mirror of https://github.com/waku-org/nwaku.git
1361 lines
53 KiB
Nim
1361 lines
53 KiB
Nim
{.used.}
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import
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std/[options, sequtils, strutils],
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stew/shims/net as stewNet,
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testutils/unittests,
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chronicles,
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chronos,
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libp2p/protocols/pubsub/[pubsub, gossipsub],
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libp2p/[multihash, stream/connection, switch],
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./crypto_utils,
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std/json
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import
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../../../waku/[
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node/peer_manager,
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waku_relay/protocol,
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waku_relay,
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waku_core,
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waku_core/message/codec,
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],
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../testlib/[wakucore, testasync, testutils, futures, sequtils],
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./utils,
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../resources/payloads
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suite "Waku Relay":
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var messageSeq {.threadvar.}: seq[(PubsubTopic, WakuMessage)]
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var handlerFuture {.threadvar.}: Future[(PubsubTopic, WakuMessage)]
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var simpleFutureHandler {.threadvar.}: WakuRelayHandler
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var switch {.threadvar.}: Switch
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var peerManager {.threadvar.}: PeerManager
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var node {.threadvar.}: WakuRelay
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var remotePeerInfo {.threadvar.}: RemotePeerInfo
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var peerId {.threadvar.}: PeerId
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var contentTopic {.threadvar.}: ContentTopic
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var pubsubTopic {.threadvar.}: PubsubTopic
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var pubsubTopicSeq {.threadvar.}: seq[PubsubTopic]
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var testMessage {.threadvar.}: string
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var wakuMessage {.threadvar.}: WakuMessage
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asyncSetup:
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messageSeq = @[]
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handlerFuture = newPushHandlerFuture()
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simpleFutureHandler = proc(
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topic: PubsubTopic, msg: WakuMessage
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): Future[void] {.async, closure, gcsafe.} =
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messageSeq.add((topic, msg))
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handlerFuture.complete((topic, msg))
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switch = newTestSwitch()
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peerManager = PeerManager.new(switch)
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node = await newTestWakuRelay(switch)
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testMessage = "test-message"
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contentTopic = DefaultContentTopic
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pubsubTopic = DefaultPubsubTopic
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pubsubTopicSeq = @[pubsubTopic]
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wakuMessage = fakeWakuMessage(testMessage, pubsubTopic)
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await allFutures(switch.start())
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remotePeerInfo = switch.peerInfo.toRemotePeerInfo()
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peerId = remotePeerInfo.peerId
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asyncTeardown:
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await allFutures(switch.stop())
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suite "Subscribe":
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asyncTest "Publish without Subscription":
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# When publishing a message without being subscribed
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discard await node.publish(pubsubTopic, wakuMessage)
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# Then the message is not published
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check:
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not await handlerFuture.withTimeout(FUTURE_TIMEOUT)
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asyncTest "Publish with Subscription (Network Size: 1)":
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# When subscribing to a Pubsub Topic
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discard node.subscribe(pubsubTopic, simpleFutureHandler)
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# Then the node is subscribed
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check:
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node.isSubscribed(pubsubTopic)
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node.subscribedTopics == pubsubTopicSeq
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# When publishing a message
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discard await node.publish(pubsubTopic, wakuMessage)
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# Then the message is published
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assert (await handlerFuture.withTimeout(FUTURE_TIMEOUT))
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let (topic, msg) = handlerFuture.read()
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check:
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topic == pubsubTopic
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msg == wakuMessage
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asyncTest "Pubsub Topic Subscription (Network Size: 2, only one subscribed)":
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# Given a second node connected to the first one
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let
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otherSwitch = newTestSwitch()
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otherNode = await newTestWakuRelay(otherSwitch)
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await allFutures(otherSwitch.start(), otherNode.start())
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let otherRemotePeerInfo = otherSwitch.peerInfo.toRemotePeerInfo()
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check await peerManager.connectRelay(otherRemotePeerInfo)
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var otherHandlerFuture = newPushHandlerFuture()
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proc otherSimpleFutureHandler(
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topic: PubsubTopic, message: WakuMessage
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) {.async, gcsafe.} =
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otherHandlerFuture.complete((topic, message))
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# When subscribing the second node to the Pubsub Topic
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discard otherNode.subscribe(pubsubTopic, otherSimpleFutureHandler)
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# Then the second node is subscribed, but not the first one
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check:
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not node.isSubscribed(pubsubTopic)
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node.subscribedTopics != pubsubTopicSeq
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otherNode.isSubscribed(pubsubTopic)
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otherNode.subscribedTopics == pubsubTopicSeq
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await sleepAsync(500.millis)
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# When publishing a message in the subscribed node
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let fromOtherWakuMessage = fakeWakuMessage("fromOther")
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discard await otherNode.publish(pubsubTopic, fromOtherWakuMessage)
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# Then the message is published only in the subscribed node
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check:
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not await handlerFuture.withTimeout(FUTURE_TIMEOUT)
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await otherHandlerFuture.withTimeout(FUTURE_TIMEOUT)
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let (otherTopic1, otherMessage1) = otherHandlerFuture.read()
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check:
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otherTopic1 == pubsubTopic
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otherMessage1 == fromOtherWakuMessage
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# When publishing a message in the other node
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handlerFuture = newPushHandlerFuture()
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otherHandlerFuture = newPushHandlerFuture()
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let fromNodeWakuMessage = fakeWakuMessage("fromNode")
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discard await node.publish(pubsubTopic, fromNodeWakuMessage)
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# Then the message is published only in the subscribed node
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check:
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not await handlerFuture.withTimeout(FUTURE_TIMEOUT)
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await otherHandlerFuture.withTimeout(FUTURE_TIMEOUT)
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let (otherTopic2, otherMessage2) = otherHandlerFuture.read()
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check:
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otherTopic2 == pubsubTopic
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otherMessage2 == fromNodeWakuMessage
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# Finally stop the other node
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await allFutures(otherSwitch.stop(), otherNode.stop())
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asyncTest "Pubsub Topic Subscription (Network Size: 2, both subscribed to same pubsub topic)":
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# Given a second node connected to the first one
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let
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otherSwitch = newTestSwitch()
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otherNode = await newTestWakuRelay(otherSwitch)
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await allFutures(otherSwitch.start(), otherNode.start())
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let otherRemotePeerInfo = otherSwitch.peerInfo.toRemotePeerInfo()
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check await peerManager.connectRelay(otherRemotePeerInfo)
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var otherHandlerFuture = newPushHandlerFuture()
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proc otherSimpleFutureHandler(
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topic: PubsubTopic, message: WakuMessage
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) {.async, gcsafe.} =
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otherHandlerFuture.complete((topic, message))
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# When subscribing both nodes to the same Pubsub Topic
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discard node.subscribe(pubsubTopic, simpleFutureHandler)
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discard otherNode.subscribe(pubsubTopic, otherSimpleFutureHandler)
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# Then both nodes are subscribed
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check:
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node.isSubscribed(pubsubTopic)
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node.subscribedTopics == pubsubTopicSeq
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otherNode.isSubscribed(pubsubTopic)
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otherNode.subscribedTopics == pubsubTopicSeq
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await sleepAsync(500.millis)
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# When publishing a message in node
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let fromOtherWakuMessage = fakeWakuMessage("fromOther")
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discard await node.publish(pubsubTopic, fromOtherWakuMessage)
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# Then the message is published in both nodes
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check:
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await handlerFuture.withTimeout(FUTURE_TIMEOUT)
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await otherHandlerFuture.withTimeout(FUTURE_TIMEOUT)
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let
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(topic1, message1) = handlerFuture.read()
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(otherTopic1, otherMessage1) = otherHandlerFuture.read()
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check:
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topic1 == pubsubTopic
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message1 == fromOtherWakuMessage
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otherTopic1 == pubsubTopic
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otherMessage1 == fromOtherWakuMessage
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# When publishing a message in the other node
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handlerFuture = newPushHandlerFuture()
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otherHandlerFuture = newPushHandlerFuture()
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let fromNodeWakuMessage = fakeWakuMessage("fromNode")
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discard await node.publish(pubsubTopic, fromNodeWakuMessage)
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discard await otherNode.publish(pubsubTopic, fromNodeWakuMessage)
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# Then the message is published in both nodes
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check:
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await handlerFuture.withTimeout(FUTURE_TIMEOUT)
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await otherHandlerFuture.withTimeout(FUTURE_TIMEOUT)
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let
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(topic2, message2) = handlerFuture.read()
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(otherTopic2, otherMessage2) = otherHandlerFuture.read()
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check:
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topic2 == pubsubTopic
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message2 == fromNodeWakuMessage
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otherTopic2 == pubsubTopic
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otherMessage2 == fromNodeWakuMessage
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# Finally stop the other node
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await allFutures(otherSwitch.stop(), otherNode.stop())
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asyncTest "Refreshing subscription":
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# Given a subscribed node
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discard node.subscribe(pubsubTopic, simpleFutureHandler)
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check:
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node.isSubscribed(pubsubTopic)
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node.subscribedTopics == pubsubTopicSeq
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let otherWakuMessage = fakeWakuMessage("fromOther")
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discard await node.publish(pubsubTopic, otherWakuMessage)
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check:
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messageSeq == @[(pubsubTopic, otherWakuMessage)]
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# Given the subscription is refreshed
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var otherHandlerFuture = newPushHandlerFuture()
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proc otherSimpleFutureHandler(
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topic: PubsubTopic, message: WakuMessage
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) {.async, gcsafe.} =
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otherHandlerFuture.complete((topic, message))
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discard node.subscribe(pubsubTopic, otherSimpleFutureHandler)
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check:
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node.isSubscribed(pubsubTopic)
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node.subscribedTopics == pubsubTopicSeq
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messageSeq == @[(pubsubTopic, otherWakuMessage)]
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# When publishing a message with the refreshed subscription
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handlerFuture = newPushHandlerFuture()
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discard await node.publish(pubsubTopic, wakuMessage)
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# Then the message is published
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check (await handlerFuture.withTimeout(FUTURE_TIMEOUT))
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let (topic, msg) = handlerFuture.read()
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check:
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topic == pubsubTopic
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msg == wakuMessage
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messageSeq == @[(pubsubTopic, otherWakuMessage), (pubsubTopic, wakuMessage)]
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asyncTest "With additional validator":
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# Given a simple validator
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var validatorFuture = newBoolFuture()
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let len4Validator = proc(
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pubsubTopic: string, message: WakuMessage
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): Future[ValidationResult] {.async.} =
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if message.payload.len() == 8:
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validatorFuture.complete(true)
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return ValidationResult.Accept
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else:
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validatorFuture.complete(false)
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return ValidationResult.Reject
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# And a second node connected to the first one
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let
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otherSwitch = newTestSwitch()
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otherNode = await newTestWakuRelay(otherSwitch)
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await allFutures(otherSwitch.start(), otherNode.start())
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let otherRemotePeerInfo = otherSwitch.peerInfo.toRemotePeerInfo()
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check await peerManager.connectRelay(otherRemotePeerInfo)
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var otherHandlerFuture = newPushHandlerFuture()
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proc otherSimpleFutureHandler(
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topic: PubsubTopic, message: WakuMessage
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) {.async, gcsafe.} =
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otherHandlerFuture.complete((topic, message))
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otherNode.addValidator(len4Validator)
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discard otherNode.subscribe(pubsubTopic, otherSimpleFutureHandler)
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await sleepAsync(500.millis)
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check:
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otherNode.isSubscribed(pubsubTopic)
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# Given a subscribed node with a validator
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node.addValidator(len4Validator)
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discard node.subscribe(pubsubTopic, simpleFutureHandler)
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await sleepAsync(500.millis)
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check:
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node.isSubscribed(pubsubTopic)
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node.subscribedTopics == pubsubTopicSeq
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otherNode.isSubscribed(pubsubTopic)
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otherNode.subscribedTopics == pubsubTopicSeq
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# When publishing a message that doesn't match the validator
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discard await node.publish(pubsubTopic, wakuMessage)
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# Then the validator is ran in the other node, and fails
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# Not run in the self node
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check:
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await validatorFuture.withTimeout(FUTURE_TIMEOUT)
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validatorFuture.read() == false
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# And the message is published in the self node, but not in the other node,
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# because it doesn't pass the validator check.
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check:
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await handlerFuture.withTimeout(FUTURE_TIMEOUT)
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not await otherHandlerFuture.withTimeout(FUTURE_TIMEOUT)
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let (topic1, msg1) = handlerFuture.read()
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# let (otherTopic1, otherMsg1) = otherHandlerFuture.read()
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check:
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topic1 == pubsubTopic
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msg1 == wakuMessage
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# otherTopic1 == pubsubTopic
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# otherMsg1 == wakuMessage
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# When publishing a message that matches the validator
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handlerFuture = newPushHandlerFuture()
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otherHandlerFuture = newPushHandlerFuture()
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validatorFuture = newBoolFuture()
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let wakuMessage2 = fakeWakuMessage("12345678", pubsubTopic)
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discard await node.publish(pubsubTopic, wakuMessage2)
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# Then the validator is ran in the other node, and succeeds
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# Not run in the self node
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check:
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await validatorFuture.withTimeout(FUTURE_TIMEOUT)
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validatorFuture.read() == true
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# And the message is published in both nodes
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check:
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await handlerFuture.withTimeout(FUTURE_TIMEOUT)
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await otherHandlerFuture.withTimeout(FUTURE_TIMEOUT)
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let (topic2, msg2) = handlerFuture.read()
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let (otherTopic2, otherMsg2) = otherHandlerFuture.read()
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check:
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topic2 == pubsubTopic
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msg2 == wakuMessage2
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otherTopic2 == pubsubTopic
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otherMsg2 == wakuMessage2
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# Finally stop the other node
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await allFutures(otherSwitch.stop(), otherNode.stop())
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asyncTest "Max Topic Size":
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# NOT FOUND
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discard
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asyncTest "Max subscriptions":
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# NOT FOUND
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discard
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asyncTest "Message encryption/decryption":
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# Given a second node connected to the first one, both subscribed to the same Pubsub Topic
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let
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otherSwitch = newTestSwitch()
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otherNode = await newTestWakuRelay(otherSwitch)
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await allFutures(otherSwitch.start(), otherNode.start())
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let otherRemotePeerInfo = otherSwitch.peerInfo.toRemotePeerInfo()
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check await peerManager.connectRelay(otherRemotePeerInfo)
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var otherHandlerFuture = newPushHandlerFuture()
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proc otherSimpleFutureHandler(
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topic: PubsubTopic, message: WakuMessage
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) {.async, gcsafe.} =
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otherHandlerFuture.complete((topic, message))
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discard node.subscribe(pubsubTopic, simpleFutureHandler)
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discard otherNode.subscribe(pubsubTopic, otherSimpleFutureHandler)
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check:
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node.isSubscribed(pubsubTopic)
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node.subscribedTopics == pubsubTopicSeq
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otherNode.isSubscribed(pubsubTopic)
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otherNode.subscribedTopics == pubsubTopicSeq
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await sleepAsync(500.millis)
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# Given some crypto info
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var key = "My fancy key"
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var data = "Hello, Crypto!"
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var iv = "0123456789ABCDEF"
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# When publishing an encrypted message
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let encodedText = cfbEncode(key, iv, data)
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let encodedWakuMessage = fakeWakuMessage(encodedText, pubsubTopic)
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discard await node.publish(pubsubTopic, encodedWakuMessage)
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# Then the message is published in both nodes
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check:
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await handlerFuture.withTimeout(FUTURE_TIMEOUT)
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await otherHandlerFuture.withTimeout(FUTURE_TIMEOUT)
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let (topic1, msg1) = handlerFuture.read()
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let (otherTopic1, otherMsg1) = otherHandlerFuture.read()
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check:
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topic1 == pubsubTopic
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msg1 == encodedWakuMessage
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otherTopic1 == pubsubTopic
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otherMsg1 == encodedWakuMessage
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# When decoding the message
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let
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decodedText = cfbDecode(key, iv, msg1.payload)
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otherDecodedText = cfbDecode(key, iv, otherMsg1.payload)
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# Then the message is decrypted in both nodes
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check:
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decodedText.toString() == data
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otherDecodedText.toString() == data
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# Finally stop the other node
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await allFutures(otherSwitch.stop(), otherNode.stop())
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asyncTest "How multiple interconnected nodes work":
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# Given two other pubsub topics
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let
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pubsubTopicB = "pubsub-topic-b"
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pubsubTopicC = "pubsub-topic-c"
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# Given two other nodes connected to the first one
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let
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otherSwitch = newTestSwitch()
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otherPeerManager = PeerManager.new(otherSwitch)
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otherNode = await newTestWakuRelay(otherSwitch)
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anotherSwitch = newTestSwitch()
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anotherPeerManager = PeerManager.new(anotherSwitch)
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anotherNode = await newTestWakuRelay(anotherSwitch)
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await allFutures(
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otherSwitch.start(),
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otherNode.start(),
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anotherSwitch.start(),
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anotherNode.start(),
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)
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let
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otherRemotePeerInfo = otherSwitch.peerInfo.toRemotePeerInfo()
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otherPeerId = otherRemotePeerInfo.peerId
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anotherRemotePeerInfo = anotherSwitch.peerInfo.toRemotePeerInfo()
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anotherPeerId = anotherRemotePeerInfo.peerId
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check:
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await peerManager.connectRelay(otherRemotePeerInfo)
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await peerManager.connectRelay(anotherRemotePeerInfo)
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# Given the first node is subscribed to two pubsub topics
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var handlerFuture2 = newPushHandlerFuture()
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proc simpleFutureHandler2(
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topic: PubsubTopic, message: WakuMessage
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) {.async, gcsafe.} =
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handlerFuture2.complete((topic, message))
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discard node.subscribe(pubsubTopic, simpleFutureHandler)
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discard node.subscribe(pubsubTopicB, simpleFutureHandler2)
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# Given the other nodes are subscribed to two pubsub topics
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var otherHandlerFuture1 = newPushHandlerFuture()
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proc otherSimpleFutureHandler1(
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topic: PubsubTopic, message: WakuMessage
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) {.async, gcsafe.} =
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otherHandlerFuture1.complete((topic, message))
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var otherHandlerFuture2 = newPushHandlerFuture()
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proc otherSimpleFutureHandler2(
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topic: PubsubTopic, message: WakuMessage
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) {.async, gcsafe.} =
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otherHandlerFuture2.complete((topic, message))
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var anotherHandlerFuture1 = newPushHandlerFuture()
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proc anotherSimpleFutureHandler1(
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topic: PubsubTopic, message: WakuMessage
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) {.async, gcsafe.} =
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anotherHandlerFuture1.complete((topic, message))
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var anotherHandlerFuture2 = newPushHandlerFuture()
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proc anotherSimpleFutureHandler2(
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topic: PubsubTopic, message: WakuMessage
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) {.async, gcsafe.} =
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anotherHandlerFuture2.complete((topic, message))
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discard otherNode.subscribe(pubsubTopic, otherSimpleFutureHandler1)
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discard otherNode.subscribe(pubsubTopicC, otherSimpleFutureHandler2)
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discard anotherNode.subscribe(pubsubTopicB, anotherSimpleFutureHandler1)
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discard anotherNode.subscribe(pubsubTopicC, anotherSimpleFutureHandler2)
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await sleepAsync(500.millis)
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|
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# When publishing a message in node for each of the pubsub topics
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let
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fromNodeWakuMessage1 = fakeWakuMessage("fromNode1")
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fromNodeWakuMessage2 = fakeWakuMessage("fromNode2")
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fromNodeWakuMessage3 = fakeWakuMessage("fromNode3")
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discard await node.publish(pubsubTopic, fromNodeWakuMessage1)
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discard await node.publish(pubsubTopicB, fromNodeWakuMessage2)
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|
discard await node.publish(pubsubTopicC, fromNodeWakuMessage3)
|
|
|
|
# Then the messages are published in all nodes (because it's published in the center node)
|
|
# Center meaning that all other nodes are connected to this one
|
|
check:
|
|
await handlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
await handlerFuture2.withTimeout(FUTURE_TIMEOUT)
|
|
await otherHandlerFuture1.withTimeout(FUTURE_TIMEOUT)
|
|
await otherHandlerFuture2.withTimeout(FUTURE_TIMEOUT)
|
|
await anotherHandlerFuture1.withTimeout(FUTURE_TIMEOUT)
|
|
await anotherHandlerFuture2.withTimeout(FUTURE_TIMEOUT)
|
|
|
|
let
|
|
(topic1, msg1) = handlerFuture.read()
|
|
(topic2, msg2) = handlerFuture2.read()
|
|
(otherTopic1, otherMsg1) = otherHandlerFuture1.read()
|
|
(otherTopic2, otherMsg2) = otherHandlerFuture2.read()
|
|
(anotherTopic1, anotherMsg1) = anotherHandlerFuture1.read()
|
|
(anotherTopic2, anotherMsg2) = anotherHandlerFuture2.read()
|
|
|
|
check:
|
|
topic1 == pubsubTopic
|
|
msg1 == fromNodeWakuMessage1
|
|
topic2 == pubsubTopicB
|
|
msg2 == fromNodeWakuMessage2
|
|
otherTopic1 == pubsubTopic
|
|
otherMsg1 == fromNodeWakuMessage1
|
|
otherTopic2 == pubsubTopicC
|
|
otherMsg2 == fromNodeWakuMessage3
|
|
anotherTopic1 == pubsubTopicB
|
|
anotherMsg1 == fromNodeWakuMessage2
|
|
anotherTopic2 == pubsubTopicC
|
|
anotherMsg2 == fromNodeWakuMessage3
|
|
|
|
# Given anotherNode is completely disconnected from the first one
|
|
await anotherPeerManager.switch.disconnect(peerId)
|
|
await peerManager.switch.disconnect(anotherPeerId)
|
|
check:
|
|
not anotherPeerManager.switch.isConnected(peerId)
|
|
not peerManager.switch.isConnected(anotherPeerId)
|
|
|
|
# When publishing a message in node for each of the pubsub topics
|
|
handlerFuture = newPushHandlerFuture()
|
|
handlerFuture2 = newPushHandlerFuture()
|
|
otherHandlerFuture1 = newPushHandlerFuture()
|
|
otherHandlerFuture2 = newPushHandlerFuture()
|
|
anotherHandlerFuture1 = newPushHandlerFuture()
|
|
anotherHandlerFuture2 = newPushHandlerFuture()
|
|
|
|
let
|
|
fromNodeWakuMessage4 = fakeWakuMessage("fromNode4")
|
|
fromNodeWakuMessage5 = fakeWakuMessage("fromNode5")
|
|
fromNodeWakuMessage6 = fakeWakuMessage("fromNode6")
|
|
|
|
discard await node.publish(pubsubTopic, fromNodeWakuMessage4)
|
|
discard await node.publish(pubsubTopicB, fromNodeWakuMessage5)
|
|
discard await node.publish(pubsubTopicC, fromNodeWakuMessage6)
|
|
|
|
# Then the message is published in node and otherNode,
|
|
# but not in anotherNode because it is not connected anymore
|
|
check:
|
|
await handlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
await handlerFuture2.withTimeout(FUTURE_TIMEOUT)
|
|
await otherHandlerFuture1.withTimeout(FUTURE_TIMEOUT)
|
|
await otherHandlerFuture2.withTimeout(FUTURE_TIMEOUT)
|
|
not await anotherHandlerFuture1.withTimeout(FUTURE_TIMEOUT)
|
|
not await anotherHandlerFuture2.withTimeout(FUTURE_TIMEOUT)
|
|
|
|
let
|
|
(topic3, msg3) = handlerFuture.read()
|
|
(topic4, msg4) = handlerFuture2.read()
|
|
(otherTopic3, otherMsg3) = otherHandlerFuture1.read()
|
|
(otherTopic4, otherMsg4) = otherHandlerFuture2.read()
|
|
|
|
check:
|
|
topic3 == pubsubTopic
|
|
msg3 == fromNodeWakuMessage4
|
|
topic4 == pubsubTopicB
|
|
msg4 == fromNodeWakuMessage5
|
|
otherTopic3 == pubsubTopic
|
|
otherMsg3 == fromNodeWakuMessage4
|
|
otherTopic4 == pubsubTopicC
|
|
otherMsg4 == fromNodeWakuMessage6
|
|
|
|
# When publishing a message in anotherNode for each of the pubsub topics
|
|
handlerFuture = newPushHandlerFuture()
|
|
handlerFuture2 = newPushHandlerFuture()
|
|
otherHandlerFuture1 = newPushHandlerFuture()
|
|
otherHandlerFuture2 = newPushHandlerFuture()
|
|
anotherHandlerFuture1 = newPushHandlerFuture()
|
|
anotherHandlerFuture2 = newPushHandlerFuture()
|
|
|
|
let
|
|
fromAnotherNodeWakuMessage1 = fakeWakuMessage("fromAnotherNode1")
|
|
fromAnotherNodeWakuMessage2 = fakeWakuMessage("fromAnotherNode2")
|
|
fromAnotherNodeWakuMessage3 = fakeWakuMessage("fromAnotherNode3")
|
|
|
|
discard await anotherNode.publish(pubsubTopic, fromAnotherNodeWakuMessage1)
|
|
discard await anotherNode.publish(pubsubTopicB, fromAnotherNodeWakuMessage2)
|
|
discard await anotherNode.publish(pubsubTopicC, fromAnotherNodeWakuMessage3)
|
|
|
|
# Then the messages are only published in anotherNode because it's disconnected from
|
|
# the rest of the network
|
|
check:
|
|
not await handlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
not await handlerFuture2.withTimeout(FUTURE_TIMEOUT)
|
|
not await otherHandlerFuture1.withTimeout(FUTURE_TIMEOUT)
|
|
not await otherHandlerFuture2.withTimeout(FUTURE_TIMEOUT)
|
|
await anotherHandlerFuture1.withTimeout(FUTURE_TIMEOUT)
|
|
await anotherHandlerFuture2.withTimeout(FUTURE_TIMEOUT)
|
|
|
|
let
|
|
(anotherTopic3, anotherMsg3) = anotherHandlerFuture1.read()
|
|
(anotherTopic4, anotherMsg4) = anotherHandlerFuture2.read()
|
|
|
|
check:
|
|
anotherTopic3 == pubsubTopicB
|
|
anotherMsg3 == fromAnotherNodeWakuMessage2
|
|
anotherTopic4 == pubsubTopicC
|
|
anotherMsg4 == fromAnotherNodeWakuMessage3
|
|
|
|
# When publishing a message in otherNode for each of the pubsub topics
|
|
handlerFuture = newPushHandlerFuture()
|
|
handlerFuture2 = newPushHandlerFuture()
|
|
otherHandlerFuture1 = newPushHandlerFuture()
|
|
otherHandlerFuture2 = newPushHandlerFuture()
|
|
anotherHandlerFuture1 = newPushHandlerFuture()
|
|
anotherHandlerFuture2 = newPushHandlerFuture()
|
|
|
|
let
|
|
fromOtherNodeWakuMessage1 = fakeWakuMessage("fromOtherNode1")
|
|
fromOtherNodeWakuMessage2 = fakeWakuMessage("fromOtherNode2")
|
|
fromOtherNodeWakuMessage3 = fakeWakuMessage("fromOtherNode3")
|
|
|
|
discard await otherNode.publish(pubsubTopic, fromOtherNodeWakuMessage1)
|
|
discard await otherNode.publish(pubsubTopicB, fromOtherNodeWakuMessage2)
|
|
discard await otherNode.publish(pubsubTopicC, fromOtherNodeWakuMessage3)
|
|
|
|
# Then the messages are only published in otherNode and node, but not in anotherNode
|
|
# because it's disconnected from the rest of the network
|
|
check:
|
|
await handlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
await handlerFuture2.withTimeout(FUTURE_TIMEOUT)
|
|
await otherHandlerFuture1.withTimeout(FUTURE_TIMEOUT)
|
|
await otherHandlerFuture2.withTimeout(FUTURE_TIMEOUT)
|
|
not await anotherHandlerFuture1.withTimeout(FUTURE_TIMEOUT)
|
|
not await anotherHandlerFuture2.withTimeout(FUTURE_TIMEOUT)
|
|
|
|
let
|
|
(topic5, msg5) = handlerFuture.read()
|
|
(topic6, msg6) = handlerFuture2.read()
|
|
(otherTopic5, otherMsg5) = otherHandlerFuture1.read()
|
|
(otherTopic6, otherMsg6) = otherHandlerFuture2.read()
|
|
|
|
check:
|
|
topic5 == pubsubTopic
|
|
msg5 == fromOtherNodeWakuMessage1
|
|
topic6 == pubsubTopicB
|
|
msg6 == fromOtherNodeWakuMessage2
|
|
otherTopic5 == pubsubTopic
|
|
otherMsg5 == fromOtherNodeWakuMessage1
|
|
otherTopic6 == pubsubTopicC
|
|
otherMsg6 == fromOtherNodeWakuMessage3
|
|
|
|
# Given anotherNode is reconnected, but to otherNode
|
|
check await anotherPeerManager.connectRelay(otherRemotePeerInfo)
|
|
check:
|
|
anotherPeerManager.switch.isConnected(otherPeerId)
|
|
otherPeerManager.switch.isConnected(anotherPeerId)
|
|
|
|
# When publishing a message in anotherNode for each of the pubsub topics
|
|
handlerFuture = newPushHandlerFuture()
|
|
handlerFuture2 = newPushHandlerFuture()
|
|
otherHandlerFuture1 = newPushHandlerFuture()
|
|
otherHandlerFuture2 = newPushHandlerFuture()
|
|
anotherHandlerFuture1 = newPushHandlerFuture()
|
|
anotherHandlerFuture2 = newPushHandlerFuture()
|
|
|
|
let
|
|
fromAnotherNodeWakuMessage4 = fakeWakuMessage("fromAnotherNode4")
|
|
fromAnotherNodeWakuMessage5 = fakeWakuMessage("fromAnotherNode5")
|
|
fromAnotherNodeWakuMessage6 = fakeWakuMessage("fromAnotherNode6")
|
|
|
|
discard await anotherNode.publish(pubsubTopic, fromAnotherNodeWakuMessage4)
|
|
discard await anotherNode.publish(pubsubTopicB, fromAnotherNodeWakuMessage5)
|
|
discard await anotherNode.publish(pubsubTopicC, fromAnotherNodeWakuMessage6)
|
|
|
|
# Then the messages are published in all nodes except in node's B topic, because
|
|
# even if they're connected like so AnotherNode <-> OtherNode <-> Node,
|
|
# otherNode doesn't broadcast B topic messages because it's not subscribed to it
|
|
check:
|
|
await handlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
not await handlerFuture2.withTimeout(FUTURE_TIMEOUT)
|
|
await otherHandlerFuture1.withTimeout(FUTURE_TIMEOUT)
|
|
await otherHandlerFuture2.withTimeout(FUTURE_TIMEOUT)
|
|
await anotherHandlerFuture1.withTimeout(FUTURE_TIMEOUT)
|
|
await anotherHandlerFuture2.withTimeout(FUTURE_TIMEOUT)
|
|
|
|
let
|
|
(topic7, msg7) = handlerFuture.read()
|
|
(otherTopic7, otherMsg7) = otherHandlerFuture1.read()
|
|
(otherTopic8, otherMsg8) = otherHandlerFuture2.read()
|
|
(anotherTopic7, anotherMsg7) = anotherHandlerFuture1.read()
|
|
(anotherTopic8, anotherMsg8) = anotherHandlerFuture2.read()
|
|
|
|
check:
|
|
topic7 == pubsubTopic
|
|
msg7 == fromAnotherNodeWakuMessage4
|
|
otherTopic7 == pubsubTopic
|
|
otherMsg7 == fromAnotherNodeWakuMessage4
|
|
otherTopic8 == pubsubTopicC
|
|
otherMsg8 == fromAnotherNodeWakuMessage6
|
|
anotherTopic7 == pubsubTopicB
|
|
anotherMsg7 == fromAnotherNodeWakuMessage5
|
|
anotherTopic8 == pubsubTopicC
|
|
anotherMsg8 == fromAnotherNodeWakuMessage6
|
|
|
|
# Finally stop the other nodes
|
|
await allFutures(
|
|
otherSwitch.stop(), otherNode.stop(), anotherSwitch.stop(), anotherNode.stop()
|
|
)
|
|
|
|
suite "Unsubscribe":
|
|
asyncTest "Without Subscription":
|
|
# Given an external topic handler
|
|
let
|
|
otherSwitch = newTestSwitch()
|
|
otherNode = await newTestWakuRelay(otherSwitch)
|
|
await allFutures(otherSwitch.start(), otherNode.start())
|
|
let otherTopicHandler: TopicHandler =
|
|
otherNode.subscribe(pubsubTopic, simpleFutureHandler)
|
|
|
|
# Given a node without a subscription
|
|
check:
|
|
node.subscribedTopics == []
|
|
|
|
# When unsubscribing from a pubsub topic from an unsubscribed topic handler
|
|
node.unsubscribe(pubsubTopic, otherTopicHandler)
|
|
|
|
# Then the node is still not subscribed
|
|
check:
|
|
node.subscribedTopics == []
|
|
|
|
# Finally stop the other node
|
|
await allFutures(otherSwitch.stop(), otherNode.stop())
|
|
|
|
asyncTest "Single Node with Single Pubsub Topic":
|
|
# Given a node subscribed to a pubsub topic
|
|
let topicHandler = node.subscribe(pubsubTopic, simpleFutureHandler)
|
|
check node.subscribedTopics == pubsubTopicSeq
|
|
|
|
# When unsubscribing from the pubsub topic
|
|
node.unsubscribe(pubsubTopic, topicHandler)
|
|
|
|
# Then the node is not subscribed anymore
|
|
check node.subscribedTopics == []
|
|
|
|
asyncTest "Single Node with Multiple Pubsub Topics":
|
|
# Given other pubsub topic
|
|
let pubsubTopicB = "pubsub-topic-b"
|
|
|
|
# Given a node subscribed to multiple pubsub topics
|
|
let
|
|
topicHandler = node.subscribe(pubsubTopic, simpleFutureHandler)
|
|
topicHandlerB = node.subscribe(pubsubTopicB, simpleFutureHandler)
|
|
check node.subscribedTopics == @[pubsubTopic, pubsubTopicB]
|
|
|
|
# When unsubscribing from one of the pubsub topics
|
|
node.unsubscribe(pubsubTopic, topicHandler)
|
|
|
|
# Then the node is still subscribed to the other pubsub topic
|
|
check node.subscribedTopics == @[pubsubTopicB]
|
|
|
|
# When unsubscribing from the other pubsub topic
|
|
node.unsubscribe(pubsubTopicB, topicHandlerB)
|
|
|
|
# Then the node is not subscribed anymore
|
|
check node.subscribedTopics == []
|
|
|
|
suite "Unsubscribe All":
|
|
asyncTest "Without subscriptions":
|
|
# Given a node without subscriptions
|
|
check node.subscribedTopics == []
|
|
|
|
# When unsubscribing from all pubsub topics
|
|
node.unsubscribeAll(pubsubTopic)
|
|
|
|
# Then the node is still not subscribed
|
|
check node.subscribedTopics == []
|
|
|
|
asyncTest "Single Node with Single Pubsub Topic":
|
|
# Given a node subscribed to a pubsub topic
|
|
discard node.subscribe(pubsubTopic, simpleFutureHandler)
|
|
check node.subscribedTopics == pubsubTopicSeq
|
|
|
|
# When unsubscribing from all pubsub topics
|
|
node.unsubscribeAll(pubsubTopic)
|
|
|
|
# Then the node is not subscribed anymore
|
|
check node.subscribedTopics == []
|
|
|
|
asyncTest "Single Node with Multiple Pubsub Topics":
|
|
# Given other pubsub topic
|
|
let pubsubTopicB = "pubsub-topic-b"
|
|
|
|
# Given a node subscribed to multiple pubsub topics
|
|
discard node.subscribe(pubsubTopic, simpleFutureHandler)
|
|
discard node.subscribe(pubsubTopic, simpleFutureHandler)
|
|
discard node.subscribe(pubsubTopicB, simpleFutureHandler)
|
|
|
|
check node.subscribedTopics == @[pubsubTopic, pubsubTopicB]
|
|
|
|
# When unsubscribing all handlers from pubsubTopic
|
|
node.unsubscribeAll(pubsubTopic)
|
|
|
|
# Then the node doesn't have pubsubTopic handlers
|
|
check node.subscribedTopics == @[pubsubTopicB]
|
|
|
|
# When unsubscribing all handlers from pubsubTopicB
|
|
node.unsubscribeAll(pubsubTopicB)
|
|
|
|
# Then the node is not subscribed to anything
|
|
check node.subscribedTopics == []
|
|
|
|
suite "Send & Retrieve Messages":
|
|
asyncTest "Valid Payload Types":
|
|
# Given a second node connected to the first one
|
|
let
|
|
otherSwitch = newTestSwitch()
|
|
otherNode = await newTestWakuRelay(otherSwitch)
|
|
|
|
await allFutures(otherSwitch.start(), otherNode.start())
|
|
let otherRemotePeerInfo = otherSwitch.peerInfo.toRemotePeerInfo()
|
|
check await peerManager.connectRelay(otherRemotePeerInfo)
|
|
|
|
# Given both are subscribed to the same pubsub topic
|
|
var otherHandlerFuture = newPushHandlerFuture()
|
|
proc otherSimpleFutureHandler(
|
|
topic: PubsubTopic, message: WakuMessage
|
|
) {.async, gcsafe.} =
|
|
otherHandlerFuture.complete((topic, message))
|
|
|
|
discard otherNode.subscribe(pubsubTopic, otherSimpleFutureHandler)
|
|
discard node.subscribe(pubsubTopic, simpleFutureHandler)
|
|
check:
|
|
node.subscribedTopics == pubsubTopicSeq
|
|
otherNode.subscribedTopics == pubsubTopicSeq
|
|
|
|
await sleepAsync(500.millis)
|
|
|
|
# Given some payloads
|
|
let
|
|
JSON_DICTIONARY = getSampleJsonDictionary()
|
|
JSON_LIST = getSampleJsonList()
|
|
|
|
# Given some valid messages
|
|
let
|
|
msg1 = fakeWakuMessage(contentTopic = contentTopic, payload = ALPHABETIC)
|
|
msg2 = fakeWakuMessage(contentTopic = contentTopic, payload = ALPHANUMERIC)
|
|
msg3 =
|
|
fakeWakuMessage(contentTopic = contentTopic, payload = ALPHANUMERIC_SPECIAL)
|
|
msg4 = fakeWakuMessage(contentTopic = contentTopic, payload = EMOJI)
|
|
msg5 = fakeWakuMessage(contentTopic = contentTopic, payload = CODE)
|
|
msg6 = fakeWakuMessage(contentTopic = contentTopic, payload = QUERY)
|
|
msg7 =
|
|
fakeWakuMessage(contentTopic = contentTopic, payload = ($JSON_DICTIONARY))
|
|
msg8 = fakeWakuMessage(contentTopic = contentTopic, payload = ($JSON_LIST))
|
|
msg9 = fakeWakuMessage(contentTopic = contentTopic, payload = TEXT_SMALL)
|
|
msg10 = fakeWakuMessage(contentTopic = contentTopic, payload = TEXT_LARGE)
|
|
|
|
# When sending the alphabetic message
|
|
discard await node.publish(pubsubTopic, msg1)
|
|
|
|
# Then the message is received in both nodes
|
|
check:
|
|
await handlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
await otherHandlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
(pubsubTopic, msg1) == handlerFuture.read()
|
|
(pubsubTopic, msg1) == otherHandlerFuture.read()
|
|
|
|
# When sending the alphanumeric message
|
|
handlerFuture = newPushHandlerFuture()
|
|
otherHandlerFuture = newPushHandlerFuture()
|
|
discard await node.publish(pubsubTopic, msg2)
|
|
|
|
# Then the message is received in both nodes
|
|
check:
|
|
await handlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
await otherHandlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
(pubsubTopic, msg2) == handlerFuture.read()
|
|
(pubsubTopic, msg2) == otherHandlerFuture.read()
|
|
|
|
# When sending the alphanumeric special message
|
|
handlerFuture = newPushHandlerFuture()
|
|
otherHandlerFuture = newPushHandlerFuture()
|
|
discard await node.publish(pubsubTopic, msg3)
|
|
|
|
# Then the message is received in both nodes
|
|
check:
|
|
await handlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
await otherHandlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
(pubsubTopic, msg3) == handlerFuture.read()
|
|
(pubsubTopic, msg3) == otherHandlerFuture.read()
|
|
|
|
# When sending the emoji message
|
|
handlerFuture = newPushHandlerFuture()
|
|
otherHandlerFuture = newPushHandlerFuture()
|
|
discard await node.publish(pubsubTopic, msg4)
|
|
|
|
# Then the message is received in both nodes
|
|
check:
|
|
await handlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
await otherHandlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
(pubsubTopic, msg4) == handlerFuture.read()
|
|
(pubsubTopic, msg4) == otherHandlerFuture.read()
|
|
|
|
# When sending the code message
|
|
handlerFuture = newPushHandlerFuture()
|
|
otherHandlerFuture = newPushHandlerFuture()
|
|
discard await node.publish(pubsubTopic, msg5)
|
|
|
|
# Then the message is received in both nodes
|
|
check:
|
|
await handlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
await otherHandlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
(pubsubTopic, msg5) == handlerFuture.read()
|
|
(pubsubTopic, msg5) == otherHandlerFuture.read()
|
|
|
|
# When sending the query message
|
|
handlerFuture = newPushHandlerFuture()
|
|
otherHandlerFuture = newPushHandlerFuture()
|
|
discard await node.publish(pubsubTopic, msg6)
|
|
|
|
# Then the message is received in both nodes
|
|
check:
|
|
await handlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
await otherHandlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
(pubsubTopic, msg6) == handlerFuture.read()
|
|
(pubsubTopic, msg6) == otherHandlerFuture.read()
|
|
|
|
# When sending the JSON dictionary message
|
|
handlerFuture = newPushHandlerFuture()
|
|
otherHandlerFuture = newPushHandlerFuture()
|
|
discard await node.publish(pubsubTopic, msg7)
|
|
|
|
# Then the message is received in both nodes
|
|
check:
|
|
await handlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
await otherHandlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
(pubsubTopic, msg7) == handlerFuture.read()
|
|
(pubsubTopic, msg7) == otherHandlerFuture.read()
|
|
|
|
# When sending the JSON list message
|
|
handlerFuture = newPushHandlerFuture()
|
|
otherHandlerFuture = newPushHandlerFuture()
|
|
discard await node.publish(pubsubTopic, msg8)
|
|
|
|
# Then the message is received in both nodes
|
|
check:
|
|
await handlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
await otherHandlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
(pubsubTopic, msg8) == handlerFuture.read()
|
|
(pubsubTopic, msg8) == otherHandlerFuture.read()
|
|
|
|
# When sending the small text message
|
|
handlerFuture = newPushHandlerFuture()
|
|
otherHandlerFuture = newPushHandlerFuture()
|
|
discard await node.publish(pubsubTopic, msg9)
|
|
|
|
# Then the message is received in both nodes
|
|
check:
|
|
await handlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
await otherHandlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
(pubsubTopic, msg9) == handlerFuture.read()
|
|
(pubsubTopic, msg9) == otherHandlerFuture.read()
|
|
|
|
# When sending the large text message
|
|
handlerFuture = newPushHandlerFuture()
|
|
otherHandlerFuture = newPushHandlerFuture()
|
|
discard await node.publish(pubsubTopic, msg10)
|
|
|
|
# Then the message is received in both nodes
|
|
check:
|
|
await handlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
await otherHandlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
(pubsubTopic, msg10) == handlerFuture.read()
|
|
(pubsubTopic, msg10) == otherHandlerFuture.read()
|
|
|
|
# Finally stop the other node
|
|
await allFutures(otherSwitch.stop(), otherNode.stop())
|
|
|
|
asyncTest "Valid Payload Sizes":
|
|
# Given a second node connected to the first one
|
|
let
|
|
otherSwitch = newTestSwitch()
|
|
otherNode = await newTestWakuRelay(otherSwitch)
|
|
|
|
await allFutures(otherSwitch.start(), otherNode.start())
|
|
let otherRemotePeerInfo = otherSwitch.peerInfo.toRemotePeerInfo()
|
|
check await peerManager.connectRelay(otherRemotePeerInfo)
|
|
|
|
# Given both are subscribed to the same pubsub topic
|
|
var otherHandlerFuture = newPushHandlerFuture()
|
|
proc otherSimpleFutureHandler(
|
|
topic: PubsubTopic, message: WakuMessage
|
|
) {.async, gcsafe.} =
|
|
otherHandlerFuture.complete((topic, message))
|
|
|
|
discard otherNode.subscribe(pubsubTopic, otherSimpleFutureHandler)
|
|
discard node.subscribe(pubsubTopic, simpleFutureHandler)
|
|
check:
|
|
node.subscribedTopics == pubsubTopicSeq
|
|
otherNode.subscribedTopics == pubsubTopicSeq
|
|
|
|
await sleepAsync(500.millis)
|
|
|
|
# Given some valid payloads
|
|
let
|
|
msgWithoutPayload =
|
|
fakeWakuMessage(contentTopic = contentTopic, payload = getByteSequence(0))
|
|
sizeEmptyMsg = uint64(msgWithoutPayload.encode().buffer.len)
|
|
|
|
let
|
|
msg1 =
|
|
fakeWakuMessage(contentTopic = contentTopic, payload = getByteSequence(1024))
|
|
# 1KiB
|
|
msg2 = fakeWakuMessage(
|
|
contentTopic = contentTopic, payload = getByteSequence(10 * 1024)
|
|
) # 10KiB
|
|
msg3 = fakeWakuMessage(
|
|
contentTopic = contentTopic, payload = getByteSequence(100 * 1024)
|
|
) # 100KiB
|
|
msg4 = fakeWakuMessage(
|
|
contentTopic = contentTopic,
|
|
payload = getByteSequence(MaxWakuMessageSize - sizeEmptyMsg - 38),
|
|
) # Max Size (Inclusive Limit)
|
|
msg5 = fakeWakuMessage(
|
|
contentTopic = contentTopic,
|
|
payload = getByteSequence(MaxWakuMessageSize - sizeEmptyMsg - 37),
|
|
) # Max Size (Exclusive Limit)
|
|
msg6 = fakeWakuMessage(
|
|
contentTopic = contentTopic, payload = getByteSequence(MaxWakuMessageSize)
|
|
) # MaxWakuMessageSize -> Out of Max Size
|
|
|
|
# Notice that the message is wrapped with more data in https://github.com/status-im/nim-libp2p/blob/3011ba4326fa55220a758838835797ff322619fc/libp2p/protocols/pubsub/gossipsub.nim#L627-L632
|
|
# And therefore, we need to substract a hard-coded values above (for msg4 & msg5), obtained empirically,
|
|
# running the tests with 'TRACE' level: nim c -r -d:chronicles_log_level=DEBUG -d:release -d:postgres -d:rln --passL:librln_v0.3.4.a --passL:-lm -d:nimDebugDlOpen tests/waku_relay/test_protocol.nim test "Valid Payload Sizes"
|
|
|
|
# When sending the 1KiB message
|
|
handlerFuture = newPushHandlerFuture()
|
|
otherHandlerFuture = newPushHandlerFuture()
|
|
discard await node.publish(pubsubTopic, msg1)
|
|
|
|
# Then the message is received in both nodes
|
|
check:
|
|
await handlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
await otherHandlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
(pubsubTopic, msg1) == handlerFuture.read()
|
|
(pubsubTopic, msg1) == otherHandlerFuture.read()
|
|
|
|
# When sending the 10KiB message
|
|
handlerFuture = newPushHandlerFuture()
|
|
otherHandlerFuture = newPushHandlerFuture()
|
|
discard await node.publish(pubsubTopic, msg2)
|
|
|
|
# Then the message is received in both nodes
|
|
check:
|
|
await handlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
await otherHandlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
(pubsubTopic, msg2) == handlerFuture.read()
|
|
(pubsubTopic, msg2) == otherHandlerFuture.read()
|
|
|
|
# When sending the 100KiB message
|
|
handlerFuture = newPushHandlerFuture()
|
|
otherHandlerFuture = newPushHandlerFuture()
|
|
discard await node.publish(pubsubTopic, msg3)
|
|
|
|
# Then the message is received in both nodes
|
|
check:
|
|
await handlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
await otherHandlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
(pubsubTopic, msg3) == handlerFuture.read()
|
|
(pubsubTopic, msg3) == otherHandlerFuture.read()
|
|
|
|
# When sending the 'MaxWakuMessageSize - sizeEmptyMsg - 38' message
|
|
handlerFuture = newPushHandlerFuture()
|
|
otherHandlerFuture = newPushHandlerFuture()
|
|
discard await node.publish(pubsubTopic, msg4)
|
|
|
|
# Then the message is received in both nodes
|
|
check:
|
|
await handlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
await otherHandlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
(pubsubTopic, msg4) == handlerFuture.read()
|
|
(pubsubTopic, msg4) == otherHandlerFuture.read()
|
|
|
|
# When sending the 'MaxWakuMessageSize - sizeEmptyMsg - 37' message
|
|
handlerFuture = newPushHandlerFuture()
|
|
otherHandlerFuture = newPushHandlerFuture()
|
|
discard await node.publish(pubsubTopic, msg5)
|
|
|
|
# Then the message is received in self, because there's no checking, but not in other node
|
|
check:
|
|
await handlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
not await otherHandlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
(pubsubTopic, msg5) == handlerFuture.read()
|
|
|
|
# When sending the 'MaxWakuMessageSize' message
|
|
handlerFuture = newPushHandlerFuture()
|
|
otherHandlerFuture = newPushHandlerFuture()
|
|
discard await node.publish(pubsubTopic, msg6)
|
|
|
|
# Then the message is received in self, because there's no checking, but not in other node
|
|
check:
|
|
await handlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
not await otherHandlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
(pubsubTopic, msg6) == handlerFuture.read()
|
|
|
|
# Finally stop the other node
|
|
await allFutures(otherSwitch.stop(), otherNode.stop())
|
|
|
|
asyncTest "Multiple messages at once":
|
|
# Given a second node connected to the first one
|
|
let
|
|
otherSwitch = newTestSwitch()
|
|
otherNode = await newTestWakuRelay(otherSwitch)
|
|
|
|
await allFutures(otherSwitch.start(), otherNode.start())
|
|
let otherRemotePeerInfo = otherSwitch.peerInfo.toRemotePeerInfo()
|
|
check await peerManager.connectRelay(otherRemotePeerInfo)
|
|
|
|
# Given both are subscribed to the same pubsub topic
|
|
# Create a different handler than the default to include messages in a seq
|
|
var thisHandlerFuture = newPushHandlerFuture()
|
|
var thisMessageSeq: seq[(PubsubTopic, WakuMessage)] = @[]
|
|
proc thisSimpleFutureHandler(
|
|
topic: PubsubTopic, message: WakuMessage
|
|
) {.async, gcsafe.} =
|
|
thisMessageSeq.add((topic, message))
|
|
thisHandlerFuture.complete((topic, message))
|
|
|
|
var otherHandlerFuture = newPushHandlerFuture()
|
|
var otherMessageSeq: seq[(PubsubTopic, WakuMessage)] = @[]
|
|
proc otherSimpleFutureHandler(
|
|
topic: PubsubTopic, message: WakuMessage
|
|
) {.async, gcsafe.} =
|
|
otherMessageSeq.add((topic, message))
|
|
otherHandlerFuture.complete((topic, message))
|
|
|
|
discard node.subscribe(pubsubTopic, thisSimpleFutureHandler)
|
|
discard otherNode.subscribe(pubsubTopic, otherSimpleFutureHandler)
|
|
check:
|
|
node.subscribedTopics == pubsubTopicSeq
|
|
otherNode.subscribedTopics == pubsubTopicSeq
|
|
await sleepAsync(500.millis)
|
|
|
|
# When sending multiple messages from node
|
|
let
|
|
msg1 = fakeWakuMessage("msg1", pubsubTopic)
|
|
msg2 = fakeWakuMessage("msg2", pubsubTopic)
|
|
msg3 = fakeWakuMessage("msg3", pubsubTopic)
|
|
msg4 = fakeWakuMessage("msg4", pubsubTopic)
|
|
|
|
discard await node.publish(pubsubTopic, msg1)
|
|
check await thisHandlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
check await otherHandlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
thisHandlerFuture = newPushHandlerFuture()
|
|
otherHandlerFuture = newPushHandlerFuture()
|
|
discard await node.publish(pubsubTopic, msg2)
|
|
check await thisHandlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
check await otherHandlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
thisHandlerFuture = newPushHandlerFuture()
|
|
otherHandlerFuture = newPushHandlerFuture()
|
|
discard await node.publish(pubsubTopic, msg3)
|
|
check await thisHandlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
check await otherHandlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
thisHandlerFuture = newPushHandlerFuture()
|
|
otherHandlerFuture = newPushHandlerFuture()
|
|
discard await node.publish(pubsubTopic, msg4)
|
|
|
|
check:
|
|
await thisHandlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
thisMessageSeq ==
|
|
@[
|
|
(pubsubTopic, msg1),
|
|
(pubsubTopic, msg2),
|
|
(pubsubTopic, msg3),
|
|
(pubsubTopic, msg4),
|
|
]
|
|
await otherHandlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
otherMessageSeq ==
|
|
@[
|
|
(pubsubTopic, msg1),
|
|
(pubsubTopic, msg2),
|
|
(pubsubTopic, msg3),
|
|
(pubsubTopic, msg4),
|
|
]
|
|
|
|
# Finally stop the other node
|
|
await allFutures(otherSwitch.stop(), otherNode.stop())
|
|
|
|
suite "Security and Privacy":
|
|
asyncTest "Relay can receive messages after reboot and reconnect":
|
|
# Given a second node connected to the first one
|
|
let
|
|
otherSwitch = newTestSwitch()
|
|
otherPeerManager = PeerManager.new(otherSwitch)
|
|
otherNode = await newTestWakuRelay(otherSwitch)
|
|
|
|
await otherSwitch.start()
|
|
let
|
|
otherRemotePeerInfo = otherSwitch.peerInfo.toRemotePeerInfo()
|
|
otherPeerId = otherRemotePeerInfo.peerId
|
|
|
|
check await peerManager.connectRelay(otherRemotePeerInfo)
|
|
|
|
# Given both are subscribed to the same pubsub topic
|
|
var otherHandlerFuture = newPushHandlerFuture()
|
|
proc otherSimpleFutureHandler(
|
|
topic: PubsubTopic, message: WakuMessage
|
|
) {.async, gcsafe.} =
|
|
otherHandlerFuture.complete((topic, message))
|
|
|
|
discard otherNode.subscribe(pubsubTopic, otherSimpleFutureHandler)
|
|
discard node.subscribe(pubsubTopic, simpleFutureHandler)
|
|
check:
|
|
node.subscribedTopics == pubsubTopicSeq
|
|
otherNode.subscribedTopics == pubsubTopicSeq
|
|
await sleepAsync(500.millis)
|
|
|
|
# Given other node is stopped and restarted
|
|
await otherSwitch.stop()
|
|
await otherSwitch.start()
|
|
|
|
check await peerManager.connectRelay(otherRemotePeerInfo)
|
|
|
|
# FIXME: Once stopped and started, nodes are not considered connected, nor do they reconnect after running connectRelay, as below
|
|
# check await otherPeerManager.connectRelay(otherRemotePeerInfo)
|
|
|
|
# When sending a message from node
|
|
let msg1 = fakeWakuMessage(testMessage, pubsubTopic)
|
|
discard await node.publish(pubsubTopic, msg1)
|
|
|
|
# Then the message is received in both nodes
|
|
check:
|
|
await handlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
await otherHandlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
(pubsubTopic, msg1) == handlerFuture.read()
|
|
(pubsubTopic, msg1) == otherHandlerFuture.read()
|
|
|
|
# When sending a message from other node
|
|
handlerFuture = newPushHandlerFuture()
|
|
otherHandlerFuture = newPushHandlerFuture()
|
|
let msg2 = fakeWakuMessage(testMessage, pubsubTopic)
|
|
discard await otherNode.publish(pubsubTopic, msg2)
|
|
|
|
# Then the message is received in both nodes
|
|
check:
|
|
await handlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
await otherHandlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
(pubsubTopic, msg2) == handlerFuture.read()
|
|
(pubsubTopic, msg2) == otherHandlerFuture.read()
|
|
|
|
# Given node is stopped and restarted
|
|
await switch.stop()
|
|
await switch.start()
|
|
check await peerManager.connectRelay(otherRemotePeerInfo)
|
|
|
|
# When sending a message from node
|
|
handlerFuture = newPushHandlerFuture()
|
|
otherHandlerFuture = newPushHandlerFuture()
|
|
let msg3 = fakeWakuMessage(testMessage, pubsubTopic)
|
|
discard await node.publish(pubsubTopic, msg3)
|
|
|
|
# Then the message is received in both nodes
|
|
check:
|
|
await handlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
await otherHandlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
(pubsubTopic, msg3) == handlerFuture.read()
|
|
(pubsubTopic, msg3) == otherHandlerFuture.read()
|
|
|
|
# When sending a message from other node
|
|
handlerFuture = newPushHandlerFuture()
|
|
otherHandlerFuture = newPushHandlerFuture()
|
|
let msg4 = fakeWakuMessage(testMessage, pubsubTopic)
|
|
discard await otherNode.publish(pubsubTopic, msg4)
|
|
|
|
# Then the message is received in both nodes
|
|
check:
|
|
await handlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
await otherHandlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
(pubsubTopic, msg4) == handlerFuture.read()
|
|
(pubsubTopic, msg4) == otherHandlerFuture.read()
|
|
|
|
# Finally stop the other node
|
|
await allFutures(otherSwitch.stop(), otherNode.stop())
|
|
|
|
asyncTest "Relay can't receive messages after subscribing and stopping without unsubscribing":
|
|
# Given a second node connected to the first one
|
|
let
|
|
otherSwitch = newTestSwitch()
|
|
otherPeerManager = PeerManager.new(otherSwitch)
|
|
otherNode = await newTestWakuRelay(otherSwitch)
|
|
|
|
await allFutures(otherSwitch.start(), otherNode.start())
|
|
let
|
|
otherRemotePeerInfo = otherSwitch.peerInfo.toRemotePeerInfo()
|
|
otherPeerId = otherRemotePeerInfo.peerId
|
|
|
|
check await peerManager.connectRelay(otherRemotePeerInfo)
|
|
|
|
# Given both are subscribed to the same pubsub topic
|
|
var otherHandlerFuture = newPushHandlerFuture()
|
|
proc otherSimpleFutureHandler(
|
|
topic: PubsubTopic, message: WakuMessage
|
|
) {.async, gcsafe.} =
|
|
otherHandlerFuture.complete((topic, message))
|
|
|
|
discard otherNode.subscribe(pubsubTopic, otherSimpleFutureHandler)
|
|
discard node.subscribe(pubsubTopic, simpleFutureHandler)
|
|
check:
|
|
node.subscribedTopics == pubsubTopicSeq
|
|
otherNode.subscribedTopics == pubsubTopicSeq
|
|
|
|
await sleepAsync(500.millis)
|
|
|
|
# Given other node is stopped without unsubscribing
|
|
await allFutures(otherSwitch.stop(), otherNode.stop())
|
|
|
|
# When sending a message from node
|
|
let msg1 = fakeWakuMessage(testMessage, pubsubTopic)
|
|
discard await node.publish(pubsubTopic, msg1)
|
|
|
|
# Then the message is not received in any node
|
|
check:
|
|
await handlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
not await otherHandlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
(pubsubTopic, msg1) == handlerFuture.read()
|
|
|
|
# When sending a message from other node
|
|
handlerFuture = newPushHandlerFuture()
|
|
otherHandlerFuture = newPushHandlerFuture()
|
|
let msg2 = fakeWakuMessage(testMessage, pubsubTopic)
|
|
discard await otherNode.publish(pubsubTopic, msg2)
|
|
|
|
# Then the message is received in both nodes
|
|
check:
|
|
not await handlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
await otherHandlerFuture.withTimeout(FUTURE_TIMEOUT)
|
|
(pubsubTopic, msg2) == otherHandlerFuture.read()
|