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path: root/src/mongo/shell/replsettest.js
blob: 78d9d456b88a597b08a1c15900d09099ff0cba93 (plain)
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/**
 * Sets up a replica set. To make the set running, call {@link #startSet},
 * followed by {@link #initiate} (and optionally,
 * {@link #awaitSecondaryNodes} to block till the  set is fully operational).
 * Note that some of the replica start up parameters are not passed here,
 * but to the #startSet method.
 *
 * @param {Object|string} opts If this value is a string, it specifies the connection string for
 *      a MongoD host to be used for recreating a ReplSetTest from. Otherwise, if it is an object,
 *      it must have the following contents:
 *
 *   {
 *     name {string}: name of this replica set. Default: 'testReplSet'
 *     host {string}: name of the host machine. Hostname will be used
 *        if not specified.
 *     useHostName {boolean}: if true, use hostname of machine,
 *        otherwise use localhost
 *     nodes {number|Object|Array.<Object>}: number of replicas. Default: 0.
 *        Can also be an Object (or Array).
 *        Format for Object:
 *          {
 *            <any string>: replica member option Object. @see MongoRunner.runMongod
 *            <any string2>: and so on...
 *          }
 *          If object has a special "rsConfig" field then those options will be used for each
 *          replica set member config options when used to initialize the replica set, or
 *          building the config with getReplSetConfig()
 *
 *        Format for Array:
 *           An array of replica member option Object. @see MongoRunner.runMongod
 *
 *        Note: For both formats, a special boolean property 'arbiter' can be
 *          specified to denote a member is an arbiter.
 *
 *        Note: A special "bridgeOptions" property can be specified in both the object and array
 *           formats to configure the options for the mongobridge corresponding to that node. These
 *           options are merged with the opts.bridgeOptions options, where the node-specific options
 *           take precedence.
 *
 *     nodeOptions {Object}: Command-line options to apply to all nodes in the replica set.
 *        Format for Object:
 *          { cmdline-param-with-no-arg : "",
 *            param-with-arg : arg }
 *        This turns into "mongod --cmdline-param-with-no-arg --param-with-arg arg"
 *
 *     causallyConsistent {boolean}: Specifies whether the connections to the replica set nodes
 *        should be created with the 'causal consistency' flag enabled, which means they will gossip
 *        the cluster time and add readConcern afterClusterTime where applicable. Defaults to false.
 *
 *     oplogSize {number}: Default: 40
 *     useSeedList {boolean}: Use the connection string format of this set
 *        as the replica set name (overrides the name property). Default: false
 *     keyFile {string}
 *     protocolVersion {number}: protocol version of replset used by the replset initiation.
 *
 *     useBridge {boolean}: If true, then a mongobridge process is started for each node in the
 *        replica set. Both the replica set configuration and the connections returned by startSet()
 *        will be references to the proxied connections. Defaults to false.
 *
 *     bridgeOptions {Object}: Options to apply to all mongobridge processes. Defaults to {}.
 *
 *     settings {object}: Setting used in the replica set config document.
 *        Example:
 *              settings: { chainingAllowed: false, ... }
 *
 *     seedRandomNumberGenerator {boolean}: Indicates whether the random number generator should
 *        be seeded when randomBinVersions is true. For ReplSetTests started by ShardingTest, the
 *        seed is generated as part of ShardingTest.
 *   }
 *
 * Member variables:
 *  nodes {Array.<Mongo>} - connection to replica set members
 */

var ReplSetTest = function(opts) {
    'use strict';

    if (!(this instanceof ReplSetTest)) {
        return new ReplSetTest(opts);
    }

    // Capture the 'this' reference
    var self = this;

    // Replica set health states
    var Health = {UP: 1, DOWN: 0};

    var _alldbpaths;
    var _configSettings;

    // mongobridge related variables. Only available if the bridge option is selected.
    var _useBridge;
    var _bridgeOptions;
    var _unbridgedPorts;
    var _unbridgedNodes;
    var _allocatePortForNode;
    var _allocatePortForBridge;

    var _causalConsistency;

    // Some code still references kDefaultTimeoutMS as a (non-static) member variable, so make sure
    // it's still accessible that way.
    this.kDefaultTimeoutMS = ReplSetTest.kDefaultTimeoutMS;
    var oplogName = 'oplog.rs';

    // Publicly exposed variables

    /**
     * Tries to load the 'jstests/libs/parallelTester.js' dependency. Returns true if the file is
     * loaded successfully, and false otherwise.
     */
    function tryLoadParallelTester() {
        try {
            load("jstests/libs/parallelTester.js");  // For Thread.
            return true;
        } catch (e) {
            return false;
        }
    }

    /**
     * Returns the config document reported from the specified connection.
     */
    function _replSetGetConfig(conn) {
        return assert.commandWorked(conn.adminCommand({replSetGetConfig: 1})).config;
    }

    /**
     * Invokes the 'hello' command on each individual node and returns the current primary, or false
     * if none is found. Populates the following cached values:
     * '_primary': the current primary
     * '_secondaries': all nodes other than '_primary' (note this includes arbiters)
     * '_liveNodes': all currently reachable nodes
     */
    function _callHello() {
        self._liveNodes = [];
        self._primary = null;
        self._secondaries = [];

        var twoPrimaries = false;
        let canAcceptWrites = false;
        // Ensure that only one node is in primary state.
        self.nodes.forEach(function(node) {
            try {
                node.setSecondaryOk();
                var n = node.getDB('admin')._helloOrLegacyHello();
                self._liveNodes.push(node);
                // We verify that the node has a valid config by checking if n.me exists. Then, we
                // check to see if the node is in primary state.
                if (n.me && n.me == n.primary) {
                    if (self._primary) {
                        twoPrimaries = true;
                    } else {
                        self._primary = node;
                        canAcceptWrites = n.isWritablePrimary || n.ismaster;
                    }
                } else {
                    self._secondaries.push(node);
                }
            } catch (err) {
                print("ReplSetTest Could not call hello/ismaster on node " + node + ": " +
                      tojson(err));
                self._secondaries.push(node);
            }
        });
        if (twoPrimaries || !self._primary || !canAcceptWrites) {
            return false;
        }

        return self._primary;
    }

    /**
     * Attempt to connect to all nodes and returns a list of secondaries in which the connection was
     * successful.
     */
    function _determineLiveSecondaries() {
        _callHello();
        return self._secondaries.filter(function(n) {
            return self._liveNodes.indexOf(n) !== -1;
        });
    }

    /**
     * For all unauthenticated connections passed in, authenticates them with the '__system' user.
     * If a connection is already authenticated, we will skip authentication for that connection and
     * assume that it already has the correct privileges. It is up to the caller of this function to
     * ensure that the connection is appropriately authenticated.
     */
    function asCluster(conn, fn, keyFileParam = self.keyFile) {
        let connArray = conn;
        if (conn.length == null)
            connArray = [conn];

        const unauthenticatedConns = connArray.filter(connection => {
            const connStatus = connection.adminCommand({connectionStatus: 1, showPrivileges: true});
            const connIsAuthenticated = connStatus.authInfo.authenticatedUsers.length > 0;
            return !connIsAuthenticated;
        });

        const connOptions = connArray[0].fullOptions || {};
        const authMode = connOptions.clusterAuthMode || connArray[0].clusterAuthMode ||
            jsTest.options().clusterAuthMode;

        let needsAuth = (keyFileParam || authMode === "x509" || authMode === "sendX509" ||
                         authMode === "sendKeyFile") &&
            unauthenticatedConns.length > 0;

        // There are few cases where we do not auth
        // 1. When transitioning to auth
        // 2. When cluster is running in x509 but shell was not started with TLS (i.e. sslSpecial
        // suite)
        if (needsAuth &&
            (connOptions.transitionToAuth !== undefined ||
             (authMode === "x509" && !connArray[0].isTLS()))) {
            needsAuth = false;
        }

        if (needsAuth) {
            return authutil.asCluster(unauthenticatedConns, keyFileParam, fn);
        } else {
            return fn();
        }
    }

    this.asCluster = asCluster;

    /**
     * Returns 'true' if the "conn" has been configured to run without journaling enabled.
     */
    function _isRunningWithoutJournaling(conn) {
        var result = asCluster(conn, function() {
            var serverStatus = assert.commandWorked(conn.adminCommand({serverStatus: 1}));
            if (serverStatus.storageEngine.hasOwnProperty('persistent')) {
                if (!serverStatus.storageEngine.persistent) {
                    return true;
                }
            } else if (serverStatus.storageEngine.name == 'inMemory' ||
                       serverStatus.storageEngine.name == 'ephemeralForTest') {
                return true;
            }
            var cmdLineOpts = assert.commandWorked(conn.adminCommand({getCmdLineOpts: 1}));
            var getWithDefault = function(dict, key, dflt) {
                if (dict[key] === undefined)
                    return dflt;
                return dict[key];
            };
            return !getWithDefault(
                getWithDefault(getWithDefault(cmdLineOpts.parsed, "storage", {}), "journal", {}),
                "enabled",
                true);
        });
        return result;
    }

    /**
     * Wrap a function so it can accept a node id or connection as its first argument. The argument
     * is converted to a connection.
     */
    function _nodeParamToConn(wrapped) {
        return function(node, ...wrappedArgs) {
            if (node.getDB) {
                return wrapped.call(this, node, ...wrappedArgs);
            }

            assert(self.nodes.hasOwnProperty(node), `${node} not found in self.nodes`);
            return wrapped.call(this, self.nodes[node], ...wrappedArgs);
        };
    }

    /**
     * Wrap a function so it can accept a node id or connection as its first argument. The argument
     * is converted to a node id.
     */
    function _nodeParamToId(wrapped) {
        return function(node, ...wrappedArgs) {
            if (node.getDB) {
                return wrapped.call(this, self.getNodeId(node), ...wrappedArgs);
            }

            assert(Number.isInteger(node), `node must be an integer, not ${node}`);
            return wrapped.call(this, node, ...wrappedArgs);
        };
    }

    /**
     * Wrap a function so it accepts a single node or list of them as its first argument. The
     * function is called once per node provided.
     */
    function _nodeParamToSingleNode(wrapped) {
        return function(node, ...wrappedArgs) {
            if (node.hasOwnProperty('length')) {
                let returnValueList = [];
                for (let i = 0; i < node.length; i++) {
                    returnValueList.push(wrapped.call(this, node[i], ...wrappedArgs));
                }

                return returnValueList;
            }

            return wrapped.call(this, node, ...wrappedArgs);
        };
    }

    /**
     * Helper functions for setting/clearing a failpoint.
     */
    function setFailPoint(node, failpoint, data = {}) {
        print("Setting fail point " + failpoint);
        assert.commandWorked(
            node.adminCommand({configureFailPoint: failpoint, mode: "alwaysOn", data: data}));
    }

    function clearFailPoint(node, failpoint) {
        print("Clearing fail point " + failpoint);
        assert.commandWorked(node.adminCommand({configureFailPoint: failpoint, mode: "off"}));
    }

    /**
     * Wait for a rs indicator to go to a particular state or states.
     *
     * @param node is a single node or list of nodes, by id or conn
     * @param states is a single state or list of states
     * @param ind is the indicator specified
     * @param timeout how long to wait for the state to be reached
     * @param reconnectNode indicates that we should reconnect to a node that stepped down
     */
    const _waitForIndicator = _nodeParamToSingleNode(_nodeParamToConn(function(
        node, states, ind, timeout, reconnectNode) {
        timeout = timeout || self.kDefaultTimeoutMS;
        if (reconnectNode === undefined) {
            reconnectNode = true;
        }

        if (!states.length) {
            states = [states];
        }

        print("ReplSetTest waitForIndicator " + ind + " on " + node);
        printjson(states);
        print("ReplSetTest waitForIndicator from node " + node);

        var lastTime = null;
        var currTime = new Date().getTime();
        var status;

        let foundState;
        assert.soon(function() {
            try {
                var conn = _callHello();
                if (!conn) {
                    conn = self._liveNodes[0];
                }

                // Try again to load connection
                if (!conn)
                    return false;

                asCluster(conn, function() {
                    status = conn.getDB('admin').runCommand({replSetGetStatus: 1});
                });
            } catch (ex) {
                print("ReplSetTest waitForIndicator could not get status: " + tojson(ex));
                return false;
            }

            var printStatus = false;
            if (lastTime == null || (currTime = new Date().getTime()) - (1000 * 5) > lastTime) {
                if (lastTime == null) {
                    print("ReplSetTest waitForIndicator Initial status (timeout : " + timeout +
                          ") :");
                }

                printjson(status);
                lastTime = new Date().getTime();
                printStatus = true;
            }

            if (typeof status.members == 'undefined') {
                return false;
            }

            for (var i = 0; i < status.members.length; i++) {
                if (printStatus) {
                    print("Status for : " + status.members[i].name + ", checking " + node.host +
                          "/" + node.name);
                }

                if (status.members[i].name == node.host || status.members[i].name == node.name) {
                    for (var j = 0; j < states.length; j++) {
                        if (printStatus) {
                            print("Status -- " +
                                  " current state: " + status.members[i][ind] +
                                  ",  target state : " + states[j]);
                        }

                        if (typeof (states[j]) != "number") {
                            throw new Error("State was not an number -- type:" +
                                            typeof (states[j]) + ", value:" + states[j]);
                        }
                        if (status.members[i][ind] == states[j]) {
                            foundState = states[j];
                            return true;
                        }
                    }
                }
            }

            return false;
        }, "waiting for state indicator " + ind + " for " + timeout + "ms", timeout);

        // If we were waiting for the node to step down, wait until we can connect to it again,
        // since primaries close external connections upon stepdown. This ensures that the
        // connection to the node is usable after the function returns.
        if (reconnectNode && foundState === ReplSetTest.State.SECONDARY) {
            assert.soon(function() {
                try {
                    node.getDB("foo").bar.stats();
                    return true;
                } catch (e) {
                    return false;
                }
            }, "timed out waiting to reconnect to node " + node.name);
        }

        print("ReplSetTest waitForIndicator final status:");
        printjson(status);
    }));

    /**
     * Wait for a health indicator to go to a particular state or states.
     *
     * @param node is a single node or list of nodes, by id or conn
     * @param state is a single state or list of states. ReplSetTest.Health.DOWN can
     *     only be used in cases when there is a primary available or secondary[0] can
     *     respond to the hello command.
     */
    function _waitForHealth(node, state, timeout) {
        _waitForIndicator(node, state, "health", timeout);
    }

    /**
     * Returns true if the OpTime is empty, else false.
     *
     * Empty OpTime Formats:
     *   PV0: Timestamp(0,0)
     *   PV1: {ts: Timestamp(0,0), t: NumberLong(-1)}
     */
    function _isEmptyOpTime(opTime) {
        if (!opTime.hasOwnProperty("ts") || !opTime.hasOwnProperty("t")) {
            return (opTime.getTime() == 0 && opTime.getInc() == 0);
        }
        return (opTime.ts.getTime() == 0 && opTime.ts.getInc() == 0 && opTime.t == -1);
    }

    /**
     * Returns the OpTime for the specified host by issuing replSetGetStatus.
     */
    function _getLastOpTime(conn) {
        var replSetStatus = asCluster(
            conn,
            () => assert.commandWorked(conn.getDB("admin").runCommand({replSetGetStatus: 1})));
        var connStatus = replSetStatus.members.filter(m => m.self)[0];
        var opTime = connStatus.optime;
        if (_isEmptyOpTime(opTime)) {
            throw new Error("last OpTime is empty -- connection: " + conn);
        }
        return opTime;
    }

    /**
     * Returns the {readConcern: majority} OpTime for the host.
     * This is the OpTime of the host's "majority committed" snapshot.
     * This function may return an OpTime with Timestamp(0,0) and Term(0) if read concern majority
     * is not enabled, or if there has not been a committed snapshot yet.
     */
    function _getReadConcernMajorityOpTime(conn) {
        var replSetStatus =
            assert.commandWorked(conn.getDB("admin").runCommand({replSetGetStatus: 1}));
        return (replSetStatus.OpTimes || replSetStatus.optimes).readConcernMajorityOpTime ||
            {ts: Timestamp(0, 0), t: NumberLong(0)};
    }

    /**
     * Returns the {readConcern: majority} OpTime for the host. Throws if not available.
     */
    this.getReadConcernMajorityOpTimeOrThrow = function(conn) {
        const majorityOpTime = _getReadConcernMajorityOpTime(conn);
        if (friendlyEqual(majorityOpTime, {ts: Timestamp(0, 0), t: NumberLong(0)})) {
            throw new Error("readConcern majority optime not available");
        }
        return majorityOpTime;
    };

    /**
     * Returns the last durable OpTime for the host if running with journaling.
     * Returns the last applied OpTime otherwise.
     */
    function _getDurableOpTime(conn) {
        var replSetStatus = asCluster(
            conn,
            () => assert.commandWorked(conn.getDB("admin").runCommand({replSetGetStatus: 1})));

        var opTimeType = "durableOpTime";
        if (_isRunningWithoutJournaling(conn)) {
            opTimeType = "appliedOpTime";
        }
        var opTime = replSetStatus.optimes[opTimeType];
        if (_isEmptyOpTime(opTime)) {
            throw new Error("last durable OpTime is empty -- connection: " + conn);
        }
        return opTime;
    }

    /*
     * Compares Timestamp objects. Returns true if ts1 is 'earlier' than ts2, else false.
     */
    function _isEarlierTimestamp(ts1, ts2) {
        if (ts1.getTime() == ts2.getTime()) {
            return ts1.getInc() < ts2.getInc();
        }
        return ts1.getTime() < ts2.getTime();
    }

    /*
     * Returns true if the node can be elected primary of a replica set.
     */
    function _isElectable(node) {
        return !node.arbiterOnly && (node.priority === undefined || node.priority != 0);
    }

    /**
     * Returns list of nodes as host:port strings.
     */
    this.nodeList = function() {
        var list = [];
        for (var i = 0; i < this.ports.length; i++) {
            list.push(this.host + ":" + this.ports[i]);
        }

        return list;
    };

    this.getNodeId = function(node) {
        if (node.toFixed) {
            return parseInt(node);
        }

        for (var i = 0; i < this.nodes.length; i++) {
            if (this.nodes[i] == node) {
                return i;
            }
        }

        if (node instanceof ObjectId) {
            for (i = 0; i < this.nodes.length; i++) {
                if (this.nodes[i].runId == node) {
                    return i;
                }
            }
        }

        if (node.nodeId != null) {
            return parseInt(node.nodeId);
        }

        return undefined;
    };

    this.getPort = function(n) {
        var n = this.getNodeId(n);
        return this.ports[n];
    };

    this.getDbPath = function(node) {
        // Get a replica set node (check for use of bridge).
        const n = this.getNodeId(node);
        const replNode = _useBridge ? _unbridgedNodes[n] : this.nodes[n];
        return replNode.dbpath;
    };

    this._addPath = function(p) {
        if (!_alldbpaths)
            _alldbpaths = [p];
        else
            _alldbpaths.push(p);

        return p;
    };

    this.getReplSetConfig = function() {
        var cfg = {};
        cfg._id = this.name;
        cfg.protocolVersion = 1;

        cfg.members = [];

        for (var i = 0; i < this.ports.length; i++) {
            var member = {};
            member._id = i;

            member.host = this.host;
            if (!member.host.includes('/')) {
                member.host += ":" + this.ports[i];
            }

            var nodeOpts = this.nodeOptions["n" + i];
            if (nodeOpts) {
                if (nodeOpts.arbiter) {
                    member.arbiterOnly = true;
                }

                if (nodeOpts.rsConfig) {
                    Object.extend(member, nodeOpts.rsConfig);
                }
            }

            cfg.members.push(member);
        }

        if (_configSettings) {
            cfg.settings = _configSettings;
        }

        return cfg;
    };

    this.getURL = function() {
        var hosts = [];

        for (var i = 0; i < this.ports.length; i++) {
            hosts.push(this.host + ":" + this.ports[i]);
        }

        return this.name + "/" + hosts.join(",");
    };

    /**
     * Starts each node in the replica set with the given options.
     *
     * @param options - The options passed to {@link MongoRunner.runMongod}
     */
    this.startSet = function(options, restart) {
        // If the caller has explicitly specified 'waitForConnect:false', then we will start up all
        // replica set nodes and return without waiting to connect to any of them.
        const skipWaitingForAllConnections = (options && options.waitForConnect === false);

        // Start up without waiting for connections.
        this.startSetAsync(options, restart);

        // Avoid waiting for connections to each node.
        if (skipWaitingForAllConnections) {
            print("ReplSetTest startSet skipping waiting for connections to all nodes in set '" +
                  this.name + "'");
            return this.nodes;
        }

        return this.startSetAwait();
    };

    /**
     * Starts each node in the replica set with the given options without waiting for a connection
     * to any node. Call 'startSetAwait' subsequently to wait for startup of each node to complete.
     *
     * @param options - The options passed to {@link MongoRunner.runMongod}
     */
    this.startSetAsync = function(options, restart) {
        print("ReplSetTest starting set '" + this.name + "'");
        self.startSetStartTime = new Date();  // Measure the execution time of node startup.

        if (options && options.keyFile) {
            self.keyFile = options.keyFile;
        }

        if (options) {
            self.startOptions = options;
        }

        if (jsTest.options().useRandomBinVersionsWithinReplicaSet &&
            self.seedRandomNumberGenerator) {
            // Set the random seed to the value passed in by TestData. The seed is undefined
            // by default. For sharded clusters, the seed is already initialized as part of
            // ShardingTest.
            Random.setRandomSeed(jsTest.options().seed);
        }

        // If the caller has explicitly set 'waitForConnect', then we prefer that. Otherwise we
        // default to not waiting for a connection. We merge the options object with a new field so
        // as to not modify the original options object that was passed in.
        options = options || {};
        options = (options.waitForConnect === undefined)
            ? Object.merge(options, {waitForConnect: false})
            : options;

        // Start up each node without waiting to connect. This allows startup of replica set nodes
        // to proceed in parallel.
        for (let n = 0; n < this.ports.length; n++) {
            this.start(n, options, restart);
        }
        return this.nodes;
    };

    /**
     * Waits for startup of each replica set node to complete by waiting until a connection can be
     * made to each.
     */
    this.startSetAwait = function() {
        // Wait until we can establish a connection to each node before proceeding.
        for (let n = 0; n < this.ports.length; n++) {
            this._waitForInitialConnection(n);
        }

        print("ReplSetTest startSet, nodes: " + tojson(this.nodes));

        print("ReplSetTest startSet took " + (new Date() - self.startSetStartTime) + "ms for " +
              this.nodes.length + " nodes.");
        return this.nodes;
    };

    /**
     * Blocks until the secondary nodes have completed recovery and their roles are known. Blocks on
     * all secondary nodes or just 'secondaries', if specified. Waits for all 'newlyAdded' fields to
     * be removed by default.
     */
    this.awaitSecondaryNodes = function(
        timeout, secondaries, retryIntervalMS, waitForNewlyAddedRemoval) {
        timeout = timeout || self.kDefaultTimeoutMS;
        retryIntervalMS = retryIntervalMS || 200;

        assert.soonNoExcept(function() {
            // Reload who the current secondaries are
            self.getPrimary(timeout);

            var secondariesToCheck = secondaries || self._secondaries;
            var len = secondariesToCheck.length;
            var ready = true;

            for (var i = 0; i < len; i++) {
                var hello = secondariesToCheck[i].getDB('admin')._helloOrLegacyHello();
                var arbiter = (hello.arbiterOnly === undefined ? false : hello.arbiterOnly);
                ready = ready && (hello.secondary || arbiter);
            }

            return ready;
        }, "Awaiting secondaries", timeout, retryIntervalMS);

        // We can only wait for newlyAdded field removal if test commands are enabled.
        if (waitForNewlyAddedRemoval && jsTest.options().enableTestCommands) {
            self.waitForAllNewlyAddedRemovals();
        }
    };

    /**
     * A special version of awaitSecondaryNodes() used exclusively by rollback_test.js.
     * Wraps around awaitSecondaryNodes() itself and checks for an unrecoverable rollback
     * if it throws.
     */
    this.awaitSecondaryNodesForRollbackTest = function(
        timeout, secondaries, connToCheckForUnrecoverableRollback, retryIntervalMS) {
        retryIntervalMS = retryIntervalMS || 200;
        try {
            MongoRunner.runHangAnalyzer.disable();
            this.awaitSecondaryNodes(timeout, secondaries, retryIntervalMS);
            MongoRunner.runHangAnalyzer.enable();
        } catch (originalEx) {
            // There is a special case where we expect the (rare) possibility of unrecoverable
            // rollbacks with EMRC:false in rollback suites with unclean shutdowns.
            jsTestLog("Exception in 'awaitSecondaryNodes', checking for unrecoverable rollback");
            if (connToCheckForUnrecoverableRollback) {
                const conn = connToCheckForUnrecoverableRollback;

                const statusRes = assert.commandWorked(conn.adminCommand({replSetGetStatus: 1}));
                const isRecovering = (statusRes.myState === ReplSetTest.State.RECOVERING);
                const hasNoSyncSource = (statusRes.syncSourceId === -1);

                const cmdLineOptsRes = assert.commandWorked(conn.adminCommand("getCmdLineOpts"));
                const hasEMRCFalse =
                    (cmdLineOptsRes.parsed.replication.enableMajorityReadConcern === false);

                if (isRecovering && hasNoSyncSource && hasEMRCFalse) {
                    try {
                        const n = this.getNodeId(conn);
                        const connToCheck = _useBridge ? _unbridgedNodes[n] : this.nodes[n];
                        // Confirm that the node is unable to recover after rolling back.
                        checkLog.contains(
                            connToCheck,
                            "remote oplog does not contain entry with optime matching our required optime",
                            120 * 1000);
                    } catch (checkLogEx) {
                        MongoRunner.runHangAnalyzer.enable();
                        throw originalEx;
                    }
                    // Add this info to the original exception.
                    originalEx.unrecoverableRollbackDetected = true;
                }
            }
            // Re-throw the original exception in all cases.
            MongoRunner.runHangAnalyzer.enable();
            throw originalEx;
        }
    };

    /**
     * Blocks until the specified node says it's syncing from the given upstream node.
     */
    this.awaitSyncSource = function(node, upstreamNode, timeout) {
        print("Waiting for node " + node.name + " to start syncing from " + upstreamNode.name);
        var status = null;
        assert.soonNoExcept(
            function() {
                status = node.getDB("admin").runCommand({replSetGetStatus: 1});
                for (var j = 0; j < status.members.length; j++) {
                    if (status.members[j].self) {
                        return status.members[j].syncSourceHost === upstreamNode.host;
                    }
                }
                return false;
            },
            "Awaiting node " + node + " syncing from " + upstreamNode + ": " + tojson(status),
            timeout);
    };

    /**
     * Blocks until each node agrees that all other nodes have applied the most recent oplog entry.
     */
    this.awaitNodesAgreeOnAppliedOpTime = function(timeout, nodes) {
        timeout = timeout || self.kDefaultTimeoutMS;
        nodes = nodes || self.nodes;

        assert.soon(function() {
            let appliedOpTimeConsensus = undefined;
            for (let i = 0; i < nodes.length; i++) {
                let replSetGetStatus;
                try {
                    replSetGetStatus = nodes[i].adminCommand({replSetGetStatus: 1});
                } catch (e) {
                    print("AwaitNodesAgreeOnAppliedOpTime: Retrying because node " + nodes[i].name +
                          " failed to execute replSetGetStatus: " + tojson(e));
                    return false;
                }
                assert.commandWorked(replSetGetStatus);

                if (appliedOpTimeConsensus === undefined) {
                    if (replSetGetStatus.optimes) {
                        appliedOpTimeConsensus = replSetGetStatus.optimes.appliedOpTime;
                    } else {
                        // Older versions of mongod do not include an 'optimes' field in the
                        // replSetGetStatus response. We instead pull an optime from the first
                        // replica set member that includes one in its status. All we need here is
                        // any initial value that we can compare to all the other optimes.
                        let optimeMembers = replSetGetStatus.members.filter(m => m.optime);
                        assert(optimeMembers.length > 0,
                               "AwaitNodesAgreeOnAppliedOpTime: replSetGetStatus did not " +
                                   "include optimes for any members: " + tojson(replSetGetStatus));
                        appliedOpTimeConsensus = optimeMembers[0].optime;
                    }

                    assert(appliedOpTimeConsensus,
                           "AwaitNodesAgreeOnAppliedOpTime: missing appliedOpTime in " +
                               "replSetGetStatus: " + tojson(replSetGetStatus));
                }

                if (replSetGetStatus.optimes &&
                    !friendlyEqual(replSetGetStatus.optimes.appliedOpTime,
                                   appliedOpTimeConsensus)) {
                    print("AwaitNodesAgreeOnAppliedOpTime: Retrying because node " + nodes[i].name +
                          " has appliedOpTime " + tojson(replSetGetStatus.optimes.appliedOpTime) +
                          " that does not match the previously observed appliedOpTime " +
                          tojson(appliedOpTimeConsensus));
                    return false;
                }

                for (let j = 0; j < replSetGetStatus.members.length; j++) {
                    if (replSetGetStatus.members[j].state == ReplSetTest.State.ARBITER) {
                        // ARBITER nodes do not apply oplog entries and do not have an 'optime'
                        // field.
                        continue;
                    }

                    if (!friendlyEqual(replSetGetStatus.members[j].optime,
                                       appliedOpTimeConsensus)) {
                        print("AwaitNodesAgreeOnAppliedOpTime: Retrying because node " +
                              nodes[i].name + " sees optime " +
                              tojson(replSetGetStatus.members[j].optime) + " on node " +
                              replSetGetStatus.members[j].name + " but expects to see optime " +
                              tojson(appliedOpTimeConsensus));
                        return false;
                    }
                }
            }

            print(
                "AwaitNodesAgreeOnAppliedOpTime: All nodes agree that all ops are applied up to " +
                tojson(appliedOpTimeConsensus));
            return true;
        }, "Awaiting nodes to agree that all ops are applied across replica set", timeout);
    };

    this._findHighestPriorityNodes = function(config) {
        let highestPriority = 0;
        let highPriorityNodes = [];
        for (let i = 0; i < config.members.length; i++) {
            const member = config.members[i];
            if (member.priority > highestPriority) {
                highestPriority = member.priority;
                highPriorityNodes = [this.nodes[i]];
            } else if (member.priority === highestPriority) {
                highPriorityNodes.push(this.nodes[i]);
            }
        }
        return highPriorityNodes;
    };

    /**
     * Blocks until the node with the highest priority is the primary.  If there are multiple
     * nodes tied for highest priority, waits until one of them is the primary.
     */
    this.awaitHighestPriorityNodeIsPrimary = function(timeout) {
        timeout = timeout || self.kDefaultTimeoutMS;

        // First figure out the set of highest priority nodes.
        const config = asCluster(this.nodes, () => self.getReplSetConfigFromNode());
        const highPriorityNodes = this._findHighestPriorityNodes(config);

        // Now wait for the primary to be one of the highest priority nodes.
        assert.soon(
            function() {
                return highPriorityNodes.includes(self.getPrimary());
            },
            function() {
                return "Expected primary to be one of: " + tojson(highPriorityNodes) +
                    ", but found primary to be: " + tojson(self.getPrimary());
            },
            timeout);

        // Finally wait for all nodes to agree on the primary.
        this.awaitNodesAgreeOnPrimary(timeout);
        const primary = this.getPrimary();
        assert(highPriorityNodes.includes(primary),
               "Primary switched away from highest priority node.  Found primary: " +
                   tojson(primary) + ", but expected one of: " + tojson(highPriorityNodes));
    };

    /**
     * Blocks until all nodes agree on who the primary is.
     * Unlike awaitNodesAgreeOnPrimary, this does not require that all nodes are authenticated.
     */
    this.awaitNodesAgreeOnPrimaryNoAuth = function(timeout, nodes) {
        timeout = timeout || self.kDefaultTimeoutMS;
        nodes = nodes || self.nodes;

        print("AwaitNodesAgreeOnPrimaryNoAuth: Waiting for nodes to agree on any primary.");

        assert.soonNoExcept(function() {
            var primary;

            for (var i = 0; i < nodes.length; i++) {
                var hello = assert.commandWorked(nodes[i].getDB('admin')._helloOrLegacyHello());
                var nodesPrimary = hello.primary;
                // Node doesn't see a primary.
                if (!nodesPrimary) {
                    print("AwaitNodesAgreeOnPrimaryNoAuth: Retrying because " + nodes[i].name +
                          " does not see a primary.");
                    return false;
                }

                if (!primary) {
                    // If we haven't seen a primary yet, set it to this.
                    primary = nodesPrimary;
                } else if (primary !== nodesPrimary) {
                    print("AwaitNodesAgreeOnPrimaryNoAuth: Retrying because " + nodes[i].name +
                          " thinks the primary is " + nodesPrimary + " instead of " + primary);
                    return false;
                }
            }

            print("AwaitNodesAgreeOnPrimaryNoAuth: Nodes agreed on primary " + primary);
            return true;
        }, "Awaiting nodes to agree on primary", timeout);
    };

    /**
     * Blocks until all nodes agree on who the primary is.
     * If 'expectedPrimaryNode' is provided, ensure that every node is seeing this node as the
     * primary. Otherwise, ensure that all the nodes in the set agree with the first node on the
     * identity of the primary.
     */
    this.awaitNodesAgreeOnPrimary = function(timeout, nodes, expectedPrimaryNode) {
        timeout = timeout || self.kDefaultTimeoutMS;
        nodes = nodes || self.nodes;
        // indexOf will return the index of the expected node. If expectedPrimaryNode is undefined,
        // indexOf will return -1.
        const expectedPrimaryNodeIdx = self.nodes.indexOf(expectedPrimaryNode);
        if (expectedPrimaryNodeIdx === -1) {
            print("AwaitNodesAgreeOnPrimary: Waiting for nodes to agree on any primary.");
        } else {
            print("AwaitNodesAgreeOnPrimary: Waiting for nodes to agree on " +
                  expectedPrimaryNode.name + " as primary.");
        }

        assert.soonNoExcept(function() {
            var primary = expectedPrimaryNodeIdx;

            for (var i = 0; i < nodes.length; i++) {
                var replSetGetStatus =
                    assert.commandWorked(nodes[i].getDB("admin").runCommand({replSetGetStatus: 1}));
                var nodesPrimary = -1;
                for (var j = 0; j < replSetGetStatus.members.length; j++) {
                    if (replSetGetStatus.members[j].state === ReplSetTest.State.PRIMARY) {
                        // Node sees two primaries.
                        if (nodesPrimary !== -1) {
                            print("AwaitNodesAgreeOnPrimary: Retrying because " + nodes[i].name +
                                  " thinks both " + self.nodes[nodesPrimary].name + " and " +
                                  self.nodes[j].name + " are primary.");

                            return false;
                        }
                        nodesPrimary = j;
                    }
                }
                // Node doesn't see a primary.
                if (nodesPrimary < 0) {
                    print("AwaitNodesAgreeOnPrimary: Retrying because " + nodes[i].name +
                          " does not see a primary.");
                    return false;
                }

                if (primary < 0) {
                    print("AwaitNodesAgreeOnPrimary: " + nodes[i].name + " thinks the " +
                          " primary is " + self.nodes[nodesPrimary].name +
                          ". Other nodes are expected to agree on the same primary.");
                    // If the nodes haven't seen a primary yet, set primary to nodes[i]'s primary.
                    primary = nodesPrimary;
                } else if (primary !== nodesPrimary) {
                    print("AwaitNodesAgreeOnPrimary: Retrying because " + nodes[i].name +
                          " thinks the primary is " + self.nodes[nodesPrimary].name +
                          " instead of " + self.nodes[primary].name);
                    return false;
                }
            }

            print("AwaitNodesAgreeOnPrimary: Nodes agreed on primary " + self.nodes[primary].name);
            return true;
        }, "Awaiting nodes to agree on primary timed out", timeout);
    };

    /**
     * Blocking call, which will wait for a primary to be elected and become writable for some
     * pre-defined timeout. If a primary is available it will return a connection to it.
     * Otherwise throws an exception.
     */
    this.getPrimary = function(timeout, retryIntervalMS) {
        timeout = timeout || self.kDefaultTimeoutMS;
        retryIntervalMS = retryIntervalMS || 200;
        var primary = null;

        assert.soonNoExcept(function() {
            primary = _callHello();
            return primary;
        }, "Finding primary", timeout, retryIntervalMS);

        return primary;
    };

    this.awaitNoPrimary = function(msg, timeout) {
        msg = msg || "Timed out waiting for there to be no primary in replset: " + this.name;
        timeout = timeout || self.kDefaultTimeoutMS;

        assert.soonNoExcept(function() {
            return _callHello() == false;
        }, msg, timeout);
    };

    this.getSecondaries = function(timeout) {
        var primary = this.getPrimary(timeout);
        var secs = [];
        for (var i = 0; i < this.nodes.length; i++) {
            if (this.nodes[i] != primary) {
                secs.push(this.nodes[i]);
            }
        }

        return secs;
    };

    this.getSecondary = function(timeout) {
        return this.getSecondaries(timeout)[0];
    };

    function isNodeArbiter(node) {
        return node.getDB('admin')._helloOrLegacyHello().arbiterOnly;
    }

    this.getArbiters = function() {
        let arbiters = [];
        for (let i = 0; i < this.nodes.length; i++) {
            const node = this.nodes[i];

            let isArbiter = false;

            assert.retryNoExcept(() => {
                isArbiter = isNodeArbiter(node);
                return true;
            }, `Could not call hello/isMaster on ${node}.`, 3, 1000);

            if (isArbiter) {
                arbiters.push(node);
            }
        }
        return arbiters;
    };

    this.getArbiter = function() {
        return this.getArbiters()[0];
    };

    this.status = function(timeout) {
        var primary = _callHello();
        if (!primary) {
            primary = this._liveNodes[0];
        }

        return primary.getDB("admin").runCommand({replSetGetStatus: 1});
    };

    /**
     * Adds a node to the replica set managed by this instance.
     */
    this.add = function(config) {
        var nextPort = _allocatePortForNode();
        print("ReplSetTest Next port: " + nextPort);

        this.ports.push(nextPort);
        printjson(this.ports);

        if (_useBridge) {
            _unbridgedPorts.push(_allocatePortForBridge());
        }

        var nextId = this.nodes.length;
        printjson(this.nodes);

        print("ReplSetTest nextId: " + nextId);
        return this.start(nextId, config);
    };

    /**
     * Calls stop() on the node identifed by nodeId and removes it from the list of nodes managed by
     * ReplSetTest.
     */
    this.remove = function(nodeId) {
        this.stop(nodeId);
        nodeId = this.getNodeId(nodeId);
        this.nodes.splice(nodeId, 1);
        this.ports.splice(nodeId, 1);

        if (_useBridge) {
            _unbridgedPorts.splice(nodeId, 1);
            _unbridgedNodes.splice(nodeId, 1);
        }
    };

    /*
     * If journaling is disabled or we are using an ephemeral storage engine, set
     * 'writeConcernMajorityJournalDefault' to false for the given 'config' object. If the
     * 'writeConcernMajorityJournalDefault' field is already set, it does not override it,
     * and returns the 'config' object unchanged. Does not affect 'config' when running CSRS.
     */
    this._updateConfigIfNotDurable = function(config) {
        // Get a replica set node (check for use of bridge).
        var replNode = _useBridge ? _unbridgedNodes[0] : this.nodes[0];

        // Don't update replset config for sharding config servers since config servers always
        // require durable storage.
        if (replNode.hasOwnProperty("fullOptions") &&
            replNode.fullOptions.hasOwnProperty("configsvr")) {
            return config;
        }

        // Don't override existing value.
        var wcMajorityJournalField = "writeConcernMajorityJournalDefault";
        if (config.hasOwnProperty(wcMajorityJournalField)) {
            return config;
        }

        // Check journaling by sending commands through the bridge if it's used.
        if (_isRunningWithoutJournaling(this.nodes[0])) {
            config[wcMajorityJournalField] = false;
        }

        return config;
    };

    this._setDefaultConfigOptions = function(config) {
        // Update config for non journaling test variants
        this._updateConfigIfNotDurable(config);
        // Add protocolVersion if missing
        if (!config.hasOwnProperty('protocolVersion')) {
            config['protocolVersion'] = 1;
        }
    };

    this._notX509Auth = function(conn) {
        const nodeId = "n" + self.getNodeId(conn);
        const nodeOptions = self.nodeOptions[nodeId] || {};
        const options =
            (nodeOptions === {} || !self.startOptions) ? nodeOptions : self.startOptions;
        const authMode = options.clusterAuthMode;
        return authMode != "sendX509" && authMode != "x509" && authMode != "sendKeyFile";
    };

    function replSetCommandWithRetry(primary, cmd) {
        print("Running command with retry: " + tojson(cmd));
        const cmdName = Object.keys(cmd)[0];
        const errorMsg = `${cmdName} during initiate failed`;
        assert.retry(() => {
            const result = assert.commandWorkedOrFailedWithCode(
                primary.runCommand(cmd),
                [
                    ErrorCodes.NodeNotFound,
                    ErrorCodes.NewReplicaSetConfigurationIncompatible,
                    ErrorCodes.InterruptedDueToReplStateChange,
                    ErrorCodes.ConfigurationInProgress,
                    ErrorCodes.CurrentConfigNotCommittedYet
                ],
                errorMsg);
            return result.ok;
        }, errorMsg, 3, 5 * 1000);
    }

    /**
     * Wait until the config on the primary becomes replicated. Callers specify the primary in case
     * this must be called when two nodes are expected to be concurrently primary. This does not
     * necessarily wait for the config to be committed.
     */
    this.waitForConfigReplication = function(primary, nodes) {
        const nodeHosts = nodes ? tojson(nodes.map((n) => n.host)) : "all nodes";
        print("waitForConfigReplication: Waiting for the config on " + primary.host +
              " to replicate to " + nodeHosts);

        let configVersion = -2;
        let configTerm = -2;
        assert.soon(function() {
            const res = assert.commandWorked(primary.adminCommand({replSetGetStatus: 1}));
            const primaryMember = res.members.find((m) => m.self);
            configVersion = primaryMember.configVersion;
            configTerm = primaryMember.configTerm;
            function hasSameConfig(member) {
                return member.configVersion === primaryMember.configVersion &&
                    member.configTerm === primaryMember.configTerm;
            }
            let members = res.members;
            if (nodes) {
                members = res.members.filter((m) => nodes.some((node) => m.name === node.host));
            }
            return members.every((m) => hasSameConfig(m));
        });

        print("waitForConfigReplication: config on " + primary.host +
              " replicated successfully to " + nodeHosts + " with version " + configVersion +
              " and term " + configTerm);
    };

    /**
     * Waits for all 'newlyAdded' fields to be removed, for that config to be committed, and for
     * the in-memory and on-disk configs to match.
     */
    this.waitForAllNewlyAddedRemovals = function(timeout) {
        timeout = timeout || self.kDefaultTimeoutMS;
        print("waitForAllNewlyAddedRemovals: starting for set " + self.name);
        const primary = self.getPrimary();

        // Shadow 'db' so that we can call the function on the primary without a separate shell when
        // x509 auth is not needed.
        let db = primary.getDB('admin');
        runFnWithAuthOnPrimary(function() {
            assert.soon(function() {
                const getConfigRes = assert.commandWorked(db.adminCommand({
                    replSetGetConfig: 1,
                    commitmentStatus: true,
                    $_internalIncludeNewlyAdded: true
                }));
                const config = getConfigRes.config;
                for (let i = 0; i < config.members.length; i++) {
                    const memberConfig = config.members[i];
                    if (memberConfig.hasOwnProperty("newlyAdded")) {
                        assert(memberConfig["newlyAdded"] === true, config);
                        print("waitForAllNewlyAddedRemovals: Retrying because memberIndex " + i +
                              " is still 'newlyAdded'");
                        return false;
                    }
                }
                if (!getConfigRes.hasOwnProperty("commitmentStatus")) {
                    print(
                        "waitForAllNewlyAddedRemovals: Skipping wait due to no commitmentStatus." +
                        " Assuming this is an older version.");
                    return true;
                }

                if (!getConfigRes.commitmentStatus) {
                    print("waitForAllNewlyAddedRemovals: " +
                          "Retrying because primary's config isn't committed. " +
                          "Version: " + config.version + ", Term: " + config.term);
                    return false;
                }

                return true;
            });
        }, "waitForAllNewlyAddedRemovals");

        self.waitForConfigReplication(primary);

        print("waitForAllNewlyAddedRemovals: finished for set " + this.name);
    };

    /**
     * Runs replSetInitiate on the first node of the replica set.
     * Ensures that a primary is elected (not necessarily node 0).
     * initiate() should be preferred instead of this, but this is useful when the connections
     * aren't authorized to run replSetGetStatus.
     * TODO(SERVER-14017): remove this in favor of using initiate() everywhere.
     */
    this.initiateWithAnyNodeAsPrimary = function(cfg, initCmd, {
        doNotWaitForStableRecoveryTimestamp: doNotWaitForStableRecoveryTimestamp = false,
        doNotWaitForReplication: doNotWaitForReplication = false,
        doNotWaitForNewlyAddedRemovals: doNotWaitForNewlyAddedRemovals = false,
        doNotWaitForPrimaryOnlyServices: doNotWaitForPrimaryOnlyServices = false
    } = {}) {
        let startTime = new Date();  // Measure the execution time of this function.
        var primary = this.nodes[0].getDB("admin");
        var config = cfg || this.getReplSetConfig();
        var cmd = {};
        var cmdKey = initCmd || 'replSetInitiate';

        // Throw an exception if nodes[0] is unelectable in the given config.
        if (!_isElectable(config.members[0])) {
            throw Error("The node at index 0 must be electable");
        }

        // Start up a single node replica set then reconfigure to the correct size (if the config
        // contains more than 1 node), so the primary is elected more quickly.
        var originalMembers, originalSettings;
        if (config.members && config.members.length > 1) {
            originalMembers = config.members.slice();
            config.members = config.members.slice(0, 1);
            originalSettings = config.settings;
            delete config.settings;  // Clear settings to avoid tags referencing sliced nodes.
        }
        this._setDefaultConfigOptions(config);

        cmd[cmdKey] = config;

        // Initiating a replica set with a single node will use "latest" FCV. This will
        // cause IncompatibleServerVersion errors if additional "last-lts"/"last-continuous" binary
        // version nodes are subsequently added to the set, since such nodes cannot set their FCV to
        // "latest". Therefore, we make sure the primary is "last-lts"/"last-continuous" FCV before
        // adding in nodes of different binary versions to the replica set.
        let lastLTSBinVersionWasSpecifiedForSomeNode = false;
        let lastContinuousBinVersionWasSpecifiedForSomeNode = false;
        let explicitBinVersionWasSpecifiedForSomeNode = false;
        Object.keys(this.nodeOptions).forEach(function(key, index) {
            let val = self.nodeOptions[key];
            if (typeof (val) === "object" && val.hasOwnProperty("binVersion")) {
                lastLTSBinVersionWasSpecifiedForSomeNode =
                    MongoRunner.areBinVersionsTheSame(val.binVersion, lastLTSFCV);
                lastContinuousBinVersionWasSpecifiedForSomeNode =
                    (lastLTSFCV !== lastContinuousFCV) &&
                    MongoRunner.areBinVersionsTheSame(val.binVersion, lastContinuousFCV);
                explicitBinVersionWasSpecifiedForSomeNode = true;
            }
        });

        if (lastLTSBinVersionWasSpecifiedForSomeNode &&
            lastContinuousBinVersionWasSpecifiedForSomeNode) {
            throw new Error("Can only specify one of 'last-lts' and 'last-continuous' " +
                            "in binVersion, not both.");
        }

        // If no binVersions have been explicitly set, then we should be using the latest binary
        // version, which allows us to use the failpoint below.
        let explicitBinVersion =
            (self.startOptions !== undefined && self.startOptions.hasOwnProperty("binVersion")) ||
            explicitBinVersionWasSpecifiedForSomeNode ||
            jsTest.options().useRandomBinVersionsWithinReplicaSet;

        // If a test has explicitly disabled test commands or if we may be running an older mongod
        // version then we cannot utilize failpoints below, since they may not be supported on older
        // versions.
        const failPointsSupported = jsTest.options().enableTestCommands && !explicitBinVersion;

        // Skip waiting for new data to appear in the oplog buffer when transitioning to primary.
        // This makes step up much faster for a node that doesn't need to drain any oplog
        // operations. This is only an optimization so it's OK if we bypass it in some suites.
        let skipWaitFp;
        if (failPointsSupported) {
            setFailPoint(this.nodes[0], "skipOplogBatcherWaitForData");
        }

        // replSetInitiate and replSetReconfig commands can fail with a NodeNotFound error if a
        // heartbeat times out during the quorum check. They may also fail with
        // NewReplicaSetConfigurationIncompatible on similar timeout during the config validation
        // stage while deducing isSelf(). This can fail with an InterruptedDueToReplStateChange
        // error when interrupted. We try several times, to reduce the chance of failing this way.
        const initiateStart = new Date();  // Measure the execution time of this section.
        replSetCommandWithRetry(primary, cmd);

        // Blocks until there is a primary. We use a faster retry interval here since we expect the
        // primary to be ready very soon. We also turn the failpoint off once we have a primary.
        this.getPrimary(self.kDefaultTimeoutMS, 25 /* retryIntervalMS */);
        if (failPointsSupported) {
            clearFailPoint(this.nodes[0], "skipOplogBatcherWaitForData");
        }

        print("ReplSetTest initiate command took " + (new Date() - initiateStart) + "ms for " +
              this.nodes.length + " nodes in set '" + this.name + "'");

        // Set the FCV to 'last-lts'/'last-continuous' if we are running a mixed version replica
        // set. If this is a config server, the FCV will be set as part of ShardingTest.
        // versions are supported with the useRandomBinVersionsWithinReplicaSet option.
        let setLastLTSFCV = (lastLTSBinVersionWasSpecifiedForSomeNode ||
                             jsTest.options().useRandomBinVersionsWithinReplicaSet) &&
            !self.isConfigServer;
        let setLastContinuousFCV = !setLastLTSFCV &&
            lastContinuousBinVersionWasSpecifiedForSomeNode && !self.isConfigServer;

        if ((setLastLTSFCV || setLastContinuousFCV) &&
            jsTest.options().replSetFeatureCompatibilityVersion) {
            const fcv = setLastLTSFCV ? lastLTSFCV : lastContinuousFCV;
            throw new Error(
                "The FCV will be set to '" + fcv + "' automatically when starting up a replica " +
                "set with mixed binary versions. Therefore, we expect an empty value for " +
                "'replSetFeatureCompatibilityVersion'.");
        }

        if (setLastLTSFCV || setLastContinuousFCV) {
            // Authenticate before running the command.
            asCluster(self.nodes, function setFCV() {
                let fcv = setLastLTSFCV ? lastLTSFCV : lastContinuousFCV;
                print("Setting feature compatibility version for replica set to '" + fcv + "'");
                assert.commandWorked(
                    self.getPrimary().adminCommand({setFeatureCompatibilityVersion: fcv}));
                checkFCV(self.getPrimary().getDB("admin"), fcv);

                // The server has a practice of adding a reconfig as part of upgrade/downgrade logic
                // in the setFeatureCompatibilityVersion command.
                print(
                    "Fetch the config version from primary since last-lts or last-continuous downgrade might " +
                    "perform a reconfig.");
                config.version = self.getReplSetConfigFromNode().version;
            });
        }

        // Wait for 2 keys to appear before adding the other nodes. This is to prevent replica
        // set configurations from interfering with the primary to generate the keys. One example
        // of problematic configuration are delayed secondaries, which impedes the primary from
        // generating the second key due to timeout waiting for write concern.
        let shouldWaitForKeys = true;
        if (self.waitForKeys != undefined) {
            shouldWaitForKeys = self.waitForKeys;
            print("Set shouldWaitForKeys from RS options: " + shouldWaitForKeys);
        } else {
            Object.keys(self.nodeOptions).forEach(function(key, index) {
                let val = self.nodeOptions[key];
                if (typeof (val) === "object" &&
                    (val.hasOwnProperty("shardsvr") ||
                     val.hasOwnProperty("binVersion") &&
                         // Should not wait for keys if version is less than 3.6
                         MongoRunner.compareBinVersions(val.binVersion, "3.6") == -1)) {
                    shouldWaitForKeys = false;
                    print("Set shouldWaitForKeys from node options: " + shouldWaitForKeys);
                }
            });
            if (self.startOptions != undefined) {
                let val = self.startOptions;
                if (typeof (val) === "object" &&
                    (val.hasOwnProperty("shardsvr") ||
                     val.hasOwnProperty("binVersion") &&
                         // Should not wait for keys if version is less than 3.6
                         MongoRunner.compareBinVersions(val.binVersion, "3.6") == -1)) {
                    shouldWaitForKeys = false;
                    print("Set shouldWaitForKeys from start options: " + shouldWaitForKeys);
                }
            }
        }
        /**
         * Blocks until the primary node generates cluster time sign keys.
         */
        if (shouldWaitForKeys) {
            var timeout = self.kDefaultTimeoutMS;
            asCluster(this.nodes, function(timeout) {
                print("Waiting for keys to sign $clusterTime to be generated");
                assert.soonNoExcept(function(timeout) {
                    var keyCnt = self.getPrimary(timeout)
                                     .getCollection('admin.system.keys')
                                     .find({purpose: 'HMAC'})
                                     .itcount();
                    return keyCnt >= 2;
                }, "Awaiting keys", timeout);
            });
        }

        // Allow nodes to find sync sources more quickly. We also turn down the heartbeat interval
        // to speed up the initiation process. We use a failpoint so that we can easily turn this
        // behavior on/off without doing a reconfig. This is only an optimization so it's OK if we
        // bypass it in some suites.
        if (failPointsSupported) {
            this.nodes.forEach(function(conn) {
                setFailPoint(conn, "forceSyncSourceRetryWaitForInitialSync", {retryMS: 25});
                setFailPoint(conn, "forceHeartbeatIntervalMS", {intervalMS: 200});
                setFailPoint(conn, "forceBgSyncSyncSourceRetryWaitMS", {sleepMS: 25});
            });
        }

        // Reconfigure the set to contain the correct number of nodes (if necessary).
        const reconfigStart = new Date();  // Measure duration of reconfig and awaitSecondaryNodes.
        if (originalMembers) {
            config.members = originalMembers;
            if (originalSettings) {
                config.settings = originalSettings;
            }
            config.version = config.version ? config.version + 1 : 2;

            // Nodes started with the --configsvr flag must have configsvr = true in their config.
            if (this.nodes[0].hasOwnProperty("fullOptions") &&
                this.nodes[0].fullOptions.hasOwnProperty("configsvr")) {
                config.configsvr = true;
            }

            // Add in nodes 1 at a time since non-force reconfig allows only single node
            // addition/removal.
            print("Reconfiguring replica set to add in other nodes");
            for (let i = 2; i <= originalMembers.length; i++) {
                print("ReplSetTest adding in node " + i);
                assert.soon(function() {
                    const statusRes =
                        assert.commandWorked(primary.adminCommand({replSetGetStatus: 1}));
                    const primaryMember = statusRes.members.find((m) => m.self);
                    config.version = primaryMember.configVersion + 1;

                    config.members = originalMembers.slice(0, i);
                    cmd = {replSetReconfig: config, maxTimeMS: ReplSetTest.kDefaultTimeoutMS};
                    print("Running reconfig command: " + tojsononeline(cmd));
                    const reconfigRes = primary.adminCommand(cmd);
                    const retryableReconfigCodes = [
                        ErrorCodes.NodeNotFound,
                        ErrorCodes.NewReplicaSetConfigurationIncompatible,
                        ErrorCodes.InterruptedDueToReplStateChange,
                        ErrorCodes.ConfigurationInProgress,
                        ErrorCodes.CurrentConfigNotCommittedYet
                    ];
                    if (retryableReconfigCodes.includes(reconfigRes.code)) {
                        print("Retrying reconfig due to " + tojsononeline(reconfigRes));
                        return false;
                    }
                    assert.commandWorked(reconfigRes);
                    return true;
                }, "reconfig for fixture set up failed", ReplSetTest.kDefaultTimeoutMS, 1000);
            }
        }

        // Setup authentication if running test with authentication
        if ((jsTestOptions().keyFile || self.clusterAuthMode === "x509") &&
            cmdKey === 'replSetInitiate') {
            primary = this.getPrimary();
            // The sslSpecial suite sets up cluster with x509 but the shell was not started with TLS
            // so we need to rely on the test to auth if needed.
            if (!(self.clusterAuthMode === "x509" && !primary.isTLS())) {
                jsTest.authenticateNodes(this.nodes);
            }
        }

        // Wait for initial sync to complete on all nodes. Use a faster polling interval so we can
        // detect initial sync completion more quickly.
        this.awaitSecondaryNodes(
            self.kDefaultTimeoutMS, null /* secondaries */, 25 /* retryIntervalMS */);

        // If test commands are not enabled, we cannot wait for 'newlyAdded' removals. Tests that
        // disable test commands must ensure 'newlyAdded' removals mid-test are acceptable.
        if (!doNotWaitForNewlyAddedRemovals && jsTest.options().enableTestCommands) {
            self.waitForAllNewlyAddedRemovals();
        }

        print("ReplSetTest initiate reconfig and awaitSecondaryNodes took " +
              (new Date() - reconfigStart) + "ms for " + this.nodes.length + " nodes in set '" +
              this.name + "'");

        try {
            this.awaitHighestPriorityNodeIsPrimary();
        } catch (e) {
            // Due to SERVER-14017, the call to awaitHighestPriorityNodeIsPrimary() may fail
            // in certain configurations due to being unauthorized.  In that case we proceed
            // even though we aren't guaranteed that the highest priority node is the one that
            // became primary.
            // TODO(SERVER-14017): Unconditionally expect awaitHighestPriorityNodeIsPrimary to pass.
            assert.eq(ErrorCodes.Unauthorized, e.code, tojson(e));
            print("Running awaitHighestPriorityNodeIsPrimary() during ReplSetTest initialization " +
                  "failed with Unauthorized error, proceeding even though we aren't guaranteed " +
                  "that the highest priority node is primary");
        }

        // Set 'featureCompatibilityVersion' for the entire replica set, if specified.
        if (jsTest.options().replSetFeatureCompatibilityVersion) {
            // Authenticate before running the command.
            asCluster(self.nodes, function setFCV() {
                let fcv = jsTest.options().replSetFeatureCompatibilityVersion;
                print("Setting feature compatibility version for replica set to '" + fcv + "'");
                assert.commandWorked(
                    self.getPrimary().adminCommand({setFeatureCompatibilityVersion: fcv}));

                // Wait for the new 'featureCompatibilityVersion' to propagate to all nodes in the
                // replica set. The 'setFeatureCompatibilityVersion' command only waits for
                // replication to a majority of nodes by default.
                self.awaitReplication();
            });
        }

        // We need to disable the enableDefaultWriteConcernUpdatesForInitiate parameter
        // to disallow updating the default write concern after initiating is complete.
        asCluster(self.nodes, () => {
            for (let node of self.nodes) {
                // asCluster() currently does not validate connections with X509 authentication.
                // If the test is using X509, we skip disabling the server parameter as the
                // 'setParameter' command will fail.
                // TODO(SERVER-57924): cleanup asCluster() to avoid checking here.
                if (self._notX509Auth(node) || node.isTLS()) {
                    const serverStatus =
                        assert.commandWorked(node.getDB("admin").runCommand({serverStatus: 1}));
                    const currVersion = serverStatus.version;
                    const olderThan50 = MongoRunner.compareBinVersions(
                                            MongoRunner.getBinVersionFor("5.0"),
                                            MongoRunner.getBinVersionFor(currVersion)) === 1;

                    // The following params are available only on versions greater than or equal to
                    // 5.0.
                    if (olderThan50) {
                        continue;
                    }

                    assert.commandWorked(node.adminCommand({
                        setParameter: 1,
                        enableDefaultWriteConcernUpdatesForInitiate: false,
                    }));

                    // Re-enable the reconfig check to ensure that committed writes cannot be rolled
                    // back. We disabled this check during initialization to ensure that replica
                    // sets will not fail to start up.
                    if (jsTestOptions().enableTestCommands) {
                        assert.commandWorked(node.adminCommand(
                            {setParameter: 1, enableReconfigRollbackCommittedWritesCheck: true}));
                    }
                }
            }
        });

        const awaitTsStart = new Date();  // Measure duration of awaitLastStableRecoveryTimestamp.
        if (!doNotWaitForStableRecoveryTimestamp) {
            // Speed up the polling interval so we can detect recovery timestamps more quickly.
            self.awaitLastStableRecoveryTimestamp(25 /* retryIntervalMS */);
        }
        print("ReplSetTest initiate awaitLastStableRecoveryTimestamp took " +
              (new Date() - awaitTsStart) + "ms for " + this.nodes.length + " nodes in set '" +
              this.name + "'");

        // Make sure all nodes are up to date. Bypass this if the heartbeat interval wasn't turned
        // down or the test specifies that we should not wait for replication. This is only an
        // optimization so it's OK if we bypass it in some suites.
        if (failPointsSupported && !doNotWaitForReplication) {
            asCluster(self.nodes, function() {
                self.awaitNodesAgreeOnAppliedOpTime();
            });
        }

        // Waits for the primary only services to finish rebuilding to avoid background writes
        // after initiation is done. PrimaryOnlyServices wait for the stepup optime to be majority
        // committed before rebuilding services, so we skip waiting for PrimaryOnlyServices if
        // we do not wait for replication.
        if (!doNotWaitForReplication && !doNotWaitForPrimaryOnlyServices) {
            primary = self.getPrimary();
            // TODO(SERVER-57924): cleanup asCluster() to avoid checking here.
            if (self._notX509Auth(primary) || primary.isTLS()) {
                asCluster(self.nodes, function() {
                    self.waitForPrimaryOnlyServices(primary);
                });
            }
        }

        // Turn off the failpoints now that initial sync and initial setup is complete.
        if (failPointsSupported) {
            this.nodes.forEach(function(conn) {
                clearFailPoint(conn, "forceSyncSourceRetryWaitForInitialSync");
                clearFailPoint(conn, "forceHeartbeatIntervalMS");
                clearFailPoint(conn, "forceBgSyncSyncSourceRetryWaitMS");
            });
        }

        print("ReplSetTest initiateWithAnyNodeAsPrimary took " + (new Date() - startTime) +
              "ms for " + this.nodes.length + " nodes.");
    };

    /**
     * Runs replSetInitiate on the replica set and requests the first node to step up as primary.
     * This version should be prefered where possible but requires all connections in the
     * ReplSetTest to be authorized to run replSetGetStatus.
     */
    this.initiateWithNodeZeroAsPrimary = function(cfg, initCmd, {
        doNotWaitForPrimaryOnlyServices: doNotWaitForPrimaryOnlyServices = false,
    } = {}) {
        let startTime = new Date();  // Measure the execution time of this function.
        this.initiateWithAnyNodeAsPrimary(cfg, initCmd, {doNotWaitForPrimaryOnlyServices: true});

        // stepUp() calls awaitReplication() which requires all nodes to be authorized to run
        // replSetGetStatus.
        asCluster(this.nodes, function() {
            const newPrimary = self.nodes[0];
            self.stepUp(newPrimary);
            if (!doNotWaitForPrimaryOnlyServices) {
                self.waitForPrimaryOnlyServices(newPrimary);
            }
        });

        print("ReplSetTest initiateWithNodeZeroAsPrimary took " + (new Date() - startTime) +
              "ms for " + this.nodes.length + " nodes.");
    };

    /**
     * Runs replSetInitiate on the replica set and requests the first node to step up as
     * primary.
     */
    this.initiate = function(cfg, initCmd, {
        doNotWaitForPrimaryOnlyServices: doNotWaitForPrimaryOnlyServices = false,
    } = {}) {
        this.initiateWithNodeZeroAsPrimary(
            cfg, initCmd, {doNotWaitForPrimaryOnlyServices: doNotWaitForPrimaryOnlyServices});
    };

    /**
     * Modifies the election timeout to be 24 hours so that no unplanned elections happen. Then
     * runs replSetInitiate on the replica set with the new config.
     */
    this.initiateWithHighElectionTimeout = function(config) {
        config = config || this.getReplSetConfig();
        config.settings = config.settings || {};
        config.settings["electionTimeoutMillis"] = ReplSetTest.kForeverMillis;
        this.initiate(config);
    };

    /**
     * Steps up 'node' as primary and by default it waits for the stepped up node to become a
     * writable primary and waits for all nodes to reach the same optime before sending the
     * replSetStepUp command to 'node'.
     *
     * Calls awaitReplication() which requires all connections in 'nodes' to be authenticated.
     * This stepUp() assumes that there is no network partition in the replica set.
     */
    this.stepUp = function(node, {
        awaitReplicationBeforeStepUp: awaitReplicationBeforeStepUp = true,
        awaitWritablePrimary: awaitWritablePrimary = true
    } = {}) {
        jsTest.log("ReplSetTest stepUp: Stepping up " + node.host);

        if (awaitReplicationBeforeStepUp) {
            this.awaitReplication();
        }

        assert.soonNoExcept(() => {
            const res = node.adminCommand({replSetStepUp: 1});
            // This error is possible if we are running mongoDB binary < 3.4 as
            // part of multi-version upgrade test. So, for those older branches,
            // simply wait for the requested node to get elected as primary due
            // to election timeout.
            if (!res.ok && res.code === ErrorCodes.CommandNotFound) {
                jsTest.log(
                    'replSetStepUp command not supported on node ' + node.host +
                    " ; so wait for the requested node to get elected due to election timeout.");
                if (this.getPrimary() === node) {
                    return true;
                }
            }
            assert.commandWorked(res);

            // Since assert.soon() timeout is 10 minutes (default), setting
            // awaitNodesAgreeOnPrimary() timeout as 1 minute to allow retry of replSetStepUp
            // command on failure of the replica set to agree on the primary.
            const timeout = 60 * 1000;
            this.awaitNodesAgreeOnPrimary(timeout, this.nodes, node);

            // getPrimary() guarantees that there will be only one writable primary for a replica
            // set.
            if (!awaitWritablePrimary || this.getPrimary() === node) {
                return true;
            }

            jsTest.log(node.host + ' is not primary after stepUp command');
            return false;
        }, "Timed out while waiting for stepUp to succeed on node in port: " + node.port);

        jsTest.log("ReplSetTest stepUp: Finished stepping up " + node.host);
        return node;
    };

    /**
     * Waits for primary only services to finish the rebuilding stage after a primary is elected.
     * This is useful for tests that are expecting particular write timestamps since some primary
     * only services can do background writes (e.g. build indexes) during rebuilding stage that
     * could advance the last write timestamp.
     */
    this.waitForPrimaryOnlyServices = function(primary) {
        jsTest.log("Waiting for primary only services to finish rebuilding");
        primary = primary || self.getPrimary();

        assert.soonNoExcept(function() {
            const res = assert.commandWorked(primary.adminCommand({serverStatus: 1, repl: 1}));
            // 'PrimaryOnlyServices' does not exist prior to v5.0, using empty
            // object to skip waiting in case of multiversion tests.
            const services = res.repl.primaryOnlyServices || {};
            return Object.keys(services).every((s) => {
                return services[s].state === undefined || services[s].state === "running";
            });
        }, "Timed out waiting for primary only services to finish rebuilding");
    };

    /**
     * Gets the current replica set config from the specified node index. If no nodeId is specified,
     * uses the primary node.
     */
    this.getReplSetConfigFromNode = function(nodeId) {
        if (nodeId == undefined) {
            // Use 90 seconds timeout for finding a primary
            return _replSetGetConfig(self.getPrimary(90 * 1000));
        }

        if (!isNumber(nodeId)) {
            throw Error(nodeId + ' is not a number');
        }

        return _replSetGetConfig(self.nodes[nodeId]);
    };

    this.reInitiate = function() {
        var config = this.getReplSetConfigFromNode();
        var newConfig = this.getReplSetConfig();
        // Only reset members.
        config.members = newConfig.members;
        config.version += 1;

        this._setDefaultConfigOptions(config);

        // Set a maxTimeMS so reconfig fails if it times out.
        assert.adminCommandWorkedAllowingNetworkError(
            this.getPrimary(), {replSetReconfig: config, maxTimeMS: ReplSetTest.kDefaultTimeoutMS});
    };

    /**
     * Blocks until all nodes in the replica set have the same config version as the primary.
     **/
    this.awaitNodesAgreeOnConfigVersion = function(timeout) {
        timeout = timeout || this.kDefaultTimeoutMS;

        assert.soonNoExcept(function() {
            var primaryVersion = self.getPrimary().getDB('admin')._helloOrLegacyHello().setVersion;

            for (var i = 0; i < self.nodes.length; i++) {
                var version = self.nodes[i].getDB('admin')._helloOrLegacyHello().setVersion;
                assert.eq(version,
                          primaryVersion,
                          "waiting for secondary node " + self.nodes[i].host +
                              " with config version of " + version +
                              " to match the version of the primary " + primaryVersion);
            }

            return true;
        }, "Awaiting nodes to agree on config version", timeout);
    };

    /**
     * Waits for the last oplog entry on the primary to be visible in the committed snapshot view
     * of the oplog on *all* secondaries. When majority read concern is disabled, there is no
     * committed snapshot view, so this function waits for the knowledge of the majority commit
     * point on each node to advance to the optime of the last oplog entry on the primary.
     * Returns last oplog entry.
     */
    this.awaitLastOpCommitted = function(timeout, members) {
        var rst = this;
        var primary = rst.getPrimary();
        var primaryOpTime = _getLastOpTime(primary);

        let membersToCheck;
        if (members !== undefined) {
            print("Waiting for op with OpTime " + tojson(primaryOpTime) + " to be committed on " +
                  members.map(s => s.host));

            membersToCheck = members;
        } else {
            print("Waiting for op with OpTime " + tojson(primaryOpTime) +
                  " to be committed on all secondaries");

            membersToCheck = rst.nodes;
        }

        assert.soonNoExcept(
            function() {
                for (var i = 0; i < membersToCheck.length; i++) {
                    var node = membersToCheck[i];

                    // Continue if we're connected to an arbiter
                    var res = assert.commandWorked(node.adminCommand({replSetGetStatus: 1}));
                    if (res.myState == ReplSetTest.State.ARBITER) {
                        continue;
                    }
                    var rcmOpTime = _getReadConcernMajorityOpTime(node);
                    if (friendlyEqual(rcmOpTime, {ts: Timestamp(0, 0), t: NumberLong(0)})) {
                        return false;
                    }
                    if (rs.compareOpTimes(rcmOpTime, primaryOpTime) < 0) {
                        return false;
                    }
                }

                return true;
            },
            "Op with OpTime " + tojson(primaryOpTime) +
                " failed to be committed on all secondaries",
            timeout);

        print("Op with OpTime " + tojson(primaryOpTime) +
              " successfully committed on all secondaries");
        return primaryOpTime;
    };

    // TODO(SERVER-14017): Remove this extra sub-shell in favor of a cleaner authentication
    // solution.
    function runFnWithAuthOnPrimary(fn, fnName) {
        const primary = self.getPrimary();
        const primaryId = "n" + self.getNodeId(primary);
        const primaryOptions = self.nodeOptions[primaryId] || {};
        const options =
            (primaryOptions === {} || !self.startOptions) ? primaryOptions : self.startOptions;
        const authMode = options.clusterAuthMode;
        if (authMode === "x509") {
            print(fnName + ": authenticating on separate shell with x509 for " + self.name);
            const caFile = options.sslCAFile ? options.sslCAFile : options.tlsCAFile;
            const keyFile =
                options.sslPEMKeyFile ? options.sslPEMKeyFile : options.tlsCertificateKeyFile;
            const subShellArgs = [
                'mongo',
                '--ssl',
                '--sslCAFile=' + caFile,
                '--sslPEMKeyFile=' + keyFile,
                '--sslAllowInvalidHostnames',
                '--authenticationDatabase=$external',
                '--authenticationMechanism=MONGODB-X509',
                primary.host,
                '--eval',
                `(${fn.toString()})();`
            ];

            const retVal = _runMongoProgram(...subShellArgs);
            assert.eq(retVal, 0, 'mongo shell did not succeed with exit code 0');
        } else {
            print(fnName + ": authenticating with authMode '" + authMode + "' for " + self.name);
            asCluster(primary, fn, primaryOptions.keyFile);
        }
    }

    /**
     * This function performs some writes and then waits for all nodes in this replica set to
     * establish a stable recovery timestamp. The writes are necessary to prompt storage engines to
     * quickly establish stable recovery timestamps.
     *
     * A stable recovery timestamp ensures recoverable rollback is possible, as well as startup
     * recovery without re-initial syncing in the case of durable storage engines. By waiting for
     * all nodes to report having a stable recovery timestamp, we ensure a degree of stability in
     * our tests to run as expected.
     */
    this.awaitLastStableRecoveryTimestamp = function(retryIntervalMS) {
        let rst = this;
        let primary = rst.getPrimary();
        let id = tojson(rst.nodeList());
        retryIntervalMS = retryIntervalMS || 200;

        // All nodes must be in primary/secondary state prior to this point. Perform a majority
        // write to ensure there is a committed operation on the set. The commit point will
        // propagate to all members and trigger a stable checkpoint on all persisted storage engines
        // nodes.
        function advanceCommitPoint(primary) {
            // Shadow 'db' so that we can call the function on the primary without a separate shell
            // when x509 auth is not needed.
            let db = primary.getDB('admin');
            const appendOplogNoteFn = function() {
                assert.commandWorked(db.adminCommand({
                    "appendOplogNote": 1,
                    "data": {"awaitLastStableRecoveryTimestamp": 1},
                    "writeConcern": {"w": "majority", "wtimeout": ReplSetTest.kDefaultTimeoutMS}
                }));
            };

            runFnWithAuthOnPrimary(appendOplogNoteFn, "AwaitLastStableRecoveryTimestamp");
        }

        print("AwaitLastStableRecoveryTimestamp: Beginning for " + id);

        let replSetStatus = assert.commandWorked(primary.adminCommand("replSetGetStatus"));
        if (replSetStatus["configsvr"]) {
            // Performing dummy replicated writes against a configsvr is hard, especially if auth
            // is also enabled.
            return;
        }

        rst.awaitNodesAgreeOnPrimary();
        primary = rst.getPrimary();

        print("AwaitLastStableRecoveryTimestamp: ensuring the commit point advances for " + id);
        advanceCommitPoint(primary);

        print("AwaitLastStableRecoveryTimestamp: Waiting for stable recovery timestamps for " + id);

        assert.soonNoExcept(
            function() {
                for (let node of rst.nodes) {
                    // The `lastStableRecoveryTimestamp` field contains a stable timestamp
                    // guaranteed to exist on storage engine recovery to stable timestamp.
                    let res = assert.commandWorked(node.adminCommand({replSetGetStatus: 1}));

                    // Continue if we're connected to an arbiter.
                    if (res.myState === ReplSetTest.State.ARBITER) {
                        continue;
                    }

                    // A missing `lastStableRecoveryTimestamp` field indicates that the storage
                    // engine does not support `recover to a stable timestamp`.
                    //
                    // A null `lastStableRecoveryTimestamp` indicates that the storage engine
                    // supports "recover to a stable timestamp", but does not have a stable recovery
                    // timestamp yet.
                    if (res.hasOwnProperty("lastStableRecoveryTimestamp") &&
                        res.lastStableRecoveryTimestamp.getTime() === 0) {
                        print("AwaitLastStableRecoveryTimestamp: " + node.host +
                              " does not have a stable recovery timestamp yet.");
                        return false;
                    }
                }

                return true;
            },
            "Not all members have a stable recovery timestamp",
            ReplSetTest.kDefaultTimeoutMS,
            retryIntervalMS);

        print("AwaitLastStableRecoveryTimestamp: A stable recovery timestamp has successfully " +
              "established on " + id);
    };

    // Wait until the optime of the specified type reaches the primary's last applied optime. Blocks
    // on all secondary nodes or just 'secondaries', if specified. The timeout will reset if any of
    // the secondaries makes progress.
    this.awaitReplication = function(timeout, secondaryOpTimeType, secondaries, retryIntervalMS) {
        if (secondaries !== undefined && secondaries !== self._secondaries) {
            print("ReplSetTest awaitReplication: going to check only " +
                  secondaries.map(s => s.host));
        }

        timeout = timeout || self.kDefaultTimeoutMS;
        retryIntervalMS = retryIntervalMS || 200;

        secondaryOpTimeType = secondaryOpTimeType || ReplSetTest.OpTimeType.LAST_APPLIED;

        var primaryLatestOpTime;

        // Blocking call, which will wait for the last optime written on the primary to be available
        var awaitLastOpTimeWrittenFn = function() {
            var primary = self.getPrimary();
            assert.soonNoExcept(function() {
                try {
                    primaryLatestOpTime = _getLastOpTime(primary);
                } catch (e) {
                    print("ReplSetTest caught exception " + e);
                    return false;
                }

                return true;
            }, "awaiting oplog query", timeout);
        };

        awaitLastOpTimeWrittenFn();

        // get the latest config version from primary (with a few retries in case of error)
        var primaryConfigVersion;
        var primaryName;
        var primary;
        var num_attempts = 3;

        assert.retryNoExcept(() => {
            primary = this.getPrimary();
            primaryConfigVersion =
                asCluster(primary, () => this.getReplSetConfigFromNode()).version;
            primaryName = primary.host;
            return true;
        }, "ReplSetTest awaitReplication: couldnt get repl set config.", num_attempts, 1000);

        print("ReplSetTest awaitReplication: starting: optime for primary, " + primaryName +
              ", is " + tojson(primaryLatestOpTime));

        let nodesCaughtUp = false;
        let secondariesToCheck = secondaries || self._secondaries;
        let nodeProgress = Array(secondariesToCheck.length);

        const Progress = Object.freeze({
            Skip: 'Skip',
            CaughtUp: 'CaughtUp',
            InProgress: 'InProgress',
            Stuck: 'Stuck',
            ConfigMismatch: 'ConfigMismatch'
        });

        function checkProgressSingleNode(index, secondaryCount) {
            var secondary = secondariesToCheck[index];
            var secondaryName = secondary.host;

            var secondaryConfigVersion = asCluster(secondary,
                                                   () => secondary.getDB("local")['system.replset']
                                                             .find()
                                                             .readConcern("local")
                                                             .limit(1)
                                                             .next()
                                                             .version);

            if (primaryConfigVersion != secondaryConfigVersion) {
                print("ReplSetTest awaitReplication: secondary #" + secondaryCount + ", " +
                      secondaryName + ", has config version #" + secondaryConfigVersion +
                      ", but expected config version #" + primaryConfigVersion);

                if (secondaryConfigVersion > primaryConfigVersion) {
                    primary = self.getPrimary();
                    primaryConfigVersion = primary.getDB("local")['system.replset']
                                               .find()
                                               .readConcern("local")
                                               .limit(1)
                                               .next()
                                               .version;
                    primaryName = primary.host;

                    print("ReplSetTest awaitReplication: optime for primary, " + primaryName +
                          ", is " + tojson(primaryLatestOpTime));
                }

                return Progress.ConfigMismatch;
            }

            // Skip this node if we're connected to an arbiter
            var res = asCluster(
                secondary,
                () => assert.commandWorked(secondary.adminCommand({replSetGetStatus: 1})));
            if (res.myState == ReplSetTest.State.ARBITER) {
                return Progress.Skip;
            }

            print("ReplSetTest awaitReplication: checking secondary #" + secondaryCount + ": " +
                  secondaryName);

            secondary.getDB("admin").getMongo().setSecondaryOk();

            var secondaryOpTime;
            if (secondaryOpTimeType == ReplSetTest.OpTimeType.LAST_DURABLE) {
                secondaryOpTime = _getDurableOpTime(secondary);
            } else {
                secondaryOpTime = _getLastOpTime(secondary);
            }

            // If the node doesn't have a valid opTime, it likely hasn't received any writes from
            // the primary yet.
            if (!rs.isValidOpTime(secondaryOpTime)) {
                print("ReplSetTest awaitReplication: optime for secondary #" + secondaryCount +
                      ", " + secondaryName + ", is " + tojson(secondaryOpTime) +
                      ", which is NOT valid.");
                return Progress.Stuck;
            }

            // See if the node made progress. We count it as progress even if the node's last optime
            // went backwards because that means the node is in rollback.
            let madeProgress = (nodeProgress[index] &&
                                (rs.compareOpTimes(nodeProgress[index], secondaryOpTime) != 0));
            nodeProgress[index] = secondaryOpTime;

            if (rs.compareOpTimes(primaryLatestOpTime, secondaryOpTime) < 0) {
                primaryLatestOpTime = _getLastOpTime(primary);
                print("ReplSetTest awaitReplication: optime for " + secondaryName +
                      " is newer, resetting latest primary optime to " +
                      tojson(primaryLatestOpTime) + ". Also resetting awaitReplication timeout");
                return Progress.InProgress;
            }

            if (!friendlyEqual(primaryLatestOpTime, secondaryOpTime)) {
                print("ReplSetTest awaitReplication: optime for secondary #" + secondaryCount +
                      ", " + secondaryName + ", is " + tojson(secondaryOpTime) + " but latest is " +
                      tojson(primaryLatestOpTime));
                print("ReplSetTest awaitReplication: secondary #" + secondaryCount + ", " +
                      secondaryName + ", is NOT synced");

                // Reset the timeout if a node makes progress, but isn't caught up yet.
                if (madeProgress) {
                    print("ReplSetTest awaitReplication: secondary #" + secondaryCount + ", " +
                          secondaryName +
                          ", has made progress. Resetting awaitReplication timeout");
                    return Progress.InProgress;
                }
                return Progress.Stuck;
            }

            print("ReplSetTest awaitReplication: secondary #" + secondaryCount + ", " +
                  secondaryName + ", is synced");
            return Progress.CaughtUp;
        }

        // We will reset the timeout if a nodes makes progress, but still isn't caught up yet.
        while (!nodesCaughtUp) {
            assert.soonNoExcept(function() {
                try {
                    print("ReplSetTest awaitReplication: checking secondaries against latest " +
                          "primary optime " + tojson(primaryLatestOpTime));
                    var secondaryCount = 0;

                    for (var i = 0; i < secondariesToCheck.length; i++) {
                        const action = checkProgressSingleNode(i, secondaryCount);

                        switch (action) {
                            case Progress.CaughtUp:
                                // We only need to increment the secondaryCount if this node is
                                // caught up.
                                secondaryCount++;
                                continue;
                            case Progress.Skip:
                                // Don't increment secondaryCount because this node is an arbiter.
                                continue;
                            case Progress.InProgress:
                                return true;
                            case Progress.Stuck:
                            case Progress.ConfigMismatch:
                                return false;
                            default:
                                throw Error("invalid action: " + tojson(action));
                        }
                    }

                    print("ReplSetTest awaitReplication: finished: all " + secondaryCount +
                          " secondaries synced at optime " + tojson(primaryLatestOpTime));
                    nodesCaughtUp = true;
                    return true;
                } catch (e) {
                    print("ReplSetTest awaitReplication: caught exception " + e);

                    // We might have a new primary now
                    awaitLastOpTimeWrittenFn();

                    print("ReplSetTest awaitReplication: resetting: optime for primary " +
                          self._primary + " is " + tojson(primaryLatestOpTime));

                    return false;
                }
            }, "awaitReplication timed out", timeout, retryIntervalMS);
        }
    };

    this.getHashesUsingSessions = function(sessions, dbName, {
        readAtClusterTime,
    } = {}) {
        return sessions.map(session => {
            const commandObj = {dbHash: 1};
            const db = session.getDatabase(dbName);
            // If eMRC=false, we use the old behavior using $_internalReadAtClusterTime.
            // Otherwise, we use snapshot read concern for dbhash.
            if (readAtClusterTime !== undefined) {
                if (jsTest.options().enableMajorityReadConcern !== false) {
                    commandObj.readConcern = {level: "snapshot", atClusterTime: readAtClusterTime};
                } else {
                    commandObj.$_internalReadAtClusterTime = readAtClusterTime;
                }
            }

            return assert.commandWorked(db.runCommand(commandObj));
        });
    };

    // Gets the dbhash for the current primary and for all secondaries (or the members of
    // 'secondaries', if specified).
    this.getHashes = function(dbName, secondaries) {
        assert.neq(dbName, 'local', 'Cannot run getHashes() on the "local" database');

        // _determineLiveSecondaries() repopulates both 'self._secondaries' and 'self._primary'. If
        // we're passed an explicit set of secondaries we don't want to do that.
        secondaries = secondaries || _determineLiveSecondaries();

        const sessions = [
            self._primary,
            ...secondaries.filter(conn => {
                return !conn.getDB('admin')._helloOrLegacyHello().arbiterOnly;
            })
        ].map(conn => conn.getDB('test').getSession());

        const hashes = this.getHashesUsingSessions(sessions, dbName);
        return {primary: hashes[0], secondaries: hashes.slice(1)};
    };

    this.findOplog = function(conn, query, limit) {
        return conn.getDB('local')
            .getCollection(oplogName)
            .find(query)
            .sort({$natural: -1})
            .limit(limit);
    };

    this.dumpOplog = function(conn, query = {}, limit = 10) {
        var log = 'Dumping the latest ' + limit + ' documents that match ' + tojson(query) +
            ' from the oplog ' + oplogName + ' of ' + conn.host;
        let entries = [];
        let cursor = this.findOplog(conn, query, limit);
        cursor.forEach(function(entry) {
            log = log + '\n' + tojsononeline(entry);
            entries.push(entry);
        });
        jsTestLog(log);
        return entries;
    };

    // Call the provided checkerFunction, after the replica set has been write locked.
    this.checkReplicaSet = function(checkerFunction, secondaries, ...checkerFunctionArgs) {
        assert.eq(typeof checkerFunction,
                  "function",
                  "Expected checkerFunction parameter to be a function");

        assert(secondaries, 'must pass list of live nodes to checkReplicaSet');

        // Call getPrimary to populate rst with information about the nodes.
        var primary = this.getPrimary();
        assert(primary, 'calling getPrimary() failed');

        // Prevent an election, which could start, then hang due to the fsyncLock.
        jsTestLog(`Freezing nodes: [${secondaries.map((n) => n.host)}]`);
        self.freeze(secondaries);

        // Await primary in case freeze() had to step down a node that was unexpectedly primary.
        self.getPrimary();

        // Lock the primary to prevent writes in the background while we are getting the
        // dbhashes of the replica set members. It's not important if the storage engine fails
        // to perform its fsync operation. The only requirement is that writes are locked out.
        assert.commandWorked(primary.adminCommand({fsync: 1, lock: 1, allowFsyncFailure: true}),
                             'failed to lock the primary');

        function postApplyCheckerFunction() {
            // Unfreeze secondaries and unlock primary.
            try {
                assert.commandWorked(primary.adminCommand({fsyncUnlock: 1}));
            } catch (e) {
                print(`Continuing after fsyncUnlock error: ${e}`);
            }

            secondaries.forEach(secondary => {
                try {
                    assert.commandWorked(secondary.adminCommand({replSetFreeze: 0}));
                } catch (e) {
                    print(`Continuing after replSetFreeze error: ${e}`);
                }
            });
        }

        let activeException = false;
        try {
            self.awaitReplication(null, null, secondaries);
            checkerFunction.apply(this, checkerFunctionArgs);
        } catch (e) {
            activeException = true;
            throw e;
        } finally {
            if (activeException) {
                try {
                    postApplyCheckerFunction();
                } catch (e) {
                    // Print the postApplyCheckerFunction error, propagate the original.
                    print(e);
                }
            } else {
                postApplyCheckerFunction();
            }
        }
    };

    // Check the replicated data hashes for all live nodes in the set.
    this.checkReplicatedDataHashes = function(
        msgPrefix = 'checkReplicatedDataHashes', excludedDBs = [], ignoreUUIDs = false) {
        // Return items that are in either Array `a` or `b` but not both. Note that this will
        // not work with arrays containing NaN. Array.indexOf(NaN) will always return -1.

        var collectionPrinted = new Set();

        function checkDBHashesForReplSet(
            rst, dbDenylist = [], secondaries, msgPrefix, ignoreUUIDs) {
            // We don't expect the local database to match because some of its
            // collections are not replicated.
            dbDenylist.push('local');
            secondaries = secondaries || rst._secondaries;

            let success = true;
            let hasDumpedOplog = false;

            // Use '_primary' instead of getPrimary() to avoid the detection of a new primary.
            // '_primary' must have been populated.
            const primary = rst._primary;
            let combinedDBs = new Set(primary.getDBNames());
            const replSetConfig = rst.getReplSetConfigFromNode();

            print("checkDBHashesForReplSet waiting for secondaries to be ready: " +
                  tojson(secondaries));
            this.awaitSecondaryNodes(self.kDefaultTimeoutMS, secondaries);

            print("checkDBHashesForReplSet checking data hashes against primary: " + primary.host);

            secondaries.forEach(node => {
                // Arbiters have no replicated data.
                if (isNodeArbiter(node)) {
                    print("checkDBHashesForReplSet skipping data of arbiter: " + node.host);
                    return;
                }
                print("checkDBHashesForReplSet going to check data hashes on secondary: " +
                      node.host);
                node.getDBNames().forEach(dbName => combinedDBs.add(dbName));
            });

            for (const dbName of combinedDBs) {
                if (Array.contains(dbDenylist, dbName)) {
                    continue;
                }

                const dbHashes = rst.getHashes(dbName, secondaries);
                const primaryDBHash = dbHashes.primary;
                // The `config.image_collection` is not necessarily consistent after an initial
                // sync. It's guaranteed to be eventually consistent. However, tests that initial
                // sync concurrently with retryable findAndModify statements cannot make this
                // assumption.
                const primaryCollections = Object.keys(primaryDBHash.collections)
                                               .filter((x) => x !== "config.image_collection");
                assert.commandWorked(primaryDBHash);

                // Filter only collections that were retrieved by the dbhash. listCollections
                // may include non-replicated collections like system.profile.
                const primaryCollInfos = new CollInfos(primary, 'primary', dbName);
                primaryCollInfos.filter(primaryCollections);

                dbHashes.secondaries.forEach(secondaryDBHash => {
                    assert.commandWorked(secondaryDBHash);

                    const secondary = secondaryDBHash._mongo;
                    const secondaryCollections = Object.keys(secondaryDBHash.collections);
                    // Check that collection information is consistent on the primary and
                    // secondaries.
                    const secondaryCollInfos = new CollInfos(secondary, 'secondary', dbName);
                    secondaryCollInfos.filter(secondaryCollections);

                    const hasSecondaryIndexes =
                        replSetConfig.members[rst.getNodeId(secondary)].buildIndexes !== false;

                    print(
                        `checking db hash between primary: ${primary} and secondary ${secondary}`);
                    success = DataConsistencyChecker.checkDBHash(primaryDBHash,
                                                                 primaryCollInfos,
                                                                 secondaryDBHash,
                                                                 secondaryCollInfos,
                                                                 msgPrefix,
                                                                 ignoreUUIDs,
                                                                 hasSecondaryIndexes,
                                                                 collectionPrinted) &&
                        success;

                    if (!success) {
                        if (!hasDumpedOplog) {
                            print("checkDBHashesForReplSet dumping oplogs from all nodes");
                            this.dumpOplog(primary, {}, 100);
                            rst.getSecondaries().forEach(secondary =>
                                                             this.dumpOplog(secondary, {}, 100));
                            hasDumpedOplog = true;
                        }
                    }
                });
            }

            assert(success, 'dbhash mismatch between primary and secondary');
        }

        const liveSecondaries = _determineLiveSecondaries();
        this.checkReplicaSet(checkDBHashesForReplSet,
                             liveSecondaries,
                             this,
                             excludedDBs,
                             liveSecondaries,
                             msgPrefix,
                             ignoreUUIDs);
    };

    this.checkOplogs = function(msgPrefix) {
        var liveSecondaries = _determineLiveSecondaries();
        this.checkReplicaSet(checkOplogs, liveSecondaries, this, liveSecondaries, msgPrefix);
    };

    /**
     * Check oplogs on all nodes, by reading from the last time. Since the oplog is a capped
     * collection, each node may not contain the same number of entries and stop if the cursor
     * is exhausted on any node being checked.
     */
    function checkOplogs(rst, secondaries, msgPrefix = 'checkOplogs') {
        secondaries = secondaries || rst._secondaries;
        const kCappedPositionLostSentinel = Object.create(null);
        const OplogReader = function(mongo) {
            this._safelyPerformCursorOperation = function(name, operation, onCappedPositionLost) {
                if (!this.cursor) {
                    throw new Error("OplogReader is not open!");
                }

                if (this._cursorExhausted) {
                    return onCappedPositionLost;
                }

                try {
                    return operation(this.cursor);
                } catch (err) {
                    print("Error: " + name + " threw '" + err.message + "' on " + this.mongo.host);
                    // Occasionally, the capped collection will get truncated while we are iterating
                    // over it. Since we are iterating over the collection in reverse, getting a
                    // truncated item means we've reached the end of the list, so return false.
                    if (err.code === ErrorCodes.CappedPositionLost) {
                        this.cursor.close();
                        this._cursorExhausted = true;
                        return onCappedPositionLost;
                    }

                    throw err;
                }
            };

            this.next = function() {
                return this._safelyPerformCursorOperation('next', function(cursor) {
                    return cursor.next();
                }, kCappedPositionLostSentinel);
            };

            this.hasNext = function() {
                return this._safelyPerformCursorOperation('hasNext', function(cursor) {
                    return cursor.hasNext();
                }, false);
            };

            this.query = function(ts) {
                const coll = this.getOplogColl();
                const query = {ts: {$gte: ts ? ts : new Timestamp()}};
                // Set the cursor to read backwards, from last to first. We also set the cursor not
                // to time out since it may take a while to process each batch and a test may have
                // changed "cursorTimeoutMillis" to a short time period.
                this._cursorExhausted = false;
                this.cursor =
                    coll.find(query).sort({$natural: -1}).noCursorTimeout().readConcern("local");
            };

            this.getFirstDoc = function() {
                return this.getOplogColl()
                    .find()
                    .sort({$natural: 1})
                    .readConcern("local")
                    .limit(-1)
                    .next();
            };

            this.getOplogColl = function() {
                return this.mongo.getDB("local")[oplogName];
            };

            this.cursor = null;
            this._cursorExhausted = true;
            this.mongo = mongo;
        };

        function assertOplogEntriesEq(oplogEntry0, oplogEntry1, reader0, reader1, prevOplogEntry) {
            if (!bsonBinaryEqual(oplogEntry0, oplogEntry1)) {
                const query = prevOplogEntry ? {ts: {$lte: prevOplogEntry.ts}} : {};
                rst.nodes.forEach(node => this.dumpOplog(node, query, 100));
                const log = msgPrefix + ", non-matching oplog entries for the following nodes: \n" +
                    reader0.mongo.host + ": " + tojsononeline(oplogEntry0) + "\n" +
                    reader1.mongo.host + ": " + tojsononeline(oplogEntry1);
                assert(false, log);
            }
        }

        print("checkOplogs starting oplog checks.");
        print("checkOplogs waiting for secondaries to be ready.");
        this.awaitSecondaryNodes(self.kDefaultTimeoutMS, secondaries);
        if (secondaries.length >= 1) {
            let readers = [];
            let smallestTS = new Timestamp(Math.pow(2, 32) - 1, Math.pow(2, 32) - 1);
            const nodes = rst.nodes;
            let firstReaderIndex;
            for (let i = 0; i < nodes.length; i++) {
                const node = nodes[i];

                if (rst._primary !== node && !secondaries.includes(node)) {
                    print("checkOplogs skipping oplog of node: " + node.host);
                    continue;
                }

                // Arbiters have no documents in the oplog.
                if (isNodeArbiter(node)) {
                    jsTestLog("checkOplogs skipping oplog of arbiter: " + node.host);
                    continue;
                }

                print("checkOplogs going to check oplog of node: " + node.host);
                readers[i] = new OplogReader(node);
                const currTS = readers[i].getFirstDoc().ts;
                // Find the reader which has the smallestTS. This reader should have the most
                // number of documents in the oplog.
                if (timestampCmp(currTS, smallestTS) < 0) {
                    smallestTS = currTS;
                    firstReaderIndex = i;
                }
                // Start all oplogReaders at their last document.
                readers[i].query();
            }

            // Read from the reader which has the most oplog entries.
            // Note, we read the oplog backwards from last to first.
            const firstReader = readers[firstReaderIndex];
            let prevOplogEntry;
            assert(firstReader.hasNext(), "oplog is empty while checkOplogs is called");
            // Track the number of bytes we are reading as we check the oplog. We use this to avoid
            // out-of-memory issues by calling to garbage collect whenever the memory footprint is
            // large.
            let bytesSinceGC = 0;
            while (firstReader.hasNext()) {
                const oplogEntry = firstReader.next();
                bytesSinceGC += Object.bsonsize(oplogEntry);
                if (oplogEntry === kCappedPositionLostSentinel) {
                    // When using legacy OP_QUERY/OP_GET_MORE reads against mongos, it is
                    // possible for hasNext() to return true but for next() to throw an exception.
                    break;
                }

                for (let i = 0; i < nodes.length; i++) {
                    // Skip reading from this reader if the index is the same as firstReader or
                    // the cursor is exhausted.
                    if (i === firstReaderIndex || !(readers[i] && readers[i].hasNext())) {
                        continue;
                    }

                    const otherOplogEntry = readers[i].next();
                    bytesSinceGC += Object.bsonsize(otherOplogEntry);
                    if (otherOplogEntry && otherOplogEntry !== kCappedPositionLostSentinel) {
                        assertOplogEntriesEq.call(this,
                                                  oplogEntry,
                                                  otherOplogEntry,
                                                  firstReader,
                                                  readers[i],
                                                  prevOplogEntry);
                    }
                }
                // Garbage collect every 10MB.
                if (bytesSinceGC > (10 * 1024 * 1024)) {
                    gc();
                    bytesSinceGC = 0;
                }
                prevOplogEntry = oplogEntry;
            }
        }
        print("checkOplogs oplog checks complete.");
    }

    /**
     * Waits for an initial connection to a given node. Should only be called after the node's
     * process has already been started. Updates the corresponding entry in 'this.nodes' with the
     * newly established connection object.
     *
     * @param {int} [n] the node id.
     * @param {boolean} [waitForHealth] If true, wait for the health indicator of the replica set
     *     node after waiting for a connection. Default: false.
     * @returns a new Mongo connection object to the node.
     */
    this._waitForInitialConnection = function(n, waitForHealth) {
        print("ReplSetTest waiting for an initial connection to node " + n);

        // If we are using a bridge, then we want to get at the underlying mongod node object.
        let node = _useBridge ? _unbridgedNodes[n] : this.nodes[n];
        let pid = node.pid;
        let port = node.port;
        let conn = MongoRunner.awaitConnection({pid, port});
        if (!conn) {
            throw new Error("Failed to connect to node " + n);
        }

        // Attach the original node properties to the connection object.
        Object.assign(conn, node);

        // Save the new connection object. If we are using a bridge, then we need to connect to it.
        if (_useBridge) {
            this.nodes[n].connectToBridge();
            this.nodes[n].nodeId = n;
            _unbridgedNodes[n] = conn;
        } else {
            this.nodes[n] = conn;
        }

        print("ReplSetTest made initial connection to node: " + tojson(this.nodes[n]));

        waitForHealth = waitForHealth || false;
        if (waitForHealth) {
            // Wait for node to start up.
            _waitForHealth(this.nodes[n], Health.UP);
        }

        if (_causalConsistency) {
            this.nodes[n].setCausalConsistency(true);
        }
        return this.nodes[n];
    };

    /**
     * Starts up a server.  Options are saved by default for subsequent starts.
     *
     *
     * Options { remember : true } re-applies the saved options from a prior start.
     * Options { noRemember : true } ignores the current properties.
     * Options { appendOptions : true } appends the current options to those remembered.
     * Options { startClean : true } clears the data directory before starting.
     *
     * @param {int|conn|[int|conn]} n array or single server number (0, 1, 2, ...) or conn
     * @param {object} [options]
     * @param {boolean} [restart] If false, the data directory will be cleared
     *   before the server starts.  Default: false.
     * @param {boolean} [waitForHealth] If true, wait for the health indicator of the replica set
     *     node after waiting for a connection. Default: false.
     */
    this.start = _nodeParamToSingleNode(_nodeParamToId(function(
        n, options, restart, waitForHealth) {
        print("ReplSetTest n is : " + n);

        var defaults = {
            useHostName: this.useHostName,
            oplogSize: this.oplogSize,
            keyFile: this.keyFile,
            port: _useBridge ? _unbridgedPorts[n] : this.ports[n],
            replSet: this.useSeedList ? this.getURL() : this.name,
            dbpath: "$set-$node"
        };

        if (options && options.binVersion &&
            jsTest.options().useRandomBinVersionsWithinReplicaSet) {
            throw new Error(
                "Can only specify one of binVersion and useRandomBinVersionsWithinReplicaSet, not both.");
        }

        //
        // Note : this replaces the binVersion of the shared startSet() options the first time
        // through, so the full set is guaranteed to have different versions if size > 1.  If using
        // start() independently, independent version choices will be made
        //
        if (options && options.binVersion) {
            options.binVersion = MongoRunner.versionIterator(options.binVersion);
        }

        // Always set log format
        if (options && options.logFormat) {
            options.logFormat = jsTest.options().logFormat;
        }

        // If restarting a node, use its existing options as the defaults.
        var baseOptions;
        if ((options && options.restart) || restart) {
            baseOptions = _useBridge ? _unbridgedNodes[n].fullOptions : this.nodes[n].fullOptions;
        } else {
            baseOptions = defaults;
        }
        baseOptions = Object.merge(baseOptions, this.nodeOptions["n" + n]);
        options = Object.merge(baseOptions, options);
        if (options.hasOwnProperty("rsConfig")) {
            this.nodeOptions["n" + n] =
                Object.merge(this.nodeOptions["n" + n], {rsConfig: options.rsConfig});
        }
        delete options.rsConfig;

        if (jsTest.options().useRandomBinVersionsWithinReplicaSet) {
            if (self.isConfigServer) {
                // Our documented upgrade/downgrade paths for a sharded cluster lets us assume that
                // config server nodes will always be fully upgraded before the shard nodes.
                options.binVersion = "latest";
            } else {
                const rand = Random.rand();
                options.binVersion =
                    rand < 0.5 ? "latest" : jsTest.options().useRandomBinVersionsWithinReplicaSet;
            }
            print("Randomly assigned binary version: " + options.binVersion + " to node: " + n);
        }

        options.restart = options.restart || restart;

        var pathOpts = {node: n, set: this.name};
        options.pathOpts = Object.merge(options.pathOpts || {}, pathOpts);

        // Turn off periodic noop writes for replica sets by default.
        options.setParameter = options.setParameter || {};
        if (typeof (options.setParameter) === "string") {
            var eqIdx = options.setParameter.indexOf("=");
            if (eqIdx != -1) {
                var param = options.setParameter.substring(0, eqIdx);
                var value = options.setParameter.substring(eqIdx + 1);
                options.setParameter = {};
                options.setParameter[param] = value;
            }
        }
        options.setParameter.writePeriodicNoops = options.setParameter.writePeriodicNoops || false;

        // We raise the number of initial sync connect attempts for tests that disallow chaining.
        // Disabling chaining can cause sync source selection to take longer so we must increase
        // the number of connection attempts.
        options.setParameter.numInitialSyncConnectAttempts =
            options.setParameter.numInitialSyncConnectAttempts || 60;

        // The default time for stepdown and quiesce mode in response to SIGTERM is 15 seconds.
        // Reduce this to 100ms for faster shutdown.
        options.setParameter.shutdownTimeoutMillisForSignaledShutdown =
            options.setParameter.shutdownTimeoutMillisForSignaledShutdown || 100;

        // This parameter is enabled to allow the default write concern to change while
        // initiating a ReplSetTest. This is due to our testing optimization to initiate
        // with a single node, and reconfig the full membership set in.
        // We need to recalculate the DWC after each reconfig until the full set is included.
        options.setParameter.enableDefaultWriteConcernUpdatesForInitiate = true;

        // Disable a check in reconfig that will prevent certain configs with arbiters from
        // spinning up. We will re-enable this check after the replica set has finished initiating.
        if (jsTestOptions().enableTestCommands) {
            options.setParameter.enableReconfigRollbackCommittedWritesCheck = false;
        }

        if (tojson(options) != tojson({}))
            printjson(options);

        print("ReplSetTest " + (restart ? "(Re)" : "") + "Starting....");

        if (_useBridge && (restart === undefined || !restart)) {
            // We leave the mongobridge process running when the mongod process is restarted so we
            // don't need to start a new one.
            var bridgeOptions = Object.merge(_bridgeOptions, options.bridgeOptions || {});
            bridgeOptions = Object.merge(bridgeOptions, {
                hostName: this.host,
                port: this.ports[n],
                // The mongod processes identify themselves to mongobridge as host:port, where the
                // host is the actual hostname of the machine and not localhost.
                dest: getHostName() + ":" + _unbridgedPorts[n],
            });

            if (jsTestOptions().networkMessageCompressors) {
                bridgeOptions["networkMessageCompressors"] =
                    jsTestOptions().networkMessageCompressors;
            }

            this.nodes[n] = new MongoBridge(bridgeOptions);
        }

        // Save this property since it may be deleted inside 'runMongod'.
        var waitForConnect = options.waitForConnect;

        // Never wait for a connection inside runMongod. We will do so below if needed.
        options.waitForConnect = false;
        var conn = MongoRunner.runMongod(options);
        if (!conn) {
            throw new Error("Failed to start node " + n);
        }

        // Make sure to call _addPath, otherwise folders won't be cleaned.
        this._addPath(conn.dbpath);

        // We don't want to persist 'waitForConnect' across node restarts.
        delete conn.fullOptions.waitForConnect;

        // Save the node object in the appropriate location.
        if (_useBridge) {
            _unbridgedNodes[n] = conn;
        } else {
            this.nodes[n] = conn;
            this.nodes[n].nodeId = n;
        }

        // Clean up after noReplSet to ensure it doesn't effect future restarts.
        if (options.noReplSet) {
            this.nodes[n].fullOptions.replSet = defaults.replSet;
            delete this.nodes[n].fullOptions.noReplSet;
        }

        // Wait for a connection to the node if necessary.
        if (waitForConnect === false) {
            print("ReplSetTest start skip waiting for a connection to node " + n);
            return this.nodes[n];
        }
        return this._waitForInitialConnection(n, waitForHealth);
    }));

    /**
     * Restarts a db without clearing the data directory by default, and using the node(s)'s
     * original startup options by default.
     *
     * Option { startClean : true } forces clearing the data directory.
     * Option { auth : Object } object that contains the auth details for admin credentials.
     *   Should contain the fields 'user' and 'pwd'
     *
     * In order not to use the original startup options, use stop() (or stopSet()) followed by
     * start() (or startSet()) without passing restart: true as part of the options.
     *
     * @param {int|conn|[int|conn]} n array or single server number (0, 1, 2, ...) or conn
     */
    this.restart = function(n, options, signal, wait) {
        // Can specify wait as third parameter, if using default signal
        if (signal == true || signal == false) {
            wait = signal;
            signal = undefined;
        }

        this.stop(n, signal, options, {forRestart: true});

        var started = this.start(n, options, true, wait);

        // We should not attempt to reauthenticate the connection if we did not wait for it
        // to be reestablished in the first place.
        const skipWaitForConnection = (options && options.waitForConnect === false);
        if (jsTestOptions().keyFile && !skipWaitForConnection) {
            if (started.length) {
                // if n was an array of conns, start will return an array of connections
                for (var i = 0; i < started.length; i++) {
                    assert(jsTest.authenticate(started[i]), "Failed authentication during restart");
                }
            } else {
                assert(jsTest.authenticate(started), "Failed authentication during restart");
            }
        }
        return started;
    };

    /**
     * Step down and freeze a particular node or nodes.
     *
     * @param node is a single node or list of nodes, by id or conn
     */
    this.freeze = _nodeParamToSingleNode(_nodeParamToConn(function(node) {
        assert.soon(() => {
            try {
                // Ensure node is not primary. Ignore errors, probably means it's already secondary.
                node.adminCommand({replSetStepDown: ReplSetTest.kForeverSecs, force: true});
                // Prevent node from running election. Fails if it already started an election.
                assert.commandWorked(node.adminCommand({replSetFreeze: ReplSetTest.kForeverSecs}));
                return true;
            } catch (e) {
                if (isNetworkError(e) || e.code === ErrorCodes.NotSecondary ||
                    e.code === ErrorCodes.NotYetInitialized) {
                    jsTestLog(`Failed to freeze node ${node.host}: ${e}`);
                    return false;
                }

                throw e;
            }
        }, `Failed to run replSetFreeze cmd on ${node.host}`);
    }));

    this.stopPrimary = function(signal, opts) {
        var primary = this.getPrimary();
        var primary_id = this.getNodeId(primary);
        return this.stop(primary_id, signal, opts);
    };

    /**
     * Stops a particular node or nodes, specified by conn or id. If we expect the node to exit with
     * a nonzero exit code, call this function and pass in allowedExitCode as a field of opts.
     *
     * If _useBridge=true, then the mongobridge process(es) corresponding to the node(s) are also
     * terminated unless forRestart=true. The mongobridge process(es) are left running across
     * restarts to ensure their configuration remains intact.
     *
     * @param {number|Mongo} n the index or connection object of the replica set member to stop.
     * @param {number} signal the signal number to use for killing
     * @param {Object} opts @see MongoRunner.stopMongod
     * @param {Object} [extraOptions={}]
     * @param {boolean} [extraOptions.forRestart=false] indicates whether stop() is being called
     * with the intent to call start() with restart=true for the same node(s) n.
     * @param {boolean} [extraOptions.waitPid=true] if true, we will wait for the process to
     * terminate after stopping it.
     */
    this.stop = _nodeParamToSingleNode(_nodeParamToConn(function(
        n, signal, opts, {forRestart: forRestart = false, waitpid: waitPid = true} = {}) {
        // Can specify wait as second parameter, if using default signal
        if (signal == true || signal == false) {
            signal = undefined;
        }

        n = this.getNodeId(n);

        var conn = _useBridge ? _unbridgedNodes[n] : this.nodes[n];

        print('ReplSetTest stop *** Shutting down mongod in port ' + conn.port +
              ', wait for process termination: ' + waitPid + ' ***');
        var ret = MongoRunner.stopMongod(conn, signal, opts, waitPid);

        // We only expect the process to have terminated if we actually called 'waitpid'.
        if (waitPid) {
            print('ReplSetTest stop *** Mongod in port ' + conn.port + ' shutdown with code (' +
                  ret + ') ***');
        }

        if (_useBridge && !forRestart) {
            // We leave the mongobridge process running when the mongod process is being restarted.
            const bridge = this.nodes[n];
            print('ReplSetTest stop *** Shutting down mongobridge on port ' + bridge.port + ' ***');
            const exitCode = bridge.stop();  // calls MongoBridge#stop()
            print('ReplSetTest stop *** mongobridge on port ' + bridge.port +
                  ' exited with code (' + exitCode + ') ***');
        }

        return ret;
    }));

    /**
     * Performs collection validation on all nodes in the given 'ports' array in parallel.
     *
     * @param {int[]} ports the array of mongo ports to run validation on
     */
    this._validateNodes = function(ports) {
        // Perform collection validation on each node in parallel.
        let validators = [];
        for (let i = 0; i < ports.length; i++) {
            let validator = new Thread(MongoRunner.validateCollectionsCallback, this.ports[i]);
            validators.push(validator);
            validators[i].start();
        }
        // Wait for all validators to finish.
        for (let i = 0; i < ports.length; i++) {
            validators[i].join();
        }
    };

    /**
     * Kill all members of this replica set. When calling this function, we expect all live nodes to
     * exit cleanly. If we expect a node to exit with a nonzero exit code, use the stop function to
     * terminate that node before calling stopSet.
     *
     * @param {number} signal The signal number to use for killing the members
     * @param {boolean} forRestart will not cleanup data directory
     * @param {Object} opts @see MongoRunner.stopMongod
     */
    this.stopSet = function(signal, forRestart, opts = {}) {
        if (jsTestOptions().alwaysUseLogFiles) {
            if (opts.noCleanData === false) {
                throw new Error("Always using log files, but received conflicting option.");
            }

            opts.noCleanData = true;
        }
        // Check to make sure data is the same on all nodes.
        const skipChecks = jsTest.options().skipCheckDBHashes || (opts && opts.skipCheckDBHashes);
        if (!skipChecks) {
            let startTime = new Date();  // Measure the execution time of consistency checks.
            print("ReplSetTest stopSet going to run data consistency checks.");
            // To skip this check add TestData.skipCheckDBHashes = true or pass in {opts:
            // skipCheckDBHashes} Reasons to skip this test include:
            // - the primary goes down and none can be elected (so fsync lock/unlock commands fail)
            // - the replica set is in an unrecoverable inconsistent state. E.g. the replica set
            //   is partitioned.
            let primary = _callHello();
            if (primary && this._liveNodes.length > 1) {  // skip for sets with 1 live node
                // Auth only on live nodes because authutil.assertAuthenticate
                // refuses to log in live connections if some secondaries are down.
                print("ReplSetTest stopSet checking oplogs.");
                asCluster(this._liveNodes, () => this.checkOplogs());
                print("ReplSetTest stopSet checking replicated data hashes.");
                asCluster(this._liveNodes, () => this.checkReplicatedDataHashes());
            } else {
                print(
                    "ReplSetTest stopSet skipped data consistency checks. Number of _liveNodes: " +
                    this._liveNodes.length + ", _callHello response: " + primary);
            }
            print("ReplSetTest stopSet data consistency checks finished, took " +
                  (new Date() - startTime) + "ms for " + this.nodes.length + " nodes.");
        }

        let startTime = new Date();  // Measure the execution time of shutting down nodes.

        // Optionally validate collections on all nodes. Parallel validation depends on use of the
        // 'Thread' object, so we check for and load that dependency here. If the dependency is not
        // met, we validate each node serially on shutdown.
        const parallelValidate = tryLoadParallelTester();
        if (opts.skipValidation) {
            print("ReplSetTest stopSet skipping validation before stopping nodes.");
        } else if (parallelValidate) {
            print("ReplSetTest stopSet validating all replica set nodes before stopping them.");
            this._validateNodes(this.ports);
        }

        // Stop all nodes without waiting for them to terminate. We can skip validation on shutdown
        // if we have already done it above.
        opts = Object.merge(opts, {skipValidation: (parallelValidate || opts.skipValidation)});
        for (let i = 0; i < this.ports.length; i++) {
            this.stop(i, signal, opts, {waitpid: false});
        }

        // Wait for all processes to terminate.
        for (let i = 0; i < this.ports.length; i++) {
            let conn = _useBridge ? _unbridgedNodes[i] : this.nodes[i];
            let port = parseInt(conn.port);
            print("ReplSetTest stopSet waiting for mongo program on port " + port + " to stop.");
            let exitCode = waitMongoProgram(port);
            if (exitCode !== MongoRunner.EXIT_CLEAN && !opts.skipValidatingExitCode) {
                throw new Error("ReplSetTest stopSet mongo program on port " + port +
                                " shut down unexpectedly with code " + exitCode + " when code " +
                                MongoRunner.EXIT_CLEAN + " was expected.");
            }
            print("ReplSetTest stopSet mongo program on port " + port + " shut down with code " +
                  exitCode);
        }

        print("ReplSetTest stopSet stopped all replica set nodes, took " +
              (new Date() - startTime) + "ms for " + this.ports.length + " nodes.");

        if (forRestart) {
            print("ReplSetTest stopSet returning since forRestart=true.");
            return;
        }

        if ((!opts.noCleanData) && _alldbpaths) {
            print("ReplSetTest stopSet deleting all dbpaths");
            for (var i = 0; i < _alldbpaths.length; i++) {
                print("ReplSetTest stopSet deleting dbpath: " + _alldbpaths[i]);
                resetDbpath(_alldbpaths[i]);
            }
            print("ReplSetTest stopSet deleted all dbpaths");
        }

        _forgetReplSet(this.name);

        print('ReplSetTest stopSet *** Shut down repl set - test worked ****');
    };

    /**
     * Returns whether or not this ReplSetTest uses mongobridge.
     */
    this.usesBridge = function() {
        return _useBridge;
    };

    /**
     * Wait for a state indicator to go to a particular state or states.
     *
     * Note that this waits for the state as indicated by the primary node.  If you want to wait for
     * a node to actually reach SECONDARY state, as reported by itself, use awaitSecondaryNodes
     * instead.
     *
     * @param node is a single node or list of nodes, by id or conn
     * @param state is a single state or list of states
     * @param timeout how long to wait for the state to be reached
     * @param reconnectNode indicates that we should reconnect to a node that stepped down
     *
     */
    this.waitForState = function(node, state, timeout, reconnectNode) {
        _waitForIndicator(node, state, "state", timeout, reconnectNode);
    };

    /**
     * Waits until there is a primary node.
     */
    this.waitForPrimary = function(timeout) {
        var primary;
        assert.soonNoExcept(function() {
            return (primary = self.getPrimary());
        }, "waiting for primary", timeout);

        return primary;
    };

    //
    // ReplSetTest constructors
    //

    /**
     * Constructor, which initializes the ReplSetTest object by starting new instances.
     */
    function _constructStartNewInstances(opts) {
        self.name = opts.name || jsTest.name();
        print('Starting new replica set ' + self.name);

        self.useHostName = opts.useHostName == undefined ? true : opts.useHostName;
        self.host = self.useHostName ? (opts.host || getHostName()) : 'localhost';
        self.oplogSize = opts.oplogSize || 40;
        self.useSeedList = opts.useSeedList || false;
        self.keyFile = opts.keyFile;

        self.clusterAuthMode = undefined;
        if (opts.clusterAuthMode) {
            self.clusterAuthMode = opts.clusterAuthMode;
        }

        self.protocolVersion = opts.protocolVersion;
        self.waitForKeys = opts.waitForKeys;

        self.seedRandomNumberGenerator = opts.hasOwnProperty('seedRandomNumberGenerator')
            ? opts.seedRandomNumberGenerator
            : true;
        self.isConfigServer = opts.isConfigServer;

        _useBridge = opts.useBridge || false;
        _bridgeOptions = opts.bridgeOptions || {};

        _causalConsistency = opts.causallyConsistent || false;

        _configSettings = opts.settings || false;

        self.nodeOptions = {};

        var numNodes;

        if (isObject(opts.nodes)) {
            var len = 0;
            for (var i in opts.nodes) {
                // opts.nodeOptions and opts.nodes[i] may contain nested objects that have
                // the same key, e.g. setParameter. So we need to recursively merge them.
                // Object.assign and Object.merge do not merge nested objects of the same key.
                var options = self.nodeOptions["n" + len] =
                    _deepObjectMerge(opts.nodeOptions, opts.nodes[i]);
                if (i.startsWith("a")) {
                    options.arbiter = true;
                }

                len++;
            }

            numNodes = len;
        } else if (Array.isArray(opts.nodes)) {
            for (var i = 0; i < opts.nodes.length; i++) {
                self.nodeOptions["n" + i] = Object.merge(opts.nodeOptions, opts.nodes[i]);
            }

            numNodes = opts.nodes.length;
        } else {
            for (var i = 0; i < opts.nodes; i++) {
                self.nodeOptions["n" + i] = opts.nodeOptions;
            }

            numNodes = opts.nodes;
        }

        for (let i = 0; i < numNodes; i++) {
            if (self.nodeOptions["n" + i] !== undefined &&
                self.nodeOptions["n" + i].clusterAuthMode == "x509") {
                self.clusterAuthMode = "x509";
            }
        }

        if (_useBridge) {
            let makeAllocatePortFn = (preallocatedPorts) => {
                let idxNextNodePort = 0;

                return function() {
                    if (idxNextNodePort >= preallocatedPorts.length) {
                        throw new Error("Cannot use a replica set larger than " +
                                        preallocatedPorts.length + " members with useBridge=true");
                    }

                    const nextPort = preallocatedPorts[idxNextNodePort];
                    ++idxNextNodePort;
                    return nextPort;
                };
            };

            _allocatePortForBridge = makeAllocatePortFn(allocatePorts(MongoBridge.kBridgeOffset));
            _allocatePortForNode = makeAllocatePortFn(allocatePorts(MongoBridge.kBridgeOffset));
        } else {
            _allocatePortForBridge = function() {
                throw new Error("Using mongobridge isn't enabled for this replica set");
            };
            _allocatePortForNode = allocatePort;
        }

        self.nodes = [];

        if (_useBridge) {
            self.ports = Array.from({length: numNodes}, _allocatePortForBridge);
            _unbridgedPorts = Array.from({length: numNodes}, _allocatePortForNode);
            _unbridgedNodes = [];
        } else {
            self.ports = Array.from({length: numNodes}, _allocatePortForNode);
        }
    }

    /**
     * Constructor, which instantiates the ReplSetTest object from an existing set.
     */
    function _constructFromExistingSeedNode(seedNode) {
        const conn = new Mongo(seedNode);
        if (jsTest.options().keyFile) {
            self.keyFile = jsTest.options().keyFile;
        }
        var conf = asCluster(conn, () => _replSetGetConfig(conn));
        print('Recreating replica set from config ' + tojson(conf));

        var existingNodes = conf.members.map(member => member.host);
        self.ports = existingNodes.map(node => node.split(':')[1]);
        self.nodes = existingNodes.map(node => {
            // Note: the seed node is required to be operational in order for the Mongo
            // shell to connect to it. In this code there is no fallback to other nodes.
            let conn = new Mongo(node);
            conn.name = conn.host;
            return conn;
        });
        self.waitForKeys = false;
        self.host = existingNodes[0].split(':')[0];
        self.name = conf._id;
    }

    /**
     * Constructor, which instantiates the ReplSetTest object from existing nodes.
     */
    function _constructFromExistingNodes(
        {name, nodeHosts, nodeOptions, keyFile, host, waitForKeys}) {
        print('Recreating replica set from existing nodes ' + tojson(nodeHosts));

        self.name = name;
        self.ports = nodeHosts.map(node => node.split(':')[1]);
        self.nodes = nodeHosts.map((node) => {
            const conn = Mongo(node);
            conn.name = conn.host;
            return conn;
        });
        self.host = host;
        self.waitForKeys = waitForKeys;
        self.keyFile = keyFile;
        self.nodeOptions = nodeOptions;
    }

    if (typeof opts === 'string' || opts instanceof String) {
        retryOnNetworkError(function() {
            // The primary may unexpectedly step down during startup if under heavy load
            // and too slowly processing heartbeats. When it steps down, it closes all of
            // its connections.
            _constructFromExistingSeedNode(opts);
        }, 120);
    } else if (typeof opts.rstArgs === "object") {
        _constructFromExistingNodes(opts.rstArgs);
    } else {
        _constructStartNewInstances(opts);
    }

    /**
     * Recursively merge the target and source object.
     */
    function _deepObjectMerge(target, source) {
        if (!(target instanceof Object)) {
            return (source === undefined || source === null) ? target : source;
        }

        if (!(source instanceof Object)) {
            return target;
        }

        let res = Object.assign({}, target);
        Object.keys(source).forEach(k => {
            res[k] = _deepObjectMerge(target[k], source[k]);
        });

        return res;
    }
};

/**
 *  Global default timeout (10 minutes).
 */
ReplSetTest.kDefaultTimeoutMS = 10 * 60 * 1000;

/**
 *  Global default number that's effectively infinite.
 */
ReplSetTest.kForeverSecs = 24 * 60 * 60;
ReplSetTest.kForeverMillis = ReplSetTest.kForeverSecs * 1000;

/**
 * Set of states that the replica set can be in. Used for the wait functions.
 */
ReplSetTest.State = {
    PRIMARY: 1,
    SECONDARY: 2,
    RECOVERING: 3,
    // Note there is no state 4
    STARTUP_2: 5,
    UNKNOWN: 6,
    ARBITER: 7,
    DOWN: 8,
    ROLLBACK: 9,
    REMOVED: 10,
};

ReplSetTest.OpTimeType = {
    LAST_APPLIED: 1,
    LAST_DURABLE: 2,
};