# This Source Code Form is subject to the terms of the Mozilla Public # License, v. 2.0. If a copy of the MPL was not distributed with this # file, You can obtain one at http://mozilla.org/MPL/2.0/. const Ci = Components.interfaces; const Cc = Components.classes; const Cr = Components.results; const Cu = Components.utils; Components.utils.import("resource://gre/modules/XPCOMUtils.jsm"); Components.utils.import("resource://gre/modules/Services.jsm"); Components.utils.import("resource://gre/modules/Promise.jsm"); XPCOMUtils.defineLazyModuleGetter(this, "AsyncShutdown", "resource://gre/modules/AsyncShutdown.jsm"); XPCOMUtils.defineLazyModuleGetter(this, "DeferredTask", "resource://gre/modules/DeferredTask.jsm"); XPCOMUtils.defineLazyModuleGetter(this, "OS", "resource://gre/modules/osfile.jsm"); XPCOMUtils.defineLazyModuleGetter(this, "Task", "resource://gre/modules/Task.jsm"); XPCOMUtils.defineLazyModuleGetter(this, "TelemetryStopwatch", "resource://gre/modules/TelemetryStopwatch.jsm"); XPCOMUtils.defineLazyModuleGetter(this, "Deprecated", "resource://gre/modules/Deprecated.jsm"); XPCOMUtils.defineLazyModuleGetter(this, "SearchStaticData", "resource://gre/modules/SearchStaticData.jsm"); XPCOMUtils.defineLazyModuleGetter(this, "setTimeout", "resource://gre/modules/Timer.jsm"); XPCOMUtils.defineLazyModuleGetter(this, "clearTimeout", "resource://gre/modules/Timer.jsm"); XPCOMUtils.defineLazyServiceGetter(this, "gTextToSubURI", "@mozilla.org/intl/texttosuburi;1", "nsITextToSubURI"); Cu.importGlobalProperties(["XMLHttpRequest"]); // A text encoder to UTF8, used whenever we commit the // engine metadata to disk. XPCOMUtils.defineLazyGetter(this, "gEncoder", function() { return new TextEncoder(); }); const MODE_RDONLY = 0x01; const MODE_WRONLY = 0x02; const MODE_CREATE = 0x08; const MODE_APPEND = 0x10; const MODE_TRUNCATE = 0x20; // Directory service keys const NS_APP_SEARCH_DIR_LIST = "SrchPluginsDL"; const NS_APP_USER_SEARCH_DIR = "UsrSrchPlugns"; const NS_APP_SEARCH_DIR = "SrchPlugns"; const NS_APP_USER_PROFILE_50_DIR = "ProfD"; // Search engine "locations". If this list is changed, be sure to update // the engine's _isDefault function accordingly. const SEARCH_APP_DIR = 1; const SEARCH_PROFILE_DIR = 2; const SEARCH_IN_EXTENSION = 3; const SEARCH_JAR = 4; // See documentation in nsIBrowserSearchService.idl. const SEARCH_ENGINE_TOPIC = "browser-search-engine-modified"; const QUIT_APPLICATION_TOPIC = "quit-application"; const SEARCH_ENGINE_REMOVED = "engine-removed"; const SEARCH_ENGINE_ADDED = "engine-added"; const SEARCH_ENGINE_CHANGED = "engine-changed"; const SEARCH_ENGINE_LOADED = "engine-loaded"; const SEARCH_ENGINE_CURRENT = "engine-current"; const SEARCH_ENGINE_DEFAULT = "engine-default"; // The following constants are left undocumented in nsIBrowserSearchService.idl // For the moment, they are meant for testing/debugging purposes only. /** * Topic used for events involving the service itself. */ const SEARCH_SERVICE_TOPIC = "browser-search-service"; /** * Sent whenever metadata is fully written to disk. */ const SEARCH_SERVICE_METADATA_WRITTEN = "write-metadata-to-disk-complete"; /** * Sent whenever the cache is fully written to disk. */ const SEARCH_SERVICE_CACHE_WRITTEN = "write-cache-to-disk-complete"; const SEARCH_TYPE_MOZSEARCH = Ci.nsISearchEngine.TYPE_MOZSEARCH; const SEARCH_TYPE_OPENSEARCH = Ci.nsISearchEngine.TYPE_OPENSEARCH; const SEARCH_TYPE_SHERLOCK = Ci.nsISearchEngine.TYPE_SHERLOCK; const SEARCH_DATA_XML = Ci.nsISearchEngine.DATA_XML; const SEARCH_DATA_TEXT = Ci.nsISearchEngine.DATA_TEXT; // Delay for lazy serialization (ms) const LAZY_SERIALIZE_DELAY = 100; // Delay for batching invalidation of the JSON cache (ms) const CACHE_INVALIDATION_DELAY = 1000; // Current cache version. This should be incremented if the format of the cache // file is modified. const CACHE_VERSION = 7; const ICON_DATAURL_PREFIX = "data:image/x-icon;base64,"; const NEW_LINES = /(\r\n|\r|\n)/; // Set an arbitrary cap on the maximum icon size. Without this, large icons can // cause big delays when loading them at startup. const MAX_ICON_SIZE = 10000; // Default charset to use for sending search parameters. ISO-8859-1 is used to // match previous nsInternetSearchService behavior. const DEFAULT_QUERY_CHARSET = "ISO-8859-1"; const SEARCH_BUNDLE = "chrome://global/locale/search/search.properties"; const BRAND_BUNDLE = "chrome://branding/locale/brand.properties"; const OPENSEARCH_NS_10 = "http://a9.com/-/spec/opensearch/1.0/"; const OPENSEARCH_NS_11 = "http://a9.com/-/spec/opensearch/1.1/"; // Although the specification at http://opensearch.a9.com/spec/1.1/description/ // gives the namespace names defined above, many existing OpenSearch engines // are using the following versions. We therefore allow either. const OPENSEARCH_NAMESPACES = [ OPENSEARCH_NS_11, OPENSEARCH_NS_10, "http://a9.com/-/spec/opensearchdescription/1.1/", "http://a9.com/-/spec/opensearchdescription/1.0/" ]; const OPENSEARCH_LOCALNAME = "OpenSearchDescription"; const MOZSEARCH_NS_10 = "http://www.mozilla.org/2006/browser/search/"; const MOZSEARCH_LOCALNAME = "SearchPlugin"; const URLTYPE_SUGGEST_JSON = "application/x-suggestions+json"; const URLTYPE_SEARCH_HTML = "text/html"; const URLTYPE_OPENSEARCH = "application/opensearchdescription+xml"; // Empty base document used to serialize engines to file. const EMPTY_DOC = "\n" + "<" + MOZSEARCH_LOCALNAME + " xmlns=\"" + MOZSEARCH_NS_10 + "\"" + " xmlns:os=\"" + OPENSEARCH_NS_11 + "\"" + "/>"; const BROWSER_SEARCH_PREF = "browser.search."; const LOCALE_PREF = "general.useragent.locale"; const USER_DEFINED = "{searchTerms}"; // Custom search parameters #ifdef MOZ_OFFICIAL_BRANDING const MOZ_OFFICIAL = "official"; #else const MOZ_OFFICIAL = "unofficial"; #endif #expand const MOZ_DISTRIBUTION_ID = __MOZ_DISTRIBUTION_ID__; const MOZ_PARAM_LOCALE = /\{moz:locale\}/g; const MOZ_PARAM_DIST_ID = /\{moz:distributionID\}/g; const MOZ_PARAM_OFFICIAL = /\{moz:official\}/g; // Supported OpenSearch parameters // See http://opensearch.a9.com/spec/1.1/querysyntax/#core const OS_PARAM_USER_DEFINED = /\{searchTerms\??\}/g; const OS_PARAM_INPUT_ENCODING = /\{inputEncoding\??\}/g; const OS_PARAM_LANGUAGE = /\{language\??\}/g; const OS_PARAM_OUTPUT_ENCODING = /\{outputEncoding\??\}/g; // Default values const OS_PARAM_LANGUAGE_DEF = "*"; const OS_PARAM_OUTPUT_ENCODING_DEF = "UTF-8"; const OS_PARAM_INPUT_ENCODING_DEF = "UTF-8"; // "Unsupported" OpenSearch parameters. For example, we don't support // page-based results, so if the engine requires that we send the "page index" // parameter, we'll always send "1". const OS_PARAM_COUNT = /\{count\??\}/g; const OS_PARAM_START_INDEX = /\{startIndex\??\}/g; const OS_PARAM_START_PAGE = /\{startPage\??\}/g; // Default values const OS_PARAM_COUNT_DEF = "20"; // 20 results const OS_PARAM_START_INDEX_DEF = "1"; // start at 1st result const OS_PARAM_START_PAGE_DEF = "1"; // 1st page // Optional parameter const OS_PARAM_OPTIONAL = /\{(?:\w+:)?\w+\?\}/g; // A array of arrays containing parameters that we don't fully support, and // their default values. We will only send values for these parameters if // required, since our values are just really arbitrary "guesses" that should // give us the output we want. var OS_UNSUPPORTED_PARAMS = [ [OS_PARAM_COUNT, OS_PARAM_COUNT_DEF], [OS_PARAM_START_INDEX, OS_PARAM_START_INDEX_DEF], [OS_PARAM_START_PAGE, OS_PARAM_START_PAGE_DEF], ]; // The default engine update interval, in days. This is only used if an engine // specifies an updateURL, but not an updateInterval. const SEARCH_DEFAULT_UPDATE_INTERVAL = 7; // Returns false for whitespace-only or commented out lines in a // Sherlock file, true otherwise. function isUsefulLine(aLine) { return !(/^\s*($|#)/i.test(aLine)); } this.__defineGetter__("FileUtils", function() { delete this.FileUtils; Components.utils.import("resource://gre/modules/FileUtils.jsm"); return FileUtils; }); this.__defineGetter__("NetUtil", function() { delete this.NetUtil; Components.utils.import("resource://gre/modules/NetUtil.jsm"); return NetUtil; }); this.__defineGetter__("gChromeReg", function() { delete this.gChromeReg; return this.gChromeReg = Cc["@mozilla.org/chrome/chrome-registry;1"]. getService(Ci.nsIChromeRegistry); }); /** * Prefixed to all search debug output. */ const SEARCH_LOG_PREFIX = "*** Search: "; /** * Outputs aText to the JavaScript console as well as to stdout. */ function DO_LOG(aText) { dump(SEARCH_LOG_PREFIX + aText + "\n"); Services.console.logStringMessage(aText); } #ifdef DEBUG /** * In debug builds, use a live, pref-based (browser.search.log) LOG function * to allow enabling/disabling without a restart. */ function PREF_LOG(aText) { if (getBoolPref(BROWSER_SEARCH_PREF + "log", false)) DO_LOG(aText); } var LOG = PREF_LOG; #else /** * Otherwise, don't log at all by default. This can be overridden at startup * by the pref, see SearchService's _init method. */ var LOG = function(){}; #endif /** * Presents an assertion dialog in non-release builds and throws. * @param message * A message to display * @param resultCode * The NS_ERROR_* value to throw. * @throws resultCode */ function ERROR(message, resultCode) { NS_ASSERT(false, SEARCH_LOG_PREFIX + message); throw Components.Exception(message, resultCode); } /** * Logs the failure message (if browser.search.log is enabled) and throws. * @param message * A message to display * @param resultCode * The NS_ERROR_* value to throw. * @throws resultCode or NS_ERROR_INVALID_ARG if resultCode isn't specified. */ function FAIL(message, resultCode) { LOG(message); throw Components.Exception(message, resultCode || Cr.NS_ERROR_INVALID_ARG); } /** * Truncates big blobs of (data-)URIs to console-friendly sizes * @param str * String to tone down * @param len * Maximum length of the string to return. Defaults to the length of a tweet. */ function limitURILength(str, len) { len = len || 140; if (str.length > len) return str.slice(0, len) + "..."; return str; } /** * Ensures an assertion is met before continuing. Should be used to indicate * fatal errors. * @param assertion * An assertion that must be met * @param message * A message to display if the assertion is not met * @param resultCode * The NS_ERROR_* value to throw if the assertion is not met * @throws resultCode */ function ENSURE_WARN(assertion, message, resultCode) { NS_ASSERT(assertion, SEARCH_LOG_PREFIX + message); if (!assertion) throw Components.Exception(message, resultCode); } function loadListener(aChannel, aEngine, aCallback) { this._channel = aChannel; this._bytes = []; this._engine = aEngine; this._callback = aCallback; } loadListener.prototype = { _callback: null, _channel: null, _countRead: 0, _engine: null, _stream: null, QueryInterface: function SRCH_loadQI(aIID) { if (aIID.equals(Ci.nsISupports) || aIID.equals(Ci.nsIRequestObserver) || aIID.equals(Ci.nsIStreamListener) || aIID.equals(Ci.nsIChannelEventSink) || aIID.equals(Ci.nsIInterfaceRequestor) || // See FIXME comment below aIID.equals(Ci.nsIHttpEventSink) || aIID.equals(Ci.nsIProgressEventSink) || false) return this; throw Cr.NS_ERROR_NO_INTERFACE; }, // nsIRequestObserver onStartRequest: function SRCH_loadStartR(aRequest, aContext) { LOG("loadListener: Starting request: " + aRequest.name); this._stream = Cc["@mozilla.org/binaryinputstream;1"]. createInstance(Ci.nsIBinaryInputStream); }, onStopRequest: function SRCH_loadStopR(aRequest, aContext, aStatusCode) { LOG("loadListener: Stopping request: " + aRequest.name); var requestFailed = !Components.isSuccessCode(aStatusCode); if (!requestFailed && (aRequest instanceof Ci.nsIHttpChannel)) requestFailed = !aRequest.requestSucceeded; if (requestFailed || this._countRead == 0) { LOG("loadListener: request failed!"); // send null so the callback can deal with the failure this._callback(null, this._engine); } else this._callback(this._bytes, this._engine); this._channel = null; this._engine = null; }, // nsIStreamListener onDataAvailable: function SRCH_loadDAvailable(aRequest, aContext, aInputStream, aOffset, aCount) { this._stream.setInputStream(aInputStream); // Get a byte array of the data this._bytes = this._bytes.concat(this._stream.readByteArray(aCount)); this._countRead += aCount; }, // nsIChannelEventSink asyncOnChannelRedirect: function SRCH_loadCRedirect(aOldChannel, aNewChannel, aFlags, callback) { this._channel = aNewChannel; callback.onRedirectVerifyCallback(Components.results.NS_OK); }, // nsIInterfaceRequestor getInterface: function SRCH_load_GI(aIID) { return this.QueryInterface(aIID); }, // FIXME: bug 253127 // nsIHttpEventSink onRedirect: function (aChannel, aNewChannel) {}, // nsIProgressEventSink onProgress: function (aRequest, aContext, aProgress, aProgressMax) {}, onStatus: function (aRequest, aContext, aStatus, aStatusArg) {} } // Method to determine if we should be using geo-specific defaults function geoSpecificDefaultsEnabled() { let geoSpecificDefaults = false; try { geoSpecificDefaults = Services.prefs.getBoolPref("browser.search.geoSpecificDefaults"); } catch(e) {} let distroID; try { distroID = Services.prefs.getCharPref("distribution.id"); } catch (e) {} return (geoSpecificDefaults && !distroID); } // Hacky method that tries to determine if this user is in a US geography, and // using an en-US build. function getIsUS() { // If we've set the pref before, just return that result. let cachePref = "browser.search.isUS"; try { return Services.prefs.getBoolPref(cachePref); } catch(e) {} if (getLocale() != "en-US") { Services.prefs.setBoolPref(cachePref, false); return false; } let isNA = isUSTimezone(); Services.prefs.setBoolPref(cachePref, isNA); return isNA; } // Helper method to modify preference keys with geo-specific modifiers, if needed function getGeoSpecificPrefName(basepref) { if (!geoSpecificDefaultsEnabled()) return basepref; if (getIsUS()) return basepref + ".US"; return basepref; } function isUSTimezone() { // Timezone assumptions! We assume that if the system clock's timezone is // between Newfoundland and Hawaii, that the user is in North America. // This includes all of South America as well, but we have relatively few // en-US users there, so that's OK. // 150 minutes = 2.5 hours (UTC-2.5), which is // Newfoundland Daylight Time (http://www.timeanddate.com/time/zones/ndt) // 600 minutes = 10 hours (UTC-10), which is // Hawaii-Aleutian Standard Time (http://www.timeanddate.com/time/zones/hast) let UTCOffset = (new Date()).getTimezoneOffset(); return UTCOffset >= 150 && UTCOffset <= 600; } // A less hacky method that tries to determine our country-code via an XHR // geoip lookup. // If this succeeds and we are using an en-US locale, we set the pref used by // the hacky method above, so isUS() can avoid the hacky timezone method. // If it fails we don't touch that pref so isUS() does its normal thing. let ensureKnownCountryCode = Task.async(function* () { // If we have a country-code already stored in our prefs we trust it. try { Services.prefs.getCharPref("browser.search.countryCode"); return; // pref exists, so we've done this before. } catch(e) {} // We don't have it cached, so fetch it. fetchCountryCode() will call // storeCountryCode if it gets a result (even if that happens after the // promise resolves) yield fetchCountryCode(); // If gInitialized is true then the search service was forced to perform // a sync initialization during our XHR - capture this via telemetry. Services.telemetry.getHistogramById("SEARCH_SERVICE_COUNTRY_FETCH_CAUSED_SYNC_INIT").add(gInitialized); }); // Store the result of the geoip request as well as any other values and // telemetry which depend on it. function storeCountryCode(cc) { // Set the country-code itself. Services.prefs.setCharPref("browser.search.countryCode", cc); // and update our "isUS" cache pref if it is US - that will prevent a // fallback to the timezone check. // However, only do this if the locale also matches. if (getLocale() == "en-US") { Services.prefs.setBoolPref("browser.search.isUS", (cc == "US")); } // and telemetry... let isTimezoneUS = isUSTimezone(); if (cc == "US" && !isTimezoneUS) { Services.telemetry.getHistogramById("SEARCH_SERVICE_US_COUNTRY_MISMATCHED_TIMEZONE").add(1); } if (cc != "US" && isTimezoneUS) { Services.telemetry.getHistogramById("SEARCH_SERVICE_US_TIMEZONE_MISMATCHED_COUNTRY").add(1); } } // Get the country we are in via a XHR geoip request. function fetchCountryCode() { // values for the SEARCH_SERVICE_COUNTRY_FETCH_RESULT 'enum' telemetry probe. const TELEMETRY_RESULT_ENUM = { SUCCESS: 0, SUCCESS_WITHOUT_DATA: 1, XHRTIMEOUT: 2, ERROR: 3, // Note that we expect to add finer-grained error types here later (eg, // dns error, network error, ssl error, etc) with .ERROR remaining as the // generic catch-all that doesn't fit into other categories. }; let endpoint = Services.urlFormatter.formatURLPref("browser.search.geoip.url"); // As an escape hatch, no endpoint means no geoip. if (!endpoint) { return Promise.resolve(); } let startTime = Date.now(); return new Promise(resolve => { // Instead of using a timeout on the xhr object itself, we simulate one // using a timer and let the XHR request complete. This allows us to // capture reliable telemetry on what timeout value should actually be // used to ensure most users don't see one while not making it so large // that many users end up doing a sync init of the search service and thus // would see the jank that implies. // (Note we do actually use a timeout on the XHR, but that's set to be a // large value just incase the request never completes - we don't want the // XHR object to live forever) let timeoutMS = Services.prefs.getIntPref("browser.search.geoip.timeout"); let timerId = setTimeout(() => { LOG("_fetchCountryCode: timeout fetching country information"); Services.telemetry.getHistogramById("SEARCH_SERVICE_COUNTRY_TIMEOUT").add(1); timerId = null; resolve(); }, timeoutMS); let resolveAndReportSuccess = (result, reason) => { // Even if we timed out, we want to save the country code and everything // related so next startup sees the value and doesn't retry this dance. if (result) { storeCountryCode(result); } Services.telemetry.getHistogramById("SEARCH_SERVICE_COUNTRY_FETCH_RESULT").add(reason); // This notification is just for tests... Services.obs.notifyObservers(null, SEARCH_SERVICE_TOPIC, "geoip-lookup-xhr-complete"); // If we've already timed out then we've already resolved the promise, // so there's nothing else to do. if (timerId == null) { return; } Services.telemetry.getHistogramById("SEARCH_SERVICE_COUNTRY_TIMEOUT").add(0); clearTimeout(timerId); resolve(); }; let request = new XMLHttpRequest(); // This notification is just for tests... Services.obs.notifyObservers(request, SEARCH_SERVICE_TOPIC, "geoip-lookup-xhr-starting"); request.timeout = 100000; // 100 seconds as the last-chance fallback request.onload = function(event) { let took = Date.now() - startTime; let cc = event.target.response && event.target.response.country_code; LOG("_fetchCountryCode got success response in " + took + "ms: " + cc); Services.telemetry.getHistogramById("SEARCH_SERVICE_COUNTRY_FETCH_TIME_MS").add(took); let reason = cc ? TELEMETRY_RESULT_ENUM.SUCCESS : TELEMETRY_RESULT_ENUM.SUCCESS_WITHOUT_DATA; resolveAndReportSuccess(cc, reason); }; request.ontimeout = function(event) { LOG("_fetchCountryCode: XHR finally timed-out fetching country information"); resolveAndReportSuccess(null, TELEMETRY_RESULT_ENUM.XHRTIMEOUT); }; request.onerror = function(event) { LOG("_fetchCountryCode: failed to retrieve country information"); resolveAndReportSuccess(null, TELEMETRY_RESULT_ENUM.ERROR); }; request.open("POST", endpoint, true); request.setRequestHeader("Content-Type", "application/json"); request.responseType = "json"; request.send("{}"); }); } /** * Used to verify a given DOM node's localName and namespaceURI. * @param aElement * The element to verify. * @param aLocalNameArray * An array of strings to compare against aElement's localName. * @param aNameSpaceArray * An array of strings to compare against aElement's namespaceURI. * * @returns false if aElement is null, or if its localName or namespaceURI * does not match one of the elements in the aLocalNameArray or * aNameSpaceArray arrays, respectively. * @throws NS_ERROR_INVALID_ARG if aLocalNameArray or aNameSpaceArray are null. */ function checkNameSpace(aElement, aLocalNameArray, aNameSpaceArray) { if (!aLocalNameArray || !aNameSpaceArray) FAIL("missing aLocalNameArray or aNameSpaceArray for checkNameSpace"); return (aElement && (aLocalNameArray.indexOf(aElement.localName) != -1) && (aNameSpaceArray.indexOf(aElement.namespaceURI) != -1)); } /** * Safely close a nsISafeOutputStream. * @param aFOS * The file output stream to close. */ function closeSafeOutputStream(aFOS) { if (aFOS instanceof Ci.nsISafeOutputStream) { try { aFOS.finish(); return; } catch (e) { } } aFOS.close(); } /** * Wrapper function for nsIIOService::newURI. * @param aURLSpec * The URL string from which to create an nsIURI. * @returns an nsIURI object, or null if the creation of the URI failed. */ function makeURI(aURLSpec, aCharset) { try { return NetUtil.newURI(aURLSpec, aCharset); } catch (ex) { } return null; } /** * Gets a directory from the directory service. * @param aKey * The directory service key indicating the directory to get. */ function getDir(aKey, aIFace) { if (!aKey) FAIL("getDir requires a directory key!"); return Services.dirsvc.get(aKey, aIFace || Ci.nsIFile); } /** * The following two functions are essentially copied from * nsInternetSearchService. They are required for backwards compatibility. */ function queryCharsetFromCode(aCode) { const codes = []; codes[0] = "macintosh"; codes[6] = "x-mac-greek"; codes[35] = "x-mac-turkish"; codes[513] = "ISO-8859-1"; codes[514] = "ISO-8859-2"; codes[517] = "ISO-8859-5"; codes[518] = "ISO-8859-6"; codes[519] = "ISO-8859-7"; codes[520] = "ISO-8859-8"; codes[521] = "ISO-8859-9"; codes[1280] = "windows-1252"; codes[1281] = "windows-1250"; codes[1282] = "windows-1251"; codes[1283] = "windows-1253"; codes[1284] = "windows-1254"; codes[1285] = "windows-1255"; codes[1286] = "windows-1256"; codes[1584] = "GB2312"; codes[1585] = "gbk"; codes[1600] = "EUC-KR"; codes[2080] = "ISO-2022-JP"; codes[2096] = "ISO-2022-CN"; codes[2112] = "ISO-2022-KR"; codes[2336] = "EUC-JP"; codes[2352] = "GB2312"; codes[2353] = "x-euc-tw"; codes[2368] = "EUC-KR"; codes[2561] = "Shift_JIS"; codes[2562] = "KOI8-R"; codes[2563] = "Big5"; codes[2565] = "HZ-GB-2312"; if (codes[aCode]) return codes[aCode]; // Don't bother being fancy about what to return in the failure case. return "windows-1252"; } function fileCharsetFromCode(aCode) { const codes = [ "macintosh", // 0 "Shift_JIS", // 1 "Big5", // 2 "EUC-KR", // 3 "X-MAC-ARABIC", // 4 "X-MAC-HEBREW", // 5 "X-MAC-GREEK", // 6 "X-MAC-CYRILLIC", // 7 "X-MAC-DEVANAGARI" , // 9 "X-MAC-GURMUKHI", // 10 "X-MAC-GUJARATI", // 11 "X-MAC-ORIYA", // 12 "X-MAC-BENGALI", // 13 "X-MAC-TAMIL", // 14 "X-MAC-TELUGU", // 15 "X-MAC-KANNADA", // 16 "X-MAC-MALAYALAM", // 17 "X-MAC-SINHALESE", // 18 "X-MAC-BURMESE", // 19 "X-MAC-KHMER", // 20 "X-MAC-THAI", // 21 "X-MAC-LAOTIAN", // 22 "X-MAC-GEORGIAN", // 23 "X-MAC-ARMENIAN", // 24 "GB2312", // 25 "X-MAC-TIBETAN", // 26 "X-MAC-MONGOLIAN", // 27 "X-MAC-ETHIOPIC", // 28 "X-MAC-CENTRALEURROMAN", // 29 "X-MAC-VIETNAMESE", // 30 "X-MAC-EXTARABIC" // 31 ]; // Sherlock files have always defaulted to macintosh, so do that here too return codes[aCode] || codes[0]; } /** * Returns a string interpretation of aBytes using aCharset, or null on * failure. */ function bytesToString(aBytes, aCharset) { var converter = Cc["@mozilla.org/intl/scriptableunicodeconverter"]. createInstance(Ci.nsIScriptableUnicodeConverter); LOG("bytesToString: converting using charset: " + aCharset); try { converter.charset = aCharset; return converter.convertFromByteArray(aBytes, aBytes.length); } catch (ex) {} return null; } /** * Converts an array of bytes representing a Sherlock file into an array of * lines representing the useful data from the file. * * @param aBytes * The array of bytes representing the Sherlock file. * @param aCharsetCode * An integer value representing a character set code to be passed to * fileCharsetFromCode, or null for the default Sherlock encoding. */ function sherlockBytesToLines(aBytes, aCharsetCode) { // fileCharsetFromCode returns the default encoding if aCharsetCode is null var charset = fileCharsetFromCode(aCharsetCode); var dataString = bytesToString(aBytes, charset); if (!dataString) FAIL("sherlockBytesToLines: Couldn't convert byte array!", Cr.NS_ERROR_FAILURE); // Split the string into lines, and filter out comments and // whitespace-only lines return dataString.split(NEW_LINES).filter(isUsefulLine); } /** * Gets the current value of the locale. It's possible for this preference to * be localized, so we have to do a little extra work here. Similar code * exists in nsHttpHandler.cpp when building the UA string. */ function getLocale() { let locale = getLocalizedPref(LOCALE_PREF); if (locale) return locale; // Not localized. return Services.prefs.getCharPref(LOCALE_PREF); } /** * Wrapper for nsIPrefBranch::getComplexValue. * @param aPrefName * The name of the pref to get. * @returns aDefault if the requested pref doesn't exist. */ function getLocalizedPref(aPrefName, aDefault) { const nsIPLS = Ci.nsIPrefLocalizedString; try { return Services.prefs.getComplexValue(aPrefName, nsIPLS).data; } catch (ex) {} return aDefault; } /** * Wrapper for nsIPrefBranch::setComplexValue. * @param aPrefName * The name of the pref to set. */ function setLocalizedPref(aPrefName, aValue) { const nsIPLS = Ci.nsIPrefLocalizedString; try { var pls = Components.classes["@mozilla.org/pref-localizedstring;1"] .createInstance(Ci.nsIPrefLocalizedString); pls.data = aValue; Services.prefs.setComplexValue(aPrefName, nsIPLS, pls); } catch (ex) {} } /** * Wrapper for nsIPrefBranch::getBoolPref. * @param aPrefName * The name of the pref to get. * @returns aDefault if the requested pref doesn't exist. */ function getBoolPref(aName, aDefault) { if (Services.prefs.getPrefType(aName) != Ci.nsIPrefBranch.PREF_BOOL) return aDefault; return Services.prefs.getBoolPref(aName); } /** * Get a unique nsIFile object with a sanitized name, based on the engine name. * @param aName * A name to "sanitize". Can be an empty string, in which case a random * 8 character filename will be produced. * @returns A nsIFile object in the user's search engines directory with a * unique sanitized name. */ function getSanitizedFile(aName) { var fileName = sanitizeName(aName) + ".xml"; var file = getDir(NS_APP_USER_SEARCH_DIR); file.append(fileName); file.createUnique(Ci.nsIFile.NORMAL_FILE_TYPE, FileUtils.PERMS_FILE); return file; } /** * @return a sanitized name to be used as a filename, or a random name * if a sanitized name cannot be obtained (if aName contains * no valid characters). */ function sanitizeName(aName) { const maxLength = 60; const minLength = 1; var name = aName.toLowerCase(); name = name.replace(/\s+/g, "-"); name = name.replace(/[^-a-z0-9]/g, ""); // Use a random name if our input had no valid characters. if (name.length < minLength) name = Math.random().toString(36).replace(/^.*\./, ''); // Force max length. return name.substring(0, maxLength); } /** * Retrieve a pref from the search param branch. * * @param prefName * The name of the pref. **/ function getMozParamPref(prefName) Services.prefs.getCharPref(BROWSER_SEARCH_PREF + "param." + prefName); /** * Notifies watchers of SEARCH_ENGINE_TOPIC about changes to an engine or to * the state of the search service. * * @param aEngine * The nsISearchEngine object to which the change applies. * @param aVerb * A verb describing the change. * * @see nsIBrowserSearchService.idl */ let gInitialized = false; function notifyAction(aEngine, aVerb) { if (gInitialized) { LOG("NOTIFY: Engine: \"" + aEngine.name + "\"; Verb: \"" + aVerb + "\""); Services.obs.notifyObservers(aEngine, SEARCH_ENGINE_TOPIC, aVerb); } } function parseJsonFromStream(aInputStream) { const json = Cc["@mozilla.org/dom/json;1"].createInstance(Ci.nsIJSON); const data = json.decodeFromStream(aInputStream, aInputStream.available()); return data; } /** * Simple object representing a name/value pair. */ function QueryParameter(aName, aValue, aPurpose) { if (!aName || (aValue == null)) FAIL("missing name or value for QueryParameter!"); this.name = aName; this.value = aValue; this.purpose = aPurpose; } /** * Perform OpenSearch parameter substitution on aParamValue. * * @param aParamValue * A string containing OpenSearch search parameters. * @param aSearchTerms * The user-provided search terms. This string will inserted into * aParamValue as the value of the OS_PARAM_USER_DEFINED parameter. * This value must already be escaped appropriately - it is inserted * as-is. * @param aEngine * The engine which owns the string being acted on. * * @see http://opensearch.a9.com/spec/1.1/querysyntax/#core */ function ParamSubstitution(aParamValue, aSearchTerms, aEngine) { var value = aParamValue; var distributionID = MOZ_DISTRIBUTION_ID; try { distributionID = Services.prefs.getCharPref(BROWSER_SEARCH_PREF + "distributionID"); } catch (ex) { } var official = MOZ_OFFICIAL; try { if (Services.prefs.getBoolPref(BROWSER_SEARCH_PREF + "official")) official = "official"; else official = "unofficial"; } catch (ex) { } // Custom search parameters. These are only available to default search // engines. if (aEngine._isDefault) { value = value.replace(MOZ_PARAM_LOCALE, getLocale()); value = value.replace(MOZ_PARAM_DIST_ID, distributionID); value = value.replace(MOZ_PARAM_OFFICIAL, official); } // Insert the OpenSearch parameters we're confident about value = value.replace(OS_PARAM_USER_DEFINED, aSearchTerms); value = value.replace(OS_PARAM_INPUT_ENCODING, aEngine.queryCharset); value = value.replace(OS_PARAM_LANGUAGE, getLocale() || OS_PARAM_LANGUAGE_DEF); value = value.replace(OS_PARAM_OUTPUT_ENCODING, OS_PARAM_OUTPUT_ENCODING_DEF); // Replace any optional parameters value = value.replace(OS_PARAM_OPTIONAL, ""); // Insert any remaining required params with our default values for (var i = 0; i < OS_UNSUPPORTED_PARAMS.length; ++i) { value = value.replace(OS_UNSUPPORTED_PARAMS[i][0], OS_UNSUPPORTED_PARAMS[i][1]); } return value; } /** * Creates an engineURL object, which holds the query URL and all parameters. * * @param aType * A string containing the name of the MIME type of the search results * returned by this URL. * @param aMethod * The HTTP request method. Must be a case insensitive value of either * "GET" or "POST". * @param aTemplate * The URL to which search queries should be sent. For GET requests, * must contain the string "{searchTerms}", to indicate where the user * entered search terms should be inserted. * @param aResultDomain * The root domain for this URL. Defaults to the template's host. * * @see http://opensearch.a9.com/spec/1.1/querysyntax/#urltag * * @throws NS_ERROR_NOT_IMPLEMENTED if aType is unsupported. */ function EngineURL(aType, aMethod, aTemplate, aResultDomain) { if (!aType || !aMethod || !aTemplate) FAIL("missing type, method or template for EngineURL!"); var method = aMethod.toUpperCase(); var type = aType.toLowerCase(); if (method != "GET" && method != "POST") FAIL("method passed to EngineURL must be \"GET\" or \"POST\""); this.type = type; this.method = method; this.params = []; this.rels = []; // Don't serialize expanded mozparams this.mozparams = {}; var templateURI = makeURI(aTemplate); if (!templateURI) FAIL("new EngineURL: template is not a valid URI!", Cr.NS_ERROR_FAILURE); switch (templateURI.scheme) { case "http": case "https": // Disable these for now, see bug 295018 // case "file": // case "resource": this.template = aTemplate; break; default: FAIL("new EngineURL: template uses invalid scheme!", Cr.NS_ERROR_FAILURE); } // If no resultDomain was specified in the engine definition file, use the // host from the template. this.resultDomain = aResultDomain || templateURI.host; // We never want to return a "www." prefix, so eventually strip it. if (this.resultDomain.startsWith("www.")) { this.resultDomain = this.resultDomain.substr(4); } } EngineURL.prototype = { addParam: function SRCH_EURL_addParam(aName, aValue, aPurpose) { this.params.push(new QueryParameter(aName, aValue, aPurpose)); }, // Note: This method requires that aObj has a unique name or the previous MozParams entry with // that name will be overwritten. _addMozParam: function SRCH_EURL__addMozParam(aObj) { aObj.mozparam = true; this.mozparams[aObj.name] = aObj; }, getSubmission: function SRCH_EURL_getSubmission(aSearchTerms, aEngine, aPurpose) { var url = ParamSubstitution(this.template, aSearchTerms, aEngine); // Default to an empty string if the purpose is not provided so that default purpose params // (purpose="") work consistently rather than having to define "null" and "" purposes. var purpose = aPurpose || ""; // Create an application/x-www-form-urlencoded representation of our params // (name=value&name=value&name=value) var dataString = ""; for (var i = 0; i < this.params.length; ++i) { var param = this.params[i]; // If this parameter has a purpose, only add it if the purpose matches if (param.purpose !== undefined && param.purpose != purpose) continue; var value = ParamSubstitution(param.value, aSearchTerms, aEngine); dataString += (i > 0 ? "&" : "") + param.name + "=" + value; } var postData = null; if (this.method == "GET") { // GET method requests have no post data, and append the encoded // query string to the url... if (url.indexOf("?") == -1 && dataString) url += "?"; url += dataString; } else if (this.method == "POST") { // POST method requests must wrap the encoded text in a MIME // stream and supply that as POSTDATA. var stringStream = Cc["@mozilla.org/io/string-input-stream;1"]. createInstance(Ci.nsIStringInputStream); stringStream.data = dataString; postData = Cc["@mozilla.org/network/mime-input-stream;1"]. createInstance(Ci.nsIMIMEInputStream); postData.addHeader("Content-Type", "application/x-www-form-urlencoded"); postData.addContentLength = true; postData.setData(stringStream); } return new Submission(makeURI(url), postData); }, _getTermsParameterName: function SRCH_EURL__getTermsParameterName() { let queryParam = this.params.find(p => p.value == USER_DEFINED); return queryParam ? queryParam.name : ""; }, _hasRelation: function SRC_EURL__hasRelation(aRel) this.rels.some(function(e) e == aRel.toLowerCase()), _initWithJSON: function SRC_EURL__initWithJSON(aJson, aEngine) { if (!aJson.params) return; this.rels = aJson.rels; for (let i = 0; i < aJson.params.length; ++i) { let param = aJson.params[i]; if (param.mozparam) { if (param.condition == "defaultEngine") { if (aEngine._isDefaultEngine()) this.addParam(param.name, param.trueValue); else this.addParam(param.name, param.falseValue); } else if (param.condition == "pref") { let value = getMozParamPref(param.pref); this.addParam(param.name, value); } this._addMozParam(param); } else this.addParam(param.name, param.value, param.purpose); } }, /** * Creates a JavaScript object that represents this URL. * @returns An object suitable for serialization as JSON. **/ _serializeToJSON: function SRCH_EURL__serializeToJSON() { var json = { template: this.template, rels: this.rels, resultDomain: this.resultDomain }; if (this.type != URLTYPE_SEARCH_HTML) json.type = this.type; if (this.method != "GET") json.method = this.method; function collapseMozParams(aParam) this.mozparams[aParam.name] || aParam; json.params = this.params.map(collapseMozParams, this); return json; }, /** * Serializes the engine object to a OpenSearch Url element. * @param aDoc * The document to use to create the Url element. * @param aElement * The element to which the created Url element is appended. * * @see http://opensearch.a9.com/spec/1.1/querysyntax/#urltag */ _serializeToElement: function SRCH_EURL_serializeToEl(aDoc, aElement) { var url = aDoc.createElementNS(OPENSEARCH_NS_11, "Url"); url.setAttribute("type", this.type); url.setAttribute("method", this.method); url.setAttribute("template", this.template); if (this.rels.length) url.setAttribute("rel", this.rels.join(" ")); if (this.resultDomain) url.setAttribute("resultDomain", this.resultDomain); for (var i = 0; i < this.params.length; ++i) { var param = aDoc.createElementNS(OPENSEARCH_NS_11, "Param"); param.setAttribute("name", this.params[i].name); param.setAttribute("value", this.params[i].value); url.appendChild(aDoc.createTextNode("\n ")); url.appendChild(param); } url.appendChild(aDoc.createTextNode("\n")); aElement.appendChild(url); } }; /** * nsISearchEngine constructor. * @param aLocation * A nsILocalFile or nsIURI object representing the location of the * search engine data file. * @param aSourceDataType * The data type of the file used to describe the engine. Must be either * DATA_XML or DATA_TEXT. * @param aIsReadOnly * Boolean indicating whether the engine should be treated as read-only. * Read only engines cannot be serialized to file. */ function Engine(aLocation, aSourceDataType, aIsReadOnly) { this._dataType = aSourceDataType; this._readOnly = aIsReadOnly; this._urls = []; if (aLocation.type) { if (aLocation.type == "filePath") this._file = aLocation.value; else if (aLocation.type == "uri") this._uri = aLocation.value; } else if (aLocation instanceof Ci.nsILocalFile) { // we already have a file (e.g. loading engines from disk) this._file = aLocation; } else if (aLocation instanceof Ci.nsIURI) { switch (aLocation.scheme) { case "https": case "http": case "ftp": case "data": case "file": case "resource": case "chrome": this._uri = aLocation; break; default: ERROR("Invalid URI passed to the nsISearchEngine constructor", Cr.NS_ERROR_INVALID_ARG); } } else ERROR("Engine location is neither a File nor a URI object", Cr.NS_ERROR_INVALID_ARG); } Engine.prototype = { // The engine's alias (can be null). Initialized to |undefined| to indicate // not-initialized-from-engineMetadataService. _alias: undefined, // A distribution-unique identifier for the engine. Either null or set // when loaded. See getter. _identifier: undefined, // The data describing the engine. Is either an array of bytes, for Sherlock // files, or an XML document element, for XML plugins. _data: null, // The engine's data type. See data types (DATA_) defined above. _dataType: null, // Whether or not the engine is readonly. _readOnly: true, // The engine's description _description: "", // Used to store the engine to replace, if we're an update to an existing // engine. _engineToUpdate: null, // The file from which the plugin was loaded. __file: null, get _file() { if (this.__file && !(this.__file instanceof Ci.nsILocalFile)) { let file = Cc["@mozilla.org/file/local;1"].createInstance(Ci.nsILocalFile); file.persistentDescriptor = this.__file; return this.__file = file; } return this.__file; }, set _file(aValue) { this.__file = aValue; }, // Set to true if the engine has a preferred icon (an icon that should not be // overridden by a non-preferred icon). _hasPreferredIcon: null, // Whether the engine is hidden from the user. _hidden: null, // The engine's name. _name: null, // The engine type. See engine types (TYPE_) defined above. _type: null, // The name of the charset used to submit the search terms. _queryCharset: null, // The engine's raw SearchForm value (URL string pointing to a search form). __searchForm: null, get _searchForm() { return this.__searchForm; }, set _searchForm(aValue) { if (/^https?:/i.test(aValue)) this.__searchForm = aValue; else LOG("_searchForm: Invalid URL dropped for " + this._name || "the current engine"); }, // The URI object from which the engine was retrieved. // This is null for engines loaded from disk, but present for engines loaded // from chrome:// URIs. __uri: null, get _uri() { if (this.__uri && !(this.__uri instanceof Ci.nsIURI)) this.__uri = makeURI(this.__uri); return this.__uri; }, set _uri(aValue) { this.__uri = aValue; }, // Whether to obtain user confirmation before adding the engine. This is only // used when the engine is first added to the list. _confirm: false, // Whether to set this as the current engine as soon as it is loaded. This // is only used when the engine is first added to the list. _useNow: false, // A function to be invoked when this engine object's addition completes (or // fails). Only used for installation via addEngine. _installCallback: null, // Where the engine was loaded from. Can be one of: SEARCH_APP_DIR, // SEARCH_PROFILE_DIR, SEARCH_IN_EXTENSION. __installLocation: null, // The number of days between update checks for new versions _updateInterval: null, // The url to check at for a new update _updateURL: null, // The url to check for a new icon _iconUpdateURL: null, /* Deferred serialization task. */ _lazySerializeTask: null, /* The extension ID if added by an extension. */ _extensionID: null, /** * Retrieves the data from the engine's file. If the engine's dataType is * XML, the document element is placed in the engine's data field. For text * engines, the data is just read directly from file and placed as an array * of lines in the engine's data field. */ _initFromFile: function SRCH_ENG_initFromFile() { if (!this._file || !this._file.exists()) FAIL("File must exist before calling initFromFile!", Cr.NS_ERROR_UNEXPECTED); var fileInStream = Cc["@mozilla.org/network/file-input-stream;1"]. createInstance(Ci.nsIFileInputStream); fileInStream.init(this._file, MODE_RDONLY, FileUtils.PERMS_FILE, false); if (this._dataType == SEARCH_DATA_XML) { var domParser = Cc["@mozilla.org/xmlextras/domparser;1"]. createInstance(Ci.nsIDOMParser); var doc = domParser.parseFromStream(fileInStream, "UTF-8", this._file.fileSize, "text/xml"); this._data = doc.documentElement; } else { ERROR("Unsuppored engine _dataType in _initFromFile: \"" + this._dataType + "\"", Cr.NS_ERROR_UNEXPECTED); } fileInStream.close(); // Now that the data is loaded, initialize the engine object this._initFromData(); }, /** * Retrieves the data from the engine's file asynchronously. If the engine's * dataType is XML, the document element is placed in the engine's data field. * * @returns {Promise} A promise, resolved successfully if initializing from * data succeeds, rejected if it fails. */ _asyncInitFromFile: function SRCH_ENG__asyncInitFromFile() { return Task.spawn(function() { if (!this._file || !(yield OS.File.exists(this._file.path))) FAIL("File must exist before calling initFromFile!", Cr.NS_ERROR_UNEXPECTED); if (this._dataType == SEARCH_DATA_XML) { let fileURI = NetUtil.ioService.newFileURI(this._file); yield this._retrieveSearchXMLData(fileURI.spec); } else { ERROR("Unsuppored engine _dataType in _initFromFile: \"" + this._dataType + "\"", Cr.NS_ERROR_UNEXPECTED); } // Now that the data is loaded, initialize the engine object this._initFromData(); }.bind(this)); }, /** * Retrieves the engine data from a URI. Initializes the engine, flushes to * disk, and notifies the search service once initialization is complete. */ _initFromURIAndLoad: function SRCH_ENG_initFromURIAndLoad() { ENSURE_WARN(this._uri instanceof Ci.nsIURI, "Must have URI when calling _initFromURIAndLoad!", Cr.NS_ERROR_UNEXPECTED); LOG("_initFromURIAndLoad: Downloading engine from: \"" + this._uri.spec + "\"."); var chan = NetUtil.ioService.newChannelFromURI(this._uri); if (this._engineToUpdate && (chan instanceof Ci.nsIHttpChannel)) { var lastModified = engineMetadataService.getAttr(this._engineToUpdate, "updatelastmodified"); if (lastModified) chan.setRequestHeader("If-Modified-Since", lastModified, false); } var listener = new loadListener(chan, this, this._onLoad); chan.notificationCallbacks = listener; chan.asyncOpen(listener, null); }, /** * Retrieves the engine data from a URI asynchronously and initializes it. * * @returns {Promise} A promise, resolved successfully if retrieveing data * succeeds. */ _asyncInitFromURI: function SRCH_ENG__asyncInitFromURI() { return Task.spawn(function() { LOG("_asyncInitFromURI: Loading engine from: \"" + this._uri.spec + "\"."); yield this._retrieveSearchXMLData(this._uri.spec); // Now that the data is loaded, initialize the engine object this._initFromData(); }.bind(this)); }, /** * Retrieves the engine data for a given URI asynchronously. * * @returns {Promise} A promise, resolved successfully if retrieveing data * succeeds. */ _retrieveSearchXMLData: function SRCH_ENG__retrieveSearchXMLData(aURL) { let deferred = Promise.defer(); let request = Cc["@mozilla.org/xmlextras/xmlhttprequest;1"]. createInstance(Ci.nsIXMLHttpRequest); request.overrideMimeType("text/xml"); request.onload = (aEvent) => { let responseXML = aEvent.target.responseXML; this._data = responseXML.documentElement; deferred.resolve(); }; request.onerror = function(aEvent) { deferred.resolve(); }; request.open("GET", aURL, true); request.send(); return deferred.promise; }, _initFromURISync: function SRCH_ENG_initFromURISync() { ENSURE_WARN(this._uri instanceof Ci.nsIURI, "Must have URI when calling _initFromURISync!", Cr.NS_ERROR_UNEXPECTED); ENSURE_WARN(this._uri.schemeIs("chrome"), "_initFromURISync called for non-chrome URI", Cr.NS_ERROR_FAILURE); LOG("_initFromURISync: Loading engine from: \"" + this._uri.spec + "\"."); var chan = NetUtil.ioService.newChannelFromURI(this._uri); var stream = chan.open(); var parser = Cc["@mozilla.org/xmlextras/domparser;1"]. createInstance(Ci.nsIDOMParser); var doc = parser.parseFromStream(stream, "UTF-8", stream.available(), "text/xml"); this._data = doc.documentElement; // Now that the data is loaded, initialize the engine object this._initFromData(); }, /** * Attempts to find an EngineURL object in the set of EngineURLs for * this Engine that has the given type string. (This corresponds to the * "type" attribute in the "Url" node in the OpenSearch spec.) * This method will return the first matching URL object found, or null * if no matching URL is found. * * @param aType string to match the EngineURL's type attribute * @param aRel [optional] only return URLs that with this rel value */ _getURLOfType: function SRCH_ENG__getURLOfType(aType, aRel) { for (var i = 0; i < this._urls.length; ++i) { if (this._urls[i].type == aType && (!aRel || this._urls[i]._hasRelation(aRel))) return this._urls[i]; } return null; }, _confirmAddEngine: function SRCH_SVC_confirmAddEngine() { var stringBundle = Services.strings.createBundle(SEARCH_BUNDLE); var titleMessage = stringBundle.GetStringFromName("addEngineConfirmTitle"); // Display only the hostname portion of the URL. var dialogMessage = stringBundle.formatStringFromName("addEngineConfirmation", [this._name, this._uri.host], 2); var checkboxMessage = null; if (!getBoolPref(BROWSER_SEARCH_PREF + "noCurrentEngine", false)) checkboxMessage = stringBundle.GetStringFromName("addEngineAsCurrentText"); var addButtonLabel = stringBundle.GetStringFromName("addEngineAddButtonLabel"); var ps = Services.prompt; var buttonFlags = (ps.BUTTON_TITLE_IS_STRING * ps.BUTTON_POS_0) + (ps.BUTTON_TITLE_CANCEL * ps.BUTTON_POS_1) + ps.BUTTON_POS_0_DEFAULT; var checked = {value: false}; // confirmEx returns the index of the button that was pressed. Since "Add" // is button 0, we want to return the negation of that value. var confirm = !ps.confirmEx(null, titleMessage, dialogMessage, buttonFlags, addButtonLabel, null, null, // button 1 & 2 names not used checkboxMessage, checked); return {confirmed: confirm, useNow: checked.value}; }, /** * Handle the successful download of an engine. Initializes the engine and * triggers parsing of the data. The engine is then flushed to disk. Notifies * the search service once initialization is complete. */ _onLoad: function SRCH_ENG_onLoad(aBytes, aEngine) { /** * Handle an error during the load of an engine by notifying the engine's * error callback, if any. */ function onError(errorCode = Ci.nsISearchInstallCallback.ERROR_UNKNOWN_FAILURE) { // Notify the callback of the failure if (aEngine._installCallback) { aEngine._installCallback(errorCode); } } function promptError(strings = {}, error = undefined) { onError(error); if (aEngine._engineToUpdate) { // We're in an update, so just fail quietly LOG("updating " + aEngine._engineToUpdate.name + " failed"); return; } var brandBundle = Services.strings.createBundle(BRAND_BUNDLE); var brandName = brandBundle.GetStringFromName("brandShortName"); var searchBundle = Services.strings.createBundle(SEARCH_BUNDLE); var msgStringName = strings.error || "error_loading_engine_msg2"; var titleStringName = strings.title || "error_loading_engine_title"; var title = searchBundle.GetStringFromName(titleStringName); var text = searchBundle.formatStringFromName(msgStringName, [brandName, aEngine._location], 2); Services.ww.getNewPrompter(null).alert(title, text); } if (!aBytes) { promptError(); return; } var engineToUpdate = null; if (aEngine._engineToUpdate) { engineToUpdate = aEngine._engineToUpdate.wrappedJSObject; // Make this new engine use the old engine's file. aEngine._file = engineToUpdate._file; } switch (aEngine._dataType) { case SEARCH_DATA_XML: var parser = Cc["@mozilla.org/xmlextras/domparser;1"]. createInstance(Ci.nsIDOMParser); var doc = parser.parseFromBuffer(aBytes, aBytes.length, "text/xml"); aEngine._data = doc.documentElement; break; case SEARCH_DATA_TEXT: aEngine._data = aBytes; break; default: promptError(); LOG("_onLoad: Bogus engine _dataType: \"" + this._dataType + "\""); return; } try { // Initialize the engine from the obtained data aEngine._initFromData(); } catch (ex) { LOG("_onLoad: Failed to init engine!\n" + ex); // Report an error to the user promptError(); return; } // Check that when adding a new engine (e.g., not updating an // existing one), a duplicate engine does not already exist. if (!engineToUpdate) { if (Services.search.getEngineByName(aEngine.name)) { // If we're confirming the engine load, then display a "this is a // duplicate engine" prompt; otherwise, fail silently. if (aEngine._confirm) { promptError({ error: "error_duplicate_engine_msg", title: "error_invalid_engine_title" }, Ci.nsISearchInstallCallback.ERROR_DUPLICATE_ENGINE); } else { onError(Ci.nsISearchInstallCallback.ERROR_DUPLICATE_ENGINE); } LOG("_onLoad: duplicate engine found, bailing"); return; } } // If requested, confirm the addition now that we have the title. // This property is only ever true for engines added via // nsIBrowserSearchService::addEngine. if (aEngine._confirm) { var confirmation = aEngine._confirmAddEngine(); LOG("_onLoad: confirm is " + confirmation.confirmed + "; useNow is " + confirmation.useNow); if (!confirmation.confirmed) { onError(); return; } aEngine._useNow = confirmation.useNow; } // If we don't yet have a file, get one now. The only case where we would // already have a file is if this is an update and _file was set above. if (!aEngine._file) aEngine._file = getSanitizedFile(aEngine.name); if (engineToUpdate) { // Keep track of the last modified date, so that we can make conditional // requests for future updates. engineMetadataService.setAttr(aEngine, "updatelastmodified", (new Date()).toUTCString()); // If we're updating an app-shipped engine, ensure that the updateURLs // are the same. if (engineToUpdate._isInAppDir) { let oldUpdateURL = engineToUpdate._updateURL; let newUpdateURL = aEngine._updateURL; let oldSelfURL = engineToUpdate._getURLOfType(URLTYPE_OPENSEARCH, "self"); if (oldSelfURL) { oldUpdateURL = oldSelfURL.template; let newSelfURL = aEngine._getURLOfType(URLTYPE_OPENSEARCH, "self"); if (!newSelfURL) { LOG("_onLoad: updateURL missing in updated engine for " + aEngine.name + " aborted"); onError(); return; } newUpdateURL = newSelfURL.template; } if (oldUpdateURL != newUpdateURL) { LOG("_onLoad: updateURLs do not match! Update of " + aEngine.name + " aborted"); onError(); return; } } // Set the new engine's icon, if it doesn't yet have one. if (!aEngine._iconURI && engineToUpdate._iconURI) aEngine._iconURI = engineToUpdate._iconURI; } // Write the engine to file. For readOnly engines, they'll be stored in the // cache following the notification below. if (!aEngine._readOnly) aEngine._serializeToFile(); // Notify the search service of the successful load. It will deal with // updates by checking aEngine._engineToUpdate. notifyAction(aEngine, SEARCH_ENGINE_LOADED); // Notify the callback if needed if (aEngine._installCallback) { aEngine._installCallback(); } }, /** * Creates a key by serializing an object that contains the icon's width * and height. * * @param aWidth * Width of the icon. * @param aHeight * Height of the icon. * @returns key string */ _getIconKey: function SRCH_ENG_getIconKey(aWidth, aHeight) { let keyObj = { width: aWidth, height: aHeight }; return JSON.stringify(keyObj); }, /** * Add an icon to the icon map used by getIconURIBySize() and getIcons(). * * @param aWidth * Width of the icon. * @param aHeight * Height of the icon. * @param aURISpec * String with the icon's URI. */ _addIconToMap: function SRCH_ENG_addIconToMap(aWidth, aHeight, aURISpec) { // Use an object instead of a Map() because it needs to be serializable. this._iconMapObj = this._iconMapObj || {}; let key = this._getIconKey(aWidth, aHeight); this._iconMapObj[key] = aURISpec; }, /** * Sets the .iconURI property of the engine. If both aWidth and aHeight are * provided an entry will be added to _iconMapObj that will enable accessing * icon's data through getIcons() and getIconURIBySize() APIs. * * @param aIconURL * A URI string pointing to the engine's icon. Must have a http[s], * ftp, or data scheme. Icons with HTTP[S] or FTP schemes will be * downloaded and converted to data URIs for storage in the engine * XML files, if the engine is not readonly. * @param aIsPreferred * Whether or not this icon is to be preferred. Preferred icons can * override non-preferred icons. * @param aWidth (optional) * Width of the icon. * @param aHeight (optional) * Height of the icon. */ _setIcon: function SRCH_ENG_setIcon(aIconURL, aIsPreferred, aWidth, aHeight) { var uri = makeURI(aIconURL); // Ignore bad URIs if (!uri) return; LOG("_setIcon: Setting icon url \"" + limitURILength(uri.spec) + "\" for engine \"" + this.name + "\"."); // Only accept remote icons from http[s] or ftp switch (uri.scheme) { case "data": if (!this._hasPreferredIcon || aIsPreferred) { this._iconURI = uri; notifyAction(this, SEARCH_ENGINE_CHANGED); this._hasPreferredIcon = aIsPreferred; } if (aWidth && aHeight) { this._addIconToMap(aWidth, aHeight, aIconURL) } break; case "http": case "https": case "ftp": // No use downloading the icon if the engine file is read-only if (!this._readOnly || getBoolPref(BROWSER_SEARCH_PREF + "cache.enabled", true)) { LOG("_setIcon: Downloading icon: \"" + uri.spec + "\" for engine: \"" + this.name + "\""); var chan = NetUtil.ioService.newChannelFromURI(uri); let iconLoadCallback = function (aByteArray, aEngine) { // This callback may run after we've already set a preferred icon, // so check again. if (aEngine._hasPreferredIcon && !aIsPreferred) return; if (!aByteArray || aByteArray.length > MAX_ICON_SIZE) { LOG("iconLoadCallback: load failed, or the icon was too large!"); return; } var str = btoa(String.fromCharCode.apply(null, aByteArray)); let dataURL = ICON_DATAURL_PREFIX + str; aEngine._iconURI = makeURI(dataURL); if (aWidth && aHeight) { aEngine._addIconToMap(aWidth, aHeight, dataURL) } // The engine might not have a file yet, if it's being downloaded, // because the request for the engine file itself (_onLoad) may not // yet be complete. In that case, this change will be written to // file when _onLoad is called. For readonly engines, we'll store // the changes in the cache once notified below. if (aEngine._file && !aEngine._readOnly) aEngine._serializeToFile(); notifyAction(aEngine, SEARCH_ENGINE_CHANGED); aEngine._hasPreferredIcon = aIsPreferred; } // If we're currently acting as an "update engine", then the callback // should set the icon on the engine we're updating and not us, since // |this| might be gone by the time the callback runs. var engineToSet = this._engineToUpdate || this; var listener = new loadListener(chan, engineToSet, iconLoadCallback); chan.notificationCallbacks = listener; chan.asyncOpen(listener, null); } break; } }, /** * Initialize this Engine object from the collected data. */ _initFromData: function SRCH_ENG_initFromData() { ENSURE_WARN(this._data, "Can't init an engine with no data!", Cr.NS_ERROR_UNEXPECTED); // Find out what type of engine we are switch (this._dataType) { case SEARCH_DATA_XML: if (checkNameSpace(this._data, [MOZSEARCH_LOCALNAME], [MOZSEARCH_NS_10])) { LOG("_init: Initing MozSearch plugin from " + this._location); this._type = SEARCH_TYPE_MOZSEARCH; this._parseAsMozSearch(); } else if (checkNameSpace(this._data, [OPENSEARCH_LOCALNAME], OPENSEARCH_NAMESPACES)) { LOG("_init: Initing OpenSearch plugin from " + this._location); this._type = SEARCH_TYPE_OPENSEARCH; this._parseAsOpenSearch(); } else FAIL(this._location + " is not a valid search plugin.", Cr.NS_ERROR_FAILURE); break; case SEARCH_DATA_TEXT: LOG("_init: Initing Sherlock plugin from " + this._location); // the only text-based format we support is Sherlock this._type = SEARCH_TYPE_SHERLOCK; this._parseAsSherlock(); } // No need to keep a ref to our data (which in some cases can be a document // element) past this point this._data = null; }, /** * Initialize this Engine object from a collection of metadata. */ _initFromMetadata: function SRCH_ENG_initMetaData(aName, aIconURL, aAlias, aDescription, aMethod, aTemplate, aExtensionID) { ENSURE_WARN(!this._readOnly, "Can't call _initFromMetaData on a readonly engine!", Cr.NS_ERROR_FAILURE); this._urls.push(new EngineURL(URLTYPE_SEARCH_HTML, aMethod, aTemplate)); this._name = aName; this.alias = aAlias; this._description = aDescription; this._setIcon(aIconURL, true); this._extensionID = aExtensionID; this._serializeToFile(); }, /** * Extracts data from an OpenSearch URL element and creates an EngineURL * object which is then added to the engine's list of URLs. * * @throws NS_ERROR_FAILURE if a URL object could not be created. * * @see http://opensearch.a9.com/spec/1.1/querysyntax/#urltag. * @see EngineURL() */ _parseURL: function SRCH_ENG_parseURL(aElement) { var type = aElement.getAttribute("type"); // According to the spec, method is optional, defaulting to "GET" if not // specified var method = aElement.getAttribute("method") || "GET"; var template = aElement.getAttribute("template"); var resultDomain = aElement.getAttribute("resultdomain"); try { var url = new EngineURL(type, method, template, resultDomain); } catch (ex) { FAIL("_parseURL: failed to add " + template + " as a URL", Cr.NS_ERROR_FAILURE); } if (aElement.hasAttribute("rel")) url.rels = aElement.getAttribute("rel").toLowerCase().split(/\s+/); for (var i = 0; i < aElement.childNodes.length; ++i) { var param = aElement.childNodes[i]; if (param.localName == "Param") { try { url.addParam(param.getAttribute("name"), param.getAttribute("value")); } catch (ex) { // Ignore failure LOG("_parseURL: Url element has an invalid param"); } } else if (param.localName == "MozParam" && // We only support MozParams for default search engines this._isDefault) { var value; let condition = param.getAttribute("condition"); // MozParams must have a condition to be valid if (!condition) { let engineLoc = this._location; let paramName = param.getAttribute("name"); LOG("_parseURL: MozParam (" + paramName + ") without a condition attribute found parsing engine: " + engineLoc); continue; } switch (condition) { case "purpose": url.addParam(param.getAttribute("name"), param.getAttribute("value"), param.getAttribute("purpose")); // _addMozParam is not needed here since it can be serialized fine without. _addMozParam // also requires a unique "name" which is not normally the case when @purpose is used. break; case "defaultEngine": // If this engine was the default search engine, use the true value if (this._isDefaultEngine()) value = param.getAttribute("trueValue"); else value = param.getAttribute("falseValue"); url.addParam(param.getAttribute("name"), value); url._addMozParam({"name": param.getAttribute("name"), "falseValue": param.getAttribute("falseValue"), "trueValue": param.getAttribute("trueValue"), "condition": "defaultEngine"}); break; case "pref": try { value = getMozParamPref(param.getAttribute("pref"), value); url.addParam(param.getAttribute("name"), value); url._addMozParam({"pref": param.getAttribute("pref"), "name": param.getAttribute("name"), "condition": "pref"}); } catch (e) { } break; default: let engineLoc = this._location; let paramName = param.getAttribute("name"); LOG("_parseURL: MozParam (" + paramName + ") has an unknown condition: " + condition + ". Found parsing engine: " + engineLoc); break; } } } this._urls.push(url); }, _isDefaultEngine: function SRCH_ENG__isDefaultEngine() { let defaultPrefB = Services.prefs.getDefaultBranch(BROWSER_SEARCH_PREF); let nsIPLS = Ci.nsIPrefLocalizedString; let defaultEngine; let pref = getGeoSpecificPrefName("defaultenginename"); try { defaultEngine = defaultPrefB.getComplexValue(pref, nsIPLS).data; } catch (ex) {} return this.name == defaultEngine; }, /** * Get the icon from an OpenSearch Image element. * @see http://opensearch.a9.com/spec/1.1/description/#image */ _parseImage: function SRCH_ENG_parseImage(aElement) { LOG("_parseImage: Image textContent: \"" + limitURILength(aElement.textContent) + "\""); let width = parseInt(aElement.getAttribute("width"), 10); let height = parseInt(aElement.getAttribute("height"), 10); let isPrefered = width == 16 && height == 16; if (isNaN(width) || isNaN(height) || width <= 0 || height <=0) { LOG("OpenSearch image element must have positive width and height."); return; } this._setIcon(aElement.textContent, isPrefered, width, height); }, _parseAsMozSearch: function SRCH_ENG_parseAsMoz() { //forward to the OpenSearch parser this._parseAsOpenSearch(); }, /** * Extract search engine information from the collected data to initialize * the engine object. */ _parseAsOpenSearch: function SRCH_ENG_parseAsOS() { var doc = this._data; // The OpenSearch spec sets a default value for the input encoding. this._queryCharset = OS_PARAM_INPUT_ENCODING_DEF; for (var i = 0; i < doc.childNodes.length; ++i) { var child = doc.childNodes[i]; switch (child.localName) { case "ShortName": this._name = child.textContent; break; case "Description": this._description = child.textContent; break; case "Url": try { this._parseURL(child); } catch (ex) { // Parsing of the element failed, just skip it. LOG("_parseAsOpenSearch: failed to parse URL child: " + ex); } break; case "Image": this._parseImage(child); break; case "InputEncoding": this._queryCharset = child.textContent.toUpperCase(); break; // Non-OpenSearch elements case "SearchForm": this._searchForm = child.textContent; break; case "UpdateUrl": this._updateURL = child.textContent; break; case "UpdateInterval": this._updateInterval = parseInt(child.textContent); break; case "IconUpdateUrl": this._iconUpdateURL = child.textContent; break; case "ExtensionID": this._extensionID = child.textContent; breakk; } } if (!this.name || (this._urls.length == 0)) FAIL("_parseAsOpenSearch: No name, or missing URL!", Cr.NS_ERROR_FAILURE); if (!this.supportsResponseType(URLTYPE_SEARCH_HTML)) FAIL("_parseAsOpenSearch: No text/html result type!", Cr.NS_ERROR_FAILURE); }, /** * Extract search engine information from the collected data to initialize * the engine object. */ _parseAsSherlock: function SRCH_ENG_parseAsSherlock() { /** * Extracts one Sherlock "section" from aSource. A section is essentially * an HTML element with attributes, but each attribute must be on a new * line, by definition. * * @param aLines * An array of lines from the sherlock file. * @param aSection * The name of the section (e.g. "search" or "browser"). This value * is not case sensitive. * @returns an object whose properties correspond to the section's * attributes. */ function getSection(aLines, aSection) { LOG("_parseAsSherlock::getSection: Sherlock lines:\n" + aLines.join("\n")); var lines = aLines; var startMark = new RegExp("^\\s*<" + aSection.toLowerCase() + "\\s*", "gi"); var endMark = /\s*>\s*$/gi; var foundStart = false; var startLine, numberOfLines; // Find the beginning and end of the section for (var i = 0; i < lines.length; i++) { if (foundStart) { if (endMark.test(lines[i])) { numberOfLines = i - startLine; // Remove the end marker lines[i] = lines[i].replace(endMark, ""); // If the endmarker was not the only thing on the line, include // this line in the results if (lines[i]) numberOfLines++; break; } } else { if (startMark.test(lines[i])) { foundStart = true; // Remove the start marker lines[i] = lines[i].replace(startMark, ""); startLine = i; // If the line is empty, don't include it in the result if (!lines[i]) startLine++; } } } LOG("_parseAsSherlock::getSection: Start index: " + startLine + "\nNumber of lines: " + numberOfLines); lines = lines.splice(startLine, numberOfLines); LOG("_parseAsSherlock::getSection: Section lines:\n" + lines.join("\n")); var section = {}; for (var i = 0; i < lines.length; i++) { var line = lines[i].trim(); var els = line.split("="); var name = els.shift().trim().toLowerCase(); var value = els.join("=").trim(); if (!name || !value) continue; // Strip leading and trailing whitespace, remove quotes from the // value, and remove any trailing slashes or ">" characters value = value.replace(/^["']/, "") .replace(/["']\s*[\\\/]?>?\s*$/, "") || ""; value = value.trim(); // Don't clobber existing attributes if (!(name in section)) section[name] = value; } return section; } /** * Returns an array of name-value pair arrays representing the Sherlock * file's input elements. User defined inputs return USER_DEFINED * as the value. Elements are returned in the order they appear in the * source file. * * Example: * * * Returns: * [["foo", "bar"], ["foopy", "{searchTerms}"]] * * @param aLines * An array of lines from the source file. */ function getInputs(aLines) { /** * Extracts an attribute value from a given a line of text. * Example: * Extracts the string |foo| or |bar| given an input aAttr of * |value| or |name|. * Attributes may be quoted or unquoted. If unquoted, any whitespace * indicates the end of the attribute value. * Example: < value=22 33 name=44\334 > * Returns |22| for "value" and |44\334| for "name". * * @param aAttr * The name of the attribute for which to obtain the value. This * value is not case sensitive. * @param aLine * The line containing the attribute. * * @returns the attribute value, or an empty string if the attribute * doesn't exist. */ function getAttr(aAttr, aLine) { // Used to determine whether an "input" line from a Sherlock file is a // "user defined" input. const userInput = /(\s|["'=])user(\s|[>="'\/\\+]|$)/i; LOG("_parseAsSherlock::getAttr: Getting attr: \"" + aAttr + "\" for line: \"" + aLine + "\""); // We're not case sensitive, but we want to return the attribute value // in its original case, so create a copy of the source var lLine = aLine.toLowerCase(); var attr = aAttr.toLowerCase(); var attrStart = lLine.search(new RegExp("\\s" + attr, "i")); if (attrStart == -1) { // If this is the "user defined input" (i.e. contains the empty // "user" attribute), return our special keyword if (userInput.test(lLine) && attr == "value") { LOG("_parseAsSherlock::getAttr: Found user input!\nLine:\"" + lLine + "\""); return USER_DEFINED; } // The attribute doesn't exist - ignore LOG("_parseAsSherlock::getAttr: Failed to find attribute:\nLine:\"" + lLine + "\"\nAttr:\"" + attr + "\""); return ""; } var valueStart = lLine.indexOf("=", attrStart) + "=".length; if (valueStart == -1) return ""; var quoteStart = lLine.indexOf("\"", valueStart); if (quoteStart == -1) { // Unquoted attribute, get the rest of the line, trimmed at the first // sign of whitespace. If the rest of the line is only whitespace, // returns a blank string. return lLine.substr(valueStart).replace(/\s.*$/, ""); } else { // Make sure that there's only whitespace between the start of the // value and the first quote. If there is, end the attribute value at // the first sign of whitespace. This prevents us from falling into // the next attribute if this is an unquoted attribute followed by a // quoted attribute. var betweenEqualAndQuote = lLine.substring(valueStart, quoteStart); if (/\S/.test(betweenEqualAndQuote)) return lLine.substr(valueStart).replace(/\s.*$/, ""); // Adjust the start index to account for the opening quote valueStart = quoteStart + "\"".length; // Find the closing quote var valueEnd = lLine.indexOf("\"", valueStart); // If there is no closing quote, just go to the end of the line if (valueEnd == -1) valueEnd = aLine.length; } return aLine.substring(valueStart, valueEnd); } var inputs = []; LOG("_parseAsSherlock::getInputs: Lines:\n" + aLines); // Filter out everything but non-inputs let lines = aLines.filter(function (line) { return /^\s*") line = line.trim().replace(/^$/, ""); // If this is one of the "directional" inputs (/) const directionalInput = /^(prev|next)/i; if (directionalInput.test(line)) { // Make it look like a normal input by removing "prev" or "next" line = line.replace(directionalInput, ""); // If it has a name, give it a dummy value to match previous // nsInternetSearchService behavior if (/name\s*=/i.test(line)) { line += " value=\"0\""; } else return; // Line has no name, skip it } var attrName = getAttr("name", line); var attrValue = getAttr("value", line); LOG("_parseAsSherlock::getInputs: Got input:\nName:\"" + attrName + "\"\nValue:\"" + attrValue + "\""); if (attrValue) inputs.push([attrName, attrValue]); }); return inputs; } function err(aErr) { FAIL("_parseAsSherlock::err: Sherlock param error:\n" + aErr, Cr.NS_ERROR_FAILURE); } // First try converting our byte array using the default Sherlock encoding. // If this fails, or if we find a sourceTextEncoding attribute, we need to // reconvert the byte array using the specified encoding. var sherlockLines, searchSection, sourceTextEncoding, browserSection; try { sherlockLines = sherlockBytesToLines(this._data); searchSection = getSection(sherlockLines, "search"); browserSection = getSection(sherlockLines, "browser"); sourceTextEncoding = parseInt(searchSection["sourcetextencoding"]); if (sourceTextEncoding) { // Re-convert the bytes using the found sourceTextEncoding sherlockLines = sherlockBytesToLines(this._data, sourceTextEncoding); searchSection = getSection(sherlockLines, "search"); browserSection = getSection(sherlockLines, "browser"); } } catch (ex) { // The conversion using the default charset failed. Remove any non-ascii // bytes and try to find a sourceTextEncoding. var asciiBytes = this._data.filter(function (n) {return !(0x80 & n);}); var asciiString = String.fromCharCode.apply(null, asciiBytes); sherlockLines = asciiString.split(NEW_LINES).filter(isUsefulLine); searchSection = getSection(sherlockLines, "search"); sourceTextEncoding = parseInt(searchSection["sourcetextencoding"]); if (sourceTextEncoding) { sherlockLines = sherlockBytesToLines(this._data, sourceTextEncoding); searchSection = getSection(sherlockLines, "search"); browserSection = getSection(sherlockLines, "browser"); } else ERROR("Couldn't find a working charset", Cr.NS_ERROR_FAILURE); } LOG("_parseAsSherlock: Search section:\n" + searchSection.toSource()); this._name = searchSection["name"] || err("Missing name!"); this._description = searchSection["description"] || ""; this._queryCharset = searchSection["querycharset"] || queryCharsetFromCode(searchSection["queryencoding"]); this._searchForm = searchSection["searchform"]; this._updateInterval = parseInt(browserSection["updatecheckdays"]); this._updateURL = browserSection["update"]; this._iconUpdateURL = browserSection["updateicon"]; var method = (searchSection["method"] || "GET").toUpperCase(); var template = searchSection["action"] || err("Missing action!"); var inputs = getInputs(sherlockLines); LOG("_parseAsSherlock: Inputs:\n" + inputs.toSource()); var url = null; if (method == "GET") { // Here's how we construct the input string: // is first: Name Attr: Prefix Data Example: // YES EMPTY None TEMPLATE // YES NON-EMPTY ? = TEMPLATE?= // NO EMPTY ------------- -------------- // NO NON-EMPTY & = TEMPLATE?=&= for (var i = 0; i < inputs.length; i++) { var name = inputs[i][0]; var value = inputs[i][1]; if (i==0) { if (name == "") template += USER_DEFINED; else template += "?" + name + "=" + value; } else if (name != "") template += "&" + name + "=" + value; } url = new EngineURL(URLTYPE_SEARCH_HTML, method, template); } else if (method == "POST") { // Create the URL object and just add the parameters directly url = new EngineURL(URLTYPE_SEARCH_HTML, method, template); for (var i = 0; i < inputs.length; i++) { var name = inputs[i][0]; var value = inputs[i][1]; if (name) url.addParam(name, value); } } else err("Invalid method!"); this._urls.push(url); }, /** * Init from a JSON record. **/ _initWithJSON: function SRCH_ENG__initWithJSON(aJson) { this.__id = aJson._id; this._name = aJson._name; this._description = aJson.description; if (aJson._hasPreferredIcon == undefined) this._hasPreferredIcon = true; else this._hasPreferredIcon = false; this._hidden = aJson._hidden; this._type = aJson.type || SEARCH_TYPE_MOZSEARCH; this._queryCharset = aJson.queryCharset || DEFAULT_QUERY_CHARSET; this.__searchForm = aJson.__searchForm; this.__installLocation = aJson._installLocation || SEARCH_APP_DIR; this._updateInterval = aJson._updateInterval || null; this._updateURL = aJson._updateURL || null; this._iconUpdateURL = aJson._iconUpdateURL || null; if (aJson._readOnly == undefined) this._readOnly = true; else this._readOnly = false; this._iconURI = makeURI(aJson._iconURL); this._iconMapObj = aJson._iconMapObj; if (aJson.extensionID) { this._extensionID = aJson.extensionID; } for (let i = 0; i < aJson._urls.length; ++i) { let url = aJson._urls[i]; let engineURL = new EngineURL(url.type || URLTYPE_SEARCH_HTML, url.method || "GET", url.template, url.resultDomain); engineURL._initWithJSON(url, this); this._urls.push(engineURL); } }, /** * Creates a JavaScript object that represents this engine. * @param aFilter * Whether or not to filter out common default values. Recommended for * use with _initWithJSON(). * @returns An object suitable for serialization as JSON. **/ _serializeToJSON: function SRCH_ENG__serializeToJSON(aFilter) { var json = { _id: this._id, _name: this._name, _hidden: this.hidden, description: this.description, __searchForm: this.__searchForm, _iconURL: this._iconURL, _iconMapObj: this._iconMapObj, _urls: [url._serializeToJSON() for each(url in this._urls)] }; if (this._file instanceof Ci.nsILocalFile) json.filePath = this._file.persistentDescriptor; if (this._uri) json._url = this._uri.spec; if (this._installLocation != SEARCH_APP_DIR || !aFilter) json._installLocation = this._installLocation; if (this._updateInterval || !aFilter) json._updateInterval = this._updateInterval; if (this._updateURL || !aFilter) json._updateURL = this._updateURL; if (this._iconUpdateURL || !aFilter) json._iconUpdateURL = this._iconUpdateURL; if (!this._hasPreferredIcon || !aFilter) json._hasPreferredIcon = this._hasPreferredIcon; if (this.type != SEARCH_TYPE_MOZSEARCH || !aFilter) json.type = this.type; if (this.queryCharset != DEFAULT_QUERY_CHARSET || !aFilter) json.queryCharset = this.queryCharset; if (this._dataType != SEARCH_DATA_XML || !aFilter) json._dataType = this._dataType; if (!this._readOnly || !aFilter) json._readOnly = this._readOnly; if (this._extensionID) { json.extensionID = this._extensionID; } return json; }, /** * Returns an XML document object containing the search plugin information, * which can later be used to reload the engine. */ _serializeToElement: function SRCH_ENG_serializeToEl() { function appendTextNode(aNameSpace, aLocalName, aValue) { if (!aValue) return null; var node = doc.createElementNS(aNameSpace, aLocalName); node.appendChild(doc.createTextNode(aValue)); docElem.appendChild(node); docElem.appendChild(doc.createTextNode("\n")); return node; } var parser = Cc["@mozilla.org/xmlextras/domparser;1"]. createInstance(Ci.nsIDOMParser); var doc = parser.parseFromString(EMPTY_DOC, "text/xml"); var docElem = doc.documentElement; docElem.appendChild(doc.createTextNode("\n")); appendTextNode(OPENSEARCH_NS_11, "ShortName", this.name); appendTextNode(OPENSEARCH_NS_11, "Description", this._description); appendTextNode(OPENSEARCH_NS_11, "InputEncoding", this._queryCharset); if (this._iconURI) { var imageNode = appendTextNode(OPENSEARCH_NS_11, "Image", this._iconURI.spec); if (imageNode) { imageNode.setAttribute("width", "16"); imageNode.setAttribute("height", "16"); } } appendTextNode(MOZSEARCH_NS_10, "UpdateInterval", this._updateInterval); appendTextNode(MOZSEARCH_NS_10, "UpdateUrl", this._updateURL); appendTextNode(MOZSEARCH_NS_10, "IconUpdateUrl", this._iconUpdateURL); appendTextNode(MOZSEARCH_NS_10, "SearchForm", this._searchForm); if (this._extensionID) { appendTextNode(MOZSEARCH_NS_10, "ExtensionID", this._extensionID); } for (var i = 0; i < this._urls.length; ++i) this._urls[i]._serializeToElement(doc, docElem); docElem.appendChild(doc.createTextNode("\n")); return doc; }, get lazySerializeTask() { if (!this._lazySerializeTask) { let task = function taskCallback() { this._serializeToFile(); }.bind(this); this._lazySerializeTask = new DeferredTask(task, LAZY_SERIALIZE_DELAY); } return this._lazySerializeTask; }, /** * Serializes the engine object to file. */ _serializeToFile: function SRCH_ENG_serializeToFile() { var file = this._file; ENSURE_WARN(!this._readOnly, "Can't serialize a read only engine!", Cr.NS_ERROR_FAILURE); ENSURE_WARN(file && file.exists(), "Can't serialize: file doesn't exist!", Cr.NS_ERROR_UNEXPECTED); var fos = Cc["@mozilla.org/network/safe-file-output-stream;1"]. createInstance(Ci.nsIFileOutputStream); // Serialize the engine first - we don't want to overwrite a good file // if this somehow fails. var doc = this._serializeToElement(); fos.init(file, (MODE_WRONLY | MODE_TRUNCATE), FileUtils.PERMS_FILE, 0); try { var serializer = Cc["@mozilla.org/xmlextras/xmlserializer;1"]. createInstance(Ci.nsIDOMSerializer); serializer.serializeToStream(doc.documentElement, fos, null); } catch (e) { LOG("_serializeToFile: Error serializing engine:\n" + e); } closeSafeOutputStream(fos); Services.obs.notifyObservers(file.clone(), SEARCH_SERVICE_TOPIC, "write-engine-to-disk-complete"); }, /** * Remove the engine's file from disk. The search service calls this once it * removes the engine from its internal store. This function will throw if * the file cannot be removed. */ _remove: function SRCH_ENG_remove() { if (this._readOnly) FAIL("Can't remove read only engine!", Cr.NS_ERROR_FAILURE); if (!this._file || !this._file.exists()) FAIL("Can't remove engine: file doesn't exist!", Cr.NS_ERROR_FILE_NOT_FOUND); this._file.remove(false); }, // nsISearchEngine get alias() { if (this._alias === undefined) this._alias = engineMetadataService.getAttr(this, "alias"); return this._alias; }, set alias(val) { this._alias = val; engineMetadataService.setAttr(this, "alias", val); notifyAction(this, SEARCH_ENGINE_CHANGED); }, /** * Return the built-in identifier of app-provided engines. * * Note that this identifier is substantially similar to _id, with the * following exceptions: * * * There is no trailing file extension. * * There is no [app] prefix. * * @return a string identifier, or null. */ get identifier() { if (this._identifier !== undefined) { return this._identifier; } // No identifier if If the engine isn't app-provided if (!this._isInAppDir && !this._isInJAR) { return this._identifier = null; } let leaf = this._getLeafName(); ENSURE_WARN(leaf, "identifier: app-provided engine has no leafName"); // Strip file extension. let ext = leaf.lastIndexOf("."); if (ext == -1) { return this._identifier = leaf; } return this._identifier = leaf.substring(0, ext); }, get description() { return this._description; }, get hidden() { if (this._hidden === null) this._hidden = engineMetadataService.getAttr(this, "hidden") || false; return this._hidden; }, set hidden(val) { var value = !!val; if (value != this._hidden) { this._hidden = value; engineMetadataService.setAttr(this, "hidden", value); notifyAction(this, SEARCH_ENGINE_CHANGED); } }, get iconURI() { if (this._iconURI) return this._iconURI; return null; }, get _iconURL() { if (!this._iconURI) return ""; return this._iconURI.spec; }, // Where the engine is being loaded from: will return the URI's spec if the // engine is being downloaded and does not yet have a file. This is only used // for logging and error messages. get _location() { if (this._file) return this._file.path; if (this._uri) return this._uri.spec; return ""; }, /** * @return the leaf name of the filename or URI of this plugin, * or null if no file or URI is known. */ _getLeafName: function () { if (this._file) { return this._file.leafName; } if (this._uri && this._uri instanceof Ci.nsIURL) { return this._uri.fileName; } return null; }, // The file that the plugin is loaded from is a unique identifier for it. We // use this as the identifier to store data in the sqlite database __id: null, get _id() { if (this.__id) { return this.__id; } let leafName = this._getLeafName(); // Treat engines loaded from JARs the same way we treat app shipped // engines. // Theoretically, these could also come from extensions, but there's no // real way for extensions to register their chrome locations at the // moment, so let's not deal with that case. // This means we're vulnerable to conflicts if a file loaded from a JAR // has the same filename as a file loaded from the app dir, but with a // different engine name. People using the JAR functionality should be // careful not to do that! if (this._isInAppDir || this._isInJAR) { // App dir and JAR engines should always have leafNames ENSURE_WARN(leafName, "_id: no leafName for appDir or JAR engine", Cr.NS_ERROR_UNEXPECTED); return this.__id = "[app]/" + leafName; } if (this._isInProfile) { ENSURE_WARN(leafName, "_id: no leafName for profile engine", Cr.NS_ERROR_UNEXPECTED); return this.__id = "[profile]/" + leafName; } // If the engine isn't a JAR engine, it should have a file. ENSURE_WARN(this._file, "_id: no _file for non-JAR engine", Cr.NS_ERROR_UNEXPECTED); // We're not in the profile or appdir, so this must be an extension-shipped // plugin. Use the full filename. return this.__id = this._file.path; }, get _installLocation() { if (this.__installLocation === null) { if (!this._file) { ENSURE_WARN(this._uri, "Engines without files must have URIs", Cr.NS_ERROR_UNEXPECTED); this.__installLocation = SEARCH_JAR; } else if (this._file.parent.equals(getDir(NS_APP_SEARCH_DIR))) this.__installLocation = SEARCH_APP_DIR; else if (this._file.parent.equals(getDir(NS_APP_USER_SEARCH_DIR))) this.__installLocation = SEARCH_PROFILE_DIR; else this.__installLocation = SEARCH_IN_EXTENSION; } return this.__installLocation; }, get _isInJAR() { return this._installLocation == SEARCH_JAR; }, get _isInAppDir() { return this._installLocation == SEARCH_APP_DIR; }, get _isInProfile() { return this._installLocation == SEARCH_PROFILE_DIR; }, get _isDefault() { // For now, our concept of a "default engine" is "one that is not in the // user's profile directory", which is currently equivalent to "is app- or // extension-shipped". return !this._isInProfile; }, get _hasUpdates() { // Whether or not the engine has an update URL let selfURL = this._getURLOfType(URLTYPE_OPENSEARCH, "self"); return !!(this._updateURL || this._iconUpdateURL || selfURL); }, get name() { return this._name; }, get type() { return this._type; }, get searchForm() { // First look for a var searchFormURL = this._getURLOfType(URLTYPE_SEARCH_HTML, "searchform"); if (searchFormURL) { let submission = searchFormURL.getSubmission("", this); // If the rel=searchform URL is not type="get" (i.e. has postData), // ignore it, since we can only return a URL. if (!submission.postData) return submission.uri.spec; } if (!this._searchForm) { // No SearchForm specified in the engine definition file, use the prePath // (e.g. https://foo.com for https://foo.com/search.php?q=bar). var htmlUrl = this._getURLOfType(URLTYPE_SEARCH_HTML); ENSURE_WARN(htmlUrl, "Engine has no HTML URL!", Cr.NS_ERROR_UNEXPECTED); this._searchForm = makeURI(htmlUrl.template).prePath; } return ParamSubstitution(this._searchForm, "", this); }, get queryCharset() { if (this._queryCharset) return this._queryCharset; return this._queryCharset = queryCharsetFromCode(/* get the default */); }, // from nsISearchEngine addParam: function SRCH_ENG_addParam(aName, aValue, aResponseType) { if (!aName || (aValue == null)) FAIL("missing name or value for nsISearchEngine::addParam!"); ENSURE_WARN(!this._readOnly, "called nsISearchEngine::addParam on a read-only engine!", Cr.NS_ERROR_FAILURE); if (!aResponseType) aResponseType = URLTYPE_SEARCH_HTML; var url = this._getURLOfType(aResponseType); if (!url) FAIL("Engine object has no URL for response type " + aResponseType, Cr.NS_ERROR_FAILURE); url.addParam(aName, aValue); // Serialize the changes to file lazily this.lazySerializeTask.arm(); }, #ifdef ANDROID get _defaultMobileResponseType() { let type = URLTYPE_SEARCH_HTML; let sysInfo = Cc["@mozilla.org/system-info;1"].getService(Ci.nsIPropertyBag2); let isTablet = sysInfo.get("tablet"); if (isTablet && this.supportsResponseType("application/x-moz-tabletsearch")) { // Check for a tablet-specific search URL override type = "application/x-moz-tabletsearch"; } else if (!isTablet && this.supportsResponseType("application/x-moz-phonesearch")) { // Check for a phone-specific search URL override type = "application/x-moz-phonesearch"; } delete this._defaultMobileResponseType; return this._defaultMobileResponseType = type; }, #endif // from nsISearchEngine getSubmission: function SRCH_ENG_getSubmission(aData, aResponseType, aPurpose) { #ifdef ANDROID if (!aResponseType) { aResponseType = this._defaultMobileResponseType; } #endif if (!aResponseType) { aResponseType = URLTYPE_SEARCH_HTML; } var url = this._getURLOfType(aResponseType); if (!url) return null; if (!aData) { // Return a dummy submission object with our searchForm attribute return new Submission(makeURI(this.searchForm), null); } LOG("getSubmission: In data: \"" + aData + "\"; Purpose: \"" + aPurpose + "\""); var data = ""; try { data = gTextToSubURI.ConvertAndEscape(this.queryCharset, aData); } catch (ex) { LOG("getSubmission: Falling back to default queryCharset!"); data = gTextToSubURI.ConvertAndEscape(DEFAULT_QUERY_CHARSET, aData); } LOG("getSubmission: Out data: \"" + data + "\""); return url.getSubmission(data, this, aPurpose); }, // from nsISearchEngine supportsResponseType: function SRCH_ENG_supportsResponseType(type) { return (this._getURLOfType(type) != null); }, // from nsISearchEngine getResultDomain: function SRCH_ENG_getResultDomain(aResponseType) { #ifdef ANDROID if (!aResponseType) { aResponseType = this._defaultMobileResponseType; } #endif if (!aResponseType) { aResponseType = URLTYPE_SEARCH_HTML; } LOG("getResultDomain: responseType: \"" + aResponseType + "\""); let url = this._getURLOfType(aResponseType); if (url) return url.resultDomain; return ""; }, /** * Returns URL parsing properties used by _buildParseSubmissionMap. */ getURLParsingInfo: function () { #ifdef ANDROID let responseType = this._defaultMobileResponseType; #else let responseType = URLTYPE_SEARCH_HTML; #endif LOG("getURLParsingInfo: responseType: \"" + responseType + "\""); let url = this._getURLOfType(responseType); if (!url || url.method != "GET") { return null; } let termsParameterName = url._getTermsParameterName(); if (!termsParameterName) { return null; } let templateUrl = NetUtil.newURI(url.template).QueryInterface(Ci.nsIURL); return { mainDomain: templateUrl.host, path: templateUrl.filePath.toLowerCase(), termsParameterName: termsParameterName, }; }, // nsISupports QueryInterface: function SRCH_ENG_QI(aIID) { if (aIID.equals(Ci.nsISearchEngine) || aIID.equals(Ci.nsISupports)) return this; throw Cr.NS_ERROR_NO_INTERFACE; }, get wrappedJSObject() { return this; }, /** * Returns a string with the URL to an engine's icon matching both width and * height. Returns null if icon with specified dimensions is not found. * * @param width * Width of the requested icon. * @param height * Height of the requested icon. */ getIconURLBySize: function SRCH_ENG_getIconURLBySize(aWidth, aHeight) { if (!this._iconMapObj) return null; let key = this._getIconKey(aWidth, aHeight); if (key in this._iconMapObj) { return this._iconMapObj[key]; } return null; }, /** * Gets an array of all available icons. Each entry is an object with * width, height and url properties. width and height are numeric and * represent the icon's dimensions. url is a string with the URL for * the icon. */ getIcons: function SRCH_ENG_getIcons() { let result = []; if (!this._iconMapObj) return result; for (let key of Object.keys(this._iconMapObj)) { let iconSize = JSON.parse(key); result.push({ width: iconSize.width, height: iconSize.height, url: this._iconMapObj[key] }); } return result; }, /** * Opens a speculative connection to the engine's search URI * (and suggest URI, if different) to reduce request latency * * @param options * An object that must contain the following fields: * {window} the content window for the window performing the search * * @throws NS_ERROR_INVALID_ARG if options is omitted or lacks required * elemeents */ speculativeConnect: function SRCH_ENG_speculativeConnect(options) { if (!options || !options.window) { Cu.reportError("invalid options arg passed to nsISearchEngine.speculativeConnect"); throw Cr.NS_ERROR_INVALID_ARG; } let connector = Services.io.QueryInterface(Components.interfaces.nsISpeculativeConnect); let searchURI = this.getSubmission("dummy").uri; let callbacks = options.window.QueryInterface(Components.interfaces.nsIInterfaceRequestor) .getInterface(Components.interfaces.nsIWebNavigation) .QueryInterface(Components.interfaces.nsILoadContext); connector.speculativeConnect(searchURI, callbacks); if (this.supportsResponseType(URLTYPE_SUGGEST_JSON)) { let suggestURI = this.getSubmission("dummy", URLTYPE_SUGGEST_JSON).uri; if (suggestURI.prePath != searchURI.prePath) connector.speculativeConnect(suggestURI, callbacks); } }, }; // nsISearchSubmission function Submission(aURI, aPostData = null) { this._uri = aURI; this._postData = aPostData; } Submission.prototype = { get uri() { return this._uri; }, get postData() { return this._postData; }, QueryInterface: function SRCH_SUBM_QI(aIID) { if (aIID.equals(Ci.nsISearchSubmission) || aIID.equals(Ci.nsISupports)) return this; throw Cr.NS_ERROR_NO_INTERFACE; } } // nsISearchParseSubmissionResult function ParseSubmissionResult(aEngine, aTerms, aTermsOffset, aTermsLength) { this._engine = aEngine; this._terms = aTerms; this._termsOffset = aTermsOffset; this._termsLength = aTermsLength; } ParseSubmissionResult.prototype = { get engine() { return this._engine; }, get terms() { return this._terms; }, get termsOffset() { return this._termsOffset; }, get termsLength() { return this._termsLength; }, QueryInterface: XPCOMUtils.generateQI([Ci.nsISearchParseSubmissionResult]), } const gEmptyParseSubmissionResult = Object.freeze(new ParseSubmissionResult(null, "", -1, 0)); function executeSoon(func) { Services.tm.mainThread.dispatch(func, Ci.nsIThread.DISPATCH_NORMAL); } /** * Check for sync initialization has completed or not. * * @param {aPromise} A promise. * * @returns the value returned by the invoked method. * @throws NS_ERROR_ALREADY_INITIALIZED if sync initialization has completed. */ function checkForSyncCompletion(aPromise) { return aPromise.then(function(aValue) { if (gInitialized) { throw Components.Exception("Synchronous fallback was called and has " + "finished so no need to pursue asynchronous " + "initialization", Cr.NS_ERROR_ALREADY_INITIALIZED); } return aValue; }); } // nsIBrowserSearchService function SearchService() { // Replace empty LOG function with the useful one if the log pref is set. if (getBoolPref(BROWSER_SEARCH_PREF + "log", false)) LOG = DO_LOG; this._initObservers = Promise.defer(); } SearchService.prototype = { classID: Components.ID("{7319788a-fe93-4db3-9f39-818cf08f4256}"), // The current status of initialization. Note that it does not determine if // initialization is complete, only if an error has been encountered so far. _initRV: Cr.NS_OK, // The boolean indicates that the initialization has started or not. _initStarted: null, // If initialization has not been completed yet, perform synchronous // initialization. // Throws in case of initialization error. _ensureInitialized: function SRCH_SVC__ensureInitialized() { if (gInitialized) { if (!Components.isSuccessCode(this._initRV)) { LOG("_ensureInitialized: failure"); throw this._initRV; } return; } let warning = "Search service falling back to synchronous initialization. " + "This is generally the consequence of an add-on using a deprecated " + "search service API."; Deprecated.warning(warning, "https://developer.mozilla.org/en-US/docs/XPCOM_Interface_Reference/nsIBrowserSearchService#async_warning"); LOG(warning); engineMetadataService.syncInit(); this._syncInit(); if (!Components.isSuccessCode(this._initRV)) { throw this._initRV; } }, // Synchronous implementation of the initializer. // Used by |_ensureInitialized| as a fallback if initialization is not // complete. _syncInit: function SRCH_SVC__syncInit() { LOG("_syncInit start"); this._initStarted = true; try { this._syncLoadEngines(); } catch (ex) { this._initRV = Cr.NS_ERROR_FAILURE; LOG("_syncInit: failure loading engines: " + ex); } this._addObservers(); gInitialized = true; this._initObservers.resolve(this._initRV); Services.obs.notifyObservers(null, SEARCH_SERVICE_TOPIC, "init-complete"); Services.telemetry.getHistogramById("SEARCH_SERVICE_INIT_SYNC").add(true); LOG("_syncInit end"); }, /** * Asynchronous implementation of the initializer. * * @returns {Promise} A promise, resolved successfully if the initialization * succeeds. */ _asyncInit: function SRCH_SVC__asyncInit() { return Task.spawn(function() { LOG("_asyncInit start"); try { yield checkForSyncCompletion(ensureKnownCountryCode()); } catch (ex if ex.result != Cr.NS_ERROR_ALREADY_INITIALIZED) { LOG("_asyncInit: failure determining country code: " + ex); } try { yield checkForSyncCompletion(this._asyncLoadEngines()); } catch (ex if ex.result != Cr.NS_ERROR_ALREADY_INITIALIZED) { this._initRV = Cr.NS_ERROR_FAILURE; LOG("_asyncInit: failure loading engines: " + ex); } this._addObservers(); gInitialized = true; this._initObservers.resolve(this._initRV); Services.obs.notifyObservers(null, SEARCH_SERVICE_TOPIC, "init-complete"); Services.telemetry.getHistogramById("SEARCH_SERVICE_INIT_SYNC").add(false); LOG("_asyncInit: Completed _asyncInit"); }.bind(this)); }, _engines: { }, __sortedEngines: null, get _sortedEngines() { if (!this.__sortedEngines) return this._buildSortedEngineList(); return this.__sortedEngines; }, // Get the original Engine object that belongs to the defaultenginename pref // of the default branch. get _originalDefaultEngine() { let defaultPrefB = Services.prefs.getDefaultBranch(BROWSER_SEARCH_PREF); let nsIPLS = Ci.nsIPrefLocalizedString; let defaultEngine; let defPref = getGeoSpecificPrefName("defaultenginename"); try { defaultEngine = defaultPrefB.getComplexValue(defPref, nsIPLS).data; } catch (ex) { // If the default pref is invalid (e.g. an add-on set it to a bogus value) // getEngineByName will just return null, which is the best we can do. } return this.getEngineByName(defaultEngine); }, _buildCache: function SRCH_SVC__buildCache() { if (!getBoolPref(BROWSER_SEARCH_PREF + "cache.enabled", true)) return; TelemetryStopwatch.start("SEARCH_SERVICE_BUILD_CACHE_MS"); let cache = {}; let locale = getLocale(); let buildID = Services.appinfo.platformBuildID; // Allows us to force a cache refresh should the cache format change. cache.version = CACHE_VERSION; // We don't want to incur the costs of stat()ing each plugin on every // startup when the only (supported) time they will change is during // runtime (where we refresh for changes through the API) and app updates // (where the buildID is obviously going to change). // Extension-shipped plugins are the only exception to this, but their // directories are blown away during updates, so we'll detect their changes. cache.buildID = buildID; cache.locale = locale; cache.directories = {}; function getParent(engine) { if (engine._file) return engine._file.parent; let uri = engine._uri; if (!uri.schemeIs("chrome")) { LOG("getParent: engine URI must be a chrome URI if it has no file"); return null; } // use the underlying JAR file, for chrome URIs try { uri = gChromeReg.convertChromeURL(uri); if (uri instanceof Ci.nsINestedURI) uri = uri.innermostURI; uri.QueryInterface(Ci.nsIFileURL) return uri.file; } catch (ex) { LOG("getParent: couldn't map chrome:// URI to a file: " + ex) } return null; } for each (let engine in this._engines) { let parent = getParent(engine); if (!parent) { LOG("Error: no parent for engine " + engine._location + ", failing to cache it"); continue; } let cacheKey = parent.path; if (!cache.directories[cacheKey]) { let cacheEntry = {}; cacheEntry.lastModifiedTime = parent.lastModifiedTime; cacheEntry.engines = []; cache.directories[cacheKey] = cacheEntry; } cache.directories[cacheKey].engines.push(engine._serializeToJSON(true)); } try { LOG("_buildCache: Writing to cache file."); let path = OS.Path.join(OS.Constants.Path.profileDir, "search.json"); let data = gEncoder.encode(JSON.stringify(cache)); let promise = OS.File.writeAtomic(path, data, { tmpPath: path + ".tmp"}); promise.then( function onSuccess() { Services.obs.notifyObservers(null, SEARCH_SERVICE_TOPIC, SEARCH_SERVICE_CACHE_WRITTEN); }, function onError(e) { LOG("_buildCache: failure during writeAtomic: " + e); } ); } catch (ex) { LOG("_buildCache: Could not write to cache file: " + ex); } TelemetryStopwatch.finish("SEARCH_SERVICE_BUILD_CACHE_MS"); }, _syncLoadEngines: function SRCH_SVC__syncLoadEngines() { LOG("_syncLoadEngines: start"); // See if we have a cache file so we don't have to parse a bunch of XML. let cache = {}; let cacheEnabled = getBoolPref(BROWSER_SEARCH_PREF + "cache.enabled", true); if (cacheEnabled) { let cacheFile = getDir(NS_APP_USER_PROFILE_50_DIR); cacheFile.append("search.json"); if (cacheFile.exists()) cache = this._readCacheFile(cacheFile); } let loadDirs = []; let locations = getDir(NS_APP_SEARCH_DIR_LIST, Ci.nsISimpleEnumerator); while (locations.hasMoreElements()) { let dir = locations.getNext().QueryInterface(Ci.nsIFile); if (dir.directoryEntries.hasMoreElements()) loadDirs.push(dir); } let loadFromJARs = getBoolPref(BROWSER_SEARCH_PREF + "loadFromJars", false); let chromeURIs = []; let chromeFiles = []; if (loadFromJARs) [chromeFiles, chromeURIs] = this._findJAREngines(); let toLoad = chromeFiles.concat(loadDirs); function modifiedDir(aDir) { return (!cache.directories || !cache.directories[aDir.path] || cache.directories[aDir.path].lastModifiedTime != aDir.lastModifiedTime); } function notInCachePath(aPathToLoad) cachePaths.indexOf(aPathToLoad.path) == -1; let buildID = Services.appinfo.platformBuildID; let cachePaths = [path for (path in cache.directories)]; let rebuildCache = !cache.directories || cache.version != CACHE_VERSION || cache.locale != getLocale() || cache.buildID != buildID || cachePaths.length != toLoad.length || toLoad.some(notInCachePath) || toLoad.some(modifiedDir); if (!cacheEnabled || rebuildCache) { LOG("_loadEngines: Absent or outdated cache. Loading engines from disk."); loadDirs.forEach(this._loadEnginesFromDir, this); this._loadFromChromeURLs(chromeURIs); if (cacheEnabled) this._buildCache(); return; } LOG("_loadEngines: loading from cache directories"); for each (let dir in cache.directories) this._loadEnginesFromCache(dir); LOG("_loadEngines: done"); }, /** * Loads engines asynchronously. * * @returns {Promise} A promise, resolved successfully if loading data * succeeds. */ _asyncLoadEngines: function SRCH_SVC__asyncLoadEngines() { return Task.spawn(function() { LOG("_asyncLoadEngines: start"); // See if we have a cache file so we don't have to parse a bunch of XML. let cache = {}; let cacheEnabled = getBoolPref(BROWSER_SEARCH_PREF + "cache.enabled", true); if (cacheEnabled) { let cacheFilePath = OS.Path.join(OS.Constants.Path.profileDir, "search.json"); cache = yield checkForSyncCompletion(this._asyncReadCacheFile(cacheFilePath)); } // Add all the non-empty directories of NS_APP_SEARCH_DIR_LIST to // loadDirs. let loadDirs = []; let locations = getDir(NS_APP_SEARCH_DIR_LIST, Ci.nsISimpleEnumerator); while (locations.hasMoreElements()) { let dir = locations.getNext().QueryInterface(Ci.nsIFile); let iterator = new OS.File.DirectoryIterator(dir.path, { winPattern: "*.xml" }); try { // Add dir to loadDirs if it contains any files. yield checkForSyncCompletion(iterator.next()); loadDirs.push(dir); } catch (ex if ex.result != Cr.NS_ERROR_ALREADY_INITIALIZED) { // Catch for StopIteration exception. } finally { iterator.close(); } } let loadFromJARs = getBoolPref(BROWSER_SEARCH_PREF + "loadFromJars", false); let chromeURIs = []; let chromeFiles = []; if (loadFromJARs) { Services.obs.notifyObservers(null, SEARCH_SERVICE_TOPIC, "find-jar-engines"); [chromeFiles, chromeURIs] = yield checkForSyncCompletion(this._asyncFindJAREngines()); } let toLoad = chromeFiles.concat(loadDirs); function hasModifiedDir(aList) { return Task.spawn(function() { let modifiedDir = false; for (let dir of aList) { if (!cache.directories || !cache.directories[dir.path]) { modifiedDir = true; break; } let info = yield OS.File.stat(dir.path); if (cache.directories[dir.path].lastModifiedTime != info.lastModificationDate.getTime()) { modifiedDir = true; break; } } throw new Task.Result(modifiedDir); }); } function notInCachePath(aPathToLoad) cachePaths.indexOf(aPathToLoad.path) == -1; let buildID = Services.appinfo.platformBuildID; let cachePaths = [path for (path in cache.directories)]; let rebuildCache = !cache.directories || cache.version != CACHE_VERSION || cache.locale != getLocale() || cache.buildID != buildID || cachePaths.length != toLoad.length || toLoad.some(notInCachePath) || (yield checkForSyncCompletion(hasModifiedDir(toLoad))); if (!cacheEnabled || rebuildCache) { LOG("_asyncLoadEngines: Absent or outdated cache. Loading engines from disk."); let engines = []; for (let loadDir of loadDirs) { let enginesFromDir = yield checkForSyncCompletion(this._asyncLoadEnginesFromDir(loadDir)); engines = engines.concat(enginesFromDir); } let enginesFromURLs = yield checkForSyncCompletion(this._asyncLoadFromChromeURLs(chromeURIs)); engines = engines.concat(enginesFromURLs); for (let engine of engines) { this._addEngineToStore(engine); } if (cacheEnabled) this._buildCache(); return; } LOG("_asyncLoadEngines: loading from cache directories"); for each (let dir in cache.directories) this._loadEnginesFromCache(dir); LOG("_asyncLoadEngines: done"); }.bind(this)); }, _asyncReInit: function () { // Start by clearing the initialized state, so we don't abort early. gInitialized = false; // Clear the engines, too, so we don't stick with the stale ones. this._engines = {}; this.__sortedEngines = null; this._currentEngine = null; this._defaultEngine = null; // Clear the metadata service. engineMetadataService._initState = engineMetadataService._InitStates.NOT_STARTED; engineMetadataService._initializer = null; Task.spawn(function* () { try { yield engineMetadataService.init(); yield this._asyncLoadEngines(); // Typically we'll re-init as a result of a pref observer, // so signal to 'callers' that we're done. Services.obs.notifyObservers(null, SEARCH_SERVICE_TOPIC, "reinit-complete"); gInitialized = true; } catch (err) { LOG("Reinit failed: " + err); Services.obs.notifyObservers(null, SEARCH_SERVICE_TOPIC, "reinit-failed"); } }.bind(this)); }, _readCacheFile: function SRCH_SVC__readCacheFile(aFile) { let stream = Cc["@mozilla.org/network/file-input-stream;1"]. createInstance(Ci.nsIFileInputStream); let json = Cc["@mozilla.org/dom/json;1"].createInstance(Ci.nsIJSON); try { stream.init(aFile, MODE_RDONLY, FileUtils.PERMS_FILE, 0); return json.decodeFromStream(stream, stream.available()); } catch (ex) { LOG("_readCacheFile: Error reading cache file: " + ex); } finally { stream.close(); } return false; }, /** * Read from a given cache file asynchronously. * * @param aPath the file path. * * @returns {Promise} A promise, resolved successfully if retrieveing data * succeeds. */ _asyncReadCacheFile: function SRCH_SVC__asyncReadCacheFile(aPath) { return Task.spawn(function() { let json; try { let bytes = yield OS.File.read(aPath); json = JSON.parse(new TextDecoder().decode(bytes)); } catch (ex) { LOG("_asyncReadCacheFile: Error reading cache file: " + ex); json = {}; } throw new Task.Result(json); }); }, _batchTask: null, get batchTask() { if (!this._batchTask) { let task = function taskCallback() { LOG("batchTask: Invalidating engine cache"); this._buildCache(); }.bind(this); this._batchTask = new DeferredTask(task, CACHE_INVALIDATION_DELAY); } return this._batchTask; }, _addEngineToStore: function SRCH_SVC_addEngineToStore(aEngine) { LOG("_addEngineToStore: Adding engine: \"" + aEngine.name + "\""); // See if there is an existing engine with the same name. However, if this // engine is updating another engine, it's allowed to have the same name. var hasSameNameAsUpdate = (aEngine._engineToUpdate && aEngine.name == aEngine._engineToUpdate.name); if (aEngine.name in this._engines && !hasSameNameAsUpdate) { LOG("_addEngineToStore: Duplicate engine found, aborting!"); return; } if (aEngine._engineToUpdate) { // We need to replace engineToUpdate with the engine that just loaded. var oldEngine = aEngine._engineToUpdate; // Remove the old engine from the hash, since it's keyed by name, and our // name might change (the update might have a new name). delete this._engines[oldEngine.name]; // Hack: we want to replace the old engine with the new one, but since // people may be holding refs to the nsISearchEngine objects themselves, // we'll just copy over all "private" properties (those without a getter // or setter) from one object to the other. for (var p in aEngine) { if (!(aEngine.__lookupGetter__(p) || aEngine.__lookupSetter__(p))) oldEngine[p] = aEngine[p]; } aEngine = oldEngine; aEngine._engineToUpdate = null; // Add the engine back this._engines[aEngine.name] = aEngine; notifyAction(aEngine, SEARCH_ENGINE_CHANGED); } else { // Not an update, just add the new engine. this._engines[aEngine.name] = aEngine; // Only add the engine to the list of sorted engines if the initial list // has already been built (i.e. if this.__sortedEngines is non-null). If // it hasn't, we're loading engines from disk and the sorted engine list // will be built once we need it. if (this.__sortedEngines) { this.__sortedEngines.push(aEngine); this._saveSortedEngineList(); } notifyAction(aEngine, SEARCH_ENGINE_ADDED); } if (aEngine._hasUpdates) { // Schedule the engine's next update, if it isn't already. if (!engineMetadataService.getAttr(aEngine, "updateexpir")) engineUpdateService.scheduleNextUpdate(aEngine); // We need to save the engine's _dataType, if this is the first time the // engine is added to the dataStore, since ._dataType isn't persisted // and will change on the next startup (since the engine will then be // XML). We need this so that we know how to load any future updates from // this engine. if (!engineMetadataService.getAttr(aEngine, "updatedatatype")) engineMetadataService.setAttr(aEngine, "updatedatatype", aEngine._dataType); } }, _loadEnginesFromCache: function SRCH_SVC__loadEnginesFromCache(aDir) { let engines = aDir.engines; LOG("_loadEnginesFromCache: Loading from cache. " + engines.length + " engines to load."); for (let i = 0; i < engines.length; i++) { let json = engines[i]; try { let engine; if (json.filePath) engine = new Engine({type: "filePath", value: json.filePath}, json._dataType, json._readOnly); else if (json._url) engine = new Engine({type: "uri", value: json._url}, json._dataType, json._readOnly); engine._initWithJSON(json); this._addEngineToStore(engine); } catch (ex) { LOG("Failed to load " + engines[i]._name + " from cache: " + ex); LOG("Engine JSON: " + engines[i].toSource()); } } }, _loadEnginesFromDir: function SRCH_SVC__loadEnginesFromDir(aDir) { LOG("_loadEnginesFromDir: Searching in " + aDir.path + " for search engines."); // Check whether aDir is the user profile dir var isInProfile = aDir.equals(getDir(NS_APP_USER_SEARCH_DIR)); var files = aDir.directoryEntries .QueryInterface(Ci.nsIDirectoryEnumerator); while (files.hasMoreElements()) { var file = files.nextFile; // Ignore hidden and empty files, and directories if (!file.isFile() || file.fileSize == 0 || file.isHidden()) continue; var fileURL = NetUtil.ioService.newFileURI(file).QueryInterface(Ci.nsIURL); var fileExtension = fileURL.fileExtension.toLowerCase(); var isWritable = isInProfile && file.isWritable(); if (fileExtension != "xml") { // Not an engine continue; } var addedEngine = null; try { addedEngine = new Engine(file, SEARCH_DATA_XML, !isWritable); addedEngine._initFromFile(); } catch (ex) { LOG("_loadEnginesFromDir: Failed to load " + file.path + "!\n" + ex); continue; } this._addEngineToStore(addedEngine); } }, /** * Loads engines from a given directory asynchronously. * * @param aDir the directory. * * @returns {Promise} A promise, resolved successfully if retrieveing data * succeeds. */ _asyncLoadEnginesFromDir: function SRCH_SVC__asyncLoadEnginesFromDir(aDir) { LOG("_asyncLoadEnginesFromDir: Searching in " + aDir.path + " for search engines."); // Check whether aDir is the user profile dir let isInProfile = aDir.equals(getDir(NS_APP_USER_SEARCH_DIR)); let iterator = new OS.File.DirectoryIterator(aDir.path); return Task.spawn(function() { let osfiles = yield iterator.nextBatch(); iterator.close(); let engines = []; for (let osfile of osfiles) { if (osfile.isDir || osfile.isSymLink) continue; let fileInfo = yield OS.File.stat(osfile.path); if (fileInfo.size == 0) continue; let parts = osfile.path.split("."); if (parts.length <= 1 || (parts.pop()).toLowerCase() != "xml") { // Not an engine continue; } let addedEngine = null; try { let file = new FileUtils.File(osfile.path); let isWritable = isInProfile; addedEngine = new Engine(file, SEARCH_DATA_XML, !isWritable); yield checkForSyncCompletion(addedEngine._asyncInitFromFile()); } catch (ex if ex.result != Cr.NS_ERROR_ALREADY_INITIALIZED) { LOG("_asyncLoadEnginesFromDir: Failed to load " + osfile.path + "!\n" + ex); continue; } engines.push(addedEngine); } throw new Task.Result(engines); }.bind(this)); }, _loadFromChromeURLs: function SRCH_SVC_loadFromChromeURLs(aURLs) { aURLs.forEach(function (url) { try { LOG("_loadFromChromeURLs: loading engine from chrome url: " + url); let engine = new Engine(makeURI(url), SEARCH_DATA_XML, true); engine._initFromURISync(); this._addEngineToStore(engine); } catch (ex) { LOG("_loadFromChromeURLs: failed to load engine: " + ex); } }, this); }, /** * Loads engines from Chrome URLs asynchronously. * * @param aURLs a list of URLs. * * @returns {Promise} A promise, resolved successfully if loading data * succeeds. */ _asyncLoadFromChromeURLs: function SRCH_SVC__asyncLoadFromChromeURLs(aURLs) { return Task.spawn(function() { let engines = []; for (let url of aURLs) { try { LOG("_asyncLoadFromChromeURLs: loading engine from chrome url: " + url); let engine = new Engine(NetUtil.newURI(url), SEARCH_DATA_XML, true); yield checkForSyncCompletion(engine._asyncInitFromURI()); engines.push(engine); } catch (ex if ex.result != Cr.NS_ERROR_ALREADY_INITIALIZED) { LOG("_asyncLoadFromChromeURLs: failed to load engine: " + ex); } } throw new Task.Result(engines); }.bind(this)); }, _findJAREngines: function SRCH_SVC_findJAREngines() { LOG("_findJAREngines: looking for engines in JARs") let rootURIPref = "" try { rootURIPref = Services.prefs.getCharPref(BROWSER_SEARCH_PREF + "jarURIs"); } catch (ex) {} if (!rootURIPref) { LOG("_findJAREngines: no JAR URIs were specified"); return [[], []]; } let rootURIs = rootURIPref.split(","); let uris = []; let chromeFiles = []; rootURIs.forEach(function (root) { // Find the underlying JAR file for this chrome package (_loadEngines uses // it to determine whether it needs to invalidate the cache) let chromeFile; try { let chromeURI = gChromeReg.convertChromeURL(makeURI(root)); let fileURI = chromeURI; // flat packaging while (fileURI instanceof Ci.nsIJARURI) fileURI = fileURI.JARFile; // JAR packaging fileURI.QueryInterface(Ci.nsIFileURL); chromeFile = fileURI.file; } catch (ex) { LOG("_findJAREngines: failed to get chromeFile for " + root + ": " + ex); } if (!chromeFile) return; chromeFiles.push(chromeFile); // Read list.txt from the chrome package to find the engines we need to // load let listURL = root + "list.txt"; let names = []; try { let chan = NetUtil.ioService.newChannelFromURI(makeURI(listURL)); let sis = Cc["@mozilla.org/scriptableinputstream;1"]. createInstance(Ci.nsIScriptableInputStream); sis.init(chan.open()); let list = sis.read(sis.available()); names = list.split("\n").filter(function (n) !!n); } catch (ex) { LOG("_findJAREngines: failed to retrieve list.txt from " + listURL + ": " + ex); return; } names.forEach(function (n) uris.push(root + n + ".xml")); }); return [chromeFiles, uris]; }, /** * Loads jar engines asynchronously. * * @returns {Promise} A promise, resolved successfully if finding jar engines * succeeds. */ _asyncFindJAREngines: function SRCH_SVC__asyncFindJAREngines() { return Task.spawn(function() { LOG("_asyncFindJAREngines: looking for engines in JARs") let rootURIPref = ""; try { rootURIPref = Services.prefs.getCharPref(BROWSER_SEARCH_PREF + "jarURIs"); } catch (ex) {} if (!rootURIPref) { LOG("_asyncFindJAREngines: no JAR URIs were specified"); throw new Task.Result([[], []]); } let rootURIs = rootURIPref.split(","); let uris = []; let chromeFiles = []; for (let root of rootURIs) { // Find the underlying JAR file for this chrome package (_loadEngines uses // it to determine whether it needs to invalidate the cache) let chromeFile; try { let chromeURI = gChromeReg.convertChromeURL(makeURI(root)); let fileURI = chromeURI; // flat packaging while (fileURI instanceof Ci.nsIJARURI) fileURI = fileURI.JARFile; // JAR packaging fileURI.QueryInterface(Ci.nsIFileURL); chromeFile = fileURI.file; } catch (ex) { LOG("_asyncFindJAREngines: failed to get chromeFile for " + root + ": " + ex); } if (!chromeFile) { return; } chromeFiles.push(chromeFile); // Read list.txt from the chrome package to find the engines we need to // load let listURL = root + "list.txt"; let deferred = Promise.defer(); let request = Cc["@mozilla.org/xmlextras/xmlhttprequest;1"]. createInstance(Ci.nsIXMLHttpRequest); request.overrideMimeType("text/plain"); request.onload = function(aEvent) { deferred.resolve(aEvent.target.responseText); }; request.onerror = function(aEvent) { LOG("_asyncFindJAREngines: failed to retrieve list.txt from " + listURL); deferred.resolve(""); }; request.open("GET", NetUtil.newURI(listURL).spec, true); request.send(); let list = yield deferred.promise; let names = []; names = list.split("\n").filter(function (n) !!n); names.forEach(function (n) uris.push(root + n + ".xml")); } throw new Task.Result([chromeFiles, uris]); }); }, _saveSortedEngineList: function SRCH_SVC_saveSortedEngineList() { LOG("SRCH_SVC_saveSortedEngineList: starting"); // Set the useDB pref to indicate that from now on we should use the order // information stored in the database. Services.prefs.setBoolPref(BROWSER_SEARCH_PREF + "useDBForOrder", true); var engines = this._getSortedEngines(true); let instructions = []; for (var i = 0; i < engines.length; ++i) { instructions.push( {key: "order", value: i+1, engine: engines[i] }); } engineMetadataService.setAttrs(instructions); LOG("SRCH_SVC_saveSortedEngineList: done"); }, _buildSortedEngineList: function SRCH_SVC_buildSortedEngineList() { LOG("_buildSortedEngineList: building list"); var addedEngines = { }; this.__sortedEngines = []; var engine; // If the user has specified a custom engine order, read the order // information from the engineMetadataService instead of the default // prefs. if (getBoolPref(BROWSER_SEARCH_PREF + "useDBForOrder", false)) { LOG("_buildSortedEngineList: using db for order"); // Flag to keep track of whether or not we need to call _saveSortedEngineList. let needToSaveEngineList = false; for each (engine in this._engines) { var orderNumber = engineMetadataService.getAttr(engine, "order"); // Since the DB isn't regularly cleared, and engine files may disappear // without us knowing, we may already have an engine in this slot. If // that happens, we just skip it - it will be added later on as an // unsorted engine. if (orderNumber && !this.__sortedEngines[orderNumber-1]) { this.__sortedEngines[orderNumber-1] = engine; addedEngines[engine.name] = engine; } else { // We need to call _saveSortedEngineList so this gets sorted out. needToSaveEngineList = true; } } // Filter out any nulls for engines that may have been removed var filteredEngines = this.__sortedEngines.filter(function(a) { return !!a; }); if (this.__sortedEngines.length != filteredEngines.length) needToSaveEngineList = true; this.__sortedEngines = filteredEngines; if (needToSaveEngineList) this._saveSortedEngineList(); } else { // The DB isn't being used, so just read the engine order from the prefs var i = 0; var engineName; var prefName; try { var extras = Services.prefs.getChildList(BROWSER_SEARCH_PREF + "order.extra."); for each (prefName in extras) { engineName = Services.prefs.getCharPref(prefName); engine = this._engines[engineName]; if (!engine || engine.name in addedEngines) continue; this.__sortedEngines.push(engine); addedEngines[engine.name] = engine; } } catch (e) { } let prefNameBase = getGeoSpecificPrefName(BROWSER_SEARCH_PREF + "order"); while (true) { prefName = prefNameBase + "." + (++i); engineName = getLocalizedPref(prefName); if (!engineName) break; engine = this._engines[engineName]; if (!engine || engine.name in addedEngines) continue; this.__sortedEngines.push(engine); addedEngines[engine.name] = engine; } } // Array for the remaining engines, alphabetically sorted. let alphaEngines = []; for each (engine in this._engines) { if (!(engine.name in addedEngines)) alphaEngines.push(this._engines[engine.name]); } let locale = Cc["@mozilla.org/intl/nslocaleservice;1"] .getService(Ci.nsILocaleService) .newLocale(getLocale()); let collation = Cc["@mozilla.org/intl/collation-factory;1"] .createInstance(Ci.nsICollationFactory) .CreateCollation(locale); const strength = Ci.nsICollation.kCollationCaseInsensitiveAscii; let comparator = (a, b) => collation.compareString(strength, a.name, b.name); alphaEngines.sort(comparator); return this.__sortedEngines = this.__sortedEngines.concat(alphaEngines); }, /** * Get a sorted array of engines. * @param aWithHidden * True if hidden plugins should be included in the result. */ _getSortedEngines: function SRCH_SVC_getSorted(aWithHidden) { if (aWithHidden) return this._sortedEngines; return this._sortedEngines.filter(function (engine) { return !engine.hidden; }); }, _getVerificationHash: function SRCH_SVC__getVerificationHash(aName) { let disclaimer = "By modifying this file, I agree that I am doing so " + "only within $appName itself, using official, user-driven search " + "engine selection processes, and in a way which does not circumvent " + "user consent. I acknowledge that any attempt to change this file " + "from outside of $appName is a malicious act, and will be responded " + "to accordingly." let salt = OS.Path.basename(OS.Constants.Path.profileDir) + aName + disclaimer.replace(/\$appName/g, Services.appinfo.name); let converter = Cc["@mozilla.org/intl/scriptableunicodeconverter"] .createInstance(Ci.nsIScriptableUnicodeConverter); converter.charset = "UTF-8"; // Data is an array of bytes. let data = converter.convertToByteArray(salt, {}); let hasher = Cc["@mozilla.org/security/hash;1"] .createInstance(Ci.nsICryptoHash); hasher.init(hasher.SHA256); hasher.update(data, data.length); return hasher.finish(true); }, // nsIBrowserSearchService init: function SRCH_SVC_init(observer) { LOG("SearchService.init"); let self = this; if (!this._initStarted) { TelemetryStopwatch.start("SEARCH_SERVICE_INIT_MS"); this._initStarted = true; Task.spawn(function task() { try { yield checkForSyncCompletion(engineMetadataService.init()); // Complete initialization by calling asynchronous initializer. yield self._asyncInit(); TelemetryStopwatch.finish("SEARCH_SERVICE_INIT_MS"); } catch (ex if ex.result == Cr.NS_ERROR_ALREADY_INITIALIZED) { // No need to pursue asynchronous because synchronous fallback was // called and has finished. TelemetryStopwatch.finish("SEARCH_SERVICE_INIT_MS"); } catch (ex) { self._initObservers.reject(ex); TelemetryStopwatch.cancel("SEARCH_SERVICE_INIT_MS"); } }); } if (observer) { this._initObservers.promise.then( function onSuccess() { try { observer.onInitComplete(self._initRV); } catch (e) { Cu.reportError(e); } }, function onError(aReason) { Cu.reportError("Internal error while initializing SearchService: " + aReason); observer.onInitComplete(Components.results.NS_ERROR_UNEXPECTED); } ); } }, get isInitialized() { return gInitialized; }, getEngines: function SRCH_SVC_getEngines(aCount) { this._ensureInitialized(); LOG("getEngines: getting all engines"); var engines = this._getSortedEngines(true); aCount.value = engines.length; return engines; }, getVisibleEngines: function SRCH_SVC_getVisible(aCount) { this._ensureInitialized(); LOG("getVisibleEngines: getting all visible engines"); var engines = this._getSortedEngines(false); aCount.value = engines.length; return engines; }, getDefaultEngines: function SRCH_SVC_getDefault(aCount) { this._ensureInitialized(); function isDefault(engine) { return engine._isDefault; }; var engines = this._sortedEngines.filter(isDefault); var engineOrder = {}; var engineName; var i = 1; // Build a list of engines which we have ordering information for. // We're rebuilding the list here because _sortedEngines contain the // current order, but we want the original order. // First, look at the "browser.search.order.extra" branch. try { var extras = Services.prefs.getChildList(BROWSER_SEARCH_PREF + "order.extra."); for each (var prefName in extras) { engineName = Services.prefs.getCharPref(prefName); if (!(engineName in engineOrder)) engineOrder[engineName] = i++; } } catch (e) { LOG("Getting extra order prefs failed: " + e); } // Now look through the "browser.search.order" branch. let prefNameBase = getGeoSpecificPrefName(BROWSER_SEARCH_PREF + "order"); for (var j = 1; ; j++) { let prefName = prefNameBase + "." + j; engineName = getLocalizedPref(prefName); if (!engineName) break; if (!(engineName in engineOrder)) engineOrder[engineName] = i++; } LOG("getDefaultEngines: engineOrder: " + engineOrder.toSource()); function compareEngines (a, b) { var aIdx = engineOrder[a.name]; var bIdx = engineOrder[b.name]; if (aIdx && bIdx) return aIdx - bIdx; if (aIdx) return -1; if (bIdx) return 1; return a.name.localeCompare(b.name); } engines.sort(compareEngines); aCount.value = engines.length; return engines; }, getEngineByName: function SRCH_SVC_getEngineByName(aEngineName) { this._ensureInitialized(); return this._engines[aEngineName] || null; }, getEngineByAlias: function SRCH_SVC_getEngineByAlias(aAlias) { this._ensureInitialized(); for (var engineName in this._engines) { var engine = this._engines[engineName]; if (engine && engine.alias == aAlias) return engine; } return null; }, addEngineWithDetails: function SRCH_SVC_addEWD(aName, aIconURL, aAlias, aDescription, aMethod, aTemplate, aExtensionID) { this._ensureInitialized(); if (!aName) FAIL("Invalid name passed to addEngineWithDetails!"); if (!aMethod) FAIL("Invalid method passed to addEngineWithDetails!"); if (!aTemplate) FAIL("Invalid template passed to addEngineWithDetails!"); if (this._engines[aName]) FAIL("An engine with that name already exists!", Cr.NS_ERROR_FILE_ALREADY_EXISTS); var engine = new Engine(getSanitizedFile(aName), SEARCH_DATA_XML, false); engine._initFromMetadata(aName, aIconURL, aAlias, aDescription, aMethod, aTemplate, aExtensionID); this._addEngineToStore(engine); }, addEngine: function SRCH_SVC_addEngine(aEngineURL, aDataType, aIconURL, aConfirm, aCallback) { LOG("addEngine: Adding \"" + aEngineURL + "\"."); this._ensureInitialized(); try { var uri = makeURI(aEngineURL); var engine = new Engine(uri, aDataType, false); if (aCallback) { engine._installCallback = function (errorCode) { try { if (errorCode == null) aCallback.onSuccess(engine); else aCallback.onError(errorCode); } catch (ex) { Cu.reportError("Error invoking addEngine install callback: " + ex); } // Clear the reference to the callback now that it's been invoked. engine._installCallback = null; }; } engine._initFromURIAndLoad(); } catch (ex) { // Drop the reference to the callback, if set if (engine) engine._installCallback = null; FAIL("addEngine: Error adding engine:\n" + ex, Cr.NS_ERROR_FAILURE); } engine._setIcon(aIconURL, false); engine._confirm = aConfirm; }, removeEngine: function SRCH_SVC_removeEngine(aEngine) { this._ensureInitialized(); if (!aEngine) FAIL("no engine passed to removeEngine!"); var engineToRemove = null; for (var e in this._engines) { if (aEngine.wrappedJSObject == this._engines[e]) engineToRemove = this._engines[e]; } if (!engineToRemove) FAIL("removeEngine: Can't find engine to remove!", Cr.NS_ERROR_FILE_NOT_FOUND); if (engineToRemove == this.currentEngine) { this._currentEngine = null; } if (engineToRemove == this.defaultEngine) { this._defaultEngine = null; } if (engineToRemove._readOnly) { // Just hide it (the "hidden" setter will notify) and remove its alias to // avoid future conflicts with other engines. engineToRemove.hidden = true; engineToRemove.alias = null; } else { // Cancel the serialized task if it's pending. Since the task is a // synchronous function, we don't need to wait on the "finalize" method. if (engineToRemove._lazySerializeTask) { engineToRemove._lazySerializeTask.disarm(); engineToRemove._lazySerializeTask = null; } // Remove the engine file from disk (this might throw) engineToRemove._remove(); engineToRemove._file = null; // Remove the engine from _sortedEngines var index = this._sortedEngines.indexOf(engineToRemove); if (index == -1) FAIL("Can't find engine to remove in _sortedEngines!", Cr.NS_ERROR_FAILURE); this.__sortedEngines.splice(index, 1); // Remove the engine from the internal store delete this._engines[engineToRemove.name]; notifyAction(engineToRemove, SEARCH_ENGINE_REMOVED); // Since we removed an engine, we need to update the preferences. this._saveSortedEngineList(); } }, moveEngine: function SRCH_SVC_moveEngine(aEngine, aNewIndex) { this._ensureInitialized(); if ((aNewIndex > this._sortedEngines.length) || (aNewIndex < 0)) FAIL("SRCH_SVC_moveEngine: Index out of bounds!"); if (!(aEngine instanceof Ci.nsISearchEngine)) FAIL("SRCH_SVC_moveEngine: Invalid engine passed to moveEngine!"); if (aEngine.hidden) FAIL("moveEngine: Can't move a hidden engine!", Cr.NS_ERROR_FAILURE); var engine = aEngine.wrappedJSObject; var currentIndex = this._sortedEngines.indexOf(engine); if (currentIndex == -1) FAIL("moveEngine: Can't find engine to move!", Cr.NS_ERROR_UNEXPECTED); // Our callers only take into account non-hidden engines when calculating // aNewIndex, but we need to move it in the array of all engines, so we // need to adjust aNewIndex accordingly. To do this, we count the number // of hidden engines in the list before the engine that we're taking the // place of. We do this by first finding newIndexEngine (the engine that // we were supposed to replace) and then iterating through the complete // engine list until we reach it, increasing aNewIndex for each hidden // engine we find on our way there. // // This could be further simplified by having our caller pass in // newIndexEngine directly instead of aNewIndex. var newIndexEngine = this._getSortedEngines(false)[aNewIndex]; if (!newIndexEngine) FAIL("moveEngine: Can't find engine to replace!", Cr.NS_ERROR_UNEXPECTED); for (var i = 0; i < this._sortedEngines.length; ++i) { if (newIndexEngine == this._sortedEngines[i]) break; if (this._sortedEngines[i].hidden) aNewIndex++; } if (currentIndex == aNewIndex) return; // nothing to do! // Move the engine var movedEngine = this.__sortedEngines.splice(currentIndex, 1)[0]; this.__sortedEngines.splice(aNewIndex, 0, movedEngine); notifyAction(engine, SEARCH_ENGINE_CHANGED); // Since we moved an engine, we need to update the preferences. this._saveSortedEngineList(); }, restoreDefaultEngines: function SRCH_SVC_resetDefaultEngines() { this._ensureInitialized(); for each (var e in this._engines) { // Unhide all default engines if (e.hidden && e._isDefault) e.hidden = false; } }, get defaultEngine() { this._ensureInitialized(); if (!this._defaultEngine) { let defPref = getGeoSpecificPrefName(BROWSER_SEARCH_PREF + "defaultenginename"); let defaultEngine = this.getEngineByName(getLocalizedPref(defPref, "")) if (!defaultEngine) defaultEngine = this._getSortedEngines(false)[0] || null; this._defaultEngine = defaultEngine; } if (this._defaultEngine.hidden) return this._getSortedEngines(false)[0]; return this._defaultEngine; }, set defaultEngine(val) { this._ensureInitialized(); // Sometimes we get wrapped nsISearchEngine objects (external XPCOM callers), // and sometimes we get raw Engine JS objects (callers in this file), so // handle both. if (!(val instanceof Ci.nsISearchEngine) && !(val instanceof Engine)) FAIL("Invalid argument passed to defaultEngine setter"); let newDefaultEngine = this.getEngineByName(val.name); if (!newDefaultEngine) FAIL("Can't find engine in store!", Cr.NS_ERROR_UNEXPECTED); if (newDefaultEngine == this._defaultEngine) return; this._defaultEngine = newDefaultEngine; let defPref = getGeoSpecificPrefName(BROWSER_SEARCH_PREF + "defaultenginename"); // If we change the default engine in the future, that change should impact // users who have switched away from and then back to the build's "default" // engine. So clear the user pref when the defaultEngine is set to the // build's default engine, so that the defaultEngine getter falls back to // whatever the default is. if (this._defaultEngine == this._originalDefaultEngine) { Services.prefs.clearUserPref(defPref); } else { setLocalizedPref(defPref, this._defaultEngine.name); } notifyAction(this._defaultEngine, SEARCH_ENGINE_DEFAULT); }, get currentEngine() { this._ensureInitialized(); if (!this._currentEngine) { let name = engineMetadataService.getGlobalAttr("current"); if (engineMetadataService.getGlobalAttr("hash") == this._getVerificationHash(name)) { this._currentEngine = this.getEngineByName(name); } } if (!this._currentEngine || this._currentEngine.hidden) this._currentEngine = this._originalDefaultEngine; if (!this._currentEngine || this._currentEngine.hidden) this._currentEngine = this._getSortedEngines(false)[0]; return this._currentEngine; }, set currentEngine(val) { this._ensureInitialized(); // Sometimes we get wrapped nsISearchEngine objects (external XPCOM callers), // and sometimes we get raw Engine JS objects (callers in this file), so // handle both. if (!(val instanceof Ci.nsISearchEngine) && !(val instanceof Engine)) FAIL("Invalid argument passed to currentEngine setter"); var newCurrentEngine = this.getEngineByName(val.name); if (!newCurrentEngine) FAIL("Can't find engine in store!", Cr.NS_ERROR_UNEXPECTED); if (newCurrentEngine == this._currentEngine) return; this._currentEngine = newCurrentEngine; // If we change the default engine in the future, that change should impact // users who have switched away from and then back to the build's "default" // engine. So clear the user pref when the currentEngine is set to the // build's default engine, so that the currentEngine getter falls back to // whatever the default is. let newName = this._currentEngine.name; if (this._currentEngine == this._originalDefaultEngine) { newName = ""; } engineMetadataService.setGlobalAttr("current", newName); engineMetadataService.setGlobalAttr("hash", this._getVerificationHash(newName)); notifyAction(this._currentEngine, SEARCH_ENGINE_CURRENT); }, /** * This map is built lazily after the available search engines change. It * allows quick parsing of an URL representing a search submission into the * search engine name and original terms. * * The keys are strings containing the domain name and lowercase path of the * engine submission, for example "www.google.com/search". * * The values are objects with these properties: * { * engine: The associated nsISearchEngine. * termsParameterName: Name of the URL parameter containing the search * terms, for example "q". * } */ _parseSubmissionMap: null, _buildParseSubmissionMap: function SRCH_SVC__buildParseSubmissionMap() { LOG("_buildParseSubmissionMap"); this._parseSubmissionMap = new Map(); // Used only while building the map, indicates which entries do not refer to // the main domain of the engine but to an alternate domain, for example // "www.google.fr" for the "www.google.com" search engine. let keysOfAlternates = new Set(); for (let engine of this._sortedEngines) { LOG("Processing engine: " + engine.name); if (engine.hidden) { LOG("Engine is hidden."); continue; } let urlParsingInfo = engine.getURLParsingInfo(); if (!urlParsingInfo) { LOG("Engine does not support URL parsing."); continue; } // Store the same object on each matching map key, as an optimization. let mapValueForEngine = { engine: engine, termsParameterName: urlParsingInfo.termsParameterName, }; let processDomain = (domain, isAlternate) => { let key = domain + urlParsingInfo.path; // Apply the logic for which main domains take priority over alternate // domains, even if they are found later in the ordered engine list. let existingEntry = this._parseSubmissionMap.get(key); if (!existingEntry) { LOG("Adding new entry: " + key); if (isAlternate) { keysOfAlternates.add(key); } } else if (!isAlternate && keysOfAlternates.has(key)) { LOG("Overriding alternate entry: " + key + " (" + existingEntry.engine.name + ")"); keysOfAlternates.delete(key); } else { LOG("Keeping existing entry: " + key + " (" + existingEntry.engine.name + ")"); return; } this._parseSubmissionMap.set(key, mapValueForEngine); }; processDomain(urlParsingInfo.mainDomain, false); SearchStaticData.getAlternateDomains(urlParsingInfo.mainDomain) .forEach(d => processDomain(d, true)); } }, parseSubmissionURL: function SRCH_SVC_parseSubmissionURL(aURL) { this._ensureInitialized(); LOG("parseSubmissionURL: Parsing \"" + aURL + "\"."); if (!this._parseSubmissionMap) { this._buildParseSubmissionMap(); } // Extract the elements of the provided URL first. let soughtKey, soughtQuery; try { let soughtUrl = NetUtil.newURI(aURL).QueryInterface(Ci.nsIURL); // Exclude any URL that is not HTTP or HTTPS from the beginning. if (soughtUrl.scheme != "http" && soughtUrl.scheme != "https") { LOG("The URL scheme is not HTTP or HTTPS."); return gEmptyParseSubmissionResult; } // Reading these URL properties may fail and raise an exception. soughtKey = soughtUrl.host + soughtUrl.filePath.toLowerCase(); soughtQuery = soughtUrl.query; } catch (ex) { // Errors while parsing the URL or accessing the properties are not fatal. LOG("The value does not look like a structured URL."); return gEmptyParseSubmissionResult; } // Look up the domain and path in the map to identify the search engine. let mapEntry = this._parseSubmissionMap.get(soughtKey); if (!mapEntry) { LOG("No engine associated with domain and path: " + soughtKey); return gEmptyParseSubmissionResult; } // Extract the search terms from the parameter, for example "caff%C3%A8" // from the URL "https://www.google.com/search?q=caff%C3%A8&client=firefox". let encodedTerms = null; for (let param of soughtQuery.split("&")) { let equalPos = param.indexOf("="); if (equalPos != -1 && param.substr(0, equalPos) == mapEntry.termsParameterName) { // This is the parameter we are looking for. encodedTerms = param.substr(equalPos + 1); break; } } if (encodedTerms === null) { LOG("Missing terms parameter: " + mapEntry.termsParameterName); return gEmptyParseSubmissionResult; } let length = 0; let offset = aURL.indexOf("?") + 1; let query = aURL.slice(offset); // Iterate a second time over the original input string to determine the // correct search term offset and length in the original encoding. for (let param of query.split("&")) { let equalPos = param.indexOf("="); if (equalPos != -1 && param.substr(0, equalPos) == mapEntry.termsParameterName) { // This is the parameter we are looking for. offset += equalPos + 1; length = param.length - equalPos - 1; break; } offset += param.length + 1; } // Decode the terms using the charset defined in the search engine. let terms; try { terms = gTextToSubURI.UnEscapeAndConvert( mapEntry.engine.queryCharset, encodedTerms.replace("+", " ", "g")); } catch (ex) { // Decoding errors will cause this match to be ignored. LOG("Parameter decoding failed. Charset: " + mapEntry.engine.queryCharset); return gEmptyParseSubmissionResult; } LOG("Match found. Terms: " + terms); return new ParseSubmissionResult(mapEntry.engine, terms, offset, length); }, // nsIObserver observe: function SRCH_SVC_observe(aEngine, aTopic, aVerb) { switch (aTopic) { case SEARCH_ENGINE_TOPIC: switch (aVerb) { case SEARCH_ENGINE_LOADED: var engine = aEngine.QueryInterface(Ci.nsISearchEngine); LOG("nsSearchService::observe: Done installation of " + engine.name + "."); this._addEngineToStore(engine.wrappedJSObject); if (engine.wrappedJSObject._useNow) { LOG("nsSearchService::observe: setting current"); this.currentEngine = aEngine; } // The addition of the engine to the store always triggers an ADDED // or a CHANGED notification, that will trigger the task below. break; case SEARCH_ENGINE_ADDED: case SEARCH_ENGINE_CHANGED: case SEARCH_ENGINE_REMOVED: this.batchTask.disarm(); this.batchTask.arm(); // Invalidate the map used to parse URLs to search engines. this._parseSubmissionMap = null; break; } break; case QUIT_APPLICATION_TOPIC: this._removeObservers(); break; case "nsPref:changed": if (aVerb == LOCALE_PREF) { // Locale changed. Re-init. We rely on observers, because we can't // return this promise to anyone. this._asyncReInit(); break; } } }, // nsITimerCallback notify: function SRCH_SVC_notify(aTimer) { LOG("_notify: checking for updates"); if (!getBoolPref(BROWSER_SEARCH_PREF + "update", true)) return; // Our timer has expired, but unfortunately, we can't get any data from it. // Therefore, we need to walk our engine-list, looking for expired engines var currentTime = Date.now(); LOG("currentTime: " + currentTime); for each (let engine in this._engines) { engine = engine.wrappedJSObject; if (!engine._hasUpdates) continue; LOG("checking " + engine.name); var expirTime = engineMetadataService.getAttr(engine, "updateexpir"); LOG("expirTime: " + expirTime + "\nupdateURL: " + engine._updateURL + "\niconUpdateURL: " + engine._iconUpdateURL); var engineExpired = expirTime <= currentTime; if (!expirTime || !engineExpired) { LOG("skipping engine"); continue; } LOG(engine.name + " has expired"); engineUpdateService.update(engine); // Schedule the next update engineUpdateService.scheduleNextUpdate(engine); } // end engine iteration }, _addObservers: function SRCH_SVC_addObservers() { Services.obs.addObserver(this, SEARCH_ENGINE_TOPIC, false); Services.obs.addObserver(this, QUIT_APPLICATION_TOPIC, false); #ifdef MOZ_FENNEC Services.prefs.addObserver(LOCALE_PREF, this, false); #endif // The current stage of shutdown. Used to help analyze crash // signatures in case of shutdown timeout. let shutdownState = { step: "Not started", latestError: { message: undefined, stack: undefined } }; OS.File.profileBeforeChange.addBlocker( "Search service: shutting down", () => Task.spawn(function* () { if (this._batchTask) { shutdownState.step = "Finalizing batched task"; try { yield this._batchTask.finalize(); shutdownState.step = "Batched task finalized"; } catch (ex) { shutdownState.step = "Batched task failed to finalize"; shutdownState.latestError.message = "" + ex; if (ex && typeof ex == "object") { shutdownState.latestError.stack = ex.stack || undefined; } // Ensure that error is reported and that it causes tests // to fail. Promise.reject(ex); } } shutdownState.step = "Finalizing engine metadata service"; yield engineMetadataService.finalize(); shutdownState.step = "Engine metadata service finalized"; }.bind(this)), () => shutdownState ); }, _removeObservers: function SRCH_SVC_removeObservers() { Services.obs.removeObserver(this, SEARCH_ENGINE_TOPIC); Services.obs.removeObserver(this, QUIT_APPLICATION_TOPIC); #ifdef MOZ_FENNEC Services.prefs.removeObserver(LOCALE_PREF, this); #endif }, QueryInterface: function SRCH_SVC_QI(aIID) { if (aIID.equals(Ci.nsIBrowserSearchService) || aIID.equals(Ci.nsIObserver) || aIID.equals(Ci.nsITimerCallback) || aIID.equals(Ci.nsISupports)) return this; throw Cr.NS_ERROR_NO_INTERFACE; } }; var engineMetadataService = { _jsonFile: OS.Path.join(OS.Constants.Path.profileDir, "search-metadata.json"), /** * Possible values for |_initState|. * * We have two paths to perform initialization: a default asynchronous * path and a fallback synchronous path that can interrupt the async * path. For this reason, initialization is actually something of a * finite state machine, represented with the following states: * * @enum */ _InitStates: { NOT_STARTED: "NOT_STARTED" /**Initialization has not started*/, FINISHED_SUCCESS: "FINISHED_SUCCESS" /**Setup complete, with a success*/ }, /** * The latest step completed by initialization. One of |InitStates| * * @type {engineMetadataService._InitStates} */ _initState: null, // A promise fulfilled once initialization is complete _initializer: null, /** * Asynchronous initializer * * Note: In the current implementation, initialization never fails. */ init: function epsInit() { if (!this._initializer) { // Launch asynchronous initialization let initializer = this._initializer = Promise.defer(); Task.spawn((function task_init() { LOG("metadata init: starting"); switch (this._initState) { case engineMetadataService._InitStates.NOT_STARTED: // 1. Load json file if it exists try { let contents = yield OS.File.read(this._jsonFile); if (this._initState == engineMetadataService._InitStates.FINISHED_SUCCESS) { // No need to pursue asynchronous initialization, // synchronous fallback was called and has finished. return; } this._store = JSON.parse(new TextDecoder().decode(contents)); } catch (ex) { if (this._initState == engineMetadataService._InitStates.FINISHED_SUCCESS) { // No need to pursue asynchronous initialization, // synchronous fallback was called and has finished. return; } // Couldn't load json, use an empty store LOG("metadata init: could not load JSON file " + ex); this._store = {}; } break; default: throw new Error("metadata init: invalid state " + this._initState); } this._initState = this._InitStates.FINISHED_SUCCESS; LOG("metadata init: complete"); }).bind(this)).then( // 3. Inform any observers function onSuccess() { initializer.resolve(); }, function onError() { initializer.reject(); } ); } return this._initializer.promise; }, /** * Synchronous implementation of initializer * * This initializer is able to pick wherever the async initializer * is waiting. The asynchronous initializer is expected to stop * if it detects that the synchronous initializer has completed * initialization. */ syncInit: function epsSyncInit() { LOG("metadata syncInit start"); if (this._initState == engineMetadataService._InitStates.FINISHED_SUCCESS) { return; } switch (this._initState) { case engineMetadataService._InitStates.NOT_STARTED: let jsonFile = new FileUtils.File(this._jsonFile); // 1. Load json file if it exists if (jsonFile.exists()) { try { let uri = Services.io.newFileURI(jsonFile); let stream = Services.io.newChannelFromURI(uri).open(); this._store = parseJsonFromStream(stream); } catch (x) { LOG("metadata syncInit: could not load JSON file " + x); this._store = {}; } } else { LOG("metadata syncInit: using an empty store"); this._store = {}; } this._initState = this._InitStates.FINISHED_SUCCESS; break; default: throw new Error("metadata syncInit: invalid state " + this._initState); } // 3. Inform any observers if (this._initializer) { this._initializer.resolve(); } else { this._initializer = Promise.resolve(); } LOG("metadata syncInit end"); }, getAttr: function epsGetAttr(engine, name) { let record = this._store[engine._id]; if (!record) { return null; } // attr names must be lower case let aName = name.toLowerCase(); if (!record[aName]) return null; return record[aName]; }, _globalFakeEngine: {_id: "[global]"}, getGlobalAttr: function epsGetGlobalAttr(name) { return this.getAttr(this._globalFakeEngine, name); }, _setAttr: function epsSetAttr(engine, name, value) { // attr names must be lower case name = name.toLowerCase(); let db = this._store; let record = db[engine._id]; if (!record) { record = db[engine._id] = {}; } if (!record[name] || (record[name] != value)) { record[name] = value; return true; } return false; }, /** * Set one metadata attribute for an engine. * * If an actual change has taken place, the attribute is committed * automatically (and lazily), using this._commit. * * @param {nsISearchEngine} engine The engine to update. * @param {string} key The name of the attribute. Case-insensitive. In * the current implementation, this _must not_ conflict with properties * of |Object|. * @param {*} value A value to store. */ setAttr: function epsSetAttr(engine, key, value) { if (this._setAttr(engine, key, value)) { this._commit(); } }, setGlobalAttr: function epsGetGlobalAttr(key, value) { this.setAttr(this._globalFakeEngine, key, value); }, /** * Bulk set metadata attributes for a number of engines. * * If actual changes have taken place, the store is committed * automatically (and lazily), using this._commit. * * @param {Array.<{engine: nsISearchEngine, key: string, value: *}>} changes * The list of changes to effect. See |setAttr| for the documentation of * |engine|, |key|, |value|. */ setAttrs: function epsSetAttrs(changes) { let self = this; let changed = false; changes.forEach(function(change) { changed |= self._setAttr(change.engine, change.key, change.value); }); if (changed) { this._commit(); } }, /** * Flush any waiting write. */ finalize: function () this._lazyWriter ? this._lazyWriter.finalize() : Promise.resolve(), /** * Commit changes to disk, asynchronously. * * Calls to this function are actually delayed by LAZY_SERIALIZE_DELAY * (= 100ms). If the function is called again before the expiration of * the delay, commits are merged and the function is again delayed by * the same amount of time. */ _commit: function epsCommit() { LOG("metadata _commit: start"); if (!this._store) { LOG("metadata _commit: nothing to do"); return; } if (!this._lazyWriter) { LOG("metadata _commit: initializing lazy writer"); let writeCommit = function () { LOG("metadata writeCommit: start"); let data = gEncoder.encode(JSON.stringify(engineMetadataService._store)); let path = engineMetadataService._jsonFile; LOG("metadata writeCommit: path " + path); let promise = OS.File.writeAtomic(path, data, { tmpPath: path + ".tmp" }); promise = promise.then( function onSuccess() { Services.obs.notifyObservers(null, SEARCH_SERVICE_TOPIC, SEARCH_SERVICE_METADATA_WRITTEN); LOG("metadata writeCommit: done"); } ); return promise; } this._lazyWriter = new DeferredTask(writeCommit, LAZY_SERIALIZE_DELAY); } LOG("metadata _commit: (re)setting timer"); this._lazyWriter.disarm(); this._lazyWriter.arm(); }, _lazyWriter: null }; engineMetadataService._initState = engineMetadataService._InitStates.NOT_STARTED; const SEARCH_UPDATE_LOG_PREFIX = "*** Search update: "; /** * Outputs aText to the JavaScript console as well as to stdout, if the search * logging pref (browser.search.update.log) is set to true. */ function ULOG(aText) { if (getBoolPref(BROWSER_SEARCH_PREF + "update.log", false)) { dump(SEARCH_UPDATE_LOG_PREFIX + aText + "\n"); Services.console.logStringMessage(aText); } } var engineUpdateService = { scheduleNextUpdate: function eus_scheduleNextUpdate(aEngine) { var interval = aEngine._updateInterval || SEARCH_DEFAULT_UPDATE_INTERVAL; var milliseconds = interval * 86400000; // |interval| is in days engineMetadataService.setAttr(aEngine, "updateexpir", Date.now() + milliseconds); }, update: function eus_Update(aEngine) { let engine = aEngine.wrappedJSObject; ULOG("update called for " + aEngine._name); if (!getBoolPref(BROWSER_SEARCH_PREF + "update", true) || !engine._hasUpdates) return; // We use the cache to store updated app engines, so refuse to update if the // cache is disabled. if (engine._readOnly && !getBoolPref(BROWSER_SEARCH_PREF + "cache.enabled", true)) return; let testEngine = null; let updateURL = engine._getURLOfType(URLTYPE_OPENSEARCH); let updateURI = (updateURL && updateURL._hasRelation("self")) ? updateURL.getSubmission("", engine).uri : makeURI(engine._updateURL); if (updateURI) { if (engine._isDefault && !updateURI.schemeIs("https")) { ULOG("Invalid scheme for default engine update"); return; } let dataType = engineMetadataService.getAttr(engine, "updatedatatype"); if (!dataType) { ULOG("No loadtype to update engine!"); return; } ULOG("updating " + engine.name + " from " + updateURI.spec); testEngine = new Engine(updateURI, dataType, false); testEngine._engineToUpdate = engine; testEngine._initFromURIAndLoad(); } else ULOG("invalid updateURI"); if (engine._iconUpdateURL) { // If we're updating the engine too, use the new engine object, // otherwise use the existing engine object. (testEngine || engine)._setIcon(engine._iconUpdateURL, true); } } }; this.NSGetFactory = XPCOMUtils.generateNSGetFactory([SearchService]); #include ../../../toolkit/modules/debug.js