nim-libp2p/libp2p/protocols/connectivity/relay/client.nim

# Nim-LibP2P
# Copyright (c) 2022 Status Research & Development GmbH
# Licensed under either of
#  * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE))
#  * MIT license ([LICENSE-MIT](LICENSE-MIT))
# at your option.
# This file may not be copied, modified, or distributed except according to
# those terms.

when (NimMajor, NimMinor) < (1, 4):
  {.push raises: [Defect].}
else:
  {.push raises: [].}

import times, options

import chronos, chronicles

import ./relay,
       ./messages,
       ./rconn,
       ./utils,
       ../../../peerinfo,
       ../../../switch,
       ../../../multiaddress,
       ../../../stream/connection


logScope:
  topics = "libp2p relay relay-client"

const RelayClientMsgSize = 4096

type
  RelayClientError* = object of LPError
  ReservationError* = object of RelayClientError
  RelayV1DialError* = object of RelayClientError
  RelayV2DialError* = object of RelayClientError
  RelayClientAddConn* = proc(conn: Connection,
                        duration: uint32,
                        data: uint64): Future[void] {.gcsafe, raises: [Defect].}
  RelayClient* = ref object of Relay
    onNewConnection*: RelayClientAddConn
    canHop: bool

  Rsvp* = object
    expire*: uint64           # required, Unix expiration time (UTC)
    addrs*: seq[MultiAddress] # relay address for reserving peer
    voucher*: Option[Voucher] # optional, reservation voucher
    limitDuration*: uint32    # seconds
    limitData*: uint64        # bytes

proc sendStopError(conn: Connection, code: StatusV2) {.async.} =
  trace "send stop status", status = $code & " (" & $ord(code) & ")"
  let msg = StopMessage(msgType: StopMessageType.Status, status: some(code))
  await conn.writeLp(encode(msg).buffer)

proc handleRelayedConnect(cl: RelayClient, conn: Connection, msg: StopMessage) {.async.} =
  if msg.peer.isNone():
    await sendStopError(conn, MalformedMessage)
    return
  let
    # TODO: check the go version to see in which way this could fail
    # it's unclear in the spec
    src = msg.peer.get()
    limitDuration = msg.limit.duration
    limitData = msg.limit.data
    msg = StopMessage(
      msgType: StopMessageType.Status,
      status: some(Ok))
    pb = encode(msg)

  trace "incoming relay connection", src

  if cl.onNewConnection == nil:
    await sendStopError(conn, StatusV2.ConnectionFailed)
    await conn.close()
    return
  await conn.writeLp(pb.buffer)
  # This sound redundant but the callback could, in theory, be set to nil during
  # conn.writeLp so it's safer to double check
  if cl.onNewConnection != nil: await cl.onNewConnection(conn, limitDuration, limitData)
  else: await conn.close()

proc reserve*(cl: RelayClient,
              peerId: PeerId,
              addrs: seq[MultiAddress] = @[]): Future[Rsvp] {.async.} =
  let conn = await cl.switch.dial(peerId, addrs, RelayV2HopCodec)
  defer: await conn.close()
  let
    pb = encode(HopMessage(msgType: HopMessageType.Reserve))
    msg = try:
      await conn.writeLp(pb.buffer)
      HopMessage.decode(await conn.readLp(RelayClientMsgSize)).get()
    except CancelledError as exc:
      raise exc
    except CatchableError as exc:
      trace "error writing or reading reservation message", exc=exc.msg
      raise newException(ReservationError, exc.msg)

  if msg.msgType != HopMessageType.Status:
    raise newException(ReservationError, "Unexpected relay response type")
  if msg.status.get(UnexpectedMessage) != Ok:
    raise newException(ReservationError, "Reservation failed")
  if msg.reservation.isNone():
    raise newException(ReservationError, "Missing reservation information")

  let reservation = msg.reservation.get()
  if reservation.expire > int64.high().uint64 or
     now().utc > reservation.expire.int64.fromUnix.utc:
    raise newException(ReservationError, "Bad expiration date")
  result.expire = reservation.expire
  result.addrs = reservation.addrs

  if reservation.svoucher.isSome():
    let svoucher = SignedVoucher.decode(reservation.svoucher.get())
    if svoucher.isErr() or svoucher.get().data.relayPeerId != peerId:
      raise newException(ReservationError, "Invalid voucher")
    result.voucher = some(svoucher.get().data)

  result.limitDuration = msg.limit.duration
  result.limitData = msg.limit.data

proc dialPeerV1*(
    cl: RelayClient,
    conn: Connection,
    dstPeerId: PeerId,
    dstAddrs: seq[MultiAddress]): Future[Connection] {.async.} =
  var
    msg = RelayMessage(
      msgType: some(RelayType.Hop),
      srcPeer: some(RelayPeer(peerId: cl.switch.peerInfo.peerId, addrs: cl.switch.peerInfo.addrs)),
      dstPeer: some(RelayPeer(peerId: dstPeerId, addrs: dstAddrs)))
    pb = encode(msg)

  trace "Dial peer", msgSend=msg

  try:
    await conn.writeLp(pb.buffer)
  except CancelledError as exc:
    raise exc
  except CatchableError as exc:
    trace "error writing hop request", exc=exc.msg
    raise exc

  let msgRcvFromRelayOpt = try:
    RelayMessage.decode(await conn.readLp(RelayClientMsgSize))
  except CancelledError as exc:
    raise exc
  except CatchableError as exc:
    trace "error reading stop response", exc=exc.msg
    await sendStatus(conn, StatusV1.HopCantOpenDstStream)
    raise exc

  try:
    if msgRcvFromRelayOpt.isNone:
      raise newException(RelayV1DialError, "Hop can't open destination stream")
    let msgRcvFromRelay = msgRcvFromRelayOpt.get()
    if msgRcvFromRelay.msgType.isNone or msgRcvFromRelay.msgType.get() != RelayType.Status:
      raise newException(RelayV1DialError, "Hop can't open destination stream: wrong message type")
    if msgRcvFromRelay.status.isNone or msgRcvFromRelay.status.get() != StatusV1.Success:
      raise newException(RelayV1DialError, "Hop can't open destination stream: status failed")
  except RelayV1DialError as exc:
    await sendStatus(conn, StatusV1.HopCantOpenDstStream)
    raise exc
  result = conn

proc dialPeerV2*(
    cl: RelayClient,
    conn: RelayConnection,
    dstPeerId: PeerId,
    dstAddrs: seq[MultiAddress]): Future[Connection] {.async.} =
  let
    p = Peer(peerId: dstPeerId, addrs: dstAddrs)
    pb = encode(HopMessage(msgType: HopMessageType.Connect, peer: some(p)))

  trace "Dial peer", p

  let msgRcvFromRelay = try:
    await conn.writeLp(pb.buffer)
    HopMessage.decode(await conn.readLp(RelayClientMsgSize)).get()
  except CancelledError as exc:
    raise exc
  except CatchableError as exc:
    trace "error reading stop response", exc=exc.msg
    raise newException(RelayV2DialError, exc.msg)

  if msgRcvFromRelay.msgType != HopMessageType.Status:
    raise newException(RelayV2DialError, "Unexpected stop response")
  if msgRcvFromRelay.status.get(UnexpectedMessage) != Ok:
    trace "Relay stop failed", msg = msgRcvFromRelay.status.get()
    raise newException(RelayV2DialError, "Relay stop failure")
  conn.limitDuration = msgRcvFromRelay.limit.duration
  conn.limitData = msgRcvFromRelay.limit.data
  return conn

proc handleStopStreamV2(cl: RelayClient, conn: Connection) {.async, gcsafe.} =
  let msgOpt = StopMessage.decode(await conn.readLp(RelayClientMsgSize))
  if msgOpt.isNone():
    await sendHopStatus(conn, MalformedMessage)
    return
  trace "client circuit relay v2 handle stream", msg = msgOpt.get()
  let msg = msgOpt.get()

  if msg.msgType == StopMessageType.Connect:
    await cl.handleRelayedConnect(conn, msg)
  else:
    trace "Unexpected client / relayv2 handshake", msgType=msg.msgType
    await sendStopError(conn, MalformedMessage)

proc handleStop(cl: RelayClient, conn: Connection, msg: RelayMessage) {.async, gcsafe.} =
  if msg.srcPeer.isNone:
    await sendStatus(conn, StatusV1.StopSrcMultiaddrInvalid)
    return
  let src = msg.srcPeer.get()

  if msg.dstPeer.isNone:
    await sendStatus(conn, StatusV1.StopDstMultiaddrInvalid)
    return

  let dst = msg.dstPeer.get()
  if dst.peerId != cl.switch.peerInfo.peerId:
    await sendStatus(conn, StatusV1.StopDstMultiaddrInvalid)
    return

  trace "get a relay connection", src, conn

  if cl.onNewConnection == nil:
    await sendStatus(conn, StatusV1.StopRelayRefused)
    await conn.close()
    return
  await sendStatus(conn, StatusV1.Success)
  # This sound redundant but the callback could, in theory, be set to nil during
  # sendStatus(Success) so it's safer to double check
  if cl.onNewConnection != nil: await cl.onNewConnection(conn, 0, 0)
  else: await conn.close()

proc handleStreamV1(cl: RelayClient, conn: Connection) {.async, gcsafe.} =
  let msgOpt = RelayMessage.decode(await conn.readLp(RelayClientMsgSize))
  if msgOpt.isNone:
    await sendStatus(conn, StatusV1.MalformedMessage)
    return
  trace "client circuit relay v1 handle stream", msg = msgOpt.get()
  let msg = msgOpt.get()
  case msg.msgType.get:
    of RelayType.Hop:
      if cl.canHop: await cl.handleHop(conn, msg)
      else: await sendStatus(conn, StatusV1.HopCantSpeakRelay)
    of RelayType.Stop: await cl.handleStop(conn, msg)
    of RelayType.CanHop:
      if cl.canHop: await sendStatus(conn, StatusV1.Success)
      else: await sendStatus(conn, StatusV1.HopCantSpeakRelay)
    else:
      trace "Unexpected relay handshake", msgType=msg.msgType
      await sendStatus(conn, StatusV1.MalformedMessage)

proc new*(T: typedesc[RelayClient], canHop: bool = false,
     reservationTTL: times.Duration = DefaultReservationTTL,
     limitDuration: uint32 = DefaultLimitDuration,
     limitData: uint64 = DefaultLimitData,
     heartbeatSleepTime: uint32 = DefaultHeartbeatSleepTime,
     maxCircuit: int = MaxCircuit,
     maxCircuitPerPeer: int = MaxCircuitPerPeer,
     msgSize: int = RelayClientMsgSize,
     circuitRelayV1: bool = false): T =

  let cl = T(canHop: canHop,
             reservationTTL: reservationTTL,
             limit: Limit(duration: limitDuration, data: limitData),
             heartbeatSleepTime: heartbeatSleepTime,
             maxCircuit: maxCircuit,
             maxCircuitPerPeer: maxCircuitPerPeer,
             msgSize: msgSize,
             isCircuitRelayV1: circuitRelayV1)
  proc handleStream(conn: Connection, proto: string) {.async, gcsafe.} =
    try:
      case proto:
      of RelayV1Codec: await cl.handleStreamV1(conn)
      of RelayV2StopCodec: await cl.handleStopStreamV2(conn)
      of RelayV2HopCodec: await cl.handleHopStreamV2(conn)
    except CancelledError as exc:
      raise exc
    except CatchableError as exc:
      trace "exception in client handler", exc = exc.msg, conn
    finally:
      trace "exiting client handler", conn
      await conn.close()

  cl.handler = handleStream
  cl.codecs = if cl.canHop:
                @[RelayV1Codec, RelayV2HopCodec, RelayV2StopCodec]
              else:
                @[RelayV1Codec, RelayV2StopCodec]
  cl
Circuit relay v2 (#717) 2022-08-01 12:31:22 +00:00			`# Nim-LibP2P`
			`# Copyright (c) 2022 Status Research & Development GmbH`
			`# Licensed under either of`
			`# * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE))`
			`# * MIT license ([LICENSE-MIT](LICENSE-MIT))`
			`# at your option.`
			`# This file may not be copied, modified, or distributed except according to`
			`# those terms.`

make it more Nim 1.4+ compatible (#742) 2022-08-03 11:33:19 +00:00			`when (NimMajor, NimMinor) < (1, 4):`
			`{.push raises: [Defect].}`
			`else:`
			`{.push raises: [].}`
Circuit relay v2 (#717) 2022-08-01 12:31:22 +00:00
			`import times, options`

			`import chronos, chronicles`

			`import ./relay,`
			`./messages,`
			`./rconn,`
			`./utils,`
Move relay & autonat to connectivity folder (#769) 2022-09-15 07:43:40 +00:00			`../../../peerinfo,`
			`../../../switch,`
			`../../../multiaddress,`
			`../../../stream/connection`
Circuit relay v2 (#717) 2022-08-01 12:31:22 +00:00

			`logScope:`
			`topics = "libp2p relay relay-client"`

			`const RelayClientMsgSize = 4096`

			`type`
			`RelayClientError* = object of LPError`
			`ReservationError* = object of RelayClientError`
			`RelayV1DialError* = object of RelayClientError`
			`RelayV2DialError* = object of RelayClientError`
			`RelayClientAddConn* = proc(conn: Connection,`
			`duration: uint32,`
			`data: uint64): Future[void] {.gcsafe, raises: [Defect].}`
			`RelayClient* = ref object of Relay`
			`onNewConnection*: RelayClientAddConn`
			`canHop: bool`

			`Rsvp* = object`
			`expire*: uint64 # required, Unix expiration time (UTC)`
			`addrs*: seq[MultiAddress] # relay address for reserving peer`
			`voucher*: Option[Voucher] # optional, reservation voucher`
			`limitDuration*: uint32 # seconds`
			`limitData*: uint64 # bytes`

			`proc sendStopError(conn: Connection, code: StatusV2) {.async.} =`
			`trace "send stop status", status = $code & " (" & $ord(code) & ")"`
			`let msg = StopMessage(msgType: StopMessageType.Status, status: some(code))`
			`await conn.writeLp(encode(msg).buffer)`

			`proc handleRelayedConnect(cl: RelayClient, conn: Connection, msg: StopMessage) {.async.} =`
			`if msg.peer.isNone():`
			`await sendStopError(conn, MalformedMessage)`
			`return`
			`let`
			`# TODO: check the go version to see in which way this could fail`
			`# it's unclear in the spec`
			`src = msg.peer.get()`
			`limitDuration = msg.limit.duration`
			`limitData = msg.limit.data`
			`msg = StopMessage(`
			`msgType: StopMessageType.Status,`
			`status: some(Ok))`
			`pb = encode(msg)`

			`trace "incoming relay connection", src`

			`if cl.onNewConnection == nil:`
			`await sendStopError(conn, StatusV2.ConnectionFailed)`
			`await conn.close()`
			`return`
			`await conn.writeLp(pb.buffer)`
			`# This sound redundant but the callback could, in theory, be set to nil during`
			`# conn.writeLp so it's safer to double check`
			`if cl.onNewConnection != nil: await cl.onNewConnection(conn, limitDuration, limitData)`
			`else: await conn.close()`

			`proc reserve*(cl: RelayClient,`
			`peerId: PeerId,`
			`addrs: seq[MultiAddress] = @[]): Future[Rsvp] {.async.} =`
			`let conn = await cl.switch.dial(peerId, addrs, RelayV2HopCodec)`
			`defer: await conn.close()`
			`let`
			`pb = encode(HopMessage(msgType: HopMessageType.Reserve))`
			`msg = try:`
			`await conn.writeLp(pb.buffer)`
			`HopMessage.decode(await conn.readLp(RelayClientMsgSize)).get()`
			`except CancelledError as exc:`
			`raise exc`
			`except CatchableError as exc:`
			`trace "error writing or reading reservation message", exc=exc.msg`
			`raise newException(ReservationError, exc.msg)`

			`if msg.msgType != HopMessageType.Status:`
			`raise newException(ReservationError, "Unexpected relay response type")`
			`if msg.status.get(UnexpectedMessage) != Ok:`
			`raise newException(ReservationError, "Reservation failed")`
			`if msg.reservation.isNone():`
			`raise newException(ReservationError, "Missing reservation information")`

			`let reservation = msg.reservation.get()`
			`if reservation.expire > int64.high().uint64 or`
			`now().utc > reservation.expire.int64.fromUnix.utc:`
			`raise newException(ReservationError, "Bad expiration date")`
			`result.expire = reservation.expire`
			`result.addrs = reservation.addrs`

			`if reservation.svoucher.isSome():`
			`let svoucher = SignedVoucher.decode(reservation.svoucher.get())`
			`if svoucher.isErr() or svoucher.get().data.relayPeerId != peerId:`
			`raise newException(ReservationError, "Invalid voucher")`
			`result.voucher = some(svoucher.get().data)`

			`result.limitDuration = msg.limit.duration`
			`result.limitData = msg.limit.data`

			`proc dialPeerV1*(`
			`cl: RelayClient,`
			`conn: Connection,`
			`dstPeerId: PeerId,`
			`dstAddrs: seq[MultiAddress]): Future[Connection] {.async.} =`
			`var`
			`msg = RelayMessage(`
			`msgType: some(RelayType.Hop),`
			`srcPeer: some(RelayPeer(peerId: cl.switch.peerInfo.peerId, addrs: cl.switch.peerInfo.addrs)),`
			`dstPeer: some(RelayPeer(peerId: dstPeerId, addrs: dstAddrs)))`
			`pb = encode(msg)`

			`trace "Dial peer", msgSend=msg`

			`try:`
			`await conn.writeLp(pb.buffer)`
			`except CancelledError as exc:`
			`raise exc`
			`except CatchableError as exc:`
			`trace "error writing hop request", exc=exc.msg`
			`raise exc`

			`let msgRcvFromRelayOpt = try:`
			`RelayMessage.decode(await conn.readLp(RelayClientMsgSize))`
			`except CancelledError as exc:`
			`raise exc`
			`except CatchableError as exc:`
			`trace "error reading stop response", exc=exc.msg`
			`await sendStatus(conn, StatusV1.HopCantOpenDstStream)`
			`raise exc`

			`try:`
			`if msgRcvFromRelayOpt.isNone:`
			`raise newException(RelayV1DialError, "Hop can't open destination stream")`
			`let msgRcvFromRelay = msgRcvFromRelayOpt.get()`
			`if msgRcvFromRelay.msgType.isNone or msgRcvFromRelay.msgType.get() != RelayType.Status:`
			`raise newException(RelayV1DialError, "Hop can't open destination stream: wrong message type")`
			`if msgRcvFromRelay.status.isNone or msgRcvFromRelay.status.get() != StatusV1.Success:`
			`raise newException(RelayV1DialError, "Hop can't open destination stream: status failed")`
			`except RelayV1DialError as exc:`
			`await sendStatus(conn, StatusV1.HopCantOpenDstStream)`
			`raise exc`
			`result = conn`

			`proc dialPeerV2*(`
			`cl: RelayClient,`
			`conn: RelayConnection,`
			`dstPeerId: PeerId,`
			`dstAddrs: seq[MultiAddress]): Future[Connection] {.async.} =`
			`let`
			`p = Peer(peerId: dstPeerId, addrs: dstAddrs)`
			`pb = encode(HopMessage(msgType: HopMessageType.Connect, peer: some(p)))`

			`trace "Dial peer", p`

			`let msgRcvFromRelay = try:`
			`await conn.writeLp(pb.buffer)`
			`HopMessage.decode(await conn.readLp(RelayClientMsgSize)).get()`
			`except CancelledError as exc:`
			`raise exc`
			`except CatchableError as exc:`
			`trace "error reading stop response", exc=exc.msg`
			`raise newException(RelayV2DialError, exc.msg)`

			`if msgRcvFromRelay.msgType != HopMessageType.Status:`
			`raise newException(RelayV2DialError, "Unexpected stop response")`
			`if msgRcvFromRelay.status.get(UnexpectedMessage) != Ok:`
			`trace "Relay stop failed", msg = msgRcvFromRelay.status.get()`
			`raise newException(RelayV2DialError, "Relay stop failure")`
			`conn.limitDuration = msgRcvFromRelay.limit.duration`
			`conn.limitData = msgRcvFromRelay.limit.data`
			`return conn`

			`proc handleStopStreamV2(cl: RelayClient, conn: Connection) {.async, gcsafe.} =`
			`let msgOpt = StopMessage.decode(await conn.readLp(RelayClientMsgSize))`
			`if msgOpt.isNone():`
			`await sendHopStatus(conn, MalformedMessage)`
			`return`
			`trace "client circuit relay v2 handle stream", msg = msgOpt.get()`
			`let msg = msgOpt.get()`

			`if msg.msgType == StopMessageType.Connect:`
			`await cl.handleRelayedConnect(conn, msg)`
			`else:`
			`trace "Unexpected client / relayv2 handshake", msgType=msg.msgType`
			`await sendStopError(conn, MalformedMessage)`

			`proc handleStop(cl: RelayClient, conn: Connection, msg: RelayMessage) {.async, gcsafe.} =`
			`if msg.srcPeer.isNone:`
			`await sendStatus(conn, StatusV1.StopSrcMultiaddrInvalid)`
			`return`
			`let src = msg.srcPeer.get()`

			`if msg.dstPeer.isNone:`
			`await sendStatus(conn, StatusV1.StopDstMultiaddrInvalid)`
			`return`

			`let dst = msg.dstPeer.get()`
			`if dst.peerId != cl.switch.peerInfo.peerId:`
			`await sendStatus(conn, StatusV1.StopDstMultiaddrInvalid)`
			`return`

			`trace "get a relay connection", src, conn`

			`if cl.onNewConnection == nil:`
			`await sendStatus(conn, StatusV1.StopRelayRefused)`
			`await conn.close()`
			`return`
			`await sendStatus(conn, StatusV1.Success)`
			`# This sound redundant but the callback could, in theory, be set to nil during`
			`# sendStatus(Success) so it's safer to double check`
			`if cl.onNewConnection != nil: await cl.onNewConnection(conn, 0, 0)`
			`else: await conn.close()`

			`proc handleStreamV1(cl: RelayClient, conn: Connection) {.async, gcsafe.} =`
			`let msgOpt = RelayMessage.decode(await conn.readLp(RelayClientMsgSize))`
			`if msgOpt.isNone:`
			`await sendStatus(conn, StatusV1.MalformedMessage)`
			`return`
			`trace "client circuit relay v1 handle stream", msg = msgOpt.get()`
			`let msg = msgOpt.get()`
			`case msg.msgType.get:`
			`of RelayType.Hop:`
			`if cl.canHop: await cl.handleHop(conn, msg)`
			`else: await sendStatus(conn, StatusV1.HopCantSpeakRelay)`
			`of RelayType.Stop: await cl.handleStop(conn, msg)`
			`of RelayType.CanHop:`
			`if cl.canHop: await sendStatus(conn, StatusV1.Success)`
			`else: await sendStatus(conn, StatusV1.HopCantSpeakRelay)`
			`else:`
			`trace "Unexpected relay handshake", msgType=msg.msgType`
			`await sendStatus(conn, StatusV1.MalformedMessage)`

			`proc new*(T: typedesc[RelayClient], canHop: bool = false,`
			`reservationTTL: times.Duration = DefaultReservationTTL,`
			`limitDuration: uint32 = DefaultLimitDuration,`
			`limitData: uint64 = DefaultLimitData,`
			`heartbeatSleepTime: uint32 = DefaultHeartbeatSleepTime,`
			`maxCircuit: int = MaxCircuit,`
			`maxCircuitPerPeer: int = MaxCircuitPerPeer,`
			`msgSize: int = RelayClientMsgSize,`
			`circuitRelayV1: bool = false): T =`

			`let cl = T(canHop: canHop,`
			`reservationTTL: reservationTTL,`
			`limit: Limit(duration: limitDuration, data: limitData),`
			`heartbeatSleepTime: heartbeatSleepTime,`
			`maxCircuit: maxCircuit,`
			`maxCircuitPerPeer: maxCircuitPerPeer,`
			`msgSize: msgSize,`
			`isCircuitRelayV1: circuitRelayV1)`
			`proc handleStream(conn: Connection, proto: string) {.async, gcsafe.} =`
			`try:`
			`case proto:`
			`of RelayV1Codec: await cl.handleStreamV1(conn)`
			`of RelayV2StopCodec: await cl.handleStopStreamV2(conn)`
			`of RelayV2HopCodec: await cl.handleHopStreamV2(conn)`
			`except CancelledError as exc:`
			`raise exc`
			`except CatchableError as exc:`
			`trace "exception in client handler", exc = exc.msg, conn`
			`finally:`
			`trace "exiting client handler", conn`
			`await conn.close()`

			`cl.handler = handleStream`
			`cl.codecs = if cl.canHop:`
			`@[RelayV1Codec, RelayV2HopCodec, RelayV2StopCodec]`
			`else:`
			`@[RelayV1Codec, RelayV2StopCodec]`
			`cl`