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trezor-firmware/tests/device_tests/test_session_id_and_passphrase.py

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# 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 <https://www.gnu.org/licenses/lgpl-3.0.html>.
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import random
import pytest
from trezorlib import exceptions, messages
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from trezorlib.messages import FailureType
from trezorlib.tools import parse_path
XPUB_PASSPHRASES = {
"A": "xpub6CekxGcnqnJ6osfY4Rrq7W5ogFtR54KUvz4H16XzaQuukMFZCGebEpVznfq4yFcKEmYyShwj2UKjL7CazuNSuhdkofF4mHabHkLxCMVvsqG",
"B": "xpub6CFxuyQpgryoR64QC38w42dLgDv5P4qWXhn1fbaN62UYzu1wJXZyrYqGnkq5d8xPUK68RXtXFBiqp3rfLGpeQ57zLtx675ZZn5ezKMAWQfu",
"C": "xpub6BhJMNFwCjGKyRb9RUcnuHhJ2TgcnurfUrQszrmZ1rg8aadsMXLySF6LY3qf4pR7bY4vwpd1VwLPQvuCRr7BPTs8wvqrv2gexxViwj96czT",
"D": "xpub6DK1vnTBe9EkhLACJRvovv8RSUC3MSiEV64opM7XUqrowxQ8J5C2WpA6n4vt5LS3bs618aKzi7k5w7VzNCv3SfqEeSepvvHaPhRoTvRqR5u",
"E": "xpub6CqbQjHN7r68GHh7RsiAyrdAmyiZQgWvDxQtba2NxZHumvfMK31U6emVQSexYrTAHWQeLygRD1yXZQLsCs1LLJtaeSxMAnh2YUmP3ov6EQz",
"F": "xpub6CRDxB1aHVNHfqjPeYhnPBhBfkQb4b4K581uYKxwv4KnkiVsRttBCXSkZM5jtP1Vv2v3wr5FxfzqWWDApLCbutBLnfwYpkWpZUmZSp6hqg5",
"G": "xpub6DGKmAKYDF44KQEaqXY3bbJNufEDi6QPnahV4JdBxFbFCN9Vg7ZfUHxPv3uhjeeJEtPe2PjFKWRsUrEF3RDttnXf9wXq3BfYBZemwKipJ24",
"H": "xpub6Bg8zbY94d1cBbAGT2crZL7C1UM8JWCP5CCtiHMnV4tB1pE9oCfjvZxRRFLi6EiamBDyCs3ARaHwU2FLx76YYCPFRVc1YyJi6depNtWRnoJ",
"I": "xpub6DMpHuTZTTN64eEHcNpyeQwehXgWTrY668ZkRWnRfkFEGKpNv2uPR3js1dJgcFRksSmrdtpHqFDPTzFsR1HqvzNdgZwXmk9vCLt1ypwUzA3",
"J": "xpub6CVeYPTG57D4tm9BvwCcakppwGJstbXyK8Yd611agusZuHmx7og3dNvr6pjMN6e4BoaNc5MZA4TjMLjMT2h2vJRU8rYLvHFUwrEL9zDbuqe",
}
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XPUB_PASSPHRASE_NONE = "xpub6BiVtCpG9fQPxnPmHXG8PhtzQdWC2Su4qWu6XW9tpWFYhxydCLJGrWBJZ5H6qTAHdPQ7pQhtpjiYZVZARo14qHiay2fvrX996oEP42u8wZy"
XPUB_CARDANO_PASSPHRASE_B = "d80e770f6dfc3edb58eaab68aa091b2c27b08a47583471e93437ac5f8baa61880c7af4938a941c084c19731e6e57a5710e6ad1196263291aea297ce0eec0f177"
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ADDRESS_N = parse_path("44h/0h/0h")
XPUB_REQUEST = messages.GetPublicKey(address_n=ADDRESS_N, coin_name="Bitcoin")
SESSIONS_STORED = 10
def _init_session(client, session_id=None):
"""Call Initialize, check and return the session ID."""
response = client.call(messages.Initialize(session_id=session_id))
assert isinstance(response, messages.Features)
assert len(response.session_id) == 32
return response.session_id
def _get_xpub(client, passphrase=None):
"""Get XPUB and check that the appropriate passphrase flow has happened."""
if passphrase is not None:
expected_responses = [
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messages.PassphraseRequest,
messages.ButtonRequest,
messages.ButtonRequest,
messages.PublicKey,
]
else:
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expected_responses = [messages.PublicKey]
with client:
client.use_passphrase(passphrase or "")
client.set_expected_responses(expected_responses)
result = client.call(XPUB_REQUEST)
return result.xpub
@pytest.mark.setup_client(passphrase=True)
def test_session_with_passphrase(client):
# Let's start the communication by calling Initialize.
session_id = _init_session(client)
# GetPublicKey requires passphrase and since it is not cached,
# Trezor will prompt for it.
assert _get_xpub(client, passphrase="A") == XPUB_PASSPHRASES["A"]
# Call Initialize again, this time with the received session id and then call
# GetPublicKey. The passphrase should be cached now so Trezor must
# not ask for it again, whilst returning the same xpub.
new_session_id = _init_session(client, session_id=session_id)
assert new_session_id == session_id
assert _get_xpub(client, passphrase=None) == XPUB_PASSPHRASES["A"]
# If we set session id in Initialize to None, the cache will be cleared
# and Trezor will ask for the passphrase again.
new_session_id = _init_session(client)
assert new_session_id != session_id
assert _get_xpub(client, passphrase="A") == XPUB_PASSPHRASES["A"]
# Unknown session id is the same as setting it to None.
_init_session(client, session_id=b"X" * 32)
assert _get_xpub(client, passphrase="A") == XPUB_PASSPHRASES["A"]
@pytest.mark.setup_client(passphrase=True)
def test_multiple_sessions(client):
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# start SESSIONS_STORED sessions
session_ids = []
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for _ in range(SESSIONS_STORED):
session_ids.append(_init_session(client))
# Resume each session
for session_id in session_ids:
new_session_id = _init_session(client, session_id)
assert session_id == new_session_id
# Creating a new session replaces the least-recently-used session
_init_session(client)
# Resuming session 1 through SESSIONS_STORED will still work
for session_id in session_ids[1:]:
new_session_id = _init_session(client, session_id)
assert session_id == new_session_id
# Resuming session 0 will not work
new_session_id = _init_session(client, session_ids[0])
assert new_session_id != session_ids[0]
# New session bumped out the least-recently-used anonymous session.
# Resuming session 1 through SESSIONS_STORED will still work
for session_id in session_ids[1:]:
new_session_id = _init_session(client, session_id)
assert session_id == new_session_id
# Creating a new session replaces session_ids[0] again
_init_session(client)
# Resuming all sessions one by one will in turn bump out the previous session.
for session_id in session_ids:
new_session_id = _init_session(client, session_id)
assert session_id != new_session_id
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@pytest.mark.setup_client(passphrase=True)
def test_multiple_passphrases(client):
# start a session
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session_a = _init_session(client)
assert _get_xpub(client, passphrase="A") == XPUB_PASSPHRASES["A"]
# start it again wit the same session id
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new_session_id = _init_session(client, session_id=session_a)
# session is the same
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assert new_session_id == session_a
# passphrase is not prompted
assert _get_xpub(client, passphrase=None) == XPUB_PASSPHRASES["A"]
# start a second session
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session_b = _init_session(client)
# new session -> new session id and passphrase prompt
assert _get_xpub(client, passphrase="B") == XPUB_PASSPHRASES["B"]
# provide the same session id -> must not ask for passphrase again.
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new_session_id = _init_session(client, session_id=session_b)
assert new_session_id == session_b
assert _get_xpub(client, passphrase=None) == XPUB_PASSPHRASES["B"]
# provide the first session id -> must not ask for passphrase again and return the same result.
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new_session_id = _init_session(client, session_id=session_a)
assert new_session_id == session_a
assert _get_xpub(client, passphrase=None) == XPUB_PASSPHRASES["A"]
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# provide the second session id -> must not ask for passphrase again and return the same result.
new_session_id = _init_session(client, session_id=session_b)
assert new_session_id == session_b
assert _get_xpub(client, passphrase=None) == XPUB_PASSPHRASES["B"]
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@pytest.mark.slow
@pytest.mark.setup_client(passphrase=True)
def test_max_sessions_with_passphrases(client):
# for the following tests, we are using as many passphrases as there are available sessions
assert len(XPUB_PASSPHRASES) == SESSIONS_STORED
# start as many sessions as the limit is
session_ids = {}
for passphrase, xpub in XPUB_PASSPHRASES.items():
session_id = _init_session(client)
assert session_id not in session_ids.values()
session_ids[passphrase] = session_id
assert _get_xpub(client, passphrase=passphrase) == xpub
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# passphrase is not prompted for the started the sessions, regardless the order
# let's try 20 different orderings
passphrases = list(XPUB_PASSPHRASES.keys())
shuffling = passphrases[:]
for _ in range(20):
random.shuffle(shuffling)
for passphrase in shuffling:
session_id = _init_session(client, session_id=session_ids[passphrase])
assert session_id == session_ids[passphrase]
assert _get_xpub(client, passphrase=None) == XPUB_PASSPHRASES[passphrase]
# make sure the usage order is the reverse of the creation order
for passphrase in reversed(passphrases):
session_id = _init_session(client, session_id=session_ids[passphrase])
assert session_id == session_ids[passphrase]
assert _get_xpub(client, passphrase=None) == XPUB_PASSPHRASES[passphrase]
# creating one more session will exceed the limit
_init_session(client)
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# new session asks for passphrase
_get_xpub(client, passphrase="XX")
# restoring the sessions in reverse will evict the next-up session
for passphrase in reversed(passphrases):
_init_session(client, session_id=session_ids[passphrase])
_get_xpub(client, passphrase="whatever") # passphrase is prompted
def test_session_enable_passphrase(client):
# Let's start the communication by calling Initialize.
session_id = _init_session(client)
# Trezor will not prompt for passphrase because it is turned off.
assert _get_xpub(client, passphrase=None) == XPUB_PASSPHRASE_NONE
# Turn on passphrase.
# Emit the call explicitly to avoid ClearSession done by the library function
response = client.call(messages.ApplySettings(use_passphrase=True))
assert isinstance(response, messages.Success)
# The session id is unchanged, therefore we do not prompt for the passphrase.
new_session_id = _init_session(client, session_id=session_id)
assert session_id == new_session_id
assert _get_xpub(client, passphrase=None) == XPUB_PASSPHRASE_NONE
# We clear the session id now, so the passphrase should be asked.
new_session_id = _init_session(client)
assert session_id != new_session_id
assert _get_xpub(client, passphrase="A") == XPUB_PASSPHRASES["A"]
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@pytest.mark.skip_t1
@pytest.mark.setup_client(passphrase=True)
def test_passphrase_on_device(client):
_init_session(client)
# try to get xpub with passphrase on host:
response = client.call_raw(XPUB_REQUEST)
assert isinstance(response, messages.PassphraseRequest)
# using `client.call` to auto-skip subsequent ButtonRequests for "show passphrase"
response = client.call(messages.PassphraseAck(passphrase="A", on_device=False))
assert isinstance(response, messages.PublicKey)
assert response.xpub == XPUB_PASSPHRASES["A"]
# try to get xpub again, passphrase should be cached
response = client.call_raw(XPUB_REQUEST)
assert isinstance(response, messages.PublicKey)
assert response.xpub == XPUB_PASSPHRASES["A"]
# make a new session
_init_session(client)
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# try to get xpub with passphrase on device:
response = client.call_raw(XPUB_REQUEST)
assert isinstance(response, messages.PassphraseRequest)
response = client.call_raw(messages.PassphraseAck(on_device=True))
# no "show passphrase" here
assert isinstance(response, messages.ButtonRequest)
client.debug.input("A")
response = client.call_raw(messages.ButtonAck())
assert isinstance(response, messages.PublicKey)
assert response.xpub == XPUB_PASSPHRASES["A"]
# try to get xpub again, passphrase should be cached
response = client.call_raw(XPUB_REQUEST)
assert isinstance(response, messages.PublicKey)
assert response.xpub == XPUB_PASSPHRASES["A"]
@pytest.mark.skip_t1
@pytest.mark.setup_client(passphrase=True)
def test_passphrase_always_on_device(client):
# Let's start the communication by calling Initialize.
session_id = _init_session(client)
# Force passphrase entry on Trezor.
response = client.call(messages.ApplySettings(passphrase_always_on_device=True))
assert isinstance(response, messages.Success)
# Since we enabled the always_on_device setting, Trezor will send ButtonRequests and ask for it on the device.
response = client.call_raw(XPUB_REQUEST)
assert isinstance(response, messages.ButtonRequest)
client.debug.input("") # Input empty passphrase.
response = client.call_raw(messages.ButtonAck())
assert isinstance(response, messages.PublicKey)
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assert response.xpub == XPUB_PASSPHRASE_NONE
# Passphrase will not be prompted. The session id stays the same and the passphrase is cached.
_init_session(client, session_id=session_id)
response = client.call_raw(XPUB_REQUEST)
assert isinstance(response, messages.PublicKey)
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assert response.xpub == XPUB_PASSPHRASE_NONE
# In case we want to add a new passphrase we need to send session_id = None.
_init_session(client)
response = client.call_raw(XPUB_REQUEST)
assert isinstance(response, messages.ButtonRequest)
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client.debug.input("A") # Input non-empty passphrase.
response = client.call_raw(messages.ButtonAck())
assert isinstance(response, messages.PublicKey)
assert response.xpub == XPUB_PASSPHRASES["A"]
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@pytest.mark.skip_t2
@pytest.mark.setup_client(passphrase="")
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def test_passphrase_on_device_not_possible_on_t1(client):
# This setting makes no sense on T1.
response = client.call_raw(messages.ApplySettings(passphrase_always_on_device=True))
assert isinstance(response, messages.Failure)
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assert response.code == FailureType.DataError
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# T1 should not accept on_device request
response = client.call_raw(XPUB_REQUEST)
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assert isinstance(response, messages.PassphraseRequest)
response = client.call_raw(messages.PassphraseAck(on_device=True))
assert isinstance(response, messages.Failure)
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assert response.code == FailureType.DataError
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@pytest.mark.setup_client(passphrase=True)
def test_passphrase_ack_mismatch(client):
response = client.call_raw(XPUB_REQUEST)
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assert isinstance(response, messages.PassphraseRequest)
response = client.call_raw(messages.PassphraseAck(passphrase="A", on_device=True))
assert isinstance(response, messages.Failure)
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assert response.code == FailureType.DataError
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@pytest.mark.setup_client(passphrase="")
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def test_passphrase_missing(client):
response = client.call_raw(XPUB_REQUEST)
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assert isinstance(response, messages.PassphraseRequest)
response = client.call_raw(messages.PassphraseAck(passphrase=None))
assert isinstance(response, messages.Failure)
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assert response.code == FailureType.DataError
response = client.call_raw(XPUB_REQUEST)
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assert isinstance(response, messages.PassphraseRequest)
response = client.call_raw(messages.PassphraseAck(passphrase=None, on_device=False))
assert isinstance(response, messages.Failure)
assert response.code == FailureType.DataError
@pytest.mark.setup_client(passphrase=True)
def test_passphrase_length(client):
def call(passphrase: str, expected_result: bool):
_init_session(client)
response = client.call_raw(XPUB_REQUEST)
assert isinstance(response, messages.PassphraseRequest)
try:
response = client.call(messages.PassphraseAck(passphrase=passphrase))
assert expected_result is True, "Call should have failed"
assert isinstance(response, messages.PublicKey)
except exceptions.TrezorFailure as e:
assert expected_result is False, "Call should have succeeded"
assert e.code == FailureType.DataError
# 50 is ok
call(passphrase="A" * 50, expected_result=True)
# 51 is not
call(passphrase="A" * 51, expected_result=False)
# "š" has two bytes - 48x A and "š" should be fine (50 bytes)
call(passphrase="A" * 48 + "š", expected_result=True)
# "š" has two bytes - 49x A and "š" should not (51 bytes)
call(passphrase="A" * 49 + "š", expected_result=False)
def _get_xpub_cardano(client, passphrase):
msg = messages.CardanoGetPublicKey(address_n=parse_path("44'/1815'/0'/0/0"))
response = client.call_raw(msg)
if passphrase is not None:
assert isinstance(response, messages.PassphraseRequest)
response = client.call(messages.PassphraseAck(passphrase=passphrase))
assert isinstance(response, messages.CardanoPublicKey)
return response.xpub
@pytest.mark.skip_t1
@pytest.mark.altcoin
@pytest.mark.setup_client(passphrase=True)
def test_cardano_passphrase(client):
# Cardano uses a variation of BIP-39 so we need to ask for the passphrase again.
session_id = _init_session(client)
# GetPublicKey requires passphrase and since it is not cached,
# Trezor will prompt for it.
assert _get_xpub(client, passphrase="A") == XPUB_PASSPHRASES["A"]
# The passphrase is now cached for non-Cardano coins.
assert _get_xpub(client, passphrase=None) == XPUB_PASSPHRASES["A"]
# Cardano will prompt for it again.
assert _get_xpub_cardano(client, passphrase="B") == XPUB_CARDANO_PASSPHRASE_B
# But now also Cardano has it cached.
assert _get_xpub_cardano(client, passphrase=None) == XPUB_CARDANO_PASSPHRASE_B
# And others behaviour did not change.
assert _get_xpub(client, passphrase=None) == XPUB_PASSPHRASES["A"]
# Initialize with the session id does not destroy the state
_init_session(client, session_id=session_id)
assert _get_xpub(client, passphrase=None) == XPUB_PASSPHRASES["A"]
assert _get_xpub_cardano(client, passphrase=None) == XPUB_CARDANO_PASSPHRASE_B
# New session will destroy the state
_init_session(client)
# GetPublicKey must ask for passphrase again
assert _get_xpub(client, passphrase="A") == XPUB_PASSPHRASES["A"]
# Cardano must also ask for passphrase again
assert _get_xpub_cardano(client, passphrase="B") == XPUB_CARDANO_PASSPHRASE_B