1 | /* $Id: bs3-fpustate-1-template.c 106061 2024-09-16 14:03:52Z vboxsync $ */
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2 | /** @file
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3 | * BS3Kit - bs3-fpustate-1, C code template.
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4 | */
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5 |
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6 | /*
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7 | * Copyright (C) 2007-2024 Oracle and/or its affiliates.
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8 | *
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9 | * This file is part of VirtualBox base platform packages, as
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10 | * available from https://www.virtualbox.org.
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11 | *
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12 | * This program is free software; you can redistribute it and/or
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13 | * modify it under the terms of the GNU General Public License
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14 | * as published by the Free Software Foundation, in version 3 of the
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15 | * License.
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16 | *
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17 | * This program is distributed in the hope that it will be useful, but
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18 | * WITHOUT ANY WARRANTY; without even the implied warranty of
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19 | * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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20 | * General Public License for more details.
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21 | *
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22 | * You should have received a copy of the GNU General Public License
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23 | * along with this program; if not, see <https://www.gnu.org/licenses>.
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24 | *
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25 | * The contents of this file may alternatively be used under the terms
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26 | * of the Common Development and Distribution License Version 1.0
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27 | * (CDDL), a copy of it is provided in the "COPYING.CDDL" file included
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28 | * in the VirtualBox distribution, in which case the provisions of the
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29 | * CDDL are applicable instead of those of the GPL.
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30 | *
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31 | * You may elect to license modified versions of this file under the
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32 | * terms and conditions of either the GPL or the CDDL or both.
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33 | *
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34 | * SPDX-License-Identifier: GPL-3.0-only OR CDDL-1.0
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35 | */
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36 |
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37 |
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38 | /*********************************************************************************************************************************
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39 | * Header Files *
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40 | *********************************************************************************************************************************/
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41 | #include <iprt/asm.h>
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42 | #include <iprt/asm-amd64-x86.h>
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43 | #include <VBox/VMMDevTesting.h>
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44 |
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45 |
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46 | /*********************************************************************************************************************************
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47 | * Defined Constants And Macros *
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48 | *********************************************************************************************************************************/
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49 |
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50 |
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51 | #ifdef BS3_INSTANTIATING_CMN
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52 |
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53 | /**
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54 | * Displays the differences between the two states.
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55 | */
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56 | # define bs3FpuState1_Diff BS3_CMN_NM(bs3FpuState1_Diff)
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57 | BS3_DECL_NEAR(void) bs3FpuState1_Diff(X86FXSTATE const BS3_FAR *pExpected, X86FXSTATE const BS3_FAR *pChecking)
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58 | {
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59 | unsigned i;
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60 |
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61 | # define CHECK(a_Member, a_Fmt) \
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62 | if (pExpected->a_Member != pChecking->a_Member) \
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63 | Bs3TestPrintf(" " #a_Member ": " a_Fmt ", expected " a_Fmt "\n", pChecking->a_Member, pExpected->a_Member); \
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64 | else do { } while (0)
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65 | CHECK(FCW, "%#RX16");
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66 | CHECK(FSW, "%#RX16");
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67 | CHECK(FTW, "%#RX16");
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68 | CHECK(FOP, "%#RX16");
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69 | CHECK(FPUIP, "%#RX32");
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70 | CHECK(CS, "%#RX16");
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71 | CHECK(Rsrvd1, "%#RX16");
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72 | CHECK(FPUDP, "%#RX32");
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73 | CHECK(DS, "%#RX16");
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74 | CHECK(Rsrvd2, "%#RX16");
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75 | CHECK(MXCSR, "%#RX32");
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76 | CHECK(MXCSR_MASK, "%#RX32");
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77 | # undef CHECK
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78 | for (i = 0; i < RT_ELEMENTS(pExpected->aRegs); i++)
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79 | if ( pChecking->aRegs[i].au64[0] != pExpected->aRegs[i].au64[0]
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80 | || pChecking->aRegs[i].au64[1] != pExpected->aRegs[i].au64[1])
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81 | Bs3TestPrintf("st%u: %.16Rhxs\n"
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82 | "exp: %.16Rhxs\n",
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83 | i, &pChecking->aRegs[i], &pExpected->aRegs[i]);
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84 | for (i = 0; i < RT_ELEMENTS(pExpected->aXMM); i++)
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85 | if ( pChecking->aXMM[i].au64[0] != pExpected->aXMM[i].au64[0]
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86 | || pChecking->aXMM[i].au64[1] != pExpected->aXMM[i].au64[1])
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87 | Bs3TestPrintf("xmm%u: %.16Rhxs\n"
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88 | " %sexp: %.16Rhxs\n",
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89 | i, &pChecking->aRegs[i], &pExpected->aRegs[i], i >= 10 ? " " : "");
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90 | }
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91 |
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92 |
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93 | #endif /* BS3_INSTANTIATING_CMN */
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94 |
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95 |
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96 | /*
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97 | * Mode specific code.
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98 | * Mode specific code.
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99 | * Mode specific code.
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100 | */
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101 | #ifdef BS3_INSTANTIATING_MODE
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102 | # if TMPL_MODE == BS3_MODE_PE32 \
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103 | || TMPL_MODE == BS3_MODE_PP32 \
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104 | || TMPL_MODE == BS3_MODE_PAE32 \
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105 | || TMPL_MODE == BS3_MODE_LM64 \
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106 | || TMPL_MODE == BS3_MODE_RM
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107 |
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108 | /* Assembly helpers: */
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109 | BS3_DECL_NEAR(void) TMPL_NM(bs3FpuState1_InitState)(X86FXSTATE BS3_FAR *pFxState, void BS3_FAR *pvMmioReg);
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110 | BS3_DECL_NEAR(void) TMPL_NM(bs3FpuState1_Restore)(X86FXSTATE const BS3_FAR *pFxState);
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111 | BS3_DECL_NEAR(void) TMPL_NM(bs3FpuState1_Save)(X86FXSTATE BS3_FAR *pFxState);
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112 |
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113 | BS3_DECL_NEAR(void) TMPL_NM(bs3FpuState1_FNStEnv)(void BS3_FAR *pvMmioReg);
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114 | BS3_DECL_NEAR(void) TMPL_NM(bs3FpuState1_MovDQU_Read)(void BS3_FAR *pvMmioReg, void BS3_FAR *pvResult);
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115 | BS3_DECL_NEAR(void) TMPL_NM(bs3FpuState1_MovDQU_Write)(void BS3_FAR *pvMmioReg);
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116 | BS3_DECL_NEAR(void) TMPL_NM(bs3FpuState1_MovUPS_Read)(void BS3_FAR *pvMmioReg, void BS3_FAR *pvResult);
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117 | BS3_DECL_NEAR(void) TMPL_NM(bs3FpuState1_MovUPS_Write)(void BS3_FAR *pvMmioReg);
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118 | BS3_DECL_NEAR(void) TMPL_NM(bs3FpuState1_FMul)(void BS3_FAR *pvMmioReg, void BS3_FAR *pvNoResult);
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119 |
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120 |
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121 | /**
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122 | * Checks if we're seeing a problem with fnstenv saving zero selectors when
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123 | * running on the compare area.
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124 | *
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125 | * This triggers in NEM mode if the native hypervisor doesn't do a good enough
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126 | * job at save the FPU state for 16-bit and 32-bit guests. We have heuristics
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127 | * in CPUMInternal.mac (SAVE_32_OR_64_FPU) for this.
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128 | *
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129 | * @returns true if this the zero selector issue.
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130 | * @param pabReadback The MMIO read buffer containing the fnstenv result
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131 | * typically produced by IEM.
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132 | * @param pabCompare The buffer containing the fnstenv result typcially
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133 | * produced by the CPU itself.
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134 | */
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135 | static bool TMPL_NM(bs3FpuState1_IsZeroFnStEnvSelectorsProblem)(const uint8_t BS3_FAR *pabReadback,
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136 | const uint8_t BS3_FAR *pabCompare)
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137 | {
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138 | unsigned const offCs = ARCH_BITS == 16 ? 8 : 16;
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139 | unsigned const offDs = ARCH_BITS == 16 ? 12 : 24;
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140 | if ( *(const uint16_t BS3_FAR *)&pabCompare[offCs] == 0
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141 | && *(const uint16_t BS3_FAR *)&pabCompare[offDs] == 0)
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142 | {
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143 | /* Check the stuff before the CS register: */
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144 | if (Bs3MemCmp(pabReadback, pabCompare, offCs) == 0)
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145 | {
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146 | /* Check the stuff between the DS and CS registers:*/
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147 | if (Bs3MemCmp(&pabReadback[offCs + 2], &pabCompare[offCs + 2], offDs - offCs - 2) == 0)
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148 | {
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149 | #if ARCH_BITS != 16
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150 | /* Check the stuff after the DS register if 32-bit mode: */
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151 | if ( *(const uint16_t BS3_FAR *)&pabReadback[offDs + 2]
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152 | == *(const uint16_t BS3_FAR *)&pabCompare[offDs + 2])
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153 | #endif
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154 | return true;
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155 | }
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156 | }
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157 | }
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158 | return false;
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159 | }
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160 |
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161 |
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162 | /**
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163 | * Tests for FPU state corruption.
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164 | *
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165 | * First we don't do anything to quit guest context for a while.
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166 | * Then we start testing weird MMIO accesses, some which amonger other things
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167 | * forces the use of the FPU state or host FPU to do the emulation. Both are a
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168 | * little complicated in raw-mode and ring-0 contexts.
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169 | *
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170 | * We ASSUME FXSAVE/FXRSTOR support here.
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171 | */
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172 | BS3_DECL_FAR(uint8_t) TMPL_NM(bs3FpuState1_Corruption)(uint8_t bMode)
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173 | {
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174 | /* We don't need to test that many modes, probably. */
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175 |
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176 | uint8_t abBuf[sizeof(X86FXSTATE)*2 + 32];
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177 | uint8_t BS3_FAR *pbTmp = &abBuf[0x10 - (((uintptr_t)abBuf) & 0x0f)];
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178 | X86FXSTATE BS3_FAR *pExpected = (X86FXSTATE BS3_FAR *)pbTmp;
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179 | X86FXSTATE BS3_FAR *pChecking = pExpected + 1;
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180 | uint32_t iLoop;
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181 | uint32_t uStartTick;
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182 | bool fMmioReadback;
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183 | bool fReadBackError = false;
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184 | bool fReadError = false;
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185 | uint32_t cFnStEnvSelectorsZero = 0;
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186 | BS3PTRUNION MmioReg;
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187 | BS3CPUVENDOR const enmCpuVendor = Bs3GetCpuVendor();
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188 | bool const fSkipStorIdt = Bs3TestQueryCfgBool(VMMDEV_TESTING_CFG_IS_NEM_LINUX, false);
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189 | bool const fMayHaveZeroStEnvSels = Bs3TestQueryCfgBool(VMMDEV_TESTING_CFG_IS_NEM_LINUX, false);
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190 | bool const fFastFxSaveRestore = RT_BOOL(ASMCpuId_EDX(0x80000001) & X86_CPUID_AMD_FEATURE_EDX_FFXSR);
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191 | //bool const fFdpXcptOnly = (ASMCpuIdEx_EBX(7, 0) & X86_CPUID_STEXT_FEATURE_EBX_FDP_EXCPTN_ONLY)
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192 | // && ASMCpuId_EAX(0) >= 7;
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193 | RT_NOREF(bMode);
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194 |
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195 | if (fSkipStorIdt)
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196 | Bs3TestPrintf("NEM/linux - skipping SIDT\n");
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197 |
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198 | # undef CHECK_STATE
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199 | # define CHECK_STATE(a_Instr, a_fIsFnStEnv) \
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200 | do { \
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201 | TMPL_NM(bs3FpuState1_Save)(pChecking); \
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202 | if (Bs3MemCmp(pExpected, pChecking, sizeof(*pExpected)) != 0) \
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203 | { \
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204 | Bs3TestFailedF("State differs after " #a_Instr " (write) in loop #%RU32\n", iLoop); \
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205 | bs3FpuState1_Diff(pExpected, pChecking); \
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206 | Bs3PitDisable(); \
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207 | return 1; \
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208 | } \
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209 | } while (0)
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210 |
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211 |
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212 | /* Make this code executable in raw-mode. A bit tricky. */
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213 | ASMSetCR0(ASMGetCR0() | X86_CR0_WP);
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214 | Bs3PitSetupAndEnablePeriodTimer(20);
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215 | ASMIntEnable();
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216 | # if ARCH_BITS != 64
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217 | ASMHalt();
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218 | # endif
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219 |
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220 | /* Figure out which MMIO region we'll be using so we can correctly initialize FPUDS. */
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221 | # if BS3_MODE_IS_RM_OR_V86(TMPL_MODE)
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222 | MmioReg.pv = BS3_FP_MAKE(VMMDEV_TESTING_MMIO_RM_SEL, VMMDEV_TESTING_MMIO_RM_OFF2(0));
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223 | # elif BS3_MODE_IS_16BIT_CODE(TMPL_MODE)
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224 | MmioReg.pv = BS3_FP_MAKE(BS3_SEL_VMMDEV_MMIO16, 0);
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225 | # else
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226 | MmioReg.pv = (uint8_t *)VMMDEV_TESTING_MMIO_BASE;
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227 | # endif
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228 | if (MmioReg.pu32[VMMDEV_TESTING_MMIO_OFF_NOP / sizeof(uint32_t)] == VMMDEV_TESTING_NOP_RET)
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229 | {
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230 | fMmioReadback = true;
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231 | MmioReg.pb += VMMDEV_TESTING_MMIO_OFF_READBACK;
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232 | }
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233 | else
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234 | {
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235 | Bs3TestPrintf("VMMDev MMIO not found, using VGA instead\n");
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236 | fMmioReadback = false;
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237 | MmioReg.pv = Bs3XptrFlatToCurrent(0xa7800);
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238 | }
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239 |
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240 | /* Make 100% sure we don't trap accessing the FPU state and that we can use fxsave/fxrstor. */
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241 | g_usBs3TestStep = 1;
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242 | ASMSetCR0((ASMGetCR0() & ~(X86_CR0_TS | X86_CR0_EM)) | X86_CR0_MP);
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243 | ASMSetCR4(ASMGetCR4() | X86_CR4_OSFXSR /*| X86_CR4_OSXMMEEXCPT*/);
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244 |
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245 | /* Come up with a distinct state. We do that from assembly (will do FPU in R0/RC). */
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246 | g_usBs3TestStep = 2;
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247 | Bs3MemSet(abBuf, 0x42, sizeof(abBuf));
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248 | TMPL_NM(bs3FpuState1_InitState)(pExpected, MmioReg.pb);
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249 |
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250 |
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251 | /*
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252 | * Test #1: Check that we can keep it consistent for a while.
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253 | */
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254 | g_usBs3TestStep = 3;
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255 | uStartTick = g_cBs3PitTicks;
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256 | for (iLoop = 0; iLoop < _16M; iLoop++)
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257 | {
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258 | CHECK_STATE(nop, false);
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259 | if ( (iLoop & 0xffff) == 0xffff
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260 | && g_cBs3PitTicks - uStartTick >= 20 * 20) /* 20 seconds*/
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261 | break;
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262 | }
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263 |
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264 | /*
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265 | * Test #2: Use various FPU, SSE and weird instructions to do MMIO writes.
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266 | *
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267 | * We'll use the VMMDev readback register if possible, but make do
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268 | * with VGA if not configured.
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269 | */
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270 | # ifdef __WATCOMC__
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271 | # pragma DISABLE_MESSAGE(201) /* Warning! W201: Unreachable code */
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272 | # endif
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273 | g_usBs3TestStep = 4;
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274 | uStartTick = g_cBs3PitTicks;
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275 | for (iLoop = 0; iLoop < _1M; iLoop++)
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276 | {
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277 | unsigned off;
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278 | uint8_t abCompare[64];
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279 | uint8_t abReadback[64];
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280 |
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281 | /* Macros */
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282 | # undef CHECK_READBACK_WRITE_RUN
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283 | # define CHECK_READBACK_WRITE_RUN(a_Instr, a_Worker, a_Type, a_fIsFnStEnv) \
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284 | do { \
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285 | off = (unsigned)(iLoop & (VMMDEV_TESTING_READBACK_SIZE / 2 - 1)); \
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286 | if (off + sizeof(a_Type) > VMMDEV_TESTING_READBACK_SIZE) \
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287 | off = VMMDEV_TESTING_READBACK_SIZE - sizeof(a_Type); \
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288 | a_Worker((a_Type *)&MmioReg.pb[off]); \
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289 | if (fMmioReadback && (!fReadBackError || iLoop == 0)) \
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290 | { \
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291 | a_Worker((a_Type *)&abCompare[0]); \
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292 | Bs3MemCpy(abReadback, &MmioReg.pb[off], sizeof(a_Type)); \
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293 | if (Bs3MemCmp(abReadback, abCompare, sizeof(a_Type)) == 0) \
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294 | { /* likely */ } \
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295 | else if ( (a_fIsFnStEnv) \
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296 | && fMayHaveZeroStEnvSels \
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297 | && TMPL_NM(bs3FpuState1_IsZeroFnStEnvSelectorsProblem)(abReadback, abCompare)) \
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298 | cFnStEnvSelectorsZero += 1; \
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299 | else \
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300 | { \
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301 | Bs3TestFailedF("Read back error for " #a_Instr " in loop #%RU32:\n%.*Rhxs expected:\n%.*Rhxs\n", \
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302 | iLoop, sizeof(a_Type), abReadback, sizeof(a_Type), abCompare); \
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303 | fReadBackError = true; \
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304 | } \
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305 | } \
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306 | } while (0)
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307 |
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308 | # undef CHECK_READBACK_WRITE
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309 | # define CHECK_READBACK_WRITE(a_Instr, a_Worker, a_Type, a_fIsFnStEnv) \
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310 | CHECK_READBACK_WRITE_RUN(a_Instr, a_Worker, a_Type, a_fIsFnStEnv); \
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311 | CHECK_STATE(a_Instr, a_fIsFnStEnv)
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312 | # undef CHECK_READBACK_WRITE_Z
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313 | # define CHECK_READBACK_WRITE_Z(a_Instr, a_Worker, a_Type, a_fIsFnStEnv) \
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314 | do { \
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315 | if (fMmioReadback && (!fReadBackError || iLoop == 0)) \
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316 | { \
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317 | Bs3MemZero(&abCompare[0], sizeof(a_Type)); \
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318 | off = (unsigned)(iLoop & (VMMDEV_TESTING_READBACK_SIZE / 2 - 1)); \
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319 | if (off + sizeof(a_Type) > VMMDEV_TESTING_READBACK_SIZE) \
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320 | off = VMMDEV_TESTING_READBACK_SIZE - sizeof(a_Type); \
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321 | Bs3MemZero(&MmioReg.pb[off], sizeof(a_Type)); \
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322 | } \
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323 | CHECK_READBACK_WRITE(a_Instr, a_Worker, a_Type, a_fIsFnStEnv); \
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324 | } while (0)
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325 |
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326 | # undef CHECK_READBACK_READ_RUN
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327 | #define CHECK_READBACK_READ_RUN(a_Instr, a_Worker, a_Type) \
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328 | do { \
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329 | off = (unsigned)(iLoop & (VMMDEV_TESTING_READBACK_SIZE / 2 - 1)); \
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330 | if (off + sizeof(a_Type) > VMMDEV_TESTING_READBACK_SIZE) \
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331 | off = VMMDEV_TESTING_READBACK_SIZE - sizeof(a_Type); \
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332 | a_Worker((a_Type *)&MmioReg.pb[off], (a_Type *)&abReadback[0]); \
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333 | TMPL_NM(bs3FpuState1_Save)(pChecking); \
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334 | } while (0)
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335 | # undef CHECK_READBACK_READ
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336 | # define CHECK_READBACK_READ(a_Instr, a_Worker, a_Type) \
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337 | do { \
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338 | Bs3MemSet(&abReadback[0], 0xcc, sizeof(abReadback)); \
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339 | CHECK_READBACK_READ_RUN(a_Instr, a_Worker, a_Type); \
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340 | CHECK_STATE(a_Instr, false); \
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341 | if (!fReadError || iLoop == 0) \
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342 | { \
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343 | Bs3MemZero(&abCompare[0], sizeof(abCompare)); \
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344 | Bs3MemCpy(&abCompare[0], &MmioReg.pb[off], sizeof(a_Type)); \
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345 | if (Bs3MemCmp(abReadback, abCompare, sizeof(a_Type)) != 0) \
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346 | { \
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347 | Bs3TestFailedF("Read result check for " #a_Instr " in loop #%RU32:\n%.*Rhxs expected:\n%.*Rhxs\n", \
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348 | iLoop, sizeof(a_Type), abReadback, sizeof(a_Type), abCompare); \
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349 | fReadError = true; \
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350 | } \
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351 | } \
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352 | } while (0)
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353 |
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354 | /* The tests. */
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355 | if (!fSkipStorIdt) /* KVM doesn't advance RIP executing a SIDT [MMIO-memory], it seems. (Linux 5.13.1) */
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356 | CHECK_READBACK_WRITE_Z(SIDT, ASMGetIDTR, RTIDTR, false);
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357 | CHECK_READBACK_WRITE_Z(FNSTENV, TMPL_NM(bs3FpuState1_FNStEnv), X86FSTENV32P, true); /** @todo x86.h is missing types */
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358 | CHECK_READBACK_WRITE( MOVDQU, TMPL_NM(bs3FpuState1_MovDQU_Write), X86XMMREG, false);
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359 | CHECK_READBACK_READ( MOVDQU, TMPL_NM(bs3FpuState1_MovDQU_Read), X86XMMREG);
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360 | CHECK_READBACK_WRITE( MOVUPS, TMPL_NM(bs3FpuState1_MovUPS_Write), X86XMMREG, false);
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361 | CHECK_READBACK_READ( MOVUPS, TMPL_NM(bs3FpuState1_MovUPS_Read), X86XMMREG);
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362 |
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363 | /* Using the FPU is a little complicated, but we really need to check these things. */
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364 | CHECK_READBACK_READ_RUN(FMUL, TMPL_NM(bs3FpuState1_FMul), uint64_t);
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365 | if (enmCpuVendor == BS3CPUVENDOR_INTEL)
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366 | # if BS3_MODE_IS_16BIT_CODE(TMPL_MODE)
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367 | pExpected->FOP = 0x040f; // skylake 6700k
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368 | # else
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369 | pExpected->FOP = 0x040b; // skylake 6700k
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370 | # endif
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371 | else if (enmCpuVendor == BS3CPUVENDOR_AMD && fFastFxSaveRestore)
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372 | pExpected->FOP = 0x0000; // Zen2 (3990x)
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373 | else
|
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374 | pExpected->FOP = 0x07dc; // dunno where we got this.
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375 | # if ARCH_BITS == 64
|
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376 | pExpected->FPUDP = (uint32_t) (uintptr_t)&MmioReg.pb[off];
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377 | pExpected->DS = (uint16_t)((uintptr_t)&MmioReg.pb[off] >> 32);
|
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378 | pExpected->Rsrvd2 = (uint16_t)((uintptr_t)&MmioReg.pb[off] >> 48);
|
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379 | # elif BS3_MODE_IS_RM_OR_V86(TMPL_MODE)
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380 | pExpected->FPUDP = Bs3SelPtrToFlat(&MmioReg.pb[off]);
|
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381 | # else
|
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382 | pExpected->FPUDP = BS3_FP_OFF(&MmioReg.pb[off]);
|
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383 | # endif
|
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384 | if (enmCpuVendor == BS3CPUVENDOR_AMD && fFastFxSaveRestore)
|
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385 | pExpected->FPUDP = 0; // Zen2 (3990x)
|
---|
386 | CHECK_STATE(FMUL, false);
|
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387 |
|
---|
388 | /* check for timeout every now an then. */
|
---|
389 | if ( (iLoop & 0xfff) == 0xfff
|
---|
390 | && g_cBs3PitTicks - uStartTick >= 20 * 20) /* 20 seconds*/
|
---|
391 | break;
|
---|
392 | }
|
---|
393 |
|
---|
394 | Bs3PitDisable();
|
---|
395 |
|
---|
396 | # ifdef __WATCOMC__
|
---|
397 | # pragma ENABLE_MESSAGE(201) /* Warning! W201: Unreachable code */
|
---|
398 | # endif
|
---|
399 |
|
---|
400 | /*
|
---|
401 | * Warn if selectors are borked (for real VBox we'll fail and not warn).
|
---|
402 | */
|
---|
403 | if (cFnStEnvSelectorsZero > 0)
|
---|
404 | Bs3TestPrintf("Warning! NEM borked the FPU selectors %u times.\n", cFnStEnvSelectorsZero);
|
---|
405 | return 0;
|
---|
406 | }
|
---|
407 | # endif
|
---|
408 | #endif /* BS3_INSTANTIATING_MODE */
|
---|
409 |
|
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