Crate coins_bip32

source ·
Expand description

This crate provides a basic implementation of BIP32, BIP49, and BIP84. It can be easily adapted to support other networks, using the paramaterizable encoder.

Typically, users will want to use the MainnetEncoder, DerivedXPub, DerivedXPriv types, which are available at the crate root. If key derivations are unknown, use the XPub and XPriv objects instead. These may be deserialized using a network-specific Encoder from the enc module.

Useful traits will need to be imported from the enc or model modules. We also provide a prelude module with everything you need to get started.

§Warnings:

  • This crate is NOT designed to be used in adversarial environments.
  • This crate has NOT had a comprehensive security review.

§Usage

use coins_bip32::prelude::*;

let digest = coins_core::Hash256::default();

let xpriv_str = "xprv9s21ZrQH143K3QTDL4LXw2F7HEK3wJUD2nW2nRk4stbPy6cq3jPPqjiChkVvvNKmPGJxWUtg6LnF5kejMRNNU3TGtRBeJgk33yuGBxrMPHi".to_owned();

let xpriv: XPriv = xpriv_str.parse().unwrap();

let child_xpriv = xpriv.derive_child(33)?;
let (sig, _recovery_id): (Signature, RecoveryId) = child_xpriv.sign_digest(digest.clone());

// Signing key types are associated with verifying key types. You can always derive a pubkey
let child_xpub = child_xpriv.verify_key();
child_xpub.verify_digest(digest.clone(), &sig)?;

MainnetEncoder::xpub_to_base58(&child_xpub)?;

Modules§

  • Provides keys that are coupled with their derivation path
  • Elliptic Curve Digital Signature Algorithm (ECDSA).
  • Network-differentiated encoders for extended keys.
  • DerivationPath type and tooling for parsing it from strings
  • Quickstart types and traits
  • Low-level types
  • Extended keys and related functionality

Enums§

Constants§

  • The hardened derivation flag. Keys at or above this index are hardened.