eciesjs/README.md

Elliptic Curve Integrated Encryption Scheme for secp256k1/curve25519

# eciesjs

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Elliptic Curve Integrated Encryption Scheme for secp256k1/curve25519 in TypeScript.

This is the JavaScript/TypeScript version of [eciespy](https://github.com/ecies/py) with a built-in class-like secp256k1/curve25519 [API](#privatekey).

You can learn the details in [DETAILS.md](./DETAILS.md).

## Install

```bash
npm install eciesjs
```

We recommend using the latest Node runtime although it's still possible to install on old versions (as long as 16+).

## Quick Start

```typescript
import { PrivateKey, decrypt, encrypt } from "eciesjs";

const sk = new PrivateKey()
const data = Buffer.from("hello world🌍")
const decrypted = decrypt(sk.secret, encrypt(sk.publicKey.toBytes(), data))
console.log(Buffer.from(decrypted).toString())
```

Or run the example code:

```bash
$ pnpm install && pnpm build && cd example/runtime && pnpm install && node main.js
hello world🌍
```

See [Configuration](#configuration) to control with more granularity.

## Sponsors

<a href="https://dotenvx.com"><img alt="dotenvx" src="https://dotenvx.com/logo.png" width="200" height="200"/></a>

## Multi-platform Support

### Browser

This library is browser-friendly, check the [`example/browser`](./example/browser) directory for details. The online demo is hosted [here](https://js-demo.ecies.org/).

Currently it's necessary to polyfill `Buffer` for backward compatibility. From v0.5.0, it can run in browsers as is.

If you want a WASM version to run directly in modern browsers or on some blockchains, you can also try [`ecies-wasm`](https://github.com/ecies/rs-wasm).

### Bun/Deno

For bun/deno, see [`example/runtime`](./example/runtime). There are some limitations currently, mentioned in [`@ecies/ciphers`](https://github.com/ecies/js-ciphers#known-limitations):

- `node:crypto`'s `chacha20-poly1305` does not work on bun (pure JS implementation is used instead)
- `aes-256-gcm` only works with 12 bytes nonce on deno (deno is not handling package exports correctly)

### React Native

See the [React Native demo](https://github.com/ecies/js-rn-demo).

## API

### `encrypt(receiverRawPK: string | Uint8Array, data: Uint8Array): Buffer`

Parameters:

- **receiverRawPK** - Receiver's public key, hex string or Uint8Array
- **data** - Data to encrypt

Returns: **Buffer**

### `decrypt(receiverRawSK: string | Uint8Array, data: Uint8Array): Buffer`

Parameters:

- **receiverRawSK** - Receiver's private key, hex string or Uint8Array
- **data** - Data to decrypt

Returns: **Buffer**

### `PrivateKey`

- Methods

```typescript
static fromHex(hex: string): PrivateKey;
constructor(secret?: Uint8Array);
toHex(): string;
encapsulate(pk: PublicKey, compressed?: boolean): Uint8Array;
multiply(pk: PublicKey, compressed?: boolean): Uint8Array;
equals(other: PrivateKey): boolean;
```

- Properties

```typescript
get secret(): Buffer;
readonly publicKey: PublicKey;
```

### `PublicKey`

- Methods

```typescript
static fromHex(hex: string): PublicKey;
constructor(data: Uint8Array);
toBytes(compressed?: boolean): Uint8Array;
toHex(compressed?: boolean): string;
decapsulate(sk: PrivateKey, compressed?: boolean): Uint8Array;
equals(other: PublicKey): boolean;
```

- Properties

```typescript
/** @deprecated - use `PublicKey.toBytes(false)` instead. You may also need `Buffer.from`. */
get uncompressed(): Buffer;
/** @deprecated - use `PublicKey.toBytes()` instead. You may also need `Buffer.from`. */
get compressed(): Buffer;
```

## Configuration

Following configurations are available.

- Elliptic curve: secp256k1 or curve25519 (x25519/ed25519)
- Ephemeral key format in the payload: compressed or uncompressed (only for secp256k1)
- Shared elliptic curve key format in the key derivation: compressed or uncompressed (only for secp256k1)
- Symmetric cipher algorithm: AES-256-GCM or XChaCha20-Poly1305
- Symmetric nonce length: 12 or 16 bytes (only for AES-256-GCM)

For compatibility, make sure different applications share the same configuration.

```ts
export type EllipticCurve = "secp256k1" | "x25519" | "ed25519";
export type SymmetricAlgorithm = "aes-256-gcm" | "xchacha20";
export type NonceLength = 12 | 16;

class Config {
  ellipticCurve: EllipticCurve = "secp256k1";
  isEphemeralKeyCompressed: boolean = false;
  isHkdfKeyCompressed: boolean = false;
  symmetricAlgorithm: SymmetricAlgorithm = "aes-256-gcm";
  symmetricNonceLength: NonceLength = 16;
}

export const ECIES_CONFIG = new Config();
```

### Elliptic curve configuration

On `ellipticCurve = "x25519"` or `ellipticCurve = "ed25519"`, x25519 (key exchange function on curve25519) or ed25519 (signature algorithm on curve25519) will be used for key exchange instead of secp256k1.

In this case, the payload would always be: `32 Bytes + Ciphered` regardless of `isEphemeralKeyCompressed`.

> If you don't know how to choose between x25519 and ed25519, just use the dedicated key exchange function x25519 for efficiency.
>
> Because any 32-byte data is a valid curve25519 public key, the payload would seem random. This property is excellent for circumventing censorship by adversaries.

### Secp256k1-specific configuration

On `isEphemeralKeyCompressed = true`, the payload would be: `33 Bytes + Ciphered` instead of `65 Bytes + Ciphered`.

On `isHkdfKeyCompressed = true`, the hkdf key would be derived from `ephemeral public key (compressed) + shared public key (compressed)` instead of `ephemeral public key (uncompressed) + shared public key (uncompressed)`.

### Symmetric cipher configuration

On `symmetricAlgorithm = "xchacha20"`, plaintext data would be encrypted with XChaCha20-Poly1305.

On `symmetricNonceLength = 12`, the nonce of AES-256-GCM would be 12 bytes. XChaCha20-Poly1305's nonce is always 24 bytes regardless of `symmetricNonceLength`.

### Which configuration should I choose?

For compatibility with other [ecies libraries](https://github.com/orgs/ecies/repositories), start with the default (secp256k1 with AES-256-GCM).

For speed and security, pick x25519 with XChaCha20-Poly1305.

If you know exactly what you are doing, configure as you wish or build your own ecies logic with this library.

## Security Audit

Following dependencies are audited:

- [noble-curves](https://github.com/paulmillr/noble-curves/tree/main/audit)
- [noble-hashes](https://github.com/paulmillr/noble-hashes#security)

## Changelog

See [CHANGELOG.md](./CHANGELOG.md).