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// Copyright 2015 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.
#ifndef NET_NQE_NETWORK_QUALITY_ESTIMATOR_H_
#define NET_NQE_NETWORK_QUALITY_ESTIMATOR_H_
#include <stdint.h>
#include <map>
#include <memory>
#include <string>
#include <vector>
#include "base/compiler_specific.h"
#include "base/gtest_prod_util.h"
#include "base/macros.h"
#include "base/memory/ref_counted.h"
#include "base/memory/weak_ptr.h"
#include "base/observer_list.h"
#include "base/optional.h"
#include "base/sequence_checker.h"
#include "base/time/time.h"
#include "build/build_config.h"
#include "build/chromeos_buildflags.h"
#include "net/base/net_export.h"
#include "net/base/network_change_notifier.h"
#include "net/log/net_log_with_source.h"
#include "net/nqe/cached_network_quality.h"
#include "net/nqe/effective_connection_type.h"
#include "net/nqe/effective_connection_type_observer.h"
#include "net/nqe/event_creator.h"
#include "net/nqe/network_id.h"
#include "net/nqe/network_quality.h"
#include "net/nqe/network_quality_estimator_params.h"
#include "net/nqe/network_quality_observation.h"
#include "net/nqe/network_quality_observation_source.h"
#include "net/nqe/network_quality_store.h"
#include "net/nqe/observation_buffer.h"
#include "net/nqe/peer_to_peer_connections_count_observer.h"
#include "net/nqe/rtt_throughput_estimates_observer.h"
#include "net/nqe/socket_watcher_factory.h"
namespace base {
class TickClock;
} // namespace base
namespace net {
class ConnectivityMonitor;
class NetLog;
namespace nqe {
namespace internal {
class ThroughputAnalyzer;
} // namespace internal
} // namespace nqe
class URLRequest;
// NetworkQualityEstimator provides network quality estimates (quality of the
// full paths to all origins that have been connected to).
// The estimates are based on the observed organic traffic.
// A NetworkQualityEstimator instance is attached to URLRequestContexts and
// observes the traffic of URLRequests spawned from the URLRequestContexts.
// A single instance of NQE can be attached to multiple URLRequestContexts,
// thereby increasing the single NQE instance's accuracy by providing more
// observed traffic characteristics.
class NET_EXPORT_PRIVATE NetworkQualityEstimator
: public NetworkChangeNotifier::ConnectionTypeObserver {
public:
// Observes measurements of round trip time.
class NET_EXPORT_PRIVATE RTTObserver {
public:
// Will be called when a new RTT observation is available. The round trip
// time is specified in milliseconds. The time when the observation was
// taken and the source of the observation are provided.
virtual void OnRTTObservation(int32_t rtt_ms,
const base::TimeTicks& timestamp,
NetworkQualityObservationSource source) = 0;
protected:
RTTObserver() {}
virtual ~RTTObserver() {}
private:
DISALLOW_COPY_AND_ASSIGN(RTTObserver);
};
// Observes measurements of throughput.
class NET_EXPORT_PRIVATE ThroughputObserver {
public:
// Will be called when a new throughput observation is available.
// Throughput is specified in kilobits per second.
virtual void OnThroughputObservation(
int32_t throughput_kbps,
const base::TimeTicks& timestamp,
NetworkQualityObservationSource source) = 0;
protected:
ThroughputObserver() {}
virtual ~ThroughputObserver() {}
private:
DISALLOW_COPY_AND_ASSIGN(ThroughputObserver);
};
// Creates a new NetworkQualityEstimator.
// |params| contains the
// configuration parameters relevant to network quality estimator. The caller
// must guarantee that |net_log| outlives |this|.
NetworkQualityEstimator(
std::unique_ptr<NetworkQualityEstimatorParams> params,
NetLog* net_log);
~NetworkQualityEstimator() override;
// Returns the current effective connection type. The effective connection
// type is computed by the network quality estimator at regular intervals and
// at certain events (e.g., connection change). Virtualized for testing.
virtual EffectiveConnectionType GetEffectiveConnectionType() const;
// Adds |observer| to a list of effective connection type observers.
// The observer must register and unregister itself on the same thread.
// |observer| would be notified on the thread on which it registered.
// |observer| would be notified of the current effective connection
// type in the next message pump.
void AddEffectiveConnectionTypeObserver(
EffectiveConnectionTypeObserver* observer);
// Removes |observer| from a list of effective connection type observers.
void RemoveEffectiveConnectionTypeObserver(
EffectiveConnectionTypeObserver* observer);
// Adds/Removes |observer| from the list of peer to peer connections count
// observers. The observer must register and unregister itself on the same
// thread. |observer| would be notified on the thread on which it registered.
// |observer| would be notified of the current count of peer to peer
// connections in the next message pump.
void AddPeerToPeerConnectionsCountObserver(
PeerToPeerConnectionsCountObserver* observer);
void RemovePeerToPeerConnectionsCountObserver(
PeerToPeerConnectionsCountObserver* observer);
// Returns the current HTTP RTT estimate. If the estimate is unavailable,
// the returned optional value is null. The RTT at the HTTP layer measures the
// time from when the request was sent (this happens after the connection is
// established) to the time when the response headers were received.
// Virtualized for testing.
virtual base::Optional<base::TimeDelta> GetHttpRTT() const;
// Returns the current transport RTT estimate. If the estimate is
// unavailable, the returned optional value is null. The RTT at the transport
// layer provides an aggregate estimate of the transport RTT as computed by
// various underlying TCP and QUIC connections. Virtualized for testing.
virtual base::Optional<base::TimeDelta> GetTransportRTT() const;
// Returns the current downstream throughput estimate (in kilobits per
// second). If the estimate is unavailable, the returned optional value is
// null.
base::Optional<int32_t> GetDownstreamThroughputKbps() const;
// Adds |observer| to the list of RTT and throughput estimate observers.
// The observer must register and unregister itself on the same thread.
// |observer| would be notified on the thread on which it registered.
// |observer| would be notified of the current values in the next message
// pump.
void AddRTTAndThroughputEstimatesObserver(
RTTAndThroughputEstimatesObserver* observer);
// Removes |observer| from the list of RTT and throughput estimate
// observers.
void RemoveRTTAndThroughputEstimatesObserver(
RTTAndThroughputEstimatesObserver* observer);
// Notifies NetworkQualityEstimator that the response header of |request| has
// been received. Reports the total prefilter network bytes that have been
// read for the response of |request|.
void NotifyHeadersReceived(const URLRequest& request,
int64_t prefilter_total_bytes_read);
// Notifies NetworkQualityEstimator that unfiltered bytes have been read for
// |request|. Reports the total prefilter network bytes that have been read
// for the response of |request|.
void NotifyBytesRead(const URLRequest& request,
int64_t prefilter_total_bytes_read);
// Notifies NetworkQualityEstimator that the headers of |request| are about to
// be sent.
void NotifyStartTransaction(const URLRequest& request);
// Notifies NetworkQualityEstimator that the response body of |request| has
// been received.
void NotifyRequestCompleted(const URLRequest& request);
// Notifies NetworkQualityEstimator that |request| will be destroyed.
void NotifyURLRequestDestroyed(const URLRequest& request);
// Adds |rtt_observer| to the list of round trip time observers. Must be
// called on the IO thread.
void AddRTTObserver(RTTObserver* rtt_observer);
// Removes |rtt_observer| from the list of round trip time observers if it
// is on the list of observers. Must be called on the IO thread.
void RemoveRTTObserver(RTTObserver* rtt_observer);
// Adds |throughput_observer| to the list of throughput observers. Must be
// called on the IO thread.
void AddThroughputObserver(ThroughputObserver* throughput_observer);
// Removes |throughput_observer| from the list of throughput observers if it
// is on the list of observers. Must be called on the IO thread.
void RemoveThroughputObserver(ThroughputObserver* throughput_observer);
SocketPerformanceWatcherFactory* GetSocketPerformanceWatcherFactory();
// |use_localhost_requests| should only be true when testing against local
// HTTP server and allows the requests to local host to be used for network
// quality estimation.
void SetUseLocalHostRequestsForTesting(bool use_localhost_requests);
// |use_small_responses| should only be true when testing.
// Allows the responses smaller than |kMinTransferSizeInBits| to be used for
// network quality estimation.
void SetUseSmallResponsesForTesting(bool use_small_responses);
// If |disable_offline_check| is set to true, then the device offline check is
// disabled when computing the effective connection type or when writing the
// prefs.
void DisableOfflineCheckForTesting(bool disable_offline_check);
// Reports |effective_connection_type| to all
// EffectiveConnectionTypeObservers.
void ReportEffectiveConnectionTypeForTesting(
EffectiveConnectionType effective_connection_type);
// Reports the RTTs and throughput to all RTTAndThroughputEstimatesObservers.
void ReportRTTsAndThroughputForTesting(base::TimeDelta http_rtt,
base::TimeDelta transport_rtt,
int32_t downstream_throughput_kbps);
// Adds and removes |observer| from the list of cache observers.
void AddNetworkQualitiesCacheObserver(
nqe::internal::NetworkQualityStore::NetworkQualitiesCacheObserver*
observer);
void RemoveNetworkQualitiesCacheObserver(
nqe::internal::NetworkQualityStore::NetworkQualitiesCacheObserver*
observer);
// Called when the persistent prefs have been read. |read_prefs| contains the
// parsed prefs as a map between NetworkIDs and CachedNetworkQualities.
void OnPrefsRead(
const std::map<nqe::internal::NetworkID,
nqe::internal::CachedNetworkQuality> read_prefs);
const NetworkQualityEstimatorParams* params() { return params_.get(); }
#if BUILDFLAG(IS_CHROMEOS_ASH)
// Enables getting the network id asynchronously when
// GatherEstimatesForNextConnectionType(). This should always be called in
// production, because getting the network id involves a blocking call to
// recv() in AddressTrackerLinux, and the IO thread should never be blocked.
// TODO(https://crbug.com/821607): Remove after the bug is resolved.
void EnableGetNetworkIdAsynchronously();
#endif // BUILDFLAG(IS_CHROMEOS_ASH)
// Forces the effective connection type to be recomputed as |type|. Once
// called, effective connection type would always be computed as |type|.
// Calling this also notifies all the observers of the effective connection
// type as |type|.
void SimulateNetworkQualityChangeForTesting(
net::EffectiveConnectionType type);
// Notifies |this| of round trip ping latency reported by H2 connections.
virtual void RecordSpdyPingLatency(const HostPortPair& host_port_pair,
base::TimeDelta rtt);
// Sets the current count of media connections that require low latency.
void OnPeerToPeerConnectionsCountChange(uint32_t count);
// Returns the current count of peer to peer connections that may require low
// latency.
uint32_t GetPeerToPeerConnectionsCountChange() const;
typedef nqe::internal::Observation Observation;
typedef nqe::internal::ObservationBuffer ObservationBuffer;
protected:
// NetworkChangeNotifier::ConnectionTypeObserver implementation:
void OnConnectionTypeChanged(
NetworkChangeNotifier::ConnectionType type) override;
// Returns true if median RTT across all samples that belong to
// |observation_category| is available and sets |rtt| to the median of RTT
// observations since |start_time|. Virtualized for testing. |rtt| should not
// be null. If |observations_count| is not null, then it is set to the number
// of RTT observations that were used for computing the RTT estimate.
virtual bool GetRecentRTT(
nqe::internal::ObservationCategory observation_category,
const base::TimeTicks& start_time,
base::TimeDelta* rtt,
size_t* observations_count) const WARN_UNUSED_RESULT;
// Returns true if median downstream throughput is available and sets |kbps|
// to the median of downstream throughput (in kilobits per second)
// observations since |start_time|. Virtualized for testing. |kbps|
// should not be null. Virtualized for testing.
// TODO(tbansal): Change it to return throughput as int32.
virtual bool GetRecentDownlinkThroughputKbps(
const base::TimeTicks& start_time,
int32_t* kbps) const WARN_UNUSED_RESULT;
// Overrides the tick clock used by |this| for testing.
void SetTickClockForTesting(const base::TickClock* tick_clock);
// Returns the effective type of the current connection based on the
// samples observed. May use HTTP RTT, transport RTT and
// downstream throughput to compute the effective connection type based on
// |http_rtt_metric|, |transport_rtt_metric| and
// |downstream_throughput_kbps_metric|, respectively. |http_rtt|,
// |transport_rtt| and |downstream_throughput_kbps| must be non-null.
// |http_rtt|, |transport_rtt| and |downstream_throughput_kbps| are
// set to the expected HTTP RTT, transport RTT and downstream throughput (in
// kilobits per second) based on observations taken since |start_time|.
// If |transport_rtt_observation_count| is not null, then it is set to the
// number of transport RTT observations that were available when computing the
// effective connection type.
virtual EffectiveConnectionType GetRecentEffectiveConnectionTypeUsingMetrics(
base::TimeDelta* http_rtt,
base::TimeDelta* transport_rtt,
base::TimeDelta* end_to_end_rtt,
int32_t* downstream_throughput_kbps,
size_t* transport_rtt_observation_count,
size_t* end_to_end_rtt_observation_count) const;
// Notifies |this| of a new transport layer RTT. Called by socket watchers.
// Protected for testing.
void OnUpdatedTransportRTTAvailable(
SocketPerformanceWatcherFactory::Protocol protocol,
const base::TimeDelta& rtt,
const base::Optional<nqe::internal::IPHash>& host);
// Returns an estimate of network quality at the specified |percentile|.
// Only the observations later than |start_time| are taken into account.
// |percentile| must be between 0 and 100 (both inclusive) with higher
// percentiles indicating less performant networks. For example, if
// |percentile| is 90, then the network is expected to be faster than the
// returned estimate with 0.9 probability. Similarly, network is expected to
// be slower than the returned estimate with 0.1 probability.
// Virtualized for testing.
// |observation_category| is the category of observations which should be used
// for computing the RTT estimate.
// If |observations_count| is not null, then it is set to the number of RTT
// observations that were available when computing the RTT estimate.
virtual base::TimeDelta GetRTTEstimateInternal(
base::TimeTicks start_time,
nqe::internal::ObservationCategory observation_category,
int percentile,
size_t* observations_count) const;
int32_t GetDownlinkThroughputKbpsEstimateInternal(
const base::TimeTicks& start_time,
int percentile) const;
// Notifies the observers of RTT or throughput estimates computation.
virtual void NotifyObserversOfRTTOrThroughputComputed() const;
// Notifies |observer| of the current RTT and throughput if |observer| is
// still registered as an observer.
virtual void NotifyRTTAndThroughputEstimatesObserverIfPresent(
RTTAndThroughputEstimatesObserver* observer) const;
// Adds |observation| to the buffer of RTT observations, and notifies RTT
// observers of |observation|. May also trigger recomputation of effective
// connection type.
void AddAndNotifyObserversOfRTT(const Observation& observation);
// Adds |observation| to the buffer of throughput observations, and notifies
// throughput observers of |observation|. May also trigger recomputation of
// effective connection type.
void AddAndNotifyObserversOfThroughput(const Observation& observation);
// Returns true if the request with observed HTTP of |observed_http_rtt| is
// expected to be a hanging request. The decision is made by comparing
// |observed_http_rtt| with the expected HTTP and transport RTT.
bool IsHangingRequest(base::TimeDelta observed_http_rtt) const;
// Returns the current network signal strength by querying the platform APIs.
// Set to INT32_MIN when the value is unavailable. Otherwise, must be between
// 0 and 4 (both inclusive). This may take into account many different radio
// technology inputs. 0 represents very poor signal strength while 4
// represents a very strong signal strength. The range is capped between 0 and
// 4 to ensure that a change in the value indicates a non-negligible change in
// the signal quality. To reduce the number of Android API calls, it returns
// a null value if the signal strength was recently obtained.
virtual base::Optional<int32_t> GetCurrentSignalStrengthWithThrottling();
// Forces computation of effective connection type, and notifies observers
// if there is a change in its value.
void ComputeEffectiveConnectionType();
// Returns a non-null value if the value of the effective connection type has
// been overridden for testing.
virtual base::Optional<net::EffectiveConnectionType> GetOverrideECT() const;
// Observer list for RTT or throughput estimates. Protected for testing.
base::ObserverList<RTTAndThroughputEstimatesObserver>::Unchecked
rtt_and_throughput_estimates_observer_list_;
// Observer list for changes in effective connection type.
base::ObserverList<EffectiveConnectionTypeObserver>::Unchecked
effective_connection_type_observer_list_;
// Observer list for changes in peer to peer connections count.
base::ObserverList<PeerToPeerConnectionsCountObserver>::Unchecked
peer_to_peer_type_observer_list_;
// Params to configure the network quality estimator.
const std::unique_ptr<NetworkQualityEstimatorParams> params_;
// Number of end to end RTT samples available when the ECT was last computed.
size_t end_to_end_rtt_observation_count_at_last_ect_computation_;
// Current count of active peer to peer connections.
uint32_t p2p_connections_count_ = 0u;
private:
FRIEND_TEST_ALL_PREFIXES(NetworkQualityEstimatorTest,
AdaptiveRecomputationEffectiveConnectionType);
FRIEND_TEST_ALL_PREFIXES(NetworkQualityEstimatorTest, StoreObservations);
FRIEND_TEST_ALL_PREFIXES(NetworkQualityEstimatorTest, TestAddObservation);
FRIEND_TEST_ALL_PREFIXES(NetworkQualityEstimatorTest,
DefaultObservationsOverridden);
FRIEND_TEST_ALL_PREFIXES(NetworkQualityEstimatorTest, ComputedPercentiles);
FRIEND_TEST_ALL_PREFIXES(NetworkQualityEstimatorTest, TestGetMetricsSince);
FRIEND_TEST_ALL_PREFIXES(NetworkQualityEstimatorTest,
UnknownEffectiveConnectionType);
FRIEND_TEST_ALL_PREFIXES(NetworkQualityEstimatorTest,
TypicalNetworkQualities);
FRIEND_TEST_ALL_PREFIXES(NetworkQualityEstimatorTest,
OnPrefsReadWithReadingDisabled);
FRIEND_TEST_ALL_PREFIXES(NetworkQualityEstimatorTest,
ForceEffectiveConnectionTypeThroughFieldTrial);
FRIEND_TEST_ALL_PREFIXES(NetworkQualityEstimatorTest,
ObservationDiscardedIfCachedEstimateAvailable);
FRIEND_TEST_ALL_PREFIXES(NetworkQualityEstimatorTest,
TestRttThroughputObservers);
// Returns the RTT value to be used when the valid RTT is unavailable. Readers
// should discard RTT if it is set to the value returned by |InvalidRTT()|.
static const base::TimeDelta InvalidRTT();
// Records UMA on whether the NetworkID was available or not. Called right
// after a network change event.
void RecordNetworkIDAvailability() const;
// Records UMA on main frame requests.
void RecordMetricsOnMainFrameRequest() const;
// Records a downstream throughput observation to the observation buffer if
// a valid observation is available. |downstream_kbps| is the downstream
// throughput in kilobits per second.
void OnNewThroughputObservationAvailable(int32_t downstream_kbps);
// Adds the default median RTT and downstream throughput estimate for the
// current connection type to the observation buffer.
void AddDefaultEstimates();
// Returns the current network ID checking by calling the platform APIs.
// Virtualized for testing.
virtual nqe::internal::NetworkID GetCurrentNetworkID() const;
// Returns true only if the |request| can be used for RTT estimation.
bool RequestProvidesRTTObservation(const URLRequest& request) const;
// Returns true if ECT should be recomputed.
bool ShouldComputeEffectiveConnectionType() const;
// Calls ShouldComputeEffectiveConnectionType() to determine if ECT needs to
// be computed. If so, it recomputes effective connection type.
void MaybeComputeEffectiveConnectionType();
// Notifies observers of a change in effective connection type.
void NotifyObserversOfEffectiveConnectionTypeChanged();
// Notifies |observer| of the current effective connection type if |observer|
// is still registered as an observer.
void NotifyEffectiveConnectionTypeObserverIfPresent(
EffectiveConnectionTypeObserver* observer) const;
// Notifies |observer| of the current count of peer to peer connections.
void NotifyPeerToPeerConnectionsCountObserverIfPresent(
PeerToPeerConnectionsCountObserver* observer) const;
// Records NQE accuracy metrics. |measuring_duration| should belong to the
// vector returned by AccuracyRecordingIntervals().
// RecordAccuracyAfterMainFrame should be called |measuring_duration| after a
// main frame request is observed.
void RecordAccuracyAfterMainFrame(base::TimeDelta measuring_duration) const;
// Obtains the current cellular signal strength value and updates
// |min_signal_strength_since_connection_change_| and
// |max_signal_strength_since_connection_change_|.
void UpdateSignalStrength();
// Updates the provided |http_rtt| based on all provided RTT values.
void UpdateHttpRttUsingAllRttValues(
base::TimeDelta* http_rtt,
const base::TimeDelta transport_rtt,
const base::TimeDelta end_to_end_rtt) const;
// Returns true if the cached network quality estimate was successfully read.
bool ReadCachedNetworkQualityEstimate();
// Gathers metrics for the next connection type. Called when there is a change
// in the connection type.
void GatherEstimatesForNextConnectionType();
// Invoked to continue GatherEstimatesForNextConnectionType work after getting
// network id. If |get_network_id_asynchronously_| is set, the network id is
// fetched on a worker thread. Otherwise, GatherEstimatesForNextConnectionType
// calls this directly. This is a workaround for https://crbug.com/821607
// where net::GetWifiSSID() call gets stuck.
void ContinueGatherEstimatesForNextConnectionType(
const nqe::internal::NetworkID& network_id);
// Updates the value of |cached_estimate_applied_| if |observation| is
// computed from a cached estimate. |buffer| is the observation buffer to
// which the cached estimate is being added to.
void MaybeUpdateCachedEstimateApplied(const Observation& observation,
ObservationBuffer* buffer);
// Returns true if |observation| should be added to the observation buffer.
bool ShouldAddObservation(const Observation& observation) const;
// Returns true if the socket watcher can run the callback to notify the RTT
// observations.
bool ShouldSocketWatcherNotifyRTT(base::TimeTicks now);
// Caps and returns the current value of effective connection type based on
// the current signal strength. If the signal strength is reported as low, a
// value lower than |effective_connection_type_| may be returned.
EffectiveConnectionType GetCappedECTBasedOnSignalStrength() const;
// When RTT counts are low, it may be impossible to predict accurate ECT. In
// that case, we just give the highest value.
void AdjustHttpRttBasedOnRTTCounts(base::TimeDelta* http_rtt) const;
// Clamps the throughput estimate based on the current effective connection
// type.
void ClampKbpsBasedOnEct();
// Earliest timestamp since when there is at least one active peer to peer
// connection count. Set to current timestamp when |p2p_connections_count_|
// changes from 0 to 1. Reset to null when |p2p_connections_count_| becomes 0.
base::Optional<base::TimeTicks> p2p_connections_count_active_timestamp_;
// Determines if the requests to local host can be used in estimating the
// network quality. Set to true only for tests.
bool use_localhost_requests_;
// When set to true, the device offline check is disabled when computing the
// effective connection type or when writing the prefs. Set to true only for
// testing.
bool disable_offline_check_;
// Tick clock used by the network quality estimator.
const base::TickClock* tick_clock_;
// Time when last connection change was observed.
base::TimeTicks last_connection_change_;
// ID of the current network.
nqe::internal::NetworkID current_network_id_;
// Buffer that holds throughput observations from the HTTP layer (in kilobits
// per second) sorted by timestamp.
ObservationBuffer http_downstream_throughput_kbps_observations_;
// Buffer that holds RTT observations with different observation categories.
// The entries in |rtt_ms_observations_| are in the same order as the
// entries in the nqe::internal:ObservationCategory enum.
// Each observation buffer in |rtt_ms_observations_| stores RTT observations
// in milliseconds. Within a buffer, the observations are sorted by timestamp.
ObservationBuffer
rtt_ms_observations_[nqe::internal::OBSERVATION_CATEGORY_COUNT];
// Time when the transaction for the last main frame request was started.
base::TimeTicks last_main_frame_request_;
// Estimated network quality when the transaction for the last main frame
// request was started.
nqe::internal::NetworkQuality estimated_quality_at_last_main_frame_;
EffectiveConnectionType effective_connection_type_at_last_main_frame_;
// Observer lists for round trip times and throughput measurements.
base::ObserverList<RTTObserver>::Unchecked rtt_observer_list_;
base::ObserverList<ThroughputObserver>::Unchecked throughput_observer_list_;
std::unique_ptr<nqe::internal::SocketWatcherFactory> watcher_factory_;
// Takes throughput measurements, and passes them back to |this| through the
// provided callback. |this| stores the throughput observations in
// |downstream_throughput_kbps_observations_|, which are later used for
// estimating the throughput.
std::unique_ptr<nqe::internal::ThroughputAnalyzer> throughput_analyzer_;
// Minimum duration between two consecutive computations of effective
// connection type. Set to non-zero value as a performance optimization.
const base::TimeDelta effective_connection_type_recomputation_interval_;
// Time when the effective connection type was last computed.
base::TimeTicks last_effective_connection_type_computation_;
// Number of RTT and bandwidth samples available when effective connection
// type was last recomputed.
size_t rtt_observations_size_at_last_ect_computation_;
size_t throughput_observations_size_at_last_ect_computation_;
// Number of transport RTT samples available when the ECT was last computed.
size_t transport_rtt_observation_count_last_ect_computation_;
// Number of RTT observations received since the effective connection type was
// last computed.
size_t new_rtt_observations_since_last_ect_computation_;
// Number of throughput observations received since the effective connection
// type was last computed.
size_t new_throughput_observations_since_last_ect_computation_;
// Current estimate of the network quality.
nqe::internal::NetworkQuality network_quality_;
base::Optional<base::TimeDelta> end_to_end_rtt_;
// Current effective connection type. It is updated on connection change
// events. It is also updated every time there is network traffic (provided
// the last computation was more than
// |effective_connection_type_recomputation_interval_| ago).
EffectiveConnectionType effective_connection_type_;
// Minimum and maximum signal strength level observed since last connection
// change. Updated on connection change and main frame requests.
base::Optional<int32_t> min_signal_strength_since_connection_change_;
base::Optional<int32_t> max_signal_strength_since_connection_change_;
// Stores the qualities of different networks.
std::unique_ptr<nqe::internal::NetworkQualityStore> network_quality_store_;
// True if a cached RTT or throughput estimate was available and the
// corresponding observation has been added on the current network.
bool cached_estimate_applied_;
SEQUENCE_CHECKER(sequence_checker_);
NetLogWithSource net_log_;
// Manages the writing of events to the net log.
nqe::internal::EventCreator event_creator_;
// Time when the last RTT observation from a socket watcher was received.
base::TimeTicks last_socket_watcher_rtt_notification_;
base::Optional<base::TimeTicks> last_signal_strength_check_timestamp_;
#if BUILDFLAG(IS_CHROMEOS_ASH)
// Whether the network id should be obtained on a worker thread.
bool get_network_id_asynchronously_ = false;
#endif
// Watches network activity and attempts to infer when the current network is
// effectively disconnected due to either substantial degradation or actual
// disconnection.
std::unique_ptr<ConnectivityMonitor> connectivity_monitor_;
base::WeakPtrFactory<NetworkQualityEstimator> weak_ptr_factory_{this};
DISALLOW_COPY_AND_ASSIGN(NetworkQualityEstimator);
};
} // namespace net
#endif // NET_NQE_NETWORK_QUALITY_ESTIMATOR_H_