// 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; } // pure.ts import { sha256 } from "@noble/hashes/sha256"; // utils.ts import { bytesToHex, hexToBytes } from "@noble/hashes/utils"; var utf8Decoder = new TextDecoder("utf-8"); var utf8Encoder = new TextEncoder(); // 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 NWCWalletRequest = 23194; // nip04.ts import { bytesToHex as bytesToHex3, 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 ? bytesToHex3(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 getNormalizedX(key) { return key.slice(1, 33); } // nip47.ts function parseConnectionString(connectionString) { const { host, pathname, searchParams } = new URL(connectionString); const pubkey = pathname || host; const relay = searchParams.get("relay"); const secret = searchParams.get("secret"); if (!pubkey || !relay || !secret) { throw new Error("invalid connection string"); } return { pubkey, relay, secret }; } async function makeNwcRequestEvent(pubkey, secretKey, invoice) { const content = { method: "pay_invoice", params: { invoice } }; const encryptedContent = encrypt(secretKey, pubkey, JSON.stringify(content)); const eventTemplate = { kind: NWCWalletRequest, created_at: Math.round(Date.now() / 1e3), content: encryptedContent, tags: [["p", pubkey]] }; return finalizeEvent(eventTemplate, secretKey); } export { makeNwcRequestEvent, parseConnectionString };