manager_unittest.cc - platform/system/connectivity/shill - Gitiles

 // Copyright (c) 2011 The Chromium OS Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "shill/manager.h"

 #include <set>

 #include <glib.h>

 #include <base/logging.h>
 #include <base/stl_util-inl.h>
 #include <chromeos/dbus/service_constants.h>
 #include <gmock/gmock.h>
 #include <gtest/gtest.h>

 #include "shill/mock_control.h"
 #include "shill/mock_device.h"
 #include "shill/mock_glib.h"
 #include "shill/mock_profile.h"
 #include "shill/mock_service.h"
 #include "shill/property_store_unittest.h"

 using std::map;
 using std::set;
 using std::string;
 using std::vector;

 namespace shill {
 using ::testing::Test;
 using ::testing::_;
 using ::testing::NiceMock;
 using ::testing::Return;

 class ManagerTest : public PropertyStoreTest {
  public:
   ManagerTest()
       : mock_device_(new NiceMock<MockDevice>(&control_interface_,
                                               &dispatcher_,
                                               &manager_,
                                               "null0",
                                               "addr0",
                                               0)),
         mock_device2_(new NiceMock<MockDevice>(&control_interface_,
                                                &dispatcher_,
                                                &manager_,
                                                "null2",
                                                "addr2",
                                                2)),
         mock_device3_(new NiceMock<MockDevice>(&control_interface_,
                                                &dispatcher_,
                                                &manager_,
                                                "null3",
                                                "addr3",
                                                3)) {
   }
   virtual ~ManagerTest() {}

   bool IsDeviceRegistered(const DeviceRefPtr &device, Device::Technology tech) {
     vector<DeviceRefPtr> devices;
     manager_.FilterByTechnology(tech, &devices);
     return (devices.size() == 1 && devices[0].get() == device.get());
   }

  protected:
   scoped_refptr<MockDevice> mock_device_;
   scoped_refptr<MockDevice> mock_device2_;
   scoped_refptr<MockDevice> mock_device3_;
 };

 TEST_F(ManagerTest, Contains) {
   EXPECT_TRUE(manager_.store()->Contains(flimflam::kStateProperty));
   EXPECT_FALSE(manager_.store()->Contains(""));
 }

 TEST_F(ManagerTest, DeviceRegistration) {
   ON_CALL(*mock_device_.get(), TechnologyIs(Device::kEthernet))
       .WillByDefault(Return(true));
   ON_CALL(*mock_device2_.get(), TechnologyIs(Device::kWifi))
       .WillByDefault(Return(true));
   ON_CALL(*mock_device3_.get(), TechnologyIs(Device::kCellular))
       .WillByDefault(Return(true));

   manager_.RegisterDevice(mock_device_);
   manager_.RegisterDevice(mock_device2_);
   manager_.RegisterDevice(mock_device3_);

   EXPECT_TRUE(IsDeviceRegistered(mock_device_, Device::kEthernet));
   EXPECT_TRUE(IsDeviceRegistered(mock_device2_, Device::kWifi));
   EXPECT_TRUE(IsDeviceRegistered(mock_device3_, Device::kCellular));
 }

 TEST_F(ManagerTest, DeviceDeregistration) {
   ON_CALL(*mock_device_.get(), TechnologyIs(Device::kEthernet))
       .WillByDefault(Return(true));
   ON_CALL(*mock_device2_.get(), TechnologyIs(Device::kWifi))
       .WillByDefault(Return(true));

   manager_.RegisterDevice(mock_device_.get());
   manager_.RegisterDevice(mock_device2_.get());

   ASSERT_TRUE(IsDeviceRegistered(mock_device_, Device::kEthernet));
   ASSERT_TRUE(IsDeviceRegistered(mock_device2_, Device::kWifi));

   EXPECT_CALL(*mock_device_.get(), Stop());
   manager_.DeregisterDevice(mock_device_.get());
   EXPECT_FALSE(IsDeviceRegistered(mock_device_, Device::kEthernet));

   EXPECT_CALL(*mock_device2_.get(), Stop());
   manager_.DeregisterDevice(mock_device2_.get());
   EXPECT_FALSE(IsDeviceRegistered(mock_device2_, Device::kWifi));
 }

 TEST_F(ManagerTest, ServiceRegistration) {
   scoped_refptr<MockService> mock_service(
       new NiceMock<MockService>(&control_interface_,
                                 &dispatcher_,
                                 &manager_));
   scoped_refptr<MockService> mock_service2(
       new NiceMock<MockService>(&control_interface_,
                                 &dispatcher_,
                                 &manager_));
   string service1_name(mock_service->UniqueName());
   string service2_name(mock_service2->UniqueName());

   EXPECT_CALL(*mock_service.get(), GetRpcIdentifier())
       .WillRepeatedly(Return(service1_name));
   EXPECT_CALL(*mock_service2.get(), GetRpcIdentifier())
       .WillRepeatedly(Return(service2_name));

   manager_.RegisterService(mock_service);
   manager_.RegisterService(mock_service2);

   vector<string> rpc_ids = manager_.EnumerateAvailableServices();
   set<string> ids(rpc_ids.begin(), rpc_ids.end());
   EXPECT_EQ(2, ids.size());
   EXPECT_TRUE(ContainsKey(ids, mock_service->GetRpcIdentifier()));
   EXPECT_TRUE(ContainsKey(ids, mock_service2->GetRpcIdentifier()));

   EXPECT_TRUE(manager_.FindService(service1_name).get() != NULL);
   EXPECT_TRUE(manager_.FindService(service2_name).get() != NULL);
 }

 TEST_F(ManagerTest, GetProperties) {
   map<string, ::DBus::Variant> props;
   Error error(Error::kInvalidProperty, "");
   {
     ::DBus::Error dbus_error;
     string expected("portal_list");
     manager_.store()->SetStringProperty(flimflam::kCheckPortalListProperty,
                                         expected,
                                         &error);
     DBusAdaptor::GetProperties(manager_.store(), &props, &dbus_error);
     ASSERT_FALSE(props.find(flimflam::kCheckPortalListProperty) == props.end());
     EXPECT_EQ(props[flimflam::kCheckPortalListProperty].reader().get_string(),
               expected);
   }
   {
     ::DBus::Error dbus_error;
     bool expected = true;
     manager_.store()->SetBoolProperty(flimflam::kOfflineModeProperty,
                                       expected,
                                       &error);
     DBusAdaptor::GetProperties(manager_.store(), &props, &dbus_error);
     ASSERT_FALSE(props.find(flimflam::kOfflineModeProperty) == props.end());
     EXPECT_EQ(props[flimflam::kOfflineModeProperty].reader().get_bool(),
               expected);
   }
 }

 TEST_F(ManagerTest, GetDevicesProperty) {
   manager_.RegisterDevice(mock_device_.get());
   manager_.RegisterDevice(mock_device2_.get());
   {
     map<string, ::DBus::Variant> props;
     ::DBus::Error dbus_error;
     bool expected = true;
     DBusAdaptor::GetProperties(manager_.store(), &props, &dbus_error);
     ASSERT_FALSE(props.find(flimflam::kDevicesProperty) == props.end());
     Strings devices =
         props[flimflam::kDevicesProperty].operator vector<string>();
     EXPECT_EQ(2, devices.size());
   }
 }

 TEST_F(ManagerTest, MoveService) {
   // I want to ensure that the Profiles are managing this Service object
   // lifetime properly, so I can't hold a ref to it here.
   ProfileRefPtr profile(
       new MockProfile(&control_interface_, &glib_, &manager_, ""));
   string service_name;
   {
     ServiceRefPtr s2(
         new MockService(&control_interface_,
                         &dispatcher_,
                         &manager_));
     profile->AdoptService(s2);
     s2->set_profile(profile);
     service_name = s2->UniqueName();
   }

   // Now, move the |service| to another profile.
   manager_.MoveToActiveProfile(profile, profile->FindService(service_name));

   // Force destruction of the original Profile, to ensure that the Service
   // is kept alive and populated with data.
   profile = NULL;
   {
     ServiceRefPtr serv(manager_.ActiveProfile()->FindService(service_name));
     ASSERT_TRUE(serv.get() != NULL);
     Error error(Error::kInvalidProperty, "");
     ::DBus::Error dbus_error;
     map<string, ::DBus::Variant> props;
     bool expected = true;
     serv->store()->SetBoolProperty(flimflam::kAutoConnectProperty,
                                    expected,
                                    &error);
     DBusAdaptor::GetProperties(serv->store(), &props, &dbus_error);
     ASSERT_TRUE(ContainsKey(props, flimflam::kAutoConnectProperty));
     EXPECT_EQ(props[flimflam::kAutoConnectProperty].reader().get_bool(),
               expected);
   }
 }

 TEST_F(ManagerTest, Dispatch) {
   {
     ::DBus::Error error;
     EXPECT_TRUE(DBusAdaptor::DispatchOnType(manager_.store(),
                                             flimflam::kOfflineModeProperty,
                                             PropertyStoreTest::kBoolV,
                                             &error));
   }
   {
     ::DBus::Error error;
     EXPECT_TRUE(DBusAdaptor::DispatchOnType(manager_.store(),
                                             flimflam::kCountryProperty,
                                             PropertyStoreTest::kStringV,
                                             &error));
   }
   // Attempt to write with value of wrong type should return InvalidArgs.
   {
     ::DBus::Error error;
     EXPECT_FALSE(DBusAdaptor::DispatchOnType(manager_.store(),
                                              flimflam::kCountryProperty,
                                              PropertyStoreTest::kBoolV,
                                              &error));
     EXPECT_EQ(invalid_args_, error.name());
   }
   {
     ::DBus::Error error;
     EXPECT_FALSE(DBusAdaptor::DispatchOnType(manager_.store(),
                                              flimflam::kOfflineModeProperty,
                                              PropertyStoreTest::kStringV,
                                              &error));
     EXPECT_EQ(invalid_args_, error.name());
   }
   // Attempt to write R/O property should return InvalidArgs.
   {
     ::DBus::Error error;
     EXPECT_FALSE(DBusAdaptor::DispatchOnType(
         manager_.store(),
         flimflam::kEnabledTechnologiesProperty,
         PropertyStoreTest::kStringsV,
         &error));
     EXPECT_EQ(invalid_args_, error.name());
   }
 }

 }  // namespace shill
	// Copyright (c) 2011 The Chromium OS Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "shill/manager.h"

	#include <set>

	#include <glib.h>

	#include <base/logging.h>
	#include <base/stl_util-inl.h>
	#include <chromeos/dbus/service_constants.h>
	#include <gmock/gmock.h>
	#include <gtest/gtest.h>

	#include "shill/mock_control.h"
	#include "shill/mock_device.h"
	#include "shill/mock_glib.h"
	#include "shill/mock_profile.h"
	#include "shill/mock_service.h"
	#include "shill/property_store_unittest.h"

	using std::map;
	using std::set;
	using std::string;
	using std::vector;

	namespace shill {
	using ::testing::Test;
	using ::testing::_;
	using ::testing::NiceMock;
	using ::testing::Return;

	class ManagerTest : public PropertyStoreTest {
	public:
	ManagerTest()
	: mock_device_(new NiceMock<MockDevice>(&control_interface_,
	&dispatcher_,
	&manager_,
	"null0",
	"addr0",
	0)),
	mock_device2_(new NiceMock<MockDevice>(&control_interface_,
	&dispatcher_,
	&manager_,
	"null2",
	"addr2",
	2)),
	mock_device3_(new NiceMock<MockDevice>(&control_interface_,
	&dispatcher_,
	&manager_,
	"null3",
	"addr3",
	3)) {
	}
	virtual ~ManagerTest() {}

	bool IsDeviceRegistered(const DeviceRefPtr &device, Device::Technology tech) {
	vector<DeviceRefPtr> devices;
	manager_.FilterByTechnology(tech, &devices);
	return (devices.size() == 1 && devices[0].get() == device.get());
	}

	protected:
	scoped_refptr<MockDevice> mock_device_;
	scoped_refptr<MockDevice> mock_device2_;
	scoped_refptr<MockDevice> mock_device3_;
	};

	TEST_F(ManagerTest, Contains) {
	EXPECT_TRUE(manager_.store()->Contains(flimflam::kStateProperty));
	EXPECT_FALSE(manager_.store()->Contains(""));
	}

	TEST_F(ManagerTest, DeviceRegistration) {
	ON_CALL(*mock_device_.get(), TechnologyIs(Device::kEthernet))
	.WillByDefault(Return(true));
	ON_CALL(*mock_device2_.get(), TechnologyIs(Device::kWifi))
	.WillByDefault(Return(true));
	ON_CALL(*mock_device3_.get(), TechnologyIs(Device::kCellular))
	.WillByDefault(Return(true));

	manager_.RegisterDevice(mock_device_);
	manager_.RegisterDevice(mock_device2_);
	manager_.RegisterDevice(mock_device3_);

	EXPECT_TRUE(IsDeviceRegistered(mock_device_, Device::kEthernet));
	EXPECT_TRUE(IsDeviceRegistered(mock_device2_, Device::kWifi));
	EXPECT_TRUE(IsDeviceRegistered(mock_device3_, Device::kCellular));
	}

	TEST_F(ManagerTest, DeviceDeregistration) {
	ON_CALL(*mock_device_.get(), TechnologyIs(Device::kEthernet))
	.WillByDefault(Return(true));
	ON_CALL(*mock_device2_.get(), TechnologyIs(Device::kWifi))
	.WillByDefault(Return(true));

	manager_.RegisterDevice(mock_device_.get());
	manager_.RegisterDevice(mock_device2_.get());

	ASSERT_TRUE(IsDeviceRegistered(mock_device_, Device::kEthernet));
	ASSERT_TRUE(IsDeviceRegistered(mock_device2_, Device::kWifi));

	EXPECT_CALL(*mock_device_.get(), Stop());
	manager_.DeregisterDevice(mock_device_.get());
	EXPECT_FALSE(IsDeviceRegistered(mock_device_, Device::kEthernet));

	EXPECT_CALL(*mock_device2_.get(), Stop());
	manager_.DeregisterDevice(mock_device2_.get());
	EXPECT_FALSE(IsDeviceRegistered(mock_device2_, Device::kWifi));
	}

	TEST_F(ManagerTest, ServiceRegistration) {
	scoped_refptr<MockService> mock_service(
	new NiceMock<MockService>(&control_interface_,
	&dispatcher_,
	&manager_));
	scoped_refptr<MockService> mock_service2(
	new NiceMock<MockService>(&control_interface_,
	&dispatcher_,
	&manager_));
	string service1_name(mock_service->UniqueName());
	string service2_name(mock_service2->UniqueName());

	EXPECT_CALL(*mock_service.get(), GetRpcIdentifier())
	.WillRepeatedly(Return(service1_name));
	EXPECT_CALL(*mock_service2.get(), GetRpcIdentifier())
	.WillRepeatedly(Return(service2_name));

	manager_.RegisterService(mock_service);
	manager_.RegisterService(mock_service2);

	vector<string> rpc_ids = manager_.EnumerateAvailableServices();
	set<string> ids(rpc_ids.begin(), rpc_ids.end());
	EXPECT_EQ(2, ids.size());
	EXPECT_TRUE(ContainsKey(ids, mock_service->GetRpcIdentifier()));
	EXPECT_TRUE(ContainsKey(ids, mock_service2->GetRpcIdentifier()));

	EXPECT_TRUE(manager_.FindService(service1_name).get() != NULL);
	EXPECT_TRUE(manager_.FindService(service2_name).get() != NULL);
	}

	TEST_F(ManagerTest, GetProperties) {
	map<string, ::DBus::Variant> props;
	Error error(Error::kInvalidProperty, "");
	{
	::DBus::Error dbus_error;
	string expected("portal_list");
	manager_.store()->SetStringProperty(flimflam::kCheckPortalListProperty,
	expected,
	&error);
	DBusAdaptor::GetProperties(manager_.store(), &props, &dbus_error);
	ASSERT_FALSE(props.find(flimflam::kCheckPortalListProperty) == props.end());
	EXPECT_EQ(props[flimflam::kCheckPortalListProperty].reader().get_string(),
	expected);
	}
	{
	::DBus::Error dbus_error;
	bool expected = true;
	manager_.store()->SetBoolProperty(flimflam::kOfflineModeProperty,
	expected,
	&error);
	DBusAdaptor::GetProperties(manager_.store(), &props, &dbus_error);
	ASSERT_FALSE(props.find(flimflam::kOfflineModeProperty) == props.end());
	EXPECT_EQ(props[flimflam::kOfflineModeProperty].reader().get_bool(),
	expected);
	}
	}

	TEST_F(ManagerTest, GetDevicesProperty) {
	manager_.RegisterDevice(mock_device_.get());
	manager_.RegisterDevice(mock_device2_.get());
	{
	map<string, ::DBus::Variant> props;
	::DBus::Error dbus_error;
	bool expected = true;
	DBusAdaptor::GetProperties(manager_.store(), &props, &dbus_error);
	ASSERT_FALSE(props.find(flimflam::kDevicesProperty) == props.end());
	Strings devices =
	props[flimflam::kDevicesProperty].operator vector<string>();
	EXPECT_EQ(2, devices.size());
	}
	}

	TEST_F(ManagerTest, MoveService) {
	// I want to ensure that the Profiles are managing this Service object
	// lifetime properly, so I can't hold a ref to it here.
	ProfileRefPtr profile(
	new MockProfile(&control_interface_, &glib_, &manager_, ""));
	string service_name;
	{
	ServiceRefPtr s2(
	new MockService(&control_interface_,
	&dispatcher_,
	&manager_));
	profile->AdoptService(s2);
	s2->set_profile(profile);
	service_name = s2->UniqueName();
	}

	// Now, move the \|service\| to another profile.
	manager_.MoveToActiveProfile(profile, profile->FindService(service_name));

	// Force destruction of the original Profile, to ensure that the Service
	// is kept alive and populated with data.
	profile = NULL;
	{
	ServiceRefPtr serv(manager_.ActiveProfile()->FindService(service_name));
	ASSERT_TRUE(serv.get() != NULL);
	Error error(Error::kInvalidProperty, "");
	::DBus::Error dbus_error;
	map<string, ::DBus::Variant> props;
	bool expected = true;
	serv->store()->SetBoolProperty(flimflam::kAutoConnectProperty,
	expected,
	&error);
	DBusAdaptor::GetProperties(serv->store(), &props, &dbus_error);
	ASSERT_TRUE(ContainsKey(props, flimflam::kAutoConnectProperty));
	EXPECT_EQ(props[flimflam::kAutoConnectProperty].reader().get_bool(),
	expected);
	}
	}

	TEST_F(ManagerTest, Dispatch) {
	{
	::DBus::Error error;
	EXPECT_TRUE(DBusAdaptor::DispatchOnType(manager_.store(),
	flimflam::kOfflineModeProperty,
	PropertyStoreTest::kBoolV,
	&error));
	}
	{
	::DBus::Error error;
	EXPECT_TRUE(DBusAdaptor::DispatchOnType(manager_.store(),
	flimflam::kCountryProperty,
	PropertyStoreTest::kStringV,
	&error));
	}
	// Attempt to write with value of wrong type should return InvalidArgs.
	{
	::DBus::Error error;
	EXPECT_FALSE(DBusAdaptor::DispatchOnType(manager_.store(),
	flimflam::kCountryProperty,
	PropertyStoreTest::kBoolV,
	&error));
	EXPECT_EQ(invalid_args_, error.name());
	}
	{
	::DBus::Error error;
	EXPECT_FALSE(DBusAdaptor::DispatchOnType(manager_.store(),
	flimflam::kOfflineModeProperty,
	PropertyStoreTest::kStringV,
	&error));
	EXPECT_EQ(invalid_args_, error.name());
	}
	// Attempt to write R/O property should return InvalidArgs.
	{
	::DBus::Error error;
	EXPECT_FALSE(DBusAdaptor::DispatchOnType(
	manager_.store(),
	flimflam::kEnabledTechnologiesProperty,
	PropertyStoreTest::kStringsV,
	&error));
	EXPECT_EQ(invalid_args_, error.name());
	}
	}

	} // namespace shill