mirror of
https://github.com/logos-messaging/logos-messaging-nim.git
synced 2026-06-26 11:29:28 +00:00
4dfe72e12f
Extract the messaging (send/subscription) and reliable-channel (lifecycle/send) operations into their own api/ folders with events moved to the owning layer, thin messaging_client and reliable_channel_manager, and add the LogosDelivery concentrator that aggregates the per-layer APIs. Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
252 lines
9.0 KiB
Nim
252 lines
9.0 KiB
Nim
{.used.}
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import std/[options, sequtils, net, sets]
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import chronos, testutils/unittests, stew/byteutils
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import libp2p/[peerid, peerinfo, crypto/crypto]
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import brokers/broker_context
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import ../testlib/[common, wakucore, wakunode, testasync]
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import ../waku_archive/archive_utils
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import logos_delivery/messaging/messaging_client
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import logos_delivery/messaging/delivery_service/recv_service
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import
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logos_delivery,
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logos_delivery/waku/[
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waku_node,
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waku_core,
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api/events/health_events,
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waku_relay/protocol,
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waku_archive,
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waku_archive/common as archive_common,
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]
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import logos_delivery/waku/factory/waku_conf
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import tools/confutils/cli_args
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const TestTimeout = chronos.seconds(60)
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type ReceiveEventListenerManager = ref object
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brokerCtx: BrokerContext
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receivedListener: MessageReceivedEventListener
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receivedEvent: AsyncEvent
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receivedMessages: seq[WakuMessage]
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targetCount: int
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proc newReceiveEventListenerManager(
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brokerCtx: BrokerContext, expectedCount: int = 1
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): ReceiveEventListenerManager =
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let manager = ReceiveEventListenerManager(
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brokerCtx: brokerCtx, receivedMessages: @[], targetCount: expectedCount
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)
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manager.receivedEvent = newAsyncEvent()
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manager.receivedListener = MessageReceivedEvent
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.listen(
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brokerCtx,
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proc(event: MessageReceivedEvent) {.async: (raises: []).} =
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manager.receivedMessages.add(event.message)
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if manager.receivedMessages.len >= manager.targetCount:
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manager.receivedEvent.fire()
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,
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)
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.expect("Failed to listen to MessageReceivedEvent")
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return manager
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proc teardown(manager: ReceiveEventListenerManager) {.async.} =
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await MessageReceivedEvent.dropListener(manager.brokerCtx, manager.receivedListener)
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proc waitForEvents(
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manager: ReceiveEventListenerManager, timeout: Duration
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): Future[bool] {.async.} =
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return await manager.receivedEvent.wait().withTimeout(timeout)
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proc waitForConnectionStatus(
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brokerCtx: BrokerContext, expected: ConnectionStatus
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) {.async.} =
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## Completes when the node reports `expected`.
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var future = newFuture[void]("waitForConnectionStatus")
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let handler: EventConnectionStatusChangeListenerProc = proc(
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e: EventConnectionStatusChange
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) {.async: (raises: []), gcsafe.} =
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if not future.finished and e.connectionStatus == expected:
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future.complete()
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let handle = EventConnectionStatusChange.listen(brokerCtx, handler).valueOr:
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raiseAssert error
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try:
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if not await future.withTimeout(TestTimeout):
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raiseAssert "Timeout waiting for status: " & $expected
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finally:
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await EventConnectionStatusChange.dropListener(brokerCtx, handle)
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proc createApiNodeConf(numShards: uint16 = 1): WakuNodeConf =
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var conf = defaultWakuNodeConf().valueOr:
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raiseAssert error
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conf.mode = cli_args.WakuMode.Core
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conf.listenAddress = parseIpAddress("0.0.0.0")
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conf.tcpPort = Port(0)
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conf.discv5UdpPort = Port(0)
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conf.clusterId = some(3'u16)
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conf.numShardsInNetwork = numShards
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conf.reliabilityEnabled = some(true)
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conf.rest = false
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result = conf
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type TestNetwork = ref object
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storeNode: WakuNode
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publisher: WakuNode
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subscriber: LogosDelivery
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storeNodePeerInfo: RemotePeerInfo
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missedPayload: seq[byte]
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proc setupNetwork(testTopic: ContentTopic): Future[TestNetwork] {.async.} =
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## Returns a started subscriber subscribed to `testTopic` but not yet connected
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## to the store, with a message sitting in the store it never saw live.
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const numShards: uint16 = 1
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let shard = PubsubTopic("/waku/2/rs/3/0")
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proc dummyHandler(topic: PubsubTopic, msg: WakuMessage) {.async, gcsafe.} =
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discard
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# store node: archive + store + relay, subscribed to the shard
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var storeNode: WakuNode
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lockNewGlobalBrokerContext:
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storeNode =
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newTestWakuNode(generateSecp256k1Key(), parseIpAddress("0.0.0.0"), Port(0))
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storeNode.mountMetadata(3, toSeq(0'u16 ..< numShards)).expect(
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"Failed to mount metadata on storeNode"
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)
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(await storeNode.mountRelay()).expect("Failed to mount relay on storeNode")
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storeNode.mountArchive(newSqliteArchiveDriver()).expect("Failed to mount archive")
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await storeNode.mountStore()
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await storeNode.mountLibp2pPing()
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await storeNode.start()
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storeNode.subscribe((kind: PubsubSub, topic: shard), dummyHandler).expect(
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"Failed to sub storeNode"
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)
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let storeNodePeerInfo = storeNode.peerInfo.toRemotePeerInfo()
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# publisher: relay, connected to the store so its messages get archived
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var publisher: WakuNode
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lockNewGlobalBrokerContext:
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publisher =
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newTestWakuNode(generateSecp256k1Key(), parseIpAddress("0.0.0.0"), Port(0))
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publisher.mountMetadata(3, toSeq(0'u16 ..< numShards)).expect(
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"Failed to mount metadata on publisher"
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)
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(await publisher.mountRelay()).expect("Failed to mount relay on publisher")
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await publisher.mountLibp2pPing()
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await publisher.start()
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publisher.subscribe((kind: PubsubSub, topic: shard), dummyHandler).expect(
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"Failed to sub publisher"
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)
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await publisher.connectToNodes(@[storeNodePeerInfo])
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var meshFormed = false
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for _ in 0 ..< 50:
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if publisher.wakuRelay.getNumPeersInMesh(shard).valueOr(0) > 0:
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meshFormed = true
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break
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await sleepAsync(100.milliseconds)
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if not meshFormed:
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raiseAssert "publisher<->store relay mesh did not form in time"
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# subscriber: created before the publish so the message timestamp lands after
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# its RecvService startTimeToCheck watermark
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var subscriber: LogosDelivery
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lockNewGlobalBrokerContext:
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subscriber = (await LogosDelivery.new(createApiNodeConf(numShards))).expect(
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"Failed to create subscriber"
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)
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(await subscriber.start()).expect("Failed to start subscriber")
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# publish while the subscriber is offline: the message reaches the archive but
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# the subscriber never sees it via live relay
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let missedPayload = "This message was missed".toBytes()
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let missedMsg = WakuMessage(
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payload: missedPayload, contentTopic: testTopic, version: 0, timestamp: now()
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)
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discard (await publisher.publish(some(shard), missedMsg)).expect(
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"Publish missed msg failed"
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)
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block waitArchive:
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for _ in 0 ..< 50:
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let query = archive_common.ArchiveQuery(
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includeData: false, contentTopics: @[testTopic], pubsubTopic: some(shard)
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)
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let res = await storeNode.wakuArchive.findMessages(query)
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if res.isOk() and res.get().hashes.len > 0:
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break waitArchive
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await sleepAsync(100.milliseconds)
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raiseAssert "Message was not archived in time"
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# subscribe to the content topic; with no peers yet the subscriber stays offline
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(await subscriber.messagingClient.subscribe(testTopic)).expect("Failed to subscribe")
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return TestNetwork(
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storeNode: storeNode,
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publisher: publisher,
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subscriber: subscriber,
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storeNodePeerInfo: storeNodePeerInfo,
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missedPayload: missedPayload,
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)
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proc teardown(net: TestNetwork) {.async.} =
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if not isNil(net.subscriber):
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(await net.subscriber.stop()).expect("Failed to stop subscriber")
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net.subscriber = nil
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if not isNil(net.publisher):
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await net.publisher.stop()
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net.publisher = nil
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if not isNil(net.storeNode):
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await net.storeNode.stop()
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net.storeNode = nil
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suite "Messaging API, Receive Service (store recovery)":
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asyncTest "recv_service delivers store-recovered messages via MessageReceivedEvent":
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## Regression: a message archived before the subscriber connects is recovered
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## by an explicit checkStore() and delivered via MessageReceivedEvent.
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let net = await setupNetwork(ContentTopic("/waku/2/recv-test/proto"))
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defer:
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await net.teardown()
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let eventManager = newReceiveEventListenerManager(net.subscriber.waku.brokerCtx, 1)
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defer:
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await eventManager.teardown()
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await net.subscriber.waku.node.connectToNodes(@[net.storeNodePeerInfo])
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await net.subscriber.messagingClient.recvService.checkStore()
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check await eventManager.waitForEvents(TestTimeout)
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check eventManager.receivedMessages.len == 1
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if eventManager.receivedMessages.len > 0:
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check eventManager.receivedMessages[0].payload == net.missedPayload
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asyncTest "recv_service backfills missed messages when it comes back online":
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## Connecting a peer brings the subscriber online, firing the backfill that
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## recovers a message archived while it was offline.
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let net = await setupNetwork(ContentTopic("/waku/2/recv-reconnect-test/proto"))
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defer:
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await net.teardown()
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let eventManager = newReceiveEventListenerManager(net.subscriber.waku.brokerCtx, 1)
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defer:
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await eventManager.teardown()
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# sync on coming online (the transition that fires the backfill) before asserting
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let onlineFut = waitForConnectionStatus(
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net.subscriber.waku.brokerCtx, ConnectionStatus.PartiallyConnected
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)
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await net.subscriber.waku.node.connectToNodes(@[net.storeNodePeerInfo])
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await onlineFut
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check await eventManager.waitForEvents(TestTimeout)
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check eventManager.receivedMessages.len == 1
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if eventManager.receivedMessages.len > 0:
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check eventManager.receivedMessages[0].payload == net.missedPayload
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