"use strict"; Object.defineProperty(exports, "__esModule", { value: true }); exports.Server = void 0; const util_1 = require("util"); const connection_1 = require("../cmap/connection"); const connection_pool_1 = require("../cmap/connection_pool"); const errors_1 = require("../cmap/errors"); const constants_1 = require("../constants"); const error_1 = require("../error"); const mongo_types_1 = require("../mongo_types"); const transactions_1 = require("../transactions"); const utils_1 = require("../utils"); const common_1 = require("./common"); const monitor_1 = require("./monitor"); const server_description_1 = require("./server_description"); const stateTransition = (0, utils_1.makeStateMachine)({ [common_1.STATE_CLOSED]: [common_1.STATE_CLOSED, common_1.STATE_CONNECTING], [common_1.STATE_CONNECTING]: [common_1.STATE_CONNECTING, common_1.STATE_CLOSING, common_1.STATE_CONNECTED, common_1.STATE_CLOSED], [common_1.STATE_CONNECTED]: [common_1.STATE_CONNECTED, common_1.STATE_CLOSING, common_1.STATE_CLOSED], [common_1.STATE_CLOSING]: [common_1.STATE_CLOSING, common_1.STATE_CLOSED] }); /** @internal */ const kMonitor = Symbol('monitor'); /** @internal */ class Server extends mongo_types_1.TypedEventEmitter { /** * Create a server */ constructor(topology, description, options) { super(); this.commandAsync = (0, util_1.promisify)((ns, cmd, options, // callback type defines Document result because result is never nullish when it succeeds, otherwise promise rejects callback) => this.command(ns, cmd, options, callback)); this.serverApi = options.serverApi; const poolOptions = { hostAddress: description.hostAddress, ...options }; this.topology = topology; this.pool = new connection_pool_1.ConnectionPool(this, poolOptions); this.s = { description, options, state: common_1.STATE_CLOSED, operationCount: 0 }; for (const event of [...constants_1.CMAP_EVENTS, ...constants_1.APM_EVENTS]) { this.pool.on(event, (e) => this.emit(event, e)); } this.pool.on(connection_1.Connection.CLUSTER_TIME_RECEIVED, (clusterTime) => { this.clusterTime = clusterTime; }); if (this.loadBalanced) { this[kMonitor] = null; // monitoring is disabled in load balancing mode return; } // create the monitor // TODO(NODE-4144): Remove new variable for type narrowing const monitor = new monitor_1.Monitor(this, this.s.options); this[kMonitor] = monitor; for (const event of constants_1.HEARTBEAT_EVENTS) { monitor.on(event, (e) => this.emit(event, e)); } monitor.on('resetServer', (error) => markServerUnknown(this, error)); monitor.on(Server.SERVER_HEARTBEAT_SUCCEEDED, (event) => { this.emit(Server.DESCRIPTION_RECEIVED, new server_description_1.ServerDescription(this.description.hostAddress, event.reply, { roundTripTime: calculateRoundTripTime(this.description.roundTripTime, event.duration) })); if (this.s.state === common_1.STATE_CONNECTING) { stateTransition(this, common_1.STATE_CONNECTED); this.emit(Server.CONNECT, this); } }); } get clusterTime() { return this.topology.clusterTime; } set clusterTime(clusterTime) { this.topology.clusterTime = clusterTime; } get description() { return this.s.description; } get name() { return this.s.description.address; } get autoEncrypter() { if (this.s.options && this.s.options.autoEncrypter) { return this.s.options.autoEncrypter; } return; } get loadBalanced() { return this.topology.description.type === common_1.TopologyType.LoadBalanced; } /** * Initiate server connect */ connect() { if (this.s.state !== common_1.STATE_CLOSED) { return; } stateTransition(this, common_1.STATE_CONNECTING); // If in load balancer mode we automatically set the server to // a load balancer. It never transitions out of this state and // has no monitor. if (!this.loadBalanced) { this[kMonitor]?.connect(); } else { stateTransition(this, common_1.STATE_CONNECTED); this.emit(Server.CONNECT, this); } } /** Destroy the server connection */ destroy(options, callback) { if (typeof options === 'function') { callback = options; options = { force: false }; } options = Object.assign({}, { force: false }, options); if (this.s.state === common_1.STATE_CLOSED) { if (typeof callback === 'function') { callback(); } return; } stateTransition(this, common_1.STATE_CLOSING); if (!this.loadBalanced) { this[kMonitor]?.close(); } this.pool.close(options, err => { stateTransition(this, common_1.STATE_CLOSED); this.emit('closed'); if (typeof callback === 'function') { callback(err); } }); } /** * Immediately schedule monitoring of this server. If there already an attempt being made * this will be a no-op. */ requestCheck() { if (!this.loadBalanced) { this[kMonitor]?.requestCheck(); } } /** * Execute a command * @internal */ command(ns, cmd, options, callback) { if (callback == null) { throw new error_1.MongoInvalidArgumentError('Callback must be provided'); } if (ns.db == null || typeof ns === 'string') { throw new error_1.MongoInvalidArgumentError('Namespace must not be a string'); } if (this.s.state === common_1.STATE_CLOSING || this.s.state === common_1.STATE_CLOSED) { callback(new error_1.MongoServerClosedError()); return; } // Clone the options const finalOptions = Object.assign({}, options, { wireProtocolCommand: false }); // There are cases where we need to flag the read preference not to get sent in // the command, such as pre-5.0 servers attempting to perform an aggregate write // with a non-primary read preference. In this case the effective read preference // (primary) is not the same as the provided and must be removed completely. if (finalOptions.omitReadPreference) { delete finalOptions.readPreference; } const session = finalOptions.session; const conn = session?.pinnedConnection; // NOTE: This is a hack! We can't retrieve the connections used for executing an operation // (and prevent them from being checked back in) at the point of operation execution. // This should be considered as part of the work for NODE-2882 // NOTE: // When incrementing operation count, it's important that we increment it before we // attempt to check out a connection from the pool. This ensures that operations that // are waiting for a connection are included in the operation count. Load balanced // mode will only ever have a single server, so the operation count doesn't matter. // Incrementing the operation count above the logic to handle load balanced mode would // require special logic to decrement it again, or would double increment (the load // balanced code makes a recursive call). Instead, we increment the count after this // check. if (this.loadBalanced && session && conn == null && isPinnableCommand(cmd, session)) { this.pool.checkOut((err, checkedOut) => { if (err || checkedOut == null) { if (callback) return callback(err); return; } session.pin(checkedOut); this.command(ns, cmd, finalOptions, callback); }); return; } this.incrementOperationCount(); this.pool.withConnection(conn, (err, conn, cb) => { if (err || !conn) { this.decrementOperationCount(); if (!err) { return cb(new error_1.MongoRuntimeError('Failed to create connection without error')); } if (!(err instanceof errors_1.PoolClearedError)) { this.handleError(err); } return cb(err); } conn.command(ns, cmd, finalOptions, makeOperationHandler(this, conn, cmd, finalOptions, (error, response) => { this.decrementOperationCount(); cb(error, response); })); }, callback); } /** * Handle SDAM error * @internal */ handleError(error, connection) { if (!(error instanceof error_1.MongoError)) { return; } const isStaleError = error.connectionGeneration && error.connectionGeneration < this.pool.generation; if (isStaleError) { return; } const isNetworkNonTimeoutError = error instanceof error_1.MongoNetworkError && !(error instanceof error_1.MongoNetworkTimeoutError); const isNetworkTimeoutBeforeHandshakeError = (0, error_1.isNetworkErrorBeforeHandshake)(error); const isAuthHandshakeError = error.hasErrorLabel(error_1.MongoErrorLabel.HandshakeError); if (isNetworkNonTimeoutError || isNetworkTimeoutBeforeHandshakeError || isAuthHandshakeError) { // In load balanced mode we never mark the server as unknown and always // clear for the specific service id. if (!this.loadBalanced) { error.addErrorLabel(error_1.MongoErrorLabel.ResetPool); markServerUnknown(this, error); } else if (connection) { this.pool.clear({ serviceId: connection.serviceId }); } } else { if ((0, error_1.isSDAMUnrecoverableError)(error)) { if (shouldHandleStateChangeError(this, error)) { const shouldClearPool = (0, utils_1.maxWireVersion)(this) <= 7 || (0, error_1.isNodeShuttingDownError)(error); if (this.loadBalanced && connection && shouldClearPool) { this.pool.clear({ serviceId: connection.serviceId }); } if (!this.loadBalanced) { if (shouldClearPool) { error.addErrorLabel(error_1.MongoErrorLabel.ResetPool); } markServerUnknown(this, error); process.nextTick(() => this.requestCheck()); } } } } } /** * Decrement the operation count, returning the new count. */ decrementOperationCount() { return (this.s.operationCount -= 1); } /** * Increment the operation count, returning the new count. */ incrementOperationCount() { return (this.s.operationCount += 1); } } /** @event */ Server.SERVER_HEARTBEAT_STARTED = constants_1.SERVER_HEARTBEAT_STARTED; /** @event */ Server.SERVER_HEARTBEAT_SUCCEEDED = constants_1.SERVER_HEARTBEAT_SUCCEEDED; /** @event */ Server.SERVER_HEARTBEAT_FAILED = constants_1.SERVER_HEARTBEAT_FAILED; /** @event */ Server.CONNECT = constants_1.CONNECT; /** @event */ Server.DESCRIPTION_RECEIVED = constants_1.DESCRIPTION_RECEIVED; /** @event */ Server.CLOSED = constants_1.CLOSED; /** @event */ Server.ENDED = constants_1.ENDED; exports.Server = Server; function calculateRoundTripTime(oldRtt, duration) { if (oldRtt === -1) { return duration; } const alpha = 0.2; return alpha * duration + (1 - alpha) * oldRtt; } function markServerUnknown(server, error) { // Load balancer servers can never be marked unknown. if (server.loadBalanced) { return; } if (error instanceof error_1.MongoNetworkError && !(error instanceof error_1.MongoNetworkTimeoutError)) { server[kMonitor]?.reset(); } server.emit(Server.DESCRIPTION_RECEIVED, new server_description_1.ServerDescription(server.description.hostAddress, undefined, { error })); } function isPinnableCommand(cmd, session) { if (session) { return (session.inTransaction() || 'aggregate' in cmd || 'find' in cmd || 'getMore' in cmd || 'listCollections' in cmd || 'listIndexes' in cmd); } return false; } function connectionIsStale(pool, connection) { if (connection.serviceId) { return (connection.generation !== pool.serviceGenerations.get(connection.serviceId.toHexString())); } return connection.generation !== pool.generation; } function shouldHandleStateChangeError(server, err) { const etv = err.topologyVersion; const stv = server.description.topologyVersion; return (0, server_description_1.compareTopologyVersion)(stv, etv) < 0; } function inActiveTransaction(session, cmd) { return session && session.inTransaction() && !(0, transactions_1.isTransactionCommand)(cmd); } /** this checks the retryWrites option passed down from the client options, it * does not check if the server supports retryable writes */ function isRetryableWritesEnabled(topology) { return topology.s.options.retryWrites !== false; } function makeOperationHandler(server, connection, cmd, options, callback) { const session = options?.session; return function handleOperationResult(error, result) { // We should not swallow an error if it is present. if (error == null && result != null) { return callback(undefined, result); } if (options != null && 'noResponse' in options && options.noResponse === true) { return callback(undefined, null); } if (!error) { return callback(new error_1.MongoUnexpectedServerResponseError('Empty response with no error')); } if (!(error instanceof error_1.MongoError)) { // Node.js or some other error we have not special handling for return callback(error); } if (connectionIsStale(server.pool, connection)) { return callback(error); } if (error instanceof error_1.MongoNetworkError) { if (session && !session.hasEnded && session.serverSession) { session.serverSession.isDirty = true; } // inActiveTransaction check handles commit and abort. if (inActiveTransaction(session, cmd) && !error.hasErrorLabel(error_1.MongoErrorLabel.TransientTransactionError)) { error.addErrorLabel(error_1.MongoErrorLabel.TransientTransactionError); } if ((isRetryableWritesEnabled(server.topology) || (0, transactions_1.isTransactionCommand)(cmd)) && (0, utils_1.supportsRetryableWrites)(server) && !inActiveTransaction(session, cmd)) { error.addErrorLabel(error_1.MongoErrorLabel.RetryableWriteError); } } else { if ((isRetryableWritesEnabled(server.topology) || (0, transactions_1.isTransactionCommand)(cmd)) && (0, error_1.needsRetryableWriteLabel)(error, (0, utils_1.maxWireVersion)(server)) && !inActiveTransaction(session, cmd)) { error.addErrorLabel(error_1.MongoErrorLabel.RetryableWriteError); } } if (session && session.isPinned && error.hasErrorLabel(error_1.MongoErrorLabel.TransientTransactionError)) { session.unpin({ force: true }); } server.handleError(error, connection); return callback(error); }; } //# sourceMappingURL=server.js.map