# This file is part of the Trezor project. # # Copyright (C) 2012-2019 SatoshiLabs and contributors # # This library is free software: you can redistribute it and/or modify # it under the terms of the GNU Lesser General Public License version 3 # as published by the Free Software Foundation. # # 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 License along with this library. # If not, see . from itertools import combinations from unittest import mock import pytest import shamir_mnemonic as shamir from shamir_mnemonic import MnemonicError from trezorlib import device, messages as proto from trezorlib.exceptions import TrezorFailure from trezorlib.messages import BackupType, ButtonRequestType as B from ..common import ( EXTERNAL_ENTROPY, click_through, generate_entropy, read_and_confirm_mnemonic, ) @pytest.mark.skip_t1 class TestMsgResetDeviceT2: # TODO: test with different options @pytest.mark.setup_client(uninitialized=True, random_seed=0) def test_reset_device_slip39_basic(self, client): strength = 128 member_threshold = 3 all_mnemonics = [] def input_flow(): # 1. Confirm Reset # 2. Backup your seed # 3. Confirm warning # 4. shares info # 5. Set & Confirm number of shares # 6. threshold info # 7. Set & confirm threshold value # 8. Confirm show seeds yield from click_through(client.debug, screens=8, code=B.ResetDevice) # show & confirm shares for h in range(5): # mnemonic phrases btn_code = yield assert btn_code == B.ResetDevice mnemonic = read_and_confirm_mnemonic(client.debug, words=20) all_mnemonics.append(mnemonic) # Confirm continue to next share btn_code = yield assert btn_code == B.Success client.debug.press_yes() # safety warning btn_code = yield assert btn_code == B.Success client.debug.press_yes() os_urandom = mock.Mock(return_value=EXTERNAL_ENTROPY) with mock.patch("os.urandom", os_urandom), client: client.set_expected_responses( [ proto.ButtonRequest(code=B.ResetDevice), proto.EntropyRequest(), proto.ButtonRequest(code=B.ResetDevice), proto.ButtonRequest(code=B.ResetDevice), proto.ButtonRequest(code=B.ResetDevice), proto.ButtonRequest(code=B.ResetDevice), proto.ButtonRequest(code=B.ResetDevice), proto.ButtonRequest(code=B.ResetDevice), proto.ButtonRequest(code=B.ResetDevice), proto.ButtonRequest(code=B.ResetDevice), proto.ButtonRequest(code=B.Success), proto.ButtonRequest(code=B.ResetDevice), proto.ButtonRequest(code=B.Success), proto.ButtonRequest(code=B.ResetDevice), proto.ButtonRequest(code=B.Success), proto.ButtonRequest(code=B.ResetDevice), proto.ButtonRequest(code=B.Success), proto.ButtonRequest(code=B.ResetDevice), proto.ButtonRequest(code=B.Success), proto.ButtonRequest(code=B.Success), proto.Success(), proto.Features(), ] ) client.set_input_flow(input_flow) # No PIN, no passphrase, don't display random device.reset( client, display_random=False, strength=strength, passphrase_protection=False, pin_protection=False, label="test", language="en-US", backup_type=BackupType.Slip39_Basic, ) # generate secret locally internal_entropy = client.debug.state().reset_entropy secret = generate_entropy(strength, internal_entropy, EXTERNAL_ENTROPY) # validate that all combinations will result in the correct master secret validate_mnemonics(all_mnemonics, member_threshold, secret) # Check if device is properly initialized assert client.features.initialized is True assert client.features.needs_backup is False assert client.features.pin_protection is False assert client.features.passphrase_protection is False assert client.features.backup_type is BackupType.Slip39_Basic # backup attempt fails because backup was done in reset with pytest.raises(TrezorFailure, match="ProcessError: Seed already backed up"): device.backup(client) def validate_mnemonics(mnemonics, threshold, expected_ems): # We expect these combinations to recreate the secret properly for test_group in combinations(mnemonics, threshold): # TODO: HOTFIX, we should fix this properly by modifying and unifying the python-shamir-mnemonic API ms = shamir.combine_mnemonics(test_group) identifier, iteration_exponent, _, _, _ = shamir._decode_mnemonics(test_group) ems = shamir._encrypt(ms, b"", iteration_exponent, identifier) assert ems == expected_ems # We expect these combinations to raise MnemonicError for test_group in combinations(mnemonics, threshold - 1): with pytest.raises( MnemonicError, match=r".*Expected {} mnemonics.*".format(threshold) ): shamir.combine_mnemonics(test_group)