PyBitmessage-2021-04-27/src/tests/test_crypto.py

"""
Test the alternatives for crypto primitives
"""

import hashlib
import unittest
from abc import ABCMeta, abstractmethod
from binascii import hexlify, unhexlify

from pybitmessage.pyelliptic import arithmetic


try:
    from Crypto.Hash import RIPEMD
except ImportError:
    RIPEMD = None


# These keys are from addresses test script
sample_pubsigningkey = unhexlify(
    '044a367f049ec16cb6b6118eb734a9962d10b8db59c890cd08f210c43ff08bdf09d'
    '16f502ca26cd0713f38988a1237f1fc8fa07b15653c996dc4013af6d15505ce')
sample_pubencryptionkey = unhexlify(
    '044597d59177fc1d89555d38915f581b5ff2286b39d022ca0283d2bdd5c36be5d3c'
    'e7b9b97792327851a562752e4b79475d1f51f5a71352482b241227f45ed36a9')
sample_privsigningkey = \
    '93d0b61371a54b53df143b954035d612f8efa8a3ed1cf842c2186bfd8f876665'
sample_privencryptionkey = \
    '4b0b73a54e19b059dc274ab69df095fe699f43b17397bca26fdf40f4d7400a3a'
sample_ripe = b'003cd097eb7f35c87b5dc8b4538c22cb55312a9f'
# stream: 1, version: 2
sample_address = 'BM-onkVu1KKL2UaUss5Upg9vXmqd3esTmV79'

sample_factor = 66858749573256452658262553961707680376751171096153613379801854825275240965733
# G * sample_factor
sample_point = (
    33567437183004486938355437500683826356288335339807546987348409590129959362313,
    94730058721143827257669456336351159718085716196507891067256111928318063085006
)

_sha = hashlib.new('sha512')
_sha.update(sample_pubsigningkey + sample_pubencryptionkey)

pubkey_sha = _sha.digest()


class RIPEMD160TestCase(object):
    """Base class for RIPEMD160 test case"""
    # pylint: disable=too-few-public-methods,no-member
    __metaclass__ = ABCMeta

    @abstractmethod
    def _hashdigest(self, data):
        """RIPEMD160 digest implementation"""
        pass

    def test_hash_string(self):
        """Check RIPEMD160 hash function on string"""
        self.assertEqual(hexlify(self._hashdigest(pubkey_sha)), sample_ripe)


class TestHashlib(RIPEMD160TestCase, unittest.TestCase):
    """RIPEMD160 test case for hashlib"""
    @staticmethod
    def _hashdigest(data):
        hasher = hashlib.new('ripemd160')
        hasher.update(data)
        return hasher.digest()


@unittest.skipUnless(RIPEMD, 'pycrypto package not found')
class TestCrypto(RIPEMD160TestCase, unittest.TestCase):
    """RIPEMD160 test case for Crypto"""
    @staticmethod
    def _hashdigest(data):
        return RIPEMD.RIPEMD160Hash(data).digest()


class TestAddresses(unittest.TestCase):
    """Test addresses manipulations"""
    def test_base10_multiply(self):
        """Test arithmetic.base10_multiply"""
        self.assertEqual(
            sample_point,
            arithmetic.base10_multiply(arithmetic.G, sample_factor))

    def test_privtopub(self):
        """Generate public keys and check the result"""
        self.assertEqual(
            arithmetic.privtopub(sample_privsigningkey).encode(),
            hexlify(sample_pubsigningkey)
        )
        self.assertEqual(
            arithmetic.privtopub(sample_privencryptionkey).encode(),
            hexlify(sample_pubencryptionkey)
        )

    def test_address(self):
        """Create address and check the result"""
        from pybitmessage import addresses
        from pybitmessage.fallback import RIPEMD160Hash

        sha = hashlib.new('sha512')
        sha.update(sample_pubsigningkey + sample_pubencryptionkey)
        ripe_hash = RIPEMD160Hash(sha.digest()).digest()
        self.assertEqual(ripe_hash, unhexlify(sample_ripe))

        self.assertEqual(
            addresses.encodeAddress(2, 1, ripe_hash), sample_address)

        self.assertEqual(
            addresses.decodeAddress(sample_address),
            ('success', 2, 1, ripe_hash))