6197
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1 /*
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2 * Copyright (c) 2012, Oracle and/or its affiliates. All rights reserved.
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3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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4 *
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5 * This code is free software; you can redistribute it and/or modify it
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6 * under the terms of the GNU General Public License version 2 only, as
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7 * published by the Free Software Foundation.
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8 *
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9 * This code is distributed in the hope that it will be useful, but WITHOUT
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10 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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11 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
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12 * version 2 for more details (a copy is included in the LICENSE file that
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13 * accompanied this code).
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14 *
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15 * You should have received a copy of the GNU General Public License version
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16 * 2 along with this work; if not, write to the Free Software Foundation,
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17 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
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18 *
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19 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
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20 * or visit www.oracle.com if you need additional information or have any
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21 * questions.
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22 *
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23 */
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24
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25 #ifndef SHARE_VM_SERVICES_MEM_PTR_HPP
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26 #define SHARE_VM_SERVICES_MEM_PTR_HPP
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27
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28 #include "memory/allocation.hpp"
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29 #include "runtime/atomic.hpp"
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30 #include "runtime/os.hpp"
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31 #include "runtime/safepoint.hpp"
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32
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33 /*
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34 * global sequence generator that generates sequence numbers to serialize
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35 * memory records.
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36 */
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37 class SequenceGenerator : AllStatic {
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38 public:
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39 static jint next();
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40
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41 // peek last sequence number
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42 static jint peek() {
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43 return _seq_number;
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44 }
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45
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46 // reset sequence number
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47 static void reset() {
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48 assert(SafepointSynchronize::is_at_safepoint(), "Safepoint required");
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49 _seq_number = 1;
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50 DEBUG_ONLY(_generation ++;)
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51 };
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52
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53 DEBUG_ONLY(static unsigned long current_generation() { return (unsigned long)_generation; })
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54 DEBUG_ONLY(static jint max_seq_num() { return _max_seq_number; })
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55
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56 private:
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57 static volatile jint _seq_number;
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58 DEBUG_ONLY(static jint _max_seq_number; )
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59 DEBUG_ONLY(static volatile unsigned long _generation; )
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60 };
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61
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62 /*
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63 * followings are the classes that are used to hold memory activity records in different stages.
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64 * MemPointer
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65 * |--------MemPointerRecord
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66 * |
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67 * |----MemPointerRecordEx
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68 * | |
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69 * | |-------SeqMemPointerRecordEx
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70 * |
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71 * |----SeqMemPointerRecord
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72 * |
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73 * |----VMMemRegion
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74 * |
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75 * |-----VMMemRegionEx
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76 *
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77 *
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78 * prefix 'Seq' - sequenced, the record contains a sequence number
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79 * surfix 'Ex' - extension, the record contains a caller's pc
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80 *
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81 * per-thread recorder : SeqMemPointerRecord(Ex)
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82 * snapshot staging : SeqMemPointerRecord(Ex)
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83 * snapshot : MemPointerRecord(Ex) and VMMemRegion(Ex)
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84 *
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85 */
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86
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87 /*
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88 * class that wraps an address to a memory block,
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89 * the memory pointer either points to a malloc'd
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90 * memory block, or a mmap'd memory block
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91 */
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92 class MemPointer : public _ValueObj {
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93 public:
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94 MemPointer(): _addr(0) { }
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95 MemPointer(address addr): _addr(addr) { }
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96
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97 MemPointer(const MemPointer& copy_from) {
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98 _addr = copy_from.addr();
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99 }
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100
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101 inline address addr() const {
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102 return _addr;
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103 }
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104
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105 inline operator address() const {
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106 return addr();
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107 }
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108
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109 inline bool operator == (const MemPointer& other) const {
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110 return addr() == other.addr();
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111 }
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112
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113 inline MemPointer& operator = (const MemPointer& other) {
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114 _addr = other.addr();
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115 return *this;
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116 }
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117
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118 protected:
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119 inline void set_addr(address addr) { _addr = addr; }
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120
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121 protected:
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122 // memory address
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123 address _addr;
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124 };
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125
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126 /* MemPointerRecord records an activityand associated
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127 * attributes on a memory block.
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128 */
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129 class MemPointerRecord : public MemPointer {
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130 private:
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131 MEMFLAGS _flags;
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132 size_t _size;
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133
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134 public:
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135 /* extension of MemoryType enum
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136 * see share/vm/memory/allocation.hpp for details.
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137 *
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138 * The tag values are associated to sorting orders, so be
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139 * careful if changes are needed.
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140 * The allocation records should be sorted ahead of tagging
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141 * records, which in turn ahead of deallocation records
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142 */
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143 enum MemPointerTags {
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144 tag_alloc = 0x0001, // malloc or reserve record
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145 tag_commit = 0x0002, // commit record
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146 tag_type = 0x0003, // tag virtual memory to a memory type
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147 tag_uncommit = 0x0004, // uncommit record
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148 tag_release = 0x0005, // free or release record
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149 tag_size = 0x0006, // arena size
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150 tag_masks = 0x0007, // all tag bits
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151 vmBit = 0x0008
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152 };
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153
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154 /* helper functions to interpret the tagging flags */
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155
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156 inline static bool is_allocation_record(MEMFLAGS flags) {
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157 return (flags & tag_masks) == tag_alloc;
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158 }
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159
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160 inline static bool is_deallocation_record(MEMFLAGS flags) {
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161 return (flags & tag_masks) == tag_release;
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162 }
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163
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164 inline static bool is_arena_record(MEMFLAGS flags) {
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165 return (flags & (otArena | tag_size)) == otArena;
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166 }
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167
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168 inline static bool is_arena_size_record(MEMFLAGS flags) {
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169 return (flags & (otArena | tag_size)) == (otArena | tag_size);
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170 }
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171
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172 inline static bool is_virtual_memory_record(MEMFLAGS flags) {
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173 return (flags & vmBit) != 0;
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174 }
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175
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176 inline static bool is_virtual_memory_reserve_record(MEMFLAGS flags) {
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177 return (flags & 0x0F) == (tag_alloc | vmBit);
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178 }
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179
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180 inline static bool is_virtual_memory_commit_record(MEMFLAGS flags) {
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181 return (flags & 0x0F) == (tag_commit | vmBit);
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182 }
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183
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184 inline static bool is_virtual_memory_uncommit_record(MEMFLAGS flags) {
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185 return (flags & 0x0F) == (tag_uncommit | vmBit);
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186 }
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187
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188 inline static bool is_virtual_memory_release_record(MEMFLAGS flags) {
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189 return (flags & 0x0F) == (tag_release | vmBit);
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190 }
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191
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192 inline static bool is_virtual_memory_type_record(MEMFLAGS flags) {
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193 return (flags & 0x0F) == (tag_type | vmBit);
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194 }
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195
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196 /* tagging flags */
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197 inline static MEMFLAGS malloc_tag() { return tag_alloc; }
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198 inline static MEMFLAGS free_tag() { return tag_release; }
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199 inline static MEMFLAGS arena_size_tag() { return tag_size | otArena; }
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200 inline static MEMFLAGS virtual_memory_tag() { return vmBit; }
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201 inline static MEMFLAGS virtual_memory_reserve_tag() { return (tag_alloc | vmBit); }
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202 inline static MEMFLAGS virtual_memory_commit_tag() { return (tag_commit | vmBit); }
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203 inline static MEMFLAGS virtual_memory_uncommit_tag(){ return (tag_uncommit | vmBit); }
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204 inline static MEMFLAGS virtual_memory_release_tag() { return (tag_release | vmBit); }
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205 inline static MEMFLAGS virtual_memory_type_tag() { return (tag_type | vmBit); }
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206
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207 public:
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208 MemPointerRecord(): _size(0), _flags(mtNone) { }
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209
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210 MemPointerRecord(address addr, MEMFLAGS memflags, size_t size = 0):
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211 MemPointer(addr), _flags(memflags), _size(size) { }
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212
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213 MemPointerRecord(const MemPointerRecord& copy_from):
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214 MemPointer(copy_from), _flags(copy_from.flags()),
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215 _size(copy_from.size()) {
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216 }
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217
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218 /* MemPointerRecord is not sequenced, it always return
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219 * 0 to indicate non-sequenced
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220 */
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221 virtual jint seq() const { return 0; }
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222
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223 inline size_t size() const { return _size; }
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224 inline void set_size(size_t size) { _size = size; }
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225
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226 inline MEMFLAGS flags() const { return _flags; }
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227 inline void set_flags(MEMFLAGS flags) { _flags = flags; }
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228
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229 MemPointerRecord& operator= (const MemPointerRecord& ptr) {
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230 MemPointer::operator=(ptr);
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231 _flags = ptr.flags();
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232 #ifdef ASSERT
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233 if (IS_ARENA_OBJ(_flags)) {
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234 assert(!is_vm_pointer(), "wrong flags");
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235 assert((_flags & ot_masks) == otArena, "wrong flags");
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236 }
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237 #endif
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238 _size = ptr.size();
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239 return *this;
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240 }
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241
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242 // if the pointer represents a malloc-ed memory address
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243 inline bool is_malloced_pointer() const {
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244 return !is_vm_pointer();
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245 }
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246
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247 // if the pointer represents a virtual memory address
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248 inline bool is_vm_pointer() const {
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249 return is_virtual_memory_record(_flags);
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250 }
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251
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252 // if this record records a 'malloc' or virtual memory
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253 // 'reserve' call
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254 inline bool is_allocation_record() const {
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255 return is_allocation_record(_flags);
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256 }
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257
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258 // if this record records a size information of an arena
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259 inline bool is_arena_size_record() const {
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260 return is_arena_size_record(_flags);
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261 }
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262
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263 // if this pointer represents an address to an arena object
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264 inline bool is_arena_record() const {
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265 return is_arena_record(_flags);
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266 }
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267
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268 // if this record represents a size information of specific arena
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269 inline bool is_size_record_of_arena(const MemPointerRecord* arena_rc) {
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270 assert(is_arena_size_record(), "not size record");
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271 assert(arena_rc->is_arena_record(), "not arena record");
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272 return (arena_rc->addr() + sizeof(void*)) == addr();
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273 }
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274
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275 // if this record records a 'free' or virtual memory 'free' call
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276 inline bool is_deallocation_record() const {
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277 return is_deallocation_record(_flags);
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278 }
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279
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280 // if this record records a virtual memory 'commit' call
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281 inline bool is_commit_record() const {
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282 return is_virtual_memory_commit_record(_flags);
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283 }
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284
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285 // if this record records a virtual memory 'uncommit' call
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286 inline bool is_uncommit_record() const {
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287 return is_virtual_memory_uncommit_record(_flags);
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288 }
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289
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290 // if this record is a tagging record of a virtual memory block
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291 inline bool is_type_tagging_record() const {
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292 return is_virtual_memory_type_record(_flags);
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293 }
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294 };
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295
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296 // MemPointerRecordEx also records callsite pc, from where
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297 // the memory block is allocated
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298 class MemPointerRecordEx : public MemPointerRecord {
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299 private:
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300 address _pc; // callsite pc
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301
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302 public:
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303 MemPointerRecordEx(): _pc(0) { }
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304
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305 MemPointerRecordEx(address addr, MEMFLAGS memflags, size_t size = 0, address pc = 0):
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306 MemPointerRecord(addr, memflags, size), _pc(pc) {}
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307
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308 MemPointerRecordEx(const MemPointerRecordEx& copy_from):
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309 MemPointerRecord(copy_from), _pc(copy_from.pc()) {}
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310
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311 inline address pc() const { return _pc; }
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312
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313 void init(const MemPointerRecordEx* mpe) {
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314 MemPointerRecord::operator=(*mpe);
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315 _pc = mpe->pc();
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316 }
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317
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318 void init(const MemPointerRecord* mp) {
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319 MemPointerRecord::operator=(*mp);
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320 _pc = 0;
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321 }
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322 };
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323
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324 // a virtual memory region
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325 class VMMemRegion : public MemPointerRecord {
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326 private:
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327 // committed size
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328 size_t _committed_size;
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329
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330 public:
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331 VMMemRegion(): _committed_size(0) { }
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332
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333 void init(const MemPointerRecord* mp) {
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334 assert(mp->is_vm_pointer(), "not virtual memory pointer");
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335 _addr = mp->addr();
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336 if (mp->is_commit_record() || mp->is_uncommit_record()) {
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337 _committed_size = mp->size();
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338 set_size(_committed_size);
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339 } else {
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340 set_size(mp->size());
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341 _committed_size = 0;
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342 }
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343 set_flags(mp->flags());
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344 }
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345
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346 VMMemRegion& operator=(const VMMemRegion& other) {
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347 MemPointerRecord::operator=(other);
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348 _committed_size = other.committed_size();
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349 return *this;
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350 }
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351
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352 inline bool is_reserve_record() const {
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353 return is_virtual_memory_reserve_record(flags());
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354 }
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355
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356 inline bool is_release_record() const {
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357 return is_virtual_memory_release_record(flags());
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358 }
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359
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360 // resize reserved VM range
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361 inline void set_reserved_size(size_t new_size) {
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362 assert(new_size >= committed_size(), "resize");
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363 set_size(new_size);
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364 }
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365
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366 inline void commit(size_t size) {
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367 _committed_size += size;
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368 }
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369
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370 inline void uncommit(size_t size) {
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371 if (_committed_size >= size) {
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372 _committed_size -= size;
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373 } else {
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374 _committed_size = 0;
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375 }
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376 }
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377
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378 /*
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379 * if this virtual memory range covers whole range of
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380 * the other VMMemRegion
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381 */
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382 bool contains(const VMMemRegion* mr) const;
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383
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384 /* base address of this virtual memory range */
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385 inline address base() const {
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386 return addr();
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387 }
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388
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389 /* tag this virtual memory range to the specified memory type */
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390 inline void tag(MEMFLAGS f) {
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391 set_flags(flags() | (f & mt_masks));
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392 }
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393
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394 // release part of memory range
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395 inline void partial_release(address add, size_t sz) {
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396 assert(add >= addr() && add < addr() + size(), "not valid address");
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397 // for now, it can partially release from the both ends,
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398 // but not in the middle
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399 assert(add == addr() || (add + sz) == (addr() + size()),
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400 "release in the middle");
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401 if (add == addr()) {
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402 set_addr(add + sz);
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403 set_size(size() - sz);
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404 } else {
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405 set_size(size() - sz);
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406 }
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407 }
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408
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409 // the committed size of the virtual memory block
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410 inline size_t committed_size() const {
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411 return _committed_size;
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412 }
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413
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414 // the reserved size of the virtual memory block
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415 inline size_t reserved_size() const {
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416 return size();
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417 }
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418 };
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419
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420 class VMMemRegionEx : public VMMemRegion {
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421 private:
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422 jint _seq; // sequence number
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423
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424 public:
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425 VMMemRegionEx(): _pc(0) { }
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426
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427 void init(const MemPointerRecordEx* mpe) {
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428 VMMemRegion::init(mpe);
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429 _pc = mpe->pc();
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430 }
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431
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432 void init(const MemPointerRecord* mpe) {
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433 VMMemRegion::init(mpe);
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434 _pc = 0;
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435 }
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436
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437 VMMemRegionEx& operator=(const VMMemRegionEx& other) {
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438 VMMemRegion::operator=(other);
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439 _pc = other.pc();
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440 return *this;
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441 }
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442
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443 inline address pc() const { return _pc; }
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444 private:
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445 address _pc;
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446 };
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447
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448 /*
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449 * Sequenced memory record
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450 */
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451 class SeqMemPointerRecord : public MemPointerRecord {
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452 private:
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453 jint _seq; // sequence number
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454
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455 public:
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456 SeqMemPointerRecord(): _seq(0){ }
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457
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458 SeqMemPointerRecord(address addr, MEMFLAGS flags, size_t size)
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459 : MemPointerRecord(addr, flags, size) {
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460 _seq = SequenceGenerator::next();
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461 }
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462
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463 SeqMemPointerRecord(const SeqMemPointerRecord& copy_from)
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464 : MemPointerRecord(copy_from) {
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465 _seq = copy_from.seq();
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466 }
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467
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468 SeqMemPointerRecord& operator= (const SeqMemPointerRecord& ptr) {
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469 MemPointerRecord::operator=(ptr);
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470 _seq = ptr.seq();
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471 return *this;
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472 }
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473
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474 inline jint seq() const {
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475 return _seq;
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476 }
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477 };
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478
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479
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480
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481 class SeqMemPointerRecordEx : public MemPointerRecordEx {
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482 private:
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483 jint _seq; // sequence number
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484
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485 public:
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486 SeqMemPointerRecordEx(): _seq(0) { }
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487
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488 SeqMemPointerRecordEx(address addr, MEMFLAGS flags, size_t size,
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489 address pc): MemPointerRecordEx(addr, flags, size, pc) {
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490 _seq = SequenceGenerator::next();
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491 }
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492
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493 SeqMemPointerRecordEx(const SeqMemPointerRecordEx& copy_from)
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494 : MemPointerRecordEx(copy_from) {
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495 _seq = copy_from.seq();
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496 }
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497
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498 SeqMemPointerRecordEx& operator= (const SeqMemPointerRecordEx& ptr) {
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499 MemPointerRecordEx::operator=(ptr);
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500 _seq = ptr.seq();
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501 return *this;
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502 }
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503
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504 inline jint seq() const {
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505 return _seq;
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506 }
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507 };
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508
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509 #endif // SHARE_VM_SERVICES_MEM_PTR_HPP
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