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A library for performing elliptic curve operations on the secp256k1 curve. It is designed to integrate into the BitcoinJS & BitcoinerLAB ecosystems and uses the audited noble-secp256k1 library. It is compatible with environments that do not support WASM, such as React Native.

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Secp256k1

@bitcoinerlab/secp256k1 is a Javascript library for performing elliptic curve operations on the secp256k1 curve. It is designed to integrate into the BitcoinJS and BitcoinerLAB ecosystems and uses the audited noble-curves library, created by Paul Miller.

This library is compatible with environments that do not support WebAssembly, such as React Native.

Features

  • Compatible with BitcoinJS ecpair and bip32 Factory functions.
  • Based on audited code @noble/secp256k1.
  • Can be used in environments that do not support WASM, such as React Native.
  • Uses the same tests as tiny-secp256k1.

Installation

To install the package, use npm:

npm install @bitcoinerlab/secp256k1

Usage

API

This implementation follows the tiny-secp256k1 API. Please refer to tiny-secp256k1 for documentation on the methods.

  • xOnlyPointAddTweakCheck: This method is not yet implemented. It is not used in ecpair or bip32.

  • signSchnorr: Starting from version 1.2.0, this function deviates from the exact behavior mapping with bitcoinjs/tiny-secp256k1 and no longer initializes the auxiliary random data parameter (e) to a zero-filled array by default. Instead, it requires the caller to explicitly provide randomness if desired. If omitted, the underlying implementation uses cryptographically secure randomness (through crypto.getRandomValues). For more details on this change, see the discussion here and the conclusions here.

Examples

You can test the examples in this section using the online playground demo available at https://bitcoinerlab.com/modules/secp256k1.

import ecc from '@bitcoinerlab/secp256k1';
import { BIP32Factory } from 'bip32';
import { ECPairFactory } from 'ecpair';
const BIP32 = BIP32Factory(ecc);
const ECPair = ECPairFactory(ecc);

const keyPair1 = ECPair.fromWIF(
  'KynD8ZKdViVo5W82oyxvE18BbG6nZPVQ8Td8hYbwU94RmyUALUik'
);
const node = BIP32.fromBase58(
  'xprv9s21ZrQH143K3QTDL4LXw2F7HEK3wJUD2nW2nRk4stbPy6cq3jPPqjiChkVvvNKmPGJxWUtg6LnF5kejMRNNU3TGtRBeJgk33yuGBxrMPHi'
);

Usage with React Native

@noble/secp256k1 uses Javascript BigInt, which is fully supported in React Native on iOS. However, to use it on Android, you must make sure you use the Hermes Javascript Engine, available from RN-0.70 release.

Authors and Contributors

The project was initially developed and is currently maintained by Jose-Luis Landabaso. Contributions and help from other developers are welcome.

Here are some resources to help you get started with contributing:

Building from source

To download the source code and build the project, follow these steps:

  1. Clone the repository:
git clone https://github.com/bitcoinerlab/secp256k1.git
  1. Install the dependencies:
npm install
  1. Build the project:
npm run build

This will build the project and generate the necessary files in the dist directory.

Testing

Before committing any code, make sure it passes all tests by running:

npm run test

Licensing

This project is licensed under the MIT License.

Acknowledgments

Thanks to Paul Miller for creating and maintaining the noble-secp256k1 library, upon which this library is based.

Thanks to the BitcoinJS team for creating and maintaining the BitcoinJS ecosystem, including the ecpair and bip32 libraries, which this library is designed to integrate with.

Thanks to the tiny-secp256k1 team for creating and maintaining the tiny-secp256k1 library, which this library uses for testing.

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A library for performing elliptic curve operations on the secp256k1 curve. It is designed to integrate into the BitcoinJS & BitcoinerLAB ecosystems and uses the audited noble-secp256k1 library. It is compatible with environments that do not support WASM, such as React Native.

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