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chromium / chromium / src / 68430fe4de6f345a80d58a0c579687721f2dd623 / . / components / omnibox / browser / search_provider.cc
blob: 05bac1a3da7e8030b4888fdd743947b7a4d8faaa [file] [log] [blame]
// Copyright 2012 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "components/omnibox/browser/search_provider.h"
#include <stddef.h>
#include <algorithm>
#include <cmath>
#include <utility>
#include "base/base64.h"
#include "base/bind.h"
#include "base/callback.h"
#include "base/feature_list.h"
#include "base/i18n/break_iterator.h"
#include "base/i18n/case_conversion.h"
#include "base/json/json_string_value_serializer.h"
#include "base/metrics/histogram_macros.h"
#include "base/metrics/user_metrics.h"
#include "base/rand_util.h"
#include "base/strings/string_util.h"
#include "base/strings/utf_string_conversions.h"
#include "base/trace_event/trace_event.h"
#include "components/data_use_measurement/core/data_use_user_data.h"
#include "components/history/core/browser/in_memory_database.h"
#include "components/history/core/browser/keyword_search_term.h"
#include "components/omnibox/browser/autocomplete_provider_client.h"
#include "components/omnibox/browser/autocomplete_provider_listener.h"
#include "components/omnibox/browser/autocomplete_result.h"
#include "components/omnibox/browser/keyword_provider.h"
#include "components/omnibox/browser/omnibox_field_trial.h"
#include "components/omnibox/browser/suggestion_answer.h"
#include "components/omnibox/browser/url_prefix.h"
#include "components/search/search.h"
#include "components/search_engines/template_url_service.h"
#include "components/strings/grit/components_strings.h"
#include "components/url_formatter/url_formatter.h"
#include "components/variations/net/variations_http_headers.h"
#include "net/base/escape.h"
#include "net/base/load_flags.h"
#include "net/http/http_request_headers.h"
#include "net/traffic_annotation/network_traffic_annotation.h"
#include "net/url_request/url_fetcher.h"
#include "net/url_request/url_request_status.h"
#include "third_party/metrics_proto/omnibox_input_type.pb.h"
#include "ui/base/l10n/l10n_util.h"
#include "url/url_constants.h"
#include "url/url_util.h"
// Helpers --------------------------------------------------------------------
namespace {
// We keep track in a histogram how many suggest requests we send, how
// many suggest requests we invalidate (e.g., due to a user typing
// another character), and how many replies we receive.
// *** ADD NEW ENUMS AFTER ALL PREVIOUSLY DEFINED ONES! ***
// (excluding the end-of-list enum value)
// We do not want values of existing enums to change or else it screws
// up the statistics.
enum SuggestRequestsHistogramValue {
REQUEST_SENT = 1,
REQUEST_INVALIDATED,
REPLY_RECEIVED,
MAX_SUGGEST_REQUEST_HISTOGRAM_VALUE
};
// The verbatim score for an input which is not an URL.
const int kNonURLVerbatimRelevance = 1300;
// Increments the appropriate value in the histogram by one.
void LogOmniboxSuggestRequest(
SuggestRequestsHistogramValue request_value) {
UMA_HISTOGRAM_ENUMERATION("Omnibox.SuggestRequests", request_value,
MAX_SUGGEST_REQUEST_HISTOGRAM_VALUE);
}
bool HasMultipleWords(const base::string16& text) {
base::i18n::BreakIterator i(text, base::i18n::BreakIterator::BREAK_WORD);
bool found_word = false;
if (i.Init()) {
while (i.Advance()) {
if (i.IsWord()) {
if (found_word)
return true;
found_word = true;
}
}
}
return false;
}
} // namespace
// SearchProvider::Providers --------------------------------------------------
SearchProvider::Providers::Providers(TemplateURLService* template_url_service)
: template_url_service_(template_url_service) {}
const TemplateURL* SearchProvider::Providers::GetDefaultProviderURL() const {
return default_provider_.empty()
? nullptr
: template_url_service_->GetTemplateURLForKeyword(
default_provider_);
}
const TemplateURL* SearchProvider::Providers::GetKeywordProviderURL() const {
return keyword_provider_.empty()
? nullptr
: template_url_service_->GetTemplateURLForKeyword(
keyword_provider_);
}
// SearchProvider::CompareScoredResults ---------------------------------------
class SearchProvider::CompareScoredResults {
public:
bool operator()(const SearchSuggestionParser::Result& a,
const SearchSuggestionParser::Result& b) {
// Sort in descending relevance order.
return a.relevance() > b.relevance();
}
};
// SearchProvider -------------------------------------------------------------
SearchProvider::SearchProvider(AutocompleteProviderClient* client,
AutocompleteProviderListener* listener)
: BaseSearchProvider(AutocompleteProvider::TYPE_SEARCH, client),
listener_(listener),
providers_(client->GetTemplateURLService()),
answers_cache_(10) {
TemplateURLService* template_url_service = client->GetTemplateURLService();
// |template_url_service| can be null in tests.
if (template_url_service)
template_url_service->AddObserver(this);
}
// static
std::string SearchProvider::GetSuggestMetadata(const AutocompleteMatch& match) {
return match.GetAdditionalInfo(kSuggestMetadataKey);
}
void SearchProvider::RegisterDisplayedAnswers(
const AutocompleteResult& result) {
if (result.empty())
return;
// The answer must be in the first or second slot to be considered. It should
// only be in the second slot if AutocompleteController ranked a local search
// history or a verbatim item higher than the answer.
AutocompleteResult::const_iterator match = result.begin();
if (match->answer_contents.empty() && result.size() > 1)
++match;
if (match->answer_contents.empty() || match->answer_type.empty() ||
match->fill_into_edit.empty())
return;
// Valid answer encountered, cache it for further queries.
answers_cache_.UpdateRecentAnswers(match->fill_into_edit, match->answer_type);
}
// static
int SearchProvider::CalculateRelevanceForKeywordVerbatim(
metrics::OmniboxInputType type,
bool allow_exact_keyword_match,
bool prefer_keyword) {
// This function is responsible for scoring verbatim query matches
// for non-extension substituting keywords.
// KeywordProvider::CalculateRelevance() scores all other types of
// keyword verbatim matches.
if (allow_exact_keyword_match && prefer_keyword)
return 1500;
return (allow_exact_keyword_match &&
(type == metrics::OmniboxInputType::QUERY))
? 1450
: 1100;
}
void SearchProvider::ResetSession() {
set_field_trial_triggered(false);
set_field_trial_triggered_in_session(false);
}
SearchProvider::~SearchProvider() {
TemplateURLService* template_url_service = client()->GetTemplateURLService();
if (template_url_service)
template_url_service->RemoveObserver(this);
}
// static
void SearchProvider::UpdateOldResults(
bool minimal_changes,
SearchSuggestionParser::Results* results) {
// When called without |minimal_changes|, it likely means the user has
// pressed a key. Revise the cached results appropriately.
if (!minimal_changes) {
for (SearchSuggestionParser::SuggestResults::iterator sug_it =
results->suggest_results.begin();
sug_it != results->suggest_results.end(); ) {
if (sug_it->type() == AutocompleteMatchType::CALCULATOR) {
sug_it = results->suggest_results.erase(sug_it);
} else {
sug_it->set_received_after_last_keystroke(false);
++sug_it;
}
}
for (SearchSuggestionParser::NavigationResults::iterator nav_it =
results->navigation_results.begin();
nav_it != results->navigation_results.end(); ++nav_it) {
nav_it->set_received_after_last_keystroke(false);
}
}
}
void SearchProvider::Start(const AutocompleteInput& input,
bool minimal_changes) {
TRACE_EVENT0("omnibox", "SearchProvider::Start");
// Do our best to load the model as early as possible. This will reduce
// odds of having the model not ready when really needed (a non-empty input).
TemplateURLService* model = client()->GetTemplateURLService();
DCHECK(model);
model->Load();
matches_.clear();
set_field_trial_triggered(false);
// Unless warming up the suggest server on focus, SearchProvider doesn't do
// do anything useful for on-focus inputs or empty inputs. Exit early.
if (!base::FeatureList::IsEnabled(omnibox::kSearchProviderWarmUpOnFocus) &&
(input.from_omnibox_focus() ||
input.type() == metrics::OmniboxInputType::INVALID)) {
Stop(true, false);
return;
}
keyword_input_ = input;
const TemplateURL* keyword_provider =
KeywordProvider::GetSubstitutingTemplateURLForInput(model,
&keyword_input_);
if (keyword_provider == nullptr)
keyword_input_.Clear();
else if (keyword_input_.text().empty())
keyword_provider = nullptr;
const TemplateURL* default_provider = model->GetDefaultSearchProvider();
if (default_provider &&
!default_provider->SupportsReplacement(model->search_terms_data()))
default_provider = nullptr;
if (keyword_provider == default_provider)
default_provider = nullptr; // No use in querying the same provider twice.
if (!default_provider && !keyword_provider) {
// No valid providers.
Stop(true, false);
return;
}
// If we're still running an old query but have since changed the query text
// or the providers, abort the query.
base::string16 default_provider_keyword(default_provider ?
default_provider->keyword() : base::string16());
base::string16 keyword_provider_keyword(keyword_provider ?
keyword_provider->keyword() : base::string16());
if (!minimal_changes ||
!providers_.equal(default_provider_keyword, keyword_provider_keyword)) {
// Cancel any in-flight suggest requests.
if (!done_)
Stop(false, false);
}
providers_.set(default_provider_keyword, keyword_provider_keyword);
if (input.from_omnibox_focus()) {
// Don't display any suggestions for on-focus requests.
DCHECK(done_);
ClearAllResults();
} else if (input.text().empty()) {
// User typed "?" alone. Give them a placeholder result indicating what
// this syntax does.
if (default_provider) {
AutocompleteMatch match;
match.provider = this;
match.contents.assign(l10n_util::GetStringUTF16(IDS_EMPTY_KEYWORD_VALUE));
match.contents_class.push_back(
ACMatchClassification(0, ACMatchClassification::NONE));
match.keyword = providers_.default_provider();
match.allowed_to_be_default_match = true;
matches_.push_back(match);
}
Stop(true, false);
return;
}
input_ = input;
// Don't search the query history database for on-focus inputs; these inputs
// should only be used to warm up the suggest server.
if (!input.from_omnibox_focus()) {
DoHistoryQuery(minimal_changes);
// Answers needs scored history results before any suggest query has been
// started, since the query for answer-bearing results needs additional
// prefetch information based on the highest-scored local history result.
ScoreHistoryResults(raw_default_history_results_, false,
&transformed_default_history_results_);
ScoreHistoryResults(raw_keyword_history_results_, true,
&transformed_keyword_history_results_);
prefetch_data_ = FindAnswersPrefetchData();
// Raw results are not needed any more.
raw_default_history_results_.clear();
raw_keyword_history_results_.clear();
}
StartOrStopSuggestQuery(minimal_changes);
UpdateMatches();
}
void SearchProvider::Stop(bool clear_cached_results,
bool due_to_user_inactivity) {
StopSuggest();
done_ = true;
if (clear_cached_results)
ClearAllResults();
}
const TemplateURL* SearchProvider::GetTemplateURL(bool is_keyword) const {
return is_keyword ? providers_.GetKeywordProviderURL()
: providers_.GetDefaultProviderURL();
}
const AutocompleteInput SearchProvider::GetInput(bool is_keyword) const {
return is_keyword ? keyword_input_ : input_;
}
bool SearchProvider::ShouldAppendExtraParams(
const SearchSuggestionParser::SuggestResult& result) const {
return !result.from_keyword_provider() ||
providers_.default_provider().empty();
}
void SearchProvider::RecordDeletionResult(bool success) {
if (success) {
base::RecordAction(
base::UserMetricsAction("Omnibox.ServerSuggestDelete.Success"));
} else {
base::RecordAction(
base::UserMetricsAction("Omnibox.ServerSuggestDelete.Failure"));
}
}
void SearchProvider::OnTemplateURLServiceChanged() {
// Only update matches at this time if we haven't already claimed we're done
// processing the query.
if (done_)
return;
// Check that the engines we're using weren't renamed or deleted. (In short,
// require that an engine still exists with the keywords in use.) For each
// deleted engine, cancel the in-flight request if any, drop its suggestions,
// and, in the case when the default provider was affected, point the cached
// default provider keyword name at the new name for the default provider.
// Get...ProviderURL() looks up the provider using the cached keyword name
// stored in |providers_|.
const TemplateURL* template_url = providers_.GetDefaultProviderURL();
if (!template_url) {
CancelFetcher(&default_fetcher_);
default_results_.Clear();
providers_.set(client()
->GetTemplateURLService()
->GetDefaultSearchProvider()
->keyword(),
providers_.keyword_provider());
}
template_url = providers_.GetKeywordProviderURL();
if (!providers_.keyword_provider().empty() && !template_url) {
CancelFetcher(&keyword_fetcher_);
keyword_results_.Clear();
providers_.set(providers_.default_provider(), base::string16());
}
// It's possible the template URL changed without changing associated keyword.
// Hence, it's always necessary to update matches to use the new template
// URL. (One could cache the template URL and only call UpdateMatches() and
// OnProviderUpdate() if a keyword was deleted/renamed or the template URL
// was changed. That would save extra calls to these functions. However,
// this is uncommon and not likely to be worth the extra work.)
UpdateMatches();
listener_->OnProviderUpdate(true); // always pretend something changed
}
void SearchProvider::OnURLFetchComplete(const net::URLFetcher* source) {
TRACE_EVENT0("omnibox", "SearchProvider::OnURLFetchComplete");
DCHECK(!done_);
const bool is_keyword = source == keyword_fetcher_.get();
// Ensure the request succeeded and that the provider used is still available.
// A verbatim match cannot be generated without this provider, causing errors.
const bool request_succeeded =
source->GetStatus().is_success() && (source->GetResponseCode() == 200) &&
GetTemplateURL(is_keyword);
LogFetchComplete(request_succeeded, is_keyword);
bool results_updated = false;
// Ignore (i.e., don't display) any suggestions for on-focus inputs.
// SearchProvider is not intended to give suggestions on on-focus inputs;
// that's left to ZeroSuggestProvider and friends. Furthermore, it's not
// clear if the suggest server will send back sensible results to the
// request we're constructing here for on-focus inputs.
if (!input_.from_omnibox_focus() && request_succeeded) {
std::unique_ptr<base::Value> data(
SearchSuggestionParser::DeserializeJsonData(
SearchSuggestionParser::ExtractJsonData(source)));
if (data) {
SearchSuggestionParser::Results* results =
is_keyword ? &keyword_results_ : &default_results_;
results_updated = ParseSuggestResults(*data, -1, is_keyword, results);
if (results_updated)
SortResults(is_keyword, results);
}
}
// Delete the fetcher now that we're done with it.
if (is_keyword)
keyword_fetcher_.reset();
else
default_fetcher_.reset();
// Update matches, done status, etc., and send alerts if necessary.
UpdateMatches();
if (done_ || results_updated)
listener_->OnProviderUpdate(results_updated);
}
void SearchProvider::StopSuggest() {
CancelFetcher(&default_fetcher_);
CancelFetcher(&keyword_fetcher_);
timer_.Stop();
}
void SearchProvider::ClearAllResults() {
keyword_results_.Clear();
default_results_.Clear();
}
void SearchProvider::UpdateMatchContentsClass(
const base::string16& input_text,
SearchSuggestionParser::Results* results) {
for (SearchSuggestionParser::SuggestResults::iterator sug_it =
results->suggest_results.begin();
sug_it != results->suggest_results.end(); ++sug_it) {
sug_it->ClassifyMatchContents(false, input_text);
}
for (SearchSuggestionParser::NavigationResults::iterator nav_it =
results->navigation_results.begin();
nav_it != results->navigation_results.end(); ++nav_it) {
nav_it->CalculateAndClassifyMatchContents(false, input_text);
}
}
void SearchProvider::SortResults(bool is_keyword,
SearchSuggestionParser::Results* results) {
// Ignore suggested scores for non-keyword matches in keyword mode; if the
// server is allowed to score these, it could interfere with the user's
// ability to get good keyword results.
const bool abandon_suggested_scores =
!is_keyword && !providers_.keyword_provider().empty();
// Apply calculated relevance scores to suggestions if valid relevances were
// not provided or we're abandoning suggested scores entirely.
if (!results->relevances_from_server || abandon_suggested_scores) {
ApplyCalculatedSuggestRelevance(&results->suggest_results);
ApplyCalculatedNavigationRelevance(&results->navigation_results);
// If abandoning scores entirely, also abandon the verbatim score.
if (abandon_suggested_scores)
results->verbatim_relevance = -1;
}
// Keep the result lists sorted.
const CompareScoredResults comparator = CompareScoredResults();
std::stable_sort(results->suggest_results.begin(),
results->suggest_results.end(),
comparator);
std::stable_sort(results->navigation_results.begin(),
results->navigation_results.end(),
comparator);
}
void SearchProvider::LogFetchComplete(bool success, bool is_keyword) {
LogOmniboxSuggestRequest(REPLY_RECEIVED);
// Record response time for suggest requests sent to Google. We care
// only about the common case: the Google default provider used in
// non-keyword mode.
const TemplateURL* default_url = providers_.GetDefaultProviderURL();
if (!is_keyword && default_url &&
(default_url->GetEngineType(
client()->GetTemplateURLService()->search_terms_data()) ==
SEARCH_ENGINE_GOOGLE)) {
const base::TimeDelta elapsed_time =
base::TimeTicks::Now() - time_suggest_request_sent_;
if (success) {
UMA_HISTOGRAM_TIMES("Omnibox.SuggestRequest.Success.GoogleResponseTime",
elapsed_time);
} else {
UMA_HISTOGRAM_TIMES("Omnibox.SuggestRequest.Failure.GoogleResponseTime",
elapsed_time);
}
}
}
void SearchProvider::UpdateMatches() {
// On-focus inputs display no suggestions, so we do not need to persist the
// previous top suggestions, add new suggestions, or revise suggestions to
// enforce constraints about inlineability in this case. Indeed, most of
// these steps would be bad, as they'd add a suggestion of some form, thus
// opening the dropdown (which we do not want to happen).
if (!input_.from_omnibox_focus()) {
PersistTopSuggestions(&default_results_);
PersistTopSuggestions(&keyword_results_);
ConvertResultsToAutocompleteMatches();
EnforceConstraints();
UMA_HISTOGRAM_CUSTOM_COUNTS("Omnibox.SearchProviderMatches",
matches_.size(), 1, 6, 7);
RecordTopSuggestion();
}
UpdateDone();
}
void SearchProvider::EnforceConstraints() {
if (!matches_.empty() &&
(default_results_.HasServerProvidedScores() ||
keyword_results_.HasServerProvidedScores())) {
// These blocks attempt to repair undesirable behavior by suggested
// relevances with minimal impact, preserving other suggested relevances.
const TemplateURL* keyword_url = providers_.GetKeywordProviderURL();
const bool is_extension_keyword =
(keyword_url != nullptr) &&
(keyword_url->type() == TemplateURL::OMNIBOX_API_EXTENSION);
if ((keyword_url != nullptr) && !is_extension_keyword &&
(AutocompleteResult::FindTopMatch(&matches_) == matches_.end())) {
// In non-extension keyword mode, disregard the keyword verbatim suggested
// relevance if necessary, so at least one match is allowed to be default.
// (In extension keyword mode this is not necessary because the extension
// will return a default match.) Give keyword verbatim the lowest
// non-zero score to best reflect what the server desired.
DCHECK_EQ(0, keyword_results_.verbatim_relevance);
keyword_results_.verbatim_relevance = 1;
ConvertResultsToAutocompleteMatches();
}
if (IsTopMatchSearchWithURLInput()) {
// Disregard the suggested search and verbatim relevances if the input
// type is URL and the top match is a highly-ranked search suggestion.
// For example, prevent a search for "foo.com" from outranking another
// provider's navigation for "foo.com" or "foo.com/url_from_history".
ApplyCalculatedSuggestRelevance(&keyword_results_.suggest_results);
ApplyCalculatedSuggestRelevance(&default_results_.suggest_results);
default_results_.verbatim_relevance = -1;
keyword_results_.verbatim_relevance = -1;
ConvertResultsToAutocompleteMatches();
}
if (!is_extension_keyword &&
(AutocompleteResult::FindTopMatch(&matches_) == matches_.end())) {
// Guarantee that SearchProvider returns a legal default match (except
// when in extension-based keyword mode). The omnibox always needs at
// least one legal default match, and it relies on SearchProvider in
// combination with KeywordProvider (for extension-based keywords) to
// always return one. Give the verbatim suggestion the lowest non-zero
// scores to best reflect what the server desired.
DCHECK_EQ(0, default_results_.verbatim_relevance);
default_results_.verbatim_relevance = 1;
// We do not have to alter keyword_results_.verbatim_relevance here.
// If the user is in keyword mode, we already reverted (earlier in this
// function) the instructions to suppress keyword verbatim.
ConvertResultsToAutocompleteMatches();
}
DCHECK(!IsTopMatchSearchWithURLInput());
DCHECK(is_extension_keyword ||
(AutocompleteResult::FindTopMatch(&matches_) != matches_.end()));
}
}
void SearchProvider::RecordTopSuggestion() {
top_query_suggestion_match_contents_ = base::string16();
top_navigation_suggestion_ = GURL();
ACMatches::const_iterator first_match =
AutocompleteResult::FindTopMatch(matches_);
if ((first_match != matches_.end()) &&
!first_match->inline_autocompletion.empty()) {
// Identify if this match came from a query suggestion or a navsuggestion.
// In either case, extracts the identifying feature of the suggestion
// (query string or navigation url).
if (AutocompleteMatch::IsSearchType(first_match->type))
top_query_suggestion_match_contents_ = first_match->contents;
else
top_navigation_suggestion_ = first_match->destination_url;
}
}
void SearchProvider::Run(bool query_is_private) {
// Start a new request with the current input.
time_suggest_request_sent_ = base::TimeTicks::Now();
if (!query_is_private) {
default_fetcher_ =
CreateSuggestFetcher(kDefaultProviderURLFetcherID,
providers_.GetDefaultProviderURL(), input_);
}
keyword_fetcher_ =
CreateSuggestFetcher(kKeywordProviderURLFetcherID,
providers_.GetKeywordProviderURL(), keyword_input_);
// Both the above can fail if the providers have been modified or deleted
// since the query began.
if (!default_fetcher_ && !keyword_fetcher_) {
UpdateDone();
// We only need to update the listener if we're actually done.
if (done_)
listener_->OnProviderUpdate(false);
} else {
// Sent at least one request.
time_suggest_request_sent_ = base::TimeTicks::Now();
}
}
void SearchProvider::DoHistoryQuery(bool minimal_changes) {
// The history query results are synchronous, so if minimal_changes is true,
// we still have the last results and don't need to do anything.
if (minimal_changes)
return;
raw_keyword_history_results_.clear();
raw_default_history_results_.clear();
if (OmniboxFieldTrial::SearchHistoryDisable(
input_.current_page_classification()))
return;
history::URLDatabase* url_db = client()->GetInMemoryDatabase();
if (!url_db)
return;
// Request history for both the keyword and default provider. We grab many
// more matches than we'll ultimately clamp to so that if there are several
// recent multi-word matches who scores are lowered (see
// ScoreHistoryResults()), they won't crowd out older, higher-scoring
// matches. Note that this doesn't fix the problem entirely, but merely
// limits it to cases with a very large number of such multi-word matches; for
// now, this seems OK compared with the complexity of a real fix, which would
// require multiple searches and tracking of "single- vs. multi-word" in the
// database.
int num_matches = kMaxMatches * 5;
const TemplateURL* default_url = providers_.GetDefaultProviderURL();
if (default_url) {
const base::TimeTicks start_time = base::TimeTicks::Now();
url_db->GetMostRecentKeywordSearchTerms(default_url->id(),
input_.text(),
num_matches,
&raw_default_history_results_);
UMA_HISTOGRAM_TIMES(
"Omnibox.SearchProvider.GetMostRecentKeywordTermsDefaultProviderTime",
base::TimeTicks::Now() - start_time);
}
const TemplateURL* keyword_url = providers_.GetKeywordProviderURL();
if (keyword_url) {
url_db->GetMostRecentKeywordSearchTerms(keyword_url->id(),
keyword_input_.text(),
num_matches,
&raw_keyword_history_results_);
}
}
base::TimeDelta SearchProvider::GetSuggestQueryDelay() const {
bool from_last_keystroke;
int polling_delay_ms;
OmniboxFieldTrial::GetSuggestPollingStrategy(&from_last_keystroke,
&polling_delay_ms);
base::TimeDelta delay(base::TimeDelta::FromMilliseconds(polling_delay_ms));
if (from_last_keystroke)
return delay;
base::TimeDelta time_since_last_suggest_request =
base::TimeTicks::Now() - time_suggest_request_sent_;
return std::max(base::TimeDelta(), delay - time_since_last_suggest_request);
}
void SearchProvider::StartOrStopSuggestQuery(bool minimal_changes) {
bool query_is_private;
if (!IsQuerySuitableForSuggest(&query_is_private)) {
StopSuggest();
ClearAllResults();
return;
}
if (OmniboxFieldTrial::DisableResultsCaching())
ClearAllResults();
// For the minimal_changes case, if we finished the previous query and still
// have its results, or are allowed to keep running it, just do that, rather
// than starting a new query.
if (minimal_changes &&
(!default_results_.suggest_results.empty() ||
!default_results_.navigation_results.empty() ||
!keyword_results_.suggest_results.empty() ||
!keyword_results_.navigation_results.empty() ||
(!done_ && input_.want_asynchronous_matches())))
return;
// We can't keep running any previous query, so halt it.
StopSuggest();
UpdateAllOldResults(minimal_changes);
// Update the content classifications of remaining results so they look good
// against the current input.
UpdateMatchContentsClass(input_.text(), &default_results_);
if (!keyword_input_.text().empty())
UpdateMatchContentsClass(keyword_input_.text(), &keyword_results_);
// We can't start a new query if we're only allowed synchronous results.
if (!input_.want_asynchronous_matches())
return;
// Kick off a timer that will start the URL fetch if it completes before
// the user types another character. Requests may be delayed to avoid
// flooding the server with requests that are likely to be thrown away later
// anyway.
const base::TimeDelta delay = GetSuggestQueryDelay();
if (delay <= base::TimeDelta()) {
Run(query_is_private);
return;
}
timer_.Start(FROM_HERE,
delay,
base::Bind(&SearchProvider::Run,
base::Unretained(this),
query_is_private));
}
void SearchProvider::CancelFetcher(std::unique_ptr<net::URLFetcher>* fetcher) {
if (*fetcher) {
LogOmniboxSuggestRequest(REQUEST_INVALIDATED);
fetcher->reset();
}
}
bool SearchProvider::IsQuerySuitableForSuggest(bool* query_is_private) const {
*query_is_private = IsQueryPotentionallyPrivate();
// Don't run Suggest in incognito mode, if the engine doesn't support it, or
// if the user has disabled it. Also don't send potentionally private data
// to the default search provider. (It's always okay to send explicit
// keyword input to a keyword suggest server, if any.)
const TemplateURL* default_url = providers_.GetDefaultProviderURL();
const TemplateURL* keyword_url = providers_.GetKeywordProviderURL();
return !client()->IsOffTheRecord() && client()->SearchSuggestEnabled() &&
((default_url && !default_url->suggestions_url().empty() &&
!*query_is_private) ||
(keyword_url && !keyword_url->suggestions_url().empty()));
}
bool SearchProvider::IsQueryPotentionallyPrivate() const {
if (input_.text().empty())
return false;
// Check the scheme. If this is UNKNOWN/URL with a scheme that isn't
// http/https/ftp, we shouldn't send it. Sending things like file: and data:
// is both a waste of time and a disclosure of potentially private, local
// data. Other "schemes" may actually be usernames, and we don't want to send
// passwords. If the scheme is OK, we still need to check other cases below.
// If this is QUERY, then the presence of these schemes means the user
// explicitly typed one, and thus this is probably a URL that's being entered
// and happens to currently be invalid -- in which case we again want to run
// our checks below. Other QUERY cases are less likely to be URLs and thus we
// assume we're OK.
if (!base::LowerCaseEqualsASCII(input_.scheme(), url::kHttpScheme) &&
!base::LowerCaseEqualsASCII(input_.scheme(), url::kHttpsScheme) &&
!base::LowerCaseEqualsASCII(input_.scheme(), url::kFtpScheme))
return (input_.type() != metrics::OmniboxInputType::QUERY);
// Don't send URLs with usernames, queries or refs. Some of these are
// private, and the Suggest server is unlikely to have any useful results
// for any of them. Also don't send URLs with ports, as we may initially
// think that a username + password is a host + port (and we don't want to
// send usernames/passwords), and even if the port really is a port, the
// server is once again unlikely to have and useful results.
// Note that we only block based on refs if the input is URL-typed, as search
// queries can legitimately have #s in them which the URL parser
// overaggressively categorizes as a url with a ref.
const url::Parsed& parts = input_.parts();
if (parts.username.is_nonempty() || parts.port.is_nonempty() ||
parts.query.is_nonempty() ||
(parts.ref.is_nonempty() &&
(input_.type() == metrics::OmniboxInputType::URL)))
return true;
// Don't send anything for https except the hostname. Hostnames are OK
// because they are visible when the TCP connection is established, but the
// specific path may reveal private information.
if (base::LowerCaseEqualsASCII(input_.scheme(), url::kHttpsScheme) &&
parts.path.is_nonempty())
return true;
return false;
}
void SearchProvider::UpdateAllOldResults(bool minimal_changes) {
if (keyword_input_.text().empty()) {
// User is either in keyword mode with a blank input or out of
// keyword mode entirely.
keyword_results_.Clear();
}
UpdateOldResults(minimal_changes, &default_results_);
UpdateOldResults(minimal_changes, &keyword_results_);
}
void SearchProvider::PersistTopSuggestions(
SearchSuggestionParser::Results* results) {
// Mark any results matching the current top results as having been received
// prior to the last keystroke. That prevents asynchronous updates from
// clobbering top results, which may be used for inline autocompletion.
// Other results don't need similar changes, because they shouldn't be
// displayed asynchronously anyway.
if (!top_query_suggestion_match_contents_.empty()) {
for (SearchSuggestionParser::SuggestResults::iterator sug_it =
results->suggest_results.begin();
sug_it != results->suggest_results.end(); ++sug_it) {
if (sug_it->match_contents() == top_query_suggestion_match_contents_)
sug_it->set_received_after_last_keystroke(false);
}
}
if (top_navigation_suggestion_.is_valid()) {
for (SearchSuggestionParser::NavigationResults::iterator nav_it =
results->navigation_results.begin();
nav_it != results->navigation_results.end(); ++nav_it) {
if (nav_it->url() == top_navigation_suggestion_)
nav_it->set_received_after_last_keystroke(false);
}
}
}
void SearchProvider::ApplyCalculatedSuggestRelevance(
SearchSuggestionParser::SuggestResults* list) {
for (size_t i = 0; i < list->size(); ++i) {
SearchSuggestionParser::SuggestResult& result = (*list)[i];
result.set_relevance(
result.CalculateRelevance(input_, providers_.has_keyword_provider()) +
(list->size() - i - 1));
result.set_relevance_from_server(false);
}
}
void SearchProvider::ApplyCalculatedNavigationRelevance(
SearchSuggestionParser::NavigationResults* list) {
for (size_t i = 0; i < list->size(); ++i) {
SearchSuggestionParser::NavigationResult& result = (*list)[i];
result.set_relevance(
result.CalculateRelevance(input_, providers_.has_keyword_provider()) +
(list->size() - i - 1));
result.set_relevance_from_server(false);
}
}
std::unique_ptr<net::URLFetcher> SearchProvider::CreateSuggestFetcher(
int id,
const TemplateURL* template_url,
const AutocompleteInput& input) {
if (!template_url || template_url->suggestions_url().empty())
return nullptr;
// Bail if the suggestion URL is invalid with the given replacements.
TemplateURLRef::SearchTermsArgs search_term_args(input.text());
search_term_args.input_type = input.type();
search_term_args.cursor_position = input.cursor_position();
search_term_args.page_classification = input.current_page_classification();
// Session token and prefetch data required for answers.
search_term_args.session_token = GetSessionToken();
if (!prefetch_data_.full_query_text.empty()) {
search_term_args.prefetch_query =
base::UTF16ToUTF8(prefetch_data_.full_query_text);
search_term_args.prefetch_query_type =
base::UTF16ToUTF8(prefetch_data_.query_type);
}
GURL suggest_url(template_url->suggestions_url_ref().ReplaceSearchTerms(
search_term_args,
client()->GetTemplateURLService()->search_terms_data()));
if (!suggest_url.is_valid())
return nullptr;
// Send the current page URL if user setting and URL requirements are met.
TemplateURLService* template_url_service = client()->GetTemplateURLService();
if (CanSendURL(input.current_url(), suggest_url, template_url,
input.current_page_classification(),
template_url_service->search_terms_data(), client())) {
search_term_args.current_page_url = input.current_url().spec();
// Create the suggest URL again with the current page URL.
suggest_url = GURL(template_url->suggestions_url_ref().ReplaceSearchTerms(
search_term_args, template_url_service->search_terms_data()));
}
LogOmniboxSuggestRequest(REQUEST_SENT);
net::NetworkTrafficAnnotationTag traffic_annotation =
net::DefineNetworkTrafficAnnotation("omnibox_suggest", R"(
semantics {
sender: "Omnibox"
description:
"Chrome can provide search and navigation suggestions from the "
"currently-selected search provider in the omnibox dropdown, based "
"on user input."
trigger: "User typing in the omnibox."
data:
"The text typed into the address bar. Potentially other metadata, "
"such as the current cursor position or URL of the current page."
destination: WEBSITE
}
policy {
cookies_allowed: YES
cookies_store: "user"
setting:
"Users can control this feature via the 'Use a prediction service "
"to help complete searches and URLs typed in the address bar' "
"setting under 'Privacy'. The feature is enabled by default."
chrome_policy {
SearchSuggestEnabled {
policy_options {mode: MANDATORY}
SearchSuggestEnabled: false
}
}
})");
std::unique_ptr<net::URLFetcher> fetcher = net::URLFetcher::Create(
id, suggest_url, net::URLFetcher::GET, this, traffic_annotation);
data_use_measurement::DataUseUserData::AttachToFetcher(
fetcher.get(), data_use_measurement::DataUseUserData::OMNIBOX);
fetcher->SetRequestContext(client()->GetRequestContext());
fetcher->SetLoadFlags(net::LOAD_DO_NOT_SAVE_COOKIES);
// Add Chrome experiment state to the request headers.
net::HttpRequestHeaders headers;
// Note: It's OK to pass |is_signed_in| false if it's unknown, as it does
// not affect transmission of experiments coming from the variations server.
bool is_signed_in = false;
variations::AppendVariationHeaders(fetcher->GetOriginalURL(),
client()->IsOffTheRecord(), false,
is_signed_in, &headers);
fetcher->SetExtraRequestHeaders(headers.ToString());
fetcher->Start();
return fetcher;
}
void SearchProvider::ConvertResultsToAutocompleteMatches() {
// Convert all the results to matches and add them to a map, so we can keep
// the most relevant match for each result.
base::TimeTicks start_time(base::TimeTicks::Now());
MatchMap map;
const base::Time no_time;
int did_not_accept_keyword_suggestion =
keyword_results_.suggest_results.empty() ?
TemplateURLRef::NO_SUGGESTIONS_AVAILABLE :
TemplateURLRef::NO_SUGGESTION_CHOSEN;
bool relevance_from_server;
int verbatim_relevance = GetVerbatimRelevance(&relevance_from_server);
int did_not_accept_default_suggestion =
default_results_.suggest_results.empty() ?
TemplateURLRef::NO_SUGGESTIONS_AVAILABLE :
TemplateURLRef::NO_SUGGESTION_CHOSEN;
const TemplateURL* keyword_url = providers_.GetKeywordProviderURL();
if (verbatim_relevance > 0) {
const base::string16& trimmed_verbatim =
base::CollapseWhitespace(input_.text(), false);
// Verbatim results don't get suggestions and hence, answers.
// Scan previous matches if the last answer-bearing suggestion matches
// verbatim, and if so, copy over answer contents.
base::string16 answer_contents;
base::string16 answer_type;
std::unique_ptr<SuggestionAnswer> answer;
base::string16 trimmed_verbatim_lower =
base::i18n::ToLower(trimmed_verbatim);
for (ACMatches::iterator it = matches_.begin(); it != matches_.end();
++it) {
if (it->answer &&
base::i18n::ToLower(it->fill_into_edit) == trimmed_verbatim_lower) {
answer_contents = it->answer_contents;
answer_type = it->answer_type;
answer = SuggestionAnswer::copy(it->answer.get());
break;
}
}
SearchSuggestionParser::SuggestResult verbatim(
trimmed_verbatim, AutocompleteMatchType::SEARCH_WHAT_YOU_TYPED, 0,
trimmed_verbatim, base::string16(), base::string16(), answer_contents,
answer_type, std::move(answer), std::string(), std::string(), false,
verbatim_relevance, relevance_from_server, false, trimmed_verbatim);
AddMatchToMap(verbatim, std::string(), did_not_accept_default_suggestion,
false, keyword_url != nullptr, &map);
}
if (!keyword_input_.text().empty()) {
// We only create the verbatim search query match for a keyword
// if it's not an extension keyword. Extension keywords are handled
// in KeywordProvider::Start(). (Extensions are complicated...)
// Note: in this provider, SEARCH_OTHER_ENGINE must correspond
// to the keyword verbatim search query. Do not create other matches
// of type SEARCH_OTHER_ENGINE.
if (keyword_url &&
(keyword_url->type() != TemplateURL::OMNIBOX_API_EXTENSION)) {
bool keyword_relevance_from_server;
const int keyword_verbatim_relevance =
GetKeywordVerbatimRelevance(&keyword_relevance_from_server);
if (keyword_verbatim_relevance > 0) {
const base::string16& trimmed_verbatim =
base::CollapseWhitespace(keyword_input_.text(), false);
SearchSuggestionParser::SuggestResult verbatim(
trimmed_verbatim, AutocompleteMatchType::SEARCH_OTHER_ENGINE, 0,
trimmed_verbatim, base::string16(), base::string16(),
base::string16(), base::string16(), nullptr, std::string(),
std::string(), true, keyword_verbatim_relevance,
keyword_relevance_from_server, false, trimmed_verbatim);
AddMatchToMap(verbatim, std::string(),
did_not_accept_keyword_suggestion, false, true, &map);
}
}
}
AddRawHistoryResultsToMap(true, did_not_accept_keyword_suggestion, &map);
AddRawHistoryResultsToMap(false, did_not_accept_default_suggestion, &map);
AddSuggestResultsToMap(keyword_results_.suggest_results,
keyword_results_.metadata, &map);
AddSuggestResultsToMap(default_results_.suggest_results,
default_results_.metadata, &map);
ACMatches matches;
for (MatchMap::const_iterator i(map.begin()); i != map.end(); ++i)
matches.push_back(i->second);
AddNavigationResultsToMatches(keyword_results_.navigation_results, &matches);
AddNavigationResultsToMatches(default_results_.navigation_results, &matches);
// Now add the most relevant matches to |matches_|. We take up to kMaxMatches
// suggest/navsuggest matches, regardless of origin. We always include in
// that set a legal default match if possible. If Instant Extended is enabled
// and we have server-provided (and thus hopefully more accurate) scores for
// some suggestions, we allow more of those, until we reach
// AutocompleteResult::GetMaxMatches() total matches (that is, enough to fill
// the whole popup).
//
// We will always return any verbatim matches, no matter how we obtained their
// scores, unless we have already accepted AutocompleteResult::GetMaxMatches()
// higher-scoring matches under the conditions above.
std::sort(matches.begin(), matches.end(), &AutocompleteMatch::MoreRelevant);
// Guarantee that if there's a legal default match anywhere in the result
// set that it'll get returned. The rotate() call does this by moving the
// default match to the front of the list.
ACMatches::iterator default_match =
AutocompleteResult::FindTopMatch(&matches);
if (default_match != matches.end())
std::rotate(matches.begin(), default_match, default_match + 1);
// It's possible to get a copy of an answer from previous matches and get the
// same or a different answer to another server-provided suggestion. In the
// future we may decide that we want to have answers attached to multiple
// suggestions, but the current assumption is that there should only ever be
// one suggestion with an answer. To maintain this assumption, remove any
// answers after the first.
RemoveExtraAnswers(&matches);
matches_.clear();
size_t num_suggestions = 0;
for (ACMatches::const_iterator i(matches.begin());
(i != matches.end()) &&
(matches_.size() < AutocompleteResult::GetMaxMatches());
++i) {
// SEARCH_OTHER_ENGINE is only used in the SearchProvider for the keyword
// verbatim result, so this condition basically means "if this match is a
// suggestion of some sort".
if ((i->type != AutocompleteMatchType::SEARCH_WHAT_YOU_TYPED) &&
(i->type != AutocompleteMatchType::SEARCH_OTHER_ENGINE)) {
// If we've already hit the limit on non-server-scored suggestions, and
// this isn't a server-scored suggestion we can add, skip it.
if ((num_suggestions >= kMaxMatches) &&
(!search::IsInstantExtendedAPIEnabled() ||
(i->GetAdditionalInfo(kRelevanceFromServerKey) != kTrue))) {
continue;
}
++num_suggestions;
}
matches_.push_back(*i);
}
UMA_HISTOGRAM_TIMES("Omnibox.SearchProvider.ConvertResultsTime",
base::TimeTicks::Now() - start_time);
}
void SearchProvider::RemoveExtraAnswers(ACMatches* matches) {
bool answer_seen = false;
for (ACMatches::iterator it = matches->begin(); it != matches->end(); ++it) {
if (it->answer) {
if (!answer_seen) {
answer_seen = true;
} else {
it->answer_contents.clear();
it->answer_type.clear();
it->answer.reset();
}
}
}
}
bool SearchProvider::IsTopMatchSearchWithURLInput() const {
ACMatches::const_iterator first_match =
AutocompleteResult::FindTopMatch(matches_);
return (input_.type() == metrics::OmniboxInputType::URL) &&
(first_match != matches_.end()) &&
(first_match->relevance > CalculateRelevanceForVerbatim()) &&
(first_match->type != AutocompleteMatchType::NAVSUGGEST) &&
(first_match->type != AutocompleteMatchType::NAVSUGGEST_PERSONALIZED);
}
void SearchProvider::AddNavigationResultsToMatches(
const SearchSuggestionParser::NavigationResults& navigation_results,
ACMatches* matches) {
for (SearchSuggestionParser::NavigationResults::const_iterator it =
navigation_results.begin(); it != navigation_results.end(); ++it) {
matches->push_back(NavigationToMatch(*it));
// In the absence of suggested relevance scores, use only the single
// highest-scoring result. (The results are already sorted by relevance.)
if (!it->relevance_from_server())
return;
}
}
void SearchProvider::AddRawHistoryResultsToMap(bool is_keyword,
int did_not_accept_suggestion,
MatchMap* map) {
base::TimeTicks start_time(base::TimeTicks::Now());
const SearchSuggestionParser::SuggestResults* transformed_results =
is_keyword ? &transformed_keyword_history_results_
: &transformed_default_history_results_;
DCHECK(transformed_results);
AddTransformedHistoryResultsToMap(
*transformed_results, did_not_accept_suggestion, map);
UMA_HISTOGRAM_TIMES("Omnibox.SearchProvider.AddHistoryResultsTime",
base::TimeTicks::Now() - start_time);
}
void SearchProvider::AddTransformedHistoryResultsToMap(
const SearchSuggestionParser::SuggestResults& transformed_results,
int did_not_accept_suggestion,
MatchMap* map) {
for (SearchSuggestionParser::SuggestResults::const_iterator i(
transformed_results.begin());
i != transformed_results.end();
++i) {
AddMatchToMap(*i, std::string(), did_not_accept_suggestion, true,
providers_.GetKeywordProviderURL() != nullptr, map);
}
}
SearchSuggestionParser::SuggestResults
SearchProvider::ScoreHistoryResultsHelper(const HistoryResults& results,
bool base_prevent_inline_autocomplete,
bool input_multiple_words,
const base::string16& input_text,
bool is_keyword) {
SearchSuggestionParser::SuggestResults scored_results;
// True if the user has asked this exact query previously.
bool found_what_you_typed_match = false;
const bool prevent_search_history_inlining =
OmniboxFieldTrial::SearchHistoryPreventInlining(
input_.current_page_classification());
const base::string16& trimmed_input =
base::CollapseWhitespace(input_text, false);
for (HistoryResults::const_iterator i(results.begin()); i != results.end();
++i) {
const base::string16& trimmed_suggestion =
base::CollapseWhitespace(i->term, false);
// Don't autocomplete multi-word queries that have only been seen once
// unless the user has typed more than one word.
bool prevent_inline_autocomplete = base_prevent_inline_autocomplete ||
(!input_multiple_words && (i->visits < 2) &&
HasMultipleWords(trimmed_suggestion));
int relevance = CalculateRelevanceForHistory(
i->time, is_keyword, !prevent_inline_autocomplete,
prevent_search_history_inlining);
// Add the match to |scored_results| by putting the what-you-typed match
// on the front and appending all other matches. We want the what-you-
// typed match to always be first.
SearchSuggestionParser::SuggestResults::iterator insertion_position =
scored_results.end();
if (trimmed_suggestion == trimmed_input) {
found_what_you_typed_match = true;
insertion_position = scored_results.begin();
}
SearchSuggestionParser::SuggestResult history_suggestion(
trimmed_suggestion, AutocompleteMatchType::SEARCH_HISTORY, 0,
trimmed_suggestion, base::string16(), base::string16(),
base::string16(), base::string16(), nullptr, std::string(),
std::string(), is_keyword, relevance, false, false, trimmed_input);
// History results are synchronous; they are received on the last keystroke.
history_suggestion.set_received_after_last_keystroke(false);
scored_results.insert(insertion_position, history_suggestion);
}
// History returns results sorted for us. However, we may have docked some
// results' scores, so things are no longer in order. While keeping the
// what-you-typed match at the front (if it exists), do a stable sort to get
// things back in order without otherwise disturbing results with equal
// scores, then force the scores to be unique, so that the order in which
// they're shown is deterministic.
std::stable_sort(scored_results.begin() +
(found_what_you_typed_match ? 1 : 0),
scored_results.end(),
CompareScoredResults());
// Don't autocomplete to search terms that would normally be treated as URLs
// when typed. For example, if the user searched for "google.com" and types
// "goog", don't autocomplete to the search term "google.com". Otherwise,
// the input will look like a URL but act like a search, which is confusing.
// The 1200 relevance score threshold in the test below is the lowest
// possible score in CalculateRelevanceForHistory()'s aggressive-scoring
// curve. This is an appropriate threshold to use to decide if we're overly
// aggressively inlining because, if we decide the answer is yes, the
// way we resolve it it to not use the aggressive-scoring curve.
// NOTE: We don't check for autocompleting to URLs in the following cases:
// * When inline autocomplete is disabled, we won't be inline autocompleting
// this term, so we don't need to worry about confusion as much. This
// also prevents calling Classify() again from inside the classifier
// (which will corrupt state and likely crash), since the classifier
// always disables inline autocomplete.
// * When the user has typed the whole string before as a query, then it's
// likely the user has no expectation that term should be interpreted as
// as a URL, so we need not do anything special to preserve user
// expectation.
int last_relevance = 0;
if (!base_prevent_inline_autocomplete && !found_what_you_typed_match &&
scored_results.front().relevance() >= 1200) {
AutocompleteMatch match;
client()->Classify(scored_results.front().suggestion(), false, false,
input_.current_page_classification(), &match, nullptr);
// Demote this match that would normally be interpreted as a URL to have
// the highest score a previously-issued search query could have when
// scoring with the non-aggressive method. A consequence of demoting
// by revising |last_relevance| is that this match and all following
// matches get demoted; the relative order of matches is preserved.
// One could imagine demoting only those matches that might cause
// confusion (which, by the way, might change the relative order of
// matches. We have decided to go with the simple demote-all approach
// because selective demotion requires multiple Classify() calls and
// such calls can be expensive (as expensive as running the whole
// autocomplete system).
if (!AutocompleteMatch::IsSearchType(match.type)) {
last_relevance = CalculateRelevanceForHistory(
base::Time::Now(), is_keyword, false,
prevent_search_history_inlining);
}
}
for (SearchSuggestionParser::SuggestResults::iterator i(
scored_results.begin()); i != scored_results.end(); ++i) {
if ((last_relevance != 0) && (i->relevance() >= last_relevance))
i->set_relevance(last_relevance - 1);
last_relevance = i->relevance();
}
return scored_results;
}
void SearchProvider::ScoreHistoryResults(
const HistoryResults& results,
bool is_keyword,
SearchSuggestionParser::SuggestResults* scored_results) {
DCHECK(scored_results);
scored_results->clear();
if (results.empty()) {
return;
}
bool prevent_inline_autocomplete =
input_.prevent_inline_autocomplete() ||
(input_.type() == metrics::OmniboxInputType::URL);
const base::string16 input_text = GetInput(is_keyword).text();
bool input_multiple_words = HasMultipleWords(input_text);
if (!prevent_inline_autocomplete && input_multiple_words) {
// ScoreHistoryResultsHelper() allows autocompletion of multi-word, 1-visit
// queries if the input also has multiple words. But if we were already
// scoring a multi-word, multi-visit query aggressively, and the current
// input is still a prefix of it, then changing the suggestion suddenly
// feels wrong. To detect this case, first score as if only one word has
// been typed, then check if the best result came from aggressive search
// history scoring. If it did, then just keep that score set. This
// 1200 the lowest possible score in CalculateRelevanceForHistory()'s
// aggressive-scoring curve.
*scored_results = ScoreHistoryResultsHelper(
results, prevent_inline_autocomplete, false, input_text, is_keyword);
if ((scored_results->front().relevance() < 1200) ||
!HasMultipleWords(scored_results->front().suggestion()))
scored_results->clear(); // Didn't detect the case above, score normally.
}
if (scored_results->empty()) {
*scored_results = ScoreHistoryResultsHelper(results,
prevent_inline_autocomplete,
input_multiple_words,
input_text,
is_keyword);
}
}
void SearchProvider::AddSuggestResultsToMap(
const SearchSuggestionParser::SuggestResults& results,
const std::string& metadata,
MatchMap* map) {
for (size_t i = 0; i < results.size(); ++i) {
AddMatchToMap(results[i], metadata, i, false,
providers_.GetKeywordProviderURL() != nullptr, map);
}
}
int SearchProvider::GetVerbatimRelevance(bool* relevance_from_server) const {
// Use the suggested verbatim relevance score if it is non-negative (valid),
// if inline autocomplete isn't prevented (always show verbatim on backspace),
// and if it won't suppress verbatim, leaving no default provider matches.
// Otherwise, if the default provider returned no matches and was still able
// to suppress verbatim, the user would have no search/nav matches and may be
// left unable to search using their default provider from the omnibox.
// Check for results on each verbatim calculation, as results from older
// queries (on previous input) may be trimmed for failing to inline new input.
bool use_server_relevance =
(default_results_.verbatim_relevance >= 0) &&
!input_.prevent_inline_autocomplete() &&
((default_results_.verbatim_relevance > 0) ||
!default_results_.suggest_results.empty() ||
!default_results_.navigation_results.empty());
if (relevance_from_server)
*relevance_from_server = use_server_relevance;
return use_server_relevance ?
default_results_.verbatim_relevance : CalculateRelevanceForVerbatim();
}
int SearchProvider::CalculateRelevanceForVerbatim() const {
if (!providers_.keyword_provider().empty())
return 250;
return CalculateRelevanceForVerbatimIgnoringKeywordModeState();
}
int SearchProvider::
CalculateRelevanceForVerbatimIgnoringKeywordModeState() const {
switch (input_.type()) {
case metrics::OmniboxInputType::UNKNOWN:
case metrics::OmniboxInputType::QUERY:
return kNonURLVerbatimRelevance;
case metrics::OmniboxInputType::URL:
return 850;
default:
NOTREACHED();
return 0;
}
}
int SearchProvider::GetKeywordVerbatimRelevance(
bool* relevance_from_server) const {
// Use the suggested verbatim relevance score if it is non-negative (valid),
// if inline autocomplete isn't prevented (always show verbatim on backspace),
// and if it won't suppress verbatim, leaving no keyword provider matches.
// Otherwise, if the keyword provider returned no matches and was still able
// to suppress verbatim, the user would have no search/nav matches and may be
// left unable to search using their keyword provider from the omnibox.
// Check for results on each verbatim calculation, as results from older
// queries (on previous input) may be trimmed for failing to inline new input.
bool use_server_relevance =
(keyword_results_.verbatim_relevance >= 0) &&
!input_.prevent_inline_autocomplete() &&
((keyword_results_.verbatim_relevance > 0) ||
!keyword_results_.suggest_results.empty() ||
!keyword_results_.navigation_results.empty());
if (relevance_from_server)
*relevance_from_server = use_server_relevance;
return use_server_relevance ?
keyword_results_.verbatim_relevance :
CalculateRelevanceForKeywordVerbatim(keyword_input_.type(),
true,
keyword_input_.prefer_keyword());
}
int SearchProvider::CalculateRelevanceForHistory(
const base::Time& time,
bool is_keyword,
bool use_aggressive_method,
bool prevent_search_history_inlining) const {
// The relevance of past searches falls off over time. There are two distinct
// equations used. If the first equation is used (searches to the primary
// provider that we want to score aggressively), the score is in the range
// 1300-1599 (unless |prevent_search_history_inlining|, in which case
// it's in the range 1200-1299). If the second equation is used the
// relevance of a search 15 minutes ago is discounted 50 points, while the
// relevance of a search two weeks ago is discounted 450 points.
double elapsed_time = std::max((base::Time::Now() - time).InSecondsF(), 0.0);
bool is_primary_provider = is_keyword || !providers_.has_keyword_provider();
if (is_primary_provider && use_aggressive_method) {
// Searches with the past two days get a different curve.
const double autocomplete_time = 2 * 24 * 60 * 60;
if (elapsed_time < autocomplete_time) {
int max_score = is_keyword ? 1599 : 1399;
if (prevent_search_history_inlining)
max_score = 1299;
return max_score - static_cast<int>(99 *
std::pow(elapsed_time / autocomplete_time, 2.5));
}
elapsed_time -= autocomplete_time;
}
const int score_discount =
static_cast<int>(6.5 * std::pow(elapsed_time, 0.3));
// Don't let scores go below 0. Negative relevance scores are meaningful in
// a different way.
int base_score;
if (is_primary_provider)
base_score = (input_.type() == metrics::OmniboxInputType::URL) ? 750 : 1050;
else
base_score = 200;
return std::max(0, base_score - score_discount);
}
AutocompleteMatch SearchProvider::NavigationToMatch(
const SearchSuggestionParser::NavigationResult& navigation) {
base::string16 input;
const bool trimmed_whitespace = base::TrimWhitespace(
navigation.from_keyword_provider() ?
keyword_input_.text() : input_.text(),
base::TRIM_TRAILING, &input) != base::TRIM_NONE;
AutocompleteMatch match(this, navigation.relevance(), false,
navigation.type());
match.destination_url = navigation.url();
match.subtype_identifier = navigation.subtype_identifier();
BaseSearchProvider::SetDeletionURL(navigation.deletion_url(), &match);
// First look for the user's input inside the formatted url as it would be
// without trimming the scheme, so we can find matches at the beginning of the
// scheme.
const URLPrefix* prefix =
URLPrefix::BestURLPrefix(navigation.formatted_url(), input);
size_t match_start = (prefix == nullptr)
? navigation.formatted_url().find(input)
: prefix->prefix.length();
bool trim_http = !AutocompleteInput::HasHTTPScheme(input) &&
(!prefix || (match_start != 0));
const url_formatter::FormatUrlTypes format_types =
url_formatter::kFormatUrlOmitDefaults &
~(trim_http ? 0 : url_formatter::kFormatUrlOmitHTTP);
size_t inline_autocomplete_offset = (prefix == nullptr)
? base::string16::npos
: (match_start + input.length());
match.fill_into_edit +=
AutocompleteInput::FormattedStringWithEquivalentMeaning(
navigation.url(),
url_formatter::FormatUrl(navigation.url(), format_types,
net::UnescapeRule::SPACES, nullptr, nullptr,
&inline_autocomplete_offset),
client()->GetSchemeClassifier());
if (inline_autocomplete_offset != base::string16::npos) {
DCHECK(inline_autocomplete_offset <= match.fill_into_edit.length());
match.inline_autocompletion =
match.fill_into_edit.substr(inline_autocomplete_offset);
}
// An inlineable navsuggestion can only be the default match when there
// is no keyword provider active, lest it appear first and break the user
// out of keyword mode. We also must have received the navsuggestion before
// the last keystroke, to prevent asynchronous inline autocompletions changes.
// The navsuggestion can also only be default if either the inline
// autocompletion is empty or we're not preventing inline autocompletion.
// Finally, if we have an inlineable navsuggestion with an inline completion
// that we're not preventing, make sure we didn't trim any whitespace.
// We don't want to claim http://foo.com/bar is inlineable against the
// input "foo.com/b ".
match.allowed_to_be_default_match =
(prefix != nullptr) && (providers_.GetKeywordProviderURL() == nullptr) &&
!navigation.received_after_last_keystroke() &&
(match.inline_autocompletion.empty() ||
(!input_.prevent_inline_autocomplete() && !trimmed_whitespace));
match.EnsureUWYTIsAllowedToBeDefault(input_,
client()->GetTemplateURLService());
match.contents = navigation.match_contents();
match.contents_class = navigation.match_contents_class();
match.description = navigation.description();
AutocompleteMatch::ClassifyMatchInString(input, match.description,
ACMatchClassification::NONE, &match.description_class);
match.RecordAdditionalInfo(
kRelevanceFromServerKey,
navigation.relevance_from_server() ? kTrue : kFalse);
match.RecordAdditionalInfo(kShouldPrefetchKey, kFalse);
return match;
}
void SearchProvider::UpdateDone() {
// We're done when the timer isn't running and there are no suggest queries
// pending.
done_ = !timer_.IsRunning() && !default_fetcher_ && !keyword_fetcher_;
}
std::string SearchProvider::GetSessionToken() {
base::TimeTicks current_time(base::TimeTicks::Now());
// Renew token if it expired.
if (current_time > token_expiration_time_) {
const size_t kTokenBytes = 12;
std::string raw_data;
base::RandBytes(base::WriteInto(&raw_data, kTokenBytes + 1), kTokenBytes);
base::Base64Encode(raw_data, &current_token_);
// Make the base64 encoded value URL and filename safe(see RFC 3548).
std::replace(current_token_.begin(), current_token_.end(), '+', '-');
std::replace(current_token_.begin(), current_token_.end(), '/', '_');
}
// Extend expiration time another 60 seconds.
token_expiration_time_ = current_time + base::TimeDelta::FromSeconds(60);
return current_token_;
}
AnswersQueryData SearchProvider::FindAnswersPrefetchData() {
// Retrieve the top entry from scored history results.
MatchMap map;
AddTransformedHistoryResultsToMap(transformed_keyword_history_results_,
TemplateURLRef::NO_SUGGESTIONS_AVAILABLE,
&map);
AddTransformedHistoryResultsToMap(transformed_default_history_results_,
TemplateURLRef::NO_SUGGESTIONS_AVAILABLE,
&map);
ACMatches matches;
for (MatchMap::const_iterator i(map.begin()); i != map.end(); ++i)
matches.push_back(i->second);
std::sort(matches.begin(), matches.end(), &AutocompleteMatch::MoreRelevant);
// If there is a top scoring entry, find the corresponding answer.
if (!matches.empty())
return answers_cache_.GetTopAnswerEntry(matches[0].contents);
return AnswersQueryData();
}