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[chromium-blink-merge.git] / net / proxy / proxy_service.cc
blob28f0bd804aab8b201ba8808475c02cdbd4ed8974
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 #include "net/proxy/proxy_service.h"
7 #include <algorithm>
9 #include "base/bind.h"
10 #include "base/bind_helpers.h"
11 #include "base/compiler_specific.h"
12 #include "base/location.h"
13 #include "base/logging.h"
14 #include "base/memory/weak_ptr.h"
15 #include "base/metrics/histogram_macros.h"
16 #include "base/single_thread_task_runner.h"
17 #include "base/strings/string_util.h"
18 #include "base/thread_task_runner_handle.h"
19 #include "base/time/time.h"
20 #include "base/values.h"
21 #include "net/base/completion_callback.h"
22 #include "net/base/load_flags.h"
23 #include "net/base/net_errors.h"
24 #include "net/base/net_util.h"
25 #include "net/log/net_log.h"
26 #include "net/proxy/dhcp_proxy_script_fetcher.h"
27 #include "net/proxy/multi_threaded_proxy_resolver.h"
28 #include "net/proxy/network_delegate_error_observer.h"
29 #include "net/proxy/proxy_config_service_fixed.h"
30 #include "net/proxy/proxy_resolver.h"
31 #include "net/proxy/proxy_resolver_factory.h"
32 #include "net/proxy/proxy_script_decider.h"
33 #include "net/proxy/proxy_script_fetcher.h"
34 #include "net/url_request/url_request_context.h"
35 #include "url/gurl.h"
37 #if defined(OS_WIN)
38 #include "net/proxy/proxy_config_service_win.h"
39 #include "net/proxy/proxy_resolver_winhttp.h"
40 #elif defined(OS_IOS)
41 #include "net/proxy/proxy_config_service_ios.h"
42 #include "net/proxy/proxy_resolver_mac.h"
43 #elif defined(OS_MACOSX)
44 #include "net/proxy/proxy_config_service_mac.h"
45 #include "net/proxy/proxy_resolver_mac.h"
46 #elif defined(OS_LINUX) && !defined(OS_CHROMEOS)
47 #include "net/proxy/proxy_config_service_linux.h"
48 #elif defined(OS_ANDROID)
49 #include "net/proxy/proxy_config_service_android.h"
50 #endif
52 using base::TimeDelta;
53 using base::TimeTicks;
55 namespace net {
57 namespace {
59 // When the IP address changes we don't immediately re-run proxy auto-config.
60 // Instead, we wait for |kDelayAfterNetworkChangesMs| before
61 // attempting to re-valuate proxy auto-config.
63 // During this time window, any resolve requests sent to the ProxyService will
64 // be queued. Once we have waited the required amount of them, the proxy
65 // auto-config step will be run, and the queued requests resumed.
67 // The reason we play this game is that our signal for detecting network
68 // changes (NetworkChangeNotifier) may fire *before* the system's networking
69 // dependencies are fully configured. This is a problem since it means if
70 // we were to run proxy auto-config right away, it could fail due to spurious
71 // DNS failures. (see http://crbug.com/50779 for more details.)
73 // By adding the wait window, we give things a better chance to get properly
74 // set up. Network failures can happen at any time though, so we additionally
75 // poll the PAC script for changes, which will allow us to recover from these
76 // sorts of problems.
77 const int64 kDelayAfterNetworkChangesMs = 2000;
79 // This is the default policy for polling the PAC script.
81 // In response to a failure, the poll intervals are:
82 // 0: 8 seconds (scheduled on timer)
83 // 1: 32 seconds
84 // 2: 2 minutes
85 // 3+: 4 hours
87 // In response to a success, the poll intervals are:
88 // 0+: 12 hours
90 // Only the 8 second poll is scheduled on a timer, the rest happen in response
91 // to network activity (and hence will take longer than the written time).
93 // Explanation for these values:
95 // TODO(eroman): These values are somewhat arbitrary, and need to be tuned
96 // using some histograms data. Trying to be conservative so as not to break
97 // existing setups when deployed. A simple exponential retry scheme would be
98 // more elegant, but places more load on server.
100 // The motivation for trying quickly after failures (8 seconds) is to recover
101 // from spurious network failures, which are common after the IP address has
102 // just changed (like DNS failing to resolve). The next 32 second boundary is
103 // to try and catch other VPN weirdness which anecdotally I have seen take
104 // 10+ seconds for some users.
106 // The motivation for re-trying after a success is to check for possible
107 // content changes to the script, or to the WPAD auto-discovery results. We are
108 // not very aggressive with these checks so as to minimize the risk of
109 // overloading existing PAC setups. Moreover it is unlikely that PAC scripts
110 // change very frequently in existing setups. More research is needed to
111 // motivate what safe values are here, and what other user agents do.
113 // Comparison to other browsers:
115 // In Firefox the PAC URL is re-tried on failures according to
116 // network.proxy.autoconfig_retry_interval_min and
117 // network.proxy.autoconfig_retry_interval_max. The defaults are 5 seconds and
118 // 5 minutes respectively. It doubles the interval at each attempt.
120 // TODO(eroman): Figure out what Internet Explorer does.
121 class DefaultPollPolicy : public ProxyService::PacPollPolicy {
122 public:
123 DefaultPollPolicy() {}
125 Mode GetNextDelay(int initial_error,
126 TimeDelta current_delay,
127 TimeDelta* next_delay) const override {
128 if (initial_error != OK) {
129 // Re-try policy for failures.
130 const int kDelay1Seconds = 8;
131 const int kDelay2Seconds = 32;
132 const int kDelay3Seconds = 2 * 60; // 2 minutes
133 const int kDelay4Seconds = 4 * 60 * 60; // 4 Hours
135 // Initial poll.
136 if (current_delay < TimeDelta()) {
137 *next_delay = TimeDelta::FromSeconds(kDelay1Seconds);
138 return MODE_USE_TIMER;
140 switch (current_delay.InSeconds()) {
141 case kDelay1Seconds:
142 *next_delay = TimeDelta::FromSeconds(kDelay2Seconds);
143 return MODE_START_AFTER_ACTIVITY;
144 case kDelay2Seconds:
145 *next_delay = TimeDelta::FromSeconds(kDelay3Seconds);
146 return MODE_START_AFTER_ACTIVITY;
147 default:
148 *next_delay = TimeDelta::FromSeconds(kDelay4Seconds);
149 return MODE_START_AFTER_ACTIVITY;
151 } else {
152 // Re-try policy for succeses.
153 *next_delay = TimeDelta::FromHours(12);
154 return MODE_START_AFTER_ACTIVITY;
158 private:
159 DISALLOW_COPY_AND_ASSIGN(DefaultPollPolicy);
162 // Config getter that always returns direct settings.
163 class ProxyConfigServiceDirect : public ProxyConfigService {
164 public:
165 // ProxyConfigService implementation:
166 void AddObserver(Observer* observer) override {}
167 void RemoveObserver(Observer* observer) override {}
168 ConfigAvailability GetLatestProxyConfig(ProxyConfig* config) override {
169 *config = ProxyConfig::CreateDirect();
170 config->set_source(PROXY_CONFIG_SOURCE_UNKNOWN);
171 return CONFIG_VALID;
175 // Proxy resolver that fails every time.
176 class ProxyResolverNull : public ProxyResolver {
177 public:
178 ProxyResolverNull() {}
180 // ProxyResolver implementation.
181 int GetProxyForURL(const GURL& url,
182 ProxyInfo* results,
183 const CompletionCallback& callback,
184 RequestHandle* request,
185 const BoundNetLog& net_log) override {
186 return ERR_NOT_IMPLEMENTED;
189 void CancelRequest(RequestHandle request) override { NOTREACHED(); }
191 LoadState GetLoadState(RequestHandle request) const override {
192 NOTREACHED();
193 return LOAD_STATE_IDLE;
198 // ProxyResolver that simulates a PAC script which returns
199 // |pac_string| for every single URL.
200 class ProxyResolverFromPacString : public ProxyResolver {
201 public:
202 explicit ProxyResolverFromPacString(const std::string& pac_string)
203 : pac_string_(pac_string) {}
205 int GetProxyForURL(const GURL& url,
206 ProxyInfo* results,
207 const CompletionCallback& callback,
208 RequestHandle* request,
209 const BoundNetLog& net_log) override {
210 results->UsePacString(pac_string_);
211 return OK;
214 void CancelRequest(RequestHandle request) override { NOTREACHED(); }
216 LoadState GetLoadState(RequestHandle request) const override {
217 NOTREACHED();
218 return LOAD_STATE_IDLE;
221 private:
222 const std::string pac_string_;
225 // Creates ProxyResolvers using a platform-specific implementation.
226 class ProxyResolverFactoryForSystem : public MultiThreadedProxyResolverFactory {
227 public:
228 explicit ProxyResolverFactoryForSystem(size_t max_num_threads)
229 : MultiThreadedProxyResolverFactory(max_num_threads,
230 false /*expects_pac_bytes*/) {}
232 scoped_ptr<ProxyResolverFactory> CreateProxyResolverFactory() override {
233 #if defined(OS_WIN)
234 return make_scoped_ptr(new ProxyResolverFactoryWinHttp());
235 #elif defined(OS_MACOSX)
236 return make_scoped_ptr(new ProxyResolverFactoryMac());
237 #else
238 NOTREACHED();
239 return NULL;
240 #endif
243 static bool IsSupported() {
244 #if defined(OS_WIN) || defined(OS_MACOSX)
245 return true;
246 #else
247 return false;
248 #endif
251 private:
252 DISALLOW_COPY_AND_ASSIGN(ProxyResolverFactoryForSystem);
255 class ProxyResolverFactoryForNullResolver : public ProxyResolverFactory {
256 public:
257 ProxyResolverFactoryForNullResolver() : ProxyResolverFactory(false) {}
259 // ProxyResolverFactory overrides.
260 int CreateProxyResolver(
261 const scoped_refptr<ProxyResolverScriptData>& pac_script,
262 scoped_ptr<ProxyResolver>* resolver,
263 const net::CompletionCallback& callback,
264 scoped_ptr<Request>* request) override {
265 resolver->reset(new ProxyResolverNull());
266 return OK;
269 private:
270 DISALLOW_COPY_AND_ASSIGN(ProxyResolverFactoryForNullResolver);
273 class ProxyResolverFactoryForPacResult : public ProxyResolverFactory {
274 public:
275 explicit ProxyResolverFactoryForPacResult(const std::string& pac_string)
276 : ProxyResolverFactory(false), pac_string_(pac_string) {}
278 // ProxyResolverFactory override.
279 int CreateProxyResolver(
280 const scoped_refptr<ProxyResolverScriptData>& pac_script,
281 scoped_ptr<ProxyResolver>* resolver,
282 const net::CompletionCallback& callback,
283 scoped_ptr<Request>* request) override {
284 resolver->reset(new ProxyResolverFromPacString(pac_string_));
285 return OK;
288 private:
289 const std::string pac_string_;
291 DISALLOW_COPY_AND_ASSIGN(ProxyResolverFactoryForPacResult);
294 // Returns NetLog parameters describing a proxy configuration change.
295 scoped_ptr<base::Value> NetLogProxyConfigChangedCallback(
296 const ProxyConfig* old_config,
297 const ProxyConfig* new_config,
298 NetLogCaptureMode /* capture_mode */) {
299 scoped_ptr<base::DictionaryValue> dict(new base::DictionaryValue());
300 // The "old_config" is optional -- the first notification will not have
301 // any "previous" configuration.
302 if (old_config->is_valid())
303 dict->Set("old_config", old_config->ToValue());
304 dict->Set("new_config", new_config->ToValue());
305 return dict.Pass();
308 scoped_ptr<base::Value> NetLogBadProxyListCallback(
309 const ProxyRetryInfoMap* retry_info,
310 NetLogCaptureMode /* capture_mode */) {
311 scoped_ptr<base::DictionaryValue> dict(new base::DictionaryValue());
312 base::ListValue* list = new base::ListValue();
314 for (ProxyRetryInfoMap::const_iterator iter = retry_info->begin();
315 iter != retry_info->end(); ++iter) {
316 list->Append(new base::StringValue(iter->first));
318 dict->Set("bad_proxy_list", list);
319 return dict.Pass();
322 // Returns NetLog parameters on a successfuly proxy resolution.
323 scoped_ptr<base::Value> NetLogFinishedResolvingProxyCallback(
324 const ProxyInfo* result,
325 NetLogCaptureMode /* capture_mode */) {
326 scoped_ptr<base::DictionaryValue> dict(new base::DictionaryValue());
327 dict->SetString("pac_string", result->ToPacString());
328 return dict.Pass();
331 #if defined(OS_CHROMEOS)
332 class UnsetProxyConfigService : public ProxyConfigService {
333 public:
334 UnsetProxyConfigService() {}
335 ~UnsetProxyConfigService() override {}
337 void AddObserver(Observer* observer) override {}
338 void RemoveObserver(Observer* observer) override {}
339 ConfigAvailability GetLatestProxyConfig(ProxyConfig* config) override {
340 return CONFIG_UNSET;
343 #endif
345 } // namespace
347 // ProxyService::InitProxyResolver --------------------------------------------
349 // This glues together two asynchronous steps:
350 // (1) ProxyScriptDecider -- try to fetch/validate a sequence of PAC scripts
351 // to figure out what we should configure against.
352 // (2) Feed the fetched PAC script into the ProxyResolver.
354 // InitProxyResolver is a single-use class which encapsulates cancellation as
355 // part of its destructor. Start() or StartSkipDecider() should be called just
356 // once. The instance can be destroyed at any time, and the request will be
357 // cancelled.
359 class ProxyService::InitProxyResolver {
360 public:
361 InitProxyResolver()
362 : proxy_resolver_factory_(nullptr),
363 proxy_resolver_(NULL),
364 next_state_(STATE_NONE),
365 quick_check_enabled_(true) {}
367 ~InitProxyResolver() {
368 // Note that the destruction of ProxyScriptDecider will automatically cancel
369 // any outstanding work.
372 // Begins initializing the proxy resolver; calls |callback| when done. A
373 // ProxyResolver instance will be created using |proxy_resolver_factory| and
374 // returned via |proxy_resolver| if the final result is OK.
375 int Start(scoped_ptr<ProxyResolver>* proxy_resolver,
376 ProxyResolverFactory* proxy_resolver_factory,
377 ProxyScriptFetcher* proxy_script_fetcher,
378 DhcpProxyScriptFetcher* dhcp_proxy_script_fetcher,
379 NetLog* net_log,
380 const ProxyConfig& config,
381 TimeDelta wait_delay,
382 const CompletionCallback& callback) {
383 DCHECK_EQ(STATE_NONE, next_state_);
384 proxy_resolver_ = proxy_resolver;
385 proxy_resolver_factory_ = proxy_resolver_factory;
387 decider_.reset(new ProxyScriptDecider(
388 proxy_script_fetcher, dhcp_proxy_script_fetcher, net_log));
389 decider_->set_quick_check_enabled(quick_check_enabled_);
390 config_ = config;
391 wait_delay_ = wait_delay;
392 callback_ = callback;
394 next_state_ = STATE_DECIDE_PROXY_SCRIPT;
395 return DoLoop(OK);
398 // Similar to Start(), however it skips the ProxyScriptDecider stage. Instead
399 // |effective_config|, |decider_result| and |script_data| will be used as the
400 // inputs for initializing the ProxyResolver. A ProxyResolver instance will
401 // be created using |proxy_resolver_factory| and returned via
402 // |proxy_resolver| if the final result is OK.
403 int StartSkipDecider(scoped_ptr<ProxyResolver>* proxy_resolver,
404 ProxyResolverFactory* proxy_resolver_factory,
405 const ProxyConfig& effective_config,
406 int decider_result,
407 ProxyResolverScriptData* script_data,
408 const CompletionCallback& callback) {
409 DCHECK_EQ(STATE_NONE, next_state_);
410 proxy_resolver_ = proxy_resolver;
411 proxy_resolver_factory_ = proxy_resolver_factory;
413 effective_config_ = effective_config;
414 script_data_ = script_data;
415 callback_ = callback;
417 if (decider_result != OK)
418 return decider_result;
420 next_state_ = STATE_CREATE_RESOLVER;
421 return DoLoop(OK);
424 // Returns the proxy configuration that was selected by ProxyScriptDecider.
425 // Should only be called upon completion of the initialization.
426 const ProxyConfig& effective_config() const {
427 DCHECK_EQ(STATE_NONE, next_state_);
428 return effective_config_;
431 // Returns the PAC script data that was selected by ProxyScriptDecider.
432 // Should only be called upon completion of the initialization.
433 const scoped_refptr<ProxyResolverScriptData>& script_data() {
434 DCHECK_EQ(STATE_NONE, next_state_);
435 return script_data_;
438 LoadState GetLoadState() const {
439 if (next_state_ == STATE_DECIDE_PROXY_SCRIPT_COMPLETE) {
440 // In addition to downloading, this state may also include the stall time
441 // after network change events (kDelayAfterNetworkChangesMs).
442 return LOAD_STATE_DOWNLOADING_PROXY_SCRIPT;
444 return LOAD_STATE_RESOLVING_PROXY_FOR_URL;
447 void set_quick_check_enabled(bool enabled) { quick_check_enabled_ = enabled; }
448 bool quick_check_enabled() const { return quick_check_enabled_; }
450 private:
451 enum State {
452 STATE_NONE,
453 STATE_DECIDE_PROXY_SCRIPT,
454 STATE_DECIDE_PROXY_SCRIPT_COMPLETE,
455 STATE_CREATE_RESOLVER,
456 STATE_CREATE_RESOLVER_COMPLETE,
459 int DoLoop(int result) {
460 DCHECK_NE(next_state_, STATE_NONE);
461 int rv = result;
462 do {
463 State state = next_state_;
464 next_state_ = STATE_NONE;
465 switch (state) {
466 case STATE_DECIDE_PROXY_SCRIPT:
467 DCHECK_EQ(OK, rv);
468 rv = DoDecideProxyScript();
469 break;
470 case STATE_DECIDE_PROXY_SCRIPT_COMPLETE:
471 rv = DoDecideProxyScriptComplete(rv);
472 break;
473 case STATE_CREATE_RESOLVER:
474 DCHECK_EQ(OK, rv);
475 rv = DoCreateResolver();
476 break;
477 case STATE_CREATE_RESOLVER_COMPLETE:
478 rv = DoCreateResolverComplete(rv);
479 break;
480 default:
481 NOTREACHED() << "bad state: " << state;
482 rv = ERR_UNEXPECTED;
483 break;
485 } while (rv != ERR_IO_PENDING && next_state_ != STATE_NONE);
486 return rv;
489 int DoDecideProxyScript() {
490 next_state_ = STATE_DECIDE_PROXY_SCRIPT_COMPLETE;
492 return decider_->Start(
493 config_, wait_delay_, proxy_resolver_factory_->expects_pac_bytes(),
494 base::Bind(&InitProxyResolver::OnIOCompletion, base::Unretained(this)));
497 int DoDecideProxyScriptComplete(int result) {
498 if (result != OK)
499 return result;
501 effective_config_ = decider_->effective_config();
502 script_data_ = decider_->script_data();
504 next_state_ = STATE_CREATE_RESOLVER;
505 return OK;
508 int DoCreateResolver() {
509 DCHECK(script_data_.get());
510 // TODO(eroman): Should log this latency to the NetLog.
511 next_state_ = STATE_CREATE_RESOLVER_COMPLETE;
512 return proxy_resolver_factory_->CreateProxyResolver(
513 script_data_, proxy_resolver_,
514 base::Bind(&InitProxyResolver::OnIOCompletion, base::Unretained(this)),
515 &create_resolver_request_);
518 int DoCreateResolverComplete(int result) {
519 if (result != OK)
520 proxy_resolver_->reset();
521 return result;
524 void OnIOCompletion(int result) {
525 DCHECK_NE(STATE_NONE, next_state_);
526 int rv = DoLoop(result);
527 if (rv != ERR_IO_PENDING)
528 DoCallback(rv);
531 void DoCallback(int result) {
532 DCHECK_NE(ERR_IO_PENDING, result);
533 callback_.Run(result);
536 ProxyConfig config_;
537 ProxyConfig effective_config_;
538 scoped_refptr<ProxyResolverScriptData> script_data_;
539 TimeDelta wait_delay_;
540 scoped_ptr<ProxyScriptDecider> decider_;
541 ProxyResolverFactory* proxy_resolver_factory_;
542 scoped_ptr<ProxyResolverFactory::Request> create_resolver_request_;
543 scoped_ptr<ProxyResolver>* proxy_resolver_;
544 CompletionCallback callback_;
545 State next_state_;
546 bool quick_check_enabled_;
548 DISALLOW_COPY_AND_ASSIGN(InitProxyResolver);
551 // ProxyService::ProxyScriptDeciderPoller -------------------------------------
553 // This helper class encapsulates the logic to schedule and run periodic
554 // background checks to see if the PAC script (or effective proxy configuration)
555 // has changed. If a change is detected, then the caller will be notified via
556 // the ChangeCallback.
557 class ProxyService::ProxyScriptDeciderPoller {
558 public:
559 typedef base::Callback<void(int, ProxyResolverScriptData*,
560 const ProxyConfig&)> ChangeCallback;
562 // Builds a poller helper, and starts polling for updates. Whenever a change
563 // is observed, |callback| will be invoked with the details.
565 // |config| specifies the (unresolved) proxy configuration to poll.
566 // |proxy_resolver_expects_pac_bytes| the type of proxy resolver we expect
567 // to use the resulting script data with
568 // (so it can choose the right format).
569 // |proxy_script_fetcher| this pointer must remain alive throughout our
570 // lifetime. It is the dependency that will be used
571 // for downloading proxy scripts.
572 // |dhcp_proxy_script_fetcher| similar to |proxy_script_fetcher|, but for
573 // the DHCP dependency.
574 // |init_net_error| This is the initial network error (possibly success)
575 // encountered by the first PAC fetch attempt. We use it
576 // to schedule updates more aggressively if the initial
577 // fetch resulted in an error.
578 // |init_script_data| the initial script data from the PAC fetch attempt.
579 // This is the baseline used to determine when the
580 // script's contents have changed.
581 // |net_log| the NetLog to log progress into.
582 ProxyScriptDeciderPoller(ChangeCallback callback,
583 const ProxyConfig& config,
584 bool proxy_resolver_expects_pac_bytes,
585 ProxyScriptFetcher* proxy_script_fetcher,
586 DhcpProxyScriptFetcher* dhcp_proxy_script_fetcher,
587 int init_net_error,
588 const scoped_refptr<ProxyResolverScriptData>&
589 init_script_data,
590 NetLog* net_log)
591 : change_callback_(callback),
592 config_(config),
593 proxy_resolver_expects_pac_bytes_(proxy_resolver_expects_pac_bytes),
594 proxy_script_fetcher_(proxy_script_fetcher),
595 dhcp_proxy_script_fetcher_(dhcp_proxy_script_fetcher),
596 last_error_(init_net_error),
597 last_script_data_(init_script_data),
598 last_poll_time_(TimeTicks::Now()),
599 weak_factory_(this) {
600 // Set the initial poll delay.
601 next_poll_mode_ = poll_policy()->GetNextDelay(
602 last_error_, TimeDelta::FromSeconds(-1), &next_poll_delay_);
603 TryToStartNextPoll(false);
606 void OnLazyPoll() {
607 // We have just been notified of network activity. Use this opportunity to
608 // see if we can start our next poll.
609 TryToStartNextPoll(true);
612 static const PacPollPolicy* set_policy(const PacPollPolicy* policy) {
613 const PacPollPolicy* prev = poll_policy_;
614 poll_policy_ = policy;
615 return prev;
618 void set_quick_check_enabled(bool enabled) { quick_check_enabled_ = enabled; }
619 bool quick_check_enabled() const { return quick_check_enabled_; }
621 private:
622 // Returns the effective poll policy (the one injected by unit-tests, or the
623 // default).
624 const PacPollPolicy* poll_policy() {
625 if (poll_policy_)
626 return poll_policy_;
627 return &default_poll_policy_;
630 void StartPollTimer() {
631 DCHECK(!decider_.get());
633 base::ThreadTaskRunnerHandle::Get()->PostDelayedTask(
634 FROM_HERE, base::Bind(&ProxyScriptDeciderPoller::DoPoll,
635 weak_factory_.GetWeakPtr()),
636 next_poll_delay_);
639 void TryToStartNextPoll(bool triggered_by_activity) {
640 switch (next_poll_mode_) {
641 case PacPollPolicy::MODE_USE_TIMER:
642 if (!triggered_by_activity)
643 StartPollTimer();
644 break;
646 case PacPollPolicy::MODE_START_AFTER_ACTIVITY:
647 if (triggered_by_activity && !decider_.get()) {
648 TimeDelta elapsed_time = TimeTicks::Now() - last_poll_time_;
649 if (elapsed_time >= next_poll_delay_)
650 DoPoll();
652 break;
656 void DoPoll() {
657 last_poll_time_ = TimeTicks::Now();
659 // Start the proxy script decider to see if anything has changed.
660 // TODO(eroman): Pass a proper NetLog rather than NULL.
661 decider_.reset(new ProxyScriptDecider(
662 proxy_script_fetcher_, dhcp_proxy_script_fetcher_, NULL));
663 decider_->set_quick_check_enabled(quick_check_enabled_);
664 int result = decider_->Start(
665 config_, TimeDelta(), proxy_resolver_expects_pac_bytes_,
666 base::Bind(&ProxyScriptDeciderPoller::OnProxyScriptDeciderCompleted,
667 base::Unretained(this)));
669 if (result != ERR_IO_PENDING)
670 OnProxyScriptDeciderCompleted(result);
673 void OnProxyScriptDeciderCompleted(int result) {
674 if (HasScriptDataChanged(result, decider_->script_data())) {
675 // Something has changed, we must notify the ProxyService so it can
676 // re-initialize its ProxyResolver. Note that we post a notification task
677 // rather than calling it directly -- this is done to avoid an ugly
678 // destruction sequence, since |this| might be destroyed as a result of
679 // the notification.
680 base::ThreadTaskRunnerHandle::Get()->PostTask(
681 FROM_HERE,
682 base::Bind(&ProxyScriptDeciderPoller::NotifyProxyServiceOfChange,
683 weak_factory_.GetWeakPtr(), result,
684 decider_->script_data(),
685 decider_->effective_config()));
686 return;
689 decider_.reset();
691 // Decide when the next poll should take place, and possibly start the
692 // next timer.
693 next_poll_mode_ = poll_policy()->GetNextDelay(
694 last_error_, next_poll_delay_, &next_poll_delay_);
695 TryToStartNextPoll(false);
698 bool HasScriptDataChanged(int result,
699 const scoped_refptr<ProxyResolverScriptData>& script_data) {
700 if (result != last_error_) {
701 // Something changed -- it was failing before and now it succeeded, or
702 // conversely it succeeded before and now it failed. Or it failed in
703 // both cases, however the specific failure error codes differ.
704 return true;
707 if (result != OK) {
708 // If it failed last time and failed again with the same error code this
709 // time, then nothing has actually changed.
710 return false;
713 // Otherwise if it succeeded both this time and last time, we need to look
714 // closer and see if we ended up downloading different content for the PAC
715 // script.
716 return !script_data->Equals(last_script_data_.get());
719 void NotifyProxyServiceOfChange(
720 int result,
721 const scoped_refptr<ProxyResolverScriptData>& script_data,
722 const ProxyConfig& effective_config) {
723 // Note that |this| may be deleted after calling into the ProxyService.
724 change_callback_.Run(result, script_data.get(), effective_config);
727 ChangeCallback change_callback_;
728 ProxyConfig config_;
729 bool proxy_resolver_expects_pac_bytes_;
730 ProxyScriptFetcher* proxy_script_fetcher_;
731 DhcpProxyScriptFetcher* dhcp_proxy_script_fetcher_;
733 int last_error_;
734 scoped_refptr<ProxyResolverScriptData> last_script_data_;
736 scoped_ptr<ProxyScriptDecider> decider_;
737 TimeDelta next_poll_delay_;
738 PacPollPolicy::Mode next_poll_mode_;
740 TimeTicks last_poll_time_;
742 // Polling policy injected by unit-tests. Otherwise this is NULL and the
743 // default policy will be used.
744 static const PacPollPolicy* poll_policy_;
746 const DefaultPollPolicy default_poll_policy_;
748 bool quick_check_enabled_;
750 base::WeakPtrFactory<ProxyScriptDeciderPoller> weak_factory_;
752 DISALLOW_COPY_AND_ASSIGN(ProxyScriptDeciderPoller);
755 // static
756 const ProxyService::PacPollPolicy*
757 ProxyService::ProxyScriptDeciderPoller::poll_policy_ = NULL;
759 // ProxyService::PacRequest ---------------------------------------------------
761 class ProxyService::PacRequest
762 : public base::RefCounted<ProxyService::PacRequest> {
763 public:
764 PacRequest(ProxyService* service,
765 const GURL& url,
766 int load_flags,
767 NetworkDelegate* network_delegate,
768 ProxyInfo* results,
769 const CompletionCallback& user_callback,
770 const BoundNetLog& net_log)
771 : service_(service),
772 user_callback_(user_callback),
773 results_(results),
774 url_(url),
775 load_flags_(load_flags),
776 network_delegate_(network_delegate),
777 resolve_job_(NULL),
778 config_id_(ProxyConfig::kInvalidConfigID),
779 config_source_(PROXY_CONFIG_SOURCE_UNKNOWN),
780 net_log_(net_log),
781 creation_time_(TimeTicks::Now()) {
782 DCHECK(!user_callback.is_null());
785 // Starts the resolve proxy request.
786 int Start() {
787 DCHECK(!was_cancelled());
788 DCHECK(!is_started());
790 DCHECK(service_->config_.is_valid());
792 config_id_ = service_->config_.id();
793 config_source_ = service_->config_.source();
795 return resolver()->GetProxyForURL(
796 url_, results_,
797 base::Bind(&PacRequest::QueryComplete, base::Unretained(this)),
798 &resolve_job_, net_log_);
801 bool is_started() const {
802 // Note that !! casts to bool. (VS gives a warning otherwise).
803 return !!resolve_job_;
806 void StartAndCompleteCheckingForSynchronous() {
807 int rv = service_->TryToCompleteSynchronously(url_, load_flags_,
808 network_delegate_, results_);
809 if (rv == ERR_IO_PENDING)
810 rv = Start();
811 if (rv != ERR_IO_PENDING)
812 QueryComplete(rv);
815 void CancelResolveJob() {
816 DCHECK(is_started());
817 // The request may already be running in the resolver.
818 resolver()->CancelRequest(resolve_job_);
819 resolve_job_ = NULL;
820 DCHECK(!is_started());
823 void Cancel() {
824 net_log_.AddEvent(NetLog::TYPE_CANCELLED);
826 if (is_started())
827 CancelResolveJob();
829 // Mark as cancelled, to prevent accessing this again later.
830 service_ = NULL;
831 user_callback_.Reset();
832 results_ = NULL;
834 net_log_.EndEvent(NetLog::TYPE_PROXY_SERVICE);
837 // Returns true if Cancel() has been called.
838 bool was_cancelled() const {
839 return user_callback_.is_null();
842 // Helper to call after ProxyResolver completion (both synchronous and
843 // asynchronous). Fixes up the result that is to be returned to user.
844 int QueryDidComplete(int result_code) {
845 DCHECK(!was_cancelled());
847 // This state is cleared when resolve_job_ is set to nullptr below.
848 bool script_executed = is_started();
850 // Clear |resolve_job_| so is_started() returns false while
851 // DidFinishResolvingProxy() runs.
852 resolve_job_ = nullptr;
854 // Note that DidFinishResolvingProxy might modify |results_|.
855 int rv = service_->DidFinishResolvingProxy(
856 url_, load_flags_, network_delegate_, results_, result_code, net_log_,
857 creation_time_, script_executed);
859 // Make a note in the results which configuration was in use at the
860 // time of the resolve.
861 results_->config_id_ = config_id_;
862 results_->config_source_ = config_source_;
863 results_->did_use_pac_script_ = true;
864 results_->proxy_resolve_start_time_ = creation_time_;
865 results_->proxy_resolve_end_time_ = TimeTicks::Now();
867 // Reset the state associated with in-progress-resolve.
868 config_id_ = ProxyConfig::kInvalidConfigID;
869 config_source_ = PROXY_CONFIG_SOURCE_UNKNOWN;
871 return rv;
874 BoundNetLog* net_log() { return &net_log_; }
876 LoadState GetLoadState() const {
877 if (is_started())
878 return resolver()->GetLoadState(resolve_job_);
879 return LOAD_STATE_RESOLVING_PROXY_FOR_URL;
882 private:
883 friend class base::RefCounted<ProxyService::PacRequest>;
885 ~PacRequest() {}
887 // Callback for when the ProxyResolver request has completed.
888 void QueryComplete(int result_code) {
889 result_code = QueryDidComplete(result_code);
891 // Remove this completed PacRequest from the service's pending list.
892 /// (which will probably cause deletion of |this|).
893 if (!user_callback_.is_null()) {
894 CompletionCallback callback = user_callback_;
895 service_->RemovePendingRequest(this);
896 callback.Run(result_code);
900 ProxyResolver* resolver() const { return service_->resolver_.get(); }
902 // Note that we don't hold a reference to the ProxyService. Outstanding
903 // requests are cancelled during ~ProxyService, so this is guaranteed
904 // to be valid throughout our lifetime.
905 ProxyService* service_;
906 CompletionCallback user_callback_;
907 ProxyInfo* results_;
908 GURL url_;
909 int load_flags_;
910 NetworkDelegate* network_delegate_;
911 ProxyResolver::RequestHandle resolve_job_;
912 ProxyConfig::ID config_id_; // The config id when the resolve was started.
913 ProxyConfigSource config_source_; // The source of proxy settings.
914 BoundNetLog net_log_;
915 // Time when the request was created. Stored here rather than in |results_|
916 // because the time in |results_| will be cleared.
917 TimeTicks creation_time_;
920 // ProxyService ---------------------------------------------------------------
922 ProxyService::ProxyService(ProxyConfigService* config_service,
923 scoped_ptr<ProxyResolverFactory> resolver_factory,
924 NetLog* net_log)
925 : resolver_factory_(resolver_factory.Pass()),
926 next_config_id_(1),
927 current_state_(STATE_NONE),
928 net_log_(net_log),
929 stall_proxy_auto_config_delay_(
930 TimeDelta::FromMilliseconds(kDelayAfterNetworkChangesMs)),
931 quick_check_enabled_(true) {
932 NetworkChangeNotifier::AddIPAddressObserver(this);
933 NetworkChangeNotifier::AddDNSObserver(this);
934 ResetConfigService(config_service);
937 // static
938 ProxyService* ProxyService::CreateUsingSystemProxyResolver(
939 ProxyConfigService* proxy_config_service,
940 size_t num_pac_threads,
941 NetLog* net_log) {
942 DCHECK(proxy_config_service);
944 if (!ProxyResolverFactoryForSystem::IsSupported()) {
945 VLOG(1) << "PAC support disabled because there is no system implementation";
946 return CreateWithoutProxyResolver(proxy_config_service, net_log);
949 if (num_pac_threads == 0)
950 num_pac_threads = kDefaultNumPacThreads;
952 return new ProxyService(
953 proxy_config_service,
954 make_scoped_ptr(new ProxyResolverFactoryForSystem(num_pac_threads)),
955 net_log);
958 // static
959 ProxyService* ProxyService::CreateWithoutProxyResolver(
960 ProxyConfigService* proxy_config_service,
961 NetLog* net_log) {
962 return new ProxyService(
963 proxy_config_service,
964 make_scoped_ptr(new ProxyResolverFactoryForNullResolver), net_log);
967 // static
968 ProxyService* ProxyService::CreateFixed(const ProxyConfig& pc) {
969 // TODO(eroman): This isn't quite right, won't work if |pc| specifies
970 // a PAC script.
971 return CreateUsingSystemProxyResolver(new ProxyConfigServiceFixed(pc),
972 0, NULL);
975 // static
976 ProxyService* ProxyService::CreateFixed(const std::string& proxy) {
977 ProxyConfig proxy_config;
978 proxy_config.proxy_rules().ParseFromString(proxy);
979 return ProxyService::CreateFixed(proxy_config);
982 // static
983 ProxyService* ProxyService::CreateDirect() {
984 return CreateDirectWithNetLog(NULL);
987 ProxyService* ProxyService::CreateDirectWithNetLog(NetLog* net_log) {
988 // Use direct connections.
989 return new ProxyService(
990 new ProxyConfigServiceDirect,
991 make_scoped_ptr(new ProxyResolverFactoryForNullResolver), net_log);
994 // static
995 ProxyService* ProxyService::CreateFixedFromPacResult(
996 const std::string& pac_string) {
998 // We need the settings to contain an "automatic" setting, otherwise the
999 // ProxyResolver dependency we give it will never be used.
1000 scoped_ptr<ProxyConfigService> proxy_config_service(
1001 new ProxyConfigServiceFixed(ProxyConfig::CreateAutoDetect()));
1003 return new ProxyService(
1004 proxy_config_service.release(),
1005 make_scoped_ptr(new ProxyResolverFactoryForPacResult(pac_string)), NULL);
1008 int ProxyService::ResolveProxy(const GURL& raw_url,
1009 int load_flags,
1010 ProxyInfo* result,
1011 const CompletionCallback& callback,
1012 PacRequest** pac_request,
1013 NetworkDelegate* network_delegate,
1014 const BoundNetLog& net_log) {
1015 DCHECK(!callback.is_null());
1016 return ResolveProxyHelper(raw_url,
1017 load_flags,
1018 result,
1019 callback,
1020 pac_request,
1021 network_delegate,
1022 net_log);
1025 int ProxyService::ResolveProxyHelper(const GURL& raw_url,
1026 int load_flags,
1027 ProxyInfo* result,
1028 const CompletionCallback& callback,
1029 PacRequest** pac_request,
1030 NetworkDelegate* network_delegate,
1031 const BoundNetLog& net_log) {
1032 DCHECK(CalledOnValidThread());
1034 net_log.BeginEvent(NetLog::TYPE_PROXY_SERVICE);
1036 // Notify our polling-based dependencies that a resolve is taking place.
1037 // This way they can schedule their polls in response to network activity.
1038 config_service_->OnLazyPoll();
1039 if (script_poller_.get())
1040 script_poller_->OnLazyPoll();
1042 if (current_state_ == STATE_NONE)
1043 ApplyProxyConfigIfAvailable();
1045 // Strip away any reference fragments and the username/password, as they
1046 // are not relevant to proxy resolution.
1047 GURL url = SimplifyUrlForRequest(raw_url);
1049 // Check if the request can be completed right away. (This is the case when
1050 // using a direct connection for example).
1051 int rv = TryToCompleteSynchronously(url, load_flags,
1052 network_delegate, result);
1053 if (rv != ERR_IO_PENDING) {
1054 rv = DidFinishResolvingProxy(
1055 url, load_flags, network_delegate, result, rv, net_log,
1056 callback.is_null() ? TimeTicks() : TimeTicks::Now(), false);
1057 return rv;
1060 if (callback.is_null())
1061 return ERR_IO_PENDING;
1063 scoped_refptr<PacRequest> req(
1064 new PacRequest(this, url, load_flags, network_delegate,
1065 result, callback, net_log));
1067 if (current_state_ == STATE_READY) {
1068 // Start the resolve request.
1069 rv = req->Start();
1070 if (rv != ERR_IO_PENDING)
1071 return req->QueryDidComplete(rv);
1072 } else {
1073 req->net_log()->BeginEvent(NetLog::TYPE_PROXY_SERVICE_WAITING_FOR_INIT_PAC);
1076 DCHECK_EQ(ERR_IO_PENDING, rv);
1077 DCHECK(!ContainsPendingRequest(req.get()));
1078 pending_requests_.insert(req);
1080 // Completion will be notified through |callback|, unless the caller cancels
1081 // the request using |pac_request|.
1082 if (pac_request)
1083 *pac_request = req.get();
1084 return rv; // ERR_IO_PENDING
1087 bool ProxyService:: TryResolveProxySynchronously(
1088 const GURL& raw_url,
1089 int load_flags,
1090 ProxyInfo* result,
1091 NetworkDelegate* network_delegate,
1092 const BoundNetLog& net_log) {
1093 CompletionCallback null_callback;
1094 return ResolveProxyHelper(raw_url,
1095 load_flags,
1096 result,
1097 null_callback,
1098 NULL /* pac_request*/,
1099 network_delegate,
1100 net_log) == OK;
1103 int ProxyService::TryToCompleteSynchronously(const GURL& url,
1104 int load_flags,
1105 NetworkDelegate* network_delegate,
1106 ProxyInfo* result) {
1107 DCHECK_NE(STATE_NONE, current_state_);
1109 if (current_state_ != STATE_READY)
1110 return ERR_IO_PENDING; // Still initializing.
1112 DCHECK_NE(config_.id(), ProxyConfig::kInvalidConfigID);
1114 // If it was impossible to fetch or parse the PAC script, we cannot complete
1115 // the request here and bail out.
1116 if (permanent_error_ != OK)
1117 return permanent_error_;
1119 if (config_.HasAutomaticSettings())
1120 return ERR_IO_PENDING; // Must submit the request to the proxy resolver.
1122 // Use the manual proxy settings.
1123 config_.proxy_rules().Apply(url, result);
1124 result->config_source_ = config_.source();
1125 result->config_id_ = config_.id();
1127 return OK;
1130 ProxyService::~ProxyService() {
1131 NetworkChangeNotifier::RemoveIPAddressObserver(this);
1132 NetworkChangeNotifier::RemoveDNSObserver(this);
1133 config_service_->RemoveObserver(this);
1135 // Cancel any inprogress requests.
1136 for (PendingRequests::iterator it = pending_requests_.begin();
1137 it != pending_requests_.end();
1138 ++it) {
1139 (*it)->Cancel();
1143 void ProxyService::SuspendAllPendingRequests() {
1144 for (PendingRequests::iterator it = pending_requests_.begin();
1145 it != pending_requests_.end();
1146 ++it) {
1147 PacRequest* req = it->get();
1148 if (req->is_started()) {
1149 req->CancelResolveJob();
1151 req->net_log()->BeginEvent(
1152 NetLog::TYPE_PROXY_SERVICE_WAITING_FOR_INIT_PAC);
1157 void ProxyService::SetReady() {
1158 DCHECK(!init_proxy_resolver_.get());
1159 current_state_ = STATE_READY;
1161 // Make a copy in case |this| is deleted during the synchronous completion
1162 // of one of the requests. If |this| is deleted then all of the PacRequest
1163 // instances will be Cancel()-ed.
1164 PendingRequests pending_copy = pending_requests_;
1166 for (PendingRequests::iterator it = pending_copy.begin();
1167 it != pending_copy.end();
1168 ++it) {
1169 PacRequest* req = it->get();
1170 if (!req->is_started() && !req->was_cancelled()) {
1171 req->net_log()->EndEvent(NetLog::TYPE_PROXY_SERVICE_WAITING_FOR_INIT_PAC);
1173 // Note that we re-check for synchronous completion, in case we are
1174 // no longer using a ProxyResolver (can happen if we fell-back to manual).
1175 req->StartAndCompleteCheckingForSynchronous();
1180 void ProxyService::ApplyProxyConfigIfAvailable() {
1181 DCHECK_EQ(STATE_NONE, current_state_);
1183 config_service_->OnLazyPoll();
1185 // If we have already fetched the configuration, start applying it.
1186 if (fetched_config_.is_valid()) {
1187 InitializeUsingLastFetchedConfig();
1188 return;
1191 // Otherwise we need to first fetch the configuration.
1192 current_state_ = STATE_WAITING_FOR_PROXY_CONFIG;
1194 // Retrieve the current proxy configuration from the ProxyConfigService.
1195 // If a configuration is not available yet, we will get called back later
1196 // by our ProxyConfigService::Observer once it changes.
1197 ProxyConfig config;
1198 ProxyConfigService::ConfigAvailability availability =
1199 config_service_->GetLatestProxyConfig(&config);
1200 if (availability != ProxyConfigService::CONFIG_PENDING)
1201 OnProxyConfigChanged(config, availability);
1204 void ProxyService::OnInitProxyResolverComplete(int result) {
1205 DCHECK_EQ(STATE_WAITING_FOR_INIT_PROXY_RESOLVER, current_state_);
1206 DCHECK(init_proxy_resolver_.get());
1207 DCHECK(fetched_config_.HasAutomaticSettings());
1208 config_ = init_proxy_resolver_->effective_config();
1210 // At this point we have decided which proxy settings to use (i.e. which PAC
1211 // script if any). We start up a background poller to periodically revisit
1212 // this decision. If the contents of the PAC script change, or if the
1213 // result of proxy auto-discovery changes, this poller will notice it and
1214 // will trigger a re-initialization using the newly discovered PAC.
1215 script_poller_.reset(new ProxyScriptDeciderPoller(
1216 base::Bind(&ProxyService::InitializeUsingDecidedConfig,
1217 base::Unretained(this)),
1218 fetched_config_, resolver_factory_->expects_pac_bytes(),
1219 proxy_script_fetcher_.get(), dhcp_proxy_script_fetcher_.get(), result,
1220 init_proxy_resolver_->script_data(), NULL));
1221 script_poller_->set_quick_check_enabled(quick_check_enabled_);
1223 init_proxy_resolver_.reset();
1225 // When using the out-of-process resolver, creating the resolver can complete
1226 // with the ERR_PAC_SCRIPT_TERMINATED result code, which indicates the
1227 // resolver process crashed.
1228 UMA_HISTOGRAM_BOOLEAN("Net.ProxyService.ScriptTerminatedOnInit",
1229 result == ERR_PAC_SCRIPT_TERMINATED);
1231 if (result != OK) {
1232 if (fetched_config_.pac_mandatory()) {
1233 VLOG(1) << "Failed configuring with mandatory PAC script, blocking all "
1234 "traffic.";
1235 config_ = fetched_config_;
1236 result = ERR_MANDATORY_PROXY_CONFIGURATION_FAILED;
1237 } else {
1238 VLOG(1) << "Failed configuring with PAC script, falling-back to manual "
1239 "proxy servers.";
1240 config_ = fetched_config_;
1241 config_.ClearAutomaticSettings();
1242 result = OK;
1245 permanent_error_ = result;
1247 // TODO(eroman): Make this ID unique in the case where configuration changed
1248 // due to ProxyScriptDeciderPoller.
1249 config_.set_id(fetched_config_.id());
1250 config_.set_source(fetched_config_.source());
1252 // Resume any requests which we had to defer until the PAC script was
1253 // downloaded.
1254 SetReady();
1257 int ProxyService::ReconsiderProxyAfterError(const GURL& url,
1258 int load_flags,
1259 int net_error,
1260 ProxyInfo* result,
1261 const CompletionCallback& callback,
1262 PacRequest** pac_request,
1263 NetworkDelegate* network_delegate,
1264 const BoundNetLog& net_log) {
1265 DCHECK(CalledOnValidThread());
1267 // Check to see if we have a new config since ResolveProxy was called. We
1268 // want to re-run ResolveProxy in two cases: 1) we have a new config, or 2) a
1269 // direct connection failed and we never tried the current config.
1271 DCHECK(result);
1272 bool re_resolve = result->config_id_ != config_.id();
1274 if (re_resolve) {
1275 // If we have a new config or the config was never tried, we delete the
1276 // list of bad proxies and we try again.
1277 proxy_retry_info_.clear();
1278 return ResolveProxy(url, load_flags, result, callback, pac_request,
1279 network_delegate, net_log);
1282 DCHECK(!result->is_empty());
1283 ProxyServer bad_proxy = result->proxy_server();
1285 // We don't have new proxy settings to try, try to fallback to the next proxy
1286 // in the list.
1287 bool did_fallback = result->Fallback(net_error, net_log);
1289 // Return synchronous failure if there is nothing left to fall-back to.
1290 // TODO(eroman): This is a yucky API, clean it up.
1291 return did_fallback ? OK : ERR_FAILED;
1294 bool ProxyService::MarkProxiesAsBadUntil(
1295 const ProxyInfo& result,
1296 base::TimeDelta retry_delay,
1297 const std::vector<ProxyServer>& additional_bad_proxies,
1298 const BoundNetLog& net_log) {
1299 result.proxy_list_.UpdateRetryInfoOnFallback(&proxy_retry_info_, retry_delay,
1300 false, additional_bad_proxies,
1301 OK, net_log);
1302 return result.proxy_list_.size() > (additional_bad_proxies.size() + 1);
1305 void ProxyService::ReportSuccess(const ProxyInfo& result,
1306 NetworkDelegate* network_delegate) {
1307 DCHECK(CalledOnValidThread());
1309 const ProxyRetryInfoMap& new_retry_info = result.proxy_retry_info();
1310 if (new_retry_info.empty())
1311 return;
1313 for (ProxyRetryInfoMap::const_iterator iter = new_retry_info.begin();
1314 iter != new_retry_info.end(); ++iter) {
1315 ProxyRetryInfoMap::iterator existing = proxy_retry_info_.find(iter->first);
1316 if (existing == proxy_retry_info_.end()) {
1317 proxy_retry_info_[iter->first] = iter->second;
1318 if (network_delegate) {
1319 const ProxyServer& bad_proxy =
1320 ProxyServer::FromURI(iter->first, ProxyServer::SCHEME_HTTP);
1321 const ProxyRetryInfo& proxy_retry_info = iter->second;
1322 network_delegate->NotifyProxyFallback(bad_proxy,
1323 proxy_retry_info.net_error);
1326 else if (existing->second.bad_until < iter->second.bad_until)
1327 existing->second.bad_until = iter->second.bad_until;
1329 if (net_log_) {
1330 net_log_->AddGlobalEntry(
1331 NetLog::TYPE_BAD_PROXY_LIST_REPORTED,
1332 base::Bind(&NetLogBadProxyListCallback, &new_retry_info));
1336 void ProxyService::CancelPacRequest(PacRequest* req) {
1337 DCHECK(CalledOnValidThread());
1338 DCHECK(req);
1339 req->Cancel();
1340 RemovePendingRequest(req);
1343 LoadState ProxyService::GetLoadState(const PacRequest* req) const {
1344 CHECK(req);
1345 if (current_state_ == STATE_WAITING_FOR_INIT_PROXY_RESOLVER)
1346 return init_proxy_resolver_->GetLoadState();
1347 return req->GetLoadState();
1350 bool ProxyService::ContainsPendingRequest(PacRequest* req) {
1351 return pending_requests_.count(req) == 1;
1354 void ProxyService::RemovePendingRequest(PacRequest* req) {
1355 DCHECK(ContainsPendingRequest(req));
1356 pending_requests_.erase(req);
1359 int ProxyService::DidFinishResolvingProxy(const GURL& url,
1360 int load_flags,
1361 NetworkDelegate* network_delegate,
1362 ProxyInfo* result,
1363 int result_code,
1364 const BoundNetLog& net_log,
1365 base::TimeTicks start_time,
1366 bool script_executed) {
1367 // Don't track any metrics if start_time is 0, which will happen when the user
1368 // calls |TryResolveProxySynchronously|.
1369 if (!start_time.is_null()) {
1370 TimeDelta diff = TimeTicks::Now() - start_time;
1371 if (script_executed) {
1372 // This function "fixes" the result code, so make sure script terminated
1373 // errors are tracked. Only track result codes that were a result of
1374 // script execution.
1375 UMA_HISTOGRAM_BOOLEAN("Net.ProxyService.ScriptTerminated",
1376 result_code == ERR_PAC_SCRIPT_TERMINATED);
1377 UMA_HISTOGRAM_CUSTOM_TIMES("Net.ProxyService.GetProxyUsingScriptTime",
1378 diff, base::TimeDelta::FromMicroseconds(100),
1379 base::TimeDelta::FromSeconds(20), 50);
1381 UMA_HISTOGRAM_BOOLEAN("Net.ProxyService.ResolvedUsingScript",
1382 script_executed);
1383 UMA_HISTOGRAM_CUSTOM_TIMES("Net.ProxyService.ResolveProxyTime", diff,
1384 base::TimeDelta::FromMicroseconds(100),
1385 base::TimeDelta::FromSeconds(20), 50);
1388 // Log the result of the proxy resolution.
1389 if (result_code == OK) {
1390 // Allow the network delegate to interpose on the resolution decision,
1391 // possibly modifying the ProxyInfo.
1392 if (network_delegate)
1393 network_delegate->NotifyResolveProxy(url, load_flags, *this, result);
1395 // When logging all events is enabled, dump the proxy list.
1396 if (net_log.IsCapturing()) {
1397 net_log.AddEvent(
1398 NetLog::TYPE_PROXY_SERVICE_RESOLVED_PROXY_LIST,
1399 base::Bind(&NetLogFinishedResolvingProxyCallback, result));
1401 result->DeprioritizeBadProxies(proxy_retry_info_);
1402 } else {
1403 net_log.AddEventWithNetErrorCode(
1404 NetLog::TYPE_PROXY_SERVICE_RESOLVED_PROXY_LIST, result_code);
1406 bool reset_config = result_code == ERR_PAC_SCRIPT_TERMINATED;
1407 if (!config_.pac_mandatory()) {
1408 // Fall-back to direct when the proxy resolver fails. This corresponds
1409 // with a javascript runtime error in the PAC script.
1411 // This implicit fall-back to direct matches Firefox 3.5 and
1412 // Internet Explorer 8. For more information, see:
1414 // http://www.chromium.org/developers/design-documents/proxy-settings-fallback
1415 result->UseDirect();
1416 result_code = OK;
1418 // Allow the network delegate to interpose on the resolution decision,
1419 // possibly modifying the ProxyInfo.
1420 if (network_delegate)
1421 network_delegate->NotifyResolveProxy(url, load_flags, *this, result);
1422 } else {
1423 result_code = ERR_MANDATORY_PROXY_CONFIGURATION_FAILED;
1425 if (reset_config) {
1426 ResetProxyConfig(false);
1427 // If the ProxyResolver crashed, force it to be re-initialized for the
1428 // next request by resetting the proxy config. If there are other pending
1429 // requests, trigger the recreation immediately so those requests retry.
1430 if (pending_requests_.size() > 1)
1431 ApplyProxyConfigIfAvailable();
1435 net_log.EndEvent(NetLog::TYPE_PROXY_SERVICE);
1436 return result_code;
1439 void ProxyService::SetProxyScriptFetchers(
1440 ProxyScriptFetcher* proxy_script_fetcher,
1441 scoped_ptr<DhcpProxyScriptFetcher> dhcp_proxy_script_fetcher) {
1442 DCHECK(CalledOnValidThread());
1443 State previous_state = ResetProxyConfig(false);
1444 proxy_script_fetcher_.reset(proxy_script_fetcher);
1445 dhcp_proxy_script_fetcher_ = dhcp_proxy_script_fetcher.Pass();
1446 if (previous_state != STATE_NONE)
1447 ApplyProxyConfigIfAvailable();
1450 ProxyScriptFetcher* ProxyService::GetProxyScriptFetcher() const {
1451 DCHECK(CalledOnValidThread());
1452 return proxy_script_fetcher_.get();
1455 ProxyService::State ProxyService::ResetProxyConfig(bool reset_fetched_config) {
1456 DCHECK(CalledOnValidThread());
1457 State previous_state = current_state_;
1459 permanent_error_ = OK;
1460 proxy_retry_info_.clear();
1461 script_poller_.reset();
1462 init_proxy_resolver_.reset();
1463 SuspendAllPendingRequests();
1464 resolver_.reset();
1465 config_ = ProxyConfig();
1466 if (reset_fetched_config)
1467 fetched_config_ = ProxyConfig();
1468 current_state_ = STATE_NONE;
1470 return previous_state;
1473 void ProxyService::ResetConfigService(
1474 ProxyConfigService* new_proxy_config_service) {
1475 DCHECK(CalledOnValidThread());
1476 State previous_state = ResetProxyConfig(true);
1478 // Release the old configuration service.
1479 if (config_service_.get())
1480 config_service_->RemoveObserver(this);
1482 // Set the new configuration service.
1483 config_service_.reset(new_proxy_config_service);
1484 config_service_->AddObserver(this);
1486 if (previous_state != STATE_NONE)
1487 ApplyProxyConfigIfAvailable();
1490 void ProxyService::ForceReloadProxyConfig() {
1491 DCHECK(CalledOnValidThread());
1492 ResetProxyConfig(false);
1493 ApplyProxyConfigIfAvailable();
1496 // static
1497 ProxyConfigService* ProxyService::CreateSystemProxyConfigService(
1498 const scoped_refptr<base::SingleThreadTaskRunner>& io_task_runner,
1499 const scoped_refptr<base::SingleThreadTaskRunner>& file_task_runner) {
1500 #if defined(OS_WIN)
1501 return new ProxyConfigServiceWin();
1502 #elif defined(OS_IOS)
1503 return new ProxyConfigServiceIOS();
1504 #elif defined(OS_MACOSX)
1505 return new ProxyConfigServiceMac(io_task_runner);
1506 #elif defined(OS_CHROMEOS)
1507 LOG(ERROR) << "ProxyConfigService for ChromeOS should be created in "
1508 << "profile_io_data.cc::CreateProxyConfigService and this should "
1509 << "be used only for examples.";
1510 return new UnsetProxyConfigService;
1511 #elif defined(OS_LINUX)
1512 ProxyConfigServiceLinux* linux_config_service =
1513 new ProxyConfigServiceLinux();
1515 // Assume we got called on the thread that runs the default glib
1516 // main loop, so the current thread is where we should be running
1517 // gconf calls from.
1518 scoped_refptr<base::SingleThreadTaskRunner> glib_thread_task_runner =
1519 base::ThreadTaskRunnerHandle::Get();
1521 // Synchronously fetch the current proxy config (since we are running on
1522 // glib_default_loop). Additionally register for notifications (delivered in
1523 // either |glib_default_loop| or |file_task_runner|) to keep us updated when
1524 // the proxy config changes.
1525 linux_config_service->SetupAndFetchInitialConfig(
1526 glib_thread_task_runner, io_task_runner, file_task_runner);
1528 return linux_config_service;
1529 #elif defined(OS_ANDROID)
1530 return new ProxyConfigServiceAndroid(io_task_runner,
1531 base::ThreadTaskRunnerHandle::Get());
1532 #else
1533 LOG(WARNING) << "Failed to choose a system proxy settings fetcher "
1534 "for this platform.";
1535 return new ProxyConfigServiceDirect();
1536 #endif
1539 // static
1540 const ProxyService::PacPollPolicy* ProxyService::set_pac_script_poll_policy(
1541 const PacPollPolicy* policy) {
1542 return ProxyScriptDeciderPoller::set_policy(policy);
1545 // static
1546 scoped_ptr<ProxyService::PacPollPolicy>
1547 ProxyService::CreateDefaultPacPollPolicy() {
1548 return scoped_ptr<PacPollPolicy>(new DefaultPollPolicy());
1551 void ProxyService::OnProxyConfigChanged(
1552 const ProxyConfig& config,
1553 ProxyConfigService::ConfigAvailability availability) {
1554 // Retrieve the current proxy configuration from the ProxyConfigService.
1555 // If a configuration is not available yet, we will get called back later
1556 // by our ProxyConfigService::Observer once it changes.
1557 ProxyConfig effective_config;
1558 switch (availability) {
1559 case ProxyConfigService::CONFIG_PENDING:
1560 // ProxyConfigService implementors should never pass CONFIG_PENDING.
1561 NOTREACHED() << "Proxy config change with CONFIG_PENDING availability!";
1562 return;
1563 case ProxyConfigService::CONFIG_VALID:
1564 effective_config = config;
1565 break;
1566 case ProxyConfigService::CONFIG_UNSET:
1567 effective_config = ProxyConfig::CreateDirect();
1568 break;
1571 // Emit the proxy settings change to the NetLog stream.
1572 if (net_log_) {
1573 net_log_->AddGlobalEntry(NetLog::TYPE_PROXY_CONFIG_CHANGED,
1574 base::Bind(&NetLogProxyConfigChangedCallback,
1575 &fetched_config_, &effective_config));
1578 // Set the new configuration as the most recently fetched one.
1579 fetched_config_ = effective_config;
1580 fetched_config_.set_id(1); // Needed for a later DCHECK of is_valid().
1582 InitializeUsingLastFetchedConfig();
1585 void ProxyService::InitializeUsingLastFetchedConfig() {
1586 ResetProxyConfig(false);
1588 DCHECK(fetched_config_.is_valid());
1590 // Increment the ID to reflect that the config has changed.
1591 fetched_config_.set_id(next_config_id_++);
1593 if (!fetched_config_.HasAutomaticSettings()) {
1594 config_ = fetched_config_;
1595 SetReady();
1596 return;
1599 // Start downloading + testing the PAC scripts for this new configuration.
1600 current_state_ = STATE_WAITING_FOR_INIT_PROXY_RESOLVER;
1602 // If we changed networks recently, we should delay running proxy auto-config.
1603 TimeDelta wait_delay =
1604 stall_proxy_autoconfig_until_ - TimeTicks::Now();
1606 init_proxy_resolver_.reset(new InitProxyResolver());
1607 init_proxy_resolver_->set_quick_check_enabled(quick_check_enabled_);
1608 int rv = init_proxy_resolver_->Start(
1609 &resolver_, resolver_factory_.get(), proxy_script_fetcher_.get(),
1610 dhcp_proxy_script_fetcher_.get(), net_log_, fetched_config_, wait_delay,
1611 base::Bind(&ProxyService::OnInitProxyResolverComplete,
1612 base::Unretained(this)));
1614 if (rv != ERR_IO_PENDING)
1615 OnInitProxyResolverComplete(rv);
1618 void ProxyService::InitializeUsingDecidedConfig(
1619 int decider_result,
1620 ProxyResolverScriptData* script_data,
1621 const ProxyConfig& effective_config) {
1622 DCHECK(fetched_config_.is_valid());
1623 DCHECK(fetched_config_.HasAutomaticSettings());
1625 ResetProxyConfig(false);
1627 current_state_ = STATE_WAITING_FOR_INIT_PROXY_RESOLVER;
1629 init_proxy_resolver_.reset(new InitProxyResolver());
1630 int rv = init_proxy_resolver_->StartSkipDecider(
1631 &resolver_, resolver_factory_.get(), effective_config, decider_result,
1632 script_data, base::Bind(&ProxyService::OnInitProxyResolverComplete,
1633 base::Unretained(this)));
1635 if (rv != ERR_IO_PENDING)
1636 OnInitProxyResolverComplete(rv);
1639 void ProxyService::OnIPAddressChanged() {
1640 // See the comment block by |kDelayAfterNetworkChangesMs| for info.
1641 stall_proxy_autoconfig_until_ =
1642 TimeTicks::Now() + stall_proxy_auto_config_delay_;
1644 State previous_state = ResetProxyConfig(false);
1645 if (previous_state != STATE_NONE)
1646 ApplyProxyConfigIfAvailable();
1649 void ProxyService::OnDNSChanged() {
1650 OnIPAddressChanged();
1653 } // namespace net