import { AbstractHDElectrumWallet } from './abstract-hd-electrum-wallet'; const bitcoin = require('bitcoinjs-lib'); const { CipherSeed } = require('aezeed'); /** * AEZEED mnemonics support, which is used in LND * Support only BIP84 (native segwit) derivations * * @see https://github.com/lightningnetwork/lnd/tree/master/aezeed * @see https://github.com/bitcoinjs/aezeed * @see https://github.com/lightningnetwork/lnd/issues/4960 * @see https://github.com/guggero/chantools/blob/master/doc/chantools_genimportscript.md * @see https://github.com/lightningnetwork/lnd/blob/master/keychain/derivation.go */ export class HDAezeedWallet extends AbstractHDElectrumWallet { static type = 'HDAezeedWallet'; static typeReadable = 'HD Aezeed'; setSecret(newSecret) { this.secret = newSecret.trim(); this.secret = this.secret.replace(/[^a-zA-Z0-9:]/g, ' ').replace(/\s+/g, ' '); return this; } _getEntropyCached() { if (this._entropyHex) { // cache hit return Buffer.from(this._entropyHex, 'hex'); } else { throw new Error('Entropy cache is not filled'); } } validateMnemonic(): boolean { throw new Error('Use validateMnemonicAsync()'); } async validateMnemonicAsync() { const [mnemonic3, password] = this.secret.split(':'); try { const cipherSeed1 = await CipherSeed.fromMnemonic(mnemonic3, password || 'aezeed'); this._entropyHex = cipherSeed1.entropy.toString('hex'); // save cache return !!cipherSeed1.entropy; } catch (_) { return false; } } async mnemonicInvalidPassword() { const [mnemonic3, password] = this.secret.split(':'); try { const cipherSeed1 = await CipherSeed.fromMnemonic(mnemonic3, password || 'aezeed'); this._entropyHex = cipherSeed1.entropy.toString('hex'); // save cache } catch (error) { return error.message === 'Invalid Password'; } return false; } async generate() { throw new Error('Not implemented'); } _getNode0() { const root = bitcoin.bip32.fromSeed(this._getEntropyCached()); const node = root.derivePath("m/84'/0'/0'"); return node.derive(0); } _getNode1() { const root = bitcoin.bip32.fromSeed(this._getEntropyCached()); const node = root.derivePath("m/84'/0'/0'"); return node.derive(1); } _getInternalAddressByIndex(index) { index = index * 1; // cast to int if (this.internal_addresses_cache[index]) return this.internal_addresses_cache[index]; // cache hit this._node1 = this._node1 || this._getNode1(); // cache const address = bitcoin.payments.p2wpkh({ pubkey: this._node1.derive(index).publicKey, }).address; return (this.internal_addresses_cache[index] = address); } _getExternalAddressByIndex(index) { index = index * 1; // cast to int if (this.external_addresses_cache[index]) return this.external_addresses_cache[index]; // cache hit this._node0 = this._node0 || this._getNode0(); // cache const address = bitcoin.payments.p2wpkh({ pubkey: this._node0.derive(index).publicKey, }).address; return (this.external_addresses_cache[index] = address); } _getWIFByIndex(internal, index) { if (!this.secret) return false; const root = bitcoin.bip32.fromSeed(this._getEntropyCached()); const path = `m/84'/0'/0'/${internal ? 1 : 0}/${index}`; const child = root.derivePath(path); return child.toWIF(); } _getNodePubkeyByIndex(node, index) { index = index * 1; // cast to int if (node === 0 && !this._node0) { this._node0 = this._getNode0(); } if (node === 1 && !this._node1) { this._node1 = this._getNode1(); } if (node === 0) { return this._node0.derive(index).publicKey; } if (node === 1) { return this._node1.derive(index).publicKey; } } getIdentityPubkey() { const root = bitcoin.bip32.fromSeed(this._getEntropyCached()); const node = root.derivePath("m/1017'/0'/6'/0/0"); return node.publicKey.toString('hex'); } // since its basically a bip84 wallet, we allow all other standard BIP84 features: allowSend() { return true; } allowBatchSend() { return true; } allowSendMax() { return true; } allowHodlHodlTrading() { return true; } allowRBF() { return true; } allowPayJoin() { return true; } }