const { hasOwnProperty } = Object.prototype const encode = (obj, opt = {}) => { if (typeof opt === 'string') { opt = { section: opt } } opt.align = opt.align === true opt.newline = opt.newline === true opt.sort = opt.sort === true opt.whitespace = opt.whitespace === true || opt.align === true // The `typeof` check is required because accessing the `process` directly fails on browsers. /* istanbul ignore next */ opt.platform = opt.platform || (typeof process !== 'undefined' && process.platform) opt.bracketedArray = opt.bracketedArray !== false /* istanbul ignore next */ const eol = opt.platform === 'win32' ? '\r\n' : '\n' const separator = opt.whitespace ? ' = ' : '=' const children = [] const keys = opt.sort ? Object.keys(obj).sort() : Object.keys(obj) let padToChars = 0 // If aligning on the separator, then padToChars is determined as follows: // 1. Get the keys // 2. Exclude keys pointing to objects unless the value is null or an array // 3. Add `[]` to array keys // 4. Ensure non empty set of keys // 5. Reduce the set to the longest `safe` key // 6. Get the `safe` length if (opt.align) { padToChars = safe( ( keys .filter(k => obj[k] === null || Array.isArray(obj[k]) || typeof obj[k] !== 'object') .map(k => Array.isArray(obj[k]) ? `${k}[]` : k) ) .concat(['']) .reduce((a, b) => safe(a).length >= safe(b).length ? a : b) ).length } let out = '' const arraySuffix = opt.bracketedArray ? '[]' : '' for (const k of keys) { const val = obj[k] if (val && Array.isArray(val)) { for (const item of val) { out += safe(`${k}${arraySuffix}`).padEnd(padToChars, ' ') + separator + safe(item) + eol } } else if (val && typeof val === 'object') { children.push(k) } else { out += safe(k).padEnd(padToChars, ' ') + separator + safe(val) + eol } } if (opt.section && out.length) { out = '[' + safe(opt.section) + ']' + (opt.newline ? eol + eol : eol) + out } for (const k of children) { const nk = splitSections(k, '.').join('\\.') const section = (opt.section ? opt.section + '.' : '') + nk const child = encode(obj[k], { ...opt, section, }) if (out.length && child.length) { out += eol } out += child } return out } function splitSections (str, separator) { var lastMatchIndex = 0 var lastSeparatorIndex = 0 var nextIndex = 0 var sections = [] do { nextIndex = str.indexOf(separator, lastMatchIndex) if (nextIndex !== -1) { lastMatchIndex = nextIndex + separator.length if (nextIndex > 0 && str[nextIndex - 1] === '\\') { continue } sections.push(str.slice(lastSeparatorIndex, nextIndex)) lastSeparatorIndex = nextIndex + separator.length } } while (nextIndex !== -1) sections.push(str.slice(lastSeparatorIndex)) return sections } const decode = (str, opt = {}) => { opt.bracketedArray = opt.bracketedArray !== false const out = Object.create(null) let p = out let section = null // section |key = value const re = /^\[([^\]]*)\]\s*$|^([^=]+)(=(.*))?$/i const lines = str.split(/[\r\n]+/g) const duplicates = {} for (const line of lines) { if (!line || line.match(/^\s*[;#]/) || line.match(/^\s*$/)) { continue } const match = line.match(re) if (!match) { continue } if (match[1] !== undefined) { section = unsafe(match[1]) if (section === '__proto__') { // not allowed // keep parsing the section, but don't attach it. p = Object.create(null) continue } p = out[section] = out[section] || Object.create(null) continue } const keyRaw = unsafe(match[2]) let isArray if (opt.bracketedArray) { isArray = keyRaw.length > 2 && keyRaw.slice(-2) === '[]' } else { duplicates[keyRaw] = (duplicates?.[keyRaw] || 0) + 1 isArray = duplicates[keyRaw] > 1 } const key = isArray ? keyRaw.slice(0, -2) : keyRaw if (key === '__proto__') { continue } const valueRaw = match[3] ? unsafe(match[4]) : true const value = valueRaw === 'true' || valueRaw === 'false' || valueRaw === 'null' ? JSON.parse(valueRaw) : valueRaw // Convert keys with '[]' suffix to an array if (isArray) { if (!hasOwnProperty.call(p, key)) { p[key] = [] } else if (!Array.isArray(p[key])) { p[key] = [p[key]] } } // safeguard against resetting a previously defined // array by accidentally forgetting the brackets if (Array.isArray(p[key])) { p[key].push(value) } else { p[key] = value } } // {a:{y:1},"a.b":{x:2}} --> {a:{y:1,b:{x:2}}} // use a filter to return the keys that have to be deleted. const remove = [] for (const k of Object.keys(out)) { if (!hasOwnProperty.call(out, k) || typeof out[k] !== 'object' || Array.isArray(out[k])) { continue } // see if the parent section is also an object. // if so, add it to that, and mark this one for deletion const parts = splitSections(k, '.') p = out const l = parts.pop() const nl = l.replace(/\\\./g, '.') for (const part of parts) { if (part === '__proto__') { continue } if (!hasOwnProperty.call(p, part) || typeof p[part] !== 'object') { p[part] = Object.create(null) } p = p[part] } if (p === out && nl === l) { continue } p[nl] = out[k] remove.push(k) } for (const del of remove) { delete out[del] } return out } const isQuoted = val => { return (val.startsWith('"') && val.endsWith('"')) || (val.startsWith("'") && val.endsWith("'")) } const safe = val => { if ( typeof val !== 'string' || val.match(/[=\r\n]/) || val.match(/^\[/) || (val.length > 1 && isQuoted(val)) || val !== val.trim() ) { return JSON.stringify(val) } return val.split(';').join('\\;').split('#').join('\\#') } const unsafe = val => { val = (val || '').trim() if (isQuoted(val)) { // remove the single quotes before calling JSON.parse if (val.charAt(0) === "'") { val = val.slice(1, -1) } try { val = JSON.parse(val) } catch { // ignore errors } } else { // walk the val to find the first not-escaped ; character let esc = false let unesc = '' for (let i = 0, l = val.length; i < l; i++) { const c = val.charAt(i) if (esc) { if ('\\;#'.indexOf(c) !== -1) { unesc += c } else { unesc += '\\' + c } esc = false } else if (';#'.indexOf(c) !== -1) { break } else if (c === '\\') { esc = true } else { unesc += c } } if (esc) { unesc += '\\' } return unesc.trim() } return val } module.exports = { parse: decode, decode, stringify: encode, encode, safe, unsafe, }