def test_decode_with_ref_cache():
embedded_A = MockObject(channel_id='0x3DE6B821E4fb4599653BF76FF60dC5FaF2e92De8')
A = MockObject(attr1=10, attr2='123', embedded=embedded_A)
decoded_A = JSONSerializer.deserialize(
JSONSerializer.serialize(A),
)
assert A == decoded_A
# Create an exact replica of A
embedded_B = MockObject(channel_id='0x3DE6B821E4fb4599653BF76FF60dC5FaF2e92De8')
B = MockObject(attr1=10, attr2='123', embedded=embedded_B)
decoded_B = JSONSerializer.deserialize(
JSONSerializer.serialize(B),
)
assert B == decoded_B
assert id(B) != id(decoded_B)
# Make sure that the original decoded A
# is returned
assert id(decoded_A) == id(decoded_B)
# Make sure no object is cached
RaidenJSONDecoder.cache_object_references = False
RaidenJSONDecoder.ref_cache.clear()
# Decode some object
decoded_B = JSONSerializer.deserialize(
JSONSerializer.serialize(B),
)
for _, cache_entries in RaidenJSONDecoder.ref_cache._cache.items():
assert len(cache_entries) == 0
def dispatch(self, state_change: StateChange) -> List[Event]:
""" Apply the `state_change` in the current machine and return the
resulting events.
Args:
state_change: An object representation of a state
change.
Return:
A list of events produced by the state transition.
It's the upper layer's responsibility to decided how to handle
these events.
"""
assert isinstance(state_change, StateChange)
# check state change serialization
try:
json = JSONSerializer.serialize(state_change)
restored = JSONSerializer.deserialize(json)
if state_change != restored:
log.error('Serialisation failed for:',
state_change.__class__.__name__)
except Exception:
log.error('Serialisation failed for:',
state_change.__class__.__name__)
# the state objects must be treated as immutable, so make a copy of the
# current state and pass the copy to the state machine to be modified.
next_state = deepcopy(self.current_state)
# update the current state by applying the change
iteration = self.state_transition(
next_state,
state_change,
)
assert isinstance(iteration, TransitionResult)
self.current_state = iteration.new_state
events = iteration.events
# check state serialization
state = self.current_state
if state is not None:
json = JSONSerializer.serialize(state)
restored = JSONSerializer.deserialize(json)
if state != restored:
compare_state_trees(state, restored)
assert isinstance(self.current_state, (State, type(None)))
assert all(isinstance(e, Event) for e in events)
return events
def test_actioninitchain_restore():
""" ActionInitChain *must* restore the previous pseudo random generator
state.
Message identifiers are used for confirmation messages, e.g. delivered and
processed messages, therefore it's important for each message identifier to
not collide with a previous identifier, for this reason the PRNG is used.
Additionally, during restarts the state changes are reapplied, and it's
really important for the re-execution of the state changes to be
deterministic, otherwise undefined behavior may happen. For this reason the
state of the PRNG must be restored.
If the above is not respected, the message ids generated during restart
will not match the previous IDs and the message queues won't be properly
cleared up.
"""
pseudo_random_generator = random.Random()
block_number = 577
our_address = factories.make_address()
chain_id = 777
original_obj = state_change.ActionInitChain(
pseudo_random_generator=pseudo_random_generator,
block_number=block_number,
block_hash=factories.make_block_hash(),
our_address=our_address,
chain_id=chain_id,
)
decoded_obj = JSONSerializer.deserialize(
JSONSerializer.serialize(original_obj))
assert original_obj == decoded_obj
def test_actioninitchain_restore():
""" ActionInitChain *must* restore the previous pseudo random generator
state.
Message identifiers are used for confirmation messages, e.g. delivered and
processed messages, therefore it's important for each message identifier to
not collide with a previous identifier, for this reason the PRNG is used.
Additionally, during restarts the state changes are reapplied, and it's
really important for the re-execution of the state changes to be
deterministic, otherwise undefined behavior may happen. For this reason the
state of the PRNG must be restored.
If the above is not respected, the message ids generated during restart
will not match the previous IDs and the message queues won't be properly
cleared up.
"""
pseudo_random_generator = random.Random()
block_number = 577
our_address = factories.make_address()
chain_id = 777
original_obj = state_change.ActionInitChain(
pseudo_random_generator,
block_number,
our_address,
chain_id,
)
decoded_obj = JSONSerializer.deserialize(
JSONSerializer.serialize(original_obj),
)
assert original_obj == decoded_obj
def test_object_custom_serialization():
# Simple encode/decode
original_obj = MockObject(attr1="Hello", attr2="World")
decoded_obj = JSONSerializer.deserialize(
JSONSerializer.serialize(original_obj))
assert original_obj == decoded_obj
# Encode/Decode with embedded objects
embedded_obj = MockObject(amount=1, identifier="123")
original_obj = MockObject(embedded=embedded_obj)
decoded_obj = JSONSerializer.deserialize(
JSONSerializer.serialize(original_obj))
assert original_obj == decoded_obj
assert decoded_obj.embedded.amount == 1
assert decoded_obj.embedded.identifier == "123"
def test_object_custom_serialization():
# Simple encode/decode
original_obj = MockObject(attr1="Hello", attr2="World")
decoded_obj = JSONSerializer.deserialize(
JSONSerializer.serialize(original_obj),
)
assert original_obj == decoded_obj
# Encode/Decode with embedded objects
embedded_obj = MockObject(amount=1, identifier='123')
original_obj = MockObject(embedded=embedded_obj)
decoded_obj = JSONSerializer.deserialize(
JSONSerializer.serialize(original_obj),
)
assert original_obj == decoded_obj
assert decoded_obj.embedded.amount == 1
assert decoded_obj.embedded.identifier == '123'
def test_chainstate_restore():
pseudo_random_generator = random.Random()
block_number = 577
our_address = factories.make_address()
chain_id = 777
original_obj = state.ChainState(
pseudo_random_generator=pseudo_random_generator,
block_number=block_number,
our_address=our_address,
chain_id=chain_id,
)
decoded_obj = JSONSerializer.deserialize(
JSONSerializer.serialize(original_obj), )
assert original_obj == decoded_obj
def test_chainstate_restore():
pseudo_random_generator = random.Random()
block_number = 577
our_address = factories.make_address()
chain_id = 777
original_obj = state.ChainState(
pseudo_random_generator=pseudo_random_generator,
block_number=block_number,
our_address=our_address,
chain_id=chain_id,
)
decoded_obj = JSONSerializer.deserialize(
JSONSerializer.serialize(original_obj),
)
assert original_obj == decoded_obj
def send_delivered_for(message: SignedMessage):
delivered_message = Delivered(message.message_identifier)
self._raiden_service.sign(delivered_message)
self._send_raw(message.sender, JSONSerializer.serialize(delivered_message))
