38b385969b
- Removes need for bundlers to polyfill the `Buffer` class. `UInt8Array` are used instead which are native to the browser and node. - Reduces bundle size 7.1kb gzipped and eliminates 4 runtime dependencies: `base-x`, `base64-js`, `buffer`, and `ieee754`. BREAKING CHANGE: All methods that previously took a `Buffer` now accept a `UInt8Array`. --------- Co-authored-by: Jackson Mills <jmills@ripple.com>
ripple-keypairs 
An implementation of XRP Ledger keypairs & wallet generation using elliptic which supports rfc6979 and eddsa deterministic signatures.
API Methods
generateSeed({entropy?: Array<integer>, algorithm?: string}) -> string
Generate a seed that can be used to generate keypairs. Entropy can be provided as an array of bytes expressed as integers in the range 0-255. If provided, it must be 16 bytes long (additional bytes are ignored). If not provided, entropy will be automatically generated. The "algorithm" defaults to "ecdsa-secp256k1", but can also be set to "ed25519". The result is a seed encoded in base58, starting with "s".
deriveKeypair(seed: string) -> {privateKey: string, publicKey: string}
Derive a public and private key from a seed. The keys are represented as 33-byte hexadecimal strings.
sign(messageHex: string, privateKey: string) -> string
Sign an arbitrary hex-encoded message with a private key. Returns the signature as a hexadecimal string.
verify(messageHex: string, signature: string, publicKey: string) -> boolean
Verify a signature for a given hex-encoded message and public key. Returns true if the signature is valid, false otherwise.
deriveAddress(publicKey: string) -> string
Derive an XRP Ledger classic address from a public key.
deriveNodeAddress(publicKey: string) -> string
Derive a node address from a public key.
Generate a random XRP Ledger address
const seed = generateSeed();
const keypair = deriveKeypair(seed);
const address = deriveAddress(keypair.publicKey);