"use strict"; var __defProp = Object.defineProperty; var __getOwnPropDesc = Object.getOwnPropertyDescriptor; var __getOwnPropNames = Object.getOwnPropertyNames; var __hasOwnProp = Object.prototype.hasOwnProperty; var __export = (target, all) => { for (var name in all) __defProp(target, name, { get: all[name], enumerable: true }); }; var __copyProps = (to, from, except, desc) => { if (from && typeof from === "object" || typeof from === "function") { for (let key of __getOwnPropNames(from)) if (!__hasOwnProp.call(to, key) && key !== except) __defProp(to, key, { get: () => from[key], enumerable: !(desc = __getOwnPropDesc(from, key)) || desc.enumerable }); } return to; }; var __toCommonJS = (mod) => __copyProps(__defProp({}, "__esModule", { value: true }), mod); // nip46.ts var nip46_exports = {}; __export(nip46_exports, { BUNKER_REGEX: () => BUNKER_REGEX, BunkerSigner: () => BunkerSigner, createAccount: () => createAccount, createNostrConnectURI: () => createNostrConnectURI, fetchBunkerProviders: () => fetchBunkerProviders, parseBunkerInput: () => parseBunkerInput, parseNostrConnectURI: () => parseNostrConnectURI, queryBunkerProfile: () => queryBunkerProfile, toBunkerURL: () => toBunkerURL, useFetchImplementation: () => useFetchImplementation }); module.exports = __toCommonJS(nip46_exports); // pure.ts var import_secp256k1 = require("@noble/curves/secp256k1"); var import_utils2 = require("@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; } // pure.ts var import_sha256 = require("@noble/hashes/sha256"); // utils.ts var import_utils = require("@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}`); } } 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 import_secp256k1.schnorr.utils.randomPrivateKey(); } getPublicKey(secretKey) { return (0, import_utils2.bytesToHex)(import_secp256k1.schnorr.getPublicKey(secretKey)); } finalizeEvent(t, secretKey) { const event = t; event.pubkey = (0, import_utils2.bytesToHex)(import_secp256k1.schnorr.getPublicKey(secretKey)); event.id = getEventHash(event); event.sig = (0, import_utils2.bytesToHex)(import_secp256k1.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 = import_secp256k1.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 = (0, import_sha256.sha256)(utf8Encoder.encode(serializeEvent(event))); return (0, import_utils2.bytesToHex)(eventHash); } var i = new JS(); var generateSecretKey = i.generateSecretKey; var getPublicKey = i.getPublicKey; var finalizeEvent = i.finalizeEvent; var verifyEvent = i.verifyEvent; // nip44.ts var import_chacha = require("@noble/ciphers/chacha"); var import_utils4 = require("@noble/ciphers/utils"); var import_secp256k12 = require("@noble/curves/secp256k1"); var import_hkdf = require("@noble/hashes/hkdf"); var import_hmac = require("@noble/hashes/hmac"); var import_sha2562 = require("@noble/hashes/sha256"); var import_utils5 = require("@noble/hashes/utils"); var import_base = require("@scure/base"); var minPlaintextSize = 1; var maxPlaintextSize = 65535; function getConversationKey(privkeyA, pubkeyB) { const sharedX = import_secp256k12.secp256k1.getSharedSecret(privkeyA, "02" + pubkeyB).subarray(1, 33); return (0, import_hkdf.extract)(import_sha2562.sha256, sharedX, "nip44-v2"); } function getMessageKeys(conversationKey, nonce) { const keys = (0, import_hkdf.expand)(import_sha2562.sha256, conversationKey, nonce, 76); return { chacha_key: keys.subarray(0, 32), chacha_nonce: keys.subarray(32, 44), hmac_key: keys.subarray(44, 76) }; } function calcPaddedLen(len) { if (!Number.isSafeInteger(len) || len < 1) throw new Error("expected positive integer"); if (len <= 32) return 32; const nextPower = 1 << Math.floor(Math.log2(len - 1)) + 1; const chunk = nextPower <= 256 ? 32 : nextPower / 8; return chunk * (Math.floor((len - 1) / chunk) + 1); } function writeU16BE(num) { if (!Number.isSafeInteger(num) || num < minPlaintextSize || num > maxPlaintextSize) throw new Error("invalid plaintext size: must be between 1 and 65535 bytes"); const arr = new Uint8Array(2); new DataView(arr.buffer).setUint16(0, num, false); return arr; } function pad(plaintext) { const unpadded = utf8Encoder.encode(plaintext); const unpaddedLen = unpadded.length; const prefix = writeU16BE(unpaddedLen); const suffix = new Uint8Array(calcPaddedLen(unpaddedLen) - unpaddedLen); return (0, import_utils5.concatBytes)(prefix, unpadded, suffix); } function unpad(padded) { const unpaddedLen = new DataView(padded.buffer).getUint16(0); const unpadded = padded.subarray(2, 2 + unpaddedLen); if (unpaddedLen < minPlaintextSize || unpaddedLen > maxPlaintextSize || unpadded.length !== unpaddedLen || padded.length !== 2 + calcPaddedLen(unpaddedLen)) throw new Error("invalid padding"); return utf8Decoder.decode(unpadded); } function hmacAad(key, message, aad) { if (aad.length !== 32) throw new Error("AAD associated data must be 32 bytes"); const combined = (0, import_utils5.concatBytes)(aad, message); return (0, import_hmac.hmac)(import_sha2562.sha256, key, combined); } function decodePayload(payload) { if (typeof payload !== "string") throw new Error("payload must be a valid string"); const plen = payload.length; if (plen < 132 || plen > 87472) throw new Error("invalid payload length: " + plen); if (payload[0] === "#") throw new Error("unknown encryption version"); let data; try { data = import_base.base64.decode(payload); } catch (error) { throw new Error("invalid base64: " + error.message); } const dlen = data.length; if (dlen < 99 || dlen > 65603) throw new Error("invalid data length: " + dlen); const vers = data[0]; if (vers !== 2) throw new Error("unknown encryption version " + vers); return { nonce: data.subarray(1, 33), ciphertext: data.subarray(33, -32), mac: data.subarray(-32) }; } function encrypt(plaintext, conversationKey, nonce = (0, import_utils5.randomBytes)(32)) { const { chacha_key, chacha_nonce, hmac_key } = getMessageKeys(conversationKey, nonce); const padded = pad(plaintext); const ciphertext = (0, import_chacha.chacha20)(chacha_key, chacha_nonce, padded); const mac = hmacAad(hmac_key, ciphertext, nonce); return import_base.base64.encode((0, import_utils5.concatBytes)(new Uint8Array([2]), nonce, ciphertext, mac)); } function decrypt(payload, conversationKey) { const { nonce, ciphertext, mac } = decodePayload(payload); const { chacha_key, chacha_nonce, hmac_key } = getMessageKeys(conversationKey, nonce); const calculatedMac = hmacAad(hmac_key, ciphertext, nonce); if (!(0, import_utils4.equalBytes)(calculatedMac, mac)) throw new Error("invalid MAC"); const padded = (0, import_chacha.chacha20)(chacha_key, chacha_nonce, ciphertext); return unpad(padded); } // nip05.ts var NIP05_REGEX = /^(?:([\w.+-]+)@)?([\w_-]+(\.[\w_-]+)+)$/; var _fetch; try { _fetch = fetch; } catch (_) { null; } // kinds.ts var ClientAuth = 22242; var NostrConnect = 24133; var Handlerinformation = 31990; // 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[`#${tagName}`]; if (values && !event.tags.find(([t, v]) => t === f.slice(1) && values.indexOf(v) !== -1)) return false; } } if (filter.since && event.created_at < filter.since) return false; if (filter.until && event.created_at > filter.until) return false; return true; } function matchFilters(filters, event) { for (let i2 = 0; i2 < filters.length; i2++) { if (matchFilter(filters[i2], event)) { return true; } } return false; } // fakejson.ts function getHex64(json, field) { let len = field.length + 3; let idx = json.indexOf(`"${field}":`) + len; let s = json.slice(idx).indexOf(`"`) + idx + 1; return json.slice(s, s + 64); } function 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); } // nip42.ts 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"); 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"); 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.onclose?.(); this.ws?.close(); } } } 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.onclose?.(); this.ws?.close(); } _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); } }; // 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, filter, 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) { uniqUrls.push(url); request.push({ url, filter }); } } return this.subscribeMap(request, params); } subscribeMap(requests, params) { params.onauth = params.onauth || params.doauth; const grouped = /* @__PURE__ */ new Map(); for (const req of requests) { const { url, filter } = req; if (!grouped.has(url)) grouped.set(url, []); grouped.get(url).push(filter); } const groupedRequests = Array.from(grouped.entries()).map(([url, filters]) => ({ url, filters })); 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( groupedRequests.map(async ({ url, filters }, 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(filters, { ...params, oneose: () => handleEose(i2), onclose: (reason) => { if (reason.startsWith("auth-required: ") && params.onauth) { relay.auth(params.onauth).then(() => { relay.subscribe(filters, { ...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, filter, params) { params.onauth = params.onauth || params.doauth; const subcloser = this.subscribeMany(relays, filter, { ...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 _WebSocket; try { _WebSocket = WebSocket; } catch { } var SimplePool = class extends AbstractSimplePool { constructor(options) { super({ verifyEvent, websocketImplementation: _WebSocket, ...options }); } }; // nip46.ts var _fetch2; try { _fetch2 = fetch; } catch { } function useFetchImplementation(fetchImplementation) { _fetch2 = fetchImplementation; } var BUNKER_REGEX = /^bunker:\/\/([0-9a-f]{64})\??([?\/\w:.=&%-]*)$/; var EMAIL_REGEX = /^[^\s@]+@[^\s@]+\.[^\s@]+$/; function toBunkerURL(bunkerPointer) { let bunkerURL = new URL(`bunker://${bunkerPointer.pubkey}`); bunkerPointer.relays.forEach((relay) => { bunkerURL.searchParams.append("relay", relay); }); if (bunkerPointer.secret) { bunkerURL.searchParams.set("secret", bunkerPointer.secret); } return bunkerURL.toString(); } async function parseBunkerInput(input) { let match = input.match(BUNKER_REGEX); if (match) { try { const pubkey = match[1]; const qs = new URLSearchParams(match[2]); return { pubkey, relays: qs.getAll("relay"), secret: qs.get("secret") }; } catch (_err) { } } return queryBunkerProfile(input); } async function queryBunkerProfile(nip05) { const match = nip05.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 (await _fetch2(url, { redirect: "error" })).json(); let pubkey = res.names[name]; let relays = res.nip46[pubkey] || []; return { pubkey, relays, secret: null }; } catch (_err) { return null; } } function createNostrConnectURI(params) { if (!params.clientPubkey) { throw new Error("clientPubkey is required."); } if (!params.relays || params.relays.length === 0) { throw new Error("At least one relay is required."); } if (!params.secret) { throw new Error("secret is required."); } const queryParams = new URLSearchParams(); params.relays.forEach((relay) => { queryParams.append("relay", relay); }); queryParams.append("secret", params.secret); if (params.perms && params.perms.length > 0) { queryParams.append("perms", params.perms.join(",")); } if (params.name) { queryParams.append("name", params.name); } if (params.url) { queryParams.append("url", params.url); } if (params.image) { queryParams.append("image", params.image); } return `nostrconnect://${params.clientPubkey}?${queryParams.toString()}`; } function parseNostrConnectURI(uri) { if (!uri.startsWith("nostrconnect://")) { throw new Error('Invalid nostrconnect URI: Must start with "nostrconnect://".'); } const [protocolAndPubkey, queryString] = uri.split("?"); if (!protocolAndPubkey || !queryString) { throw new Error("Invalid nostrconnect URI: Missing query string."); } const clientPubkey = protocolAndPubkey.substring("nostrconnect://".length); if (!clientPubkey) { throw new Error("Invalid nostrconnect URI: Missing client-pubkey."); } const queryParams = new URLSearchParams(queryString); const relays = queryParams.getAll("relay"); if (relays.length === 0) { throw new Error('Invalid nostrconnect URI: Missing "relay" parameter.'); } const secret = queryParams.get("secret"); if (!secret) { throw new Error('Invalid nostrconnect URI: Missing "secret" parameter.'); } const permsString = queryParams.get("perms"); const perms = permsString ? permsString.split(",") : void 0; const name = queryParams.get("name") || void 0; const url = queryParams.get("url") || void 0; const image = queryParams.get("image") || void 0; return { protocol: "nostrconnect", clientPubkey, params: { relays, secret, perms, name, url, image }, originalString: uri }; } var BunkerSigner = class { params; pool; subCloser; isOpen; serial; idPrefix; listeners; waitingForAuth; secretKey; conversationKey; bp; cachedPubKey; constructor(clientSecretKey, params) { this.params = params; this.pool = params.pool || new SimplePool(); this.secretKey = clientSecretKey; this.isOpen = false; this.idPrefix = Math.random().toString(36).substring(7); this.serial = 0; this.listeners = {}; this.waitingForAuth = {}; } static fromBunker(clientSecretKey, bp, params = {}) { if (bp.relays.length === 0) { throw new Error("No relays specified for this bunker"); } const signer = new BunkerSigner(clientSecretKey, params); signer.conversationKey = getConversationKey(clientSecretKey, bp.pubkey); signer.bp = bp; signer.setupSubscription(params); return signer; } static async fromURI(clientSecretKey, connectionURI, params = {}, maxWait = 3e5) { const signer = new BunkerSigner(clientSecretKey, params); const parsedURI = parseNostrConnectURI(connectionURI); const clientPubkey = getPublicKey(clientSecretKey); return new Promise((resolve, reject) => { const timer = setTimeout(() => { sub.close(); reject(new Error(`Connection timed out after ${maxWait / 1e3} seconds`)); }, maxWait); const sub = signer.pool.subscribe( parsedURI.params.relays, { kinds: [NostrConnect], "#p": [clientPubkey] }, { onevent: async (event) => { try { const tempConvKey = getConversationKey(clientSecretKey, event.pubkey); const decryptedContent = decrypt(event.content, tempConvKey); const response = JSON.parse(decryptedContent); if (response.result === parsedURI.params.secret) { clearTimeout(timer); sub.close(); signer.bp = { pubkey: event.pubkey, relays: parsedURI.params.relays, secret: parsedURI.params.secret }; signer.conversationKey = getConversationKey(clientSecretKey, event.pubkey); signer.setupSubscription(params); resolve(signer); } } catch (e) { console.warn("Failed to process potential connection event", e); } }, onclose: () => { clearTimeout(timer); reject(new Error("Subscription closed before connection was established.")); }, maxWait } ); }); } setupSubscription(params) { const listeners = this.listeners; const waitingForAuth = this.waitingForAuth; const convKey = this.conversationKey; this.subCloser = this.pool.subscribe( this.bp.relays, { kinds: [NostrConnect], authors: [this.bp.pubkey], "#p": [getPublicKey(this.secretKey)] }, { onevent: async (event) => { const o = JSON.parse(decrypt(event.content, convKey)); const { id, result, error } = o; if (result === "auth_url" && waitingForAuth[id]) { delete waitingForAuth[id]; if (params.onauth) { params.onauth(error); } else { console.warn( `nostr-tools/nip46: remote signer ${this.bp.pubkey} tried to send an "auth_url"='${error}' but there was no onauth() callback configured.` ); } return; } let handler = listeners[id]; if (handler) { if (error) handler.reject(error); else if (result) handler.resolve(result); delete listeners[id]; } }, onclose: () => { this.subCloser = void 0; } } ); this.isOpen = true; } async close() { this.isOpen = false; this.subCloser.close(); } async sendRequest(method, params) { return new Promise(async (resolve, reject) => { try { if (!this.isOpen) throw new Error("this signer is not open anymore, create a new one"); if (!this.subCloser) this.setupSubscription(this.params); this.serial++; const id = `${this.idPrefix}-${this.serial}`; const encryptedContent = encrypt(JSON.stringify({ id, method, params }), this.conversationKey); const verifiedEvent = finalizeEvent( { kind: NostrConnect, tags: [["p", this.bp.pubkey]], content: encryptedContent, created_at: Math.floor(Date.now() / 1e3) }, this.secretKey ); this.listeners[id] = { resolve, reject }; this.waitingForAuth[id] = true; await Promise.any(this.pool.publish(this.bp.relays, verifiedEvent)); } catch (err) { reject(err); } }); } async ping() { let resp = await this.sendRequest("ping", []); if (resp !== "pong") throw new Error(`result is not pong: ${resp}`); } async connect() { await this.sendRequest("connect", [this.bp.pubkey, this.bp.secret || ""]); } async getPublicKey() { if (!this.cachedPubKey) { this.cachedPubKey = await this.sendRequest("get_public_key", []); } return this.cachedPubKey; } async signEvent(event) { let resp = await this.sendRequest("sign_event", [JSON.stringify(event)]); let signed = JSON.parse(resp); if (verifyEvent(signed)) { return signed; } else { throw new Error(`event returned from bunker is improperly signed: ${JSON.stringify(signed)}`); } } async nip04Encrypt(thirdPartyPubkey, plaintext) { return await this.sendRequest("nip04_encrypt", [thirdPartyPubkey, plaintext]); } async nip04Decrypt(thirdPartyPubkey, ciphertext) { return await this.sendRequest("nip04_decrypt", [thirdPartyPubkey, ciphertext]); } async nip44Encrypt(thirdPartyPubkey, plaintext) { return await this.sendRequest("nip44_encrypt", [thirdPartyPubkey, plaintext]); } async nip44Decrypt(thirdPartyPubkey, ciphertext) { return await this.sendRequest("nip44_decrypt", [thirdPartyPubkey, ciphertext]); } }; async function createAccount(bunker, params, username, domain, email, localSecretKey = generateSecretKey()) { if (email && !EMAIL_REGEX.test(email)) throw new Error("Invalid email"); let rpc = BunkerSigner.fromBunker(localSecretKey, bunker.bunkerPointer, params); let pubkey = await rpc.sendRequest("create_account", [username, domain, email || ""]); rpc.bp.pubkey = pubkey; await rpc.connect(); return rpc; } async function fetchBunkerProviders(pool, relays) { const events = await pool.querySync(relays, { kinds: [Handlerinformation], "#k": [NostrConnect.toString()] }); events.sort((a, b) => b.created_at - a.created_at); const validatedBunkers = await Promise.all( events.map(async (event, i2) => { try { const content = JSON.parse(event.content); try { if (events.findIndex((ev) => JSON.parse(ev.content).nip05 === content.nip05) !== i2) return void 0; } catch (err) { } const bp = await queryBunkerProfile(content.nip05); if (bp && bp.pubkey === event.pubkey && bp.relays.length) { return { bunkerPointer: bp, nip05: content.nip05, domain: content.nip05.split("@")[1], name: content.name || content.display_name, picture: content.picture, about: content.about, website: content.website, local: false }; } } catch (err) { return void 0; } }) ); return validatedBunkers.filter((b) => b !== void 0); }