/**
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with this
* work for additional information regarding copyright ownership. The ASF
* licenses this file to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
* License for the specific language governing permissions and limitations under
* the License.
*/
// This code is structured on to require a 'new' of an object of type
// CxfApacheOrgUtil.
// Alternative, it could be made 'static', but this allowed us to use this same
// object to carry some state.
var org_apache_cxf_XSI_namespace_uri = "http://www.w3.org/2001/XMLSchema-instance";
var org_apache_cxf_XSD_namespace_uri = "http://www.w3.org/2001/XMLSchema";
function cxf_apache_org_util_null_trace(message) {
}
function CxfApacheOrgUtil() {
// Set up tracing if there is a trace object.
if ("function" == typeof(org_apache_cxf_trace)) {
this.trace = org_apache_cxf_trace.trace;
this.trace("Javascript tracing enabled.");
} else {
this.trace = cxf_apache_org_util_null_trace;
}
}
// define a constant for the DOM node type for an element.
CxfApacheOrgUtil.prototype.ELEMENT_NODE = 1;
// compensate for Microsoft's weakness here.
function org_apache_cxf_getNodeLocalName(node) {
if ("localName" in node) {
return node.localName;
} else {
return node.baseName;
}
}
CxfApacheOrgUtil.prototype.getNodeLocalName = org_apache_cxf_getNodeLocalName;
// compensate for lack of namespace support in IE.
function org_apache_cxf_getNamespaceURI(elementNode, namespacePrefix) {
var namespaceURI = null;
if (elementNode.nodeType == 9)
return null;
else {
namespaceURI = org_apache_cxf_findNamespace(elementNode,
namespacePrefix);
if (namespaceURI == null)
namespaceURI = org_apache_cxf_getNamespaceURI(
elementNode.parentNode, namespacePrefix);
else
return namespaceURI;
}
return namespaceURI;
}
// Search through the attributes of one node to find a namespace prefix definition.
function org_apache_cxf_findNamespace(elementNode, namespacePrefix) {
var attributes = elementNode.attributes;
if ((attributes != null) && (attributes.length > 0)) {
for (var x = 0;x < attributes.length; x++) {
var attributeNodeName = attributes.item(x).nodeName;
var attributeNamespacePrefix = org_apache_cxf_getPrefix(attributes
.item(x).nodeName);
var attributeNamespaceSuffix = org_apache_cxf_getLocalName(attributes
.item(x).nodeName);
if ((namespacePrefix == null) && (attributeNamespacePrefix == null)
&& (attributeNamespaceSuffix == "xmlns"))
return attributes.item(x).nodeValue;
else if ((attributeNamespacePrefix == "xmlns")
&& (attributeNamespaceSuffix == namespacePrefix))
return attributes.item(x).nodeValue;
}
return null;
}
}
// Get namespace for a node.
function org_apache_cxf_get_node_namespaceURI(elementNode) {
var prefix = org_apache_cxf_getPrefix(elementNode.nodeName);
return org_apache_cxf_getNamespaceURI(elementNode, prefix);
}
CxfApacheOrgUtil.prototype.getElementNamespaceURI = org_apache_cxf_get_node_namespaceURI;
// Supprt functions for xsd:any start here.
// Object that can test an element against an 'any' specification.
function org_apache_cxf_any_ns_matcher(style, tns, nslist, nextLocalPart) {
this.style = style;
this.tns = tns;
this.nslist = nslist;
this.nextLocalPart = nextLocalPart;
}
org_apache_cxf_any_ns_matcher.ANY = "##any";
org_apache_cxf_any_ns_matcher.OTHER = "##other";
org_apache_cxf_any_ns_matcher.LOCAL = "##local";
org_apache_cxf_any_ns_matcher.LISTED = "listed";
function org_apache_cxf_any_ns_matcher_match(namespaceURI, localName) {
switch (this.style) {
// should this match local elements?
case org_apache_cxf_any_ns_matcher.ANY :
return true;
case org_apache_cxf_any_ns_matcher.OTHER :
return namespaceURI != this.tns;
case org_apache_cxf_any_ns_matcher.LOCAL :
return namespaceURI == null || namespaceURI == '';
case org_apache_cxf_any_ns_matcher.LISTED :
for (var x in this.nslist) {
var ns = this.nslist[x];
if (ns == "##local") {
if ((namespaceURI == null || namespaceURI == '')
&& (this.nextLocalPart != null && localName != this.nextLocalPart))
return true;
} else {
if (ns == namespaceURI)
return true;
}
}
return false;
}
}
org_apache_cxf_any_ns_matcher.prototype.match = org_apache_cxf_any_ns_matcher_match;
function org_apache_cxf_getPrefix(tagName) {
var prefix;
var prefixIndex = tagName.indexOf(":");
if (prefixIndex == -1)
return null;
else
return prefix = tagName.substring(0, prefixIndex);
}
function org_apache_cxf_getLocalName(tagName) {
var suffix;
var prefixIndex = tagName.indexOf(":");
if (prefixIndex == -1)
return tagName;
else
return suffix = tagName.substring(prefixIndex + 1, tagName.length);
}
function org_apache_cxf_element_name_for_trace(node) {
if (node == null)
return "Null";
else if (node == undefined)
return "Undefined";
else {
var n = '';
if (node.namespaceURI != null && node.namespaceURI != '') {
n = n + "{" + node.namespaceURI + "}";
}
return n + this.getNodeLocalName(node);
}
}
CxfApacheOrgUtil.prototype.traceElementName = org_apache_cxf_element_name_for_trace;
function org_apache_cxf_escapeXmlEntities(val) {
if (val == null || val == undefined)
return "";
else {
val = String(val);
return val.replace(/&/g, "&").replace(//g,
">");
}
}
CxfApacheOrgUtil.prototype.escapeXmlEntities = org_apache_cxf_escapeXmlEntities;
// Is an element xsi:nil? Note, in IE this requires the use of the prefix 'xsi', literally.
function org_apache_cxf_isElementNil(node) {
if (node == null)
throw "null node passed to isElementNil";
// we need to look for an attribute xsi:nil, where xsi is
// http://www.w3.org/2001/XMLSchema-instance. we have the usual
// problem here with namespace-awareness.
if ('function' == typeof node.getAttributeNS) {
var nillness = node.getAttributeNS(
"http://www.w3.org/2001/XMLSchema-instance", "nil");
return nillness != null && nillness == "true";
} else { // we assume the standard prefix and hope for the best.
var nillness = node.getAttribute("xsi:nil");
return nillness != null && nillness == "true";
}
}
CxfApacheOrgUtil.prototype.isElementNil = org_apache_cxf_isElementNil;
function org_apache_cxf_getFirstElementChild(node) {
if (node == undefined)
throw "undefined node to getFirstElementChild";
var n;
for (n = node.firstChild;n != null && n.nodeType != this.ELEMENT_NODE; n = n.nextSibling) {
}
return n;
}
CxfApacheOrgUtil.prototype.getFirstElementChild = org_apache_cxf_getFirstElementChild;
function org_apache_cxf_getNextElementSibling(node) {
if (node == undefined)
throw "undefined node to getNextElementSibling";
if (node == null)
throw "null node to getNextElementSibling";
var n;
for (n = node.nextSibling;n != null && n.nodeType != this.ELEMENT_NODE; n = n.nextSibling);
return n;
}
CxfApacheOrgUtil.prototype.getNextElementSibling = org_apache_cxf_getNextElementSibling;
function org_apache_cxf_isNodeNamedNS(node, namespaceURI, localName) {
if (node == undefined)
throw "undefined node to isNodeNamedNS";
if (namespaceURI == '' || namespaceURI == null) {
if (node.namespaceURI == '' || node.namespaceURI == null) {
return localName == org_apache_cxf_getNodeLocalName(node);
} else
return false;
} else {
return namespaceURI == node.namespaceURI
&& localName == org_apache_cxf_getNodeLocalName(node);
}
}
CxfApacheOrgUtil.prototype.isNodeNamedNS = org_apache_cxf_isNodeNamedNS;
// Firefox splits large text regions into multiple Text objects (4096 chars in
// each). Glue it back together.
function org_apache_cxf_getNodeText(node) {
var r = "";
for (var x = 0;x < node.childNodes.length; x++) {
r = r + node.childNodes[x].nodeValue;
}
return r;
}
CxfApacheOrgUtil.prototype.getNodeText = org_apache_cxf_getNodeText;
// This always uses soap-env, soap, and xsi as prefixes.
function org_apache_cxf_begin_soap11_message(namespaceAttributes) {
var value = ''
+ '';
return value;
}
CxfApacheOrgUtil.prototype.beginSoap11Message = org_apache_cxf_begin_soap11_message;
function org_apache_cxf_end_soap11_message() {
return '';
}
CxfApacheOrgUtil.prototype.endSoap11Message = org_apache_cxf_end_soap11_message;
var org_apache_cxf_base64_keyStr = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/=";
function org_apache_cxf_base64_encode64array(input) {
var output = "";
var chr1, chr2, chr3;
var enc1, enc2, enc3, enc4;
var i = 0;
do {
var count = 1;
chr1 = chr2 = chr3 = 0;
chr1 = input[i++];
if (i < input.length) {
chr2 = input[i++];
count++;
}
if (i < input.length) {
chr3 = input[i++];
count++;
}
enc1 = chr1 >> 2;
enc2 = ((chr1 & 3) << 4) | (chr2 >> 4);
if (count > 1) {
enc3 = ((chr2 & 15) << 2) | (chr3 >> 6);
if (count > 2)
enc4 = chr3 & 63;
else
enc4 = 64;
} else
enc3 = enc4 = 64;
output = output + org_apache_cxf_base64_keyStr.charAt(enc1)
+ org_apache_cxf_base64_keyStr.charAt(enc2)
+ org_apache_cxf_base64_keyStr.charAt(enc3)
+ org_apache_cxf_base64_keyStr.charAt(enc4);
} while (i < input.length);
return output;
}
function org_apache_cxf_base64_encode64Unicode(input) {
var data = new Array(2 + (input.length * 2));
data[0] = 0xff;
data[1] = 0xfe;
for (var x = 0;x < input.length; x++) {
var c = input.charCodeAt(x);
data[2 + (x * 2)] = c & 0xff;
data[3 + (x * 2)] = (c >> 8) & 0xff;
}
return encode64array(data);
}
// we may be able to do this more cleanly with unescape( encodeURIComponent(
// input ) );
function org_apache_cxf_base64_encode64UTF8(input) {
// determine how many bytes are needed for the complete conversion
var bytesNeeded = 0;
for (var i = 0;i < input.length; i++) {
if (input.charCodeAt(i) < 0x80) {
++bytesNeeded;
} else if (input.charCodeAt(i) < 0x0800) {
bytesNeeded += 2;
} else if (input.charCodeAt(i) < 0x10000) {
bytesNeeded += 3;
} else {
bytesNeeded += 4;
}
}
// allocate a byte[] of the necessary size
var data = new Array(bytesNeeded);
// do the conversion from character code points to utf-8
var bytes = 0;
for (var i = 0;i < input.length; i++) {
if (input.charCodeAt(i) < 0x80) {
data[bytes++] = input.charCodeAt(i);
} else if (input.charCodeAt(i) < 0x0800) {
data[bytes++] = ((input.charCodeAt(i) >> 6) | 0xC0);
data[bytes++] = ((input.charCodeAt(i) & 0x3F) | 0x80);
} else if (input.charCodeAt(i) < 0x10000) {
data[bytes++] = ((input.charCodeAt(i) >> 12) | 0xE0);
data[bytes++] = (((input.charCodeAt(i) >> 6) & 0x3F) | 0x80);
data[bytes++] = ((input.charCodeAt(i) & 0x3F) | 0x80);
} else {
data[bytes++] = ((input.charCodeAt(i) >> 18) | 0xF0);
data[bytes++] = (((input.charCodeAt(i) >> 12) & 0x3F) | 0x80);
data[bytes++] = (((input.charCodeAt(i) >> 6) & 0x3F) | 0x80);
data[bytes++] = ((input.charCodeAt(i) & 0x3F) | 0x80);
}
}
return encode64array(data);
}
function org_apache_cxf_base64_decode64array(input) {
var output = new Array();
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 = org_apache_cxf_base64_keyStr.indexOf(input.charAt(i++));
enc2 = org_apache_cxf_base64_keyStr.indexOf(input.charAt(i++));
enc3 = org_apache_cxf_base64_keyStr.indexOf(input.charAt(i++));
enc4 = org_apache_cxf_base64_keyStr.indexOf(input.charAt(i++));
chr1 = (enc1 << 2) | (enc2 >> 4);
chr2 = ((enc2 & 15) << 4) | (enc3 >> 2);
chr3 = ((enc3 & 3) << 6) | enc4;
output[output.length] = chr1;
if (enc3 != 64) {
output[output.length] = chr2;
}
if (enc4 != 64) {
output[output.length] = chr3;
}
} while (i < input.length);
return output;
}
var org_apache_cxf_base64_hD = "0123456789ABCDEF";
function org_apache_cxf_base64_d2h(d) {
var h = org_apache_cxf_base64_hD.substr(d & 15, 1);
while (d > 15) {
d >>= 4;
h = org_apache_cxf_base64_hD.substr(d & 15, 1) + h;
}
return h;
}
function org_apache_cxf_base64_decode64Unicode(input) {
var bytes = org_apache_cxf_base64_decode64array(input);
var swap;
var output = "";
if (bytes[0] == 0xff && bytes[1] == 0xfe) {
swap = true;
} else if (bytes[0] == 0xfe && bytes[1] == 0xff) {
swap = false;
} else {
confirm("Problem with decoding utf-16");
}
for (var x = 2;x < bytes.length; x = x + 2) {
var c;
if (swap)
c = (bytes[x + 1] << 8) | bytes[x];
else
c = (bytes[x] << 8) | bytes[x + 1];
output = output + String.fromCharCode(c);
}
return output;
}
// we may be able to do this more cleanly with decodeURIComponent( escape( input
// ) );
function org_apache_cxf_base64_decode64UTF8(input) {
var utftext = org_apache_cxf_base64_decode64array(input);
var plaintext = "";
var cRay = new Array();
var i = 0;
var c;
var c2;
var c3;
while (i < utftext.length) {
c = utftext[i];
if (c < 128) {
plaintext += String.fromCharCode(c);
i++;
} else if ((c > 191) && (c < 224)) {
c2 = utftext[i + 1];
plaintext += String.fromCharCode(((c & 31) << 6) | (c2 & 63));
i += 2;
} else {
c2 = utftext[i + 1];
c3 = utftext[i + 2];
plaintext += String.fromCharCode(((c & 15) << 12)
| ((c2 & 63) << 6) | (c3 & 63));
i += 3;
}
}
return plaintext;
}
// MTOM deserialization.
// This assumes that the only content type it will be asked to deal with is text/plain;charset=utf-8.
// This only handles cid: xop URNs.
var org_apache_cxf_XOP_NS = 'http://www.w3.org/2004/08/xop/include';
function org_apache_cxf_deserialize_MTOM_or_base64(element) {
var elementChild = this.getFirstElementChild(element);
if (elementChild == null) { // no MTOM, assume base64
var base64Text = this.getNodeText(element);
// we assume this is text/plain;charset=utf-8. We could check for the
// xmime attribute.
return org_apache_cxf_base64_decode64UTF8(base64Text);
}
//
if (!org_apache_cxf_isNodeNamedNS(elementChild, org_apache_cxf_XOP_NS, 'Include')) {
this.trace('Invalid child element of base64 element');
return ''; // we don't knoww what this is, so we throw it out. We could
// throw.
}
var href = elementChild.getAttribute('href');
if(!href) {
this.trace('missing href for xop:Include');
return ''; // we don't knoww what this is, so we throw it out. We could
// throw.
}
// we only support cid:, not URLs.
if(href.length < 4 || href.substr(0, 4) != 'cid:') {
this.trace('Non-cid href in xop:Include: ' + href);
return '';
}
var cid = href.substr(4);
var partobject = this.client.parts[cid];
if(!partobject) {
this.trace('xop:Include href points to missing attachment: ' + href);
return '';
}
// success.
return partobject.data;
}
CxfApacheOrgUtil.prototype.deserializeBase64orMom = org_apache_cxf_deserialize_MTOM_or_base64;
/*
* Client object sends requests and calls back with responses.
*/
function CxfApacheOrgClient(utils) {
utils.trace("Client constructor");
this.utils = utils;
utils.client = this; // we aren't worried about multithreading!
this.mtomparts = [];
this.soapAction = "";
this.messageType = "CALL";
// handler functions
this.onsuccess = null;
this.onerror = null;
// Firefox is noncompliant with respect to the defined constants,
// so we define our own.
this.READY_STATE_UNINITIALIZED = 0;
this.READY_STATE_LOADING = 1;
this.READY_STATE_LOADED = 2;
this.READY_STATE_INTERACTIVE = 3;
this.READY_STATE_DONE = 4;
}
var org_apache_cxf_pad_string_PAD_LEFT = 0;
var org_apache_cxf_pad_string_PAD_RIGHT = 1;
var org_apache_cxf_pad_string_PAD_BOTH = 2;
function org_apache_cxf_pad_string(string, len, pad, type) {
var append = new String();
len = isNaN(len) ? 0 : len - string.length;
pad = typeof(pad) == 'string' ? pad : ' ';
if (type == org_apache_cxf_pad_string_PAD_BOTH) {
string = org_apache_cxf_pad_sring(Math.floor(len / 2) + string.length,
pad, org_apache_cxf_pad_string_PAD_LEFT);
return (org_apache_cxf_pad_string(Math.ceil(len / 2) + string.length,
pad, org_apache_cxf_pad_string_PAD_RIGHT));
}
while ((len -= pad.length) > 0)
append += pad;
append += pad.substr(0, len + pad.length);
return (type == org_apache_cxf_pad_string_PAD_LEFT
? append.concat(string)
: string.concat(append));
}
/*
* Generate a uniformly distributed random integer within the range ..
* . (min) - Lower limit: random >= min (default: 0) (max) - Upper limit:
* random <= max (default: 1)
*/
function org_apache_cxf_random_int(min, max) {
if (!isFinite(min))
min = 0;
if (!isFinite(max))
max = 1;
return Math.floor((Math.random() % 1) * (max - min + 1) + min);
}
function org_apache_cxf_random_hex_string(len) {
var random = org_apache_cxf_random_int(0, Math.pow(16, len) - 1);
return org_apache_cxf_pad_string(random.toString(16), len, '0',
org_apache_cxf_pad_string_PAD_LEFT);
}
function org_apache_cxf_make_uuid(type) {
switch ((type || 'v4').toUpperCase()) {
// Version 4 UUID (Section 4.4 of RFC 4122)
case 'V4' :
var tl = org_apache_cxf_random_hex_string(8);
// time_low
var tm = org_apache_cxf_random_hex_string(4);
// time_mid
var thav = '4' + org_apache_cxf_random_hex_string(3);
// time_hi_and_version
var cshar = org_apache_cxf_random_int(0, 0xFF);
// clock_seq_hi_and_reserved
cshar = ((cshar & ~(1 << 6)) | (1 << 7)).toString(16);
var csl = org_apache_cxf_random_hex_string(2);
// clock_seq_low
var n = org_apache_cxf_random_hex_string(12);
// node
return (tl + '-' + tm + '-' + thav + '-' + cshar + csl + '-' + n);
// Nil UUID (Section 4.1.7 of RFC 4122)
case 'NIL' :
return '00000000-0000-0000-0000-000000000000';
}
return null;
}
//
// Returns XMLHttpRequest object.
//
var ORG_APACHE_CXF_XMLHTTPREQUEST_MS_PROGIDS = new Array(
"Msxml2.XMLHTTP.7.0",
"Msxml2.XMLHTTP.6.0",
"Msxml2.XMLHTTP.5.0",
"Msxml2.XMLHTTP.4.0",
"MSXML2.XMLHTTP.3.0",
"MSXML2.XMLHTTP",
"Microsoft.XMLHTTP"
);
function org_apache_cxf_getXMLHttpRequest()
{
var httpRequest = null;
// Create the appropriate HttpRequest object for the browser.
try {
httpRequest = new XMLHttpRequest();
return httpRequest;
} catch(ex) {
}
if (window.ActiveXObject != null) {
// Must be IE, find the right ActiveXObject.
var success = false;
//
// Define a list of Microsoft XML HTTP ProgIDs.
//
for (var i = 0;
i < ORG_APACHE_CXF_XMLHTTPREQUEST_MS_PROGIDS.length && !success;
i++)
{
try
{
httpRequest = new ActiveXObject(ORG_APACHE_CXF_XMLHTTPREQUEST_MS_PROGIDS[i]);
success = true;
}
catch (ex)
{
// no reason to log unless we come up empty.
}
}
if(!success) {
this.utils.trace("Unable to get any Microsoft XML HttpRequest object.");
throw "org_apache_cxf no Microsoft XMLHttpRequest";
}
}
// Return it.
return httpRequest;
}
CxfApacheOrgClient.prototype.getXMLHttpRequest = org_apache_cxf_getXMLHttpRequest;
var ORG_APACHE_CXF_MTOM_REQUEST_HEADER = 'Content-Type: application/xop+xml; type="text/xml"; charset=utf-8\r\n';
// Caller must avoid stupid mistakes like 'GET' with a request body.
// This does not support attempts to cross-script.
// This imposes a relatively straightforward set of HTTP options.
function org_apache_cxf_client_request(url, requestXML, method, sync, headers)
{
this.utils.trace("request " + url);
this.url = url;
this.sync = sync;
this.req = null;
if (method) {
this.method = method;
} else {
if (requestXML)
this.method = "POST";
else
this.method = "GET";
}
try {
this.req = this.getXMLHttpRequest();
} catch (err) {
this.utils.trace("Error creating XMLHttpRequest: " + err);
this.req = null;
}
if (this.req == null) {
this.utils.trace("Unable to create request object.");
throw "ORG_APACHE_CXF_NO_REQUEST_OBJECT";
}
this.utils.trace("about to open " + this.method + " " + this.url);
this.req.open(this.method, this.url, !this.sync);
var mimeBoundary;
// we can't do binary MTOM, but we can do 'text/plain' !
if (this.mtomparts.length > 0) {
var uuid = org_apache_cxf_make_uuid('v4');
mimeBoundary = '@_bOuNDaRy_' + uuid;
var ctHeader = 'multipart/related; start-info="text/xml"; type="application/xop+xml"; boundary="'
+ mimeBoundary + '"';
this.req.setRequestHeader("Content-Type", ctHeader);
} else {
// for now, assume SOAP 1.1. 1.2 calls for application/xml.
// also assume we're talking Unicode here.
this.req.setRequestHeader("Content-Type", "text/xml;charset=utf-8");
}
if (headers) { // must be array indexed by header field.
// avoid extra properties on the headers.
for (var h in headers) {
if(headers.hasOwnProperty(h)) {
this.req.setRequestHeader(h, headers[h]);
}
}
}
this.req.setRequestHeader("SOAPAction", this.soapAction);
this.req.setRequestHeader("MessageType", this.messageType);
var requester = this; /* setup a closure */
this.req.onreadystatechange = function() {
requester.onReadyState();
}
// NOTE: we do not call the onerror callback for a synchronous error
// at request time. We let the request object throw as it will.
// onError will only be called for asynchronous errors.
this.utils.trace("about to send data" + this.method + " " + this.url);
var dataToSend;
if (this.mtomparts.length == 0) {
dataToSend = requestXML;
} else {
dataToSend = "--" + mimeBoundary + "\r\n";
dataToSend = dataToSend + ORG_APACHE_CXF_MTOM_REQUEST_HEADER + "\r\n";
dataToSend = dataToSend + requestXML;
for (var bx in this.mtomparts) {
var part = this.mtomparts[bx];
dataToSend += "\r\n\r\n--" + mimeBoundary + "\r\n";
dataToSend += part;
}
dataToSend += "--" + mimeBoundary + "--\r\n";
}
this.req.send(dataToSend);
}
CxfApacheOrgClient.prototype.request = org_apache_cxf_client_request;
function org_apache_cxf_trim_string(str) {
return str.replace(/^\s+|\s+$/g, '');
}
// this gets an array of a=b strings, and produces a dictionary of x[a]=b;
function org_apache_cxf_parse_mime_keyword_value_pairs(strings) {
var result = [];
for (var x = 1;x < strings.length; x = x + 1) {
var str = strings[x];
var valequal = str.indexOf("=");
if (valequal != -1) {
var k = str.substr(0, valequal);
var v = str.substr(valequal + 1);
v = org_apache_cxf_trim_string(v);
if (v.charAt(0) == '"') {
v = v.substr(1, v.length - 2);
}
if (v.charAt(0) == "'") {
v = v.substr(1, v.length - 2);
}
result[org_apache_cxf_trim_string(k.toLowerCase())] = v;
}
}
return result;
}
function org_apache_cxf_regexp_escape(text) {
if (!arguments.callee.sRE) {
var specials = ['/', '.', '*', '+', '?', '|', '(', ')', '[', ']', '{',
'}', '\\'];
arguments.callee.sRE = new RegExp('(\\' + specials.join('|\\') + ')',
'g');
}
return text.replace(arguments.callee.sRE, '\\$1');
}
// Called when we don't have response XML.
// returns true if we have multipart-related, false if we don't or can't parse
// it.
function org_apache_cxf_parse_multipart_related() {
var contentType = this.req.getResponseHeader("content-type");
if (!contentType)
return false; // not bloody likely.
var ctPart = contentType.split(/\s*;\s*/);
var ctMain = ctPart[0].toLowerCase();
if (ctMain != "multipart/related")
return false;
// now we have keyword-value pairs.
var params = org_apache_cxf_parse_mime_keyword_value_pairs(ctPart);
// there is a lot of noise we don't care about. all we really want is the
// boundary.
var boundary = params['boundary'];
if (!boundary)
return false;
boundary = "--" + boundary; // the annoying 'extra-dash' convention.
// var boundarySplitter = org_apache_cxf_regexp_escape(boundary);
var text = this.req.responseText;
// we are willing to use a lot of memory here.
var parts = text.split(boundary);
// now we have the parts.
// now we have to pull headers off the parts.
this.parts = [];
// the first one is noise due to the initial boundary. The last will just be
// -- due to MIME.
for (var px = 1;px < parts.length - 1; px++) {
var seenOneHeader = false;
var x = 0; // misc index.
var parttext = parts[px];
var headers = [];
nextHeaderLine : for (var endX = parttext.indexOf('\r', x);endX != -1; x = endX
+ 1, endX = parttext.indexOf('\r', x)) {
var headerLine = parttext.slice(x, endX);
if (headerLine == "") {
if (parttext.charAt(endX + 1) == '\n')
endX++;
if (seenOneHeader) {
break nextHeaderLine;
} else {
continue nextHeaderLine;
}
}
seenOneHeader = true;
var colonIndex = headerLine.indexOf(":");
var headerName = headerLine.slice(0, colonIndex).toLowerCase();
var headerValue = headerLine.substr(colonIndex+1);
headers[headerName] = org_apache_cxf_trim_string(headerValue);
if (parttext.charAt(endX + 1) == '\n')
endX++;
}
// Now, see about the mime type (if any) and the ID.
var thispart = new Object(); // a constructor seems excessive.
// at exit, x indicates the start of the blank line.
if (parttext.charAt(x + 1) == '\n')
x = x + 1;
thispart.data = parttext.substr(x);
thispart.contentType = headers['content-type'];
if (px > 1) {
var cid = headers['content-id'];
// take of < and >
cid = cid.substr(1, cid.length - 2);
thispart.cid = cid;
this.parts[cid] = thispart;
} else {
// the first part.
var doc;
if (window.ActiveXObject) {
doc = new ActiveXObject("Microsoft.XMLDOM");
doc.async = "false";
doc.loadXML(thispart.data);
} else {
var parser = new DOMParser();
doc = parser.parseFromString(thispart.data, "text/xml");
}
this.mpResponseXML = doc;
}
}
return true;
}
CxfApacheOrgClient.prototype.parseMultipartRelated = org_apache_cxf_parse_multipart_related;
function org_apache_cxf_client_onReadyState() {
var req = this.req;
var ready = req.readyState;
this.utils.trace("onreadystatechange " + ready);
if (ready == this.READY_STATE_DONE) {
var httpStatus;
try {
httpStatus = req.status;
} catch (e) {
// Firefox throws when there was an error here.
this.utils
.trace("onreadystatechange DONE ERROR retrieving status (connection error?)");
if (this.onerror != null) {
this.onerror(e);
}
return;
}
this.utils.trace("onreadystatechange DONE " + httpStatus);
if (httpStatus == 200 || httpStatus == 0) {
if (this.onsuccess != null) {
// the onSuccess function is generated, and picks apart the
// response.
if (!req.responseXML) {
if (this.parseMultipartRelated()) {
this.onsuccess(this, this.mpResponseXML);
return;
}
if (this.onerror != null) {
this.onerror("Could not handle content of response.");
return;
}
}
this.onsuccess(this, req.responseXML);
}
} else {
this.utils.trace("onreadystatechange DONE ERROR "
+ req.getAllResponseHeaders() + " " + req.statusText + " "
+ req.responseText);
if (this.onerror != null)
this.onerror(this);
}
}
}
CxfApacheOrgClient.prototype.onReadyState = org_apache_cxf_client_onReadyState;
function org_apache_cxf_package_mtom(value) {
var uuid = org_apache_cxf_make_uuid('v4');
var placeholder = '';
var mtomObject = 'Content-Type: text/plain; charset="utf-8";\r\nContent-ID: <'
+ uuid + '>\r\n\r\n' + value + '\r\n';
this.client.mtomparts.push(mtomObject);
return placeholder;
}
CxfApacheOrgUtil.prototype.packageMtom = org_apache_cxf_package_mtom;
// Holder object used for xs:any
// The namespaceURI and localName identify the global element from the schema.
// The object to go with it goes into object.
// If the Any is an array, put the array into the object slot.
function org_apache_cxf_any_holder(namespaceURI, localName, object) {
this.typeMarker = "org_apache_cxf_any_holder";
this.namespaceURI = namespaceURI;
this.localName = localName;
this.qname = "{" + namespaceURI + "}" + localName;
this.object = object;
this.raw = false;
}
// the following will simply dump the supplied XML into the message.
function org_apache_cxf_raw_any_holder(xml) {
this.typeMarker = "org_apache_cxf_raw_any_holder";
this.xml = xml;
this.raw = true;
this.xsiType = false;
}
// The following will get an xsi:type attribute in addition to dumping the XML
// into
// the message.
function org_apache_cxf_raw_typed_any_holder(namespaceURI, localName, xml) {
this.typeMarker = "org_apache_cxf_raw_any_holder";
this.namespaceURI = namespaceURI;
this.localName = localName;
this.xml = xml;
this.raw = true;
this.xsiType = true;
}
function org_apache_cxf_get_xsi_type(elementNode) {
var attributes = elementNode.attributes;
if ((attributes != null) && (attributes.length > 0)) {
for (var x = 0;x < attributes.length; x++) {
var attributeNodeName = attributes.item(x).nodeName;
var attributeNamespacePrefix = org_apache_cxf_getPrefix(attributes
.item(x).nodeName);
var attributeNamespaceSuffix = org_apache_cxf_getLocalName(attributes
.item(x).nodeName);
if (attributeNamespaceSuffix == 'type') {
// perhaps this is ours
var ns = org_apache_cxf_getNamespaceURI(elementNode,
attributeNamespacePrefix);
if (ns == org_apache_cxf_XSI_namespace_uri) {
return attributes.item(x).nodeValue;
}
}
}
return null;
}
}
// Return an object if we can deserialize an object, otherwise return the
// element itself.
function org_apache_cxf_deserialize_anyType(cxfjsutils, element) {
var type = org_apache_cxf_get_xsi_type(element);
if (type != null) {
// type is a :-qualified name.
var namespacePrefix = org_apache_cxf_getPrefix(type);
var localName = org_apache_cxf_getLocalName(type);
var uri = org_apache_cxf_getNamespaceURI(element, namespacePrefix);
if (uri == org_apache_cxf_XSD_namespace_uri) {
// we expect a Text node below
var textNode = element.firstChild;
if (textNode == null)
return null;
var text = textNode.nodeValue;
if (text == null)
return null;
// For any of the basic types, assume that the nodeValue is what the
// doctor ordered,
// converted to the appropriate type.
// For some of the more interesting types this needs more work.
if (localName == "int" || localName == "unsignedInt"
|| localName == "long" || localName == "unsignedLong") {
return parseInt(text);
}
if (localName == "float" || localName == "double")
return parseFloat(text);
if (localName == "boolean")
return text == 'true';
return text;
}
var qname = "{" + uri + "}" + localName;
var deserializer = cxfjsutils.interfaceObject.globalElementDeserializers[qname];
if (deserializer != null) {
return deserializer(cxfjsutils, element);
}
}
return element;
}