nimbus-eth1/fluffy/network/wire/portal_stream.nim

269 lines
10 KiB
Nim

# Nimbus
# Copyright (c) 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/sequtils,
chronos, stew/byteutils, chronicles,
eth/utp/utp_discv5_protocol,
# even though utp_discv5_protocol exports this, import is still needed,
# perhaps protocol.Protocol type of usage?
eth/p2p/discoveryv5/protocol,
./messages
export utp_discv5_protocol
logScope:
topics = "portal_stream"
const
utpProtocolId* = "utp".toBytes()
defaultConnectionTimeout = 5.seconds
defaultReadTimeout = 2.seconds
# TalkReq message is used as transport message
talkReqOverhead* =
16 + # IV size
55 + # header size
1 + # talkReq msg id
3 + # rlp encoding outer list, max length will be encoded in 2 bytes
9 + # request id (max = 8) + 1 byte from rlp encoding byte string
3 + # rlp encoding response byte string, max length in 2 bytes
16 + # HMAC
len(utpProtocolId) + 1 # + 1 is necessary due to rlp encoding of those bytes
utpHeaderOverhead* = 20
discv5MaxSize* = 1280
type
ContentRequest = object
connectionId: uint16
nodeId: NodeId
content: seq[byte]
timeout: Moment
ContentOffer = object
connectionId: uint16
nodeId: NodeId
contentKeys: ContentKeysList
timeout: Moment
ContentHandlerCallback* = proc(
stream: PortalStream, contentKeys: ContentKeysList, content: seq[byte])
{.gcsafe, raises: [Defect].}
PortalStream* = ref object
transport: UtpDiscv5Protocol
# TODO:
# Decide on what's the better collection to use and set some limits in them
# on how many uTP transfers allowed to happen concurrently.
# Either set some limit, and drop whatever comes next. Unsure how to
# communicate that with the peer however. Or have some more async waiting
# until a spot becomes free, like with an AsyncQueue. Although the latter
# probably can not be used here directly. This system however does needs
# some agreement on timeout values of how long a uTP socket may be
# "listening" before it times out because of inactivity.
# Or, depending on the direction, it might also depend on the time out
# values of the discovery v5 talkresp message.
# TODO: Should the content key also be stored to be able to validate the
# received data?
contentRequests: seq[ContentRequest]
contentOffers: seq[ContentOffer]
connectionTimeout: Duration
readTimeout*: Duration
rng: ref BrHmacDrbgContext
udata: pointer
contentHandler: ContentHandlerCallback
proc pruneAllowedConnections(stream: PortalStream) =
# Prune requests and offers that didn't receive a connection request
# before `connectionTimeout`.
let now = Moment.now()
stream.contentRequests.keepIf(proc(x: ContentRequest): bool =
x.timeout > now)
stream.contentOffers.keepIf(proc(x: ContentOffer): bool =
x.timeout > now)
proc getUserData*[T](stream: PortalStream): T =
## Obtain user data stored in ``stream`` object.
cast[T](stream.udata)
proc addContentOffer*(
stream: PortalStream, nodeId: NodeId, contentKeys: ContentKeysList): Bytes2 =
stream.pruneAllowedConnections()
# TODO: Should we check if `NodeId` & `connectionId` combo already exists?
# What happens if we get duplicates?
var connectionId: Bytes2
brHmacDrbgGenerate(stream.rng[], connectionId)
# uTP protocol uses BE for all values in the header, incl. connection id.
let id = uint16.fromBytesBE(connectionId)
let contentOffer = ContentOffer(
connectionId: id,
nodeId: nodeId,
contentKeys: contentKeys,
timeout: Moment.now() + stream.connectionTimeout)
stream.contentOffers.add(contentOffer)
return connectionId
proc addContentRequest*(
stream: PortalStream, nodeId: NodeId, content: seq[byte]): Bytes2 =
stream.pruneAllowedConnections()
# TODO: Should we check if `NodeId` & `connectionId` combo already exists?
# What happens if we get duplicates?
var connectionId: Bytes2
brHmacDrbgGenerate(stream.rng[], connectionId)
# uTP protocol uses BE for all values in the header, incl. connection id.
let id = uint16.fromBytesBE(connectionId)
let contentRequest = ContentRequest(
connectionId: id,
nodeId: nodeId,
content: content,
timeout: Moment.now() + stream.connectionTimeout)
stream.contentRequests.add(contentRequest)
return connectionId
proc connectTo*(
stream: PortalStream,
nodeAddress: NodeAddress,
connectionId: uint16):
Future[Result[UtpSocket[NodeAddress], string]] {.async.} =
let socketRes = await stream.transport.connectTo(nodeAddress, connectionId)
if socketRes.isErr():
case socketRes.error.kind
of SocketAlreadyExists:
# This means that there is already a socket to this nodeAddress with given
# connection id. It probably means that a peersent us a connection id
# which is already in use..
# For now just fail the connection and return an error. Another strategy
# to consider would be to check what is the connection status, and then
# re-use it, or close it and retry connection.
let msg = "Socket to " & $nodeAddress & "with connection id: " &
$connectionId & " already exists"
return err(msg)
of ConnectionTimedOut:
# Another strategy for handling this error would be to retry connecting a
# few times before giving up. But we know (as we control the uTP impl)
# that this error will only occur when a SYN packet was re-sent 3 times
# and failed to be acked. This should be enough of indication that the
# remote host is not reachable.
let msg = "uTP timeout while trying to connect to " & $nodeAddress
return err(msg)
let socket = socketRes.get()
return ok(socket)
proc writeAndClose(
socket: UtpSocket[NodeAddress], stream: PortalStream,
request: ContentRequest) {.async.} =
let dataWritten = await socket.write(request.content)
if dataWritten.isErr():
debug "Error writing requested data", error = dataWritten.error
await socket.closeWait()
proc readAndClose(
socket: UtpSocket[NodeAddress], stream: PortalStream,
offer: ContentOffer) {.async.} =
# Read all bytes from the socket
# This will either end with a FIN, or because the read action times out.
# A FIN does not necessarily mean that the data read is complete. Further
# validation is required, using a length prefix here might be beneficial for
# this.
# TODO: Should also limit the amount of data to read and/or total time.
var readData = socket.read()
if await readData.withTimeout(stream.readTimeout):
let content = readData.read
if not stream.contentHandler.isNil():
stream.contentHandler(stream, offer.contentKeys, content)
# Destroy socket and not closing as we already received FIN. Closing would
# send also a FIN from our side, see also:
# https://github.com/status-im/nim-eth/blob/b2dab4be0839c95ca2564df9eacf81995bf57802/eth/utp/utp_socket.nim#L1223
await socket.destroyWait()
else:
debug "Reading data from socket timed out, content request failed"
# Even though reading timed out, lets be nice and still send a FIN.
# Not waiting here for its ACK however, so no `closeWait`
socket.close()
proc new*(
T: type PortalStream,
contentHandler: ContentHandlerCallback,
udata: ref,
connectionTimeout = defaultConnectionTimeout,
readTimeout = defaultReadTimeout,
rng = newRng()): T =
GC_ref(udata)
let
stream = PortalStream(
contentHandler: contentHandler,
udata: cast[pointer](udata),
connectionTimeout: connectionTimeout,
readTimeout: readTimeout,
rng: rng)
stream
func setTransport*(stream: PortalStream, transport: UtpDiscv5Protocol) =
stream.transport = transport
# TODO: I think I'd like it more if we weren't to capture the stream.
proc registerIncomingSocketCallback*(
streams: seq[PortalStream]): AcceptConnectionCallback[NodeAddress] =
return (
proc(server: UtpRouter[NodeAddress], client: UtpSocket[NodeAddress]): Future[void] =
for stream in streams:
# Note: Connection id of uTP SYN is different from other packets, it is
# actually the peers `send_conn_id`, opposed to `receive_conn_id` for all
# other packets.
for i, request in stream.contentRequests:
if request.connectionId == client.connectionId and
request.nodeId == client.remoteAddress.nodeId:
let fut = client.writeAndClose(stream, request)
stream.contentRequests.del(i)
return fut
for i, offer in stream.contentOffers:
if offer.connectionId == client.connectionId and
offer.nodeId == client.remoteAddress.nodeId:
let fut = client.readAndClose(stream, offer)
stream.contentOffers.del(i)
return fut
# TODO: Is there a scenario where this can happen,
# considering `allowRegisteredIdCallback`? If not, doAssert?
var fut = newFuture[void]("fluffy.AcceptConnectionCallback")
fut.complete()
return fut
)
proc allowedConnection(
stream: PortalStream, address: NodeAddress, connectionId: uint16): bool =
return
stream.contentRequests.any(
proc (x: ContentRequest): bool =
x.connectionId == connectionId and x.nodeId == address.nodeId) or
stream.contentOffers.any(
proc (x: ContentOffer): bool =
x.connectionId == connectionId and x.nodeId == address.nodeId)
proc allowRegisteredIdCallback*(
streams: seq[PortalStream]): AllowConnectionCallback[NodeAddress] =
return (
proc(r: UtpRouter[NodeAddress], remoteAddress: NodeAddress, connectionId: uint16): bool =
for stream in streams:
# stream.pruneAllowedConnections()
if allowedConnection(stream, remoteAddress, connectionId):
return true
)