Mercurial > hg > graal-compiler
annotate src/share/vm/gc_implementation/shared/mutableNUMASpace.cpp @ 1972:f95d63e2154a
6989984: Use standard include model for Hospot
Summary: Replaced MakeDeps and the includeDB files with more standardized solutions.
Reviewed-by: coleenp, kvn, kamg
| author | stefank |
|---|---|
| date | Tue, 23 Nov 2010 13:22:55 -0800 |
| parents | e9ff18c4ace7 |
| children | f08d439fab8c |
| rev | line source |
|---|---|
| 0 | 1 |
| 2 /* | |
| 1972 | 3 * Copyright (c) 2006, 2010, Oracle and/or its affiliates. All rights reserved. |
| 0 | 4 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. |
| 5 * | |
| 6 * This code is free software; you can redistribute it and/or modify it | |
| 7 * under the terms of the GNU General Public License version 2 only, as | |
| 8 * published by the Free Software Foundation. | |
| 9 * | |
| 10 * This code is distributed in the hope that it will be useful, but WITHOUT | |
| 11 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or | |
| 12 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License | |
| 13 * version 2 for more details (a copy is included in the LICENSE file that | |
| 14 * accompanied this code). | |
| 15 * | |
| 16 * You should have received a copy of the GNU General Public License version | |
| 17 * 2 along with this work; if not, write to the Free Software Foundation, | |
| 18 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. | |
| 19 * | |
|
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20 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA |
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21 * or visit www.oracle.com if you need additional information or have any |
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22 * questions. |
| 0 | 23 * |
| 24 */ | |
| 25 | |
| 1972 | 26 #include "precompiled.hpp" |
| 27 #include "gc_implementation/shared/mutableNUMASpace.hpp" | |
| 28 #include "gc_implementation/shared/spaceDecorator.hpp" | |
| 29 #include "memory/sharedHeap.hpp" | |
| 30 #include "oops/oop.inline.hpp" | |
| 31 #ifdef TARGET_OS_FAMILY_linux | |
| 32 # include "thread_linux.inline.hpp" | |
| 33 #endif | |
| 34 #ifdef TARGET_OS_FAMILY_solaris | |
| 35 # include "thread_solaris.inline.hpp" | |
| 36 #endif | |
| 37 #ifdef TARGET_OS_FAMILY_windows | |
| 38 # include "thread_windows.inline.hpp" | |
| 39 #endif | |
| 0 | 40 |
| 41 | |
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42 MutableNUMASpace::MutableNUMASpace(size_t alignment) : MutableSpace(alignment) { |
| 0 | 43 _lgrp_spaces = new (ResourceObj::C_HEAP) GrowableArray<LGRPSpace*>(0, true); |
| 44 _page_size = os::vm_page_size(); | |
| 45 _adaptation_cycles = 0; | |
| 46 _samples_count = 0; | |
| 47 update_layout(true); | |
| 48 } | |
| 49 | |
| 50 MutableNUMASpace::~MutableNUMASpace() { | |
| 51 for (int i = 0; i < lgrp_spaces()->length(); i++) { | |
| 52 delete lgrp_spaces()->at(i); | |
| 53 } | |
| 54 delete lgrp_spaces(); | |
| 55 } | |
| 56 | |
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57 #ifndef PRODUCT |
| 0 | 58 void MutableNUMASpace::mangle_unused_area() { |
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59 // This method should do nothing. |
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60 // It can be called on a numa space during a full compaction. |
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61 } |
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62 void MutableNUMASpace::mangle_unused_area_complete() { |
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63 // This method should do nothing. |
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64 // It can be called on a numa space during a full compaction. |
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65 } |
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66 void MutableNUMASpace::mangle_region(MemRegion mr) { |
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67 // This method should do nothing because numa spaces are not mangled. |
| 0 | 68 } |
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69 void MutableNUMASpace::set_top_for_allocations(HeapWord* v) { |
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70 assert(false, "Do not mangle MutableNUMASpace's"); |
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71 } |
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72 void MutableNUMASpace::set_top_for_allocations() { |
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73 // This method should do nothing. |
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74 } |
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75 void MutableNUMASpace::check_mangled_unused_area(HeapWord* limit) { |
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76 // This method should do nothing. |
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77 } |
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78 void MutableNUMASpace::check_mangled_unused_area_complete() { |
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79 // This method should do nothing. |
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80 } |
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81 #endif // NOT_PRODUCT |
| 0 | 82 |
| 83 // There may be unallocated holes in the middle chunks | |
| 84 // that should be filled with dead objects to ensure parseability. | |
| 85 void MutableNUMASpace::ensure_parsability() { | |
| 86 for (int i = 0; i < lgrp_spaces()->length(); i++) { | |
| 87 LGRPSpace *ls = lgrp_spaces()->at(i); | |
| 88 MutableSpace *s = ls->space(); | |
| 605 | 89 if (s->top() < top()) { // For all spaces preceding the one containing top() |
| 0 | 90 if (s->free_in_words() > 0) { |
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91 size_t area_touched_words = pointer_delta(s->end(), s->top()); |
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92 CollectedHeap::fill_with_object(s->top(), area_touched_words); |
| 0 | 93 #ifndef ASSERT |
| 94 if (!ZapUnusedHeapArea) { | |
| 95 area_touched_words = MIN2((size_t)align_object_size(typeArrayOopDesc::header_size(T_INT)), | |
| 96 area_touched_words); | |
| 97 } | |
| 98 #endif | |
| 141 | 99 if (!os::numa_has_static_binding()) { |
| 100 MemRegion invalid; | |
| 101 HeapWord *crossing_start = (HeapWord*)round_to((intptr_t)s->top(), os::vm_page_size()); | |
| 102 HeapWord *crossing_end = (HeapWord*)round_to((intptr_t)(s->top() + area_touched_words), | |
| 103 os::vm_page_size()); | |
| 104 if (crossing_start != crossing_end) { | |
| 105 // If object header crossed a small page boundary we mark the area | |
| 106 // as invalid rounding it to a page_size(). | |
| 107 HeapWord *start = MAX2((HeapWord*)round_down((intptr_t)s->top(), page_size()), s->bottom()); | |
| 108 HeapWord *end = MIN2((HeapWord*)round_to((intptr_t)(s->top() + area_touched_words), page_size()), | |
| 109 s->end()); | |
| 110 invalid = MemRegion(start, end); | |
| 111 } | |
| 112 | |
| 113 ls->add_invalid_region(invalid); | |
| 0 | 114 } |
| 115 } | |
| 116 } else { | |
| 141 | 117 if (!os::numa_has_static_binding()) { |
| 0 | 118 #ifdef ASSERT |
| 119 MemRegion invalid(s->top(), s->end()); | |
| 120 ls->add_invalid_region(invalid); | |
| 141 | 121 #else |
| 122 if (ZapUnusedHeapArea) { | |
| 123 MemRegion invalid(s->top(), s->end()); | |
| 124 ls->add_invalid_region(invalid); | |
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125 } else { |
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126 return; |
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127 } |
| 0 | 128 #endif |
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129 } else { |
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130 return; |
| 141 | 131 } |
| 0 | 132 } |
| 133 } | |
| 134 } | |
| 135 | |
| 136 size_t MutableNUMASpace::used_in_words() const { | |
| 137 size_t s = 0; | |
| 138 for (int i = 0; i < lgrp_spaces()->length(); i++) { | |
| 139 s += lgrp_spaces()->at(i)->space()->used_in_words(); | |
| 140 } | |
| 141 return s; | |
| 142 } | |
| 143 | |
| 144 size_t MutableNUMASpace::free_in_words() const { | |
| 145 size_t s = 0; | |
| 146 for (int i = 0; i < lgrp_spaces()->length(); i++) { | |
| 147 s += lgrp_spaces()->at(i)->space()->free_in_words(); | |
| 148 } | |
| 149 return s; | |
| 150 } | |
| 151 | |
| 152 | |
| 153 size_t MutableNUMASpace::tlab_capacity(Thread *thr) const { | |
| 154 guarantee(thr != NULL, "No thread"); | |
| 155 int lgrp_id = thr->lgrp_id(); | |
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156 if (lgrp_id == -1) { |
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157 // This case can occur after the topology of the system has |
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158 // changed. Thread can change their location, the new home |
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159 // group will be determined during the first allocation |
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160 // attempt. For now we can safely assume that all spaces |
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161 // have equal size because the whole space will be reinitialized. |
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162 if (lgrp_spaces()->length() > 0) { |
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163 return capacity_in_bytes() / lgrp_spaces()->length(); |
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164 } else { |
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165 assert(false, "There should be at least one locality group"); |
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166 return 0; |
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167 } |
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168 } |
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169 // That's the normal case, where we know the locality group of the thread. |
| 0 | 170 int i = lgrp_spaces()->find(&lgrp_id, LGRPSpace::equals); |
| 171 if (i == -1) { | |
| 172 return 0; | |
| 173 } | |
| 174 return lgrp_spaces()->at(i)->space()->capacity_in_bytes(); | |
| 175 } | |
| 176 | |
| 177 size_t MutableNUMASpace::unsafe_max_tlab_alloc(Thread *thr) const { | |
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178 // Please see the comments for tlab_capacity(). |
| 0 | 179 guarantee(thr != NULL, "No thread"); |
| 180 int lgrp_id = thr->lgrp_id(); | |
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181 if (lgrp_id == -1) { |
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182 if (lgrp_spaces()->length() > 0) { |
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183 return free_in_bytes() / lgrp_spaces()->length(); |
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184 } else { |
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185 assert(false, "There should be at least one locality group"); |
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186 return 0; |
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187 } |
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188 } |
| 0 | 189 int i = lgrp_spaces()->find(&lgrp_id, LGRPSpace::equals); |
| 190 if (i == -1) { | |
| 191 return 0; | |
| 192 } | |
| 193 return lgrp_spaces()->at(i)->space()->free_in_bytes(); | |
| 194 } | |
| 195 | |
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196 |
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197 size_t MutableNUMASpace::capacity_in_words(Thread* thr) const { |
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198 guarantee(thr != NULL, "No thread"); |
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199 int lgrp_id = thr->lgrp_id(); |
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200 if (lgrp_id == -1) { |
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201 if (lgrp_spaces()->length() > 0) { |
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202 return capacity_in_words() / lgrp_spaces()->length(); |
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203 } else { |
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204 assert(false, "There should be at least one locality group"); |
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205 return 0; |
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206 } |
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207 } |
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208 int i = lgrp_spaces()->find(&lgrp_id, LGRPSpace::equals); |
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209 if (i == -1) { |
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210 return 0; |
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211 } |
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212 return lgrp_spaces()->at(i)->space()->capacity_in_words(); |
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213 } |
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214 |
| 0 | 215 // Check if the NUMA topology has changed. Add and remove spaces if needed. |
| 216 // The update can be forced by setting the force parameter equal to true. | |
| 217 bool MutableNUMASpace::update_layout(bool force) { | |
| 218 // Check if the topology had changed. | |
| 219 bool changed = os::numa_topology_changed(); | |
| 220 if (force || changed) { | |
| 221 // Compute lgrp intersection. Add/remove spaces. | |
| 222 int lgrp_limit = (int)os::numa_get_groups_num(); | |
| 223 int *lgrp_ids = NEW_C_HEAP_ARRAY(int, lgrp_limit); | |
| 224 int lgrp_num = (int)os::numa_get_leaf_groups(lgrp_ids, lgrp_limit); | |
| 225 assert(lgrp_num > 0, "There should be at least one locality group"); | |
| 226 // Add new spaces for the new nodes | |
| 227 for (int i = 0; i < lgrp_num; i++) { | |
| 228 bool found = false; | |
| 229 for (int j = 0; j < lgrp_spaces()->length(); j++) { | |
| 230 if (lgrp_spaces()->at(j)->lgrp_id() == lgrp_ids[i]) { | |
| 231 found = true; | |
| 232 break; | |
| 233 } | |
| 234 } | |
| 235 if (!found) { | |
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236 lgrp_spaces()->append(new LGRPSpace(lgrp_ids[i], alignment())); |
| 0 | 237 } |
| 238 } | |
| 239 | |
| 240 // Remove spaces for the removed nodes. | |
| 241 for (int i = 0; i < lgrp_spaces()->length();) { | |
| 242 bool found = false; | |
| 243 for (int j = 0; j < lgrp_num; j++) { | |
| 244 if (lgrp_spaces()->at(i)->lgrp_id() == lgrp_ids[j]) { | |
| 245 found = true; | |
| 246 break; | |
| 247 } | |
| 248 } | |
| 249 if (!found) { | |
| 250 delete lgrp_spaces()->at(i); | |
| 251 lgrp_spaces()->remove_at(i); | |
| 252 } else { | |
| 253 i++; | |
| 254 } | |
| 255 } | |
| 256 | |
| 257 FREE_C_HEAP_ARRAY(int, lgrp_ids); | |
| 258 | |
| 259 if (changed) { | |
| 260 for (JavaThread *thread = Threads::first(); thread; thread = thread->next()) { | |
| 261 thread->set_lgrp_id(-1); | |
| 262 } | |
| 263 } | |
| 264 return true; | |
| 265 } | |
| 266 return false; | |
| 267 } | |
| 268 | |
| 269 // Bias region towards the first-touching lgrp. Set the right page sizes. | |
| 141 | 270 void MutableNUMASpace::bias_region(MemRegion mr, int lgrp_id) { |
| 0 | 271 HeapWord *start = (HeapWord*)round_to((intptr_t)mr.start(), page_size()); |
| 272 HeapWord *end = (HeapWord*)round_down((intptr_t)mr.end(), page_size()); | |
| 273 if (end > start) { | |
| 274 MemRegion aligned_region(start, end); | |
| 275 assert((intptr_t)aligned_region.start() % page_size() == 0 && | |
| 276 (intptr_t)aligned_region.byte_size() % page_size() == 0, "Bad alignment"); | |
| 277 assert(region().contains(aligned_region), "Sanity"); | |
| 141 | 278 // First we tell the OS which page size we want in the given range. The underlying |
| 279 // large page can be broken down if we require small pages. | |
| 0 | 280 os::realign_memory((char*)aligned_region.start(), aligned_region.byte_size(), page_size()); |
| 141 | 281 // Then we uncommit the pages in the range. |
| 282 os::free_memory((char*)aligned_region.start(), aligned_region.byte_size()); | |
| 283 // And make them local/first-touch biased. | |
| 284 os::numa_make_local((char*)aligned_region.start(), aligned_region.byte_size(), lgrp_id); | |
| 0 | 285 } |
| 286 } | |
| 287 | |
| 288 // Free all pages in the region. | |
| 289 void MutableNUMASpace::free_region(MemRegion mr) { | |
| 290 HeapWord *start = (HeapWord*)round_to((intptr_t)mr.start(), page_size()); | |
| 291 HeapWord *end = (HeapWord*)round_down((intptr_t)mr.end(), page_size()); | |
| 292 if (end > start) { | |
| 293 MemRegion aligned_region(start, end); | |
| 294 assert((intptr_t)aligned_region.start() % page_size() == 0 && | |
| 295 (intptr_t)aligned_region.byte_size() % page_size() == 0, "Bad alignment"); | |
| 296 assert(region().contains(aligned_region), "Sanity"); | |
| 297 os::free_memory((char*)aligned_region.start(), aligned_region.byte_size()); | |
| 298 } | |
| 299 } | |
| 300 | |
| 301 // Update space layout. Perform adaptation. | |
| 302 void MutableNUMASpace::update() { | |
| 303 if (update_layout(false)) { | |
| 304 // If the topology has changed, make all chunks zero-sized. | |
|
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305 // And clear the alloc-rate statistics. |
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306 // In future we may want to handle this more gracefully in order |
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307 // to avoid the reallocation of the pages as much as possible. |
| 0 | 308 for (int i = 0; i < lgrp_spaces()->length(); i++) { |
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309 LGRPSpace *ls = lgrp_spaces()->at(i); |
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310 MutableSpace *s = ls->space(); |
| 0 | 311 s->set_end(s->bottom()); |
| 312 s->set_top(s->bottom()); | |
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313 ls->clear_alloc_rate(); |
| 0 | 314 } |
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315 // A NUMA space is never mangled |
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316 initialize(region(), |
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317 SpaceDecorator::Clear, |
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318 SpaceDecorator::DontMangle); |
| 0 | 319 } else { |
| 320 bool should_initialize = false; | |
| 141 | 321 if (!os::numa_has_static_binding()) { |
| 322 for (int i = 0; i < lgrp_spaces()->length(); i++) { | |
| 323 if (!lgrp_spaces()->at(i)->invalid_region().is_empty()) { | |
| 324 should_initialize = true; | |
| 325 break; | |
| 326 } | |
| 0 | 327 } |
| 328 } | |
| 329 | |
| 330 if (should_initialize || | |
| 331 (UseAdaptiveNUMAChunkSizing && adaptation_cycles() < samples_count())) { | |
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332 // A NUMA space is never mangled |
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333 initialize(region(), |
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334 SpaceDecorator::Clear, |
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335 SpaceDecorator::DontMangle); |
| 0 | 336 } |
| 337 } | |
| 338 | |
| 339 if (NUMAStats) { | |
| 340 for (int i = 0; i < lgrp_spaces()->length(); i++) { | |
| 341 lgrp_spaces()->at(i)->accumulate_statistics(page_size()); | |
| 342 } | |
| 343 } | |
| 344 | |
| 345 scan_pages(NUMAPageScanRate); | |
| 346 } | |
| 347 | |
| 348 // Scan pages. Free pages that have smaller size or wrong placement. | |
| 349 void MutableNUMASpace::scan_pages(size_t page_count) | |
| 350 { | |
| 351 size_t pages_per_chunk = page_count / lgrp_spaces()->length(); | |
| 352 if (pages_per_chunk > 0) { | |
| 353 for (int i = 0; i < lgrp_spaces()->length(); i++) { | |
| 354 LGRPSpace *ls = lgrp_spaces()->at(i); | |
| 355 ls->scan_pages(page_size(), pages_per_chunk); | |
| 356 } | |
| 357 } | |
| 358 } | |
| 359 | |
| 360 // Accumulate statistics about the allocation rate of each lgrp. | |
| 361 void MutableNUMASpace::accumulate_statistics() { | |
| 362 if (UseAdaptiveNUMAChunkSizing) { | |
| 363 for (int i = 0; i < lgrp_spaces()->length(); i++) { | |
| 364 lgrp_spaces()->at(i)->sample(); | |
| 365 } | |
| 366 increment_samples_count(); | |
| 367 } | |
| 368 | |
| 369 if (NUMAStats) { | |
| 370 for (int i = 0; i < lgrp_spaces()->length(); i++) { | |
| 371 lgrp_spaces()->at(i)->accumulate_statistics(page_size()); | |
| 372 } | |
| 373 } | |
| 374 } | |
| 375 | |
| 376 // Get the current size of a chunk. | |
| 377 // This function computes the size of the chunk based on the | |
| 378 // difference between chunk ends. This allows it to work correctly in | |
| 379 // case the whole space is resized and during the process of adaptive | |
| 380 // chunk resizing. | |
| 381 size_t MutableNUMASpace::current_chunk_size(int i) { | |
| 382 HeapWord *cur_end, *prev_end; | |
| 383 if (i == 0) { | |
| 384 prev_end = bottom(); | |
| 385 } else { | |
| 386 prev_end = lgrp_spaces()->at(i - 1)->space()->end(); | |
| 387 } | |
| 388 if (i == lgrp_spaces()->length() - 1) { | |
| 389 cur_end = end(); | |
| 390 } else { | |
| 391 cur_end = lgrp_spaces()->at(i)->space()->end(); | |
| 392 } | |
| 393 if (cur_end > prev_end) { | |
| 394 return pointer_delta(cur_end, prev_end, sizeof(char)); | |
| 395 } | |
| 396 return 0; | |
| 397 } | |
| 398 | |
| 399 // Return the default chunk size by equally diving the space. | |
| 400 // page_size() aligned. | |
| 401 size_t MutableNUMASpace::default_chunk_size() { | |
| 402 return base_space_size() / lgrp_spaces()->length() * page_size(); | |
| 403 } | |
| 404 | |
| 405 // Produce a new chunk size. page_size() aligned. | |
|
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406 // This function is expected to be called on sequence of i's from 0 to |
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407 // lgrp_spaces()->length(). |
| 0 | 408 size_t MutableNUMASpace::adaptive_chunk_size(int i, size_t limit) { |
| 409 size_t pages_available = base_space_size(); | |
| 410 for (int j = 0; j < i; j++) { | |
| 411 pages_available -= round_down(current_chunk_size(j), page_size()) / page_size(); | |
| 412 } | |
| 413 pages_available -= lgrp_spaces()->length() - i - 1; | |
| 414 assert(pages_available > 0, "No pages left"); | |
| 415 float alloc_rate = 0; | |
| 416 for (int j = i; j < lgrp_spaces()->length(); j++) { | |
| 417 alloc_rate += lgrp_spaces()->at(j)->alloc_rate()->average(); | |
| 418 } | |
| 419 size_t chunk_size = 0; | |
| 420 if (alloc_rate > 0) { | |
| 421 LGRPSpace *ls = lgrp_spaces()->at(i); | |
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422 chunk_size = (size_t)(ls->alloc_rate()->average() / alloc_rate * pages_available) * page_size(); |
| 0 | 423 } |
| 424 chunk_size = MAX2(chunk_size, page_size()); | |
| 425 | |
| 426 if (limit > 0) { | |
| 427 limit = round_down(limit, page_size()); | |
| 428 if (chunk_size > current_chunk_size(i)) { | |
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429 size_t upper_bound = pages_available * page_size(); |
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430 if (upper_bound > limit && |
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431 current_chunk_size(i) < upper_bound - limit) { |
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432 // The resulting upper bound should not exceed the available |
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433 // amount of memory (pages_available * page_size()). |
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434 upper_bound = current_chunk_size(i) + limit; |
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435 } |
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436 chunk_size = MIN2(chunk_size, upper_bound); |
| 0 | 437 } else { |
|
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438 size_t lower_bound = page_size(); |
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439 if (current_chunk_size(i) > limit) { // lower_bound shouldn't underflow. |
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440 lower_bound = current_chunk_size(i) - limit; |
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441 } |
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442 chunk_size = MAX2(chunk_size, lower_bound); |
| 0 | 443 } |
| 444 } | |
| 445 assert(chunk_size <= pages_available * page_size(), "Chunk size out of range"); | |
| 446 return chunk_size; | |
| 447 } | |
| 448 | |
| 449 | |
| 450 // Return the bottom_region and the top_region. Align them to page_size() boundary. | |
| 451 // |------------------new_region---------------------------------| | |
| 452 // |----bottom_region--|---intersection---|------top_region------| | |
| 453 void MutableNUMASpace::select_tails(MemRegion new_region, MemRegion intersection, | |
| 454 MemRegion* bottom_region, MemRegion *top_region) { | |
| 455 // Is there bottom? | |
| 456 if (new_region.start() < intersection.start()) { // Yes | |
| 457 // Try to coalesce small pages into a large one. | |
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458 if (UseLargePages && page_size() >= alignment()) { |
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459 HeapWord* p = (HeapWord*)round_to((intptr_t) intersection.start(), alignment()); |
| 0 | 460 if (new_region.contains(p) |
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461 && pointer_delta(p, new_region.start(), sizeof(char)) >= alignment()) { |
| 0 | 462 if (intersection.contains(p)) { |
| 463 intersection = MemRegion(p, intersection.end()); | |
| 464 } else { | |
| 465 intersection = MemRegion(p, p); | |
| 466 } | |
| 467 } | |
| 468 } | |
| 469 *bottom_region = MemRegion(new_region.start(), intersection.start()); | |
| 470 } else { | |
| 471 *bottom_region = MemRegion(); | |
| 472 } | |
| 473 | |
| 474 // Is there top? | |
| 475 if (intersection.end() < new_region.end()) { // Yes | |
| 476 // Try to coalesce small pages into a large one. | |
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477 if (UseLargePages && page_size() >= alignment()) { |
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478 HeapWord* p = (HeapWord*)round_down((intptr_t) intersection.end(), alignment()); |
| 0 | 479 if (new_region.contains(p) |
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480 && pointer_delta(new_region.end(), p, sizeof(char)) >= alignment()) { |
| 0 | 481 if (intersection.contains(p)) { |
| 482 intersection = MemRegion(intersection.start(), p); | |
| 483 } else { | |
| 484 intersection = MemRegion(p, p); | |
| 485 } | |
| 486 } | |
| 487 } | |
| 488 *top_region = MemRegion(intersection.end(), new_region.end()); | |
| 489 } else { | |
| 490 *top_region = MemRegion(); | |
| 491 } | |
| 492 } | |
| 493 | |
| 494 // Try to merge the invalid region with the bottom or top region by decreasing | |
| 495 // the intersection area. Return the invalid_region aligned to the page_size() | |
| 496 // boundary if it's inside the intersection. Return non-empty invalid_region | |
| 497 // if it lies inside the intersection (also page-aligned). | |
| 498 // |------------------new_region---------------------------------| | |
| 499 // |----------------|-------invalid---|--------------------------| | |
| 500 // |----bottom_region--|---intersection---|------top_region------| | |
| 501 void MutableNUMASpace::merge_regions(MemRegion new_region, MemRegion* intersection, | |
| 502 MemRegion *invalid_region) { | |
| 503 if (intersection->start() >= invalid_region->start() && intersection->contains(invalid_region->end())) { | |
| 504 *intersection = MemRegion(invalid_region->end(), intersection->end()); | |
| 505 *invalid_region = MemRegion(); | |
| 506 } else | |
| 507 if (intersection->end() <= invalid_region->end() && intersection->contains(invalid_region->start())) { | |
| 508 *intersection = MemRegion(intersection->start(), invalid_region->start()); | |
| 509 *invalid_region = MemRegion(); | |
| 510 } else | |
| 511 if (intersection->equals(*invalid_region) || invalid_region->contains(*intersection)) { | |
| 512 *intersection = MemRegion(new_region.start(), new_region.start()); | |
| 513 *invalid_region = MemRegion(); | |
| 514 } else | |
| 515 if (intersection->contains(invalid_region)) { | |
| 516 // That's the only case we have to make an additional bias_region() call. | |
| 517 HeapWord* start = invalid_region->start(); | |
| 518 HeapWord* end = invalid_region->end(); | |
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519 if (UseLargePages && page_size() >= alignment()) { |
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520 HeapWord *p = (HeapWord*)round_down((intptr_t) start, alignment()); |
| 0 | 521 if (new_region.contains(p)) { |
| 522 start = p; | |
| 523 } | |
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524 p = (HeapWord*)round_to((intptr_t) end, alignment()); |
| 0 | 525 if (new_region.contains(end)) { |
| 526 end = p; | |
| 527 } | |
| 528 } | |
| 529 if (intersection->start() > start) { | |
| 530 *intersection = MemRegion(start, intersection->end()); | |
| 531 } | |
| 532 if (intersection->end() < end) { | |
| 533 *intersection = MemRegion(intersection->start(), end); | |
| 534 } | |
| 535 *invalid_region = MemRegion(start, end); | |
| 536 } | |
| 537 } | |
| 538 | |
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539 void MutableNUMASpace::initialize(MemRegion mr, |
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540 bool clear_space, |
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541 bool mangle_space, |
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542 bool setup_pages) { |
| 0 | 543 assert(clear_space, "Reallocation will destory data!"); |
| 544 assert(lgrp_spaces()->length() > 0, "There should be at least one space"); | |
| 545 | |
| 546 MemRegion old_region = region(), new_region; | |
| 547 set_bottom(mr.start()); | |
| 548 set_end(mr.end()); | |
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549 // Must always clear the space |
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550 clear(SpaceDecorator::DontMangle); |
| 0 | 551 |
| 552 // Compute chunk sizes | |
| 553 size_t prev_page_size = page_size(); | |
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554 set_page_size(UseLargePages ? alignment() : os::vm_page_size()); |
| 0 | 555 HeapWord* rounded_bottom = (HeapWord*)round_to((intptr_t) bottom(), page_size()); |
| 556 HeapWord* rounded_end = (HeapWord*)round_down((intptr_t) end(), page_size()); | |
| 557 size_t base_space_size_pages = pointer_delta(rounded_end, rounded_bottom, sizeof(char)) / page_size(); | |
| 558 | |
| 559 // Try small pages if the chunk size is too small | |
| 560 if (base_space_size_pages / lgrp_spaces()->length() == 0 | |
| 561 && page_size() > (size_t)os::vm_page_size()) { | |
| 562 set_page_size(os::vm_page_size()); | |
| 563 rounded_bottom = (HeapWord*)round_to((intptr_t) bottom(), page_size()); | |
| 564 rounded_end = (HeapWord*)round_down((intptr_t) end(), page_size()); | |
| 565 base_space_size_pages = pointer_delta(rounded_end, rounded_bottom, sizeof(char)) / page_size(); | |
| 566 } | |
| 567 guarantee(base_space_size_pages / lgrp_spaces()->length() > 0, "Space too small"); | |
| 568 set_base_space_size(base_space_size_pages); | |
| 569 | |
| 570 // Handle space resize | |
| 571 MemRegion top_region, bottom_region; | |
| 572 if (!old_region.equals(region())) { | |
| 573 new_region = MemRegion(rounded_bottom, rounded_end); | |
| 574 MemRegion intersection = new_region.intersection(old_region); | |
| 575 if (intersection.start() == NULL || | |
| 576 intersection.end() == NULL || | |
| 577 prev_page_size > page_size()) { // If the page size got smaller we have to change | |
| 578 // the page size preference for the whole space. | |
| 579 intersection = MemRegion(new_region.start(), new_region.start()); | |
| 580 } | |
| 581 select_tails(new_region, intersection, &bottom_region, &top_region); | |
| 141 | 582 bias_region(bottom_region, lgrp_spaces()->at(0)->lgrp_id()); |
| 583 bias_region(top_region, lgrp_spaces()->at(lgrp_spaces()->length() - 1)->lgrp_id()); | |
| 0 | 584 } |
| 585 | |
| 586 // Check if the space layout has changed significantly? | |
| 587 // This happens when the space has been resized so that either head or tail | |
| 588 // chunk became less than a page. | |
| 589 bool layout_valid = UseAdaptiveNUMAChunkSizing && | |
| 590 current_chunk_size(0) > page_size() && | |
| 591 current_chunk_size(lgrp_spaces()->length() - 1) > page_size(); | |
| 592 | |
| 593 | |
| 594 for (int i = 0; i < lgrp_spaces()->length(); i++) { | |
| 595 LGRPSpace *ls = lgrp_spaces()->at(i); | |
| 596 MutableSpace *s = ls->space(); | |
| 597 old_region = s->region(); | |
| 598 | |
| 599 size_t chunk_byte_size = 0, old_chunk_byte_size = 0; | |
| 600 if (i < lgrp_spaces()->length() - 1) { | |
| 601 if (!UseAdaptiveNUMAChunkSizing || | |
| 602 (UseAdaptiveNUMAChunkSizing && NUMAChunkResizeWeight == 0) || | |
| 603 samples_count() < AdaptiveSizePolicyReadyThreshold) { | |
| 604 // No adaptation. Divide the space equally. | |
| 605 chunk_byte_size = default_chunk_size(); | |
| 606 } else | |
| 607 if (!layout_valid || NUMASpaceResizeRate == 0) { | |
| 608 // Fast adaptation. If no space resize rate is set, resize | |
| 609 // the chunks instantly. | |
| 610 chunk_byte_size = adaptive_chunk_size(i, 0); | |
| 611 } else { | |
| 612 // Slow adaptation. Resize the chunks moving no more than | |
| 613 // NUMASpaceResizeRate bytes per collection. | |
| 614 size_t limit = NUMASpaceResizeRate / | |
| 615 (lgrp_spaces()->length() * (lgrp_spaces()->length() + 1) / 2); | |
| 616 chunk_byte_size = adaptive_chunk_size(i, MAX2(limit * (i + 1), page_size())); | |
| 617 } | |
| 618 | |
| 619 assert(chunk_byte_size >= page_size(), "Chunk size too small"); | |
| 620 assert(chunk_byte_size <= capacity_in_bytes(), "Sanity check"); | |
| 621 } | |
| 622 | |
| 623 if (i == 0) { // Bottom chunk | |
| 624 if (i != lgrp_spaces()->length() - 1) { | |
| 625 new_region = MemRegion(bottom(), rounded_bottom + (chunk_byte_size >> LogHeapWordSize)); | |
| 626 } else { | |
| 627 new_region = MemRegion(bottom(), end()); | |
| 628 } | |
| 629 } else | |
| 630 if (i < lgrp_spaces()->length() - 1) { // Middle chunks | |
| 631 MutableSpace *ps = lgrp_spaces()->at(i - 1)->space(); | |
| 632 new_region = MemRegion(ps->end(), | |
| 633 ps->end() + (chunk_byte_size >> LogHeapWordSize)); | |
| 634 } else { // Top chunk | |
| 635 MutableSpace *ps = lgrp_spaces()->at(i - 1)->space(); | |
| 636 new_region = MemRegion(ps->end(), end()); | |
| 637 } | |
| 638 guarantee(region().contains(new_region), "Region invariant"); | |
| 639 | |
| 640 | |
| 641 // The general case: | |
| 642 // |---------------------|--invalid---|--------------------------| | |
| 643 // |------------------new_region---------------------------------| | |
| 644 // |----bottom_region--|---intersection---|------top_region------| | |
| 645 // |----old_region----| | |
| 646 // The intersection part has all pages in place we don't need to migrate them. | |
| 647 // Pages for the top and bottom part should be freed and then reallocated. | |
| 648 | |
| 649 MemRegion intersection = old_region.intersection(new_region); | |
| 650 | |
| 651 if (intersection.start() == NULL || intersection.end() == NULL) { | |
| 652 intersection = MemRegion(new_region.start(), new_region.start()); | |
| 653 } | |
| 654 | |
| 141 | 655 if (!os::numa_has_static_binding()) { |
| 656 MemRegion invalid_region = ls->invalid_region().intersection(new_region); | |
| 657 // Invalid region is a range of memory that could've possibly | |
| 658 // been allocated on the other node. That's relevant only on Solaris where | |
| 659 // there is no static memory binding. | |
| 660 if (!invalid_region.is_empty()) { | |
| 661 merge_regions(new_region, &intersection, &invalid_region); | |
| 662 free_region(invalid_region); | |
| 663 ls->set_invalid_region(MemRegion()); | |
| 664 } | |
| 0 | 665 } |
| 141 | 666 |
| 0 | 667 select_tails(new_region, intersection, &bottom_region, &top_region); |
| 141 | 668 |
| 669 if (!os::numa_has_static_binding()) { | |
| 670 // If that's a system with the first-touch policy then it's enough | |
| 671 // to free the pages. | |
| 672 free_region(bottom_region); | |
| 673 free_region(top_region); | |
| 674 } else { | |
| 675 // In a system with static binding we have to change the bias whenever | |
| 676 // we reshape the heap. | |
| 677 bias_region(bottom_region, ls->lgrp_id()); | |
| 678 bias_region(top_region, ls->lgrp_id()); | |
| 679 } | |
| 0 | 680 |
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681 // Clear space (set top = bottom) but never mangle. |
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682 s->initialize(new_region, SpaceDecorator::Clear, SpaceDecorator::DontMangle, MutableSpace::DontSetupPages); |
| 0 | 683 |
| 684 set_adaptation_cycles(samples_count()); | |
| 685 } | |
| 686 } | |
| 687 | |
| 688 // Set the top of the whole space. | |
| 689 // Mark the the holes in chunks below the top() as invalid. | |
| 690 void MutableNUMASpace::set_top(HeapWord* value) { | |
| 691 bool found_top = false; | |
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692 for (int i = 0; i < lgrp_spaces()->length();) { |
| 0 | 693 LGRPSpace *ls = lgrp_spaces()->at(i); |
| 694 MutableSpace *s = ls->space(); | |
| 695 HeapWord *top = MAX2((HeapWord*)round_down((intptr_t)s->top(), page_size()), s->bottom()); | |
| 696 | |
| 697 if (s->contains(value)) { | |
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698 // Check if setting the chunk's top to a given value would create a hole less than |
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699 // a minimal object; assuming that's not the last chunk in which case we don't care. |
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700 if (i < lgrp_spaces()->length() - 1) { |
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701 size_t remainder = pointer_delta(s->end(), value); |
|
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702 const size_t min_fill_size = CollectedHeap::min_fill_size(); |
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703 if (remainder < min_fill_size && remainder > 0) { |
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704 // Add a minimum size filler object; it will cross the chunk boundary. |
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705 CollectedHeap::fill_with_object(value, min_fill_size); |
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706 value += min_fill_size; |
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707 assert(!s->contains(value), "Should be in the next chunk"); |
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708 // Restart the loop from the same chunk, since the value has moved |
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709 // to the next one. |
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710 continue; |
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711 } |
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712 } |
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713 |
| 141 | 714 if (!os::numa_has_static_binding() && top < value && top < s->end()) { |
| 0 | 715 ls->add_invalid_region(MemRegion(top, value)); |
| 716 } | |
| 717 s->set_top(value); | |
| 718 found_top = true; | |
| 719 } else { | |
| 720 if (found_top) { | |
| 721 s->set_top(s->bottom()); | |
| 722 } else { | |
| 141 | 723 if (!os::numa_has_static_binding() && top < s->end()) { |
| 724 ls->add_invalid_region(MemRegion(top, s->end())); | |
| 725 } | |
| 726 s->set_top(s->end()); | |
| 0 | 727 } |
| 728 } | |
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729 i++; |
| 0 | 730 } |
| 731 MutableSpace::set_top(value); | |
| 732 } | |
| 733 | |
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734 void MutableNUMASpace::clear(bool mangle_space) { |
| 0 | 735 MutableSpace::set_top(bottom()); |
| 736 for (int i = 0; i < lgrp_spaces()->length(); i++) { | |
|
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737 // Never mangle NUMA spaces because the mangling will |
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738 // bind the memory to a possibly unwanted lgroup. |
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739 lgrp_spaces()->at(i)->space()->clear(SpaceDecorator::DontMangle); |
| 0 | 740 } |
| 741 } | |
| 742 | |
| 141 | 743 /* |
| 744 Linux supports static memory binding, therefore the most part of the | |
| 745 logic dealing with the possible invalid page allocation is effectively | |
| 746 disabled. Besides there is no notion of the home node in Linux. A | |
| 747 thread is allowed to migrate freely. Although the scheduler is rather | |
| 748 reluctant to move threads between the nodes. We check for the current | |
| 749 node every allocation. And with a high probability a thread stays on | |
| 750 the same node for some time allowing local access to recently allocated | |
| 751 objects. | |
| 752 */ | |
| 753 | |
| 0 | 754 HeapWord* MutableNUMASpace::allocate(size_t size) { |
| 141 | 755 Thread* thr = Thread::current(); |
| 756 int lgrp_id = thr->lgrp_id(); | |
| 757 if (lgrp_id == -1 || !os::numa_has_group_homing()) { | |
| 0 | 758 lgrp_id = os::numa_get_group_id(); |
| 141 | 759 thr->set_lgrp_id(lgrp_id); |
| 0 | 760 } |
| 761 | |
| 762 int i = lgrp_spaces()->find(&lgrp_id, LGRPSpace::equals); | |
| 763 | |
| 764 // It is possible that a new CPU has been hotplugged and | |
| 765 // we haven't reshaped the space accordingly. | |
| 766 if (i == -1) { | |
| 767 i = os::random() % lgrp_spaces()->length(); | |
| 768 } | |
| 769 | |
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770 LGRPSpace* ls = lgrp_spaces()->at(i); |
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771 MutableSpace *s = ls->space(); |
| 0 | 772 HeapWord *p = s->allocate(size); |
| 773 | |
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774 if (p != NULL) { |
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775 size_t remainder = s->free_in_words(); |
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776 if (remainder < CollectedHeap::min_fill_size() && remainder > 0) { |
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777 s->set_top(s->top() - size); |
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778 p = NULL; |
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779 } |
| 0 | 780 } |
| 781 if (p != NULL) { | |
| 782 if (top() < s->top()) { // Keep _top updated. | |
| 783 MutableSpace::set_top(s->top()); | |
| 784 } | |
| 785 } | |
| 141 | 786 // Make the page allocation happen here if there is no static binding.. |
| 787 if (p != NULL && !os::numa_has_static_binding()) { | |
| 0 | 788 for (HeapWord *i = p; i < p + size; i += os::vm_page_size() >> LogHeapWordSize) { |
| 789 *(int*)i = 0; | |
| 790 } | |
| 791 } | |
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792 if (p == NULL) { |
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793 ls->set_allocation_failed(); |
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794 } |
| 0 | 795 return p; |
| 796 } | |
| 797 | |
| 798 // This version is lock-free. | |
| 799 HeapWord* MutableNUMASpace::cas_allocate(size_t size) { | |
| 141 | 800 Thread* thr = Thread::current(); |
| 801 int lgrp_id = thr->lgrp_id(); | |
| 802 if (lgrp_id == -1 || !os::numa_has_group_homing()) { | |
| 0 | 803 lgrp_id = os::numa_get_group_id(); |
| 141 | 804 thr->set_lgrp_id(lgrp_id); |
| 0 | 805 } |
| 806 | |
| 807 int i = lgrp_spaces()->find(&lgrp_id, LGRPSpace::equals); | |
| 808 // It is possible that a new CPU has been hotplugged and | |
| 809 // we haven't reshaped the space accordingly. | |
| 810 if (i == -1) { | |
| 811 i = os::random() % lgrp_spaces()->length(); | |
| 812 } | |
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813 LGRPSpace *ls = lgrp_spaces()->at(i); |
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814 MutableSpace *s = ls->space(); |
| 0 | 815 HeapWord *p = s->cas_allocate(size); |
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816 if (p != NULL) { |
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817 size_t remainder = pointer_delta(s->end(), p + size); |
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818 if (remainder < CollectedHeap::min_fill_size() && remainder > 0) { |
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819 if (s->cas_deallocate(p, size)) { |
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820 // We were the last to allocate and created a fragment less than |
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821 // a minimal object. |
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822 p = NULL; |
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823 } else { |
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824 guarantee(false, "Deallocation should always succeed"); |
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825 } |
| 0 | 826 } |
| 827 } | |
| 828 if (p != NULL) { | |
| 829 HeapWord* cur_top, *cur_chunk_top = p + size; | |
| 830 while ((cur_top = top()) < cur_chunk_top) { // Keep _top updated. | |
| 831 if (Atomic::cmpxchg_ptr(cur_chunk_top, top_addr(), cur_top) == cur_top) { | |
| 832 break; | |
| 833 } | |
| 834 } | |
| 835 } | |
| 836 | |
| 141 | 837 // Make the page allocation happen here if there is no static binding. |
| 838 if (p != NULL && !os::numa_has_static_binding() ) { | |
| 0 | 839 for (HeapWord *i = p; i < p + size; i += os::vm_page_size() >> LogHeapWordSize) { |
| 840 *(int*)i = 0; | |
| 841 } | |
| 842 } | |
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843 if (p == NULL) { |
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844 ls->set_allocation_failed(); |
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845 } |
| 0 | 846 return p; |
| 847 } | |
| 848 | |
| 849 void MutableNUMASpace::print_short_on(outputStream* st) const { | |
| 850 MutableSpace::print_short_on(st); | |
| 851 st->print(" ("); | |
| 852 for (int i = 0; i < lgrp_spaces()->length(); i++) { | |
| 853 st->print("lgrp %d: ", lgrp_spaces()->at(i)->lgrp_id()); | |
| 854 lgrp_spaces()->at(i)->space()->print_short_on(st); | |
| 855 if (i < lgrp_spaces()->length() - 1) { | |
| 856 st->print(", "); | |
| 857 } | |
| 858 } | |
| 859 st->print(")"); | |
| 860 } | |
| 861 | |
| 862 void MutableNUMASpace::print_on(outputStream* st) const { | |
| 863 MutableSpace::print_on(st); | |
| 864 for (int i = 0; i < lgrp_spaces()->length(); i++) { | |
| 865 LGRPSpace *ls = lgrp_spaces()->at(i); | |
| 866 st->print(" lgrp %d", ls->lgrp_id()); | |
| 867 ls->space()->print_on(st); | |
| 868 if (NUMAStats) { | |
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869 for (int i = 0; i < lgrp_spaces()->length(); i++) { |
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870 lgrp_spaces()->at(i)->accumulate_statistics(page_size()); |
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871 } |
| 0 | 872 st->print(" local/remote/unbiased/uncommitted: %dK/%dK/%dK/%dK, large/small pages: %d/%d\n", |
| 873 ls->space_stats()->_local_space / K, | |
| 874 ls->space_stats()->_remote_space / K, | |
| 875 ls->space_stats()->_unbiased_space / K, | |
| 876 ls->space_stats()->_uncommited_space / K, | |
| 877 ls->space_stats()->_large_pages, | |
| 878 ls->space_stats()->_small_pages); | |
| 879 } | |
| 880 } | |
| 881 } | |
| 882 | |
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883 void MutableNUMASpace::verify(bool allow_dirty) { |
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884 // This can be called after setting an arbitary value to the space's top, |
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885 // so an object can cross the chunk boundary. We ensure the parsablity |
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886 // of the space and just walk the objects in linear fashion. |
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887 ensure_parsability(); |
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888 MutableSpace::verify(allow_dirty); |
| 0 | 889 } |
| 890 | |
| 891 // Scan pages and gather stats about page placement and size. | |
| 892 void MutableNUMASpace::LGRPSpace::accumulate_statistics(size_t page_size) { | |
| 893 clear_space_stats(); | |
| 894 char *start = (char*)round_to((intptr_t) space()->bottom(), page_size); | |
| 895 char* end = (char*)round_down((intptr_t) space()->end(), page_size); | |
| 896 if (start < end) { | |
| 897 for (char *p = start; p < end;) { | |
| 898 os::page_info info; | |
| 899 if (os::get_page_info(p, &info)) { | |
| 900 if (info.size > 0) { | |
| 901 if (info.size > (size_t)os::vm_page_size()) { | |
| 902 space_stats()->_large_pages++; | |
| 903 } else { | |
| 904 space_stats()->_small_pages++; | |
| 905 } | |
| 906 if (info.lgrp_id == lgrp_id()) { | |
| 907 space_stats()->_local_space += info.size; | |
| 908 } else { | |
| 909 space_stats()->_remote_space += info.size; | |
| 910 } | |
| 911 p += info.size; | |
| 912 } else { | |
| 913 p += os::vm_page_size(); | |
| 914 space_stats()->_uncommited_space += os::vm_page_size(); | |
| 915 } | |
| 916 } else { | |
| 917 return; | |
| 918 } | |
| 919 } | |
| 920 } | |
| 921 space_stats()->_unbiased_space = pointer_delta(start, space()->bottom(), sizeof(char)) + | |
| 922 pointer_delta(space()->end(), end, sizeof(char)); | |
| 923 | |
| 924 } | |
| 925 | |
| 926 // Scan page_count pages and verify if they have the right size and right placement. | |
| 927 // If invalid pages are found they are freed in hope that subsequent reallocation | |
| 928 // will be more successful. | |
| 929 void MutableNUMASpace::LGRPSpace::scan_pages(size_t page_size, size_t page_count) | |
| 930 { | |
| 931 char* range_start = (char*)round_to((intptr_t) space()->bottom(), page_size); | |
| 932 char* range_end = (char*)round_down((intptr_t) space()->end(), page_size); | |
| 933 | |
| 934 if (range_start > last_page_scanned() || last_page_scanned() >= range_end) { | |
| 935 set_last_page_scanned(range_start); | |
| 936 } | |
| 937 | |
| 938 char *scan_start = last_page_scanned(); | |
| 939 char* scan_end = MIN2(scan_start + page_size * page_count, range_end); | |
| 940 | |
| 941 os::page_info page_expected, page_found; | |
| 942 page_expected.size = page_size; | |
| 943 page_expected.lgrp_id = lgrp_id(); | |
| 944 | |
| 945 char *s = scan_start; | |
| 946 while (s < scan_end) { | |
| 947 char *e = os::scan_pages(s, (char*)scan_end, &page_expected, &page_found); | |
| 948 if (e == NULL) { | |
| 949 break; | |
| 950 } | |
| 951 if (e != scan_end) { | |
| 952 if ((page_expected.size != page_size || page_expected.lgrp_id != lgrp_id()) | |
| 953 && page_expected.size != 0) { | |
| 954 os::free_memory(s, pointer_delta(e, s, sizeof(char))); | |
| 955 } | |
| 956 page_expected = page_found; | |
| 957 } | |
| 958 s = e; | |
| 959 } | |
| 960 | |
| 961 set_last_page_scanned(scan_end); | |
| 962 } |