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trezor-firmware/core/tests/test_apps.cardano.address.py

311 lines
16 KiB
Python

from common import *
from apps.common import seed
from apps.common import HARDENED
from trezor.crypto import bip32, slip39
if not utils.BITCOIN_ONLY:
from apps.cardano.address import (
_get_address_root,
_address_hash,
validate_full_path,
derive_address_and_node
)
from apps.cardano.seed import Keychain
@unittest.skipUnless(not utils.BITCOIN_ONLY, "altcoin")
class TestCardanoAddress(unittest.TestCase):
def test_hardened_address_derivation_scheme(self):
mnemonic = "all all all all all all all all all all all all"
passphrase = ""
node = bip32.from_mnemonic_cardano(mnemonic, passphrase)
node.derive_cardano(0x80000000 | 44)
node.derive_cardano(0x80000000 | 1815)
keychain = Keychain(node)
addresses = [
"Ae2tdPwUPEZ98eHFwxSsPBDz73amioKpr58Vw85mP1tMkzq8siaftiejJ3j",
"Ae2tdPwUPEZKA971NCHuHqaEnxZDFWPzH3fEsLpDnbEpG6UeMRHnRzCzEwK",
"Ae2tdPwUPEZL9Ag1ouS4b1zjuPxKpvEUgjpVpG1KQFs5pNewQb65F1WXVQ2",
]
for i, expected in enumerate(addresses):
# 44'/1815'/0'/0/i'
address, _ = derive_address_and_node(keychain, [0x80000000 | 44, 0x80000000 | 1815, 0x80000000, 0, 0x80000000 + i])
self.assertEqual(expected, address)
nodes = [
(
b"3881a8de77d069001010d7f7d5211552e7d539b0e253add710367f95e528ed51",
b"9b77608b38e0a0c7861aa234557c81482f42aae2d17993a8ddaec1868fb04d60",
b"a938c8554ae04616cfaae7cd0eb557475082c4e910242ce774967e0bd7492408",
b"cbf6ab47c8eb1a0477fc40b25dbb6c4a99454edb97d6fe5acedd3e238ef46fe0"
),
(
b"3003aca659846540b9ed04f2b844f2d8ea964856ca38a7dffedef4f6e528ed51",
b"8844ccc81d633e1c7126f30c2524c1652617cf58da755014070215bf5070ba38",
b"be28c00ed6cb9b70310f78028f8e3a2db935baf482d84afa590b0b5b864571cc",
b"584b4631d752023a249e980779517280e6c0b3ac7a7f27c6e9456bfd228ca60b"
),
(
b"68e4482add0a741e14c8f2306bf83206a623e3729dd24175915eedece428ed51",
b"3165a80c5efe846224d46a0427cdb2be4f31ea3585c51f4131faefc4328ad95a",
b"9a32499976ffb582daa9988dfc42a303de5ed00c320c929f496be3c6eb1cf405",
b"da07ca30a3d1c5fe3c34ce5fa197722446a646624a10bdf8889a4b9c347b2ef2"
),
]
for i, (priv, ext, pub, chain) in enumerate(nodes):
_, n = derive_address_and_node(keychain, [0x80000000 | 44, 0x80000000 | 1815, 0x80000000, 0, 0x80000000 + i])
self.assertEqual(hexlify(n.private_key()), priv)
self.assertEqual(hexlify(n.private_key_ext()), ext)
self.assertEqual(hexlify(seed.remove_ed25519_prefix(n.public_key())), pub)
self.assertEqual(hexlify(n.chain_code()), chain)
def test_non_hardened_address_derivation_scheme(self):
mnemonic = "all all all all all all all all all all all all"
passphrase = ""
node = bip32.from_mnemonic_cardano(mnemonic, passphrase)
node.derive_cardano(0x80000000 | 44)
node.derive_cardano(0x80000000 | 1815)
keychain = Keychain(node)
addresses = [
"Ae2tdPwUPEZ5YUb8sM3eS8JqKgrRLzhiu71crfuH2MFtqaYr5ACNRdsswsZ",
"Ae2tdPwUPEZJb8r1VZxweSwHDTYtqeYqF39rZmVbrNK62JHd4Wd7Ytsc8eG",
"Ae2tdPwUPEZFm6Y7aPZGKMyMAK16yA5pWWKU9g73ncUQNZsAjzjhszenCsq",
]
for i, expected in enumerate(addresses):
# 44'/1815'/0'/0/i
address, _ = derive_address_and_node(keychain, [0x80000000 | 44, 0x80000000 | 1815, 0x80000000, 0, i])
self.assertEqual(address, expected)
nodes = [
(
b"d03ba81163fd55af97bd132bf651a0da5b5e6201b15b1caca60b0be8e028ed51",
b"493f44aa8d25fe0d3fe2935c76ea6b3e9e41c79e9dbcbe7131357c5aa1b6cac5",
b"b90fb812a2268e9569ff1172e8daed1da3dc7e72c7bded7c5bcb7282039f90d5",
b"fd8e71c1543de2cdc7f7623130c5f2cceb53549055fa1f5bc88199989e08cce7"
),
(
b"08b6438c8dd49d34b71c8e914d6ac3184e5ab3dcc8af023d08503a7edf28ed51",
b"3fee605fdfaddc1ee2ea0b246b02c9abc54ad741054bc83943e8b21487b5a053",
b"89053545a6c254b0d9b1464e48d2b5fcf91d4e25c128afb1fcfc61d0843338ea",
b"26308151516f3b0e02bb1638142747863c520273ce9bd3e5cd91e1d46fe2a635"
),
(
b"088f0275bf4a1bd18f08d7ef06c6ddb6ce7e3dc415fb4e89fe21bf39e628ed51",
b"4c44563c7df519ea9b4d1801c1ab98b449db28b87f1c3837759c20f68c4c1e65",
b"52548cb98e6f46a592bdf7f3598a9abc0126c78dfa3f46d1894ee52a5213e833",
b"91af0668ee449e613e61bbb2482e5ddee1d9b15785727ec3e362c36861bff923"
),
]
for i, (priv, ext, pub, chain) in enumerate(nodes):
_, n = derive_address_and_node(keychain, [0x80000000 | 44, 0x80000000 | 1815, 0x80000000, 0, i])
self.assertEqual(hexlify(n.private_key()), priv)
self.assertEqual(hexlify(n.private_key_ext()), ext)
self.assertEqual(hexlify(seed.remove_ed25519_prefix(n.public_key())), pub)
self.assertEqual(hexlify(n.chain_code()), chain)
def test_root_address_derivation_scheme(self):
mnemonic = "all all all all all all all all all all all all"
passphrase = ""
node = bip32.from_mnemonic_cardano(mnemonic, passphrase)
node.derive_cardano(0x80000000 | 44)
node.derive_cardano(0x80000000 | 1815)
keychain = Keychain(node)
# 44'/1815'
address, _ = derive_address_and_node(keychain, [0x80000000 | 44, 0x80000000 | 1815])
self.assertEqual(address, "Ae2tdPwUPEZ2FGHX3yCKPSbSgyuuTYgMxNq652zKopxT4TuWvEd8Utd92w3")
priv, ext, pub, chain = (
b"204ec79cbb6502a141de60d274962010c7f1c94a2987b26506433184d228ed51",
b"975cdd1c8610b44701567f05934c45c8716064263ccfe72ed2167ccb705c09b6",
b"8c47ebce34234d04fd3dfbac33feaba6133e4e3d77c4b5ab18120ec6878ad4ce",
b"02ac67c59a8b0264724a635774ca2c242afa10d7ab70e2bf0a8f7d4bb10f1f7a"
)
_, n = derive_address_and_node(keychain, [0x80000000 | 44, 0x80000000 | 1815])
self.assertEqual(hexlify(n.private_key()), priv)
self.assertEqual(hexlify(n.private_key_ext()), ext)
self.assertEqual(hexlify(seed.remove_ed25519_prefix(n.public_key())), pub)
self.assertEqual(hexlify(n.chain_code()), chain)
def test_address_hash(self):
data = [0, [0, b"}\x1d\xe3\xf2/S\x90M\x00\x7f\xf83\xfa\xdd|\xd6H.\xa1\xe89\x18\xb9\x85\xb4\xea3\xe6<\x16\xd1\x83z\x04\xa6\xaa\xb0\xed\x12\xafV*&\xdbM\x104DT'M\x0b\xfan5\x81\xdf\x1d\xc0/\x13\xc5\xfb\xe5"], {}]
result = _address_hash(data)
self.assertEqual(result, b'\x1c\xca\xee\xc9\x80\xaf}\xb0\x9a\xa8\x96E\xd6\xa4\xd1\xb4\x13\x85\xb9\xc2q\x1d5/{\x12"\xca')
def test_paths(self):
incorrect_derivation_paths = [
[HARDENED | 44],
[HARDENED | 44, HARDENED | 1815, HARDENED | 1815, HARDENED | 1815, HARDENED | 1815, HARDENED | 1815],
[HARDENED | 43, HARDENED | 1815, HARDENED | 1815, HARDENED | 1815, HARDENED | 1815],
[HARDENED | 44, HARDENED | 1816, HARDENED | 1815, HARDENED | 1815, HARDENED | 1815],
[HARDENED | 44, HARDENED | 1815, 0],
[HARDENED | 44, HARDENED | 1815, 0, 0],
[HARDENED | 44, HARDENED | 1815],
[HARDENED | 44, HARDENED | 1815, HARDENED | 0],
[HARDENED | 44, HARDENED | 1815, HARDENED | 1815, 1, 1],
[HARDENED | 44, HARDENED | 1815, HARDENED | 1815, 0, 0], # a too large
]
correct_derivation_paths = [
[HARDENED | 44, HARDENED | 1815, HARDENED | 0, 0, 1],
[HARDENED | 44, HARDENED | 1815, HARDENED | 9, 0, 4],
[HARDENED | 44, HARDENED | 1815, HARDENED | 0, 0, 9],
[HARDENED | 44, HARDENED | 1815, HARDENED | 0, 1, 1],
[HARDENED | 44, HARDENED | 1815, HARDENED | 0, 1, 9],
]
for path in incorrect_derivation_paths:
self.assertFalse(validate_full_path(path))
for path in correct_derivation_paths:
self.assertTrue(validate_full_path(path))
def test_get_address_root_scheme(self):
mnemonic = "all all all all all all all all all all all all"
passphrase = ""
root_node = bip32.from_mnemonic_cardano(mnemonic, passphrase)
address_root = _get_address_root(root_node, {1: b'X\x1cr,zu\x81?\xaf\xde\x9f\xf9\xe4\xd4\x90\xadH$\xe9\xf3\x88\x16\xcb\xd2)\x02M\x0c#\xde'})
self.assertEqual(address_root, b'\xb3\xbbS\xa8;uN:E=\xe8\xe5\x9c\x18\xbcn\xcf\xd0c\xba\x0e\xba\xaelL}\xba\xbb')
def test_slip39_128(self):
mnemonics = [
"extra extend academic bishop cricket bundle tofu goat apart victim "
"enlarge program behavior permit course armed jerky faint language modern",
"extra extend academic acne away best indicate impact square oasis "
"prospect painting voting guest either argue username racism enemy eclipse",
"extra extend academic arcade born dive legal hush gross briefing "
"talent drug much home firefly toxic analysis idea umbrella slice"
]
passphrase = b"TREZOR"
identifier, exponent, ems = slip39.recover_ems(mnemonics)
master_secret = slip39.decrypt(ems, passphrase, exponent, identifier)
node = bip32.from_seed(master_secret, "ed25519 cardano seed")
# Check root node.
root_priv = b"c0fe4a6973df4de06262693fc9186f71faf292960350882d49456bf108d13954"
root_ext = b"4064253ffefc4127489bce1b825a47329010c5afb4d21154ef949ef786204405"
root_pub = b"83e3ecaf57f90f022c45e10d1b8cb78499c30819515ad9a81ad82139fdb12a90"
root_chain = b"22c12755afdd192742613b3062069390743ea232bc1b366c8f41e37292af9305"
self.assertEqual(hexlify(node.private_key()), root_priv)
self.assertEqual(hexlify(node.private_key_ext()), root_ext)
self.assertEqual(hexlify(seed.remove_ed25519_prefix(node.public_key())), root_pub)
self.assertEqual(hexlify(node.chain_code()), root_chain)
# Check derived nodes and addresses.
node.derive_cardano(0x80000000 | 44)
node.derive_cardano(0x80000000 | 1815)
keychain = Keychain(node)
nodes = [
(
"Ae2tdPwUPEYxF9NAMNdd3v2LZoMeWp7gCZiDb6bZzFQeeVASzoP7HC4V9s6",
b"e0acfe234aa6e1219ce7d3d8d91853e0808bab92ecb8a0ff0f345ff31ad13954",
b"ff89dc71365c4b67bb7bb75d566e65b8a95f16e4d70cce51c25937db15614530",
b"bc043d84b8b891d49890edb6aced6f2d78395f255c5b6aea8878b913f83e8579",
b"dc3f0d2b5cccb822335ef6213fd133f4ca934151ec44a6000aee43b8a101078c",
),
(
"Ae2tdPwUPEZ1TjYcvfkWAbiHtGVxv4byEHHZoSyQXjPJ362DifCe1ykgqgy",
b"d0ce3e7a6445bc91801319b9bbaf47fdfca9364257295fb13bc5046a20d13954",
b"c800359abdc875944754ae7368bab7ef75184d48816c368f5a28af4bcf1d1ee8",
b"24c4fe188a39103db88818bc191fd8571eae7b284ebcbdf2462bde97b058a95c",
b"6f7a744035f4b3ddb8f861c18446169643cc3ae85e271b4b4f0eda05cf84c65b",
),
(
"Ae2tdPwUPEZGXmSbda1kBNfyhRQGRcQxJFdk7mhWZXAGnapyejv2b2U3aRb",
b"e8320644cce22a6e9fc33865fc5a598b1cda061c47a548aead3af4ed1cd13954",
b"9e2ece5d7fe8119cb76090009be926a84fc5d3b95855b5962ffe2f880836cf09",
b"831a63d381a8dab1e6e1ee991a4300fc70687aae5f97f4fcf92ed1b6c2bd99de",
b"672d6af4707aba201b7940231e83dd357f92f8851b3dfdc224ef311e1b64cdeb"
)
]
for i, (address, priv, ext, pub, chain) in enumerate(nodes):
# 44'/1815'/0'/0/i
a, n = derive_address_and_node(keychain, [0x80000000 | 44, 0x80000000 | 1815, 0x80000000, 0, i])
self.assertEqual(a, address)
self.assertEqual(hexlify(n.private_key()), priv)
self.assertEqual(hexlify(n.private_key_ext()), ext)
self.assertEqual(hexlify(seed.remove_ed25519_prefix(n.public_key())), pub)
self.assertEqual(hexlify(n.chain_code()), chain)
def test_slip39_256(self):
mnemonics = [
"hobo romp academic axis august founder knife legal recover alien expect "
"emphasis loan kitchen involve teacher capture rebuild trial numb spider forward "
"ladle lying voter typical security quantity hawk legs idle leaves gasoline",
"hobo romp academic agency ancestor industry argue sister scene midst graduate "
"profile numb paid headset airport daisy flame express scene usual welcome "
"quick silent downtown oral critical step remove says rhythm venture aunt"
]
passphrase = b"TREZOR"
identifier, exponent, ems = slip39.recover_ems(mnemonics)
master_secret = slip39.decrypt(ems, passphrase, exponent, identifier)
node = bip32.from_seed(master_secret, "ed25519 cardano seed")
# Check root node.
root_priv = b"90633724b5daf770a8b420b8658e7d8bc21e066b60ec8cd4d5730681cc294e4f"
root_ext = b"f9d99bf3cd9c7e12663e8646afa40cb3aecf15d91f2abc15d21056c6bccb3414"
root_pub = b"eea170f0ef97b59d22907cb429888029721ed67d3e7a1b56b81731086ab7db64"
root_chain = b"04f1de750b62725fcc1ae1b93ca4063acb53c486b959cadaa100ebd7828e5460"
self.assertEqual(hexlify(node.private_key()), root_priv)
self.assertEqual(hexlify(node.private_key_ext()), root_ext)
self.assertEqual(hexlify(seed.remove_ed25519_prefix(node.public_key())), root_pub)
self.assertEqual(hexlify(node.chain_code()), root_chain)
# Check derived nodes and addresses.
node.derive_cardano(0x80000000 | 44)
node.derive_cardano(0x80000000 | 1815)
keychain = Keychain(node)
nodes = [
(
"Ae2tdPwUPEYyDD1C2FbVJFAE3FuAxLspfMYt29TJ1urnSKr57cVhEcioSCC",
b"38e8a4b17ca07b6a309f1cee83f87593e34a1fc3a289785ea451ef65df294e4f",
b"405d10ef71c2b0019250d11837de8db825d8556bf1e57f8866920af6d8c90002",
b"967a9a041ad1379e31c2c7f2aa4bc2b3f7769341c0ea89ccfb12a904f2e10877",
b"7b15d8d9006afe3cd7e04f375a1126a8c7c7c07c59a6f0c5b0310f4245f4edbb",
),
(
"Ae2tdPwUPEZHJGtyz47F6wD7qAegt1JNRJWuiE36QLvFzeqJPBZ2EBvhr8M",
b"a09f90e3f76a7bdb7f8721cc0c142dbd6398fd704b83455e123fa886dc294e4f",
b"917e4166bb404def9f12634e84ecbcb98afdea051ba7c38745e208178a9e9baf",
b"6f3805bbc1b7a75afa95dffec331671f3c4662800615e80d2ec1202a9d874c86",
b"44baf30fd549e6a1e05f99c2a2c8971aea8894ee8d9c5fc2c5ae6ee839a56b2d",
),
(
"Ae2tdPwUPEYxD9xNPBJTzYmtFVVWEPB6KW4TCDijQ4pDwU11wt5621PyCi4",
b"78dd824aea33bed5c1502d1a17f11a4adbe923aac1cd1f7ae98c9506db294e4f",
b"ddfe7f27e2894b983df773d8ac2a07973fc37ff36e93a2f2d71fb7327d4e18f4",
b"7f145b50ef07fb9accc40ee07a01fe93ceb6fa07d5a9f20fc3c8a48246dd4d02",
b"e67d2864614ada5eec8fb8ee1225a94a6fb0a1b3c347c854ec3037351c6a0fc7",
)
]
for i, (address, priv, ext, pub, chain) in enumerate(nodes):
# 44'/1815'/0'/0/i
a, n = derive_address_and_node(keychain, [0x80000000 | 44, 0x80000000 | 1815, 0x80000000, 0, i])
self.assertEqual(a, address)
self.assertEqual(hexlify(n.private_key()), priv)
self.assertEqual(hexlify(n.private_key_ext()), ext)
self.assertEqual(hexlify(seed.remove_ed25519_prefix(n.public_key())), pub)
self.assertEqual(hexlify(n.chain_code()), chain)
if __name__ == '__main__':
unittest.main()