437 lines
13 KiB
Nim
437 lines
13 KiB
Nim
# Nim-LibP2P
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# Copyright (c) 2023 Status Research & Development GmbH
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# Licensed under either of
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# * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE))
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# * MIT license ([LICENSE-MIT](LICENSE-MIT))
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# at your option.
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# This file may not be copied, modified, or distributed except according to
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# those terms.
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{.push raises: [].}
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import std/[tables, sequtils, sets]
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import pkg/[chronos, chronicles, metrics]
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import peerinfo,
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peerstore,
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stream/connection,
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muxers/muxer,
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utils/semaphore,
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errors
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logScope:
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topics = "libp2p connmanager"
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declareGauge(libp2p_peers, "total connected peers")
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const
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MaxConnections* = 50
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MaxConnectionsPerPeer* = 1
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type
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TooManyConnectionsError* = object of LPError
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AlreadyExpectingConnectionError* = object of LPError
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ConnEventKind* {.pure.} = enum
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Connected, # A connection was made and securely upgraded - there may be
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# more than one concurrent connection thus more than one upgrade
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# event per peer.
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Disconnected # Peer disconnected - this event is fired once per upgrade
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# when the associated connection is terminated.
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ConnEvent* = object
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case kind*: ConnEventKind
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of ConnEventKind.Connected:
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incoming*: bool
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else:
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discard
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ConnEventHandler* =
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proc(peerId: PeerId, event: ConnEvent): Future[void]
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{.gcsafe, raises: [].}
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PeerEventKind* {.pure.} = enum
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Left,
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Joined
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PeerEvent* = object
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case kind*: PeerEventKind
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of PeerEventKind.Joined:
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initiator*: bool
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else:
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discard
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PeerEventHandler* =
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proc(peerId: PeerId, event: PeerEvent): Future[void] {.gcsafe, raises: [].}
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ConnManager* = ref object of RootObj
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maxConnsPerPeer: int
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inSema*: AsyncSemaphore
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outSema*: AsyncSemaphore
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muxed: Table[PeerId, seq[Muxer]]
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connEvents: array[ConnEventKind, OrderedSet[ConnEventHandler]]
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peerEvents: array[PeerEventKind, OrderedSet[PeerEventHandler]]
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expectedConnectionsOverLimit*: Table[(PeerId, Direction), Future[Muxer]]
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peerStore*: PeerStore
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ConnectionSlot* = object
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connManager: ConnManager
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direction: Direction
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proc newTooManyConnectionsError(): ref TooManyConnectionsError {.inline.} =
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result = newException(TooManyConnectionsError, "Too many connections")
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proc new*(C: type ConnManager,
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maxConnsPerPeer = MaxConnectionsPerPeer,
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maxConnections = MaxConnections,
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maxIn = -1,
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maxOut = -1): ConnManager =
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var inSema, outSema: AsyncSemaphore
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if maxIn > 0 or maxOut > 0:
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inSema = newAsyncSemaphore(maxIn)
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outSema = newAsyncSemaphore(maxOut)
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elif maxConnections > 0:
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inSema = newAsyncSemaphore(maxConnections)
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outSema = inSema
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else:
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raiseAssert "Invalid connection counts!"
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C(maxConnsPerPeer: maxConnsPerPeer,
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inSema: inSema,
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outSema: outSema)
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proc connCount*(c: ConnManager, peerId: PeerId): int =
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c.muxed.getOrDefault(peerId).len
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proc connectedPeers*(c: ConnManager, dir: Direction): seq[PeerId] =
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var peers = newSeq[PeerId]()
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for peerId, mux in c.muxed:
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if mux.anyIt(it.connection.dir == dir):
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peers.add(peerId)
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return peers
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proc getConnections*(c: ConnManager): Table[PeerId, seq[Muxer]] =
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return c.muxed
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proc addConnEventHandler*(c: ConnManager,
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handler: ConnEventHandler,
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kind: ConnEventKind) =
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## Add peer event handler - handlers must not raise exceptions!
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##
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if isNil(handler): return
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c.connEvents[kind].incl(handler)
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proc removeConnEventHandler*(c: ConnManager,
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handler: ConnEventHandler,
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kind: ConnEventKind) =
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c.connEvents[kind].excl(handler)
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proc triggerConnEvent*(c: ConnManager,
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peerId: PeerId,
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event: ConnEvent) {.async.} =
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try:
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trace "About to trigger connection events", peer = peerId
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if c.connEvents[event.kind].len() > 0:
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trace "triggering connection events", peer = peerId, event = $event.kind
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var connEvents: seq[Future[void]]
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for h in c.connEvents[event.kind]:
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connEvents.add(h(peerId, event))
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checkFutures(await allFinished(connEvents))
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except CancelledError as exc:
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raise exc
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except CatchableError as exc:
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warn "Exception in triggerConnEvents",
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msg = exc.msg, peer = peerId, event = $event
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proc addPeerEventHandler*(c: ConnManager,
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handler: PeerEventHandler,
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kind: PeerEventKind) =
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## Add peer event handler - handlers must not raise exceptions!
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##
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if isNil(handler): return
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c.peerEvents[kind].incl(handler)
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proc removePeerEventHandler*(c: ConnManager,
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handler: PeerEventHandler,
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kind: PeerEventKind) =
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c.peerEvents[kind].excl(handler)
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proc triggerPeerEvents*(c: ConnManager,
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peerId: PeerId,
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event: PeerEvent) {.async.} =
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trace "About to trigger peer events", peer = peerId
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if c.peerEvents[event.kind].len == 0:
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return
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try:
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trace "triggering peer events", peer = peerId, event = $event
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var peerEvents: seq[Future[void]]
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for h in c.peerEvents[event.kind]:
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peerEvents.add(h(peerId, event))
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checkFutures(await allFinished(peerEvents))
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except CancelledError as exc:
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raise exc
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except CatchableError as exc: # handlers should not raise!
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warn "Exception in triggerPeerEvents", exc = exc.msg, peer = peerId
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proc expectConnection*(c: ConnManager, p: PeerId, dir: Direction): Future[Muxer] {.async.} =
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## Wait for a peer to connect to us. This will bypass the `MaxConnectionsPerPeer`
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let key = (p, dir)
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if key in c.expectedConnectionsOverLimit:
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raise newException(AlreadyExpectingConnectionError, "Already expecting an incoming connection from that peer")
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let future = newFuture[Muxer]()
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c.expectedConnectionsOverLimit[key] = future
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try:
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return await future
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finally:
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c.expectedConnectionsOverLimit.del(key)
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proc contains*(c: ConnManager, peerId: PeerId): bool =
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peerId in c.muxed
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proc contains*(c: ConnManager, muxer: Muxer): bool =
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## checks if a muxer is being tracked by the connection
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## manager
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##
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if isNil(muxer):
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return false
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let conn = muxer.connection
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return muxer in c.muxed.getOrDefault(conn.peerId)
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proc closeMuxer(muxer: Muxer) {.async.} =
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trace "Cleaning up muxer", m = muxer
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await muxer.close()
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if not(isNil(muxer.handler)):
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try:
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await muxer.handler # TODO noraises?
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except CatchableError as exc:
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trace "Exception in close muxer handler", exc = exc.msg
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trace "Cleaned up muxer", m = muxer
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proc muxCleanup(c: ConnManager, mux: Muxer) {.async.} =
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try:
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trace "Triggering disconnect events", mux
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let peerId = mux.connection.peerId
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let muxers = c.muxed.getOrDefault(peerId).filterIt(it != mux)
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if muxers.len > 0:
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c.muxed[peerId] = muxers
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else:
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c.muxed.del(peerId)
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libp2p_peers.set(c.muxed.len.int64)
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await c.triggerPeerEvents(peerId, PeerEvent(kind: PeerEventKind.Left))
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if not(c.peerStore.isNil):
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c.peerStore.cleanup(peerId)
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await c.triggerConnEvent(
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peerId, ConnEvent(kind: ConnEventKind.Disconnected))
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except CatchableError as exc:
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# This is top-level procedure which will work as separate task, so it
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# do not need to propagate CancelledError and should handle other errors
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warn "Unexpected exception peer cleanup handler",
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mux, msg = exc.msg
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proc onClose(c: ConnManager, mux: Muxer) {.async.} =
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## connection close even handler
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##
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## triggers the connections resource cleanup
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##
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try:
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await mux.connection.join()
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trace "Connection closed, cleaning up", mux
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except CatchableError as exc:
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debug "Unexpected exception in connection manager's cleanup",
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errMsg = exc.msg, mux
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finally:
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await c.muxCleanup(mux)
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proc selectMuxer*(c: ConnManager,
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peerId: PeerId,
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dir: Direction): Muxer =
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## Select a connection for the provided peer and direction
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##
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let conns = toSeq(
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c.muxed.getOrDefault(peerId))
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.filterIt( it.connection.dir == dir )
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if conns.len > 0:
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return conns[0]
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proc selectMuxer*(c: ConnManager, peerId: PeerId): Muxer =
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## Select a connection for the provided giving priority
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## to outgoing connections
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##
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var mux = c.selectMuxer(peerId, Direction.Out)
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if isNil(mux):
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mux = c.selectMuxer(peerId, Direction.In)
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if isNil(mux):
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trace "connection not found", peerId
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return mux
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proc storeMuxer*(c: ConnManager,
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muxer: Muxer)
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{.raises: [CatchableError].} =
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## store the connection and muxer
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##
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if isNil(muxer):
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raise newException(LPError, "muxer cannot be nil")
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if isNil(muxer.connection):
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raise newException(LPError, "muxer's connection cannot be nil")
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if muxer.connection.closed or muxer.connection.atEof:
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raise newException(LPError, "Connection closed or EOF")
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let
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peerId = muxer.connection.peerId
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dir = muxer.connection.dir
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# we use getOrDefault in the if below instead of [] to avoid the KeyError
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if c.muxed.getOrDefault(peerId).len > c.maxConnsPerPeer:
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let key = (peerId, dir)
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let expectedConn = c.expectedConnectionsOverLimit.getOrDefault(key)
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if expectedConn != nil and not expectedConn.finished:
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expectedConn.complete(muxer)
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else:
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debug "Too many connections for peer",
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conns = c.muxed.getOrDefault(peerId).len
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raise newTooManyConnectionsError()
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assert muxer notin c.muxed.getOrDefault(peerId)
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let
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newPeer = peerId notin c.muxed
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assert newPeer or c.muxed[peerId].len > 0
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c.muxed.mgetOrPut(peerId, newSeq[Muxer]()).add(muxer)
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libp2p_peers.set(c.muxed.len.int64)
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asyncSpawn c.triggerConnEvent(
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peerId, ConnEvent(kind: ConnEventKind.Connected, incoming: dir == Direction.In))
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if newPeer:
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asyncSpawn c.triggerPeerEvents(
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peerId, PeerEvent(kind: PeerEventKind.Joined, initiator: dir == Direction.Out))
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asyncSpawn c.onClose(muxer)
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trace "Stored muxer",
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muxer, direction = $muxer.connection.dir, peers = c.muxed.len
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proc getIncomingSlot*(c: ConnManager): Future[ConnectionSlot] {.async.} =
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await c.inSema.acquire()
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return ConnectionSlot(connManager: c, direction: In)
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proc getOutgoingSlot*(c: ConnManager, forceDial = false): ConnectionSlot {.raises: [TooManyConnectionsError].} =
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if forceDial:
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c.outSema.forceAcquire()
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elif not c.outSema.tryAcquire():
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trace "Too many outgoing connections!", count = c.outSema.count,
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max = c.outSema.size
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raise newTooManyConnectionsError()
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return ConnectionSlot(connManager: c, direction: Out)
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proc slotsAvailable*(c: ConnManager, dir: Direction): int =
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case dir:
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of Direction.In:
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return c.inSema.count
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of Direction.Out:
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return c.outSema.count
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proc release*(cs: ConnectionSlot) =
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if cs.direction == In:
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cs.connManager.inSema.release()
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else:
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cs.connManager.outSema.release()
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proc trackConnection*(cs: ConnectionSlot, conn: Connection) =
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if isNil(conn):
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cs.release()
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return
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proc semaphoreMonitor() {.async.} =
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try:
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await conn.join()
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except CatchableError as exc:
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trace "Exception in semaphore monitor, ignoring", exc = exc.msg
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cs.release()
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asyncSpawn semaphoreMonitor()
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proc trackMuxer*(cs: ConnectionSlot, mux: Muxer) =
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if isNil(mux):
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cs.release()
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return
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cs.trackConnection(mux.connection)
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proc getStream*(c: ConnManager,
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muxer: Muxer): Future[Connection] {.async.} =
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## get a muxed stream for the passed muxer
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##
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if not(isNil(muxer)):
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return await muxer.newStream()
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proc getStream*(c: ConnManager,
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peerId: PeerId): Future[Connection] {.async.} =
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## get a muxed stream for the passed peer from any connection
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##
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return await c.getStream(c.selectMuxer(peerId))
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proc getStream*(c: ConnManager,
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peerId: PeerId,
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dir: Direction): Future[Connection] {.async.} =
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## get a muxed stream for the passed peer from a connection with `dir`
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##
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return await c.getStream(c.selectMuxer(peerId, dir))
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proc dropPeer*(c: ConnManager, peerId: PeerId) {.async.} =
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## drop connections and cleanup resources for peer
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##
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trace "Dropping peer", peerId
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let muxers = c.muxed.getOrDefault(peerId)
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for muxer in muxers:
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await closeMuxer(muxer)
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trace "Peer dropped", peerId
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proc close*(c: ConnManager) {.async.} =
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## cleanup resources for the connection
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## manager
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##
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trace "Closing ConnManager"
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let muxed = c.muxed
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c.muxed.clear()
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let expected = c.expectedConnectionsOverLimit
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c.expectedConnectionsOverLimit.clear()
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for _, fut in expected:
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await fut.cancelAndWait()
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for _, muxers in muxed:
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for mux in muxers:
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await closeMuxer(mux)
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trace "Closed ConnManager"
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