// 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 <string> #include "base/bind.h" #include "base/files/file_path.h" #include "base/logging.h" #include "base/memory/scoped_ptr.h" #include "base/stl_util.h" #include "base/strings/string16.h" #include "base/time/time.h" #include "base/values.h" #include "chrome/browser/download/download_query.h" #include "content/public/test/mock_download_item.h" #include "testing/gmock/include/gmock/gmock.h" #include "testing/gtest/include/gtest/gtest.h" using ::testing::Return; using ::testing::ReturnRef; using ::testing::_; using base::Time; using base::Value; using content::DownloadItem; typedef DownloadQuery::DownloadVector DownloadVector; namespace { static const int kSomeKnownTime = 1355864160; static const char kSomeKnownTime8601[] = "2012-12-18T20:56:0"; static const char k8601Suffix[] = ".000Z"; bool IdNotEqual(uint32 not_id, const DownloadItem& item) { return item.GetId() != not_id; } bool AlwaysReturn(bool result, const DownloadItem& item) { return result; } } // anonymous namespace class DownloadQueryTest : public testing::Test { public: DownloadQueryTest() {} virtual ~DownloadQueryTest() {} virtual void TearDown() { STLDeleteElements(&mocks_); } void CreateMocks(int count) { for (int i = 0; i < count; ++i) { mocks_.push_back(new content::MockDownloadItem()); EXPECT_CALL(mock(mocks_.size() - 1), GetId()).WillRepeatedly(Return( mocks_.size() - 1)); } } content::MockDownloadItem& mock(int index) { return *mocks_[index]; } DownloadQuery* query() { return &query_; } template<typename ValueType> void AddFilter( DownloadQuery::FilterType name, ValueType value); void Search() { query_.Search(mocks_.begin(), mocks_.end(), &results_); } DownloadVector* results() { return &results_; } // Filter tests generally contain 2 items. mock(0) matches the filter, mock(1) // does not. void ExpectStandardFilterResults() { Search(); ASSERT_EQ(1U, results()->size()); ASSERT_EQ(0U, results()->at(0)->GetId()); } // If no sorters distinguish between two items, then DownloadQuery sorts by ID // ascending. In order to test that a sorter distinguishes between two items, // the sorter must sort them by ID descending. void ExpectSortInverted() { Search(); ASSERT_EQ(2U, results()->size()); ASSERT_EQ(1U, results()->at(0)->GetId()); ASSERT_EQ(0U, results()->at(1)->GetId()); } private: std::vector<content::MockDownloadItem*> mocks_; DownloadQuery query_; DownloadVector results_; DISALLOW_COPY_AND_ASSIGN(DownloadQueryTest); }; template<> void DownloadQueryTest::AddFilter( DownloadQuery::FilterType name, bool cpp_value) { scoped_ptr<base::Value> value(base::Value::CreateBooleanValue(cpp_value)); CHECK(query_.AddFilter(name, *value.get())); } template<> void DownloadQueryTest::AddFilter( DownloadQuery::FilterType name, int cpp_value) { scoped_ptr<base::Value> value(base::Value::CreateIntegerValue(cpp_value)); CHECK(query_.AddFilter(name, *value.get())); } template<> void DownloadQueryTest::AddFilter( DownloadQuery::FilterType name, const char* cpp_value) { CHECK(query_.AddFilter(name, base::StringValue(cpp_value))); } template<> void DownloadQueryTest::AddFilter( DownloadQuery::FilterType name, std::string cpp_value) { CHECK(query_.AddFilter(name, base::StringValue(cpp_value))); } template<> void DownloadQueryTest::AddFilter( DownloadQuery::FilterType name, const base::char16* cpp_value) { CHECK(query_.AddFilter(name, base::StringValue(cpp_value))); } template<> void DownloadQueryTest::AddFilter( DownloadQuery::FilterType name, std::vector<base::string16> cpp_value) { scoped_ptr<base::ListValue> list(new base::ListValue()); for (std::vector<base::string16>::const_iterator it = cpp_value.begin(); it != cpp_value.end(); ++it) { list->Append(new base::StringValue(*it)); } CHECK(query_.AddFilter(name, *list.get())); } template<> void DownloadQueryTest::AddFilter( DownloadQuery::FilterType name, std::vector<std::string> cpp_value) { scoped_ptr<base::ListValue> list(new base::ListValue()); for (std::vector<std::string>::const_iterator it = cpp_value.begin(); it != cpp_value.end(); ++it) { list->Append(new base::StringValue(*it)); } CHECK(query_.AddFilter(name, *list.get())); } #if defined(OS_WIN) template<> void DownloadQueryTest::AddFilter( DownloadQuery::FilterType name, std::wstring cpp_value) { CHECK(query_.AddFilter(name, base::StringValue(cpp_value))); } #endif TEST_F(DownloadQueryTest, DownloadQueryTest_ZeroItems) { Search(); EXPECT_EQ(0U, results()->size()); } TEST_F(DownloadQueryTest, DownloadQueryTest_InvalidFilter) { scoped_ptr<base::Value> value(base::Value::CreateIntegerValue(0)); EXPECT_FALSE(query()->AddFilter( static_cast<DownloadQuery::FilterType>(kint32max), *value.get())); } TEST_F(DownloadQueryTest, DownloadQueryTest_EmptyQuery) { CreateMocks(2); Search(); ASSERT_EQ(2U, results()->size()); ASSERT_EQ(0U, results()->at(0)->GetId()); ASSERT_EQ(1U, results()->at(1)->GetId()); } TEST_F(DownloadQueryTest, DownloadQueryTest_Limit) { CreateMocks(2); query()->Limit(1); ExpectStandardFilterResults(); } TEST_F(DownloadQueryTest, DownloadQueryTest_FilterGenericQueryFilename) { CreateMocks(2); EXPECT_CALL(mock(0), GetBrowserContext()).WillRepeatedly(Return( static_cast<content::BrowserContext*>(NULL))); EXPECT_CALL(mock(1), GetBrowserContext()).WillRepeatedly(Return( static_cast<content::BrowserContext*>(NULL))); base::FilePath match_filename(FILE_PATH_LITERAL("query")); EXPECT_CALL(mock(0), GetTargetFilePath()).WillRepeatedly(ReturnRef( match_filename)); base::FilePath fail_filename(FILE_PATH_LITERAL("fail")); EXPECT_CALL(mock(1), GetTargetFilePath()).WillRepeatedly(ReturnRef( fail_filename)); GURL fail_url("http://example.com/fail"); EXPECT_CALL(mock(0), GetOriginalUrl()).WillRepeatedly(ReturnRef(fail_url)); EXPECT_CALL(mock(1), GetOriginalUrl()).WillRepeatedly(ReturnRef(fail_url)); std::vector<std::string> query_terms; query_terms.push_back("query"); AddFilter(DownloadQuery::FILTER_QUERY, query_terms); ExpectStandardFilterResults(); } TEST_F(DownloadQueryTest, DownloadQueryTest_FilterGenericQueryUrl) { CreateMocks(2); EXPECT_CALL(mock(0), GetBrowserContext()).WillRepeatedly(Return( static_cast<content::BrowserContext*>(NULL))); EXPECT_CALL(mock(1), GetBrowserContext()).WillRepeatedly(Return( static_cast<content::BrowserContext*>(NULL))); base::FilePath fail_filename(FILE_PATH_LITERAL("fail")); EXPECT_CALL(mock(0), GetTargetFilePath()).WillRepeatedly(ReturnRef( fail_filename)); EXPECT_CALL(mock(1), GetTargetFilePath()).WillRepeatedly(ReturnRef( fail_filename)); GURL match_url("http://query.com/query"); EXPECT_CALL(mock(0), GetOriginalUrl()).WillRepeatedly(ReturnRef(match_url)); GURL fail_url("http://example.com/fail"); EXPECT_CALL(mock(1), GetOriginalUrl()).WillRepeatedly(ReturnRef(fail_url)); std::vector<std::string> query_terms; query_terms.push_back("query"); AddFilter(DownloadQuery::FILTER_QUERY, query_terms); ExpectStandardFilterResults(); } TEST_F(DownloadQueryTest, DownloadQueryTest_FilterGenericQueryFilenameI18N) { CreateMocks(2); EXPECT_CALL(mock(0), GetBrowserContext()).WillRepeatedly(Return( static_cast<content::BrowserContext*>(NULL))); EXPECT_CALL(mock(1), GetBrowserContext()).WillRepeatedly(Return( static_cast<content::BrowserContext*>(NULL))); const base::FilePath::StringType kTestString( #if defined(OS_POSIX) "/\xe4\xbd\xa0\xe5\xa5\xbd\xe4\xbd\xa0\xe5\xa5\xbd" #elif defined(OS_WIN) L"/\x4f60\x597d\x4f60\x597d" #endif ); base::FilePath match_filename(kTestString); EXPECT_CALL(mock(0), GetTargetFilePath()).WillRepeatedly(ReturnRef( match_filename)); base::FilePath fail_filename(FILE_PATH_LITERAL("fail")); EXPECT_CALL(mock(1), GetTargetFilePath()).WillRepeatedly(ReturnRef( fail_filename)); GURL fail_url("http://example.com/fail"); EXPECT_CALL(mock(0), GetOriginalUrl()).WillRepeatedly(ReturnRef(fail_url)); EXPECT_CALL(mock(1), GetOriginalUrl()).WillRepeatedly(ReturnRef(fail_url)); std::vector<base::FilePath::StringType> query_terms; query_terms.push_back(kTestString); AddFilter(DownloadQuery::FILTER_QUERY, query_terms); ExpectStandardFilterResults(); } TEST_F(DownloadQueryTest, DownloadQueryTest_FilterFilenameRegex) { CreateMocks(2); base::FilePath match_filename(FILE_PATH_LITERAL("query")); EXPECT_CALL(mock(0), GetTargetFilePath()).WillRepeatedly(ReturnRef( match_filename)); base::FilePath fail_filename(FILE_PATH_LITERAL("fail")); EXPECT_CALL(mock(1), GetTargetFilePath()).WillRepeatedly(ReturnRef( fail_filename)); AddFilter(DownloadQuery::FILTER_FILENAME_REGEX, "y"); ExpectStandardFilterResults(); } TEST_F(DownloadQueryTest, DownloadQueryTest_SortFilename) { CreateMocks(2); base::FilePath b_filename(FILE_PATH_LITERAL("b")); EXPECT_CALL(mock(0), GetTargetFilePath()).WillRepeatedly(ReturnRef( b_filename)); base::FilePath a_filename(FILE_PATH_LITERAL("a")); EXPECT_CALL(mock(1), GetTargetFilePath()).WillRepeatedly(ReturnRef( a_filename)); query()->AddSorter(DownloadQuery::SORT_FILENAME, DownloadQuery::ASCENDING); ExpectSortInverted(); } TEST_F(DownloadQueryTest, DownloadQueryTest_FilterFilename) { CreateMocks(2); base::FilePath match_filename(FILE_PATH_LITERAL("query")); EXPECT_CALL(mock(0), GetTargetFilePath()).WillRepeatedly(ReturnRef( match_filename)); base::FilePath fail_filename(FILE_PATH_LITERAL("fail")); EXPECT_CALL(mock(1), GetTargetFilePath()).WillRepeatedly(ReturnRef( fail_filename)); AddFilter(DownloadQuery::FILTER_FILENAME, match_filename.value().c_str()); ExpectStandardFilterResults(); } TEST_F(DownloadQueryTest, DownloadQueryTest_FilterUrlRegex) { CreateMocks(2); GURL match_url("http://query.com/query"); EXPECT_CALL(mock(0), GetOriginalUrl()).WillRepeatedly(ReturnRef(match_url)); GURL fail_url("http://example.com/fail"); EXPECT_CALL(mock(1), GetOriginalUrl()).WillRepeatedly(ReturnRef(fail_url)); AddFilter(DownloadQuery::FILTER_URL_REGEX, "query"); ExpectStandardFilterResults(); } TEST_F(DownloadQueryTest, DownloadQueryTest_SortUrl) { CreateMocks(2); GURL b_url("http://example.com/b"); EXPECT_CALL(mock(0), GetOriginalUrl()).WillRepeatedly(ReturnRef(b_url)); GURL a_url("http://example.com/a"); EXPECT_CALL(mock(1), GetOriginalUrl()).WillRepeatedly(ReturnRef(a_url)); query()->AddSorter(DownloadQuery::SORT_URL, DownloadQuery::ASCENDING); ExpectSortInverted(); } TEST_F(DownloadQueryTest, DownloadQueryTest_FilterUrl) { CreateMocks(2); GURL match_url("http://query.com/query"); EXPECT_CALL(mock(0), GetOriginalUrl()).WillRepeatedly(ReturnRef(match_url)); GURL fail_url("http://example.com/fail"); EXPECT_CALL(mock(1), GetOriginalUrl()).WillRepeatedly(ReturnRef(fail_url)); AddFilter(DownloadQuery::FILTER_URL, match_url.spec().c_str()); ExpectStandardFilterResults(); } TEST_F(DownloadQueryTest, DownloadQueryTest_FilterCallback) { CreateMocks(2); CHECK(query()->AddFilter(base::Bind(&IdNotEqual, 1))); ExpectStandardFilterResults(); } TEST_F(DownloadQueryTest, DownloadQueryTest_FilterBytesReceived) { CreateMocks(2); EXPECT_CALL(mock(0), GetReceivedBytes()).WillRepeatedly(Return(0)); EXPECT_CALL(mock(1), GetReceivedBytes()).WillRepeatedly(Return(1)); AddFilter(DownloadQuery::FILTER_BYTES_RECEIVED, 0); ExpectStandardFilterResults(); } TEST_F(DownloadQueryTest, DownloadQueryTest_SortBytesReceived) { CreateMocks(2); EXPECT_CALL(mock(0), GetReceivedBytes()).WillRepeatedly(Return(0)); EXPECT_CALL(mock(1), GetReceivedBytes()).WillRepeatedly(Return(1)); query()->AddSorter(DownloadQuery::SORT_BYTES_RECEIVED, DownloadQuery::DESCENDING); ExpectSortInverted(); } TEST_F(DownloadQueryTest, DownloadQueryTest_FilterDangerAccepted) { CreateMocks(2); EXPECT_CALL(mock(0), GetDangerType()).WillRepeatedly(Return( content::DOWNLOAD_DANGER_TYPE_USER_VALIDATED)); EXPECT_CALL(mock(1), GetDangerType()).WillRepeatedly(Return( content::DOWNLOAD_DANGER_TYPE_DANGEROUS_FILE)); AddFilter(DownloadQuery::FILTER_DANGER_ACCEPTED, true); ExpectStandardFilterResults(); } TEST_F(DownloadQueryTest, DownloadQueryTest_SortDangerAccepted) { CreateMocks(2); EXPECT_CALL(mock(0), GetDangerType()).WillRepeatedly(Return( content::DOWNLOAD_DANGER_TYPE_USER_VALIDATED)); EXPECT_CALL(mock(1), GetDangerType()).WillRepeatedly(Return( content::DOWNLOAD_DANGER_TYPE_DANGEROUS_FILE)); query()->AddSorter(DownloadQuery::SORT_DANGER_ACCEPTED, DownloadQuery::ASCENDING); ExpectSortInverted(); } TEST_F(DownloadQueryTest, DownloadQueryTest_FilterExists) { CreateMocks(2); EXPECT_CALL(mock(0), GetFileExternallyRemoved()).WillRepeatedly(Return( false)); EXPECT_CALL(mock(1), GetFileExternallyRemoved()).WillRepeatedly(Return( true)); AddFilter(DownloadQuery::FILTER_EXISTS, true); ExpectStandardFilterResults(); } TEST_F(DownloadQueryTest, DownloadQueryTest_SortExists) { CreateMocks(2); EXPECT_CALL(mock(0), GetFileExternallyRemoved()).WillRepeatedly(Return( false)); EXPECT_CALL(mock(1), GetFileExternallyRemoved()).WillRepeatedly(Return( true)); query()->AddSorter(DownloadQuery::SORT_EXISTS, DownloadQuery::ASCENDING); ExpectSortInverted(); } TEST_F(DownloadQueryTest, DownloadQueryTest_FilterMime) { CreateMocks(2); EXPECT_CALL(mock(0), GetMimeType()).WillRepeatedly(Return("text")); EXPECT_CALL(mock(1), GetMimeType()).WillRepeatedly(Return("image")); AddFilter(DownloadQuery::FILTER_MIME, "text"); ExpectStandardFilterResults(); } TEST_F(DownloadQueryTest, DownloadQueryTest_SortMime) { CreateMocks(2); EXPECT_CALL(mock(0), GetMimeType()).WillRepeatedly(Return("b")); EXPECT_CALL(mock(1), GetMimeType()).WillRepeatedly(Return("a")); query()->AddSorter(DownloadQuery::SORT_MIME, DownloadQuery::ASCENDING); ExpectSortInverted(); } TEST_F(DownloadQueryTest, DownloadQueryTest_FilterPaused) { CreateMocks(2); EXPECT_CALL(mock(0), IsPaused()).WillRepeatedly(Return(true)); EXPECT_CALL(mock(1), IsPaused()).WillRepeatedly(Return(false)); AddFilter(DownloadQuery::FILTER_PAUSED, true); ExpectStandardFilterResults(); } TEST_F(DownloadQueryTest, DownloadQueryTest_SortPaused) { CreateMocks(2); EXPECT_CALL(mock(0), IsPaused()).WillRepeatedly(Return(true)); EXPECT_CALL(mock(1), IsPaused()).WillRepeatedly(Return(false)); query()->AddSorter(DownloadQuery::SORT_PAUSED, DownloadQuery::ASCENDING); ExpectSortInverted(); } TEST_F(DownloadQueryTest, DownloadQueryTest_FilterStartedAfter) { CreateMocks(2); EXPECT_CALL(mock(0), GetStartTime()).WillRepeatedly(Return( base::Time::FromTimeT(kSomeKnownTime + 2))); EXPECT_CALL(mock(1), GetStartTime()).WillRepeatedly(Return( base::Time::FromTimeT(kSomeKnownTime + 1))); AddFilter(DownloadQuery::FILTER_STARTED_AFTER, std::string(kSomeKnownTime8601) + "1" + std::string(k8601Suffix)); ExpectStandardFilterResults(); } TEST_F(DownloadQueryTest, DownloadQueryTest_FilterStartedBefore) { CreateMocks(2); EXPECT_CALL(mock(0), GetStartTime()).WillRepeatedly(Return( base::Time::FromTimeT(kSomeKnownTime + 2))); EXPECT_CALL(mock(1), GetStartTime()).WillRepeatedly(Return( base::Time::FromTimeT(kSomeKnownTime + 4))); AddFilter(DownloadQuery::FILTER_STARTED_BEFORE, std::string(kSomeKnownTime8601) + "4" + std::string(k8601Suffix)); ExpectStandardFilterResults(); } TEST_F(DownloadQueryTest, DownloadQueryTest_FilterStartTime) { CreateMocks(2); EXPECT_CALL(mock(0), GetStartTime()).WillRepeatedly(Return( base::Time::FromTimeT(kSomeKnownTime + 2))); EXPECT_CALL(mock(1), GetStartTime()).WillRepeatedly(Return( base::Time::FromTimeT(kSomeKnownTime + 4))); AddFilter(DownloadQuery::FILTER_START_TIME, std::string(kSomeKnownTime8601) + "2" + std::string(k8601Suffix)); ExpectStandardFilterResults(); } TEST_F(DownloadQueryTest, DownloadQueryTest_SortStartTime) { CreateMocks(2); EXPECT_CALL(mock(0), GetStartTime()).WillRepeatedly(Return( base::Time::FromTimeT(kSomeKnownTime + 2))); EXPECT_CALL(mock(1), GetStartTime()).WillRepeatedly(Return( base::Time::FromTimeT(kSomeKnownTime + 4))); query()->AddSorter(DownloadQuery::SORT_START_TIME, DownloadQuery::DESCENDING); ExpectSortInverted(); } TEST_F(DownloadQueryTest, DownloadQueryTest_FilterEndedAfter) { CreateMocks(2); EXPECT_CALL(mock(0), GetEndTime()).WillRepeatedly(Return( base::Time::FromTimeT(kSomeKnownTime + 2))); EXPECT_CALL(mock(1), GetEndTime()).WillRepeatedly(Return( base::Time::FromTimeT(kSomeKnownTime + 1))); AddFilter(DownloadQuery::FILTER_ENDED_AFTER, std::string(kSomeKnownTime8601) + "1" + std::string(k8601Suffix)); ExpectStandardFilterResults(); } TEST_F(DownloadQueryTest, DownloadQueryTest_FilterEndedBefore) { CreateMocks(2); EXPECT_CALL(mock(0), GetEndTime()).WillRepeatedly(Return( base::Time::FromTimeT(kSomeKnownTime + 2))); EXPECT_CALL(mock(1), GetEndTime()).WillRepeatedly(Return( base::Time::FromTimeT(kSomeKnownTime + 4))); AddFilter(DownloadQuery::FILTER_ENDED_BEFORE, std::string(kSomeKnownTime8601) + "4" + std::string(k8601Suffix)); ExpectStandardFilterResults(); } TEST_F(DownloadQueryTest, DownloadQueryTest_FilterEndTime) { CreateMocks(2); EXPECT_CALL(mock(0), GetEndTime()).WillRepeatedly(Return( base::Time::FromTimeT(kSomeKnownTime + 2))); EXPECT_CALL(mock(1), GetEndTime()).WillRepeatedly(Return( base::Time::FromTimeT(kSomeKnownTime + 4))); AddFilter(DownloadQuery::FILTER_END_TIME, std::string(kSomeKnownTime8601) + "2" + std::string(k8601Suffix)); ExpectStandardFilterResults(); } TEST_F(DownloadQueryTest, DownloadQueryTest_SortEndTime) { CreateMocks(2); EXPECT_CALL(mock(0), GetEndTime()).WillRepeatedly(Return( base::Time::FromTimeT(kSomeKnownTime + 2))); EXPECT_CALL(mock(1), GetEndTime()).WillRepeatedly(Return( base::Time::FromTimeT(kSomeKnownTime + 4))); query()->AddSorter(DownloadQuery::SORT_END_TIME, DownloadQuery::DESCENDING); ExpectSortInverted(); } TEST_F(DownloadQueryTest, DownloadQueryTest_FilterTotalBytesGreater) { CreateMocks(2); EXPECT_CALL(mock(0), GetTotalBytes()).WillRepeatedly(Return(2)); EXPECT_CALL(mock(1), GetTotalBytes()).WillRepeatedly(Return(1)); AddFilter(DownloadQuery::FILTER_TOTAL_BYTES_GREATER, 1); ExpectStandardFilterResults(); } TEST_F(DownloadQueryTest, DownloadQueryTest_FilterTotalBytesLess) { CreateMocks(2); EXPECT_CALL(mock(0), GetTotalBytes()).WillRepeatedly(Return(2)); EXPECT_CALL(mock(1), GetTotalBytes()).WillRepeatedly(Return(4)); AddFilter(DownloadQuery::FILTER_TOTAL_BYTES_LESS, 4); ExpectStandardFilterResults(); } TEST_F(DownloadQueryTest, DownloadQueryTest_FilterTotalBytes) { CreateMocks(2); EXPECT_CALL(mock(0), GetTotalBytes()).WillRepeatedly(Return(2)); EXPECT_CALL(mock(1), GetTotalBytes()).WillRepeatedly(Return(4)); AddFilter(DownloadQuery::FILTER_TOTAL_BYTES, 2); ExpectStandardFilterResults(); } TEST_F(DownloadQueryTest, DownloadQueryTest_SortTotalBytes) { CreateMocks(2); EXPECT_CALL(mock(0), GetTotalBytes()).WillRepeatedly(Return(2)); EXPECT_CALL(mock(1), GetTotalBytes()).WillRepeatedly(Return(4)); query()->AddSorter(DownloadQuery::SORT_TOTAL_BYTES, DownloadQuery::DESCENDING); ExpectSortInverted(); } TEST_F(DownloadQueryTest, DownloadQueryTest_FilterState) { CreateMocks(2); EXPECT_CALL(mock(0), GetState()).WillRepeatedly(Return( DownloadItem::IN_PROGRESS)); EXPECT_CALL(mock(1), GetState()).WillRepeatedly(Return( DownloadItem::CANCELLED)); query()->AddFilter(DownloadItem::IN_PROGRESS); ExpectStandardFilterResults(); } TEST_F(DownloadQueryTest, DownloadQueryTest_SortState) { CreateMocks(2); EXPECT_CALL(mock(0), GetState()).WillRepeatedly(Return( DownloadItem::IN_PROGRESS)); EXPECT_CALL(mock(1), GetState()).WillRepeatedly(Return( DownloadItem::CANCELLED)); query()->AddSorter(DownloadQuery::SORT_STATE, DownloadQuery::DESCENDING); ExpectSortInverted(); } TEST_F(DownloadQueryTest, DownloadQueryTest_FilterDanger) { CreateMocks(2); EXPECT_CALL(mock(0), GetDangerType()).WillRepeatedly(Return( content::DOWNLOAD_DANGER_TYPE_NOT_DANGEROUS)); EXPECT_CALL(mock(1), GetDangerType()).WillRepeatedly(Return( content::DOWNLOAD_DANGER_TYPE_DANGEROUS_FILE)); query()->AddFilter(content::DOWNLOAD_DANGER_TYPE_NOT_DANGEROUS); ExpectStandardFilterResults(); } TEST_F(DownloadQueryTest, DownloadQueryTest_SortDanger) { CreateMocks(2); EXPECT_CALL(mock(0), GetDangerType()).WillRepeatedly(Return( content::DOWNLOAD_DANGER_TYPE_NOT_DANGEROUS)); EXPECT_CALL(mock(1), GetDangerType()).WillRepeatedly(Return( content::DOWNLOAD_DANGER_TYPE_DANGEROUS_FILE)); query()->AddSorter(DownloadQuery::SORT_DANGER, DownloadQuery::DESCENDING); ExpectSortInverted(); } TEST_F(DownloadQueryTest, DownloadQueryTest_DefaultSortById1) { CreateMocks(2); EXPECT_CALL(mock(0), GetReceivedBytes()).WillRepeatedly(Return(0)); EXPECT_CALL(mock(1), GetReceivedBytes()).WillRepeatedly(Return(0)); query()->AddSorter(DownloadQuery::SORT_BYTES_RECEIVED, DownloadQuery::ASCENDING); Search(); ASSERT_EQ(2U, results()->size()); EXPECT_EQ(0U, results()->at(0)->GetId()); EXPECT_EQ(1U, results()->at(1)->GetId()); } TEST_F(DownloadQueryTest, DownloadQueryTest_DefaultSortById2) { CreateMocks(2); EXPECT_CALL(mock(0), GetReceivedBytes()).WillRepeatedly(Return(0)); EXPECT_CALL(mock(1), GetReceivedBytes()).WillRepeatedly(Return(0)); query()->AddSorter(DownloadQuery::SORT_BYTES_RECEIVED, DownloadQuery::DESCENDING); Search(); ASSERT_EQ(2U, results()->size()); EXPECT_EQ(0U, results()->at(0)->GetId()); EXPECT_EQ(1U, results()->at(1)->GetId()); } TEST_F(DownloadQueryTest, DownloadQueryFilterPerformance) { static const int kNumItems = 100; static const int kNumFilters = 100; CreateMocks(kNumItems); for (size_t i = 0; i < (kNumFilters - 1); ++i) { query()->AddFilter(base::Bind(&AlwaysReturn, true)); } query()->AddFilter(base::Bind(&AlwaysReturn, false)); base::Time start = base::Time::Now(); Search(); base::Time end = base::Time::Now(); double nanos = (end - start).InMillisecondsF() * 1000.0 * 1000.0; double nanos_per_item = nanos / static_cast<double>(kNumItems); double nanos_per_item_per_filter = nanos_per_item / static_cast<double>(kNumFilters); std::cout << "Search took " << nanos_per_item_per_filter << " nanoseconds per item per filter.\n"; }