551 lines
22 KiB
Python
551 lines
22 KiB
Python
import random
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import asyncio
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from ast import literal_eval
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from .pb import rpc_pb2
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from .pubsub_router_interface import IPubsubRouter
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from .mcache import MessageCache
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class GossipSub(IPubsubRouter):
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# pylint: disable=no-member
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# pylint: disable=too-many-instance-attributes
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# pylint: disable=too-many-public-methods
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def __init__(self, protocols, degree, degree_low, degree_high, time_to_live, gossip_window=3,
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gossip_history=5, heartbeat_interval=120):
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# pylint: disable=too-many-arguments
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self.protocols = protocols
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self.pubsub = None
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# Store target degree, upper degree bound, and lower degree bound
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self.degree = degree
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self.degree_high = degree_high
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self.degree_low = degree_low
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# Store time to live (for topics in fanout)
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self.time_to_live = time_to_live
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# Create topic --> list of peers mappings
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self.mesh = {}
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self.fanout = {}
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# Create topic --> time since last publish map
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self.time_since_last_publish = {}
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self.peers_gossipsub = []
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self.peers_floodsub = []
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# Create message cache
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self.mcache = MessageCache(gossip_window, gossip_history)
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# Create heartbeat timer
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self.heartbeat_interval = heartbeat_interval
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# Interface functions
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def get_protocols(self):
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"""
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:return: the list of protocols supported by the router
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"""
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return self.protocols
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def attach(self, pubsub):
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"""
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Attach is invoked by the PubSub constructor to attach the router to a
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freshly initialized PubSub instance.
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:param pubsub: pubsub instance to attach to
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"""
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self.pubsub = pubsub
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# Start heartbeat now that we have a pubsub instance
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# TODO: Start after delay
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asyncio.ensure_future(self.heartbeat())
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def add_peer(self, peer_id, protocol_id):
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"""
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Notifies the router that a new peer has been connected
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:param peer_id: id of peer to add
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"""
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# Add peer to the correct peer list
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peer_type = GossipSub.get_peer_type(protocol_id)
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peer_id_str = str(peer_id)
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if peer_type == "gossip":
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self.peers_gossipsub.append(peer_id_str)
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elif peer_type == "flood":
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self.peers_floodsub.append(peer_id_str)
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def remove_peer(self, peer_id):
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"""
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Notifies the router that a peer has been disconnected
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:param peer_id: id of peer to remove
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"""
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peer_id_str = str(peer_id)
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self.peers_to_protocol.remove(peer_id_str)
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async def handle_rpc(self, rpc, sender_peer_id):
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"""
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Invoked to process control messages in the RPC envelope.
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It is invoked after subscriptions and payload messages have been processed
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:param rpc: rpc message
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"""
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control_message = rpc.control
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# Relay each rpc control to the appropriate handler
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if control_message.ihave:
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for ihave in control_message.ihave:
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await self.handle_ihave(ihave, sender_peer_id)
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if control_message.iwant:
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for iwant in control_message.iwant:
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await self.handle_iwant(iwant, sender_peer_id)
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if control_message.graft:
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for graft in control_message.graft:
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await self.handle_graft(graft, sender_peer_id)
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if control_message.prune:
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for prune in control_message.prune:
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await self.handle_prune(prune, sender_peer_id)
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async def publish(self, sender_peer_id, rpc_message):
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# pylint: disable=too-many-locals
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"""
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Invoked to forward a new message that has been validated.
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"""
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packet = rpc_pb2.RPC()
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packet.ParseFromString(rpc_message)
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msg_sender = str(sender_peer_id)
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# Deliver to self if self was origin
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# Note: handle_talk checks if self is subscribed to topics in message
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for message in packet.publish:
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# Add RPC message to cache
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self.mcache.put(message)
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decoded_from_id = message.from_id.decode('utf-8')
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new_packet = rpc_pb2.RPC()
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new_packet.publish.extend([message])
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new_packet_serialized = new_packet.SerializeToString()
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# Deliver to self if needed
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if msg_sender == decoded_from_id and msg_sender == str(self.pubsub.host.get_id()):
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id_in_seen_msgs = (message.seqno, message.from_id)
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if id_in_seen_msgs not in self.pubsub.seen_messages:
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self.pubsub.seen_messages[id_in_seen_msgs] = 1
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await self.pubsub.handle_talk(message)
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# Deliver to peers
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for topic in message.topicIDs:
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# If topic has floodsub peers, deliver to floodsub peers
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# TODO: This can be done more efficiently. Do it more efficiently.
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floodsub_peers_in_topic = []
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if topic in self.pubsub.peer_topics:
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for peer in self.pubsub.peer_topics[topic]:
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if str(peer) in self.peers_floodsub:
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floodsub_peers_in_topic.append(peer)
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await self.deliver_messages_to_peers(floodsub_peers_in_topic, msg_sender,
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decoded_from_id, new_packet_serialized)
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# If you are subscribed to topic, send to mesh, otherwise send to fanout
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if topic in self.pubsub.my_topics and topic in self.mesh:
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await self.deliver_messages_to_peers(self.mesh[topic], msg_sender,
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decoded_from_id, new_packet_serialized)
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else:
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# Send to fanout peers
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if topic not in self.fanout:
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# If no peers in fanout, choose some peers from gossipsub peers in topic
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gossipsub_peers_in_topic = [peer for peer in self.pubsub.peer_topics[topic]
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if peer in self.peers_gossipsub]
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selected = \
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GossipSub.select_from_minus(self.degree, gossipsub_peers_in_topic, [])
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self.fanout[topic] = selected
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# TODO: Is topic DEFINITELY supposed to be in fanout if we are not subscribed?
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# I assume there could be short periods between heartbeats where topic may not
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# be but we should check that this path gets hit appropriately
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await self.deliver_messages_to_peers(self.fanout[topic], msg_sender,
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decoded_from_id, new_packet_serialized)
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async def join(self, topic):
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# Note: the comments here are the near-exact algorithm description from the spec
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"""
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Join notifies the router that we want to receive and
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forward messages in a topic. It is invoked after the
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subscription announcement
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:param topic: topic to join
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"""
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if topic in self.mesh:
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return
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# Create mesh[topic] if it does not yet exist
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self.mesh[topic] = []
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topic_in_fanout = topic in self.fanout
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fanout_peers = self.fanout[topic] if topic_in_fanout else []
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fanout_size = len(fanout_peers)
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if not topic_in_fanout or (topic_in_fanout and fanout_size < self.degree):
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# There are less than D peers (let this number be x)
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# in the fanout for a topic (or the topic is not in the fanout).
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# Selects the remaining number of peers (D-x) from peers.gossipsub[topic].
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if topic in self.pubsub.peer_topics:
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gossipsub_peers_in_topic = [peer for peer in self.pubsub.peer_topics[topic]
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if peer in self.peers_gossipsub]
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selected_peers = \
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GossipSub.select_from_minus(self.degree - fanout_size,
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gossipsub_peers_in_topic,
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fanout_peers)
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# Combine fanout peers with selected peers
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fanout_peers += selected_peers
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# Add fanout peers to mesh and notifies them with a GRAFT(topic) control message.
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for peer in fanout_peers:
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if peer not in self.mesh[topic]:
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self.mesh[topic].append(peer)
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await self.emit_graft(topic, peer)
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if topic_in_fanout:
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del self.fanout[topic]
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async def leave(self, topic):
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# Note: the comments here are the near-exact algorithm description from the spec
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"""
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Leave notifies the router that we are no longer interested in a topic.
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It is invoked after the unsubscription announcement.
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:param topic: topic to leave
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"""
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if topic not in self.mesh:
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return
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# Notify the peers in mesh[topic] with a PRUNE(topic) message
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for peer in self.mesh[topic]:
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await self.emit_prune(topic, peer)
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# Forget mesh[topic]
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self.mesh.pop(topic, None)
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# Interface Helper Functions
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@staticmethod
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def get_peer_type(protocol_id):
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# TODO: Do this in a better, more efficient way
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if "gossipsub" in protocol_id:
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return "gossip"
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if "floodsub" in protocol_id:
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return "flood"
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return "unknown"
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async def deliver_messages_to_peers(self, peers, msg_sender, origin_id, serialized_packet):
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for peer_id_in_topic in peers:
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# Forward to all peers that are not the
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# message sender and are not the message origin
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if peer_id_in_topic not in (msg_sender, origin_id):
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stream = self.pubsub.peers[peer_id_in_topic]
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# Publish the packet
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await stream.write(serialized_packet)
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# Heartbeat
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async def heartbeat(self):
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"""
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Call individual heartbeats.
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Note: the heartbeats are called with awaits because each heartbeat depends on the
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state changes in the preceding heartbeat
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"""
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while True:
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await self.mesh_heartbeat()
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await self.fanout_heartbeat()
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await self.gossip_heartbeat()
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await asyncio.sleep(self.heartbeat_interval)
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async def mesh_heartbeat(self):
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# Note: the comments here are the exact pseudocode from the spec
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for topic in self.mesh:
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# Skip if no peers have subscribed to the topic
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if topic not in self.pubsub.peer_topics:
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continue
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num_mesh_peers_in_topic = len(self.mesh[topic])
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if num_mesh_peers_in_topic < self.degree_low:
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gossipsub_peers_in_topic = [peer for peer in self.pubsub.peer_topics[topic]
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if peer in self.peers_gossipsub]
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# Select D - |mesh[topic]| peers from peers.gossipsub[topic] - mesh[topic]
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selected_peers = GossipSub.select_from_minus(
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self.degree - num_mesh_peers_in_topic,
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gossipsub_peers_in_topic,
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self.mesh[topic]
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)
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fanout_peers_not_in_mesh = [
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peer
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for peer in selected_peers
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if peer not in self.mesh[topic]
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]
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for peer in fanout_peers_not_in_mesh:
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# Add peer to mesh[topic]
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self.mesh[topic].append(peer)
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# Emit GRAFT(topic) control message to peer
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await self.emit_graft(topic, peer)
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if num_mesh_peers_in_topic > self.degree_high:
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# Select |mesh[topic]| - D peers from mesh[topic]
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selected_peers = GossipSub.select_from_minus(num_mesh_peers_in_topic - self.degree,
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self.mesh[topic], [])
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for peer in selected_peers:
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# Remove peer from mesh[topic]
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self.mesh[topic].remove(peer)
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# Emit PRUNE(topic) control message to peer
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await self.emit_prune(topic, peer)
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async def fanout_heartbeat(self):
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# Note: the comments here are the exact pseudocode from the spec
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for topic in self.fanout:
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# If time since last published > ttl
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# TODO: there's no way time_since_last_publish gets set anywhere yet
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if self.time_since_last_publish[topic] > self.time_to_live:
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# Remove topic from fanout
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del self.fanout[topic]
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self.time_since_last_publish.remove(topic)
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else:
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num_fanout_peers_in_topic = len(self.fanout[topic])
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# If |fanout[topic]| < D
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if num_fanout_peers_in_topic < self.degree:
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# Select D - |fanout[topic]| peers from peers.gossipsub[topic] - fanout[topic]
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gossipsub_peers_in_topic = [peer for peer in self.pubsub.peer_topics[topic]
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if peer in self.peers_gossipsub]
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selected_peers = \
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GossipSub.select_from_minus(self.degree - num_fanout_peers_in_topic,
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gossipsub_peers_in_topic, self.fanout[topic])
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# Add the peers to fanout[topic]
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self.fanout[topic].extend(selected_peers)
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async def gossip_heartbeat(self):
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# pylint: disable=too-many-nested-blocks
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for topic in self.mesh:
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msg_ids = self.mcache.window(topic)
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if msg_ids:
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# TODO: Make more efficient, possibly using a generator?
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# Get all pubsub peers in a topic and only add them if they are gossipsub peers too
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if topic in self.pubsub.peer_topics:
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gossipsub_peers_in_topic = [peer for peer in self.pubsub.peer_topics[topic]
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if peer in self.peers_gossipsub]
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# Select D peers from peers.gossipsub[topic]
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peers_to_emit_ihave_to = \
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GossipSub.select_from_minus(self.degree, gossipsub_peers_in_topic, [])
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for peer in peers_to_emit_ihave_to:
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# TODO: this line is a monster, can hopefully be simplified
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if (topic not in self.mesh or (peer not in self.mesh[topic]))\
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and (topic not in self.fanout or (peer not in self.fanout[topic])):
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msg_ids = [str(msg) for msg in msg_ids]
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await self.emit_ihave(topic, msg_ids, peer)
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# Do the same for fanout, for all topics not already hit in mesh
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for topic in self.fanout:
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if topic not in self.mesh:
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msg_ids = self.mcache.window(topic)
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if msg_ids:
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# TODO: Make more efficient, possibly using a generator?
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# Get all pubsub peers in topic and only add if they are gossipsub peers also
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if topic in self.pubsub.peer_topics:
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gossipsub_peers_in_topic = [peer for peer in self.pubsub.peer_topics[topic]
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if peer in self.peers_gossipsub]
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# Select D peers from peers.gossipsub[topic]
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peers_to_emit_ihave_to = \
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GossipSub.select_from_minus(self.degree, gossipsub_peers_in_topic, [])
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for peer in peers_to_emit_ihave_to:
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if peer not in self.mesh[topic] and peer not in self.fanout[topic]:
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msg_ids = [str(msg) for msg in msg_ids]
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await self.emit_ihave(topic, msg_ids, peer)
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self.mcache.shift()
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@staticmethod
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def select_from_minus(num_to_select, pool, minus):
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"""
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Select at most num_to_select subset of elements from the set (pool - minus) randomly.
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:param num_to_select: number of elements to randomly select
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:param pool: list of items to select from (excluding elements in minus)
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:param minus: elements to be excluded from selection pool
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:return: list of selected elements
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"""
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# Create selection pool, which is selection_pool = pool - minus
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if minus:
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# Create a new selection pool by removing elements of minus
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selection_pool = [x for x in pool if x not in minus]
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else:
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# Don't create a new selection_pool if we are not subbing anything
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selection_pool = pool
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# If num_to_select > size(selection_pool), then return selection_pool (which has the most
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# possible elements s.t. the number of elements is less than num_to_select)
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if num_to_select > len(selection_pool):
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return selection_pool
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# Random selection
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selection = random.sample(selection_pool, num_to_select)
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return selection
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# RPC handlers
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async def handle_ihave(self, ihave_msg, sender_peer_id):
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"""
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Checks the seen set and requests unknown messages with an IWANT message.
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"""
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# from_id_bytes = ihave_msg.from_id
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from_id_str = sender_peer_id
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# Get list of all seen (seqnos, from) from the (seqno, from) tuples in seen_messages cache
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seen_seqnos_and_peers = [seqno_and_from
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for seqno_and_from in self.pubsub.seen_messages.keys()]
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# Add all unknown message ids (ids that appear in ihave_msg but not in seen_seqnos) to list
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# of messages we want to request
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msg_ids_wanted = [msg_id for msg_id in ihave_msg.messageIDs
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if literal_eval(msg_id) not in seen_seqnos_and_peers]
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# Request messages with IWANT message
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if msg_ids_wanted:
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await self.emit_iwant(msg_ids_wanted, from_id_str)
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async def handle_iwant(self, iwant_msg, sender_peer_id):
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"""
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Forwards all request messages that are present in mcache to the requesting peer.
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"""
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from_id_str = sender_peer_id
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msg_ids = [literal_eval(msg) for msg in iwant_msg.messageIDs]
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msgs_to_forward = []
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for msg_id_iwant in msg_ids:
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# Check if the wanted message ID is present in mcache
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msg = self.mcache.get(msg_id_iwant)
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# Cache hit
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if msg:
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# Add message to list of messages to forward to requesting peers
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msgs_to_forward.append(msg)
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# Forward messages to requesting peer
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# Should this just be publishing? No
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# because then the message will forwarded to peers in the topics contained in the messages.
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# We should
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# 1) Package these messages into a single packet
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packet = rpc_pb2.RPC()
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packet.publish.extend(msgs_to_forward)
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# 2) Serialize that packet
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rpc_msg = packet.SerializeToString()
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# 3) Get the stream to this peer
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# TODO: Should we pass in from_id or from_id_str here?
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peer_stream = self.pubsub.peers[from_id_str]
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# 4) And write the packet to the stream
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await peer_stream.write(rpc_msg)
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async def handle_graft(self, graft_msg, sender_peer_id):
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topic = graft_msg.topicID
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from_id_str = sender_peer_id
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# Add peer to mesh for topic
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if topic in self.mesh:
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if from_id_str not in self.mesh[topic]:
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self.mesh[topic].append(from_id_str)
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else:
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# Respond with PRUNE if not subscribed to the topic
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await self.emit_prune(topic, sender_peer_id)
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async def handle_prune(self, prune_msg, sender_peer_id):
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topic = prune_msg.topicID
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|
|
from_id_str = sender_peer_id
|
|
|
|
# Remove peer from mesh for topic, if peer is in topic
|
|
if topic in self.mesh and from_id_str in self.mesh[topic]:
|
|
self.mesh[topic].remove(from_id_str)
|
|
|
|
# RPC emitters
|
|
|
|
async def emit_ihave(self, topic, msg_ids, to_peer):
|
|
"""
|
|
Emit ihave message, sent to to_peer, for topic and msg_ids
|
|
"""
|
|
|
|
ihave_msg = rpc_pb2.ControlIHave()
|
|
ihave_msg.messageIDs.extend(msg_ids)
|
|
ihave_msg.topicID = topic
|
|
|
|
control_msg = rpc_pb2.ControlMessage()
|
|
control_msg.ihave.extend([ihave_msg])
|
|
|
|
await self.emit_control_message(control_msg, to_peer)
|
|
|
|
async def emit_iwant(self, msg_ids, to_peer):
|
|
"""
|
|
Emit iwant message, sent to to_peer, for msg_ids
|
|
"""
|
|
|
|
iwant_msg = rpc_pb2.ControlIWant()
|
|
iwant_msg.messageIDs.extend(msg_ids)
|
|
|
|
control_msg = rpc_pb2.ControlMessage()
|
|
control_msg.iwant.extend([iwant_msg])
|
|
|
|
await self.emit_control_message(control_msg, to_peer)
|
|
|
|
async def emit_graft(self, topic, to_peer):
|
|
"""
|
|
Emit graft message, sent to to_peer, for topic
|
|
"""
|
|
|
|
graft_msg = rpc_pb2.ControlGraft()
|
|
graft_msg.topicID = topic
|
|
|
|
control_msg = rpc_pb2.ControlMessage()
|
|
control_msg.graft.extend([graft_msg])
|
|
|
|
await self.emit_control_message(control_msg, to_peer)
|
|
|
|
async def emit_prune(self, topic, to_peer):
|
|
"""
|
|
Emit graft message, sent to to_peer, for topic
|
|
"""
|
|
|
|
prune_msg = rpc_pb2.ControlPrune()
|
|
prune_msg.topicID = topic
|
|
|
|
control_msg = rpc_pb2.ControlMessage()
|
|
control_msg.prune.extend([prune_msg])
|
|
|
|
await self.emit_control_message(control_msg, to_peer)
|
|
|
|
async def emit_control_message(self, control_msg, to_peer):
|
|
# Add control message to packet
|
|
packet = rpc_pb2.RPC()
|
|
packet.control.CopyFrom(control_msg)
|
|
|
|
rpc_msg = packet.SerializeToString()
|
|
|
|
# Get stream for peer from pubsub
|
|
peer_stream = self.pubsub.peers[to_peer]
|
|
|
|
# Write rpc to stream
|
|
await peer_stream.write(rpc_msg)
|