// Copyright 2014 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 "components/search_provider_logos/logo_tracker.h" #include #include #include "base/base64.h" #include "base/bind.h" #include "base/callback.h" #include "base/files/file_path.h" #include "base/json/json_writer.h" #include "base/location.h" #include "base/memory/ref_counted.h" #include "base/memory/scoped_vector.h" #include "base/run_loop.h" #include "base/single_thread_task_runner.h" #include "base/strings/string_piece.h" #include "base/strings/stringprintf.h" #include "base/test/simple_test_clock.h" #include "base/thread_task_runner_handle.h" #include "base/time/time.h" #include "base/values.h" #include "components/search_provider_logos/google_logo_api.h" #include "net/base/url_util.h" #include "net/http/http_response_headers.h" #include "net/http/http_status_code.h" #include "net/url_request/test_url_fetcher_factory.h" #include "net/url_request/url_request_status.h" #include "net/url_request/url_request_test_util.h" #include "testing/gmock/include/gmock/gmock.h" #include "testing/gtest/include/gtest/gtest.h" #include "ui/gfx/image/image.h" using ::testing::_; using ::testing::AnyNumber; using ::testing::AtMost; using ::testing::InSequence; using ::testing::Invoke; using ::testing::Mock; using ::testing::NiceMock; using ::testing::Return; namespace search_provider_logos { namespace { bool AreImagesSameSize(const SkBitmap& bitmap1, const SkBitmap& bitmap2) { return bitmap1.width() == bitmap2.width() && bitmap1.height() == bitmap2.height(); } scoped_refptr EncodeBitmapAsPNG( const SkBitmap& bitmap) { scoped_refptr png_bytes = gfx::Image::CreateFrom1xBitmap(bitmap).As1xPNGBytes(); scoped_refptr str = new base::RefCountedString(); str->data().assign(png_bytes->front_as(), png_bytes->size()); return str; } std::string EncodeBitmapAsPNGBase64(const SkBitmap& bitmap) { scoped_refptr png_bytes = EncodeBitmapAsPNG(bitmap); std::string encoded_image_base64; base::Base64Encode(png_bytes->data(), &encoded_image_base64); return encoded_image_base64; } SkBitmap MakeBitmap(int width, int height) { SkBitmap bitmap; bitmap.allocN32Pixels(width, height); bitmap.eraseColor(SK_ColorBLUE); return bitmap; } EncodedLogo EncodeLogo(const Logo& logo) { EncodedLogo encoded_logo; encoded_logo.encoded_image = EncodeBitmapAsPNG(logo.image); encoded_logo.metadata = logo.metadata; return encoded_logo; } Logo DecodeLogo(const EncodedLogo& encoded_logo) { Logo logo; logo.image = gfx::Image::CreateFrom1xPNGBytes( encoded_logo.encoded_image->front(), encoded_logo.encoded_image->size()).AsBitmap(); logo.metadata = encoded_logo.metadata; return logo; } Logo GetSampleLogo(const GURL& logo_url, base::Time response_time) { Logo logo; logo.image = MakeBitmap(2, 5); logo.metadata.can_show_after_expiration = false; logo.metadata.expiration_time = response_time + base::TimeDelta::FromHours(19); logo.metadata.fingerprint = "8bc33a80"; logo.metadata.source_url = logo_url.spec(); logo.metadata.on_click_url = "http://www.google.com/search?q=potato"; logo.metadata.alt_text = "A logo about potatoes"; logo.metadata.animated_url = "http://www.google.com/logos/doodle.png"; logo.metadata.mime_type = "image/png"; return logo; } Logo GetSampleLogo2(const GURL& logo_url, base::Time response_time) { Logo logo; logo.image = MakeBitmap(4, 3); logo.metadata.can_show_after_expiration = true; logo.metadata.expiration_time = base::Time(); logo.metadata.fingerprint = "71082741021409127"; logo.metadata.source_url = logo_url.spec(); logo.metadata.on_click_url = "http://example.com/page25"; logo.metadata.alt_text = "The logo for example.com"; logo.metadata.mime_type = "image/jpeg"; return logo; } std::string MakeServerResponse( const SkBitmap& image, const std::string& on_click_url, const std::string& alt_text, const std::string& animated_url, const std::string& mime_type, const std::string& fingerprint, base::TimeDelta time_to_live) { base::DictionaryValue dict; if (!image.isNull()) dict.SetString("update.logo.data", EncodeBitmapAsPNGBase64(image)); dict.SetString("update.logo.target", on_click_url); dict.SetString("update.logo.alt", alt_text); if (!animated_url.empty()) dict.SetString("update.logo.url", animated_url); if (!mime_type.empty()) dict.SetString("update.logo.mime_type", mime_type); dict.SetString("update.logo.fingerprint", fingerprint); if (time_to_live.ToInternalValue() != 0) dict.SetInteger("update.logo.time_to_live", static_cast(time_to_live.InMilliseconds())); std::string output; base::JSONWriter::Write(dict, &output); return output; } std::string MakeServerResponse(const Logo& logo, base::TimeDelta time_to_live) { return MakeServerResponse(logo.image, logo.metadata.on_click_url, logo.metadata.alt_text, logo.metadata.animated_url, logo.metadata.mime_type, logo.metadata.fingerprint, time_to_live); } void ExpectLogosEqual(const Logo* expected_logo, const Logo* actual_logo) { if (!expected_logo) { ASSERT_FALSE(actual_logo); return; } ASSERT_TRUE(actual_logo); EXPECT_TRUE(AreImagesSameSize(expected_logo->image, actual_logo->image)); EXPECT_EQ(expected_logo->metadata.on_click_url, actual_logo->metadata.on_click_url); EXPECT_EQ(expected_logo->metadata.source_url, actual_logo->metadata.source_url); EXPECT_EQ(expected_logo->metadata.animated_url, actual_logo->metadata.animated_url); EXPECT_EQ(expected_logo->metadata.alt_text, actual_logo->metadata.alt_text); EXPECT_EQ(expected_logo->metadata.mime_type, actual_logo->metadata.mime_type); EXPECT_EQ(expected_logo->metadata.fingerprint, actual_logo->metadata.fingerprint); EXPECT_EQ(expected_logo->metadata.can_show_after_expiration, actual_logo->metadata.can_show_after_expiration); } void ExpectLogosEqual(const Logo* expected_logo, const EncodedLogo* actual_encoded_logo) { Logo actual_logo; if (actual_encoded_logo) actual_logo = DecodeLogo(*actual_encoded_logo); ExpectLogosEqual(expected_logo, actual_encoded_logo ? &actual_logo : NULL); } ACTION_P(ExpectLogosEqualAction, expected_logo) { ExpectLogosEqual(expected_logo, arg0); } class MockLogoCache : public LogoCache { public: MockLogoCache() : LogoCache(base::FilePath()) { // Delegate actions to the *Internal() methods by default. ON_CALL(*this, UpdateCachedLogoMetadata(_)).WillByDefault( Invoke(this, &MockLogoCache::UpdateCachedLogoMetadataInternal)); ON_CALL(*this, GetCachedLogoMetadata()).WillByDefault( Invoke(this, &MockLogoCache::GetCachedLogoMetadataInternal)); ON_CALL(*this, SetCachedLogo(_)) .WillByDefault(Invoke(this, &MockLogoCache::SetCachedLogoInternal)); } MOCK_METHOD1(UpdateCachedLogoMetadata, void(const LogoMetadata& metadata)); MOCK_METHOD0(GetCachedLogoMetadata, const LogoMetadata*()); MOCK_METHOD1(SetCachedLogo, void(const EncodedLogo* logo)); // GetCachedLogo() can't be mocked since it returns a scoped_ptr, which is // non-copyable. Instead create a method that's pinged when GetCachedLogo() is // called. MOCK_METHOD0(OnGetCachedLogo, void()); void EncodeAndSetCachedLogo(const Logo& logo) { EncodedLogo encoded_logo = EncodeLogo(logo); SetCachedLogo(&encoded_logo); } void ExpectSetCachedLogo(const Logo* expected_logo) { Mock::VerifyAndClearExpectations(this); EXPECT_CALL(*this, SetCachedLogo(_)) .WillOnce(ExpectLogosEqualAction(expected_logo)); } void UpdateCachedLogoMetadataInternal(const LogoMetadata& metadata) { ASSERT_TRUE(logo_.get()); ASSERT_TRUE(metadata_.get()); EXPECT_EQ(metadata_->fingerprint, metadata.fingerprint); metadata_.reset(new LogoMetadata(metadata)); logo_->metadata = metadata; } virtual const LogoMetadata* GetCachedLogoMetadataInternal() { return metadata_.get(); } virtual void SetCachedLogoInternal(const EncodedLogo* logo) { logo_.reset(logo ? new EncodedLogo(*logo) : NULL); metadata_.reset(logo ? new LogoMetadata(logo->metadata) : NULL); } scoped_ptr GetCachedLogo() override { OnGetCachedLogo(); return make_scoped_ptr(logo_ ? new EncodedLogo(*logo_) : NULL); } private: scoped_ptr metadata_; scoped_ptr logo_; }; class MockLogoObserver : public LogoObserver { public: virtual ~MockLogoObserver() {} void ExpectNoLogo() { Mock::VerifyAndClearExpectations(this); EXPECT_CALL(*this, OnLogoAvailable(_, _)).Times(0); EXPECT_CALL(*this, OnObserverRemoved()).Times(1); } void ExpectCachedLogo(const Logo* expected_cached_logo) { Mock::VerifyAndClearExpectations(this); EXPECT_CALL(*this, OnLogoAvailable(_, true)) .WillOnce(ExpectLogosEqualAction(expected_cached_logo)); EXPECT_CALL(*this, OnLogoAvailable(_, false)).Times(0); EXPECT_CALL(*this, OnObserverRemoved()).Times(1); } void ExpectFreshLogo(const Logo* expected_fresh_logo) { Mock::VerifyAndClearExpectations(this); EXPECT_CALL(*this, OnLogoAvailable(_, true)).Times(0); EXPECT_CALL(*this, OnLogoAvailable(NULL, true)); EXPECT_CALL(*this, OnLogoAvailable(_, false)) .WillOnce(ExpectLogosEqualAction(expected_fresh_logo)); EXPECT_CALL(*this, OnObserverRemoved()).Times(1); } void ExpectCachedAndFreshLogos(const Logo* expected_cached_logo, const Logo* expected_fresh_logo) { Mock::VerifyAndClearExpectations(this); InSequence dummy; EXPECT_CALL(*this, OnLogoAvailable(_, true)) .WillOnce(ExpectLogosEqualAction(expected_cached_logo)); EXPECT_CALL(*this, OnLogoAvailable(_, false)) .WillOnce(ExpectLogosEqualAction(expected_fresh_logo)); EXPECT_CALL(*this, OnObserverRemoved()).Times(1); } MOCK_METHOD2(OnLogoAvailable, void(const Logo*, bool)); MOCK_METHOD0(OnObserverRemoved, void()); }; class TestLogoDelegate : public LogoDelegate { public: TestLogoDelegate() {} ~TestLogoDelegate() override {} void DecodeUntrustedImage( const scoped_refptr& encoded_image, base::Callback image_decoded_callback) override { SkBitmap bitmap = gfx::Image::CreateFrom1xPNGBytes(encoded_image->front(), encoded_image->size()).AsBitmap(); base::ThreadTaskRunnerHandle::Get()->PostTask( FROM_HERE, base::Bind(image_decoded_callback, bitmap)); } }; class LogoTrackerTest : public ::testing::Test { protected: LogoTrackerTest() : message_loop_(new base::MessageLoop()), logo_url_("https://google.com/doodleoftheday?size=hp"), test_clock_(new base::SimpleTestClock()), logo_cache_(new NiceMock()), fake_url_fetcher_factory_(NULL) { test_clock_->SetNow(base::Time::FromJsTime(INT64_C(1388686828000))); logo_tracker_ = new LogoTracker(base::FilePath(), base::ThreadTaskRunnerHandle::Get(), base::ThreadTaskRunnerHandle::Get(), new net::TestURLRequestContextGetter( base::ThreadTaskRunnerHandle::Get()), scoped_ptr(new TestLogoDelegate())); logo_tracker_->SetServerAPI(logo_url_, base::Bind(&GoogleParseLogoResponse), base::Bind(&GoogleAppendQueryparamsToLogoURL), false); logo_tracker_->SetClockForTests(scoped_ptr(test_clock_)); logo_tracker_->SetLogoCacheForTests(scoped_ptr(logo_cache_)); } virtual void TearDown() { // logo_tracker_ owns logo_cache_, which gets destructed on the file thread // after logo_tracker_'s destruction. Ensure that logo_cache_ is actually // destructed before the test ends to make gmock happy. delete logo_tracker_; message_loop_->RunUntilIdle(); } // Returns the response that the server would send for the given logo. std::string ServerResponse(const Logo& logo) const; // Sets the response to be returned when the LogoTracker fetches the logo. void SetServerResponse(const std::string& response, net::URLRequestStatus::Status request_status = net::URLRequestStatus::SUCCESS, net::HttpStatusCode response_code = net::HTTP_OK); // Sets the response to be returned when the LogoTracker fetches the logo and // provides the given fingerprint. void SetServerResponseWhenFingerprint( const std::string& fingerprint, const std::string& response_when_fingerprint, net::URLRequestStatus::Status request_status = net::URLRequestStatus::SUCCESS, net::HttpStatusCode response_code = net::HTTP_OK); // Calls logo_tracker_->GetLogo() with listener_ and waits for the // asynchronous response(s). void GetLogo(); scoped_ptr message_loop_; GURL logo_url_; base::SimpleTestClock* test_clock_; NiceMock* logo_cache_; net::FakeURLFetcherFactory fake_url_fetcher_factory_; LogoTracker* logo_tracker_; NiceMock observer_; }; std::string LogoTrackerTest::ServerResponse(const Logo& logo) const { base::TimeDelta time_to_live; if (!logo.metadata.expiration_time.is_null()) time_to_live = logo.metadata.expiration_time - test_clock_->Now(); return MakeServerResponse(logo, time_to_live); } void LogoTrackerTest::SetServerResponse( const std::string& response, net::URLRequestStatus::Status request_status, net::HttpStatusCode response_code) { fake_url_fetcher_factory_.SetFakeResponse( logo_url_, response, response_code, request_status); } void LogoTrackerTest::SetServerResponseWhenFingerprint( const std::string& fingerprint, const std::string& response_when_fingerprint, net::URLRequestStatus::Status request_status, net::HttpStatusCode response_code) { GURL url_with_fp = GoogleAppendQueryparamsToLogoURL(logo_url_, fingerprint, false); fake_url_fetcher_factory_.SetFakeResponse( url_with_fp, response_when_fingerprint, response_code, request_status); } void LogoTrackerTest::GetLogo() { logo_tracker_->GetLogo(&observer_); base::RunLoop().RunUntilIdle(); } // Tests ----------------------------------------------------------------------- TEST_F(LogoTrackerTest, FingerprintURLHasColon) { GURL url_with_fp = GoogleAppendQueryparamsToLogoURL( GURL("http://logourl.com/path"), "abc123", false); EXPECT_EQ("http://logourl.com/path?async=es_dfp:abc123", url_with_fp.spec()); url_with_fp = GoogleAppendQueryparamsToLogoURL( GURL("http://logourl.com/?a=b"), "cafe0", false); EXPECT_EQ("http://logourl.com/?a=b&async=es_dfp:cafe0", url_with_fp.spec()); } TEST_F(LogoTrackerTest, CTAURLHasComma) { GURL url_with_fp = GoogleAppendQueryparamsToLogoURL( GURL("http://logourl.com/path"), "abc123", true); EXPECT_EQ("http://logourl.com/path?async=es_dfp:abc123,cta:1", url_with_fp.spec()); url_with_fp = GoogleAppendQueryparamsToLogoURL( GURL("http://logourl.com/?a=b"), "", true); EXPECT_EQ("http://logourl.com/?a=b&async=cta:1", url_with_fp.spec()); } TEST_F(LogoTrackerTest, DownloadAndCacheLogo) { Logo logo = GetSampleLogo(logo_url_, test_clock_->Now()); SetServerResponse(ServerResponse(logo)); logo_cache_->ExpectSetCachedLogo(&logo); observer_.ExpectFreshLogo(&logo); GetLogo(); } TEST_F(LogoTrackerTest, EmptyCacheAndFailedDownload) { EXPECT_CALL(*logo_cache_, UpdateCachedLogoMetadata(_)).Times(0); EXPECT_CALL(*logo_cache_, SetCachedLogo(_)).Times(0); EXPECT_CALL(*logo_cache_, SetCachedLogo(NULL)).Times(AnyNumber()); SetServerResponse("server is borked"); observer_.ExpectCachedLogo(NULL); GetLogo(); SetServerResponse("", net::URLRequestStatus::FAILED, net::HTTP_OK); observer_.ExpectCachedLogo(NULL); GetLogo(); SetServerResponse("", net::URLRequestStatus::SUCCESS, net::HTTP_BAD_GATEWAY); observer_.ExpectCachedLogo(NULL); GetLogo(); } TEST_F(LogoTrackerTest, AcceptMinimalLogoResponse) { Logo logo; logo.image = MakeBitmap(1, 2); logo.metadata.source_url = logo_url_.spec(); logo.metadata.can_show_after_expiration = true; logo.metadata.mime_type = "image/png"; std::string response = ")]}' {\"update\":{\"logo\":{\"data\":\"" + EncodeBitmapAsPNGBase64(logo.image) + "\",\"mime_type\":\"image/png\"}}}"; SetServerResponse(response); observer_.ExpectFreshLogo(&logo); GetLogo(); } TEST_F(LogoTrackerTest, ReturnCachedLogo) { Logo cached_logo = GetSampleLogo(logo_url_, test_clock_->Now()); logo_cache_->EncodeAndSetCachedLogo(cached_logo); SetServerResponseWhenFingerprint(cached_logo.metadata.fingerprint, "", net::URLRequestStatus::FAILED, net::HTTP_OK); EXPECT_CALL(*logo_cache_, UpdateCachedLogoMetadata(_)).Times(0); EXPECT_CALL(*logo_cache_, SetCachedLogo(_)).Times(0); EXPECT_CALL(*logo_cache_, OnGetCachedLogo()).Times(AtMost(1)); observer_.ExpectCachedLogo(&cached_logo); GetLogo(); } TEST_F(LogoTrackerTest, ValidateCachedLogo) { Logo cached_logo = GetSampleLogo(logo_url_, test_clock_->Now()); logo_cache_->EncodeAndSetCachedLogo(cached_logo); // During revalidation, the image data and mime_type are absent. Logo fresh_logo = cached_logo; fresh_logo.image.reset(); fresh_logo.metadata.mime_type.clear(); fresh_logo.metadata.expiration_time = test_clock_->Now() + base::TimeDelta::FromDays(8); SetServerResponseWhenFingerprint(fresh_logo.metadata.fingerprint, ServerResponse(fresh_logo)); EXPECT_CALL(*logo_cache_, UpdateCachedLogoMetadata(_)).Times(1); EXPECT_CALL(*logo_cache_, SetCachedLogo(_)).Times(0); EXPECT_CALL(*logo_cache_, OnGetCachedLogo()).Times(AtMost(1)); observer_.ExpectCachedLogo(&cached_logo); GetLogo(); EXPECT_TRUE(logo_cache_->GetCachedLogoMetadata() != NULL); EXPECT_EQ(fresh_logo.metadata.expiration_time, logo_cache_->GetCachedLogoMetadata()->expiration_time); // Ensure that cached logo is still returned correctly on subsequent requests. // In particular, the metadata should stay valid. http://crbug.com/480090 EXPECT_CALL(*logo_cache_, UpdateCachedLogoMetadata(_)).Times(1); EXPECT_CALL(*logo_cache_, SetCachedLogo(_)).Times(0); EXPECT_CALL(*logo_cache_, OnGetCachedLogo()).Times(AtMost(1)); observer_.ExpectCachedLogo(&cached_logo); GetLogo(); } TEST_F(LogoTrackerTest, UpdateCachedLogoMetadata) { Logo cached_logo = GetSampleLogo(logo_url_, test_clock_->Now()); logo_cache_->EncodeAndSetCachedLogo(cached_logo); Logo fresh_logo = cached_logo; fresh_logo.image.reset(); fresh_logo.metadata.mime_type.clear(); fresh_logo.metadata.on_click_url = "http://new.onclick.url"; fresh_logo.metadata.alt_text = "new alt text"; fresh_logo.metadata.animated_url = "http://new.animated.url"; fresh_logo.metadata.expiration_time = test_clock_->Now() + base::TimeDelta::FromDays(8); SetServerResponseWhenFingerprint(fresh_logo.metadata.fingerprint, ServerResponse(fresh_logo)); // On the first request, the cached logo should be used. observer_.ExpectCachedLogo(&cached_logo); GetLogo(); // Subsequently, the cached image should be returned along with the updated // metadata. Logo expected_logo = fresh_logo; expected_logo.image = cached_logo.image; expected_logo.metadata.mime_type = cached_logo.metadata.mime_type; observer_.ExpectCachedLogo(&expected_logo); GetLogo(); } TEST_F(LogoTrackerTest, UpdateCachedLogo) { Logo cached_logo = GetSampleLogo(logo_url_, test_clock_->Now()); logo_cache_->EncodeAndSetCachedLogo(cached_logo); Logo fresh_logo = GetSampleLogo2(logo_url_, test_clock_->Now()); SetServerResponseWhenFingerprint(cached_logo.metadata.fingerprint, ServerResponse(fresh_logo)); logo_cache_->ExpectSetCachedLogo(&fresh_logo); EXPECT_CALL(*logo_cache_, UpdateCachedLogoMetadata(_)).Times(0); EXPECT_CALL(*logo_cache_, OnGetCachedLogo()).Times(AtMost(1)); observer_.ExpectCachedAndFreshLogos(&cached_logo, &fresh_logo); GetLogo(); } TEST_F(LogoTrackerTest, InvalidateCachedLogo) { Logo cached_logo = GetSampleLogo(logo_url_, test_clock_->Now()); logo_cache_->EncodeAndSetCachedLogo(cached_logo); // This response means there's no current logo. SetServerResponseWhenFingerprint(cached_logo.metadata.fingerprint, ")]}' {\"update\":{}}"); logo_cache_->ExpectSetCachedLogo(NULL); EXPECT_CALL(*logo_cache_, UpdateCachedLogoMetadata(_)).Times(0); EXPECT_CALL(*logo_cache_, OnGetCachedLogo()).Times(AtMost(1)); observer_.ExpectCachedAndFreshLogos(&cached_logo, NULL); GetLogo(); } TEST_F(LogoTrackerTest, DeleteCachedLogoFromOldUrl) { SetServerResponse("", net::URLRequestStatus::FAILED, net::HTTP_OK); Logo cached_logo = GetSampleLogo(GURL("http://oldsearchprovider.com"), test_clock_->Now()); logo_cache_->EncodeAndSetCachedLogo(cached_logo); EXPECT_CALL(*logo_cache_, UpdateCachedLogoMetadata(_)).Times(0); EXPECT_CALL(*logo_cache_, SetCachedLogo(_)).Times(0); EXPECT_CALL(*logo_cache_, SetCachedLogo(NULL)).Times(AnyNumber()); EXPECT_CALL(*logo_cache_, OnGetCachedLogo()).Times(AtMost(1)); observer_.ExpectCachedLogo(NULL); GetLogo(); } TEST_F(LogoTrackerTest, LogoWithTTLCannotBeShownAfterExpiration) { Logo logo = GetSampleLogo(logo_url_, test_clock_->Now()); base::TimeDelta time_to_live = base::TimeDelta::FromDays(3); logo.metadata.expiration_time = test_clock_->Now() + time_to_live; SetServerResponse(ServerResponse(logo)); GetLogo(); const LogoMetadata* cached_metadata = logo_cache_->GetCachedLogoMetadata(); EXPECT_TRUE(cached_metadata != NULL); EXPECT_FALSE(cached_metadata->can_show_after_expiration); EXPECT_EQ(test_clock_->Now() + time_to_live, cached_metadata->expiration_time); } TEST_F(LogoTrackerTest, LogoWithoutTTLCanBeShownAfterExpiration) { Logo logo = GetSampleLogo(logo_url_, test_clock_->Now()); base::TimeDelta time_to_live = base::TimeDelta(); SetServerResponse(MakeServerResponse(logo, time_to_live)); GetLogo(); const LogoMetadata* cached_metadata = logo_cache_->GetCachedLogoMetadata(); EXPECT_TRUE(cached_metadata != NULL); EXPECT_TRUE(cached_metadata->can_show_after_expiration); EXPECT_EQ(test_clock_->Now() + base::TimeDelta::FromDays(30), cached_metadata->expiration_time); } TEST_F(LogoTrackerTest, UseSoftExpiredCachedLogo) { SetServerResponse("", net::URLRequestStatus::FAILED, net::HTTP_OK); Logo cached_logo = GetSampleLogo(logo_url_, test_clock_->Now()); cached_logo.metadata.expiration_time = test_clock_->Now() - base::TimeDelta::FromSeconds(1); cached_logo.metadata.can_show_after_expiration = true; logo_cache_->EncodeAndSetCachedLogo(cached_logo); EXPECT_CALL(*logo_cache_, UpdateCachedLogoMetadata(_)).Times(0); EXPECT_CALL(*logo_cache_, SetCachedLogo(_)).Times(0); EXPECT_CALL(*logo_cache_, OnGetCachedLogo()).Times(AtMost(1)); observer_.ExpectCachedLogo(&cached_logo); GetLogo(); } TEST_F(LogoTrackerTest, RerequestSoftExpiredCachedLogo) { Logo cached_logo = GetSampleLogo(logo_url_, test_clock_->Now()); cached_logo.metadata.expiration_time = test_clock_->Now() - base::TimeDelta::FromDays(5); cached_logo.metadata.can_show_after_expiration = true; logo_cache_->EncodeAndSetCachedLogo(cached_logo); Logo fresh_logo = GetSampleLogo2(logo_url_, test_clock_->Now()); SetServerResponse(ServerResponse(fresh_logo)); logo_cache_->ExpectSetCachedLogo(&fresh_logo); EXPECT_CALL(*logo_cache_, UpdateCachedLogoMetadata(_)).Times(0); EXPECT_CALL(*logo_cache_, OnGetCachedLogo()).Times(AtMost(1)); observer_.ExpectCachedAndFreshLogos(&cached_logo, &fresh_logo); GetLogo(); } TEST_F(LogoTrackerTest, DeleteAncientCachedLogo) { SetServerResponse("", net::URLRequestStatus::FAILED, net::HTTP_OK); Logo cached_logo = GetSampleLogo(logo_url_, test_clock_->Now()); cached_logo.metadata.expiration_time = test_clock_->Now() - base::TimeDelta::FromDays(200); cached_logo.metadata.can_show_after_expiration = true; logo_cache_->EncodeAndSetCachedLogo(cached_logo); EXPECT_CALL(*logo_cache_, UpdateCachedLogoMetadata(_)).Times(0); EXPECT_CALL(*logo_cache_, SetCachedLogo(_)).Times(0); EXPECT_CALL(*logo_cache_, SetCachedLogo(NULL)).Times(AnyNumber()); EXPECT_CALL(*logo_cache_, OnGetCachedLogo()).Times(AtMost(1)); observer_.ExpectCachedLogo(NULL); GetLogo(); } TEST_F(LogoTrackerTest, DeleteExpiredCachedLogo) { SetServerResponse("", net::URLRequestStatus::FAILED, net::HTTP_OK); Logo cached_logo = GetSampleLogo(logo_url_, test_clock_->Now()); cached_logo.metadata.expiration_time = test_clock_->Now() - base::TimeDelta::FromSeconds(1); cached_logo.metadata.can_show_after_expiration = false; logo_cache_->EncodeAndSetCachedLogo(cached_logo); EXPECT_CALL(*logo_cache_, UpdateCachedLogoMetadata(_)).Times(0); EXPECT_CALL(*logo_cache_, SetCachedLogo(_)).Times(0); EXPECT_CALL(*logo_cache_, SetCachedLogo(NULL)).Times(AnyNumber()); EXPECT_CALL(*logo_cache_, OnGetCachedLogo()).Times(AtMost(1)); observer_.ExpectCachedLogo(NULL); GetLogo(); } // Tests that deal with multiple listeners. void EnqueueObservers(LogoTracker* logo_tracker, const ScopedVector& observers, size_t start_index) { if (start_index >= observers.size()) return; logo_tracker->GetLogo(observers[start_index]); base::ThreadTaskRunnerHandle::Get()->PostTask( FROM_HERE, base::Bind(&EnqueueObservers, logo_tracker, base::ConstRef(observers), start_index + 1)); } TEST_F(LogoTrackerTest, SupportOverlappingLogoRequests) { Logo cached_logo = GetSampleLogo(logo_url_, test_clock_->Now()); logo_cache_->EncodeAndSetCachedLogo(cached_logo); ON_CALL(*logo_cache_, SetCachedLogo(_)).WillByDefault(Return()); Logo fresh_logo = GetSampleLogo2(logo_url_, test_clock_->Now()); std::string response = ServerResponse(fresh_logo); SetServerResponse(response); SetServerResponseWhenFingerprint(cached_logo.metadata.fingerprint, response); const int kNumListeners = 10; ScopedVector listeners; for (int i = 0; i < kNumListeners; ++i) { MockLogoObserver* listener = new MockLogoObserver(); listener->ExpectCachedAndFreshLogos(&cached_logo, &fresh_logo); listeners.push_back(listener); } EnqueueObservers(logo_tracker_, listeners, 0); EXPECT_CALL(*logo_cache_, SetCachedLogo(_)).Times(AtMost(3)); EXPECT_CALL(*logo_cache_, OnGetCachedLogo()).Times(AtMost(3)); base::RunLoop().RunUntilIdle(); } TEST_F(LogoTrackerTest, DeleteObserversWhenLogoURLChanged) { MockLogoObserver listener1; listener1.ExpectNoLogo(); logo_tracker_->GetLogo(&listener1); logo_url_ = GURL("http://example.com/new-logo-url"); logo_tracker_->SetServerAPI(logo_url_, base::Bind(&GoogleParseLogoResponse), base::Bind(&GoogleAppendQueryparamsToLogoURL), false); Logo logo = GetSampleLogo(logo_url_, test_clock_->Now()); SetServerResponse(ServerResponse(logo)); MockLogoObserver listener2; listener2.ExpectFreshLogo(&logo); logo_tracker_->GetLogo(&listener2); base::RunLoop().RunUntilIdle(); } } // namespace } // namespace search_provider_logos