feat(waku examples): Add examples of pairing with `nwaku` instance

libs/waku-utils/example/agentA.nim

@@ -1,214 +0,0 @@
-import
-  std/[tables,times,sequtils],
-  stew/byteutils,
-  stew/shims/net,
-  chronicles,
-  chronos,
-  confutils,
-  libp2p/crypto/crypto,
-  eth/keys,
-  eth/p2p/discoveryv5/enr,
-  testutils/unittests
-
-
-import
-  waku/common/logging,
-  waku/node/peer_manager,
-  waku/waku_core,
-  waku/waku_node,
-  waku/waku_enr,
-  waku/waku_discv5,
-  waku/common/protobuf,
-  waku/utils/noise as waku_message_utils,
-  waku/waku_noise/noise_types,
-  waku/waku_noise/noise_utils,
-  waku/waku_noise/noise_handshake_processing,
-  waku/waku_core
-
-import ../waku_handshake_utils
-
-proc now*(): Timestamp =
-  getNanosecondTime(getTime().toUnixFloat())
-
-# An accesible bootstrap node. See wakuv2.prod fleets.status.im
-
-
-const bootstrapNode = "enr:-Nm4QOdTOKZJKTUUZ4O_W932CXIET-M9NamewDnL78P5u9D" &
-                      "OGnZlK0JFZ4k0inkfe6iY-0JAaJVovZXc575VV3njeiABgmlkgn" &
-                      "Y0gmlwhAjS3ueKbXVsdGlhZGRyc7g6ADg2MW5vZGUtMDEuYWMtY" &
-                      "24taG9uZ2tvbmctYy53YWt1djIucHJvZC5zdGF0dXNpbS5uZXQG" &
-                      "H0DeA4lzZWNwMjU2azGhAo0C-VvfgHiXrxZi3umDiooXMGY9FvY" &
-                      "j5_d1Q4EeS7eyg3RjcIJ2X4N1ZHCCIyiFd2FrdTIP"
-
-# careful if running pub and sub in the same machine
-const wakuPort = 60000
-const discv5Port = 9000
-
-
-
-proc setupAndPublish(rng: ref HmacDrbgContext) {.async.} =
-    var readyForFinalization = false
-
-    #########################
-    # Content Topic information
-    let contentTopicInfo = ContentTopicInfo(
-      applicationName: "waku-noise-sessions",
-      applicationVersion: "0.1",
-      shardId: "10",)
-
-    ################################
-    # Alice static/ephemeral key initialization and commitment
-    let aliceInfo = initAgentKeysAndCommitment(rng)
-    let s = aliceInfo.commitment
-
-    let qr = readFile("qr.txt")
-    let qrMessageNameTag = cast[seq[byte]](readFile("qrMessageNametag.txt"))
-    echo qrMessageNameTag
-
-    # We set the contentTopic from the content topic parameters exchanged in the QR
-    let contentTopic = initContentTopicFromQr(qr)
-
-    var aliceHS = initHS(aliceInfo, qr, true)
-
-    var
-      sentTransportMessage: seq[byte]
-      aliceStep: HandshakeStepResult
-      wakuMsg: Result[WakuMessage, cstring]
-      readPayloadV2: PayloadV2
-      aliceMessageNametag: MessageNametag
-      aliceHSResult: HandshakeResult
-
-
-    # use notice to filter all waku messaging
-    setupLogLevel(logging.LogLevel.NOTICE)
-    notice "starting publisher", wakuPort=wakuPort, discv5Port=discv5Port
-    let
-        nodeKey = crypto.PrivateKey.random(Secp256k1, rng[]).get()
-        ip = parseIpAddress("0.0.0.0")
-        flags = CapabilitiesBitfield.init(lightpush = false, filter = false, store = false, relay = true)
-
-    var enrBuilder = EnrBuilder.init(nodeKey)
-
-    let recordRes = enrBuilder.build()
-    let record =
-      if recordRes.isErr():
-        error "failed to create enr record", error=recordRes.error
-        quit(QuitFailure)
-      else: recordRes.get()
-
-    var builder = WakuNodeBuilder.init()
-    builder.withNodeKey(nodeKey)
-    builder.withRecord(record)
-    builder.withNetworkConfigurationDetails(ip, Port(wakuPort)).tryGet()
-    let node = builder.build().tryGet()
-
-    var bootstrapNodeEnr: enr.Record
-    discard bootstrapNodeEnr.fromURI(bootstrapNode)
-
-    let discv5Conf = WakuDiscoveryV5Config(
-      discv5Config: none(DiscoveryConfig),
-      address: ip,
-      port: Port(discv5Port),
-      privateKey: keys.PrivateKey(nodeKey.skkey),
-      bootstrapRecords: @[bootstrapNodeEnr],
-      autoupdateRecord: true,
-    )
-
-    # assumes behind a firewall, so not care about being discoverable
-    let wakuDiscv5 = WakuDiscoveryV5.new(
-      node.rng,
-      discv5Conf,
-      some(node.enr),
-      some(node.peerManager),
-      node.topicSubscriptionQueue,
-    )
-
-    await node.start()
-    await node.mountRelay()
-    node.peerManager.start()
-
-    (await wakuDiscv5.start()).isOkOr:
-      error "failed to start discv5", error = error
-      quit(1)
-
-    # wait for a minimum of peers to be connected, otherwise messages wont be gossiped
-    while true:
-      let numConnectedPeers = node.peerManager.peerStore[ConnectionBook].book.values().countIt(it == Connected)
-      if numConnectedPeers >= 6:
-        notice "publisher is ready", connectedPeers=numConnectedPeers, required=6
-        break
-      notice "waiting to be ready", connectedPeers=numConnectedPeers, required=6
-      await sleepAsync(5000)
-
-    # Make sure it matches the publisher. Use default value
-    # see spec: https://rfc.vac.dev/spec/23/
-    let pubSubTopic = PubsubTopic("/waku/2/default-waku/proto")
-
-    ###############################################
-    # We prepare a Waku message from Alice's payload2
-    echo "qrMessageNametag ", qrMessageNametag
-    echo "aliceMessageNametag ", aliceMessageNametag
-
-    wakuMsg = prepareHandShakeInitiatorMsg(rng, contentTopic, aliceInfo,
-                                           qrMessageNameTag, aliceMessageNametag,
-                                           aliceHS, aliceStep)
-    echo "aliceMessageNametag ", aliceMessageNametag
-
-    await publishHandShakeInitiatorMsg(node, pubSubTopic, contentTopic, wakuMsg.get())
-    echo "aliceMessageNametag ", aliceMessageNametag
-
-    # aliceMessageNametag = toMessageNametag(aliceHS)
-    let step2Nametag = aliceMessageNametag
-    echo "step2Nametag ", step2Nametag
-    proc handler(topic: PubsubTopic, msg: WakuMessage): Future[void] {.async, gcsafe.} =
-      # let payloadStr = string.fromBytes(msg.payload)
-      if msg.contentTopic == contentTopic:
-        readPayloadV2 = decodePayloadV2(msg).get()
-        if readPayloadV2.messageNametag == step2Nametag:
-          echo "aliceMessageNametag ", aliceMessageNametag
-
-          handleHandShakeMsg(rng, pubSubTopic, contentTopic,step = 2, readPayloadV2,
-                             aliceStep, aliceHS, aliceMessageNametag)
-          echo "aliceMessageNametag ", aliceMessageNametag
-
-          # await sleepAsync(5000)
-          let handShakeMsgStep3 = prepareHandShakeMsg(rng, contentTopic, aliceInfo,
-                                                    aliceMessageNametag, aliceHS,
-                                                    aliceStep, step = 3)
-          echo "aliceMessageNametag ", aliceMessageNametag
-
-          await publishHandShakeMsg( node, pubSubTopic, contentTopic, handShakeMsgStep3.get(), 3)
-          readyForFinalization = true
-          echo "aliceMessageNametag ", aliceMessageNametag
-
-    node.subscribe((kind: PubsubSub, topic: pubsubTopic), some(handler))
-
-    while true:
-      if readyForFinalization:
-        notice "Finalizing handshake"
-        aliceHSResult = finalizeHandshake(aliceHS)
-        await sleepAsync(5000)
-        break
-      await sleepAsync(5000)
-
-    var
-      payload2: PayloadV2
-      realMessage: seq[byte]
-      readMessage: seq[byte]
-
-    # Bob writes to Alice
-    realMessage = @[(byte)42,42,42,42]
-    let realMessageContentTopic = "/" & contentTopicInfo.applicationName & "/" & contentTopicInfo.applicationVersion & "/wakunoise/1/sessions_shard-" & contentTopicInfo.shardId & "/real" & "/proto"
-    payload2 = writeMessage(aliceHSResult, realMessage, outboundMessageNametagBuffer = aliceHSResult.nametagsOutbound)
-    echo aliceHSResult.h
-    wakuMsg = encodePayloadV2(  payload2, realMessageContentTopic)
-    await node.publish(some(pubSubTopic), wakuMsg.get)
-    notice "Sending real message", payload=payload2,
-                                  pubsubTopic=pubsubTopic,
-                                  contentTopic=realMessageContentTopic
-
-
-when isMainModule:
-  let rng = crypto.newRng()
-  asyncSpawn setupAndPublish(rng)
-  runForever()

libs/waku-utils/example/agentB.nim

@@ -1,203 +0,0 @@
-import
-  std/[tables, sequtils],
-  stew/byteutils,
-  stew/shims/net,
-  chronicles,
-  chronos,
-  confutils,
-  libp2p/crypto/crypto,
-  eth/keys,
-  eth/p2p/discoveryv5/enr
-
-import
-  waku/common/logging,
-  waku/node/peer_manager,
-  waku/waku_core,
-  waku/waku_node,
-  waku/waku_enr,
-  waku/waku_discv5,
-  waku/common/protobuf,
-  waku/utils/noise as waku_message_utils,
-  waku/waku_noise/noise_types,
-  waku/waku_noise/noise_utils,
-  waku/waku_noise/noise_handshake_processing,
-  waku/waku_core
-
-import ../waku_handshake_utils
-
-# An accesible bootstrap node. See wakuv2.prod fleets.status.im
-const bootstrapNode = "enr:-Nm4QOdTOKZJKTUUZ4O_W932CXIET-M9NamewDnL78P5u9DOGnZl" &
-                      "K0JFZ4k0inkfe6iY-0JAaJVovZXc575VV3njeiABgmlkgnY0gmlwhAjS" &
-                      "3ueKbXVsdGlhZGRyc7g6ADg2MW5vZGUtMDEuYWMtY24taG9uZ2tvbmct" &
-                      "Yy53YWt1djIucHJvZC5zdGF0dXNpbS5uZXQGH0DeA4lzZWNwMjU2azGh" &
-                      "Ao0C-VvfgHiXrxZi3umDiooXMGY9FvYj5_d1Q4EeS7eyg3RjcIJ2X4N1" &
-                      "ZHCCIyiFd2FrdTIP"
-
-# careful if running pub and sub in the same machine
-const wakuPort = 50000
-const discv5Port = 8000
-
-
-proc setupAndSubscribe(rng: ref HmacDrbgContext) {.async.} =
-    var readyForFinalization = false
-
-    ################################
-    # Bob static/ephemeral key initialization and commitment
-    let bobInfo = initAgentKeysAndCommitment(rng)
-    let r = bobInfo.commitment
-
-    #########################
-    # Content Topic information
-    let contentTopicInfo = ContentTopicInfo(
-      applicationName: "waku-noise-sessions",
-      applicationVersion: "0.1",
-      shardId: "10",)
-
-    let (qr, qrMessageNametag) = initQr(rng, contentTopicInfo, bobInfo)
-    writeFile("qr.txt", qr)
-    writeFile("qrMessageNametag.txt", qrMessageNametag)
-    echo qrMessageNametag
-
-    # We set the contentTopic from the content topic parameters exchanged in the QR
-    let contentTopic = initContentTopicFromQr(qr)
-    echo "contentTopic: ", contentTopic
-    var bobHS = initHS(bobInfo, qr)
-
-
-    var
-      bobStep: HandshakeStepResult
-      wakuMsg: Result[WakuMessage, cstring]
-      readPayloadV2: PayloadV2
-      bobMessageNametag: MessageNametag
-      bobHSResult: HandshakeResult
-
-
-    # use notice to filter all waku messaging
-    setupLogLevel(logging.LogLevel.NOTICE)
-    notice "starting subscriber", wakuPort=wakuPort, discv5Port=discv5Port
-    let
-        nodeKey = crypto.PrivateKey.random(Secp256k1, rng[])[]
-        ip = parseIpAddress("0.0.0.0")
-        flags = CapabilitiesBitfield.init(lightpush = false, filter = false, store = false, relay = true)
-
-    var enrBuilder = EnrBuilder.init(nodeKey)
-
-    let recordRes = enrBuilder.build()
-    let record =
-      if recordRes.isErr():
-        error "failed to create enr record", error=recordRes.error
-        quit(QuitFailure)
-      else: recordRes.get()
-
-    var builder = WakuNodeBuilder.init()
-    builder.withNodeKey(nodeKey)
-    builder.withRecord(record)
-    builder.withNetworkConfigurationDetails(ip, Port(wakuPort)).tryGet()
-    let node = builder.build().tryGet()
-
-    var bootstrapNodeEnr: enr.Record
-    discard bootstrapNodeEnr.fromURI(bootstrapNode)
-
-    let discv5Conf = WakuDiscoveryV5Config(
-      discv5Config: none(DiscoveryConfig),
-      address: ip,
-      port: Port(discv5Port),
-      privateKey: keys.PrivateKey(nodeKey.skkey),
-      bootstrapRecords: @[bootstrapNodeEnr],
-      autoupdateRecord: true,
-    )
-
-    # assumes behind a firewall, so not care about being discoverable
-    let wakuDiscv5 = WakuDiscoveryV5.new(
-      node.rng,
-      discv5Conf,
-      some(node.enr),
-      some(node.peerManager),
-      node.topicSubscriptionQueue,
-    )
-
-    await node.start()
-    await node.mountRelay()
-    node.peerManager.start()
-
-    (await wakuDiscv5.start()).isOkOr:
-      error "failed to start discv5", error = error
-      quit(1)
-
-    # wait for a minimum of peers to be connected, otherwise messages wont be gossiped
-    while true:
-      let numConnectedPeers = node.peerManager.peerStore[ConnectionBook].book.values().countIt(it == Connected)
-      if numConnectedPeers >= 6:
-        notice "subscriber is ready", connectedPeers=numConnectedPeers, required=6
-        break
-      notice "waiting to be ready", connectedPeers=numConnectedPeers, required=6
-      await sleepAsync(5000)
-
-    # Make sure it matches the publisher. Use default value
-    # see spec: https://rfc.vac.dev/spec/23/
-    let pubSubTopic = PubsubTopic("/waku/2/default-waku/proto")
-    var step2Nameteag: MessageNametag
-    echo "qrMessageNametag ", qrMessageNametag
-    proc handler(topic: PubsubTopic, msg: WakuMessage): Future[void] {.async, gcsafe.} =
-      # let payloadStr = string.fromBytes(msg.payload)
-      if msg.contentTopic == contentTopic:
-        readPayloadV2 = decodePayloadV2(msg).get()
-        if readPayloadV2.messageNametag == qrMessageNametag:
-          echo "bobMessageNametag ", bobMessageNametag
-          handleHandShakeInitiatorMsg(rng, pubSubTopic, contentTopic, readPayloadV2,
-                                      bobStep, bobHS, bobMessageNametag,
-                                      qrMessageNametag)
-          echo "bobMessageNametag ", bobMessageNametag
-          step2Nameteag = bobMessageNametag
-          wakuMsg = prepareHandShakeMsg(rng, contentTopic, bobInfo,
-                                            bobMessageNametag, bobHS, bobStep,
-                                            step = 2)
-          echo "bobMessageNametag ", bobMessageNametag
-          await publishHandShakeMsg(node, pubSubTopic, contentTopic,
-                                    wakuMsg.get(), step = 2)
-
-        elif readPayloadV2.messageNametag != step2Nameteag:
-          # bobMessageNametag = toMessageNametag(bobHS)
-          handleHandShakeMsg(rng, pubSubTopic, contentTopic, step = 3, readPayloadV2,
-                             bobStep, bobHS, bobMessageNametag)
-        #   notice "step 3 message received", payload=readPayloadV2,
-        #                             pubsubTopic=pubsubTopic,
-        #                             contentTopic=msg.contentTopic,
-        #                             timestamp=msg.timestamp
-        # # Bob reads Alice's payloads, and returns the (decrypted) transport message Alice sent to him
-        #   bobStep = stepHandshake(rng[], bobHS, readPayloadV2 = readPayloadV2, messageNametag = bobMessageNametag).get()
-          readyForFinalization = true
-
-    node.subscribe((kind: PubsubSub, topic: pubsubTopic), some(handler))
-    while true:
-      if readyForFinalization:
-        notice "Finalizing handshake"
-        bobHSResult = finalizeHandshake(bobHS)
-
-        proc realMessageHandler(topic: PubsubTopic, msg: WakuMessage): Future[void] {.async, gcsafe.} =
-          let realMessageContentTopic = "/" & contentTopicInfo.applicationName & "/" & contentTopicInfo.applicationVersion & "/wakunoise/1/sessions_shard-" & contentTopicInfo.shardId & "/real" & "/proto"
-
-          if msg.contentTopic == realMessageContentTopic:
-            readPayloadV2 = decodePayloadV2(msg).get()
-            notice "Received real message", payload=readPayloadV2,
-                              pubsubTopic=pubsubTopic,
-                              contentTopic=msg.contentTopic,
-                              timestamp=msg.timestamp
-            let readMessage = readMessage(bobHSResult, readPayloadV2, inboundMessageNametagBuffer = bobHSResult.nametagsInbound).get()
-            echo readMessage
-            echo bobHSResult.h
-
-
-        node.subscribe((kind: PubsubSub, topic: pubsubTopic), some(realMessageHandler))
-        break
-      await sleepAsync(5000)
-
-
-
-
-
-
-when isMainModule:
-  let rng = crypto.newRng()
-  asyncSpawn setupAndSubscribe(rng)
-  runForever()

libs/waku-utils/example/nwaku/agentA.nim

@@ -0,0 +1,182 @@
+import
+  std/[tables, times, sequtils],
+  stew/shims/net,
+  chronicles,
+  chronos,
+  confutils,
+  libp2p/crypto/crypto,
+  eth/[keys, p2p/discoveryv5/enr],
+  nimcrypto/utils
+
+import
+  waku/[waku_core, waku_node, waku_enr, waku_discv5],
+  waku/waku_noise/[noise_types, noise_utils, noise_handshake_processing],
+  waku/utils/noise,
+  waku/node/peer_manager,
+  waku/common/[logging, protobuf]
+
+import ../../waku_handshake_utils
+
+const bootstrapNode = "enr:-P-4QGVNANzbhCI49du6Moyw98AjuMhKoOpE_Jges9JlCq-I" &
+                      "CAVadktjfcNpuhQgT0g1cu86_S3nbM7eYkCsqDAQG7UBgmlkgnY0" &
+                      "gmlwhI_G-a6KbXVsdGlhZGRyc7hgAC02KG5vZGUtMDEuZG8tYW1z" &
+                      "My5zdGF0dXMucHJvZC5zdGF0dXNpbS5uZXQGdl8ALzYobm9kZS0w" &
+                      "MS5kby1hbXMzLnN0YXR1cy5wcm9kLnN0YXR1c2ltLm5ldAYBu94D" &
+                      "iXNlY3AyNTZrMaECoVyonsTGEQvVioM562Q1fjzTb_vKD152PPId" &
+                      "sV7sM6SDdGNwgnZfg3VkcIIjKIV3YWt1Mg8"
+# careful if running pub and sub in the same machine
+const
+  wakuPort = 60000
+  discv5Port = 9000
+  requiredConnectedPeers = 2
+  # Make sure it matches the publisher. Use default value
+  # see spec: https://rfc.vac.dev/spec/23/
+  pubSubTopic = PubsubTopic("/waku/2/default-waku/proto")
+
+proc exampleNwakuAgentA(rng: ref HmacDrbgContext) {.async.} =
+  setupLogLevel(logging.LogLevel.NOTICE)
+
+  var readyForFinalization = false
+
+  # agentA static/ephemeral key initialization and commitment
+  let agentAInfo = initAgentKeysAndCommitment(rng)
+
+  # Read the QR
+  let
+    qr = readFile("build/data/qr.txt")
+    (_, _, _, readEphemeralKey, _) = fromQr(qr)
+    qrMessageNameTag = cast[seq[byte]](readFile("build/data/qrMessageNametag.txt"))
+    # We set the contentTopic from the content topic parameters exchanged in the QR
+    contentTopic = initContentTopicFromQr(qr)
+
+  notice "Starting `nwaku`-`nwaku` pairing example. Agent A",
+      wakuPort = wakuPort, discv5Port = discv5Port
+
+  notice "Initial information parsed from the QR", contentTopic = contentTopic,
+      qrMessageNameTag = qrMessageNameTag
+
+  var
+    agentAHS = initHS(agentAInfo, qr, true)
+    agentAHSResult: HandshakeResult
+
+  # Setup the Waku node
+  let
+    nodeKey = crypto.PrivateKey.random(Secp256k1, rng[]).get()
+    ip = parseIpAddress("0.0.0.0")
+    flags = CapabilitiesBitfield.init(lightpush = false, filter = false,
+                                      store = false, relay = true)
+
+  var enrBuilder = EnrBuilder.init(nodeKey)
+
+  let recordRes = enrBuilder.build()
+  let record =
+    if recordRes.isErr():
+      error "failed to create enr record", error = recordRes.error
+      quit(QuitFailure)
+    else: recordRes.get()
+
+  var builder = WakuNodeBuilder.init()
+  builder.withNodeKey(nodeKey)
+  builder.withRecord(record)
+  builder.withNetworkConfigurationDetails(ip, Port(wakuPort)).tryGet()
+  let node = builder.build().tryGet()
+
+  var bootstrapNodeEnr: enr.Record
+  discard bootstrapNodeEnr.fromURI(bootstrapNode)
+
+  let discv5Conf = WakuDiscoveryV5Config(discv5Config: none(DiscoveryConfig),
+                                         address: ip, port: Port(discv5Port),
+                                         privateKey: keys.PrivateKey(nodeKey.skkey),
+                                         bootstrapRecords: @[bootstrapNodeEnr],
+                                         autoupdateRecord: true)
+
+  # assumes behind a firewall, so not care about being discoverable
+  let wakuDiscv5 = WakuDiscoveryV5.new(node.rng, discv5Conf, some(node.enr),
+                                       some(node.peerManager),
+                                       node.topicSubscriptionQueue)
+
+  await node.start()
+  await node.mountRelay()
+  node.peerManager.start()
+
+  (await wakuDiscv5.start()).isOkOr:
+    error "failed to start discv5", error = error
+    quit(1)
+
+  # Wait for a minimum of peers to be connected, otherwise messages wont be gossiped
+  while true:
+    let numConnectedPeers = node.peerManager.peerStore[
+        ConnectionBook].book.values().countIt(it == Connected)
+    if numConnectedPeers >= requiredConnectedPeers:
+      notice "Node is ready", connectedPeers = numConnectedPeers,
+                              required = requiredConnectedPeers
+      break
+    notice "Waiting for the node to be ready",
+        connectedPeers = numConnectedPeers, required = requiredConnectedPeers
+    await sleepAsync(5000)
+
+  # Perform the handshake
+  agentAHSResult = await initiatorHandshake(rng, node, pubSubTopic, contentTopic,
+                                            qr, qrMessageNameTag, agentAInfo)
+
+  await sleepAsync(1000) # Just in case there is some kind of delay on the other side
+
+  ## Fake lost messages
+  let
+    message1 = @[(byte)1, 42, 42, 42]
+    payload1 = writeMessage(agentAHSResult, message1,
+                            agentAHSResult.nametagsOutbound)
+    wakuMessage1 = encodePayloadV2(payload1, contentTopic)
+  notice "Sending first message"
+  await node.publish(some(pubSubTopic), wakuMessage1.get)
+
+  let
+    lostMessage1 = @[(byte)1, 5, 5, 5]
+    payloadLost1 = writeMessage(agentAHSResult, lostMessage1,
+                                agentAHSResult.nametagsOutbound)
+    wakuLostMessage1 = encodePayloadV2(payloadLost1, contentTopic)
+
+  let
+    lostMessage2 = @[(byte)2, 5, 5, 5]
+    payloadLost2 = writeMessage(agentAHSResult, lostMessage2,
+                                agentAHSResult.nametagsOutbound)
+    wakuLostMessage2 = encodePayloadV2(payloadLost2, contentTopic)
+
+  let
+    message2 = @[(byte)2, 42, 42, 42]
+    payload2 = writeMessage(agentAHSResult, message2,
+                            agentAHSResult.nametagsOutbound)
+    wakuMessage2 = encodePayloadV2(payload2, contentTopic)
+  notice "Sending second message"
+  await node.publish(some(pubSubTopic), wakuMessage2.get)
+
+  let
+    lostMessage3 = @[(byte)3, 5, 5, 5]
+    payloadLost3 = writeMessage(agentAHSResult, lostMessage3,
+                                agentAHSResult.nametagsOutbound)
+    wakuLostMessage3 = encodePayloadV2(payloadLost3, contentTopic)
+
+  await sleepAsync(10000)
+  notice "Sending first lost message"
+  await node.publish(some(pubSubTopic), wakuLostMessage1.get)
+
+  let
+    message3 = @[(byte)3, 42, 42, 42]
+    payload3 = writeMessage(agentAHSResult, message3,
+                            agentAHSResult.nametagsOutbound)
+    wakuMessage3 = encodePayloadV2(payload3, contentTopic)
+  notice "Sending third message"
+  await node.publish(some(pubSubTopic), wakuMessage3.get)
+
+  await sleepAsync(10000)
+  notice "Sending second lost message"
+  await node.publish(some(pubSubTopic), wakuLostMessage2.get)
+
+  await sleepAsync(1000)
+  notice "Sending third lost message"
+  await node.publish(some(pubSubTopic), wakuLostMessage3.get)
+
+when isMainModule:
+  let rng = crypto.newRng()
+  asyncSpawn exampleNwakuAgentA(rng)
+  runForever()

libs/waku-utils/example/nwaku/agentB.nim

@@ -0,0 +1,190 @@
+import
+  std/[tables, times, sequtils],
+  stew/shims/net,
+  chronicles,
+  chronos,
+  confutils,
+  libp2p/crypto/crypto,
+  eth/[keys, p2p/discoveryv5/enr],
+  nimcrypto/utils
+
+import
+  waku/[waku_core, waku_node, waku_enr, waku_discv5],
+  waku/waku_noise/[noise_types, noise_utils, noise_handshake_processing],
+  waku/utils/noise,
+  waku/node/peer_manager,
+  waku/common/[logging, protobuf]
+
+import ../../waku_handshake_utils
+
+const bootstrapNode = "enr:-P-4QGVNANzbhCI49du6Moyw98AjuMhKoOpE_Jges9JlCq-I" &
+                      "CAVadktjfcNpuhQgT0g1cu86_S3nbM7eYkCsqDAQG7UBgmlkgnY0" &
+                      "gmlwhI_G-a6KbXVsdGlhZGRyc7hgAC02KG5vZGUtMDEuZG8tYW1z" &
+                      "My5zdGF0dXMucHJvZC5zdGF0dXNpbS5uZXQGdl8ALzYobm9kZS0w" &
+                      "MS5kby1hbXMzLnN0YXR1cy5wcm9kLnN0YXR1c2ltLm5ldAYBu94D" &
+                      "iXNlY3AyNTZrMaECoVyonsTGEQvVioM562Q1fjzTb_vKD152PPId" &
+                      "sV7sM6SDdGNwgnZfg3VkcIIjKIV3YWt1Mg8"
+const
+  wakuPort = 50000
+  discv5Port = 8000
+  requiredConnectedPeers = 2
+  # Make sure it matches the publisher. Use default value
+  # see spec: https://rfc.vac.dev/spec/23/
+  pubSubTopic = PubsubTopic("/waku/2/default-waku/proto")
+
+proc exampleNwakuAgentB(rng: ref HmacDrbgContext) {.async.} =
+  setupLogLevel(logging.LogLevel.NOTICE)
+
+  var readyForFinalization = false
+
+  let agentBInfo = initAgentKeysAndCommitment(rng)
+  let r = agentBInfo.commitment
+
+  #########################
+  # Content Topic information
+  let contentTopicInfo = ContentTopicInfo(
+    applicationName: "waku-noise-sessions",
+    applicationVersion: "0.1",
+    shardId: "10", )
+
+  let (qr, qrMessageNametag) = initQr(rng, contentTopicInfo, agentBInfo)
+  writeFile("build/data/qr.txt", qr)
+  writeFile("build/data/qrMessageNametag.txt", qrMessageNametag)
+
+  # We set the contentTopic from the content topic parameters exchanged in the QR
+  let contentTopic = initContentTopicFromQr(qr)
+
+  notice "Starting `nwaku`-`nwaku` pairing example. Agent A",
+      wakuPort = wakuPort, discv5Port = discv5Port
+
+  notice "Initial information parsed from the QR", contentTopic = contentTopic,
+      qrMessageNameTag = qrMessageNameTag
+
+  var
+    agentBHS = initHS(agentBInfo, qr)
+    agentBStep: HandshakeStepResult
+    wakuMsg: Result[WakuMessage, cstring]
+    readPayloadV2: PayloadV2
+    agentBMessageNametag: MessageNametag
+    agentBHSResult: HandshakeResult
+
+  # Setup the Waku node
+  let
+    nodeKey = crypto.PrivateKey.random(Secp256k1, rng[])[]
+    ip = parseIpAddress("0.0.0.0")
+    flags = CapabilitiesBitfield.init(lightpush = false, filter = false,
+        store = false, relay = true)
+
+  var enrBuilder = EnrBuilder.init(nodeKey)
+
+  let recordRes = enrBuilder.build()
+  let record =
+    if recordRes.isErr():
+      error "failed to create enr record", error = recordRes.error
+      quit(QuitFailure)
+    else: recordRes.get()
+
+  var builder = WakuNodeBuilder.init()
+  builder.withNodeKey(nodeKey)
+  builder.withRecord(record)
+  builder.withNetworkConfigurationDetails(ip, Port(wakuPort)).tryGet()
+  let node = builder.build().tryGet()
+
+  var bootstrapNodeEnr: enr.Record
+  discard bootstrapNodeEnr.fromURI(bootstrapNode)
+
+  let discv5Conf = WakuDiscoveryV5Config(
+    discv5Config: none(DiscoveryConfig),
+    address: ip,
+    port: Port(discv5Port),
+    privateKey: keys.PrivateKey(nodeKey.skkey),
+    bootstrapRecords: @[bootstrapNodeEnr],
+    autoupdateRecord: true,
+  )
+
+  # assumes behind a firewall, so not care about being discoverable
+  let wakuDiscv5 = WakuDiscoveryV5.new(
+    node.rng,
+    discv5Conf,
+    some(node.enr),
+    some(node.peerManager),
+    node.topicSubscriptionQueue,
+  )
+
+  await node.start()
+  await node.mountRelay()
+  node.peerManager.start()
+
+  (await wakuDiscv5.start()).isOkOr:
+    error "failed to start discv5", error = error
+    quit(1)
+
+  # wait for a minimum of peers to be connected, otherwise messages wont be gossiped
+  while true:
+    let numConnectedPeers = node.peerManager.peerStore[
+        ConnectionBook].book.values().countIt(it == Connected)
+    if numConnectedPeers >= requiredConnectedPeers:
+      notice "subscriber is ready", connectedPeers = numConnectedPeers,
+          required = requiredConnectedPeers
+      break
+    notice "waiting to be ready", connectedPeers = numConnectedPeers,
+        required = requiredConnectedPeers
+    await sleepAsync(5000)
+
+  # Make sure it matches the publisher. Use default value
+  # see spec: https://rfc.vac.dev/spec/23/
+  let pubSubTopic = PubsubTopic("/waku/2/default-waku/proto")
+  var step2Nametag: MessageNametag
+  proc handler(topic: PubsubTopic, msg: WakuMessage): Future[void] {.async, gcsafe.} =
+    # let payloadStr = string.fromBytes(msg.payload)
+    if msg.contentTopic == contentTopic:
+      readPayloadV2 = decodePayloadV2(msg).get()
+      if readPayloadV2.messageNametag == qrMessageNametag:
+        handleHandShakeInitiatorMsg(rng, pubSubTopic, contentTopic, readPayloadV2,
+                                    agentBStep, agentBHS, agentBMessageNametag,
+                                    qrMessageNametag)
+        step2Nametag = agentBMessageNametag
+        wakuMsg = prepareHandShakeMsg(rng, contentTopic, agentBInfo,
+                                      agentBMessageNametag, agentBHS,
+                                      agentBStep,
+                                      step = 2)
+        await publishHandShakeMsg(node, pubSubTopic, contentTopic,
+                                  wakuMsg.get(), step = 2)
+
+        agentBMessageNametag = toMessageNametag(agentBHS)
+      elif readPayloadV2.messageNametag == agentBMessageNametag:
+        handleHandShakeMsg(rng, pubSubTopic, contentTopic, step = 3, readPayloadV2,
+                           agentBStep, agentBHS, agentBMessageNametag)
+        readyForFinalization = true
+
+  node.subscribe((kind: PubsubSub, topic: pubsubTopic), some(handler))
+
+  var handshakeFinalized = false
+  while true:
+    if readyForFinalization:
+      notice "Finalizing handshake"
+      agentBHSResult = finalizeHandshake(agentBHS)
+      notice "Handshake finalized successfully"
+      handshakeFinalized = true
+      break
+    await sleepAsync(5000)
+
+  if handshakeFinalized:
+    proc realMessageHandler(topic: PubsubTopic, msg: WakuMessage
+        ): Future[void] {.async.} =
+      if msg.contentTopic == contentTopic:
+        readPayloadV2 = decodePayloadV2(msg).get()
+        notice "Received real message", payload = readPayloadV2,
+                                        pubsubTopic = pubsubTopic,
+                                        contentTopic = msg.contentTopic,
+                                        timestamp = msg.timestamp
+        let readMessage = readMessage(agentBHSResult, readPayloadV2,
+                                      agentBHSResult.nametagsInbound).get()
+        echo readMessage
+
+    node.subscribe((kind: PubsubSub, topic: pubsubTopic), some(realMessageHandler))
+
+when isMainModule:
+  let rng = crypto.newRng()
+  asyncSpawn exampleNwakuAgentB(rng)
+  runForever()