// 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/metrics/metrics_state_manager.h" #include #include #include #include #include #include "base/bind.h" #include "base/command_line.h" #include "base/macros.h" #include "base/strings/string16.h" #include "base/test/metrics/histogram_tester.h" #include "components/metrics/client_info.h" #include "components/metrics/metrics_log.h" #include "components/metrics/metrics_pref_names.h" #include "components/metrics/metrics_service.h" #include "components/metrics/metrics_switches.h" #include "components/metrics/test_enabled_state_provider.h" #include "components/prefs/testing_pref_service.h" #include "components/variations/caching_permuted_entropy_provider.h" #include "components/variations/pref_names.h" #include "testing/gtest/include/gtest/gtest.h" namespace metrics { class MetricsStateManagerTest : public testing::Test { public: MetricsStateManagerTest() : test_begin_time_(base::Time::Now().ToTimeT()), enabled_state_provider_(new TestEnabledStateProvider(false, false)) { MetricsService::RegisterPrefs(prefs_.registry()); } std::unique_ptr CreateStateManager() { return MetricsStateManager::Create( &prefs_, enabled_state_provider_.get(), base::string16(), base::Bind(&MetricsStateManagerTest::MockStoreClientInfoBackup, base::Unretained(this)), base::Bind(&MetricsStateManagerTest::LoadFakeClientInfoBackup, base::Unretained(this))); } // Sets metrics reporting as enabled for testing. void EnableMetricsReporting() { enabled_state_provider_->set_consent(true); enabled_state_provider_->set_enabled(true); } void SetClientInfoPrefs(const ClientInfo& client_info) { prefs_.SetString(prefs::kMetricsClientID, client_info.client_id); prefs_.SetInt64(prefs::kInstallDate, client_info.installation_date); prefs_.SetInt64(prefs::kMetricsReportingEnabledTimestamp, client_info.reporting_enabled_date); } void SetFakeClientInfoBackup(const ClientInfo& client_info) { fake_client_info_backup_.reset(new ClientInfo); fake_client_info_backup_->client_id = client_info.client_id; fake_client_info_backup_->installation_date = client_info.installation_date; fake_client_info_backup_->reporting_enabled_date = client_info.reporting_enabled_date; } protected: TestingPrefServiceSimple prefs_; // Last ClientInfo stored by the MetricsStateManager via // MockStoreClientInfoBackup. std::unique_ptr stored_client_info_backup_; // If set, will be returned via LoadFakeClientInfoBackup if requested by the // MetricsStateManager. std::unique_ptr fake_client_info_backup_; const int64_t test_begin_time_; private: // Stores the |client_info| in |stored_client_info_backup_| for verification // by the tests later. void MockStoreClientInfoBackup(const ClientInfo& client_info) { stored_client_info_backup_.reset(new ClientInfo); stored_client_info_backup_->client_id = client_info.client_id; stored_client_info_backup_->installation_date = client_info.installation_date; stored_client_info_backup_->reporting_enabled_date = client_info.reporting_enabled_date; // Respect the contract that storing an empty client_id voids the existing // backup (required for the last section of the ForceClientIdCreation test // below). if (client_info.client_id.empty()) fake_client_info_backup_.reset(); } // Hands out a copy of |fake_client_info_backup_| if it is set. std::unique_ptr LoadFakeClientInfoBackup() { if (!fake_client_info_backup_) return std::unique_ptr(); std::unique_ptr backup_copy(new ClientInfo); backup_copy->client_id = fake_client_info_backup_->client_id; backup_copy->installation_date = fake_client_info_backup_->installation_date; backup_copy->reporting_enabled_date = fake_client_info_backup_->reporting_enabled_date; return backup_copy; } std::unique_ptr enabled_state_provider_; DISALLOW_COPY_AND_ASSIGN(MetricsStateManagerTest); }; // Ensure the ClientId is formatted as expected. TEST_F(MetricsStateManagerTest, ClientIdCorrectlyFormatted) { std::unique_ptr state_manager(CreateStateManager()); state_manager->ForceClientIdCreation(); const std::string client_id = state_manager->client_id(); EXPECT_EQ(36U, client_id.length()); for (size_t i = 0; i < client_id.length(); ++i) { char current = client_id[i]; if (i == 8 || i == 13 || i == 18 || i == 23) EXPECT_EQ('-', current); else EXPECT_TRUE(isxdigit(current)); } } TEST_F(MetricsStateManagerTest, EntropySourceUsed_Low) { std::unique_ptr state_manager(CreateStateManager()); state_manager->CreateDefaultEntropyProvider(); EXPECT_EQ(MetricsStateManager::ENTROPY_SOURCE_LOW, state_manager->entropy_source_returned()); } TEST_F(MetricsStateManagerTest, EntropySourceUsed_High) { EnableMetricsReporting(); std::unique_ptr state_manager(CreateStateManager()); state_manager->CreateDefaultEntropyProvider(); EXPECT_EQ(MetricsStateManager::ENTROPY_SOURCE_HIGH, state_manager->entropy_source_returned()); } TEST_F(MetricsStateManagerTest, LowEntropySource0NotReset) { std::unique_ptr state_manager(CreateStateManager()); // Get the low entropy source once, to initialize it. state_manager->GetLowEntropySource(); // Now, set it to 0 and ensure it doesn't get reset. state_manager->low_entropy_source_ = 0; EXPECT_EQ(0, state_manager->GetLowEntropySource()); // Call it another time, just to make sure. EXPECT_EQ(0, state_manager->GetLowEntropySource()); } TEST_F(MetricsStateManagerTest, PermutedEntropyCacheClearedWhenLowEntropyReset) { const PrefService::Preference* low_entropy_pref = prefs_.FindPreference(prefs::kMetricsLowEntropySource); const char* kCachePrefName = variations::prefs::kVariationsPermutedEntropyCache; int low_entropy_value = -1; // First, generate an initial low entropy source value. { EXPECT_TRUE(low_entropy_pref->IsDefaultValue()); std::unique_ptr state_manager(CreateStateManager()); state_manager->GetLowEntropySource(); EXPECT_FALSE(low_entropy_pref->IsDefaultValue()); EXPECT_TRUE(low_entropy_pref->GetValue()->GetAsInteger(&low_entropy_value)); } // Now, set a dummy value in the permuted entropy cache pref and verify that // another call to GetLowEntropySource() doesn't clobber it when // --reset-variation-state wasn't specified. { prefs_.SetString(kCachePrefName, "test"); std::unique_ptr state_manager(CreateStateManager()); state_manager->GetLowEntropySource(); EXPECT_EQ("test", prefs_.GetString(kCachePrefName)); EXPECT_EQ(low_entropy_value, prefs_.GetInteger(prefs::kMetricsLowEntropySource)); } // Verify that the cache does get reset if --reset-variations-state is passed. { base::CommandLine::ForCurrentProcess()->AppendSwitch( switches::kResetVariationState); std::unique_ptr state_manager(CreateStateManager()); state_manager->GetLowEntropySource(); EXPECT_TRUE(prefs_.GetString(kCachePrefName).empty()); } } // Check that setting the kMetricsResetIds pref to true causes the client id to // be reset. We do not check that the low entropy source is reset because we // cannot ensure that metrics state manager won't generate the same id again. TEST_F(MetricsStateManagerTest, ResetMetricsIDs) { // Set an initial client id in prefs. It should not be possible for the // metrics state manager to generate this id randomly. const std::string kInitialClientId = "initial client id"; prefs_.SetString(prefs::kMetricsClientID, kInitialClientId); // Make sure the initial client id isn't reset by the metrics state manager. { std::unique_ptr state_manager(CreateStateManager()); state_manager->ForceClientIdCreation(); EXPECT_EQ(kInitialClientId, state_manager->client_id()); EXPECT_FALSE(state_manager->metrics_ids_were_reset_); } // Set the reset pref to cause the IDs to be reset. prefs_.SetBoolean(prefs::kMetricsResetIds, true); // Cause the actual reset to happen. { std::unique_ptr state_manager(CreateStateManager()); state_manager->ForceClientIdCreation(); EXPECT_NE(kInitialClientId, state_manager->client_id()); EXPECT_TRUE(state_manager->metrics_ids_were_reset_); EXPECT_EQ(kInitialClientId, state_manager->previous_client_id_); state_manager->GetLowEntropySource(); EXPECT_FALSE(prefs_.GetBoolean(prefs::kMetricsResetIds)); } EXPECT_NE(kInitialClientId, prefs_.GetString(prefs::kMetricsClientID)); } TEST_F(MetricsStateManagerTest, ForceClientIdCreation) { const int64_t kFakeInstallationDate = 12345; prefs_.SetInt64(prefs::kInstallDate, kFakeInstallationDate); { std::unique_ptr state_manager(CreateStateManager()); // client_id shouldn't be auto-generated if metrics reporting is not // enabled. EXPECT_EQ(std::string(), state_manager->client_id()); EXPECT_EQ(0, prefs_.GetInt64(prefs::kMetricsReportingEnabledTimestamp)); // Confirm that the initial ForceClientIdCreation call creates the client id // and backs it up via MockStoreClientInfoBackup. EXPECT_FALSE(stored_client_info_backup_); state_manager->ForceClientIdCreation(); EXPECT_NE(std::string(), state_manager->client_id()); EXPECT_GE(prefs_.GetInt64(prefs::kMetricsReportingEnabledTimestamp), test_begin_time_); ASSERT_TRUE(stored_client_info_backup_); EXPECT_EQ(state_manager->client_id(), stored_client_info_backup_->client_id); EXPECT_EQ(kFakeInstallationDate, stored_client_info_backup_->installation_date); EXPECT_EQ(prefs_.GetInt64(prefs::kMetricsReportingEnabledTimestamp), stored_client_info_backup_->reporting_enabled_date); } } TEST_F(MetricsStateManagerTest, LoadPrefs) { ClientInfo client_info; client_info.client_id = "AAAAAAAA-BBBB-CCCC-DDDD-EEEEEEEEEEEF"; client_info.installation_date = 1112; client_info.reporting_enabled_date = 2223; SetClientInfoPrefs(client_info); EnableMetricsReporting(); { EXPECT_FALSE(fake_client_info_backup_); EXPECT_FALSE(stored_client_info_backup_); std::unique_ptr state_manager(CreateStateManager()); // client_id should be auto-obtained from the constructor when metrics // reporting is enabled. EXPECT_EQ(client_info.client_id, state_manager->client_id()); // The backup should not be modified. ASSERT_FALSE(stored_client_info_backup_); // Re-forcing client id creation shouldn't cause another backup and // shouldn't affect the existing client id. state_manager->ForceClientIdCreation(); EXPECT_FALSE(stored_client_info_backup_); EXPECT_EQ(client_info.client_id, state_manager->client_id()); } } TEST_F(MetricsStateManagerTest, PreferPrefs) { ClientInfo client_info; client_info.client_id = "AAAAAAAA-BBBB-CCCC-DDDD-EEEEEEEEEEEF"; client_info.installation_date = 1112; client_info.reporting_enabled_date = 2223; SetClientInfoPrefs(client_info); ClientInfo client_info2; client_info2.client_id = "AAAAAAAA-BBBB-CCCC-DDDD-EEEEEEEEEEEE"; client_info2.installation_date = 1111; client_info2.reporting_enabled_date = 2222; SetFakeClientInfoBackup(client_info2); EnableMetricsReporting(); { // The backup should be ignored if we already have a client id. EXPECT_FALSE(stored_client_info_backup_); std::unique_ptr state_manager(CreateStateManager()); EXPECT_EQ(client_info.client_id, state_manager->client_id()); // The backup should not be modified. ASSERT_FALSE(stored_client_info_backup_); } } TEST_F(MetricsStateManagerTest, RestoreBackup) { ClientInfo client_info; client_info.client_id = "AAAAAAAA-BBBB-CCCC-DDDD-EEEEEEEEEEEF"; client_info.installation_date = 1112; client_info.reporting_enabled_date = 2223; SetClientInfoPrefs(client_info); ClientInfo client_info2; client_info2.client_id = "AAAAAAAA-BBBB-CCCC-DDDD-EEEEEEEEEEEE"; client_info2.installation_date = 1111; client_info2.reporting_enabled_date = 2222; SetFakeClientInfoBackup(client_info2); prefs_.ClearPref(prefs::kMetricsClientID); prefs_.ClearPref(prefs::kMetricsReportingEnabledTimestamp); EnableMetricsReporting(); { // The backup should kick in if the client id has gone missing. It should // replace remaining and missing dates as well. EXPECT_FALSE(stored_client_info_backup_); std::unique_ptr state_manager(CreateStateManager()); EXPECT_EQ(client_info2.client_id, state_manager->client_id()); EXPECT_EQ(client_info2.installation_date, prefs_.GetInt64(prefs::kInstallDate)); EXPECT_EQ(client_info2.reporting_enabled_date, prefs_.GetInt64(prefs::kMetricsReportingEnabledTimestamp)); EXPECT_TRUE(stored_client_info_backup_); } } TEST_F(MetricsStateManagerTest, ResetBackup) { ClientInfo client_info; client_info.client_id = "AAAAAAAA-BBBB-CCCC-DDDD-EEEEEEEEEEEE"; client_info.installation_date = 1111; client_info.reporting_enabled_date = 2222; SetFakeClientInfoBackup(client_info); SetClientInfoPrefs(client_info); prefs_.SetBoolean(prefs::kMetricsResetIds, true); EnableMetricsReporting(); { // Upon request to reset metrics ids, the existing backup should not be // restored. std::unique_ptr state_manager(CreateStateManager()); // A brand new client id should have been generated. EXPECT_NE(std::string(), state_manager->client_id()); EXPECT_NE(client_info.client_id, state_manager->client_id()); EXPECT_TRUE(state_manager->metrics_ids_were_reset_); EXPECT_EQ(client_info.client_id, state_manager->previous_client_id_); EXPECT_TRUE(stored_client_info_backup_); // The installation date should not have been affected. EXPECT_EQ(client_info.installation_date, prefs_.GetInt64(prefs::kInstallDate)); // The metrics-reporting-enabled date will be reset to Now(). EXPECT_GE(prefs_.GetInt64(prefs::kMetricsReportingEnabledTimestamp), test_begin_time_); } } TEST_F(MetricsStateManagerTest, CheckProvider) { int64_t kInstallDate = 1373051956; int64_t kInstallDateExpected = 1373050800; // Computed from kInstallDate. int64_t kEnabledDate = 1373001211; int64_t kEnabledDateExpected = 1373000400; // Computed from kEnabledDate. ClientInfo client_info; client_info.client_id = "AAAAAAAA-BBBB-CCCC-DDDD-EEEEEEEEEEEE"; client_info.installation_date = kInstallDate; client_info.reporting_enabled_date = kEnabledDate; SetFakeClientInfoBackup(client_info); SetClientInfoPrefs(client_info); std::unique_ptr state_manager(CreateStateManager()); std::unique_ptr provider = state_manager->GetProvider(); SystemProfileProto system_profile; provider->ProvideSystemProfileMetrics(&system_profile); EXPECT_EQ(system_profile.install_date(), kInstallDateExpected); EXPECT_EQ(system_profile.uma_enabled_date(), kEnabledDateExpected); base::HistogramTester histogram_tester; ChromeUserMetricsExtension uma_proto; provider->ProvidePreviousSessionData(&uma_proto); // The client_id field in the proto should not be overwritten. EXPECT_FALSE(uma_proto.has_client_id()); // Nothing should have been emitted to the cloned install histogram. histogram_tester.ExpectTotalCount("UMA.IsClonedInstall", 0); } TEST_F(MetricsStateManagerTest, CheckProviderResetIds) { int64_t kInstallDate = 1373051956; int64_t kInstallDateExpected = 1373050800; // Computed from kInstallDate. int64_t kEnabledDate = 1373001211; int64_t kEnabledDateExpected = 1373000400; // Computed from kEnabledDate. ClientInfo client_info; client_info.client_id = "AAAAAAAA-BBBB-CCCC-DDDD-EEEEEEEEEEEE"; client_info.installation_date = kInstallDate; client_info.reporting_enabled_date = kEnabledDate; SetFakeClientInfoBackup(client_info); SetClientInfoPrefs(client_info); // Set the reset pref to cause the IDs to be reset. prefs_.SetBoolean(prefs::kMetricsResetIds, true); std::unique_ptr state_manager(CreateStateManager()); EXPECT_NE(client_info.client_id, state_manager->client_id()); EXPECT_TRUE(state_manager->metrics_ids_were_reset_); EXPECT_EQ(client_info.client_id, state_manager->previous_client_id_); std::unique_ptr provider = state_manager->GetProvider(); SystemProfileProto system_profile; provider->ProvideSystemProfileMetrics(&system_profile); EXPECT_EQ(system_profile.install_date(), kInstallDateExpected); EXPECT_EQ(system_profile.uma_enabled_date(), kEnabledDateExpected); base::HistogramTester histogram_tester; ChromeUserMetricsExtension uma_proto; provider->ProvidePreviousSessionData(&uma_proto); EXPECT_EQ(MetricsLog::Hash(state_manager->previous_client_id_), uma_proto.client_id()); histogram_tester.ExpectUniqueSample("UMA.IsClonedInstall", 1, 1); } } // namespace metrics