'use strict'; let createEnvelope = require('./create-envelope'); class BodyStructure { constructor(tree, options) { this.tree = tree; this.options = options || {}; this.currentPath = ''; this.bodyStructure = this.createBodystructure(this.tree, this.options); } create() { return this.bodyStructure; } /** * Generates an object out of parsed mime tree, that can be * serialized into a BODYSTRUCTURE string * * @param {Object} tree Parsed mime tree (see mimeparser.js for input) * @param {Object} [options] Optional options object * @param {Boolean} [options.contentLanguageString] If true, convert single element array to string for Content-Language * @param {Boolean} [options.upperCaseKeys] If true, use only upper case key names * @param {Boolean} [options.skipContentLocation] If true, do not include Content-Location in the output * @param {Boolean} [options.body] If true, skip extension fields (needed for BODY) * @param {Object} Object structure in the form of BODYSTRUCTURE */ createBodystructure(tree, options) { options = options || {}; let walker = node => { switch ((node.parsedHeader['content-type'] || {}).type) { case 'multipart': return this.processMultipartNode(node, options); case 'text': return this.processTextNode(node, options); case 'message': if (!options.attachmentRFC822) { return this.processRFC822Node(node, options); } return this.processAttachmentNode(node, options); default: return this.processAttachmentNode(node, options); } }; return walker(tree); } /** * Generates a list of basic fields any non-multipart part should have * * @param {Object} node A tree node of the parsed mime tree * @param {Object} [options] Optional options object (see createBodystructure for details) * @return {Array} A list of basic fields */ getBasicFields(node, options) { let bodyType = node.parsedHeader['content-type'] && node.parsedHeader['content-type'].type || null; let bodySubtype = node.parsedHeader['content-type'] && node.parsedHeader['content-type'].subtype || null; let contentTransfer = node.parsedHeader['content-transfer-encoding'] || '7bit'; return [ // body type options.upperCaseKeys ? bodyType && bodyType.toUpperCase() || null : bodyType, // body subtype options.upperCaseKeys ? bodySubtype && bodySubtype.toUpperCase() || null : bodySubtype, // body parameter parenthesized list node.parsedHeader['content-type'] && node.parsedHeader['content-type'].hasParams && this.flatten(Object.keys(node.parsedHeader['content-type'].params).map(key => [ options.upperCaseKeys ? key.toUpperCase() : key, node.parsedHeader['content-type'].params[key] ])) || null, // body id node.parsedHeader['content-id'] || null, // body description node.parsedHeader['content-description'] || null, // body encoding options.upperCaseKeys ? contentTransfer && contentTransfer.toUpperCase() || '7bit' : contentTransfer, // body size node.size ]; } /** * Generates a list of extension fields any non-multipart part should have * * @param {Object} node A tree node of the parsed mime tree * @param {Object} [options] Optional options object (see createBodystructure for details) * @return {Array} A list of extension fields */ getExtensionFields(node, options) { options = options || {}; let languageString = node.parsedHeader['content-language'] && node.parsedHeader['content-language'].replace(/[ ,]+/g, ',').replace(/^,+|,+$/g, ''); let language = languageString && languageString.split(',') || null; let data; // if `contentLanguageString` is true, then use a string instead of single element array if (language && language.length === 1 && options.contentLanguageString) { language = language[0]; } data = [ // body MD5 node.parsedHeader['content-md5'] || null, // body disposition node.parsedHeader['content-disposition'] && [ options.upperCaseKeys ? node.parsedHeader['content-disposition'].value.toUpperCase() : node.parsedHeader['content-disposition'].value, node.parsedHeader['content-disposition'].params && node.parsedHeader['content-disposition'].hasParams && this.flatten(Object.keys(node.parsedHeader['content-disposition'].params).map(key => [ options.upperCaseKeys ? key.toUpperCase() : key, node.parsedHeader['content-disposition'].params[key] ])) || null ] || null, // body language language ]; // if `skipContentLocation` is true, do not include Content-Location in output // // NB! RFC3501 has an errata with content-location type, it is described as // 'A string list' (eg. an array) in RFC but the errata page states // that it is a string (http://www.rfc-editor.org/errata_search.php?rfc=3501) // see note for 'Section 7.4.2, page 75' if (!options.skipContentLocation) { // body location data.push(node.parsedHeader['content-location'] || null); } return data; } /** * Processes a node with content-type=multipart/* * * @param {Object} node A tree node of the parsed mime tree * @param {Object} [options] Optional options object (see createBodystructure for details) * @return {Array} BODYSTRUCTURE for a multipart part */ processMultipartNode(node, options) { options = options || {}; let data = (node.childNodes && node.childNodes.map(tree => this.createBodystructure(tree, options)) || [ [] ]). concat([ // body subtype options.upperCaseKeys ? node.multipart && node.multipart.toUpperCase() || null : node.multipart, // body parameter parenthesized list node.parsedHeader['content-type'] && node.parsedHeader['content-type'].hasParams && this.flatten(Object.keys(node.parsedHeader['content-type'].params).map(key => [ options.upperCaseKeys ? key.toUpperCase() : key, node.parsedHeader['content-type'].params[key] ])) || null ]); if (options.body) { return data; } else { return data. // skip body MD5 from extension fields concat(this.getExtensionFields(node, options).slice(1)); } } /** * Processes a node with content-type=text/* * * @param {Object} node A tree node of the parsed mime tree * @param {Object} [options] Optional options object (see createBodystructure for details) * @return {Array} BODYSTRUCTURE for a text part */ processTextNode(node, options) { options = options || {}; let data = [].concat(this.getBasicFields(node, options)).concat([ node.lineCount ]); if (!options.body) { data = data.concat(this.getExtensionFields(node, options)); } return data; } /** * Processes a non-text, non-multipart node * * @param {Object} node A tree node of the parsed mime tree * @param {Object} [options] Optional options object (see createBodystructure for details) * @return {Array} BODYSTRUCTURE for the part */ processAttachmentNode(node, options) { options = options || {}; let data = [].concat(this.getBasicFields(node, options)); if (!options.body) { data = data.concat(this.getExtensionFields(node, options)); } return data; } /** * Processes a node with content-type=message/rfc822 * * @param {Object} node A tree node of the parsed mime tree * @param {Object} [options] Optional options object (see createBodystructure for details) * @return {Array} BODYSTRUCTURE for a text part */ processRFC822Node(node, options) { options = options || {}; let data = [].concat(this.getBasicFields(node, options)); data.push(createEnvelope(node.message.parsedHeader)); data.push(this.createBodystructure(node.message, options)); data = data.concat( node.lineCount ). concat(this.getExtensionFields(node, options)); return data; } /** * Converts all sub-arrays into one level array * flatten([1,[2,3]]) -> [1,2,3] * * @param {Array} arr An array with possible sub-arrays * @return {Array} Flat array */ flatten(arr) { let result = []; if (Array.isArray(arr)) { arr.forEach(elm => { if (Array.isArray(elm)) { result = result.concat(this.flatten(elm)); } else { result.push(elm); } }); } else { result.push(arr); } return result; } } // Expose to the world module.exports = BodyStructure;