1
0
mirror of https://github.com/trezor/trezor-firmware.git synced 2024-12-15 10:58:09 +00:00
trezor-firmware/core/tests/test_storage.cache.py
Ondřej Vejpustek 97b2e6c751 style(core/tests): fix warnings
[no changelog]
2024-12-06 16:14:54 +01:00

243 lines
8.4 KiB
Python

# flake8: noqa: F403,F405
from common import * # isort:skip
from mock_storage import mock_storage
from storage import cache, cache_codec, cache_common
from trezor.messages import EndSession, Initialize
from trezor.wire import context
from trezor.wire.codec.codec_context import CodecContext
from apps.base import handle_EndSession, handle_Initialize
from apps.common.cache import stored, stored_async
KEY = 0
# Function moved from cache.py, as it was not used there
def is_session_started() -> bool:
return cache_codec._active_session_idx is not None
class TestStorageCache(unittest.TestCase):
def setUpClass(self):
context.CURRENT_CONTEXT = CodecContext(None, bytearray(64))
def tearDownClass(self):
context.CURRENT_CONTEXT = None
def setUp(self):
cache.clear_all()
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()
with self.assertRaises(cache_common.InvalidSessionError):
context.cache_set(KEY, "something")
with self.assertRaises(cache_common.InvalidSessionError):
context.cache_get(KEY)
def test_end_session(self):
session_id = cache_codec.start_session()
self.assertTrue(is_session_started())
context.cache_set(KEY, b"A")
cache_codec.end_current_session()
self.assertFalse(is_session_started())
self.assertRaises(cache_common.InvalidSessionError, context.cache_get, KEY)
# 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(context.cache_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)
context.cache_set(KEY, b"A")
for _ in range(cache_codec._MAX_SESSIONS_COUNT):
cache_codec.start_session()
self.assertNotEqual(cache_codec.start_session(session_id), session_id)
self.assertIsNone(context.cache_get(KEY))
def test_get_set(self):
session_id1 = cache_codec.start_session()
context.cache_set(KEY, b"hello")
self.assertEqual(context.cache_get(KEY), b"hello")
session_id2 = cache_codec.start_session()
context.cache_set(KEY, b"world")
self.assertEqual(context.cache_get(KEY), b"world")
cache_codec.start_session(session_id2)
self.assertEqual(context.cache_get(KEY), b"world")
cache_codec.start_session(session_id1)
self.assertEqual(context.cache_get(KEY), b"hello")
cache.clear_all()
with self.assertRaises(cache_common.InvalidSessionError):
context.cache_get(KEY)
def test_get_set_int(self):
session_id1 = cache_codec.start_session()
context.cache_set_int(KEY, 1234)
self.assertEqual(context.cache_get_int(KEY), 1234)
session_id2 = cache_codec.start_session()
context.cache_set_int(KEY, 5678)
self.assertEqual(context.cache_get_int(KEY), 5678)
cache_codec.start_session(session_id2)
self.assertEqual(context.cache_get_int(KEY), 5678)
cache_codec.start_session(session_id1)
self.assertEqual(context.cache_get_int(KEY), 1234)
cache.clear_all()
with self.assertRaises(cache_common.InvalidSessionError):
context.cache_get_int(KEY)
def test_delete(self):
session_id1 = cache_codec.start_session()
self.assertIsNone(context.cache_get(KEY))
context.cache_set(KEY, b"hello")
self.assertEqual(context.cache_get(KEY), b"hello")
context.cache_delete(KEY)
self.assertIsNone(context.cache_get(KEY))
context.cache_set(KEY, b"hello")
cache_codec.start_session()
self.assertIsNone(context.cache_get(KEY))
context.cache_set(KEY, b"hello")
self.assertEqual(context.cache_get(KEY), b"hello")
context.cache_delete(KEY)
self.assertIsNone(context.cache_get(KEY))
cache_codec.start_session(session_id1)
self.assertEqual(context.cache_get(KEY), b"hello")
def test_decorators(self):
run_count = 0
cache_codec.start_session()
@stored(KEY)
def func():
nonlocal run_count
run_count += 1
return b"foo"
# cache is empty
self.assertIsNone(context.cache_get(KEY))
self.assertEqual(run_count, 0)
self.assertEqual(func(), b"foo")
# function was run
self.assertEqual(run_count, 1)
self.assertEqual(context.cache_get(KEY), b"foo")
# function does not run again but returns cached value
self.assertEqual(func(), b"foo")
self.assertEqual(run_count, 1)
@stored_async(KEY)
async def async_func():
nonlocal run_count
run_count += 1
return b"bar"
# cache is still full
self.assertEqual(await_result(async_func()), b"foo")
self.assertEqual(run_count, 1)
cache_codec.start_session()
self.assertEqual(await_result(async_func()), b"bar")
self.assertEqual(run_count, 2)
# awaitable is also run only once
self.assertEqual(await_result(async_func()), b"bar")
self.assertEqual(run_count, 2)
def test_empty_value(self):
cache_codec.start_session()
self.assertIsNone(context.cache_get(KEY))
context.cache_set(KEY, b"")
self.assertEqual(context.cache_get(KEY), b"")
context.cache_delete(KEY)
run_count = 0
@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"
context.cache_set(KEY, b"hello")
# check that it is cleared
features = call_Initialize()
session_id = features.session_id
self.assertIsNone(context.cache_get(KEY))
# store "hello" again
context.cache_set(KEY, b"hello")
self.assertEqual(context.cache_get(KEY), b"hello")
# supplying a different session ID starts a new cache
call_Initialize(session_id=b"A" * cache_codec.SESSION_ID_LENGTH)
self.assertIsNone(context.cache_get(KEY))
# but resuming a session loads the previous one
call_Initialize(session_id=session_id)
self.assertEqual(context.cache_get(KEY), b"hello")
def test_EndSession(self):
self.assertRaises(cache_common.InvalidSessionError, context.cache_get, KEY)
cache_codec.start_session()
self.assertTrue(is_session_started())
self.assertIsNone(context.cache_get(KEY))
await_result(handle_EndSession(EndSession()))
self.assertFalse(is_session_started())
self.assertRaises(cache_common.InvalidSessionError, context.cache_get, KEY)
if __name__ == "__main__":
unittest.main()