import { LegacyWallet } from './legacy-wallet'; const bitcoin = require('bitcoinjs-lib'); const coinSelectAccumulative = require('coinselect/accumulative'); const coinSelectSplit = require('coinselect/split'); export class SegwitBech32Wallet extends LegacyWallet { static type = 'segwitBech32'; static typeReadable = 'P2 WPKH'; getAddress() { if (this._address) return this._address; let address; try { let keyPair = bitcoin.ECPair.fromWIF(this.secret); if (!keyPair.compressed) { console.warn('only compressed public keys are good for segwit'); return false; } address = bitcoin.payments.p2wpkh({ pubkey: keyPair.publicKey, }).address; } catch (err) { return false; } this._address = address; return this._address; } static witnessToAddress(witness) { const pubKey = Buffer.from(witness, 'hex'); return bitcoin.payments.p2wpkh({ pubkey: pubKey, network: bitcoin.networks.bitcoin, }).address; } /** * Converts script pub key to bech32 address if it can. Returns FALSE if it cant. * * @param scriptPubKey * @returns {boolean|string} Either bech32 address or false */ static scriptPubKeyToAddress(scriptPubKey) { const scriptPubKey2 = Buffer.from(scriptPubKey, 'hex'); let ret; try { ret = bitcoin.payments.p2wpkh({ output: scriptPubKey2, network: bitcoin.networks.bitcoin, }).address; } catch (_) { return false; } return ret; } /** * * @param utxos {Array.<{vout: Number, value: Number, txId: String, address: String, txhex: String, }>} List of spendable utxos * @param targets {Array.<{value: Number, address: String}>} Where coins are going. If theres only 1 target and that target has no value - this will send MAX to that address (respecting fee rate) * @param feeRate {Number} satoshi per byte * @param changeAddress {String} Excessive coins will go back to that address * @param sequence {Number} Used in RBF * @param skipSigning {boolean} Whether we should skip signing, use returned `psbt` in that case * @param masterFingerprint {number} Decimal number of wallet's master fingerprint * @returns {{outputs: Array, tx: Transaction, inputs: Array, fee: Number, psbt: Psbt}} */ createTransaction(utxos, targets, feeRate, changeAddress, sequence, skipSigning = false, masterFingerprint) { if (!changeAddress) throw new Error('No change address provided'); sequence = sequence || 0xffffffff; // disable RBF by default let algo = coinSelectAccumulative; if (targets.length === 1 && targets[0] && !targets[0].value) { // we want to send MAX algo = coinSelectSplit; } let { inputs, outputs, fee } = algo(utxos, targets, feeRate); // .inputs and .outputs will be undefined if no solution was found if (!inputs || !outputs) { throw new Error('Not enough balance. Try sending smaller amount'); } let psbt = new bitcoin.Psbt(); let c = 0; let values = {}; let keyPair; inputs.forEach(input => { if (!skipSigning) { // skiping signing related stuff keyPair = bitcoin.ECPair.fromWIF(this.secret); // secret is WIF } values[c] = input.value; c++; const pubkey = keyPair.publicKey; const p2wpkh = bitcoin.payments.p2wpkh({ pubkey }); psbt.addInput({ hash: input.txid, index: input.vout, sequence, witnessUtxo: { script: p2wpkh.output, value: input.value, }, }); }); outputs.forEach(output => { // if output has no address - this is change output if (!output.address) { output.address = changeAddress; } let outputData = { address: output.address, value: output.value, }; psbt.addOutput(outputData); }); if (!skipSigning) { // skiping signing related stuff for (let cc = 0; cc < c; cc++) { psbt.signInput(cc, keyPair); } } let tx; if (!skipSigning) { tx = psbt.finalizeAllInputs().extractTransaction(); } return { tx, inputs, outputs, fee, psbt }; } allowSend() { return true; } allowSendMax() { return true; } }