mirror of https://github.com/waku-org/nwaku.git
1006 lines
39 KiB
Nim
1006 lines
39 KiB
Nim
{.used.}
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import
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std/[options, sequtils, times, sugar],
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stew/shims/net as stewNet,
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testutils/unittests,
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chronos,
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json_rpc/rpcserver,
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json_rpc/rpcclient,
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eth/keys,
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eth/common/eth_types,
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libp2p/[builders, switch, multiaddress],
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libp2p/protobuf/minprotobuf,
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libp2p/stream/[bufferstream, connection],
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libp2p/crypto/crypto,
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libp2p/protocols/pubsub/pubsub,
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libp2p/protocols/pubsub/rpc/message,
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libp2p/peerid
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import
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../../waku/common/databases/db_sqlite,
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../../waku/node/peer_manager/peer_manager,
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../../waku/node/peer_manager/peer_store/waku_peer_storage,
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../../waku/waku_node,
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../../waku/waku_core,
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../../waku/waku_enr/capabilities,
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../../waku/waku_relay/protocol,
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../../waku/waku_store/common,
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../../waku/waku_filter/protocol,
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../../waku/waku_lightpush/common,
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../../waku/waku_peer_exchange,
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../../waku/waku_metadata,
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./testlib/common,
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./testlib/testutils,
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./testlib/wakucore,
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./testlib/wakunode
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procSuite "Peer Manager":
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asyncTest "connectRelay() works":
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# Create 2 nodes
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let nodes = toSeq(0..<2).mapIt(newTestWakuNode(generateSecp256k1Key(), ValidIpAddress.init("0.0.0.0"), Port(0)))
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await allFutures(nodes.mapIt(it.start()))
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let connOk = await nodes[0].peerManager.connectRelay(nodes[1].peerInfo.toRemotePeerInfo())
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await sleepAsync(chronos.milliseconds(500))
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check:
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connOk == true
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nodes[0].peerManager.peerStore.peers().anyIt(it.peerId == nodes[1].peerInfo.peerId)
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nodes[0].peerManager.peerStore.connectedness(nodes[1].peerInfo.peerId) == Connectedness.Connected
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asyncTest "dialPeer() works":
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# Create 2 nodes
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let nodes = toSeq(0..<2).mapIt(newTestWakuNode(generateSecp256k1Key(), ValidIpAddress.init("0.0.0.0"), Port(0)))
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await allFutures(nodes.mapIt(it.start()))
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await allFutures(nodes.mapIt(it.mountRelay()))
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await allFutures(nodes.mapIt(it.mountFilter()))
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await allFutures(nodes.mapIt(it.mountLegacyFilter()))
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# Dial node2 from node1
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let conn = await nodes[0].peerManager.dialPeer(nodes[1].peerInfo.toRemotePeerInfo(), WakuLegacyFilterCodec)
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await sleepAsync(chronos.milliseconds(500))
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# Check connection
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check:
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conn.isSome()
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conn.get.activity
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conn.get.peerId == nodes[1].peerInfo.peerId
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# Check that node2 is being managed in node1
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check:
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nodes[0].peerManager.peerStore.peers().anyIt(it.peerId == nodes[1].peerInfo.peerId)
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# Check connectedness
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check:
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nodes[0].peerManager.peerStore.connectedness(nodes[1].peerInfo.peerId) == Connectedness.Connected
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await allFutures(nodes.mapIt(it.stop()))
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asyncTest "dialPeer() fails gracefully":
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# Create 2 nodes and start them
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let nodes = toSeq(0..<2).mapIt(newTestWakuNode(generateSecp256k1Key(), ValidIpAddress.init("0.0.0.0"), Port(0)))
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await allFutures(nodes.mapIt(it.start()))
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await allFutures(nodes.mapIt(it.mountRelay()))
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let nonExistentPeerRes = parsePeerInfo("/ip4/0.0.0.0/tcp/1000/p2p/16Uiu2HAmL5okWopX7NqZWBUKVqW8iUxCEmd5GMHLVPwCgzYzQv3e")
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require nonExistentPeerRes.isOk()
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let nonExistentPeer = nonExistentPeerRes.value
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# Dial non-existent peer from node1
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let conn1 = await nodes[0].peerManager.dialPeer(nonExistentPeer, WakuLegacyFilterCodec)
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check:
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conn1.isNone()
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# Dial peer not supporting given protocol
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let conn2 = await nodes[0].peerManager.dialPeer(nodes[1].peerInfo.toRemotePeerInfo(), WakuLegacyFilterCodec)
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check:
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conn2.isNone()
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await allFutures(nodes.mapIt(it.stop()))
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asyncTest "Adding, selecting and filtering peers work":
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let
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node = newTestWakuNode(generateSecp256k1Key(), ValidIpAddress.init("0.0.0.0"), Port(0))
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# Create filter peer
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filterLoc = MultiAddress.init("/ip4/127.0.0.1/tcp/0").tryGet()
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filterPeer = PeerInfo.new(generateEcdsaKey(), @[filterLoc])
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# Create store peer
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storeLoc = MultiAddress.init("/ip4/127.0.0.3/tcp/4").tryGet()
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storePeer = PeerInfo.new(generateEcdsaKey(), @[storeLoc])
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await node.start()
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await node.mountFilterClient()
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node.mountStoreClient()
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node.peerManager.addServicePeer(storePeer.toRemotePeerInfo(), WakuStoreCodec)
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node.peerManager.addServicePeer(filterPeer.toRemotePeerInfo(), WakuLegacyFilterCodec)
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# Check peers were successfully added to peer manager
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check:
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node.peerManager.peerStore.peers().len == 2
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node.peerManager.peerStore.peers(WakuLegacyFilterCodec).allIt(it.peerId == filterPeer.peerId and
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it.addrs.contains(filterLoc) and
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it.protocols.contains(WakuLegacyFilterCodec))
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node.peerManager.peerStore.peers(WakuStoreCodec).allIt(it.peerId == storePeer.peerId and
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it.addrs.contains(storeLoc) and
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it.protocols.contains(WakuStoreCodec))
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await node.stop()
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asyncTest "Peer manager keeps track of connections":
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# Create 2 nodes
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let nodes = toSeq(0..<2).mapIt(newTestWakuNode(generateSecp256k1Key(), ValidIpAddress.init("0.0.0.0"), Port(0)))
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await allFutures(nodes.mapIt(it.start()))
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await allFutures(nodes.mapIt(it.mountRelay()))
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# Test default connectedness for new peers
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nodes[0].peerManager.addPeer(nodes[1].peerInfo.toRemotePeerInfo())
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check:
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# No information about node2's connectedness
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nodes[0].peerManager.peerStore.connectedness(nodes[1].peerInfo.peerId) == NotConnected
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# Failed connection
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let nonExistentPeerRes = parsePeerInfo("/ip4/0.0.0.0/tcp/1000/p2p/16Uiu2HAmL5okWopX7NqZWBUKVqW8iUxCEmd5GMHLVPwCgzYzQv3e")
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require:
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nonExistentPeerRes.isOk()
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let nonExistentPeer = nonExistentPeerRes.value
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require:
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(await nodes[0].peerManager.connectRelay(nonExistentPeer)) == false
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await sleepAsync(chronos.milliseconds(500))
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check:
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# Cannot connect to node2
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nodes[0].peerManager.peerStore.connectedness(nonExistentPeer.peerId) == CannotConnect
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# Successful connection
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require:
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(await nodes[0].peerManager.connectRelay(nodes[1].peerInfo.toRemotePeerInfo())) == true
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await sleepAsync(chronos.milliseconds(500))
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check:
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# Currently connected to node2
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nodes[0].peerManager.peerStore.connectedness(nodes[1].peerInfo.peerId) == Connected
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# Stop node. Gracefully disconnect from all peers.
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await nodes[0].stop()
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check:
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# Not currently connected to node2, but had recent, successful connection.
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nodes[0].peerManager.peerStore.connectedness(nodes[1].peerInfo.peerId) == CanConnect
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await nodes[1].stop()
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asyncTest "Peer manager updates failed peers correctly":
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# Create 2 nodes
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let nodes = toSeq(0..<2).mapIt(newTestWakuNode(generateSecp256k1Key(), ValidIpAddress.init("0.0.0.0"), Port(0)))
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await allFutures(nodes.mapIt(it.start()))
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await allFutures(nodes.mapIt(it.mountRelay()))
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let nonExistentPeerRes = parsePeerInfo("/ip4/0.0.0.0/tcp/1000/p2p/16Uiu2HAmL5okWopX7NqZWBUKVqW8iUxCEmd5GMHLVPwCgzYzQv3e")
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require nonExistentPeerRes.isOk()
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let nonExistentPeer = nonExistentPeerRes.value
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nodes[0].peerManager.addPeer(nonExistentPeer)
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# Set a low backoff to speed up test: 2, 4, 8, 16
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nodes[0].peerManager.initialBackoffInSec = 2
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nodes[0].peerManager.backoffFactor = 2
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# try to connect to peer that doesnt exist
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let conn1Ok = await nodes[0].peerManager.connectRelay(nonExistentPeer)
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check:
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# Cannot connect to node2
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nodes[0].peerManager.peerStore.connectedness(nonExistentPeer.peerId) == CannotConnect
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nodes[0].peerManager.peerStore[ConnectionBook][nonExistentPeer.peerId] == CannotConnect
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nodes[0].peerManager.peerStore[NumberFailedConnBook][nonExistentPeer.peerId] == 1
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# Connection attempt failed
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conn1Ok == false
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# Right after failing there is a backoff period
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nodes[0].peerManager.canBeConnected(nonExistentPeer.peerId) == false
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# We wait the first backoff period
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await sleepAsync(chronos.milliseconds(2100))
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# And backoff period is over
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check:
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nodes[0].peerManager.canBeConnected(nodes[1].peerInfo.peerId) == true
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# After a successful connection, the number of failed connections is reset
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nodes[0].peerManager.peerStore[NumberFailedConnBook][nodes[1].peerInfo.peerId] = 4
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let conn2Ok = await nodes[0].peerManager.connectRelay(nodes[1].peerInfo.toRemotePeerInfo())
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check:
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conn2Ok == true
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nodes[0].peerManager.peerStore[NumberFailedConnBook][nodes[1].peerInfo.peerId] == 0
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await allFutures(nodes.mapIt(it.stop()))
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asyncTest "Peer manager can use persistent storage and survive restarts":
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let
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database = SqliteDatabase.new(":memory:")[]
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storage = WakuPeerStorage.new(database)[]
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node1 = newTestWakuNode(
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generateSecp256k1Key(),
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ValidIpAddress.init("127.0.0.1"),
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Port(44048),
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peerStorage = storage
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)
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node2 = newTestWakuNode(generateSecp256k1Key(), ValidIpAddress.init("127.0.0.1"), Port(34023))
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node1.mountMetadata(0).expect("Mounted Waku Metadata")
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node2.mountMetadata(0).expect("Mounted Waku Metadata")
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await node1.start()
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await node2.start()
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await node1.mountRelay()
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await node2.mountRelay()
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let peerInfo2 = node2.switch.peerInfo
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var remotePeerInfo2 = peerInfo2.toRemotePeerInfo()
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remotePeerInfo2.enr = some(node2.enr)
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let is12Connected = await node1.peerManager.connectRelay(remotePeerInfo2)
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assert is12Connected == true, "Node 1 and 2 not connected"
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check:
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node1.peerManager.peerStore[AddressBook][remotePeerInfo2.peerId] == remotePeerInfo2.addrs
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# wait for the peer store update
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await sleepAsync(chronos.milliseconds(500))
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check:
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# Currently connected to node2
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node1.peerManager.peerStore.peers().len == 1
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node1.peerManager.peerStore.peers().anyIt(it.peerId == peerInfo2.peerId)
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node1.peerManager.peerStore.connectedness(peerInfo2.peerId) == Connected
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# Simulate restart by initialising a new node using the same storage
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let node3 = newTestWakuNode(
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generateSecp256k1Key(),
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ValidIpAddress.init("127.0.0.1"),
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Port(56037),
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peerStorage = storage
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)
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node3.mountMetadata(0).expect("Mounted Waku Metadata")
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await node3.start()
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check:
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# Node2 has been loaded after "restart", but we have not yet reconnected
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node3.peerManager.peerStore.peers().len == 1
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node3.peerManager.peerStore.peers().anyIt(it.peerId == peerInfo2.peerId)
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node3.peerManager.peerStore.connectedness(peerInfo2.peerId) == NotConnected
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await node3.mountRelay()
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await node3.peerManager.connectToRelayPeers()
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await sleepAsync(chronos.milliseconds(500))
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check:
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# Reconnected to node2 after "restart"
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node3.peerManager.peerStore.peers().len == 1
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node3.peerManager.peerStore.peers().anyIt(it.peerId == peerInfo2.peerId)
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node3.peerManager.peerStore.connectedness(peerInfo2.peerId) == Connected
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await allFutures([node1.stop(), node2.stop(), node3.stop()])
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asyncTest "Sharded peer manager can use persistent storage and survive restarts":
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let
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database = SqliteDatabase.new(":memory:")[]
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storage = WakuPeerStorage.new(database)[]
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node1 = newTestWakuNode(
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generateSecp256k1Key(),
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ValidIpAddress.init("127.0.0.1"),
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Port(44048),
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peerStorage = storage
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)
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node2 = newTestWakuNode(generateSecp256k1Key(), ValidIpAddress.init("127.0.0.1"), Port(34023))
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node1.mountMetadata(0).expect("Mounted Waku Metadata")
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node2.mountMetadata(0).expect("Mounted Waku Metadata")
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await node1.start()
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await node2.start()
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await node1.mountRelay()
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await node2.mountRelay()
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let peerInfo2 = node2.switch.peerInfo
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var remotePeerInfo2 = peerInfo2.toRemotePeerInfo()
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remotePeerInfo2.enr = some(node2.enr)
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let is12Connected = await node1.peerManager.connectRelay(remotePeerInfo2)
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assert is12Connected == true, "Node 1 and 2 not connected"
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check:
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node1.peerManager.peerStore[AddressBook][remotePeerInfo2.peerId] == remotePeerInfo2.addrs
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# wait for the peer store update
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await sleepAsync(chronos.milliseconds(500))
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check:
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# Currently connected to node2
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node1.peerManager.peerStore.peers().len == 1
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node1.peerManager.peerStore.peers().anyIt(it.peerId == peerInfo2.peerId)
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node1.peerManager.peerStore.connectedness(peerInfo2.peerId) == Connected
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# Simulate restart by initialising a new node using the same storage
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let node3 = newTestWakuNode(
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generateSecp256k1Key(),
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ValidIpAddress.init("127.0.0.1"),
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Port(56037),
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peerStorage = storage
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)
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node3.mountMetadata(0).expect("Mounted Waku Metadata")
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await node3.start()
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check:
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# Node2 has been loaded after "restart", but we have not yet reconnected
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node3.peerManager.peerStore.peers().len == 1
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node3.peerManager.peerStore.peers().anyIt(it.peerId == peerInfo2.peerId)
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node3.peerManager.peerStore.connectedness(peerInfo2.peerId) == NotConnected
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await node3.mountRelay()
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await node3.peerManager.manageRelayPeers()
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await sleepAsync(chronos.milliseconds(500))
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check:
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# Reconnected to node2 after "restart"
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node3.peerManager.peerStore.peers().len == 1
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node3.peerManager.peerStore.peers().anyIt(it.peerId == peerInfo2.peerId)
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node3.peerManager.peerStore.connectedness(peerInfo2.peerId) == Connected
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await allFutures([node1.stop(), node2.stop(), node3.stop()])
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asyncTest "Peer manager drops conections to peers on different networks":
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let clusterId3 = 3.uint32
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let clusterId4 = 4.uint32
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let
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# different network
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node1 = newTestWakuNode(
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generateSecp256k1Key(),
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ValidIpAddress.init("0.0.0.0"),
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Port(0),
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clusterId = clusterId3,
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topics = @["/waku/2/rs/3/0"],
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)
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# same network
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node2 = newTestWakuNode(
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generateSecp256k1Key(),
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ValidIpAddress.init("0.0.0.0"),
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Port(0),
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clusterId = clusterId4,
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topics = @["/waku/2/rs/4/0"],
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)
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node3 = newTestWakuNode(
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generateSecp256k1Key(),
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ValidIpAddress.init("0.0.0.0"),
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Port(0),
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clusterId = clusterId4,
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topics = @["/waku/2/rs/4/0"],
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)
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node1.mountMetadata(clusterId3).expect("Mounted Waku Metadata")
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node2.mountMetadata(clusterId4).expect("Mounted Waku Metadata")
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node3.mountMetadata(clusterId4).expect("Mounted Waku Metadata")
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# Start nodes
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await allFutures([node1.start(), node2.start(), node3.start()])
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# 1->2 (fails)
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let conn1 = await node1.peerManager.dialPeer(node2.switch.peerInfo.toRemotePeerInfo(), WakuMetadataCodec)
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# 1->3 (fails)
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let conn2 = await node1.peerManager.dialPeer(node3.switch.peerInfo.toRemotePeerInfo(), WakuMetadataCodec)
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# 2->3 (succeeds)
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let conn3 = await node2.peerManager.dialPeer(node3.switch.peerInfo.toRemotePeerInfo(), WakuMetadataCodec)
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check:
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conn1.isNone
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conn2.isNone
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conn3.isSome
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# TODO: nwaku/issues/1377
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xasyncTest "Peer manager support multiple protocol IDs when reconnecting to peers":
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let
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database = SqliteDatabase.new(":memory:")[]
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storage = WakuPeerStorage.new(database)[]
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node1 = newTestWakuNode(generateSecp256k1Key(), ValidIpAddress.init("0.0.0.0"), Port(0), peerStorage = storage)
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node2 = newTestWakuNode(generateSecp256k1Key(), ValidIpAddress.init("0.0.0.0"), Port(0))
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peerInfo2 = node2.switch.peerInfo
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betaCodec = "/vac/waku/relay/2.0.0-beta2"
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stableCodec = "/vac/waku/relay/2.0.0"
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await node1.start()
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await node2.start()
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await node1.mountRelay()
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node1.wakuRelay.codec = betaCodec
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await node2.mountRelay()
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node2.wakuRelay.codec = betaCodec
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require:
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(await node1.peerManager.connectRelay(peerInfo2.toRemotePeerInfo())) == true
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check:
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# Currently connected to node2
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node1.peerManager.peerStore.peers().len == 1
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node1.peerManager.peerStore.peers().anyIt(it.peerId == peerInfo2.peerId)
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node1.peerManager.peerStore.peers().anyIt(it.protocols.contains(node2.wakuRelay.codec))
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node1.peerManager.peerStore.connectedness(peerInfo2.peerId) == Connected
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# Simulate restart by initialising a new node using the same storage
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let
|
||
node3 = newTestWakuNode(generateSecp256k1Key(), ValidIpAddress.init("0.0.0.0"), Port(0), peerStorage = storage)
|
||
|
||
await node3.mountRelay()
|
||
node3.wakuRelay.codec = stableCodec
|
||
check:
|
||
# Node 2 and 3 have differing codecs
|
||
node2.wakuRelay.codec == betaCodec
|
||
node3.wakuRelay.codec == stableCodec
|
||
# Node2 has been loaded after "restart", but we have not yet reconnected
|
||
node3.peerManager.peerStore.peers().len == 1
|
||
node3.peerManager.peerStore.peers().anyIt(it.peerId == peerInfo2.peerId)
|
||
node3.peerManager.peerStore.peers().anyIt(it.protocols.contains(betaCodec))
|
||
node3.peerManager.peerStore.connectedness(peerInfo2.peerId) == NotConnected
|
||
|
||
await node3.start() # This should trigger a reconnect
|
||
|
||
check:
|
||
# Reconnected to node2 after "restart"
|
||
node3.peerManager.peerStore.peers().len == 1
|
||
node3.peerManager.peerStore.peers().anyIt(it.peerId == peerInfo2.peerId)
|
||
node3.peerManager.peerStore.peers().anyIt(it.protocols.contains(betaCodec))
|
||
node3.peerManager.peerStore.peers().anyIt(it.protocols.contains(stableCodec))
|
||
node3.peerManager.peerStore.connectedness(peerInfo2.peerId) == Connected
|
||
|
||
await allFutures([node1.stop(), node2.stop(), node3.stop()])
|
||
|
||
asyncTest "Peer manager connects to all peers supporting a given protocol":
|
||
# Create 4 nodes
|
||
let nodes =
|
||
toSeq(0..<4)
|
||
.mapIt(
|
||
newTestWakuNode(
|
||
nodeKey = generateSecp256k1Key(),
|
||
bindIp = ValidIpAddress.init("0.0.0.0"),
|
||
bindPort = Port(0),
|
||
wakuFlags = some(CapabilitiesBitfield.init(@[Relay]))
|
||
)
|
||
)
|
||
|
||
# Start them
|
||
discard nodes.mapIt(it.mountMetadata(0))
|
||
await allFutures(nodes.mapIt(it.mountRelay()))
|
||
await allFutures(nodes.mapIt(it.start()))
|
||
|
||
# Get all peer infos
|
||
let peerInfos = collect:
|
||
for i in 0..nodes.high:
|
||
let peerInfo = nodes[i].switch.peerInfo.toRemotePeerInfo()
|
||
peerInfo.enr = some(nodes[i].enr)
|
||
peerInfo
|
||
|
||
# Add all peers (but self) to node 0
|
||
nodes[0].peerManager.addPeer(peerInfos[1])
|
||
nodes[0].peerManager.addPeer(peerInfos[2])
|
||
nodes[0].peerManager.addPeer(peerInfos[3])
|
||
|
||
# Connect to relay peers
|
||
await nodes[0].peerManager.connectToRelayPeers()
|
||
|
||
check:
|
||
# Peerstore track all three peers
|
||
nodes[0].peerManager.peerStore.peers().len == 3
|
||
|
||
# All peer ids are correct
|
||
nodes[0].peerManager.peerStore.peers().anyIt(it.peerId == nodes[1].switch.peerInfo.peerId)
|
||
nodes[0].peerManager.peerStore.peers().anyIt(it.peerId == nodes[2].switch.peerInfo.peerId)
|
||
nodes[0].peerManager.peerStore.peers().anyIt(it.peerId == nodes[3].switch.peerInfo.peerId)
|
||
|
||
# All peers support the relay protocol
|
||
nodes[0].peerManager.peerStore[ProtoBook][nodes[1].switch.peerInfo.peerId].contains(WakuRelayCodec)
|
||
nodes[0].peerManager.peerStore[ProtoBook][nodes[2].switch.peerInfo.peerId].contains(WakuRelayCodec)
|
||
nodes[0].peerManager.peerStore[ProtoBook][nodes[3].switch.peerInfo.peerId].contains(WakuRelayCodec)
|
||
|
||
# All peers are connected
|
||
nodes[0].peerManager.peerStore[ConnectionBook][nodes[1].switch.peerInfo.peerId] == Connected
|
||
nodes[0].peerManager.peerStore[ConnectionBook][nodes[2].switch.peerInfo.peerId] == Connected
|
||
nodes[0].peerManager.peerStore[ConnectionBook][nodes[3].switch.peerInfo.peerId] == Connected
|
||
|
||
await allFutures(nodes.mapIt(it.stop()))
|
||
|
||
asyncTest "Sharded peer manager connects to all peers supporting a given protocol":
|
||
# Create 4 nodes
|
||
let nodes =
|
||
toSeq(0..<4)
|
||
.mapIt(
|
||
newTestWakuNode(
|
||
nodeKey = generateSecp256k1Key(),
|
||
bindIp = ValidIpAddress.init("0.0.0.0"),
|
||
bindPort = Port(0),
|
||
wakuFlags = some(CapabilitiesBitfield.init(@[Relay]))
|
||
)
|
||
)
|
||
|
||
# Start them
|
||
discard nodes.mapIt(it.mountMetadata(0))
|
||
await allFutures(nodes.mapIt(it.mountRelay()))
|
||
await allFutures(nodes.mapIt(it.start()))
|
||
|
||
# Get all peer infos
|
||
let peerInfos = collect:
|
||
for i in 0..nodes.high:
|
||
let peerInfo = nodes[i].switch.peerInfo.toRemotePeerInfo()
|
||
peerInfo.enr = some(nodes[i].enr)
|
||
peerInfo
|
||
|
||
# Add all peers (but self) to node 0
|
||
nodes[0].peerManager.addPeer(peerInfos[1])
|
||
nodes[0].peerManager.addPeer(peerInfos[2])
|
||
nodes[0].peerManager.addPeer(peerInfos[3])
|
||
|
||
# Connect to relay peers
|
||
await nodes[0].peerManager.manageRelayPeers()
|
||
|
||
check:
|
||
# Peerstore track all three peers
|
||
nodes[0].peerManager.peerStore.peers().len == 3
|
||
|
||
# All peer ids are correct
|
||
nodes[0].peerManager.peerStore.peers().anyIt(it.peerId == nodes[1].switch.peerInfo.peerId)
|
||
nodes[0].peerManager.peerStore.peers().anyIt(it.peerId == nodes[2].switch.peerInfo.peerId)
|
||
nodes[0].peerManager.peerStore.peers().anyIt(it.peerId == nodes[3].switch.peerInfo.peerId)
|
||
|
||
# All peers support the relay protocol
|
||
nodes[0].peerManager.peerStore[ProtoBook][nodes[1].switch.peerInfo.peerId].contains(WakuRelayCodec)
|
||
nodes[0].peerManager.peerStore[ProtoBook][nodes[2].switch.peerInfo.peerId].contains(WakuRelayCodec)
|
||
nodes[0].peerManager.peerStore[ProtoBook][nodes[3].switch.peerInfo.peerId].contains(WakuRelayCodec)
|
||
|
||
# All peers are connected
|
||
nodes[0].peerManager.peerStore[ConnectionBook][nodes[1].switch.peerInfo.peerId] == Connected
|
||
nodes[0].peerManager.peerStore[ConnectionBook][nodes[2].switch.peerInfo.peerId] == Connected
|
||
nodes[0].peerManager.peerStore[ConnectionBook][nodes[3].switch.peerInfo.peerId] == Connected
|
||
|
||
await allFutures(nodes.mapIt(it.stop()))
|
||
|
||
asyncTest "Peer store keeps track of incoming connections":
|
||
# Create 4 nodes
|
||
let nodes = toSeq(0..<4).mapIt(newTestWakuNode(generateSecp256k1Key(), ValidIpAddress.init("0.0.0.0"), Port(0)))
|
||
|
||
# Start them
|
||
await allFutures(nodes.mapIt(it.start()))
|
||
await allFutures(nodes.mapIt(it.mountRelay()))
|
||
|
||
# Get all peer infos
|
||
let peerInfos = nodes.mapIt(it.switch.peerInfo.toRemotePeerInfo())
|
||
|
||
# all nodes connect to peer 0
|
||
require:
|
||
(await nodes[1].peerManager.connectRelay(peerInfos[0])) == true
|
||
(await nodes[2].peerManager.connectRelay(peerInfos[0])) == true
|
||
(await nodes[3].peerManager.connectRelay(peerInfos[0])) == true
|
||
|
||
await sleepAsync(chronos.milliseconds(500))
|
||
|
||
check:
|
||
# Peerstore track all three peers
|
||
nodes[0].peerManager.peerStore.peers().len == 3
|
||
|
||
# Inbound/Outbound number of peers match
|
||
nodes[0].peerManager.peerStore.getPeersByDirection(Inbound).len == 3
|
||
nodes[0].peerManager.peerStore.getPeersByDirection(Outbound).len == 0
|
||
nodes[1].peerManager.peerStore.getPeersByDirection(Inbound).len == 0
|
||
nodes[1].peerManager.peerStore.getPeersByDirection(Outbound).len == 1
|
||
nodes[2].peerManager.peerStore.getPeersByDirection(Inbound).len == 0
|
||
nodes[2].peerManager.peerStore.getPeersByDirection(Outbound).len == 1
|
||
nodes[3].peerManager.peerStore.getPeersByDirection(Inbound).len == 0
|
||
nodes[3].peerManager.peerStore.getPeersByDirection(Outbound).len == 1
|
||
|
||
# All peer ids are correct
|
||
nodes[0].peerManager.peerStore.peers().anyIt(it.peerId == nodes[1].switch.peerInfo.peerId)
|
||
nodes[0].peerManager.peerStore.peers().anyIt(it.peerId == nodes[2].switch.peerInfo.peerId)
|
||
nodes[0].peerManager.peerStore.peers().anyIt(it.peerId == nodes[3].switch.peerInfo.peerId)
|
||
|
||
# All peers support the relay protocol
|
||
nodes[0].peerManager.peerStore[ProtoBook][nodes[1].switch.peerInfo.peerId].contains(WakuRelayCodec)
|
||
nodes[0].peerManager.peerStore[ProtoBook][nodes[2].switch.peerInfo.peerId].contains(WakuRelayCodec)
|
||
nodes[0].peerManager.peerStore[ProtoBook][nodes[3].switch.peerInfo.peerId].contains(WakuRelayCodec)
|
||
|
||
# All peers are connected
|
||
nodes[0].peerManager.peerStore[ConnectionBook][nodes[1].switch.peerInfo.peerId] == Connected
|
||
nodes[0].peerManager.peerStore[ConnectionBook][nodes[2].switch.peerInfo.peerId] == Connected
|
||
nodes[0].peerManager.peerStore[ConnectionBook][nodes[3].switch.peerInfo.peerId] == Connected
|
||
|
||
# All peers are Inbound in peer 0
|
||
nodes[0].peerManager.peerStore[DirectionBook][nodes[1].switch.peerInfo.peerId] == Inbound
|
||
nodes[0].peerManager.peerStore[DirectionBook][nodes[2].switch.peerInfo.peerId] == Inbound
|
||
nodes[0].peerManager.peerStore[DirectionBook][nodes[3].switch.peerInfo.peerId] == Inbound
|
||
|
||
# All peers have an Outbound connection with peer 0
|
||
nodes[1].peerManager.peerStore[DirectionBook][nodes[0].switch.peerInfo.peerId] == Outbound
|
||
nodes[2].peerManager.peerStore[DirectionBook][nodes[0].switch.peerInfo.peerId] == Outbound
|
||
nodes[3].peerManager.peerStore[DirectionBook][nodes[0].switch.peerInfo.peerId] == Outbound
|
||
|
||
await allFutures(nodes.mapIt(it.stop()))
|
||
|
||
asyncTest "Peer store addServicePeer() stores service peers":
|
||
# Valid peer id missing the last digit
|
||
let basePeerId = "16Uiu2HAm7QGEZKujdSbbo1aaQyfDPQ6Bw3ybQnj6fruH5Dxwd7D"
|
||
|
||
let
|
||
node = newTestWakuNode(generateSecp256k1Key(), ValidIpAddress.init("0.0.0.0"), Port(0))
|
||
peers = toSeq(1..5)
|
||
.mapIt(
|
||
parsePeerInfo("/ip4/0.0.0.0/tcp/30300/p2p/" & basePeerId & $it)
|
||
)
|
||
.filterIt(it.isOk())
|
||
.mapIt(it.value)
|
||
|
||
require:
|
||
peers.len == 5
|
||
|
||
# service peers
|
||
node.peerManager.addServicePeer(peers[0], WakuStoreCodec)
|
||
node.peerManager.addServicePeer(peers[1], WakuLegacyFilterCodec)
|
||
node.peerManager.addServicePeer(peers[2], WakuLightPushCodec)
|
||
node.peerManager.addServicePeer(peers[3], WakuPeerExchangeCodec)
|
||
|
||
# relay peers (should not be added)
|
||
node.peerManager.addServicePeer(peers[4], WakuRelayCodec)
|
||
|
||
# all peers are stored in the peerstore
|
||
check:
|
||
node.peerManager.peerStore.peers().anyIt(it.peerId == peers[0].peerId)
|
||
node.peerManager.peerStore.peers().anyIt(it.peerId == peers[1].peerId)
|
||
node.peerManager.peerStore.peers().anyIt(it.peerId == peers[2].peerId)
|
||
node.peerManager.peerStore.peers().anyIt(it.peerId == peers[3].peerId)
|
||
|
||
# but the relay peer is not
|
||
node.peerManager.peerStore.peers().anyIt(it.peerId == peers[4].peerId) == false
|
||
|
||
# all service peers are added to its service slot
|
||
check:
|
||
node.peerManager.serviceSlots[WakuStoreCodec].peerId == peers[0].peerId
|
||
node.peerManager.serviceSlots[WakuLegacyFilterCodec].peerId == peers[1].peerId
|
||
node.peerManager.serviceSlots[WakuLightPushCodec].peerId == peers[2].peerId
|
||
node.peerManager.serviceSlots[WakuPeerExchangeCodec].peerId == peers[3].peerId
|
||
|
||
# but the relay peer is not
|
||
node.peerManager.serviceSlots.hasKey(WakuRelayCodec) == false
|
||
|
||
asyncTest "connectedPeers() returns expected number of connections per protocol":
|
||
# Create 4 nodes
|
||
let nodes = toSeq(0..<4).mapIt(newTestWakuNode(generateSecp256k1Key(), ValidIpAddress.init("0.0.0.0"), Port(0)))
|
||
|
||
# Start them with relay + filter
|
||
await allFutures(nodes.mapIt(it.start()))
|
||
await allFutures(nodes.mapIt(it.mountRelay()))
|
||
await allFutures(nodes.mapIt(it.mountFilter()))
|
||
await allFutures(nodes.mapIt(it.mountLegacyFilter()))
|
||
|
||
let pInfos = nodes.mapIt(it.switch.peerInfo.toRemotePeerInfo())
|
||
|
||
# create some connections/streams
|
||
require:
|
||
# some relay connections
|
||
(await nodes[0].peerManager.connectRelay(pInfos[1])) == true
|
||
(await nodes[0].peerManager.connectRelay(pInfos[2])) == true
|
||
(await nodes[1].peerManager.connectRelay(pInfos[2])) == true
|
||
|
||
(await nodes[0].peerManager.dialPeer(pInfos[1], WakuLegacyFilterCodec)).isSome() == true
|
||
(await nodes[0].peerManager.dialPeer(pInfos[2], WakuLegacyFilterCodec)).isSome() == true
|
||
|
||
# isolated dial creates a relay conn under the hood (libp2p behaviour)
|
||
(await nodes[2].peerManager.dialPeer(pInfos[3], WakuLegacyFilterCodec)).isSome() == true
|
||
|
||
|
||
# assert physical connections
|
||
check:
|
||
nodes[0].peerManager.connectedPeers(WakuRelayCodec)[0].len == 0
|
||
nodes[0].peerManager.connectedPeers(WakuRelayCodec)[1].len == 2
|
||
|
||
nodes[0].peerManager.connectedPeers(WakuLegacyFilterCodec)[0].len == 0
|
||
nodes[0].peerManager.connectedPeers(WakuLegacyFilterCodec)[1].len == 2
|
||
|
||
nodes[1].peerManager.connectedPeers(WakuRelayCodec)[0].len == 1
|
||
nodes[1].peerManager.connectedPeers(WakuRelayCodec)[1].len == 1
|
||
|
||
nodes[1].peerManager.connectedPeers(WakuLegacyFilterCodec)[0].len == 1
|
||
nodes[1].peerManager.connectedPeers(WakuLegacyFilterCodec)[1].len == 0
|
||
|
||
nodes[2].peerManager.connectedPeers(WakuRelayCodec)[0].len == 2
|
||
nodes[2].peerManager.connectedPeers(WakuRelayCodec)[1].len == 1
|
||
|
||
nodes[2].peerManager.connectedPeers(WakuLegacyFilterCodec)[0].len == 1
|
||
nodes[2].peerManager.connectedPeers(WakuLegacyFilterCodec)[1].len == 1
|
||
|
||
nodes[3].peerManager.connectedPeers(WakuRelayCodec)[0].len == 1
|
||
nodes[3].peerManager.connectedPeers(WakuRelayCodec)[1].len == 0
|
||
|
||
nodes[3].peerManager.connectedPeers(WakuLegacyFilterCodec)[0].len == 1
|
||
nodes[3].peerManager.connectedPeers(WakuLegacyFilterCodec)[1].len == 0
|
||
|
||
asyncTest "getNumStreams() returns expected number of connections per protocol":
|
||
# Create 2 nodes
|
||
let nodes = toSeq(0..<2).mapIt(newTestWakuNode(generateSecp256k1Key(), ValidIpAddress.init("0.0.0.0"), Port(0)))
|
||
|
||
# Start them with relay + filter
|
||
await allFutures(nodes.mapIt(it.start()))
|
||
await allFutures(nodes.mapIt(it.mountRelay()))
|
||
await allFutures(nodes.mapIt(it.mountFilter()))
|
||
await allFutures(nodes.mapIt(it.mountLegacyFilter()))
|
||
|
||
let pInfos = nodes.mapIt(it.switch.peerInfo.toRemotePeerInfo())
|
||
|
||
require:
|
||
# multiple streams are multiplexed over a single connection.
|
||
# note that a relay connection is created under the hood when dialing a peer (libp2p behaviour)
|
||
(await nodes[0].peerManager.dialPeer(pInfos[1], WakuLegacyFilterCodec)).isSome() == true
|
||
(await nodes[0].peerManager.dialPeer(pInfos[1], WakuLegacyFilterCodec)).isSome() == true
|
||
(await nodes[0].peerManager.dialPeer(pInfos[1], WakuLegacyFilterCodec)).isSome() == true
|
||
(await nodes[0].peerManager.dialPeer(pInfos[1], WakuLegacyFilterCodec)).isSome() == true
|
||
|
||
check:
|
||
nodes[0].peerManager.getNumStreams(WakuRelayCodec) == (1, 1)
|
||
nodes[0].peerManager.getNumStreams(WakuLegacyFilterCodec) == (0, 4)
|
||
|
||
nodes[1].peerManager.getNumStreams(WakuRelayCodec) == (1, 1)
|
||
nodes[1].peerManager.getNumStreams(WakuLegacyFilterCodec) == (4, 0)
|
||
|
||
test "selectPeer() returns the correct peer":
|
||
# Valid peer id missing the last digit
|
||
let basePeerId = "16Uiu2HAm7QGEZKujdSbbo1aaQyfDPQ6Bw3ybQnj6fruH5Dxwd7D"
|
||
|
||
# Create peer manager
|
||
let pm = PeerManager.new(
|
||
switch = SwitchBuilder.new().withRng(rng).withMplex().withNoise().build(),
|
||
storage = nil)
|
||
|
||
# Create 3 peer infos
|
||
let peers = toSeq(1..3)
|
||
.mapIt(parsePeerInfo("/ip4/0.0.0.0/tcp/30300/p2p/" & basePeerId & $it))
|
||
.filterIt(it.isOk())
|
||
.mapIt(it.value)
|
||
require:
|
||
peers.len == 3
|
||
|
||
# Add a peer[0] to the peerstore
|
||
pm.peerStore[AddressBook][peers[0].peerId] = peers[0].addrs
|
||
pm.peerStore[ProtoBook][peers[0].peerId] = @[WakuRelayCodec, WakuStoreCodec, WakuLegacyFilterCodec]
|
||
|
||
# When no service peers, we get one from the peerstore
|
||
let selectedPeer1 = pm.selectPeer(WakuStoreCodec)
|
||
check:
|
||
selectedPeer1.isSome() == true
|
||
selectedPeer1.get().peerId == peers[0].peerId
|
||
|
||
# Same for other protocol
|
||
let selectedPeer2 = pm.selectPeer(WakuLegacyFilterCodec)
|
||
check:
|
||
selectedPeer2.isSome() == true
|
||
selectedPeer2.get().peerId == peers[0].peerId
|
||
|
||
# And return none if we dont have any peer for that protocol
|
||
let selectedPeer3 = pm.selectPeer(WakuLightPushCodec)
|
||
check:
|
||
selectedPeer3.isSome() == false
|
||
|
||
# Now we add service peers for different protocols peer[1..3]
|
||
pm.addServicePeer(peers[1], WakuStoreCodec)
|
||
pm.addServicePeer(peers[2], WakuLightPushCodec)
|
||
|
||
# We no longer get one from the peerstore. Slots are being used instead.
|
||
let selectedPeer4 = pm.selectPeer(WakuStoreCodec)
|
||
check:
|
||
selectedPeer4.isSome() == true
|
||
selectedPeer4.get().peerId == peers[1].peerId
|
||
|
||
let selectedPeer5 = pm.selectPeer(WakuLightPushCodec)
|
||
check:
|
||
selectedPeer5.isSome() == true
|
||
selectedPeer5.get().peerId == peers[2].peerId
|
||
|
||
test "peer manager cant have more max connections than peerstore size":
|
||
# Peerstore size can't be smaller than max connections
|
||
let peerStoreSize = 5
|
||
let maxConnections = 10
|
||
|
||
expect(Defect):
|
||
let pm = PeerManager.new(
|
||
switch = SwitchBuilder.new().withRng(rng).withMplex().withNoise()
|
||
.withPeerStore(peerStoreSize)
|
||
.withMaxConnections(maxConnections)
|
||
.build(),
|
||
storage = nil)
|
||
|
||
test "prunePeerStore() correctly removes peers to match max quota":
|
||
# Create peer manager
|
||
let pm = PeerManager.new(
|
||
switch = SwitchBuilder.new().withRng(rng).withMplex().withNoise()
|
||
.withPeerStore(10)
|
||
.withMaxConnections(5)
|
||
.build(),
|
||
maxFailedAttempts = 1,
|
||
maxRelayPeers = some(5),
|
||
storage = nil)
|
||
|
||
# Create 15 peers and add them to the peerstore
|
||
let peers = toSeq(1..15)
|
||
.mapIt(parsePeerInfo("/ip4/0.0.0.0/tcp/0/p2p/" & $PeerId.random().get()))
|
||
.filterIt(it.isOk())
|
||
.mapIt(it.value)
|
||
for p in peers:
|
||
pm.addPeer(p)
|
||
|
||
# Check that we have 15 peers in the peerstore
|
||
check:
|
||
pm.peerStore.peers.len == 15
|
||
|
||
# fake that some peers failed to connected
|
||
pm.peerStore[NumberFailedConnBook][peers[0].peerId] = 2
|
||
pm.peerStore[NumberFailedConnBook][peers[1].peerId] = 2
|
||
pm.peerStore[NumberFailedConnBook][peers[2].peerId] = 2
|
||
|
||
# fake that some peers are connected
|
||
pm.peerStore[ConnectionBook][peers[5].peerId] = Connected
|
||
pm.peerStore[ConnectionBook][peers[8].peerId] = Connected
|
||
pm.peerStore[ConnectionBook][peers[10].peerId] = Connected
|
||
pm.peerStore[ConnectionBook][peers[12].peerId] = Connected
|
||
|
||
# Prune the peerstore (current=15, target=5)
|
||
pm.prunePeerStore()
|
||
|
||
check:
|
||
# ensure peerstore was pruned
|
||
pm.peerStore.peers.len == 10
|
||
|
||
# ensure connected peers were not pruned
|
||
pm.peerStore.peers.anyIt(it.peerId == peers[5].peerId)
|
||
pm.peerStore.peers.anyIt(it.peerId == peers[8].peerId)
|
||
pm.peerStore.peers.anyIt(it.peerId == peers[10].peerId)
|
||
pm.peerStore.peers.anyIt(it.peerId == peers[12].peerId)
|
||
|
||
# ensure peers that failed were the first to be pruned
|
||
not pm.peerStore.peers.anyIt(it.peerId == peers[0].peerId)
|
||
not pm.peerStore.peers.anyIt(it.peerId == peers[1].peerId)
|
||
not pm.peerStore.peers.anyIt(it.peerId == peers[2].peerId)
|
||
|
||
asyncTest "canBeConnected() returns correct value":
|
||
let pm = PeerManager.new(
|
||
switch = SwitchBuilder.new().withRng(rng).withMplex().withNoise()
|
||
.withPeerStore(10)
|
||
.withMaxConnections(5)
|
||
.build(),
|
||
initialBackoffInSec = 1, # with InitialBackoffInSec = 1 backoffs are: 1, 2, 4, 8secs.
|
||
backoffFactor = 2,
|
||
maxFailedAttempts = 10,
|
||
maxRelayPeers = some(5),
|
||
storage = nil)
|
||
var p1: PeerId
|
||
require p1.init("QmeuZJbXrszW2jdT7GdduSjQskPU3S7vvGWKtKgDfkDvW" & "1")
|
||
|
||
|
||
# new peer with no errors can be connected
|
||
check:
|
||
pm.canBeConnected(p1) == true
|
||
|
||
# peer with ONE error that just failed
|
||
pm.peerStore[NumberFailedConnBook][p1] = 1
|
||
pm.peerStore[LastFailedConnBook][p1] = Moment.init(getTime().toUnix, Second)
|
||
# we cant connect right now
|
||
check:
|
||
pm.canBeConnected(p1) == false
|
||
|
||
# but we can after the first backoff of 1 seconds
|
||
await sleepAsync(chronos.milliseconds(1200))
|
||
check:
|
||
pm.canBeConnected(p1) == true
|
||
|
||
# peer with TWO errors, we can connect until 2 seconds have passed
|
||
pm.peerStore[NumberFailedConnBook][p1] = 2
|
||
pm.peerStore[LastFailedConnBook][p1] = Moment.init(getTime().toUnix, Second)
|
||
|
||
# cant be connected after 1 second
|
||
await sleepAsync(chronos.milliseconds(1000))
|
||
check:
|
||
pm.canBeConnected(p1) == false
|
||
|
||
# can be connected after 2 seconds
|
||
await sleepAsync(chronos.milliseconds(1200))
|
||
check:
|
||
pm.canBeConnected(p1) == true
|
||
|
||
# can't be connected if failed attempts are equal to maxFailedAttempts
|
||
pm.maxFailedAttempts = 2
|
||
check:
|
||
pm.canBeConnected(p1) == false
|
||
|
||
test "peer manager must fail if max backoff is over a week":
|
||
# Should result in overflow exception
|
||
expect(Defect):
|
||
let pm = PeerManager.new(
|
||
switch = SwitchBuilder.new().withRng(rng).withMplex().withNoise()
|
||
.withPeerStore(10)
|
||
.withMaxConnections(5)
|
||
.build(),
|
||
maxRelayPeers = some(5),
|
||
maxFailedAttempts = 150,
|
||
storage = nil)
|
||
|
||
# Should result in backoff > 1 week
|
||
expect(Defect):
|
||
let pm = PeerManager.new(
|
||
switch = SwitchBuilder.new().withRng(rng).withMplex().withNoise()
|
||
.withPeerStore(10)
|
||
.withMaxConnections(5)
|
||
.build(),
|
||
maxFailedAttempts = 10,
|
||
maxRelayPeers = some(5),
|
||
storage = nil)
|
||
|
||
let pm = PeerManager.new(
|
||
switch = SwitchBuilder.new().withRng(rng).withMplex().withNoise()
|
||
.withPeerStore(10)
|
||
.withMaxConnections(5)
|
||
.build(),
|
||
maxFailedAttempts = 5,
|
||
maxRelayPeers = some(5),
|
||
storage = nil)
|
||
|
||
asyncTest "colocationLimit is enforced by pruneConnsByIp()":
|
||
# Create 5 nodes
|
||
let nodes = toSeq(0..<5).mapIt(newTestWakuNode(generateSecp256k1Key(), ValidIpAddress.init("0.0.0.0"), Port(0)))
|
||
|
||
# Start them with relay + filter
|
||
await allFutures(nodes.mapIt(it.start()))
|
||
await allFutures(nodes.mapIt(it.mountRelay()))
|
||
|
||
let pInfos = nodes.mapIt(it.switch.peerInfo.toRemotePeerInfo())
|
||
|
||
# force max 1 conn per ip
|
||
nodes[0].peerManager.colocationLimit = 1
|
||
|
||
# 2 in connections
|
||
discard await nodes[1].peerManager.connectRelay(pInfos[0])
|
||
discard await nodes[2].peerManager.connectRelay(pInfos[0])
|
||
await sleepAsync(chronos.milliseconds(500))
|
||
|
||
# but one is pruned
|
||
check nodes[0].peerManager.switch.connManager.getConnections().len == 1
|
||
|
||
# 2 out connections
|
||
discard await nodes[0].peerManager.connectRelay(pInfos[3])
|
||
discard await nodes[0].peerManager.connectRelay(pInfos[4])
|
||
await sleepAsync(chronos.milliseconds(500))
|
||
|
||
# they are also prunned
|
||
check nodes[0].peerManager.switch.connManager.getConnections().len == 1
|
||
|
||
# we should have 4 peers (2in/2out) but due to collocation limit
|
||
# they are pruned to max 1
|
||
check:
|
||
nodes[0].peerManager.ipTable["127.0.0.1"].len == 1
|
||
nodes[0].peerManager.switch.connManager.getConnections().len == 1
|
||
nodes[0].peerManager.peerStore.peers().len == 1
|
||
|
||
await allFutures(nodes.mapIt(it.stop()))
|