20360
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1 /*
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2 * Copyright (c) 2014, 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_MALLOC_SITE_TABLE_HPP
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26 #define SHARE_VM_SERVICES_MALLOC_SITE_TABLE_HPP
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27
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28 #if INCLUDE_NMT
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29
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30 #include "memory/allocation.hpp"
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31 #include "runtime/atomic.hpp"
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32 #include "services/allocationSite.hpp"
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33 #include "services/mallocTracker.hpp"
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34 #include "services/nmtCommon.hpp"
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35
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36 // MallocSite represents a code path that eventually calls
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37 // os::malloc() to allocate memory
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38 class MallocSite : public AllocationSite<MemoryCounter> {
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39 public:
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40 MallocSite() :
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41 AllocationSite<MemoryCounter>(emptyStack) { }
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42
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43 MallocSite(const NativeCallStack& stack) :
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44 AllocationSite<MemoryCounter>(stack) { }
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45
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46 void allocate(size_t size) { data()->allocate(size); }
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47 void deallocate(size_t size) { data()->deallocate(size); }
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48
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49 // Memory allocated from this code path
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50 size_t size() const { return peek()->size(); }
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51 // The number of calls were made
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52 size_t count() const { return peek()->count(); }
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53 };
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54
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55 // Malloc site hashtable entry
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56 class MallocSiteHashtableEntry : public CHeapObj<mtNMT> {
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57 private:
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58 MallocSite _malloc_site;
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59 MallocSiteHashtableEntry* _next;
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60
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61 public:
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62 MallocSiteHashtableEntry() : _next(NULL) { }
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63
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64 MallocSiteHashtableEntry(NativeCallStack stack):
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65 _malloc_site(stack), _next(NULL) { }
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66
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67 inline const MallocSiteHashtableEntry* next() const {
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68 return _next;
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69 }
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70
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71 // Insert an entry atomically.
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72 // Return true if the entry is inserted successfully.
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73 // The operation can be failed due to contention from other thread.
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74 bool atomic_insert(const MallocSiteHashtableEntry* entry) {
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75 return (Atomic::cmpxchg_ptr((void*)entry, (volatile void*)&_next,
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76 NULL) == NULL);
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77 }
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78
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79 void set_callsite(const MallocSite& site) {
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80 _malloc_site = site;
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81 }
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82
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83 inline const MallocSite* peek() const { return &_malloc_site; }
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84 inline MallocSite* data() { return &_malloc_site; }
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85
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86 inline long hash() const { return _malloc_site.hash(); }
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87 inline bool equals(const NativeCallStack& stack) const {
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88 return _malloc_site.equals(stack);
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89 }
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90 // Allocation/deallocation on this allocation site
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91 inline void allocate(size_t size) { _malloc_site.allocate(size); }
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92 inline void deallocate(size_t size) { _malloc_site.deallocate(size); }
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93 // Memory counters
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94 inline size_t size() const { return _malloc_site.size(); }
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95 inline size_t count() const { return _malloc_site.count(); }
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96 };
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97
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98 // The walker walks every entry on MallocSiteTable
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99 class MallocSiteWalker : public StackObj {
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100 public:
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101 virtual bool do_malloc_site(const MallocSite* e) { return false; }
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102 };
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103
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104 /*
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105 * Native memory tracking call site table.
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106 * The table is only needed when detail tracking is enabled.
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107 */
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108 class MallocSiteTable : AllStatic {
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109 private:
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110 // The number of hash bucket in this hashtable. The number should
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111 // be tuned if malloc activities changed significantly.
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112 // The statistics data can be obtained via Jcmd
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113 // jcmd <pid> VM.native_memory statistics.
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114
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115 // Currently, (number of buckets / number of entires) ratio is
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116 // about 1 / 6
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117 enum {
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118 table_base_size = 128, // The base size is calculated from statistics to give
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119 // table ratio around 1:6
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120 table_size = (table_base_size * NMT_TrackingStackDepth - 1)
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121 };
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122
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123
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124 // This is a very special lock, that allows multiple shared accesses (sharedLock), but
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125 // once exclusive access (exclusiveLock) is requested, all shared accesses are
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126 // rejected forever.
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127 class AccessLock : public StackObj {
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128 enum LockState {
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129 NoLock,
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130 SharedLock,
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131 ExclusiveLock
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132 };
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133
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134 private:
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135 // A very large negative number. The only possibility to "overflow"
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136 // this number is when there are more than -min_jint threads in
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137 // this process, which is not going to happen in foreseeable future.
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138 const static int _MAGIC_ = min_jint;
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139
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140 LockState _lock_state;
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141 volatile int* _lock;
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142 public:
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143 AccessLock(volatile int* lock) :
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144 _lock(lock), _lock_state(NoLock) {
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145 }
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146
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147 ~AccessLock() {
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148 if (_lock_state == SharedLock) {
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149 Atomic::dec((volatile jint*)_lock);
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150 }
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151 }
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152 // Acquire shared lock.
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153 // Return true if shared access is granted.
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154 inline bool sharedLock() {
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155 jint res = Atomic::add(1, _lock);
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156 if (res < 0) {
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157 Atomic::add(-1, _lock);
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158 return false;
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159 }
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160 _lock_state = SharedLock;
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161 return true;
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162 }
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163 // Acquire exclusive lock
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164 void exclusiveLock();
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165 };
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166
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167 public:
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168 static bool initialize();
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169 static void shutdown();
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170
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171 NOT_PRODUCT(static int access_peak_count() { return _peak_count; })
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172
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173 // Number of hash buckets
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174 static inline int hash_buckets() { return (int)table_size; }
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175
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176 // Access and copy a call stack from this table. Shared lock should be
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177 // acquired before access the entry.
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178 static inline bool access_stack(NativeCallStack& stack, size_t bucket_idx,
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179 size_t pos_idx) {
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180 AccessLock locker(&_access_count);
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181 if (locker.sharedLock()) {
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182 NOT_PRODUCT(_peak_count = MAX2(_peak_count, _access_count);)
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183 MallocSite* site = malloc_site(bucket_idx, pos_idx);
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184 if (site != NULL) {
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185 stack = *site->call_stack();
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186 return true;
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187 }
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188 }
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189 return false;
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190 }
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191
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192 // Record a new allocation from specified call path.
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193 // Return true if the allocation is recorded successfully, bucket_idx
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194 // and pos_idx are also updated to indicate the entry where the allocation
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195 // information was recorded.
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196 // Return false only occurs under rare scenarios:
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197 // 1. out of memory
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198 // 2. overflow hash bucket
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199 static inline bool allocation_at(const NativeCallStack& stack, size_t size,
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200 size_t* bucket_idx, size_t* pos_idx) {
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201 AccessLock locker(&_access_count);
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202 if (locker.sharedLock()) {
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203 NOT_PRODUCT(_peak_count = MAX2(_peak_count, _access_count);)
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204 MallocSite* site = lookup_or_add(stack, bucket_idx, pos_idx);
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205 if (site != NULL) site->allocate(size);
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206 return site != NULL;
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207 }
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208 return false;
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209 }
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210
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211 // Record memory deallocation. bucket_idx and pos_idx indicate where the allocation
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212 // information was recorded.
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213 static inline bool deallocation_at(size_t size, size_t bucket_idx, size_t pos_idx) {
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214 AccessLock locker(&_access_count);
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215 if (locker.sharedLock()) {
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216 NOT_PRODUCT(_peak_count = MAX2(_peak_count, _access_count);)
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217 MallocSite* site = malloc_site(bucket_idx, pos_idx);
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218 if (site != NULL) {
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219 site->deallocate(size);
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220 return true;
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221 }
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222 }
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223 return false;
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224 }
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225
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226 // Walk this table.
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227 static bool walk_malloc_site(MallocSiteWalker* walker);
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228
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229 private:
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230 static MallocSiteHashtableEntry* new_entry(const NativeCallStack& key);
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231 static void reset();
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232
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233 // Delete a bucket linked list
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234 static void delete_linked_list(MallocSiteHashtableEntry* head);
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235
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236 static MallocSite* lookup_or_add(const NativeCallStack& key, size_t* bucket_idx, size_t* pos_idx);
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237 static MallocSite* malloc_site(size_t bucket_idx, size_t pos_idx);
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238 static bool walk(MallocSiteWalker* walker);
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239
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240 static inline int hash_to_index(int hash) {
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241 hash = (hash > 0) ? hash : (-hash);
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242 return (hash % table_size);
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243 }
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244
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245 static inline const NativeCallStack* hash_entry_allocation_stack() {
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246 return (NativeCallStack*)_hash_entry_allocation_stack;
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247 }
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248
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249 private:
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250 // Counter for counting concurrent access
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251 static volatile int _access_count;
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252
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253 // The callsite hashtable. It has to be a static table,
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254 // since malloc call can come from C runtime linker.
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255 static MallocSiteHashtableEntry* _table[table_size];
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256
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257
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258 // Reserve enough memory for placing the objects
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259
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260 // The memory for hashtable entry allocation stack object
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261 static size_t _hash_entry_allocation_stack[CALC_OBJ_SIZE_IN_TYPE(NativeCallStack, size_t)];
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262 // The memory for hashtable entry allocation callsite object
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263 static size_t _hash_entry_allocation_site[CALC_OBJ_SIZE_IN_TYPE(MallocSiteHashtableEntry, size_t)];
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264 NOT_PRODUCT(static int _peak_count;)
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265 };
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266
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267 #endif // INCLUDE_NMT
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268 #endif // SHARE_VM_SERVICES_MALLOC_SITE_TABLE_HPP
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