Only grant permissions to new extensions from sync if they have the expected version
[chromium-blink-merge.git] / chrome / browser / predictors / resource_prefetch_predictor.cc
blob6327412917523e38d92116fa3fb86123fbd75c40
1 // Copyright 2014 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.
5 #include "chrome/browser/predictors/resource_prefetch_predictor.h"
7 #include <map>
8 #include <set>
9 #include <utility>
11 #include "base/command_line.h"
12 #include "base/metrics/histogram.h"
13 #include "base/metrics/sparse_histogram.h"
14 #include "base/strings/string_number_conversions.h"
15 #include "base/strings/stringprintf.h"
16 #include "base/time/time.h"
17 #include "chrome/browser/history/history_service_factory.h"
18 #include "chrome/browser/predictors/predictor_database.h"
19 #include "chrome/browser/predictors/predictor_database_factory.h"
20 #include "chrome/browser/predictors/resource_prefetcher_manager.h"
21 #include "chrome/browser/profiles/profile.h"
22 #include "chrome/common/chrome_switches.h"
23 #include "chrome/common/url_constants.h"
24 #include "components/history/core/browser/history_database.h"
25 #include "components/history/core/browser/history_db_task.h"
26 #include "components/history/core/browser/history_service.h"
27 #include "components/mime_util/mime_util.h"
28 #include "content/public/browser/browser_thread.h"
29 #include "content/public/browser/navigation_controller.h"
30 #include "content/public/browser/resource_request_info.h"
31 #include "content/public/browser/web_contents.h"
32 #include "net/base/mime_util.h"
33 #include "net/base/network_change_notifier.h"
34 #include "net/http/http_response_headers.h"
35 #include "net/url_request/url_request.h"
36 #include "net/url_request/url_request_context_getter.h"
38 using content::BrowserThread;
40 namespace {
42 // For reporting whether a subresource is handled or not, and for what reasons.
43 enum ResourceStatus {
44 RESOURCE_STATUS_HANDLED = 0,
45 RESOURCE_STATUS_NOT_HTTP_PAGE = 1,
46 RESOURCE_STATUS_NOT_HTTP_RESOURCE = 2,
47 RESOURCE_STATUS_UNSUPPORTED_MIME_TYPE = 4,
48 RESOURCE_STATUS_NOT_GET = 8,
49 RESOURCE_STATUS_URL_TOO_LONG = 16,
50 RESOURCE_STATUS_NOT_CACHEABLE = 32,
51 RESOURCE_STATUS_HEADERS_MISSING = 64,
52 RESOURCE_STATUS_MAX = 128,
55 // For reporting various interesting events that occur during the loading of a
56 // single main frame.
57 enum NavigationEvent {
58 NAVIGATION_EVENT_REQUEST_STARTED = 0,
59 NAVIGATION_EVENT_REQUEST_REDIRECTED = 1,
60 NAVIGATION_EVENT_REQUEST_REDIRECTED_EMPTY_URL = 2,
61 NAVIGATION_EVENT_REQUEST_EXPIRED = 3,
62 NAVIGATION_EVENT_RESPONSE_STARTED = 4,
63 NAVIGATION_EVENT_ONLOAD = 5,
64 NAVIGATION_EVENT_ONLOAD_EMPTY_URL = 6,
65 NAVIGATION_EVENT_ONLOAD_UNTRACKED_URL = 7,
66 NAVIGATION_EVENT_ONLOAD_TRACKED_URL = 8,
67 NAVIGATION_EVENT_SHOULD_TRACK_URL = 9,
68 NAVIGATION_EVENT_SHOULD_NOT_TRACK_URL = 10,
69 NAVIGATION_EVENT_URL_TABLE_FULL = 11,
70 NAVIGATION_EVENT_HAVE_PREDICTIONS_FOR_URL = 12,
71 NAVIGATION_EVENT_NO_PREDICTIONS_FOR_URL = 13,
72 NAVIGATION_EVENT_MAIN_FRAME_URL_TOO_LONG = 14,
73 NAVIGATION_EVENT_HOST_TOO_LONG = 15,
74 NAVIGATION_EVENT_COUNT = 16,
77 // For reporting events of interest that are not tied to any navigation.
78 enum ReportingEvent {
79 REPORTING_EVENT_ALL_HISTORY_CLEARED = 0,
80 REPORTING_EVENT_PARTIAL_HISTORY_CLEARED = 1,
81 REPORTING_EVENT_COUNT = 2
84 void RecordNavigationEvent(NavigationEvent event) {
85 UMA_HISTOGRAM_ENUMERATION("ResourcePrefetchPredictor.NavigationEvent",
86 event,
87 NAVIGATION_EVENT_COUNT);
90 // These are additional connection types for
91 // net::NetworkChangeNotifier::ConnectionType. They have negative values in case
92 // the original network connection types expand.
93 enum AdditionalConnectionType {
94 CONNECTION_ALL = -2,
95 CONNECTION_CELLULAR = -1
98 std::string GetNetTypeStr() {
99 switch (net::NetworkChangeNotifier::GetConnectionType()) {
100 case net::NetworkChangeNotifier::CONNECTION_ETHERNET:
101 return "Ethernet";
102 case net::NetworkChangeNotifier::CONNECTION_WIFI:
103 return "WiFi";
104 case net::NetworkChangeNotifier::CONNECTION_2G:
105 return "2G";
106 case net::NetworkChangeNotifier::CONNECTION_3G:
107 return "3G";
108 case net::NetworkChangeNotifier::CONNECTION_4G:
109 return "4G";
110 case net::NetworkChangeNotifier::CONNECTION_NONE:
111 return "None";
112 case net::NetworkChangeNotifier::CONNECTION_BLUETOOTH:
113 return "Bluetooth";
114 case net::NetworkChangeNotifier::CONNECTION_UNKNOWN:
115 default:
116 break;
118 return "Unknown";
121 void ReportPrefetchedNetworkType(int type) {
122 UMA_HISTOGRAM_SPARSE_SLOWLY(
123 "ResourcePrefetchPredictor.NetworkType.Prefetched",
124 type);
127 void ReportNotPrefetchedNetworkType(int type) {
128 UMA_HISTOGRAM_SPARSE_SLOWLY(
129 "ResourcePrefetchPredictor.NetworkType.NotPrefetched",
130 type);
133 } // namespace
135 namespace predictors {
137 ////////////////////////////////////////////////////////////////////////////////
138 // History lookup task.
140 // Used to fetch the visit count for a URL from the History database.
141 class GetUrlVisitCountTask : public history::HistoryDBTask {
142 public:
143 typedef ResourcePrefetchPredictor::URLRequestSummary URLRequestSummary;
144 typedef base::Callback<void(
145 size_t, // Visit count.
146 const NavigationID&,
147 const std::vector<URLRequestSummary>&)> VisitInfoCallback;
149 GetUrlVisitCountTask(
150 const NavigationID& navigation_id,
151 std::vector<URLRequestSummary>* requests,
152 VisitInfoCallback callback)
153 : visit_count_(0),
154 navigation_id_(navigation_id),
155 requests_(requests),
156 callback_(callback) {
157 DCHECK(requests_.get());
160 bool RunOnDBThread(history::HistoryBackend* backend,
161 history::HistoryDatabase* db) override {
162 history::URLRow url_row;
163 if (db->GetRowForURL(navigation_id_.main_frame_url, &url_row))
164 visit_count_ = url_row.visit_count();
165 return true;
168 void DoneRunOnMainThread() override {
169 callback_.Run(visit_count_, navigation_id_, *requests_);
172 private:
173 ~GetUrlVisitCountTask() override {}
175 int visit_count_;
176 NavigationID navigation_id_;
177 scoped_ptr<std::vector<URLRequestSummary> > requests_;
178 VisitInfoCallback callback_;
180 DISALLOW_COPY_AND_ASSIGN(GetUrlVisitCountTask);
183 ////////////////////////////////////////////////////////////////////////////////
184 // ResourcePrefetchPredictor static functions.
186 // static
187 bool ResourcePrefetchPredictor::ShouldRecordRequest(
188 net::URLRequest* request,
189 content::ResourceType resource_type) {
190 const content::ResourceRequestInfo* request_info =
191 content::ResourceRequestInfo::ForRequest(request);
192 if (!request_info)
193 return false;
195 if (!request_info->IsMainFrame())
196 return false;
198 return resource_type == content::RESOURCE_TYPE_MAIN_FRAME &&
199 IsHandledMainPage(request);
202 // static
203 bool ResourcePrefetchPredictor::ShouldRecordResponse(
204 net::URLRequest* response) {
205 const content::ResourceRequestInfo* request_info =
206 content::ResourceRequestInfo::ForRequest(response);
207 if (!request_info)
208 return false;
210 if (!request_info->IsMainFrame())
211 return false;
213 return request_info->GetResourceType() == content::RESOURCE_TYPE_MAIN_FRAME ?
214 IsHandledMainPage(response) : IsHandledSubresource(response);
217 // static
218 bool ResourcePrefetchPredictor::ShouldRecordRedirect(
219 net::URLRequest* response) {
220 const content::ResourceRequestInfo* request_info =
221 content::ResourceRequestInfo::ForRequest(response);
222 if (!request_info)
223 return false;
225 if (!request_info->IsMainFrame())
226 return false;
228 return request_info->GetResourceType() == content::RESOURCE_TYPE_MAIN_FRAME &&
229 IsHandledMainPage(response);
232 // static
233 bool ResourcePrefetchPredictor::IsHandledMainPage(net::URLRequest* request) {
234 return request->original_url().scheme() == url::kHttpScheme;
237 // static
238 bool ResourcePrefetchPredictor::IsHandledSubresource(
239 net::URLRequest* response) {
240 int resource_status = 0;
241 if (response->first_party_for_cookies().scheme() != url::kHttpScheme)
242 resource_status |= RESOURCE_STATUS_NOT_HTTP_PAGE;
244 if (response->original_url().scheme() != url::kHttpScheme)
245 resource_status |= RESOURCE_STATUS_NOT_HTTP_RESOURCE;
247 std::string mime_type;
248 response->GetMimeType(&mime_type);
249 if (!mime_type.empty() && !mime_util::IsSupportedImageMimeType(mime_type) &&
250 !mime_util::IsSupportedJavascriptMimeType(mime_type) &&
251 !net::MatchesMimeType("text/css", mime_type)) {
252 resource_status |= RESOURCE_STATUS_UNSUPPORTED_MIME_TYPE;
255 if (response->method() != "GET")
256 resource_status |= RESOURCE_STATUS_NOT_GET;
258 if (response->original_url().spec().length() >
259 ResourcePrefetchPredictorTables::kMaxStringLength) {
260 resource_status |= RESOURCE_STATUS_URL_TOO_LONG;
263 if (!response->response_info().headers.get())
264 resource_status |= RESOURCE_STATUS_HEADERS_MISSING;
266 if (!IsCacheable(response))
267 resource_status |= RESOURCE_STATUS_NOT_CACHEABLE;
269 UMA_HISTOGRAM_ENUMERATION("ResourcePrefetchPredictor.ResourceStatus",
270 resource_status,
271 RESOURCE_STATUS_MAX);
273 return resource_status == 0;
276 // static
277 bool ResourcePrefetchPredictor::IsCacheable(const net::URLRequest* response) {
278 if (response->was_cached())
279 return true;
281 // For non cached responses, we will ensure that the freshness lifetime is
282 // some sane value.
283 const net::HttpResponseInfo& response_info = response->response_info();
284 if (!response_info.headers.get())
285 return false;
286 base::Time response_time(response_info.response_time);
287 response_time += base::TimeDelta::FromSeconds(1);
288 base::TimeDelta freshness =
289 response_info.headers->GetFreshnessLifetimes(response_time).freshness;
290 return freshness > base::TimeDelta();
293 // static
294 content::ResourceType ResourcePrefetchPredictor::GetResourceTypeFromMimeType(
295 const std::string& mime_type,
296 content::ResourceType fallback) {
297 if (mime_util::IsSupportedImageMimeType(mime_type))
298 return content::RESOURCE_TYPE_IMAGE;
299 else if (mime_util::IsSupportedJavascriptMimeType(mime_type))
300 return content::RESOURCE_TYPE_SCRIPT;
301 else if (net::MatchesMimeType("text/css", mime_type))
302 return content::RESOURCE_TYPE_STYLESHEET;
303 else
304 return fallback;
307 ////////////////////////////////////////////////////////////////////////////////
308 // ResourcePrefetchPredictor structs.
310 ResourcePrefetchPredictor::URLRequestSummary::URLRequestSummary()
311 : resource_type(content::RESOURCE_TYPE_LAST_TYPE),
312 was_cached(false) {
315 ResourcePrefetchPredictor::URLRequestSummary::URLRequestSummary(
316 const URLRequestSummary& other)
317 : navigation_id(other.navigation_id),
318 resource_url(other.resource_url),
319 resource_type(other.resource_type),
320 mime_type(other.mime_type),
321 was_cached(other.was_cached),
322 redirect_url(other.redirect_url) {
325 ResourcePrefetchPredictor::URLRequestSummary::~URLRequestSummary() {
328 ResourcePrefetchPredictor::Result::Result(
329 PrefetchKeyType i_key_type,
330 ResourcePrefetcher::RequestVector* i_requests)
331 : key_type(i_key_type),
332 requests(i_requests) {
335 ResourcePrefetchPredictor::Result::~Result() {
338 ////////////////////////////////////////////////////////////////////////////////
339 // ResourcePrefetchPredictor.
341 ResourcePrefetchPredictor::ResourcePrefetchPredictor(
342 const ResourcePrefetchPredictorConfig& config,
343 Profile* profile)
344 : profile_(profile),
345 config_(config),
346 initialization_state_(NOT_INITIALIZED),
347 tables_(PredictorDatabaseFactory::GetForProfile(profile)
348 ->resource_prefetch_tables()),
349 history_service_observer_(this) {
350 DCHECK_CURRENTLY_ON(BrowserThread::UI);
352 // Some form of learning has to be enabled.
353 DCHECK(config_.IsLearningEnabled());
354 if (config_.IsURLPrefetchingEnabled(profile_))
355 DCHECK(config_.IsURLLearningEnabled());
356 if (config_.IsHostPrefetchingEnabled(profile_))
357 DCHECK(config_.IsHostLearningEnabled());
360 ResourcePrefetchPredictor::~ResourcePrefetchPredictor() {
363 void ResourcePrefetchPredictor::RecordURLRequest(
364 const URLRequestSummary& request) {
365 DCHECK_CURRENTLY_ON(BrowserThread::UI);
366 if (initialization_state_ != INITIALIZED)
367 return;
369 CHECK_EQ(request.resource_type, content::RESOURCE_TYPE_MAIN_FRAME);
370 OnMainFrameRequest(request);
373 void ResourcePrefetchPredictor::RecordURLResponse(
374 const URLRequestSummary& response) {
375 DCHECK_CURRENTLY_ON(BrowserThread::UI);
376 if (initialization_state_ != INITIALIZED)
377 return;
379 if (response.resource_type == content::RESOURCE_TYPE_MAIN_FRAME)
380 OnMainFrameResponse(response);
381 else
382 OnSubresourceResponse(response);
385 void ResourcePrefetchPredictor::RecordURLRedirect(
386 const URLRequestSummary& response) {
387 DCHECK_CURRENTLY_ON(BrowserThread::UI);
388 if (initialization_state_ != INITIALIZED)
389 return;
391 CHECK_EQ(response.resource_type, content::RESOURCE_TYPE_MAIN_FRAME);
392 OnMainFrameRedirect(response);
395 void ResourcePrefetchPredictor::RecordMainFrameLoadComplete(
396 const NavigationID& navigation_id) {
397 switch (initialization_state_) {
398 case NOT_INITIALIZED:
399 StartInitialization();
400 break;
401 case INITIALIZING:
402 break;
403 case INITIALIZED: {
404 RecordNavigationEvent(NAVIGATION_EVENT_ONLOAD);
405 // WebContents can return an empty URL if the navigation entry
406 // corresponding to the navigation has not been created yet.
407 if (navigation_id.main_frame_url.is_empty())
408 RecordNavigationEvent(NAVIGATION_EVENT_ONLOAD_EMPTY_URL);
409 else
410 OnNavigationComplete(navigation_id);
411 break;
413 default:
414 NOTREACHED() << "Unexpected initialization_state_: "
415 << initialization_state_;
419 void ResourcePrefetchPredictor::FinishedPrefetchForNavigation(
420 const NavigationID& navigation_id,
421 PrefetchKeyType key_type,
422 ResourcePrefetcher::RequestVector* requests) {
423 DCHECK_CURRENTLY_ON(BrowserThread::UI);
425 scoped_ptr<Result> result(new Result(key_type, requests));
426 // Add the results to the results map.
427 if (!results_map_.insert(navigation_id, result.Pass()).second)
428 DLOG(FATAL) << "Returning results for existing navigation.";
431 void ResourcePrefetchPredictor::Shutdown() {
432 if (prefetch_manager_.get()) {
433 prefetch_manager_->ShutdownOnUIThread();
434 prefetch_manager_ = NULL;
436 history_service_observer_.RemoveAll();
439 void ResourcePrefetchPredictor::OnMainFrameRequest(
440 const URLRequestSummary& request) {
441 DCHECK_CURRENTLY_ON(BrowserThread::UI);
442 DCHECK_EQ(INITIALIZED, initialization_state_);
444 RecordNavigationEvent(NAVIGATION_EVENT_REQUEST_STARTED);
446 StartPrefetching(request.navigation_id);
448 // Cleanup older navigations.
449 CleanupAbandonedNavigations(request.navigation_id);
451 // New empty navigation entry.
452 inflight_navigations_.insert(std::make_pair(
453 request.navigation_id,
454 make_linked_ptr(new std::vector<URLRequestSummary>())));
457 void ResourcePrefetchPredictor::OnMainFrameResponse(
458 const URLRequestSummary& response) {
459 DCHECK_CURRENTLY_ON(BrowserThread::UI);
460 if (initialization_state_ != INITIALIZED)
461 return;
463 RecordNavigationEvent(NAVIGATION_EVENT_RESPONSE_STARTED);
465 StopPrefetching(response.navigation_id);
468 void ResourcePrefetchPredictor::OnMainFrameRedirect(
469 const URLRequestSummary& response) {
470 DCHECK_CURRENTLY_ON(BrowserThread::UI);
472 RecordNavigationEvent(NAVIGATION_EVENT_REQUEST_REDIRECTED);
474 // TODO(shishir): There are significant gains to be had here if we can use the
475 // start URL in a redirect chain as the key to start prefetching. We can save
476 // of redirect times considerably assuming that the redirect chains do not
477 // change.
479 // Stop any inflight prefetching. Remove the older navigation.
480 StopPrefetching(response.navigation_id);
481 inflight_navigations_.erase(response.navigation_id);
483 // A redirect will not lead to another OnMainFrameRequest call, so record the
484 // redirect url as a new navigation.
486 // The redirect url may be empty if the url was invalid.
487 if (response.redirect_url.is_empty()) {
488 RecordNavigationEvent(NAVIGATION_EVENT_REQUEST_REDIRECTED_EMPTY_URL);
489 return;
492 NavigationID navigation_id(response.navigation_id);
493 navigation_id.main_frame_url = response.redirect_url;
494 inflight_navigations_.insert(std::make_pair(
495 navigation_id,
496 make_linked_ptr(new std::vector<URLRequestSummary>())));
499 void ResourcePrefetchPredictor::OnSubresourceResponse(
500 const URLRequestSummary& response) {
501 DCHECK_CURRENTLY_ON(BrowserThread::UI);
503 NavigationMap::const_iterator nav_it =
504 inflight_navigations_.find(response.navigation_id);
505 if (nav_it == inflight_navigations_.end()) {
506 return;
509 nav_it->second->push_back(response);
512 base::TimeDelta ResourcePrefetchPredictor::OnNavigationComplete(
513 const NavigationID& nav_id_without_timing_info) {
514 DCHECK_CURRENTLY_ON(BrowserThread::UI);
516 NavigationMap::iterator nav_it =
517 inflight_navigations_.find(nav_id_without_timing_info);
518 if (nav_it == inflight_navigations_.end()) {
519 RecordNavigationEvent(NAVIGATION_EVENT_ONLOAD_UNTRACKED_URL);
520 return base::TimeDelta();
522 RecordNavigationEvent(NAVIGATION_EVENT_ONLOAD_TRACKED_URL);
524 // Get and use the navigation ID stored in |inflight_navigations_| because it
525 // has the timing infomation.
526 const NavigationID navigation_id(nav_it->first);
528 // Report any stats.
529 base::TimeDelta plt = base::TimeTicks::Now() - navigation_id.creation_time;
530 ReportPageLoadTimeStats(plt);
531 if (prefetch_manager_.get()) {
532 ResultsMap::const_iterator results_it = results_map_.find(navigation_id);
533 bool have_prefetch_results = results_it != results_map_.end();
534 UMA_HISTOGRAM_BOOLEAN("ResourcePrefetchPredictor.HavePrefetchResults",
535 have_prefetch_results);
536 if (have_prefetch_results) {
537 ReportAccuracyStats(results_it->second->key_type,
538 *(nav_it->second),
539 results_it->second->requests.get());
540 ReportPageLoadTimePrefetchStats(
541 plt,
542 true,
543 base::Bind(&ReportPrefetchedNetworkType),
544 results_it->second->key_type);
545 } else {
546 ReportPageLoadTimePrefetchStats(
547 plt,
548 false,
549 base::Bind(&ReportNotPrefetchedNetworkType),
550 PREFETCH_KEY_TYPE_URL);
552 } else {
553 scoped_ptr<ResourcePrefetcher::RequestVector> requests(
554 new ResourcePrefetcher::RequestVector);
555 PrefetchKeyType key_type;
556 if (GetPrefetchData(navigation_id, requests.get(), &key_type)) {
557 RecordNavigationEvent(NAVIGATION_EVENT_HAVE_PREDICTIONS_FOR_URL);
558 ReportPredictedAccuracyStats(key_type,
559 *(nav_it->second),
560 *requests);
561 } else {
562 RecordNavigationEvent(NAVIGATION_EVENT_NO_PREDICTIONS_FOR_URL);
566 // Remove the navigation from the inflight navigations.
567 std::vector<URLRequestSummary>* requests = (nav_it->second).release();
568 inflight_navigations_.erase(nav_it);
570 // Kick off history lookup to determine if we should record the URL.
571 history::HistoryService* history_service =
572 HistoryServiceFactory::GetForProfile(profile_,
573 ServiceAccessType::EXPLICIT_ACCESS);
574 DCHECK(history_service);
575 history_service->ScheduleDBTask(
576 scoped_ptr<history::HistoryDBTask>(
577 new GetUrlVisitCountTask(
578 navigation_id,
579 requests,
580 base::Bind(&ResourcePrefetchPredictor::OnVisitCountLookup,
581 AsWeakPtr()))),
582 &history_lookup_consumer_);
584 return plt;
587 bool ResourcePrefetchPredictor::GetPrefetchData(
588 const NavigationID& navigation_id,
589 ResourcePrefetcher::RequestVector* prefetch_requests,
590 PrefetchKeyType* key_type) {
591 DCHECK(prefetch_requests);
592 DCHECK(key_type);
594 *key_type = PREFETCH_KEY_TYPE_URL;
595 const GURL& main_frame_url = navigation_id.main_frame_url;
597 bool use_url_data = config_.IsPrefetchingEnabled(profile_) ?
598 config_.IsURLPrefetchingEnabled(profile_) :
599 config_.IsURLLearningEnabled();
600 if (use_url_data) {
601 PrefetchDataMap::const_iterator iterator =
602 url_table_cache_->find(main_frame_url.spec());
603 if (iterator != url_table_cache_->end())
604 PopulatePrefetcherRequest(iterator->second, prefetch_requests);
606 if (!prefetch_requests->empty())
607 return true;
609 bool use_host_data = config_.IsPrefetchingEnabled(profile_) ?
610 config_.IsHostPrefetchingEnabled(profile_) :
611 config_.IsHostLearningEnabled();
612 if (use_host_data) {
613 PrefetchDataMap::const_iterator iterator =
614 host_table_cache_->find(main_frame_url.host());
615 if (iterator != host_table_cache_->end()) {
616 *key_type = PREFETCH_KEY_TYPE_HOST;
617 PopulatePrefetcherRequest(iterator->second, prefetch_requests);
621 return !prefetch_requests->empty();
624 void ResourcePrefetchPredictor::PopulatePrefetcherRequest(
625 const PrefetchData& data,
626 ResourcePrefetcher::RequestVector* requests) {
627 for (ResourceRows::const_iterator it = data.resources.begin();
628 it != data.resources.end(); ++it) {
629 float confidence = static_cast<float>(it->number_of_hits) /
630 (it->number_of_hits + it->number_of_misses);
631 if (confidence < config_.min_resource_confidence_to_trigger_prefetch ||
632 it->number_of_hits < config_.min_resource_hits_to_trigger_prefetch) {
633 continue;
636 ResourcePrefetcher::Request* req = new ResourcePrefetcher::Request(
637 it->resource_url);
638 requests->push_back(req);
642 void ResourcePrefetchPredictor::StartPrefetching(
643 const NavigationID& navigation_id) {
644 if (!prefetch_manager_.get()) // Prefetching not enabled.
645 return;
647 // Prefer URL based data first.
648 scoped_ptr<ResourcePrefetcher::RequestVector> requests(
649 new ResourcePrefetcher::RequestVector);
650 PrefetchKeyType key_type;
651 if (!GetPrefetchData(navigation_id, requests.get(), &key_type)) {
652 // No prefetching data at host or URL level.
653 return;
656 BrowserThread::PostTask(BrowserThread::IO, FROM_HERE,
657 base::Bind(&ResourcePrefetcherManager::MaybeAddPrefetch,
658 prefetch_manager_,
659 navigation_id,
660 key_type,
661 base::Passed(&requests)));
664 void ResourcePrefetchPredictor::StopPrefetching(
665 const NavigationID& navigation_id) {
666 if (!prefetch_manager_.get()) // Not enabled.
667 return;
669 BrowserThread::PostTask(
670 BrowserThread::IO, FROM_HERE,
671 base::Bind(&ResourcePrefetcherManager::MaybeRemovePrefetch,
672 prefetch_manager_,
673 navigation_id));
676 void ResourcePrefetchPredictor::StartInitialization() {
677 DCHECK_CURRENTLY_ON(BrowserThread::UI);
679 DCHECK_EQ(NOT_INITIALIZED, initialization_state_);
680 initialization_state_ = INITIALIZING;
682 // Create local caches using the database as loaded.
683 scoped_ptr<PrefetchDataMap> url_data_map(new PrefetchDataMap());
684 scoped_ptr<PrefetchDataMap> host_data_map(new PrefetchDataMap());
685 PrefetchDataMap* url_data_ptr = url_data_map.get();
686 PrefetchDataMap* host_data_ptr = host_data_map.get();
688 BrowserThread::PostTaskAndReply(
689 BrowserThread::DB, FROM_HERE,
690 base::Bind(&ResourcePrefetchPredictorTables::GetAllData,
691 tables_, url_data_ptr, host_data_ptr),
692 base::Bind(&ResourcePrefetchPredictor::CreateCaches, AsWeakPtr(),
693 base::Passed(&url_data_map), base::Passed(&host_data_map)));
696 void ResourcePrefetchPredictor::CreateCaches(
697 scoped_ptr<PrefetchDataMap> url_data_map,
698 scoped_ptr<PrefetchDataMap> host_data_map) {
699 DCHECK_CURRENTLY_ON(BrowserThread::UI);
701 DCHECK_EQ(INITIALIZING, initialization_state_);
702 DCHECK(!url_table_cache_);
703 DCHECK(!host_table_cache_);
704 DCHECK(inflight_navigations_.empty());
706 url_table_cache_.reset(url_data_map.release());
707 host_table_cache_.reset(host_data_map.release());
709 UMA_HISTOGRAM_COUNTS("ResourcePrefetchPredictor.UrlTableMainFrameUrlCount",
710 url_table_cache_->size());
711 UMA_HISTOGRAM_COUNTS("ResourcePrefetchPredictor.HostTableHostCount",
712 host_table_cache_->size());
714 ConnectToHistoryService();
717 void ResourcePrefetchPredictor::OnHistoryAndCacheLoaded() {
718 DCHECK_CURRENTLY_ON(BrowserThread::UI);
719 DCHECK_EQ(INITIALIZING, initialization_state_);
721 // Initialize the prefetch manager only if prefetching is enabled.
722 if (config_.IsPrefetchingEnabled(profile_)) {
723 prefetch_manager_ = new ResourcePrefetcherManager(
724 this, config_, profile_->GetRequestContext());
726 initialization_state_ = INITIALIZED;
729 void ResourcePrefetchPredictor::CleanupAbandonedNavigations(
730 const NavigationID& navigation_id) {
731 static const base::TimeDelta max_navigation_age =
732 base::TimeDelta::FromSeconds(config_.max_navigation_lifetime_seconds);
734 base::TimeTicks time_now = base::TimeTicks::Now();
735 for (NavigationMap::iterator it = inflight_navigations_.begin();
736 it != inflight_navigations_.end();) {
737 if (it->first.IsSameRenderer(navigation_id) ||
738 (time_now - it->first.creation_time > max_navigation_age)) {
739 inflight_navigations_.erase(it++);
740 RecordNavigationEvent(NAVIGATION_EVENT_REQUEST_EXPIRED);
741 } else {
742 ++it;
745 for (ResultsMap::const_iterator it = results_map_.begin();
746 it != results_map_.end();) {
747 if (it->first.IsSameRenderer(navigation_id) ||
748 (time_now - it->first.creation_time > max_navigation_age)) {
749 results_map_.erase(it++);
750 } else {
751 ++it;
756 void ResourcePrefetchPredictor::DeleteAllUrls() {
757 inflight_navigations_.clear();
758 url_table_cache_->clear();
759 host_table_cache_->clear();
761 BrowserThread::PostTask(BrowserThread::DB, FROM_HERE,
762 base::Bind(&ResourcePrefetchPredictorTables::DeleteAllData, tables_));
765 void ResourcePrefetchPredictor::DeleteUrls(const history::URLRows& urls) {
766 // Check all the urls in the database and pick out the ones that are present
767 // in the cache.
768 std::vector<std::string> urls_to_delete, hosts_to_delete;
770 for (const auto& it : urls) {
771 const std::string& url_spec = it.url().spec();
772 if (url_table_cache_->find(url_spec) != url_table_cache_->end()) {
773 urls_to_delete.push_back(url_spec);
774 url_table_cache_->erase(url_spec);
777 const std::string& host = it.url().host();
778 if (host_table_cache_->find(host) != host_table_cache_->end()) {
779 hosts_to_delete.push_back(host);
780 host_table_cache_->erase(host);
784 if (!urls_to_delete.empty() || !hosts_to_delete.empty()) {
785 BrowserThread::PostTask(BrowserThread::DB, FROM_HERE,
786 base::Bind(&ResourcePrefetchPredictorTables::DeleteData,
787 tables_,
788 urls_to_delete,
789 hosts_to_delete));
793 void ResourcePrefetchPredictor::RemoveOldestEntryInPrefetchDataMap(
794 PrefetchKeyType key_type,
795 PrefetchDataMap* data_map) {
796 if (data_map->empty())
797 return;
799 base::Time oldest_time;
800 std::string key_to_delete;
801 for (PrefetchDataMap::iterator it = data_map->begin();
802 it != data_map->end(); ++it) {
803 if (key_to_delete.empty() || it->second.last_visit < oldest_time) {
804 key_to_delete = it->first;
805 oldest_time = it->second.last_visit;
809 data_map->erase(key_to_delete);
810 BrowserThread::PostTask(BrowserThread::DB, FROM_HERE,
811 base::Bind(&ResourcePrefetchPredictorTables::DeleteSingleDataPoint,
812 tables_,
813 key_to_delete,
814 key_type));
817 void ResourcePrefetchPredictor::OnVisitCountLookup(
818 size_t visit_count,
819 const NavigationID& navigation_id,
820 const std::vector<URLRequestSummary>& requests) {
821 DCHECK_CURRENTLY_ON(BrowserThread::UI);
823 UMA_HISTOGRAM_COUNTS("ResourcePrefetchPredictor.HistoryVisitCountForUrl",
824 visit_count);
826 // URL level data - merge only if we are already saving the data, or we it
827 // meets the cutoff requirement.
828 const std::string url_spec = navigation_id.main_frame_url.spec();
829 bool already_tracking = url_table_cache_->find(url_spec) !=
830 url_table_cache_->end();
831 bool should_track_url = already_tracking ||
832 (visit_count >= config_.min_url_visit_count);
834 if (should_track_url) {
835 RecordNavigationEvent(NAVIGATION_EVENT_SHOULD_TRACK_URL);
837 if (config_.IsURLLearningEnabled()) {
838 LearnNavigation(url_spec, PREFETCH_KEY_TYPE_URL, requests,
839 config_.max_urls_to_track, url_table_cache_.get());
841 } else {
842 RecordNavigationEvent(NAVIGATION_EVENT_SHOULD_NOT_TRACK_URL);
845 // Host level data - no cutoff, always learn the navigation if enabled.
846 if (config_.IsHostLearningEnabled()) {
847 LearnNavigation(navigation_id.main_frame_url.host(),
848 PREFETCH_KEY_TYPE_HOST,
849 requests,
850 config_.max_hosts_to_track,
851 host_table_cache_.get());
854 // Remove the navigation from the results map.
855 results_map_.erase(navigation_id);
858 void ResourcePrefetchPredictor::LearnNavigation(
859 const std::string& key,
860 PrefetchKeyType key_type,
861 const std::vector<URLRequestSummary>& new_resources,
862 size_t max_data_map_size,
863 PrefetchDataMap* data_map) {
864 DCHECK_CURRENTLY_ON(BrowserThread::UI);
866 // If the primary key is too long reject it.
867 if (key.length() > ResourcePrefetchPredictorTables::kMaxStringLength) {
868 if (key_type == PREFETCH_KEY_TYPE_HOST)
869 RecordNavigationEvent(NAVIGATION_EVENT_HOST_TOO_LONG);
870 else
871 RecordNavigationEvent(NAVIGATION_EVENT_MAIN_FRAME_URL_TOO_LONG);
872 return;
875 PrefetchDataMap::iterator cache_entry = data_map->find(key);
876 if (cache_entry == data_map->end()) {
877 if (data_map->size() >= max_data_map_size) {
878 // The table is full, delete an entry.
879 RemoveOldestEntryInPrefetchDataMap(key_type, data_map);
882 cache_entry = data_map->insert(std::make_pair(
883 key, PrefetchData(key_type, key))).first;
884 cache_entry->second.last_visit = base::Time::Now();
885 size_t new_resources_size = new_resources.size();
886 std::set<GURL> resources_seen;
887 for (size_t i = 0; i < new_resources_size; ++i) {
888 if (resources_seen.find(new_resources[i].resource_url) !=
889 resources_seen.end()) {
890 continue;
892 ResourceRow row_to_add;
893 row_to_add.resource_url = new_resources[i].resource_url;
894 row_to_add.resource_type = new_resources[i].resource_type;
895 row_to_add.number_of_hits = 1;
896 row_to_add.average_position = i + 1;
897 cache_entry->second.resources.push_back(row_to_add);
898 resources_seen.insert(new_resources[i].resource_url);
900 } else {
901 ResourceRows& old_resources = cache_entry->second.resources;
902 cache_entry->second.last_visit = base::Time::Now();
904 // Build indices over the data.
905 std::map<GURL, int> new_index, old_index;
906 int new_resources_size = static_cast<int>(new_resources.size());
907 for (int i = 0; i < new_resources_size; ++i) {
908 const URLRequestSummary& summary = new_resources[i];
909 // Take the first occurence of every url.
910 if (new_index.find(summary.resource_url) == new_index.end())
911 new_index[summary.resource_url] = i;
913 int old_resources_size = static_cast<int>(old_resources.size());
914 for (int i = 0; i < old_resources_size; ++i) {
915 const ResourceRow& row = old_resources[i];
916 DCHECK(old_index.find(row.resource_url) == old_index.end());
917 old_index[row.resource_url] = i;
920 // Go through the old urls and update their hit/miss counts.
921 for (int i = 0; i < old_resources_size; ++i) {
922 ResourceRow& old_row = old_resources[i];
923 if (new_index.find(old_row.resource_url) == new_index.end()) {
924 ++old_row.number_of_misses;
925 ++old_row.consecutive_misses;
926 } else {
927 const URLRequestSummary& new_row =
928 new_resources[new_index[old_row.resource_url]];
930 // Update the resource type since it could have changed.
931 if (new_row.resource_type != content::RESOURCE_TYPE_LAST_TYPE)
932 old_row.resource_type = new_row.resource_type;
934 int position = new_index[old_row.resource_url] + 1;
935 int total = old_row.number_of_hits + old_row.number_of_misses;
936 old_row.average_position =
937 ((old_row.average_position * total) + position) / (total + 1);
938 ++old_row.number_of_hits;
939 old_row.consecutive_misses = 0;
943 // Add the new ones that we have not seen before.
944 for (int i = 0; i < new_resources_size; ++i) {
945 const URLRequestSummary& summary = new_resources[i];
946 if (old_index.find(summary.resource_url) != old_index.end())
947 continue;
949 // Only need to add new stuff.
950 ResourceRow row_to_add;
951 row_to_add.resource_url = summary.resource_url;
952 row_to_add.resource_type = summary.resource_type;
953 row_to_add.number_of_hits = 1;
954 row_to_add.average_position = i + 1;
955 old_resources.push_back(row_to_add);
957 // To ensure we dont add the same url twice.
958 old_index[summary.resource_url] = 0;
962 // Trim and sort the resources after the update.
963 ResourceRows& resources = cache_entry->second.resources;
964 for (ResourceRows::iterator it = resources.begin();
965 it != resources.end();) {
966 it->UpdateScore();
967 if (it->consecutive_misses >= config_.max_consecutive_misses)
968 it = resources.erase(it);
969 else
970 ++it;
972 std::sort(resources.begin(), resources.end(),
973 ResourcePrefetchPredictorTables::ResourceRowSorter());
974 if (resources.size() > config_.max_resources_per_entry)
975 resources.resize(config_.max_resources_per_entry);
977 // If the row has no resources, remove it from the cache and delete the
978 // entry in the database. Else update the database.
979 if (resources.empty()) {
980 data_map->erase(key);
981 BrowserThread::PostTask(
982 BrowserThread::DB, FROM_HERE,
983 base::Bind(&ResourcePrefetchPredictorTables::DeleteSingleDataPoint,
984 tables_,
985 key,
986 key_type));
987 } else {
988 bool is_host = key_type == PREFETCH_KEY_TYPE_HOST;
989 PrefetchData empty_data(
990 !is_host ? PREFETCH_KEY_TYPE_HOST : PREFETCH_KEY_TYPE_URL,
991 std::string());
992 const PrefetchData& host_data = is_host ? cache_entry->second : empty_data;
993 const PrefetchData& url_data = is_host ? empty_data : cache_entry->second;
994 BrowserThread::PostTask(
995 BrowserThread::DB, FROM_HERE,
996 base::Bind(&ResourcePrefetchPredictorTables::UpdateData,
997 tables_,
998 url_data,
999 host_data));
1003 ////////////////////////////////////////////////////////////////////////////////
1004 // Page load time and accuracy measurement.
1006 // This is essentially UMA_HISTOGRAM_MEDIUM_TIMES, but it avoids using the
1007 // STATIC_HISTOGRAM_POINTER_BLOCK in UMA_HISTOGRAM definitions.
1008 #define RPP_HISTOGRAM_MEDIUM_TIMES(name, page_load_time) \
1009 do { \
1010 base::HistogramBase* histogram = base::Histogram::FactoryTimeGet( \
1011 name, \
1012 base::TimeDelta::FromMilliseconds(10), \
1013 base::TimeDelta::FromMinutes(3), \
1014 50, \
1015 base::HistogramBase::kUmaTargetedHistogramFlag); \
1016 histogram->AddTime(page_load_time); \
1017 } while (0)
1019 void ResourcePrefetchPredictor::ReportPageLoadTimeStats(
1020 base::TimeDelta plt) const {
1021 net::NetworkChangeNotifier::ConnectionType connection_type =
1022 net::NetworkChangeNotifier::GetConnectionType();
1024 RPP_HISTOGRAM_MEDIUM_TIMES("ResourcePrefetchPredictor.PLT", plt);
1025 RPP_HISTOGRAM_MEDIUM_TIMES(
1026 "ResourcePrefetchPredictor.PLT_" + GetNetTypeStr(), plt);
1027 if (net::NetworkChangeNotifier::IsConnectionCellular(connection_type))
1028 RPP_HISTOGRAM_MEDIUM_TIMES("ResourcePrefetchPredictor.PLT_Cellular", plt);
1031 void ResourcePrefetchPredictor::ReportPageLoadTimePrefetchStats(
1032 base::TimeDelta plt,
1033 bool prefetched,
1034 base::Callback<void(int)> report_network_type_callback,
1035 PrefetchKeyType key_type) const {
1036 net::NetworkChangeNotifier::ConnectionType connection_type =
1037 net::NetworkChangeNotifier::GetConnectionType();
1038 bool on_cellular =
1039 net::NetworkChangeNotifier::IsConnectionCellular(connection_type);
1041 report_network_type_callback.Run(CONNECTION_ALL);
1042 report_network_type_callback.Run(connection_type);
1043 if (on_cellular)
1044 report_network_type_callback.Run(CONNECTION_CELLULAR);
1046 std::string prefetched_str;
1047 if (prefetched)
1048 prefetched_str = "Prefetched";
1049 else
1050 prefetched_str = "NotPrefetched";
1052 RPP_HISTOGRAM_MEDIUM_TIMES(
1053 "ResourcePrefetchPredictor.PLT." + prefetched_str, plt);
1054 RPP_HISTOGRAM_MEDIUM_TIMES(
1055 "ResourcePrefetchPredictor.PLT." + prefetched_str + "_" + GetNetTypeStr(),
1056 plt);
1057 if (on_cellular) {
1058 RPP_HISTOGRAM_MEDIUM_TIMES(
1059 "ResourcePrefetchPredictor.PLT." + prefetched_str + "_Cellular", plt);
1062 if (!prefetched)
1063 return;
1065 std::string type =
1066 key_type == PREFETCH_KEY_TYPE_HOST ? "Host" : "Url";
1067 RPP_HISTOGRAM_MEDIUM_TIMES(
1068 "ResourcePrefetchPredictor.PLT.Prefetched." + type, plt);
1069 RPP_HISTOGRAM_MEDIUM_TIMES(
1070 "ResourcePrefetchPredictor.PLT.Prefetched." + type + "_"
1071 + GetNetTypeStr(),
1072 plt);
1073 if (on_cellular) {
1074 RPP_HISTOGRAM_MEDIUM_TIMES(
1075 "ResourcePrefetchPredictor.PLT.Prefetched." + type + "_Cellular",
1076 plt);
1080 void ResourcePrefetchPredictor::ReportAccuracyStats(
1081 PrefetchKeyType key_type,
1082 const std::vector<URLRequestSummary>& actual,
1083 ResourcePrefetcher::RequestVector* prefetched) const {
1084 // Annotate the results.
1085 std::map<GURL, bool> actual_resources;
1086 for (std::vector<URLRequestSummary>::const_iterator it = actual.begin();
1087 it != actual.end(); ++it) {
1088 actual_resources[it->resource_url] = it->was_cached;
1091 int prefetch_cancelled = 0, prefetch_failed = 0, prefetch_not_started = 0;
1092 // 'a_' -> actual, 'p_' -> predicted.
1093 int p_cache_a_cache = 0, p_cache_a_network = 0, p_cache_a_notused = 0,
1094 p_network_a_cache = 0, p_network_a_network = 0, p_network_a_notused = 0;
1096 for (ResourcePrefetcher::RequestVector::iterator it = prefetched->begin();
1097 it != prefetched->end(); ++it) {
1098 ResourcePrefetcher::Request* req = *it;
1100 // Set the usage states if the resource was actually used.
1101 std::map<GURL, bool>::const_iterator actual_it =
1102 actual_resources.find(req->resource_url);
1103 if (actual_it != actual_resources.end()) {
1104 if (actual_it->second) {
1105 req->usage_status =
1106 ResourcePrefetcher::Request::USAGE_STATUS_FROM_CACHE;
1107 } else {
1108 req->usage_status =
1109 ResourcePrefetcher::Request::USAGE_STATUS_FROM_NETWORK;
1113 switch (req->prefetch_status) {
1114 // TODO(shishir): Add histogram for each cancellation reason.
1115 case ResourcePrefetcher::Request::PREFETCH_STATUS_REDIRECTED:
1116 case ResourcePrefetcher::Request::PREFETCH_STATUS_AUTH_REQUIRED:
1117 case ResourcePrefetcher::Request::PREFETCH_STATUS_CERT_REQUIRED:
1118 case ResourcePrefetcher::Request::PREFETCH_STATUS_CERT_ERROR:
1119 case ResourcePrefetcher::Request::PREFETCH_STATUS_CANCELLED:
1120 ++prefetch_cancelled;
1121 break;
1123 case ResourcePrefetcher::Request::PREFETCH_STATUS_FAILED:
1124 ++prefetch_failed;
1125 break;
1127 case ResourcePrefetcher::Request::PREFETCH_STATUS_FROM_CACHE:
1128 if (req->usage_status ==
1129 ResourcePrefetcher::Request::USAGE_STATUS_FROM_CACHE)
1130 ++p_cache_a_cache;
1131 else if (req->usage_status ==
1132 ResourcePrefetcher::Request::USAGE_STATUS_FROM_NETWORK)
1133 ++p_cache_a_network;
1134 else
1135 ++p_cache_a_notused;
1136 break;
1138 case ResourcePrefetcher::Request::PREFETCH_STATUS_FROM_NETWORK:
1139 if (req->usage_status ==
1140 ResourcePrefetcher::Request::USAGE_STATUS_FROM_CACHE)
1141 ++p_network_a_cache;
1142 else if (req->usage_status ==
1143 ResourcePrefetcher::Request::USAGE_STATUS_FROM_NETWORK)
1144 ++p_network_a_network;
1145 else
1146 ++p_network_a_notused;
1147 break;
1149 case ResourcePrefetcher::Request::PREFETCH_STATUS_NOT_STARTED:
1150 ++prefetch_not_started;
1151 break;
1153 case ResourcePrefetcher::Request::PREFETCH_STATUS_STARTED:
1154 DLOG(FATAL) << "Invalid prefetch status";
1155 break;
1159 int total_prefetched = p_cache_a_cache + p_cache_a_network + p_cache_a_notused
1160 + p_network_a_cache + p_network_a_network + p_network_a_notused;
1162 std::string histogram_type = key_type == PREFETCH_KEY_TYPE_HOST ? "Host." :
1163 "Url.";
1165 // Macros to avoid using the STATIC_HISTOGRAM_POINTER_BLOCK in UMA_HISTOGRAM
1166 // definitions.
1167 #define RPP_HISTOGRAM_PERCENTAGE(suffix, value) \
1169 std::string name = "ResourcePrefetchPredictor." + histogram_type + suffix; \
1170 std::string g_name = "ResourcePrefetchPredictor." + std::string(suffix); \
1171 base::HistogramBase* histogram = base::LinearHistogram::FactoryGet( \
1172 name, 1, 101, 102, base::Histogram::kUmaTargetedHistogramFlag); \
1173 histogram->Add(value); \
1174 UMA_HISTOGRAM_PERCENTAGE(g_name, value); \
1177 RPP_HISTOGRAM_PERCENTAGE("PrefetchCancelled",
1178 prefetch_cancelled * 100.0 / total_prefetched);
1179 RPP_HISTOGRAM_PERCENTAGE("PrefetchFailed",
1180 prefetch_failed * 100.0 / total_prefetched);
1181 RPP_HISTOGRAM_PERCENTAGE("PrefetchFromCacheUsedFromCache",
1182 p_cache_a_cache * 100.0 / total_prefetched);
1183 RPP_HISTOGRAM_PERCENTAGE("PrefetchFromCacheUsedFromNetwork",
1184 p_cache_a_network * 100.0 / total_prefetched);
1185 RPP_HISTOGRAM_PERCENTAGE("PrefetchFromCacheNotUsed",
1186 p_cache_a_notused * 100.0 / total_prefetched);
1187 RPP_HISTOGRAM_PERCENTAGE("PrefetchFromNetworkUsedFromCache",
1188 p_network_a_cache * 100.0 / total_prefetched);
1189 RPP_HISTOGRAM_PERCENTAGE("PrefetchFromNetworkUsedFromNetwork",
1190 p_network_a_network * 100.0 / total_prefetched);
1191 RPP_HISTOGRAM_PERCENTAGE("PrefetchFromNetworkNotUsed",
1192 p_network_a_notused * 100.0 / total_prefetched);
1194 RPP_HISTOGRAM_PERCENTAGE(
1195 "PrefetchNotStarted",
1196 prefetch_not_started * 100.0 / (prefetch_not_started + total_prefetched));
1198 #undef RPP_HISTOGRAM_PERCENTAGE
1201 void ResourcePrefetchPredictor::ReportPredictedAccuracyStats(
1202 PrefetchKeyType key_type,
1203 const std::vector<URLRequestSummary>& actual,
1204 const ResourcePrefetcher::RequestVector& predicted) const {
1205 std::map<GURL, bool> actual_resources;
1206 int from_network = 0;
1207 for (std::vector<URLRequestSummary>::const_iterator it = actual.begin();
1208 it != actual.end(); ++it) {
1209 actual_resources[it->resource_url] = it->was_cached;
1210 if (!it->was_cached)
1211 ++from_network;
1214 // Measure the accuracy at 25, 50 predicted resources.
1215 ReportPredictedAccuracyStatsHelper(key_type, predicted, actual_resources,
1216 from_network, 25);
1217 ReportPredictedAccuracyStatsHelper(key_type, predicted, actual_resources,
1218 from_network, 50);
1221 void ResourcePrefetchPredictor::ReportPredictedAccuracyStatsHelper(
1222 PrefetchKeyType key_type,
1223 const ResourcePrefetcher::RequestVector& predicted,
1224 const std::map<GURL, bool>& actual,
1225 size_t total_resources_fetched_from_network,
1226 size_t max_assumed_prefetched) const {
1227 int prefetch_cached = 0, prefetch_network = 0, prefetch_missed = 0;
1228 int num_assumed_prefetched = std::min(predicted.size(),
1229 max_assumed_prefetched);
1230 if (num_assumed_prefetched == 0)
1231 return;
1233 for (int i = 0; i < num_assumed_prefetched; ++i) {
1234 const ResourcePrefetcher::Request& row = *(predicted[i]);
1235 std::map<GURL, bool>::const_iterator it = actual.find(row.resource_url);
1236 if (it == actual.end()) {
1237 ++prefetch_missed;
1238 } else if (it->second) {
1239 ++prefetch_cached;
1240 } else {
1241 ++prefetch_network;
1245 std::string prefix = key_type == PREFETCH_KEY_TYPE_HOST ?
1246 "ResourcePrefetchPredictor.Host.Predicted" :
1247 "ResourcePrefetchPredictor.Url.Predicted";
1248 std::string suffix = "_" + base::IntToString(max_assumed_prefetched);
1250 // Macros to avoid using the STATIC_HISTOGRAM_POINTER_BLOCK in UMA_HISTOGRAM
1251 // definitions.
1252 #define RPP_PREDICTED_HISTOGRAM_COUNTS(name, value) \
1254 std::string full_name = prefix + name + suffix; \
1255 base::HistogramBase* histogram = base::Histogram::FactoryGet( \
1256 full_name, 1, 1000000, 50, \
1257 base::Histogram::kUmaTargetedHistogramFlag); \
1258 histogram->Add(value); \
1261 #define RPP_PREDICTED_HISTOGRAM_PERCENTAGE(name, value) \
1263 std::string full_name = prefix + name + suffix; \
1264 base::HistogramBase* histogram = base::LinearHistogram::FactoryGet( \
1265 full_name, 1, 101, 102, base::Histogram::kUmaTargetedHistogramFlag); \
1266 histogram->Add(value); \
1269 RPP_PREDICTED_HISTOGRAM_COUNTS("PrefetchCount", num_assumed_prefetched);
1270 RPP_PREDICTED_HISTOGRAM_COUNTS("PrefetchMisses_Count", prefetch_missed);
1271 RPP_PREDICTED_HISTOGRAM_COUNTS("PrefetchFromCache_Count", prefetch_cached);
1272 RPP_PREDICTED_HISTOGRAM_COUNTS("PrefetchFromNetwork_Count", prefetch_network);
1274 RPP_PREDICTED_HISTOGRAM_PERCENTAGE(
1275 "PrefetchMisses_PercentOfTotalPrefetched",
1276 prefetch_missed * 100.0 / num_assumed_prefetched);
1277 RPP_PREDICTED_HISTOGRAM_PERCENTAGE(
1278 "PrefetchFromCache_PercentOfTotalPrefetched",
1279 prefetch_cached * 100.0 / num_assumed_prefetched);
1280 RPP_PREDICTED_HISTOGRAM_PERCENTAGE(
1281 "PrefetchFromNetwork_PercentOfTotalPrefetched",
1282 prefetch_network * 100.0 / num_assumed_prefetched);
1284 // Measure the ratio of total number of resources prefetched from network vs
1285 // the total number of resources fetched by the page from the network.
1286 if (total_resources_fetched_from_network > 0) {
1287 RPP_PREDICTED_HISTOGRAM_PERCENTAGE(
1288 "PrefetchFromNetworkPercentOfTotalFromNetwork",
1289 prefetch_network * 100.0 / total_resources_fetched_from_network);
1292 #undef RPP_HISTOGRAM_MEDIUM_TIMES
1293 #undef RPP_PREDICTED_HISTOGRAM_PERCENTAGE
1294 #undef RPP_PREDICTED_HISTOGRAM_COUNTS
1297 void ResourcePrefetchPredictor::OnURLsDeleted(
1298 history::HistoryService* history_service,
1299 bool all_history,
1300 bool expired,
1301 const history::URLRows& deleted_rows,
1302 const std::set<GURL>& favicon_urls) {
1303 DCHECK_CURRENTLY_ON(BrowserThread::UI);
1304 if (INITIALIZED != initialization_state_)
1305 return;
1307 if (all_history) {
1308 DeleteAllUrls();
1309 UMA_HISTOGRAM_ENUMERATION("ResourcePrefetchPredictor.ReportingEvent",
1310 REPORTING_EVENT_ALL_HISTORY_CLEARED,
1311 REPORTING_EVENT_COUNT);
1312 } else {
1313 DeleteUrls(deleted_rows);
1314 UMA_HISTOGRAM_ENUMERATION("ResourcePrefetchPredictor.ReportingEvent",
1315 REPORTING_EVENT_PARTIAL_HISTORY_CLEARED,
1316 REPORTING_EVENT_COUNT);
1320 void ResourcePrefetchPredictor::OnHistoryServiceLoaded(
1321 history::HistoryService* history_service) {
1322 OnHistoryAndCacheLoaded();
1323 history_service_observer_.Remove(history_service);
1326 void ResourcePrefetchPredictor::ConnectToHistoryService() {
1327 // Register for HistoryServiceLoading if it is not ready.
1328 history::HistoryService* history_service =
1329 HistoryServiceFactory::GetForProfile(profile_,
1330 ServiceAccessType::EXPLICIT_ACCESS);
1331 if (!history_service)
1332 return;
1333 if (history_service->BackendLoaded()) {
1334 // HistoryService is already loaded. Continue with Initialization.
1335 OnHistoryAndCacheLoaded();
1336 return;
1338 DCHECK(!history_service_observer_.IsObserving(history_service));
1339 history_service_observer_.Add(history_service);
1340 return;
1343 } // namespace predictors