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trezor-firmware/tests/device_tests/test_msg_recoverydevice.py
2017-07-28 18:07:20 +02:00

175 lines
7.0 KiB
Python

# This file is part of the TREZOR project.
#
# Copyright (C) 2012-2016 Marek Palatinus <slush@satoshilabs.com>
# Copyright (C) 2012-2016 Pavol Rusnak <stick@satoshilabs.com>
#
# This library is free software: you can redistribute it and/or modify
# it under the terms of the GNU Lesser General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This library is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public License
# along with this library. If not, see <http://www.gnu.org/licenses/>.
from __future__ import print_function
import unittest
import common
from trezorlib import messages_pb2 as proto
class TestDeviceRecovery(common.TrezorTest):
def test_pin_passphrase(self):
mnemonic = self.mnemonic12.split(' ')
ret = self.client.call_raw(proto.RecoveryDevice(word_count=12,
passphrase_protection=True,
pin_protection=True,
label='label',
language='english',
enforce_wordlist=True))
self.assertIsInstance(ret, proto.PinMatrixRequest)
# Enter PIN for first time
pin_encoded = self.client.debug.encode_pin(self.pin6)
ret = self.client.call_raw(proto.PinMatrixAck(pin=pin_encoded))
self.assertIsInstance(ret, proto.PinMatrixRequest)
# Enter PIN for second time
pin_encoded = self.client.debug.encode_pin(self.pin6)
ret = self.client.call_raw(proto.PinMatrixAck(pin=pin_encoded))
fakes = 0
for _ in range(int(12 * 2)):
self.assertIsInstance(ret, proto.WordRequest)
(word, pos) = self.client.debug.read_recovery_word()
if pos != 0:
ret = self.client.call_raw(proto.WordAck(word=mnemonic[pos - 1]))
mnemonic[pos - 1] = None
else:
ret = self.client.call_raw(proto.WordAck(word=word))
fakes += 1
print(mnemonic)
# Workflow succesfully ended
self.assertIsInstance(ret, proto.Success)
# 12 expected fake words and all words of mnemonic are used
self.assertEqual(fakes, 12)
self.assertEqual(mnemonic, [None] * 12)
# Mnemonic is the same
self.client.init_device()
self.assertEqual(self.client.debug.read_mnemonic(), self.mnemonic12)
self.assertTrue(self.client.features.pin_protection)
self.assertTrue(self.client.features.passphrase_protection)
# Do passphrase-protected action, PassphraseRequest should be raised
resp = self.client.call_raw(proto.Ping(passphrase_protection=True))
self.assertIsInstance(resp, proto.PassphraseRequest)
self.client.call_raw(proto.Cancel())
# Do PIN-protected action, PinRequest should be raised
resp = self.client.call_raw(proto.Ping(pin_protection=True))
self.assertIsInstance(resp, proto.PinMatrixRequest)
self.client.call_raw(proto.Cancel())
def test_nopin_nopassphrase(self):
mnemonic = self.mnemonic12.split(' ')
ret = self.client.call_raw(proto.RecoveryDevice(word_count=12,
passphrase_protection=False,
pin_protection=False,
label='label',
language='english',
enforce_wordlist=True))
fakes = 0
for _ in range(int(12 * 2)):
self.assertIsInstance(ret, proto.WordRequest)
(word, pos) = self.client.debug.read_recovery_word()
if pos != 0:
ret = self.client.call_raw(proto.WordAck(word=mnemonic[pos - 1]))
mnemonic[pos - 1] = None
else:
ret = self.client.call_raw(proto.WordAck(word=word))
fakes += 1
print(mnemonic)
# Workflow succesfully ended
self.assertIsInstance(ret, proto.Success)
# 12 expected fake words and all words of mnemonic are used
self.assertEqual(fakes, 12)
self.assertEqual(mnemonic, [None] * 12)
# Mnemonic is the same
self.client.init_device()
self.assertEqual(self.client.debug.read_mnemonic(), self.mnemonic12)
self.assertFalse(self.client.features.pin_protection)
self.assertFalse(self.client.features.passphrase_protection)
# Do passphrase-protected action, PassphraseRequest should NOT be raised
resp = self.client.call_raw(proto.Ping(passphrase_protection=True))
self.assertIsInstance(resp, proto.Success)
# Do PIN-protected action, PinRequest should NOT be raised
resp = self.client.call_raw(proto.Ping(pin_protection=True))
self.assertIsInstance(resp, proto.Success)
def test_word_fail(self):
ret = self.client.call_raw(proto.RecoveryDevice(word_count=12,
passphrase_protection=False,
pin_protection=False,
label='label',
language='english',
enforce_wordlist=True))
self.assertIsInstance(ret, proto.WordRequest)
for _ in range(int(12 * 2)):
(word, pos) = self.client.debug.read_recovery_word()
if pos != 0:
ret = self.client.call_raw(proto.WordAck(word='kwyjibo'))
self.assertIsInstance(ret, proto.Failure)
break
else:
self.client.call_raw(proto.WordAck(word=word))
def test_pin_fail(self):
ret = self.client.call_raw(proto.RecoveryDevice(word_count=12,
passphrase_protection=True,
pin_protection=True,
label='label',
language='english',
enforce_wordlist=True))
self.assertIsInstance(ret, proto.PinMatrixRequest)
# Enter PIN for first time
pin_encoded = self.client.debug.encode_pin(self.pin4)
ret = self.client.call_raw(proto.PinMatrixAck(pin=pin_encoded))
self.assertIsInstance(ret, proto.PinMatrixRequest)
# Enter PIN for second time, but different one
pin_encoded = self.client.debug.encode_pin(self.pin6)
ret = self.client.call_raw(proto.PinMatrixAck(pin=pin_encoded))
# Failure should be raised
self.assertIsInstance(ret, proto.Failure)
def test_already_initialized(self):
self.setup_mnemonic_nopin_nopassphrase()
self.assertRaises(Exception, self.client.recovery_device, 12, False, False, 'label', 'english')