from common import * from apps.common import HARDENED, coins from apps.common.seed import Keychain, Slip21Node, _path_hardened from apps.wallet.sign_tx import scripts, addresses from trezor import wire from trezor.crypto import bip39 from trezor.crypto.curve import secp256k1 class TestKeychain(unittest.TestCase): def test_match_path(self): n = [ ("ed25519", [44 | HARDENED, 134 | HARDENED]), ("secp256k1", [44 | HARDENED, 11 | HARDENED]), ] k = Keychain(b"", n) correct = ( ([44 | HARDENED, 134 | HARDENED], "ed25519"), ([44 | HARDENED, 11 | HARDENED], "secp256k1"), ([44 | HARDENED, 11 | HARDENED, 12], "secp256k1"), ) for path, curve in correct: i, suffix = k.match_path(path) ns_curve, ns = k.namespaces[i] self.assertEqual(curve, ns_curve) fails = [ [44 | HARDENED, 134], # path does not match [44, 134], # path does not match (non-hardened items) [44 | HARDENED, 134 | HARDENED, 123], # non-hardened item in ed25519 ns [44 | HARDENED, 13 | HARDENED], # invalid second item ] for f in fails: with self.assertRaises(wire.DataError): k.match_path(f) def test_match_path_special_ed25519(self): n = [ ("ed25519-keccak", [44 | HARDENED, 134 | HARDENED]), ] k = Keychain(b"", n) correct = ( [44 | HARDENED, 134 | HARDENED], ) for c in correct: k.match_path(c) fails = [ [44 | HARDENED, 134 | HARDENED, 1], ] for f in fails: with self.assertRaises(wire.DataError): k.match_path(f) def test_match_path_empty_namespace(self): k = Keychain(b"", [("secp256k1", [])]) correct = ( [], [1, 2, 3, 4], [44 | HARDENED, 11 | HARDENED], [44 | HARDENED, 11 | HARDENED, 12], ) for c in correct: k.match_path(c) def test_path_hardened(self): self.assertTrue(_path_hardened([44 | HARDENED, 1 | HARDENED, 0 | HARDENED])) self.assertTrue(_path_hardened([0 | HARDENED, ])) self.assertFalse(_path_hardened([44, 44 | HARDENED, 0 | HARDENED])) self.assertFalse(_path_hardened([0, ])) self.assertFalse(_path_hardened([44 | HARDENED, 1 | HARDENED, 0 | HARDENED, 0 | HARDENED, 0])) def test_slip21(self): seed = bip39.seed(' '.join(['all'] * 12), '') node1 = Slip21Node(seed) node2 = node1.clone() keychain = Keychain(seed, [("slip21", [b"SLIP-0021"])]) # Key(m) KEY_M = unhexlify(b"dbf12b44133eaab506a740f6565cc117228cbf1dd70635cfa8ddfdc9af734756") self.assertEqual(node1.key(), KEY_M) # Key(m/"SLIP-0021") KEY_M_SLIP0021 = unhexlify(b"1d065e3ac1bbe5c7fad32cf2305f7d709dc070d672044a19e610c77cdf33de0d") node1.derive_path([b"SLIP-0021"]) self.assertEqual(node1.key(), KEY_M_SLIP0021) keychain.match_path([b"SLIP-0021"]) self.assertEqual(keychain.derive([b"SLIP-0021"]).key(), KEY_M_SLIP0021) # Key(m/"SLIP-0021"/"Master encryption key") KEY_M_SLIP0021_MEK = unhexlify(b"ea163130e35bbafdf5ddee97a17b39cef2be4b4f390180d65b54cf05c6a82fde") node1.derive_path([b"Master encryption key"]) self.assertEqual(node1.key(), KEY_M_SLIP0021_MEK) keychain.match_path([b"SLIP-0021", b"Master encryption key"]) self.assertEqual(keychain.derive([b"SLIP-0021", b"Master encryption key"]).key(), KEY_M_SLIP0021_MEK) # Key(m/"SLIP-0021"/"Authentication key") KEY_M_SLIP0021_AK = unhexlify(b"47194e938ab24cc82bfa25f6486ed54bebe79c40ae2a5a32ea6db294d81861a6") node2.derive_path([b"SLIP-0021", b"Authentication key"]) self.assertEqual(node2.key(), KEY_M_SLIP0021_AK) keychain.match_path([b"SLIP-0021", b"Authentication key"]) self.assertEqual(keychain.derive([b"SLIP-0021", b"Authentication key"]).key(), KEY_M_SLIP0021_AK) # Forbidden paths. with self.assertRaises(wire.DataError): self.assertFalse(keychain.match_path([])) with self.assertRaises(wire.DataError): self.assertFalse(keychain.match_path([b"SLIP-9999", b"Authentication key"])) with self.assertRaises(wire.DataError): keychain.derive([b"SLIP-9999", b"Authentication key"]).key() if __name__ == '__main__': unittest.main()