py-libp2p/libp2p/pubsub/pubsub.py

372 lines
13 KiB
Python

# pylint: disable=no-name-in-module
import asyncio
import time
from typing import Any, Dict, List, Tuple, TYPE_CHECKING
from lru import LRU
from libp2p.host.host_interface import IHost
from libp2p.peer.id import ID
from libp2p.network.stream.net_stream_interface import INetStream
from .pb import rpc_pb2
from .pubsub_notifee import PubsubNotifee
if TYPE_CHECKING:
from .pubsub_router_interface import IPubsubRouter
def get_msg_id(msg: rpc_pb2.Message) -> Tuple[bytes, bytes]:
# NOTE: `string(from, seqno)` in Go
return (msg.seqno, msg.from_id)
class Pubsub:
# pylint: disable=too-many-instance-attributes, no-member, unsubscriptable-object
host: IHost
my_id: ID
router: "IPubsubRouter"
peer_queue: "asyncio.Queue[ID]"
protocols: List[str]
incoming_msgs_from_peers: "asyncio.Queue[rpc_pb2.Message]"
outgoing_messages: "asyncio.Queue[rpc_pb2.Message]"
seen_messages: LRU
my_topics: Dict[str, "asyncio.Queue[rpc_pb2.Message]"]
peer_topics: Dict[str, List[ID]]
peers: Dict[ID, INetStream]
# NOTE: Be sure it is increased atomically everytime.
counter: int # uint64
def __init__(
self, host: IHost, router: "IPubsubRouter", my_id: ID, cache_size: int = None
) -> None:
"""
Construct a new Pubsub object, which is responsible for handling all
Pubsub-related messages and relaying messages as appropriate to the
Pubsub router (which is responsible for choosing who to send messages to).
Since the logic for choosing peers to send pubsub messages to is
in the router, the same Pubsub impl can back floodsub, gossipsub, etc.
"""
self.host = host
self.router = router
self.my_id = my_id
# Attach this new Pubsub object to the router
self.router.attach(self)
# Register a notifee
self.peer_queue = asyncio.Queue()
self.host.get_network().notify(PubsubNotifee(self.peer_queue))
# Register stream handlers for each pubsub router protocol to handle
# the pubsub streams opened on those protocols
self.protocols = self.router.get_protocols()
for protocol in self.protocols:
self.host.set_stream_handler(protocol, self.stream_handler)
# Use asyncio queues for proper context switching
self.incoming_msgs_from_peers = asyncio.Queue()
self.outgoing_messages = asyncio.Queue()
# keeps track of seen messages as LRU cache
if cache_size is None:
self.cache_size = 128
else:
self.cache_size = cache_size
self.seen_messages = LRU(self.cache_size)
# Map of topics we are subscribed to blocking queues
# for when the given topic receives a message
self.my_topics = {}
# Map of topic to peers to keep track of what peers are subscribed to
self.peer_topics = {}
# Create peers map, which maps peer_id (as string) to stream (to a given peer)
self.peers = {}
self.counter = time.time_ns()
# Call handle peer to keep waiting for updates to peer queue
asyncio.ensure_future(self.handle_peer_queue())
def get_hello_packet(self) -> bytes:
"""
Generate subscription message with all topics we are subscribed to
only send hello packet if we have subscribed topics
"""
packet = rpc_pb2.RPC()
for topic_id in self.my_topics:
packet.subscriptions.extend(
[rpc_pb2.RPC.SubOpts(subscribe=True, topicid=topic_id)]
)
return packet.SerializeToString()
async def continuously_read_stream(self, stream: INetStream) -> None:
"""
Read from input stream in an infinite loop. Process
messages from other nodes
:param stream: stream to continously read from
"""
peer_id = stream.mplex_conn.peer_id
while True:
incoming: bytes = (await stream.read())
rpc_incoming: rpc_pb2.RPC = rpc_pb2.RPC()
rpc_incoming.ParseFromString(incoming)
if rpc_incoming.publish:
# deal with RPC.publish
for msg in rpc_incoming.publish:
if not self._is_subscribed_to_msg(msg):
continue
# TODO(mhchia): This will block this read_stream loop until all data are pushed.
# Should investigate further if this is an issue.
await self.push_msg(msg_forwarder=peer_id, msg=msg)
if rpc_incoming.subscriptions:
# deal with RPC.subscriptions
# We don't need to relay the subscription to our
# peers because a given node only needs its peers
# to know that it is subscribed to the topic (doesn't
# need everyone to know)
for message in rpc_incoming.subscriptions:
self.handle_subscription(peer_id, message)
# pylint: disable=line-too-long
# NOTE: Check if `rpc_incoming.control` is set through `HasField`.
# This is necessary because `control` is an optional field in pb2.
# Ref: https://developers.google.com/protocol-buffers/docs/reference/python-generated#singular-fields-proto2
if rpc_incoming.HasField("control"):
# Pass rpc to router so router could perform custom logic
await self.router.handle_rpc(rpc_incoming, peer_id)
# Force context switch
await asyncio.sleep(0)
async def stream_handler(self, stream: INetStream) -> None:
"""
Stream handler for pubsub. Gets invoked whenever a new stream is created
on one of the supported pubsub protocols.
:param stream: newly created stream
"""
# Add peer
# Map peer to stream
peer_id: ID = stream.mplex_conn.peer_id
self.peers[peer_id] = stream
self.router.add_peer(peer_id, stream.get_protocol())
# Send hello packet
hello: bytes = self.get_hello_packet()
await stream.write(hello)
# Pass stream off to stream reader
asyncio.ensure_future(self.continuously_read_stream(stream))
# Force context switch
await asyncio.sleep(0)
async def handle_peer_queue(self) -> None:
"""
Continuously read from peer queue and each time a new peer is found,
open a stream to the peer using a supported pubsub protocol
TODO: Handle failure for when the peer does not support any of the
pubsub protocols we support
"""
while True:
peer_id: ID = await self.peer_queue.get()
# Open a stream to peer on existing connection
# (we know connection exists since that's the only way
# an element gets added to peer_queue)
stream: INetStream = await self.host.new_stream(peer_id, self.protocols)
# Add Peer
# Map peer to stream
self.peers[peer_id] = stream
self.router.add_peer(peer_id, stream.get_protocol())
# Send hello packet
hello: bytes = self.get_hello_packet()
await stream.write(hello)
# pylint: disable=line-too-long
# TODO: Investigate whether this should be replaced by `handlePeerEOF`
# Ref: https://github.com/libp2p/go-libp2p-pubsub/blob/49274b0e8aecdf6cad59d768e5702ff00aa48488/comm.go#L80 # noqa: E501
# Pass stream off to stream reader
asyncio.ensure_future(self.continuously_read_stream(stream))
# Force context switch
await asyncio.sleep(0)
# FIXME: `sub_message` can be further type hinted with mypy_protobuf
def handle_subscription(self, origin_id: ID, sub_message: Any) -> None:
"""
Handle an incoming subscription message from a peer. Update internal
mapping to mark the peer as subscribed or unsubscribed to topics as
defined in the subscription message
:param origin_id: id of the peer who subscribe to the message
:param sub_message: RPC.SubOpts
"""
if sub_message.subscribe:
if sub_message.topicid not in self.peer_topics:
self.peer_topics[sub_message.topicid] = [origin_id]
elif origin_id not in self.peer_topics[sub_message.topicid]:
# Add peer to topic
self.peer_topics[sub_message.topicid].append(origin_id)
else:
if sub_message.topicid in self.peer_topics:
if origin_id in self.peer_topics[sub_message.topicid]:
self.peer_topics[sub_message.topicid].remove(origin_id)
# FIXME(mhchia): Change the function name?
# FIXME(mhchia): `publish_message` can be further type hinted with mypy_protobuf
async def handle_talk(self, publish_message: Any) -> None:
"""
Put incoming message from a peer onto my blocking queue
:param publish_message: RPC.Message format
"""
# Check if this message has any topics that we are subscribed to
for topic in publish_message.topicIDs:
if topic in self.my_topics:
# we are subscribed to a topic this message was sent for,
# so add message to the subscription output queue
# for each topic
await self.my_topics[topic].put(publish_message)
async def subscribe(self, topic_id: str) -> "asyncio.Queue[rpc_pb2.Message]":
"""
Subscribe ourself to a topic
:param topic_id: topic_id to subscribe to
"""
# Already subscribed
if topic_id in self.my_topics:
return self.my_topics[topic_id]
# Map topic_id to blocking queue
self.my_topics[topic_id] = asyncio.Queue()
# Create subscribe message
packet: rpc_pb2.RPC = rpc_pb2.RPC()
packet.subscriptions.extend(
[rpc_pb2.RPC.SubOpts(subscribe=True, topicid=topic_id.encode("utf-8"))]
)
# Send out subscribe message to all peers
await self.message_all_peers(packet.SerializeToString())
# Tell router we are joining this topic
await self.router.join(topic_id)
# Return the asyncio queue for messages on this topic
return self.my_topics[topic_id]
async def unsubscribe(self, topic_id: str) -> None:
"""
Unsubscribe ourself from a topic
:param topic_id: topic_id to unsubscribe from
"""
# Return if we already unsubscribed from the topic
if topic_id not in self.my_topics:
return
# Remove topic_id from map if present
del self.my_topics[topic_id]
# Create unsubscribe message
packet: rpc_pb2.RPC = rpc_pb2.RPC()
packet.subscriptions.extend(
[rpc_pb2.RPC.SubOpts(subscribe=False, topicid=topic_id.encode("utf-8"))]
)
# Send out unsubscribe message to all peers
await self.message_all_peers(packet.SerializeToString())
# Tell router we are leaving this topic
await self.router.leave(topic_id)
async def message_all_peers(self, raw_msg: bytes) -> None:
"""
Broadcast a message to peers
:param raw_msg: raw contents of the message to broadcast
"""
# Broadcast message
for stream in self.peers.values():
# Write message to stream
await stream.write(raw_msg)
async def publish(self, topic_id: str, data: bytes) -> None:
"""
Publish data to a topic
:param topic_id: topic which we are going to publish the data to
:param data: data which we are publishing
"""
msg = rpc_pb2.Message(
data=data,
topicIDs=[topic_id],
# Origin is ourself.
from_id=self.host.get_id().to_bytes(),
seqno=self._next_seqno(),
)
# TODO: Sign with our signing key
await self.push_msg(self.host.get_id(), msg)
async def push_msg(self, msg_forwarder: ID, msg: rpc_pb2.Message) -> None:
"""
Push a pubsub message to others.
:param msg_forwarder: the peer who forward us the message.
:param msg: the message we are going to push out.
"""
# TODO: Check if the `source` is in the blacklist. If yes, reject.
# TODO: Check if the `from` is in the blacklist. If yes, reject.
# TODO: Check if signing is required and if so signature should be attached.
if self._is_msg_seen(msg):
return
# TODO: - Validate the message. If failed, reject it.
self._mark_msg_seen(msg)
await self.handle_talk(msg)
await self.router.publish(msg_forwarder, msg)
def _next_seqno(self) -> bytes:
"""
Make the next message sequence id.
"""
self.counter += 1
return self.counter.to_bytes(8, "big")
def _is_msg_seen(self, msg: rpc_pb2.Message) -> bool:
msg_id = get_msg_id(msg)
return msg_id in self.seen_messages
def _mark_msg_seen(self, msg: rpc_pb2.Message) -> None:
msg_id = get_msg_id(msg)
# FIXME: Mapping `msg_id` to `1` is quite awkward. Should investigate if there is a
# more appropriate way.
self.seen_messages[msg_id] = 1
def _is_subscribed_to_msg(self, msg: rpc_pb2.Message) -> bool:
if not self.my_topics:
return False
return all([topic in self.my_topics for topic in msg.topicIDs])