Awesome
scure-starknet
Audited & minimal JS implementation of Starknet cryptography.
- đź”’ Audited by an independent security firm
- 🧜‍♂️ Stark curve, pedersen and poseidon hashes
- âž° Uses noble-curves for underlying arithmetics
This library belongs to scure
scure — audited micro-libraries.
- Zero or minimal dependencies
- Highly readable TypeScript / JS code
- PGP-signed releases and transparent NPM builds
- Check out homepage & all libraries: base, bip32, bip39, btc-signer, starknet
Usage
npm install @scure/starknet
import * as starknet from '@scure/starknet';
We support all major platforms and runtimes. For Deno, ensure to use npm specifier.
Note: the examples use the 'deepStrictEqual' function from the 'assert' built-in NodeJS module to compare values.<br>
In Typescript, you must first install the '@types/node' npm package and then import like this: import { deepStrictEqual } from 'assert';
<br>
In vanilla Javascript, just do this: const { deepStrictEqual } = require("assert");
<br>
Curve
// Signing and verification
const privateKey = '2dccce1da22003777062ee0870e9881b460a8b7eca276870f57c601f182136c';
const publicKey = starknet.getPublicKey(privateKey);
const messageHash = 'c465dd6b1bbffdb05442eb17f5ca38ad1aa78a6f56bf4415bdee219114a47';
const sig = starknet.sign(messageHash, privateKey);
const { r, s } = sig;
deepStrictEqual(r.toString(16), '5f496f6f210b5810b2711c74c15c05244dad43d18ecbbdbe6ed55584bc3b0a2');
deepStrictEqual(s.toString(16), '4e8657b153787f741a67c0666bad6426c3741b478c8eaa3155196fc571416f3');
deepStrictEqual(starknet.verify(sig, messageHash, publicKey), true);
// Private key to StarkKey
deepStrictEqual(
starknet.getStarkKey('0x178047D3869489C055D7EA54C014FFB834A069C9595186ABE04EA4D1223A03F'),
'0x1895a6a77ae14e7987b9cb51329a5adfb17bd8e7c638f92d6892d76e51cebcf'
);
// Pedersen hash
deepStrictEqual(
starknet.pedersen(
'0x3d937c035c878245caf64531a5756109c53068da139362728feb561405371cb',
'0x208a0a10250e382e1e4bbe2880906c2791bf6275695e02fbbc6aeff9cd8b31a'
),
'30e480bed5fe53fa909cc0f8c4d99b8f9f2c016be4c41e13a4848797979c662'
);
// Create private key from ethereum signature
const ethSignature =
'0x21fbf0696d5e0aa2ef41a2b4ffb623bcaf070461d61cf7251c74161f82fec3a43' +
'70854bc0a34b3ab487c1bc021cd318c734c51ae29374f2beb0e6f2dd49b4bf41c';
deepStrictEqual(
starknet.ethSigToPrivate(ethSignature),
'766f11e90cd7c7b43085b56da35c781f8c067ac0d578eabdceebc4886435bda'
);
Private key from mnemonic
import * as bip32 from '@scure/bip32';
import * as bip39 from '@scure/bip39';
should('Seed derivation (example)', () => {
const layer = 'starknet';
const application = 'starkdeployement';
const mnemonic =
'range mountain blast problem vibrant void vivid doctor cluster enough melody ' +
'salt layer language laptop boat major space monkey unit glimpse pause change vibrant';
const ethAddress = '0xa4864d977b944315389d1765ffa7e66F74ee8cd7';
const hdKey = bip32.HDKey.fromMasterSeed(bip39.mnemonicToSeedSync(mnemonic)).derive(
starknet.getAccountPath(layer, application, ethAddress, 0)
);
deepStrictEqual(
starknet.grindKey(hdKey.privateKey),
'6cf0a8bf113352eb863157a45c5e5567abb34f8d32cddafd2c22aa803f4892c'
);
});
Poseidon
Poseidon hash can be used in the following way:
type PoseidonFn = ReturnType<typeof poseidon> & {
m: number;
rate: number;
capacity: number;
};
function poseidonHash(x: bigint, y: bigint, fn?: PoseidonFn): bigint;
function poseidonHashFunc(x: Uint8Array, y: Uint8Array, fn?: PoseidonFn): Uint8Array;
function poseidonHashSingle(x: bigint, fn?: PoseidonFn): bigint;
function poseidonHashMany(values: bigint[], fn?: PoseidonFn): bigint;
Utils
// Hash chain
deepStrictEqual(
starknet.hashChain([1, 2, 3]),
'5d9d62d4040b977c3f8d2389d494e4e89a96a8b45c44b1368f1cc6ec5418915'
);
// Key grinding
deepStrictEqual(
starknet.grindKey('86F3E7293141F20A8BAFF320E8EE4ACCB9D4A4BF2B4D295E8CEE784DB46E0519'),
'5c8c8683596c732541a59e03007b2d30dbbbb873556fe65b5fb63c16688f941'
);
// Starknet keccak
deepStrictEqual(
starknet.keccak(utf8.decode('hello')),
0x8aff950685c2ed4bc3174f3472287b56d9517b9c948127319a09a7a36deac8n
);
Security
The library has been independently audited:
- at version 0.3.0, in Sep 2023, by Kudelski Security
- PDFs: offline
- Changes since audit
- Scope: scure-starknet and its related abstract
modules of noble-curves:
curve
,modular
,poseidon
,weierstrass
- The audit has been funded by Starkware
Speed
Benchmark results on Apple M2 with node v20:
stark
init x 33 ops/sec @ 30ms/op
pedersen
├─old x 86 ops/sec @ 11ms/op # @starkware-industries/starkware-crypto-utils
└─scure x 620 ops/sec @ 1ms/op
poseidon x 7,162 ops/sec @ 139ÎĽs/op
verify
├─old x 303 ops/sec @ 3ms/op
└─scure x 485 ops/sec @ 2ms/op
Contributing & testing
- Clone the repository
npm install
to install build dependencies like TypeScriptnpm run build
to compile TypeScript codenpm run test
will execute all main tests
Resources
- Starknet docs
- SNARK Security and Performance calculating security level of snarks.
License
The MIT License (MIT)
Copyright (c) 2022 Paul Miller (https://paulmillr.com)
See LICENSE file.