from __future__ import print_function import time import unittest import common from trezorlib import messages_pb2 as proto from trezorlib import types_pb2 as types from trezorlib.client import PinException, CallException # FIXME TODO Add passphrase tests class TestProtectCall(common.TrezorTest): def _some_protected_call(self, button, pin, passphrase): # This method perform any call which have protection in the device res = self.client.ping('random data', button_protection=button, pin_protection=pin, passphrase_protection=passphrase) self.assertEqual(res, 'random data') """ def test_expected_responses(self): self.setup_mnemonic_pin_passphrase() # This is low-level test of set_expected_responses() # feature of debugging client with self.client: # Scenario 1 - Received unexpected message self.client.set_expected_responses([]) self.assertRaises(CallException, self._some_protected_call, True, True, True) with self.client: # Scenario 2 - Received other than expected message self.client.set_expected_responses([proto.Success()]) self.assertRaises(CallException, self._some_protected_call, True, True, True) def scenario3(): with self.client: # Scenario 3 - Not received expected message self.client.set_expected_responses([proto.ButtonRequest(), proto.Success(), proto.Success()]) # This is expected, but not received self._some_protected_call(True, False, False) self.assertRaises(Exception, scenario3) with self.client: # Scenario 4 - Received what expected self.client.set_expected_responses([proto.ButtonRequest(), proto.PinMatrixRequest(), proto.PassphraseRequest(), proto.Success(message='random data')]) self._some_protected_call(True, True, True) def scenario5(): with self.client: # Scenario 5 - Failed message by field filter self.client.set_expected_responses([proto.ButtonRequest(), proto.Success(message='wrong data')]) self._some_protected_call(True, True, True) self.assertRaises(CallException, scenario5) """ def test_no_protection(self): self.setup_mnemonic_nopin_nopassphrase() with self.client: self.assertEqual(self.client.debug.read_pin()[0], '') self.client.set_expected_responses([proto.Success()]) self._some_protected_call(False, True, True) def test_pin(self): self.setup_mnemonic_pin_passphrase() with self.client: self.assertEqual(self.client.debug.read_pin()[0], self.pin4) self.client.setup_debuglink(button=True, pin_correct=True) self.client.set_expected_responses([proto.ButtonRequest(), proto.PinMatrixRequest(), proto.Success()]) self._some_protected_call(True, True, False) def test_incorrect_pin(self): self.setup_mnemonic_pin_passphrase() self.client.setup_debuglink(button=True, pin_correct=False) self.assertRaises(PinException, self._some_protected_call, False, True, False) def test_cancelled_pin(self): self.setup_mnemonic_pin_passphrase() self.client.setup_debuglink(button=True, pin_correct=False) # PIN cancel self.assertRaises(PinException, self._some_protected_call, False, True, False) def test_exponential_backoff_with_reboot(self): self.setup_mnemonic_pin_passphrase() self.client.setup_debuglink(button=True, pin_correct=False) def test_backoff(attempts, start): if attempts <= 1: expected = 0 else: expected = (2 ** (attempts - 2)) got = time.time() - start msg = "Pin delay expected to be at least %s seconds, got %s" % (expected, got) print(msg) self.assertLessEqual(expected, got, msg) for attempt in range(1, 6): start = time.time() self.assertRaises(PinException, self._some_protected_call, False, True, False) test_backoff(attempt, start) if __name__ == '__main__': unittest.main()