1// Copyright (c) 2011 The Chromium Authors. All rights reserved. 2// Use of this source code is governed by a BSD-style license that can be 3// found in the LICENSE file. 4 5// The eviction policy is a very simple pure LRU, so the elements at the end of 6// the list are evicted until kCleanUpMargin free space is available. There is 7// only one list in use (Rankings::NO_USE), and elements are sent to the front 8// of the list whenever they are accessed. 9 10// The new (in-development) eviction policy adds re-use as a factor to evict 11// an entry. The story so far: 12 13// Entries are linked on separate lists depending on how often they are used. 14// When we see an element for the first time, it goes to the NO_USE list; if 15// the object is reused later on, we move it to the LOW_USE list, until it is 16// used kHighUse times, at which point it is moved to the HIGH_USE list. 17// Whenever an element is evicted, we move it to the DELETED list so that if the 18// element is accessed again, we remember the fact that it was already stored 19// and maybe in the future we don't evict that element. 20 21// When we have to evict an element, first we try to use the last element from 22// the NO_USE list, then we move to the LOW_USE and only then we evict an entry 23// from the HIGH_USE. We attempt to keep entries on the cache for at least 24// kTargetTime hours (with frequently accessed items stored for longer periods), 25// but if we cannot do that, we fall-back to keep each list roughly the same 26// size so that we have a chance to see an element again and move it to another 27// list. 28 29#include "net/disk_cache/eviction.h" 30 31#include "base/compiler_specific.h" 32#include "base/logging.h" 33#include "base/message_loop.h" 34#include "base/string_util.h" 35#include "base/time.h" 36#include "net/disk_cache/backend_impl.h" 37#include "net/disk_cache/entry_impl.h" 38#include "net/disk_cache/experiments.h" 39#include "net/disk_cache/histogram_macros.h" 40#include "net/disk_cache/trace.h" 41 42using base::Time; 43using base::TimeTicks; 44 45namespace { 46 47const int kCleanUpMargin = 1024 * 1024; 48const int kHighUse = 10; // Reuse count to be on the HIGH_USE list. 49const int kTargetTime = 24 * 7; // Time to be evicted (hours since last use). 50const int kMaxDelayedTrims = 60; 51 52int LowWaterAdjust(int high_water) { 53 if (high_water < kCleanUpMargin) 54 return 0; 55 56 return high_water - kCleanUpMargin; 57} 58 59} // namespace 60 61namespace disk_cache { 62 63Eviction::Eviction() 64 : backend_(NULL), 65 init_(false), 66 ALLOW_THIS_IN_INITIALIZER_LIST(factory_(this)) { 67} 68 69Eviction::~Eviction() { 70} 71 72void Eviction::Init(BackendImpl* backend) { 73 // We grab a bunch of info from the backend to make the code a little cleaner 74 // when we're actually doing work. 75 backend_ = backend; 76 rankings_ = &backend->rankings_; 77 header_ = &backend_->data_->header; 78 max_size_ = LowWaterAdjust(backend_->max_size_); 79 new_eviction_ = backend->new_eviction_; 80 first_trim_ = true; 81 trimming_ = false; 82 delay_trim_ = false; 83 trim_delays_ = 0; 84 init_ = true; 85 test_mode_ = false; 86 in_experiment_ = (header_->experiment == EXPERIMENT_DELETED_LIST_IN); 87} 88 89void Eviction::Stop() { 90 // It is possible for the backend initialization to fail, in which case this 91 // object was never initialized... and there is nothing to do. 92 if (!init_) 93 return; 94 95 // We want to stop further evictions, so let's pretend that we are busy from 96 // this point on. 97 DCHECK(!trimming_); 98 trimming_ = true; 99 factory_.RevokeAll(); 100} 101 102void Eviction::TrimCache(bool empty) { 103 if (backend_->disabled_ || trimming_) 104 return; 105 106 if (!empty && !ShouldTrim()) 107 return PostDelayedTrim(); 108 109 if (new_eviction_) 110 return TrimCacheV2(empty); 111 112 Trace("*** Trim Cache ***"); 113 trimming_ = true; 114 TimeTicks start = TimeTicks::Now(); 115 Rankings::ScopedRankingsBlock node(rankings_); 116 Rankings::ScopedRankingsBlock next(rankings_, 117 rankings_->GetPrev(node.get(), Rankings::NO_USE)); 118 int target_size = empty ? 0 : max_size_; 119 while ((header_->num_bytes > target_size || test_mode_) && next.get()) { 120 // The iterator could be invalidated within EvictEntry(). 121 if (!next->HasData()) 122 break; 123 node.reset(next.release()); 124 next.reset(rankings_->GetPrev(node.get(), Rankings::NO_USE)); 125 if (node->Data()->dirty != backend_->GetCurrentEntryId() || empty) { 126 // This entry is not being used by anybody. 127 // Do NOT use node as an iterator after this point. 128 rankings_->TrackRankingsBlock(node.get(), false); 129 if (!EvictEntry(node.get(), empty, Rankings::NO_USE) && !test_mode_) 130 continue; 131 132 if (!empty) { 133 backend_->OnEvent(Stats::TRIM_ENTRY); 134 if (test_mode_) 135 break; 136 137 if ((TimeTicks::Now() - start).InMilliseconds() > 20) { 138 MessageLoop::current()->PostTask(FROM_HERE, 139 factory_.NewRunnableMethod(&Eviction::TrimCache, false)); 140 break; 141 } 142 } 143 } 144 } 145 146 if (empty) { 147 CACHE_UMA(AGE_MS, "TotalClearTimeV1", 0, start); 148 } else { 149 CACHE_UMA(AGE_MS, "TotalTrimTimeV1", backend_->GetSizeGroup(), start); 150 } 151 152 trimming_ = false; 153 Trace("*** Trim Cache end ***"); 154 return; 155} 156 157void Eviction::UpdateRank(EntryImpl* entry, bool modified) { 158 if (new_eviction_) 159 return UpdateRankV2(entry, modified); 160 161 rankings_->UpdateRank(entry->rankings(), modified, GetListForEntry(entry)); 162} 163 164void Eviction::OnOpenEntry(EntryImpl* entry) { 165 if (new_eviction_) 166 return OnOpenEntryV2(entry); 167} 168 169void Eviction::OnCreateEntry(EntryImpl* entry) { 170 if (new_eviction_) 171 return OnCreateEntryV2(entry); 172 173 rankings_->Insert(entry->rankings(), true, GetListForEntry(entry)); 174} 175 176void Eviction::OnDoomEntry(EntryImpl* entry) { 177 if (new_eviction_) 178 return OnDoomEntryV2(entry); 179 180 if (entry->LeaveRankingsBehind()) 181 return; 182 183 rankings_->Remove(entry->rankings(), GetListForEntry(entry), true); 184} 185 186void Eviction::OnDestroyEntry(EntryImpl* entry) { 187 if (new_eviction_) 188 return OnDestroyEntryV2(entry); 189} 190 191void Eviction::SetTestMode() { 192 test_mode_ = true; 193} 194 195void Eviction::TrimDeletedList(bool empty) { 196 DCHECK(test_mode_ && new_eviction_); 197 TrimDeleted(empty); 198} 199 200void Eviction::PostDelayedTrim() { 201 // Prevent posting multiple tasks. 202 if (delay_trim_) 203 return; 204 delay_trim_ = true; 205 trim_delays_++; 206 MessageLoop::current()->PostDelayedTask(FROM_HERE, 207 factory_.NewRunnableMethod(&Eviction::DelayedTrim), 1000); 208} 209 210void Eviction::DelayedTrim() { 211 delay_trim_ = false; 212 if (trim_delays_ < kMaxDelayedTrims && backend_->IsLoaded()) 213 return PostDelayedTrim(); 214 215 TrimCache(false); 216} 217 218bool Eviction::ShouldTrim() { 219 if (trim_delays_ < kMaxDelayedTrims && backend_->IsLoaded()) 220 return false; 221 222 UMA_HISTOGRAM_COUNTS("DiskCache.TrimDelays", trim_delays_); 223 trim_delays_ = 0; 224 return true; 225} 226 227void Eviction::ReportTrimTimes(EntryImpl* entry) { 228 if (first_trim_) { 229 first_trim_ = false; 230 if (backend_->ShouldReportAgain()) { 231 CACHE_UMA(AGE, "TrimAge", 0, entry->GetLastUsed()); 232 ReportListStats(); 233 } 234 235 if (header_->lru.filled) 236 return; 237 238 header_->lru.filled = 1; 239 240 if (header_->create_time) { 241 // This is the first entry that we have to evict, generate some noise. 242 backend_->FirstEviction(); 243 } else { 244 // This is an old file, but we may want more reports from this user so 245 // lets save some create_time. 246 Time::Exploded old = {0}; 247 old.year = 2009; 248 old.month = 3; 249 old.day_of_month = 1; 250 header_->create_time = Time::FromLocalExploded(old).ToInternalValue(); 251 } 252 } 253} 254 255Rankings::List Eviction::GetListForEntry(EntryImpl* entry) { 256 return Rankings::NO_USE; 257} 258 259bool Eviction::EvictEntry(CacheRankingsBlock* node, bool empty, 260 Rankings::List list) { 261 EntryImpl* entry = backend_->GetEnumeratedEntry(node, list); 262 if (!entry) { 263 Trace("NewEntry failed on Trim 0x%x", node->address().value()); 264 return false; 265 } 266 267 ReportTrimTimes(entry); 268 if (empty || !new_eviction_) { 269 entry->DoomImpl(); 270 } else { 271 entry->DeleteEntryData(false); 272 EntryStore* info = entry->entry()->Data(); 273 DCHECK(ENTRY_NORMAL == info->state); 274 275 rankings_->Remove(entry->rankings(), GetListForEntryV2(entry), true); 276 info->state = ENTRY_EVICTED; 277 entry->entry()->Store(); 278 rankings_->Insert(entry->rankings(), true, Rankings::DELETED); 279 backend_->OnEvent(Stats::TRIM_ENTRY); 280 } 281 entry->Release(); 282 283 return true; 284} 285 286// ----------------------------------------------------------------------- 287 288void Eviction::TrimCacheV2(bool empty) { 289 Trace("*** Trim Cache ***"); 290 trimming_ = true; 291 TimeTicks start = TimeTicks::Now(); 292 293 const int kListsToSearch = 3; 294 Rankings::ScopedRankingsBlock next[kListsToSearch]; 295 int list = Rankings::LAST_ELEMENT; 296 297 // Get a node from each list. 298 for (int i = 0; i < kListsToSearch; i++) { 299 bool done = false; 300 next[i].set_rankings(rankings_); 301 if (done) 302 continue; 303 next[i].reset(rankings_->GetPrev(NULL, static_cast<Rankings::List>(i))); 304 if (!empty && NodeIsOldEnough(next[i].get(), i)) { 305 list = static_cast<Rankings::List>(i); 306 done = true; 307 } 308 } 309 310 // If we are not meeting the time targets lets move on to list length. 311 if (!empty && Rankings::LAST_ELEMENT == list) 312 list = SelectListByLength(next); 313 314 if (empty) 315 list = 0; 316 317 Rankings::ScopedRankingsBlock node(rankings_); 318 319 int target_size = empty ? 0 : max_size_; 320 for (; list < kListsToSearch; list++) { 321 while ((header_->num_bytes > target_size || test_mode_) && 322 next[list].get()) { 323 // The iterator could be invalidated within EvictEntry(). 324 if (!next[list]->HasData()) 325 break; 326 node.reset(next[list].release()); 327 next[list].reset(rankings_->GetPrev(node.get(), 328 static_cast<Rankings::List>(list))); 329 if (node->Data()->dirty != backend_->GetCurrentEntryId() || empty) { 330 // This entry is not being used by anybody. 331 // Do NOT use node as an iterator after this point. 332 rankings_->TrackRankingsBlock(node.get(), false); 333 if (!EvictEntry(node.get(), empty, static_cast<Rankings::List>(list)) && 334 !test_mode_) 335 continue; 336 337 if (!empty && test_mode_) 338 break; 339 340 if (!empty && (TimeTicks::Now() - start).InMilliseconds() > 20) { 341 MessageLoop::current()->PostTask(FROM_HERE, 342 factory_.NewRunnableMethod(&Eviction::TrimCache, false)); 343 break; 344 } 345 } 346 } 347 if (!empty) 348 list = kListsToSearch; 349 } 350 351 if (empty) { 352 TrimDeleted(true); 353 } else if (header_->lru.sizes[Rankings::DELETED] > header_->num_entries / 4 && 354 !test_mode_) { 355 MessageLoop::current()->PostTask(FROM_HERE, 356 factory_.NewRunnableMethod(&Eviction::TrimDeleted, empty)); 357 } 358 359 if (empty) { 360 CACHE_UMA(AGE_MS, "TotalClearTimeV2", 0, start); 361 } else { 362 CACHE_UMA(AGE_MS, "TotalTrimTimeV2", backend_->GetSizeGroup(), start); 363 } 364 365 Trace("*** Trim Cache end ***"); 366 trimming_ = false; 367 return; 368} 369 370void Eviction::UpdateRankV2(EntryImpl* entry, bool modified) { 371 rankings_->UpdateRank(entry->rankings(), modified, GetListForEntryV2(entry)); 372} 373 374void Eviction::OnOpenEntryV2(EntryImpl* entry) { 375 EntryStore* info = entry->entry()->Data(); 376 DCHECK(ENTRY_NORMAL == info->state); 377 378 if (info->reuse_count < kint32max) { 379 info->reuse_count++; 380 entry->entry()->set_modified(); 381 382 // We may need to move this to a new list. 383 if (1 == info->reuse_count) { 384 rankings_->Remove(entry->rankings(), Rankings::NO_USE, true); 385 rankings_->Insert(entry->rankings(), false, Rankings::LOW_USE); 386 entry->entry()->Store(); 387 } else if (kHighUse == info->reuse_count) { 388 rankings_->Remove(entry->rankings(), Rankings::LOW_USE, true); 389 rankings_->Insert(entry->rankings(), false, Rankings::HIGH_USE); 390 entry->entry()->Store(); 391 } 392 } 393} 394 395void Eviction::OnCreateEntryV2(EntryImpl* entry) { 396 EntryStore* info = entry->entry()->Data(); 397 switch (info->state) { 398 case ENTRY_NORMAL: { 399 DCHECK(!info->reuse_count); 400 DCHECK(!info->refetch_count); 401 break; 402 }; 403 case ENTRY_EVICTED: { 404 if (info->refetch_count < kint32max) 405 info->refetch_count++; 406 407 if (info->refetch_count > kHighUse && info->reuse_count < kHighUse) { 408 info->reuse_count = kHighUse; 409 } else { 410 info->reuse_count++; 411 } 412 info->state = ENTRY_NORMAL; 413 entry->entry()->Store(); 414 rankings_->Remove(entry->rankings(), Rankings::DELETED, true); 415 break; 416 }; 417 default: 418 NOTREACHED(); 419 } 420 421 rankings_->Insert(entry->rankings(), true, GetListForEntryV2(entry)); 422} 423 424void Eviction::OnDoomEntryV2(EntryImpl* entry) { 425 EntryStore* info = entry->entry()->Data(); 426 if (ENTRY_NORMAL != info->state) 427 return; 428 429 if (entry->LeaveRankingsBehind()) { 430 info->state = ENTRY_DOOMED; 431 entry->entry()->Store(); 432 return; 433 } 434 435 rankings_->Remove(entry->rankings(), GetListForEntryV2(entry), true); 436 437 info->state = ENTRY_DOOMED; 438 entry->entry()->Store(); 439 rankings_->Insert(entry->rankings(), true, Rankings::DELETED); 440} 441 442void Eviction::OnDestroyEntryV2(EntryImpl* entry) { 443 if (entry->LeaveRankingsBehind()) 444 return; 445 446 rankings_->Remove(entry->rankings(), Rankings::DELETED, true); 447} 448 449Rankings::List Eviction::GetListForEntryV2(EntryImpl* entry) { 450 EntryStore* info = entry->entry()->Data(); 451 DCHECK(ENTRY_NORMAL == info->state); 452 453 if (!info->reuse_count) 454 return Rankings::NO_USE; 455 456 if (info->reuse_count < kHighUse) 457 return Rankings::LOW_USE; 458 459 return Rankings::HIGH_USE; 460} 461 462// This is a minimal implementation that just discards the oldest nodes. 463// TODO(rvargas): Do something better here. 464void Eviction::TrimDeleted(bool empty) { 465 Trace("*** Trim Deleted ***"); 466 if (backend_->disabled_) 467 return; 468 469 TimeTicks start = TimeTicks::Now(); 470 Rankings::ScopedRankingsBlock node(rankings_); 471 Rankings::ScopedRankingsBlock next(rankings_, 472 rankings_->GetPrev(node.get(), Rankings::DELETED)); 473 bool deleted = false; 474 while (next.get() && 475 (empty || (TimeTicks::Now() - start).InMilliseconds() < 20)) { 476 node.reset(next.release()); 477 next.reset(rankings_->GetPrev(node.get(), Rankings::DELETED)); 478 deleted |= RemoveDeletedNode(node.get()); 479 if (test_mode_) 480 break; 481 } 482 483 // Normally we use 25% for each list. The experiment doubles the number of 484 // deleted entries, so the total number of entries increases by 25%. Using 485 // 40% of that value for deleted entries leaves the size of the other three 486 // lists intact. 487 int max_length = in_experiment_ ? header_->num_entries * 2 / 5 : 488 header_->num_entries / 4; 489 if (deleted && !empty && !test_mode_ && 490 header_->lru.sizes[Rankings::DELETED] > max_length) { 491 MessageLoop::current()->PostTask(FROM_HERE, 492 factory_.NewRunnableMethod(&Eviction::TrimDeleted, false)); 493 } 494 495 CACHE_UMA(AGE_MS, "TotalTrimDeletedTime", 0, start); 496 Trace("*** Trim Deleted end ***"); 497 return; 498} 499 500bool Eviction::RemoveDeletedNode(CacheRankingsBlock* node) { 501 EntryImpl* entry = backend_->GetEnumeratedEntry(node, Rankings::DELETED); 502 if (!entry) { 503 Trace("NewEntry failed on Trim 0x%x", node->address().value()); 504 return false; 505 } 506 507 bool doomed = (entry->entry()->Data()->state == ENTRY_DOOMED); 508 entry->entry()->Data()->state = ENTRY_DOOMED; 509 entry->DoomImpl(); 510 entry->Release(); 511 return !doomed; 512} 513 514bool Eviction::NodeIsOldEnough(CacheRankingsBlock* node, int list) { 515 if (!node) 516 return false; 517 518 // If possible, we want to keep entries on each list at least kTargetTime 519 // hours. Each successive list on the enumeration has 2x the target time of 520 // the previous list. 521 Time used = Time::FromInternalValue(node->Data()->last_used); 522 int multiplier = 1 << list; 523 return (Time::Now() - used).InHours() > kTargetTime * multiplier; 524} 525 526int Eviction::SelectListByLength(Rankings::ScopedRankingsBlock* next) { 527 int data_entries = header_->num_entries - 528 header_->lru.sizes[Rankings::DELETED]; 529 // Start by having each list to be roughly the same size. 530 if (header_->lru.sizes[0] > data_entries / 3) 531 return 0; 532 533 int list = (header_->lru.sizes[1] > data_entries / 3) ? 1 : 2; 534 535 // Make sure that frequently used items are kept for a minimum time; we know 536 // that this entry is not older than its current target, but it must be at 537 // least older than the target for list 0 (kTargetTime), as long as we don't 538 // exhaust list 0. 539 if (!NodeIsOldEnough(next[list].get(), 0) && 540 header_->lru.sizes[0] > data_entries / 10) 541 list = 0; 542 543 return list; 544} 545 546void Eviction::ReportListStats() { 547 if (!new_eviction_) 548 return; 549 550 Rankings::ScopedRankingsBlock last1(rankings_, 551 rankings_->GetPrev(NULL, Rankings::NO_USE)); 552 Rankings::ScopedRankingsBlock last2(rankings_, 553 rankings_->GetPrev(NULL, Rankings::LOW_USE)); 554 Rankings::ScopedRankingsBlock last3(rankings_, 555 rankings_->GetPrev(NULL, Rankings::HIGH_USE)); 556 Rankings::ScopedRankingsBlock last4(rankings_, 557 rankings_->GetPrev(NULL, Rankings::DELETED)); 558 559 if (last1.get()) 560 CACHE_UMA(AGE, "NoUseAge", 0, 561 Time::FromInternalValue(last1.get()->Data()->last_used)); 562 if (last2.get()) 563 CACHE_UMA(AGE, "LowUseAge", 0, 564 Time::FromInternalValue(last2.get()->Data()->last_used)); 565 if (last3.get()) 566 CACHE_UMA(AGE, "HighUseAge", 0, 567 Time::FromInternalValue(last3.get()->Data()->last_used)); 568 if (last4.get()) 569 CACHE_UMA(AGE, "DeletedAge", 0, 570 Time::FromInternalValue(last4.get()->Data()->last_used)); 571} 572 573} // namespace disk_cache 574