{.used.} import chronos, options import ../libp2p import ../libp2p/[crypto/crypto, protocols/connectivity/relay/relay, protocols/connectivity/relay/messages, protocols/connectivity/relay/utils, protocols/connectivity/relay/client, services/autorelayservice] import ./helpers import stew/byteutils proc createSwitch(r: Relay, autorelay: Service = nil): Switch = var builder = SwitchBuilder.new() .withRng(newRng()) .withAddresses(@[ MultiAddress.init("/ip4/0.0.0.0/tcp/0").tryGet() ]) .withTcpTransport() .withMplex() .withNoise() .withCircuitRelay(r) if not autorelay.isNil(): builder = builder.withServices(@[autorelay]) builder.build() proc buildRelayMA(switchRelay: Switch, switchClient: Switch): MultiAddress = MultiAddress.init($switchRelay.peerInfo.addrs[0] & "/p2p/" & $switchRelay.peerInfo.peerId & "/p2p-circuit/p2p/" & $switchClient.peerInfo.peerId).get() suite "Autorelay": asyncTeardown: checkTrackers() var switchRelay {.threadvar.}: Switch switchClient {.threadvar.}: Switch relayClient {.threadvar.}: RelayClient autorelay {.threadvar.}: AutoRelayService asyncTest "Simple test": switchRelay = createSwitch(Relay.new()) relayClient = RelayClient.new() let fut = newFuture[void]() proc checkMA(addresses: seq[MultiAddress]) = check: addresses[0] == buildRelayMA(switchRelay, switchClient) check: addresses.len() == 1 fut.complete() autorelay = AutoRelayService.new(3, relayClient, checkMA, newRng()) switchClient = createSwitch(relayClient, autorelay) await allFutures(switchClient.start(), switchRelay.start()) await switchClient.connect(switchRelay.peerInfo.peerId, switchRelay.peerInfo.addrs) await fut.wait(1.seconds) let addresses = autorelay.getAddresses() check: addresses[0] == buildRelayMA(switchRelay, switchClient) addresses.len() == 1 await allFutures(switchClient.stop(), switchRelay.stop()) asyncTest "Connect after starting switches": switchRelay = createSwitch(Relay.new()) relayClient = RelayClient.new() let fut = newFuture[void]() proc checkMA(address: seq[MultiAddress]) = check: address[0] == buildRelayMA(switchRelay, switchClient) fut.complete() let autorelay = AutoRelayService.new(3, relayClient, checkMA, newRng()) switchClient = createSwitch(relayClient, autorelay) await allFutures(switchClient.start(), switchRelay.start()) await sleepAsync(500.millis) await switchClient.connect(switchRelay.peerInfo.peerId, switchRelay.peerInfo.addrs) await fut.wait(1.seconds) let addresses = autorelay.getAddresses() check: addresses[0] == buildRelayMA(switchRelay, switchClient) addresses.len() == 1 await allFutures(switchClient.stop(), switchRelay.stop()) asyncTest "Three relays connections": var state = 0 let rel1 = createSwitch(Relay.new()) rel2 = createSwitch(Relay.new()) rel3 = createSwitch(Relay.new()) fut = newFuture[void]() relayClient = RelayClient.new() proc checkMA(addresses: seq[MultiAddress]) = if state == 0 or state == 2: check: buildRelayMA(rel1, switchClient) in addresses addresses.len() == 1 state += 1 elif state == 1: check: buildRelayMA(rel1, switchClient) in addresses buildRelayMA(rel2, switchClient) in addresses addresses.len() == 2 state += 1 elif state == 3: check: buildRelayMA(rel1, switchClient) in addresses buildRelayMA(rel3, switchClient) in addresses addresses.len() == 2 state += 1 fut.complete() let autorelay = AutoRelayService.new(2, relayClient, checkMA, newRng()) switchClient = createSwitch(relayClient, autorelay) await allFutures(switchClient.start(), rel1.start(), rel2.start(), rel3.start()) await switchClient.connect(rel1.peerInfo.peerId, rel1.peerInfo.addrs) await sleepAsync(500.millis) await switchClient.connect(rel2.peerInfo.peerId, rel2.peerInfo.addrs) await switchClient.connect(rel3.peerInfo.peerId, rel3.peerInfo.addrs) await sleepAsync(500.millis) await rel2.stop() await fut.wait(1.seconds) let addresses = autorelay.getAddresses() check: buildRelayMA(rel1, switchClient) in addresses buildRelayMA(rel3, switchClient) in addresses addresses.len() == 2 await allFutures(switchClient.stop(), rel1.stop(), rel3.stop())