// // Copyright (C) 2012 The Android Open Source Project // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // #include "update_engine/omaha_request_action.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "update_engine/common/action_pipe.h" #include "update_engine/common/constants.h" #include "update_engine/common/fake_prefs.h" #include "update_engine/common/hash_calculator.h" #include "update_engine/common/mock_http_fetcher.h" #include "update_engine/common/platform_constants.h" #include "update_engine/common/prefs.h" #include "update_engine/common/test_utils.h" #include "update_engine/fake_system_state.h" #include "update_engine/metrics_reporter_interface.h" #include "update_engine/mock_connection_manager.h" #include "update_engine/mock_payload_state.h" #include "update_engine/omaha_request_params.h" #include "update_engine/update_manager/rollback_prefs.h" using base::Time; using base::TimeDelta; using chromeos_update_manager::kRollforwardInfinity; using std::string; using std::vector; using testing::_; using testing::AllOf; using testing::AnyNumber; using testing::DoAll; using testing::Ge; using testing::Le; using testing::NiceMock; using testing::Return; using testing::ReturnPointee; using testing::ReturnRef; using testing::SaveArg; using testing::SetArgPointee; namespace { static_assert(kRollforwardInfinity == 0xfffffffe, "Don't change the value of kRollforward infinity unless its " "size has been changed in firmware."); const char kCurrentVersion[] = "0.1.0.0"; const char kTestAppId[] = "test-app-id"; const char kTestAppId2[] = "test-app2-id"; const char kTestAppIdSkipUpdatecheck[] = "test-app-id-skip-updatecheck"; // This is a helper struct to allow unit tests build an update response with the // values they care about. struct FakeUpdateResponse { string GetRollbackVersionAttributes() const { return (rollback ? " _rollback=\"true\"" : "") + (!rollback_firmware_version.empty() ? " _firmware_version=\"" + rollback_firmware_version + "\"" : "") + (!rollback_kernel_version.empty() ? " _kernel_version=\"" + rollback_kernel_version + "\"" : ""); } string GetNoUpdateResponse() const { string entity_str; if (include_entity) entity_str = "]>"; return "" + entity_str + "" "" "" "" "" + (multi_app_no_update ? "" : "") + ""; } string GetUpdateResponse() const { return "" "" "" "" + "" "" "" + (multi_package ? "" : "") + "" "" + (multi_app ? "" "" "" "" : "") + (multi_app_no_update ? "" : "") + (multi_app_skip_updatecheck ? "" : "") + ""; } // Return the payload URL, which is split in two fields in the XML response. string GetPayloadUrl() { return codebase + filename; } string app_id = kTestAppId; string app_id2 = kTestAppId2; string app_id_skip_updatecheck = kTestAppIdSkipUpdatecheck; string current_version = kCurrentVersion; string version = "1.2.3.4"; string version2 = "2.3.4.5"; string more_info_url = "http://more/info"; string prompt = "true"; string codebase = "http://code/base/"; string codebase2 = "http://code/base/2/"; string filename = "file.signed"; string hash = "4841534831323334"; uint64_t size = 123; string deadline = ""; string max_days_to_scatter = "7"; string elapsed_days = "42"; // P2P setting defaults to allowed. bool disable_p2p_for_downloading = false; bool disable_p2p_for_sharing = false; bool powerwash = false; // Omaha cohorts settings. bool include_cohorts = false; string cohort = ""; string cohorthint = ""; string cohortname = ""; // Whether to include the CrOS in the XML response. bool include_entity = false; // Whether to include more than one app. bool multi_app = false; // Whether to include an app with noupdate="true". bool multi_app_self_update = false; // Whether to include an additional app with status="noupdate". bool multi_app_no_update = false; // Whether to include an additional app with no updatecheck tag. bool multi_app_skip_updatecheck = false; // Whether to include more than one package in an app. bool multi_package = false; // Whether the payload is a rollback. bool rollback = false; // The verified boot firmware key version for the rollback image. string rollback_firmware_version = ""; // The verified boot kernel key version for the rollback image. string rollback_kernel_version = ""; }; } // namespace namespace chromeos_update_engine { class OmahaRequestActionTestProcessorDelegate : public ActionProcessorDelegate { public: OmahaRequestActionTestProcessorDelegate() : expected_code_(ErrorCode::kSuccess), interactive_(false), test_http_fetcher_headers_(false) {} ~OmahaRequestActionTestProcessorDelegate() override = default; void ProcessingDone(const ActionProcessor* processor, ErrorCode code) override { brillo::MessageLoop::current()->BreakLoop(); } void ActionCompleted(ActionProcessor* processor, AbstractAction* action, ErrorCode code) override { // Make sure actions always succeed. if (action->Type() == OmahaRequestAction::StaticType()) { EXPECT_EQ(expected_code_, code); // Check that the headers were set in the fetcher during the action. Note // that we set this request as "interactive". auto fetcher = static_cast( static_cast(action)->http_fetcher_.get()); if (test_http_fetcher_headers_) { EXPECT_EQ(interactive_ ? "fg" : "bg", fetcher->GetHeader("X-Goog-Update-Interactivity")); EXPECT_EQ(kTestAppId, fetcher->GetHeader("X-Goog-Update-AppId")); EXPECT_NE("", fetcher->GetHeader("X-Goog-Update-Updater")); } post_data_ = fetcher->post_data(); } else if (action->Type() == ObjectCollectorAction::StaticType()) { EXPECT_EQ(ErrorCode::kSuccess, code); auto collector_action = static_cast*>(action); omaha_response_.reset(new OmahaResponse(collector_action->object())); EXPECT_TRUE(omaha_response_); } else { EXPECT_EQ(ErrorCode::kSuccess, code); } } ErrorCode expected_code_; brillo::Blob post_data_; bool interactive_; bool test_http_fetcher_headers_; std::unique_ptr omaha_response_; }; class OmahaRequestActionTest : public ::testing::Test { protected: void SetUp() override { request_params_.set_os_sp("service_pack"); request_params_.set_os_board("x86-generic"); request_params_.set_app_id(kTestAppId); request_params_.set_app_version(kCurrentVersion); request_params_.set_app_lang("en-US"); request_params_.set_current_channel("unittest"); request_params_.set_target_channel("unittest"); request_params_.set_hwid("OEM MODEL 09235 7471"); request_params_.set_fw_version("ChromeOSFirmware.1.0"); request_params_.set_ec_version("0X0A1"); request_params_.set_delta_okay(true); request_params_.set_interactive(false); request_params_.set_update_url("http://url"); request_params_.set_target_version_prefix(""); request_params_.set_rollback_allowed(false); request_params_.set_is_powerwash_allowed(false); request_params_.set_is_install(false); request_params_.set_dlc_module_ids({}); fake_system_state_.set_request_params(&request_params_); fake_system_state_.set_prefs(&fake_prefs_); } // Returns true iff an output response was obtained from the // OmahaRequestAction. |prefs| may be null, in which case a local MockPrefs // is used. |payload_state| may be null, in which case a local mock is used. // |p2p_manager| may be null, in which case a local mock is used. // |connection_manager| may be null, in which case a local mock is used. // out_response may be null. If |fail_http_response_code| is non-negative, // the transfer will fail with that code. |ping_only| is passed through to the // OmahaRequestAction constructor. out_post_data may be null; if non-null, the // post-data received by the mock HttpFetcher is returned. // // The |expected_check_result|, |expected_check_reaction| and // |expected_error_code| parameters are for checking expectations // about reporting UpdateEngine.Check.{Result,Reaction,DownloadError} // UMA statistics. Use the appropriate ::kUnset value to specify that // the given metric should not be reported. bool TestUpdateCheck(const string& http_response, int fail_http_response_code, bool ping_only, bool is_consumer_device, int rollback_allowed_milestones, bool is_policy_loaded, ErrorCode expected_code, metrics::CheckResult expected_check_result, metrics::CheckReaction expected_check_reaction, metrics::DownloadErrorCode expected_download_error_code, OmahaResponse* out_response, brillo::Blob* out_post_data); // Overload of TestUpdateCheck that does not supply |is_consumer_device| or // |rollback_allowed_milestones| which are only required for rollback tests. bool TestUpdateCheck(const string& http_response, int fail_http_response_code, bool ping_only, ErrorCode expected_code, metrics::CheckResult expected_check_result, metrics::CheckReaction expected_check_reaction, metrics::DownloadErrorCode expected_download_error_code, OmahaResponse* out_response, brillo::Blob* out_post_data); void TestRollbackCheck(bool is_consumer_device, int rollback_allowed_milestones, bool is_policy_loaded, OmahaResponse* out_response); void TestEvent(OmahaEvent* event, const string& http_response, brillo::Blob* out_post_data); // Runs and checks a ping test. |ping_only| indicates whether it should send // only a ping or also an updatecheck. void PingTest(bool ping_only); // InstallDate test helper function. bool InstallDateParseHelper(const string& elapsed_days, OmahaResponse* response); // P2P test helper function. void P2PTest(bool initial_allow_p2p_for_downloading, bool initial_allow_p2p_for_sharing, bool omaha_disable_p2p_for_downloading, bool omaha_disable_p2p_for_sharing, bool payload_state_allow_p2p_attempt, bool expect_p2p_client_lookup, const string& p2p_client_result_url, bool expected_allow_p2p_for_downloading, bool expected_allow_p2p_for_sharing, const string& expected_p2p_url); FakeSystemState fake_system_state_; FakeUpdateResponse fake_update_response_; // Used by all tests. OmahaRequestParams request_params_{&fake_system_state_}; FakePrefs fake_prefs_; OmahaRequestActionTestProcessorDelegate delegate_; bool test_http_fetcher_headers_{false}; }; bool OmahaRequestActionTest::TestUpdateCheck( const string& http_response, int fail_http_response_code, bool ping_only, bool is_consumer_device, int rollback_allowed_milestones, bool is_policy_loaded, ErrorCode expected_code, metrics::CheckResult expected_check_result, metrics::CheckReaction expected_check_reaction, metrics::DownloadErrorCode expected_download_error_code, OmahaResponse* out_response, brillo::Blob* out_post_data) { brillo::FakeMessageLoop loop(nullptr); loop.SetAsCurrent(); auto fetcher = std::make_unique( http_response.data(), http_response.size(), nullptr); if (fail_http_response_code >= 0) { fetcher->FailTransfer(fail_http_response_code); } // This ensures the tests didn't forget to update fake_system_state_ if they // are not using the default request_params_. EXPECT_EQ(&request_params_, fake_system_state_.request_params()); auto omaha_request_action = std::make_unique( &fake_system_state_, nullptr, std::move(fetcher), ping_only); auto mock_policy_provider = std::make_unique>(); EXPECT_CALL(*mock_policy_provider, IsConsumerDevice()) .WillRepeatedly(Return(is_consumer_device)); EXPECT_CALL(*mock_policy_provider, device_policy_is_loaded()) .WillRepeatedly(Return(is_policy_loaded)); const policy::MockDevicePolicy device_policy; const bool get_allowed_milestone_succeeds = rollback_allowed_milestones >= 0; EXPECT_CALL(device_policy, GetRollbackAllowedMilestones(_)) .WillRepeatedly(DoAll(SetArgPointee<0>(rollback_allowed_milestones), Return(get_allowed_milestone_succeeds))); EXPECT_CALL(*mock_policy_provider, GetDevicePolicy()) .WillRepeatedly(ReturnRef(device_policy)); omaha_request_action->policy_provider_ = std::move(mock_policy_provider); delegate_.expected_code_ = expected_code; delegate_.interactive_ = request_params_.interactive(); delegate_.test_http_fetcher_headers_ = test_http_fetcher_headers_; ActionProcessor processor; processor.set_delegate(&delegate_); auto collector_action = std::make_unique>(); BondActions(omaha_request_action.get(), collector_action.get()); processor.EnqueueAction(std::move(omaha_request_action)); processor.EnqueueAction(std::move(collector_action)); EXPECT_CALL(*fake_system_state_.mock_metrics_reporter(), ReportUpdateCheckMetrics(_, _, _, _)) .Times(AnyNumber()); EXPECT_CALL(*fake_system_state_.mock_metrics_reporter(), ReportUpdateCheckMetrics(_, expected_check_result, expected_check_reaction, expected_download_error_code)) .Times(ping_only ? 0 : 1); loop.PostTask(base::Bind( [](ActionProcessor* processor) { processor->StartProcessing(); }, base::Unretained(&processor))); loop.Run(); EXPECT_FALSE(loop.PendingTasks()); if (delegate_.omaha_response_ && out_response) *out_response = *delegate_.omaha_response_; if (out_post_data) *out_post_data = delegate_.post_data_; return delegate_.omaha_response_ != nullptr; } bool OmahaRequestActionTest::TestUpdateCheck( const string& http_response, int fail_http_response_code, bool ping_only, ErrorCode expected_code, metrics::CheckResult expected_check_result, metrics::CheckReaction expected_check_reaction, metrics::DownloadErrorCode expected_download_error_code, OmahaResponse* out_response, brillo::Blob* out_post_data) { return TestUpdateCheck(http_response, fail_http_response_code, ping_only, true, // is_consumer_device 0, // rollback_allowed_milestones false, // is_policy_loaded expected_code, expected_check_result, expected_check_reaction, expected_download_error_code, out_response, out_post_data); } void OmahaRequestActionTest::TestRollbackCheck(bool is_consumer_device, int rollback_allowed_milestones, bool is_policy_loaded, OmahaResponse* out_response) { fake_update_response_.deadline = "20101020"; ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only is_consumer_device, rollback_allowed_milestones, is_policy_loaded, ErrorCode::kSuccess, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kUpdating, metrics::DownloadErrorCode::kUnset, out_response, nullptr)); ASSERT_TRUE(out_response->update_exists); } // Tests Event requests -- they should always succeed. |out_post_data| may be // null; if non-null, the post-data received by the mock HttpFetcher is // returned. void OmahaRequestActionTest::TestEvent(OmahaEvent* event, const string& http_response, brillo::Blob* out_post_data) { brillo::FakeMessageLoop loop(nullptr); loop.SetAsCurrent(); auto action = std::make_unique( &fake_system_state_, event, std::make_unique( http_response.data(), http_response.size(), nullptr), false); ActionProcessor processor; processor.set_delegate(&delegate_); processor.EnqueueAction(std::move(action)); loop.PostTask(base::Bind( [](ActionProcessor* processor) { processor->StartProcessing(); }, base::Unretained(&processor))); loop.Run(); EXPECT_FALSE(loop.PendingTasks()); if (out_post_data) *out_post_data = delegate_.post_data_; } TEST_F(OmahaRequestActionTest, RejectEntities) { OmahaResponse response; fake_update_response_.include_entity = true; ASSERT_FALSE(TestUpdateCheck(fake_update_response_.GetNoUpdateResponse(), -1, false, // ping_only ErrorCode::kOmahaRequestXMLHasEntityDecl, metrics::CheckResult::kParsingError, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_FALSE(response.update_exists); } TEST_F(OmahaRequestActionTest, NoUpdateTest) { OmahaResponse response; ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetNoUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kNoUpdateAvailable, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_FALSE(response.update_exists); } TEST_F(OmahaRequestActionTest, MultiAppNoUpdateTest) { OmahaResponse response; fake_update_response_.multi_app_no_update = true; ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetNoUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kNoUpdateAvailable, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_FALSE(response.update_exists); } TEST_F(OmahaRequestActionTest, MultiAppNoPartialUpdateTest) { OmahaResponse response; fake_update_response_.multi_app_no_update = true; ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kNoUpdateAvailable, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_FALSE(response.update_exists); } TEST_F(OmahaRequestActionTest, NoSelfUpdateTest) { OmahaResponse response; ASSERT_TRUE(TestUpdateCheck( "" "", -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kNoUpdateAvailable, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_FALSE(response.update_exists); } // Test that all the values in the response are parsed in a normal update // response. TEST_F(OmahaRequestActionTest, ValidUpdateTest) { OmahaResponse response; fake_update_response_.deadline = "20101020"; ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kUpdating, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_TRUE(response.update_exists); EXPECT_EQ(fake_update_response_.version, response.version); EXPECT_EQ("", response.system_version); EXPECT_EQ(fake_update_response_.GetPayloadUrl(), response.packages[0].payload_urls[0]); EXPECT_EQ(fake_update_response_.more_info_url, response.more_info_url); EXPECT_EQ(fake_update_response_.hash, response.packages[0].hash); EXPECT_EQ(fake_update_response_.size, response.packages[0].size); EXPECT_EQ(true, response.packages[0].is_delta); EXPECT_EQ(fake_update_response_.prompt == "true", response.prompt); EXPECT_EQ(fake_update_response_.deadline, response.deadline); EXPECT_FALSE(response.powerwash_required); // Omaha cohort attributes are not set in the response, so they should not be // persisted. EXPECT_FALSE(fake_prefs_.Exists(kPrefsOmahaCohort)); EXPECT_FALSE(fake_prefs_.Exists(kPrefsOmahaCohortHint)); EXPECT_FALSE(fake_prefs_.Exists(kPrefsOmahaCohortName)); } TEST_F(OmahaRequestActionTest, MultiPackageUpdateTest) { OmahaResponse response; fake_update_response_.multi_package = true; ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kUpdating, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_TRUE(response.update_exists); EXPECT_EQ(fake_update_response_.version, response.version); EXPECT_EQ(fake_update_response_.GetPayloadUrl(), response.packages[0].payload_urls[0]); EXPECT_EQ(fake_update_response_.codebase + "package2", response.packages[1].payload_urls[0]); EXPECT_EQ(fake_update_response_.hash, response.packages[0].hash); EXPECT_EQ(fake_update_response_.size, response.packages[0].size); EXPECT_EQ(true, response.packages[0].is_delta); EXPECT_EQ(11u, response.packages[0].metadata_size); ASSERT_EQ(2u, response.packages.size()); EXPECT_EQ(string("hash2"), response.packages[1].hash); EXPECT_EQ(222u, response.packages[1].size); EXPECT_EQ(22u, response.packages[1].metadata_size); EXPECT_EQ(false, response.packages[1].is_delta); } TEST_F(OmahaRequestActionTest, MultiAppUpdateTest) { OmahaResponse response; fake_update_response_.multi_app = true; ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kUpdating, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_TRUE(response.update_exists); EXPECT_EQ(fake_update_response_.version, response.version); EXPECT_EQ(fake_update_response_.GetPayloadUrl(), response.packages[0].payload_urls[0]); EXPECT_EQ(fake_update_response_.codebase2 + "package3", response.packages[1].payload_urls[0]); EXPECT_EQ(fake_update_response_.hash, response.packages[0].hash); EXPECT_EQ(fake_update_response_.size, response.packages[0].size); EXPECT_EQ(11u, response.packages[0].metadata_size); EXPECT_EQ(true, response.packages[0].is_delta); ASSERT_EQ(2u, response.packages.size()); EXPECT_EQ(string("hash3"), response.packages[1].hash); EXPECT_EQ(333u, response.packages[1].size); EXPECT_EQ(33u, response.packages[1].metadata_size); EXPECT_EQ(false, response.packages[1].is_delta); } TEST_F(OmahaRequestActionTest, MultiAppAndSystemUpdateTest) { OmahaResponse response; fake_update_response_.multi_app = true; // trigger the lining up of the app and system versions request_params_.set_system_app_id(fake_update_response_.app_id2); ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kUpdating, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_TRUE(response.update_exists); EXPECT_EQ(fake_update_response_.version, response.version); EXPECT_EQ(fake_update_response_.version2, response.system_version); EXPECT_EQ(fake_update_response_.GetPayloadUrl(), response.packages[0].payload_urls[0]); EXPECT_EQ(fake_update_response_.codebase2 + "package3", response.packages[1].payload_urls[0]); EXPECT_EQ(fake_update_response_.hash, response.packages[0].hash); EXPECT_EQ(fake_update_response_.size, response.packages[0].size); EXPECT_EQ(11u, response.packages[0].metadata_size); EXPECT_EQ(true, response.packages[0].is_delta); ASSERT_EQ(2u, response.packages.size()); EXPECT_EQ(string("hash3"), response.packages[1].hash); EXPECT_EQ(333u, response.packages[1].size); EXPECT_EQ(33u, response.packages[1].metadata_size); EXPECT_EQ(false, response.packages[1].is_delta); } TEST_F(OmahaRequestActionTest, MultiAppPartialUpdateTest) { OmahaResponse response; fake_update_response_.multi_app = true; fake_update_response_.multi_app_self_update = true; ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kUpdating, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_TRUE(response.update_exists); EXPECT_EQ(fake_update_response_.version, response.version); EXPECT_EQ("", response.system_version); EXPECT_EQ(fake_update_response_.GetPayloadUrl(), response.packages[0].payload_urls[0]); EXPECT_EQ(fake_update_response_.hash, response.packages[0].hash); EXPECT_EQ(fake_update_response_.size, response.packages[0].size); EXPECT_EQ(11u, response.packages[0].metadata_size); ASSERT_EQ(2u, response.packages.size()); EXPECT_EQ(string("hash3"), response.packages[1].hash); EXPECT_EQ(333u, response.packages[1].size); EXPECT_EQ(33u, response.packages[1].metadata_size); EXPECT_EQ(true, response.packages[1].is_delta); } TEST_F(OmahaRequestActionTest, MultiAppMultiPackageUpdateTest) { OmahaResponse response; fake_update_response_.multi_app = true; fake_update_response_.multi_package = true; ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kUpdating, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_TRUE(response.update_exists); EXPECT_EQ(fake_update_response_.version, response.version); EXPECT_EQ("", response.system_version); EXPECT_EQ(fake_update_response_.GetPayloadUrl(), response.packages[0].payload_urls[0]); EXPECT_EQ(fake_update_response_.codebase + "package2", response.packages[1].payload_urls[0]); EXPECT_EQ(fake_update_response_.codebase2 + "package3", response.packages[2].payload_urls[0]); EXPECT_EQ(fake_update_response_.hash, response.packages[0].hash); EXPECT_EQ(fake_update_response_.size, response.packages[0].size); EXPECT_EQ(11u, response.packages[0].metadata_size); EXPECT_EQ(true, response.packages[0].is_delta); ASSERT_EQ(3u, response.packages.size()); EXPECT_EQ(string("hash2"), response.packages[1].hash); EXPECT_EQ(222u, response.packages[1].size); EXPECT_EQ(22u, response.packages[1].metadata_size); EXPECT_EQ(false, response.packages[1].is_delta); EXPECT_EQ(string("hash3"), response.packages[2].hash); EXPECT_EQ(333u, response.packages[2].size); EXPECT_EQ(33u, response.packages[2].metadata_size); EXPECT_EQ(false, response.packages[2].is_delta); } TEST_F(OmahaRequestActionTest, PowerwashTest) { OmahaResponse response; fake_update_response_.powerwash = true; ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kUpdating, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_TRUE(response.update_exists); EXPECT_TRUE(response.powerwash_required); } TEST_F(OmahaRequestActionTest, ExtraHeadersSentInteractiveTest) { OmahaResponse response; request_params_.set_interactive(true); test_http_fetcher_headers_ = true; ASSERT_FALSE(TestUpdateCheck("invalid xml>", -1, false, // ping_only ErrorCode::kOmahaRequestXMLParseError, metrics::CheckResult::kParsingError, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_FALSE(response.update_exists); } TEST_F(OmahaRequestActionTest, ExtraHeadersSentNoInteractiveTest) { OmahaResponse response; request_params_.set_interactive(false); test_http_fetcher_headers_ = true; ASSERT_FALSE(TestUpdateCheck("invalid xml>", -1, false, // ping_only ErrorCode::kOmahaRequestXMLParseError, metrics::CheckResult::kParsingError, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_FALSE(response.update_exists); } TEST_F(OmahaRequestActionTest, ValidUpdateBlockedByConnection) { OmahaResponse response; // Set up a connection manager that doesn't allow a valid update over // the current ethernet connection. MockConnectionManager mock_cm; fake_system_state_.set_connection_manager(&mock_cm); EXPECT_CALL(mock_cm, GetConnectionProperties(_, _)) .WillRepeatedly(DoAll(SetArgPointee<0>(ConnectionType::kEthernet), SetArgPointee<1>(ConnectionTethering::kUnknown), Return(true))); EXPECT_CALL(mock_cm, IsUpdateAllowedOver(ConnectionType::kEthernet, _)) .WillRepeatedly(Return(false)); ASSERT_FALSE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kOmahaUpdateIgnoredPerPolicy, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kIgnored, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_FALSE(response.update_exists); } TEST_F(OmahaRequestActionTest, ValidUpdateOverCellularAllowedByDevicePolicy) { // This test tests that update over cellular is allowed as device policy // says yes. OmahaResponse response; MockConnectionManager mock_cm; fake_system_state_.set_connection_manager(&mock_cm); EXPECT_CALL(mock_cm, GetConnectionProperties(_, _)) .WillRepeatedly(DoAll(SetArgPointee<0>(ConnectionType::kCellular), SetArgPointee<1>(ConnectionTethering::kUnknown), Return(true))); EXPECT_CALL(mock_cm, IsAllowedConnectionTypesForUpdateSet()) .WillRepeatedly(Return(true)); EXPECT_CALL(mock_cm, IsUpdateAllowedOver(ConnectionType::kCellular, _)) .WillRepeatedly(Return(true)); ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kUpdating, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_TRUE(response.update_exists); } TEST_F(OmahaRequestActionTest, ValidUpdateOverCellularBlockedByDevicePolicy) { // This test tests that update over cellular is blocked as device policy // says no. OmahaResponse response; MockConnectionManager mock_cm; fake_system_state_.set_connection_manager(&mock_cm); EXPECT_CALL(mock_cm, GetConnectionProperties(_, _)) .WillRepeatedly(DoAll(SetArgPointee<0>(ConnectionType::kCellular), SetArgPointee<1>(ConnectionTethering::kUnknown), Return(true))); EXPECT_CALL(mock_cm, IsAllowedConnectionTypesForUpdateSet()) .WillRepeatedly(Return(true)); EXPECT_CALL(mock_cm, IsUpdateAllowedOver(ConnectionType::kCellular, _)) .WillRepeatedly(Return(false)); ASSERT_FALSE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kOmahaUpdateIgnoredPerPolicy, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kIgnored, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_FALSE(response.update_exists); } TEST_F(OmahaRequestActionTest, ValidUpdateOverCellularAllowedByUserPermissionTrue) { // This test tests that, when device policy is not set, update over cellular // is allowed as permission for update over cellular is set to true. OmahaResponse response; MockConnectionManager mock_cm; fake_prefs_.SetBoolean(kPrefsUpdateOverCellularPermission, true); fake_system_state_.set_connection_manager(&mock_cm); EXPECT_CALL(mock_cm, GetConnectionProperties(_, _)) .WillRepeatedly(DoAll(SetArgPointee<0>(ConnectionType::kCellular), SetArgPointee<1>(ConnectionTethering::kUnknown), Return(true))); EXPECT_CALL(mock_cm, IsAllowedConnectionTypesForUpdateSet()) .WillRepeatedly(Return(false)); EXPECT_CALL(mock_cm, IsUpdateAllowedOver(ConnectionType::kCellular, _)) .WillRepeatedly(Return(true)); ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kUpdating, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_TRUE(response.update_exists); } TEST_F(OmahaRequestActionTest, ValidUpdateOverCellularBlockedByUpdateTargetNotMatch) { // This test tests that, when device policy is not set and permission for // update over cellular is set to false or does not exist, update over // cellular is blocked as update target does not match the omaha response. OmahaResponse response; MockConnectionManager mock_cm; // A version different from the version in omaha response. string diff_version = "99.99.99"; // A size different from the size in omaha response. int64_t diff_size = 999; fake_prefs_.SetString(kPrefsUpdateOverCellularTargetVersion, diff_version); fake_prefs_.SetInt64(kPrefsUpdateOverCellularTargetSize, diff_size); // This test tests cellular (3G) being the only connection type being allowed. fake_system_state_.set_connection_manager(&mock_cm); EXPECT_CALL(mock_cm, GetConnectionProperties(_, _)) .WillRepeatedly(DoAll(SetArgPointee<0>(ConnectionType::kCellular), SetArgPointee<1>(ConnectionTethering::kUnknown), Return(true))); EXPECT_CALL(mock_cm, IsAllowedConnectionTypesForUpdateSet()) .WillRepeatedly(Return(false)); EXPECT_CALL(mock_cm, IsUpdateAllowedOver(ConnectionType::kCellular, _)) .WillRepeatedly(Return(true)); ASSERT_FALSE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kOmahaUpdateIgnoredOverCellular, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kIgnored, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_FALSE(response.update_exists); } TEST_F(OmahaRequestActionTest, ValidUpdateOverCellularAllowedByUpdateTargetMatch) { // This test tests that, when device policy is not set and permission for // update over cellular is set to false or does not exist, update over // cellular is allowed as update target matches the omaha response. OmahaResponse response; MockConnectionManager mock_cm; // A version same as the version in omaha response. string new_version = fake_update_response_.version; // A size same as the size in omaha response. int64_t new_size = fake_update_response_.size; fake_prefs_.SetString(kPrefsUpdateOverCellularTargetVersion, new_version); fake_prefs_.SetInt64(kPrefsUpdateOverCellularTargetSize, new_size); fake_system_state_.set_connection_manager(&mock_cm); EXPECT_CALL(mock_cm, GetConnectionProperties(_, _)) .WillRepeatedly(DoAll(SetArgPointee<0>(ConnectionType::kCellular), SetArgPointee<1>(ConnectionTethering::kUnknown), Return(true))); EXPECT_CALL(mock_cm, IsAllowedConnectionTypesForUpdateSet()) .WillRepeatedly(Return(false)); EXPECT_CALL(mock_cm, IsUpdateAllowedOver(ConnectionType::kCellular, _)) .WillRepeatedly(Return(true)); ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kUpdating, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_TRUE(response.update_exists); } TEST_F(OmahaRequestActionTest, ValidUpdateBlockedByRollback) { string rollback_version = "1234.0.0"; OmahaResponse response; MockPayloadState mock_payload_state; fake_system_state_.set_payload_state(&mock_payload_state); EXPECT_CALL(mock_payload_state, GetRollbackVersion()) .WillRepeatedly(Return(rollback_version)); fake_update_response_.version = rollback_version; ASSERT_FALSE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kOmahaUpdateIgnoredPerPolicy, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kIgnored, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_FALSE(response.update_exists); } // Verify that update checks called during OOBE will not try to download an // update if the response doesn't include the deadline field. TEST_F(OmahaRequestActionTest, SkipNonCriticalUpdatesBeforeOOBE) { OmahaResponse response; fake_system_state_.fake_hardware()->UnsetIsOOBEComplete(); // TODO(senj): set better default value for metrics::checkresult in // OmahaRequestAction::ActionCompleted. ASSERT_FALSE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kNonCriticalUpdateInOOBE, metrics::CheckResult::kParsingError, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_FALSE(response.update_exists); } // Verify that the IsOOBEComplete() value is ignored when the OOBE flow is not // enabled. TEST_F(OmahaRequestActionTest, SkipNonCriticalUpdatesBeforeOOBEDisabled) { OmahaResponse response; fake_system_state_.fake_hardware()->UnsetIsOOBEComplete(); fake_system_state_.fake_hardware()->SetIsOOBEEnabled(false); ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kUpdating, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_TRUE(response.update_exists); } // Verify that update checks called during OOBE will still try to download an // update if the response includes the deadline field. TEST_F(OmahaRequestActionTest, SkipNonCriticalUpdatesBeforeOOBEDeadlineSet) { OmahaResponse response; fake_system_state_.fake_hardware()->UnsetIsOOBEComplete(); fake_update_response_.deadline = "20101020"; ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kUpdating, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_TRUE(response.update_exists); } // Verify that update checks called during OOBE will not try to download an // update if a rollback happened, even when the response includes the deadline // field. TEST_F(OmahaRequestActionTest, SkipNonCriticalUpdatesBeforeOOBERollback) { OmahaResponse response; fake_system_state_.fake_hardware()->UnsetIsOOBEComplete(); fake_update_response_.deadline = "20101020"; EXPECT_CALL(*(fake_system_state_.mock_payload_state()), GetRollbackHappened()) .WillOnce(Return(true)); ASSERT_FALSE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kNonCriticalUpdateInOOBE, metrics::CheckResult::kParsingError, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_FALSE(response.update_exists); } // Verify that non-critical updates are skipped by reporting the // kNonCriticalUpdateInOOBE error code when attempted over cellular network - // i.e. when the update would need user permission. Note that reporting // kOmahaUpdateIgnoredOverCellular error in this case might cause undesired UX // in OOBE (warning the user about an update that will be skipped). TEST_F(OmahaRequestActionTest, SkipNonCriticalUpdatesInOOBEOverCellular) { OmahaResponse response; fake_system_state_.fake_hardware()->UnsetIsOOBEComplete(); MockConnectionManager mock_cm; fake_system_state_.set_connection_manager(&mock_cm); EXPECT_CALL(mock_cm, GetConnectionProperties(_, _)) .WillRepeatedly(DoAll(SetArgPointee<0>(ConnectionType::kCellular), SetArgPointee<1>(ConnectionTethering::kUnknown), Return(true))); EXPECT_CALL(mock_cm, IsAllowedConnectionTypesForUpdateSet()) .WillRepeatedly(Return(false)); ASSERT_FALSE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kNonCriticalUpdateInOOBE, metrics::CheckResult::kParsingError, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_FALSE(response.update_exists); } TEST_F(OmahaRequestActionTest, WallClockBasedWaitAloneCausesScattering) { OmahaResponse response; request_params_.set_wall_clock_based_wait_enabled(true); request_params_.set_update_check_count_wait_enabled(false); request_params_.set_waiting_period(TimeDelta::FromDays(2)); fake_system_state_.fake_clock()->SetWallclockTime(Time::Now()); ASSERT_FALSE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kOmahaUpdateDeferredPerPolicy, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kDeferring, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_FALSE(response.update_exists); // Verify if we are interactive check we don't defer. request_params_.set_interactive(true); ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kUpdating, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_TRUE(response.update_exists); } TEST_F(OmahaRequestActionTest, NoWallClockBasedWaitCausesNoScattering) { OmahaResponse response; request_params_.set_wall_clock_based_wait_enabled(false); request_params_.set_waiting_period(TimeDelta::FromDays(2)); request_params_.set_update_check_count_wait_enabled(true); request_params_.set_min_update_checks_needed(1); request_params_.set_max_update_checks_allowed(8); ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kUpdating, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_TRUE(response.update_exists); } TEST_F(OmahaRequestActionTest, ZeroMaxDaysToScatterCausesNoScattering) { OmahaResponse response; request_params_.set_wall_clock_based_wait_enabled(true); request_params_.set_waiting_period(TimeDelta::FromDays(2)); request_params_.set_update_check_count_wait_enabled(true); request_params_.set_min_update_checks_needed(1); request_params_.set_max_update_checks_allowed(8); fake_update_response_.max_days_to_scatter = "0"; ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kUpdating, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_TRUE(response.update_exists); } TEST_F(OmahaRequestActionTest, ZeroUpdateCheckCountCausesNoScattering) { OmahaResponse response; request_params_.set_wall_clock_based_wait_enabled(true); request_params_.set_waiting_period(TimeDelta()); request_params_.set_update_check_count_wait_enabled(true); request_params_.set_min_update_checks_needed(0); request_params_.set_max_update_checks_allowed(0); fake_system_state_.fake_clock()->SetWallclockTime(Time::Now()); ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kUpdating, metrics::DownloadErrorCode::kUnset, &response, nullptr)); int64_t count; ASSERT_TRUE(fake_prefs_.GetInt64(kPrefsUpdateCheckCount, &count)); ASSERT_EQ(count, 0); EXPECT_TRUE(response.update_exists); } TEST_F(OmahaRequestActionTest, NonZeroUpdateCheckCountCausesScattering) { OmahaResponse response; request_params_.set_wall_clock_based_wait_enabled(true); request_params_.set_waiting_period(TimeDelta()); request_params_.set_update_check_count_wait_enabled(true); request_params_.set_min_update_checks_needed(1); request_params_.set_max_update_checks_allowed(8); fake_system_state_.fake_clock()->SetWallclockTime(Time::Now()); ASSERT_FALSE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kOmahaUpdateDeferredPerPolicy, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kDeferring, metrics::DownloadErrorCode::kUnset, &response, nullptr)); int64_t count; ASSERT_TRUE(fake_prefs_.GetInt64(kPrefsUpdateCheckCount, &count)); ASSERT_GT(count, 0); EXPECT_FALSE(response.update_exists); // Verify if we are interactive check we don't defer. request_params_.set_interactive(true); ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kUpdating, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_TRUE(response.update_exists); } TEST_F(OmahaRequestActionTest, ExistingUpdateCheckCountCausesScattering) { OmahaResponse response; request_params_.set_wall_clock_based_wait_enabled(true); request_params_.set_waiting_period(TimeDelta()); request_params_.set_update_check_count_wait_enabled(true); request_params_.set_min_update_checks_needed(1); request_params_.set_max_update_checks_allowed(8); fake_system_state_.fake_clock()->SetWallclockTime(Time::Now()); ASSERT_TRUE(fake_prefs_.SetInt64(kPrefsUpdateCheckCount, 5)); ASSERT_FALSE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kOmahaUpdateDeferredPerPolicy, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kDeferring, metrics::DownloadErrorCode::kUnset, &response, nullptr)); int64_t count; ASSERT_TRUE(fake_prefs_.GetInt64(kPrefsUpdateCheckCount, &count)); // count remains the same, as the decrementing happens in update_attempter // which this test doesn't exercise. ASSERT_EQ(count, 5); EXPECT_FALSE(response.update_exists); // Verify if we are interactive check we don't defer. request_params_.set_interactive(true); ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kUpdating, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_TRUE(response.update_exists); } TEST_F(OmahaRequestActionTest, StagingTurnedOnCausesScattering) { // If staging is on, the value for max days to scatter should be ignored, and // staging's scatter value should be used. OmahaResponse response; request_params_.set_wall_clock_based_wait_enabled(true); request_params_.set_waiting_period(TimeDelta::FromDays(6)); request_params_.set_update_check_count_wait_enabled(false); fake_system_state_.fake_clock()->SetWallclockTime(Time::Now()); ASSERT_TRUE(fake_prefs_.SetInt64(kPrefsWallClockStagingWaitPeriod, 6)); // This should not prevent scattering due to staging. fake_update_response_.max_days_to_scatter = "0"; ASSERT_FALSE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kOmahaUpdateDeferredPerPolicy, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kDeferring, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_FALSE(response.update_exists); // Interactive updates should not be affected. request_params_.set_interactive(true); ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kUpdating, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_TRUE(response.update_exists); } TEST_F(OmahaRequestActionTest, CohortsArePersisted) { OmahaResponse response; fake_update_response_.include_cohorts = true; fake_update_response_.cohort = "s/154454/8479665"; fake_update_response_.cohorthint = "please-put-me-on-beta"; fake_update_response_.cohortname = "stable"; ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kUpdating, metrics::DownloadErrorCode::kUnset, &response, nullptr)); string value; EXPECT_TRUE(fake_prefs_.GetString(kPrefsOmahaCohort, &value)); EXPECT_EQ(fake_update_response_.cohort, value); EXPECT_TRUE(fake_prefs_.GetString(kPrefsOmahaCohortHint, &value)); EXPECT_EQ(fake_update_response_.cohorthint, value); EXPECT_TRUE(fake_prefs_.GetString(kPrefsOmahaCohortName, &value)); EXPECT_EQ(fake_update_response_.cohortname, value); } TEST_F(OmahaRequestActionTest, CohortsAreUpdated) { OmahaResponse response; EXPECT_TRUE(fake_prefs_.SetString(kPrefsOmahaCohort, "old_value")); EXPECT_TRUE(fake_prefs_.SetString(kPrefsOmahaCohortHint, "old_hint")); EXPECT_TRUE(fake_prefs_.SetString(kPrefsOmahaCohortName, "old_name")); fake_update_response_.include_cohorts = true; fake_update_response_.cohort = "s/154454/8479665"; fake_update_response_.cohorthint = "please-put-me-on-beta"; fake_update_response_.cohortname = ""; ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kUpdating, metrics::DownloadErrorCode::kUnset, &response, nullptr)); string value; EXPECT_TRUE(fake_prefs_.GetString(kPrefsOmahaCohort, &value)); EXPECT_EQ(fake_update_response_.cohort, value); EXPECT_TRUE(fake_prefs_.GetString(kPrefsOmahaCohortHint, &value)); EXPECT_EQ(fake_update_response_.cohorthint, value); EXPECT_FALSE(fake_prefs_.GetString(kPrefsOmahaCohortName, &value)); } TEST_F(OmahaRequestActionTest, CohortsAreNotModifiedWhenMissing) { OmahaResponse response; EXPECT_TRUE(fake_prefs_.SetString(kPrefsOmahaCohort, "old_value")); ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kUpdating, metrics::DownloadErrorCode::kUnset, &response, nullptr)); string value; EXPECT_TRUE(fake_prefs_.GetString(kPrefsOmahaCohort, &value)); EXPECT_EQ("old_value", value); EXPECT_FALSE(fake_prefs_.GetString(kPrefsOmahaCohortHint, &value)); EXPECT_FALSE(fake_prefs_.GetString(kPrefsOmahaCohortName, &value)); } TEST_F(OmahaRequestActionTest, CohortsArePersistedWhenNoUpdate) { OmahaResponse response; fake_update_response_.include_cohorts = true; fake_update_response_.cohort = "s/154454/8479665"; fake_update_response_.cohorthint = "please-put-me-on-beta"; fake_update_response_.cohortname = "stable"; ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetNoUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kNoUpdateAvailable, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, &response, nullptr)); string value; EXPECT_TRUE(fake_prefs_.GetString(kPrefsOmahaCohort, &value)); EXPECT_EQ(fake_update_response_.cohort, value); EXPECT_TRUE(fake_prefs_.GetString(kPrefsOmahaCohortHint, &value)); EXPECT_EQ(fake_update_response_.cohorthint, value); EXPECT_TRUE(fake_prefs_.GetString(kPrefsOmahaCohortName, &value)); EXPECT_EQ(fake_update_response_.cohortname, value); } TEST_F(OmahaRequestActionTest, MultiAppCohortTest) { OmahaResponse response; fake_update_response_.multi_app = true; fake_update_response_.include_cohorts = true; fake_update_response_.cohort = "s/154454/8479665"; fake_update_response_.cohorthint = "please-put-me-on-beta"; fake_update_response_.cohortname = "stable"; ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kUpdating, metrics::DownloadErrorCode::kUnset, &response, nullptr)); string value; EXPECT_TRUE(fake_prefs_.GetString(kPrefsOmahaCohort, &value)); EXPECT_EQ(fake_update_response_.cohort, value); EXPECT_TRUE(fake_prefs_.GetString(kPrefsOmahaCohortHint, &value)); EXPECT_EQ(fake_update_response_.cohorthint, value); EXPECT_TRUE(fake_prefs_.GetString(kPrefsOmahaCohortName, &value)); EXPECT_EQ(fake_update_response_.cohortname, value); } TEST_F(OmahaRequestActionTest, NoOutputPipeTest) { const string http_response(fake_update_response_.GetNoUpdateResponse()); brillo::FakeMessageLoop loop(nullptr); loop.SetAsCurrent(); auto action = std::make_unique( &fake_system_state_, nullptr, std::make_unique( http_response.data(), http_response.size(), nullptr), false); ActionProcessor processor; processor.set_delegate(&delegate_); processor.EnqueueAction(std::move(action)); loop.PostTask(base::Bind( [](ActionProcessor* processor) { processor->StartProcessing(); }, base::Unretained(&processor))); loop.Run(); EXPECT_FALSE(loop.PendingTasks()); EXPECT_FALSE(processor.IsRunning()); } TEST_F(OmahaRequestActionTest, InvalidXmlTest) { OmahaResponse response; ASSERT_FALSE(TestUpdateCheck("invalid xml>", -1, false, // ping_only ErrorCode::kOmahaRequestXMLParseError, metrics::CheckResult::kParsingError, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_FALSE(response.update_exists); } TEST_F(OmahaRequestActionTest, EmptyResponseTest) { OmahaResponse response; ASSERT_FALSE(TestUpdateCheck("", -1, false, // ping_only ErrorCode::kOmahaRequestEmptyResponseError, metrics::CheckResult::kParsingError, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_FALSE(response.update_exists); } TEST_F(OmahaRequestActionTest, MissingStatusTest) { OmahaResponse response; ASSERT_FALSE(TestUpdateCheck( "" "" "" "" "", -1, false, // ping_only ErrorCode::kOmahaResponseInvalid, metrics::CheckResult::kParsingError, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_FALSE(response.update_exists); } TEST_F(OmahaRequestActionTest, InvalidStatusTest) { OmahaResponse response; ASSERT_FALSE(TestUpdateCheck( "" "" "" "" "", -1, false, // ping_only ErrorCode::kOmahaResponseInvalid, metrics::CheckResult::kParsingError, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_FALSE(response.update_exists); } TEST_F(OmahaRequestActionTest, MissingNodesetTest) { OmahaResponse response; ASSERT_FALSE(TestUpdateCheck( "" "" "" "" "", -1, false, // ping_only ErrorCode::kOmahaResponseInvalid, metrics::CheckResult::kParsingError, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_FALSE(response.update_exists); } TEST_F(OmahaRequestActionTest, MissingFieldTest) { string input_response = "" "" // the appid needs to match that in the request params "" "" "" "" "" ""; LOG(INFO) << "Input Response = " << input_response; OmahaResponse response; ASSERT_TRUE(TestUpdateCheck(input_response, -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kUpdating, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_TRUE(response.update_exists); EXPECT_EQ("10.2.3.4", response.version); EXPECT_EQ("http://missing/field/test/f", response.packages[0].payload_urls[0]); EXPECT_EQ("", response.more_info_url); EXPECT_EQ("lkq34j5345", response.packages[0].hash); EXPECT_EQ(587u, response.packages[0].size); EXPECT_FALSE(response.prompt); EXPECT_TRUE(response.deadline.empty()); } namespace { class TerminateEarlyTestProcessorDelegate : public ActionProcessorDelegate { public: void ProcessingStopped(const ActionProcessor* processor) { brillo::MessageLoop::current()->BreakLoop(); } }; void TerminateTransferTestStarter(ActionProcessor* processor) { processor->StartProcessing(); CHECK(processor->IsRunning()); processor->StopProcessing(); } } // namespace TEST_F(OmahaRequestActionTest, TerminateTransferTest) { brillo::FakeMessageLoop loop(nullptr); loop.SetAsCurrent(); string http_response("doesn't matter"); auto action = std::make_unique( &fake_system_state_, nullptr, std::make_unique( http_response.data(), http_response.size(), nullptr), false); TerminateEarlyTestProcessorDelegate delegate; ActionProcessor processor; processor.set_delegate(&delegate); processor.EnqueueAction(std::move(action)); loop.PostTask(base::Bind(&TerminateTransferTestStarter, &processor)); loop.Run(); EXPECT_FALSE(loop.PendingTasks()); } TEST_F(OmahaRequestActionTest, XmlEncodeTest) { string output; EXPECT_TRUE(XmlEncode("ab", &output)); EXPECT_EQ("ab", output); EXPECT_TRUE(XmlEncode("a\"\'\\", &output)); EXPECT_EQ("<&>"'\\", output); EXPECT_TRUE(XmlEncode("<&>", &output)); EXPECT_EQ("&lt;&amp;&gt;", output); // Check that unterminated UTF-8 strings are handled properly. EXPECT_FALSE(XmlEncode("\xc2", &output)); // Fail with invalid ASCII-7 chars. EXPECT_FALSE(XmlEncode("This is an 'n' with a tilde: \xc3\xb1", &output)); } TEST_F(OmahaRequestActionTest, XmlEncodeWithDefaultTest) { EXPECT_EQ("<&>", XmlEncodeWithDefault("<&>", "something else")); EXPECT_EQ("", XmlEncodeWithDefault("\xc2", "")); } TEST_F(OmahaRequestActionTest, XmlEncodeIsUsedForParams) { brillo::Blob post_data; // Make sure XML Encode is being called on the params request_params_.set_os_sp("testtheservice_pack>"); request_params_.set_os_board("x86 generic"); fake_prefs_.SetString(kPrefsOmahaCohort, "evil\nstring"); fake_prefs_.SetString(kPrefsOmahaCohortHint, "evil&string\\"); fake_prefs_.SetString( kPrefsOmahaCohortName, base::JoinString(vector(100, "My spoon is too big."), " ")); OmahaResponse response; ASSERT_FALSE(TestUpdateCheck("invalid xml>", -1, false, // ping_only ErrorCode::kOmahaRequestXMLParseError, metrics::CheckResult::kParsingError, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, &response, &post_data)); // convert post_data to string string post_str(post_data.begin(), post_data.end()); EXPECT_NE(string::npos, post_str.find("testtheservice_pack>")); EXPECT_EQ(string::npos, post_str.find("testtheservice_pack>")); EXPECT_NE(string::npos, post_str.find("x86 generic<id")); EXPECT_EQ(string::npos, post_str.find("x86 generic")); EXPECT_NE(string::npos, post_str.find("cohort=\"evil\nstring\"")); EXPECT_EQ(string::npos, post_str.find("cohorthint=\"evil&string\\\"")); EXPECT_NE(string::npos, post_str.find("cohorthint=\"evil&string\\\"")); // Values from Prefs that are too big are removed from the XML instead of // encoded. EXPECT_EQ(string::npos, post_str.find("cohortname=")); } TEST_F(OmahaRequestActionTest, XmlDecodeTest) { OmahaResponse response; fake_update_response_.deadline = "<20110101"; fake_update_response_.more_info_url = "testthe<url"; fake_update_response_.codebase = "testthe&codebase/"; ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kUpdating, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_EQ("testthe prefs; fake_system_state_.set_prefs(&prefs); EXPECT_CALL(prefs, GetString(kPrefsPreviousVersion, _)) .WillOnce(DoAll(SetArgPointee<1>(string("")), Return(true))); // An existing but empty previous version means that we didn't reboot to a new // update, therefore, no need to update the previous version. EXPECT_CALL(prefs, SetString(kPrefsPreviousVersion, _)).Times(0); ASSERT_FALSE(TestUpdateCheck("invalid xml>", -1, false, // ping_only ErrorCode::kOmahaRequestXMLParseError, metrics::CheckResult::kParsingError, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, nullptr, // response &post_data)); // convert post_data to string string post_str(post_data.begin(), post_data.end()); EXPECT_NE( post_str.find(" \n" " \n"), string::npos); EXPECT_NE(post_str.find("hardware_class=\"OEM MODEL 09235 7471\""), string::npos); EXPECT_NE(post_str.find("fw_version=\"ChromeOSFirmware.1.0\""), string::npos); EXPECT_NE(post_str.find("ec_version=\"0X0A1\""), string::npos); // No tag should be sent if we didn't reboot to an update. EXPECT_EQ(post_str.find("", &post_data); // convert post_data to string string post_str(post_data.begin(), post_data.end()); string expected_event = base::StringPrintf( " \n", OmahaEvent::kTypeUpdateDownloadStarted, OmahaEvent::kResultSuccess); EXPECT_NE(post_str.find(expected_event), string::npos); EXPECT_EQ(post_str.find("ping"), string::npos); EXPECT_EQ(post_str.find("updatecheck"), string::npos); } TEST_F(OmahaRequestActionTest, FormatErrorEventOutputTest) { brillo::Blob post_data; TestEvent(new OmahaEvent(OmahaEvent::kTypeDownloadComplete, OmahaEvent::kResultError, ErrorCode::kError), "invalid xml>", &post_data); // convert post_data to string string post_str(post_data.begin(), post_data.end()); string expected_event = base::StringPrintf( " \n", OmahaEvent::kTypeDownloadComplete, OmahaEvent::kResultError, static_cast(ErrorCode::kError)); EXPECT_NE(post_str.find(expected_event), string::npos); EXPECT_EQ(post_str.find("updatecheck"), string::npos); } TEST_F(OmahaRequestActionTest, IsEventTest) { string http_response("doesn't matter"); OmahaRequestAction update_check_action( &fake_system_state_, nullptr, std::make_unique( http_response.data(), http_response.size(), nullptr), false); EXPECT_FALSE(update_check_action.IsEvent()); OmahaRequestAction event_action( &fake_system_state_, new OmahaEvent(OmahaEvent::kTypeUpdateComplete), std::make_unique( http_response.data(), http_response.size(), nullptr), false); EXPECT_TRUE(event_action.IsEvent()); } TEST_F(OmahaRequestActionTest, FormatDeltaOkayOutputTest) { for (int i = 0; i < 2; i++) { bool delta_okay = i == 1; const char* delta_okay_str = delta_okay ? "true" : "false"; brillo::Blob post_data; request_params_.set_delta_okay(delta_okay); ASSERT_FALSE(TestUpdateCheck("invalid xml>", -1, false, // ping_only ErrorCode::kOmahaRequestXMLParseError, metrics::CheckResult::kParsingError, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, nullptr, &post_data)); // convert post_data to string string post_str(post_data.begin(), post_data.end()); EXPECT_NE( post_str.find(base::StringPrintf(" delta_okay=\"%s\"", delta_okay_str)), string::npos) << "i = " << i; } } TEST_F(OmahaRequestActionTest, FormatInteractiveOutputTest) { for (int i = 0; i < 2; i++) { bool interactive = i == 1; const char* interactive_str = interactive ? "ondemandupdate" : "scheduler"; brillo::Blob post_data; FakeSystemState fake_system_state; request_params_.set_interactive(interactive); ASSERT_FALSE(TestUpdateCheck("invalid xml>", -1, false, // ping_only ErrorCode::kOmahaRequestXMLParseError, metrics::CheckResult::kParsingError, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, nullptr, &post_data)); // convert post_data to string string post_str(post_data.begin(), post_data.end()); EXPECT_NE(post_str.find( base::StringPrintf("installsource=\"%s\"", interactive_str)), string::npos) << "i = " << i; } } TEST_F(OmahaRequestActionTest, FormatTargetVersionPrefixOutputTest) { for (int i = 0; i < 2; i++) { bool target_version_set = i == 1; const char* target_version_prefix = target_version_set ? "10032." : ""; brillo::Blob post_data; FakeSystemState fake_system_state; request_params_.set_target_version_prefix(target_version_prefix); ASSERT_FALSE(TestUpdateCheck("invalid xml>", -1, false, // ping_only ErrorCode::kOmahaRequestXMLParseError, metrics::CheckResult::kParsingError, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, nullptr, &post_data)); // convert post_data to string string post_str(post_data.begin(), post_data.end()); if (target_version_set) { EXPECT_NE(post_str.find(""), string::npos) << "i = " << i; } else { EXPECT_EQ(post_str.find("targetversionprefix"), string::npos) << "i = " << i; } } } TEST_F(OmahaRequestActionTest, FormatRollbackAllowedOutputTest) { for (int i = 0; i < 4; i++) { bool rollback_allowed = i / 2 == 0; bool target_version_set = i % 2 == 0; brillo::Blob post_data; FakeSystemState fake_system_state; request_params_.set_target_version_prefix(target_version_set ? "10032." : ""); request_params_.set_rollback_allowed(rollback_allowed); ASSERT_FALSE(TestUpdateCheck("invalid xml>", -1, false, // ping_only ErrorCode::kOmahaRequestXMLParseError, metrics::CheckResult::kParsingError, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, nullptr, &post_data)); // convert post_data to string string post_str(post_data.begin(), post_data.end()); if (rollback_allowed && target_version_set) { EXPECT_NE(post_str.find("rollback_allowed=\"true\""), string::npos) << "i = " << i; } else { EXPECT_EQ(post_str.find("rollback_allowed"), string::npos) << "i = " << i; } } } TEST_F(OmahaRequestActionTest, OmahaEventTest) { OmahaEvent default_event; EXPECT_EQ(OmahaEvent::kTypeUnknown, default_event.type); EXPECT_EQ(OmahaEvent::kResultError, default_event.result); EXPECT_EQ(ErrorCode::kError, default_event.error_code); OmahaEvent success_event(OmahaEvent::kTypeUpdateDownloadStarted); EXPECT_EQ(OmahaEvent::kTypeUpdateDownloadStarted, success_event.type); EXPECT_EQ(OmahaEvent::kResultSuccess, success_event.result); EXPECT_EQ(ErrorCode::kSuccess, success_event.error_code); OmahaEvent error_event(OmahaEvent::kTypeUpdateDownloadFinished, OmahaEvent::kResultError, ErrorCode::kError); EXPECT_EQ(OmahaEvent::kTypeUpdateDownloadFinished, error_event.type); EXPECT_EQ(OmahaEvent::kResultError, error_event.result); EXPECT_EQ(ErrorCode::kError, error_event.error_code); } void OmahaRequestActionTest::PingTest(bool ping_only) { NiceMock prefs; fake_system_state_.set_prefs(&prefs); EXPECT_CALL(prefs, GetInt64(kPrefsMetricsCheckLastReportingTime, _)) .Times(AnyNumber()); EXPECT_CALL(prefs, SetInt64(_, _)).Times(AnyNumber()); // Add a few hours to the day difference to test no rounding, etc. int64_t five_days_ago = (Time::Now() - TimeDelta::FromHours(5 * 24 + 13)).ToInternalValue(); int64_t six_days_ago = (Time::Now() - TimeDelta::FromHours(6 * 24 + 11)).ToInternalValue(); EXPECT_CALL(prefs, GetInt64(kPrefsInstallDateDays, _)) .WillOnce(DoAll(SetArgPointee<1>(0), Return(true))); EXPECT_CALL(prefs, GetInt64(kPrefsLastActivePingDay, _)) .WillOnce(DoAll(SetArgPointee<1>(six_days_ago), Return(true))); EXPECT_CALL(prefs, GetInt64(kPrefsLastRollCallPingDay, _)) .WillOnce(DoAll(SetArgPointee<1>(five_days_ago), Return(true))); brillo::Blob post_data; ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetNoUpdateResponse(), -1, ping_only, ErrorCode::kSuccess, metrics::CheckResult::kNoUpdateAvailable, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, nullptr, &post_data)); string post_str(post_data.begin(), post_data.end()); EXPECT_NE(post_str.find(""), string::npos); if (ping_only) { EXPECT_EQ(post_str.find("updatecheck"), string::npos); EXPECT_EQ(post_str.find("previousversion"), string::npos); } else { EXPECT_NE(post_str.find("updatecheck"), string::npos); EXPECT_NE(post_str.find("previousversion"), string::npos); } } TEST_F(OmahaRequestActionTest, PingTestSendOnlyAPing) { PingTest(true /* ping_only */); } TEST_F(OmahaRequestActionTest, PingTestSendAlsoAnUpdateCheck) { PingTest(false /* ping_only */); } TEST_F(OmahaRequestActionTest, ActivePingTest) { NiceMock prefs; fake_system_state_.set_prefs(&prefs); EXPECT_CALL(prefs, GetInt64(kPrefsMetricsCheckLastReportingTime, _)) .Times(AnyNumber()); EXPECT_CALL(prefs, SetInt64(_, _)).Times(AnyNumber()); int64_t three_days_ago = (Time::Now() - TimeDelta::FromHours(3 * 24 + 12)).ToInternalValue(); int64_t now = Time::Now().ToInternalValue(); EXPECT_CALL(prefs, GetInt64(kPrefsInstallDateDays, _)) .WillOnce(DoAll(SetArgPointee<1>(0), Return(true))); EXPECT_CALL(prefs, GetInt64(kPrefsLastActivePingDay, _)) .WillOnce(DoAll(SetArgPointee<1>(three_days_ago), Return(true))); EXPECT_CALL(prefs, GetInt64(kPrefsLastRollCallPingDay, _)) .WillOnce(DoAll(SetArgPointee<1>(now), Return(true))); brillo::Blob post_data; ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetNoUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kNoUpdateAvailable, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, nullptr, &post_data)); string post_str(post_data.begin(), post_data.end()); EXPECT_NE(post_str.find(""), string::npos); } TEST_F(OmahaRequestActionTest, RollCallPingTest) { NiceMock prefs; fake_system_state_.set_prefs(&prefs); EXPECT_CALL(prefs, GetInt64(kPrefsMetricsCheckLastReportingTime, _)) .Times(AnyNumber()); EXPECT_CALL(prefs, SetInt64(_, _)).Times(AnyNumber()); int64_t four_days_ago = (Time::Now() - TimeDelta::FromHours(4 * 24)).ToInternalValue(); int64_t now = Time::Now().ToInternalValue(); EXPECT_CALL(prefs, GetInt64(kPrefsInstallDateDays, _)) .WillOnce(DoAll(SetArgPointee<1>(0), Return(true))); EXPECT_CALL(prefs, GetInt64(kPrefsLastActivePingDay, _)) .WillOnce(DoAll(SetArgPointee<1>(now), Return(true))); EXPECT_CALL(prefs, GetInt64(kPrefsLastRollCallPingDay, _)) .WillOnce(DoAll(SetArgPointee<1>(four_days_ago), Return(true))); brillo::Blob post_data; ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetNoUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kNoUpdateAvailable, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, nullptr, &post_data)); string post_str(post_data.begin(), post_data.end()); EXPECT_NE(post_str.find("\n"), string::npos); } TEST_F(OmahaRequestActionTest, NoPingTest) { NiceMock prefs; fake_system_state_.set_prefs(&prefs); EXPECT_CALL(prefs, GetInt64(kPrefsMetricsCheckLastReportingTime, _)) .Times(AnyNumber()); EXPECT_CALL(prefs, SetInt64(_, _)).Times(AnyNumber()); int64_t one_hour_ago = (Time::Now() - TimeDelta::FromHours(1)).ToInternalValue(); EXPECT_CALL(prefs, GetInt64(kPrefsInstallDateDays, _)) .WillOnce(DoAll(SetArgPointee<1>(0), Return(true))); EXPECT_CALL(prefs, GetInt64(kPrefsLastActivePingDay, _)) .WillOnce(DoAll(SetArgPointee<1>(one_hour_ago), Return(true))); EXPECT_CALL(prefs, GetInt64(kPrefsLastRollCallPingDay, _)) .WillOnce(DoAll(SetArgPointee<1>(one_hour_ago), Return(true))); // LastActivePingDay and PrefsLastRollCallPingDay are set even if we didn't // send a ping. EXPECT_CALL(prefs, SetInt64(kPrefsLastActivePingDay, _)) .WillOnce(Return(true)); EXPECT_CALL(prefs, SetInt64(kPrefsLastRollCallPingDay, _)) .WillOnce(Return(true)); brillo::Blob post_data; ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetNoUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kNoUpdateAvailable, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, nullptr, &post_data)); string post_str(post_data.begin(), post_data.end()); EXPECT_EQ(post_str.find("ping"), string::npos); } TEST_F(OmahaRequestActionTest, IgnoreEmptyPingTest) { // This test ensures that we ignore empty ping only requests. NiceMock prefs; fake_system_state_.set_prefs(&prefs); int64_t now = Time::Now().ToInternalValue(); EXPECT_CALL(prefs, GetInt64(kPrefsLastActivePingDay, _)) .WillOnce(DoAll(SetArgPointee<1>(now), Return(true))); EXPECT_CALL(prefs, GetInt64(kPrefsLastRollCallPingDay, _)) .WillOnce(DoAll(SetArgPointee<1>(now), Return(true))); EXPECT_CALL(prefs, SetInt64(kPrefsLastActivePingDay, _)).Times(0); EXPECT_CALL(prefs, SetInt64(kPrefsLastRollCallPingDay, _)).Times(0); brillo::Blob post_data; EXPECT_TRUE(TestUpdateCheck(fake_update_response_.GetNoUpdateResponse(), -1, true, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kUnset, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, nullptr, &post_data)); EXPECT_EQ(0U, post_data.size()); } TEST_F(OmahaRequestActionTest, BackInTimePingTest) { NiceMock prefs; fake_system_state_.set_prefs(&prefs); EXPECT_CALL(prefs, GetInt64(kPrefsMetricsCheckLastReportingTime, _)) .Times(AnyNumber()); EXPECT_CALL(prefs, SetInt64(_, _)).Times(AnyNumber()); int64_t future = (Time::Now() + TimeDelta::FromHours(3 * 24 + 4)).ToInternalValue(); EXPECT_CALL(prefs, GetInt64(kPrefsInstallDateDays, _)) .WillOnce(DoAll(SetArgPointee<1>(0), Return(true))); EXPECT_CALL(prefs, GetInt64(kPrefsLastActivePingDay, _)) .WillOnce(DoAll(SetArgPointee<1>(future), Return(true))); EXPECT_CALL(prefs, GetInt64(kPrefsLastRollCallPingDay, _)) .WillOnce(DoAll(SetArgPointee<1>(future), Return(true))); EXPECT_CALL(prefs, SetInt64(kPrefsLastActivePingDay, _)) .WillOnce(Return(true)); EXPECT_CALL(prefs, SetInt64(kPrefsLastRollCallPingDay, _)) .WillOnce(Return(true)); brillo::Blob post_data; ASSERT_TRUE( TestUpdateCheck("" "" "", -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kNoUpdateAvailable, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, nullptr, &post_data)); string post_str(post_data.begin(), post_data.end()); EXPECT_EQ(post_str.find("ping"), string::npos); } TEST_F(OmahaRequestActionTest, LastPingDayUpdateTest) { // This test checks that the action updates the last ping day to now // minus 200 seconds with a slack of 5 seconds. Therefore, the test // may fail if it runs for longer than 5 seconds. It shouldn't run // that long though. int64_t midnight = (Time::Now() - TimeDelta::FromSeconds(200)).ToInternalValue(); int64_t midnight_slack = (Time::Now() - TimeDelta::FromSeconds(195)).ToInternalValue(); NiceMock prefs; fake_system_state_.set_prefs(&prefs); EXPECT_CALL(prefs, GetInt64(_, _)).Times(AnyNumber()); EXPECT_CALL(prefs, SetInt64(_, _)).Times(AnyNumber()); EXPECT_CALL(prefs, SetInt64(kPrefsLastActivePingDay, AllOf(Ge(midnight), Le(midnight_slack)))) .WillOnce(Return(true)); EXPECT_CALL(prefs, SetInt64(kPrefsLastRollCallPingDay, AllOf(Ge(midnight), Le(midnight_slack)))) .WillOnce(Return(true)); ASSERT_TRUE( TestUpdateCheck("" "" "", -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kNoUpdateAvailable, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, nullptr, nullptr)); } TEST_F(OmahaRequestActionTest, NoElapsedSecondsTest) { NiceMock prefs; fake_system_state_.set_prefs(&prefs); EXPECT_CALL(prefs, GetInt64(_, _)).Times(AnyNumber()); EXPECT_CALL(prefs, SetInt64(_, _)).Times(AnyNumber()); EXPECT_CALL(prefs, SetInt64(kPrefsLastActivePingDay, _)).Times(0); EXPECT_CALL(prefs, SetInt64(kPrefsLastRollCallPingDay, _)).Times(0); ASSERT_TRUE( TestUpdateCheck("" "" "", -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kNoUpdateAvailable, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, nullptr, nullptr)); } TEST_F(OmahaRequestActionTest, BadElapsedSecondsTest) { NiceMock prefs; fake_system_state_.set_prefs(&prefs); EXPECT_CALL(prefs, GetInt64(_, _)).Times(AnyNumber()); EXPECT_CALL(prefs, SetInt64(_, _)).Times(AnyNumber()); EXPECT_CALL(prefs, SetInt64(kPrefsLastActivePingDay, _)).Times(0); EXPECT_CALL(prefs, SetInt64(kPrefsLastRollCallPingDay, _)).Times(0); ASSERT_TRUE( TestUpdateCheck("" "" "", -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kNoUpdateAvailable, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, nullptr, nullptr)); } TEST_F(OmahaRequestActionTest, ParseUpdateCheckAttributesTest) { // Test that the "eol" flags is only parsed from the "_eol" attribute and not // the "eol" attribute. ASSERT_TRUE( TestUpdateCheck("" "" "", -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kNoUpdateAvailable, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, nullptr, nullptr)); string eol_pref; EXPECT_TRUE( fake_system_state_.prefs()->GetString(kPrefsOmahaEolStatus, &eol_pref)); // Note that the eol="eol" attribute should be ignored and the _eol should be // used instead. EXPECT_EQ("security-only", eol_pref); } TEST_F(OmahaRequestActionTest, NoUniqueIDTest) { brillo::Blob post_data; ASSERT_FALSE(TestUpdateCheck("invalid xml>", -1, false, // ping_only ErrorCode::kOmahaRequestXMLParseError, metrics::CheckResult::kParsingError, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, nullptr, // response &post_data)); // convert post_data to string string post_str(post_data.begin(), post_data.end()); EXPECT_EQ(post_str.find("machineid="), string::npos); EXPECT_EQ(post_str.find("userid="), string::npos); } TEST_F(OmahaRequestActionTest, NetworkFailureTest) { OmahaResponse response; const int http_error_code = static_cast(ErrorCode::kOmahaRequestHTTPResponseBase) + 501; ASSERT_FALSE(TestUpdateCheck("", 501, false, // ping_only static_cast(http_error_code), metrics::CheckResult::kDownloadError, metrics::CheckReaction::kUnset, static_cast(501), &response, nullptr)); EXPECT_FALSE(response.update_exists); } TEST_F(OmahaRequestActionTest, NetworkFailureBadHTTPCodeTest) { OmahaResponse response; const int http_error_code = static_cast(ErrorCode::kOmahaRequestHTTPResponseBase) + 999; ASSERT_FALSE(TestUpdateCheck("", 1500, false, // ping_only static_cast(http_error_code), metrics::CheckResult::kDownloadError, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kHttpStatusOther, &response, nullptr)); EXPECT_FALSE(response.update_exists); } TEST_F(OmahaRequestActionTest, TestUpdateFirstSeenAtGetsPersistedFirstTime) { OmahaResponse response; request_params_.set_wall_clock_based_wait_enabled(true); request_params_.set_waiting_period(TimeDelta().FromDays(1)); request_params_.set_update_check_count_wait_enabled(false); Time arbitrary_date; ASSERT_TRUE(Time::FromString("6/4/1989", &arbitrary_date)); fake_system_state_.fake_clock()->SetWallclockTime(arbitrary_date); ASSERT_FALSE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kOmahaUpdateDeferredPerPolicy, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kDeferring, metrics::DownloadErrorCode::kUnset, &response, nullptr)); int64_t timestamp = 0; ASSERT_TRUE(fake_prefs_.GetInt64(kPrefsUpdateFirstSeenAt, ×tamp)); EXPECT_EQ(arbitrary_date.ToInternalValue(), timestamp); EXPECT_FALSE(response.update_exists); // Verify if we are interactive check we don't defer. request_params_.set_interactive(true); ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kUpdating, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_TRUE(response.update_exists); } TEST_F(OmahaRequestActionTest, TestUpdateFirstSeenAtGetsUsedIfAlreadyPresent) { OmahaResponse response; request_params_.set_wall_clock_based_wait_enabled(true); request_params_.set_waiting_period(TimeDelta().FromDays(1)); request_params_.set_update_check_count_wait_enabled(false); Time t1, t2; ASSERT_TRUE(Time::FromString("1/1/2012", &t1)); ASSERT_TRUE(Time::FromString("1/3/2012", &t2)); ASSERT_TRUE( fake_prefs_.SetInt64(kPrefsUpdateFirstSeenAt, t1.ToInternalValue())); fake_system_state_.fake_clock()->SetWallclockTime(t2); ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kUpdating, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_TRUE(response.update_exists); // Make sure the timestamp t1 is unchanged showing that it was reused. int64_t timestamp = 0; ASSERT_TRUE(fake_prefs_.GetInt64(kPrefsUpdateFirstSeenAt, ×tamp)); ASSERT_TRUE(timestamp == t1.ToInternalValue()); } TEST_F(OmahaRequestActionTest, TestChangingToMoreStableChannel) { // Create a uniquely named test directory. base::ScopedTempDir tempdir; ASSERT_TRUE(tempdir.CreateUniqueTempDir()); brillo::Blob post_data; request_params_.set_root(tempdir.GetPath().value()); request_params_.set_app_id("{22222222-2222-2222-2222-222222222222}"); request_params_.set_app_version("1.2.3.4"); request_params_.set_product_components("o.bundle=1"); request_params_.set_current_channel("canary-channel"); EXPECT_TRUE( request_params_.SetTargetChannel("stable-channel", true, nullptr)); request_params_.UpdateDownloadChannel(); EXPECT_TRUE(request_params_.ShouldPowerwash()); ASSERT_FALSE(TestUpdateCheck("invalid xml>", -1, false, // ping_only ErrorCode::kOmahaRequestXMLParseError, metrics::CheckResult::kParsingError, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, nullptr, // response &post_data)); // convert post_data to string string post_str(post_data.begin(), post_data.end()); EXPECT_NE( string::npos, post_str.find("appid=\"{22222222-2222-2222-2222-222222222222}\" " "version=\"0.0.0.0\" from_version=\"1.2.3.4\" " "track=\"stable-channel\" from_track=\"canary-channel\" ")); EXPECT_EQ(string::npos, post_str.find("o.bundle")); } TEST_F(OmahaRequestActionTest, TestChangingToLessStableChannel) { // Create a uniquely named test directory. base::ScopedTempDir tempdir; ASSERT_TRUE(tempdir.CreateUniqueTempDir()); brillo::Blob post_data; request_params_.set_root(tempdir.GetPath().value()); request_params_.set_app_id("{11111111-1111-1111-1111-111111111111}"); request_params_.set_app_version("5.6.7.8"); request_params_.set_product_components("o.bundle=1"); request_params_.set_current_channel("stable-channel"); EXPECT_TRUE( request_params_.SetTargetChannel("canary-channel", false, nullptr)); request_params_.UpdateDownloadChannel(); EXPECT_FALSE(request_params_.ShouldPowerwash()); ASSERT_FALSE(TestUpdateCheck("invalid xml>", -1, false, // ping_only ErrorCode::kOmahaRequestXMLParseError, metrics::CheckResult::kParsingError, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, nullptr, // response &post_data)); // Convert post_data to string. string post_str(post_data.begin(), post_data.end()); EXPECT_NE( string::npos, post_str.find("appid=\"{11111111-1111-1111-1111-111111111111}\" " "version=\"5.6.7.8\" " "track=\"canary-channel\" from_track=\"stable-channel\"")); EXPECT_EQ(string::npos, post_str.find("from_version")); EXPECT_NE(string::npos, post_str.find("o.bundle.version=\"1\"")); } // Checks that the initial ping with a=-1 r=-1 is not send when the device // was powerwashed. TEST_F(OmahaRequestActionTest, PingWhenPowerwashed) { fake_prefs_.SetString(kPrefsPreviousVersion, ""); // Flag that the device was powerwashed in the past. fake_system_state_.fake_hardware()->SetPowerwashCount(1); brillo::Blob post_data; ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetNoUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kNoUpdateAvailable, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, nullptr, &post_data)); // We shouldn't send a ping in this case since powerwash > 0. string post_str(post_data.begin(), post_data.end()); EXPECT_EQ(string::npos, post_str.find("SetPowerwashCount(0); // Flag that the device has sent first active ping in the past. fake_system_state_.fake_hardware()->SetFirstActiveOmahaPingSent(); brillo::Blob post_data; ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetNoUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kNoUpdateAvailable, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, nullptr, &post_data)); // We shouldn't send a ping in this case since // first_active_omaha_ping_sent=true string post_str(post_data.begin(), post_data.end()); EXPECT_EQ(string::npos, post_str.find("")); // The previous version flag should have been removed. EXPECT_TRUE(fake_prefs_.Exists(kPrefsPreviousVersion)); string prev_version; EXPECT_TRUE(fake_prefs_.GetString(kPrefsPreviousVersion, &prev_version)); EXPECT_TRUE(prev_version.empty()); } void OmahaRequestActionTest::P2PTest(bool initial_allow_p2p_for_downloading, bool initial_allow_p2p_for_sharing, bool omaha_disable_p2p_for_downloading, bool omaha_disable_p2p_for_sharing, bool payload_state_allow_p2p_attempt, bool expect_p2p_client_lookup, const string& p2p_client_result_url, bool expected_allow_p2p_for_downloading, bool expected_allow_p2p_for_sharing, const string& expected_p2p_url) { OmahaResponse response; bool actual_allow_p2p_for_downloading = initial_allow_p2p_for_downloading; bool actual_allow_p2p_for_sharing = initial_allow_p2p_for_sharing; string actual_p2p_url; MockPayloadState mock_payload_state; fake_system_state_.set_payload_state(&mock_payload_state); EXPECT_CALL(mock_payload_state, P2PAttemptAllowed()) .WillRepeatedly(Return(payload_state_allow_p2p_attempt)); EXPECT_CALL(mock_payload_state, GetUsingP2PForDownloading()) .WillRepeatedly(ReturnPointee(&actual_allow_p2p_for_downloading)); EXPECT_CALL(mock_payload_state, GetUsingP2PForSharing()) .WillRepeatedly(ReturnPointee(&actual_allow_p2p_for_sharing)); EXPECT_CALL(mock_payload_state, SetUsingP2PForDownloading(_)) .WillRepeatedly(SaveArg<0>(&actual_allow_p2p_for_downloading)); EXPECT_CALL(mock_payload_state, SetUsingP2PForSharing(_)) .WillRepeatedly(SaveArg<0>(&actual_allow_p2p_for_sharing)); EXPECT_CALL(mock_payload_state, SetP2PUrl(_)) .WillRepeatedly(SaveArg<0>(&actual_p2p_url)); MockP2PManager mock_p2p_manager; fake_system_state_.set_p2p_manager(&mock_p2p_manager); mock_p2p_manager.fake().SetLookupUrlForFileResult(p2p_client_result_url); TimeDelta timeout = TimeDelta::FromSeconds(kMaxP2PNetworkWaitTimeSeconds); EXPECT_CALL(mock_p2p_manager, LookupUrlForFile(_, _, timeout, _)) .Times(expect_p2p_client_lookup ? 1 : 0); fake_update_response_.disable_p2p_for_downloading = omaha_disable_p2p_for_downloading; fake_update_response_.disable_p2p_for_sharing = omaha_disable_p2p_for_sharing; ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kUpdating, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_TRUE(response.update_exists); EXPECT_EQ(omaha_disable_p2p_for_downloading, response.disable_p2p_for_downloading); EXPECT_EQ(omaha_disable_p2p_for_sharing, response.disable_p2p_for_sharing); EXPECT_EQ(expected_allow_p2p_for_downloading, actual_allow_p2p_for_downloading); EXPECT_EQ(expected_allow_p2p_for_sharing, actual_allow_p2p_for_sharing); EXPECT_EQ(expected_p2p_url, actual_p2p_url); } TEST_F(OmahaRequestActionTest, P2PWithPeer) { P2PTest(true, // initial_allow_p2p_for_downloading true, // initial_allow_p2p_for_sharing false, // omaha_disable_p2p_for_downloading false, // omaha_disable_p2p_for_sharing true, // payload_state_allow_p2p_attempt true, // expect_p2p_client_lookup "http://1.3.5.7/p2p", // p2p_client_result_url true, // expected_allow_p2p_for_downloading true, // expected_allow_p2p_for_sharing "http://1.3.5.7/p2p"); // expected_p2p_url } TEST_F(OmahaRequestActionTest, P2PWithoutPeer) { P2PTest(true, // initial_allow_p2p_for_downloading true, // initial_allow_p2p_for_sharing false, // omaha_disable_p2p_for_downloading false, // omaha_disable_p2p_for_sharing true, // payload_state_allow_p2p_attempt true, // expect_p2p_client_lookup "", // p2p_client_result_url false, // expected_allow_p2p_for_downloading true, // expected_allow_p2p_for_sharing ""); // expected_p2p_url } TEST_F(OmahaRequestActionTest, P2PDownloadNotAllowed) { P2PTest(false, // initial_allow_p2p_for_downloading true, // initial_allow_p2p_for_sharing false, // omaha_disable_p2p_for_downloading false, // omaha_disable_p2p_for_sharing true, // payload_state_allow_p2p_attempt false, // expect_p2p_client_lookup "unset", // p2p_client_result_url false, // expected_allow_p2p_for_downloading true, // expected_allow_p2p_for_sharing ""); // expected_p2p_url } TEST_F(OmahaRequestActionTest, P2PWithPeerDownloadDisabledByOmaha) { P2PTest(true, // initial_allow_p2p_for_downloading true, // initial_allow_p2p_for_sharing true, // omaha_disable_p2p_for_downloading false, // omaha_disable_p2p_for_sharing true, // payload_state_allow_p2p_attempt false, // expect_p2p_client_lookup "unset", // p2p_client_result_url false, // expected_allow_p2p_for_downloading true, // expected_allow_p2p_for_sharing ""); // expected_p2p_url } TEST_F(OmahaRequestActionTest, P2PWithPeerSharingDisabledByOmaha) { P2PTest(true, // initial_allow_p2p_for_downloading true, // initial_allow_p2p_for_sharing false, // omaha_disable_p2p_for_downloading true, // omaha_disable_p2p_for_sharing true, // payload_state_allow_p2p_attempt true, // expect_p2p_client_lookup "http://1.3.5.7/p2p", // p2p_client_result_url true, // expected_allow_p2p_for_downloading false, // expected_allow_p2p_for_sharing "http://1.3.5.7/p2p"); // expected_p2p_url } TEST_F(OmahaRequestActionTest, P2PWithPeerBothDisabledByOmaha) { P2PTest(true, // initial_allow_p2p_for_downloading true, // initial_allow_p2p_for_sharing true, // omaha_disable_p2p_for_downloading true, // omaha_disable_p2p_for_sharing true, // payload_state_allow_p2p_attempt false, // expect_p2p_client_lookup "unset", // p2p_client_result_url false, // expected_allow_p2p_for_downloading false, // expected_allow_p2p_for_sharing ""); // expected_p2p_url } bool OmahaRequestActionTest::InstallDateParseHelper(const string& elapsed_days, OmahaResponse* response) { fake_update_response_.elapsed_days = elapsed_days; return TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kUpdating, metrics::DownloadErrorCode::kUnset, response, nullptr); } TEST_F(OmahaRequestActionTest, ParseInstallDateFromResponse) { OmahaResponse response; // Simulate a successful update check that happens during OOBE. The // deadline in the response is needed to force the update attempt to // occur; responses without a deadline seen during OOBE will normally // return ErrorCode::kNonCriticalUpdateInOOBE. fake_system_state_.fake_hardware()->UnsetIsOOBEComplete(); fake_update_response_.deadline = "20101020"; // Check that we parse elapsed_days in the Omaha Response correctly. // and that the kPrefsInstallDateDays value is written to. EXPECT_FALSE(fake_prefs_.Exists(kPrefsInstallDateDays)); EXPECT_TRUE(InstallDateParseHelper("42", &response)); EXPECT_TRUE(response.update_exists); EXPECT_EQ(42, response.install_date_days); EXPECT_TRUE(fake_prefs_.Exists(kPrefsInstallDateDays)); int64_t prefs_days; EXPECT_TRUE(fake_prefs_.GetInt64(kPrefsInstallDateDays, &prefs_days)); EXPECT_EQ(prefs_days, 42); // If there already is a value set, we shouldn't do anything. EXPECT_TRUE(InstallDateParseHelper("7", &response)); EXPECT_TRUE(response.update_exists); EXPECT_EQ(7, response.install_date_days); EXPECT_TRUE(fake_prefs_.GetInt64(kPrefsInstallDateDays, &prefs_days)); EXPECT_EQ(prefs_days, 42); // Note that elapsed_days is not necessarily divisible by 7 so check // that we round down correctly when populating kPrefsInstallDateDays. EXPECT_TRUE(fake_prefs_.Delete(kPrefsInstallDateDays)); EXPECT_TRUE(InstallDateParseHelper("23", &response)); EXPECT_TRUE(response.update_exists); EXPECT_EQ(23, response.install_date_days); EXPECT_TRUE(fake_prefs_.GetInt64(kPrefsInstallDateDays, &prefs_days)); EXPECT_EQ(prefs_days, 21); // Check that we correctly handle elapsed_days not being included in // the Omaha Response. EXPECT_TRUE(InstallDateParseHelper("", &response)); EXPECT_TRUE(response.update_exists); EXPECT_EQ(-1, response.install_date_days); } // If there is no prefs and OOBE is not complete, we should not // report anything to Omaha. TEST_F(OmahaRequestActionTest, GetInstallDateWhenNoPrefsNorOOBE) { fake_system_state_.fake_hardware()->UnsetIsOOBEComplete(); EXPECT_EQ(OmahaRequestAction::GetInstallDate(&fake_system_state_), -1); EXPECT_FALSE(fake_prefs_.Exists(kPrefsInstallDateDays)); } // If OOBE is complete and happened on a valid date (e.g. after Jan // 1 2007 0:00 PST), that date should be used and written to // prefs. However, first try with an invalid date and check we do // nothing. TEST_F(OmahaRequestActionTest, GetInstallDateWhenOOBECompletedWithInvalidDate) { Time oobe_date = Time::FromTimeT(42); // Dec 31, 1969 16:00:42 PST. fake_system_state_.fake_hardware()->SetIsOOBEComplete(oobe_date); EXPECT_EQ(OmahaRequestAction::GetInstallDate(&fake_system_state_), -1); EXPECT_FALSE(fake_prefs_.Exists(kPrefsInstallDateDays)); } // Then check with a valid date. The date Jan 20, 2007 0:00 PST // should yield an InstallDate of 14. TEST_F(OmahaRequestActionTest, GetInstallDateWhenOOBECompletedWithValidDate) { Time oobe_date = Time::FromTimeT(1169280000); // Jan 20, 2007 0:00 PST. fake_system_state_.fake_hardware()->SetIsOOBEComplete(oobe_date); EXPECT_EQ(OmahaRequestAction::GetInstallDate(&fake_system_state_), 14); EXPECT_TRUE(fake_prefs_.Exists(kPrefsInstallDateDays)); int64_t prefs_days; EXPECT_TRUE(fake_prefs_.GetInt64(kPrefsInstallDateDays, &prefs_days)); EXPECT_EQ(prefs_days, 14); } // Now that we have a valid date in prefs, check that we keep using // that even if OOBE date reports something else. The date Jan 30, // 2007 0:00 PST should yield an InstallDate of 28... but since // there's a prefs file, we should still get 14. TEST_F(OmahaRequestActionTest, GetInstallDateWhenOOBECompletedDateChanges) { // Set a valid date in the prefs first. EXPECT_TRUE(fake_prefs_.SetInt64(kPrefsInstallDateDays, 14)); Time oobe_date = Time::FromTimeT(1170144000); // Jan 30, 2007 0:00 PST. fake_system_state_.fake_hardware()->SetIsOOBEComplete(oobe_date); EXPECT_EQ(OmahaRequestAction::GetInstallDate(&fake_system_state_), 14); int64_t prefs_days; EXPECT_TRUE(fake_prefs_.GetInt64(kPrefsInstallDateDays, &prefs_days)); EXPECT_EQ(prefs_days, 14); // If we delete the prefs file, we should get 28 days. EXPECT_TRUE(fake_prefs_.Delete(kPrefsInstallDateDays)); EXPECT_EQ(OmahaRequestAction::GetInstallDate(&fake_system_state_), 28); EXPECT_TRUE(fake_prefs_.GetInt64(kPrefsInstallDateDays, &prefs_days)); EXPECT_EQ(prefs_days, 28); } // Verifies that a device with no device policy, and is not a consumer // device sets the max kernel key version to the current version. // ie. the same behavior as if rollback is enabled. TEST_F(OmahaRequestActionTest, NoPolicyEnterpriseDevicesSetMaxRollback) { FakeHardware* fake_hw = fake_system_state_.fake_hardware(); // Setup and verify some initial default values for the kernel TPM // values that control verified boot and rollback. const int min_kernel_version = 4; fake_hw->SetMinKernelKeyVersion(min_kernel_version); fake_hw->SetMaxKernelKeyRollforward(kRollforwardInfinity); EXPECT_EQ(min_kernel_version, fake_hw->GetMinKernelKeyVersion()); EXPECT_EQ(kRollforwardInfinity, fake_hw->GetMaxKernelKeyRollforward()); EXPECT_CALL( *fake_system_state_.mock_metrics_reporter(), ReportKeyVersionMetrics(min_kernel_version, min_kernel_version, true)) .Times(1); OmahaResponse response; TestRollbackCheck(false /* is_consumer_device */, 3 /* rollback_allowed_milestones */, false /* is_policy_loaded */, &response); // Verify kernel_max_rollforward was set to the current minimum // kernel key version. This has the effect of freezing roll // forwards indefinitely. This will hold the rollback window // open until a future change will be able to move this forward // relative the configured window. EXPECT_EQ(min_kernel_version, fake_hw->GetMinKernelKeyVersion()); EXPECT_EQ(min_kernel_version, fake_hw->GetMaxKernelKeyRollforward()); } // Verifies that a conmsumer device with no device policy sets the // max kernel key version to the current version. ie. the same // behavior as if rollback is enabled. TEST_F(OmahaRequestActionTest, NoPolicyConsumerDevicesSetMaxRollback) { FakeHardware* fake_hw = fake_system_state_.fake_hardware(); // Setup and verify some initial default values for the kernel TPM // values that control verified boot and rollback. const int min_kernel_version = 3; fake_hw->SetMinKernelKeyVersion(min_kernel_version); fake_hw->SetMaxKernelKeyRollforward(kRollforwardInfinity); EXPECT_EQ(min_kernel_version, fake_hw->GetMinKernelKeyVersion()); EXPECT_EQ(kRollforwardInfinity, fake_hw->GetMaxKernelKeyRollforward()); EXPECT_CALL( *fake_system_state_.mock_metrics_reporter(), ReportKeyVersionMetrics(min_kernel_version, kRollforwardInfinity, true)) .Times(1); OmahaResponse response; TestRollbackCheck(true /* is_consumer_device */, 3 /* rollback_allowed_milestones */, false /* is_policy_loaded */, &response); // Verify that with rollback disabled that kernel_max_rollforward // was set to logical infinity. This is the expected behavior for // consumer devices and matches the existing behavior prior to the // rollback features. EXPECT_EQ(min_kernel_version, fake_hw->GetMinKernelKeyVersion()); EXPECT_EQ(kRollforwardInfinity, fake_hw->GetMaxKernelKeyRollforward()); } // Verifies that a device with rollback enabled sets kernel_max_rollforward // in the TPM to prevent roll forward. TEST_F(OmahaRequestActionTest, RollbackEnabledDevicesSetMaxRollback) { FakeHardware* fake_hw = fake_system_state_.fake_hardware(); // Setup and verify some initial default values for the kernel TPM // values that control verified boot and rollback. const int allowed_milestones = 4; const int min_kernel_version = 3; fake_hw->SetMinKernelKeyVersion(min_kernel_version); fake_hw->SetMaxKernelKeyRollforward(kRollforwardInfinity); EXPECT_EQ(min_kernel_version, fake_hw->GetMinKernelKeyVersion()); EXPECT_EQ(kRollforwardInfinity, fake_hw->GetMaxKernelKeyRollforward()); EXPECT_CALL( *fake_system_state_.mock_metrics_reporter(), ReportKeyVersionMetrics(min_kernel_version, min_kernel_version, true)) .Times(1); OmahaResponse response; TestRollbackCheck(false /* is_consumer_device */, allowed_milestones, true /* is_policy_loaded */, &response); // Verify that with rollback enabled that kernel_max_rollforward // was set to the current minimum kernel key version. This has // the effect of freezing roll forwards indefinitely. This will // hold the rollback window open until a future change will // be able to move this forward relative the configured window. EXPECT_EQ(min_kernel_version, fake_hw->GetMinKernelKeyVersion()); EXPECT_EQ(min_kernel_version, fake_hw->GetMaxKernelKeyRollforward()); } // Verifies that a device with rollback disabled sets kernel_max_rollforward // in the TPM to logical infinity, to allow roll forward. TEST_F(OmahaRequestActionTest, RollbackDisabledDevicesSetMaxRollback) { FakeHardware* fake_hw = fake_system_state_.fake_hardware(); // Setup and verify some initial default values for the kernel TPM // values that control verified boot and rollback. const int allowed_milestones = 0; const int min_kernel_version = 3; fake_hw->SetMinKernelKeyVersion(min_kernel_version); fake_hw->SetMaxKernelKeyRollforward(kRollforwardInfinity); EXPECT_EQ(min_kernel_version, fake_hw->GetMinKernelKeyVersion()); EXPECT_EQ(kRollforwardInfinity, fake_hw->GetMaxKernelKeyRollforward()); EXPECT_CALL( *fake_system_state_.mock_metrics_reporter(), ReportKeyVersionMetrics(min_kernel_version, kRollforwardInfinity, true)) .Times(1); OmahaResponse response; TestRollbackCheck(false /* is_consumer_device */, allowed_milestones, true /* is_policy_loaded */, &response); // Verify that with rollback disabled that kernel_max_rollforward // was set to logical infinity. EXPECT_EQ(min_kernel_version, fake_hw->GetMinKernelKeyVersion()); EXPECT_EQ(kRollforwardInfinity, fake_hw->GetMaxKernelKeyRollforward()); } TEST_F(OmahaRequestActionTest, RollbackResponseParsedNoEntries) { OmahaResponse response; fake_update_response_.rollback = true; TestRollbackCheck(false /* is_consumer_device */, 4 /* rollback_allowed_milestones */, true /* is_policy_loaded */, &response); EXPECT_TRUE(response.is_rollback); } TEST_F(OmahaRequestActionTest, RollbackResponseValidVersionsParsed) { OmahaResponse response; fake_update_response_.rollback_firmware_version = "1.2"; fake_update_response_.rollback_kernel_version = "3.4"; fake_update_response_.rollback = true; TestRollbackCheck(false /* is_consumer_device */, 4 /* rollback_allowed_milestones */, true /* is_policy_loaded */, &response); EXPECT_TRUE(response.is_rollback); EXPECT_EQ(1, response.rollback_key_version.firmware_key); EXPECT_EQ(2, response.rollback_key_version.firmware); EXPECT_EQ(3, response.rollback_key_version.kernel_key); EXPECT_EQ(4, response.rollback_key_version.kernel); } TEST_F(OmahaRequestActionTest, TestUpdateFirstSeenAtPrefPersistedIfUpdateExists) { FakeClock fake_clock; Time now = Time::Now(); fake_clock.SetWallclockTime(now); fake_system_state_.set_clock(&fake_clock); OmahaResponse response; ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kUpdating, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_TRUE(response.update_exists); EXPECT_TRUE(fake_prefs_.Exists(kPrefsUpdateFirstSeenAt)); int64_t stored_first_seen_at_time; EXPECT_TRUE(fake_prefs_.GetInt64(kPrefsUpdateFirstSeenAt, &stored_first_seen_at_time)); EXPECT_EQ(now.ToInternalValue(), stored_first_seen_at_time); } TEST_F(OmahaRequestActionTest, TestUpdateFirstSeenAtPrefNotPersistedIfUpdateFails) { FakeClock fake_clock; Time now = Time::Now(); fake_clock.SetWallclockTime(now); fake_system_state_.set_clock(&fake_clock); OmahaResponse response; ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetNoUpdateResponse(), -1, false, // ping_only ErrorCode::kSuccess, metrics::CheckResult::kNoUpdateAvailable, metrics::CheckReaction::kUnset, metrics::DownloadErrorCode::kUnset, &response, nullptr)); EXPECT_FALSE(response.update_exists); EXPECT_FALSE(fake_prefs_.Exists(kPrefsUpdateFirstSeenAt)); } TEST_F(OmahaRequestActionTest, InstallTest) { OmahaResponse response; request_params_.set_is_install(true); request_params_.set_dlc_module_ids({"dlc_no_0", "dlc_no_1"}); brillo::Blob post_data; ASSERT_TRUE(TestUpdateCheck(fake_update_response_.GetUpdateResponse(), -1, false, // ping_only true, // is_consumer_device 0, // rollback_allowed_milestones false, // is_policy_loaded ErrorCode::kSuccess, metrics::CheckResult::kUpdateAvailable, metrics::CheckReaction::kUpdating, metrics::DownloadErrorCode::kUnset, &response, &post_data)); // Convert post_data to string. string post_str(post_data.begin(), post_data.end()); for (const auto& dlc_module_id : request_params_.dlc_module_ids()) { EXPECT_NE(string::npos, post_str.find("appid=\"" + fake_update_response_.app_id + "_" + dlc_module_id + "\"")); } EXPECT_NE(string::npos, post_str.find("appid=\"" + fake_update_response_.app_id + "\"")); // Count number of updatecheck tag in response. int updatecheck_count = 0; size_t pos = 0; while ((pos = post_str.find("