"use strict"; Object.defineProperty(exports, "__esModule", { value: true }); exports.TopologyDescription = void 0; const WIRE_CONSTANTS = require("../cmap/wire_protocol/constants"); const error_1 = require("../error"); const utils_1 = require("../utils"); const common_1 = require("./common"); const server_description_1 = require("./server_description"); // constants related to compatibility checks const MIN_SUPPORTED_SERVER_VERSION = WIRE_CONSTANTS.MIN_SUPPORTED_SERVER_VERSION; const MAX_SUPPORTED_SERVER_VERSION = WIRE_CONSTANTS.MAX_SUPPORTED_SERVER_VERSION; const MIN_SUPPORTED_WIRE_VERSION = WIRE_CONSTANTS.MIN_SUPPORTED_WIRE_VERSION; const MAX_SUPPORTED_WIRE_VERSION = WIRE_CONSTANTS.MAX_SUPPORTED_WIRE_VERSION; const MONGOS_OR_UNKNOWN = new Set([common_1.ServerType.Mongos, common_1.ServerType.Unknown]); const MONGOS_OR_STANDALONE = new Set([common_1.ServerType.Mongos, common_1.ServerType.Standalone]); const NON_PRIMARY_RS_MEMBERS = new Set([ common_1.ServerType.RSSecondary, common_1.ServerType.RSArbiter, common_1.ServerType.RSOther ]); /** * Representation of a deployment of servers * @public */ class TopologyDescription { /** * Create a TopologyDescription */ constructor(topologyType, serverDescriptions = null, setName = null, maxSetVersion = null, maxElectionId = null, commonWireVersion = null, options = null) { var _a, _b; options = options !== null && options !== void 0 ? options : {}; this.type = topologyType !== null && topologyType !== void 0 ? topologyType : common_1.TopologyType.Unknown; this.servers = serverDescriptions !== null && serverDescriptions !== void 0 ? serverDescriptions : new Map(); this.stale = false; this.compatible = true; this.heartbeatFrequencyMS = (_a = options.heartbeatFrequencyMS) !== null && _a !== void 0 ? _a : 0; this.localThresholdMS = (_b = options.localThresholdMS) !== null && _b !== void 0 ? _b : 15; this.setName = setName !== null && setName !== void 0 ? setName : null; this.maxElectionId = maxElectionId !== null && maxElectionId !== void 0 ? maxElectionId : null; this.maxSetVersion = maxSetVersion !== null && maxSetVersion !== void 0 ? maxSetVersion : null; this.commonWireVersion = commonWireVersion !== null && commonWireVersion !== void 0 ? commonWireVersion : 0; // determine server compatibility for (const serverDescription of this.servers.values()) { // Load balancer mode is always compatible. if (serverDescription.type === common_1.ServerType.Unknown || serverDescription.type === common_1.ServerType.LoadBalancer) { continue; } if (serverDescription.minWireVersion > MAX_SUPPORTED_WIRE_VERSION) { this.compatible = false; this.compatibilityError = `Server at ${serverDescription.address} requires wire version ${serverDescription.minWireVersion}, but this version of the driver only supports up to ${MAX_SUPPORTED_WIRE_VERSION} (MongoDB ${MAX_SUPPORTED_SERVER_VERSION})`; } if (serverDescription.maxWireVersion < MIN_SUPPORTED_WIRE_VERSION) { this.compatible = false; this.compatibilityError = `Server at ${serverDescription.address} reports wire version ${serverDescription.maxWireVersion}, but this version of the driver requires at least ${MIN_SUPPORTED_WIRE_VERSION} (MongoDB ${MIN_SUPPORTED_SERVER_VERSION}).`; break; } } // Whenever a client updates the TopologyDescription from a hello response, it MUST set // TopologyDescription.logicalSessionTimeoutMinutes to the smallest logicalSessionTimeoutMinutes // value among ServerDescriptions of all data-bearing server types. If any have a null // logicalSessionTimeoutMinutes, then TopologyDescription.logicalSessionTimeoutMinutes MUST be // set to null. this.logicalSessionTimeoutMinutes = null; for (const [, server] of this.servers) { if (server.isReadable) { if (server.logicalSessionTimeoutMinutes == null) { // If any of the servers have a null logicalSessionsTimeout, then the whole topology does this.logicalSessionTimeoutMinutes = null; break; } if (this.logicalSessionTimeoutMinutes == null) { // First server with a non null logicalSessionsTimeout this.logicalSessionTimeoutMinutes = server.logicalSessionTimeoutMinutes; continue; } // Always select the smaller of the: // current server logicalSessionsTimeout and the topologies logicalSessionsTimeout this.logicalSessionTimeoutMinutes = Math.min(this.logicalSessionTimeoutMinutes, server.logicalSessionTimeoutMinutes); } } } /** * Returns a new TopologyDescription based on the SrvPollingEvent * @internal */ updateFromSrvPollingEvent(ev, srvMaxHosts = 0) { /** The SRV addresses defines the set of addresses we should be using */ const incomingHostnames = ev.hostnames(); const currentHostnames = new Set(this.servers.keys()); const hostnamesToAdd = new Set(incomingHostnames); const hostnamesToRemove = new Set(); for (const hostname of currentHostnames) { // filter hostnamesToAdd (made from incomingHostnames) down to what is *not* present in currentHostnames hostnamesToAdd.delete(hostname); if (!incomingHostnames.has(hostname)) { // If the SRV Records no longer include this hostname // we have to stop using it hostnamesToRemove.add(hostname); } } if (hostnamesToAdd.size === 0 && hostnamesToRemove.size === 0) { // No new hosts to add and none to remove return this; } const serverDescriptions = new Map(this.servers); for (const removedHost of hostnamesToRemove) { serverDescriptions.delete(removedHost); } if (hostnamesToAdd.size > 0) { if (srvMaxHosts === 0) { // Add all! for (const hostToAdd of hostnamesToAdd) { serverDescriptions.set(hostToAdd, new server_description_1.ServerDescription(hostToAdd)); } } else if (serverDescriptions.size < srvMaxHosts) { // Add only the amount needed to get us back to srvMaxHosts const selectedHosts = (0, utils_1.shuffle)(hostnamesToAdd, srvMaxHosts - serverDescriptions.size); for (const selectedHostToAdd of selectedHosts) { serverDescriptions.set(selectedHostToAdd, new server_description_1.ServerDescription(selectedHostToAdd)); } } } return new TopologyDescription(this.type, serverDescriptions, this.setName, this.maxSetVersion, this.maxElectionId, this.commonWireVersion, { heartbeatFrequencyMS: this.heartbeatFrequencyMS, localThresholdMS: this.localThresholdMS }); } /** * Returns a copy of this description updated with a given ServerDescription * @internal */ update(serverDescription) { const address = serverDescription.address; // potentially mutated values let { type: topologyType, setName, maxSetVersion, maxElectionId, commonWireVersion } = this; const serverType = serverDescription.type; const serverDescriptions = new Map(this.servers); // update common wire version if (serverDescription.maxWireVersion !== 0) { if (commonWireVersion == null) { commonWireVersion = serverDescription.maxWireVersion; } else { commonWireVersion = Math.min(commonWireVersion, serverDescription.maxWireVersion); } } if (typeof serverDescription.setName === 'string' && typeof setName === 'string' && serverDescription.setName !== setName) { if (topologyType === common_1.TopologyType.Single) { // "Single" Topology with setName mismatch is direct connection usage, mark unknown do not remove serverDescription = new server_description_1.ServerDescription(address); } else { serverDescriptions.delete(address); } } // update the actual server description serverDescriptions.set(address, serverDescription); if (topologyType === common_1.TopologyType.Single) { // once we are defined as single, that never changes return new TopologyDescription(common_1.TopologyType.Single, serverDescriptions, setName, maxSetVersion, maxElectionId, commonWireVersion, { heartbeatFrequencyMS: this.heartbeatFrequencyMS, localThresholdMS: this.localThresholdMS }); } if (topologyType === common_1.TopologyType.Unknown) { if (serverType === common_1.ServerType.Standalone && this.servers.size !== 1) { serverDescriptions.delete(address); } else { topologyType = topologyTypeForServerType(serverType); } } if (topologyType === common_1.TopologyType.Sharded) { if (!MONGOS_OR_UNKNOWN.has(serverType)) { serverDescriptions.delete(address); } } if (topologyType === common_1.TopologyType.ReplicaSetNoPrimary) { if (MONGOS_OR_STANDALONE.has(serverType)) { serverDescriptions.delete(address); } if (serverType === common_1.ServerType.RSPrimary) { const result = updateRsFromPrimary(serverDescriptions, serverDescription, setName, maxSetVersion, maxElectionId); topologyType = result[0]; setName = result[1]; maxSetVersion = result[2]; maxElectionId = result[3]; } else if (NON_PRIMARY_RS_MEMBERS.has(serverType)) { const result = updateRsNoPrimaryFromMember(serverDescriptions, serverDescription, setName); topologyType = result[0]; setName = result[1]; } } if (topologyType === common_1.TopologyType.ReplicaSetWithPrimary) { if (MONGOS_OR_STANDALONE.has(serverType)) { serverDescriptions.delete(address); topologyType = checkHasPrimary(serverDescriptions); } else if (serverType === common_1.ServerType.RSPrimary) { const result = updateRsFromPrimary(serverDescriptions, serverDescription, setName, maxSetVersion, maxElectionId); topologyType = result[0]; setName = result[1]; maxSetVersion = result[2]; maxElectionId = result[3]; } else if (NON_PRIMARY_RS_MEMBERS.has(serverType)) { topologyType = updateRsWithPrimaryFromMember(serverDescriptions, serverDescription, setName); } else { topologyType = checkHasPrimary(serverDescriptions); } } return new TopologyDescription(topologyType, serverDescriptions, setName, maxSetVersion, maxElectionId, commonWireVersion, { heartbeatFrequencyMS: this.heartbeatFrequencyMS, localThresholdMS: this.localThresholdMS }); } get error() { const descriptionsWithError = Array.from(this.servers.values()).filter((sd) => sd.error); if (descriptionsWithError.length > 0) { return descriptionsWithError[0].error; } return null; } /** * Determines if the topology description has any known servers */ get hasKnownServers() { return Array.from(this.servers.values()).some((sd) => sd.type !== common_1.ServerType.Unknown); } /** * Determines if this topology description has a data-bearing server available. */ get hasDataBearingServers() { return Array.from(this.servers.values()).some((sd) => sd.isDataBearing); } /** * Determines if the topology has a definition for the provided address * @internal */ hasServer(address) { return this.servers.has(address); } } exports.TopologyDescription = TopologyDescription; function topologyTypeForServerType(serverType) { switch (serverType) { case common_1.ServerType.Standalone: return common_1.TopologyType.Single; case common_1.ServerType.Mongos: return common_1.TopologyType.Sharded; case common_1.ServerType.RSPrimary: return common_1.TopologyType.ReplicaSetWithPrimary; case common_1.ServerType.RSOther: case common_1.ServerType.RSSecondary: return common_1.TopologyType.ReplicaSetNoPrimary; default: return common_1.TopologyType.Unknown; } } function updateRsFromPrimary(serverDescriptions, serverDescription, setName = null, maxSetVersion = null, maxElectionId = null) { setName = setName || serverDescription.setName; if (setName !== serverDescription.setName) { serverDescriptions.delete(serverDescription.address); return [checkHasPrimary(serverDescriptions), setName, maxSetVersion, maxElectionId]; } const electionId = serverDescription.electionId ? serverDescription.electionId : null; if (serverDescription.setVersion && electionId) { if (maxSetVersion && maxElectionId) { if (maxSetVersion > serverDescription.setVersion || (0, utils_1.compareObjectId)(maxElectionId, electionId) > 0) { // this primary is stale, we must remove it serverDescriptions.set(serverDescription.address, new server_description_1.ServerDescription(serverDescription.address)); return [checkHasPrimary(serverDescriptions), setName, maxSetVersion, maxElectionId]; } } maxElectionId = serverDescription.electionId; } if (serverDescription.setVersion != null && (maxSetVersion == null || serverDescription.setVersion > maxSetVersion)) { maxSetVersion = serverDescription.setVersion; } // We've heard from the primary. Is it the same primary as before? for (const [address, server] of serverDescriptions) { if (server.type === common_1.ServerType.RSPrimary && server.address !== serverDescription.address) { // Reset old primary's type to Unknown. serverDescriptions.set(address, new server_description_1.ServerDescription(server.address)); // There can only be one primary break; } } // Discover new hosts from this primary's response. serverDescription.allHosts.forEach((address) => { if (!serverDescriptions.has(address)) { serverDescriptions.set(address, new server_description_1.ServerDescription(address)); } }); // Remove hosts not in the response. const currentAddresses = Array.from(serverDescriptions.keys()); const responseAddresses = serverDescription.allHosts; currentAddresses .filter((addr) => responseAddresses.indexOf(addr) === -1) .forEach((address) => { serverDescriptions.delete(address); }); return [checkHasPrimary(serverDescriptions), setName, maxSetVersion, maxElectionId]; } function updateRsWithPrimaryFromMember(serverDescriptions, serverDescription, setName = null) { if (setName == null) { // TODO(NODE-3483): should be an appropriate runtime error throw new error_1.MongoRuntimeError('Argument "setName" is required if connected to a replica set'); } if (setName !== serverDescription.setName || (serverDescription.me && serverDescription.address !== serverDescription.me)) { serverDescriptions.delete(serverDescription.address); } return checkHasPrimary(serverDescriptions); } function updateRsNoPrimaryFromMember(serverDescriptions, serverDescription, setName = null) { const topologyType = common_1.TopologyType.ReplicaSetNoPrimary; setName = setName !== null && setName !== void 0 ? setName : serverDescription.setName; if (setName !== serverDescription.setName) { serverDescriptions.delete(serverDescription.address); return [topologyType, setName]; } serverDescription.allHosts.forEach((address) => { if (!serverDescriptions.has(address)) { serverDescriptions.set(address, new server_description_1.ServerDescription(address)); } }); if (serverDescription.me && serverDescription.address !== serverDescription.me) { serverDescriptions.delete(serverDescription.address); } return [topologyType, setName]; } function checkHasPrimary(serverDescriptions) { for (const serverDescription of serverDescriptions.values()) { if (serverDescription.type === common_1.ServerType.RSPrimary) { return common_1.TopologyType.ReplicaSetWithPrimary; } } return common_1.TopologyType.ReplicaSetNoPrimary; } //# sourceMappingURL=topology_description.js.map