2024-02-02 08:56:41 +00:00
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{.used.}
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import
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std/[sequtils, tempfiles],
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stew/byteutils,
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stew/shims/net as stewNet,
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testutils/unittests,
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chronos,
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libp2p/switch,
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libp2p/protocols/pubsub/pubsub
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from std/times import epochTime
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import
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2024-03-15 23:08:47 +00:00
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../../../waku/
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[node/waku_node, node/peer_manager, waku_core, waku_node, waku_rln_relay],
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2024-02-02 08:56:41 +00:00
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../waku_store/store_utils,
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../waku_archive/archive_utils,
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2024-05-13 15:43:14 +00:00
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../waku_relay/utils,
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2024-02-02 08:56:41 +00:00
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../testlib/[wakucore, wakunode, testasync, futures],
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../resources/payloads
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suite "Waku RlnRelay - End to End":
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var
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pubsubTopic {.threadvar.}: PubsubTopic
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contentTopic {.threadvar.}: ContentTopic
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var
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server {.threadvar.}: WakuNode
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client {.threadvar.}: WakuNode
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var
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serverRemotePeerInfo {.threadvar.}: RemotePeerInfo
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clientPeerId {.threadvar.}: PeerId
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asyncSetup:
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pubsubTopic = DefaultPubsubTopic
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contentTopic = DefaultContentTopic
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let
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serverKey = generateSecp256k1Key()
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clientKey = generateSecp256k1Key()
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server = newTestWakuNode(serverKey, ValidIpAddress.init("0.0.0.0"), Port(0))
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client = newTestWakuNode(clientKey, ValidIpAddress.init("0.0.0.0"), Port(0))
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await allFutures(server.start(), client.start())
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serverRemotePeerInfo = server.switch.peerInfo.toRemotePeerInfo()
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clientPeerId = client.switch.peerInfo.toRemotePeerInfo().peerId
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asyncTeardown:
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await allFutures(client.stop(), server.stop())
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suite "Mount":
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asyncTest "Can't mount if relay is not mounted":
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# Given Relay and RLN are not mounted
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check:
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server.wakuRelay == nil
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server.wakuRlnRelay == nil
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# When RlnRelay is mounted
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let catchRes = catch:
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await server.setupRln(1)
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2024-02-02 08:56:41 +00:00
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# Then Relay and RLN are not mounted,and the process fails
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check:
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server.wakuRelay == nil
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server.wakuRlnRelay == nil
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catchRes.error()[].msg ==
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"WakuRelay protocol is not mounted, cannot mount WakuRlnRelay"
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asyncTest "Pubsub topics subscribed before mounting RlnRelay are added to it":
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# Given the node enables Relay and Rln while subscribing to a pubsub topic
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await server.setupRelayWithRln(1.uint, @[pubsubTopic])
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await client.setupRelayWithRln(2.uint, @[pubsubTopic])
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check:
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server.wakuRelay != nil
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server.wakuRlnRelay != nil
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client.wakuRelay != nil
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client.wakuRlnRelay != nil
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# And the nodes are connected
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await client.connectToNodes(@[serverRemotePeerInfo])
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# And the node registers the completion handler
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var completionFuture = subscribeCompletionHandler(server, pubsubTopic)
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# When the client sends a valid RLN message
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let isCompleted1 =
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await sendRlnMessage(client, pubsubTopic, contentTopic, completionFuture)
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# Then the valid RLN message is relayed
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check:
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isCompleted1
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completionFuture.read()
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# When the client sends an invalid RLN message
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completionFuture = newBoolFuture()
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let isCompleted2 = await sendRlnMessageWithInvalidProof(
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client, pubsubTopic, contentTopic, completionFuture
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)
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# Then the invalid RLN message is not relayed
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check:
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not isCompleted2
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asyncTest "Pubsub topics subscribed after mounting RlnRelay are added to it":
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# Given the node enables Relay and Rln without subscribing to a pubsub topic
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await server.setupRelayWithRln(1.uint, @[])
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await client.setupRelayWithRln(2.uint, @[])
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# And the nodes are connected
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await client.connectToNodes(@[serverRemotePeerInfo])
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# await sleepAsync(FUTURE_TIMEOUT)
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# And the node registers the completion handler
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var completionFuture = subscribeCompletionHandler(server, pubsubTopic)
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await sleepAsync(FUTURE_TIMEOUT)
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# When the client sends a valid RLN message
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let isCompleted1 =
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await sendRlnMessage(client, pubsubTopic, contentTopic, completionFuture)
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# Then the valid RLN message is relayed
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check:
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isCompleted1
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completionFuture.read()
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# When the client sends an invalid RLN message
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completionFuture = newBoolFuture()
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let isCompleted2 = await sendRlnMessageWithInvalidProof(
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client, pubsubTopic, contentTopic, completionFuture
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)
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# Then the invalid RLN message is not relayed
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check:
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not isCompleted2
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suite "Analysis of Bandwith Limitations":
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asyncTest "Valid Payload Sizes":
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# Given the node enables Relay and Rln while subscribing to a pubsub topic
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await server.setupRelayWithRln(1.uint, @[pubsubTopic])
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await client.setupRelayWithRln(2.uint, @[pubsubTopic])
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# And the nodes are connected
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await client.connectToNodes(@[serverRemotePeerInfo])
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# Register Relay Handler
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var completionFut = newPushHandlerFuture()
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proc relayHandler(
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topic: PubsubTopic, msg: WakuMessage
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): Future[void] {.async, gcsafe.} =
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if topic == pubsubTopic:
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completionFut.complete((topic, msg))
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let subscriptionEvent = (kind: PubsubSub, topic: pubsubTopic)
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server.subscribe(subscriptionEvent, some(relayHandler))
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await sleepAsync(FUTURE_TIMEOUT)
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# Generate Messages
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let
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epoch = epochTime()
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payload1b = getByteSequence(1)
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payload1kib = getByteSequence(1024)
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overhead: uint64 = 419
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payload150kib = getByteSequence((150 * 1024) - overhead)
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payload150kibPlus = getByteSequence((150 * 1024) - overhead + 1)
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var
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message1b = WakuMessage(payload: @payload1b, contentTopic: contentTopic)
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message1kib = WakuMessage(payload: @payload1kib, contentTopic: contentTopic)
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message150kib = WakuMessage(payload: @payload150kib, contentTopic: contentTopic)
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message151kibPlus =
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WakuMessage(payload: @payload150kibPlus, contentTopic: contentTopic)
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doAssert(
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client.wakuRlnRelay
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.appendRLNProof(
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message1b, epoch + float64(client.wakuRlnRelay.rlnEpochSizeSec * 0)
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)
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.isOk()
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)
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doAssert(
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client.wakuRlnRelay
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.appendRLNProof(
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message1kib, epoch + float64(client.wakuRlnRelay.rlnEpochSizeSec * 1)
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)
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.isOk()
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)
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doAssert(
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client.wakuRlnRelay
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.appendRLNProof(
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message150kib, epoch + float64(client.wakuRlnRelay.rlnEpochSizeSec * 2)
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)
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.isOk()
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)
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doAssert(
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client.wakuRlnRelay
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.appendRLNProof(
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message151kibPlus, epoch + float64(client.wakuRlnRelay.rlnEpochSizeSec * 3)
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)
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.isOk()
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)
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# When sending the 1B message
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discard await client.publish(some(pubsubTopic), message1b)
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discard await completionFut.withTimeout(FUTURE_TIMEOUT_LONG)
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# Then the message is relayed
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check completionFut.read() == (pubsubTopic, message1b)
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# When sending the 1KiB message
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completionFut = newPushHandlerFuture() # Reset Future
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discard await client.publish(some(pubsubTopic), message1kib)
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discard await completionFut.withTimeout(FUTURE_TIMEOUT_LONG)
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# Then the message is relayed
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check completionFut.read() == (pubsubTopic, message1kib)
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# When sending the 150KiB message
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completionFut = newPushHandlerFuture() # Reset Future
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discard await client.publish(some(pubsubTopic), message150kib)
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discard await completionFut.withTimeout(FUTURE_TIMEOUT_LONG)
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# Then the message is relayed
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check completionFut.read() == (pubsubTopic, message150kib)
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# When sending the 150KiB plus message
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completionFut = newPushHandlerFuture() # Reset Future
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discard await client.publish(some(pubsubTopic), message151kibPlus)
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# Then the message is not relayed
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check not await completionFut.withTimeout(FUTURE_TIMEOUT_LONG)
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asyncTest "Invalid Payload Sizes":
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# Given the node enables Relay and Rln while subscribing to a pubsub topic
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await server.setupRelayWithRln(1.uint, @[pubsubTopic])
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await client.setupRelayWithRln(2.uint, @[pubsubTopic])
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# And the nodes are connected
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await client.connectToNodes(@[serverRemotePeerInfo])
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# Register Relay Handler
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var completionFut = newPushHandlerFuture()
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proc relayHandler(
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topic: PubsubTopic, msg: WakuMessage
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): Future[void] {.async, gcsafe.} =
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if topic == pubsubTopic:
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completionFut.complete((topic, msg))
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let subscriptionEvent = (kind: PubsubSub, topic: pubsubTopic)
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server.subscribe(subscriptionEvent, some(relayHandler))
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await sleepAsync(FUTURE_TIMEOUT)
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# Generate Messages
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let
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epoch = epochTime()
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overhead: uint64 = 419
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payload150kibPlus = getByteSequence((150 * 1024) - overhead + 1)
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var message151kibPlus =
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WakuMessage(payload: @payload150kibPlus, contentTopic: contentTopic)
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doAssert(
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client.wakuRlnRelay
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.appendRLNProof(
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message151kibPlus, epoch + float64(client.wakuRlnRelay.rlnEpochSizeSec * 3)
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)
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.isOk()
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)
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# When sending the 150KiB plus message
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completionFut = newPushHandlerFuture() # Reset Future
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discard await client.publish(some(pubsubTopic), message151kibPlus)
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# Then the message is not relayed
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check not await completionFut.withTimeout(FUTURE_TIMEOUT_LONG)
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