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1 // Copyright (c) 2006-2008 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 ads 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/logging.h"
32 #include "base/message_loop.h"
33 #include "base/string_util.h"
34 #include "base/time.h"
35 #include "net/disk_cache/backend_impl.h"
36 #include "net/disk_cache/entry_impl.h"
37 #include "net/disk_cache/histogram_macros.h"
38 #include "net/disk_cache/trace.h"
39 
40 using base::Time;
41 
42 namespace {
43 
44 const int kCleanUpMargin = 1024 * 1024;
45 const int kHighUse = 10;  // Reuse count to be on the HIGH_USE list.
46 const int kTargetTime = 24 * 7;  // Time to be evicted (hours since last use).
47 
LowWaterAdjust(int high_water)48 int LowWaterAdjust(int high_water) {
49   if (high_water < kCleanUpMargin)
50     return 0;
51 
52   return high_water - kCleanUpMargin;
53 }
54 
55 }  // namespace
56 
57 namespace disk_cache {
58 
Init(BackendImpl * backend)59 void Eviction::Init(BackendImpl* backend) {
60   // We grab a bunch of info from the backend to make the code a little cleaner
61   // when we're actually doing work.
62   backend_ = backend;
63   rankings_ = &backend->rankings_;
64   header_ = &backend_->data_->header;
65   max_size_ = LowWaterAdjust(backend_->max_size_);
66   new_eviction_ = backend->new_eviction_;
67   first_trim_ = true;
68   trimming_ = false;
69   delay_trim_ = false;
70 }
71 
TrimCache(bool empty)72 void Eviction::TrimCache(bool empty) {
73   if (new_eviction_)
74     return TrimCacheV2(empty);
75 
76   if (backend_->disabled_ || trimming_)
77     return;
78 
79   if (!empty && backend_->IsLoaded())
80     return PostDelayedTrim();
81 
82   Trace("*** Trim Cache ***");
83   trimming_ = true;
84   Time start = Time::Now();
85   Rankings::ScopedRankingsBlock node(rankings_);
86   Rankings::ScopedRankingsBlock next(rankings_,
87       rankings_->GetPrev(node.get(), Rankings::NO_USE));
88   int target_size = empty ? 0 : max_size_;
89   while (header_->num_bytes > target_size && next.get()) {
90     // The iterator could be invalidated within EvictEntry().
91     if (!next->HasData())
92       break;
93     node.reset(next.release());
94     next.reset(rankings_->GetPrev(node.get(), Rankings::NO_USE));
95     if (node->Data()->dirty != backend_->GetCurrentEntryId() || empty) {
96       // This entry is not being used by anybody.
97       // Do NOT use node as an iterator after this point.
98       rankings_->TrackRankingsBlock(node.get(), false);
99       if (!EvictEntry(node.get(), empty))
100         continue;
101 
102       if (!empty) {
103         backend_->OnEvent(Stats::TRIM_ENTRY);
104 
105         if ((Time::Now() - start).InMilliseconds() > 20) {
106           MessageLoop::current()->PostTask(FROM_HERE,
107               factory_.NewRunnableMethod(&Eviction::TrimCache, false));
108           break;
109         }
110       }
111     }
112   }
113 
114   CACHE_UMA(AGE_MS, "TotalTrimTime", backend_->GetSizeGroup(), start);
115   trimming_ = false;
116   Trace("*** Trim Cache end ***");
117   return;
118 }
119 
UpdateRank(EntryImpl * entry,bool modified)120 void Eviction::UpdateRank(EntryImpl* entry, bool modified) {
121   if (new_eviction_)
122     return UpdateRankV2(entry, modified);
123 
124   rankings_->UpdateRank(entry->rankings(), modified, GetListForEntry(entry));
125 }
126 
OnOpenEntry(EntryImpl * entry)127 void Eviction::OnOpenEntry(EntryImpl* entry) {
128   if (new_eviction_)
129     return OnOpenEntryV2(entry);
130 }
131 
OnCreateEntry(EntryImpl * entry)132 void Eviction::OnCreateEntry(EntryImpl* entry) {
133   if (new_eviction_)
134     return OnCreateEntryV2(entry);
135 
136   rankings_->Insert(entry->rankings(), true, GetListForEntry(entry));
137 }
138 
OnDoomEntry(EntryImpl * entry)139 void Eviction::OnDoomEntry(EntryImpl* entry) {
140   if (new_eviction_)
141     return OnDoomEntryV2(entry);
142 
143   rankings_->Remove(entry->rankings(), GetListForEntry(entry));
144 }
145 
OnDestroyEntry(EntryImpl * entry)146 void Eviction::OnDestroyEntry(EntryImpl* entry) {
147   if (new_eviction_)
148     return OnDestroyEntryV2(entry);
149 }
150 
PostDelayedTrim()151 void Eviction::PostDelayedTrim() {
152   // Prevent posting multiple tasks.
153   if (delay_trim_)
154     return;
155   delay_trim_ = true;
156   MessageLoop::current()->PostDelayedTask(FROM_HERE,
157       factory_.NewRunnableMethod(&Eviction::DelayedTrim), 1000);
158 }
159 
DelayedTrim()160 void Eviction::DelayedTrim() {
161   delay_trim_ = false;
162   TrimCache(false);
163 }
164 
ReportTrimTimes(EntryImpl * entry)165 void Eviction::ReportTrimTimes(EntryImpl* entry) {
166   if (first_trim_) {
167     first_trim_ = false;
168     if (backend_->ShouldReportAgain()) {
169       CACHE_UMA(AGE, "TrimAge", 0, entry->GetLastUsed());
170       ReportListStats();
171     }
172 
173     if (header_->lru.filled)
174       return;
175 
176     header_->lru.filled = 1;
177 
178     if (header_->create_time) {
179       // This is the first entry that we have to evict, generate some noise.
180       backend_->FirstEviction();
181     } else {
182       // This is an old file, but we may want more reports from this user so
183       // lets save some create_time.
184       Time::Exploded old = {0};
185       old.year = 2009;
186       old.month = 3;
187       old.day_of_month = 1;
188       header_->create_time = Time::FromLocalExploded(old).ToInternalValue();
189     }
190   }
191 }
192 
GetListForEntry(EntryImpl * entry)193 Rankings::List Eviction::GetListForEntry(EntryImpl* entry) {
194   return Rankings::NO_USE;
195 }
196 
EvictEntry(CacheRankingsBlock * node,bool empty)197 bool Eviction::EvictEntry(CacheRankingsBlock* node, bool empty) {
198   EntryImpl* entry = backend_->GetEnumeratedEntry(node, true);
199   if (!entry) {
200     Trace("NewEntry failed on Trim 0x%x", node->address().value());
201     return false;
202   }
203 
204   ReportTrimTimes(entry);
205   if (empty || !new_eviction_) {
206     entry->Doom();
207   } else {
208     entry->DeleteEntryData(false);
209     EntryStore* info = entry->entry()->Data();
210     DCHECK(ENTRY_NORMAL == info->state);
211 
212     rankings_->Remove(entry->rankings(), GetListForEntryV2(entry));
213     info->state = ENTRY_EVICTED;
214     entry->entry()->Store();
215     rankings_->Insert(entry->rankings(), true, Rankings::DELETED);
216     backend_->OnEvent(Stats::TRIM_ENTRY);
217   }
218   entry->Release();
219 
220   return true;
221 }
222 
223 // -----------------------------------------------------------------------
224 
TrimCacheV2(bool empty)225 void Eviction::TrimCacheV2(bool empty) {
226   if (backend_->disabled_ || trimming_)
227     return;
228 
229   if (!empty && backend_->IsLoaded())
230     return PostDelayedTrim();
231 
232   Trace("*** Trim Cache ***");
233   trimming_ = true;
234   Time start = Time::Now();
235 
236   const int kListsToSearch = 3;
237   Rankings::ScopedRankingsBlock next[kListsToSearch];
238   int list = Rankings::LAST_ELEMENT;
239 
240   // Get a node from each list.
241   for (int i = 0; i < kListsToSearch; i++) {
242     bool done = false;
243     next[i].set_rankings(rankings_);
244     if (done)
245       continue;
246     next[i].reset(rankings_->GetPrev(NULL, static_cast<Rankings::List>(i)));
247     if (!empty && NodeIsOldEnough(next[i].get(), i)) {
248       list = static_cast<Rankings::List>(i);
249       done = true;
250     }
251   }
252 
253   // If we are not meeting the time targets lets move on to list length.
254   if (!empty && Rankings::LAST_ELEMENT == list) {
255     list = SelectListByLenght();
256     // Make sure that frequently used items are kept for a minimum time; we know
257     // that this entry is not older than its current target, but it must be at
258     // least older than the target for list 0 (kTargetTime).
259     if ((Rankings::HIGH_USE == list || Rankings::LOW_USE == list) &&
260         !NodeIsOldEnough(next[list].get(), 0))
261       list = 0;
262   }
263 
264   if (empty)
265     list = 0;
266 
267   Rankings::ScopedRankingsBlock node(rankings_);
268 
269   int target_size = empty ? 0 : max_size_;
270   for (; list < kListsToSearch; list++) {
271     while (header_->num_bytes > target_size && next[list].get()) {
272       // The iterator could be invalidated within EvictEntry().
273       if (!next[list]->HasData())
274         break;
275       node.reset(next[list].release());
276       next[list].reset(rankings_->GetPrev(node.get(),
277                                           static_cast<Rankings::List>(list)));
278       if (node->Data()->dirty != backend_->GetCurrentEntryId() || empty) {
279         // This entry is not being used by anybody.
280         // Do NOT use node as an iterator after this point.
281         rankings_->TrackRankingsBlock(node.get(), false);
282         if (!EvictEntry(node.get(), empty))
283           continue;
284 
285         if (!empty && (Time::Now() - start).InMilliseconds() > 20) {
286           MessageLoop::current()->PostTask(FROM_HERE,
287               factory_.NewRunnableMethod(&Eviction::TrimCache, false));
288           break;
289         }
290       }
291     }
292     if (!empty)
293       list = kListsToSearch;
294   }
295 
296   if (empty) {
297     TrimDeleted(true);
298   } else if (header_->lru.sizes[Rankings::DELETED] > header_->num_entries / 4) {
299     MessageLoop::current()->PostTask(FROM_HERE,
300         factory_.NewRunnableMethod(&Eviction::TrimDeleted, empty));
301   }
302 
303   CACHE_UMA(AGE_MS, "TotalTrimTime", backend_->GetSizeGroup(), start);
304   Trace("*** Trim Cache end ***");
305   trimming_ = false;
306   return;
307 }
308 
UpdateRankV2(EntryImpl * entry,bool modified)309 void Eviction::UpdateRankV2(EntryImpl* entry, bool modified) {
310   rankings_->UpdateRank(entry->rankings(), modified, GetListForEntryV2(entry));
311 }
312 
OnOpenEntryV2(EntryImpl * entry)313 void Eviction::OnOpenEntryV2(EntryImpl* entry) {
314   EntryStore* info = entry->entry()->Data();
315   DCHECK(ENTRY_NORMAL == info->state);
316 
317   if (info->reuse_count < kint32max) {
318     info->reuse_count++;
319     entry->entry()->set_modified();
320 
321     // We may need to move this to a new list.
322     if (1 == info->reuse_count) {
323       rankings_->Remove(entry->rankings(), Rankings::NO_USE);
324       rankings_->Insert(entry->rankings(), false, Rankings::LOW_USE);
325       entry->entry()->Store();
326     } else if (kHighUse == info->reuse_count) {
327       rankings_->Remove(entry->rankings(), Rankings::LOW_USE);
328       rankings_->Insert(entry->rankings(), false, Rankings::HIGH_USE);
329       entry->entry()->Store();
330     }
331   }
332 }
333 
OnCreateEntryV2(EntryImpl * entry)334 void Eviction::OnCreateEntryV2(EntryImpl* entry) {
335   EntryStore* info = entry->entry()->Data();
336   switch (info->state) {
337     case ENTRY_NORMAL: {
338       DCHECK(!info->reuse_count);
339       DCHECK(!info->refetch_count);
340       break;
341     };
342     case ENTRY_EVICTED: {
343       if (info->refetch_count < kint32max)
344         info->refetch_count++;
345 
346       if (info->refetch_count > kHighUse && info->reuse_count < kHighUse) {
347         info->reuse_count = kHighUse;
348       } else {
349         info->reuse_count++;
350       }
351       info->state = ENTRY_NORMAL;
352       entry->entry()->Store();
353       rankings_->Remove(entry->rankings(), Rankings::DELETED);
354       break;
355     };
356     default:
357       NOTREACHED();
358   }
359 
360   rankings_->Insert(entry->rankings(), true, GetListForEntryV2(entry));
361 }
362 
OnDoomEntryV2(EntryImpl * entry)363 void Eviction::OnDoomEntryV2(EntryImpl* entry) {
364   EntryStore* info = entry->entry()->Data();
365   if (ENTRY_NORMAL != info->state)
366     return;
367 
368   rankings_->Remove(entry->rankings(), GetListForEntryV2(entry));
369 
370   info->state = ENTRY_DOOMED;
371   entry->entry()->Store();
372   rankings_->Insert(entry->rankings(), true, Rankings::DELETED);
373 }
374 
OnDestroyEntryV2(EntryImpl * entry)375 void Eviction::OnDestroyEntryV2(EntryImpl* entry) {
376   rankings_->Remove(entry->rankings(), Rankings::DELETED);
377 }
378 
GetListForEntryV2(EntryImpl * entry)379 Rankings::List Eviction::GetListForEntryV2(EntryImpl* entry) {
380   EntryStore* info = entry->entry()->Data();
381   DCHECK(ENTRY_NORMAL == info->state);
382 
383   if (!info->reuse_count)
384     return Rankings::NO_USE;
385 
386   if (info->reuse_count < kHighUse)
387     return Rankings::LOW_USE;
388 
389   return Rankings::HIGH_USE;
390 }
391 
392 // This is a minimal implementation that just discards the oldest nodes.
393 // TODO(rvargas): Do something better here.
TrimDeleted(bool empty)394 void Eviction::TrimDeleted(bool empty) {
395   Trace("*** Trim Deleted ***");
396   if (backend_->disabled_)
397     return;
398 
399   Time start = Time::Now();
400   Rankings::ScopedRankingsBlock node(rankings_);
401   Rankings::ScopedRankingsBlock next(rankings_,
402     rankings_->GetPrev(node.get(), Rankings::DELETED));
403   for (int i = 0; (i < 4 || empty) && next.get(); i++) {
404     node.reset(next.release());
405     next.reset(rankings_->GetPrev(node.get(), Rankings::DELETED));
406     RemoveDeletedNode(node.get());
407   }
408 
409   if (header_->lru.sizes[Rankings::DELETED] > header_->num_entries / 4)
410     MessageLoop::current()->PostTask(FROM_HERE,
411         factory_.NewRunnableMethod(&Eviction::TrimDeleted, false));
412 
413   CACHE_UMA(AGE_MS, "TotalTrimDeletedTime", 0, start);
414   Trace("*** Trim Deleted end ***");
415   return;
416 }
417 
RemoveDeletedNode(CacheRankingsBlock * node)418 bool Eviction::RemoveDeletedNode(CacheRankingsBlock* node) {
419   EntryImpl* entry;
420   bool dirty;
421   if (backend_->NewEntry(Addr(node->Data()->contents), &entry, &dirty)) {
422     Trace("NewEntry failed on Trim 0x%x", node->address().value());
423     return false;
424   }
425 
426   // TODO(rvargas): figure out how to deal with corruption at this point (dirty
427   // entries that live in this list).
428   if (node->Data()->dirty) {
429     // We ignore the failure; we're removing the entry anyway.
430     entry->Update();
431   }
432   entry->entry()->Data()->state = ENTRY_DOOMED;
433   entry->Doom();
434   entry->Release();
435   return true;
436 }
437 
NodeIsOldEnough(CacheRankingsBlock * node,int list)438 bool Eviction::NodeIsOldEnough(CacheRankingsBlock* node, int list) {
439   if (!node)
440     return false;
441 
442   // If possible, we want to keep entries on each list at least kTargetTime
443   // hours. Each successive list on the enumeration has 2x the target time of
444   // the previous list.
445   Time used = Time::FromInternalValue(node->Data()->last_used);
446   int multiplier = 1 << list;
447   return (Time::Now() - used).InHours() > kTargetTime * multiplier;
448 }
449 
SelectListByLenght()450 int Eviction::SelectListByLenght() {
451   int data_entries = header_->num_entries -
452                      header_->lru.sizes[Rankings::DELETED];
453   // Start by having each list to be roughly the same size.
454   if (header_->lru.sizes[0] > data_entries / 3)
455     return 0;
456   if (header_->lru.sizes[1] > data_entries / 3)
457     return 1;
458   return 2;
459 }
460 
ReportListStats()461 void Eviction::ReportListStats() {
462   if (!new_eviction_)
463     return;
464 
465   Rankings::ScopedRankingsBlock last1(rankings_,
466       rankings_->GetPrev(NULL, Rankings::NO_USE));
467   Rankings::ScopedRankingsBlock last2(rankings_,
468       rankings_->GetPrev(NULL, Rankings::LOW_USE));
469   Rankings::ScopedRankingsBlock last3(rankings_,
470       rankings_->GetPrev(NULL, Rankings::HIGH_USE));
471   Rankings::ScopedRankingsBlock last4(rankings_,
472       rankings_->GetPrev(NULL, Rankings::DELETED));
473 
474   if (last1.get())
475     CACHE_UMA(AGE, "NoUseAge", 0,
476               Time::FromInternalValue(last1.get()->Data()->last_used));
477   if (last2.get())
478     CACHE_UMA(AGE, "LowUseAge", 0,
479               Time::FromInternalValue(last2.get()->Data()->last_used));
480   if (last3.get())
481     CACHE_UMA(AGE, "HighUseAge", 0,
482               Time::FromInternalValue(last3.get()->Data()->last_used));
483   if (last4.get())
484     CACHE_UMA(AGE, "DeletedAge", 0,
485               Time::FromInternalValue(last4.get()->Data()->last_used));
486 }
487 
488 }  // namespace disk_cache
489