{.used.} import options, sequtils, sets import chronos import stew/byteutils import nimcrypto/sysrand import ../libp2p/[errors, switch, multistream, builders, stream/bufferstream, stream/connection, multiaddress, peerinfo, crypto/crypto, protocols/protocol, protocols/secure/secure, muxers/muxer, muxers/mplex/lpchannel, stream/lpstream, nameresolving/nameresolver, nameresolving/mockresolver, stream/chronosstream, transports/tcptransport, transports/wstransport] import ./helpers const TestCodec = "/test/proto/1.0.0" type TestProto = ref object of LPProtocol suite "Switch": teardown: checkTrackers() asyncTest "e2e use switch dial proto string": let done = newFuture[void]() proc handle(conn: Connection, proto: string) {.async, gcsafe.} = try: let msg = string.fromBytes(await conn.readLp(1024)) check "Hello!" == msg await conn.writeLp("Hello!") finally: await conn.close() done.complete() let testProto = new TestProto testProto.codec = TestCodec testProto.handler = handle let switch1 = newStandardSwitch() switch1.mount(testProto) let switch2 = newStandardSwitch() var awaiters: seq[Future[void]] awaiters.add(await switch1.start()) awaiters.add(await switch2.start()) let conn = await switch2.dial(switch1.peerInfo.peerId, switch1.peerInfo.addrs, TestCodec) check switch1.isConnected(switch2.peerInfo.peerId) check switch2.isConnected(switch1.peerInfo.peerId) await conn.writeLp("Hello!") let msg = string.fromBytes(await conn.readLp(1024)) check "Hello!" == msg await conn.close() await allFuturesThrowing( done.wait(5.seconds), switch1.stop(), switch2.stop()) # this needs to go at end await allFuturesThrowing(awaiters) check not switch1.isConnected(switch2.peerInfo.peerId) check not switch2.isConnected(switch1.peerInfo.peerId) asyncTest "e2e use switch dial proto string with custom matcher": let done = newFuture[void]() proc handle(conn: Connection, proto: string) {.async, gcsafe.} = try: let msg = string.fromBytes(await conn.readLp(1024)) check "Hello!" == msg await conn.writeLp("Hello!") finally: await conn.close() done.complete() let testProto = new TestProto testProto.codec = TestCodec testProto.handler = handle let callProto = TestCodec & "/pew" proc match(proto: string): bool {.gcsafe.} = return proto == callProto let switch1 = newStandardSwitch(secureManagers = [SecureProtocol.Noise]) switch1.mount(testProto, match) let switch2 = newStandardSwitch(secureManagers = [SecureProtocol.Noise]) var awaiters: seq[Future[void]] awaiters.add(await switch1.start()) awaiters.add(await switch2.start()) let conn = await switch2.dial(switch1.peerInfo.peerId, switch1.peerInfo.addrs, callProto) check switch1.isConnected(switch2.peerInfo.peerId) check switch2.isConnected(switch1.peerInfo.peerId) await conn.writeLp("Hello!") let msg = string.fromBytes(await conn.readLp(1024)) check "Hello!" == msg await conn.close() await allFuturesThrowing( done.wait(5.seconds), switch1.stop(), switch2.stop()) # this needs to go at end await allFuturesThrowing(awaiters) check not switch1.isConnected(switch2.peerInfo.peerId) check not switch2.isConnected(switch1.peerInfo.peerId) asyncTest "e2e should not leak bufferstreams and connections on channel close": let done = newFuture[void]() proc handle(conn: Connection, proto: string) {.async, gcsafe.} = try: let msg = string.fromBytes(await conn.readLp(1024)) check "Hello!" == msg await conn.writeLp("Hello!") finally: await conn.close() done.complete() let testProto = new TestProto testProto.codec = TestCodec testProto.handler = handle let switch1 = newStandardSwitch() switch1.mount(testProto) let switch2 = newStandardSwitch() var awaiters: seq[Future[void]] awaiters.add(await switch1.start()) awaiters.add(await switch2.start()) let conn = await switch2.dial(switch1.peerInfo.peerId, switch1.peerInfo.addrs, TestCodec) check switch1.isConnected(switch2.peerInfo.peerId) check switch2.isConnected(switch1.peerInfo.peerId) await conn.writeLp("Hello!") let msg = string.fromBytes(await conn.readLp(1024)) check "Hello!" == msg await conn.close() await allFuturesThrowing( done.wait(5.seconds), switch1.stop(), switch2.stop(), ) # this needs to go at end await allFuturesThrowing(awaiters) check not switch1.isConnected(switch2.peerInfo.peerId) check not switch2.isConnected(switch1.peerInfo.peerId) asyncTest "e2e use connect then dial": var awaiters: seq[Future[void]] proc handle(conn: Connection, proto: string) {.async, gcsafe.} = try: let msg = string.fromBytes(await conn.readLp(1024)) check "Hello!" == msg finally: await conn.writeLp("Hello!") await conn.close() let testProto = new TestProto testProto.codec = TestCodec testProto.handler = handle let switch1 = newStandardSwitch(secureManagers = [SecureProtocol.Noise]) switch1.mount(testProto) let switch2 = newStandardSwitch(secureManagers = [SecureProtocol.Noise]) awaiters.add(await switch1.start()) awaiters.add(await switch2.start()) await switch2.connect(switch1.peerInfo.peerId, switch1.peerInfo.addrs) let conn = await switch2.dial(switch1.peerInfo.peerId, switch1.peerInfo.addrs, TestCodec) check switch1.isConnected(switch2.peerInfo.peerId) check switch2.isConnected(switch1.peerInfo.peerId) await conn.writeLp("Hello!") let msg = string.fromBytes(await conn.readLp(1024)) check "Hello!" == msg await allFuturesThrowing( conn.close(), switch1.stop(), switch2.stop() ) await allFuturesThrowing(awaiters) check not switch1.isConnected(switch2.peerInfo.peerId) check not switch2.isConnected(switch1.peerInfo.peerId) asyncTest "e2e should not leak on peer disconnect": var awaiters: seq[Future[void]] let switch1 = newStandardSwitch() let switch2 = newStandardSwitch() awaiters.add(await switch1.start()) awaiters.add(await switch2.start()) await switch2.connect(switch1.peerInfo.peerId, switch1.peerInfo.addrs) check switch1.isConnected(switch2.peerInfo.peerId) check switch2.isConnected(switch1.peerInfo.peerId) await switch2.disconnect(switch1.peerInfo.peerId) check not switch2.isConnected(switch1.peerInfo.peerId) check await(checkExpiring((not switch1.isConnected(switch2.peerInfo.peerId)))) checkTracker(LPChannelTrackerName) checkTracker(SecureConnTrackerName) await allFuturesThrowing( switch1.stop(), switch2.stop()) await allFuturesThrowing(awaiters) asyncTest "e2e should trigger connection events (remote)": var awaiters: seq[Future[void]] let switch1 = newStandardSwitch() let switch2 = newStandardSwitch() var step = 0 var kinds: set[ConnEventKind] proc hook(peerId: PeerId, event: ConnEvent) {.async, gcsafe.} = kinds = kinds + {event.kind} case step: of 0: check: event.kind == ConnEventKind.Connected peerId == switch1.peerInfo.peerId of 1: check: event.kind == ConnEventKind.Disconnected check peerId == switch1.peerInfo.peerId else: check false step.inc() switch2.addConnEventHandler(hook, ConnEventKind.Connected) switch2.addConnEventHandler(hook, ConnEventKind.Disconnected) awaiters.add(await switch1.start()) awaiters.add(await switch2.start()) await switch2.connect(switch1.peerInfo.peerId, switch1.peerInfo.addrs) check switch1.isConnected(switch2.peerInfo.peerId) check switch2.isConnected(switch1.peerInfo.peerId) await switch2.disconnect(switch1.peerInfo.peerId) check not switch2.isConnected(switch1.peerInfo.peerId) check await(checkExpiring((not switch1.isConnected(switch2.peerInfo.peerId)))) checkTracker(LPChannelTrackerName) checkTracker(SecureConnTrackerName) check: kinds == { ConnEventKind.Connected, ConnEventKind.Disconnected } await allFuturesThrowing( switch1.stop(), switch2.stop()) await allFuturesThrowing(awaiters) asyncTest "e2e should trigger connection events (local)": var awaiters: seq[Future[void]] let switch1 = newStandardSwitch() let switch2 = newStandardSwitch() var step = 0 var kinds: set[ConnEventKind] proc hook(peerId: PeerId, event: ConnEvent) {.async, gcsafe.} = kinds = kinds + {event.kind} case step: of 0: check: event.kind == ConnEventKind.Connected peerId == switch2.peerInfo.peerId of 1: check: event.kind == ConnEventKind.Disconnected check peerId == switch2.peerInfo.peerId else: check false step.inc() switch1.addConnEventHandler(hook, ConnEventKind.Connected) switch1.addConnEventHandler(hook, ConnEventKind.Disconnected) awaiters.add(await switch1.start()) awaiters.add(await switch2.start()) await switch2.connect(switch1.peerInfo.peerId, switch1.peerInfo.addrs) check switch1.isConnected(switch2.peerInfo.peerId) check switch2.isConnected(switch1.peerInfo.peerId) await switch2.disconnect(switch1.peerInfo.peerId) check not switch2.isConnected(switch1.peerInfo.peerId) check await(checkExpiring((not switch1.isConnected(switch2.peerInfo.peerId)))) checkTracker(LPChannelTrackerName) checkTracker(SecureConnTrackerName) check: kinds == { ConnEventKind.Connected, ConnEventKind.Disconnected } await allFuturesThrowing( switch1.stop(), switch2.stop()) await allFuturesThrowing(awaiters) asyncTest "e2e should trigger peer events (remote)": var awaiters: seq[Future[void]] let switch1 = newStandardSwitch() let switch2 = newStandardSwitch() var step = 0 var kinds: set[PeerEventKind] proc handler(peerId: PeerId, event: PeerEvent) {.async, gcsafe.} = kinds = kinds + {event.kind} case step: of 0: check: event.kind == PeerEventKind.Joined peerId == switch2.peerInfo.peerId of 1: check: event.kind == PeerEventKind.Left peerId == switch2.peerInfo.peerId else: check false step.inc() switch1.addPeerEventHandler(handler, PeerEventKind.Joined) switch1.addPeerEventHandler(handler, PeerEventKind.Left) awaiters.add(await switch1.start()) awaiters.add(await switch2.start()) await switch2.connect(switch1.peerInfo.peerId, switch1.peerInfo.addrs) check switch1.isConnected(switch2.peerInfo.peerId) check switch2.isConnected(switch1.peerInfo.peerId) await switch2.disconnect(switch1.peerInfo.peerId) check not switch2.isConnected(switch1.peerInfo.peerId) check await(checkExpiring((not switch1.isConnected(switch2.peerInfo.peerId)))) checkTracker(LPChannelTrackerName) checkTracker(SecureConnTrackerName) check: kinds == { PeerEventKind.Joined, PeerEventKind.Left } await allFuturesThrowing( switch1.stop(), switch2.stop()) await allFuturesThrowing(awaiters) asyncTest "e2e should trigger peer events (local)": var awaiters: seq[Future[void]] let switch1 = newStandardSwitch() let switch2 = newStandardSwitch() var step = 0 var kinds: set[PeerEventKind] proc handler(peerId: PeerId, event: PeerEvent) {.async, gcsafe.} = kinds = kinds + {event.kind} case step: of 0: check: event.kind == PeerEventKind.Joined peerId == switch1.peerInfo.peerId of 1: check: event.kind == PeerEventKind.Left peerId == switch1.peerInfo.peerId else: check false step.inc() switch2.addPeerEventHandler(handler, PeerEventKind.Joined) switch2.addPeerEventHandler(handler, PeerEventKind.Left) awaiters.add(await switch1.start()) awaiters.add(await switch2.start()) await switch2.connect(switch1.peerInfo.peerId, switch1.peerInfo.addrs) check switch1.isConnected(switch2.peerInfo.peerId) check switch2.isConnected(switch1.peerInfo.peerId) await switch2.disconnect(switch1.peerInfo.peerId) check not switch2.isConnected(switch1.peerInfo.peerId) check await(checkExpiring((not switch1.isConnected(switch2.peerInfo.peerId)))) checkTracker(LPChannelTrackerName) checkTracker(SecureConnTrackerName) check: kinds == { PeerEventKind.Joined, PeerEventKind.Left } await allFuturesThrowing( switch1.stop(), switch2.stop()) await allFuturesThrowing(awaiters) asyncTest "e2e should trigger peer events only once per peer": var awaiters: seq[Future[void]] let switch1 = newStandardSwitch() let rng = crypto.newRng() # use same private keys to emulate two connection from same peer let privKey = PrivateKey.random(rng[]).tryGet() let switch2 = newStandardSwitch( privKey = some(privKey), rng = rng) let switch3 = newStandardSwitch( privKey = some(privKey), rng = rng) var step = 0 var kinds: set[PeerEventKind] proc handler(peerId: PeerId, event: PeerEvent) {.async, gcsafe.} = kinds = kinds + {event.kind} case step: of 0: check: event.kind == PeerEventKind.Joined of 1: check: event.kind == PeerEventKind.Left else: check false # should not trigger this step.inc() switch1.addPeerEventHandler(handler, PeerEventKind.Joined) switch1.addPeerEventHandler(handler, PeerEventKind.Left) awaiters.add(await switch1.start()) awaiters.add(await switch2.start()) awaiters.add(await switch3.start()) await switch2.connect(switch1.peerInfo.peerId, switch1.peerInfo.addrs) # should trigger 1st Join event await switch3.connect(switch1.peerInfo.peerId, switch1.peerInfo.addrs) # should trigger 2nd Join event check switch1.isConnected(switch2.peerInfo.peerId) check switch2.isConnected(switch1.peerInfo.peerId) check switch3.isConnected(switch1.peerInfo.peerId) await switch2.disconnect(switch1.peerInfo.peerId) # should trigger 1st Left event await switch3.disconnect(switch1.peerInfo.peerId) # should trigger 2nd Left event check not switch2.isConnected(switch1.peerInfo.peerId) check not switch3.isConnected(switch1.peerInfo.peerId) check await(checkExpiring((not switch1.isConnected(switch2.peerInfo.peerId)))) check await(checkExpiring((not switch1.isConnected(switch3.peerInfo.peerId)))) checkTracker(LPChannelTrackerName) checkTracker(SecureConnTrackerName) check: kinds == { PeerEventKind.Joined, PeerEventKind.Left } await allFuturesThrowing( switch1.stop(), switch2.stop(), switch3.stop()) await allFuturesThrowing(awaiters) asyncTest "e2e should allow dropping peer from connection events": var awaiters: seq[Future[void]] let rng = crypto.newRng() # use same private keys to emulate two connection from same peer let privateKey = PrivateKey.random(rng[]).tryGet() peerInfo = PeerInfo.new(privateKey) var switches: seq[Switch] var done = newFuture[void]() var onConnect: Future[void] proc hook(peerId: PeerId, event: ConnEvent) {.async, gcsafe.} = case event.kind: of ConnEventKind.Connected: await onConnect await switches[0].disconnect(peerInfo.peerId) # trigger disconnect of ConnEventKind.Disconnected: check not switches[0].isConnected(peerInfo.peerId) await sleepAsync(1.millis) done.complete() switches.add(newStandardSwitch( rng = rng)) switches[0].addConnEventHandler(hook, ConnEventKind.Connected) switches[0].addConnEventHandler(hook, ConnEventKind.Disconnected) awaiters.add(await switches[0].start()) switches.add(newStandardSwitch( privKey = some(privateKey), rng = rng)) onConnect = switches[1].connect(switches[0].peerInfo.peerId, switches[0].peerInfo.addrs) await onConnect await done checkTracker(LPChannelTrackerName) checkTracker(SecureConnTrackerName) await allFuturesThrowing( switches.mapIt( it.stop() )) await allFuturesThrowing(awaiters) asyncTest "e2e should allow dropping multiple connections for peer from connection events": var awaiters: seq[Future[void]] let rng = crypto.newRng() # use same private keys to emulate two connection from same peer let privateKey = PrivateKey.random(rng[]).tryGet() peerInfo = PeerInfo.new(privateKey) var conns = 1 var switches: seq[Switch] var done = newFuture[void]() var onConnect: Future[void] proc hook(peerId2: PeerId, event: ConnEvent) {.async, gcsafe.} = case event.kind: of ConnEventKind.Connected: if conns == 5: await onConnect await switches[0].disconnect(peerInfo.peerId) # trigger disconnect return conns.inc of ConnEventKind.Disconnected: if conns == 1: check not switches[0].isConnected(peerInfo.peerId) done.complete() conns.dec switches.add(newStandardSwitch( rng = rng)) switches[0].addConnEventHandler(hook, ConnEventKind.Connected) awaiters.add(await switches[0].start()) for i in 1..5: switches.add(newStandardSwitch( privKey = some(privateKey), rng = rng)) switches[i].addConnEventHandler(hook, ConnEventKind.Disconnected) onConnect = switches[i].connect(switches[0].peerInfo.peerId, switches[0].peerInfo.addrs) await onConnect await done checkTracker(LPChannelTrackerName) checkTracker(SecureConnTrackerName) await allFuturesThrowing( switches.mapIt( it.stop() )) await allFuturesThrowing(awaiters) # TODO: we should be able to test cancellation # for most of the steps in the upgrade flow - # this is just a basic test for dials asyncTest "e2e canceling dial should not leak": let ma = @[Multiaddress.init("/ip4/0.0.0.0/tcp/0").tryGet()] let transport = TcpTransport.new(upgrade = Upgrade()) await transport.start(ma) proc acceptHandler() {.async, gcsafe.} = try: let conn = await transport.accept() discard await conn.readLp(100) await conn.close() except CatchableError: discard let handlerWait = acceptHandler() let switch = newStandardSwitch(secureManagers = [SecureProtocol.Noise]) var awaiters: seq[Future[void]] awaiters.add(await switch.start()) var peerId = PeerID.init(PrivateKey.random(ECDSA, rng[]).get()).get() let connectFut = switch.connect(peerId, transport.addrs) await sleepAsync(500.millis) connectFut.cancel() await handlerWait checkTracker(LPChannelTrackerName) checkTracker(SecureConnTrackerName) checkTracker(ChronosStreamTrackerName) await allFuturesThrowing( transport.stop(), switch.stop()) # this needs to go at end await allFuturesThrowing(awaiters) asyncTest "e2e closing remote conn should not leak": let ma = @[Multiaddress.init("/ip4/0.0.0.0/tcp/0").tryGet()] let transport = TcpTransport.new(upgrade = Upgrade()) await transport.start(ma) proc acceptHandler() {.async, gcsafe.} = let conn = await transport.accept() await conn.closeWithEOF() let handlerWait = acceptHandler() let switch = newStandardSwitch(secureManagers = [SecureProtocol.Noise]) var awaiters: seq[Future[void]] awaiters.add(await switch.start()) var peerId = PeerID.init(PrivateKey.random(ECDSA, rng[]).get()).get() expect LPStreamClosedError: await switch.connect(peerId, transport.addrs) await handlerWait checkTracker(LPChannelTrackerName) checkTracker(SecureConnTrackerName) checkTracker(ChronosStreamTrackerName) await allFuturesThrowing( transport.stop(), switch.stop()) # this needs to go at end await allFuturesThrowing(awaiters) asyncTest "e2e calling closeWithEOF on the same stream should not assert": proc handle(conn: Connection, proto: string) {.async, gcsafe.} = discard await conn.readLp(100) let testProto = new TestProto testProto.codec = TestCodec testProto.handler = handle let switch1 = newStandardSwitch(secureManagers = [SecureProtocol.Noise]) switch1.mount(testProto) let switch2 = newStandardSwitch(secureManagers = [SecureProtocol.Noise]) var awaiters: seq[Future[void]] awaiters.add(await switch1.start()) let conn = await switch2.dial(switch1.peerInfo.peerId, switch1.peerInfo.addrs, TestCodec) proc closeReader() {.async.} = await conn.closeWithEOF() var readers: seq[Future[void]] for i in 0..10: readers.add(closeReader()) await allFuturesThrowing(readers) await switch2.stop() #Otherwise this leaks check await checkExpiring(not switch1.isConnected(switch2.peerInfo.peerID)) checkTracker(LPChannelTrackerName) checkTracker(SecureConnTrackerName) checkTracker(ChronosStreamTrackerName) await switch1.stop() # this needs to go at end await allFuturesThrowing(awaiters) asyncTest "connect to inexistent peer": let switch2 = newStandardSwitch(secureManagers = [SecureProtocol.Noise]) discard await switch2.start() let someAddr = MultiAddress.init("/ip4/127.128.0.99").get() let seckey = PrivateKey.random(ECDSA, rng[]).get() let somePeer = PeerInfo.new(secKey, [someAddr]) expect(DialFailedError): discard await switch2.dial(somePeer.peerId, somePeer.addrs, TestCodec) await switch2.stop() asyncTest "e2e total connection limits on incoming connections": var awaiters: seq[Future[void]] var switches: seq[Switch] let destSwitch = newStandardSwitch(maxConnections = 3) switches.add(destSwitch) awaiters.add(await destSwitch.start()) let destPeerInfo = destSwitch.peerInfo for i in 0..<3: let switch = newStandardSwitch() switches.add(switch) awaiters.add(await switch.start()) check await switch.connect(destPeerInfo.peerId, destPeerInfo.addrs) .withTimeout(1000.millis) let switchFail = newStandardSwitch() switches.add(switchFail) awaiters.add(await switchFail.start()) check not(await switchFail.connect(destPeerInfo.peerId, destPeerInfo.addrs) .withTimeout(1000.millis)) await allFuturesThrowing( allFutures(switches.mapIt( it.stop() ))) await allFuturesThrowing(awaiters) asyncTest "e2e total connection limits on incoming connections": var awaiters: seq[Future[void]] var switches: seq[Switch] for i in 0..<3: switches.add(newStandardSwitch()) awaiters.add(await switches[i].start()) let srcSwitch = newStandardSwitch(maxConnections = 3) awaiters.add(await srcSwitch.start()) let dstSwitch = newStandardSwitch() awaiters.add(await dstSwitch.start()) for s in switches: check await srcSwitch.connect(s.peerInfo.peerId, s.peerInfo.addrs) .withTimeout(1000.millis) expect TooManyConnectionsError: await srcSwitch.connect(dstSwitch.peerInfo.peerId, dstSwitch.peerInfo.addrs) switches.add(srcSwitch) switches.add(dstSwitch) await allFuturesThrowing( allFutures(switches.mapIt( it.stop() ))) await allFuturesThrowing(awaiters) asyncTest "e2e max incoming connection limits": var awaiters: seq[Future[void]] var switches: seq[Switch] let destSwitch = newStandardSwitch(maxIn = 3) switches.add(destSwitch) awaiters.add(await destSwitch.start()) let destPeerInfo = destSwitch.peerInfo for i in 0..<3: let switch = newStandardSwitch() switches.add(switch) awaiters.add(await switch.start()) check await switch.connect(destPeerInfo.peerId, destPeerInfo.addrs) .withTimeout(1000.millis) let switchFail = newStandardSwitch() switches.add(switchFail) awaiters.add(await switchFail.start()) check not(await switchFail.connect(destPeerInfo.peerId, destPeerInfo.addrs) .withTimeout(1000.millis)) await allFuturesThrowing( allFutures(switches.mapIt( it.stop() ))) await allFuturesThrowing(awaiters) asyncTest "e2e max outgoing connection limits": var awaiters: seq[Future[void]] var switches: seq[Switch] for i in 0..<3: switches.add(newStandardSwitch()) awaiters.add(await switches[i].start()) let srcSwitch = newStandardSwitch(maxOut = 3) awaiters.add(await srcSwitch.start()) let dstSwitch = newStandardSwitch() awaiters.add(await dstSwitch.start()) for s in switches: check await srcSwitch.connect(s.peerInfo.peerId, s.peerInfo.addrs) .withTimeout(1000.millis) expect TooManyConnectionsError: await srcSwitch.connect(dstSwitch.peerInfo.peerId, dstSwitch.peerInfo.addrs) switches.add(srcSwitch) switches.add(dstSwitch) await allFuturesThrowing( allFutures(switches.mapIt( it.stop() ))) await allFuturesThrowing(awaiters) asyncTest "e2e peer store": let done = newFuture[void]() proc handle(conn: Connection, proto: string) {.async, gcsafe.} = try: let msg = string.fromBytes(await conn.readLp(1024)) check "Hello!" == msg await conn.writeLp("Hello!") finally: await conn.close() done.complete() let testProto = new TestProto testProto.codec = TestCodec testProto.handler = handle let switch1 = newStandardSwitch() switch1.mount(testProto) let switch2 = newStandardSwitch() var awaiters: seq[Future[void]] awaiters.add(await switch1.start()) awaiters.add(await switch2.start()) let conn = await switch2.dial(switch1.peerInfo.peerId, switch1.peerInfo.addrs, TestCodec) check switch1.isConnected(switch2.peerInfo.peerId) check switch2.isConnected(switch1.peerInfo.peerId) await conn.writeLp("Hello!") let msg = string.fromBytes(await conn.readLp(1024)) check "Hello!" == msg await conn.close() await allFuturesThrowing( done.wait(5.seconds), switch1.stop(), switch2.stop()) # this needs to go at end await allFuturesThrowing(awaiters) check not switch1.isConnected(switch2.peerInfo.peerId) check not switch2.isConnected(switch1.peerInfo.peerId) check: switch1.peerStore.addressBook.get(switch2.peerInfo.peerId) == switch2.peerInfo.addrs.toHashSet() switch2.peerStore.addressBook.get(switch1.peerInfo.peerId) == switch1.peerInfo.addrs.toHashSet() switch1.peerStore.protoBook.get(switch2.peerInfo.peerId) == switch2.peerInfo.protocols.toHashSet() switch2.peerStore.protoBook.get(switch1.peerInfo.peerId) == switch1.peerInfo.protocols.toHashSet() asyncTest "e2e should allow multiple local addresses": proc handle(conn: Connection, proto: string) {.async, gcsafe.} = try: let msg = string.fromBytes(await conn.readLp(1024)) check "Hello!" == msg await conn.writeLp("Hello!") finally: await conn.close() let testProto = new TestProto testProto.codec = TestCodec testProto.handler = handle let addrs = @[MultiAddress.init("/ip4/127.0.0.1/tcp/0").tryGet(), MultiAddress.init("/ip6/::1/tcp/0").tryGet()] let switch1 = newStandardSwitch( addrs = addrs, transportFlags = {ServerFlags.ReuseAddr, ServerFlags.ReusePort}) switch1.mount(testProto) let switch2 = newStandardSwitch() let switch3 = newStandardSwitch( addrs = MultiAddress.init("/ip4/127.0.0.1/tcp/0").tryGet() ) await allFuturesThrowing( switch1.start(), switch2.start(), switch3.start()) check IP4.matchPartial(switch1.peerInfo.addrs[0]) check IP6.matchPartial(switch1.peerInfo.addrs[1]) let conn = await switch2.dial( switch1.peerInfo.peerId, @[switch1.peerInfo.addrs[0]], TestCodec) check switch1.isConnected(switch2.peerInfo.peerId) check switch2.isConnected(switch1.peerInfo.peerId) await conn.writeLp("Hello!") check "Hello!" == string.fromBytes(await conn.readLp(1024)) await conn.close() let connv6 = await switch3.dial( switch1.peerInfo.peerId, @[switch1.peerInfo.addrs[1]], TestCodec) check switch1.isConnected(switch3.peerInfo.peerId) check switch3.isConnected(switch1.peerInfo.peerId) await connv6.writeLp("Hello!") check "Hello!" == string.fromBytes(await connv6.readLp(1024)) await connv6.close() await allFuturesThrowing( switch1.stop(), switch2.stop(), switch3.stop()) check not switch1.isConnected(switch2.peerInfo.peerId) check not switch2.isConnected(switch1.peerInfo.peerId) asyncTest "e2e dial dns4 address": var awaiters: seq[Future[void]] let resolver = MockResolver.new() resolver.ipResponses[("localhost", false)] = @["127.0.0.1"] resolver.ipResponses[("localhost", true)] = @["::1"] let srcSwitch = newStandardSwitch(nameResolver = resolver) destSwitch = newStandardSwitch() awaiters.add(await destSwitch.start()) awaiters.add(await srcSwitch.start()) await allFuturesThrowing(awaiters) let testAddr = MultiAddress.init("/dns4/localhost/").tryGet() & destSwitch.peerInfo.addrs[0][1].tryGet() await srcSwitch.connect(destSwitch.peerInfo.peerId, @[testAddr]) check srcSwitch.isConnected(destSwitch.peerInfo.peerId) await destSwitch.stop() await srcSwitch.stop() asyncTest "e2e dial dnsaddr with multiple transports": var awaiters: seq[Future[void]] let resolver = MockResolver.new() let wsAddress = MultiAddress.init("/ip4/127.0.0.1/tcp/0/ws").tryGet() tcpAddress = MultiAddress.init("/ip4/127.0.0.1/tcp/0").tryGet() srcTcpSwitch = newStandardSwitch(nameResolver = resolver) srcWsSwitch = SwitchBuilder.new() .withAddress(wsAddress) .withRng(crypto.newRng()) .withMplex() .withTransport(proc (upgr: Upgrade): Transport = WsTransport.new(upgr)) .withNameResolver(resolver) .withNoise() .build() destSwitch = SwitchBuilder.new() .withAddresses(@[tcpAddress, wsAddress]) .withRng(crypto.newRng()) .withMplex() .withTransport(proc (upgr: Upgrade): Transport = WsTransport.new(upgr)) .withTcpTransport() .withNoise() .build() awaiters.add(await destSwitch.start()) awaiters.add(await srcTcpSwitch.start()) awaiters.add(await srcWsSwitch.start()) await allFuturesThrowing(awaiters) resolver.txtResponses["_dnsaddr.test.io"] = @[ "dnsaddr=" & $destSwitch.peerInfo.addrs[0], "dnsaddr=" & $destSwitch.peerInfo.addrs[1] ] let testAddr = MultiAddress.init("/dnsaddr/test.io/").tryGet() await srcTcpSwitch.connect(destSwitch.peerInfo.peerId, @[testAddr]) check srcTcpSwitch.isConnected(destSwitch.peerInfo.peerId) await srcWsSwitch.connect(destSwitch.peerInfo.peerId, @[testAddr]) check srcWsSwitch.isConnected(destSwitch.peerInfo.peerId) await destSwitch.stop() await srcWsSwitch.stop() await srcTcpSwitch.stop()