// Copyright (c) 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "net/url_request/url_request_test_util.h" #include "base/compiler_specific.h" #include "base/logging.h" #include "base/message_loop/message_loop.h" #include "base/threading/thread.h" #include "base/threading/worker_pool.h" #include "net/base/host_port_pair.h" #include "net/cert/cert_verifier.h" #include "net/dns/mock_host_resolver.h" #include "net/http/http_network_session.h" #include "net/http/http_response_headers.h" #include "net/http/http_server_properties_impl.h" #include "net/http/transport_security_state.h" #include "net/ssl/channel_id_service.h" #include "net/ssl/default_channel_id_store.h" #include "net/url_request/static_http_user_agent_settings.h" #include "net/url_request/url_request_job_factory_impl.h" #include "testing/gtest/include/gtest/gtest.h" namespace net { namespace { // These constants put the NetworkDelegate events of TestNetworkDelegate // into an order. They are used in conjunction with // |TestNetworkDelegate::next_states_| to check that we do not send // events in the wrong order. const int kStageBeforeURLRequest = 1 << 0; const int kStageBeforeSendHeaders = 1 << 1; const int kStageSendHeaders = 1 << 2; const int kStageHeadersReceived = 1 << 3; const int kStageAuthRequired = 1 << 4; const int kStageBeforeRedirect = 1 << 5; const int kStageResponseStarted = 1 << 6; const int kStageCompletedSuccess = 1 << 7; const int kStageCompletedError = 1 << 8; const int kStageURLRequestDestroyed = 1 << 9; const int kStageDestruction = 1 << 10; } // namespace TestURLRequestContext::TestURLRequestContext() : initialized_(false), client_socket_factory_(NULL), context_storage_(this) { Init(); } TestURLRequestContext::TestURLRequestContext(bool delay_initialization) : initialized_(false), client_socket_factory_(NULL), context_storage_(this) { if (!delay_initialization) Init(); } TestURLRequestContext::~TestURLRequestContext() { DCHECK(initialized_); AssertNoURLRequests(); } void TestURLRequestContext::Init() { DCHECK(!initialized_); initialized_ = true; if (!host_resolver()) context_storage_.set_host_resolver( scoped_ptr(new MockCachingHostResolver())); if (!proxy_service()) context_storage_.set_proxy_service(ProxyService::CreateDirect()); if (!cert_verifier()) context_storage_.set_cert_verifier(CertVerifier::CreateDefault()); if (!transport_security_state()) context_storage_.set_transport_security_state(new TransportSecurityState); if (!ssl_config_service()) context_storage_.set_ssl_config_service(new SSLConfigServiceDefaults); if (!http_auth_handler_factory()) { context_storage_.set_http_auth_handler_factory( HttpAuthHandlerFactory::CreateDefault(host_resolver())); } if (!http_server_properties()) { context_storage_.set_http_server_properties( scoped_ptr(new HttpServerPropertiesImpl())); } if (!transport_security_state()) { context_storage_.set_transport_security_state( new TransportSecurityState()); } if (http_transaction_factory()) { // Make sure we haven't been passed an object we're not going to use. EXPECT_FALSE(client_socket_factory_); } else { HttpNetworkSession::Params params; if (http_network_session_params_) params = *http_network_session_params_; params.client_socket_factory = client_socket_factory(); params.host_resolver = host_resolver(); params.cert_verifier = cert_verifier(); params.transport_security_state = transport_security_state(); params.proxy_service = proxy_service(); params.ssl_config_service = ssl_config_service(); params.http_auth_handler_factory = http_auth_handler_factory(); params.network_delegate = network_delegate(); params.http_server_properties = http_server_properties(); params.net_log = net_log(); context_storage_.set_http_transaction_factory(new HttpCache( new HttpNetworkSession(params), HttpCache::DefaultBackend::InMemory(0))); } // In-memory cookie store. if (!cookie_store()) context_storage_.set_cookie_store(new CookieMonster(NULL, NULL)); // In-memory Channel ID service. if (!channel_id_service()) { context_storage_.set_channel_id_service(make_scoped_ptr( new ChannelIDService(new DefaultChannelIDStore(NULL), base::WorkerPool::GetTaskRunner(true)))); } if (!http_user_agent_settings()) { context_storage_.set_http_user_agent_settings( new StaticHttpUserAgentSettings("en-us,fr", std::string())); } if (!job_factory()) context_storage_.set_job_factory(new URLRequestJobFactoryImpl); } TestURLRequestContextGetter::TestURLRequestContextGetter( const scoped_refptr& network_task_runner) : network_task_runner_(network_task_runner) { DCHECK(network_task_runner_.get()); } TestURLRequestContextGetter::TestURLRequestContextGetter( const scoped_refptr& network_task_runner, scoped_ptr context) : network_task_runner_(network_task_runner), context_(context.Pass()) { DCHECK(network_task_runner_.get()); } TestURLRequestContextGetter::~TestURLRequestContextGetter() {} TestURLRequestContext* TestURLRequestContextGetter::GetURLRequestContext() { if (!context_.get()) context_.reset(new TestURLRequestContext); return context_.get(); } scoped_refptr TestURLRequestContextGetter::GetNetworkTaskRunner() const { return network_task_runner_; } TestDelegate::TestDelegate() : cancel_in_rr_(false), cancel_in_rs_(false), cancel_in_rd_(false), cancel_in_rd_pending_(false), quit_on_complete_(true), quit_on_redirect_(false), quit_on_before_network_start_(false), allow_certificate_errors_(false), response_started_count_(0), received_bytes_count_(0), received_redirect_count_(0), received_before_network_start_count_(0), received_data_before_response_(false), request_failed_(false), have_certificate_errors_(false), certificate_errors_are_fatal_(false), auth_required_(false), have_full_request_headers_(false), buf_(new IOBuffer(kBufferSize)) { } TestDelegate::~TestDelegate() {} void TestDelegate::ClearFullRequestHeaders() { full_request_headers_.Clear(); have_full_request_headers_ = false; } void TestDelegate::OnReceivedRedirect(URLRequest* request, const RedirectInfo& redirect_info, bool* defer_redirect) { EXPECT_TRUE(request->is_redirecting()); have_full_request_headers_ = request->GetFullRequestHeaders(&full_request_headers_); received_redirect_count_++; if (quit_on_redirect_) { *defer_redirect = true; base::MessageLoop::current()->PostTask(FROM_HERE, base::MessageLoop::QuitClosure()); } else if (cancel_in_rr_) { request->Cancel(); } } void TestDelegate::OnBeforeNetworkStart(URLRequest* request, bool* defer) { received_before_network_start_count_++; if (quit_on_before_network_start_) { *defer = true; base::MessageLoop::current()->PostTask(FROM_HERE, base::MessageLoop::QuitClosure()); } } void TestDelegate::OnAuthRequired(URLRequest* request, AuthChallengeInfo* auth_info) { auth_required_ = true; if (!credentials_.Empty()) { request->SetAuth(credentials_); } else { request->CancelAuth(); } } void TestDelegate::OnSSLCertificateError(URLRequest* request, const SSLInfo& ssl_info, bool fatal) { // The caller can control whether it needs all SSL requests to go through, // independent of any possible errors, or whether it wants SSL errors to // cancel the request. have_certificate_errors_ = true; certificate_errors_are_fatal_ = fatal; if (allow_certificate_errors_) request->ContinueDespiteLastError(); else request->Cancel(); } void TestDelegate::OnResponseStarted(URLRequest* request) { // It doesn't make sense for the request to have IO pending at this point. DCHECK(!request->status().is_io_pending()); EXPECT_FALSE(request->is_redirecting()); have_full_request_headers_ = request->GetFullRequestHeaders(&full_request_headers_); response_started_count_++; if (cancel_in_rs_) { request->Cancel(); OnResponseCompleted(request); } else if (!request->status().is_success()) { DCHECK(request->status().status() == URLRequestStatus::FAILED || request->status().status() == URLRequestStatus::CANCELED); request_failed_ = true; OnResponseCompleted(request); } else { // Initiate the first read. int bytes_read = 0; if (request->Read(buf_.get(), kBufferSize, &bytes_read)) OnReadCompleted(request, bytes_read); else if (!request->status().is_io_pending()) OnResponseCompleted(request); } } void TestDelegate::OnReadCompleted(URLRequest* request, int bytes_read) { // It doesn't make sense for the request to have IO pending at this point. DCHECK(!request->status().is_io_pending()); if (response_started_count_ == 0) received_data_before_response_ = true; if (cancel_in_rd_) request->Cancel(); if (bytes_read >= 0) { // There is data to read. received_bytes_count_ += bytes_read; // consume the data data_received_.append(buf_->data(), bytes_read); } // If it was not end of stream, request to read more. if (request->status().is_success() && bytes_read > 0) { bytes_read = 0; while (request->Read(buf_.get(), kBufferSize, &bytes_read)) { if (bytes_read > 0) { data_received_.append(buf_->data(), bytes_read); received_bytes_count_ += bytes_read; } else { break; } } } if (!request->status().is_io_pending()) OnResponseCompleted(request); else if (cancel_in_rd_pending_) request->Cancel(); } void TestDelegate::OnResponseCompleted(URLRequest* request) { if (quit_on_complete_) base::MessageLoop::current()->PostTask(FROM_HERE, base::MessageLoop::QuitClosure()); } TestNetworkDelegate::TestNetworkDelegate() : last_error_(0), error_count_(0), created_requests_(0), destroyed_requests_(0), completed_requests_(0), canceled_requests_(0), cookie_options_bit_mask_(0), blocked_get_cookies_count_(0), blocked_set_cookie_count_(0), set_cookie_count_(0), observed_before_proxy_headers_sent_callbacks_(0), before_send_headers_count_(0), headers_received_count_(0), has_load_timing_info_before_redirect_(false), has_load_timing_info_before_auth_(false), can_access_files_(true), can_throttle_requests_(true), first_party_only_cookies_enabled_(false), cancel_request_with_policy_violating_referrer_(false), will_be_intercepted_on_next_error_(false) { } TestNetworkDelegate::~TestNetworkDelegate() { for (std::map::iterator i = next_states_.begin(); i != next_states_.end(); ++i) { event_order_[i->first] += "~TestNetworkDelegate\n"; EXPECT_TRUE(i->second & kStageDestruction) << event_order_[i->first]; } } bool TestNetworkDelegate::GetLoadTimingInfoBeforeRedirect( LoadTimingInfo* load_timing_info_before_redirect) const { *load_timing_info_before_redirect = load_timing_info_before_redirect_; return has_load_timing_info_before_redirect_; } bool TestNetworkDelegate::GetLoadTimingInfoBeforeAuth( LoadTimingInfo* load_timing_info_before_auth) const { *load_timing_info_before_auth = load_timing_info_before_auth_; return has_load_timing_info_before_auth_; } void TestNetworkDelegate::InitRequestStatesIfNew(int request_id) { if (next_states_.find(request_id) == next_states_.end()) { // TODO(davidben): Although the URLRequest documentation does not allow // calling Cancel() before Start(), the ResourceLoader does so. URLRequest's // destructor also calls Cancel. Either officially support this or fix the // ResourceLoader code. next_states_[request_id] = kStageBeforeURLRequest | kStageCompletedError; event_order_[request_id] = ""; } } int TestNetworkDelegate::OnBeforeURLRequest( URLRequest* request, const CompletionCallback& callback, GURL* new_url) { int req_id = request->identifier(); InitRequestStatesIfNew(req_id); event_order_[req_id] += "OnBeforeURLRequest\n"; EXPECT_TRUE(next_states_[req_id] & kStageBeforeURLRequest) << event_order_[req_id]; next_states_[req_id] = kStageBeforeSendHeaders | kStageResponseStarted | // data: URLs do not trigger sending headers kStageBeforeRedirect | // a delegate can trigger a redirection kStageCompletedError | // request canceled by delegate kStageAuthRequired; // Auth can come next for FTP requests created_requests_++; return OK; } int TestNetworkDelegate::OnBeforeSendHeaders( URLRequest* request, const CompletionCallback& callback, HttpRequestHeaders* headers) { int req_id = request->identifier(); InitRequestStatesIfNew(req_id); event_order_[req_id] += "OnBeforeSendHeaders\n"; EXPECT_TRUE(next_states_[req_id] & kStageBeforeSendHeaders) << event_order_[req_id]; next_states_[req_id] = kStageSendHeaders | kStageCompletedError; // request canceled by delegate before_send_headers_count_++; return OK; } void TestNetworkDelegate::OnBeforeSendProxyHeaders( URLRequest* request, const ProxyInfo& proxy_info, HttpRequestHeaders* headers) { ++observed_before_proxy_headers_sent_callbacks_; last_observed_proxy_ = proxy_info.proxy_server().host_port_pair(); } void TestNetworkDelegate::OnSendHeaders( URLRequest* request, const HttpRequestHeaders& headers) { int req_id = request->identifier(); InitRequestStatesIfNew(req_id); event_order_[req_id] += "OnSendHeaders\n"; EXPECT_TRUE(next_states_[req_id] & kStageSendHeaders) << event_order_[req_id]; if (!will_be_intercepted_on_next_error_) next_states_[req_id] = kStageHeadersReceived | kStageCompletedError; else next_states_[req_id] = kStageResponseStarted; will_be_intercepted_on_next_error_ = false; } int TestNetworkDelegate::OnHeadersReceived( URLRequest* request, const CompletionCallback& callback, const HttpResponseHeaders* original_response_headers, scoped_refptr* override_response_headers, GURL* allowed_unsafe_redirect_url) { int req_id = request->identifier(); event_order_[req_id] += "OnHeadersReceived\n"; InitRequestStatesIfNew(req_id); EXPECT_TRUE(next_states_[req_id] & kStageHeadersReceived) << event_order_[req_id]; next_states_[req_id] = kStageBeforeRedirect | kStageResponseStarted | kStageAuthRequired | kStageCompletedError; // e.g. proxy resolution problem // Basic authentication sends a second request from the URLRequestHttpJob // layer before the URLRequest reports that a response has started. next_states_[req_id] |= kStageBeforeSendHeaders; if (!redirect_on_headers_received_url_.is_empty()) { *override_response_headers = new HttpResponseHeaders(original_response_headers->raw_headers()); (*override_response_headers)->ReplaceStatusLine("HTTP/1.1 302 Found"); (*override_response_headers)->RemoveHeader("Location"); (*override_response_headers)->AddHeader( "Location: " + redirect_on_headers_received_url_.spec()); redirect_on_headers_received_url_ = GURL(); if (!allowed_unsafe_redirect_url_.is_empty()) *allowed_unsafe_redirect_url = allowed_unsafe_redirect_url_; } headers_received_count_++; return OK; } void TestNetworkDelegate::OnBeforeRedirect(URLRequest* request, const GURL& new_location) { load_timing_info_before_redirect_ = LoadTimingInfo(); request->GetLoadTimingInfo(&load_timing_info_before_redirect_); has_load_timing_info_before_redirect_ = true; EXPECT_FALSE(load_timing_info_before_redirect_.request_start_time.is_null()); EXPECT_FALSE(load_timing_info_before_redirect_.request_start.is_null()); int req_id = request->identifier(); InitRequestStatesIfNew(req_id); event_order_[req_id] += "OnBeforeRedirect\n"; EXPECT_TRUE(next_states_[req_id] & kStageBeforeRedirect) << event_order_[req_id]; next_states_[req_id] = kStageBeforeURLRequest | // HTTP redirects trigger this. kStageBeforeSendHeaders | // Redirects from the network delegate do not // trigger onBeforeURLRequest. kStageCompletedError; // A redirect can lead to a file or a data URL. In this case, we do not send // headers. next_states_[req_id] |= kStageResponseStarted; } void TestNetworkDelegate::OnResponseStarted(URLRequest* request) { LoadTimingInfo load_timing_info; request->GetLoadTimingInfo(&load_timing_info); EXPECT_FALSE(load_timing_info.request_start_time.is_null()); EXPECT_FALSE(load_timing_info.request_start.is_null()); int req_id = request->identifier(); InitRequestStatesIfNew(req_id); event_order_[req_id] += "OnResponseStarted\n"; EXPECT_TRUE(next_states_[req_id] & kStageResponseStarted) << event_order_[req_id]; next_states_[req_id] = kStageCompletedSuccess | kStageCompletedError; if (request->status().status() == URLRequestStatus::FAILED) { error_count_++; last_error_ = request->status().error(); } } void TestNetworkDelegate::OnRawBytesRead(const URLRequest& request, int bytes_read) { } void TestNetworkDelegate::OnCompleted(URLRequest* request, bool started) { int req_id = request->identifier(); InitRequestStatesIfNew(req_id); event_order_[req_id] += "OnCompleted\n"; // Expect "Success -> (next_states_ & kStageCompletedSuccess)" // is logically identical to // Expect "!(Success) || (next_states_ & kStageCompletedSuccess)" EXPECT_TRUE(!request->status().is_success() || (next_states_[req_id] & kStageCompletedSuccess)) << event_order_[req_id]; EXPECT_TRUE(request->status().is_success() || (next_states_[req_id] & kStageCompletedError)) << event_order_[req_id]; next_states_[req_id] = kStageURLRequestDestroyed; completed_requests_++; if (request->status().status() == URLRequestStatus::FAILED) { error_count_++; last_error_ = request->status().error(); } else if (request->status().status() == URLRequestStatus::CANCELED) { canceled_requests_++; } else { DCHECK_EQ(URLRequestStatus::SUCCESS, request->status().status()); } } void TestNetworkDelegate::OnURLRequestDestroyed(URLRequest* request) { int req_id = request->identifier(); InitRequestStatesIfNew(req_id); event_order_[req_id] += "OnURLRequestDestroyed\n"; EXPECT_TRUE(next_states_[req_id] & kStageURLRequestDestroyed) << event_order_[req_id]; next_states_[req_id] = kStageDestruction; destroyed_requests_++; } void TestNetworkDelegate::OnPACScriptError(int line_number, const base::string16& error) { } NetworkDelegate::AuthRequiredResponse TestNetworkDelegate::OnAuthRequired( URLRequest* request, const AuthChallengeInfo& auth_info, const AuthCallback& callback, AuthCredentials* credentials) { load_timing_info_before_auth_ = LoadTimingInfo(); request->GetLoadTimingInfo(&load_timing_info_before_auth_); has_load_timing_info_before_auth_ = true; EXPECT_FALSE(load_timing_info_before_auth_.request_start_time.is_null()); EXPECT_FALSE(load_timing_info_before_auth_.request_start.is_null()); int req_id = request->identifier(); InitRequestStatesIfNew(req_id); event_order_[req_id] += "OnAuthRequired\n"; EXPECT_TRUE(next_states_[req_id] & kStageAuthRequired) << event_order_[req_id]; next_states_[req_id] = kStageBeforeSendHeaders | kStageAuthRequired | // For example, proxy auth followed by server auth. kStageHeadersReceived | // Request canceled by delegate simulates empty // response. kStageResponseStarted | // data: URLs do not trigger sending headers kStageBeforeRedirect | // a delegate can trigger a redirection kStageCompletedError; // request cancelled before callback return NetworkDelegate::AUTH_REQUIRED_RESPONSE_NO_ACTION; } bool TestNetworkDelegate::OnCanGetCookies(const URLRequest& request, const CookieList& cookie_list) { bool allow = true; if (cookie_options_bit_mask_ & NO_GET_COOKIES) allow = false; if (!allow) { blocked_get_cookies_count_++; } return allow; } bool TestNetworkDelegate::OnCanSetCookie(const URLRequest& request, const std::string& cookie_line, CookieOptions* options) { bool allow = true; if (cookie_options_bit_mask_ & NO_SET_COOKIE) allow = false; if (!allow) { blocked_set_cookie_count_++; } else { set_cookie_count_++; } return allow; } bool TestNetworkDelegate::OnCanAccessFile(const URLRequest& request, const base::FilePath& path) const { return can_access_files_; } bool TestNetworkDelegate::OnCanThrottleRequest( const URLRequest& request) const { return can_throttle_requests_; } bool TestNetworkDelegate::OnFirstPartyOnlyCookieExperimentEnabled() const { return first_party_only_cookies_enabled_; } bool TestNetworkDelegate::OnCancelURLRequestWithPolicyViolatingReferrerHeader( const URLRequest& request, const GURL& target_url, const GURL& referrer_url) const { return cancel_request_with_policy_violating_referrer_; } // static std::string ScopedCustomUrlRequestTestHttpHost::value_("127.0.0.1"); ScopedCustomUrlRequestTestHttpHost::ScopedCustomUrlRequestTestHttpHost( const std::string& new_value) : old_value_(value_), new_value_(new_value) { value_ = new_value_; } ScopedCustomUrlRequestTestHttpHost::~ScopedCustomUrlRequestTestHttpHost() { DCHECK_EQ(value_, new_value_); value_ = old_value_; } // static const std::string& ScopedCustomUrlRequestTestHttpHost::value() { return value_; } TestJobInterceptor::TestJobInterceptor() : main_intercept_job_(NULL) { } URLRequestJob* TestJobInterceptor::MaybeCreateJob( URLRequest* request, NetworkDelegate* network_delegate) const { URLRequestJob* job = main_intercept_job_; main_intercept_job_ = NULL; return job; } void TestJobInterceptor::set_main_intercept_job(URLRequestJob* job) { main_intercept_job_ = job; } } // namespace net