"use strict"; Object.defineProperty(exports, "__esModule", { value: true }); exports.ServerCapabilities = exports.Topology = void 0; const Denque = require("denque"); const timers_1 = require("timers"); const util_1 = require("util"); const bson_1 = require("../bson"); const connection_string_1 = require("../connection_string"); const constants_1 = require("../constants"); const error_1 = require("../error"); const mongo_types_1 = require("../mongo_types"); const read_preference_1 = require("../read_preference"); const utils_1 = require("../utils"); const common_1 = require("./common"); const events_1 = require("./events"); const server_1 = require("./server"); const server_description_1 = require("./server_description"); const server_selection_1 = require("./server_selection"); const srv_polling_1 = require("./srv_polling"); const topology_description_1 = require("./topology_description"); // Global state let globalTopologyCounter = 0; 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 kCancelled = Symbol('cancelled'); /** @internal */ const kWaitQueue = Symbol('waitQueue'); /** * A container of server instances representing a connection to a MongoDB topology. * @internal */ class Topology extends mongo_types_1.TypedEventEmitter { /** * @param seedlist - a list of HostAddress instances to connect to */ constructor(seeds, options) { var _a; super(); // Legacy CSFLE support this.bson = Object.create(null); this.bson.serialize = bson_1.serialize; this.bson.deserialize = bson_1.deserialize; // Options should only be undefined in tests, MongoClient will always have defined options options = options !== null && options !== void 0 ? options : { hosts: [utils_1.HostAddress.fromString('localhost:27017')], ...Object.fromEntries(connection_string_1.DEFAULT_OPTIONS.entries()), ...Object.fromEntries(connection_string_1.FEATURE_FLAGS.entries()) }; if (typeof seeds === 'string') { seeds = [utils_1.HostAddress.fromString(seeds)]; } else if (!Array.isArray(seeds)) { seeds = [seeds]; } const seedlist = []; for (const seed of seeds) { if (typeof seed === 'string') { seedlist.push(utils_1.HostAddress.fromString(seed)); } else if (seed instanceof utils_1.HostAddress) { seedlist.push(seed); } else { // FIXME(NODE-3483): May need to be a MongoParseError throw new error_1.MongoRuntimeError(`Topology cannot be constructed from ${JSON.stringify(seed)}`); } } const topologyType = topologyTypeFromOptions(options); const topologyId = globalTopologyCounter++; const selectedHosts = options.srvMaxHosts == null || options.srvMaxHosts === 0 || options.srvMaxHosts >= seedlist.length ? seedlist : (0, utils_1.shuffle)(seedlist, options.srvMaxHosts); const serverDescriptions = new Map(); for (const hostAddress of selectedHosts) { serverDescriptions.set(hostAddress.toString(), new server_description_1.ServerDescription(hostAddress)); } this[kWaitQueue] = new Denque(); this.s = { // the id of this topology id: topologyId, // passed in options options, // initial seedlist of servers to connect to seedlist, // initial state state: common_1.STATE_CLOSED, // the topology description description: new topology_description_1.TopologyDescription(topologyType, serverDescriptions, options.replicaSet, undefined, undefined, undefined, options), serverSelectionTimeoutMS: options.serverSelectionTimeoutMS, heartbeatFrequencyMS: options.heartbeatFrequencyMS, minHeartbeatFrequencyMS: options.minHeartbeatFrequencyMS, // a map of server instances to normalized addresses servers: new Map(), credentials: options === null || options === void 0 ? void 0 : options.credentials, clusterTime: undefined, // timer management connectionTimers: new Set(), detectShardedTopology: ev => this.detectShardedTopology(ev), detectSrvRecords: ev => this.detectSrvRecords(ev) }; if (options.srvHost && !options.loadBalanced) { this.s.srvPoller = (_a = options.srvPoller) !== null && _a !== void 0 ? _a : new srv_polling_1.SrvPoller({ heartbeatFrequencyMS: this.s.heartbeatFrequencyMS, srvHost: options.srvHost, srvMaxHosts: options.srvMaxHosts, srvServiceName: options.srvServiceName }); this.on(Topology.TOPOLOGY_DESCRIPTION_CHANGED, this.s.detectShardedTopology); } } detectShardedTopology(event) { var _a, _b, _c; const previousType = event.previousDescription.type; const newType = event.newDescription.type; const transitionToSharded = previousType !== common_1.TopologyType.Sharded && newType === common_1.TopologyType.Sharded; const srvListeners = (_a = this.s.srvPoller) === null || _a === void 0 ? void 0 : _a.listeners(srv_polling_1.SrvPoller.SRV_RECORD_DISCOVERY); const listeningToSrvPolling = !!(srvListeners === null || srvListeners === void 0 ? void 0 : srvListeners.includes(this.s.detectSrvRecords)); if (transitionToSharded && !listeningToSrvPolling) { (_b = this.s.srvPoller) === null || _b === void 0 ? void 0 : _b.on(srv_polling_1.SrvPoller.SRV_RECORD_DISCOVERY, this.s.detectSrvRecords); (_c = this.s.srvPoller) === null || _c === void 0 ? void 0 : _c.start(); } } detectSrvRecords(ev) { const previousTopologyDescription = this.s.description; this.s.description = this.s.description.updateFromSrvPollingEvent(ev, this.s.options.srvMaxHosts); if (this.s.description === previousTopologyDescription) { // Nothing changed, so return return; } updateServers(this); this.emit(Topology.TOPOLOGY_DESCRIPTION_CHANGED, new events_1.TopologyDescriptionChangedEvent(this.s.id, previousTopologyDescription, this.s.description)); } /** * @returns A `TopologyDescription` for this topology */ get description() { return this.s.description; } get loadBalanced() { return this.s.options.loadBalanced; } get capabilities() { return new ServerCapabilities(this.lastHello()); } connect(options, callback) { var _a; if (typeof options === 'function') (callback = options), (options = {}); options = options !== null && options !== void 0 ? options : {}; if (this.s.state === common_1.STATE_CONNECTED) { if (typeof callback === 'function') { callback(); } return; } stateTransition(this, common_1.STATE_CONNECTING); // emit SDAM monitoring events this.emit(Topology.TOPOLOGY_OPENING, new events_1.TopologyOpeningEvent(this.s.id)); // emit an event for the topology change this.emit(Topology.TOPOLOGY_DESCRIPTION_CHANGED, new events_1.TopologyDescriptionChangedEvent(this.s.id, new topology_description_1.TopologyDescription(common_1.TopologyType.Unknown), // initial is always Unknown this.s.description)); // connect all known servers, then attempt server selection to connect const serverDescriptions = Array.from(this.s.description.servers.values()); this.s.servers = new Map(serverDescriptions.map(serverDescription => [ serverDescription.address, createAndConnectServer(this, serverDescription) ])); // In load balancer mode we need to fake a server description getting // emitted from the monitor, since the monitor doesn't exist. if (this.s.options.loadBalanced) { for (const description of serverDescriptions) { const newDescription = new server_description_1.ServerDescription(description.hostAddress, undefined, { loadBalanced: this.s.options.loadBalanced }); this.serverUpdateHandler(newDescription); } } const exitWithError = (error) => callback ? callback(error) : this.emit(Topology.ERROR, error); const readPreference = (_a = options.readPreference) !== null && _a !== void 0 ? _a : read_preference_1.ReadPreference.primary; this.selectServer((0, server_selection_1.readPreferenceServerSelector)(readPreference), options, (err, server) => { if (err) { return this.close({ force: false }, () => exitWithError(err)); } // TODO: NODE-2471 const skipPingOnConnect = this.s.options[Symbol.for('@@mdb.skipPingOnConnect')] === true; if (!skipPingOnConnect && server && this.s.credentials) { server.command((0, utils_1.ns)('admin.$cmd'), { ping: 1 }, {}, err => { if (err) { return exitWithError(err); } stateTransition(this, common_1.STATE_CONNECTED); this.emit(Topology.OPEN, this); this.emit(Topology.CONNECT, this); callback === null || callback === void 0 ? void 0 : callback(undefined, this); }); return; } stateTransition(this, common_1.STATE_CONNECTED); this.emit(Topology.OPEN, this); this.emit(Topology.CONNECT, this); callback === null || callback === void 0 ? void 0 : callback(undefined, this); }); } close(options, callback) { if (typeof options === 'function') { callback = options; options = {}; } if (typeof options === 'boolean') { options = { force: options }; } options = options !== null && options !== void 0 ? options : {}; if (this.s.state === common_1.STATE_CLOSED || this.s.state === common_1.STATE_CLOSING) { return callback === null || callback === void 0 ? void 0 : callback(); } const destroyedServers = Array.from(this.s.servers.values(), server => { return (0, util_1.promisify)(destroyServer)(server, this, options); }); Promise.all(destroyedServers) .then(() => { this.s.servers.clear(); stateTransition(this, common_1.STATE_CLOSING); drainWaitQueue(this[kWaitQueue], new error_1.MongoTopologyClosedError()); (0, common_1.drainTimerQueue)(this.s.connectionTimers); if (this.s.srvPoller) { this.s.srvPoller.stop(); this.s.srvPoller.removeListener(srv_polling_1.SrvPoller.SRV_RECORD_DISCOVERY, this.s.detectSrvRecords); } this.removeListener(Topology.TOPOLOGY_DESCRIPTION_CHANGED, this.s.detectShardedTopology); stateTransition(this, common_1.STATE_CLOSED); // emit an event for close this.emit(Topology.TOPOLOGY_CLOSED, new events_1.TopologyClosedEvent(this.s.id)); }) .finally(() => callback === null || callback === void 0 ? void 0 : callback()); } /** * Selects a server according to the selection predicate provided * * @param selector - An optional selector to select servers by, defaults to a random selection within a latency window * @param options - Optional settings related to server selection * @param callback - The callback used to indicate success or failure * @returns An instance of a `Server` meeting the criteria of the predicate provided */ selectServer(selector, options, callback) { let serverSelector; if (typeof selector !== 'function') { if (typeof selector === 'string') { serverSelector = (0, server_selection_1.readPreferenceServerSelector)(read_preference_1.ReadPreference.fromString(selector)); } else { let readPreference; if (selector instanceof read_preference_1.ReadPreference) { readPreference = selector; } else { read_preference_1.ReadPreference.translate(options); readPreference = options.readPreference || read_preference_1.ReadPreference.primary; } serverSelector = (0, server_selection_1.readPreferenceServerSelector)(readPreference); } } else { serverSelector = selector; } options = Object.assign({}, { serverSelectionTimeoutMS: this.s.serverSelectionTimeoutMS }, options); const isSharded = this.description.type === common_1.TopologyType.Sharded; const session = options.session; const transaction = session && session.transaction; if (isSharded && transaction && transaction.server) { callback(undefined, transaction.server); return; } const waitQueueMember = { serverSelector, transaction, callback }; const serverSelectionTimeoutMS = options.serverSelectionTimeoutMS; if (serverSelectionTimeoutMS) { waitQueueMember.timer = (0, timers_1.setTimeout)(() => { waitQueueMember[kCancelled] = true; waitQueueMember.timer = undefined; const timeoutError = new error_1.MongoServerSelectionError(`Server selection timed out after ${serverSelectionTimeoutMS} ms`, this.description); waitQueueMember.callback(timeoutError); }, serverSelectionTimeoutMS); } this[kWaitQueue].push(waitQueueMember); processWaitQueue(this); } // Sessions related methods /** * @returns Whether the topology should initiate selection to determine session support */ shouldCheckForSessionSupport() { if (this.description.type === common_1.TopologyType.Single) { return !this.description.hasKnownServers; } return !this.description.hasDataBearingServers; } /** * @returns Whether sessions are supported on the current topology */ hasSessionSupport() { return this.loadBalanced || this.description.logicalSessionTimeoutMinutes != null; } /** * Update the internal TopologyDescription with a ServerDescription * * @param serverDescription - The server to update in the internal list of server descriptions */ serverUpdateHandler(serverDescription) { if (!this.s.description.hasServer(serverDescription.address)) { return; } // ignore this server update if its from an outdated topologyVersion if (isStaleServerDescription(this.s.description, serverDescription)) { return; } // these will be used for monitoring events later const previousTopologyDescription = this.s.description; const previousServerDescription = this.s.description.servers.get(serverDescription.address); if (!previousServerDescription) { return; } // Driver Sessions Spec: "Whenever a driver receives a cluster time from // a server it MUST compare it to the current highest seen cluster time // for the deployment. If the new cluster time is higher than the // highest seen cluster time it MUST become the new highest seen cluster // time. Two cluster times are compared using only the BsonTimestamp // value of the clusterTime embedded field." const clusterTime = serverDescription.$clusterTime; if (clusterTime) { (0, common_1._advanceClusterTime)(this, clusterTime); } // If we already know all the information contained in this updated description, then // we don't need to emit SDAM events, but still need to update the description, in order // to keep client-tracked attributes like last update time and round trip time up to date const equalDescriptions = previousServerDescription && previousServerDescription.equals(serverDescription); // first update the TopologyDescription this.s.description = this.s.description.update(serverDescription); if (this.s.description.compatibilityError) { this.emit(Topology.ERROR, new error_1.MongoCompatibilityError(this.s.description.compatibilityError)); return; } // emit monitoring events for this change if (!equalDescriptions) { const newDescription = this.s.description.servers.get(serverDescription.address); if (newDescription) { this.emit(Topology.SERVER_DESCRIPTION_CHANGED, new events_1.ServerDescriptionChangedEvent(this.s.id, serverDescription.address, previousServerDescription, newDescription)); } } // update server list from updated descriptions updateServers(this, serverDescription); // attempt to resolve any outstanding server selection attempts if (this[kWaitQueue].length > 0) { processWaitQueue(this); } if (!equalDescriptions) { this.emit(Topology.TOPOLOGY_DESCRIPTION_CHANGED, new events_1.TopologyDescriptionChangedEvent(this.s.id, previousTopologyDescription, this.s.description)); } } auth(credentials, callback) { if (typeof credentials === 'function') (callback = credentials), (credentials = undefined); if (typeof callback === 'function') callback(undefined, true); } get clientMetadata() { return this.s.options.metadata; } isConnected() { return this.s.state === common_1.STATE_CONNECTED; } isDestroyed() { return this.s.state === common_1.STATE_CLOSED; } /** * @deprecated This function is deprecated and will be removed in the next major version. */ unref() { (0, utils_1.emitWarning)('`unref` is a noop and will be removed in the next major version'); } // NOTE: There are many places in code where we explicitly check the last hello // to do feature support detection. This should be done any other way, but for // now we will just return the first hello seen, which should suffice. lastHello() { const serverDescriptions = Array.from(this.description.servers.values()); if (serverDescriptions.length === 0) return {}; const sd = serverDescriptions.filter((sd) => sd.type !== common_1.ServerType.Unknown)[0]; const result = sd || { maxWireVersion: this.description.commonWireVersion }; return result; } get commonWireVersion() { return this.description.commonWireVersion; } get logicalSessionTimeoutMinutes() { return this.description.logicalSessionTimeoutMinutes; } get clusterTime() { return this.s.clusterTime; } set clusterTime(clusterTime) { this.s.clusterTime = clusterTime; } } exports.Topology = Topology; /** @event */ Topology.SERVER_OPENING = constants_1.SERVER_OPENING; /** @event */ Topology.SERVER_CLOSED = constants_1.SERVER_CLOSED; /** @event */ Topology.SERVER_DESCRIPTION_CHANGED = constants_1.SERVER_DESCRIPTION_CHANGED; /** @event */ Topology.TOPOLOGY_OPENING = constants_1.TOPOLOGY_OPENING; /** @event */ Topology.TOPOLOGY_CLOSED = constants_1.TOPOLOGY_CLOSED; /** @event */ Topology.TOPOLOGY_DESCRIPTION_CHANGED = constants_1.TOPOLOGY_DESCRIPTION_CHANGED; /** @event */ Topology.ERROR = constants_1.ERROR; /** @event */ Topology.OPEN = constants_1.OPEN; /** @event */ Topology.CONNECT = constants_1.CONNECT; /** @event */ Topology.CLOSE = constants_1.CLOSE; /** @event */ Topology.TIMEOUT = constants_1.TIMEOUT; /** Destroys a server, and removes all event listeners from the instance */ function destroyServer(server, topology, options, callback) { options = options !== null && options !== void 0 ? options : {}; for (const event of constants_1.LOCAL_SERVER_EVENTS) { server.removeAllListeners(event); } server.destroy(options, () => { topology.emit(Topology.SERVER_CLOSED, new events_1.ServerClosedEvent(topology.s.id, server.description.address)); for (const event of constants_1.SERVER_RELAY_EVENTS) { server.removeAllListeners(event); } if (typeof callback === 'function') { callback(); } }); } /** Predicts the TopologyType from options */ function topologyTypeFromOptions(options) { if (options === null || options === void 0 ? void 0 : options.directConnection) { return common_1.TopologyType.Single; } if (options === null || options === void 0 ? void 0 : options.replicaSet) { return common_1.TopologyType.ReplicaSetNoPrimary; } if (options === null || options === void 0 ? void 0 : options.loadBalanced) { return common_1.TopologyType.LoadBalanced; } return common_1.TopologyType.Unknown; } /** * Creates new server instances and attempts to connect them * * @param topology - The topology that this server belongs to * @param serverDescription - The description for the server to initialize and connect to */ function createAndConnectServer(topology, serverDescription) { topology.emit(Topology.SERVER_OPENING, new events_1.ServerOpeningEvent(topology.s.id, serverDescription.address)); const server = new server_1.Server(topology, serverDescription, topology.s.options); for (const event of constants_1.SERVER_RELAY_EVENTS) { server.on(event, (e) => topology.emit(event, e)); } server.on(server_1.Server.DESCRIPTION_RECEIVED, description => topology.serverUpdateHandler(description)); server.connect(); return server; } /** * @param topology - Topology to update. * @param incomingServerDescription - New server description. */ function updateServers(topology, incomingServerDescription) { // update the internal server's description if (incomingServerDescription && topology.s.servers.has(incomingServerDescription.address)) { const server = topology.s.servers.get(incomingServerDescription.address); if (server) { server.s.description = incomingServerDescription; if (incomingServerDescription.error instanceof error_1.MongoError && incomingServerDescription.error.hasErrorLabel(error_1.MongoErrorLabel.ResetPool)) { server.s.pool.clear(); } else if (incomingServerDescription.error == null) { const newTopologyType = topology.s.description.type; const shouldMarkPoolReady = incomingServerDescription.isDataBearing || (incomingServerDescription.type !== common_1.ServerType.Unknown && newTopologyType === common_1.TopologyType.Single); if (shouldMarkPoolReady) { server.s.pool.ready(); } } } } // add new servers for all descriptions we currently don't know about locally for (const serverDescription of topology.description.servers.values()) { if (!topology.s.servers.has(serverDescription.address)) { const server = createAndConnectServer(topology, serverDescription); topology.s.servers.set(serverDescription.address, server); } } // for all servers no longer known, remove their descriptions and destroy their instances for (const entry of topology.s.servers) { const serverAddress = entry[0]; if (topology.description.hasServer(serverAddress)) { continue; } if (!topology.s.servers.has(serverAddress)) { continue; } const server = topology.s.servers.get(serverAddress); topology.s.servers.delete(serverAddress); // prepare server for garbage collection if (server) { destroyServer(server, topology); } } } function drainWaitQueue(queue, err) { while (queue.length) { const waitQueueMember = queue.shift(); if (!waitQueueMember) { continue; } if (waitQueueMember.timer) { (0, timers_1.clearTimeout)(waitQueueMember.timer); } if (!waitQueueMember[kCancelled]) { waitQueueMember.callback(err); } } } function processWaitQueue(topology) { if (topology.s.state === common_1.STATE_CLOSED) { drainWaitQueue(topology[kWaitQueue], new error_1.MongoTopologyClosedError()); return; } const isSharded = topology.description.type === common_1.TopologyType.Sharded; const serverDescriptions = Array.from(topology.description.servers.values()); const membersToProcess = topology[kWaitQueue].length; for (let i = 0; i < membersToProcess; ++i) { const waitQueueMember = topology[kWaitQueue].shift(); if (!waitQueueMember) { continue; } if (waitQueueMember[kCancelled]) { continue; } let selectedDescriptions; try { const serverSelector = waitQueueMember.serverSelector; selectedDescriptions = serverSelector ? serverSelector(topology.description, serverDescriptions) : serverDescriptions; } catch (e) { if (waitQueueMember.timer) { (0, timers_1.clearTimeout)(waitQueueMember.timer); } waitQueueMember.callback(e); continue; } let selectedServer; if (selectedDescriptions.length === 0) { topology[kWaitQueue].push(waitQueueMember); continue; } else if (selectedDescriptions.length === 1) { selectedServer = topology.s.servers.get(selectedDescriptions[0].address); } else { const descriptions = (0, utils_1.shuffle)(selectedDescriptions, 2); const server1 = topology.s.servers.get(descriptions[0].address); const server2 = topology.s.servers.get(descriptions[1].address); selectedServer = server1 && server2 && server1.s.operationCount < server2.s.operationCount ? server1 : server2; } if (!selectedServer) { waitQueueMember.callback(new error_1.MongoServerSelectionError('server selection returned a server description but the server was not found in the topology', topology.description)); return; } const transaction = waitQueueMember.transaction; if (isSharded && transaction && transaction.isActive && selectedServer) { transaction.pinServer(selectedServer); } if (waitQueueMember.timer) { (0, timers_1.clearTimeout)(waitQueueMember.timer); } waitQueueMember.callback(undefined, selectedServer); } if (topology[kWaitQueue].length > 0) { // ensure all server monitors attempt monitoring soon for (const [, server] of topology.s.servers) { process.nextTick(function scheduleServerCheck() { return server.requestCheck(); }); } } } function isStaleServerDescription(topologyDescription, incomingServerDescription) { const currentServerDescription = topologyDescription.servers.get(incomingServerDescription.address); const currentTopologyVersion = currentServerDescription === null || currentServerDescription === void 0 ? void 0 : currentServerDescription.topologyVersion; return ((0, server_description_1.compareTopologyVersion)(currentTopologyVersion, incomingServerDescription.topologyVersion) > 0); } /** @public */ class ServerCapabilities { constructor(hello) { this.minWireVersion = hello.minWireVersion || 0; this.maxWireVersion = hello.maxWireVersion || 0; } get hasAggregationCursor() { return this.maxWireVersion >= 1; } get hasWriteCommands() { return this.maxWireVersion >= 2; } get hasTextSearch() { return this.minWireVersion >= 0; } get hasAuthCommands() { return this.maxWireVersion >= 1; } get hasListCollectionsCommand() { return this.maxWireVersion >= 3; } get hasListIndexesCommand() { return this.maxWireVersion >= 3; } get supportsSnapshotReads() { return this.maxWireVersion >= 13; } get commandsTakeWriteConcern() { return this.maxWireVersion >= 5; } get commandsTakeCollation() { return this.maxWireVersion >= 5; } } exports.ServerCapabilities = ServerCapabilities; //# sourceMappingURL=topology.js.map