# Copyright (c) 2020-2021 Status Research & Development GmbH # Licensed and distributed under either of # * MIT license (license terms in the root directory or at https://opensource.org/licenses/MIT). # * Apache v2 license (license terms in the root directory or at https://www.apache.org/licenses/LICENSE-2.0). # at your option. This file may not be copied, modified, or distributed except according to those terms. {.used.} import std/[hashes, options], chronos, chronicles, testutils/unittests, ./test_utils, ../../eth/utp/utp_router, ../../eth/utp/packets, ../../eth/keys proc hash*(x: UtpSocketKey[int]): Hash = var h = 0 h = h !& x.remoteAddress.hash h = h !& x.rcvId.hash !$h type TestError* = object of CatchableError procSuite "Utp router unit tests": let rng = newRng() let testSender = 1 let testSender2 = 2 let testBufferSize = 1024'u32 proc registerIncomingSocketCallback(serverSockets: AsyncQueue): AcceptConnectionCallback[int] = return ( proc(server: UtpRouter[int], client: UtpSocket[int]): Future[void] = serverSockets.addLast(client) ) proc testSend(to: int, bytes: seq[byte]): Future[void] = let f = newFuture[void]() f.complete() f proc initTestSnd(q: AsyncQueue[(Packet, int)]): SendCallback[int]= return ( proc (to: int, bytes: seq[byte]): Future[void] = let p = decodePacket(bytes).get() q.addLast((p, to)) ) template connectOutgoing( r: UtpRouter[int], remote: int, pq: AsyncQueue[(Packet, int)], initialRemoteSeq: uint16): (UtpSocket[int], Packet)= let connectFuture = router.connectTo(remote) let (initialPacket, sender) = await pq.get() check: initialPacket.header.pType == ST_SYN let responseAck = ackPacket( initialRemoteSeq, initialPacket.header.connectionId, initialPacket.header.seqNr, testBufferSize, 0 ) await router.processIncomingBytes(encodePacket(responseAck), remote) let outgoingSocket = await connectFuture (outgoingSocket.get(), initialPacket) asyncTest "Router should ingnore non utp packets": let q = newAsyncQueue[UtpSocket[int]]() let router = UtpRouter[int].new(registerIncomingSocketCallback(q), SocketConfig.init(), rng) router.sendCb = testSend await router.processIncomingBytes(@[1'u8, 2, 3], testSender) check: router.len() == 0 q.len() == 0 asyncTest "Router should create new incoming socket when receiving not known syn packet": let q = newAsyncQueue[UtpSocket[int]]() let router = UtpRouter[int].new(registerIncomingSocketCallback(q), SocketConfig.init(), rng) router.sendCb = testSend let encodedSyn = encodePacket(synPacket(10, 10, 10)) await router.processIncomingBytes(encodedSyn, testSender) check: router.len() == 1 asyncTest "Incoming connection should be closed when not receving data for period of time when configured": let q = newAsyncQueue[UtpSocket[int]]() let router = UtpRouter[int].new( registerIncomingSocketCallback(q), SocketConfig.init(incomingSocketReceiveTimeout = some(seconds(2))), rng ) router.sendCb = testSend let encodedSyn = encodePacket(synPacket(10, 10, 10)) await router.processIncomingBytes(encodedSyn, testSender) let socket = await q.get() check: router.len() == 1 # socket is not configured to be connected until receiving data not socket.isConnected() await waitUntil(proc (): bool = socket.isClosed()) check: router.len() == 0 asyncTest "Incoming connection should be in connected state when configured": let q = newAsyncQueue[UtpSocket[int]]() let router = UtpRouter[int].new( registerIncomingSocketCallback(q), SocketConfig.init(incomingSocketReceiveTimeout = none[Duration]()), rng ) router.sendCb = testSend let encodedSyn = encodePacket(synPacket(10, 10, 10)) await router.processIncomingBytes(encodedSyn, testSender) let socket = await q.get() check: router.len() == 1 socket.isConnected() # wait a while to trigger timeout and check that socket is still connected await sleepAsync(seconds(3)) check: router.len() == 1 socket.isConnected() asyncTest "Incoming connection should change state to connected when receiving data packet": let q = newAsyncQueue[UtpSocket[int]]() let pq = newAsyncQueue[(Packet, int)]() let router = UtpRouter[int].new( registerIncomingSocketCallback(q), SocketConfig.init(incomingSocketReceiveTimeout = some(seconds(3))), rng ) router.sendCb = initTestSnd(pq) let dataToSend = @[1'u8] let initSeq: uint16 = 10 let initConnId: uint16 = 10 let encodedSyn = encodePacket(synPacket(initSeq, initConnId, 10)) await router.processIncomingBytes(encodedSyn, testSender) let (initialPacket, _) = await pq.get() let socket = await q.get() check: router.len() == 1 # socket is not configured to be connected until receiving data not socket.isConnected() let encodedData = encodePacket( dataPacket( initSeq + 1, initConnId + 1, initialPacket.header.seqNr - 1, 10, dataToSend, 0 ) ) await router.processIncomingBytes(encodedData, testSender) await waitUntil(proc (): bool = socket.numOfEventsInEventQueue() == 0) check: socket.isConnected() asyncTest "Router should create new incoming socket when receiving same syn packet from diffrent sender": let q = newAsyncQueue[UtpSocket[int]]() let router = UtpRouter[int].new(registerIncomingSocketCallback(q), SocketConfig.init(), rng) router.sendCb = testSend let encodedSyn = encodePacket(synPacket(10, 10, 10)) await router.processIncomingBytes(encodedSyn, testSender) check: router.len() == 1 await router.processIncomingBytes(encodedSyn, testSender2) check: router.len() == 2 asyncTest "Router should ignore duplicated syn packet": let q = newAsyncQueue[UtpSocket[int]]() let router = UtpRouter[int].new(registerIncomingSocketCallback(q), SocketConfig.init(), rng) router.sendCb = testSend let encodedSyn = encodePacket(synPacket(10, 10, 10)) await router.processIncomingBytes(encodedSyn, testSender) check: router.len() == 1 await router.processIncomingBytes(encodedSyn, testSender) check: router.len() == 1 asyncTest "Router should clear closed incoming sockets": let q = newAsyncQueue[UtpSocket[int]]() let router = UtpRouter[int].new(registerIncomingSocketCallback(q), SocketConfig.init(), rng) router.sendCb = testSend let encodedSyn = encodePacket(synPacket(10, 10, 10)) await router.processIncomingBytes(encodedSyn, testSender) let socket = await q.get() check: router.len() == 1 await socket.destroyWait() check: not socket.isConnected() router.len() == 0 asyncTest "Router should connect to out going peer": let q = newAsyncQueue[UtpSocket[int]]() let pq = newAsyncQueue[(Packet, int)]() let router = UtpRouter[int].new(registerIncomingSocketCallback(q), SocketConfig.init(), rng) router.sendCb = initTestSnd(pq) let (outgoingSocket, initialSyn) = router.connectOutgoing(testSender2, pq, 30'u16) check: outgoingSocket.isConnected() router.len() == 1 asyncTest "Router should fail to connect to the same peer with the same connection id": let q = newAsyncQueue[UtpSocket[int]]() let pq = newAsyncQueue[(Packet, int)]() let initialRemoteSeq = 30'u16 let router = UtpRouter[int].new(registerIncomingSocketCallback(q), SocketConfig.init(), rng) router.sendCb = initTestSnd(pq) let requestedConnectionId = 1'u16 let connectFuture = router.connectTo(testSender2, requestedConnectionId) let (initialPacket, sender) = await pq.get() check: initialPacket.header.pType == ST_SYN # connection id of syn packet should be set to requested connection id initialPacket.header.connectionId == requestedConnectionId let responseAck = ackPacket( initialRemoteSeq, initialPacket.header.connectionId, initialPacket.header.seqNr, testBufferSize, 0 ) await router.processIncomingBytes(encodePacket(responseAck), testSender2) let outgoingSocket = await connectFuture check: outgoingSocket.get().isConnected() router.len() == 1 let duplicatedConnectionResult = await router.connectTo(testSender2, requestedConnectionId) check: duplicatedConnectionResult.isErr() duplicatedConnectionResult.error().kind == SocketAlreadyExists asyncTest "Router should fail connect when socket syn will not be acked": let q = newAsyncQueue[UtpSocket[int]]() let pq = newAsyncQueue[(Packet, int)]() let router = UtpRouter[int].new(registerIncomingSocketCallback(q), SocketConfig.init(milliseconds(500)), rng) router.sendCb = initTestSnd(pq) let connectFuture = router.connectTo(testSender2) let (initialPacket, sender) = await pq.get() check: initialPacket.header.pType == ST_SYN let connectResult = await connectFuture await waitUntil(proc (): bool = router.len() == 0) check: connectResult.isErr() connectResult.error().kind == ConnectionTimedOut router.len() == 0 asyncTest "Router should clear all resources when connection future is cancelled": let q = newAsyncQueue[UtpSocket[int]]() let pq = newAsyncQueue[(Packet, int)]() let router = UtpRouter[int].new(registerIncomingSocketCallback(q), SocketConfig.init(milliseconds(500)), rng) router.sendCb = initTestSnd(pq) let connectFuture = router.connectTo(testSender2) let (initialPacket, sender) = await pq.get() check: initialPacket.header.pType == ST_SYN router.len() == 1 await connectFuture.cancelAndWait() await waitUntil(proc (): bool = router.len() == 0) check: router.len() == 0 asyncTest "Router should clear all resources and handle error while sending syn packet": let q = newAsyncQueue[UtpSocket[int]]() let pq = newAsyncQueue[(Packet, int)]() let router = UtpRouter[int].new(registerIncomingSocketCallback(q), SocketConfig.init(milliseconds(500)), rng) router.sendCb = proc (to: int, data: seq[byte]): Future[void] = let f = newFuture[void]() f.fail(newException(TestError, "faile")) return f let connectResult = await router.connectTo(testSender2) await waitUntil(proc (): bool = router.len() == 0) check: connectResult.isErr() # even though send is failing we will just finish with timeout, connectResult.error().kind == ConnectionTimedOut router.len() == 0 asyncTest "Router should clear closed outgoing connections": let q = newAsyncQueue[UtpSocket[int]]() let pq = newAsyncQueue[(Packet, int)]() let router = UtpRouter[int].new(registerIncomingSocketCallback(q), SocketConfig.init(), rng) router.sendCb = initTestSnd(pq) let (outgoingSocket, initialSyn) = router.connectOutgoing(testSender2, pq, 30'u16) check: outgoingSocket.isConnected() router.len() == 1 await outgoingSocket.destroyWait() check: not outgoingSocket.isConnected() router.len() == 0 asyncTest "Router should respond with Reset when receiving packet for not known connection": let q = newAsyncQueue[UtpSocket[int]]() let pq = newAsyncQueue[(Packet, int)]() let router = UtpRouter[int].new(registerIncomingSocketCallback(q), SocketConfig.init(), rng) router.sendCb = initTestSnd(pq) let sndId = 10'u16 let dp = dataPacket(10'u16, sndId, 10'u16, 10'u32, @[1'u8], 0) await router.processIncomingBytes(encodePacket(dp), testSender2) let (packet, sender) = await pq.get() check: packet.header.pType == ST_RESET packet.header.connectionId == sndId sender == testSender2 asyncTest "Router close incoming connection which receives reset": let q = newAsyncQueue[UtpSocket[int]]() let router = UtpRouter[int].new(registerIncomingSocketCallback(q), SocketConfig.init(), rng) router.sendCb = testSend let recvId = 10'u16 let encodedSyn = encodePacket(synPacket(10, recvId, 10)) await router.processIncomingBytes(encodedSyn, testSender) check: router.len() == 1 let rstPacket = resetPacket(10, recvId, 10) await router.processIncomingBytes(encodePacket(rstPacket), testSender) await waitUntil(proc (): bool = router.len() == 0) check: router.len() == 0 asyncTest "Router close outgoing connection which receives reset": let q = newAsyncQueue[UtpSocket[int]]() let pq = newAsyncQueue[(Packet, int)]() let router = UtpRouter[int].new(registerIncomingSocketCallback(q), SocketConfig.init(), rng) router.sendCb = initTestSnd(pq) let (outgoingSocket, initialSyn) = router.connectOutgoing(testSender2, pq, 30'u16) check: router.len() == 1 # remote side sendId is syn.header.connectionId + 1 let rstPacket = resetPacket(10, initialSyn.header.connectionId + 1, 10) await router.processIncomingBytes(encodePacket(rstPacket), testSender2) await waitUntil(proc (): bool = router.len() == 0) check: router.len() == 0