import * as bcrypto from '../crypto'; import { bitcoin as BITCOIN_NETWORK } from '../networks'; import * as bscript from '../script'; import { typeforce as typef } from '../types'; import { Payment, PaymentFunction, PaymentOpts, Stack, StackFunction, } from './index'; import * as lazy from './lazy'; import * as bs58check from 'bs58check'; const OPS = bscript.OPS; function stacksEqual(a: Buffer[], b: Buffer[]): boolean { if (a.length !== b.length) return false; return a.every((x, i) => { return x.equals(b[i]); }); } // input: [redeemScriptSig ...] {redeemScript} // witness: // output: OP_HASH160 {hash160(redeemScript)} OP_EQUAL export function p2sh(a: Payment, opts?: PaymentOpts): Payment { if (!a.address && !a.hash && !a.output && !a.redeem && !a.input) throw new TypeError('Not enough data'); opts = Object.assign({ validate: true }, opts || {}); typef( { network: typef.maybe(typef.Object), address: typef.maybe(typef.String), hash: typef.maybe(typef.BufferN(20)), output: typef.maybe(typef.BufferN(23)), redeem: typef.maybe({ network: typef.maybe(typef.Object), output: typef.maybe(typef.Buffer), input: typef.maybe(typef.Buffer), witness: typef.maybe(typef.arrayOf(typef.Buffer)), }), input: typef.maybe(typef.Buffer), witness: typef.maybe(typef.arrayOf(typef.Buffer)), }, a, ); let network = a.network; if (!network) { network = (a.redeem && a.redeem.network) || BITCOIN_NETWORK; } const o: Payment = { network }; const _address = lazy.value(() => { const payload = bs58check.decode(a.address!); const version = payload.readUInt8(0); const hash = payload.slice(1); return { version, hash }; }); const _chunks = lazy.value(() => { return bscript.decompile(a.input!); }) as StackFunction; const _redeem = lazy.value( (): Payment => { const chunks = _chunks(); return { network, output: chunks[chunks.length - 1] as Buffer, input: bscript.compile(chunks.slice(0, -1)), witness: a.witness || [], }; }, ) as PaymentFunction; // output dependents lazy.prop(o, 'address', () => { if (!o.hash) return; const payload = Buffer.allocUnsafe(21); payload.writeUInt8(o.network!.scriptHash, 0); o.hash.copy(payload, 1); return bs58check.encode(payload); }); lazy.prop(o, 'hash', () => { // in order of least effort if (a.output) return a.output.slice(2, 22); if (a.address) return _address().hash; if (o.redeem && o.redeem.output) return bcrypto.hash160(o.redeem.output); }); lazy.prop(o, 'output', () => { if (!o.hash) return; return bscript.compile([OPS.OP_HASH160, o.hash, OPS.OP_EQUAL]); }); // input dependents lazy.prop(o, 'redeem', () => { if (!a.input) return; return _redeem(); }); lazy.prop(o, 'input', () => { if (!a.redeem || !a.redeem.input || !a.redeem.output) return; return bscript.compile( ([] as Stack).concat( bscript.decompile(a.redeem.input) as Stack, a.redeem.output, ), ); }); lazy.prop(o, 'witness', () => { if (o.redeem && o.redeem.witness) return o.redeem.witness; if (o.input) return []; }); lazy.prop(o, 'name', () => { const nameParts = ['p2sh']; if (o.redeem !== undefined && o.redeem.name !== undefined) nameParts.push(o.redeem.name!); return nameParts.join('-'); }); if (opts.validate) { let hash: Buffer = Buffer.from([]); if (a.address) { if (_address().version !== network.scriptHash) throw new TypeError('Invalid version or Network mismatch'); if (_address().hash.length !== 20) throw new TypeError('Invalid address'); hash = _address().hash; } 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 !== 23 || a.output[0] !== OPS.OP_HASH160 || a.output[1] !== 0x14 || a.output[22] !== OPS.OP_EQUAL ) throw new TypeError('Output is invalid'); const hash2 = a.output.slice(2, 22); if (hash.length > 0 && !hash.equals(hash2)) throw new TypeError('Hash mismatch'); else hash = hash2; } // inlined to prevent 'no-inner-declarations' failing const checkRedeem = (redeem: Payment): void => { // is the redeem output empty/invalid? if (redeem.output) { const decompile = bscript.decompile(redeem.output); if (!decompile || decompile.length < 1) throw new TypeError('Redeem.output too short'); // match hash against other sources const hash2 = bcrypto.hash160(redeem.output); if (hash.length > 0 && !hash.equals(hash2)) throw new TypeError('Hash mismatch'); else hash = hash2; } if (redeem.input) { const hasInput = redeem.input.length > 0; const hasWitness = redeem.witness && redeem.witness.length > 0; if (!hasInput && !hasWitness) throw new TypeError('Empty input'); if (hasInput && hasWitness) throw new TypeError('Input and witness provided'); if (hasInput) { const richunks = bscript.decompile(redeem.input) as Stack; if (!bscript.isPushOnly(richunks)) throw new TypeError('Non push-only scriptSig'); } } }; if (a.input) { const chunks = _chunks(); if (!chunks || chunks.length < 1) throw new TypeError('Input too short'); if (!Buffer.isBuffer(_redeem().output)) throw new TypeError('Input is invalid'); checkRedeem(_redeem()); } if (a.redeem) { if (a.redeem.network && a.redeem.network !== network) throw new TypeError('Network mismatch'); if (a.input) { const redeem = _redeem(); if (a.redeem.output && !a.redeem.output.equals(redeem.output!)) throw new TypeError('Redeem.output mismatch'); if (a.redeem.input && !a.redeem.input.equals(redeem.input!)) throw new TypeError('Redeem.input mismatch'); } checkRedeem(a.redeem); } if (a.witness) { if ( a.redeem && a.redeem.witness && !stacksEqual(a.redeem.witness, a.witness) ) throw new TypeError('Witness and redeem.witness mismatch'); } } return Object.assign(o, a); }