utils.ts

import * as crypto from 'crypto';
import type { SrvRecord } from 'dns';
import * as http from 'http';
import { clearTimeout, setTimeout } from 'timers';
import * as url from 'url';
import { URL } from 'url';

import { type Document, ObjectId, resolveBSONOptions } from './bson';
import type { Connection } from './cmap/connection';
import { MAX_SUPPORTED_WIRE_VERSION } from './cmap/wire_protocol/constants';
import type { Collection } from './collection';
import { LEGACY_HELLO_COMMAND } from './constants';
import type { AbstractCursor } from './cursor/abstract_cursor';
import type { FindCursor } from './cursor/find_cursor';
import type { Db } from './db';
import {
  type AnyError,
  MongoCompatibilityError,
  MongoInvalidArgumentError,
  MongoNetworkTimeoutError,
  MongoNotConnectedError,
  MongoParseError,
  MongoRuntimeError
} from './error';
import type { Explain } from './explain';
import type { MongoClient } from './mongo_client';
import type { CommandOperationOptions, OperationParent } from './operations/command';
import type { Hint, OperationOptions } from './operations/operation';
import { ReadConcern } from './read_concern';
import { ReadPreference } from './read_preference';
import { ServerType } from './sdam/common';
import type { Server } from './sdam/server';
import type { Topology } from './sdam/topology';
import type { ClientSession } from './sessions';
import { WriteConcern } from './write_concern';

/**
 * MongoDB Driver style callback
 * @public
 */
export type Callback<T = any> = (error?: AnyError, result?: T) => void;

export type AnyOptions = Document;

export const ByteUtils = {
  toLocalBufferType(this: void, buffer: Buffer | Uint8Array): Buffer {
    return Buffer.isBuffer(buffer)
      ? buffer
      : Buffer.from(buffer.buffer, buffer.byteOffset, buffer.byteLength);
  },

  equals(this: void, seqA: Uint8Array, seqB: Uint8Array) {
    return ByteUtils.toLocalBufferType(seqA).equals(seqB);
  },

  compare(this: void, seqA: Uint8Array, seqB: Uint8Array) {
    return ByteUtils.toLocalBufferType(seqA).compare(seqB);
  },

  toBase64(this: void, uint8array: Uint8Array) {
    return ByteUtils.toLocalBufferType(uint8array).toString('base64');
  }
};

/**
 * Determines if a connection's address matches a user provided list
 * of domain wildcards.
 */
export function hostMatchesWildcards(host: string, wildcards: string[]): boolean {
  for (const wildcard of wildcards) {
    if (
      host === wildcard ||
      (wildcard.startsWith('*.') && host?.endsWith(wildcard.substring(2, wildcard.length))) ||
      (wildcard.startsWith('*/') && host?.endsWith(wildcard.substring(2, wildcard.length)))
    ) {
      return true;
    }
  }
  return false;
}

/**
 * Ensure Hint field is in a shape we expect:
 * - object of index names mapping to 1 or -1
 * - just an index name
 * @internal
 */
export function normalizeHintField(hint?: Hint): Hint | undefined {
  let finalHint = undefined;

  if (typeof hint === 'string') {
    finalHint = hint;
  } else if (Array.isArray(hint)) {
    finalHint = {};

    hint.forEach(param => {
      finalHint[param] = 1;
    });
  } else if (hint != null && typeof hint === 'object') {
    finalHint = {} as Document;
    for (const name in hint) {
      finalHint[name] = hint[name];
    }
  }

  return finalHint;
}

const TO_STRING = (object: unknown) => Object.prototype.toString.call(object);
/**
 * Checks if arg is an Object:
 * - **NOTE**: the check is based on the `[Symbol.toStringTag]() === 'Object'`
 * @internal
 */

export function isObject(arg: unknown): arg is object {
  return '[object Object]' === TO_STRING(arg);
}

/** @internal */
export function mergeOptions<T, S>(target: T, source: S): T & S {
  return { ...target, ...source };
}

/** @internal */
export function filterOptions(options: AnyOptions, names: ReadonlyArray<string>): AnyOptions {
  const filterOptions: AnyOptions = {};

  for (const name in options) {
    if (names.includes(name)) {
      filterOptions[name] = options[name];
    }
  }

  // Filtered options
  return filterOptions;
}

interface HasRetryableWrites {
  retryWrites?: boolean;
}
/**
 * Applies retryWrites: true to a command if retryWrites is set on the command's database.
 * @internal
 *
 * @param target - The target command to which we will apply retryWrites.
 * @param db - The database from which we can inherit a retryWrites value.
 */
export function applyRetryableWrites<T extends HasRetryableWrites>(target: T, db?: Db): T {
  if (db && db.s.options?.retryWrites) {
    target.retryWrites = true;
  }

  return target;
}

/**
 * Applies a write concern to a command based on well defined inheritance rules, optionally
 * detecting support for the write concern in the first place.
 * @internal
 *
 * @param target - the target command we will be applying the write concern to
 * @param sources - sources where we can inherit default write concerns from
 * @param options - optional settings passed into a command for write concern overrides
 */

/**
 * Checks if a given value is a Promise
 *
 * @typeParam T - The resolution type of the possible promise
 * @param value - An object that could be a promise
 * @returns true if the provided value is a Promise
 */
export function isPromiseLike<T = any>(value?: PromiseLike<T> | void): value is Promise<T> {
  return !!value && typeof value.then === 'function';
}

/**
 * Applies collation to a given command.
 * @internal
 *
 * @param command - the command on which to apply collation
 * @param target - target of command
 * @param options - options containing collation settings
 */
export function decorateWithCollation(
  command: Document,
  target: MongoClient | Db | Collection,
  options: AnyOptions
): void {
  const capabilities = getTopology(target).capabilities;
  if (options.collation && typeof options.collation === 'object') {
    if (capabilities && capabilities.commandsTakeCollation) {
      command.collation = options.collation;
    } else {
      throw new MongoCompatibilityError(`Current topology does not support collation`);
    }
  }
}

/**
 * Applies a read concern to a given command.
 * @internal
 *
 * @param command - the command on which to apply the read concern
 * @param coll - the parent collection of the operation calling this method
 */
export function decorateWithReadConcern(
  command: Document,
  coll: { s: { readConcern?: ReadConcern } },
  options?: OperationOptions
): void {
  if (options && options.session && options.session.inTransaction()) {
    return;
  }
  const readConcern = Object.assign({}, command.readConcern || {});
  if (coll.s.readConcern) {
    Object.assign(readConcern, coll.s.readConcern);
  }

  if (Object.keys(readConcern).length > 0) {
    Object.assign(command, { readConcern: readConcern });
  }
}

/**
 * Applies an explain to a given command.
 * @internal
 *
 * @param command - the command on which to apply the explain
 * @param options - the options containing the explain verbosity
 */
export function decorateWithExplain(command: Document, explain: Explain): Document {
  if (command.explain) {
    return command;
  }

  return { explain: command, verbosity: explain.verbosity };
}

/**
 * @internal
 */
export type TopologyProvider =
  | MongoClient
  | ClientSession
  | FindCursor
  | AbstractCursor
  | Collection<any>
  | Db;

/**
 * A helper function to get the topology from a given provider. Throws
 * if the topology cannot be found.
 * @throws MongoNotConnectedError
 * @internal
 */
export function getTopology(provider: TopologyProvider): Topology {
  // MongoClient or ClientSession or AbstractCursor
  if ('topology' in provider && provider.topology) {
    return provider.topology;
  } else if ('client' in provider && provider.client.topology) {
    return provider.client.topology;
  }

  throw new MongoNotConnectedError('MongoClient must be connected to perform this operation');
}

/** @internal */
export function ns(ns: string): MongoDBNamespace {
  return MongoDBNamespace.fromString(ns);
}

/** @public */
export class MongoDBNamespace {
  /**
   * Create a namespace object
   *
   * @param db - database name
   * @param collection - collection name
   */
  constructor(public db: string, public collection?: string) {
    this.collection = collection === '' ? undefined : collection;
  }

  toString(): string {
    return this.collection ? `${this.db}.${this.collection}` : this.db;
  }

  withCollection(collection: string): MongoDBCollectionNamespace {
    return new MongoDBCollectionNamespace(this.db, collection);
  }

  static fromString(namespace?: string): MongoDBNamespace {
    if (typeof namespace !== 'string' || namespace === '') {
      // TODO(NODE-3483): Replace with MongoNamespaceError
      throw new MongoRuntimeError(`Cannot parse namespace from "${namespace}"`);
    }

    const [db, ...collectionParts] = namespace.split('.');
    const collection = collectionParts.join('.');
    return new MongoDBNamespace(db, collection === '' ? undefined : collection);
  }
}

/**
 * @public
 *
 * A class representing a collection's namespace.  This class enforces (through Typescript) that
 * the `collection` portion of the namespace is defined and should only be
 * used in scenarios where this can be guaranteed.
 */
export class MongoDBCollectionNamespace extends MongoDBNamespace {
  constructor(db: string, override collection: string) {
    super(db, collection);
  }

  static override fromString(namespace?: string): MongoDBCollectionNamespace {
    return super.fromString(namespace) as MongoDBCollectionNamespace;
  }
}

/** @internal */
export function* makeCounter(seed = 0): Generator<number> {
  let count = seed;
  while (true) {
    const newCount = count;
    count += 1;
    yield newCount;
  }
}

/**
 * Helper for handling legacy callback support.
 */
export function maybeCallback<T>(promiseFn: () => Promise<T>, callback: null): Promise<T>;
export function maybeCallback<T>(
  promiseFn: () => Promise<T>,
  callback?: Callback<T>
): Promise<T> | void;
export function maybeCallback<T>(
  promiseFn: () => Promise<T>,
  callback?: Callback<T> | null
): Promise<T> | void {
  const promise = promiseFn();
  if (callback == null) {
    return promise;
  }

  promise.then(
    result => callback(undefined, result),
    error => callback(error)
  );
  return;
}

/**
 * Synchronously Generate a UUIDv4
 * @internal
 */
export function uuidV4(): Buffer {
  const result = crypto.randomBytes(16);
  result[6] = (result[6] & 0x0f) | 0x40;
  result[8] = (result[8] & 0x3f) | 0x80;
  return result;
}

/**
 * A helper function for determining `maxWireVersion` between legacy and new topology instances
 * @internal
 */
export function maxWireVersion(topologyOrServer?: Connection | Topology | Server): number {
  if (topologyOrServer) {
    if (topologyOrServer.loadBalanced) {
      // Since we do not have a monitor, we assume the load balanced server is always
      // pointed at the latest mongodb version. There is a risk that for on-prem
      // deployments that don't upgrade immediately that this could alert to the
      // application that a feature is available that is actually not.
      return MAX_SUPPORTED_WIRE_VERSION;
    }
    if (topologyOrServer.hello) {
      return topologyOrServer.hello.maxWireVersion;
    }

    if ('lastHello' in topologyOrServer && typeof topologyOrServer.lastHello === 'function') {
      const lastHello = topologyOrServer.lastHello();
      if (lastHello) {
        return lastHello.maxWireVersion;
      }
    }

    if (
      topologyOrServer.description &&
      'maxWireVersion' in topologyOrServer.description &&
      topologyOrServer.description.maxWireVersion != null
    ) {
      return topologyOrServer.description.maxWireVersion;
    }
  }

  return 0;
}

/**
 * Applies the function `eachFn` to each item in `arr`, in parallel.
 * @internal
 *
 * @param arr - An array of items to asynchronously iterate over
 * @param eachFn - A function to call on each item of the array. The callback signature is `(item, callback)`, where the callback indicates iteration is complete.
 * @param callback - The callback called after every item has been iterated
 */
export function eachAsync<T = Document>(
  arr: T[],
  eachFn: (item: T, callback: (err?: AnyError) => void) => void,
  callback: Callback
): void {
  arr = arr || [];

  let idx = 0;
  let awaiting = 0;
  for (idx = 0; idx < arr.length; ++idx) {
    awaiting++;
    eachFn(arr[idx], eachCallback);
  }

  if (awaiting === 0) {
    callback();
    return;
  }

  function eachCallback(err?: AnyError) {
    awaiting--;
    if (err) {
      callback(err);
      return;
    }

    if (idx === arr.length && awaiting <= 0) {
      callback();
    }
  }
}

/** @internal */
export function arrayStrictEqual(arr: unknown[], arr2: unknown[]): boolean {
  if (!Array.isArray(arr) || !Array.isArray(arr2)) {
    return false;
  }

  return arr.length === arr2.length && arr.every((elt, idx) => elt === arr2[idx]);
}

/** @internal */
export function errorStrictEqual(lhs?: AnyError | null, rhs?: AnyError | null): boolean {
  if (lhs === rhs) {
    return true;
  }

  if (!lhs || !rhs) {
    return lhs === rhs;
  }

  if ((lhs == null && rhs != null) || (lhs != null && rhs == null)) {
    return false;
  }

  if (lhs.constructor.name !== rhs.constructor.name) {
    return false;
  }

  if (lhs.message !== rhs.message) {
    return false;
  }

  return true;
}

interface StateTable {
  [key: string]: string[];
}
interface ObjectWithState {
  s: { state: string };
  emit(event: 'stateChanged', state: string, newState: string): void;
}
interface StateTransitionFunction {
  (target: ObjectWithState, newState: string): void;
}

/** @public */
export type EventEmitterWithState = {
  /** @internal */
  stateChanged(previous: string, current: string): void;
};

/** @internal */
export function makeStateMachine(stateTable: StateTable): StateTransitionFunction {
  return function stateTransition(target, newState) {
    const legalStates = stateTable[target.s.state];
    if (legalStates && legalStates.indexOf(newState) < 0) {
      throw new MongoRuntimeError(
        `illegal state transition from [${target.s.state}] => [${newState}], allowed: [${legalStates}]`
      );
    }

    target.emit('stateChanged', target.s.state, newState);
    target.s.state = newState;
  };
}

/** @internal */
export function now(): number {
  const hrtime = process.hrtime();
  return Math.floor(hrtime[0] * 1000 + hrtime[1] / 1000000);
}

/** @internal */
export function calculateDurationInMs(started: number): number {
  if (typeof started !== 'number') {
    throw new MongoInvalidArgumentError('Numeric value required to calculate duration');
  }

  const elapsed = now() - started;
  return elapsed < 0 ? 0 : elapsed;
}

/** @internal */
export function hasAtomicOperators(doc: Document | Document[]): boolean {
  if (Array.isArray(doc)) {
    for (const document of doc) {
      if (hasAtomicOperators(document)) {
        return true;
      }
    }
    return false;
  }

  const keys = Object.keys(doc);
  return keys.length > 0 && keys[0][0] === '$';
}

/**
 * Merge inherited properties from parent into options, prioritizing values from options,
 * then values from parent.
 * @internal
 */
export function resolveOptions<T extends CommandOperationOptions>(
  parent: OperationParent | undefined,
  options?: T
): T {
  const result: T = Object.assign({}, options, resolveBSONOptions(options, parent));

  // Users cannot pass a readConcern/writeConcern to operations in a transaction
  const session = options?.session;
  if (!session?.inTransaction()) {
    const readConcern = ReadConcern.fromOptions(options) ?? parent?.readConcern;
    if (readConcern) {
      result.readConcern = readConcern;
    }

    const writeConcern = WriteConcern.fromOptions(options) ?? parent?.writeConcern;
    if (writeConcern) {
      result.writeConcern = writeConcern;
    }
  }

  const readPreference = ReadPreference.fromOptions(options) ?? parent?.readPreference;
  if (readPreference) {
    result.readPreference = readPreference;
  }

  return result;
}

export function isSuperset(set: Set<any> | any[], subset: Set<any> | any[]): boolean {
  set = Array.isArray(set) ? new Set(set) : set;
  subset = Array.isArray(subset) ? new Set(subset) : subset;
  for (const elem of subset) {
    if (!set.has(elem)) {
      return false;
    }
  }
  return true;
}

/**
 * Checks if the document is a Hello request
 * @internal
 */
export function isHello(doc: Document): boolean {
  return doc[LEGACY_HELLO_COMMAND] || doc.hello ? true : false;
}

/** Returns the items that are uniquely in setA */
export function setDifference<T>(setA: Iterable<T>, setB: Iterable<T>): Set<T> {
  const difference = new Set<T>(setA);
  for (const elem of setB) {
    difference.delete(elem);
  }
  return difference;
}

const HAS_OWN = (object: unknown, prop: string) =>
  Object.prototype.hasOwnProperty.call(object, prop);

export function isRecord<T extends readonly string[]>(
  value: unknown,
  requiredKeys: T
): value is Record<T[number], any>;
export function isRecord(value: unknown): value is Record<string, any>;
export function isRecord(
  value: unknown,
  requiredKeys: string[] | undefined = undefined
): value is Record<string, any> {
  if (!isObject(value)) {
    return false;
  }

  const ctor = (value as any).constructor;
  if (ctor && ctor.prototype) {
    if (!isObject(ctor.prototype)) {
      return false;
    }

    // Check to see if some method exists from the Object exists
    if (!HAS_OWN(ctor.prototype, 'isPrototypeOf')) {
      return false;
    }
  }

  if (requiredKeys) {
    const keys = Object.keys(value as Record<string, any>);
    return isSuperset(keys, requiredKeys);
  }

  return true;
}

/**
 * Make a deep copy of an object
 *
 * NOTE: This is not meant to be the perfect implementation of a deep copy,
 * but instead something that is good enough for the purposes of
 * command monitoring.
 */
export function deepCopy<T>(value: T): T {
  if (value == null) {
    return value;
  } else if (Array.isArray(value)) {
    return value.map(item => deepCopy(item)) as unknown as T;
  } else if (isRecord(value)) {
    const res = {} as any;
    for (const key in value) {
      res[key] = deepCopy(value[key]);
    }
    return res;
  }

  const ctor = (value as any).constructor;
  if (ctor) {
    switch (ctor.name.toLowerCase()) {
      case 'date':
        return new ctor(Number(value));
      case 'map':
        return new Map(value as any) as unknown as T;
      case 'set':
        return new Set(value as any) as unknown as T;
      case 'buffer':
        return Buffer.from(value as unknown as Buffer) as unknown as T;
    }
  }

  return value;
}

type ListNode<T> = {
  value: T;
  next: ListNode<T> | HeadNode<T>;
  prev: ListNode<T> | HeadNode<T>;
};

type HeadNode<T> = {
  value: null;
  next: ListNode<T>;
  prev: ListNode<T>;
};

/**
 * When a list is empty the head is a reference with pointers to itself
 * So this type represents that self referential state
 */
type EmptyNode = {
  value: null;
  next: EmptyNode;
  prev: EmptyNode;
};

/**
 * A sequential list of items in a circularly linked list
 * @remarks
 * The head node is special, it is always defined and has a value of null.
 * It is never "included" in the list, in that, it is not returned by pop/shift or yielded by the iterator.
 * The circular linkage and always defined head node are to reduce checks for null next/prev references to zero.
 * New nodes are declared as object literals with keys always in the same order: next, prev, value.
 * @internal
 */
export class List<T = unknown> {
  private readonly head: HeadNode<T> | EmptyNode;
  private count: number;

  get length() {
    return this.count;
  }

  get [Symbol.toStringTag]() {
    return 'List' as const;
  }

  constructor() {
    this.count = 0;

    // this is carefully crafted:
    // declaring a complete and consistently key ordered
    // object is beneficial to the runtime optimizations
    this.head = {
      next: null,
      prev: null,
      value: null
    } as unknown as EmptyNode;
    this.head.next = this.head;
    this.head.prev = this.head;
  }

  toArray() {
    return Array.from(this);
  }

  toString() {
    return `head <=> ${this.toArray().join(' <=> ')} <=> head`;
  }

  *[Symbol.iterator](): Generator<T, void, void> {
    for (const node of this.nodes()) {
      yield node.value;
    }
  }

  private *nodes(): Generator<ListNode<T>, void, void> {
    let ptr: HeadNode<T> | ListNode<T> | EmptyNode = this.head.next;
    while (ptr !== this.head) {
      // Save next before yielding so that we make removing within iteration safe
      const { next } = ptr as ListNode<T>;
      yield ptr as ListNode<T>;
      ptr = next;
    }
  }

  /** Insert at end of list */
  push(value: T) {
    this.count += 1;
    const newNode: ListNode<T> = {
      next: this.head as HeadNode<T>,
      prev: this.head.prev as ListNode<T>,
      value
    };
    this.head.prev.next = newNode;
    this.head.prev = newNode;
  }

  /** Inserts every item inside an iterable instead of the iterable itself */
  pushMany(iterable: Iterable<T>) {
    for (const value of iterable) {
      this.push(value);
    }
  }

  /** Insert at front of list */
  unshift(value: T) {
    this.count += 1;
    const newNode: ListNode<T> = {
      next: this.head.next as ListNode<T>,
      prev: this.head as HeadNode<T>,
      value
    };
    this.head.next.prev = newNode;
    this.head.next = newNode;
  }

  private remove(node: ListNode<T> | EmptyNode): T | null {
    if (node === this.head || this.length === 0) {
      return null;
    }

    this.count -= 1;

    const prevNode = node.prev;
    const nextNode = node.next;
    prevNode.next = nextNode;
    nextNode.prev = prevNode;

    return node.value;
  }

  /** Removes the first node at the front of the list */
  shift(): T | null {
    return this.remove(this.head.next);
  }

  /** Removes the last node at the end of the list */
  pop(): T | null {
    return this.remove(this.head.prev);
  }

  /** Iterates through the list and removes nodes where filter returns true */
  prune(filter: (value: T) => boolean) {
    for (const node of this.nodes()) {
      if (filter(node.value)) {
        this.remove(node);
      }
    }
  }

  clear() {
    this.count = 0;
    this.head.next = this.head as EmptyNode;
    this.head.prev = this.head as EmptyNode;
  }

  /** Returns the first item in the list, does not remove */
  first(): T | null {
    // If the list is empty, value will be the head's null
    return this.head.next.value;
  }

  /** Returns the last item in the list, does not remove */
  last(): T | null {
    // If the list is empty, value will be the head's null
    return this.head.prev.value;
  }
}

/**
 * A pool of Buffers which allow you to read them as if they were one
 * @internal
 */
export class BufferPool {
  private buffers: List<Buffer>;
  private totalByteLength: number;

  constructor() {
    this.buffers = new List();
    this.totalByteLength = 0;
  }

  get length(): number {
    return this.totalByteLength;
  }

  /** Adds a buffer to the internal buffer pool list */
  append(buffer: Buffer): void {
    this.buffers.push(buffer);
    this.totalByteLength += buffer.length;
  }

  /**
   * If BufferPool contains 4 bytes or more construct an int32 from the leading bytes,
   * otherwise return null. Size can be negative, caller should error check.
   */
  getInt32(): number | null {
    if (this.totalByteLength < 4) {
      return null;
    }
    const firstBuffer = this.buffers.first();
    if (firstBuffer != null && firstBuffer.byteLength >= 4) {
      return firstBuffer.readInt32LE(0);
    }

    // Unlikely case: an int32 is split across buffers.
    // Use read and put the returned buffer back on top
    const top4Bytes = this.read(4);
    const value = top4Bytes.readInt32LE(0);

    // Put it back.
    this.totalByteLength += 4;
    this.buffers.unshift(top4Bytes);

    return value;
  }

  /** Reads the requested number of bytes, optionally consuming them */
  read(size: number): Buffer {
    if (typeof size !== 'number' || size < 0) {
      throw new MongoInvalidArgumentError('Argument "size" must be a non-negative number');
    }

    // oversized request returns empty buffer
    if (size > this.totalByteLength) {
      return Buffer.alloc(0);
    }

    // We know we have enough, we just don't know how it is spread across chunks
    // TODO(NODE-4732): alloc API should change based on raw option
    const result = Buffer.allocUnsafe(size);

    for (let bytesRead = 0; bytesRead < size; ) {
      const buffer = this.buffers.shift();
      if (buffer == null) {
        break;
      }
      const bytesRemaining = size - bytesRead;
      const bytesReadable = Math.min(bytesRemaining, buffer.byteLength);
      const bytes = buffer.subarray(0, bytesReadable);

      result.set(bytes, bytesRead);

      bytesRead += bytesReadable;
      this.totalByteLength -= bytesReadable;
      if (bytesReadable < buffer.byteLength) {
        this.buffers.unshift(buffer.subarray(bytesReadable));
      }
    }

    return result;
  }
}

/** @public */
export class HostAddress {
  host: string | undefined = undefined;
  port: number | undefined = undefined;
  socketPath: string | undefined = undefined;
  isIPv6 = false;

  constructor(hostString: string) {
    const escapedHost = hostString.split(' ').join('%20'); // escape spaces, for socket path hosts

    if (escapedHost.endsWith('.sock')) {
      // heuristically determine if we're working with a domain socket
      this.socketPath = decodeURIComponent(escapedHost);
      return;
    }

    const urlString = `iLoveJS://${escapedHost}`;
    let url;
    try {
      url = new URL(urlString);
    } catch (urlError) {
      const runtimeError = new MongoRuntimeError(`Unable to parse ${escapedHost} with URL`);
      runtimeError.cause = urlError;
      throw runtimeError;
    }

    const hostname = url.hostname;
    const port = url.port;

    let normalized = decodeURIComponent(hostname).toLowerCase();
    if (normalized.startsWith('[') && normalized.endsWith(']')) {
      this.isIPv6 = true;
      normalized = normalized.substring(1, hostname.length - 1);
    }

    this.host = normalized.toLowerCase();

    if (typeof port === 'number') {
      this.port = port;
    } else if (typeof port === 'string' && port !== '') {
      this.port = Number.parseInt(port, 10);
    } else {
      this.port = 27017;
    }

    if (this.port === 0) {
      throw new MongoParseError('Invalid port (zero) with hostname');
    }
    Object.freeze(this);
  }

  [Symbol.for('nodejs.util.inspect.custom')](): string {
    return this.inspect();
  }

  inspect(): string {
    return `new HostAddress('${this.toString()}')`;
  }

  toString(): string {
    if (typeof this.host === 'string') {
      if (this.isIPv6) {
        return `[${this.host}]:${this.port}`;
      }
      return `${this.host}:${this.port}`;
    }
    return `${this.socketPath}`;
  }

  static fromString(this: void, s: string): HostAddress {
    return new HostAddress(s);
  }

  static fromHostPort(host: string, port: number): HostAddress {
    if (host.includes(':')) {