device/geolocation/location_arbitrator_unittest.cc - chromium/src - Git at Google

 // Copyright (c) 2012 The Chromium 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 "device/geolocation/location_arbitrator.h"

 #include <memory>
 #include <utility>

 #include "base/bind.h"
 #include "base/memory/ptr_util.h"
 #include "device/geolocation/fake_access_token_store.h"
 #include "device/geolocation/fake_location_provider.h"
 #include "device/geolocation/geolocation_delegate.h"
 #include "device/geolocation/geoposition.h"
 #include "testing/gmock/include/gmock/gmock.h"
 #include "testing/gtest/include/gtest/gtest.h"

 using ::testing::NiceMock;

 namespace device {
 namespace {

 class MockLocationObserver {
  public:
   virtual ~MockLocationObserver() {}
   void InvalidateLastPosition() {
     last_position_.latitude = 100;
     last_position_.error_code = Geoposition::ERROR_CODE_NONE;
     ASSERT_FALSE(last_position_.Validate());
   }
   void OnLocationUpdate(const LocationProvider* provider,
                         const Geoposition& position) {
     last_position_ = position;
   }

   Geoposition last_position() { return last_position_; }

  private:
   Geoposition last_position_;
 };

 double g_fake_time_now_secs = 1;

 base::Time GetTimeNowForTest() {
   return base::Time::FromDoubleT(g_fake_time_now_secs);
 }

 void AdvanceTimeNow(const base::TimeDelta& delta) {
   g_fake_time_now_secs += delta.InSecondsF();
 }

 void SetPositionFix(FakeLocationProvider* provider,
                     double latitude,
                     double longitude,
                     double accuracy) {
   Geoposition position;
   position.error_code = Geoposition::ERROR_CODE_NONE;
   position.latitude = latitude;
   position.longitude = longitude;
   position.accuracy = accuracy;
   position.timestamp = GetTimeNowForTest();
   ASSERT_TRUE(position.Validate());
   provider->HandlePositionChanged(position);
 }

 // TODO(lethalantidote): Populate a Geoposition in the class from kConstants
 // and then just copy that with "=" versus using a helper function.
 void SetReferencePosition(FakeLocationProvider* provider) {
   SetPositionFix(provider, 51.0, -0.1, 400);
 }

 }  // namespace

 class FakeGeolocationDelegate : public GeolocationDelegate {
  public:
   FakeGeolocationDelegate() = default;

   bool UseNetworkLocationProviders() override { return use_network_; }
   void set_use_network(bool use_network) { use_network_ = use_network; }

   std::unique_ptr<LocationProvider> OverrideSystemLocationProvider() override {
     DCHECK(!mock_location_provider_);
     mock_location_provider_ = new FakeLocationProvider;
     return base::WrapUnique(mock_location_provider_);
   }

   FakeLocationProvider* mock_location_provider() const {
     return mock_location_provider_;
   }

  private:
   bool use_network_ = true;
   FakeLocationProvider* mock_location_provider_ = nullptr;

   DISALLOW_COPY_AND_ASSIGN(FakeGeolocationDelegate);
 };

 class TestingLocationArbitrator : public LocationArbitrator {
  public:
   TestingLocationArbitrator(
       const LocationProviderUpdateCallback& callback,
       const scoped_refptr<AccessTokenStore>& access_token_store,
       std::unique_ptr<GeolocationDelegate> delegate)
       : LocationArbitrator(std::move(delegate)),
         cell_(nullptr),
         gps_(nullptr),
         access_token_store_(access_token_store) {
     SetUpdateCallback(callback);
   }

   base::Time GetTimeNow() const override { return GetTimeNowForTest(); }

   scoped_refptr<AccessTokenStore> NewAccessTokenStore() override {
     return access_token_store_;
   }

   std::unique_ptr<LocationProvider> NewNetworkLocationProvider(
       const scoped_refptr<AccessTokenStore>& access_token_store,
       const scoped_refptr<net::URLRequestContextGetter>& context,
       const GURL& url,
       const base::string16& access_token) override {
     cell_ = new FakeLocationProvider;
     return base::WrapUnique(cell_);
   }

   std::unique_ptr<LocationProvider> NewSystemLocationProvider() override {
     gps_ = new FakeLocationProvider;
     return base::WrapUnique(gps_);
   }

   // Two location providers, with nice short names to make the tests more
   // readable. Note |gps_| will only be set when there is a high accuracy
   // observer registered (and |cell_| when there's at least one observer of any
   // type).
   // TODO(mvanouwerkerk): rename |cell_| to |network_location_provider_| and
   // |gps_| to |gps_location_provider_|
   FakeLocationProvider* cell_;
   FakeLocationProvider* gps_;
   const scoped_refptr<AccessTokenStore> access_token_store_;
 };

 class GeolocationLocationArbitratorTest : public testing::Test {
  protected:
   GeolocationLocationArbitratorTest()
       : access_token_store_(new NiceMock<FakeAccessTokenStore>),
         observer_(new MockLocationObserver),
         delegate_(new GeolocationDelegate) {}

   // Initializes |arbitrator_|, with the possibility of injecting a specific
   // |delegate|, otherwise a default, no-op GeolocationDelegate is used.
   void InitializeArbitrator(std::unique_ptr<GeolocationDelegate> delegate) {
     if (delegate)
       delegate_ = std::move(delegate);
     const LocationProvider::LocationProviderUpdateCallback callback =
         base::Bind(&MockLocationObserver::OnLocationUpdate,
                    base::Unretained(observer_.get()));
     arbitrator_.reset(new TestingLocationArbitrator(
         callback, access_token_store_, std::move(delegate_)));
   }

   // testing::Test
   void TearDown() override {}

   void CheckLastPositionInfo(double latitude,
                              double longitude,
                              double accuracy) {
     Geoposition geoposition = observer_->last_position();
     EXPECT_TRUE(geoposition.Validate());
     EXPECT_DOUBLE_EQ(latitude, geoposition.latitude);
     EXPECT_DOUBLE_EQ(longitude, geoposition.longitude);
     EXPECT_DOUBLE_EQ(accuracy, geoposition.accuracy);
   }

   base::TimeDelta SwitchOnFreshnessCliff() {
     // Add 1, to ensure it meets any greater-than test.
     return base::TimeDelta::FromMilliseconds(
         LocationArbitrator::kFixStaleTimeoutMilliseconds + 1);
   }

   FakeLocationProvider* cell() { return arbitrator_->cell_; }

   FakeLocationProvider* gps() { return arbitrator_->gps_; }

   const scoped_refptr<FakeAccessTokenStore> access_token_store_;
   const std::unique_ptr<MockLocationObserver> observer_;
   std::unique_ptr<TestingLocationArbitrator> arbitrator_;
   std::unique_ptr<GeolocationDelegate> delegate_;
   const base::MessageLoop loop_;
 };

 TEST_F(GeolocationLocationArbitratorTest, CreateDestroy) {
   EXPECT_TRUE(access_token_store_.get());
   InitializeArbitrator(nullptr);
   EXPECT_TRUE(arbitrator_);
   arbitrator_.reset();
   SUCCEED();
 }

 TEST_F(GeolocationLocationArbitratorTest, OnPermissionGranted) {
   InitializeArbitrator(nullptr);
   EXPECT_FALSE(arbitrator_->HasPermissionBeenGrantedForTest());
   arbitrator_->OnPermissionGranted();
   EXPECT_TRUE(arbitrator_->HasPermissionBeenGrantedForTest());
   // Can't check the provider has been notified without going through the
   // motions to create the provider (see next test).
   EXPECT_FALSE(cell());
   EXPECT_FALSE(gps());
 }

 TEST_F(GeolocationLocationArbitratorTest, NormalUsage) {
   InitializeArbitrator(nullptr);
   ASSERT_TRUE(access_token_store_.get());
   ASSERT_TRUE(arbitrator_);

   EXPECT_FALSE(cell());
   EXPECT_FALSE(gps());
   arbitrator_->StartProvider(false);

   EXPECT_TRUE(access_token_store_->access_token_map_.empty());

   access_token_store_->NotifyDelegateTokensLoaded();
   ASSERT_TRUE(cell());
   EXPECT_TRUE(gps());
   EXPECT_EQ(FakeLocationProvider::LOW_ACCURACY, cell()->state_);
   EXPECT_EQ(FakeLocationProvider::LOW_ACCURACY, gps()->state_);
   EXPECT_FALSE(observer_->last_position().Validate());
   EXPECT_EQ(Geoposition::ERROR_CODE_NONE,
             observer_->last_position().error_code);

   SetReferencePosition(cell());

   EXPECT_TRUE(observer_->last_position().Validate() ||
               observer_->last_position().error_code !=
                   Geoposition::ERROR_CODE_NONE);
   EXPECT_EQ(cell()->GetPosition().latitude,
             observer_->last_position().latitude);

   EXPECT_FALSE(cell()->is_permission_granted());
   EXPECT_FALSE(arbitrator_->HasPermissionBeenGrantedForTest());
   arbitrator_->OnPermissionGranted();
   EXPECT_TRUE(arbitrator_->HasPermissionBeenGrantedForTest());
   EXPECT_TRUE(cell()->is_permission_granted());
 }

 TEST_F(GeolocationLocationArbitratorTest, CustomSystemProviderOnly) {
   FakeGeolocationDelegate* fake_delegate = new FakeGeolocationDelegate;
   fake_delegate->set_use_network(false);

   std::unique_ptr<GeolocationDelegate> delegate(fake_delegate);
   InitializeArbitrator(std::move(delegate));
   ASSERT_TRUE(arbitrator_);

   EXPECT_FALSE(cell());
   EXPECT_FALSE(gps());
   arbitrator_->StartProvider(false);

   ASSERT_FALSE(cell());
   EXPECT_FALSE(gps());
   ASSERT_TRUE(fake_delegate->mock_location_provider());
   EXPECT_EQ(FakeLocationProvider::LOW_ACCURACY,
             fake_delegate->mock_location_provider()->state_);
   EXPECT_FALSE(observer_->last_position().Validate());
   EXPECT_EQ(Geoposition::ERROR_CODE_NONE,
             observer_->last_position().error_code);

   SetReferencePosition(fake_delegate->mock_location_provider());

   EXPECT_TRUE(observer_->last_position().Validate() ||
               observer_->last_position().error_code !=
                   Geoposition::ERROR_CODE_NONE);
   EXPECT_EQ(fake_delegate->mock_location_provider()->GetPosition().latitude,
             observer_->last_position().latitude);

   EXPECT_FALSE(
       fake_delegate->mock_location_provider()->is_permission_granted());
   EXPECT_FALSE(arbitrator_->HasPermissionBeenGrantedForTest());
   arbitrator_->OnPermissionGranted();
   EXPECT_TRUE(arbitrator_->HasPermissionBeenGrantedForTest());
   EXPECT_TRUE(fake_delegate->mock_location_provider()->is_permission_granted());
 }

 TEST_F(GeolocationLocationArbitratorTest,
        CustomSystemAndDefaultNetworkProviders) {
   FakeGeolocationDelegate* fake_delegate = new FakeGeolocationDelegate;
   fake_delegate->set_use_network(true);

   std::unique_ptr<GeolocationDelegate> delegate(fake_delegate);
   InitializeArbitrator(std::move(delegate));
   ASSERT_TRUE(arbitrator_);

   EXPECT_FALSE(cell());
   EXPECT_FALSE(gps());
   arbitrator_->StartProvider(false);

   EXPECT_TRUE(access_token_store_->access_token_map_.empty());

   access_token_store_->NotifyDelegateTokensLoaded();

   ASSERT_TRUE(cell());
   EXPECT_FALSE(gps());
   ASSERT_TRUE(fake_delegate->mock_location_provider());
   EXPECT_EQ(FakeLocationProvider::LOW_ACCURACY,
             fake_delegate->mock_location_provider()->state_);
   EXPECT_EQ(FakeLocationProvider::LOW_ACCURACY, cell()->state_);
   EXPECT_FALSE(observer_->last_position().Validate());
   EXPECT_EQ(Geoposition::ERROR_CODE_NONE,
             observer_->last_position().error_code);

   SetReferencePosition(cell());

   EXPECT_TRUE(observer_->last_position().Validate() ||
               observer_->last_position().error_code !=
                   Geoposition::ERROR_CODE_NONE);
   EXPECT_EQ(cell()->GetPosition().latitude,
             observer_->last_position().latitude);

   EXPECT_FALSE(cell()->is_permission_granted());
   EXPECT_FALSE(arbitrator_->HasPermissionBeenGrantedForTest());
   arbitrator_->OnPermissionGranted();
   EXPECT_TRUE(arbitrator_->HasPermissionBeenGrantedForTest());
   EXPECT_TRUE(cell()->is_permission_granted());
 }

 TEST_F(GeolocationLocationArbitratorTest, SetObserverOptions) {
   InitializeArbitrator(nullptr);
   arbitrator_->StartProvider(false);
   access_token_store_->NotifyDelegateTokensLoaded();
   ASSERT_TRUE(cell());
   ASSERT_TRUE(gps());
   EXPECT_EQ(FakeLocationProvider::LOW_ACCURACY, cell()->state_);
   EXPECT_EQ(FakeLocationProvider::LOW_ACCURACY, gps()->state_);
   SetReferencePosition(cell());
   EXPECT_EQ(FakeLocationProvider::LOW_ACCURACY, cell()->state_);
   EXPECT_EQ(FakeLocationProvider::LOW_ACCURACY, gps()->state_);
   arbitrator_->StartProvider(true);
   EXPECT_EQ(FakeLocationProvider::HIGH_ACCURACY, cell()->state_);
   EXPECT_EQ(FakeLocationProvider::HIGH_ACCURACY, gps()->state_);
 }

 TEST_F(GeolocationLocationArbitratorTest, Arbitration) {
   InitializeArbitrator(nullptr);
   arbitrator_->StartProvider(false);
   access_token_store_->NotifyDelegateTokensLoaded();
   ASSERT_TRUE(cell());
   ASSERT_TRUE(gps());

   SetPositionFix(cell(), 1, 2, 150);

   // First position available
   EXPECT_TRUE(observer_->last_position().Validate());
   CheckLastPositionInfo(1, 2, 150);

   SetPositionFix(gps(), 3, 4, 50);

   // More accurate fix available
   CheckLastPositionInfo(3, 4, 50);

   SetPositionFix(cell(), 5, 6, 150);

   // New fix is available but it's less accurate, older fix should be kept.
   CheckLastPositionInfo(3, 4, 50);

   // Advance time, and notify once again
   AdvanceTimeNow(SwitchOnFreshnessCliff());
   cell()->HandlePositionChanged(cell()->GetPosition());

   // New fix is available, less accurate but fresher
   CheckLastPositionInfo(5, 6, 150);

   // Advance time, and set a low accuracy position
   AdvanceTimeNow(SwitchOnFreshnessCliff());
   SetPositionFix(cell(), 5.676731, 139.629385, 1000);
   CheckLastPositionInfo(5.676731, 139.629385, 1000);

   // 15 secs later, step outside. Switches to gps signal.
   AdvanceTimeNow(base::TimeDelta::FromSeconds(15));
   SetPositionFix(gps(), 3.5676457, 139.629198, 50);
   CheckLastPositionInfo(3.5676457, 139.629198, 50);

   // 5 mins later switch cells while walking. Stay on gps.
   AdvanceTimeNow(base::TimeDelta::FromMinutes(5));
   SetPositionFix(cell(), 3.567832, 139.634648, 300);
   SetPositionFix(gps(), 3.5677675, 139.632314, 50);
   CheckLastPositionInfo(3.5677675, 139.632314, 50);

   // Ride train and gps signal degrades slightly. Stay on fresher gps
   AdvanceTimeNow(base::TimeDelta::FromMinutes(5));
   SetPositionFix(gps(), 3.5679026, 139.634777, 300);
   CheckLastPositionInfo(3.5679026, 139.634777, 300);

   // 14 minutes later
   AdvanceTimeNow(base::TimeDelta::FromMinutes(14));

   // GPS reading misses a beat, but don't switch to cell yet to avoid
   // oscillating.
   SetPositionFix(gps(), 3.5659005, 139.682579, 300);

   AdvanceTimeNow(base::TimeDelta::FromSeconds(7));
   SetPositionFix(cell(), 3.5689579, 139.691420, 1000);
   CheckLastPositionInfo(3.5659005, 139.682579, 300);

   // 1 minute later
   AdvanceTimeNow(base::TimeDelta::FromMinutes(1));

   // Enter tunnel. Stay on fresher gps for a moment.
   SetPositionFix(cell(), 3.5657078, 139.68922, 300);
   SetPositionFix(gps(), 3.5657104, 139.690341, 300);
   CheckLastPositionInfo(3.5657104, 139.690341, 300);

   // 2 minutes later
   AdvanceTimeNow(base::TimeDelta::FromMinutes(2));
   // Arrive in station. Cell moves but GPS is stale. Switch to fresher cell.
   SetPositionFix(cell(), 3.5658700, 139.069979, 1000);
   CheckLastPositionInfo(3.5658700, 139.069979, 1000);
 }

 TEST_F(GeolocationLocationArbitratorTest, TwoOneShotsIsNewPositionBetter) {
   InitializeArbitrator(nullptr);
   arbitrator_->StartProvider(false);
   access_token_store_->NotifyDelegateTokensLoaded();
   ASSERT_TRUE(cell());
   ASSERT_TRUE(gps());

   // Set the initial position.
   SetPositionFix(cell(), 3, 139, 100);
   CheckLastPositionInfo(3, 139, 100);

   // Restart providers to simulate a one-shot request.
   arbitrator_->StopProvider();

   // To test 240956, perform a throwaway alloc.
   // This convinces the allocator to put the providers in a new memory location.
   std::unique_ptr<FakeLocationProvider> dummy_provider(
       new FakeLocationProvider);

   arbitrator_->StartProvider(false);
   access_token_store_->NotifyDelegateTokensLoaded();

   // Advance the time a short while to simulate successive calls.
   AdvanceTimeNow(base::TimeDelta::FromMilliseconds(5));

   // Update with a less accurate position to verify 240956.
   SetPositionFix(cell(), 3, 139, 150);
   CheckLastPositionInfo(3, 139, 150);
 }

 }  // namespace device
	// Copyright (c) 2012 The Chromium 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 "device/geolocation/location_arbitrator.h"

	#include <memory>
	#include <utility>

	#include "base/bind.h"
	#include "base/memory/ptr_util.h"
	#include "device/geolocation/fake_access_token_store.h"
	#include "device/geolocation/fake_location_provider.h"
	#include "device/geolocation/geolocation_delegate.h"
	#include "device/geolocation/geoposition.h"
	#include "testing/gmock/include/gmock/gmock.h"
	#include "testing/gtest/include/gtest/gtest.h"

	using ::testing::NiceMock;

	namespace device {
	namespace {

	class MockLocationObserver {
	public:
	virtual ~MockLocationObserver() {}
	void InvalidateLastPosition() {
	last_position_.latitude = 100;
	last_position_.error_code = Geoposition::ERROR_CODE_NONE;
	ASSERT_FALSE(last_position_.Validate());
	}
	void OnLocationUpdate(const LocationProvider* provider,
	const Geoposition& position) {
	last_position_ = position;
	}

	Geoposition last_position() { return last_position_; }

	private:
	Geoposition last_position_;
	};

	double g_fake_time_now_secs = 1;

	base::Time GetTimeNowForTest() {
	return base::Time::FromDoubleT(g_fake_time_now_secs);
	}

	void AdvanceTimeNow(const base::TimeDelta& delta) {
	g_fake_time_now_secs += delta.InSecondsF();
	}

	void SetPositionFix(FakeLocationProvider* provider,
	double latitude,
	double longitude,
	double accuracy) {
	Geoposition position;
	position.error_code = Geoposition::ERROR_CODE_NONE;
	position.latitude = latitude;
	position.longitude = longitude;
	position.accuracy = accuracy;
	position.timestamp = GetTimeNowForTest();
	ASSERT_TRUE(position.Validate());
	provider->HandlePositionChanged(position);
	}

	// TODO(lethalantidote): Populate a Geoposition in the class from kConstants
	// and then just copy that with "=" versus using a helper function.
	void SetReferencePosition(FakeLocationProvider* provider) {
	SetPositionFix(provider, 51.0, -0.1, 400);
	}

	} // namespace

	class FakeGeolocationDelegate : public GeolocationDelegate {
	public:
	FakeGeolocationDelegate() = default;

	bool UseNetworkLocationProviders() override { return use_network_; }
	void set_use_network(bool use_network) { use_network_ = use_network; }

	std::unique_ptr<LocationProvider> OverrideSystemLocationProvider() override {
	DCHECK(!mock_location_provider_);
	mock_location_provider_ = new FakeLocationProvider;
	return base::WrapUnique(mock_location_provider_);
	}

	FakeLocationProvider* mock_location_provider() const {
	return mock_location_provider_;
	}

	private:
	bool use_network_ = true;
	FakeLocationProvider* mock_location_provider_ = nullptr;

	DISALLOW_COPY_AND_ASSIGN(FakeGeolocationDelegate);
	};

	class TestingLocationArbitrator : public LocationArbitrator {
	public:
	TestingLocationArbitrator(
	const LocationProviderUpdateCallback& callback,
	const scoped_refptr<AccessTokenStore>& access_token_store,
	std::unique_ptr<GeolocationDelegate> delegate)
	: LocationArbitrator(std::move(delegate)),
	cell_(nullptr),
	gps_(nullptr),
	access_token_store_(access_token_store) {
	SetUpdateCallback(callback);
	}

	base::Time GetTimeNow() const override { return GetTimeNowForTest(); }

	scoped_refptr<AccessTokenStore> NewAccessTokenStore() override {
	return access_token_store_;
	}

	std::unique_ptr<LocationProvider> NewNetworkLocationProvider(
	const scoped_refptr<AccessTokenStore>& access_token_store,
	const scoped_refptr<net::URLRequestContextGetter>& context,
	const GURL& url,
	const base::string16& access_token) override {
	cell_ = new FakeLocationProvider;
	return base::WrapUnique(cell_);
	}

	std::unique_ptr<LocationProvider> NewSystemLocationProvider() override {
	gps_ = new FakeLocationProvider;
	return base::WrapUnique(gps_);
	}

	// Two location providers, with nice short names to make the tests more
	// readable. Note \|gps_\| will only be set when there is a high accuracy
	// observer registered (and \|cell_\| when there's at least one observer of any
	// type).
	// TODO(mvanouwerkerk): rename \|cell_\| to \|network_location_provider_\| and
	// \|gps_\| to \|gps_location_provider_\|
	FakeLocationProvider* cell_;
	FakeLocationProvider* gps_;
	const scoped_refptr<AccessTokenStore> access_token_store_;
	};

	class GeolocationLocationArbitratorTest : public testing::Test {
	protected:
	GeolocationLocationArbitratorTest()
	: access_token_store_(new NiceMock<FakeAccessTokenStore>),
	observer_(new MockLocationObserver),
	delegate_(new GeolocationDelegate) {}

	// Initializes \|arbitrator_\|, with the possibility of injecting a specific
	// \|delegate\|, otherwise a default, no-op GeolocationDelegate is used.
	void InitializeArbitrator(std::unique_ptr<GeolocationDelegate> delegate) {
	if (delegate)
	delegate_ = std::move(delegate);
	const LocationProvider::LocationProviderUpdateCallback callback =
	base::Bind(&MockLocationObserver::OnLocationUpdate,
	base::Unretained(observer_.get()));
	arbitrator_.reset(new TestingLocationArbitrator(
	callback, access_token_store_, std::move(delegate_)));
	}

	// testing::Test
	void TearDown() override {}

	void CheckLastPositionInfo(double latitude,
	double longitude,
	double accuracy) {
	Geoposition geoposition = observer_->last_position();
	EXPECT_TRUE(geoposition.Validate());
	EXPECT_DOUBLE_EQ(latitude, geoposition.latitude);
	EXPECT_DOUBLE_EQ(longitude, geoposition.longitude);
	EXPECT_DOUBLE_EQ(accuracy, geoposition.accuracy);
	}

	base::TimeDelta SwitchOnFreshnessCliff() {
	// Add 1, to ensure it meets any greater-than test.
	return base::TimeDelta::FromMilliseconds(
	LocationArbitrator::kFixStaleTimeoutMilliseconds + 1);
	}

	FakeLocationProvider* cell() { return arbitrator_->cell_; }

	FakeLocationProvider* gps() { return arbitrator_->gps_; }

	const scoped_refptr<FakeAccessTokenStore> access_token_store_;
	const std::unique_ptr<MockLocationObserver> observer_;
	std::unique_ptr<TestingLocationArbitrator> arbitrator_;
	std::unique_ptr<GeolocationDelegate> delegate_;
	const base::MessageLoop loop_;
	};

	TEST_F(GeolocationLocationArbitratorTest, CreateDestroy) {
	EXPECT_TRUE(access_token_store_.get());
	InitializeArbitrator(nullptr);
	EXPECT_TRUE(arbitrator_);
	arbitrator_.reset();
	SUCCEED();
	}

	TEST_F(GeolocationLocationArbitratorTest, OnPermissionGranted) {
	InitializeArbitrator(nullptr);
	EXPECT_FALSE(arbitrator_->HasPermissionBeenGrantedForTest());
	arbitrator_->OnPermissionGranted();
	EXPECT_TRUE(arbitrator_->HasPermissionBeenGrantedForTest());
	// Can't check the provider has been notified without going through the
	// motions to create the provider (see next test).
	EXPECT_FALSE(cell());
	EXPECT_FALSE(gps());
	}

	TEST_F(GeolocationLocationArbitratorTest, NormalUsage) {
	InitializeArbitrator(nullptr);
	ASSERT_TRUE(access_token_store_.get());
	ASSERT_TRUE(arbitrator_);

	EXPECT_FALSE(cell());
	EXPECT_FALSE(gps());
	arbitrator_->StartProvider(false);

	EXPECT_TRUE(access_token_store_->access_token_map_.empty());

	access_token_store_->NotifyDelegateTokensLoaded();
	ASSERT_TRUE(cell());
	EXPECT_TRUE(gps());
	EXPECT_EQ(FakeLocationProvider::LOW_ACCURACY, cell()->state_);
	EXPECT_EQ(FakeLocationProvider::LOW_ACCURACY, gps()->state_);
	EXPECT_FALSE(observer_->last_position().Validate());
	EXPECT_EQ(Geoposition::ERROR_CODE_NONE,
	observer_->last_position().error_code);

	SetReferencePosition(cell());

	EXPECT_TRUE(observer_->last_position().Validate() \|\|
	observer_->last_position().error_code !=
	Geoposition::ERROR_CODE_NONE);
	EXPECT_EQ(cell()->GetPosition().latitude,
	observer_->last_position().latitude);

	EXPECT_FALSE(cell()->is_permission_granted());
	EXPECT_FALSE(arbitrator_->HasPermissionBeenGrantedForTest());
	arbitrator_->OnPermissionGranted();
	EXPECT_TRUE(arbitrator_->HasPermissionBeenGrantedForTest());
	EXPECT_TRUE(cell()->is_permission_granted());
	}

	TEST_F(GeolocationLocationArbitratorTest, CustomSystemProviderOnly) {
	FakeGeolocationDelegate* fake_delegate = new FakeGeolocationDelegate;
	fake_delegate->set_use_network(false);

	std::unique_ptr<GeolocationDelegate> delegate(fake_delegate);
	InitializeArbitrator(std::move(delegate));
	ASSERT_TRUE(arbitrator_);

	EXPECT_FALSE(cell());
	EXPECT_FALSE(gps());
	arbitrator_->StartProvider(false);

	ASSERT_FALSE(cell());
	EXPECT_FALSE(gps());
	ASSERT_TRUE(fake_delegate->mock_location_provider());
	EXPECT_EQ(FakeLocationProvider::LOW_ACCURACY,
	fake_delegate->mock_location_provider()->state_);
	EXPECT_FALSE(observer_->last_position().Validate());
	EXPECT_EQ(Geoposition::ERROR_CODE_NONE,
	observer_->last_position().error_code);

	SetReferencePosition(fake_delegate->mock_location_provider());

	EXPECT_TRUE(observer_->last_position().Validate() \|\|
	observer_->last_position().error_code !=
	Geoposition::ERROR_CODE_NONE);
	EXPECT_EQ(fake_delegate->mock_location_provider()->GetPosition().latitude,
	observer_->last_position().latitude);

	EXPECT_FALSE(
	fake_delegate->mock_location_provider()->is_permission_granted());
	EXPECT_FALSE(arbitrator_->HasPermissionBeenGrantedForTest());
	arbitrator_->OnPermissionGranted();
	EXPECT_TRUE(arbitrator_->HasPermissionBeenGrantedForTest());
	EXPECT_TRUE(fake_delegate->mock_location_provider()->is_permission_granted());
	}

	TEST_F(GeolocationLocationArbitratorTest,
	CustomSystemAndDefaultNetworkProviders) {
	FakeGeolocationDelegate* fake_delegate = new FakeGeolocationDelegate;
	fake_delegate->set_use_network(true);

	std::unique_ptr<GeolocationDelegate> delegate(fake_delegate);
	InitializeArbitrator(std::move(delegate));
	ASSERT_TRUE(arbitrator_);

	EXPECT_FALSE(cell());
	EXPECT_FALSE(gps());
	arbitrator_->StartProvider(false);

	EXPECT_TRUE(access_token_store_->access_token_map_.empty());

	access_token_store_->NotifyDelegateTokensLoaded();

	ASSERT_TRUE(cell());
	EXPECT_FALSE(gps());
	ASSERT_TRUE(fake_delegate->mock_location_provider());
	EXPECT_EQ(FakeLocationProvider::LOW_ACCURACY,
	fake_delegate->mock_location_provider()->state_);
	EXPECT_EQ(FakeLocationProvider::LOW_ACCURACY, cell()->state_);
	EXPECT_FALSE(observer_->last_position().Validate());
	EXPECT_EQ(Geoposition::ERROR_CODE_NONE,
	observer_->last_position().error_code);

	SetReferencePosition(cell());

	EXPECT_TRUE(observer_->last_position().Validate() \|\|
	observer_->last_position().error_code !=
	Geoposition::ERROR_CODE_NONE);
	EXPECT_EQ(cell()->GetPosition().latitude,
	observer_->last_position().latitude);

	EXPECT_FALSE(cell()->is_permission_granted());
	EXPECT_FALSE(arbitrator_->HasPermissionBeenGrantedForTest());
	arbitrator_->OnPermissionGranted();
	EXPECT_TRUE(arbitrator_->HasPermissionBeenGrantedForTest());
	EXPECT_TRUE(cell()->is_permission_granted());
	}

	TEST_F(GeolocationLocationArbitratorTest, SetObserverOptions) {
	InitializeArbitrator(nullptr);
	arbitrator_->StartProvider(false);
	access_token_store_->NotifyDelegateTokensLoaded();
	ASSERT_TRUE(cell());
	ASSERT_TRUE(gps());
	EXPECT_EQ(FakeLocationProvider::LOW_ACCURACY, cell()->state_);
	EXPECT_EQ(FakeLocationProvider::LOW_ACCURACY, gps()->state_);
	SetReferencePosition(cell());
	EXPECT_EQ(FakeLocationProvider::LOW_ACCURACY, cell()->state_);
	EXPECT_EQ(FakeLocationProvider::LOW_ACCURACY, gps()->state_);
	arbitrator_->StartProvider(true);
	EXPECT_EQ(FakeLocationProvider::HIGH_ACCURACY, cell()->state_);
	EXPECT_EQ(FakeLocationProvider::HIGH_ACCURACY, gps()->state_);
	}

	TEST_F(GeolocationLocationArbitratorTest, Arbitration) {
	InitializeArbitrator(nullptr);
	arbitrator_->StartProvider(false);
	access_token_store_->NotifyDelegateTokensLoaded();
	ASSERT_TRUE(cell());
	ASSERT_TRUE(gps());

	SetPositionFix(cell(), 1, 2, 150);

	// First position available
	EXPECT_TRUE(observer_->last_position().Validate());
	CheckLastPositionInfo(1, 2, 150);

	SetPositionFix(gps(), 3, 4, 50);

	// More accurate fix available
	CheckLastPositionInfo(3, 4, 50);

	SetPositionFix(cell(), 5, 6, 150);

	// New fix is available but it's less accurate, older fix should be kept.
	CheckLastPositionInfo(3, 4, 50);

	// Advance time, and notify once again
	AdvanceTimeNow(SwitchOnFreshnessCliff());
	cell()->HandlePositionChanged(cell()->GetPosition());

	// New fix is available, less accurate but fresher
	CheckLastPositionInfo(5, 6, 150);

	// Advance time, and set a low accuracy position
	AdvanceTimeNow(SwitchOnFreshnessCliff());
	SetPositionFix(cell(), 5.676731, 139.629385, 1000);
	CheckLastPositionInfo(5.676731, 139.629385, 1000);

	// 15 secs later, step outside. Switches to gps signal.
	AdvanceTimeNow(base::TimeDelta::FromSeconds(15));
	SetPositionFix(gps(), 3.5676457, 139.629198, 50);
	CheckLastPositionInfo(3.5676457, 139.629198, 50);

	// 5 mins later switch cells while walking. Stay on gps.
	AdvanceTimeNow(base::TimeDelta::FromMinutes(5));
	SetPositionFix(cell(), 3.567832, 139.634648, 300);
	SetPositionFix(gps(), 3.5677675, 139.632314, 50);
	CheckLastPositionInfo(3.5677675, 139.632314, 50);

	// Ride train and gps signal degrades slightly. Stay on fresher gps
	AdvanceTimeNow(base::TimeDelta::FromMinutes(5));
	SetPositionFix(gps(), 3.5679026, 139.634777, 300);
	CheckLastPositionInfo(3.5679026, 139.634777, 300);

	// 14 minutes later
	AdvanceTimeNow(base::TimeDelta::FromMinutes(14));

	// GPS reading misses a beat, but don't switch to cell yet to avoid
	// oscillating.
	SetPositionFix(gps(), 3.5659005, 139.682579, 300);

	AdvanceTimeNow(base::TimeDelta::FromSeconds(7));
	SetPositionFix(cell(), 3.5689579, 139.691420, 1000);
	CheckLastPositionInfo(3.5659005, 139.682579, 300);

	// 1 minute later
	AdvanceTimeNow(base::TimeDelta::FromMinutes(1));

	// Enter tunnel. Stay on fresher gps for a moment.
	SetPositionFix(cell(), 3.5657078, 139.68922, 300);
	SetPositionFix(gps(), 3.5657104, 139.690341, 300);
	CheckLastPositionInfo(3.5657104, 139.690341, 300);

	// 2 minutes later
	AdvanceTimeNow(base::TimeDelta::FromMinutes(2));
	// Arrive in station. Cell moves but GPS is stale. Switch to fresher cell.
	SetPositionFix(cell(), 3.5658700, 139.069979, 1000);
	CheckLastPositionInfo(3.5658700, 139.069979, 1000);
	}

	TEST_F(GeolocationLocationArbitratorTest, TwoOneShotsIsNewPositionBetter) {
	InitializeArbitrator(nullptr);
	arbitrator_->StartProvider(false);
	access_token_store_->NotifyDelegateTokensLoaded();
	ASSERT_TRUE(cell());
	ASSERT_TRUE(gps());

	// Set the initial position.
	SetPositionFix(cell(), 3, 139, 100);
	CheckLastPositionInfo(3, 139, 100);

	// Restart providers to simulate a one-shot request.
	arbitrator_->StopProvider();

	// To test 240956, perform a throwaway alloc.
	// This convinces the allocator to put the providers in a new memory location.
	std::unique_ptr<FakeLocationProvider> dummy_provider(
	new FakeLocationProvider);

	arbitrator_->StartProvider(false);
	access_token_store_->NotifyDelegateTokensLoaded();

	// Advance the time a short while to simulate successive calls.
	AdvanceTimeNow(base::TimeDelta::FromMilliseconds(5));

	// Update with a less accurate position to verify 240956.
	SetPositionFix(cell(), 3, 139, 150);
	CheckLastPositionInfo(3, 139, 150);
	}

	} // namespace device