{.used.} import stew/[results, byteutils], stew/shims/net, chronos, chronicles, testutils/unittests, libp2p/crypto/crypto, eth/keys, eth/p2p/discoveryv5/enr import ../../waku/v2/waku_node, ../../waku/v2/protocol/waku_message, ../../waku/v2/protocol/waku_discv5, ./testlib/common, ./testlib/wakucore, ./testlib/wakunode procSuite "Waku Discovery v5": asyncTest "Waku Discovery v5 end-to-end": ## Tests integrated discovery v5 let bindIp = ValidIpAddress.init("0.0.0.0") extIp = ValidIpAddress.init("127.0.0.1") nodeKey1 = generateSecp256k1Key() nodeTcpPort1 = Port(61500) nodeUdpPort1 = Port(9000) node1 = newTestWakuNode(nodeKey1, bindIp, nodeTcpPort1) nodeKey2 = generateSecp256k1Key() nodeTcpPort2 = Port(61502) nodeUdpPort2 = Port(9002) node2 = newTestWakuNode(nodeKey2, bindIp, nodeTcpPort2) nodeKey3 = generateSecp256k1Key() nodeTcpPort3 = Port(61504) nodeUdpPort3 = Port(9004) node3 = newTestWakuNode(nodeKey3, bindIp, nodeTcpPort3) flags = CapabilitiesBitfield.init( lightpush = false, filter = false, store = false, relay = true ) # E2E relay test paramaters pubSubTopic = "/waku/2/default-waku/proto" contentTopic = ContentTopic("/waku/2/default-content/proto") payload = "Can you see me?".toBytes() message = WakuMessage(payload: payload, contentTopic: contentTopic) # Mount discv5 node1.wakuDiscv5 = WakuDiscoveryV5.new( some(extIp), some(nodeTcpPort1), some(nodeUdpPort1), bindIp, nodeUdpPort1, newSeq[enr.Record](), false, keys.PrivateKey(nodeKey1.skkey), flags, newSeq[MultiAddress](), # Empty multiaddr fields, for now node1.rng ) node2.wakuDiscv5 = WakuDiscoveryV5.new( some(extIp), some(nodeTcpPort2), some(nodeUdpPort2), bindIp, nodeUdpPort2, @[node1.wakuDiscv5.protocol.localNode.record], # Bootstrap with node1 false, keys.PrivateKey(nodeKey2.skkey), flags, newSeq[MultiAddress](), # Empty multiaddr fields, for now node2.rng ) node3.wakuDiscv5 = WakuDiscoveryV5.new( some(extIp), some(nodeTcpPort3), some(nodeUdpPort3), bindIp, nodeUdpPort3, @[node2.wakuDiscv5.protocol.localNode.record], # Bootstrap with node2 false, keys.PrivateKey(nodeKey3.skkey), flags, newSeq[MultiAddress](), # Empty multiaddr fields, for now node3.rng ) await node1.mountRelay() await node2.mountRelay() await node3.mountRelay() await allFutures([node1.start(), node2.start(), node3.start()]) await allFutures([node1.startDiscv5(), node2.startDiscv5(), node3.startDiscv5()]) await sleepAsync(3000.millis) # Give the algorithm some time to work its magic check: node1.wakuDiscv5.protocol.nodesDiscovered > 0 node2.wakuDiscv5.protocol.nodesDiscovered > 0 node3.wakuDiscv5.protocol.nodesDiscovered > 0 # Let's see if we can deliver a message end-to-end # var completionFut = newFuture[bool]() # proc relayHandler(topic: string, data: seq[byte]) {.async, gcsafe.} = # let msg = WakuMessage.decode(data) # if msg.isOk(): # let val = msg.value() # check: # topic == pubSubTopic # val.contentTopic == contentTopic # val.payload == payload # completionFut.complete(true) # node3.subscribe(pubSubTopic, relayHandler) # await sleepAsync(2000.millis) # await node1.publish(pubSubTopic, message) # check: # (await completionFut.withTimeout(6.seconds)) == true await allFutures([node1.stop(), node2.stop(), node3.stop()]) asyncTest "Custom multiaddresses are advertised correctly": let bindIp = ValidIpAddress.init("0.0.0.0") extIp = ValidIpAddress.init("127.0.0.1") expectedMultiAddr = MultiAddress.init("/ip4/200.200.200.200/tcp/9000/wss").tryGet() flags = CapabilitiesBitfield.init( lightpush = false, filter = false, store = false, relay = true ) nodeTcpPort1 = Port(9010) nodeUdpPort1 = Port(9012) node1Key = generateSecp256k1Key() node1NetConfig = NetConfig.init(bindIp = bindIp, extIp = some(extIp), extPort = some(nodeTcpPort1), bindPort = nodeTcpPort1, extmultiAddrs = @[expectedMultiAddr], wakuFlags = some(flags), discv5UdpPort = some(nodeUdpPort1)).get() node1discV5 = WakuDiscoveryV5.new(extIp = node1NetConfig.extIp, extTcpPort = node1NetConfig.extPort, extUdpPort = node1NetConfig.discv5UdpPort, bindIp = node1NetConfig.bindIp, discv5UdpPort = node1NetConfig.discv5UdpPort.get(), privateKey = keys.PrivateKey(node1Key.skkey), multiaddrs = node1NetConfig.enrMultiaddrs, flags = node1NetConfig.wakuFlags.get(), rng = rng) node1 = WakuNode.new(nodekey = node1Key, netConfig = node1NetConfig, wakuDiscv5 = some(node1discV5), rng = rng) nodeTcpPort2 = Port(9014) nodeUdpPort2 = Port(9016) node2Key = generateSecp256k1Key() node2NetConfig = NetConfig.init(bindIp = bindIp, extIp = some(extIp), extPort = some(nodeTcpPort2), bindPort = nodeTcpPort2, wakuFlags = some(flags), discv5UdpPort = some(nodeUdpPort2)).get() node2discV5 = WakuDiscoveryV5.new(extIp = node2NetConfig.extIp, extTcpPort = node2NetConfig.extPort, extUdpPort = node2NetConfig.discv5UdpPort, bindIp = node2NetConfig.bindIp, discv5UdpPort = node2NetConfig.discv5UdpPort.get(), bootstrapEnrs = @[node1.wakuDiscv5.protocol.localNode.record], privateKey = keys.PrivateKey(node2Key.skkey), flags = node2NetConfig.wakuFlags.get(), rng = rng) node2 = WakuNode.new(nodeKey = node2Key, netConfig = node2NetConfig, wakuDiscv5 = some(node2discV5)) await allFutures([node1.start(), node2.start()]) await allFutures([node1.startDiscv5(), node2.startDiscv5()]) await sleepAsync(3000.millis) # Give the algorithm some time to work its magic let node1Enr = node2.wakuDiscv5.protocol.routingTable.buckets[0].nodes[0].record let multiaddrs = node1Enr.toTyped().get().multiaddrs.get() check: node1.wakuDiscv5.protocol.nodesDiscovered > 0 node2.wakuDiscv5.protocol.nodesDiscovered > 0 multiaddrs.contains(expectedMultiAddr)