"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); // nip21.ts var nip21_exports = {}; __export(nip21_exports, { NOSTR_URI_REGEX: () => NOSTR_URI_REGEX, parse: () => parse, test: () => test }); module.exports = __toCommonJS(nip21_exports); // nip19.ts var import_utils2 = require("@noble/hashes/utils"); var import_base = require("@scure/base"); // utils.ts var import_utils = require("@noble/hashes/utils"); var utf8Decoder = new TextDecoder("utf-8"); var utf8Encoder = new TextEncoder(); // nip19.ts var Bech32MaxSize = 5e3; var BECH32_REGEX = /[\x21-\x7E]{1,83}1[023456789acdefghjklmnpqrstuvwxyz]{6,}/; function decode(code) { let { prefix, words } = import_base.bech32.decode(code, Bech32MaxSize); let data = new Uint8Array(import_base.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: (0, import_utils2.bytesToHex)(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: (0, import_utils2.bytesToHex)(tlv[0][0]), relays: tlv[1] ? tlv[1].map((d) => utf8Decoder.decode(d)) : [], author: tlv[2]?.[0] ? (0, import_utils2.bytesToHex)(tlv[2][0]) : void 0, kind: tlv[3]?.[0] ? parseInt((0, import_utils2.bytesToHex)(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: (0, import_utils2.bytesToHex)(tlv[2][0]), kind: parseInt((0, import_utils2.bytesToHex)(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: (0, import_utils2.bytesToHex)(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 ${t}`); result[t] = result[t] || []; result[t].push(v); } return result; } // nip21.ts var NOSTR_URI_REGEX = new RegExp(`nostr:(${BECH32_REGEX.source})`); function test(value) { return typeof value === "string" && new RegExp(`^${NOSTR_URI_REGEX.source}$`).test(value); } function parse(uri) { const match = uri.match(new RegExp(`^${NOSTR_URI_REGEX.source}$`)); if (!match) throw new Error(`Invalid Nostr URI: ${uri}`); return { uri: match[0], value: match[1], decoded: decode(match[1]) }; }