blob: 9ce71771240daa96bf6dba492dcf73725986c309 [file] [log] [blame]
// Copyright (c) 2012 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/memory/scoped_temp_dir.h>
#include <base/stl_util-inl.h>
#include <base/stringprintf.h>
#include <chromeos/dbus/service_constants.h>
#include <gmock/gmock.h>
#include <gtest/gtest.h>
#include "shill/adaptor_interfaces.h"
#include "shill/ephemeral_profile.h"
#include "shill/error.h"
#include "shill/glib.h"
#include "shill/key_file_store.h"
#include "shill/key_value_store.h"
#include "shill/mock_adaptors.h"
#include "shill/mock_connection.h"
#include "shill/mock_control.h"
#include "shill/mock_device.h"
#include "shill/mock_device_info.h"
#include "shill/mock_glib.h"
#include "shill/mock_metrics.h"
#include "shill/mock_profile.h"
#include "shill/mock_service.h"
#include "shill/mock_store.h"
#include "shill/mock_wifi.h"
#include "shill/property_store_unittest.h"
#include "shill/service_under_test.h"
#include "shill/wifi_service.h"
using std::map;
using std::set;
using std::string;
using std::vector;
namespace shill {
using ::testing::_;
using ::testing::AnyNumber;
using ::testing::ContainerEq;
using ::testing::Ne;
using ::testing::NiceMock;
using ::testing::Return;
using ::testing::StrEq;
using ::testing::StrictMock;
using ::testing::Test;
class ManagerTest : public PropertyStoreTest {
public:
ManagerTest()
: mock_wifi_(new NiceMock<MockWiFi>(control_interface(),
dispatcher(),
metrics(),
manager(),
"wifi0",
"addr4",
4)),
device_info_(new NiceMock<MockDeviceInfo>(
control_interface(),
reinterpret_cast<EventDispatcher*>(NULL),
reinterpret_cast<Metrics*>(NULL),
reinterpret_cast<Manager*>(NULL))),
manager_adaptor_(new NiceMock<ManagerMockAdaptor>()) {
mock_devices_.push_back(new NiceMock<MockDevice>(control_interface(),
dispatcher(),
metrics(),
manager(),
"null0",
"addr0",
0));
mock_devices_.push_back(new NiceMock<MockDevice>(control_interface(),
dispatcher(),
metrics(),
manager(),
"null1",
"addr1",
1));
mock_devices_.push_back(new NiceMock<MockDevice>(control_interface(),
dispatcher(),
metrics(),
manager(),
"null2",
"addr2",
2));
mock_devices_.push_back(new NiceMock<MockDevice>(control_interface(),
dispatcher(),
metrics(),
manager(),
"null3",
"addr3",
3));
manager()->connect_profiles_to_rpc_ = false;
// Replace the manager's adaptor with a quieter one, and one
// we can do EXPECT*() against. Passes ownership.
manager()->adaptor_.reset(manager_adaptor_);
}
virtual ~ManagerTest() {}
bool IsDeviceRegistered(const DeviceRefPtr &device,
Technology::Identifier tech) {
vector<DeviceRefPtr> devices;
manager()->FilterByTechnology(tech, &devices);
return (devices.size() == 1 && devices[0].get() == device.get());
}
bool ServiceOrderIs(ServiceRefPtr svc1, ServiceRefPtr svc2);
void AdoptProfile(Manager *manager, ProfileRefPtr profile) {
manager->profiles_.push_back(profile);
}
ProfileRefPtr GetEphemeralProfile(Manager *manager) {
return manager->ephemeral_profile_;
}
Profile *CreateProfileForManager(Manager *manager, GLib *glib) {
Profile::Identifier id("rather", "irrelevant");
scoped_ptr<Profile> profile(new Profile(control_interface(),
manager,
id,
"",
false));
FilePath final_path(storage_path());
final_path = final_path.Append("test.profile");
scoped_ptr<KeyFileStore> storage(new KeyFileStore(glib));
storage->set_path(final_path);
if (!storage->Open())
return NULL;
profile->set_storage(storage.release()); // Passes ownership.
return profile.release();
}
bool CreateBackingStoreForService(ScopedTempDir *temp_dir,
const string &profile_identifier,
const string &service_name) {
GLib glib;
KeyFileStore store(&glib);
store.set_path(temp_dir->path().Append(profile_identifier + ".profile"));
return store.Open() &&
store.SetString(service_name, "rather", "irrelevant") &&
store.Close();
}
Error::Type TestCreateProfile(Manager *manager, const string &name) {
Error error;
string path;
manager->CreateProfile(name, &path, &error);
return error.type();
}
Error::Type TestPopAnyProfile(Manager *manager) {
Error error;
manager->PopAnyProfile(&error);
return error.type();
}
Error::Type TestPopProfile(Manager *manager, const string &name) {
Error error;
manager->PopProfile(name, &error);
return error.type();
}
Error::Type TestPushProfile(Manager *manager, const string &name) {
Error error;
string path;
manager->PushProfile(name, &path, &error);
return error.type();
}
protected:
typedef scoped_refptr<MockService> MockServiceRefPtr;
MockServiceRefPtr MakeAutoConnectableService() {
MockServiceRefPtr service = new NiceMock<MockService>(control_interface(),
dispatcher(),
metrics(),
manager());
service->MakeFavorite();
service->set_connectable(true);
return service;
}
scoped_refptr<MockWiFi> mock_wifi_;
vector<scoped_refptr<MockDevice> > mock_devices_;
scoped_ptr<MockDeviceInfo> device_info_;
// This pointer is owned by the manager, and only tracked here for EXPECT*()
ManagerMockAdaptor *manager_adaptor_;
};
bool ManagerTest::ServiceOrderIs(ServiceRefPtr svc0, ServiceRefPtr svc1) {
return (svc0.get() == manager()->services_[0].get() &&
svc1.get() == manager()->services_[1].get());
}
TEST_F(ManagerTest, Contains) {
EXPECT_TRUE(manager()->store().Contains(flimflam::kStateProperty));
EXPECT_FALSE(manager()->store().Contains(""));
}
TEST_F(ManagerTest, DeviceRegistration) {
ON_CALL(*mock_devices_[0].get(), TechnologyIs(Technology::kEthernet))
.WillByDefault(Return(true));
ON_CALL(*mock_devices_[1].get(), TechnologyIs(Technology::kWifi))
.WillByDefault(Return(true));
ON_CALL(*mock_devices_[2].get(), TechnologyIs(Technology::kCellular))
.WillByDefault(Return(true));
manager()->RegisterDevice(mock_devices_[0]);
manager()->RegisterDevice(mock_devices_[1]);
manager()->RegisterDevice(mock_devices_[2]);
EXPECT_TRUE(IsDeviceRegistered(mock_devices_[0], Technology::kEthernet));
EXPECT_TRUE(IsDeviceRegistered(mock_devices_[1], Technology::kWifi));
EXPECT_TRUE(IsDeviceRegistered(mock_devices_[2], Technology::kCellular));
}
TEST_F(ManagerTest, DeviceRegistrationAndStart) {
manager()->running_ = true;
mock_devices_[0]->powered_ = true;
mock_devices_[1]->powered_ = false;
EXPECT_CALL(*mock_devices_[0].get(), Start())
.Times(1);
EXPECT_CALL(*mock_devices_[1].get(), Start())
.Times(0);
manager()->RegisterDevice(mock_devices_[0]);
manager()->RegisterDevice(mock_devices_[1]);
}
TEST_F(ManagerTest, DeviceRegistrationWithProfile) {
MockProfile *profile = new MockProfile(control_interface(), manager(), "");
DeviceRefPtr device_ref(mock_devices_[0].get());
AdoptProfile(manager(), profile); // Passes ownership.
EXPECT_CALL(*profile, ConfigureDevice(device_ref));
EXPECT_CALL(*profile, Save());
manager()->RegisterDevice(mock_devices_[0]);
}
TEST_F(ManagerTest, DeviceDeregistration) {
ON_CALL(*mock_devices_[0].get(), TechnologyIs(Technology::kEthernet))
.WillByDefault(Return(true));
ON_CALL(*mock_devices_[1].get(), TechnologyIs(Technology::kWifi))
.WillByDefault(Return(true));
manager()->RegisterDevice(mock_devices_[0]);
manager()->RegisterDevice(mock_devices_[1]);
ASSERT_TRUE(IsDeviceRegistered(mock_devices_[0], Technology::kEthernet));
ASSERT_TRUE(IsDeviceRegistered(mock_devices_[1], Technology::kWifi));
EXPECT_CALL(*mock_devices_[0].get(), Stop());
manager()->DeregisterDevice(mock_devices_[0]);
EXPECT_FALSE(IsDeviceRegistered(mock_devices_[0], Technology::kEthernet));
EXPECT_CALL(*mock_devices_[1].get(), Stop());
manager()->DeregisterDevice(mock_devices_[1]);
EXPECT_FALSE(IsDeviceRegistered(mock_devices_[1], Technology::kWifi));
}
TEST_F(ManagerTest, ServiceRegistration) {
// It's much easier and safer to use a real GLib for this test.
GLib glib;
Manager manager(control_interface(),
dispatcher(),
metrics(),
&glib,
run_path(),
storage_path(),
string());
ProfileRefPtr profile(CreateProfileForManager(&manager, &glib));
ASSERT_TRUE(profile.get());
AdoptProfile(&manager, profile);
scoped_refptr<MockService> mock_service(
new NiceMock<MockService>(control_interface(),
dispatcher(),
metrics(),
&manager));
scoped_refptr<MockService> mock_service2(
new NiceMock<MockService>(control_interface(),
dispatcher(),
metrics(),
&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));
// TODO(quiche): make this EXPECT_CALL work (crosbug.com/20154)
// EXPECT_CALL(*dynamic_cast<ManagerMockAdaptor *>(manager.adaptor_.get()),
// EmitRpcIdentifierArrayChanged(flimflam::kServicesProperty, _));
manager.RegisterService(mock_service);
manager.RegisterService(mock_service2);
Error error;
vector<string> rpc_ids = manager.EnumerateAvailableServices(&error);
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);
manager.Stop();
}
TEST_F(ManagerTest, RegisterKnownService) {
// It's much easier and safer to use a real GLib for this test.
GLib glib;
Manager manager(control_interface(),
dispatcher(),
metrics(),
&glib,
run_path(),
storage_path(),
string());
ProfileRefPtr profile(CreateProfileForManager(&manager, &glib));
ASSERT_TRUE(profile.get());
AdoptProfile(&manager, profile);
{
ServiceRefPtr service1(new ServiceUnderTest(control_interface(),
dispatcher(),
metrics(),
&manager));
ASSERT_TRUE(profile->AdoptService(service1));
ASSERT_TRUE(profile->ContainsService(service1));
} // Force destruction of service1.
ServiceRefPtr service2(new ServiceUnderTest(control_interface(),
dispatcher(),
metrics(),
&manager));
manager.RegisterService(service2);
EXPECT_EQ(service2->profile().get(), profile.get());
manager.Stop();
}
TEST_F(ManagerTest, RegisterUnknownService) {
// It's much easier and safer to use a real GLib for this test.
GLib glib;
Manager manager(control_interface(),
dispatcher(),
metrics(),
&glib,
run_path(),
storage_path(),
string());
ProfileRefPtr profile(CreateProfileForManager(&manager, &glib));
ASSERT_TRUE(profile.get());
AdoptProfile(&manager, profile);
{
ServiceRefPtr service1(new ServiceUnderTest(control_interface(),
dispatcher(),
metrics(),
&manager));
ASSERT_TRUE(profile->AdoptService(service1));
ASSERT_TRUE(profile->ContainsService(service1));
} // Force destruction of service1.
scoped_refptr<MockService> mock_service2(
new NiceMock<MockService>(control_interface(),
dispatcher(),
metrics(),
&manager));
EXPECT_CALL(*mock_service2.get(), GetStorageIdentifier())
.WillRepeatedly(Return(mock_service2->UniqueName()));
manager.RegisterService(mock_service2);
EXPECT_NE(mock_service2->profile().get(), profile.get());
manager.Stop();
}
TEST_F(ManagerTest, DeregisterUnregisteredService) {
// WiFi assumes that it can deregister a service that is not
// registered. (E.g. a hidden service can be deregistered when it
// loses its last endpoint, and again when WiFi is Stop()-ed.)
//
// So test that doing so doesn't cause a crash.
MockServiceRefPtr service = new NiceMock<MockService>(control_interface(),
dispatcher(),
metrics(),
manager());
manager()->DeregisterService(service);
}
TEST_F(ManagerTest, GetProperties) {
ProfileRefPtr profile(new MockProfile(control_interface(), manager(), ""));
AdoptProfile(manager(), profile);
map<string, ::DBus::Variant> props;
Error error(Error::kInvalidProperty, "");
{
::DBus::Error dbus_error;
string expected("portal_list");
manager()->mutable_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()->mutable_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) {
ProfileRefPtr profile(new MockProfile(control_interface(), manager(), ""));
AdoptProfile(manager(), profile);
manager()->RegisterDevice(mock_devices_[0]);
manager()->RegisterDevice(mock_devices_[1]);
{
map<string, ::DBus::Variant> props;
::DBus::Error dbus_error;
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) {
Manager manager(control_interface(),
dispatcher(),
metrics(),
glib(),
run_path(),
storage_path(),
string());
scoped_refptr<MockService> s2(new MockService(control_interface(),
dispatcher(),
metrics(),
&manager));
// Inject an actual profile, backed by a fake StoreInterface
{
Profile::Identifier id("irrelevant");
ProfileRefPtr profile(
new Profile(control_interface(), &manager, id, "", false));
MockStore *storage = new MockStore;
// Say we don't have |s2| the first time asked, then that we do.
EXPECT_CALL(*storage, ContainsGroup(s2->GetStorageIdentifier()))
.WillOnce(Return(false))
.WillRepeatedly(Return(true));
EXPECT_CALL(*storage, Flush())
.Times(AnyNumber())
.WillRepeatedly(Return(true));
profile->set_storage(storage);
AdoptProfile(&manager, profile);
}
// Create a profile that already has |s2| in it.
ProfileRefPtr profile(new EphemeralProfile(control_interface(), &manager));
profile->AdoptService(s2);
// Now, move the Service |s2| to another profile.
EXPECT_CALL(*s2.get(), Save(_)).WillOnce(Return(true));
ASSERT_TRUE(manager.MoveServiceToProfile(s2, manager.ActiveProfile()));
// Force destruction of the original Profile, to ensure that the Service
// is kept alive and populated with data.
profile = NULL;
ASSERT_TRUE(manager.ActiveProfile()->ContainsService(s2));
manager.Stop();
}
TEST_F(ManagerTest, SetProfileForService) {
scoped_refptr<MockProfile> profile0(
new MockProfile(control_interface(), manager(), ""));
string profile_name0("profile0");
EXPECT_CALL(*profile0, GetRpcIdentifier())
.WillRepeatedly(Return(profile_name0));
AdoptProfile(manager(), profile0);
scoped_refptr<MockService> service(new MockService(control_interface(),
dispatcher(),
metrics(),
manager()));
service->set_profile(profile0);
{
Error error;
manager()->SetProfileForService(service, "foo", &error);
EXPECT_EQ(Error::kInvalidArguments, error.type());
EXPECT_EQ("Unknown Profile requested for Service", error.message());
}
{
Error error;
manager()->SetProfileForService(service, profile_name0, &error);
EXPECT_EQ(Error::kInvalidArguments, error.type());
EXPECT_EQ("Service is already connected to this profile", error.message());
}
scoped_refptr<MockProfile> profile1(
new MockProfile(control_interface(), manager(), ""));
string profile_name1("profile1");
EXPECT_CALL(*profile1, GetRpcIdentifier())
.WillRepeatedly(Return(profile_name1));
AdoptProfile(manager(), profile1);
{
Error error;
EXPECT_CALL(*profile1, AdoptService(_))
.WillOnce(Return(true));
EXPECT_CALL(*profile0, AbandonService(_))
.WillOnce(Return(true));
manager()->SetProfileForService(service, profile_name1, &error);
EXPECT_TRUE(error.IsSuccess());
}
}
TEST_F(ManagerTest, CreateProfile) {
// It's much easier to use real Glib here since we want the storage
// side-effects.
GLib glib;
ScopedTempDir temp_dir;
ASSERT_TRUE(temp_dir.CreateUniqueTempDir());
Manager manager(control_interface(),
dispatcher(),
metrics(),
&glib,
run_path(),
storage_path(),
temp_dir.path().value());
// Invalid name should be rejected.
EXPECT_EQ(Error::kInvalidArguments, TestCreateProfile(&manager, ""));
// Valid name is still rejected because we can't create a profile
// that doesn't have a user component. Such profile names are
// reserved for the single DefaultProfile the manager creates
// at startup.
EXPECT_EQ(Error::kInvalidArguments, TestCreateProfile(&manager, "valid"));
// We should succeed in creating a valid user profile.
const char kProfile[] = "~user/profile";
EXPECT_EQ(Error::kSuccess, TestCreateProfile(&manager, kProfile));
// We should fail in creating it a second time (already exists).
EXPECT_EQ(Error::kAlreadyExists, TestCreateProfile(&manager, kProfile));
}
TEST_F(ManagerTest, PushPopProfile) {
// It's much easier to use real Glib in creating a Manager for this
// test here since we want the storage side-effects.
GLib glib;
ScopedTempDir temp_dir;
ASSERT_TRUE(temp_dir.CreateUniqueTempDir());
Manager manager(control_interface(),
dispatcher(),
metrics(),
&glib,
run_path(),
storage_path(),
temp_dir.path().value());
// Pushing an invalid profile should fail.
EXPECT_EQ(Error::kInvalidArguments, TestPushProfile(&manager, ""));
// Pushing a default profile name should fail.
EXPECT_EQ(Error::kInvalidArguments, TestPushProfile(&manager, "default"));
const char kProfile0[] = "~user/profile0";
const char kProfile1[] = "~user/profile1";
// Create a couple of profiles.
ASSERT_EQ(Error::kSuccess, TestCreateProfile(&manager, kProfile0));
ASSERT_EQ(Error::kSuccess, TestCreateProfile(&manager, kProfile1));
// Push these profiles on the stack.
EXPECT_EQ(Error::kSuccess, TestPushProfile(&manager, kProfile0));
EXPECT_EQ(Error::kSuccess, TestPushProfile(&manager, kProfile1));
// Pushing a profile a second time should fail.
EXPECT_EQ(Error::kAlreadyExists, TestPushProfile(&manager, kProfile0));
EXPECT_EQ(Error::kAlreadyExists, TestPushProfile(&manager, kProfile1));
Error error;
// Active profile should be the last one we pushed.
EXPECT_EQ(kProfile1, "~" + manager.ActiveProfile()->GetFriendlyName());
// Make sure a profile name that doesn't exist fails.
const char kProfile2Id[] = "profile2";
const string kProfile2 = base::StringPrintf("~user/%s", kProfile2Id);
EXPECT_EQ(Error::kNotFound, TestPushProfile(&manager, kProfile2));
// Create a new service, with a specific storage name.
scoped_refptr<MockService> service(
new NiceMock<MockService>(control_interface(),
dispatcher(),
metrics(),
&manager));
const char kServiceName[] = "service_storage_name";
EXPECT_CALL(*service.get(), GetStorageIdentifier())
.WillRepeatedly(Return(kServiceName));
EXPECT_CALL(*service.get(), Load(_))
.WillRepeatedly(Return(true));
// Add this service to the manager -- it should end up in the ephemeral
// profile.
manager.RegisterService(service);
ASSERT_EQ(GetEphemeralProfile(&manager), service->profile());
// Create storage for a profile that contains the service storage name.
ASSERT_TRUE(CreateBackingStoreForService(&temp_dir, kProfile2Id,
kServiceName));
// When we push the profile, the service should move away from the
// ephemeral profile to this new profile since it has an entry for
// this service.
EXPECT_EQ(Error::kSuccess, TestPushProfile(&manager, kProfile2));
EXPECT_NE(GetEphemeralProfile(&manager), service->profile());
EXPECT_EQ(kProfile2, "~" + service->profile()->GetFriendlyName());
// Insert another profile that should supersede ownership of the service.
const char kProfile3Id[] = "profile3";
const string kProfile3 = base::StringPrintf("~user/%s", kProfile3Id);
ASSERT_TRUE(CreateBackingStoreForService(&temp_dir, kProfile3Id,
kServiceName));
EXPECT_EQ(Error::kSuccess, TestPushProfile(&manager, kProfile3));
EXPECT_EQ(kProfile3, "~" + service->profile()->GetFriendlyName());
// Popping an invalid profile name should fail.
EXPECT_EQ(Error::kInvalidArguments, TestPopProfile(&manager, "~"));
// Popping an profile that is not at the top of the stack should fail.
EXPECT_EQ(Error::kNotSupported, TestPopProfile(&manager, kProfile0));
// Popping the top profile should succeed.
EXPECT_EQ(Error::kSuccess, TestPopProfile(&manager, kProfile3));
// Moreover the service should have switched profiles to profile 2.
EXPECT_EQ(kProfile2, "~" + service->profile()->GetFriendlyName());
// Popping the top profile should succeed.
EXPECT_EQ(Error::kSuccess, TestPopAnyProfile(&manager));
// The service should now revert to the ephemeral profile.
EXPECT_EQ(GetEphemeralProfile(&manager), service->profile());
// Pop the remaining two services off the stack.
EXPECT_EQ(Error::kSuccess, TestPopAnyProfile(&manager));
EXPECT_EQ(Error::kSuccess, TestPopAnyProfile(&manager));
// Next pop should fail with "stack is empty".
EXPECT_EQ(Error::kNotFound, TestPopAnyProfile(&manager));
}
// Use this matcher instead of passing RefPtrs directly into the arguments
// of EXPECT_CALL() because otherwise we may create un-cleaned-up references at
// system teardown.
MATCHER_P(IsRefPtrTo, ref_address, "") {
return arg.get() == ref_address;
}
TEST_F(ManagerTest, HandleProfileEntryDeletion) {
MockServiceRefPtr s_not_in_profile(
new NiceMock<MockService>(control_interface(),
dispatcher(),
metrics(),
manager()));
MockServiceRefPtr s_not_in_group(
new NiceMock<MockService>(control_interface(),
dispatcher(),
metrics(),
manager()));
MockServiceRefPtr s_configure_fail(
new NiceMock<MockService>(control_interface(),
dispatcher(),
metrics(),
manager()));
MockServiceRefPtr s_configure_succeed(
new NiceMock<MockService>(control_interface(),
dispatcher(),
metrics(),
manager()));
string entry_name("entry_name");
EXPECT_CALL(*s_not_in_profile.get(), GetStorageIdentifier()).Times(0);
EXPECT_CALL(*s_not_in_group.get(), GetStorageIdentifier())
.WillRepeatedly(Return("not_entry_name"));
EXPECT_CALL(*s_configure_fail.get(), GetStorageIdentifier())
.WillRepeatedly(Return(entry_name));
EXPECT_CALL(*s_configure_succeed.get(), GetStorageIdentifier())
.WillRepeatedly(Return(entry_name));
manager()->RegisterService(s_not_in_profile);
manager()->RegisterService(s_not_in_group);
manager()->RegisterService(s_configure_fail);
manager()->RegisterService(s_configure_succeed);
scoped_refptr<MockProfile> profile0(
new StrictMock<MockProfile>(control_interface(), manager(), ""));
scoped_refptr<MockProfile> profile1(
new StrictMock<MockProfile>(control_interface(), manager(), ""));
s_not_in_group->set_profile(profile1);
s_configure_fail->set_profile(profile1);
s_configure_succeed->set_profile(profile1);
AdoptProfile(manager(), profile0);
AdoptProfile(manager(), profile1);
// No services are a member of this profile.
EXPECT_FALSE(manager()->HandleProfileEntryDeletion(profile0, entry_name));
// No services that are members of this profile have this entry name.
EXPECT_FALSE(manager()->HandleProfileEntryDeletion(profile1, ""));
// Only services that are members of the profile and group will be abandoned.
EXPECT_CALL(*profile1.get(),
AbandonService(IsRefPtrTo(s_not_in_profile.get()))).Times(0);
EXPECT_CALL(*profile1.get(),
AbandonService(IsRefPtrTo(s_not_in_group.get()))).Times(0);
EXPECT_CALL(*profile1.get(),
AbandonService(IsRefPtrTo(s_configure_fail.get())))
.WillOnce(Return(true));
EXPECT_CALL(*profile1.get(),
AbandonService(IsRefPtrTo(s_configure_succeed.get())))
.WillOnce(Return(true));
// Never allow services to re-join profile1.
EXPECT_CALL(*profile1.get(), ConfigureService(_))
.WillRepeatedly(Return(false));
// Only allow one of the members of the profile and group to successfully
// join profile0.
EXPECT_CALL(*profile0.get(),
ConfigureService(IsRefPtrTo(s_not_in_profile.get()))).Times(0);
EXPECT_CALL(*profile0.get(),
ConfigureService(IsRefPtrTo(s_not_in_group.get()))).Times(0);
EXPECT_CALL(*profile0.get(),
ConfigureService(IsRefPtrTo(s_configure_fail.get())))
.WillOnce(Return(false));
EXPECT_CALL(*profile0.get(),
ConfigureService(IsRefPtrTo(s_configure_succeed.get())))
.WillOnce(Return(true));
// Expect the failed-to-configure service to have Unload() called on it.
EXPECT_CALL(*s_not_in_profile.get(), Unload()).Times(0);
EXPECT_CALL(*s_not_in_group.get(), Unload()).Times(0);
EXPECT_CALL(*s_configure_fail.get(), Unload()).Times(1);
EXPECT_CALL(*s_configure_succeed.get(), Unload()).Times(0);
EXPECT_TRUE(manager()->HandleProfileEntryDeletion(profile1, entry_name));
EXPECT_EQ(GetEphemeralProfile(manager()), s_not_in_profile->profile().get());
EXPECT_EQ(profile1, s_not_in_group->profile());
EXPECT_EQ(GetEphemeralProfile(manager()), s_configure_fail->profile());
// Since we are using a MockProfile, the profile does not actually change,
// since ConfigureService was not actually called on the service.
EXPECT_EQ(profile1, s_configure_succeed->profile());
}
TEST_F(ManagerTest, SetProperty) {
{
::DBus::Error error;
EXPECT_TRUE(DBusAdaptor::SetProperty(manager()->mutable_store(),
flimflam::kOfflineModeProperty,
PropertyStoreTest::kBoolV,
&error));
}
{
::DBus::Error error;
EXPECT_TRUE(DBusAdaptor::SetProperty(manager()->mutable_store(),
flimflam::kCountryProperty,
PropertyStoreTest::kStringV,
&error));
}
// Attempt to write with value of wrong type should return InvalidArgs.
{
::DBus::Error error;
EXPECT_FALSE(DBusAdaptor::SetProperty(manager()->mutable_store(),
flimflam::kCountryProperty,
PropertyStoreTest::kBoolV,
&error));
EXPECT_EQ(invalid_args(), error.name());
}
{
::DBus::Error error;
EXPECT_FALSE(DBusAdaptor::SetProperty(manager()->mutable_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::SetProperty(
manager()->mutable_store(),
flimflam::kEnabledTechnologiesProperty,
PropertyStoreTest::kStringsV,
&error));
EXPECT_EQ(invalid_args(), error.name());
}
}
TEST_F(ManagerTest, RequestScan) {
{
Error error;
manager()->RegisterDevice(mock_devices_[0].get());
manager()->RegisterDevice(mock_devices_[1].get());
EXPECT_CALL(*mock_devices_[0], TechnologyIs(Technology::kWifi))
.WillRepeatedly(Return(true));
EXPECT_CALL(*mock_devices_[0], Scan(_));
EXPECT_CALL(*mock_devices_[1], TechnologyIs(Technology::kWifi))
.WillRepeatedly(Return(false));
EXPECT_CALL(*mock_devices_[1], Scan(_)).Times(0);
manager()->RequestScan(flimflam::kTypeWifi, &error);
}
{
Error error;
manager()->RequestScan("bogus_device_type", &error);
EXPECT_EQ(Error::kInvalidArguments, error.type());
}
}
TEST_F(ManagerTest, GetServiceNoType) {
KeyValueStore args;
Error e;
manager()->GetService(args, &e);
EXPECT_EQ(Error::kInvalidArguments, e.type());
EXPECT_EQ("must specify service type", e.message());
}
TEST_F(ManagerTest, GetServiceUnknownType) {
KeyValueStore args;
Error e;
args.SetString(flimflam::kTypeProperty, flimflam::kTypeEthernet);
manager()->GetService(args, &e);
EXPECT_EQ(Error::kNotSupported, e.type());
EXPECT_EQ("service type is unsupported", e.message());
}
TEST_F(ManagerTest, GetServiceNoWifiDevice) {
KeyValueStore args;
Error e;
args.SetString(flimflam::kTypeProperty, flimflam::kTypeWifi);
manager()->GetService(args, &e);
EXPECT_EQ(Error::kInvalidArguments, e.type());
EXPECT_EQ("no wifi devices available", e.message());
}
TEST_F(ManagerTest, GetServiceWifi) {
KeyValueStore args;
Error e;
WiFiServiceRefPtr wifi_service;
args.SetString(flimflam::kTypeProperty, flimflam::kTypeWifi);
manager()->RegisterDevice(mock_wifi_);
EXPECT_CALL(*mock_wifi_, GetService(_, _))
.WillRepeatedly(Return(wifi_service));
manager()->GetService(args, &e);
EXPECT_TRUE(e.IsSuccess());
}
TEST_F(ManagerTest, GetServiceVPNUnknownType) {
KeyValueStore args;
Error e;
args.SetString(flimflam::kTypeProperty, flimflam::kTypeVPN);
ServiceRefPtr service = manager()->GetService(args, &e);
EXPECT_EQ(Error::kNotSupported, e.type());
EXPECT_FALSE(service);
}
TEST_F(ManagerTest, GetServiceVPN) {
KeyValueStore args;
Error e;
args.SetString(flimflam::kTypeProperty, flimflam::kTypeVPN);
args.SetString(flimflam::kProviderTypeProperty, flimflam::kProviderOpenVpn);
ServiceRefPtr service = manager()->GetService(args, &e);
EXPECT_TRUE(e.IsSuccess());
EXPECT_TRUE(service);
}
TEST_F(ManagerTest, TechnologyOrder) {
Error error;
manager()->SetTechnologyOrder(string(flimflam::kTypeEthernet) + "," +
string(flimflam::kTypeWifi), &error);
ASSERT_TRUE(error.IsSuccess());
EXPECT_EQ(manager()->GetTechnologyOrder(),
string(flimflam::kTypeEthernet) + "," +
string(flimflam::kTypeWifi));
manager()->SetTechnologyOrder(string(flimflam::kTypeEthernet) + "x," +
string(flimflam::kTypeWifi), &error);
ASSERT_FALSE(error.IsSuccess());
EXPECT_EQ(Error::kInvalidArguments, error.type());
EXPECT_EQ(string(flimflam::kTypeEthernet) + "," +
string(flimflam::kTypeWifi),
manager()->GetTechnologyOrder());
}
TEST_F(ManagerTest, SortServices) {
// TODO(quiche): Some of these tests would probably fit better in
// service_unittest, since the actual comparison of Services is
// implemented in Service. (crosbug.com/23370)
scoped_refptr<MockService> mock_service0(
new NiceMock<MockService>(control_interface(),
dispatcher(),
metrics(),
manager()));
scoped_refptr<MockService> mock_service1(
new NiceMock<MockService>(control_interface(),
dispatcher(),
metrics(),
manager()));
manager()->RegisterService(mock_service0);
manager()->RegisterService(mock_service1);
// Services should already be sorted by UniqueName
EXPECT_TRUE(ServiceOrderIs(mock_service0, mock_service1));
// Asking explictly to sort services should not change anything
manager()->SortServices();
EXPECT_TRUE(ServiceOrderIs(mock_service0, mock_service1));
// Two otherwise equal services should be reordered by strength
mock_service1->SetStrength(1);
manager()->UpdateService(mock_service1);
EXPECT_TRUE(ServiceOrderIs(mock_service1, mock_service0));
// Security
mock_service0->set_security_level(1);
manager()->UpdateService(mock_service0);
EXPECT_TRUE(ServiceOrderIs(mock_service0, mock_service1));
// Technology
EXPECT_CALL(*mock_service0.get(), TechnologyIs(Technology::kWifi))
.WillRepeatedly(Return(true));
EXPECT_CALL(*mock_service1.get(), TechnologyIs(Technology::kEthernet))
.WillRepeatedly(Return(true));
// NB: Redefine default (false) return values so we don't use the default rule
// which makes the logs noisier
EXPECT_CALL(*mock_service0.get(), TechnologyIs(Ne(Technology::kWifi)))
.WillRepeatedly(Return(false));
EXPECT_CALL(*mock_service1.get(), TechnologyIs(Ne(Technology::kEthernet)))
.WillRepeatedly(Return(false));
Error error;
// Default technology ordering should favor Ethernet over WiFi.
manager()->SortServices();
EXPECT_TRUE(ServiceOrderIs(mock_service1, mock_service0));
manager()->SetTechnologyOrder(string(flimflam::kTypeWifi) + "," +
string(flimflam::kTypeEthernet), &error);
EXPECT_TRUE(error.IsSuccess());
EXPECT_TRUE(ServiceOrderIs(mock_service0, mock_service1));
// Priority.
mock_service0->set_priority(1);
manager()->UpdateService(mock_service0);
EXPECT_TRUE(ServiceOrderIs(mock_service0, mock_service1));
// Favorite.
mock_service1->MakeFavorite();
manager()->UpdateService(mock_service1);
EXPECT_TRUE(ServiceOrderIs(mock_service1, mock_service0));
// Auto-connect.
mock_service0->set_auto_connect(true);
manager()->UpdateService(mock_service0);
mock_service1->set_auto_connect(false);
manager()->UpdateService(mock_service1);
EXPECT_TRUE(ServiceOrderIs(mock_service0, mock_service1));
// Connectable.
mock_service1->set_connectable(true);
manager()->UpdateService(mock_service1);
mock_service0->set_connectable(false);
manager()->UpdateService(mock_service0);
EXPECT_TRUE(ServiceOrderIs(mock_service1, mock_service0));
// IsFailed.
EXPECT_CALL(*mock_service0.get(), state())
.WillRepeatedly(Return(Service::kStateIdle));
EXPECT_CALL(*mock_service0.get(), IsFailed())
.WillRepeatedly(Return(false));
manager()->UpdateService(mock_service0);
EXPECT_CALL(*mock_service0.get(), state())
.WillRepeatedly(Return(Service::kStateFailure));
EXPECT_CALL(*mock_service1.get(), IsFailed())
.WillRepeatedly(Return(true));
manager()->UpdateService(mock_service1);
EXPECT_TRUE(ServiceOrderIs(mock_service0, mock_service1));
// Connecting.
EXPECT_CALL(*mock_service1.get(), state())
.WillRepeatedly(Return(Service::kStateAssociating));
EXPECT_CALL(*mock_service1.get(), IsConnecting())
.WillRepeatedly(Return(true));
manager()->UpdateService(mock_service1);
EXPECT_TRUE(ServiceOrderIs(mock_service1, mock_service0));
// Connected.
EXPECT_CALL(*mock_service0.get(), state())
.WillRepeatedly(Return(Service::kStateConnected));
EXPECT_CALL(*mock_service0.get(), IsConnected())
.WillRepeatedly(Return(true));
manager()->UpdateService(mock_service0);
EXPECT_TRUE(ServiceOrderIs(mock_service0, mock_service1));
manager()->DeregisterService(mock_service0);
manager()->DeregisterService(mock_service1);
}
TEST_F(ManagerTest, SortServicesWithConnection) {
MockMetrics mock_metrics;
manager()->set_metrics(&mock_metrics);
scoped_refptr<MockService> mock_service0(
new NiceMock<MockService>(control_interface(),
dispatcher(),
metrics(),
manager()));
scoped_refptr<MockService> mock_service1(
new NiceMock<MockService>(control_interface(),
dispatcher(),
metrics(),
manager()));
scoped_refptr<MockConnection> mock_connection0(
new NiceMock<MockConnection>(device_info_.get()));
scoped_refptr<MockConnection> mock_connection1(
new NiceMock<MockConnection>(device_info_.get()));
manager()->RegisterService(mock_service0);
manager()->RegisterService(mock_service1);
mock_service0->connection_ = mock_connection0;
mock_service1->connection_ = mock_connection1;
EXPECT_CALL(*mock_connection0.get(), SetIsDefault(true));
EXPECT_CALL(mock_metrics, NotifyDefaultServiceChanged(mock_service0.get()));
manager()->SortServices();
mock_service1->set_priority(1);
EXPECT_CALL(*mock_connection0.get(), SetIsDefault(false));
EXPECT_CALL(*mock_connection1.get(), SetIsDefault(true));
EXPECT_CALL(mock_metrics, NotifyDefaultServiceChanged(mock_service1.get()));
manager()->SortServices();
EXPECT_CALL(*mock_connection0.get(), SetIsDefault(true));
EXPECT_CALL(mock_metrics, NotifyDefaultServiceChanged(mock_service0.get()));
mock_service1->connection_ = NULL;
manager()->DeregisterService(mock_service1);
mock_service0->connection_ = NULL;
manager()->DeregisterService(mock_service0);
}
TEST_F(ManagerTest, AvailableTechnologies) {
mock_devices_.push_back(new NiceMock<MockDevice>(control_interface(),
dispatcher(),
metrics(),
manager(),
"null4",
"addr4",
0));
manager()->RegisterDevice(mock_devices_[0]);
manager()->RegisterDevice(mock_devices_[1]);
manager()->RegisterDevice(mock_devices_[2]);
manager()->RegisterDevice(mock_devices_[3]);
ON_CALL(*mock_devices_[0].get(), technology())
.WillByDefault(Return(Technology::kEthernet));
ON_CALL(*mock_devices_[1].get(), technology())
.WillByDefault(Return(Technology::kWifi));
ON_CALL(*mock_devices_[2].get(), technology())
.WillByDefault(Return(Technology::kCellular));
ON_CALL(*mock_devices_[3].get(), technology())
.WillByDefault(Return(Technology::kWifi));
set<string> expected_technologies;
expected_technologies.insert(Technology::NameFromIdentifier(
Technology::kEthernet));
expected_technologies.insert(Technology::NameFromIdentifier(
Technology::kWifi));
expected_technologies.insert(Technology::NameFromIdentifier(
Technology::kCellular));
Error error;
vector<string> technologies = manager()->AvailableTechnologies(&error);
EXPECT_THAT(set<string>(technologies.begin(), technologies.end()),
ContainerEq(expected_technologies));
}
TEST_F(ManagerTest, ConnectedTechnologies) {
scoped_refptr<MockService> connected_service1(
new NiceMock<MockService>(control_interface(),
dispatcher(),
metrics(),
manager()));
scoped_refptr<MockService> connected_service2(
new NiceMock<MockService>(control_interface(),
dispatcher(),
metrics(),
manager()));
scoped_refptr<MockService> disconnected_service1(
new NiceMock<MockService>(control_interface(),
dispatcher(),
metrics(),
manager()));
scoped_refptr<MockService> disconnected_service2(
new NiceMock<MockService>(control_interface(),
dispatcher(),
metrics(),
manager()));
ON_CALL(*connected_service1.get(), IsConnected())
.WillByDefault(Return(true));
ON_CALL(*connected_service2.get(), IsConnected())
.WillByDefault(Return(true));
manager()->RegisterService(connected_service1);
manager()->RegisterService(connected_service2);
manager()->RegisterService(disconnected_service1);
manager()->RegisterService(disconnected_service2);
manager()->RegisterDevice(mock_devices_[0]);
manager()->RegisterDevice(mock_devices_[1]);
manager()->RegisterDevice(mock_devices_[2]);
manager()->RegisterDevice(mock_devices_[3]);
ON_CALL(*mock_devices_[0].get(), technology())
.WillByDefault(Return(Technology::kEthernet));
ON_CALL(*mock_devices_[1].get(), technology())
.WillByDefault(Return(Technology::kWifi));
ON_CALL(*mock_devices_[2].get(), technology())
.WillByDefault(Return(Technology::kCellular));
ON_CALL(*mock_devices_[3].get(), technology())
.WillByDefault(Return(Technology::kWifi));
mock_devices_[0]->SelectService(connected_service1);
mock_devices_[1]->SelectService(disconnected_service1);
mock_devices_[2]->SelectService(disconnected_service2);
mock_devices_[3]->SelectService(connected_service2);
set<string> expected_technologies;
expected_technologies.insert(Technology::NameFromIdentifier(
Technology::kEthernet));
expected_technologies.insert(Technology::NameFromIdentifier(
Technology::kWifi));
Error error;
vector<string> technologies = manager()->ConnectedTechnologies(&error);
EXPECT_THAT(set<string>(technologies.begin(), technologies.end()),
ContainerEq(expected_technologies));
}
TEST_F(ManagerTest, DefaultTechnology) {
scoped_refptr<MockService> connected_service(
new NiceMock<MockService>(control_interface(),
dispatcher(),
metrics(),
manager()));
scoped_refptr<MockService> disconnected_service(
new NiceMock<MockService>(control_interface(),
dispatcher(),
metrics(),
manager()));
// Connected. WiFi.
ON_CALL(*connected_service.get(), IsConnected())
.WillByDefault(Return(true));
ON_CALL(*connected_service.get(), state())
.WillByDefault(Return(Service::kStateConnected));
ON_CALL(*connected_service.get(), technology())
.WillByDefault(Return(Technology::kWifi));
// Disconnected. Ethernet.
ON_CALL(*disconnected_service.get(), technology())
.WillByDefault(Return(Technology::kEthernet));
manager()->RegisterService(disconnected_service);
Error error;
EXPECT_THAT(manager()->DefaultTechnology(&error), StrEq(""));
manager()->RegisterService(connected_service);
// Connected service should be brought to the front now.
string expected_technology =
Technology::NameFromIdentifier(Technology::kWifi);
EXPECT_THAT(manager()->DefaultTechnology(&error), StrEq(expected_technology));
}
TEST_F(ManagerTest, DisconnectServicesOnStop) {
scoped_refptr<MockService> mock_service(
new NiceMock<MockService>(control_interface(),
dispatcher(),
metrics(),
manager()));
manager()->RegisterService(mock_service);
EXPECT_CALL(*mock_service.get(), Disconnect(_)).Times(1);
manager()->Stop();
}
TEST_F(ManagerTest, UpdateServiceConnected) {
scoped_refptr<MockService> mock_service(
new NiceMock<MockService>(control_interface(),
dispatcher(),
metrics(),
manager()));
manager()->RegisterService(mock_service);
EXPECT_FALSE(mock_service->favorite());
EXPECT_FALSE(mock_service->auto_connect());
EXPECT_CALL(*mock_service.get(), IsConnected())
.WillRepeatedly(Return(true));
manager()->UpdateService(mock_service);
// We can't EXPECT_CALL(..., MakeFavorite), because that requires us
// to mock out MakeFavorite. And mocking that out would break the
// SortServices test. (crosbug.com/23370)
EXPECT_TRUE(mock_service->favorite());
EXPECT_TRUE(mock_service->auto_connect());
}
TEST_F(ManagerTest, UpdateServiceConnectedPersistFavorite) {
// This tests the case where the user connects to a service that is
// currently associated with a profile. We want to make sure that the
// favorite flag is set and that the flag is saved to the current
// profile.
scoped_refptr<MockService> mock_service(
new NiceMock<MockService>(control_interface(),
dispatcher(),
metrics(),
manager()));
manager()->RegisterService(mock_service);
EXPECT_FALSE(mock_service->favorite());
EXPECT_FALSE(mock_service->auto_connect());
ProfileRefPtr profile(new MockProfile(control_interface(), manager(), ""));
mock_service->set_profile(profile);
EXPECT_CALL(*mock_service.get(), IsConnected())
.WillRepeatedly(Return(true));
EXPECT_CALL(*mock_service.get(), SaveToCurrentProfile());
manager()->UpdateService(mock_service);
// We can't EXPECT_CALL(..., MakeFavorite), because that requires us
// to mock out MakeFavorite. And mocking that out would break the
// SortServices test. (crosbug.com/23370)
EXPECT_TRUE(mock_service->favorite());
EXPECT_TRUE(mock_service->auto_connect());
}
TEST_F(ManagerTest, SaveSuccessfulService) {
scoped_refptr<MockProfile> profile(
new StrictMock<MockProfile>(control_interface(), manager(), ""));
AdoptProfile(manager(), profile);
scoped_refptr<MockService> service(
new NiceMock<MockService>(control_interface(),
dispatcher(),
metrics(),
manager()));
// Re-cast this back to a ServiceRefPtr, so EXPECT arguments work correctly.
ServiceRefPtr expect_service(service.get());
EXPECT_CALL(*profile.get(), ConfigureService(expect_service))
.WillOnce(Return(false));
manager()->RegisterService(service);
EXPECT_CALL(*service.get(), state())
.WillRepeatedly(Return(Service::kStateConnected));
EXPECT_CALL(*service.get(), IsConnected())
.WillRepeatedly(Return(true));
EXPECT_CALL(*profile.get(), AdoptService(expect_service))
.WillOnce(Return(true));
manager()->UpdateService(service);
}
TEST_F(ManagerTest, EnumerateProfiles) {
vector<string> profile_paths;
for (size_t i = 0; i < 10; i++) {
scoped_refptr<MockProfile> profile(
new StrictMock<MockProfile>(control_interface(), manager(), ""));
profile_paths.push_back(base::StringPrintf("/profile/%zd", i));
EXPECT_CALL(*profile.get(), GetRpcIdentifier())
.WillOnce(Return(profile_paths.back()));
AdoptProfile(manager(), profile);
}
Error error;
vector<string> returned_paths = manager()->EnumerateProfiles(&error);
EXPECT_TRUE(error.IsSuccess());
EXPECT_EQ(profile_paths.size(), returned_paths.size());
for (size_t i = 0; i < profile_paths.size(); i++) {
EXPECT_EQ(profile_paths[i], returned_paths[i]);
}
}
TEST_F(ManagerTest, AutoConnectOnRegister) {
MockServiceRefPtr service = MakeAutoConnectableService();
EXPECT_CALL(*service.get(), AutoConnect());
manager()->RegisterService(service);
dispatcher()->DispatchPendingEvents();
}
TEST_F(ManagerTest, AutoConnectOnUpdate) {
MockServiceRefPtr service1 = MakeAutoConnectableService();
service1->set_priority(1);
MockServiceRefPtr service2 = MakeAutoConnectableService();
service2->set_priority(2);
manager()->RegisterService(service1);
manager()->RegisterService(service2);
dispatcher()->DispatchPendingEvents();
EXPECT_CALL(*service1.get(), AutoConnect());
EXPECT_CALL(*service2.get(), state())
.WillRepeatedly(Return(Service::kStateFailure));
EXPECT_CALL(*service2.get(), IsFailed())
.WillRepeatedly(Return(true));
EXPECT_CALL(*service2.get(), IsConnected())
.WillRepeatedly(Return(false));
manager()->UpdateService(service2);
dispatcher()->DispatchPendingEvents();
}
TEST_F(ManagerTest, AutoConnectOnDeregister) {
MockServiceRefPtr service1 = MakeAutoConnectableService();
service1->set_priority(1);
MockServiceRefPtr service2 = MakeAutoConnectableService();
service2->set_priority(2);
manager()->RegisterService(service1);
manager()->RegisterService(service2);
dispatcher()->DispatchPendingEvents();
EXPECT_CALL(*service1.get(), AutoConnect());
manager()->DeregisterService(service2);
dispatcher()->DispatchPendingEvents();
}
} // namespace shill