/** * eGroupWare eTemplate2 * * @license http://opensource.org/licenses/gpl-license.php GPL - GNU General Public License * @package etemplate * @subpackage api * @link http://www.egroupware.org * @author Andreas Stöckel * @copyright Stylite 2012 * @version $Id$ */ /*egw:uses egw_core; egw_debug; */ "use strict"; egw.extend("data", egw.MODULE_APP_LOCAL, function (_app, _wnd) { /** * How many UIDs we'll tell the server we know about. No need to pass the whole list around. */ var KNOWN_UID_LIMIT = 200; /** * Cache lifetime * * If cached results are used, we check their timestamp. If the timestamp * is older than this, we will also ask for fresh data. For cached data * younger than this, we only return the cache * * 29 seconds, 1 less then the fastest nextmatch autorefresh option */ var CACHE_LIFETIME = 29; // seconds /** * Cached fetches are differentiated from actual results by using this prefix * @type String */ var CACHE_KEY_PREFIX = 'cached_fetch_'; var lastModification = null; /** * cacheCallback stores callbacks that determine if data is placed * into cacheStorage, or simply kept temporarily. It is indexed * by prefix. * * @type Array */ var cacheCallback = {}; /** * The uid function generates a session-unique id for the current * application by appending the application name to the given uid. * * @param {string} _uid * @param {string} _prefix */ function UID(_uid, _prefix) { _prefix = _prefix ? _prefix : _app; return _prefix + "::" + _uid; } /** * Looks like too much data is cached. Forget some. * * Tries to free up localStorage by removing the oldest cached data for the * given prefix, but if none is found it will look at all cached data. * * @param {string} _prefix UID / application prefix * @returns {Number} Number of cached recordsets removed, normally 1. */ function _clearCache(_prefix) { // Find cached items for the prefix, we prefer to expire just within the app var indexes = []; for(var i = 0; i < window.localStorage.length; i++) { var key = window.localStorage.key(i); // This is a cached fetch for many rows if(key.indexOf(CACHE_KEY_PREFIX+_prefix) == 0) { var cached = JSON.parse(window.localStorage.getItem(key)); if(cached.lastModification) { indexes.push({ key: key, lastModification: cached.lastModification }); } else { // No way to know how old it is, just remove it window.localStorage.removeItem(key); } } // Actual cached data else if (key.indexOf(_prefix) == 0) { var cached = JSON.parse(window.localStorage.getItem(key)); if(cached.timestamp) { indexes.push({ key: key, lastModification: cached.timestamp }); } else { // No way to know how old it is, just remove it window.localStorage.removeItem(key); } } } // Nothing for that prefix? Clear all cached data. if(_prefix && indexes.length == 0) { return _clearCache(''); } // Found some cached for that prefix, only remove the oldest else if (indexes.length > 0) { indexes.sort(function(a,b) { if(a.lastModification < b.lastModification) return 1; if(a.lastModification > b.lastModification) return -1; return 0; }); window.localStorage.removeItem(indexes.pop().key); return 1; } return indexes.length; } function parseServerResponse(_result, _callback, _context, _execId, _widgetId) { // Check whether the result is valid // This result is not for us, quietly return if(_result && typeof _result.type != 'undefined') return; // "result" has to be an object consting of "order" and "data" if (!(_result && typeof _result.order !== "undefined" && typeof _result.data !== "undefined")) { egw.debug("error", "Invalid result for 'dataFetch'"); } if (_result.lastModification) { lastModification = _result.lastModification; } if (_result.order && _result.data) { // Assemble the correct order uids if(!(_result.order.length && _result.order[0] && _result.order[0].indexOf && _result.order[0].indexOf(_context.prefix) == 0)) { for (var i = 0; i < _result.order.length; i++) { _result.order[i] = UID(_result.order[i], _context.prefix); } } // Load all data entries that have been sent or delete them for (var key in _result.data) { var uid = UID(key, (typeof _context == "object" && _context != null) ?_context.prefix : ""); if (_result.data[key] === null && ( typeof _context.refresh == "undefined" || _context.refresh && !jQuery.inArray(key,_context.refresh) )) { egw.dataDeleteUID(uid); } else { egw.dataStoreUID(uid, _result.data[key]); } } // Tried to refresh a specific row and got nothing, so set it to null // (triggers update for listeners), then remove it if(_result.data.length == 0 && typeof _context == "object" && _context.refresh) { for(var i = 0; i < _context.refresh.length; i++) { var uid = UID(_context.refresh[i], _context.prefix); egw.dataStoreUID(uid, null); egw.dataDeleteUID(uid); } } // Check to see if we need long-term caching of the query and its results if(window.localStorage && _context.prefix && cacheCallback[_context.prefix] && !_context.no_cache) { // Ask registered callbacks if we should cache this for(var i = 0; i < cacheCallback[_context.prefix].length; i++) { var cc = cacheCallback[_context.prefix][i]; var cache_key = cc.callback.call(cc.context, _context); if(cache_key) { cache_key = CACHE_KEY_PREFIX + _context.prefix + '::' + cache_key; try { for (var key in _result.data) { var uid = UID(key, (typeof _context == "object" && _context != null) ? _context.prefix : ""); // Register a handler on each data so we can know if it is updated or removed egw.dataUnregisterUID(uid, null, cache_key); egw.dataRegisterUID(uid, function(data, _uid) { // If data item is removed, remove it from cached fetch too if(data == null) { var cached = JSON.parse(window.localStorage[this]) || false; if(cached && cached.order && cached.order.indexOf(_uid) >= 0) { cached.order.splice(cached.order.indexOf(_uid),1); if(cached.total) cached.total--; window.localStorage[this] = JSON.stringify(cached); } window.localStorage.removeItem(_uid); } else { // Update or store data in long-term storage window.localStorage[_uid] = JSON.stringify({timestamp: (new Date).getTime(), data: data}); } }, cache_key, _execId, _widgetId); } // Don't keep data in long-term cache with request also _result.data = {}; window.localStorage.setItem(cache_key,JSON.stringify(_result)); } catch (e) { // Maybe ran out of space? Free some up. if(e.name == 'QuotaExceededError' // storage quota is exceeded, remove cached data || e.name == 'NS_ERROR_DOM_QUOTA_REACHED') // FF-name { var count = _clearCache(_context.prefix); egw.debug('info', 'localStorage full, removed ' + count + ' stored datasets'); } // No, something worse happened else { egw.debug('warning', 'Tried to cache some data. It did not work.', cache_key, e); } } } } } // Call the callback function and pass the calculated "order" array // as well as the "total" count and the "timestamp" to the listener. if (_callback) { _callback.call(_context, { "order": _result.order, "total": parseInt(_result.total), "readonlys": _result.readonlys, "rows": _result.rows, "lastModification": lastModification }); } } } return { /** * The dataFetch function provides an abstraction layer for the * corresponding "etemplate_widget_nextmatch::ajax_get_rows" function. * The server returns the following structure: * { * order: [uid, ...], * data: * { * uid0: data, * ... * uidN: data * }, * total: , * lastModification: , * readonlys: * } * If a uid got deleted on the server above data is null. * If a uid is omitted from data, is has not changed since lastModification. * * If order/data is null, this means that nothing has changed for the * given range. * The dataFetch function stores new data for the uid's inside the * local data storage, the grid views are then capable of querying the * data for those uids from the local storage using the * "dataRegisterUID" function. * * @param _execId is the execution context of the etemplate instance * you're querying the data for. * @param _queriedRange is an object of the following form: * { * start: , * num_rows: * } * The range always corresponds to the given filter settings. * @param _filters contains the filter settings. The filter settings are * those which are crucial for the mapping between index and uid. * @param _widgetId id with full namespace of widget * @param _callback is the function that should get called, once the data * is available. The data passed to the callback function has the * following form: * { * order: [uid, ...], * total: , * lastModification: , * readonlys: * } * Please note that the "uids" comming from the server and the ones * being parsed to the callback function differ. While the uids * which are returned from the server are only unique inside the * application, the uids which are used on the client are "globally" * unique. * @param _context is the context in which the callback function will get * called. * @param _knownUids is an array of uids already known to the client. * This parameter may be null in order to indicate that the client * currently has no data for the given filter settings. */ dataFetch: function (_execId, _queriedRange, _filters, _widgetId, _callback, _context, _knownUids) { var lm = lastModification; if(typeof _context.lastModification != "undefined") lm = _context.lastModification; if (_queriedRange["no_data"]) { lm = 0xFFFFFFFFFFFF; } else if (_queriedRange["only_data"]) { lm = 0; } // Store refresh in context to not delete the other entries when server only returns these if (typeof _queriedRange.refresh != "undefined") { if(typeof _queriedRange.refresh == "string") { _context.refresh = [_queriedRange.refresh]; } else { _context.refresh = _queriedRange.refresh; } } // Limit the amount of UIDs we say we know about to a sensible number, in case user is enjoying auto-pagination var knownUids = _knownUids ? _knownUids : egw.dataKnownUIDs(_context.prefix ? _context.prefix : _app); if(knownUids > KNOWN_UID_LIMIT) { knownUids.slice(typeof _queriedRange.start != "undefined" ? _queriedRange.start:0,KNOWN_UID_LIMIT); } // Check to see if we have long-term caching of the query and its results if(window.localStorage && _context.prefix && cacheCallback[_context.prefix]) { // Ask registered callbacks if we should cache this for(var i = 0; i < cacheCallback[_context.prefix].length; i++) { var cc = cacheCallback[_context.prefix][i]; var cache_key = cc.callback.call(cc.context, _context); if(cache_key) { cache_key = CACHE_KEY_PREFIX + _context.prefix + '::' + cache_key; var cached = window.localStorage.getItem(cache_key); if(cached) { cached = JSON.parse(cached); var needs_update = true; // Check timestamp if(cached.lastModification && ((Date.now()/1000) - cached.lastModification) < CACHE_LIFETIME) { needs_update = false; } egw.debug('log', 'Data cached query from ' + new Date(cached.lastModification*1000)+': ' + cache_key + '('+ (needs_update ? 'will be' : 'will not be')+" updated)\nprocessing..."); // Call right away with cached data, but set no_cache flag // to avoid re-caching this data with a new timestamp. // We may still ask the server though. var no_cache = _context.no_cache; _context.no_cache = true; parseServerResponse(cached, _callback, _context, _execId, _widgetId); _context.no_cache = no_cache; // If cache registrant wants notification of cache useage, // let it know if(cc.notification) { cc.notification.call(cc.context, needs_update); } if(!needs_update) { // Cached data is new enough, skip the server call return; } } } } } var request = egw.json( _app+".etemplate_widget_nextmatch.ajax_get_rows.etemplate", [ _execId, _queriedRange, _filters, _widgetId, knownUids, lm ], function(result) { parseServerResponse(result, _callback, _context, _execId, _widgetId); }, this, true ); request.sendRequest(); }, /** * Turn on long-term client side cache of a particular request * (cache the nextmatch query results) for fast, immediate response * with old data. * * The request is still sent to the server, and the cache is updated * with fresh data, and any needed callbacks are called again with * the fresh data. * * @param {string} prefix UID / Application prefix should match the * individual record prefix * @param {function} callback_function A function that will analize the provided fetch * parameters and return a reproducable cache key, or false to not cache * the request. * @param {function} notice_function A function that will be called whenever * cached data is used. It is passed one parameter, a boolean that indicates * if the server is or will be queried to refresh the cache. Do not fetch additional data * inside this callback, and return quickly. * @param {object} context Context for callback function. */ dataCacheRegister: function(prefix, callback_function, notice_function, context) { if(typeof cacheCallback[prefix] == 'undefined') { cacheCallback[prefix] = []; } cacheCallback[prefix].push({ callback: callback_function, notification: notice_function || false, context: context || null }); }, /** * Unregister a previously registered cache callback * @param {string} prefix UID / Application prefix should match the * individual record prefix * @param {function} [callback] Callback function to un-register. If * omitted, all functions for the prefix will be removed. */ dataCacheUnregister: function(prefix, callback) { if(typeof callback != 'undefined') { for(var i = 0; i < cacheCallback[prefix].length; i++) { if(cacheCallback[prefix][i].callback == callback) { cacheCallback[prefix].splice(i,1); return; } } } // Callback not provided or not found, reset by prefix cacheCallback[prefix] = []; } }; }); egw.extend("data_storage", egw.MODULE_GLOBAL, function (_app, _wnd) { /** * The localStorage object is used to store the data for certain uids. An * entry inside the localStorage object looks like the following: * { * timestamp: , * data: * } */ var localStorage = {}; /** * The registeredCallbacks map is used to store all callbacks registerd for * a certain uid. */ var registeredCallbacks = {}; /** * Uids and timers used for querying data uids, hashed by the first few * bytes of the _execId, stored as an object of the form * { * "timer": , * "uids": * } */ var queue = {}; /** * Contains the queue timeout in milliseconds. */ var QUEUE_TIMEOUT = 10; /** * This constant specifies the maximum age of entries in the local storrage * in milliseconds */ var MAX_AGE = 5 * 60 * 1000; // 5 mins /** * This constant specifies the interval in which the local storage gets * cleaned up. */ var CLEANUP_INTERVAL = 30 * 1000; // 30 sec /** * Register a cleanup function, which throws away all data entries which are * older than the given age. */ _wnd.setInterval(function() { // Get the current timestamp var time = (new Date).getTime(); // Iterate over the local storage for (var uid in localStorage) { // Expire old data, if there are no callbacks if (time - localStorage[uid].timestamp > MAX_AGE && typeof registeredCallbacks[uid] == "undefined") { // Unregister all registered callbacks for that uid egw.dataUnregisterUID(uid); // Delete the data from the localStorage delete localStorage[uid]; // We don't clean long-term storage because of age until it runs // out of space } } }, CLEANUP_INTERVAL); return { /** * Registers the intrest in a certain uid for a callback function. If * the data for that uid changes or gets loaded, the given callback * function is called. If the data for the given uid is available at the * time of registering the callback, the callback is called immediately. * * @param _uid is the uid for which the callback should be registered. * @param _callback is the callback which should get called. * @param _context is the optional context in which the callback will be * executed * @param _execId is the exec id which will be used in case the data is * not available * @param _widgetId is the widget id which will be used in case the uid * has to be fetched. */ dataRegisterUID: function (_uid, _callback, _context, _execId, _widgetId) { // Create the slot for the uid if it does not exist now if (typeof registeredCallbacks[_uid] === "undefined") { registeredCallbacks[_uid] = []; } // Store the given callback registeredCallbacks[_uid].push({ "callback": _callback, "context": _context ? _context : null, "execId": _execId, "widgetId" : _widgetId }); // Check whether the data is available -- if yes, immediately call // back the callback function if (typeof localStorage[_uid] !== "undefined") { // Update the timestamp and call the given callback function localStorage[_uid].timestamp = (new Date).getTime(); _callback.call(_context, localStorage[_uid].data, _uid); } // Check long-term storage else if(window.localStorage && window.localStorage[_uid]) { localStorage[_uid] = JSON.parse(window.localStorage[_uid]); _callback.call(_context, localStorage[_uid].data, _uid); } else if (_execId && _widgetId) { // Get the first 50 bytes of the exex id var hash = _execId.substring(0, 50); // Create a new queue if it does not exist yet if (typeof queue[hash] === "undefined") { var self = this; queue[hash] = { "uids": [], "timer": null }; queue[hash].timer = window.setTimeout(function () { // Fetch the data self.dataFetch(_execId, {"start": 0, "num_rows": 0, "only_data": true, "refresh": queue[hash].uids}, [], _widgetId, null, _context, null); // Delete the queue entry delete queue[hash]; }, 100); } // Push the uid onto the queue, removing the prefix var parts = _uid.split("::"); parts.shift(); queue[hash].uids.push(parts.join('::')); } else { this.debug("log", "Data for uid " + _uid + " not available."); } }, /** * Unregisters the intrest of updates for a certain data uid. * * @param _uid is the data uid for which the callbacks should be * unregistered. * @param _callback specifies the specific callback that should be * unregistered. If it evaluates to false, all callbacks (or those * matching the optionally given context) are removed. * @param _context specifies the callback context that should be * unregistered. If it evaluates to false, all callbacks (or those * matching the optionally given callback function) are removed. */ dataUnregisterUID: function (_uid, _callback, _context) { // Force the optional parameters to be exactly null _callback = _callback ? _callback : null; _context = _context ? _context : null; if (typeof registeredCallbacks[_uid] !== "undefined") { // Iterate over the registered callbacks for that uid and delete // all callbacks pointing to the given callback and context for (var i = registeredCallbacks[_uid].length - 1; i >= 0; i--) { if ((!_callback || registeredCallbacks[_uid][i].callback === _callback) && (!_context || registeredCallbacks[_uid][i].context === _context)) { registeredCallbacks[_uid].splice(i, 1); } } // Delete the slot if no callback is left for the uid if (registeredCallbacks[_uid].length === 0) { delete registeredCallbacks[_uid]; } } }, /** * Returns whether data is available for the given uid. * * @param _uid is the uid for which should be checked whether it has some * data. */ dataHasUID: function (_uid) { return typeof localStorage[_uid] !== "undefined"; }, /** * Returns data of a given uid. * * @param _uid is the uid for which should be checked whether it has some * data. */ dataGetUIDdata: function (_uid) { return localStorage[_uid]; }, /** * Returns all uids that have the given prefix * * @param {string} _prefix * @return {array} * TODO: Improve this */ dataKnownUIDs: function (_prefix) { var result = []; for (var key in localStorage) { var parts = key.split("::"); if (parts.shift() === _prefix && localStorage[key].data) { result.push(parts.join('::')); } } return result; }, /** * Stores data for the uid and calls all callback functions registered * for that uid. * * @param _uid is the uid for which the data should be saved. * @param _data is the data which should be saved. */ dataStoreUID: function (_uid, _data) { // Get the current unix timestamp var timestamp = (new Date).getTime(); // Store the data in the local storage localStorage[_uid] = { "timestamp": timestamp, "data": _data }; // Inform all registered callback functions and pass the data to // those. if (typeof registeredCallbacks[_uid] != "undefined") { for (var i = registeredCallbacks[_uid].length - 1; i >= 0; i--) { try { registeredCallbacks[_uid][i].callback.call( registeredCallbacks[_uid][i].context, _data, _uid ); } catch (e) { // Remove this callback from the list registeredCallbacks[_uid].splice(i, 1); } } } }, /** * Deletes the data for a certain uid from the local storage and * unregisters all callback functions associated to it. * * This does NOT update nextmatch! * Application code should use: egw(window).refresh(msg, app, id, "delete"); * * @param _uid is the uid which should be deleted. */ dataDeleteUID: function (_uid) { if (typeof localStorage[_uid] !== "undefined") { // Delete the element from the local storage delete localStorage[_uid]; // Unregister all callbacks for that uid this.dataUnregisterUID(_uid); } }, /** * Force a refreash of the given uid from the server if known, and * calls all associated callbacks. * * If the UID does not have any registered callbacks, it cannot be refreshed because the required * execID and context are missing. * * @param {string} _uid is the uid which should be refreshed. * @return {boolean} True if the uid is known and can be refreshed, false if unknown and will not be refreshed */ dataRefreshUID: function (_uid) { if (typeof localStorage[_uid] === "undefined") return false; if(typeof registeredCallbacks[_uid] !== "undefined" && registeredCallbacks[_uid].length > 0) { var _execId = registeredCallbacks[_uid][0].execId; // This widget ID MUST be a nextmatch, because the data call is to etemplate_widget_nexmatch var nextmatchId = registeredCallbacks[_uid][0].widgetId; var uid = _uid.split("::"); var context = { "prefix":uid.shift() }; uid = uid.join("::"); // find filters, even if context is not always from nextmatch, eg. caching uses it's a string context var filters = {}; for(var i=0; i < registeredCallbacks[_uid].length; i++) { var callback = registeredCallbacks[_uid][i]; if (typeof callback.context == 'object' && typeof callback.context.self == 'object' && typeof callback.context.self._filters == 'object') { filters = callback.context.self._filters; break; } } // need to send nextmatch filters too, as server-side will merge old version from request otherwise this.dataFetch(_execId, {'refresh':uid}, filters, nextmatchId, false, context, [uid]); return true; } return false; }, /** * Search for exact UID string or regular expression and return widgets using it * * @param {string|RegExp} _uid is the uid which should be refreshed. * @return {object} UID: array of (nextmatch-)wigetIds */ dataSearchUIDs: function(_uid) { var matches = {}; var f = function(_uid) { if (typeof matches[_uid] == "undefined") { matches[_uid] = []; } if (typeof registeredCallbacks[_uid] !== "undefined") { for(var n=0; n < registeredCallbacks[_uid].length; ++n) { var callback = registeredCallbacks[_uid][n]; if (typeof callback.context != "undefined" && typeof callback.context.self != "undefined" && typeof callback.context.self._widget != "undefined") { matches[_uid].push(callback.context.self._widget); } } } }; if (typeof _uid == "object" && _uid.constructor.name == "RegExp") { for(var uid in localStorage) { if (_uid.test(uid)) { f(uid); } } } else if (typeof localStorage[_uid] != "undefined") { f(_uid); } return matches; }, /** * Search for exact UID string or regular expression and call registered (nextmatch-)widgets refresh function with given _type * * This method is preferable over dataRefreshUID for app code, as it takes care of things like counters too. * * It does not do anything for _type="add"! * * @param {string|RegExp) _uid is the uid which should be refreshed. * @param {string} _type "delete", "edit", "update", not useful for "add"! * @return {array} (nextmatch-)wigets refreshed */ dataRefreshUIDs: function(_uid, _type) { var uids = this.dataSearchUIDs(_uid); var widgets = []; var uids4widget = []; for(var uid in uids) { for(var n=0; n < uids[uid].length; ++n) { var widget = uids[uid][n]; var idx = widgets.indexOf(widget); if (idx == -1) { widgets.push(widget); idx = widgets.length-1; } // uids for nextmatch.refesh do NOT contain the prefix var nm_uid = uid.replace(RegExp('^'+widget.controller.dataStorePrefix+'::'), ''); if (typeof uids4widget[idx] == "undefined") { uids4widget[idx] = [nm_uid]; } else { uids4widget[idx].push(nm_uid); } } } for(var w=0; w < widgets.length; ++w) { widgets[w].refresh(uids4widget[w], _type); } return widgets; } }; });