1 | /** @file
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2 | * IPRT - Hardened AVL tree slab allocator.
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3 | */
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4 |
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5 | /*
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6 | * Copyright (C) 2022 Oracle and/or its affiliates.
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7 | *
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8 | * This file is part of VirtualBox base platform packages, as
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9 | * available from https://www.virtualbox.org.
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10 | *
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11 | * This program is free software; you can redistribute it and/or
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12 | * modify it under the terms of the GNU General Public License
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13 | * as published by the Free Software Foundation, in version 3 of the
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14 | * License.
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15 | *
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16 | * This program is distributed in the hope that it will be useful, but
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17 | * WITHOUT ANY WARRANTY; without even the implied warranty of
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18 | * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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19 | * General Public License for more details.
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20 | *
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21 | * You should have received a copy of the GNU General Public License
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22 | * along with this program; if not, see <https://www.gnu.org/licenses>.
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23 | *
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24 | * The contents of this file may alternatively be used under the terms
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25 | * of the Common Development and Distribution License Version 1.0
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26 | * (CDDL), a copy of it is provided in the "COPYING.CDDL" file included
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27 | * in the VirtualBox distribution, in which case the provisions of the
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28 | * CDDL are applicable instead of those of the GPL.
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29 | *
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30 | * You may elect to license modified versions of this file under the
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31 | * terms and conditions of either the GPL or the CDDL or both.
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32 | *
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33 | * SPDX-License-Identifier: GPL-3.0-only OR CDDL-1.0
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34 | */
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35 |
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36 | #ifndef IPRT_INCLUDED_cpp_hardavlslaballocator_h
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37 | #define IPRT_INCLUDED_cpp_hardavlslaballocator_h
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38 | #ifndef RT_WITHOUT_PRAGMA_ONCE
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39 | # pragma once
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40 | #endif
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41 |
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42 | #include <iprt/asm.h>
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43 | #include <iprt/assert.h>
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44 | #include <iprt/err.h>
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45 | #include <iprt/string.h>
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46 |
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47 | /** @addtogroup grp_rt_cpp_hardavl
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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 | /**
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53 | * Slab allocator for the hardened AVL tree.
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54 | */
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55 | template<typename NodeType>
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56 | struct RTCHardAvlTreeSlabAllocator
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57 | {
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58 | /** Pointer to an array of nodes. */
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59 | NodeType *m_paNodes;
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60 | /** Node allocation bitmap: 1 = free, 0 = allocated. */
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61 | uint64_t *m_pbmAlloc;
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62 | /** Max number of nodes in m_paNodes and valid bits in m_pbmAlloc. */
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63 | uint32_t m_cNodes;
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64 | /** Pointer error counter. */
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65 | uint32_t m_cErrors;
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66 | /** Allocation hint. */
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67 | uint32_t m_idxAllocHint;
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68 | uint32_t m_uPadding;
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69 |
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70 | enum
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71 | {
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72 | kNilIndex = 0,
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73 | kErr_IndexOutOfBound = -1,
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74 | kErr_PointerOutOfBound = -2,
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75 | kErr_MisalignedPointer = -3,
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76 | kErr_NodeIsFree = -4,
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77 | kErr_Last = kErr_NodeIsFree
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78 | };
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79 |
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80 | RTCHardAvlTreeSlabAllocator() RT_NOEXCEPT
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81 | : m_paNodes(NULL)
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82 | , m_pbmAlloc(NULL)
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83 | , m_cNodes(0)
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84 | , m_cErrors(0)
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85 | , m_idxAllocHint(0)
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86 | , m_uPadding(0)
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87 | {}
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88 |
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89 | inline void initSlabAllocator(uint32_t a_cNodes, NodeType *a_paNodes, uint64_t *a_pbmAlloc) RT_NOEXCEPT
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90 | {
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91 | m_cNodes = a_cNodes;
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92 | m_paNodes = a_paNodes;
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93 | m_pbmAlloc = a_pbmAlloc;
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94 |
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95 | /* Initialize the allocation bit. */
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96 | RT_BZERO(a_pbmAlloc, (a_cNodes + 63) / 64 * 8);
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97 | ASMBitSetRange(a_pbmAlloc, 0, a_cNodes);
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98 | }
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99 |
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100 | inline NodeType *ptrFromInt(uint32_t a_idxNode1) RT_NOEXCEPT
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101 | {
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102 | if (a_idxNode1 == (uint32_t)kNilIndex)
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103 | return NULL;
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104 | AssertMsgReturnStmt(a_idxNode1 <= m_cNodes, ("a_idxNode1=%#x m_cNodes=%#x\n", a_idxNode1, m_cNodes),
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105 | m_cErrors++, (NodeType *)(intptr_t)kErr_IndexOutOfBound);
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106 | AssertMsgReturnStmt(ASMBitTest(m_pbmAlloc, a_idxNode1 - 1) == false, ("a_idxNode1=%#x\n", a_idxNode1),
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107 | m_cErrors++, (NodeType *)(intptr_t)kErr_NodeIsFree);
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108 | return &m_paNodes[a_idxNode1 - 1];
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109 | }
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110 |
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111 | static inline bool isPtrRetOkay(NodeType *a_pNode) RT_NOEXCEPT
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112 | {
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113 | return (uintptr_t)a_pNode < (uintptr_t)kErr_Last;
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114 | }
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115 |
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116 | static inline int ptrErrToStatus(NodeType *a_pNode) RT_NOEXCEPT
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117 | {
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118 | return (int)(intptr_t)a_pNode - (VERR_HARDAVL_INDEX_OUT_OF_BOUNDS - kErr_IndexOutOfBound);
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119 | }
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120 |
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121 | inline uint32_t ptrToInt(NodeType *a_pNode) RT_NOEXCEPT
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122 | {
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123 | if (a_pNode == NULL)
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124 | return 0;
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125 | uintptr_t const offNode = (uintptr_t)a_pNode - (uintptr_t)m_paNodes;
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126 | uintptr_t const idxNode0 = offNode / sizeof(m_paNodes[0]);
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127 | AssertMsgReturnStmt((offNode % sizeof(m_paNodes[0])) == 0,
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128 | ("pNode=%p / offNode=%#zx vs m_paNodes=%p L %#x, each %#x bytes\n",
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129 | a_pNode, offNode, m_paNodes, m_cNodes, sizeof(m_paNodes[0])),
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130 | m_cErrors++, (uint32_t)kErr_MisalignedPointer);
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131 | AssertMsgReturnStmt(idxNode0 < m_cNodes,
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132 | ("pNode=%p vs m_paNodes=%p L %#x\n", a_pNode, m_paNodes, m_cNodes),
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133 | m_cErrors++, (uint32_t)kErr_PointerOutOfBound);
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134 | AssertMsgReturnStmt(ASMBitTest(m_pbmAlloc, idxNode0) == false, ("a_pNode=%p idxNode0=%#x\n", a_pNode, idxNode0),
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135 | m_cErrors++, (uint32_t)kErr_NodeIsFree);
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136 | return idxNode0 + 1;
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137 | }
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138 |
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139 | static inline bool isIdxRetOkay(uint32_t a_idxNode) RT_NOEXCEPT
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140 | {
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141 | return a_idxNode < (uint32_t)kErr_Last;
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142 | }
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143 |
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144 | static inline int idxErrToStatus(uint32_t a_idxNode) RT_NOEXCEPT
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145 | {
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146 | return (int)a_idxNode - (VERR_HARDAVL_INDEX_OUT_OF_BOUNDS - kErr_IndexOutOfBound);
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147 | }
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148 |
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149 | inline bool isIntValid(uint32_t a_idxNode1) RT_NOEXCEPT
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150 | {
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151 | return a_idxNode1 <= m_cNodes;
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152 | }
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153 |
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154 | inline int freeNode(NodeType *a_pNode) RT_NOEXCEPT
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155 | {
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156 | uint32_t idxNode1 = ptrToInt(a_pNode);
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157 | if (idxNode1 == (uint32_t)kNilIndex)
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158 | return 0;
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159 | if (idxNode1 < (uint32_t)kErr_Last)
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160 | {
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161 | AssertMsgReturnStmt(ASMAtomicBitTestAndSet(m_pbmAlloc, idxNode1 - 1) == false,
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162 | ("a_pNode=%p idxNode1=%#x\n", a_pNode, idxNode1),
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163 | m_cErrors++, kErr_NodeIsFree);
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164 | return 0;
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165 | }
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166 | return (int)idxNode1;
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167 | }
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168 |
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169 | inline NodeType *allocateNode(void) RT_NOEXCEPT
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170 | {
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171 | /*
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172 | * Use the hint first, then scan the whole bitmap.
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173 | * Note! We don't expect concurrent allocation calls, so no need to repeat.
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174 | */
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175 | uint32_t const idxHint = m_idxAllocHint;
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176 | uint32_t idxNode0;
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177 | if ( idxHint >= m_cNodes
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178 | || (int32_t)(idxNode0 = (uint32_t)ASMBitNextSet(m_pbmAlloc, m_cNodes, idxHint)) < 0)
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179 | idxNode0 = (uint32_t)ASMBitFirstSet(m_pbmAlloc, m_cNodes);
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180 | if ((int32_t)idxNode0 >= 0)
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181 | {
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182 | if (ASMAtomicBitTestAndClear(m_pbmAlloc, idxNode0) == true)
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183 | {
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184 | m_idxAllocHint = idxNode0;
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185 | return &m_paNodes[idxNode0];
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186 | }
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187 | AssertMsgFailed(("idxNode0=%#x\n", idxNode0));
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188 | m_cErrors++;
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189 | }
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190 | return NULL;
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191 | }
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192 | };
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193 |
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194 |
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195 | /**
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196 | * Placeholder structure for ring-3 slab allocator.
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197 | */
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198 | typedef struct RTCHardAvlTreeSlabAllocatorR3_T
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199 | {
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200 | /** Pointer to an array of nodes. */
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201 | RTR3PTR m_paNodes;
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202 | /** Node allocation bitmap: 1 = free, 0 = allocated. */
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203 | RTR3PTR m_pbmAlloc;
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204 | /** Max number of nodes in m_paNodes and valid bits in m_pbmAlloc. */
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205 | uint32_t m_cNodes;
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206 | /** Pointer error counter. */
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207 | uint32_t m_cErrors;
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208 | /** Allocation hint. */
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209 | uint32_t m_idxAllocHint;
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210 | uint32_t m_uPadding;
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211 | } RTCHardAvlTreeSlabAllocatorR3_T;
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212 | AssertCompileSize(RTCHardAvlTreeSlabAllocatorR3_T,
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213 | sizeof(RTCHardAvlTreeSlabAllocator<RTUINT128U>) - (sizeof(void *) - sizeof(RTR3PTR)) * 2);
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214 |
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215 | /** @} */
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216 |
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217 | #endif /* !IPRT_INCLUDED_cpp_hardavlslaballocator_h */
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218 |
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