// Copyright 2014 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 "components/gcm_driver/gcm_client_impl.h" #include "base/command_line.h" #include "base/files/file_path.h" #include "base/files/file_util.h" #include "base/files/scoped_temp_dir.h" #include "base/memory/scoped_ptr.h" #include "base/strings/string_number_conversions.h" #include "base/test/test_mock_time_task_runner.h" #include "base/thread_task_runner_handle.h" #include "base/time/clock.h" #include "base/timer/timer.h" #include "google_apis/gcm/base/fake_encryptor.h" #include "google_apis/gcm/base/mcs_message.h" #include "google_apis/gcm/base/mcs_util.h" #include "google_apis/gcm/engine/fake_connection_factory.h" #include "google_apis/gcm/engine/fake_connection_handler.h" #include "google_apis/gcm/engine/gservices_settings.h" #include "google_apis/gcm/monitoring/gcm_stats_recorder.h" #include "google_apis/gcm/protocol/android_checkin.pb.h" #include "google_apis/gcm/protocol/checkin.pb.h" #include "google_apis/gcm/protocol/mcs.pb.h" #include "net/url_request/test_url_fetcher_factory.h" #include "net/url_request/url_fetcher_delegate.h" #include "net/url_request/url_request_test_util.h" #include "testing/gtest/include/gtest/gtest.h" namespace gcm { namespace { enum LastEvent { NONE, LOADING_COMPLETED, REGISTRATION_COMPLETED, UNREGISTRATION_COMPLETED, MESSAGE_SEND_ERROR, MESSAGE_SEND_ACK, MESSAGE_RECEIVED, MESSAGES_DELETED, }; const char kChromeVersion[] = "45.0.0.1"; const uint64 kDeviceAndroidId = 54321; const uint64 kDeviceSecurityToken = 12345; const uint64 kDeviceAndroidId2 = 11111; const uint64 kDeviceSecurityToken2 = 2222; const int64 kSettingsCheckinInterval = 16 * 60 * 60; const char kAppId[] = "app_id"; const char kSender[] = "project_id"; const char kSender2[] = "project_id2"; const char kSender3[] = "project_id3"; const char kRegistrationResponsePrefix[] = "token="; const char kUnregistrationResponsePrefix[] = "deleted="; const char kRawData[] = "example raw data"; const char kInstanceID[] = "iid_1"; const char kScope[] = "GCM"; const char kDeleteTokenResponse[] = "token=foo"; // Helper for building arbitrary data messages. MCSMessage BuildDownstreamMessage( const std::string& project_id, const std::string& app_id, const std::map& data, const std::string& raw_data) { mcs_proto::DataMessageStanza data_message; data_message.set_from(project_id); data_message.set_category(app_id); for (std::map::const_iterator iter = data.begin(); iter != data.end(); ++iter) { mcs_proto::AppData* app_data = data_message.add_app_data(); app_data->set_key(iter->first); app_data->set_value(iter->second); } data_message.set_raw_data(raw_data); return MCSMessage(kDataMessageStanzaTag, data_message); } GCMClient::AccountTokenInfo MakeAccountToken(const std::string& email, const std::string& token) { GCMClient::AccountTokenInfo account_token; account_token.email = email; account_token.access_token = token; return account_token; } std::map MakeEmailToTokenMap( const std::vector& account_tokens) { std::map email_token_map; for (std::vector::const_iterator iter = account_tokens.begin(); iter != account_tokens.end(); ++iter) { email_token_map[iter->email] = iter->access_token; } return email_token_map; } class FakeMCSClient : public MCSClient { public: FakeMCSClient(base::Clock* clock, ConnectionFactory* connection_factory, GCMStore* gcm_store, GCMStatsRecorder* recorder); ~FakeMCSClient() override; void Login(uint64 android_id, uint64 security_token) override; void SendMessage(const MCSMessage& message) override; uint64 last_android_id() const { return last_android_id_; } uint64 last_security_token() const { return last_security_token_; } uint8 last_message_tag() const { return last_message_tag_; } const mcs_proto::DataMessageStanza& last_data_message_stanza() const { return last_data_message_stanza_; } private: uint64 last_android_id_; uint64 last_security_token_; uint8 last_message_tag_; mcs_proto::DataMessageStanza last_data_message_stanza_; }; FakeMCSClient::FakeMCSClient(base::Clock* clock, ConnectionFactory* connection_factory, GCMStore* gcm_store, GCMStatsRecorder* recorder) : MCSClient("", clock, connection_factory, gcm_store, recorder), last_android_id_(0u), last_security_token_(0u), last_message_tag_(kNumProtoTypes) { } FakeMCSClient::~FakeMCSClient() { } void FakeMCSClient::Login(uint64 android_id, uint64 security_token) { last_android_id_ = android_id; last_security_token_ = security_token; } void FakeMCSClient::SendMessage(const MCSMessage& message) { last_message_tag_ = message.tag(); if (last_message_tag_ == kDataMessageStanzaTag) { last_data_message_stanza_.CopyFrom( reinterpret_cast( message.GetProtobuf())); } } class AutoAdvancingTestClock : public base::Clock { public: explicit AutoAdvancingTestClock(base::TimeDelta auto_increment_time_delta); ~AutoAdvancingTestClock() override; base::Time Now() override; void Advance(TimeDelta delta); int call_count() const { return call_count_; } private: int call_count_; base::TimeDelta auto_increment_time_delta_; base::Time now_; DISALLOW_COPY_AND_ASSIGN(AutoAdvancingTestClock); }; AutoAdvancingTestClock::AutoAdvancingTestClock( base::TimeDelta auto_increment_time_delta) : call_count_(0), auto_increment_time_delta_(auto_increment_time_delta) { } AutoAdvancingTestClock::~AutoAdvancingTestClock() { } base::Time AutoAdvancingTestClock::Now() { call_count_++; now_ += auto_increment_time_delta_; return now_; } void AutoAdvancingTestClock::Advance(base::TimeDelta delta) { now_ += delta; } class FakeGCMInternalsBuilder : public GCMInternalsBuilder { public: FakeGCMInternalsBuilder(base::TimeDelta clock_step); ~FakeGCMInternalsBuilder() override; scoped_ptr BuildClock() override; scoped_ptr BuildMCSClient(const std::string& version, base::Clock* clock, ConnectionFactory* connection_factory, GCMStore* gcm_store, GCMStatsRecorder* recorder) override; scoped_ptr BuildConnectionFactory( const std::vector& endpoints, const net::BackoffEntry::Policy& backoff_policy, const scoped_refptr& gcm_network_session, const scoped_refptr& http_network_session, net::NetLog* net_log, GCMStatsRecorder* recorder) override; private: base::TimeDelta clock_step_; }; FakeGCMInternalsBuilder::FakeGCMInternalsBuilder(base::TimeDelta clock_step) : clock_step_(clock_step) { } FakeGCMInternalsBuilder::~FakeGCMInternalsBuilder() {} scoped_ptr FakeGCMInternalsBuilder::BuildClock() { return make_scoped_ptr(new AutoAdvancingTestClock(clock_step_)); } scoped_ptr FakeGCMInternalsBuilder::BuildMCSClient( const std::string& version, base::Clock* clock, ConnectionFactory* connection_factory, GCMStore* gcm_store, GCMStatsRecorder* recorder) { return make_scoped_ptr(new FakeMCSClient(clock, connection_factory, gcm_store, recorder)); } scoped_ptr FakeGCMInternalsBuilder::BuildConnectionFactory( const std::vector& endpoints, const net::BackoffEntry::Policy& backoff_policy, const scoped_refptr& gcm_network_session, const scoped_refptr& http_network_session, net::NetLog* net_log, GCMStatsRecorder* recorder) { return make_scoped_ptr(new FakeConnectionFactory()); } } // namespace class GCMClientImplTest : public testing::Test, public GCMClient::Delegate { public: GCMClientImplTest(); ~GCMClientImplTest() override; void SetUp() override; void SetUpUrlFetcherFactory(); void BuildGCMClient(base::TimeDelta clock_step); void InitializeGCMClient(); void StartGCMClient(); void Register(const std::string& app_id, const std::vector& senders); void Unregister(const std::string& app_id); void ReceiveMessageFromMCS(const MCSMessage& message); void ReceiveOnMessageSentToMCS( const std::string& app_id, const std::string& message_id, const MCSClient::MessageSendStatus status); void CompleteCheckin(uint64 android_id, uint64 security_token, const std::string& digest, const std::map& settings); void CompleteRegistration(const std::string& registration_id); void CompleteUnregistration(const std::string& app_id); void VerifyPendingRequestFetcherDeleted(); bool ExistsRegistration(const std::string& app_id) const; void AddRegistration(const std::string& app_id, const std::vector& sender_ids, const std::string& registration_id); // GCMClient::Delegate overrides (for verification). void OnRegisterFinished(const linked_ptr& registration_info, const std::string& registration_id, GCMClient::Result result) override; void OnUnregisterFinished( const linked_ptr& registration_info, GCMClient::Result result) override; void OnSendFinished(const std::string& app_id, const std::string& message_id, GCMClient::Result result) override {} void OnMessageReceived(const std::string& registration_id, const IncomingMessage& message) override; void OnMessagesDeleted(const std::string& app_id) override; void OnMessageSendError( const std::string& app_id, const gcm::GCMClient::SendErrorDetails& send_error_details) override; void OnSendAcknowledged(const std::string& app_id, const std::string& message_id) override; void OnGCMReady(const std::vector& account_mappings, const base::Time& last_token_fetch_time) override; void OnActivityRecorded() override {} void OnConnected(const net::IPEndPoint& ip_endpoint) override {} void OnDisconnected() override {} GCMClientImpl* gcm_client() const { return gcm_client_.get(); } GCMClientImpl::State gcm_client_state() const { return gcm_client_->state_; } FakeMCSClient* mcs_client() const { return reinterpret_cast(gcm_client_->mcs_client_.get()); } ConnectionFactory* connection_factory() const { return gcm_client_->connection_factory_.get(); } const GCMClientImpl::CheckinInfo& device_checkin_info() const { return gcm_client_->device_checkin_info_; } void reset_last_event() { last_event_ = NONE; last_app_id_.clear(); last_registration_id_.clear(); last_message_id_.clear(); last_result_ = GCMClient::UNKNOWN_ERROR; last_account_mappings_.clear(); last_token_fetch_time_ = base::Time(); } LastEvent last_event() const { return last_event_; } const std::string& last_app_id() const { return last_app_id_; } const std::string& last_registration_id() const { return last_registration_id_; } const std::string& last_message_id() const { return last_message_id_; } GCMClient::Result last_result() const { return last_result_; } const IncomingMessage& last_message() const { return last_message_; } const GCMClient::SendErrorDetails& last_error_details() const { return last_error_details_; } const base::Time& last_token_fetch_time() const { return last_token_fetch_time_; } const std::vector& last_account_mappings() { return last_account_mappings_; } const GServicesSettings& gservices_settings() const { return gcm_client_->gservices_settings_; } const base::FilePath& temp_directory_path() const { return temp_directory_.path(); } base::FilePath gcm_store_path() const { // Pass an non-existent directory as store path to match the exact // behavior in the production code. Currently GCMStoreImpl checks if // the directory exist or not to determine the store existence. return temp_directory_.path().Append(FILE_PATH_LITERAL("GCM Store")); } int64 CurrentTime(); // Tooling. void PumpLoopUntilIdle(); bool CreateUniqueTempDir(); AutoAdvancingTestClock* clock() const { return reinterpret_cast(gcm_client_->clock_.get()); } net::TestURLFetcherFactory* url_fetcher_factory() { return &url_fetcher_factory_; } base::TestMockTimeTaskRunner* task_runner() { return task_runner_.get(); } private: // Variables used for verification. LastEvent last_event_; std::string last_app_id_; std::string last_registration_id_; std::string last_message_id_; GCMClient::Result last_result_; IncomingMessage last_message_; GCMClient::SendErrorDetails last_error_details_; base::Time last_token_fetch_time_; std::vector last_account_mappings_; scoped_ptr gcm_client_; net::TestURLFetcherFactory url_fetcher_factory_; scoped_refptr task_runner_; base::ThreadTaskRunnerHandle task_runner_handle_; // Injected to GCM client: base::ScopedTempDir temp_directory_; scoped_refptr url_request_context_getter_; }; GCMClientImplTest::GCMClientImplTest() : last_event_(NONE), last_result_(GCMClient::UNKNOWN_ERROR), task_runner_(new base::TestMockTimeTaskRunner), task_runner_handle_(task_runner_), url_request_context_getter_( new net::TestURLRequestContextGetter(task_runner_)) { } GCMClientImplTest::~GCMClientImplTest() {} void GCMClientImplTest::SetUp() { testing::Test::SetUp(); ASSERT_TRUE(CreateUniqueTempDir()); BuildGCMClient(base::TimeDelta()); InitializeGCMClient(); StartGCMClient(); SetUpUrlFetcherFactory(); CompleteCheckin(kDeviceAndroidId, kDeviceSecurityToken, std::string(), std::map()); } void GCMClientImplTest::SetUpUrlFetcherFactory() { url_fetcher_factory_.set_remove_fetcher_on_delete(true); } void GCMClientImplTest::PumpLoopUntilIdle() { task_runner_->RunUntilIdle(); } bool GCMClientImplTest::CreateUniqueTempDir() { return temp_directory_.CreateUniqueTempDir(); } void GCMClientImplTest::BuildGCMClient(base::TimeDelta clock_step) { gcm_client_.reset(new GCMClientImpl(make_scoped_ptr( new FakeGCMInternalsBuilder(clock_step)))); } void GCMClientImplTest::CompleteCheckin( uint64 android_id, uint64 security_token, const std::string& digest, const std::map& settings) { checkin_proto::AndroidCheckinResponse response; response.set_stats_ok(true); response.set_android_id(android_id); response.set_security_token(security_token); // For testing G-services settings. if (!digest.empty()) { response.set_digest(digest); for (std::map::const_iterator it = settings.begin(); it != settings.end(); ++it) { checkin_proto::GservicesSetting* setting = response.add_setting(); setting->set_name(it->first); setting->set_value(it->second); } response.set_settings_diff(false); } std::string response_string; response.SerializeToString(&response_string); net::TestURLFetcher* fetcher = url_fetcher_factory_.GetFetcherByID(0); ASSERT_TRUE(fetcher); fetcher->set_response_code(net::HTTP_OK); fetcher->SetResponseString(response_string); fetcher->delegate()->OnURLFetchComplete(fetcher); // Give a chance for GCMStoreImpl::Backend to finish persisting data. PumpLoopUntilIdle(); } void GCMClientImplTest::CompleteRegistration( const std::string& registration_id) { std::string response(kRegistrationResponsePrefix); response.append(registration_id); net::TestURLFetcher* fetcher = url_fetcher_factory_.GetFetcherByID(0); ASSERT_TRUE(fetcher); fetcher->set_response_code(net::HTTP_OK); fetcher->SetResponseString(response); fetcher->delegate()->OnURLFetchComplete(fetcher); // Give a chance for GCMStoreImpl::Backend to finish persisting data. PumpLoopUntilIdle(); } void GCMClientImplTest::CompleteUnregistration( const std::string& app_id) { std::string response(kUnregistrationResponsePrefix); response.append(app_id); net::TestURLFetcher* fetcher = url_fetcher_factory_.GetFetcherByID(0); ASSERT_TRUE(fetcher); fetcher->set_response_code(net::HTTP_OK); fetcher->SetResponseString(response); fetcher->delegate()->OnURLFetchComplete(fetcher); // Give a chance for GCMStoreImpl::Backend to finish persisting data. PumpLoopUntilIdle(); } void GCMClientImplTest::VerifyPendingRequestFetcherDeleted() { net::TestURLFetcher* fetcher = url_fetcher_factory_.GetFetcherByID(0); EXPECT_FALSE(fetcher); } bool GCMClientImplTest::ExistsRegistration(const std::string& app_id) const { return ExistsGCMRegistrationInMap(gcm_client_->registrations_, app_id); } void GCMClientImplTest::AddRegistration( const std::string& app_id, const std::vector& sender_ids, const std::string& registration_id) { linked_ptr registration(new GCMRegistrationInfo); registration->app_id = app_id; registration->sender_ids = sender_ids; gcm_client_->registrations_[registration] = registration_id; } void GCMClientImplTest::InitializeGCMClient() { clock()->Advance(base::TimeDelta::FromMilliseconds(1)); // Actual initialization. GCMClient::ChromeBuildInfo chrome_build_info; chrome_build_info.version = kChromeVersion; gcm_client_->Initialize( chrome_build_info, gcm_store_path(), task_runner_, url_request_context_getter_, make_scoped_ptr(new FakeEncryptor), this); } void GCMClientImplTest::StartGCMClient() { // Start loading and check-in. gcm_client_->Start(GCMClient::IMMEDIATE_START); PumpLoopUntilIdle(); } void GCMClientImplTest::Register(const std::string& app_id, const std::vector& senders) { scoped_ptr gcm_info(new GCMRegistrationInfo); gcm_info->app_id = app_id; gcm_info->sender_ids = senders; gcm_client()->Register(make_linked_ptr(gcm_info.release())); } void GCMClientImplTest::Unregister(const std::string& app_id) { scoped_ptr gcm_info(new GCMRegistrationInfo); gcm_info->app_id = app_id; gcm_client()->Unregister( make_linked_ptr(gcm_info.release())); } void GCMClientImplTest::ReceiveMessageFromMCS(const MCSMessage& message) { gcm_client_->recorder_.RecordConnectionInitiated(std::string()); gcm_client_->recorder_.RecordConnectionSuccess(); gcm_client_->OnMessageReceivedFromMCS(message); } void GCMClientImplTest::ReceiveOnMessageSentToMCS( const std::string& app_id, const std::string& message_id, const MCSClient::MessageSendStatus status) { gcm_client_->OnMessageSentToMCS(0LL, app_id, message_id, status); } void GCMClientImplTest::OnGCMReady( const std::vector& account_mappings, const base::Time& last_token_fetch_time) { last_event_ = LOADING_COMPLETED; last_account_mappings_ = account_mappings; last_token_fetch_time_ = last_token_fetch_time; } void GCMClientImplTest::OnMessageReceived(const std::string& registration_id, const IncomingMessage& message) { last_event_ = MESSAGE_RECEIVED; last_app_id_ = registration_id; last_message_ = message; } void GCMClientImplTest::OnRegisterFinished( const linked_ptr& registration_info, const std::string& registration_id, GCMClient::Result result) { last_event_ = REGISTRATION_COMPLETED; last_app_id_ = registration_info->app_id; last_registration_id_ = registration_id; last_result_ = result; } void GCMClientImplTest::OnUnregisterFinished( const linked_ptr& registration_info, GCMClient::Result result) { last_event_ = UNREGISTRATION_COMPLETED; last_app_id_ = registration_info->app_id; last_result_ = result; } void GCMClientImplTest::OnMessagesDeleted(const std::string& app_id) { last_event_ = MESSAGES_DELETED; last_app_id_ = app_id; } void GCMClientImplTest::OnMessageSendError( const std::string& app_id, const gcm::GCMClient::SendErrorDetails& send_error_details) { last_event_ = MESSAGE_SEND_ERROR; last_app_id_ = app_id; last_error_details_ = send_error_details; } void GCMClientImplTest::OnSendAcknowledged(const std::string& app_id, const std::string& message_id) { last_event_ = MESSAGE_SEND_ACK; last_app_id_ = app_id; last_message_id_ = message_id; } int64 GCMClientImplTest::CurrentTime() { return clock()->Now().ToInternalValue() / base::Time::kMicrosecondsPerSecond; } TEST_F(GCMClientImplTest, LoadingCompleted) { EXPECT_EQ(LOADING_COMPLETED, last_event()); EXPECT_EQ(kDeviceAndroidId, mcs_client()->last_android_id()); EXPECT_EQ(kDeviceSecurityToken, mcs_client()->last_security_token()); // Checking freshly loaded CheckinInfo. EXPECT_EQ(kDeviceAndroidId, device_checkin_info().android_id); EXPECT_EQ(kDeviceSecurityToken, device_checkin_info().secret); EXPECT_TRUE(device_checkin_info().last_checkin_accounts.empty()); EXPECT_TRUE(device_checkin_info().accounts_set); EXPECT_TRUE(device_checkin_info().account_tokens.empty()); } TEST_F(GCMClientImplTest, LoadingBusted) { // Close the GCM store. gcm_client()->Stop(); PumpLoopUntilIdle(); // Mess up the store. base::FilePath store_file_path = gcm_store_path().Append(FILE_PATH_LITERAL("CURRENT")); ASSERT_TRUE(base::AppendToFile(store_file_path, "A", 1)); // Restart GCM client. The store should be reset and the loading should // complete successfully. reset_last_event(); BuildGCMClient(base::TimeDelta()); InitializeGCMClient(); StartGCMClient(); CompleteCheckin(kDeviceAndroidId2, kDeviceSecurityToken2, std::string(), std::map()); EXPECT_EQ(LOADING_COMPLETED, last_event()); EXPECT_EQ(kDeviceAndroidId2, mcs_client()->last_android_id()); EXPECT_EQ(kDeviceSecurityToken2, mcs_client()->last_security_token()); } TEST_F(GCMClientImplTest, DestroyStoreWhenNotNeeded) { // Close the GCM store. gcm_client()->Stop(); PumpLoopUntilIdle(); // Restart GCM client. The store is loaded successfully. reset_last_event(); BuildGCMClient(base::TimeDelta()); InitializeGCMClient(); gcm_client()->Start(GCMClient::DELAYED_START); PumpLoopUntilIdle(); EXPECT_EQ(GCMClientImpl::LOADED, gcm_client_state()); EXPECT_TRUE(device_checkin_info().android_id); EXPECT_TRUE(device_checkin_info().secret); // Fast forward the clock to trigger the store destroying logic. task_runner()->FastForwardBy(base::TimeDelta::FromMilliseconds(300000)); PumpLoopUntilIdle(); EXPECT_EQ(GCMClientImpl::INITIALIZED, gcm_client_state()); EXPECT_FALSE(device_checkin_info().android_id); EXPECT_FALSE(device_checkin_info().secret); } TEST_F(GCMClientImplTest, RegisterApp) { EXPECT_FALSE(ExistsRegistration(kAppId)); std::vector senders; senders.push_back("sender"); Register(kAppId, senders); CompleteRegistration("reg_id"); EXPECT_EQ(REGISTRATION_COMPLETED, last_event()); EXPECT_EQ(kAppId, last_app_id()); EXPECT_EQ("reg_id", last_registration_id()); EXPECT_EQ(GCMClient::SUCCESS, last_result()); EXPECT_TRUE(ExistsRegistration(kAppId)); } TEST_F(GCMClientImplTest, DISABLED_RegisterAppFromCache) { EXPECT_FALSE(ExistsRegistration(kAppId)); std::vector senders; senders.push_back("sender"); Register(kAppId, senders); CompleteRegistration("reg_id"); EXPECT_TRUE(ExistsRegistration(kAppId)); EXPECT_EQ(kAppId, last_app_id()); EXPECT_EQ("reg_id", last_registration_id()); EXPECT_EQ(GCMClient::SUCCESS, last_result()); EXPECT_EQ(REGISTRATION_COMPLETED, last_event()); // Recreate GCMClient in order to load from the persistent store. BuildGCMClient(base::TimeDelta()); InitializeGCMClient(); StartGCMClient(); EXPECT_TRUE(ExistsRegistration(kAppId)); } TEST_F(GCMClientImplTest, RegisterPreviousSenderAgain) { EXPECT_FALSE(ExistsRegistration(kAppId)); // Register a sender. std::vector senders; senders.push_back("sender"); Register(kAppId, senders); CompleteRegistration("reg_id"); EXPECT_EQ(REGISTRATION_COMPLETED, last_event()); EXPECT_EQ(kAppId, last_app_id()); EXPECT_EQ("reg_id", last_registration_id()); EXPECT_EQ(GCMClient::SUCCESS, last_result()); EXPECT_TRUE(ExistsRegistration(kAppId)); reset_last_event(); // Register a different sender. Different registration ID from previous one // should be returned. std::vector senders2; senders2.push_back("sender2"); Register(kAppId, senders2); CompleteRegistration("reg_id2"); EXPECT_EQ(REGISTRATION_COMPLETED, last_event()); EXPECT_EQ(kAppId, last_app_id()); EXPECT_EQ("reg_id2", last_registration_id()); EXPECT_EQ(GCMClient::SUCCESS, last_result()); EXPECT_TRUE(ExistsRegistration(kAppId)); reset_last_event(); // Register the 1st sender again. Different registration ID from previous one // should be returned. std::vector senders3; senders3.push_back("sender"); Register(kAppId, senders3); CompleteRegistration("reg_id"); EXPECT_EQ(REGISTRATION_COMPLETED, last_event()); EXPECT_EQ(kAppId, last_app_id()); EXPECT_EQ("reg_id", last_registration_id()); EXPECT_EQ(GCMClient::SUCCESS, last_result()); EXPECT_TRUE(ExistsRegistration(kAppId)); } TEST_F(GCMClientImplTest, UnregisterApp) { EXPECT_FALSE(ExistsRegistration(kAppId)); std::vector senders; senders.push_back("sender"); Register(kAppId, senders); CompleteRegistration("reg_id"); EXPECT_TRUE(ExistsRegistration(kAppId)); Unregister(kAppId); CompleteUnregistration(kAppId); EXPECT_EQ(UNREGISTRATION_COMPLETED, last_event()); EXPECT_EQ(kAppId, last_app_id()); EXPECT_EQ(GCMClient::SUCCESS, last_result()); EXPECT_FALSE(ExistsRegistration(kAppId)); } // Tests that stopping the GCMClient also deletes pending registration requests. // This is tested by checking that url fetcher contained in the request was // deleted. TEST_F(GCMClientImplTest, DeletePendingRequestsWhenStopping) { std::vector senders; senders.push_back("sender"); Register(kAppId, senders); gcm_client()->Stop(); PumpLoopUntilIdle(); VerifyPendingRequestFetcherDeleted(); } TEST_F(GCMClientImplTest, DispatchDownstreamMessage) { // Register to receive messages from kSender and kSender2 only. std::vector senders; senders.push_back(kSender); senders.push_back(kSender2); AddRegistration(kAppId, senders, "reg_id"); std::map expected_data; expected_data["message_type"] = "gcm"; expected_data["key"] = "value"; expected_data["key2"] = "value2"; // Message for kSender will be received. MCSMessage message(BuildDownstreamMessage(kSender, kAppId, expected_data, std::string() /* raw_data */)); EXPECT_TRUE(message.IsValid()); ReceiveMessageFromMCS(message); expected_data.erase(expected_data.find("message_type")); EXPECT_EQ(MESSAGE_RECEIVED, last_event()); EXPECT_EQ(kAppId, last_app_id()); EXPECT_EQ(expected_data.size(), last_message().data.size()); EXPECT_EQ(expected_data, last_message().data); EXPECT_EQ(kSender, last_message().sender_id); reset_last_event(); // Message for kSender2 will be received. MCSMessage message2(BuildDownstreamMessage(kSender2, kAppId, expected_data, std::string() /* raw_data */)); EXPECT_TRUE(message2.IsValid()); ReceiveMessageFromMCS(message2); EXPECT_EQ(MESSAGE_RECEIVED, last_event()); EXPECT_EQ(kAppId, last_app_id()); EXPECT_EQ(expected_data.size(), last_message().data.size()); EXPECT_EQ(expected_data, last_message().data); EXPECT_EQ(kSender2, last_message().sender_id); reset_last_event(); // Message from kSender3 will be dropped. MCSMessage message3(BuildDownstreamMessage(kSender3, kAppId, expected_data, std::string() /* raw_data */)); EXPECT_TRUE(message3.IsValid()); ReceiveMessageFromMCS(message3); EXPECT_NE(MESSAGE_RECEIVED, last_event()); EXPECT_NE(kAppId, last_app_id()); } TEST_F(GCMClientImplTest, DispatchDownstreamMessageRawData) { std::vector senders(1, kSender); AddRegistration(kAppId, senders, "reg_id"); std::map expected_data; MCSMessage message(BuildDownstreamMessage(kSender, kAppId, expected_data, kRawData)); EXPECT_TRUE(message.IsValid()); ReceiveMessageFromMCS(message); EXPECT_EQ(MESSAGE_RECEIVED, last_event()); EXPECT_EQ(kAppId, last_app_id()); EXPECT_EQ(expected_data.size(), last_message().data.size()); EXPECT_EQ(kSender, last_message().sender_id); EXPECT_EQ(kRawData, last_message().raw_data); } TEST_F(GCMClientImplTest, DispatchDownstreamMessageSendError) { std::map expected_data; expected_data["message_type"] = "send_error"; expected_data["google.message_id"] = "007"; expected_data["error_details"] = "some details"; MCSMessage message(BuildDownstreamMessage(kSender, kAppId, expected_data, std::string() /* raw_data */)); EXPECT_TRUE(message.IsValid()); ReceiveMessageFromMCS(message); EXPECT_EQ(MESSAGE_SEND_ERROR, last_event()); EXPECT_EQ(kAppId, last_app_id()); EXPECT_EQ("007", last_error_details().message_id); EXPECT_EQ(1UL, last_error_details().additional_data.size()); MessageData::const_iterator iter = last_error_details().additional_data.find("error_details"); EXPECT_TRUE(iter != last_error_details().additional_data.end()); EXPECT_EQ("some details", iter->second); } TEST_F(GCMClientImplTest, DispatchDownstreamMessgaesDeleted) { std::map expected_data; expected_data["message_type"] = "deleted_messages"; MCSMessage message(BuildDownstreamMessage(kSender, kAppId, expected_data, std::string() /* raw_data */)); EXPECT_TRUE(message.IsValid()); ReceiveMessageFromMCS(message); EXPECT_EQ(MESSAGES_DELETED, last_event()); EXPECT_EQ(kAppId, last_app_id()); } TEST_F(GCMClientImplTest, SendMessage) { OutgoingMessage message; message.id = "007"; message.time_to_live = 500; message.data["key"] = "value"; gcm_client()->Send(kAppId, kSender, message); EXPECT_EQ(kDataMessageStanzaTag, mcs_client()->last_message_tag()); EXPECT_EQ(kAppId, mcs_client()->last_data_message_stanza().category()); EXPECT_EQ(kSender, mcs_client()->last_data_message_stanza().to()); EXPECT_EQ(500, mcs_client()->last_data_message_stanza().ttl()); EXPECT_EQ(CurrentTime(), mcs_client()->last_data_message_stanza().sent()); EXPECT_EQ("007", mcs_client()->last_data_message_stanza().id()); EXPECT_EQ("gcm@chrome.com", mcs_client()->last_data_message_stanza().from()); EXPECT_EQ(kSender, mcs_client()->last_data_message_stanza().to()); EXPECT_EQ("key", mcs_client()->last_data_message_stanza().app_data(0).key()); EXPECT_EQ("value", mcs_client()->last_data_message_stanza().app_data(0).value()); } TEST_F(GCMClientImplTest, SendMessageAcknowledged) { ReceiveOnMessageSentToMCS(kAppId, "007", MCSClient::SENT); EXPECT_EQ(MESSAGE_SEND_ACK, last_event()); EXPECT_EQ(kAppId, last_app_id()); EXPECT_EQ("007", last_message_id()); } class GCMClientImplCheckinTest : public GCMClientImplTest { public: GCMClientImplCheckinTest(); ~GCMClientImplCheckinTest() override; void SetUp() override; }; GCMClientImplCheckinTest::GCMClientImplCheckinTest() { } GCMClientImplCheckinTest::~GCMClientImplCheckinTest() { } void GCMClientImplCheckinTest::SetUp() { testing::Test::SetUp(); // Creating unique temp directory that will be used by GCMStore shared between // GCM Client and G-services settings. ASSERT_TRUE(CreateUniqueTempDir()); // Time will be advancing one hour every time it is checked. BuildGCMClient(base::TimeDelta::FromSeconds(kSettingsCheckinInterval)); InitializeGCMClient(); StartGCMClient(); } TEST_F(GCMClientImplCheckinTest, GServicesSettingsAfterInitialCheckin) { std::map settings; settings["checkin_interval"] = base::Int64ToString(kSettingsCheckinInterval); settings["checkin_url"] = "http://alternative.url/checkin"; settings["gcm_hostname"] = "alternative.gcm.host"; settings["gcm_secure_port"] = "7777"; settings["gcm_registration_url"] = "http://alternative.url/registration"; CompleteCheckin(kDeviceAndroidId, kDeviceSecurityToken, GServicesSettings::CalculateDigest(settings), settings); EXPECT_EQ(base::TimeDelta::FromSeconds(kSettingsCheckinInterval), gservices_settings().GetCheckinInterval()); EXPECT_EQ(GURL("http://alternative.url/checkin"), gservices_settings().GetCheckinURL()); EXPECT_EQ(GURL("http://alternative.url/registration"), gservices_settings().GetRegistrationURL()); EXPECT_EQ(GURL("https://alternative.gcm.host:7777"), gservices_settings().GetMCSMainEndpoint()); EXPECT_EQ(GURL("https://alternative.gcm.host:443"), gservices_settings().GetMCSFallbackEndpoint()); } // This test only checks that periodic checkin happens. TEST_F(GCMClientImplCheckinTest, PeriodicCheckin) { std::map settings; settings["checkin_interval"] = base::Int64ToString(kSettingsCheckinInterval); settings["checkin_url"] = "http://alternative.url/checkin"; settings["gcm_hostname"] = "alternative.gcm.host"; settings["gcm_secure_port"] = "7777"; settings["gcm_registration_url"] = "http://alternative.url/registration"; CompleteCheckin(kDeviceAndroidId, kDeviceSecurityToken, GServicesSettings::CalculateDigest(settings), settings); EXPECT_EQ(2, clock()->call_count()); PumpLoopUntilIdle(); CompleteCheckin(kDeviceAndroidId, kDeviceSecurityToken, GServicesSettings::CalculateDigest(settings), settings); } TEST_F(GCMClientImplCheckinTest, LoadGSettingsFromStore) { std::map settings; settings["checkin_interval"] = base::Int64ToString(kSettingsCheckinInterval); settings["checkin_url"] = "http://alternative.url/checkin"; settings["gcm_hostname"] = "alternative.gcm.host"; settings["gcm_secure_port"] = "7777"; settings["gcm_registration_url"] = "http://alternative.url/registration"; CompleteCheckin(kDeviceAndroidId, kDeviceSecurityToken, GServicesSettings::CalculateDigest(settings), settings); BuildGCMClient(base::TimeDelta()); InitializeGCMClient(); StartGCMClient(); EXPECT_EQ(base::TimeDelta::FromSeconds(kSettingsCheckinInterval), gservices_settings().GetCheckinInterval()); EXPECT_EQ(GURL("http://alternative.url/checkin"), gservices_settings().GetCheckinURL()); EXPECT_EQ(GURL("http://alternative.url/registration"), gservices_settings().GetRegistrationURL()); EXPECT_EQ(GURL("https://alternative.gcm.host:7777"), gservices_settings().GetMCSMainEndpoint()); EXPECT_EQ(GURL("https://alternative.gcm.host:443"), gservices_settings().GetMCSFallbackEndpoint()); } // This test only checks that periodic checkin happens. TEST_F(GCMClientImplCheckinTest, CheckinWithAccounts) { std::map settings; settings["checkin_interval"] = base::Int64ToString(kSettingsCheckinInterval); settings["checkin_url"] = "http://alternative.url/checkin"; settings["gcm_hostname"] = "alternative.gcm.host"; settings["gcm_secure_port"] = "7777"; settings["gcm_registration_url"] = "http://alternative.url/registration"; CompleteCheckin(kDeviceAndroidId, kDeviceSecurityToken, GServicesSettings::CalculateDigest(settings), settings); std::vector account_tokens; account_tokens.push_back(MakeAccountToken("test_user1@gmail.com", "token1")); account_tokens.push_back(MakeAccountToken("test_user2@gmail.com", "token2")); gcm_client()->SetAccountTokens(account_tokens); EXPECT_TRUE(device_checkin_info().last_checkin_accounts.empty()); EXPECT_TRUE(device_checkin_info().accounts_set); EXPECT_EQ(MakeEmailToTokenMap(account_tokens), device_checkin_info().account_tokens); PumpLoopUntilIdle(); CompleteCheckin(kDeviceAndroidId, kDeviceSecurityToken, GServicesSettings::CalculateDigest(settings), settings); std::set accounts; accounts.insert("test_user1@gmail.com"); accounts.insert("test_user2@gmail.com"); EXPECT_EQ(accounts, device_checkin_info().last_checkin_accounts); EXPECT_TRUE(device_checkin_info().accounts_set); EXPECT_EQ(MakeEmailToTokenMap(account_tokens), device_checkin_info().account_tokens); } // This test only checks that periodic checkin happens. TEST_F(GCMClientImplCheckinTest, CheckinWhenAccountRemoved) { std::map settings; settings["checkin_interval"] = base::Int64ToString(kSettingsCheckinInterval); settings["checkin_url"] = "http://alternative.url/checkin"; settings["gcm_hostname"] = "alternative.gcm.host"; settings["gcm_secure_port"] = "7777"; settings["gcm_registration_url"] = "http://alternative.url/registration"; CompleteCheckin(kDeviceAndroidId, kDeviceSecurityToken, GServicesSettings::CalculateDigest(settings), settings); std::vector account_tokens; account_tokens.push_back(MakeAccountToken("test_user1@gmail.com", "token1")); account_tokens.push_back(MakeAccountToken("test_user2@gmail.com", "token2")); gcm_client()->SetAccountTokens(account_tokens); PumpLoopUntilIdle(); CompleteCheckin(kDeviceAndroidId, kDeviceSecurityToken, GServicesSettings::CalculateDigest(settings), settings); EXPECT_EQ(2UL, device_checkin_info().last_checkin_accounts.size()); EXPECT_TRUE(device_checkin_info().accounts_set); EXPECT_EQ(MakeEmailToTokenMap(account_tokens), device_checkin_info().account_tokens); account_tokens.erase(account_tokens.begin() + 1); gcm_client()->SetAccountTokens(account_tokens); PumpLoopUntilIdle(); CompleteCheckin(kDeviceAndroidId, kDeviceSecurityToken, GServicesSettings::CalculateDigest(settings), settings); std::set accounts; accounts.insert("test_user1@gmail.com"); EXPECT_EQ(accounts, device_checkin_info().last_checkin_accounts); EXPECT_TRUE(device_checkin_info().accounts_set); EXPECT_EQ(MakeEmailToTokenMap(account_tokens), device_checkin_info().account_tokens); } // This test only checks that periodic checkin happens. TEST_F(GCMClientImplCheckinTest, CheckinWhenAccountReplaced) { std::map settings; settings["checkin_interval"] = base::Int64ToString(kSettingsCheckinInterval); settings["checkin_url"] = "http://alternative.url/checkin"; settings["gcm_hostname"] = "alternative.gcm.host"; settings["gcm_secure_port"] = "7777"; settings["gcm_registration_url"] = "http://alternative.url/registration"; CompleteCheckin(kDeviceAndroidId, kDeviceSecurityToken, GServicesSettings::CalculateDigest(settings), settings); std::vector account_tokens; account_tokens.push_back(MakeAccountToken("test_user1@gmail.com", "token1")); gcm_client()->SetAccountTokens(account_tokens); PumpLoopUntilIdle(); CompleteCheckin(kDeviceAndroidId, kDeviceSecurityToken, GServicesSettings::CalculateDigest(settings), settings); std::set accounts; accounts.insert("test_user1@gmail.com"); EXPECT_EQ(accounts, device_checkin_info().last_checkin_accounts); // This should trigger another checkin, because the list of accounts is // different. account_tokens.clear(); account_tokens.push_back(MakeAccountToken("test_user2@gmail.com", "token2")); gcm_client()->SetAccountTokens(account_tokens); PumpLoopUntilIdle(); CompleteCheckin(kDeviceAndroidId, kDeviceSecurityToken, GServicesSettings::CalculateDigest(settings), settings); accounts.clear(); accounts.insert("test_user2@gmail.com"); EXPECT_EQ(accounts, device_checkin_info().last_checkin_accounts); EXPECT_TRUE(device_checkin_info().accounts_set); EXPECT_EQ(MakeEmailToTokenMap(account_tokens), device_checkin_info().account_tokens); } class GCMClientImplStartAndStopTest : public GCMClientImplTest { public: GCMClientImplStartAndStopTest(); ~GCMClientImplStartAndStopTest() override; void SetUp() override; void DefaultCompleteCheckin(); }; GCMClientImplStartAndStopTest::GCMClientImplStartAndStopTest() { } GCMClientImplStartAndStopTest::~GCMClientImplStartAndStopTest() { } void GCMClientImplStartAndStopTest::SetUp() { testing::Test::SetUp(); ASSERT_TRUE(CreateUniqueTempDir()); BuildGCMClient(base::TimeDelta()); InitializeGCMClient(); } void GCMClientImplStartAndStopTest::DefaultCompleteCheckin() { SetUpUrlFetcherFactory(); CompleteCheckin(kDeviceAndroidId, kDeviceSecurityToken, std::string(), std::map()); PumpLoopUntilIdle(); } TEST_F(GCMClientImplStartAndStopTest, StartStopAndRestart) { // GCMClientImpl should be in INITIALIZED state at first. EXPECT_EQ(GCMClientImpl::INITIALIZED, gcm_client_state()); // Delay start the GCM. gcm_client()->Start(GCMClient::DELAYED_START); PumpLoopUntilIdle(); EXPECT_EQ(GCMClientImpl::INITIALIZED, gcm_client_state()); // Stop the GCM. gcm_client()->Stop(); PumpLoopUntilIdle(); EXPECT_EQ(GCMClientImpl::INITIALIZED, gcm_client_state()); // Restart the GCM without delay. gcm_client()->Start(GCMClient::IMMEDIATE_START); PumpLoopUntilIdle(); EXPECT_EQ(GCMClientImpl::INITIAL_DEVICE_CHECKIN, gcm_client_state()); } TEST_F(GCMClientImplStartAndStopTest, DelayedStartAndStopImmediately) { // GCMClientImpl should be in INITIALIZED state at first. EXPECT_EQ(GCMClientImpl::INITIALIZED, gcm_client_state()); // Delay start the GCM and then stop it immediately. gcm_client()->Start(GCMClient::DELAYED_START); gcm_client()->Stop(); PumpLoopUntilIdle(); EXPECT_EQ(GCMClientImpl::INITIALIZED, gcm_client_state()); } TEST_F(GCMClientImplStartAndStopTest, ImmediateStartAndStopImmediately) { // GCMClientImpl should be in INITIALIZED state at first. EXPECT_EQ(GCMClientImpl::INITIALIZED, gcm_client_state()); // Start the GCM and then stop it immediately. gcm_client()->Start(GCMClient::IMMEDIATE_START); gcm_client()->Stop(); PumpLoopUntilIdle(); EXPECT_EQ(GCMClientImpl::INITIALIZED, gcm_client_state()); } TEST_F(GCMClientImplStartAndStopTest, DelayedStartStopAndRestart) { // GCMClientImpl should be in INITIALIZED state at first. EXPECT_EQ(GCMClientImpl::INITIALIZED, gcm_client_state()); // Delay start the GCM and then stop and restart it immediately. gcm_client()->Start(GCMClient::DELAYED_START); gcm_client()->Stop(); gcm_client()->Start(GCMClient::DELAYED_START); PumpLoopUntilIdle(); EXPECT_EQ(GCMClientImpl::INITIALIZED, gcm_client_state()); } TEST_F(GCMClientImplStartAndStopTest, ImmediateStartStopAndRestart) { // GCMClientImpl should be in INITIALIZED state at first. EXPECT_EQ(GCMClientImpl::INITIALIZED, gcm_client_state()); // Start the GCM and then stop and restart it immediately. gcm_client()->Start(GCMClient::IMMEDIATE_START); gcm_client()->Stop(); gcm_client()->Start(GCMClient::IMMEDIATE_START); PumpLoopUntilIdle(); EXPECT_EQ(GCMClientImpl::INITIAL_DEVICE_CHECKIN, gcm_client_state()); } TEST_F(GCMClientImplStartAndStopTest, ImmediateStartAndThenImmediateStart) { // GCMClientImpl should be in INITIALIZED state at first. EXPECT_EQ(GCMClientImpl::INITIALIZED, gcm_client_state()); // Start the GCM immediately and complete the checkin. gcm_client()->Start(GCMClient::IMMEDIATE_START); PumpLoopUntilIdle(); EXPECT_EQ(GCMClientImpl::INITIAL_DEVICE_CHECKIN, gcm_client_state()); DefaultCompleteCheckin(); EXPECT_EQ(GCMClientImpl::READY, gcm_client_state()); // Stop the GCM. gcm_client()->Stop(); PumpLoopUntilIdle(); EXPECT_EQ(GCMClientImpl::INITIALIZED, gcm_client_state()); // Start the GCM immediately. GCMClientImpl should be in READY state. BuildGCMClient(base::TimeDelta()); InitializeGCMClient(); gcm_client()->Start(GCMClient::IMMEDIATE_START); PumpLoopUntilIdle(); EXPECT_EQ(GCMClientImpl::READY, gcm_client_state()); } TEST_F(GCMClientImplStartAndStopTest, ImmediateStartAndThenDelayStart) { // GCMClientImpl should be in INITIALIZED state at first. EXPECT_EQ(GCMClientImpl::INITIALIZED, gcm_client_state()); // Start the GCM immediately and complete the checkin. gcm_client()->Start(GCMClient::IMMEDIATE_START); PumpLoopUntilIdle(); EXPECT_EQ(GCMClientImpl::INITIAL_DEVICE_CHECKIN, gcm_client_state()); DefaultCompleteCheckin(); EXPECT_EQ(GCMClientImpl::READY, gcm_client_state()); // Stop the GCM. gcm_client()->Stop(); PumpLoopUntilIdle(); EXPECT_EQ(GCMClientImpl::INITIALIZED, gcm_client_state()); // Delay start the GCM. GCMClientImpl should be in LOADED state. BuildGCMClient(base::TimeDelta()); InitializeGCMClient(); gcm_client()->Start(GCMClient::DELAYED_START); PumpLoopUntilIdle(); EXPECT_EQ(GCMClientImpl::LOADED, gcm_client_state()); } TEST_F(GCMClientImplStartAndStopTest, DelayedStartRace) { // GCMClientImpl should be in INITIALIZED state at first. EXPECT_EQ(GCMClientImpl::INITIALIZED, gcm_client_state()); // Delay start the GCM, then start it immediately while it's still loading. gcm_client()->Start(GCMClient::DELAYED_START); gcm_client()->Start(GCMClient::IMMEDIATE_START); PumpLoopUntilIdle(); EXPECT_EQ(GCMClientImpl::INITIAL_DEVICE_CHECKIN, gcm_client_state()); DefaultCompleteCheckin(); EXPECT_EQ(GCMClientImpl::READY, gcm_client_state()); } TEST_F(GCMClientImplStartAndStopTest, DelayedStart) { // GCMClientImpl should be in INITIALIZED state at first. EXPECT_EQ(GCMClientImpl::INITIALIZED, gcm_client_state()); // Delay start the GCM. The store will not be loaded and GCMClientImpl should // still be in INITIALIZED state. gcm_client()->Start(GCMClient::DELAYED_START); PumpLoopUntilIdle(); EXPECT_EQ(GCMClientImpl::INITIALIZED, gcm_client_state()); // Start the GCM immediately and complete the checkin. gcm_client()->Start(GCMClient::IMMEDIATE_START); PumpLoopUntilIdle(); EXPECT_EQ(GCMClientImpl::INITIAL_DEVICE_CHECKIN, gcm_client_state()); DefaultCompleteCheckin(); EXPECT_EQ(GCMClientImpl::READY, gcm_client_state()); // Registration. std::vector senders; senders.push_back("sender"); Register(kAppId, senders); CompleteRegistration("reg_id"); EXPECT_EQ(GCMClientImpl::READY, gcm_client_state()); // Stop the GCM. gcm_client()->Stop(); PumpLoopUntilIdle(); EXPECT_EQ(GCMClientImpl::INITIALIZED, gcm_client_state()); // Delay start the GCM. GCM is indeed started without delay because the // registration record has been found. BuildGCMClient(base::TimeDelta()); InitializeGCMClient(); gcm_client()->Start(GCMClient::DELAYED_START); PumpLoopUntilIdle(); EXPECT_EQ(GCMClientImpl::READY, gcm_client_state()); } // Test for known account mappings and last token fetching time being passed // to OnGCMReady. TEST_F(GCMClientImplStartAndStopTest, OnGCMReadyAccountsAndTokenFetchingTime) { // Start the GCM and wait until it is ready. gcm_client()->Start(GCMClient::IMMEDIATE_START); PumpLoopUntilIdle(); DefaultCompleteCheckin(); base::Time expected_time = base::Time::Now(); gcm_client()->SetLastTokenFetchTime(expected_time); AccountMapping expected_mapping; expected_mapping.account_id = "accId"; expected_mapping.email = "email@gmail.com"; expected_mapping.status = AccountMapping::MAPPED; expected_mapping.status_change_timestamp = expected_time; gcm_client()->UpdateAccountMapping(expected_mapping); PumpLoopUntilIdle(); // Stop the GCM. gcm_client()->Stop(); PumpLoopUntilIdle(); // Restart the GCM. gcm_client()->Start(GCMClient::IMMEDIATE_START); PumpLoopUntilIdle(); EXPECT_EQ(LOADING_COMPLETED, last_event()); EXPECT_EQ(expected_time, last_token_fetch_time()); ASSERT_EQ(1UL, last_account_mappings().size()); const AccountMapping& actual_mapping = last_account_mappings()[0]; EXPECT_EQ(expected_mapping.account_id, actual_mapping.account_id); EXPECT_EQ(expected_mapping.email, actual_mapping.email); EXPECT_EQ(expected_mapping.status, actual_mapping.status); EXPECT_EQ(expected_mapping.status_change_timestamp, actual_mapping.status_change_timestamp); } class GCMClientInstanceIDTest : public GCMClientImplTest { public: GCMClientInstanceIDTest(); ~GCMClientInstanceIDTest() override; void AddInstanceID(const std::string& app_id, const std::string& instance_id); void RemoveInstanceID(const std::string& app_id); void GetToken(const std::string& app_id, const std::string& authorized_entity, const std::string& scope); void DeleteToken(const std::string& app_id, const std::string& authorized_entity, const std::string& scope); void CompleteDeleteToken(); bool ExistsToken(const std::string& app_id, const std::string& authorized_entity, const std::string& scope) const; }; GCMClientInstanceIDTest::GCMClientInstanceIDTest() { } GCMClientInstanceIDTest::~GCMClientInstanceIDTest() { } void GCMClientInstanceIDTest::AddInstanceID(const std::string& app_id, const std::string& instance_id) { gcm_client()->AddInstanceIDData(app_id, instance_id, "123"); } void GCMClientInstanceIDTest::RemoveInstanceID(const std::string& app_id) { gcm_client()->RemoveInstanceIDData(app_id); } void GCMClientInstanceIDTest::GetToken(const std::string& app_id, const std::string& authorized_entity, const std::string& scope) { scoped_ptr instance_id_info(new InstanceIDTokenInfo); instance_id_info->app_id = app_id; instance_id_info->authorized_entity = authorized_entity; instance_id_info->scope = scope; gcm_client()->Register( make_linked_ptr(instance_id_info.release())); } void GCMClientInstanceIDTest::DeleteToken(const std::string& app_id, const std::string& authorized_entity, const std::string& scope) { scoped_ptr instance_id_info(new InstanceIDTokenInfo); instance_id_info->app_id = app_id; instance_id_info->authorized_entity = authorized_entity; instance_id_info->scope = scope; gcm_client()->Unregister( make_linked_ptr(instance_id_info.release())); } void GCMClientInstanceIDTest::CompleteDeleteToken() { std::string response(kDeleteTokenResponse); net::TestURLFetcher* fetcher = url_fetcher_factory()->GetFetcherByID(0); ASSERT_TRUE(fetcher); fetcher->set_response_code(net::HTTP_OK); fetcher->SetResponseString(response); fetcher->delegate()->OnURLFetchComplete(fetcher); // Give a chance for GCMStoreImpl::Backend to finish persisting data. PumpLoopUntilIdle(); } bool GCMClientInstanceIDTest::ExistsToken(const std::string& app_id, const std::string& authorized_entity, const std::string& scope) const { scoped_ptr instance_id_info(new InstanceIDTokenInfo); instance_id_info->app_id = app_id; instance_id_info->authorized_entity = authorized_entity; instance_id_info->scope = scope; return gcm_client()->registrations_.count( make_linked_ptr(instance_id_info.release())) > 0; } TEST_F(GCMClientInstanceIDTest, GetToken) { AddInstanceID(kAppId, kInstanceID); // Get a token. EXPECT_FALSE(ExistsToken(kAppId, kSender, kScope)); GetToken(kAppId, kSender, kScope); CompleteRegistration("token1"); EXPECT_EQ(REGISTRATION_COMPLETED, last_event()); EXPECT_EQ(kAppId, last_app_id()); EXPECT_EQ("token1", last_registration_id()); EXPECT_EQ(GCMClient::SUCCESS, last_result()); EXPECT_TRUE(ExistsToken(kAppId, kSender, kScope)); // Get another token. EXPECT_FALSE(ExistsToken(kAppId, kSender2, kScope)); GetToken(kAppId, kSender2, kScope); CompleteRegistration("token2"); EXPECT_EQ(REGISTRATION_COMPLETED, last_event()); EXPECT_EQ(kAppId, last_app_id()); EXPECT_EQ("token2", last_registration_id()); EXPECT_EQ(GCMClient::SUCCESS, last_result()); EXPECT_TRUE(ExistsToken(kAppId, kSender2, kScope)); // The 1st token still exists. EXPECT_TRUE(ExistsToken(kAppId, kSender, kScope)); } TEST_F(GCMClientInstanceIDTest, DeleteInvalidToken) { AddInstanceID(kAppId, kInstanceID); // Delete an invalid token. DeleteToken(kAppId, "Foo@#$", kScope); PumpLoopUntilIdle(); EXPECT_EQ(UNREGISTRATION_COMPLETED, last_event()); EXPECT_EQ(kAppId, last_app_id()); EXPECT_EQ(GCMClient::INVALID_PARAMETER, last_result()); reset_last_event(); // Delete a non-existing token. DeleteToken(kAppId, kSender, kScope); PumpLoopUntilIdle(); EXPECT_EQ(UNREGISTRATION_COMPLETED, last_event()); EXPECT_EQ(kAppId, last_app_id()); EXPECT_EQ(GCMClient::INVALID_PARAMETER, last_result()); } TEST_F(GCMClientInstanceIDTest, DeleteSingleToken) { AddInstanceID(kAppId, kInstanceID); // Get a token. EXPECT_FALSE(ExistsToken(kAppId, kSender, kScope)); GetToken(kAppId, kSender, kScope); CompleteRegistration("token1"); EXPECT_EQ(REGISTRATION_COMPLETED, last_event()); EXPECT_EQ(kAppId, last_app_id()); EXPECT_EQ("token1", last_registration_id()); EXPECT_EQ(GCMClient::SUCCESS, last_result()); EXPECT_TRUE(ExistsToken(kAppId, kSender, kScope)); reset_last_event(); // Get another token. EXPECT_FALSE(ExistsToken(kAppId, kSender2, kScope)); GetToken(kAppId, kSender2, kScope); CompleteRegistration("token2"); EXPECT_EQ(REGISTRATION_COMPLETED, last_event()); EXPECT_EQ(kAppId, last_app_id()); EXPECT_EQ("token2", last_registration_id()); EXPECT_EQ(GCMClient::SUCCESS, last_result()); EXPECT_TRUE(ExistsToken(kAppId, kSender2, kScope)); // The 1st token still exists. EXPECT_TRUE(ExistsToken(kAppId, kSender, kScope)); reset_last_event(); // Delete the 2nd token. DeleteToken(kAppId, kSender2, kScope); CompleteDeleteToken(); EXPECT_EQ(UNREGISTRATION_COMPLETED, last_event()); EXPECT_EQ(kAppId, last_app_id()); EXPECT_EQ(GCMClient::SUCCESS, last_result()); // The 2nd token is gone while the 1st token still exists. EXPECT_TRUE(ExistsToken(kAppId, kSender, kScope)); EXPECT_FALSE(ExistsToken(kAppId, kSender2, kScope)); reset_last_event(); // Delete the 1st token. DeleteToken(kAppId, kSender, kScope); CompleteDeleteToken(); EXPECT_EQ(UNREGISTRATION_COMPLETED, last_event()); EXPECT_EQ(kAppId, last_app_id()); EXPECT_EQ(GCMClient::SUCCESS, last_result()); // Both tokens are gone now. EXPECT_FALSE(ExistsToken(kAppId, kSender, kScope)); EXPECT_FALSE(ExistsToken(kAppId, kSender, kScope)); reset_last_event(); // Trying to delete the token again will get an error. DeleteToken(kAppId, kSender, kScope); PumpLoopUntilIdle(); EXPECT_EQ(UNREGISTRATION_COMPLETED, last_event()); EXPECT_EQ(kAppId, last_app_id()); EXPECT_EQ(GCMClient::INVALID_PARAMETER, last_result()); } TEST_F(GCMClientInstanceIDTest, DeleteAllTokens) { AddInstanceID(kAppId, kInstanceID); // Get a token. EXPECT_FALSE(ExistsToken(kAppId, kSender, kScope)); GetToken(kAppId, kSender, kScope); CompleteRegistration("token1"); EXPECT_EQ(REGISTRATION_COMPLETED, last_event()); EXPECT_EQ(kAppId, last_app_id()); EXPECT_EQ("token1", last_registration_id()); EXPECT_EQ(GCMClient::SUCCESS, last_result()); EXPECT_TRUE(ExistsToken(kAppId, kSender, kScope)); reset_last_event(); // Get another token. EXPECT_FALSE(ExistsToken(kAppId, kSender2, kScope)); GetToken(kAppId, kSender2, kScope); CompleteRegistration("token2"); EXPECT_EQ(REGISTRATION_COMPLETED, last_event()); EXPECT_EQ(kAppId, last_app_id()); EXPECT_EQ("token2", last_registration_id()); EXPECT_EQ(GCMClient::SUCCESS, last_result()); EXPECT_TRUE(ExistsToken(kAppId, kSender2, kScope)); // The 1st token still exists. EXPECT_TRUE(ExistsToken(kAppId, kSender, kScope)); reset_last_event(); // Delete all tokens. DeleteToken(kAppId, "*", "*"); CompleteDeleteToken(); EXPECT_EQ(UNREGISTRATION_COMPLETED, last_event()); EXPECT_EQ(kAppId, last_app_id()); EXPECT_EQ(GCMClient::SUCCESS, last_result()); // All tokens are gone now. EXPECT_FALSE(ExistsToken(kAppId, kSender, kScope)); EXPECT_FALSE(ExistsToken(kAppId, kSender, kScope)); } TEST_F(GCMClientInstanceIDTest, DeleteAllTokensBeforeGetAnyToken) { AddInstanceID(kAppId, kInstanceID); // Delete all tokens without getting a token first. DeleteToken(kAppId, "*", "*"); // No need to call CompleteDeleteToken since unregistration request should // not be triggered. PumpLoopUntilIdle(); EXPECT_EQ(UNREGISTRATION_COMPLETED, last_event()); EXPECT_EQ(kAppId, last_app_id()); EXPECT_EQ(GCMClient::SUCCESS, last_result()); } } // namespace gcm