extern crate digibyte; use std::{env, process}; use std::str::FromStr; use digibyte::secp256k1::Secp256k1; use digibyte::util::key::PrivateKey; use digibyte::util::bip32::ExtendedPrivKey; use digibyte::util::bip32::ExtendedPubKey; use digibyte::util::bip32::DerivationPath; use digibyte::util::bip32::ChildNumber; use digibyte::util::address::Address; fn main() { // This example derives root xprv // from a 32-byte secret of the input WIF string, // derives the child xprv with path m/84h/0h/0h, // prints out corresponding xpub, // calculates and prints out the first receiving segwit address. // Run this example with cargo and WIF argument: // cargo run --example bip32 L1HKVVLHXiUhecWnwFYF6L3shkf1E12HUmuZTESvBXUdx3yqVP1D let args: Vec = env::args().collect(); if args.len() < 2 { eprintln!("not enough arguments. usage: {} ", &args[0]); process::exit(1); } let wif = PrivateKey::from_wif(&args[1]).unwrap(); println!("Seed WIF: {}", wif); // use the network from WIF key let network = wif.network; println!("Network: {:?}", network); // seed is a 32-byte secret in WIF let seed = wif.to_bytes(); // we need secp256k1 context for key derivation let secp = Secp256k1::new(); // calculate root key from seed let root = ExtendedPrivKey::new_master(network, &seed).unwrap(); println!("Root key: {}", root); // derive child xpub let path = DerivationPath::from_str("m/84h/0h/0h").unwrap(); let child = root.derive_priv(&secp, &path).unwrap(); println!("Child at {}: {}", path, child); let xpub = ExtendedPubKey::from_private(&secp, &child); println!("Public key at {}: {}", path, xpub); // generate first receiving address at m/0/0 // manually creating indexes this time let zero = ChildNumber::from_normal_idx(0).unwrap(); let public_key = xpub.derive_pub(&secp, &vec![zero, zero]) .unwrap() .public_key; let address = Address::p2wpkh(&public_key, network).unwrap(); println!("First receiving address: {}", address); }