# Copyright (c) 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. {.push raises: [Defect].} import std/[tables, options, hashes, sugar, math], chronos, chronicles, ./utp_router, ../keys logScope: topics = "utp" type # For now utp protocol is tied to udp transport, but ultimatly we would like to # abstract underlying transport to be able to run utp over udp, discoveryv5 or # maybe some test transport UtpProtocol* = ref object transport: DatagramTransport utpRouter: UtpRouter[TransportAddress] SendCallbackBuilder* = proc (d: DatagramTransport): SendCallback[TransportAddress] {.gcsafe, raises: [Defect].} # This should probably be defined in TransportAddress module, as hash function should # be consitent with equality function # in nim zero arrays always have hash equal to 0, irrespectively of array size, to # avoid clashes betweend different types of addresses, each type have mixed different # magic number proc hash(x: TransportAddress): Hash = var h: Hash = 0 case x.family of AddressFamily.None: h = h !& 31 !$h of AddressFamily.IPv4: h = h !& x.address_v4.hash h = h !& x.port.hash h = h !& 37 !$h of AddressFamily.IPv6: h = h !& x.address_v6.hash h = h !& x.port.hash h = h !& 41 !$h of AddressFamily.Unix: h = h !& x.address_un.hash h = h !& 43 !$h # Required to use socketKey as key in hashtable proc hash(x: UtpSocketKey[TransportAddress]): Hash = var h = 0 h = h !& x.remoteAddress.hash h = h !& x.rcvId.hash !$h proc processDatagram(transp: DatagramTransport, raddr: TransportAddress): Future[void] {.async.} = let router = getUserData[UtpRouter[TransportAddress]](transp) # TODO: should we use `peekMessage()` to avoid allocation? let buf = try: transp.getMessage() except TransportOsError as e: # This is likely to be local network connection issues. return await processIncomingBytes[TransportAddress](router, buf, raddr) proc initSendCallback(t: DatagramTransport): SendCallback[TransportAddress] = return ( proc (to: TransportAddress, data: seq[byte]): Future[void] = t.sendTo(to, data) ) proc new*( T: type UtpProtocol, acceptConnectionCb: AcceptConnectionCallback[TransportAddress], address: TransportAddress, socketConfig: SocketConfig = SocketConfig.init(), allowConnectionCb: AllowConnectionCallback[TransportAddress] = nil, sendCallbackBuilder: SendCallbackBuilder = nil, rng = newRng()): UtpProtocol {.raises: [Defect, CatchableError].} = doAssert(not(isNil(acceptConnectionCb))) let router = UtpRouter[TransportAddress].new( acceptConnectionCb, allowConnectionCb, socketConfig, rng ) let ta = newDatagramTransport(processDatagram, udata = router, local = address) if (sendCallbackBuilder == nil): router.sendCb = initSendCallback(ta) else: router.sendCb = sendCallbackBuilder(ta) UtpProtocol(transport: ta, utpRouter: router) proc shutdownWait*(p: UtpProtocol): Future[void] {.async.} = ## closes all managed utp sockets and then underlying transport await p.utpRouter.shutdownWait() await p.transport.closeWait() proc connectTo*(r: UtpProtocol, address: TransportAddress): Future[ConnectionResult[TransportAddress]] = return r.utpRouter.connectTo(address) proc connectTo*(r: UtpProtocol, address: TransportAddress, connectionId: uint16): Future[ConnectionResult[TransportAddress]] = return r.utpRouter.connectTo(address, connectionId) proc openSockets*(r: UtpProtocol): int = len(r.utpRouter)