mirror of
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288 lines
11 KiB
C++
288 lines
11 KiB
C++
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// Copyright (c) 2012 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "net/url_request/url_request_throttler_entry.h"
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#include <cmath>
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#include <utility>
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#include "base/logging.h"
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#include "base/metrics/field_trial.h"
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#include "base/metrics/histogram_macros.h"
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#include "base/rand_util.h"
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#include "base/strings/string_number_conversions.h"
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#include "base/values.h"
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#include "net/base/load_flags.h"
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#include "net/log/net_log_capture_mode.h"
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#include "net/log/net_log_event_type.h"
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#include "net/log/net_log_source_type.h"
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#include "net/url_request/url_request.h"
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#include "net/url_request/url_request_context.h"
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#include "net/url_request/url_request_throttler_manager.h"
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namespace net {
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const int URLRequestThrottlerEntry::kDefaultSlidingWindowPeriodMs = 2000;
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const int URLRequestThrottlerEntry::kDefaultMaxSendThreshold = 20;
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// This set of back-off parameters will (at maximum values, i.e. without
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// the reduction caused by jitter) add 0-41% (distributed uniformly
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// in that range) to the "perceived downtime" of the remote server, once
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// exponential back-off kicks in and is throttling requests for more than
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// about a second at a time. Once the maximum back-off is reached, the added
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// perceived downtime decreases rapidly, percentage-wise.
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//
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// Another way to put it is that the maximum additional perceived downtime
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// with these numbers is a couple of seconds shy of 15 minutes, and such
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// a delay would not occur until the remote server has been actually
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// unavailable at the end of each back-off period for a total of about
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// 48 minutes.
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//
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// Ignoring the first couple of errors is just a conservative measure to
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// avoid false positives. It should help avoid back-off from kicking in e.g.
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// on flaky connections.
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const int URLRequestThrottlerEntry::kDefaultNumErrorsToIgnore = 2;
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const int URLRequestThrottlerEntry::kDefaultInitialDelayMs = 700;
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const double URLRequestThrottlerEntry::kDefaultMultiplyFactor = 1.4;
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const double URLRequestThrottlerEntry::kDefaultJitterFactor = 0.4;
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const int URLRequestThrottlerEntry::kDefaultMaximumBackoffMs = 15 * 60 * 1000;
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const int URLRequestThrottlerEntry::kDefaultEntryLifetimeMs = 2 * 60 * 1000;
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// Returns NetLog parameters when a request is rejected by throttling.
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std::unique_ptr<base::Value> NetLogRejectedRequestCallback(
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const std::string* url_id,
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int num_failures,
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const base::TimeDelta& release_after,
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NetLogCaptureMode /* capture_mode */) {
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std::unique_ptr<base::DictionaryValue> dict(new base::DictionaryValue());
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dict->SetString("url", *url_id);
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dict->SetInteger("num_failures", num_failures);
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dict->SetInteger("release_after_ms",
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static_cast<int>(release_after.InMilliseconds()));
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return std::move(dict);
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}
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URLRequestThrottlerEntry::URLRequestThrottlerEntry(
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URLRequestThrottlerManager* manager,
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const std::string& url_id)
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: sliding_window_period_(
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base::TimeDelta::FromMilliseconds(kDefaultSlidingWindowPeriodMs)),
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max_send_threshold_(kDefaultMaxSendThreshold),
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is_backoff_disabled_(false),
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backoff_entry_(&backoff_policy_),
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manager_(manager),
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url_id_(url_id),
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net_log_(NetLogWithSource::Make(
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manager->net_log(),
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NetLogSourceType::EXPONENTIAL_BACKOFF_THROTTLING)) {
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DCHECK(manager_);
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Initialize();
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}
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URLRequestThrottlerEntry::URLRequestThrottlerEntry(
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URLRequestThrottlerManager* manager,
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const std::string& url_id,
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int sliding_window_period_ms,
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int max_send_threshold,
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int initial_backoff_ms,
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double multiply_factor,
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double jitter_factor,
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int maximum_backoff_ms)
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: sliding_window_period_(
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base::TimeDelta::FromMilliseconds(sliding_window_period_ms)),
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max_send_threshold_(max_send_threshold),
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is_backoff_disabled_(false),
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backoff_entry_(&backoff_policy_),
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manager_(manager),
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url_id_(url_id) {
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DCHECK_GT(sliding_window_period_ms, 0);
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DCHECK_GT(max_send_threshold_, 0);
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DCHECK_GE(initial_backoff_ms, 0);
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DCHECK_GT(multiply_factor, 0);
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DCHECK_GE(jitter_factor, 0.0);
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DCHECK_LT(jitter_factor, 1.0);
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DCHECK_GE(maximum_backoff_ms, 0);
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DCHECK(manager_);
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Initialize();
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backoff_policy_.initial_delay_ms = initial_backoff_ms;
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backoff_policy_.multiply_factor = multiply_factor;
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backoff_policy_.jitter_factor = jitter_factor;
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backoff_policy_.maximum_backoff_ms = maximum_backoff_ms;
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backoff_policy_.entry_lifetime_ms = -1;
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backoff_policy_.num_errors_to_ignore = 0;
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backoff_policy_.always_use_initial_delay = false;
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}
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bool URLRequestThrottlerEntry::IsEntryOutdated() const {
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// This function is called by the URLRequestThrottlerManager to determine
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// whether entries should be discarded from its url_entries_ map. We
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// want to ensure that it does not remove entries from the map while there
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// are clients (objects other than the manager) holding references to
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// the entry, otherwise separate clients could end up holding separate
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// entries for a request to the same URL, which is undesirable. Therefore,
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// if an entry has more than one reference (the map will always hold one),
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// it should not be considered outdated.
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//
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// We considered whether to make URLRequestThrottlerEntry objects
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// non-refcounted, but since any means of knowing whether they are
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// currently in use by others than the manager would be more or less
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// equivalent to a refcount, we kept them refcounted.
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if (!HasOneRef())
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return false;
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// If there are send events in the sliding window period, we still need this
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// entry.
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if (!send_log_.empty() &&
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send_log_.back() + sliding_window_period_ > ImplGetTimeNow()) {
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return false;
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}
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return GetBackoffEntry()->CanDiscard();
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}
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void URLRequestThrottlerEntry::DisableBackoffThrottling() {
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is_backoff_disabled_ = true;
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}
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void URLRequestThrottlerEntry::DetachManager() {
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manager_ = NULL;
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}
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bool URLRequestThrottlerEntry::ShouldRejectRequest(
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const URLRequest& request) const {
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bool reject_request = false;
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if (!is_backoff_disabled_ && GetBackoffEntry()->ShouldRejectRequest()) {
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net_log_.AddEvent(NetLogEventType::THROTTLING_REJECTED_REQUEST,
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base::Bind(&NetLogRejectedRequestCallback, &url_id_,
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GetBackoffEntry()->failure_count(),
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GetBackoffEntry()->GetTimeUntilRelease()));
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reject_request = true;
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}
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int reject_count = reject_request ? 1 : 0;
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UMA_HISTOGRAM_ENUMERATION(
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"Throttling.RequestThrottled", reject_count, 2);
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return reject_request;
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}
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int64_t URLRequestThrottlerEntry::ReserveSendingTimeForNextRequest(
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const base::TimeTicks& earliest_time) {
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base::TimeTicks now = ImplGetTimeNow();
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// If a lot of requests were successfully made recently,
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// sliding_window_release_time_ may be greater than
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// exponential_backoff_release_time_.
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base::TimeTicks recommended_sending_time =
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std::max(std::max(now, earliest_time),
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std::max(GetBackoffEntry()->GetReleaseTime(),
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sliding_window_release_time_));
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DCHECK(send_log_.empty() ||
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recommended_sending_time >= send_log_.back());
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// Log the new send event.
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send_log_.push(recommended_sending_time);
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sliding_window_release_time_ = recommended_sending_time;
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// Drop the out-of-date events in the event list.
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// We don't need to worry that the queue may become empty during this
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// operation, since the last element is sliding_window_release_time_.
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while ((send_log_.front() + sliding_window_period_ <=
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sliding_window_release_time_) ||
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send_log_.size() > static_cast<unsigned>(max_send_threshold_)) {
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send_log_.pop();
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}
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// Check if there are too many send events in recent time.
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if (send_log_.size() == static_cast<unsigned>(max_send_threshold_))
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sliding_window_release_time_ = send_log_.front() + sliding_window_period_;
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return (recommended_sending_time - now).InMillisecondsRoundedUp();
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}
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base::TimeTicks
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URLRequestThrottlerEntry::GetExponentialBackoffReleaseTime() const {
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// If a site opts out, it's likely because they have problems that trigger
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// the back-off mechanism when it shouldn't be triggered, in which case
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// returning the calculated back-off release time would probably be the
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// wrong thing to do (i.e. it would likely be too long). Therefore, we
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// return "now" so that retries are not delayed.
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if (is_backoff_disabled_)
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return ImplGetTimeNow();
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return GetBackoffEntry()->GetReleaseTime();
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}
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void URLRequestThrottlerEntry::UpdateWithResponse(int status_code) {
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GetBackoffEntry()->InformOfRequest(IsConsideredSuccess(status_code));
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}
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void URLRequestThrottlerEntry::ReceivedContentWasMalformed(int response_code) {
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// A malformed body can only occur when the request to fetch a resource
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// was successful. Therefore, in such a situation, we will receive one
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// call to ReceivedContentWasMalformed() and one call to
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// UpdateWithResponse() with a response categorized as "good". To end
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// up counting one failure, we need to count two failures here against
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// the one success in UpdateWithResponse().
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//
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// We do nothing for a response that is already being considered an error
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// based on its status code (otherwise we would count 3 errors instead of 1).
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if (IsConsideredSuccess(response_code)) {
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GetBackoffEntry()->InformOfRequest(false);
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GetBackoffEntry()->InformOfRequest(false);
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}
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}
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URLRequestThrottlerEntry::~URLRequestThrottlerEntry() {
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}
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void URLRequestThrottlerEntry::Initialize() {
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sliding_window_release_time_ = base::TimeTicks::Now();
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backoff_policy_.num_errors_to_ignore = kDefaultNumErrorsToIgnore;
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backoff_policy_.initial_delay_ms = kDefaultInitialDelayMs;
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backoff_policy_.multiply_factor = kDefaultMultiplyFactor;
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backoff_policy_.jitter_factor = kDefaultJitterFactor;
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backoff_policy_.maximum_backoff_ms = kDefaultMaximumBackoffMs;
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backoff_policy_.entry_lifetime_ms = kDefaultEntryLifetimeMs;
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backoff_policy_.always_use_initial_delay = false;
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}
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bool URLRequestThrottlerEntry::IsConsideredSuccess(int response_code) {
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// We throttle only for the status codes most likely to indicate the server
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// is failing because it is too busy or otherwise are likely to be
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// because of DDoS.
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//
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// 500 is the generic error when no better message is suitable, and
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// as such does not necessarily indicate a temporary state, but
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// other status codes cover most of the permanent error states.
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// 503 is explicitly documented as a temporary state where the server
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// is either overloaded or down for maintenance.
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// 509 is the (non-standard but widely implemented) Bandwidth Limit Exceeded
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// status code, which might indicate DDoS.
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//
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// We do not back off on 502 or 504, which are reported by gateways
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// (proxies) on timeouts or failures, because in many cases these requests
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// have not made it to the destination server and so we do not actually
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// know that it is down or busy. One degenerate case could be a proxy on
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// localhost, where you are not actually connected to the network.
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return !(response_code == 500 || response_code == 503 ||
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response_code == 509);
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}
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base::TimeTicks URLRequestThrottlerEntry::ImplGetTimeNow() const {
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return base::TimeTicks::Now();
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}
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const BackoffEntry* URLRequestThrottlerEntry::GetBackoffEntry() const {
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return &backoff_entry_;
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}
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BackoffEntry* URLRequestThrottlerEntry::GetBackoffEntry() {
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return &backoff_entry_;
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}
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} // namespace net
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