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trezor-firmware/core/tests/test_storage.cache.py

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from common import * # isort:skip # noqa: F403
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from mock_storage import mock_storage
from storage import cache, cache_codec
from trezor.messages import EndSession, Initialize
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from apps.base import handle_EndSession, handle_Initialize
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KEY = 0
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if utils.USE_THP:
import thp_common
from mock_wire_interface import MockHID
from storage import cache_thp
from trezor.wire.thp import ChannelState
from trezor.wire.thp.session_context import ManagementSessionContext, SessionContext
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_PROTOCOL_CACHE = cache_thp
else:
_PROTOCOL_CACHE = cache_codec
def is_session_started() -> bool:
return cache_codec.get_active_session() is not None
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def get_active_session():
return cache_codec.get_active_session()
class TestStorageCache(
unittest.TestCase
): # noqa: F405 # pyright: ignore[reportUndefinedVariable]
def setUp(self):
cache.clear_all()
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if utils.USE_THP:
def __init__(self):
thp_common.suppres_debug_log()
# xthp_common.prepare_context()
# config.init()
super().__init__()
def setUp(self):
self.interface = MockHID(0xDEADBEEF)
cache.clear_all()
def test_new_channel_and_session(self):
channel = thp_common.get_new_channel(self.interface)
# Assert that channel is created without any sessions
self.assertEqual(len(channel.sessions), 0)
cid_1 = channel.channel_id
session_cache_1 = cache_thp.get_new_session(channel.channel_cache)
session_1 = SessionContext(channel, session_cache_1)
self.assertEqual(session_1.channel_id, cid_1)
session_cache_2 = cache_thp.get_new_session(channel.channel_cache)
session_2 = SessionContext(channel, session_cache_2)
self.assertEqual(session_2.channel_id, cid_1)
self.assertEqual(session_1.channel_id, session_2.channel_id)
self.assertNotEqual(session_1.session_id, session_2.session_id)
channel_2 = thp_common.get_new_channel(self.interface)
cid_2 = channel_2.channel_id
self.assertNotEqual(cid_1, cid_2)
session_cache_3 = cache_thp.get_new_session(channel_2.channel_cache)
session_3 = SessionContext(channel_2, session_cache_3)
self.assertEqual(session_3.channel_id, cid_2)
# Sessions 1 and 3 should have different channel_id, but the same session_id
self.assertNotEqual(session_1.channel_id, session_3.channel_id)
self.assertEqual(session_1.session_id, session_3.session_id)
self.assertEqual(cache_thp._SESSIONS[0], session_cache_1)
self.assertNotEqual(cache_thp._SESSIONS[0], session_cache_2)
self.assertEqual(cache_thp._SESSIONS[0].channel_id, session_1.channel_id)
# Check that session data IS in cache for created sessions ONLY
for i in range(3):
self.assertNotEqual(cache_thp._SESSIONS[i].channel_id, b"")
self.assertNotEqual(cache_thp._SESSIONS[i].session_id, b"")
self.assertNotEqual(cache_thp._SESSIONS[i].last_usage, 0)
for i in range(3, cache_thp._MAX_SESSIONS_COUNT):
self.assertEqual(cache_thp._SESSIONS[i].channel_id, b"")
self.assertEqual(cache_thp._SESSIONS[i].session_id, b"")
self.assertEqual(cache_thp._SESSIONS[i].last_usage, 0)
# Check that session data IS NOT in cache after cache.clear_all()
cache.clear_all()
for session in cache_thp._SESSIONS:
self.assertEqual(session.channel_id, b"")
self.assertEqual(session.session_id, b"")
self.assertEqual(session.last_usage, 0)
self.assertEqual(session.state, b"\x00")
def test_channel_capacity_in_cache(self):
self.assertTrue(cache_thp._MAX_CHANNELS_COUNT >= 3)
channels = []
for i in range(cache_thp._MAX_CHANNELS_COUNT):
channels.append(thp_common.get_new_channel(self.interface))
channel_ids = [channel.channel_cache.channel_id for channel in channels]
# Assert that each channel_id is unique and that cache and list of channels
# have the same "channels" on the same indexes
for i in range(len(channel_ids)):
self.assertEqual(cache_thp._CHANNELS[i].channel_id, channel_ids[i])
for j in range(i + 1, len(channel_ids)):
self.assertNotEqual(channel_ids[i], channel_ids[j])
# Create a new channel that is over the capacity
new_channel = thp_common.get_new_channel(self.interface)
for c in channels:
self.assertNotEqual(c.channel_id, new_channel.channel_id)
# Test that the oldest (least used) channel was replaced (_CHANNELS[0])
self.assertNotEqual(cache_thp._CHANNELS[0].channel_id, channel_ids[0])
self.assertEqual(cache_thp._CHANNELS[0].channel_id, new_channel.channel_id)
# Update the "last used" value of the second channel in cache (_CHANNELS[1]) and
# assert that it is not replaced when creating a new channel
cache_thp.update_channel_last_used(channel_ids[1])
new_new_channel = thp_common.get_new_channel(self.interface)
self.assertEqual(cache_thp._CHANNELS[1].channel_id, channel_ids[1])
# Assert that it was in fact the _CHANNEL[2] that was replaced
self.assertNotEqual(cache_thp._CHANNELS[2].channel_id, channel_ids[2])
self.assertEqual(
cache_thp._CHANNELS[2].channel_id, new_new_channel.channel_id
)
def test_session_capacity_in_cache(self):
self.assertTrue(cache_thp._MAX_SESSIONS_COUNT >= 4)
channel_cache_A = thp_common.get_new_channel(self.interface).channel_cache
channel_cache_B = thp_common.get_new_channel(self.interface).channel_cache
sesions_A = []
cid = []
sid = []
for i in range(3):
sesions_A.append(cache_thp.get_new_session(channel_cache_A))
cid.append(sesions_A[i].channel_id)
sid.append(sesions_A[i].session_id)
sessions_B = []
for i in range(cache_thp._MAX_SESSIONS_COUNT - 3):
sessions_B.append(cache_thp.get_new_session(channel_cache_B))
for i in range(3):
self.assertEqual(sesions_A[i], cache_thp._SESSIONS[i])
self.assertEqual(cid[i], cache_thp._SESSIONS[i].channel_id)
self.assertEqual(sid[i], cache_thp._SESSIONS[i].session_id)
for i in range(3, cache_thp._MAX_SESSIONS_COUNT):
self.assertEqual(sessions_B[i - 3], cache_thp._SESSIONS[i])
# Assert that new session replaces the oldest (least used) one (_SESSOIONS[0])
new_session = cache_thp.get_new_session(channel_cache_B)
self.assertEqual(new_session, cache_thp._SESSIONS[0])
self.assertNotEqual(new_session.channel_id, cid[0])
self.assertNotEqual(new_session.session_id, sid[0])
# Assert that updating "last used" for session on channel A increases also
# the "last usage" of channel A.
self.assertTrue(channel_cache_A.last_usage < channel_cache_B.last_usage)
cache_thp.update_session_last_used(
channel_cache_A.channel_id, sesions_A[1].session_id
)
self.assertTrue(channel_cache_A.last_usage > channel_cache_B.last_usage)
new_new_session = cache_thp.get_new_session(channel_cache_B)
# Assert that creating a new session on channel B shifts the "last usage" again
# and that _SESSIONS[1] was not replaced, but that _SESSIONS[2] was replaced
self.assertTrue(channel_cache_A.last_usage < channel_cache_B.last_usage)
self.assertEqual(sesions_A[1], cache_thp._SESSIONS[1])
self.assertNotEqual(sesions_A[2], cache_thp._SESSIONS[2])
self.assertEqual(new_new_session, cache_thp._SESSIONS[2])
def test_clear(self):
channel_A = thp_common.get_new_channel(self.interface)
channel_B = thp_common.get_new_channel(self.interface)
cid_A = channel_A.channel_id
cid_B = channel_B.channel_id
sessions = []
for i in range(3):
sessions.append(cache_thp.get_new_session(channel_A.channel_cache))
sessions.append(cache_thp.get_new_session(channel_B.channel_cache))
self.assertEqual(cache_thp._SESSIONS[2 * i].channel_id, cid_A)
self.assertNotEqual(cache_thp._SESSIONS[2 * i].last_usage, 0)
self.assertEqual(cache_thp._SESSIONS[2 * i + 1].channel_id, cid_B)
self.assertNotEqual(cache_thp._SESSIONS[2 * i + 1].last_usage, 0)
# Assert that clearing of channel A works
self.assertNotEqual(channel_A.channel_cache.channel_id, b"")
self.assertNotEqual(channel_A.channel_cache.last_usage, 0)
self.assertEqual(channel_A.get_channel_state(), ChannelState.TH1)
channel_A.clear()
self.assertEqual(channel_A.channel_cache.channel_id, b"")
self.assertEqual(channel_A.channel_cache.last_usage, 0)
self.assertEqual(channel_A.get_channel_state(), ChannelState.UNALLOCATED)
# Assert that clearing channel A also cleared all its sessions
for i in range(3):
self.assertEqual(cache_thp._SESSIONS[2 * i].last_usage, 0)
self.assertEqual(cache_thp._SESSIONS[2 * i].channel_id, b"")
self.assertNotEqual(cache_thp._SESSIONS[2 * i + 1].last_usage, 0)
self.assertEqual(cache_thp._SESSIONS[2 * i + 1].channel_id, cid_B)
cache.clear_all()
for session in cache_thp._SESSIONS:
self.assertEqual(session.last_usage, 0)
self.assertEqual(session.channel_id, b"")
for channel in cache_thp._CHANNELS:
self.assertEqual(channel.channel_id, b"")
self.assertEqual(channel.last_usage, 0)
self.assertEqual(
cache_thp._get_channel_state(channel), ChannelState.UNALLOCATED
)
def test_get_set(self):
channel = thp_common.get_new_channel(self.interface)
session_1 = cache_thp.get_new_session(channel.channel_cache)
session_1.set(KEY, b"hello")
self.assertEqual(session_1.get(KEY), b"hello")
session_2 = cache_thp.get_new_session(channel.channel_cache)
session_2.set(KEY, b"world")
self.assertEqual(session_2.get(KEY), b"world")
self.assertEqual(session_1.get(KEY), b"hello")
cache.clear_all()
self.assertIsNone(session_1.get(KEY))
self.assertIsNone(session_2.get(KEY))
def test_get_set_int(self):
channel = thp_common.get_new_channel(self.interface)
session_1 = cache_thp.get_new_session(channel.channel_cache)
session_1.set_int(KEY, 1234)
self.assertEqual(session_1.get_int(KEY), 1234)
session_2 = cache_thp.get_new_session(channel.channel_cache)
session_2.set_int(KEY, 5678)
self.assertEqual(session_2.get_int(KEY), 5678)
self.assertEqual(session_1.get_int(KEY), 1234)
cache.clear_all()
self.assertIsNone(session_1.get_int(KEY))
self.assertIsNone(session_2.get_int(KEY))
def test_get_set_bool(self):
channel = thp_common.get_new_channel(self.interface)
session_1 = cache_thp.get_new_session(channel.channel_cache)
with self.assertRaises(AssertionError) as e:
session_1.set_bool(KEY, True)
self.assertEqual(e.value.value, "Field does not have zero length!")
# Change length of first session field to 0 so that the length check passes
session_1.fields = (0,) + session_1.fields[1:]
# with self.assertRaises(AssertionError) as e:
session_1.set_bool(KEY, True)
self.assertEqual(session_1.get_bool(KEY), True)
session_2 = cache_thp.get_new_session(channel.channel_cache)
session_2.fields = session_2.fields = (0,) + session_2.fields[1:]
session_2.set_bool(KEY, False)
self.assertEqual(session_2.get_bool(KEY), False)
self.assertEqual(session_1.get_bool(KEY), True)
cache.clear_all()
# Default value is False
self.assertFalse(session_1.get_bool(KEY))
self.assertFalse(session_2.get_bool(KEY))
def test_delete(self):
channel = thp_common.get_new_channel(self.interface)
session_1 = cache_thp.get_new_session(channel.channel_cache)
self.assertIsNone(session_1.get(KEY))
session_1.set(KEY, b"hello")
self.assertEqual(session_1.get(KEY), b"hello")
session_1.delete(KEY)
self.assertIsNone(session_1.get(KEY))
session_1.set(KEY, b"hello")
session_2 = cache_thp.get_new_session(channel.channel_cache)
self.assertIsNone(session_2.get(KEY))
session_2.set(KEY, b"hello")
self.assertEqual(session_2.get(KEY), b"hello")
session_2.delete(KEY)
self.assertIsNone(session_2.get(KEY))
self.assertEqual(session_1.get(KEY), b"hello")
else:
def __init__(self):
# Context is needed to test decorators and handleInitialize
# It allows access to codec cache from different parts of the code
from trezor.wire import context
context.CURRENT_CONTEXT = context.CodecContext(None, bytearray(64))
super().__init__()
def test_start_session(self):
session_id_a = cache_codec.start_session()
self.assertIsNotNone(session_id_a)
session_id_b = cache_codec.start_session()
self.assertNotEqual(session_id_a, session_id_b)
cache.clear_all()
self.assertIsNone(get_active_session())
for session in cache_codec._SESSIONS:
self.assertEqual(session.session_id, b"")
self.assertEqual(session.last_usage, 0)
def test_end_session(self):
session_id = cache_codec.start_session()
self.assertTrue(is_session_started())
get_active_session().set(KEY, b"A")
cache_codec.end_current_session()
self.assertFalse(is_session_started())
self.assertIsNone(get_active_session())
# ending an ended session should be a no-op
cache_codec.end_current_session()
self.assertFalse(is_session_started())
session_id_a = cache_codec.start_session(session_id)
# original session no longer exists
self.assertNotEqual(session_id_a, session_id)
# original session data no longer exists
self.assertIsNone(get_active_session().get(KEY))
# create a new session
session_id_b = cache_codec.start_session()
# switch back to original session
session_id = cache_codec.start_session(session_id_a)
self.assertEqual(session_id, session_id_a)
# end original session
cache_codec.end_current_session()
# switch back to B
session_id = cache_codec.start_session(session_id_b)
self.assertEqual(session_id, session_id_b)
def test_session_queue(self):
session_id = cache_codec.start_session()
self.assertEqual(cache_codec.start_session(session_id), session_id)
get_active_session().set(KEY, b"A")
for i in range(_PROTOCOL_CACHE._MAX_SESSIONS_COUNT):
cache_codec.start_session()
self.assertNotEqual(cache_codec.start_session(session_id), session_id)
self.assertIsNone(get_active_session().get(KEY))
def test_get_set(self):
session_id1 = cache_codec.start_session()
cache_codec.get_active_session().set(KEY, b"hello")
self.assertEqual(cache_codec.get_active_session().get(KEY), b"hello")
session_id2 = cache_codec.start_session()
cache_codec.get_active_session().set(KEY, b"world")
self.assertEqual(cache_codec.get_active_session().get(KEY), b"world")
cache_codec.start_session(session_id2)
self.assertEqual(cache_codec.get_active_session().get(KEY), b"world")
cache_codec.start_session(session_id1)
self.assertEqual(cache_codec.get_active_session().get(KEY), b"hello")
cache.clear_all()
self.assertIsNone(cache_codec.get_active_session())
def test_get_set_int(self):
session_id1 = cache_codec.start_session()
get_active_session().set_int(KEY, 1234)
self.assertEqual(get_active_session().get_int(KEY), 1234)
session_id2 = cache_codec.start_session()
get_active_session().set_int(KEY, 5678)
self.assertEqual(get_active_session().get_int(KEY), 5678)
cache_codec.start_session(session_id2)
self.assertEqual(get_active_session().get_int(KEY), 5678)
cache_codec.start_session(session_id1)
self.assertEqual(get_active_session().get_int(KEY), 1234)
cache.clear_all()
self.assertIsNone(get_active_session())
def test_delete(self):
session_id1 = cache_codec.start_session()
self.assertIsNone(get_active_session().get(KEY))
get_active_session().set(KEY, b"hello")
self.assertEqual(get_active_session().get(KEY), b"hello")
get_active_session().delete(KEY)
self.assertIsNone(get_active_session().get(KEY))
get_active_session().set(KEY, b"hello")
cache_codec.start_session()
self.assertIsNone(get_active_session().get(KEY))
get_active_session().set(KEY, b"hello")
self.assertEqual(get_active_session().get(KEY), b"hello")
get_active_session().delete(KEY)
self.assertIsNone(get_active_session().get(KEY))
cache_codec.start_session(session_id1)
self.assertEqual(get_active_session().get(KEY), b"hello")
def test_decorators(self):
run_count = 0
cache_codec.start_session()
from apps.common.cache import stored
@stored(KEY)
def func():
nonlocal run_count
run_count += 1
return b"foo"
# cache is empty
self.assertIsNone(get_active_session().get(KEY))
self.assertEqual(run_count, 0)
self.assertEqual(func(), b"foo")
# function was run
self.assertEqual(run_count, 1)
self.assertEqual(get_active_session().get(KEY), b"foo")
# function does not run again but returns cached value
self.assertEqual(func(), b"foo")
self.assertEqual(run_count, 1)
def test_empty_value(self):
cache_codec.start_session()
self.assertIsNone(get_active_session().get(KEY))
get_active_session().set(KEY, b"")
self.assertEqual(get_active_session().get(KEY), b"")
get_active_session().delete(KEY)
run_count = 0
from apps.common.cache import stored
@stored(KEY)
def func():
nonlocal run_count
run_count += 1
return b""
self.assertEqual(func(), b"")
# function gets called once
self.assertEqual(run_count, 1)
self.assertEqual(func(), b"")
# function is not called for a second time
self.assertEqual(run_count, 1)
@mock_storage
def test_Initialize(self):
def call_Initialize(**kwargs):
msg = Initialize(**kwargs)
return await_result(handle_Initialize(msg))
# calling Initialize without an ID allocates a new one
session_id = cache_codec.start_session()
features = call_Initialize()
self.assertNotEqual(session_id, features.session_id)
# calling Initialize with the current ID does not allocate a new one
features = call_Initialize(session_id=session_id)
self.assertEqual(session_id, features.session_id)
# store "hello"
get_active_session().set(KEY, b"hello")
# check that it is cleared
features = call_Initialize()
session_id = features.session_id
self.assertIsNone(get_active_session().get(KEY))
# store "hello" again
get_active_session().set(KEY, b"hello")
self.assertEqual(get_active_session().get(KEY), b"hello")
# supplying a different session ID starts a new session
call_Initialize(session_id=b"A" * _PROTOCOL_CACHE.SESSION_ID_LENGTH)
self.assertIsNone(get_active_session().get(KEY))
# but resuming a session loads the previous one
call_Initialize(session_id=session_id)
self.assertEqual(get_active_session().get(KEY), b"hello")
def test_EndSession(self):
self.assertIsNone(get_active_session())
cache_codec.start_session()
self.assertTrue(is_session_started())
self.assertIsNone(get_active_session().get(KEY))
await_result(handle_EndSession(EndSession()))
self.assertFalse(is_session_started())
self.assertIsNone(cache_codec.get_active_session())
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if __name__ == "__main__":
unittest.main()