components/search_engines/template_url_prepopulate_data_unittest.cc - chromium/src - Git at Google

 // 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_engines/template_url_prepopulate_data.h"

 #include <stddef.h>

 #include <memory>
 #include <utility>

 #include "base/command_line.h"
 #include "base/files/scoped_temp_dir.h"
 #include "base/macros.h"
 #include "base/strings/utf_string_conversions.h"
 #include "base/values.h"
 #include "components/google/core/common/google_switches.h"
 #include "components/search_engines/prepopulated_engines.h"
 #include "components/search_engines/search_engines_pref_names.h"
 #include "components/search_engines/search_terms_data.h"
 #include "components/search_engines/template_url.h"
 #include "components/search_engines/template_url_data_util.h"
 #include "components/search_engines/template_url_service.h"
 #include "components/search_engines/testing_search_terms_data.h"
 #include "components/sync_preferences/testing_pref_service_syncable.h"
 #include "testing/gtest/include/gtest/gtest.h"

 using base::ASCIIToUTF16;

 namespace {

 SearchEngineType GetEngineType(const std::string& url) {
   TemplateURLData data;
   data.SetURL(url);
   return TemplateURL(data).GetEngineType(SearchTermsData());
 }

 std::string GetHostFromTemplateURLData(const TemplateURLData& data) {
   return TemplateURL(data).url_ref().GetHost(SearchTermsData());
 }

 }  // namespace

 class TemplateURLPrepopulateDataTest : public testing::Test {
  public:
   void SetUp() override {
     TemplateURLPrepopulateData::RegisterProfilePrefs(prefs_.registry());
   }

  protected:
   sync_preferences::TestingPrefServiceSyncable prefs_;
 };

 // Verifies the set of prepopulate data doesn't contain entries with duplicate
 // ids.
 TEST_F(TemplateURLPrepopulateDataTest, UniqueIDs) {
   const int kCountryIds[] = {
       'A'<<8|'D', 'A'<<8|'E', 'A'<<8|'F', 'A'<<8|'G', 'A'<<8|'I',
       'A'<<8|'L', 'A'<<8|'M', 'A'<<8|'N', 'A'<<8|'O', 'A'<<8|'Q',
       'A'<<8|'R', 'A'<<8|'S', 'A'<<8|'T', 'A'<<8|'U', 'A'<<8|'W',
       'A'<<8|'X', 'A'<<8|'Z', 'B'<<8|'A', 'B'<<8|'B', 'B'<<8|'D',
       'B'<<8|'E', 'B'<<8|'F', 'B'<<8|'G', 'B'<<8|'H', 'B'<<8|'I',
       'B'<<8|'J', 'B'<<8|'M', 'B'<<8|'N', 'B'<<8|'O', 'B'<<8|'R',
       'B'<<8|'S', 'B'<<8|'T', 'B'<<8|'V', 'B'<<8|'W', 'B'<<8|'Y',
       'B'<<8|'Z', 'C'<<8|'A', 'C'<<8|'C', 'C'<<8|'D', 'C'<<8|'F',
       'C'<<8|'G', 'C'<<8|'H', 'C'<<8|'I', 'C'<<8|'K', 'C'<<8|'L',
       'C'<<8|'M', 'C'<<8|'N', 'C'<<8|'O', 'C'<<8|'R', 'C'<<8|'U',
       'C'<<8|'V', 'C'<<8|'X', 'C'<<8|'Y', 'C'<<8|'Z', 'D'<<8|'E',
       'D'<<8|'J', 'D'<<8|'K', 'D'<<8|'M', 'D'<<8|'O', 'D'<<8|'Z',
       'E'<<8|'C', 'E'<<8|'E', 'E'<<8|'G', 'E'<<8|'R', 'E'<<8|'S',
       'E'<<8|'T', 'F'<<8|'I', 'F'<<8|'J', 'F'<<8|'K', 'F'<<8|'M',
       'F'<<8|'O', 'F'<<8|'R', 'G'<<8|'A', 'G'<<8|'B', 'G'<<8|'D',
       'G'<<8|'E', 'G'<<8|'F', 'G'<<8|'G', 'G'<<8|'H', 'G'<<8|'I',
       'G'<<8|'L', 'G'<<8|'M', 'G'<<8|'N', 'G'<<8|'P', 'G'<<8|'Q',
       'G'<<8|'R', 'G'<<8|'S', 'G'<<8|'T', 'G'<<8|'U', 'G'<<8|'W',
       'G'<<8|'Y', 'H'<<8|'K', 'H'<<8|'M', 'H'<<8|'N', 'H'<<8|'R',
       'H'<<8|'T', 'H'<<8|'U', 'I'<<8|'D', 'I'<<8|'E', 'I'<<8|'L',
       'I'<<8|'M', 'I'<<8|'N', 'I'<<8|'O', 'I'<<8|'P', 'I'<<8|'Q',
       'I'<<8|'R', 'I'<<8|'S', 'I'<<8|'T', 'J'<<8|'E', 'J'<<8|'M',
       'J'<<8|'O', 'J'<<8|'P', 'K'<<8|'E', 'K'<<8|'G', 'K'<<8|'H',
       'K'<<8|'I', 'K'<<8|'M', 'K'<<8|'N', 'K'<<8|'P', 'K'<<8|'R',
       'K'<<8|'W', 'K'<<8|'Y', 'K'<<8|'Z', 'L'<<8|'A', 'L'<<8|'B',
       'L'<<8|'C', 'L'<<8|'I', 'L'<<8|'K', 'L'<<8|'R', 'L'<<8|'S',
       'L'<<8|'T', 'L'<<8|'U', 'L'<<8|'V', 'L'<<8|'Y', 'M'<<8|'A',
       'M'<<8|'C', 'M'<<8|'D', 'M'<<8|'E', 'M'<<8|'G', 'M'<<8|'H',
       'M'<<8|'K', 'M'<<8|'L', 'M'<<8|'M', 'M'<<8|'N', 'M'<<8|'O',
       'M'<<8|'P', 'M'<<8|'Q', 'M'<<8|'R', 'M'<<8|'S', 'M'<<8|'T',
       'M'<<8|'U', 'M'<<8|'V', 'M'<<8|'W', 'M'<<8|'X', 'M'<<8|'Y',
       'M'<<8|'Z', 'N'<<8|'A', 'N'<<8|'C', 'N'<<8|'E', 'N'<<8|'F',
       'N'<<8|'G', 'N'<<8|'I', 'N'<<8|'L', 'N'<<8|'O', 'N'<<8|'P',
       'N'<<8|'R', 'N'<<8|'U', 'N'<<8|'Z', 'O'<<8|'M', 'P'<<8|'A',
       'P'<<8|'E', 'P'<<8|'F', 'P'<<8|'G', 'P'<<8|'H', 'P'<<8|'K',
       'P'<<8|'L', 'P'<<8|'M', 'P'<<8|'N', 'P'<<8|'R', 'P'<<8|'S',
       'P'<<8|'T', 'P'<<8|'W', 'P'<<8|'Y', 'Q'<<8|'A', 'R'<<8|'E',
       'R'<<8|'O', 'R'<<8|'S', 'R'<<8|'U', 'R'<<8|'W', 'S'<<8|'A',
       'S'<<8|'B', 'S'<<8|'C', 'S'<<8|'D', 'S'<<8|'E', 'S'<<8|'G',
       'S'<<8|'H', 'S'<<8|'I', 'S'<<8|'J', 'S'<<8|'K', 'S'<<8|'L',
       'S'<<8|'M', 'S'<<8|'N', 'S'<<8|'O', 'S'<<8|'R', 'S'<<8|'T',
       'S'<<8|'V', 'S'<<8|'Y', 'S'<<8|'Z', 'T'<<8|'C', 'T'<<8|'D',
       'T'<<8|'F', 'T'<<8|'G', 'T'<<8|'H', 'T'<<8|'J', 'T'<<8|'K',
       'T'<<8|'L', 'T'<<8|'M', 'T'<<8|'N', 'T'<<8|'O', 'T'<<8|'R',
       'T'<<8|'T', 'T'<<8|'V', 'T'<<8|'W', 'T'<<8|'Z', 'U'<<8|'A',
       'U'<<8|'G', 'U'<<8|'M', 'U'<<8|'S', 'U'<<8|'Y', 'U'<<8|'Z',
       'V'<<8|'A', 'V'<<8|'C', 'V'<<8|'E', 'V'<<8|'G', 'V'<<8|'I',
       'V'<<8|'N', 'V'<<8|'U', 'W'<<8|'F', 'W'<<8|'S', 'Y'<<8|'E',
       'Y'<<8|'T', 'Z'<<8|'A', 'Z'<<8|'M', 'Z'<<8|'W', -1 };

   for (size_t i = 0; i < arraysize(kCountryIds); ++i) {
     prefs_.SetInteger(prefs::kCountryIDAtInstall, kCountryIds[i]);
     std::vector<std::unique_ptr<TemplateURLData>> urls =
         TemplateURLPrepopulateData::GetPrepopulatedEngines(&prefs_, nullptr);
     std::set<int> unique_ids;
     for (size_t turl_i = 0; turl_i < urls.size(); ++turl_i) {
       ASSERT_TRUE(unique_ids.find(urls[turl_i]->prepopulate_id) ==
                   unique_ids.end());
       unique_ids.insert(urls[turl_i]->prepopulate_id);
     }
   }
 }

 // Verifies that default search providers from the preferences file
 // override the built-in ones.
 TEST_F(TemplateURLPrepopulateDataTest, ProvidersFromPrefs) {
   prefs_.SetUserPref(prefs::kSearchProviderOverridesVersion,
                      std::make_unique<base::Value>(1));
   auto overrides = std::make_unique<base::ListValue>();
   std::unique_ptr<base::DictionaryValue> entry(new base::DictionaryValue);
   // Set only the minimal required settings for a search provider configuration.
   entry->SetString("name", "foo");
   entry->SetString("keyword", "fook");
   entry->SetString("search_url", "http://foo.com/s?q={searchTerms}");
   entry->SetString("favicon_url", "http://foi.com/favicon.ico");
   entry->SetString("encoding", "UTF-8");
   entry->SetInteger("id", 1001);
   overrides->Append(entry->CreateDeepCopy());
   prefs_.SetUserPref(prefs::kSearchProviderOverrides, std::move(overrides));

   int version = TemplateURLPrepopulateData::GetDataVersion(&prefs_);
   EXPECT_EQ(1, version);

   size_t default_index;
   std::vector<std::unique_ptr<TemplateURLData>> t_urls =
       TemplateURLPrepopulateData::GetPrepopulatedEngines(&prefs_,
                                                          &default_index);

   ASSERT_EQ(1u, t_urls.size());
   EXPECT_EQ(ASCIIToUTF16("foo"), t_urls[0]->short_name());
   EXPECT_EQ(ASCIIToUTF16("fook"), t_urls[0]->keyword());
   EXPECT_EQ("foo.com", GetHostFromTemplateURLData(*t_urls[0]));
   EXPECT_EQ("foi.com", t_urls[0]->favicon_url.host());
   EXPECT_EQ(1u, t_urls[0]->input_encodings.size());
   EXPECT_EQ(1001, t_urls[0]->prepopulate_id);
   EXPECT_TRUE(t_urls[0]->suggestions_url.empty());
   EXPECT_EQ(0u, t_urls[0]->alternate_urls.size());
   EXPECT_TRUE(t_urls[0]->safe_for_autoreplace);
   EXPECT_TRUE(t_urls[0]->date_created.is_null());
   EXPECT_TRUE(t_urls[0]->last_modified.is_null());

   // Test the optional settings too.
   entry->SetString("suggest_url", "http://foo.com/suggest?q={searchTerms}");
   auto alternate_urls = std::make_unique<base::ListValue>();
   alternate_urls->AppendString("http://foo.com/alternate?q={searchTerms}");
   entry->Set("alternate_urls", std::move(alternate_urls));
   overrides = std::make_unique<base::ListValue>();
   overrides->Append(entry->CreateDeepCopy());
   prefs_.SetUserPref(prefs::kSearchProviderOverrides, std::move(overrides));

   t_urls = TemplateURLPrepopulateData::GetPrepopulatedEngines(
       &prefs_, &default_index);
   ASSERT_EQ(1u, t_urls.size());
   EXPECT_EQ(ASCIIToUTF16("foo"), t_urls[0]->short_name());
   EXPECT_EQ(ASCIIToUTF16("fook"), t_urls[0]->keyword());
   EXPECT_EQ("foo.com", GetHostFromTemplateURLData(*t_urls[0]));
   EXPECT_EQ("foi.com", t_urls[0]->favicon_url.host());
   EXPECT_EQ(1u, t_urls[0]->input_encodings.size());
   EXPECT_EQ(1001, t_urls[0]->prepopulate_id);
   EXPECT_EQ("http://foo.com/suggest?q={searchTerms}",
             t_urls[0]->suggestions_url);
   ASSERT_EQ(1u, t_urls[0]->alternate_urls.size());
   EXPECT_EQ("http://foo.com/alternate?q={searchTerms}",
             t_urls[0]->alternate_urls[0]);

   // Test that subsequent providers are loaded even if an intermediate
   // provider has an incomplete configuration.
   overrides = std::make_unique<base::ListValue>();
   overrides->Append(entry->CreateDeepCopy());
   entry->SetInteger("id", 1002);
   entry->SetString("name", "bar");
   entry->SetString("keyword", "bark");
   entry->SetString("encoding", std::string());
   overrides->Append(entry->CreateDeepCopy());
   entry->SetInteger("id", 1003);
   entry->SetString("name", "baz");
   entry->SetString("keyword", "bazk");
   entry->SetString("encoding", "UTF-8");
   overrides->Append(entry->CreateDeepCopy());
   prefs_.SetUserPref(prefs::kSearchProviderOverrides, std::move(overrides));

   t_urls =
       TemplateURLPrepopulateData::GetPrepopulatedEngines(&prefs_,
                                                          &default_index);
   EXPECT_EQ(2u, t_urls.size());
 }

 TEST_F(TemplateURLPrepopulateDataTest, ClearProvidersFromPrefs) {
   prefs_.SetUserPref(prefs::kSearchProviderOverridesVersion,
                      std::make_unique<base::Value>(1));
   auto overrides = std::make_unique<base::ListValue>();
   std::unique_ptr<base::DictionaryValue> entry(new base::DictionaryValue);
   // Set only the minimal required settings for a search provider configuration.
   entry->SetString("name", "foo");
   entry->SetString("keyword", "fook");
   entry->SetString("search_url", "http://foo.com/s?q={searchTerms}");
   entry->SetString("favicon_url", "http://foi.com/favicon.ico");
   entry->SetString("encoding", "UTF-8");
   entry->SetInteger("id", 1001);
   overrides->Append(std::move(entry));
   prefs_.SetUserPref(prefs::kSearchProviderOverrides, std::move(overrides));

   int version = TemplateURLPrepopulateData::GetDataVersion(&prefs_);
   EXPECT_EQ(1, version);

   // This call removes the above search engine.
   TemplateURLPrepopulateData::ClearPrepopulatedEnginesInPrefs(&prefs_);

   version = TemplateURLPrepopulateData::GetDataVersion(&prefs_);
   EXPECT_EQ(TemplateURLPrepopulateData::kCurrentDataVersion, version);

   size_t default_index;
   std::vector<std::unique_ptr<TemplateURLData>> t_urls =
       TemplateURLPrepopulateData::GetPrepopulatedEngines(&prefs_,
                                                          &default_index);
   ASSERT_FALSE(t_urls.empty());
   for (size_t i = 0; i < t_urls.size(); ++i) {
     EXPECT_NE(ASCIIToUTF16("foo"), t_urls[i]->short_name());
     EXPECT_NE(ASCIIToUTF16("fook"), t_urls[i]->keyword());
     EXPECT_NE("foi.com", t_urls[i]->favicon_url.host());
     EXPECT_NE("foo.com", GetHostFromTemplateURLData(*t_urls[i]));
     EXPECT_NE(1001, t_urls[i]->prepopulate_id);
   }
   // Ensures the default URL is Google and has the optional fields filled.
   EXPECT_EQ(ASCIIToUTF16("Google"), t_urls[default_index]->short_name());
   EXPECT_FALSE(t_urls[default_index]->suggestions_url.empty());
   EXPECT_FALSE(t_urls[default_index]->image_url.empty());
   EXPECT_FALSE(t_urls[default_index]->new_tab_url.empty());
   EXPECT_FALSE(t_urls[default_index]->contextual_search_url.empty());
   EXPECT_FALSE(t_urls[default_index]->image_url_post_params.empty());
   EXPECT_EQ(SEARCH_ENGINE_GOOGLE,
             TemplateURL(*t_urls[default_index]).GetEngineType(
                 SearchTermsData()));
 }

 // Verifies that built-in search providers are processed correctly.
 TEST_F(TemplateURLPrepopulateDataTest, ProvidersFromPrepopulated) {
   // Use United States.
   prefs_.SetInteger(prefs::kCountryIDAtInstall, 'U'<<8|'S');
   size_t default_index;
   std::vector<std::unique_ptr<TemplateURLData>> t_urls =
       TemplateURLPrepopulateData::GetPrepopulatedEngines(&prefs_,
                                                          &default_index);

   // Ensure all the URLs have the required fields populated.
   ASSERT_FALSE(t_urls.empty());
   for (size_t i = 0; i < t_urls.size(); ++i) {
     ASSERT_FALSE(t_urls[i]->short_name().empty());
     ASSERT_FALSE(t_urls[i]->keyword().empty());
     ASSERT_FALSE(t_urls[i]->favicon_url.host().empty());
     ASSERT_FALSE(GetHostFromTemplateURLData(*t_urls[i]).empty());
     ASSERT_FALSE(t_urls[i]->input_encodings.empty());
     EXPECT_GT(t_urls[i]->prepopulate_id, 0);
     EXPECT_TRUE(t_urls[0]->safe_for_autoreplace);
     EXPECT_TRUE(t_urls[0]->date_created.is_null());
     EXPECT_TRUE(t_urls[0]->last_modified.is_null());
   }

   // Ensures the default URL is Google and has the optional fields filled.
   EXPECT_EQ(ASCIIToUTF16("Google"), t_urls[default_index]->short_name());
   EXPECT_FALSE(t_urls[default_index]->suggestions_url.empty());
   EXPECT_FALSE(t_urls[default_index]->image_url.empty());
   EXPECT_FALSE(t_urls[default_index]->new_tab_url.empty());
   EXPECT_FALSE(t_urls[default_index]->contextual_search_url.empty());
   EXPECT_FALSE(t_urls[default_index]->image_url_post_params.empty());
   // Expect at least 2 alternate_urls.
   // This caught a bug with static initialization of arrays, so leave this in.
   EXPECT_GT(t_urls[default_index]->alternate_urls.size(), 1u);
   for (size_t i = 0; i < t_urls[default_index]->alternate_urls.size(); ++i)
     EXPECT_FALSE(t_urls[default_index]->alternate_urls[i].empty());
   EXPECT_EQ(SEARCH_ENGINE_GOOGLE,
             TemplateURL(*t_urls[default_index]).GetEngineType(
                 SearchTermsData()));
 }

 TEST_F(TemplateURLPrepopulateDataTest, GetEngineTypeBasic) {
   EXPECT_EQ(SEARCH_ENGINE_OTHER, GetEngineType("http://example.com/"));
   EXPECT_EQ(SEARCH_ENGINE_ASK, GetEngineType("http://www.ask.com/"));
   EXPECT_EQ(SEARCH_ENGINE_OTHER, GetEngineType("http://search.atlas.cz/"));
   EXPECT_EQ(SEARCH_ENGINE_GOOGLE, GetEngineType("http://www.google.com/"));
 }

 TEST_F(TemplateURLPrepopulateDataTest, GetEngineTypeAdvanced) {
   // Google URLs in different forms.
   const char* kGoogleURLs[] = {
     // Original with google:baseURL:
     "{google:baseURL}search?q={searchTerms}&{google:RLZ}"
     "{google:originalQueryForSuggestion}{google:searchFieldtrialParameter}"
     "sourceid=chrome&ie={inputEncoding}",
     // Custom with google.com and reordered query params:
     "http://google.com/search?{google:RLZ}{google:originalQueryForSuggestion}"
     "{google:searchFieldtrialParameter}"
     "sourceid=chrome&ie={inputEncoding}&q={searchTerms}",
     // Custom with a country TLD and almost no query params:
     "http://www.google.ru/search?q={searchTerms}"
   };
   for (size_t i = 0; i < arraysize(kGoogleURLs); ++i) {
     EXPECT_EQ(SEARCH_ENGINE_GOOGLE, GetEngineType(kGoogleURLs[i]));
   }

   // Non-Google URLs.
   const char* kYahooURLs[] = {
       "http://search.yahoo.com/search?"
       "ei={inputEncoding}&fr=crmas&p={searchTerms}",
       "http://search.yahoo.com/search?p={searchTerms}",
       // Aggressively match types by checking just TLD+1.
       "http://someothersite.yahoo.com/",
   };
   for (size_t i = 0; i < arraysize(kYahooURLs); ++i) {
     EXPECT_EQ(SEARCH_ENGINE_YAHOO, GetEngineType(kYahooURLs[i]));
   }

   // URLs for engines not present in country-specific lists.
   EXPECT_EQ(SEARCH_ENGINE_NIGMA,
             GetEngineType("http://nigma.ru/?s={searchTerms}&arg1=value1"));
   // Also test matching against alternate URLs (and TLD+1 matching).
   EXPECT_EQ(SEARCH_ENGINE_SOFTONIC,
             GetEngineType("http://test.softonic.com.br/?{searchTerms}"));

   // Search URL for which no prepopulated search provider exists.
   EXPECT_EQ(SEARCH_ENGINE_OTHER,
             GetEngineType("http://example.net/search?q={searchTerms}"));
   EXPECT_EQ(SEARCH_ENGINE_OTHER, GetEngineType("invalid:search:url"));

   // URL that doesn't look Google-related, but matches a Google base URL
   // specified on the command line.
   const std::string foo_url("http://www.foo.com/search?q={searchTerms}");
   EXPECT_EQ(SEARCH_ENGINE_OTHER, GetEngineType(foo_url));
   base::CommandLine::ForCurrentProcess()->AppendSwitchASCII(
       switches::kGoogleBaseURL, "http://www.foo.com/");
   EXPECT_EQ(SEARCH_ENGINE_GOOGLE, GetEngineType(foo_url));
 }

 TEST_F(TemplateURLPrepopulateDataTest, GetEngineTypeForAllPrepopulatedEngines) {
   using PrepopulatedEngine = TemplateURLPrepopulateData::PrepopulatedEngine;
   const std::vector<const PrepopulatedEngine*> all_engines =
       TemplateURLPrepopulateData::GetAllPrepopulatedEngines();
   for (const PrepopulatedEngine* engine : all_engines) {
     std::unique_ptr<TemplateURLData> data =
         TemplateURLDataFromPrepopulatedEngine(*engine);
     EXPECT_EQ(engine->type,
               TemplateURL(*data).GetEngineType(SearchTermsData()));
   }
 }

 TEST_F(TemplateURLPrepopulateDataTest, CheckSearchURLDetection) {
   using PrepopulatedEngine = TemplateURLPrepopulateData::PrepopulatedEngine;
   const std::vector<const PrepopulatedEngine*> all_engines =
       TemplateURLPrepopulateData::GetAllPrepopulatedEngines();
   for (const PrepopulatedEngine* engine : all_engines) {
     std::unique_ptr<TemplateURLData> data =
         TemplateURLDataFromPrepopulatedEngine(*engine);
     TemplateURL t_url(*data);
     SearchTermsData search_data;
     // Test that search term is successfully extracted from generated search
     // url.
     GURL search_url = t_url.GenerateSearchURL(search_data);
     EXPECT_TRUE(t_url.IsSearchURL(search_url, search_data))
         << "Search url is incorrectly detected for " << search_url;
   }
 }

 namespace {

 void CheckTemplateUrlRefIsCryptographic(const TemplateURLRef& url_ref) {
   TestingSearchTermsData search_terms_data("https://www.google.com/");
   if (!url_ref.IsValid(search_terms_data)) {
     ADD_FAILURE() << url_ref.GetURL();
     return;
   }

   // Double parentheses around the string16 constructor to prevent the compiler
   // from parsing it as a function declaration.
   TemplateURLRef::SearchTermsArgs search_term_args((base::string16()));
   GURL url(url_ref.ReplaceSearchTerms(search_term_args, search_terms_data));
   EXPECT_TRUE(url.is_empty() || url.SchemeIsCryptographic()) << url;
 }

 }  // namespace

 TEST_F(TemplateURLPrepopulateDataTest, HttpsUrls) {
   // Preexisting search engines that don't use HTTPS URLs.
   // Don't add new entries to this list!
   std::set<int> exceptions{
       4,  6,  16, 17, 21, 27, 35, 36, 43, 44, 45, 50, 54, 55, 56, 60, 61,
       62, 63, 64, 65, 66, 68, 70, 74, 75, 76, 77, 78, 79, 80, 81, 85, 90,
   };
   using PrepopulatedEngine = TemplateURLPrepopulateData::PrepopulatedEngine;
   const std::vector<const PrepopulatedEngine*> all_engines =
       TemplateURLPrepopulateData::GetAllPrepopulatedEngines();
   for (const PrepopulatedEngine* engine : all_engines) {
     std::unique_ptr<TemplateURLData> data =
         TemplateURLDataFromPrepopulatedEngine(*engine);
     if (base::ContainsKey(exceptions, data->prepopulate_id))
       continue;

     GURL logo_url = data->logo_url;
     EXPECT_TRUE(logo_url.is_empty() || logo_url.SchemeIsCryptographic())
         << logo_url;
     GURL doodle_url = data->doodle_url;
     EXPECT_TRUE(doodle_url.is_empty() || doodle_url.SchemeIsCryptographic())
         << doodle_url;
     EXPECT_TRUE(logo_url.is_empty() || doodle_url.is_empty())
         << "Only one of logo_url or doodle_url should be set.";

     GURL favicon_url = data->favicon_url;
     EXPECT_TRUE(favicon_url.is_empty() || favicon_url.SchemeIsCryptographic())
         << favicon_url;

     TemplateURL template_url(*data);

     // Intentionally don't check alternate URLs, because those are only used
     // for matching.
     CheckTemplateUrlRefIsCryptographic(template_url.url_ref());
     CheckTemplateUrlRefIsCryptographic(template_url.suggestions_url_ref());
     CheckTemplateUrlRefIsCryptographic(template_url.image_url_ref());
     CheckTemplateUrlRefIsCryptographic(template_url.new_tab_url_ref());
     CheckTemplateUrlRefIsCryptographic(
         template_url.contextual_search_url_ref());
   }
 }
	// 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_engines/template_url_prepopulate_data.h"

	#include <stddef.h>

	#include <memory>
	#include <utility>

	#include "base/command_line.h"
	#include "base/files/scoped_temp_dir.h"
	#include "base/macros.h"
	#include "base/strings/utf_string_conversions.h"
	#include "base/values.h"
	#include "components/google/core/common/google_switches.h"
	#include "components/search_engines/prepopulated_engines.h"
	#include "components/search_engines/search_engines_pref_names.h"
	#include "components/search_engines/search_terms_data.h"
	#include "components/search_engines/template_url.h"
	#include "components/search_engines/template_url_data_util.h"
	#include "components/search_engines/template_url_service.h"
	#include "components/search_engines/testing_search_terms_data.h"
	#include "components/sync_preferences/testing_pref_service_syncable.h"
	#include "testing/gtest/include/gtest/gtest.h"

	using base::ASCIIToUTF16;

	namespace {

	SearchEngineType GetEngineType(const std::string& url) {
	TemplateURLData data;
	data.SetURL(url);
	return TemplateURL(data).GetEngineType(SearchTermsData());
	}

	std::string GetHostFromTemplateURLData(const TemplateURLData& data) {
	return TemplateURL(data).url_ref().GetHost(SearchTermsData());
	}

	} // namespace

	class TemplateURLPrepopulateDataTest : public testing::Test {
	public:
	void SetUp() override {
	TemplateURLPrepopulateData::RegisterProfilePrefs(prefs_.registry());
	}

	protected:
	sync_preferences::TestingPrefServiceSyncable prefs_;
	};

	// Verifies the set of prepopulate data doesn't contain entries with duplicate
	// ids.
	TEST_F(TemplateURLPrepopulateDataTest, UniqueIDs) {
	const int kCountryIds[] = {
	'A'<<8\|'D', 'A'<<8\|'E', 'A'<<8\|'F', 'A'<<8\|'G', 'A'<<8\|'I',
	'A'<<8\|'L', 'A'<<8\|'M', 'A'<<8\|'N', 'A'<<8\|'O', 'A'<<8\|'Q',
	'A'<<8\|'R', 'A'<<8\|'S', 'A'<<8\|'T', 'A'<<8\|'U', 'A'<<8\|'W',
	'A'<<8\|'X', 'A'<<8\|'Z', 'B'<<8\|'A', 'B'<<8\|'B', 'B'<<8\|'D',
	'B'<<8\|'E', 'B'<<8\|'F', 'B'<<8\|'G', 'B'<<8\|'H', 'B'<<8\|'I',
	'B'<<8\|'J', 'B'<<8\|'M', 'B'<<8\|'N', 'B'<<8\|'O', 'B'<<8\|'R',
	'B'<<8\|'S', 'B'<<8\|'T', 'B'<<8\|'V', 'B'<<8\|'W', 'B'<<8\|'Y',
	'B'<<8\|'Z', 'C'<<8\|'A', 'C'<<8\|'C', 'C'<<8\|'D', 'C'<<8\|'F',
	'C'<<8\|'G', 'C'<<8\|'H', 'C'<<8\|'I', 'C'<<8\|'K', 'C'<<8\|'L',
	'C'<<8\|'M', 'C'<<8\|'N', 'C'<<8\|'O', 'C'<<8\|'R', 'C'<<8\|'U',
	'C'<<8\|'V', 'C'<<8\|'X', 'C'<<8\|'Y', 'C'<<8\|'Z', 'D'<<8\|'E',
	'D'<<8\|'J', 'D'<<8\|'K', 'D'<<8\|'M', 'D'<<8\|'O', 'D'<<8\|'Z',
	'E'<<8\|'C', 'E'<<8\|'E', 'E'<<8\|'G', 'E'<<8\|'R', 'E'<<8\|'S',
	'E'<<8\|'T', 'F'<<8\|'I', 'F'<<8\|'J', 'F'<<8\|'K', 'F'<<8\|'M',
	'F'<<8\|'O', 'F'<<8\|'R', 'G'<<8\|'A', 'G'<<8\|'B', 'G'<<8\|'D',
	'G'<<8\|'E', 'G'<<8\|'F', 'G'<<8\|'G', 'G'<<8\|'H', 'G'<<8\|'I',
	'G'<<8\|'L', 'G'<<8\|'M', 'G'<<8\|'N', 'G'<<8\|'P', 'G'<<8\|'Q',
	'G'<<8\|'R', 'G'<<8\|'S', 'G'<<8\|'T', 'G'<<8\|'U', 'G'<<8\|'W',
	'G'<<8\|'Y', 'H'<<8\|'K', 'H'<<8\|'M', 'H'<<8\|'N', 'H'<<8\|'R',
	'H'<<8\|'T', 'H'<<8\|'U', 'I'<<8\|'D', 'I'<<8\|'E', 'I'<<8\|'L',
	'I'<<8\|'M', 'I'<<8\|'N', 'I'<<8\|'O', 'I'<<8\|'P', 'I'<<8\|'Q',
	'I'<<8\|'R', 'I'<<8\|'S', 'I'<<8\|'T', 'J'<<8\|'E', 'J'<<8\|'M',
	'J'<<8\|'O', 'J'<<8\|'P', 'K'<<8\|'E', 'K'<<8\|'G', 'K'<<8\|'H',
	'K'<<8\|'I', 'K'<<8\|'M', 'K'<<8\|'N', 'K'<<8\|'P', 'K'<<8\|'R',
	'K'<<8\|'W', 'K'<<8\|'Y', 'K'<<8\|'Z', 'L'<<8\|'A', 'L'<<8\|'B',
	'L'<<8\|'C', 'L'<<8\|'I', 'L'<<8\|'K', 'L'<<8\|'R', 'L'<<8\|'S',
	'L'<<8\|'T', 'L'<<8\|'U', 'L'<<8\|'V', 'L'<<8\|'Y', 'M'<<8\|'A',
	'M'<<8\|'C', 'M'<<8\|'D', 'M'<<8\|'E', 'M'<<8\|'G', 'M'<<8\|'H',
	'M'<<8\|'K', 'M'<<8\|'L', 'M'<<8\|'M', 'M'<<8\|'N', 'M'<<8\|'O',
	'M'<<8\|'P', 'M'<<8\|'Q', 'M'<<8\|'R', 'M'<<8\|'S', 'M'<<8\|'T',
	'M'<<8\|'U', 'M'<<8\|'V', 'M'<<8\|'W', 'M'<<8\|'X', 'M'<<8\|'Y',
	'M'<<8\|'Z', 'N'<<8\|'A', 'N'<<8\|'C', 'N'<<8\|'E', 'N'<<8\|'F',
	'N'<<8\|'G', 'N'<<8\|'I', 'N'<<8\|'L', 'N'<<8\|'O', 'N'<<8\|'P',
	'N'<<8\|'R', 'N'<<8\|'U', 'N'<<8\|'Z', 'O'<<8\|'M', 'P'<<8\|'A',
	'P'<<8\|'E', 'P'<<8\|'F', 'P'<<8\|'G', 'P'<<8\|'H', 'P'<<8\|'K',
	'P'<<8\|'L', 'P'<<8\|'M', 'P'<<8\|'N', 'P'<<8\|'R', 'P'<<8\|'S',
	'P'<<8\|'T', 'P'<<8\|'W', 'P'<<8\|'Y', 'Q'<<8\|'A', 'R'<<8\|'E',
	'R'<<8\|'O', 'R'<<8\|'S', 'R'<<8\|'U', 'R'<<8\|'W', 'S'<<8\|'A',
	'S'<<8\|'B', 'S'<<8\|'C', 'S'<<8\|'D', 'S'<<8\|'E', 'S'<<8\|'G',
	'S'<<8\|'H', 'S'<<8\|'I', 'S'<<8\|'J', 'S'<<8\|'K', 'S'<<8\|'L',
	'S'<<8\|'M', 'S'<<8\|'N', 'S'<<8\|'O', 'S'<<8\|'R', 'S'<<8\|'T',
	'S'<<8\|'V', 'S'<<8\|'Y', 'S'<<8\|'Z', 'T'<<8\|'C', 'T'<<8\|'D',
	'T'<<8\|'F', 'T'<<8\|'G', 'T'<<8\|'H', 'T'<<8\|'J', 'T'<<8\|'K',
	'T'<<8\|'L', 'T'<<8\|'M', 'T'<<8\|'N', 'T'<<8\|'O', 'T'<<8\|'R',
	'T'<<8\|'T', 'T'<<8\|'V', 'T'<<8\|'W', 'T'<<8\|'Z', 'U'<<8\|'A',
	'U'<<8\|'G', 'U'<<8\|'M', 'U'<<8\|'S', 'U'<<8\|'Y', 'U'<<8\|'Z',
	'V'<<8\|'A', 'V'<<8\|'C', 'V'<<8\|'E', 'V'<<8\|'G', 'V'<<8\|'I',
	'V'<<8\|'N', 'V'<<8\|'U', 'W'<<8\|'F', 'W'<<8\|'S', 'Y'<<8\|'E',
	'Y'<<8\|'T', 'Z'<<8\|'A', 'Z'<<8\|'M', 'Z'<<8\|'W', -1 };

	for (size_t i = 0; i < arraysize(kCountryIds); ++i) {
	prefs_.SetInteger(prefs::kCountryIDAtInstall, kCountryIds[i]);
	std::vector<std::unique_ptr<TemplateURLData>> urls =
	TemplateURLPrepopulateData::GetPrepopulatedEngines(&prefs_, nullptr);
	std::set<int> unique_ids;
	for (size_t turl_i = 0; turl_i < urls.size(); ++turl_i) {
	ASSERT_TRUE(unique_ids.find(urls[turl_i]->prepopulate_id) ==
	unique_ids.end());
	unique_ids.insert(urls[turl_i]->prepopulate_id);
	}
	}
	}

	// Verifies that default search providers from the preferences file
	// override the built-in ones.
	TEST_F(TemplateURLPrepopulateDataTest, ProvidersFromPrefs) {
	prefs_.SetUserPref(prefs::kSearchProviderOverridesVersion,
	std::make_unique<base::Value>(1));
	auto overrides = std::make_unique<base::ListValue>();
	std::unique_ptr<base::DictionaryValue> entry(new base::DictionaryValue);
	// Set only the minimal required settings for a search provider configuration.
	entry->SetString("name", "foo");
	entry->SetString("keyword", "fook");
	entry->SetString("search_url", "http://foo.com/s?q={searchTerms}");
	entry->SetString("favicon_url", "http://foi.com/favicon.ico");
	entry->SetString("encoding", "UTF-8");
	entry->SetInteger("id", 1001);
	overrides->Append(entry->CreateDeepCopy());
	prefs_.SetUserPref(prefs::kSearchProviderOverrides, std::move(overrides));

	int version = TemplateURLPrepopulateData::GetDataVersion(&prefs_);
	EXPECT_EQ(1, version);

	size_t default_index;
	std::vector<std::unique_ptr<TemplateURLData>> t_urls =
	TemplateURLPrepopulateData::GetPrepopulatedEngines(&prefs_,
	&default_index);

	ASSERT_EQ(1u, t_urls.size());
	EXPECT_EQ(ASCIIToUTF16("foo"), t_urls[0]->short_name());
	EXPECT_EQ(ASCIIToUTF16("fook"), t_urls[0]->keyword());
	EXPECT_EQ("foo.com", GetHostFromTemplateURLData(*t_urls[0]));
	EXPECT_EQ("foi.com", t_urls[0]->favicon_url.host());
	EXPECT_EQ(1u, t_urls[0]->input_encodings.size());
	EXPECT_EQ(1001, t_urls[0]->prepopulate_id);
	EXPECT_TRUE(t_urls[0]->suggestions_url.empty());
	EXPECT_EQ(0u, t_urls[0]->alternate_urls.size());
	EXPECT_TRUE(t_urls[0]->safe_for_autoreplace);
	EXPECT_TRUE(t_urls[0]->date_created.is_null());
	EXPECT_TRUE(t_urls[0]->last_modified.is_null());

	// Test the optional settings too.
	entry->SetString("suggest_url", "http://foo.com/suggest?q={searchTerms}");
	auto alternate_urls = std::make_unique<base::ListValue>();
	alternate_urls->AppendString("http://foo.com/alternate?q={searchTerms}");
	entry->Set("alternate_urls", std::move(alternate_urls));
	overrides = std::make_unique<base::ListValue>();
	overrides->Append(entry->CreateDeepCopy());
	prefs_.SetUserPref(prefs::kSearchProviderOverrides, std::move(overrides));

	t_urls = TemplateURLPrepopulateData::GetPrepopulatedEngines(
	&prefs_, &default_index);
	ASSERT_EQ(1u, t_urls.size());
	EXPECT_EQ(ASCIIToUTF16("foo"), t_urls[0]->short_name());
	EXPECT_EQ(ASCIIToUTF16("fook"), t_urls[0]->keyword());
	EXPECT_EQ("foo.com", GetHostFromTemplateURLData(*t_urls[0]));
	EXPECT_EQ("foi.com", t_urls[0]->favicon_url.host());
	EXPECT_EQ(1u, t_urls[0]->input_encodings.size());
	EXPECT_EQ(1001, t_urls[0]->prepopulate_id);
	EXPECT_EQ("http://foo.com/suggest?q={searchTerms}",
	t_urls[0]->suggestions_url);
	ASSERT_EQ(1u, t_urls[0]->alternate_urls.size());
	EXPECT_EQ("http://foo.com/alternate?q={searchTerms}",
	t_urls[0]->alternate_urls[0]);

	// Test that subsequent providers are loaded even if an intermediate
	// provider has an incomplete configuration.
	overrides = std::make_unique<base::ListValue>();
	overrides->Append(entry->CreateDeepCopy());
	entry->SetInteger("id", 1002);
	entry->SetString("name", "bar");
	entry->SetString("keyword", "bark");
	entry->SetString("encoding", std::string());
	overrides->Append(entry->CreateDeepCopy());
	entry->SetInteger("id", 1003);
	entry->SetString("name", "baz");
	entry->SetString("keyword", "bazk");
	entry->SetString("encoding", "UTF-8");
	overrides->Append(entry->CreateDeepCopy());
	prefs_.SetUserPref(prefs::kSearchProviderOverrides, std::move(overrides));

	t_urls =
	TemplateURLPrepopulateData::GetPrepopulatedEngines(&prefs_,
	&default_index);
	EXPECT_EQ(2u, t_urls.size());
	}

	TEST_F(TemplateURLPrepopulateDataTest, ClearProvidersFromPrefs) {
	prefs_.SetUserPref(prefs::kSearchProviderOverridesVersion,
	std::make_unique<base::Value>(1));
	auto overrides = std::make_unique<base::ListValue>();
	std::unique_ptr<base::DictionaryValue> entry(new base::DictionaryValue);
	// Set only the minimal required settings for a search provider configuration.
	entry->SetString("name", "foo");
	entry->SetString("keyword", "fook");
	entry->SetString("search_url", "http://foo.com/s?q={searchTerms}");
	entry->SetString("favicon_url", "http://foi.com/favicon.ico");
	entry->SetString("encoding", "UTF-8");
	entry->SetInteger("id", 1001);
	overrides->Append(std::move(entry));
	prefs_.SetUserPref(prefs::kSearchProviderOverrides, std::move(overrides));

	int version = TemplateURLPrepopulateData::GetDataVersion(&prefs_);
	EXPECT_EQ(1, version);

	// This call removes the above search engine.
	TemplateURLPrepopulateData::ClearPrepopulatedEnginesInPrefs(&prefs_);

	version = TemplateURLPrepopulateData::GetDataVersion(&prefs_);
	EXPECT_EQ(TemplateURLPrepopulateData::kCurrentDataVersion, version);

	size_t default_index;
	std::vector<std::unique_ptr<TemplateURLData>> t_urls =
	TemplateURLPrepopulateData::GetPrepopulatedEngines(&prefs_,
	&default_index);
	ASSERT_FALSE(t_urls.empty());
	for (size_t i = 0; i < t_urls.size(); ++i) {
	EXPECT_NE(ASCIIToUTF16("foo"), t_urls[i]->short_name());
	EXPECT_NE(ASCIIToUTF16("fook"), t_urls[i]->keyword());
	EXPECT_NE("foi.com", t_urls[i]->favicon_url.host());
	EXPECT_NE("foo.com", GetHostFromTemplateURLData(*t_urls[i]));
	EXPECT_NE(1001, t_urls[i]->prepopulate_id);
	}
	// Ensures the default URL is Google and has the optional fields filled.
	EXPECT_EQ(ASCIIToUTF16("Google"), t_urls[default_index]->short_name());
	EXPECT_FALSE(t_urls[default_index]->suggestions_url.empty());
	EXPECT_FALSE(t_urls[default_index]->image_url.empty());
	EXPECT_FALSE(t_urls[default_index]->new_tab_url.empty());
	EXPECT_FALSE(t_urls[default_index]->contextual_search_url.empty());
	EXPECT_FALSE(t_urls[default_index]->image_url_post_params.empty());
	EXPECT_EQ(SEARCH_ENGINE_GOOGLE,
	TemplateURL(*t_urls[default_index]).GetEngineType(
	SearchTermsData()));
	}

	// Verifies that built-in search providers are processed correctly.
	TEST_F(TemplateURLPrepopulateDataTest, ProvidersFromPrepopulated) {
	// Use United States.
	prefs_.SetInteger(prefs::kCountryIDAtInstall, 'U'<<8\|'S');
	size_t default_index;
	std::vector<std::unique_ptr<TemplateURLData>> t_urls =
	TemplateURLPrepopulateData::GetPrepopulatedEngines(&prefs_,
	&default_index);

	// Ensure all the URLs have the required fields populated.
	ASSERT_FALSE(t_urls.empty());
	for (size_t i = 0; i < t_urls.size(); ++i) {
	ASSERT_FALSE(t_urls[i]->short_name().empty());
	ASSERT_FALSE(t_urls[i]->keyword().empty());
	ASSERT_FALSE(t_urls[i]->favicon_url.host().empty());
	ASSERT_FALSE(GetHostFromTemplateURLData(*t_urls[i]).empty());
	ASSERT_FALSE(t_urls[i]->input_encodings.empty());
	EXPECT_GT(t_urls[i]->prepopulate_id, 0);
	EXPECT_TRUE(t_urls[0]->safe_for_autoreplace);
	EXPECT_TRUE(t_urls[0]->date_created.is_null());
	EXPECT_TRUE(t_urls[0]->last_modified.is_null());
	}

	// Ensures the default URL is Google and has the optional fields filled.
	EXPECT_EQ(ASCIIToUTF16("Google"), t_urls[default_index]->short_name());
	EXPECT_FALSE(t_urls[default_index]->suggestions_url.empty());
	EXPECT_FALSE(t_urls[default_index]->image_url.empty());
	EXPECT_FALSE(t_urls[default_index]->new_tab_url.empty());
	EXPECT_FALSE(t_urls[default_index]->contextual_search_url.empty());
	EXPECT_FALSE(t_urls[default_index]->image_url_post_params.empty());
	// Expect at least 2 alternate_urls.
	// This caught a bug with static initialization of arrays, so leave this in.
	EXPECT_GT(t_urls[default_index]->alternate_urls.size(), 1u);
	for (size_t i = 0; i < t_urls[default_index]->alternate_urls.size(); ++i)
	EXPECT_FALSE(t_urls[default_index]->alternate_urls[i].empty());
	EXPECT_EQ(SEARCH_ENGINE_GOOGLE,
	TemplateURL(*t_urls[default_index]).GetEngineType(
	SearchTermsData()));
	}

	TEST_F(TemplateURLPrepopulateDataTest, GetEngineTypeBasic) {
	EXPECT_EQ(SEARCH_ENGINE_OTHER, GetEngineType("http://example.com/"));
	EXPECT_EQ(SEARCH_ENGINE_ASK, GetEngineType("http://www.ask.com/"));
	EXPECT_EQ(SEARCH_ENGINE_OTHER, GetEngineType("http://search.atlas.cz/"));
	EXPECT_EQ(SEARCH_ENGINE_GOOGLE, GetEngineType("http://www.google.com/"));
	}

	TEST_F(TemplateURLPrepopulateDataTest, GetEngineTypeAdvanced) {
	// Google URLs in different forms.
	const char* kGoogleURLs[] = {
	// Original with google:baseURL:
	"{google:baseURL}search?q={searchTerms}&{google:RLZ}"
	"{google:originalQueryForSuggestion}{google:searchFieldtrialParameter}"
	"sourceid=chrome&ie={inputEncoding}",
	// Custom with google.com and reordered query params:
	"http://google.com/search?{google:RLZ}{google:originalQueryForSuggestion}"
	"{google:searchFieldtrialParameter}"
	"sourceid=chrome&ie={inputEncoding}&q={searchTerms}",
	// Custom with a country TLD and almost no query params:
	"http://www.google.ru/search?q={searchTerms}"
	};
	for (size_t i = 0; i < arraysize(kGoogleURLs); ++i) {
	EXPECT_EQ(SEARCH_ENGINE_GOOGLE, GetEngineType(kGoogleURLs[i]));
	}

	// Non-Google URLs.
	const char* kYahooURLs[] = {
	"http://search.yahoo.com/search?"
	"ei={inputEncoding}&fr=crmas&p={searchTerms}",
	"http://search.yahoo.com/search?p={searchTerms}",
	// Aggressively match types by checking just TLD+1.
	"http://someothersite.yahoo.com/",
	};
	for (size_t i = 0; i < arraysize(kYahooURLs); ++i) {
	EXPECT_EQ(SEARCH_ENGINE_YAHOO, GetEngineType(kYahooURLs[i]));
	}

	// URLs for engines not present in country-specific lists.
	EXPECT_EQ(SEARCH_ENGINE_NIGMA,
	GetEngineType("http://nigma.ru/?s={searchTerms}&arg1=value1"));
	// Also test matching against alternate URLs (and TLD+1 matching).
	EXPECT_EQ(SEARCH_ENGINE_SOFTONIC,
	GetEngineType("http://test.softonic.com.br/?{searchTerms}"));

	// Search URL for which no prepopulated search provider exists.
	EXPECT_EQ(SEARCH_ENGINE_OTHER,
	GetEngineType("http://example.net/search?q={searchTerms}"));
	EXPECT_EQ(SEARCH_ENGINE_OTHER, GetEngineType("invalid:search:url"));

	// URL that doesn't look Google-related, but matches a Google base URL
	// specified on the command line.
	const std::string foo_url("http://www.foo.com/search?q={searchTerms}");
	EXPECT_EQ(SEARCH_ENGINE_OTHER, GetEngineType(foo_url));
	base::CommandLine::ForCurrentProcess()->AppendSwitchASCII(
	switches::kGoogleBaseURL, "http://www.foo.com/");
	EXPECT_EQ(SEARCH_ENGINE_GOOGLE, GetEngineType(foo_url));
	}

	TEST_F(TemplateURLPrepopulateDataTest, GetEngineTypeForAllPrepopulatedEngines) {
	using PrepopulatedEngine = TemplateURLPrepopulateData::PrepopulatedEngine;
	const std::vector<const PrepopulatedEngine*> all_engines =
	TemplateURLPrepopulateData::GetAllPrepopulatedEngines();
	for (const PrepopulatedEngine* engine : all_engines) {
	std::unique_ptr<TemplateURLData> data =
	TemplateURLDataFromPrepopulatedEngine(*engine);
	EXPECT_EQ(engine->type,
	TemplateURL(*data).GetEngineType(SearchTermsData()));
	}
	}

	TEST_F(TemplateURLPrepopulateDataTest, CheckSearchURLDetection) {
	using PrepopulatedEngine = TemplateURLPrepopulateData::PrepopulatedEngine;
	const std::vector<const PrepopulatedEngine*> all_engines =
	TemplateURLPrepopulateData::GetAllPrepopulatedEngines();
	for (const PrepopulatedEngine* engine : all_engines) {
	std::unique_ptr<TemplateURLData> data =
	TemplateURLDataFromPrepopulatedEngine(*engine);
	TemplateURL t_url(*data);
	SearchTermsData search_data;
	// Test that search term is successfully extracted from generated search
	// url.
	GURL search_url = t_url.GenerateSearchURL(search_data);
	EXPECT_TRUE(t_url.IsSearchURL(search_url, search_data))
	<< "Search url is incorrectly detected for " << search_url;
	}
	}

	namespace {

	void CheckTemplateUrlRefIsCryptographic(const TemplateURLRef& url_ref) {
	TestingSearchTermsData search_terms_data("https://www.google.com/");
	if (!url_ref.IsValid(search_terms_data)) {
	ADD_FAILURE() << url_ref.GetURL();
	return;
	}

	// Double parentheses around the string16 constructor to prevent the compiler
	// from parsing it as a function declaration.
	TemplateURLRef::SearchTermsArgs search_term_args((base::string16()));
	GURL url(url_ref.ReplaceSearchTerms(search_term_args, search_terms_data));
	EXPECT_TRUE(url.is_empty() \|\| url.SchemeIsCryptographic()) << url;
	}

	} // namespace

	TEST_F(TemplateURLPrepopulateDataTest, HttpsUrls) {
	// Preexisting search engines that don't use HTTPS URLs.
	// Don't add new entries to this list!
	std::set<int> exceptions{
	4, 6, 16, 17, 21, 27, 35, 36, 43, 44, 45, 50, 54, 55, 56, 60, 61,
	62, 63, 64, 65, 66, 68, 70, 74, 75, 76, 77, 78, 79, 80, 81, 85, 90,
	};
	using PrepopulatedEngine = TemplateURLPrepopulateData::PrepopulatedEngine;
	const std::vector<const PrepopulatedEngine*> all_engines =
	TemplateURLPrepopulateData::GetAllPrepopulatedEngines();
	for (const PrepopulatedEngine* engine : all_engines) {
	std::unique_ptr<TemplateURLData> data =
	TemplateURLDataFromPrepopulatedEngine(*engine);
	if (base::ContainsKey(exceptions, data->prepopulate_id))
	continue;

	GURL logo_url = data->logo_url;
	EXPECT_TRUE(logo_url.is_empty() \|\| logo_url.SchemeIsCryptographic())
	<< logo_url;
	GURL doodle_url = data->doodle_url;
	EXPECT_TRUE(doodle_url.is_empty() \|\| doodle_url.SchemeIsCryptographic())
	<< doodle_url;
	EXPECT_TRUE(logo_url.is_empty() \|\| doodle_url.is_empty())
	<< "Only one of logo_url or doodle_url should be set.";

	GURL favicon_url = data->favicon_url;
	EXPECT_TRUE(favicon_url.is_empty() \|\| favicon_url.SchemeIsCryptographic())
	<< favicon_url;

	TemplateURL template_url(*data);

	// Intentionally don't check alternate URLs, because those are only used
	// for matching.
	CheckTemplateUrlRefIsCryptographic(template_url.url_ref());
	CheckTemplateUrlRefIsCryptographic(template_url.suggestions_url_ref());
	CheckTemplateUrlRefIsCryptographic(template_url.image_url_ref());
	CheckTemplateUrlRefIsCryptographic(template_url.new_tab_url_ref());
	CheckTemplateUrlRefIsCryptographic(
	template_url.contextual_search_url_ref());
	}
	}