Mercurial > prosody-modules
view mod_tcpproxy/web/strophe.js @ 737:e4ea03b060ed
mod_archive: switch from/to
The XEP-0136 is not very explicit about the meening of <from> and <to>
elements, but the examples are clear: <from> means it comes from the user in
the 'with' attribute of the collection.
That is the opposite of what is currently implemented in that module.
So for better compatibility with complient clients, this switch the 'from' and
'to' fields
author | Olivier Goffart <ogoffart@woboq.com> |
---|---|
date | Wed, 04 Jul 2012 14:08:43 +0200 |
parents | f2f9b965d1ad |
children | 7dbde05b48a9 |
line wrap: on
line source
// This code was written by Tyler Akins and has been placed in the // public domain. It would be nice if you left this header intact. // Base64 code from Tyler Akins -- http://rumkin.com var Base64 = (function () { var keyStr = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/="; var obj = { /** * Encodes a string in base64 * @param {String} input The string to encode in base64. */ encode: function (input) { var output = ""; var chr1, chr2, chr3; var enc1, enc2, enc3, enc4; var i = 0; do { chr1 = input.charCodeAt(i++); chr2 = input.charCodeAt(i++); chr3 = input.charCodeAt(i++); enc1 = chr1 >> 2; enc2 = ((chr1 & 3) << 4) | (chr2 >> 4); enc3 = ((chr2 & 15) << 2) | (chr3 >> 6); enc4 = chr3 & 63; if (isNaN(chr2)) { enc3 = enc4 = 64; } else if (isNaN(chr3)) { enc4 = 64; } output = output + keyStr.charAt(enc1) + keyStr.charAt(enc2) + keyStr.charAt(enc3) + keyStr.charAt(enc4); } while (i < input.length); return output; }, /** * Decodes a base64 string. * @param {String} input The string to decode. */ decode: function (input) { var output = ""; var chr1, chr2, chr3; var enc1, enc2, enc3, enc4; var i = 0; // remove all characters that are not A-Z, a-z, 0-9, +, /, or = input = input.replace(/[^A-Za-z0-9\+\/\=]/g, ""); do { enc1 = keyStr.indexOf(input.charAt(i++)); enc2 = keyStr.indexOf(input.charAt(i++)); enc3 = keyStr.indexOf(input.charAt(i++)); enc4 = keyStr.indexOf(input.charAt(i++)); chr1 = (enc1 << 2) | (enc2 >> 4); chr2 = ((enc2 & 15) << 4) | (enc3 >> 2); chr3 = ((enc3 & 3) << 6) | enc4; output = output + String.fromCharCode(chr1); if (enc3 != 64) { output = output + String.fromCharCode(chr2); } if (enc4 != 64) { output = output + String.fromCharCode(chr3); } } while (i < input.length); return output; } }; return obj; })(); /* * A JavaScript implementation of the RSA Data Security, Inc. MD5 Message * Digest Algorithm, as defined in RFC 1321. * Version 2.1 Copyright (C) Paul Johnston 1999 - 2002. * Other contributors: Greg Holt, Andrew Kepert, Ydnar, Lostinet * Distributed under the BSD License * See http://pajhome.org.uk/crypt/md5 for more info. */ var MD5 = (function () { /* * Configurable variables. You may need to tweak these to be compatible with * the server-side, but the defaults work in most cases. */ var hexcase = 0; /* hex output format. 0 - lowercase; 1 - uppercase */ var b64pad = ""; /* base-64 pad character. "=" for strict RFC compliance */ var chrsz = 8; /* bits per input character. 8 - ASCII; 16 - Unicode */ /* * Add integers, wrapping at 2^32. This uses 16-bit operations internally * to work around bugs in some JS interpreters. */ var safe_add = function (x, y) { var lsw = (x & 0xFFFF) + (y & 0xFFFF); var msw = (x >> 16) + (y >> 16) + (lsw >> 16); return (msw << 16) | (lsw & 0xFFFF); }; /* * Bitwise rotate a 32-bit number to the left. */ var bit_rol = function (num, cnt) { return (num << cnt) | (num >>> (32 - cnt)); }; /* * Convert a string to an array of little-endian words * If chrsz is ASCII, characters >255 have their hi-byte silently ignored. */ var str2binl = function (str) { var bin = []; var mask = (1 << chrsz) - 1; for(var i = 0; i < str.length * chrsz; i += chrsz) { bin[i>>5] |= (str.charCodeAt(i / chrsz) & mask) << (i%32); } return bin; }; /* * Convert an array of little-endian words to a string */ var binl2str = function (bin) { var str = ""; var mask = (1 << chrsz) - 1; for(var i = 0; i < bin.length * 32; i += chrsz) { str += String.fromCharCode((bin[i>>5] >>> (i % 32)) & mask); } return str; }; /* * Convert an array of little-endian words to a hex string. */ var binl2hex = function (binarray) { var hex_tab = hexcase ? "0123456789ABCDEF" : "0123456789abcdef"; var str = ""; for(var i = 0; i < binarray.length * 4; i++) { str += hex_tab.charAt((binarray[i>>2] >> ((i%4)*8+4)) & 0xF) + hex_tab.charAt((binarray[i>>2] >> ((i%4)*8 )) & 0xF); } return str; }; /* * Convert an array of little-endian words to a base-64 string */ var binl2b64 = function (binarray) { var tab = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/"; var str = ""; var triplet, j; for(var i = 0; i < binarray.length * 4; i += 3) { triplet = (((binarray[i >> 2] >> 8 * ( i %4)) & 0xFF) << 16) | (((binarray[i+1 >> 2] >> 8 * ((i+1)%4)) & 0xFF) << 8 ) | ((binarray[i+2 >> 2] >> 8 * ((i+2)%4)) & 0xFF); for(j = 0; j < 4; j++) { if(i * 8 + j * 6 > binarray.length * 32) { str += b64pad; } else { str += tab.charAt((triplet >> 6*(3-j)) & 0x3F); } } } return str; }; /* * These functions implement the four basic operations the algorithm uses. */ var md5_cmn = function (q, a, b, x, s, t) { return safe_add(bit_rol(safe_add(safe_add(a, q),safe_add(x, t)), s),b); }; var md5_ff = function (a, b, c, d, x, s, t) { return md5_cmn((b & c) | ((~b) & d), a, b, x, s, t); }; var md5_gg = function (a, b, c, d, x, s, t) { return md5_cmn((b & d) | (c & (~d)), a, b, x, s, t); }; var md5_hh = function (a, b, c, d, x, s, t) { return md5_cmn(b ^ c ^ d, a, b, x, s, t); }; var md5_ii = function (a, b, c, d, x, s, t) { return md5_cmn(c ^ (b | (~d)), a, b, x, s, t); }; /* * Calculate the MD5 of an array of little-endian words, and a bit length */ var core_md5 = function (x, len) { /* append padding */ x[len >> 5] |= 0x80 << ((len) % 32); x[(((len + 64) >>> 9) << 4) + 14] = len; var a = 1732584193; var b = -271733879; var c = -1732584194; var d = 271733878; var olda, oldb, oldc, oldd; for (var i = 0; i < x.length; i += 16) { olda = a; oldb = b; oldc = c; oldd = d; a = md5_ff(a, b, c, d, x[i+ 0], 7 , -680876936); d = md5_ff(d, a, b, c, x[i+ 1], 12, -389564586); c = md5_ff(c, d, a, b, x[i+ 2], 17, 606105819); b = md5_ff(b, c, d, a, x[i+ 3], 22, -1044525330); a = md5_ff(a, b, c, d, x[i+ 4], 7 , -176418897); d = md5_ff(d, a, b, c, x[i+ 5], 12, 1200080426); c = md5_ff(c, d, a, b, x[i+ 6], 17, -1473231341); b = md5_ff(b, c, d, a, x[i+ 7], 22, -45705983); a = md5_ff(a, b, c, d, x[i+ 8], 7 , 1770035416); d = md5_ff(d, a, b, c, x[i+ 9], 12, -1958414417); c = md5_ff(c, d, a, b, x[i+10], 17, -42063); b = md5_ff(b, c, d, a, x[i+11], 22, -1990404162); a = md5_ff(a, b, c, d, x[i+12], 7 , 1804603682); d = md5_ff(d, a, b, c, x[i+13], 12, -40341101); c = md5_ff(c, d, a, b, x[i+14], 17, -1502002290); b = md5_ff(b, c, d, a, x[i+15], 22, 1236535329); a = md5_gg(a, b, c, d, x[i+ 1], 5 , -165796510); d = md5_gg(d, a, b, c, x[i+ 6], 9 , -1069501632); c = md5_gg(c, d, a, b, x[i+11], 14, 643717713); b = md5_gg(b, c, d, a, x[i+ 0], 20, -373897302); a = md5_gg(a, b, c, d, x[i+ 5], 5 , -701558691); d = md5_gg(d, a, b, c, x[i+10], 9 , 38016083); c = md5_gg(c, d, a, b, x[i+15], 14, -660478335); b = md5_gg(b, c, d, a, x[i+ 4], 20, -405537848); a = md5_gg(a, b, c, d, x[i+ 9], 5 , 568446438); d = md5_gg(d, a, b, c, x[i+14], 9 , -1019803690); c = md5_gg(c, d, a, b, x[i+ 3], 14, -187363961); b = md5_gg(b, c, d, a, x[i+ 8], 20, 1163531501); a = md5_gg(a, b, c, d, x[i+13], 5 , -1444681467); d = md5_gg(d, a, b, c, x[i+ 2], 9 , -51403784); c = md5_gg(c, d, a, b, x[i+ 7], 14, 1735328473); b = md5_gg(b, c, d, a, x[i+12], 20, -1926607734); a = md5_hh(a, b, c, d, x[i+ 5], 4 , -378558); d = md5_hh(d, a, b, c, x[i+ 8], 11, -2022574463); c = md5_hh(c, d, a, b, x[i+11], 16, 1839030562); b = md5_hh(b, c, d, a, x[i+14], 23, -35309556); a = md5_hh(a, b, c, d, x[i+ 1], 4 , -1530992060); d = md5_hh(d, a, b, c, x[i+ 4], 11, 1272893353); c = md5_hh(c, d, a, b, x[i+ 7], 16, -155497632); b = md5_hh(b, c, d, a, x[i+10], 23, -1094730640); a = md5_hh(a, b, c, d, x[i+13], 4 , 681279174); d = md5_hh(d, a, b, c, x[i+ 0], 11, -358537222); c = md5_hh(c, d, a, b, x[i+ 3], 16, -722521979); b = md5_hh(b, c, d, a, x[i+ 6], 23, 76029189); a = md5_hh(a, b, c, d, x[i+ 9], 4 , -640364487); d = md5_hh(d, a, b, c, x[i+12], 11, -421815835); c = md5_hh(c, d, a, b, x[i+15], 16, 530742520); b = md5_hh(b, c, d, a, x[i+ 2], 23, -995338651); a = md5_ii(a, b, c, d, x[i+ 0], 6 , -198630844); d = md5_ii(d, a, b, c, x[i+ 7], 10, 1126891415); c = md5_ii(c, d, a, b, x[i+14], 15, -1416354905); b = md5_ii(b, c, d, a, x[i+ 5], 21, -57434055); a = md5_ii(a, b, c, d, x[i+12], 6 , 1700485571); d = md5_ii(d, a, b, c, x[i+ 3], 10, -1894986606); c = md5_ii(c, d, a, b, x[i+10], 15, -1051523); b = md5_ii(b, c, d, a, x[i+ 1], 21, -2054922799); a = md5_ii(a, b, c, d, x[i+ 8], 6 , 1873313359); d = md5_ii(d, a, b, c, x[i+15], 10, -30611744); c = md5_ii(c, d, a, b, x[i+ 6], 15, -1560198380); b = md5_ii(b, c, d, a, x[i+13], 21, 1309151649); a = md5_ii(a, b, c, d, x[i+ 4], 6 , -145523070); d = md5_ii(d, a, b, c, x[i+11], 10, -1120210379); c = md5_ii(c, d, a, b, x[i+ 2], 15, 718787259); b = md5_ii(b, c, d, a, x[i+ 9], 21, -343485551); a = safe_add(a, olda); b = safe_add(b, oldb); c = safe_add(c, oldc); d = safe_add(d, oldd); } return [a, b, c, d]; }; /* * Calculate the HMAC-MD5, of a key and some data */ var core_hmac_md5 = function (key, data) { var bkey = str2binl(key); if(bkey.length > 16) { bkey = core_md5(bkey, key.length * chrsz); } var ipad = new Array(16), opad = new Array(16); for(var i = 0; i < 16; i++) { ipad[i] = bkey[i] ^ 0x36363636; opad[i] = bkey[i] ^ 0x5C5C5C5C; } var hash = core_md5(ipad.concat(str2binl(data)), 512 + data.length * chrsz); return core_md5(opad.concat(hash), 512 + 128); }; var obj = { /* * These are the functions you'll usually want to call. * They take string arguments and return either hex or base-64 encoded * strings. */ hexdigest: function (s) { return binl2hex(core_md5(str2binl(s), s.length * chrsz)); }, b64digest: function (s) { return binl2b64(core_md5(str2binl(s), s.length * chrsz)); }, hash: function (s) { return binl2str(core_md5(str2binl(s), s.length * chrsz)); }, hmac_hexdigest: function (key, data) { return binl2hex(core_hmac_md5(key, data)); }, hmac_b64digest: function (key, data) { return binl2b64(core_hmac_md5(key, data)); }, hmac_hash: function (key, data) { return binl2str(core_hmac_md5(key, data)); }, /* * Perform a simple self-test to see if the VM is working */ test: function () { return MD5.hexdigest("abc") === "900150983cd24fb0d6963f7d28e17f72"; } }; return obj; })(); /* This program is distributed under the terms of the MIT license. Please see the LICENSE file for details. Copyright 2006-2008, OGG, LLC */ /* jslint configuration: */ /*global document, window, setTimeout, clearTimeout, console, XMLHttpRequest, ActiveXObject, Base64, MD5, Strophe, $build, $msg, $iq, $pres */ /** File: strophe.js * A JavaScript library for XMPP BOSH. * * This is the JavaScript version of the Strophe library. Since JavaScript * has no facilities for persistent TCP connections, this library uses * Bidirectional-streams Over Synchronous HTTP (BOSH) to emulate * a persistent, stateful, two-way connection to an XMPP server. More * information on BOSH can be found in XEP 124. */ /** PrivateFunction: Function.prototype.bind * Bind a function to an instance. * * This Function object extension method creates a bound method similar * to those in Python. This means that the 'this' object will point * to the instance you want. See * <a href='http://benjamin.smedbergs.us/blog/2007-01-03/bound-functions-and-function-imports-in-javascript/'>Bound Functions and Function Imports in JavaScript</a> * for a complete explanation. * * This extension already exists in some browsers (namely, Firefox 3), but * we provide it to support those that don't. * * Parameters: * (Object) obj - The object that will become 'this' in the bound function. * * Returns: * The bound function. */ if (!Function.prototype.bind) { Function.prototype.bind = function (obj) { var func = this; return function () { return func.apply(obj, arguments); }; }; } /** PrivateFunction: Function.prototype.prependArg * Prepend an argument to a function. * * This Function object extension method returns a Function that will * invoke the original function with an argument prepended. This is useful * when some object has a callback that needs to get that same object as * an argument. The following fragment illustrates a simple case of this * > var obj = new Foo(this.someMethod);</code></blockquote> * * Foo's constructor can now use func.prependArg(this) to ensure the * passed in callback function gets the instance of Foo as an argument. * Doing this without prependArg would mean not setting the callback * from the constructor. * * This is used inside Strophe for passing the Strophe.Request object to * the onreadystatechange handler of XMLHttpRequests. * * Parameters: * arg - The argument to pass as the first parameter to the function. * * Returns: * A new Function which calls the original with the prepended argument. */ if (!Function.prototype.prependArg) { Function.prototype.prependArg = function (arg) { var func = this; return function () { var newargs = [arg]; for (var i = 0; i < arguments.length; i++) { newargs.push(arguments[i]); } return func.apply(this, newargs); }; }; } /** PrivateFunction: Array.prototype.indexOf * Return the index of an object in an array. * * This function is not supplied by some JavaScript implementations, so * we provide it if it is missing. This code is from: * http://developer.mozilla.org/En/Core_JavaScript_1.5_Reference:Objects:Array:indexOf * * Parameters: * (Object) elt - The object to look for. * (Integer) from - The index from which to start looking. (optional). * * Returns: * The index of elt in the array or -1 if not found. */ if (!Array.prototype.indexOf) { Array.prototype.indexOf = function(elt /*, from*/) { var len = this.length; var from = Number(arguments[1]) || 0; from = (from < 0) ? Math.ceil(from) : Math.floor(from); if (from < 0) { from += len; } for (; from < len; from++) { if (from in this && this[from] === elt) { return from; } } return -1; }; } /* All of the Strophe globals are defined in this special function below so * that references to the globals become closures. This will ensure that * on page reload, these references will still be available to callbacks * that are still executing. */ (function (callback) { var Strophe; /** Function: $build * Create a Strophe.Builder. * This is an alias for 'new Strophe.Builder(name, attrs)'. * * Parameters: * (String) name - The root element name. * (Object) attrs - The attributes for the root element in object notation. * * Returns: * A new Strophe.Builder object. */ function $build(name, attrs) { return new Strophe.Builder(name, attrs); } /** Function: $msg * Create a Strophe.Builder with a <message/> element as the root. * * Parmaeters: * (Object) attrs - The <message/> element attributes in object notation. * * Returns: * A new Strophe.Builder object. */ function $msg(attrs) { return new Strophe.Builder("message", attrs); } /** Function: $iq * Create a Strophe.Builder with an <iq/> element as the root. * * Parameters: * (Object) attrs - The <iq/> element attributes in object notation. * * Returns: * A new Strophe.Builder object. */ function $iq(attrs) { return new Strophe.Builder("iq", attrs); } /** Function: $pres * Create a Strophe.Builder with a <presence/> element as the root. * * Parameters: * (Object) attrs - The <presence/> element attributes in object notation. * * Returns: * A new Strophe.Builder object. */ function $pres(attrs) { return new Strophe.Builder("presence", attrs); } /** Class: Strophe * An object container for all Strophe library functions. * * This class is just a container for all the objects and constants * used in the library. It is not meant to be instantiated, but to * provide a namespace for library objects, constants, and functions. */ Strophe = { /** Constant: VERSION * The version of the Strophe library. Unreleased builds will have * a version of head-HASH where HASH is a partial revision. */ VERSION: "1.0.1", /** Constants: XMPP Namespace Constants * Common namespace constants from the XMPP RFCs and XEPs. * * NS.HTTPBIND - HTTP BIND namespace from XEP 124. * NS.BOSH - BOSH namespace from XEP 206. * NS.CLIENT - Main XMPP client namespace. * NS.AUTH - Legacy authentication namespace. * NS.ROSTER - Roster operations namespace. * NS.PROFILE - Profile namespace. * NS.DISCO_INFO - Service discovery info namespace from XEP 30. * NS.DISCO_ITEMS - Service discovery items namespace from XEP 30. * NS.MUC - Multi-User Chat namespace from XEP 45. * NS.SASL - XMPP SASL namespace from RFC 3920. * NS.STREAM - XMPP Streams namespace from RFC 3920. * NS.BIND - XMPP Binding namespace from RFC 3920. * NS.SESSION - XMPP Session namespace from RFC 3920. */ NS: { HTTPBIND: "http://jabber.org/protocol/httpbind", BOSH: "urn:xmpp:xbosh", CLIENT: "jabber:client", AUTH: "jabber:iq:auth", ROSTER: "jabber:iq:roster", PROFILE: "jabber:iq:profile", DISCO_INFO: "http://jabber.org/protocol/disco#info", DISCO_ITEMS: "http://jabber.org/protocol/disco#items", MUC: "http://jabber.org/protocol/muc", SASL: "urn:ietf:params:xml:ns:xmpp-sasl", STREAM: "http://etherx.jabber.org/streams", BIND: "urn:ietf:params:xml:ns:xmpp-bind", SESSION: "urn:ietf:params:xml:ns:xmpp-session", VERSION: "jabber:iq:version", STANZAS: "urn:ietf:params:xml:ns:xmpp-stanzas" }, /** Function: addNamespace * This function is used to extend the current namespaces in * Strophe.NS. It takes a key and a value with the key being the * name of the new namespace, with its actual value. * For example: * Strophe.addNamespace('PUBSUB', "http://jabber.org/protocol/pubsub"); * * Parameters: * (String) name - The name under which the namespace will be * referenced under Strophe.NS * (String) value - The actual namespace. */ addNamespace: function (name, value) { Strophe.NS[name] = value; }, /** Constants: Connection Status Constants * Connection status constants for use by the connection handler * callback. * * Status.ERROR - An error has occurred * Status.CONNECTING - The connection is currently being made * Status.CONNFAIL - The connection attempt failed * Status.AUTHENTICATING - The connection is authenticating * Status.AUTHFAIL - The authentication attempt failed * Status.CONNECTED - The connection has succeeded * Status.DISCONNECTED - The connection has been terminated * Status.DISCONNECTING - The connection is currently being terminated * Status.ATTACHED - The connection has been attached */ Status: { ERROR: 0, CONNECTING: 1, CONNFAIL: 2, AUTHENTICATING: 3, AUTHFAIL: 4, CONNECTED: 5, DISCONNECTED: 6, DISCONNECTING: 7, ATTACHED: 8 }, /** Constants: Log Level Constants * Logging level indicators. * * LogLevel.DEBUG - Debug output * LogLevel.INFO - Informational output * LogLevel.WARN - Warnings * LogLevel.ERROR - Errors * LogLevel.FATAL - Fatal errors */ LogLevel: { DEBUG: 0, INFO: 1, WARN: 2, ERROR: 3, FATAL: 4 }, /** PrivateConstants: DOM Element Type Constants * DOM element types. * * ElementType.NORMAL - Normal element. * ElementType.TEXT - Text data element. */ ElementType: { NORMAL: 1, TEXT: 3 }, /** PrivateConstants: Timeout Values * Timeout values for error states. These values are in seconds. * These should not be changed unless you know exactly what you are * doing. * * TIMEOUT - Timeout multiplier. A waiting request will be considered * failed after Math.floor(TIMEOUT * wait) seconds have elapsed. * This defaults to 1.1, and with default wait, 66 seconds. * SECONDARY_TIMEOUT - Secondary timeout multiplier. In cases where * Strophe can detect early failure, it will consider the request * failed if it doesn't return after * Math.floor(SECONDARY_TIMEOUT * wait) seconds have elapsed. * This defaults to 0.1, and with default wait, 6 seconds. */ TIMEOUT: 1.1, SECONDARY_TIMEOUT: 0.1, /** Function: forEachChild * Map a function over some or all child elements of a given element. * * This is a small convenience function for mapping a function over * some or all of the children of an element. If elemName is null, all * children will be passed to the function, otherwise only children * whose tag names match elemName will be passed. * * Parameters: * (XMLElement) elem - The element to operate on. * (String) elemName - The child element tag name filter. * (Function) func - The function to apply to each child. This * function should take a single argument, a DOM element. */ forEachChild: function (elem, elemName, func) { var i, childNode; for (i = 0; i < elem.childNodes.length; i++) { childNode = elem.childNodes[i]; if (childNode.nodeType == Strophe.ElementType.NORMAL && (!elemName || this.isTagEqual(childNode, elemName))) { func(childNode); } } }, /** Function: isTagEqual * Compare an element's tag name with a string. * * This function is case insensitive. * * Parameters: * (XMLElement) el - A DOM element. * (String) name - The element name. * * Returns: * true if the element's tag name matches _el_, and false * otherwise. */ isTagEqual: function (el, name) { return el.tagName.toLowerCase() == name.toLowerCase(); }, /** PrivateVariable: _xmlGenerator * _Private_ variable that caches a DOM document to * generate elements. */ _xmlGenerator: null, /** PrivateFunction: _makeGenerator * _Private_ function that creates a dummy XML DOM document to serve as * an element and text node generator. */ _makeGenerator: function () { var doc; if (window.ActiveXObject) { doc = new ActiveXObject("Microsoft.XMLDOM"); doc.appendChild(doc.createElement('strophe')); } else { doc = document.implementation .createDocument('jabber:client', 'strophe', null); } return doc; }, /** Function: xmlElement * Create an XML DOM element. * * This function creates an XML DOM element correctly across all * implementations. Specifically the Microsoft implementation of * document.createElement makes DOM elements with 43+ default attributes * unless elements are created with the ActiveX object Microsoft.XMLDOM. * * Most DOMs force element names to lowercase, so we use the * _realname attribute on the created element to store the case * sensitive name. This is required to generate proper XML for * things like vCard avatars (XEP 153). This attribute is stripped * out before being sent over the wire or serialized, but you may * notice it during debugging. * * Parameters: * (String) name - The name for the element. * (Array) attrs - An optional array of key/value pairs to use as * element attributes in the following format [['key1', 'value1'], * ['key2', 'value2']] * (String) text - The text child data for the element. * * Returns: * A new XML DOM element. */ xmlElement: function (name) { if (!name) { return null; } var node = null; if (!Strophe._xmlGenerator) { Strophe._xmlGenerator = Strophe._makeGenerator(); } node = Strophe._xmlGenerator.createElement(name); // FIXME: this should throw errors if args are the wrong type or // there are more than two optional args var a, i, k; for (a = 1; a < arguments.length; a++) { if (!arguments[a]) { continue; } if (typeof(arguments[a]) == "string" || typeof(arguments[a]) == "number") { node.appendChild(Strophe.xmlTextNode(arguments[a])); } else if (typeof(arguments[a]) == "object" && typeof(arguments[a].sort) == "function") { for (i = 0; i < arguments[a].length; i++) { if (typeof(arguments[a][i]) == "object" && typeof(arguments[a][i].sort) == "function") { node.setAttribute(arguments[a][i][0], arguments[a][i][1]); } } } else if (typeof(arguments[a]) == "object") { for (k in arguments[a]) { if (arguments[a].hasOwnProperty(k)) { node.setAttribute(k, arguments[a][k]); } } } } return node; }, /* Function: xmlescape * Excapes invalid xml characters. * * Parameters: * (String) text - text to escape. * * Returns: * Escaped text. */ xmlescape: function(text) { text = text.replace(/\&/g, "&"); text = text.replace(/</g, "<"); text = text.replace(/>/g, ">"); return text; }, /** Function: xmlTextNode * Creates an XML DOM text node. * * Provides a cross implementation version of document.createTextNode. * * Parameters: * (String) text - The content of the text node. * * Returns: * A new XML DOM text node. */ xmlTextNode: function (text) { //ensure text is escaped text = Strophe.xmlescape(text); if (!Strophe._xmlGenerator) { Strophe._xmlGenerator = Strophe._makeGenerator(); } return Strophe._xmlGenerator.createTextNode(text); }, /** Function: getText * Get the concatenation of all text children of an element. * * Parameters: * (XMLElement) elem - A DOM element. * * Returns: * A String with the concatenated text of all text element children. */ getText: function (elem) { if (!elem) { return null; } var str = ""; if (elem.childNodes.length === 0 && elem.nodeType == Strophe.ElementType.TEXT) { str += elem.nodeValue; } for (var i = 0; i < elem.childNodes.length; i++) { if (elem.childNodes[i].nodeType == Strophe.ElementType.TEXT) { str += elem.childNodes[i].nodeValue; } } return str; }, /** Function: copyElement * Copy an XML DOM element. * * This function copies a DOM element and all its descendants and returns * the new copy. * * Parameters: * (XMLElement) elem - A DOM element. * * Returns: * A new, copied DOM element tree. */ copyElement: function (elem) { var i, el; if (elem.nodeType == Strophe.ElementType.NORMAL) { el = Strophe.xmlElement(elem.tagName); for (i = 0; i < elem.attributes.length; i++) { el.setAttribute(elem.attributes[i].nodeName.toLowerCase(), elem.attributes[i].value); } for (i = 0; i < elem.childNodes.length; i++) { el.appendChild(Strophe.copyElement(elem.childNodes[i])); } } else if (elem.nodeType == Strophe.ElementType.TEXT) { el = Strophe.xmlTextNode(elem.nodeValue); } return el; }, /** Function: escapeNode * Escape the node part (also called local part) of a JID. * * Parameters: * (String) node - A node (or local part). * * Returns: * An escaped node (or local part). */ escapeNode: function (node) { return node.replace(/^\s+|\s+$/g, '') .replace(/\\/g, "\\5c") .replace(/ /g, "\\20") .replace(/\"/g, "\\22") .replace(/\&/g, "\\26") .replace(/\'/g, "\\27") .replace(/\//g, "\\2f") .replace(/:/g, "\\3a") .replace(/</g, "\\3c") .replace(/>/g, "\\3e") .replace(/@/g, "\\40"); }, /** Function: unescapeNode * Unescape a node part (also called local part) of a JID. * * Parameters: * (String) node - A node (or local part). * * Returns: * An unescaped node (or local part). */ unescapeNode: function (node) { return node.replace(/\\20/g, " ") .replace(/\\22/g, '"') .replace(/\\26/g, "&") .replace(/\\27/g, "'") .replace(/\\2f/g, "/") .replace(/\\3a/g, ":") .replace(/\\3c/g, "<") .replace(/\\3e/g, ">") .replace(/\\40/g, "@") .replace(/\\5c/g, "\\"); }, /** Function: getNodeFromJid * Get the node portion of a JID String. * * Parameters: * (String) jid - A JID. * * Returns: * A String containing the node. */ getNodeFromJid: function (jid) { if (jid.indexOf("@") < 0) { return null; } return jid.split("@")[0]; }, /** Function: getDomainFromJid * Get the domain portion of a JID String. * * Parameters: * (String) jid - A JID. * * Returns: * A String containing the domain. */ getDomainFromJid: function (jid) { var bare = Strophe.getBareJidFromJid(jid); if (bare.indexOf("@") < 0) { return bare; } else { var parts = bare.split("@"); parts.splice(0, 1); return parts.join('@'); } }, /** Function: getResourceFromJid * Get the resource portion of a JID String. * * Parameters: * (String) jid - A JID. * * Returns: * A String containing the resource. */ getResourceFromJid: function (jid) { var s = jid.split("/"); if (s.length < 2) { return null; } s.splice(0, 1); return s.join('/'); }, /** Function: getBareJidFromJid * Get the bare JID from a JID String. * * Parameters: * (String) jid - A JID. * * Returns: * A String containing the bare JID. */ getBareJidFromJid: function (jid) { return jid.split("/")[0]; }, /** Function: log * User overrideable logging function. * * This function is called whenever the Strophe library calls any * of the logging functions. The default implementation of this * function does nothing. If client code wishes to handle the logging * messages, it should override this with * > Strophe.log = function (level, msg) { * > (user code here) * > }; * * Please note that data sent and received over the wire is logged * via Strophe.Connection.rawInput() and Strophe.Connection.rawOutput(). * * The different levels and their meanings are * * DEBUG - Messages useful for debugging purposes. * INFO - Informational messages. This is mostly information like * 'disconnect was called' or 'SASL auth succeeded'. * WARN - Warnings about potential problems. This is mostly used * to report transient connection errors like request timeouts. * ERROR - Some error occurred. * FATAL - A non-recoverable fatal error occurred. * * Parameters: * (Integer) level - The log level of the log message. This will * be one of the values in Strophe.LogLevel. * (String) msg - The log message. */ log: function (level, msg) { return; }, /** Function: debug * Log a message at the Strophe.LogLevel.DEBUG level. * * Parameters: * (String) msg - The log message. */ debug: function(msg) { this.log(this.LogLevel.DEBUG, msg); }, /** Function: info * Log a message at the Strophe.LogLevel.INFO level. * * Parameters: * (String) msg - The log message. */ info: function (msg) { this.log(this.LogLevel.INFO, msg); }, /** Function: warn * Log a message at the Strophe.LogLevel.WARN level. * * Parameters: * (String) msg - The log message. */ warn: function (msg) { this.log(this.LogLevel.WARN, msg); }, /** Function: error * Log a message at the Strophe.LogLevel.ERROR level. * * Parameters: * (String) msg - The log message. */ error: function (msg) { this.log(this.LogLevel.ERROR, msg); }, /** Function: fatal * Log a message at the Strophe.LogLevel.FATAL level. * * Parameters: * (String) msg - The log message. */ fatal: function (msg) { this.log(this.LogLevel.FATAL, msg); }, /** Function: serialize * Render a DOM element and all descendants to a String. * * Parameters: * (XMLElement) elem - A DOM element. * * Returns: * The serialized element tree as a String. */ serialize: function (elem) { var result; if (!elem) { return null; } if (typeof(elem.tree) === "function") { elem = elem.tree(); } var nodeName = elem.nodeName; var i, child; if (elem.getAttribute("_realname")) { nodeName = elem.getAttribute("_realname"); } result = "<" + nodeName; for (i = 0; i < elem.attributes.length; i++) { if(elem.attributes[i].nodeName != "_realname") { result += " " + elem.attributes[i].nodeName.toLowerCase() + "='" + elem.attributes[i].value .replace("&", "&") .replace("'", "'") .replace("<", "<") + "'"; } } if (elem.childNodes.length > 0) { result += ">"; for (i = 0; i < elem.childNodes.length; i++) { child = elem.childNodes[i]; if (child.nodeType == Strophe.ElementType.NORMAL) { // normal element, so recurse result += Strophe.serialize(child); } else if (child.nodeType == Strophe.ElementType.TEXT) { // text element result += child.nodeValue; } } result += "</" + nodeName + ">"; } else { result += "/>"; } return result; }, /** PrivateVariable: _requestId * _Private_ variable that keeps track of the request ids for * connections. */ _requestId: 0, /** PrivateVariable: Strophe.connectionPlugins * _Private_ variable Used to store plugin names that need * initialization on Strophe.Connection construction. */ _connectionPlugins: {}, /** Function: addConnectionPlugin * Extends the Strophe.Connection object with the given plugin. * * Paramaters: * (String) name - The name of the extension. * (Object) ptype - The plugin's prototype. */ addConnectionPlugin: function (name, ptype) { Strophe._connectionPlugins[name] = ptype; }, Base64: Base64 }; /** Class: Strophe.Builder * XML DOM builder. * * This object provides an interface similar to JQuery but for building * DOM element easily and rapidly. All the functions except for toString() * and tree() return the object, so calls can be chained. Here's an * example using the $iq() builder helper. * > $iq({to: 'you': from: 'me': type: 'get', id: '1'}) * > .c('query', {xmlns: 'strophe:example'}) * > .c('example') * > .toString() * The above generates this XML fragment * > <iq to='you' from='me' type='get' id='1'> * > <query xmlns='strophe:example'> * > <example/> * > </query> * > </iq> * The corresponding DOM manipulations to get a similar fragment would be * a lot more tedious and probably involve several helper variables. * * Since adding children makes new operations operate on the child, up() * is provided to traverse up the tree. To add two children, do * > builder.c('child1', ...).up().c('child2', ...) * The next operation on the Builder will be relative to the second child. */ /** Constructor: Strophe.Builder * Create a Strophe.Builder object. * * The attributes should be passed in object notation. For example * > var b = new Builder('message', {to: 'you', from: 'me'}); * or * > var b = new Builder('messsage', {'xml:lang': 'en'}); * * Parameters: * (String) name - The name of the root element. * (Object) attrs - The attributes for the root element in object notation. * * Returns: * A new Strophe.Builder. */ Strophe.Builder = function (name, attrs) { // Set correct namespace for jabber:client elements if (name == "presence" || name == "message" || name == "iq") { if (attrs && !attrs.xmlns) { attrs.xmlns = Strophe.NS.CLIENT; } else if (!attrs) { attrs = {xmlns: Strophe.NS.CLIENT}; } } // Holds the tree being built. this.nodeTree = Strophe.xmlElement(name, attrs); // Points to the current operation node. this.node = this.nodeTree; }; Strophe.Builder.prototype = { /** Function: tree * Return the DOM tree. * * This function returns the current DOM tree as an element object. This * is suitable for passing to functions like Strophe.Connection.send(). * * Returns: * The DOM tree as a element object. */ tree: function () { return this.nodeTree; }, /** Function: toString * Serialize the DOM tree to a String. * * This function returns a string serialization of the current DOM * tree. It is often used internally to pass data to a * Strophe.Request object. * * Returns: * The serialized DOM tree in a String. */ toString: function () { return Strophe.serialize(this.nodeTree); }, /** Function: up * Make the current parent element the new current element. * * This function is often used after c() to traverse back up the tree. * For example, to add two children to the same element * > builder.c('child1', {}).up().c('child2', {}); * * Returns: * The Stophe.Builder object. */ up: function () { this.node = this.node.parentNode; return this; }, /** Function: attrs * Add or modify attributes of the current element. * * The attributes should be passed in object notation. This function * does not move the current element pointer. * * Parameters: * (Object) moreattrs - The attributes to add/modify in object notation. * * Returns: * The Strophe.Builder object. */ attrs: function (moreattrs) { for (var k in moreattrs) { if (moreattrs.hasOwnProperty(k)) { this.node.setAttribute(k, moreattrs[k]); } } return this; }, /** Function: c * Add a child to the current element and make it the new current * element. * * This function moves the current element pointer to the child. If you * need to add another child, it is necessary to use up() to go back * to the parent in the tree. * * Parameters: * (String) name - The name of the child. * (Object) attrs - The attributes of the child in object notation. * * Returns: * The Strophe.Builder object. */ c: function (name, attrs) { var child = Strophe.xmlElement(name, attrs); this.node.appendChild(child); this.node = child; return this; }, /** Function: cnode * Add a child to the current element and make it the new current * element. * * This function is the same as c() except that instead of using a * name and an attributes object to create the child it uses an * existing DOM element object. * * Parameters: * (XMLElement) elem - A DOM element. * * Returns: * The Strophe.Builder object. */ cnode: function (elem) { this.node.appendChild(elem); this.node = elem; return this; }, /** Function: t * Add a child text element. * * This *does not* make the child the new current element since there * are no children of text elements. * * Parameters: * (String) text - The text data to append to the current element. * * Returns: * The Strophe.Builder object. */ t: function (text) { var child = Strophe.xmlTextNode(text); this.node.appendChild(child); return this; } }; /** PrivateClass: Strophe.Handler * _Private_ helper class for managing stanza handlers. * * A Strophe.Handler encapsulates a user provided callback function to be * executed when matching stanzas are received by the connection. * Handlers can be either one-off or persistant depending on their * return value. Returning true will cause a Handler to remain active, and * returning false will remove the Handler. * * Users will not use Strophe.Handler objects directly, but instead they * will use Strophe.Connection.addHandler() and * Strophe.Connection.deleteHandler(). */ /** PrivateConstructor: Strophe.Handler * Create and initialize a new Strophe.Handler. * * Parameters: * (Function) handler - A function to be executed when the handler is run. * (String) ns - The namespace to match. * (String) name - The element name to match. * (String) type - The element type to match. * (String) id - The element id attribute to match. * (String) from - The element from attribute to match. * (Object) options - Handler options * * Returns: * A new Strophe.Handler object. */ Strophe.Handler = function (handler, ns, name, type, id, from, options) { this.handler = handler; this.ns = ns; this.name = name; this.type = type; this.id = id; this.options = options || {matchbare: false}; // default matchBare to false if undefined if (!this.options.matchBare) { this.options.matchBare = false; } if (this.options.matchBare) { this.from = Strophe.getBareJidFromJid(from); } else { this.from = from; } // whether the handler is a user handler or a system handler this.user = true; }; Strophe.Handler.prototype = { /** PrivateFunction: isMatch * Tests if a stanza matches the Strophe.Handler. * * Parameters: * (XMLElement) elem - The XML element to test. * * Returns: * true if the stanza matches and false otherwise. */ isMatch: function (elem) { var nsMatch; var from = null; if (this.options.matchBare) { from = Strophe.getBareJidFromJid(elem.getAttribute('from')); } else { from = elem.getAttribute('from'); } nsMatch = false; if (!this.ns) { nsMatch = true; } else { var self = this; Strophe.forEachChild(elem, null, function (elem) { if (elem.getAttribute("xmlns") == self.ns) { nsMatch = true; } }); nsMatch = nsMatch || elem.getAttribute("xmlns") == this.ns; } if (nsMatch && (!this.name || Strophe.isTagEqual(elem, this.name)) && (!this.type || elem.getAttribute("type") === this.type) && (!this.id || elem.getAttribute("id") === this.id) && (!this.from || from === this.from)) { return true; } return false; }, /** PrivateFunction: run * Run the callback on a matching stanza. * * Parameters: * (XMLElement) elem - The DOM element that triggered the * Strophe.Handler. * * Returns: * A boolean indicating if the handler should remain active. */ run: function (elem) { var result = null; try { result = this.handler(elem); } catch (e) { if (e.sourceURL) { Strophe.fatal("error: " + this.handler + " " + e.sourceURL + ":" + e.line + " - " + e.name + ": " + e.message); } else if (e.fileName) { if (typeof(console) != "undefined") { console.trace(); console.error(this.handler, " - error - ", e, e.message); } Strophe.fatal("error: " + this.handler + " " + e.fileName + ":" + e.lineNumber + " - " + e.name + ": " + e.message); } else { Strophe.fatal("error: " + this.handler); } throw e; } return result; }, /** PrivateFunction: toString * Get a String representation of the Strophe.Handler object. * * Returns: * A String. */ toString: function () { return "{Handler: " + this.handler + "(" + this.name + "," + this.id + "," + this.ns + ")}"; } }; /** PrivateClass: Strophe.TimedHandler * _Private_ helper class for managing timed handlers. * * A Strophe.TimedHandler encapsulates a user provided callback that * should be called after a certain period of time or at regular * intervals. The return value of the callback determines whether the * Strophe.TimedHandler will continue to fire. * * Users will not use Strophe.TimedHandler objects directly, but instead * they will use Strophe.Connection.addTimedHandler() and * Strophe.Connection.deleteTimedHandler(). */ /** PrivateConstructor: Strophe.TimedHandler * Create and initialize a new Strophe.TimedHandler object. * * Parameters: * (Integer) period - The number of milliseconds to wait before the * handler is called. * (Function) handler - The callback to run when the handler fires. This * function should take no arguments. * * Returns: * A new Strophe.TimedHandler object. */ Strophe.TimedHandler = function (period, handler) { this.period = period; this.handler = handler; this.lastCalled = new Date().getTime(); this.user = true; }; Strophe.TimedHandler.prototype = { /** PrivateFunction: run * Run the callback for the Strophe.TimedHandler. * * Returns: * true if the Strophe.TimedHandler should be called again, and false * otherwise. */ run: function () { this.lastCalled = new Date().getTime(); return this.handler(); }, /** PrivateFunction: reset * Reset the last called time for the Strophe.TimedHandler. */ reset: function () { this.lastCalled = new Date().getTime(); }, /** PrivateFunction: toString * Get a string representation of the Strophe.TimedHandler object. * * Returns: * The string representation. */ toString: function () { return "{TimedHandler: " + this.handler + "(" + this.period +")}"; } }; /** PrivateClass: Strophe.Request * _Private_ helper class that provides a cross implementation abstraction * for a BOSH related XMLHttpRequest. * * The Strophe.Request class is used internally to encapsulate BOSH request * information. It is not meant to be used from user's code. */ /** PrivateConstructor: Strophe.Request * Create and initialize a new Strophe.Request object. * * Parameters: * (XMLElement) elem - The XML data to be sent in the request. * (Function) func - The function that will be called when the * XMLHttpRequest readyState changes. * (Integer) rid - The BOSH rid attribute associated with this request. * (Integer) sends - The number of times this same request has been * sent. */ Strophe.Request = function (elem, func, rid, sends) { this.id = ++Strophe._requestId; this.xmlData = elem; this.data = Strophe.serialize(elem); // save original function in case we need to make a new request // from this one. this.origFunc = func; this.func = func; this.rid = rid; this.date = NaN; this.sends = sends || 0; this.abort = false; this.dead = null; this.age = function () { if (!this.date) { return 0; } var now = new Date(); return (now - this.date) / 1000; }; this.timeDead = function () { if (!this.dead) { return 0; } var now = new Date(); return (now - this.dead) / 1000; }; this.xhr = this._newXHR(); }; Strophe.Request.prototype = { /** PrivateFunction: getResponse * Get a response from the underlying XMLHttpRequest. * * This function attempts to get a response from the request and checks * for errors. * * Throws: * "parsererror" - A parser error occured. * * Returns: * The DOM element tree of the response. */ getResponse: function () { var node = null; if (this.xhr.responseXML && this.xhr.responseXML.documentElement) { node = this.xhr.responseXML.documentElement; if (node.tagName == "parsererror") { Strophe.error("invalid response received"); Strophe.error("responseText: " + this.xhr.responseText); Strophe.error("responseXML: " + Strophe.serialize(this.xhr.responseXML)); throw "parsererror"; } } else if (this.xhr.responseText) { Strophe.error("invalid response received"); Strophe.error("responseText: " + this.xhr.responseText); Strophe.error("responseXML: " + Strophe.serialize(this.xhr.responseXML)); } return node; }, /** PrivateFunction: _newXHR * _Private_ helper function to create XMLHttpRequests. * * This function creates XMLHttpRequests across all implementations. * * Returns: * A new XMLHttpRequest. */ _newXHR: function () { var xhr = null; if (window.XMLHttpRequest) { xhr = new XMLHttpRequest(); if (xhr.overrideMimeType) { xhr.overrideMimeType("text/xml"); } } else if (window.ActiveXObject) { xhr = new ActiveXObject("Microsoft.XMLHTTP"); } xhr.onreadystatechange = this.func.prependArg(this); return xhr; } }; /** Class: Strophe.Connection * XMPP Connection manager. * * Thie class is the main part of Strophe. It manages a BOSH connection * to an XMPP server and dispatches events to the user callbacks as * data arrives. It supports SASL PLAIN, SASL DIGEST-MD5, and legacy * authentication. * * After creating a Strophe.Connection object, the user will typically * call connect() with a user supplied callback to handle connection level * events like authentication failure, disconnection, or connection * complete. * * The user will also have several event handlers defined by using * addHandler() and addTimedHandler(). These will allow the user code to * respond to interesting stanzas or do something periodically with the * connection. These handlers will be active once authentication is * finished. * * To send data to the connection, use send(). */ /** Constructor: Strophe.Connection * Create and initialize a Strophe.Connection object. * * Parameters: * (String) service - The BOSH service URL. * * Returns: * A new Strophe.Connection object. */ Strophe.Connection = function (service) { /* The path to the httpbind service. */ this.service = service; /* The connected JID. */ this.jid = ""; /* request id for body tags */ this.rid = Math.floor(Math.random() * 4294967295); /* The current session ID. */ this.sid = null; this.streamId = null; // SASL this.do_session = false; this.do_bind = false; // handler lists this.timedHandlers = []; this.handlers = []; this.removeTimeds = []; this.removeHandlers = []; this.addTimeds = []; this.addHandlers = []; this._idleTimeout = null; this._disconnectTimeout = null; this.authenticated = false; this.disconnecting = false; this.connected = false; this.errors = 0; this.paused = false; // default BOSH values this.hold = 1; this.wait = 60; this.window = 5; this._data = []; this._requests = []; this._uniqueId = Math.round(Math.random() * 10000); this._sasl_success_handler = null; this._sasl_failure_handler = null; this._sasl_challenge_handler = null; // setup onIdle callback every 1/10th of a second this._idleTimeout = setTimeout(this._onIdle.bind(this), 100); // initialize plugins for (var k in Strophe._connectionPlugins) { if (Strophe._connectionPlugins.hasOwnProperty(k)) { var ptype = Strophe._connectionPlugins[k]; // jslint complaints about the below line, but this is fine var F = function () {}; F.prototype = ptype; this[k] = new F(); this[k].init(this); } } }; Strophe.Connection.prototype = { /** Function: reset * Reset the connection. * * This function should be called after a connection is disconnected * before that connection is reused. */ reset: function () { this.rid = Math.floor(Math.random() * 4294967295); this.sid = null; this.streamId = null; // SASL this.do_session = false; this.do_bind = false; // handler lists this.timedHandlers = []; this.handlers = []; this.removeTimeds = []; this.removeHandlers = []; this.addTimeds = []; this.addHandlers = []; this.authenticated = false; this.disconnecting = false; this.connected = false; this.errors = 0; this._requests = []; this._uniqueId = Math.round(Math.random()*10000); }, /** Function: pause * Pause the request manager. * * This will prevent Strophe from sending any more requests to the * server. This is very useful for temporarily pausing while a lot * of send() calls are happening quickly. This causes Strophe to * send the data in a single request, saving many request trips. */ pause: function () { this.paused = true; }, /** Function: resume * Resume the request manager. * * This resumes after pause() has been called. */ resume: function () { this.paused = false; }, /** Function: getUniqueId * Generate a unique ID for use in <iq/> elements. * * All <iq/> stanzas are required to have unique id attributes. This * function makes creating these easy. Each connection instance has * a counter which starts from zero, and the value of this counter * plus a colon followed by the suffix becomes the unique id. If no * suffix is supplied, the counter is used as the unique id. * * Suffixes are used to make debugging easier when reading the stream * data, and their use is recommended. The counter resets to 0 for * every new connection for the same reason. For connections to the * same server that authenticate the same way, all the ids should be * the same, which makes it easy to see changes. This is useful for * automated testing as well. * * Parameters: * (String) suffix - A optional suffix to append to the id. * * Returns: * A unique string to be used for the id attribute. */ getUniqueId: function (suffix) { if (typeof(suffix) == "string" || typeof(suffix) == "number") { return ++this._uniqueId + ":" + suffix; } else { return ++this._uniqueId + ""; } }, /** Function: connect * Starts the connection process. * * As the connection process proceeds, the user supplied callback will * be triggered multiple times with status updates. The callback * should take two arguments - the status code and the error condition. * * The status code will be one of the values in the Strophe.Status * constants. The error condition will be one of the conditions * defined in RFC 3920 or the condition 'strophe-parsererror'. * * Please see XEP 124 for a more detailed explanation of the optional * parameters below. * * Parameters: * (String) jid - The user's JID. This may be a bare JID, * or a full JID. If a node is not supplied, SASL ANONYMOUS * authentication will be attempted. * (String) pass - The user's password. * (Function) callback The connect callback function. * (Integer) wait - The optional HTTPBIND wait value. This is the * time the server will wait before returning an empty result for * a request. The default setting of 60 seconds is recommended. * Other settings will require tweaks to the Strophe.TIMEOUT value. * (Integer) hold - The optional HTTPBIND hold value. This is the * number of connections the server will hold at one time. This * should almost always be set to 1 (the default). */ connect: function (jid, pass, callback, wait, hold) { this.jid = jid; this.pass = pass; this.connect_callback = callback; this.disconnecting = false; this.connected = false; this.authenticated = false; this.errors = 0; this.wait = wait || this.wait; this.hold = hold || this.hold; // parse jid for domain and resource this.domain = Strophe.getDomainFromJid(this.jid); // build the body tag var body = this._buildBody().attrs({ to: this.domain, "xml:lang": "en", wait: this.wait, hold: this.hold, content: "text/xml; charset=utf-8", ver: "1.6", "xmpp:version": "1.0", "xmlns:xmpp": Strophe.NS.BOSH }); this._changeConnectStatus(Strophe.Status.CONNECTING, null); this._requests.push( new Strophe.Request(body.tree(), this._onRequestStateChange.bind(this) .prependArg(this._connect_cb.bind(this)), body.tree().getAttribute("rid"))); this._throttledRequestHandler(); }, /** Function: attach * Attach to an already created and authenticated BOSH session. * * This function is provided to allow Strophe to attach to BOSH * sessions which have been created externally, perhaps by a Web * application. This is often used to support auto-login type features * without putting user credentials into the page. * * Parameters: * (String) jid - The full JID that is bound by the session. * (String) sid - The SID of the BOSH session. * (String) rid - The current RID of the BOSH session. This RID * will be used by the next request. * (Function) callback The connect callback function. * (Integer) wait - The optional HTTPBIND wait value. This is the * time the server will wait before returning an empty result for * a request. The default setting of 60 seconds is recommended. * Other settings will require tweaks to the Strophe.TIMEOUT value. * (Integer) hold - The optional HTTPBIND hold value. This is the * number of connections the server will hold at one time. This * should almost always be set to 1 (the default). * (Integer) wind - The optional HTTBIND window value. This is the * allowed range of request ids that are valid. The default is 5. */ attach: function (jid, sid, rid, callback, wait, hold, wind) { this.jid = jid; this.sid = sid; this.rid = rid; this.connect_callback = callback; this.domain = Strophe.getDomainFromJid(this.jid); this.authenticated = true; this.connected = true; this.wait = wait || this.wait; this.hold = hold || this.hold; this.window = wind || this.window; this._changeConnectStatus(Strophe.Status.ATTACHED, null); }, /** Function: xmlInput * User overrideable function that receives XML data coming into the * connection. * * The default function does nothing. User code can override this with * > Strophe.Connection.xmlInput = function (elem) { * > (user code) * > }; * * Parameters: * (XMLElement) elem - The XML data received by the connection. */ xmlInput: function (elem) { return; }, /** Function: xmlOutput * User overrideable function that receives XML data sent to the * connection. * * The default function does nothing. User code can override this with * > Strophe.Connection.xmlOutput = function (elem) { * > (user code) * > }; * * Parameters: * (XMLElement) elem - The XMLdata sent by the connection. */ xmlOutput: function (elem) { return; }, /** Function: rawInput * User overrideable function that receives raw data coming into the * connection. * * The default function does nothing. User code can override this with * > Strophe.Connection.rawInput = function (data) { * > (user code) * > }; * * Parameters: * (String) data - The data received by the connection. */ rawInput: function (data) { return; }, /** Function: rawOutput * User overrideable function that receives raw data sent to the * connection. * * The default function does nothing. User code can override this with * > Strophe.Connection.rawOutput = function (data) { * > (user code) * > }; * * Parameters: * (String) data - The data sent by the connection. */ rawOutput: function (data) { return; }, /** Function: send * Send a stanza. * * This function is called to push data onto the send queue to * go out over the wire. Whenever a request is sent to the BOSH * server, all pending data is sent and the queue is flushed. * * Parameters: * (XMLElement | * [XMLElement] | * Strophe.Builder) elem - The stanza to send. */ send: function (elem) { if (elem === null) { return ; } if (typeof(elem.sort) === "function") { for (var i = 0; i < elem.length; i++) { this._queueData(elem[i]); } } else if (typeof(elem.tree) === "function") { this._queueData(elem.tree()); } else { this._queueData(elem); } this._throttledRequestHandler(); clearTimeout(this._idleTimeout); this._idleTimeout = setTimeout(this._onIdle.bind(this), 100); }, /** Function: flush * Immediately send any pending outgoing data. * * Normally send() queues outgoing data until the next idle period * (100ms), which optimizes network use in the common cases when * several send()s are called in succession. flush() can be used to * immediately send all pending data. */ flush: function () { // cancel the pending idle period and run the idle function // immediately clearTimeout(this._idleTimeout); this._onIdle(); }, /** Function: sendIQ * Helper function to send IQ stanzas. * * Parameters: * (XMLElement) elem - The stanza to send. * (Function) callback - The callback function for a successful request. * (Function) errback - The callback function for a failed or timed * out request. On timeout, the stanza will be null. * (Integer) timeout - The time specified in milliseconds for a * timeout to occur. * * Returns: * The id used to send the IQ. */ sendIQ: function(elem, callback, errback, timeout) { var timeoutHandler = null; var that = this; if (typeof(elem.tree) === "function") { elem = elem.tree(); } var id = elem.getAttribute('id'); // inject id if not found if (!id) { id = this.getUniqueId("sendIQ"); elem.setAttribute("id", id); } var handler = this.addHandler(function (stanza) { // remove timeout handler if there is one if (timeoutHandler) { that.deleteTimedHandler(timeoutHandler); } var iqtype = stanza.getAttribute('type'); if (iqtype === 'result') { if (callback) { callback(stanza); } } else if (iqtype === 'error') { if (errback) { errback(stanza); } } else { throw { name: "StropheError", message: "Got bad IQ type of " + iqtype }; } }, null, 'iq', null, id); // if timeout specified, setup timeout handler. if (timeout) { timeoutHandler = this.addTimedHandler(timeout, function () { // get rid of normal handler that.deleteHandler(handler); // call errback on timeout with null stanza if (errback) { errback(null); } return false; }); } this.send(elem); return id; }, /** PrivateFunction: _queueData * Queue outgoing data for later sending. Also ensures that the data * is a DOMElement. */ _queueData: function (element) { if (element === null || !element.tagName || !element.childNodes) { throw { name: "StropheError", message: "Cannot queue non-DOMElement." }; } this._data.push(element); }, /** PrivateFunction: _sendRestart * Send an xmpp:restart stanza. */ _sendRestart: function () { this._data.push("restart"); this._throttledRequestHandler(); clearTimeout(this._idleTimeout); this._idleTimeout = setTimeout(this._onIdle.bind(this), 100); }, /** Function: addTimedHandler * Add a timed handler to the connection. * * This function adds a timed handler. The provided handler will * be called every period milliseconds until it returns false, * the connection is terminated, or the handler is removed. Handlers * that wish to continue being invoked should return true. * * Because of method binding it is necessary to save the result of * this function if you wish to remove a handler with * deleteTimedHandler(). * * Note that user handlers are not active until authentication is * successful. * * Parameters: * (Integer) period - The period of the handler. * (Function) handler - The callback function. * * Returns: * A reference to the handler that can be used to remove it. */ addTimedHandler: function (period, handler) { var thand = new Strophe.TimedHandler(period, handler); this.addTimeds.push(thand); return thand; }, /** Function: deleteTimedHandler * Delete a timed handler for a connection. * * This function removes a timed handler from the connection. The * handRef parameter is *not* the function passed to addTimedHandler(), * but is the reference returned from addTimedHandler(). * * Parameters: * (Strophe.TimedHandler) handRef - The handler reference. */ deleteTimedHandler: function (handRef) { // this must be done in the Idle loop so that we don't change // the handlers during iteration this.removeTimeds.push(handRef); }, /** Function: addHandler * Add a stanza handler for the connection. * * This function adds a stanza handler to the connection. The * handler callback will be called for any stanza that matches * the parameters. Note that if multiple parameters are supplied, * they must all match for the handler to be invoked. * * The handler will receive the stanza that triggered it as its argument. * The handler should return true if it is to be invoked again; * returning false will remove the handler after it returns. * * As a convenience, the ns parameters applies to the top level element * and also any of its immediate children. This is primarily to make * matching /iq/query elements easy. * * The options argument contains handler matching flags that affect how * matches are determined. Currently the only flag is matchBare (a * boolean). When matchBare is true, the from parameter and the from * attribute on the stanza will be matched as bare JIDs instead of * full JIDs. To use this, pass {matchBare: true} as the value of * options. The default value for matchBare is false. * * The return value should be saved if you wish to remove the handler * with deleteHandler(). * * Parameters: * (Function) handler - The user callback. * (String) ns - The namespace to match. * (String) name - The stanza name to match. * (String) type - The stanza type attribute to match. * (String) id - The stanza id attribute to match. * (String) from - The stanza from attribute to match. * (String) options - The handler options * * Returns: * A reference to the handler that can be used to remove it. */ addHandler: function (handler, ns, name, type, id, from, options) { var hand = new Strophe.Handler(handler, ns, name, type, id, from, options); this.addHandlers.push(hand); return hand; }, /** Function: deleteHandler * Delete a stanza handler for a connection. * * This function removes a stanza handler from the connection. The * handRef parameter is *not* the function passed to addHandler(), * but is the reference returned from addHandler(). * * Parameters: * (Strophe.Handler) handRef - The handler reference. */ deleteHandler: function (handRef) { // this must be done in the Idle loop so that we don't change // the handlers during iteration this.removeHandlers.push(handRef); }, /** Function: disconnect * Start the graceful disconnection process. * * This function starts the disconnection process. This process starts * by sending unavailable presence and sending BOSH body of type * terminate. A timeout handler makes sure that disconnection happens * even if the BOSH server does not respond. * * The user supplied connection callback will be notified of the * progress as this process happens. * * Parameters: * (String) reason - The reason the disconnect is occuring. */ disconnect: function (reason) { this._changeConnectStatus(Strophe.Status.DISCONNECTING, reason); Strophe.info("Disconnect was called because: " + reason); if (this.connected) { // setup timeout handler this._disconnectTimeout = this._addSysTimedHandler( 3000, this._onDisconnectTimeout.bind(this)); this._sendTerminate(); } }, /** PrivateFunction: _changeConnectStatus * _Private_ helper function that makes sure plugins and the user's * callback are notified of connection status changes. * * Parameters: * (Integer) status - the new connection status, one of the values * in Strophe.Status * (String) condition - the error condition or null */ _changeConnectStatus: function (status, condition) { // notify all plugins listening for status changes for (var k in Strophe._connectionPlugins) { if (Strophe._connectionPlugins.hasOwnProperty(k)) { var plugin = this[k]; if (plugin.statusChanged) { try { plugin.statusChanged(status, condition); } catch (err) { Strophe.error("" + k + " plugin caused an exception " + "changing status: " + err); } } } } // notify the user's callback if (this.connect_callback) { try { this.connect_callback(status, condition); } catch (e) { Strophe.error("User connection callback caused an " + "exception: " + e); } } }, /** PrivateFunction: _buildBody * _Private_ helper function to generate the <body/> wrapper for BOSH. * * Returns: * A Strophe.Builder with a <body/> element. */ _buildBody: function () { var bodyWrap = $build('body', { rid: this.rid++, xmlns: Strophe.NS.HTTPBIND }); if (this.sid !== null) { bodyWrap.attrs({sid: this.sid}); } return bodyWrap; }, /** PrivateFunction: _removeRequest * _Private_ function to remove a request from the queue. * * Parameters: * (Strophe.Request) req - The request to remove. */ _removeRequest: function (req) { Strophe.debug("removing request"); var i; for (i = this._requests.length - 1; i >= 0; i--) { if (req == this._requests[i]) { this._requests.splice(i, 1); } } // IE6 fails on setting to null, so set to empty function req.xhr.onreadystatechange = function () {}; this._throttledRequestHandler(); }, /** PrivateFunction: _restartRequest * _Private_ function to restart a request that is presumed dead. * * Parameters: * (Integer) i - The index of the request in the queue. */ _restartRequest: function (i) { var req = this._requests[i]; if (req.dead === null) { req.dead = new Date(); } this._processRequest(i); }, /** PrivateFunction: _processRequest * _Private_ function to process a request in the queue. * * This function takes requests off the queue and sends them and * restarts dead requests. * * Parameters: * (Integer) i - The index of the request in the queue. */ _processRequest: function (i) { var req = this._requests[i]; var reqStatus = -1; try { if (req.xhr.readyState == 4) { reqStatus = req.xhr.status; } } catch (e) { Strophe.error("caught an error in _requests[" + i + "], reqStatus: " + reqStatus); } if (typeof(reqStatus) == "undefined") { reqStatus = -1; } var time_elapsed = req.age(); var primaryTimeout = (!isNaN(time_elapsed) && time_elapsed > Math.floor(Strophe.TIMEOUT * this.wait)); var secondaryTimeout = (req.dead !== null && req.timeDead() > Math.floor(Strophe.SECONDARY_TIMEOUT * this.wait)); var requestCompletedWithServerError = (req.xhr.readyState == 4 && (reqStatus < 1 || reqStatus >= 500)); if (primaryTimeout || secondaryTimeout || requestCompletedWithServerError) { if (secondaryTimeout) { Strophe.error("Request " + this._requests[i].id + " timed out (secondary), restarting"); } req.abort = true; req.xhr.abort(); // setting to null fails on IE6, so set to empty function req.xhr.onreadystatechange = function () {}; this._requests[i] = new Strophe.Request(req.xmlData, req.origFunc, req.rid, req.sends); req = this._requests[i]; } if (req.xhr.readyState === 0) { Strophe.debug("request id " + req.id + "." + req.sends + " posting"); req.date = new Date(); try { req.xhr.open("POST", this.service, true); } catch (e2) { Strophe.error("XHR open failed."); if (!this.connected) { this._changeConnectStatus(Strophe.Status.CONNFAIL, "bad-service"); } this.disconnect(); return; } // Fires the XHR request -- may be invoked immediately // or on a gradually expanding retry window for reconnects var sendFunc = function () { req.xhr.send(req.data); }; // Implement progressive backoff for reconnects -- // First retry (send == 1) should also be instantaneous if (req.sends > 1) { // Using a cube of the retry number creats a nicely // expanding retry window var backoff = Math.pow(req.sends, 3) * 1000; setTimeout(sendFunc, backoff); } else { sendFunc(); } req.sends++; this.xmlOutput(req.xmlData); this.rawOutput(req.data); } else { Strophe.debug("_processRequest: " + (i === 0 ? "first" : "second") + " request has readyState of " + req.xhr.readyState); } }, /** PrivateFunction: _throttledRequestHandler * _Private_ function to throttle requests to the connection window. * * This function makes sure we don't send requests so fast that the * request ids overflow the connection window in the case that one * request died. */ _throttledRequestHandler: function () { if (!this._requests) { Strophe.debug("_throttledRequestHandler called with " + "undefined requests"); } else { Strophe.debug("_throttledRequestHandler called with " + this._requests.length + " requests"); } if (!this._requests || this._requests.length === 0) { return; } if (this._requests.length > 0) { this._processRequest(0); } if (this._requests.length > 1 && Math.abs(this._requests[0].rid - this._requests[1].rid) < this.window - 1) { this._processRequest(1); } }, /** PrivateFunction: _onRequestStateChange * _Private_ handler for Strophe.Request state changes. * * This function is called when the XMLHttpRequest readyState changes. * It contains a lot of error handling logic for the many ways that * requests can fail, and calls the request callback when requests * succeed. * * Parameters: * (Function) func - The handler for the request. * (Strophe.Request) req - The request that is changing readyState. */ _onRequestStateChange: function (func, req) { Strophe.debug("request id " + req.id + "." + req.sends + " state changed to " + req.xhr.readyState); if (req.abort) { req.abort = false; return; } // request complete var reqStatus; if (req.xhr.readyState == 4) { reqStatus = 0; try { reqStatus = req.xhr.status; } catch (e) { // ignore errors from undefined status attribute. works // around a browser bug } if (typeof(reqStatus) == "undefined") { reqStatus = 0; } if (this.disconnecting) { if (reqStatus >= 400) { this._hitError(reqStatus); return; } } var reqIs0 = (this._requests[0] == req); var reqIs1 = (this._requests[1] == req); if ((reqStatus > 0 && reqStatus < 500) || req.sends > 5) { // remove from internal queue this._removeRequest(req); Strophe.debug("request id " + req.id + " should now be removed"); } // request succeeded if (reqStatus == 200) { // if request 1 finished, or request 0 finished and request // 1 is over Strophe.SECONDARY_TIMEOUT seconds old, we need to // restart the other - both will be in the first spot, as the // completed request has been removed from the queue already if (reqIs1 || (reqIs0 && this._requests.length > 0 && this._requests[0].age() > Math.floor(Strophe.SECONDARY_TIMEOUT * this.wait))) { this._restartRequest(0); } // call handler Strophe.debug("request id " + req.id + "." + req.sends + " got 200"); func(req); this.errors = 0; } else { Strophe.error("request id " + req.id + "." + req.sends + " error " + reqStatus + " happened"); if (reqStatus === 0 || (reqStatus >= 400 && reqStatus < 600) || reqStatus >= 12000) { this._hitError(reqStatus); if (reqStatus >= 400 && reqStatus < 500) { this._changeConnectStatus(Strophe.Status.DISCONNECTING, null); this._doDisconnect(); } } } if (!((reqStatus > 0 && reqStatus < 10000) || req.sends > 5)) { this._throttledRequestHandler(); } } }, /** PrivateFunction: _hitError * _Private_ function to handle the error count. * * Requests are resent automatically until their error count reaches * 5. Each time an error is encountered, this function is called to * increment the count and disconnect if the count is too high. * * Parameters: * (Integer) reqStatus - The request status. */ _hitError: function (reqStatus) { this.errors++; Strophe.warn("request errored, status: " + reqStatus + ", number of errors: " + this.errors); if (this.errors > 4) { this._onDisconnectTimeout(); } }, /** PrivateFunction: _doDisconnect * _Private_ function to disconnect. * * This is the last piece of the disconnection logic. This resets the * connection and alerts the user's connection callback. */ _doDisconnect: function () { Strophe.info("_doDisconnect was called"); this.authenticated = false; this.disconnecting = false; this.sid = null; this.streamId = null; this.rid = Math.floor(Math.random() * 4294967295); // tell the parent we disconnected if (this.connected) { this._changeConnectStatus(Strophe.Status.DISCONNECTED, null); this.connected = false; } // delete handlers this.handlers = []; this.timedHandlers = []; this.removeTimeds = []; this.removeHandlers = []; this.addTimeds = []; this.addHandlers = []; }, /** PrivateFunction: _dataRecv * _Private_ handler to processes incoming data from the the connection. * * Except for _connect_cb handling the initial connection request, * this function handles the incoming data for all requests. This * function also fires stanza handlers that match each incoming * stanza. * * Parameters: * (Strophe.Request) req - The request that has data ready. */ _dataRecv: function (req) { try { var elem = req.getResponse(); } catch (e) { if (e != "parsererror") { throw e; } this.disconnect("strophe-parsererror"); } if (elem === null) { return; } this.xmlInput(elem); this.rawInput(Strophe.serialize(elem)); // remove handlers scheduled for deletion var i, hand; while (this.removeHandlers.length > 0) { hand = this.removeHandlers.pop(); i = this.handlers.indexOf(hand); if (i >= 0) { this.handlers.splice(i, 1); } } // add handlers scheduled for addition while (this.addHandlers.length > 0) { this.handlers.push(this.addHandlers.pop()); } // handle graceful disconnect if (this.disconnecting && this._requests.length === 0) { this.deleteTimedHandler(this._disconnectTimeout); this._disconnectTimeout = null; this._doDisconnect(); return; } var typ = elem.getAttribute("type"); var cond, conflict; if (typ !== null && typ == "terminate") { // an error occurred cond = elem.getAttribute("condition"); conflict = elem.getElementsByTagName("conflict"); if (cond !== null) { if (cond == "remote-stream-error" && conflict.length > 0) { cond = "conflict"; } this._changeConnectStatus(Strophe.Status.CONNFAIL, cond); } else { this._changeConnectStatus(Strophe.Status.CONNFAIL, "unknown"); } this.disconnect(); return; } // send each incoming stanza through the handler chain var self = this; Strophe.forEachChild(elem, null, function (child) { var i, newList; // process handlers newList = self.handlers; self.handlers = []; for (i = 0; i < newList.length; i++) { var hand = newList[i]; if (hand.isMatch(child) && (self.authenticated || !hand.user)) { if (hand.run(child)) { self.handlers.push(hand); } } else { self.handlers.push(hand); } } }); }, /** PrivateFunction: _sendTerminate * _Private_ function to send initial disconnect sequence. * * This is the first step in a graceful disconnect. It sends * the BOSH server a terminate body and includes an unavailable * presence if authentication has completed. */ _sendTerminate: function () { Strophe.info("_sendTerminate was called"); var body = this._buildBody().attrs({type: "terminate"}); if (this.authenticated) { body.c('presence', { xmlns: Strophe.NS.CLIENT, type: 'unavailable' }); } this.disconnecting = true; var req = new Strophe.Request(body.tree(), this._onRequestStateChange.bind(this) .prependArg(this._dataRecv.bind(this)), body.tree().getAttribute("rid")); this._requests.push(req); this._throttledRequestHandler(); }, /** PrivateFunction: _connect_cb * _Private_ handler for initial connection request. * * This handler is used to process the initial connection request * response from the BOSH server. It is used to set up authentication * handlers and start the authentication process. * * SASL authentication will be attempted if available, otherwise * the code will fall back to legacy authentication. * * Parameters: * (Strophe.Request) req - The current request. */ _connect_cb: function (req) { Strophe.info("_connect_cb was called"); this.connected = true; var bodyWrap = req.getResponse(); if (!bodyWrap) { return; } this.xmlInput(bodyWrap); this.rawInput(Strophe.serialize(bodyWrap)); var typ = bodyWrap.getAttribute("type"); var cond, conflict; if (typ !== null && typ == "terminate") { // an error occurred cond = bodyWrap.getAttribute("condition"); conflict = bodyWrap.getElementsByTagName("conflict"); if (cond !== null) { if (cond == "remote-stream-error" && conflict.length > 0) { cond = "conflict"; } this._changeConnectStatus(Strophe.Status.CONNFAIL, cond); } else { this._changeConnectStatus(Strophe.Status.CONNFAIL, "unknown"); } return; } // check to make sure we don't overwrite these if _connect_cb is // called multiple times in the case of missing stream:features if (!this.sid) { this.sid = bodyWrap.getAttribute("sid"); } if (!this.stream_id) { this.stream_id = bodyWrap.getAttribute("authid"); } var wind = bodyWrap.getAttribute('requests'); if (wind) { this.window = parseInt(wind, 10); } var hold = bodyWrap.getAttribute('hold'); if (hold) { this.hold = parseInt(hold, 10); } var wait = bodyWrap.getAttribute('wait'); if (wait) { this.wait = parseInt(wait, 10); } var do_sasl_plain = false; var do_sasl_digest_md5 = false; var do_sasl_anonymous = false; var mechanisms = bodyWrap.getElementsByTagName("mechanism"); var i, mech, auth_str, hashed_auth_str; if (mechanisms.length > 0) { for (i = 0; i < mechanisms.length; i++) { mech = Strophe.getText(mechanisms[i]); if (mech == 'DIGEST-MD5') { do_sasl_digest_md5 = true; } else if (mech == 'PLAIN') { do_sasl_plain = true; } else if (mech == 'ANONYMOUS') { do_sasl_anonymous = true; } } } else { // we didn't get stream:features yet, so we need wait for it // by sending a blank poll request var body = this._buildBody(); this._requests.push( new Strophe.Request(body.tree(), this._onRequestStateChange.bind(this) .prependArg(this._connect_cb.bind(this)), body.tree().getAttribute("rid"))); this._throttledRequestHandler(); return; } if (Strophe.getNodeFromJid(this.jid) === null && do_sasl_anonymous) { this._changeConnectStatus(Strophe.Status.AUTHENTICATING, null); this._sasl_success_handler = this._addSysHandler( this._sasl_success_cb.bind(this), null, "success", null, null); this._sasl_failure_handler = this._addSysHandler( this._sasl_failure_cb.bind(this), null, "failure", null, null); this.send($build("auth", { xmlns: Strophe.NS.SASL, mechanism: "ANONYMOUS" }).tree()); } else if (Strophe.getNodeFromJid(this.jid) === null) { // we don't have a node, which is required for non-anonymous // client connections this._changeConnectStatus(Strophe.Status.CONNFAIL, 'x-strophe-bad-non-anon-jid'); this.disconnect(); } else if (do_sasl_digest_md5) { this._changeConnectStatus(Strophe.Status.AUTHENTICATING, null); this._sasl_challenge_handler = this._addSysHandler( this._sasl_challenge1_cb.bind(this), null, "challenge", null, null); this._sasl_failure_handler = this._addSysHandler( this._sasl_failure_cb.bind(this), null, "failure", null, null); this.send($build("auth", { xmlns: Strophe.NS.SASL, mechanism: "DIGEST-MD5" }).tree()); } else if (do_sasl_plain) { // Build the plain auth string (barejid null // username null password) and base 64 encoded. auth_str = Strophe.getBareJidFromJid(this.jid); auth_str = auth_str + "\u0000"; auth_str = auth_str + Strophe.getNodeFromJid(this.jid); auth_str = auth_str + "\u0000"; auth_str = auth_str + this.pass; this._changeConnectStatus(Strophe.Status.AUTHENTICATING, null); this._sasl_success_handler = this._addSysHandler( this._sasl_success_cb.bind(this), null, "success", null, null); this._sasl_failure_handler = this._addSysHandler( this._sasl_failure_cb.bind(this), null, "failure", null, null); hashed_auth_str = Base64.encode(auth_str); this.send($build("auth", { xmlns: Strophe.NS.SASL, mechanism: "PLAIN" }).t(hashed_auth_str).tree()); } else { this._changeConnectStatus(Strophe.Status.AUTHENTICATING, null); this._addSysHandler(this._auth1_cb.bind(this), null, null, null, "_auth_1"); this.send($iq({ type: "get", to: this.domain, id: "_auth_1" }).c("query", { xmlns: Strophe.NS.AUTH }).c("username", {}).t(Strophe.getNodeFromJid(this.jid)).tree()); } }, /** PrivateFunction: _sasl_challenge1_cb * _Private_ handler for DIGEST-MD5 SASL authentication. * * Parameters: * (XMLElement) elem - The challenge stanza. * * Returns: * false to remove the handler. */ _sasl_challenge1_cb: function (elem) { var attribMatch = /([a-z]+)=("[^"]+"|[^,"]+)(?:,|$)/; var challenge = Base64.decode(Strophe.getText(elem)); var cnonce = MD5.hexdigest(Math.random() * 1234567890); var realm = ""; var host = null; var nonce = ""; var qop = ""; var matches; // remove unneeded handlers this.deleteHandler(this._sasl_failure_handler); while (challenge.match(attribMatch)) { matches = challenge.match(attribMatch); challenge = challenge.replace(matches[0], ""); matches[2] = matches[2].replace(/^"(.+)"$/, "$1"); switch (matches[1]) { case "realm": realm = matches[2]; break; case "nonce": nonce = matches[2]; break; case "qop": qop = matches[2]; break; case "host": host = matches[2]; break; } } var digest_uri = "xmpp/" + this.domain; if (host !== null) { digest_uri = digest_uri + "/" + host; } var A1 = MD5.hash(Strophe.getNodeFromJid(this.jid) + ":" + realm + ":" + this.pass) + ":" + nonce + ":" + cnonce; var A2 = 'AUTHENTICATE:' + digest_uri; var responseText = ""; responseText += 'username=' + this._quote(Strophe.getNodeFromJid(this.jid)) + ','; responseText += 'realm=' + this._quote(realm) + ','; responseText += 'nonce=' + this._quote(nonce) + ','; responseText += 'cnonce=' + this._quote(cnonce) + ','; responseText += 'nc="00000001",'; responseText += 'qop="auth",'; responseText += 'digest-uri=' + this._quote(digest_uri) + ','; responseText += 'response=' + this._quote( MD5.hexdigest(MD5.hexdigest(A1) + ":" + nonce + ":00000001:" + cnonce + ":auth:" + MD5.hexdigest(A2))) + ','; responseText += 'charset="utf-8"'; this._sasl_challenge_handler = this._addSysHandler( this._sasl_challenge2_cb.bind(this), null, "challenge", null, null); this._sasl_success_handler = this._addSysHandler( this._sasl_success_cb.bind(this), null, "success", null, null); this._sasl_failure_handler = this._addSysHandler( this._sasl_failure_cb.bind(this), null, "failure", null, null); this.send($build('response', { xmlns: Strophe.NS.SASL }).t(Base64.encode(responseText)).tree()); return false; }, /** PrivateFunction: _quote * _Private_ utility function to backslash escape and quote strings. * * Parameters: * (String) str - The string to be quoted. * * Returns: * quoted string */ _quote: function (str) { return '"' + str.replace(/\\/g, "\\\\").replace(/"/g, '\\"') + '"'; //" end string workaround for emacs }, /** PrivateFunction: _sasl_challenge2_cb * _Private_ handler for second step of DIGEST-MD5 SASL authentication. * * Parameters: * (XMLElement) elem - The challenge stanza. * * Returns: * false to remove the handler. */ _sasl_challenge2_cb: function (elem) { // remove unneeded handlers this.deleteHandler(this._sasl_success_handler); this.deleteHandler(this._sasl_failure_handler); this._sasl_success_handler = this._addSysHandler( this._sasl_success_cb.bind(this), null, "success", null, null); this._sasl_failure_handler = this._addSysHandler( this._sasl_failure_cb.bind(this), null, "failure", null, null); this.send($build('response', {xmlns: Strophe.NS.SASL}).tree()); return false; }, /** PrivateFunction: _auth1_cb * _Private_ handler for legacy authentication. * * This handler is called in response to the initial <iq type='get'/> * for legacy authentication. It builds an authentication <iq/> and * sends it, creating a handler (calling back to _auth2_cb()) to * handle the result * * Parameters: * (XMLElement) elem - The stanza that triggered the callback. * * Returns: * false to remove the handler. */ _auth1_cb: function (elem) { // build plaintext auth iq var iq = $iq({type: "set", id: "_auth_2"}) .c('query', {xmlns: Strophe.NS.AUTH}) .c('username', {}).t(Strophe.getNodeFromJid(this.jid)) .up() .c('password').t(this.pass); if (!Strophe.getResourceFromJid(this.jid)) { // since the user has not supplied a resource, we pick // a default one here. unlike other auth methods, the server // cannot do this for us. this.jid = Strophe.getBareJidFromJid(this.jid) + '/strophe'; } iq.up().c('resource', {}).t(Strophe.getResourceFromJid(this.jid)); this._addSysHandler(this._auth2_cb.bind(this), null, null, null, "_auth_2"); this.send(iq.tree()); return false; }, /** PrivateFunction: _sasl_success_cb * _Private_ handler for succesful SASL authentication. * * Parameters: * (XMLElement) elem - The matching stanza. * * Returns: * false to remove the handler. */ _sasl_success_cb: function (elem) { Strophe.info("SASL authentication succeeded."); // remove old handlers this.deleteHandler(this._sasl_failure_handler); this._sasl_failure_handler = null; if (this._sasl_challenge_handler) { this.deleteHandler(this._sasl_challenge_handler); this._sasl_challenge_handler = null; } this._addSysHandler(this._sasl_auth1_cb.bind(this), null, "stream:features", null, null); // we must send an xmpp:restart now this._sendRestart(); return false; }, /** PrivateFunction: _sasl_auth1_cb * _Private_ handler to start stream binding. * * Parameters: * (XMLElement) elem - The matching stanza. * * Returns: * false to remove the handler. */ _sasl_auth1_cb: function (elem) { var i, child; for (i = 0; i < elem.childNodes.length; i++) { child = elem.childNodes[i]; if (child.nodeName == 'bind') { this.do_bind = true; } if (child.nodeName == 'session') { this.do_session = true; } } if (!this.do_bind) { this._changeConnectStatus(Strophe.Status.AUTHFAIL, null); return false; } else { this._addSysHandler(this._sasl_bind_cb.bind(this), null, null, null, "_bind_auth_2"); var resource = Strophe.getResourceFromJid(this.jid); if (resource) { this.send($iq({type: "set", id: "_bind_auth_2"}) .c('bind', {xmlns: Strophe.NS.BIND}) .c('resource', {}).t(resource).tree()); } else { this.send($iq({type: "set", id: "_bind_auth_2"}) .c('bind', {xmlns: Strophe.NS.BIND}) .tree()); } } return false; }, /** PrivateFunction: _sasl_bind_cb * _Private_ handler for binding result and session start. * * Parameters: * (XMLElement) elem - The matching stanza. * * Returns: * false to remove the handler. */ _sasl_bind_cb: function (elem) { if (elem.getAttribute("type") == "error") { Strophe.info("SASL binding failed."); this._changeConnectStatus(Strophe.Status.AUTHFAIL, null); return false; } // TODO - need to grab errors var bind = elem.getElementsByTagName("bind"); var jidNode; if (bind.length > 0) { // Grab jid jidNode = bind[0].getElementsByTagName("jid"); if (jidNode.length > 0) { this.jid = Strophe.getText(jidNode[0]); if (this.do_session) { this._addSysHandler(this._sasl_session_cb.bind(this), null, null, null, "_session_auth_2"); this.send($iq({type: "set", id: "_session_auth_2"}) .c('session', {xmlns: Strophe.NS.SESSION}) .tree()); } else { this.authenticated = true; this._changeConnectStatus(Strophe.Status.CONNECTED, null); } } } else { Strophe.info("SASL binding failed."); this._changeConnectStatus(Strophe.Status.AUTHFAIL, null); return false; } }, /** PrivateFunction: _sasl_session_cb * _Private_ handler to finish successful SASL connection. * * This sets Connection.authenticated to true on success, which * starts the processing of user handlers. * * Parameters: * (XMLElement) elem - The matching stanza. * * Returns: * false to remove the handler. */ _sasl_session_cb: function (elem) { if (elem.getAttribute("type") == "result") { this.authenticated = true; this._changeConnectStatus(Strophe.Status.CONNECTED, null); } else if (elem.getAttribute("type") == "error") { Strophe.info("Session creation failed."); this._changeConnectStatus(Strophe.Status.AUTHFAIL, null); return false; } return false; }, /** PrivateFunction: _sasl_failure_cb * _Private_ handler for SASL authentication failure. * * Parameters: * (XMLElement) elem - The matching stanza. * * Returns: * false to remove the handler. */ _sasl_failure_cb: function (elem) { // delete unneeded handlers if (this._sasl_success_handler) { this.deleteHandler(this._sasl_success_handler); this._sasl_success_handler = null; } if (this._sasl_challenge_handler) { this.deleteHandler(this._sasl_challenge_handler); this._sasl_challenge_handler = null; } this._changeConnectStatus(Strophe.Status.AUTHFAIL, null); return false; }, /** PrivateFunction: _auth2_cb * _Private_ handler to finish legacy authentication. * * This handler is called when the result from the jabber:iq:auth * <iq/> stanza is returned. * * Parameters: * (XMLElement) elem - The stanza that triggered the callback. * * Returns: * false to remove the handler. */ _auth2_cb: function (elem) { if (elem.getAttribute("type") == "result") { this.authenticated = true; this._changeConnectStatus(Strophe.Status.CONNECTED, null); } else if (elem.getAttribute("type") == "error") { this._changeConnectStatus(Strophe.Status.AUTHFAIL, null); this.disconnect(); } return false; }, /** PrivateFunction: _addSysTimedHandler * _Private_ function to add a system level timed handler. * * This function is used to add a Strophe.TimedHandler for the * library code. System timed handlers are allowed to run before * authentication is complete. * * Parameters: * (Integer) period - The period of the handler. * (Function) handler - The callback function. */ _addSysTimedHandler: function (period, handler) { var thand = new Strophe.TimedHandler(period, handler); thand.user = false; this.addTimeds.push(thand); return thand; }, /** PrivateFunction: _addSysHandler * _Private_ function to add a system level stanza handler. * * This function is used to add a Strophe.Handler for the * library code. System stanza handlers are allowed to run before * authentication is complete. * * Parameters: * (Function) handler - The callback function. * (String) ns - The namespace to match. * (String) name - The stanza name to match. * (String) type - The stanza type attribute to match. * (String) id - The stanza id attribute to match. */ _addSysHandler: function (handler, ns, name, type, id) { var hand = new Strophe.Handler(handler, ns, name, type, id); hand.user = false; this.addHandlers.push(hand); return hand; }, /** PrivateFunction: _onDisconnectTimeout * _Private_ timeout handler for handling non-graceful disconnection. * * If the graceful disconnect process does not complete within the * time allotted, this handler finishes the disconnect anyway. * * Returns: * false to remove the handler. */ _onDisconnectTimeout: function () { Strophe.info("_onDisconnectTimeout was called"); // cancel all remaining requests and clear the queue var req; while (this._requests.length > 0) { req = this._requests.pop(); req.abort = true; req.xhr.abort(); // jslint complains, but this is fine. setting to empty func // is necessary for IE6 req.xhr.onreadystatechange = function () {}; } // actually disconnect this._doDisconnect(); return false; }, /** PrivateFunction: _onIdle * _Private_ handler to process events during idle cycle. * * This handler is called every 100ms to fire timed handlers that * are ready and keep poll requests going. */ _onIdle: function () { var i, thand, since, newList; // remove timed handlers that have been scheduled for deletion while (this.removeTimeds.length > 0) { thand = this.removeTimeds.pop(); i = this.timedHandlers.indexOf(thand); if (i >= 0) { this.timedHandlers.splice(i, 1); } } // add timed handlers scheduled for addition while (this.addTimeds.length > 0) { this.timedHandlers.push(this.addTimeds.pop()); } // call ready timed handlers var now = new Date().getTime(); newList = []; for (i = 0; i < this.timedHandlers.length; i++) { thand = this.timedHandlers[i]; if (this.authenticated || !thand.user) { since = thand.lastCalled + thand.period; if (since - now <= 0) { if (thand.run()) { newList.push(thand); } } else { newList.push(thand); } } } this.timedHandlers = newList; var body, time_elapsed; // if no requests are in progress, poll if (this.authenticated && this._requests.length === 0 && this._data.length === 0 && !this.disconnecting) { Strophe.info("no requests during idle cycle, sending " + "blank request"); this._data.push(null); } if (this._requests.length < 2 && this._data.length > 0 && !this.paused) { body = this._buildBody(); for (i = 0; i < this._data.length; i++) { if (this._data[i] !== null) { if (this._data[i] === "restart") { body.attrs({ to: this.domain, "xml:lang": "en", "xmpp:restart": "true", "xmlns:xmpp": Strophe.NS.BOSH }); } else { body.cnode(this._data[i]).up(); } } } delete this._data; this._data = []; this._requests.push( new Strophe.Request(body.tree(), this._onRequestStateChange.bind(this) .prependArg(this._dataRecv.bind(this)), body.tree().getAttribute("rid"))); this._processRequest(this._requests.length - 1); } if (this._requests.length > 0) { time_elapsed = this._requests[0].age(); if (this._requests[0].dead !== null) { if (this._requests[0].timeDead() > Math.floor(Strophe.SECONDARY_TIMEOUT * this.wait)) { this._throttledRequestHandler(); } } if (time_elapsed > Math.floor(Strophe.TIMEOUT * this.wait)) { Strophe.warn("Request " + this._requests[0].id + " timed out, over " + Math.floor(Strophe.TIMEOUT * this.wait) + " seconds since last activity"); this._throttledRequestHandler(); } } // reactivate the timer clearTimeout(this._idleTimeout); this._idleTimeout = setTimeout(this._onIdle.bind(this), 100); } }; if (callback) { callback(Strophe, $build, $msg, $iq, $pres); } })(function () { window.Strophe = arguments[0]; window.$build = arguments[1]; window.$msg = arguments[2]; window.$iq = arguments[3]; window.$pres = arguments[4]; });