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authorDaniel Baumann <daniel.baumann@progress-linux.org>2024-05-06 01:22:31 +0000
committerDaniel Baumann <daniel.baumann@progress-linux.org>2024-05-06 01:22:31 +0000
commit8d4f58e49b9dc7d3545651023a36729de773ad86 (patch)
tree7bc7be4a8e9e298daa1349348400aa2a653866f2 /collectors/node.d.plugin/node_modules/pixl-xml.js
parentInitial commit. (diff)
downloadnetdata-8d4f58e49b9dc7d3545651023a36729de773ad86.tar.xz
netdata-8d4f58e49b9dc7d3545651023a36729de773ad86.zip
Adding upstream version 1.12.0.upstream/1.12.0upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'collectors/node.d.plugin/node_modules/pixl-xml.js')
-rw-r--r--collectors/node.d.plugin/node_modules/pixl-xml.js607
1 files changed, 607 insertions, 0 deletions
diff --git a/collectors/node.d.plugin/node_modules/pixl-xml.js b/collectors/node.d.plugin/node_modules/pixl-xml.js
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+++ b/collectors/node.d.plugin/node_modules/pixl-xml.js
@@ -0,0 +1,607 @@
+// SPDX-License-Identifier: MIT
+/*
+ JavaScript XML Library
+ Plus a bunch of object utility functions
+
+ Usage:
+ var XML = require('pixl-xml');
+ var myxmlstring = '<?xml version="1.0"?><Document>' +
+ '<Simple>Hello</Simple>' +
+ '<Node Key="Value">Content</Node>' +
+ '</Document>';
+
+ var tree = XML.parse( myxmlstring, { preserveAttributes: true });
+ console.log( tree );
+
+ tree.Simple = "Hello2";
+ tree.Node._Attribs.Key = "Value2";
+ tree.Node._Data = "Content2";
+ tree.New = "I added this";
+
+ console.log( XML.stringify( tree, 'Document' ) );
+
+ Copyright (c) 2004 - 2015 Joseph Huckaby
+ Released under the MIT License
+ This version is for Node.JS, converted in 2012.
+*/
+
+var fs = require('fs');
+
+var indent_string = "\t";
+var xml_header = '<?xml version="1.0"?>';
+var sort_args = null;
+var re_valid_tag_name = /^\w[\w\-\:]*$/;
+
+var XML = exports.XML = function XML(args) {
+ // class constructor for XML parser class
+ // pass in args hash or text to parse
+ if (!args) args = '';
+ if (isa_hash(args)) {
+ for (var key in args) this[key] = args[key];
+ }
+ else this.text = args || '';
+
+ // stringify buffers
+ if (this.text instanceof Buffer) {
+ this.text = this.text.toString();
+ }
+
+ if (!this.text.match(/^\s*</)) {
+ // try as file path
+ var file = this.text;
+ this.text = fs.readFileSync(file, { encoding: 'utf8' });
+ if (!this.text) throw new Error("File not found: " + file);
+ }
+
+ this.tree = {};
+ this.errors = [];
+ this.piNodeList = [];
+ this.dtdNodeList = [];
+ this.documentNodeName = '';
+
+ if (this.lowerCase) {
+ this.attribsKey = this.attribsKey.toLowerCase();
+ this.dataKey = this.dataKey.toLowerCase();
+ }
+
+ this.patTag.lastIndex = 0;
+ if (this.text) this.parse();
+}
+
+XML.prototype.preserveAttributes = false;
+XML.prototype.lowerCase = false;
+
+XML.prototype.patTag = /([^<]*?)<([^>]+)>/g;
+XML.prototype.patSpecialTag = /^\s*([\!\?])/;
+XML.prototype.patPITag = /^\s*\?/;
+XML.prototype.patCommentTag = /^\s*\!--/;
+XML.prototype.patDTDTag = /^\s*\!DOCTYPE/;
+XML.prototype.patCDATATag = /^\s*\!\s*\[\s*CDATA/;
+XML.prototype.patStandardTag = /^\s*(\/?)([\w\-\:\.]+)\s*(.*)$/;
+XML.prototype.patSelfClosing = /\/\s*$/;
+XML.prototype.patAttrib = new RegExp("([\\w\\-\\:\\.]+)\\s*=\\s*([\\\"\\'])([^\\2]*?)\\2", "g");
+XML.prototype.patPINode = /^\s*\?\s*([\w\-\:]+)\s*(.*)$/;
+XML.prototype.patEndComment = /--$/;
+XML.prototype.patNextClose = /([^>]*?)>/g;
+XML.prototype.patExternalDTDNode = new RegExp("^\\s*\\!DOCTYPE\\s+([\\w\\-\\:]+)\\s+(SYSTEM|PUBLIC)\\s+\\\"([^\\\"]+)\\\"");
+XML.prototype.patInlineDTDNode = /^\s*\!DOCTYPE\s+([\w\-\:]+)\s+\[/;
+XML.prototype.patEndDTD = /\]$/;
+XML.prototype.patDTDNode = /^\s*\!DOCTYPE\s+([\w\-\:]+)\s+\[(.*)\]/;
+XML.prototype.patEndCDATA = /\]\]$/;
+XML.prototype.patCDATANode = /^\s*\!\s*\[\s*CDATA\s*\[([^]*)\]\]/;
+
+XML.prototype.attribsKey = '_Attribs';
+XML.prototype.dataKey = '_Data';
+
+XML.prototype.parse = function(branch, name) {
+ // parse text into XML tree, recurse for nested nodes
+ if (!branch) branch = this.tree;
+ if (!name) name = null;
+ var foundClosing = false;
+ var matches = null;
+
+ // match each tag, plus preceding text
+ while ( matches = this.patTag.exec(this.text) ) {
+ var before = matches[1];
+ var tag = matches[2];
+
+ // text leading up to tag = content of parent node
+ if (before.match(/\S/)) {
+ if (typeof(branch[this.dataKey]) != 'undefined') branch[this.dataKey] += ' '; else branch[this.dataKey] = '';
+ branch[this.dataKey] += trim(decode_entities(before));
+ }
+
+ // parse based on tag type
+ if (tag.match(this.patSpecialTag)) {
+ // special tag
+ if (tag.match(this.patPITag)) tag = this.parsePINode(tag);
+ else if (tag.match(this.patCommentTag)) tag = this.parseCommentNode(tag);
+ else if (tag.match(this.patDTDTag)) tag = this.parseDTDNode(tag);
+ else if (tag.match(this.patCDATATag)) {
+ tag = this.parseCDATANode(tag);
+ if (typeof(branch[this.dataKey]) != 'undefined') branch[this.dataKey] += ' '; else branch[this.dataKey] = '';
+ branch[this.dataKey] += trim(decode_entities(tag));
+ } // cdata
+ else {
+ this.throwParseError( "Malformed special tag", tag );
+ break;
+ } // error
+
+ if (tag == null) break;
+ continue;
+ } // special tag
+ else {
+ // Tag is standard, so parse name and attributes (if any)
+ var matches = tag.match(this.patStandardTag);
+ if (!matches) {
+ this.throwParseError( "Malformed tag", tag );
+ break;
+ }
+
+ var closing = matches[1];
+ var nodeName = this.lowerCase ? matches[2].toLowerCase() : matches[2];
+ var attribsRaw = matches[3];
+
+ // If this is a closing tag, make sure it matches its opening tag
+ if (closing) {
+ if (nodeName == (name || '')) {
+ foundClosing = 1;
+ break;
+ }
+ else {
+ this.throwParseError( "Mismatched closing tag (expected </" + name + ">)", tag );
+ break;
+ }
+ } // closing tag
+ else {
+ // Not a closing tag, so parse attributes into hash. If tag
+ // is self-closing, no recursive parsing is needed.
+ var selfClosing = !!attribsRaw.match(this.patSelfClosing);
+ var leaf = {};
+ var attribs = leaf;
+
+ // preserve attributes means they go into a sub-hash named "_Attribs"
+ // the XML composer honors this for restoring the tree back into XML
+ if (this.preserveAttributes) {
+ leaf[this.attribsKey] = {};
+ attribs = leaf[this.attribsKey];
+ }
+
+ // parse attributes
+ this.patAttrib.lastIndex = 0;
+ while ( matches = this.patAttrib.exec(attribsRaw) ) {
+ var key = this.lowerCase ? matches[1].toLowerCase() : matches[1];
+ attribs[ key ] = decode_entities( matches[3] );
+ } // foreach attrib
+
+ // if no attribs found, but we created the _Attribs subhash, clean it up now
+ if (this.preserveAttributes && !num_keys(attribs)) {
+ delete leaf[this.attribsKey];
+ }
+
+ // Recurse for nested nodes
+ if (!selfClosing) {
+ this.parse( leaf, nodeName );
+ if (this.error()) break;
+ }
+
+ // Compress into simple node if text only
+ var num_leaf_keys = num_keys(leaf);
+ if ((typeof(leaf[this.dataKey]) != 'undefined') && (num_leaf_keys == 1)) {
+ leaf = leaf[this.dataKey];
+ }
+ else if (!num_leaf_keys) {
+ leaf = '';
+ }
+
+ // Add leaf to parent branch
+ if (typeof(branch[nodeName]) != 'undefined') {
+ if (isa_array(branch[nodeName])) {
+ branch[nodeName].push( leaf );
+ }
+ else {
+ var temp = branch[nodeName];
+ branch[nodeName] = [ temp, leaf ];
+ }
+ }
+ else {
+ branch[nodeName] = leaf;
+ }
+
+ if (this.error() || (branch == this.tree)) break;
+ } // not closing
+ } // standard tag
+ } // main reg exp
+
+ // Make sure we found the closing tag
+ if (name && !foundClosing) {
+ this.throwParseError( "Missing closing tag (expected </" + name + ">)", name );
+ }
+
+ // If we are the master node, finish parsing and setup our doc node
+ if (branch == this.tree) {
+ if (typeof(this.tree[this.dataKey]) != 'undefined') delete this.tree[this.dataKey];
+
+ if (num_keys(this.tree) > 1) {
+ this.throwParseError( 'Only one top-level node is allowed in document', first_key(this.tree) );
+ return;
+ }
+
+ this.documentNodeName = first_key(this.tree);
+ if (this.documentNodeName) {
+ this.tree = this.tree[this.documentNodeName];
+ }
+ }
+};
+
+XML.prototype.throwParseError = function(key, tag) {
+ // log error and locate current line number in source XML document
+ var parsedSource = this.text.substring(0, this.patTag.lastIndex);
+ var eolMatch = parsedSource.match(/\n/g);
+ var lineNum = (eolMatch ? eolMatch.length : 0) + 1;
+ lineNum -= tag.match(/\n/) ? tag.match(/\n/g).length : 0;
+
+ this.errors.push({
+ type: 'Parse',
+ key: key,
+ text: '<' + tag + '>',
+ line: lineNum
+ });
+
+ // Throw actual error (must wrap parse in try/catch)
+ throw new Error( this.getLastError() );
+};
+
+XML.prototype.error = function() {
+ // return number of errors
+ return this.errors.length;
+};
+
+XML.prototype.getError = function(error) {
+ // get formatted error
+ var text = '';
+ if (!error) return '';
+
+ text = (error.type || 'General') + ' Error';
+ if (error.code) text += ' ' + error.code;
+ text += ': ' + error.key;
+
+ if (error.line) text += ' on line ' + error.line;
+ if (error.text) text += ': ' + error.text;
+
+ return text;
+};
+
+XML.prototype.getLastError = function() {
+ // Get most recently thrown error in plain text format
+ if (!this.error()) return '';
+ return this.getError( this.errors[this.errors.length - 1] );
+};
+
+XML.prototype.parsePINode = function(tag) {
+ // Parse Processor Instruction Node, e.g. <?xml version="1.0"?>
+ if (!tag.match(this.patPINode)) {
+ this.throwParseError( "Malformed processor instruction", tag );
+ return null;
+ }
+
+ this.piNodeList.push( tag );
+ return tag;
+};
+
+XML.prototype.parseCommentNode = function(tag) {
+ // Parse Comment Node, e.g. <!-- hello -->
+ var matches = null;
+ this.patNextClose.lastIndex = this.patTag.lastIndex;
+
+ while (!tag.match(this.patEndComment)) {
+ if (matches = this.patNextClose.exec(this.text)) {
+ tag += '>' + matches[1];
+ }
+ else {
+ this.throwParseError( "Unclosed comment tag", tag );
+ return null;
+ }
+ }
+
+ this.patTag.lastIndex = this.patNextClose.lastIndex;
+ return tag;
+};
+
+XML.prototype.parseDTDNode = function(tag) {
+ // Parse Document Type Descriptor Node, e.g. <!DOCTYPE ... >
+ var matches = null;
+
+ if (tag.match(this.patExternalDTDNode)) {
+ // tag is external, and thus self-closing
+ this.dtdNodeList.push( tag );
+ }
+ else if (tag.match(this.patInlineDTDNode)) {
+ // Tag is inline, so check for nested nodes.
+ this.patNextClose.lastIndex = this.patTag.lastIndex;
+
+ while (!tag.match(this.patEndDTD)) {
+ if (matches = this.patNextClose.exec(this.text)) {
+ tag += '>' + matches[1];
+ }
+ else {
+ this.throwParseError( "Unclosed DTD tag", tag );
+ return null;
+ }
+ }
+
+ this.patTag.lastIndex = this.patNextClose.lastIndex;
+
+ // Make sure complete tag is well-formed, and push onto DTD stack.
+ if (tag.match(this.patDTDNode)) {
+ this.dtdNodeList.push( tag );
+ }
+ else {
+ this.throwParseError( "Malformed DTD tag", tag );
+ return null;
+ }
+ }
+ else {
+ this.throwParseError( "Malformed DTD tag", tag );
+ return null;
+ }
+
+ return tag;
+};
+
+XML.prototype.parseCDATANode = function(tag) {
+ // Parse CDATA Node, e.g. <![CDATA[Brooks & Shields]]>
+ var matches = null;
+ this.patNextClose.lastIndex = this.patTag.lastIndex;
+
+ while (!tag.match(this.patEndCDATA)) {
+ if (matches = this.patNextClose.exec(this.text)) {
+ tag += '>' + matches[1];
+ }
+ else {
+ this.throwParseError( "Unclosed CDATA tag", tag );
+ return null;
+ }
+ }
+
+ this.patTag.lastIndex = this.patNextClose.lastIndex;
+
+ if (matches = tag.match(this.patCDATANode)) {
+ return matches[1];
+ }
+ else {
+ this.throwParseError( "Malformed CDATA tag", tag );
+ return null;
+ }
+};
+
+XML.prototype.getTree = function() {
+ // get reference to parsed XML tree
+ return this.tree;
+};
+
+XML.prototype.compose = function() {
+ // compose tree back into XML
+ var raw = compose_xml( this.tree, this.documentNodeName );
+ var body = raw.substring( raw.indexOf("\n") + 1, raw.length );
+ var xml = '';
+
+ if (this.piNodeList.length) {
+ for (var idx = 0, len = this.piNodeList.length; idx < len; idx++) {
+ xml += '<' + this.piNodeList[idx] + '>' + "\n";
+ }
+ }
+ else {
+ xml += xml_header + "\n";
+ }
+
+ if (this.dtdNodeList.length) {
+ for (var idx = 0, len = this.dtdNodeList.length; idx < len; idx++) {
+ xml += '<' + this.dtdNodeList[idx] + '>' + "\n";
+ }
+ }
+
+ xml += body;
+ return xml;
+};
+
+//
+// Static Utility Functions:
+//
+
+var parse_xml = exports.parse = function parse_xml(text, opts) {
+ // turn text into XML tree quickly
+ if (!opts) opts = {};
+ opts.text = text;
+ var parser = new XML(opts);
+ return parser.error() ? parser.getLastError() : parser.getTree();
+};
+
+var trim = exports.trim = function trim(text) {
+ // strip whitespace from beginning and end of string
+ if (text == null) return '';
+
+ if (text && text.replace) {
+ text = text.replace(/^\s+/, "");
+ text = text.replace(/\s+$/, "");
+ }
+
+ return text;
+};
+
+var encode_entities = exports.encodeEntities = function encode_entities(text) {
+ // Simple entitize exports.for = function for composing XML
+ if (text == null) return '';
+
+ if (text && text.replace) {
+ text = text.replace(/\&/g, "&amp;"); // MUST BE FIRST
+ text = text.replace(/</g, "&lt;");
+ text = text.replace(/>/g, "&gt;");
+ }
+
+ return text;
+};
+
+var encode_attrib_entities = exports.encodeAttribEntities = function encode_attrib_entities(text) {
+ // Simple entitize exports.for = function for composing XML attributes
+ if (text == null) return '';
+
+ if (text && text.replace) {
+ text = text.replace(/\&/g, "&amp;"); // MUST BE FIRST
+ text = text.replace(/</g, "&lt;");
+ text = text.replace(/>/g, "&gt;");
+ text = text.replace(/\"/g, "&quot;");
+ text = text.replace(/\'/g, "&apos;");
+ }
+
+ return text;
+};
+
+var decode_entities = exports.decodeEntities = function decode_entities(text) {
+ // Decode XML entities into raw ASCII
+ if (text == null) return '';
+
+ if (text && text.replace && text.match(/\&/)) {
+ text = text.replace(/\&lt\;/g, "<");
+ text = text.replace(/\&gt\;/g, ">");
+ text = text.replace(/\&quot\;/g, '"');
+ text = text.replace(/\&apos\;/g, "'");
+ text = text.replace(/\&amp\;/g, "&"); // MUST BE LAST
+ }
+
+ return text;
+};
+
+var compose_xml = exports.stringify = function compose_xml(node, name, indent) {
+ // Compose node into XML including attributes
+ // Recurse for child nodes
+ var xml = "";
+
+ // If this is the root node, set the indent to 0
+ // and setup the XML header (PI node)
+ if (!indent) {
+ indent = 0;
+ xml = xml_header + "\n";
+
+ if (!name) {
+ // no name provided, assume content is wrapped in it
+ name = first_key(node);
+ node = node[name];
+ }
+ }
+
+ // Setup the indent text
+ var indent_text = "";
+ for (var k = 0; k < indent; k++) indent_text += indent_string;
+
+ if ((typeof(node) == 'object') && (node != null)) {
+ // node is object -- now see if it is an array or hash
+ if (!node.length) { // what about zero-length array?
+ // node is hash
+ xml += indent_text + "<" + name;
+
+ var num_keys = 0;
+ var has_attribs = 0;
+ for (var key in node) num_keys++; // there must be a better way...
+
+ if (node["_Attribs"]) {
+ has_attribs = 1;
+ var sorted_keys = hash_keys_to_array(node["_Attribs"]).sort();
+ for (var idx = 0, len = sorted_keys.length; idx < len; idx++) {
+ var key = sorted_keys[idx];
+ xml += " " + key + "=\"" + encode_attrib_entities(node["_Attribs"][key]) + "\"";
+ }
+ } // has attribs
+
+ if (num_keys > has_attribs) {
+ // has child elements
+ xml += ">";
+
+ if (node["_Data"]) {
+ // simple text child node
+ xml += encode_entities(node["_Data"]) + "</" + name + ">\n";
+ } // just text
+ else {
+ xml += "\n";
+
+ var sorted_keys = hash_keys_to_array(node).sort();
+ for (var idx = 0, len = sorted_keys.length; idx < len; idx++) {
+ var key = sorted_keys[idx];
+ if ((key != "_Attribs") && key.match(re_valid_tag_name)) {
+ // recurse for node, with incremented indent value
+ xml += compose_xml( node[key], key, indent + 1 );
+ } // not _Attribs key
+ } // foreach key
+
+ xml += indent_text + "</" + name + ">\n";
+ } // real children
+ }
+ else {
+ // no child elements, so self-close
+ xml += "/>\n";
+ }
+ } // standard node
+ else {
+ // node is array
+ for (var idx = 0; idx < node.length; idx++) {
+ // recurse for node in array with same indent
+ xml += compose_xml( node[idx], name, indent );
+ }
+ } // array of nodes
+ } // complex node
+ else {
+ // node is simple string
+ xml += indent_text + "<" + name + ">" + encode_entities(node) + "</" + name + ">\n";
+ } // simple text node
+
+ return xml;
+};
+
+var always_array = exports.alwaysArray = function always_array(obj, key) {
+ // if object is not array, return array containing object
+ // if key is passed, work like XMLalwaysarray() instead
+ if (key) {
+ if ((typeof(obj[key]) != 'object') || (typeof(obj[key].length) == 'undefined')) {
+ var temp = obj[key];
+ delete obj[key];
+ obj[key] = new Array();
+ obj[key][0] = temp;
+ }
+ return null;
+ }
+ else {
+ if ((typeof(obj) != 'object') || (typeof(obj.length) == 'undefined')) { return [ obj ]; }
+ else return obj;
+ }
+};
+
+var hash_keys_to_array = exports.hashKeysToArray = function hash_keys_to_array(hash) {
+ // convert hash keys to array (discard values)
+ var array = [];
+ for (var key in hash) array.push(key);
+ return array;
+};
+
+var isa_hash = exports.isaHash = function isa_hash(arg) {
+ // determine if arg is a hash
+ return( !!arg && (typeof(arg) == 'object') && (typeof(arg.length) == 'undefined') );
+};
+
+var isa_array = exports.isaArray = function isa_array(arg) {
+ // determine if arg is an array or is array-like
+ if (typeof(arg) == 'array') return true;
+ return( !!arg && (typeof(arg) == 'object') && (typeof(arg.length) != 'undefined') );
+};
+
+var first_key = exports.firstKey = function first_key(hash) {
+ // return first key from hash (unordered)
+ for (var key in hash) return key;
+ return null; // no keys in hash
+};
+
+var num_keys = exports.numKeys = function num_keys(hash) {
+ // count the number of keys in a hash
+ var count = 0;
+ for (var a in hash) count++;
+ return count;
+};