readme
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README.md
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README.md
@ -43,31 +43,15 @@ If you don't like NPM, a standalone [noble-curves.js](https://github.com/paulmil
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The package consists of two parts:
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implementations (using [noble-hashes](https://github.com/paulmillr/noble-hashes)), and zero-dep abstract api.
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Generic example for all curves, shown with secp256k1:
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```ts
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// import * from '@noble/curves'; // Error: use sub-imports, to ensure small app size
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import { secp256k1 } from '@noble/curves/secp256k1'; // ESM and Common.js
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// import { secp256k1 } from 'npm:@noble/curves@1.2.0/secp256k1'; // Deno
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const priv = secp256k1.utils.randomPrivateKey();
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const pub = secp256k1.getPublicKey(priv);
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const msg = new Uint8Array(32).fill(1); // message hash (not message) in ecdsa
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const sig = secp256k1.sign(msg, priv); // `{prehash: true}` option is available
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const isValid = secp256k1.verify(sig, msg, pub) === true;
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// hex strings are also supported besides Uint8Arrays:
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const privHex = '46c930bc7bb4db7f55da20798697421b98c4175a52c630294d75a84b9c126236';
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const pub2 = secp256k1.getPublicKey(privHex);
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```
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- [Usage](#usage)
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- [Everything](#everything)
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- [ECDH (Elliptic Curve Diffie-Hellman)](#ecdh-elliptic-curve-diffie-hellman)
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- [ECDSA signature scheme](#ecdsa-signature-scheme)
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- [ECDSA public key recovery & extra entropy](#ecdsa-public-key-recovery--extra-entropy)
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- [ECDH (Elliptic Curve Diffie-Hellman)](#ecdh-elliptic-curve-diffie-hellman)
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- [Schnorr signatures over secp256k1, BIP340](#schnorr-signatures-over-secp256k1-bip340)
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- [ed25519, X25519, ristretto255](#ed25519-x25519-ristretto255)
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- [ed448, X448, decaf448](#ed448-x448-decaf448)
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- [bls12-381](#bls12-381)
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- [All available imports](#all-available-imports)
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- [Accessing a curve's variables](#accessing-a-curves-variables)
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- [Abstract API](#abstract-api)
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- [abstract/weierstrass: Short Weierstrass curve](#abstractweierstrass-short-weierstrass-curve)
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@ -88,29 +72,23 @@ const pub2 = secp256k1.getPublicKey(privHex);
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- [Projects using curves](#projects-using-curves)
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- [License](#license)
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#### Everything
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#### ECDSA signature scheme
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```typescript
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import { secp256k1, schnorr } from '@noble/curves/secp256k1';
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import { ed25519, ed25519ph, ed25519ctx, x25519, RistrettoPoint } from '@noble/curves/ed25519';
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import { ed448, ed448ph, ed448ctx, x448 } from '@noble/curves/ed448';
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import { p256 } from '@noble/curves/p256';
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import { p384 } from '@noble/curves/p384';
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import { p521 } from '@noble/curves/p521';
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import { pallas, vesta } from '@noble/curves/pasta';
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import { bls12_381 } from '@noble/curves/bls12-381';
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import { bn254 } from '@noble/curves/bn254'; // also known as alt_bn128
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import { jubjub } from '@noble/curves/jubjub';
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import { bytesToHex, hexToBytes, concatBytes, utf8ToBytes } from '@noble/curves/abstract/utils';
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```
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#### ECDH (Elliptic Curve Diffie-Hellman)
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Generic example that works for all curves, shown for secp256k1:
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```ts
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// 1. The output includes parity byte. Strip it using shared.slice(1)
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// 2. The output is not hashed. More secure way is sha256(shared) or hkdf(shared)
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const someonesPub = secp256k1.getPublicKey(secp256k1.utils.randomPrivateKey());
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const shared = secp256k1.getSharedSecret(priv, someonesPub);
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// import * from '@noble/curves'; // Error: use sub-imports, to ensure small app size
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import { secp256k1 } from '@noble/curves/secp256k1'; // ESM and Common.js
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// import { secp256k1 } from 'npm:@noble/curves@1.2.0/secp256k1'; // Deno
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const priv = secp256k1.utils.randomPrivateKey();
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const pub = secp256k1.getPublicKey(priv);
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const msg = new Uint8Array(32).fill(1); // message hash (not message) in ecdsa
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const sig = secp256k1.sign(msg, priv); // `{prehash: true}` option is available
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const isValid = secp256k1.verify(sig, msg, pub) === true;
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// hex strings are also supported besides Uint8Arrays:
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const privHex = '46c930bc7bb4db7f55da20798697421b98c4175a52c630294d75a84b9c126236';
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const pub2 = secp256k1.getPublicKey(privHex);
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```
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#### ECDSA public key recovery & extra entropy
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@ -122,6 +100,15 @@ sig.recoverPublicKey(msg).toRawBytes(); // === pub; // public key recovery
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const sigImprovedSecurity = secp256k1.sign(msg, priv, { extraEntropy: true });
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```
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#### ECDH (Elliptic Curve Diffie-Hellman)
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```ts
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// 1. The output includes parity byte. Strip it using shared.slice(1)
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// 2. The output is not hashed. More secure way is sha256(shared) or hkdf(shared)
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const someonesPub = secp256k1.getPublicKey(secp256k1.utils.randomPrivateKey());
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const shared = secp256k1.getSharedSecret(priv, someonesPub);
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```
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#### Schnorr signatures over secp256k1 (BIP340)
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```ts
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@ -153,7 +140,6 @@ It has SUF-CMA (strong unforgeability under chosen message attacks).
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and additionally provides non-repudiation with SBS [(Strongly Binding Signatures)](https://eprint.iacr.org/2020/1244).
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X25519 follows [RFC7748](https://www.rfc-editor.org/rfc/rfc7748).
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ristretto255 follows [irtf draft](https://datatracker.ietf.org/doc/html/draft-irtf-cfrg-ristretto255-decaf448).
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```ts
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// Variants from RFC8032: with context, prehashed
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@ -171,7 +157,11 @@ x25519.getPublicKey(x25519.utils.randomPrivateKey());
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import { edwardsToMontgomeryPub, edwardsToMontgomeryPriv } from '@noble/curves/ed25519';
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edwardsToMontgomeryPub(ed25519.getPublicKey(ed25519.utils.randomPrivateKey()));
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edwardsToMontgomeryPriv(ed25519.utils.randomPrivateKey());
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```
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ristretto255 follows [irtf draft](https://datatracker.ietf.org/doc/html/draft-irtf-cfrg-ristretto255-decaf448).
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```ts
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// hash-to-curve, ristretto255
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import { utf8ToBytes } from '@noble/hashes/utils';
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import { sha512 } from '@noble/hashes/sha512';
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@ -208,8 +198,11 @@ ed448.verify(sig, msg, pub);
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// Variants from RFC8032: prehashed
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import { ed448ph } from '@noble/curves/ed448';
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```
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// ECDH using curve448 aka x448
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ECDH using Curve448 aka X448, follows [RFC7748](https://www.rfc-editor.org/rfc/rfc7748).
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```ts
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import { x448 } from '@noble/curves/ed448';
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x448.getSharedSecret(priv, pub) === x448.scalarMult(priv, pub); // aliases
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x448.getPublicKey(priv) === x448.scalarMultBase(priv);
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@ -217,8 +210,11 @@ x448.getPublicKey(priv) === x448.scalarMultBase(priv);
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// ed448 => x448 conversion
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import { edwardsToMontgomeryPub } from '@noble/curves/ed448';
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edwardsToMontgomeryPub(ed448.getPublicKey(ed448.utils.randomPrivateKey()));
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```
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// hash-to-curve, decaf448
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decaf448 follows [irtf draft](https://datatracker.ietf.org/doc/html/draft-irtf-cfrg-ristretto255-decaf448).
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```ts
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import { utf8ToBytes } from '@noble/hashes/utils';
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import { shake256 } from '@noble/hashes/sha3';
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import { hashToCurve, encodeToCurve, DecafPoint, hashToDecaf448 } from '@noble/curves/ed448';
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@ -243,6 +239,22 @@ Same RFC7748 / RFC8032 / IRTF draft are followed.
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See [abstract/bls](#abstractbls-barreto-lynn-scott-curves).
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#### All available imports
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```typescript
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import { secp256k1, schnorr } from '@noble/curves/secp256k1';
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import { ed25519, ed25519ph, ed25519ctx, x25519, RistrettoPoint } from '@noble/curves/ed25519';
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import { ed448, ed448ph, ed448ctx, x448 } from '@noble/curves/ed448';
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import { p256 } from '@noble/curves/p256';
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import { p384 } from '@noble/curves/p384';
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import { p521 } from '@noble/curves/p521';
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import { pallas, vesta } from '@noble/curves/pasta';
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import { bls12_381 } from '@noble/curves/bls12-381';
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import { bn254 } from '@noble/curves/bn254'; // also known as alt_bn128
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import { jubjub } from '@noble/curves/jubjub';
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import { bytesToHex, hexToBytes, concatBytes, utf8ToBytes } from '@noble/curves/abstract/utils';
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```
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#### Accessing a curve's variables
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```ts
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