nim-libp2p/libp2p/dialer.nim

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# Nim-LibP2P
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# Copyright (c) 2023 Status Research & Development GmbH
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# 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.
import std/tables
import stew/results
import pkg/[chronos,
chronicles,
metrics]
import dial,
peerid,
peerinfo,
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peerstore,
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multicodec,
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muxers/muxer,
multistream,
connmanager,
stream/connection,
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transports/transport,
nameresolving/nameresolver,
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upgrademngrs/upgrade,
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errors
export dial, errors, results
logScope:
topics = "libp2p dialer"
declareCounter(libp2p_total_dial_attempts, "total attempted dials")
declareCounter(libp2p_successful_dials, "dialed successful peers")
declareCounter(libp2p_failed_dials, "failed dials")
type
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DialFailedError* = object of LPError
Dialer* = ref object of Dial
localPeerId*: PeerId
connManager: ConnManager
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dialLock: Table[PeerId, AsyncLock]
transports: seq[Transport]
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peerStore: PeerStore
nameResolver: NameResolver
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proc dialAndUpgrade(
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self: Dialer,
peerId: Opt[PeerId],
hostname: string,
address: MultiAddress,
dir = Direction.Out
): Future[Muxer] {.async: (raises: [CancelledError, LPError]).} =
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for transport in self.transports: # for each transport
if transport.handles(address): # check if it can dial it
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trace "Dialing address", address, peerId = peerId.get(default(PeerId)), hostname
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let dialed =
try:
libp2p_total_dial_attempts.inc()
await transport.dial(hostname, address, peerId)
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except CancelledError as exc:
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debug "Dialing canceled", err = exc.msg, peerId = peerId.get(default(PeerId))
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raise exc
except CatchableError as exc:
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debug "Dialing failed", err = exc.msg, peerId = peerId.get(default(PeerId))
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libp2p_failed_dials.inc()
return nil # Try the next address
libp2p_successful_dials.inc()
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let mux =
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try:
# This is for the very specific case of a simultaneous dial during DCUtR. In this case, both sides will have
# an Outbound direction at the transport level. Therefore we update the DCUtR initiator transport direction to Inbound.
# The if below is more general and might handle other use cases in the future.
if dialed.dir != dir:
dialed.dir = dir
await transport.upgrade(dialed, peerId)
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except CatchableError as exc:
# If we failed to establish the connection through one transport,
# we won't succeeded through another - no use in trying again
await dialed.close()
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debug "Upgrade failed", err = exc.msg, peerId = peerId.get(default(PeerId))
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if exc isnot CancelledError:
if dialed.dir == Direction.Out:
libp2p_failed_upgrades_outgoing.inc()
else:
libp2p_failed_upgrades_incoming.inc()
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# Try other address
return nil
doAssert not isNil(mux), "connection died after upgrade " & $dialed.dir
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debug "Dial successful", peerId = mux.connection.peerId
return mux
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return nil
proc expandDnsAddr(
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self: Dialer,
peerId: Opt[PeerId],
address: MultiAddress
): Future[seq[(MultiAddress, Opt[PeerId])]] {.async: (raises: [
CancelledError, LPError]).} =
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if not DNSADDR.matchPartial(address): return @[(address, peerId)]
if isNil(self.nameResolver):
info "Can't resolve DNSADDR without NameResolver", ma=address
return @[]
let
toResolve =
if peerId.isSome:
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address & MultiAddress.init(multiCodec("p2p"), peerId.get())
.tryGet()
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else:
address
resolved = await self.nameResolver.resolveDnsAddr(toResolve)
for resolvedAddress in resolved:
let lastPart = resolvedAddress[^1].tryGet()
if lastPart.protoCode == Result[MultiCodec, string].ok(multiCodec("p2p")):
let
peerIdBytes = lastPart.protoArgument().tryGet()
addrPeerId = PeerId.init(peerIdBytes).tryGet()
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result.add((
resolvedAddress[0..^2].tryGet(), Opt.some(addrPeerId)))
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else:
result.add((resolvedAddress, peerId))
proc dialAndUpgrade(
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self: Dialer,
peerId: Opt[PeerId],
addrs: seq[MultiAddress],
dir = Direction.Out
): Future[Muxer] {.async: (raises: [CancelledError, LPError]).} =
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debug "Dialing peer", peerId = peerId.get(default(PeerId))
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for rawAddress in addrs:
# resolve potential dnsaddr
let addresses = await self.expandDnsAddr(peerId, rawAddress)
for (expandedAddress, addrPeerId) in addresses:
# DNS resolution
let
hostname = expandedAddress.getHostname()
resolvedAddresses =
if isNil(self.nameResolver): @[expandedAddress]
else: await self.nameResolver.resolveMAddress(expandedAddress)
for resolvedAddress in resolvedAddresses:
result = await self.dialAndUpgrade(addrPeerId, hostname, resolvedAddress, dir)
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if not isNil(result):
return result
proc tryReusingConnection(self: Dialer, peerId: PeerId): Opt[Muxer] =
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let muxer = self.connManager.selectMuxer(peerId)
if muxer == nil:
return Opt.none(Muxer)
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trace "Reusing existing connection", muxer, direction = $muxer.connection.dir
return Opt.some(muxer)
proc internalConnect(
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self: Dialer,
peerId: Opt[PeerId],
addrs: seq[MultiAddress],
forceDial: bool,
reuseConnection = true,
dir = Direction.Out
): Future[Muxer] {.async: (raises: [CancelledError, LPError]).} =
if Opt.some(self.localPeerId) == peerId:
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raise newException(DialFailedError, "can't dial self!")
# Ensure there's only one in-flight attempt per peer
let lock = self.dialLock.mgetOrPut(peerId.get(default(PeerId)), newAsyncLock())
try:
await lock.acquire()
if reuseConnection:
peerId.withValue(peerId):
self.tryReusingConnection(peerId).withValue(mux):
return mux
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let slot = self.connManager.getOutgoingSlot(forceDial)
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let muxed =
try:
await self.dialAndUpgrade(peerId, addrs, dir)
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except CancelledError as exc:
slot.release()
raise exc
except LPError as exc:
slot.release()
raise exc
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slot.trackMuxer(muxed)
if isNil(muxed): # None of the addresses connected
raise newException(DialFailedError, "Unable to establish outgoing link")
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try:
self.connManager.storeMuxer(muxed)
await self.peerStore.identify(muxed)
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except CancelledError as exc:
trace "Failed to finish outgoung upgrade", err=exc.msg
await muxed.close()
raise exc
except LPError as exc:
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trace "Failed to finish outgoung upgrade", err=exc.msg
await muxed.close()
raise exc
return muxed
finally:
if lock.locked():
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try:
lock.release()
except AsyncLockError as exc:
raiseAssert("Releasing an acquired lock should work: " & $exc.msg)
method connect*(
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self: Dialer,
peerId: PeerId,
addrs: seq[MultiAddress],
forceDial = false,
reuseConnection = true,
dir = Direction.Out) {.async: (raises: [CancelledError, LPError]).} =
## connect remote peer without negotiating
## a protocol
##
if self.connManager.connCount(peerId) > 0 and reuseConnection:
return
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discard await self.internalConnect(
Opt.some(peerId), addrs, forceDial, reuseConnection, dir)
method connect*(
self: Dialer,
address: MultiAddress,
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allowUnknownPeerId = false
): Future[PeerId] {.async: (raises: [CancelledError, LPError]).} =
## Connects to a peer and retrieve its PeerId
parseFullAddress(address).toOpt().withValue(fullAddress):
return (await self.internalConnect(
Opt.some(fullAddress[0]),
@[fullAddress[1]],
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false)).connection.peerId
if allowUnknownPeerId == false:
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raise newException(DialFailedError,
"Address without PeerID and unknown peer id disabled!")
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(await self.internalConnect(
Opt.none(PeerId),
@[address],
false)).connection.peerId
proc negotiateStream(
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self: Dialer,
conn: Connection,
protos: seq[string]
): Future[Connection] {.async: (raises: [CancelledError, LPError]).} =
trace "Negotiating stream", conn, protos
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let selected = await MultistreamSelect.select(conn, protos)
if not protos.contains(selected):
await conn.closeWithEOF()
raise newException(DialFailedError, "Unable to select sub-protocol " & $protos)
return conn
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method tryDial*(
self: Dialer,
peerId: PeerId,
addrs: seq[MultiAddress]): Future[Opt[MultiAddress]] {.async.} =
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## Create a protocol stream in order to check
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## if a connection is possible.
## Doesn't use the Connection Manager to save it.
##
trace "Check if it can dial", peerId, addrs
try:
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let mux = await self.dialAndUpgrade(Opt.some(peerId), addrs)
if mux.isNil():
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raise newException(DialFailedError, "No valid multiaddress")
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await mux.close()
return mux.connection.observedAddr
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except CancelledError as exc:
raise exc
except CatchableError as exc:
raise newException(DialFailedError, exc.msg)
method dial*(
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self: Dialer,
peerId: PeerId,
protos: seq[string]
): Future[Connection] {.async: (raises: [CancelledError, LPError]).} =
## create a protocol stream over an
## existing connection
##
trace "Dialing (existing)", peerId, protos
let stream = await self.connManager.getStream(peerId)
if stream.isNil:
raise newException(DialFailedError, "Couldn't get muxed stream")
return await self.negotiateStream(stream, protos)
method dial*(
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self: Dialer,
peerId: PeerId,
addrs: seq[MultiAddress],
protos: seq[string],
forceDial = false
): Future[Connection] {.async: (raises: [CancelledError, LPError]).} =
## create a protocol stream and establish
## a connection if one doesn't exist already
##
var
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conn: Muxer
stream: Connection
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proc cleanup() {.async: (raises: []).} =
if not(isNil(stream)):
await stream.closeWithEOF()
if not(isNil(conn)):
await conn.close()
try:
trace "Dialing (new)", peerId, protos
conn = await self.internalConnect(Opt.some(peerId), addrs, forceDial)
trace "Opening stream", conn
stream = await self.connManager.getStream(conn)
if isNil(stream):
raise newException(DialFailedError,
"Couldn't get muxed stream")
return await self.negotiateStream(stream, protos)
except CancelledError as exc:
trace "Dial canceled", conn
await cleanup()
raise exc
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except LPError as exc:
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debug "Error dialing", conn, err = exc.msg
await cleanup()
raise exc
method addTransport*(self: Dialer, t: Transport) =
self.transports &= t
proc new*(
T: type Dialer,
localPeerId: PeerId,
connManager: ConnManager,
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peerStore: PeerStore,
transports: seq[Transport],
nameResolver: NameResolver = nil): Dialer =
T(localPeerId: localPeerId,
connManager: connManager,
transports: transports,
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peerStore: peerStore,
nameResolver: nameResolver)