import options, tables import chronos, chronicles, stew/byteutils import helpers import ../libp2p import ../libp2p/[daemon/daemonapi, varint, transports/wstransport, crypto/crypto, protocols/relay ] type DaemonPeerInfo = daemonapi.PeerInfo proc writeLp*(s: StreamTransport, msg: string | seq[byte]): Future[int] {.gcsafe.} = ## write lenght prefixed var buf = initVBuffer() buf.writeSeq(msg) buf.finish() result = s.write(buf.buffer) proc readLp*(s: StreamTransport): Future[seq[byte]] {.async, gcsafe.} = ## read length prefixed msg var size: uint length: int res: VarintResult[void] result = newSeq[byte](10) for i in 0.. 0.uint: await s.readExactly(addr result[0], int(size)) proc testPubSubDaemonPublish(gossip: bool = false, count: int = 1) {.async.} = var pubsubData = "TEST MESSAGE" var testTopic = "test-topic" var msgData = pubsubData.toBytes() var flags = {PSFloodSub} if gossip: flags = {PSGossipSub} let daemonNode = await newDaemonApi(flags) let daemonPeer = await daemonNode.identity() let nativeNode = newStandardSwitch(outTimeout = 5.minutes) let pubsub = if gossip: GossipSub.init( switch = nativeNode).PubSub else: FloodSub.init( switch = nativeNode).PubSub nativeNode.mount(pubsub) await nativeNode.start() await pubsub.start() let nativePeer = nativeNode.peerInfo var finished = false var times = 0 proc nativeHandler(topic: string, data: seq[byte]) {.async.} = let smsg = string.fromBytes(data) check smsg == pubsubData times.inc() if times >= count and not finished: finished = true await nativeNode.connect(daemonPeer.peer, daemonPeer.addresses) await sleepAsync(1.seconds) await daemonNode.connect(nativePeer.peerId, nativePeer.addrs) proc pubsubHandler(api: DaemonAPI, ticket: PubsubTicket, message: PubSubMessage): Future[bool] {.async.} = result = true # don't cancel subscription asyncDiscard daemonNode.pubsubSubscribe(testTopic, pubsubHandler) pubsub.subscribe(testTopic, nativeHandler) await sleepAsync(5.seconds) proc publisher() {.async.} = while not finished: await daemonNode.pubsubPublish(testTopic, msgData) await sleepAsync(500.millis) await wait(publisher(), 5.minutes) # should be plenty of time await nativeNode.stop() await pubsub.stop() await daemonNode.close() proc testPubSubNodePublish(gossip: bool = false, count: int = 1) {.async.} = var pubsubData = "TEST MESSAGE" var testTopic = "test-topic" var msgData = pubsubData.toBytes() var flags = {PSFloodSub} if gossip: flags = {PSGossipSub} let daemonNode = await newDaemonApi(flags) let daemonPeer = await daemonNode.identity() let nativeNode = newStandardSwitch(outTimeout = 5.minutes) let pubsub = if gossip: GossipSub.init( switch = nativeNode).PubSub else: FloodSub.init( switch = nativeNode).PubSub nativeNode.mount(pubsub) await nativeNode.start() await pubsub.start() let nativePeer = nativeNode.peerInfo await nativeNode.connect(daemonPeer.peer, daemonPeer.addresses) await sleepAsync(1.seconds) await daemonNode.connect(nativePeer.peerId, nativePeer.addrs) var times = 0 var finished = false proc pubsubHandler(api: DaemonAPI, ticket: PubsubTicket, message: PubSubMessage): Future[bool] {.async.} = let smsg = string.fromBytes(message.data) check smsg == pubsubData times.inc() if times >= count and not finished: finished = true result = true # don't cancel subscription discard await daemonNode.pubsubSubscribe(testTopic, pubsubHandler) proc nativeHandler(topic: string, data: seq[byte]) {.async.} = discard pubsub.subscribe(testTopic, nativeHandler) await sleepAsync(5.seconds) proc publisher() {.async.} = while not finished: discard await pubsub.publish(testTopic, msgData) await sleepAsync(500.millis) await wait(publisher(), 5.minutes) # should be plenty of time check finished await nativeNode.stop() await pubsub.stop() await daemonNode.close() suite "Interop": # TODO: chronos transports are leaking, # but those are tracked for both the daemon # and libp2p, so not sure which one it is, # need to investigate more # teardown: # checkTrackers() # TODO: this test is failing sometimes on windows # For some reason we receive EOF before test 4 sometimes asyncTest "native -> daemon multiple reads and writes": var protos = @["/test-stream"] let nativeNode = newStandardSwitch( secureManagers = [SecureProtocol.Noise], outTimeout = 5.minutes) await nativeNode.start() let daemonNode = await newDaemonApi() let daemonPeer = await daemonNode.identity() var testFuture = newFuture[void]("test.future") proc daemonHandler(api: DaemonAPI, stream: P2PStream) {.async.} = check string.fromBytes(await stream.transp.readLp()) == "test 1" discard await stream.transp.writeLp("test 2") check string.fromBytes(await stream.transp.readLp()) == "test 3" discard await stream.transp.writeLp("test 4") testFuture.complete() await daemonNode.addHandler(protos, daemonHandler) let conn = await nativeNode.dial(daemonPeer.peer, daemonPeer.addresses, protos[0]) await conn.writeLp("test 1") check "test 2" == string.fromBytes((await conn.readLp(1024))) await conn.writeLp("test 3") check "test 4" == string.fromBytes((await conn.readLp(1024))) await wait(testFuture, 10.secs) await nativeNode.stop() await daemonNode.close() await sleepAsync(1.seconds) asyncTest "native -> daemon connection": var protos = @["/test-stream"] var test = "TEST STRING" # We are preparing expect string, which should be prefixed with varint # length and do not have `\r\n` suffix, because we going to use # readLine(). var buffer = initVBuffer() buffer.writeSeq(test & "\r\n") buffer.finish() var expect = newString(len(buffer) - 2) copyMem(addr expect[0], addr buffer.buffer[0], len(expect)) let nativeNode = newStandardSwitch( secureManagers = [SecureProtocol.Noise], outTimeout = 5.minutes) await nativeNode.start() let daemonNode = await newDaemonApi() let daemonPeer = await daemonNode.identity() var testFuture = newFuture[string]("test.future") proc daemonHandler(api: DaemonAPI, stream: P2PStream) {.async.} = # We should perform `readLp()` instead of `readLine()`. `readLine()` # here reads actually length prefixed string. var line = await stream.transp.readLine() check line == expect testFuture.complete(line) await stream.close() await daemonNode.addHandler(protos, daemonHandler) let conn = await nativeNode.dial(daemonPeer.peer, daemonPeer.addresses, protos[0]) await conn.writeLp(test & "\r\n") check expect == (await wait(testFuture, 10.secs)) await conn.close() await nativeNode.stop() await daemonNode.close() asyncTest "daemon -> native connection": var protos = @["/test-stream"] var test = "TEST STRING" var testFuture = newFuture[string]("test.future") proc nativeHandler(conn: Connection, proto: string) {.async.} = var line = string.fromBytes(await conn.readLp(1024)) check line == test testFuture.complete(line) await conn.close() # custom proto var proto = new LPProtocol proto.handler = nativeHandler proto.codec = protos[0] # codec let nativeNode = newStandardSwitch( secureManagers = [SecureProtocol.Noise], outTimeout = 5.minutes) nativeNode.mount(proto) await nativeNode.start() let nativePeer = nativeNode.peerInfo let daemonNode = await newDaemonApi() await daemonNode.connect(nativePeer.peerId, nativePeer.addrs) var stream = await daemonNode.openStream(nativePeer.peerId, protos) discard await stream.transp.writeLp(test) check test == (await wait(testFuture, 10.secs)) await stream.close() await nativeNode.stop() await daemonNode.close() await sleepAsync(1.seconds) asyncTest "native -> daemon websocket connection": var protos = @["/test-stream"] var test = "TEST STRING" var testFuture = newFuture[string]("test.future") proc nativeHandler(conn: Connection, proto: string) {.async.} = var line = string.fromBytes(await conn.readLp(1024)) check line == test testFuture.complete(line) await conn.close() # custom proto var proto = new LPProtocol proto.handler = nativeHandler proto.codec = protos[0] # codec let wsAddress = MultiAddress.init("/ip4/127.0.0.1/tcp/0/ws").tryGet() let nativeNode = SwitchBuilder .new() .withAddress(wsAddress) .withRng(crypto.newRng()) .withMplex() .withTransport(proc (upgr: Upgrade): Transport = WsTransport.new(upgr)) .withNoise() .build() nativeNode.mount(proto) await nativeNode.start() let nativePeer = nativeNode.peerInfo let daemonNode = await newDaemonApi(hostAddresses = @[wsAddress]) await daemonNode.connect(nativePeer.peerId, nativePeer.addrs) var stream = await daemonNode.openStream(nativePeer.peerId, protos) discard await stream.transp.writeLp(test) check test == (await wait(testFuture, 10.secs)) await stream.close() await nativeNode.stop() await daemonNode.close() await sleepAsync(1.seconds) asyncTest "daemon -> native websocket connection": var protos = @["/test-stream"] var test = "TEST STRING" # We are preparing expect string, which should be prefixed with varint # length and do not have `\r\n` suffix, because we going to use # readLine(). var buffer = initVBuffer() buffer.writeSeq(test & "\r\n") buffer.finish() var expect = newString(len(buffer) - 2) copyMem(addr expect[0], addr buffer.buffer[0], len(expect)) let wsAddress = MultiAddress.init("/ip4/127.0.0.1/tcp/0/ws").tryGet() let nativeNode = SwitchBuilder .new() .withAddress(wsAddress) .withRng(crypto.newRng()) .withMplex() .withTransport(proc (upgr: Upgrade): Transport = WsTransport.new(upgr)) .withNoise() .build() await nativeNode.start() let daemonNode = await newDaemonApi(hostAddresses = @[wsAddress]) let daemonPeer = await daemonNode.identity() var testFuture = newFuture[string]("test.future") proc daemonHandler(api: DaemonAPI, stream: P2PStream) {.async.} = # We should perform `readLp()` instead of `readLine()`. `readLine()` # here reads actually length prefixed string. var line = await stream.transp.readLine() check line == expect testFuture.complete(line) await stream.close() await daemonNode.addHandler(protos, daemonHandler) let conn = await nativeNode.dial(daemonPeer.peer, daemonPeer.addresses, protos[0]) await conn.writeLp(test & "\r\n") check expect == (await wait(testFuture, 10.secs)) await conn.close() await nativeNode.stop() await daemonNode.close() asyncTest "daemon -> multiple reads and writes": var protos = @["/test-stream"] var testFuture = newFuture[void]("test.future") proc nativeHandler(conn: Connection, proto: string) {.async.} = check "test 1" == string.fromBytes(await conn.readLp(1024)) await conn.writeLp("test 2".toBytes()) check "test 3" == string.fromBytes(await conn.readLp(1024)) await conn.writeLp("test 4".toBytes()) testFuture.complete() await conn.close() # custom proto var proto = new LPProtocol proto.handler = nativeHandler proto.codec = protos[0] # codec let nativeNode = newStandardSwitch( secureManagers = [SecureProtocol.Noise], outTimeout = 5.minutes) nativeNode.mount(proto) await nativeNode.start() let nativePeer = nativeNode.peerInfo let daemonNode = await newDaemonApi() await daemonNode.connect(nativePeer.peerId, nativePeer.addrs) var stream = await daemonNode.openStream(nativePeer.peerId, protos) asyncDiscard stream.transp.writeLp("test 1") check "test 2" == string.fromBytes(await stream.transp.readLp()) asyncDiscard stream.transp.writeLp("test 3") check "test 4" == string.fromBytes(await stream.transp.readLp()) await wait(testFuture, 10.secs) await stream.close() await nativeNode.stop() await daemonNode.close() asyncTest "read write multiple": var protos = @["/test-stream"] var test = "TEST STRING" var count = 0 var testFuture = newFuture[int]("test.future") proc nativeHandler(conn: Connection, proto: string) {.async.} = while count < 10: var line = string.fromBytes(await conn.readLp(1024)) check line == test await conn.writeLp(test.toBytes()) count.inc() testFuture.complete(count) await conn.close() # custom proto var proto = new LPProtocol proto.handler = nativeHandler proto.codec = protos[0] # codec let nativeNode = newStandardSwitch( secureManagers = [SecureProtocol.Noise], outTimeout = 5.minutes) nativeNode.mount(proto) await nativeNode.start() let nativePeer = nativeNode.peerInfo let daemonNode = await newDaemonApi() await daemonNode.connect(nativePeer.peerId, nativePeer.addrs) var stream = await daemonNode.openStream(nativePeer.peerId, protos) var count2 = 0 while count2 < 10: discard await stream.transp.writeLp(test) let line = await stream.transp.readLp() check test == string.fromBytes(line) inc(count2) check 10 == (await wait(testFuture, 1.minutes)) await stream.close() await nativeNode.stop() await daemonNode.close() asyncTest "floodsub: daemon publish one": await testPubSubDaemonPublish() asyncTest "floodsub: daemon publish many": await testPubSubDaemonPublish(count = 10) asyncTest "gossipsub: daemon publish one": await testPubSubDaemonPublish(gossip = true) asyncTest "gossipsub: daemon publish many": await testPubSubDaemonPublish(gossip = true, count = 10) asyncTest "floodsub: node publish one": await testPubSubNodePublish() asyncTest "floodsub: node publish many": await testPubSubNodePublish(count = 10) asyncTest "gossipsub: node publish one": await testPubSubNodePublish(gossip = true) asyncTest "gossipsub: node publish many": await testPubSubNodePublish(gossip = true, count = 10) asyncTest "NativeSrc -> NativeRelay -> DaemonDst": proc daemonHandler(api: DaemonAPI, stream: P2PStream) {.async.} = check "line1" == string.fromBytes(await stream.transp.readLp()) discard await stream.transp.writeLp("line2") check "line3" == string.fromBytes(await stream.transp.readLp()) discard await stream.transp.writeLp("line4") await stream.close() let maSrc = MultiAddress.init("/ip4/0.0.0.0/tcp/0").tryGet() maRel = MultiAddress.init("/ip4/0.0.0.0/tcp/0").tryGet() src = SwitchBuilder.new() .withRng(crypto.newRng()) .withAddresses(@[ maSrc ]) .withTcpTransport() .withMplex() .withNoise() .withRelayTransport(false) .build() rel = SwitchBuilder.new() .withRng(crypto.newRng()) .withAddresses(@[ maRel ]) .withTcpTransport() .withMplex() .withNoise() .withRelayTransport(true) .build() await src.start() await rel.start() let daemonNode = await newDaemonApi() let daemonPeer = await daemonNode.identity() let maStr = $rel.peerInfo.addrs[0] & "/p2p/" & $rel.peerInfo.peerId & "/p2p-circuit/p2p/" & $daemonPeer.peer let maddr = MultiAddress.init(maStr).tryGet() await src.connect(rel.peerInfo.peerId, rel.peerInfo.addrs) await rel.connect(daemonPeer.peer, daemonPeer.addresses) await daemonNode.addHandler(@[ "/testCustom" ], daemonHandler) let conn = await src.dial(daemonPeer.peer, @[ maddr ], @[ "/testCustom" ]) await conn.writeLp("line1") check string.fromBytes(await conn.readLp(1024)) == "line2" await conn.writeLp("line3") check string.fromBytes(await conn.readLp(1024)) == "line4" await allFutures(src.stop(), rel.stop()) await daemonNode.close() asyncTest "DaemonSrc -> NativeRelay -> NativeDst": proc customHandler(conn: Connection, proto: string) {.async.} = check "line1" == string.fromBytes(await conn.readLp(1024)) await conn.writeLp("line2") check "line3" == string.fromBytes(await conn.readLp(1024)) await conn.writeLp("line4") await conn.close() let protos = @[ "/customProto", RelayCodec ] var customProto = new LPProtocol customProto.handler = customHandler customProto.codec = protos[0] let maRel = MultiAddress.init("/ip4/0.0.0.0/tcp/0").tryGet() maDst = MultiAddress.init("/ip4/0.0.0.0/tcp/0").tryGet() rel = SwitchBuilder.new() .withRng(crypto.newRng()) .withAddresses(@[ maRel ]) .withTcpTransport() .withMplex() .withNoise() .withRelayTransport(true) .build() dst = SwitchBuilder.new() .withRng(crypto.newRng()) .withAddresses(@[ maDst ]) .withTcpTransport() .withMplex() .withNoise() .withRelayTransport(false) .build() dst.mount(customProto) await rel.start() await dst.start() let daemonNode = await newDaemonApi() let daemonPeer = await daemonNode.identity() let maStr = $rel.peerInfo.addrs[0] & "/p2p/" & $rel.peerInfo.peerId & "/p2p-circuit/p2p/" & $dst.peerInfo.peerId let maddr = MultiAddress.init(maStr).tryGet() await daemonNode.connect(rel.peerInfo.peerId, rel.peerInfo.addrs) await rel.connect(dst.peerInfo.peerId, dst.peerInfo.addrs) await daemonNode.connect(dst.peerInfo.peerId, @[ maddr ]) var stream = await daemonNode.openStream(dst.peerInfo.peerId, protos) discard await stream.transp.writeLp("line1") check string.fromBytes(await stream.transp.readLp()) == "line2" discard await stream.transp.writeLp("line3") check string.fromBytes(await stream.transp.readLp()) == "line4" await allFutures(dst.stop(), rel.stop()) await daemonNode.close() asyncTest "NativeSrc -> DaemonRelay -> NativeDst": proc customHandler(conn: Connection, proto: string) {.async.} = check "line1" == string.fromBytes(await conn.readLp(1024)) await conn.writeLp("line2") check "line3" == string.fromBytes(await conn.readLp(1024)) await conn.writeLp("line4") await conn.close() let protos = @[ "/customProto", RelayCodec ] var customProto = new LPProtocol customProto.handler = customHandler customProto.codec = protos[0] let maSrc = MultiAddress.init("/ip4/0.0.0.0/tcp/0").tryGet() maDst = MultiAddress.init("/ip4/0.0.0.0/tcp/0").tryGet() src = SwitchBuilder.new() .withRng(crypto.newRng()) .withAddresses(@[ maSrc ]) .withTcpTransport() .withMplex() .withNoise() .withRelayTransport(false) .build() dst = SwitchBuilder.new() .withRng(crypto.newRng()) .withAddresses(@[ maDst ]) .withTcpTransport() .withMplex() .withNoise() .withRelayTransport(false) .build() dst.mount(customProto) await src.start() await dst.start() let daemonNode = await newDaemonApi({RelayHop}) let daemonPeer = await daemonNode.identity() let maStr = $daemonPeer.addresses[0] & "/p2p/" & $daemonPeer.peer & "/p2p-circuit/p2p/" & $dst.peerInfo.peerId let maddr = MultiAddress.init(maStr).tryGet() await src.connect(daemonPeer.peer, daemonPeer.addresses) await daemonNode.connect(dst.peerInfo.peerId, dst.peerInfo.addrs) let conn = await src.dial(dst.peerInfo.peerId, @[ maddr ], protos[0]) await conn.writeLp("line1") check string.fromBytes(await conn.readLp(1024)) == "line2" await conn.writeLp("line3") check string.fromBytes(await conn.readLp(1024)) == "line4" await allFutures(src.stop(), dst.stop()) await daemonNode.close()