174 lines
6.1 KiB
Nim
174 lines
6.1 KiB
Nim
# compile time options here
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const
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libp2p_pubsub_sign {.booldefine.} = true
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libp2p_pubsub_verify {.booldefine.} = true
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libp2p_pubsub_anonymize {.booldefine.} = false
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import hashes, random, tables, sets, sequtils
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import chronos, stew/[byteutils, results], chronos/ratelimit
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import ../../libp2p/[builders,
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protocols/pubsub/errors,
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protocols/pubsub/pubsub,
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protocols/pubsub/pubsubpeer,
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protocols/pubsub/gossipsub,
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protocols/pubsub/floodsub,
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protocols/pubsub/rpc/messages,
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protocols/secure/secure]
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import ../helpers
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import chronicles
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export builders
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randomize()
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type
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TestGossipSub* = ref object of GossipSub
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proc getPubSubPeer*(p: TestGossipSub, peerId: PeerId): PubSubPeer =
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proc getConn(): Future[Connection] =
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p.switch.dial(peerId, GossipSubCodec)
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let pubSubPeer = PubSubPeer.new(peerId, getConn, nil, GossipSubCodec, 1024 * 1024)
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debug "created new pubsub peer", peerId
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p.peers[peerId] = pubSubPeer
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onNewPeer(p, pubSubPeer)
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pubSubPeer
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proc randomPeerId*(): PeerId =
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try:
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PeerId.init(PrivateKey.random(ECDSA, rng[]).get()).tryGet()
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except CatchableError as exc:
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raise newException(Defect, exc.msg)
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func defaultMsgIdProvider*(m: Message): Result[MessageId, ValidationResult] =
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let mid =
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if m.seqno.len > 0 and m.fromPeer.data.len > 0:
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byteutils.toHex(m.seqno) & $m.fromPeer
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else:
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# This part is irrelevant because it's not standard,
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# We use it exclusively for testing basically and users should
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# implement their own logic in the case they use anonymization
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$m.data.hash & $m.topicIds.hash
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ok mid.toBytes()
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proc generateNodes*(
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num: Natural,
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secureManagers: openArray[SecureProtocol] = [
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SecureProtocol.Noise
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],
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msgIdProvider: MsgIdProvider = defaultMsgIdProvider,
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gossip: bool = false,
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triggerSelf: bool = false,
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verifySignature: bool = libp2p_pubsub_verify,
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anonymize: bool = libp2p_pubsub_anonymize,
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sign: bool = libp2p_pubsub_sign,
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sendSignedPeerRecord = false,
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unsubscribeBackoff = 1.seconds,
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maxMessageSize: int = 1024 * 1024,
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enablePX: bool = false,
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overheadRateLimit: Opt[tuple[bytes: int, interval: Duration]] = Opt.none(tuple[bytes: int, interval: Duration])): seq[PubSub] =
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for i in 0..<num:
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let switch = newStandardSwitch(secureManagers = secureManagers, sendSignedPeerRecord = sendSignedPeerRecord)
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let pubsub = if gossip:
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let g = GossipSub.init(
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switch = switch,
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triggerSelf = triggerSelf,
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verifySignature = verifySignature,
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sign = sign,
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msgIdProvider = msgIdProvider,
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anonymize = anonymize,
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maxMessageSize = maxMessageSize,
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parameters = (var p = GossipSubParams.init(); p.floodPublish = false; p.historyLength = 20; p.historyGossip = 20; p.unsubscribeBackoff = unsubscribeBackoff; p.enablePX = enablePX; p.overheadRateLimit = overheadRateLimit; p))
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# set some testing params, to enable scores
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g.topicParams.mgetOrPut("foobar", TopicParams.init()).topicWeight = 1.0
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g.topicParams.mgetOrPut("foo", TopicParams.init()).topicWeight = 1.0
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g.topicParams.mgetOrPut("bar", TopicParams.init()).topicWeight = 1.0
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g.PubSub
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else:
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FloodSub.init(
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switch = switch,
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triggerSelf = triggerSelf,
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verifySignature = verifySignature,
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sign = sign,
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msgIdProvider = msgIdProvider,
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maxMessageSize = maxMessageSize,
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anonymize = anonymize).PubSub
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switch.mount(pubsub)
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result.add(pubsub)
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proc subscribeNodes*(nodes: seq[PubSub]) {.async.} =
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for dialer in nodes:
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for node in nodes:
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if dialer.switch.peerInfo.peerId != node.switch.peerInfo.peerId:
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await dialer.switch.connect(node.peerInfo.peerId, node.peerInfo.addrs)
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proc subscribeSparseNodes*(nodes: seq[PubSub], degree: int = 2) {.async.} =
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if nodes.len < degree:
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raise (ref CatchableError)(msg: "nodes count needs to be greater or equal to degree!")
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for i, dialer in nodes:
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if (i mod degree) != 0:
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continue
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for node in nodes:
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if dialer.switch.peerInfo.peerId != node.peerInfo.peerId:
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await dialer.switch.connect(node.peerInfo.peerId, node.peerInfo.addrs)
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proc subscribeRandom*(nodes: seq[PubSub]) {.async.} =
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for dialer in nodes:
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var dialed: seq[PeerId]
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while dialed.len < nodes.len - 1:
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let node = sample(nodes)
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if node.peerInfo.peerId notin dialed:
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if dialer.peerInfo.peerId != node.peerInfo.peerId:
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await dialer.switch.connect(node.peerInfo.peerId, node.peerInfo.addrs)
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dialed.add(node.peerInfo.peerId)
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proc waitSub*(sender, receiver: auto; key: string) {.async, gcsafe.} =
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if sender == receiver:
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return
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let timeout = Moment.now() + 5.seconds
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let fsub = GossipSub(sender)
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# this is for testing purposes only
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# peers can be inside `mesh` and `fanout`, not just `gossipsub`
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while (not fsub.gossipsub.hasKey(key) or
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not fsub.gossipsub.hasPeerId(key, receiver.peerInfo.peerId)) and
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(not fsub.mesh.hasKey(key) or
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not fsub.mesh.hasPeerId(key, receiver.peerInfo.peerId)) and
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(not fsub.fanout.hasKey(key) or
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not fsub.fanout.hasPeerId(key , receiver.peerInfo.peerId)):
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trace "waitSub sleeping..."
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# await
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await sleepAsync(5.milliseconds)
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doAssert Moment.now() < timeout, "waitSub timeout!"
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proc waitSubGraph*(nodes: seq[PubSub], key: string) {.async, gcsafe.} =
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let timeout = Moment.now() + 5.seconds
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while true:
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var
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nodesMesh: Table[PeerId, seq[PeerId]]
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seen: HashSet[PeerId]
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for n in nodes:
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nodesMesh[n.peerInfo.peerId] = toSeq(GossipSub(n).mesh.getOrDefault(key).items()).mapIt(it.peerId)
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var ok = 0
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for n in nodes:
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seen.clear()
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proc explore(p: PeerId) =
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if p in seen: return
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seen.incl(p)
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for peer in nodesMesh.getOrDefault(p):
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explore(peer)
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explore(n.peerInfo.peerId)
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if seen.len == nodes.len: ok.inc()
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if ok == nodes.len: return
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trace "waitSubGraph sleeping..."
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await sleepAsync(5.milliseconds)
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doAssert Moment.now() < timeout, "waitSubGraph timeout!"
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