from common import * from trezor import protobuf from trezor.messages import WebAuthnCredential, Failure, SignMessage, DebugLinkMemoryRead def load_uvarint32(data: bytes) -> int: # use known uint32 field in an all-optional message buffer = bytearray(len(data) + 1) buffer[1:] = data buffer[0] = (1 << 3) | 0 # field number 1, wire type 0 msg = protobuf.decode(buffer, WebAuthnCredential, False) return msg.index def load_uvarint64(data: bytes) -> int: # use known uint64 field in an all-optional message buffer = bytearray(len(data) + 1) buffer[1:] = data buffer[0] = (2 << 3) | 0 # field number 1, wire type 0 msg = protobuf.decode(buffer, DebugLinkMemoryRead, False) return msg.length def dump_uvarint32(value: int) -> bytearray: # use known uint32 field in an all-optional message msg = WebAuthnCredential(index=value) length = protobuf.encoded_length(msg) buffer = bytearray(length) protobuf.encode(buffer, msg) assert buffer[0] == (1 << 3) | 0 # field number 1, wire type 0 return buffer[1:] def dump_uvarint64(value: int) -> bytearray: # use known uint64 field in an all-optional message msg = DebugLinkMemoryRead(length=value) length = protobuf.encoded_length(msg) buffer = bytearray(length) protobuf.encode(buffer, msg) assert buffer[0] == (2 << 3) | 0 # field number 2, wire type 0 return buffer[1:] def dump_message(msg: protobuf.MessageType) -> bytearray: length = protobuf.encoded_length(msg) buffer = bytearray(length) protobuf.encode(buffer, msg) return buffer def load_message(msg_type: Type[protobuf.MessageType], buffer: bytes) -> protobuf.MessageType: return protobuf.decode(buffer, msg_type, False) class TestProtobuf(unittest.TestCase): def test_dump_uvarint(self): for dump_uvarint in (dump_uvarint32, dump_uvarint64): self.assertEqual(dump_uvarint(0), b"\x00") self.assertEqual(dump_uvarint(1), b"\x01") self.assertEqual(dump_uvarint(0xFF), b"\xff\x01") self.assertEqual(dump_uvarint(123456), b"\xc0\xc4\x07") with self.assertRaises(OverflowError): dump_uvarint(-1) def test_load_uvarint(self): for load_uvarint in (load_uvarint32, load_uvarint64): self.assertEqual(load_uvarint(b"\x00"), 0) self.assertEqual(load_uvarint(b"\x01"), 1) self.assertEqual(load_uvarint(b"\xff\x01"), 0xFF) self.assertEqual(load_uvarint(b"\xc0\xc4\x07"), 123456) def test_validate_enum(self): # ok message: msg = Failure(code=7) msg_encoded = dump_message(msg) nmsg = load_message(Failure, msg_encoded) self.assertEqual(msg.code, nmsg.code) # bad enum value: msg = Failure(code=1000) msg_encoded = dump_message(msg) with self.assertRaises(ValueError): load_message(Failure, msg_encoded) def test_required(self): msg = SignMessage(message=b"hello", coin_name="foo", script_type=1) msg_encoded = dump_message(msg) nmsg = load_message(SignMessage, msg_encoded) self.assertEqual(nmsg.message, b"hello") self.assertEqual(nmsg.coin_name, "foo") self.assertEqual(nmsg.script_type, 1) # try a message without the required_field msg = SignMessage(message=None) # encoding always succeeds msg_encoded = dump_message(msg) with self.assertRaises(ValueError): load_message(SignMessage, msg_encoded) # try a message without the default field msg = SignMessage(message=b"hello") msg.coin_name = None msg_encoded = dump_message(msg) nmsg = load_message(SignMessage, msg_encoded) self.assertEqual(nmsg.message, b"hello") self.assertEqual(nmsg.coin_name, "Bitcoin") if __name__ == "__main__": unittest.main()