294 lines
10 KiB
Python
294 lines
10 KiB
Python
import asyncio
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import uuid
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from .pb import rpc_pb2_grpc
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from .pb import rpc_pb2
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from .pubsub_notifee import PubsubNotifee
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class Pubsub():
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# pylint: disable=too-many-instance-attributes
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def __init__(self, host, router, my_id):
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"""
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Construct a new Pubsub object, which is responsible for handling all
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Pubsub-related messages and relaying messages as appropriate to the
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Pubsub router (which is responsible for choosing who to send messages to).
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Since the logic for choosing peers to send pubsub messages to is
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in the router, the same Pubsub impl can back floodsub, gossipsub, etc.
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"""
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self.host = host
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self.router = router
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self.my_id = my_id
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# Attach this new Pubsub object to the router
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self.router.attach(self)
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# Register a notifee
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self.peer_queue = asyncio.Queue()
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self.host.get_network().notify(PubsubNotifee(self.peer_queue))
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# Register stream handlers for each pubsub router protocol to handle
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# the pubsub streams opened on those protocols
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self.protocols = self.router.get_protocols()
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for protocol in self.protocols:
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self.host.set_stream_handler(protocol, self.stream_handler)
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# TODO: determine if these need to be asyncio queues, or if could possibly
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# be ordinary blocking queues
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self.incoming_msgs_from_peers = asyncio.Queue()
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self.outgoing_messages = asyncio.Queue()
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# TODO: Make seen_messages a cache (LRU cache?)
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self.seen_messages = []
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# Map of topics we are subscribed to to handler functions
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# for when the given topic receives a message
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self.my_topics = {}
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# Map of topic to peers to keep track of what peers are subscribed to
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self.peer_topics = {}
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# Create peers map, which maps peer_id (as string) to stream (to a given peer)
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self.peers = {}
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# Call handle peer to keep waiting for updates to peer queue
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asyncio.ensure_future(self.handle_peer_queue())
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def get_hello_packet(self):
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"""
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Generate subscription message with all topics we are subscribed to
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only send hello packet if we have subscribed topics
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"""
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packet = rpc_pb2.RPC()
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if self.my_topics:
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for topic_id in self.my_topics:
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packet.subscriptions.extend([rpc_pb2.RPC.SubOpts(
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subscribe=True, topicid=topic_id)])
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# message = rpc_pb2.Message(
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# from_id=str(self.host.get_id()).encode('utf-8'),
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# seqno=str(generate_message_id()).encode('utf-8')
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# )
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# packet.publish.extend([message])
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return packet.SerializeToString()
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async def continuously_read_stream(self, stream):
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"""
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Read from input stream in an infinite loop. Process
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messages from other nodes
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:param stream: stream to continously read from
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"""
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# TODO check on types here
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print ("++++++++++ASPYN+++++++++++++++++")
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peer_id = str(stream.mplex_conn.peer_id)
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while True:
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print ("HIT ME")
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incoming = (await stream.read())
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rpc_incoming = rpc_pb2.RPC()
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rpc_incoming.ParseFromString(incoming)
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print ("IN PUBSUB CONTINUOUSLY READ")
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print (rpc_incoming)
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print ("###########################")
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should_publish = False
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if rpc_incoming.publish:
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# deal with RPC.publish
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for message in rpc_incoming.publish:
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if message.seqno not in self.seen_messages:
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should_publish = True
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self.seen_messages.append(message.seqno)
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await self.handle_talk(peer_id, message)
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if rpc_incoming.subscriptions:
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# deal with RPC.subscriptions
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# We don't need to relay the subscription to our
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# peers because a given node only needs its peers
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# to know that it is subscribed to the topic (doesn't
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# need everyone to know)
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for message in rpc_incoming.subscriptions:
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if message.subscribe:
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self.handle_subscription(peer_id, message)
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if should_publish:
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# relay message to peers with router
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await self.router.publish(peer_id, incoming)
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# Force context switch
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await asyncio.sleep(0)
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async def stream_handler(self, stream):
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"""
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Stream handler for pubsub. Gets invoked whenever a new stream is created
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on one of the supported pubsub protocols.
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:param stream: newly created stream
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"""
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# Add peer
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# Map peer to stream
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peer_id = stream.mplex_conn.peer_id
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self.peers[str(peer_id)] = stream
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self.router.add_peer(peer_id, stream.get_protocol())
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# Send hello packet
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hello = self.get_hello_packet()
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await stream.write(hello)
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# Pass stream off to stream reader
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asyncio.ensure_future(self.continuously_read_stream(stream))
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async def handle_peer_queue(self):
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"""
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Continuously read from peer queue and each time a new peer is found,
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open a stream to the peer using a supported pubsub protocol
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TODO: Handle failure for when the peer does not support any of the
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pubsub protocols we support
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"""
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while True:
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print ("PUBSUB HANDLE PEER QUEUE")
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peer_id = await self.peer_queue.get()
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print (peer_id)
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print ("++++++++++++++++++++++++")
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# Open a stream to peer on existing connection
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# (we know connection exists since that's the only way
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# an element gets added to peer_queue)
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stream = await self.host.new_stream(peer_id, self.protocols)
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# Add Peer
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# Map peer to stream
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self.peers[str(peer_id)] = stream
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self.router.add_peer(peer_id, stream.get_protocol())
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# Send hello packet
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hello = self.get_hello_packet()
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await stream.write(hello)
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# Pass stream off to stream reader
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asyncio.ensure_future(self.continuously_read_stream(stream))
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# Force context switch
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await asyncio.sleep(0)
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def handle_subscription(self, peer_id, sub_message):
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"""
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Handle an incoming subscription message from a peer. Update internal
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mapping to mark the peer as subscribed or unsubscribed to topics as
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defined in the subscription message
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:param origin_id: id of the peer who subscribe to the message
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:param sub_message: RPC.SubOpts
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"""
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# TODO verify logic here
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if sub_message.subscribe:
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if sub_message.topicid not in self.peer_topics:
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self.peer_topics[sub_message.topicid] = [peer_id]
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elif peer_id not in self.peer_topics[sub_message.topicid]:
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# Add peer to topic
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self.peer_topics[sub_message.topicid].append(peer_id)
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else:
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# TODO: Remove peer from topic
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pass
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async def handle_talk(self, peer_id, publish_message):
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"""
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Put incoming message from a peer onto my blocking queue
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:param peer_id: peer id whom forwarded this message
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:param talk: RPC.Message format
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"""
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# Check if this message has any topics that we are subscribed to
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for topic in publish_message.topicIDs:
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if topic in self.my_topics:
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# we are subscribed to a topic this message was sent for,
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# so add message to the subscription output queue
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# for each topic
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await self.my_topics[topic].put(publish_message)
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async def subscribe(self, topic_id):
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"""
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Subscribe ourself to a topic
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:param topic_id: topic_id to subscribe to
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"""
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# Map topic_id to blocking queue
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print ("**PUBSUB** in SUBSCRIBE")
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self.my_topics[topic_id] = asyncio.Queue()
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# Create subscribe message
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packet = rpc_pb2.RPC()
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# packet.publish.extend([rpc_pb2.Message(
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# from_id=str(self.host.get_id()).encode('utf-8'),
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# seqno=str(generate_message_id()).encode('utf-8')
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# )])
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packet.subscriptions.extend([rpc_pb2.RPC.SubOpts(
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subscribe = True,
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topicid = topic_id.encode('utf-8')
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)])
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print (packet)
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print ("**PUBSUB** PEEERS")
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print (self.peers)
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# Send out subscribe message to all peers
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await self.message_all_peers(packet.SerializeToString())
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# Tell router we are joining this topic
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self.router.join(topic_id)
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# Return the asyncio queue for messages on this topic
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return self.my_topics[topic_id]
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async def unsubscribe(self, topic_id):
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"""
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Unsubscribe ourself from a topic
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:param topic_id: topic_id to unsubscribe from
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"""
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# Remove topic_id from map if present
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if topic_id in self.my_topics:
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del self.my_topics[topic_id]
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# Create unsubscribe message
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packet = rpc_pb2.RPC()
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# packet.publish.extend([rpc_pb2.Message(
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# from_id=str(self.host.get_id()).encode('utf-8'),
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# seqno=str(generate_message_id()).encode('utf-8')
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# )])
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packet.subscriptions.extend([rpc_pb2.RPC.SubOpts(
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subscribe = False,
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topicid = topic_id.encode('utf-8')
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)])
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# Send out unsubscribe message to all peers
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await self.message_all_peers(packet.SerializeToString())
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# Tell router we are leaving this topic
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self.router.leave(topic_id)
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async def message_all_peers(self, rpc_msg):
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"""
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Broadcast a message to peers
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:param raw_msg: raw contents of the message to broadcast
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"""
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print ("**PUBSU** IN MESSAGE ALL PEERS")
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print (rpc_msg)
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# Broadcast message
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for peer in self.peers:
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stream = self.peers[peer]
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# Write message to stream
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await stream.write(rpc_msg)
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def generate_message_id():
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"""
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Generate a unique message id
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:return: messgae id
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"""
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return str(uuid.uuid1())
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