blob: eb4b7ca271276eb38372b985fa9f5947d264bd7f [file] [log] [blame]
// Copyright 2016 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "base/files/file_path.h"
#include "base/macros.h"
#include "base/run_loop.h"
#include "base/strings/string_number_conversions.h"
#include "base/strings/stringprintf.h"
#include "net/base/load_timing_info.h"
#include "net/base/network_delegate.h"
#include "net/cert/mock_cert_verifier.h"
#include "net/dns/mapped_host_resolver.h"
#include "net/dns/mock_host_resolver.h"
#include "net/log/net_log_event_type.h"
#include "net/log/test_net_log.h"
#include "net/log/test_net_log_entry.h"
#include "net/quic/crypto/proof_source_chromium.h"
#include "net/test/cert_test_util.h"
#include "net/test/gtest_util.h"
#include "net/test/test_data_directory.h"
#include "net/test/test_with_scoped_task_environment.h"
#include "net/third_party/quic/core/quic_dispatcher.h"
#include "net/third_party/quic/test_tools/crypto_test_utils.h"
#include "net/third_party/quic/tools/quic_memory_cache_backend.h"
#include "net/third_party/quic/tools/quic_simple_dispatcher.h"
#include "net/tools/quic/quic_simple_server.h"
#include "net/traffic_annotation/network_traffic_annotation_test_helper.h"
#include "net/url_request/url_request.h"
#include "net/url_request/url_request_test_util.h"
#include "testing/gmock/include/gmock/gmock.h"
#include "testing/gtest/include/gtest/gtest.h"
#include "url/gurl.h"
namespace net {
namespace {
// This must match the certificate used (quic-chain.pem and quic-leaf-cert.key).
const char kTestServerHost[] = "test.example.com";
// Used as a simple response from the server.
const char kHelloPath[] = "/hello.txt";
const char kHelloBodyValue[] = "Hello from QUIC Server";
const int kHelloStatus = 200;
class URLRequestQuicTest : public TestWithScopedTaskEnvironment {
protected:
URLRequestQuicTest() : context_(new TestURLRequestContext(true)) {
StartQuicServer();
std::unique_ptr<HttpNetworkSession::Params> params(
new HttpNetworkSession::Params);
CertVerifyResult verify_result;
verify_result.verified_cert = ImportCertFromFile(
GetTestCertsDirectory(), "quic-chain.pem");
cert_verifier_.AddResultForCertAndHost(verify_result.verified_cert.get(),
"test.example.com", verify_result,
OK);
// To simplify the test, and avoid the race with the HTTP request, we force
// QUIC for these requests.
params->origins_to_force_quic_on.insert(HostPortPair(kTestServerHost, 443));
params->enable_quic = true;
params->enable_server_push_cancellation = true;
context_->set_host_resolver(host_resolver_.get());
context_->set_http_network_session_params(std::move(params));
context_->set_cert_verifier(&cert_verifier_);
context_->set_net_log(&net_log_);
}
void TearDown() override {
if (server_) {
server_->Shutdown();
// If possible, deliver the conncetion close packet to the client before
// destruct the TestURLRequestContext.
base::RunLoop().RunUntilIdle();
}
}
// Sets a NetworkDelegate to use for |context_|. Must be done before Init().
void SetNetworkDelegate(NetworkDelegate* network_delegate) {
context_->set_network_delegate(network_delegate);
}
// Initializes the TestURLRequestContext |context_|.
void Init() { context_->Init(); }
std::unique_ptr<URLRequest> CreateRequest(const GURL& url,
RequestPriority priority,
URLRequest::Delegate* delegate) {
return context_->CreateRequest(url, priority, delegate,
TRAFFIC_ANNOTATION_FOR_TESTS);
}
void ExtractNetLog(NetLogEventType type,
TestNetLogEntry::List* entry_list) const {
TestNetLogEntry::List entries;
net_log_.GetEntries(&entries);
for (const auto& entry : entries) {
if (entry.type == type)
entry_list->push_back(entry);
}
}
unsigned int GetRstErrorCountReceivedByServer(
quic::QuicRstStreamErrorCode error_code) const {
return (static_cast<quic::QuicSimpleDispatcher*>(server_->dispatcher()))
->GetRstErrorCount(error_code);
}
static const NetLogSource FindPushUrlSource(
const TestNetLogEntry::List& entries,
const std::string& push_url) {
std::string entry_push_url;
for (const auto& entry : entries) {
if (entry.phase == NetLogEventPhase::BEGIN &&
entry.source.type ==
NetLogSourceType::SERVER_PUSH_LOOKUP_TRANSACTION &&
entry.GetStringValue("push_url", &entry_push_url) &&
entry_push_url == push_url) {
return entry.source;
}
}
return NetLogSource();
}
static const TestNetLogEntry* FindEndBySource(
const TestNetLogEntry::List& entries,
const NetLogSource& source) {
for (const auto& entry : entries) {
if (entry.phase == NetLogEventPhase::END &&
entry.source.type == source.type && entry.source.id == source.id)
return &entry;
}
return nullptr;
}
private:
void StartQuicServer() {
// Set up in-memory cache.
memory_cache_backend_.AddSimpleResponse(kTestServerHost, kHelloPath,
kHelloStatus, kHelloBodyValue);
memory_cache_backend_.InitializeBackend(ServerPushCacheDirectory());
quic::QuicConfig config;
// Set up server certs.
std::unique_ptr<net::ProofSourceChromium> proof_source(
new net::ProofSourceChromium());
base::FilePath directory = GetTestCertsDirectory();
CHECK(proof_source->Initialize(
directory.Append(FILE_PATH_LITERAL("quic-chain.pem")),
directory.Append(FILE_PATH_LITERAL("quic-leaf-cert.key")),
base::FilePath()));
server_.reset(new QuicSimpleServer(
quic::test::crypto_test_utils::ProofSourceForTesting(), config,
quic::QuicCryptoServerConfig::ConfigOptions(),
quic::AllSupportedVersions(), &memory_cache_backend_));
int rv =
server_->Listen(net::IPEndPoint(net::IPAddress::IPv4AllZeros(), 0));
EXPECT_GE(rv, 0) << "Quic server fails to start";
std::unique_ptr<MockHostResolver> resolver(new MockHostResolver());
resolver->rules()->AddRule("test.example.com", "127.0.0.1");
host_resolver_.reset(new MappedHostResolver(std::move(resolver)));
// Use a mapped host resolver so that request for test.example.com
// reach the server running on localhost.
std::string map_rule = "MAP test.example.com test.example.com:" +
base::IntToString(server_->server_address().port());
EXPECT_TRUE(host_resolver_->AddRuleFromString(map_rule));
}
std::string ServerPushCacheDirectory() {
base::FilePath path;
base::PathService::Get(base::DIR_TEST_DATA, &path);
path = path.AppendASCII("net").AppendASCII("data").AppendASCII(
"quic_http_response_cache_data_with_push");
// The file path is known to be an ascii string.
return path.MaybeAsASCII();
}
std::unique_ptr<MappedHostResolver> host_resolver_;
std::unique_ptr<QuicSimpleServer> server_;
std::unique_ptr<TestURLRequestContext> context_;
TestNetLog net_log_;
quic::QuicMemoryCacheBackend memory_cache_backend_;
MockCertVerifier cert_verifier_;
};
// A URLRequest::Delegate that checks LoadTimingInfo when response headers are
// received.
class CheckLoadTimingDelegate : public TestDelegate {
public:
CheckLoadTimingDelegate(bool session_reused)
: session_reused_(session_reused) {}
void OnResponseStarted(URLRequest* request, int error) override {
TestDelegate::OnResponseStarted(request, error);
LoadTimingInfo load_timing_info;
request->GetLoadTimingInfo(&load_timing_info);
assertLoadTimingValid(load_timing_info, session_reused_);
}
private:
void assertLoadTimingValid(const LoadTimingInfo& load_timing_info,
bool session_reused) {
EXPECT_EQ(session_reused, load_timing_info.socket_reused);
// If |session_reused| is true, these fields should all be null, non-null
// otherwise.
EXPECT_EQ(session_reused,
load_timing_info.connect_timing.connect_start.is_null());
EXPECT_EQ(session_reused,
load_timing_info.connect_timing.connect_end.is_null());
EXPECT_EQ(session_reused,
load_timing_info.connect_timing.ssl_start.is_null());
EXPECT_EQ(session_reused,
load_timing_info.connect_timing.ssl_end.is_null());
EXPECT_EQ(load_timing_info.connect_timing.connect_start,
load_timing_info.connect_timing.ssl_start);
EXPECT_EQ(load_timing_info.connect_timing.connect_end,
load_timing_info.connect_timing.ssl_end);
EXPECT_EQ(session_reused,
load_timing_info.connect_timing.dns_start.is_null());
EXPECT_EQ(session_reused,
load_timing_info.connect_timing.dns_end.is_null());
}
bool session_reused_;
DISALLOW_COPY_AND_ASSIGN(CheckLoadTimingDelegate);
};
// A TestNetworkDelegate that invokes |all_requests_completed_callback| when
// |num_expected_requests| requests are completed.
class WaitForCompletionNetworkDelegate : public net::TestNetworkDelegate {
public:
WaitForCompletionNetworkDelegate(
const base::Closure& all_requests_completed_callback,
size_t num_expected_requests)
: all_requests_completed_callback_(all_requests_completed_callback),
num_expected_requests_(num_expected_requests) {}
void OnCompleted(URLRequest* request, bool started, int net_error) override {
net::TestNetworkDelegate::OnCompleted(request, started, net_error);
num_expected_requests_--;
if (num_expected_requests_ == 0)
all_requests_completed_callback_.Run();
}
private:
const base::Closure all_requests_completed_callback_;
size_t num_expected_requests_;
DISALLOW_COPY_AND_ASSIGN(WaitForCompletionNetworkDelegate);
};
} // namespace
TEST_F(URLRequestQuicTest, TestGetRequest) {
Init();
CheckLoadTimingDelegate delegate(false);
std::string url =
base::StringPrintf("https://%s%s", kTestServerHost, kHelloPath);
std::unique_ptr<URLRequest> request =
CreateRequest(GURL(url), DEFAULT_PRIORITY, &delegate);
request->Start();
ASSERT_TRUE(request->is_pending());
delegate.RunUntilComplete();
EXPECT_TRUE(request->status().is_success());
EXPECT_EQ(kHelloBodyValue, delegate.data_received());
}
#if !defined(HTTP_CACHE_DISABLED_FOR_STARBOARD)
TEST_F(URLRequestQuicTest, CancelPushIfCached_SomeCached) {
Init();
// Send a request to the pushed url: /kitten-1.jpg to pull the resource into
// cache.
CheckLoadTimingDelegate delegate_0(false);
std::string url_0 =
base::StringPrintf("https://%s%s", kTestServerHost, "/kitten-1.jpg");
std::unique_ptr<URLRequest> request_0 =
CreateRequest(GURL(url_0), DEFAULT_PRIORITY, &delegate_0);
request_0->Start();
ASSERT_TRUE(request_0->is_pending());
// Spin the message loop until the client receives the response for the first
// request.
do {
base::RunLoop().RunUntilIdle();
} while (request_0->status().is_io_pending());
EXPECT_TRUE(request_0->status().is_success());
// Send a request to /index2.html which pushes /kitten-1.jpg and /favicon.ico.
// Should cancel push for /kitten-1.jpg.
CheckLoadTimingDelegate delegate(true);
std::string url =
base::StringPrintf("https://%s%s", kTestServerHost, "/index2.html");
std::unique_ptr<URLRequest> request =
CreateRequest(GURL(url), DEFAULT_PRIORITY, &delegate);
request->Start();
ASSERT_TRUE(request->is_pending());
// Spin the message loop until the client receives the response for the second
// request.
do {
base::RunLoop().RunUntilIdle();
} while (request->status().is_io_pending());
EXPECT_TRUE(request->status().is_success());
// Extract net logs on client side to verify push lookup transactions.
net::TestNetLogEntry::List entries;
ExtractNetLog(NetLogEventType::SERVER_PUSH_LOOKUP_TRANSACTION, &entries);
ASSERT_EQ(4u, entries.size());
std::string value;
int net_error;
std::string push_url_1 =
base::StringPrintf("https://%s%s", kTestServerHost, "/kitten-1.jpg");
std::string push_url_2 =
base::StringPrintf("https://%s%s", kTestServerHost, "/favicon.ico");
const NetLogSource source_1 = FindPushUrlSource(entries, push_url_1);
EXPECT_TRUE(source_1.IsValid());
// No net error code for this lookup transaction, the push is found.
const TestNetLogEntry* end_entry_1 = FindEndBySource(entries, source_1);
EXPECT_FALSE(end_entry_1->params);
EXPECT_FALSE(end_entry_1->GetIntegerValue("net_error", &net_error));
const NetLogSource source_2 = FindPushUrlSource(entries, push_url_2);
EXPECT_TRUE(source_2.IsValid());
EXPECT_NE(source_1.id, source_2.id);
// Net error code -400 is found for this lookup transaction, the push is not
// found in the cache.
const TestNetLogEntry* end_entry_2 = FindEndBySource(entries, source_2);
EXPECT_TRUE(end_entry_2->params);
EXPECT_TRUE(end_entry_2->GetIntegerValue("net_error", &net_error));
EXPECT_EQ(net_error, -400);
// Verify the reset error count received on the server side.
EXPECT_LE(1u, GetRstErrorCountReceivedByServer(quic::QUIC_STREAM_CANCELLED));
}
TEST_F(URLRequestQuicTest, CancelPushIfCached_AllCached) {
Init();
// Send a request to the pushed url: /kitten-1.jpg to pull the resource into
// cache.
CheckLoadTimingDelegate delegate_0(false);
std::string url_0 =
base::StringPrintf("https://%s%s", kTestServerHost, "/kitten-1.jpg");
std::unique_ptr<URLRequest> request_0 =
CreateRequest(GURL(url_0), DEFAULT_PRIORITY, &delegate_0);
request_0->Start();
ASSERT_TRUE(request_0->is_pending());
// Spin the message loop until the client receives the response for the first
// request.
do {
base::RunLoop().RunUntilIdle();
} while (request_0->status().is_io_pending());
EXPECT_TRUE(request_0->status().is_success());
// Send a request to the pushed url: /favicon.ico to pull the resource into
// cache.
CheckLoadTimingDelegate delegate_1(true);
std::string url_1 =
base::StringPrintf("https://%s%s", kTestServerHost, "/favicon.ico");
std::unique_ptr<URLRequest> request_1 =
CreateRequest(GURL(url_1), DEFAULT_PRIORITY, &delegate_1);
request_1->Start();
ASSERT_TRUE(request_1->is_pending());
// Spin the message loop until the client receives the response for the second
// request.
do {
base::RunLoop().RunUntilIdle();
} while (request_1->status().is_io_pending());
EXPECT_TRUE(request_1->status().is_success());
// Send a request to /index2.html which pushes /kitten-1.jpg and /favicon.ico.
// Should cancel push for both pushed resources, since they're already cached.
CheckLoadTimingDelegate delegate(true);
std::string url =
base::StringPrintf("https://%s%s", kTestServerHost, "/index2.html");
std::unique_ptr<URLRequest> request =
CreateRequest(GURL(url), DEFAULT_PRIORITY, &delegate);
request->Start();
ASSERT_TRUE(request->is_pending());
// Spin the message loop until the client receives the response for the third
// request.
do {
base::RunLoop().RunUntilIdle();
} while (request->status().is_io_pending());
EXPECT_TRUE(request->status().is_success());
// Extract net logs on client side to verify push lookup transactions.
net::TestNetLogEntry::List entries;
ExtractNetLog(NetLogEventType::SERVER_PUSH_LOOKUP_TRANSACTION, &entries);
EXPECT_EQ(4u, entries.size());
std::string value;
int net_error;
std::string push_url_1 =
base::StringPrintf("https://%s%s", kTestServerHost, "/kitten-1.jpg");
std::string push_url_2 =
base::StringPrintf("https://%s%s", kTestServerHost, "/favicon.ico");
const NetLogSource source_1 = FindPushUrlSource(entries, push_url_1);
EXPECT_TRUE(source_1.IsValid());
// No net error code for this lookup transaction, the push is found.
const TestNetLogEntry* end_entry_1 = FindEndBySource(entries, source_1);
EXPECT_FALSE(end_entry_1->params);
EXPECT_FALSE(end_entry_1->GetIntegerValue("net_error", &net_error));
const NetLogSource source_2 = FindPushUrlSource(entries, push_url_2);
EXPECT_TRUE(source_1.IsValid());
EXPECT_NE(source_1.id, source_2.id);
// No net error code for this lookup transaction, the push is found.
const TestNetLogEntry* end_entry_2 = FindEndBySource(entries, source_2);
EXPECT_FALSE(end_entry_2->params);
EXPECT_FALSE(end_entry_2->GetIntegerValue("net_error", &net_error));
// Verify the reset error count received on the server side.
EXPECT_LE(2u, GetRstErrorCountReceivedByServer(quic::QUIC_STREAM_CANCELLED));
}
TEST_F(URLRequestQuicTest, DoNotCancelPushIfNotFoundInCache) {
Init();
// Send a request to /index2.hmtl which pushes /kitten-1.jpg and /favicon.ico
// and shouldn't cancel any since neither is in cache.
CheckLoadTimingDelegate delegate(false);
std::string url =
base::StringPrintf("https://%s%s", kTestServerHost, "/index2.html");
std::unique_ptr<URLRequest> request =
CreateRequest(GURL(url), DEFAULT_PRIORITY, &delegate);
request->Start();
ASSERT_TRUE(request->is_pending());
// Spin the message loop until the client receives response.
do {
base::RunLoop().RunUntilIdle();
} while (request->status().is_io_pending());
EXPECT_TRUE(request->status().is_success());
// Extract net logs on client side to verify push lookup transactions.
net::TestNetLogEntry::List entries;
ExtractNetLog(NetLogEventType::SERVER_PUSH_LOOKUP_TRANSACTION, &entries);
EXPECT_EQ(4u, entries.size());
std::string value;
int net_error;
std::string push_url_1 =
base::StringPrintf("https://%s%s", kTestServerHost, "/kitten-1.jpg");
std::string push_url_2 =
base::StringPrintf("https://%s%s", kTestServerHost, "/favicon.ico");
const NetLogSource source_1 = FindPushUrlSource(entries, push_url_1);
EXPECT_TRUE(source_1.IsValid());
const TestNetLogEntry* end_entry_1 = FindEndBySource(entries, source_1);
EXPECT_TRUE(end_entry_1->params);
EXPECT_TRUE(end_entry_1->GetIntegerValue("net_error", &net_error));
EXPECT_EQ(net_error, -400);
const NetLogSource source_2 = FindPushUrlSource(entries, push_url_2);
EXPECT_TRUE(source_2.IsValid());
EXPECT_NE(source_1.id, source_2.id);
const TestNetLogEntry* end_entry_2 = FindEndBySource(entries, source_2);
EXPECT_TRUE(end_entry_2->params);
EXPECT_TRUE(end_entry_2->GetIntegerValue("net_error", &net_error));
EXPECT_EQ(net_error, -400);
// Verify the reset error count received on the server side.
EXPECT_EQ(0u, GetRstErrorCountReceivedByServer(quic::QUIC_STREAM_CANCELLED));
}
#endif
// This test is found to be flaky in Cobalt and was disabled due to its
// unguaranteed assumption that the two requests finish in order.
// The response for request2 from server sometimes can arrive earlier than
// 1st request's response. In that case, request2 is the one to receive the
// first byte stream from the same QUICSession the requests share and request
// will be marked as re-using the QUICSession in that case.
#if !defined(STARBOARD)
// Tests that if two requests use the same QUIC session, the second request
// should not have |LoadTimingInfo::connect_timing|.
TEST_F(URLRequestQuicTest, TestTwoRequests) {
base::RunLoop run_loop;
WaitForCompletionNetworkDelegate network_delegate(
run_loop.QuitClosure(), /*num_expected_requests=*/2);
SetNetworkDelegate(&network_delegate);
Init();
CheckLoadTimingDelegate delegate(false);
delegate.set_on_complete(base::DoNothing());
std::string url =
base::StringPrintf("https://%s%s", kTestServerHost, kHelloPath);
std::unique_ptr<URLRequest> request =
CreateRequest(GURL(url), DEFAULT_PRIORITY, &delegate);
CheckLoadTimingDelegate delegate2(true);
delegate2.set_on_complete(base::DoNothing());
std::unique_ptr<URLRequest> request2 =
CreateRequest(GURL(url), DEFAULT_PRIORITY, &delegate2);
request->Start();
request2->Start();
ASSERT_TRUE(request->is_pending());
ASSERT_TRUE(request2->is_pending());
run_loop.Run();
EXPECT_TRUE(request->status().is_success());
EXPECT_TRUE(request2->status().is_success());
EXPECT_EQ(kHelloBodyValue, delegate.data_received());
EXPECT_EQ(kHelloBodyValue, delegate2.data_received());
}
#endif
TEST_F(URLRequestQuicTest, RequestHeadersCallback) {
Init();
HttpRawRequestHeaders raw_headers;
TestDelegate delegate;
TestURLRequestContext context;
HttpRequestHeaders extra_headers;
extra_headers.SetHeader("X-Foo", "bar");
std::string url =
base::StringPrintf("https://%s%s", kTestServerHost, kHelloPath);
std::unique_ptr<URLRequest> request =
CreateRequest(GURL(url), DEFAULT_PRIORITY, &delegate);
request->SetExtraRequestHeaders(extra_headers);
request->SetRequestHeadersCallback(base::Bind(
&HttpRawRequestHeaders::Assign, base::Unretained(&raw_headers)));
request->Start();
ASSERT_TRUE(request->is_pending());
do {
base::RunLoop().RunUntilIdle();
} while (!delegate.response_started_count());
EXPECT_FALSE(raw_headers.headers().empty());
std::string value;
EXPECT_TRUE(raw_headers.FindHeaderForTest("x-foo", &value));
EXPECT_EQ("bar", value);
EXPECT_TRUE(raw_headers.FindHeaderForTest("accept-encoding", &value));
EXPECT_EQ("gzip, deflate", value);
EXPECT_TRUE(raw_headers.FindHeaderForTest(":path", &value));
EXPECT_EQ("/hello.txt", value);
EXPECT_TRUE(raw_headers.FindHeaderForTest(":authority", &value));
EXPECT_EQ("test.example.com", value);
EXPECT_TRUE(raw_headers.request_line().empty());
}
} // namespace net