Hello dear hackerplebs,
i' ve posted my issue on bitcoin.stackexchange, i need a quick solution and i want to pay for it.
post the solution down here for the bounty and on the following link - or i will:
Here is the issue:
i try to refactor js code for merging split keys to get a privKey for a vanity address. For better read/understanding, for updated packages (bitcoinjs-lib) and maybe integrations into wallets. Here is the code i want to refactoring https://github.com/sashmaaan/VanityAddressMerger/blob/master/src/sashmaaan.vmerge.js
given: vanityAddress, privkey, partialPrivkey
There are 6 cases/mathematical operations i've identified to get the right privatekey, and it should return 18 combined-privatekeys, but i get 23 then i try to find the one with the right derived address that is the same as the vanityAddress.
So i think there must be something wrong with the constants n or lambda1 and lambda2, or negatiation of the bigints.
The previous code uses a old version of bitcoinjs with deprecated functions ECKey so i tried to use ECPair but i am not shure if its used right in the code below:
import * as bitcoin from "bitcoinjs-lib"; import { ECPairFactory } from 'ecpair'; import * as ecc from 'tiny-secp256k1'; const ECPair = ECPairFactory(ecc); import bigInt from "big-integer"; const orderBigInt = bigInt('FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEBAAEDCE6AF48A03BBFD25E8CD0364141', 16); const n = bigInt("FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEBAAEDCE6AF48A03BBFD25E8CD0364141", 16); const lambdaKey = bigInt('5363ad4cc05c30e0a5261c028812645a122e22ea20816678df02967c1b23bd72', 16) /* const lambdaKeyBuffer = Buffer.from(lambdaBigInt, 'hex'); const lambdaKey = ECPair.fromPrivateKey(lambdaKeyBuffer); */ const lambda2Key = bigInt('ac9c52b33fa3cf1f5ad9e3fd77ed9ba4a880b9fc8ec739c2e0cfc810b51283ce', 16) /* const lambdaKeyBuffer2 = Buffer.from(lambdaBigInt2, 'hex'); const lambda2Key = ECPair.fromPrivateKey(lambdaKeyBuffer2); */ function mergeKeys(addr, privKey, partialPrivKey) { if (privKey === partialPrivKey) { throw new Error('Own private key and partial private key are the same'); } if (!privKey || !partialPrivKey) { throw new Error('One of the private keys is null'); } const ownKeyPair = ECPair.fromWIF(privKey); const partialKeyPair = ECPair.fromWIF(partialPrivKey); const ownKey = bigInt(ownKeyPair.privateKey.toString('hex'), 16); const partPrivKey = bigInt(partialKeyPair.privateKey.toString('hex'), 16); const keyPairs = [ownKey, partPrivKey]; function negateKey(key) { return n.subtract(key).mod(n); } // Try merging private keys both ways (addition and multiplication) for (const keyPair2 of keyPairs) { for (const keyPair1 of keyPairs) { // No sym, no endo const mergedPrivateKey1 = keyPair1.add(keyPair2).mod(n); const privateKeyHex1 = mergedPrivateKey1.toString(16).padStart(64, '0'); const privateKeyBuffer1 = Buffer.from(privateKeyHex1, 'hex'); const mergedKeyPair1 = ECPair.fromPrivateKey(privateKeyBuffer1, { network: bitcoin.networks.bitcoin }); console.log(mergedKeyPair1.toWIF(), 1) // No sym, endo 1 const mergedPrivateKey2 = keyPair1.multiply(lambdaKey).mod(n).add(keyPair2).mod(n); const privateKeyHex2 = mergedPrivateKey2.toString(16).padStart(64, '0'); const privateKeyBuffer2 = Buffer.from(privateKeyHex2, 'hex'); const mergedKeyPair2 = ECPair.fromPrivateKey(privateKeyBuffer2, { network: bitcoin.networks.bitcoin }); console.log(mergedKeyPair2.toWIF(), 2) // No sym, endo 2 const mergedPrivateKey3 = keyPair1.multiply(lambda2Key).mod(n).add(keyPair2).mod(n); const privateKeyHex3 = mergedPrivateKey3.toString(16).padStart(64, '0'); const privateKeyBuffer3 = Buffer.from(privateKeyHex3, 'hex'); const mergedKeyPair3 = ECPair.fromPrivateKey(privateKeyBuffer3, { network: bitcoin.networks.bitcoin }); console.log(mergedKeyPair3.toWIF(), 3) // Symmetric, no endo let mergedPrivateKey4 = negateKey(keyPair1).negate().add(keyPair2).mod(n) mergedPrivateKey4 = negateKey(mergedPrivateKey4) //mergedPrivateKey4 = negate(mergedPrivateKey4) const privateKeyHex4 = mergedPrivateKey4.toString(16).padStart(64, '0'); const privateKeyBuffer4 = Buffer.from(privateKeyHex4, 'hex'); const mergedKeyPair4 = ECPair.fromPrivateKey(privateKeyBuffer4, { network: bitcoin.networks.bitcoin }); console.log(mergedKeyPair4.toWIF(), 4) // Symmetric, endo 1 const mergedPrivateKey5 = keyPair1.multiply(lambdaKey).mod(n).negate().add(orderBigInt).add(keyPair2).mod(n); const privateKeyHex5 = mergedPrivateKey5.toString(16).padStart(64, '0'); const privateKeyBuffer5 = Buffer.from(privateKeyHex5, 'hex'); const mergedKeyPair5 = ECPair.fromPrivateKey(privateKeyBuffer5, { network: bitcoin.networks.bitcoin }); console.log(mergedKeyPair5.toWIF(), 5) // Symmetric, endo 2 const mergedPrivateKey6 = keyPair1.multiply(lambda2Key).mod(n).negate().add(orderBigInt).add(keyPair2).mod(n); const privateKeyHex6 = mergedPrivateKey6.toString(16).padStart(64, '0'); const privateKeyBuffer6 = Buffer.from(privateKeyHex6, 'hex'); const mergedKeyPair6 = ECPair.fromPrivateKey(privateKeyBuffer6, { network: bitcoin.networks.bitcoin }); console.log(mergedKeyPair6.toWIF(), 6) // Generate addresses for each merged key pair const address1 = getAddressFromKeyType(addr.charAt(0), mergedKeyPair1); const address2 = getAddressFromKeyType(addr.charAt(0), mergedKeyPair2); const address3 = getAddressFromKeyType(addr.charAt(0), mergedKeyPair3); const address4 = getAddressFromKeyType(addr.charAt(0), mergedKeyPair4); const address5 = getAddressFromKeyType(addr.charAt(0), mergedKeyPair5); const address6 = getAddressFromKeyType(addr.charAt(0), mergedKeyPair6); // Check if any of the addresses match the target address if (addr === address1) return mergedKeyPair1.toWIF(); if (addr === address2) return mergedKeyPair2.toWIF(); if (addr === address3) return mergedKeyPair3.toWIF(); if (addr === address4) return mergedKeyPair4.toWIF(); if (addr === address5) return mergedKeyPair5.toWIF(); if (addr === address6) return mergedKeyPair6.toWIF(); } } //throw new Error('Failed to find a valid merged private key.'); } function getAddressFromKeyType(keyType, keyPair) { switch (keyType) { case "1": const addr = bitcoin.payments.p2pkh({ pubkey: keyPair.publicKey, network: bitcoin.networks.bitcoin }).address; return addr case "3": return bitcoin.payments.p2sh({ redeem: bitcoin.payments.p2wpkh({ pubkey: keyPair.publicKey }), network: bitcoin.networks.bitcoin }).address; case "b": case "B": return bitcoin.payments.p2wpkh({ pubkey: keyPair.publicKey, network: bitcoin.networks.bitcoin }).address; default: return null; } } const addr = '1btcxcVyqf8jfkscQmYPBGRurZQG8PMtb'; const privKey = 'KzNCSsMnhf34GBt91tSbgDAC2YKt6cuX2XDiRzZtC487koBUHh5N'; const partialPrivKey = 'Kyc35db3dauFrVLSDYWgmrqAQCEcPf1Xnkv9QbGWYboE3FkV7rMv'; //expected private key: L53BPaiJWm3wJ4APYRzHo6sTUTYc76YY7Kx6ScyTBRkrYJ1My3S4 // mergeKeys(addr, privKey, partialPrivKey); try { const mergedPrivateKey = mergeKeys(addr, privKey, partialPrivKey); console.log('Merged Private Key (WIF Compressed):', mergedPrivateKey); } catch (error) { console.error('Error:', error.message, error) }
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150,000 sats bounty