import { computeHmac, randomBytes, ripemd160, SigningKey, sha256 } from "../crypto/index.js"; import { VoidSigner } from "../providers/index.js"; import { computeAddress } from "../transaction/index.js"; import { concat, dataSlice, decodeBase58, defineProperties, encodeBase58, getBytes, hexlify, isBytesLike, getNumber, toBigInt, toHex, assertPrivate, assert, assertArgument } from "../utils/index.js"; import { langEn } from "../wordlists/lang-en.js"; import { Mnemonic } from "./mnemonic.js"; import { BaseWallet } from "./base-wallet.js"; export const defaultPath = "m/44'/60'/0'/0/0"; // "Bitcoin seed" const MasterSecret = new Uint8Array([66, 105, 116, 99, 111, 105, 110, 32, 115, 101, 101, 100]); const HardenedBit = 0x80000000; const N = BigInt("0xfffffffffffffffffffffffffffffffebaaedce6af48a03bbfd25e8cd0364141"); const Nibbles = "0123456789abcdef"; function zpad(value, length) { let result = ""; while (value) { result = Nibbles[value % 16] + result; value = Math.trunc(value / 16); } while (result.length < length * 2) { result = "0" + result; } return "0x" + result; } function encodeBase58Check(_value) { const value = getBytes(_value); const check = dataSlice(sha256(sha256(value)), 0, 4); const bytes = concat([value, check]); return encodeBase58(bytes); } const _guard = {}; function ser_I(index, chainCode, publicKey, privateKey) { const data = new Uint8Array(37); if (index & HardenedBit) { assert(privateKey != null, "cannot derive child of neutered node", "UNSUPPORTED_OPERATION", { operation: "deriveChild" }); // Data = 0x00 || ser_256(k_par) data.set(getBytes(privateKey), 1); } else { // Data = ser_p(point(k_par)) data.set(getBytes(publicKey)); } // Data += ser_32(i) for (let i = 24; i >= 0; i -= 8) { data[33 + (i >> 3)] = ((index >> (24 - i)) & 0xff); } const I = getBytes(computeHmac("sha512", chainCode, data)); return { IL: I.slice(0, 32), IR: I.slice(32) }; } function derivePath(node, path) { const components = path.split("/"); assertArgument(components.length > 0 && (components[0] === "m" || node.depth > 0), "invalid path", "path", path); if (components[0] === "m") { components.shift(); } let result = node; for (let i = 0; i < components.length; i++) { const component = components[i]; if (component.match(/^[0-9]+'$/)) { const index = parseInt(component.substring(0, component.length - 1)); assertArgument(index < HardenedBit, "invalid path index", `path[${i}]`, component); result = result.deriveChild(HardenedBit + index); } else if (component.match(/^[0-9]+$/)) { const index = parseInt(component); assertArgument(index < HardenedBit, "invalid path index", `path[${i}]`, component); result = result.deriveChild(index); } else { assertArgument(false, "invalid path component", `path[${i}]`, component); } } return result; } export class HDNodeWallet extends BaseWallet { publicKey; fingerprint; parentFingerprint; mnemonic; chainCode; path; index; depth; constructor(guard, signingKey, parentFingerprint, chainCode, path, index, depth, mnemonic, provider) { super(signingKey, provider); assertPrivate(guard, _guard, "HDNodeWallet"); defineProperties(this, { publicKey: signingKey.compressedPublicKey }); const fingerprint = dataSlice(ripemd160(sha256(this.publicKey)), 0, 4); defineProperties(this, { parentFingerprint, fingerprint, chainCode, path, index, depth }); defineProperties(this, { mnemonic }); } connect(provider) { return new HDNodeWallet(_guard, this.signingKey, this.parentFingerprint, this.chainCode, this.path, this.index, this.depth, this.mnemonic, provider); } get extendedKey() { // We only support the mainnet values for now, but if anyone needs // testnet values, let me know. I believe current sentiment is that // we should always use mainnet, and use BIP-44 to derive the network // - Mainnet: public=0x0488B21E, private=0x0488ADE4 // - Testnet: public=0x043587CF, private=0x04358394 assert(this.depth < 256, "Depth too deep", "UNSUPPORTED_OPERATION", { operation: "extendedKey" }); return encodeBase58Check(concat([ "0x0488ADE4", zpad(this.depth, 1), this.parentFingerprint, zpad(this.index, 4), this.chainCode, concat(["0x00", this.privateKey]) ])); } hasPath() { return (this.path != null); } neuter() { return new HDNodeVoidWallet(_guard, this.address, this.publicKey, this.parentFingerprint, this.chainCode, this.path, this.index, this.depth, this.provider); } deriveChild(_index) { const index = getNumber(_index, "index"); assertArgument(index <= 0xffffffff, "invalid index", "index", index); // Base path let path = this.path; if (path) { path += "/" + (index & ~HardenedBit); if (index & HardenedBit) { path += "'"; } } const { IR, IL } = ser_I(index, this.chainCode, this.publicKey, this.privateKey); const ki = new SigningKey(toHex((toBigInt(IL) + BigInt(this.privateKey)) % N, 32)); return new HDNodeWallet(_guard, ki, this.fingerprint, hexlify(IR), path, index, this.depth + 1, this.mnemonic, this.provider); } derivePath(path) { return derivePath(this, path); } static #fromSeed(_seed, mnemonic) { assertArgument(isBytesLike(_seed), "invalid seed", "seed", "[REDACTED]"); const seed = getBytes(_seed, "seed"); assertArgument(seed.length >= 16 && seed.length <= 64, "invalid seed", "seed", "[REDACTED]"); const I = getBytes(computeHmac("sha512", MasterSecret, seed)); const signingKey = new SigningKey(hexlify(I.slice(0, 32))); return new HDNodeWallet(_guard, signingKey, "0x00000000", hexlify(I.slice(32)), "m", 0, 0, mnemonic, null); } static fromSeed(seed) { return HDNodeWallet.#fromSeed(seed, null); } static fromPhrase(phrase, password = "", path = defaultPath, wordlist = langEn) { if (!path) { path = defaultPath; } const mnemonic = Mnemonic.fromPhrase(phrase, password, wordlist); return HDNodeWallet.#fromSeed(mnemonic.computeSeed(), mnemonic).derivePath(path); } static fromMnemonic(mnemonic, path = defaultPath) { if (!path) { path = defaultPath; } return HDNodeWallet.#fromSeed(mnemonic.computeSeed(), mnemonic).derivePath(path); } static fromExtendedKey(extendedKey) { const bytes = getBytes(decodeBase58(extendedKey)); // @TODO: redact assertArgument(bytes.length === 82 || encodeBase58Check(bytes.slice(0, 78)) === extendedKey, "invalid extended key", "extendedKey", "[ REDACTED ]"); const depth = bytes[4]; const parentFingerprint = hexlify(bytes.slice(5, 9)); const index = parseInt(hexlify(bytes.slice(9, 13)).substring(2), 16); const chainCode = hexlify(bytes.slice(13, 45)); const key = bytes.slice(45, 78); switch (hexlify(bytes.slice(0, 4))) { // Public Key case "0x0488b21e": case "0x043587cf": { const publicKey = hexlify(key); return new HDNodeVoidWallet(_guard, computeAddress(publicKey), publicKey, parentFingerprint, chainCode, null, index, depth, null); } // Private Key case "0x0488ade4": case "0x04358394 ": if (key[0] !== 0) { break; } return new HDNodeWallet(_guard, new SigningKey(key.slice(1)), parentFingerprint, chainCode, null, index, depth, null, null); } assertArgument(false, "invalid extended key prefix", "extendedKey", "[ REDACTED ]"); } static createRandom(password = "", path = defaultPath, wordlist = langEn) { if (!path) { path = defaultPath; } const mnemonic = Mnemonic.fromEntropy(randomBytes(16), password, wordlist); return HDNodeWallet.#fromSeed(mnemonic.computeSeed(), mnemonic).derivePath(path); } } export class HDNodeVoidWallet extends VoidSigner { publicKey; fingerprint; parentFingerprint; chainCode; path; index; depth; constructor(guard, address, publicKey, parentFingerprint, chainCode, path, index, depth, provider) { super(address, provider); assertPrivate(guard, _guard, "HDNodeVoidWallet"); defineProperties(this, { publicKey }); const fingerprint = dataSlice(ripemd160(sha256(publicKey)), 0, 4); defineProperties(this, { publicKey, fingerprint, parentFingerprint, chainCode, path, index, depth }); } connect(provider) { return new HDNodeVoidWallet(_guard, this.address, this.publicKey, this.parentFingerprint, this.chainCode, this.path, this.index, this.depth, provider); } get extendedKey() { // We only support the mainnet values for now, but if anyone needs // testnet values, let me know. I believe current sentiment is that // we should always use mainnet, and use BIP-44 to derive the network // - Mainnet: public=0x0488B21E, private=0x0488ADE4 // - Testnet: public=0x043587CF, private=0x04358394 assert(this.depth < 256, "Depth too deep", "UNSUPPORTED_OPERATION", { operation: "extendedKey" }); return encodeBase58Check(concat([ "0x0488B21E", zpad(this.depth, 1), this.parentFingerprint, zpad(this.index, 4), this.chainCode, this.publicKey, ])); } hasPath() { return (this.path != null); } deriveChild(_index) { const index = getNumber(_index, "index"); assertArgument(index <= 0xffffffff, "invalid index", "index", index); // Base path let path = this.path; if (path) { path += "/" + (index & ~HardenedBit); if (index & HardenedBit) { path += "'"; } } const { IR, IL } = ser_I(index, this.chainCode, this.publicKey, null); const Ki = SigningKey._addPoints(IL, this.publicKey, true); const address = computeAddress(Ki); return new HDNodeVoidWallet(_guard, address, Ki, this.fingerprint, hexlify(IR), path, index, this.depth + 1, this.provider); } derivePath(path) { return derivePath(this, path); } } export class HDNodeWalletManager { #root; constructor(phrase, password = "", path = "m/44'/60'/0'/0", locale = langEn) { this.#root = HDNodeWallet.fromPhrase(phrase, password, path, locale); } getSigner(index) { return this.#root.deriveChild((index == null) ? 0 : index); } } export function getAccountPath(_index) { const index = getNumber(_index, "index"); assertArgument(index >= 0 && index < HardenedBit, "invalid account index", "index", index); return `m/44'/60'/${index}'/0/0`; } //# sourceMappingURL=hdwallet.js.map