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nostr-tools

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Tools for making a Nostr client.

github.com/nbd-wtf/nostr-tools

nbd-wtf/nostr-tools

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JavaScript

var __defProp = Object.defineProperty; var __export = (target, all) => { for (var name in all) __defProp(target, name, { get: all[name], enumerable: true }); }; // pure.ts import { schnorr } from "@noble/curves/secp256k1"; import { bytesToHex as bytesToHex2 } from "@noble/hashes/utils"; // core.ts var verifiedSymbol = Symbol("verified"); var isRecord = (obj) => obj instanceof Object; function validateEvent(event) { if (!isRecord(event)) return false; if (typeof event.kind !== "number") return false; if (typeof event.content !== "string") return false; if (typeof event.created_at !== "number") return false; if (typeof event.pubkey !== "string") return false; if (!event.pubkey.match(/^[a-f0-9]{64}$/)) return false; if (!Array.isArray(event.tags)) return false; for (let i2 = 0; i2 < event.tags.length; i2++) { let tag = event.tags[i2]; if (!Array.isArray(tag)) return false; for (let j = 0; j < tag.length; j++) { if (typeof tag[j] !== "string") return false; } } return true; } function sortEvents(events) { return events.sort((a, b) => { if (a.created_at !== b.created_at) { return b.created_at - a.created_at; } return a.id.localeCompare(b.id); }); } // pure.ts import { sha256 } from "@noble/hashes/sha256"; // utils.ts var utils_exports = {}; __export(utils_exports, { Queue: () => Queue, QueueNode: () => QueueNode, binarySearch: () => binarySearch, bytesToHex: () => bytesToHex, hexToBytes: () => hexToBytes, insertEventIntoAscendingList: () => insertEventIntoAscendingList, insertEventIntoDescendingList: () => insertEventIntoDescendingList, normalizeURL: () => normalizeURL, utf8Decoder: () => utf8Decoder, utf8Encoder: () => utf8Encoder }); import { bytesToHex, hexToBytes } from "@noble/hashes/utils"; var utf8Decoder = new TextDecoder("utf-8"); var utf8Encoder = new TextEncoder(); function normalizeURL(url) { try { if (url.indexOf("://") === -1) url = "wss://" + url; let p = new URL(url); p.pathname = p.pathname.replace(/\/+/g, "/"); if (p.pathname.endsWith("/")) p.pathname = p.pathname.slice(0, -1); if (p.port === "80" && p.protocol === "ws:" || p.port === "443" && p.protocol === "wss:") p.port = ""; p.searchParams.sort(); p.hash = ""; return p.toString(); } catch (e) { throw new Error(`Invalid URL: ${url}`); } } function insertEventIntoDescendingList(sortedArray, event) { const [idx, found] = binarySearch(sortedArray, (b) => { if (event.id === b.id) return 0; if (event.created_at === b.created_at) return -1; return b.created_at - event.created_at; }); if (!found) { sortedArray.splice(idx, 0, event); } return sortedArray; } function insertEventIntoAscendingList(sortedArray, event) { const [idx, found] = binarySearch(sortedArray, (b) => { if (event.id === b.id) return 0; if (event.created_at === b.created_at) return -1; return event.created_at - b.created_at; }); if (!found) { sortedArray.splice(idx, 0, event); } return sortedArray; } function binarySearch(arr, compare) { let start = 0; let end = arr.length - 1; while (start <= end) { const mid = Math.floor((start + end) / 2); const cmp = compare(arr[mid]); if (cmp === 0) { return [mid, true]; } if (cmp < 0) { end = mid - 1; } else { start = mid + 1; } } return [start, false]; } var QueueNode = class { value; next = null; prev = null; constructor(message) { this.value = message; } }; var Queue = class { first; last; constructor() { this.first = null; this.last = null; } enqueue(value) { const newNode = new QueueNode(value); if (!this.last) { this.first = newNode; this.last = newNode; } else if (this.last === this.first) { this.last = newNode; this.last.prev = this.first; this.first.next = newNode; } else { newNode.prev = this.last; this.last.next = newNode; this.last = newNode; } return true; } dequeue() { if (!this.first) return null; if (this.first === this.last) { const target2 = this.first; this.first = null; this.last = null; return target2.value; } const target = this.first; this.first = target.next; if (this.first) { this.first.prev = null; } return target.value; } }; // pure.ts var JS = class { generateSecretKey() { return schnorr.utils.randomPrivateKey(); } getPublicKey(secretKey) { return bytesToHex2(schnorr.getPublicKey(secretKey)); } finalizeEvent(t, secretKey) { const event = t; event.pubkey = bytesToHex2(schnorr.getPublicKey(secretKey)); event.id = getEventHash(event); event.sig = bytesToHex2(schnorr.sign(getEventHash(event), secretKey)); event[verifiedSymbol] = true; return event; } verifyEvent(event) { if (typeof event[verifiedSymbol] === "boolean") return event[verifiedSymbol]; const hash = getEventHash(event); if (hash !== event.id) { event[verifiedSymbol] = false; return false; } try { const valid = schnorr.verify(event.sig, hash, event.pubkey); event[verifiedSymbol] = valid; return valid; } catch (err) { event[verifiedSymbol] = false; return false; } } }; function serializeEvent(evt) { if (!validateEvent(evt)) throw new Error("can't serialize event with wrong or missing properties"); return JSON.stringify([0, evt.pubkey, evt.created_at, evt.kind, evt.tags, evt.content]); } function getEventHash(event) { let eventHash = sha256(utf8Encoder.encode(serializeEvent(event))); return bytesToHex2(eventHash); } var i = new JS(); var generateSecretKey = i.generateSecretKey; var getPublicKey = i.getPublicKey; var finalizeEvent = i.finalizeEvent; var verifyEvent = i.verifyEvent; // kinds.ts var kinds_exports = {}; __export(kinds_exports, { Application: () => Application, BadgeAward: () => BadgeAward, BadgeDefinition: () => BadgeDefinition, BlockedRelaysList: () => BlockedRelaysList, BookmarkList: () => BookmarkList, Bookmarksets: () => Bookmarksets, Calendar: () => Calendar, CalendarEventRSVP: () => CalendarEventRSVP, ChannelCreation: () => ChannelCreation, ChannelHideMessage: () => ChannelHideMessage, ChannelMessage: () => ChannelMessage, ChannelMetadata: () => ChannelMetadata, ChannelMuteUser: () => ChannelMuteUser, ClassifiedListing: () => ClassifiedListing, ClientAuth: () => ClientAuth, CommunitiesList: () => CommunitiesList, CommunityDefinition: () => CommunityDefinition, CommunityPostApproval: () => CommunityPostApproval, Contacts: () => Contacts, CreateOrUpdateProduct: () => CreateOrUpdateProduct, CreateOrUpdateStall: () => CreateOrUpdateStall, Curationsets: () => Curationsets, Date: () => Date2, DirectMessageRelaysList: () => DirectMessageRelaysList, DraftClassifiedListing: () => DraftClassifiedListing, DraftLong: () => DraftLong, Emojisets: () => Emojisets, EncryptedDirectMessage: () => EncryptedDirectMessage, EventDeletion: () => EventDeletion, FileMetadata: () => FileMetadata, FileServerPreference: () => FileServerPreference, Followsets: () => Followsets, GenericRepost: () => GenericRepost, Genericlists: () => Genericlists, GiftWrap: () => GiftWrap, HTTPAuth: () => HTTPAuth, Handlerinformation: () => Handlerinformation, Handlerrecommendation: () => Handlerrecommendation, Highlights: () => Highlights, InterestsList: () => InterestsList, Interestsets: () => Interestsets, JobFeedback: () => JobFeedback, JobRequest: () => JobRequest, JobResult: () => JobResult, Label: () => Label, LightningPubRPC: () => LightningPubRPC, LiveChatMessage: () => LiveChatMessage, LiveEvent: () => LiveEvent, LongFormArticle: () => LongFormArticle, Metadata: () => Metadata, Mutelist: () => Mutelist, NWCWalletInfo: () => NWCWalletInfo, NWCWalletRequest: () => NWCWalletRequest, NWCWalletResponse: () => NWCWalletResponse, NostrConnect: () => NostrConnect, OpenTimestamps: () => OpenTimestamps, Pinlist: () => Pinlist, PrivateDirectMessage: () => PrivateDirectMessage, ProblemTracker: () => ProblemTracker, ProfileBadges: () => ProfileBadges, PublicChatsList: () => PublicChatsList, Reaction: () => Reaction, RecommendRelay: () => RecommendRelay, RelayList: () => RelayList, Relaysets: () => Relaysets, Report: () => Report, Reporting: () => Reporting, Repost: () => Repost, Seal: () => Seal, SearchRelaysList: () => SearchRelaysList, ShortTextNote: () => ShortTextNote, Time: () => Time, UserEmojiList: () => UserEmojiList, UserStatuses: () => UserStatuses, Zap: () => Zap, ZapGoal: () => ZapGoal, ZapRequest: () => ZapRequest, classifyKind: () => classifyKind, isAddressableKind: () => isAddressableKind, isEphemeralKind: () => isEphemeralKind, isKind: () => isKind, isRegularKind: () => isRegularKind, isReplaceableKind: () => isReplaceableKind }); function isRegularKind(kind) { return 1e3 <= kind && kind < 1e4 || [1, 2, 4, 5, 6, 7, 8, 16, 40, 41, 42, 43, 44].includes(kind); } function isReplaceableKind(kind) { return [0, 3].includes(kind) || 1e4 <= kind && kind < 2e4; } function isEphemeralKind(kind) { return 2e4 <= kind && kind < 3e4; } function isAddressableKind(kind) { return 3e4 <= kind && kind < 4e4; } function classifyKind(kind) { if (isRegularKind(kind)) return "regular"; if (isReplaceableKind(kind)) return "replaceable"; if (isEphemeralKind(kind)) return "ephemeral"; if (isAddressableKind(kind)) return "parameterized"; return "unknown"; } function isKind(event, kind) { const kindAsArray = kind instanceof Array ? kind : [kind]; return validateEvent(event) && kindAsArray.includes(event.kind) || false; } var Metadata = 0; var ShortTextNote = 1; var RecommendRelay = 2; var Contacts = 3; var EncryptedDirectMessage = 4; var EventDeletion = 5; var Repost = 6; var Reaction = 7; var BadgeAward = 8; var Seal = 13; var PrivateDirectMessage = 14; var GenericRepost = 16; var ChannelCreation = 40; var ChannelMetadata = 41; var ChannelMessage = 42; var ChannelHideMessage = 43; var ChannelMuteUser = 44; var OpenTimestamps = 1040; var GiftWrap = 1059; var FileMetadata = 1063; var LiveChatMessage = 1311; var ProblemTracker = 1971; var Report = 1984; var Reporting = 1984; var Label = 1985; var CommunityPostApproval = 4550; var JobRequest = 5999; var JobResult = 6999; var JobFeedback = 7e3; var ZapGoal = 9041; var ZapRequest = 9734; var Zap = 9735; var Highlights = 9802; var Mutelist = 1e4; var Pinlist = 10001; var RelayList = 10002; var BookmarkList = 10003; var CommunitiesList = 10004; var PublicChatsList = 10005; var BlockedRelaysList = 10006; var SearchRelaysList = 10007; var InterestsList = 10015; var UserEmojiList = 10030; var DirectMessageRelaysList = 10050; var FileServerPreference = 10096; var NWCWalletInfo = 13194; var LightningPubRPC = 21e3; var ClientAuth = 22242; var NWCWalletRequest = 23194; var NWCWalletResponse = 23195; var NostrConnect = 24133; var HTTPAuth = 27235; var Followsets = 3e4; var Genericlists = 30001; var Relaysets = 30002; var Bookmarksets = 30003; var Curationsets = 30004; var ProfileBadges = 30008; var BadgeDefinition = 30009; var Interestsets = 30015; var CreateOrUpdateStall = 30017; var CreateOrUpdateProduct = 30018; var LongFormArticle = 30023; var DraftLong = 30024; var Emojisets = 30030; var Application = 30078; var LiveEvent = 30311; var UserStatuses = 30315; var ClassifiedListing = 30402; var DraftClassifiedListing = 30403; var Date2 = 31922; var Time = 31923; var Calendar = 31924; var CalendarEventRSVP = 31925; var Handlerrecommendation = 31989; var Handlerinformation = 31990; var CommunityDefinition = 34550; // filter.ts function matchFilter(filter, event) { if (filter.ids && filter.ids.indexOf(event.id) === -1) { return false; } if (filter.kinds && filter.kinds.indexOf(event.kind) === -1) { return false; } if (filter.authors && filter.authors.indexOf(event.pubkey) === -1) { return false; } for (let f in filter) { if (f[0] === "#") { let tagName = f.slice(1); let values = filter[`#${tagName}`]; if (values && !event.tags.find(([t, v]) => t === f.slice(1) && values.indexOf(v) !== -1)) return false; } } if (filter.since && event.created_at < filter.since) return false; if (filter.until && event.created_at > filter.until) return false; return true; } function matchFilters(filters, event) { for (let i2 = 0; i2 < filters.length; i2++) { if (matchFilter(filters[i2], event)) { return true; } } return false; } function mergeFilters(...filters) { let result = {}; for (let i2 = 0; i2 < filters.length; i2++) { let filter = filters[i2]; Object.entries(filter).forEach(([property, values]) => { if (property === "kinds" || property === "ids" || property === "authors" || property[0] === "#") { result[property] = result[property] || []; for (let v = 0; v < values.length; v++) { let value = values[v]; if (!result[property].includes(value)) result[property].push(value); } } }); if (filter.limit && (!result.limit || filter.limit > result.limit)) result.limit = filter.limit; if (filter.until && (!result.until || filter.until > result.until)) result.until = filter.until; if (filter.since && (!result.since || filter.since < result.since)) result.since = filter.since; } return result; } function getFilterLimit(filter) { if (filter.ids && !filter.ids.length) return 0; if (filter.kinds && !filter.kinds.length) return 0; if (filter.authors && !filter.authors.length) return 0; for (const [key, value] of Object.entries(filter)) { if (key[0] === "#" && Array.isArray(value) && !value.length) return 0; } return Math.min( Math.max(0, filter.limit ?? Infinity), filter.ids?.length ?? Infinity, filter.authors?.length && filter.kinds?.every((kind) => isReplaceableKind(kind)) ? filter.authors.length * filter.kinds.length : Infinity, filter.authors?.length && filter.kinds?.every((kind) => isAddressableKind(kind)) && filter["#d"]?.length ? filter.authors.length * filter.kinds.length * filter["#d"].length : Infinity ); } // fakejson.ts var fakejson_exports = {}; __export(fakejson_exports, { getHex64: () => getHex64, getInt: () => getInt, getSubscriptionId: () => getSubscriptionId, matchEventId: () => matchEventId, matchEventKind: () => matchEventKind, matchEventPubkey: () => matchEventPubkey }); function getHex64(json, field) { let len = field.length + 3; let idx = json.indexOf(`"${field}":`) + len; let s = json.slice(idx).indexOf(`"`) + idx + 1; return json.slice(s, s + 64); } function getInt(json, field) { let len = field.length; let idx = json.indexOf(`"${field}":`) + len + 3; let sliced = json.slice(idx); let end = Math.min(sliced.indexOf(","), sliced.indexOf("}")); return parseInt(sliced.slice(0, end), 10); } function getSubscriptionId(json) { let idx = json.slice(0, 22).indexOf(`"EVENT"`); if (idx === -1) return null; let pstart = json.slice(idx + 7 + 1).indexOf(`"`); if (pstart === -1) return null; let start = idx + 7 + 1 + pstart; let pend = json.slice(start + 1, 80).indexOf(`"`); if (pend === -1) return null; let end = start + 1 + pend; return json.slice(start + 1, end); } function matchEventId(json, id) { return id === getHex64(json, "id"); } function matchEventPubkey(json, pubkey) { return pubkey === getHex64(json, "pubkey"); } function matchEventKind(json, kind) { return kind === getInt(json, "kind"); } // nip42.ts var nip42_exports = {}; __export(nip42_exports, { makeAuthEvent: () => makeAuthEvent }); function makeAuthEvent(relayURL, challenge) { return { kind: ClientAuth, created_at: Math.floor(Date.now() / 1e3), tags: [ ["relay", relayURL], ["challenge", challenge] ], content: "" }; } // helpers.ts async function yieldThread() { return new Promise((resolve) => { const ch = new MessageChannel(); const handler = () => { ch.port1.removeEventListener("message", handler); resolve(); }; ch.port1.addEventListener("message", handler); ch.port2.postMessage(0); ch.port1.start(); }); } var alwaysTrue = (t) => { t[verifiedSymbol] = true; return true; }; // abstract-relay.ts var SendingOnClosedConnection = class extends Error { constructor(message, relay) { super(`Tried to send message '${message} on a closed connection to ${relay}.`); this.name = "SendingOnClosedConnection"; } }; var AbstractRelay = class { url; _connected = false; onclose = null; onnotice = (msg) => console.debug(`NOTICE from ${this.url}: ${msg}`); baseEoseTimeout = 4400; connectionTimeout = 4400; publishTimeout = 4400; pingFrequency = 2e4; pingTimeout = 2e4; openSubs = /* @__PURE__ */ new Map(); enablePing; connectionTimeoutHandle; connectionPromise; openCountRequests = /* @__PURE__ */ new Map(); openEventPublishes = /* @__PURE__ */ new Map(); ws; incomingMessageQueue = new Queue(); queueRunning = false; challenge; authPromise; serial = 0; verifyEvent; _WebSocket; constructor(url, opts) { this.url = normalizeURL(url); this.verifyEvent = opts.verifyEvent; this._WebSocket = opts.websocketImplementation || WebSocket; this.enablePing = opts.enablePing; } static async connect(url, opts) { const relay = new AbstractRelay(url, opts); await relay.connect(); return relay; } closeAllSubscriptions(reason) { for (let [_, sub] of this.openSubs) { sub.close(reason); } this.openSubs.clear(); for (let [_, ep] of this.openEventPublishes) { ep.reject(new Error(reason)); } this.openEventPublishes.clear(); for (let [_, cr] of this.openCountRequests) { cr.reject(new Error(reason)); } this.openCountRequests.clear(); } get connected() { return this._connected; } async connect() { if (this.connectionPromise) return this.connectionPromise; this.challenge = void 0; this.authPromise = void 0; this.connectionPromise = new Promise((resolve, reject) => { this.connectionTimeoutHandle = setTimeout(() => { reject("connection timed out"); this.connectionPromise = void 0; this.onclose?.(); this.closeAllSubscriptions("relay connection timed out"); }, this.connectionTimeout); try { this.ws = new this._WebSocket(this.url); } catch (err) { clearTimeout(this.connectionTimeoutHandle); reject(err); return; } this.ws.onopen = () => { clearTimeout(this.connectionTimeoutHandle); this._connected = true; if (this.enablePing) { this.pingpong(); } resolve(); }; this.ws.onerror = (ev) => { clearTimeout(this.connectionTimeoutHandle); reject(ev.message || "websocket error"); if (this._connected) { this._connected = false; this.connectionPromise = void 0; this.onclose?.(); this.closeAllSubscriptions("relay connection errored"); } }; this.ws.onclose = (ev) => { clearTimeout(this.connectionTimeoutHandle); reject(ev.message || "websocket closed"); if (this._connected) { this._connected = false; this.connectionPromise = void 0; this.onclose?.(); this.closeAllSubscriptions("relay connection closed"); } }; this.ws.onmessage = this._onmessage.bind(this); }); return this.connectionPromise; } async waitForPingPong() { return new Promise((res, err) => { ; this.ws && this.ws.on && this.ws.on("pong", () => res(true)) || err("ws can't listen for pong"); this.ws && this.ws.ping && this.ws.ping(); }); } async waitForDummyReq() { return new Promise((resolve, _) => { const sub = this.subscribe([{ ids: ["a".repeat(64)] }], { oneose: () => { sub.close(); resolve(true); }, eoseTimeout: this.pingTimeout + 1e3 }); }); } async pingpong() { if (this.ws?.readyState === 1) { const result = await Promise.any([ this.ws && this.ws.ping && this.ws.on ? this.waitForPingPong() : this.waitForDummyReq(), new Promise((res) => setTimeout(() => res(false), this.pingTimeout)) ]); if (result) { setTimeout(() => this.pingpong(), this.pingFrequency); } else { this.closeAllSubscriptions("pingpong timed out"); this._connected = false; this.ws?.close(); this.onclose?.(); } } } async runQueue() { this.queueRunning = true; while (true) { if (false === this.handleNext()) { break; } await yieldThread(); } this.queueRunning = false; } handleNext() { const json = this.incomingMessageQueue.dequeue(); if (!json) { return false; } const subid = getSubscriptionId(json); if (subid) { const so = this.openSubs.get(subid); if (!so) { return; } const id = getHex64(json, "id"); const alreadyHave = so.alreadyHaveEvent?.(id); so.receivedEvent?.(this, id); if (alreadyHave) { return; } } try { let data = JSON.parse(json); switch (data[0]) { case "EVENT": { const so = this.openSubs.get(data[1]); const event = data[2]; if (this.verifyEvent(event) && matchFilters(so.filters, event)) { so.onevent(event); } return; } case "COUNT": { const id = data[1]; const payload = data[2]; const cr = this.openCountRequests.get(id); if (cr) { cr.resolve(payload.count); this.openCountRequests.delete(id); } return; } case "EOSE": { const so = this.openSubs.get(data[1]); if (!so) return; so.receivedEose(); return; } case "OK": { const id = data[1]; const ok = data[2]; const reason = data[3]; const ep = this.openEventPublishes.get(id); if (ep) { clearTimeout(ep.timeout); if (ok) ep.resolve(reason); else ep.reject(new Error(reason)); this.openEventPublishes.delete(id); } return; } case "CLOSED": { const id = data[1]; const so = this.openSubs.get(id); if (!so) return; so.closed = true; so.close(data[2]); return; } case "NOTICE": this.onnotice(data[1]); return; case "AUTH": { this.challenge = data[1]; return; } } } catch (err) { return; } } async send(message) { if (!this.connectionPromise) throw new SendingOnClosedConnection(message, this.url); this.connectionPromise.then(() => { this.ws?.send(message); }); } async auth(signAuthEvent) { const challenge = this.challenge; if (!challenge) throw new Error("can't perform auth, no challenge was received"); if (this.authPromise) return this.authPromise; this.authPromise = new Promise(async (resolve, reject) => { try { let evt = await signAuthEvent(makeAuthEvent(this.url, challenge)); let timeout = setTimeout(() => { let ep = this.openEventPublishes.get(evt.id); if (ep) { ep.reject(new Error("auth timed out")); this.openEventPublishes.delete(evt.id); } }, this.publishTimeout); this.openEventPublishes.set(evt.id, { resolve, reject, timeout }); this.send('["AUTH",' + JSON.stringify(evt) + "]"); } catch (err) { console.warn("subscribe auth function failed:", err); } }); return this.authPromise; } async publish(event) { const ret = new Promise((resolve, reject) => { const timeout = setTimeout(() => { const ep = this.openEventPublishes.get(event.id); if (ep) { ep.reject(new Error("publish timed out")); this.openEventPublishes.delete(event.id); } }, this.publishTimeout); this.openEventPublishes.set(event.id, { resolve, reject, timeout }); }); this.send('["EVENT",' + JSON.stringify(event) + "]"); return ret; } async count(filters, params) { this.serial++; const id = params?.id || "count:" + this.serial; const ret = new Promise((resolve, reject) => { this.openCountRequests.set(id, { resolve, reject }); }); this.send('["COUNT","' + id + '",' + JSON.stringify(filters).substring(1)); return ret; } subscribe(filters, params) { const subscription = this.prepareSubscription(filters, params); subscription.fire(); return subscription; } prepareSubscription(filters, params) { this.serial++; const id = params.id || (params.label ? params.label + ":" : "sub:") + this.serial; const subscription = new Subscription(this, id, filters, params); this.openSubs.set(id, subscription); return subscription; } close() { this.closeAllSubscriptions("relay connection closed by us"); this._connected = false; this.ws?.close(); this.onclose?.(); } _onmessage(ev) { this.incomingMessageQueue.enqueue(ev.data); if (!this.queueRunning) { this.runQueue(); } } }; var Subscription = class { relay; id; closed = false; eosed = false; filters; alreadyHaveEvent; receivedEvent; onevent; oneose; onclose; eoseTimeout; eoseTimeoutHandle; constructor(relay, id, filters, params) { this.relay = relay; this.filters = filters; this.id = id; this.alreadyHaveEvent = params.alreadyHaveEvent; this.receivedEvent = params.receivedEvent; this.eoseTimeout = params.eoseTimeout || relay.baseEoseTimeout; this.oneose = params.oneose; this.onclose = params.onclose; this.onevent = params.onevent || ((event) => { console.warn( `onevent() callback not defined for subscription '${this.id}' in relay ${this.relay.url}. event received:`, event ); }); } fire() { this.relay.send('["REQ","' + this.id + '",' + JSON.stringify(this.filters).substring(1)); this.eoseTimeoutHandle = setTimeout(this.receivedEose.bind(this), this.eoseTimeout); } receivedEose() { if (this.eosed) return; clearTimeout(this.eoseTimeoutHandle); this.eosed = true; this.oneose?.(); } close(reason = "closed by caller") { if (!this.closed && this.relay.connected) { try { this.relay.send('["CLOSE",' + JSON.stringify(this.id) + "]"); } catch (err) { if (err instanceof SendingOnClosedConnection) { } else { throw err; } } this.closed = true; } this.relay.openSubs.delete(this.id); this.onclose?.(reason); } }; // relay.ts var _WebSocket; try { _WebSocket = WebSocket; } catch { } var Relay = class extends AbstractRelay { constructor(url) { super(url, { verifyEvent, websocketImplementation: _WebSocket }); } static async connect(url) { const relay = new Relay(url); await relay.connect(); return relay; } }; // abstract-pool.ts var AbstractSimplePool = class { relays = /* @__PURE__ */ new Map(); seenOn = /* @__PURE__ */ new Map(); trackRelays = false; verifyEvent; enablePing; trustedRelayURLs = /* @__PURE__ */ new Set(); _WebSocket; constructor(opts) { this.verifyEvent = opts.verifyEvent; this._WebSocket = opts.websocketImplementation; this.enablePing = opts.enablePing; } async ensureRelay(url, params) { url = normalizeURL(url); let relay = this.relays.get(url); if (!relay) { relay = new AbstractRelay(url, { verifyEvent: this.trustedRelayURLs.has(url) ? alwaysTrue : this.verifyEvent, websocketImplementation: this._WebSocket, enablePing: this.enablePing }); relay.onclose = () => { this.relays.delete(url); }; if (params?.connectionTimeout) relay.connectionTimeout = params.connectionTimeout; this.relays.set(url, relay); } await relay.connect(); return relay; } close(relays) { relays.map(normalizeURL).forEach((url) => { this.relays.get(url)?.close(); this.relays.delete(url); }); } subscribe(relays, filter, params) { params.onauth = params.onauth || params.doauth; const request = []; for (let i2 = 0; i2 < relays.length; i2++) { const url = normalizeURL(relays[i2]); if (!request.find((r) => r.url === url)) { request.push({ url, filter }); } } return this.subscribeMap(request, params); } subscribeMany(relays, filters, params) { params.onauth = params.onauth || params.doauth; const request = []; const uniqUrls = []; for (let i2 = 0; i2 < relays.length; i2++) { const url = normalizeURL(relays[i2]); if (uniqUrls.indexOf(url) === -1) { for (let f = 0; f < filters.length; f++) { request.push({ url, filter: filters[f] }); } } } return this.subscribeMap(request, params); } subscribeMap(requests, params) { params.onauth = params.onauth || params.doauth; if (this.trackRelays) { params.receivedEvent = (relay, id) => { let set = this.seenOn.get(id); if (!set) { set = /* @__PURE__ */ new Set(); this.seenOn.set(id, set); } set.add(relay); }; } const _knownIds = /* @__PURE__ */ new Set(); const subs = []; const eosesReceived = []; let handleEose = (i2) => { if (eosesReceived[i2]) return; eosesReceived[i2] = true; if (eosesReceived.filter((a) => a).length === requests.length) { params.oneose?.(); handleEose = () => { }; } }; const closesReceived = []; let handleClose = (i2, reason) => { if (closesReceived[i2]) return; handleEose(i2); closesReceived[i2] = reason; if (closesReceived.filter((a) => a).length === requests.length) { params.onclose?.(closesReceived); handleClose = () => { }; } }; const localAlreadyHaveEventHandler = (id) => { if (params.alreadyHaveEvent?.(id)) { return true; } const have = _knownIds.has(id); _knownIds.add(id); return have; }; const allOpened = Promise.all( requests.map(async ({ url, filter }, i2) => { let relay; try { relay = await this.ensureRelay(url, { connectionTimeout: params.maxWait ? Math.max(params.maxWait * 0.8, params.maxWait - 1e3) : void 0 }); } catch (err) { handleClose(i2, err?.message || String(err)); return; } let subscription = relay.subscribe([filter], { ...params, oneose: () => handleEose(i2), onclose: (reason) => { if (reason.startsWith("auth-required: ") && params.onauth) { relay.auth(params.onauth).then(() => { relay.subscribe([filter], { ...params, oneose: () => handleEose(i2), onclose: (reason2) => { handleClose(i2, reason2); }, alreadyHaveEvent: localAlreadyHaveEventHandler, eoseTimeout: params.maxWait }); }).catch((err) => { handleClose(i2, `auth was required and attempted, but failed with: ${err}`); }); } else { handleClose(i2, reason); } }, alreadyHaveEvent: localAlreadyHaveEventHandler, eoseTimeout: params.maxWait }); subs.push(subscription); }) ); return { async close(reason) { await allOpened; subs.forEach((sub) => { sub.close(reason); }); } }; } subscribeEose(relays, filter, params) { params.onauth = params.onauth || params.doauth; const subcloser = this.subscribe(relays, filter, { ...params, oneose() { subcloser.close("closed automatically on eose"); } }); return subcloser; } subscribeManyEose(relays, filters, params) { params.onauth = params.onauth || params.doauth; const subcloser = this.subscribeMany(relays, filters, { ...params, oneose() { subcloser.close("closed automatically on eose"); } }); return subcloser; } async querySync(relays, filter, params) { return new Promise(async (resolve) => { const events = []; this.subscribeEose(relays, filter, { ...params, onevent(event) { events.push(event); }, onclose(_) { resolve(events); } }); }); } async get(relays, filter, params) { filter.limit = 1; const events = await this.querySync(relays, filter, params); events.sort((a, b) => b.created_at - a.created_at); return events[0] || null; } publish(relays, event, options) { return relays.map(normalizeURL).map(async (url, i2, arr) => { if (arr.indexOf(url) !== i2) { return Promise.reject("duplicate url"); } let r = await this.ensureRelay(url); return r.publish(event).catch(async (err) => { if (err instanceof Error && err.message.startsWith("auth-required: ") && options?.onauth) { await r.auth(options.onauth); return r.publish(event); } throw err; }).then((reason) => { if (this.trackRelays) { let set = this.seenOn.get(event.id); if (!set) { set = /* @__PURE__ */ new Set(); this.seenOn.set(event.id, set); } set.add(r); } return reason; }); }); } listConnectionStatus() { const map = /* @__PURE__ */ new Map(); this.relays.forEach((relay, url) => map.set(url, relay.connected)); return map; } destroy() { this.relays.forEach((conn) => conn.close()); this.relays = /* @__PURE__ */ new Map(); } }; // pool.ts var _WebSocket2; try { _WebSocket2 = WebSocket; } catch { } var SimplePool = class extends AbstractSimplePool { constructor(options) { super({ verifyEvent, websocketImplementation: _WebSocket2, ...options }); } }; // nip19.ts var nip19_exports = {}; __export(nip19_exports, { BECH32_REGEX: () => BECH32_REGEX, Bech32MaxSize: () => Bech32MaxSize, NostrTypeGuard: () => NostrTypeGuard, decode: () => decode, decodeNostrURI: () => decodeNostrURI, encodeBytes: () => encodeBytes, naddrEncode: () => naddrEncode, neventEncode: () => neventEncode, noteEncode: () => noteEncode, nprofileEncode: () => nprofileEncode, npubEncode: () => npubEncode, nsecEncode: () => nsecEncode }); import { bytesToHex as bytesToHex3, concatBytes, hexToBytes as hexToBytes2 } from "@noble/hashes/utils"; import { bech32 } from "@scure/base"; var NostrTypeGuard = { isNProfile: (value) => /^nprofile1[a-z\d]+$/.test(value || ""), isNEvent: (value) => /^nevent1[a-z\d]+$/.test(value || ""), isNAddr: (value) => /^naddr1[a-z\d]+$/.test(value || ""), isNSec: (value) => /^nsec1[a-z\d]{58}$/.test(value || ""), isNPub: (value) => /^npub1[a-z\d]{58}$/.test(value || ""), isNote: (value) => /^note1[a-z\d]+$/.test(value || ""), isNcryptsec: (value) => /^ncryptsec1[a-z\d]+$/.test(value || "") }; var Bech32MaxSize = 5e3; var BECH32_REGEX = /[\x21-\x7E]{1,83}1[023456789acdefghjklmnpqrstuvwxyz]{6,}/; function integerToUint8Array(number) { const uint8Array = new Uint8Array(4); uint8Array[0] = number >> 24 & 255; uint8Array[1] = number >> 16 & 255; uint8Array[2] = number >> 8 & 255; uint8Array[3] = number & 255; return uint8Array; } function decodeNostrURI(nip19code) { try { if (nip19code.startsWith("nostr:")) nip19code = nip19code.substring(6); return decode(nip19code); } catch (_err) { return { type: "invalid", data: null }; } } function decode(code) { let { prefix, words } = bech32.decode(code, Bech32MaxSize); let data = new Uint8Array(bech32.fromWords(words)); switch (prefix) { case "nprofile": { let tlv = parseTLV(data); if (!tlv[0]?.[0]) throw new Error("missing TLV 0 for nprofile"); if (tlv[0][0].length !== 32) throw new Error("TLV 0 should be 32 bytes"); return { type: "nprofile", data: { pubkey: bytesToHex3(tlv[0][0]), relays: tlv[1] ? tlv[1].map((d) => utf8Decoder.decode(d)) : [] } }; } case "nevent": { let tlv = parseTLV(data); if (!tlv[0]?.[0]) throw new Error("missing TLV 0 for nevent"); if (tlv[0][0].length !== 32) throw new Error("TLV 0 should be 32 bytes"); if (tlv[2] && tlv[2][0].length !== 32) throw new Error("TLV 2 should be 32 bytes"); if (tlv[3] && tlv[3][0].length !== 4) throw new Error("TLV 3 should be 4 bytes"); return { type: "nevent", data: { id: bytesToHex3(tlv[0][0]), relays: tlv[1] ? tlv[1].map((d) => utf8Decoder.decode(d)) : [], author: tlv[2]?.[0] ? bytesToHex3(tlv[2][0]) : void 0, kind: tlv[3]?.[0] ? parseInt(bytesToHex3(tlv[3][0]), 16) : void 0 } }; } case "naddr": { let tlv = parseTLV(data); if (!tlv[0]?.[0]) throw new Error("missing TLV 0 for naddr"); if (!tlv[2]?.[0]) throw new Error("missing TLV 2 for naddr"); if (tlv[2][0].length !== 32) throw new Error("TLV 2 should be 32 bytes"); if (!tlv[3]?.[0]) throw new Error("missing TLV 3 for naddr"); if (tlv[3][0].length !== 4) throw new Error("TLV 3 should be 4 bytes"); return { type: "naddr", data: { identifier: utf8Decoder.decode(tlv[0][0]), pubkey: bytesToHex3(tlv[2][0]), kind: parseInt(bytesToHex3(tlv[3][0]), 16), relays: tlv[1] ? tlv[1].map((d) => utf8Decoder.decode(d)) : [] } }; } case "nsec": return { type: prefix, data }; case "npub": case "note": return { type: prefix, data: bytesToHex3(data) }; default: throw new Error(`unknown prefix ${prefix}`); } } function parseTLV(data) { let result = {}; let rest = data; while (rest.length > 0) { let t = rest[0]; let l = rest[1]; let v = rest.slice(2, 2 + l); rest = rest.slice(2 + l); if (v.length < l) throw new Error(`not enough data to read on TLV ${t}`); result[t] = result[t] || []; result[t].push(v); } return result; } function nsecEncode(key) { return encodeBytes("nsec", key); } function npubEncode(hex) { return encodeBytes("npub", hexToBytes2(hex)); } function noteEncode(hex) { return encodeBytes("note", hexToBytes2(hex)); } function encodeBech32(prefix, data) { let words = bech32.toWords(data); return bech32.encode(prefix, words, Bech32MaxSize); } function encodeBytes(prefix, bytes) { return encodeBech32(prefix, bytes); } function nprofileEncode(profile) { let data = encodeTLV({ 0: [hexToBytes2(profile.pubkey)], 1: (profile.relays || []).map((url) => utf8Encoder.encode(url)) }); return encodeBech32("nprofile", data); } function neventEncode(event) { let kindArray; if (event.kind !== void 0) { kindArray = integerToUint8Array(event.kind); } let data = encodeTLV({ 0: [hexToBytes2(event.id)], 1: (event.relays || []).map((url) => utf8Encoder.encode(url)), 2: event.author ? [hexToBytes2(event.author)] : [], 3: kindArray ? [new Uint8Array(kindArray)] : [] }); return encodeBech32("nevent", data); } function naddrEncode(addr) { let kind = new ArrayBuffer(4); new DataView(kind).setUint32(0, addr.kind, false); let data = encodeTLV({ 0: [utf8Encoder.encode(addr.identifier)], 1: (addr.relays || []).map((url) => utf8Encoder.encode(url)), 2: [hexToBytes2(addr.pubkey)], 3: [new Uint8Array(kind)] }); return encodeBech32("naddr", data); } function encodeTLV(tlv) { let entries = []; Object.entries(tlv).reverse().forEach(([t, vs]) => { vs.forEach((v) => { let entry = new Uint8Array(v.length + 2); entry.set([parseInt(t)], 0); entry.set([v.length], 1); entry.set(v, 2); entries.push(entry); }); }); return concatBytes(...entries); } // references.ts var mentionRegex = /\bnostr:((note|npub|naddr|nevent|nprofile)1\w+)\b|#\[(\d+)\]/g; function parseReferences(evt) { let references = []; for (let ref of evt.content.matchAll(mentionRegex)) { if (ref[2]) { try { let { type, data } = decode(ref[1]); switch (type) { case "npub": { references.push({ text: ref[0], profile: { pubkey: data, relays: [] } }); break; } case "nprofile": { references.push({ text: ref[0], profile: data }); break; } case "note": { references.push({ text: ref[0], event: { id: data, relays: [] } }); break; } case "nevent": { references.push({ text: ref[0], event: data }); break; } case "naddr": { references.push({ text: ref[0], address: data }); break; } } } catch (err) { } } else if (ref[3]) { let idx = parseInt(ref[3], 10); let tag = evt.tags[idx]; if (!tag) continue; switch (tag[0]) { case "p": { references.push({ text: ref[0], profile: { pubkey: tag[1], relays: tag[2] ? [tag[2]] : [] } }); break; } case "e": { references.push({ text: ref[0], event: { id: tag[1], relays: tag[2] ? [tag[2]] : [] } }); break; } case "a": { try { let [kind, pubkey, identifier] = tag[1].split(":"); references.push({ text: ref[0], address: { identifier, pubkey, kind: parseInt(kind, 10), relays: tag[2] ? [tag[2]] : [] } }); } catch (err) { } break; } } } } return references; } // nip04.ts var nip04_exports = {}; __export(nip04_exports, { decrypt: () => decrypt, encrypt: () => encrypt }); import { bytesToHex as bytesToHex4, randomBytes } from "@noble/hashes/utils"; import { secp256k1 } from "@noble/curves/secp256k1"; import { cbc } from "@noble/ciphers/aes"; import { base64 } from "@scure/base"; function encrypt(secretKey, pubkey, text) { const privkey = secretKey instanceof Uint8Array ? bytesToHex4(secretKey) : secretKey; const key = secp256k1.getSharedSecret(privkey, "02" + pubkey); const normalizedKey = getNormalizedX(key); let iv = Uint8Array.from(randomBytes(16)); let plaintext = utf8Encoder.encode(text); let ciphertext = cbc(normalizedKey, iv).encrypt(plaintext); let ctb64 = base64.encode(new Uint8Array(ciphertext)); let ivb64 = base64.encode(new Uint8Array(iv.buffer)); return `${ctb64}?iv=${ivb64}`; } function decrypt(secretKey, pubkey, data) { const privkey = secretKey instanceof Uint8Array ? bytesToHex4(secretKey) : secretKey; let [ctb64, ivb64] = data.split("?iv="); let key = secp256k1.getSharedSecret(privkey, "02" + pubkey); let normalizedKey = getNormalizedX(key); let iv = base64.decode(ivb64); let ciphertext = base64.decode(ctb64); let plaintext = cbc(normalizedKey, iv).decrypt(ciphertext); return utf8Decoder.decode(plaintext); } function getNormalizedX(key) { return key.slice(1, 33); } // nip05.ts var nip05_exports = {}; __export(nip05_exports, { NIP05_REGEX: () => NIP05_REGEX, isNip05: () => isNip05, isValid: () => isValid, queryProfile: () => queryProfile, searchDomain: () => searchDomain, useFetchImplementation: () => useFetchImplementation }); var NIP05_REGEX = /^(?:([\w.+-]+)@)?([\w_-]+(\.[\w_-]+)+)$/; var isNip05 = (value) => NIP05_REGEX.test(value || ""); var _fetch; try { _fetch = fetch; } catch (_) { null; } function useFetchImplementation(fetchImplementation) { _fetch = fetchImplementation; } async function searchDomain(domain, query = "") { try { const url = `https://${domain}/.well-known/nostr.json?name=${query}`; const res = await _fetch(url, { redirect: "manual" }); if (res.status !== 200) { throw Error("Wrong response code"); } const json = await res.json(); return json.names; } catch (_) { return {}; } } async function queryProfile(fullname) { const match = fullname.match(NIP05_REGEX); if (!match) return null; const [, name = "_", domain] = match; try { const url = `https://${domain}/.well-known/nostr.json?name=${name}`; const res = await _fetch(url, { redirect: "manual" }); if (res.status !== 200) { throw Error("Wrong response code"); } const json = await res.json(); const pubkey = json.names[name]; return pubkey ? { pubkey, relays: json.relays?.[pubkey] } : null; } catch (_e) { return null; } } async function isValid(pubkey, nip05) { const res = await queryProfile(nip05); return res ? res.pubkey === pubkey : false; } // nip10.ts var nip10_exports = {}; __export(nip10_exports, { parse: () => parse }); function parse(event) { const result = { reply: void 0, root: void 0, mentions: [], profiles: [], quotes: [] }; let maybeParent; let maybeRoot; for (let i2 = event.tags.length - 1; i2 >= 0; i2--) { const tag = event.tags[i2]; if (tag[0] === "e" && tag[1]) { const [_, eTagEventId, eTagRelayUrl, eTagMarker, eTagAuthor] = tag; const eventPointer = { id: eTagEventId, relays: eTagRelayUrl ? [eTagRelayUrl] : [], author: eTagAuthor }; if (eTagMarker === "root") { result.root = eventPointer; continue; } if (eTagMarker === "reply") { result.reply = eventPointer; continue; } if (eTagMarker === "mention") { result.mentions.push(eventPointer); continue; } if (!maybeParent) { maybeParent = eventPointer; } else { maybeRoot = eventPointer; } result.mentions.push(eventPointer); continue; } if (tag[0] === "q" && tag[1]) { const [_, eTagEventId, eTagRelayUrl] = tag; result.quotes.push({ id: eTagEventId, relays: eTagRelayUrl ? [eTagRelayUrl] : [] }); } if (tag[0] === "p" && tag[1]) { result.profiles.push({ pubkey: tag[1], relays: tag[2] ? [tag[2]] : [] }); continue; } } if (!result.root) { result.root = maybeRoot || maybeParent || result.reply; } if (!result.reply) { result.reply = maybeParent || result.root; } ; [result.reply, result.root].forEach((ref) => { if (!ref) return; let idx = result.mentions.indexOf(ref); if (idx !== -1) { result.mentions.splice(idx, 1); } if (ref.author) { let author = result.profiles.find((p) => p.pubkey === ref.author); if (author && author.relays) { if (!ref.relays) { ref.relays = []; } author.relays.forEach((url) => { if (ref.relays?.indexOf(url) === -1) ref.relays.push(url); }); author.relays = ref.relays; } } }); result.mentions.forEach((ref) => { if (ref.author) { let author = result.profiles.find((p) => p.pubkey === ref.author); if (author && author.relays) { if (!ref.relays) { ref.relays = []; } author.relays.forEach((url) => { if (ref.relays.indexOf(url) === -1) ref.relays.push(url); }); author.relays = ref.relays; } } }); return result; } // nip11.ts var nip11_exports = {}; __export(nip11_exports, { fetchRelayInformation: () => fetchRelayInformation, useFetchImplementation: () => useFetchImplementation2 }); var _fetch2; try { _fetch2 = fetch; } catch { } function useFetchImplementation2(fetchImplementation) { _fetch2 = fetchImplementation; } async function fetchRelayInformation(url) { return await (await fetch(url.replace("ws://", "http://").replace("wss://", "https://"), { headers: { Accept: "application/nostr+json" } })).json(); } // nip13.ts var nip13_exports = {}; __export(nip13_exports, { fastEventHash: () => fastEventHash, getPow: () => getPow, minePow: () => minePow }); import { bytesToHex as bytesToHex5 } from "@noble/hashes/utils"; import { sha256 as sha2562 } from "@noble/hashes/sha256"; function getPow(hex) { let count = 0; for (let i2 = 0; i2 < 64; i2 += 8) { const nibble = parseInt(hex.substring(i2, i2 + 8), 16); if (nibble === 0) { count += 32; } else { count += Math.clz32(nibble); break; } } return count; } function minePow(unsigned, difficu