# standard imports import logging # external imports import coincurve import sha3 from hexathon import ( strip_0x, uniform, ) logg = logging.getLogger(__name__) def private_key_to_address(pk, result_format='hex'): pubk = coincurve.PublicKey.from_secret(pk.secret) logg.debug('secret {} '.format(pk.secret.hex())) pubk_bytes = pubk.format(compressed=False) h = sha3.keccak_256() logg.debug('public key bytes {}'.format(pubk_bytes.hex())) h.update(pubk_bytes[1:]) z = h.digest()[12:] if result_format == 'hex': return to_checksum_address(z[:20].hex()) elif result_format == 'bytes': return z[:20] raise ValueError('invalid result format "{}"'.format(result_format)) def is_address(address_hex): try: address_hex = strip_0x(address_hex) except ValueError: return False return len(address_hex) == 40 def is_checksum_address(address_hex): hx = None try: hx = to_checksum(address_hex) except ValueError: return False return hx == address_hex def to_checksum_address(address_hex): address_hex = strip_0x(address_hex) address_hex = uniform(address_hex) if len(address_hex) != 40: raise ValueError('Invalid address length') h = sha3.keccak_256() h.update(address_hex.encode('utf-8')) z = h.digest() checksum_address_hex = '0x' for (i, c) in enumerate(address_hex): if c in '1234567890': checksum_address_hex += c elif c in 'abcdef': if z[int(i / 2)] & (0x80 >> ((i % 2) * 4)) > 1: checksum_address_hex += c.upper() else: checksum_address_hex += c return checksum_address_hex to_checksum = to_checksum_address