pHlp->pfnPrintf(pHlp, "\n");
|
---|
2972 | }
|
---|
2973 |
|
---|
2974 | /* XMM/YMM/ZMM registers. */
|
---|
2975 | if (pCtx->fXStateMask & XSAVE_C_YMM)
|
---|
2976 | {
|
---|
2977 | PCX86XSAVEYMMHI pYmmHiCtx = CPUMCTX_XSAVE_C_PTR(pCtx, XSAVE_C_YMM_BIT, PCX86XSAVEYMMHI);
|
---|
2978 | if (!(pCtx->fXStateMask & XSAVE_C_ZMM_HI256))
|
---|
2979 | for (unsigned i = 0; i < RT_ELEMENTS(pFpuCtx->aXMM); i++)
|
---|
2980 | pHlp->pfnPrintf(pHlp, "%sYMM%u%s=%08RX32'%08RX32'%08RX32'%08RX32'%08RX32'%08RX32'%08RX32'%08RX32\n",
|
---|
2981 | pszPrefix, i, i < 10 ? " " : "",
|
---|
2982 | pYmmHiCtx->aYmmHi[i].au32[3],
|
---|
2983 | pYmmHiCtx->aYmmHi[i].au32[2],
|
---|
2984 | pYmmHiCtx->aYmmHi[i].au32[1],
|
---|
2985 | pYmmHiCtx->aYmmHi[i].au32[0],
|
---|
2986 | pFpuCtx->aXMM[i].au32[3],
|
---|
2987 | pFpuCtx->aXMM[i].au32[2],
|
---|
2988 | pFpuCtx->aXMM[i].au32[1],
|
---|
2989 | pFpuCtx->aXMM[i].au32[0]);
|
---|
2990 | else
|
---|
2991 | {
|
---|
2992 | PCX86XSAVEZMMHI256 pZmmHi256 = CPUMCTX_XSAVE_C_PTR(pCtx, XSAVE_C_ZMM_HI256_BIT, PCX86XSAVEZMMHI256);
|
---|
2993 | for (unsigned i = 0; i < RT_ELEMENTS(pFpuCtx->aXMM); i++)
|
---|
2994 | pHlp->pfnPrintf(pHlp,
|
---|
2995 | "%sZMM%u%s=%08RX32'%08RX32'%08RX32'%08RX32'%08RX32'%08RX32'%08RX32'%08RX32''%08RX32'%08RX32'%08RX32'%08RX32'%08RX32'%08RX32'%08RX32'%08RX32\n",
|
---|
2996 | pszPrefix, i, i < 10 ? " " : "",
|
---|
2997 | pZmmHi256->aHi256Regs[i].au32[7],
|
---|
2998 | pZmmHi256->aHi256Regs[i].au32[6],
|
---|
2999 | pZmmHi256->aHi256Regs[i].au32[5],
|
---|
3000 | pZmmHi256->aHi256Regs[i].au32[4],
|
---|
3001 | pZmmHi256->aHi256Regs[i].au32[3],
|
---|
3002 | pZmmHi256->aHi256Regs[i].au32[2],
|
---|
3003 | pZmmHi256->aHi256Regs[i].au32[1],
|
---|
3004 | pZmmHi256->aHi256Regs[i].au32[0],
|
---|
3005 | pYmmHiCtx->aYmmHi[i].au32[3],
|
---|
3006 | pYmmHiCtx->aYmmHi[i].au32[2],
|
---|
3007 | pYmmHiCtx->aYmmHi[i].au32[1],
|
---|
3008 | pYmmHiCtx->aYmmHi[i].au32[0],
|
---|
3009 | pFpuCtx->aXMM[i].au32[3],
|
---|
3010 | pFpuCtx->aXMM[i].au32[2],
|
---|
3011 | pFpuCtx->aXMM[i].au32[1],
|
---|
3012 | pFpuCtx->aXMM[i].au32[0]);
|
---|
3013 |
|
---|
3014 | PCX86XSAVEZMM16HI pZmm16Hi = CPUMCTX_XSAVE_C_PTR(pCtx, XSAVE_C_ZMM_16HI_BIT, PCX86XSAVEZMM16HI);
|
---|
3015 | for (unsigned i = 0; i < RT_ELEMENTS(pZmm16Hi->aRegs); i++)
|
---|
3016 | pHlp->pfnPrintf(pHlp,
|
---|
3017 | "%sZMM%u=%08RX32'%08RX32'%08RX32'%08RX32'%08RX32'%08RX32'%08RX32'%08RX32''%08RX32'%08RX32'%08RX32'%08RX32'%08RX32'%08RX32'%08RX32'%08RX32\n",
|
---|
3018 | pszPrefix, i + 16,
|
---|
3019 | pZmm16Hi->aRegs[i].au32[15],
|
---|
3020 | pZmm16Hi->aRegs[i].au32[14],
|
---|
3021 | pZmm16Hi->aRegs[i].au32[13],
|
---|
3022 | pZmm16Hi->aRegs[i].au32[12],
|
---|
3023 | pZmm16Hi->aRegs[i].au32[11],
|
---|
3024 | pZmm16Hi->aRegs[i].au32[10],
|
---|
3025 | pZmm16Hi->aRegs[i].au32[9],
|
---|
3026 | pZmm16Hi->aRegs[i].au32[8],
|
---|
3027 | pZmm16Hi->aRegs[i].au32[7],
|
---|
3028 | pZmm16Hi->aRegs[i].au32[6],
|
---|
3029 | pZmm16Hi->aRegs[i].au32[5],
|
---|
3030 | pZmm16Hi->aRegs[i].au32[4],
|
---|
3031 | pZmm16Hi->aRegs[i].au32[3],
|
---|
3032 | pZmm16Hi->aRegs[i].au32[2],
|
---|
3033 | pZmm16Hi->aRegs[i].au32[1],
|
---|
3034 | pZmm16Hi->aRegs[i].au32[0]);
|
---|
3035 | }
|
---|
3036 | }
|
---|
3037 | else
|
---|
3038 | for (unsigned i = 0; i < RT_ELEMENTS(pFpuCtx->aXMM); i++)
|
---|
3039 | pHlp->pfnPrintf(pHlp,
|
---|
3040 | i & 1
|
---|
3041 | ? "%sXMM%u%s=%08RX32'%08RX32'%08RX32'%08RX32\n"
|
---|
3042 | : "%sXMM%u%s=%08RX32'%08RX32'%08RX32'%08RX32 ",
|
---|
3043 | pszPrefix, i, i < 10 ? " " : "",
|
---|
3044 | pFpuCtx->aXMM[i].au32[3],
|
---|
3045 | pFpuCtx->aXMM[i].au32[2],
|
---|
3046 | pFpuCtx->aXMM[i].au32[1],
|
---|
3047 | pFpuCtx->aXMM[i].au32[0]);
|
---|
3048 |
|
---|
3049 | if (pCtx->fXStateMask & XSAVE_C_OPMASK)
|
---|
3050 | {
|
---|
3051 | PCX86XSAVEOPMASK pOpMask = CPUMCTX_XSAVE_C_PTR(pCtx, XSAVE_C_OPMASK_BIT, PCX86XSAVEOPMASK);
|
---|
3052 | for (unsigned i = 0; i < RT_ELEMENTS(pOpMask->aKRegs); i += 4)
|
---|
3053 | pHlp->pfnPrintf(pHlp, "%sK%u=%016RX64 %sK%u=%016RX64 %sK%u=%016RX64 %sK%u=%016RX64\n",
|
---|
3054 | pszPrefix, i + 0, pOpMask->aKRegs[i + 0],
|
---|
3055 | pszPrefix, i + 1, pOpMask->aKRegs[i + 1],
|
---|
3056 | pszPrefix, i + 2, pOpMask->aKRegs[i + 2],
|
---|
3057 | pszPrefix, i + 3, pOpMask->aKRegs[i + 3]);
|
---|
3058 | }
|
---|
3059 |
|
---|
3060 | if (pCtx->fXStateMask & XSAVE_C_BNDREGS)
|
---|
3061 | {
|
---|
3062 | PCX86XSAVEBNDREGS pBndRegs = CPUMCTX_XSAVE_C_PTR(pCtx, XSAVE_C_BNDREGS_BIT, PCX86XSAVEBNDREGS);
|
---|
3063 | for (unsigned i = 0; i < RT_ELEMENTS(pBndRegs->aRegs); i += 2)
|
---|
3064 | pHlp->pfnPrintf(pHlp, "%sBNDREG%u=%016RX64/%016RX64 %sBNDREG%u=%016RX64/%016RX64\n",
|
---|
3065 | pszPrefix, i, pBndRegs->aRegs[i].uLowerBound, pBndRegs->aRegs[i].uUpperBound,
|
---|
3066 | pszPrefix, i + 1, pBndRegs->aRegs[i + 1].uLowerBound, pBndRegs->aRegs[i + 1].uUpperBound);
|
---|
3067 | }
|
---|
3068 |
|
---|
3069 | if (pCtx->fXStateMask & XSAVE_C_BNDCSR)
|
---|
3070 | {
|
---|
3071 | PCX86XSAVEBNDCFG pBndCfg = CPUMCTX_XSAVE_C_PTR(pCtx, XSAVE_C_BNDCSR_BIT, PCX86XSAVEBNDCFG);
|
---|
3072 | pHlp->pfnPrintf(pHlp, "%sBNDCFG.CONFIG=%016RX64 %sBNDCFG.STATUS=%016RX64\n",
|
---|
3073 | pszPrefix, pBndCfg->fConfig, pszPrefix, pBndCfg->fStatus);
|
---|
3074 | }
|
---|
3075 |
|
---|
3076 | for (unsigned i = 0; i < RT_ELEMENTS(pFpuCtx->au32RsrvdRest); i++)
|
---|
3077 | if (pFpuCtx->au32RsrvdRest[i])
|
---|
3078 | pHlp->pfnPrintf(pHlp, "%sRsrvdRest[%u]=%RX32 (offset=%#x)\n",
|
---|
3079 | pszPrefix, i, pFpuCtx->au32RsrvdRest[i], RT_UOFFSETOF_DYN(X86FXSTATE, au32RsrvdRest[i]) );
|
---|
3080 | }
|
---|
3081 |
|
---|
3082 | pHlp->pfnPrintf(pHlp,
|
---|
3083 | "%sEFER =%016RX64\n"
|
---|
3084 | "%sPAT =%016RX64\n"
|
---|
3085 | "%sSTAR =%016RX64\n"
|
---|
3086 | "%sCSTAR =%016RX64\n"
|
---|
3087 | "%sLSTAR =%016RX64\n"
|
---|
3088 | "%sSFMASK =%016RX64\n"
|
---|
3089 | "%sKERNELGSBASE =%016RX64\n",
|
---|
3090 | pszPrefix, pCtx->msrEFER,
|
---|
3091 | pszPrefix, pCtx->msrPAT,
|
---|
3092 | pszPrefix, pCtx->msrSTAR,
|
---|
3093 | pszPrefix, pCtx->msrCSTAR,
|
---|
3094 | pszPrefix, pCtx->msrLSTAR,
|
---|
3095 | pszPrefix, pCtx->msrSFMASK,
|
---|
3096 | pszPrefix, pCtx->msrKERNELGSBASE);
|
---|
3097 | break;
|
---|
3098 | }
|
---|
3099 | }
|
---|
3100 |
|
---|
3101 |
|
---|
3102 | /**
|
---|
3103 | * Display all cpu states and any other cpum info.
|
---|
3104 | *
|
---|
3105 | * @param pVM The cross context VM structure.
|
---|
3106 | * @param pHlp The info helper functions.
|
---|
3107 | * @param pszArgs Arguments, ignored.
|
---|
3108 | */
|
---|
3109 | static DECLCALLBACK(void) cpumR3InfoAll(PVM pVM, PCDBGFINFOHLP pHlp, const char *pszArgs)
|
---|
3110 | {
|
---|
3111 | cpumR3InfoGuest(pVM, pHlp, pszArgs);
|
---|
3112 | cpumR3InfoGuestInstr(pVM, pHlp, pszArgs);
|
---|
3113 | cpumR3InfoGuestHwvirt(pVM, pHlp, pszArgs);
|
---|
3114 | cpumR3InfoHyper(pVM, pHlp, pszArgs);
|
---|
3115 | cpumR3InfoHost(pVM, pHlp, pszArgs);
|
---|
3116 | }
|
---|
3117 |
|
---|
3118 |
|
---|
3119 | /**
|
---|
3120 | * Parses the info argument.
|
---|
3121 | *
|
---|
3122 | * The argument starts with 'verbose', 'terse' or 'default' and then
|
---|
3123 | * continues with the comment string.
|
---|
3124 | *
|
---|
3125 | * @param pszArgs The pointer to the argument string.
|
---|
3126 | * @param penmType Where to store the dump type request.
|
---|
3127 | * @param ppszComment Where to store the pointer to the comment string.
|
---|
3128 | */
|
---|
3129 | static void cpumR3InfoParseArg(const char *pszArgs, CPUMDUMPTYPE *penmType, const char **ppszComment)
|
---|
3130 | {
|
---|
3131 | if (!pszArgs)
|
---|
3132 | {
|
---|
3133 | *penmType = CPUMDUMPTYPE_DEFAULT;
|
---|
3134 | *ppszComment = "";
|
---|
3135 | }
|
---|
3136 | else
|
---|
3137 | {
|
---|
3138 | if (!strncmp(pszArgs, RT_STR_TUPLE("verbose")))
|
---|
3139 | {
|
---|
3140 | pszArgs += 7;
|
---|
3141 | *penmType = CPUMDUMPTYPE_VERBOSE;
|
---|
3142 | }
|
---|
3143 | else if (!strncmp(pszArgs, RT_STR_TUPLE("terse")))
|
---|
3144 | {
|
---|
3145 | pszArgs += 5;
|
---|
3146 | *penmType = CPUMDUMPTYPE_TERSE;
|
---|
3147 | }
|
---|
3148 | else if (!strncmp(pszArgs, RT_STR_TUPLE("default")))
|
---|
3149 | {
|
---|
3150 | pszArgs += 7;
|
---|
3151 | *penmType = CPUMDUMPTYPE_DEFAULT;
|
---|
3152 | }
|
---|
3153 | else
|
---|
3154 | *penmType = CPUMDUMPTYPE_DEFAULT;
|
---|
3155 | *ppszComment = RTStrStripL(pszArgs);
|
---|
3156 | }
|
---|
3157 | }
|
---|
3158 |
|
---|
3159 |
|
---|
3160 | /**
|
---|
3161 | * Display the guest cpu state.
|
---|
3162 | *
|
---|
3163 | * @param pVM The cross context VM structure.
|
---|
3164 | * @param pHlp The info helper functions.
|
---|
3165 | * @param pszArgs Arguments.
|
---|
3166 | */
|
---|
3167 | static DECLCALLBACK(void) cpumR3InfoGuest(PVM pVM, PCDBGFINFOHLP pHlp, const char *pszArgs)
|
---|
3168 | {
|
---|
3169 | CPUMDUMPTYPE enmType;
|
---|
3170 | const char *pszComment;
|
---|
3171 | cpumR3InfoParseArg(pszArgs, &enmType, &pszComment);
|
---|
3172 |
|
---|
3173 | PVMCPU pVCpu = VMMGetCpu(pVM);
|
---|
3174 | if (!pVCpu)
|
---|
3175 | pVCpu = &pVM->aCpus[0];
|
---|
3176 |
|
---|
3177 | pHlp->pfnPrintf(pHlp, "Guest CPUM (VCPU %d) state: %s\n", pVCpu->idCpu, pszComment);
|
---|
3178 |
|
---|
3179 | PCPUMCTX pCtx = &pVCpu->cpum.s.Guest;
|
---|
3180 | cpumR3InfoOne(pVM, pCtx, CPUMCTX2CORE(pCtx), pHlp, enmType, "");
|
---|
3181 | }
|
---|
3182 |
|
---|
3183 |
|
---|
3184 | /**
|
---|
3185 | * Displays an SVM VMCB control area.
|
---|
3186 | *
|
---|
3187 | * @param pHlp The info helper functions.
|
---|
3188 | * @param pVmcbCtrl Pointer to a SVM VMCB controls area.
|
---|
3189 | * @param pszPrefix Caller specified string prefix.
|
---|
3190 | */
|
---|
3191 | static void cpumR3InfoSvmVmcbCtrl(PCDBGFINFOHLP pHlp, PCSVMVMCBCTRL pVmcbCtrl, const char *pszPrefix)
|
---|
3192 | {
|
---|
3193 | AssertReturnVoid(pHlp);
|
---|
3194 | AssertReturnVoid(pVmcbCtrl);
|
---|
3195 |
|
---|
3196 | pHlp->pfnPrintf(pHlp, "%sCRX-read intercepts = %#RX16\n", pszPrefix, pVmcbCtrl->u16InterceptRdCRx);
|
---|
3197 | pHlp->pfnPrintf(pHlp, "%sCRX-write intercepts = %#RX16\n", pszPrefix, pVmcbCtrl->u16InterceptWrCRx);
|
---|
3198 | pHlp->pfnPrintf(pHlp, "%sDRX-read intercepts = %#RX16\n", pszPrefix, pVmcbCtrl->u16InterceptRdDRx);
|
---|
3199 | pHlp->pfnPrintf(pHlp, "%sDRX-write intercepts = %#RX16\n", pszPrefix, pVmcbCtrl->u16InterceptWrDRx);
|
---|
3200 | pHlp->pfnPrintf(pHlp, "%sException intercepts = %#RX32\n", pszPrefix, pVmcbCtrl->u32InterceptXcpt);
|
---|
3201 | pHlp->pfnPrintf(pHlp, "%sControl intercepts = %#RX64\n", pszPrefix, pVmcbCtrl->u64InterceptCtrl);
|
---|
3202 | pHlp->pfnPrintf(pHlp, "%sPause-filter threshold = %#RX16\n", pszPrefix, pVmcbCtrl->u16PauseFilterThreshold);
|
---|
3203 | pHlp->pfnPrintf(pHlp, "%sPause-filter count = %#RX16\n", pszPrefix, pVmcbCtrl->u16PauseFilterCount);
|
---|
3204 | pHlp->pfnPrintf(pHlp, "%sIOPM bitmap physaddr = %#RX64\n", pszPrefix, pVmcbCtrl->u64IOPMPhysAddr);
|
---|
3205 | pHlp->pfnPrintf(pHlp, "%sMSRPM bitmap physaddr = %#RX64\n", pszPrefix, pVmcbCtrl->u64MSRPMPhysAddr);
|
---|
3206 | pHlp->pfnPrintf(pHlp, "%sTSC offset = %#RX64\n", pszPrefix, pVmcbCtrl->u64TSCOffset);
|
---|
3207 | pHlp->pfnPrintf(pHlp, "%sTLB Control\n", pszPrefix);
|
---|
3208 | pHlp->pfnPrintf(pHlp, "%s ASID = %#RX32\n", pszPrefix, pVmcbCtrl->TLBCtrl.n.u32ASID);
|
---|
3209 | pHlp->pfnPrintf(pHlp, "%s TLB-flush type = %u\n", pszPrefix, pVmcbCtrl->TLBCtrl.n.u8TLBFlush);
|
---|
3210 | pHlp->pfnPrintf(pHlp, "%sInterrupt Control\n", pszPrefix);
|
---|
3211 | pHlp->pfnPrintf(pHlp, "%s VTPR = %#RX8 (%u)\n", pszPrefix, pVmcbCtrl->IntCtrl.n.u8VTPR, pVmcbCtrl->IntCtrl.n.u8VTPR);
|
---|
3212 | pHlp->pfnPrintf(pHlp, "%s VIRQ (Pending) = %RTbool\n", pszPrefix, pVmcbCtrl->IntCtrl.n.u1VIrqPending);
|
---|
3213 | pHlp->pfnPrintf(pHlp, "%s VINTR vector = %#RX8\n", pszPrefix, pVmcbCtrl->IntCtrl.n.u8VIntrVector);
|
---|
3214 | pHlp->pfnPrintf(pHlp, "%s VGIF = %u\n", pszPrefix, pVmcbCtrl->IntCtrl.n.u1VGif);
|
---|
3215 | pHlp->pfnPrintf(pHlp, "%s VINTR priority = %#RX8\n", pszPrefix, pVmcbCtrl->IntCtrl.n.u4VIntrPrio);
|
---|
3216 | pHlp->pfnPrintf(pHlp, "%s Ignore TPR = %RTbool\n", pszPrefix, pVmcbCtrl->IntCtrl.n.u1IgnoreTPR);
|
---|
3217 | pHlp->pfnPrintf(pHlp, "%s VINTR masking = %RTbool\n", pszPrefix, pVmcbCtrl->IntCtrl.n.u1VIntrMasking);
|
---|
3218 | pHlp->pfnPrintf(pHlp, "%s VGIF enable = %RTbool\n", pszPrefix, pVmcbCtrl->IntCtrl.n.u1VGifEnable);
|
---|
3219 | pHlp->pfnPrintf(pHlp, "%s AVIC enable = %RTbool\n", pszPrefix, pVmcbCtrl->IntCtrl.n.u1AvicEnable);
|
---|
3220 | pHlp->pfnPrintf(pHlp, "%sInterrupt Shadow\n", pszPrefix);
|
---|
3221 | pHlp->pfnPrintf(pHlp, "%s Interrupt shadow = %RTbool\n", pszPrefix, pVmcbCtrl->IntShadow.n.u1IntShadow);
|
---|
3222 | pHlp->pfnPrintf(pHlp, "%s Guest-interrupt Mask = %RTbool\n", pszPrefix, pVmcbCtrl->IntShadow.n.u1GuestIntMask);
|
---|
3223 | pHlp->pfnPrintf(pHlp, "%sExit Code = %#RX64\n", pszPrefix, pVmcbCtrl->u64ExitCode);
|
---|
3224 | pHlp->pfnPrintf(pHlp, "%sEXITINFO1 = %#RX64\n", pszPrefix, pVmcbCtrl->u64ExitInfo1);
|
---|
3225 | pHlp->pfnPrintf(pHlp, "%sEXITINFO2 = %#RX64\n", pszPrefix, pVmcbCtrl->u64ExitInfo2);
|
---|
3226 | pHlp->pfnPrintf(pHlp, "%sExit Interrupt Info\n", pszPrefix);
|
---|
3227 | pHlp->pfnPrintf(pHlp, "%s Valid = %RTbool\n", pszPrefix, pVmcbCtrl->ExitIntInfo.n.u1Valid);
|
---|
3228 | pHlp->pfnPrintf(pHlp, "%s Vector = %#RX8 (%u)\n", pszPrefix, pVmcbCtrl->ExitIntInfo.n.u8Vector, pVmcbCtrl->ExitIntInfo.n.u8Vector);
|
---|
3229 | pHlp->pfnPrintf(pHlp, "%s Type = %u\n", pszPrefix, pVmcbCtrl->ExitIntInfo.n.u3Type);
|
---|
3230 | pHlp->pfnPrintf(pHlp, "%s Error-code valid = %RTbool\n", pszPrefix, pVmcbCtrl->ExitIntInfo.n.u1ErrorCodeValid);
|
---|
3231 | pHlp->pfnPrintf(pHlp, "%s Error-code = %#RX32\n", pszPrefix, pVmcbCtrl->ExitIntInfo.n.u32ErrorCode);
|
---|
3232 | pHlp->pfnPrintf(pHlp, "%sNested paging and SEV\n", pszPrefix);
|
---|
3233 | pHlp->pfnPrintf(pHlp, "%s Nested paging = %RTbool\n", pszPrefix, pVmcbCtrl->NestedPagingCtrl.n.u1NestedPaging);
|
---|
3234 | pHlp->pfnPrintf(pHlp, "%s SEV (Secure Encrypted VM) = %RTbool\n", pszPrefix, pVmcbCtrl->NestedPagingCtrl.n.u1Sev);
|
---|
3235 | pHlp->pfnPrintf(pHlp, "%s SEV-ES (Encrypted State) = %RTbool\n", pszPrefix, pVmcbCtrl->NestedPagingCtrl.n.u1SevEs);
|
---|
3236 | pHlp->pfnPrintf(pHlp, "%sEvent Inject\n", pszPrefix);
|
---|
3237 | pHlp->pfnPrintf(pHlp, "%s Valid = %RTbool\n", pszPrefix, pVmcbCtrl->EventInject.n.u1Valid);
|
---|
3238 | pHlp->pfnPrintf(pHlp, "%s Vector = %#RX32 (%u)\n", pszPrefix, pVmcbCtrl->EventInject.n.u8Vector, pVmcbCtrl->EventInject.n.u8Vector);
|
---|
3239 | pHlp->pfnPrintf(pHlp, "%s Type = %u\n", pszPrefix, pVmcbCtrl->EventInject.n.u3Type);
|
---|
3240 | pHlp->pfnPrintf(pHlp, "%s Error-code valid = %RTbool\n", pszPrefix, pVmcbCtrl->EventInject.n.u1ErrorCodeValid);
|
---|
3241 | pHlp->pfnPrintf(pHlp, "%s Error-code = %#RX32\n", pszPrefix, pVmcbCtrl->EventInject.n.u32ErrorCode);
|
---|
3242 | pHlp->pfnPrintf(pHlp, "%sNested-paging CR3 = %#RX64\n", pszPrefix, pVmcbCtrl->u64NestedPagingCR3);
|
---|
3243 | pHlp->pfnPrintf(pHlp, "%sLBR Virtualization\n", pszPrefix);
|
---|
3244 | pHlp->pfnPrintf(pHlp, "%s LBR virt = %RTbool\n", pszPrefix, pVmcbCtrl->LbrVirt.n.u1LbrVirt);
|
---|
3245 | pHlp->pfnPrintf(pHlp, "%s Virt. VMSAVE/VMLOAD = %RTbool\n", pszPrefix, pVmcbCtrl->LbrVirt.n.u1VirtVmsaveVmload);
|
---|
3246 | pHlp->pfnPrintf(pHlp, "%sVMCB Clean Bits = %#RX32\n", pszPrefix, pVmcbCtrl->u32VmcbCleanBits);
|
---|
3247 | pHlp->pfnPrintf(pHlp, "%sNext-RIP = %#RX64\n", pszPrefix, pVmcbCtrl->u64NextRIP);
|
---|
3248 | pHlp->pfnPrintf(pHlp, "%sInstruction bytes fetched = %u\n", pszPrefix, pVmcbCtrl->cbInstrFetched);
|
---|
3249 | pHlp->pfnPrintf(pHlp, "%sInstruction bytes = %.*Rhxs\n", pszPrefix, sizeof(pVmcbCtrl->abInstr), pVmcbCtrl->abInstr);
|
---|
3250 | pHlp->pfnPrintf(pHlp, "%sAVIC\n", pszPrefix);
|
---|
3251 | pHlp->pfnPrintf(pHlp, "%s Bar addr = %#RX64\n", pszPrefix, pVmcbCtrl->AvicBar.n.u40Addr);
|
---|
3252 | pHlp->pfnPrintf(pHlp, "%s Backing page addr = %#RX64\n", pszPrefix, pVmcbCtrl->AvicBackingPagePtr.n.u40Addr);
|
---|
3253 | pHlp->pfnPrintf(pHlp, "%s Logical table addr = %#RX64\n", pszPrefix, pVmcbCtrl->AvicLogicalTablePtr.n.u40Addr);
|
---|
3254 | pHlp->pfnPrintf(pHlp, "%s Physical table addr = %#RX64\n", pszPrefix, pVmcbCtrl->AvicPhysicalTablePtr.n.u40Addr);
|
---|
3255 | pHlp->pfnPrintf(pHlp, "%s Last guest core Id = %u\n", pszPrefix, pVmcbCtrl->AvicPhysicalTablePtr.n.u8LastGuestCoreId);
|
---|
3256 | }
|
---|
3257 |
|
---|
3258 |
|
---|
3259 | /**
|
---|
3260 | * Helper for dumping the SVM VMCB selector registers.
|
---|
3261 | *
|
---|
3262 | * @param pHlp The info helper functions.
|
---|
3263 | * @param pSel Pointer to the SVM selector register.
|
---|
3264 | * @param pszName Name of the selector.
|
---|
3265 | * @param pszPrefix Caller specified string prefix.
|
---|
3266 | */
|
---|
3267 | DECLINLINE(void) cpumR3InfoSvmVmcbSelReg(PCDBGFINFOHLP pHlp, PCSVMSELREG pSel, const char *pszName, const char *pszPrefix)
|
---|
3268 | {
|
---|
3269 | /* The string width of 4 used below is to handle 'LDTR'. Change later if longer register names are used. */
|
---|
3270 | pHlp->pfnPrintf(pHlp, "%s%-4s = {%04x base=%016RX64 limit=%08x flags=%04x}\n", pszPrefix,
|
---|
3271 | pszName, pSel->u16Sel, pSel->u64Base, pSel->u32Limit, pSel->u16Attr);
|
---|
3272 | }
|
---|
3273 |
|
---|
3274 |
|
---|
3275 | /**
|
---|
3276 | * Helper for dumping the SVM VMCB GDTR/IDTR registers.
|
---|
3277 | *
|
---|
3278 | * @param pHlp The info helper functions.
|
---|
3279 | * @param pXdtr Pointer to the descriptor table register.
|
---|
3280 | * @param pszName Name of the descriptor table register.
|
---|
3281 | * @param pszPrefix Caller specified string prefix.
|
---|
3282 | */
|
---|
3283 | DECLINLINE(void) cpumR3InfoSvmVmcbXdtr(PCDBGFINFOHLP pHlp, PCSVMXDTR pXdtr, const char *pszName, const char *pszPrefix)
|
---|
3284 | {
|
---|
3285 | /* The string width of 4 used below is to cover 'GDTR', 'IDTR'. Change later if longer register names are used. */
|
---|
3286 | pHlp->pfnPrintf(pHlp, "%s%-4s = %016RX64:%04x\n", pszPrefix, pszName, pXdtr->u64Base, pXdtr->u32Limit);
|
---|
3287 | }
|
---|
3288 |
|
---|
3289 |
|
---|
3290 | /**
|
---|
3291 | * Displays an SVM VMCB state-save area.
|
---|
3292 | *
|
---|
3293 | * @param pHlp The info helper functions.
|
---|
3294 | * @param pVmcbStateSave Pointer to a SVM VMCB controls area.
|
---|
3295 | * @param pszPrefix Caller specified string prefix.
|
---|
3296 | */
|
---|
3297 | static void cpumR3InfoSvmVmcbStateSave(PCDBGFINFOHLP pHlp, PCSVMVMCBSTATESAVE pVmcbStateSave, const char *pszPrefix)
|
---|
3298 | {
|
---|
3299 | AssertReturnVoid(pHlp);
|
---|
3300 | AssertReturnVoid(pVmcbStateSave);
|
---|
3301 |
|
---|
3302 | char szEFlags[80];
|
---|
3303 | cpumR3InfoFormatFlags(&szEFlags[0], pVmcbStateSave->u64RFlags);
|
---|
3304 |
|
---|
3305 | cpumR3InfoSvmVmcbSelReg(pHlp, &pVmcbStateSave->CS, "CS", pszPrefix);
|
---|
3306 | cpumR3InfoSvmVmcbSelReg(pHlp, &pVmcbStateSave->SS, "SS", pszPrefix);
|
---|
3307 | cpumR3InfoSvmVmcbSelReg(pHlp, &pVmcbStateSave->ES, "ES", pszPrefix);
|
---|
3308 | cpumR3InfoSvmVmcbSelReg(pHlp, &pVmcbStateSave->DS, "DS", pszPrefix);
|
---|
3309 | cpumR3InfoSvmVmcbSelReg(pHlp, &pVmcbStateSave->FS, "FS", pszPrefix);
|
---|
3310 | cpumR3InfoSvmVmcbSelReg(pHlp, &pVmcbStateSave->GS, "GS", pszPrefix);
|
---|
3311 | cpumR3InfoSvmVmcbSelReg(pHlp, &pVmcbStateSave->LDTR, "LDTR", pszPrefix);
|
---|
3312 | cpumR3InfoSvmVmcbSelReg(pHlp, &pVmcbStateSave->TR, "TR", pszPrefix);
|
---|
3313 | cpumR3InfoSvmVmcbXdtr(pHlp, &pVmcbStateSave->GDTR, "GDTR", pszPrefix);
|
---|
3314 | cpumR3InfoSvmVmcbXdtr(pHlp, &pVmcbStateSave->IDTR, "IDTR", pszPrefix);
|
---|
3315 | pHlp->pfnPrintf(pHlp, "%sCPL = %u\n", pszPrefix, pVmcbStateSave->u8CPL);
|
---|
3316 | pHlp->pfnPrintf(pHlp, "%sEFER = %#RX64\n", pszPrefix, pVmcbStateSave->u64EFER);
|
---|
3317 | pHlp->pfnPrintf(pHlp, "%sCR4 = %#RX64\n", pszPrefix, pVmcbStateSave->u64CR4);
|
---|
3318 | pHlp->pfnPrintf(pHlp, "%sCR3 = %#RX64\n", pszPrefix, pVmcbStateSave->u64CR3);
|
---|
3319 | pHlp->pfnPrintf(pHlp, "%sCR0 = %#RX64\n", pszPrefix, pVmcbStateSave->u64CR0);
|
---|
3320 | pHlp->pfnPrintf(pHlp, "%sDR7 = %#RX64\n", pszPrefix, pVmcbStateSave->u64DR7);
|
---|
3321 | pHlp->pfnPrintf(pHlp, "%sDR6 = %#RX64\n", pszPrefix, pVmcbStateSave->u64DR6);
|
---|
3322 | pHlp->pfnPrintf(pHlp, "%sRFLAGS = %#RX64 %31s\n", pszPrefix, pVmcbStateSave->u64RFlags, szEFlags);
|
---|
3323 | pHlp->pfnPrintf(pHlp, "%sRIP = %#RX64\n", pszPrefix, pVmcbStateSave->u64RIP);
|
---|
3324 | pHlp->pfnPrintf(pHlp, "%sRSP = %#RX64\n", pszPrefix, pVmcbStateSave->u64RSP);
|
---|
3325 | pHlp->pfnPrintf(pHlp, "%sRAX = %#RX64\n", pszPrefix, pVmcbStateSave->u64RAX);
|
---|
3326 | pHlp->pfnPrintf(pHlp, "%sSTAR = %#RX64\n", pszPrefix, pVmcbStateSave->u64STAR);
|
---|
3327 | pHlp->pfnPrintf(pHlp, "%sLSTAR = %#RX64\n", pszPrefix, pVmcbStateSave->u64LSTAR);
|
---|
3328 | pHlp->pfnPrintf(pHlp, "%sCSTAR = %#RX64\n", pszPrefix, pVmcbStateSave->u64CSTAR);
|
---|
3329 | pHlp->pfnPrintf(pHlp, "%sSFMASK = %#RX64\n", pszPrefix, pVmcbStateSave->u64SFMASK);
|
---|
3330 | pHlp->pfnPrintf(pHlp, "%sKERNELGSBASE = %#RX64\n", pszPrefix, pVmcbStateSave->u64KernelGSBase);
|
---|
3331 | pHlp->pfnPrintf(pHlp, "%sSysEnter CS = %#RX64\n", pszPrefix, pVmcbStateSave->u64SysEnterCS);
|
---|
3332 | pHlp->pfnPrintf(pHlp, "%sSysEnter EIP = %#RX64\n", pszPrefix, pVmcbStateSave->u64SysEnterEIP);
|
---|
3333 | pHlp->pfnPrintf(pHlp, "%sSysEnter ESP = %#RX64\n", pszPrefix, pVmcbStateSave->u64SysEnterESP);
|
---|
3334 | pHlp->pfnPrintf(pHlp, "%sCR2 = %#RX64\n", pszPrefix, pVmcbStateSave->u64CR2);
|
---|
3335 | pHlp->pfnPrintf(pHlp, "%sPAT = %#RX64\n", pszPrefix, pVmcbStateSave->u64PAT);
|
---|
3336 | pHlp->pfnPrintf(pHlp, "%sDBGCTL = %#RX64\n", pszPrefix, pVmcbStateSave->u64DBGCTL);
|
---|
3337 | pHlp->pfnPrintf(pHlp, "%sBR_FROM = %#RX64\n", pszPrefix, pVmcbStateSave->u64BR_FROM);
|
---|
3338 | pHlp->pfnPrintf(pHlp, "%sBR_TO = %#RX64\n", pszPrefix, pVmcbStateSave->u64BR_TO);
|
---|
3339 | pHlp->pfnPrintf(pHlp, "%sLASTXCPT_FROM = %#RX64\n", pszPrefix, pVmcbStateSave->u64LASTEXCPFROM);
|
---|
3340 | pHlp->pfnPrintf(pHlp, "%sLASTXCPT_TO = %#RX64\n", pszPrefix, pVmcbStateSave->u64LASTEXCPTO);
|
---|
3341 | }
|
---|
3342 |
|
---|
3343 |
|
---|
3344 | /**
|
---|
3345 | * Displays a virtual-VMCS.
|
---|
3346 | *
|
---|
3347 | * @param pHlp The info helper functions.
|
---|
3348 | * @param pVmcs Pointer to a virtual VMCS.
|
---|
3349 | * @param pszPrefix Caller specified string prefix.
|
---|
3350 | */
|
---|
3351 | static void cpumR3InfoVmxVmcs(PCDBGFINFOHLP pHlp, PCVMXVVMCS pVmcs, const char *pszPrefix)
|
---|
3352 | {
|
---|
3353 | AssertReturnVoid(pHlp);
|
---|
3354 | AssertReturnVoid(pVmcs);
|
---|
3355 |
|
---|
3356 | /* The string width of -4 used in the macros below to cover 'LDTR', 'GDTR', 'IDTR. */
|
---|
3357 | #define CPUMVMX_DUMP_HOST_XDTR(a_pHlp, a_pVmcs, a_Seg, a_SegName, a_pszPrefix) \
|
---|
3358 | do { \
|
---|
3359 | (a_pHlp)->pfnPrintf((a_pHlp), " %s%-4s = {base=%016RX64}\n", \
|
---|
3360 | (a_pszPrefix), (a_SegName), (a_pVmcs)->u64Host##a_Seg##Base.u); \
|
---|
3361 | } while (0)
|
---|
3362 |
|
---|
3363 | #define CPUMVMX_DUMP_HOST_FS_GS_TR(a_pHlp, a_pVmcs, a_Seg, a_SegName, a_pszPrefix) \
|
---|
3364 | do { \
|
---|
3365 | (a_pHlp)->pfnPrintf((a_pHlp), " %s%-4s = {%04x base=%016RX64}\n", \
|
---|
3366 | (a_pszPrefix), (a_SegName), (a_pVmcs)->Host##a_Seg, (a_pVmcs)->u64Host##a_Seg##Base.u); \
|
---|
3367 | } while (0)
|
---|
3368 |
|
---|
3369 | #define CPUMVMX_DUMP_GUEST_SEGREG(a_pHlp, a_pVmcs, a_Seg, a_SegName, a_pszPrefix) \
|
---|
3370 | do { \
|
---|
3371 | (a_pHlp)->pfnPrintf((a_pHlp), " %s%-4s = {%04x base=%016RX64 limit=%08x flags=%04x}\n", \
|
---|
3372 | (a_pszPrefix), (a_SegName), (a_pVmcs)->Guest##a_Seg, (a_pVmcs)->u64Guest##a_Seg##Base.u, \
|
---|
3373 | (a_pVmcs)->u32Guest##a_Seg##Limit, (a_pVmcs)->u32Guest##a_Seg##Attr); \
|
---|
3374 | } while (0)
|
---|
3375 |
|
---|
3376 | #define CPUMVMX_DUMP_GUEST_XDTR(a_pHlp, a_pVmcs, a_Seg, a_SegName, a_pszPrefix) \
|
---|
3377 | do { \
|
---|
3378 | (a_pHlp)->pfnPrintf((a_pHlp), " %s%-4s = {base=%016RX64 limit=%08x}\n", \
|
---|
3379 | (a_pszPrefix), (a_SegName), (a_pVmcs)->u64Guest##a_Seg##Base.u, (a_pVmcs)->u32Guest##a_Seg##Limit); \
|
---|
3380 | } while (0)
|
---|
3381 |
|
---|
3382 | /* Header. */
|
---|
3383 | {
|
---|
3384 | pHlp->pfnPrintf(pHlp, "%sHeader\n", pszPrefix);
|
---|
3385 | pHlp->pfnPrintf(pHlp, " %sVMCS revision id = %#RX32\n", pszPrefix, pVmcs->u32VmcsRevId);
|
---|
3386 | pHlp->pfnPrintf(pHlp, " %sVMX-abort id = %#RX32\n", pszPrefix, pVmcs->u32VmxAbortId);
|
---|
3387 | pHlp->pfnPrintf(pHlp, " %sVMCS state = %#x (%s)\n", pszPrefix, pVmcs->fVmcsState,
|
---|
3388 | HMVmxGetVmcsStateDesc(pVmcs->fVmcsState));
|
---|
3389 | }
|
---|
3390 |
|
---|
3391 | /* Control fields. */
|
---|
3392 | {
|
---|
3393 | /* 16-bit. */
|
---|
3394 | pHlp->pfnPrintf(pHlp, "%sControl\n", pszPrefix);
|
---|
3395 | pHlp->pfnPrintf(pHlp, " %sVPID = %#RX16\n", pszPrefix, pVmcs->u16Vpid);
|
---|
3396 | pHlp->pfnPrintf(pHlp, " %sPosted intr notify vector = %#RX16\n", pszPrefix, pVmcs->u16PostIntNotifyVector);
|
---|
3397 | pHlp->pfnPrintf(pHlp, " %sEPTP index = %#RX16\n", pszPrefix, pVmcs->u16EptpIndex);
|
---|
3398 |
|
---|
3399 | /* 32-bit. */
|
---|
3400 | pHlp->pfnPrintf(pHlp, " %sPinCtls = %#RX32\n", pszPrefix, pVmcs->u32PinCtls);
|
---|
3401 | pHlp->pfnPrintf(pHlp, " %sProcCtls = %#RX32\n", pszPrefix, pVmcs->u32ProcCtls);
|
---|
3402 | pHlp->pfnPrintf(pHlp, " %sProcCtls2 = %#RX32\n", pszPrefix, pVmcs->u32ProcCtls2);
|
---|
3403 | pHlp->pfnPrintf(pHlp, " %sExitCtls = %#RX32\n", pszPrefix, pVmcs->u32ExitCtls);
|
---|
3404 | pHlp->pfnPrintf(pHlp, " %sEntryCtls = %#RX32\n", pszPrefix, pVmcs->u32EntryCtls);
|
---|
3405 | pHlp->pfnPrintf(pHlp, " %sException bitmap = %#RX32\n", pszPrefix, pVmcs->u32XcptBitmap);
|
---|
3406 | pHlp->pfnPrintf(pHlp, " %sPage-fault mask = %#RX32\n", pszPrefix, pVmcs->u32XcptPFMask);
|
---|
3407 | pHlp->pfnPrintf(pHlp, " %ssPage-fault match = %#RX32\n", pszPrefix, pVmcs->u32XcptPFMatch);
|
---|
3408 | pHlp->pfnPrintf(pHlp, " %sCR3 target count = %#RX32\n", pszPrefix, pVmcs->u32Cr3TargetCount);
|
---|
3409 | pHlp->pfnPrintf(pHlp, " %sVM-exit MSR store count = %#RX32\n", pszPrefix, pVmcs->u32ExitMsrStoreCount);
|
---|
3410 | pHlp->pfnPrintf(pHlp, " %sVM-exit MSR load count = %#RX32\n", pszPrefix, pVmcs->u32ExitMsrLoadCount);
|
---|
3411 | pHlp->pfnPrintf(pHlp, " %sVM-entry MSR load count = %#RX32\n", pszPrefix, pVmcs->u32EntryMsrLoadCount);
|
---|
3412 | pHlp->pfnPrintf(pHlp, " %sVM-Entry interruption info = %#RX32\n", pszPrefix, pVmcs->u32EntryIntInfo);
|
---|
3413 | {
|
---|
3414 | uint32_t const fInfo = pVmcs->u32EntryIntInfo;
|
---|
3415 | uint8_t const uType = VMX_ENTRY_INT_INFO_TYPE(fInfo);
|
---|
3416 | pHlp->pfnPrintf(pHlp, " %sValid = %RTbool\n", pszPrefix, VMX_ENTRY_INT_INFO_IS_VALID(fInfo));
|
---|
3417 | pHlp->pfnPrintf(pHlp, " %sType = %#x (%s)\n", pszPrefix, uType, HMVmxGetEntryIntInfoTypeDesc(uType));
|
---|
3418 | pHlp->pfnPrintf(pHlp, " %sVector = %#x\n", pszPrefix, VMX_ENTRY_INT_INFO_VECTOR(fInfo));
|
---|
3419 | pHlp->pfnPrintf(pHlp, " %sNMI-unblocking-IRET = %RTbool\n", pszPrefix, VMX_ENTRY_INT_INFO_IS_NMI_UNBLOCK_IRET(fInfo));
|
---|
3420 | pHlp->pfnPrintf(pHlp, " %sError-code valid = %RTbool\n", pszPrefix, VMX_ENTRY_INT_INFO_IS_ERROR_CODE_VALID(fInfo));
|
---|
3421 | }
|
---|
3422 | pHlp->pfnPrintf(pHlp, " %sVM-Entry xcpt error-code = %#RX32\n", pszPrefix, pVmcs->u32EntryXcptErrCode);
|
---|
3423 | pHlp->pfnPrintf(pHlp, " %sVM-Entry instruction len = %u bytes\n", pszPrefix, pVmcs->u32EntryInstrLen);
|
---|
3424 | pHlp->pfnPrintf(pHlp, " %sTPR threshold = %#RX32\n", pszPrefix, pVmcs->u32TprThreshold);
|
---|
3425 | pHlp->pfnPrintf(pHlp, " %sPLE gap = %#RX32\n", pszPrefix, pVmcs->u32PleGap);
|
---|
3426 | pHlp->pfnPrintf(pHlp, " %sPLE window = %#RX32\n", pszPrefix, pVmcs->u32PleWindow);
|
---|
3427 |
|
---|
3428 | /* 64-bit. */
|
---|
3429 | pHlp->pfnPrintf(pHlp, " %sIO-bitmap A addr = %#RX64\n", pszPrefix, pVmcs->u64AddrIoBitmapA.u);
|
---|
3430 | pHlp->pfnPrintf(pHlp, " %sIO-bitmap B addr = %#RX64\n", pszPrefix, pVmcs->u64AddrIoBitmapB.u);
|
---|
3431 | pHlp->pfnPrintf(pHlp, " %sMSR-bitmap addr = %#RX64\n", pszPrefix, pVmcs->u64AddrMsrBitmap.u);
|
---|
3432 | pHlp->pfnPrintf(pHlp, " %sVM-exit MSR store addr = %#RX64\n", pszPrefix, pVmcs->u64AddrExitMsrStore.u);
|
---|
3433 | pHlp->pfnPrintf(pHlp, " %sVM-exit MSR load addr = %#RX64\n", pszPrefix, pVmcs->u64AddrExitMsrLoad.u);
|
---|
3434 | pHlp->pfnPrintf(pHlp, " %sVM-entry MSR load addr = %#RX64\n", pszPrefix, pVmcs->u64AddrEntryMsrLoad.u);
|
---|
3435 | pHlp->pfnPrintf(pHlp, " %sExecutive VMCS ptr = %#RX64\n", pszPrefix, pVmcs->u64ExecVmcsPtr.u);
|
---|
3436 | pHlp->pfnPrintf(pHlp, " %sPML addr = %#RX64\n", pszPrefix, pVmcs->u64AddrPml.u);
|
---|
3437 | pHlp->pfnPrintf(pHlp, " %sTSC offset = %#RX64\n", pszPrefix, pVmcs->u64TscOffset.u);
|
---|
3438 | pHlp->pfnPrintf(pHlp, " %sVirtual-APIC addr = %#RX64\n", pszPrefix, pVmcs->u64AddrVirtApic.u);
|
---|
3439 | pHlp->pfnPrintf(pHlp, " %sAPIC-access addr = %#RX64\n", pszPrefix, pVmcs->u64AddrApicAccess.u);
|
---|
3440 | pHlp->pfnPrintf(pHlp, " %sPosted-intr desc addr = %#RX64\n", pszPrefix, pVmcs->u64AddrPostedIntDesc.u);
|
---|
3441 | pHlp->pfnPrintf(pHlp, " %sVM-functions control = %#RX64\n", pszPrefix, pVmcs->u64VmFuncCtls.u);
|
---|
3442 | pHlp->pfnPrintf(pHlp, " %sEPTP ptr = %#RX64\n", pszPrefix, pVmcs->u64EptpPtr.u);
|
---|
3443 | pHlp->pfnPrintf(pHlp, " %sEOI-exit bitmap 0 addr = %#RX64\n", pszPrefix, pVmcs->u64EoiExitBitmap0.u);
|
---|
3444 | pHlp->pfnPrintf(pHlp, " %sEOI-exit bitmap 1 addr = %#RX64\n", pszPrefix, pVmcs->u64EoiExitBitmap1.u);
|
---|
3445 | pHlp->pfnPrintf(pHlp, " %sEOI-exit bitmap 2 addr = %#RX64\n", pszPrefix, pVmcs->u64EoiExitBitmap2.u);
|
---|
3446 | pHlp->pfnPrintf(pHlp, " %sEOI-exit bitmap 3 addr = %#RX64\n", pszPrefix, pVmcs->u64EoiExitBitmap3.u);
|
---|
3447 | pHlp->pfnPrintf(pHlp, " %sEPTP-list addr = %#RX64\n", pszPrefix, pVmcs->u64AddrEptpList.u);
|
---|
3448 | pHlp->pfnPrintf(pHlp, " %sVMREAD-bitmap addr = %#RX64\n", pszPrefix, pVmcs->u64AddrVmreadBitmap.u);
|
---|
3449 | pHlp->pfnPrintf(pHlp, " %sVMWRITE-bitmap addr = %#RX64\n", pszPrefix, pVmcs->u64AddrVmwriteBitmap.u);
|
---|
3450 | pHlp->pfnPrintf(pHlp, " %sVirt-Xcpt info addr = %#RX64\n", pszPrefix, pVmcs->u64AddrXcptVeInfo.u);
|
---|
3451 | pHlp->pfnPrintf(pHlp, " %sXSS-bitmap = %#RX64\n", pszPrefix, pVmcs->u64XssBitmap.u);
|
---|
3452 | pHlp->pfnPrintf(pHlp, " %sENCLS-exiting bitmap addr = %#RX64\n", pszPrefix, pVmcs->u64AddrEnclsBitmap.u);
|
---|
3453 | pHlp->pfnPrintf(pHlp, " %sTSC multiplier = %#RX64\n", pszPrefix, pVmcs->u64TscMultiplier.u);
|
---|
3454 |
|
---|
3455 | /* Natural width. */
|
---|
3456 | pHlp->pfnPrintf(pHlp, " %sCR0 guest/host mask = %#RX64\n", pszPrefix, pVmcs->u64Cr0Mask.u);
|
---|
3457 | pHlp->pfnPrintf(pHlp, " %sCR4 guest/host mask = %#RX64\n", pszPrefix, pVmcs->u64Cr4Mask.u);
|
---|
3458 | pHlp->pfnPrintf(pHlp, " %sCR0 read shadow = %#RX64\n", pszPrefix, pVmcs->u64Cr0ReadShadow.u);
|
---|
3459 | pHlp->pfnPrintf(pHlp, " %sCR4 read shadow = %#RX64\n", pszPrefix, pVmcs->u64Cr4ReadShadow.u);
|
---|
3460 | pHlp->pfnPrintf(pHlp, " %sCR3-target 0 = %#RX64\n", pszPrefix, pVmcs->u64Cr3Target0.u);
|
---|
3461 | pHlp->pfnPrintf(pHlp, " %sCR3-target 1 = %#RX64\n", pszPrefix, pVmcs->u64Cr3Target1.u);
|
---|
3462 | pHlp->pfnPrintf(pHlp, " %sCR3-target 2 = %#RX64\n", pszPrefix, pVmcs->u64Cr3Target2.u);
|
---|
3463 | pHlp->pfnPrintf(pHlp, " %sCR3-target 3 = %#RX64\n", pszPrefix, pVmcs->u64Cr3Target3.u);
|
---|
3464 | }
|
---|
3465 |
|
---|
3466 | /* Guest state. */
|
---|
3467 | {
|
---|
3468 | char szEFlags[80];
|
---|
3469 | cpumR3InfoFormatFlags(&szEFlags[0], pVmcs->u64GuestRFlags.u);
|
---|
3470 | pHlp->pfnPrintf(pHlp, "%sGuest state\n", pszPrefix);
|
---|
3471 |
|
---|
3472 | /* 16-bit. */
|
---|
3473 | CPUMVMX_DUMP_GUEST_SEGREG(pHlp, pVmcs, Cs, "cs", pszPrefix);
|
---|
3474 | CPUMVMX_DUMP_GUEST_SEGREG(pHlp, pVmcs, Ss, "ss", pszPrefix);
|
---|
3475 | CPUMVMX_DUMP_GUEST_SEGREG(pHlp, pVmcs, Es, "es", pszPrefix);
|
---|
3476 | CPUMVMX_DUMP_GUEST_SEGREG(pHlp, pVmcs, Ds, "ds", pszPrefix);
|
---|
3477 | CPUMVMX_DUMP_GUEST_SEGREG(pHlp, pVmcs, Fs, "fs", pszPrefix);
|
---|
3478 | CPUMVMX_DUMP_GUEST_SEGREG(pHlp, pVmcs, Gs, "gs", pszPrefix);
|
---|
3479 | CPUMVMX_DUMP_GUEST_SEGREG(pHlp, pVmcs, Ldtr, "ldtr", pszPrefix);
|
---|
3480 | CPUMVMX_DUMP_GUEST_SEGREG(pHlp, pVmcs, Tr, "tr", pszPrefix);
|
---|
3481 | CPUMVMX_DUMP_GUEST_XDTR(pHlp, pVmcs, Gdtr, "gdtr", pszPrefix);
|
---|
3482 | CPUMVMX_DUMP_GUEST_XDTR(pHlp, pVmcs, Idtr, "idtr", pszPrefix);
|
---|
3483 | pHlp->pfnPrintf(pHlp, " %sInterrupt status = %#RX16\n", pszPrefix, pVmcs->u16GuestIntStatus);
|
---|
3484 | pHlp->pfnPrintf(pHlp, " %sPML index = %#RX16\n", pszPrefix, pVmcs->u16PmlIndex);
|
---|
3485 |
|
---|
3486 | /* 32-bit. */
|
---|
3487 | pHlp->pfnPrintf(pHlp, " %sInterruptibility state = %#RX32\n", pszPrefix, pVmcs->u32GuestIntrState);
|
---|
3488 | pHlp->pfnPrintf(pHlp, " %sActivity state = %#RX32\n", pszPrefix, pVmcs->u32GuestActivityState);
|
---|
3489 | pHlp->pfnPrintf(pHlp, " %sSMBASE = %#RX32\n", pszPrefix, pVmcs->u32GuestSmBase);
|
---|
3490 | pHlp->pfnPrintf(pHlp, " %sSysEnter CS = %#RX32\n", pszPrefix, pVmcs->u32GuestSysenterCS);
|
---|
3491 | pHlp->pfnPrintf(pHlp, " %sVMX-preemption timer value = %#RX32\n", pszPrefix, pVmcs->u32PreemptTimer);
|
---|
3492 |
|
---|
3493 | /* 64-bit. */
|
---|
3494 | pHlp->pfnPrintf(pHlp, " %sVMCS link ptr = %#RX64\n", pszPrefix, pVmcs->u64VmcsLinkPtr.u);
|
---|
3495 | pHlp->pfnPrintf(pHlp, " %sDBGCTL = %#RX64\n", pszPrefix, pVmcs->u64GuestDebugCtlMsr.u);
|
---|
3496 | pHlp->pfnPrintf(pHlp, " %sPAT = %#RX64\n", pszPrefix, pVmcs->u64GuestPatMsr.u);
|
---|
3497 | pHlp->pfnPrintf(pHlp, " %sEFER = %#RX64\n", pszPrefix, pVmcs->u64GuestEferMsr.u);
|
---|
3498 | pHlp->pfnPrintf(pHlp, " %sPERFGLOBALCTRL = %#RX64\n", pszPrefix, pVmcs->u64GuestPerfGlobalCtlMsr.u);
|
---|
3499 | pHlp->pfnPrintf(pHlp, " %sPDPTE 0 = %#RX64\n", pszPrefix, pVmcs->u64GuestPdpte0.u);
|
---|
3500 | pHlp->pfnPrintf(pHlp, " %sPDPTE 1 = %#RX64\n", pszPrefix, pVmcs->u64GuestPdpte1.u);
|
---|
3501 | pHlp->pfnPrintf(pHlp, " %sPDPTE 2 = %#RX64\n", pszPrefix, pVmcs->u64GuestPdpte2.u);
|
---|
3502 | pHlp->pfnPrintf(pHlp, " %sPDPTE 3 = %#RX64\n", pszPrefix, pVmcs->u64GuestPdpte3.u);
|
---|
3503 | pHlp->pfnPrintf(pHlp, " %sBNDCFGS = %#RX64\n", pszPrefix, pVmcs->u64GuestBndcfgsMsr.u);
|
---|
3504 |
|
---|
3505 | /* Natural width. */
|
---|
3506 | pHlp->pfnPrintf(pHlp, " %sCR0 = %#RX64\n", pszPrefix, pVmcs->u64GuestCr0.u);
|
---|
3507 | pHlp->pfnPrintf(pHlp, " %sCR3 = %#RX64\n", pszPrefix, pVmcs->u64GuestCr3.u);
|
---|
3508 | pHlp->pfnPrintf(pHlp, " %sCR4 = %#RX64\n", pszPrefix, pVmcs->u64GuestCr4.u);
|
---|
3509 | pHlp->pfnPrintf(pHlp, " %sDR7 = %#RX64\n", pszPrefix, pVmcs->u64GuestDr7.u);
|
---|
3510 | pHlp->pfnPrintf(pHlp, " %sRSP = %#RX64\n", pszPrefix, pVmcs->u64GuestRsp.u);
|
---|
3511 | pHlp->pfnPrintf(pHlp, " %sRIP = %#RX64\n", pszPrefix, pVmcs->u64GuestRip.u);
|
---|
3512 | pHlp->pfnPrintf(pHlp, " %sRFLAGS = %#RX64 %31s\n",pszPrefix, pVmcs->u64GuestRFlags.u, szEFlags);
|
---|
3513 | pHlp->pfnPrintf(pHlp, " %sPending debug xcpts = %#RX64\n", pszPrefix, pVmcs->u64GuestPendingDbgXcpt.u);
|
---|
3514 | pHlp->pfnPrintf(pHlp, " %sSysEnter ESP = %#RX64\n", pszPrefix, pVmcs->u64GuestSysenterEsp.u);
|
---|
3515 | pHlp->pfnPrintf(pHlp, " %sSysEnter EIP = %#RX64\n", pszPrefix, pVmcs->u64GuestSysenterEip.u);
|
---|
3516 | }
|
---|
3517 |
|
---|
3518 | /* Host state. */
|
---|
3519 | {
|
---|
3520 | pHlp->pfnPrintf(pHlp, "%sHost state\n", pszPrefix);
|
---|
3521 |
|
---|
3522 | /* 16-bit. */
|
---|
3523 | pHlp->pfnPrintf(pHlp, " %scs = %#RX16\n", pszPrefix, pVmcs->HostCs);
|
---|
3524 | pHlp->pfnPrintf(pHlp, " %sss = %#RX16\n", pszPrefix, pVmcs->HostSs);
|
---|
3525 | pHlp->pfnPrintf(pHlp, " %sds = %#RX16\n", pszPrefix, pVmcs->HostDs);
|
---|
3526 | pHlp->pfnPrintf(pHlp, " %ses = %#RX16\n", pszPrefix, pVmcs->HostEs);
|
---|
3527 | CPUMVMX_DUMP_HOST_FS_GS_TR(pHlp, pVmcs, Fs, "fs", pszPrefix);
|
---|
3528 | CPUMVMX_DUMP_HOST_FS_GS_TR(pHlp, pVmcs, Gs, "gs", pszPrefix);
|
---|
3529 | CPUMVMX_DUMP_HOST_FS_GS_TR(pHlp, pVmcs, Tr, "tr", pszPrefix);
|
---|
3530 | CPUMVMX_DUMP_HOST_XDTR(pHlp, pVmcs, Gdtr, "gdtr", pszPrefix);
|
---|
3531 | CPUMVMX_DUMP_HOST_XDTR(pHlp, pVmcs, Idtr, "idtr", pszPrefix);
|
---|
3532 |
|
---|
3533 | /* 32-bit. */
|
---|
3534 | pHlp->pfnPrintf(pHlp, " %sSysEnter CS = %#RX32\n", pszPrefix, pVmcs->u32HostSysenterCs);
|
---|
3535 |
|
---|
3536 | /* 64-bit. */
|
---|
3537 | pHlp->pfnPrintf(pHlp, " %sEFER = %#RX64\n", pszPrefix, pVmcs->u64HostEferMsr.u);
|
---|
3538 | pHlp->pfnPrintf(pHlp, " %sPAT = %#RX64\n", pszPrefix, pVmcs->u64HostPatMsr.u);
|
---|
3539 | pHlp->pfnPrintf(pHlp, " %sPERFGLOBALCTRL = %#RX64\n", pszPrefix, pVmcs->u64HostPerfGlobalCtlMsr.u);
|
---|
3540 |
|
---|
3541 | /* Natural width. */
|
---|
3542 | pHlp->pfnPrintf(pHlp, " %sCR0 = %#RX64\n", pszPrefix, pVmcs->u64HostCr0.u);
|
---|
3543 | pHlp->pfnPrintf(pHlp, " %sCR3 = %#RX64\n", pszPrefix, pVmcs->u64HostCr3.u);
|
---|
3544 | pHlp->pfnPrintf(pHlp, " %sCR4 = %#RX64\n", pszPrefix, pVmcs->u64HostCr4.u);
|
---|
3545 | pHlp->pfnPrintf(pHlp, " %sSysEnter ESP = %#RX64\n", pszPrefix, pVmcs->u64HostSysenterEsp.u);
|
---|
3546 | pHlp->pfnPrintf(pHlp, " %sSysEnter EIP = %#RX64\n", pszPrefix, pVmcs->u64HostSysenterEip.u);
|
---|
3547 | pHlp->pfnPrintf(pHlp, " %sRSP = %#RX64\n", pszPrefix, pVmcs->u64HostRsp.u);
|
---|
3548 | pHlp->pfnPrintf(pHlp, " %sRIP = %#RX64\n", pszPrefix, pVmcs->u64HostRip.u);
|
---|
3549 | }
|
---|
3550 |
|
---|
3551 | /* Read-only fields. */
|
---|
3552 | {
|
---|
3553 | pHlp->pfnPrintf(pHlp, "%sRead-only data fields\n", pszPrefix);
|
---|
3554 |
|
---|
3555 | /* 16-bit (none currently). */
|
---|
3556 |
|
---|
3557 | /* 32-bit. */
|
---|
3558 | pHlp->pfnPrintf(pHlp, " %sExit reason = %#RX32\n", pszPrefix, pVmcs->u32RoExitReason);
|
---|
3559 | pHlp->pfnPrintf(pHlp, " %sExit qualification = %#RX64\n", pszPrefix, pVmcs->u64RoExitQual.u);
|
---|
3560 | pHlp->pfnPrintf(pHlp, " %sVM-instruction error = %#RX32\n", pszPrefix, pVmcs->u32RoVmInstrError);
|
---|
3561 | pHlp->pfnPrintf(pHlp, " %sVM-exit intr info = %#RX32\n", pszPrefix, pVmcs->u32RoExitIntInfo);
|
---|
3562 | {
|
---|
3563 | uint32_t const fInfo = pVmcs->u32RoExitIntInfo;
|
---|
3564 | uint8_t const uType = VMX_EXIT_INT_INFO_TYPE(fInfo);
|
---|
3565 | pHlp->pfnPrintf(pHlp, " %sValid = %RTbool\n", pszPrefix, VMX_EXIT_INT_INFO_IS_VALID(fInfo));
|
---|
3566 | pHlp->pfnPrintf(pHlp, " %sType = %#x (%s)\n", pszPrefix, uType, HMVmxGetExitIntInfoTypeDesc(uType));
|
---|
3567 | pHlp->pfnPrintf(pHlp, " %sVector = %#x\n", pszPrefix, VMX_EXIT_INT_INFO_VECTOR(fInfo));
|
---|
3568 | pHlp->pfnPrintf(pHlp, " %sNMI-unblocking-IRET = %RTbool\n", pszPrefix, VMX_EXIT_INT_INFO_IS_NMI_UNBLOCK_IRET(fInfo));
|
---|
3569 | pHlp->pfnPrintf(pHlp, " %sError-code valid = %RTbool\n", pszPrefix, VMX_EXIT_INT_INFO_IS_ERROR_CODE_VALID(fInfo));
|
---|
3570 | }
|
---|
3571 | pHlp->pfnPrintf(pHlp, " %sVM-exit intr error-code = %#RX32\n", pszPrefix, pVmcs->u32RoExitIntErrCode);
|
---|
3572 | pHlp->pfnPrintf(pHlp, " %sIDT-vectoring info = %#RX32\n", pszPrefix, pVmcs->u32RoIdtVectoringInfo);
|
---|
3573 | {
|
---|
3574 | uint32_t const fInfo = pVmcs->u32RoIdtVectoringInfo;
|
---|
3575 | uint8_t const uType = VMX_IDT_VECTORING_INFO_TYPE(fInfo);
|
---|
3576 | pHlp->pfnPrintf(pHlp, " %sValid = %RTbool\n", pszPrefix, VMX_IDT_VECTORING_INFO_IS_VALID(fInfo));
|
---|
3577 | pHlp->pfnPrintf(pHlp, " %sType = %#x (%s)\n", pszPrefix, uType, HMVmxGetIdtVectoringInfoTypeDesc(uType));
|
---|
3578 | pHlp->pfnPrintf(pHlp, " %sVector = %#x\n", pszPrefix, VMX_IDT_VECTORING_INFO_VECTOR(fInfo));
|
---|
3579 | pHlp->pfnPrintf(pHlp, " %sError-code valid = %RTbool\n", pszPrefix, VMX_IDT_VECTORING_INFO_IS_ERROR_CODE_VALID(fInfo));
|
---|
3580 | }
|
---|
3581 | pHlp->pfnPrintf(pHlp, " %sIDT-vectoring error-code = %#RX32\n", pszPrefix, pVmcs->u32RoIdtVectoringErrCode);
|
---|
3582 | pHlp->pfnPrintf(pHlp, " %sVM-exit instruction length = %u bytes\n", pszPrefix, pVmcs->u32RoExitInstrLen);
|
---|
3583 | pHlp->pfnPrintf(pHlp, " %sVM-exit instruction info = %#RX64\n", pszPrefix, pVmcs->u32RoExitInstrInfo);
|
---|
3584 |
|
---|
3585 | /* 64-bit. */
|
---|
3586 | pHlp->pfnPrintf(pHlp, " %sGuest-physical addr = %#RX64\n", pszPrefix, pVmcs->u64RoGuestPhysAddr.u);
|
---|
3587 |
|
---|
3588 | /* Natural width. */
|
---|
3589 | pHlp->pfnPrintf(pHlp, " %sI/O RCX = %#RX64\n", pszPrefix, pVmcs->u64RoIoRcx.u);
|
---|
3590 | pHlp->pfnPrintf(pHlp, " %sI/O RSI = %#RX64\n", pszPrefix, pVmcs->u64RoIoRsi.u);
|
---|
3591 | pHlp->pfnPrintf(pHlp, " %sI/O RDI = %#RX64\n", pszPrefix, pVmcs->u64RoIoRdi.u);
|
---|
3592 | pHlp->pfnPrintf(pHlp, " %sI/O RIP = %#RX64\n", pszPrefix, pVmcs->u64RoIoRip.u);
|
---|
3593 | pHlp->pfnPrintf(pHlp, " %sGuest-linear addr = %#RX64\n", pszPrefix, pVmcs->u64RoGuestLinearAddr.u);
|
---|
3594 | }
|
---|
3595 |
|
---|
3596 | #undef CPUMVMX_DUMP_HOST_XDTR
|
---|
3597 | #undef CPUMVMX_DUMP_HOST_FS_GS_TR
|
---|
3598 | #undef CPUMVMX_DUMP_GUEST_SEGREG
|
---|
3599 | #undef CPUMVMX_DUMP_GUEST_XDTR
|
---|
3600 | }
|
---|
3601 |
|
---|
3602 |
|
---|
3603 | /**
|
---|
3604 | * Display the guest's hardware-virtualization cpu state.
|
---|
3605 | *
|
---|
3606 | * @param pVM The cross context VM structure.
|
---|
3607 | * @param pHlp The info helper functions.
|
---|
3608 | * @param pszArgs Arguments, ignored.
|
---|
3609 | */
|
---|
3610 | static DECLCALLBACK(void) cpumR3InfoGuestHwvirt(PVM pVM, PCDBGFINFOHLP pHlp, const char *pszArgs)
|
---|
3611 | {
|
---|
3612 | RT_NOREF(pszArgs);
|
---|
3613 |
|
---|
3614 | PVMCPU pVCpu = VMMGetCpu(pVM);
|
---|
3615 | if (!pVCpu)
|
---|
3616 | pVCpu = &pVM->aCpus[0];
|
---|
3617 |
|
---|
3618 | /*
|
---|
3619 | * Figure out what to dump.
|
---|
3620 | *
|
---|
3621 | * In the future we may need to dump everything whether or not we're actively in nested-guest mode
|
---|
3622 | * or not, hence the reason why we use a mask to determine what needs dumping. Currently, we only
|
---|
3623 | * dump hwvirt. state when the guest CPU is executing a nested-guest.
|
---|
3624 | */
|
---|
3625 | /** @todo perhaps make this configurable through pszArgs, depending on how much
|
---|
3626 | * noise we wish to accept when nested hwvirt. isn't used. */
|
---|
3627 | #define CPUMHWVIRTDUMP_NONE (0)
|
---|
3628 | #define CPUMHWVIRTDUMP_SVM RT_BIT(0)
|
---|
3629 | #define CPUMHWVIRTDUMP_VMX RT_BIT(1)
|
---|
3630 | #define CPUMHWVIRTDUMP_COMMON RT_BIT(2)
|
---|
3631 | #define CPUMHWVIRTDUMP_LAST CPUMHWVIRTDUMP_VMX
|
---|
3632 |
|
---|
3633 | PCPUMCTX pCtx = &pVCpu->cpum.s.Guest;
|
---|
3634 | static const char *const s_aHwvirtModes[] = { "No/inactive", "SVM", "VMX", "Common" };
|
---|
3635 | bool const fSvm = pVM->cpum.s.GuestFeatures.fSvm;
|
---|
3636 | bool const fVmx = pVM->cpum.s.GuestFeatures.fVmx;
|
---|
3637 | uint8_t const idxHwvirtState = fSvm ? CPUMHWVIRTDUMP_SVM : (fVmx ? CPUMHWVIRTDUMP_VMX : CPUMHWVIRTDUMP_NONE);
|
---|
3638 | AssertCompile(CPUMHWVIRTDUMP_LAST <= RT_ELEMENTS(s_aHwvirtModes));
|
---|
3639 | Assert(idxHwvirtState < RT_ELEMENTS(s_aHwvirtModes));
|
---|
3640 | const char *pcszHwvirtMode = s_aHwvirtModes[idxHwvirtState];
|
---|
3641 | uint32_t fDumpState = idxHwvirtState | CPUMHWVIRTDUMP_COMMON;
|
---|
3642 |
|
---|
3643 | /*
|
---|
3644 | * Dump it.
|
---|
3645 | */
|
---|
3646 | pHlp->pfnPrintf(pHlp, "VCPU[%u] hardware virtualization state:\n", pVCpu->idCpu);
|
---|
3647 |
|
---|
3648 | if (fDumpState & CPUMHWVIRTDUMP_COMMON)
|
---|
3649 | pHlp->pfnPrintf(pHlp, "fLocalForcedActions = %#RX32\n", pCtx->hwvirt.fLocalForcedActions);
|
---|
3650 |
|
---|
3651 | pHlp->pfnPrintf(pHlp, "%s hwvirt state%s\n", pcszHwvirtMode, (fDumpState & (CPUMHWVIRTDUMP_SVM | CPUMHWVIRTDUMP_VMX)) ?
|
---|
3652 | ":" : "");
|
---|
3653 | if (fDumpState & CPUMHWVIRTDUMP_SVM)
|
---|
3654 | {
|
---|
3655 | pHlp->pfnPrintf(pHlp, " fGif = %RTbool\n", pCtx->hwvirt.fGif);
|
---|
3656 |
|
---|
3657 | char szEFlags[80];
|
---|
3658 | cpumR3InfoFormatFlags(&szEFlags[0], pCtx->hwvirt.svm.HostState.rflags.u);
|
---|
3659 | pHlp->pfnPrintf(pHlp, " uMsrHSavePa = %#RX64\n", pCtx->hwvirt.svm.uMsrHSavePa);
|
---|
3660 | pHlp->pfnPrintf(pHlp, " GCPhysVmcb = %#RGp\n", pCtx->hwvirt.svm.GCPhysVmcb);
|
---|
3661 | pHlp->pfnPrintf(pHlp, " VmcbCtrl:\n");
|
---|
3662 | cpumR3InfoSvmVmcbCtrl(pHlp, &pCtx->hwvirt.svm.pVmcbR3->ctrl, " " /* pszPrefix */);
|
---|
3663 | pHlp->pfnPrintf(pHlp, " VmcbStateSave:\n");
|
---|
3664 | cpumR3InfoSvmVmcbStateSave(pHlp, &pCtx->hwvirt.svm.pVmcbR3->guest, " " /* pszPrefix */);
|
---|
3665 | pHlp->pfnPrintf(pHlp, " HostState:\n");
|
---|
3666 | pHlp->pfnPrintf(pHlp, " uEferMsr = %#RX64\n", pCtx->hwvirt.svm.HostState.uEferMsr);
|
---|
3667 | pHlp->pfnPrintf(pHlp, " uCr0 = %#RX64\n", pCtx->hwvirt.svm.HostState.uCr0);
|
---|
3668 | pHlp->pfnPrintf(pHlp, " uCr4 = %#RX64\n", pCtx->hwvirt.svm.HostState.uCr4);
|
---|
3669 | pHlp->pfnPrintf(pHlp, " uCr3 = %#RX64\n", pCtx->hwvirt.svm.HostState.uCr3);
|
---|
3670 | pHlp->pfnPrintf(pHlp, " uRip = %#RX64\n", pCtx->hwvirt.svm.HostState.uRip);
|
---|
3671 | pHlp->pfnPrintf(pHlp, " uRsp = %#RX64\n", pCtx->hwvirt.svm.HostState.uRsp);
|
---|
3672 | pHlp->pfnPrintf(pHlp, " uRax = %#RX64\n", pCtx->hwvirt.svm.HostState.uRax);
|
---|
3673 | pHlp->pfnPrintf(pHlp, " rflags = %#RX64 %31s\n", pCtx->hwvirt.svm.HostState.rflags.u64, szEFlags);
|
---|
3674 | PCPUMSELREG pSel = &pCtx->hwvirt.svm.HostState.es;
|
---|
3675 | pHlp->pfnPrintf(pHlp, " es = {%04x base=%016RX64 limit=%08x flags=%08x}\n",
|
---|
3676 | pSel->Sel, pSel->u64Base, pSel->u32Limit, pSel->Attr.u);
|
---|
3677 | pSel = &pCtx->hwvirt.svm.HostState.cs;
|
---|
3678 | pHlp->pfnPrintf(pHlp, " cs = {%04x base=%016RX64 limit=%08x flags=%08x}\n",
|
---|
3679 | pSel->Sel, pSel->u64Base, pSel->u32Limit, pSel->Attr.u);
|
---|
3680 | pSel = &pCtx->hwvirt.svm.HostState.ss;
|
---|
3681 | pHlp->pfnPrintf(pHlp, " ss = {%04x base=%016RX64 limit=%08x flags=%08x}\n",
|
---|
3682 | pSel->Sel, pSel->u64Base, pSel->u32Limit, pSel->Attr.u);
|
---|
3683 | pSel = &pCtx->hwvirt.svm.HostState.ds;
|
---|
3684 | pHlp->pfnPrintf(pHlp, " ds = {%04x base=%016RX64 limit=%08x flags=%08x}\n",
|
---|
3685 | pSel->Sel, pSel->u64Base, pSel->u32Limit, pSel->Attr.u);
|
---|
3686 | pHlp->pfnPrintf(pHlp, " gdtr = %016RX64:%04x\n", pCtx->hwvirt.svm.HostState.gdtr.pGdt,
|
---|
3687 | pCtx->hwvirt.svm.HostState.gdtr.cbGdt);
|
---|
3688 | pHlp->pfnPrintf(pHlp, " idtr = %016RX64:%04x\n", pCtx->hwvirt.svm.HostState.idtr.pIdt,
|
---|
3689 | pCtx->hwvirt.svm.HostState.idtr.cbIdt);
|
---|
3690 | pHlp->pfnPrintf(pHlp, " cPauseFilter = %RU16\n", pCtx->hwvirt.svm.cPauseFilter);
|
---|
3691 | pHlp->pfnPrintf(pHlp, " cPauseFilterThreshold = %RU32\n", pCtx->hwvirt.svm.cPauseFilterThreshold);
|
---|
3692 | pHlp->pfnPrintf(pHlp, " fInterceptEvents = %u\n", pCtx->hwvirt.svm.fInterceptEvents);
|
---|
3693 | pHlp->pfnPrintf(pHlp, " pvMsrBitmapR3 = %p\n", pCtx->hwvirt.svm.pvMsrBitmapR3);
|
---|
3694 | pHlp->pfnPrintf(pHlp, " pvMsrBitmapR0 = %RKv\n", pCtx->hwvirt.svm.pvMsrBitmapR0);
|
---|
3695 | pHlp->pfnPrintf(pHlp, " pvIoBitmapR3 = %p\n", pCtx->hwvirt.svm.pvIoBitmapR3);
|
---|
3696 | pHlp->pfnPrintf(pHlp, " pvIoBitmapR0 = %RKv\n", pCtx->hwvirt.svm.pvIoBitmapR0);
|
---|
3697 | }
|
---|
3698 |
|
---|
3699 | if (fDumpState & CPUMHWVIRTDUMP_VMX)
|
---|
3700 | {
|
---|
3701 | pHlp->pfnPrintf(pHlp, " GCPhysVmxon = %#RGp\n", pCtx->hwvirt.vmx.GCPhysVmxon);
|
---|
3702 | pHlp->pfnPrintf(pHlp, " GCPhysVmcs = %#RGp\n", pCtx->hwvirt.vmx.GCPhysVmcs);
|
---|
3703 | pHlp->pfnPrintf(pHlp, " GCPhysShadowVmcs = %#RGp\n", pCtx->hwvirt.vmx.GCPhysShadowVmcs);
|
---|
3704 | pHlp->pfnPrintf(pHlp, " enmDiag = %u (%s)\n", pCtx->hwvirt.vmx.enmDiag, HMVmxGetDiagDesc(pCtx->hwvirt.vmx.enmDiag));
|
---|
3705 | pHlp->pfnPrintf(pHlp, " enmAbort = %u (%s)\n", pCtx->hwvirt.vmx.enmAbort, HMVmxGetAbortDesc(pCtx->hwvirt.vmx.enmAbort));
|
---|
3706 | pHlp->pfnPrintf(pHlp, " uAbortAux = %u (%#x)\n", pCtx->hwvirt.vmx.uAbortAux, pCtx->hwvirt.vmx.uAbortAux);
|
---|
3707 | pHlp->pfnPrintf(pHlp, " fInVmxRootMode = %RTbool\n", pCtx->hwvirt.vmx.fInVmxRootMode);
|
---|
3708 | pHlp->pfnPrintf(pHlp, " fInVmxNonRootMode = %RTbool\n", pCtx->hwvirt.vmx.fInVmxNonRootMode);
|
---|
3709 | pHlp->pfnPrintf(pHlp, " fInterceptEvents = %RTbool\n", pCtx->hwvirt.vmx.fInterceptEvents);
|
---|
3710 | pHlp->pfnPrintf(pHlp, " fNmiUnblockingIret = %RTbool\n", pCtx->hwvirt.vmx.fNmiUnblockingIret);
|
---|
3711 | pHlp->pfnPrintf(pHlp, " uFirstPauseLoopTick = %RX64\n", pCtx->hwvirt.vmx.uFirstPauseLoopTick);
|
---|
3712 | pHlp->pfnPrintf(pHlp, " uPrevPauseTick = %RX64\n", pCtx->hwvirt.vmx.uPrevPauseTick);
|
---|
3713 | pHlp->pfnPrintf(pHlp, " uVmentryTick = %RX64\n", pCtx->hwvirt.vmx.uVmentryTick);
|
---|
3714 | pHlp->pfnPrintf(pHlp, " offVirtApicWrite = %#RX16\n", pCtx->hwvirt.vmx.offVirtApicWrite);
|
---|
3715 | pHlp->pfnPrintf(pHlp, " Current VMCS:\n");
|
---|
3716 | cpumR3InfoVmxVmcs(pHlp, pCtx->hwvirt.vmx.pVmcsR3, " " /* pszPrefix */);
|
---|
3717 | }
|
---|
3718 |
|
---|
3719 | #undef CPUMHWVIRTDUMP_NONE
|
---|
3720 | #undef CPUMHWVIRTDUMP_COMMON
|
---|
3721 | #undef CPUMHWVIRTDUMP_SVM
|
---|
3722 | #undef CPUMHWVIRTDUMP_VMX
|
---|
3723 | #undef CPUMHWVIRTDUMP_LAST
|
---|
3724 | #undef CPUMHWVIRTDUMP_ALL
|
---|
3725 | }
|
---|
3726 |
|
---|
3727 | /**
|
---|
3728 | * Display the current guest instruction
|
---|
3729 | *
|
---|
3730 | * @param pVM The cross context VM structure.
|
---|
3731 | * @param pHlp The info helper functions.
|
---|
3732 | * @param pszArgs Arguments, ignored.
|
---|
3733 | */
|
---|
3734 | static DECLCALLBACK(void) cpumR3InfoGuestInstr(PVM pVM, PCDBGFINFOHLP pHlp, const char *pszArgs)
|
---|
3735 | {
|
---|
3736 | NOREF(pszArgs);
|
---|
3737 |
|
---|
3738 | PVMCPU pVCpu = VMMGetCpu(pVM);
|
---|
3739 | if (!pVCpu)
|
---|
3740 | pVCpu = &pVM->aCpus[0];
|
---|
3741 |
|
---|
3742 | char szInstruction[256];
|
---|
3743 | szInstruction[0] = '\0';
|
---|
3744 | DBGFR3DisasInstrCurrent(pVCpu, szInstruction, sizeof(szInstruction));
|
---|
3745 | pHlp->pfnPrintf(pHlp, "\nCPUM%u: %s\n\n", pVCpu->idCpu, szInstruction);
|
---|
3746 | }
|
---|
3747 |
|
---|
3748 |
|
---|
3749 | /**
|
---|
3750 | * Display the hypervisor cpu state.
|
---|
3751 | *
|
---|
3752 | * @param pVM The cross context VM structure.
|
---|
3753 | * @param pHlp The info helper functions.
|
---|
3754 | * @param pszArgs Arguments, ignored.
|
---|
3755 | */
|
---|
3756 | static DECLCALLBACK(void) cpumR3InfoHyper(PVM pVM, PCDBGFINFOHLP pHlp, const char *pszArgs)
|
---|
3757 | {
|
---|
3758 | PVMCPU pVCpu = VMMGetCpu(pVM);
|
---|
3759 | if (!pVCpu)
|
---|
3760 | pVCpu = &pVM->aCpus[0];
|
---|
3761 |
|
---|
3762 | CPUMDUMPTYPE enmType;
|
---|
3763 | const char *pszComment;
|
---|
3764 | cpumR3InfoParseArg(pszArgs, &enmType, &pszComment);
|
---|
3765 | pHlp->pfnPrintf(pHlp, "Hypervisor CPUM state: %s\n", pszComment);
|
---|
3766 | cpumR3InfoOne(pVM, &pVCpu->cpum.s.Hyper, CPUMCTX2CORE(&pVCpu->cpum.s.Hyper), pHlp, enmType, ".");
|
---|
3767 | pHlp->pfnPrintf(pHlp, "CR4OrMask=%#x CR4AndMask=%#x\n", pVM->cpum.s.CR4.OrMask, pVM->cpum.s.CR4.AndMask);
|
---|
3768 | }
|
---|
3769 |
|
---|
3770 |
|
---|
3771 | /**
|
---|
3772 | * Display the host cpu state.
|
---|
3773 | *
|
---|
3774 | * @param pVM The cross context VM structure.
|
---|
3775 | * @param pHlp The info helper functions.
|
---|
3776 | * @param pszArgs Arguments, ignored.
|
---|
3777 | */
|
---|
3778 | static DECLCALLBACK(void) cpumR3InfoHost(PVM pVM, PCDBGFINFOHLP pHlp, const char *pszArgs)
|
---|
3779 | {
|
---|
3780 | CPUMDUMPTYPE enmType;
|
---|
3781 | const char *pszComment;
|
---|
3782 | cpumR3InfoParseArg(pszArgs, &enmType, &pszComment);
|
---|
3783 | pHlp->pfnPrintf(pHlp, "Host CPUM state: %s\n", pszComment);
|
---|
3784 |
|
---|
3785 | PVMCPU pVCpu = VMMGetCpu(pVM);
|
---|
3786 | if (!pVCpu)
|
---|
3787 | pVCpu = &pVM->aCpus[0];
|
---|
3788 | PCPUMHOSTCTX pCtx = &pVCpu->cpum.s.Host;
|
---|
3789 |
|
---|
3790 | /*
|
---|
3791 | * Format the EFLAGS.
|
---|
3792 | */
|
---|
3793 | #if HC_ARCH_BITS == 32
|
---|
3794 | uint32_t efl = pCtx->eflags.u32;
|
---|
3795 | #else
|
---|
3796 | uint64_t efl = pCtx->rflags;
|
---|
3797 | #endif
|
---|
3798 | char szEFlags[80];
|
---|
3799 | cpumR3InfoFormatFlags(&szEFlags[0], efl);
|
---|
3800 |
|
---|
3801 | /*
|
---|
3802 | * Format the registers.
|
---|
3803 | */
|
---|
3804 | #if HC_ARCH_BITS == 32
|
---|
3805 | pHlp->pfnPrintf(pHlp,
|
---|
3806 | "eax=xxxxxxxx ebx=%08x ecx=xxxxxxxx edx=xxxxxxxx esi=%08x edi=%08x\n"
|
---|
3807 | "eip=xxxxxxxx esp=%08x ebp=%08x iopl=%d %31s\n"
|
---|
3808 | "cs=%04x ds=%04x es=%04x fs=%04x gs=%04x eflags=%08x\n"
|
---|
3809 | "cr0=%08RX64 cr2=xxxxxxxx cr3=%08RX64 cr4=%08RX64 gdtr=%08x:%04x ldtr=%04x\n"
|
---|
3810 | "dr[0]=%08RX64 dr[1]=%08RX64x dr[2]=%08RX64 dr[3]=%08RX64x dr[6]=%08RX64 dr[7]=%08RX64\n"
|
---|
3811 | "SysEnter={cs=%04x eip=%08x esp=%08x}\n"
|
---|
3812 | ,
|
---|
3813 | /*pCtx->eax,*/ pCtx->ebx, /*pCtx->ecx, pCtx->edx,*/ pCtx->esi, pCtx->edi,
|
---|
3814 | /*pCtx->eip,*/ pCtx->esp, pCtx->ebp, X86_EFL_GET_IOPL(efl), szEFlags,
|
---|
3815 | pCtx->cs, pCtx->ds, pCtx->es, pCtx->fs, pCtx->gs, efl,
|
---|
3816 | pCtx->cr0, /*pCtx->cr2,*/ pCtx->cr3, pCtx->cr4,
|
---|
3817 | pCtx->dr0, pCtx->dr1, pCtx->dr2, pCtx->dr3, pCtx->dr6, pCtx->dr7,
|
---|
3818 | (uint32_t)pCtx->gdtr.uAddr, pCtx->gdtr.cb, pCtx->ldtr,
|
---|
3819 | pCtx->SysEnter.cs, pCtx->SysEnter.eip, pCtx->SysEnter.esp);
|
---|
3820 | #else
|
---|
3821 | pHlp->pfnPrintf(pHlp,
|
---|
3822 | "rax=xxxxxxxxxxxxxxxx rbx=%016RX64 rcx=xxxxxxxxxxxxxxxx\n"
|
---|
3823 | "rdx=xxxxxxxxxxxxxxxx rsi=%016RX64 rdi=%016RX64\n"
|
---|
3824 | "rip=xxxxxxxxxxxxxxxx rsp=%016RX64 rbp=%016RX64\n"
|
---|
3825 | " r8=xxxxxxxxxxxxxxxx r9=xxxxxxxxxxxxxxxx r10=%016RX64\n"
|
---|
3826 | "r11=%016RX64 r12=%016RX64 r13=%016RX64\n"
|
---|
3827 | "r14=%016RX64 r15=%016RX64\n"
|
---|
3828 | "iopl=%d %31s\n"
|
---|
3829 | "cs=%04x ds=%04x es=%04x fs=%04x gs=%04x eflags=%08RX64\n"
|
---|
3830 | "cr0=%016RX64 cr2=xxxxxxxxxxxxxxxx cr3=%016RX64\n"
|
---|
3831 | "cr4=%016RX64 ldtr=%04x tr=%04x\n"
|
---|
3832 | "dr[0]=%016RX64 dr[1]=%016RX64 dr[2]=%016RX64\n"
|
---|
3833 | "dr[3]=%016RX64 dr[6]=%016RX64 dr[7]=%016RX64\n"
|
---|
3834 | "gdtr=%016RX64:%04x idtr=%016RX64:%04x\n"
|
---|
3835 | "SysEnter={cs=%04x eip=%08x esp=%08x}\n"
|
---|
3836 | "FSbase=%016RX64 GSbase=%016RX64 efer=%08RX64\n"
|
---|
3837 | ,
|
---|
3838 | /*pCtx->rax,*/ pCtx->rbx, /*pCtx->rcx,
|
---|
3839 | pCtx->rdx,*/ pCtx->rsi, pCtx->rdi,
|
---|
3840 | /*pCtx->rip,*/ pCtx->rsp, pCtx->rbp,
|
---|
3841 | /*pCtx->r8, pCtx->r9,*/ pCtx->r10,
|
---|
3842 | pCtx->r11, pCtx->r12, pCtx->r13,
|
---|
3843 | pCtx->r14, pCtx->r15,
|
---|
3844 | X86_EFL_GET_IOPL(efl), szEFlags,
|
---|
3845 | pCtx->cs, pCtx->ds, pCtx->es, pCtx->fs, pCtx->gs, efl,
|
---|
3846 | pCtx->cr0, /*pCtx->cr2,*/ pCtx->cr3,
|
---|
3847 | pCtx->cr4, pCtx->ldtr, pCtx->tr,
|
---|
3848 | pCtx->dr0, pCtx->dr1, pCtx->dr2,
|
---|
3849 | pCtx->dr3, pCtx->dr6, pCtx->dr7,
|
---|
3850 | pCtx->gdtr.uAddr, pCtx->gdtr.cb, pCtx->idtr.uAddr, pCtx->idtr.cb,
|
---|
3851 | pCtx->SysEnter.cs, pCtx->SysEnter.eip, pCtx->SysEnter.esp,
|
---|
3852 | pCtx->FSbase, pCtx->GSbase, pCtx->efer);
|
---|
3853 | #endif
|
---|
3854 | }
|
---|
3855 |
|
---|
3856 | /**
|
---|
3857 | * Structure used when disassembling and instructions in DBGF.
|
---|
3858 | * This is used so the reader function can get the stuff it needs.
|
---|
3859 | */
|
---|
3860 | typedef struct CPUMDISASSTATE
|
---|
3861 | {
|
---|
3862 | /** Pointer to the CPU structure. */
|
---|
3863 | PDISCPUSTATE pCpu;
|
---|
3864 | /** Pointer to the VM. */
|
---|
3865 | PVM pVM;
|
---|
3866 | /** Pointer to the VMCPU. */
|
---|
3867 | PVMCPU pVCpu;
|
---|
3868 | /** Pointer to the first byte in the segment. */
|
---|
3869 | RTGCUINTPTR GCPtrSegBase;
|
---|
3870 | /** Pointer to the byte after the end of the segment. (might have wrapped!) */
|
---|
3871 | RTGCUINTPTR GCPtrSegEnd;
|
---|
3872 | /** The size of the segment minus 1. */
|
---|
3873 | RTGCUINTPTR cbSegLimit;
|
---|
3874 | /** Pointer to the current page - R3 Ptr. */
|
---|
3875 | void const *pvPageR3;
|
---|
3876 | /** Pointer to the current page - GC Ptr. */
|
---|
3877 | RTGCPTR pvPageGC;
|
---|
3878 | /** The lock information that PGMPhysReleasePageMappingLock needs. */
|
---|
3879 | PGMPAGEMAPLOCK PageMapLock;
|
---|
3880 | /** Whether the PageMapLock is valid or not. */
|
---|
3881 | bool fLocked;
|
---|
3882 | /** 64 bits mode or not. */
|
---|
3883 | bool f64Bits;
|
---|
3884 | } CPUMDISASSTATE, *PCPUMDISASSTATE;
|
---|
3885 |
|
---|
3886 |
|
---|
3887 | /**
|
---|
3888 | * @callback_method_impl{FNDISREADBYTES}
|
---|
3889 | */
|
---|
3890 | static DECLCALLBACK(int) cpumR3DisasInstrRead(PDISCPUSTATE pDis, uint8_t offInstr, uint8_t cbMinRead, uint8_t cbMaxRead)
|
---|
3891 | {
|
---|
3892 | PCPUMDISASSTATE pState = (PCPUMDISASSTATE)pDis->pvUser;
|
---|
3893 | for (;;)
|
---|
3894 | {
|
---|
3895 | RTGCUINTPTR GCPtr = pDis->uInstrAddr + offInstr + pState->GCPtrSegBase;
|
---|
3896 |
|
---|
3897 | /*
|
---|
3898 | * Need to update the page translation?
|
---|
3899 | */
|
---|
3900 | if ( !pState->pvPageR3
|
---|
3901 | || (GCPtr >> PAGE_SHIFT) != (pState->pvPageGC >> PAGE_SHIFT))
|
---|
3902 | {
|
---|
3903 | int rc = VINF_SUCCESS;
|
---|
3904 |
|
---|
3905 | /* translate the address */
|
---|
3906 | pState->pvPageGC = GCPtr & PAGE_BASE_GC_MASK;
|
---|
3907 | if ( VM_IS_RAW_MODE_ENABLED(pState->pVM)
|
---|
3908 | && MMHyperIsInsideArea(pState->pVM, pState->pvPageGC))
|
---|
3909 | {
|
---|
3910 | pState->pvPageR3 = MMHyperRCToR3(pState->pVM, (RTRCPTR)pState->pvPageGC);
|
---|
3911 | if (!pState->pvPageR3)
|
---|
3912 | rc = VERR_INVALID_POINTER;
|
---|
3913 | }
|
---|
3914 | else
|
---|
3915 | {
|
---|
3916 | /* Release mapping lock previously acquired. */
|
---|
3917 | if (pState->fLocked)
|
---|
3918 | PGMPhysReleasePageMappingLock(pState->pVM, &pState->PageMapLock);
|
---|
3919 | rc = PGMPhysGCPtr2CCPtrReadOnly(pState->pVCpu, pState->pvPageGC, &pState->pvPageR3, &pState->PageMapLock);
|
---|
3920 | pState->fLocked = RT_SUCCESS_NP(rc);
|
---|
3921 | }
|
---|
3922 | if (RT_FAILURE(rc))
|
---|
3923 | {
|
---|
3924 | pState->pvPageR3 = NULL;
|
---|
3925 | return rc;
|
---|
3926 | }
|
---|
3927 | }
|
---|
3928 |
|
---|
3929 | /*
|
---|
3930 | * Check the segment limit.
|
---|
3931 | */
|
---|
3932 | if (!pState->f64Bits && pDis->uInstrAddr + offInstr > pState->cbSegLimit)
|
---|
3933 | return VERR_OUT_OF_SELECTOR_BOUNDS;
|
---|
3934 |
|
---|
3935 | /*
|
---|
3936 | * Calc how much we can read.
|
---|
3937 | */
|
---|
3938 | uint32_t cb = PAGE_SIZE - (GCPtr & PAGE_OFFSET_MASK);
|
---|
3939 | if (!pState->f64Bits)
|
---|
3940 | {
|
---|
3941 | RTGCUINTPTR cbSeg = pState->GCPtrSegEnd - GCPtr;
|
---|
3942 | if (cb > cbSeg && cbSeg)
|
---|
3943 | cb = cbSeg;
|
---|
3944 | }
|
---|
3945 | if (cb > cbMaxRead)
|
---|
3946 | cb = cbMaxRead;
|
---|
3947 |
|
---|
3948 | /*
|
---|
3949 | * Read and advance or exit.
|
---|
3950 | */
|
---|
3951 | memcpy(&pDis->abInstr[offInstr], (uint8_t *)pState->pvPageR3 + (GCPtr & PAGE_OFFSET_MASK), cb);
|
---|
3952 | offInstr += (uint8_t)cb;
|
---|
3953 | if (cb >= cbMinRead)
|
---|
3954 | {
|
---|
3955 | pDis->cbCachedInstr = offInstr;
|
---|
3956 | return VINF_SUCCESS;
|
---|
3957 | }
|
---|
3958 | cbMinRead -= (uint8_t)cb;
|
---|
3959 | cbMaxRead -= (uint8_t)cb;
|
---|
3960 | }
|
---|
3961 | }
|
---|
3962 |
|
---|
3963 |
|
---|
3964 | /**
|
---|
3965 | * Disassemble an instruction and return the information in the provided structure.
|
---|
3966 | *
|
---|
3967 | * @returns VBox status code.
|
---|
3968 | * @param pVM The cross context VM structure.
|
---|
3969 | * @param pVCpu The cross context virtual CPU structure.
|
---|
3970 | * @param pCtx Pointer to the guest CPU context.
|
---|
3971 | * @param GCPtrPC Program counter (relative to CS) to disassemble from.
|
---|
3972 | * @param pCpu Disassembly state.
|
---|
3973 | * @param pszPrefix String prefix for logging (debug only).
|
---|
3974 | *
|
---|
3975 | */
|
---|
3976 | VMMR3DECL(int) CPUMR3DisasmInstrCPU(PVM pVM, PVMCPU pVCpu, PCPUMCTX pCtx, RTGCPTR GCPtrPC, PDISCPUSTATE pCpu,
|
---|
3977 | const char *pszPrefix)
|
---|
3978 | {
|
---|
3979 | CPUMDISASSTATE State;
|
---|
3980 | int rc;
|
---|
3981 |
|
---|
3982 | const PGMMODE enmMode = PGMGetGuestMode(pVCpu);
|
---|
3983 | State.pCpu = pCpu;
|
---|
3984 | State.pvPageGC = 0;
|
---|
3985 | State.pvPageR3 = NULL;
|
---|
3986 | State.pVM = pVM;
|
---|
3987 | State.pVCpu = pVCpu;
|
---|
3988 | State.fLocked = false;
|
---|
3989 | State.f64Bits = false;
|
---|
3990 |
|
---|
3991 | /*
|
---|
3992 | * Get selector information.
|
---|
3993 | */
|
---|
3994 | DISCPUMODE enmDisCpuMode;
|
---|
3995 | if ( (pCtx->cr0 & X86_CR0_PE)
|
---|
3996 | && pCtx->eflags.Bits.u1VM == 0)
|
---|
3997 | {
|
---|
3998 | if (!CPUMSELREG_ARE_HIDDEN_PARTS_VALID(pVCpu, &pCtx->cs))
|
---|
3999 | {
|
---|
4000 | # ifdef VBOX_WITH_RAW_MODE_NOT_R0
|
---|
4001 | CPUMGuestLazyLoadHiddenSelectorReg(pVCpu, &pCtx->cs);
|
---|
4002 | # endif
|
---|
4003 | if (!CPUMSELREG_ARE_HIDDEN_PARTS_VALID(pVCpu, &pCtx->cs))
|
---|
4004 | return VERR_CPUM_HIDDEN_CS_LOAD_ERROR;
|
---|
4005 | }
|
---|
4006 | State.f64Bits = enmMode >= PGMMODE_AMD64 && pCtx->cs.Attr.n.u1Long;
|
---|
4007 | State.GCPtrSegBase = pCtx->cs.u64Base;
|
---|
4008 | State.GCPtrSegEnd = pCtx->cs.u32Limit + 1 + (RTGCUINTPTR)pCtx->cs.u64Base;
|
---|
4009 | State.cbSegLimit = pCtx->cs.u32Limit;
|
---|
4010 | enmDisCpuMode = (State.f64Bits)
|
---|
4011 | ? DISCPUMODE_64BIT
|
---|
4012 | : pCtx->cs.Attr.n.u1DefBig
|
---|
4013 | ? DISCPUMODE_32BIT
|
---|
4014 | : DISCPUMODE_16BIT;
|
---|
4015 | }
|
---|
4016 | else
|
---|
4017 | {
|
---|
4018 | /* real or V86 mode */
|
---|
4019 | enmDisCpuMode = DISCPUMODE_16BIT;
|
---|
4020 | State.GCPtrSegBase = pCtx->cs.Sel * 16;
|
---|
4021 | State.GCPtrSegEnd = 0xFFFFFFFF;
|
---|
4022 | State.cbSegLimit = 0xFFFFFFFF;
|
---|
4023 | }
|
---|
4024 |
|
---|
4025 | /*
|
---|
4026 | * Disassemble the instruction.
|
---|
4027 | */
|
---|
4028 | uint32_t cbInstr;
|
---|
4029 | #ifndef LOG_ENABLED
|
---|
4030 | RT_NOREF_PV(pszPrefix);
|
---|
4031 | rc = DISInstrWithReader(GCPtrPC, enmDisCpuMode, cpumR3DisasInstrRead, &State, pCpu, &cbInstr);
|
---|
4032 | if (RT_SUCCESS(rc))
|
---|
4033 | {
|
---|
4034 | #else
|
---|
4035 | char szOutput[160];
|
---|
4036 | rc = DISInstrToStrWithReader(GCPtrPC, enmDisCpuMode, cpumR3DisasInstrRead, &State,
|
---|
4037 | pCpu, &cbInstr, szOutput, sizeof(szOutput));
|
---|
4038 | if (RT_SUCCESS(rc))
|
---|
4039 | {
|
---|
4040 | /* log it */
|
---|
4041 | if (pszPrefix)
|
---|
4042 | Log(("%s-CPU%d: %s", pszPrefix, pVCpu->idCpu, szOutput));
|
---|
4043 | else
|
---|
4044 | Log(("%s", szOutput));
|
---|
4045 | #endif
|
---|
4046 | rc = VINF_SUCCESS;
|
---|
4047 | }
|
---|
4048 | else
|
---|
4049 | Log(("CPUMR3DisasmInstrCPU: DISInstr failed for %04X:%RGv rc=%Rrc\n", pCtx->cs.Sel, GCPtrPC, rc));
|
---|
4050 |
|
---|
4051 | /* Release mapping lock acquired in cpumR3DisasInstrRead. */
|
---|
4052 | if (State.fLocked)
|
---|
4053 | PGMPhysReleasePageMappingLock(pVM, &State.PageMapLock);
|
---|
4054 |
|
---|
4055 | return rc;
|
---|
4056 | }
|
---|
4057 |
|
---|
4058 |
|
---|
4059 |
|
---|
4060 | /**
|
---|
4061 | * API for controlling a few of the CPU features found in CR4.
|
---|
4062 | *
|
---|
4063 | * Currently only X86_CR4_TSD is accepted as input.
|
---|
4064 | *
|
---|
4065 | * @returns VBox status code.
|
---|
4066 | *
|
---|
4067 | * @param pVM The cross context VM structure.
|
---|
4068 | * @param fOr The CR4 OR mask.
|
---|
4069 | * @param fAnd The CR4 AND mask.
|
---|
4070 | */
|
---|
4071 | VMMR3DECL(int) CPUMR3SetCR4Feature(PVM pVM, RTHCUINTREG fOr, RTHCUINTREG fAnd)
|
---|
4072 | {
|
---|
4073 | AssertMsgReturn(!(fOr & ~(X86_CR4_TSD)), ("%#x\n", fOr), VERR_INVALID_PARAMETER);
|
---|
4074 | AssertMsgReturn((fAnd & ~(X86_CR4_TSD)) == ~(X86_CR4_TSD), ("%#x\n", fAnd), VERR_INVALID_PARAMETER);
|
---|
4075 |
|
---|
4076 | pVM->cpum.s.CR4.OrMask &= fAnd;
|
---|
4077 | pVM->cpum.s.CR4.OrMask |= fOr;
|
---|
4078 |
|
---|
4079 | return VINF_SUCCESS;
|
---|
4080 | }
|
---|
4081 |
|
---|
4082 |
|
---|
4083 | /**
|
---|
4084 | * Enters REM, gets and resets the changed flags (CPUM_CHANGED_*).
|
---|
4085 | *
|
---|
4086 | * Only REM should ever call this function!
|
---|
4087 | *
|
---|
4088 | * @returns The changed flags.
|
---|
4089 | * @param pVCpu The cross context virtual CPU structure.
|
---|
4090 | * @param puCpl Where to return the current privilege level (CPL).
|
---|
4091 | */
|
---|
4092 | VMMR3DECL(uint32_t) CPUMR3RemEnter(PVMCPU pVCpu, uint32_t *puCpl)
|
---|
4093 | {
|
---|
4094 | Assert(!pVCpu->cpum.s.fRawEntered);
|
---|
4095 | Assert(!pVCpu->cpum.s.fRemEntered);
|
---|
4096 |
|
---|
4097 | /*
|
---|
4098 | * Get the CPL first.
|
---|
4099 | */
|
---|
4100 | *puCpl = CPUMGetGuestCPL(pVCpu);
|
---|
4101 |
|
---|
4102 | /*
|
---|
4103 | * Get and reset the flags.
|
---|
4104 | */
|
---|
4105 | uint32_t fFlags = pVCpu->cpum.s.fChanged;
|
---|
4106 | pVCpu->cpum.s.fChanged = 0;
|
---|
4107 |
|
---|
4108 | /** @todo change the switcher to use the fChanged flags. */
|
---|
4109 | if (pVCpu->cpum.s.fUseFlags & CPUM_USED_FPU_SINCE_REM)
|
---|
4110 | {
|
---|
4111 | fFlags |= CPUM_CHANGED_FPU_REM;
|
---|
4112 | pVCpu->cpum.s.fUseFlags &= ~CPUM_USED_FPU_SINCE_REM;
|
---|
4113 | }
|
---|
4114 |
|
---|
4115 | pVCpu->cpum.s.fRemEntered = true;
|
---|
4116 | return fFlags;
|
---|
4117 | }
|
---|
4118 |
|
---|
4119 |
|
---|
4120 | /**
|
---|
4121 | * Leaves REM.
|
---|
4122 | *
|
---|
4123 | * @param pVCpu The cross context virtual CPU structure.
|
---|
4124 | * @param fNoOutOfSyncSels This is @c false if there are out of sync
|
---|
4125 | * registers.
|
---|
4126 | */
|
---|
4127 | VMMR3DECL(void) CPUMR3RemLeave(PVMCPU pVCpu, bool fNoOutOfSyncSels)
|
---|
4128 | {
|
---|
4129 | Assert(!pVCpu->cpum.s.fRawEntered);
|
---|
4130 | Assert(pVCpu->cpum.s.fRemEntered);
|
---|
4131 |
|
---|
4132 | RT_NOREF_PV(fNoOutOfSyncSels);
|
---|
4133 |
|
---|
4134 | pVCpu->cpum.s.fRemEntered = false;
|
---|
4135 | }
|
---|
4136 |
|
---|
4137 |
|
---|
4138 | /**
|
---|
4139 | * Called when the ring-3 init phase completes.
|
---|
4140 | *
|
---|
4141 | * @returns VBox status code.
|
---|
4142 | * @param pVM The cross context VM structure.
|
---|
4143 | * @param enmWhat Which init phase.
|
---|
4144 | */
|
---|
4145 | VMMR3DECL(int) CPUMR3InitCompleted(PVM pVM, VMINITCOMPLETED enmWhat)
|
---|
4146 | {
|
---|
4147 | switch (enmWhat)
|
---|
4148 | {
|
---|
4149 | case VMINITCOMPLETED_RING3:
|
---|
4150 | {
|
---|
4151 | /*
|
---|
4152 | * Figure out if the guest uses 32-bit or 64-bit FPU state at runtime for 64-bit capable VMs.
|
---|
4153 | * Only applicable/used on 64-bit hosts, refer CPUMR0A.asm. See @bugref{7138}.
|
---|
4154 | */
|
---|
4155 | bool const fSupportsLongMode = VMR3IsLongModeAllowed(pVM);
|
---|
4156 | for (VMCPUID i = 0; i < pVM->cCpus; i++)
|
---|
4157 | {
|
---|
4158 | PVMCPU pVCpu = &pVM->aCpus[i];
|
---|
4159 | /* While loading a saved-state we fix it up in, cpumR3LoadDone(). */
|
---|
4160 | if (fSupportsLongMode)
|
---|
4161 | pVCpu->cpum.s.fUseFlags |= CPUM_USE_SUPPORTS_LONGMODE;
|
---|
4162 | }
|
---|
4163 |
|
---|
4164 | /* Register statistic counters for MSRs. */
|
---|
4165 | cpumR3MsrRegStats(pVM);
|
---|
4166 | break;
|
---|
4167 | }
|
---|
4168 |
|
---|
4169 | default:
|
---|
4170 | break;
|
---|
4171 | }
|
---|
4172 | return VINF_SUCCESS;
|
---|
4173 | }
|
---|
4174 |
|
---|
4175 |
|
---|
4176 | /**
|
---|
4177 | * Called when the ring-0 init phases completed.
|
---|
4178 | *
|
---|
4179 | * @param pVM The cross context VM structure.
|
---|
4180 | */
|
---|
4181 | VMMR3DECL(void) CPUMR3LogCpuIdAndMsrFeatures(PVM pVM)
|
---|
4182 | {
|
---|
4183 | /*
|
---|
4184 | * Enable log buffering as we're going to log a lot of lines.
|
---|
4185 | */
|
---|
4186 | bool const fOldBuffered = RTLogRelSetBuffering(true /*fBuffered*/);
|
---|
4187 |
|
---|
4188 | /*
|
---|
4189 | * Log the cpuid.
|
---|
4190 | */
|
---|
4191 | RTCPUSET OnlineSet;
|
---|
4192 | LogRel(("CPUM: Logical host processors: %u present, %u max, %u online, online mask: %016RX64\n",
|
---|
4193 | (unsigned)RTMpGetPresentCount(), (unsigned)RTMpGetCount(), (unsigned)RTMpGetOnlineCount(),
|
---|
4194 | RTCpuSetToU64(RTMpGetOnlineSet(&OnlineSet)) ));
|
---|
4195 | RTCPUID cCores = RTMpGetCoreCount();
|
---|
4196 | if (cCores)
|
---|
4197 | LogRel(("CPUM: Physical host cores: %u\n", (unsigned)cCores));
|
---|
4198 | LogRel(("************************* CPUID dump ************************\n"));
|
---|
4199 | DBGFR3Info(pVM->pUVM, "cpuid", "verbose", DBGFR3InfoLogRelHlp());
|
---|
4200 | LogRel(("\n"));
|
---|
4201 | DBGFR3_INFO_LOG_SAFE(pVM, "cpuid", "verbose"); /* macro */
|
---|
4202 | LogRel(("******************** End of CPUID dump **********************\n"));
|
---|
4203 |
|
---|
4204 | /*
|
---|
4205 | * Log VT-x extended features.
|
---|
4206 | *
|
---|
4207 | * SVM features are currently all covered under CPUID so there is nothing
|
---|
4208 | * to do here for SVM.
|
---|
4209 | */
|
---|
4210 | if (pVM->cpum.s.HostFeatures.fVmx)
|
---|
4211 | {
|
---|
4212 | LogRel(("*********************** VT-x features ***********************\n"));
|
---|
4213 | DBGFR3Info(pVM->pUVM, "cpumvmxfeat", "default", DBGFR3InfoLogRelHlp());
|
---|
4214 | LogRel(("\n"));
|
---|
4215 | LogRel(("******************* End of VT-x features ********************\n"));
|
---|
4216 | }
|
---|
4217 |
|
---|
4218 | /*
|
---|
4219 | * Restore the log buffering state to what it was previously.
|
---|
4220 | */
|
---|
4221 | RTLogRelSetBuffering(fOldBuffered);
|
---|
4222 | }
|
---|
4223 |
|
---|