"use strict"; Object.defineProperty(exports, "__esModule", { value: true }); exports.hasSessionSupport = exports.CryptoConnection = exports.Connection = void 0; const timers_1 = require("timers"); const constants_1 = require("../constants"); const error_1 = require("../error"); const mongo_types_1 = require("../mongo_types"); const sessions_1 = require("../sessions"); const utils_1 = require("../utils"); const command_monitoring_events_1 = require("./command_monitoring_events"); const commands_1 = require("./commands"); const message_stream_1 = require("./message_stream"); const stream_description_1 = require("./stream_description"); const shared_1 = require("./wire_protocol/shared"); /** @internal */ const kStream = Symbol('stream'); /** @internal */ const kQueue = Symbol('queue'); /** @internal */ const kMessageStream = Symbol('messageStream'); /** @internal */ const kGeneration = Symbol('generation'); /** @internal */ const kLastUseTime = Symbol('lastUseTime'); /** @internal */ const kClusterTime = Symbol('clusterTime'); /** @internal */ const kDescription = Symbol('description'); /** @internal */ const kHello = Symbol('hello'); /** @internal */ const kAutoEncrypter = Symbol('autoEncrypter'); /** @internal */ const kDelayedTimeoutId = Symbol('delayedTimeoutId'); const INVALID_QUEUE_SIZE = 'Connection internal queue contains more than 1 operation description'; /** @internal */ class Connection extends mongo_types_1.TypedEventEmitter { constructor(stream, options) { var _a, _b; super(); this.id = options.id; this.address = streamIdentifier(stream, options); this.socketTimeoutMS = (_a = options.socketTimeoutMS) !== null && _a !== void 0 ? _a : 0; this.monitorCommands = options.monitorCommands; this.serverApi = options.serverApi; this.closed = false; this.destroyed = false; this[kHello] = null; this[kClusterTime] = null; this[kDescription] = new stream_description_1.StreamDescription(this.address, options); this[kGeneration] = options.generation; this[kLastUseTime] = (0, utils_1.now)(); // setup parser stream and message handling this[kQueue] = new Map(); this[kMessageStream] = new message_stream_1.MessageStream({ ...options, maxBsonMessageSize: (_b = this.hello) === null || _b === void 0 ? void 0 : _b.maxBsonMessageSize }); this[kStream] = stream; this[kDelayedTimeoutId] = null; this[kMessageStream].on('message', message => this.onMessage(message)); this[kMessageStream].on('error', error => this.onError(error)); this[kStream].on('close', () => this.onClose()); this[kStream].on('timeout', () => this.onTimeout()); this[kStream].on('error', () => { /* ignore errors, listen to `close` instead */ }); // hook the message stream up to the passed in stream this[kStream].pipe(this[kMessageStream]); this[kMessageStream].pipe(this[kStream]); } get description() { return this[kDescription]; } get hello() { return this[kHello]; } // the `connect` method stores the result of the handshake hello on the connection set hello(response) { this[kDescription].receiveResponse(response); this[kDescription] = Object.freeze(this[kDescription]); // TODO: remove this, and only use the `StreamDescription` in the future this[kHello] = response; } // Set the whether the message stream is for a monitoring connection. set isMonitoringConnection(value) { this[kMessageStream].isMonitoringConnection = value; } get isMonitoringConnection() { return this[kMessageStream].isMonitoringConnection; } get serviceId() { var _a; return (_a = this.hello) === null || _a === void 0 ? void 0 : _a.serviceId; } get loadBalanced() { return this.description.loadBalanced; } get generation() { return this[kGeneration] || 0; } set generation(generation) { this[kGeneration] = generation; } get idleTime() { return (0, utils_1.calculateDurationInMs)(this[kLastUseTime]); } get clusterTime() { return this[kClusterTime]; } get stream() { return this[kStream]; } markAvailable() { this[kLastUseTime] = (0, utils_1.now)(); } onError(error) { if (this.closed) { return; } this[kStream].destroy(error); this.closed = true; for (const op of this[kQueue].values()) { op.cb(error); } this[kQueue].clear(); this.emit(Connection.CLOSE); } onClose() { if (this.closed) { return; } this.closed = true; const message = `connection ${this.id} to ${this.address} closed`; for (const op of this[kQueue].values()) { op.cb(new error_1.MongoNetworkError(message)); } this[kQueue].clear(); this.emit(Connection.CLOSE); } onTimeout() { if (this.closed) { return; } this[kDelayedTimeoutId] = (0, timers_1.setTimeout)(() => { this[kStream].destroy(); this.closed = true; const message = `connection ${this.id} to ${this.address} timed out`; const beforeHandshake = this.hello == null; for (const op of this[kQueue].values()) { op.cb(new error_1.MongoNetworkTimeoutError(message, { beforeHandshake })); } this[kQueue].clear(); this.emit(Connection.CLOSE); }, 1).unref(); // No need for this timer to hold the event loop open } onMessage(message) { var _a; const delayedTimeoutId = this[kDelayedTimeoutId]; if (delayedTimeoutId != null) { (0, timers_1.clearTimeout)(delayedTimeoutId); this[kDelayedTimeoutId] = null; } const socketTimeoutMS = (_a = this[kStream].timeout) !== null && _a !== void 0 ? _a : 0; this[kStream].setTimeout(0); // always emit the message, in case we are streaming this.emit('message', message); let operationDescription = this[kQueue].get(message.responseTo); if (!operationDescription && this.isMonitoringConnection) { // This is how we recover when the initial hello's requestId is not // the responseTo when hello responses have been skipped: // First check if the map is of invalid size if (this[kQueue].size > 1) { this.onError(new error_1.MongoRuntimeError(INVALID_QUEUE_SIZE)); } else { // Get the first orphaned operation description. const entry = this[kQueue].entries().next(); if (entry.value != null) { const [requestId, orphaned] = entry.value; // If the orphaned operation description exists then set it. operationDescription = orphaned; // Remove the entry with the bad request id from the queue. this[kQueue].delete(requestId); } } } if (!operationDescription) { return; } const callback = operationDescription.cb; // SERVER-45775: For exhaust responses we should be able to use the same requestId to // track response, however the server currently synthetically produces remote requests // making the `responseTo` change on each response this[kQueue].delete(message.responseTo); if ('moreToCome' in message && message.moreToCome) { // If the operation description check above does find an orphaned // description and sets the operationDescription then this line will put one // back in the queue with the correct requestId and will resolve not being able // to find the next one via the responseTo of the next streaming hello. this[kQueue].set(message.requestId, operationDescription); this[kStream].setTimeout(socketTimeoutMS); } try { // Pass in the entire description because it has BSON parsing options message.parse(operationDescription); } catch (err) { // If this error is generated by our own code, it will already have the correct class applied // if it is not, then it is coming from a catastrophic data parse failure or the BSON library // in either case, it should not be wrapped callback(err); return; } if (message.documents[0]) { const document = message.documents[0]; const session = operationDescription.session; if (session) { (0, sessions_1.updateSessionFromResponse)(session, document); } if (document.$clusterTime) { this[kClusterTime] = document.$clusterTime; this.emit(Connection.CLUSTER_TIME_RECEIVED, document.$clusterTime); } if (operationDescription.command) { if (document.writeConcernError) { callback(new error_1.MongoWriteConcernError(document.writeConcernError, document)); return; } if (document.ok === 0 || document.$err || document.errmsg || document.code) { callback(new error_1.MongoServerError(document)); return; } } else { // Pre 3.2 support if (document.ok === 0 || document.$err || document.errmsg) { callback(new error_1.MongoServerError(document)); return; } } } callback(undefined, message.documents[0]); } destroy(options, callback) { if (typeof options === 'function') { callback = options; options = { force: false }; } this.removeAllListeners(Connection.PINNED); this.removeAllListeners(Connection.UNPINNED); options = Object.assign({ force: false }, options); if (this[kStream] == null || this.destroyed) { this.destroyed = true; if (typeof callback === 'function') { callback(); } return; } if (options.force) { this[kStream].destroy(); this.destroyed = true; if (typeof callback === 'function') { callback(); } return; } this[kStream].end(() => { this.destroyed = true; if (typeof callback === 'function') { callback(); } }); } command(ns, cmd, options, callback) { const readPreference = (0, shared_1.getReadPreference)(cmd, options); const shouldUseOpMsg = supportsOpMsg(this); const session = options === null || options === void 0 ? void 0 : options.session; let clusterTime = this.clusterTime; let finalCmd = Object.assign({}, cmd); if (this.serverApi) { const { version, strict, deprecationErrors } = this.serverApi; finalCmd.apiVersion = version; if (strict != null) finalCmd.apiStrict = strict; if (deprecationErrors != null) finalCmd.apiDeprecationErrors = deprecationErrors; } if (hasSessionSupport(this) && session) { if (session.clusterTime && clusterTime && session.clusterTime.clusterTime.greaterThan(clusterTime.clusterTime)) { clusterTime = session.clusterTime; } const err = (0, sessions_1.applySession)(session, finalCmd, options); if (err) { return callback(err); } } // if we have a known cluster time, gossip it if (clusterTime) { finalCmd.$clusterTime = clusterTime; } if ((0, shared_1.isSharded)(this) && !shouldUseOpMsg && readPreference && readPreference.mode !== 'primary') { finalCmd = { $query: finalCmd, $readPreference: readPreference.toJSON() }; } const commandOptions = Object.assign({ command: true, numberToSkip: 0, numberToReturn: -1, checkKeys: false, // This value is not overridable secondaryOk: readPreference.secondaryOk() }, options); const cmdNs = `${ns.db}.$cmd`; const message = shouldUseOpMsg ? new commands_1.Msg(cmdNs, finalCmd, commandOptions) : new commands_1.Query(cmdNs, finalCmd, commandOptions); try { write(this, message, commandOptions, callback); } catch (err) { callback(err); } } } exports.Connection = Connection; /** @event */ Connection.COMMAND_STARTED = constants_1.COMMAND_STARTED; /** @event */ Connection.COMMAND_SUCCEEDED = constants_1.COMMAND_SUCCEEDED; /** @event */ Connection.COMMAND_FAILED = constants_1.COMMAND_FAILED; /** @event */ Connection.CLUSTER_TIME_RECEIVED = constants_1.CLUSTER_TIME_RECEIVED; /** @event */ Connection.CLOSE = constants_1.CLOSE; /** @event */ Connection.MESSAGE = constants_1.MESSAGE; /** @event */ Connection.PINNED = constants_1.PINNED; /** @event */ Connection.UNPINNED = constants_1.UNPINNED; /** @internal */ class CryptoConnection extends Connection { constructor(stream, options) { super(stream, options); this[kAutoEncrypter] = options.autoEncrypter; } /** @internal @override */ command(ns, cmd, options, callback) { const autoEncrypter = this[kAutoEncrypter]; if (!autoEncrypter) { return callback(new error_1.MongoMissingDependencyError('No AutoEncrypter available for encryption')); } const serverWireVersion = (0, utils_1.maxWireVersion)(this); if (serverWireVersion === 0) { // This means the initial handshake hasn't happened yet return super.command(ns, cmd, options, callback); } if (serverWireVersion < 8) { callback(new error_1.MongoCompatibilityError('Auto-encryption requires a minimum MongoDB version of 4.2')); return; } // Save sort or indexKeys based on the command being run // the encrypt API serializes our JS objects to BSON to pass to the native code layer // and then deserializes the encrypted result, the protocol level components // of the command (ex. sort) are then converted to JS objects potentially losing // import key order information. These fields are never encrypted so we can save the values // from before the encryption and replace them after encryption has been performed const sort = cmd.find || cmd.findAndModify ? cmd.sort : null; const indexKeys = cmd.createIndexes ? cmd.indexes.map((index) => index.key) : null; autoEncrypter.encrypt(ns.toString(), cmd, options, (err, encrypted) => { if (err || encrypted == null) { callback(err, null); return; } // Replace the saved values if (sort != null && (cmd.find || cmd.findAndModify)) { encrypted.sort = sort; } if (indexKeys != null && cmd.createIndexes) { for (const [offset, index] of indexKeys.entries()) { encrypted.indexes[offset].key = index; } } super.command(ns, encrypted, options, (err, response) => { if (err || response == null) { callback(err, response); return; } autoEncrypter.decrypt(response, options, callback); }); }); } } exports.CryptoConnection = CryptoConnection; /** @internal */ function hasSessionSupport(conn) { const description = conn.description; return description.logicalSessionTimeoutMinutes != null || !!description.loadBalanced; } exports.hasSessionSupport = hasSessionSupport; function supportsOpMsg(conn) { const description = conn.description; if (description == null) { return false; } return (0, utils_1.maxWireVersion)(conn) >= 6 && !description.__nodejs_mock_server__; } function streamIdentifier(stream, options) { if (options.proxyHost) { // If proxy options are specified, the properties of `stream` itself // will not accurately reflect what endpoint this is connected to. return options.hostAddress.toString(); } const { remoteAddress, remotePort } = stream; if (typeof remoteAddress === 'string' && typeof remotePort === 'number') { return utils_1.HostAddress.fromHostPort(remoteAddress, remotePort).toString(); } return (0, utils_1.uuidV4)().toString('hex'); } function write(conn, command, options, callback) { options = options !== null && options !== void 0 ? options : {}; const operationDescription = { requestId: command.requestId, cb: callback, session: options.session, noResponse: typeof options.noResponse === 'boolean' ? options.noResponse : false, documentsReturnedIn: options.documentsReturnedIn, command: !!options.command, // for BSON parsing promoteLongs: typeof options.promoteLongs === 'boolean' ? options.promoteLongs : true, promoteValues: typeof options.promoteValues === 'boolean' ? options.promoteValues : true, promoteBuffers: typeof options.promoteBuffers === 'boolean' ? options.promoteBuffers : false, bsonRegExp: typeof options.bsonRegExp === 'boolean' ? options.bsonRegExp : false, enableUtf8Validation: typeof options.enableUtf8Validation === 'boolean' ? options.enableUtf8Validation : true, raw: typeof options.raw === 'boolean' ? options.raw : false, started: 0 }; if (conn[kDescription] && conn[kDescription].compressor) { operationDescription.agreedCompressor = conn[kDescription].compressor; if (conn[kDescription].zlibCompressionLevel) { operationDescription.zlibCompressionLevel = conn[kDescription].zlibCompressionLevel; } } if (typeof options.socketTimeoutMS === 'number') { conn[kStream].setTimeout(options.socketTimeoutMS); } else if (conn.socketTimeoutMS !== 0) { conn[kStream].setTimeout(conn.socketTimeoutMS); } // if command monitoring is enabled we need to modify the callback here if (conn.monitorCommands) { conn.emit(Connection.COMMAND_STARTED, new command_monitoring_events_1.CommandStartedEvent(conn, command)); operationDescription.started = (0, utils_1.now)(); operationDescription.cb = (err, reply) => { if (err) { conn.emit(Connection.COMMAND_FAILED, new command_monitoring_events_1.CommandFailedEvent(conn, command, err, operationDescription.started)); } else { if (reply && (reply.ok === 0 || reply.$err)) { conn.emit(Connection.COMMAND_FAILED, new command_monitoring_events_1.CommandFailedEvent(conn, command, reply, operationDescription.started)); } else { conn.emit(Connection.COMMAND_SUCCEEDED, new command_monitoring_events_1.CommandSucceededEvent(conn, command, reply, operationDescription.started)); } } if (typeof callback === 'function') { callback(err, reply); } }; } if (!operationDescription.noResponse) { conn[kQueue].set(operationDescription.requestId, operationDescription); } try { conn[kMessageStream].writeCommand(command, operationDescription); } catch (e) { if (!operationDescription.noResponse) { conn[kQueue].delete(operationDescription.requestId); operationDescription.cb(e); return; } } if (operationDescription.noResponse) { operationDescription.cb(); } } //# sourceMappingURL=connection.js.map