'use strict'; Object.defineProperty(exports, '__esModule', { value: true }); const networks_1 = require('../networks'); const bscript = require('../script'); const lazy = require('./lazy'); const OPS = bscript.OPS; const typef = require('typeforce'); const ecc = require('tiny-secp256k1'); const OP_INT_BASE = OPS.OP_RESERVED; // OP_1 - 1 function stacksEqual(a, b) { if (a.length !== b.length) return false; return a.every((x, i) => { return x.equals(b[i]); }); } // input: OP_0 [signatures ...] // output: m [pubKeys ...] n OP_CHECKMULTISIG function p2ms(a, opts) { if ( !a.input && !a.output && !(a.pubkeys && a.m !== undefined) && !a.signatures ) throw new TypeError('Not enough data'); opts = Object.assign({ validate: true }, opts || {}); function isAcceptableSignature(x) { return ( bscript.isCanonicalScriptSignature(x) || (opts.allowIncomplete && x === OPS.OP_0) !== undefined ); } typef( { network: typef.maybe(typef.Object), m: typef.maybe(typef.Number), n: typef.maybe(typef.Number), output: typef.maybe(typef.Buffer), pubkeys: typef.maybe(typef.arrayOf(ecc.isPoint)), signatures: typef.maybe(typef.arrayOf(isAcceptableSignature)), input: typef.maybe(typef.Buffer), }, a, ); const network = a.network || networks_1.bitcoin; const o = { network }; let chunks = []; let decoded = false; function decode(output) { if (decoded) return; decoded = true; chunks = bscript.decompile(output); o.m = chunks[0] - OP_INT_BASE; o.n = chunks[chunks.length - 2] - OP_INT_BASE; o.pubkeys = chunks.slice(1, -2); } lazy.prop(o, 'output', () => { if (!a.m) return; if (!o.n) return; if (!a.pubkeys) return; return bscript.compile( [].concat( OP_INT_BASE + a.m, a.pubkeys, OP_INT_BASE + o.n, OPS.OP_CHECKMULTISIG, ), ); }); lazy.prop(o, 'm', () => { if (!o.output) return; decode(o.output); return o.m; }); lazy.prop(o, 'n', () => { if (!o.pubkeys) return; return o.pubkeys.length; }); lazy.prop(o, 'pubkeys', () => { if (!a.output) return; decode(a.output); return o.pubkeys; }); lazy.prop(o, 'signatures', () => { if (!a.input) return; return bscript.decompile(a.input).slice(1); }); lazy.prop(o, 'input', () => { if (!a.signatures) return; return bscript.compile([OPS.OP_0].concat(a.signatures)); }); lazy.prop(o, 'witness', () => { if (!o.input) return; return []; }); // extended validation if (opts.validate) { if (a.output) { decode(a.output); if (!typef.Number(chunks[0])) throw new TypeError('Output is invalid'); if (!typef.Number(chunks[chunks.length - 2])) throw new TypeError('Output is invalid'); if (chunks[chunks.length - 1] !== OPS.OP_CHECKMULTISIG) throw new TypeError('Output is invalid'); if (o.m <= 0 || o.n > 16 || o.m > o.n || o.n !== chunks.length - 3) throw new TypeError('Output is invalid'); if (!o.pubkeys.every(x => ecc.isPoint(x))) throw new TypeError('Output is invalid'); if (a.m !== undefined && a.m !== o.m) throw new TypeError('m mismatch'); if (a.n !== undefined && a.n !== o.n) throw new TypeError('n mismatch'); if (a.pubkeys && !stacksEqual(a.pubkeys, o.pubkeys)) throw new TypeError('Pubkeys mismatch'); } if (a.pubkeys) { if (a.n !== undefined && a.n !== a.pubkeys.length) throw new TypeError('Pubkey count mismatch'); o.n = a.pubkeys.length; if (o.n < o.m) throw new TypeError('Pubkey count cannot be less than m'); } if (a.signatures) { if (a.signatures.length < o.m) throw new TypeError('Not enough signatures provided'); if (a.signatures.length > o.m) throw new TypeError('Too many signatures provided'); } if (a.input) { if (a.input[0] !== OPS.OP_0) throw new TypeError('Input is invalid'); if ( o.signatures.length === 0 || !o.signatures.every(isAcceptableSignature) ) throw new TypeError('Input has invalid signature(s)'); if (a.signatures && !stacksEqual(a.signatures, o.signatures)) throw new TypeError('Signature mismatch'); if (a.m !== undefined && a.m !== a.signatures.length) throw new TypeError('Signature count mismatch'); } } return Object.assign(o, a); } exports.p2ms = p2ms;