nim-eth/eth/utp/utp_discv5_protocol.nim

152 lines
4.9 KiB
Nim

# Copyright (c) 2021-2022 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/[hashes, sugar],
chronos, chronicles,
../p2p/discoveryv5/[protocol, messages_encoding, encoding],
./utp_router,
../keys
export utp_router, protocol
logScope:
topics = "eth utp utp_discv5_protocol"
type
NodeAddress* = object
nodeId*: NodeId
address*: Address
UtpDiscv5Protocol* = ref object of TalkProtocol
prot: protocol.Protocol
router: UtpRouter[NodeAddress]
proc init*(T: type NodeAddress, nodeId: NodeId, address: Address): NodeAddress =
NodeAddress(nodeId: nodeId, address: address)
proc init*(T: type NodeAddress, node: Node): Option[NodeAddress] =
node.address.map((address: Address) => NodeAddress(nodeId: node.id, address: address))
proc hash(x: NodeAddress): Hash =
var h = 0
h = h !& x.nodeId.hash
h = h !& x.address.hash
!$h
proc hash(x: UtpSocketKey[NodeAddress]): Hash =
var h = 0
h = h !& x.remoteAddress.hash
h = h !& x.rcvId.hash
!$h
func `$`*(x: UtpSocketKey[NodeAddress]): string =
"(remoteId: " & $x.remoteAddress.nodeId &
", remoteAddress: " & $x.remoteAddress.address &
", rcvId: " & $x.rcvId &
")"
proc talkReqDirect(p: protocol.Protocol, n: NodeAddress, protocol, request: seq[byte]): Future[void] =
let
reqId = RequestId.init(p.rng[])
message = encodeMessage(TalkReqMessage(protocol: protocol, request: request), reqId)
(data, nonce) = encodeMessagePacket(p.rng[], p.codec, n.nodeId, n.address, message)
trace "Send message packet", dstId = n.nodeId, address = n.address, kind = MessageKind.talkreq
p.send(n.address, data)
proc initSendCallback(
t: protocol.Protocol, subProtocolName: seq[byte]): SendCallback[NodeAddress] =
return (
proc (to: NodeAddress, data: seq[byte]): Future[void] =
let fut = newFuture[void]()
# hidden assumption here is that nodes already have established discv5 session
# between each other. In our use case this should be true as opening stream
# is only done after successful OFFER/ACCEPT or FINDCONTENT/CONTENT exchange
# which forces nodes to establish session between each other.
discard t.talkReqDirect(to, subProtocolName, data)
fut.complete()
return fut
)
proc messageHandler(protocol: TalkProtocol, request: seq[byte],
srcId: NodeId, srcUdpAddress: Address): seq[byte] =
let
p = UtpDiscv5Protocol(protocol)
nodeAddress = NodeAddress.init(srcId, srcUdpAddress)
debug "Received utp payload from known node. Start processing",
nodeId = nodeAddress.nodeId, address = nodeAddress.address
asyncSpawn p.router.processIncomingBytes(request, nodeAddress)
proc new*(
T: type UtpDiscv5Protocol,
p: protocol.Protocol,
subProtocolName: seq[byte],
acceptConnectionCb: AcceptConnectionCallback[NodeAddress],
udata: pointer = nil,
allowConnectionCb: AllowConnectionCallback[NodeAddress] = nil,
socketConfig: SocketConfig = SocketConfig.init()): UtpDiscv5Protocol =
doAssert(not(isNil(acceptConnectionCb)))
let router = UtpRouter[NodeAddress].new(
acceptConnectionCb,
allowConnectionCb,
udata,
socketConfig,
p.rng
)
router.sendCb = initSendCallback(p, subProtocolName)
let prot = UtpDiscv5Protocol(
protocolHandler: messageHandler,
prot: p,
router: router
)
p.registerTalkProtocol(subProtocolName, prot).expect(
"Only one protocol should have this id"
)
prot
proc new*(
T: type UtpDiscv5Protocol,
p: protocol.Protocol,
subProtocolName: seq[byte],
acceptConnectionCb: AcceptConnectionCallback[NodeAddress],
udata: ref,
allowConnectionCb: AllowConnectionCallback[NodeAddress] = nil,
socketConfig: SocketConfig = SocketConfig.init()): UtpDiscv5Protocol =
GC_ref(udata)
UtpDiscv5Protocol.new(
p,
subProtocolName,
acceptConnectionCb,
cast[pointer](udata),
allowConnectionCb,
socketConfig
)
proc connectTo*(r: UtpDiscv5Protocol, address: NodeAddress):
Future[ConnectionResult[NodeAddress]] =
return r.router.connectTo(address)
proc connectTo*(r: UtpDiscv5Protocol, address: NodeAddress, connectionId: uint16):
Future[ConnectionResult[NodeAddress]] =
return r.router.connectTo(address, connectionId)
proc shutdown*(r: UtpDiscv5Protocol) =
## Closes all managed utp connections in background (does not close discovery,
## this is up to user)
r.router.shutdown()
proc shutdownWait*(r: UtpDiscv5Protocol) {.async.} =
## Closes all managed utp connections in background (does not close discovery,
## this is up to user)
await r.router.shutdownWait()