/** * The {@link Ext.direct.RemotingProvider RemotingProvider} exposes access to * server side methods on the client (a remote procedure call (RPC) type of * connection where the client can initiate a procedure on the server). * * This allows for code to be organized in a fashion that is maintainable, * while providing a clear path between client and server, something that is * not always apparent when using URLs. * * To accomplish this the server-side needs to describe what classes and methods * are available on the client-side. This configuration will typically be * outputted by the server-side Ext Direct stack when the API description is built. */Ext.define('Ext.direct.RemotingProvider', { extend: 'Ext.direct.JsonProvider', alias: 'direct.remotingprovider', requires: [ 'Ext.util.MixedCollection', 'Ext.util.DelayedTask', 'Ext.direct.Transaction', 'Ext.direct.RemotingMethod', 'Ext.direct.Manager' ], type: 'remoting', /** * @cfg {Object} actions * * Object literal defining the server side actions and methods. For example, if * the Provider is configured with: * * // each property within the 'actions' object represents a server side Class * actions: { * // array of methods in each server side Class to be stubbed out on client * TestAction: [{ * name: 'doEcho', // stub method will be TestAction.doEcho * len: 1, * batched: false // always send requests immediately for this method * }, { * name: 'multiply', // name of method * len: 2 // The number of parameters that will be used to create an * // array of data to send to the server side function. * }, { * name: 'doForm', * formHandler: true // tells the client that this method handles form calls * }], * * // These methods will be created in nested namespace TestAction.Foo * 'TestAction.Foo': [{ * name: 'ordered', // stub method will be TestAction.Foo.ordered * len: 1 * }, { * name: 'noParams', // this method does not accept any parameters * len: 0 * }, { * name: 'named', // stub method will be TestAction.Foo.named * params: ['foo', 'bar'] // parameters are passed by name * }, { * name: 'namedNoStrict', * params: [], // this method accepts parameters by name * strict: false // but does not check if they are required * // and will pass any to the server side * }] * } * * Note that starting with 4.2, dotted Action names will generate nested objects. * If you wish to reverse to previous behavior, set {@link #cfg-disableNestedActions} * to `true`. * * In the following example a *client side* handler is used to call the * server side method "multiply" in the server-side "TestAction" Class: * * TestAction.multiply( * // pass two arguments to server, so specify len=2 * 2, 4, * * // callback function after the server is called * // result: the result returned by the server * // e: Ext.direct.RemotingEvent object * // success: true or false * // options: options to be applied to method call and passed to callback * function (result, e, success, options) { * var t, action, method; * * t = e.getTransaction(); * action = t.action; // server side Class called * method = t.method; // server side method called * * if (e.status) { * var answer = Ext.encode(result); // 8 * } * else { * var msg = e.message; // failure message * } * }, * * // Scope to call the callback in (optional) * window, * * // Options to apply to this method call. This can include * // Ajax.request() options; only `timeout` is supported at this time. * // When timeout is set for a method call, it will be executed immediately * // without buffering. * // The same options object is passed to the callback so it's possible * // to "forward" some data when needed. * { * timeout: 60000, // milliseconds * foo: 'bar' * } * ); * * In the example above, the server side "multiply" function will be passed two * arguments (2 and 4). The "multiply" method should return the value 8 which will be * available as the `result` in the callback example above. */ /** * @cfg {Boolean} [disableNestedActions=false] * In versions prior to 4.2, using dotted Action names was not really meaningful, * because it generated flat {@link #cfg-namespace} object with dotted property names. * For example, take this API declaration: * * { * actions: { * TestAction: [{ * name: 'foo', * len: 1 * }], * 'TestAction.Foo' [{ * name: 'bar', * len: 1 * }] * }, * namespace: 'MyApp' * } * * Before 4.2, that would generate the following API object: * * window.MyApp = { * TestAction: { * foo: function() { ... } * }, * 'TestAction.Foo': { * bar: function() { ... } * } * } * * In Ext JS 4.2, we introduced new namespace handling behavior. Now the same API object * will be like this: * * window.MyApp = { * TestAction: { * foo: function() { ... }, * * Foo: { * bar: function() { ... } * } * } * } * * Instead of addressing Action methods array-style `MyApp['TestAction.Foo'].bar()`, * now it is possible to use object addressing: `MyApp.TestAction.Foo.bar()`. * * If you find this behavior undesirable, set this config option to `true`. */ /** * @cfg {String/Object} namespace * * Namespace for the Remoting Provider (defaults to `Ext.global`). * Explicitly specify the namespace Object, or specify a String to have a * {@link Ext#namespace namespace} created implicitly. */ /** * @cfg {String} url * * **Required**. The url to connect to the {@link Ext.direct.Manager} server-side router. */ /** * @cfg {String} [enableUrlEncode=data] * * Specify which param will hold the arguments for the method. */ /** * @cfg {Number/Boolean} [enableBuffer=10] * * `true` or `false` to enable or disable combining of method * calls. If a number is specified this is the amount of time in milliseconds * to wait before sending a batched request. * * Calls which are received within the specified timeframe will be * concatenated together and sent in a single request, optimizing the * application by reducing the amount of round trips that have to be made * to the server. To cancel buffering for some particular invocations, pass * `timeout` parameter in `options` object for that method call. */ enableBuffer: 10, /** * @cfg {Number} bufferLimit The maximum number of requests to batch together. * By default, an unlimited number of requests will be batched. This option will * allow to wait only for a certain number of Direct method calls before * dispatching a request to the server, even if {@link #enableBuffer} timeout * has not yet expired. * * Note that this option does nothing if {@link #enableBuffer} is set to `false`. */ bufferLimit: Number.MAX_VALUE, /** * @cfg {Number} [maxRetries=1] * * Number of times to re-attempt delivery on failure of a call. */ maxRetries: 1, /** * @cfg {Number} [timeout] * * The timeout to use for each request. */ /** * @event beforecall * @preventable * * Fires immediately before the client-side sends off the RPC call. By returning * `false` from an event handler you can prevent the call from being made. * * @param {Ext.direct.RemotingProvider} provider * @param {Ext.direct.Transaction} transaction * @param {Object} meta The meta data */ /** * @event call * * Fires immediately after the request to the server-side is sent. This does * NOT fire after the response has come back from the call. * * @param {Ext.direct.RemotingProvider} provider * @param {Ext.direct.Transaction} transaction * @param {Object} meta The meta data */ /** * @event beforecallback * @preventable * * Fires before callback function is executed. By returning `false` from an event handler * you can prevent the callback from executing. * * @param {Ext.direct.RemotingProvider} provider The provider instance * @param {Ext.direct.Event} event Event associated with the callback invocation * @param {Ext.direct.Transaction} transaction Transaction for which the callback * is about to be fired */ constructor: function(config) { var me = this; me.callParent([config]); me.namespace = (Ext.isString(me.namespace)) ? Ext.ns(me.namespace) : me.namespace || Ext.global; me.callBuffer = []; }, /** * @inheritdoc */ connect: function() { var me = this; //<debug> if (!me.url) { Ext.raise('Error initializing RemotingProvider "' + me.id + '", no url configured.'); } //</debug> me.callParent(); }, doConnect: function() { if (!this.apiCreated) { this.initAPI(); this.apiCreated = true; } }, /** * Get nested namespace by property. * * @private */ getNamespace: function(root, action) { var parts, ns, i, len; root = root || Ext.global; parts = action.toString().split('.'); for (i = 0, len = parts.length; i < len; i++) { ns = parts[i]; root = root[ns]; if (typeof root === 'undefined') { return root; } } return root; }, /** * Create nested namespaces. Unlike {@link Ext#ns} this method supports * nested objects as root of the namespace, not only Ext.global (window). * * @private */ createNamespaces: function(root, action) { var parts, ns, i, len; root = root || Ext.global; parts = action.toString().split('.'); for (i = 0, len = parts.length; i < len; i++) { ns = parts[i]; root[ns] = root[ns] || {}; root = root[ns]; } return root; }, /** * Initialize the API * * @private */ initAPI: function() { var me = this, actions = me.actions, namespace = me.namespace, Manager = Ext.direct.Manager, action, cls, methods, i, len, method, handler; for (action in actions) { if (actions.hasOwnProperty(action)) { if (me.disableNestedActions) { cls = namespace[action]; if (!cls) { cls = namespace[action] = {}; } } else { cls = me.getNamespace(namespace, action); if (!cls) { cls = me.createNamespaces(namespace, action); } } methods = actions[action]; for (i = 0, len = methods.length; i < len; ++i) { method = new Ext.direct.RemotingMethod(methods[i]); cls[method.name] = handler = me.createHandler(action, method); Manager.registerMethod(handler.$name, handler); } } } }, /** * Create a handler function for a direct call. * * @param {String} action The action the call is for * @param {Object} method The details of the method * * @return {Function} A JS function that will kick off the call * * @private */ createHandler: function(action, method) { var me = this, handler; handler = function() { me.invokeFunction(action, method, Array.prototype.slice.call(arguments, 0)); }; handler.name = handler.$name = action + '.' + method.name; handler.$directFn = true; handler.directCfg = handler.$directCfg = { action: action, method: method }; return handler; }, /** * Invoke a Direct function call * * @param {String} action The action being executed * @param {Object} method The method being executed * * @private */ invokeFunction: function(action, method, args) { var me = this, transaction, form, isUpload, postParams; transaction = me.configureTransaction(action, method, args); if (me.fireEvent('beforecall', me, transaction, method) !== false) { Ext.direct.Manager.addTransaction(transaction); if (transaction.isForm) { form = transaction.form; isUpload = String(form.getAttribute("enctype")).toLowerCase() === 'multipart/form-data'; postParams = { extTID: transaction.id, extAction: action, extMethod: method.name, extType: 'rpc', extUpload: String(isUpload) }; if (transaction.metadata) { postParams.extMetadata = Ext.JSON.encode(transaction.metadata); } Ext.apply(transaction, { form: form, isUpload: isUpload, params: postParams }); } me.queueTransaction(transaction); me.fireEvent('call', me, transaction, method); } }, /** * Configure a transaction for a Direct request * * @param {String} action The action being executed * @param {Object} method The method being executed * @param {Array} args Method invocation arguments * @param {Boolean} isForm True for a form submit * * @return {Object} Transaction object * * @private */ configureTransaction: function(action, method, args) { var data, cb, scope, options, params; data = method.getCallData(args); cb = data.callback; scope = data.scope; options = data.options; //<debug> if (cb && !Ext.isFunction(cb)) { Ext.raise("Callback argument is not a function " + "for Ext Direct method " + action + "." + method.name); } //</debug> // Callback might be unspecified for a notification // that does not expect any return value cb = cb && scope ? Ext.Function.bind(cb, scope) : cb; params = Ext.apply({}, { provider: this, args: args, action: action, method: method.name, form: data.form, data: data.data, metadata: data.metadata, callbackOptions: options, callback: cb, isForm: !!method.formHandler, disableBatching: method.disableBatching }); if (options && options.timeout != null) { params.timeout = options.timeout; } return new Ext.direct.Transaction(params); }, /** * Add a new transaction to the queue * * @param {Ext.direct.Transaction} transaction The transaction * * @private */ queueTransaction: function(transaction) { var me = this, callBuffer = me.callBuffer, enableBuffer = me.enableBuffer; if (transaction.isForm || enableBuffer === false || transaction.disableBatching || transaction.timeout != null) { me.sendTransaction(transaction); return; } callBuffer.push(transaction); if (enableBuffer && callBuffer.length < me.bufferLimit) { if (!me.callTask) { me.callTask = new Ext.util.DelayedTask(me.combineAndSend, me); } me.callTask.delay(Ext.isNumber(enableBuffer) ? enableBuffer : 10); } else { me.combineAndSend(); } }, /** * Combine any buffered requests and send them off * * @private */ combineAndSend: function() { var me = this, buffer = me.callBuffer, len = buffer.length; if (len > 0) { me.sendTransaction(len === 1 ? buffer[0] : buffer); me.callBuffer = []; } }, /** * Create an Ajax request out of transaction and send it to the server * * @param {Object/Array} transaction The transaction(s) to send * * @private */ sendTransaction: function(transaction) { var me = this, request, callData, params, enableUrlEncode = me.enableUrlEncode, payload, i, len; request = { url: me.url, callback: me.onData, scope: me, transaction: transaction, headers: me.getHeaders() }; // Explicitly specified timeout for Ext Direct call overrides defaults if (transaction.timeout != null) { request.timeout = transaction.timeout; } else if (me.timeout != null) { request.timeout = me.timeout; } if (transaction.isForm) { Ext.apply(request, { params: transaction.params, form: transaction.form, isUpload: transaction.isUpload }); } else { if (Ext.isArray(transaction)) { callData = []; for (i = 0, len = transaction.length; i < len; ++i) { payload = me.getPayload(transaction[i]); callData.push(payload); } } else { callData = me.getPayload(transaction); } if (enableUrlEncode) { params = {}; params[Ext.isString(enableUrlEncode) ? enableUrlEncode : 'data'] = Ext.encode(callData); request.params = params; } else { request.jsonData = callData; } } return me.sendAjaxRequest(request); }, /** * Gets the Ajax call info for a transaction * * @param {Ext.direct.Transaction} transaction The transaction * * @return {Object} The call params * * @private */ getPayload: function(transaction) { var result = { action: transaction.action, method: transaction.method, data: transaction.data, type: 'rpc', tid: transaction.id }; if (transaction.metadata) { result.metadata = transaction.metadata; } return result; }, /** * React to the ajax request being completed * * @private */ onData: function(options, success, response) { var me = this, i, len, events, event, transaction, transactions; // Success in this context means lack of communication failure, // i.e. that we have successfully connected to the server and // received a valid HTTP response. This does not imply that // the server returned valid JSON data, or that individual // function invocations were also successful. events = success && me.createEvents(response); // Redefine success: if parsing failed, createEvents() will return // only one event object, and it will be a parsing error exception. success = events && events.length && !events[0].parsingError; if (success) { for (i = 0, len = events.length; i < len; ++i) { event = events[i]; me.fireEvent('data', me, event); transaction = me.getTransaction(event); if (transaction) { if (me.fireEvent('beforecallback', me, event, transaction) !== false) { me.runCallback(transaction, event, true); } Ext.direct.Manager.removeTransaction(transaction); } } } else { transactions = [].concat(options.transaction); event = events[0] || new Ext.direct.ExceptionEvent({ data: null, transaction: transaction, code: Ext.direct.Manager.exceptions.TRANSPORT, message: 'Unable to connect to the server.', xhr: response }); for (i = 0, len = transactions.length; i < len; ++i) { transaction = me.getTransaction(transactions[i]); if (transaction && transaction.retryCount < me.maxRetries) { transaction.retry(); } else { me.fireEvent('data', me, event); me.fireEvent('exception', me, event); if (transaction && me.fireEvent('beforecallback', me, event, transaction) !== false) { me.runCallback(transaction, event, false); } Ext.direct.Manager.removeTransaction(transaction); } } } me.callParent([options, success, response]); }, /** * Get transaction from XHR options * * @param {Object} options The options sent to the Ajax request * * @return {Ext.direct.Transaction} The transaction, null if not found * * @private */ getTransaction: function(options) { return options && options.tid ? Ext.direct.Manager.getTransaction(options.tid) : null; }, /** * Run any callbacks related to the transaction. * * @param {Ext.direct.Transaction} transaction The transaction * @param {Ext.direct.Event} event The event * * @private */ runCallback: function(transaction, event) { var success = !!event.status, funcName = success ? 'success' : 'failure', callback, options, result; if (transaction && transaction.callback) { callback = transaction.callback; options = transaction.callbackOptions; result = typeof event.result !== 'undefined' ? event.result : event.data; if (Ext.isFunction(callback)) { callback(result, event, success, options); } else { Ext.callback(callback[funcName], callback.scope, [result, event, success, options]); Ext.callback(callback.callback, callback.scope, [result, event, success, options]); } } }, inheritableStatics: { /** * @private * @static * @inheritable */ checkConfig: function(config) { // RemotingProvider needs service URI, // type and array of Actions return config && config.type === 'remoting' && config.url && Ext.isArray(config.actions); } }});