mirror of https://github.com/waku-org/nwaku.git
256 lines
8.9 KiB
Nim
256 lines
8.9 KiB
Nim
{.used.}
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import
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std/[options, sequtils],
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testutils/unittests,
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chronos,
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chronicles,
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stew/shims/net,
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libp2p/switch,
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libp2p/peerId,
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libp2p/crypto/crypto,
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eth/keys,
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eth/p2p/discoveryv5/enr
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import
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../../waku/v2/node/waku_node,
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../../waku/v2/node/peer_manager,
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../../waku/v2/protocol/waku_discv5,
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../../waku/v2/protocol/waku_peer_exchange,
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../../waku/v2/protocol/waku_peer_exchange/rpc,
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../../waku/v2/protocol/waku_peer_exchange/rpc_codec,
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./testlib/waku2
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# TODO: Extend test coverage
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procSuite "Waku Peer Exchange":
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asyncTest "encode and decode peer exchange response":
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## Setup
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var
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enr1 = enr.Record(seqNum: 0, raw: @[])
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enr2 = enr.Record(seqNum: 0, raw: @[])
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check enr1.fromUri("enr:-JK4QPmO-sE2ELiWr8qVFs1kaY4jQZQpNaHvSPRmKiKcaDoqYRdki2c1BKSliImsxFeOD_UHnkddNL2l0XT9wlsP0WEBgmlkgnY0gmlwhH8AAAGJc2VjcDI1NmsxoQIMwKqlOl3zpwnrsKRKHuWPSuFzit1Cl6IZvL2uzBRe8oN0Y3CC6mKDdWRwgiMqhXdha3UyDw")
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check enr2.fromUri("enr:-Iu4QK_T7kzAmewG92u1pr7o6St3sBqXaiIaWIsFNW53_maJEaOtGLSN2FUbm6LmVxSfb1WfC7Eyk-nFYI7Gs3SlchwBgmlkgnY0gmlwhI5d6VKJc2VjcDI1NmsxoQLPYQDvrrFdCrhqw3JuFaGD71I8PtPfk6e7TJ3pg_vFQYN0Y3CC6mKDdWRwgiMq")
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let peerInfos = @[
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PeerExchangePeerInfo(enr: enr1.raw),
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PeerExchangePeerInfo(enr: enr2.raw),
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]
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var rpc = PeerExchangeRpc(
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response: PeerExchangeResponse(
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peerInfos: peerInfos
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)
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)
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## When
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let
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rpcBuffer: seq[byte] = rpc.encode().buffer
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res = PeerExchangeRpc.decode(rpcBuffer)
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## Then
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check:
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res.isOk
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res.get().response.peerInfos == peerInfos
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## When
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var
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resEnr1 = enr.Record(seqNum: 0, raw: @[])
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resEnr2 = enr.Record(seqNum: 0, raw: @[])
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discard resEnr1.fromBytes(res.get().response.peerInfos[0].enr)
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discard resEnr2.fromBytes(res.get().response.peerInfos[1].enr)
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## Then
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check:
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resEnr1 == enr1
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resEnr2 == enr2
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asyncTest "retrieve and provide peer exchange peers from discv5":
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## Setup (copied from test_waku_discv5.nim)
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let
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bindIp = ValidIpAddress.init("0.0.0.0")
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extIp = ValidIpAddress.init("127.0.0.1")
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nodeKey1 = generateSecp256k1Key()
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nodeTcpPort1 = Port(64010)
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nodeUdpPort1 = Port(9000)
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node1 = WakuNode.new(nodeKey1, bindIp, nodeTcpPort1)
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nodeKey2 = generateSecp256k1Key()
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nodeTcpPort2 = Port(64012)
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nodeUdpPort2 = Port(9002)
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node2 = WakuNode.new(nodeKey2, bindIp, nodeTcpPort2)
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nodeKey3 = generateSecp256k1Key()
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nodeTcpPort3 = Port(64014)
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nodeUdpPort3 = Port(9004)
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node3 = WakuNode.new(nodeKey3, bindIp, nodeTcpPort3)
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# todo: px flag
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flags = CapabilitiesBitfield.init(
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lightpush = false,
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filter = false,
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store = false,
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relay = true
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)
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# Mount discv5
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node1.wakuDiscv5 = WakuDiscoveryV5.new(
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some(extIp), some(nodeTcpPort1), some(nodeUdpPort1),
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bindIp,
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nodeUdpPort1,
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newSeq[enr.Record](),
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false,
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keys.PrivateKey(nodeKey1.skkey),
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flags,
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newSeq[MultiAddress](), # Empty multiaddr fields, for now
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node1.rng
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)
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node2.wakuDiscv5 = WakuDiscoveryV5.new(
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some(extIp), some(nodeTcpPort2), some(nodeUdpPort2),
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bindIp,
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nodeUdpPort2,
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@[node1.wakuDiscv5.protocol.localNode.record], # Bootstrap with node1
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false,
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keys.PrivateKey(nodeKey2.skkey),
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flags,
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newSeq[MultiAddress](), # Empty multiaddr fields, for now
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node2.rng
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)
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## Given
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await allFutures([node1.start(), node2.start(), node3.start()])
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await allFutures([node1.startDiscv5(), node2.startDiscv5()])
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# Mount peer exchange
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await node1.mountPeerExchange()
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await node3.mountPeerExchange()
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# Give the algorithm some time to work its magic
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await sleepAsync(3000.millis)
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asyncSpawn node1.wakuPeerExchange.runPeerExchangeDiscv5Loop()
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let connOpt = await node3.peerManager.dialPeer(node1.switch.peerInfo.toRemotePeerInfo(), WakuPeerExchangeCodec)
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check:
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connOpt.isSome
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# Give the algorithm some time to work its magic
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await sleepAsync(2000.millis)
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## When
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let response = await node3.wakuPeerExchange.request(1, connOpt.get())
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## Then
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check:
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response.isOk
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response.get().peerInfos.len == 1
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node1.wakuDiscv5.protocol.nodesDiscovered > 0
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await allFutures([node1.stop(), node2.stop(), node3.stop()])
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asyncTest "peer exchange request functions returns some discovered peers":
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let
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node1 = WakuNode.new(generateSecp256k1Key(), ValidIpAddress.init("0.0.0.0"), Port(0))
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node2 = WakuNode.new(generateSecp256k1Key(), ValidIpAddress.init("0.0.0.0"), Port(0))
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# Start and mount peer exchange
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await allFutures([node1.start(), node2.start()])
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await allFutures([node1.mountPeerExchange(), node2.mountPeerExchange()])
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# Create connection
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let connOpt = await node2.peerManager.dialPeer(node1.switch.peerInfo.toRemotePeerInfo(), WakuPeerExchangeCodec)
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require:
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connOpt.isSome
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# Create some enr and add to peer exchange (sumilating disv5)
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var enr1, enr2 = enr.Record()
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check enr1.fromUri("enr:-Iu4QGNuTvNRulF3A4Kb9YHiIXLr0z_CpvWkWjWKU-o95zUPR_In02AWek4nsSk7G_-YDcaT4bDRPzt5JIWvFqkXSNcBgmlkgnY0gmlwhE0WsGeJc2VjcDI1NmsxoQKp9VzU2FAh7fwOwSpg1M_Ekz4zzl0Fpbg6po2ZwgVwQYN0Y3CC6mCFd2FrdTIB")
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check enr2.fromUri("enr:-Iu4QGJllOWlviPIh_SGR-VVm55nhnBIU5L-s3ran7ARz_4oDdtJPtUs3Bc5aqZHCiPQX6qzNYF2ARHER0JPX97TFbEBgmlkgnY0gmlwhE0WsGeJc2VjcDI1NmsxoQP3ULycvday4EkvtVu0VqbBdmOkbfVLJx8fPe0lE_dRkIN0Y3CC6mCFd2FrdTIB")
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# Mock that we have discovered these enrs
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node1.wakuPeerExchange.enrCache.add(enr1)
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node1.wakuPeerExchange.enrCache.add(enr2)
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# Request 2 peer from px. Test all request variants
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let response1 = await node2.wakuPeerExchange.request(2)
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let response2 = await node2.wakuPeerExchange.request(2, node1.peerInfo.toRemotePeerInfo())
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let response3 = await node2.wakuPeerExchange.request(2, connOpt.get())
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# Check the response or dont even continue
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require:
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response1.isOk
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response2.isOk
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response3.isOk
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check:
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response1.get().peerInfos.len == 2
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response2.get().peerInfos.len == 2
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response3.get().peerInfos.len == 2
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# Since it can return duplicates test that at least one of the enrs is in the response
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response1.get().peerInfos.anyIt(it.enr == enr1.raw) or response1.get().peerInfos.anyIt(it.enr == enr2.raw)
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response2.get().peerInfos.anyIt(it.enr == enr1.raw) or response2.get().peerInfos.anyIt(it.enr == enr2.raw)
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response3.get().peerInfos.anyIt(it.enr == enr1.raw) or response3.get().peerInfos.anyIt(it.enr == enr2.raw)
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asyncTest "peer exchange handler works as expected":
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let
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node1 = WakuNode.new(generateSecp256k1Key(), ValidIpAddress.init("0.0.0.0"), Port(0))
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node2 = WakuNode.new(generateSecp256k1Key(), ValidIpAddress.init("0.0.0.0"), Port(0))
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# Start and mount peer exchange
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await allFutures([node1.start(), node2.start()])
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await allFutures([node1.mountPeerExchange(), node2.mountPeerExchange()])
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# Mock that we have discovered these enrs
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var enr1 = enr.Record()
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check enr1.fromUri("enr:-Iu4QGNuTvNRulF3A4Kb9YHiIXLr0z_CpvWkWjWKU-o95zUPR_In02AWek4nsSk7G_-YDcaT4bDRPzt5JIWvFqkXSNcBgmlkgnY0gmlwhE0WsGeJc2VjcDI1NmsxoQKp9VzU2FAh7fwOwSpg1M_Ekz4zzl0Fpbg6po2ZwgVwQYN0Y3CC6mCFd2FrdTIB")
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node1.wakuPeerExchange.enrCache.add(enr1)
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# Create connection
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let connOpt = await node2.peerManager.dialPeer(node1.switch.peerInfo.toRemotePeerInfo(), WakuPeerExchangeCodec)
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require connOpt.isSome
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let conn = connOpt.get()
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# Send bytes so that they directly hit the handler
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let rpc = PeerExchangeRpc(
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request: PeerExchangeRequest(numPeers: 1))
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var buffer: seq[byte]
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await conn.writeLP(rpc.encode().buffer)
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buffer = await conn.readLp(MaxRpcSize.int)
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# Decode the response
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let decodedBuff = PeerExchangeRpc.decode(buffer)
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require decodedBuff.isOk
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# Check we got back the enr we mocked
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check:
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decodedBuff.get().response.peerInfos.len == 1
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decodedBuff.get().response.peerInfos[0].enr == enr1.raw
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asyncTest "peer exchange request fails gracefully":
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let
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node1 = WakuNode.new(generateSecp256k1Key(), ValidIpAddress.init("0.0.0.0"), Port(0))
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node2 = WakuNode.new(generateSecp256k1Key(), ValidIpAddress.init("0.0.0.0"), Port(0))
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# Start and mount peer exchange
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await allFutures([node1.start(), node2.start()])
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await allFutures([node1.mountPeerExchange(), node2.mountPeerExchange()])
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# Create connection
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let connOpt = await node2.peerManager.dialPeer(node1.switch.peerInfo.toRemotePeerInfo(), WakuPeerExchangeCodec)
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require connOpt.isSome
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# Force closing the connection to simulate a failed peer
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await connOpt.get().close()
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# Request 2 peer from px
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let response = await node1.wakuPeerExchange.request(2, connOpt.get())
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# Check that it failed gracefully
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check: response.isErr
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