AndreasGassmann / bip85

JavaScript implementation of Bitcoin BIP85: Deterministic Entropy From BIP32 Keychains

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BIP85

GitHub Action Quality Gate Status code style: prettier Coverage npm

TypeScript/JavaScript implementation of Bitcoin BIP85: Deterministic Entropy From BIP32 Keychains.

DISCLAIMER

This project is in an early development phase and has not been audited or reviewed. Use it at your own risk.

Description

BIP85 allows you to derive entropy from a BIP32 root key, which can then be used in different wallets. If a child key is lost, it can easily be derived again by the master seed.

Installation

npm install bip85

Example

// Derive a BIP39 mnemonic from a BIP32 root key

// Mnemonic: install scatter logic circle pencil average fall shoe quantum disease suspect usage
// BIP32 root key taken from the BIP85 specs
const xprv =
  'xprv9s21ZrQH143K2LBWUUQRFXhucrQqBpKdRRxNVq2zBqsx8HVqFk2uYo8kmbaLLHRdqtQpUm98uKfu3vca1LqdGhUtyoFnCNkfmXRyPXLjbKb';

const masterSeed = BIP85.fromBase58(xprv);

const language = 0; // English
const words = 12; // 12, 18 or 24
const index = 0; // Should be increased to derive multiple keys

const childSeed = masterSeed.deriveBIP39(language, words, index);

childSeed.toEntropy();
// 6250b68daf746d12a24d58b4787a714b

childSeed.toMnemonic();
// girl mad pet galaxy egg matter matrix prison refuse sense ordinary nose

For more examples, check the examples folder or the tests.

Documentation

This library exports the BIP85 class. The constructor of accepts a BIP32 node from the bip32 library. Alternatively, the class provides 4 static methods to initialize the BIP85 class using a mnemonic, entropy, seed or bip32 root key.

The fromMnemonic method can be used to instantiate the BIP85 class with a mnemonic.

const mnemonic =
  'install scatter logic circle pencil average fall shoe quantum disease suspect usage'; // Mnemonic
const masterSeed = BIP85.fromMnemonic(mnemonic);

The fromEntropy method can be used to instantiate the BIP85 class with raw entropy.

const entropy = mnemonicToEntropy(mnemonic); // 75780e0e149a2a1f948e33af47e36b77
const masterSeed = BIP85.fromEntropy(entropy);

The fromSeed method can be used to instantiate the BIP85 class with a BIP32 root key in buffer format.

const seed = mnemonicToSeedSync(mnemonic); // <Buffer 37 48 34 72 a6 af 7f d1 07 fb 5f 5a aa a7 bd dc 89 69 03 53 36 92 29 77 1c 32 81 2f 71 12 07 c8 73 98 a8 d4 4c fc 76 3a 81 85 ff 34 62 72 e8 f1 45 51 ... 14 more bytes>
const masterSeed = BIP85.fromSeed(seed);

The fromBase58 method can be used to instantiate the BIP85 class with a BIP32 root key in xprv format.

const base58 = fromSeed(seed).toBase58(); // xprv9s21ZrQH143K2LBWUUQRFXhucrQqBpKdRRxNVq2zBqsx8HVqFk2uYo8kmbaLLHRdqtQpUm98uKfu3vca1LqdGhUtyoFnCNkfmXRyPXLjbKb
const masterSeed = BIP85.fromBase58(base58);

All masterSeed variables are equivalent.

The BIP85 class provides different methods to derive entropy. The generic derive method returns a string (entropy). If you use one of the specific derive method, it will instead return a BIP85Child instance, which can then return the raw entropy or an application specific format.

The derive method accepts 3 parameters.

path: The derivation path used to derive entropy
bytes: Length of the entropy. Default (and maximum): 64

Returns the entropy as a string.

const path = `m/83696968'/0'/0'`;

const child = masterSeed.derive(path);
child; // efecfbccffea313214232d29e71563d941229afb4338c21f9517c41aaa0d16f00b83d2a09ef747e7a64e8e2bd5a14869e693da66ce94ac2da570ab7ee48618f7

The deriveBIP39 method accepts 3 parameters.

language: A number between 0 and 8, depending on the language
wordLength: 12, 18 or 24, the length of the mnemonic
index: starting at 0

Returns a BIP85Child instance. You can use the methods toEntropy() and toMnemonic().

const language = 0;
const wordLength = 12;
const index = 0;

const child = masterSeed.deriveBIP39(language, wordLength, index);
child.toEntropy(); // 6250b68daf746d12a24d58b4787a714b
child.toMnemonic(); // girl mad pet galaxy egg matter matrix prison refuse sense ordinary nose

The deriveWIF method accepts 1 parameter.

index: starting at 0

Returns a BIP85Child instance. You can use the methods toEntropy() and toWIF().

const index = 0;

const child = masterSeed.deriveWIF(index);
child.toEntropy(); // 7040bb53104f27367f317558e78a994ada7296c6fde36a364e5baf206e502bb1
child.toWIF(); // Kzyv4uF39d4Jrw2W7UryTHwZr1zQVNk4dAFyqE6BuMrMh1Za7uhp

The deriveXPRV method accepts 1 parameter.

index: starting at 0

Returns a BIP85Child instance. You can use the methods toEntropy() and toXPRV().

const index = 0;

const child = masterSeed.deriveXPRV(index);
child.toEntropy(); // ead0b33988a616cf6a497f1c169d9e92562604e38305ccd3fc96f2252c177682
child.toXPRV(); // xprv9s21ZrQH143K2srSbCSg4m4kLvPMzcWydgmKEnMmoZUurYuBuYG46c6P71UGXMzmriLzCCBvKQWBUv3vPB3m1SATMhp3uEjXHJ42jFg7myX

The deriveHex method accepts 1 parameter.

bytes: Length of the entropy, between 16 and 64

Returns a BIP85Child instance. You can use the method toEntropy().

const bytes = 64;

const child = masterSeed.deriveHex(bytes);
child.toEntropy(); // 492db4698cf3b73a5a24998aa3e9d7fa96275d85724a91e71aa2d645442f878555d078fd1f1f67e368976f04137b1f7a0d19232136ca50c44614af72b5582a5c

Testing

npm install
npm test

---------------|---------|----------|---------|---------|-------------------
File           | % Stmts | % Branch | % Funcs | % Lines | Uncovered Line #s
---------------|---------|----------|---------|---------|-------------------
All files      |   86.92 |    81.63 |   80.95 |   87.62 |
 BIP85.js      |   84.85 |    84.62 |      75 |   84.85 | 97-112
 BIP85Child.js |    87.5 |     62.5 |     100 |    87.5 | 23,29,36
 crypto.js     |     100 |      100 |     100 |     100 |
 index.js      |    87.5 |      100 |      50 |     100 |
 util.js       |     100 |      100 |     100 |     100 |
---------------|---------|----------|---------|---------|-------------------

TODOs

  • Add more tests
  • Fix sonarsource coverage not working
  • 100% test coverage
  • Add more examples
  • Migrate tests to use typescript
  • Add changelog
  • Audit/review of library by 3rd party

Dependencies

We try to use only a minimal set of dependencies to reduce the attack surface of malicious code being added by one of those dependencies.

There are only 4 (non-dev) dependencies:

3 of those repositories are owned by the bitcoinjs organization, one of them is managed by crypto-browserify.

Credits

The project setup has been inspired by multiple bitcoinjs libraries, such as bip32 and bip39.

LICENSE

MIT

About

JavaScript implementation of Bitcoin BIP85: Deterministic Entropy From BIP32 Keychains

License:MIT License


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