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trezor-firmware/core/tests/test_apps.ethereum.definitions.py

256 lines
9.8 KiB
Python

from common import *
import unittest
import typing as t
from trezor import utils, wire
from ubinascii import hexlify # noqa: F401
if not utils.BITCOIN_ONLY:
from apps.ethereum import networks, tokens
from apps.ethereum.definitions import decode_definition, Definitions
from ethereum_common import *
from trezor import protobuf
from trezor.enums import EthereumDefinitionType
from trezor.messages import (
EthereumDefinitions,
EthereumNetworkInfo,
EthereumTokenInfo,
EthereumSignTx,
EthereumSignTxEIP1559,
EthereumSignTypedData,
)
TETHER_ADDRESS = b"\xda\xc1\x7f\x95\x8d\x2e\xe5\x23\xa2\x20\x62\x06\x99\x45\x97\xc1\x3d\x83\x1e\xc7"
@unittest.skipUnless(not utils.BITCOIN_ONLY, "altcoin")
class TestDecodeDefinition(unittest.TestCase):
def test_short_message(self):
with self.assertRaises(wire.DataError):
decode_definition(b"\x00", EthereumNetworkInfo)
with self.assertRaises(wire.DataError):
decode_definition(b"\x00", EthereumTokenInfo)
# successful decode network
def test_network_definition(self):
network = make_network(chain_id=42, slip44=69, symbol="FAKE", name="Fakenet")
encoded = encode_network(network)
try:
self.assertEqual(decode_definition(encoded, EthereumNetworkInfo), network)
except Exception as e:
print(e.message)
# successful decode token
def test_token_definition(self):
token = make_token("FAKE", decimals=33, address=b"abcd" * 5, chain_id=42)
encoded = encode_token(token)
self.assertEqual(decode_definition(encoded, EthereumTokenInfo), token)
def assertFailed(self, data: bytes) -> None:
with self.assertRaises(wire.DataError):
decode_definition(data, EthereumNetworkInfo)
def test_mangled_signature(self):
payload = make_payload()
proof, signature = sign_payload(payload, [])
bad_signature = signature[:-1] + b"\xff"
self.assertFailed(payload + proof + bad_signature)
def test_not_enough_signatures(self):
payload = make_payload()
proof, signature = sign_payload(payload, [], threshold=1)
self.assertFailed(payload + proof + signature)
def test_missing_signature(self):
payload = make_payload()
proof, signature = sign_payload(payload, [])
self.assertFailed(payload + proof)
def test_mangled_payload(self):
payload = make_payload()
proof, signature = sign_payload(payload, [])
bad_payload = payload[:-1] + b"\xff"
self.assertFailed(bad_payload + proof + signature)
def test_proof_length_mismatch(self):
payload = make_payload()
proof, signature = sign_payload(payload, [])
bad_proof = b"\x01"
self.assertFailed(payload + bad_proof + signature)
def test_bad_proof(self):
payload = make_payload()
proof, signature = sign_payload(payload, [sha256(b"x").digest()])
bad_proof = proof[:-1] + b"\xff"
self.assertFailed(payload + bad_proof + signature)
def test_trimmed_proof(self):
payload = make_payload()
proof, signature = sign_payload(payload, [])
bad_proof = proof[:-1]
self.assertFailed(payload + bad_proof + signature)
def test_bad_prefix(self):
payload = make_payload(prefix=b"trzd2")
proof, signature = sign_payload(payload, [])
self.assertFailed(payload + proof + signature)
def test_bad_type(self):
payload = make_payload(
data_type=EthereumDefinitionType.TOKEN, message=make_token()
)
proof, signature = sign_payload(payload, [])
self.assertFailed(payload + proof + signature)
def test_outdated(self):
payload = make_payload(timestamp=0)
proof, signature = sign_payload(payload, [])
self.assertFailed(payload + proof + signature)
def test_malformed_protobuf(self):
payload = make_payload(message=b"\x00")
proof, signature = sign_payload(payload, [])
self.assertFailed(payload + proof + signature)
def test_protobuf_mismatch(self):
payload = make_payload(
data_type=EthereumDefinitionType.NETWORK, message=make_token()
)
proof, signature = sign_payload(payload, [])
self.assertFailed(payload + proof + signature)
payload = make_payload(
data_type=EthereumDefinitionType.TOKEN, message=make_network()
)
proof, signature = sign_payload(payload, [])
self.assertFailed(payload + proof + signature)
def test_trailing_garbage(self):
payload = make_payload()
proof, signature = sign_payload(payload, [])
self.assertFailed(payload + proof + signature + b"\x00")
@unittest.skipUnless(not utils.BITCOIN_ONLY, "altcoin")
class TestEthereumDefinitions(unittest.TestCase):
def assertUnknown(self, what: t.Any) -> None:
if what is networks.UNKNOWN_NETWORK:
return
if what is tokens.UNKNOWN_TOKEN:
return
self.fail("Expected UNKNOWN_*, got %r" % what)
def assertKnown(self, what: t.Any) -> None:
if not EthereumNetworkInfo.is_type_of(
what
) and not EthereumTokenInfo.is_type_of(what):
self.fail("Expected network / token info, got %r" % what)
if what is networks.UNKNOWN_NETWORK:
self.fail("Expected known network, got UNKNOWN_NETWORK")
if what is tokens.UNKNOWN_TOKEN:
self.fail("Expected known token, got UNKNOWN_TOKEN")
def test_empty(self) -> None:
# no slip44 nor chain_id -- should short-circuit and always be unknown
defs = Definitions.from_encoded(None, None)
self.assertUnknown(defs.network)
self.assertFalse(defs._tokens)
self.assertUnknown(defs.get_token(TETHER_ADDRESS))
# chain_id provided, no definition
defs = Definitions.from_encoded(None, None, chain_id=100_000)
self.assertUnknown(defs.network)
self.assertFalse(defs._tokens)
self.assertUnknown(defs.get_token(TETHER_ADDRESS))
def test_builtin(self) -> None:
defs = Definitions.from_encoded(None, None, chain_id=1)
self.assertKnown(defs.network)
self.assertFalse(defs._tokens)
self.assertKnown(defs.get_token(TETHER_ADDRESS))
self.assertUnknown(defs.get_token(b"\x00" * 20))
defs = Definitions.from_encoded(None, None, slip44=60)
self.assertKnown(defs.network)
self.assertFalse(defs._tokens)
self.assertKnown(defs.get_token(TETHER_ADDRESS))
self.assertUnknown(defs.get_token(b"\x00" * 20))
def test_external(self) -> None:
network = make_network(chain_id=42)
defs = Definitions.from_encoded(encode_network(network), None, chain_id=42)
self.assertEqual(defs.network, network)
self.assertUnknown(defs.get_token(b"\x00" * 20))
token = make_token(chain_id=42, address=b"\x00" * 20)
defs = Definitions.from_encoded(
encode_network(network), encode_token(token), chain_id=42
)
self.assertEqual(defs.network, network)
self.assertEqual(defs.get_token(b"\x00" * 20), token)
token = make_token(chain_id=1, address=b"\x00" * 20)
defs = Definitions.from_encoded(None, encode_token(token), chain_id=1)
self.assertKnown(defs.network)
self.assertEqual(defs.get_token(b"\x00" * 20), token)
def test_external_token_mismatch(self) -> None:
network = make_network(chain_id=42)
token = make_token(chain_id=43, address=b"\x00" * 20)
defs = Definitions.from_encoded(encode_network(network), encode_token(token))
self.assertUnknown(defs.get_token(b"\x00" * 20))
def test_external_chain_match(self) -> None:
network = make_network(chain_id=42)
token = make_token(chain_id=42, address=b"\x00" * 20)
defs = Definitions.from_encoded(
encode_network(network), encode_token(token), chain_id=42
)
self.assertEqual(defs.network, network)
self.assertEqual(defs.get_token(b"\x00" * 20), token)
with self.assertRaises(wire.DataError):
Definitions.from_encoded(
encode_network(network), encode_token(token), chain_id=333
)
def test_external_slip44_mismatch(self) -> None:
network = make_network(chain_id=42, slip44=1999)
token = make_token(chain_id=42, address=b"\x00" * 20)
defs = Definitions.from_encoded(
encode_network(network), encode_token(token), slip44=1999
)
self.assertEqual(defs.network, network)
self.assertEqual(defs.get_token(b"\x00" * 20), token)
with self.assertRaises(wire.DataError):
Definitions.from_encoded(
encode_network(network), encode_token(token), slip44=333
)
def test_ignore_encoded_network(self) -> None:
# when network is builtin, ignore the encoded one
network = encode_network(chain_id=1, symbol="BAD")
defs = Definitions.from_encoded(network, None, chain_id=1)
self.assertNotEqual(defs.network, network)
def test_ignore_encoded_token(self) -> None:
# when token is builtin, ignore the encoded one
token = encode_token(chain_id=1, address=TETHER_ADDRESS, symbol="BAD")
defs = Definitions.from_encoded(None, token, chain_id=1)
self.assertNotEqual(defs.get_token(TETHER_ADDRESS), token)
def test_ignore_with_no_match(self) -> None:
network = encode_network(chain_id=100_000, symbol="BAD")
# smoke test: definition is accepted
defs = Definitions.from_encoded(network, None, chain_id=100_000)
self.assertKnown(defs.network)
# same definition but nothing to match it to
defs = Definitions.from_encoded(network, None)
self.assertUnknown(defs.network)
if __name__ == "__main__":
unittest.main()