1 | /* $Id: PGMPhys.cpp 2981 2007-06-01 16:01:28Z vboxsync $ */
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2 | /** @file
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3 | * PGM - Page Manager and Monitor, Physical Memory Addressing.
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4 | */
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5 |
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6 | /*
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7 | * Copyright (C) 2006-2007 innotek GmbH
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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 as published by the Free Software Foundation,
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13 | * in version 2 as it comes in the "COPYING" file of the VirtualBox OSE
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14 | * distribution. VirtualBox OSE is distributed in the hope that it will
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15 | * be useful, but WITHOUT ANY WARRANTY of any kind.
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16 | *
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17 | * If you received this file as part of a commercial VirtualBox
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18 | * distribution, then only the terms of your commercial VirtualBox
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19 | * license agreement apply instead of the previous paragraph.
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20 | */
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21 |
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22 |
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23 | /*******************************************************************************
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24 | * Header Files *
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25 | *******************************************************************************/
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26 | #define LOG_GROUP LOG_GROUP_PGM
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27 | #include <VBox/pgm.h>
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28 | #include <VBox/cpum.h>
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29 | #include <VBox/iom.h>
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30 | #include <VBox/sup.h>
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31 | #include <VBox/mm.h>
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32 | #include <VBox/pdm.h>
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33 | #include <VBox/stam.h>
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34 | #include <VBox/rem.h>
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35 | #include <VBox/csam.h>
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36 | #include "PGMInternal.h"
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37 | #include <VBox/vm.h>
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38 | #include <VBox/dbg.h>
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39 | #include <VBox/param.h>
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40 | #include <VBox/err.h>
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41 | #include <iprt/assert.h>
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42 | #include <iprt/alloc.h>
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43 | #include <iprt/asm.h>
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44 | #include <VBox/log.h>
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45 | #include <iprt/thread.h>
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46 | #include <iprt/string.h>
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47 |
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48 |
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49 |
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50 |
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51 | /**
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52 | * Interface MMR3RamRegister(), MMR3RomRegister() and MMIO handler
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53 | * registration calls.
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54 | *
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55 | * It registers the physical memory range with PGM. MM is responsible
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56 | * for the toplevel things - allocation and locking - while PGM is taking
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57 | * care of all the details and implements the physical address space virtualization.
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58 | *
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59 | * @returns VBox status.
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60 | * @param pVM The VM handle.
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61 | * @param pvRam HC virtual address of the RAM range. (page aligned)
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62 | * @param GCPhys GC physical address of the RAM range. (page aligned)
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63 | * @param cb Size of the RAM range. (page aligned)
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64 | * @param fFlags Flags, MM_RAM_*.
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65 | * @param paPages Pointer an array of physical page descriptors.
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66 | * @param pszDesc Description string.
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67 | */
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68 | PGMR3DECL(int) PGMR3PhysRegister(PVM pVM, void *pvRam, RTGCPHYS GCPhys, size_t cb, unsigned fFlags, const SUPPAGE *paPages, const char *pszDesc)
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69 | {
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70 | /*
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71 | * Validate input.
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72 | * (Not so important because callers are only MMR3PhysRegister()
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73 | * and PGMR3HandlerPhysicalRegisterEx(), but anyway...)
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74 | */
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75 | Log(("PGMR3PhysRegister %08X %x bytes flags %x %s\n", GCPhys, cb, fFlags, pszDesc));
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76 |
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77 | Assert((fFlags & (MM_RAM_FLAGS_RESERVED | MM_RAM_FLAGS_MMIO | MM_RAM_FLAGS_DYNAMIC_ALLOC)) || paPages);
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78 | /*Assert(!(fFlags & MM_RAM_FLAGS_RESERVED) || !paPages);*/
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79 | Assert((fFlags == (MM_RAM_FLAGS_RESERVED | MM_RAM_FLAGS_MMIO)) || (fFlags & MM_RAM_FLAGS_DYNAMIC_ALLOC) || pvRam);
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80 | /*Assert(!(fFlags & MM_RAM_FLAGS_RESERVED) || !pvRam);*/
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81 | Assert(!(fFlags & ~0xfff));
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82 | Assert(RT_ALIGN_Z(cb, PAGE_SIZE) == cb && cb);
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83 | Assert(RT_ALIGN_P(pvRam, PAGE_SIZE) == pvRam);
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84 | Assert(!(fFlags & ~(MM_RAM_FLAGS_RESERVED | MM_RAM_FLAGS_ROM | MM_RAM_FLAGS_MMIO | MM_RAM_FLAGS_MMIO2 | MM_RAM_FLAGS_DYNAMIC_ALLOC)));
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85 | Assert(RT_ALIGN_T(GCPhys, PAGE_SIZE, RTGCPHYS) == GCPhys);
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86 | RTGCPHYS GCPhysLast = GCPhys + (cb - 1);
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87 | if (GCPhysLast < GCPhys)
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88 | {
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89 | AssertMsgFailed(("The range wraps! GCPhys=%VGp cb=%#x\n", GCPhys, cb));
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90 | return VERR_INVALID_PARAMETER;
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91 | }
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92 |
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93 | /*
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94 | * Find range location and check for conflicts.
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95 | */
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96 | PPGMRAMRANGE pPrev = NULL;
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97 | PPGMRAMRANGE pCur = pVM->pgm.s.pRamRangesHC;
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98 | while (pCur)
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99 | {
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100 | if (GCPhys <= pCur->GCPhysLast && GCPhysLast >= pCur->GCPhys)
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101 | {
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102 | AssertMsgFailed(("Conflict! This cannot happen!\n"));
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103 | return VERR_PGM_RAM_CONFLICT;
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104 | }
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105 | if (GCPhysLast < pCur->GCPhys)
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106 | break;
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107 |
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108 | /* next */
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109 | pPrev = pCur;
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110 | pCur = pCur->pNextHC;
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111 | }
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112 |
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113 | /*
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114 | * Allocate RAM range.
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115 | * Small ranges are allocated from the heap, big ones have separate mappings.
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116 | */
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117 | size_t cbRam = RT_OFFSETOF(PGMRAMRANGE, aHCPhys[cb >> PAGE_SHIFT]);
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118 | PPGMRAMRANGE pNew;
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119 | RTGCPTR GCPtrNew;
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120 | int rc;
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121 | if (cbRam > PAGE_SIZE / 2)
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122 | { /* large */
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123 | cbRam = RT_ALIGN_Z(cbRam, PAGE_SIZE);
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124 | rc = SUPPageAlloc(cbRam >> PAGE_SHIFT, (void **)&pNew);
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125 | if (VBOX_SUCCESS(rc))
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126 | {
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127 | rc = MMR3HyperMapHCRam(pVM, pNew, cbRam, true, pszDesc, &GCPtrNew);
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128 | if (VBOX_SUCCESS(rc))
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129 | {
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130 | Assert(MMHyperHC2GC(pVM, pNew) == GCPtrNew);
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131 | rc = MMR3HyperReserve(pVM, PAGE_SIZE, "fence", NULL);
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132 | }
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133 | else
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134 | {
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135 | AssertMsgFailed(("MMR3HyperMapHCRam(,,%#x,,,) -> %Vrc\n", cbRam, rc));
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136 | SUPPageFree(pNew, cbRam >> PAGE_SHIFT);
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137 | }
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138 | }
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139 | else
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140 | AssertMsgFailed(("SUPPageAlloc(%#x,,) -> %Vrc\n", cbRam >> PAGE_SHIFT, rc));
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141 | }
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142 | else
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143 | { /* small */
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144 | rc = MMHyperAlloc(pVM, cbRam, 16, MM_TAG_PGM, (void **)&pNew);
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145 | if (VBOX_SUCCESS(rc))
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146 | GCPtrNew = MMHyperHC2GC(pVM, pNew);
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147 | else
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148 | AssertMsgFailed(("MMHyperAlloc(,%#x,,,) -> %Vrc\n", cbRam, cb));
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149 | }
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150 | if (VBOX_SUCCESS(rc))
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151 | {
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152 | /*
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153 | * Initialize the range.
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154 | */
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155 | pNew->pvHC = pvRam;
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156 | pNew->GCPhys = GCPhys;
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157 | pNew->GCPhysLast = GCPhysLast;
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158 | pNew->cb = cb;
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159 | pNew->fFlags = fFlags;
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160 | pNew->pavHCChunkHC = NULL;
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161 | pNew->pavHCChunkGC = 0;
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162 |
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163 | unsigned iPage = cb >> PAGE_SHIFT;
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164 | if (paPages)
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165 | {
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166 | while (iPage-- > 0)
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167 | pNew->aHCPhys[iPage] = (paPages[iPage].Phys & X86_PTE_PAE_PG_MASK) | fFlags;
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168 | }
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169 | else if (fFlags & MM_RAM_FLAGS_DYNAMIC_ALLOC)
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170 | {
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171 | /* Allocate memory for chunk to HC ptr lookup array. */
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172 | rc = MMHyperAlloc(pVM, (cb >> PGM_DYNAMIC_CHUNK_SHIFT) * sizeof(void *), 16, MM_TAG_PGM, (void **)&pNew->pavHCChunkHC);
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173 | AssertMsgReturn(rc == VINF_SUCCESS, ("MMHyperAlloc(,%#x,,,) -> %Vrc\n", cbRam, cb), rc);
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174 |
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175 | pNew->pavHCChunkGC = MMHyperHC2GC(pVM, pNew->pavHCChunkHC);
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176 | Assert(pNew->pavHCChunkGC);
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177 |
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178 | /* Physical memory will be allocated on demand. */
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179 | while (iPage-- > 0)
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180 | pNew->aHCPhys[iPage] = fFlags;
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181 | }
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182 | else
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183 | {
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184 | Assert(fFlags == (MM_RAM_FLAGS_RESERVED | MM_RAM_FLAGS_MMIO));
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185 | RTHCPHYS HCPhysDummyPage = (MMR3PageDummyHCPhys(pVM) & X86_PTE_PAE_PG_MASK) | fFlags;
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186 | while (iPage-- > 0)
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187 | pNew->aHCPhys[iPage] = HCPhysDummyPage;
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188 | }
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189 |
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190 | /*
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191 | * Insert the new RAM range.
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192 | */
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193 | pgmLock(pVM);
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194 | pNew->pNextHC = pCur;
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195 | pNew->pNextGC = pCur ? MMHyperHC2GC(pVM, pCur) : 0;
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196 | if (pPrev)
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197 | {
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198 | pPrev->pNextHC = pNew;
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199 | pPrev->pNextGC = GCPtrNew;
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200 | }
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201 | else
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202 | {
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203 | pVM->pgm.s.pRamRangesHC = pNew;
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204 | pVM->pgm.s.pRamRangesGC = GCPtrNew;
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205 | }
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206 | pgmUnlock(pVM);
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207 | }
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208 | return rc;
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209 | }
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210 |
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211 |
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212 | /**
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213 | * Register a chunk of a the physical memory range with PGM. MM is responsible
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214 | * for the toplevel things - allocation and locking - while PGM is taking
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215 | * care of all the details and implements the physical address space virtualization.
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216 | *
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217 | *
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218 | * @returns VBox status.
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219 | * @param pVM The VM handle.
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220 | * @param pvRam HC virtual address of the RAM range. (page aligned)
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221 | * @param GCPhys GC physical address of the RAM range. (page aligned)
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222 | * @param cb Size of the RAM range. (page aligned)
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223 | * @param fFlags Flags, MM_RAM_*.
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224 | * @param paPages Pointer an array of physical page descriptors.
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225 | * @param pszDesc Description string.
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226 | */
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227 | PGMR3DECL(int) PGMR3PhysRegisterChunk(PVM pVM, void *pvRam, RTGCPHYS GCPhys, size_t cb, unsigned fFlags, const SUPPAGE *paPages, const char *pszDesc)
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228 | {
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229 | #ifdef PGM_DYNAMIC_RAM_ALLOC
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230 | NOREF(pszDesc);
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231 |
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232 | /*
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233 | * Validate input.
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234 | * (Not so important because callers are only MMR3PhysRegister()
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235 | * and PGMR3HandlerPhysicalRegisterEx(), but anyway...)
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236 | */
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237 | Log(("PGMR3PhysRegisterChunk %08X %x bytes flags %x %s\n", GCPhys, cb, fFlags, pszDesc));
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238 |
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239 | Assert(paPages);
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240 | Assert(pvRam);
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241 | Assert(!(fFlags & ~0xfff));
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242 | Assert(RT_ALIGN_Z(cb, PAGE_SIZE) == cb && cb);
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243 | Assert(RT_ALIGN_P(pvRam, PAGE_SIZE) == pvRam);
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244 | Assert(!(fFlags & ~(MM_RAM_FLAGS_RESERVED | MM_RAM_FLAGS_ROM | MM_RAM_FLAGS_MMIO | MM_RAM_FLAGS_MMIO2 | MM_RAM_FLAGS_DYNAMIC_ALLOC)));
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245 | Assert(RT_ALIGN_T(GCPhys, PAGE_SIZE, RTGCPHYS) == GCPhys);
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246 | Assert(VM_IS_EMT(pVM));
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247 | Assert(!(GCPhys & PGM_DYNAMIC_CHUNK_OFFSET_MASK));
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248 | Assert(cb == PGM_DYNAMIC_CHUNK_SIZE);
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249 |
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250 | RTGCPHYS GCPhysLast = GCPhys + (cb - 1);
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251 | if (GCPhysLast < GCPhys)
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252 | {
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253 | AssertMsgFailed(("The range wraps! GCPhys=%VGp cb=%#x\n", GCPhys, cb));
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254 | return VERR_INVALID_PARAMETER;
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255 | }
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256 |
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257 | /*
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258 | * Find existing range location.
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259 | */
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260 | PPGMRAMRANGE pRam = CTXSUFF(pVM->pgm.s.pRamRanges);
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261 | while (pRam)
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262 | {
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263 | RTGCPHYS off = GCPhys - pRam->GCPhys;
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264 | if ( off < pRam->cb
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265 | && (pRam->fFlags & MM_RAM_FLAGS_DYNAMIC_ALLOC))
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266 | break;
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267 |
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268 | pRam = CTXSUFF(pRam->pNext);
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269 | }
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270 | AssertReturn(pRam, VERR_PGM_INVALID_GC_PHYSICAL_ADDRESS);
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271 |
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272 | unsigned off = (GCPhys - pRam->GCPhys) >> PAGE_SHIFT;
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273 | unsigned iPage = cb >> PAGE_SHIFT;
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274 | if (paPages)
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275 | {
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276 | while (iPage-- > 0)
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277 | pRam->aHCPhys[off + iPage] = (paPages[iPage].Phys & X86_PTE_PAE_PG_MASK) | fFlags;
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278 | }
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279 | off >>= (PGM_DYNAMIC_CHUNK_SHIFT - PAGE_SHIFT);
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280 | pRam->pavHCChunkHC[off] = pvRam;
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281 |
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282 | /* Notify the recompiler. */
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283 | REMR3NotifyPhysRamChunkRegister(pVM, GCPhys, PGM_DYNAMIC_CHUNK_SIZE, (RTHCUINTPTR)pvRam, fFlags);
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284 |
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285 | return VINF_SUCCESS;
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286 | #else /* !PGM_DYNAMIC_RAM_ALLOC */
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287 | AssertReleaseMsgFailed(("Shouldn't ever get here when PGM_DYNAMIC_RAM_ALLOC isn't defined!\n"));
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288 | return VERR_INTERNAL_ERROR;
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289 | #endif /* !PGM_DYNAMIC_RAM_ALLOC */
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290 | }
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291 |
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292 |
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293 | /**
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294 | * Allocate missing physical pages for an existing guest RAM range.
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295 | *
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296 | * @returns VBox status.
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297 | * @param pVM The VM handle.
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298 | * @param GCPhys GC physical address of the RAM range. (page aligned)
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299 | */
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300 | PGMR3DECL(int) PGM3PhysGrowRange(PVM pVM, RTGCPHYS GCPhys)
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301 | {
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302 | /*
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303 | * Walk range list.
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304 | */
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305 | pgmLock(pVM);
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306 |
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307 | PPGMRAMRANGE pRam = CTXSUFF(pVM->pgm.s.pRamRanges);
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308 | while (pRam)
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309 | {
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310 | RTGCPHYS off = GCPhys - pRam->GCPhys;
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311 | if ( off < pRam->cb
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312 | && (pRam->fFlags & MM_RAM_FLAGS_DYNAMIC_ALLOC))
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313 | {
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314 | bool fRangeExists = false;
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315 | unsigned off = (GCPhys - pRam->GCPhys) >> PGM_DYNAMIC_CHUNK_SHIFT;
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316 |
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317 | /** @note A request made from another thread may end up in EMT after somebody else has already allocated the range. */
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318 | if (pRam->pavHCChunkHC[off])
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319 | fRangeExists = true;
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320 |
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321 | pgmUnlock(pVM);
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322 | if (fRangeExists)
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323 | return VINF_SUCCESS;
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324 | return pgmr3PhysGrowRange(pVM, GCPhys);
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325 | }
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326 |
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327 | pRam = CTXSUFF(pRam->pNext);
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328 | }
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329 | pgmUnlock(pVM);
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330 | return VERR_PGM_INVALID_GC_PHYSICAL_ADDRESS;
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331 | }
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332 |
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333 |
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334 | /**
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335 | * Allocate missing physical pages for an existing guest RAM range.
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336 | *
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337 | * @returns VBox status.
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338 | * @param pVM The VM handle.
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339 | * @param pRamRange RAM range
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340 | * @param GCPhys GC physical address of the RAM range. (page aligned)
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341 | */
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342 | int pgmr3PhysGrowRange(PVM pVM, RTGCPHYS GCPhys)
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343 | {
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344 | void *pvRam;
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345 | int rc;
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346 |
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347 | /* We must execute this function in the EMT thread, otherwise we'll run into problems. */
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348 | if (!VM_IS_EMT(pVM))
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349 | {
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350 | PVMREQ pReq;
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351 |
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352 | AssertMsg(!PDMCritSectIsOwner(&pVM->pgm.s.CritSect), ("We own the PGM lock -> deadlock danger!!\n"));
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353 |
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354 | rc = VMR3ReqCall(pVM, &pReq, RT_INDEFINITE_WAIT, (PFNRT)PGM3PhysGrowRange, 2, pVM, GCPhys);
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355 | if (VBOX_SUCCESS(rc))
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356 | {
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357 | rc = pReq->iStatus;
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358 | VMR3ReqFree(pReq);
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359 | }
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360 | return rc;
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361 | }
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362 |
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363 | /* Round down to chunk boundary */
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364 | GCPhys = GCPhys & PGM_DYNAMIC_CHUNK_BASE_MASK;
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365 |
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366 | STAM_COUNTER_INC(&pVM->pgm.s.StatDynRamGrow);
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367 | STAM_COUNTER_ADD(&pVM->pgm.s.StatDynRamTotal, PGM_DYNAMIC_CHUNK_SIZE/(1024*1024));
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368 |
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369 | Log(("pgmr3PhysGrowRange: allocate chunk of size 0x%X at %VGp\n", PGM_DYNAMIC_CHUNK_SIZE, GCPhys));
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370 |
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371 | unsigned cPages = PGM_DYNAMIC_CHUNK_SIZE >> PAGE_SHIFT;
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372 | rc = SUPPageAlloc(cPages, &pvRam);
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373 | if (VBOX_SUCCESS(rc))
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374 | {
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375 | VMSTATE enmVMState = VMR3GetState(pVM);
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376 |
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377 | rc = MMR3PhysRegisterEx(pVM, pvRam, GCPhys, PGM_DYNAMIC_CHUNK_SIZE, 0, MM_PHYS_TYPE_DYNALLOC_CHUNK, "Main Memory");
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378 | if ( VBOX_SUCCESS(rc)
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379 | || enmVMState != VMSTATE_RUNNING)
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380 | {
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381 | if (VBOX_FAILURE(rc))
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382 | {
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383 | AssertMsgFailed(("Out of memory while trying to allocate a guest RAM chunk at %VGp!\n", GCPhys));
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384 | LogRel(("PGM: Out of memory while trying to allocate a guest RAM chunk at %VGp (VMstate=%s)!\n", GCPhys, VMR3GetStateName(enmVMState)));
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385 | }
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386 | return rc;
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387 | }
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388 |
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389 | SUPPageFree(pvRam, cPages);
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390 |
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391 | LogRel(("pgmr3PhysGrowRange: out of memory. pause until the user resumes execution.\n"));
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392 |
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393 | /* Pause first, then inform Main. */
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394 | rc = VMR3SuspendNoSave(pVM);
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395 | AssertRC(rc);
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396 |
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397 | VMSetRuntimeError(pVM, false, "HostMemoryLow", "Unable to allocate and lock memory. The virtual machine will be paused. Please close applications to free up memory or close the VM.");
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398 |
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399 | /* Wait for resume event; will only return in that case. If the VM is stopped, the EMT thread will be destroyed. */
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400 | rc = VMR3WaitForResume(pVM);
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401 |
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402 | /* Retry */
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403 | LogRel(("pgmr3PhysGrowRange: VM execution resumed -> retry.\n"));
|
---|
404 | return pgmr3PhysGrowRange(pVM, GCPhys);
|
---|
405 | }
|
---|
406 | return rc;
|
---|
407 | }
|
---|
408 |
|
---|
409 |
|
---|
410 | /**
|
---|
411 | * Interface MMIO handler relocation calls.
|
---|
412 | *
|
---|
413 | * It relocates an existing physical memory range with PGM.
|
---|
414 | *
|
---|
415 | * @returns VBox status.
|
---|
416 | * @param pVM The VM handle.
|
---|
417 | * @param GCPhysOld Previous GC physical address of the RAM range. (page aligned)
|
---|
418 | * @param GCPhysNew New GC physical address of the RAM range. (page aligned)
|
---|
419 | * @param cb Size of the RAM range. (page aligned)
|
---|
420 | */
|
---|
421 | PGMR3DECL(int) PGMR3PhysRelocate(PVM pVM, RTGCPHYS GCPhysOld, RTGCPHYS GCPhysNew, size_t cb)
|
---|
422 | {
|
---|
423 | /*
|
---|
424 | * Validate input.
|
---|
425 | * (Not so important because callers are only MMR3PhysRelocate(),
|
---|
426 | * but anyway...)
|
---|
427 | */
|
---|
428 | Log(("PGMR3PhysRelocate Old %VGp New %VGp (%#x bytes)\n", GCPhysOld, GCPhysNew, cb));
|
---|
429 |
|
---|
430 | Assert(RT_ALIGN_Z(cb, PAGE_SIZE) == cb && cb);
|
---|
431 | Assert(RT_ALIGN_T(GCPhysOld, PAGE_SIZE, RTGCPHYS) == GCPhysOld);
|
---|
432 | Assert(RT_ALIGN_T(GCPhysNew, PAGE_SIZE, RTGCPHYS) == GCPhysNew);
|
---|
433 | RTGCPHYS GCPhysLast;
|
---|
434 | GCPhysLast = GCPhysOld + (cb - 1);
|
---|
435 | if (GCPhysLast < GCPhysOld)
|
---|
436 | {
|
---|
437 | AssertMsgFailed(("The old range wraps! GCPhys=%VGp cb=%#x\n", GCPhysOld, cb));
|
---|
438 | return VERR_INVALID_PARAMETER;
|
---|
439 | }
|
---|
440 | GCPhysLast = GCPhysNew + (cb - 1);
|
---|
441 | if (GCPhysLast < GCPhysNew)
|
---|
442 | {
|
---|
443 | AssertMsgFailed(("The new range wraps! GCPhys=%VGp cb=%#x\n", GCPhysNew, cb));
|
---|
444 | return VERR_INVALID_PARAMETER;
|
---|
445 | }
|
---|
446 |
|
---|
447 | /*
|
---|
448 | * Find and remove old range location.
|
---|
449 | */
|
---|
450 | pgmLock(pVM);
|
---|
451 | PPGMRAMRANGE pPrev = NULL;
|
---|
452 | PPGMRAMRANGE pCur = pVM->pgm.s.pRamRangesHC;
|
---|
453 | while (pCur)
|
---|
454 | {
|
---|
455 | if (pCur->GCPhys == GCPhysOld && pCur->cb == cb)
|
---|
456 | break;
|
---|
457 |
|
---|
458 | /* next */
|
---|
459 | pPrev = pCur;
|
---|
460 | pCur = pCur->pNextHC;
|
---|
461 | }
|
---|
462 | if (pPrev)
|
---|
463 | {
|
---|
464 | pPrev->pNextHC = pCur->pNextHC;
|
---|
465 | pPrev->pNextGC = pCur->pNextGC;
|
---|
466 | }
|
---|
467 | else
|
---|
468 | {
|
---|
469 | pVM->pgm.s.pRamRangesHC = pCur->pNextHC;
|
---|
470 | pVM->pgm.s.pRamRangesGC = pCur->pNextGC;
|
---|
471 | }
|
---|
472 |
|
---|
473 | /*
|
---|
474 | * Update the range.
|
---|
475 | */
|
---|
476 | pCur->GCPhys = GCPhysNew;
|
---|
477 | pCur->GCPhysLast= GCPhysLast;
|
---|
478 | PPGMRAMRANGE pNew = pCur;
|
---|
479 |
|
---|
480 | /*
|
---|
481 | * Find range location and check for conflicts.
|
---|
482 | */
|
---|
483 | pPrev = NULL;
|
---|
484 | pCur = pVM->pgm.s.pRamRangesHC;
|
---|
485 | while (pCur)
|
---|
486 | {
|
---|
487 | if (GCPhysNew <= pCur->GCPhysLast && GCPhysLast >= pCur->GCPhys)
|
---|
488 | {
|
---|
489 | AssertMsgFailed(("Conflict! This cannot happen!\n"));
|
---|
490 | pgmUnlock(pVM);
|
---|
491 | return VERR_PGM_RAM_CONFLICT;
|
---|
492 | }
|
---|
493 | if (GCPhysLast < pCur->GCPhys)
|
---|
494 | break;
|
---|
495 |
|
---|
496 | /* next */
|
---|
497 | pPrev = pCur;
|
---|
498 | pCur = pCur->pNextHC;
|
---|
499 | }
|
---|
500 |
|
---|
501 | /*
|
---|
502 | * Reinsert the RAM range.
|
---|
503 | */
|
---|
504 | pNew->pNextHC = pCur;
|
---|
505 | pNew->pNextGC = pCur ? MMHyperHC2GC(pVM, pCur) : 0;
|
---|
506 | if (pPrev)
|
---|
507 | {
|
---|
508 | pPrev->pNextHC = pNew;
|
---|
509 | pPrev->pNextGC = MMHyperHC2GC(pVM, pNew);
|
---|
510 | }
|
---|
511 | else
|
---|
512 | {
|
---|
513 | pVM->pgm.s.pRamRangesHC = pNew;
|
---|
514 | pVM->pgm.s.pRamRangesGC = MMHyperHC2GC(pVM, pNew);
|
---|
515 | }
|
---|
516 |
|
---|
517 | pgmUnlock(pVM);
|
---|
518 | return VINF_SUCCESS;
|
---|
519 | }
|
---|
520 |
|
---|
521 |
|
---|
522 | /**
|
---|
523 | * Interface MMR3RomRegister() and MMR3PhysReserve calls to update the
|
---|
524 | * flags of existing RAM ranges.
|
---|
525 | *
|
---|
526 | * @returns VBox status.
|
---|
527 | * @param pVM The VM handle.
|
---|
528 | * @param GCPhys GC physical address of the RAM range. (page aligned)
|
---|
529 | * @param cb Size of the RAM range. (page aligned)
|
---|
530 | * @param fFlags The Or flags, MM_RAM_* \#defines.
|
---|
531 | * @param fMask The and mask for the flags.
|
---|
532 | */
|
---|
533 | PGMR3DECL(int) PGMR3PhysSetFlags(PVM pVM, RTGCPHYS GCPhys, size_t cb, unsigned fFlags, unsigned fMask)
|
---|
534 | {
|
---|
535 | Log(("PGMR3PhysSetFlags %08X %x %x %x\n", GCPhys, cb, fFlags, fMask));
|
---|
536 |
|
---|
537 | /*
|
---|
538 | * Validate input.
|
---|
539 | * (Not so important because caller is always MMR3RomRegister() and MMR3PhysReserve(), but anyway...)
|
---|
540 | */
|
---|
541 | Assert(!(fFlags & ~(MM_RAM_FLAGS_RESERVED | MM_RAM_FLAGS_ROM | MM_RAM_FLAGS_MMIO | MM_RAM_FLAGS_MMIO2)));
|
---|
542 | Assert(RT_ALIGN_Z(cb, PAGE_SIZE) == cb && cb);
|
---|
543 | Assert(RT_ALIGN_T(GCPhys, PAGE_SIZE, RTGCPHYS) == GCPhys);
|
---|
544 | RTGCPHYS GCPhysLast = GCPhys + (cb - 1);
|
---|
545 | AssertReturn(GCPhysLast > GCPhys, VERR_INVALID_PARAMETER);
|
---|
546 |
|
---|
547 | /*
|
---|
548 | * Lookup the range.
|
---|
549 | */
|
---|
550 | PPGMRAMRANGE pRam = CTXSUFF(pVM->pgm.s.pRamRanges);
|
---|
551 | while (pRam && GCPhys > pRam->GCPhysLast)
|
---|
552 | pRam = CTXSUFF(pRam->pNext);
|
---|
553 | if ( !pRam
|
---|
554 | || GCPhys > pRam->GCPhysLast
|
---|
555 | || GCPhysLast < pRam->GCPhys)
|
---|
556 | {
|
---|
557 | AssertMsgFailed(("No RAM range for %VGp-%VGp\n", GCPhys, GCPhysLast));
|
---|
558 | return VERR_INVALID_PARAMETER;
|
---|
559 | }
|
---|
560 |
|
---|
561 | /*
|
---|
562 | * Update the requested flags.
|
---|
563 | */
|
---|
564 | RTHCPHYS fFullMask = ~(RTHCPHYS)(MM_RAM_FLAGS_RESERVED | MM_RAM_FLAGS_ROM | MM_RAM_FLAGS_MMIO | MM_RAM_FLAGS_MMIO2)
|
---|
565 | | fMask;
|
---|
566 | unsigned iPageEnd = (GCPhysLast - pRam->GCPhys + 1) >> PAGE_SHIFT;
|
---|
567 | unsigned iPage = (GCPhys - pRam->GCPhys) >> PAGE_SHIFT;
|
---|
568 | for ( ; iPage < iPageEnd; iPage++)
|
---|
569 | pRam->aHCPhys[iPage] = (pRam->aHCPhys[iPage] & fFullMask) | fFlags;
|
---|
570 |
|
---|
571 | return VINF_SUCCESS;
|
---|
572 | }
|
---|
573 |
|
---|
574 |
|
---|
575 | /**
|
---|
576 | * Sets the Address Gate 20 state.
|
---|
577 | *
|
---|
578 | * @param pVM VM handle.
|
---|
579 | * @param fEnable True if the gate should be enabled.
|
---|
580 | * False if the gate should be disabled.
|
---|
581 | */
|
---|
582 | PGMDECL(void) PGMR3PhysSetA20(PVM pVM, bool fEnable)
|
---|
583 | {
|
---|
584 | LogFlow(("PGMR3PhysSetA20 %d (was %d)\n", fEnable, pVM->pgm.s.fA20Enabled));
|
---|
585 | if (pVM->pgm.s.fA20Enabled != (RTUINT)fEnable)
|
---|
586 | {
|
---|
587 | pVM->pgm.s.fA20Enabled = fEnable;
|
---|
588 | pVM->pgm.s.GCPhysA20Mask = ~(RTGCPHYS)(!fEnable << 20);
|
---|
589 | REMR3A20Set(pVM, fEnable);
|
---|
590 | }
|
---|
591 | }
|
---|
592 |
|
---|
593 |
|
---|
594 | /*
|
---|
595 | * PGMR3PhysReadByte/Word/Dword
|
---|
596 | * PGMR3PhysWriteByte/Word/Dword
|
---|
597 | */
|
---|
598 |
|
---|
599 | #define PGMPHYSFN_READNAME PGMR3PhysReadByte
|
---|
600 | #define PGMPHYSFN_WRITENAME PGMR3PhysWriteByte
|
---|
601 | #define PGMPHYS_DATASIZE 1
|
---|
602 | #define PGMPHYS_DATATYPE uint8_t
|
---|
603 | #include "PGMPhys.h"
|
---|
604 |
|
---|
605 | #define PGMPHYSFN_READNAME PGMR3PhysReadWord
|
---|
606 | #define PGMPHYSFN_WRITENAME PGMR3PhysWriteWord
|
---|
607 | #define PGMPHYS_DATASIZE 2
|
---|
608 | #define PGMPHYS_DATATYPE uint16_t
|
---|
609 | #include "PGMPhys.h"
|
---|
610 |
|
---|
611 | #define PGMPHYSFN_READNAME PGMR3PhysReadDword
|
---|
612 | #define PGMPHYSFN_WRITENAME PGMR3PhysWriteDword
|
---|
613 | #define PGMPHYS_DATASIZE 4
|
---|
614 | #define PGMPHYS_DATATYPE uint32_t
|
---|
615 | #include "PGMPhys.h"
|
---|