come firmare bitcoin psbt con libro mastro?


11

Sto cercando di firmare una transazione Psbt da bitcoinjs-lib seguendo quello che ho trovato qui:

https://github.com/helperbit/helperbit-wallet/blob/master/app/components/dashboard.wallet/bitcoin.service/ledger.ts

Ho verificato che sia il keyKey compresso sia dal libro mastro, sia quello da bitcoinjsLib abbiano restituito lo stesso valore.

Potrei firmarlo con ECPair bitcoinjs-lib, ma quando provo a firmarlo usando il libro mastro, è sempre non valido.

Qualcuno può aiutarmi a sottolineare dove ho fatto un errore?

Queste variabili sono già menzionate nel codice seguente, ma a scopo di chiarezza:

- mnemonics: 
abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon about

- previousTx:
02000000000101869362410c61a69ab9390b2167d08219662196e869626e8b0350f1a8e4075efb0100000017160014ef3fdddccdb6b53e6dd1f5a97299a6ba2e1c11c3ffffffff0240420f000000000017a914f748afee815f78f97672be5a9840056d8ed77f4887df9de6050000000017a9142ff4aa6ffa987335c7bdba58ef4cbfecbe9e49938702473044022061a01bf0fbac4650a9b3d035b3d9282255a5c6040aa1d04fd9b6b52ed9f4d20a022064e8e2739ef532e6b2cb461321dd20f5a5d63cf34da3056c428475d42c9aff870121025fb5240daab4cee5fa097eef475f3f2e004f7be702c421b6607d8afea1affa9b00000000

- paths:
["0'/0/0"]

- redeemScript: (non-multisig segwit)
00144328adace54072cd069abf108f97cf80420b212b

Questo è il mio codice minimo riproducibile che ho.

/* tslint:disable */
// @ts-check
require('regenerator-runtime');
const bip39 = require('bip39');
const { default: Transport } = require('@ledgerhq/hw-transport-node-hid');
const { default: AppBtc } = require('@ledgerhq/hw-app-btc');
const bitcoin = require('bitcoinjs-lib');
const mnemonics = 'abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon about';
const NETWORK = bitcoin.networks.regtest;

/**
 * @param {string} pk 
 * @returns {string}
 */
function compressPublicKey(pk) {
  const { publicKey } = bitcoin.ECPair.fromPublicKey(Buffer.from(pk, 'hex'));
  return publicKey.toString('hex');
}

/** @returns {Promise<any>} */
async function appBtc() {
  const transport = await Transport.create();
  const btc = new AppBtc(transport);
  return btc;
}

const signTransaction = async() => {
  const ledger = await appBtc();
  const paths = ["0'/0/0"];
  const [ path ] = paths;
  const previousTx = "02000000000101869362410c61a69ab9390b2167d08219662196e869626e8b0350f1a8e4075efb0100000017160014ef3fdddccdb6b53e6dd1f5a97299a6ba2e1c11c3ffffffff0240420f000000000017a914f748afee815f78f97672be5a9840056d8ed77f4887df9de6050000000017a9142ff4aa6ffa987335c7bdba58ef4cbfecbe9e49938702473044022061a01bf0fbac4650a9b3d035b3d9282255a5c6040aa1d04fd9b6b52ed9f4d20a022064e8e2739ef532e6b2cb461321dd20f5a5d63cf34da3056c428475d42c9aff870121025fb5240daab4cee5fa097eef475f3f2e004f7be702c421b6607d8afea1affa9b00000000"
  const utxo = bitcoin.Transaction.fromHex(previousTx);
  const segwit = utxo.hasWitnesses();
  const txIndex = 0;

  // ecpairs things.
  const seed = await bip39.mnemonicToSeed(mnemonics);
  const node = bitcoin.bip32.fromSeed(seed, NETWORK);

  const ecPrivate = node.derivePath(path);
  const ecPublic = bitcoin.ECPair.fromPublicKey(ecPrivate.publicKey, { network: NETWORK });
  const p2wpkh = bitcoin.payments.p2wpkh({ pubkey: ecPublic.publicKey, network: NETWORK });
  const p2sh = bitcoin.payments.p2sh({ redeem: p2wpkh, network: NETWORK });
  const redeemScript = p2sh.redeem.output;
  const fromLedger = await ledger.getWalletPublicKey(path, { format: 'p2sh' });
  const ledgerPublicKey = compressPublicKey(fromLedger.publicKey);
  const bitcoinJsPublicKey = ecPublic.publicKey.toString('hex');
  console.log({ ledgerPublicKey, bitcoinJsPublicKey, address: p2sh.address, segwit, fromLedger, redeemScript: redeemScript.toString('hex') });

  var tx1 = ledger.splitTransaction(previousTx, true);
  const psbt = new bitcoin.Psbt({ network: NETWORK });
  psbt.addInput({
    hash: utxo.getId(),
    index: txIndex,
    nonWitnessUtxo: Buffer.from(previousTx, 'hex'),
    redeemScript,
  });
  psbt.addOutput({
    address: 'mgWUuj1J1N882jmqFxtDepEC73Rr22E9GU',
    value: 5000,
  });
  psbt.setMaximumFeeRate(1000 * 1000 * 1000); // ignore maxFeeRate we're testnet anyway.
  psbt.setVersion(2);
  /** @type {string} */
  // @ts-ignore
  const newTx = psbt.__CACHE.__TX.toHex();
  console.log({ newTx });

  const splitNewTx = await ledger.splitTransaction(newTx, true);
  const outputScriptHex = await ledger.serializeTransactionOutputs(splitNewTx).toString("hex");
  const expectedOutscriptHex = '0188130000000000001976a9140ae1441568d0d293764a347b191025c51556cecd88ac';
  // stolen from: https://github.com/LedgerHQ/ledgerjs/blob/master/packages/hw-app-btc/tests/Btc.test.js
  console.log({ outputScriptHex, expectedOutscriptHex, eq: expectedOutscriptHex === outputScriptHex });

  const inputs = [ [tx1, 0, p2sh.redeem.output.toString('hex') /** ??? */] ];
  const ledgerSignatures = await ledger.signP2SHTransaction(
    inputs,
    paths,
    outputScriptHex,
    0, // lockTime,
    undefined, // sigHashType = SIGHASH_ALL ???
    utxo.hasWitnesses(),
    2, // version??,
  );

  const signer = {
    network: NETWORK,
    publicKey: ecPrivate.publicKey,
    /** @param {Buffer} $hash */
    sign: ($hash) => {
      const expectedSignature = ecPrivate.sign($hash); // just for comparison.
      const [ ledgerSignature0 ] = ledgerSignatures;
      const decodedLedgerSignature = bitcoin.script.signature.decode(Buffer.from(ledgerSignature0, 'hex'));
      console.log({
        $hash: $hash.toString('hex'),
        expectedSignature: expectedSignature.toString('hex'),
        actualSignature: decodedLedgerSignature.signature.toString('hex'),
      });
      // return signature;
      return decodedLedgerSignature.signature;
    },
  };
  psbt.signInput(0, signer);
  const validated = psbt.validateSignaturesOfInput(0);
  psbt.finalizeAllInputs();
  const hex = psbt.extractTransaction().toHex();
  console.log({ validated, hex });
};

if (process.argv[1] === __filename) {
  signTransaction().catch(console.error)
}

Risposte:


1

Ooof, finalmente ha funzionato.

Il mio errore era che stavo provando a firmare un p2sh-p2ms, seguendo un riferimento su come firmare un p2sh-p2wsh-p2ms.

E, inoltre, quell'ultimo 2 bit (01) mancante, che credo rappresenti SIGHASH_ALL, ha causato un errore quando provo a decodificare la firma.

questo è il mio esempio di lavoro finalizzato.

// @ts-check
require('regenerator-runtime');
const bip39 = require('bip39');
const { default: Transport } = require('@ledgerhq/hw-transport-node-hid');
const { default: AppBtc } = require('@ledgerhq/hw-app-btc');
const serializer = require('@ledgerhq/hw-app-btc/lib/serializeTransaction');
const bitcoin = require('bitcoinjs-lib');
const mnemonics = 'abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon abandon about';
const NETWORK = bitcoin.networks.regtest;
const DEFAULT_LOCK_TIME = 0;
const SIGHASH_ALL = 1;
const PATHS = ["m/49'/1'/0'/0/0", "m/49'/1'/0'/0/1"]; 

async function appBtc() {
  const transport = await Transport.create();
  const btc = new AppBtc(transport);
  return btc;
}

/**
 * @param {string} pk 
 * @returns {string}
 */
function compressPublicKey(pk) {
  const {
    publicKey
  } = bitcoin.ECPair.fromPublicKey(Buffer.from(pk, 'hex'));
  return publicKey.toString('hex');
}

/**
 * @param {AppBtc} ledger
 * @param {bitcoin.Transaction} tx
 */
function splitTransaction(ledger, tx) {
  return ledger.splitTransaction(tx.toHex(), tx.hasWitnesses());
}

const signTransaction = async() => {
  const seed = await bip39.mnemonicToSeed(mnemonics);
  const node = bitcoin.bip32.fromSeed(seed, NETWORK);
  const signers = PATHS.map((p) => node.derivePath(p));
  const publicKeys = signers.map((s) => s.publicKey);
  const p2ms = bitcoin.payments.p2ms({ pubkeys: publicKeys, network: NETWORK, m: 1 });
  const p2shP2ms = bitcoin.payments.p2sh({ redeem: p2ms, network: NETWORK });
  const previousTx = '02000000000101588e8fc89afea9adb79de2650f0cdba762f7d0880c29a1f20e7b468f97da9f850100000017160014345766130a8f8e83aef8621122ca14fff88e6d51ffffffff0240420f000000000017a914a0546d83e5f8876045d7025a230d87bf69db893287df9de6050000000017a9142ff4aa6ffa987335c7bdba58ef4cbfecbe9e49938702483045022100c654271a891af98e46ca4d82ede8cccb0503a430e50745f959274294c98030750220331b455fed13ff4286f6db699eca06aa0c1c37c45c9f3aed3a77a3b0187ff4ac0121037ebcf3cf122678b9dc89b339017c5b76bee9fedd068c7401f4a8eb1d7e841c3a00000000';
  const utxo = bitcoin.Transaction.fromHex(previousTx);
  const txIndex = 0;
  const destination = p2shP2ms;
  const redeemScript = destination.redeem.output;
  // const witnessScript = destination.redeem.redeem.output;
  const ledgerRedeemScript = redeemScript;
  // use witness script if the outgoing transaction was from a p2sh-p2wsh-p2ms instead of p2sh-p2ms
  const fee = 1000;
  /** @type {number} */
  // @ts-ignore
  const amount = utxo.outs[txIndex].value;
  const withdrawAmount = amount - fee;
  const psbt = new bitcoin.Psbt({ network: NETWORK });
  const version = 1;
  psbt.addInput({
    hash: utxo.getId(),
    index: txIndex,
    nonWitnessUtxo: utxo.toBuffer(),
    redeemScript,
  });
  psbt.addOutput({
    address: '2MsK2NdiVEPCjBMFWbjFvQ39mxWPMopp5vp',
    value: withdrawAmount
  });
  psbt.setVersion(version);
  /** @type {bitcoin.Transaction}  */
  // @ts-ignore
  const newTx = psbt.__CACHE.__TX;

  const ledger = await appBtc();
  const inLedgerTx = splitTransaction(ledger, utxo);
  const outLedgerTx = splitTransaction(ledger, newTx);
  const outputScriptHex = await serializer.serializeTransactionOutputs(outLedgerTx).toString('hex');

  /** @param {string} path */
  const signer = (path) => {
    const ecPrivate = node.derivePath(path);
    // actually only publicKey is needed, albeit ledger give an uncompressed one.
    // const { publicKey: uncompressedPublicKey } = await ledger.getWalletPublicKey(path);
    // const publicKey = compressPublicKey(publicKey);
    return {
      network: NETWORK,
      publicKey: ecPrivate.publicKey,
      /** @param {Buffer} $hash */
      sign: async ($hash) => {
        const ledgerTxSignatures = await ledger.signP2SHTransaction({
          inputs: [[inLedgerTx, txIndex, ledgerRedeemScript.toString('hex')]],
          associatedKeysets: [ path ],
          outputScriptHex,
          lockTime: DEFAULT_LOCK_TIME,
          segwit: newTx.hasWitnesses(),
          transactionVersion: version,
          sigHashType: SIGHASH_ALL,
        });
        const [ ledgerSignature ] = ledgerTxSignatures;
        const expectedSignature = ecPrivate.sign($hash);
        const finalSignature = (() => {
          if (newTx.hasWitnesses()) {
            return Buffer.from(ledgerSignature, 'hex');
          };
          return Buffer.concat([
            ledgerSignature,
            Buffer.from('01', 'hex'), // SIGHASH_ALL
          ]);
        })();
        console.log({
          expectedSignature: expectedSignature.toString('hex'),
          finalSignature: finalSignature.toString('hex'),
        });
        const { signature } = bitcoin.script.signature.decode(finalSignature);
        return signature;
      },
    };
  }
  await psbt.signInputAsync(0, signer(PATHS[0]));
  const validate = await psbt.validateSignaturesOfAllInputs();
  await psbt.finalizeAllInputs();
  const hex = psbt.extractTransaction().toHex();
  console.log({ validate, hex });
};

if (process.argv[1] === __filename) {
  signTransaction().catch(console.error)
}

0

Suppongo che tu abbia uno spazio nella stringa passata alla toByteArrayfunzione. Questa funzione non taglia l'input. Inoltre non controlla se la lunghezza dell'input è pari.


Hmm ... non penso che sia questo il problema, ho provato a usare lo standard Buffer.from, ma il codice sopra è solo io copypasting il codice dal riferimento che ho menzionato sopra poiché sembra che il codice originale dovrebbe essere in esecuzione nel browser.
Ramadoka,
Utilizzando il nostro sito, riconosci di aver letto e compreso le nostre Informativa sui cookie e Informativa sulla privacy.
Licensed under cc by-sa 3.0 with attribution required.