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chromium / chromium / src / f980ed60a3d97ed98da32d937e3d15e4910f088b / . / services / network / network_context_unittest.cc
blob: 6bda8f270ef8fa1cf198155c224899b24716a6cf [file] [log] [blame]
// Copyright 2017 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "services/network/network_context.h"
#include <algorithm>
#include <map>
#include <memory>
#include <string>
#include <utility>
#include <vector>
#include "base/barrier_closure.h"
#include "base/bind.h"
#include "base/bind_helpers.h"
#include "base/command_line.h"
#include "base/containers/span.h"
#include "base/files/file.h"
#include "base/files/file_path.h"
#include "base/files/file_util.h"
#include "base/files/scoped_temp_dir.h"
#include "base/location.h"
#include "base/metrics/field_trial.h"
#include "base/optional.h"
#include "base/power_monitor/power_monitor.h"
#include "base/power_monitor/power_monitor_source.h"
#include "base/run_loop.h"
#include "base/stl_util.h"
#include "base/strings/strcat.h"
#include "base/strings/string_split.h"
#include "base/strings/stringprintf.h"
#include "base/strings/utf_string_conversions.h"
#include "base/synchronization/waitable_event.h"
#include "base/test/bind_test_util.h"
#include "base/test/gtest_util.h"
#include "base/test/metrics/histogram_tester.h"
#include "base/test/mock_entropy_provider.h"
#include "base/test/scoped_feature_list.h"
#include "base/test/simple_test_clock.h"
#include "base/test/task_environment.h"
#include "base/threading/thread_restrictions.h"
#include "base/threading/thread_task_runner_handle.h"
#include "base/time/default_clock.h"
#include "base/time/default_tick_clock.h"
#include "base/time/time.h"
#include "build/build_config.h"
#include "build/chromeos_buildflags.h"
#include "components/network_session_configurator/browser/network_session_configurator.h"
#include "components/network_session_configurator/common/network_switches.h"
#include "components/prefs/testing_pref_service.h"
#include "crypto/sha2.h"
#include "mojo/public/cpp/bindings/self_owned_receiver.h"
#include "mojo/public/cpp/system/data_pipe_utils.h"
#include "mojo/public/cpp/system/functions.h"
#include "net/base/cache_type.h"
#include "net/base/features.h"
#include "net/base/hash_value.h"
#include "net/base/host_port_pair.h"
#include "net/base/http_user_agent_settings.h"
#include "net/base/ip_endpoint.h"
#include "net/base/isolation_info.h"
#include "net/base/net_errors.h"
#include "net/base/network_change_notifier.h"
#include "net/base/network_isolation_key.h"
#include "net/base/proxy_server.h"
#include "net/base/test_completion_callback.h"
#include "net/cert/cert_verify_result.h"
#include "net/cert/mock_cert_verifier.h"
#include "net/cookies/canonical_cookie.h"
#include "net/cookies/cookie_access_result.h"
#include "net/cookies/cookie_options.h"
#include "net/cookies/cookie_store.h"
#include "net/cookies/cookie_util.h"
#include "net/disk_cache/disk_cache.h"
#include "net/dns/context_host_resolver.h"
#include "net/dns/dns_test_util.h"
#include "net/dns/host_resolver_manager.h"
#include "net/dns/host_resolver_source.h"
#include "net/dns/mock_host_resolver.h"
#include "net/dns/public/dns_query_type.h"
#include "net/dns/public/secure_dns_mode.h"
#include "net/dns/resolve_context.h"
#include "net/http/http_auth.h"
#include "net/http/http_cache.h"
#include "net/http/http_network_session.h"
#include "net/http/http_server_properties_manager.h"
#include "net/http/http_transaction_factory.h"
#include "net/http/http_transaction_test_util.h"
#include "net/http/mock_http_cache.h"
#include "net/http/transport_security_state.h"
#include "net/http/transport_security_state_test_util.h"
#include "net/nqe/network_quality_estimator_test_util.h"
#include "net/proxy_resolution/configured_proxy_resolution_service.h"
#include "net/proxy_resolution/proxy_config.h"
#include "net/proxy_resolution/proxy_info.h"
#include "net/socket/client_socket_pool.h"
#include "net/socket/transport_client_socket_pool.h"
#include "net/test/cert_test_util.h"
#include "net/test/embedded_test_server/controllable_http_response.h"
#include "net/test/embedded_test_server/default_handlers.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/gtest_util.h"
#include "net/test/spawned_test_server/spawned_test_server.h"
#include "net/test/test_data_directory.h"
#include "net/traffic_annotation/network_traffic_annotation_test_helper.h"
#include "net/url_request/referrer_policy.h"
#include "net/url_request/url_request_context.h"
#include "net/url_request/url_request_context_builder.h"
#include "net/url_request/url_request_job_factory.h"
#include "net/url_request/url_request_test_util.h"
#include "services/network/cookie_manager.h"
#include "services/network/net_log_exporter.h"
#include "services/network/network_qualities_pref_delegate.h"
#include "services/network/network_service.h"
#include "services/network/public/cpp/features.h"
#include "services/network/public/cpp/network_service_buildflags.h"
#include "services/network/public/cpp/resolve_host_client_base.h"
#include "services/network/public/mojom/host_resolver.mojom.h"
#include "services/network/public/mojom/net_log.mojom.h"
#include "services/network/public/mojom/network_context.mojom.h"
#include "services/network/public/mojom/network_service.mojom.h"
#include "services/network/public/mojom/proxy_config.mojom.h"
#include "services/network/public/mojom/url_loader.mojom-shared.h"
#include "services/network/test/fake_test_cert_verifier_params_factory.h"
#include "services/network/test/test_url_loader_client.h"
#include "services/network/test/udp_socket_test_util.h"
#include "services/network/test_mojo_proxy_resolver_factory.h"
#include "services/network/trust_tokens/pending_trust_token_store.h"
#include "services/network/trust_tokens/trust_token_parameterization.h"
#include "services/network/trust_tokens/trust_token_store.h"
#include "testing/gmock/include/gmock/gmock.h"
#include "testing/gtest/include/gtest/gtest.h"
#include "url/gurl.h"
#include "url/scheme_host_port.h"
#include "url/url_constants.h"
#if !BUILDFLAG(DISABLE_FTP_SUPPORT)
#include "net/ftp/ftp_auth_cache.h"
#endif // !BUILDFLAG(DISABLE_FTP_SUPPORT)
#if BUILDFLAG(IS_CT_SUPPORTED)
#include "components/certificate_transparency/chrome_ct_policy_enforcer.h"
#include "services/network/public/mojom/ct_log_info.mojom.h"
#endif
#if BUILDFLAG(ENABLE_REPORTING)
#include "net/network_error_logging/network_error_logging_service.h"
#include "net/reporting/reporting_cache.h"
#include "net/reporting/reporting_context.h"
#include "net/reporting/reporting_report.h"
#include "net/reporting/reporting_service.h"
#include "net/reporting/reporting_test_util.h"
#endif // BUILDFLAG(ENABLE_REPORTING)
#if BUILDFLAG(IS_ASH)
#include "services/network/mock_mojo_dhcp_wpad_url_client.h"
#endif // BUILDFLAG(IS_ASH)
namespace network {
namespace {
using ::testing::Optional;
constexpr char kMockHost[] = "mock.host";
constexpr char kCustomProxyResponse[] = "CustomProxyResponse";
constexpr int kProcessId = 11;
constexpr int kRouteId = 12;
#if BUILDFLAG(ENABLE_REPORTING)
const base::FilePath::CharType kFilename[] =
FILE_PATH_LITERAL("TempReportingAndNelStore");
#endif // BUILDFLAG(ENABLE_REPORTING)
#if BUILDFLAG(IS_CT_SUPPORTED)
void StoreBool(bool* result, base::OnceClosure callback, bool value) {
*result = value;
std::move(callback).Run();
}
#endif // BUILDFLAG(IS_CT_SUPPORTED)
void StoreValue(base::Value* result,
base::OnceClosure callback,
base::Value value) {
*result = std::move(value);
std::move(callback).Run();
}
mojom::NetworkContextParamsPtr CreateContextParams() {
mojom::NetworkContextParamsPtr params = mojom::NetworkContextParams::New();
// Use a fixed proxy config, to avoid dependencies on local network
// configuration.
params->initial_proxy_config = net::ProxyConfigWithAnnotation::CreateDirect();
return params;
}
void SetContentSetting(const GURL& primary_pattern,
const GURL& secondary_pattern,
ContentSetting setting,
NetworkContext* network_context) {
network_context->cookie_manager()->SetContentSettings(
{ContentSettingPatternSource(
ContentSettingsPattern::FromURL(primary_pattern),
ContentSettingsPattern::FromURL(secondary_pattern),
base::Value(setting), std::string(), false)});
}
void SetDefaultContentSetting(ContentSetting setting,
NetworkContext* network_context) {
network_context->cookie_manager()->SetContentSettings(
{ContentSettingPatternSource(ContentSettingsPattern::Wildcard(),
ContentSettingsPattern::Wildcard(),
base::Value(setting), std::string(),
false)});
}
std::unique_ptr<TestURLLoaderClient> FetchRequest(
const ResourceRequest& request,
NetworkContext* network_context,
int url_loader_options = mojom::kURLLoadOptionNone,
int process_id = mojom::kBrowserProcessId,
mojom::URLLoaderFactoryParamsPtr params = nullptr) {
mojo::Remote<mojom::URLLoaderFactory> loader_factory;
if (!params)
params = mojom::URLLoaderFactoryParams::New();
params->process_id = process_id;
params->is_corb_enabled = false;
// If |site_for_cookies| is null, any non-empty NIK is fine. Otherwise, the
// NIK must be consistent with |site_for_cookies|.
if (request.site_for_cookies.IsNull()) {
params->isolation_info = net::IsolationInfo::Create(
net::IsolationInfo::RequestType::kOther,
url::Origin::Create(GURL("https://abc.com")),
url::Origin::Create(GURL("https://xyz.com")), request.site_for_cookies);
} else {
params->isolation_info = net::IsolationInfo::CreateForInternalRequest(
url::Origin::Create(request.site_for_cookies.RepresentativeUrl()));
}
network_context->CreateURLLoaderFactory(
loader_factory.BindNewPipeAndPassReceiver(), std::move(params));
auto client = std::make_unique<TestURLLoaderClient>();
mojo::PendingRemote<mojom::URLLoader> loader;
loader_factory->CreateLoaderAndStart(
loader.InitWithNewPipeAndPassReceiver(), 0 /* routing_id */,
0 /* request_id */, url_loader_options, request, client->CreateRemote(),
net::MutableNetworkTrafficAnnotationTag(TRAFFIC_ANNOTATION_FOR_TESTS));
client->RunUntilComplete();
return client;
}
std::unique_ptr<net::test_server::HttpResponse> CustomProxyResponse(
const net::test_server::HttpRequest& request) {
auto response = std::make_unique<net::test_server::BasicHttpResponse>();
response->set_content(kCustomProxyResponse);
return std::move(response);
}
// proxy_resolver::mojom::ProxyResolverFactory that captures the most recent PAC
// script passed to it, and the most recent URL/NetworkIsolationKey passed to
// the GetProxyForUrl() method of proxy_resolver::mojom::ProxyResolver it
// returns.
class CapturingMojoProxyResolverFactory
: public proxy_resolver::mojom::ProxyResolverFactory,
public proxy_resolver::mojom::ProxyResolver {
public:
CapturingMojoProxyResolverFactory() {}
~CapturingMojoProxyResolverFactory() override {}
mojo::PendingRemote<proxy_resolver::mojom::ProxyResolverFactory>
CreateFactoryRemote() {
return proxy_factory_receiver_.BindNewPipeAndPassRemote();
}
// proxy_resolver::mojom::ProxyResolverFactory:
void CreateResolver(
const std::string& pac_script,
mojo::PendingReceiver<proxy_resolver::mojom::ProxyResolver> receiver,
mojo::PendingRemote<
proxy_resolver::mojom::ProxyResolverFactoryRequestClient> client)
override {
pac_script_ = pac_script;
mojo::Remote<proxy_resolver::mojom::ProxyResolverFactoryRequestClient>
factory_request_client(std::move(client));
proxy_resolver_receiver_.Bind(std::move(receiver));
factory_request_client->ReportResult(net::OK);
}
// proxy_resolver::mojom::ProxyResolver:
void GetProxyForUrl(
const GURL& url,
const net::NetworkIsolationKey& network_isolation_key,
mojo::PendingRemote<proxy_resolver::mojom::ProxyResolverRequestClient>
client) override {
url_ = url;
network_isolation_key_ = network_isolation_key;
mojo::Remote<proxy_resolver::mojom::ProxyResolverRequestClient>
resolver_request_client(std::move(client));
net::ProxyInfo proxy_info;
proxy_info.UseDirect();
resolver_request_client->ReportResult(net::OK, proxy_info);
}
const std::string& pac_script() const { return pac_script_; }
// Return the GURL and NetworkIsolationKey passed to the most recent
// GetProxyForUrl() call.
const GURL& url() const { return url_; }
const net::NetworkIsolationKey& network_isolation_key() const {
return network_isolation_key_;
}
private:
mojo::Receiver<ProxyResolverFactory> proxy_factory_receiver_{this};
mojo::Receiver<ProxyResolver> proxy_resolver_receiver_{this};
std::string pac_script_;
GURL url_;
net::NetworkIsolationKey network_isolation_key_;
DISALLOW_COPY_AND_ASSIGN(CapturingMojoProxyResolverFactory);
};
// ProxyLookupClient that drives proxy lookups and can wait for the responses to
// be received.
class TestProxyLookupClient : public mojom::ProxyLookupClient {
public:
TestProxyLookupClient() = default;
~TestProxyLookupClient() override = default;
void StartLookUpProxyForURL(
const GURL& url,
const net::NetworkIsolationKey& network_isolation_key,
mojom::NetworkContext* network_context) {
// Make sure this method is called at most once.
EXPECT_FALSE(receiver_.is_bound());
network_context->LookUpProxyForURL(url, network_isolation_key,
receiver_.BindNewPipeAndPassRemote());
}
void WaitForResult() { run_loop_.Run(); }
// mojom::ProxyLookupClient implementation:
void OnProxyLookupComplete(
int32_t net_error,
const base::Optional<net::ProxyInfo>& proxy_info) override {
EXPECT_FALSE(is_done_);
EXPECT_FALSE(proxy_info_);
EXPECT_EQ(net_error == net::OK, proxy_info.has_value());
is_done_ = true;
proxy_info_ = proxy_info;
net_error_ = net_error;
receiver_.reset();
run_loop_.Quit();
}
const base::Optional<net::ProxyInfo>& proxy_info() const {
return proxy_info_;
}
int32_t net_error() const { return net_error_; }
bool is_done() const { return is_done_; }
private:
mojo::Receiver<mojom::ProxyLookupClient> receiver_{this};
bool is_done_ = false;
base::Optional<net::ProxyInfo> proxy_info_;
int32_t net_error_ = net::ERR_UNEXPECTED;
base::RunLoop run_loop_;
DISALLOW_COPY_AND_ASSIGN(TestProxyLookupClient);
};
class MockP2PTrustedSocketManagerClient
: public mojom::P2PTrustedSocketManagerClient {
public:
MockP2PTrustedSocketManagerClient() = default;
~MockP2PTrustedSocketManagerClient() override = default;
// mojom::P2PTrustedSocketManagerClient:
void InvalidSocketPortRangeRequested() override {}
void DumpPacket(const std::vector<uint8_t>& packet_header,
uint64_t packet_length,
bool incoming) override {}
};
class NetworkContextTest : public testing::Test {
public:
explicit NetworkContextTest(
base::test::TaskEnvironment::TimeSource time_source =
base::test::TaskEnvironment::TimeSource::DEFAULT)
: task_environment_(base::test::TaskEnvironment::MainThreadType::IO,
time_source),
network_change_notifier_(
net::NetworkChangeNotifier::CreateMockIfNeeded()),
network_service_(NetworkService::CreateForTesting()) {}
~NetworkContextTest() override {}
std::unique_ptr<NetworkContext> CreateContextWithParams(
mojom::NetworkContextParamsPtr context_params) {
// Use a dummy CertVerifier that always passes cert verification, since
// these unittests don't need to test CertVerifier behavior.
DCHECK(!context_params->cert_verifier_params);
context_params->cert_verifier_params =
FakeTestCertVerifierParamsFactory::GetCertVerifierParams();
network_context_remote_.reset();
return std::make_unique<NetworkContext>(
network_service_.get(),
network_context_remote_.BindNewPipeAndPassReceiver(),
std::move(context_params));
}
// Searches through |backend|'s stats to discover its type. Only supports
// blockfile and simple caches.
net::URLRequestContextBuilder::HttpCacheParams::Type GetBackendType(
disk_cache::Backend* backend) {
base::StringPairs stats;
backend->GetStats(&stats);
for (const auto& pair : stats) {
if (pair.first != "Cache type")
continue;
if (pair.second == "Simple Cache")
return net::URLRequestContextBuilder::HttpCacheParams::DISK_SIMPLE;
if (pair.second == "Blockfile Cache")
return net::URLRequestContextBuilder::HttpCacheParams::DISK_BLOCKFILE;
break;
}
NOTREACHED();
return net::URLRequestContextBuilder::HttpCacheParams::IN_MEMORY;
}
mojom::NetworkService* network_service() const {
return network_service_.get();
}
// Looks up a value with the given name from the NetworkContext's
// TransportSocketPool info dictionary.
int GetSocketPoolInfo(NetworkContext* context, base::StringPiece name) {
return context->url_request_context()
->http_transaction_factory()
->GetSession()
->GetSocketPool(
net::HttpNetworkSession::SocketPoolType::NORMAL_SOCKET_POOL,
net::ProxyServer::Direct())
->GetInfoAsValue("", "")
.FindIntPath(name)
.value_or(-1);
}
int GetSocketCountForGroup(NetworkContext* context,
const std::string& group_name) {
base::Value pool_info =
context->url_request_context()
->http_transaction_factory()
->GetSession()
->GetSocketPool(
net::HttpNetworkSession::SocketPoolType::NORMAL_SOCKET_POOL,
net::ProxyServer::Direct())
->GetInfoAsValue("", "");
int count = 0;
base::Value* active_socket_count = pool_info.FindPathOfType(
base::span<const base::StringPiece>{
{"groups", group_name, "active_socket_count"}},
base::Value::Type::INTEGER);
if (active_socket_count)
count += active_socket_count->GetInt();
base::Value* idle_sockets = pool_info.FindPathOfType(
base::span<const base::StringPiece>{
{"groups", group_name, "idle_sockets"}},
base::Value::Type::LIST);
if (idle_sockets)
count += idle_sockets->GetList().size();
base::Value* connect_jobs = pool_info.FindPathOfType(
base::span<const base::StringPiece>{
{"groups", group_name, "connect_jobs"}},
base::Value::Type::LIST);
if (connect_jobs)
count += connect_jobs->GetList().size();
return count;
}
GURL GetHttpUrlFromHttps(const GURL& https_url) {
url::Replacements<char> replacements;
const char http[] = "http";
replacements.SetScheme(http, url::Component(0, strlen(http)));
return https_url.ReplaceComponents(replacements);
}
protected:
base::test::TaskEnvironment task_environment_;
std::unique_ptr<net::NetworkChangeNotifier> network_change_notifier_;
std::unique_ptr<NetworkService> network_service_;
// Stores the mojo::Remote<NetworkContext> of the most recently created
// NetworkContext. Not strictly needed, but seems best to mimic real-world
// usage.
mojo::Remote<mojom::NetworkContext> network_context_remote_;
};
class NetworkContextTestWithMockTime : public NetworkContextTest {
public:
NetworkContextTestWithMockTime()
: NetworkContextTest(base::test::TaskEnvironment::TimeSource::MOCK_TIME) {
}
};
TEST_F(NetworkContextTest, DestroyContextWithLiveRequest) {
net::EmbeddedTestServer test_server;
test_server.AddDefaultHandlers(
base::FilePath(FILE_PATH_LITERAL("services/test/data")));
ASSERT_TRUE(test_server.Start());
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
ResourceRequest request;
request.url = test_server.GetURL("/hung-after-headers");
mojo::Remote<mojom::URLLoaderFactory> loader_factory;
mojom::URLLoaderFactoryParamsPtr params =
mojom::URLLoaderFactoryParams::New();
params->process_id = mojom::kBrowserProcessId;
params->is_corb_enabled = false;
network_context->CreateURLLoaderFactory(
loader_factory.BindNewPipeAndPassReceiver(), std::move(params));
mojo::PendingRemote<mojom::URLLoader> loader;
TestURLLoaderClient client;
loader_factory->CreateLoaderAndStart(
loader.InitWithNewPipeAndPassReceiver(), 0 /* routing_id */,
0 /* request_id */, 0 /* options */, request, client.CreateRemote(),
net::MutableNetworkTrafficAnnotationTag(TRAFFIC_ANNOTATION_FOR_TESTS));
client.RunUntilResponseReceived();
EXPECT_TRUE(client.has_received_response());
EXPECT_FALSE(client.has_received_completion());
// Destroying the loader factory should not delete the URLLoader.
loader_factory.reset();
base::RunLoop().RunUntilIdle();
EXPECT_FALSE(client.has_received_completion());
// Destroying the NetworkContext should result in destroying the loader and
// the client receiving a connection error.
network_context.reset();
client.RunUntilDisconnect();
EXPECT_FALSE(client.has_received_completion());
}
TEST_F(NetworkContextTest, DisableQuic) {
base::CommandLine::ForCurrentProcess()->AppendSwitch(switches::kEnableQuic);
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
// By default, QUIC should be enabled for new NetworkContexts when the command
// line indicates it should be.
EXPECT_TRUE(network_context->url_request_context()
->http_transaction_factory()
->GetSession()
->params()
.enable_quic);
// Disabling QUIC should disable it on existing NetworkContexts.
network_service()->DisableQuic();
EXPECT_FALSE(network_context->url_request_context()
->http_transaction_factory()
->GetSession()
->params()
.enable_quic);
// Disabling QUIC should disable it new NetworkContexts.
std::unique_ptr<NetworkContext> network_context2 =
CreateContextWithParams(CreateContextParams());
EXPECT_FALSE(network_context2->url_request_context()
->http_transaction_factory()
->GetSession()
->params()
.enable_quic);
// Disabling QUIC again should be harmless.
network_service()->DisableQuic();
std::unique_ptr<NetworkContext> network_context3 =
CreateContextWithParams(CreateContextParams());
EXPECT_FALSE(network_context3->url_request_context()
->http_transaction_factory()
->GetSession()
->params()
.enable_quic);
}
TEST_F(NetworkContextTest, UserAgentAndLanguage) {
const char kUserAgent[] = "Chromium Unit Test";
const char kAcceptLanguage[] = "en-US,en;q=0.9,uk;q=0.8";
mojom::NetworkContextParamsPtr params = CreateContextParams();
params->user_agent = kUserAgent;
// Not setting accept_language, to test the default.
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(params));
EXPECT_EQ(kUserAgent, network_context->url_request_context()
->http_user_agent_settings()
->GetUserAgent());
EXPECT_EQ("", network_context->url_request_context()
->http_user_agent_settings()
->GetAcceptLanguage());
// Change accept-language.
network_context->SetAcceptLanguage(kAcceptLanguage);
EXPECT_EQ(kUserAgent, network_context->url_request_context()
->http_user_agent_settings()
->GetUserAgent());
EXPECT_EQ(kAcceptLanguage, network_context->url_request_context()
->http_user_agent_settings()
->GetAcceptLanguage());
// Create with custom accept-language configured.
params = CreateContextParams();
params->user_agent = kUserAgent;
params->accept_language = kAcceptLanguage;
std::unique_ptr<NetworkContext> network_context2 =
CreateContextWithParams(std::move(params));
EXPECT_EQ(kUserAgent, network_context2->url_request_context()
->http_user_agent_settings()
->GetUserAgent());
EXPECT_EQ(kAcceptLanguage, network_context2->url_request_context()
->http_user_agent_settings()
->GetAcceptLanguage());
}
TEST_F(NetworkContextTest, EnableBrotli) {
for (bool enable_brotli : {true, false}) {
mojom::NetworkContextParamsPtr context_params =
mojom::NetworkContextParams::New();
context_params->enable_brotli = enable_brotli;
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(context_params));
EXPECT_EQ(enable_brotli,
network_context->url_request_context()->enable_brotli());
}
}
TEST_F(NetworkContextTest, ContextName) {
const char kContextName[] = "Jim";
mojom::NetworkContextParamsPtr context_params =
mojom::NetworkContextParams::New();
context_params->context_name = std::string(kContextName);
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(context_params));
EXPECT_EQ(kContextName, network_context->url_request_context()->name());
}
TEST_F(NetworkContextTest, QuicUserAgentId) {
const char kQuicUserAgentId[] = "007";
mojom::NetworkContextParamsPtr context_params = CreateContextParams();
context_params->quic_user_agent_id = kQuicUserAgentId;
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(context_params));
EXPECT_EQ(kQuicUserAgentId, network_context->url_request_context()
->quic_context()
->params()
->user_agent_id);
}
TEST_F(NetworkContextTest, UnhandedProtocols) {
const GURL kUnsupportedUrls[] = {
// These are handled outside the network service.
GURL("data:,foo"),
GURL("file:///not/a/path/that/leads/anywhere/but/it/should/not/matter/"
"anyways"),
// FTP is handled by the network service on some platforms, but support
// for it is not enabled by default.
GURL("ftp://foo.test/"),
};
for (const GURL& url : kUnsupportedUrls) {
mojom::NetworkContextParamsPtr context_params = CreateContextParams();
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(context_params));
mojo::Remote<mojom::URLLoaderFactory> loader_factory;
mojom::URLLoaderFactoryParamsPtr params =
mojom::URLLoaderFactoryParams::New();
params->process_id = mojom::kBrowserProcessId;
params->is_corb_enabled = false;
network_context->CreateURLLoaderFactory(
loader_factory.BindNewPipeAndPassReceiver(), std::move(params));
mojo::PendingRemote<mojom::URLLoader> loader;
TestURLLoaderClient client;
ResourceRequest request;
request.url = url;
loader_factory->CreateLoaderAndStart(
loader.InitWithNewPipeAndPassReceiver(), 0 /* routing_id */,
0 /* request_id */, 0 /* options */, request, client.CreateRemote(),
net::MutableNetworkTrafficAnnotationTag(TRAFFIC_ANNOTATION_FOR_TESTS));
client.RunUntilComplete();
EXPECT_TRUE(client.has_received_completion());
EXPECT_EQ(net::ERR_UNKNOWN_URL_SCHEME,
client.completion_status().error_code);
}
}
#if BUILDFLAG(ENABLE_REPORTING)
TEST_F(NetworkContextTest, DisableReporting) {
base::test::ScopedFeatureList scoped_feature_list_;
scoped_feature_list_.InitAndDisableFeature(features::kReporting);
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
EXPECT_FALSE(network_context->url_request_context()->reporting_service());
}
TEST_F(NetworkContextTest, EnableReportingWithoutStore) {
base::test::ScopedFeatureList scoped_feature_list_;
scoped_feature_list_.InitAndEnableFeature(features::kReporting);
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
EXPECT_TRUE(network_context->url_request_context()->reporting_service());
EXPECT_FALSE(network_context->url_request_context()
->reporting_service()
->GetContextForTesting()
->store());
}
TEST_F(NetworkContextTest, EnableReportingWithStore) {
base::test::ScopedFeatureList scoped_feature_list_;
scoped_feature_list_.InitAndEnableFeature(features::kReporting);
mojom::NetworkContextParamsPtr context_params = CreateContextParams();
base::ScopedTempDir temp_dir;
ASSERT_TRUE(temp_dir.CreateUniqueTempDir());
context_params->reporting_and_nel_store_path =
temp_dir.GetPath().Append(kFilename);
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(context_params));
EXPECT_TRUE(network_context->url_request_context()->reporting_service());
EXPECT_TRUE(network_context->url_request_context()
->reporting_service()
->GetContextForTesting()
->store());
}
TEST_F(NetworkContextTest, DisableNetworkErrorLogging) {
base::test::ScopedFeatureList scoped_feature_list_;
scoped_feature_list_.InitAndDisableFeature(features::kNetworkErrorLogging);
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
EXPECT_FALSE(
network_context->url_request_context()->network_error_logging_service());
}
TEST_F(NetworkContextTest, EnableNetworkErrorLoggingWithoutStore) {
base::test::ScopedFeatureList scoped_feature_list_;
scoped_feature_list_.InitWithFeatures(
{features::kNetworkErrorLogging, features::kReporting}, {});
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
EXPECT_TRUE(
network_context->url_request_context()->network_error_logging_service());
EXPECT_FALSE(network_context->url_request_context()
->network_error_logging_service()
->GetPersistentNelStoreForTesting());
EXPECT_FALSE(network_context->url_request_context()
->network_error_logging_service()
->GetReportingServiceForTesting()
->GetContextForTesting()
->store());
}
TEST_F(NetworkContextTest, EnableNetworkErrorLoggingWithStore) {
base::test::ScopedFeatureList scoped_feature_list_;
scoped_feature_list_.InitWithFeatures(
{features::kNetworkErrorLogging, features::kReporting}, {});
mojom::NetworkContextParamsPtr context_params = CreateContextParams();
base::ScopedTempDir temp_dir;
ASSERT_TRUE(temp_dir.CreateUniqueTempDir());
context_params->reporting_and_nel_store_path =
temp_dir.GetPath().Append(kFilename);
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(context_params));
EXPECT_TRUE(
network_context->url_request_context()->network_error_logging_service());
EXPECT_TRUE(network_context->url_request_context()
->network_error_logging_service()
->GetPersistentNelStoreForTesting());
EXPECT_TRUE(network_context->url_request_context()
->network_error_logging_service()
->GetReportingServiceForTesting()
->GetContextForTesting()
->store());
}
#endif // BUILDFLAG(ENABLE_REPORTING)
TEST_F(NetworkContextTest, DefaultHttpNetworkSessionParams) {
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
const net::HttpNetworkSession::Params& params =
network_context->url_request_context()
->http_transaction_factory()
->GetSession()
->params();
const net::QuicParams* quic_params =
network_context->url_request_context()->quic_context()->params();
EXPECT_TRUE(params.enable_http2);
EXPECT_TRUE(params.enable_quic);
EXPECT_EQ(1350u, quic_params->max_packet_length);
EXPECT_TRUE(quic_params->origins_to_force_quic_on.empty());
EXPECT_FALSE(params.enable_user_alternate_protocol_ports);
EXPECT_FALSE(params.ignore_certificate_errors);
EXPECT_EQ(0, params.testing_fixed_http_port);
EXPECT_EQ(0, params.testing_fixed_https_port);
}
// Make sure that network_session_configurator is hooked up.
TEST_F(NetworkContextTest, FixedHttpPort) {
base::CommandLine::ForCurrentProcess()->AppendSwitchASCII(
switches::kTestingFixedHttpPort, "800");
base::CommandLine::ForCurrentProcess()->AppendSwitchASCII(
switches::kTestingFixedHttpsPort, "801");
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
const net::HttpNetworkSession::Params& params =
network_context->url_request_context()
->http_transaction_factory()
->GetSession()
->params();
EXPECT_EQ(800, params.testing_fixed_http_port);
EXPECT_EQ(801, params.testing_fixed_https_port);
}
TEST_F(NetworkContextTest, NoCache) {
mojom::NetworkContextParamsPtr context_params = CreateContextParams();
context_params->http_cache_enabled = false;
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(context_params));
EXPECT_FALSE(network_context->url_request_context()
->http_transaction_factory()
->GetCache());
}
TEST_F(NetworkContextTest, MemoryCache) {
mojom::NetworkContextParamsPtr context_params = CreateContextParams();
context_params->http_cache_enabled = true;
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(context_params));
net::HttpCache* cache = network_context->url_request_context()
->http_transaction_factory()
->GetCache();
ASSERT_TRUE(cache);
disk_cache::Backend* backend = nullptr;
net::TestCompletionCallback callback;
int rv = cache->GetBackend(&backend, callback.callback());
EXPECT_EQ(net::OK, callback.GetResult(rv));
ASSERT_TRUE(backend);
EXPECT_EQ(net::MEMORY_CACHE, backend->GetCacheType());
}
TEST_F(NetworkContextTest, DiskCache) {
mojom::NetworkContextParamsPtr context_params = CreateContextParams();
context_params->http_cache_enabled = true;
base::ScopedTempDir temp_dir;
ASSERT_TRUE(temp_dir.CreateUniqueTempDir());
context_params->http_cache_path = temp_dir.GetPath();
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(context_params));
net::HttpCache* cache = network_context->url_request_context()
->http_transaction_factory()
->GetCache();
ASSERT_TRUE(cache);
disk_cache::Backend* backend = nullptr;
net::TestCompletionCallback callback;
int rv = cache->GetBackend(&backend, callback.callback());
EXPECT_EQ(net::OK, callback.GetResult(rv));
ASSERT_TRUE(backend);
EXPECT_EQ(net::DISK_CACHE, backend->GetCacheType());
EXPECT_EQ(network_session_configurator::ChooseCacheType(),
GetBackendType(backend));
}
// This makes sure that network_session_configurator::ChooseCacheType is
// connected to NetworkContext.
TEST_F(NetworkContextTest, SimpleCache) {
base::FieldTrialList::CreateFieldTrial("SimpleCacheTrial", "ExperimentYes");
mojom::NetworkContextParamsPtr context_params = CreateContextParams();
context_params->http_cache_enabled = true;
base::ScopedTempDir temp_dir;
ASSERT_TRUE(temp_dir.CreateUniqueTempDir());
context_params->http_cache_path = temp_dir.GetPath();
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(context_params));
net::HttpCache* cache = network_context->url_request_context()
->http_transaction_factory()
->GetCache();
ASSERT_TRUE(cache);
disk_cache::Backend* backend = nullptr;
net::TestCompletionCallback callback;
int rv = cache->GetBackend(&backend, callback.callback());
EXPECT_EQ(net::OK, callback.GetResult(rv));
ASSERT_TRUE(backend);
base::StringPairs stats;
backend->GetStats(&stats);
EXPECT_EQ(net::URLRequestContextBuilder::HttpCacheParams::DISK_SIMPLE,
GetBackendType(backend));
}
TEST_F(NetworkContextTest, HttpServerPropertiesToDisk) {
base::ScopedTempDir temp_dir;
ASSERT_TRUE(temp_dir.CreateUniqueTempDir());
base::FilePath file_path = temp_dir.GetPath().AppendASCII("foo");
EXPECT_FALSE(base::PathExists(file_path));
const url::SchemeHostPort kSchemeHostPort("https", "foo", 443);
// Create a context with on-disk storage of HTTP server properties.
mojom::NetworkContextParamsPtr context_params =
mojom::NetworkContextParams::New();
context_params->http_server_properties_path = file_path;
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(context_params));
// Wait for properties to load from disk, and sanity check initial state.
task_environment_.RunUntilIdle();
EXPECT_FALSE(
network_context->url_request_context()
->http_server_properties()
->GetSupportsSpdy(kSchemeHostPort, net::NetworkIsolationKey()));
// Set a property.
network_context->url_request_context()
->http_server_properties()
->SetSupportsSpdy(kSchemeHostPort, net::NetworkIsolationKey(), true);
// Deleting the context will cause it to flush state. Wait for the pref
// service to flush to disk.
network_context.reset();
task_environment_.RunUntilIdle();
// Create a new NetworkContext using the same path for HTTP server properties.
context_params = mojom::NetworkContextParams::New();
context_params->http_server_properties_path = file_path;
network_context = CreateContextWithParams(std::move(context_params));
// Wait for properties to load from disk.
task_environment_.RunUntilIdle();
EXPECT_TRUE(
network_context->url_request_context()
->http_server_properties()
->GetSupportsSpdy(kSchemeHostPort, net::NetworkIsolationKey()));
// Now check that ClearNetworkingHistoryBetween clears the data.
base::RunLoop run_loop2;
network_context->ClearNetworkingHistoryBetween(
base::Time::Now() - base::TimeDelta::FromHours(1), base::Time::Max(),
run_loop2.QuitClosure());
run_loop2.Run();
EXPECT_FALSE(
network_context->url_request_context()
->http_server_properties()
->GetSupportsSpdy(kSchemeHostPort, net::NetworkIsolationKey()));
// Destroy the network context and let any pending writes complete before
// destroying |temp_dir|, to avoid leaking any files.
network_context.reset();
task_environment_.RunUntilIdle();
ASSERT_TRUE(temp_dir.Delete());
}
// Checks that ClearNetworkingHistoryBetween() clears in-memory pref stores and
// invokes the closure passed to it.
TEST_F(NetworkContextTest, ClearHttpServerPropertiesInMemory) {
const url::SchemeHostPort kSchemeHostPort("https", "foo", 443);
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(mojom::NetworkContextParams::New());
EXPECT_FALSE(
network_context->url_request_context()
->http_server_properties()
->GetSupportsSpdy(kSchemeHostPort, net::NetworkIsolationKey()));
network_context->url_request_context()
->http_server_properties()
->SetSupportsSpdy(kSchemeHostPort, net::NetworkIsolationKey(), true);
EXPECT_TRUE(
network_context->url_request_context()
->http_server_properties()
->GetSupportsSpdy(kSchemeHostPort, net::NetworkIsolationKey()));
base::RunLoop run_loop;
network_context->ClearNetworkingHistoryBetween(
base::Time::Now() - base::TimeDelta::FromHours(1), base::Time::Max(),
run_loop.QuitClosure());
run_loop.Run();
EXPECT_FALSE(
network_context->url_request_context()
->http_server_properties()
->GetSupportsSpdy(kSchemeHostPort, net::NetworkIsolationKey()));
}
// Checks that ClearNetworkingHistoryBetween() clears network quality prefs.
TEST_F(NetworkContextTest, ClearingNetworkingHistoryClearNetworkQualityPrefs) {
const url::SchemeHostPort kSchemeHostPort("https", "foo", 443);
net::TestNetworkQualityEstimator estimator;
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(mojom::NetworkContextParams::New());
TestingPrefServiceSimple pref_service_simple;
NetworkQualitiesPrefDelegate::RegisterPrefs(pref_service_simple.registry());
std::unique_ptr<NetworkQualitiesPrefDelegate>
network_qualities_pref_delegate =
std::make_unique<NetworkQualitiesPrefDelegate>(&pref_service_simple,
&estimator);
NetworkQualitiesPrefDelegate* network_qualities_pref_delegate_ptr =
network_qualities_pref_delegate.get();
network_context->set_network_qualities_pref_delegate_for_testing(
std::move(network_qualities_pref_delegate));
// Running the loop allows prefs to be set.
base::RunLoop().RunUntilIdle();
EXPECT_FALSE(
network_qualities_pref_delegate_ptr->ForceReadPrefsForTesting().empty());
// Clear the networking history.
base::RunLoop run_loop;
base::HistogramTester histogram_tester;
network_context->ClearNetworkingHistoryBetween(
base::Time::Now() - base::TimeDelta::FromHours(1), base::Time::Max(),
run_loop.QuitClosure());
run_loop.Run();
// Running the loop should clear the network quality prefs.
base::RunLoop().RunUntilIdle();
// Prefs should be empty now.
EXPECT_TRUE(
network_qualities_pref_delegate_ptr->ForceReadPrefsForTesting().empty());
histogram_tester.ExpectTotalCount("NQE.PrefsSizeOnClearing", 1);
}
// Test that TransportSecurity state is persisted (or not) as expected.
TEST_F(NetworkContextTest, TransportSecurityStatePersisted) {
const char kDomain[] = "foo.test";
base::ScopedTempDir temp_dir;
ASSERT_TRUE(temp_dir.CreateUniqueTempDir());
base::FilePath transport_security_persister_path = temp_dir.GetPath();
base::FilePath transport_security_persister_file_path =
transport_security_persister_path.AppendASCII("TransportSecurity");
EXPECT_FALSE(base::PathExists(transport_security_persister_file_path));
for (bool on_disk : {false, true}) {
// Create a NetworkContext.
mojom::NetworkContextParamsPtr context_params = CreateContextParams();
if (on_disk) {
context_params->transport_security_persister_path =
transport_security_persister_path;
}
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(context_params));
// Add an STS entry.
net::TransportSecurityState::STSState sts_state;
net::TransportSecurityState* state =
network_context->url_request_context()->transport_security_state();
EXPECT_FALSE(state->GetDynamicSTSState(kDomain, &sts_state));
state->AddHSTS(kDomain,
base::Time::Now() + base::TimeDelta::FromSecondsD(1000),
false /* include subdomains */);
EXPECT_TRUE(state->GetDynamicSTSState(kDomain, &sts_state));
ASSERT_EQ(kDomain, sts_state.domain);
// Destroy the network context, and wait for all tasks to write state to
// disk to finish running.
network_context.reset();
task_environment_.RunUntilIdle();
EXPECT_EQ(on_disk,
base::PathExists(transport_security_persister_file_path));
// Create a new NetworkContext,with the same parameters, and check if the
// added STS entry still exists.
context_params = CreateContextParams();
if (on_disk) {
context_params->transport_security_persister_path =
transport_security_persister_path;
}
network_context = CreateContextWithParams(std::move(context_params));
// Wait for the entry to load.
task_environment_.RunUntilIdle();
state = network_context->url_request_context()->transport_security_state();
ASSERT_EQ(on_disk, state->GetDynamicSTSState(kDomain, &sts_state));
if (on_disk)
EXPECT_EQ(kDomain, sts_state.domain);
}
}
// Test that PKP failures are reported if and only if certificate reporting is
// enabled.
TEST_F(NetworkContextTest, CertReporting) {
const char kPreloadedPKPHost[] = "with-report-uri-pkp.preloaded.test";
const char kReportHost[] = "report-uri.preloaded.test";
const char kReportPath[] = "/pkp";
for (bool reporting_enabled : {false, true}) {
// Server that PKP reports are sent to.
net::test_server::EmbeddedTestServer report_test_server;
net::test_server::ControllableHttpResponse controllable_response(
&report_test_server, kReportPath);
ASSERT_TRUE(report_test_server.Start());
// Configure the TransportSecurityStateSource so that kPreloadedPKPHost will
// have static PKP pins set, with a report URI on kReportHost.
net::ScopedTransportSecurityStateSource scoped_security_state_source(
report_test_server.port());
// Configure a test HTTPS server.
net::test_server::EmbeddedTestServer pkp_test_server(
net::test_server::EmbeddedTestServer::TYPE_HTTPS);
pkp_test_server.SetSSLConfig(
net::test_server::EmbeddedTestServer::CERT_COMMON_NAME_IS_DOMAIN);
ASSERT_TRUE(pkp_test_server.Start());
// Configure mock cert verifier to cause the PKP check to fail.
net::CertVerifyResult result;
result.verified_cert = net::CreateCertificateChainFromFile(
net::GetTestCertsDirectory(), "ok_cert.pem",
net::X509Certificate::FORMAT_PEM_CERT_SEQUENCE);
ASSERT_TRUE(result.verified_cert);
net::SHA256HashValue hash = {{0x00, 0x01}};
result.public_key_hashes.push_back(net::HashValue(hash));
result.is_issued_by_known_root = true;
net::MockCertVerifier mock_verifier;
mock_verifier.AddResultForCert(pkp_test_server.GetCertificate(), result,
net::OK);
NetworkContext::SetCertVerifierForTesting(&mock_verifier);
// Configure a MockHostResolver to map requests to kPreloadedPKPHost and
// kReportHost to the test servers:
scoped_refptr<net::RuleBasedHostResolverProc> mock_resolver_proc =
base::MakeRefCounted<net::RuleBasedHostResolverProc>(nullptr);
mock_resolver_proc->AddIPLiteralRule(
kPreloadedPKPHost, pkp_test_server.GetIPLiteralString(), std::string());
mock_resolver_proc->AddIPLiteralRule(
kReportHost, report_test_server.GetIPLiteralString(), std::string());
net::ScopedDefaultHostResolverProc scoped_default_host_resolver(
mock_resolver_proc.get());
mojom::NetworkContextParamsPtr context_params = CreateContextParams();
EXPECT_FALSE(context_params->enable_certificate_reporting);
context_params->enable_certificate_reporting = reporting_enabled;
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(context_params));
// Enable static pins so that requests made to kPreloadedPKPHost will check
// the pins, and send a report if the pinning check fails.
network_context->url_request_context()
->transport_security_state()
->EnableStaticPinsForTesting();
ResourceRequest request;
request.url = pkp_test_server.GetURL(kPreloadedPKPHost, "/");
mojo::Remote<mojom::URLLoaderFactory> loader_factory;
mojom::URLLoaderFactoryParamsPtr params =
mojom::URLLoaderFactoryParams::New();
params->process_id = mojom::kBrowserProcessId;
params->is_corb_enabled = false;
network_context->CreateURLLoaderFactory(
loader_factory.BindNewPipeAndPassReceiver(), std::move(params));
mojo::PendingRemote<mojom::URLLoader> loader;
TestURLLoaderClient client;
loader_factory->CreateLoaderAndStart(
loader.InitWithNewPipeAndPassReceiver(), 0 /* routing_id */,
0 /* request_id */, 0 /* options */, request, client.CreateRemote(),
net::MutableNetworkTrafficAnnotationTag(TRAFFIC_ANNOTATION_FOR_TESTS));
client.RunUntilComplete();
EXPECT_TRUE(client.has_received_completion());
EXPECT_EQ(net::ERR_INSECURE_RESPONSE,
client.completion_status().error_code);
if (reporting_enabled) {
// If reporting is enabled, wait to see the request from the ReportSender.
// Don't respond to the request, effectively making it a hung request.
controllable_response.WaitForRequest();
} else {
// Otherwise, there should be no pending URLRequest.
// |controllable_response| will cause requests to hang, so if there's no
// URLRequest, then either a reporting request was never started. This
// relies on reported being sent immediately for correctness.
network_context->url_request_context()->AssertNoURLRequests();
}
// Destroy the network context. This serves to check the case that reporting
// requests are alive when a NetworkContext is torn down.
network_context.reset();
// Remove global reference to the MockCertVerifier before it falls out of
// scope.
NetworkContext::SetCertVerifierForTesting(nullptr);
}
}
// Test that host resolution error information is available.
TEST_F(NetworkContextTest, HostResolutionFailure) {
std::unique_ptr<net::MockHostResolver> resolver =
std::make_unique<net::MockHostResolver>();
std::unique_ptr<net::TestURLRequestContext> url_request_context =
std::make_unique<net::TestURLRequestContext>(
true /* delay_initialization */);
url_request_context->set_host_resolver(resolver.get());
resolver->rules()->AddSimulatedTimeoutFailure("*");
url_request_context->Init();
network_context_remote_.reset();
std::unique_ptr<NetworkContext> network_context =
std::make_unique<NetworkContext>(
network_service_.get(),
network_context_remote_.BindNewPipeAndPassReceiver(),
url_request_context.get(),
/*cors_exempt_header_list=*/std::vector<std::string>());
mojo::Remote<mojom::URLLoaderFactory> loader_factory;
mojom::URLLoaderFactoryParamsPtr params =
mojom::URLLoaderFactoryParams::New();
params->process_id = mojom::kBrowserProcessId;
params->is_corb_enabled = false;
network_context->CreateURLLoaderFactory(
loader_factory.BindNewPipeAndPassReceiver(), std::move(params));
ResourceRequest request;
request.url = GURL("http://example.test");
mojo::PendingRemote<mojom::URLLoader> loader;
TestURLLoaderClient client;
loader_factory->CreateLoaderAndStart(
loader.InitWithNewPipeAndPassReceiver(), 0 /* routing_id */,
0 /* request_id */, 0 /* options */, request, client.CreateRemote(),
net::MutableNetworkTrafficAnnotationTag(TRAFFIC_ANNOTATION_FOR_TESTS));
client.RunUntilComplete();
EXPECT_TRUE(client.has_received_completion());
EXPECT_EQ(net::ERR_NAME_NOT_RESOLVED, client.completion_status().error_code);
EXPECT_EQ(net::ERR_DNS_TIMED_OUT,
client.completion_status().resolve_error_info.error);
}
// Test the P2PSocketManager::GetHostAddress() works and uses the correct
// NetworkIsolationKey.
TEST_F(NetworkContextTest, P2PHostResolution) {
base::test::ScopedFeatureList feature_list;
feature_list.InitAndEnableFeature(
net::features::kSplitHostCacheByNetworkIsolationKey);
const char kHostname[] = "foo.test.";
net::IPAddress ip_address;
ASSERT_TRUE(ip_address.AssignFromIPLiteral("1.2.3.4"));
net::NetworkIsolationKey network_isolation_key =
net::NetworkIsolationKey::CreateTransient();
net::MockCachingHostResolver host_resolver;
std::unique_ptr<net::TestURLRequestContext> url_request_context =
std::make_unique<net::TestURLRequestContext>(
true /* delay_initialization */);
url_request_context->set_host_resolver(&host_resolver);
host_resolver.rules()->AddRule(kHostname, ip_address.ToString());
url_request_context->Init();
network_context_remote_.reset();
std::unique_ptr<NetworkContext> network_context =
std::make_unique<NetworkContext>(
network_service_.get(),
network_context_remote_.BindNewPipeAndPassReceiver(),
url_request_context.get(),
std::vector<std::string>() /* cors_exempt_header_list */);
MockP2PTrustedSocketManagerClient client;
mojo::Receiver<network::mojom::P2PTrustedSocketManagerClient> receiver(
&client);
mojo::Remote<mojom::P2PTrustedSocketManager> trusted_socket_manager;
mojo::Remote<mojom::P2PSocketManager> socket_manager;
network_context_remote_->CreateP2PSocketManager(
network_isolation_key, receiver.BindNewPipeAndPassRemote(),
trusted_socket_manager.BindNewPipeAndPassReceiver(),
socket_manager.BindNewPipeAndPassReceiver());
base::RunLoop run_loop;
std::vector<net::IPAddress> results;
socket_manager->GetHostAddress(
kHostname, false /* enable_mdns */,
base::BindLambdaForTesting(
[&](const std::vector<net::IPAddress>& addresses) {
EXPECT_EQ(std::vector<net::IPAddress>{ip_address}, addresses);
run_loop.Quit();
}));
run_loop.Run();
// Check that the URL in kHostname is in the HostCache, with
// |network_isolation_key|.
const net::HostPortPair kHostPortPair = net::HostPortPair(kHostname, 0);
net::HostResolver::ResolveHostParameters params;
params.source = net::HostResolverSource::LOCAL_ONLY;
std::unique_ptr<net::HostResolver::ResolveHostRequest> request1 =
host_resolver.CreateRequest(kHostPortPair, network_isolation_key,
net::NetLogWithSource(), params);
net::TestCompletionCallback callback1;
int result = request1->Start(callback1.callback());
EXPECT_EQ(net::OK, callback1.GetResult(result));
// Check that the hostname is not in the DNS cache for other possible NIKs.
const url::Origin kDestinationOrigin =
url::Origin::Create(GURL(base::StringPrintf("https://%s", kHostname)));
const net::NetworkIsolationKey kOtherNiks[] = {
net::NetworkIsolationKey(),
net::NetworkIsolationKey(kDestinationOrigin /* top_frame_origin */,
kDestinationOrigin /* frame_origin */)};
for (const auto& other_nik : kOtherNiks) {
std::unique_ptr<net::HostResolver::ResolveHostRequest> request2 =
host_resolver.CreateRequest(kHostPortPair, other_nik,
net::NetLogWithSource(), params);
net::TestCompletionCallback callback2;
int result = request2->Start(callback2.callback());
EXPECT_EQ(net::ERR_NAME_NOT_RESOLVED, callback2.GetResult(result));
}
}
// Test that valid referrers are allowed, while invalid ones result in errors.
TEST_F(NetworkContextTest, Referrers) {
const GURL kReferrer = GURL("http://referrer/");
net::test_server::EmbeddedTestServer test_server;
test_server.AddDefaultHandlers(
base::FilePath(FILE_PATH_LITERAL("services/test/data")));
ASSERT_TRUE(test_server.Start());
for (bool validate_referrer_policy_on_initial_request : {false, true}) {
for (net::ReferrerPolicy referrer_policy :
{net::ReferrerPolicy::NEVER_CLEAR, net::ReferrerPolicy::NO_REFERRER}) {
mojom::NetworkContextParamsPtr context_params = CreateContextParams();
context_params->validate_referrer_policy_on_initial_request =
validate_referrer_policy_on_initial_request;
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(context_params));
mojo::Remote<mojom::URLLoaderFactory> loader_factory;
mojom::URLLoaderFactoryParamsPtr params =
mojom::URLLoaderFactoryParams::New();
params->process_id = 0;
network_context->CreateURLLoaderFactory(
loader_factory.BindNewPipeAndPassReceiver(), std::move(params));
ResourceRequest request;
request.url = test_server.GetURL("/echoheader?Referer");
request.referrer = kReferrer;
request.referrer_policy = referrer_policy;
mojo::PendingRemote<mojom::URLLoader> loader;
TestURLLoaderClient client;
loader_factory->CreateLoaderAndStart(
loader.InitWithNewPipeAndPassReceiver(), 0 /* routing_id */,
0 /* request_id */, 0 /* options */, request, client.CreateRemote(),
net::MutableNetworkTrafficAnnotationTag(
TRAFFIC_ANNOTATION_FOR_TESTS));
client.RunUntilComplete();
EXPECT_TRUE(client.has_received_completion());
// If validating referrers, and the referrer policy is not to send
// referrers, the request should fail.
if (validate_referrer_policy_on_initial_request &&
referrer_policy == net::ReferrerPolicy::NO_REFERRER) {
EXPECT_EQ(net::ERR_BLOCKED_BY_CLIENT,
client.completion_status().error_code);
EXPECT_FALSE(client.response_body().is_valid());
continue;
}
// Otherwise, the request should succeed.
EXPECT_EQ(net::OK, client.completion_status().error_code);
std::string response_body;
ASSERT_TRUE(client.response_body().is_valid());
EXPECT_TRUE(mojo::BlockingCopyToString(client.response_body_release(),
&response_body));
if (referrer_policy == net::ReferrerPolicy::NO_REFERRER) {
// If not validating referrers, and the referrer policy is not to send
// referrers, the referrer should be cleared.
EXPECT_EQ("None", response_body);
} else {
// Otherwise, the referrer should be send.
EXPECT_EQ(kReferrer.spec(), response_body);
}
}
}
}
// Validates that clearing the HTTP cache when no cache exists does complete.
TEST_F(NetworkContextTest, ClearHttpCacheWithNoCache) {
mojom::NetworkContextParamsPtr context_params = CreateContextParams();
context_params->http_cache_enabled = false;
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(context_params));
net::HttpCache* cache = network_context->url_request_context()
->http_transaction_factory()
->GetCache();
ASSERT_EQ(nullptr, cache);
base::RunLoop run_loop;
network_context->ClearHttpCache(base::Time(), base::Time(),
nullptr /* filter */,
base::BindOnce(run_loop.QuitClosure()));
run_loop.Run();
}
TEST_F(NetworkContextTest, ClearHttpCache) {
mojom::NetworkContextParamsPtr context_params = CreateContextParams();
context_params->http_cache_enabled = true;
base::ScopedTempDir temp_dir;
ASSERT_TRUE(temp_dir.CreateUniqueTempDir());
context_params->http_cache_path = temp_dir.GetPath();
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(context_params));
net::HttpCache* cache = network_context->url_request_context()
->http_transaction_factory()
->GetCache();
std::vector<std::string> entry_urls = {
"http://www.google.com", "https://www.google.com",
"http://www.wikipedia.com", "https://www.wikipedia.com",
"http://localhost:1234", "https://localhost:1234",
};
ASSERT_TRUE(cache);
disk_cache::Backend* backend = nullptr;
net::TestCompletionCallback callback;
int rv = cache->GetBackend(&backend, callback.callback());
EXPECT_EQ(net::OK, callback.GetResult(rv));
ASSERT_TRUE(backend);
for (const auto& url : entry_urls) {
disk_cache::EntryResult result;
base::RunLoop run_loop;
result = backend->CreateEntry(
url, net::HIGHEST,
base::BindLambdaForTesting([&](disk_cache::EntryResult got_result) {
result = std::move(got_result);
run_loop.Quit();
}));
if (result.net_error() == net::ERR_IO_PENDING)
run_loop.Run();
result.ReleaseEntry()->Close();
}
EXPECT_EQ(entry_urls.size(), static_cast<size_t>(backend->GetEntryCount()));
base::RunLoop run_loop;
network_context->ClearHttpCache(base::Time(), base::Time(),
nullptr /* filter */,
base::BindOnce(run_loop.QuitClosure()));
run_loop.Run();
EXPECT_EQ(0U, static_cast<size_t>(backend->GetEntryCount()));
}
// Checks that when multiple calls are made to clear the HTTP cache, all
// callbacks are invoked.
TEST_F(NetworkContextTest, MultipleClearHttpCacheCalls) {
constexpr int kNumberOfClearCalls = 10;
mojom::NetworkContextParamsPtr context_params = CreateContextParams();
context_params->http_cache_enabled = true;
base::ScopedTempDir temp_dir;
ASSERT_TRUE(temp_dir.CreateUniqueTempDir());
context_params->http_cache_path = temp_dir.GetPath();
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(context_params));
base::RunLoop run_loop;
base::RepeatingClosure barrier_closure = base::BarrierClosure(
kNumberOfClearCalls /* num_closures */, run_loop.QuitClosure());
for (int i = 0; i < kNumberOfClearCalls; i++) {
network_context->ClearHttpCache(base::Time(), base::Time(),
nullptr /* filter */,
base::BindOnce(barrier_closure));
}
run_loop.Run();
// If all the callbacks were invoked, we should terminate.
}
TEST_F(NetworkContextTest, NotifyExternalCacheHit) {
base::test::ScopedFeatureList feature_list;
feature_list.InitAndDisableFeature(
net::features::kSplitCacheByNetworkIsolationKey);
net::MockHttpCache mock_cache;
mojom::NetworkContextParamsPtr context_params = CreateContextParams();
context_params->http_cache_enabled = true;
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(context_params));
network_context->url_request_context()->set_http_transaction_factory(
mock_cache.http_cache());
std::vector<std::string> entry_urls = {
"http://www.google.com", "https://www.google.com",
"http://www.wikipedia.com", "https://www.wikipedia.com",
"http://localhost:1234", "https://localhost:1234",
};
// The disk cache is lazily instanitated, force it and ensure it's valid.
ASSERT_TRUE(mock_cache.disk_cache());
EXPECT_EQ(0U, mock_cache.disk_cache()->GetExternalCacheHits().size());
for (size_t i = 0; i < entry_urls.size(); i++) {
GURL test_url(entry_urls[i]);
net::NetworkIsolationKey key;
network_context->NotifyExternalCacheHit(test_url, test_url.scheme(), key);
EXPECT_EQ(i + 1, mock_cache.disk_cache()->GetExternalCacheHits().size());
// Note: if this breaks check HttpCache::GenerateCacheKey() for changes.
EXPECT_EQ(test_url, mock_cache.disk_cache()->GetExternalCacheHits().back());
}
}
TEST_F(NetworkContextTest, NotifyExternalCacheHit_Split) {
base::test::ScopedFeatureList feature_list;
feature_list.InitAndEnableFeature(
net::features::kSplitCacheByNetworkIsolationKey);
url::Origin origin_a = url::Origin::Create(GURL("http://a.com"));
net::MockHttpCache mock_cache;
mojom::NetworkContextParamsPtr context_params = CreateContextParams();
context_params->http_cache_enabled = true;
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(context_params));
network_context->url_request_context()->set_http_transaction_factory(
mock_cache.http_cache());
std::vector<std::string> entry_urls = {
"http://www.google.com", "https://www.google.com",
"http://www.wikipedia.com", "https://www.wikipedia.com",
"http://localhost:1234", "https://localhost:1234",
};
// The disk cache is lazily instanitated, force it and ensure it's valid.
ASSERT_TRUE(mock_cache.disk_cache());
EXPECT_EQ(0U, mock_cache.disk_cache()->GetExternalCacheHits().size());
for (size_t i = 0; i < entry_urls.size(); i++) {
GURL test_url(entry_urls[i]);
net::NetworkIsolationKey key = net::NetworkIsolationKey(origin_a, origin_a);
network_context->NotifyExternalCacheHit(test_url, test_url.scheme(), key);
EXPECT_EQ(i + 1, mock_cache.disk_cache()->GetExternalCacheHits().size());
// Since this is splitting the cache, the key also includes the network
// isolation key.
EXPECT_EQ(base::StrCat({"_dk_", key.ToString(), " ", test_url.spec()}),
mock_cache.disk_cache()->GetExternalCacheHits().back());
}
}
TEST_F(NetworkContextTest, CountHttpCache) {
// Just ensure that a couple of concurrent calls go through, and produce
// the expected "it's empty!" result. More detailed testing is left to
// HttpCacheDataCounter unit tests.
mojom::NetworkContextParamsPtr context_params = CreateContextParams();
context_params->http_cache_enabled = true;
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(context_params));
int responses = 0;
base::RunLoop run_loop;
auto callback =
base::BindLambdaForTesting([&](bool upper_bound, int64_t size_or_error) {
// Don't expect approximation for full range.
EXPECT_EQ(false, upper_bound);
EXPECT_EQ(0, size_or_error);
++responses;
if (responses == 2)
run_loop.Quit();
});
network_context->ComputeHttpCacheSize(base::Time(), base::Time::Max(),
callback);
network_context->ComputeHttpCacheSize(base::Time(), base::Time::Max(),
callback);
run_loop.Run();
}
TEST_F(NetworkContextTest, ClearHostCache) {
// List of domains added to the host cache before running each test case.
const char* kDomains[] = {
"domain0",
"domain1",
"domain2",
"domain3",
};
// Each bit correponds to one of the 4 domains above.
enum Domains {
NO_DOMAINS = 0x0,
DOMAIN0 = 0x1,
DOMAIN1 = 0x2,
DOMAIN2 = 0x4,
DOMAIN3 = 0x8,
};
const struct {
// True if the ClearDataFilter should be a nullptr.
bool null_filter;
mojom::ClearDataFilter::Type type;
// Bit field of Domains that appear in the filter. The origin vector is
// never populated.
int filter_domains;
// Only domains that are expected to remain in the host cache.
int expected_cached_domains;
} kTestCases[] = {
// A null filter should delete everything. The filter type and filter
// domain lists are ignored.
{
true /* null_filter */, mojom::ClearDataFilter::Type::KEEP_MATCHES,
NO_DOMAINS /* filter_domains */,
NO_DOMAINS /* expected_cached_domains */
},
// An empty DELETE_MATCHES filter should delete nothing.
{
false /* null_filter */, mojom::ClearDataFilter::Type::DELETE_MATCHES,
NO_DOMAINS /* filter_domains */,
DOMAIN0 | DOMAIN1 | DOMAIN2 | DOMAIN3 /* expected_cached_domains */
},
// An empty KEEP_MATCHES filter should delete everything.
{
false /* null_filter */, mojom::ClearDataFilter::Type::KEEP_MATCHES,
NO_DOMAINS /* filter_domains */,
NO_DOMAINS /* expected_cached_domains */
},
// Test a non-empty DELETE_MATCHES filter.
{
false /* null_filter */, mojom::ClearDataFilter::Type::DELETE_MATCHES,
DOMAIN0 | DOMAIN2 /* filter_domains */,
DOMAIN1 | DOMAIN3 /* expected_cached_domains */
},
// Test a non-empty KEEP_MATCHES filter.
{
false /* null_filter */, mojom::ClearDataFilter::Type::KEEP_MATCHES,
DOMAIN0 | DOMAIN2 /* filter_domains */,
DOMAIN0 | DOMAIN2 /* expected_cached_domains */
},
};
for (const auto& test_case : kTestCases) {
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
net::HostCache* host_cache =
network_context->url_request_context()->host_resolver()->GetHostCache();
ASSERT_TRUE(host_cache);
// Add the 4 test domains to the host cache.
for (const auto* domain : kDomains) {
host_cache->Set(
net::HostCache::Key(domain, net::DnsQueryType::UNSPECIFIED, 0,
net::HostResolverSource::ANY,
net::NetworkIsolationKey()),
net::HostCache::Entry(net::OK, net::AddressList(),
net::HostCache::Entry::SOURCE_UNKNOWN),
base::TimeTicks::Now(), base::TimeDelta::FromDays(1));
}
// Sanity check.
EXPECT_EQ(base::size(kDomains), host_cache->entries().size());
// Set up and run the filter, according to |test_case|.
mojom::ClearDataFilterPtr clear_data_filter;
if (!test_case.null_filter) {
clear_data_filter = mojom::ClearDataFilter::New();
clear_data_filter->type = test_case.type;
for (size_t i = 0; i < base::size(kDomains); ++i) {
if (test_case.filter_domains & (1 << i))
clear_data_filter->domains.push_back(kDomains[i]);
}
}
base::RunLoop run_loop;
network_context->ClearHostCache(std::move(clear_data_filter),
run_loop.QuitClosure());
run_loop.Run();
// Check that only the expected domains remain in the cache.
for (size_t i = 0; i < base::size(kDomains); ++i) {
bool expect_domain_cached =
((test_case.expected_cached_domains & (1 << i)) != 0);
EXPECT_EQ(
expect_domain_cached,
(host_cache->GetMatchingKey(kDomains[i], nullptr /* source_out */,
nullptr /* stale_out */) != nullptr));
}
}
}
TEST_F(NetworkContextTest, ClearHttpAuthCache) {
GURL origin("http://google.com");
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
net::HttpAuthCache* cache = network_context->url_request_context()
->http_transaction_factory()
->GetSession()
->http_auth_cache();
base::Time start_time;
ASSERT_TRUE(base::Time::FromString("30 May 2018 12:00:00", &start_time));
base::SimpleTestClock test_clock;
test_clock.SetNow(start_time);
cache->set_clock_for_testing(&test_clock);
base::string16 user = base::ASCIIToUTF16("user");
base::string16 password = base::ASCIIToUTF16("pass");
cache->Add(origin, net::HttpAuth::AUTH_SERVER, "Realm1",
net::HttpAuth::AUTH_SCHEME_BASIC, net::NetworkIsolationKey(),
"basic realm=Realm1", net::AuthCredentials(user, password), "/");
test_clock.Advance(base::TimeDelta::FromHours(1)); // Time now 13:00
cache->Add(origin, net::HttpAuth::AUTH_PROXY, "Realm2",
net::HttpAuth::AUTH_SCHEME_BASIC, net::NetworkIsolationKey(),
"basic realm=Realm2", net::AuthCredentials(user, password), "/");
ASSERT_EQ(2u, cache->GetEntriesSizeForTesting());
ASSERT_NE(nullptr, cache->Lookup(origin, net::HttpAuth::AUTH_SERVER, "Realm1",
net::HttpAuth::AUTH_SCHEME_BASIC,
net::NetworkIsolationKey()));
ASSERT_NE(nullptr, cache->Lookup(origin, net::HttpAuth::AUTH_PROXY, "Realm2",
net::HttpAuth::AUTH_SCHEME_BASIC,
net::NetworkIsolationKey()));
{
base::RunLoop run_loop;
base::Time test_time;
ASSERT_TRUE(base::Time::FromString("30 May 2018 12:30:00", &test_time));
network_context->ClearHttpAuthCache(base::Time(), test_time,
run_loop.QuitClosure());
run_loop.Run();
EXPECT_EQ(1u, cache->GetEntriesSizeForTesting());
EXPECT_EQ(nullptr, cache->Lookup(origin, net::HttpAuth::AUTH_SERVER,
"Realm1", net::HttpAuth::AUTH_SCHEME_BASIC,
net::NetworkIsolationKey()));
EXPECT_NE(nullptr, cache->Lookup(origin, net::HttpAuth::AUTH_PROXY,
"Realm2", net::HttpAuth::AUTH_SCHEME_BASIC,
net::NetworkIsolationKey()));
}
{
base::RunLoop run_loop;
base::Time test_time;
ASSERT_TRUE(base::Time::FromString("30 May 2018 12:30:00", &test_time));
network_context->ClearHttpAuthCache(test_time, base::Time::Max(),
run_loop.QuitClosure());
run_loop.Run();
EXPECT_EQ(0u, cache->GetEntriesSizeForTesting());
EXPECT_EQ(nullptr, cache->Lookup(origin, net::HttpAuth::AUTH_SERVER,
"Realm1", net::HttpAuth::AUTH_SCHEME_BASIC,
net::NetworkIsolationKey()));
EXPECT_EQ(nullptr, cache->Lookup(origin, net::HttpAuth::AUTH_PROXY,
"Realm2", net::HttpAuth::AUTH_SCHEME_BASIC,
net::NetworkIsolationKey()));
}
}
TEST_F(NetworkContextTest, ClearAllHttpAuthCache) {
GURL origin("http://google.com");
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
net::HttpAuthCache* cache = network_context->url_request_context()
->http_transaction_factory()
->GetSession()
->http_auth_cache();
base::Time start_time;
ASSERT_TRUE(base::Time::FromString("30 May 2018 12:00:00", &start_time));
base::SimpleTestClock test_clock;
test_clock.SetNow(start_time);
cache->set_clock_for_testing(&test_clock);
base::string16 user = base::ASCIIToUTF16("user");
base::string16 password = base::ASCIIToUTF16("pass");
cache->Add(origin, net::HttpAuth::AUTH_SERVER, "Realm1",
net::HttpAuth::AUTH_SCHEME_BASIC, net::NetworkIsolationKey(),
"basic realm=Realm1", net::AuthCredentials(user, password), "/");
test_clock.Advance(base::TimeDelta::FromHours(1)); // Time now 13:00
cache->Add(origin, net::HttpAuth::AUTH_PROXY, "Realm2",
net::HttpAuth::AUTH_SCHEME_BASIC, net::NetworkIsolationKey(),
"basic realm=Realm2", net::AuthCredentials(user, password), "/");
ASSERT_EQ(2u, cache->GetEntriesSizeForTesting());
ASSERT_NE(nullptr, cache->Lookup(origin, net::HttpAuth::AUTH_SERVER, "Realm1",
net::HttpAuth::AUTH_SCHEME_BASIC,
net::NetworkIsolationKey()));
ASSERT_NE(nullptr, cache->Lookup(origin, net::HttpAuth::AUTH_PROXY, "Realm2",
net::HttpAuth::AUTH_SCHEME_BASIC,
net::NetworkIsolationKey()));
base::RunLoop run_loop;
network_context->ClearHttpAuthCache(base::Time(), base::Time::Max(),
run_loop.QuitClosure());
run_loop.Run();
EXPECT_EQ(0u, cache->GetEntriesSizeForTesting());
EXPECT_EQ(nullptr, cache->Lookup(origin, net::HttpAuth::AUTH_SERVER, "Realm1",
net::HttpAuth::AUTH_SCHEME_BASIC,
net::NetworkIsolationKey()));
EXPECT_EQ(nullptr, cache->Lookup(origin, net::HttpAuth::AUTH_PROXY, "Realm2",
net::HttpAuth::AUTH_SCHEME_BASIC,
net::NetworkIsolationKey()));
}
TEST_F(NetworkContextTest, ClearEmptyHttpAuthCache) {
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
net::HttpAuthCache* cache = network_context->url_request_context()
->http_transaction_factory()
->GetSession()
->http_auth_cache();
ASSERT_EQ(0u, cache->GetEntriesSizeForTesting());
base::RunLoop run_loop;
network_context->ClearHttpAuthCache(base::Time::UnixEpoch(),
base::Time::Max(),
base::BindOnce(run_loop.QuitClosure()));
run_loop.Run();
EXPECT_EQ(0u, cache->GetEntriesSizeForTesting());
}
base::Optional<net::AuthCredentials> GetAuthCredentials(
NetworkContext* network_context,
const GURL& origin,
const net::NetworkIsolationKey& network_isolation_key) {
base::RunLoop run_loop;
base::Optional<net::AuthCredentials> result;
network_context->LookupServerBasicAuthCredentials(
origin, network_isolation_key,
base::BindLambdaForTesting(
[&](const base::Optional<net::AuthCredentials>& credentials) {
result = credentials;
run_loop.Quit();
}));
run_loop.Run();
return result;
}
TEST_F(NetworkContextTest, LookupServerBasicAuthCredentials) {
GURL origin("http://foo.test");
GURL origin2("http://bar.test");
GURL origin3("http://baz.test");
net::NetworkIsolationKey network_isolation_key1(url::Origin::Create(origin),
url::Origin::Create(origin));
net::NetworkIsolationKey network_isolation_key2(url::Origin::Create(origin2),
url::Origin::Create(origin2));
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
network_context->SetSplitAuthCacheByNetworkIsolationKey(true);
net::HttpAuthCache* cache = network_context->url_request_context()
->http_transaction_factory()
->GetSession()
->http_auth_cache();
base::string16 user = base::ASCIIToUTF16("user");
base::string16 password = base::ASCIIToUTF16("pass");
cache->Add(origin, net::HttpAuth::AUTH_SERVER, "Realm",
net::HttpAuth::AUTH_SCHEME_BASIC, network_isolation_key1,
"basic realm=Realm", net::AuthCredentials(user, password), "/");
cache->Add(origin2, net::HttpAuth::AUTH_PROXY, "Realm",
net::HttpAuth::AUTH_SCHEME_BASIC, network_isolation_key1,
"basic realm=Realm", net::AuthCredentials(user, password), "/");
base::Optional<net::AuthCredentials> result =
GetAuthCredentials(network_context.get(), origin, network_isolation_key1);
ASSERT_TRUE(result.has_value());
EXPECT_EQ(user, result->username());
EXPECT_EQ(password, result->password());
// Nothing should be returned when using a different NIK.
EXPECT_FALSE(
GetAuthCredentials(network_context.get(), origin, network_isolation_key2)
.has_value());
// Proxy credentials should not be returned
result = GetAuthCredentials(network_context.get(), origin2,
network_isolation_key1);
EXPECT_FALSE(result.has_value());
}
#if BUILDFLAG(IS_ASH)
base::Optional<net::AuthCredentials> GetProxyAuthCredentials(
NetworkContext* network_context,
const net::ProxyServer& proxy_server,
const std::string& scheme,
const std::string& realm) {
base::RunLoop run_loop;
base::Optional<net::AuthCredentials> result;
network_context->LookupProxyAuthCredentials(
proxy_server, scheme, realm,
base::BindLambdaForTesting(
[&](const base::Optional<net::AuthCredentials>& credentials) {
result = credentials;
run_loop.Quit();
}));
run_loop.Run();
return result;
}
TEST_F(NetworkContextTest, LookupProxyAuthCredentials) {
GURL http_proxy("http://bar.test:1080");
GURL https_proxy("https://bar.test:443");
GURL http_proxy2("http://bar.test:443");
GURL foo_proxy("foo://bar.test:1080");
GURL server_origin("http://foo.test:3128");
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
network_context->SetSplitAuthCacheByNetworkIsolationKey(true);
net::HttpAuthCache* cache = network_context->url_request_context()
->http_transaction_factory()
->GetSession()
->http_auth_cache();
base::string16 user = base::ASCIIToUTF16("user");
base::string16 password = base::ASCIIToUTF16("pass");
cache->Add(http_proxy, net::HttpAuth::AUTH_PROXY, "Realm",
net::HttpAuth::AUTH_SCHEME_BASIC, net::NetworkIsolationKey(),
"basic realm=Realm", net::AuthCredentials(user, password),
/* path = */ "");
cache->Add(https_proxy, net::HttpAuth::AUTH_PROXY, "Realm",
net::HttpAuth::AUTH_SCHEME_BASIC, net::NetworkIsolationKey(),
"basic realm=Realm", net::AuthCredentials(user, password),
/* path = */ "");
cache->Add(server_origin, net::HttpAuth::AUTH_SERVER, "Realm",
net::HttpAuth::AUTH_SCHEME_BASIC, net::NetworkIsolationKey(),
"basic realm=Realm", net::AuthCredentials(user, password),
/* path = */ "/");
base::Optional<net::AuthCredentials> result = GetProxyAuthCredentials(
network_context.get(),
net::ProxyServer(net::ProxyServer::Scheme::SCHEME_HTTP,
net::HostPortPair::FromURL(http_proxy)),
"bAsIc", "Realm");
ASSERT_TRUE(result.has_value());
EXPECT_EQ(user, result->username());
EXPECT_EQ(password, result->password());
result = GetProxyAuthCredentials(
network_context.get(),
net::ProxyServer(net::ProxyServer::Scheme::SCHEME_HTTPS,
net::HostPortPair::FromURL(https_proxy)),
"bAsIc", "Realm");
ASSERT_TRUE(result.has_value());
EXPECT_EQ(user, result->username());
EXPECT_EQ(password, result->password());
// Check that the proxy scheme is taken into account when looking for
// credentials
result = GetProxyAuthCredentials(
network_context.get(),
net::ProxyServer(net::ProxyServer::Scheme::SCHEME_HTTP,
net::HostPortPair::FromURL(http_proxy2)),
"basic", "Realm");
EXPECT_FALSE(result.has_value());
// Check that the proxy authentication method is taken into account when
// looking for credentials
result = GetProxyAuthCredentials(
network_context.get(),
net::ProxyServer(net::ProxyServer::Scheme::SCHEME_HTTP,
net::HostPortPair::FromURL(http_proxy)),
"digest", "Realm");
EXPECT_FALSE(result.has_value());
// Check that the realm is taken into account when looking for credentials
result = GetProxyAuthCredentials(
network_context.get(),
net::ProxyServer(net::ProxyServer::Scheme::SCHEME_HTTP,
net::HostPortPair::FromURL(http_proxy)),
"basic", "Realm 2");
EXPECT_FALSE(result.has_value());
// All non-https proxies are cached as "http://" proxies
result = GetProxyAuthCredentials(
network_context.get(),
net::ProxyServer(net::ProxyServer::Scheme::SCHEME_HTTP,
net::HostPortPair::FromURL(foo_proxy)),
"basic", "Realm");
EXPECT_FALSE(result.has_value());
// Server credentials should not be returned
result = GetProxyAuthCredentials(
network_context.get(),
net::ProxyServer(net::ProxyServer::Scheme::SCHEME_HTTP,
net::HostPortPair::FromURL(server_origin)),
"basic", "Realm");
EXPECT_FALSE(result.has_value());
}
#endif
#if BUILDFLAG(ENABLE_REPORTING)
TEST_F(NetworkContextTest, ClearReportingCacheReports) {
auto reporting_context = std::make_unique<net::TestReportingContext>(
base::DefaultClock::GetInstance(), base::DefaultTickClock::GetInstance(),
net::ReportingPolicy());
net::ReportingCache* reporting_cache = reporting_context->cache();
std::unique_ptr<net::ReportingService> reporting_service =
net::ReportingService::CreateForTesting(std::move(reporting_context));
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
network_context->url_request_context()->set_reporting_service(
reporting_service.get());
GURL domain("http://google.com");
reporting_service->QueueReport(domain, net::NetworkIsolationKey(),
"Mozilla/1.0", "group", "type", nullptr, 0);
std::vector<const net::ReportingReport*> reports;
reporting_cache->GetReports(&reports);
ASSERT_EQ(1u, reports.size());
base::RunLoop run_loop;
network_context->ClearReportingCacheReports(nullptr /* filter */,
run_loop.QuitClosure());
run_loop.Run();
reporting_cache->GetReports(&reports);
EXPECT_EQ(0u, reports.size());
}
TEST_F(NetworkContextTest, ClearReportingCacheReportsWithFilter) {
auto reporting_context = std::make_unique<net::TestReportingContext>(
base::DefaultClock::GetInstance(), base::DefaultTickClock::GetInstance(),
net::ReportingPolicy());
net::ReportingCache* reporting_cache = reporting_context->cache();
std::unique_ptr<net::ReportingService> reporting_service =
net::ReportingService::CreateForTesting(std::move(reporting_context));
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
network_context->url_request_context()->set_reporting_service(
reporting_service.get());
GURL url1("http://google.com");
reporting_service->QueueReport(url1, net::NetworkIsolationKey(),
"Mozilla/1.0", "group", "type", nullptr, 0);
GURL url2("http://chromium.org");
reporting_service->QueueReport(url2, net::NetworkIsolationKey(),
"Mozilla/1.0", "group", "type", nullptr, 0);
std::vector<const net::ReportingReport*> reports;
reporting_cache->GetReports(&reports);
ASSERT_EQ(2u, reports.size());
mojom::ClearDataFilterPtr filter = mojom::ClearDataFilter::New();
filter->type = mojom::ClearDataFilter_Type::KEEP_MATCHES;
filter->domains.push_back("chromium.org");
base::RunLoop run_loop;
network_context->ClearReportingCacheReports(std::move(filter),
run_loop.QuitClosure());
run_loop.Run();
reporting_cache->GetReports(&reports);
EXPECT_EQ(1u, reports.size());
EXPECT_EQ(url2, reports.front()->url);
}
TEST_F(NetworkContextTest,
ClearReportingCacheReportsWithNonRegisterableFilter) {
auto reporting_context = std::make_unique<net::TestReportingContext>(
base::DefaultClock::GetInstance(), base::DefaultTickClock::GetInstance(),
net::ReportingPolicy());
net::ReportingCache* reporting_cache = reporting_context->cache();
std::unique_ptr<net::ReportingService> reporting_service =
net::ReportingService::CreateForTesting(std::move(reporting_context));
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
network_context->url_request_context()->set_reporting_service(
reporting_service.get());
GURL url1("http://192.168.0.1");
reporting_service->QueueReport(url1, net::NetworkIsolationKey(),
"Mozilla/1.0", "group", "type", nullptr, 0);
GURL url2("http://192.168.0.2");
reporting_service->QueueReport(url2, net::NetworkIsolationKey(),
"Mozilla/1.0", "group", "type", nullptr, 0);
std::vector<const net::ReportingReport*> reports;
reporting_cache->GetReports(&reports);
ASSERT_EQ(2u, reports.size());
mojom::ClearDataFilterPtr filter = mojom::ClearDataFilter::New();
filter->type = mojom::ClearDataFilter_Type::KEEP_MATCHES;
filter->domains.push_back("192.168.0.2");
base::RunLoop run_loop;
network_context->ClearReportingCacheReports(std::move(filter),
run_loop.QuitClosure());
run_loop.Run();
reporting_cache->GetReports(&reports);
EXPECT_EQ(1u, reports.size());
EXPECT_EQ(url2, reports.front()->url);
}
TEST_F(NetworkContextTest, ClearEmptyReportingCacheReports) {
auto reporting_context = std::make_unique<net::TestReportingContext>(
base::DefaultClock::GetInstance(), base::DefaultTickClock::GetInstance(),
net::ReportingPolicy());
net::ReportingCache* reporting_cache = reporting_context->cache();
std::unique_ptr<net::ReportingService> reporting_service =
net::ReportingService::CreateForTesting(std::move(reporting_context));
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
network_context->url_request_context()->set_reporting_service(
reporting_service.get());
std::vector<const net::ReportingReport*> reports;
reporting_cache->GetReports(&reports);
ASSERT_TRUE(reports.empty());
base::RunLoop run_loop;
network_context->ClearReportingCacheReports(nullptr /* filter */,
run_loop.QuitClosure());
run_loop.Run();
reporting_cache->GetReports(&reports);
EXPECT_TRUE(reports.empty());
}
TEST_F(NetworkContextTest, ClearReportingCacheReportsWithNoService) {
base::test::ScopedFeatureList scoped_feature_list_;
scoped_feature_list_.InitAndDisableFeature(features::kReporting);
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
ASSERT_EQ(nullptr,
network_context->url_request_context()->reporting_service());
base::RunLoop run_loop;
network_context->ClearReportingCacheReports(nullptr /* filter */,
run_loop.QuitClosure());
run_loop.Run();
}
TEST_F(NetworkContextTest, ClearReportingCacheClients) {
auto reporting_context = std::make_unique<net::TestReportingContext>(
base::DefaultClock::GetInstance(), base::DefaultTickClock::GetInstance(),
net::ReportingPolicy());
net::ReportingCache* reporting_cache = reporting_context->cache();
std::unique_ptr<net::ReportingService> reporting_service =
net::ReportingService::CreateForTesting(std::move(reporting_context));
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
network_context->url_request_context()->set_reporting_service(
reporting_service.get());
GURL domain("https://google.com");
net::ReportingEndpointGroupKey group_key(
net::NetworkIsolationKey(), url::Origin::Create(domain), "group");
reporting_cache->SetEndpointForTesting(
group_key, domain, net::OriginSubdomains::DEFAULT, base::Time::Max(),
1 /* priority */, 1 /* weight */);
ASSERT_EQ(1u, reporting_cache->GetEndpointCount());
base::RunLoop run_loop;
network_context->ClearReportingCacheClients(nullptr /* filter */,
run_loop.QuitClosure());
run_loop.Run();
EXPECT_EQ(0u, reporting_cache->GetEndpointCount());
}
TEST_F(NetworkContextTest, ClearReportingCacheClientsWithFilter) {
auto reporting_context = std::make_unique<net::TestReportingContext>(
base::DefaultClock::GetInstance(), base::DefaultTickClock::GetInstance(),
net::ReportingPolicy());
net::ReportingCache* reporting_cache = reporting_context->cache();
std::unique_ptr<net::ReportingService> reporting_service =
net::ReportingService::CreateForTesting(std::move(reporting_context));
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
network_context->url_request_context()->set_reporting_service(
reporting_service.get());
GURL domain1("https://google.com");
net::ReportingEndpointGroupKey group_key1(
net::NetworkIsolationKey(), url::Origin::Create(domain1), "group");
reporting_cache->SetEndpointForTesting(
group_key1, domain1, net::OriginSubdomains::DEFAULT, base::Time::Max(),
1 /* priority */, 1 /* weight */);
GURL domain2("https://chromium.org");
net::ReportingEndpointGroupKey group_key2(
net::NetworkIsolationKey(), url::Origin::Create(domain2), "group");
reporting_cache->SetEndpointForTesting(
group_key2, domain2, net::OriginSubdomains::DEFAULT, base::Time::Max(),
1 /* priority */, 1 /* weight */);
ASSERT_EQ(2u, reporting_cache->GetEndpointCount());
mojom::ClearDataFilterPtr filter = mojom::ClearDataFilter::New();
filter->type = mojom::ClearDataFilter_Type::KEEP_MATCHES;
filter->domains.push_back("chromium.org");
base::RunLoop run_loop;
network_context->ClearReportingCacheClients(std::move(filter),
run_loop.QuitClosure());
run_loop.Run();
EXPECT_EQ(1u, reporting_cache->GetEndpointCount());
EXPECT_TRUE(reporting_cache->GetEndpointForTesting(group_key2, domain2));
EXPECT_FALSE(reporting_cache->GetEndpointForTesting(group_key1, domain1));
}
TEST_F(NetworkContextTest, ClearEmptyReportingCacheClients) {
auto reporting_context = std::make_unique<net::TestReportingContext>(
base::DefaultClock::GetInstance(), base::DefaultTickClock::GetInstance(),
net::ReportingPolicy());
net::ReportingCache* reporting_cache = reporting_context->cache();
std::unique_ptr<net::ReportingService> reporting_service =
net::ReportingService::CreateForTesting(std::move(reporting_context));
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
network_context->url_request_context()->set_reporting_service(
reporting_service.get());
ASSERT_EQ(0u, reporting_cache->GetEndpointCount());
base::RunLoop run_loop;
network_context->ClearReportingCacheClients(nullptr /* filter */,
run_loop.QuitClosure());
run_loop.Run();
ASSERT_EQ(0u, reporting_cache->GetEndpointCount());
}
TEST_F(NetworkContextTest, ClearReportingCacheClientsWithNoService) {
base::test::ScopedFeatureList scoped_feature_list_;
scoped_feature_list_.InitAndDisableFeature(features::kReporting);
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
ASSERT_EQ(nullptr,
network_context->url_request_context()->reporting_service());
base::RunLoop run_loop;
network_context->ClearReportingCacheClients(nullptr /* filter */,
run_loop.QuitClosure());
run_loop.Run();
}
TEST_F(NetworkContextTest, ClearNetworkErrorLogging) {
base::test::ScopedFeatureList scoped_feature_list_;
scoped_feature_list_.InitAndEnableFeature(features::kNetworkErrorLogging);
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
net::NetworkErrorLoggingService* logging_service =
network_context->url_request_context()->network_error_logging_service();
ASSERT_TRUE(logging_service);
GURL domain("https://google.com");
logging_service->OnHeader(net::NetworkIsolationKey(),
url::Origin::Create(domain),
net::IPAddress(192, 168, 0, 1),
"{\"report_to\":\"group\",\"max_age\":86400}");
ASSERT_EQ(1u, logging_service->GetPolicyKeysForTesting().size());
base::RunLoop run_loop;
network_context->ClearNetworkErrorLogging(nullptr /* filter */,
run_loop.QuitClosure());
run_loop.Run();
EXPECT_TRUE(logging_service->GetPolicyKeysForTesting().empty());
}
TEST_F(NetworkContextTest, ClearNetworkErrorLoggingWithFilter) {
base::test::ScopedFeatureList scoped_feature_list_;
scoped_feature_list_.InitAndEnableFeature(features::kNetworkErrorLogging);
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
net::NetworkErrorLoggingService* logging_service =
network_context->url_request_context()->network_error_logging_service();
ASSERT_TRUE(logging_service);
GURL domain1("https://google.com");
logging_service->OnHeader(net::NetworkIsolationKey(),
url::Origin::Create(domain1),
net::IPAddress(192, 168, 0, 1),
"{\"report_to\":\"group\",\"max_age\":86400}");
GURL domain2("https://chromium.org");
logging_service->OnHeader(net::NetworkIsolationKey(),
url::Origin::Create(domain2),
net::IPAddress(192, 168, 0, 1),
"{\"report_to\":\"group\",\"max_age\":86400}");
ASSERT_EQ(2u, logging_service->GetPolicyKeysForTesting().size());
mojom::ClearDataFilterPtr filter = mojom::ClearDataFilter::New();
filter->type = mojom::ClearDataFilter_Type::KEEP_MATCHES;
filter->domains.push_back("chromium.org");
base::RunLoop run_loop;
network_context->ClearNetworkErrorLogging(std::move(filter),
run_loop.QuitClosure());
run_loop.Run();
std::set<net::NetworkErrorLoggingService::NelPolicyKey> policy_keys =
logging_service->GetPolicyKeysForTesting();
EXPECT_EQ(1u, policy_keys.size());
EXPECT_THAT(
policy_keys,
testing::ElementsAre(net::NetworkErrorLoggingService::NelPolicyKey(
net::NetworkIsolationKey(), url::Origin::Create(domain2))));
}
TEST_F(NetworkContextTest, ClearEmptyNetworkErrorLogging) {
base::test::ScopedFeatureList scoped_feature_list_;
scoped_feature_list_.InitAndEnableFeature(features::kNetworkErrorLogging);
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
net::NetworkErrorLoggingService* logging_service =
network_context->url_request_context()->network_error_logging_service();
ASSERT_TRUE(logging_service);
ASSERT_TRUE(logging_service->GetPolicyKeysForTesting().empty());
base::RunLoop run_loop;
network_context->ClearNetworkErrorLogging(nullptr /* filter */,
run_loop.QuitClosure());
run_loop.Run();
EXPECT_TRUE(logging_service->GetPolicyKeysForTesting().empty());
}
TEST_F(NetworkContextTest, ClearEmptyNetworkErrorLoggingWithNoService) {
base::test::ScopedFeatureList scoped_feature_list_;
scoped_feature_list_.InitAndDisableFeature(features::kNetworkErrorLogging);
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
ASSERT_FALSE(
network_context->url_request_context()->network_error_logging_service());
base::RunLoop run_loop;
network_context->ClearNetworkErrorLogging(nullptr /* filter */,
run_loop.QuitClosure());
run_loop.Run();
}
#endif // BUILDFLAG(ENABLE_REPORTING)
void SetCookieCallback(base::RunLoop* run_loop,
bool* result_out,
net::CookieAccessResult result) {
*result_out = result.status.IsInclude();
run_loop->Quit();
}
void GetCookieListCallback(
base::RunLoop* run_loop,
net::CookieList* result_out,
const net::CookieAccessResultList& result,
const net::CookieAccessResultList& excluded_cookies) {
*result_out = net::cookie_util::StripAccessResults(result);
run_loop->Quit();
}
bool SetCookieHelper(NetworkContext* network_context,
const GURL& url,
const std::string& key,
const std::string& value) {
mojo::Remote<mojom::CookieManager> cookie_manager;
network_context->GetCookieManager(
cookie_manager.BindNewPipeAndPassReceiver());
base::RunLoop run_loop;
bool result = false;
cookie_manager->SetCanonicalCookie(
net::CanonicalCookie(key, value, url.host(), "/", base::Time(),
base::Time(), base::Time(), true, false,
net::CookieSameSite::NO_RESTRICTION,
net::COOKIE_PRIORITY_LOW, false),
url, net::CookieOptions::MakeAllInclusive(),
base::BindOnce(&SetCookieCallback, &run_loop, &result));
run_loop.Run();
return result;
}
TEST_F(NetworkContextTest, CookieManager) {
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(mojom::NetworkContextParams::New());
mojo::Remote<mojom::CookieManager> cookie_manager_remote;
network_context->GetCookieManager(
cookie_manager_remote.BindNewPipeAndPassReceiver());
// Set a cookie through the cookie interface.
base::RunLoop run_loop1;
bool result = false;
net::CanonicalCookie cookie("TestCookie", "1", "www.test.com", "/",
base::Time(), base::Time(), base::Time(), false,
false, net::CookieSameSite::LAX_MODE,
net::COOKIE_PRIORITY_LOW, false);
cookie_manager_remote->SetCanonicalCookie(
cookie, net::cookie_util::SimulatedCookieSource(cookie, "https"),
net::CookieOptions::MakeAllInclusive(),
base::BindOnce(&SetCookieCallback, &run_loop1, &result));
run_loop1.Run();
EXPECT_TRUE(result);
// Confirm that cookie is visible directly through the store associated with
// the network context.
base::RunLoop run_loop2;
net::CookieList cookies;
network_context->url_request_context()
->cookie_store()
->GetCookieListWithOptionsAsync(
GURL("http://www.test.com/whatever"),
net::CookieOptions::MakeAllInclusive(),
base::BindOnce(&GetCookieListCallback, &run_loop2, &cookies));
run_loop2.Run();
ASSERT_EQ(1u, cookies.size());
EXPECT_EQ("TestCookie", cookies[0].Name());
}
TEST_F(NetworkContextTest, ProxyConfig) {
// Each ProxyConfigSet consists of a net::ProxyConfig, and the net::ProxyInfos
// that it will result in for http and ftp URLs. All that matters is that each
// ProxyConfig is different. It's important that none of these configs require
// fetching a PAC scripts, as this test checks
// ConfiguredProxyResolutionService::config(), which is only updated after
// fetching PAC scripts (if applicable).
struct ProxyConfigSet {
net::ProxyConfig proxy_config;
net::ProxyInfo http_proxy_info;
net::ProxyInfo ftp_proxy_info;
} proxy_config_sets[3];
proxy_config_sets[0].proxy_config.proxy_rules().ParseFromString(
"http=foopy:80");
proxy_config_sets[0].http_proxy_info.UsePacString("PROXY foopy:80");
proxy_config_sets[0].ftp_proxy_info.UseDirect();
proxy_config_sets[1].proxy_config.proxy_rules().ParseFromString(
"http=foopy:80;ftp=foopy2");
proxy_config_sets[1].http_proxy_info.UsePacString("PROXY foopy:80");
proxy_config_sets[1].ftp_proxy_info.UsePacString("PROXY foopy2");
proxy_config_sets[2].proxy_config = net::ProxyConfig::CreateDirect();
proxy_config_sets[2].http_proxy_info.UseDirect();
proxy_config_sets[2].ftp_proxy_info.UseDirect();
// Sanity check.
EXPECT_FALSE(proxy_config_sets[0].proxy_config.Equals(
proxy_config_sets[1].proxy_config));
EXPECT_FALSE(proxy_config_sets[0].proxy_config.Equals(
proxy_config_sets[2].proxy_config));
EXPECT_FALSE(proxy_config_sets[1].proxy_config.Equals(
proxy_config_sets[2].proxy_config));
// Try each proxy config as the initial config, to make sure setting the
// initial config works.
for (const auto& initial_proxy_config_set : proxy_config_sets) {
mojom::NetworkContextParamsPtr context_params = CreateContextParams();
context_params->initial_proxy_config = net::ProxyConfigWithAnnotation(
initial_proxy_config_set.proxy_config, TRAFFIC_ANNOTATION_FOR_TESTS);
mojo::Remote<mojom::ProxyConfigClient> config_client;
context_params->proxy_config_client_receiver =
config_client.BindNewPipeAndPassReceiver();
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(context_params));
net::ConfiguredProxyResolutionService* proxy_resolution_service = nullptr;
ASSERT_TRUE(network_context->url_request_context()
->proxy_resolution_service()
->CastToConfiguredProxyResolutionService(
&proxy_resolution_service));
// Need to do proxy resolutions before can check the ProxyConfig, as the
// ProxyService doesn't start updating its config until it's first used.
// This also gives some test coverage of LookUpProxyForURL.
TestProxyLookupClient http_proxy_lookup_client;
http_proxy_lookup_client.StartLookUpProxyForURL(
GURL("http://foo"), net::NetworkIsolationKey(), network_context.get());
http_proxy_lookup_client.WaitForResult();
ASSERT_TRUE(http_proxy_lookup_client.proxy_info());
EXPECT_EQ(initial_proxy_config_set.http_proxy_info.ToPacString(),
http_proxy_lookup_client.proxy_info()->ToPacString());
TestProxyLookupClient ftp_proxy_lookup_client;
ftp_proxy_lookup_client.StartLookUpProxyForURL(
GURL("ftp://foo"), net::NetworkIsolationKey(), network_context.get());
ftp_proxy_lookup_client.WaitForResult();
ASSERT_TRUE(ftp_proxy_lookup_client.proxy_info());
EXPECT_EQ(initial_proxy_config_set.ftp_proxy_info.ToPacString(),
ftp_proxy_lookup_client.proxy_info()->ToPacString());
EXPECT_TRUE(proxy_resolution_service->config());
EXPECT_TRUE(proxy_resolution_service->config()->value().Equals(
initial_proxy_config_set.proxy_config));
// Always go through the other configs in the same order. This has the
// advantage of testing the case where there's no change, for
// proxy_config[0].
for (const auto& proxy_config_set : proxy_config_sets) {
config_client->OnProxyConfigUpdated(net::ProxyConfigWithAnnotation(
proxy_config_set.proxy_config, TRAFFIC_ANNOTATION_FOR_TESTS));
task_environment_.RunUntilIdle();
TestProxyLookupClient http_proxy_lookup_client2;
http_proxy_lookup_client2.StartLookUpProxyForURL(
GURL("http://foo"), net::NetworkIsolationKey(),
network_context.get());
http_proxy_lookup_client2.WaitForResult();
ASSERT_TRUE(http_proxy_lookup_client2.proxy_info());
EXPECT_EQ(proxy_config_set.http_proxy_info.ToPacString(),
http_proxy_lookup_client2.proxy_info()->ToPacString());
TestProxyLookupClient ftp_proxy_lookup_client2;
ftp_proxy_lookup_client2.StartLookUpProxyForURL(
GURL("ftp://foo"), net::NetworkIsolationKey(), network_context.get());
ftp_proxy_lookup_client2.WaitForResult();
ASSERT_TRUE(ftp_proxy_lookup_client2.proxy_info());
EXPECT_EQ(proxy_config_set.ftp_proxy_info.ToPacString(),
ftp_proxy_lookup_client2.proxy_info()->ToPacString());
EXPECT_TRUE(proxy_resolution_service->config());
EXPECT_TRUE(proxy_resolution_service->config()->value().Equals(
proxy_config_set.proxy_config));
}
}
}
// Verify that a proxy config works without a ProxyConfigClient PendingReceiver.
TEST_F(NetworkContextTest, StaticProxyConfig) {
net::ProxyConfig proxy_config;
proxy_config.proxy_rules().ParseFromString("http=foopy:80;ftp=foopy2");
mojom::NetworkContextParamsPtr context_params = CreateContextParams();
context_params->initial_proxy_config = net::ProxyConfigWithAnnotation(
proxy_config, TRAFFIC_ANNOTATION_FOR_TESTS);
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(context_params));
net::ConfiguredProxyResolutionService* proxy_resolution_service = nullptr;
ASSERT_TRUE(
network_context->url_request_context()
->proxy_resolution_service()
->CastToConfiguredProxyResolutionService(&proxy_resolution_service));
// Kick the ConfiguredProxyResolutionService into action, as it doesn't start
// updating its config until it's first used.
proxy_resolution_service->ForceReloadProxyConfig();
EXPECT_TRUE(proxy_resolution_service->config());
EXPECT_TRUE(proxy_resolution_service->config()->value().Equals(proxy_config));
}
TEST_F(NetworkContextTest, NoInitialProxyConfig) {
mojom::NetworkContextParamsPtr context_params = CreateContextParams();
context_params->initial_proxy_config.reset();
mojo::Remote<mojom::ProxyConfigClient> config_client;
context_params->proxy_config_client_receiver =
config_client.BindNewPipeAndPassReceiver();
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(context_params));
net::ConfiguredProxyResolutionService* proxy_resolution_service = nullptr;
ASSERT_TRUE(
network_context->url_request_context()
->proxy_resolution_service()
->CastToConfiguredProxyResolutionService(&proxy_resolution_service));
EXPECT_FALSE(proxy_resolution_service->config());
EXPECT_FALSE(proxy_resolution_service->fetched_config());
// Before there's a proxy configuration, proxy requests should hang.
// Create two lookups, to make sure two simultaneous lookups can be handled at
// once.
TestProxyLookupClient http_proxy_lookup_client;
http_proxy_lookup_client.StartLookUpProxyForURL(
GURL("http://foo/"), net::NetworkIsolationKey(), network_context.get());
TestProxyLookupClient ftp_proxy_lookup_client;
ftp_proxy_lookup_client.StartLookUpProxyForURL(
GURL("ftp://foo/"), net::NetworkIsolationKey(), network_context.get());
task_environment_.RunUntilIdle();
EXPECT_FALSE(proxy_resolution_service->config());
EXPECT_FALSE(proxy_resolution_service->fetched_config());
EXPECT_FALSE(http_proxy_lookup_client.is_done());
EXPECT_FALSE(ftp_proxy_lookup_client.is_done());
EXPECT_EQ(2u, network_context->pending_proxy_lookup_requests_for_testing());
net::ProxyConfig proxy_config;
proxy_config.proxy_rules().ParseFromString("http=foopy:80");
config_client->OnProxyConfigUpdated(net::ProxyConfigWithAnnotation(
proxy_config, TRAFFIC_ANNOTATION_FOR_TESTS));
http_proxy_lookup_client.WaitForResult();
ASSERT_TRUE(http_proxy_lookup_client.proxy_info());
EXPECT_EQ("PROXY foopy:80",
http_proxy_lookup_client.proxy_info()->ToPacString());
ftp_proxy_lookup_client.WaitForResult();
ASSERT_TRUE(ftp_proxy_lookup_client.proxy_info());
EXPECT_EQ("DIRECT", ftp_proxy_lookup_client.proxy_info()->ToPacString());
EXPECT_EQ(0u, network_context->pending_proxy_lookup_requests_for_testing());
}
TEST_F(NetworkContextTest, DestroyedWithoutProxyConfig) {
// Create a NetworkContext without an initial proxy configuration.
mojom::NetworkContextParamsPtr context_params = CreateContextParams();
context_params->initial_proxy_config.reset();
mojo::Remote<mojom::ProxyConfigClient> config_client;
context_params->proxy_config_client_receiver =
config_client.BindNewPipeAndPassReceiver();
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(context_params));
// Proxy requests should hang.
TestProxyLookupClient proxy_lookup_client;
proxy_lookup_client.StartLookUpProxyForURL(
GURL("http://foo/"), net::NetworkIsolationKey(), network_context.get());
task_environment_.RunUntilIdle();
EXPECT_EQ(1u, network_context->pending_proxy_lookup_requests_for_testing());
EXPECT_FALSE(proxy_lookup_client.is_done());
// Destroying the NetworkContext should cause the pending lookup to fail with
// ERR_ABORTED.
network_context.reset();
proxy_lookup_client.WaitForResult();
EXPECT_FALSE(proxy_lookup_client.proxy_info());
EXPECT_EQ(net::ERR_ABORTED, proxy_lookup_client.net_error());
}
TEST_F(NetworkContextTest, CancelPendingProxyLookup) {
// Create a NetworkContext without an initial proxy configuration.
mojom::NetworkContextParamsPtr context_params = CreateContextParams();
context_params->initial_proxy_config.reset();
mojo::Remote<mojom::ProxyConfigClient> config_client;
context_params->proxy_config_client_receiver =
config_client.BindNewPipeAndPassReceiver();
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(context_params));
// Proxy requests should hang.
std::unique_ptr<TestProxyLookupClient> proxy_lookup_client =
std::make_unique<TestProxyLookupClient>();
proxy_lookup_client->StartLookUpProxyForURL(
GURL("http://foo/"), net::NetworkIsolationKey(), network_context.get());
task_environment_.RunUntilIdle();
EXPECT_FALSE(proxy_lookup_client->is_done());
EXPECT_EQ(1u, network_context->pending_proxy_lookup_requests_for_testing());
// Cancelling the proxy lookup should cause the proxy lookup request objects
// to be deleted.
proxy_lookup_client.reset();
task_environment_.RunUntilIdle();
EXPECT_EQ(0u, network_context->pending_proxy_lookup_requests_for_testing());
}
// Test to make sure the NetworkIsolationKey passed to LookUpProxyForURL() makes
// it to the proxy resolver.
TEST_F(NetworkContextTest, ProxyLookupWithNetworkIsolationKey) {
const GURL kUrl("http://bar.test/");
const url::Origin kOrigin = url::Origin::Create(GURL("https://foo.test/"));
const net::NetworkIsolationKey kNetworkIsolationKey(kOrigin, kOrigin);
// Pac scripts must contain this string to be passed to the
// ProxyResolverFactory.
const std::string kPacScript("FindProxyForURL");
// Create a NetworkContext without an initial proxy configuration.
mojom::NetworkContextParamsPtr context_params = CreateContextParams();
CapturingMojoProxyResolverFactory proxy_resolver_factory;
context_params->proxy_resolver_factory =
proxy_resolver_factory.CreateFactoryRemote();
context_params->initial_proxy_config = net::ProxyConfigWithAnnotation(
net::ProxyConfig::CreateFromCustomPacURL(GURL("data:," + kPacScript)),
TRAFFIC_ANNOTATION_FOR_TESTS);
mojo::Remote<mojom::ProxyConfigClient> config_client;
context_params->proxy_config_client_receiver =
config_client.BindNewPipeAndPassReceiver();
#if BUILDFLAG(IS_ASH)
context_params->dhcp_wpad_url_client =
network::MockMojoDhcpWpadUrlClient::CreateWithSelfOwnedReceiver(
std::string());
#endif // BUILDFLAG(IS_ASH)
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(context_params));
TestProxyLookupClient proxy_lookup_client;
proxy_lookup_client.StartLookUpProxyForURL(kUrl, kNetworkIsolationKey,
network_context.get());
proxy_lookup_client.WaitForResult();
ASSERT_TRUE(proxy_lookup_client.proxy_info());
EXPECT_TRUE(proxy_lookup_client.proxy_info()->is_direct_only());
EXPECT_EQ(kPacScript, proxy_resolver_factory.pac_script());
EXPECT_EQ(kUrl, proxy_resolver_factory.url());
EXPECT_EQ(kNetworkIsolationKey,
proxy_resolver_factory.network_isolation_key());
}
// Test mojom::ProxyResolver that completes calls to GetProxyForUrl() with a
// DIRECT "proxy". It additionally emits a script error on line 42 for every
// call to GetProxyForUrl().
class MockMojoProxyResolver : public proxy_resolver::mojom::ProxyResolver {
public:
MockMojoProxyResolver() {}
private:
// Overridden from proxy_resolver::mojom::ProxyResolver:
void GetProxyForUrl(
const GURL& url,
const net::NetworkIsolationKey& network_isolation_key,
mojo::PendingRemote<proxy_resolver::mojom::ProxyResolverRequestClient>
pending_client) override {
// Report a Javascript error and then complete the request successfully,
// having chosen DIRECT connections.
mojo::Remote<proxy_resolver::mojom::ProxyResolverRequestClient> client(
std::move(pending_client));
client->OnError(42, "Failed: FindProxyForURL(url=" + url.spec() + ")");
net::ProxyInfo result;
result.UseDirect();
client->ReportResult(net::OK, result);
}
DISALLOW_COPY_AND_ASSIGN(MockMojoProxyResolver);
};
// Test mojom::ProxyResolverFactory implementation that successfully completes
// any CreateResolver() requests, and binds the request to a new
// MockMojoProxyResolver.
class MockMojoProxyResolverFactory
: public proxy_resolver::mojom::ProxyResolverFactory {
public:
MockMojoProxyResolverFactory() {}
// Binds and returns a mock ProxyResolverFactory whose lifetime is bound to
// the message pipe.
static mojo::PendingRemote<proxy_resolver::mojom::ProxyResolverFactory>
Create() {
mojo::PendingRemote<proxy_resolver::mojom::ProxyResolverFactory> remote;
mojo::MakeSelfOwnedReceiver(
std::make_unique<MockMojoProxyResolverFactory>(),
remote.InitWithNewPipeAndPassReceiver());
return remote;
}
private:
void CreateResolver(
const std::string& pac_url,
mojo::PendingReceiver<proxy_resolver::mojom::ProxyResolver> receiver,
mojo::PendingRemote<
proxy_resolver::mojom::ProxyResolverFactoryRequestClient>
pending_client) override {
// Bind |receiver| to a new MockMojoProxyResolver, and return success.
mojo::MakeSelfOwnedReceiver(std::make_unique<MockMojoProxyResolver>(),
std::move(receiver));
mojo::Remote<proxy_resolver::mojom::ProxyResolverFactoryRequestClient>
client(std::move(pending_client));
client->ReportResult(net::OK);
}
DISALLOW_COPY_AND_ASSIGN(MockMojoProxyResolverFactory);
};
TEST_F(NetworkContextTest, PacQuickCheck) {
// Check the default value.
// Note that unless we explicitly create a proxy resolver factory, the code
// will assume that we should use a system proxy resolver (i.e. use system
// APIs to resolve a proxy). This isn't supported on all platforms. On
// unsupported platforms, we'd simply ignore the PAC quick check input and
// default to false.
mojom::NetworkContextParamsPtr context_params = CreateContextParams();
#if BUILDFLAG(IS_ASH)
context_params->dhcp_wpad_url_client =
network::MockMojoDhcpWpadUrlClient::CreateWithSelfOwnedReceiver(
std::string());
#endif // BUILDFLAG(IS_ASH)
context_params->proxy_resolver_factory =
MockMojoProxyResolverFactory::Create();
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(context_params));
net::ConfiguredProxyResolutionService* proxy_resolution_service = nullptr;
ASSERT_TRUE(
network_context->url_request_context()
->proxy_resolution_service()
->CastToConfiguredProxyResolutionService(&proxy_resolution_service));
EXPECT_TRUE(proxy_resolution_service->quick_check_enabled_for_testing());
// Explicitly enable.
context_params = CreateContextParams();
#if BUILDFLAG(IS_ASH)
context_params->dhcp_wpad_url_client =
network::MockMojoDhcpWpadUrlClient::CreateWithSelfOwnedReceiver(
std::string());
#endif // BUILDFLAG(IS_ASH)
context_params->proxy_resolver_factory =
MockMojoProxyResolverFactory::Create();
context_params->pac_quick_check_enabled = true;
network_context = CreateContextWithParams(std::move(context_params));
proxy_resolution_service = nullptr;
ASSERT_TRUE(
network_context->url_request_context()
->proxy_resolution_service()
->CastToConfiguredProxyResolutionService(&proxy_resolution_service));
EXPECT_TRUE(proxy_resolution_service->quick_check_enabled_for_testing());
// Explicitly disable.
context_params = CreateContextParams();
#if BUILDFLAG(IS_ASH)
context_params->dhcp_wpad_url_client =
network::MockMojoDhcpWpadUrlClient::CreateWithSelfOwnedReceiver(
std::string());
#endif // BUILDFLAG(IS_ASH)
context_params->proxy_resolver_factory =
MockMojoProxyResolverFactory::Create();
context_params->pac_quick_check_enabled = false;
network_context = CreateContextWithParams(std::move(context_params));
proxy_resolution_service = nullptr;
ASSERT_TRUE(
network_context->url_request_context()
->proxy_resolution_service()
->CastToConfiguredProxyResolutionService(&proxy_resolution_service));
EXPECT_FALSE(proxy_resolution_service->quick_check_enabled_for_testing());
}
net::IPEndPoint GetLocalHostWithAnyPort() {
return net::IPEndPoint(net::IPAddress(127, 0, 0, 1), 0);
}
std::vector<uint8_t> CreateTestMessage(uint8_t initial, size_t size) {
std::vector<uint8_t> array(size);
for (size_t i = 0; i < size; ++i)
array[i] = static_cast<uint8_t>((i + initial) % 256);
return array;
}
TEST_F(NetworkContextTest, CreateUDPSocket) {
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
// Create a server socket to listen for incoming datagrams.
test::UDPSocketListenerImpl listener;
mojo::Receiver<mojom::UDPSocketListener> listener_receiver(&listener);
net::IPEndPoint server_addr(GetLocalHostWithAnyPort());
mojo::Remote<mojom::UDPSocket> server_socket;
network_context->CreateUDPSocket(
server_socket.BindNewPipeAndPassReceiver(),
listener_receiver.BindNewPipeAndPassRemote());
test::UDPSocketTestHelper helper(&server_socket);
ASSERT_EQ(net::OK, helper.BindSync(server_addr, nullptr, &server_addr));
// Create a client socket to send datagrams.
mojo::Remote<mojom::UDPSocket> client_socket;
network_context->CreateUDPSocket(client_socket.BindNewPipeAndPassReceiver(),
mojo::NullRemote());
net::IPEndPoint client_addr(GetLocalHostWithAnyPort());
test::UDPSocketTestHelper client_helper(&client_socket);
ASSERT_EQ(net::OK,
client_helper.ConnectSync(server_addr, nullptr, &client_addr));
// This test assumes that the loopback interface doesn't drop UDP packets for
// a small number of packets.
const size_t kDatagramCount = 6;
const size_t kDatagramSize = 255;
server_socket->ReceiveMore(kDatagramCount);
for (size_t i = 0; i < kDatagramCount; ++i) {
std::vector<uint8_t> test_msg(
CreateTestMessage(static_cast<uint8_t>(i), kDatagramSize));
int result = client_helper.SendSync(test_msg);
EXPECT_EQ(net::OK, result);
}
listener.WaitForReceivedResults(kDatagramCount);
EXPECT_EQ(kDatagramCount, listener.results().size());
int i = 0;
for (const auto& result : listener.results()) {
EXPECT_EQ(net::OK, result.net_error);
EXPECT_EQ(result.src_addr, client_addr);
EXPECT_EQ(CreateTestMessage(static_cast<uint8_t>(i), kDatagramSize),
result.data.value());
i++;
}
}
TEST_F(NetworkContextTest, CreateNetLogExporter) {
// Basic flow around start/stop.
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
mojo::Remote<mojom::NetLogExporter> net_log_exporter;
network_context->CreateNetLogExporter(
net_log_exporter.BindNewPipeAndPassReceiver());
base::ScopedTempDir temp_dir;
ASSERT_TRUE(temp_dir.CreateUniqueTempDir());
base::FilePath out_path(temp_dir.GetPath().AppendASCII("out.json"));
base::File out_file(out_path,
base::File::FLAG_CREATE | base::File::FLAG_WRITE);
ASSERT_TRUE(out_file.IsValid());
base::Value dict_start(base::Value::Type::DICTIONARY);
const char kKeyEarly[] = "early";
const char kValEarly[] = "morning";
dict_start.SetKey(kKeyEarly, base::Value(kValEarly));
net::TestCompletionCallback start_callback;
net_log_exporter->Start(std::move(out_file), std::move(dict_start),
net::NetLogCaptureMode::kDefault, 100 * 1024,
start_callback.callback());
EXPECT_EQ(net::OK, start_callback.WaitForResult());
base::Value dict_late(base::Value::Type::DICTIONARY);
const char kKeyLate[] = "late";
const char kValLate[] = "snowval";
dict_late.SetKey(kKeyLate, base::Value(kValLate));
net::TestCompletionCallback stop_callback;
net_log_exporter->Stop(std::move(dict_late), stop_callback.callback());
EXPECT_EQ(net::OK, stop_callback.WaitForResult());
// Check that file got written.
std::string contents;
ASSERT_TRUE(base::ReadFileToString(out_path, &contents));
// Contents should have net constants, without the client needing any
// net:: methods.
EXPECT_NE(std::string::npos, contents.find("ERR_IO_PENDING")) << contents;
// The additional stuff inject should also occur someplace.
EXPECT_NE(std::string::npos, contents.find(kKeyEarly)) << contents;
EXPECT_NE(std::string::npos, contents.find(kValEarly)) << contents;
EXPECT_NE(std::string::npos, contents.find(kKeyLate)) << contents;
EXPECT_NE(std::string::npos, contents.find(kValLate)) << contents;
}
TEST_F(NetworkContextTest, CreateNetLogExporterUnbounded) {
// Make sure that exporting without size limit works.
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
mojo::Remote<mojom::NetLogExporter> net_log_exporter;
network_context->CreateNetLogExporter(
net_log_exporter.BindNewPipeAndPassReceiver());
base::FilePath temp_path;
ASSERT_TRUE(base::CreateTemporaryFile(&temp_path));
base::File out_file(temp_path,
base::File::FLAG_CREATE_ALWAYS | base::File::FLAG_WRITE);
ASSERT_TRUE(out_file.IsValid());
net::TestCompletionCallback start_callback;
net_log_exporter->Start(
std::move(out_file), base::Value(base::Value::Type::DICTIONARY),
net::NetLogCaptureMode::kDefault,
mojom::NetLogExporter::kUnlimitedFileSize, start_callback.callback());
EXPECT_EQ(net::OK, start_callback.WaitForResult());
net::TestCompletionCallback stop_callback;
net_log_exporter->Stop(base::Value(base::Value::Type::DICTIONARY),
stop_callback.callback());
EXPECT_EQ(net::OK, stop_callback.WaitForResult());
// Check that file got written.
std::string contents;
ASSERT_TRUE(base::ReadFileToString(temp_path, &contents));
// Contents should have net constants, without the client needing any
// net:: methods.
EXPECT_NE(std::string::npos, contents.find("ERR_IO_PENDING")) << contents;
base::DeleteFile(temp_path);
}
TEST_F(NetworkContextTest, CreateNetLogExporterErrors) {
// Some basic state machine misuses.
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
mojo::Remote<mojom::NetLogExporter> net_log_exporter;
network_context->CreateNetLogExporter(
net_log_exporter.BindNewPipeAndPassReceiver());
net::TestCompletionCallback stop_callback;
net_log_exporter->Stop(base::Value(base::Value::Type::DICTIONARY),
stop_callback.callback());
EXPECT_EQ(net::ERR_UNEXPECTED, stop_callback.WaitForResult());
base::FilePath temp_path;
ASSERT_TRUE(base::CreateTemporaryFile(&temp_path));
base::File temp_file(temp_path,
base::File::FLAG_CREATE_ALWAYS | base::File::FLAG_WRITE);
ASSERT_TRUE(temp_file.IsValid());
net::TestCompletionCallback start_callback;
net_log_exporter->Start(
std::move(temp_file), base::Value(base::Value::Type::DICTIONARY),
net::NetLogCaptureMode::kDefault, 100 * 1024, start_callback.callback());
EXPECT_EQ(net::OK, start_callback.WaitForResult());
// Can't start twice.
base::FilePath temp_path2;
ASSERT_TRUE(base::CreateTemporaryFile(&temp_path2));
base::File temp_file2(
temp_path2, base::File::FLAG_CREATE_ALWAYS | base::File::FLAG_WRITE);
ASSERT_TRUE(temp_file2.IsValid());
net::TestCompletionCallback start_callback2;
net_log_exporter->Start(
std::move(temp_file2), base::Value(base::Value::Type::DICTIONARY),
net::NetLogCaptureMode::kDefault, 100 * 1024, start_callback2.callback());
EXPECT_EQ(net::ERR_UNEXPECTED, start_callback2.WaitForResult());
base::DeleteFile(temp_path);
base::DeleteFile(temp_path2);
// Forgetting to stop is recovered from.
}
TEST_F(NetworkContextTest, DestroyNetLogExporterWhileCreatingScratchDir) {
// Make sure that things behave OK if NetLogExporter is destroyed during the
// brief window it owns the scratch directory.
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
std::unique_ptr<NetLogExporter> net_log_exporter =
std::make_unique<NetLogExporter>(network_context.get());
base::WaitableEvent block_mktemp(
base::WaitableEvent::ResetPolicy::MANUAL,
base::WaitableEvent::InitialState::NOT_SIGNALED);
base::ScopedTempDir dir;
ASSERT_TRUE(dir.CreateUniqueTempDir());
base::FilePath path = dir.Take();
EXPECT_TRUE(base::PathExists(path));
net_log_exporter->SetCreateScratchDirHandlerForTesting(base::BindRepeating(
[](base::WaitableEvent* block_on,
const base::FilePath& path) -> base::FilePath {
base::ScopedAllowBaseSyncPrimitivesForTesting need_to_block;
block_on->Wait();
return path;
},
&block_mktemp, path));
base::FilePath temp_path;
ASSERT_TRUE(base::CreateTemporaryFile(&temp_path));
base::File temp_file(temp_path,
base::File::FLAG_CREATE_ALWAYS | base::File::FLAG_WRITE);
ASSERT_TRUE(temp_file.IsValid());
net_log_exporter->Start(
std::move(temp_file), base::Value(base::Value::Type::DICTIONARY),
net::NetLogCaptureMode::kDefault, 100, base::BindOnce([](int) {}));
net_log_exporter = nullptr;
block_mktemp.Signal();
task_environment_.RunUntilIdle();
EXPECT_FALSE(base::PathExists(path));
base::DeleteFile(temp_path);
}
net::IPEndPoint CreateExpectedEndPoint(const std::string& address,
uint16_t port) {
net::IPAddress ip_address;
CHECK(ip_address.AssignFromIPLiteral(address));
return net::IPEndPoint(ip_address, port);
}
class TestResolveHostClient : public ResolveHostClientBase {
public:
TestResolveHostClient(mojo::PendingRemote<mojom::ResolveHostClient>* remote,
base::RunLoop* run_loop)
: receiver_(this, remote->InitWithNewPipeAndPassReceiver()),
complete_(false),
run_loop_(run_loop) {
DCHECK(run_loop_);
}
void CloseReceiver() { receiver_.reset(); }
void OnComplete(int error,
const net::ResolveErrorInfo& resolve_error_info,
const base::Optional<net::AddressList>& addresses) override {
DCHECK(!complete_);
complete_ = true;
top_level_result_error_ = error;
result_error_ = resolve_error_info.error;
result_addresses_ = addresses;
run_loop_->Quit();
}
bool complete() const { return complete_; }
int top_level_result_error() const {
DCHECK(complete_);
return top_level_result_error_;
}
int result_error() const {
DCHECK(complete_);
return result_error_;
}
const base::Optional<net::AddressList>& result_addresses() const {
DCHECK(complete_);
return result_addresses_;
}
private:
mojo::Receiver<mojom::ResolveHostClient> receiver_;
bool complete_;
int top_level_result_error_;
int result_error_;
base::Optional<net::AddressList> result_addresses_;
base::RunLoop* const run_loop_;
};
TEST_F(NetworkContextTest, ResolveHost_Sync) {
auto resolver = std::make_unique<net::MockHostResolver>();
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
network_context->url_request_context()->set_host_resolver(resolver.get());
resolver->set_synchronous_mode(true);
base::RunLoop run_loop;
mojo::Remote<mojom::ResolveHostHandle> control_handle;
mojom::ResolveHostParametersPtr optional_parameters =
mojom::ResolveHostParameters::New();
optional_parameters->control_handle =
control_handle.BindNewPipeAndPassReceiver();
mojo::PendingRemote<mojom::ResolveHostClient> pending_response_client;
TestResolveHostClient response_client(&pending_response_client, &run_loop);
network_context->ResolveHost(
net::HostPortPair("localhost", 160), net::NetworkIsolationKey(),
std::move(optional_parameters), std::move(pending_response_client));
run_loop.Run();
EXPECT_EQ(net::OK, response_client.top_level_result_error());
EXPECT_EQ(net::OK, response_client.result_error());
EXPECT_THAT(
response_client.result_addresses().value().endpoints(),
testing::UnorderedElementsAre(CreateExpectedEndPoint("127.0.0.1", 160)));
EXPECT_EQ(0u,
network_context->GetNumOutstandingResolveHostRequestsForTesting());
}
TEST_F(NetworkContextTest, ResolveHost_Async) {
auto resolver = std::make_unique<net::MockHostResolver>();
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
network_context->url_request_context()->set_host_resolver(resolver.get());
resolver->set_synchronous_mode(false);
base::RunLoop run_loop;
mojo::Remote<mojom::ResolveHostHandle> control_handle;
mojom::ResolveHostParametersPtr optional_parameters =
mojom::ResolveHostParameters::New();
optional_parameters->control_handle =
control_handle.BindNewPipeAndPassReceiver();
mojo::PendingRemote<mojom::ResolveHostClient> pending_response_client;
TestResolveHostClient response_client(&pending_response_client, &run_loop);
network_context->ResolveHost(
net::HostPortPair("localhost", 160), net::NetworkIsolationKey(),
std::move(optional_parameters), std::move(pending_response_client));
bool control_handle_closed = false;
auto connection_error_callback =
base::BindLambdaForTesting([&]() { control_handle_closed = true; });
control_handle.set_disconnect_handler(connection_error_callback);
run_loop.Run();
EXPECT_EQ(net::OK, response_client.top_level_result_error());
EXPECT_EQ(net::OK, response_client.result_error());
EXPECT_THAT(
response_client.result_addresses().value().endpoints(),
testing::UnorderedElementsAre(CreateExpectedEndPoint("127.0.0.1", 160)));
EXPECT_TRUE(control_handle_closed);
EXPECT_EQ(0u,
network_context->GetNumOutstandingResolveHostRequestsForTesting());
}
TEST_F(NetworkContextTest, ResolveHost_Failure_Sync) {
auto resolver = std::make_unique<net::MockHostResolver>();
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
network_context->url_request_context()->set_host_resolver(resolver.get());
resolver->rules()->AddSimulatedTimeoutFailure("example.com");
resolver->set_synchronous_mode(true);
base::RunLoop run_loop;
mojo::Remote<mojom::ResolveHostHandle> control_handle;
mojom::ResolveHostParametersPtr optional_parameters =
mojom::ResolveHostParameters::New();
optional_parameters->control_handle =
control_handle.BindNewPipeAndPassReceiver();
mojo::PendingRemote<mojom::ResolveHostClient> pending_response_client;
TestResolveHostClient response_client(&pending_response_client, &run_loop);
network_context->ResolveHost(
net::HostPortPair("example.com", 160), net::NetworkIsolationKey(),
std::move(optional_parameters), std::move(pending_response_client));
run_loop.Run();
EXPECT_EQ(net::ERR_NAME_NOT_RESOLVED,
response_client.top_level_result_error());
EXPECT_EQ(net::ERR_DNS_TIMED_OUT, response_client.result_error());
EXPECT_FALSE(response_client.result_addresses());
EXPECT_EQ(0u,
network_context->GetNumOutstandingResolveHostRequestsForTesting());
}
TEST_F(NetworkContextTest, ResolveHost_Failure_Async) {
auto resolver = std::make_unique<net::MockHostResolver>();
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
network_context->url_request_context()->set_host_resolver(resolver.get());
resolver->rules()->AddSimulatedTimeoutFailure("example.com");
resolver->set_synchronous_mode(false);
base::RunLoop run_loop;
mojo::Remote<mojom::ResolveHostHandle> control_handle;
mojom::ResolveHostParametersPtr optional_parameters =
mojom::ResolveHostParameters::New();
optional_parameters->control_handle =
control_handle.BindNewPipeAndPassReceiver();
mojo::PendingRemote<mojom::ResolveHostClient> pending_response_client;
TestResolveHostClient response_client(&pending_response_client, &run_loop);
network_context->ResolveHost(
net::HostPortPair("example.com", 160), net::NetworkIsolationKey(),
std::move(optional_parameters), std::move(pending_response_client));
bool control_handle_closed = false;
auto connection_error_callback =
base::BindLambdaForTesting([&]() { control_handle_closed = true; });
control_handle.set_disconnect_handler(connection_error_callback);
run_loop.Run();
EXPECT_EQ(net::ERR_NAME_NOT_RESOLVED,
response_client.top_level_result_error());
EXPECT_EQ(net::ERR_DNS_TIMED_OUT, response_client.result_error());
EXPECT_FALSE(response_client.result_addresses());
EXPECT_TRUE(control_handle_closed);
EXPECT_EQ(0u,
network_context->GetNumOutstandingResolveHostRequestsForTesting());
}
TEST_F(NetworkContextTest, ResolveHost_NetworkIsolationKey) {
const url::Origin kOrigin = url::Origin::Create(GURL("https://foo.test/"));
const net::NetworkIsolationKey kNetworkIsolationKey(kOrigin, kOrigin);
net::MockHostResolver resolver;
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
network_context->url_request_context()->set_host_resolver(&resolver);
base::RunLoop run_loop;
mojo::Remote<mojom::ResolveHostHandle> control_handle;
mojom::ResolveHostParametersPtr optional_parameters =
mojom::ResolveHostParameters::New();
optional_parameters->control_handle =
control_handle.BindNewPipeAndPassReceiver();
mojo::PendingRemote<mojom::ResolveHostClient> pending_response_client;
TestResolveHostClient response_client(&pending_response_client, &run_loop);
network_context->ResolveHost(
net::HostPortPair("localhost", 160), kNetworkIsolationKey,
std::move(optional_parameters), std::move(pending_response_client));
run_loop.Run();
EXPECT_EQ(net::OK, response_client.result_error());
EXPECT_THAT(
response_client.result_addresses().value().endpoints(),
testing::UnorderedElementsAre(CreateExpectedEndPoint("127.0.0.1", 160)));
EXPECT_EQ(0u,
network_context->GetNumOutstandingResolveHostRequestsForTesting());
EXPECT_EQ(kNetworkIsolationKey,
resolver.last_request_network_isolation_key());
}
TEST_F(NetworkContextTest, ResolveHost_NoControlHandle) {
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
base::RunLoop run_loop;
mojo::PendingRemote<mojom::ResolveHostClient> pending_response_client;
TestResolveHostClient response_client(&pending_response_client, &run_loop);
// Resolve "localhost" because it should always resolve fast and locally, even
// when using a real HostResolver.
network_context->ResolveHost(net::HostPortPair("localhost", 80),
net::NetworkIsolationKey(), nullptr,
std::move(pending_response_client));
run_loop.Run();
EXPECT_EQ(net::OK, response_client.result_error());
EXPECT_THAT(
response_client.result_addresses().value().endpoints(),
testing::UnorderedElementsAre(CreateExpectedEndPoint("127.0.0.1", 80),
CreateExpectedEndPoint("::1", 80)));
EXPECT_EQ(0u,
network_context->GetNumOutstandingResolveHostRequestsForTesting());
}
TEST_F(NetworkContextTest, ResolveHost_CloseControlHandle) {
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
base::RunLoop run_loop;
mojo::Remote<mojom::ResolveHostHandle> control_handle;
mojom::ResolveHostParametersPtr optional_parameters =
mojom::ResolveHostParameters::New();
optional_parameters->control_handle =
control_handle.BindNewPipeAndPassReceiver();
mojo::PendingRemote<mojom::ResolveHostClient> pending_response_client;
TestResolveHostClient response_client(&pending_response_client, &run_loop);
// Resolve "localhost" because it should always resolve fast and locally, even
// when using a real HostResolver.
network_context->ResolveHost(
net::HostPortPair("localhost", 160), net::NetworkIsolationKey(),
std::move(optional_parameters), std::move(pending_response_client));
control_handle.reset();
run_loop.Run();
EXPECT_EQ(net::OK, response_client.result_error());
EXPECT_THAT(
response_client.result_addresses().value().endpoints(),
testing::UnorderedElementsAre(CreateExpectedEndPoint("127.0.0.1", 160),
CreateExpectedEndPoint("::1", 160)));
EXPECT_EQ(0u,
network_context->GetNumOutstandingResolveHostRequestsForTesting());
}
TEST_F(NetworkContextTest, ResolveHost_Cancellation) {
// Override the HostResolver with a hanging one, so the test can ensure the
// request won't be completed before the cancellation arrives.
auto resolver = std::make_unique<net::HangingHostResolver>();
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
network_context->url_request_context()->set_host_resolver(resolver.get());
ASSERT_EQ(0, resolver->num_cancellations());
base::RunLoop run_loop;
mojo::Remote<mojom::ResolveHostHandle> control_handle;
mojom::ResolveHostParametersPtr optional_parameters =
mojom::ResolveHostParameters::New();
optional_parameters->control_handle =
control_handle.BindNewPipeAndPassReceiver();
mojo::PendingRemote<mojom::ResolveHostClient> pending_response_client;
TestResolveHostClient response_client(&pending_response_client, &run_loop);
network_context->ResolveHost(
net::HostPortPair("localhost", 80), net::NetworkIsolationKey(),
std::move(optional_parameters), std::move(pending_response_client));
bool control_handle_closed = false;
auto connection_error_callback =
base::BindLambdaForTesting([&]() { control_handle_closed = true; });
control_handle.set_disconnect_handler(connection_error_callback);
control_handle->Cancel(net::ERR_ABORTED);
run_loop.Run();
// On cancellation, should receive an ERR_FAILED result, and the internal
// resolver request should have been cancelled.
EXPECT_EQ(net::ERR_ABORTED, response_client.result_error());
EXPECT_FALSE(response_client.result_addresses());
EXPECT_EQ(1, resolver->num_cancellations());
EXPECT_TRUE(control_handle_closed);
EXPECT_EQ(0u,
network_context->GetNumOutstandingResolveHostRequestsForTesting());
}
TEST_F(NetworkContextTest, ResolveHost_DestroyContext) {
// Override the HostResolver with a hanging one, so the test can ensure the
// request won't be completed before the cancellation arrives.
auto resolver = std::make_unique<net::HangingHostResolver>();
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
network_context->url_request_context()->set_host_resolver(resolver.get());
ASSERT_EQ(0, resolver->num_cancellations());
base::RunLoop run_loop;
mojo::Remote<mojom::ResolveHostHandle> control_handle;
mojom::ResolveHostParametersPtr optional_parameters =
mojom::ResolveHostParameters::New();
optional_parameters->control_handle =
control_handle.BindNewPipeAndPassReceiver();
mojo::PendingRemote<mojom::ResolveHostClient> pending_response_client;
TestResolveHostClient response_client(&pending_response_client, &run_loop);
network_context->ResolveHost(
net::HostPortPair("localhost", 80), net::NetworkIsolationKey(),
std::move(optional_parameters), std::move(pending_response_client));
bool control_handle_closed = false;
auto connection_error_callback =
base::BindLambdaForTesting([&]() { control_handle_closed = true; });
control_handle.set_disconnect_handler(connection_error_callback);
network_context = nullptr;
run_loop.Run();
// On context destruction, should receive an ERR_FAILED result, and the
// internal resolver request should have been cancelled.
EXPECT_EQ(net::ERR_FAILED, response_client.result_error());
EXPECT_FALSE(response_client.result_addresses());
EXPECT_EQ(1, resolver->num_cancellations());
EXPECT_TRUE(control_handle_closed);
}
TEST_F(NetworkContextTest, ResolveHost_CloseClient) {
// Override the HostResolver with a hanging one, so the test can ensure the
// request won't be completed before the cancellation arrives.
auto resolver = std::make_unique<net::HangingHostResolver>();
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
network_context->url_request_context()->set_host_resolver(resolver.get());
ASSERT_EQ(0, resolver->num_cancellations());
base::RunLoop run_loop;
mojo::Remote<mojom::ResolveHostHandle> control_handle;
mojom::ResolveHostParametersPtr optional_parameters =
mojom::ResolveHostParameters::New();
optional_parameters->control_handle =
control_handle.BindNewPipeAndPassReceiver();
mojo::PendingRemote<mojom::ResolveHostClient> pending_response_client;
TestResolveHostClient response_client(&pending_response_client, &run_loop);
network_context->ResolveHost(
net::HostPortPair("localhost", 80), net::NetworkIsolationKey(),
std::move(optional_parameters), std::move(pending_response_client));
bool control_handle_closed = false;
auto connection_error_callback =
base::BindLambdaForTesting([&]() { control_handle_closed = true; });
control_handle.set_disconnect_handler(connection_error_callback);
response_client.CloseReceiver();
run_loop.RunUntilIdle();
// Response pipe is closed, so no results to check. Internal request should be
// cancelled.
EXPECT_FALSE(response_client.complete());
EXPECT_EQ(1, resolver->num_cancellations());
EXPECT_TRUE(control_handle_closed);
EXPECT_EQ(0u,
network_context->GetNumOutstandingResolveHostRequestsForTesting());
}
// Test factory of net::HostResolvers. Creates standard (but potentially non-
// caching) net::ContextHostResolver. Keeps pointers to all created resolvers.
class TestResolverFactory : public net::HostResolver::Factory {
public:
static TestResolverFactory* CreateAndSetFactory(NetworkService* service) {
auto factory = std::make_unique<TestResolverFactory>();
auto* factory_ptr = factory.get();
service->set_host_resolver_factory_for_testing(std::move(factory));
return factory_ptr;
}
std::unique_ptr<net::HostResolver> CreateResolver(
net::HostResolverManager* manager,
base::StringPiece host_mapping_rules,
bool enable_caching) override {
DCHECK(host_mapping_rules.empty());
auto resolve_context = std::make_unique<net::ResolveContext>(
/*url_request_context=*/nullptr, /*enable_caching=*/false);
auto resolver = std::make_unique<net::ContextHostResolver>(
manager, std::move(resolve_context));
resolvers_.push_back(resolver.get());
return resolver;
}
std::unique_ptr<net::HostResolver> CreateStandaloneResolver(
net::NetLog* net_log,
const net::HostResolver::ManagerOptions& options,
base::StringPiece host_mapping_rules,
bool enable_caching) override {
DCHECK(host_mapping_rules.empty());
std::unique_ptr<net::ContextHostResolver> resolver =
net::HostResolver::CreateStandaloneContextResolver(net_log, options,
enable_caching);
resolvers_.push_back(resolver.get());
return resolver;
}
const std::vector<net::ContextHostResolver*>& resolvers() const {
return resolvers_;
}
void ForgetResolvers() { resolvers_.clear(); }
private:
std::vector<net::ContextHostResolver*> resolvers_;
};
TEST_F(NetworkContextTest, CreateHostResolver) {
// Inject a factory to control and capture created net::HostResolvers.
TestResolverFactory* factory =
TestResolverFactory::CreateAndSetFactory(network_service_.get());
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
// Creates single shared (within the NetworkContext) internal HostResolver.
EXPECT_EQ(1u, factory->resolvers().size());
factory->ForgetResolvers();
mojo::Remote<mojom::HostResolver> resolver;
network_context->CreateHostResolver(base::nullopt,
resolver.BindNewPipeAndPassReceiver());
// Expected to reuse shared (within the NetworkContext) internal HostResolver.
EXPECT_TRUE(factory->resolvers().empty());
base::RunLoop run_loop;
mojo::PendingRemote<mojom::ResolveHostClient> pending_response_client;
TestResolveHostClient response_client(&pending_response_client, &run_loop);
resolver->ResolveHost(net::HostPortPair("localhost", 80),
net::NetworkIsolationKey(), nullptr,
std::move(pending_response_client));
run_loop.Run();
EXPECT_EQ(net::OK, response_client.result_error());
EXPECT_THAT(
response_client.result_addresses().value().endpoints(),
testing::UnorderedElementsAre(CreateExpectedEndPoint("127.0.0.1", 80),
CreateExpectedEndPoint("::1", 80)));
EXPECT_EQ(0u,
network_context->GetNumOutstandingResolveHostRequestsForTesting());
}
TEST_F(NetworkContextTest, CreateHostResolver_CloseResolver) {
// Override the HostResolver with a hanging one, so the test can ensure the
// request won't be completed before the cancellation arrives.
auto internal_resolver = std::make_unique<net::HangingHostResolver>();
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
network_context->url_request_context()->set_host_resolver(
internal_resolver.get());
mojo::Remote<mojom::HostResolver> resolver;
network_context->CreateHostResolver(base::nullopt,
resolver.BindNewPipeAndPassReceiver());
ASSERT_EQ(0, internal_resolver->num_cancellations());
base::RunLoop run_loop;
mojo::Remote<mojom::ResolveHostHandle> control_handle;
mojom::ResolveHostParametersPtr optional_parameters =
mojom::ResolveHostParameters::New();
optional_parameters->control_handle =
control_handle.BindNewPipeAndPassReceiver();
mojo::PendingRemote<mojom::ResolveHostClient> pending_response_client;
TestResolveHostClient response_client(&pending_response_client, &run_loop);
resolver->ResolveHost(
net::HostPortPair("localhost", 80), net::NetworkIsolationKey(),
std::move(optional_parameters), std::move(pending_response_client));
bool control_handle_closed = false;
auto connection_error_callback =
base::BindLambdaForTesting([&]() { control_handle_closed = true; });
control_handle.set_disconnect_handler(connection_error_callback);
resolver.reset();
run_loop.Run();
// On resolver destruction, should receive an ERR_FAILED result, and the
// internal resolver request should have been cancelled.
EXPECT_EQ(net::ERR_FAILED, response_client.result_error());
EXPECT_FALSE(response_client.result_addresses());
EXPECT_EQ(1, internal_resolver->num_cancellations());
EXPECT_TRUE(control_handle_closed);
}
TEST_F(NetworkContextTest, CreateHostResolver_CloseContext) {
// Override the HostResolver with a hanging one, so the test can ensure the
// request won't be completed before the cancellation arrives.
auto internal_resolver = std::make_unique<net::HangingHostResolver>();
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
network_context->url_request_context()->set_host_resolver(
internal_resolver.get());
mojo::Remote<mojom::HostResolver> resolver;
network_context->CreateHostResolver(base::nullopt,
resolver.BindNewPipeAndPassReceiver());
ASSERT_EQ(0, internal_resolver->num_cancellations());
base::RunLoop run_loop;
mojo::Remote<mojom::ResolveHostHandle> control_handle;
mojom::ResolveHostParametersPtr optional_parameters =
mojom::ResolveHostParameters::New();
optional_parameters->control_handle =
control_handle.BindNewPipeAndPassReceiver();
mojo::PendingRemote<mojom::ResolveHostClient> pending_response_client;
TestResolveHostClient response_client(&pending_response_client, &run_loop);
resolver->ResolveHost(
net::HostPortPair("localhost", 80), net::NetworkIsolationKey(),
std::move(optional_parameters), std::move(pending_response_client));
// Run a bit to ensure the resolve request makes it to the resolver. Otherwise
// the resolver will be destroyed and close its pipe before it even knows
// about the request to send a failure.
task_environment_.RunUntilIdle();
bool control_handle_closed = false;
auto connection_error_callback =
base::BindLambdaForTesting([&]() { control_handle_closed = true; });
control_handle.set_disconnect_handler(connection_error_callback);
bool resolver_closed = false;
auto resolver_closed_callback =
base::BindLambdaForTesting([&]() { resolver_closed = true; });
resolver.set_disconnect_handler(resolver_closed_callback);
network_context = nullptr;
run_loop.Run();
// On context destruction, should receive an ERR_FAILED result, and the
// internal resolver request should have been cancelled.
EXPECT_EQ(net::ERR_FAILED, response_client.result_error());
EXPECT_FALSE(response_client.result_addresses());
EXPECT_EQ(1, internal_resolver->num_cancellations());
EXPECT_TRUE(control_handle_closed);
EXPECT_TRUE(resolver_closed);
}
// Config overrides are not supported on iOS.
#if !defined(OS_IOS)
TEST_F(NetworkContextTest, CreateHostResolverWithConfigOverrides) {
// Inject a factory to control and capture created net::HostResolvers.
TestResolverFactory* factory =
TestResolverFactory::CreateAndSetFactory(network_service_.get());
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
// Creates single shared (within the NetworkContext) internal HostResolver.
EXPECT_EQ(1u, factory->resolvers().size());
factory->ForgetResolvers();
net::DnsConfigOverrides overrides;
overrides.nameservers = std::vector<net::IPEndPoint>{
CreateExpectedEndPoint("100.100.100.100", 22)};
mojo::Remote<mojom::HostResolver> resolver;
network_context->CreateHostResolver(overrides,
resolver.BindNewPipeAndPassReceiver());
// Should create 1 private resolver with a DnsClient (if DnsClient is
// enablable for the build config).
ASSERT_EQ(1u, factory->resolvers().size());
net::ContextHostResolver* internal_resolver = factory->resolvers().front();
EXPECT_TRUE(internal_resolver->GetDnsConfigAsValue().is_dict());
// Override DnsClient with a basic mock.
net::DnsConfig base_configuration;
base_configuration.nameservers = {CreateExpectedEndPoint("12.12.12.12", 53)};
const std::string kQueryHostname = "example.com";
const std::string kResult = "1.2.3.4";
net::IPAddress result;
CHECK(result.AssignFromIPLiteral(kResult));
net::MockDnsClientRuleList rules;
rules.emplace_back(
kQueryHostname, net::dns_protocol::kTypeA, false /* secure */,
net::MockDnsClientRule::Result(
net::BuildTestDnsAddressResponse(kQueryHostname, result)),
false /* delay */);
rules.emplace_back(
kQueryHostname, net::dns_protocol::kTypeAAAA, false /* secure */,
net::MockDnsClientRule::Result(net::MockDnsClientRule::ResultType::EMPTY),
false /* delay */);
auto mock_dns_client = std::make_unique<net::MockDnsClient>(
base_configuration, std::move(rules));
mock_dns_client->SetInsecureEnabled(true);
mock_dns_client->set_ignore_system_config_changes(true);
auto* mock_dns_client_ptr = mock_dns_client.get();
internal_resolver->GetManagerForTesting()->SetDnsClientForTesting(
std::move(mock_dns_client));
// Test that the DnsClient is getting the overridden configuration.
EXPECT_TRUE(overrides.ApplyOverrides(base_configuration)
.Equals(*mock_dns_client_ptr->GetEffectiveConfig()));
// Ensure we are using the private resolver by testing that we get results
// from the overridden DnsClient.
base::RunLoop run_loop;
mojom::ResolveHostParametersPtr optional_parameters =
mojom::ResolveHostParameters::New();
optional_parameters->dns_query_type = net::DnsQueryType::A;
optional_parameters->source = net::HostResolverSource::DNS;
mojo::PendingRemote<mojom::ResolveHostClient> pending_response_client;
TestResolveHostClient response_client(&pending_response_client, &run_loop);
resolver->ResolveHost(
net::HostPortPair(kQueryHostname, 80), net::NetworkIsolationKey(),
std::move(optional_parameters), std::move(pending_response_client));
run_loop.Run();
EXPECT_EQ(net::OK, response_client.result_error());
EXPECT_THAT(response_client.result_addresses().value().endpoints(),
testing::ElementsAre(CreateExpectedEndPoint(kResult, 80)));
}
#endif // defined(OS_IOS)
TEST_F(NetworkContextTest, ActivateDohProbes) {
auto resolver = std::make_unique<net::MockHostResolver>();
mojom::NetworkContextParamsPtr params = CreateContextParams();
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(params));
network_context->url_request_context()->set_host_resolver(resolver.get());
ASSERT_FALSE(resolver->IsDohProbeRunning());
network_context->ActivateDohProbes();
EXPECT_TRUE(resolver->IsDohProbeRunning());
base::RunLoop().RunUntilIdle();
EXPECT_TRUE(resolver->IsDohProbeRunning());
network_context.reset();
EXPECT_FALSE(resolver->IsDohProbeRunning());
}
TEST_F(NetworkContextTest, ActivateDohProbes_NotPrimaryContext) {
auto resolver = std::make_unique<net::MockHostResolver>();
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
network_context->url_request_context()->set_host_resolver(resolver.get());
ASSERT_FALSE(resolver->IsDohProbeRunning());
network_context->ActivateDohProbes();
EXPECT_TRUE(resolver->IsDohProbeRunning());
base::RunLoop().RunUntilIdle();
EXPECT_TRUE(resolver->IsDohProbeRunning());
network_context.reset();
EXPECT_FALSE(resolver->IsDohProbeRunning());
}
TEST_F(NetworkContextTest, PrivacyModeDisabledByDefault) {
const GURL kOtherURL("http://other.com");
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
EXPECT_FALSE(network_context->url_request_context()
->network_delegate()
->ForcePrivacyMode(GURL("http://foo.com"),
net::SiteForCookies::FromUrl(kOtherURL),
url::Origin::Create(kOtherURL)));
}
TEST_F(NetworkContextTest, PrivacyModeEnabledIfCookiesBlocked) {
const GURL kURL("http://foo.com");
const GURL kOtherURL("http://other.com");
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
SetContentSetting(kURL, kOtherURL, CONTENT_SETTING_BLOCK,
network_context.get());
EXPECT_TRUE(network_context->url_request_context()
->network_delegate()
->ForcePrivacyMode(kURL,
net::SiteForCookies::FromUrl(kOtherURL),
url::Origin::Create(kOtherURL)));
EXPECT_FALSE(network_context->url_request_context()
->network_delegate()
->ForcePrivacyMode(kOtherURL,
net::SiteForCookies::FromUrl(kURL),
url::Origin::Create(kURL)));
}
TEST_F(NetworkContextTest, PrivacyModeDisabledIfCookiesAllowed) {
const GURL kURL("http://foo.com");
const GURL kOtherURL("http://other.com");
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
SetContentSetting(kURL, kOtherURL, CONTENT_SETTING_ALLOW,
network_context.get());
EXPECT_FALSE(network_context->url_request_context()
->network_delegate()
->ForcePrivacyMode(kURL,
net::SiteForCookies::FromUrl(kOtherURL),
url::Origin::Create(kOtherURL)));
}
TEST_F(NetworkContextTest, PrivacyModeDisabledIfCookiesSettingForOtherURL) {
const GURL kURL("http://foo.com");
const GURL kOtherURL("http://other.com");
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
// URLs are switched so setting should not apply.
SetContentSetting(kOtherURL, kURL, CONTENT_SETTING_BLOCK,
network_context.get());
EXPECT_FALSE(network_context->url_request_context()
->network_delegate()
->ForcePrivacyMode(kURL,
net::SiteForCookies::FromUrl(kOtherURL),
url::Origin::Create(kOtherURL)));
}
TEST_F(NetworkContextTest, PrivacyModeEnabledIfThirdPartyCookiesBlocked) {
const GURL kURL("http://foo.com");
const url::Origin kOrigin = url::Origin::Create(kURL);
const GURL kOtherURL("http://other.com");
const url::Origin kOtherOrigin = url::Origin::Create(kOtherURL);
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
net::NetworkDelegate* delegate =
network_context->url_request_context()->network_delegate();
network_context->cookie_manager()->BlockThirdPartyCookies(true);
EXPECT_TRUE(delegate->ForcePrivacyMode(
kURL, net::SiteForCookies::FromUrl(kOtherURL), kOtherOrigin));
EXPECT_FALSE(delegate->ForcePrivacyMode(
kURL, net::SiteForCookies::FromUrl(kURL), kOrigin));
network_context->cookie_manager()->BlockThirdPartyCookies(false);
EXPECT_FALSE(delegate->ForcePrivacyMode(
kURL, net::SiteForCookies::FromUrl(kOtherURL), kOtherOrigin));
EXPECT_FALSE(delegate->ForcePrivacyMode(
kURL, net::SiteForCookies::FromUrl(kURL), kOrigin));
}
TEST_F(NetworkContextTest, CanSetCookieFalseIfCookiesBlocked) {
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
net::URLRequestContext context;
std::unique_ptr<net::URLRequest> request =
context.CreateRequest(GURL("http://foo.com"), net::DEFAULT_PRIORITY,
nullptr, TRAFFIC_ANNOTATION_FOR_TESTS);
net::CanonicalCookie cookie("TestCookie", "1", "www.test.com", "/",
base::Time(), base::Time(), base::Time(), false,
false, net::CookieSameSite::LAX_MODE,
net::COOKIE_PRIORITY_LOW, false);
EXPECT_TRUE(
network_context->url_request_context()->network_delegate()->CanSetCookie(
*request, cookie, nullptr, true));
SetDefaultContentSetting(CONTENT_SETTING_BLOCK, network_context.get());
EXPECT_FALSE(
network_context->url_request_context()->network_delegate()->CanSetCookie(
*request, cookie, nullptr, true));
}
TEST_F(NetworkContextTest, CanSetCookieTrueIfCookiesAllowed) {
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
net::URLRequestContext context;
std::unique_ptr<net::URLRequest> request =
context.CreateRequest(GURL("http://foo.com"), net::DEFAULT_PRIORITY,
nullptr, TRAFFIC_ANNOTATION_FOR_TESTS);
net::CanonicalCookie cookie("TestCookie", "1", "www.test.com", "/",
base::Time(), base::Time(), base::Time(), false,
false, net::CookieSameSite::LAX_MODE,
net::COOKIE_PRIORITY_LOW, false);
SetDefaultContentSetting(CONTENT_SETTING_ALLOW, network_context.get());
EXPECT_TRUE(
network_context->url_request_context()->network_delegate()->CanSetCookie(
*request, cookie, nullptr, true));
}
TEST_F(NetworkContextTest, CanGetCookiesFalseIfCookiesBlocked) {
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
net::URLRequestContext context;
std::unique_ptr<net::URLRequest> request =
context.CreateRequest(GURL("http://foo.com"), net::DEFAULT_PRIORITY,
nullptr, TRAFFIC_ANNOTATION_FOR_TESTS);
EXPECT_TRUE(
network_context->url_request_context()->network_delegate()->CanGetCookies(
*request, true));
SetDefaultContentSetting(CONTENT_SETTING_BLOCK, network_context.get());
EXPECT_FALSE(
network_context->url_request_context()->network_delegate()->CanGetCookies(
*request, true));
}
TEST_F(NetworkContextTest, CanGetCookiesTrueIfCookiesAllowed) {
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
net::URLRequestContext context;
std::unique_ptr<net::URLRequest> request =
context.CreateRequest(GURL("http://foo.com"), net::DEFAULT_PRIORITY,
nullptr, TRAFFIC_ANNOTATION_FOR_TESTS);
SetDefaultContentSetting(CONTENT_SETTING_ALLOW, network_context.get());
EXPECT_TRUE(
network_context->url_request_context()->network_delegate()->CanGetCookies(
*request, true));
}
// Gets notified by the EmbeddedTestServer on incoming connections being
// accepted or read from, keeps track of them and exposes that info to
// the tests.
// A port being reused is currently considered an error. If a test
// needs to verify multiple connections are opened in sequence, that will need
// to be changed.
class ConnectionListener
: public net::test_server::EmbeddedTestServerConnectionListener {
public:
ConnectionListener() = default;
~ConnectionListener() override = default;
// Get called from the EmbeddedTestServer thread to be notified that
// a connection was accepted.
std::unique_ptr<net::StreamSocket> AcceptedSocket(
std::unique_ptr<net::StreamSocket> connection) override {
base::AutoLock lock(lock_);
uint16_t socket = GetPort(*connection);
EXPECT_TRUE(sockets_.find(socket) == sockets_.end());
sockets_[socket] = SOCKET_ACCEPTED;
total_sockets_seen_++;
CheckAccepted();
return connection;
}
// Get called from the EmbeddedTestServer thread to be notified that
// a connection was read from.
void ReadFromSocket(const net::StreamSocket& connection, int rv) override {
EXPECT_GE(rv, net::OK);
}
// Wait for exactly |n| items in |sockets_|. |n| must be greater than 0.
void WaitForAcceptedConnections(size_t num_connections) {
DCHECK(on_done_accepting_connections_.is_null());
DCHECK_GT(num_connections, 0u);
base::RunLoop run_loop;
{
base::AutoLock lock(lock_);
EXPECT_GE(num_connections, sockets_.size() - total_sockets_waited_for_);
// QuitWhenIdle() instead of regular Quit() because in Preconnect tests we
// count "idle_socket_count" but tasks posted synchronously after
// AcceptedSocket() need to resolve before the new sockets are considered
// idle.
on_done_accepting_connections_ = run_loop.QuitWhenIdleClosure();
num_accepted_connections_needed_ = num_connections;
CheckAccepted();
}
// Note that the previous call to CheckAccepted can quit this run loop
// before this call, which will make this call a no-op.
run_loop.Run();
// Grab the mutex again and make sure that the number of accepted sockets is
// indeed |num_connections|.
base::AutoLock lock(lock_);
total_sockets_waited_for_ += num_connections;
EXPECT_EQ(total_sockets_seen_, total_sockets_waited_for_);
}
// Helper function to stop the waiting for sockets to be accepted for
// WaitForAcceptedConnections. |num_accepted_connections_loop_| spins
// until |num_accepted_connections_needed_| sockets are accepted by the test
// server. The values will be null/0 if the loop is not running.
void CheckAccepted() {
lock_.AssertAcquired();
// |num_accepted_connections_loop_| null implies
// |num_accepted_connections_needed_| == 0.
DCHECK(!on_done_accepting_connections_.is_null() ||
num_accepted_connections_needed_ == 0);
if (on_done_accepting_connections_.is_null() ||
num_accepted_connections_needed_ !=
sockets_.size() - total_sockets_waited_for_) {
return;
}
num_accepted_connections_needed_ = 0;
std::move(on_done_accepting_connections_).Run();
}
int GetTotalSocketsSeen() const {
base::AutoLock lock(lock_);
return total_sockets_seen_;
}
private:
static uint16_t GetPort(const net::StreamSocket& connection) {
// Get the remote port of the peer, since the local port will always be the
// port the test server is listening on. This isn't strictly correct - it's
// possible for multiple peers to connect with the same remote port but
// different remote IPs - but the tests here assume that connections to the
// test server (running on localhost) will always come from localhost, and
// thus the peer port is all thats needed to distinguish two connections.
// This also would be problematic if the OS reused ports, but that's not
// something to worry about for these tests.
net::IPEndPoint address;
EXPECT_EQ(net::OK, connection.GetPeerAddress(&address));
return address.port();
}
int total_sockets_seen_ = 0;
int total_sockets_waited_for_ = 0;
enum SocketStatus { SOCKET_ACCEPTED, SOCKET_READ_FROM };
// This lock protects all the members below, which each are used on both the
// IO and UI thread. Members declared after the lock are protected by it.
mutable base::Lock lock_;
typedef std::map<uint16_t, SocketStatus> SocketContainer;
SocketContainer sockets_;
// If |num_accepted_connections_needed_| is non zero, then the object is
// waiting for |num_accepted_connections_needed_| sockets to be accepted
// before invoking |on_done_accepting_connections_|.
size_t num_accepted_connections_needed_ = 0;
base::OnceClosure on_done_accepting_connections_;
DISALLOW_COPY_AND_ASSIGN(ConnectionListener);
};
TEST_F(NetworkContextTest, PreconnectOne) {
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
ConnectionListener connection_listener;
net::EmbeddedTestServer test_server;
test_server.SetConnectionListener(&connection_listener);
ASSERT_TRUE(test_server.Start());
network_context->PreconnectSockets(1, test_server.base_url(),
/*allow_credentials=*/true,
net::NetworkIsolationKey());
connection_listener.WaitForAcceptedConnections(1u);
}
TEST_F(NetworkContextTest, PreconnectHSTS) {
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
ConnectionListener connection_listener;
net::EmbeddedTestServer test_server(net::EmbeddedTestServer::TYPE_HTTPS);
test_server.SetConnectionListener(&connection_listener);
ASSERT_TRUE(test_server.Start());
const GURL server_http_url = GetHttpUrlFromHttps(test_server.base_url());
network_context->PreconnectSockets(1, server_http_url,
/*allow_credentials=*/false,
net::NetworkIsolationKey());
connection_listener.WaitForAcceptedConnections(1u);
int num_sockets = GetSocketCountForGroup(
network_context.get(),
"pm/" + net::HostPortPair::FromURL(server_http_url).ToString());
EXPECT_EQ(num_sockets, 1);
const base::Time expiry =
base::Time::Now() + base::TimeDelta::FromSeconds(1000);
network_context->url_request_context()->transport_security_state()->AddHSTS(
server_http_url.host(), expiry, false);
network_context->PreconnectSockets(1, server_http_url,
/*allow_credentials=*/false,
net::NetworkIsolationKey());
connection_listener.WaitForAcceptedConnections(1u);
// If HSTS weren't respected, the initial connection would have been reused.
num_sockets = GetSocketCountForGroup(
network_context.get(),
"pm/ssl/" + net::HostPortPair::FromURL(server_http_url).ToString());
EXPECT_EQ(num_sockets, 1);
}
TEST_F(NetworkContextTest, PreconnectZero) {
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
ConnectionListener connection_listener;
net::EmbeddedTestServer test_server;
test_server.SetConnectionListener(&connection_listener);
ASSERT_TRUE(test_server.Start());
network_context->PreconnectSockets(0, test_server.base_url(),
/*allow_credentials=*/true,
net::NetworkIsolationKey());
base::RunLoop().RunUntilIdle();
int num_sockets =
GetSocketPoolInfo(network_context.get(), "idle_socket_count");
ASSERT_EQ(num_sockets, 0);
int num_connecting_sockets =
GetSocketPoolInfo(network_context.get(), "connecting_socket_count");
ASSERT_EQ(num_connecting_sockets, 0);
}
TEST_F(NetworkContextTest, PreconnectTwo) {
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
ConnectionListener connection_listener;
net::EmbeddedTestServer test_server;
test_server.SetConnectionListener(&connection_listener);
ASSERT_TRUE(test_server.Start());
network_context->PreconnectSockets(2, test_server.base_url(),
/*allow_credentials=*/true,
net::NetworkIsolationKey());
connection_listener.WaitForAcceptedConnections(2u);
int num_sockets =
GetSocketPoolInfo(network_context.get(), "idle_socket_count");
ASSERT_EQ(num_sockets, 2);
}
TEST_F(NetworkContextTest, PreconnectFour) {
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
ConnectionListener connection_listener;
net::EmbeddedTestServer test_server;
test_server.SetConnectionListener(&connection_listener);
ASSERT_TRUE(test_server.Start());
network_context->PreconnectSockets(4, test_server.base_url(),
/*allow_credentials=*/true,
net::NetworkIsolationKey());
connection_listener.WaitForAcceptedConnections(4u);
int num_sockets =
GetSocketPoolInfo(network_context.get(), "idle_socket_count");
ASSERT_EQ(num_sockets, 4);
}
TEST_F(NetworkContextTest, PreconnectMax) {
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
ConnectionListener connection_listener;
net::EmbeddedTestServer test_server;
test_server.SetConnectionListener(&connection_listener);
ASSERT_TRUE(test_server.Start());
int max_num_sockets =
GetSocketPoolInfo(network_context.get(), "max_sockets_per_group");
EXPECT_GT(76, max_num_sockets);
network_context->PreconnectSockets(76, test_server.base_url(),
/*allow_credentials=*/true,
net::NetworkIsolationKey());
// Wait until |max_num_sockets| have been connected.
connection_listener.WaitForAcceptedConnections(max_num_sockets);
// This is not guaranteed to wait long enough if more than |max_num_sockets|
// connections are actually made, but experimentally, it fails consistently if
// that's the case.
base::RunLoop().RunUntilIdle();
int num_sockets =
GetSocketPoolInfo(network_context.get(), "idle_socket_count");
ASSERT_EQ(num_sockets, max_num_sockets);
}
// Make sure preconnects for the same URL but with different network isolation
// keys are not merged.
TEST_F(NetworkContextTest, PreconnectNetworkIsolationKey) {
base::test::ScopedFeatureList feature_list;
feature_list.InitAndEnableFeature(
net::features::kPartitionConnectionsByNetworkIsolationKey);
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
ConnectionListener connection_listener;
net::EmbeddedTestServer test_server;
test_server.SetConnectionListener(&connection_listener);
ASSERT_TRUE(test_server.Start());
const auto kOriginFoo = url::Origin::Create(GURL("http://foo.test"));
const auto kOriginBar = url::Origin::Create(GURL("http://bar.test"));
const net::NetworkIsolationKey kKey1(kOriginFoo, kOriginFoo);
const net::NetworkIsolationKey kKey2(kOriginBar, kOriginBar);
network_context->PreconnectSockets(1, test_server.base_url(),
/*allow_credentials=*/false, kKey1);
network_context->PreconnectSockets(2, test_server.base_url(),
/*allow_credentials=*/false, kKey2);
connection_listener.WaitForAcceptedConnections(3u);
net::ClientSocketPool::GroupId group_id1(
test_server.host_port_pair(), net::ClientSocketPool::SocketType::kHttp,
net::PrivacyMode::PRIVACY_MODE_ENABLED, kKey1,
false /* disable_secure_dns */);
EXPECT_EQ(
1, GetSocketCountForGroup(network_context.get(), group_id1.ToString()));
net::ClientSocketPool::GroupId group_id2(
test_server.host_port_pair(), net::ClientSocketPool::SocketType::kHttp,
net::PrivacyMode::PRIVACY_MODE_ENABLED, kKey2,
false /* disable_secure_dns */);
EXPECT_EQ(
2, GetSocketCountForGroup(network_context.get(), group_id2.ToString()));
}
// This tests both ClostAllConnetions and CloseIdleConnections.
TEST_F(NetworkContextTest, CloseConnections) {
// Have to close all connections first, as CloseIdleConnections leaves around
// a connection at the end of the test.
for (bool close_all_connections : {true, false}) {
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
// Use different paths to avoid running into the cache lock.
const char kPath1[] = "/foo";
const char kPath2[] = "/bar";
const char kPath3[] = "/baz";
net::EmbeddedTestServer test_server;
net::test_server::ControllableHttpResponse controllable_response1(
&test_server, kPath1);
net::test_server::ControllableHttpResponse controllable_response2(
&test_server, kPath2);
net::test_server::ControllableHttpResponse controllable_response3(
&test_server, kPath3);
ASSERT_TRUE(test_server.Start());
// Start three network requests. Requests have to all be started before any
// one of them receives a response to be sure none of them tries to reuse
// the socket created by another one.
net::TestDelegate delegate1;
base::RunLoop run_loop1;
delegate1.set_on_complete(run_loop1.QuitClosure());
std::unique_ptr<net::URLRequest> request1 =
network_context->url_request_context()->CreateRequest(
test_server.GetURL(kPath1), net::DEFAULT_PRIORITY, &delegate1,
TRAFFIC_ANNOTATION_FOR_TESTS);
request1->Start();
controllable_response1.WaitForRequest();
EXPECT_EQ(
1, GetSocketPoolInfo(network_context.get(), "handed_out_socket_count"));
net::TestDelegate delegate2;
base::RunLoop run_loop2;
delegate2.set_on_complete(run_loop2.QuitClosure());
std::unique_ptr<net::URLRequest> request2 =
network_context->url_request_context()->CreateRequest(
test_server.GetURL(kPath2), net::DEFAULT_PRIORITY, &delegate2,
TRAFFIC_ANNOTATION_FOR_TESTS);
request2->Start();
controllable_response2.WaitForRequest();
EXPECT_EQ(
2, GetSocketPoolInfo(network_context.get(), "handed_out_socket_count"));
net::TestDelegate delegate3;
base::RunLoop run_loop3;
delegate3.set_on_complete(run_loop3.QuitClosure());
std::unique_ptr<net::URLRequest> request3 =
network_context->url_request_context()->CreateRequest(
test_server.GetURL(kPath3), net::DEFAULT_PRIORITY, &delegate3,
TRAFFIC_ANNOTATION_FOR_TESTS);
request3->Start();
controllable_response3.WaitForRequest();
EXPECT_EQ(
3, GetSocketPoolInfo(network_context.get(), "handed_out_socket_count"));
// Complete the first two requests successfully, with a keep-alive response.
// The EmbeddedTestServer doesn't actually support connection reuse, but
// this will send a raw response that will make the network stack think it
// does, and will cause the connection not to be closed.
controllable_response1.Send(
"HTTP/1.1 200 OK\r\n"
"Connection: keep-alive\r\n"
"Content-Length: 0\r\n\r\n");
controllable_response2.Send(
"HTTP/1.1 200 OK\r\n"
"Connection: keep-alive\r\n"
"Content-Length: 0\r\n\r\n");
run_loop1.Run();
run_loop2.Run();
// There should now be 2 idle and one handed out socket.
EXPECT_EQ(2, GetSocketPoolInfo(network_context.get(), "idle_socket_count"));
EXPECT_EQ(
1, GetSocketPoolInfo(network_context.get(), "handed_out_socket_count"));
// Closing all or idle connections should result in closing the idle
// sockets, but the handed out socket can't be closed.
base::RunLoop run_loop;
if (close_all_connections) {
network_context->CloseAllConnections(run_loop.QuitClosure());
} else {
network_context->CloseIdleConnections(run_loop.QuitClosure());
}
run_loop.Run();
EXPECT_EQ(0, GetSocketPoolInfo(network_context.get(), "idle_socket_count"));
EXPECT_EQ(
1, GetSocketPoolInfo(network_context.get(), "handed_out_socket_count"));
// The final request completes. In the close all connections case, its
// socket should be closed as soon as it is returned to the pool, but in the
// CloseIdleConnections case, it is added to the pool as an idle socket.
controllable_response3.Send(
"HTTP/1.1 200 OK\r\n"
"Connection: keep-alive\r\n"
"Content-Length: 0\r\n\r\n");
run_loop3.Run();
EXPECT_EQ(close_all_connections ? 0 : 1,
GetSocketPoolInfo(network_context.get(), "idle_socket_count"));
EXPECT_EQ(
0, GetSocketPoolInfo(network_context.get(), "handed_out_socket_count"));
}
}
// Test that only trusted URLLoaderFactories accept
// ResourceRequest::trusted_params.
TEST_F(NetworkContextTest, TrustedParams) {
for (bool trusted_factory : {false, true}) {
ConnectionListener connection_listener;
net::EmbeddedTestServer test_server;
test_server.AddDefaultHandlers(
base::FilePath(FILE_PATH_LITERAL("services/test/data")));
test_server.SetConnectionListener(&connection_listener);
ASSERT_TRUE(test_server.Start());
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
mojo::Remote<mojom::URLLoaderFactory> loader_factory;
mojom::URLLoaderFactoryParamsPtr params =
mojom::URLLoaderFactoryParams::New();
params->process_id = mojom::kBrowserProcessId;
params->is_corb_enabled = false;
// URLLoaderFactories should not be trusted by default.
EXPECT_FALSE(params->is_trusted);
params->is_trusted = trusted_factory;
network_context->CreateURLLoaderFactory(
loader_factory.BindNewPipeAndPassReceiver(), std::move(params));
ResourceRequest request;
request.url = test_server.GetURL("/echo");
request.trusted_params = ResourceRequest::TrustedParams();
mojo::PendingRemote<mojom::URLLoader> loader;
TestURLLoaderClient client;
loader_factory->CreateLoaderAndStart(
loader.InitWithNewPipeAndPassReceiver(), 0 /* routing_id */,
0 /* request_id */, 0 /* options */, request, client.CreateRemote(),
net::MutableNetworkTrafficAnnotationTag(TRAFFIC_ANNOTATION_FOR_TESTS));
client.RunUntilComplete();
// If the factory was trusted, the request should have succeeded. Otherwise,
// it should have failed.
EXPECT_EQ(trusted_factory, client.has_received_response());
if (trusted_factory) {
EXPECT_THAT(client.completion_status().error_code, net::test::IsOk());
EXPECT_EQ(1, connection_listener.GetTotalSocketsSeen());
} else {
EXPECT_THAT(client.completion_status().error_code,
net::test::IsError(net::ERR_INVALID_ARGUMENT));
// No connection should have been made to the test server.
EXPECT_EQ(0, connection_listener.GetTotalSocketsSeen());
}
}
}
// Test that the disable_secure_dns trusted param is passed through to the
// host resolver.
TEST_F(NetworkContextTest, TrustedParams_DisableSecureDns) {
std::unique_ptr<net::MockHostResolver> resolver =
std::make_unique<net::MockHostResolver>();
std::unique_ptr<net::TestURLRequestContext> url_request_context =
std::make_unique<net::TestURLRequestContext>(
true /* delay_initialization */);
url_request_context->set_host_resolver(resolver.get());
url_request_context->Init();
network_context_remote_.reset();
std::unique_ptr<NetworkContext> network_context =
std::make_unique<NetworkContext>(
network_service_.get(),
network_context_remote_.BindNewPipeAndPassReceiver(),
url_request_context.get(),
/*cors_exempt_header_list=*/std::vector<std::string>());
mojo::Remote<mojom::URLLoaderFactory> loader_factory;
mojom::URLLoaderFactoryParamsPtr params =
mojom::URLLoaderFactoryParams::New();
params->process_id = mojom::kBrowserProcessId;
params->is_corb_enabled = false;
params->is_trusted = true;
network_context->CreateURLLoaderFactory(
loader_factory.BindNewPipeAndPassReceiver(), std::move(params));
for (bool disable_secure_dns : {false, true}) {
ResourceRequest request;
request.url = GURL("http://example.test");
request.load_flags = net::LOAD_BYPASS_CACHE;
request.trusted_params = ResourceRequest::TrustedParams();
request.trusted_params->disable_secure_dns = disable_secure_dns;
mojo::PendingRemote<mojom::URLLoader> loader;
TestURLLoaderClient client;
loader_factory->CreateLoaderAndStart(
loader.InitWithNewPipeAndPassReceiver(), 0 /* routing_id */,
0 /* request_id */, 0 /* options */, request, client.CreateRemote(),
net::MutableNetworkTrafficAnnotationTag(TRAFFIC_ANNOTATION_FOR_TESTS));
client.RunUntilComplete();
EXPECT_EQ(disable_secure_dns,
resolver->last_secure_dns_mode_override().has_value());
if (disable_secure_dns) {
EXPECT_EQ(net::SecureDnsMode::kOff,
resolver->last_secure_dns_mode_override().value());
}
}
}
// Test that the disable_secure_dns factory param is passed through to the
// host resolver.
TEST_F(NetworkContextTest, FactoryParams_DisableSecureDns) {
net::MockHostResolver resolver;
net::TestURLRequestContext url_request_context(
true /* delay_initialization */);
url_request_context.set_host_resolver(&resolver);
url_request_context.Init();
network_context_remote_.reset();
NetworkContext network_context(
network_service_.get(),
network_context_remote_.BindNewPipeAndPassReceiver(),
&url_request_context,
/*cors_exempt_header_list=*/std::vector<std::string>());
for (bool disable_secure_dns : {false, true}) {
mojo::Remote<mojom::URLLoaderFactory> loader_factory;
mojom::URLLoaderFactoryParamsPtr params =
mojom::URLLoaderFactoryParams::New();
params->process_id = mojom::kBrowserProcessId;
params->is_corb_enabled = false;
params->disable_secure_dns = disable_secure_dns;
network_context.CreateURLLoaderFactory(
loader_factory.BindNewPipeAndPassReceiver(), std::move(params));
ResourceRequest request;
request.url = GURL("http://example.test");
request.load_flags = net::LOAD_BYPASS_CACHE;
auto client = std::make_unique<TestURLLoaderClient>();
mojo::Remote<mojom::URLLoader> loader;
loader_factory->CreateLoaderAndStart(
loader.BindNewPipeAndPassReceiver(), 0 /* routing_id */,
0 /* request_id */, 0 /* options */, request, client->CreateRemote(),
net::MutableNetworkTrafficAnnotationTag(TRAFFIC_ANNOTATION_FOR_TESTS));
client->RunUntilComplete();
EXPECT_EQ(disable_secure_dns,
resolver.last_secure_dns_mode_override().has_value());
if (disable_secure_dns) {
EXPECT_EQ(net::SecureDnsMode::kOff,
resolver.last_secure_dns_mode_override().value());
}
}
}
#if BUILDFLAG(IS_CT_SUPPORTED)
TEST_F(NetworkContextTest, ExpectCT) {
base::test::ScopedFeatureList feature_list;
feature_list.InitAndEnableFeature(
net::features::kPartitionExpectCTStateByNetworkIsolationKey);
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
const char kTestDomain[] = "example.com";
const base::Time expiry =
base::Time::Now() + base::TimeDelta::FromSeconds(1000);
const bool enforce = true;
const GURL report_uri = GURL("https://example.com/foo/bar");
net::NetworkIsolationKey network_isolation_key =
net::NetworkIsolationKey::CreateTransient();
// Assert we start with no data for the test host.
{
base::Value state;
base::RunLoop run_loop;
network_context->GetExpectCTState(
kTestDomain, network_isolation_key,
base::BindOnce(&StoreValue, &state, run_loop.QuitClosure()));
run_loop.Run();
EXPECT_TRUE(state.is_dict());
const base::Value* result =
state.FindKeyOfType("result", base::Value::Type::BOOLEAN);
ASSERT_TRUE(result != nullptr);
EXPECT_FALSE(result->GetBool());
}
// Add the host data.
{
base::RunLoop run_loop;
bool result = false;
network_context->AddExpectCT(
kTestDomain, expiry, enforce, report_uri, network_isolation_key,
base::BindOnce(&StoreBool, &result, run_loop.QuitClosure()));
run_loop.Run();
EXPECT_TRUE(result);
}
// Assert added host data is returned.
{
base::Value state;
base::RunLoop run_loop;
network_context->GetExpectCTState(
kTestDomain, network_isolation_key,
base::BindOnce(&StoreValue, &state, run_loop.QuitClosure()));
run_loop.Run();
EXPECT_TRUE(state.is_dict());
const base::Value* value = state.FindKeyOfType("dynamic_expect_ct_domain",
base::Value::Type::STRING);
ASSERT_TRUE(value != nullptr);
EXPECT_EQ(kTestDomain, value->GetString());
value = state.FindKeyOfType("dynamic_expect_ct_expiry",
base::Value::Type::DOUBLE);
ASSERT_TRUE(value != nullptr);
EXPECT_EQ(expiry.ToDoubleT(), value->GetDouble());
value = state.FindKeyOfType("dynamic_expect_ct_enforce",
base::Value::Type::BOOLEAN);
ASSERT_TRUE(value != nullptr);
EXPECT_EQ(enforce, value->GetBool());
value = state.FindKeyOfType("dynamic_expect_ct_report_uri",
base::Value::Type::STRING);
ASSERT_TRUE(value != nullptr);
EXPECT_EQ(report_uri, value->GetString());
}
// Using a different NetworkIsolationKey should return no result.
{
base::Value state;
base::RunLoop run_loop;
network_context->GetExpectCTState(
kTestDomain, net::NetworkIsolationKey::CreateTransient(),
base::BindOnce(&StoreValue, &state, run_loop.QuitClosure()));
run_loop.Run();
EXPECT_TRUE(state.is_dict());
const base::Value* result =
state.FindKeyOfType("result", base::Value::Type::BOOLEAN);
ASSERT_TRUE(result != nullptr);
EXPECT_FALSE(result->GetBool());
}
// Delete host data.
{
bool result;
base::RunLoop run_loop;
network_context->DeleteDynamicDataForHost(
kTestDomain,
base::BindOnce(&StoreBool, &result, run_loop.QuitClosure()));
run_loop.Run();
EXPECT_TRUE(result);
}
// Assert data is removed.
{
base::Value state;
base::RunLoop run_loop;
network_context->GetExpectCTState(
kTestDomain, network_isolation_key,
base::BindOnce(&StoreValue, &state, run_loop.QuitClosure()));
run_loop.Run();
EXPECT_TRUE(state.is_dict());
const base::Value* result =
state.FindKeyOfType("result", base::Value::Type::BOOLEAN);
ASSERT_TRUE(result != nullptr);
EXPECT_FALSE(result->GetBool());
}
}
TEST_F(NetworkContextTest, SetExpectCTTestReport) {
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
net::EmbeddedTestServer test_server;
std::set<GURL> requested_urls;
auto monitor_callback = base::BindLambdaForTesting(
[&](const net::test_server::HttpRequest& request) {
requested_urls.insert(request.GetURL());
});
test_server.RegisterRequestMonitor(monitor_callback);
ASSERT_TRUE(test_server.Start());
const GURL kReportURL = test_server.base_url().Resolve("/report/path");
base::RunLoop run_loop;
bool result = false;
network_context->SetExpectCTTestReport(
kReportURL, base::BindOnce(&StoreBool, &result, run_loop.QuitClosure()));
run_loop.Run();
EXPECT_FALSE(result);
EXPECT_TRUE(base::Contains(requested_urls, kReportURL));
}
#endif // BUILDFLAG(IS_CT_SUPPORTED)
TEST_F(NetworkContextTest, QueryHSTS) {
const char kTestDomain[] = "example.com";
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
bool result = false, got_result = false;
network_context->IsHSTSActiveForHost(
kTestDomain, base::BindLambdaForTesting([&](bool is_hsts) {
result = is_hsts;
got_result = true;
}));
EXPECT_TRUE(got_result);
EXPECT_FALSE(result);
base::RunLoop run_loop;
network_context->AddHSTS(
kTestDomain, base::Time::Now() + base::TimeDelta::FromDays(1000),
false /*include_subdomains*/, run_loop.QuitClosure());
run_loop.Run();
bool result2 = false, got_result2 = false;
network_context->IsHSTSActiveForHost(
kTestDomain, base::BindLambdaForTesting([&](bool is_hsts) {
result2 = is_hsts;
got_result2 = true;
}));
EXPECT_TRUE(got_result2);
EXPECT_TRUE(result2);
}
TEST_F(NetworkContextTest, GetHSTSState) {
const char kTestDomain[] = "example.com";
const base::Time expiry =
base::Time::Now() + base::TimeDelta::FromSeconds(1000);
const GURL report_uri = GURL("https://example.com/foo/bar");
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
base::Value state;
{
base::RunLoop run_loop;
network_context->GetHSTSState(
kTestDomain,
base::BindOnce(&StoreValue, &state, run_loop.QuitClosure()));
run_loop.Run();
}
EXPECT_TRUE(state.is_dict());
const base::Value* result =
state.FindKeyOfType("result", base::Value::Type::BOOLEAN);
ASSERT_TRUE(result != nullptr);
EXPECT_FALSE(result->GetBool());
{
base::RunLoop run_loop;
network_context->AddHSTS(kTestDomain, expiry, false /*include_subdomains*/,
run_loop.QuitClosure());
run_loop.Run();
}
{
base::RunLoop run_loop;
network_context->GetHSTSState(
kTestDomain,
base::BindOnce(&StoreValue, &state, run_loop.QuitClosure()));
run_loop.Run();
}
EXPECT_TRUE(state.is_dict());
result = state.FindKeyOfType("result", base::Value::Type::BOOLEAN);
ASSERT_TRUE(result != nullptr);
EXPECT_TRUE(result->GetBool());
// Not checking all values - only enough to ensure the underlying call
// was made.
const base::Value* value =
state.FindKeyOfType("dynamic_sts_domain", base::Value::Type::STRING);
ASSERT_TRUE(value != nullptr);
EXPECT_EQ(kTestDomain, value->GetString());
value = state.FindKeyOfType("dynamic_sts_expiry", base::Value::Type::DOUBLE);
ASSERT_TRUE(value != nullptr);
EXPECT_EQ(expiry.ToDoubleT(), value->GetDouble());
}
TEST_F(NetworkContextTest, ForceReloadProxyConfig) {
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
auto net_log_exporter =
std::make_unique<network::NetLogExporter>(network_context.get());
base::FilePath net_log_path;
ASSERT_TRUE(base::CreateTemporaryFile(&net_log_path));
{
base::File net_log_file(
net_log_path, base::File::FLAG_CREATE_ALWAYS | base::File::FLAG_WRITE);
EXPECT_TRUE(net_log_file.IsValid());
base::RunLoop run_loop;
int32_t start_param = 0;
auto start_callback = base::BindLambdaForTesting([&](int32_t result) {
start_param = result;
run_loop.Quit();
});
net_log_exporter->Start(
std::move(net_log_file),
/*extra_constants=*/base::Value(base::Value::Type::DICTIONARY),
net::NetLogCaptureMode::kDefault,
network::mojom::NetLogExporter::kUnlimitedFileSize, start_callback);
run_loop.Run();
EXPECT_EQ(net::OK, start_param);
}
{
base::RunLoop run_loop;
network_context->ForceReloadProxyConfig(run_loop.QuitClosure());
run_loop.Run();
}
{
base::RunLoop run_loop;
int32_t stop_param = 0;
auto stop_callback = base::BindLambdaForTesting([&](int32_t result) {
stop_param = result;
run_loop.Quit();
});
net_log_exporter->Stop(
/*polled_data=*/base::Value(base::Value::Type::DICTIONARY),
stop_callback);
run_loop.Run();
EXPECT_EQ(net::OK, stop_param);
}
std::string log_contents;
EXPECT_TRUE(base::ReadFileToString(net_log_path, &log_contents));
EXPECT_NE(std::string::npos, log_contents.find("\"new_config\""))
<< log_contents;
base::DeleteFile(net_log_path);
}
TEST_F(NetworkContextTest, ClearBadProxiesCache) {
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
net::ProxyResolutionService* proxy_resolution_service =
network_context->url_request_context()->proxy_resolution_service();
// Very starting conditions: zero bad proxies.
EXPECT_EQ(0UL, proxy_resolution_service->proxy_retry_info().size());
// Simulate network error to add one proxy to the bad proxy list.
net::ProxyInfo proxy_info;
proxy_info.UseNamedProxy("http://foo1.com");
proxy_resolution_service->ReportSuccess(proxy_info);
std::vector<net::ProxyServer> proxies;
proxies.push_back(net::ProxyServer::FromURI("http://foo1.com",
net::ProxyServer::SCHEME_HTTP));
proxy_resolution_service->MarkProxiesAsBadUntil(
proxy_info, base::TimeDelta::FromDays(1), proxies,
net::NetLogWithSource());
base::RunLoop().RunUntilIdle();
EXPECT_EQ(1UL, proxy_resolution_service->proxy_retry_info().size());
// Clear the bad proxies.
base::RunLoop run_loop;
network_context->ClearBadProxiesCache(run_loop.QuitClosure());
run_loop.Run();
// Verify all cleared.
EXPECT_EQ(0UL, proxy_resolution_service->proxy_retry_info().size());
}
// This is a test ProxyErrorClient that records the sequence of calls made to
// OnPACScriptError() and OnRequestMaybeFailedDueToProxySettings().
class TestProxyErrorClient final : public mojom::ProxyErrorClient {
public:
struct PacScriptError {
int line = -1;
std::string details;
};
TestProxyErrorClient() = default;
~TestProxyErrorClient() override {}
void OnPACScriptError(int32_t line_number,
const std::string& details) override {
on_pac_script_error_calls_.push_back({line_number, details});
}
void OnRequestMaybeFailedDueToProxySettings(int32_t net_error) override {
on_request_maybe_failed_calls_.push_back(net_error);
}
const std::vector<int>& on_request_maybe_failed_calls() const {
return on_request_maybe_failed_calls_;
}
const std::vector<PacScriptError>& on_pac_script_error_calls() const {
return on_pac_script_error_calls_;
}
// Creates an mojo::PendingRemote, binds it to |*this| and returns it.
mojo::PendingRemote<mojom::ProxyErrorClient> CreateRemote() {
mojo::PendingRemote<mojom::ProxyErrorClient> client_remote =
receiver_.BindNewPipeAndPassRemote();
receiver_.set_disconnect_handler(base::BindOnce(
&TestProxyErrorClient::OnMojoPipeError, base::Unretained(this)));
return client_remote;
}
// Runs until the message pipe is closed due to an error.
void RunUntilMojoPipeError() {
if (has_received_mojo_pipe_error_)
return;
base::RunLoop run_loop;
quit_closure_for_on_mojo_pipe_error_ = run_loop.QuitClosure();
run_loop.Run();
}
private:
void OnMojoPipeError() {
if (has_received_mojo_pipe_error_)
return;
has_received_mojo_pipe_error_ = true;
if (quit_closure_for_on_mojo_pipe_error_)
std::move(quit_closure_for_on_mojo_pipe_error_).Run();
}
mojo::Receiver<mojom::ProxyErrorClient> receiver_{this};
base::OnceClosure quit_closure_for_on_mojo_pipe_error_;
bool has_received_mojo_pipe_error_ = false;
std::vector<int> on_request_maybe_failed_calls_;
std::vector<PacScriptError> on_pac_script_error_calls_;
DISALLOW_COPY_AND_ASSIGN(TestProxyErrorClient);
};
// While in scope, all host resolutions will fail with ERR_NAME_NOT_RESOLVED,
// including localhost (so this precludes the use of embedded test server).
class ScopedFailAllHostResolutions {
public:
ScopedFailAllHostResolutions()
: mock_resolver_proc_(new net::RuleBasedHostResolverProc(nullptr)),
default_resolver_proc_(mock_resolver_proc_.get()) {
mock_resolver_proc_->AddSimulatedFailure("*");
}
private:
scoped_refptr<net::RuleBasedHostResolverProc> mock_resolver_proc_;
net::ScopedDefaultHostResolverProc default_resolver_proc_;
};
// Tests that when a ProxyErrorClient is provided to NetworkContextParams, this
// client's OnRequestMaybeFailedDueToProxySettings() method is called exactly
// once when a request fails due to a proxy server connectivity failure.
TEST_F(NetworkContextTest, ProxyErrorClientNotifiedOfProxyConnection) {
// Avoid the test having a network dependency on DNS.
ScopedFailAllHostResolutions fail_dns;
// Set up the NetworkContext, such that it uses an unreachable proxy
// (proxy and is configured to send "proxy errors" to
// |proxy_error_client|.
TestProxyErrorClient proxy_error_client;
mojom::NetworkContextParamsPtr context_params =
mojom::NetworkContextParams::New();
context_params->proxy_error_client = proxy_error_client.CreateRemote();
net::ProxyConfig proxy_config;
// Set the proxy to an unreachable address (host resolution fails).
proxy_config.proxy_rules().ParseFromString("proxy.bad.dns");
context_params->initial_proxy_config = net::ProxyConfigWithAnnotation(
proxy_config, TRAFFIC_ANNOTATION_FOR_TESTS);
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(context_params));
// Issue an HTTP request. It doesn't matter exactly what the URL is, since it
// will be sent to the proxy.
ResourceRequest request;
request.url = GURL("http://example.test");
mojo::Remote<mojom::URLLoaderFactory> loader_factory;
mojom::URLLoaderFactoryParamsPtr loader_params =
mojom::URLLoaderFactoryParams::New();
loader_params->process_id = mojom::kBrowserProcessId;
network_context->CreateURLLoaderFactory(
loader_factory.BindNewPipeAndPassReceiver(), std::move(loader_params));
mojo::PendingRemote<mojom::URLLoader> loader;
TestURLLoaderClient client;
loader_factory->CreateLoaderAndStart(
loader.InitWithNewPipeAndPassReceiver(), 0 /* routing_id */,
0 /* request_id */, 0 /* options */, request, client.CreateRemote(),
net::MutableNetworkTrafficAnnotationTag(TRAFFIC_ANNOTATION_FOR_TESTS));
// Confirm the the resource request failed due to an unreachable proxy.
client.RunUntilComplete();
EXPECT_THAT(client.completion_status().error_code,
net::test::IsError(net::ERR_PROXY_CONNECTION_FAILED));
// Tear down the network context and wait for a pipe error to ensure
// that all queued messages on |proxy_error_client| have been processed.
network_context.reset();
proxy_error_client.RunUntilMojoPipeError();
// Confirm that the ProxyErrorClient received the expected calls.
const auto& request_errors =
proxy_error_client.on_request_maybe_failed_calls();
const auto& pac_errors = proxy_error_client.on_pac_script_error_calls();
ASSERT_EQ(1u, request_errors.size());
EXPECT_THAT(request_errors[0],
net::test::IsError(net::ERR_PROXY_CONNECTION_FAILED));
EXPECT_EQ(0u, pac_errors.size());
}
// Tests that when a ProxyErrorClient is provided to NetworkContextParams, this
// client's OnRequestMaybeFailedDueToProxySettings() method is
// NOT called when a request fails due to a non-proxy related error (in this
// case the target host is unreachable).
TEST_F(NetworkContextTest, ProxyErrorClientNotNotifiedOfUnreachableError) {
// Avoid the test having a network dependency on DNS.
ScopedFailAllHostResolutions fail_dns;
// Set up the NetworkContext that uses the default DIRECT proxy
// configuration.
TestProxyErrorClient proxy_error_client;
mojom::NetworkContextParamsPtr context_params = CreateContextParams();
context_params->proxy_error_client = proxy_error_client.CreateRemote();
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(context_params));
// Issue an HTTP request to an unreachable URL.
ResourceRequest request;
request.url = GURL("http://server.bad.dns/fail");
mojo::Remote<mojom::URLLoaderFactory> loader_factory;
mojom::URLLoaderFactoryParamsPtr loader_params =
mojom::URLLoaderFactoryParams::New();
loader_params->process_id = mojom::kBrowserProcessId;
network_context->CreateURLLoaderFactory(
loader_factory.BindNewPipeAndPassReceiver(), std::move(loader_params));
mojo::PendingRemote<mojom::URLLoader> loader;
TestURLLoaderClient client;
loader_factory->CreateLoaderAndStart(
loader.InitWithNewPipeAndPassReceiver(), 0 /* routing_id */,
0 /* request_id */, 0 /* options */, request, client.CreateRemote(),
net::MutableNetworkTrafficAnnotationTag(TRAFFIC_ANNOTATION_FOR_TESTS));
// Confirm the the resource request failed.
client.RunUntilComplete();
EXPECT_THAT(client.completion_status().error_code,
net::test::IsError(net::ERR_NAME_NOT_RESOLVED));
// Tear down the network context and wait for a pipe error to ensure
// that all queued messages on |proxy_error_client| have been processed.
network_context.reset();
proxy_error_client.RunUntilMojoPipeError();
// Confirm that the ProxyErrorClient received no calls.
const auto& request_errors =
proxy_error_client.on_request_maybe_failed_calls();
const auto& pac_errors = proxy_error_client.on_pac_script_error_calls();
EXPECT_EQ(0u, request_errors.size());
EXPECT_EQ(0u, pac_errors.size());
}
// Tests that when a ProxyErrorClient is provided to NetworkContextParams, this
// client's OnPACScriptError() method is called whenever the PAC script throws
// an error.
TEST_F(NetworkContextTest, ProxyErrorClientNotifiedOfPacError) {
// Avoid the test having a network dependency on DNS.
ScopedFailAllHostResolutions fail_dns;
// Set up the NetworkContext so that it sends "proxy errors" to
// |proxy_error_client|, and uses a mock ProxyResolverFactory that emits
// script errors.
TestProxyErrorClient proxy_error_client;
mojom::NetworkContextParamsPtr context_params =
mojom::NetworkContextParams::New();
context_params->proxy_error_client = proxy_error_client.CreateRemote();
#if BUILDFLAG(IS_ASH)
context_params->dhcp_wpad_url_client =
network::MockMojoDhcpWpadUrlClient::CreateWithSelfOwnedReceiver(
std::string());
#endif // BUILDFLAG(IS_ASH)
// The PAC URL doesn't matter, since the test is configured to use a
// mock ProxyResolverFactory which doesn't actually evaluate it. It just
// needs to be a data: URL to ensure the network fetch doesn't fail.
//
// That said, the mock PAC evalulator being used behaves similarly to the
// script embedded in the data URL below.
net::ProxyConfig proxy_config = net::ProxyConfig::CreateFromCustomPacURL(
GURL("data:,function FindProxyForURL(url,host){throw url}"));
context_params->initial_proxy_config = net::ProxyConfigWithAnnotation(
proxy_config, TRAFFIC_ANNOTATION_FOR_TESTS);
context_params->proxy_resolver_factory =
MockMojoProxyResolverFactory::Create();
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(context_params));
// Issue an HTTP request. This will end up being sent DIRECT since the PAC
// script is broken.
ResourceRequest request;
request.url = GURL("http://server.bad.dns");
mojo::Remote<mojom::URLLoaderFactory> loader_factory;
mojom::URLLoaderFactoryParamsPtr loader_params =
mojom::URLLoaderFactoryParams::New();
loader_params->process_id = mojom::kBrowserProcessId;
network_context->CreateURLLoaderFactory(
loader_factory.BindNewPipeAndPassReceiver(), std::move(loader_params));
mojo::PendingRemote<mojom::URLLoader> loader;
TestURLLoaderClient client;
loader_factory->CreateLoaderAndStart(
loader.InitWithNewPipeAndPassReceiver(), 0 /* routing_id */,
0 /* request_id */, 0 /* options */, request, client.CreateRemote(),
net::MutableNetworkTrafficAnnotationTag(TRAFFIC_ANNOTATION_FOR_TESTS));
// Confirm the the resource request failed.
client.RunUntilComplete();
EXPECT_THAT(client.completion_status().error_code,
net::test::IsError(net::ERR_NAME_NOT_RESOLVED));
// Tear down the network context and wait for a pipe error to ensure
// that all queued messages on |proxy_error_client| have been processed.
network_context.reset();
proxy_error_client.RunUntilMojoPipeError();
// Confirm that the ProxyErrorClient received the expected calls.
const auto& request_errors =
proxy_error_client.on_request_maybe_failed_calls();
const auto& pac_errors = proxy_error_client.on_pac_script_error_calls();
EXPECT_EQ(0u, request_errors.size());
ASSERT_EQ(1u, pac_errors.size());
EXPECT_EQ(pac_errors[0].line, 42);
EXPECT_EQ(pac_errors[0].details,
"Failed: FindProxyForURL(url=http://server.bad.dns/)");
}
// Test ensures that ProxyServer data is populated correctly across Mojo calls.
// Basically it performs a set of URLLoader network requests, whose requests
// configure proxies. Then it checks whether the expected proxy scheme is
// respected.
TEST_F(NetworkContextTest, EnsureProperProxyServerIsUsed) {
net::test_server::EmbeddedTestServer test_server;
test_server.AddDefaultHandlers(
base::FilePath(FILE_PATH_LITERAL("services/test/data")));
ASSERT_TRUE(test_server.Start());
struct ProxyConfigSet {
net::ProxyConfig proxy_config;
GURL url;
net::ProxyServer::Scheme expected_proxy_config_scheme;
} proxy_config_set[2];
proxy_config_set[0].proxy_config.proxy_rules().ParseFromString(
"http=" + test_server.host_port_pair().ToString());
proxy_config_set[0].url = GURL("http://does.not.matter/echo");
proxy_config_set[0].expected_proxy_config_scheme =
net::ProxyServer::SCHEME_HTTP;
proxy_config_set[1].proxy_config.proxy_rules().ParseFromString(
"http=direct://");
proxy_config_set[1]
.proxy_config.proxy_rules()
.bypass_rules.AddRulesToSubtractImplicit();
proxy_config_set[1].url = test_server.GetURL("/echo");
proxy_config_set[1].expected_proxy_config_scheme =
net::ProxyServer::SCHEME_DIRECT;
for (const auto& proxy_data : proxy_config_set) {
mojom::NetworkContextParamsPtr context_params = CreateContextParams();
context_params->initial_proxy_config = net::ProxyConfigWithAnnotation(
proxy_data.proxy_config, TRAFFIC_ANNOTATION_FOR_TESTS);
mojo::Remote<mojom::ProxyConfigClient> config_client;
context_params->proxy_config_client_receiver =
config_client.BindNewPipeAndPassReceiver();
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(context_params));
mojo::Remote<mojom::URLLoaderFactory> loader_factory;
mojom::URLLoaderFactoryParamsPtr params =
mojom::URLLoaderFactoryParams::New();
params->process_id = 0;
network_context->CreateURLLoaderFactory(
loader_factory.BindNewPipeAndPassReceiver(), std::move(params));
ResourceRequest request;
request.url = proxy_data.url;
mojo::PendingRemote<mojom::URLLoader> loader;
TestURLLoaderClient client;
loader_factory->CreateLoaderAndStart(
loader.InitWithNewPipeAndPassReceiver(), 0 /* routing_id */,
0 /* request_id */, 0 /* options */, request, client.CreateRemote(),
net::MutableNetworkTrafficAnnotationTag(TRAFFIC_ANNOTATION_FOR_TESTS));
client.RunUntilComplete();
EXPECT_TRUE(client.has_received_completion());
EXPECT_EQ(client.response_head()->proxy_server.scheme(),
proxy_data.expected_proxy_config_scheme);
}
}
class TestURLLoaderHeaderClient : public mojom::TrustedURLLoaderHeaderClient {
public:
class TestHeaderClient : public mojom::TrustedHeaderClient {
public:
TestHeaderClient() {}
// network::mojom::TrustedHeaderClient:
void OnBeforeSendHeaders(const net::HttpRequestHeaders& headers,
OnBeforeSendHeadersCallback callback) override {
auto new_headers = headers;
new_headers.SetHeader("foo", "bar");
std::move(callback).Run(on_before_send_headers_result_, new_headers);
}
void OnHeadersReceived(const std::string& headers,
const net::IPEndPoint& endpoint,
OnHeadersReceivedCallback callback) override {
auto new_headers =
base::MakeRefCounted<net::HttpResponseHeaders>(headers);
new_headers->SetHeader("baz", "qux");
std::move(callback).Run(on_headers_received_result_,
new_headers->raw_headers(), GURL());
}
void set_on_before_send_headers_result(int result) {
on_before_send_headers_result_ = result;
}
void set_on_headers_received_result(int result) {
on_headers_received_result_ = result;
}
void Bind(
mojo::PendingReceiver<network::mojom::TrustedHeaderClient> receiver) {
receiver_.reset();
receiver_.Bind(std::move(receiver));
}
private:
int on_before_send_headers_result_ = net::OK;
int on_headers_received_result_ = net::OK;
mojo::Receiver<mojom::TrustedHeaderClient> receiver_{this};
DISALLOW_COPY_AND_ASSIGN(TestHeaderClient);
};
explicit TestURLLoaderHeaderClient(
mojo::PendingReceiver<mojom::TrustedURLLoaderHeaderClient> receiver)
: receiver_(this, std::move(receiver)) {}
// network::mojom::TrustedURLLoaderHeaderClient:
void OnLoaderCreated(
int32_t request_id,
mojo::PendingReceiver<network::mojom::TrustedHeaderClient> receiver)
override {
header_client_.Bind(std::move(receiver));
}
void OnLoaderForCorsPreflightCreated(
const ResourceRequest& request,
mojo::PendingReceiver<mojom::TrustedHeaderClient> receiver) override {
header_client_.Bind(std::move(receiver));
}
void set_on_before_send_headers_result(int result) {
header_client_.set_on_before_send_headers_result(result);
}
void set_on_headers_received_result(int result) {
header_client_.set_on_headers_received_result(result);
}
private:
TestHeaderClient header_client_;
mojo::Receiver<mojom::TrustedURLLoaderHeaderClient> receiver_;
DISALLOW_COPY_AND_ASSIGN(TestURLLoaderHeaderClient);
};
TEST_F(NetworkContextTest, HeaderClientModifiesHeaders) {
net::EmbeddedTestServer test_server;
net::test_server::RegisterDefaultHandlers(&test_server);
ASSERT_TRUE(test_server.Start());
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
ResourceRequest request;
request.url = test_server.GetURL("/echoheader?foo");
mojo::Remote<mojom::URLLoaderFactory> loader_factory;
mojom::URLLoaderFactoryParamsPtr params =
mojom::URLLoaderFactoryParams::New();
params->process_id = mojom::kBrowserProcessId;
params->is_corb_enabled = false;
TestURLLoaderHeaderClient header_client(
params->header_client.InitWithNewPipeAndPassReceiver());
network_context->CreateURLLoaderFactory(
loader_factory.BindNewPipeAndPassReceiver(), std::move(params));
// First, do a request with kURLLoadOptionUseHeaderClient set.
{
mojo::PendingRemote<mojom::URLLoader> loader;
TestURLLoaderClient client;
loader_factory->CreateLoaderAndStart(
loader.InitWithNewPipeAndPassReceiver(), 0 /* routing_id */,
0 /* request_id */, mojom::kURLLoadOptionUseHeaderClient, request,
client.CreateRemote(),
net::MutableNetworkTrafficAnnotationTag(TRAFFIC_ANNOTATION_FOR_TESTS));
client.RunUntilComplete();
// Make sure request header was modified. The value will be in the body
// since we used the /echoheader endpoint.
std::string response;
EXPECT_TRUE(
mojo::BlockingCopyToString(client.response_body_release(), &response));
EXPECT_EQ(response, "bar");
// Make sure response header was modified.
EXPECT_TRUE(client.response_head()->headers->HasHeaderValue("baz", "qux"));
}
// Next, do a request without kURLLoadOptionUseHeaderClient set, headers
// should not be modified.
{
mojo::PendingRemote<mojom::URLLoader> loader;
TestURLLoaderClient client;
loader_factory->CreateLoaderAndStart(
loader.InitWithNewPipeAndPassReceiver(), 0 /* routing_id */,
0 /* request_id */, 0 /* options */, request, client.CreateRemote(),
net::MutableNetworkTrafficAnnotationTag(TRAFFIC_ANNOTATION_FOR_TESTS));
client.RunUntilComplete();
// Make sure request header was not set.
std::string response;
EXPECT_TRUE(
mojo::BlockingCopyToString(client.response_body_release(), &response));
EXPECT_EQ(response, "None");
// Make sure response header was not set.
EXPECT_FALSE(client.response_head()->headers->HasHeaderValue("foo", "bar"));
}
}
TEST_F(NetworkContextTest, HeaderClientFailsRequest) {
net::EmbeddedTestServer test_server;
net::test_server::RegisterDefaultHandlers(&test_server);
ASSERT_TRUE(test_server.Start());
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
ResourceRequest request;
request.url = test_server.GetURL("/echo");
mojo::Remote<mojom::URLLoaderFactory> loader_factory;
mojom::URLLoaderFactoryParamsPtr params =
mojom::URLLoaderFactoryParams::New();
params->process_id = mojom::kBrowserProcessId;
params->is_corb_enabled = false;
TestURLLoaderHeaderClient header_client(
params->header_client.InitWithNewPipeAndPassReceiver());
network_context->CreateURLLoaderFactory(
loader_factory.BindNewPipeAndPassReceiver(), std::move(params));
// First, fail request on OnBeforeSendHeaders.
{
header_client.set_on_before_send_headers_result(net::ERR_FAILED);
mojo::PendingRemote<mojom::URLLoader> loader;
TestURLLoaderClient client;
loader_factory->CreateLoaderAndStart(
loader.InitWithNewPipeAndPassReceiver(), 0 /* routing_id */,
0 /* request_id */, mojom::kURLLoadOptionUseHeaderClient, request,
client.CreateRemote(),
net::MutableNetworkTrafficAnnotationTag(TRAFFIC_ANNOTATION_FOR_TESTS));
client.RunUntilComplete();
EXPECT_EQ(client.completion_status().error_code, net::ERR_FAILED);
}
// Next, fail request on OnHeadersReceived.
{
header_client.set_on_before_send_headers_result(net::OK);
header_client.set_on_headers_received_result(net::ERR_FAILED);
mojo::PendingRemote<mojom::URLLoader> loader;
TestURLLoaderClient client;
loader_factory->CreateLoaderAndStart(
loader.InitWithNewPipeAndPassReceiver(), 0 /* routing_id */,
0 /* request_id */, mojom::kURLLoadOptionUseHeaderClient, request,
client.CreateRemote(),
net::MutableNetworkTrafficAnnotationTag(TRAFFIC_ANNOTATION_FOR_TESTS));
client.RunUntilComplete();
EXPECT_EQ(client.completion_status().error_code, net::ERR_FAILED);
}
}
class HangingTestURLLoaderHeaderClient
: public mojom::TrustedURLLoaderHeaderClient {
public:
class TestHeaderClient : public mojom::TrustedHeaderClient {
public:
TestHeaderClient() {}
// network::mojom::TrustedHeaderClient:
void OnBeforeSendHeaders(const net::HttpRequestHeaders& headers,
OnBeforeSendHeadersCallback callback) override {
saved_request_headers_ = headers;
saved_on_before_send_headers_callback_ = std::move(callback);
on_before_send_headers_loop_.Quit();
}
void OnHeadersReceived(const std::string& headers,
const net::IPEndPoint& endpoint,
OnHeadersReceivedCallback callback) override {
saved_received_headers_ = headers;
saved_on_headers_received_callback_ = std::move(callback);
on_headers_received_loop_.Quit();
}
void CallOnBeforeSendHeadersCallback() {
net::HttpRequestHeaders new_headers = std::move(saved_request_headers_);
new_headers.SetHeader("foo", "bar");
std::move(saved_on_before_send_headers_callback_)
.Run(net::OK, new_headers);
}
void WaitForOnBeforeSendHeaders() { on_before_send_headers_loop_.Run(); }
void CallOnHeadersReceivedCallback() {
auto new_headers = base::MakeRefCounted<net::HttpResponseHeaders>(
saved_received_headers_);
new_headers->SetHeader("baz", "qux");
std::move(saved_on_headers_received_callback_)
.Run(net::OK, new_headers->raw_headers(), GURL());
}
void WaitForOnHeadersReceived() { on_headers_received_loop_.Run(); }
void Bind(
mojo::PendingReceiver<network::mojom::TrustedHeaderClient> receiver) {
receiver_.Bind(std::move(receiver));
}
private:
base::RunLoop on_before_send_headers_loop_;
net::HttpRequestHeaders saved_request_headers_;
OnBeforeSendHeadersCallback saved_on_before_send_headers_callback_;
base::RunLoop on_headers_received_loop_;
std::string saved_received_headers_;
OnHeadersReceivedCallback saved_on_headers_received_callback_;
mojo::Receiver<mojom::TrustedHeaderClient> receiver_{this};
DISALLOW_COPY_AND_ASSIGN(TestHeaderClient);
};
explicit HangingTestURLLoaderHeaderClient(
mojo::PendingReceiver<mojom::TrustedURLLoaderHeaderClient> receiver)
: receiver_(this, std::move(receiver)) {}
// network::mojom::TrustedURLLoaderHeaderClient:
void OnLoaderCreated(
int32_t request_id,
mojo::PendingReceiver<network::mojom::TrustedHeaderClient> receiver)
override {
header_client_.Bind(std::move(receiver));
}
void OnLoaderForCorsPreflightCreated(
const ResourceRequest& request,
mojo::PendingReceiver<mojom::TrustedHeaderClient> receiver) override {
header_client_.Bind(std::move(receiver));
}
void CallOnBeforeSendHeadersCallback() {
header_client_.CallOnBeforeSendHeadersCallback();
}
void WaitForOnBeforeSendHeaders() {
header_client_.WaitForOnBeforeSendHeaders();
}
void CallOnHeadersReceivedCallback() {
header_client_.CallOnHeadersReceivedCallback();
}
void WaitForOnHeadersReceived() { header_client_.WaitForOnHeadersReceived(); }
private:
TestHeaderClient header_client_;
mojo::Receiver<mojom::TrustedURLLoaderHeaderClient> receiver_;
DISALLOW_COPY_AND_ASSIGN(HangingTestURLLoaderHeaderClient);
};
// Test waiting on the OnHeadersReceived event, then proceeding to call the
// OnHeadersReceivedCallback asynchronously. This mostly just verifies that
// HangingTestURLLoaderHeaderClient works.
TEST_F(NetworkContextTest, HangingHeaderClientModifiesHeadersAsynchronously) {
net::EmbeddedTestServer test_server;
net::test_server::RegisterDefaultHandlers(&test_server);
ASSERT_TRUE(test_server.Start());
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
ResourceRequest request;
request.url = test_server.GetURL("/echoheader?foo");
mojo::Remote<mojom::URLLoaderFactory> loader_factory;
mojom::URLLoaderFactoryParamsPtr params =
mojom::URLLoaderFactoryParams::New();
params->process_id = mojom::kBrowserProcessId;
params->is_corb_enabled = false;
HangingTestURLLoaderHeaderClient header_client(
params->header_client.InitWithNewPipeAndPassReceiver());
network_context->CreateURLLoaderFactory(
loader_factory.BindNewPipeAndPassReceiver(), std::move(params));
mojo::PendingRemote<mojom::URLLoader> loader;
TestURLLoaderClient client;
loader_factory->CreateLoaderAndStart(
loader.InitWithNewPipeAndPassReceiver(), 0 /* routing_id */,
0 /* request_id */, mojom::kURLLoadOptionUseHeaderClient, request,
client.CreateRemote(),
net::MutableNetworkTrafficAnnotationTag(TRAFFIC_ANNOTATION_FOR_TESTS));
header_client.WaitForOnBeforeSendHeaders();
header_client.CallOnBeforeSendHeadersCallback();
header_client.WaitForOnHeadersReceived();
header_client.CallOnHeadersReceivedCallback();
client.RunUntilComplete();
EXPECT_EQ(client.completion_status().error_code, net::OK);
// Make sure request header was modified. The value will be in the body
// since we used the /echoheader endpoint.
std::string response;
EXPECT_TRUE(
mojo::BlockingCopyToString(client.response_body_release(), &response));
EXPECT_EQ(response, "bar");
// Make sure response header was modified.
EXPECT_TRUE(client.response_head()->headers->HasHeaderValue("baz", "qux"));
}
// Test destroying the mojom::URLLoader after the OnBeforeSendHeaders event and
// then calling the OnBeforeSendHeadersCallback.
TEST_F(NetworkContextTest, HangingHeaderClientAbortDuringOnBeforeSendHeaders) {
net::EmbeddedTestServer test_server;
net::test_server::RegisterDefaultHandlers(&test_server);
ASSERT_TRUE(test_server.Start());
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
ResourceRequest request;
request.url = test_server.GetURL("/echoheader?foo");
mojo::Remote<mojom::URLLoaderFactory> loader_factory;
mojom::URLLoaderFactoryParamsPtr params =
mojom::URLLoaderFactoryParams::New();
params->process_id = mojom::kBrowserProcessId;
params->is_corb_enabled = false;
HangingTestURLLoaderHeaderClient header_client(
params->header_client.InitWithNewPipeAndPassReceiver());
network_context->CreateURLLoaderFactory(
loader_factory.BindNewPipeAndPassReceiver(), std::move(params));
mojo::PendingRemote<mojom::URLLoader> loader;
TestURLLoaderClient client;
loader_factory->CreateLoaderAndStart(
loader.InitWithNewPipeAndPassReceiver(), 0 /* routing_id */,
0 /* request_id */, mojom::kURLLoadOptionUseHeaderClient, request,
client.CreateRemote(),
net::MutableNetworkTrafficAnnotationTag(TRAFFIC_ANNOTATION_FOR_TESTS));
header_client.WaitForOnBeforeSendHeaders();
loader.reset();
// Ensure the loader is destroyed before the callback is run.
base::RunLoop().RunUntilIdle();
header_client.CallOnBeforeSendHeadersCallback();
client.RunUntilComplete();
EXPECT_EQ(client.completion_status().error_code, net::ERR_ABORTED);
}
// Test destroying the mojom::URLLoader after the OnHeadersReceived event and
// then calling the OnHeadersReceivedCallback.
TEST_F(NetworkContextTest, HangingHeaderClientAbortDuringOnHeadersReceived) {
net::EmbeddedTestServer test_server;
net::test_server::RegisterDefaultHandlers(&test_server);
ASSERT_TRUE(test_server.Start());
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
ResourceRequest request;
request.url = test_server.GetURL("/echoheader?foo");
mojo::Remote<mojom::URLLoaderFactory> loader_factory;
mojom::URLLoaderFactoryParamsPtr params =
mojom::URLLoaderFactoryParams::New();
params->process_id = mojom::kBrowserProcessId;
params->is_corb_enabled = false;
HangingTestURLLoaderHeaderClient header_client(
params->header_client.InitWithNewPipeAndPassReceiver());
network_context->CreateURLLoaderFactory(
loader_factory.BindNewPipeAndPassReceiver(), std::move(params));
mojo::PendingRemote<mojom::URLLoader> loader;
TestURLLoaderClient client;
loader_factory->CreateLoaderAndStart(
loader.InitWithNewPipeAndPassReceiver(), 0 /* routing_id */,
0 /* request_id */, mojom::kURLLoadOptionUseHeaderClient, request,
client.CreateRemote(),
net::MutableNetworkTrafficAnnotationTag(TRAFFIC_ANNOTATION_FOR_TESTS));
header_client.WaitForOnBeforeSendHeaders();
header_client.CallOnBeforeSendHeadersCallback();
header_client.WaitForOnHeadersReceived();
loader.reset();
// Ensure the loader is destroyed before the callback is run.
base::RunLoop().RunUntilIdle();
header_client.CallOnHeadersReceivedCallback();
client.RunUntilComplete();
EXPECT_EQ(client.completion_status().error_code, net::ERR_ABORTED);
}
// Custom proxy does not apply to localhost, so resolve kMockHost to localhost,
// and use that instead.
class NetworkContextMockHostTest : public NetworkContextTest {
public:
NetworkContextMockHostTest() {
scoped_refptr<net::RuleBasedHostResolverProc> rules =
net::CreateCatchAllHostResolverProc();
rules->AddRule(kMockHost, "127.0.0.1");
network_service_->set_host_resolver_factory_for_testing(
std::make_unique<net::MockHostResolverFactory>(std::move(rules)));
}
protected:
GURL GetURLWithMockHost(const net::EmbeddedTestServer& server,
const std::string& relative_url) {
GURL server_base_url = server.base_url();
GURL base_url =
GURL(base::StrCat({server_base_url.scheme(), "://", kMockHost, ":",
server_base_url.port()}));
EXPECT_TRUE(base_url.is_valid()) << base_url.possibly_invalid_spec();
return base_url.Resolve(relative_url);
}
net::ProxyServer ConvertToProxyServer(const net::EmbeddedTestServer& server) {
std::string base_url = server.base_url().spec();
// Remove slash from URL.
base_url.pop_back();
auto proxy_server =
net::ProxyServer::FromURI(base_url, net::ProxyServer::SCHEME_HTTP);
EXPECT_TRUE(proxy_server.is_valid()) << base_url;
return proxy_server;
}
};
#if defined(OS_LINUX) || defined(OS_CHROMEOS)
// Flaky crashes on Linux: https://crbug.com/1115201
#define MAYBE_CustomProxyUsesSpecifiedProxyList \
DISABLED_CustomProxyUsesSpecifiedProxyList
#else
#define MAYBE_CustomProxyUsesSpecifiedProxyList \
CustomProxyUsesSpecifiedProxyList
#endif
TEST_F(NetworkContextMockHostTest, MAYBE_CustomProxyUsesSpecifiedProxyList) {
net::EmbeddedTestServer proxy_test_server;
net::test_server::RegisterDefaultHandlers(&proxy_test_server);
ASSERT_TRUE(proxy_test_server.Start());
mojo::Remote<mojom::CustomProxyConfigClient> proxy_config_client;
mojom::NetworkContextParamsPtr context_params = CreateContextParams();
context_params->custom_proxy_config_client_receiver =
proxy_config_client.BindNewPipeAndPassReceiver();
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(context_params));
auto config = mojom::CustomProxyConfig::New();
config->rules.ParseFromString(
"http=" + ConvertToProxyServer(proxy_test_server).ToURI());
proxy_config_client->OnCustomProxyConfigUpdated(std::move(config));
task_environment_.RunUntilIdle();
ResourceRequest request;
request.url = GURL("http://does.not.resolve/echo");
request.render_frame_id = kRouteId;
std::unique_ptr<TestURLLoaderClient> client =
FetchRequest(request, network_context.get());
std::string response;
EXPECT_TRUE(
mojo::BlockingCopyToString(client->response_body_release(), &response));
// |invalid_server| has no handlers set up so would return an empty response.
EXPECT_EQ(response, "Echo");
EXPECT_EQ(client->response_head()->proxy_server,
ConvertToProxyServer(proxy_test_server));
}
// Verifies that custom proxy is used only for requests with process id and
// render frame id.
// TODO(https://crbug.com/991035): Crash flakes due to NetworkService'
// UploadLoadInfo() timer firing during FetchRequest().
TEST_F(NetworkContextMockHostTest,
DISABLED_UseCustomProxyForNavigationAndRenderFrameRequest) {
net::EmbeddedTestServer test_server;
net::test_server::RegisterDefaultHandlers(&test_server);
ASSERT_TRUE(test_server.Start());
net::EmbeddedTestServer proxy_test_server;
proxy_test_server.RegisterRequestHandler(
base::BindRepeating(&CustomProxyResponse));
ASSERT_TRUE(proxy_test_server.Start());
struct TestCase {
int process_id;
int render_frame_id;
bool expected_custom_proxy_used;
};
const TestCase test_cases[] = {
// When process id and renderer id are invalid, custom proxy is not used.
{0, MSG_ROUTING_NONE, false},
{kProcessId, kRouteId, true},
{0, kRouteId, true},
{kProcessId, MSG_ROUTING_NONE, true},
// render_frame_id = MSG_ROUTING_CONTROL provides a temporary way to use
// the custom proxy for specific requests.
{0, MSG_ROUTING_CONTROL, true},
};
for (const TestCase& test_case : test_cases) {
mojo::Remote<mojom::CustomProxyConfigClient> proxy_config_client;
mojom::NetworkContextParamsPtr context_params = CreateContextParams();
context_params->custom_proxy_config_client_receiver =
proxy_config_client.BindNewPipeAndPassReceiver();
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(context_params));
auto config = mojom::CustomProxyConfig::New();
net::ProxyServer proxy_server = ConvertToProxyServer(proxy_test_server);
config->rules.ParseFromString("http=" + proxy_server.ToURI());
proxy_config_client->OnCustomProxyConfigUpdated(std::move(config));
task_environment_.RunUntilIdle();
ResourceRequest request;
request.url = GetURLWithMockHost(test_server, "/echo");
request.render_frame_id = test_case.render_frame_id;
std::unique_ptr<TestURLLoaderClient> client =
FetchRequest(request, network_context.get(), mojom::kURLLoadOptionNone,
test_case.process_id);
task_environment_.RunUntilIdle();
std::string response;
EXPECT_TRUE(
mojo::BlockingCopyToString(client->response_body_release(), &response));
if (test_case.expected_custom_proxy_used)
EXPECT_EQ(kCustomProxyResponse, response);
else
EXPECT_EQ("Echo", response);
}
}
TEST_F(NetworkContextTest, MaximumCount) {
net::EmbeddedTestServer test_server;
test_server.AddDefaultHandlers(
base::FilePath(FILE_PATH_LITERAL("services/test/data")));
const char kPath1[] = "/foobar";
const char kPath2[] = "/hung";
const char kPath3[] = "/hello.html";
net::test_server::ControllableHttpResponse controllable_response1(
&test_server, kPath1);
ASSERT_TRUE(test_server.Start());
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
network_context->set_max_loaders_per_process_for_testing(2);
mojo::Remote<mojom::URLLoaderFactory> loader_factory;
mojom::URLLoaderFactoryParamsPtr params =
mojom::URLLoaderFactoryParams::New();
params->process_id = mojom::kBrowserProcessId;
params->is_corb_enabled = false;
network_context->CreateURLLoaderFactory(
loader_factory.BindNewPipeAndPassReceiver(), std::move(params));
ResourceRequest request;
request.url = test_server.GetURL(kPath1);
auto client1 = std::make_unique<TestURLLoaderClient>();
mojo::PendingRemote<mojom::URLLoader> loader1;
loader_factory->CreateLoaderAndStart(
loader1.InitWithNewPipeAndPassReceiver(), 0 /* routing_id */,
0 /* request_id */, 0 /* options */, request, client1->CreateRemote(),
net::MutableNetworkTrafficAnnotationTag(TRAFFIC_ANNOTATION_FOR_TESTS));
request.url = test_server.GetURL(kPath2);
auto client2 = std::make_unique<TestURLLoaderClient>();
mojo::PendingRemote<mojom::URLLoader> loader2;
loader_factory->CreateLoaderAndStart(
loader2.InitWithNewPipeAndPassReceiver(), 0 /* routing_id */,
0 /* request_id */, 0 /* options */, request, client2->CreateRemote(),
net::MutableNetworkTrafficAnnotationTag(TRAFFIC_ANNOTATION_FOR_TESTS));
// A third request should fail, since the first two are outstanding and the
// limit is 2.
request.url = test_server.GetURL(kPath3);
auto client3 = std::make_unique<TestURLLoaderClient>();
mojo::Remote<mojom::URLLoader> loader3;
loader_factory->CreateLoaderAndStart(
loader3.BindNewPipeAndPassReceiver(), 0 /* routing_id */,
0 /* request_id */, 0 /* options */, request, client3->CreateRemote(),
net::MutableNetworkTrafficAnnotationTag(TRAFFIC_ANNOTATION_FOR_TESTS));
client3->RunUntilComplete();
ASSERT_EQ(client3->completion_status().error_code,
net::ERR_INSUFFICIENT_RESOURCES);
// Complete the first request and try the third again.
controllable_response1.WaitForRequest();
controllable_response1.Send("HTTP/1.1 200 OK\r\n");
controllable_response1.Done();
client1->RunUntilComplete();
ASSERT_EQ(client1->completion_status().error_code, net::OK);
client3 = std::make_unique<TestURLLoaderClient>();
loader3.reset();
loader_factory->CreateLoaderAndStart(
loader3.BindNewPipeAndPassReceiver(), 0 /* routing_id */,
0 /* request_id */, 0 /* options */, request, client3->CreateRemote(),
net::MutableNetworkTrafficAnnotationTag(TRAFFIC_ANNOTATION_FOR_TESTS));
client3->RunUntilComplete();
ASSERT_EQ(client3->completion_status().error_code, net::OK);
}
TEST_F(NetworkContextTest, AllowAllCookies) {
net::test_server::EmbeddedTestServer test_server(
net::test_server::EmbeddedTestServer::TYPE_HTTPS);
test_server.AddDefaultHandlers(
base::FilePath(FILE_PATH_LITERAL("services/test/data")));
ASSERT_TRUE(test_server.Start());
GURL server_url = test_server.GetURL("/echoheader?Cookie");
GURL first_party_url(server_url);
GURL third_party_url("http://www.some.other.origin.test/");
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
EXPECT_TRUE(
SetCookieHelper(network_context.get(), server_url, "TestCookie", "1"));
int url_loader_options = mojom::kURLLoadOptionNone;
ResourceRequest first_party_request;
first_party_request.url = server_url;
first_party_request.site_for_cookies =
net::SiteForCookies::FromUrl(first_party_url);
std::unique_ptr<TestURLLoaderClient> client = FetchRequest(
first_party_request, network_context.get(), url_loader_options);
std::string response_body;
ASSERT_TRUE(client->response_body().is_valid());
EXPECT_TRUE(mojo::BlockingCopyToString(client->response_body_release(),
&response_body));
EXPECT_EQ("TestCookie=1", response_body);
ResourceRequest third_party_request;
third_party_request.url = server_url;
third_party_request.site_for_cookies =
net::SiteForCookies::FromUrl(third_party_url);
client = FetchRequest(third_party_request, network_context.get(),
url_loader_options);
ASSERT_TRUE(client->response_body().is_valid());
EXPECT_TRUE(mojo::BlockingCopyToString(client->response_body_release(),
&response_body));
EXPECT_EQ("TestCookie=1", response_body);
}
TEST_F(NetworkContextTest, BlockThirdPartyCookies) {
net::test_server::EmbeddedTestServer test_server(
net::test_server::EmbeddedTestServer::TYPE_HTTPS);
test_server.AddDefaultHandlers(
base::FilePath(FILE_PATH_LITERAL("services/test/data")));
ASSERT_TRUE(test_server.Start());
GURL server_url = test_server.GetURL("/echoheader?Cookie");
GURL first_party_url(server_url);
GURL third_party_url("http://www.some.other.origin.test/");
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
EXPECT_TRUE(
SetCookieHelper(network_context.get(), server_url, "TestCookie", "1"));
int url_loader_options = mojom::kURLLoadOptionBlockThirdPartyCookies;
ResourceRequest first_party_request;
first_party_request.url = server_url;
first_party_request.site_for_cookies =
net::SiteForCookies::FromUrl(first_party_url);
std::unique_ptr<TestURLLoaderClient> client = FetchRequest(
first_party_request, network_context.get(), url_loader_options);
std::string response_body;
ASSERT_TRUE(client->response_body().is_valid());
EXPECT_TRUE(mojo::BlockingCopyToString(client->response_body_release(),
&response_body));
EXPECT_EQ("TestCookie=1", response_body);
ResourceRequest third_party_request;
third_party_request.url = server_url;
third_party_request.site_for_cookies =
net::SiteForCookies::FromUrl(third_party_url);
client = FetchRequest(third_party_request, network_context.get(),
url_loader_options);
ASSERT_TRUE(client->response_body().is_valid());
EXPECT_TRUE(mojo::BlockingCopyToString(client->response_body_release(),
&response_body));
EXPECT_EQ("None", response_body);
}
TEST_F(NetworkContextTest, BlockAllCookies) {
net::test_server::EmbeddedTestServer test_server(
net::test_server::EmbeddedTestServer::TYPE_HTTPS);
test_server.AddDefaultHandlers(
base::FilePath(FILE_PATH_LITERAL("services/test/data")));
ASSERT_TRUE(test_server.Start());
GURL server_url = test_server.GetURL("/echoheader?Cookie");
GURL first_party_url(server_url);
GURL third_party_url("http://www.some.other.origin.test/");
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
EXPECT_TRUE(
SetCookieHelper(network_context.get(), server_url, "TestCookie", "1"));
int url_loader_options = mojom::kURLLoadOptionBlockAllCookies;
ResourceRequest first_party_request;
first_party_request.url = server_url;
first_party_request.site_for_cookies =
net::SiteForCookies::FromUrl(first_party_url);
std::unique_ptr<TestURLLoaderClient> client = FetchRequest(
first_party_request, network_context.get(), url_loader_options);
std::string response_body;
ASSERT_TRUE(client->response_body().is_valid());
EXPECT_TRUE(mojo::BlockingCopyToString(client->response_body_release(),
&response_body));
EXPECT_EQ("None", response_body);
ResourceRequest third_party_request;
third_party_request.url = server_url;
third_party_request.site_for_cookies =
net::SiteForCookies::FromUrl(third_party_url);
client = FetchRequest(third_party_request, network_context.get(),
url_loader_options);
ASSERT_TRUE(client->response_body().is_valid());
EXPECT_TRUE(mojo::BlockingCopyToString(client->response_body_release(),
&response_body));
EXPECT_EQ("None", response_body);
}
#if !BUILDFLAG(DISABLE_FTP_SUPPORT)
TEST_F(NetworkContextTest, AddFtpAuthCacheEntry) {
GURL url("ftp://example.test/");
const char kUsername[] = "test_user";
const char kPassword[] = "test_pass";
mojom::NetworkContextParamsPtr params = CreateContextParams();
params->enable_ftp_url_support = true;
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(params));
net::AuthChallengeInfo challenge;
challenge.is_proxy = false;
challenge.challenger = url::Origin::Create(url);
ASSERT_TRUE(network_context->url_request_context()->ftp_auth_cache());
ASSERT_FALSE(
network_context->url_request_context()->ftp_auth_cache()->Lookup(url));
base::RunLoop run_loop;
network_context->AddAuthCacheEntry(
challenge, net::NetworkIsolationKey(),
net::AuthCredentials(base::ASCIIToUTF16(kUsername),
base::ASCIIToUTF16(kPassword)),
run_loop.QuitClosure());
run_loop.Run();
net::FtpAuthCache::Entry* entry =
network_context->url_request_context()->ftp_auth_cache()->Lookup(url);
ASSERT_TRUE(entry);
EXPECT_EQ(url, entry->origin);
EXPECT_EQ(base::ASCIIToUTF16(kUsername), entry->credentials.username());
EXPECT_EQ(base::ASCIIToUTF16(kPassword), entry->credentials.password());
}
#endif // !BUILDFLAG(DISABLE_FTP_SUPPORT)
#if BUILDFLAG(IS_CT_SUPPORTED)
TEST_F(NetworkContextTest, CertificateTransparencyConfig) {
mojom::NetworkContextParamsPtr params = CreateContextParams();
params->enforce_chrome_ct_policy = true;
params->ct_log_update_time = base::Time::Now();
// The log public keys do not matter for the test, so invalid keys are used.
// However, because the log IDs are derived from the SHA-256 hash of the log
// key, the log keys are generated such that qualified logs are in the form
// of four digits (e.g. "0000", "1111"), while disqualified logs are in the
// form of four letters (e.g. "AAAA", "BBBB").
for (int i = 0; i < 6; ++i) {
network::mojom::CTLogInfoPtr log_info = network::mojom::CTLogInfo::New();
// Shift to ASCII '0' (0x30)
log_info->public_key = std::string(4, 0x30 + static_cast<char>(i));
log_info->name = std::string(4, 0x30 + static_cast<char>(i));
log_info->operated_by_google = i % 2;
params->ct_logs.push_back(std::move(log_info));
}
for (int i = 0; i < 3; ++i) {
network::mojom::CTLogInfoPtr log_info = network::mojom::CTLogInfo::New();
// Shift to ASCII 'A' (0x41)
log_info->public_key = std::string(4, 0x41 + static_cast<char>(i));
log_info->name = std::string(4, 0x41 + static_cast<char>(i));
log_info->operated_by_google = false;
log_info->disqualified_at = base::TimeDelta::FromSeconds(i);
params->ct_logs.push_back(std::move(log_info));
}
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(params));
net::CTPolicyEnforcer* request_enforcer =
network_context->url_request_context()->ct_policy_enforcer();
ASSERT_TRUE(request_enforcer);
// Completely unsafe if |enforce_chrome_ct_policy| is false.
certificate_transparency::ChromeCTPolicyEnforcer* policy_enforcer =
reinterpret_cast<certificate_transparency::ChromeCTPolicyEnforcer*>(
request_enforcer);
EXPECT_TRUE(std::is_sorted(
policy_enforcer->operated_by_google_logs_for_testing().begin(),
policy_enforcer->operated_by_google_logs_for_testing().end()));
EXPECT_TRUE(
std::is_sorted(policy_enforcer->disqualified_logs_for_testing().begin(),
policy_enforcer->disqualified_logs_for_testing().end()));
EXPECT_THAT(
policy_enforcer->operated_by_google_logs_for_testing(),
::testing::UnorderedElementsAreArray({crypto::SHA256HashString("1111"),
crypto::SHA256HashString("3333"),
crypto::SHA256HashString("5555")}));
EXPECT_THAT(policy_enforcer->disqualified_logs_for_testing(),
::testing::UnorderedElementsAre(
::testing::Pair(crypto::SHA256HashString("AAAA"),
base::TimeDelta::FromSeconds(0)),
::testing::Pair(crypto::SHA256HashString("BBBB"),
base::TimeDelta::FromSeconds(1)),
::testing::Pair(crypto::SHA256HashString("CCCC"),
base::TimeDelta::FromSeconds(2))));
}
#endif
TEST_F(NetworkContextTest, AddHttpAuthCacheEntry) {
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
net::HttpAuthCache* cache = network_context->url_request_context()
->http_transaction_factory()
->GetSession()
->http_auth_cache();
ASSERT_TRUE(cache);
// |key_server_entries_by_network_isolation_key| should be disabled by
// default, so the passed in NetworkIsolationKeys don't matter.
EXPECT_FALSE(cache->key_server_entries_by_network_isolation_key());
// Add an AUTH_SERVER cache entry.
GURL url("http://example.test/");
net::AuthChallengeInfo challenge;
challenge.is_proxy = false;
challenge.challenger = url::Origin::Create(url);
challenge.scheme = "basic";
challenge.realm = "testrealm";
const char kUsername[] = "test_user";
const char kPassword[] = "test_pass";
ASSERT_FALSE(cache->Lookup(url, net::HttpAuth::AUTH_SERVER, challenge.realm,
net::HttpAuth::AUTH_SCHEME_BASIC,
net::NetworkIsolationKey()));
base::RunLoop run_loop;
network_context->AddAuthCacheEntry(
challenge, net::NetworkIsolationKey(),
net::AuthCredentials(base::ASCIIToUTF16(kUsername),
base::ASCIIToUTF16(kPassword)),
run_loop.QuitClosure());
run_loop.Run();
net::HttpAuthCache::Entry* entry = cache->Lookup(
url, net::HttpAuth::AUTH_SERVER, challenge.realm,
net::HttpAuth::AUTH_SCHEME_BASIC, net::NetworkIsolationKey());
ASSERT_TRUE(entry);
EXPECT_EQ(url, entry->origin());
EXPECT_EQ(challenge.realm, entry->realm());
EXPECT_EQ(net::HttpAuth::StringToScheme(challenge.scheme), entry->scheme());
EXPECT_EQ(base::ASCIIToUTF16(kUsername), entry->credentials().username());
EXPECT_EQ(base::ASCIIToUTF16(kPassword), entry->credentials().password());
// Entry should only have been added for server auth.
EXPECT_FALSE(cache->Lookup(url, net::HttpAuth::AUTH_PROXY, challenge.realm,
net::HttpAuth::AUTH_SCHEME_BASIC,
net::NetworkIsolationKey()));
// Add an AUTH_PROXY cache entry.
GURL proxy_url("http://proxy.test/");
challenge.is_proxy = true;
challenge.challenger = url::Origin::Create(proxy_url);
const char kProxyUsername[] = "test_proxy_user";
const char kProxyPassword[] = "test_proxy_pass";
ASSERT_FALSE(cache->Lookup(proxy_url, net::HttpAuth::AUTH_PROXY,
challenge.realm, net::HttpAuth::AUTH_SCHEME_BASIC,
net::NetworkIsolationKey()));
base::RunLoop run_loop2;
network_context->AddAuthCacheEntry(
challenge, net::NetworkIsolationKey(),
net::AuthCredentials(base::ASCIIToUTF16(kProxyUsername),
base::ASCIIToUTF16(kProxyPassword)),
run_loop2.QuitClosure());
run_loop2.Run();
entry = cache->Lookup(proxy_url, net::HttpAuth::AUTH_PROXY, challenge.realm,
net::HttpAuth::AUTH_SCHEME_BASIC,
net::NetworkIsolationKey());
ASSERT_TRUE(entry);
EXPECT_EQ(proxy_url, entry->origin());
EXPECT_EQ(challenge.realm, entry->realm());
EXPECT_EQ(net::HttpAuth::StringToScheme(challenge.scheme), entry->scheme());
EXPECT_EQ(base::ASCIIToUTF16(kProxyUsername),
entry->credentials().username());
EXPECT_EQ(base::ASCIIToUTF16(kProxyPassword),
entry->credentials().password());
// Entry should only have been added for proxy auth.
EXPECT_FALSE(cache->Lookup(proxy_url, net::HttpAuth::AUTH_SERVER,
challenge.realm, net::HttpAuth::AUTH_SCHEME_BASIC,
net::NetworkIsolationKey()));
}
TEST_F(NetworkContextTest, AddHttpAuthCacheEntryWithNetworkIsolationKey) {
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
network_context->SetSplitAuthCacheByNetworkIsolationKey(true);
net::HttpAuthCache* cache = network_context->url_request_context()
->http_transaction_factory()
->GetSession()
->http_auth_cache();
ASSERT_TRUE(cache);
// If this isn't true, the rest of this test is pretty meaningless.
ASSERT_TRUE(cache->key_server_entries_by_network_isolation_key());
// Add an AUTH_SERVER cache entry.
GURL url("http://example.test/");
url::Origin origin = url::Origin::Create(url);
net::NetworkIsolationKey network_isolation_key(origin, origin);
net::AuthChallengeInfo challenge;
challenge.is_proxy = false;
challenge.challenger = origin;
challenge.scheme = "basic";
challenge.realm = "testrealm";
const char kUsername[] = "test_user";
const char kPassword[] = "test_pass";
ASSERT_FALSE(cache->Lookup(url, net::HttpAuth::AUTH_SERVER, challenge.realm,
net::HttpAuth::AUTH_SCHEME_BASIC,
network_isolation_key));
base::RunLoop run_loop;
network_context->AddAuthCacheEntry(
challenge, network_isolation_key,
net::AuthCredentials(base::ASCIIToUTF16(kUsername),
base::ASCIIToUTF16(kPassword)),
run_loop.QuitClosure());
run_loop.Run();
net::HttpAuthCache::Entry* entry =
cache->Lookup(url, net::HttpAuth::AUTH_SERVER, challenge.realm,
net::HttpAuth::AUTH_SCHEME_BASIC, network_isolation_key);
ASSERT_TRUE(entry);
EXPECT_EQ(url, entry->origin());
EXPECT_EQ(challenge.realm, entry->realm());
EXPECT_EQ(net::HttpAuth::StringToScheme(challenge.scheme), entry->scheme());
EXPECT_EQ(base::ASCIIToUTF16(kUsername), entry->credentials().username());
EXPECT_EQ(base::ASCIIToUTF16(kPassword), entry->credentials().password());
// Entry should only be accessibly when using the correct NetworkIsolationKey.
EXPECT_FALSE(cache->Lookup(url, net::HttpAuth::AUTH_SERVER, challenge.realm,
net::HttpAuth::AUTH_SCHEME_BASIC,
net::NetworkIsolationKey()));
}
TEST_F(NetworkContextTest, CopyHttpAuthCacheProxyEntries) {
const GURL kURL("http://foo.com");
std::unique_ptr<NetworkContext> network_context1 =
CreateContextWithParams(CreateContextParams());
net::AuthChallengeInfo challenge;
challenge.is_proxy = true;
challenge.challenger = url::Origin::Create(kURL);
challenge.scheme = "basic";
challenge.realm = "testrealm";
const char kProxyUsername[] = "proxy_user";
const char kProxyPassword[] = "proxy_pass";
base::RunLoop run_loop1;
network_context1->AddAuthCacheEntry(
challenge, net::NetworkIsolationKey(),
net::AuthCredentials(base::ASCIIToUTF16(kProxyUsername),
base::ASCIIToUTF16(kProxyPassword)),
run_loop1.QuitClosure());
run_loop1.Run();
challenge.is_proxy = false;
const char kServerUsername[] = "server_user";
const char kServerPassword[] = "server_pass";
base::RunLoop run_loop2;
network_context1->AddAuthCacheEntry(
challenge, net::NetworkIsolationKey(),
net::AuthCredentials(base::ASCIIToUTF16(kServerUsername),
base::ASCIIToUTF16(kServerPassword)),
run_loop2.QuitClosure());
run_loop2.Run();
base::UnguessableToken token;
base::RunLoop run_loop3;
network_context1->SaveHttpAuthCacheProxyEntries(base::BindLambdaForTesting(
[&](const base::UnguessableToken& returned_token) {
token = returned_token;
run_loop3.Quit();
}));
run_loop3.Run();
// Delete first NetworkContext, to make sure saved credentials outlast it.
network_context1.reset();
base::RunLoop().RunUntilIdle();
std::unique_ptr<NetworkContext> network_context2 =
CreateContextWithParams(CreateContextParams());
base::RunLoop run_loop4;
network_context2->LoadHttpAuthCacheProxyEntries(token,
run_loop4.QuitClosure());
run_loop4.Run();
// Check cached credentials directly, since there's no API to check proxy
// credentials.
net::HttpAuthCache* cache = network_context2->url_request_context()
->http_transaction_factory()
->GetSession()
->http_auth_cache();
// The server credentials should not have been copied.
EXPECT_FALSE(cache->Lookup(kURL, net::HttpAuth::AUTH_SERVER, challenge.realm,
net::HttpAuth::AUTH_SCHEME_BASIC,
net::NetworkIsolationKey()));
net::HttpAuthCache::Entry* entry = cache->Lookup(
kURL, net::HttpAuth::AUTH_PROXY, challenge.realm,
net::HttpAuth::AUTH_SCHEME_BASIC, net::NetworkIsolationKey());
ASSERT_TRUE(entry);
EXPECT_EQ(base::ASCIIToUTF16(kProxyUsername),
entry->credentials().username());
EXPECT_EQ(base::ASCIIToUTF16(kProxyPassword),
entry->credentials().password());
}
TEST_F(NetworkContextTest, SplitAuthCacheByNetworkIsolationKey) {
const GURL kURL("http://foo.com");
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
net::HttpAuthCache* cache = network_context->url_request_context()
->http_transaction_factory()
->GetSession()
->http_auth_cache();
EXPECT_FALSE(cache->key_server_entries_by_network_isolation_key());
// Add proxy credentials, which should never be deleted.
net::AuthChallengeInfo challenge;
challenge.is_proxy = true;
challenge.challenger = url::Origin::Create(kURL);
challenge.scheme = "basic";
challenge.realm = "testrealm";
const char kProxyUsername[] = "proxy_user";
const char kProxyPassword[] = "proxy_pass";
base::RunLoop run_loop1;
network_context->AddAuthCacheEntry(
challenge, net::NetworkIsolationKey(),
net::AuthCredentials(base::ASCIIToUTF16(kProxyUsername),
base::ASCIIToUTF16(kProxyPassword)),
run_loop1.QuitClosure());
run_loop1.Run();
// Set up challenge to add server credentials.
challenge.is_proxy = false;
for (bool set_split_cache_by_network_isolation_key : {true, false}) {
// In each loop iteration, the setting should change, which should clear
// server credentials.
EXPECT_NE(set_split_cache_by_network_isolation_key,
cache->key_server_entries_by_network_isolation_key());
// Add server credentials.
const char kServerUsername[] = "server_user";
const char kServerPassword[] = "server_pass";
base::RunLoop run_loop2;
network_context->AddAuthCacheEntry(
challenge, net::NetworkIsolationKey(),
net::AuthCredentials(base::ASCIIToUTF16(kServerUsername),
base::ASCIIToUTF16(kServerPassword)),
run_loop2.QuitClosure());
run_loop2.Run();
// Toggle setting.
network_context->SetSplitAuthCacheByNetworkIsolationKey(
set_split_cache_by_network_isolation_key);
EXPECT_EQ(set_split_cache_by_network_isolation_key,
cache->key_server_entries_by_network_isolation_key());
// The server credentials should have been deleted.
EXPECT_FALSE(cache->Lookup(
kURL, net::HttpAuth::AUTH_SERVER, challenge.realm,
net::HttpAuth::AUTH_SCHEME_BASIC, net::NetworkIsolationKey()));
// The proxy credentials should still be in the cache.
net::HttpAuthCache::Entry* entry = cache->Lookup(
kURL, net::HttpAuth::AUTH_PROXY, challenge.realm,
net::HttpAuth::AUTH_SCHEME_BASIC, net::NetworkIsolationKey());
ASSERT_TRUE(entry);
EXPECT_EQ(base::ASCIIToUTF16(kProxyUsername),
entry->credentials().username());
EXPECT_EQ(base::ASCIIToUTF16(kProxyPassword),
entry->credentials().password());
}
}
TEST_F(NetworkContextTest, HSTSPolicyBypassList) {
// The default test preload list includes "example" as a preloaded TLD
// (including subdomains).
net::ScopedTransportSecurityStateSource scoped_security_state_source;
mojom::NetworkContextParamsPtr params = CreateContextParams();
params->hsts_policy_bypass_list.push_back("example");
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(params));
net::TransportSecurityState* transport_security_state =
network_context->url_request_context()->transport_security_state();
// With the policy set, example should no longer upgrade to HTTPS.
EXPECT_FALSE(transport_security_state->ShouldUpgradeToSSL("example"));
// But the policy shouldn't apply to subdomains.
EXPECT_TRUE(transport_security_state->ShouldUpgradeToSSL("sub.example"));
}
TEST_F(NetworkContextTest, FactoriesDeletedWhenBindingsCleared) {
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(CreateContextParams());
auto loader_params = mojom::URLLoaderFactoryParams::New();
loader_params->process_id = 1;
mojo::Remote<mojom::URLLoaderFactory> remote1;
network_context->CreateURLLoaderFactory(remote1.BindNewPipeAndPassReceiver(),
std::move(loader_params));
loader_params = mojom::URLLoaderFactoryParams::New();
loader_params->process_id = 1;
mojo::Remote<mojom::URLLoaderFactory> remote2;
network_context->CreateURLLoaderFactory(remote2.BindNewPipeAndPassReceiver(),
std::move(loader_params));
// We should have at least 2 loader factories.
EXPECT_GT(network_context->num_url_loader_factories_for_testing(), 1u);
network_context->ResetURLLoaderFactories();
EXPECT_EQ(network_context->num_url_loader_factories_for_testing(), 0u);
}
static ResourceRequest CreateResourceRequest(const char* method,
const GURL& url) {
ResourceRequest request;
request.method = std::string(method);
request.url = url;
request.request_initiator =
url::Origin::Create(url); // ensure initiator is set
return request;
}
class NetworkContextSplitCacheTest : public NetworkContextTest {
protected:
NetworkContextSplitCacheTest() {
feature_list_.InitAndEnableFeature(
net::features::kSplitCacheByNetworkIsolationKey);
test_server_.AddDefaultHandlers(
base::FilePath(FILE_PATH_LITERAL("services/test/data")));
EXPECT_TRUE(test_server_.Start());
// Set up a scoped host resolver to access other origins.
scoped_refptr<net::RuleBasedHostResolverProc> mock_resolver_proc =
base::MakeRefCounted<net::RuleBasedHostResolverProc>(nullptr);
mock_resolver_proc->AddRule("*", "127.0.0.1");
mock_host_resolver_ = std::make_unique<net::ScopedDefaultHostResolverProc>(
mock_resolver_proc.get());
mojom::NetworkContextParamsPtr context_params = CreateContextParams();
network_context_ = CreateContextWithParams(std::move(context_params));
}
net::EmbeddedTestServer* test_server() { return &test_server_; }
void LoadAndVerifyCached(const GURL& url,
const net::IsolationInfo& isolation_info,
bool was_cached,
bool expect_redirect = false,
base::Optional<GURL> new_url = base::nullopt,
bool automatically_assign_isolation_info = false) {
ResourceRequest request = CreateResourceRequest("GET", url);
request.load_flags |= net::LOAD_SKIP_CACHE_VALIDATION;
mojo::Remote<mojom::URLLoaderFactory> loader_factory;
auto params = mojom::URLLoaderFactoryParams::New();
params->process_id = mojom::kBrowserProcessId;
params->is_corb_enabled = false;
if (isolation_info.request_type() ==
net::IsolationInfo::RequestType::kOther) {
params->isolation_info = isolation_info;
} else {
request.trusted_params = ResourceRequest::TrustedParams();
request.trusted_params->isolation_info = isolation_info;
params->is_trusted = true;
}
params->automatically_assign_isolation_info =
automatically_assign_isolation_info;
request.site_for_cookies = isolation_info.site_for_cookies();
network_context_->CreateURLLoaderFactory(
loader_factory.BindNewPipeAndPassReceiver(), std::move(params));
auto client = std::make_unique<TestURLLoaderClient>();
mojo::Remote<mojom::URLLoader> loader;
loader_factory->CreateLoaderAndStart(
loader.BindNewPipeAndPassReceiver(), 0 /* routing_id */,
0 /* request_id */, mojom::kURLLoadOptionNone, request,
client->CreateRemote(),
net::MutableNetworkTrafficAnnotationTag(TRAFFIC_ANNOTATION_FOR_TESTS));
if (expect_redirect) {
client->RunUntilRedirectReceived();
loader->FollowRedirect({}, {}, {}, new_url);
client->ClearHasReceivedRedirect();
}
if (new_url) {
client->RunUntilRedirectReceived();
loader->FollowRedirect({}, {}, {}, base::nullopt);
}
client->RunUntilComplete();
EXPECT_EQ(net::OK, client->completion_status().error_code);
EXPECT_EQ(was_cached, client->completion_status().exists_in_cache);
}
private:
base::test::ScopedFeatureList feature_list_;
net::EmbeddedTestServer test_server_;
std::unique_ptr<net::ScopedDefaultHostResolverProc> mock_host_resolver_;
std::unique_ptr<NetworkContext> network_context_;
};
TEST_F(NetworkContextSplitCacheTest, CachedUsingNetworkIsolationKey) {
GURL url = test_server()->GetURL("/resource");
url::Origin origin_a = url::Origin::Create(GURL("http://a.test/"));
net::IsolationInfo info_a =
net::IsolationInfo::CreateForInternalRequest(origin_a);
LoadAndVerifyCached(url, info_a, false /* was_cached */);
// Load again with a different isolation key. The cached entry should not be
// loaded.
url::Origin origin_b = url::Origin::Create(GURL("http://b.test/"));
net::IsolationInfo info_b =
net::IsolationInfo::CreateForInternalRequest(origin_b);
LoadAndVerifyCached(url, info_b, false /* was_cached */);
// Load again with the same isolation key. The cached entry should be loaded.
LoadAndVerifyCached(url, info_b, true /* was_cached */);
}
TEST_F(NetworkContextSplitCacheTest,
NavigationResourceCachedUsingNetworkIsolationKey) {
GURL url = test_server()->GetURL("othersite.test", "/main.html");
url::Origin origin_a = url::Origin::Create(url);
net::IsolationInfo info_a =
net::IsolationInfo::Create(net::IsolationInfo::RequestType::kSubFrame,
origin_a, origin_a, net::SiteForCookies());
LoadAndVerifyCached(url, info_a, false /* was_cached */);
// Load again with a different isolation key. The cached entry should not be
// loaded.
GURL url_b = test_server()->GetURL("/main.html");
url::Origin origin_b = url::Origin::Create(url_b);
net::IsolationInfo info_b =
net::IsolationInfo::Create(net::IsolationInfo::RequestType::kSubFrame,
origin_b, origin_b, net::SiteForCookies());
LoadAndVerifyCached(url_b, info_b, false /* was_cached */);
// Load again with the same isolation key. The cached entry should be loaded.
LoadAndVerifyCached(url_b, info_b, true /* was_cached */);
}
TEST_F(NetworkContextSplitCacheTest,
CachedUsingNetworkIsolationKeyWithFrameOrigin) {
base::test::ScopedFeatureList feature_list;
feature_list.InitWithFeatures(
{net::features::kSplitCacheByNetworkIsolationKey,
net::features::kAppendFrameOriginToNetworkIsolationKey},
{});
GURL url = test_server()->GetURL("/resource");
url::Origin origin_a = url::Origin::Create(GURL("http://a.test/"));
net::IsolationInfo info_a =
net::IsolationInfo::Create(net::IsolationInfo::RequestType::kOther,
origin_a, origin_a, net::SiteForCookies());
LoadAndVerifyCached(url, info_a, false /* was_cached */);
// Load again with a different isolation key. The cached entry should not be
// loaded.
url::Origin origin_b = url::Origin::Create(GURL("http://b.test/"));
net::IsolationInfo info_b =
net::IsolationInfo::Create(net::IsolationInfo::RequestType::kOther,
origin_a, origin_b, net::SiteForCookies());
LoadAndVerifyCached(url, info_b, false /* was_cached */);
}
TEST_F(NetworkContextSplitCacheTest,
NavigationResourceRedirectNetworkIsolationKey) {
// Create a request that redirects.
GURL url = test_server()->GetURL(
"/server-redirect?" +
test_server()->GetURL("othersite.test", "/title1.html").spec());
url::Origin origin = url::Origin::Create(url);
net::IsolationInfo info = net::IsolationInfo::Create(
net::IsolationInfo::RequestType::kMainFrame, origin, origin,
net::SiteForCookies::FromOrigin(origin));
LoadAndVerifyCached(url, info, false /* was_cached */,
true /* expect_redirect */);
// Now directly load with the key using the redirected URL. This should be a
// cache hit.
GURL redirected_url = test_server()->GetURL("othersite.test", "/title1.html");
url::Origin redirected_origin = url::Origin::Create(redirected_url);
LoadAndVerifyCached(redirected_url, info.CreateForRedirect(redirected_origin),
true /* was_cached */);
// A non-navigation resource with the same key and url should also be cached.
net::IsolationInfo non_navigation_redirected_info =
net::IsolationInfo::Create(
net::IsolationInfo::RequestType::kOther, redirected_origin,
redirected_origin,
net::SiteForCookies::FromOrigin(redirected_origin));
LoadAndVerifyCached(redirected_url, non_navigation_redirected_info,
true /* was_cached */);
}
TEST_F(NetworkContextSplitCacheTest, AutomaticallyAssignIsolationInfo) {
GURL url = test_server()->GetURL("/resource");
// Load with an automatically assigned IsolationInfo, which should populate
// the cache using the IsolationInfo for |url|'s origin.
LoadAndVerifyCached(url, net::IsolationInfo(), false /* was_cached */,
false /* expect_redirect */, base::nullopt /* new_url */,
true /* automatically_assign_isolation_info */);
// Load again with a different isolation info. The cached entry should not be
// loaded.
url::Origin other_origin = url::Origin::Create(GURL("http://other.test/"));
net::IsolationInfo other_info =
net::IsolationInfo::CreateForInternalRequest(other_origin);
LoadAndVerifyCached(url, other_info, false /* was_cached */);
// Load explicitly using the requested URL's own IsolationInfo, which should
// use the cached entry.
url::Origin origin = url::Origin::Create(GURL(url));
net::IsolationInfo info =
net::IsolationInfo::CreateForInternalRequest(origin);
LoadAndVerifyCached(url, info, true /* was_cached */);
}
TEST_F(NetworkContextTest, EnableTrustTokens) {
base::test::ScopedFeatureList scoped_feature_list;
scoped_feature_list.InitAndEnableFeature(features::kTrustTokens);
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(mojom::NetworkContextParams::New());
EXPECT_TRUE(network_context->trust_token_store());
base::RunLoop run_loop;
bool success = false;
network_context->trust_token_store()->ExecuteOrEnqueue(
base::BindLambdaForTesting([&](TrustTokenStore* store) {
success = !!store;
run_loop.Quit();
}));
run_loop.Run();
EXPECT_TRUE(success);
}
TEST_F(NetworkContextTestWithMockTime, EnableTrustTokensWithStoreOnDisk) {
base::test::ScopedFeatureList scoped_feature_list;
scoped_feature_list.InitAndEnableFeature(features::kTrustTokens);
base::ScopedTempDir dir;
ASSERT_TRUE(dir.CreateUniqueTempDir());
base::FilePath temp_path =
dir.GetPath().Append(FILE_PATH_LITERAL("my_token_store"));
{
auto params = mojom::NetworkContextParams::New();
params->trust_token_path = temp_path;
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(params));
base::RunLoop run_loop;
network_context->trust_token_store()->ExecuteOrEnqueue(
base::BindLambdaForTesting([&](TrustTokenStore* store) {
DCHECK(store);
store->AddTokens(*SuitableTrustTokenOrigin::Create(
GURL("https://trusttoken.com/")),
std::vector<std::string>{"token"}, "issuing key");
run_loop.Quit();
}));
// Allow the store time to initialize asynchronously and execute the
// operation.
run_loop.Run();
// Allow the write time to propagate to disk.
task_environment_.FastForwardBy(2 * kTrustTokenWriteBufferingWindow);
}
// Allow the context's backing store time to be torn down asynchronously.
task_environment_.RunUntilIdle();
{
auto params = mojom::NetworkContextParams::New();
params->trust_token_path = temp_path;
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(std::move(params));
base::RunLoop run_loop;
base::Optional<int> obtained_num_tokens;
network_context->trust_token_store()->ExecuteOrEnqueue(
base::BindLambdaForTesting(
[&obtained_num_tokens, &run_loop](TrustTokenStore* store) {
DCHECK(store);
obtained_num_tokens =
store->CountTokens(*SuitableTrustTokenOrigin::Create(
GURL("https://trusttoken.com/")));
run_loop.Quit();
}));
// Allow the store time to initialize asynchronously.
run_loop.Run();
EXPECT_THAT(obtained_num_tokens, Optional(1));
}
// Allow the context's backing store time to be destroyed asynchronously.
task_environment_.RunUntilIdle();
}
TEST_F(NetworkContextTest, DisableTrustTokens) {
base::test::ScopedFeatureList scoped_feature_list;
scoped_feature_list.InitAndDisableFeature(features::kTrustTokens);
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(mojom::NetworkContextParams::New());
// Allow the store time to initialize asynchronously.
task_environment_.RunUntilIdle();
EXPECT_FALSE(network_context->trust_token_store());
}
class NetworkContextExpectBadMessageTest : public NetworkContextTest {
public:
NetworkContextExpectBadMessageTest() {
mojo::SetDefaultProcessErrorHandler(
base::BindLambdaForTesting([&](const std::string&) {
EXPECT_FALSE(got_bad_message_);
got_bad_message_ = true;
}));
}
~NetworkContextExpectBadMessageTest() override {
mojo::SetDefaultProcessErrorHandler(base::NullCallback());
}
protected:
void AssertBadMessage() { EXPECT_TRUE(got_bad_message_); }
bool got_bad_message_ = false;
};
TEST_F(NetworkContextExpectBadMessageTest,
FailsTrustTokenBearingRequestWhenTrustTokensIsDisabled) {
base::test::ScopedFeatureList scoped_feature_list;
scoped_feature_list.InitAndDisableFeature(features::kTrustTokens);
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(mojom::NetworkContextParams::New());
// Allow the store time to initialize asynchronously.
task_environment_.RunUntilIdle();
EXPECT_FALSE(network_context->trust_token_store());
ResourceRequest my_request;
my_request.request_initiator =
url::Origin::Create(GURL("https://initiator.com"));
my_request.trust_token_params =
OptionalTrustTokenParams(mojom::TrustTokenParams::New());
std::unique_ptr<TestURLLoaderClient> client =
FetchRequest(my_request, network_context.get());
AssertBadMessage();
}
TEST_F(NetworkContextExpectBadMessageTest,
FailsTrustTokenRedemptionWhenForbidden) {
base::test::ScopedFeatureList scoped_feature_list;
scoped_feature_list.InitAndEnableFeature(features::kTrustTokens);
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(mojom::NetworkContextParams::New());
// Allow |network_context|'s Trust Tokens store time to initialize
// asynchronously, if necessary.
task_environment_.RunUntilIdle();
ASSERT_TRUE(network_context->trust_token_store());
ResourceRequest my_request;
my_request.trust_token_params =
OptionalTrustTokenParams(mojom::TrustTokenParams::New());
my_request.trust_token_params->type =
mojom::TrustTokenOperationType::kRedemption;
auto factory_params = mojom::URLLoaderFactoryParams::New();
factory_params->trust_token_redemption_policy =
mojom::TrustTokenRedemptionPolicy::kForbid;
std::unique_ptr<TestURLLoaderClient> client =
FetchRequest(my_request, network_context.get(), mojom::kURLLoadOptionNone,
mojom::kBrowserProcessId, std::move(factory_params));
// TODO(crbug.com/1118183): This test's expectation is temporarily inverted
// since the the ReportBadMessage check is disabled pending investigating a
// number of false positives. Once this investigation is finished, we should
// flip the test back to expecting a bad message.
// AssertBadMessage();
EXPECT_FALSE(got_bad_message_);
}
TEST_F(NetworkContextExpectBadMessageTest,
FailsTrustTokenSigningWhenForbidden) {
base::test::ScopedFeatureList scoped_feature_list;
scoped_feature_list.InitAndEnableFeature(features::kTrustTokens);
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(mojom::NetworkContextParams::New());
// Allow |network_context|'s Trust Tokens store time to initialize
// asynchronously, if necessary.
task_environment_.RunUntilIdle();
ASSERT_TRUE(network_context->trust_token_store());
ResourceRequest my_request;
my_request.trust_token_params =
OptionalTrustTokenParams(mojom::TrustTokenParams::New());
my_request.trust_token_params->type =
mojom::TrustTokenOperationType::kSigning;
auto factory_params = mojom::URLLoaderFactoryParams::New();
factory_params->trust_token_redemption_policy =
mojom::TrustTokenRedemptionPolicy::kForbid;
std::unique_ptr<TestURLLoaderClient> client =
FetchRequest(my_request, network_context.get(), mojom::kURLLoadOptionNone,
mojom::kBrowserProcessId, std::move(factory_params));
// TODO(crbug.com/1118183): This test's expectation is temporarily inverted
// since the the ReportBadMessage check is disabled pending investigating a
// number of false positives. Once this investigation is finished, we should
// flip the test back to expecting a bad message.
// AssertBadMessage();
EXPECT_FALSE(got_bad_message_);
}
TEST_F(NetworkContextTest,
AttemptsTrustTokenBearingRequestWhenTrustTokensIsEnabled) {
base::test::ScopedFeatureList scoped_feature_list;
scoped_feature_list.InitAndEnableFeature(features::kTrustTokens);
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(mojom::NetworkContextParams::New());
// Allow the store time to initialize asynchronously.
task_environment_.RunUntilIdle();
ResourceRequest my_request;
my_request.trust_token_params =
OptionalTrustTokenParams(mojom::TrustTokenParams::New());
// Since the request doesn't have a destination URL suitable for use as a
// Trust Tokens issuer, it should fail.
std::unique_ptr<TestURLLoaderClient> client = FetchRequest(
my_request, network_context.get(), mojom::kURLLoadOptionNone,
mojom::kBrowserProcessId, mojom::URLLoaderFactoryParams::New());
EXPECT_EQ(client->completion_status().error_code,
net::ERR_TRUST_TOKEN_OPERATION_FAILED);
EXPECT_EQ(client->completion_status().trust_token_operation_status,
mojom::TrustTokenOperationStatus::kInvalidArgument);
}
TEST_F(NetworkContextTest,
RejectsTrustTokenBearingRequestWhenThirdPartyCookiesAreDisabled) {
base::test::ScopedFeatureList scoped_feature_list;
scoped_feature_list.InitAndEnableFeature(features::kTrustTokens);
std::unique_ptr<NetworkContext> network_context =
CreateContextWithParams(mojom::NetworkContextParams::New());
// Allow the store time to initialize asynchronously.
base::RunLoop run_loop;
network_context->trust_token_store()->ExecuteOrEnqueue(
base::BindLambdaForTesting(
[&run_loop](TrustTokenStore* unused) { run_loop.Quit(); }));
run_loop.Run();
network_context->cookie_manager()->BlockThirdPartyCookies(true);
ResourceRequest my_request;
my_request.trust_token_params =
OptionalTrustTokenParams(mojom::TrustTokenParams::New());
std::unique_ptr<TestURLLoaderClient> client = FetchRequest(
my_request, network_context.get(), mojom::kURLLoadOptionNone,
mojom::kBrowserProcessId, mojom::URLLoaderFactoryParams::New());
EXPECT_EQ(client->completion_status().error_code,
net::ERR_TRUST_TOKEN_OPERATION_FAILED);
EXPECT_EQ(client->completion_status().trust_token_operation_status,
mojom::TrustTokenOperationStatus::kUnavailable);
}
} // namespace
} // namespace network