1 // Copyright 2014 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
4
5 #include "components/search_engines/template_url_service.h"
6
7 #include <algorithm>
8 #include <utility>
9
10 #include "base/auto_reset.h"
11 #include "base/command_line.h"
12 #include "base/compiler_specific.h"
13 #include "base/guid.h"
14 #include "base/i18n/case_conversion.h"
15 #include "base/memory/scoped_vector.h"
16 #include "base/metrics/histogram.h"
17 #include "base/prefs/pref_service.h"
18 #include "base/stl_util.h"
19 #include "base/strings/string_number_conversions.h"
20 #include "base/strings/string_split.h"
21 #include "base/strings/string_util.h"
22 #include "base/strings/utf_string_conversions.h"
23 #include "base/time/time.h"
24 #include "components/rappor/rappor_service.h"
25 #include "components/search_engines/search_engines_pref_names.h"
26 #include "components/search_engines/search_host_to_urls_map.h"
27 #include "components/search_engines/search_terms_data.h"
28 #include "components/search_engines/template_url.h"
29 #include "components/search_engines/template_url_prepopulate_data.h"
30 #include "components/search_engines/template_url_service_client.h"
31 #include "components/search_engines/template_url_service_observer.h"
32 #include "components/search_engines/util.h"
33 #include "components/url_fixer/url_fixer.h"
34 #include "net/base/net_util.h"
35 #include "net/base/registry_controlled_domains/registry_controlled_domain.h"
36 #include "sync/api/sync_change.h"
37 #include "sync/api/sync_error_factory.h"
38 #include "sync/protocol/search_engine_specifics.pb.h"
39 #include "sync/protocol/sync.pb.h"
40 #include "url/gurl.h"
41
42 typedef SearchHostToURLsMap::TemplateURLSet TemplateURLSet;
43 typedef TemplateURLService::SyncDataMap SyncDataMap;
44
45 namespace {
46
IdenticalSyncGUIDs(const TemplateURLData * data,const TemplateURL * turl)47 bool IdenticalSyncGUIDs(const TemplateURLData* data, const TemplateURL* turl) {
48 if (!data || !turl)
49 return !data && !turl;
50
51 return data->sync_guid == turl->sync_guid();
52 }
53
54 const char kDeleteSyncedEngineHistogramName[] =
55 "Search.DeleteSyncedSearchEngine";
56
57 // Values for an enumerated histogram used to track whenever an ACTION_DELETE is
58 // sent to the server for search engines.
59 enum DeleteSyncedSearchEngineEvent {
60 DELETE_ENGINE_USER_ACTION,
61 DELETE_ENGINE_PRE_SYNC,
62 DELETE_ENGINE_EMPTY_FIELD,
63 DELETE_ENGINE_MAX,
64 };
65
66 // Returns true iff the change in |change_list| at index |i| should not be sent
67 // up to the server based on its GUIDs presence in |sync_data| or when compared
68 // to changes after it in |change_list|.
69 // The criteria is:
70 // 1) It is an ACTION_UPDATE or ACTION_DELETE and the sync_guid associated
71 // with it is NOT found in |sync_data|. We can only update and remove
72 // entries that were originally from the Sync server.
73 // 2) It is an ACTION_ADD and the sync_guid associated with it is found in
74 // |sync_data|. We cannot re-add entries that Sync already knew about.
75 // 3) There is an update after an update for the same GUID. We prune earlier
76 // ones just to save bandwidth (Sync would normally coalesce them).
ShouldRemoveSyncChange(size_t index,syncer::SyncChangeList * change_list,const SyncDataMap * sync_data)77 bool ShouldRemoveSyncChange(size_t index,
78 syncer::SyncChangeList* change_list,
79 const SyncDataMap* sync_data) {
80 DCHECK(index < change_list->size());
81 const syncer::SyncChange& change_i = (*change_list)[index];
82 const std::string guid = change_i.sync_data().GetSpecifics()
83 .search_engine().sync_guid();
84 syncer::SyncChange::SyncChangeType type = change_i.change_type();
85 if ((type == syncer::SyncChange::ACTION_UPDATE ||
86 type == syncer::SyncChange::ACTION_DELETE) &&
87 sync_data->find(guid) == sync_data->end())
88 return true;
89 if (type == syncer::SyncChange::ACTION_ADD &&
90 sync_data->find(guid) != sync_data->end())
91 return true;
92 if (type == syncer::SyncChange::ACTION_UPDATE) {
93 for (size_t j = index + 1; j < change_list->size(); j++) {
94 const syncer::SyncChange& change_j = (*change_list)[j];
95 if ((syncer::SyncChange::ACTION_UPDATE == change_j.change_type()) &&
96 (change_j.sync_data().GetSpecifics().search_engine().sync_guid() ==
97 guid))
98 return true;
99 }
100 }
101 return false;
102 }
103
104 // Remove SyncChanges that should not be sent to the server from |change_list|.
105 // This is done to eliminate incorrect SyncChanges added by the merge and
106 // conflict resolution logic when it is unsure of whether or not an entry is new
107 // from Sync or originally from the local model. This also removes changes that
108 // would be otherwise be coalesced by Sync in order to save bandwidth.
PruneSyncChanges(const SyncDataMap * sync_data,syncer::SyncChangeList * change_list)109 void PruneSyncChanges(const SyncDataMap* sync_data,
110 syncer::SyncChangeList* change_list) {
111 for (size_t i = 0; i < change_list->size(); ) {
112 if (ShouldRemoveSyncChange(i, change_list, sync_data))
113 change_list->erase(change_list->begin() + i);
114 else
115 ++i;
116 }
117 }
118
119 // Returns true if |turl|'s GUID is not found inside |sync_data|. This is to be
120 // used in MergeDataAndStartSyncing to differentiate between TemplateURLs from
121 // Sync and TemplateURLs that were initially local, assuming |sync_data| is the
122 // |initial_sync_data| parameter.
IsFromSync(const TemplateURL * turl,const SyncDataMap & sync_data)123 bool IsFromSync(const TemplateURL* turl, const SyncDataMap& sync_data) {
124 return !!sync_data.count(turl->sync_guid());
125 }
126
127 // Log the number of instances of a keyword that exist, with zero or more
128 // underscores, which could occur as the result of conflict resolution.
LogDuplicatesHistogram(const TemplateURLService::TemplateURLVector & template_urls)129 void LogDuplicatesHistogram(
130 const TemplateURLService::TemplateURLVector& template_urls) {
131 std::map<std::string, int> duplicates;
132 for (TemplateURLService::TemplateURLVector::const_iterator it =
133 template_urls.begin(); it != template_urls.end(); ++it) {
134 std::string keyword = base::UTF16ToASCII((*it)->keyword());
135 base::TrimString(keyword, "_", &keyword);
136 duplicates[keyword]++;
137 }
138
139 // Count the keywords with duplicates.
140 int num_dupes = 0;
141 for (std::map<std::string, int>::const_iterator it = duplicates.begin();
142 it != duplicates.end(); ++it) {
143 if (it->second > 1)
144 num_dupes++;
145 }
146
147 UMA_HISTOGRAM_COUNTS_100("Search.SearchEngineDuplicateCounts", num_dupes);
148 }
149
150 } // namespace
151
152
153 // TemplateURLService::LessWithPrefix -----------------------------------------
154
155 class TemplateURLService::LessWithPrefix {
156 public:
157 // We want to find the set of keywords that begin with a prefix. The STL
158 // algorithms will return the set of elements that are "equal to" the
159 // prefix, where "equal(x, y)" means "!(cmp(x, y) || cmp(y, x))". When
160 // cmp() is the typical std::less<>, this results in lexicographic equality;
161 // we need to extend this to mark a prefix as "not less than" a keyword it
162 // begins, which will cause the desired elements to be considered "equal to"
163 // the prefix. Note: this is still a strict weak ordering, as required by
164 // equal_range() (though I will not prove that here).
165 //
166 // Unfortunately the calling convention is not "prefix and element" but
167 // rather "two elements", so we pass the prefix as a fake "element" which has
168 // a NULL KeywordDataElement pointer.
operator ()(const KeywordToTemplateMap::value_type & elem1,const KeywordToTemplateMap::value_type & elem2) const169 bool operator()(const KeywordToTemplateMap::value_type& elem1,
170 const KeywordToTemplateMap::value_type& elem2) const {
171 return (elem1.second == NULL) ?
172 (elem2.first.compare(0, elem1.first.length(), elem1.first) > 0) :
173 (elem1.first < elem2.first);
174 }
175 };
176
177
178 // TemplateURLService ---------------------------------------------------------
179
TemplateURLService(PrefService * prefs,scoped_ptr<SearchTermsData> search_terms_data,const scoped_refptr<KeywordWebDataService> & web_data_service,scoped_ptr<TemplateURLServiceClient> client,GoogleURLTracker * google_url_tracker,rappor::RapporService * rappor_service,const base::Closure & dsp_change_callback)180 TemplateURLService::TemplateURLService(
181 PrefService* prefs,
182 scoped_ptr<SearchTermsData> search_terms_data,
183 const scoped_refptr<KeywordWebDataService>& web_data_service,
184 scoped_ptr<TemplateURLServiceClient> client,
185 GoogleURLTracker* google_url_tracker,
186 rappor::RapporService* rappor_service,
187 const base::Closure& dsp_change_callback)
188 : prefs_(prefs),
189 search_terms_data_(search_terms_data.Pass()),
190 web_data_service_(web_data_service),
191 client_(client.Pass()),
192 google_url_tracker_(google_url_tracker),
193 rappor_service_(rappor_service),
194 dsp_change_callback_(dsp_change_callback),
195 provider_map_(new SearchHostToURLsMap),
196 loaded_(false),
197 load_failed_(false),
198 load_handle_(0),
199 default_search_provider_(NULL),
200 next_id_(kInvalidTemplateURLID + 1),
201 time_provider_(&base::Time::Now),
202 models_associated_(false),
203 processing_syncer_changes_(false),
204 dsp_change_origin_(DSP_CHANGE_OTHER),
205 default_search_manager_(
206 prefs_,
207 base::Bind(&TemplateURLService::OnDefaultSearchChange,
208 base::Unretained(this))) {
209 DCHECK(search_terms_data_);
210 Init(NULL, 0);
211 }
212
TemplateURLService(const Initializer * initializers,const int count)213 TemplateURLService::TemplateURLService(const Initializer* initializers,
214 const int count)
215 : prefs_(NULL),
216 search_terms_data_(new SearchTermsData),
217 web_data_service_(NULL),
218 google_url_tracker_(NULL),
219 rappor_service_(NULL),
220 provider_map_(new SearchHostToURLsMap),
221 loaded_(false),
222 load_failed_(false),
223 load_handle_(0),
224 default_search_provider_(NULL),
225 next_id_(kInvalidTemplateURLID + 1),
226 time_provider_(&base::Time::Now),
227 models_associated_(false),
228 processing_syncer_changes_(false),
229 dsp_change_origin_(DSP_CHANGE_OTHER),
230 default_search_manager_(
231 prefs_,
232 base::Bind(&TemplateURLService::OnDefaultSearchChange,
233 base::Unretained(this))) {
234 Init(initializers, count);
235 }
236
~TemplateURLService()237 TemplateURLService::~TemplateURLService() {
238 // |web_data_service_| should be deleted during Shutdown().
239 DCHECK(!web_data_service_.get());
240 STLDeleteElements(&template_urls_);
241 }
242
243 // static
LoadDefaultSearchProviderFromPrefs(PrefService * prefs,scoped_ptr<TemplateURLData> * default_provider_data,bool * is_managed)244 bool TemplateURLService::LoadDefaultSearchProviderFromPrefs(
245 PrefService* prefs,
246 scoped_ptr<TemplateURLData>* default_provider_data,
247 bool* is_managed) {
248 if (!prefs || !prefs->HasPrefPath(prefs::kDefaultSearchProviderSearchURL) ||
249 !prefs->HasPrefPath(prefs::kDefaultSearchProviderKeyword))
250 return false;
251
252 const PrefService::Preference* pref =
253 prefs->FindPreference(prefs::kDefaultSearchProviderSearchURL);
254 *is_managed = pref && pref->IsManaged();
255
256 if (!prefs->GetBoolean(prefs::kDefaultSearchProviderEnabled)) {
257 // The user doesn't want a default search provider.
258 default_provider_data->reset(NULL);
259 return true;
260 }
261
262 base::string16 name =
263 base::UTF8ToUTF16(prefs->GetString(prefs::kDefaultSearchProviderName));
264 base::string16 keyword =
265 base::UTF8ToUTF16(prefs->GetString(prefs::kDefaultSearchProviderKeyword));
266 if (keyword.empty())
267 return false;
268 std::string search_url =
269 prefs->GetString(prefs::kDefaultSearchProviderSearchURL);
270 // Force URL to be non-empty. We've never supported this case, but past bugs
271 // might have resulted in it slipping through; eventually this code can be
272 // replaced with a DCHECK(!search_url.empty());.
273 if (search_url.empty())
274 return false;
275 std::string suggest_url =
276 prefs->GetString(prefs::kDefaultSearchProviderSuggestURL);
277 std::string instant_url =
278 prefs->GetString(prefs::kDefaultSearchProviderInstantURL);
279 std::string image_url =
280 prefs->GetString(prefs::kDefaultSearchProviderImageURL);
281 std::string new_tab_url =
282 prefs->GetString(prefs::kDefaultSearchProviderNewTabURL);
283 std::string search_url_post_params =
284 prefs->GetString(prefs::kDefaultSearchProviderSearchURLPostParams);
285 std::string suggest_url_post_params =
286 prefs->GetString(prefs::kDefaultSearchProviderSuggestURLPostParams);
287 std::string instant_url_post_params =
288 prefs->GetString(prefs::kDefaultSearchProviderInstantURLPostParams);
289 std::string image_url_post_params =
290 prefs->GetString(prefs::kDefaultSearchProviderImageURLPostParams);
291 std::string icon_url =
292 prefs->GetString(prefs::kDefaultSearchProviderIconURL);
293 std::string encodings =
294 prefs->GetString(prefs::kDefaultSearchProviderEncodings);
295 std::string id_string = prefs->GetString(prefs::kDefaultSearchProviderID);
296 std::string prepopulate_id =
297 prefs->GetString(prefs::kDefaultSearchProviderPrepopulateID);
298 const base::ListValue* alternate_urls =
299 prefs->GetList(prefs::kDefaultSearchProviderAlternateURLs);
300 std::string search_terms_replacement_key = prefs->GetString(
301 prefs::kDefaultSearchProviderSearchTermsReplacementKey);
302
303 default_provider_data->reset(new TemplateURLData);
304 (*default_provider_data)->short_name = name;
305 (*default_provider_data)->SetKeyword(keyword);
306 (*default_provider_data)->SetURL(search_url);
307 (*default_provider_data)->suggestions_url = suggest_url;
308 (*default_provider_data)->instant_url = instant_url;
309 (*default_provider_data)->image_url = image_url;
310 (*default_provider_data)->new_tab_url = new_tab_url;
311 (*default_provider_data)->search_url_post_params = search_url_post_params;
312 (*default_provider_data)->suggestions_url_post_params =
313 suggest_url_post_params;
314 (*default_provider_data)->instant_url_post_params = instant_url_post_params;
315 (*default_provider_data)->image_url_post_params = image_url_post_params;
316 (*default_provider_data)->favicon_url = GURL(icon_url);
317 (*default_provider_data)->show_in_default_list = true;
318 (*default_provider_data)->alternate_urls.clear();
319 for (size_t i = 0; i < alternate_urls->GetSize(); ++i) {
320 std::string alternate_url;
321 if (alternate_urls->GetString(i, &alternate_url))
322 (*default_provider_data)->alternate_urls.push_back(alternate_url);
323 }
324 (*default_provider_data)->search_terms_replacement_key =
325 search_terms_replacement_key;
326 base::SplitString(encodings, ';', &(*default_provider_data)->input_encodings);
327 if (!id_string.empty() && !*is_managed) {
328 int64 value;
329 base::StringToInt64(id_string, &value);
330 (*default_provider_data)->id = value;
331 }
332 if (!prepopulate_id.empty() && !*is_managed) {
333 int value;
334 base::StringToInt(prepopulate_id, &value);
335 (*default_provider_data)->prepopulate_id = value;
336 }
337 return true;
338 }
339
340 // static
CleanUserInputKeyword(const base::string16 & keyword)341 base::string16 TemplateURLService::CleanUserInputKeyword(
342 const base::string16& keyword) {
343 // Remove the scheme.
344 base::string16 result(base::i18n::ToLower(keyword));
345 base::TrimWhitespace(result, base::TRIM_ALL, &result);
346 url::Component scheme_component;
347 if (url::ExtractScheme(base::UTF16ToUTF8(keyword).c_str(),
348 static_cast<int>(keyword.length()),
349 &scheme_component)) {
350 // If the scheme isn't "http" or "https", bail. The user isn't trying to
351 // type a web address, but rather an FTP, file:, or other scheme URL, or a
352 // search query with some sort of initial operator (e.g. "site:").
353 if (result.compare(0, scheme_component.end(),
354 base::ASCIIToUTF16(url::kHttpScheme)) &&
355 result.compare(0, scheme_component.end(),
356 base::ASCIIToUTF16(url::kHttpsScheme)))
357 return base::string16();
358
359 // Include trailing ':'.
360 result.erase(0, scheme_component.end() + 1);
361 // Many schemes usually have "//" after them, so strip it too.
362 const base::string16 after_scheme(base::ASCIIToUTF16("//"));
363 if (result.compare(0, after_scheme.length(), after_scheme) == 0)
364 result.erase(0, after_scheme.length());
365 }
366
367 // Remove leading "www.".
368 result = net::StripWWW(result);
369
370 // Remove trailing "/".
371 return (result.length() > 0 && result[result.length() - 1] == '/') ?
372 result.substr(0, result.length() - 1) : result;
373 }
374
375 // static
SaveDefaultSearchProviderToPrefs(const TemplateURL * t_url,PrefService * prefs)376 void TemplateURLService::SaveDefaultSearchProviderToPrefs(
377 const TemplateURL* t_url,
378 PrefService* prefs) {
379 if (!prefs)
380 return;
381
382 bool enabled = false;
383 std::string search_url;
384 std::string suggest_url;
385 std::string instant_url;
386 std::string image_url;
387 std::string new_tab_url;
388 std::string search_url_post_params;
389 std::string suggest_url_post_params;
390 std::string instant_url_post_params;
391 std::string image_url_post_params;
392 std::string icon_url;
393 std::string encodings;
394 std::string short_name;
395 std::string keyword;
396 std::string id_string;
397 std::string prepopulate_id;
398 base::ListValue alternate_urls;
399 std::string search_terms_replacement_key;
400 if (t_url) {
401 DCHECK_EQ(TemplateURL::NORMAL, t_url->GetType());
402 enabled = true;
403 search_url = t_url->url();
404 suggest_url = t_url->suggestions_url();
405 instant_url = t_url->instant_url();
406 image_url = t_url->image_url();
407 new_tab_url = t_url->new_tab_url();
408 search_url_post_params = t_url->search_url_post_params();
409 suggest_url_post_params = t_url->suggestions_url_post_params();
410 instant_url_post_params = t_url->instant_url_post_params();
411 image_url_post_params = t_url->image_url_post_params();
412 GURL icon_gurl = t_url->favicon_url();
413 if (!icon_gurl.is_empty())
414 icon_url = icon_gurl.spec();
415 encodings = JoinString(t_url->input_encodings(), ';');
416 short_name = base::UTF16ToUTF8(t_url->short_name());
417 keyword = base::UTF16ToUTF8(t_url->keyword());
418 id_string = base::Int64ToString(t_url->id());
419 prepopulate_id = base::Int64ToString(t_url->prepopulate_id());
420 for (size_t i = 0; i < t_url->alternate_urls().size(); ++i)
421 alternate_urls.AppendString(t_url->alternate_urls()[i]);
422 search_terms_replacement_key = t_url->search_terms_replacement_key();
423 }
424 prefs->SetBoolean(prefs::kDefaultSearchProviderEnabled, enabled);
425 prefs->SetString(prefs::kDefaultSearchProviderSearchURL, search_url);
426 prefs->SetString(prefs::kDefaultSearchProviderSuggestURL, suggest_url);
427 prefs->SetString(prefs::kDefaultSearchProviderInstantURL, instant_url);
428 prefs->SetString(prefs::kDefaultSearchProviderImageURL, image_url);
429 prefs->SetString(prefs::kDefaultSearchProviderNewTabURL, new_tab_url);
430 prefs->SetString(prefs::kDefaultSearchProviderSearchURLPostParams,
431 search_url_post_params);
432 prefs->SetString(prefs::kDefaultSearchProviderSuggestURLPostParams,
433 suggest_url_post_params);
434 prefs->SetString(prefs::kDefaultSearchProviderInstantURLPostParams,
435 instant_url_post_params);
436 prefs->SetString(prefs::kDefaultSearchProviderImageURLPostParams,
437 image_url_post_params);
438 prefs->SetString(prefs::kDefaultSearchProviderIconURL, icon_url);
439 prefs->SetString(prefs::kDefaultSearchProviderEncodings, encodings);
440 prefs->SetString(prefs::kDefaultSearchProviderName, short_name);
441 prefs->SetString(prefs::kDefaultSearchProviderKeyword, keyword);
442 prefs->SetString(prefs::kDefaultSearchProviderID, id_string);
443 prefs->SetString(prefs::kDefaultSearchProviderPrepopulateID, prepopulate_id);
444 prefs->Set(prefs::kDefaultSearchProviderAlternateURLs, alternate_urls);
445 prefs->SetString(prefs::kDefaultSearchProviderSearchTermsReplacementKey,
446 search_terms_replacement_key);
447 }
448
CanReplaceKeyword(const base::string16 & keyword,const GURL & url,TemplateURL ** template_url_to_replace)449 bool TemplateURLService::CanReplaceKeyword(
450 const base::string16& keyword,
451 const GURL& url,
452 TemplateURL** template_url_to_replace) {
453 DCHECK(!keyword.empty()); // This should only be called for non-empty
454 // keywords. If we need to support empty kewords
455 // the code needs to change slightly.
456 TemplateURL* existing_url = GetTemplateURLForKeyword(keyword);
457 if (template_url_to_replace)
458 *template_url_to_replace = existing_url;
459 if (existing_url) {
460 // We already have a TemplateURL for this keyword. Only allow it to be
461 // replaced if the TemplateURL can be replaced.
462 return CanReplace(existing_url);
463 }
464
465 // We don't have a TemplateURL with keyword. Only allow a new one if there
466 // isn't a TemplateURL for the specified host, or there is one but it can
467 // be replaced. We do this to ensure that if the user assigns a different
468 // keyword to a generated TemplateURL, we won't regenerate another keyword for
469 // the same host.
470 return !url.is_valid() || url.host().empty() ||
471 CanReplaceKeywordForHost(url.host(), template_url_to_replace);
472 }
473
FindMatchingKeywords(const base::string16 & prefix,bool support_replacement_only,TemplateURLVector * matches)474 void TemplateURLService::FindMatchingKeywords(
475 const base::string16& prefix,
476 bool support_replacement_only,
477 TemplateURLVector* matches) {
478 // Sanity check args.
479 if (prefix.empty())
480 return;
481 DCHECK(matches != NULL);
482 DCHECK(matches->empty()); // The code for exact matches assumes this.
483
484 // Required for VS2010: http://connect.microsoft.com/VisualStudio/feedback/details/520043/error-converting-from-null-to-a-pointer-type-in-std-pair
485 TemplateURL* const kNullTemplateURL = NULL;
486
487 // Find matching keyword range. Searches the element map for keywords
488 // beginning with |prefix| and stores the endpoints of the resulting set in
489 // |match_range|.
490 const std::pair<KeywordToTemplateMap::const_iterator,
491 KeywordToTemplateMap::const_iterator> match_range(
492 std::equal_range(
493 keyword_to_template_map_.begin(), keyword_to_template_map_.end(),
494 KeywordToTemplateMap::value_type(prefix, kNullTemplateURL),
495 LessWithPrefix()));
496
497 // Return vector of matching keywords.
498 for (KeywordToTemplateMap::const_iterator i(match_range.first);
499 i != match_range.second; ++i) {
500 if (!support_replacement_only ||
501 i->second->url_ref().SupportsReplacement(search_terms_data()))
502 matches->push_back(i->second);
503 }
504 }
505
GetTemplateURLForKeyword(const base::string16 & keyword)506 TemplateURL* TemplateURLService::GetTemplateURLForKeyword(
507 const base::string16& keyword) {
508 KeywordToTemplateMap::const_iterator elem(
509 keyword_to_template_map_.find(keyword));
510 if (elem != keyword_to_template_map_.end())
511 return elem->second;
512 return (!loaded_ &&
513 initial_default_search_provider_.get() &&
514 (initial_default_search_provider_->keyword() == keyword)) ?
515 initial_default_search_provider_.get() : NULL;
516 }
517
GetTemplateURLForGUID(const std::string & sync_guid)518 TemplateURL* TemplateURLService::GetTemplateURLForGUID(
519 const std::string& sync_guid) {
520 GUIDToTemplateMap::const_iterator elem(guid_to_template_map_.find(sync_guid));
521 if (elem != guid_to_template_map_.end())
522 return elem->second;
523 return (!loaded_ &&
524 initial_default_search_provider_.get() &&
525 (initial_default_search_provider_->sync_guid() == sync_guid)) ?
526 initial_default_search_provider_.get() : NULL;
527 }
528
GetTemplateURLForHost(const std::string & host)529 TemplateURL* TemplateURLService::GetTemplateURLForHost(
530 const std::string& host) {
531 if (loaded_)
532 return provider_map_->GetTemplateURLForHost(host);
533 TemplateURL* initial_dsp = initial_default_search_provider_.get();
534 if (!initial_dsp)
535 return NULL;
536 return (initial_dsp->GenerateSearchURL(search_terms_data()).host() == host) ?
537 initial_dsp : NULL;
538 }
539
Add(TemplateURL * template_url)540 bool TemplateURLService::Add(TemplateURL* template_url) {
541 KeywordWebDataService::BatchModeScoper scoper(web_data_service_.get());
542 if (!AddNoNotify(template_url, true))
543 return false;
544 NotifyObservers();
545 return true;
546 }
547
AddWithOverrides(TemplateURL * template_url,const base::string16 & short_name,const base::string16 & keyword,const std::string & url)548 void TemplateURLService::AddWithOverrides(TemplateURL* template_url,
549 const base::string16& short_name,
550 const base::string16& keyword,
551 const std::string& url) {
552 DCHECK(!keyword.empty());
553 DCHECK(!url.empty());
554 template_url->data_.short_name = short_name;
555 template_url->data_.SetKeyword(keyword);
556 template_url->SetURL(url);
557 Add(template_url);
558 }
559
AddExtensionControlledTURL(TemplateURL * template_url,scoped_ptr<TemplateURL::AssociatedExtensionInfo> info)560 void TemplateURLService::AddExtensionControlledTURL(
561 TemplateURL* template_url,
562 scoped_ptr<TemplateURL::AssociatedExtensionInfo> info) {
563 DCHECK(loaded_);
564 DCHECK(template_url);
565 DCHECK_EQ(kInvalidTemplateURLID, template_url->id());
566 DCHECK(info);
567 DCHECK_NE(TemplateURL::NORMAL, info->type);
568 DCHECK_EQ(info->wants_to_be_default_engine,
569 template_url->show_in_default_list());
570 DCHECK(!FindTemplateURLForExtension(info->extension_id, info->type));
571 template_url->extension_info_.swap(info);
572
573 KeywordWebDataService::BatchModeScoper scoper(web_data_service_.get());
574 if (AddNoNotify(template_url, true)) {
575 if (template_url->extension_info_->wants_to_be_default_engine)
576 UpdateExtensionDefaultSearchEngine();
577 NotifyObservers();
578 }
579 }
580
Remove(TemplateURL * template_url)581 void TemplateURLService::Remove(TemplateURL* template_url) {
582 RemoveNoNotify(template_url);
583 NotifyObservers();
584 }
585
RemoveExtensionControlledTURL(const std::string & extension_id,TemplateURL::Type type)586 void TemplateURLService::RemoveExtensionControlledTURL(
587 const std::string& extension_id,
588 TemplateURL::Type type) {
589 DCHECK(loaded_);
590 TemplateURL* url = FindTemplateURLForExtension(extension_id, type);
591 if (!url)
592 return;
593 // NULL this out so that we can call RemoveNoNotify.
594 // UpdateExtensionDefaultSearchEngine will cause it to be reset.
595 if (default_search_provider_ == url)
596 default_search_provider_ = NULL;
597 KeywordWebDataService::BatchModeScoper scoper(web_data_service_.get());
598 RemoveNoNotify(url);
599 UpdateExtensionDefaultSearchEngine();
600 NotifyObservers();
601 }
602
RemoveAutoGeneratedSince(base::Time created_after)603 void TemplateURLService::RemoveAutoGeneratedSince(base::Time created_after) {
604 RemoveAutoGeneratedBetween(created_after, base::Time());
605 }
606
RemoveAutoGeneratedBetween(base::Time created_after,base::Time created_before)607 void TemplateURLService::RemoveAutoGeneratedBetween(base::Time created_after,
608 base::Time created_before) {
609 RemoveAutoGeneratedForOriginBetween(GURL(), created_after, created_before);
610 }
611
RemoveAutoGeneratedForOriginBetween(const GURL & origin,base::Time created_after,base::Time created_before)612 void TemplateURLService::RemoveAutoGeneratedForOriginBetween(
613 const GURL& origin,
614 base::Time created_after,
615 base::Time created_before) {
616 GURL o(origin.GetOrigin());
617 bool should_notify = false;
618 KeywordWebDataService::BatchModeScoper scoper(web_data_service_.get());
619 for (size_t i = 0; i < template_urls_.size();) {
620 if (template_urls_[i]->date_created() >= created_after &&
621 (created_before.is_null() ||
622 template_urls_[i]->date_created() < created_before) &&
623 CanReplace(template_urls_[i]) &&
624 (o.is_empty() ||
625 template_urls_[i]->GenerateSearchURL(
626 search_terms_data()).GetOrigin() == o)) {
627 RemoveNoNotify(template_urls_[i]);
628 should_notify = true;
629 } else {
630 ++i;
631 }
632 }
633 if (should_notify)
634 NotifyObservers();
635 }
636
RegisterOmniboxKeyword(const std::string & extension_id,const std::string & extension_name,const std::string & keyword,const std::string & template_url_string)637 void TemplateURLService::RegisterOmniboxKeyword(
638 const std::string& extension_id,
639 const std::string& extension_name,
640 const std::string& keyword,
641 const std::string& template_url_string) {
642 DCHECK(loaded_);
643
644 if (FindTemplateURLForExtension(extension_id,
645 TemplateURL::OMNIBOX_API_EXTENSION))
646 return;
647
648 TemplateURLData data;
649 data.short_name = base::UTF8ToUTF16(extension_name);
650 data.SetKeyword(base::UTF8ToUTF16(keyword));
651 data.SetURL(template_url_string);
652 TemplateURL* url = new TemplateURL(data);
653 scoped_ptr<TemplateURL::AssociatedExtensionInfo> info(
654 new TemplateURL::AssociatedExtensionInfo(
655 TemplateURL::OMNIBOX_API_EXTENSION, extension_id));
656 AddExtensionControlledTURL(url, info.Pass());
657 }
658
GetTemplateURLs()659 TemplateURLService::TemplateURLVector TemplateURLService::GetTemplateURLs() {
660 return template_urls_;
661 }
662
IncrementUsageCount(TemplateURL * url)663 void TemplateURLService::IncrementUsageCount(TemplateURL* url) {
664 DCHECK(url);
665 // Extension-controlled search engines are not persisted.
666 if (url->GetType() == TemplateURL::NORMAL_CONTROLLED_BY_EXTENSION)
667 return;
668 if (std::find(template_urls_.begin(), template_urls_.end(), url) ==
669 template_urls_.end())
670 return;
671 ++url->data_.usage_count;
672
673 if (web_data_service_.get())
674 web_data_service_->UpdateKeyword(url->data());
675 }
676
ResetTemplateURL(TemplateURL * url,const base::string16 & title,const base::string16 & keyword,const std::string & search_url)677 void TemplateURLService::ResetTemplateURL(TemplateURL* url,
678 const base::string16& title,
679 const base::string16& keyword,
680 const std::string& search_url) {
681 if (ResetTemplateURLNoNotify(url, title, keyword, search_url))
682 NotifyObservers();
683 }
684
CanMakeDefault(const TemplateURL * url)685 bool TemplateURLService::CanMakeDefault(const TemplateURL* url) {
686 return
687 ((default_search_provider_source_ == DefaultSearchManager::FROM_USER) ||
688 (default_search_provider_source_ ==
689 DefaultSearchManager::FROM_FALLBACK)) &&
690 (url != GetDefaultSearchProvider()) &&
691 url->url_ref().SupportsReplacement(search_terms_data()) &&
692 (url->GetType() == TemplateURL::NORMAL);
693 }
694
SetUserSelectedDefaultSearchProvider(TemplateURL * url)695 void TemplateURLService::SetUserSelectedDefaultSearchProvider(
696 TemplateURL* url) {
697 // Omnibox keywords cannot be made default. Extension-controlled search
698 // engines can be made default only by the extension itself because they
699 // aren't persisted.
700 DCHECK(!url || (url->GetType() == TemplateURL::NORMAL));
701 if (load_failed_) {
702 // Skip the DefaultSearchManager, which will persist to user preferences.
703 if ((default_search_provider_source_ == DefaultSearchManager::FROM_USER) ||
704 (default_search_provider_source_ ==
705 DefaultSearchManager::FROM_FALLBACK)) {
706 ApplyDefaultSearchChange(url ? &url->data() : NULL,
707 DefaultSearchManager::FROM_USER);
708 }
709 } else {
710 // We rely on the DefaultSearchManager to call OnDefaultSearchChange if, in
711 // fact, the effective DSE changes.
712 if (url)
713 default_search_manager_.SetUserSelectedDefaultSearchEngine(url->data());
714 else
715 default_search_manager_.ClearUserSelectedDefaultSearchEngine();
716 }
717 }
718
GetDefaultSearchProvider()719 TemplateURL* TemplateURLService::GetDefaultSearchProvider() {
720 return loaded_ ?
721 default_search_provider_ : initial_default_search_provider_.get();
722 }
723
IsSearchResultsPageFromDefaultSearchProvider(const GURL & url)724 bool TemplateURLService::IsSearchResultsPageFromDefaultSearchProvider(
725 const GURL& url) {
726 TemplateURL* default_provider = GetDefaultSearchProvider();
727 return default_provider &&
728 default_provider->IsSearchURL(url, search_terms_data());
729 }
730
IsExtensionControlledDefaultSearch()731 bool TemplateURLService::IsExtensionControlledDefaultSearch() {
732 return default_search_provider_source_ ==
733 DefaultSearchManager::FROM_EXTENSION;
734 }
735
RepairPrepopulatedSearchEngines()736 void TemplateURLService::RepairPrepopulatedSearchEngines() {
737 // Can't clean DB if it hasn't been loaded.
738 DCHECK(loaded());
739
740 if ((default_search_provider_source_ == DefaultSearchManager::FROM_USER) ||
741 (default_search_provider_source_ ==
742 DefaultSearchManager::FROM_FALLBACK)) {
743 // Clear |default_search_provider_| in case we want to remove the engine it
744 // points to. This will get reset at the end of the function anyway.
745 default_search_provider_ = NULL;
746 }
747
748 size_t default_search_provider_index = 0;
749 ScopedVector<TemplateURLData> prepopulated_urls =
750 TemplateURLPrepopulateData::GetPrepopulatedEngines(
751 prefs_, &default_search_provider_index);
752 DCHECK(!prepopulated_urls.empty());
753 ActionsFromPrepopulateData actions(CreateActionsFromCurrentPrepopulateData(
754 &prepopulated_urls, template_urls_, default_search_provider_));
755
756 KeywordWebDataService::BatchModeScoper scoper(web_data_service_.get());
757
758 // Remove items.
759 for (std::vector<TemplateURL*>::iterator i = actions.removed_engines.begin();
760 i < actions.removed_engines.end(); ++i)
761 RemoveNoNotify(*i);
762
763 // Edit items.
764 for (EditedEngines::iterator i(actions.edited_engines.begin());
765 i < actions.edited_engines.end(); ++i) {
766 TemplateURL new_values(i->second);
767 UpdateNoNotify(i->first, new_values);
768 }
769
770 // Add items.
771 for (std::vector<TemplateURLData>::const_iterator i =
772 actions.added_engines.begin();
773 i < actions.added_engines.end();
774 ++i) {
775 AddNoNotify(new TemplateURL(*i), true);
776 }
777
778 base::AutoReset<DefaultSearchChangeOrigin> change_origin(
779 &dsp_change_origin_, DSP_CHANGE_PROFILE_RESET);
780
781 default_search_manager_.ClearUserSelectedDefaultSearchEngine();
782
783 if (!default_search_provider_) {
784 // If the default search provider came from a user pref we would have been
785 // notified of the new (fallback-provided) value in
786 // ClearUserSelectedDefaultSearchEngine() above. Since we are here, the
787 // value was presumably originally a fallback value (which may have been
788 // repaired).
789 DefaultSearchManager::Source source;
790 const TemplateURLData* new_dse =
791 default_search_manager_.GetDefaultSearchEngine(&source);
792 // ApplyDefaultSearchChange will notify observers once it is done.
793 ApplyDefaultSearchChange(new_dse, source);
794 } else {
795 NotifyObservers();
796 }
797 }
798
AddObserver(TemplateURLServiceObserver * observer)799 void TemplateURLService::AddObserver(TemplateURLServiceObserver* observer) {
800 model_observers_.AddObserver(observer);
801 }
802
RemoveObserver(TemplateURLServiceObserver * observer)803 void TemplateURLService::RemoveObserver(TemplateURLServiceObserver* observer) {
804 model_observers_.RemoveObserver(observer);
805 }
806
Load()807 void TemplateURLService::Load() {
808 if (loaded_ || load_handle_)
809 return;
810
811 if (web_data_service_.get())
812 load_handle_ = web_data_service_->GetKeywords(this);
813 else
814 ChangeToLoadedState();
815 }
816
817 scoped_ptr<TemplateURLService::Subscription>
RegisterOnLoadedCallback(const base::Closure & callback)818 TemplateURLService::RegisterOnLoadedCallback(
819 const base::Closure& callback) {
820 return loaded_ ?
821 scoped_ptr<TemplateURLService::Subscription>() :
822 on_loaded_callbacks_.Add(callback);
823 }
824
OnWebDataServiceRequestDone(KeywordWebDataService::Handle h,const WDTypedResult * result)825 void TemplateURLService::OnWebDataServiceRequestDone(
826 KeywordWebDataService::Handle h,
827 const WDTypedResult* result) {
828 // Reset the load_handle so that we don't try and cancel the load in
829 // the destructor.
830 load_handle_ = 0;
831
832 if (!result) {
833 // Results are null if the database went away or (most likely) wasn't
834 // loaded.
835 load_failed_ = true;
836 web_data_service_ = NULL;
837 ChangeToLoadedState();
838 return;
839 }
840
841 TemplateURLVector template_urls;
842 int new_resource_keyword_version = 0;
843 GetSearchProvidersUsingKeywordResult(
844 *result,
845 web_data_service_.get(),
846 prefs_,
847 &template_urls,
848 (default_search_provider_source_ == DefaultSearchManager::FROM_USER) ?
849 initial_default_search_provider_.get() : NULL,
850 search_terms_data(),
851 &new_resource_keyword_version,
852 &pre_sync_deletes_);
853
854 if (client_) {
855 // Restore extension info of loaded TemplateURLs.
856 for (size_t i = 0; i < template_urls.size(); ++i) {
857 DCHECK(!template_urls[i]->extension_info_);
858 client_->RestoreExtensionInfoIfNecessary(template_urls[i]);
859 }
860 }
861
862 KeywordWebDataService::BatchModeScoper scoper(web_data_service_.get());
863
864 PatchMissingSyncGUIDs(&template_urls);
865 SetTemplateURLs(&template_urls);
866
867 // This initializes provider_map_ which should be done before
868 // calling UpdateKeywordSearchTermsForURL.
869 // This also calls NotifyObservers.
870 ChangeToLoadedState();
871
872 // Index any visits that occurred before we finished loading.
873 for (size_t i = 0; i < visits_to_add_.size(); ++i)
874 UpdateKeywordSearchTermsForURL(visits_to_add_[i]);
875 visits_to_add_.clear();
876
877 if (new_resource_keyword_version)
878 web_data_service_->SetBuiltinKeywordVersion(new_resource_keyword_version);
879
880 if (default_search_provider_) {
881 UMA_HISTOGRAM_ENUMERATION(
882 "Search.DefaultSearchProviderType",
883 TemplateURLPrepopulateData::GetEngineType(
884 *default_search_provider_, search_terms_data()),
885 SEARCH_ENGINE_MAX);
886
887 if (rappor_service_) {
888 rappor_service_->RecordSample(
889 "Search.DefaultSearchProvider",
890 rappor::ETLD_PLUS_ONE_RAPPOR_TYPE,
891 net::registry_controlled_domains::GetDomainAndRegistry(
892 default_search_provider_->url_ref().GetHost(search_terms_data()),
893 net::registry_controlled_domains::INCLUDE_PRIVATE_REGISTRIES));
894 }
895 }
896 }
897
GetKeywordShortName(const base::string16 & keyword,bool * is_omnibox_api_extension_keyword)898 base::string16 TemplateURLService::GetKeywordShortName(
899 const base::string16& keyword,
900 bool* is_omnibox_api_extension_keyword) {
901 const TemplateURL* template_url = GetTemplateURLForKeyword(keyword);
902
903 // TODO(sky): Once LocationBarView adds a listener to the TemplateURLService
904 // to track changes to the model, this should become a DCHECK.
905 if (template_url) {
906 *is_omnibox_api_extension_keyword =
907 template_url->GetType() == TemplateURL::OMNIBOX_API_EXTENSION;
908 return template_url->AdjustedShortNameForLocaleDirection();
909 }
910 *is_omnibox_api_extension_keyword = false;
911 return base::string16();
912 }
913
OnHistoryURLVisited(const URLVisitedDetails & details)914 void TemplateURLService::OnHistoryURLVisited(const URLVisitedDetails& details) {
915 if (!loaded_)
916 visits_to_add_.push_back(details);
917 else
918 UpdateKeywordSearchTermsForURL(details);
919 }
920
Shutdown()921 void TemplateURLService::Shutdown() {
922 // This check has to be done at Shutdown() instead of in the dtor to ensure
923 // that no clients of KeywordWebDataService are holding ptrs to it after the
924 // first phase of the KeyedService Shutdown() process.
925 if (load_handle_) {
926 DCHECK(web_data_service_.get());
927 web_data_service_->CancelRequest(load_handle_);
928 }
929 web_data_service_ = NULL;
930 }
931
GetAllSyncData(syncer::ModelType type) const932 syncer::SyncDataList TemplateURLService::GetAllSyncData(
933 syncer::ModelType type) const {
934 DCHECK_EQ(syncer::SEARCH_ENGINES, type);
935
936 syncer::SyncDataList current_data;
937 for (TemplateURLVector::const_iterator iter = template_urls_.begin();
938 iter != template_urls_.end(); ++iter) {
939 // We don't sync keywords managed by policy.
940 if ((*iter)->created_by_policy())
941 continue;
942 // We don't sync extension-controlled search engines.
943 if ((*iter)->GetType() == TemplateURL::NORMAL_CONTROLLED_BY_EXTENSION)
944 continue;
945 current_data.push_back(CreateSyncDataFromTemplateURL(**iter));
946 }
947
948 return current_data;
949 }
950
ProcessSyncChanges(const tracked_objects::Location & from_here,const syncer::SyncChangeList & change_list)951 syncer::SyncError TemplateURLService::ProcessSyncChanges(
952 const tracked_objects::Location& from_here,
953 const syncer::SyncChangeList& change_list) {
954 if (!models_associated_) {
955 syncer::SyncError error(FROM_HERE,
956 syncer::SyncError::DATATYPE_ERROR,
957 "Models not yet associated.",
958 syncer::SEARCH_ENGINES);
959 return error;
960 }
961 DCHECK(loaded_);
962
963 base::AutoReset<bool> processing_changes(&processing_syncer_changes_, true);
964
965 // We've started syncing, so set our origin member to the base Sync value.
966 // As we move through Sync Code, we may set this to increasingly specific
967 // origins so we can tell what exactly caused a DSP change.
968 base::AutoReset<DefaultSearchChangeOrigin> change_origin(&dsp_change_origin_,
969 DSP_CHANGE_SYNC_UNINTENTIONAL);
970
971 KeywordWebDataService::BatchModeScoper scoper(web_data_service_.get());
972
973 syncer::SyncChangeList new_changes;
974 syncer::SyncError error;
975 for (syncer::SyncChangeList::const_iterator iter = change_list.begin();
976 iter != change_list.end(); ++iter) {
977 DCHECK_EQ(syncer::SEARCH_ENGINES, iter->sync_data().GetDataType());
978
979 std::string guid =
980 iter->sync_data().GetSpecifics().search_engine().sync_guid();
981 TemplateURL* existing_turl = GetTemplateURLForGUID(guid);
982 scoped_ptr<TemplateURL> turl(CreateTemplateURLFromTemplateURLAndSyncData(
983 prefs_, search_terms_data(), existing_turl, iter->sync_data(),
984 &new_changes));
985 if (!turl.get())
986 continue;
987
988 // Explicitly don't check for conflicts against extension keywords; in this
989 // case the functions which modify the keyword map know how to handle the
990 // conflicts.
991 // TODO(mpcomplete): If we allow editing extension keywords, then those will
992 // need to undergo conflict resolution.
993 TemplateURL* existing_keyword_turl =
994 FindNonExtensionTemplateURLForKeyword(turl->keyword());
995 if (iter->change_type() == syncer::SyncChange::ACTION_DELETE) {
996 if (!existing_turl) {
997 error = sync_error_factory_->CreateAndUploadError(
998 FROM_HERE,
999 "ProcessSyncChanges failed on ChangeType ACTION_DELETE");
1000 continue;
1001 }
1002 if (existing_turl == GetDefaultSearchProvider()) {
1003 // The only way Sync can attempt to delete the default search provider
1004 // is if we had changed the kSyncedDefaultSearchProviderGUID
1005 // preference, but perhaps it has not yet been received. To avoid
1006 // situations where this has come in erroneously, we will un-delete
1007 // the current default search from the Sync data. If the pref really
1008 // does arrive later, then default search will change to the correct
1009 // entry, but we'll have this extra entry sitting around. The result is
1010 // not ideal, but it prevents a far more severe bug where the default is
1011 // unexpectedly swapped to something else. The user can safely delete
1012 // the extra entry again later, if they choose. Most users who do not
1013 // look at the search engines UI will not notice this.
1014 // Note that we append a special character to the end of the keyword in
1015 // an attempt to avoid a ping-poinging situation where receiving clients
1016 // may try to continually delete the resurrected entry.
1017 base::string16 updated_keyword = UniquifyKeyword(*existing_turl, true);
1018 TemplateURLData data(existing_turl->data());
1019 data.SetKeyword(updated_keyword);
1020 TemplateURL new_turl(data);
1021 if (UpdateNoNotify(existing_turl, new_turl))
1022 NotifyObservers();
1023
1024 syncer::SyncData sync_data = CreateSyncDataFromTemplateURL(new_turl);
1025 new_changes.push_back(syncer::SyncChange(FROM_HERE,
1026 syncer::SyncChange::ACTION_ADD,
1027 sync_data));
1028 // Ignore the delete attempt. This means we never end up resetting the
1029 // default search provider due to an ACTION_DELETE from sync.
1030 continue;
1031 }
1032
1033 Remove(existing_turl);
1034 } else if (iter->change_type() == syncer::SyncChange::ACTION_ADD) {
1035 if (existing_turl) {
1036 error = sync_error_factory_->CreateAndUploadError(
1037 FROM_HERE,
1038 "ProcessSyncChanges failed on ChangeType ACTION_ADD");
1039 continue;
1040 }
1041 const std::string guid = turl->sync_guid();
1042 if (existing_keyword_turl) {
1043 // Resolve any conflicts so we can safely add the new entry.
1044 ResolveSyncKeywordConflict(turl.get(), existing_keyword_turl,
1045 &new_changes);
1046 }
1047 base::AutoReset<DefaultSearchChangeOrigin> change_origin(
1048 &dsp_change_origin_, DSP_CHANGE_SYNC_ADD);
1049 // Force the local ID to kInvalidTemplateURLID so we can add it.
1050 TemplateURLData data(turl->data());
1051 data.id = kInvalidTemplateURLID;
1052 TemplateURL* added = new TemplateURL(data);
1053 if (Add(added))
1054 MaybeUpdateDSEAfterSync(added);
1055 } else if (iter->change_type() == syncer::SyncChange::ACTION_UPDATE) {
1056 if (!existing_turl) {
1057 error = sync_error_factory_->CreateAndUploadError(
1058 FROM_HERE,
1059 "ProcessSyncChanges failed on ChangeType ACTION_UPDATE");
1060 continue;
1061 }
1062 if (existing_keyword_turl && (existing_keyword_turl != existing_turl)) {
1063 // Resolve any conflicts with other entries so we can safely update the
1064 // keyword.
1065 ResolveSyncKeywordConflict(turl.get(), existing_keyword_turl,
1066 &new_changes);
1067 }
1068 if (UpdateNoNotify(existing_turl, *turl)) {
1069 NotifyObservers();
1070 MaybeUpdateDSEAfterSync(existing_turl);
1071 }
1072 } else {
1073 // We've unexpectedly received an ACTION_INVALID.
1074 error = sync_error_factory_->CreateAndUploadError(
1075 FROM_HERE,
1076 "ProcessSyncChanges received an ACTION_INVALID");
1077 }
1078 }
1079
1080 // If something went wrong, we want to prematurely exit to avoid pushing
1081 // inconsistent data to Sync. We return the last error we received.
1082 if (error.IsSet())
1083 return error;
1084
1085 error = sync_processor_->ProcessSyncChanges(from_here, new_changes);
1086
1087 return error;
1088 }
1089
MergeDataAndStartSyncing(syncer::ModelType type,const syncer::SyncDataList & initial_sync_data,scoped_ptr<syncer::SyncChangeProcessor> sync_processor,scoped_ptr<syncer::SyncErrorFactory> sync_error_factory)1090 syncer::SyncMergeResult TemplateURLService::MergeDataAndStartSyncing(
1091 syncer::ModelType type,
1092 const syncer::SyncDataList& initial_sync_data,
1093 scoped_ptr<syncer::SyncChangeProcessor> sync_processor,
1094 scoped_ptr<syncer::SyncErrorFactory> sync_error_factory) {
1095 DCHECK(loaded_);
1096 DCHECK_EQ(type, syncer::SEARCH_ENGINES);
1097 DCHECK(!sync_processor_.get());
1098 DCHECK(sync_processor.get());
1099 DCHECK(sync_error_factory.get());
1100 syncer::SyncMergeResult merge_result(type);
1101
1102 // Disable sync if we failed to load.
1103 if (load_failed_) {
1104 merge_result.set_error(syncer::SyncError(
1105 FROM_HERE, syncer::SyncError::DATATYPE_ERROR,
1106 "Local database load failed.", syncer::SEARCH_ENGINES));
1107 return merge_result;
1108 }
1109
1110 sync_processor_ = sync_processor.Pass();
1111 sync_error_factory_ = sync_error_factory.Pass();
1112
1113 // We do a lot of calls to Add/Remove/ResetTemplateURL here, so ensure we
1114 // don't step on our own toes.
1115 base::AutoReset<bool> processing_changes(&processing_syncer_changes_, true);
1116
1117 // We've started syncing, so set our origin member to the base Sync value.
1118 // As we move through Sync Code, we may set this to increasingly specific
1119 // origins so we can tell what exactly caused a DSP change.
1120 base::AutoReset<DefaultSearchChangeOrigin> change_origin(&dsp_change_origin_,
1121 DSP_CHANGE_SYNC_UNINTENTIONAL);
1122
1123 syncer::SyncChangeList new_changes;
1124
1125 // Build maps of our sync GUIDs to syncer::SyncData.
1126 SyncDataMap local_data_map = CreateGUIDToSyncDataMap(
1127 GetAllSyncData(syncer::SEARCH_ENGINES));
1128 SyncDataMap sync_data_map = CreateGUIDToSyncDataMap(initial_sync_data);
1129
1130 KeywordWebDataService::BatchModeScoper scoper(web_data_service_.get());
1131
1132 merge_result.set_num_items_before_association(local_data_map.size());
1133 for (SyncDataMap::const_iterator iter = sync_data_map.begin();
1134 iter != sync_data_map.end(); ++iter) {
1135 TemplateURL* local_turl = GetTemplateURLForGUID(iter->first);
1136 scoped_ptr<TemplateURL> sync_turl(
1137 CreateTemplateURLFromTemplateURLAndSyncData(
1138 prefs_, search_terms_data(), local_turl, iter->second,
1139 &new_changes));
1140 if (!sync_turl.get())
1141 continue;
1142
1143 if (pre_sync_deletes_.find(sync_turl->sync_guid()) !=
1144 pre_sync_deletes_.end()) {
1145 // This entry was deleted before the initial sync began (possibly through
1146 // preprocessing in TemplateURLService's loading code). Ignore it and send
1147 // an ACTION_DELETE up to the server.
1148 new_changes.push_back(
1149 syncer::SyncChange(FROM_HERE,
1150 syncer::SyncChange::ACTION_DELETE,
1151 iter->second));
1152 UMA_HISTOGRAM_ENUMERATION(kDeleteSyncedEngineHistogramName,
1153 DELETE_ENGINE_PRE_SYNC, DELETE_ENGINE_MAX);
1154 continue;
1155 }
1156
1157 if (local_turl) {
1158 DCHECK(IsFromSync(local_turl, sync_data_map));
1159 // This local search engine is already synced. If the timestamp differs
1160 // from Sync, we need to update locally or to the cloud. Note that if the
1161 // timestamps are equal, we touch neither.
1162 if (sync_turl->last_modified() > local_turl->last_modified()) {
1163 // We've received an update from Sync. We should replace all synced
1164 // fields in the local TemplateURL. Note that this includes the
1165 // TemplateURLID and the TemplateURL may have to be reparsed. This
1166 // also makes the local data's last_modified timestamp equal to Sync's,
1167 // avoiding an Update on the next MergeData call.
1168 if (UpdateNoNotify(local_turl, *sync_turl))
1169 NotifyObservers();
1170 merge_result.set_num_items_modified(
1171 merge_result.num_items_modified() + 1);
1172 } else if (sync_turl->last_modified() < local_turl->last_modified()) {
1173 // Otherwise, we know we have newer data, so update Sync with our
1174 // data fields.
1175 new_changes.push_back(
1176 syncer::SyncChange(FROM_HERE,
1177 syncer::SyncChange::ACTION_UPDATE,
1178 local_data_map[local_turl->sync_guid()]));
1179 }
1180 local_data_map.erase(iter->first);
1181 } else {
1182 // The search engine from the cloud has not been synced locally. Merge it
1183 // into our local model. This will handle any conflicts with local (and
1184 // already-synced) TemplateURLs. It will prefer to keep entries from Sync
1185 // over not-yet-synced TemplateURLs.
1186 MergeInSyncTemplateURL(sync_turl.get(), sync_data_map, &new_changes,
1187 &local_data_map, &merge_result);
1188 }
1189 }
1190
1191 // The remaining SyncData in local_data_map should be everything that needs to
1192 // be pushed as ADDs to sync.
1193 for (SyncDataMap::const_iterator iter = local_data_map.begin();
1194 iter != local_data_map.end(); ++iter) {
1195 new_changes.push_back(
1196 syncer::SyncChange(FROM_HERE,
1197 syncer::SyncChange::ACTION_ADD,
1198 iter->second));
1199 }
1200
1201 // Do some post-processing on the change list to ensure that we are sending
1202 // valid changes to sync_processor_.
1203 PruneSyncChanges(&sync_data_map, &new_changes);
1204
1205 LogDuplicatesHistogram(GetTemplateURLs());
1206 merge_result.set_num_items_after_association(
1207 GetAllSyncData(syncer::SEARCH_ENGINES).size());
1208 merge_result.set_error(
1209 sync_processor_->ProcessSyncChanges(FROM_HERE, new_changes));
1210 if (merge_result.error().IsSet())
1211 return merge_result;
1212
1213 // The ACTION_DELETEs from this set are processed. Empty it so we don't try to
1214 // reuse them on the next call to MergeDataAndStartSyncing.
1215 pre_sync_deletes_.clear();
1216
1217 models_associated_ = true;
1218 return merge_result;
1219 }
1220
StopSyncing(syncer::ModelType type)1221 void TemplateURLService::StopSyncing(syncer::ModelType type) {
1222 DCHECK_EQ(type, syncer::SEARCH_ENGINES);
1223 models_associated_ = false;
1224 sync_processor_.reset();
1225 sync_error_factory_.reset();
1226 }
1227
ProcessTemplateURLChange(const tracked_objects::Location & from_here,const TemplateURL * turl,syncer::SyncChange::SyncChangeType type)1228 void TemplateURLService::ProcessTemplateURLChange(
1229 const tracked_objects::Location& from_here,
1230 const TemplateURL* turl,
1231 syncer::SyncChange::SyncChangeType type) {
1232 DCHECK_NE(type, syncer::SyncChange::ACTION_INVALID);
1233 DCHECK(turl);
1234
1235 if (!models_associated_)
1236 return; // Not syncing.
1237
1238 if (processing_syncer_changes_)
1239 return; // These are changes originating from us. Ignore.
1240
1241 // Avoid syncing keywords managed by policy.
1242 if (turl->created_by_policy())
1243 return;
1244
1245 // Avoid syncing extension-controlled search engines.
1246 if (turl->GetType() == TemplateURL::NORMAL_CONTROLLED_BY_EXTENSION)
1247 return;
1248
1249 syncer::SyncChangeList changes;
1250
1251 syncer::SyncData sync_data = CreateSyncDataFromTemplateURL(*turl);
1252 changes.push_back(syncer::SyncChange(from_here,
1253 type,
1254 sync_data));
1255
1256 sync_processor_->ProcessSyncChanges(FROM_HERE, changes);
1257 }
1258
1259 // static
CreateSyncDataFromTemplateURL(const TemplateURL & turl)1260 syncer::SyncData TemplateURLService::CreateSyncDataFromTemplateURL(
1261 const TemplateURL& turl) {
1262 sync_pb::EntitySpecifics specifics;
1263 sync_pb::SearchEngineSpecifics* se_specifics =
1264 specifics.mutable_search_engine();
1265 se_specifics->set_short_name(base::UTF16ToUTF8(turl.short_name()));
1266 se_specifics->set_keyword(base::UTF16ToUTF8(turl.keyword()));
1267 se_specifics->set_favicon_url(turl.favicon_url().spec());
1268 se_specifics->set_url(turl.url());
1269 se_specifics->set_safe_for_autoreplace(turl.safe_for_autoreplace());
1270 se_specifics->set_originating_url(turl.originating_url().spec());
1271 se_specifics->set_date_created(turl.date_created().ToInternalValue());
1272 se_specifics->set_input_encodings(JoinString(turl.input_encodings(), ';'));
1273 se_specifics->set_show_in_default_list(turl.show_in_default_list());
1274 se_specifics->set_suggestions_url(turl.suggestions_url());
1275 se_specifics->set_prepopulate_id(turl.prepopulate_id());
1276 se_specifics->set_instant_url(turl.instant_url());
1277 if (!turl.image_url().empty())
1278 se_specifics->set_image_url(turl.image_url());
1279 se_specifics->set_new_tab_url(turl.new_tab_url());
1280 if (!turl.search_url_post_params().empty())
1281 se_specifics->set_search_url_post_params(turl.search_url_post_params());
1282 if (!turl.suggestions_url_post_params().empty()) {
1283 se_specifics->set_suggestions_url_post_params(
1284 turl.suggestions_url_post_params());
1285 }
1286 if (!turl.instant_url_post_params().empty())
1287 se_specifics->set_instant_url_post_params(turl.instant_url_post_params());
1288 if (!turl.image_url_post_params().empty())
1289 se_specifics->set_image_url_post_params(turl.image_url_post_params());
1290 se_specifics->set_last_modified(turl.last_modified().ToInternalValue());
1291 se_specifics->set_sync_guid(turl.sync_guid());
1292 for (size_t i = 0; i < turl.alternate_urls().size(); ++i)
1293 se_specifics->add_alternate_urls(turl.alternate_urls()[i]);
1294 se_specifics->set_search_terms_replacement_key(
1295 turl.search_terms_replacement_key());
1296
1297 return syncer::SyncData::CreateLocalData(se_specifics->sync_guid(),
1298 se_specifics->keyword(),
1299 specifics);
1300 }
1301
1302 // static
CreateTemplateURLFromTemplateURLAndSyncData(PrefService * prefs,const SearchTermsData & search_terms_data,TemplateURL * existing_turl,const syncer::SyncData & sync_data,syncer::SyncChangeList * change_list)1303 TemplateURL* TemplateURLService::CreateTemplateURLFromTemplateURLAndSyncData(
1304 PrefService* prefs,
1305 const SearchTermsData& search_terms_data,
1306 TemplateURL* existing_turl,
1307 const syncer::SyncData& sync_data,
1308 syncer::SyncChangeList* change_list) {
1309 DCHECK(change_list);
1310
1311 sync_pb::SearchEngineSpecifics specifics =
1312 sync_data.GetSpecifics().search_engine();
1313
1314 // Past bugs might have caused either of these fields to be empty. Just
1315 // delete this data off the server.
1316 if (specifics.url().empty() || specifics.sync_guid().empty()) {
1317 change_list->push_back(
1318 syncer::SyncChange(FROM_HERE,
1319 syncer::SyncChange::ACTION_DELETE,
1320 sync_data));
1321 UMA_HISTOGRAM_ENUMERATION(kDeleteSyncedEngineHistogramName,
1322 DELETE_ENGINE_EMPTY_FIELD, DELETE_ENGINE_MAX);
1323 return NULL;
1324 }
1325
1326 TemplateURLData data(existing_turl ?
1327 existing_turl->data() : TemplateURLData());
1328 data.short_name = base::UTF8ToUTF16(specifics.short_name());
1329 data.originating_url = GURL(specifics.originating_url());
1330 base::string16 keyword(base::UTF8ToUTF16(specifics.keyword()));
1331 // NOTE: Once this code has shipped in a couple of stable releases, we can
1332 // probably remove the migration portion, comment out the
1333 // "autogenerate_keyword" field entirely in the .proto file, and fold the
1334 // empty keyword case into the "delete data" block above.
1335 bool reset_keyword =
1336 specifics.autogenerate_keyword() || specifics.keyword().empty();
1337 if (reset_keyword)
1338 keyword = base::ASCIIToUTF16("dummy"); // Will be replaced below.
1339 DCHECK(!keyword.empty());
1340 data.SetKeyword(keyword);
1341 data.SetURL(specifics.url());
1342 data.suggestions_url = specifics.suggestions_url();
1343 data.instant_url = specifics.instant_url();
1344 data.image_url = specifics.image_url();
1345 data.new_tab_url = specifics.new_tab_url();
1346 data.search_url_post_params = specifics.search_url_post_params();
1347 data.suggestions_url_post_params = specifics.suggestions_url_post_params();
1348 data.instant_url_post_params = specifics.instant_url_post_params();
1349 data.image_url_post_params = specifics.image_url_post_params();
1350 data.favicon_url = GURL(specifics.favicon_url());
1351 data.show_in_default_list = specifics.show_in_default_list();
1352 data.safe_for_autoreplace = specifics.safe_for_autoreplace();
1353 base::SplitString(specifics.input_encodings(), ';', &data.input_encodings);
1354 // If the server data has duplicate encodings, we'll want to push an update
1355 // below to correct it. Note that we also fix this in
1356 // GetSearchProvidersUsingKeywordResult(), since otherwise we'd never correct
1357 // local problems for clients which have disabled search engine sync.
1358 bool deduped = DeDupeEncodings(&data.input_encodings);
1359 data.date_created = base::Time::FromInternalValue(specifics.date_created());
1360 data.last_modified = base::Time::FromInternalValue(specifics.last_modified());
1361 data.prepopulate_id = specifics.prepopulate_id();
1362 data.sync_guid = specifics.sync_guid();
1363 data.alternate_urls.clear();
1364 for (int i = 0; i < specifics.alternate_urls_size(); ++i)
1365 data.alternate_urls.push_back(specifics.alternate_urls(i));
1366 data.search_terms_replacement_key = specifics.search_terms_replacement_key();
1367
1368 TemplateURL* turl = new TemplateURL(data);
1369 // If this TemplateURL matches a built-in prepopulated template URL, it's
1370 // possible that sync is trying to modify fields that should not be touched.
1371 // Revert these fields to the built-in values.
1372 UpdateTemplateURLIfPrepopulated(turl, prefs);
1373 DCHECK_NE(TemplateURL::NORMAL_CONTROLLED_BY_EXTENSION, turl->GetType());
1374 if (reset_keyword || deduped) {
1375 if (reset_keyword)
1376 turl->ResetKeywordIfNecessary(search_terms_data, true);
1377 syncer::SyncData sync_data = CreateSyncDataFromTemplateURL(*turl);
1378 change_list->push_back(syncer::SyncChange(FROM_HERE,
1379 syncer::SyncChange::ACTION_UPDATE,
1380 sync_data));
1381 } else if (turl->IsGoogleSearchURLWithReplaceableKeyword(search_terms_data)) {
1382 if (!existing_turl) {
1383 // We're adding a new TemplateURL that uses the Google base URL, so set
1384 // its keyword appropriately for the local environment.
1385 turl->ResetKeywordIfNecessary(search_terms_data, false);
1386 } else if (existing_turl->IsGoogleSearchURLWithReplaceableKeyword(
1387 search_terms_data)) {
1388 // Ignore keyword changes triggered by the Google base URL changing on
1389 // another client. If the base URL changes in this client as well, we'll
1390 // pick that up separately at the appropriate time. Otherwise, changing
1391 // the keyword here could result in having the wrong keyword for the local
1392 // environment.
1393 turl->data_.SetKeyword(existing_turl->keyword());
1394 }
1395 }
1396
1397 return turl;
1398 }
1399
1400 // static
CreateGUIDToSyncDataMap(const syncer::SyncDataList & sync_data)1401 SyncDataMap TemplateURLService::CreateGUIDToSyncDataMap(
1402 const syncer::SyncDataList& sync_data) {
1403 SyncDataMap data_map;
1404 for (syncer::SyncDataList::const_iterator i(sync_data.begin());
1405 i != sync_data.end();
1406 ++i)
1407 data_map[i->GetSpecifics().search_engine().sync_guid()] = *i;
1408 return data_map;
1409 }
1410
Init(const Initializer * initializers,int num_initializers)1411 void TemplateURLService::Init(const Initializer* initializers,
1412 int num_initializers) {
1413 if (client_)
1414 client_->SetOwner(this);
1415
1416 // GoogleURLTracker is not created in tests.
1417 if (google_url_tracker_) {
1418 google_url_updated_subscription_ =
1419 google_url_tracker_->RegisterCallback(base::Bind(
1420 &TemplateURLService::GoogleBaseURLChanged, base::Unretained(this)));
1421 }
1422
1423 if (prefs_) {
1424 pref_change_registrar_.Init(prefs_);
1425 pref_change_registrar_.Add(
1426 prefs::kSyncedDefaultSearchProviderGUID,
1427 base::Bind(
1428 &TemplateURLService::OnSyncedDefaultSearchProviderGUIDChanged,
1429 base::Unretained(this)));
1430 }
1431
1432 DefaultSearchManager::Source source = DefaultSearchManager::FROM_USER;
1433 TemplateURLData* dse =
1434 default_search_manager_.GetDefaultSearchEngine(&source);
1435 ApplyDefaultSearchChange(dse, source);
1436
1437 if (num_initializers > 0) {
1438 // This path is only hit by test code and is used to simulate a loaded
1439 // TemplateURLService.
1440 ChangeToLoadedState();
1441
1442 // Add specific initializers, if any.
1443 KeywordWebDataService::BatchModeScoper scoper(web_data_service_.get());
1444 for (int i(0); i < num_initializers; ++i) {
1445 DCHECK(initializers[i].keyword);
1446 DCHECK(initializers[i].url);
1447 DCHECK(initializers[i].content);
1448
1449 // TemplateURLService ends up owning the TemplateURL, don't try and free
1450 // it.
1451 TemplateURLData data;
1452 data.short_name = base::UTF8ToUTF16(initializers[i].content);
1453 data.SetKeyword(base::UTF8ToUTF16(initializers[i].keyword));
1454 data.SetURL(initializers[i].url);
1455 TemplateURL* template_url = new TemplateURL(data);
1456 AddNoNotify(template_url, true);
1457
1458 // Set the first provided identifier to be the default.
1459 if (i == 0)
1460 default_search_manager_.SetUserSelectedDefaultSearchEngine(data);
1461 }
1462 }
1463
1464 // Request a server check for the correct Google URL if Google is the
1465 // default search engine.
1466 RequestGoogleURLTrackerServerCheckIfNecessary();
1467 }
1468
RemoveFromMaps(TemplateURL * template_url)1469 void TemplateURLService::RemoveFromMaps(TemplateURL* template_url) {
1470 const base::string16& keyword = template_url->keyword();
1471 DCHECK_NE(0U, keyword_to_template_map_.count(keyword));
1472 if (keyword_to_template_map_[keyword] == template_url) {
1473 // We need to check whether the keyword can now be provided by another
1474 // TemplateURL. See the comments in AddToMaps() for more information on
1475 // extension keywords and how they can coexist with non-extension keywords.
1476 // In the case of more than one extension, we use the most recently
1477 // installed (which will be the most recently added, which will have the
1478 // highest ID).
1479 TemplateURL* best_fallback = NULL;
1480 for (TemplateURLVector::const_iterator i(template_urls_.begin());
1481 i != template_urls_.end(); ++i) {
1482 TemplateURL* turl = *i;
1483 // This next statement relies on the fact that there can only be one
1484 // non-Omnibox API TemplateURL with a given keyword.
1485 if ((turl != template_url) && (turl->keyword() == keyword) &&
1486 (!best_fallback ||
1487 (best_fallback->GetType() != TemplateURL::OMNIBOX_API_EXTENSION) ||
1488 ((turl->GetType() == TemplateURL::OMNIBOX_API_EXTENSION) &&
1489 (turl->id() > best_fallback->id()))))
1490 best_fallback = turl;
1491 }
1492 if (best_fallback)
1493 keyword_to_template_map_[keyword] = best_fallback;
1494 else
1495 keyword_to_template_map_.erase(keyword);
1496 }
1497
1498 if (!template_url->sync_guid().empty())
1499 guid_to_template_map_.erase(template_url->sync_guid());
1500 // |provider_map_| is only initialized after loading has completed.
1501 if (loaded_) {
1502 provider_map_->Remove(template_url);
1503 }
1504 }
1505
AddToMaps(TemplateURL * template_url)1506 void TemplateURLService::AddToMaps(TemplateURL* template_url) {
1507 bool template_url_is_omnibox_api =
1508 template_url->GetType() == TemplateURL::OMNIBOX_API_EXTENSION;
1509 const base::string16& keyword = template_url->keyword();
1510 KeywordToTemplateMap::const_iterator i =
1511 keyword_to_template_map_.find(keyword);
1512 if (i == keyword_to_template_map_.end()) {
1513 keyword_to_template_map_[keyword] = template_url;
1514 } else {
1515 const TemplateURL* existing_url = i->second;
1516 // We should only have overlapping keywords when at least one comes from
1517 // an extension. In that case, the ranking order is:
1518 // Manually-modified keywords > extension keywords > replaceable keywords
1519 // When there are multiple extensions, the last-added wins.
1520 bool existing_url_is_omnibox_api =
1521 existing_url->GetType() == TemplateURL::OMNIBOX_API_EXTENSION;
1522 DCHECK(existing_url_is_omnibox_api || template_url_is_omnibox_api);
1523 if (existing_url_is_omnibox_api ?
1524 !CanReplace(template_url) : CanReplace(existing_url))
1525 keyword_to_template_map_[keyword] = template_url;
1526 }
1527
1528 if (!template_url->sync_guid().empty())
1529 guid_to_template_map_[template_url->sync_guid()] = template_url;
1530 // |provider_map_| is only initialized after loading has completed.
1531 if (loaded_)
1532 provider_map_->Add(template_url, search_terms_data());
1533 }
1534
1535 // Helper for partition() call in next function.
HasValidID(TemplateURL * t_url)1536 bool HasValidID(TemplateURL* t_url) {
1537 return t_url->id() != kInvalidTemplateURLID;
1538 }
1539
SetTemplateURLs(TemplateURLVector * urls)1540 void TemplateURLService::SetTemplateURLs(TemplateURLVector* urls) {
1541 // Partition the URLs first, instead of implementing the loops below by simply
1542 // scanning the input twice. While it's not supposed to happen normally, it's
1543 // possible for corrupt databases to return multiple entries with the same
1544 // keyword. In this case, the first loop may delete the first entry when
1545 // adding the second. If this happens, the second loop must not attempt to
1546 // access the deleted entry. Partitioning ensures this constraint.
1547 TemplateURLVector::iterator first_invalid(
1548 std::partition(urls->begin(), urls->end(), HasValidID));
1549
1550 // First, add the items that already have id's, so that the next_id_ gets
1551 // properly set.
1552 for (TemplateURLVector::const_iterator i = urls->begin(); i != first_invalid;
1553 ++i) {
1554 next_id_ = std::max(next_id_, (*i)->id());
1555 AddNoNotify(*i, false);
1556 }
1557
1558 // Next add the new items that don't have id's.
1559 for (TemplateURLVector::const_iterator i = first_invalid; i != urls->end();
1560 ++i)
1561 AddNoNotify(*i, true);
1562
1563 // Clear the input vector to reduce the chance callers will try to use a
1564 // (possibly deleted) entry.
1565 urls->clear();
1566 }
1567
ChangeToLoadedState()1568 void TemplateURLService::ChangeToLoadedState() {
1569 DCHECK(!loaded_);
1570
1571 provider_map_->Init(template_urls_, search_terms_data());
1572 loaded_ = true;
1573
1574 // This will cause a call to NotifyObservers().
1575 ApplyDefaultSearchChangeNoMetrics(
1576 initial_default_search_provider_ ?
1577 &initial_default_search_provider_->data() : NULL,
1578 default_search_provider_source_);
1579 initial_default_search_provider_.reset();
1580 on_loaded_callbacks_.Notify();
1581 }
1582
CanReplaceKeywordForHost(const std::string & host,TemplateURL ** to_replace)1583 bool TemplateURLService::CanReplaceKeywordForHost(
1584 const std::string& host,
1585 TemplateURL** to_replace) {
1586 DCHECK(!to_replace || !*to_replace);
1587 const TemplateURLSet* urls = provider_map_->GetURLsForHost(host);
1588 if (!urls)
1589 return true;
1590 for (TemplateURLSet::const_iterator i(urls->begin()); i != urls->end(); ++i) {
1591 if (CanReplace(*i)) {
1592 if (to_replace)
1593 *to_replace = *i;
1594 return true;
1595 }
1596 }
1597 return false;
1598 }
1599
CanReplace(const TemplateURL * t_url)1600 bool TemplateURLService::CanReplace(const TemplateURL* t_url) {
1601 return (t_url != default_search_provider_ && !t_url->show_in_default_list() &&
1602 t_url->safe_for_autoreplace());
1603 }
1604
FindNonExtensionTemplateURLForKeyword(const base::string16 & keyword)1605 TemplateURL* TemplateURLService::FindNonExtensionTemplateURLForKeyword(
1606 const base::string16& keyword) {
1607 TemplateURL* keyword_turl = GetTemplateURLForKeyword(keyword);
1608 if (!keyword_turl || (keyword_turl->GetType() == TemplateURL::NORMAL))
1609 return keyword_turl;
1610 // The extension keyword in the model may be hiding a replaceable
1611 // non-extension keyword. Look for it.
1612 for (TemplateURLVector::const_iterator i(template_urls_.begin());
1613 i != template_urls_.end(); ++i) {
1614 if (((*i)->GetType() == TemplateURL::NORMAL) &&
1615 ((*i)->keyword() == keyword))
1616 return *i;
1617 }
1618 return NULL;
1619 }
1620
UpdateNoNotify(TemplateURL * existing_turl,const TemplateURL & new_values)1621 bool TemplateURLService::UpdateNoNotify(TemplateURL* existing_turl,
1622 const TemplateURL& new_values) {
1623 DCHECK(existing_turl);
1624 if (std::find(template_urls_.begin(), template_urls_.end(), existing_turl) ==
1625 template_urls_.end())
1626 return false;
1627
1628 base::string16 old_keyword(existing_turl->keyword());
1629 keyword_to_template_map_.erase(old_keyword);
1630 if (!existing_turl->sync_guid().empty())
1631 guid_to_template_map_.erase(existing_turl->sync_guid());
1632
1633 // |provider_map_| is only initialized after loading has completed.
1634 if (loaded_)
1635 provider_map_->Remove(existing_turl);
1636
1637 TemplateURLID previous_id = existing_turl->id();
1638 existing_turl->CopyFrom(new_values);
1639 existing_turl->data_.id = previous_id;
1640
1641 if (loaded_) {
1642 provider_map_->Add(existing_turl, search_terms_data());
1643 }
1644
1645 const base::string16& keyword = existing_turl->keyword();
1646 KeywordToTemplateMap::const_iterator i =
1647 keyword_to_template_map_.find(keyword);
1648 if (i == keyword_to_template_map_.end()) {
1649 keyword_to_template_map_[keyword] = existing_turl;
1650 } else {
1651 // We can theoretically reach here in two cases:
1652 // * There is an existing extension keyword and sync brings in a rename of
1653 // a non-extension keyword to match. In this case we just need to pick
1654 // which keyword has priority to update the keyword map.
1655 // * Autogeneration of the keyword for a Google default search provider
1656 // at load time causes it to conflict with an existing keyword. In this
1657 // case we delete the existing keyword if it's replaceable, or else undo
1658 // the change in keyword for |existing_turl|.
1659 TemplateURL* existing_keyword_turl = i->second;
1660 if (existing_keyword_turl->GetType() != TemplateURL::NORMAL) {
1661 if (!CanReplace(existing_turl))
1662 keyword_to_template_map_[keyword] = existing_turl;
1663 } else {
1664 if (CanReplace(existing_keyword_turl)) {
1665 RemoveNoNotify(existing_keyword_turl);
1666 } else {
1667 existing_turl->data_.SetKeyword(old_keyword);
1668 keyword_to_template_map_[old_keyword] = existing_turl;
1669 }
1670 }
1671 }
1672 if (!existing_turl->sync_guid().empty())
1673 guid_to_template_map_[existing_turl->sync_guid()] = existing_turl;
1674
1675 if (web_data_service_.get())
1676 web_data_service_->UpdateKeyword(existing_turl->data());
1677
1678 // Inform sync of the update.
1679 ProcessTemplateURLChange(
1680 FROM_HERE, existing_turl, syncer::SyncChange::ACTION_UPDATE);
1681
1682 if (default_search_provider_ == existing_turl &&
1683 default_search_provider_source_ == DefaultSearchManager::FROM_USER) {
1684 default_search_manager_.SetUserSelectedDefaultSearchEngine(
1685 default_search_provider_->data());
1686 }
1687 return true;
1688 }
1689
1690 // static
UpdateTemplateURLIfPrepopulated(TemplateURL * template_url,PrefService * prefs)1691 void TemplateURLService::UpdateTemplateURLIfPrepopulated(
1692 TemplateURL* template_url,
1693 PrefService* prefs) {
1694 int prepopulate_id = template_url->prepopulate_id();
1695 if (template_url->prepopulate_id() == 0)
1696 return;
1697
1698 size_t default_search_index;
1699 ScopedVector<TemplateURLData> prepopulated_urls =
1700 TemplateURLPrepopulateData::GetPrepopulatedEngines(
1701 prefs, &default_search_index);
1702
1703 for (size_t i = 0; i < prepopulated_urls.size(); ++i) {
1704 if (prepopulated_urls[i]->prepopulate_id == prepopulate_id) {
1705 MergeIntoPrepopulatedEngineData(template_url, prepopulated_urls[i]);
1706 template_url->CopyFrom(TemplateURL(*prepopulated_urls[i]));
1707 }
1708 }
1709 }
1710
MaybeUpdateDSEAfterSync(TemplateURL * synced_turl)1711 void TemplateURLService::MaybeUpdateDSEAfterSync(TemplateURL* synced_turl) {
1712 if (prefs_ &&
1713 (synced_turl->sync_guid() ==
1714 prefs_->GetString(prefs::kSyncedDefaultSearchProviderGUID))) {
1715 default_search_manager_.SetUserSelectedDefaultSearchEngine(
1716 synced_turl->data());
1717 }
1718 }
1719
UpdateKeywordSearchTermsForURL(const URLVisitedDetails & details)1720 void TemplateURLService::UpdateKeywordSearchTermsForURL(
1721 const URLVisitedDetails& details) {
1722 if (!details.url.is_valid())
1723 return;
1724
1725 const TemplateURLSet* urls_for_host =
1726 provider_map_->GetURLsForHost(details.url.host());
1727 if (!urls_for_host)
1728 return;
1729
1730 for (TemplateURLSet::const_iterator i = urls_for_host->begin();
1731 i != urls_for_host->end(); ++i) {
1732 base::string16 search_terms;
1733 if ((*i)->ExtractSearchTermsFromURL(details.url, search_terms_data(),
1734 &search_terms) &&
1735 !search_terms.empty()) {
1736 if (details.is_keyword_transition) {
1737 // The visit is the result of the user entering a keyword, generate a
1738 // KEYWORD_GENERATED visit for the KEYWORD so that the keyword typed
1739 // count is boosted.
1740 AddTabToSearchVisit(**i);
1741 }
1742 if (client_) {
1743 client_->SetKeywordSearchTermsForURL(
1744 details.url, (*i)->id(), search_terms);
1745 }
1746 }
1747 }
1748 }
1749
AddTabToSearchVisit(const TemplateURL & t_url)1750 void TemplateURLService::AddTabToSearchVisit(const TemplateURL& t_url) {
1751 // Only add visits for entries the user hasn't modified. If the user modified
1752 // the entry the keyword may no longer correspond to the host name. It may be
1753 // possible to do something more sophisticated here, but it's so rare as to
1754 // not be worth it.
1755 if (!t_url.safe_for_autoreplace())
1756 return;
1757
1758 if (!client_)
1759 return;
1760
1761 GURL url(
1762 url_fixer::FixupURL(base::UTF16ToUTF8(t_url.keyword()), std::string()));
1763 if (!url.is_valid())
1764 return;
1765
1766 // Synthesize a visit for the keyword. This ensures the url for the keyword is
1767 // autocompleted even if the user doesn't type the url in directly.
1768 client_->AddKeywordGeneratedVisit(url);
1769 }
1770
RequestGoogleURLTrackerServerCheckIfNecessary()1771 void TemplateURLService::RequestGoogleURLTrackerServerCheckIfNecessary() {
1772 if (default_search_provider_ &&
1773 default_search_provider_->HasGoogleBaseURLs(search_terms_data()) &&
1774 google_url_tracker_)
1775 google_url_tracker_->RequestServerCheck(false);
1776 }
1777
GoogleBaseURLChanged()1778 void TemplateURLService::GoogleBaseURLChanged() {
1779 if (!loaded_)
1780 return;
1781
1782 KeywordWebDataService::BatchModeScoper scoper(web_data_service_.get());
1783 bool something_changed = false;
1784 for (TemplateURLVector::iterator i(template_urls_.begin());
1785 i != template_urls_.end(); ++i) {
1786 TemplateURL* t_url = *i;
1787 if (t_url->HasGoogleBaseURLs(search_terms_data())) {
1788 TemplateURL updated_turl(t_url->data());
1789 updated_turl.ResetKeywordIfNecessary(search_terms_data(), false);
1790 KeywordToTemplateMap::const_iterator existing_entry =
1791 keyword_to_template_map_.find(updated_turl.keyword());
1792 if ((existing_entry != keyword_to_template_map_.end()) &&
1793 (existing_entry->second != t_url)) {
1794 // The new autogenerated keyword conflicts with another TemplateURL.
1795 // Overwrite it if it's replaceable; otherwise, leave |t_url| using its
1796 // current keyword. (This will not prevent |t_url| from auto-updating
1797 // the keyword in the future if the conflicting TemplateURL disappears.)
1798 // Note that we must still update |t_url| in this case, or the
1799 // |provider_map_| will not be updated correctly.
1800 if (CanReplace(existing_entry->second))
1801 RemoveNoNotify(existing_entry->second);
1802 else
1803 updated_turl.data_.SetKeyword(t_url->keyword());
1804 }
1805 something_changed = true;
1806 // This will send the keyword change to sync. Note that other clients
1807 // need to reset the keyword to an appropriate local value when this
1808 // change arrives; see CreateTemplateURLFromTemplateURLAndSyncData().
1809 UpdateNoNotify(t_url, updated_turl);
1810 }
1811 }
1812 if (something_changed)
1813 NotifyObservers();
1814 }
1815
OnDefaultSearchChange(const TemplateURLData * data,DefaultSearchManager::Source source)1816 void TemplateURLService::OnDefaultSearchChange(
1817 const TemplateURLData* data,
1818 DefaultSearchManager::Source source) {
1819 if (prefs_ && (source == DefaultSearchManager::FROM_USER) &&
1820 ((source != default_search_provider_source_) ||
1821 !IdenticalSyncGUIDs(data, GetDefaultSearchProvider()))) {
1822 prefs_->SetString(prefs::kSyncedDefaultSearchProviderGUID, data->sync_guid);
1823 }
1824 ApplyDefaultSearchChange(data, source);
1825 }
1826
ApplyDefaultSearchChange(const TemplateURLData * data,DefaultSearchManager::Source source)1827 void TemplateURLService::ApplyDefaultSearchChange(
1828 const TemplateURLData* data,
1829 DefaultSearchManager::Source source) {
1830 if (!ApplyDefaultSearchChangeNoMetrics(data, source))
1831 return;
1832
1833 UMA_HISTOGRAM_ENUMERATION(
1834 "Search.DefaultSearchChangeOrigin", dsp_change_origin_, DSP_CHANGE_MAX);
1835
1836 if (GetDefaultSearchProvider() &&
1837 GetDefaultSearchProvider()->HasGoogleBaseURLs(search_terms_data()) &&
1838 !dsp_change_callback_.is_null())
1839 dsp_change_callback_.Run();
1840 }
1841
ApplyDefaultSearchChangeNoMetrics(const TemplateURLData * data,DefaultSearchManager::Source source)1842 bool TemplateURLService::ApplyDefaultSearchChangeNoMetrics(
1843 const TemplateURLData* data,
1844 DefaultSearchManager::Source source) {
1845 if (!loaded_) {
1846 // Set |initial_default_search_provider_| from the preferences. This is
1847 // mainly so we can hold ownership until we get to the point where the list
1848 // of keywords from Web Data is the owner of everything including the
1849 // default.
1850 bool changed = TemplateURL::MatchesData(
1851 initial_default_search_provider_.get(), data, search_terms_data());
1852 initial_default_search_provider_.reset(
1853 data ? new TemplateURL(*data) : NULL);
1854 default_search_provider_source_ = source;
1855 return changed;
1856 }
1857
1858 // Prevent recursion if we update the value stored in default_search_manager_.
1859 // Note that we exclude the case of data == NULL because that could cause a
1860 // false positive for recursion when the initial_default_search_provider_ is
1861 // NULL due to policy. We'll never actually get recursion with data == NULL.
1862 if (source == default_search_provider_source_ && data != NULL &&
1863 TemplateURL::MatchesData(default_search_provider_, data,
1864 search_terms_data()))
1865 return false;
1866
1867 // This may be deleted later. Use exclusively for pointer comparison to detect
1868 // a change.
1869 TemplateURL* previous_default_search_engine = default_search_provider_;
1870
1871 KeywordWebDataService::BatchModeScoper scoper(web_data_service_.get());
1872 if (default_search_provider_source_ == DefaultSearchManager::FROM_POLICY ||
1873 source == DefaultSearchManager::FROM_POLICY) {
1874 // We do this both to remove any no-longer-applicable policy-defined DSE as
1875 // well as to add the new one, if appropriate.
1876 UpdateProvidersCreatedByPolicy(
1877 &template_urls_,
1878 source == DefaultSearchManager::FROM_POLICY ? data : NULL);
1879 }
1880
1881 if (!data) {
1882 default_search_provider_ = NULL;
1883 } else if (source == DefaultSearchManager::FROM_EXTENSION) {
1884 default_search_provider_ = FindMatchingExtensionTemplateURL(
1885 *data, TemplateURL::NORMAL_CONTROLLED_BY_EXTENSION);
1886 } else if (source == DefaultSearchManager::FROM_FALLBACK) {
1887 default_search_provider_ =
1888 FindPrepopulatedTemplateURL(data->prepopulate_id);
1889 if (default_search_provider_) {
1890 TemplateURLData update_data(*data);
1891 update_data.sync_guid = default_search_provider_->sync_guid();
1892 if (!default_search_provider_->safe_for_autoreplace()) {
1893 update_data.safe_for_autoreplace = false;
1894 update_data.SetKeyword(default_search_provider_->keyword());
1895 update_data.short_name = default_search_provider_->short_name();
1896 }
1897 UpdateNoNotify(default_search_provider_, TemplateURL(update_data));
1898 } else {
1899 // Normally the prepopulated fallback should be present in
1900 // |template_urls_|, but in a few cases it might not be:
1901 // (1) Tests that initialize the TemplateURLService in peculiar ways.
1902 // (2) If the user deleted the pre-populated default and we subsequently
1903 // lost their user-selected value.
1904 TemplateURL* new_dse = new TemplateURL(*data);
1905 if (AddNoNotify(new_dse, true))
1906 default_search_provider_ = new_dse;
1907 }
1908 } else if (source == DefaultSearchManager::FROM_USER) {
1909 default_search_provider_ = GetTemplateURLForGUID(data->sync_guid);
1910 if (!default_search_provider_ && data->prepopulate_id) {
1911 default_search_provider_ =
1912 FindPrepopulatedTemplateURL(data->prepopulate_id);
1913 }
1914 TemplateURLData new_data(*data);
1915 new_data.show_in_default_list = true;
1916 if (default_search_provider_) {
1917 UpdateNoNotify(default_search_provider_, TemplateURL(new_data));
1918 } else {
1919 new_data.id = kInvalidTemplateURLID;
1920 TemplateURL* new_dse = new TemplateURL(new_data);
1921 if (AddNoNotify(new_dse, true))
1922 default_search_provider_ = new_dse;
1923 }
1924 if (default_search_provider_ && prefs_) {
1925 prefs_->SetString(prefs::kSyncedDefaultSearchProviderGUID,
1926 default_search_provider_->sync_guid());
1927 }
1928
1929 }
1930
1931 default_search_provider_source_ = source;
1932
1933 bool changed = default_search_provider_ != previous_default_search_engine;
1934 if (changed)
1935 RequestGoogleURLTrackerServerCheckIfNecessary();
1936
1937 NotifyObservers();
1938
1939 return changed;
1940 }
1941
AddNoNotify(TemplateURL * template_url,bool newly_adding)1942 bool TemplateURLService::AddNoNotify(TemplateURL* template_url,
1943 bool newly_adding) {
1944 DCHECK(template_url);
1945
1946 if (newly_adding) {
1947 DCHECK_EQ(kInvalidTemplateURLID, template_url->id());
1948 DCHECK(std::find(template_urls_.begin(), template_urls_.end(),
1949 template_url) == template_urls_.end());
1950 template_url->data_.id = ++next_id_;
1951 }
1952
1953 template_url->ResetKeywordIfNecessary(search_terms_data(), false);
1954 // Check whether |template_url|'s keyword conflicts with any already in the
1955 // model.
1956 TemplateURL* existing_keyword_turl =
1957 GetTemplateURLForKeyword(template_url->keyword());
1958
1959 // Check whether |template_url|'s keyword conflicts with any already in the
1960 // model. Note that we can reach here during the loading phase while
1961 // processing the template URLs from the web data service. In this case,
1962 // GetTemplateURLForKeyword() will look not only at what's already in the
1963 // model, but at the |initial_default_search_provider_|. Since this engine
1964 // will presumably also be present in the web data, we need to double-check
1965 // that any "pre-existing" entries we find are actually coming from
1966 // |template_urls_|, lest we detect a "conflict" between the
1967 // |initial_default_search_provider_| and the web data version of itself.
1968 if (existing_keyword_turl &&
1969 (std::find(template_urls_.begin(), template_urls_.end(),
1970 existing_keyword_turl) != template_urls_.end())) {
1971 DCHECK_NE(existing_keyword_turl, template_url);
1972 // Only replace one of the TemplateURLs if they are either both extensions,
1973 // or both not extensions.
1974 bool are_same_type = existing_keyword_turl->GetType() ==
1975 template_url->GetType();
1976 if (CanReplace(existing_keyword_turl) && are_same_type) {
1977 RemoveNoNotify(existing_keyword_turl);
1978 } else if (CanReplace(template_url) && are_same_type) {
1979 delete template_url;
1980 return false;
1981 } else {
1982 base::string16 new_keyword =
1983 UniquifyKeyword(*existing_keyword_turl, false);
1984 ResetTemplateURLNoNotify(existing_keyword_turl,
1985 existing_keyword_turl->short_name(), new_keyword,
1986 existing_keyword_turl->url());
1987 }
1988 }
1989 template_urls_.push_back(template_url);
1990 AddToMaps(template_url);
1991
1992 if (newly_adding &&
1993 (template_url->GetType() !=
1994 TemplateURL::NORMAL_CONTROLLED_BY_EXTENSION)) {
1995 if (web_data_service_.get())
1996 web_data_service_->AddKeyword(template_url->data());
1997
1998 // Inform sync of the addition. Note that this will assign a GUID to
1999 // template_url and add it to the guid_to_template_map_.
2000 ProcessTemplateURLChange(FROM_HERE,
2001 template_url,
2002 syncer::SyncChange::ACTION_ADD);
2003 }
2004
2005 return true;
2006 }
2007
RemoveNoNotify(TemplateURL * template_url)2008 void TemplateURLService::RemoveNoNotify(TemplateURL* template_url) {
2009 DCHECK(template_url != default_search_provider_);
2010
2011 TemplateURLVector::iterator i =
2012 std::find(template_urls_.begin(), template_urls_.end(), template_url);
2013 if (i == template_urls_.end())
2014 return;
2015
2016 RemoveFromMaps(template_url);
2017
2018 // Remove it from the vector containing all TemplateURLs.
2019 template_urls_.erase(i);
2020
2021 if (template_url->GetType() != TemplateURL::NORMAL_CONTROLLED_BY_EXTENSION) {
2022 if (web_data_service_.get())
2023 web_data_service_->RemoveKeyword(template_url->id());
2024
2025 // Inform sync of the deletion.
2026 ProcessTemplateURLChange(FROM_HERE,
2027 template_url,
2028 syncer::SyncChange::ACTION_DELETE);
2029
2030 UMA_HISTOGRAM_ENUMERATION(kDeleteSyncedEngineHistogramName,
2031 DELETE_ENGINE_USER_ACTION, DELETE_ENGINE_MAX);
2032 }
2033
2034 if (loaded_ && client_)
2035 client_->DeleteAllSearchTermsForKeyword(template_url->id());
2036
2037 // We own the TemplateURL and need to delete it.
2038 delete template_url;
2039 }
2040
ResetTemplateURLNoNotify(TemplateURL * url,const base::string16 & title,const base::string16 & keyword,const std::string & search_url)2041 bool TemplateURLService::ResetTemplateURLNoNotify(
2042 TemplateURL* url,
2043 const base::string16& title,
2044 const base::string16& keyword,
2045 const std::string& search_url) {
2046 DCHECK(!keyword.empty());
2047 DCHECK(!search_url.empty());
2048 TemplateURLData data(url->data());
2049 data.short_name = title;
2050 data.SetKeyword(keyword);
2051 if (search_url != data.url()) {
2052 data.SetURL(search_url);
2053 // The urls have changed, reset the favicon url.
2054 data.favicon_url = GURL();
2055 }
2056 data.safe_for_autoreplace = false;
2057 data.last_modified = time_provider_();
2058 return UpdateNoNotify(url, TemplateURL(data));
2059 }
2060
NotifyObservers()2061 void TemplateURLService::NotifyObservers() {
2062 if (!loaded_)
2063 return;
2064
2065 FOR_EACH_OBSERVER(TemplateURLServiceObserver, model_observers_,
2066 OnTemplateURLServiceChanged());
2067 }
2068
2069 // |template_urls| are the TemplateURLs loaded from the database.
2070 // |default_from_prefs| is the default search provider from the preferences, or
2071 // NULL if the DSE is not policy-defined.
2072 //
2073 // This function removes from the vector and the database all the TemplateURLs
2074 // that were set by policy, unless it is the current default search provider, in
2075 // which case it is updated with the data from prefs.
UpdateProvidersCreatedByPolicy(TemplateURLVector * template_urls,const TemplateURLData * default_from_prefs)2076 void TemplateURLService::UpdateProvidersCreatedByPolicy(
2077 TemplateURLVector* template_urls,
2078 const TemplateURLData* default_from_prefs) {
2079 DCHECK(template_urls);
2080
2081 for (TemplateURLVector::iterator i = template_urls->begin();
2082 i != template_urls->end(); ) {
2083 TemplateURL* template_url = *i;
2084 if (template_url->created_by_policy()) {
2085 if (default_from_prefs &&
2086 TemplateURL::MatchesData(template_url, default_from_prefs,
2087 search_terms_data())) {
2088 // If the database specified a default search provider that was set
2089 // by policy, and the default search provider from the preferences
2090 // is also set by policy and they are the same, keep the entry in the
2091 // database and the |default_search_provider|.
2092 default_search_provider_ = template_url;
2093 // Prevent us from saving any other entries, or creating a new one.
2094 default_from_prefs = NULL;
2095 ++i;
2096 continue;
2097 }
2098
2099 RemoveFromMaps(template_url);
2100 i = template_urls->erase(i);
2101 if (web_data_service_.get())
2102 web_data_service_->RemoveKeyword(template_url->id());
2103 delete template_url;
2104 } else {
2105 ++i;
2106 }
2107 }
2108
2109 if (default_from_prefs) {
2110 default_search_provider_ = NULL;
2111 default_search_provider_source_ = DefaultSearchManager::FROM_POLICY;
2112 TemplateURLData new_data(*default_from_prefs);
2113 if (new_data.sync_guid.empty())
2114 new_data.sync_guid = base::GenerateGUID();
2115 new_data.created_by_policy = true;
2116 TemplateURL* new_dse = new TemplateURL(new_data);
2117 if (AddNoNotify(new_dse, true))
2118 default_search_provider_ = new_dse;
2119 }
2120 }
2121
ResetTemplateURLGUID(TemplateURL * url,const std::string & guid)2122 void TemplateURLService::ResetTemplateURLGUID(TemplateURL* url,
2123 const std::string& guid) {
2124 DCHECK(loaded_);
2125 DCHECK(!guid.empty());
2126
2127 TemplateURLData data(url->data());
2128 data.sync_guid = guid;
2129 UpdateNoNotify(url, TemplateURL(data));
2130 }
2131
UniquifyKeyword(const TemplateURL & turl,bool force)2132 base::string16 TemplateURLService::UniquifyKeyword(const TemplateURL& turl,
2133 bool force) {
2134 if (!force) {
2135 // Already unique.
2136 if (!GetTemplateURLForKeyword(turl.keyword()))
2137 return turl.keyword();
2138
2139 // First, try to return the generated keyword for the TemplateURL (except
2140 // for extensions, as their keywords are not associated with their URLs).
2141 GURL gurl(turl.url());
2142 if (gurl.is_valid() &&
2143 (turl.GetType() != TemplateURL::OMNIBOX_API_EXTENSION)) {
2144 base::string16 keyword_candidate = TemplateURL::GenerateKeyword(gurl);
2145 if (!GetTemplateURLForKeyword(keyword_candidate))
2146 return keyword_candidate;
2147 }
2148 }
2149
2150 // We try to uniquify the keyword by appending a special character to the end.
2151 // This is a best-effort approach where we try to preserve the original
2152 // keyword and let the user do what they will after our attempt.
2153 base::string16 keyword_candidate(turl.keyword());
2154 do {
2155 keyword_candidate.append(base::ASCIIToUTF16("_"));
2156 } while (GetTemplateURLForKeyword(keyword_candidate));
2157
2158 return keyword_candidate;
2159 }
2160
IsLocalTemplateURLBetter(const TemplateURL * local_turl,const TemplateURL * sync_turl)2161 bool TemplateURLService::IsLocalTemplateURLBetter(
2162 const TemplateURL* local_turl,
2163 const TemplateURL* sync_turl) {
2164 DCHECK(GetTemplateURLForGUID(local_turl->sync_guid()));
2165 return local_turl->last_modified() > sync_turl->last_modified() ||
2166 local_turl->created_by_policy() ||
2167 local_turl== GetDefaultSearchProvider();
2168 }
2169
ResolveSyncKeywordConflict(TemplateURL * unapplied_sync_turl,TemplateURL * applied_sync_turl,syncer::SyncChangeList * change_list)2170 void TemplateURLService::ResolveSyncKeywordConflict(
2171 TemplateURL* unapplied_sync_turl,
2172 TemplateURL* applied_sync_turl,
2173 syncer::SyncChangeList* change_list) {
2174 DCHECK(loaded_);
2175 DCHECK(unapplied_sync_turl);
2176 DCHECK(applied_sync_turl);
2177 DCHECK(change_list);
2178 DCHECK_EQ(applied_sync_turl->keyword(), unapplied_sync_turl->keyword());
2179 DCHECK_NE(TemplateURL::NORMAL_CONTROLLED_BY_EXTENSION,
2180 applied_sync_turl->GetType());
2181
2182 // Both |unapplied_sync_turl| and |applied_sync_turl| are known to Sync, so
2183 // don't delete either of them. Instead, determine which is "better" and
2184 // uniquify the other one, sending an update to the server for the updated
2185 // entry.
2186 const bool applied_turl_is_better =
2187 IsLocalTemplateURLBetter(applied_sync_turl, unapplied_sync_turl);
2188 TemplateURL* loser = applied_turl_is_better ?
2189 unapplied_sync_turl : applied_sync_turl;
2190 base::string16 new_keyword = UniquifyKeyword(*loser, false);
2191 DCHECK(!GetTemplateURLForKeyword(new_keyword));
2192 if (applied_turl_is_better) {
2193 // Just set the keyword of |unapplied_sync_turl|. The caller is responsible
2194 // for adding or updating unapplied_sync_turl in the local model.
2195 unapplied_sync_turl->data_.SetKeyword(new_keyword);
2196 } else {
2197 // Update |applied_sync_turl| in the local model with the new keyword.
2198 TemplateURLData data(applied_sync_turl->data());
2199 data.SetKeyword(new_keyword);
2200 if (UpdateNoNotify(applied_sync_turl, TemplateURL(data)))
2201 NotifyObservers();
2202 }
2203 // The losing TemplateURL should have their keyword updated. Send a change to
2204 // the server to reflect this change.
2205 syncer::SyncData sync_data = CreateSyncDataFromTemplateURL(*loser);
2206 change_list->push_back(syncer::SyncChange(FROM_HERE,
2207 syncer::SyncChange::ACTION_UPDATE,
2208 sync_data));
2209 }
2210
MergeInSyncTemplateURL(TemplateURL * sync_turl,const SyncDataMap & sync_data,syncer::SyncChangeList * change_list,SyncDataMap * local_data,syncer::SyncMergeResult * merge_result)2211 void TemplateURLService::MergeInSyncTemplateURL(
2212 TemplateURL* sync_turl,
2213 const SyncDataMap& sync_data,
2214 syncer::SyncChangeList* change_list,
2215 SyncDataMap* local_data,
2216 syncer::SyncMergeResult* merge_result) {
2217 DCHECK(sync_turl);
2218 DCHECK(!GetTemplateURLForGUID(sync_turl->sync_guid()));
2219 DCHECK(IsFromSync(sync_turl, sync_data));
2220
2221 TemplateURL* conflicting_turl =
2222 FindNonExtensionTemplateURLForKeyword(sync_turl->keyword());
2223 bool should_add_sync_turl = true;
2224
2225 // If there was no TemplateURL in the local model that conflicts with
2226 // |sync_turl|, skip the following preparation steps and just add |sync_turl|
2227 // directly. Otherwise, modify |conflicting_turl| to make room for
2228 // |sync_turl|.
2229 if (conflicting_turl) {
2230 if (IsFromSync(conflicting_turl, sync_data)) {
2231 // |conflicting_turl| is already known to Sync, so we're not allowed to
2232 // remove it. In this case, we want to uniquify the worse one and send an
2233 // update for the changed keyword to sync. We can reuse the logic from
2234 // ResolveSyncKeywordConflict for this.
2235 ResolveSyncKeywordConflict(sync_turl, conflicting_turl, change_list);
2236 merge_result->set_num_items_modified(
2237 merge_result->num_items_modified() + 1);
2238 } else {
2239 // |conflicting_turl| is not yet known to Sync. If it is better, then we
2240 // want to transfer its values up to sync. Otherwise, we remove it and
2241 // allow the entry from Sync to overtake it in the model.
2242 const std::string guid = conflicting_turl->sync_guid();
2243 if (IsLocalTemplateURLBetter(conflicting_turl, sync_turl)) {
2244 ResetTemplateURLGUID(conflicting_turl, sync_turl->sync_guid());
2245 syncer::SyncData sync_data =
2246 CreateSyncDataFromTemplateURL(*conflicting_turl);
2247 change_list->push_back(syncer::SyncChange(
2248 FROM_HERE, syncer::SyncChange::ACTION_UPDATE, sync_data));
2249 // Note that in this case we do not add the Sync TemplateURL to the
2250 // local model, since we've effectively "merged" it in by updating the
2251 // local conflicting entry with its sync_guid.
2252 should_add_sync_turl = false;
2253 merge_result->set_num_items_modified(
2254 merge_result->num_items_modified() + 1);
2255 } else {
2256 // We guarantee that this isn't the local search provider. Otherwise,
2257 // local would have won.
2258 DCHECK(conflicting_turl != GetDefaultSearchProvider());
2259 Remove(conflicting_turl);
2260 merge_result->set_num_items_deleted(
2261 merge_result->num_items_deleted() + 1);
2262 }
2263 // This TemplateURL was either removed or overwritten in the local model.
2264 // Remove the entry from the local data so it isn't pushed up to Sync.
2265 local_data->erase(guid);
2266 }
2267 }
2268
2269 if (should_add_sync_turl) {
2270 // Force the local ID to kInvalidTemplateURLID so we can add it.
2271 TemplateURLData data(sync_turl->data());
2272 data.id = kInvalidTemplateURLID;
2273 TemplateURL* added = new TemplateURL(data);
2274 base::AutoReset<DefaultSearchChangeOrigin> change_origin(
2275 &dsp_change_origin_, DSP_CHANGE_SYNC_ADD);
2276 if (Add(added))
2277 MaybeUpdateDSEAfterSync(added);
2278 merge_result->set_num_items_added(
2279 merge_result->num_items_added() + 1);
2280 }
2281 }
2282
PatchMissingSyncGUIDs(TemplateURLVector * template_urls)2283 void TemplateURLService::PatchMissingSyncGUIDs(
2284 TemplateURLVector* template_urls) {
2285 DCHECK(template_urls);
2286 for (TemplateURLVector::iterator i = template_urls->begin();
2287 i != template_urls->end(); ++i) {
2288 TemplateURL* template_url = *i;
2289 DCHECK(template_url);
2290 if (template_url->sync_guid().empty() &&
2291 (template_url->GetType() !=
2292 TemplateURL::NORMAL_CONTROLLED_BY_EXTENSION)) {
2293 template_url->data_.sync_guid = base::GenerateGUID();
2294 if (web_data_service_.get())
2295 web_data_service_->UpdateKeyword(template_url->data());
2296 }
2297 }
2298 }
2299
OnSyncedDefaultSearchProviderGUIDChanged()2300 void TemplateURLService::OnSyncedDefaultSearchProviderGUIDChanged() {
2301 base::AutoReset<DefaultSearchChangeOrigin> change_origin(
2302 &dsp_change_origin_, DSP_CHANGE_SYNC_PREF);
2303
2304 std::string new_guid =
2305 prefs_->GetString(prefs::kSyncedDefaultSearchProviderGUID);
2306 if (new_guid.empty()) {
2307 default_search_manager_.ClearUserSelectedDefaultSearchEngine();
2308 return;
2309 }
2310
2311 TemplateURL* turl = GetTemplateURLForGUID(new_guid);
2312 if (turl)
2313 default_search_manager_.SetUserSelectedDefaultSearchEngine(turl->data());
2314 }
2315
FindPrepopulatedTemplateURL(int prepopulated_id)2316 TemplateURL* TemplateURLService::FindPrepopulatedTemplateURL(
2317 int prepopulated_id) {
2318 for (TemplateURLVector::const_iterator i = template_urls_.begin();
2319 i != template_urls_.end(); ++i) {
2320 if ((*i)->prepopulate_id() == prepopulated_id)
2321 return *i;
2322 }
2323 return NULL;
2324 }
2325
FindTemplateURLForExtension(const std::string & extension_id,TemplateURL::Type type)2326 TemplateURL* TemplateURLService::FindTemplateURLForExtension(
2327 const std::string& extension_id,
2328 TemplateURL::Type type) {
2329 DCHECK_NE(TemplateURL::NORMAL, type);
2330 for (TemplateURLVector::const_iterator i = template_urls_.begin();
2331 i != template_urls_.end(); ++i) {
2332 if ((*i)->GetType() == type &&
2333 (*i)->GetExtensionId() == extension_id)
2334 return *i;
2335 }
2336 return NULL;
2337 }
2338
FindMatchingExtensionTemplateURL(const TemplateURLData & data,TemplateURL::Type type)2339 TemplateURL* TemplateURLService::FindMatchingExtensionTemplateURL(
2340 const TemplateURLData& data,
2341 TemplateURL::Type type) {
2342 DCHECK_NE(TemplateURL::NORMAL, type);
2343 for (TemplateURLVector::const_iterator i = template_urls_.begin();
2344 i != template_urls_.end(); ++i) {
2345 if ((*i)->GetType() == type &&
2346 TemplateURL::MatchesData(*i, &data, search_terms_data()))
2347 return *i;
2348 }
2349 return NULL;
2350 }
2351
UpdateExtensionDefaultSearchEngine()2352 void TemplateURLService::UpdateExtensionDefaultSearchEngine() {
2353 TemplateURL* most_recently_intalled_default = NULL;
2354 for (TemplateURLVector::const_iterator i = template_urls_.begin();
2355 i != template_urls_.end(); ++i) {
2356 if (((*i)->GetType() == TemplateURL::NORMAL_CONTROLLED_BY_EXTENSION) &&
2357 (*i)->extension_info_->wants_to_be_default_engine &&
2358 (*i)->SupportsReplacement(search_terms_data()) &&
2359 (!most_recently_intalled_default ||
2360 (most_recently_intalled_default->extension_info_->install_time <
2361 (*i)->extension_info_->install_time)))
2362 most_recently_intalled_default = *i;
2363 }
2364
2365 if (most_recently_intalled_default) {
2366 base::AutoReset<DefaultSearchChangeOrigin> change_origin(
2367 &dsp_change_origin_, DSP_CHANGE_OVERRIDE_SETTINGS_EXTENSION);
2368 default_search_manager_.SetExtensionControlledDefaultSearchEngine(
2369 most_recently_intalled_default->data());
2370 } else {
2371 default_search_manager_.ClearExtensionControlledDefaultSearchEngine();
2372 }
2373 }
2374