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// Copyright 2018 The Chromium Authors
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "chrome/browser/predictors/loading_predictor.h"
#include <array>
#include <map>
#include <memory>
#include <set>
#include <string>
#include <vector>
#include "base/base64.h"
#include "base/command_line.h"
#include "base/containers/contains.h"
#include "base/files/file_path.h"
#include "base/functional/bind.h"
#include "base/memory/raw_ptr.h"
#include "base/memory/scoped_refptr.h"
#include "base/strings/escape.h"
#include "base/strings/string_util.h"
#include "base/strings/stringprintf.h"
#include "base/strings/to_string.h"
#include "base/task/single_thread_task_runner.h"
#include "base/task/thread_pool/thread_pool_instance.h"
#include "base/test/metrics/histogram_tester.h"
#include "base/test/scoped_feature_list.h"
#include "base/test/task_environment.h"
#include "build/build_config.h"
#include "chrome/browser/browser_features.h"
#include "chrome/browser/browser_process.h"
#include "chrome/browser/navigation_predictor/navigation_predictor_features.h"
#include "chrome/browser/navigation_predictor/navigation_predictor_preconnect_client.h"
#include "chrome/browser/optimization_guide/optimization_guide_keyed_service.h"
#include "chrome/browser/optimization_guide/optimization_guide_keyed_service_factory.h"
#include "chrome/browser/page_load_metrics/observers/lcp_critical_path_predictor_page_load_metrics_observer.h"
#include "chrome/browser/predictors/lcp_critical_path_predictor/lcp_critical_path_predictor_util.h"
#include "chrome/browser/predictors/loading_predictor_factory.h"
#include "chrome/browser/predictors/loading_test_util.h"
#include "chrome/browser/predictors/preconnect_manager.h"
#include "chrome/browser/predictors/predictors_enums.h"
#include "chrome/browser/predictors/predictors_features.h"
#include "chrome/browser/predictors/predictors_switches.h"
#include "chrome/browser/ui/browser.h"
#include "chrome/browser/ui/browser_commands.h"
#include "chrome/common/chrome_features.h"
#include "chrome/common/chrome_switches.h"
#include "chrome/test/base/in_process_browser_test.h"
#include "chrome/test/base/ui_test_utils.h"
#include "components/no_state_prefetch/browser/no_state_prefetch_handle.h"
#include "components/no_state_prefetch/browser/no_state_prefetch_manager.h"
#include "components/optimization_guide/core/optimization_guide_features.h"
#include "components/optimization_guide/proto/hints.pb.h"
#include "components/page_load_metrics/browser/page_load_metrics_test_waiter.h"
#include "content/public/browser/browser_task_traits.h"
#include "content/public/browser/browser_thread.h"
#include "content/public/browser/navigation_handle.h"
#include "content/public/browser/page_navigator.h"
#include "content/public/browser/storage_partition.h"
#include "content/public/browser/web_contents.h"
#include "content/public/browser/web_contents_observer.h"
#include "content/public/common/referrer.h"
#include "content/public/test/back_forward_cache_util.h"
#include "content/public/test/browser_test.h"
#include "content/public/test/browser_test_utils.h"
#include "content/public/test/fenced_frame_test_util.h"
#include "content/public/test/prerender_test_util.h"
#include "content/public/test/simple_url_loader_test_helper.h"
#include "content/public/test/test_frame_navigation_observer.h"
#include "net/base/features.h"
#include "net/base/network_anonymization_key.h"
#include "net/dns/mock_host_resolver.h"
#include "net/test/embedded_test_server/connection_tracker.h"
#include "net/test/embedded_test_server/controllable_http_response.h"
#include "net/test/embedded_test_server/embedded_test_server.h"
#include "net/test/embedded_test_server/embedded_test_server_connection_listener.h"
#include "net/test/embedded_test_server/http_request.h"
#include "net/test/embedded_test_server/http_response.h"
#include "net/test/embedded_test_server/request_handler_util.h"
#include "net/traffic_annotation/network_traffic_annotation_test_helper.h"
#include "services/network/public/cpp/cors/cors_error_status.h"
#include "services/network/public/cpp/features.h"
#include "services/network/public/cpp/network_quality_tracker.h"
#include "services/network/public/cpp/resource_request.h"
#include "services/network/public/cpp/simple_url_loader.h"
#include "services/network/public/mojom/clear_data_filter.mojom.h"
#include "services/network/public/mojom/cors.mojom.h"
#include "services/network/public/mojom/ip_address_space.mojom.h"
#include "services/network/public/mojom/network_context.mojom.h"
#include "testing/gmock/include/gmock/gmock.h"
#include "testing/gtest/include/gtest/gtest.h"
#include "third_party/blink/public/common/features.h"
#include "third_party/blink/public/common/navigation/preloading_headers.h"
#include "url/gurl.h"
#include "url/origin.h"
using content::BrowserThread;
using testing::Optional;
using testing::SizeIs;
namespace predictors {
const char kChromiumUrl[] = "http://chromium.org";
const char kHtmlSubresourcesPath[] = "/predictors/html_subresources.html";
// The embedded test server runs on test.com.
// kHtmlSubresourcesPath contains high priority resources from baz.com and
// foo.com. kHtmlSubresourcesPath also contains a low priority resource from
// bar.com.
const char* const kHtmlSubresourcesHosts[] = {"test.com", "baz.com", "foo.com"};
std::string GetPathWithPortReplacement(const std::string& path, uint16_t port) {
std::string string_port = base::StringPrintf("%d", port);
return net::test_server::GetFilePathWithReplacements(
path, {{"REPLACE_WITH_PORT", string_port}});
}
GURL GetDataURLWithContent(const std::string& content) {
std::string encoded_content = base::Base64Encode(content);
std::string data_uri_content = "data:text/html;base64," + encoded_content;
return GURL(data_uri_content);
}
// Helper class to track and allow waiting for ResourcePrefetchPredictor
// initialization. WARNING: OnPredictorInitialized event will not be fired if
// ResourcePrefetchPredictor is initialized before the observer creation.
class PredictorInitializer : public TestObserver {
public:
explicit PredictorInitializer(ResourcePrefetchPredictor* predictor)
: TestObserver(predictor), predictor_(predictor) {}
PredictorInitializer(const PredictorInitializer&) = delete;
PredictorInitializer& operator=(const PredictorInitializer&) = delete;
void EnsurePredictorInitialized() {
if (predictor_->initialization_state_ ==
ResourcePrefetchPredictor::INITIALIZED) {
return;
}
if (predictor_->initialization_state_ ==
ResourcePrefetchPredictor::NOT_INITIALIZED) {
predictor_->StartInitialization();
}
run_loop_.Run();
}
void OnPredictorInitialized() override { run_loop_.Quit(); }
private:
raw_ptr<ResourcePrefetchPredictor> predictor_ = nullptr;
base::RunLoop run_loop_;
};
class LcpElementLearnWaiter : public TestObserver {
public:
explicit LcpElementLearnWaiter(ResourcePrefetchPredictor* predictor)
: TestObserver(predictor) {}
void Wait() { run_loop_.Run(); }
private:
void OnLcppLearned() override { run_loop_.Quit(); }
base::RunLoop run_loop_;
};
class LcpUpdatedWaiter : public TestObserver {
public:
explicit LcpUpdatedWaiter(ResourcePrefetchPredictor* predictor,
size_t wait_lcp_count)
: TestObserver(predictor), wait_lcp_count_(wait_lcp_count) {}
const std::vector<std::optional<std::string>>& Wait() {
run_loop_.Run();
return element_locators_;
}
private:
void OnLcpUpdated(
const std::optional<std::string>& element_locator) override {
element_locators_.push_back(element_locator);
if (++lcp_count_ >= wait_lcp_count_) {
run_loop_.Quit();
}
}
base::RunLoop run_loop_;
const size_t wait_lcp_count_;
size_t lcp_count_ = 0u;
std::vector<std::optional<std::string>> element_locators_;
};
class LcpTimingPredictedWaiter : public TestObserver {
public:
explicit LcpTimingPredictedWaiter(ResourcePrefetchPredictor* predictor)
: TestObserver(predictor) {}
std::optional<std::string>& Wait() {
run_loop_.Run();
return lcp_element_locator_;
}
private:
void OnLcpTimingPredicted(
const std::optional<std::string>& lcp_element_locator) override {
lcp_element_locator_ = lcp_element_locator;
run_loop_.Quit();
}
base::RunLoop run_loop_;
std::optional<std::string> lcp_element_locator_;
};
class TestPreconnectManagerObserver : public PreconnectManager::Observer {
public:
explicit TestPreconnectManagerObserver(
PreconnectManager* preconnect_manager) {
preconnect_manager->SetObserverForTesting(this);
}
void OnPreconnectUrl(const GURL& url,
int num_sockets,
bool allow_credentials) override {
preconnect_url_attempts_.insert(url.DeprecatedGetOriginAsURL());
preconnect_url_attempts_history_.push_back(url.DeprecatedGetOriginAsURL());
}
void OnPreresolveFinished(
const GURL& url,
const net::NetworkAnonymizationKey& network_anonymization_key,
mojo::PendingRemote<network::mojom::ConnectionChangeObserverClient>&
observer,
bool success) override {
ResolveHostRequestInfo preconnect_info{url.host(),
network_anonymization_key};
if (success) {
successful_dns_lookups_.insert(preconnect_info);
} else {
unsuccessful_dns_lookups_.insert(preconnect_info);
}
CheckForWaitingLoop();
}
void OnProxyLookupFinished(
const GURL& url,
const net::NetworkAnonymizationKey& network_anonymization_key,
bool success) override {
ResolveProxyRequestInfo resolve_info{url::Origin::Create(url),
network_anonymization_key};
if (success) {
successful_proxy_lookups_.insert(resolve_info);
} else {
unsuccessful_proxy_lookups_.insert(resolve_info);
}
CheckForWaitingLoop();
}
void WaitUntilHostLookedUp(
const std::string& host,
const net::NetworkAnonymizationKey& network_anonymization_key) {
wait_event_ = WaitEvent::kDns;
DCHECK(waiting_on_dns_.IsEmpty());
waiting_on_dns_ = ResolveHostRequestInfo{host, network_anonymization_key};
Wait();
}
void WaitUntilProxyLookedUp(
const GURL& url,
const net::NetworkAnonymizationKey& network_anonymization_key) {
wait_event_ = WaitEvent::kProxy;
DCHECK(waiting_on_proxy_.IsEmpty());
waiting_on_proxy_ = ResolveProxyRequestInfo{url::Origin::Create(url),
network_anonymization_key};
Wait();
}
bool HasOriginAttemptedToPreconnect(const GURL& origin) {
DCHECK_EQ(origin, origin.DeprecatedGetOriginAsURL());
return base::Contains(preconnect_url_attempts_, origin);
}
bool HasHostBeenLookedUp(
const std::string& host,
const net::NetworkAnonymizationKey& network_anonymization_key) {
ResolveHostRequestInfo preconnect_info{host, network_anonymization_key};
return base::Contains(successful_dns_lookups_, preconnect_info) ||
base::Contains(unsuccessful_dns_lookups_, preconnect_info);
}
bool HostFound(
const std::string& host,
const net::NetworkAnonymizationKey& network_anonymization_key) {
return base::Contains(
successful_dns_lookups_,
ResolveHostRequestInfo{host, network_anonymization_key});
}
bool ProxyFound(
const GURL& url,
const net::NetworkAnonymizationKey& network_anonymization_key) {
return base::Contains(successful_proxy_lookups_,
ResolveProxyRequestInfo{url::Origin::Create(url),
network_anonymization_key});
}
const std::vector<GURL>& PreconnectUrlAttemptsHistory() const {
return preconnect_url_attempts_history_;
}
private:
enum class WaitEvent { kNone, kDns, kProxy };
struct ResolveHostRequestInfo {
bool operator<(const ResolveHostRequestInfo& other) const {
return std::tie(hostname, network_anonymization_key) <
std::tie(other.hostname, other.network_anonymization_key);
}
bool operator==(const ResolveHostRequestInfo& other) const {
return std::tie(hostname, network_anonymization_key) ==
std::tie(other.hostname, other.network_anonymization_key);
}
bool IsEmpty() const {
return hostname.empty() && network_anonymization_key.IsEmpty();
}
std::string hostname;
net::NetworkAnonymizationKey network_anonymization_key;
};
struct ResolveProxyRequestInfo {
bool operator<(const ResolveProxyRequestInfo& other) const {
return std::tie(origin, network_anonymization_key) <
std::tie(other.origin, other.network_anonymization_key);
}
bool operator==(const ResolveProxyRequestInfo& other) const {
return std::tie(origin, network_anonymization_key) ==
std::tie(other.origin, other.network_anonymization_key);
}
bool IsEmpty() const {
return origin.opaque() && network_anonymization_key.IsEmpty();
}
url::Origin origin;
net::NetworkAnonymizationKey network_anonymization_key;
};
bool HasProxyBeenLookedUp(const ResolveProxyRequestInfo& resolve_proxy_info) {
return base::Contains(successful_proxy_lookups_, resolve_proxy_info) ||
base::Contains(unsuccessful_proxy_lookups_, resolve_proxy_info);
}
void Wait() {
base::RunLoop run_loop;
DCHECK(!run_loop_);
run_loop_ = &run_loop;
CheckForWaitingLoop();
run_loop.Run();
}
void CheckForWaitingLoop() {
switch (wait_event_) {
case WaitEvent::kNone:
return;
case WaitEvent::kDns:
if (!HasHostBeenLookedUp(waiting_on_dns_.hostname,
waiting_on_dns_.network_anonymization_key)) {
return;
}
waiting_on_dns_ = ResolveHostRequestInfo();
break;
case WaitEvent::kProxy:
if (!HasProxyBeenLookedUp(waiting_on_proxy_)) {
return;
}
waiting_on_proxy_ = ResolveProxyRequestInfo();
break;
}
DCHECK(run_loop_);
run_loop_->Quit();
run_loop_ = nullptr;
wait_event_ = WaitEvent::kNone;
}
WaitEvent wait_event_ = WaitEvent::kNone;
raw_ptr<base::RunLoop> run_loop_ = nullptr;
ResolveHostRequestInfo waiting_on_dns_;
std::set<ResolveHostRequestInfo> successful_dns_lookups_;
std::set<ResolveHostRequestInfo> unsuccessful_dns_lookups_;
ResolveProxyRequestInfo waiting_on_proxy_;
std::set<ResolveProxyRequestInfo> successful_proxy_lookups_;
std::set<ResolveProxyRequestInfo> unsuccessful_proxy_lookups_;
std::set<GURL> preconnect_url_attempts_;
std::vector<GURL> preconnect_url_attempts_history_;
};
struct PrefetchResult {
PrefetchResult(const GURL& prefetch_url,
const network::URLLoaderCompletionStatus& status)
: prefetch_url(prefetch_url), status(status) {}
GURL prefetch_url;
network::URLLoaderCompletionStatus status;
};
class TestPrefetchManagerObserver : public PrefetchManager::Observer {
public:
explicit TestPrefetchManagerObserver(PrefetchManager& manager) {
manager.set_observer_for_testing(this);
}
void OnPrefetchFinished(
const GURL& url,
const GURL& prefetch_url,
const network::URLLoaderCompletionStatus& status) override {
prefetches_.emplace_back(prefetch_url, status);
}
void OnAllPrefetchesFinished(const GURL& url) override {
done_urls_.insert(url);
if (waiting_url_ == url) {
waiting_url_ = GURL();
std::move(done_callback_).Run();
}
}
void WaitForPrefetchesForNavigation(const GURL& url) {
DCHECK(waiting_url_.is_empty());
DCHECK(!url.is_empty());
if (done_urls_.find(url) != done_urls_.end()) {
return;
}
waiting_url_ = url;
base::RunLoop loop;
done_callback_ = loop.QuitClosure();
loop.Run();
}
const std::vector<PrefetchResult>& results() const { return prefetches_; }
private:
std::vector<PrefetchResult> prefetches_;
std::set<GURL> done_urls_;
GURL waiting_url_;
base::OnceClosure done_callback_;
};
class LoadingPredictorBrowserTest : public InProcessBrowserTest {
public:
LoadingPredictorBrowserTest() {
scoped_feature_list_.InitWithFeatures(
{features::kLoadingOnlyLearnHighPriorityResources,
features::kLoadingPreconnectToRedirectTarget,
features::kNavigationPredictorPreconnectHoldback},
// TODO(crbug.com/40248833): Use HTTPS URLs in tests to avoid having to
// disable this feature.
{features::kHttpsUpgrades,
// TODO(crbug.com/354087603): Update tests when this feature has
// positive (or neutral) effect of loading performance.
features::kLoadingPredictorLimitPreconnectSocketCount});
}
LoadingPredictorBrowserTest(const LoadingPredictorBrowserTest&) = delete;
LoadingPredictorBrowserTest& operator=(const LoadingPredictorBrowserTest&) =
delete;
~LoadingPredictorBrowserTest() override = default;
void SetUp() override {
ASSERT_TRUE(embedded_test_server()->InitializeAndListen());
embedded_test_server()->RegisterRequestHandler(base::BindRepeating(
&LoadingPredictorBrowserTest::HandleFaviconRequest));
embedded_test_server()->RegisterRequestHandler(base::BindRepeating(
&LoadingPredictorBrowserTest::HandleCacheRedirectRequest));
ASSERT_TRUE(preconnecting_test_server_.InitializeAndListen());
preconnecting_test_server_.RegisterRequestHandler(base::BindRepeating(
&LoadingPredictorBrowserTest::HandleFaviconRequest));
preconnecting_test_server_.AddDefaultHandlers(GetChromeTestDataDir());
InProcessBrowserTest::SetUp();
}
void SetUpOnMainThread() override {
host_resolver()->AddRule("*", "127.0.0.1");
connection_tracker_ = std::make_unique<net::test_server::ConnectionTracker>(
embedded_test_server());
preconnecting_server_connection_tracker_ =
std::make_unique<net::test_server::ConnectionTracker>(
&preconnecting_test_server_);
embedded_test_server()->StartAcceptingConnections();
EXPECT_TRUE(preconnecting_test_server_.Started());
preconnecting_test_server_.StartAcceptingConnections();
loading_predictor_ =
LoadingPredictorFactory::GetForProfile(browser()->profile());
ASSERT_TRUE(loading_predictor_);
preconnect_manager_observer_ =
std::make_unique<TestPreconnectManagerObserver>(
loading_predictor_->preconnect_manager());
if (base::FeatureList::IsEnabled(features::kLoadingPredictorPrefetch) ||
base::FeatureList::IsEnabled(
blink::features::kLCPPPrefetchSubresource)) {
prefetch_manager_observer_ =
std::make_unique<TestPrefetchManagerObserver>(
*loading_predictor_->prefetch_manager());
}
PredictorInitializer initializer(
loading_predictor_->resource_prefetch_predictor());
initializer.EnsurePredictorInitialized();
}
void TearDownOnMainThread() override {
ResetPredictorState();
loading_predictor_ = nullptr;
}
// Navigates to an URL without blocking until the navigation finishes.
// Returns an observer that can be used to wait for the navigation
// completion.
// This function creates a new tab for each navigation that allows multiple
// simultaneous navigations and avoids triggering the reload behavior.
std::unique_ptr<content::TestNavigationManager> NavigateToURLAsync(
const GURL& url) {
chrome::NewTab(browser());
content::WebContents* tab =
browser()->tab_strip_model()->GetActiveWebContents();
DCHECK(tab);
auto observer = std::make_unique<content::TestNavigationManager>(tab, url);
tab->GetController().LoadURL(url, content::Referrer(),
ui::PAGE_TRANSITION_TYPED, std::string());
return observer;
}
void ResetNetworkState() {
auto* network_context =
browser()->profile()->GetDefaultStoragePartition()->GetNetworkContext();
base::RunLoop clear_host_cache_loop;
base::RunLoop close_all_connections_loop;
network_context->ClearHostCache(nullptr,
clear_host_cache_loop.QuitClosure());
network_context->CloseAllConnections(
close_all_connections_loop.QuitClosure());
clear_host_cache_loop.Run();
close_all_connections_loop.Run();
connection_tracker()->ResetCounts();
preconnecting_server_connection_tracker_->ResetCounts();
}
void ResetPredictorState() {
loading_predictor_->resource_prefetch_predictor()->DeleteAllUrls();
}
std::unique_ptr<PreconnectPrediction> GetPreconnectPrediction(
const GURL& url) {
auto prediction = std::make_unique<PreconnectPrediction>();
bool has_prediction = loading_predictor_->resource_prefetch_predictor()
->PredictPreconnectOrigins(url, prediction.get());
if (!has_prediction) {
return nullptr;
}
return prediction;
}
LoadingPredictor* loading_predictor() { return loading_predictor_; }
TestPreconnectManagerObserver* preconnect_manager_observer() {
return preconnect_manager_observer_.get();
}
TestPrefetchManagerObserver* prefetch_manager_observer() {
return prefetch_manager_observer_.get();
}
net::test_server::ConnectionTracker* connection_tracker() {
return connection_tracker_.get();
}
net::test_server::ConnectionTracker*
preconnecting_server_connection_tracker() {
return preconnecting_server_connection_tracker_.get();
}
static std::unique_ptr<net::test_server::HttpResponse> HandleFaviconRequest(
const net::test_server::HttpRequest& request) {
if (request.relative_url != "/favicon.ico") {
return nullptr;
}
auto http_response =
std::make_unique<net::test_server::BasicHttpResponse>();
http_response->set_code(net::HTTP_OK);
http_response->AddCustomHeader("Cache-Control", "max-age=6000");
return http_response;
}
static std::unique_ptr<net::test_server::HttpResponse>
HandleCacheRedirectRequest(const net::test_server::HttpRequest& request) {
if (!base::StartsWith(request.relative_url, "/cached-redirect?",
base::CompareCase::INSENSITIVE_ASCII)) {
return nullptr;
}
GURL request_url = request.GetURL();
std::string dest =
base::UnescapeBinaryURLComponent(request_url.query_piece());
auto http_response =
std::make_unique<net::test_server::BasicHttpResponse>();
http_response->set_code(net::HTTP_MOVED_PERMANENTLY);
http_response->AddCustomHeader("Location", dest);
http_response->set_content_type("text/html");
http_response->set_content(base::StringPrintf(
"<html><head></head><body>Redirecting to %s</body></html>",
dest.c_str()));
http_response->AddCustomHeader("Cache-Control", "max-age=6000");
return http_response;
}
protected:
// Test server that initiates preconnect. Separate server from the one being
// preconnected to separate preconnected connection count.
net::EmbeddedTestServer preconnecting_test_server_;
private:
raw_ptr<LoadingPredictor> loading_predictor_ = nullptr;
std::unique_ptr<net::test_server::ConnectionTracker> connection_tracker_;
std::unique_ptr<net::test_server::ConnectionTracker>
preconnecting_server_connection_tracker_;
std::unique_ptr<TestPreconnectManagerObserver> preconnect_manager_observer_;
std::unique_ptr<TestPrefetchManagerObserver> prefetch_manager_observer_;
base::test::ScopedFeatureList scoped_feature_list_;
};
// Tests that a navigation triggers the LoadingPredictor.
IN_PROC_BROWSER_TEST_F(LoadingPredictorBrowserTest, SimpleNavigation) {
GURL url = embedded_test_server()->GetURL("/nocontent");
auto observer = NavigateToURLAsync(url);
EXPECT_TRUE(observer->WaitForRequestStart());
EXPECT_EQ(1u, loading_predictor()->GetActiveNavigationsSizeForTesting());
// Checking GetActiveHintsSizeForTesting() is racy since the active hint
// is removed after the preconnect finishes. Instead check for total
// hints activated.
EXPECT_LE(1u, loading_predictor()->GetTotalHintsActivatedForTesting());
EXPECT_GE(2u, loading_predictor()->GetTotalHintsActivatedForTesting());
ASSERT_TRUE(observer->WaitForNavigationFinished());
EXPECT_EQ(0u, loading_predictor()->GetActiveNavigationsSizeForTesting());
EXPECT_EQ(0u, loading_predictor()->GetActiveHintsSizeForTesting());
EXPECT_LE(1u, loading_predictor()->GetTotalHintsActivatedForTesting());
EXPECT_GE(2u, loading_predictor()->GetTotalHintsActivatedForTesting());
}
// Tests that two concurrenct navigations are recorded correctly by the
// predictor.
IN_PROC_BROWSER_TEST_F(LoadingPredictorBrowserTest, TwoConcurrentNavigations) {
GURL url1 = embedded_test_server()->GetURL("/echo-raw?1");
GURL url2 = embedded_test_server()->GetURL("/echo-raw?2");
auto observer1 = NavigateToURLAsync(url1);
auto observer2 = NavigateToURLAsync(url2);
EXPECT_TRUE(observer1->WaitForRequestStart());
EXPECT_TRUE(observer2->WaitForRequestStart());
EXPECT_EQ(2u, loading_predictor()->GetActiveNavigationsSizeForTesting());
// Checking GetActiveHintsSizeForTesting() is racy since the active hint
// is removed after the preconnect finishes. Instead check for total
// hints activated.
EXPECT_LE(2u, loading_predictor()->GetTotalHintsActivatedForTesting());
EXPECT_GE(4u, loading_predictor()->GetTotalHintsActivatedForTesting());
ASSERT_TRUE(observer1->WaitForNavigationFinished());
ASSERT_TRUE(observer2->WaitForNavigationFinished());
EXPECT_EQ(0u, loading_predictor()->GetActiveNavigationsSizeForTesting());
EXPECT_EQ(0u, loading_predictor()->GetActiveHintsSizeForTesting());
EXPECT_LE(2u, loading_predictor()->GetTotalHintsActivatedForTesting());
EXPECT_GE(4u, loading_predictor()->GetTotalHintsActivatedForTesting());
}
// Tests that two navigations to the same URL are deduplicated.
IN_PROC_BROWSER_TEST_F(LoadingPredictorBrowserTest,
TwoNavigationsToTheSameURL) {
GURL url = embedded_test_server()->GetURL("/nocontent");
auto observer1 = NavigateToURLAsync(url);
auto observer2 = NavigateToURLAsync(url);
EXPECT_TRUE(observer1->WaitForRequestStart());
EXPECT_TRUE(observer2->WaitForRequestStart());
EXPECT_EQ(2u, loading_predictor()->GetActiveNavigationsSizeForTesting());
// Checking GetActiveHintsSizeForTesting() is racy since the active hint
// is removed after the preconnect finishes. Instead check for total
// hints activated. The total hints activated may be only 1 if the second
// navigation arrives before the first preconnect finishes. However, if the
// second navigation arrives later, then two hints may get activated.
EXPECT_LE(1u, loading_predictor()->GetTotalHintsActivatedForTesting());
EXPECT_GE(4u, loading_predictor()->GetTotalHintsActivatedForTesting());
ASSERT_TRUE(observer1->WaitForNavigationFinished());
ASSERT_TRUE(observer2->WaitForNavigationFinished());
EXPECT_EQ(0u, loading_predictor()->GetActiveNavigationsSizeForTesting());
EXPECT_EQ(0u, loading_predictor()->GetActiveHintsSizeForTesting());
EXPECT_LE(1u, loading_predictor()->GetTotalHintsActivatedForTesting());
EXPECT_GE(4u, loading_predictor()->GetTotalHintsActivatedForTesting());
}
// Tests that the LoadingPredictor doesn't record non-http(s) navigations.
IN_PROC_BROWSER_TEST_F(LoadingPredictorBrowserTest, NonHttpNavigation) {
std::string content = "<body>Hello world!</body>";
GURL url = GetDataURLWithContent(content);
auto observer = NavigateToURLAsync(url);
EXPECT_TRUE(observer->WaitForRequestStart());
EXPECT_EQ(0u, loading_predictor()->GetActiveNavigationsSizeForTesting());
EXPECT_EQ(0u, loading_predictor()->GetActiveHintsSizeForTesting());
}
// Tests that the LoadingPredictor doesn't preconnect to non-http(s) urls.
IN_PROC_BROWSER_TEST_F(LoadingPredictorBrowserTest,
PrepareForPageLoadNonHttpScheme) {
std::string content = "<body>Hello world!</body>";
GURL url = GetDataURLWithContent(content);
ASSERT_TRUE(ui_test_utils::NavigateToURL(browser(), url));
net::SchemefulSite site = net::SchemefulSite(url);
auto network_anonymization_key =
net::NetworkAnonymizationKey ::CreateSameSite(site);
// Ensure that no backgound task would make a host lookup or attempt to
// preconnect.
base::RunLoop().RunUntilIdle();
EXPECT_FALSE(preconnect_manager_observer()->HasHostBeenLookedUp(
url.host(), network_anonymization_key));
EXPECT_FALSE(preconnect_manager_observer()->HasHostBeenLookedUp(
"", network_anonymization_key));
EXPECT_FALSE(preconnect_manager_observer()->HasOriginAttemptedToPreconnect(
url.DeprecatedGetOriginAsURL()));
EXPECT_FALSE(
preconnect_manager_observer()->HasOriginAttemptedToPreconnect(GURL()));
}
namespace {
class TestPrerenderStopObserver
: public prerender::NoStatePrefetchHandle::Observer {
public:
explicit TestPrerenderStopObserver(base::OnceClosure on_stop_closure)
: on_stop_closure_(std::move(on_stop_closure)) {}
~TestPrerenderStopObserver() override = default;
void OnPrefetchStop(prerender::NoStatePrefetchHandle* contents) override {
if (on_stop_closure_) {
std::move(on_stop_closure_).Run();
}
}
private:
base::OnceClosure on_stop_closure_;
};
} // namespace
// Tests that the LoadingPredictor preconnects to the main frame origin even if
// it doesn't have any prediction for this origin.
IN_PROC_BROWSER_TEST_F(LoadingPredictorBrowserTest,
PrepareForPageLoadWithoutPrediction) {
// Navigate the first time to fill the HTTP cache.
GURL url = embedded_test_server()->GetURL(
"test.com", GetPathWithPortReplacement(kHtmlSubresourcesPath,
embedded_test_server()->port()));
net::SchemefulSite site = net::SchemefulSite(url);
auto network_anonymization_key =
net::NetworkAnonymizationKey ::CreateSameSite(site);
ASSERT_TRUE(ui_test_utils::NavigateToURL(browser(), url));
ResetNetworkState();
ResetPredictorState();
auto observer = NavigateToURLAsync(url);
EXPECT_TRUE(observer->WaitForRequestStart());
preconnect_manager_observer()->WaitUntilHostLookedUp(
url.host(), network_anonymization_key);
EXPECT_TRUE(preconnect_manager_observer()->HostFound(
url.host(), network_anonymization_key));
// We should preconnect only 2 sockets for the main frame host.
const size_t expected_connections = 2;
connection_tracker()->WaitForAcceptedConnections(expected_connections);
EXPECT_EQ(expected_connections,
connection_tracker()->GetAcceptedSocketCount());
// No reads since all resources should be cached.
EXPECT_EQ(0u, connection_tracker()->GetReadSocketCount());
}
// Tests that the LoadingPredictor has a prediction for a host after navigating
// to it.
IN_PROC_BROWSER_TEST_F(LoadingPredictorBrowserTest, LearnFromNavigation) {
GURL url = embedded_test_server()->GetURL(
"test.com", GetPathWithPortReplacement(kHtmlSubresourcesPath,
embedded_test_server()->port()));
net::SchemefulSite site = net::SchemefulSite(url);
std::vector<PreconnectRequest> requests;
for (auto* const host : kHtmlSubresourcesHosts) {
requests.emplace_back(
url::Origin::Create(embedded_test_server()->GetURL(host, "/")), 1,
net::NetworkAnonymizationKey::CreateSameSite(site));
}
ASSERT_TRUE(ui_test_utils::NavigateToURL(browser(), url));
auto prediction = GetPreconnectPrediction(url);
ASSERT_TRUE(prediction);
EXPECT_EQ(prediction->is_redirected, false);
EXPECT_EQ(prediction->host, url.host());
EXPECT_THAT(prediction->requests,
testing::UnorderedElementsAreArray(requests));
}
class LoadingPredictorBrowserTestLearnAllResources
: public LoadingPredictorBrowserTest {
public:
LoadingPredictorBrowserTestLearnAllResources() {
feature_list_.InitAndDisableFeature(
features::kLoadingOnlyLearnHighPriorityResources);
}
private:
base::test::ScopedFeatureList feature_list_;
};
// Tests that the LoadingPredictor has a prediction for a host after navigating
// to it. Disables kLoadingOnlyLearnHighPriorityResources.
IN_PROC_BROWSER_TEST_F(LoadingPredictorBrowserTestLearnAllResources,
LearnFromNavigation) {
GURL url = embedded_test_server()->GetURL(
"test.com", GetPathWithPortReplacement(kHtmlSubresourcesPath,
embedded_test_server()->port()));
net::SchemefulSite site = net::SchemefulSite(url);
std::vector<PreconnectRequest> requests;
for (auto* const host : kHtmlSubresourcesHosts) {
requests.emplace_back(
url::Origin::Create(embedded_test_server()->GetURL(host, "/")), 1,
net::NetworkAnonymizationKey::CreateSameSite(site));
}
// When kLoadingOnlyLearnHighPriorityResources is disabled, loading data
// collector should learn the loading of low priority resources hosted on
// bar.com as well.
requests.emplace_back(
url::Origin::Create(embedded_test_server()->GetURL("bar.com", "/")), 1,
net::NetworkAnonymizationKey::CreateSameSite(site));
ASSERT_TRUE(ui_test_utils::NavigateToURL(browser(), url));
auto prediction = GetPreconnectPrediction(url);
ASSERT_TRUE(prediction);
EXPECT_EQ(prediction->is_redirected, false);
EXPECT_EQ(prediction->host, url.host());
EXPECT_THAT(prediction->requests,
testing::UnorderedElementsAreArray(requests));
}
// Tests that the LoadingPredictor correctly learns from navigations with
// redirect.
IN_PROC_BROWSER_TEST_F(LoadingPredictorBrowserTest,
LearnFromNavigationWithRedirect) {
GURL redirect_url = embedded_test_server()->GetURL(
"test.com", GetPathWithPortReplacement(kHtmlSubresourcesPath,
embedded_test_server()->port()));
GURL original_url = embedded_test_server()->GetURL(
"redirect.com",
base::StringPrintf("/server-redirect?%s", redirect_url.spec().c_str()));
url::Origin origin = url::Origin::Create(redirect_url);
net::SchemefulSite site = net::SchemefulSite(origin);
std::vector<PreconnectRequest> expected_requests;
for (auto* const host : kHtmlSubresourcesHosts) {
expected_requests.emplace_back(
url::Origin::Create(embedded_test_server()->GetURL(host, "/")), 1,
net::NetworkAnonymizationKey::CreateSameSite(site));
}
ASSERT_TRUE(ui_test_utils::NavigateToURL(browser(), original_url));
// The predictor can correctly predict hosts by |redirect_url|
auto prediction = GetPreconnectPrediction(redirect_url);
ASSERT_TRUE(prediction);
EXPECT_EQ(prediction->is_redirected, false);
EXPECT_EQ(prediction->host, redirect_url.host());
EXPECT_THAT(prediction->requests,
testing::UnorderedElementsAreArray(expected_requests));
// The predictor needs minimum two redirect hits to be confident in the
// redirect to generate the origins for subresources. However, after the
// first redirect, the predictor should learn the redirect origin for
// preconnect.
prediction = GetPreconnectPrediction(original_url);
ASSERT_TRUE(prediction);
EXPECT_FALSE(prediction->is_redirected);
EXPECT_EQ(prediction->host, original_url.host());
std::vector<PreconnectRequest> expected_requests_1;
url::Origin redirect_origin = url::Origin::Create(
embedded_test_server()->GetURL(redirect_url.host(), "/"));
expected_requests_1.emplace_back(
redirect_origin, 1, net::NetworkAnonymizationKey::CreateSameSite(site));
EXPECT_THAT(prediction->requests,
testing::UnorderedElementsAreArray(expected_requests_1));
// The predictor will start predict for origins of subresources (based on
// redirect) after the second navigation.
ASSERT_TRUE(ui_test_utils::NavigateToURL(browser(), original_url));
prediction = GetPreconnectPrediction(original_url);
expected_requests.emplace_back(
redirect_origin, 1, net::NetworkAnonymizationKey::CreateSameSite(site));
ASSERT_TRUE(prediction);
EXPECT_EQ(prediction->is_redirected, true);
EXPECT_EQ(prediction->host, redirect_url.host());
EXPECT_THAT(prediction->requests,
testing::UnorderedElementsAreArray(expected_requests));
}
// Tests that the LoadingPredictor performs preresolving/preconnecting for a
// navigation which it has a prediction for.
IN_PROC_BROWSER_TEST_F(LoadingPredictorBrowserTest,
PrepareForPageLoadWithPrediction) {
// Navigate the first time to fill the predictor's database and the HTTP
// cache.
GURL url = embedded_test_server()->GetURL(
"test.com", GetPathWithPortReplacement(kHtmlSubresourcesPath,
embedded_test_server()->port()));
net::SchemefulSite site = net::SchemefulSite(url);
auto network_anonymization_key =
net::NetworkAnonymizationKey::CreateSameSite(site);
ASSERT_TRUE(ui_test_utils::NavigateToURL(browser(), url));
ResetNetworkState();
auto observer = NavigateToURLAsync(url);
EXPECT_TRUE(observer->WaitForRequestStart());
for (auto* const host : kHtmlSubresourcesHosts) {
GURL host_url(base::StringPrintf("http://%s", host));
preconnect_manager_observer()->WaitUntilHostLookedUp(
host_url.host(), network_anonymization_key);
EXPECT_TRUE(preconnect_manager_observer()->HostFound(
host_url.host(), network_anonymization_key));
}
// 2 connections to the main frame host + 1 connection per host for others.
const size_t expected_connections = std::size(kHtmlSubresourcesHosts) + 1;
connection_tracker()->WaitForAcceptedConnections(expected_connections);
EXPECT_EQ(expected_connections,
connection_tracker()->GetAcceptedSocketCount());
// No reads since all resources should be cached.
EXPECT_EQ(0u, connection_tracker()->GetReadSocketCount());
}
// Tests that a host requested by <link rel="dns-prefetch"> is looked up.
IN_PROC_BROWSER_TEST_F(LoadingPredictorBrowserTest, DnsPrefetch) {
GURL url = embedded_test_server()->GetURL("/predictor/dns_prefetch.html");
net::SchemefulSite site = net::SchemefulSite(url);
auto network_anonymization_key =
net::NetworkAnonymizationKey::CreateSameSite(site);
ASSERT_TRUE(ui_test_utils::NavigateToURL(browser(), url));
preconnect_manager_observer()->WaitUntilHostLookedUp(
GURL(kChromiumUrl).host(), network_anonymization_key);
EXPECT_TRUE(preconnect_manager_observer()->HostFound(
GURL(kChromiumUrl).host(), network_anonymization_key));
}
// Tests that preconnect warms up a socket connection to a test server.
// Note: This test uses a data URI to serve the preconnect hint, to make sure
// that the network stack doesn't just re-use its connection to the test server.
IN_PROC_BROWSER_TEST_F(LoadingPredictorBrowserTest, PreconnectNonCors) {
GURL preconnect_url = embedded_test_server()->base_url();
std::string preconnect_content =
"<link rel=\"preconnect\" href=\"" + preconnect_url.spec() + "\">";
ASSERT_TRUE(ui_test_utils::NavigateToURL(
browser(), GetDataURLWithContent(preconnect_content)));
connection_tracker()->WaitForAcceptedConnections(1u);
EXPECT_EQ(1u, connection_tracker()->GetAcceptedSocketCount());
EXPECT_EQ(0u, connection_tracker()->GetReadSocketCount());
}
class LCPPBrowserTestBase : public LoadingPredictorBrowserTest {
public:
void NavigateAndWaitForLcpElement(
const GURL& url,
const base::Location& from_here = FROM_HERE) {
LcpElementLearnWaiter lcp_element_waiter(
loading_predictor()->resource_prefetch_predictor());
page_load_metrics::PageLoadMetricsTestWaiter waiter(
browser()->tab_strip_model()->GetActiveWebContents());
waiter.AddPageExpectation(page_load_metrics::PageLoadMetricsTestWaiter::
TimingField::kLargestContentfulPaint);
ASSERT_TRUE(ui_test_utils::NavigateToURL(browser(), url))
<< from_here.ToString();
waiter.Wait();
// Navigate to about:blank to force recording a LCP element.
ASSERT_TRUE(ui_test_utils::NavigateToURL(browser(), GURL("about:blank")))
<< from_here.ToString();
lcp_element_waiter.Wait();
}
};
// TODO(crbug.com/40063266): isolate test per feature. Currently, it has
// test for script observer and fonts.
class LCPCriticalPathPredictorBrowserTest : public LCPPBrowserTestBase {
public:
LCPCriticalPathPredictorBrowserTest() {
scoped_feature_list_.InitWithFeaturesAndParameters(
{{blink::features::kLCPCriticalPathPredictor, {}},
{blink::features::kLCPPFontURLPredictor,
{{blink::features::kLCPPFontURLPredictorExcludedHosts.name,
"exclude.test,exclude2.test"}}}},
{});
}
std::vector<std::string> ExpectLcpElementLocatorsPrediction(
const base::Location& from_here,
const GURL& url,
size_t expected_locator_count) {
auto lcpp_stat =
loading_predictor()->resource_prefetch_predictor()->GetLcppStat(
/*initiator_origin=*/std::nullopt, url);
std::vector<std::string> locators;
if (lcpp_stat) {
std::optional<blink::mojom::LCPCriticalPathPredictorNavigationTimeHint>
hint = ConvertLcppStatToLCPCriticalPathPredictorNavigationTimeHint(
*lcpp_stat);
if (hint) {
locators = hint->lcp_element_locators;
}
}
EXPECT_EQ(expected_locator_count, locators.size()) << from_here.ToString();
return locators;
}
std::vector<std::string> GetLCPPFonts(const GURL& url) {
auto lcpp_stat =
loading_predictor()->resource_prefetch_predictor()->GetLcppStat(
/*initiator_origin=*/std::nullopt, url);
if (!lcpp_stat) {
return std::vector<std::string>();
}
std::vector<std::string> fonts;
for (const auto& it : lcpp_stat->fetched_font_url_stat().main_buckets()) {
fonts.push_back(it.first);
}
return fonts;
}
private:
base::test::ScopedFeatureList scoped_feature_list_;
};
// Tests that the LoadingPredictor has a LCP critical path predictor
// (LCPP) prediction after navigating to it.
// LCPP:
// https://docs.google.com/document/d/18qTNRyv_9K2CtvVrl_ancLzPxiAnfAcbvrCNegU9IBM
// LCP: https://web.dev/lcp/
IN_PROC_BROWSER_TEST_F(LCPCriticalPathPredictorBrowserTest,
LearnLCPPFromNavigation) {
const GURL kUrlA =
embedded_test_server()->GetURL("p.com", "/predictors/load_image_a.html");
const GURL kUrlB =
embedded_test_server()->GetURL("p.com", "/predictors/load_image_b.html");
const GURL kUrlC =
embedded_test_server()->GetURL("q.com", "/predictors/load_image_a.html");
// There is no knowledge in the beginning.
ExpectLcpElementLocatorsPrediction(FROM_HERE, kUrlA,
/*expected_locator_count=*/0);
ExpectLcpElementLocatorsPrediction(FROM_HERE, kUrlB,
/*expected_locator_count=*/0);
ExpectLcpElementLocatorsPrediction(FROM_HERE, kUrlC,
/*expected_locator_count=*/0);
NavigateAndWaitForLcpElement(kUrlA);
// The locators should contain [lcp_element_for_a].
std::vector<std::string> locators_1 =
ExpectLcpElementLocatorsPrediction(FROM_HERE, kUrlA,
/*expected_locator_count=*/1);
std::vector<std::string> locators_2 =
ExpectLcpElementLocatorsPrediction(FROM_HERE, kUrlB,
/*expected_locator_count=*/1);
EXPECT_EQ(locators_1, locators_2);
// The locator is encoded in a binary form. So storing the locator for a LCP
// node for kUrlA to use later validation.
const std::string& locator_for_a = locators_2[0];
ExpectLcpElementLocatorsPrediction(FROM_HERE, kUrlC,
/*expected_locator_count=*/0);
NavigateAndWaitForLcpElement(kUrlB);
// The locators should contain [lcp_element_for_a, lcp_element_for_b].
std::vector<std::string> locators_3 =
ExpectLcpElementLocatorsPrediction(FROM_HERE, kUrlA,
/*expected_locator_count=*/2);
std::vector<std::string> locators_4 =
ExpectLcpElementLocatorsPrediction(FROM_HERE, kUrlB,
/*expected_locator_count=*/2);
EXPECT_EQ(locators_3, locators_4);
ExpectLcpElementLocatorsPrediction(FROM_HERE, kUrlC,
/*expected_locator_count=*/0);
NavigateAndWaitForLcpElement(kUrlB);
std::vector<std::string> locators_5 =
ExpectLcpElementLocatorsPrediction(FROM_HERE, kUrlA,
/*expected_locator_count=*/2);
std::vector<std::string> locators_6 =
ExpectLcpElementLocatorsPrediction(FROM_HERE, kUrlB,
/*expected_locator_count=*/2);
// The locators should contain [lcp_element_for_b, lcp_element_for_a].
// lcp_element_for_b must come first because we navigated to kUrlB twice.
EXPECT_EQ(locators_5, locators_6);
ExpectLcpElementLocatorsPrediction(FROM_HERE, kUrlC,
/*expected_locator_count=*/0);
EXPECT_EQ(locator_for_a, locators_6[1]);
}
IN_PROC_BROWSER_TEST_F(LCPCriticalPathPredictorBrowserTest, LearnLCPPFont) {
const GURL kUrlA =
embedded_test_server()->GetURL("p.com", "/predictors/lcpp_font.html");
const GURL kFontUrlA =
embedded_test_server()->GetURL("p.com", "/predictors/font.ttf");
const GURL kUrlB = embedded_test_server()->GetURL(
"exclude.test", "/predictors/lcpp_font.html");
const GURL kUrlC = embedded_test_server()->GetURL(
"exclude2.test", "/predictors/lcpp_font.html");
EXPECT_EQ(std::vector<std::string>(), GetLCPPFonts(kUrlA));
EXPECT_EQ(std::vector<std::string>(), GetLCPPFonts(kUrlB));
std::vector<std::string> expected;
expected.push_back(kFontUrlA.spec());
NavigateAndWaitForLcpElement(kUrlA);
EXPECT_EQ(expected, GetLCPPFonts(kUrlA));
EXPECT_EQ(std::vector<std::string>(), GetLCPPFonts(kUrlB));
EXPECT_EQ(std::vector<std::string>(), GetLCPPFonts(kUrlC));
NavigateAndWaitForLcpElement(kUrlB);
EXPECT_EQ(expected, GetLCPPFonts(kUrlA));
EXPECT_EQ(std::vector<std::string>(), GetLCPPFonts(kUrlB));
EXPECT_EQ(std::vector<std::string>(), GetLCPPFonts(kUrlC));
NavigateAndWaitForLcpElement(kUrlC);
EXPECT_EQ(expected, GetLCPPFonts(kUrlA));
EXPECT_EQ(std::vector<std::string>(), GetLCPPFonts(kUrlB));
EXPECT_EQ(std::vector<std::string>(), GetLCPPFonts(kUrlC));
}
class LCPPPrefetchSubresourceTest : public LCPPBrowserTestBase {
public:
LCPPPrefetchSubresourceTest() {
scoped_feature_list_.InitWithFeatures(
/*enabled_features=*/{blink::features::kLCPPPrefetchSubresource},
/*disabled_features=*/{features::kLoadingPredictorPrefetch,
blink::features::kHttpDiskCachePrewarming});
}
void SetUpCommandLine(base::CommandLine* command_line) override {
LCPPBrowserTestBase::SetUpCommandLine(command_line);
command_line->AppendSwitch(
switches::kLoadingPredictorAllowLocalRequestForTesting);
}
GURL GetURL(const std::string& path) {
return embedded_test_server()->GetURL("a.test", path);
}
private:
base::test::ScopedFeatureList scoped_feature_list_;
};
// Tests that prefetch uses LCP-learning subresources.
IN_PROC_BROWSER_TEST_F(LCPPPrefetchSubresourceTest, Base) {
CHECK(
base::FeatureList::IsEnabled(blink::features::kLCPPPrefetchSubresource));
CHECK(!base::FeatureList::IsEnabled(features::kLoadingPredictorPrefetch));
CHECK(
!base::FeatureList::IsEnabled(blink::features::kHttpDiskCachePrewarming));
const GURL url = GetURL("/predictors/preload.html");
NavigateAndWaitForLcpElement(url);
EXPECT_TRUE(prefetch_manager_observer()->results().empty());
auto lcpp_stat =
loading_predictor()->resource_prefetch_predictor()->GetLcppStat(
/*initiator_origin=*/std::nullopt, url);
EXPECT_TRUE(lcpp_stat.has_value());
const auto& subresource_urls = PredictFetchedSubresourceUrls(*lcpp_stat);
// Check LCP has learnt the subresources.
EXPECT_EQ(std::set<GURL>({GetURL("/predictors/red_rectangle.png"),
GetURL("/predictors/style.css"),
GetURL("/predictors/script.js"),
GetURL("/predictors/font.ttf")}),
std::set<GURL>(subresource_urls.begin(), subresource_urls.end()));
EXPECT_TRUE(prefetch_manager_observer()->results().empty());
ASSERT_TRUE(ui_test_utils::NavigateToURL(browser(), url));
prefetch_manager_observer()->WaitForPrefetchesForNavigation(url);
const auto results = prefetch_manager_observer()->results();
std::set<GURL> result_urls;
for (const auto& result : results) {
EXPECT_EQ(net::OK, result.status.error_code) << result.prefetch_url;
result_urls.insert(result.prefetch_url);
}
// font.tts prefetch is handled by kLCPPFontURLPredictor feature.
EXPECT_EQ(std::set<GURL>({GetURL("/predictors/style.css"),
GetURL("/predictors/script.js")}),
result_urls);
}
IN_PROC_BROWSER_TEST_F(LCPPPrefetchSubresourceTest, UMA) {
NavigateAndWaitForLcpElement(GetURL("/predictors/preload.html"));
base::HistogramTester histogram_tester;
NavigateAndWaitForLcpElement(GetURL("/predictors/preload2.html"));
// predicted subresources:
// style.css
// script.js
// font.ttf
// red_rectangle.png
// actual subresources:
// style.css
// script.js
// red_rectangle.png
// red_rectangle2.png
// red_rectangle3.png
// hit = 3
// precision = 3/4 = 75%
// recall = 3/5 = 60%
EXPECT_THAT(
histogram_tester.GetAllSamples(
::internal::kHistogramLCPPSubresourceCountType),
base::BucketsAre(
base::Bucket(network::mojom::RequestDestination::kImage, 3),
base::Bucket(network::mojom::RequestDestination::kStyle, 1),
base::Bucket(network::mojom::RequestDestination::kScript, 1)));
histogram_tester.ExpectUniqueSample(
::internal::kHistogramLCPPSubresourceCountPrecision, 75, 1);
histogram_tester.ExpectUniqueSample(
::internal::kHistogramLCPPSubresourceCountRecall, 60, 1);
histogram_tester.ExpectUniqueSample(
::internal::kHistogramLCPPSubresourceCountSameSiteRatio, 100, 1);
}
class LCPPTimingPredictorTestBase : public InProcessBrowserTest {
public:
~LCPPTimingPredictorTestBase() override = default;
void SetUpOnMainThread() override {
host_resolver()->AddRule("*", "127.0.0.1");
slow_response_manager_ =
std::make_unique<net::test_server::ControllableHttpResponseManager>(
embedded_test_server(), "/image_slow.png");
ASSERT_TRUE(embedded_test_server()->Start());
loading_predictor_ =
LoadingPredictorFactory::GetForProfile(browser()->profile());
ASSERT_TRUE(loading_predictor_);
loading_predictor_->EnableLCPPTesting();
PredictorInitializer initializer(
loading_predictor_->resource_prefetch_predictor());
initializer.EnsurePredictorInitialized();
}
void TearDownOnMainThread() override { loading_predictor_ = nullptr; }
void NavigateAndWaitForLcpElement(
const GURL& url,
const std::string& expected_events,
size_t expected_lcp_count,
const std::optional<size_t>& expected_lcp_index,
const base::Location& from_here = FROM_HERE) {
content::WebContents* web_contents =
browser()->tab_strip_model()->GetActiveWebContents();
page_load_metrics::PageLoadMetricsTestWaiter onload_waiter(web_contents);
onload_waiter.AddPageExpectation(
page_load_metrics::PageLoadMetricsTestWaiter::TimingField::kLoadEvent);
LcpTimingPredictedWaiter timing_predicted_waiter(
loading_predictor()->resource_prefetch_predictor());
LcpUpdatedWaiter lcp_updated_waiter(
loading_predictor()->resource_prefetch_predictor(), expected_lcp_count);
content::NavigationController::LoadURLParams params(url);
web_contents->GetController().LoadURLWithParams(params);
const std::vector<std::optional<std::string>>& lcp_element_locators =
lcp_updated_waiter.Wait();
std::unique_ptr<net::test_server::ControllableHttpResponse> slow_response =
slow_response_manager_->WaitForRequest();
slow_response->Send(net::HTTP_OK, "image/png", "image_body", /*cookies=*/{},
{"Cache-Control: no-store"});
slow_response->Done();
onload_waiter.Wait();
const std::optional<std::string>& predicted_lcp_locator =
timing_predicted_waiter.Wait();
EXPECT_EQ(predicted_lcp_locator.has_value(),
expected_lcp_index.has_value());
if (expected_lcp_index) {
EXPECT_EQ(*lcp_element_locators[*expected_lcp_index],
*predicted_lcp_locator);
}
std::string actual_events = content::EvalJs(web_contents, R"(
globalThis.events.join(", ")
)")
.ExtractString();
std::vector<std::string> expected_vec = base::SplitString(
expected_events, ",", base::TRIM_WHITESPACE, base::SPLIT_WANT_NONEMPTY);
std::vector<std::string> actual_vec = base::SplitString(
actual_events, ",", base::TRIM_WHITESPACE, base::SPLIT_WANT_NONEMPTY);
EXPECT_THAT(actual_vec, testing::UnorderedElementsAreArray(expected_vec))
<< "Expected events: " << expected_events
<< "\nActual events: " << actual_events << "\nTimings: "
<< content::EvalJs(web_contents, R"(
globalThis.timings.join(", ")
)")
.ExtractString();
LcpElementLearnWaiter lcp_element_waiter(
loading_predictor()->resource_prefetch_predictor());
EXPECT_TRUE(ui_test_utils::NavigateToURL(browser(), GURL("about:blank")))
<< from_here.ToString();
lcp_element_waiter.Wait();
}
LoadingPredictor* loading_predictor() { return loading_predictor_; }
private:
raw_ptr<LoadingPredictor> loading_predictor_ = nullptr;
std::unique_ptr<net::test_server::ControllableHttpResponseManager>
slow_response_manager_;
};
class LCPPTimingPredictorBrowserTest : public LCPPTimingPredictorTestBase {
public:
LCPPTimingPredictorBrowserTest() {
scoped_feature_list_.InitWithFeatures(
/*enabled_features=*/
{blink::features::kLCPTimingPredictorPrerender2},
/*disabled_features=*/{});
}
void TestPrediction(const base::Location& from_here = FROM_HERE) {
const GURL kUrl = embedded_test_server()->GetURL(
"a.test", "/predictors/lcp_occur_twice.html");
NavigateAndWaitForLcpElement(kUrl,
/*expected_events=*/"LCP@IMG, LCP@DIV, Onload",
/*expected_lcp_count=*/2u,
/*expected_lcp_index=*/std::nullopt,
from_here);
NavigateAndWaitForLcpElement(kUrl,
/*expected_events=*/"LCP@IMG, LCP@DIV, Onload",
/*expected_lcp_count=*/2u,
/*expected_lcp_index=*/1u, // =DIV
from_here);
}
private:
base::test::ScopedFeatureList scoped_feature_list_;
};
// Confirm image element of the first LCP is predicted rather than div, or the
// actual LCP(current implementation)
// TODO(crbug.com/413192370): Flaky on win-rel.
#if BUILDFLAG(IS_WIN)
#define MAYBE_Base DISABLED_Base
#else
#define MAYBE_Base Base
#endif
IN_PROC_BROWSER_TEST_F(LCPPTimingPredictorBrowserTest, MAYBE_Base) {
TestPrediction();
}
class LCPPTimingPredictorBrowserFlagTest
: public LCPPTimingPredictorBrowserTest,
public ::testing::WithParamInterface<std::string> {
public:
LCPPTimingPredictorBrowserFlagTest() {
scoped_feature_list_.InitWithFeaturesAndParameters(
/*enabled_features=*/
{{blink::features::kLCPCriticalPathPredictor,
{{blink::features::kLCPCriticalPathPredictorRecordedLcpElementTypes
.name,
GetParam()}}}},
/*disabled_features=*/{});
}
private:
base::test::ScopedFeatureList scoped_feature_list_;
};
// kLCPCriticalPathPredictorRecordedLcpElementTypes should not affect.
// TODO(crbug.com/413192370): Flaky on win-rel.
#if BUILDFLAG(IS_WIN)
#define MAYBE_WithKCriticalPathFlag DISABLED_WithKCriticalPathFlag
#else
#define MAYBE_WithKCriticalPathFlag WithKCriticalPathFlag
#endif
IN_PROC_BROWSER_TEST_P(LCPPTimingPredictorBrowserFlagTest,
MAYBE_WithKCriticalPathFlag) {
TestPrediction();
}
INSTANTIATE_TEST_SUITE_P(Flags,
LCPPTimingPredictorBrowserFlagTest,
::testing::Values("all", "image_only"));
class LCPPAutoPreconnectTest : public InProcessBrowserTest,
public ::testing::WithParamInterface<bool> {
public:
LCPPAutoPreconnectTest() {
scoped_feature_list_.InitWithFeaturesAndParameters(
/*enabled_features=*/
{{blink::features::kLCPPAutoPreconnectLcpOrigin,
{{blink::features::kLCPPAutoPreconnectRecordAllOrigins.name,
GetParam() ? "true" : "false"}}}},
/*disabled_features=*/{});
}
~LCPPAutoPreconnectTest() override = default;
void SetUpOnMainThread() override {
host_resolver()->AddRule("*", "127.0.0.1");
ASSERT_TRUE(embedded_test_server()->Start());
loading_predictor_ =
LoadingPredictorFactory::GetForProfile(browser()->profile());
ASSERT_TRUE(loading_predictor_);
PredictorInitializer initializer(
loading_predictor_->resource_prefetch_predictor());
initializer.EnsurePredictorInitialized();
preconnect_manager_observer_ =
std::make_unique<TestPreconnectManagerObserver>(
loading_predictor_->preconnect_manager());
}
void TearDownOnMainThread() override { loading_predictor_ = nullptr; }
void NavigateAndWaitForLcpElement(
const GURL& url,
const base::Location& from_here = FROM_HERE) {
content::WebContents* web_contents =
browser()->tab_strip_model()->GetActiveWebContents();
page_load_metrics::PageLoadMetricsTestWaiter waiter(web_contents);
waiter.AddMinimumLargestContentfulPaintImageExpectation(1);
ASSERT_TRUE(ui_test_utils::NavigateToURL(browser(), url))
<< from_here.ToString();
waiter.Wait();
waiter.AddMinimumLargestContentfulPaintImageExpectation(1);
EXPECT_TRUE(content::ExecJs(
web_contents, base::StringPrintf(R"(
const img_bar = document.getElementById("bar");
img_bar.src = "http://bar.com:%d/predictors/lcp-100x50.png";
)",
embedded_test_server()->port())));
waiter.Wait();
// Navigate to about:blank to force recording a LCP element.
LcpElementLearnWaiter lcp_element_waiter(
loading_predictor()->resource_prefetch_predictor());
ASSERT_TRUE(ui_test_utils::NavigateToURL(browser(), GURL("about:blank")))
<< from_here.ToString();
lcp_element_waiter.Wait();
}
std::vector<std::string> GetPreconnectedHosts() const {
std::vector<std::string> hosts;
for (auto& url :
preconnect_manager_observer_->PreconnectUrlAttemptsHistory()) {
hosts.push_back(url.host());
}
return hosts;
}
LoadingPredictor* loading_predictor() { return loading_predictor_; }
private:
base::test::ScopedFeatureList scoped_feature_list_;
raw_ptr<LoadingPredictor> loading_predictor_ = nullptr;
std::unique_ptr<TestPreconnectManagerObserver> preconnect_manager_observer_;
};
IN_PROC_BROWSER_TEST_P(LCPPAutoPreconnectTest, EnabledAllOrigins) {
const bool kEnabledAllOrigins = GetParam();
const GURL kUrl = embedded_test_server()->GetURL(
"a.test", GetPathWithPortReplacement("/predictors/preconnect.html",
embedded_test_server()->port()));
base::HistogramTester histogram_tester;
NavigateAndWaitForLcpElement(kUrl);
EXPECT_EQ(std::vector<std::string>({"a.test"}), GetPreconnectedHosts());
histogram_tester.ExpectUniqueSample("Blink.LCPP.PreconnectCount",
kEnabledAllOrigins ? 2 : 1, 1);
NavigateAndWaitForLcpElement(kUrl);
EXPECT_EQ(
kEnabledAllOrigins
? std::vector<std::string>({"a.test", "a.test", "foo.com", "bar.com"})
: std::vector<std::string>({"a.test", "a.test", "bar.com"}),
GetPreconnectedHosts());
}
INSTANTIATE_TEST_SUITE_P(Flags,
LCPPAutoPreconnectTest,
::testing::Bool(),
::testing::PrintToStringParamName());
class SuppressesLoadingPredictorOnSlowNetworkBrowserTest
: public LoadingPredictorBrowserTest {
public:
SuppressesLoadingPredictorOnSlowNetworkBrowserTest() {
scoped_feature_list_.InitWithFeaturesAndParameters(
{{features::kSuppressesLoadingPredictorOnSlowNetwork,
{{features::kSuppressesLoadingPredictorOnSlowNetworkThreshold.name,
"500ms"}}}},
{});
}
network::NetworkQualityTracker& GetNetworkQualityTracker() const {
return *g_browser_process->network_quality_tracker();
}
private:
base::test::ScopedFeatureList scoped_feature_list_;
};
// Tests that kSuppressesLoadingPredictorOnSlowNetwork feature suppresses
// LoadingPredictor on slow network.
IN_PROC_BROWSER_TEST_F(SuppressesLoadingPredictorOnSlowNetworkBrowserTest,
SuppressesOnSlowNetwork) {
GURL url = embedded_test_server()->GetURL("/nocontent");
base::TimeDelta http_rtt = GetNetworkQualityTracker().GetHttpRTT();
int32_t downstream_throughput_kbps =
GetNetworkQualityTracker().GetDownstreamThroughputKbps();
{
// LoadingPredictor will be suppressed on slow networks.
GetNetworkQualityTracker().ReportRTTsAndThroughputForTesting(
base::Milliseconds(501), downstream_throughput_kbps);
auto observer = NavigateToURLAsync(url);
ASSERT_TRUE(observer->WaitForNavigationFinished());
EXPECT_EQ(0u, loading_predictor()->GetTotalHintsActivatedForTesting());
}
{
// LoadingPredictor will not be suppressed on fast networks.
GetNetworkQualityTracker().ReportRTTsAndThroughputForTesting(
base::Milliseconds(500), downstream_throughput_kbps);
auto observer = NavigateToURLAsync(url);
ASSERT_TRUE(observer->WaitForNavigationFinished());
EXPECT_EQ(1u, loading_predictor()->GetTotalHintsActivatedForTesting());
}
// Reset to the original values.
GetNetworkQualityTracker().ReportRTTsAndThroughputForTesting(
http_rtt, downstream_throughput_kbps);
}
enum class NetworkIsolationKeyMode {
kDisabled,
kEnabled,
};
class LoadingPredictorNetworkIsolationKeyBrowserTest
: public LoadingPredictorBrowserTest,
public testing::WithParamInterface<NetworkIsolationKeyMode> {
public:
LoadingPredictorNetworkIsolationKeyBrowserTest() {
switch (GetParam()) {
case NetworkIsolationKeyMode::kDisabled:
scoped_feature_list2_.InitWithFeatures(
// enabled_features
{features::kLoadingPreconnectToRedirectTarget},
// disabled_features
{net::features::kPartitionConnectionsByNetworkIsolationKey,
net::features::kSplitCacheByNetworkIsolationKey});
break;
case NetworkIsolationKeyMode::kEnabled:
scoped_feature_list2_.InitWithFeatures(
// enabled_features
{net::features::kPartitionConnectionsByNetworkIsolationKey,
net::features::kSplitCacheByNetworkIsolationKey,
features::kLoadingPreconnectToRedirectTarget},
// disabled_features
{});
break;
}
}
~LoadingPredictorNetworkIsolationKeyBrowserTest() override = default;
// One server is used to initiate preconnects, and one is preconnected to.
// This makes tracking preconnected sockets much easier, and removes all
// worried about favicon fetches and other sources of preconnects.
net::EmbeddedTestServer* preconnecting_test_server() {
return &preconnecting_test_server_;
}
// Load the favicon into the cache, so that favicon requests won't create any
// new connections. Can't just wait for it normally, because there's no easy
// way to be sure that the favicon request associated with a page load has
// completed, since it doesn't block navigation complete events.
void CacheFavIcon() {
CacheUrl(embedded_test_server()->GetURL("/favicon.ico"));
}
// Drives a request for the provided URL to completion, which will then be
// stored in the HTTP cache, headers permitting.
void CacheUrl(const GURL& url) {
std::unique_ptr<network::ResourceRequest> request =
std::make_unique<network::ResourceRequest>();
request->url = url;
content::SimpleURLLoaderTestHelper simple_loader_helper;
url::Origin origin = url::Origin::Create(url);
request->trusted_params = network::ResourceRequest::TrustedParams();
request->trusted_params->isolation_info =
net::IsolationInfo::CreateForInternalRequest(origin);
request->site_for_cookies =
request->trusted_params->isolation_info.site_for_cookies();
std::unique_ptr<network::SimpleURLLoader> simple_loader =
network::SimpleURLLoader::Create(std::move(request),
TRAFFIC_ANNOTATION_FOR_TESTS);
simple_loader->DownloadToStringOfUnboundedSizeUntilCrashAndDie(
browser()->profile()->GetURLLoaderFactory().get(),
simple_loader_helper.GetCallbackDeprecated());
simple_loader_helper.WaitForCallback();
ASSERT_TRUE(simple_loader_helper.response_body());
if (url.IntPort() == embedded_test_server()->port()) {
EXPECT_EQ(1u, connection_tracker()->GetAcceptedSocketCount());
EXPECT_EQ(1u, connection_tracker()->GetReadSocketCount());
} else {
EXPECT_EQ(url.IntPort(), preconnecting_test_server_.port());
EXPECT_EQ(
1u,
preconnecting_server_connection_tracker()->GetAcceptedSocketCount());
EXPECT_EQ(
1u, preconnecting_server_connection_tracker()->GetReadSocketCount());
}
ResetNetworkState();
}
void RunCorsTest(bool use_cors_for_preconnect,
bool use_cors_for_resource_request) {
auto kCrossOriginValue = std::to_array<const char*>({
"anonymous",
"use-credentials",
});
ASSERT_TRUE(ui_test_utils::NavigateToURL(
browser(), preconnecting_test_server()->GetURL("/title1.html")));
// Preconnect a socket.
content::WebContents* tab =
browser()->tab_strip_model()->GetActiveWebContents();
GURL preconnect_url = embedded_test_server()->base_url();
std::string start_preconnect = base::StringPrintf(
"var link = document.createElement('link');"
"link.rel = 'preconnect';"
"link.crossOrigin = '%s';"
"link.href = '%s';"
"document.head.appendChild(link);",
kCrossOriginValue[use_cors_for_preconnect],
preconnect_url.spec().c_str());
content::ExecuteScriptAsync(tab, start_preconnect);
connection_tracker()->WaitForAcceptedConnections(1u);
EXPECT_EQ(1u, connection_tracker()->GetAcceptedSocketCount());
EXPECT_EQ(0u, connection_tracker()->GetReadSocketCount());
// Load an image.
GURL image_url = embedded_test_server()->GetURL("/test.gif");
std::string load_image = base::StringPrintf(
"var image = document.createElement('img');"
"image.crossOrigin = '%s';"
"image.src = '%s';"
"document.body.appendChild(image);",
kCrossOriginValue[use_cors_for_resource_request],
image_url.spec().c_str());
content::ExecuteScriptAsync(tab, load_image);
connection_tracker()->WaitUntilConnectionRead();
// The preconnected socket should have been used by the image request if
// the CORS behavior of the preconnect and the request were the same.
if (use_cors_for_preconnect == use_cors_for_resource_request) {
EXPECT_EQ(1u, connection_tracker()->GetAcceptedSocketCount());
EXPECT_EQ(1u, connection_tracker()->GetReadSocketCount());
} else {
EXPECT_EQ(2u, connection_tracker()->GetAcceptedSocketCount());
EXPECT_EQ(1u, connection_tracker()->GetReadSocketCount());
}
}
private:
base::test::ScopedFeatureList scoped_feature_list2_;
};
INSTANTIATE_TEST_SUITE_P(All,
LoadingPredictorNetworkIsolationKeyBrowserTest,
::testing::Values(NetworkIsolationKeyMode::kDisabled,
NetworkIsolationKeyMode::kEnabled));
// Make sure that the right NetworkAnonymizationKey is used by the
// LoadingPredictor, both when the predictor is populated and when it isn't.
IN_PROC_BROWSER_TEST_P(LoadingPredictorNetworkIsolationKeyBrowserTest,
LoadingPredictorNoRedirects) {
// Cache resources needed by navigations, so the only sockets created
// during navigations should be for the two preconnects.
CacheFavIcon();
GURL cacheable_url = embedded_test_server()->GetURL("/cachetime");
CacheUrl(cacheable_url);
// For the first loop iteration, the predictor has no state, and for the
// second one it does.
for (bool predictor_has_state : {false, true}) {
SCOPED_TRACE(predictor_has_state);
auto observer = NavigateToURLAsync(cacheable_url);
ASSERT_TRUE(observer->WaitForNavigationFinished());
connection_tracker()->WaitForAcceptedConnections(2);
EXPECT_EQ(0u, connection_tracker()->GetReadSocketCount());
// Have the page fetch a subresource, which should use one of the
// preconnects triggered by the above navigation, due to the matching
// NetworkAnonymizationKey. Do this instead of a navigation to a non-cached
// URL to avoid triggering more preconnects.
std::string fetch_resource = base::StringPrintf(
"(async () => {"
" var resp = (await fetch('%s'));"
" return resp.status; })();",
embedded_test_server()->GetURL("/echo").spec().c_str());
EXPECT_EQ(200, EvalJs(browser()
->tab_strip_model()
->GetActiveWebContents()
->GetPrimaryMainFrame(),
fetch_resource));
EXPECT_EQ(2u, connection_tracker()->GetAcceptedSocketCount());
EXPECT_EQ(1u, connection_tracker()->GetReadSocketCount());
ResetNetworkState();
}
}
// Make sure that the right NetworkAnonymizationKey is used by the
// LoadingPredictor, both when the predictor is populated and when it isn't.
IN_PROC_BROWSER_TEST_P(LoadingPredictorNetworkIsolationKeyBrowserTest,
LoadingPredictorWithRedirects) {
// Cache resources needed by navigations, so the only connections to the
// tracked server created during navigations should be for preconnects.
CacheFavIcon();
GURL cacheable_url = embedded_test_server()->GetURL("/cachetime");
CacheUrl(cacheable_url);
GURL redirecting_url = preconnecting_test_server()->GetURL(
"/server-redirect?" + cacheable_url.spec());
// Learn the redirects from initial navigation.
ASSERT_TRUE(ui_test_utils::NavigateToURL(browser(), redirecting_url));
EXPECT_EQ(0u, connection_tracker()->GetAcceptedSocketCount());
EXPECT_EQ(0u, connection_tracker()->GetReadSocketCount());
// The next navigation should preconnect. It won't use the preconnected
// socket, since the destination resource is still in the cache.
auto observer = NavigateToURLAsync(redirecting_url);
ASSERT_TRUE(observer->WaitForNavigationFinished());
connection_tracker()->WaitForAcceptedConnections(1);
EXPECT_EQ(0u, connection_tracker()->GetReadSocketCount());
// Have the page fetch a subresource, which should use one of the
// preconnects triggered by the above navigation, due to the matching
// NetworkAnonymizationKey. Do this instead of a navigation to a non-cached
// URL to avoid triggering more preconnects.
std::string fetch_resource = base::StringPrintf(
"(async () => {"
" var resp = (await fetch('%s'));"
" return resp.status; })();",
embedded_test_server()->GetURL("/echo").spec().c_str());
EXPECT_EQ(200, EvalJs(browser()
->tab_strip_model()
->GetActiveWebContents()
->GetPrimaryMainFrame(),
fetch_resource));
EXPECT_EQ(1u, connection_tracker()->GetAcceptedSocketCount());
EXPECT_EQ(1u, connection_tracker()->GetReadSocketCount());
}
// Checks the opposite of the above test - tests that even when a redirect is
// predicted, preconnects are still made to the original origin using the
// correct NetworkAnonymizationKey.
IN_PROC_BROWSER_TEST_P(LoadingPredictorNetworkIsolationKeyBrowserTest,
LoadingPredictorWithRedirects2) {
// Cache the redirect, so the only connections to the tracked server created
// during navigations should be for preconnects.
GURL destination_url = preconnecting_test_server()->GetURL("/cachetime");
GURL redirecting_url = embedded_test_server()->GetURL("/cached-redirect?" +
destination_url.spec());
// Unlike other tests, the "preconnecting" server is actually the final
// destination, so its favicon needs to be cached.
CacheUrl(preconnecting_test_server()->GetURL("/favicon.ico"));
CacheUrl(redirecting_url);
// The first navigation learns to preconnect based on the redirect, and the
// second actually preconnects to the untracked server. All navigations should
// preconnect twice to the tracked server.
for (int i = 0; i < 2; ++i) {
if (i == 0) {
// NavigateToURL waits long enough to ensure information from the
// navigation is learned, while WaitForNavigationFinished() does not.
ASSERT_TRUE(ui_test_utils::NavigateToURL(browser(), redirecting_url));
} else {
auto observer = NavigateToURLAsync(redirecting_url);
ASSERT_TRUE(observer->WaitForNavigationFinished());
}
connection_tracker()->WaitForAcceptedConnections(2);
EXPECT_EQ(0u, connection_tracker()->GetReadSocketCount());
// Verify that the redirect from |redirecting_url| to |destination_url| was
// learned and preconnected to.
if (i == 1) {
preconnecting_server_connection_tracker()->WaitForAcceptedConnections(1);
}
EXPECT_EQ(0u, connection_tracker()->GetReadSocketCount());
// Verify that the preconnects to |embedded_test_server| were made using
// the |redirecting_url|'s NetworkAnonymizationKey. To do this, make a
// request using the tracked server's NetworkAnonymizationKey, and verify it
// used one of the existing sockets.
auto request = std::make_unique<network::ResourceRequest>();
request->url = embedded_test_server()->GetURL("/echo");
content::SimpleURLLoaderTestHelper simple_loader_helper;
url::Origin origin = url::Origin::Create(request->url);
request->trusted_params = network::ResourceRequest::TrustedParams();
request->trusted_params->isolation_info =
net::IsolationInfo::CreateForInternalRequest(origin);
request->site_for_cookies =
request->trusted_params->isolation_info.site_for_cookies();
std::unique_ptr<network::SimpleURLLoader> simple_loader =
network::SimpleURLLoader::Create(std::move(request),
TRAFFIC_ANNOTATION_FOR_TESTS);
simple_loader->DownloadToStringOfUnboundedSizeUntilCrashAndDie(
browser()->profile()->GetURLLoaderFactory().get(),
simple_loader_helper.GetCallbackDeprecated());
simple_loader_helper.WaitForCallback();
ASSERT_TRUE(simple_loader_helper.response_body());
EXPECT_EQ(2u, connection_tracker()->GetAcceptedSocketCount());
EXPECT_EQ(1u, connection_tracker()->GetReadSocketCount());
ResetNetworkState();
}
}
IN_PROC_BROWSER_TEST_P(LoadingPredictorNetworkIsolationKeyBrowserTest,
LinkRelPreconnectMainFrame) {
const char kHost1[] = "host1.test";
const char kHost2[] = "host2.test";
GURL preconnect_url = embedded_test_server()->GetURL("/echo");
// Navigate two tabs, one to each host.
content::WebContents* tab1 =
browser()->tab_strip_model()->GetActiveWebContents();
ASSERT_TRUE(ui_test_utils::NavigateToURL(
browser(), preconnecting_test_server()->GetURL(kHost1, "/title1.html")));
chrome::NewTab(browser());
content::WebContents* tab2 =
browser()->tab_strip_model()->GetActiveWebContents();
ASSERT_TRUE(ui_test_utils::NavigateToURL(
browser(), preconnecting_test_server()->GetURL(kHost2, "/title1.html")));
std::string start_preconnect = base::StringPrintf(
"var link = document.createElement('link');"
"link.rel = 'preconnect';"
"link.crossOrigin = 'anonymous';"
"link.href = '%s';"
"document.head.appendChild(link);",
preconnect_url.spec().c_str());
content::ExecuteScriptAsync(tab1->GetPrimaryMainFrame(), start_preconnect);
connection_tracker()->WaitForAcceptedConnections(1u);
EXPECT_EQ(1u, connection_tracker()->GetAcceptedSocketCount());
EXPECT_EQ(0u, connection_tracker()->GetReadSocketCount());
std::string fetch_resource = base::StringPrintf(
"(async () => {"
" var resp = (await fetch('%s',"
" {credentials: 'omit',"
" mode: 'no-cors'}));"
" return resp.status; })();",
preconnect_url.spec().c_str());
// Fetch a resource from the test server from tab 2, without CORS.
EXPECT_EQ(0, EvalJs(tab2->GetPrimaryMainFrame(), fetch_resource));
if (GetParam() == NetworkIsolationKeyMode::kDisabled) {
// When not using NetworkAnonymizationKeys, the preconnected socket from a
// tab at one site is usable by a request from another site.
EXPECT_EQ(1u, connection_tracker()->GetAcceptedSocketCount());
EXPECT_EQ(1u, connection_tracker()->GetReadSocketCount());
} else {
// When using NetworkAnonymizationKeys, the preconnected socket cannot be
// used.
EXPECT_EQ(2u, connection_tracker()->GetAcceptedSocketCount());
EXPECT_EQ(1u, connection_tracker()->GetReadSocketCount());
}
// Now try fetching a resource from tab 1.
EXPECT_EQ(0, EvalJs(tab1->GetPrimaryMainFrame(), fetch_resource));
// If the preconnected socket was not used before, it should now be used. If
// it was used before, a new socket will be used.
EXPECT_EQ(2u, connection_tracker()->GetAcceptedSocketCount());
EXPECT_EQ(2u, connection_tracker()->GetReadSocketCount());
}
IN_PROC_BROWSER_TEST_P(LoadingPredictorNetworkIsolationKeyBrowserTest,
LinkRelPreconnectSubFrame) {
const char kHost1[] = "host1.test";
const char kHost2[] = "host2.test";
GURL preconnect_url = embedded_test_server()->GetURL("/echo");
// Tab 1 has two iframes, one at kHost1, one at kHost2.
content::WebContents* tab1 =
browser()->tab_strip_model()->GetActiveWebContents();
ASSERT_TRUE(ui_test_utils::NavigateToURL(
browser(), preconnecting_test_server()->GetURL(
kHost1, GetPathWithPortReplacement(
"/predictors/two_iframes.html",
preconnecting_test_server()->port()))));
content::RenderFrameHost* main_frame = tab1->GetPrimaryMainFrame();
ASSERT_EQ(kHost1, main_frame->GetLastCommittedOrigin().host());
content::RenderFrameHost* iframe_1 = ChildFrameAt(main_frame, 0);
ASSERT_TRUE(iframe_1);
ASSERT_EQ(kHost1, iframe_1->GetLastCommittedOrigin().host());
content::RenderFrameHost* iframe_2 = ChildFrameAt(main_frame, 1);
ASSERT_TRUE(iframe_2);
ASSERT_EQ(kHost2, iframe_2->GetLastCommittedOrigin().host());
// Create another tab without an iframe, at kHost2.
chrome::NewTab(browser());
content::WebContents* tab2 =
browser()->tab_strip_model()->GetActiveWebContents();
ASSERT_TRUE(ui_test_utils::NavigateToURL(
browser(), preconnecting_test_server()->GetURL(kHost2, "/title1.html")));
// Preconnect a socket in the cross-origin iframe.
std::string start_preconnect = base::StringPrintf(
"var link = document.createElement('link');"
"link.rel = 'preconnect';"
"link.crossOrigin = 'anonymous';"
"link.href = '%s';"
"document.head.appendChild(link);",
preconnect_url.spec().c_str());
content::ExecuteScriptAsync(iframe_2, start_preconnect);
connection_tracker()->WaitForAcceptedConnections(1u);
EXPECT_EQ(1u, connection_tracker()->GetAcceptedSocketCount());
EXPECT_EQ(0u, connection_tracker()->GetReadSocketCount());
std::string fetch_resource = base::StringPrintf(
"(async () => {"
" var resp = (await fetch('%s',"
" {credentials: 'omit',"
" mode: 'no-cors'}));"
" return resp.status; })();",
preconnect_url.spec().c_str());
// Fetch a resource from the test server from tab 2 iframe, without CORS.
EXPECT_EQ(0, EvalJs(tab2->GetPrimaryMainFrame(), fetch_resource));
if (GetParam() == NetworkIsolationKeyMode::kDisabled) {
// When not using NetworkAnonymizationKeys, the preconnected socket from the
// iframe from the first tab can be used.
EXPECT_EQ(1u, connection_tracker()->GetAcceptedSocketCount());
EXPECT_EQ(1u, connection_tracker()->GetReadSocketCount());
} else {
// Otherwise, the preconnected socket cannot be used.
EXPECT_EQ(2u, connection_tracker()->GetAcceptedSocketCount());
EXPECT_EQ(1u, connection_tracker()->GetReadSocketCount());
}
// Fetch a resource from the test server from the same-origin iframe, without
// CORS.
EXPECT_EQ(0, EvalJs(iframe_1, fetch_resource));
if (GetParam() == NetworkIsolationKeyMode::kDisabled) {
// When not using NetworkAnonymizationKeys, a new socket is created and
// used.
EXPECT_EQ(2u, connection_tracker()->GetAcceptedSocketCount());
EXPECT_EQ(2u, connection_tracker()->GetReadSocketCount());
} else {
// Otherwise, the preconnected socket cannot be used.
EXPECT_EQ(3u, connection_tracker()->GetAcceptedSocketCount());
EXPECT_EQ(2u, connection_tracker()->GetReadSocketCount());
}
// Now try fetching a resource the cross-site iframe.
EXPECT_EQ(0, EvalJs(iframe_2, fetch_resource));
// If the preconnected socket was not used before, it should now be used. If
// it was used before, a new socket will be used.
EXPECT_EQ(3u, connection_tracker()->GetAcceptedSocketCount());
EXPECT_EQ(3u, connection_tracker()->GetReadSocketCount());
}
// Tests that preconnect warms up a non-CORS connection to a test
// server, and that socket is used when fetching a non-CORS resource.
IN_PROC_BROWSER_TEST_P(LoadingPredictorNetworkIsolationKeyBrowserTest,
PreconnectNonCorsAndFetchNonCors) {
RunCorsTest(false /* use_cors_for_preconnect */,
false /* use_cors_for_resource_request */);
}
// Tests that preconnect warms up a non-CORS connection to a test
// server, but that socket is not used when fetching a CORS resource.
IN_PROC_BROWSER_TEST_P(LoadingPredictorNetworkIsolationKeyBrowserTest,
PreconnectNonCorsAndFetchCors) {
RunCorsTest(false /* use_cors_for_preconnect */,
true /* use_cors_for_resource_request */);
}
// Tests that preconnect warms up a CORS connection to a test server,
// but that socket is not used when fetching a non-CORS resource.
IN_PROC_BROWSER_TEST_P(LoadingPredictorNetworkIsolationKeyBrowserTest,
PreconnectCorsAndFetchNonCors) {
RunCorsTest(true /* use_cors_for_preconnect */,
false /* use_cors_for_resource_request */);
}
// Tests that preconnect warms up a CORS connection to a test server,
// that socket is used when fetching a CORS resource.
IN_PROC_BROWSER_TEST_P(LoadingPredictorNetworkIsolationKeyBrowserTest,
PreconnectCorsAndFetchCors) {
RunCorsTest(true /* use_cors_for_preconnect */,
true /* use_cors_for_resource_request */);
}
class LoadingPredictorBrowserTestWithProxy
: public LoadingPredictorBrowserTest {
public:
void SetUp() override {
pac_script_server_ = std::make_unique<net::EmbeddedTestServer>();
pac_script_server_->AddDefaultHandlers(GetChromeTestDataDir());
ASSERT_TRUE(pac_script_server_->InitializeAndListen());
LoadingPredictorBrowserTest::SetUp();
}
void SetUpOnMainThread() override {
LoadingPredictorBrowserTest::SetUpOnMainThread();
// This will make all dns requests fail.
host_resolver()->ClearRules();
pac_script_server_->StartAcceptingConnections();
}
void SetUpCommandLine(base::CommandLine* command_line) override {
GURL pac_url = pac_script_server_->GetURL(GetPathWithPortReplacement(
"/predictors/proxy.pac", embedded_test_server()->port()));
command_line->AppendSwitchASCII(switches::kProxyPacUrl, pac_url.spec());
}
private:
std::unique_ptr<net::EmbeddedTestServer> pac_script_server_;
};
IN_PROC_BROWSER_TEST_F(LoadingPredictorBrowserTestWithProxy,
PrepareForPageLoadWithoutPrediction) {
// Navigate the first time to fill the HTTP cache.
GURL url = embedded_test_server()->GetURL(
"test.com", GetPathWithPortReplacement(kHtmlSubresourcesPath,
embedded_test_server()->port()));
net::SchemefulSite site = net::SchemefulSite(url);
auto network_anonymization_key =
net::NetworkAnonymizationKey::CreateSameSite(site);
ASSERT_TRUE(ui_test_utils::NavigateToURL(browser(), url));
ResetNetworkState();
ResetPredictorState();
auto observer = NavigateToURLAsync(url);
EXPECT_TRUE(observer->WaitForRequestStart());
preconnect_manager_observer()->WaitUntilProxyLookedUp(
url, network_anonymization_key);
EXPECT_TRUE(preconnect_manager_observer()->ProxyFound(
url, network_anonymization_key));
// We should preconnect only 2 sockets for the main frame host.
const size_t expected_connections = 2;
connection_tracker()->WaitForAcceptedConnections(expected_connections);
EXPECT_EQ(expected_connections,
connection_tracker()->GetAcceptedSocketCount());
// No reads since all resources should be cached.
EXPECT_EQ(0u, connection_tracker()->GetReadSocketCount());
}
IN_PROC_BROWSER_TEST_F(LoadingPredictorBrowserTestWithProxy,
PrepareForPageLoadWithPrediction) {
// Navigate the first time to fill the predictor's database and the HTTP
// cache.
GURL url = embedded_test_server()->GetURL(
"test.com", GetPathWithPortReplacement(kHtmlSubresourcesPath,
embedded_test_server()->port()));
net::SchemefulSite site = net::SchemefulSite(url);
auto network_anonymization_key =
net::NetworkAnonymizationKey::CreateSameSite(site);
ASSERT_TRUE(ui_test_utils::NavigateToURL(browser(), url));
ResetNetworkState();
auto observer = NavigateToURLAsync(url);
EXPECT_TRUE(observer->WaitForRequestStart());
for (auto* const host : kHtmlSubresourcesHosts) {
GURL host_url = embedded_test_server()->GetURL(host, "/");
preconnect_manager_observer()->WaitUntilProxyLookedUp(
host_url, network_anonymization_key);
EXPECT_TRUE(preconnect_manager_observer()->ProxyFound(
host_url, network_anonymization_key));
}
// 2 connections to the main frame host + 1 connection per host for others.
const size_t expected_connections = std::size(kHtmlSubresourcesHosts) + 1;
connection_tracker()->WaitForAcceptedConnections(expected_connections);
EXPECT_EQ(expected_connections,
connection_tracker()->GetAcceptedSocketCount());
// No reads since all resources should be cached.
EXPECT_EQ(0u, connection_tracker()->GetReadSocketCount());
}
class LoadingPredictorBrowserTestWithOptimizationGuide
: public ::testing::WithParamInterface<
std::tuple<bool, bool, bool, std::string>>,
public LoadingPredictorBrowserTest {
public:
LoadingPredictorBrowserTestWithOptimizationGuide() {
feature_list_.InitWithFeaturesAndParameters(
{{features::kLoadingPredictorUseOptimizationGuide,
{{"use_predictions",
base::ToString(ShouldUseOptimizationGuidePredictions())},
{"always_retrieve_predictions", "true"}}},
{optimization_guide::features::kOptimizationHints, {}}},
{});
if (IsLocalPredictionEnabled()) {
local_predictions_feature_list_.InitAndEnableFeature(
features::kLoadingPredictorUseLocalPredictions);
} else {
local_predictions_feature_list_.InitAndDisableFeature(
features::kLoadingPredictorUseLocalPredictions);
}
if (IsPrefetchEnabled()) {
prefetch_feature_list_.InitAndEnableFeatureWithParameters(
features::kLoadingPredictorPrefetch,
{{"subresource_type", GetSubresourceTypeParam()}});
} else {
prefetch_feature_list_.InitAndDisableFeature(
features::kLoadingPredictorPrefetch);
}
}
bool IsLocalPredictionEnabled() const { return std::get<0>(GetParam()); }
bool ShouldUseOptimizationGuidePredictions() const {
return std::get<1>(GetParam());
}
bool IsPrefetchEnabled() const { return std::get<2>(GetParam()); }
std::string GetSubresourceTypeParam() const {
return std::string(std::get<3>(GetParam()));
}
bool ShouldRetrieveOptimizationGuidePredictions() {
return !IsLocalPredictionEnabled() ||
features::ShouldAlwaysRetrieveOptimizationGuidePredictions();
}
// A predicted subresource.
struct Subresource {
explicit Subresource(std::string url)
: url(url),
type(optimization_guide::proto::RESOURCE_TYPE_UNKNOWN),
preconnect_only(false) {}
Subresource(std::string url, optimization_guide::proto::ResourceType type)
: url(url), type(type), preconnect_only(false) {}
Subresource(std::string url,
optimization_guide::proto::ResourceType type,
bool preconnect_only)
: url(url), type(type), preconnect_only(preconnect_only) {}
std::string url;
optimization_guide::proto::ResourceType type;
bool preconnect_only;
};
void SetUpOptimizationHint(
const GURL& url,
const std::vector<Subresource>& predicted_subresources) {
auto* optimization_guide_keyed_service =
OptimizationGuideKeyedServiceFactory::GetForProfile(
browser()->profile());
optimization_guide::proto::LoadingPredictorMetadata
loading_predictor_metadata;
for (const auto& subresource : predicted_subresources) {
auto* added = loading_predictor_metadata.add_subresources();
added->set_url(subresource.url);
added->set_resource_type(subresource.type);
added->set_preconnect_only(subresource.preconnect_only);
}
optimization_guide::OptimizationMetadata optimization_metadata;
optimization_metadata.set_loading_predictor_metadata(
loading_predictor_metadata);
optimization_guide_keyed_service->AddHintForTesting(
url, optimization_guide::proto::LOADING_PREDICTOR,
optimization_metadata);
}
private:
base::test::ScopedFeatureList feature_list_;
base::test::ScopedFeatureList local_predictions_feature_list_;
base::test::ScopedFeatureList prefetch_feature_list_;
};
INSTANTIATE_TEST_SUITE_P(
,
LoadingPredictorBrowserTestWithOptimizationGuide,
testing::Combine(
/*IsLocalPredictionEnabled()=*/testing::Bool(),
/*ShouldUseOptimizationGuidePredictions()=*/testing::Bool(),
/*IsPrefetchEnabled()=*/testing::Values(false),
/*GetSubresourceType()=*/testing::Values("")));
IN_PROC_BROWSER_TEST_P(LoadingPredictorBrowserTestWithOptimizationGuide,
NavigationHasLocalPredictionNoOptimizationHint) {
// Navigate the first time to fill the predictor's database and the HTTP
// cache.
GURL url = embedded_test_server()->GetURL(
"test.com", GetPathWithPortReplacement(kHtmlSubresourcesPath,
embedded_test_server()->port()));
net::SchemefulSite site = net::SchemefulSite(url);
auto network_anonymization_key =
net::NetworkAnonymizationKey::CreateSameSite(site);
ASSERT_TRUE(ui_test_utils::NavigateToURL(browser(), url));
ResetNetworkState();
auto observer = NavigateToURLAsync(url);
EXPECT_TRUE(observer->WaitForRequestStart());
for (auto* const host : kHtmlSubresourcesHosts) {
if (!IsLocalPredictionEnabled() && host != url.host()) {
// We don't expect local predictions to be preconnected to.
continue;
}
preconnect_manager_observer()->WaitUntilHostLookedUp(
host, network_anonymization_key);
EXPECT_TRUE(preconnect_manager_observer()->HostFound(
host, network_anonymization_key));
}
size_t expected_connections;
if (IsLocalPredictionEnabled()) {
// 2 connections to the main frame host + 1 connection per host for others.
expected_connections = std::size(kHtmlSubresourcesHosts) + 1;
} else {
// There should always be 2 connections to the main frame host.
expected_connections = 2;
}
connection_tracker()->WaitForAcceptedConnections(expected_connections);
EXPECT_EQ(expected_connections,
connection_tracker()->GetAcceptedSocketCount());
// No reads since all resources should be cached.
EXPECT_EQ(0u, connection_tracker()->GetReadSocketCount());
}
IN_PROC_BROWSER_TEST_P(LoadingPredictorBrowserTestWithOptimizationGuide,
NavigationWithBothLocalPredictionAndOptimizationHint) {
// Navigate the first time to fill the predictor's database and the HTTP
// cache.
GURL url = embedded_test_server()->GetURL(
"test.com", GetPathWithPortReplacement(kHtmlSubresourcesPath,
embedded_test_server()->port()));
url::Origin origin = url::Origin::Create(url);
net::SchemefulSite site = net::SchemefulSite(origin);
auto network_anonymization_key =
net::NetworkAnonymizationKey::CreateSameSite(site);
ASSERT_TRUE(ui_test_utils::NavigateToURL(browser(), url));
ResetNetworkState();
SetUpOptimizationHint(url, {Subresource("http://subresource.com/1"),
Subresource("http://subresource.com/2"),
Subresource("http://otherresource.com/2"),
Subresource("skipsoverinvalidurl/////")});
auto observer = NavigateToURLAsync(url);
EXPECT_TRUE(observer->WaitForRequestStart());
// The initial URL should be preconnected to.
preconnect_manager_observer()->WaitUntilHostLookedUp(
url.host(), network_anonymization_key);
EXPECT_TRUE(preconnect_manager_observer()->HostFound(
url.host(), network_anonymization_key));
EXPECT_TRUE(preconnect_manager_observer()->HasOriginAttemptedToPreconnect(
origin.GetURL()));
// Both subresource hosts should be preconnected to.
std::vector<std::string> expected_subresource_hosts;
if (IsLocalPredictionEnabled()) {
// Should use subresources that were learned.
expected_subresource_hosts = {"baz.com", "foo.com"};
} else if (ShouldUseOptimizationGuidePredictions()) {
// Should use subresources from optimization hint.
expected_subresource_hosts = {"subresource.com", "otherresource.com"};
}
for (const auto& host : expected_subresource_hosts) {
preconnect_manager_observer()->WaitUntilHostLookedUp(
host, network_anonymization_key);
EXPECT_TRUE(preconnect_manager_observer()->HostFound(
host, network_anonymization_key));
GURL expected_origin;
if (IsLocalPredictionEnabled()) {
// The locally learned origins are expected to have a port.
expected_origin = embedded_test_server()->GetURL(host, "/");
} else {
// The optimization hints learned origins do not have a port.
expected_origin = GURL(base::StringPrintf("http://%s", host.c_str()));
}
EXPECT_TRUE(preconnect_manager_observer()->HasOriginAttemptedToPreconnect(
expected_origin));
}
}
IN_PROC_BROWSER_TEST_P(LoadingPredictorBrowserTestWithOptimizationGuide,
NavigationWithNoLocalPredictionsButHasOptimizationHint) {
base::HistogramTester histogram_tester;
GURL url = embedded_test_server()->GetURL("m.hints.com", "/simple.html");
SetUpOptimizationHint(url, {Subresource("http://subresource.com/1"),
Subresource("http://subresource.com/2"),
Subresource("http://otherresource.com/2"),
Subresource("skipsoverinvalidurl/////")});
url::Origin origin = url::Origin::Create(url);
net::SchemefulSite site = net::SchemefulSite(origin);
auto network_anonymization_key =
net::NetworkAnonymizationKey::CreateSameSite(site);
auto observer = NavigateToURLAsync(url);
EXPECT_TRUE(observer->WaitForRequestStart());
// The initial URL should be preconnected to.
preconnect_manager_observer()->WaitUntilHostLookedUp(
url.host(), network_anonymization_key);
EXPECT_TRUE(preconnect_manager_observer()->HostFound(
url.host(), network_anonymization_key));
EXPECT_TRUE(preconnect_manager_observer()->HasOriginAttemptedToPreconnect(
origin.GetURL()));
for (auto* const host : {"subresource.com", "otherresource.com"}) {
if (ShouldUseOptimizationGuidePredictions()) {
// Both subresource hosts should be preconnected to.
preconnect_manager_observer()->WaitUntilHostLookedUp(
host, network_anonymization_key);
}
EXPECT_EQ(preconnect_manager_observer()->HostFound(
host, network_anonymization_key),
ShouldUseOptimizationGuidePredictions());
EXPECT_EQ(preconnect_manager_observer()->HasOriginAttemptedToPreconnect(
GURL(base::StringPrintf("http://%s/", host))),
ShouldUseOptimizationGuidePredictions());
}
EXPECT_TRUE(observer->WaitForResponse());
observer->ResumeNavigation();
content::AwaitDocumentOnLoadCompleted(observer->web_contents());
ASSERT_TRUE(observer->WaitForNavigationFinished());
// Navigate to another URL and wait until the previous RFH is destroyed (i.e.
// until the optimization guide prediction is cleared and metrics are
// recorded).
content::RenderFrameHostWrapper rfh(
observer->web_contents()->GetPrimaryMainFrame());
// Disable BFCache to ensure the navigation below unloads |rfh|.
content::DisableBackForwardCacheForTesting(
browser()->tab_strip_model()->GetActiveWebContents(),
content::BackForwardCache::DisableForTestingReason::
TEST_REQUIRES_NO_CACHING);
ASSERT_TRUE(ui_test_utils::NavigateToURL(
browser(), embedded_test_server()->GetURL("nohints.com", "/")));
ASSERT_TRUE(rfh.WaitUntilRenderFrameDeleted());
}
IN_PROC_BROWSER_TEST_P(
LoadingPredictorBrowserTestWithOptimizationGuide,
OptimizationGuidePredictionsNotAppliedForAlreadyCommittedNavigation) {
GURL url = embedded_test_server()->GetURL("hints.com", "/simple.html");
net::SchemefulSite site = net::SchemefulSite(url);
auto network_anonymization_key =
net::NetworkAnonymizationKey::CreateSameSite(site);
// Navigate to URL with hints but only seed hints after navigation has
// committed.
auto observer = NavigateToURLAsync(url);
EXPECT_TRUE(observer->WaitForResponse());
observer->ResumeNavigation();
SetUpOptimizationHint(url, {Subresource("http://subresource.com/1"),
Subresource("http://subresource.com/2"),
Subresource("http://otherresource.com/2"),
Subresource("skipsoverinvalidurl/////")});
EXPECT_FALSE(preconnect_manager_observer()->HasHostBeenLookedUp(
"subresource.com", network_anonymization_key));
EXPECT_FALSE(preconnect_manager_observer()->HasHostBeenLookedUp(
"otheresource.com", network_anonymization_key));
}
IN_PROC_BROWSER_TEST_P(LoadingPredictorBrowserTestWithOptimizationGuide,
OptimizationGuidePredictionsNotAppliedForRedirect) {
GURL destination_url =
embedded_test_server()->GetURL("otherhost.com", "/cachetime");
GURL redirecting_url = embedded_test_server()->GetURL(
"sometimesredirects.com", "/cached-redirect?" + destination_url.spec());
SetUpOptimizationHint(destination_url,
{Subresource("http://subresource.com/1"),
Subresource("http://subresource.com/2"),
Subresource("http://otherresource.com/2"),
Subresource("skipsoverinvalidurl/////")});
// Navigate the first time to something on redirecting origin to fill the
// predictor's database and the HTTP cache.
ASSERT_TRUE(ui_test_utils::NavigateToURL(
browser(),
embedded_test_server()->GetURL(
"sometimesredirects.com",
GetPathWithPortReplacement(kHtmlSubresourcesPath,
embedded_test_server()->port()))));
ResetNetworkState();
net::SchemefulSite site = net::SchemefulSite(destination_url);
auto network_anonymization_key =
net::NetworkAnonymizationKey::CreateSameSite(site);
// Navigate to URL with hints but is redirected, hints should not be
// applied.
auto observer = NavigateToURLAsync(redirecting_url);
EXPECT_TRUE(observer->WaitForResponse());
SetUpOptimizationHint(redirecting_url,
{Subresource("http://subresourceredirect.com/1"),
Subresource("http://subresourceredirect.com/2"),
Subresource("http://otherresourceredirect.com/2"),
Subresource("skipsoverinvalidurl/////")});
observer->ResumeNavigation();
std::vector<std::string> expected_opt_guide_subresource_hosts = {
"subresource.com", "otherresource.com"};
if (ShouldRetrieveOptimizationGuidePredictions() &&
ShouldUseOptimizationGuidePredictions()) {
// Should use subresources from optimization hint.
for (const auto& host : expected_opt_guide_subresource_hosts) {
preconnect_manager_observer()->WaitUntilHostLookedUp(
host, network_anonymization_key);
EXPECT_TRUE(preconnect_manager_observer()->HostFound(
host, network_anonymization_key));
// The origins from optimization hints do not have a port.
GURL expected_origin =
GURL(base::StringPrintf("http://%s", host.c_str()));
EXPECT_TRUE(preconnect_manager_observer()->HasOriginAttemptedToPreconnect(
expected_origin));
}
} else {
for (const auto& host : expected_opt_guide_subresource_hosts) {
EXPECT_FALSE(preconnect_manager_observer()->HasHostBeenLookedUp(
host, network_anonymization_key));
}
}
}
class LoadingPredictorBrowserTestWithNoLocalPredictions
: public LoadingPredictorBrowserTest {
public:
LoadingPredictorBrowserTestWithNoLocalPredictions() {
feature_list_.InitAndDisableFeature(
features::kLoadingPredictorUseLocalPredictions);
}
private:
base::test::ScopedFeatureList feature_list_;
};
IN_PROC_BROWSER_TEST_F(LoadingPredictorBrowserTestWithNoLocalPredictions,
ShouldNotActOnLocalPrediction) {
// Navigate the first time to fill the predictor's database and the HTTP
// cache.
GURL url = embedded_test_server()->GetURL(
"test.com", GetPathWithPortReplacement(kHtmlSubresourcesPath,
embedded_test_server()->port()));
url::Origin origin = url::Origin::Create(url);
net::SchemefulSite site = net::SchemefulSite(origin);
auto network_anonymization_key =
net::NetworkAnonymizationKey::CreateSameSite(site);
ASSERT_TRUE(ui_test_utils::NavigateToURL(browser(), url));
ResetNetworkState();
auto observer = NavigateToURLAsync(url);
EXPECT_TRUE(observer->WaitForRequestStart());
// The initial URL should be preconnected to.
preconnect_manager_observer()->WaitUntilHostLookedUp(
url.host(), network_anonymization_key);
EXPECT_TRUE(preconnect_manager_observer()->HostFound(
url.host(), network_anonymization_key));
EXPECT_TRUE(preconnect_manager_observer()->HasOriginAttemptedToPreconnect(
origin.GetURL()));
// 2 connections to the main frame host.
const size_t expected_connections = 2;
connection_tracker()->WaitForAcceptedConnections(expected_connections);
EXPECT_EQ(expected_connections,
connection_tracker()->GetAcceptedSocketCount());
// No reads since all resources should be cached.
EXPECT_EQ(0u, connection_tracker()->GetReadSocketCount());
}
// A fixture for testing prefetching with optimization guide hints.
class LoadingPredictorPrefetchBrowserTest
: public LoadingPredictorBrowserTestWithOptimizationGuide {
public:
void SetUp() override {
embedded_test_server()->RegisterRequestMonitor(base::BindRepeating(
&LoadingPredictorPrefetchBrowserTest::MonitorRequest,
base::Unretained(this)));
LoadingPredictorBrowserTestWithOptimizationGuide::SetUp();
}
void SetUpCommandLine(base::CommandLine* command_line) override {
LoadingPredictorBrowserTestWithOptimizationGuide::SetUpCommandLine(
command_line);
command_line->AppendSwitch(
switches::kLoadingPredictorAllowLocalRequestForTesting);
}
protected:
// Sets the requests to expect in WaitForRequests().
void SetExpectedRequests(base::flat_set<GURL> requests) {
expected_requests_ = std::move(requests);
}
// Returns once all expected requests have been received.
void WaitForRequests() {
if (expected_requests_.empty()) {
return;
}
base::RunLoop loop;
quit_ = loop.QuitClosure();
loop.Run();
}
private:
void MonitorRequest(const net::test_server::HttpRequest& request) {
// Monitor only prefetches.
if (request.headers.find(blink::kPurposeHeaderName) ==
request.headers.end() ||
(request.headers.at(blink::kPurposeHeaderName) !=
blink::kSecPurposePrefetchHeaderValue)) {
return;
}
// |request.GetURL()| gives us the URL after it's already resolved to
// 127.0.0.1, so reconstruct the requested host via the Host header
// (which includes host+port).
GURL url = request.GetURL();
auto host_iter = request.headers.find("Host");
if (host_iter != request.headers.end()) {
url = GURL("http://" + host_iter->second + request.relative_url);
}
// Remove the expected request.
auto it = expected_requests_.find(url);
ASSERT_TRUE(it != expected_requests_.end())
<< "Got unexpected request: " << url;
expected_requests_.erase(it);
// Finish if done.
if (expected_requests_.empty() && quit_) {
std::move(quit_).Run();
}
}
base::flat_set<GURL> expected_requests_;
base::OnceClosure quit_;
};
// Tests that the LoadingPredictor performs prefetching
// for a navigation which it has a prediction for and there isn't a local
// prediction available.
IN_PROC_BROWSER_TEST_P(
LoadingPredictorPrefetchBrowserTest,
DISABLED_PrepareForPageLoadWithPredictionForPrefetchNoLocalHint) {
GURL url = embedded_test_server()->GetURL(
"test.com", GetPathWithPortReplacement(kHtmlSubresourcesPath,
embedded_test_server()->port()));
// Set up optimization hints.
std::vector<Subresource> hints = {
{"skipsoverinvalidurl/////",
optimization_guide::proto::RESOURCE_TYPE_CSS},
{embedded_test_server()->GetURL("subresource.com", "/css").spec(),
optimization_guide::proto::RESOURCE_TYPE_CSS},
{embedded_test_server()->GetURL("subresource.com", "/image").spec(),
optimization_guide::proto::RESOURCE_TYPE_UNKNOWN},
{embedded_test_server()->GetURL("otherresource.com", "/js").spec(),
optimization_guide::proto::RESOURCE_TYPE_SCRIPT},
{embedded_test_server()->GetURL("preconnect.com", "/other").spec(),
optimization_guide::proto::RESOURCE_TYPE_UNKNOWN, true},
};
SetUpOptimizationHint(url, hints);
// Expect these prefetches.
std::vector<GURL> requests;
if (GetSubresourceTypeParam() == "all") {
requests = {embedded_test_server()->GetURL("subresource.com", "/css"),
embedded_test_server()->GetURL("subresource.com", "/image"),
embedded_test_server()->GetURL("otherresource.com", "/js")};
} else if (GetSubresourceTypeParam() == "css") {
requests = {embedded_test_server()->GetURL("subresource.com", "/css")};
} else if (GetSubresourceTypeParam() == "js_css") {
requests = {embedded_test_server()->GetURL("subresource.com", "/css"),
embedded_test_server()->GetURL("otherresource.com", "/js")};
}
SetExpectedRequests(std::move(requests));
// Start a navigation and observe these prefetches.
auto observer = NavigateToURLAsync(url);
EXPECT_TRUE(observer->WaitForRequestStart());
WaitForRequests();
// preconnect.com should be preconnected to.
net::SchemefulSite site = net::SchemefulSite(url);
auto network_anonymization_key =
net::NetworkAnonymizationKey::CreateSameSite(site);
preconnect_manager_observer()->WaitUntilHostLookedUp(
"preconnect.com", network_anonymization_key);
EXPECT_TRUE(preconnect_manager_observer()->HostFound(
"preconnect.com", network_anonymization_key));
EXPECT_TRUE(preconnect_manager_observer()->HasOriginAttemptedToPreconnect(
embedded_test_server()->GetURL("preconnect.com", "/")));
}
// Tests that the LoadingPredictor performs prefetching
// for a navigation which it has a prediction for and there is a local
// prediction available.
IN_PROC_BROWSER_TEST_P(
LoadingPredictorPrefetchBrowserTest,
PrepareForPageLoadWithPredictionForPrefetchHasLocalHint) {
// Navigate the first time to fill the predictor's database and the HTTP
// cache.
GURL url = embedded_test_server()->GetURL(
"test.com", GetPathWithPortReplacement(kHtmlSubresourcesPath,
embedded_test_server()->port()));
ASSERT_TRUE(ui_test_utils::NavigateToURL(browser(), url));
ResetNetworkState();
// Set up optimization hints.
std::vector<Subresource> hints = {
{"skipsoverinvalidurl/////",
optimization_guide::proto::RESOURCE_TYPE_CSS},
{embedded_test_server()->GetURL("subresource.com", "/css").spec(),
optimization_guide::proto::RESOURCE_TYPE_CSS},
{embedded_test_server()->GetURL("subresource.com", "/image").spec(),
optimization_guide::proto::RESOURCE_TYPE_UNKNOWN},
{embedded_test_server()->GetURL("otherresource.com", "/js").spec(),
optimization_guide::proto::RESOURCE_TYPE_SCRIPT},
{embedded_test_server()->GetURL("preconnect.com", "/other").spec(),
optimization_guide::proto::RESOURCE_TYPE_UNKNOWN, true},
};
SetUpOptimizationHint(url, hints);
// Expect these prefetches.
std::vector<GURL> requests;
if (GetSubresourceTypeParam() == "all") {
requests = {embedded_test_server()->GetURL("subresource.com", "/css"),
embedded_test_server()->GetURL("subresource.com", "/image"),
embedded_test_server()->GetURL("otherresource.com", "/js")};
} else if (GetSubresourceTypeParam() == "css") {
requests = {embedded_test_server()->GetURL("subresource.com", "/css")};
} else if (GetSubresourceTypeParam() == "js_css") {
requests = {embedded_test_server()->GetURL("subresource.com", "/css"),
embedded_test_server()->GetURL("otherresource.com", "/js")};
}
SetExpectedRequests(std::move(requests));
// Start a navigation and observe these prefetches.
auto observer = NavigateToURLAsync(url);
EXPECT_TRUE(observer->WaitForRequestStart());
WaitForRequests();
std::vector<std::string> expected_subresource_hosts;
if (IsLocalPredictionEnabled()) {
// Should use subresources that were learned.
expected_subresource_hosts = {"baz.com", "foo.com"};
} else {
// Should use subresources from optimization hint.
expected_subresource_hosts = {"preconnect.com"};
}
net::SchemefulSite site = net::SchemefulSite(url);
auto network_anonymization_key =
net::NetworkAnonymizationKey::CreateSameSite(site);
for (const auto& host : expected_subresource_hosts) {
preconnect_manager_observer()->WaitUntilHostLookedUp(
host, network_anonymization_key);
EXPECT_TRUE(preconnect_manager_observer()->HostFound(
host, network_anonymization_key));
EXPECT_TRUE(preconnect_manager_observer()->HasOriginAttemptedToPreconnect(
embedded_test_server()->GetURL(host, "/")));
}
}
// A fixture for testing prefetching with the local resource check not bypassed.
// The normal fixture bypasses the check so that the embedded test server can be
// used.
class LoadingPredictorPrefetchBrowserTestWithBlockedLocalRequest
: public LoadingPredictorPrefetchBrowserTest {
public:
LoadingPredictorPrefetchBrowserTestWithBlockedLocalRequest() = default;
// Override to prevent adding kLoadingPredictorAllowLocalRequestForTesting
// here.
void SetUpCommandLine(base::CommandLine* command_line) override {}
};
// Test that prefetches to local resources are blocked.
// Disabled for being flaky. crbug.com/1116599
IN_PROC_BROWSER_TEST_P(
LoadingPredictorPrefetchBrowserTestWithBlockedLocalRequest,
DISABLED_PrepareForPageLoadWithPredictionForPrefetch) {
GURL url = embedded_test_server()->GetURL(
"test.com", GetPathWithPortReplacement(kHtmlSubresourcesPath,
embedded_test_server()->port()));
GURL hint_url = embedded_test_server()->GetURL("subresource.com", "/css");
// Set up one optimization hint.
std::vector<Subresource> hints = {
{hint_url.spec(), optimization_guide::proto::RESOURCE_TYPE_CSS},
};
SetUpOptimizationHint(url, hints);
// Start a navigation which triggers prefetch.
auto observer = NavigateToURLAsync(url);
EXPECT_TRUE(observer->WaitForRequestStart());
// The prefetch should have failed.
prefetch_manager_observer()->WaitForPrefetchesForNavigation(url);
auto results = prefetch_manager_observer()->results();
ASSERT_THAT(results, SizeIs(1));
const auto& status = results[0].status;
EXPECT_EQ(status.error_code, net::ERR_FAILED);
EXPECT_THAT(status.cors_error_status,
Optional(network::CorsErrorStatus(
network::mojom::CorsError::kInsecurePrivateNetwork,
network::mojom::IPAddressSpace::kUnknown,
network::mojom::IPAddressSpace::kLocal)));
}
// This fixture is for disabling prefetching via test suite instantiation to
// test the counterfactual arm (|always_retrieve_predictions| is
// true but using the predictions is disabled).
class LoadingPredictorPrefetchCounterfactualBrowserTest
: public LoadingPredictorPrefetchBrowserTest {};
IN_PROC_BROWSER_TEST_P(
LoadingPredictorPrefetchCounterfactualBrowserTest,
PrepareForPageLoadWithPredictionForPrefetchHasLocalHint) {
// Assert that this tests the counterfactual arm.
ASSERT_TRUE(features::ShouldAlwaysRetrieveOptimizationGuidePredictions());
ASSERT_FALSE(features::ShouldUseOptimizationGuidePredictions());
// Navigate the first time to fill the predictor's database and the HTTP
// cache.
GURL url = embedded_test_server()->GetURL(
"test.com", GetPathWithPortReplacement(kHtmlSubresourcesPath,
embedded_test_server()->port()));
ASSERT_TRUE(ui_test_utils::NavigateToURL(browser(), url));
ResetNetworkState();
// Set up optimization hints.
std::vector<Subresource> hints = {
{"skipsoverinvalidurl/////",
optimization_guide::proto::RESOURCE_TYPE_CSS},
{embedded_test_server()->GetURL("subresource.com", "/css").spec(),
optimization_guide::proto::RESOURCE_TYPE_CSS},
{embedded_test_server()->GetURL("subresource.com", "/image").spec(),
optimization_guide::proto::RESOURCE_TYPE_UNKNOWN},
{embedded_test_server()->GetURL("otherresource.com", "/js").spec(),
optimization_guide::proto::RESOURCE_TYPE_SCRIPT},
{embedded_test_server()->GetURL("preconnect.com", "/other").spec(),
optimization_guide::proto::RESOURCE_TYPE_UNKNOWN, true},
};
SetUpOptimizationHint(url, hints);
// Expect no prefetches. The test will fail if any prefetch requests are
// issued.
SetExpectedRequests({});
// Start a navigation.
auto observer = NavigateToURLAsync(url);
EXPECT_TRUE(observer->WaitForRequestStart());
std::vector<std::string> expected_subresource_hosts;
if (IsLocalPredictionEnabled()) {
// Should use subresources that were learned.
expected_subresource_hosts = {"baz.com", "foo.com"};
} else {
// Should not use subresources from optimization hint since
// use_predictions is disabled.
}
net::SchemefulSite site = net::SchemefulSite(url);
auto network_anonymization_key =
net::NetworkAnonymizationKey::CreateSameSite(site);
for (const auto& host : expected_subresource_hosts) {
preconnect_manager_observer()->WaitUntilHostLookedUp(
host, network_anonymization_key);
EXPECT_TRUE(preconnect_manager_observer()->HostFound(
host, network_anonymization_key));
EXPECT_TRUE(preconnect_manager_observer()->HasOriginAttemptedToPreconnect(
embedded_test_server()->GetURL(host, "/")));
}
// Run the run loop to give the test a chance to fail by issuing a prefetch.
// We don't have an explicit signal for the prefetch manager *not* starting.
base::RunLoop().RunUntilIdle();
EXPECT_TRUE(prefetch_manager_observer()->results().empty());
}
INSTANTIATE_TEST_SUITE_P(
,
LoadingPredictorPrefetchBrowserTest,
testing::Combine(
/*IsLocalPredictionEnabled()=*/testing::Values(true, false),
/*ShouldUseOptimizationGuidePredictions()=*/
testing::Values(true),
/*IsPrefetchEnabled()=*/testing::Values(true),
/*GetSubresourceType()=*/testing::Values("all", "css", "js_css")));
// For the "BlockedLocalRequest" test, the params largely don't matter. We just
// need to enable prefetching and test one configuration, since the test passes
// if the prefetch is blocked.
INSTANTIATE_TEST_SUITE_P(
,
LoadingPredictorPrefetchBrowserTestWithBlockedLocalRequest,
testing::Combine(
/*IsLocalPredictionEnabled()=*/testing::Values(false),
/*ShouldUseOptimizationGuidePredictions()=*/
testing::Values(true),
/*IsPrefetchEnabled()=*/testing::Values(true),
/*GetSubresourceType()=*/testing::Values("all")));
// For the "prefetch counterfactual" test, we want to retrieve the optimization
// guide hints but not use them, so set ShouldUseOptimizationGuidePredictions()
// to false. It doesn't matter if IsPrefetchEnabled() is true or not, since
// prefetching only uses optimization guide predictions.
INSTANTIATE_TEST_SUITE_P(
,
LoadingPredictorPrefetchCounterfactualBrowserTest,
testing::Combine(
/*IsLocalPredictionEnabled()=*/testing::Values(true, false),
/*ShouldUseOptimizationGuidePredictions()=*/
testing::Values(false),
/*IsPrefetchEnabled()=*/testing::Values(true),
/*GetSubresourceType()=*/testing::Values("all")));
// Tests that LoadingPredictorTabHelper ignores prerender navigations and
// page activations.
class LoadingPredictorMultiplePageBrowserTest
: public LoadingPredictorBrowserTest {
public:
LoadingPredictorMultiplePageBrowserTest()
: prerender_test_helper_(base::BindRepeating(
&LoadingPredictorMultiplePageBrowserTest::GetWebContents,
base::Unretained(this))) {}
content::test::PrerenderTestHelper& prerender_test_helper() {
return prerender_test_helper_;
}
content::WebContents* GetWebContents() {
return browser()->tab_strip_model()->GetActiveWebContents();
}
protected:
void SetUp() override {
prerender_test_helper_.RegisterServerRequestMonitor(embedded_test_server());
LoadingPredictorBrowserTest::SetUp();
}
private:
content::test::PrerenderTestHelper prerender_test_helper_;
};
IN_PROC_BROWSER_TEST_F(LoadingPredictorMultiplePageBrowserTest,
PrerenderNavigationNotObserved) {
GURL first_main = embedded_test_server()->GetURL("/title1.html");
GURL prerender = embedded_test_server()->GetURL("/title2.html");
GURL second_main = embedded_test_server()->GetURL("/title3.html");
auto* loading_predictor =
predictors::LoadingPredictorFactory::GetForProfile(browser()->profile());
// Start navigation in the primary main frame.
auto first_main_observer = std::make_unique<content::TestNavigationManager>(
GetWebContents(), first_main);
GetWebContents()->GetController().LoadURL(first_main, content::Referrer(),
ui::PAGE_TRANSITION_TYPED,
std::string());
ASSERT_TRUE(first_main_observer->WaitForRequestStart());
EXPECT_EQ(1u, loading_predictor->GetActiveNavigationsSizeForTesting());
ASSERT_TRUE(first_main_observer->WaitForNavigationFinished());
EXPECT_EQ(0u, loading_predictor->GetActiveNavigationsSizeForTesting());
content::WaitForLoadStop(GetWebContents());
EXPECT_EQ(1u, loading_predictor->GetTotalHintsActivatedForTesting());
// Start a prerender and a navigation in the primary main frame so we have 2
// concurrent navigations.
auto prerender_observer = std::make_unique<content::TestNavigationManager>(
GetWebContents(), prerender);
auto second_main_observer = std::make_unique<content::TestNavigationManager>(
GetWebContents(), second_main);
prerender_test_helper().AddPrerenderAsync(prerender);
GetWebContents()->GetController().LoadURL(second_main, content::Referrer(),
ui::PAGE_TRANSITION_TYPED,
std::string());
ASSERT_TRUE(prerender_observer->WaitForRequestStart());
ASSERT_TRUE(second_main_observer->WaitForRequestStart());
EXPECT_EQ(1u, loading_predictor->GetActiveNavigationsSizeForTesting());
ASSERT_TRUE(prerender_observer->WaitForNavigationFinished());
EXPECT_EQ(1u, loading_predictor->GetActiveNavigationsSizeForTesting());
ASSERT_TRUE(second_main_observer->WaitForNavigationFinished());
EXPECT_EQ(0u, loading_predictor->GetActiveNavigationsSizeForTesting());
content::WaitForLoadStop(GetWebContents());
EXPECT_EQ(2u, loading_predictor->GetTotalHintsActivatedForTesting());
}
IN_PROC_BROWSER_TEST_F(LoadingPredictorMultiplePageBrowserTest,
PrerenderActivationNotObserved) {
GURL main_url = embedded_test_server()->GetURL("/title1.html");
GURL prerender_url = embedded_test_server()->GetURL("/title2.html");
auto* loading_predictor =
predictors::LoadingPredictorFactory::GetForProfile(browser()->profile());
// Navigate primary main frame.
GetWebContents()->GetController().LoadURL(
main_url, content::Referrer(), ui::PAGE_TRANSITION_TYPED, std::string());
content::WaitForLoadStop(GetWebContents());
EXPECT_EQ(1u, loading_predictor->GetTotalHintsActivatedForTesting());
// Start a prerender.
prerender_test_helper().AddPrerender(prerender_url);
EXPECT_EQ(1u, loading_predictor->GetTotalHintsActivatedForTesting());
// Activate the prerender.
prerender_test_helper().NavigatePrimaryPage(prerender_url);
EXPECT_EQ(1u, loading_predictor->GetTotalHintsActivatedForTesting());
}
// TODO(crbug.com/325336071): Re-enable this test
#if BUILDFLAG(IS_LINUX)
#define MAYBE_BackForwardCacheNavigationNotObserved \
DISABLED_BackForwardCacheNavigationNotObserved
#else
#define MAYBE_BackForwardCacheNavigationNotObserved \
BackForwardCacheNavigationNotObserved
#endif
IN_PROC_BROWSER_TEST_F(LoadingPredictorMultiplePageBrowserTest,
MAYBE_BackForwardCacheNavigationNotObserved) {
GURL url_1 = embedded_test_server()->GetURL("a.com", "/title1.html");
GURL url_2 = embedded_test_server()->GetURL("b.com", "/title2.html");
auto* loading_predictor =
predictors::LoadingPredictorFactory::GetForProfile(browser()->profile());
// Navigate primary main frame twice.
ASSERT_TRUE(content::NavigateToURL(GetWebContents(), url_1));
content::RenderFrameHostWrapper rfh_1(
GetWebContents()->GetPrimaryMainFrame());
ASSERT_TRUE(content::NavigateToURL(GetWebContents(), url_2));
ASSERT_EQ(rfh_1->GetLifecycleState(),
content::RenderFrameHost::LifecycleState::kInBackForwardCache);
EXPECT_EQ(2u, loading_predictor->GetTotalHintsActivatedForTesting());
// Go back (using BackForwardCache).
ASSERT_TRUE(content::HistoryGoBack(GetWebContents()));
ASSERT_EQ(GetWebContents()->GetPrimaryMainFrame(), rfh_1.get());
EXPECT_EQ(2u, loading_predictor->GetTotalHintsActivatedForTesting());
}
// Test interaction with fenced frame `window.fence.disableUntrustedNetwork()`
// API. See:
// https://github.com/WICG/fenced-frame/blob/master/explainer/fenced_frames_with_local_unpartitioned_data_access.md#revoking-network-access
class FencedFrameLoadingPredictorBrowserTest
: public LoadingPredictorBrowserTest {
public:
void SetUpOnMainThread() override {
LoadingPredictorBrowserTest::SetUpOnMainThread();
// Set up the embedded https test server for fenced frame which requires a
// secure context to load.
embedded_https_test_server().SetSSLConfig(
net::EmbeddedTestServer::CERT_TEST_NAMES);
// Add content/test/data for cross_site_iframe_factory.html.
embedded_https_test_server().ServeFilesFromSourceDirectory(
"content/test/data");
embedded_https_test_server().ServeFilesFromDirectory(
GetChromeTestDataDir());
}
content::test::FencedFrameTestHelper& fenced_frame_test_helper() {
return fenced_frame_test_helper_;
}
content::WebContents* GetWebContents() {
return browser()->tab_strip_model()->GetActiveWebContents();
}
private:
content::test::FencedFrameTestHelper fenced_frame_test_helper_;
};
// Verify DNS prefetch is working in fenced frame.
IN_PROC_BROWSER_TEST_F(FencedFrameLoadingPredictorBrowserTest, DnsPrefetch) {
ASSERT_TRUE(embedded_https_test_server().Start());
// Navigate to a page that contains a fenced frame.
const GURL main_url = embedded_https_test_server().GetURL(
"a.test", "/cross_site_iframe_factory.html?a.test(a.test{fenced})");
EXPECT_TRUE(ui_test_utils::NavigateToURL(browser(), main_url));
// Get fenced frame render frame host.
std::vector<content::RenderFrameHost*> child_frames =
fenced_frame_test_helper().GetChildFencedFrameHosts(
GetWebContents()->GetPrimaryMainFrame());
ASSERT_EQ(child_frames.size(), 1u);
content::RenderFrameHost* fenced_frame_rfh = child_frames[0];
// Get fenced frame NetworkAnonymizationKey.
const net::NetworkAnonymizationKey& network_anonymization_key =
fenced_frame_rfh->GetIsolationInfoForSubresources()
.network_anonymization_key();
GURL dns_prefetch_url("https://chromium.org");
// Add a link element in fenced frame that does a DNS prefetch.
EXPECT_TRUE(ExecJs(fenced_frame_rfh, content::JsReplace(R"(
var link_element = document.createElement('link');
link_element.href = $1;
link_element.rel = 'dns-prefetch';
document.body.appendChild(link_element);
)",
dns_prefetch_url)));
// The observer should observe a DNS prefetch which succeeds.
preconnect_manager_observer()->WaitUntilHostLookedUp(
dns_prefetch_url.host(), network_anonymization_key);
EXPECT_TRUE(preconnect_manager_observer()->HasHostBeenLookedUp(
dns_prefetch_url.host(), network_anonymization_key));
EXPECT_TRUE(preconnect_manager_observer()->HostFound(
dns_prefetch_url.host(), network_anonymization_key));
}
// Verify DNS prefetch is disabled after fenced frame untrusted network cutoff.
IN_PROC_BROWSER_TEST_F(FencedFrameLoadingPredictorBrowserTest,
NetworkCutoffDisablesDnsPrefetch) {
ASSERT_TRUE(embedded_https_test_server().Start());
// Navigate to a page that contains a fenced frame.
const GURL main_url = embedded_https_test_server().GetURL(
"a.test", "/cross_site_iframe_factory.html?a.test(a.test{fenced})");
EXPECT_TRUE(ui_test_utils::NavigateToURL(browser(), main_url));
// Get fenced frame render frame host.
std::vector<content::RenderFrameHost*> child_frames =
fenced_frame_test_helper().GetChildFencedFrameHosts(
GetWebContents()->GetPrimaryMainFrame());
ASSERT_EQ(child_frames.size(), 1u);
content::RenderFrameHost* fenced_frame_rfh = child_frames[0];
// Get fenced frame NetworkAnonymizationKey.
const net::NetworkAnonymizationKey& network_anonymization_key =
fenced_frame_rfh->GetIsolationInfoForSubresources()
.network_anonymization_key();
GURL dns_prefetch_url("https://chromium.org");
// Disable fenced frame untrusted network access, then add a link element
// that does a DNS prefetch.
EXPECT_TRUE(ExecJs(fenced_frame_rfh, content::JsReplace(R"(
(async () => {
await window.fence.disableUntrustedNetwork().then(
() => {
var link_element = document.createElement('link');
link_element.href = $1;
link_element.rel = 'dns-prefetch';
document.body.appendChild(link_element);
}
);
})();
)",
dns_prefetch_url)));
// The observer should observe a DNS prefetch which is cancelled.
preconnect_manager_observer()->WaitUntilHostLookedUp(
dns_prefetch_url.host(), network_anonymization_key);
// The host is looked up, but the lookup is eventually cancelled because the
// fenced frame untrusted network access has been disabled.
EXPECT_TRUE(preconnect_manager_observer()->HasHostBeenLookedUp(
dns_prefetch_url.host(), network_anonymization_key));
EXPECT_FALSE(preconnect_manager_observer()->HostFound(
dns_prefetch_url.host(), network_anonymization_key));
}
// Verify DNS prefetch triggered by link response header is working in fenced
// frame.
// TODO(crbug.com/360154073): Disabled for flakiness.
IN_PROC_BROWSER_TEST_F(FencedFrameLoadingPredictorBrowserTest,
DISABLED_DnsPrefetchFromLinkHeader) {
std::string relative_url = "/title1.html";
net::test_server::ControllableHttpResponse response(
&embedded_https_test_server(), relative_url);
ASSERT_TRUE(embedded_https_test_server().Start());
// Navigate to a page that contains a fenced frame.
const GURL main_url = embedded_https_test_server().GetURL(
"a.test", "/cross_site_iframe_factory.html?a.test(a.test{fenced})");
EXPECT_TRUE(ui_test_utils::NavigateToURL(browser(), main_url));
// Get fenced frame render frame host.
std::vector<content::RenderFrameHost*> child_frames =
fenced_frame_test_helper().GetChildFencedFrameHosts(
GetWebContents()->GetPrimaryMainFrame());
ASSERT_EQ(child_frames.size(), 1u);
content::RenderFrameHost* fenced_frame_rfh = child_frames[0];
GURL dns_prefetch_url("https://chromium.org");
GURL navigation_url =
embedded_https_test_server().GetURL("a.test", relative_url);
// Navigate the fenced frame.
content::TestFrameNavigationObserver observer(fenced_frame_rfh);
EXPECT_TRUE(
ExecJs(GetWebContents()->GetPrimaryMainFrame(),
content::JsReplace(
R"(document.getElementsByTagName('fencedframe')[0].config =
new FencedFrameConfig($1);)",
navigation_url)));
// Send a response header with link dns-prefetch field.
response.WaitForRequest();
ResetNetworkState();
ResetPredictorState();
response.Send(
base::StringPrintf("HTTP/1.1 200 OK\r\n"
"Content-Type: text/html; charset=utf-8\r\n"
"Supports-Loading-Mode: fenced-frame\r\n"
"Link: <%s>; rel=dns-prefetch\r\n"
"\r\n",
dns_prefetch_url.spec().c_str()));
response.Done();
// Wait until navigation commits.
observer.WaitForCommit();
// Get the fenced frame render frame host again as it has changed after
// navigation.
child_frames = fenced_frame_test_helper().GetChildFencedFrameHosts(
GetWebContents()->GetPrimaryMainFrame());
ASSERT_EQ(child_frames.size(), 1u);
fenced_frame_rfh = child_frames[0];
// Get fenced frame NetworkAnonymizationKey after navigation commits. This
// is because DNS prefetch uses the NetworkAnonymizationKey from the
// IsolationInfo of the pending navigation. So the NetworkAnonymizationKey
// used for the checks below needs to be obtained from the new fenced frame
// render frame host.
const net::NetworkAnonymizationKey& network_anonymization_key =
fenced_frame_rfh->GetIsolationInfoForSubresources()
.network_anonymization_key();
// The observer should observe a DNS prefetch which succeeds.
preconnect_manager_observer()->WaitUntilHostLookedUp(
dns_prefetch_url.host(), network_anonymization_key);
EXPECT_TRUE(preconnect_manager_observer()->HasHostBeenLookedUp(
dns_prefetch_url.host(), network_anonymization_key));
EXPECT_TRUE(preconnect_manager_observer()->HostFound(
dns_prefetch_url.host(), network_anonymization_key));
}
// Verify DNS prefetch triggered by link response header is disabled after
// fenced frame untrusted network cutoff.
IN_PROC_BROWSER_TEST_F(FencedFrameLoadingPredictorBrowserTest,
NetworkCutoffDisablesDnsPrefetchFromLinkHeader) {
std::string relative_url = "/title1.html";
net::test_server::ControllableHttpResponse dns_prefetch_response(
&embedded_https_test_server(), relative_url);
ASSERT_TRUE(embedded_https_test_server().Start());
// Navigate to a page that contains a fenced frame and a nested iframe.
const GURL main_url = embedded_https_test_server().GetURL(
"a.test",
"/cross_site_iframe_factory.html?a.test(a.test{fenced}(a.test))");
EXPECT_TRUE(ui_test_utils::NavigateToURL(browser(), main_url));
// Get fenced frame render frame host.
std::vector<content::RenderFrameHost*> child_frames =
fenced_frame_test_helper().GetChildFencedFrameHosts(
GetWebContents()->GetPrimaryMainFrame());
ASSERT_EQ(child_frames.size(), 1u);
content::RenderFrameHost* fenced_frame_rfh = child_frames[0];
// Get nested iframe render frame host.
content::RenderFrameHost* nested_iframe_rfh =
content::ChildFrameAt(fenced_frame_rfh, 0);
// Get fenced frame NetworkAnonymizationKey.
const net::NetworkAnonymizationKey& network_anonymization_key =
fenced_frame_rfh->GetIsolationInfoForSubresources()
.network_anonymization_key();
GURL dns_prefetch_url("https://chromium.org");
GURL navigation_url =
embedded_https_test_server().GetURL("a.test", relative_url);
// Disable fenced frame untrusted network access.
EXPECT_TRUE(ExecJs(fenced_frame_rfh, R"(
(async () => {
await window.fence.disableUntrustedNetwork();
})();
)"));
// Exempt `navigation_url` from fenced frame network revocation.
content::test::ExemptUrlsFromFencedFrameNetworkRevocation(fenced_frame_rfh,
{navigation_url});
// Navigate the nested iframe. The navigation is allowed because the url has
// been exempted from network revocation.
content::TestFrameNavigationObserver observer(nested_iframe_rfh);
EXPECT_TRUE(ExecJs(
fenced_frame_rfh,
content::JsReplace("document.getElementsByTagName('iframe')[0].src = $1;",
navigation_url)));
// Send a response header with link dns-prefetch field.
dns_prefetch_response.WaitForRequest();
ResetNetworkState();
ResetPredictorState();
dns_prefetch_response.Send(
base::StringPrintf("HTTP/1.1 200 OK\r\n"
"Content-Type: text/html; charset=utf-8\r\n"
"Supports-Loading-Mode: fenced-frame\r\n"
"Link: <%s>; rel=dns-prefetch\r\n"
"\r\n",
dns_prefetch_url.spec().c_str()));
dns_prefetch_response.Done();
// Wait until navigation commits.
observer.WaitForCommit();
ASSERT_TRUE(WaitForLoadStop(GetWebContents()));
base::RunLoop().RunUntilIdle();
// In rare cases, the NetworkHintsHandler will not receive the dns prefetch
// IPC call. Then there is no dns prefetch request initiated at all.
// `HasHostBeenLookedUp()` is not checked here to avoid flakiness.
EXPECT_FALSE(preconnect_manager_observer()->HostFound(
dns_prefetch_url.host(), network_anonymization_key));
}
} // namespace predictors
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