// Copyright (c) 2011 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 "chrome/browser/search_engines/template_url.h" #include "base/i18n/icu_string_conversions.h" #include "base/i18n/rtl.h" #include "base/logging.h" #include "base/string_number_conversions.h" #include "base/utf_string_conversions.h" #include "chrome/browser/metrics/user_metrics.h" #include "chrome/browser/search_engines/search_engine_type.h" #include "chrome/browser/search_engines/search_terms_data.h" #include "chrome/browser/search_engines/template_url_model.h" #include "chrome/common/url_constants.h" #include "chrome/installer/util/google_update_settings.h" #include "net/base/escape.h" #include "ui/base/l10n/l10n_util.h" #include "ui/gfx/favicon_size.h" // TODO(pastarmovj): Remove google_update_settings and user_metrics when the // CollectRLZMetrics function is not needed anymore. // The TemplateURLRef has any number of terms that need to be replaced. Each of // the terms is enclosed in braces. If the character preceeding the final // brace is a ?, it indicates the term is optional and can be replaced with // an empty string. static const char kStartParameter = '{'; static const char kEndParameter = '}'; static const char kOptional = '?'; // Known parameters found in the URL. static const char kSearchTermsParameter[] = "searchTerms"; static const char kSearchTermsParameterFull[] = "{searchTerms}"; static const char kCountParameter[] = "count"; static const char kStartIndexParameter[] = "startIndex"; static const char kStartPageParameter[] = "startPage"; static const char kLanguageParameter[] = "language"; static const char kInputEncodingParameter[] = "inputEncoding"; static const char kOutputEncodingParameter[] = "outputEncoding"; static const char kGoogleAcceptedSuggestionParameter[] = "google:acceptedSuggestion"; // Host/Domain Google searches are relative to. static const char kGoogleBaseURLParameter[] = "google:baseURL"; static const char kGoogleBaseURLParameterFull[] = "{google:baseURL}"; // Like google:baseURL, but for the Search Suggest capability. static const char kGoogleBaseSuggestURLParameter[] = "google:baseSuggestURL"; static const char kGoogleBaseSuggestURLParameterFull[] = "{google:baseSuggestURL}"; static const char kGoogleOriginalQueryForSuggestionParameter[] = "google:originalQueryForSuggestion"; static const char kGoogleRLZParameter[] = "google:RLZ"; // Same as kSearchTermsParameter, with no escaping. static const char kGoogleUnescapedSearchTermsParameter[] = "google:unescapedSearchTerms"; static const char kGoogleUnescapedSearchTermsParameterFull[] = "{google:unescapedSearchTerms}"; // Display value for kSearchTermsParameter. static const char kDisplaySearchTerms[] = "%s"; // Display value for kGoogleUnescapedSearchTermsParameter. static const char kDisplayUnescapedSearchTerms[] = "%S"; // Used if the count parameter is not optional. Indicates we want 10 search // results. static const char kDefaultCount[] = "10"; // Used if the parameter kOutputEncodingParameter is required. static const char kOutputEncodingType[] = "UTF-8"; TemplateURLRef::TemplateURLRef() { Set(std::string(), 0, 0); } TemplateURLRef::TemplateURLRef(const std::string& url, int index_offset, int page_offset) : url_(url), index_offset_(index_offset), page_offset_(page_offset), parsed_(false), valid_(false), supports_replacements_(false) { } void TemplateURLRef::Set(const std::string& url, int index_offset, int page_offset) { url_ = url; index_offset_ = index_offset; page_offset_ = page_offset; InvalidateCachedValues(); } TemplateURLRef::~TemplateURLRef() { } bool TemplateURLRef::ParseParameter(size_t start, size_t end, std::string* url, Replacements* replacements) const { DCHECK(start != std::string::npos && end != std::string::npos && end > start); size_t length = end - start - 1; bool optional = false; if ((*url)[end - 1] == kOptional) { optional = true; length--; } std::string parameter(url->substr(start + 1, length)); std::string full_parameter(url->substr(start, end - start + 1)); // Remove the parameter from the string. url->erase(start, end - start + 1); if (parameter == kSearchTermsParameter) { replacements->push_back(Replacement(SEARCH_TERMS, start)); } else if (parameter == kCountParameter) { if (!optional) url->insert(start, kDefaultCount); } else if (parameter == kStartIndexParameter) { if (!optional) { url->insert(start, base::IntToString(index_offset_)); } } else if (parameter == kStartPageParameter) { if (!optional) { url->insert(start, base::IntToString(page_offset_)); } } else if (parameter == kLanguageParameter) { replacements->push_back(Replacement(LANGUAGE, start)); } else if (parameter == kInputEncodingParameter) { replacements->push_back(Replacement(ENCODING, start)); } else if (parameter == kOutputEncodingParameter) { if (!optional) url->insert(start, kOutputEncodingType); } else if (parameter == kGoogleAcceptedSuggestionParameter) { replacements->push_back(Replacement(GOOGLE_ACCEPTED_SUGGESTION, start)); } else if (parameter == kGoogleBaseURLParameter) { replacements->push_back(Replacement(GOOGLE_BASE_URL, start)); } else if (parameter == kGoogleBaseSuggestURLParameter) { replacements->push_back(Replacement(GOOGLE_BASE_SUGGEST_URL, start)); } else if (parameter == kGoogleOriginalQueryForSuggestionParameter) { replacements->push_back(Replacement(GOOGLE_ORIGINAL_QUERY_FOR_SUGGESTION, start)); } else if (parameter == kGoogleRLZParameter) { replacements->push_back(Replacement(GOOGLE_RLZ, start)); } else if (parameter == kGoogleUnescapedSearchTermsParameter) { replacements->push_back(Replacement(GOOGLE_UNESCAPED_SEARCH_TERMS, start)); } else { // It can be some garbage but can also be a javascript block. Put it back. url->insert(start, full_parameter); return false; } return true; } std::string TemplateURLRef::ParseURL(const std::string& url, Replacements* replacements, bool* valid) const { *valid = false; std::string parsed_url = url; for (size_t last = 0; last != std::string::npos; ) { last = parsed_url.find(kStartParameter, last); if (last != std::string::npos) { size_t template_end = parsed_url.find(kEndParameter, last); if (template_end != std::string::npos) { // Since we allow Javascript in the URL, {} pairs could be nested. Match // only leaf pairs with supported parameters. size_t next_template_start = parsed_url.find(kStartParameter, last + 1); if (next_template_start == std::string::npos || next_template_start > template_end) { // If successful, ParseParameter erases from the string as such no // need to update |last|. If failed, move |last| to the end of pair. if (!ParseParameter(last, template_end, &parsed_url, replacements)) { // |template_end| + 1 may be beyond the end of the string. last = template_end; } } else { last = next_template_start; } } else { // Open brace without a closing brace, return. return std::string(); } } } *valid = true; return parsed_url; } void TemplateURLRef::ParseIfNecessary() const { UIThreadSearchTermsData search_terms_data; ParseIfNecessaryUsingTermsData(search_terms_data); } void TemplateURLRef::ParseIfNecessaryUsingTermsData( const SearchTermsData& search_terms_data) const { if (!parsed_) { parsed_ = true; parsed_url_ = ParseURL(url_, &replacements_, &valid_); supports_replacements_ = false; if (valid_) { bool has_only_one_search_term = false; for (Replacements::const_iterator i = replacements_.begin(); i != replacements_.end(); ++i) { if ((i->type == SEARCH_TERMS) || (i->type == GOOGLE_UNESCAPED_SEARCH_TERMS)) { if (has_only_one_search_term) { has_only_one_search_term = false; break; } has_only_one_search_term = true; supports_replacements_ = true; } } // Only parse the host/key if there is one search term. Technically there // could be more than one term, but it's uncommon; so we punt. if (has_only_one_search_term) ParseHostAndSearchTermKey(search_terms_data); } } } void TemplateURLRef::ParseHostAndSearchTermKey( const SearchTermsData& search_terms_data) const { std::string url_string = url_; ReplaceSubstringsAfterOffset(&url_string, 0, kGoogleBaseURLParameterFull, search_terms_data.GoogleBaseURLValue()); ReplaceSubstringsAfterOffset(&url_string, 0, kGoogleBaseSuggestURLParameterFull, search_terms_data.GoogleBaseSuggestURLValue()); GURL url(url_string); if (!url.is_valid()) return; std::string query_string = url.query(); if (query_string.empty()) return; url_parse::Component query, key, value; query.len = static_cast(query_string.size()); while (url_parse::ExtractQueryKeyValue(query_string.c_str(), &query, &key, &value)) { if (key.is_nonempty() && value.is_nonempty()) { std::string value_string = query_string.substr(value.begin, value.len); if (value_string.find(kSearchTermsParameterFull, 0) != std::string::npos || value_string.find(kGoogleUnescapedSearchTermsParameterFull, 0) != std::string::npos) { search_term_key_ = query_string.substr(key.begin, key.len); host_ = url.host(); path_ = url.path(); break; } } } } // static void TemplateURLRef::SetGoogleBaseURL(std::string* google_base_url) { UIThreadSearchTermsData::SetGoogleBaseURL(google_base_url); } std::string TemplateURLRef::ReplaceSearchTerms( const TemplateURL& host, const string16& terms, int accepted_suggestion, const string16& original_query_for_suggestion) const { UIThreadSearchTermsData search_terms_data; return ReplaceSearchTermsUsingTermsData(host, terms, accepted_suggestion, original_query_for_suggestion, search_terms_data); } std::string TemplateURLRef::ReplaceSearchTermsUsingTermsData( const TemplateURL& host, const string16& terms, int accepted_suggestion, const string16& original_query_for_suggestion, const SearchTermsData& search_terms_data) const { ParseIfNecessaryUsingTermsData(search_terms_data); if (!valid_) return std::string(); if (replacements_.empty()) return parsed_url_; // Determine if the search terms are in the query or before. We're escaping // space as '+' in the former case and as '%20' in the latter case. bool is_in_query = true; for (Replacements::iterator i = replacements_.begin(); i != replacements_.end(); ++i) { if (i->type == SEARCH_TERMS) { string16::size_type query_start = parsed_url_.find('?'); is_in_query = query_start != string16::npos && (static_cast(i->index) > query_start); break; } } string16 encoded_terms; string16 encoded_original_query; std::string input_encoding; // If the search terms are in query - escape them respecting the encoding. if (is_in_query) { // Encode the search terms so that we know the encoding. const std::vector& encodings = host.input_encodings(); for (size_t i = 0; i < encodings.size(); ++i) { if (EscapeQueryParamValue(terms, encodings[i].c_str(), true, &encoded_terms)) { if (!original_query_for_suggestion.empty()) { EscapeQueryParamValue(original_query_for_suggestion, encodings[i].c_str(), true, &encoded_original_query); } input_encoding = encodings[i]; break; } } if (input_encoding.empty()) { encoded_terms = EscapeQueryParamValueUTF8(terms, true); if (!original_query_for_suggestion.empty()) { encoded_original_query = EscapeQueryParamValueUTF8(original_query_for_suggestion, true); } input_encoding = "UTF-8"; } } else { encoded_terms = UTF8ToUTF16(EscapePath(UTF16ToUTF8(terms))); input_encoding = "UTF-8"; } std::string url = parsed_url_; // replacements_ is ordered in ascending order, as such we need to iterate // from the back. for (Replacements::reverse_iterator i = replacements_.rbegin(); i != replacements_.rend(); ++i) { switch (i->type) { case ENCODING: url.insert(i->index, input_encoding); break; case GOOGLE_ACCEPTED_SUGGESTION: if (accepted_suggestion == NO_SUGGESTION_CHOSEN) url.insert(i->index, "aq=f&"); else if (accepted_suggestion != NO_SUGGESTIONS_AVAILABLE) url.insert(i->index, StringPrintf("aq=%d&", accepted_suggestion)); break; case GOOGLE_BASE_URL: url.insert(i->index, search_terms_data.GoogleBaseURLValue()); break; case GOOGLE_BASE_SUGGEST_URL: url.insert(i->index, search_terms_data.GoogleBaseSuggestURLValue()); break; case GOOGLE_ORIGINAL_QUERY_FOR_SUGGESTION: if (accepted_suggestion >= 0) url.insert(i->index, "oq=" + UTF16ToUTF8(encoded_original_query) + "&"); break; case GOOGLE_RLZ: { // On platforms that don't have RLZ, we still want this branch // to happen so that we replace the RLZ template with the // empty string. (If we don't handle this case, we hit a // NOTREACHED below.) #if defined(OS_WIN) && defined(GOOGLE_CHROME_BUILD) string16 rlz_string = search_terms_data.GetRlzParameterValue(); if (!rlz_string.empty()) { rlz_string = L"rlz=" + rlz_string + L"&"; url.insert(i->index, UTF16ToUTF8(rlz_string)); } #endif break; } case GOOGLE_UNESCAPED_SEARCH_TERMS: { std::string unescaped_terms; base::UTF16ToCodepage(terms, input_encoding.c_str(), base::OnStringConversionError::SKIP, &unescaped_terms); url.insert(i->index, std::string(unescaped_terms.begin(), unescaped_terms.end())); break; } case LANGUAGE: url.insert(i->index, search_terms_data.GetApplicationLocale()); break; case SEARCH_TERMS: url.insert(i->index, UTF16ToUTF8(encoded_terms)); break; default: NOTREACHED(); break; } } return url; } bool TemplateURLRef::SupportsReplacement() const { UIThreadSearchTermsData search_terms_data; return SupportsReplacementUsingTermsData(search_terms_data); } bool TemplateURLRef::SupportsReplacementUsingTermsData( const SearchTermsData& search_terms_data) const { ParseIfNecessaryUsingTermsData(search_terms_data); return valid_ && supports_replacements_; } bool TemplateURLRef::IsValid() const { UIThreadSearchTermsData search_terms_data; return IsValidUsingTermsData(search_terms_data); } bool TemplateURLRef::IsValidUsingTermsData( const SearchTermsData& search_terms_data) const { ParseIfNecessaryUsingTermsData(search_terms_data); return valid_; } string16 TemplateURLRef::DisplayURL() const { ParseIfNecessary(); if (!valid_ || replacements_.empty()) return UTF8ToUTF16(url_); string16 result = UTF8ToUTF16(url_); ReplaceSubstringsAfterOffset(&result, 0, ASCIIToUTF16(kSearchTermsParameterFull), ASCIIToUTF16(kDisplaySearchTerms)); ReplaceSubstringsAfterOffset( &result, 0, ASCIIToUTF16(kGoogleUnescapedSearchTermsParameterFull), ASCIIToUTF16(kDisplayUnescapedSearchTerms)); return result; } // static std::string TemplateURLRef::DisplayURLToURLRef( const string16& display_url) { string16 result = display_url; ReplaceSubstringsAfterOffset(&result, 0, ASCIIToUTF16(kDisplaySearchTerms), ASCIIToUTF16(kSearchTermsParameterFull)); ReplaceSubstringsAfterOffset( &result, 0, ASCIIToUTF16(kDisplayUnescapedSearchTerms), ASCIIToUTF16(kGoogleUnescapedSearchTermsParameterFull)); return UTF16ToUTF8(result); } const std::string& TemplateURLRef::GetHost() const { ParseIfNecessary(); return host_; } const std::string& TemplateURLRef::GetPath() const { ParseIfNecessary(); return path_; } const std::string& TemplateURLRef::GetSearchTermKey() const { ParseIfNecessary(); return search_term_key_; } string16 TemplateURLRef::SearchTermToString16(const TemplateURL& host, const std::string& term) const { const std::vector& encodings = host.input_encodings(); string16 result; std::string unescaped = UnescapeURLComponent(term, UnescapeRule::REPLACE_PLUS_WITH_SPACE | UnescapeRule::URL_SPECIAL_CHARS); for (size_t i = 0; i < encodings.size(); ++i) { if (base::CodepageToUTF16(unescaped, encodings[i].c_str(), base::OnStringConversionError::FAIL, &result)) return result; } // Always fall back on UTF-8 if it works. if (base::CodepageToUTF16(unescaped, base::kCodepageUTF8, base::OnStringConversionError::FAIL, &result)) return result; // When nothing worked, just use the escaped text. We have no idea what the // encoding is. We need to substitute spaces for pluses ourselves since we're // not sending it through an unescaper. result = UTF8ToUTF16(term); std::replace(result.begin(), result.end(), '+', ' '); return result; } bool TemplateURLRef::HasGoogleBaseURLs() const { ParseIfNecessary(); for (size_t i = 0; i < replacements_.size(); ++i) { if ((replacements_[i].type == GOOGLE_BASE_URL) || (replacements_[i].type == GOOGLE_BASE_SUGGEST_URL)) return true; } return false; } // static bool TemplateURLRef::SameUrlRefs(const TemplateURLRef* ref1, const TemplateURLRef* ref2) { return ref1 == ref2 || (ref1 && ref2 && ref1->url() == ref2->url()); } void TemplateURLRef::CollectRLZMetrics() const { #if defined(OS_WIN) && defined(GOOGLE_CHROME_BUILD) ParseIfNecessary(); for (size_t i = 0; i < replacements_.size(); ++i) { // We are interesed in searches that were supposed to send the RLZ token. if (replacements_[i].type == GOOGLE_RLZ) { string16 brand; // We only have RLZ tocken on a branded browser version. if (GoogleUpdateSettings::GetBrand(&brand) && !brand.empty() && !GoogleUpdateSettings::IsOrganic(brand)) { // Now we know we should have had RLZ token check if there was one. if (url().find("rlz=") != std::string::npos) UserMetrics::RecordAction(UserMetricsAction("SearchWithRLZ")); else UserMetrics::RecordAction(UserMetricsAction("SearchWithoutRLZ")); } return; } } #endif } void TemplateURLRef::InvalidateCachedValues() const { supports_replacements_ = valid_ = parsed_ = false; host_.clear(); path_.clear(); search_term_key_.clear(); replacements_.clear(); } // TemplateURL ---------------------------------------------------------------- // static GURL TemplateURL::GenerateFaviconURL(const GURL& url) { DCHECK(url.is_valid()); GURL::Replacements rep; const char favicon_path[] = "/favicon.ico"; int favicon_path_len = arraysize(favicon_path) - 1; rep.SetPath(favicon_path, url_parse::Component(0, favicon_path_len)); rep.ClearUsername(); rep.ClearPassword(); rep.ClearQuery(); rep.ClearRef(); return url.ReplaceComponents(rep); } // static bool TemplateURL::SupportsReplacement(const TemplateURL* turl) { UIThreadSearchTermsData search_terms_data; return SupportsReplacementUsingTermsData(turl, search_terms_data); } // static bool TemplateURL::SupportsReplacementUsingTermsData( const TemplateURL* turl, const SearchTermsData& search_terms_data) { return turl && turl->url() && turl->url()->SupportsReplacementUsingTermsData(search_terms_data); } TemplateURL::TemplateURL() : autogenerate_keyword_(false), keyword_generated_(false), show_in_default_list_(false), safe_for_autoreplace_(false), id_(0), date_created_(base::Time::Now()), created_by_policy_(false), usage_count_(0), search_engine_type_(SEARCH_ENGINE_OTHER), logo_id_(kNoSearchEngineLogo), prepopulate_id_(0) { } TemplateURL::~TemplateURL() { } string16 TemplateURL::AdjustedShortNameForLocaleDirection() const { string16 bidi_safe_short_name = short_name_; base::i18n::AdjustStringForLocaleDirection(&bidi_safe_short_name); return bidi_safe_short_name; } void TemplateURL::SetSuggestionsURL(const std::string& suggestions_url, int index_offset, int page_offset) { suggestions_url_.Set(suggestions_url, index_offset, page_offset); } void TemplateURL::SetURL(const std::string& url, int index_offset, int page_offset) { url_.Set(url, index_offset, page_offset); } void TemplateURL::SetInstantURL(const std::string& url, int index_offset, int page_offset) { instant_url_.Set(url, index_offset, page_offset); } void TemplateURL::set_keyword(const string16& keyword) { // Case sensitive keyword matching is confusing. As such, we force all // keywords to be lower case. keyword_ = l10n_util::ToLower(keyword); autogenerate_keyword_ = false; } string16 TemplateURL::keyword() const { EnsureKeyword(); return keyword_; } void TemplateURL::EnsureKeyword() const { if (autogenerate_keyword_ && !keyword_generated_) { // Generate a keyword and cache it. keyword_ = TemplateURLModel::GenerateKeyword( TemplateURLModel::GenerateSearchURL(this).GetWithEmptyPath(), true); keyword_generated_ = true; } } bool TemplateURL::ShowInDefaultList() const { return show_in_default_list() && url() && url()->SupportsReplacement(); } void TemplateURL::SetFaviconURL(const GURL& url) { for (std::vector::iterator i = image_refs_.begin(); i != image_refs_.end(); ++i) { if (i->type == "image/x-icon" && i->width == kFaviconSize && i->height == kFaviconSize) { if (!url.is_valid()) image_refs_.erase(i); else i->url = url; return; } } // Don't have one yet, add it. if (url.is_valid()) { add_image_ref( TemplateURL::ImageRef("image/x-icon", kFaviconSize, kFaviconSize, url)); } } GURL TemplateURL::GetFaviconURL() const { for (std::vector::const_iterator i = image_refs_.begin(); i != image_refs_.end(); ++i) { if ((i->type == "image/x-icon" || i->type == "image/vnd.microsoft.icon") && i->width == kFaviconSize && i->height == kFaviconSize) { return i->url; } } return GURL(); } void TemplateURL::InvalidateCachedValues() const { url_.InvalidateCachedValues(); suggestions_url_.InvalidateCachedValues(); if (autogenerate_keyword_) { keyword_.clear(); keyword_generated_ = false; } } std::string TemplateURL::GetExtensionId() const { DCHECK(IsExtensionKeyword()); return GURL(url_.url()).host(); } bool TemplateURL::IsExtensionKeyword() const { return GURL(url_.url()).SchemeIs(chrome::kExtensionScheme); }