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trezor-firmware/tests/test_apps.nem.address.py
Tomas Susanka 31f987e988 coins: validate derivation paths
Based on SLIP-44 ids and other checks. See docs/coins/README for info.
2018-11-12 12:10:32 +01:00

80 lines
3.8 KiB
Python

from common import *
from ubinascii import unhexlify
from trezor.crypto import nem
from apps.common import HARDENED
from apps.nem.helpers import check_path, NEM_NETWORK_MAINNET, NEM_NETWORK_TESTNET
class TestNemAddress(unittest.TestCase):
def test_addresses(self):
pubkey = unhexlify('c5f54ba980fcbb657dbaaa42700539b207873e134d2375efeab5f1ab52f87844')
address = nem.compute_address(pubkey, NEM_NETWORK_MAINNET)
self.assertEqual(address, 'NDD2CT6LQLIYQ56KIXI3ENTM6EK3D44P5JFXJ4R4')
pubkey = unhexlify('114171230ad6f8522a000cdc73fbc5c733b30bb71f2b146ccbdf34499f79a810')
address = nem.compute_address(pubkey, NEM_NETWORK_MAINNET)
self.assertEqual(address, 'NCUKWDY3J3THKQHAKOK5ALF6ANJQABZHCH7VN6DP')
def test_validate_address(self):
validity = nem.validate_address('NDD2CT6LQLIYQ56KIXI3ENTM6EK3D44P5JFXJ4R4', NEM_NETWORK_MAINNET)
self.assertTrue(validity)
validity = nem.validate_address('NCUKWDY3J3THKQHAKOK5ALF6ANJQABZHCH7VN6DP', NEM_NETWORK_MAINNET)
self.assertTrue(validity)
validity = nem.validate_address('TAU5HO3DRQZNELFEMZZTUKQEZGQ7IUAHKPO7OOLK', NEM_NETWORK_TESTNET)
self.assertTrue(validity)
validity = nem.validate_address('nope', NEM_NETWORK_TESTNET)
self.assertFalse(validity)
# not valid on testnet
validity = nem.validate_address('NCUKWDY3J3THKQHAKOK5ALF6ANJQABZHCH7VN6DP', NEM_NETWORK_TESTNET)
self.assertFalse(validity)
def test_paths(self):
# 44'/43'/0'/0'/0'
self.assertTrue(check_path([44 | HARDENED, 43 | HARDENED, 0 | HARDENED, 0 | HARDENED, 0 | HARDENED]))
# 44'/43'/0'/0'/0'
self.assertTrue(check_path([44 | HARDENED, 43 | HARDENED, 3 | HARDENED, 0 | HARDENED, 0 | HARDENED]))
# 44'/1'/0'/0'/0' testnet
self.assertTrue(check_path([44 | HARDENED, 1 | HARDENED, 3 | HARDENED, 0 | HARDENED, 0 | HARDENED], network=0x98))
# 44'/43'/0'
self.assertTrue(check_path([44 | HARDENED, 43 | HARDENED, 0 | HARDENED]))
# 44'/43'/2'
self.assertTrue(check_path([44 | HARDENED, 43 | HARDENED, 2 | HARDENED]))
# 44'/1'/0' testnet
self.assertTrue(check_path([44 | HARDENED, 1 | HARDENED, 0 | HARDENED], network=0x98))
# 44'/43'/0'/0'/1'
self.assertFalse(check_path([44 | HARDENED, 43 | HARDENED, 0 | HARDENED, 0 | HARDENED, 1 | HARDENED]))
# 44'/43'/0'/1'/1'
self.assertFalse(check_path([44 | HARDENED, 43 | HARDENED, 0 | HARDENED, 1 | HARDENED, 1 | HARDENED]))
# 44'/43'/0'/1'/0'
self.assertFalse(check_path([44 | HARDENED, 43 | HARDENED, 0 | HARDENED, 1 | HARDENED, 0 | HARDENED]))
# 44'/43'/99999'/0'/0'
self.assertFalse(check_path([44 | HARDENED, 43 | HARDENED, 99999000 | HARDENED, 0 | HARDENED, 0 | HARDENED]))
# 44'/99'/0'/0'/0'
self.assertFalse(check_path([44 | HARDENED, 99 | HARDENED, 0 | HARDENED, 0 | HARDENED, 0 | HARDENED]))
# 1'/43'/0'/0'/0'
self.assertFalse(check_path([1 | HARDENED, 43 | HARDENED, 0 | HARDENED, 0 | HARDENED, 0 | HARDENED]))
# 44'/43'/0'/0/0
self.assertFalse(check_path([44 | HARDENED, 43 | HARDENED, 0 | HARDENED, 0, 0]))
# 44'/43'/0'/0/5
self.assertFalse(check_path([44 | HARDENED, 43 | HARDENED, 0 | HARDENED, 0, 5]))
# 44'/1'/3'/0'/1' testnet
self.assertFalse(check_path([44 | HARDENED, 1 | HARDENED, 3 | HARDENED, 0 | HARDENED, 1 | HARDENED], network=0x98))
# 44'/43'/0/0/1
self.assertFalse(check_path([44 | HARDENED, 43 | HARDENED, 0, 0, 1]))
# 44'/43'/0/0/0
self.assertFalse(check_path([44 | HARDENED, 43 | HARDENED, 0, 0, 0]))
# 44'/43'/0/0'/0'
self.assertFalse(check_path([44 | HARDENED, 43 | HARDENED, 0, 0 | HARDENED, 0 | HARDENED]))
if __name__ == '__main__':
unittest.main()