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cobalt / cobalt / 25902c6cb1ab9cfd8ae2ee6b0fb52953f73deda5 / . / net / nqe / throughput_analyzer_unittest.cc
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// Copyright 2016 The Chromium Authors
// 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 <stdint.h>
#include <map>
#include <memory>
#include <string>
#include <utility>
#include <vector>
#include "base/containers/circular_deque.h"
#include "base/functional/bind.h"
#include "base/functional/callback_helpers.h"
#include "base/location.h"
#include "base/run_loop.h"
#include "base/strings/string_number_conversions.h"
#include "base/task/single_thread_task_runner.h"
#include "base/test/metrics/histogram_tester.h"
#include "base/test/scoped_feature_list.h"
#include "base/test/simple_test_tick_clock.h"
#include "base/test/test_timeouts.h"
#include "base/threading/platform_thread.h"
#include "base/time/default_tick_clock.h"
#include "base/time/time.h"
#include "build/build_config.h"
#include "net/base/features.h"
#include "net/base/isolation_info.h"
#include "net/base/schemeful_site.h"
#include "net/dns/mock_host_resolver.h"
#include "net/nqe/network_quality_estimator.h"
#include "net/nqe/network_quality_estimator_params.h"
#include "net/nqe/network_quality_estimator_test_util.h"
#include "net/nqe/network_quality_estimator_util.h"
#include "net/test/test_with_task_environment.h"
#include "net/traffic_annotation/network_traffic_annotation_test_helper.h"
#include "net/url_request/url_request.h"
#include "net/url_request/url_request_context.h"
#include "net/url_request/url_request_context_builder.h"
#include "net/url_request/url_request_test_util.h"
#include "testing/gtest/include/gtest/gtest.h"
#include "url/gurl.h"
namespace net::nqe {
namespace {
// Creates a mock resolver mapping example.com to a public IP address.
std::unique_ptr<HostResolver> CreateMockHostResolver() {
auto host_resolver = std::make_unique<MockCachingHostResolver>(
/*cache_invalidation_num=*/0,
/*default_result=*/ERR_NAME_NOT_RESOLVED);
// local.com resolves to a private IP address.
host_resolver->rules()->AddRule("local.com", "127.0.0.1");
host_resolver->LoadIntoCache(HostPortPair("local.com", 80),
NetworkAnonymizationKey(), absl::nullopt);
// Hosts not listed here (e.g., "example.com") are treated as external. See
// ThroughputAnalyzerTest.PrivateHost below.
return host_resolver;
}
class TestThroughputAnalyzer : public internal::ThroughputAnalyzer {
public:
TestThroughputAnalyzer(NetworkQualityEstimator* network_quality_estimator,
NetworkQualityEstimatorParams* params,
const base::TickClock* tick_clock)
: internal::ThroughputAnalyzer(
network_quality_estimator,
params,
base::SingleThreadTaskRunner::GetCurrentDefault(),
base::BindRepeating(
&TestThroughputAnalyzer::OnNewThroughputObservationAvailable,
base::Unretained(this)),
tick_clock,
NetLogWithSource::Make(NetLogSourceType::NONE)) {}
TestThroughputAnalyzer(const TestThroughputAnalyzer&) = delete;
TestThroughputAnalyzer& operator=(const TestThroughputAnalyzer&) = delete;
~TestThroughputAnalyzer() override = default;
int32_t throughput_observations_received() const {
return throughput_observations_received_;
}
void OnNewThroughputObservationAvailable(int32_t downstream_kbps) {
throughput_observations_received_++;
}
int64_t GetBitsReceived() const override { return bits_received_; }
void IncrementBitsReceived(int64_t additional_bits_received) {
bits_received_ += additional_bits_received;
}
using internal::ThroughputAnalyzer::CountActiveInFlightRequests;
using internal::ThroughputAnalyzer::
disable_throughput_measurements_for_testing;
using internal::ThroughputAnalyzer::EraseHangingRequests;
using internal::ThroughputAnalyzer::IsHangingWindow;
private:
int throughput_observations_received_ = 0;
int64_t bits_received_ = 0;
};
using ThroughputAnalyzerTest = TestWithTaskEnvironment;
TEST_F(ThroughputAnalyzerTest, PrivateHost) {
auto host_resolver = CreateMockHostResolver();
EXPECT_FALSE(nqe::internal::IsPrivateHostForTesting(
host_resolver.get(), HostPortPair("example.com", 80),
NetworkAnonymizationKey()));
EXPECT_TRUE(nqe::internal::IsPrivateHostForTesting(
host_resolver.get(), HostPortPair("local.com", 80),
NetworkAnonymizationKey()));
}
#if BUILDFLAG(IS_IOS) || BUILDFLAG(IS_ANDROID)
// Flaky on iOS: crbug.com/672917.
// Flaky on Android: crbug.com/1223950.
#define MAYBE_MaximumRequests DISABLED_MaximumRequests
#else
#define MAYBE_MaximumRequests MaximumRequests
#endif
TEST_F(ThroughputAnalyzerTest, MAYBE_MaximumRequests) {
const struct TestCase {
GURL url;
bool is_local;
} kTestCases[] = {
{GURL("http://127.0.0.1/test.html"), true /* is_local */},
{GURL("http://example.com/test.html"), false /* is_local */},
{GURL("http://local.com/test.html"), true /* is_local */},
};
for (const auto& test_case : kTestCases) {
const base::TickClock* tick_clock = base::DefaultTickClock::GetInstance();
TestNetworkQualityEstimator network_quality_estimator;
std::map<std::string, std::string> variation_params;
NetworkQualityEstimatorParams params(variation_params);
TestThroughputAnalyzer throughput_analyzer(&network_quality_estimator,
&params, tick_clock);
TestDelegate test_delegate;
auto context_builder = CreateTestURLRequestContextBuilder();
context_builder->set_host_resolver(CreateMockHostResolver());
auto context = context_builder->Build();
ASSERT_FALSE(
throughput_analyzer.disable_throughput_measurements_for_testing());
base::circular_deque<std::unique_ptr<URLRequest>> requests;
// Start more requests than the maximum number of requests that can be held
// in the memory.
EXPECT_EQ(test_case.is_local, nqe::internal::IsPrivateHostForTesting(
context->host_resolver(),
HostPortPair::FromURL(test_case.url),
NetworkAnonymizationKey()));
for (size_t i = 0; i < 1000; ++i) {
std::unique_ptr<URLRequest> request(
context->CreateRequest(test_case.url, DEFAULT_PRIORITY,
&test_delegate, TRAFFIC_ANNOTATION_FOR_TESTS));
throughput_analyzer.NotifyStartTransaction(*(request.get()));
requests.push_back(std::move(request));
}
// Too many local requests should cause the |throughput_analyzer| to disable
// throughput measurements.
EXPECT_NE(test_case.is_local,
throughput_analyzer.IsCurrentlyTrackingThroughput());
}
}
#if BUILDFLAG(IS_IOS)
// Flaky on iOS: crbug.com/672917.
#define MAYBE_MaximumRequestsWithNetworkAnonymizationKey \
DISABLED_MaximumRequestsWithNetworkAnonymizationKey
#else
#define MAYBE_MaximumRequestsWithNetworkAnonymizationKey \
MaximumRequestsWithNetworkAnonymizationKey
#endif
// Make sure that the NetworkAnonymizationKey is respected when resolving a host
// from the cache.
TEST_F(ThroughputAnalyzerTest,
MAYBE_MaximumRequestsWithNetworkAnonymizationKey) {
const SchemefulSite kSite(GURL("https://foo.test/"));
const auto kNetworkAnonymizationKey =
NetworkAnonymizationKey::CreateSameSite(kSite);
const net::NetworkIsolationKey kNetworkIsolationKey(kSite, kSite);
const GURL kUrl = GURL("http://foo.test/test.html");
const url::Origin kSiteOrigin = url::Origin::Create(kSite.GetURL());
base::test::ScopedFeatureList feature_list;
feature_list.InitAndEnableFeature(
features::kSplitHostCacheByNetworkIsolationKey);
for (bool use_network_isolation_key : {false, true}) {
const base::TickClock* tick_clock = base::DefaultTickClock::GetInstance();
TestNetworkQualityEstimator network_quality_estimator;
std::map<std::string, std::string> variation_params;
NetworkQualityEstimatorParams params(variation_params);
TestThroughputAnalyzer throughput_analyzer(&network_quality_estimator,
&params, tick_clock);
TestDelegate test_delegate;
auto context_builder = CreateTestURLRequestContextBuilder();
auto mock_host_resolver = std::make_unique<MockCachingHostResolver>();
// Add an entry to the host cache mapping kUrl to non-local IP when using an
// empty NetworkAnonymizationKey.
mock_host_resolver->rules()->AddRule(kUrl.host(), "1.2.3.4");
mock_host_resolver->LoadIntoCache(HostPortPair::FromURL(kUrl),
NetworkAnonymizationKey(), absl::nullopt);
// Add an entry to the host cache mapping kUrl to local IP when using
// kNetworkAnonymizationKey.
mock_host_resolver->rules()->ClearRules();
mock_host_resolver->rules()->AddRule(kUrl.host(), "127.0.0.1");
mock_host_resolver->LoadIntoCache(HostPortPair::FromURL(kUrl),
kNetworkAnonymizationKey, absl::nullopt);
context_builder->set_host_resolver(std::move(mock_host_resolver));
auto context = context_builder->Build();
ASSERT_FALSE(
throughput_analyzer.disable_throughput_measurements_for_testing());
base::circular_deque<std::unique_ptr<URLRequest>> requests;
// Start more requests than the maximum number of requests that can be held
// in the memory.
EXPECT_EQ(use_network_isolation_key,
nqe::internal::IsPrivateHostForTesting(
context->host_resolver(), HostPortPair::FromURL(kUrl),
use_network_isolation_key ? kNetworkAnonymizationKey
: NetworkAnonymizationKey()));
for (size_t i = 0; i < 1000; ++i) {
std::unique_ptr<URLRequest> request(
context->CreateRequest(kUrl, DEFAULT_PRIORITY, &test_delegate,
TRAFFIC_ANNOTATION_FOR_TESTS));
if (use_network_isolation_key) {
request->set_isolation_info(net::IsolationInfo::Create(
net::IsolationInfo::RequestType::kOther, kSiteOrigin, kSiteOrigin,
net::SiteForCookies()));
}
throughput_analyzer.NotifyStartTransaction(*(request.get()));
requests.push_back(std::move(request));
}
// Too many local requests should cause the |throughput_analyzer| to disable
// throughput measurements.
EXPECT_NE(use_network_isolation_key,
throughput_analyzer.IsCurrentlyTrackingThroughput());
}
}
// Tests that the throughput observation is taken only if there are sufficient
// number of requests in-flight.
TEST_F(ThroughputAnalyzerTest, TestMinRequestsForThroughputSample) {
const base::TickClock* tick_clock = base::DefaultTickClock::GetInstance();
TestNetworkQualityEstimator network_quality_estimator;
std::map<std::string, std::string> variation_params;
variation_params["throughput_hanging_requests_cwnd_size_multiplier"] = "-1";
NetworkQualityEstimatorParams params(variation_params);
// Set HTTP RTT to a large value so that the throughput observation window
// is not detected as hanging. In practice, this would be provided by
// |network_quality_estimator| based on the recent observations.
network_quality_estimator.SetStartTimeNullHttpRtt(base::Seconds(100));
for (size_t num_requests = 1;
num_requests <= params.throughput_min_requests_in_flight() + 1;
++num_requests) {
TestThroughputAnalyzer throughput_analyzer(&network_quality_estimator,
&params, tick_clock);
auto context_builder = CreateTestURLRequestContextBuilder();
context_builder->set_host_resolver(CreateMockHostResolver());
auto context = context_builder->Build();
std::vector<std::unique_ptr<URLRequest>> requests_not_local;
std::vector<TestDelegate> not_local_test_delegates(num_requests);
for (auto& delegate : not_local_test_delegates) {
// We don't care about completion, except for the first one (see below).
delegate.set_on_complete(base::DoNothing());
std::unique_ptr<URLRequest> request_not_local(context->CreateRequest(
GURL("http://example.com/echo.html"), DEFAULT_PRIORITY, &delegate,
TRAFFIC_ANNOTATION_FOR_TESTS));
request_not_local->Start();
requests_not_local.push_back(std::move(request_not_local));
}
not_local_test_delegates[0].RunUntilComplete();
EXPECT_EQ(0, throughput_analyzer.throughput_observations_received());
for (const auto& request : requests_not_local) {
throughput_analyzer.NotifyStartTransaction(*request);
}
// Increment the bytes received count to emulate the bytes received for
// |request_local| and |requests_not_local|.
throughput_analyzer.IncrementBitsReceived(100 * 1000 * 8);
for (const auto& request : requests_not_local) {
throughput_analyzer.NotifyRequestCompleted(*request);
}
base::RunLoop().RunUntilIdle();
int expected_throughput_observations =
num_requests >= params.throughput_min_requests_in_flight() ? 1 : 0;
EXPECT_EQ(expected_throughput_observations,
throughput_analyzer.throughput_observations_received());
}
}
// Tests that the hanging requests are dropped from the |requests_|, and
// throughput observation window is ended.
TEST_F(ThroughputAnalyzerTest, TestHangingRequests) {
static const struct {
int hanging_request_duration_http_rtt_multiplier;
base::TimeDelta http_rtt;
base::TimeDelta requests_hang_duration;
bool expect_throughput_observation;
} tests[] = {
{
// |requests_hang_duration| is less than 5 times the HTTP RTT.
// Requests should not be marked as hanging.
5,
base::Milliseconds(1000),
base::Milliseconds(3000),
true,
},
{
// |requests_hang_duration| is more than 5 times the HTTP RTT.
// Requests should be marked as hanging.
5,
base::Milliseconds(200),
base::Milliseconds(3000),
false,
},
{
// |requests_hang_duration| is less than
// |hanging_request_min_duration_msec|. Requests should not be marked
// as hanging.
1,
base::Milliseconds(100),
base::Milliseconds(100),
true,
},
{
// |requests_hang_duration| is more than
// |hanging_request_min_duration_msec|. Requests should be marked as
// hanging.
1,
base::Milliseconds(2000),
base::Milliseconds(3100),
false,
},
{
// |requests_hang_duration| is less than 5 times the HTTP RTT.
// Requests should not be marked as hanging.
5,
base::Seconds(2),
base::Seconds(1),
true,
},
{
// HTTP RTT is unavailable. Requests should not be marked as hanging.
5,
base::Seconds(-1),
base::Seconds(-1),
true,
},
};
for (const auto& test : tests) {
base::HistogramTester histogram_tester;
const base::TickClock* tick_clock = base::DefaultTickClock::GetInstance();
TestNetworkQualityEstimator network_quality_estimator;
if (test.http_rtt >= base::TimeDelta())
network_quality_estimator.SetStartTimeNullHttpRtt(test.http_rtt);
std::map<std::string, std::string> variation_params;
// Set the transport RTT multiplier to a large value so that the hanging
// request decision is made only on the basis of the HTTP RTT.
variation_params
["hanging_request_http_rtt_upper_bound_transport_rtt_multiplier"] =
"10000";
variation_params["throughput_hanging_requests_cwnd_size_multiplier"] = "-1";
variation_params["hanging_request_duration_http_rtt_multiplier"] =
base::NumberToString(test.hanging_request_duration_http_rtt_multiplier);
NetworkQualityEstimatorParams params(variation_params);
const size_t num_requests = params.throughput_min_requests_in_flight();
TestThroughputAnalyzer throughput_analyzer(&network_quality_estimator,
&params, tick_clock);
auto context_builder = CreateTestURLRequestContextBuilder();
context_builder->set_host_resolver(CreateMockHostResolver());
auto context = context_builder->Build();
std::vector<std::unique_ptr<URLRequest>> requests_not_local;
std::vector<TestDelegate> not_local_test_delegates(num_requests);
for (size_t i = 0; i < num_requests; ++i) {
// We don't care about completion, except for the first one (see below).
not_local_test_delegates[i].set_on_complete(base::DoNothing());
std::unique_ptr<URLRequest> request_not_local(context->CreateRequest(
GURL("http://example.com/echo.html"), DEFAULT_PRIORITY,
&not_local_test_delegates[i], TRAFFIC_ANNOTATION_FOR_TESTS));
request_not_local->Start();
requests_not_local.push_back(std::move(request_not_local));
}
not_local_test_delegates[0].RunUntilComplete();
EXPECT_EQ(0, throughput_analyzer.throughput_observations_received());
for (size_t i = 0; i < num_requests; ++i) {
throughput_analyzer.NotifyStartTransaction(*requests_not_local.at(i));
}
// Increment the bytes received count to emulate the bytes received for
// |request_local| and |requests_not_local|.
throughput_analyzer.IncrementBitsReceived(100 * 1000 * 8);
// Mark in-flight requests as hanging requests (if specified in the test
// params).
if (test.requests_hang_duration >= base::TimeDelta())
base::PlatformThread::Sleep(test.requests_hang_duration);
EXPECT_EQ(num_requests, throughput_analyzer.CountActiveInFlightRequests());
for (size_t i = 0; i < num_requests; ++i) {
throughput_analyzer.NotifyRequestCompleted(*requests_not_local.at(i));
if (!test.expect_throughput_observation) {
// All in-flight requests should be marked as hanging, and thus should
// be deleted from the set of in-flight requests.
EXPECT_EQ(0u, throughput_analyzer.CountActiveInFlightRequests());
} else {
// One request should be deleted at one time.
EXPECT_EQ(requests_not_local.size() - i - 1,
throughput_analyzer.CountActiveInFlightRequests());
}
}
base::RunLoop().RunUntilIdle();
EXPECT_EQ(test.expect_throughput_observation,
throughput_analyzer.throughput_observations_received() > 0);
}
}
// Tests that the check for hanging requests is done at most once per second.
TEST_F(ThroughputAnalyzerTest, TestHangingRequestsCheckedOnlyPeriodically) {
base::SimpleTestTickClock tick_clock;
TestNetworkQualityEstimator network_quality_estimator;
network_quality_estimator.SetStartTimeNullHttpRtt(base::Seconds(1));
std::map<std::string, std::string> variation_params;
variation_params["hanging_request_duration_http_rtt_multiplier"] = "5";
variation_params["hanging_request_min_duration_msec"] = "2000";
NetworkQualityEstimatorParams params(variation_params);
TestThroughputAnalyzer throughput_analyzer(&network_quality_estimator,
&params, &tick_clock);
TestDelegate test_delegate;
auto context_builder = CreateTestURLRequestContextBuilder();
context_builder->set_host_resolver(CreateMockHostResolver());
auto context = context_builder->Build();
std::vector<std::unique_ptr<URLRequest>> requests_not_local;
for (size_t i = 0; i < 2; ++i) {
std::unique_ptr<URLRequest> request_not_local(context->CreateRequest(
GURL("http://example.com/echo.html"), DEFAULT_PRIORITY, &test_delegate,
TRAFFIC_ANNOTATION_FOR_TESTS));
request_not_local->Start();
requests_not_local.push_back(std::move(request_not_local));
}
std::unique_ptr<URLRequest> some_other_request(context->CreateRequest(
GURL("http://example.com/echo.html"), DEFAULT_PRIORITY, &test_delegate,
TRAFFIC_ANNOTATION_FOR_TESTS));
test_delegate.RunUntilComplete();
// First request starts at t=1. The second request starts at t=2. The first
// request would be marked as hanging at t=6, and the second request at t=7
// seconds.
for (size_t i = 0; i < 2; ++i) {
tick_clock.Advance(base::Milliseconds(1000));
throughput_analyzer.NotifyStartTransaction(*requests_not_local.at(i));
}
EXPECT_EQ(2u, throughput_analyzer.CountActiveInFlightRequests());
tick_clock.Advance(base::Milliseconds(3500));
// Current time is t = 5.5 seconds.
throughput_analyzer.EraseHangingRequests(*some_other_request);
EXPECT_EQ(2u, throughput_analyzer.CountActiveInFlightRequests());
tick_clock.Advance(base::Milliseconds(1000));
// Current time is t = 6.5 seconds. One request should be marked as hanging.
throughput_analyzer.EraseHangingRequests(*some_other_request);
EXPECT_EQ(1u, throughput_analyzer.CountActiveInFlightRequests());
// Current time is t = 6.5 seconds. Calling NotifyBytesRead again should not
// run the hanging request checker since the last check was at t=6.5 seconds.
throughput_analyzer.EraseHangingRequests(*some_other_request);
EXPECT_EQ(1u, throughput_analyzer.CountActiveInFlightRequests());
tick_clock.Advance(base::Milliseconds(600));
// Current time is t = 7.1 seconds. Calling NotifyBytesRead again should not
// run the hanging request checker since the last check was at t=6.5 seconds
// (less than 1 second ago).
throughput_analyzer.EraseHangingRequests(*some_other_request);
EXPECT_EQ(1u, throughput_analyzer.CountActiveInFlightRequests());
tick_clock.Advance(base::Milliseconds(400));
// Current time is t = 7.5 seconds. Calling NotifyBytesRead again should run
// the hanging request checker since the last check was at t=6.5 seconds (at
// least 1 second ago).
throughput_analyzer.EraseHangingRequests(*some_other_request);
EXPECT_EQ(0u, throughput_analyzer.CountActiveInFlightRequests());
}
// Tests that the last received time for a request is updated when data is
// received for that request.
TEST_F(ThroughputAnalyzerTest, TestLastReceivedTimeIsUpdated) {
base::SimpleTestTickClock tick_clock;
TestNetworkQualityEstimator network_quality_estimator;
network_quality_estimator.SetStartTimeNullHttpRtt(base::Seconds(1));
std::map<std::string, std::string> variation_params;
variation_params["hanging_request_duration_http_rtt_multiplier"] = "5";
variation_params["hanging_request_min_duration_msec"] = "2000";
NetworkQualityEstimatorParams params(variation_params);
TestThroughputAnalyzer throughput_analyzer(&network_quality_estimator,
&params, &tick_clock);
TestDelegate test_delegate;
auto context_builder = CreateTestURLRequestContextBuilder();
context_builder->set_host_resolver(CreateMockHostResolver());
auto context = context_builder->Build();
std::unique_ptr<URLRequest> request_not_local(context->CreateRequest(
GURL("http://example.com/echo.html"), DEFAULT_PRIORITY, &test_delegate,
TRAFFIC_ANNOTATION_FOR_TESTS));
request_not_local->Start();
test_delegate.RunUntilComplete();
std::unique_ptr<URLRequest> some_other_request(context->CreateRequest(
GURL("http://example.com/echo.html"), DEFAULT_PRIORITY, &test_delegate,
TRAFFIC_ANNOTATION_FOR_TESTS));
// Start time for the request is t=0 second. The request will be marked as
// hanging at t=5 seconds.
throughput_analyzer.NotifyStartTransaction(*request_not_local);
tick_clock.Advance(base::Milliseconds(4000));
// Current time is t=4.0 seconds.
throughput_analyzer.EraseHangingRequests(*some_other_request);
EXPECT_EQ(1u, throughput_analyzer.CountActiveInFlightRequests());
// The request will be marked as hanging at t=9 seconds.
throughput_analyzer.NotifyBytesRead(*request_not_local);
tick_clock.Advance(base::Milliseconds(4000));
// Current time is t=8 seconds.
throughput_analyzer.EraseHangingRequests(*some_other_request);
EXPECT_EQ(1u, throughput_analyzer.CountActiveInFlightRequests());
tick_clock.Advance(base::Milliseconds(2000));
// Current time is t=10 seconds.
throughput_analyzer.EraseHangingRequests(*some_other_request);
EXPECT_EQ(0u, throughput_analyzer.CountActiveInFlightRequests());
}
// Test that a request that has been hanging for a long time is deleted
// immediately when EraseHangingRequests is called even if the last hanging
// request check was done recently.
TEST_F(ThroughputAnalyzerTest, TestRequestDeletedImmediately) {
base::SimpleTestTickClock tick_clock;
TestNetworkQualityEstimator network_quality_estimator;
network_quality_estimator.SetStartTimeNullHttpRtt(base::Seconds(1));
std::map<std::string, std::string> variation_params;
variation_params["hanging_request_duration_http_rtt_multiplier"] = "2";
NetworkQualityEstimatorParams params(variation_params);
TestThroughputAnalyzer throughput_analyzer(&network_quality_estimator,
&params, &tick_clock);
TestDelegate test_delegate;
auto context_builder = CreateTestURLRequestContextBuilder();
context_builder->set_host_resolver(CreateMockHostResolver());
auto context = context_builder->Build();
std::unique_ptr<URLRequest> request_not_local(context->CreateRequest(
GURL("http://example.com/echo.html"), DEFAULT_PRIORITY, &test_delegate,
TRAFFIC_ANNOTATION_FOR_TESTS));
request_not_local->Start();
test_delegate.RunUntilComplete();
// Start time for the request is t=0 second. The request will be marked as
// hanging at t=2 seconds.
throughput_analyzer.NotifyStartTransaction(*request_not_local);
EXPECT_EQ(1u, throughput_analyzer.CountActiveInFlightRequests());
tick_clock.Advance(base::Milliseconds(2900));
// Current time is t=2.9 seconds.
throughput_analyzer.EraseHangingRequests(*request_not_local);
EXPECT_EQ(1u, throughput_analyzer.CountActiveInFlightRequests());
// |request_not_local| should be deleted since it has been idle for 2.4
// seconds.
tick_clock.Advance(base::Milliseconds(500));
throughput_analyzer.NotifyBytesRead(*request_not_local);
EXPECT_EQ(0u, throughput_analyzer.CountActiveInFlightRequests());
}
#if BUILDFLAG(IS_IOS)
// Flaky on iOS: crbug.com/672917.
#define MAYBE_TestThroughputWithMultipleRequestsOverlap \
DISABLED_TestThroughputWithMultipleRequestsOverlap
#else
#define MAYBE_TestThroughputWithMultipleRequestsOverlap \
TestThroughputWithMultipleRequestsOverlap
#endif
// Tests if the throughput observation is taken correctly when local and network
// requests overlap.
TEST_F(ThroughputAnalyzerTest,
MAYBE_TestThroughputWithMultipleRequestsOverlap) {
static const struct {
bool start_local_request;
bool local_request_completes_first;
bool expect_throughput_observation;
} tests[] = {
{
false, false, true,
},
{
true, false, false,
},
{
true, true, true,
},
};
for (const auto& test : tests) {
const base::TickClock* tick_clock = base::DefaultTickClock::GetInstance();
TestNetworkQualityEstimator network_quality_estimator;
// Localhost requests are not allowed for estimation purposes.
std::map<std::string, std::string> variation_params;
variation_params["throughput_hanging_requests_cwnd_size_multiplier"] = "-1";
NetworkQualityEstimatorParams params(variation_params);
TestThroughputAnalyzer throughput_analyzer(&network_quality_estimator,
&params, tick_clock);
TestDelegate local_delegate;
local_delegate.set_on_complete(base::DoNothing());
auto context_builder = CreateTestURLRequestContextBuilder();
context_builder->set_host_resolver(CreateMockHostResolver());
auto context = context_builder->Build();
std::unique_ptr<URLRequest> request_local;
std::vector<std::unique_ptr<URLRequest>> requests_not_local;
std::vector<TestDelegate> not_local_test_delegates(
params.throughput_min_requests_in_flight());
for (size_t i = 0; i < params.throughput_min_requests_in_flight(); ++i) {
// We don't care about completion, except for the first one (see below).
not_local_test_delegates[i].set_on_complete(base::DoNothing());
std::unique_ptr<URLRequest> request_not_local(context->CreateRequest(
GURL("http://example.com/echo.html"), DEFAULT_PRIORITY,
&not_local_test_delegates[i], TRAFFIC_ANNOTATION_FOR_TESTS));
request_not_local->Start();
requests_not_local.push_back(std::move(request_not_local));
}
if (test.start_local_request) {
request_local = context->CreateRequest(GURL("http://127.0.0.1/echo.html"),
DEFAULT_PRIORITY, &local_delegate,
TRAFFIC_ANNOTATION_FOR_TESTS);
request_local->Start();
}
// Wait until the first not-local request completes.
not_local_test_delegates[0].RunUntilComplete();
EXPECT_EQ(0, throughput_analyzer.throughput_observations_received());
// If |test.start_local_request| is true, then |request_local| starts
// before |request_not_local|, and ends after |request_not_local|. Thus,
// network quality estimator should not get a chance to record throughput
// observation from |request_not_local| because of ongoing local request
// at all times.
if (test.start_local_request)
throughput_analyzer.NotifyStartTransaction(*request_local);
for (const auto& request : requests_not_local) {
throughput_analyzer.NotifyStartTransaction(*request);
}
if (test.local_request_completes_first) {
ASSERT_TRUE(test.start_local_request);
throughput_analyzer.NotifyRequestCompleted(*request_local);
}
// Increment the bytes received count to emulate the bytes received for
// |request_local| and |requests_not_local|.
throughput_analyzer.IncrementBitsReceived(100 * 1000 * 8);
for (const auto& request : requests_not_local) {
throughput_analyzer.NotifyRequestCompleted(*request);
}
if (test.start_local_request && !test.local_request_completes_first)
throughput_analyzer.NotifyRequestCompleted(*request_local);
// Pump the message loop to let analyzer tasks get processed.
base::RunLoop().RunUntilIdle();
int expected_throughput_observations =
test.expect_throughput_observation ? 1 : 0;
EXPECT_EQ(expected_throughput_observations,
throughput_analyzer.throughput_observations_received());
}
}
// Tests if the throughput observation is taken correctly when two network
// requests overlap.
TEST_F(ThroughputAnalyzerTest, TestThroughputWithNetworkRequestsOverlap) {
static const struct {
size_t throughput_min_requests_in_flight;
size_t number_requests_in_flight;
int64_t increment_bits;
bool expect_throughput_observation;
} tests[] = {
{
1, 2, 100 * 1000 * 8, true,
},
{
3, 1, 100 * 1000 * 8, false,
},
{
3, 2, 100 * 1000 * 8, false,
},
{
3, 3, 100 * 1000 * 8, true,
},
{
3, 4, 100 * 1000 * 8, true,
},
{
1, 2, 1, false,
},
};
for (const auto& test : tests) {
const base::TickClock* tick_clock = base::DefaultTickClock::GetInstance();
TestNetworkQualityEstimator network_quality_estimator;
// Localhost requests are not allowed for estimation purposes.
std::map<std::string, std::string> variation_params;
variation_params["throughput_min_requests_in_flight"] =
base::NumberToString(test.throughput_min_requests_in_flight);
variation_params["throughput_hanging_requests_cwnd_size_multiplier"] = "-1";
NetworkQualityEstimatorParams params(variation_params);
// Set HTTP RTT to a large value so that the throughput observation window
// is not detected as hanging. In practice, this would be provided by
// |network_quality_estimator| based on the recent observations.
network_quality_estimator.SetStartTimeNullHttpRtt(base::Seconds(100));
TestThroughputAnalyzer throughput_analyzer(&network_quality_estimator,
&params, tick_clock);
auto context_builder = CreateTestURLRequestContextBuilder();
context_builder->set_host_resolver(CreateMockHostResolver());
auto context = context_builder->Build();
EXPECT_EQ(0, throughput_analyzer.throughput_observations_received());
std::vector<std::unique_ptr<URLRequest>> requests_in_flight;
std::vector<TestDelegate> in_flight_test_delegates(
test.number_requests_in_flight);
for (size_t i = 0; i < test.number_requests_in_flight; ++i) {
// We don't care about completion, except for the first one (see below).
in_flight_test_delegates[i].set_on_complete(base::DoNothing());
std::unique_ptr<URLRequest> request_network_1 = context->CreateRequest(
GURL("http://example.com/echo.html"), DEFAULT_PRIORITY,
&in_flight_test_delegates[i], TRAFFIC_ANNOTATION_FOR_TESTS);
requests_in_flight.push_back(std::move(request_network_1));
requests_in_flight.back()->Start();
}
in_flight_test_delegates[0].RunUntilComplete();
EXPECT_EQ(0, throughput_analyzer.throughput_observations_received());
for (size_t i = 0; i < test.number_requests_in_flight; ++i) {
URLRequest* request = requests_in_flight.at(i).get();
throughput_analyzer.NotifyStartTransaction(*request);
}
// Increment the bytes received count to emulate the bytes received for
// |request_network_1| and |request_network_2|.
throughput_analyzer.IncrementBitsReceived(test.increment_bits);
for (size_t i = 0; i < test.number_requests_in_flight; ++i) {
URLRequest* request = requests_in_flight.at(i).get();
throughput_analyzer.NotifyRequestCompleted(*request);
}
base::RunLoop().RunUntilIdle();
// Only one observation should be taken since two requests overlap.
if (test.expect_throughput_observation) {
EXPECT_EQ(1, throughput_analyzer.throughput_observations_received());
} else {
EXPECT_EQ(0, throughput_analyzer.throughput_observations_received());
}
}
}
// Tests if the throughput observation is taken correctly when the start and end
// of network requests overlap, and the minimum number of in flight requests
// when taking an observation is more than 1.
TEST_F(ThroughputAnalyzerTest, TestThroughputWithMultipleNetworkRequests) {
const base::test::ScopedRunLoopTimeout increased_run_timeout(
FROM_HERE, TestTimeouts::action_max_timeout());
const base::TickClock* tick_clock = base::DefaultTickClock::GetInstance();
TestNetworkQualityEstimator network_quality_estimator;
std::map<std::string, std::string> variation_params;
variation_params["throughput_min_requests_in_flight"] = "3";
variation_params["throughput_hanging_requests_cwnd_size_multiplier"] = "-1";
NetworkQualityEstimatorParams params(variation_params);
// Set HTTP RTT to a large value so that the throughput observation window
// is not detected as hanging. In practice, this would be provided by
// |network_quality_estimator| based on the recent observations.
network_quality_estimator.SetStartTimeNullHttpRtt(base::Seconds(100));
TestThroughputAnalyzer throughput_analyzer(&network_quality_estimator,
&params, tick_clock);
TestDelegate test_delegate;
auto context_builder = CreateTestURLRequestContextBuilder();
context_builder->set_host_resolver(CreateMockHostResolver());
auto context = context_builder->Build();
EXPECT_EQ(0, throughput_analyzer.throughput_observations_received());
std::unique_ptr<URLRequest> request_1 = context->CreateRequest(
GURL("http://example.com/echo.html"), DEFAULT_PRIORITY, &test_delegate,
TRAFFIC_ANNOTATION_FOR_TESTS);
std::unique_ptr<URLRequest> request_2 = context->CreateRequest(
GURL("http://example.com/echo.html"), DEFAULT_PRIORITY, &test_delegate,
TRAFFIC_ANNOTATION_FOR_TESTS);
std::unique_ptr<URLRequest> request_3 = context->CreateRequest(
GURL("http://example.com/echo.html"), DEFAULT_PRIORITY, &test_delegate,
TRAFFIC_ANNOTATION_FOR_TESTS);
std::unique_ptr<URLRequest> request_4 = context->CreateRequest(
GURL("http://example.com/echo.html"), DEFAULT_PRIORITY, &test_delegate,
TRAFFIC_ANNOTATION_FOR_TESTS);
request_1->Start();
request_2->Start();
request_3->Start();
request_4->Start();
// We dispatched four requests, so wait for four completions.
for (int i = 0; i < 4; ++i)
test_delegate.RunUntilComplete();
EXPECT_EQ(0, throughput_analyzer.throughput_observations_received());
throughput_analyzer.NotifyStartTransaction(*(request_1.get()));
throughput_analyzer.NotifyStartTransaction(*(request_2.get()));
const size_t increment_bits = 100 * 1000 * 8;
// Increment the bytes received count to emulate the bytes received for
// |request_1| and |request_2|.
throughput_analyzer.IncrementBitsReceived(increment_bits);
throughput_analyzer.NotifyRequestCompleted(*(request_1.get()));
base::RunLoop().RunUntilIdle();
// No observation should be taken since only 1 request is in flight.
EXPECT_EQ(0, throughput_analyzer.throughput_observations_received());
throughput_analyzer.NotifyStartTransaction(*(request_3.get()));
throughput_analyzer.NotifyStartTransaction(*(request_4.get()));
EXPECT_EQ(0, throughput_analyzer.throughput_observations_received());
// 3 requests are in flight which is at least as many as the minimum number of
// in flight requests required. An observation should be taken.
throughput_analyzer.IncrementBitsReceived(increment_bits);
// Only one observation should be taken since two requests overlap.
throughput_analyzer.NotifyRequestCompleted(*(request_2.get()));
base::RunLoop().RunUntilIdle();
EXPECT_EQ(1, throughput_analyzer.throughput_observations_received());
throughput_analyzer.NotifyRequestCompleted(*(request_3.get()));
throughput_analyzer.NotifyRequestCompleted(*(request_4.get()));
EXPECT_EQ(1, throughput_analyzer.throughput_observations_received());
}
TEST_F(ThroughputAnalyzerTest, TestHangingWindow) {
static constexpr size_t kCwndSizeKilobytes = 10 * 1.5;
static constexpr size_t kCwndSizeBits = kCwndSizeKilobytes * 1000 * 8;
base::SimpleTestTickClock tick_clock;
TestNetworkQualityEstimator network_quality_estimator;
int64_t http_rtt_msec = 1000;
network_quality_estimator.SetStartTimeNullHttpRtt(
base::Milliseconds(http_rtt_msec));
std::map<std::string, std::string> variation_params;
variation_params["throughput_hanging_requests_cwnd_size_multiplier"] = "1";
NetworkQualityEstimatorParams params(variation_params);
TestThroughputAnalyzer throughput_analyzer(&network_quality_estimator,
&params, &tick_clock);
const struct {
size_t bits_received;
base::TimeDelta window_duration;
bool expected_hanging;
} tests[] = {
{100, base::Milliseconds(http_rtt_msec), true},
{kCwndSizeBits - 1, base::Milliseconds(http_rtt_msec), true},
{kCwndSizeBits + 1, base::Milliseconds(http_rtt_msec), false},
{2 * (kCwndSizeBits - 1), base::Milliseconds(http_rtt_msec * 2), true},
{2 * (kCwndSizeBits + 1), base::Milliseconds(http_rtt_msec * 2), false},
{kCwndSizeBits / 2 - 1, base::Milliseconds(http_rtt_msec / 2), true},
{kCwndSizeBits / 2 + 1, base::Milliseconds(http_rtt_msec / 2), false},
};
for (const auto& test : tests) {
base::HistogramTester histogram_tester;
EXPECT_EQ(test.expected_hanging,
throughput_analyzer.IsHangingWindow(test.bits_received,
test.window_duration));
}
}
} // namespace
} // namespace net::nqe