connection_manager_unittest.cc - platform/system/update_engine - Gitiles

 //
 // 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/connection_manager.h"

 #include <set>
 #include <string>

 #include <base/logging.h>
 #include <brillo/any.h>
 #include <brillo/make_unique_ptr.h>
 #include <brillo/message_loops/fake_message_loop.h>
 #include <brillo/variant_dictionary.h>
 #include <gmock/gmock.h>
 #include <gtest/gtest.h>
 #include <shill/dbus-constants.h>
 #include <shill/dbus-proxies.h>
 #include <shill/dbus-proxy-mocks.h>

 #include "update_engine/common/test_utils.h"
 #include "update_engine/fake_shill_proxy.h"
 #include "update_engine/fake_system_state.h"

 using chromeos_update_engine::connection_utils::StringForConnectionType;
 using org::chromium::flimflam::ManagerProxyMock;
 using org::chromium::flimflam::ServiceProxyMock;
 using std::set;
 using std::string;
 using testing::Return;
 using testing::SetArgPointee;
 using testing::_;

 namespace chromeos_update_engine {

 class ConnectionManagerTest : public ::testing::Test {
  public:
   ConnectionManagerTest() : fake_shill_proxy_(new FakeShillProxy()) {}

   void SetUp() override {
     loop_.SetAsCurrent();
     fake_system_state_.set_connection_manager(&cmut_);
   }

   void TearDown() override { EXPECT_FALSE(loop_.PendingTasks()); }

  protected:
   // Sets the default_service object path in the response from the
   // ManagerProxyMock instance.
   void SetManagerReply(const char* default_service, bool reply_succeeds);

   // Sets the |service_type|, |physical_technology| and |service_tethering|
   // properties in the mocked service |service_path|. If any of the three
   // const char* is a nullptr, the corresponding property will not be included
   // in the response.
   void SetServiceReply(const string& service_path,
                        const char* service_type,
                        const char* physical_technology,
                        const char* service_tethering);

   void TestWithServiceType(
       const char* service_type,
       const char* physical_technology,
       ConnectionType expected_type);
   void TestWithServiceTethering(
       const char* service_tethering,
       ConnectionTethering expected_tethering);

   brillo::FakeMessageLoop loop_{nullptr};
   FakeSystemState fake_system_state_;
   FakeShillProxy* fake_shill_proxy_;

   // ConnectionManager under test.
   ConnectionManager cmut_{fake_shill_proxy_, &fake_system_state_};
 };

 void ConnectionManagerTest::SetManagerReply(const char* default_service,
                                             bool reply_succeeds) {
   ManagerProxyMock* manager_proxy_mock = fake_shill_proxy_->GetManagerProxy();
   if (!reply_succeeds) {
     EXPECT_CALL(*manager_proxy_mock, GetProperties(_, _, _))
         .WillOnce(Return(false));
     return;
   }

   // Create a dictionary of properties and optionally include the default
   // service.
   brillo::VariantDictionary reply_dict;
   reply_dict["SomeOtherProperty"] = 0xC0FFEE;

   if (default_service) {
     reply_dict[shill::kDefaultServiceProperty] =
         dbus::ObjectPath(default_service);
   }
   EXPECT_CALL(*manager_proxy_mock, GetProperties(_, _, _))
       .WillOnce(DoAll(SetArgPointee<0>(reply_dict), Return(true)));
 }

 void ConnectionManagerTest::SetServiceReply(const string& service_path,
                                             const char* service_type,
                                             const char* physical_technology,
                                             const char* service_tethering) {
   brillo::VariantDictionary reply_dict;
   reply_dict["SomeOtherProperty"] = 0xC0FFEE;

   if (service_type)
     reply_dict[shill::kTypeProperty] = string(service_type);

   if (physical_technology) {
     reply_dict[shill::kPhysicalTechnologyProperty] =
         string(physical_technology);
   }

   if (service_tethering)
     reply_dict[shill::kTetheringProperty] = string(service_tethering);

   std::unique_ptr<ServiceProxyMock> service_proxy_mock(new ServiceProxyMock());

   // Plumb return value into mock object.
   EXPECT_CALL(*service_proxy_mock.get(), GetProperties(_, _, _))
       .WillOnce(DoAll(SetArgPointee<0>(reply_dict), Return(true)));

   fake_shill_proxy_->SetServiceForPath(dbus::ObjectPath(service_path),
                                        std::move(service_proxy_mock));
 }

 void ConnectionManagerTest::TestWithServiceType(
     const char* service_type,
     const char* physical_technology,
     ConnectionType expected_type) {
   SetManagerReply("/service/guest/network", true);
   SetServiceReply("/service/guest/network",
                   service_type,
                   physical_technology,
                   shill::kTetheringNotDetectedState);

   ConnectionType type;
   ConnectionTethering tethering;
   EXPECT_TRUE(cmut_.GetConnectionProperties(&type, &tethering));
   EXPECT_EQ(expected_type, type);
   testing::Mock::VerifyAndClearExpectations(
       fake_shill_proxy_->GetManagerProxy());
 }

 void ConnectionManagerTest::TestWithServiceTethering(
     const char* service_tethering,
     ConnectionTethering expected_tethering) {
   SetManagerReply("/service/guest/network", true);
   SetServiceReply(
       "/service/guest/network", shill::kTypeWifi, nullptr, service_tethering);

   ConnectionType type;
   ConnectionTethering tethering;
   EXPECT_TRUE(cmut_.GetConnectionProperties(&type, &tethering));
   EXPECT_EQ(expected_tethering, tethering);
   testing::Mock::VerifyAndClearExpectations(
       fake_shill_proxy_->GetManagerProxy());
 }

 TEST_F(ConnectionManagerTest, SimpleTest) {
   TestWithServiceType(shill::kTypeEthernet, nullptr, ConnectionType::kEthernet);
   TestWithServiceType(shill::kTypeWifi, nullptr, ConnectionType::kWifi);
   TestWithServiceType(shill::kTypeWimax, nullptr, ConnectionType::kWimax);
   TestWithServiceType(
       shill::kTypeBluetooth, nullptr, ConnectionType::kBluetooth);
   TestWithServiceType(shill::kTypeCellular, nullptr, ConnectionType::kCellular);
 }

 TEST_F(ConnectionManagerTest, PhysicalTechnologyTest) {
   TestWithServiceType(shill::kTypeVPN, nullptr, ConnectionType::kUnknown);
   TestWithServiceType(
       shill::kTypeVPN, shill::kTypeVPN, ConnectionType::kUnknown);
   TestWithServiceType(shill::kTypeVPN, shill::kTypeWifi, ConnectionType::kWifi);
   TestWithServiceType(
       shill::kTypeVPN, shill::kTypeWimax, ConnectionType::kWimax);
 }

 TEST_F(ConnectionManagerTest, TetheringTest) {
   TestWithServiceTethering(shill::kTetheringConfirmedState,
                            ConnectionTethering::kConfirmed);
   TestWithServiceTethering(shill::kTetheringNotDetectedState,
                            ConnectionTethering::kNotDetected);
   TestWithServiceTethering(shill::kTetheringSuspectedState,
                            ConnectionTethering::kSuspected);
   TestWithServiceTethering("I'm not a valid property value =)",
                            ConnectionTethering::kUnknown);
 }

 TEST_F(ConnectionManagerTest, UnknownTest) {
   TestWithServiceType("foo", nullptr, ConnectionType::kUnknown);
 }

 TEST_F(ConnectionManagerTest, AllowUpdatesOverEthernetTest) {
   // Updates over Ethernet are allowed even if there's no policy.
   EXPECT_TRUE(cmut_.IsUpdateAllowedOver(ConnectionType::kEthernet,
                                         ConnectionTethering::kUnknown));
 }

 TEST_F(ConnectionManagerTest, AllowUpdatesOverWifiTest) {
   EXPECT_TRUE(cmut_.IsUpdateAllowedOver(ConnectionType::kWifi,
                                         ConnectionTethering::kUnknown));
 }

 TEST_F(ConnectionManagerTest, AllowUpdatesOverWimaxTest) {
   EXPECT_TRUE(cmut_.IsUpdateAllowedOver(ConnectionType::kWimax,
                                         ConnectionTethering::kUnknown));
 }

 TEST_F(ConnectionManagerTest, BlockUpdatesOverBluetoothTest) {
   EXPECT_FALSE(cmut_.IsUpdateAllowedOver(ConnectionType::kBluetooth,
                                          ConnectionTethering::kUnknown));
 }

 TEST_F(ConnectionManagerTest, AllowUpdatesOnlyOver3GPerPolicyTest) {
   policy::MockDevicePolicy allow_3g_policy;

   fake_system_state_.set_device_policy(&allow_3g_policy);

   // This test tests cellular (3G) being the only connection type being allowed.
   set<string> allowed_set;
   allowed_set.insert(StringForConnectionType(ConnectionType::kCellular));

   EXPECT_CALL(allow_3g_policy, GetAllowedConnectionTypesForUpdate(_))
       .Times(1)
       .WillOnce(DoAll(SetArgPointee<0>(allowed_set), Return(true)));

   EXPECT_TRUE(cmut_.IsUpdateAllowedOver(ConnectionType::kCellular,
                                         ConnectionTethering::kUnknown));
 }

 TEST_F(ConnectionManagerTest, AllowUpdatesOver3GAndOtherTypesPerPolicyTest) {
   policy::MockDevicePolicy allow_3g_policy;

   fake_system_state_.set_device_policy(&allow_3g_policy);

   // This test tests multiple connection types being allowed, with
   // 3G one among them. Only Cellular is currently enforced by the policy
   // setting, the others are ignored (see Bluetooth for example).
   set<string> allowed_set;
   allowed_set.insert(StringForConnectionType(ConnectionType::kCellular));
   allowed_set.insert(StringForConnectionType(ConnectionType::kBluetooth));

   EXPECT_CALL(allow_3g_policy, GetAllowedConnectionTypesForUpdate(_))
       .Times(3)
       .WillRepeatedly(DoAll(SetArgPointee<0>(allowed_set), Return(true)));

   EXPECT_TRUE(cmut_.IsUpdateAllowedOver(ConnectionType::kEthernet,
                                         ConnectionTethering::kUnknown));
   EXPECT_TRUE(cmut_.IsUpdateAllowedOver(ConnectionType::kEthernet,
                                         ConnectionTethering::kNotDetected));
   EXPECT_TRUE(cmut_.IsUpdateAllowedOver(ConnectionType::kCellular,
                                         ConnectionTethering::kUnknown));
   EXPECT_TRUE(cmut_.IsUpdateAllowedOver(ConnectionType::kWifi,
                                         ConnectionTethering::kUnknown));
   EXPECT_TRUE(cmut_.IsUpdateAllowedOver(ConnectionType::kWimax,
                                         ConnectionTethering::kUnknown));
   EXPECT_FALSE(cmut_.IsUpdateAllowedOver(ConnectionType::kBluetooth,
                                          ConnectionTethering::kUnknown));

   // Tethered networks are treated in the same way as Cellular networks and
   // thus allowed.
   EXPECT_TRUE(cmut_.IsUpdateAllowedOver(ConnectionType::kEthernet,
                                         ConnectionTethering::kConfirmed));
   EXPECT_TRUE(cmut_.IsUpdateAllowedOver(ConnectionType::kWifi,
                                         ConnectionTethering::kConfirmed));
 }

 TEST_F(ConnectionManagerTest, BlockUpdatesOverCellularByDefaultTest) {
   EXPECT_FALSE(cmut_.IsUpdateAllowedOver(ConnectionType::kCellular,
                                          ConnectionTethering::kUnknown));
 }

 TEST_F(ConnectionManagerTest, BlockUpdatesOverTetheredNetworkByDefaultTest) {
   EXPECT_FALSE(cmut_.IsUpdateAllowedOver(ConnectionType::kWifi,
                                          ConnectionTethering::kConfirmed));
   EXPECT_FALSE(cmut_.IsUpdateAllowedOver(ConnectionType::kEthernet,
                                          ConnectionTethering::kConfirmed));
   EXPECT_TRUE(cmut_.IsUpdateAllowedOver(ConnectionType::kWifi,
                                         ConnectionTethering::kSuspected));
 }

 TEST_F(ConnectionManagerTest, BlockUpdatesOver3GPerPolicyTest) {
   policy::MockDevicePolicy block_3g_policy;

   fake_system_state_.set_device_policy(&block_3g_policy);

   // Test that updates for 3G are blocked while updates are allowed
   // over several other types.
   set<string> allowed_set;
   allowed_set.insert(StringForConnectionType(ConnectionType::kEthernet));
   allowed_set.insert(StringForConnectionType(ConnectionType::kWifi));
   allowed_set.insert(StringForConnectionType(ConnectionType::kWimax));

   EXPECT_CALL(block_3g_policy, GetAllowedConnectionTypesForUpdate(_))
       .Times(1)
       .WillOnce(DoAll(SetArgPointee<0>(allowed_set), Return(true)));

   EXPECT_FALSE(cmut_.IsUpdateAllowedOver(ConnectionType::kCellular,
                                          ConnectionTethering::kUnknown));
 }

 TEST_F(ConnectionManagerTest, BlockUpdatesOver3GIfErrorInPolicyFetchTest) {
   policy::MockDevicePolicy allow_3g_policy;

   fake_system_state_.set_device_policy(&allow_3g_policy);

   set<string> allowed_set;
   allowed_set.insert(StringForConnectionType(ConnectionType::kCellular));

   // Return false for GetAllowedConnectionTypesForUpdate and see
   // that updates are still blocked for 3G despite the value being in
   // the string set above.
   EXPECT_CALL(allow_3g_policy, GetAllowedConnectionTypesForUpdate(_))
       .Times(1)
       .WillOnce(DoAll(SetArgPointee<0>(allowed_set), Return(false)));

   EXPECT_FALSE(cmut_.IsUpdateAllowedOver(ConnectionType::kCellular,
                                          ConnectionTethering::kUnknown));
 }

 TEST_F(ConnectionManagerTest, UseUserPrefForUpdatesOverCellularIfNoPolicyTest) {
   policy::MockDevicePolicy no_policy;
   testing::NiceMock<MockPrefs>* prefs = fake_system_state_.mock_prefs();

   fake_system_state_.set_device_policy(&no_policy);

   // No setting enforced by the device policy, user prefs should be used.
   EXPECT_CALL(no_policy, GetAllowedConnectionTypesForUpdate(_))
       .Times(3)
       .WillRepeatedly(Return(false));

   // No user pref: block.
   EXPECT_CALL(*prefs, Exists(kPrefsUpdateOverCellularPermission))
       .Times(1)
       .WillOnce(Return(false));
   EXPECT_FALSE(cmut_.IsUpdateAllowedOver(ConnectionType::kCellular,
                                          ConnectionTethering::kUnknown));

   // Allow per user pref.
   EXPECT_CALL(*prefs, Exists(kPrefsUpdateOverCellularPermission))
       .Times(1)
       .WillOnce(Return(true));
   EXPECT_CALL(*prefs, GetBoolean(kPrefsUpdateOverCellularPermission, _))
       .Times(1)
       .WillOnce(DoAll(SetArgPointee<1>(true), Return(true)));
   EXPECT_TRUE(cmut_.IsUpdateAllowedOver(ConnectionType::kCellular,
                                         ConnectionTethering::kUnknown));

   // Block per user pref.
   EXPECT_CALL(*prefs, Exists(kPrefsUpdateOverCellularPermission))
       .Times(1)
       .WillOnce(Return(true));
   EXPECT_CALL(*prefs, GetBoolean(kPrefsUpdateOverCellularPermission, _))
       .Times(1)
       .WillOnce(DoAll(SetArgPointee<1>(false), Return(true)));
   EXPECT_FALSE(cmut_.IsUpdateAllowedOver(ConnectionType::kCellular,
                                          ConnectionTethering::kUnknown));
 }

 TEST_F(ConnectionManagerTest, StringForConnectionTypeTest) {
   EXPECT_STREQ(shill::kTypeEthernet,
                StringForConnectionType(ConnectionType::kEthernet));
   EXPECT_STREQ(shill::kTypeWifi,
                StringForConnectionType(ConnectionType::kWifi));
   EXPECT_STREQ(shill::kTypeWimax,
                StringForConnectionType(ConnectionType::kWimax));
   EXPECT_STREQ(shill::kTypeBluetooth,
                StringForConnectionType(ConnectionType::kBluetooth));
   EXPECT_STREQ(shill::kTypeCellular,
                StringForConnectionType(ConnectionType::kCellular));
   EXPECT_STREQ("Unknown", StringForConnectionType(ConnectionType::kUnknown));
   EXPECT_STREQ("Unknown",
                StringForConnectionType(static_cast<ConnectionType>(999999)));
 }

 TEST_F(ConnectionManagerTest, MalformedServiceList) {
   SetManagerReply("/service/guest/network", false);

   ConnectionType type;
   ConnectionTethering tethering;
   EXPECT_FALSE(cmut_.GetConnectionProperties(&type, &tethering));
 }

 }  // namespace chromeos_update_engine
	//
	// 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/connection_manager.h"

	#include <set>
	#include <string>

	#include <base/logging.h>
	#include <brillo/any.h>
	#include <brillo/make_unique_ptr.h>
	#include <brillo/message_loops/fake_message_loop.h>
	#include <brillo/variant_dictionary.h>
	#include <gmock/gmock.h>
	#include <gtest/gtest.h>
	#include <shill/dbus-constants.h>
	#include <shill/dbus-proxies.h>
	#include <shill/dbus-proxy-mocks.h>

	#include "update_engine/common/test_utils.h"
	#include "update_engine/fake_shill_proxy.h"
	#include "update_engine/fake_system_state.h"

	using chromeos_update_engine::connection_utils::StringForConnectionType;
	using org::chromium::flimflam::ManagerProxyMock;
	using org::chromium::flimflam::ServiceProxyMock;
	using std::set;
	using std::string;
	using testing::Return;
	using testing::SetArgPointee;
	using testing::_;

	namespace chromeos_update_engine {

	class ConnectionManagerTest : public ::testing::Test {
	public:
	ConnectionManagerTest() : fake_shill_proxy_(new FakeShillProxy()) {}

	void SetUp() override {
	loop_.SetAsCurrent();
	fake_system_state_.set_connection_manager(&cmut_);
	}

	void TearDown() override { EXPECT_FALSE(loop_.PendingTasks()); }

	protected:
	// Sets the default_service object path in the response from the
	// ManagerProxyMock instance.
	void SetManagerReply(const char* default_service, bool reply_succeeds);

	// Sets the \|service_type\|, \|physical_technology\| and \|service_tethering\|
	// properties in the mocked service \|service_path\|. If any of the three
	// const char* is a nullptr, the corresponding property will not be included
	// in the response.
	void SetServiceReply(const string& service_path,
	const char* service_type,
	const char* physical_technology,
	const char* service_tethering);

	void TestWithServiceType(
	const char* service_type,
	const char* physical_technology,
	ConnectionType expected_type);
	void TestWithServiceTethering(
	const char* service_tethering,
	ConnectionTethering expected_tethering);

	brillo::FakeMessageLoop loop_{nullptr};
	FakeSystemState fake_system_state_;
	FakeShillProxy* fake_shill_proxy_;

	// ConnectionManager under test.
	ConnectionManager cmut_{fake_shill_proxy_, &fake_system_state_};
	};

	void ConnectionManagerTest::SetManagerReply(const char* default_service,
	bool reply_succeeds) {
	ManagerProxyMock* manager_proxy_mock = fake_shill_proxy_->GetManagerProxy();
	if (!reply_succeeds) {
	EXPECT_CALL(*manager_proxy_mock, GetProperties(_, _, _))
	.WillOnce(Return(false));
	return;
	}

	// Create a dictionary of properties and optionally include the default
	// service.
	brillo::VariantDictionary reply_dict;
	reply_dict["SomeOtherProperty"] = 0xC0FFEE;

	if (default_service) {
	reply_dict[shill::kDefaultServiceProperty] =
	dbus::ObjectPath(default_service);
	}
	EXPECT_CALL(*manager_proxy_mock, GetProperties(_, _, _))
	.WillOnce(DoAll(SetArgPointee<0>(reply_dict), Return(true)));
	}

	void ConnectionManagerTest::SetServiceReply(const string& service_path,
	const char* service_type,
	const char* physical_technology,
	const char* service_tethering) {
	brillo::VariantDictionary reply_dict;
	reply_dict["SomeOtherProperty"] = 0xC0FFEE;

	if (service_type)
	reply_dict[shill::kTypeProperty] = string(service_type);

	if (physical_technology) {
	reply_dict[shill::kPhysicalTechnologyProperty] =
	string(physical_technology);
	}

	if (service_tethering)
	reply_dict[shill::kTetheringProperty] = string(service_tethering);

	std::unique_ptr<ServiceProxyMock> service_proxy_mock(new ServiceProxyMock());

	// Plumb return value into mock object.
	EXPECT_CALL(*service_proxy_mock.get(), GetProperties(_, _, _))
	.WillOnce(DoAll(SetArgPointee<0>(reply_dict), Return(true)));

	fake_shill_proxy_->SetServiceForPath(dbus::ObjectPath(service_path),
	std::move(service_proxy_mock));
	}

	void ConnectionManagerTest::TestWithServiceType(
	const char* service_type,
	const char* physical_technology,
	ConnectionType expected_type) {
	SetManagerReply("/service/guest/network", true);
	SetServiceReply("/service/guest/network",
	service_type,
	physical_technology,
	shill::kTetheringNotDetectedState);

	ConnectionType type;
	ConnectionTethering tethering;
	EXPECT_TRUE(cmut_.GetConnectionProperties(&type, &tethering));
	EXPECT_EQ(expected_type, type);
	testing::Mock::VerifyAndClearExpectations(
	fake_shill_proxy_->GetManagerProxy());
	}

	void ConnectionManagerTest::TestWithServiceTethering(
	const char* service_tethering,
	ConnectionTethering expected_tethering) {
	SetManagerReply("/service/guest/network", true);
	SetServiceReply(
	"/service/guest/network", shill::kTypeWifi, nullptr, service_tethering);

	ConnectionType type;
	ConnectionTethering tethering;
	EXPECT_TRUE(cmut_.GetConnectionProperties(&type, &tethering));
	EXPECT_EQ(expected_tethering, tethering);
	testing::Mock::VerifyAndClearExpectations(
	fake_shill_proxy_->GetManagerProxy());
	}

	TEST_F(ConnectionManagerTest, SimpleTest) {
	TestWithServiceType(shill::kTypeEthernet, nullptr, ConnectionType::kEthernet);
	TestWithServiceType(shill::kTypeWifi, nullptr, ConnectionType::kWifi);
	TestWithServiceType(shill::kTypeWimax, nullptr, ConnectionType::kWimax);
	TestWithServiceType(
	shill::kTypeBluetooth, nullptr, ConnectionType::kBluetooth);
	TestWithServiceType(shill::kTypeCellular, nullptr, ConnectionType::kCellular);
	}

	TEST_F(ConnectionManagerTest, PhysicalTechnologyTest) {
	TestWithServiceType(shill::kTypeVPN, nullptr, ConnectionType::kUnknown);
	TestWithServiceType(
	shill::kTypeVPN, shill::kTypeVPN, ConnectionType::kUnknown);
	TestWithServiceType(shill::kTypeVPN, shill::kTypeWifi, ConnectionType::kWifi);
	TestWithServiceType(
	shill::kTypeVPN, shill::kTypeWimax, ConnectionType::kWimax);
	}

	TEST_F(ConnectionManagerTest, TetheringTest) {
	TestWithServiceTethering(shill::kTetheringConfirmedState,
	ConnectionTethering::kConfirmed);
	TestWithServiceTethering(shill::kTetheringNotDetectedState,
	ConnectionTethering::kNotDetected);
	TestWithServiceTethering(shill::kTetheringSuspectedState,
	ConnectionTethering::kSuspected);
	TestWithServiceTethering("I'm not a valid property value =)",
	ConnectionTethering::kUnknown);
	}

	TEST_F(ConnectionManagerTest, UnknownTest) {
	TestWithServiceType("foo", nullptr, ConnectionType::kUnknown);
	}

	TEST_F(ConnectionManagerTest, AllowUpdatesOverEthernetTest) {
	// Updates over Ethernet are allowed even if there's no policy.
	EXPECT_TRUE(cmut_.IsUpdateAllowedOver(ConnectionType::kEthernet,
	ConnectionTethering::kUnknown));
	}

	TEST_F(ConnectionManagerTest, AllowUpdatesOverWifiTest) {
	EXPECT_TRUE(cmut_.IsUpdateAllowedOver(ConnectionType::kWifi,
	ConnectionTethering::kUnknown));
	}

	TEST_F(ConnectionManagerTest, AllowUpdatesOverWimaxTest) {
	EXPECT_TRUE(cmut_.IsUpdateAllowedOver(ConnectionType::kWimax,
	ConnectionTethering::kUnknown));
	}

	TEST_F(ConnectionManagerTest, BlockUpdatesOverBluetoothTest) {
	EXPECT_FALSE(cmut_.IsUpdateAllowedOver(ConnectionType::kBluetooth,
	ConnectionTethering::kUnknown));
	}

	TEST_F(ConnectionManagerTest, AllowUpdatesOnlyOver3GPerPolicyTest) {
	policy::MockDevicePolicy allow_3g_policy;

	fake_system_state_.set_device_policy(&allow_3g_policy);

	// This test tests cellular (3G) being the only connection type being allowed.
	set<string> allowed_set;
	allowed_set.insert(StringForConnectionType(ConnectionType::kCellular));

	EXPECT_CALL(allow_3g_policy, GetAllowedConnectionTypesForUpdate(_))
	.Times(1)
	.WillOnce(DoAll(SetArgPointee<0>(allowed_set), Return(true)));

	EXPECT_TRUE(cmut_.IsUpdateAllowedOver(ConnectionType::kCellular,
	ConnectionTethering::kUnknown));
	}

	TEST_F(ConnectionManagerTest, AllowUpdatesOver3GAndOtherTypesPerPolicyTest) {
	policy::MockDevicePolicy allow_3g_policy;

	fake_system_state_.set_device_policy(&allow_3g_policy);

	// This test tests multiple connection types being allowed, with
	// 3G one among them. Only Cellular is currently enforced by the policy
	// setting, the others are ignored (see Bluetooth for example).
	set<string> allowed_set;
	allowed_set.insert(StringForConnectionType(ConnectionType::kCellular));
	allowed_set.insert(StringForConnectionType(ConnectionType::kBluetooth));

	EXPECT_CALL(allow_3g_policy, GetAllowedConnectionTypesForUpdate(_))
	.Times(3)
	.WillRepeatedly(DoAll(SetArgPointee<0>(allowed_set), Return(true)));

	EXPECT_TRUE(cmut_.IsUpdateAllowedOver(ConnectionType::kEthernet,
	ConnectionTethering::kUnknown));
	EXPECT_TRUE(cmut_.IsUpdateAllowedOver(ConnectionType::kEthernet,
	ConnectionTethering::kNotDetected));
	EXPECT_TRUE(cmut_.IsUpdateAllowedOver(ConnectionType::kCellular,
	ConnectionTethering::kUnknown));
	EXPECT_TRUE(cmut_.IsUpdateAllowedOver(ConnectionType::kWifi,
	ConnectionTethering::kUnknown));
	EXPECT_TRUE(cmut_.IsUpdateAllowedOver(ConnectionType::kWimax,
	ConnectionTethering::kUnknown));
	EXPECT_FALSE(cmut_.IsUpdateAllowedOver(ConnectionType::kBluetooth,
	ConnectionTethering::kUnknown));

	// Tethered networks are treated in the same way as Cellular networks and
	// thus allowed.
	EXPECT_TRUE(cmut_.IsUpdateAllowedOver(ConnectionType::kEthernet,
	ConnectionTethering::kConfirmed));
	EXPECT_TRUE(cmut_.IsUpdateAllowedOver(ConnectionType::kWifi,
	ConnectionTethering::kConfirmed));
	}

	TEST_F(ConnectionManagerTest, BlockUpdatesOverCellularByDefaultTest) {
	EXPECT_FALSE(cmut_.IsUpdateAllowedOver(ConnectionType::kCellular,
	ConnectionTethering::kUnknown));
	}

	TEST_F(ConnectionManagerTest, BlockUpdatesOverTetheredNetworkByDefaultTest) {
	EXPECT_FALSE(cmut_.IsUpdateAllowedOver(ConnectionType::kWifi,
	ConnectionTethering::kConfirmed));
	EXPECT_FALSE(cmut_.IsUpdateAllowedOver(ConnectionType::kEthernet,
	ConnectionTethering::kConfirmed));
	EXPECT_TRUE(cmut_.IsUpdateAllowedOver(ConnectionType::kWifi,
	ConnectionTethering::kSuspected));
	}

	TEST_F(ConnectionManagerTest, BlockUpdatesOver3GPerPolicyTest) {
	policy::MockDevicePolicy block_3g_policy;

	fake_system_state_.set_device_policy(&block_3g_policy);

	// Test that updates for 3G are blocked while updates are allowed
	// over several other types.
	set<string> allowed_set;
	allowed_set.insert(StringForConnectionType(ConnectionType::kEthernet));
	allowed_set.insert(StringForConnectionType(ConnectionType::kWifi));
	allowed_set.insert(StringForConnectionType(ConnectionType::kWimax));

	EXPECT_CALL(block_3g_policy, GetAllowedConnectionTypesForUpdate(_))
	.Times(1)
	.WillOnce(DoAll(SetArgPointee<0>(allowed_set), Return(true)));

	EXPECT_FALSE(cmut_.IsUpdateAllowedOver(ConnectionType::kCellular,
	ConnectionTethering::kUnknown));
	}

	TEST_F(ConnectionManagerTest, BlockUpdatesOver3GIfErrorInPolicyFetchTest) {
	policy::MockDevicePolicy allow_3g_policy;

	fake_system_state_.set_device_policy(&allow_3g_policy);

	set<string> allowed_set;
	allowed_set.insert(StringForConnectionType(ConnectionType::kCellular));

	// Return false for GetAllowedConnectionTypesForUpdate and see
	// that updates are still blocked for 3G despite the value being in
	// the string set above.
	EXPECT_CALL(allow_3g_policy, GetAllowedConnectionTypesForUpdate(_))
	.Times(1)
	.WillOnce(DoAll(SetArgPointee<0>(allowed_set), Return(false)));

	EXPECT_FALSE(cmut_.IsUpdateAllowedOver(ConnectionType::kCellular,
	ConnectionTethering::kUnknown));
	}

	TEST_F(ConnectionManagerTest, UseUserPrefForUpdatesOverCellularIfNoPolicyTest) {
	policy::MockDevicePolicy no_policy;
	testing::NiceMock<MockPrefs>* prefs = fake_system_state_.mock_prefs();

	fake_system_state_.set_device_policy(&no_policy);

	// No setting enforced by the device policy, user prefs should be used.
	EXPECT_CALL(no_policy, GetAllowedConnectionTypesForUpdate(_))
	.Times(3)
	.WillRepeatedly(Return(false));

	// No user pref: block.
	EXPECT_CALL(*prefs, Exists(kPrefsUpdateOverCellularPermission))
	.Times(1)
	.WillOnce(Return(false));
	EXPECT_FALSE(cmut_.IsUpdateAllowedOver(ConnectionType::kCellular,
	ConnectionTethering::kUnknown));

	// Allow per user pref.
	EXPECT_CALL(*prefs, Exists(kPrefsUpdateOverCellularPermission))
	.Times(1)
	.WillOnce(Return(true));
	EXPECT_CALL(*prefs, GetBoolean(kPrefsUpdateOverCellularPermission, _))
	.Times(1)
	.WillOnce(DoAll(SetArgPointee<1>(true), Return(true)));
	EXPECT_TRUE(cmut_.IsUpdateAllowedOver(ConnectionType::kCellular,
	ConnectionTethering::kUnknown));

	// Block per user pref.
	EXPECT_CALL(*prefs, Exists(kPrefsUpdateOverCellularPermission))
	.Times(1)
	.WillOnce(Return(true));
	EXPECT_CALL(*prefs, GetBoolean(kPrefsUpdateOverCellularPermission, _))
	.Times(1)
	.WillOnce(DoAll(SetArgPointee<1>(false), Return(true)));
	EXPECT_FALSE(cmut_.IsUpdateAllowedOver(ConnectionType::kCellular,
	ConnectionTethering::kUnknown));
	}

	TEST_F(ConnectionManagerTest, StringForConnectionTypeTest) {
	EXPECT_STREQ(shill::kTypeEthernet,
	StringForConnectionType(ConnectionType::kEthernet));
	EXPECT_STREQ(shill::kTypeWifi,
	StringForConnectionType(ConnectionType::kWifi));
	EXPECT_STREQ(shill::kTypeWimax,
	StringForConnectionType(ConnectionType::kWimax));
	EXPECT_STREQ(shill::kTypeBluetooth,
	StringForConnectionType(ConnectionType::kBluetooth));
	EXPECT_STREQ(shill::kTypeCellular,
	StringForConnectionType(ConnectionType::kCellular));
	EXPECT_STREQ("Unknown", StringForConnectionType(ConnectionType::kUnknown));
	EXPECT_STREQ("Unknown",
	StringForConnectionType(static_cast<ConnectionType>(999999)));
	}

	TEST_F(ConnectionManagerTest, MalformedServiceList) {
	SetManagerReply("/service/guest/network", false);

	ConnectionType type;
	ConnectionTethering tethering;
	EXPECT_FALSE(cmut_.GetConnectionProperties(&type, &tethering));
	}

	} // namespace chromeos_update_engine