def allow_to_enter(self, broker, message_id):
self.clock_adjustments()
message = build_message_between_brokers(OperationType.ALLOW.value,
self.clock, "", self.broker_id,
message_id)
message_bytes = general_encode(self.serialization, message)
send_message_packed_with_size_to_another_broker(broker, message_bytes)
print(f'Sent allow for {message_id} to enter')
def handle_list(self, conn):
nodes = [topic.path for topic in self.trie.find_all_nodes()]
connection_info = self.connections[conn]
serialization = connection_info.serialization
if len(nodes) == 0:
nodes = "No topics yet"
message = build_message(serialization, OperationType.LIST.value, None,
nodes)
message_bytes = general_encode(serialization, message)
connection_info.send(message_bytes)
def connect_to_brokers(self):
print('Waiting for brokers.')
time.sleep(5)
self.brokers_dict = {
p: ExternalBroker(socket.create_connection(('localhost', p)), p)
for p in self.brokers_ports
}
send_to_all_brokers(self.brokers_dict.values(),
str.encode(self.serialization))
message = build_message_between_brokers(OperationType.GREETING.value,
self.clock, "", self.broker_id)
message_bytes = general_encode(self.serialization, message)
send_to_all_brokers(self.brokers_dict.values(), message_bytes)
def release(self):
self.clock_adjustments()
first_request = self.request_queue[0]
if first_request.broker_id == self.broker_id:
message = build_message_between_brokers(
OperationType.RELEASE.value, self.clock, "", self.broker_id,
first_request.message_id)
message_bytes = general_encode(self.serialization, message)
send_to_all_brokers(self.brokers_dict.values(), message_bytes)
print(f"Sent release for {first_request.message_id}")
print(f"Publishing {first_request.message_id}")
self.publish(first_request.message)
self.clean_up_queue(first_request.message_id)
def handle_subscribe(self, conn, topic_node: Node, message):
if topic_node is None:
self.remove_closed_connection(conn)
print(f"Unknown topic path: {message['topic']}")
return
connection_info = self.connections[conn]
topic_node.topic.add_subscriber(connection_info)
connection_info.add_subscribed_topic(topic_node.topic)
# TODO: handle messages in other brokers
last_message = topic_node.topic.last_message
if last_message is not None:
message_bytes = general_encode(connection_info.serialization,
last_message)
connection_info.send(message_bytes)
def publish(self, message):
topic_path = message["topic"]
topic_node = self.trie.find_node(topic_path)
relevant_topics = topic_node.find_ancestors_and_self()
update_last_message(relevant_topics, message)
message_cache = {
} # Key: SerializationType, Value: corresponding encoded message
for topic in relevant_topics:
for subscriber in topic.subscribers: # each subscriber is a ConnectionInfo
subscriber_serialization = subscriber.serialization
# Check if the serialized message already exists in the cache
if subscriber_serialization in message_cache:
subscriber.send(message_cache[subscriber_serialization])
# If not, go through the encoding process
else:
message_bytes = general_encode(subscriber_serialization,
message)
message_cache[subscriber_serialization] = message_bytes
subscriber.send(message_bytes)
def request_to_enter(self, topic_node, message):
self.clock_adjustments()
timestamp = message["timestamp"]
content = message["content"]
serialization = message["serialization"]
message_to_publish = build_message(serialization,
OperationType.PUBLISH.value,
topic_node.topic.path, content,
timestamp)
enter_message = build_message_between_brokers(
OperationType.ENTER.value, self.clock, message_to_publish,
self.broker_id)
request = Request(OperationType.ENTER.value, self.clock,
enter_message["message_id"], self.broker_id,
message_to_publish)
self.request_queue.append(request)
self.sort_queue()
message_bytes = general_encode(self.serialization, enter_message)
send_to_all_brokers(self.brokers_dict.values(), message_bytes)
print(f"Sent enter for {enter_message['message_id']}")
def cancel(self):
message = build_message(self.serialization_type,
OperationType.CANCEL.value, self.topic, "")
message_bytes = general_encode(self.serialization_type, message)
send_message_packed_with_size(self.queue_socket, message_bytes)
self.subscribed = False
def list(self):
message = build_message(self.serialization_type,
OperationType.LIST.value, None, "")
message_bytes = general_encode(self.serialization_type, message)
send_message_packed_with_size(self.queue_socket, message_bytes)
def subscribe(self):
message = build_message(self.serialization_type,
OperationType.SUBSCRIBE.value, self.topic, "")
message_bytes = general_encode(self.serialization_type, message)
send_message_packed_with_size(self.queue_socket, message_bytes)
self.subscribed = True
def push(self, value):
message = build_message(self.serialization_type,
OperationType.PUBLISH.value, self.topic, value)
message_bytes = general_encode(self.serialization_type, message)
send_message_packed_with_size(self.queue_socket, message_bytes)
