net/nqe/network_quality_estimator_test_util.cc - chromium/src - Git at Google

 // 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/network_quality_estimator_test_util.h"

 #include "base/files/file_path.h"
 #include "base/run_loop.h"
 #include "net/base/load_flags.h"
 #include "net/log/net_log_with_source.h"
 #include "net/log/test_net_log_util.h"
 #include "net/nqe/network_quality_estimator_params.h"
 #include "net/test/embedded_test_server/http_response.h"
 #include "net/traffic_annotation/network_traffic_annotation_test_helper.h"
 #include "net/url_request/url_request.h"
 #include "net/url_request/url_request_test_util.h"

 namespace {

 const base::FilePath::CharType kTestFilePath[] =
     FILE_PATH_LITERAL("net/data/url_request_unittest");

 }  // namespace

 namespace net {

 TestNetworkQualityEstimator::TestNetworkQualityEstimator()
     : TestNetworkQualityEstimator(std::map<std::string, std::string>()) {}

 TestNetworkQualityEstimator::TestNetworkQualityEstimator(
     const std::map<std::string, std::string>& variation_params)
     : TestNetworkQualityEstimator(
           variation_params,
           true,
           true,
           std::make_unique<RecordingBoundTestNetLog>()) {}

 TestNetworkQualityEstimator::TestNetworkQualityEstimator(
     const std::map<std::string, std::string>& variation_params,
     bool allow_local_host_requests_for_tests,
     bool allow_smaller_responses_for_tests,
     std::unique_ptr<RecordingBoundTestNetLog> net_log)
     : TestNetworkQualityEstimator(variation_params,
                                   allow_local_host_requests_for_tests,
                                   allow_smaller_responses_for_tests,
                                   false,
                                   std::move(net_log)) {}

 TestNetworkQualityEstimator::TestNetworkQualityEstimator(
     const std::map<std::string, std::string>& variation_params,
     bool allow_local_host_requests_for_tests,
     bool allow_smaller_responses_for_tests,
     bool suppress_notifications_for_testing,
     std::unique_ptr<RecordingBoundTestNetLog> net_log)
     : NetworkQualityEstimator(
           std::make_unique<NetworkQualityEstimatorParams>(variation_params),
           net_log->bound().net_log()),
       net_log_(std::move(net_log)),
       current_network_type_(NetworkChangeNotifier::CONNECTION_UNKNOWN),
       embedded_test_server_(base::FilePath(kTestFilePath)),
       suppress_notifications_for_testing_(suppress_notifications_for_testing) {
   SetUseLocalHostRequestsForTesting(allow_local_host_requests_for_tests);
   SetUseSmallResponsesForTesting(allow_smaller_responses_for_tests);
 }

 TestNetworkQualityEstimator::TestNetworkQualityEstimator(
     std::unique_ptr<NetworkQualityEstimatorParams> params)
     : TestNetworkQualityEstimator(
           std::move(params),
           std::make_unique<RecordingBoundTestNetLog>()) {}

 TestNetworkQualityEstimator::TestNetworkQualityEstimator(
     std::unique_ptr<NetworkQualityEstimatorParams> params,
     std::unique_ptr<RecordingBoundTestNetLog> net_log)
     : NetworkQualityEstimator(std::move(params), net_log->bound().net_log()),
       net_log_(std::move(net_log)),
       current_network_type_(NetworkChangeNotifier::CONNECTION_UNKNOWN),
       embedded_test_server_(base::FilePath(kTestFilePath)),
       suppress_notifications_for_testing_(false) {}

 TestNetworkQualityEstimator::~TestNetworkQualityEstimator() = default;

 void TestNetworkQualityEstimator::RunOneRequest() {
   // Set up the embedded test server.
   if (!embedded_test_server_.Started()) {
     EXPECT_TRUE(embedded_test_server_.Start());
   }

   TestDelegate test_delegate;
   TestURLRequestContext context(true);
   context.set_network_quality_estimator(this);
   context.Init();
   std::unique_ptr<URLRequest> request(
       context.CreateRequest(GetEchoURL(), DEFAULT_PRIORITY, &test_delegate,
                             TRAFFIC_ANNOTATION_FOR_TESTS));
   request->SetLoadFlags(request->load_flags() | LOAD_MAIN_FRAME_DEPRECATED);
   request->Start();
   base::RunLoop().Run();
 }

 void TestNetworkQualityEstimator::SimulateNetworkChange(
     NetworkChangeNotifier::ConnectionType new_connection_type,
     const std::string& network_id) {
   current_network_type_ = new_connection_type;
   current_network_id_ = network_id;
   OnConnectionTypeChanged(new_connection_type);
 }

 const GURL TestNetworkQualityEstimator::GetEchoURL() {
   // Set up the embedded test server.
   if (!embedded_test_server_.Started()) {
     EXPECT_TRUE(embedded_test_server_.Start());
   }
   return embedded_test_server_.GetURL("/simple.html");
 }

 const GURL TestNetworkQualityEstimator::GetRedirectURL() {
   // Set up the embedded test server.
   if (!embedded_test_server_.Started()) {
     EXPECT_TRUE(embedded_test_server_.Start());
   }
   return embedded_test_server_.GetURL("/redirect302-to-https");
 }

 EffectiveConnectionType
 TestNetworkQualityEstimator::GetEffectiveConnectionType() const {
   if (effective_connection_type_)
     return effective_connection_type_.value();
   return NetworkQualityEstimator::GetEffectiveConnectionType();
 }

 EffectiveConnectionType
 TestNetworkQualityEstimator::GetRecentEffectiveConnectionTypeUsingMetrics(
     base::TimeDelta* http_rtt,
     base::TimeDelta* transport_rtt,
     base::TimeDelta* end_to_end_rtt,
     int32_t* downstream_throughput_kbps,
     size_t* observations_count,
     size_t* end_to_end_rtt_observation_count) const {
   if (recent_effective_connection_type_) {
     GetRecentRTT(nqe::internal::OBSERVATION_CATEGORY_HTTP, base::TimeTicks(),
                  http_rtt, nullptr);
     GetRecentRTT(nqe::internal::OBSERVATION_CATEGORY_TRANSPORT,
                  base::TimeTicks(), transport_rtt, observations_count);
     GetRecentDownlinkThroughputKbps(base::TimeTicks(),
                                     downstream_throughput_kbps);
     return recent_effective_connection_type_.value();
   }
   return NetworkQualityEstimator::GetRecentEffectiveConnectionTypeUsingMetrics(
       http_rtt, transport_rtt, end_to_end_rtt, downstream_throughput_kbps,
       observations_count, end_to_end_rtt_observation_count);
 }

 bool TestNetworkQualityEstimator::GetRecentRTT(
     nqe::internal::ObservationCategory observation_category,
     const base::TimeTicks& start_time,
     base::TimeDelta* rtt,
     size_t* observations_count) const {
   switch (observation_category) {
     case nqe::internal::OBSERVATION_CATEGORY_HTTP:

       if (start_time.is_null()) {
         if (start_time_null_http_rtt_) {
           *rtt = start_time_null_http_rtt_.value();
           return true;
         }
         return NetworkQualityEstimator::GetRecentRTT(
             observation_category, start_time, rtt, observations_count);
       }
       if (recent_http_rtt_) {
         *rtt = recent_http_rtt_.value();
         return true;
       }
       break;

     case nqe::internal::OBSERVATION_CATEGORY_TRANSPORT:
       if (start_time.is_null()) {
         if (start_time_null_transport_rtt_) {
           *rtt = start_time_null_transport_rtt_.value();
           if (transport_rtt_observation_count_last_ect_computation_) {
             *observations_count =
                 transport_rtt_observation_count_last_ect_computation_.value();
           }
           return true;
         }
         return NetworkQualityEstimator::GetRecentRTT(
             observation_category, start_time, rtt, observations_count);
       }

       if (recent_transport_rtt_) {
         *rtt = recent_transport_rtt_.value();
         return true;
       }
       break;
     case nqe::internal::OBSERVATION_CATEGORY_END_TO_END:
       if (start_time_null_end_to_end_rtt_) {
         *rtt = start_time_null_end_to_end_rtt_.value();
         return true;
       }
       break;
     case nqe::internal::OBSERVATION_CATEGORY_COUNT:
       NOTREACHED();
   }

   return NetworkQualityEstimator::GetRecentRTT(observation_category, start_time,
                                                rtt, observations_count);
 }

 absl::optional<base::TimeDelta> TestNetworkQualityEstimator::GetTransportRTT()
     const {
   if (start_time_null_transport_rtt_)
     return start_time_null_transport_rtt_;
   return NetworkQualityEstimator::GetTransportRTT();
 }

 bool TestNetworkQualityEstimator::GetRecentDownlinkThroughputKbps(
     const base::TimeTicks& start_time,
     int32_t* kbps) const {
   if (start_time.is_null()) {
     if (start_time_null_downlink_throughput_kbps_) {
       *kbps = start_time_null_downlink_throughput_kbps_.value();
       return true;
     }
     return NetworkQualityEstimator::GetRecentDownlinkThroughputKbps(start_time,
                                                                     kbps);
   }

   if (recent_downlink_throughput_kbps_) {
     *kbps = recent_downlink_throughput_kbps_.value();
     return true;
   }
   return NetworkQualityEstimator::GetRecentDownlinkThroughputKbps(start_time,
                                                                   kbps);
 }

 base::TimeDelta TestNetworkQualityEstimator::GetRTTEstimateInternal(
     base::TimeTicks start_time,
     nqe::internal::ObservationCategory observation_category,
     int percentile,
     size_t* observations_count) const {
   if (rtt_estimate_internal_)
     return rtt_estimate_internal_.value();

   return NetworkQualityEstimator::GetRTTEstimateInternal(
       start_time, observation_category, percentile, observations_count);
 }

 int TestNetworkQualityEstimator::GetEntriesCount(NetLogEventType type) const {
   return net_log_->GetEntriesWithType(type).size();
 }

 std::string TestNetworkQualityEstimator::GetNetLogLastStringValue(
     NetLogEventType type,
     const std::string& key) const {
   auto entries = net_log_->GetEntries();

   for (int i = entries.size() - 1; i >= 0; --i) {
     if (entries[i].type == type) {
       auto value = GetOptionalStringValueFromParams(entries[i], key);
       if (value)
         return *value;
     }
   }
   return std::string();
 }

 int TestNetworkQualityEstimator::GetNetLogLastIntegerValue(
     NetLogEventType type,
     const std::string& key) const {
   auto entries = net_log_->GetEntries();

   for (int i = entries.size() - 1; i >= 0; --i) {
     if (entries[i].type == type) {
       auto value = GetOptionalIntegerValueFromParams(entries[i], key);
       if (value)
         return *value;
     }
   }
   return 0;
 }

 void TestNetworkQualityEstimator::
     NotifyObserversOfRTTOrThroughputEstimatesComputed(
         const net::nqe::internal::NetworkQuality& network_quality) {
   for (auto& observer : rtt_and_throughput_estimates_observer_list_) {
     observer.OnRTTOrThroughputEstimatesComputed(
         network_quality.http_rtt(), network_quality.transport_rtt(),
         network_quality.downstream_throughput_kbps());
   }
 }

 void TestNetworkQualityEstimator::
     SetAndNotifyObserversOfEffectiveConnectionType(
         EffectiveConnectionType type) {
   set_effective_connection_type(type);
   for (auto& observer : effective_connection_type_observer_list_)
     observer.OnEffectiveConnectionTypeChanged(type);
 }

 absl::optional<net::EffectiveConnectionType>
 TestNetworkQualityEstimator::GetOverrideECT() const {
   return effective_connection_type_;
 }

 void TestNetworkQualityEstimator::
     SetAndNotifyObserversOfP2PActiveConnectionsCountChange(uint32_t count) {
   p2p_connections_count_ = count;
   for (auto& observer : peer_to_peer_type_observer_list_)
     observer.OnPeerToPeerConnectionsCountChange(count);
 }

 void TestNetworkQualityEstimator::RecordSpdyPingLatency(
     const HostPortPair& host_port_pair,
     base::TimeDelta rtt) {
   ++ping_rtt_received_count_;
   NetworkQualityEstimator::RecordSpdyPingLatency(host_port_pair, rtt);
 }

 const NetworkQualityEstimatorParams* TestNetworkQualityEstimator::params()
     const {
   return params_.get();
 }

 nqe::internal::NetworkID TestNetworkQualityEstimator::GetCurrentNetworkID()
     const {
   return nqe::internal::NetworkID(current_network_type_, current_network_id_,
                                   INT32_MIN);
 }

 TestNetworkQualityEstimator::LocalHttpTestServer::LocalHttpTestServer(
     const base::FilePath& document_root) {
   AddDefaultHandlers(document_root);
 }

 void TestNetworkQualityEstimator::NotifyObserversOfRTTOrThroughputComputed()
     const {
   if (suppress_notifications_for_testing_)
     return;

   NetworkQualityEstimator::NotifyObserversOfRTTOrThroughputComputed();
 }

 void TestNetworkQualityEstimator::
     NotifyRTTAndThroughputEstimatesObserverIfPresent(
         RTTAndThroughputEstimatesObserver* observer) const {
   if (suppress_notifications_for_testing_)
     return;

   NetworkQualityEstimator::NotifyRTTAndThroughputEstimatesObserverIfPresent(
       observer);
 }

 void TestNetworkQualityEstimator::SetStartTimeNullHttpRtt(
     const base::TimeDelta http_rtt) {
   start_time_null_http_rtt_ = http_rtt;
   // Force compute effective connection type so that the new RTT value is
   // immediately picked up. This ensures that the next call to
   // GetEffectiveConnectionType() returns the effective connnection type
   // that was computed based on |http_rtt|.
   ComputeEffectiveConnectionType();
 }

 void TestNetworkQualityEstimator::SetStartTimeNullTransportRtt(
     const base::TimeDelta transport_rtt) {
   start_time_null_transport_rtt_ = transport_rtt;
   // Force compute effective connection type so that the new RTT value is
   // immediately picked up. This ensures that the next call to
   // GetEffectiveConnectionType() returns the effective connnection type
   // that was computed based on |transport_rtt|.
   ComputeEffectiveConnectionType();
 }

 }  // namespace net
	// 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/network_quality_estimator_test_util.h"

	#include "base/files/file_path.h"
	#include "base/run_loop.h"
	#include "net/base/load_flags.h"
	#include "net/log/net_log_with_source.h"
	#include "net/log/test_net_log_util.h"
	#include "net/nqe/network_quality_estimator_params.h"
	#include "net/test/embedded_test_server/http_response.h"
	#include "net/traffic_annotation/network_traffic_annotation_test_helper.h"
	#include "net/url_request/url_request.h"
	#include "net/url_request/url_request_test_util.h"

	namespace {

	const base::FilePath::CharType kTestFilePath[] =
	FILE_PATH_LITERAL("net/data/url_request_unittest");

	} // namespace

	namespace net {

	TestNetworkQualityEstimator::TestNetworkQualityEstimator()
	: TestNetworkQualityEstimator(std::map<std::string, std::string>()) {}

	TestNetworkQualityEstimator::TestNetworkQualityEstimator(
	const std::map<std::string, std::string>& variation_params)
	: TestNetworkQualityEstimator(
	variation_params,
	true,
	true,
	std::make_unique<RecordingBoundTestNetLog>()) {}

	TestNetworkQualityEstimator::TestNetworkQualityEstimator(
	const std::map<std::string, std::string>& variation_params,
	bool allow_local_host_requests_for_tests,
	bool allow_smaller_responses_for_tests,
	std::unique_ptr<RecordingBoundTestNetLog> net_log)
	: TestNetworkQualityEstimator(variation_params,
	allow_local_host_requests_for_tests,
	allow_smaller_responses_for_tests,
	false,
	std::move(net_log)) {}

	TestNetworkQualityEstimator::TestNetworkQualityEstimator(
	const std::map<std::string, std::string>& variation_params,
	bool allow_local_host_requests_for_tests,
	bool allow_smaller_responses_for_tests,
	bool suppress_notifications_for_testing,
	std::unique_ptr<RecordingBoundTestNetLog> net_log)
	: NetworkQualityEstimator(
	std::make_unique<NetworkQualityEstimatorParams>(variation_params),
	net_log->bound().net_log()),
	net_log_(std::move(net_log)),
	current_network_type_(NetworkChangeNotifier::CONNECTION_UNKNOWN),
	embedded_test_server_(base::FilePath(kTestFilePath)),
	suppress_notifications_for_testing_(suppress_notifications_for_testing) {
	SetUseLocalHostRequestsForTesting(allow_local_host_requests_for_tests);
	SetUseSmallResponsesForTesting(allow_smaller_responses_for_tests);
	}

	TestNetworkQualityEstimator::TestNetworkQualityEstimator(
	std::unique_ptr<NetworkQualityEstimatorParams> params)
	: TestNetworkQualityEstimator(
	std::move(params),
	std::make_unique<RecordingBoundTestNetLog>()) {}

	TestNetworkQualityEstimator::TestNetworkQualityEstimator(
	std::unique_ptr<NetworkQualityEstimatorParams> params,
	std::unique_ptr<RecordingBoundTestNetLog> net_log)
	: NetworkQualityEstimator(std::move(params), net_log->bound().net_log()),
	net_log_(std::move(net_log)),
	current_network_type_(NetworkChangeNotifier::CONNECTION_UNKNOWN),
	embedded_test_server_(base::FilePath(kTestFilePath)),
	suppress_notifications_for_testing_(false) {}

	TestNetworkQualityEstimator::~TestNetworkQualityEstimator() = default;

	void TestNetworkQualityEstimator::RunOneRequest() {
	// Set up the embedded test server.
	if (!embedded_test_server_.Started()) {
	EXPECT_TRUE(embedded_test_server_.Start());
	}

	TestDelegate test_delegate;
	TestURLRequestContext context(true);
	context.set_network_quality_estimator(this);
	context.Init();
	std::unique_ptr<URLRequest> request(
	context.CreateRequest(GetEchoURL(), DEFAULT_PRIORITY, &test_delegate,
	TRAFFIC_ANNOTATION_FOR_TESTS));
	request->SetLoadFlags(request->load_flags() \| LOAD_MAIN_FRAME_DEPRECATED);
	request->Start();
	base::RunLoop().Run();
	}

	void TestNetworkQualityEstimator::SimulateNetworkChange(
	NetworkChangeNotifier::ConnectionType new_connection_type,
	const std::string& network_id) {
	current_network_type_ = new_connection_type;
	current_network_id_ = network_id;
	OnConnectionTypeChanged(new_connection_type);
	}

	const GURL TestNetworkQualityEstimator::GetEchoURL() {
	// Set up the embedded test server.
	if (!embedded_test_server_.Started()) {
	EXPECT_TRUE(embedded_test_server_.Start());
	}
	return embedded_test_server_.GetURL("/simple.html");
	}

	const GURL TestNetworkQualityEstimator::GetRedirectURL() {
	// Set up the embedded test server.
	if (!embedded_test_server_.Started()) {
	EXPECT_TRUE(embedded_test_server_.Start());
	}
	return embedded_test_server_.GetURL("/redirect302-to-https");
	}

	EffectiveConnectionType
	TestNetworkQualityEstimator::GetEffectiveConnectionType() const {
	if (effective_connection_type_)
	return effective_connection_type_.value();
	return NetworkQualityEstimator::GetEffectiveConnectionType();
	}

	EffectiveConnectionType
	TestNetworkQualityEstimator::GetRecentEffectiveConnectionTypeUsingMetrics(
	base::TimeDelta* http_rtt,
	base::TimeDelta* transport_rtt,
	base::TimeDelta* end_to_end_rtt,
	int32_t* downstream_throughput_kbps,
	size_t* observations_count,
	size_t* end_to_end_rtt_observation_count) const {
	if (recent_effective_connection_type_) {
	GetRecentRTT(nqe::internal::OBSERVATION_CATEGORY_HTTP, base::TimeTicks(),
	http_rtt, nullptr);
	GetRecentRTT(nqe::internal::OBSERVATION_CATEGORY_TRANSPORT,
	base::TimeTicks(), transport_rtt, observations_count);
	GetRecentDownlinkThroughputKbps(base::TimeTicks(),
	downstream_throughput_kbps);
	return recent_effective_connection_type_.value();
	}
	return NetworkQualityEstimator::GetRecentEffectiveConnectionTypeUsingMetrics(
	http_rtt, transport_rtt, end_to_end_rtt, downstream_throughput_kbps,
	observations_count, end_to_end_rtt_observation_count);
	}

	bool TestNetworkQualityEstimator::GetRecentRTT(
	nqe::internal::ObservationCategory observation_category,
	const base::TimeTicks& start_time,
	base::TimeDelta* rtt,
	size_t* observations_count) const {
	switch (observation_category) {
	case nqe::internal::OBSERVATION_CATEGORY_HTTP:

	if (start_time.is_null()) {
	if (start_time_null_http_rtt_) {
	*rtt = start_time_null_http_rtt_.value();
	return true;
	}
	return NetworkQualityEstimator::GetRecentRTT(
	observation_category, start_time, rtt, observations_count);
	}
	if (recent_http_rtt_) {
	*rtt = recent_http_rtt_.value();
	return true;
	}
	break;

	case nqe::internal::OBSERVATION_CATEGORY_TRANSPORT:
	if (start_time.is_null()) {
	if (start_time_null_transport_rtt_) {
	*rtt = start_time_null_transport_rtt_.value();
	if (transport_rtt_observation_count_last_ect_computation_) {
	*observations_count =
	transport_rtt_observation_count_last_ect_computation_.value();
	}
	return true;
	}
	return NetworkQualityEstimator::GetRecentRTT(
	observation_category, start_time, rtt, observations_count);
	}

	if (recent_transport_rtt_) {
	*rtt = recent_transport_rtt_.value();
	return true;
	}
	break;
	case nqe::internal::OBSERVATION_CATEGORY_END_TO_END:
	if (start_time_null_end_to_end_rtt_) {
	*rtt = start_time_null_end_to_end_rtt_.value();
	return true;
	}
	break;
	case nqe::internal::OBSERVATION_CATEGORY_COUNT:
	NOTREACHED();
	}

	return NetworkQualityEstimator::GetRecentRTT(observation_category, start_time,
	rtt, observations_count);
	}

	absl::optional<base::TimeDelta> TestNetworkQualityEstimator::GetTransportRTT()
	const {
	if (start_time_null_transport_rtt_)
	return start_time_null_transport_rtt_;
	return NetworkQualityEstimator::GetTransportRTT();
	}

	bool TestNetworkQualityEstimator::GetRecentDownlinkThroughputKbps(
	const base::TimeTicks& start_time,
	int32_t* kbps) const {
	if (start_time.is_null()) {
	if (start_time_null_downlink_throughput_kbps_) {
	*kbps = start_time_null_downlink_throughput_kbps_.value();
	return true;
	}
	return NetworkQualityEstimator::GetRecentDownlinkThroughputKbps(start_time,
	kbps);
	}

	if (recent_downlink_throughput_kbps_) {
	*kbps = recent_downlink_throughput_kbps_.value();
	return true;
	}
	return NetworkQualityEstimator::GetRecentDownlinkThroughputKbps(start_time,
	kbps);
	}

	base::TimeDelta TestNetworkQualityEstimator::GetRTTEstimateInternal(
	base::TimeTicks start_time,
	nqe::internal::ObservationCategory observation_category,
	int percentile,
	size_t* observations_count) const {
	if (rtt_estimate_internal_)
	return rtt_estimate_internal_.value();

	return NetworkQualityEstimator::GetRTTEstimateInternal(
	start_time, observation_category, percentile, observations_count);
	}

	int TestNetworkQualityEstimator::GetEntriesCount(NetLogEventType type) const {
	return net_log_->GetEntriesWithType(type).size();
	}

	std::string TestNetworkQualityEstimator::GetNetLogLastStringValue(
	NetLogEventType type,
	const std::string& key) const {
	auto entries = net_log_->GetEntries();

	for (int i = entries.size() - 1; i >= 0; --i) {
	if (entries[i].type == type) {
	auto value = GetOptionalStringValueFromParams(entries[i], key);
	if (value)
	return *value;
	}
	}
	return std::string();
	}

	int TestNetworkQualityEstimator::GetNetLogLastIntegerValue(
	NetLogEventType type,
	const std::string& key) const {
	auto entries = net_log_->GetEntries();

	for (int i = entries.size() - 1; i >= 0; --i) {
	if (entries[i].type == type) {
	auto value = GetOptionalIntegerValueFromParams(entries[i], key);
	if (value)
	return *value;
	}
	}
	return 0;
	}

	void TestNetworkQualityEstimator::
	NotifyObserversOfRTTOrThroughputEstimatesComputed(
	const net::nqe::internal::NetworkQuality& network_quality) {
	for (auto& observer : rtt_and_throughput_estimates_observer_list_) {
	observer.OnRTTOrThroughputEstimatesComputed(
	network_quality.http_rtt(), network_quality.transport_rtt(),
	network_quality.downstream_throughput_kbps());
	}
	}

	void TestNetworkQualityEstimator::
	SetAndNotifyObserversOfEffectiveConnectionType(
	EffectiveConnectionType type) {
	set_effective_connection_type(type);
	for (auto& observer : effective_connection_type_observer_list_)
	observer.OnEffectiveConnectionTypeChanged(type);
	}

	absl::optional<net::EffectiveConnectionType>
	TestNetworkQualityEstimator::GetOverrideECT() const {
	return effective_connection_type_;
	}

	void TestNetworkQualityEstimator::
	SetAndNotifyObserversOfP2PActiveConnectionsCountChange(uint32_t count) {
	p2p_connections_count_ = count;
	for (auto& observer : peer_to_peer_type_observer_list_)
	observer.OnPeerToPeerConnectionsCountChange(count);
	}

	void TestNetworkQualityEstimator::RecordSpdyPingLatency(
	const HostPortPair& host_port_pair,
	base::TimeDelta rtt) {
	++ping_rtt_received_count_;
	NetworkQualityEstimator::RecordSpdyPingLatency(host_port_pair, rtt);
	}

	const NetworkQualityEstimatorParams* TestNetworkQualityEstimator::params()
	const {
	return params_.get();
	}

	nqe::internal::NetworkID TestNetworkQualityEstimator::GetCurrentNetworkID()
	const {
	return nqe::internal::NetworkID(current_network_type_, current_network_id_,
	INT32_MIN);
	}

	TestNetworkQualityEstimator::LocalHttpTestServer::LocalHttpTestServer(
	const base::FilePath& document_root) {
	AddDefaultHandlers(document_root);
	}

	void TestNetworkQualityEstimator::NotifyObserversOfRTTOrThroughputComputed()
	const {
	if (suppress_notifications_for_testing_)
	return;

	NetworkQualityEstimator::NotifyObserversOfRTTOrThroughputComputed();
	}

	void TestNetworkQualityEstimator::
	NotifyRTTAndThroughputEstimatesObserverIfPresent(
	RTTAndThroughputEstimatesObserver* observer) const {
	if (suppress_notifications_for_testing_)
	return;

	NetworkQualityEstimator::NotifyRTTAndThroughputEstimatesObserverIfPresent(
	observer);
	}

	void TestNetworkQualityEstimator::SetStartTimeNullHttpRtt(
	const base::TimeDelta http_rtt) {
	start_time_null_http_rtt_ = http_rtt;
	// Force compute effective connection type so that the new RTT value is
	// immediately picked up. This ensures that the next call to
	// GetEffectiveConnectionType() returns the effective connnection type
	// that was computed based on \|http_rtt\|.
	ComputeEffectiveConnectionType();
	}

	void TestNetworkQualityEstimator::SetStartTimeNullTransportRtt(
	const base::TimeDelta transport_rtt) {
	start_time_null_transport_rtt_ = transport_rtt;
	// Force compute effective connection type so that the new RTT value is
	// immediately picked up. This ensures that the next call to
	// GetEffectiveConnectionType() returns the effective connnection type
	// that was computed based on \|transport_rtt\|.
	ComputeEffectiveConnectionType();
	}

	} // namespace net