Check USB device path access when prompting users to select a device.
[chromium-blink-merge.git] / chrome / browser / net / predictor.h
blobd1983e36f486e844e31edfd0ec5453cd35796fae
1 // Copyright (c) 2012 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 // A Predictor object is instantiated once in the browser process, and manages
6 // both preresolution of hostnames, as well as TCP/IP preconnection to expected
7 // subresources.
8 // Most hostname lists are provided by the renderer processes, and include URLs
9 // that *might* be used in the near future by the browsing user. One goal of
10 // this class is to cause the underlying DNS structure to lookup a hostname
11 // before it is really needed, and hence reduce latency in the standard lookup
12 // paths.
13 // Subresource relationships are usually acquired from the referrer field in a
14 // navigation. A subresource URL may be associated with a referrer URL. Later
15 // navigations may, if the likelihood of needing the subresource is high enough,
16 // cause this module to speculatively create a TCP/IP connection. If there is
17 // only a low likelihood, then a DNS pre-resolution operation may be performed.
19 #ifndef CHROME_BROWSER_NET_PREDICTOR_H_
20 #define CHROME_BROWSER_NET_PREDICTOR_H_
22 #include <map>
23 #include <queue>
24 #include <set>
25 #include <string>
26 #include <vector>
28 #include "base/gtest_prod_util.h"
29 #include "base/memory/scoped_ptr.h"
30 #include "base/memory/weak_ptr.h"
31 #include "chrome/browser/net/prediction_options.h"
32 #include "chrome/browser/net/referrer.h"
33 #include "chrome/browser/net/timed_cache.h"
34 #include "chrome/browser/net/url_info.h"
35 #include "components/network_hints/common/network_hints_common.h"
36 #include "net/base/host_port_pair.h"
38 class IOThread;
39 class PrefService;
40 class Profile;
41 class ProfileIOData;
43 namespace base {
44 class ListValue;
45 class WaitableEvent;
48 namespace net {
49 class HostResolver;
50 class SSLConfigService;
51 class ProxyService;
52 class TransportSecurityState;
53 class URLRequestContextGetter;
56 namespace user_prefs {
57 class PrefRegistrySyncable;
60 namespace chrome_browser_net {
62 typedef network_hints::UrlList UrlList;
63 typedef network_hints::NameList NameList;
64 typedef std::map<GURL, UrlInfo> Results;
66 // An observer for testing.
67 class PredictorObserver {
68 public:
69 virtual ~PredictorObserver() {}
71 virtual void OnPreconnectUrl(const GURL& original_url,
72 const GURL& first_party_for_cookies,
73 UrlInfo::ResolutionMotivation motivation,
74 int count) = 0;
77 // Predictor is constructed during Profile construction (on the UI thread),
78 // but it is destroyed on the IO thread when ProfileIOData goes away. All of
79 // its core state and functionality happens on the IO thread. The only UI
80 // methods are initialization / shutdown related (including preconnect
81 // initialization), or convenience methods that internally forward calls to
82 // the IO thread.
83 class Predictor {
84 public:
85 // A version number for prefs that are saved. This should be incremented when
86 // we change the format so that we discard old data.
87 static const int kPredictorReferrerVersion;
89 // Given that the underlying Chromium resolver defaults to a total maximum of
90 // 8 paralell resolutions, we will avoid any chance of starving navigational
91 // resolutions by limiting the number of paralell speculative resolutions.
92 // This is used in the field trials and testing.
93 // TODO(jar): Move this limitation into the resolver.
94 static const size_t kMaxSpeculativeParallelResolves;
96 // To control the congestion avoidance system, we need an estimate of how
97 // many speculative requests may arrive at once. Since we currently only
98 // keep 8 subresource names for each frame, we'll use that as our basis.
99 // Note that when scanning search results lists, we might actually get 10 at
100 // a time, and wikipedia can often supply (during a page scan) upwards of 50.
101 // In those odd cases, we may discard some of the later speculative requests
102 // mistakenly assuming that the resolutions took too long.
103 static const int kTypicalSpeculativeGroupSize;
105 // The next constant specifies an amount of queueing delay that is
106 // "too large," and indicative of problems with resolutions (perhaps due to
107 // an overloaded router, or such). When we exceed this delay, congestion
108 // avoidance will kick in and all speculations in the queue will be discarded.
109 static const int kMaxSpeculativeResolveQueueDelayMs;
111 // We don't bother learning to preconnect via a GET if the original URL
112 // navigation was so long ago, that a preconnection would have been dropped
113 // anyway. We believe most servers will drop the connection in 10 seconds, so
114 // we currently estimate this time-till-drop at 10 seconds.
115 // TODO(jar): We should do a persistent field trial to validate/optimize this.
116 static const int kMaxUnusedSocketLifetimeSecondsWithoutAGet;
118 // |max_concurrent| specifies how many concurrent (parallel) prefetches will
119 // be performed. Host lookups will be issued through |host_resolver|.
120 explicit Predictor(bool preconnect_enabled, bool predictor_enabled);
122 virtual ~Predictor();
124 // This function is used to create a predictor. For testing, we can create
125 // a version which does a simpler shutdown.
126 static Predictor* CreatePredictor(bool preconnect_enabled,
127 bool predictor_enabled,
128 bool simple_shutdown);
130 static void RegisterProfilePrefs(user_prefs::PrefRegistrySyncable* registry);
132 // ------------- Start UI thread methods.
134 virtual void InitNetworkPredictor(PrefService* user_prefs,
135 PrefService* local_state,
136 IOThread* io_thread,
137 net::URLRequestContextGetter* getter,
138 ProfileIOData* profile_io_data);
140 // The Omnibox has proposed a given url to the user, and if it is a search
141 // URL, then it also indicates that this is preconnectable (i.e., we could
142 // preconnect to the search server).
143 void AnticipateOmniboxUrl(const GURL& url, bool preconnectable);
145 // Preconnect a URL and all of its subresource domains.
146 void PreconnectUrlAndSubresources(const GURL& url,
147 const GURL& first_party_for_cookies);
149 static UrlList GetPredictedUrlListAtStartup(PrefService* user_prefs,
150 PrefService* local_state);
152 static void set_max_queueing_delay(int max_queueing_delay_ms);
154 static void set_max_parallel_resolves(size_t max_parallel_resolves);
156 virtual void ShutdownOnUIThread();
158 // ------------- End UI thread methods.
160 // ------------- Start IO thread methods.
162 // Cancel pending requests and prevent new ones from being made.
163 void Shutdown();
165 // In some circumstances, for privacy reasons, all results should be
166 // discarded. This method gracefully handles that activity.
167 // Destroy all our internal state, which shows what names we've looked up, and
168 // how long each has taken, etc. etc. We also destroy records of suggesses
169 // (cache hits etc.).
170 void DiscardAllResults();
172 // Add hostname(s) to the queue for processing.
173 void ResolveList(const UrlList& urls,
174 UrlInfo::ResolutionMotivation motivation);
176 void Resolve(const GURL& url, UrlInfo::ResolutionMotivation motivation);
178 // Record details of a navigation so that we can preresolve the host name
179 // ahead of time the next time the users navigates to the indicated host.
180 // Should only be called when urls are distinct, and they should already be
181 // canonicalized to not have a path.
182 void LearnFromNavigation(const GURL& referring_url, const GURL& target_url);
184 // When displaying info in about:dns, the following API is called.
185 static void PredictorGetHtmlInfo(Predictor* predictor, std::string* output);
187 // Dump HTML table containing list of referrers for about:dns.
188 void GetHtmlReferrerLists(std::string* output);
190 // Dump the list of currently known referrer domains and related prefetchable
191 // domains for about:dns.
192 void GetHtmlInfo(std::string* output);
194 // Discards any referrer for which all the suggested host names are currently
195 // annotated with negligible expected-use. Scales down (diminishes) the
196 // expected-use of those that remain, so that their use will go down by a
197 // factor each time we trim (moving the referrer closer to being discarded in
198 // a future call).
199 // The task is performed synchronously and completes before returing.
200 void TrimReferrersNow();
202 // Construct a ListValue object that contains all the data in the referrers_
203 // so that it can be persisted in a pref.
204 void SerializeReferrers(base::ListValue* referral_list);
206 // Process a ListValue that contains all the data from a previous reference
207 // list, as constructed by SerializeReferrers(), and add all the identified
208 // values into the current referrer list.
209 void DeserializeReferrers(const base::ListValue& referral_list);
211 void DeserializeReferrersThenDelete(base::ListValue* referral_list);
213 void DiscardInitialNavigationHistory();
215 void FinalizeInitializationOnIOThread(
216 const std::vector<GURL>& urls_to_prefetch,
217 base::ListValue* referral_list,
218 IOThread* io_thread,
219 ProfileIOData* profile_io_data);
221 // During startup, we learn what the first N urls visited are, and then
222 // resolve the associated hosts ASAP during our next startup.
223 void LearnAboutInitialNavigation(const GURL& url);
225 // Renderer bundles up list and sends to this browser API via IPC.
226 // TODO(jar): Use UrlList instead to include port and scheme.
227 void DnsPrefetchList(const NameList& hostnames);
229 // May be called from either the IO or UI thread and will PostTask
230 // to the IO thread if necessary.
231 void DnsPrefetchMotivatedList(const UrlList& urls,
232 UrlInfo::ResolutionMotivation motivation);
234 // May be called from either the IO or UI thread and will PostTask
235 // to the IO thread if necessary.
236 void SaveStateForNextStartupAndTrim();
238 void SaveDnsPrefetchStateForNextStartupAndTrim(
239 base::ListValue* startup_list,
240 base::ListValue* referral_list,
241 base::WaitableEvent* completion);
243 // May be called from either the IO or UI thread and will PostTask
244 // to the IO thread if necessary.
245 void PreconnectUrl(const GURL& url, const GURL& first_party_for_cookies,
246 UrlInfo::ResolutionMotivation motivation, int count);
248 void PreconnectUrlOnIOThread(const GURL& url,
249 const GURL& first_party_for_cookies,
250 UrlInfo::ResolutionMotivation motivation,
251 int count);
253 // ------------- End IO thread methods.
255 // The following methods may be called on either the IO or UI threads.
257 // Instigate pre-connection to any URLs, or pre-resolution of related host,
258 // that we predict will be needed after this navigation (typically
259 // more-embedded resources on a page). This method will actually post a task
260 // to do the actual work, so as not to jump ahead of the frame navigation that
261 // instigated this activity.
262 void PredictFrameSubresources(const GURL& url,
263 const GURL& first_party_for_cookies);
265 // Put URL in canonical form, including a scheme, host, and port.
266 // Returns GURL::EmptyGURL() if the scheme is not http/https or if the url
267 // cannot be otherwise canonicalized.
268 static GURL CanonicalizeUrl(const GURL& url);
270 // Used for testing.
271 void SetHostResolver(net::HostResolver* host_resolver) {
272 host_resolver_ = host_resolver;
274 // Used for testing.
275 void SetTransportSecurityState(
276 net::TransportSecurityState* transport_security_state) {
277 transport_security_state_ = transport_security_state;
279 // Used for testing.
280 size_t max_concurrent_dns_lookups() const {
281 return max_concurrent_dns_lookups_;
283 // Used for testing.
284 void SetShutdown(bool shutdown) {
285 shutdown_ = shutdown;
287 // Used for testing.
288 void SetObserver(PredictorObserver* observer) {
289 observer_ = observer;
292 ProfileIOData* profile_io_data() const {
293 return profile_io_data_;
296 bool preconnect_enabled() const {
297 return preconnect_enabled_;
300 bool predictor_enabled() const {
301 return predictor_enabled_;
305 private:
306 FRIEND_TEST_ALL_PREFIXES(PredictorTest, BenefitLookupTest);
307 FRIEND_TEST_ALL_PREFIXES(PredictorTest, ShutdownWhenResolutionIsPendingTest);
308 FRIEND_TEST_ALL_PREFIXES(PredictorTest, SingleLookupTest);
309 FRIEND_TEST_ALL_PREFIXES(PredictorTest, ConcurrentLookupTest);
310 FRIEND_TEST_ALL_PREFIXES(PredictorTest, MassiveConcurrentLookupTest);
311 FRIEND_TEST_ALL_PREFIXES(PredictorTest, PriorityQueuePushPopTest);
312 FRIEND_TEST_ALL_PREFIXES(PredictorTest, PriorityQueueReorderTest);
313 FRIEND_TEST_ALL_PREFIXES(PredictorTest, ReferrerSerializationTrimTest);
314 FRIEND_TEST_ALL_PREFIXES(PredictorTest, SingleLookupTestWithDisabledAdvisor);
315 FRIEND_TEST_ALL_PREFIXES(PredictorTest, SingleLookupTestWithEnabledAdvisor);
316 FRIEND_TEST_ALL_PREFIXES(PredictorTest, TestSimplePreconnectAdvisor);
317 FRIEND_TEST_ALL_PREFIXES(PredictorTest, NoProxyService);
318 FRIEND_TEST_ALL_PREFIXES(PredictorTest, ProxyDefinitelyEnabled);
319 FRIEND_TEST_ALL_PREFIXES(PredictorTest, ProxyDefinitelyNotEnabled);
320 FRIEND_TEST_ALL_PREFIXES(PredictorTest, ProxyMaybeEnabled);
321 friend class WaitForResolutionHelper; // For testing.
323 class LookupRequest;
325 // A simple priority queue for handling host names.
326 // Some names that are queued up have |motivation| that requires very rapid
327 // handling. For example, a sub-resource name lookup MUST be done before the
328 // actual sub-resource is fetched. In contrast, a name that was speculatively
329 // noted in a page has to be resolved before the user "gets around to"
330 // clicking on a link. By tagging (with a motivation) each push we make into
331 // this FIFO queue, the queue can re-order the more important names to service
332 // them sooner (relative to some low priority background resolutions).
333 class HostNameQueue {
334 public:
335 HostNameQueue();
336 ~HostNameQueue();
337 void Push(const GURL& url,
338 UrlInfo::ResolutionMotivation motivation);
339 bool IsEmpty() const;
340 GURL Pop();
342 private:
343 // The names in the queue that should be serviced (popped) ASAP.
344 std::queue<GURL> rush_queue_;
345 // The names in the queue that should only be serviced when rush_queue is
346 // empty.
347 std::queue<GURL> background_queue_;
349 DISALLOW_COPY_AND_ASSIGN(HostNameQueue);
352 // The InitialObserver monitors navigations made by the network stack. This
353 // is only used to identify startup time resolutions (for re-resolution
354 // during our next process startup).
355 // TODO(jar): Consider preconnecting at startup, which may be faster than
356 // waiting for render process to start and request a connection.
357 class InitialObserver {
358 public:
359 InitialObserver();
360 ~InitialObserver();
361 // Recording of when we observed each navigation.
362 typedef std::map<GURL, base::TimeTicks> FirstNavigations;
364 // Potentially add a new URL to our startup list.
365 void Append(const GURL& url, Predictor* predictor);
367 // Get an HTML version of our current planned first_navigations_.
368 void GetFirstResolutionsHtml(std::string* output);
370 // Persist the current first_navigations_ for storage in a list.
371 void GetInitialDnsResolutionList(base::ListValue* startup_list);
373 // Discards all initial loading history.
374 void DiscardInitialNavigationHistory() { first_navigations_.clear(); }
376 private:
377 // List of the first N URL resolutions observed in this run.
378 FirstNavigations first_navigations_;
380 // The number of URLs we'll save for pre-resolving at next startup.
381 static const size_t kStartupResolutionCount = 10;
384 // A map that is keyed with the host/port that we've learned were the cause
385 // of loading additional URLs. The list of additional targets is held
386 // in a Referrer instance, which is a value in this map.
387 typedef std::map<GURL, Referrer> Referrers;
389 // Depending on the expected_subresource_use_, we may either make a TCP/IP
390 // preconnection, or merely pre-resolve the hostname via DNS (or even do
391 // nothing). The following are the threasholds for taking those actions.
392 static const double kPreconnectWorthyExpectedValue;
393 static const double kDNSPreresolutionWorthyExpectedValue;
394 // Referred hosts with a subresource_use_rate_ that are less than the
395 // following threshold will be discarded when we Trim() the list.
396 static const double kDiscardableExpectedValue;
397 // During trimming operation to discard hosts for which we don't have likely
398 // subresources, we multiply the expected_subresource_use_ value by the
399 // following ratio until that value is less than kDiscardableExpectedValue.
400 // This number should always be less than 1, an more than 0.
401 static const double kReferrerTrimRatio;
403 // Interval between periodic trimming of our whole referrer list.
404 // We only do a major trimming about once an hour, and then only when the user
405 // is actively browsing.
406 static const int64 kDurationBetweenTrimmingsHours;
407 // Interval between incremental trimmings (to avoid inducing Jank).
408 static const int64 kDurationBetweenTrimmingIncrementsSeconds;
409 // Number of referring URLs processed in an incremental trimming.
410 static const size_t kUrlsTrimmedPerIncrement;
412 // Only for testing. Returns true if hostname has been successfully resolved
413 // (name found).
414 bool WasFound(const GURL& url) const {
415 Results::const_iterator it(results_.find(url));
416 return (it != results_.end()) &&
417 it->second.was_found();
420 // Only for testing. Return how long was the resolution
421 // or UrlInfo::NullDuration() if it hasn't been resolved yet.
422 base::TimeDelta GetResolutionDuration(const GURL& url) {
423 if (results_.find(url) == results_.end())
424 return UrlInfo::NullDuration();
425 return results_[url].resolve_duration();
428 // Only for testing;
429 size_t peak_pending_lookups() const { return peak_pending_lookups_; }
431 // These two members call the appropriate global functions in
432 // prediction_options.cc depending on which thread they are called on.
433 virtual bool CanPrefetchAndPrerender() const;
434 virtual bool CanPreresolveAndPreconnect() const;
436 // ------------- Start IO thread methods.
438 // Perform actual resolution or preconnection to subresources now. This is
439 // an internal worker method that is reached via a post task from
440 // PredictFrameSubresources().
441 void PrepareFrameSubresources(const GURL& url,
442 const GURL& first_party_for_cookies);
444 // Access method for use by async lookup request to pass resolution result.
445 void OnLookupFinished(LookupRequest* request, const GURL& url, bool found);
447 // Underlying method for both async and synchronous lookup to update state.
448 void LookupFinished(LookupRequest* request,
449 const GURL& url, bool found);
451 // Queue hostname for resolution. If queueing was done, return the pointer
452 // to the queued instance, otherwise return NULL. If the proxy advisor is
453 // enabled, and |url| is likely to be proxied, the hostname will not be
454 // queued as the browser is not expected to fetch it directly.
455 UrlInfo* AppendToResolutionQueue(const GURL& url,
456 UrlInfo::ResolutionMotivation motivation);
458 // Check to see if too much queuing delay has been noted for the given info,
459 // which indicates that there is "congestion" or growing delay in handling the
460 // resolution of names. Rather than letting this congestion potentially grow
461 // without bounds, we abandon our queued efforts at pre-resolutions in such a
462 // case.
463 // To do this, we will recycle |info|, as well as all queued items, back to
464 // the state they had before they were queued up. We can't do anything about
465 // the resolutions we've already sent off for processing on another thread, so
466 // we just let them complete. On a slow system, subject to congestion, this
467 // will greatly reduce the number of resolutions done, but it will assure that
468 // any resolutions that are done, are in a timely and hence potentially
469 // helpful manner.
470 bool CongestionControlPerformed(UrlInfo* info);
472 // Take lookup requests from work_queue_ and tell HostResolver to look them up
473 // asynchronously, provided we don't exceed concurrent resolution limit.
474 void StartSomeQueuedResolutions();
476 // Performs trimming similar to TrimReferrersNow(), except it does it as a
477 // series of short tasks by posting continuations again an again until done.
478 void TrimReferrers();
480 // Loads urls_being_trimmed_ from keys of current referrers_.
481 void LoadUrlsForTrimming();
483 // Posts a task to do additional incremental trimming of referrers_.
484 void PostIncrementalTrimTask();
486 // Calls Trim() on some or all of urls_being_trimmed_.
487 // If it does not process all the URLs in that vector, it posts a task to
488 // continue with them shortly (i.e., it yeilds and continues).
489 void IncrementalTrimReferrers(bool trim_all_now);
491 // If we can determine immediately (i.e. synchronously) that requests to this
492 // URL would likely go through a proxy, then return true. Otherwise, return
493 // false. This is used to avoid issuing DNS requests when a fixed proxy
494 // configuration is in place, which improves efficiency, and is also important
495 // if the unproxied DNS may contain incorrect entries.
496 bool WouldLikelyProxyURL(const GURL& url);
498 // Applies the HSTS redirect for |url|, if any.
499 GURL GetHSTSRedirectOnIOThread(const GURL& url);
501 // ------------- End IO thread methods.
503 scoped_ptr<InitialObserver> initial_observer_;
505 // Reference to URLRequestContextGetter from the Profile which owns the
506 // predictor. Used by Preconnect.
507 scoped_refptr<net::URLRequestContextGetter> url_request_context_getter_;
509 // Status of speculative DNS resolution and speculative TCP/IP connection
510 // feature. This is false if and only if disabled by a command line switch.
511 const bool predictor_enabled_;
513 // This is set by InitNetworkPredictor and used for calling
514 // CanPrefetchAndPrerenderUI and CanPreresolveAndPreconnectUI.
515 PrefService* user_prefs_;
517 // This is set by InitNetworkPredictor and used for calling
518 // CanPrefetchAndPrerenderIO and CanPreresolveAndPreconnectIO.
519 ProfileIOData* profile_io_data_;
521 // work_queue_ holds a list of names we need to look up.
522 HostNameQueue work_queue_;
524 // results_ contains information for existing/prior prefetches.
525 Results results_;
527 std::set<LookupRequest*> pending_lookups_;
529 // For testing, to verify that we don't exceed the limit.
530 size_t peak_pending_lookups_;
532 // When true, we don't make new lookup requests.
533 bool shutdown_;
535 // The number of concurrent speculative lookups currently allowed to be sent
536 // to the resolver. Any additional lookups will be queued to avoid exceeding
537 // this value. The queue is a priority queue that will accelerate
538 // sub-resource speculation, and retard resolutions suggested by page scans.
539 const size_t max_concurrent_dns_lookups_;
541 // The maximum queueing delay that is acceptable before we enter congestion
542 // reduction mode, and discard all queued (but not yet assigned) resolutions.
543 const base::TimeDelta max_dns_queue_delay_;
545 // The host resolver we warm DNS entries for.
546 net::HostResolver* host_resolver_;
548 // The TransportSecurityState instance we query HSTS redirects from.
549 net::TransportSecurityState* transport_security_state_;
551 // The SSLConfigService we query SNI support from (used in querying HSTS
552 // redirects).
553 net::SSLConfigService* ssl_config_service_;
555 // The ProxyService, used to determine whether preresolve is useful.
556 net::ProxyService* proxy_service_;
558 // Are we currently using preconnection, rather than just DNS resolution, for
559 // subresources and omni-box search URLs.
560 // This is false if and only if disabled by a command line switch.
561 const bool preconnect_enabled_;
563 // Most recent suggestion from Omnibox provided via AnticipateOmniboxUrl().
564 std::string last_omnibox_host_;
566 // The time when the last preresolve was done for last_omnibox_host_.
567 base::TimeTicks last_omnibox_preresolve_;
569 // The number of consecutive requests to AnticipateOmniboxUrl() that suggested
570 // preconnecting (because it was to a search service).
571 int consecutive_omnibox_preconnect_count_;
573 // The time when the last preconnection was requested to a search service.
574 base::TimeTicks last_omnibox_preconnect_;
576 // For each URL that we might navigate to (that we've "learned about")
577 // we have a Referrer list. Each Referrer list has all hostnames we might
578 // need to pre-resolve or pre-connect to when there is a navigation to the
579 // orginial hostname.
580 Referrers referrers_;
582 // List of URLs in referrers_ currently being trimmed (scaled down to
583 // eventually be aged out of use).
584 std::vector<GURL> urls_being_trimmed_;
586 // A time after which we need to do more trimming of referrers.
587 base::TimeTicks next_trim_time_;
589 // An observer for testing.
590 PredictorObserver* observer_;
592 scoped_ptr<base::WeakPtrFactory<Predictor> > weak_factory_;
594 DISALLOW_COPY_AND_ASSIGN(Predictor);
597 // This version of the predictor is used for testing.
598 class SimplePredictor : public Predictor {
599 public:
600 explicit SimplePredictor(bool preconnect_enabled, bool predictor_enabled)
601 : Predictor(preconnect_enabled, predictor_enabled) {}
602 ~SimplePredictor() override {}
603 void InitNetworkPredictor(PrefService* user_prefs,
604 PrefService* local_state,
605 IOThread* io_thread,
606 net::URLRequestContextGetter* getter,
607 ProfileIOData* profile_io_data) override;
608 void ShutdownOnUIThread() override;
610 private:
611 // These member functions return True for unittests.
612 bool CanPrefetchAndPrerender() const override;
613 bool CanPreresolveAndPreconnect() const override;
616 } // namespace chrome_browser_net
618 #endif // CHROME_BROWSER_NET_PREDICTOR_H_