import debug from "debug"; import type { NostrEvent } from "nostr-tools"; import { nip19 } from "nostr-tools"; import { EventEmitter } from "tseep"; import { AIGuardrails } from "../ai-guardrails/index.js"; import type { NDKCacheAdapter } from "../cache/index.js"; import dedupEvent from "../events/dedup.js"; import { NDKEvent } from "../events/index.js"; import { signatureVerificationInit } from "../events/signature.js"; import { OutboxTracker } from "../outbox/tracker.js"; import type { NDKAuthPolicy } from "../relay/auth-policies.js"; import { NDKRelay } from "../relay/index.js"; import { NDKPool } from "../relay/pool/index.js"; import type { NDKPublishError } from "../relay/sets/index.js"; import { NDKRelaySet } from "../relay/sets/index.js"; import { correctRelaySet } from "../relay/sets/utils.js"; import type { NDKSigner } from "../signers/index.js"; import type { NDKFilter, NDKSubscriptionOptions } from "../subscription/index.js"; import { NDKSubscription } from "../subscription/index.js"; import { NDKSubscriptionManager } from "../subscription/manager.js"; import { filterFromId, isNip33AValue, relaysFromBech32 } from "../subscription/utils.js"; import type { NDKUserParams, ProfilePointer } from "../user/index.js"; import { NDKUser } from "../user/index.js"; import { isValidNip05 } from "../utils/validation.js"; import { normalizeRelayUrl } from "../utils/normalize-url.js"; import type { NDKAggregatedCountResult, NDKCountOptions } from "../count/index.js"; import type { CashuPayCb, LnPayCb, NDKPaymentConfirmation, NDKZapSplit } from "../zapper/index.js"; import type { NDKLnUrlData } from "../zapper/ln.js"; import { setActiveUser } from "./active-user.js"; import { getEntity } from "./entity.js"; import { fetchEventFromTag } from "./fetch-event-from-tag.js"; import { Queue } from "./queue/index.js"; export type NDKValidationRatioFn = (relay: NDKRelay, validatedCount: number, nonValidatedCount: number) => number; export type NDKNetDebug = (msg: string, relay: NDKRelay, direction?: "send" | "recv") => void; /** * An interface compatible with ndk-wallet that allows setting multiple handlers and callbacks. */ export interface NDKWalletInterface { lnPay?: LnPayCb; cashuPay?: CashuPayCb; onPaymentComplete?: (results: Map) => void; } export interface NDKConstructorParams { /** * Relays we should explicitly connect to */ explicitRelayUrls?: string[]; /** * When this is set, we always write only to this relays. */ devWriteRelayUrls?: string[]; /** * Outbox relay URLs. */ outboxRelayUrls?: string[]; /** * Enable outbox model (defaults to true) */ enableOutboxModel?: boolean; /** * Auto-connect to main user's relays. The "main" user is determined * by the presence of a signer. Upon connection to the explicit relays, * the user's relays will be fetched and connected to if this is set to true. * @default true */ autoConnectUserRelays?: boolean; /** * Signer to use for signing events by default */ signer?: NDKSigner; /** * Cache adapter to use for caching events */ cacheAdapter?: NDKCacheAdapter; /** * Debug instance to use */ debug?: debug.Debugger; /** * Provide a caller function to receive all networking traffic from relays */ netDebug?: NDKNetDebug; /** * Custom filter function to determine if an event should be muted. * @param event - The event to check * @returns true if the event should be muted */ muteFilter?: (event: NDKEvent) => boolean; /** * Custom filter function to determine if a relay connection should be allowed. * @param relayUrl - The relay URL to check * @returns true if the connection should be allowed, false to block it */ relayConnectionFilter?: (relayUrl: string) => boolean; /** * Client name to add to events' tag */ clientName?: string; /** * Client nip89 to add to events' tag */ clientNip89?: string; /** * Default relay-auth policy */ relayAuthDefaultPolicy?: NDKAuthPolicy; /** * Set a Web Worker for signature verification. * * @default undefined * * When provided, signature verification will be processed in a web worker. * You should listen for the `event:invalid-sig` event to handle invalid signatures. * * @example * ```typescript * const worker = new Worker("path/to/signature-verification.js"); * ndk.signatureVerificationWorker = worker; * ndk.on("event:invalid-sig", (event) => { * console.error("Invalid signature", event); * }); * ``` */ signatureVerificationWorker?: Worker | undefined; /** * The signature verification validation ratio for new relays. */ initialValidationRatio?: number; /** * The lowest validation ratio any single relay can have. * Relays will have a sample of events verified based on this ratio. * When using this, you MUST listen for event:invalid-sig events * to handle invalid signatures and disconnect from evil relays. * * @default 0.1 */ lowestValidationRatio?: number; /** * A function that is invoked to calculate the validation ratio for a relay. */ validationRatioFn?: NDKValidationRatioFn; /** * A custom function to verify event signatures. * When provided, this function will be used instead of the default verification logic. * This is particularly useful for platforms like React Native where Web Workers are not available. * * @example * ```typescript * import { verifySignatureAsync } from "@nostr-dev-kit/mobile"; * * const ndk = new NDK({ * signatureVerificationFunction: verifySignatureAsync * }); * ``` */ signatureVerificationFunction?: (event: NDKEvent) => Promise; /** * Filter validation mode for subscriptions. * * @default "validate" - Throws an error when filters contain undefined values * "fix" - Automatically removes undefined values from filters * "ignore" - Skip validation entirely (legacy behavior) */ filterValidationMode?: "validate" | "fix" | "ignore"; /** * ⚠️ STRONGLY RECOMMENDED: Enable AI Guardrails during development * * AI Guardrails catch 90% of common mistakes before they cause silent failures: * - Using bech32 (npub/note1) in filter arrays instead of hex * - Missing required fields on events (kind, content, etc.) * - Invalid tag formats and duplicate tags * - Performance anti-patterns (fetchEvents abuse, no cache adapter) * - Wrong data types (milliseconds vs seconds for created_at) * * When enabled, you'll get clear, actionable error messages instead of silent failures. * * @default false - Guardrails are disabled (zero performance impact) * * @example RECOMMENDED: Enable during development * ```typescript * const ndk = new NDK({ * explicitRelayUrls: ['wss://relay.primal.net'], * aiGuardrails: true // ⚠️ Enable this! * }); * ``` * * @example Disable in production * ```typescript * const ndk = new NDK({ * aiGuardrails: process.env.NODE_ENV !== 'production' * }); * ``` * * @example Enable with specific checks disabled * ```typescript * const ndk = new NDK({ * aiGuardrails: { skip: new Set(['filter-large-limit']) } * }); * ``` * * @example Programmatic control * ```typescript * ndk.aiGuardrails.skip('fetch-events-usage'); * ndk.aiGuardrails.enable('filter-bech32-in-array'); * ``` * * @see https://github.com/nostr-dev-kit/ndk/tree/master/ndk/src/ai-guardrails */ aiGuardrails?: boolean | { skip?: Set }; /** * Optional grace period (in seconds) for future timestamps. * * When set, subscriptions will automatically discard events where * `created_at` is more than this many seconds ahead of the current time. * This helps protect against malicious relays sending events with * manipulated timestamps. * * Set to `undefined` (default) to disable this check and accept all events * regardless of timestamp. * * @default undefined * * @example Reject events more than 5 minutes in the future * ```typescript * const ndk = new NDK({ * explicitRelayUrls: ['wss://relay.primal.net'], * futureTimestampGrace: 300 // 5 minutes * }); * ``` */ futureTimestampGrace?: number; } export interface GetUserParams extends NDKUserParams { npub?: string; pubkey?: string; /** * @deprecated Use `pubkey` instead */ hexpubkey?: string; } export const DEFAULT_OUTBOX_RELAYS = ["wss://purplepag.es/", "wss://nos.lol/"]; /** * Defines handlers that can be passed to `ndk.subscribe` via the `autoStart` parameter * to react to subscription lifecycle events. */ export interface NDKSubscriptionEventHandlers { /** * Called for each individual event received from relays *after* the initial cache load (if `onEvents` is provided), * or for *all* events (including cached ones) if `onEvents` is not provided. * @param event The received NDKEvent. * @param relay The relay the event was received from (undefined if from cache). */ onEvent?: (event: NDKEvent, relay?: NDKRelay) => void; /** * Called *once* with an array of all events found synchronously in the cache when the subscription starts. * If this handler is provided, `onEvent` will *not* be called for this initial batch of cached events. * This is useful for bulk processing or batching UI updates based on the initial cached state. * @param events An array of NDKEvents loaded synchronously from the cache. */ onEvents?: (events: NDKEvent[]) => void; // Parameter name is already 'events' /** * Called when the subscription receives an EOSE (End of Stored Events) marker * from all connected relays involved in this subscription request. * @param sub The NDKSubscription instance that reached EOSE. */ onEose?: (sub: NDKSubscription) => void; /** * Called when the subscription is closed. * @param sub The NDKSubscription instance that was closed. */ onClose?: (sub: NDKSubscription) => void; } /** * The NDK class is the main entry point to the library. * * @emits signer:ready when a signer is ready * @emits activeUser:change when the active user changes * @emits invalid-signature when an event with an invalid signature is received */ export class NDK extends EventEmitter<{ "signer:ready": (signer: NDKSigner) => void; "signer:required": () => void; /** * Emitted when the active user changes. * This can happen when a signer is set or when activeUser is set directly. */ "activeUser:change": (user: NDKUser | undefined) => void; /** * Emitted when an event with an invalid signature is received. * Includes the relay that provided the invalid signature. */ "event:invalid-sig": (event: NDKEvent, relay?: NDKRelay) => void; /** * Emitted when an event fails to publish. * @param event The event that failed to publish * @param error The error that caused the event to fail to publish * @param relays The relays that the event was attempted to be published to */ "event:publish-failed": (event: NDKEvent, error: NDKPublishError, relays: WebSocket["url"][]) => void; }> { private _explicitRelayUrls?: WebSocket["url"][]; public pool: NDKPool; public outboxPool?: NDKPool; private _signer?: NDKSigner; private _activeUser?: NDKUser; public cacheAdapter?: NDKCacheAdapter; public debug: debug.Debugger; public devWriteRelaySet?: NDKRelaySet; public outboxTracker?: OutboxTracker; public muteFilter?: (event: NDKEvent) => boolean; public relayConnectionFilter?: (relayUrl: string) => boolean; public clientName?: string; public clientNip89?: string; public queuesZapConfig: Queue; public queuesNip05: Queue; public asyncSigVerification = false; public initialValidationRatio = 1.0; public lowestValidationRatio = 0.1; public validationRatioFn?: NDKValidationRatioFn; public filterValidationMode: "validate" | "fix" | "ignore" = "validate"; public subManager: NDKSubscriptionManager; public aiGuardrails: AIGuardrails; public futureTimestampGrace?: number; /** * Private storage for the signature verification function */ private _signatureVerificationFunction?: (event: NDKEvent) => Promise; /** * Private storage for the signature verification worker */ private _signatureVerificationWorker?: Worker; /** * Rolling total of time spent (in ms) performing signature verifications. * Users can read this to monitor or display aggregate verification cost. */ public signatureVerificationTimeMs: number = 0; public publishingFailureHandled = false; public pools: NDKPool[] = []; /** * Default relay-auth policy that will be used when a relay requests authentication, * if no other policy is specified for that relay. * * @example Disconnect from relays that request authentication: * ```typescript * ndk.relayAuthDefaultPolicy = NDKAuthPolicies.disconnect(ndk.pool); * ``` * * @example Sign in to relays that request authentication: * ```typescript * ndk.relayAuthDefaultPolicy = NDKAuthPolicies.signIn({ndk}) * ``` * * @example Sign in to relays that request authentication, asking the user for confirmation: * ```typescript * ndk.relayAuthDefaultPolicy = (relay: NDKRelay) => { * const signIn = NDKAuthPolicies.signIn({ndk}); * if (confirm(`Relay ${relay.url} is requesting authentication, do you want to sign in?`)) { * signIn(relay); * } * } * ``` */ public relayAuthDefaultPolicy?: NDKAuthPolicy; /** * Fetch function to use for HTTP requests. * * @example * ```typescript * import fetch from "node-fetch"; * * ndk.httpFetch = fetch; * ``` */ public httpFetch: typeof fetch | undefined; /** * Provide a caller function to receive all networking traffic from relays */ readonly netDebug?: NDKNetDebug; public autoConnectUserRelays = true; private _wallet?: NDKWalletInterface; public walletConfig?: NDKWalletInterface; public constructor(opts: NDKConstructorParams = {}) { super(); this.debug = opts.debug || debug("ndk"); this.netDebug = opts.netDebug; this._explicitRelayUrls = opts.explicitRelayUrls || []; this.subManager = new NDKSubscriptionManager(); this.pool = new NDKPool(opts.explicitRelayUrls || [], this); this.pool.name = "Main"; this.pool.on("relay:auth", async (relay: NDKRelay, challenge: string) => { if (this.relayAuthDefaultPolicy) { await this.relayAuthDefaultPolicy(relay, challenge); } }); this.autoConnectUserRelays = opts.autoConnectUserRelays ?? true; this.clientName = opts.clientName; this.clientNip89 = opts.clientNip89; this.relayAuthDefaultPolicy = opts.relayAuthDefaultPolicy; if (!(opts.enableOutboxModel === false)) { this.outboxPool = new NDKPool(opts.outboxRelayUrls || DEFAULT_OUTBOX_RELAYS, this, { debug: this.debug.extend("outbox-pool"), name: "Outbox Pool", }); this.outboxTracker = new OutboxTracker(this); // Listen for outbox relay list updates and refresh affected subscriptions this.outboxTracker.on("user:relay-list-updated", (pubkey, _outboxItem) => { this.debug(`Outbox relay list updated for ${pubkey}`); // Find all active subscriptions that include this author for (const subscription of this.subManager.subscriptions.values()) { const isRelevant = subscription.filters.some((filter) => filter.authors?.includes(pubkey)); if (isRelevant && typeof subscription.refreshRelayConnections === "function") { this.debug(`Refreshing relay connections for subscription ${subscription.internalId}`); subscription.refreshRelayConnections(); } } }); } this.signer = opts.signer; this.cacheAdapter = opts.cacheAdapter; this.muteFilter = opts.muteFilter; this.relayConnectionFilter = opts.relayConnectionFilter; if (opts.devWriteRelayUrls) { this.devWriteRelaySet = NDKRelaySet.fromRelayUrls(opts.devWriteRelayUrls, this); } this.queuesZapConfig = new Queue("zaps", 3); this.queuesNip05 = new Queue("nip05", 10); // Set signature verification methods // The setters will handle setting asyncSigVerification appropriately // Handle both worker and function for backward compatibility if (opts.signatureVerificationWorker) { this.signatureVerificationWorker = opts.signatureVerificationWorker; } // Always set the function if provided, even if a worker is also set if (opts.signatureVerificationFunction) { this.signatureVerificationFunction = opts.signatureVerificationFunction; } this.initialValidationRatio = opts.initialValidationRatio || 1.0; this.lowestValidationRatio = opts.lowestValidationRatio || 0.1; this.validationRatioFn = opts.validationRatioFn || this.defaultValidationRatioFn; this.filterValidationMode = opts.filterValidationMode || "validate"; this.aiGuardrails = new AIGuardrails(opts.aiGuardrails || false); this.futureTimestampGrace = opts.futureTimestampGrace; // Trigger guardrails hook for NDK instantiation this.aiGuardrails.ndkInstantiated(this); try { this.httpFetch = fetch; } catch {} } set explicitRelayUrls(urls: WebSocket["url"][]) { this._explicitRelayUrls = urls.map(normalizeRelayUrl); this.pool.relayUrls = urls; } get explicitRelayUrls() { return this._explicitRelayUrls || []; } /** * Set a Web Worker for signature verification. * * This method initializes the worker and sets the asyncSigVerification flag. * The actual verification is handled by the verifySignatureAsync function in signature.ts, * which will use the worker if available. */ set signatureVerificationWorker(worker: Worker | undefined) { this._signatureVerificationWorker = worker; if (worker) { // Initialize the worker signatureVerificationInit(worker); // Set asyncSigVerification flag this.asyncSigVerification = true; } else { // If worker is undefined, clear the flag this.asyncSigVerification = false; } } /** * Set a custom signature verification function. * * This method is particularly useful for platforms that don't support Web Workers, * such as React Native. * * When a function is provided, it will be used for signature verification * instead of the default worker-based verification. This enables signature * verification on platforms where Web Workers are not available. * * @example * ```typescript * import { verifySignatureAsync } from "@nostr-dev-kit/mobile"; * * ndk.signatureVerificationFunction = verifySignatureAsync; * ``` */ set signatureVerificationFunction(fn: ((event: NDKEvent) => Promise) | undefined) { this._signatureVerificationFunction = fn; // Enable async verification when a function is provided this.asyncSigVerification = !!fn; } /** * Get the custom signature verification function */ get signatureVerificationFunction(): ((event: NDKEvent) => Promise) | undefined { return this._signatureVerificationFunction; } /** * Adds an explicit relay to the pool. * @param url * @param relayAuthPolicy Authentication policy to use if different from the default * @param connect Whether to connect to the relay automatically * @returns */ public addExplicitRelay(urlOrRelay: string | NDKRelay, relayAuthPolicy?: NDKAuthPolicy, connect = true): NDKRelay { let relay: NDKRelay; if (typeof urlOrRelay === "string") { relay = new NDKRelay(urlOrRelay, relayAuthPolicy, this); } else { relay = urlOrRelay; } this.pool.addRelay(relay, connect); this.explicitRelayUrls?.push(relay.url); return relay; } public toJSON(): string { return { relayCount: this.pool.relays.size }.toString(); } public get activeUser(): NDKUser | undefined { return this._activeUser; } /** * Sets the active user for this NDK instance, typically this will be * called when assigning a signer to the NDK instance. * * This function will automatically connect to the user's relays if * `autoConnectUserRelays` is set to true. */ public set activeUser(user: NDKUser | undefined) { const differentUser = this._activeUser?.pubkey !== user?.pubkey; this._activeUser = user; if (differentUser) { this.emit("activeUser:change", user); } if (user && differentUser) { setActiveUser.call(this, user); } } public get signer(): NDKSigner | undefined { return this._signer; } public set signer(newSigner: NDKSigner | undefined) { this._signer = newSigner; if (newSigner) this.emit("signer:ready", newSigner); newSigner?.user().then((user) => { user.ndk = this; this.activeUser = user; }); } /** * Connect to relays with optional timeout. * If the timeout is reached, the connection will be continued to be established in the background. */ public async connect(timeoutMs?: number): Promise { if (this._signer && this.autoConnectUserRelays) { this.debug( "Attempting to connect to user relays specified by signer %o", await this._signer.relays?.(this), ); if (this._signer.relays) { const relays = await this._signer.relays(this); relays.forEach((relay) => this.pool.addRelay(relay)); } } const connections: Promise[] = [this.pool.connect(timeoutMs)]; if (this.outboxPool) { connections.push(this.outboxPool.connect(timeoutMs)); } // Initialize cache adapter if it has async initialization if (this.cacheAdapter?.initializeAsync) { connections.push(this.cacheAdapter.initializeAsync(this)); } return Promise.allSettled(connections).then(() => {}); } /** * Centralized method to report an invalid signature, identifying the relay that provided it. * A single invalid signature means the relay is considered malicious. * All invalid signature detections (synchronous or asynchronous) should delegate to this method. * * @param event The event with an invalid signature * @param relay The relay that provided the invalid signature */ public reportInvalidSignature(event: NDKEvent, relay?: NDKRelay): void { this.debug(`Invalid signature detected for event ${event.id}${relay ? ` from relay ${relay.url}` : ""}`); // Emit event with relay information this.emit("event:invalid-sig", event, relay); } /** * Default function to calculate validation ratio based on historical validation results. * The more events validated successfully, the lower the ratio goes (down to the minimum). */ private defaultValidationRatioFn(_relay: NDKRelay, validatedCount: number, _nonValidatedCount: number): number { if (validatedCount < 10) return this.initialValidationRatio; // Calculate a logarithmically decreasing ratio that approaches the minimum // as more events are validated const trustFactor = Math.min(validatedCount / 100, 1); // Caps at 100 validated events const calculatedRatio = this.initialValidationRatio * (1 - trustFactor) + this.lowestValidationRatio * trustFactor; return Math.max(calculatedRatio, this.lowestValidationRatio); } /** * Get a NDKUser object * * @deprecated Use `fetchUser` instead - this method will be removed in the next major version * @param opts - User parameters object or a string (npub, nprofile, or hex pubkey) * @returns NDKUser instance * * @example * ```typescript * // Using parameters object * const user1 = ndk.getUser({ pubkey: "hex..." }); * * // Using npub string * const user2 = ndk.getUser("npub1..."); * * // Using nprofile string (includes relay hints) * const user3 = ndk.getUser("nprofile1..."); * * // Using hex pubkey directly * const user4 = ndk.getUser("deadbeef..."); * ``` */ public getUser(opts: GetUserParams | string): NDKUser { // Handle string input if (typeof opts === "string") { // Check if it's a NIP-19 encoded string if (opts.startsWith("npub1")) { const { type, data } = nip19.decode(opts); if (type !== "npub") throw new Error(`Invalid npub: ${opts}`); return this.getUser({ pubkey: data }); } else if (opts.startsWith("nprofile1")) { const { type, data } = nip19.decode(opts); if (type !== "nprofile") throw new Error(`Invalid nprofile: ${opts}`); return this.getUser({ pubkey: data.pubkey, relayUrls: data.relays, }); } else { // Assume it's a hex pubkey return this.getUser({ pubkey: opts }); } } // Original implementation for object parameter const user = new NDKUser(opts); user.ndk = this; return user; } /** * Get a NDKUser from a NIP05 * @deprecated Use `fetchUser` instead - this method will be removed in the next major version * @param nip05 NIP-05 ID * @param skipCache Skip cache * @returns */ async getUserFromNip05(nip05: string, skipCache = false): Promise { return NDKUser.fromNip05(nip05, this, skipCache); } /** * Fetch a NDKUser from a string identifier * * Supports multiple input formats: * - NIP-05 identifiers (e.g., "pablo@test.com" or "test.com") * - npub (NIP-19 encoded public key) * - nprofile (NIP-19 encoded profile with optional relay hints) * - Hex public key * * @param input - String identifier for the user (NIP-05, npub, nprofile, or hex pubkey) * @param skipCache - Skip cache when resolving NIP-05 (only applies to NIP-05 lookups) * @returns Promise resolving to NDKUser or undefined if not found * * @example * ```typescript * // Using NIP-05 * const user1 = await ndk.fetchUser("pablo@test.com"); * const user2 = await ndk.fetchUser("test.com"); // defaults to _@test.com * * // Using npub * const user3 = await ndk.fetchUser("npub1..."); * * // Using nprofile (includes relay hints) * const user4 = await ndk.fetchUser("nprofile1..."); * * // Using hex pubkey * const user5 = await ndk.fetchUser("deadbeef..."); * ``` */ public async fetchUser(input: string, skipCache = false): Promise { // Check if it's a NIP-05 identifier (contains @ or . indicating a domain) if (isValidNip05(input)) { return NDKUser.fromNip05(input, this, skipCache); } else if (input.startsWith("npub1")) { const { type, data } = nip19.decode(input); if (type !== "npub") throw new Error(`Invalid npub: ${input}`); const user = new NDKUser({ pubkey: data }); user.ndk = this; return user; } else if (input.startsWith("nprofile1")) { const { type, data } = nip19.decode(input); if (type !== "nprofile") throw new Error(`Invalid nprofile: ${input}`); const user = new NDKUser({ pubkey: data.pubkey, relayUrls: data.relays, }); user.ndk = this; return user; } else { // Assume it's a hex pubkey const user = new NDKUser({ pubkey: input }); user.ndk = this; return user; } } /** * Creates and starts a new subscription. * * Subscriptions automatically start unless `autoStart` is set to `false`. * You can control automatic closing on EOSE via `opts.closeOnEose`. * * @param filters - A single NDKFilter object or an array of filters. * @param opts - Optional NDKSubscriptionOptions to customize behavior (e.g., caching, grouping). * @param handlers - Optional handlers for subscription events. Passing handlers is the preferred method of using ndk.subscribe. * - `onEvent`: Called for each event received. * - `onEvents`: Called once with an array of events when the subscription starts (from the cache). * - `onEose`: Called when the subscription receives EOSE. * For backwards compatibility, this third parameter also accepts a relaySet, the relaySet should be passed via `opts.relaySet`. * * @param _autoStart - For backwards compatibility, this can be a boolean indicating whether to start the subscription immediately. * This parameter is deprecated and will be removed in a future version. * - `false`: Creates the subscription but does not start it (call `subscription.start()` manually). * @returns The created NDKSubscription instance. * * @example Basic subscription * ```typescript * const sub = ndk.subscribe( * { kinds: [1], authors: [pubkey] }, * { * onEvent: (event) => console.log("Kind 1 event:", event.content) * } * ); * ``` * * @example Subscription with options and direct handlers * ```typescript * const sub = ndk.subscribe( * { kinds: [0], authors: [pubkey] }, * { * closeOnEose: true, * cacheUsage: NDKSubscriptionCacheUsage.PARALLEL, * onEvents: (events) => console.log(`Got ${events.length} profile events from cache:`, events[0].content), * onEvent: (event) => console.log("Got profile update from relay:", event.content), * onEose: () => console.log("Profile subscription finished.") * } * ); * ``` * * @since 2.13.0 `relaySet` parameter removed; pass `relaySet` or `relayUrls` via `opts`. */ public subscribe( filters: NDKFilter | NDKFilter[], opts?: NDKSubscriptionOptions, autoStartOrRelaySet: NDKRelaySet | boolean | NDKSubscriptionEventHandlers = true, _autoStart = true, ): NDKSubscription { let _relaySet: NDKRelaySet | undefined = opts?.relaySet; let autoStart: boolean | NDKSubscriptionEventHandlers = _autoStart; // For backwards compatibility, check if the first parameter is a relaySet if (autoStartOrRelaySet instanceof NDKRelaySet) { console.warn("relaySet is deprecated, use opts.relaySet instead. This will be removed in version v2.14.0"); _relaySet = autoStartOrRelaySet; autoStart = _autoStart; } else if (typeof autoStartOrRelaySet === "boolean" || typeof autoStartOrRelaySet === "object") { autoStart = autoStartOrRelaySet; } // Merge event handlers from autoStart into opts const finalOpts = { relaySet: _relaySet, ...opts }; if (autoStart && typeof autoStart === "object") { if (autoStart.onEvent) finalOpts.onEvent = autoStart.onEvent; if (autoStart.onEose) finalOpts.onEose = autoStart.onEose; if (autoStart.onClose) finalOpts.onClose = autoStart.onClose; if (autoStart.onEvents) finalOpts.onEvents = autoStart.onEvents; } // NDKSubscription constructor now handles relaySet/relayUrls from opts const subscription = new NDKSubscription(this, filters, finalOpts); this.subManager.add(subscription); // Track subscription creation for guardrails this.aiGuardrails?.subscription?.created(Array.isArray(filters) ? filters : [filters], finalOpts); const pool = subscription.pool; // Use the pool determined by the subscription options // Signal to the relays that they are explicitly being used if a relaySet was provided/created if (subscription.relaySet) { for (const relay of subscription.relaySet.relays) { pool.useTemporaryRelay(relay, undefined, subscription.filters); } } // if we have an authors filter and we are using the outbox pool, // we want to track the authors in the outbox tracker if (this.outboxPool && subscription.hasAuthorsFilter()) { const authors: string[] = subscription.filters .filter((filter) => filter.authors && filter.authors?.length > 0) .flatMap((filter) => filter.authors!); this.outboxTracker?.trackUsers(authors); } if (autoStart) { setTimeout(async () => { // Ensure cache is ready before starting subscription if (this.cacheAdapter?.initializeAsync && !this.cacheAdapter.ready) { await this.cacheAdapter.initializeAsync(this); } subscription.start(); }, 0); } return subscription; } /** * Attempts to fetch an event from a tag, following relay hints and * other best practices. * @param tag Tag to fetch the event from * @param originalEvent Event where the tag came from * @param subOpts Subscription options to use when fetching the event * @param fallback Fallback options to use when the hint relay doesn't respond * @returns */ public fetchEventFromTag = fetchEventFromTag.bind(this); /** * Fetch an event from the cache synchronously. * @param idOrFilter event id in bech32 format or filter * @returns events from the cache or null if the cache is empty */ public fetchEventSync(idOrFilter: string | NDKFilter[]): NDKEvent[] | null { if (!this.cacheAdapter) throw new Error("Cache adapter not set"); let filters: NDKFilter[]; if (typeof idOrFilter === "string") filters = [filterFromId(idOrFilter)]; else filters = idOrFilter; const sub = new NDKSubscription(this, filters); const events = this.cacheAdapter.query(sub); if (events instanceof Promise) throw new Error("Cache adapter is async"); return events.map((e) => { e.ndk = this; return e; }); } /** * Fetch a single event. * * @param idOrFilter event id in bech32 format or filter * @param opts subscription options * @param relaySetOrRelay explicit relay set to use */ public async fetchEvent( idOrFilter: string | NDKFilter | NDKFilter[], opts?: NDKSubscriptionOptions, relaySetOrRelay?: NDKRelaySet | NDKRelay, ): Promise { let filters: NDKFilter[]; let relaySet: NDKRelaySet | undefined; // Check if this relaySetOrRelay is an NDKRelay, if it is, make it a relaySet if (relaySetOrRelay instanceof NDKRelay) { relaySet = new NDKRelaySet(new Set([relaySetOrRelay]), this); } else if (relaySetOrRelay instanceof NDKRelaySet) { relaySet = relaySetOrRelay; } // if no relayset has been provided, try to get one from the event id if (!relaySetOrRelay && typeof idOrFilter === "string") { /* Check if this is a NIP-33 */ if (!isNip33AValue(idOrFilter)) { const relays = relaysFromBech32(idOrFilter, this); if (relays.length > 0) { relaySet = new NDKRelaySet(new Set(relays), this); // Make sure we have connected relays in this set relaySet = correctRelaySet(relaySet, this.pool); } } } if (typeof idOrFilter === "string") { filters = [filterFromId(idOrFilter)]; } else if (Array.isArray(idOrFilter)) { filters = idOrFilter; } else { filters = [idOrFilter]; } // Run guardrails check on the filter when it's passed as an object (not a string) if (typeof idOrFilter !== "string") { this.aiGuardrails?.ndk?.fetchingEvents(filters); } if (filters.length === 0) { throw new Error(`Invalid filter: ${JSON.stringify(idOrFilter)}`); } return new Promise((resolve, reject) => { let fetchedEvent: NDKEvent | null = null; // Shared event processing logic const processEvent = (event: NDKEvent) => { event.ndk = this; // We only emit immediately when the event is not replaceable if (!event.isReplaceable()) { clearTimeout(t2); s?.stop(); this.aiGuardrails["_nextCallDisabled"] = null; resolve(event); } else if (!fetchedEvent || fetchedEvent.created_at! < event.created_at!) { fetchedEvent = event; } }; // Prepare options, including the relaySet if available const subscribeOpts: NDKSubscriptionOptions = { ...(opts || {}), closeOnEose: true, // Batch handler for cached events onEvents: (cachedEvents: NDKEvent[]) => { for (const event of cachedEvents) { processEvent(event); } }, // Individual handler for relay events onEvent: (event: NDKEvent) => { processEvent(event); }, onEose: () => { clearTimeout(t2); this.aiGuardrails["_nextCallDisabled"] = null; resolve(fetchedEvent); }, }; if (relaySet) subscribeOpts.relaySet = relaySet; /** This is a workaround, for some reason we're leaking subscriptions that should EOSE and fetchEvent is not * seeing them; this is a temporary fix until we find the bug. */ let s: any; const t2 = setTimeout(() => { s?.stop(); this.aiGuardrails["_nextCallDisabled"] = null; resolve(fetchedEvent); }, 10000); s = this.subscribe(filters, subscribeOpts); }); } /** * Fetch events */ public async fetchEvents( filters: NDKFilter | NDKFilter[], opts?: NDKSubscriptionOptions, relaySet?: NDKRelaySet, ): Promise> { this.aiGuardrails?.ndk?.fetchingEvents(filters, opts); return new Promise((resolve) => { const events: Map = new Map(); // Shared deduplication logic for both individual and batch events const processEvent = (event: NostrEvent | NDKEvent): void => { let _event: NDKEvent; if (!(event instanceof NDKEvent)) _event = new NDKEvent(undefined, event); else _event = event; const dedupKey = _event.deduplicationKey(); const existingEvent = events.get(dedupKey); if (existingEvent) { _event = dedupEvent(existingEvent, _event); } _event.ndk = this; events.set(dedupKey, _event); }; // Prepare options, including the relaySet if available const subscribeOpts: NDKSubscriptionOptions = { ...(opts || {}), closeOnEose: true, onEvents: (cachedEvents: NDKEvent[]) => { for (const event of cachedEvents) { processEvent(event); } }, onEvent: processEvent, onEose: () => { this.aiGuardrails["_nextCallDisabled"] = null; resolve(new Set(events.values())); }, }; if (relaySet) subscribeOpts.relaySet = relaySet; const _relaySetSubscription = this.subscribe(filters, subscribeOpts); // We want to inspect duplicated events // so we can dedup them // relaySetSubscription.on("event:dup", (rawEvent: NostrEvent) => { // const ndkEvent = new NDKEvent(undefined, rawEvent); // onEvent(ndkEvent) // }); }); } /** * Count events matching the given filters using NIP-45. * * This method queries multiple relays and aggregates their COUNT responses. * When relays return HyperLogLog (HLL) data, it uses the HLL algorithm to * provide accurate cardinality estimation without double-counting events * that appear on multiple relays. * * @param filters - The filters to count events for * @param opts - Optional count options (timeout, custom id) * @param relaySet - Optional relay set to use for the count request * @returns An aggregated count result with the best estimate and per-relay results * * @example Basic count * ```typescript * const result = await ndk.count([{ kinds: [1], authors: [pubkey] }]); * console.log(`Found approximately ${result.count} events`); * ``` * * @example Count with specific relays * ```typescript * const relaySet = NDKRelaySet.fromRelayUrls(['wss://relay1.com', 'wss://relay2.com'], ndk); * const result = await ndk.count([{ kinds: [7], "#e": [eventId] }], {}, relaySet); * console.log(`Approximately ${result.count} reactions`); * ``` * * @example Using HLL data for further analysis * ```typescript * const result = await ndk.count([{ kinds: [3] }]); * if (result.mergedHll) { * console.log('HLL data available for further merging'); * } * ``` */ public async count( filters: NDKFilter | NDKFilter[], opts: NDKCountOptions = {}, relaySet?: NDKRelaySet, ): Promise { const effectiveRelaySet = relaySet ?? NDKRelaySet.fromRelayUrls( Array.from(this.pool.relays.keys()), this, false, ); return effectiveRelaySet.count(filters, opts); } /** * Ensures that a signer is available to sign an event. */ public assertSigner() { if (!this.signer) { this.emit("signer:required"); throw new Error("Signer required"); } } public getEntity = getEntity.bind(this); /** * Temporarily disable AI guardrails for the next method call. * * @param ids - Optional guardrail IDs to disable. If omitted, all guardrails are disabled for the next call. * Can be a single string or an array of strings. * @returns This NDK instance for method chaining * * @example Disable all guardrails for one call * ```typescript * ndk.guardrailOff().fetchEvents({ kinds: [1] }); * ``` * * @example Disable specific guardrail * ```typescript * ndk.guardrailOff('fetch-events-usage').fetchEvents({ kinds: [1] }); * ``` * * @example Disable multiple guardrails * ```typescript * ndk.guardrailOff(['fetch-events-usage', 'filter-large-limit']).fetchEvents({ kinds: [1], limit: 5000 }); * ``` */ public guardrailOff(ids?: string | string[]): this { if (!ids) { this.aiGuardrails["_nextCallDisabled"] = "all"; } else if (typeof ids === "string") { this.aiGuardrails["_nextCallDisabled"] = new Set([ids]); } else { this.aiGuardrails["_nextCallDisabled"] = new Set(ids); } return this; } set wallet(wallet: NDKWalletInterface | undefined) { if (!wallet) { this._wallet = undefined; this.walletConfig = undefined; return; } this._wallet = wallet; this.walletConfig ??= {}; this.walletConfig.lnPay = wallet?.lnPay?.bind(wallet); this.walletConfig.cashuPay = wallet?.cashuPay?.bind(wallet); } get wallet(): NDKWalletInterface | undefined { return this._wallet; } }