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2025-07-31 065ea569db06206874bbfa18eb25ff6121aec09b 
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//


// Copyright (C) 2014 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/update_manager/real_device_policy_provider.h"


 


#include <memory>


#include <vector>


 


#include <base/memory/ptr_util.h>


#include <brillo/message_loops/fake_message_loop.h>


#include <brillo/message_loops/message_loop.h>


#include <brillo/message_loops/message_loop_utils.h>


#include <gmock/gmock.h>


#include <gtest/gtest.h>


#include <policy/mock_device_policy.h>


#include <policy/mock_libpolicy.h>


#if USE_DBUS


#include <session_manager/dbus-proxies.h>


#include <session_manager/dbus-proxy-mocks.h>


#endif  // USE_DBUS


 


#include "update_engine/common/test_utils.h"


#if USE_DBUS


#include "update_engine/dbus_test_utils.h"


#endif  // USE_DBUS


#include "update_engine/update_manager/umtest_utils.h"


 


using base::TimeDelta;


using brillo::MessageLoop;


using chromeos_update_engine::ConnectionType;


using policy::DevicePolicy;


#if USE_DBUS


using chromeos_update_engine::dbus_test_utils::MockSignalHandler;


#endif  // USE_DBUS


using std::set;


using std::string;


using std::unique_ptr;


using std::vector;


using testing::_;


using testing::DoAll;


using testing::Mock;


using testing::Return;


using testing::ReturnRef;


using testing::SetArgPointee;


 


namespace chromeos_update_manager {


 


class UmRealDevicePolicyProviderTest : public ::testing::Test {


 protected:


  void SetUp() override {


    loop_.SetAsCurrent();


#if USE_DBUS


    auto session_manager_proxy_mock =


        new org::chromium::SessionManagerInterfaceProxyMock();


    provider_.reset(new RealDevicePolicyProvider(


        base::WrapUnique(session_manager_proxy_mock), &mock_policy_provider_));


#else


    provider_.reset(new RealDevicePolicyProvider(&mock_policy_provider_));


#endif  // USE_DBUS


    // By default, we have a device policy loaded. Tests can call


    // SetUpNonExistentDevicePolicy() to override this.


    SetUpExistentDevicePolicy();


 


#if USE_DBUS


    // Setup the session manager_proxy such that it will accept the signal


    // handler and store it in the |property_change_complete_| once registered.


    MOCK_SIGNAL_HANDLER_EXPECT_SIGNAL_HANDLER(property_change_complete_,


                                              *session_manager_proxy_mock,


                                              PropertyChangeComplete);


#endif  // USE_DBUS


  }


 


  void TearDown() override {


    provider_.reset();


    // Check for leaked callbacks on the main loop.


    EXPECT_FALSE(loop_.PendingTasks());


  }


 


  void SetUpNonExistentDevicePolicy() {


    ON_CALL(mock_policy_provider_, Reload()).WillByDefault(Return(false));


    ON_CALL(mock_policy_provider_, device_policy_is_loaded())


        .WillByDefault(Return(false));


    EXPECT_CALL(mock_policy_provider_, GetDevicePolicy()).Times(0);


  }


 


  void SetUpExistentDevicePolicy() {


    // Setup the default behavior of the mocked PolicyProvider.


    ON_CALL(mock_policy_provider_, Reload()).WillByDefault(Return(true));


    ON_CALL(mock_policy_provider_, device_policy_is_loaded())


        .WillByDefault(Return(true));


    ON_CALL(mock_policy_provider_, GetDevicePolicy())


        .WillByDefault(ReturnRef(mock_device_policy_));


  }


 


  brillo::FakeMessageLoop loop_{nullptr};


  testing::NiceMock<policy::MockDevicePolicy> mock_device_policy_;


  testing::NiceMock<policy::MockPolicyProvider> mock_policy_provider_;


  unique_ptr<RealDevicePolicyProvider> provider_;


 


#if USE_DBUS


  // The registered signal handler for the signal.


  MockSignalHandler<void(const string&)> property_change_complete_;


#endif  // USE_DBUS


};


 


TEST_F(UmRealDevicePolicyProviderTest, RefreshScheduledTest) {


  // Check that the RefreshPolicy gets scheduled by checking the TaskId.


  EXPECT_TRUE(provider_->Init());


  EXPECT_NE(MessageLoop::kTaskIdNull, provider_->scheduled_refresh_);


  loop_.RunOnce(false);


}


 


TEST_F(UmRealDevicePolicyProviderTest, FirstReload) {


  // Checks that the policy is reloaded and the DevicePolicy is consulted twice:


  // once on Init() and once again when the signal is connected.


  EXPECT_CALL(mock_policy_provider_, Reload());


  EXPECT_TRUE(provider_->Init());


  Mock::VerifyAndClearExpectations(&mock_policy_provider_);


  // We won't be notified that signal is connected without DBus.


#if USE_DBUS


  EXPECT_CALL(mock_policy_provider_, Reload());


#endif  // USE_DBUS


  loop_.RunOnce(false);


}


 


TEST_F(UmRealDevicePolicyProviderTest, NonExistentDevicePolicyReloaded) {


  // Checks that the policy is reloaded by RefreshDevicePolicy().


  SetUpNonExistentDevicePolicy();


  // We won't be notified that signal is connected without DBus.


#if USE_DBUS


  EXPECT_CALL(mock_policy_provider_, Reload()).Times(3);


#else


  EXPECT_CALL(mock_policy_provider_, Reload()).Times(2);


#endif  // USE_DBUS


  EXPECT_TRUE(provider_->Init());


  loop_.RunOnce(false);


  // Force the policy refresh.


  provider_->RefreshDevicePolicy();


}


 


#if USE_DBUS


TEST_F(UmRealDevicePolicyProviderTest, SessionManagerSignalForcesReload) {


  // Checks that a signal from the SessionManager forces a reload.


  SetUpNonExistentDevicePolicy();


  EXPECT_CALL(mock_policy_provider_, Reload()).Times(2);


  EXPECT_TRUE(provider_->Init());


  loop_.RunOnce(false);


  Mock::VerifyAndClearExpectations(&mock_policy_provider_);


 


  EXPECT_CALL(mock_policy_provider_, Reload());


  ASSERT_TRUE(property_change_complete_.IsHandlerRegistered());


  property_change_complete_.signal_callback().Run("success");


}


#endif  // USE_DBUS


 


TEST_F(UmRealDevicePolicyProviderTest, NonExistentDevicePolicyEmptyVariables) {


  SetUpNonExistentDevicePolicy();


  EXPECT_CALL(mock_policy_provider_, GetDevicePolicy()).Times(0);


  EXPECT_TRUE(provider_->Init());


  loop_.RunOnce(false);


 


  UmTestUtils::ExpectVariableHasValue(false,


                                      provider_->var_device_policy_is_loaded());


 


  UmTestUtils::ExpectVariableNotSet(provider_->var_release_channel());


  UmTestUtils::ExpectVariableNotSet(provider_->var_release_channel_delegated());


  UmTestUtils::ExpectVariableNotSet(provider_->var_update_disabled());


  UmTestUtils::ExpectVariableNotSet(provider_->var_target_version_prefix());


  UmTestUtils::ExpectVariableNotSet(


      provider_->var_rollback_to_target_version());


  UmTestUtils::ExpectVariableNotSet(


      provider_->var_rollback_allowed_milestones());


  UmTestUtils::ExpectVariableNotSet(provider_->var_scatter_factor());


  UmTestUtils::ExpectVariableNotSet(


      provider_->var_allowed_connection_types_for_update());


  UmTestUtils::ExpectVariableNotSet(provider_->var_owner());


  UmTestUtils::ExpectVariableNotSet(provider_->var_http_downloads_enabled());


  UmTestUtils::ExpectVariableNotSet(provider_->var_au_p2p_enabled());


  UmTestUtils::ExpectVariableNotSet(


      provider_->var_allow_kiosk_app_control_chrome_version());


  UmTestUtils::ExpectVariableNotSet(


      provider_->var_auto_launched_kiosk_app_id());


  UmTestUtils::ExpectVariableNotSet(provider_->var_disallowed_time_intervals());


}


 


TEST_F(UmRealDevicePolicyProviderTest, ValuesUpdated) {


  SetUpNonExistentDevicePolicy();


  EXPECT_TRUE(provider_->Init());


  loop_.RunOnce(false);


  Mock::VerifyAndClearExpectations(&mock_policy_provider_);


 


  // Reload the policy with a good one and set some values as present. The


  // remaining values are false.


  SetUpExistentDevicePolicy();


  EXPECT_CALL(mock_device_policy_, GetReleaseChannel(_))


      .WillOnce(DoAll(SetArgPointee<0>(string("mychannel")), Return(true)));


  EXPECT_CALL(mock_device_policy_, GetAllowedConnectionTypesForUpdate(_))


      .WillOnce(Return(false));


  EXPECT_CALL(mock_device_policy_, GetAllowKioskAppControlChromeVersion(_))


      .WillOnce(DoAll(SetArgPointee<0>(true), Return(true)));


  EXPECT_CALL(mock_device_policy_, GetAutoLaunchedKioskAppId(_))


      .WillOnce(DoAll(SetArgPointee<0>(string("myapp")), Return(true)));


 


  provider_->RefreshDevicePolicy();


 


  UmTestUtils::ExpectVariableHasValue(true,


                                      provider_->var_device_policy_is_loaded());


 


  // Test that at least one variable is set, to ensure the refresh occurred.


  UmTestUtils::ExpectVariableHasValue(string("mychannel"),


                                      provider_->var_release_channel());


  UmTestUtils::ExpectVariableNotSet(


      provider_->var_allowed_connection_types_for_update());


  UmTestUtils::ExpectVariableHasValue(


      true, provider_->var_allow_kiosk_app_control_chrome_version());


  UmTestUtils::ExpectVariableHasValue(


      string("myapp"), provider_->var_auto_launched_kiosk_app_id());


}


 


TEST_F(UmRealDevicePolicyProviderTest, RollbackToTargetVersionConverted) {


  SetUpExistentDevicePolicy();


  EXPECT_CALL(mock_device_policy_, GetRollbackToTargetVersion(_))


#if USE_DBUS


      .Times(2)


#else


      .Times(1)


#endif  // USE_DBUS


      .WillRepeatedly(DoAll(SetArgPointee<0>(2), Return(true)));


  EXPECT_TRUE(provider_->Init());


  loop_.RunOnce(false);


 


  UmTestUtils::ExpectVariableHasValue(


      RollbackToTargetVersion::kRollbackAndPowerwash,


      provider_->var_rollback_to_target_version());


}


 


TEST_F(UmRealDevicePolicyProviderTest, RollbackAllowedMilestonesOobe) {


  SetUpNonExistentDevicePolicy();


  EXPECT_CALL(mock_device_policy_, GetRollbackAllowedMilestones(_)).Times(0);


  ON_CALL(mock_policy_provider_, IsConsumerDevice())


      .WillByDefault(Return(false));


  EXPECT_TRUE(provider_->Init());


  loop_.RunOnce(false);


 


  UmTestUtils::ExpectVariableNotSet(


      provider_->var_rollback_allowed_milestones());


}


 


TEST_F(UmRealDevicePolicyProviderTest, RollbackAllowedMilestonesConsumer) {


  SetUpNonExistentDevicePolicy();


  EXPECT_CALL(mock_device_policy_, GetRollbackAllowedMilestones(_)).Times(0);


  ON_CALL(mock_policy_provider_, IsConsumerDevice())


      .WillByDefault(Return(true));


  EXPECT_TRUE(provider_->Init());


  loop_.RunOnce(false);


 


  UmTestUtils::ExpectVariableHasValue(


      0, provider_->var_rollback_allowed_milestones());


}


 


TEST_F(UmRealDevicePolicyProviderTest,


       RollbackAllowedMilestonesEnterprisePolicySet) {


  SetUpExistentDevicePolicy();


  ON_CALL(mock_device_policy_, GetRollbackAllowedMilestones(_))


      .WillByDefault(DoAll(SetArgPointee<0>(2), Return(true)));


  ON_CALL(mock_policy_provider_, IsConsumerDevice())


      .WillByDefault(Return(false));


  EXPECT_TRUE(provider_->Init());


  loop_.RunOnce(false);


 


  UmTestUtils::ExpectVariableHasValue(


      2, provider_->var_rollback_allowed_milestones());


}


 


TEST_F(UmRealDevicePolicyProviderTest, ScatterFactorConverted) {


  SetUpExistentDevicePolicy();


  EXPECT_CALL(mock_device_policy_, GetScatterFactorInSeconds(_))


#if USE_DBUS


      .Times(2)


#else


      .Times(1)


#endif  // USE_DBUS


      .WillRepeatedly(DoAll(SetArgPointee<0>(1234), Return(true)));


  EXPECT_TRUE(provider_->Init());


  loop_.RunOnce(false);


 


  UmTestUtils::ExpectVariableHasValue(TimeDelta::FromSeconds(1234),


                                      provider_->var_scatter_factor());


}


 


TEST_F(UmRealDevicePolicyProviderTest, NegativeScatterFactorIgnored) {


  SetUpExistentDevicePolicy();


  EXPECT_CALL(mock_device_policy_, GetScatterFactorInSeconds(_))


#if USE_DBUS


      .Times(2)


#else


      .Times(1)


#endif  // USE_DBUS


      .WillRepeatedly(DoAll(SetArgPointee<0>(-1), Return(true)));


  EXPECT_TRUE(provider_->Init());


  loop_.RunOnce(false);


 


  UmTestUtils::ExpectVariableNotSet(provider_->var_scatter_factor());


}


 


TEST_F(UmRealDevicePolicyProviderTest, AllowedTypesConverted) {


  SetUpExistentDevicePolicy();


  EXPECT_CALL(mock_device_policy_, GetAllowedConnectionTypesForUpdate(_))


#if USE_DBUS


      .Times(2)


#else


      .Times(1)


#endif  // USE_DBUS


      .WillRepeatedly(DoAll(


          SetArgPointee<0>(set<string>{"bluetooth", "wifi", "not-a-type"}),


          Return(true)));


  EXPECT_TRUE(provider_->Init());


  loop_.RunOnce(false);


 


  UmTestUtils::ExpectVariableHasValue(


      set<ConnectionType>{ConnectionType::kWifi, ConnectionType::kBluetooth},


      provider_->var_allowed_connection_types_for_update());


}


 


TEST_F(UmRealDevicePolicyProviderTest, DisallowedIntervalsConverted) {


  SetUpExistentDevicePolicy();


 


  vector<DevicePolicy::WeeklyTimeInterval> intervals = {


      {5, TimeDelta::FromHours(5), 6, TimeDelta::FromHours(8)},


      {1, TimeDelta::FromHours(1), 3, TimeDelta::FromHours(10)}};


 


  EXPECT_CALL(mock_device_policy_, GetDisallowedTimeIntervals(_))


      .WillRepeatedly(DoAll(SetArgPointee<0>(intervals), Return(true)));


  EXPECT_TRUE(provider_->Init());


  loop_.RunOnce(false);


 


  UmTestUtils::ExpectVariableHasValue(


      WeeklyTimeIntervalVector{


          WeeklyTimeInterval(WeeklyTime(5, TimeDelta::FromHours(5)),


                             WeeklyTime(6, TimeDelta::FromHours(8))),


          WeeklyTimeInterval(WeeklyTime(1, TimeDelta::FromHours(1)),


                             WeeklyTime(3, TimeDelta::FromHours(10)))},


      provider_->var_disallowed_time_intervals());


}


 


}  // namespace chromeos_update_manager