parent
9c1633bf87
commit
03639f1446
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@ -66,6 +66,12 @@ proc open*(s: LPChannel) {.async, gcsafe.} =
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method closed*(s: LPChannel): bool =
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s.closedLocal
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proc closeUnderlying(s: LPChannel): Future[void] {.async.} =
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## Channels may be closed for reading and writing in any order - we'll close
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## the underlying bufferstream when both directions are closed
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if s.closedLocal and s.isEof:
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await procCall BufferStream(s).close()
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proc reset*(s: LPChannel) {.async, gcsafe.} =
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if s.isClosed:
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trace "Already closed", s
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@ -109,20 +115,10 @@ proc reset*(s: LPChannel) {.async, gcsafe.} =
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trace "Channel reset", s
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proc closeUnderlying*(s: LPChannel): Future[void] {.async.} =
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## Channels may be closed for reading and writing in any order - we'll close
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## the underlying bufferstream when both directions are closed
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if s.closedLocal and s.isEof:
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trace "Closing underlying", s, conn = s.conn
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await procCall BufferStream(s).close()
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method close*(s: LPChannel) {.async, gcsafe.} =
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## Close channel for writing - a message will be sent to the other peer
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## informing them that the channel is closed and that we're waiting for
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## their acknowledgement.
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##
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try:
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if s.closedLocal:
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trace "Already closed", s
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return
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@ -131,23 +127,19 @@ method close*(s: LPChannel) {.async, gcsafe.} =
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trace "Closing channel", s, conn = s.conn, len = s.len
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if s.isOpen:
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trace "Sending close msg", s, conn = s.conn
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await s.conn.writeMsg(s.id, s.closeCode).wait(10.seconds) # write close
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trace "Closed channel", s, len = s.len
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try:
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await s.conn.writeMsg(s.id, s.closeCode) # write close
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except CancelledError as exc:
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trace "Cancelling close", s, conn = s.conn
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# need to reset here otherwise the close sequence doesn't complete and
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# the channel leaks since none of it's `onClose` events trigger
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await s.reset()
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raise exc
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except CatchableError as exc:
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# need to reset here otherwise the close sequence doesn't complete and
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# the channel leaks since none of it's `onClose` events trigger
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trace "Cannot send close message", exc = exc.msg, s, conn = s.conn
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await s.reset()
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finally:
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# It's harmless that close message cannot be sent - the connection is
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# likely down already
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trace "Cannot send close message", s, id = s.id
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await s.closeUnderlying() # maybe already eofed
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trace "Closed channel", s, len = s.len
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method initStream*(s: LPChannel) =
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if s.objName.len == 0:
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s.objName = "LPChannel"
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@ -60,7 +60,7 @@ proc cleanupChann(m: Mplex, chann: LPChannel) {.async, inline.} =
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try:
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await chann.join()
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m.channels[chann.initiator].del(chann.id)
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trace "cleaned up channel", m, s = chann
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trace "cleaned up channel", m, chann
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when defined(libp2p_expensive_metrics):
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libp2p_mplex_channels.set(
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@ -68,7 +68,7 @@ proc cleanupChann(m: Mplex, chann: LPChannel) {.async, inline.} =
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labelValues = [$chann.initiator, $m.connection.peerInfo.peerId])
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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 no other exceptions should
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# do not need to propogate CancelledError, and no other exceptions should
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# happen here
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warn "Error cleaning up mplex channel", m, chann, msg = exc.msg
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@ -118,7 +118,7 @@ proc handleStream(m: Mplex, chann: LPChannel) {.async.} =
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doAssert(chann.closed, "connection not closed by handler!")
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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.
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# do not need to propogate CancelledError.
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trace "Exception in mplex stream handler", m, chann, msg = exc.msg
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await chann.reset()
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@ -184,13 +184,11 @@ method handle*(m: Mplex) {.async, gcsafe.} =
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except CancelledError:
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# This procedure is spawned as task and it is not part of public API, so
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# there no way for this procedure to be cancelled implicitly.
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debug "Cancellation in mplex handler", m
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except LPStreamClosedError as exc:
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trace "Stream Closed", m, msg = exc.msg
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debug "Unexpected cancellation in mplex handler", m
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except LPStreamEOFError as exc:
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trace "Stream EOF", m, msg = exc.msg
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except CatchableError as exc:
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warn "Exception in mplex read loop", m, msg = exc.msg
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warn "Unexpected exception in mplex read loop", m, msg = exc.msg
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finally:
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await m.close()
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trace "Stopped mplex handler", m
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@ -73,12 +73,12 @@ type
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msgSeqno*: uint64
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anonymize*: bool # if we omit fromPeer and seqno from RPC messages we send
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method unsubscribePeer*(p: PubSub, peer: PeerID) {.base.} =
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method unsubscribePeer*(p: PubSub, peerId: PeerID) {.base.} =
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## handle peer disconnects
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##
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trace "Unsubscribing pubsub peer", peer
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p.peers.del(peer)
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trace "unsubscribing pubsub peer", peerId
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p.peers.del(peerId)
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libp2p_pubsub_peers.set(p.peers.len.int64)
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@ -217,7 +217,6 @@ method subscribePeer*(p: PubSub, peer: PeerID) {.base.} =
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## messages
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##
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trace "Subscribing peer", peer
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let peer = p.getOrCreatePeer(peer, p.codecs)
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peer.outbound = true # flag as outbound
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@ -42,8 +42,7 @@ proc init*(T: type SecureConn,
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peerInfo: peerInfo,
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observedAddr: observedAddr,
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closeEvent: conn.closeEvent,
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timeout: timeout,
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dir: conn.dir)
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timeout: timeout)
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result.initStream()
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method initStream*(s: SecureConn) =
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@ -53,7 +52,6 @@ method initStream*(s: SecureConn) =
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procCall Connection(s).initStream()
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method close*(s: SecureConn) {.async.} =
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trace "closing secure conn", s, dir = s.dir
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if not(isNil(s.stream)):
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await s.stream.close()
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@ -76,6 +74,10 @@ proc handleConn*(s: Secure,
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try:
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await conn.join()
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await sconn.close()
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except CancelledError:
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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 propogate CancelledError.
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discard
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except CatchableError as exc:
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trace "error cleaning up secure connection", err = exc.msg, sconn
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@ -7,6 +7,29 @@
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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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## This module implements an asynchronous buffer stream
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## which emulates physical async IO.
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##
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## The stream is based on the standard library's `Deque`,
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## which is itself based on a ring buffer.
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##
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## It works by exposing a regular LPStream interface and
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## a method ``pushTo`` to push data to the internal read
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## buffer; as well as a handler that can be registered
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## that gets triggered on every write to the stream. This
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## allows using the buffered stream as a sort of proxy,
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## which can be consumed as a regular LPStream but allows
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## injecting data for reads and intercepting writes.
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##
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## Another notable feature is that the stream is fully
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## ordered and asynchronous. Reads are queued up in order
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## and are suspended when not enough data available. This
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## allows preserving backpressure while maintaining full
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## asynchrony. Both writing to the internal buffer with
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## ``pushTo`` as well as reading with ``read*` methods,
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## will suspend until either the amount of elements in the
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## buffer goes below ``maxSize`` or more data becomes available.
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import std/strformat
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import stew/byteutils
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import chronos, chronicles, metrics
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@ -32,23 +32,23 @@ method initStream*(s: ChronosStream) =
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s.objName = "ChronosStream"
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s.timeoutHandler = proc() {.async, gcsafe.} =
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trace "Idle timeout expired, closing ChronosStream", s
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trace "idle timeout expired, closing ChronosStream"
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await s.close()
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procCall Connection(s).initStream()
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proc init*(C: type ChronosStream,
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client: StreamTransport,
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dir: Direction,
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timeout = DefaultChronosStreamTimeout): ChronosStream =
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result = C(client: client,
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timeout: timeout,
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dir: dir)
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timeout: timeout)
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result.initStream()
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template withExceptions(body: untyped) =
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try:
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body
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except CancelledError as exc:
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raise exc
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except TransportIncompleteError:
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# for all intents and purposes this is an EOF
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raise newLPStreamIncompleteError()
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@ -7,7 +7,7 @@
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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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import std/[hashes, oids, strformat, sugar]
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import std/[hashes, oids, strformat]
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import chronicles, chronos, metrics
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import lpstream,
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../multiaddress,
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@ -25,6 +25,9 @@ const
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type
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TimeoutHandler* = proc(): Future[void] {.gcsafe.}
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Direction* {.pure.} = enum
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None, In, Out
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Connection* = ref object of LPStream
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activity*: bool # reset every time data is sent or received
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timeout*: Duration # channel timeout if no activity
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@ -32,6 +35,7 @@ type
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timeoutHandler*: TimeoutHandler # timeout handler
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peerInfo*: PeerInfo
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observedAddr*: Multiaddress
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dir*: Direction
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ConnectionTracker* = ref object of TrackerBase
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opened*: uint64
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@ -81,9 +85,7 @@ method initStream*(s: Connection) =
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s.timerTaskFut = s.timeoutMonitor()
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if isNil(s.timeoutHandler):
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s.timeoutHandler = proc(): Future[void] =
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trace "Idle timeout expired, closing connection", s
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s.close()
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s.timeoutHandler = proc(): Future[void] = s.close()
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inc getConnectionTracker().opened
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@ -102,7 +104,7 @@ func hash*(p: Connection): Hash =
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cast[pointer](p).hash
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proc timeoutMonitor(s: Connection) {.async, gcsafe.} =
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## monitor the channel for inactivity
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## monitor the channel for innactivity
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##
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## if the timeout was hit, it means that
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## neither incoming nor outgoing activity
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break
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# reset channel on inactivity timeout
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# reset channel on innactivity timeout
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trace "Connection timed out", s
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if not(isNil(s.timeoutHandler)):
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trace "Calling timeout handler", s
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await s.timeoutHandler()
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except CancelledError as exc:
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@ -15,8 +15,7 @@ import ../varint,
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../peerinfo,
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../multiaddress
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declareGauge(libp2p_open_streams,
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"open stream instances", labels = ["type", "dir"])
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declareGauge(libp2p_open_streams, "open stream instances", labels = ["type"])
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export oids
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@ -24,16 +23,12 @@ logScope:
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topics = "lpstream"
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type
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Direction* {.pure.} = enum
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In, Out
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LPStream* = ref object of RootObj
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closeEvent*: AsyncEvent
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isClosed*: bool
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isEof*: bool
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objName*: string
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oid*: Oid
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dir*: Direction
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LPStreamError* = object of CatchableError
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LPStreamIncompleteError* = object of LPStreamError
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@ -91,8 +86,8 @@ method initStream*(s: LPStream) {.base.} =
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s.closeEvent = newAsyncEvent()
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s.oid = genOid()
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libp2p_open_streams.inc(labelValues = [s.objName, $s.dir])
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trace "Stream created", s, objName = s.objName, dir = $s.dir
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libp2p_open_streams.inc(labelValues = [s.objName])
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trace "Stream created", s, objName = s.objName
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proc join*(s: LPStream): Future[void] =
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s.closeEvent.wait()
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@ -219,8 +214,8 @@ method closeImpl*(s: LPStream): Future[void] {.async, base.} =
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## Implementation of close - called only once
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trace "Closing stream", s, objName = s.objName
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s.closeEvent.fire()
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libp2p_open_streams.dec(labelValues = [s.objName, $s.dir])
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trace "Closed stream", s, objName = s.objName, dir = $s.dir
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libp2p_open_streams.dec(labelValues = [s.objName])
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trace "Closed stream", s, objName = s.objName
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method close*(s: LPStream): Future[void] {.base, async.} = # {.raises [Defect].}
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## close the stream - this may block, but will not raise exceptions
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@ -228,7 +223,6 @@ method close*(s: LPStream): Future[void] {.base, async.} = # {.raises [Defect].}
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if s.isClosed:
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trace "Already closed", s
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return
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s.isClosed = true # Set flag before performing virtual close
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# An separate implementation method is used so that even when derived types
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@ -292,10 +292,10 @@ proc internalConnect(s: Switch,
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let dialed = try:
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await t.dial(a)
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except CancelledError as exc:
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trace "Dialing canceled", msg = exc.msg, peerId, address = $a
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trace "Dialing canceled", msg = exc.msg, peerId
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raise exc
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except CatchableError as exc:
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trace "Dialing failed", msg = exc.msg, peerId, address = $a
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trace "Dialing failed", msg = exc.msg, peerId
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libp2p_failed_dials.inc()
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continue # Try the next address
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@ -62,57 +62,31 @@ proc setupTcpTransportTracker(): TcpTransportTracker =
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proc connHandler*(t: TcpTransport,
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client: StreamTransport,
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initiator: bool): Connection =
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debug "Handling tcp connection", address = $client.remoteAddress,
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initiator = initiator,
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clients = t.clients.len
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let conn = Connection(
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ChronosStream.init(
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client,
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dir = if initiator:
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Direction.Out
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else:
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Direction.In))
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trace "handling connection", address = $client.remoteAddress
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let conn: Connection = Connection(ChronosStream.init(client))
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conn.observedAddr = MultiAddress.init(client.remoteAddress).tryGet()
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if not initiator:
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if not isNil(t.handler):
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t.handlers &= t.handler(conn)
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proc cleanup() {.async.} =
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try:
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await client.join() or conn.join()
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trace "Cleaning up client", addrs = $client.remoteAddress,
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conn = $conn.oid
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t.clients.keepItIf( it != client )
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if not(isNil(conn) and not conn.closed()):
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await client.join()
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trace "cleaning up client", addrs = $client.remoteAddress, connoid = $conn.oid
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if not(isNil(conn)):
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await conn.close()
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if not(isNil(client) and client.closed()):
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await client.closeWait()
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trace "Cleaned up client", addrs = $client.remoteAddress,
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conn = $conn.oid
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t.clients.keepItIf(it != client)
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except CancelledError:
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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 propogate CancelledError.
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trace "Unexpected cancellation in transport's cleanup"
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except CatchableError as exc:
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let useExc {.used.} = exc
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debug "Error cleaning up client", errMsg = exc.msg, s = conn
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trace "error cleaning up client", exc = exc.msg
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t.clients.add(client)
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# All the errors are handled inside `cleanup()` procedure.
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asyncSpawn cleanup()
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try:
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conn.observedAddr = MultiAddress.init(client.remoteAddress).tryGet()
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except CatchableError as exc:
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trace "Unable to get remote address", exc = exc.msg
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if not isNil(client):
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client.close()
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raise exc
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return conn
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result = conn
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proc connCb(server: StreamServer,
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client: StreamTransport) {.async, gcsafe.} =
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@ -123,12 +97,10 @@ proc connCb(server: StreamServer,
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# as it's added inside connHandler
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discard t.connHandler(client, false)
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except CancelledError as exc:
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debug "Connection setup cancelled", exc = exc.msg
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await client.closeWait()
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raise exc
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except CatchableError as exc:
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debug "Connection setup failed", exc = exc.msg
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await client.closeWait()
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except CatchableError as err:
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debug "Connection setup failed", err = err.msg
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client.close()
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proc init*(T: type TcpTransport, flags: set[ServerFlags] = {}): T =
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result = T(flags: flags)
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@ -197,16 +169,8 @@ method dial*(t: TcpTransport,
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Future[Connection] {.async, gcsafe.} =
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trace "dialing remote peer", address = $address
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## dial a peer
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var client: StreamTransport
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try:
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client = await connect(address)
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except CatchableError as exc:
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trace "Exception dialing peer", exc = exc.msg
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if not(isNil(client)):
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await client.closeWait()
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raise exc
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return t.connHandler(client, true)
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let client: StreamTransport = await connect(address)
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result = t.connHandler(client, true)
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method handles*(t: TcpTransport, address: MultiAddress): bool {.gcsafe.} =
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if procCall Transport(t).handles(address):
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Reference in New Issue