"use strict"; Object.defineProperty(exports, "__esModule", { value: true }); exports.SrvPoller = exports.SrvPollingEvent = void 0; const dns = require("dns"); const error_1 = require("../error"); const logger_1 = require("../logger"); const mongo_types_1 = require("../mongo_types"); const utils_1 = require("../utils"); /** * Determines whether a provided address matches the provided parent domain in order * to avoid certain attack vectors. * * @param srvAddress - The address to check against a domain * @param parentDomain - The domain to check the provided address against * @returns Whether the provided address matches the parent domain */ function matchesParentDomain(srvAddress, parentDomain) { const regex = /^.*?\./; const srv = `.${srvAddress.replace(regex, '')}`; const parent = `.${parentDomain.replace(regex, '')}`; return srv.endsWith(parent); } /** * @internal * @category Event */ class SrvPollingEvent { constructor(srvRecords) { this.srvRecords = srvRecords; } hostnames() { return new Set(this.srvRecords.map(r => utils_1.HostAddress.fromSrvRecord(r).toString())); } } exports.SrvPollingEvent = SrvPollingEvent; /** @internal */ class SrvPoller extends mongo_types_1.TypedEventEmitter { constructor(options) { var _a, _b, _c; super(); if (!options || !options.srvHost) { throw new error_1.MongoRuntimeError('Options for SrvPoller must exist and include srvHost'); } this.srvHost = options.srvHost; this.srvMaxHosts = (_a = options.srvMaxHosts) !== null && _a !== void 0 ? _a : 0; this.srvServiceName = (_b = options.srvServiceName) !== null && _b !== void 0 ? _b : 'mongodb'; this.rescanSrvIntervalMS = 60000; this.heartbeatFrequencyMS = (_c = options.heartbeatFrequencyMS) !== null && _c !== void 0 ? _c : 10000; this.logger = new logger_1.Logger('srvPoller', options); this.haMode = false; this.generation = 0; this._timeout = undefined; } get srvAddress() { return `_${this.srvServiceName}._tcp.${this.srvHost}`; } get intervalMS() { return this.haMode ? this.heartbeatFrequencyMS : this.rescanSrvIntervalMS; } start() { if (!this._timeout) { this.schedule(); } } stop() { if (this._timeout) { clearTimeout(this._timeout); this.generation += 1; this._timeout = undefined; } } schedule() { if (this._timeout) { clearTimeout(this._timeout); } this._timeout = setTimeout(() => this._poll(), this.intervalMS); } success(srvRecords) { this.haMode = false; this.schedule(); this.emit(SrvPoller.SRV_RECORD_DISCOVERY, new SrvPollingEvent(srvRecords)); } failure(message, obj) { this.logger.warn(message, obj); this.haMode = true; this.schedule(); } parentDomainMismatch(srvRecord) { this.logger.warn(`parent domain mismatch on SRV record (${srvRecord.name}:${srvRecord.port})`, srvRecord); } _poll() { const generation = this.generation; dns.resolveSrv(this.srvAddress, (err, srvRecords) => { if (generation !== this.generation) { return; } if (err) { this.failure('DNS error', err); return; } const finalAddresses = []; for (const record of srvRecords) { if (matchesParentDomain(record.name, this.srvHost)) { finalAddresses.push(record); } else { this.parentDomainMismatch(record); } } if (!finalAddresses.length) { this.failure('No valid addresses found at host'); return; } this.success(finalAddresses); }); } } exports.SrvPoller = SrvPoller; /** @event */ SrvPoller.SRV_RECORD_DISCOVERY = 'srvRecordDiscovery'; //# sourceMappingURL=srv_polling.js.map