from apps.common import HARDENED if False: from typing import Tuple from apps.monero.xmr.types import Sc25519 def get_creds(keychain, address_n=None, network_type=None): from apps.monero.xmr import monero from apps.monero.xmr.credentials import AccountCreds node = keychain.derive(address_n) key_seed = node.private_key() spend_sec, _, view_sec, _ = monero.generate_monero_keys(key_seed) creds = AccountCreds.new_wallet(view_sec, spend_sec, network_type) return creds def validate_full_path(path: list) -> bool: """ Validates derivation path to equal 44'/128'/a', where `a` is an account index from 0 to 1 000 000. """ if len(path) != 3: return False if path[0] != 44 | HARDENED: return False if path[1] != 128 | HARDENED: return False if path[2] < HARDENED or path[2] > 1000000 | HARDENED: return False return True def compute_tx_key( spend_key_private: Sc25519, tx_prefix_hash: bytes, salt: bytes, rand_mult_num: Sc25519, ) -> bytes: from apps.monero.xmr import crypto rand_inp = crypto.sc_add(spend_key_private, rand_mult_num) passwd = crypto.keccak_2hash(crypto.encodeint(rand_inp) + tx_prefix_hash) tx_key = crypto.compute_hmac(salt, passwd) return tx_key def compute_enc_key_host( view_key_private: Sc25519, tx_prefix_hash: bytes ) -> Tuple[bytes, bytes]: from apps.monero.xmr import crypto salt = crypto.random_bytes(32) passwd = crypto.keccak_2hash(crypto.encodeint(view_key_private) + tx_prefix_hash) tx_key = crypto.compute_hmac(salt, passwd) return tx_key, salt