import * as bcrypto from '../crypto'; import { bitcoin as BITCOIN_NETWORK } from '../networks'; import * as bscript from '../script'; import { Payment, PaymentOpts } from './index'; import * as lazy from './lazy'; const typef = require('typeforce'); const OPS = bscript.OPS; const ecc = require('tiny-secp256k1'); const bech32 = require('bech32'); const EMPTY_BUFFER = Buffer.alloc(0); // witness: {signature} {pubKey} // input: <> // output: OP_0 {pubKeyHash} export function p2wpkh(a: Payment, opts?: PaymentOpts): Payment { if (!a.address && !a.hash && !a.output && !a.pubkey && !a.witness) throw new TypeError('Not enough data'); opts = Object.assign({ validate: true }, opts || {}); typef( { address: typef.maybe(typef.String), hash: typef.maybe(typef.BufferN(20)), input: typef.maybe(typef.BufferN(0)), network: typef.maybe(typef.Object), output: typef.maybe(typef.BufferN(22)), pubkey: typef.maybe(ecc.isPoint), signature: typef.maybe(bscript.isCanonicalScriptSignature), witness: typef.maybe(typef.arrayOf(typef.Buffer)), }, a, ); const _address = lazy.value(() => { const result = bech32.decode(a.address); const version = result.words.shift(); const data = bech32.fromWords(result.words); return { version, prefix: result.prefix, data: Buffer.from(data), }; }); const network = a.network || BITCOIN_NETWORK; const o: Payment = { name: 'p2wpkh', network }; lazy.prop(o, 'address', () => { if (!o.hash) return; const words = bech32.toWords(o.hash); words.unshift(0x00); return bech32.encode(network.bech32, words); }); lazy.prop(o, 'hash', () => { if (a.output) return a.output.slice(2, 22); if (a.address) return _address().data; if (a.pubkey || o.pubkey) return bcrypto.hash160(a.pubkey! || o.pubkey!); }); lazy.prop(o, 'output', () => { if (!o.hash) return; return bscript.compile([OPS.OP_0, o.hash]); }); lazy.prop(o, 'pubkey', () => { if (a.pubkey) return a.pubkey; if (!a.witness) return; return a.witness[1]; }); lazy.prop(o, 'signature', () => { if (!a.witness) return; return a.witness[0]; }); lazy.prop(o, 'input', () => { if (!o.witness) return; return EMPTY_BUFFER; }); lazy.prop(o, 'witness', () => { if (!a.pubkey) return; if (!a.signature) return; return [a.signature, a.pubkey]; }); // extended validation if (opts.validate) { let hash: Buffer = Buffer.from([]); if (a.address) { if (network && network.bech32 !== _address().prefix) throw new TypeError('Invalid prefix or Network mismatch'); if (_address().version !== 0x00) throw new TypeError('Invalid address version'); if (_address().data.length !== 20) throw new TypeError('Invalid address data'); hash = _address().data; } if (a.hash) { if (hash.length > 0 && !hash.equals(a.hash)) throw new TypeError('Hash mismatch'); else hash = a.hash; } if (a.output) { if ( a.output.length !== 22 || a.output[0] !== OPS.OP_0 || a.output[1] !== 0x14 ) throw new TypeError('Output is invalid'); if (hash.length > 0 && !hash.equals(a.output.slice(2))) throw new TypeError('Hash mismatch'); else hash = a.output.slice(2); } if (a.pubkey) { const pkh = bcrypto.hash160(a.pubkey); if (hash.length > 0 && !hash.equals(pkh)) throw new TypeError('Hash mismatch'); else hash = pkh; } if (a.witness) { if (a.witness.length !== 2) throw new TypeError('Witness is invalid'); if (!bscript.isCanonicalScriptSignature(a.witness[0])) throw new TypeError('Witness has invalid signature'); if (!ecc.isPoint(a.witness[1])) throw new TypeError('Witness has invalid pubkey'); if (a.signature && !a.signature.equals(a.witness[0])) throw new TypeError('Signature mismatch'); if (a.pubkey && !a.pubkey.equals(a.witness[1])) throw new TypeError('Pubkey mismatch'); const pkh = bcrypto.hash160(a.witness[1]); if (hash.length > 0 && !hash.equals(pkh)) throw new TypeError('Hash mismatch'); } } return Object.assign(o, a); }