import random import multihash import pytest import base58 from Crypto.PublicKey import RSA from libp2p.peer.id import ID, id_b58_encode, id_b58_decode, id_from_public_key, id_from_private_key ALPHABETS = '123456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghijkmnopqrstuvwxyz' def test_init_(): random_id_string = '' for _ in range(10): random_id_string += random.SystemRandom().choice(ALPHABETS) peer_id = ID(random_id_string) #pylint: disable=protected-access assert peer_id._id_str == random_id_string def test_no_init_value(): with pytest.raises(Exception) as _: #pylint: disable=no-value-for-parameter ID() def test_pretty(): random_id_string = '' for _ in range(10): random_id_string += random.SystemRandom().choice(ALPHABETS) peer_id = ID(random_id_string) actual = peer_id.pretty() expected = base58.b58encode(random_id_string).decode() assert actual == expected def test_str_less_than_10(): random_id_string = '' for _ in range(5): random_id_string += random.SystemRandom().choice(ALPHABETS) pid = base58.b58encode(random_id_string).decode() expected = "" actual = ID(random_id_string).__str__() assert actual == expected def test_str_more_than_10(): random_id_string = '' for _ in range(10): random_id_string += random.SystemRandom().choice(ALPHABETS) pid = base58.b58encode(random_id_string).decode() expected = "" actual = ID(random_id_string).__str__() assert actual == expected def test_eq_true(): random_id_string = '' for _ in range(10): random_id_string += random.SystemRandom().choice(ALPHABETS) other = ID(random_id_string) expected = True actual = ID(random_id_string).__eq__(other) assert actual == expected def test_eq_false(): other = ID("efgh") expected = False actual = ID("abcd").__eq__(other) assert actual == expected def test_hash(): random_id_string = '' for _ in range(10): random_id_string += random.SystemRandom().choice(ALPHABETS) expected = hash(random_id_string) actual = ID(random_id_string).__hash__() assert actual == expected def test_id_b58_encode(): random_id_string = '' for _ in range(10): random_id_string += random.SystemRandom().choice(ALPHABETS) expected = base58.b58encode(random_id_string).decode() actual = id_b58_encode(ID(random_id_string)) assert actual == expected def test_id_b58_decode(): random_id_string = '' for _ in range(10): random_id_string += random.SystemRandom().choice(ALPHABETS) expected = ID(base58.b58decode(random_id_string)) actual = id_b58_decode(random_id_string) assert actual == expected def test_id_from_public_key(): bits_list = [1024, 1280, 1536, 1536, 2048] key = RSA.generate(random.choice(bits_list)) key_bin = key.exportKey("DER") algo = multihash.Func.sha2_256 mh_digest = multihash.digest(key_bin, algo) expected = ID(mh_digest.encode()) actual = id_from_public_key(key) assert actual == expected def test_id_from_private_key(): key = RSA.generate(2048, e=65537) id_from_pub = id_from_public_key(key.publickey()) id_from_priv = id_from_private_key(key) assert id_from_pub == id_from_priv