const tcpp = require("tcp-ping"); const Ping = require("./ping-lite"); const { R } = require("redbean-node"); const { debug } = require("../src/util"); const passwordHash = require("./password-hash"); const dayjs = require("dayjs"); const { Resolver } = require("dns"); /** * Init or reset JWT secret * @returns {Promise} */ exports.initJWTSecret = async () => { let jwtSecretBean = await R.findOne("setting", " `key` = ? ", [ "jwtSecret", ]); if (! jwtSecretBean) { jwtSecretBean = R.dispense("setting"); jwtSecretBean.key = "jwtSecret"; } jwtSecretBean.value = passwordHash.generate(dayjs() + ""); await R.store(jwtSecretBean); return jwtSecretBean; }; exports.tcping = function (hostname, port) { return new Promise((resolve, reject) => { tcpp.ping({ address: hostname, port: port, attempts: 1, }, function (err, data) { if (err) { reject(err); } if (data.results.length >= 1 && data.results[0].err) { reject(data.results[0].err); } resolve(Math.round(data.max)); }); }); }; exports.ping = async (hostname) => { try { return await exports.pingAsync(hostname); } catch (e) { // If the host cannot be resolved, try again with ipv6 if (e.message.includes("service not known")) { return await exports.pingAsync(hostname, true); } else { throw e; } } }; exports.pingAsync = function (hostname, ipv6 = false) { return new Promise((resolve, reject) => { const ping = new Ping(hostname, { ipv6 }); ping.send(function (err, ms, stdout) { if (err) { reject(err); } else if (ms === null) { reject(new Error(stdout)); } else { resolve(Math.round(ms)); } }); }); }; exports.dnsResolve = function (hostname, resolver_server, rrtype) { const resolver = new Resolver(); resolver.setServers([resolver_server]); return new Promise((resolve, reject) => { if (rrtype == "PTR") { resolver.reverse(hostname, (err, records) => { if (err) { reject(err); } else { resolve(records); } }); } else { resolver.resolve(hostname, rrtype, (err, records) => { if (err) { reject(err); } else { resolve(records); } }); } }); }; exports.setting = async function (key) { let value = await R.getCell("SELECT `value` FROM setting WHERE `key` = ? ", [ key, ]); try { const v = JSON.parse(value); debug(`Get Setting: ${key}: ${v}`); return v; } catch (e) { return value; } }; exports.setSetting = async function (key, value) { let bean = await R.findOne("setting", " `key` = ? ", [ key, ]); if (!bean) { bean = R.dispense("setting"); bean.key = key; } bean.value = JSON.stringify(value); await R.store(bean); }; exports.getSettings = async function (type) { let list = await R.getAll("SELECT `key`, `value` FROM setting WHERE `type` = ? ", [ type, ]); let result = {}; for (let row of list) { try { result[row.key] = JSON.parse(row.value); } catch (e) { result[row.key] = row.value; } } return result; }; exports.setSettings = async function (type, data) { let keyList = Object.keys(data); let promiseList = []; for (let key of keyList) { let bean = await R.findOne("setting", " `key` = ? ", [ key ]); if (bean == null) { bean = R.dispense("setting"); bean.type = type; bean.key = key; } if (bean.type === type) { bean.value = JSON.stringify(data[key]); promiseList.push(R.store(bean)); } } await Promise.all(promiseList); }; // ssl-checker by @dyaa // param: res - response object from axios // return an object containing the certificate information const getDaysBetween = (validFrom, validTo) => Math.round(Math.abs(+validFrom - +validTo) / 8.64e7); const getDaysRemaining = (validFrom, validTo) => { const daysRemaining = getDaysBetween(validFrom, validTo); if (new Date(validTo).getTime() < new Date().getTime()) { return -daysRemaining; } return daysRemaining; }; // Fix certificate Info for display // param: info - the chain obtained from getPeerCertificate() const parseCertificateInfo = function (info) { let link = info; while (link) { if (!link.valid_from || !link.valid_to) { break; } link.validTo = new Date(link.valid_to); link.validFor = link.subjectaltname?.replace(/DNS:|IP Address:/g, "").split(", "); link.daysRemaining = getDaysRemaining(new Date(), link.validTo); // Move up the chain until loop is encountered if (link.issuerCertificate == null) { break; } else if (link.fingerprint == link.issuerCertificate.fingerprint) { link.issuerCertificate = null; break; } else { link = link.issuerCertificate; } } return info; }; exports.checkCertificate = function (res) { const info = res.request.res.socket.getPeerCertificate(true); const valid = res.request.res.socket.authorized || false; const parsedInfo = parseCertificateInfo(info); return { valid: valid, certInfo: parsedInfo }; }; // Check if the provided status code is within the accepted ranges // Param: status - the status code to check // Param: accepted_codes - an array of accepted status codes // Return: true if the status code is within the accepted ranges, false otherwise // Will throw an error if the provided status code is not a valid range string or code string exports.checkStatusCode = function (status, accepted_codes) { if (accepted_codes == null || accepted_codes.length === 0) { return false; } for (const code_range of accepted_codes) { const code_range_split = code_range.split("-").map(string => parseInt(string)); if (code_range_split.length === 1) { if (status === code_range_split[0]) { return true; } } else if (code_range_split.length === 2) { if (status >= code_range_split[0] && status <= code_range_split[1]) { return true; } } else { throw new Error("Invalid status code range"); } } return false; }; exports.getTotalClientInRoom = (io, roomName) => { const sockets = io.sockets; if (! sockets) { return 0; } const adapter = sockets.adapter; if (! adapter) { return 0; } const room = adapter.rooms.get(roomName); if (room) { return room.size; } else { return 0; } }; exports.allowDevAllOrigin = (res) => { if (process.env.NODE_ENV === "development") { exports.allowAllOrigin(res); } }; exports.allowAllOrigin = (res) => { res.header("Access-Control-Allow-Origin", "*"); res.header("Access-Control-Allow-Headers", "Origin, X-Requested-With, Content-Type, Accept"); }; exports.checkLogin = (socket) => { if (! socket.userID) { throw new Error("You are not logged in."); } };