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trezor-firmware/tests/device_tests/test_protection_levels.py

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# This file is part of the Trezor project.
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#
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# Copyright (C) 2012-2019 SatoshiLabs and contributors
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#
# 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.
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#
# 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 <https://www.gnu.org/licenses/lgpl-3.0.html>.
import pytest
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from trezorlib import btc, device, messages as proto, misc
from trezorlib.exceptions import TrezorFailure
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from ..common import MNEMONIC12
from ..tx_cache import tx_cache
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TXHASH_d5f65e = bytes.fromhex(
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"d5f65ee80147b4bcc70b75e4bbf2d7382021b871bd8867ef8fa525ef50864882"
)
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@pytest.mark.skip_t2
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class TestProtectionLevels:
@pytest.mark.setup_client(pin=True, passphrase=True)
def test_initialize(self, client):
with client:
client.set_expected_responses([proto.Features()])
client.init_device()
@pytest.mark.setup_client(pin=True, passphrase=True)
def test_apply_settings(self, client):
with client:
client.set_expected_responses(
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[
proto.PinMatrixRequest(),
proto.ButtonRequest(),
proto.Success(),
proto.Features(),
]
) # TrezorClient reinitializes device
device.apply_settings(client, label="nazdar")
@pytest.mark.setup_client(pin=True, passphrase=True)
def test_change_pin(self, client):
with client:
client.set_expected_responses(
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[
proto.ButtonRequest(),
proto.PinMatrixRequest(),
proto.PinMatrixRequest(),
proto.PinMatrixRequest(),
proto.Success(),
proto.Features(),
]
)
device.change_pin(client)
def test_ping(self, client):
with client:
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client.set_expected_responses([proto.ButtonRequest(), proto.Success()])
client.ping("msg", True)
@pytest.mark.setup_client(pin=True, passphrase=True)
def test_get_entropy(self, client):
with client:
client.set_expected_responses([proto.ButtonRequest(), proto.Entropy()])
misc.get_entropy(client, 10)
@pytest.mark.setup_client(pin=True, passphrase=True)
def test_get_public_key(self, client):
with client:
client.set_expected_responses(
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[proto.PinMatrixRequest(), proto.PassphraseRequest(), proto.PublicKey()]
)
btc.get_public_node(client, [])
@pytest.mark.setup_client(pin=True, passphrase=True)
def test_get_address(self, client):
with client:
client.set_expected_responses(
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[proto.PinMatrixRequest(), proto.PassphraseRequest(), proto.Address()]
)
btc.get_address(client, "Bitcoin", [])
@pytest.mark.setup_client(pin=True, passphrase=True)
def test_wipe_device(self, client):
with client:
client.set_expected_responses(
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[proto.ButtonRequest(), proto.Success(), proto.Features()]
)
device.wipe(client)
@pytest.mark.setup_client(uninitialized=True)
def test_reset_device(self, client):
with client:
client.set_expected_responses(
[proto.ButtonRequest()]
+ [proto.EntropyRequest()]
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+ [proto.ButtonRequest()] * 24
+ [proto.Success(), proto.Features()]
)
device.reset(client, False, 128, True, False, "label", "en-US")
with pytest.raises(TrezorFailure):
# This must fail, because device is already initialized
# Using direct call because `device.reset` has its own check
client.call(
proto.ResetDevice(
display_random=False,
strength=128,
passphrase_protection=True,
pin_protection=False,
label="label",
language="en-US",
)
)
@pytest.mark.setup_client(uninitialized=True)
def test_recovery_device(self, client):
client.use_mnemonic(MNEMONIC12)
with client:
client.set_expected_responses(
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[proto.ButtonRequest()]
+ [proto.WordRequest()] * 24
+ [proto.Success(), proto.Features()]
)
device.recover(
client, 12, False, False, "label", "en-US", client.mnemonic_callback
)
with pytest.raises(TrezorFailure):
# This must fail, because device is already initialized
# Using direct call because `device.reset` has its own check
client.call(
proto.RecoveryDevice(
word_count=12,
passphrase_protection=False,
pin_protection=False,
label="label",
language="en-US",
)
)
@pytest.mark.setup_client(pin=True, passphrase=True)
def test_sign_message(self, client):
with client:
client.set_expected_responses(
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[
proto.ButtonRequest(),
proto.PinMatrixRequest(),
proto.PassphraseRequest(),
proto.MessageSignature(),
]
)
btc.sign_message(client, "Bitcoin", [], "testing message")
@pytest.mark.setup_client(pin=True, passphrase=True)
def test_verify_message(self, client):
with client:
client.set_expected_responses(
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[proto.ButtonRequest(), proto.ButtonRequest(), proto.Success()]
)
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btc.verify_message(
client,
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"Bitcoin",
"14LmW5k4ssUrtbAB4255zdqv3b4w1TuX9e",
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bytes.fromhex(
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"209e23edf0e4e47ff1dec27f32cd78c50e74ef018ee8a6adf35ae17c7a9b0dd96f48b493fd7dbab03efb6f439c6383c9523b3bbc5f1a7d158a6af90ab154e9be80"
),
"This is an example of a signed message.",
)
@pytest.mark.setup_client(pin=True, passphrase=True)
def test_signtx(self, client):
inp1 = proto.TxInputType(
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address_n=[0], # 14LmW5k4ssUrtbAB4255zdqv3b4w1TuX9e
prev_hash=TXHASH_d5f65e,
prev_index=0,
)
out1 = proto.TxOutputType(
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address="1MJ2tj2ThBE62zXbBYA5ZaN3fdve5CPAz1",
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amount=390000 - 10000,
script_type=proto.OutputScriptType.PAYTOADDRESS,
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)
with client:
client.set_expected_responses(
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[
proto.PinMatrixRequest(),
proto.PassphraseRequest(),
proto.TxRequest(
request_type=proto.RequestType.TXINPUT,
details=proto.TxRequestDetailsType(request_index=0),
),
proto.TxRequest(
request_type=proto.RequestType.TXMETA,
details=proto.TxRequestDetailsType(tx_hash=TXHASH_d5f65e),
),
proto.TxRequest(
request_type=proto.RequestType.TXINPUT,
details=proto.TxRequestDetailsType(
request_index=0, tx_hash=TXHASH_d5f65e
),
),
proto.TxRequest(
request_type=proto.RequestType.TXINPUT,
details=proto.TxRequestDetailsType(
request_index=1, tx_hash=TXHASH_d5f65e
),
),
proto.TxRequest(
request_type=proto.RequestType.TXOUTPUT,
details=proto.TxRequestDetailsType(
request_index=0, tx_hash=TXHASH_d5f65e
),
),
proto.TxRequest(
request_type=proto.RequestType.TXOUTPUT,
details=proto.TxRequestDetailsType(request_index=0),
),
proto.ButtonRequest(code=proto.ButtonRequestType.ConfirmOutput),
proto.ButtonRequest(code=proto.ButtonRequestType.SignTx),
proto.TxRequest(
request_type=proto.RequestType.TXINPUT,
details=proto.TxRequestDetailsType(request_index=0),
),
proto.TxRequest(
request_type=proto.RequestType.TXOUTPUT,
details=proto.TxRequestDetailsType(request_index=0),
),
proto.TxRequest(
request_type=proto.RequestType.TXOUTPUT,
details=proto.TxRequestDetailsType(request_index=0),
),
proto.TxRequest(request_type=proto.RequestType.TXFINISHED),
]
)
btc.sign_tx(
client, "Bitcoin", [inp1], [out1], prev_txes=tx_cache("Bitcoin")
)
# def test_firmware_erase(self):
# pass
# def test_firmware_upload(self):
# pass
@pytest.mark.setup_client(pin=True)
def test_pin_cached(self, client):
assert client.features.pin_cached is False
with client:
client.set_expected_responses([proto.PinMatrixRequest(), proto.Address()])
btc.get_address(client, "Testnet", [0])
client.init_device()
assert client.features.pin_cached is True
with client:
client.set_expected_responses([proto.Address()])
btc.get_address(client, "Testnet", [0])
@pytest.mark.setup_client(passphrase=True)
def test_passphrase_cached(self, client):
with client:
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client.set_expected_responses([proto.PassphraseRequest(), proto.Address()])
btc.get_address(client, "Testnet", [0])
with client:
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client.set_expected_responses([proto.Address()])
btc.get_address(client, "Testnet", [0])