// Copyright 2016 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "net/nqe/throughput_analyzer.h" #include #include "base/location.h" #include "base/metrics/histogram_macros.h" #include "base/single_thread_task_runner.h" #include "base/time/tick_clock.h" #include "net/base/host_port_pair.h" #include "net/base/network_activity_monitor.h" #include "net/base/url_util.h" #include "net/nqe/network_quality_estimator_params.h" #include "net/nqe/network_quality_estimator_util.h" #include "net/nqe/network_quality_provider.h" #include "net/url_request/url_request.h" #include "net/url_request/url_request_context.h" namespace net { class HostResolver; namespace { // Maximum number of accuracy degrading requests, and requests that do not // degrade accuracy held in the memory. static const size_t kMaxRequestsSize = 300; // Returns true if the request should be discarded because it does not provide // meaningful observation. bool ShouldDiscardRequest(const URLRequest& request) { return request.method() != "GET"; } } // namespace namespace nqe { namespace internal { ThroughputAnalyzer::ThroughputAnalyzer( const NetworkQualityProvider* network_quality_provider, const NetworkQualityEstimatorParams* params, scoped_refptr task_runner, ThroughputObservationCallback throughput_observation_callback, base::TickClock* tick_clock, const NetLogWithSource& net_log) : network_quality_provider_(network_quality_provider), params_(params), task_runner_(task_runner), throughput_observation_callback_(throughput_observation_callback), tick_clock_(tick_clock), last_connection_change_(tick_clock_->NowTicks()), window_start_time_(base::TimeTicks()), bits_received_at_window_start_(0), disable_throughput_measurements_(false), use_localhost_requests_for_tests_(false), net_log_(net_log) { DCHECK(tick_clock_); DCHECK(network_quality_provider_); DCHECK(params_); DCHECK(task_runner_); DCHECK(!IsCurrentlyTrackingThroughput()); } ThroughputAnalyzer::~ThroughputAnalyzer() { DCHECK(thread_checker_.CalledOnValidThread()); } void ThroughputAnalyzer::MaybeStartThroughputObservationWindow() { DCHECK(thread_checker_.CalledOnValidThread()); if (disable_throughput_measurements_) return; // Throughput observation window can be started only if no accuracy degrading // requests are currently active, the observation window is not already // started, and there is at least one active request that does not degrade // throughput computation accuracy. if (accuracy_degrading_requests_.size() > 0 || IsCurrentlyTrackingThroughput() || requests_.size() < params_->throughput_min_requests_in_flight()) { return; } window_start_time_ = tick_clock_->NowTicks(); bits_received_at_window_start_ = GetBitsReceived(); } void ThroughputAnalyzer::EndThroughputObservationWindow() { DCHECK(thread_checker_.CalledOnValidThread()); // Mark the throughput observation window as stopped by resetting the window // parameters. window_start_time_ = base::TimeTicks(); bits_received_at_window_start_ = 0; DCHECK(!IsCurrentlyTrackingThroughput()); } bool ThroughputAnalyzer::IsCurrentlyTrackingThroughput() const { DCHECK(thread_checker_.CalledOnValidThread()); if (window_start_time_.is_null()) return false; // If the throughput observation window is running, then at least one request // that does not degrade throughput computation accuracy should be active. DCHECK_GT(requests_.size(), 0U); // If the throughput observation window is running, then no accuracy degrading // requests should be currently active. DCHECK_EQ(0U, accuracy_degrading_requests_.size()); DCHECK_LE(params_->throughput_min_requests_in_flight(), requests_.size()); return true; } void ThroughputAnalyzer::SetTickClockForTesting(base::TickClock* tick_clock) { DCHECK(thread_checker_.CalledOnValidThread()); tick_clock_ = tick_clock; DCHECK(tick_clock_); } void ThroughputAnalyzer::NotifyStartTransaction(const URLRequest& request) { DCHECK(thread_checker_.CalledOnValidThread()); if (disable_throughput_measurements_) return; const bool degrades_accuracy = DegradesAccuracy(request); if (degrades_accuracy) { accuracy_degrading_requests_.insert(&request); BoundRequestsSize(); // Call EndThroughputObservationWindow since observations cannot be // recorded in the presence of requests that degrade throughput computation // accuracy. EndThroughputObservationWindow(); DCHECK(!IsCurrentlyTrackingThroughput()); return; } else if (ShouldDiscardRequest(request)) { return; } EraseHangingRequests(request); requests_[&request] = tick_clock_->NowTicks(); BoundRequestsSize(); MaybeStartThroughputObservationWindow(); } void ThroughputAnalyzer::NotifyBytesRead(const URLRequest& request) { DCHECK(thread_checker_.CalledOnValidThread()); if (disable_throughput_measurements_) return; EraseHangingRequests(request); if (requests_.erase(&request) == 0) return; // Update the time when the bytes were received for |request|. requests_[&request] = tick_clock_->NowTicks(); } void ThroughputAnalyzer::NotifyRequestCompleted(const URLRequest& request) { DCHECK(thread_checker_.CalledOnValidThread()); if (disable_throughput_measurements_) return; // Return early if the |request| is not present in the collections of // requests. This may happen when a completed request is later destroyed. if (requests_.find(&request) == requests_.end() && accuracy_degrading_requests_.find(&request) == accuracy_degrading_requests_.end()) { return; } EraseHangingRequests(request); int32_t downstream_kbps = -1; if (MaybeGetThroughputObservation(&downstream_kbps)) { // Notify the provided callback. task_runner_->PostTask( FROM_HERE, base::Bind(throughput_observation_callback_, downstream_kbps)); } // Try to remove the request from either |accuracy_degrading_requests_| or // |requests_|, since it is no longer active. if (accuracy_degrading_requests_.erase(&request) == 1u) { // |request| cannot be in both |accuracy_degrading_requests_| and // |requests_| at the same time. DCHECK(requests_.end() == requests_.find(&request)); // If a request that degraded the accuracy of throughput computation has // completed, then it may be possible to start the tracking window. MaybeStartThroughputObservationWindow(); return; } if (requests_.erase(&request) == 1u) { // If there is no network activity, stop tracking throughput to prevent // recording of any observations. if (requests_.size() < params_->throughput_min_requests_in_flight()) EndThroughputObservationWindow(); return; } MaybeStartThroughputObservationWindow(); } bool ThroughputAnalyzer::MaybeGetThroughputObservation( int32_t* downstream_kbps) { DCHECK(thread_checker_.CalledOnValidThread()); DCHECK(downstream_kbps); if (disable_throughput_measurements_) return false; // Return early if the window that records downstream throughput is currently // inactive because throughput observations can be taken only when the window // is active. if (!IsCurrentlyTrackingThroughput()) return false; DCHECK_GE(requests_.size(), params_->throughput_min_requests_in_flight()); DCHECK_EQ(0U, accuracy_degrading_requests_.size()); base::TimeTicks now = tick_clock_->NowTicks(); int64_t bits_received = GetBitsReceived() - bits_received_at_window_start_; DCHECK_LE(window_start_time_, now); DCHECK_LE(0, bits_received); const base::TimeDelta duration = now - window_start_time_; // Ignore tiny/short transfers, which will not produce accurate rates. Skip // the checks if |use_small_responses_| is true. if (!params_->use_small_responses() && bits_received < params_->GetThroughputMinTransferSizeBits()) { return false; } double downstream_kbps_double = (bits_received * 1.0f) / duration.InMillisecondsF(); // Round-up |downstream_kbps_double|. *downstream_kbps = static_cast(std::ceil(downstream_kbps_double)); DCHECK(IsCurrentlyTrackingThroughput()); // Stop the observation window since a throughput measurement has been taken. EndThroughputObservationWindow(); DCHECK(!IsCurrentlyTrackingThroughput()); // Maybe start the throughput observation window again so that another // throughput measurement can be taken. MaybeStartThroughputObservationWindow(); return true; } void ThroughputAnalyzer::OnConnectionTypeChanged() { DCHECK(thread_checker_.CalledOnValidThread()); // All the requests that were previously not degrading the througpput // computation are now spanning a connection change event. These requests // would now degrade the throughput computation accuracy. So, move them to // |accuracy_degrading_requests_|. for (Requests::iterator it = requests_.begin(); it != requests_.end(); ++it) { accuracy_degrading_requests_.insert(it->first); } requests_.clear(); BoundRequestsSize(); EndThroughputObservationWindow(); last_connection_change_ = tick_clock_->NowTicks(); } void ThroughputAnalyzer::SetUseLocalHostRequestsForTesting( bool use_localhost_requests) { DCHECK(thread_checker_.CalledOnValidThread()); use_localhost_requests_for_tests_ = use_localhost_requests; } int64_t ThroughputAnalyzer::GetBitsReceived() const { DCHECK(thread_checker_.CalledOnValidThread()); return NetworkActivityMonitor::GetInstance()->GetBytesReceived() * 8; } size_t ThroughputAnalyzer::CountInFlightRequests() const { DCHECK(thread_checker_.CalledOnValidThread()); return requests_.size(); } bool ThroughputAnalyzer::DegradesAccuracy(const URLRequest& request) const { DCHECK(thread_checker_.CalledOnValidThread()); bool private_network_request = nqe::internal::IsPrivateHost( request.context()->host_resolver(), HostPortPair(request.url().host(), request.url().EffectiveIntPort())); return !(use_localhost_requests_for_tests_ || !private_network_request) || request.creation_time() < last_connection_change_; } void ThroughputAnalyzer::BoundRequestsSize() { if (accuracy_degrading_requests_.size() > kMaxRequestsSize) { // Clear |accuracy_degrading_requests_| since its size has exceeded its // capacity. accuracy_degrading_requests_.clear(); // Disable throughput measurements since |this| has lost track of the // accuracy degrading requests. disable_throughput_measurements_ = true; // Reset other variables related to tracking since the tracking is now // disabled. EndThroughputObservationWindow(); DCHECK(!IsCurrentlyTrackingThroughput()); requests_.clear(); // TODO(tbansal): crbug.com/609174 Add UMA to record how frequently this // happens. } if (requests_.size() > kMaxRequestsSize) { // Clear |requests_| since its size has exceeded its capacity. EndThroughputObservationWindow(); DCHECK(!IsCurrentlyTrackingThroughput()); requests_.clear(); // TODO(tbansal): crbug.com/609174 Add UMA to record how frequently this // happens. } } void ThroughputAnalyzer::EraseHangingRequests(const URLRequest& request) { DCHECK(thread_checker_.CalledOnValidThread()); if (params_->hanging_request_duration_http_rtt_multiplier() <= 0) { // Experiment is not enabled. return; } const base::TimeTicks now = tick_clock_->NowTicks(); const base::TimeDelta http_rtt = network_quality_provider_->GetHttpRTT().value_or( base::TimeDelta::FromSeconds(60)); size_t count_request_erased = 0; Requests::iterator request_it = requests_.find(&request); if (request_it != requests_.end()) { base::TimeDelta time_since_last_received = now - request_it->second; if (time_since_last_received >= params_->hanging_request_duration_http_rtt_multiplier() * http_rtt && time_since_last_received >= params_->hanging_request_min_duration()) { count_request_erased++; requests_.erase(request_it); } } if (now - last_hanging_request_check_ >= base::TimeDelta::FromSeconds(1)) { // Hanging request check is done at most once per second. last_hanging_request_check_ = now; for (Requests::iterator it = requests_.begin(); it != requests_.end();) { base::TimeDelta time_since_last_received = now - it->second; if (time_since_last_received >= params_->hanging_request_duration_http_rtt_multiplier() * http_rtt && time_since_last_received >= params_->hanging_request_min_duration()) { count_request_erased++; requests_.erase(it++); } else { ++it; } } } UMA_HISTOGRAM_COUNTS_100("NQE.ThroughputAnalyzer.HangingRequests.Erased", count_request_erased); UMA_HISTOGRAM_COUNTS_100("NQE.ThroughputAnalyzer.HangingRequests.NotErased", requests_.size()); if (count_request_erased > 0) { // End the observation window since there is at least one hanging GET in // flight, which may lead to inaccuracies in the throughput estimate // computation. EndThroughputObservationWindow(); } } } // namespace internal } // namespace nqe } // namespace net