// 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 "base/bind.h" #include "base/bind_helpers.h" #include "base/memory/ref_counted.h" #include "base/memory/scoped_ptr.h" #include "base/message_loop/message_loop.h" #include "base/strings/string16.h" #include "base/time/time.h" #include "content/browser/geolocation/geolocation_provider_impl.h" #include "content/browser/geolocation/mock_location_arbitrator.h" #include "content/public/browser/access_token_store.h" #include "content/public/browser/browser_thread.h" #include "content/public/test/test_browser_thread.h" #include "testing/gmock/include/gmock/gmock.h" #include "testing/gtest/include/gtest/gtest.h" using testing::MakeMatcher; using testing::Matcher; using testing::MatcherInterface; using testing::MatchResultListener; namespace content { class LocationProviderForTestArbitrator : public GeolocationProviderImpl { public: LocationProviderForTestArbitrator() : mock_arbitrator_(NULL) {} virtual ~LocationProviderForTestArbitrator() {} // Only valid for use on the geolocation thread. MockLocationArbitrator* mock_arbitrator() const { return mock_arbitrator_; } protected: // GeolocationProviderImpl implementation: virtual LocationArbitrator* CreateArbitrator() OVERRIDE; private: MockLocationArbitrator* mock_arbitrator_; }; LocationArbitrator* LocationProviderForTestArbitrator::CreateArbitrator() { DCHECK(mock_arbitrator_ == NULL); mock_arbitrator_ = new MockLocationArbitrator; return mock_arbitrator_; } class GeolocationObserver { public: virtual ~GeolocationObserver() {} virtual void OnLocationUpdate(const Geoposition& position) = 0; }; class MockGeolocationObserver : public GeolocationObserver { public: MOCK_METHOD1(OnLocationUpdate, void(const Geoposition& position)); }; class AsyncMockGeolocationObserver : public MockGeolocationObserver { public: virtual void OnLocationUpdate(const Geoposition& position) OVERRIDE { MockGeolocationObserver::OnLocationUpdate(position); base::MessageLoop::current()->Quit(); } }; class MockGeolocationCallbackWrapper { public: MOCK_METHOD1(Callback, void(const Geoposition& position)); }; class GeopositionEqMatcher : public MatcherInterface<const Geoposition&> { public: explicit GeopositionEqMatcher(const Geoposition& expected) : expected_(expected) {} virtual bool MatchAndExplain(const Geoposition& actual, MatchResultListener* listener) const OVERRIDE { return actual.latitude == expected_.latitude && actual.longitude == expected_.longitude && actual.altitude == expected_.altitude && actual.accuracy == expected_.accuracy && actual.altitude_accuracy == expected_.altitude_accuracy && actual.heading == expected_.heading && actual.speed == expected_.speed && actual.timestamp == expected_.timestamp && actual.error_code == expected_.error_code && actual.error_message == expected_.error_message; } virtual void DescribeTo(::std::ostream* os) const OVERRIDE { *os << "which matches the expected position"; } virtual void DescribeNegationTo(::std::ostream* os) const OVERRIDE { *os << "which does not match the expected position"; } private: Geoposition expected_; DISALLOW_COPY_AND_ASSIGN(GeopositionEqMatcher); }; Matcher<const Geoposition&> GeopositionEq(const Geoposition& expected) { return MakeMatcher(new GeopositionEqMatcher(expected)); } class GeolocationProviderTest : public testing::Test { protected: GeolocationProviderTest() : message_loop_(), io_thread_(BrowserThread::IO, &message_loop_), provider_(new LocationProviderForTestArbitrator) { } virtual ~GeolocationProviderTest() {} LocationProviderForTestArbitrator* provider() { return provider_.get(); } // Called on test thread. bool ProvidersStarted(); void SendMockLocation(const Geoposition& position); private: // Called on provider thread. void GetProvidersStarted(bool* started); base::MessageLoop message_loop_; TestBrowserThread io_thread_; scoped_ptr<LocationProviderForTestArbitrator> provider_; }; bool GeolocationProviderTest::ProvidersStarted() { DCHECK(provider_->IsRunning()); DCHECK(base::MessageLoop::current() == &message_loop_); bool started; provider_->message_loop_proxy()->PostTaskAndReply( FROM_HERE, base::Bind(&GeolocationProviderTest::GetProvidersStarted, base::Unretained(this), &started), base::MessageLoop::QuitClosure()); message_loop_.Run(); return started; } void GeolocationProviderTest::GetProvidersStarted(bool* started) { DCHECK(base::MessageLoop::current() == provider_->message_loop()); *started = provider_->mock_arbitrator()->providers_started(); } void GeolocationProviderTest::SendMockLocation(const Geoposition& position) { DCHECK(provider_->IsRunning()); DCHECK(base::MessageLoop::current() == &message_loop_); provider_->message_loop() ->PostTask(FROM_HERE, base::Bind(&GeolocationProviderImpl::OnLocationUpdate, base::Unretained(provider_.get()), position)); } // Regression test for http://crbug.com/59377 TEST_F(GeolocationProviderTest, OnPermissionGrantedWithoutObservers) { EXPECT_FALSE(provider()->LocationServicesOptedIn()); provider()->UserDidOptIntoLocationServices(); EXPECT_TRUE(provider()->LocationServicesOptedIn()); } TEST_F(GeolocationProviderTest, StartStop) { EXPECT_FALSE(provider()->IsRunning()); GeolocationProviderImpl::LocationUpdateCallback null_callback; provider()->AddLocationUpdateCallback(null_callback, false); EXPECT_TRUE(provider()->IsRunning()); EXPECT_TRUE(ProvidersStarted()); provider()->RemoveLocationUpdateCallback(null_callback); EXPECT_FALSE(ProvidersStarted()); EXPECT_TRUE(provider()->IsRunning()); } TEST_F(GeolocationProviderTest, StalePositionNotSent) { Geoposition first_position; first_position.latitude = 12; first_position.longitude = 34; first_position.accuracy = 56; first_position.timestamp = base::Time::Now(); AsyncMockGeolocationObserver first_observer; GeolocationProviderImpl::LocationUpdateCallback first_callback = base::Bind( &MockGeolocationObserver::OnLocationUpdate, base::Unretained(&first_observer)); EXPECT_CALL(first_observer, OnLocationUpdate(GeopositionEq(first_position))); provider()->AddLocationUpdateCallback(first_callback, false); SendMockLocation(first_position); base::MessageLoop::current()->Run(); provider()->RemoveLocationUpdateCallback(first_callback); Geoposition second_position; second_position.latitude = 13; second_position.longitude = 34; second_position.accuracy = 56; second_position.timestamp = base::Time::Now(); AsyncMockGeolocationObserver second_observer; // After adding a second observer, check that no unexpected position update // is sent. EXPECT_CALL(second_observer, OnLocationUpdate(testing::_)).Times(0); GeolocationProviderImpl::LocationUpdateCallback second_callback = base::Bind( &MockGeolocationObserver::OnLocationUpdate, base::Unretained(&second_observer)); provider()->AddLocationUpdateCallback(second_callback, false); base::MessageLoop::current()->RunUntilIdle(); // The second observer should receive the new position now. EXPECT_CALL(second_observer, OnLocationUpdate(GeopositionEq(second_position))); SendMockLocation(second_position); base::MessageLoop::current()->Run(); provider()->RemoveLocationUpdateCallback(second_callback); EXPECT_FALSE(ProvidersStarted()); } TEST_F(GeolocationProviderTest, OverrideLocationForTesting) { Geoposition position; position.error_code = Geoposition::ERROR_CODE_POSITION_UNAVAILABLE; provider()->OverrideLocationForTesting(position); // Adding an observer when the location is overridden should synchronously // update the observer with our overridden position. MockGeolocationObserver mock_observer; EXPECT_CALL(mock_observer, OnLocationUpdate(GeopositionEq(position))); GeolocationProviderImpl::LocationUpdateCallback callback = base::Bind( &MockGeolocationObserver::OnLocationUpdate, base::Unretained(&mock_observer)); provider()->AddLocationUpdateCallback(callback, false); provider()->RemoveLocationUpdateCallback(callback); // Wait for the providers to be stopped now that all clients are gone. EXPECT_FALSE(ProvidersStarted()); } } // namespace content